diff --git a/.gitlab-ci.yml b/.gitlab-ci.yml index 025e865e47a1e1438865c32ee68846bbe2593a08..f48458c787062104bab6dd73e9d55eac3210397f 100644 --- a/.gitlab-ci.yml +++ b/.gitlab-ci.yml @@ -45,13 +45,15 @@ variables: ENCODER_TEST: "" DELTA_ODG: "" COMPARE_DMX: "" + SPLIT_COMPARISON: "" SKIP_REGRESSION_CHECK: "" FAILED_TESTCASES_LIST: "failed-testcases.txt" ERRORS_TESTCASES_LIST: "errors-testcases.txt" PYTEST_CACHE_ARTIFACT: "pytest_cache.zip" - FLOAT_REF_COMMIT_FILE: "float-ref-git-sha" - CUT_COMMIT_FILE: "CuT-git-sha" - MERGE_TARGET_COMMIT_FILE: "merge-target-git-sha" + MEASURES_FOR_REPORT: "MLD MAX_ABS_DIFF MIN_SSNR MIN_ODG" + FLOAT_REF_COMMIT_FILE: "float-ref-git-sha.txt" + CUT_COMMIT_FILE: "CuT-git-sha.txt" + MERGE_TARGET_COMMIT_FILE: "merge-target-git-sha.txt" MANUAL_PIPELINE_TYPE: description: "Type for the manual pipeline run. Use 'pytest-compare' to run comparison test against reference float codec." value: 'default' @@ -221,7 +223,7 @@ stages: - git pull origin $FLOAT_REF_BRANCH - *activate-debug-mode-info-if-set - make clean - - make -j + - make -j >> /dev/null - mv ./IVAS_cod ./$REF_ENCODER_PATH_FOR_BUILD_DO_NOT_MODIFY - mv ./IVAS_dec ./$REF_DECODER_PATH_FOR_BUILD_DO_NOT_MODIFY - mv ./IVAS_rend ./IVAS_rend_ref @@ -237,7 +239,7 @@ stages: - git pull origin $CI_MERGE_REQUEST_TARGET_BRANCH_NAME - *activate-debug-mode-info-if-set - make clean - - make -j + - make -j >> /dev/null - mv ./IVAS_cod ./$MERGE_TARGET_ENCODER_PATH_FOR_BUILD_DO_NOT_MODIFY - mv ./IVAS_dec ./$MERGE_TARGET_DECODER_PATH_FOR_BUILD_DO_NOT_MODIFY - mv ./IVAS_rend ./IVAS_rend_merge_target @@ -252,7 +254,7 @@ stages: ### build dut binaries - *activate-debug-mode-info-if-set - make clean - - make -j + - make -j >> /dev/null .build-and-create-float-ref-outputs: &build-and-create-float-ref-outputs - *build-float-ref-and-dut-binaries @@ -322,6 +324,10 @@ stages: - (Get-Content -Path "CMakeLists.txt") -replace '# \(add_compile_options\("\/WX"\)\)', '$1' | Set-Content -Path "CMakeLists.txt" - Get-ChildItem -Path "Workspace_msvc" -Filter "*.vcxproj" | ForEach-Object { (Get-Content -Path $_.FullName) -replace 'false', 'true' | Set-Content -Path $_.FullName } +.remove_unsupported_testcases: &remove_unsupported_testcases + # Note: the --use-main-pc-set arg should only be used on main-pc and float-pc branches + - python3 ci/remove_unsupported_testcases.py $PRM_FILES --use-main-pc-set + # --------------------------------------------------------------- # Job templates # --------------------------------------------------------------- @@ -362,12 +368,11 @@ stages: .rules-pytest-to-ref-short: rules: + - if: $PYTEST_MLD_SHORT # Set by scheduled pipeline - if: $CI_PIPELINE_SOURCE == 'web' && $MANUAL_PIPELINE_TYPE == "pytest-compare" - if: $CI_PIPELINE_SOURCE == 'push' && $CI_COMMIT_BRANCH == $CI_DEFAULT_BRANCH - if: $CI_PIPELINE_SOURCE == 'push' when: never - - if: $CI_PIPELINE_SOURCE == 'schedule' - when: never .rules-pytest-to-input-short: rules: @@ -519,10 +524,13 @@ stages: variables: # keep "mld" in artifact name for backwards compatibility reasons CSV_ARTIFACT_NAME: "mld--$CI_JOB_NAME-$CI_JOB_ID--sha-$CI_COMMIT_SHORT_SHA.csv" + CSV_ARTIFACT_SPLIT: "mld--split--$CI_JOB_NAME-$CI_JOB_ID--sha-$CI_COMMIT_SHORT_SHA.csv" MERGED_CSV_ARTIFACT_NAME: "$CI_JOB_NAME--merged_csv--$CI_JOB_ID.csv" PAGES_HTML_ARTIFACT_NAME: "$CI_JOB_NAME-index.html" SUMMARY_HTML_ARTIFACT_NAME: "summary_$CI_JOB_NAME.html" + SUMMARY_HTML_ARTIFACT_SPLIT: "summary_split_$CI_JOB_NAME.html" IMAGES_ARTIFACT_NAME: "images_$CI_JOB_NAME" + IMAGES_ARTIFACT_SPLIT: "images_split_$CI_JOB_NAME" script: - *print-common-info - *update-scripts-repo @@ -534,7 +542,7 @@ stages: - testcase_timeout=$TESTCASE_TIMEOUT_STV - fi - - python3 ci/remove_unsupported_testcases.py $PRM_FILES + - *remove_unsupported_testcases - if [ $LEVEL_SCALING != "1.0" ];then - *apply-testv-scaling - fi @@ -542,14 +550,16 @@ stages: - if [ "$COMPARE_DMX" = "true" ] || [ "$ENCODER_TEST" = "true" ]; then - BUILD_WITH_DEBUG_MODE_INFO="true" - fi - - *build-and-create-float-ref-outputs - - - comp_args="--mld --ssnr --odg" + - INV_LEVEL_SCALING=$(awk "BEGIN {print 1.0 / $LEVEL_SCALING}") + - comp_args="--mld --ssnr --odg --scalefac $INV_LEVEL_SCALING" - summary_args="MLD DIFF SSNR ODG" - REPORT_ARG="" - if [ "$ENCODER_TEST" = "true" ]; then comp_args="${comp_args} --enc_stats"; fi - - if [ "$DELTA_ODG" = "true" ]; then comp_args="${comp_args} --odg_bin"; summary_args="${summary_args} DELTA_ODG"; REPORT_ARG="--delta_odg"; fi + - if [ "$DELTA_ODG" = "true" ]; then comp_args="${comp_args} --odg_bin"; MEASURES_FOR_REPORT="$MEASURES_FOR_REPORT DELTA_ODG"; fi + - if [ "$SPLIT_COMPARISON" = "true" ]; then comp_args="${comp_args} --split-comparison"; fi + + - *build-and-create-float-ref-outputs # DMX comparison only in manual job with no other metrics - if [ "$COMPARE_DMX" = "true" ]; then @@ -563,10 +573,24 @@ stages: - python3 -m pytest --tb=no $TEST_SUITE -v --create_cut --html=report.html --self-contained-html --junit-xml=report-junit.xml $comp_args -n auto --testcase_timeout $testcase_timeout --ref_encoder_path $REF_ENCODER_PATH --ref_decoder_path $REF_DECODER_PATH --dut_encoder_path $DUT_ENCODER_PATH --dut_decoder_path $DUT_DECODER_PATH || exit_code=$? - zero_errors=$(cat report-junit.xml | grep -c 'errors="0"') || true - - python3 scripts/parse_xml_report.py report-junit.xml $CSV_ARTIFACT_NAME $REPORT_ARG - - mkdir $IMAGES_ARTIFACT_NAME - - for MEASURE in $summary_args;do python3 scripts/create_histogram_summary.py $CSV_ARTIFACT_NAME $IMAGES_ARTIFACT_NAME/summary_"$MEASURE".csv $IMAGES_ARTIFACT_NAME/summary_"$MEASURE".png --measure $MEASURE; done - - python3 ci/basop-pages/create_summary_page.py $SUMMARY_HTML_ARTIFACT_NAME $CI_JOB_ID $CI_JOB_NAME --measures $summary_args + ### create histograms + - if [ "$SPLIT_COMPARISON" = "true" ]; then + - python3 scripts/parse_xml_report.py report-junit.xml $CSV_ARTIFACT_NAME --split-csv-file $CSV_ARTIFACT_SPLIT + - else + - python3 scripts/parse_xml_report.py report-junit.xml $CSV_ARTIFACT_NAME + - fi + + # first for "whole" files comparison + - python3 scripts/create_histograms.py $CSV_ARTIFACT_NAME $IMAGES_ARTIFACT_NAME --measures $MEASURES_FOR_REPORT --write-out-histograms + - python3 ci/basop-pages/create_summary_page.py $SUMMARY_HTML_ARTIFACT_NAME $CI_JOB_ID $CI_JOB_NAME $IMAGES_ARTIFACT_NAME --measures $MEASURES_FOR_REPORT + + - if [ "$SPLIT_COMPARISON" = "true" ]; then + - python3 scripts/create_histograms.py $CSV_ARTIFACT_SPLIT $IMAGES_ARTIFACT_SPLIT --measures $MEASURES_FOR_REPORT --write-out-histograms + - python3 ci/basop-pages/create_summary_page.py $SUMMARY_HTML_ARTIFACT_SPLIT $CI_JOB_ID $CI_JOB_NAME $IMAGES_ARTIFACT_SPLIT --measures $MEASURES_FOR_REPORT + - else + # touch files to suppress warning for missing artifacts + - touch $CSV_ARTIFACT_SPLIT $IMAGES_ARTIFACT_SPLIT + - fi - if [ $USE_LTV -eq 1 ] && [ "$CI_COMMIT_BRANCH" == "$CI_DEFAULT_BRANCH" ]; then - id_previous=$(python3 ci/get_id_of_last_job_occurence.py $CI_DEFAULT_BRANCH $CI_JOB_NAME $CI_PROJECT_ID) @@ -606,9 +630,12 @@ stages: - report.html - $PAGES_HTML_ARTIFACT_NAME - $CSV_ARTIFACT_NAME + - $CSV_ARTIFACT_SPLIT - $MERGED_CSV_ARTIFACT_NAME - $SUMMARY_HTML_ARTIFACT_NAME + - $SUMMARY_HTML_ARTIFACT_SPLIT - $IMAGES_ARTIFACT_NAME + - $IMAGES_ARTIFACT_SPLIT expose_as: "pytest compare results" reports: junit: @@ -647,7 +674,7 @@ stages: - testcase_timeout=$TESTCASE_TIMEOUT_STV - fi - - python3 ci/remove_unsupported_testcases.py $PRM_FILES + - *remove_unsupported_testcases - python3 scripts/prepare_combined_format_inputs.py - if [ $LEVEL_SCALING != "1.0" ];then @@ -657,7 +684,7 @@ stages: - *build-float-ref-binaries - *build-merge-target-binaries - make clean - - make -j + - make -j >> /dev/null - *check-up-to-date-in-comparison-jobs - exit_code_target=0 @@ -665,7 +692,7 @@ stages: - exit_code=0 - rm -rf .pytest_cache || true - - python3 -m pytest --tb=no -q $TEST_SUITE -v --keep_files --create_cut --html=$HTML_REPORT --self-contained-html --junit-xml=$XML_REPORT --mld --ssnr --odg --ref_encoder_path $MERGE_TARGET_ENCODER_PATH --ref_decoder_path $MERGE_TARGET_DECODER_PATH --dut_encoder_path $DUT_ENCODER_PATH --dut_decoder_path $DUT_DECODER_PATH -n auto --testcase_timeout $testcase_timeout > pytest_log.txt || exit_code=$? + - python3 -m pytest --tb=no -q $TEST_SUITE -v --keep_files --create_cut --html=$HTML_REPORT --self-contained-html --junit-xml=$XML_REPORT --ref_encoder_path $MERGE_TARGET_ENCODER_PATH --ref_decoder_path $MERGE_TARGET_DECODER_PATH --dut_encoder_path $DUT_ENCODER_PATH --dut_decoder_path $DUT_DECODER_PATH -n auto --testcase_timeout $testcase_timeout > pytest_log.txt || exit_code=$? - if [ $exit_code -ne 0 ]; then - exit_code=$EXIT_CODE_NON_BE @@ -749,6 +776,10 @@ stages: script: - *print-common-info + # create empty files for all artifacts to suppress warnings in case of no regressions found or all is BE + - touch $XML_REPORT_BRANCH $XML_REPORT_MAIN $HTML_REPORT_BRANCH $HTML_REPORT_MAIN $CSV_BRANCH $CSV_MAIN $SUMMARY_HTML_ARTIFACT_NAME $FLOAT_REF_COMMIT_FILE $CUT_COMMIT_FILE $MERGE_TARGET_COMMIT_FILE regressions_crashes.csv regressions_MLD.csv regressions_MAX_ABS_DIFF.csv regressions_MIN_SSNR.csv regressions_MIN_ODG.csv improvements_crashes.csv improvements_MLD.csv improvements_MAX_ABS_DIFF.csv improvements_MIN_SSNR.csv improvements_MIN_ODG.csv + - mkdir $IMAGES_ARTIFACT_NAME + - set -euxo pipefail - if [ -s $FAILED_TESTCASES_LIST ]; then @@ -771,7 +802,7 @@ stages: - testcase_timeout=$TESTCASE_TIMEOUT_STV - fi - - python3 ci/remove_unsupported_testcases.py $PRM_FILES + - *remove_unsupported_testcases - if [ $LEVEL_SCALING != "1.0" ];then - *apply-testv-scaling - fi @@ -780,32 +811,34 @@ stages: - echo $CI_MERGE_REQUEST_TITLE > tmp.txt - allow_regressions_flag=$(grep -c --ignore-case "\[allow[ -]*regression\]" tmp.txt) || true + - INV_LEVEL_SCALING=$(awk "BEGIN {print 1.0 / $LEVEL_SCALING}") + - comp_args="--mld --ssnr --odg --scalefac $INV_LEVEL_SCALING" + ### run branch first # this per default builds the branch and the reference and creates the reference outputs - *build-and-create-float-ref-outputs - *check-up-to-date-in-comparison-jobs # need to restore cache again - *overwrite-pytest-cache-with-artifact - - python3 -m pytest --tb=no -q $TEST_SUITE -v --keep_files --create_cut --html=$HTML_REPORT_BRANCH --self-contained-html --junit-xml=$XML_REPORT_BRANCH --mld --ssnr --odg --ref_encoder_path $REF_ENCODER_PATH --ref_decoder_path $REF_DECODER_PATH --dut_encoder_path $DUT_ENCODER_PATH --dut_decoder_path $DUT_DECODER_PATH -n auto --testcase_timeout $testcase_timeout || true + - python3 -m pytest --tb=no -q $TEST_SUITE -v --keep_files --create_cut --html=$HTML_REPORT_BRANCH --self-contained-html --junit-xml=$XML_REPORT_BRANCH $comp_args --ref_encoder_path $REF_ENCODER_PATH --ref_decoder_path $REF_DECODER_PATH --dut_encoder_path $DUT_ENCODER_PATH --dut_decoder_path $DUT_DECODER_PATH -n auto --testcase_timeout $testcase_timeout || true - zero_errors_branch=$(cat $XML_REPORT_BRANCH | grep -c 'errors="0"') || true - python3 scripts/parse_xml_report.py $XML_REPORT_BRANCH $CSV_BRANCH # Store branch outputs for comparison - mv tests/dut tests/dut_branch - # create the summary based on the branch - - mkdir $IMAGES_ARTIFACT_NAME - - for MEASURE in MLD DIFF SSNR ODG;do python3 scripts/create_histogram_summary.py $CSV_BRANCH $IMAGES_ARTIFACT_NAME/summary_"$MEASURE".csv $IMAGES_ARTIFACT_NAME/summary_"$MEASURE".png --measure $MEASURE; done - - python3 ci/basop-pages/create_summary_page.py $SUMMARY_HTML_ARTIFACT_NAME $CI_JOB_ID $CI_JOB_NAME + # create the summary based on the branch only + - python3 scripts/create_histograms.py $CSV_BRANCH $IMAGES_ARTIFACT_NAME --measures $MEASURES_FOR_REPORT + - python3 ci/basop-pages/create_summary_page.py $SUMMARY_HTML_ARTIFACT_NAME $CI_JOB_ID $CI_JOB_NAME $IMAGES_ARTIFACT_NAME --measures $MEASURES_FOR_REPORT ### run main now - git checkout $CI_MERGE_REQUEST_TARGET_BRANCH_NAME - git pull origin $CI_MERGE_REQUEST_TARGET_BRANCH_NAME - make clean - - make -j + - make -j >> /dev/null # need to restore cache again - *overwrite-pytest-cache-with-artifact - - python3 -m pytest --tb=no -q $TEST_SUITE -v --keep_files --create_cut --html=$HTML_REPORT_MAIN --self-contained-html --junit-xml=$XML_REPORT_MAIN --mld --ssnr --odg --ref_encoder_path $REF_ENCODER_PATH --ref_decoder_path $REF_DECODER_PATH --dut_encoder_path $DUT_ENCODER_PATH --dut_decoder_path $DUT_DECODER_PATH -n auto --testcase_timeout $testcase_timeout || true + - python3 -m pytest --tb=no -q $TEST_SUITE -v --keep_files --create_cut --html=$HTML_REPORT_MAIN --self-contained-html --junit-xml=$XML_REPORT_MAIN $comp_args --ref_encoder_path $REF_ENCODER_PATH --ref_decoder_path $REF_DECODER_PATH --dut_encoder_path $DUT_ENCODER_PATH --dut_decoder_path $DUT_DECODER_PATH -n auto --testcase_timeout $testcase_timeout || true - python3 scripts/parse_xml_report.py $XML_REPORT_MAIN $CSV_MAIN ### compare the two csv files for regressions @@ -860,12 +893,12 @@ stages: - $MERGE_TARGET_COMMIT_FILE - regressions_crashes.csv - regressions_MLD.csv - - regressions_MAXIMUM_ABS_DIFF.csv + - regressions_MAX_ABS_DIFF.csv - regressions_MIN_SSNR.csv - regressions_MIN_ODG.csv - improvements_crashes.csv - improvements_MLD.csv - - improvements_MAXIMUM_ABS_DIFF.csv + - improvements_MAX_ABS_DIFF.csv - improvements_MIN_SSNR.csv - improvements_MIN_ODG.csv expose_as: "pytest compare results" @@ -890,18 +923,18 @@ stages: - *print-common-info - *update-scripts-repo - *copy-ltv-files-to-testv-dir - - python3 ci/remove_unsupported_testcases.py $PRM_FILES + - *remove_unsupported_testcases - *build-float-ref-binaries - set -euxo pipefail - make_args="CLANG=$CLANG_NUM" - if [[ $CLANG_NUM == 3 ]]; then - - export UBSAN_OPTIONS="suppressions=scripts/ubsan_basop.supp,report_error_type=1" + - export UBSAN_OPTIONS="suppressions=scripts/ubsan_basop.supp,report_error_type=1,print_stacktrace=1" - python3 scripts/basop_create_ignorelist_for_ubsan.py - make_args="$make_args IGNORELIST=1" - fi - make clean - - make -j $make_args + - make -j $make_args >> /dev/null - testcase_timeout_arg="--testcase_timeout $TESTCASE_TIMEOUT_LTV_SANITIZERS" # disable per-testcase timeout for msan to evaluate what is going on that it takes so long - if [[ $CLANG_NUM = 1 ]]; then @@ -937,16 +970,19 @@ stages: - testcase_timeout=$TESTCASE_TIMEOUT_STV - fi - - python3 ci/remove_unsupported_testcases.py $PRM_FILES + - *remove_unsupported_testcases - if [ $LEVEL_SCALING != "1.0" ];then - *apply-testv-scaling - fi - *build-float-ref-and-dut-binaries + - INV_LEVEL_SCALING=$(awk "BEGIN {print 1.0 / $LEVEL_SCALING}") + - comp_args="--mld --ssnr --odg --scalefac $INV_LEVEL_SCALING" + ### run pytest - exit_code=0 - - python3 -m pytest --tb=no $TEST_SUITE -v --create_cut --html=report-ref.html --self-contained-html --junit-xml=report-junit-ref.xml --mld --ssnr --odg -n auto --testcase_timeout $testcase_timeout --dut_encoder_path $REF_ENCODER_PATH --dut_decoder_path $REF_DECODER_PATH --compare_to_input || exit_code=$? - - python3 -m pytest --tb=no $TEST_SUITE -v --create_cut --html=report-dut.html --self-contained-html --junit-xml=report-junit-dut.xml --mld --ssnr --odg -n auto --testcase_timeout $testcase_timeout --dut_encoder_path $DUT_ENCODER_PATH --dut_decoder_path $DUT_DECODER_PATH --compare_to_input || exit_code=$? + - python3 -m pytest --tb=no $TEST_SUITE -v --create_cut --html=report-ref.html --self-contained-html --junit-xml=report-junit-ref.xml $comp_args -n auto --testcase_timeout $testcase_timeout --dut_encoder_path $REF_ENCODER_PATH --dut_decoder_path $REF_DECODER_PATH --compare_to_input || exit_code=$? + - python3 -m pytest --tb=no $TEST_SUITE -v --create_cut --html=report-dut.html --self-contained-html --junit-xml=report-junit-dut.xml $comp_args -n auto --testcase_timeout $testcase_timeout --dut_encoder_path $DUT_ENCODER_PATH --dut_decoder_path $DUT_DECODER_PATH --compare_to_input || exit_code=$? - zero_errors_ref=$(cat report-junit-ref.xml | grep -c 'errors="0"') || true - zero_errors_dut=$(cat report-junit-dut.xml | grep -c 'errors="0"') || true - python3 scripts/parse_xml_report.py report-junit-ref.xml report-ref.csv @@ -955,8 +991,8 @@ stages: # create summary - mkdir $IMAGES_ARTIFACT_NAME - - for MEASURE in MLD DIFF SSNR ODG;do python3 scripts/create_histogram_summary.py report-diff.csv $IMAGES_ARTIFACT_NAME/summary_"$MEASURE".csv $IMAGES_ARTIFACT_NAME/summary_"$MEASURE".png --measure $MEASURE --diff; done - - python3 ci/basop-pages/create_summary_page.py $SUMMARY_HTML_ARTIFACT_NAME $CI_JOB_ID $CI_JOB_NAME + - python3 scripts/create_histograms.py report-diff.csv $IMAGES_ARTIFACT_NAME --measures $MEASURES_FOR_REPORT --write-out-histograms --no-bins + - python3 ci/basop-pages/create_summary_page.py $SUMMARY_HTML_ARTIFACT_NAME $CI_JOB_ID $CI_JOB_NAME $IMAGES_ARTIFACT_NAME --measures $MEASURES_FOR_REPORT - exit 0 @@ -1197,6 +1233,7 @@ build-codec-linux-make: - .build-job-linux tags: - ivas-basop-linux + timeout: "10 minutes" script: - *print-common-info - *activate-Werror-linux @@ -1231,7 +1268,7 @@ build-codec-linux-instrumented-make: when: never extends: - .build-job-linux - timeout: "7 minutes" + timeout: "10 minutes" tags: - ivas-basop-linux script: @@ -1248,6 +1285,7 @@ build-codec-sanitizers-linux: - .rules-basis tags: - ivas-basop-linux + timeout: "10 minutes" script: - *update-scripts-repo - *print-common-info @@ -1265,7 +1303,7 @@ build-codec-windows-msbuild: when: never extends: - .build-job-windows - timeout: "7 minutes" + timeout: "10 minutes" tags: - ivas-windows script: @@ -1340,8 +1378,7 @@ split-rendering-pytest-on-merge-request: - .test-job-linux-needs-testv-dir - .rules-merge-request needs: ["build-codec-linux-make"] - # TODO: set reasonable timeout, will most likely take less - timeout: "30 minutes" + timeout: "45 minutes" stage: compare script: - *print-common-info @@ -1421,7 +1458,7 @@ split-rendering-pytest-on-merge-request: - *update-scripts-repo # a bit awkward: write to file + standard out first so that the error message is visivle in case of failure. Then fill the variable from the file - ci/get_float_ref_branch_name.sh $CI_MERGE_REQUEST_SOURCE_BRANCH_NAME | tee tmp_ref_branch.txt - - REFERENCE_BRANCH=$(cat tmp_ref_branch.txt) + - FLOAT_REF_BRANCH=$(cat tmp_ref_branch.txt) - fi ### jobs that check for bitexactness of fx encoder and decoder @@ -1547,6 +1584,7 @@ check-regressions-short-enc--10db: - .rules-mr-to-main-or-main-pc - .test-job-linux before_script: + - *set-reference-for-basop-port-branch - USE_LTV=0 - DUT_DECODER_PATH=./IVAS_dec_ref - TEST_SUITE="$SHORT_TEST_SUITE_ENCODER" @@ -1597,6 +1635,7 @@ check-regressions-short-dec--10db: - .rules-mr-to-main-or-main-pc - .test-job-linux before_script: + - *set-reference-for-basop-port-branch - USE_LTV=0 - DUT_ENCODER_PATH=./IVAS_cod_ref - TEST_SUITE="$SHORT_TEST_SUITE" @@ -1678,7 +1717,7 @@ ivas-pytest-enc-usan: before_script: - CLANG_NUM=3 - DUT_DECODER_PATH=./$REF_DECODER_PATH - - TEST_SUITE=$SHORT_TEST_SUITE_ENCODER + - TEST_SUITE=$LONG_TEST_SUITE_ENCODER <<: *ivas-pytest-sanitizers-anchor ### jobs that test flt encoder -> fx decoder @@ -1768,7 +1807,7 @@ ivas-pytest-dec-usan: before_script: - CLANG_NUM=3 - DUT_ENCODER_PATH=./$REF_ENCODER_PATH - - TEST_SUITE=$SHORT_TEST_SUITE + - TEST_SUITE=$LONG_TEST_SUITE_NO_RENDERER <<: *ivas-pytest-sanitizers-anchor # --------------------------------------------------------------- @@ -1784,6 +1823,7 @@ ivas-pytest-compare_ref-long-enc: - DUT_DECODER_PATH=./$REF_DECODER_PATH - TEST_SUITE="$LONG_TEST_SUITE_ENCODER" - LEVEL_SCALING=1.0 + - SPLIT_COMPARISON="true" <<: *ivas-pytest-anchor ivas-pytest-compare_ref-long-dec: @@ -1795,6 +1835,7 @@ ivas-pytest-compare_ref-long-dec: - DUT_ENCODER_PATH=./$REF_ENCODER_PATH - TEST_SUITE="$LONG_TEST_SUITE" - LEVEL_SCALING=1.0 + - SPLIT_COMPARISON="true" <<: *ivas-pytest-anchor ivas-pytest-compare_ref-long-enc-lev-10: @@ -1806,6 +1847,7 @@ ivas-pytest-compare_ref-long-enc-lev-10: - DUT_DECODER_PATH=./$REF_DECODER_PATH - TEST_SUITE="$LONG_TEST_SUITE_ENCODER" - LEVEL_SCALING=0.3162 + - SPLIT_COMPARISON="true" <<: *ivas-pytest-anchor ivas-pytest-compare_ref-long-dec-lev-10: @@ -1817,6 +1859,7 @@ ivas-pytest-compare_ref-long-dec-lev-10: - DUT_ENCODER_PATH=./$REF_ENCODER_PATH - TEST_SUITE="$LONG_TEST_SUITE" - LEVEL_SCALING=0.3162 + - SPLIT_COMPARISON="true" <<: *ivas-pytest-anchor ivas-pytest-compare_ref-long-enc-lev+10: @@ -1828,6 +1871,7 @@ ivas-pytest-compare_ref-long-enc-lev+10: - DUT_DECODER_PATH=./$REF_DECODER_PATH - TEST_SUITE="$LONG_TEST_SUITE_ENCODER" - LEVEL_SCALING=3.162 + - SPLIT_COMPARISON="true" <<: *ivas-pytest-anchor ivas-pytest-compare_ref-long-dec-lev+10: @@ -1839,6 +1883,7 @@ ivas-pytest-compare_ref-long-dec-lev+10: - DUT_ENCODER_PATH=./$REF_ENCODER_PATH - TEST_SUITE="$LONG_TEST_SUITE" - LEVEL_SCALING=3.162 + - SPLIT_COMPARISON="true" <<: *ivas-pytest-anchor ivas-smoke-test-saturation: @@ -1898,7 +1943,7 @@ coverage-test-on-main-scheduled: - *copy-ltv-files-to-testv-dir - *build-float-ref-binaries # Build DuT binaries with GCOV - - make clean + - make clean >> /dev/null - make GCOV=1 -j - cp IVAS_rend IVAS_rend_ref # Copy to ensure instrumented renderer is run in the first pytest call @@ -1958,7 +2003,7 @@ be-2-evs-26444: - *print-common-info - *update-scripts-repo - sed -i".bak" "s/\(#define EVS_FLOAT\)/\/\/\1/" lib_com/options.h - - make -j + - make -j >> /dev/null # copy over to never change the testvector dir - cp -r $EVS_BE_TEST_DIR_BASOP ./evs_be_test @@ -2022,7 +2067,7 @@ voip-be-on-merge-request: script: - *print-common-info - make clean - - make -j + - make -j >> /dev/null - python3 -m pytest tests/test_be_for_jbm_neutral_dly_profile.py @@ -2138,7 +2183,7 @@ ivas-pytest-on-merge-request: - *get-commits-behind-count - *check-commits-behind-count-in-compare-jobs - *merge-request-comparison-setup-codec - - python3 ci/remove_unsupported_testcases.py $PRM_FILES + - *remove_unsupported_testcases # some helper variables - "|| true" to prevent failures from grep not finding anything # write to temporary file as workaround for failures observed with piping echo @@ -2195,9 +2240,8 @@ ivas-pytest-on-merge-request: # this is a testing/maintenance mechanism to force getting the log history from a specific job id # see below in the concrete complexity jobs - if [ "$JOB_ID_INJECT" != "" ]; then job_id=$JOB_ID_INJECT; fi - - curl --request GET "https://forge.3gpp.org/rep/api/v4/projects/$CI_PROJECT_ID/jobs/$job_id/artifacts" --output artifacts.zip - - unzip artifacts.zip || true # this may fail on first run, when there are no artifacts there and the zip file is actually just "404"-html - - ls + - curl --silent --show-error --request GET "https://forge.3gpp.org/rep/api/v4/projects/$CI_PROJECT_ID/jobs/$job_id/artifacts" --output artifacts.zip + - unzip -qq artifacts.zip || true # this may fail on first run, when there are no artifacts there and the zip file is actually just "404"-html - public_dir="$CI_JOB_NAME-public" # if is needed to catch case when no artifact is there (first run), similarly as above - if [[ -d $public_dir ]]; then mv $public_dir/* wmops/; fi @@ -2208,8 +2252,8 @@ ivas-pytest-on-merge-request: ### 1.5.part: get the corresponding measurement from ivas-float-update - job_id=$(python3 ci/get_id_of_last_job_occurence.py ivas-float-update $CI_JOB_NAME $CI_PROJECT_ID) - echo $job_id - - curl --request GET "https://forge.3gpp.org/rep/api/v4/projects/$CI_PROJECT_ID/jobs/$job_id/artifacts" --output artifacts_ref.zip - - unzip -j artifacts_ref.zip "*latest_WMOPS.csv" || true + - curl --silent --show-error --request GET "https://forge.3gpp.org/rep/api/v4/projects/$CI_PROJECT_ID/jobs/$job_id/artifacts" --output artifacts_ref.zip + - unzip -qq -j artifacts_ref.zip "*latest_WMOPS.csv" || true # add file to arguments only if the artifact could be retrieved to prevent error later. - if [ -f latest_WMOPS.csv ]; then GET_WMOPS_ARGS="$GET_WMOPS_ARGS latest_WMOPS.csv"; fi @@ -2222,8 +2266,6 @@ ivas-pytest-on-merge-request: - mkdir $public_dir/logs # first move logs - log_files=$(cat $public_dir/graphs*.js | grep logFile | sed "s/.*\(wmops_newsletter_.*\.csv\).*/\1/g") - - echo $log_files - - ls wmops/logs - for f in $log_files; do [ -f wmops/logs/$f ] && mv wmops/logs/$f $public_dir/logs/$f; done # copy index page blueprint - cp ci/complexity_measurements/index_complexity.html ${public_dir}/index.html @@ -2231,7 +2273,16 @@ ivas-pytest-on-merge-request: - sed -i "s/IVAS FORMAT/IVAS $in_format to $out_format/g" ${public_dir}/index.html # do separately here to avoid overwrite complaints by mv - mv -f ci/complexity_measurements/style.css ${public_dir}/ - - ls $public_dir + +.complexity-measurements-report-summary: &complexity-measurements-report-summary + - *print-results-banner + - if [ $ret_val -eq 0 ]; then + - echo -e "No crashes occured.\nNo changes in complexity or memory usage (>1%) detected." + - elif [ $ret_val -eq 123 ]; then + - echo -e "Changes in complexity or memory usage (>1%) detected!!!\nNo crashes occured." + - else + - echo -e "Something went wrong in running the codec. Likely some modes were crashing." + - fi .complexity-template: extends: @@ -2247,13 +2298,18 @@ ivas-pytest-on-merge-request: - *update-ltv-repo - *build-float-ref-and-dut-binaries - *complexity-measurements-setup - - which coan + # delete previous jobs logfiles if present (-f flag ensures return calue of 0 even in first run where this folder is not present) + - rm -rf COMPLEXITY/logs + allow_failure: + exit_codes: + - 123 artifacts: name: "$CI_JOB_NAME--$CI_COMMIT_REF_NAME--sha-$CI_COMMIT_SHA" when: always expire_in: 2 week paths: - $CI_JOB_NAME-public + - COMPLEXITY/logs complexity-stereo-in-stereo-out: extends: @@ -2267,6 +2323,7 @@ complexity-stereo-in-stereo-out: - out_format=stereo - bash ci/complexity_measurements/getWmops.sh "$in_format" "$out_format" $GET_WMOPS_ARGS || ret_val=$? - *complexity-measurements-prepare-artifacts + - *complexity-measurements-report-summary - exit $ret_val complexity-ism-in-binaural-out: @@ -2284,6 +2341,7 @@ complexity-ism-in-binaural-out: - ret_val=0 - bash ci/complexity_measurements/getWmops.sh "ISM+1 ISM+2 ISM+3 ISM+4" "$out_format" $GET_WMOPS_ARGS || ret_val=$? - *complexity-measurements-prepare-artifacts + - *complexity-measurements-report-summary - exit $ret_val complexity-ism-in-binaural_room_ir-out: @@ -2301,6 +2359,7 @@ complexity-ism-in-binaural_room_ir-out: - ret_val=0 - bash ci/complexity_measurements/getWmops.sh "ISM+1 ISM+2 ISM+3 ISM+4" "$out_format" $GET_WMOPS_ARGS || ret_val=$? - *complexity-measurements-prepare-artifacts + - *complexity-measurements-report-summary - exit $ret_val complexity-ism-in-ext-out: @@ -2318,6 +2377,7 @@ complexity-ism-in-ext-out: - ret_val=0 - bash ci/complexity_measurements/getWmops.sh "ISM+1 ISM+2 ISM+3 ISM+4" "$out_format" $GET_WMOPS_ARGS || ret_val=$? - *complexity-measurements-prepare-artifacts + - *complexity-measurements-report-summary - exit $ret_val complexity-sba-hoa3-in-hoa3-out: @@ -2335,6 +2395,7 @@ complexity-sba-hoa3-in-hoa3-out: - ret_val=0 - bash ci/complexity_measurements/getWmops.sh "$in_format" "$out_format" $GET_WMOPS_ARGS || ret_val=$? - *complexity-measurements-prepare-artifacts + - *complexity-measurements-report-summary - exit $ret_val complexity-sba-hoa3-in-binaural-out: @@ -2352,6 +2413,7 @@ complexity-sba-hoa3-in-binaural-out: - ret_val=0 - bash ci/complexity_measurements/getWmops.sh "$in_format" "$out_format" $GET_WMOPS_ARGS || ret_val=$? - *complexity-measurements-prepare-artifacts + - *complexity-measurements-report-summary - exit $ret_val complexity-sba-hoa3-in-binaural_room_ir-out: @@ -2369,6 +2431,7 @@ complexity-sba-hoa3-in-binaural_room_ir-out: - ret_val=0 - bash ci/complexity_measurements/getWmops.sh "$in_format" "$out_format" $GET_WMOPS_ARGS || ret_val=$? - *complexity-measurements-prepare-artifacts + - *complexity-measurements-report-summary - exit $ret_val complexity-mc-in-7_1_4-out: @@ -2386,6 +2449,7 @@ complexity-mc-in-7_1_4-out: - ret_val=0 - bash ci/complexity_measurements/getWmops.sh "$in_format" "$out_format" $GET_WMOPS_ARGS || ret_val=$? - *complexity-measurements-prepare-artifacts + - *complexity-measurements-report-summary - exit $ret_val complexity-mc-in-binaural-out: @@ -2403,6 +2467,7 @@ complexity-mc-in-binaural-out: - ret_val=0 - bash ci/complexity_measurements/getWmops.sh "$in_format" "$out_format" $GET_WMOPS_ARGS || ret_val=$? - *complexity-measurements-prepare-artifacts + - *complexity-measurements-report-summary - exit $ret_val complexity-mc-in-binaural_room_ir-out: @@ -2420,6 +2485,7 @@ complexity-mc-in-binaural_room_ir-out: - ret_val=0 - bash ci/complexity_measurements/getWmops.sh "$in_format" "$out_format" $GET_WMOPS_ARGS || ret_val=$? - *complexity-measurements-prepare-artifacts + - *complexity-measurements-report-summary - exit $ret_val complexity-masa-in-ext-out: @@ -2437,6 +2503,7 @@ complexity-masa-in-ext-out: - ret_val=0 - bash ci/complexity_measurements/getWmops.sh "$in_format" "$out_format" $GET_WMOPS_ARGS || ret_val=$? - *complexity-measurements-prepare-artifacts + - *complexity-measurements-report-summary - exit $ret_val complexity-masa-in-binaural-out: @@ -2454,6 +2521,7 @@ complexity-masa-in-binaural-out: - ret_val=0 - bash ci/complexity_measurements/getWmops.sh "$in_format" "$out_format" $GET_WMOPS_ARGS || ret_val=$? - *complexity-measurements-prepare-artifacts + - *complexity-measurements-report-summary - exit $ret_val complexity-masa-in-hoa3-out: @@ -2471,6 +2539,7 @@ complexity-masa-in-hoa3-out: - ret_val=0 - bash ci/complexity_measurements/getWmops.sh "$in_format" "$out_format" $GET_WMOPS_ARGS || ret_val=$? - *complexity-measurements-prepare-artifacts + - *complexity-measurements-report-summary - exit $ret_val # complexity-omasa-in-ext-out: @@ -2488,6 +2557,7 @@ complexity-masa-in-hoa3-out: # - ret_val=0 # - bash ci/complexity_measurements/getWmops.sh "$in_format" "$out_format" $GET_WMOPS_ARGS || ret_val=$? # - *complexity-measurements-prepare-artifacts +# - *complexity-measurements-report-summary # - exit $ret_val complexity-omasa-in-binaural-out: @@ -2505,6 +2575,7 @@ complexity-omasa-in-binaural-out: - ret_val=0 - bash ci/complexity_measurements/getWmops.sh "$in_format" "$out_format" $GET_WMOPS_ARGS || ret_val=$? - *complexity-measurements-prepare-artifacts + - *complexity-measurements-report-summary - exit $ret_val complexity-omasa-in-hoa3-out: @@ -2522,6 +2593,7 @@ complexity-omasa-in-hoa3-out: - ret_val=0 - bash ci/complexity_measurements/getWmops.sh "$in_format" "$out_format" $GET_WMOPS_ARGS || ret_val=$? - *complexity-measurements-prepare-artifacts + - *complexity-measurements-report-summary - exit $ret_val complexity-StereoDmxEVS-stereo-in-mono-out: @@ -2539,6 +2611,7 @@ complexity-StereoDmxEVS-stereo-in-mono-out: - ret_val=0 - bash ci/complexity_measurements/getWmops.sh "$in_format" "$out_format" $GET_WMOPS_ARGS || ret_val=$? - *complexity-measurements-prepare-artifacts + - *complexity-measurements-report-summary - exit $ret_val # complexity-osba-in-ext-out: @@ -2554,6 +2627,7 @@ complexity-StereoDmxEVS-stereo-in-mono-out: # - ret_val=0 # - bash ci/complexity_measurements/getWmops.sh "$in_format" "$out_format" $GET_WMOPS_ARGS || ret_val=$? # - *complexity-measurements-prepare-artifacts +# - *complexity-measurements-report-summary # - exit $ret_val complexity-osba-in-binaural-out: @@ -2571,6 +2645,7 @@ complexity-osba-in-binaural-out: - ret_val=0 - bash ci/complexity_measurements/getWmops.sh "$in_format" "$out_format" $GET_WMOPS_ARGS || ret_val=$? - *complexity-measurements-prepare-artifacts + - *complexity-measurements-report-summary - exit $ret_val complexity-osba-in-binaural_room_ir-out: @@ -2588,6 +2663,7 @@ complexity-osba-in-binaural_room_ir-out: - ret_val=0 - bash ci/complexity_measurements/getWmops.sh "$in_format" "$out_format" $GET_WMOPS_ARGS || ret_val=$? - *complexity-measurements-prepare-artifacts + - *complexity-measurements-report-summary - exit $ret_val # job that sets up gitlab pages website diff --git a/CMakeLists.txt b/CMakeLists.txt index adc86288c6d2062591090decdb6954098185c923..e9a9afe760018616336ed183d7a984b21165f39c 100644 --- a/CMakeLists.txt +++ b/CMakeLists.txt @@ -29,7 +29,7 @@ # cmake --build . --config Release -cmake_minimum_required(VERSION 3.1) +cmake_minimum_required(VERSION 3.10) set(CMAKE_C_STANDARD 99) @@ -121,7 +121,7 @@ if(WMOPS) add_definitions("-DWMOPS=1") endif() -project(stereo-evs) +project(stereo-evs LANGUAGES C) set_property(GLOBAL PROPERTY USE_FOLDERS ON) # make Visual Studio projects look nicer include(CTest) diff --git a/Workspace_msvc/lib_com.vcxproj b/Workspace_msvc/lib_com.vcxproj index d64c05ecbdc622573524d118b152fe819a171d5b..b44f506e1087e79c05c8a5af879d00220246487d 100644 --- a/Workspace_msvc/lib_com.vcxproj +++ b/Workspace_msvc/lib_com.vcxproj @@ -138,7 +138,6 @@ - @@ -200,47 +199,46 @@ - - - - - - - - - - - - - - - + + + + + + + + + + + + + + + - - - - - + + + + + - + + - - - + + + - - - - - - - - + + + + + + + - @@ -281,7 +279,6 @@ - @@ -312,22 +309,30 @@ + + + - + + + + + + - + @@ -336,6 +341,7 @@ + diff --git a/Workspace_msvc/lib_com.vcxproj.filters b/Workspace_msvc/lib_com.vcxproj.filters index c58edbff66fed647de45957935168e3d43c45bca..fb912becb20bc6ec6b66c5497a8d666e20a5e1c2 100644 --- a/Workspace_msvc/lib_com.vcxproj.filters +++ b/Workspace_msvc/lib_com.vcxproj.filters @@ -1,81 +1,6 @@ - - common_ivas_c - - - common_ivas_c - - - common_ivas_c - - - common_ivas_c - - - common_ivas_c - - - common_ivas_c - - - common_ivas_c - - - common_ivas_c - - - common_ivas_c - - - common_ivas_c - - - common_ivas_c - - - common_ivas_c - - - common_ivas_c - - - common_ivas_c - - - common_ivas_c - - - common_ivas_c - - - common_ivas_c - - - common_ivas_c - - - common_ivas_c - - - common_ivas_c - - - common_ivas_c - - - common_ivas_c - - - common_ivas_c - - - common_ivas_c - - - common_ivas_c - common_all_c @@ -379,9 +304,6 @@ common_all_c - - common_all_c - common_all_c @@ -469,18 +391,6 @@ common_ivas_c - - common_ivas_c - - - common_ivas_c - - - common_ivas_c - - - common_ivas_c - common_ivas_c @@ -493,18 +403,12 @@ common_ivas_c - - common_ivas_c - common_all_c common_all_c - - common_all_c - common_all_c @@ -526,9 +430,6 @@ common_all_c - - common_all_c - common_all_c @@ -544,6 +445,98 @@ common_all_c + + common_ivas_c + + + common_ivas_c + + + common_ivas_c + + + common_ivas_c + + + common_ivas_c + + + common_ivas_c + + + common_ivas_c + + + common_ivas_c + + + common_ivas_c + + + common_ivas_c + + + common_ivas_c + + + common_ivas_c + + + common_ivas_c + + + common_ivas_c + + + common_ivas_c + + + common_ivas_c + + + common_ivas_c + + + common_ivas_c + + + common_ivas_c + + + common_ivas_c + + + common_ivas_c + + + common_ivas_c + + + common_ivas_c + + + common_ivas_c + + + common_ivas_c + + + common_ivas_c + + + common_ivas_c + + + common_ivas_c + + + common_ivas_c + + + common_ivas_c + + + @@ -579,18 +572,12 @@ common_h - - common_h - common_h common_h - - common_h - common_h @@ -628,8 +615,19 @@ common_h - common_all_c + common_h + + + + + + + + + + + diff --git a/Workspace_msvc/lib_dec.vcxproj b/Workspace_msvc/lib_dec.vcxproj index 60498497b8f1383a4b8deb5d0e700056f1e18b52..5c19bc811cc295a937124b8537dd239cb82d5758 100644 --- a/Workspace_msvc/lib_dec.vcxproj +++ b/Workspace_msvc/lib_dec.vcxproj @@ -145,22 +145,17 @@ - - - false - - @@ -176,9 +171,7 @@ - - @@ -191,12 +184,10 @@ - - @@ -216,74 +207,72 @@ - - - - + + + - - - - + + + + - - - - - - + + + + + + - - - - - - - - + + + + + + + - - - - - - - + + + + + + + - - - - + + + + - + - + - - - + + + - + - - - - + + + + - - - - - - + + + + + + @@ -310,18 +299,15 @@ - - - diff --git a/Workspace_msvc/lib_dec.vcxproj.filters b/Workspace_msvc/lib_dec.vcxproj.filters index cc75944150d8853254cef72ce7bb1881cc39508e..8a4fc4605a1170b9da66c90a81b8bdd4134573c7 100644 --- a/Workspace_msvc/lib_dec.vcxproj.filters +++ b/Workspace_msvc/lib_dec.vcxproj.filters @@ -8,9 +8,6 @@ decoder_evs_c - - decoder_evs_c - decoder_evs_c @@ -74,198 +71,51 @@ decoder_ivas_c - - decoder_ivas_c - - - decoder_ivas_c - - - decoder_ivas_c - decoder_ivas_c - - decoder_ivas_c - - - decoder_ivas_c - - - decoder_ivas_c - - - decoder_ivas_c - decoder_ivas_c decoder_ivas_c - - decoder_ivas_c - - - decoder_ivas_c - - - decoder_ivas_c - - - decoder_ivas_c - - - decoder_ivas_c - - - decoder_ivas_c - decoder_ivas_c decoder_ivas_c - - decoder_ivas_c - - - decoder_ivas_c - - - decoder_ivas_c - - - decoder_ivas_c - - - decoder_ivas_c - - - decoder_ivas_c - - - decoder_ivas_c - - - decoder_ivas_c - - - decoder_ivas_c - - - decoder_ivas_c - - - decoder_ivas_c - - - decoder_ivas_c - - - decoder_ivas_c - - - decoder_ivas_c - - - decoder_ivas_c - - - decoder_ivas_c - decoder_ivas_c - - decoder_ivas_c - - - decoder_ivas_c - - - decoder_ivas_c - - - decoder_ivas_c - decoder_ivas_c - - decoder_ivas_c - decoder_ivas_c - - decoder_ivas_c - decoder_ivas_c decoder_ivas_c - - decoder_ivas_c - - - decoder_ivas_c - - - decoder_ivas_c - decoder_ivas_c decoder_ivas_c - - decoder_ivas_c - decoder_ivas_c decoder_ivas_c - - decoder_ivas_c - - - decoder_ivas_c - - - decoder_ivas_c - - - decoder_ivas_c - decoder_ivas_c - - decoder_ivas_c - - - decoder_ivas_c - - - decoder_ivas_c - - - decoder_ivas_c - - - decoder_ivas_c - - - decoder_ivas_c - decoder_all_c @@ -275,36 +125,24 @@ decoder_all_c - - decoder_all_c - decoder_all_c decoder_all_c - - decoder_all_c - decoder_all_c decoder_all_c - - decoder_all_c - decoder_all_c decoder_all_c - - decoder_all_c - decoder_all_c @@ -320,15 +158,9 @@ decoder_all_c - - decoder_all_c - decoder_all_c - - decoder_all_c - decoder_all_c @@ -365,9 +197,6 @@ decoder_all_c - - decoder_all_c - decoder_all_c @@ -380,9 +209,6 @@ decoder_all_c - - decoder_all_c - decoder_all_c @@ -437,9 +263,6 @@ decoder_all_c - - decoder_all_c - decoder_all_c @@ -515,15 +338,9 @@ decoder_all_c - - decoder_all_c - decoder_all_c - - decoder_all_c - decoder_all_c @@ -542,9 +359,6 @@ decoder_all_c - - decoder_all_c - decoder_all_c @@ -560,6 +374,150 @@ decoder_all_c + + decoder_ivas_c + + + decoder_ivas_c + + + decoder_ivas_c + + + decoder_ivas_c + + + decoder_ivas_c + + + decoder_ivas_c + + + decoder_ivas_c + + + decoder_ivas_c + + + decoder_ivas_c + + + decoder_ivas_c + + + decoder_ivas_c + + + decoder_ivas_c + + + decoder_ivas_c + + + decoder_ivas_c + + + decoder_ivas_c + + + decoder_ivas_c + + + decoder_ivas_c + + + decoder_ivas_c + + + decoder_ivas_c + + + decoder_ivas_c + + + decoder_ivas_c + + + decoder_ivas_c + + + decoder_ivas_c + + + decoder_ivas_c + + + decoder_ivas_c + + + decoder_ivas_c + + + decoder_ivas_c + + + decoder_ivas_c + + + decoder_ivas_c + + + decoder_ivas_c + + + decoder_ivas_c + + + decoder_ivas_c + + + decoder_ivas_c + + + decoder_ivas_c + + + decoder_ivas_c + + + decoder_ivas_c + + + decoder_ivas_c + + + decoder_ivas_c + + + decoder_ivas_c + + + decoder_ivas_c + + + decoder_ivas_c + + + decoder_ivas_c + + + decoder_ivas_c + + + decoder_ivas_c + + + decoder_ivas_c + + + decoder_ivas_c + + + decoder_ivas_c + + + decoder_ivas_c + diff --git a/Workspace_msvc/lib_enc.vcxproj b/Workspace_msvc/lib_enc.vcxproj index 3b1004b285bb6373f1cae4902e57773c94324dda..eb9d1330e3142d06c6744a5dc771fe4e41b56d7a 100644 --- a/Workspace_msvc/lib_enc.vcxproj +++ b/Workspace_msvc/lib_enc.vcxproj @@ -215,127 +215,71 @@ - - - - - - - - - - - - - - + + + + + + + + + + + + + + - - - - - - - - - - - - - - - - - - + + + + + + + + + - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + - - - - @@ -373,19 +317,9 @@ - - - - - - - - - - - + diff --git a/Workspace_msvc/lib_enc.vcxproj.filters b/Workspace_msvc/lib_enc.vcxproj.filters index 0c3220178924f65ff87dfee9b4c2a57195bfd1d9..8990971637ef90b8f3a11fbd672278a29d3f89da 100644 --- a/Workspace_msvc/lib_enc.vcxproj.filters +++ b/Workspace_msvc/lib_enc.vcxproj.filters @@ -8,75 +8,39 @@ encoder_evs_c - - encoder_evs_c - encoder_evs_c - - encoder_evs_c - encoder_evs_c - - encoder_evs_c - encoder_evs_c - - encoder_evs_c - encoder_evs_c - - encoder_evs_c - encoder_evs_c - - encoder_evs_c - encoder_evs_c - - encoder_evs_c - encoder_evs_c - - encoder_evs_c - encoder_evs_c - - encoder_evs_c - encoder_evs_c - - encoder_evs_c - encoder_evs_c - - encoder_evs_c - encoder_evs_c - - encoder_evs_c - encoder_evs_c @@ -92,54 +56,33 @@ encoder_evs_c - - encoder_evs_c - encoder_evs_c encoder_evs_c - - encoder_evs_c - encoder_evs_c - - encoder_evs_c - encoder_evs_c - - encoder_evs_c - encoder_evs_c - - encoder_evs_c - encoder_evs_c encoder_evs_c - - encoder_evs_c - encoder_evs_c encoder_evs_c - - encoder_evs_c - encoder_evs_c @@ -164,174 +107,9 @@ encoder_evs_c - - encoder_ivas_c - - - encoder_ivas_c - - - encoder_ivas_c - - - encoder_ivas_c - - - encoder_ivas_c - - - encoder_ivas_c - - - encoder_ivas_c - - - encoder_ivas_c - - - encoder_ivas_c - - - encoder_ivas_c - - - encoder_ivas_c - - - encoder_ivas_c - - - encoder_ivas_c - - - encoder_ivas_c - - - encoder_ivas_c - - - encoder_ivas_c - - - encoder_ivas_c - - - encoder_ivas_c - - - encoder_ivas_c - - - encoder_ivas_c - - - encoder_ivas_c - - - encoder_ivas_c - - - encoder_ivas_c - - - encoder_ivas_c - - - encoder_ivas_c - - - encoder_ivas_c - - - encoder_ivas_c - - - encoder_ivas_c - - - encoder_ivas_c - - - encoder_ivas_c - - - encoder_ivas_c - - - encoder_ivas_c - encoder_ivas_c - - encoder_ivas_c - - - encoder_ivas_c - - - encoder_ivas_c - - - encoder_ivas_c - - - encoder_ivas_c - - - encoder_ivas_c - - - encoder_ivas_c - - - encoder_ivas_c - - - encoder_ivas_c - - - encoder_ivas_c - - - encoder_ivas_c - - - encoder_ivas_c - - - encoder_ivas_c - - - encoder_ivas_c - - - encoder_ivas_c - - - encoder_ivas_c - - - encoder_ivas_c - - - encoder_ivas_c - - - encoder_ivas_c - - - encoder_ivas_c - - - encoder_ivas_c - - - encoder_ivas_c - - - encoder_ivas_c - encoder_all_c @@ -347,135 +125,72 @@ encoder_all_c - - encoder_all_c - encoder_all_c - - encoder_all_c - encoder_all_c - - encoder_all_c - encoder_all_c - - encoder_all_c - encoder_all_c - - encoder_all_c - encoder_all_c - - encoder_all_c - encoder_all_c - - encoder_all_c - encoder_all_c - - encoder_all_c - encoder_all_c - - encoder_all_c - encoder_all_c - - encoder_all_c - encoder_all_c encoder_all_c - - encoder_all_c - encoder_all_c - - encoder_all_c - encoder_all_c - - encoder_all_c - encoder_all_c - - encoder_all_c - encoder_all_c - - encoder_all_c - encoder_all_c - - encoder_all_c - encoder_all_c - - encoder_all_c - encoder_all_c - - encoder_all_c - encoder_all_c - - encoder_all_c - encoder_all_c - - encoder_all_c - encoder_all_c encoder_all_c - - encoder_all_c - encoder_all_c @@ -494,9 +209,6 @@ encoder_all_c - - encoder_all_c - encoder_all_c @@ -506,27 +218,15 @@ encoder_all_c - - encoder_all_c - encoder_all_c - - encoder_all_c - encoder_all_c - - encoder_all_c - encoder_all_c - - encoder_all_c - encoder_all_c @@ -536,45 +236,24 @@ encoder_all_c - - encoder_all_c - encoder_all_c - - encoder_all_c - encoder_all_c - - encoder_all_c - encoder_all_c - - encoder_all_c - encoder_all_c - - encoder_all_c - encoder_all_c - - encoder_all_c - encoder_all_c - - encoder_all_c - encoder_all_c @@ -590,39 +269,21 @@ encoder_all_c - - encoder_all_c - encoder_all_c - - encoder_all_c - encoder_all_c - - encoder_all_c - encoder_all_c - - encoder_all_c - encoder_all_c - - encoder_all_c - encoder_all_c - - encoder_all_c - encoder_all_c @@ -632,27 +293,15 @@ encoder_all_c - - encoder_all_c - encoder_all_c - - encoder_all_c - encoder_all_c - - encoder_all_c - encoder_all_c - - encoder_all_c - encoder_all_c @@ -668,21 +317,12 @@ encoder_all_c - - encoder_all_c - encoder_all_c - - encoder_all_c - encoder_all_c - - encoder_all_c - encoder_all_c @@ -719,9 +359,6 @@ encoder_all_c - - encoder_all_c - encoder_all_c @@ -800,6 +437,171 @@ encoder_all_c + + encoder_ivas_c + + + encoder_ivas_c + + + encoder_ivas_c + + + encoder_ivas_c + + + encoder_ivas_c + + + encoder_ivas_c + + + encoder_ivas_c + + + encoder_ivas_c + + + encoder_ivas_c + + + encoder_ivas_c + + + encoder_ivas_c + + + encoder_ivas_c + + + encoder_ivas_c + + + encoder_ivas_c + + + encoder_ivas_c + + + encoder_ivas_c + + + encoder_ivas_c + + + encoder_ivas_c + + + encoder_ivas_c + + + encoder_ivas_c + + + encoder_ivas_c + + + encoder_ivas_c + + + encoder_ivas_c + + + encoder_ivas_c + + + encoder_ivas_c + + + encoder_ivas_c + + + encoder_ivas_c + + + encoder_ivas_c + + + encoder_ivas_c + + + encoder_ivas_c + + + encoder_ivas_c + + + encoder_ivas_c + + + encoder_ivas_c + + + encoder_ivas_c + + + encoder_ivas_c + + + encoder_ivas_c + + + encoder_ivas_c + + + encoder_ivas_c + + + encoder_ivas_c + + + encoder_ivas_c + + + encoder_ivas_c + + + encoder_ivas_c + + + encoder_ivas_c + + + encoder_ivas_c + + + encoder_ivas_c + + + encoder_ivas_c + + + encoder_ivas_c + + + encoder_ivas_c + + + encoder_ivas_c + + + encoder_ivas_c + + + encoder_ivas_c + + + encoder_ivas_c + + + encoder_ivas_c + + + encoder_ivas_c + + + encoder_ivas_c + diff --git a/Workspace_msvc/lib_rend.vcxproj b/Workspace_msvc/lib_rend.vcxproj index 5b50ade13794292b7a227438fb13fc42d311b24e..17b82663162d0b2d58e628269ecbaef86ab3c4cc 100644 --- a/Workspace_msvc/lib_rend.vcxproj +++ b/Workspace_msvc/lib_rend.vcxproj @@ -136,49 +136,49 @@ - - - - - - + + + + + + - - - - - - - - - - - - - - - + + + + + + + + + + + + + + + - - - - - - - - - - - - - - - - + + + + + + + + + + + + + + + + - + @@ -208,4 +208,4 @@ - \ No newline at end of file + diff --git a/Workspace_msvc/lib_rend.vcxproj.filters b/Workspace_msvc/lib_rend.vcxproj.filters index 01f3dfb74b19aaa5bbfbce01fa14d68eaf0e5af8..5c4a4901111136b5ce1c1406701ffe10e156b86b 100644 --- a/Workspace_msvc/lib_rend.vcxproj.filters +++ b/Workspace_msvc/lib_rend.vcxproj.filters @@ -2,132 +2,129 @@ - + rend_c - + rend_c - + rend_c - + rend_c - + rend_c - + rend_c - + rend_c - + rend_c - + rend_c - + rend_c - + rend_c - + rend_c - + rend_c - + rend_c - + rend_c - + rend_c - + rend_c - + rend_c - + rend_c - + rend_c - + rend_c - + rend_c - + rend_c - + rend_c - + rend_c - + rend_c - + rend_c - + rend_c - + rend_c - + rend_c - + rend_c - + rend_c - + rend_c - + rend_c - + rend_c - + rend_c - + rend_c - + rend_c - + rend_c - + rend_c - - rend_h - rend_h @@ -143,7 +140,7 @@ rend_h - + rend_h diff --git a/apps/decoder.c b/apps/decoder.c index 2bff1fab63cf31dc613e8088f4dd11bb527e8a6f..37e3cc760810beb1334d37b3ad30b037d2f09eb1 100644 --- a/apps/decoder.c +++ b/apps/decoder.c @@ -1289,7 +1289,23 @@ static bool parseCmdlIVAS_dec( * Mandatory input arguments *-----------------------------------------------------------------*/ - if ( i < argc - 3 ) + if ( i < argc - 4 ) + { + for ( i = 1; i < argc; i++ ) + { + if ( argv[i][0] == '-' ) + { + fprintf( stderr, "Error: Wrong order of command-line arguments (optional arguments are first)\n\n" ); + usage_dec(); + return false; + } + } + + fprintf( stderr, "Error: Too many mandatory command-line arguments\n\n" ); + usage_dec(); + return false; + } + else if ( i < argc - 3 ) { arg->outputConfig = cmdline2config( argv[i] ); if ( arg->outputConfig == IVAS_AUDIO_CONFIG_LS_CUSTOM ) diff --git a/apps/renderer.c b/apps/renderer.c index 365d45689594fa4b631994aa7e77fd1106fe69f6..2a14e28112fff7f6554da1f6fb5e718149acc74a 100644 --- a/apps/renderer.c +++ b/apps/renderer.c @@ -323,7 +323,7 @@ static const CmdLnParser_Option cliOptions[] = { .description = "LFE panning matrix. File (CSV table) containing a matrix of dimensions [ num_input_lfe x num_output_channels ] with elements specifying linear routing gain (like --gain, -g). \nIf specified, overrides the output LFE position option and the default behavior which attempts to map input to output LFE channel(s)" }, { .id = CmdLnOptionId_noDelayCmp, - .match = "no_delay_comparison", + .match = "no_delay_compensation", .matchShort = "no_delay_cmp", .description = "[flag] Turn off delay compensation", }, @@ -837,10 +837,8 @@ int main( lfeRoutingConfigs[i] = NULL; } -#ifdef FIX_DISCLAIMER IVAS_REND_PrintDisclaimer(); -#endif CmdlnArgs args = parseCmdlnArgs( argc, argv ); if ( args.nonDiegeticPan && !( ( args.inConfig.numAudioObjects == 0 && args.inConfig.multiChannelBuses[0].audioConfig == IVAS_AUDIO_CONFIG_MONO ) || @@ -1009,7 +1007,6 @@ int main( exit( -1 ); } -#ifdef FIX_DISCLAIMER fprintf( stdout, "Input audio file: %s\n", args.inputFilePath ); fprintf( stdout, "Output audio file: %s\n\n", args.outputFilePath ); @@ -1052,7 +1049,6 @@ int main( exit( -1 ); } -#endif /* === Configure === */ if ( ( error = IVAS_REND_InitConfig( hIvasRend, args.outConfig.audioConfig ) ) != IVAS_ERR_OK ) { @@ -3918,8 +3914,8 @@ static void convertInputBuffer_fx( ++i; } } - *out_q_factor = in_q_factor; #ifdef SPLIT_REND_WITH_HEAD_ROT + *out_q_factor = in_q_factor; } #endif diff --git a/lib_com/ari_hm_fx.c b/lib_com/ari_hm_fx.c index 076bc8d9263d1f59c12906bb796fcbd5f245f591..46f8ecea1e78f01164d1acc083f29d3c26b145b6 100644 --- a/lib_com/ari_hm_fx.c +++ b/lib_com/ari_hm_fx.c @@ -10,7 +10,6 @@ #include "basop_util.h" #include "rom_com.h" #include "prot_fx.h" -#include "prot.h" #define GET_ADJ2( T, L, F ) ( ( ( L ) << ( F ) ) - ( T ) ) void UnmapIndex( diff --git a/lib_com/arith_coder_fx.c b/lib_com/arith_coder_fx.c index de22a7cf34863a72a79c2ba62661753766146176..846b4dceab0befaa6257563eda540e785fb7c1d9 100644 --- a/lib_com/arith_coder_fx.c +++ b/lib_com/arith_coder_fx.c @@ -6,7 +6,6 @@ #include #include "options.h" #include "prot_fx.h" -#include "prot.h" #include "basop_util.h" #include "basop_proto_func.h" #include "cnst.h" diff --git a/lib_com/basop32.c b/lib_com/basop32.c index 7fab246607e316ca3e688971e6b850277fe9576c..20dbe663e6f5379f61062595a096af00c50480dc 100644 --- a/lib_com/basop32.c +++ b/lib_com/basop32.c @@ -2563,10 +2563,8 @@ Word16 shr_ro( Word16 var1, Word16 var2, Flag *Overflow ) { var_out = shr_o( var1, var2, Overflow ); -#ifdef FIX_1049_SHR_RO_COMPLEXITY #ifdef WMOPS multiCounter[currCounter].shr--; -#endif #endif if ( var2 > 0 ) { @@ -2577,13 +2575,11 @@ Word16 shr_ro( Word16 var1, Word16 var2, Flag *Overflow ) } } -#ifdef FIX_1049_SHR_RO_COMPLEXITY #ifdef WMOPS multiCounter[currCounter].shr_r++; #endif BASOP_CHECK(); -#endif return ( var_out ); } diff --git a/lib_com/basop_tcx_utils.c b/lib_com/basop_tcx_utils.c index 378faae0f912a9af3b62e846b29ec38b8fbb44d4..8038c4f91e44fa3d4f3be746e03c2e3f1a7816ce 100644 --- a/lib_com/basop_tcx_utils.c +++ b/lib_com/basop_tcx_utils.c @@ -40,7 +40,7 @@ #include "cnst.h" #include "basop_proto_func.h" #include "stl.h" -#include "prot.h" +#include "prot_fx.h" #include "rom_com.h" #define WMC_TOOL_SKIP diff --git a/lib_com/basop_util.c b/lib_com/basop_util.c index b7ee35ab3652df0a2c64aa61715c992dd4f96808..ec15e9769bde64635ccb2196c7ec7932c6d08e5d 100644 --- a/lib_com/basop_util.c +++ b/lib_com/basop_util.c @@ -1062,6 +1062,414 @@ Word32 BASOP_Util_Divide3232_Scale_cadence( Word32 x, Word32 y, Word16 *s ) return z; } +#ifdef DIV32_OPT_NEWTON +Word32 div_w_newton( Word32 num, Word32 den ); +/* +Table of 256 precalculated estimates to be used by the "div_w_newton" +function using the Newton/Raphson method. +Note: The first table value (for denominator near 0x40000000) is not fully +accurate and should not be used. +*/ +Word32 div_w_newton_lookup[256] = { + /* Precalculated rounded results for 0x40000000 / b with b in [0x40000000 ... 0x7FFFFFFF] */ + 0x7FFFFFFF, // 1.000000000000000 i=0 0.5 / 0.5+0/512 (b=0x40000000) + 0x7F807F80, // 0.996108949416342 i=1 0.5 / 0.5+1/512 (b=0x40400000) + 0x7F01FC07, // 0.992248062015504 i=2 0.5 / 0.5+2/512 (b=0x40800000) + 0x7E8472A8, // 0.988416988416988 i=3 0.5 / 0.5+3/512 (b=0x40C00000) + 0x7E07E07E, // 0.984615384615385 i=4 0.5 / 0.5+4/512 (b=0x41000000) + 0x7D8C42B2, // 0.980842911877395 i=5 0.5 / 0.5+5/512 (b=0x41400000) + 0x7D119679, // 0.977099236641221 i=6 0.5 / 0.5+6/512 (b=0x41800000) + 0x7C97D910, // 0.973384030418251 i=7 0.5 / 0.5+7/512 (b=0x41C00000) + 0x7C1F07C1, // 0.969696969696970 i=8 0.5 / 0.5+8/512 (b=0x42000000) + 0x7BA71FE1, // 0.966037735849057 i=9 0.5 / 0.5+9/512 (b=0x42400000) + 0x7B301ECC, // 0.962406015037594 i=10 0.5 / 0.5+10/512 (b=0x42800000) + 0x7ABA01EA, // 0.958801498127341 i=11 0.5 / 0.5+11/512 (b=0x42C00000) + 0x7A44C6AF, // 0.955223880597015 i=12 0.5 / 0.5+12/512 (b=0x43000000) + 0x79D06A96, // 0.951672862453532 i=13 0.5 / 0.5+13/512 (b=0x43400000) + 0x795CEB24, // 0.948148148148148 i=14 0.5 / 0.5+14/512 (b=0x43800000) + 0x78EA45E7, // 0.944649446494465 i=15 0.5 / 0.5+15/512 (b=0x43C00000) + 0x78787878, // 0.941176470588235 i=16 0.5 / 0.5+16/512 (b=0x44000000) + 0x78078078, // 0.937728937728938 i=17 0.5 / 0.5+17/512 (b=0x44400000) + 0x77975B8F, // 0.934306569343066 i=18 0.5 / 0.5+18/512 (b=0x44800000) + 0x77280772, // 0.930909090909091 i=19 0.5 / 0.5+19/512 (b=0x44C00000) + 0x76B981DA, // 0.927536231884058 i=20 0.5 / 0.5+20/512 (b=0x45000000) + 0x764BC88C, // 0.924187725631769 i=21 0.5 / 0.5+21/512 (b=0x45400000) + 0x75DED952, // 0.920863309352518 i=22 0.5 / 0.5+22/512 (b=0x45800000) + 0x7572B201, // 0.917562724014337 i=23 0.5 / 0.5+23/512 (b=0x45C00000) + 0x75075075, // 0.914285714285714 i=24 0.5 / 0.5+24/512 (b=0x46000000) + 0x749CB28F, // 0.911032028469751 i=25 0.5 / 0.5+25/512 (b=0x46400000) + 0x7432D63D, // 0.907801418439716 i=26 0.5 / 0.5+26/512 (b=0x46800000) + 0x73C9B971, // 0.904593639575972 i=27 0.5 / 0.5+27/512 (b=0x46C00000) + 0x73615A24, // 0.901408450704225 i=28 0.5 / 0.5+28/512 (b=0x47000000) + 0x72F9B658, // 0.898245614035088 i=29 0.5 / 0.5+29/512 (b=0x47400000) + 0x7292CC15, // 0.895104895104895 i=30 0.5 / 0.5+30/512 (b=0x47800000) + 0x722C996B, // 0.891986062717770 i=31 0.5 / 0.5+31/512 (b=0x47C00000) + 0x71C71C71, // 0.888888888888889 i=32 0.5 / 0.5+32/512 (b=0x48000000) + 0x71625344, // 0.885813148788927 i=33 0.5 / 0.5+33/512 (b=0x48400000) + 0x70FE3C07, // 0.882758620689655 i=34 0.5 / 0.5+34/512 (b=0x48800000) + 0x709AD4E4, // 0.879725085910653 i=35 0.5 / 0.5+35/512 (b=0x48C00000) + 0x70381C0E, // 0.876712328767123 i=36 0.5 / 0.5+36/512 (b=0x49000000) + 0x6FD60FBA, // 0.873720136518771 i=37 0.5 / 0.5+37/512 (b=0x49400000) + 0x6F74AE26, // 0.870748299319728 i=38 0.5 / 0.5+38/512 (b=0x49800000) + 0x6F13F596, // 0.867796610169492 i=39 0.5 / 0.5+39/512 (b=0x49C00000) + 0x6EB3E453, // 0.864864864864865 i=40 0.5 / 0.5+40/512 (b=0x4A000000) + 0x6E5478AC, // 0.861952861952862 i=41 0.5 / 0.5+41/512 (b=0x4A400000) + 0x6DF5B0F7, // 0.859060402684564 i=42 0.5 / 0.5+42/512 (b=0x4A800000) + 0x6D978B8E, // 0.856187290969900 i=43 0.5 / 0.5+43/512 (b=0x4AC00000) + 0x6D3A06D3, // 0.853333333333333 i=44 0.5 / 0.5+44/512 (b=0x4B000000) + 0x6CDD212B, // 0.850498338870432 i=45 0.5 / 0.5+45/512 (b=0x4B400000) + 0x6C80D901, // 0.847682119205298 i=46 0.5 / 0.5+46/512 (b=0x4B800000) + 0x6C252CC7, // 0.844884488448845 i=47 0.5 / 0.5+47/512 (b=0x4BC00000) + 0x6BCA1AF2, // 0.842105263157895 i=48 0.5 / 0.5+48/512 (b=0x4C000000) + 0x6B6FA1FE, // 0.839344262295082 i=49 0.5 / 0.5+49/512 (b=0x4C400000) + 0x6B15C06B, // 0.836601307189543 i=50 0.5 / 0.5+50/512 (b=0x4C800000) + 0x6ABC74BE, // 0.833876221498371 i=51 0.5 / 0.5+51/512 (b=0x4CC00000) + 0x6A63BD81, // 0.831168831168831 i=52 0.5 / 0.5+52/512 (b=0x4D000000) + 0x6A0B9944, // 0.828478964401295 i=53 0.5 / 0.5+53/512 (b=0x4D400000) + 0x69B4069B, // 0.825806451612903 i=54 0.5 / 0.5+54/512 (b=0x4D800000) + 0x695D041D, // 0.823151125401929 i=55 0.5 / 0.5+55/512 (b=0x4DC00000) + 0x69069069, // 0.820512820512820 i=56 0.5 / 0.5+56/512 (b=0x4E000000) + 0x68B0AA1F, // 0.817891373801917 i=57 0.5 / 0.5+57/512 (b=0x4E400000) + 0x685B4FE5, // 0.815286624203822 i=58 0.5 / 0.5+58/512 (b=0x4E800000) + 0x68068068, // 0.812698412698413 i=59 0.5 / 0.5+59/512 (b=0x4EC00000) + 0x67B23A54, // 0.810126582278481 i=60 0.5 / 0.5+60/512 (b=0x4F000000) + 0x675E7C5D, // 0.807570977917981 i=61 0.5 / 0.5+61/512 (b=0x4F400000) + 0x670B453B, // 0.805031446540881 i=62 0.5 / 0.5+62/512 (b=0x4F800000) + 0x66B893A9, // 0.802507836990596 i=63 0.5 / 0.5+63/512 (b=0x4FC00000) + 0x66666666, // 0.800000000000000 i=64 0.5 / 0.5+64/512 (b=0x50000000) + 0x6614BC36, // 0.797507788161994 i=65 0.5 / 0.5+65/512 (b=0x50400000) + 0x65C393E0, // 0.795031055900621 i=66 0.5 / 0.5+66/512 (b=0x50800000) + 0x6572EC2F, // 0.792569659442725 i=67 0.5 / 0.5+67/512 (b=0x50C00000) + 0x6522C3F3, // 0.790123456790123 i=68 0.5 / 0.5+68/512 (b=0x51000000) + 0x64D319FE, // 0.787692307692308 i=69 0.5 / 0.5+69/512 (b=0x51400000) + 0x6483ED27, // 0.785276073619632 i=70 0.5 / 0.5+70/512 (b=0x51800000) + 0x64353C48, // 0.782874617737003 i=71 0.5 / 0.5+71/512 (b=0x51C00000) + 0x63E7063E, // 0.780487804878049 i=72 0.5 / 0.5+72/512 (b=0x52000000) + 0x639949EB, // 0.778115501519757 i=73 0.5 / 0.5+73/512 (b=0x52400000) + 0x634C0634, // 0.775757575757576 i=74 0.5 / 0.5+74/512 (b=0x52800000) + 0x62FF3A01, // 0.773413897280967 i=75 0.5 / 0.5+75/512 (b=0x52C00000) + 0x62B2E43D, // 0.771084337349398 i=76 0.5 / 0.5+76/512 (b=0x53000000) + 0x626703D8, // 0.768768768768769 i=77 0.5 / 0.5+77/512 (b=0x53400000) + 0x621B97C2, // 0.766467065868264 i=78 0.5 / 0.5+78/512 (b=0x53800000) + 0x61D09EF3, // 0.764179104477612 i=79 0.5 / 0.5+79/512 (b=0x53C00000) + 0x61861861, // 0.761904761904762 i=80 0.5 / 0.5+80/512 (b=0x54000000) + 0x613C0309, // 0.759643916913947 i=81 0.5 / 0.5+81/512 (b=0x54400000) + 0x60F25DEA, // 0.757396449704142 i=82 0.5 / 0.5+82/512 (b=0x54800000) + 0x60A92806, // 0.755162241887906 i=83 0.5 / 0.5+83/512 (b=0x54C00000) + 0x60606060, // 0.752941176470588 i=84 0.5 / 0.5+84/512 (b=0x55000000) + 0x60180601, // 0.750733137829912 i=85 0.5 / 0.5+85/512 (b=0x55400000) + 0x5FD017F4, // 0.748538011695906 i=86 0.5 / 0.5+86/512 (b=0x55800000) + 0x5F889545, // 0.746355685131195 i=87 0.5 / 0.5+87/512 (b=0x55C00000) + 0x5F417D05, // 0.744186046511628 i=88 0.5 / 0.5+88/512 (b=0x56000000) + 0x5EFACE48, // 0.742028985507246 i=89 0.5 / 0.5+89/512 (b=0x56400000) + 0x5EB48823, // 0.739884393063584 i=90 0.5 / 0.5+90/512 (b=0x56800000) + 0x5E6EA9AE, // 0.737752161383285 i=91 0.5 / 0.5+91/512 (b=0x56C00000) + 0x5E293205, // 0.735632183908046 i=92 0.5 / 0.5+92/512 (b=0x57000000) + 0x5DE42046, // 0.733524355300860 i=93 0.5 / 0.5+93/512 (b=0x57400000) + 0x5D9F7390, // 0.731428571428571 i=94 0.5 / 0.5+94/512 (b=0x57800000) + 0x5D5B2B08, // 0.729344729344729 i=95 0.5 / 0.5+95/512 (b=0x57C00000) + 0x5D1745D1, // 0.727272727272727 i=96 0.5 / 0.5+96/512 (b=0x58000000) + 0x5CD3C315, // 0.725212464589235 i=97 0.5 / 0.5+97/512 (b=0x58400000) + 0x5C90A1FD, // 0.723163841807910 i=98 0.5 / 0.5+98/512 (b=0x58800000) + 0x5C4DE1B6, // 0.721126760563380 i=99 0.5 / 0.5+99/512 (b=0x58C00000) + 0x5C0B8170, // 0.719101123595506 i=100 0.5 / 0.5+100/512 (b=0x59000000) + 0x5BC9805B, // 0.717086834733894 i=101 0.5 / 0.5+101/512 (b=0x59400000) + 0x5B87DDAD, // 0.715083798882682 i=102 0.5 / 0.5+102/512 (b=0x59800000) + 0x5B46989A, // 0.713091922005571 i=103 0.5 / 0.5+103/512 (b=0x59C00000) + 0x5B05B05B, // 0.711111111111111 i=104 0.5 / 0.5+104/512 (b=0x5A000000) + 0x5AC5242A, // 0.709141274238227 i=105 0.5 / 0.5+105/512 (b=0x5A400000) + 0x5A84F345, // 0.707182320441989 i=106 0.5 / 0.5+106/512 (b=0x5A800000) + 0x5A451CEA, // 0.705234159779614 i=107 0.5 / 0.5+107/512 (b=0x5AC00000) + 0x5A05A05A, // 0.703296703296703 i=108 0.5 / 0.5+108/512 (b=0x5B000000) + 0x59C67CD8, // 0.701369863013699 i=109 0.5 / 0.5+109/512 (b=0x5B400000) + 0x5987B1A9, // 0.699453551912568 i=110 0.5 / 0.5+110/512 (b=0x5B800000) + 0x59493E14, // 0.697547683923706 i=111 0.5 / 0.5+111/512 (b=0x5BC00000) + 0x590B2164, // 0.695652173913043 i=112 0.5 / 0.5+112/512 (b=0x5C000000) + 0x58CD5AE2, // 0.693766937669377 i=113 0.5 / 0.5+113/512 (b=0x5C400000) + 0x588FE9DC, // 0.691891891891892 i=114 0.5 / 0.5+114/512 (b=0x5C800000) + 0x5852CDA0, // 0.690026954177898 i=115 0.5 / 0.5+115/512 (b=0x5CC00000) + 0x58160581, // 0.688172043010753 i=116 0.5 / 0.5+116/512 (b=0x5D000000) + 0x57D990D0, // 0.686327077747989 i=117 0.5 / 0.5+117/512 (b=0x5D400000) + 0x579D6EE3, // 0.684491978609626 i=118 0.5 / 0.5+118/512 (b=0x5D800000) + 0x57619F0F, // 0.682666666666667 i=119 0.5 / 0.5+119/512 (b=0x5DC00000) + 0x572620AE, // 0.680851063829787 i=120 0.5 / 0.5+120/512 (b=0x5E000000) + 0x56EAF319, // 0.679045092838196 i=121 0.5 / 0.5+121/512 (b=0x5E400000) + 0x56B015AC, // 0.677248677248677 i=122 0.5 / 0.5+122/512 (b=0x5E800000) + 0x567587C4, // 0.675461741424802 i=123 0.5 / 0.5+123/512 (b=0x5EC00000) + 0x563B48C2, // 0.673684210526316 i=124 0.5 / 0.5+124/512 (b=0x5F000000) + 0x56015805, // 0.671916010498688 i=125 0.5 / 0.5+125/512 (b=0x5F400000) + 0x55C7B4F1, // 0.670157068062827 i=126 0.5 / 0.5+126/512 (b=0x5F800000) + 0x558E5EE9, // 0.668407310704961 i=127 0.5 / 0.5+127/512 (b=0x5FC00000) + 0x55555555, // 0.666666666666667 i=128 0.5 / 0.5+128/512 (b=0x60000000) + 0x551C979A, // 0.664935064935065 i=129 0.5 / 0.5+129/512 (b=0x60400000) + 0x54E42523, // 0.663212435233161 i=130 0.5 / 0.5+130/512 (b=0x60800000) + 0x54ABFD5A, // 0.661498708010336 i=131 0.5 / 0.5+131/512 (b=0x60C00000) + 0x54741FAB, // 0.659793814432990 i=132 0.5 / 0.5+132/512 (b=0x61000000) + 0x543C8B84, // 0.658097686375321 i=133 0.5 / 0.5+133/512 (b=0x61400000) + 0x54054054, // 0.656410256410256 i=134 0.5 / 0.5+134/512 (b=0x61800000) + 0x53CE3D8B, // 0.654731457800512 i=135 0.5 / 0.5+135/512 (b=0x61C00000) + 0x5397829C, // 0.653061224489796 i=136 0.5 / 0.5+136/512 (b=0x62000000) + 0x53610EFB, // 0.651399491094148 i=137 0.5 / 0.5+137/512 (b=0x62400000) + 0x532AE21C, // 0.649746192893401 i=138 0.5 / 0.5+138/512 (b=0x62800000) + 0x52F4FB76, // 0.648101265822785 i=139 0.5 / 0.5+139/512 (b=0x62C00000) + 0x52BF5A81, // 0.646464646464647 i=140 0.5 / 0.5+140/512 (b=0x63000000) + 0x5289FEB5, // 0.644836272040302 i=141 0.5 / 0.5+141/512 (b=0x63400000) + 0x5254E78E, // 0.643216080402010 i=142 0.5 / 0.5+142/512 (b=0x63800000) + 0x52201488, // 0.641604010025063 i=143 0.5 / 0.5+143/512 (b=0x63C00000) + 0x51EB851E, // 0.640000000000000 i=144 0.5 / 0.5+144/512 (b=0x64000000) + 0x51B738D1, // 0.638403990024938 i=145 0.5 / 0.5+145/512 (b=0x64400000) + 0x51832F1F, // 0.636815920398010 i=146 0.5 / 0.5+146/512 (b=0x64800000) + 0x514F678B, // 0.635235732009926 i=147 0.5 / 0.5+147/512 (b=0x64C00000) + 0x511BE195, // 0.633663366336634 i=148 0.5 / 0.5+148/512 (b=0x65000000) + 0x50E89CC2, // 0.632098765432099 i=149 0.5 / 0.5+149/512 (b=0x65400000) + 0x50B59897, // 0.630541871921182 i=150 0.5 / 0.5+150/512 (b=0x65800000) + 0x5082D499, // 0.628992628992629 i=151 0.5 / 0.5+151/512 (b=0x65C00000) + 0x50505050, // 0.627450980392157 i=152 0.5 / 0.5+152/512 (b=0x66000000) + 0x501E0B44, // 0.625916870415648 i=153 0.5 / 0.5+153/512 (b=0x66400000) + 0x4FEC04FE, // 0.624390243902439 i=154 0.5 / 0.5+154/512 (b=0x66800000) + 0x4FBA3D0A, // 0.622871046228710 i=155 0.5 / 0.5+155/512 (b=0x66C00000) + 0x4F88B2F3, // 0.621359223300971 i=156 0.5 / 0.5+156/512 (b=0x67000000) + 0x4F576646, // 0.619854721549637 i=157 0.5 / 0.5+157/512 (b=0x67400000) + 0x4F265691, // 0.618357487922705 i=158 0.5 / 0.5+158/512 (b=0x67800000) + 0x4EF58364, // 0.616867469879518 i=159 0.5 / 0.5+159/512 (b=0x67C00000) + 0x4EC4EC4E, // 0.615384615384615 i=160 0.5 / 0.5+160/512 (b=0x68000000) + 0x4E9490E1, // 0.613908872901679 i=161 0.5 / 0.5+161/512 (b=0x68400000) + 0x4E6470B0, // 0.612440191387560 i=162 0.5 / 0.5+162/512 (b=0x68800000) + 0x4E348B4D, // 0.610978520286396 i=163 0.5 / 0.5+163/512 (b=0x68C00000) + 0x4E04E04E, // 0.609523809523810 i=164 0.5 / 0.5+164/512 (b=0x69000000) + 0x4DD56F47, // 0.608076009501188 i=165 0.5 / 0.5+165/512 (b=0x69400000) + 0x4DA637CF, // 0.606635071090047 i=166 0.5 / 0.5+166/512 (b=0x69800000) + 0x4D77397E, // 0.605200945626478 i=167 0.5 / 0.5+167/512 (b=0x69C00000) + 0x4D4873EC, // 0.603773584905660 i=168 0.5 / 0.5+168/512 (b=0x6A000000) + 0x4D19E6B3, // 0.602352941176471 i=169 0.5 / 0.5+169/512 (b=0x6A400000) + 0x4CEB916D, // 0.600938967136150 i=170 0.5 / 0.5+170/512 (b=0x6A800000) + 0x4CBD73B5, // 0.599531615925059 i=171 0.5 / 0.5+171/512 (b=0x6AC00000) + 0x4C8F8D28, // 0.598130841121495 i=172 0.5 / 0.5+172/512 (b=0x6B000000) + 0x4C61DD63, // 0.596736596736597 i=173 0.5 / 0.5+173/512 (b=0x6B400000) + 0x4C346404, // 0.595348837209302 i=174 0.5 / 0.5+174/512 (b=0x6B800000) + 0x4C0720AB, // 0.593967517401392 i=175 0.5 / 0.5+175/512 (b=0x6BC00000) + 0x4BDA12F6, // 0.592592592592593 i=176 0.5 / 0.5+176/512 (b=0x6C000000) + 0x4BAD3A87, // 0.591224018475751 i=177 0.5 / 0.5+177/512 (b=0x6C400000) + 0x4B809701, // 0.589861751152074 i=178 0.5 / 0.5+178/512 (b=0x6C800000) + 0x4B542804, // 0.588505747126437 i=179 0.5 / 0.5+179/512 (b=0x6CC00000) + 0x4B27ED36, // 0.587155963302752 i=180 0.5 / 0.5+180/512 (b=0x6D000000) + 0x4AFBE639, // 0.585812356979405 i=181 0.5 / 0.5+181/512 (b=0x6D400000) + 0x4AD012B4, // 0.584474885844749 i=182 0.5 / 0.5+182/512 (b=0x6D800000) + 0x4AA4724B, // 0.583143507972665 i=183 0.5 / 0.5+183/512 (b=0x6DC00000) + 0x4A7904A7, // 0.581818181818182 i=184 0.5 / 0.5+184/512 (b=0x6E000000) + 0x4A4DC96E, // 0.580498866213152 i=185 0.5 / 0.5+185/512 (b=0x6E400000) + 0x4A22C04A, // 0.579185520361991 i=186 0.5 / 0.5+186/512 (b=0x6E800000) + 0x49F7E8E2, // 0.577878103837472 i=187 0.5 / 0.5+187/512 (b=0x6EC00000) + 0x49CD42E2, // 0.576576576576577 i=188 0.5 / 0.5+188/512 (b=0x6F000000) + 0x49A2CDF3, // 0.575280898876405 i=189 0.5 / 0.5+189/512 (b=0x6F400000) + 0x497889C2, // 0.573991031390135 i=190 0.5 / 0.5+190/512 (b=0x6F800000) + 0x494E75FA, // 0.572706935123042 i=191 0.5 / 0.5+191/512 (b=0x6FC00000) + 0x49249249, // 0.571428571428571 i=192 0.5 / 0.5+192/512 (b=0x70000000) + 0x48FADE5C, // 0.570155902004454 i=193 0.5 / 0.5+193/512 (b=0x70400000) + 0x48D159E2, // 0.568888888888889 i=194 0.5 / 0.5+194/512 (b=0x70800000) + 0x48A8048A, // 0.567627494456763 i=195 0.5 / 0.5+195/512 (b=0x70C00000) + 0x487EDE04, // 0.566371681415929 i=196 0.5 / 0.5+196/512 (b=0x71000000) + 0x4855E601, // 0.565121412803532 i=197 0.5 / 0.5+197/512 (b=0x71400000) + 0x482D1C31, // 0.563876651982379 i=198 0.5 / 0.5+198/512 (b=0x71800000) + 0x48048048, // 0.562637362637363 i=199 0.5 / 0.5+199/512 (b=0x71C00000) + 0x47DC11F7, // 0.561403508771930 i=200 0.5 / 0.5+200/512 (b=0x72000000) + 0x47B3D0F1, // 0.560175054704595 i=201 0.5 / 0.5+201/512 (b=0x72400000) + 0x478BBCEC, // 0.558951965065502 i=202 0.5 / 0.5+202/512 (b=0x72800000) + 0x4763D59C, // 0.557734204793028 i=203 0.5 / 0.5+203/512 (b=0x72C00000) + 0x473C1AB6, // 0.556521739130435 i=204 0.5 / 0.5+204/512 (b=0x73000000) + 0x47148BF0, // 0.555314533622560 i=205 0.5 / 0.5+205/512 (b=0x73400000) + 0x46ED2901, // 0.554112554112554 i=206 0.5 / 0.5+206/512 (b=0x73800000) + 0x46C5F19F, // 0.552915766738661 i=207 0.5 / 0.5+207/512 (b=0x73C00000) + 0x469EE584, // 0.551724137931034 i=208 0.5 / 0.5+208/512 (b=0x74000000) + 0x46780467, // 0.550537634408602 i=209 0.5 / 0.5+209/512 (b=0x74400000) + 0x46514E02, // 0.549356223175966 i=210 0.5 / 0.5+210/512 (b=0x74800000) + 0x462AC20E, // 0.548179871520343 i=211 0.5 / 0.5+211/512 (b=0x74C00000) + 0x46046046, // 0.547008547008547 i=212 0.5 / 0.5+212/512 (b=0x75000000) + 0x45DE2864, // 0.545842217484009 i=213 0.5 / 0.5+213/512 (b=0x75400000) + 0x45B81A25, // 0.544680851063830 i=214 0.5 / 0.5+214/512 (b=0x75800000) + 0x45923543, // 0.543524416135881 i=215 0.5 / 0.5+215/512 (b=0x75C00000) + 0x456C797D, // 0.542372881355932 i=216 0.5 / 0.5+216/512 (b=0x76000000) + 0x4546E68F, // 0.541226215644820 i=217 0.5 / 0.5+217/512 (b=0x76400000) + 0x45217C38, // 0.540084388185654 i=218 0.5 / 0.5+218/512 (b=0x76800000) + 0x44FC3A34, // 0.538947368421053 i=219 0.5 / 0.5+219/512 (b=0x76C00000) + 0x44D72044, // 0.537815126050420 i=220 0.5 / 0.5+220/512 (b=0x77000000) + 0x44B22E27, // 0.536687631027254 i=221 0.5 / 0.5+221/512 (b=0x77400000) + 0x448D639D, // 0.535564853556485 i=222 0.5 / 0.5+222/512 (b=0x77800000) + 0x4468C066, // 0.534446764091858 i=223 0.5 / 0.5+223/512 (b=0x77C00000) + 0x44444444, // 0.533333333333333 i=224 0.5 / 0.5+224/512 (b=0x78000000) + 0x441FEEF8, // 0.532224532224532 i=225 0.5 / 0.5+225/512 (b=0x78400000) + 0x43FBC043, // 0.531120331950207 i=226 0.5 / 0.5+226/512 (b=0x78800000) + 0x43D7B7EA, // 0.530020703933747 i=227 0.5 / 0.5+227/512 (b=0x78C00000) + 0x43B3D5AF, // 0.528925619834711 i=228 0.5 / 0.5+228/512 (b=0x79000000) + 0x43901956, // 0.527835051546392 i=229 0.5 / 0.5+229/512 (b=0x79400000) + 0x436C82A2, // 0.526748971193416 i=230 0.5 / 0.5+230/512 (b=0x79800000) + 0x43491158, // 0.525667351129363 i=231 0.5 / 0.5+231/512 (b=0x79C00000) + 0x4325C53E, // 0.524590163934426 i=232 0.5 / 0.5+232/512 (b=0x7A000000) + 0x43029E1A, // 0.523517382413088 i=233 0.5 / 0.5+233/512 (b=0x7A400000) + 0x42DF9BB0, // 0.522448979591837 i=234 0.5 / 0.5+234/512 (b=0x7A800000) + 0x42BCBDC8, // 0.521384928716904 i=235 0.5 / 0.5+235/512 (b=0x7AC00000) + 0x429A0429, // 0.520325203252033 i=236 0.5 / 0.5+236/512 (b=0x7B000000) + 0x42776E9A, // 0.519269776876268 i=237 0.5 / 0.5+237/512 (b=0x7B400000) + 0x4254FCE4, // 0.518218623481781 i=238 0.5 / 0.5+238/512 (b=0x7B800000) + 0x4232AECD, // 0.517171717171717 i=239 0.5 / 0.5+239/512 (b=0x7BC00000) + 0x42108421, // 0.516129032258065 i=240 0.5 / 0.5+240/512 (b=0x7C000000) + 0x41EE7CA6, // 0.515090543259557 i=241 0.5 / 0.5+241/512 (b=0x7C400000) + 0x41CC9829, // 0.514056224899598 i=242 0.5 / 0.5+242/512 (b=0x7C800000) + 0x41AAD671, // 0.513026052104208 i=243 0.5 / 0.5+243/512 (b=0x7CC00000) + 0x4189374B, // 0.512000000000000 i=244 0.5 / 0.5+244/512 (b=0x7D000000) + 0x4167BA81, // 0.510978043912176 i=245 0.5 / 0.5+245/512 (b=0x7D400000) + 0x41465FDF, // 0.509960159362550 i=246 0.5 / 0.5+246/512 (b=0x7D800000) + 0x41252730, // 0.508946322067594 i=247 0.5 / 0.5+247/512 (b=0x7DC00000) + 0x41041041, // 0.507936507936508 i=248 0.5 / 0.5+248/512 (b=0x7E000000) + 0x40E31ADE, // 0.506930693069307 i=249 0.5 / 0.5+249/512 (b=0x7E400000) + 0x40C246D4, // 0.505928853754941 i=250 0.5 / 0.5+250/512 (b=0x7E800000) + 0x40A193F1, // 0.504930966469428 i=251 0.5 / 0.5+251/512 (b=0x7EC00000) + 0x40810204, // 0.503937007874016 i=252 0.5 / 0.5+252/512 (b=0x7F000000) + 0x406090D9, // 0.502946954813359 i=253 0.5 / 0.5+253/512 (b=0x7F400000) + 0x40404040, // 0.501960784313725 i=254 0.5 / 0.5+254/512 (b=0x7F800000) + 0x40201008 // 0.500978473581213 i=255 0.5 / 0.5+255/512 (b=0x7FC00000) +}; + + +/* + * Fractional multiplication of signed a and b, both in Q31. The result is doubled. + * Note: in this test, saturation is not needed. + * BASOP weights: 3 + */ + +static Word32 L_dmult( Word32 L_var1, Word32 L_var2 ) +{ + Word64 L64_var1 = W_mult0_32_32( L_var1, L_var2 ); + L64_var1 = W_shr( L64_var1, 30 ); + return W_extract_l( L64_var1 ); +} + +/* + * 32 by 32 bit division, following the Newton / Raphson method. + * Usage of this low-level procedure by the caller: + * 1. Numerator can use the full range of signed 32-bit datatypes: 0x80000000...0x7FFFFFFF + * Note: Since is not normalized here, but it is multplied to the reciprocal of the + * denominator, the caller should use a normalized and handle any exponent outside. + * 2. Denominator must be normalized into range 0x40000001 to 0x7FFFFFFF (all positive) + * Note: In case of den=0x40000000, the caller is not allowed to call the division routine, + since the result is known. + * Note: num / 0x40000000 equals to num with exp += 1. + * 3. The result is in range 0x40000000 to 0x7FFFFFFF, finally multiplied by . + * BASOP weights: 24 (incl. L_dmult) + */ + +Word32 div_w_newton( Word32 num, Word32 den ) +{ + Word32 x0, x1, x2, x3, diff, result; + + x0 = div_w_newton_lookup[sub( extract_l( L_shr( den, 22 ) ), 256 )]; + move32(); + + diff = L_sub( 0x40000000, Mpy_32_32( den, x0 ) ); + + x1 = L_add( x0, L_dmult( x0, diff ) ); + diff = L_sub( 0x40000000, Mpy_32_32( den, x1 ) ); + + x2 = L_add( x1, L_dmult( x1, diff ) ); + diff = L_sub( 0x40000000, Mpy_32_32( den, x2 ) ); + + x3 = L_add( x2, L_dmult( x2, diff ) ); + + result = Mpy_32_32( num, x3 ); + + return result; +} + +/* + * 32 / 32 division + * Usage of this global procedure by the caller: + * 1. Numerator can use the full range of signed 32-bit datatypes: 0x80000000...0x7FFFFFFF + * Note: Since is not normalized here, but it is multplied to the reciprocal of the + * denominator, the caller should use a normalized and handle any exponent outside. + * 2. Denominator can use the full range of signed 32-bit datatypes: 0x80000000...0x7FFFFFFF + * except den=0x00000000. In case of 0x80000000, it becomes internally negated to 0x7FFFFFFF. + * 3. The result is 0x00000000 (*s=0)for equals 0x00000000. + * The result is rather left aligned, with up to 1 bit headroom. + * 4. The result exponent is stored in s[0] + * BASOP weights: 41 (incl. div_w_newton) + */ + +Word32 BASOP_Util_Divide3232_Scale_newton( Word32 x, Word32 y, Word16 *s ) +{ + Word32 z; + Word16 sx; + Word16 sy; + Word32 sign; + + assert( y != (Word32) 0 ); + + /* Early exit, if numerator is zero */ + IF( x == (Word32) 0 ) + { + *s = 0; + return ( (Word32) 0 ); + } + +#if 0 + sign = L_xor( x, y ); /* check (sign < 0) for result negation */ + + if ( x < 0 ) + { + x = L_negate( x ); + } +#else + IF( EQ_32( y, 0x80000000 ) ) + { + /* Division by -1.0: same as negation of numerator */ + /* Return normalized negated numerator */ + sx = norm_l( x ); + x = L_shl( x, sx ); + *s = negate( sx ); + return L_negate( x ); + } + sign = y; + move32(); +#endif + if ( y < 0 ) + { + y = L_negate( y ); + } + + /* Normalize numerator */ + sx = norm_l( x ); + x = L_shl( x, sx ); + + /* Normalize denominator */ + sy = norm_l( y ); + y = L_shl( y, sy ); + + /* Store exponent: + 1 for div_w_newton computing 0.5*num/den */ + *s = sub( add( sy, 1 ), sx ); + move16(); + + /* Special treatment for den=0x40000000 */ + /* Result is known: z=2*num */ + IF( EQ_32( y, 0x40000000 ) ) + { + if ( sign < 0 ) + { + x = L_negate( x ); + } + return x; + } + + /* Invoke division applying Newton/Raphson-Algorithm */ + z = div_w_newton( x, y ); + + if ( sign < 0 ) + { + z = L_negate( z ); + } + + return z; +} +#endif /* DIV32_OPT_NEWTON */ + Word16 BASOP_Util_Divide3232_Scale( Word32 x, Word32 y, Word16 *s ) { Word16 z; diff --git a/lib_com/basop_util.h b/lib_com/basop_util.h index a6db7dc8d62ced0c28ff5010bf7ef9513eb04c5e..b1d4b5fc18da6e9657c30667fb42609b8b1980e3 100644 --- a/lib_com/basop_util.h +++ b/lib_com/basop_util.h @@ -333,6 +333,13 @@ Word32 BASOP_Util_Divide3232_Scale_cadence( Word32 x, /*!< i : Numerator*/ Word16 *s ); /*!< o : Additional scalefactor difference*/ +#ifdef DIV32_OPT_NEWTON +Word32 BASOP_Util_Divide3232_Scale_newton( Word32 x, /*!< i : Numerator*/ + Word32 y, /*!< i : Denominator*/ + Word16 *s ); /*!< o : Additional scalefactor difference*/ +#endif + + /************************************************************************/ /*! \brief Binary logarithm with 7 iterations diff --git a/lib_com/bitalloc_fx.c b/lib_com/bitalloc_fx.c index 92a8e3928cf25b050ed7cc0a5766181b60f4a66f..30ae2d47b028021152ead282c240af1a18c6f46b 100644 --- a/lib_com/bitalloc_fx.c +++ b/lib_com/bitalloc_fx.c @@ -7,7 +7,6 @@ #include "cnst.h" /* Common constants */ #include "rom_com.h" /* Static table prototypes */ #include "prot_fx.h" /* Function prototypes */ -#include "prot.h" /* Function prototypes */ void bitalloc_fx( Word16 *y, /* i : reordered norm of sub-vectors Q0 */ diff --git a/lib_com/bits_alloc_fx.c b/lib_com/bits_alloc_fx.c index f2a074ba52262775d8bd34d2298645746b971661..8162a98d3fa3147ea128100fddad063e0f8cd18d 100644 --- a/lib_com/bits_alloc_fx.c +++ b/lib_com/bits_alloc_fx.c @@ -408,7 +408,7 @@ static Word16 BITS_ALLOC_adjust_acelp_fixed_cdk( return bitsused; } -/*#ifdef IVAS_CODE Below basop operators are missing */ + /*-------------------------------------------------------------------* * fcb_table() * @@ -762,42 +762,38 @@ static ivas_error acelp_FCB_allocator_ivas( *--------------------------------------------------------------------*/ ivas_error config_acelp1( - const Word16 enc_dec, /* i : encoder/decoder flag */ - const Word32 total_brate, /* i : total bitrate */ - const Word32 core_brate_inp, /* i : core bitrate */ - const Word16 core, /* i : core */ - const Word16 extl, /* i : extension layer */ - const Word32 extl_brate, /* i : extension layer bitrate */ - const Word16 L_frame, /* i : frame length at internal Fs */ - const Word16 GSC_noisy_speech, /* i : GSC on SWB noisy speech flag */ - ACELP_config *acelp_cfg, /* i : ACELP bit-allocation */ - const Word16 signalling_bits, /* i : number of signalling bits */ - const Word16 coder_type, /* i : coder type */ -#ifdef NONBE_FIX_GSC_BSTR + const Word16 enc_dec, /* i : encoder/decoder flag */ + const Word32 total_brate, /* i : total bitrate */ + const Word32 core_brate_inp, /* i : core bitrate */ + const Word16 core, /* i : core */ + const Word16 extl, /* i : extension layer */ + const Word32 extl_brate, /* i : extension layer bitrate */ + const Word16 L_frame, /* i : frame length at internal Fs */ + const Word16 GSC_noisy_speech, /* i : GSC on SWB noisy speech flag */ + ACELP_config *acelp_cfg, /* i : ACELP bit-allocation */ + const Word16 signalling_bits, /* i : number of signalling bits */ + const Word16 coder_type, /* i : coder type */ const Word16 inactive_coder_type_flag, /* i : AVQ (0) or GSC (1) IC flag */ -#endif - const Word16 tc_subfr, /* i : TC subfr ID */ - const Word16 tc_call, /* i : TC call number (0,1,2,3,5(DEC)) */ - Word16 *nBits_es_Pred, /* o : number of bits for Es_pred Q */ - Word16 *unbits, /* o : number of unused bits */ - const Word16 element_mode, /* i : element mode */ - Word16 *uc_two_stage_flag, /* o : flag undicating two-stage UC */ - const Word16 tdm_lp_reuse_flag, /* i : LPC reuse flag (can be 1 only with secondary channel */ - const Word16 tdm_low_rate_mode, /* i : secondary channel low rate mode flag */ - const Word16 idchan, /* i : stereo channel ID */ - const Word16 active_cnt, /* i : Active frame counter */ - const Word16 tdm_Pitch_reuse_flag, /* i : primary channel pitch reuse flag*/ - const Word16 tdm_LRTD_flag, /* i : LRTD stereo mode flag */ - const Word16 GSC_IVAS_mode /* i : GSC IVAS mode */ + const Word16 tc_subfr, /* i : TC subfr ID */ + const Word16 tc_call, /* i : TC call number (0,1,2,3,5(DEC)) */ + Word16 *nBits_es_Pred, /* o : number of bits for Es_pred Q */ + Word16 *unbits, /* o : number of unused bits */ + const Word16 element_mode, /* i : element mode */ + Word16 *uc_two_stage_flag, /* o : flag undicating two-stage UC */ + const Word16 tdm_lp_reuse_flag, /* i : LPC reuse flag (can be 1 only with secondary channel */ + const Word16 tdm_low_rate_mode, /* i : secondary channel low rate mode flag */ + const Word16 idchan, /* i : stereo channel ID */ + const Word16 active_cnt, /* i : Active frame counter */ + const Word16 tdm_Pitch_reuse_flag, /* i : primary channel pitch reuse flag*/ + const Word16 tdm_LRTD_flag, /* i : LRTD stereo mode flag */ + const Word16 GSC_IVAS_mode /* i : GSC IVAS mode */ ) { Word16 i, bits, nb_subfr; Word16 flag_hardcoded, coder_type_sw, fix_first; Word32 core_brate; #ifdef DEBUGGING -#ifdef REMOVE_IVAS_UNUSED_PARAMETERS_WARNING (void) active_cnt; -#endif #endif ivas_error error; @@ -1078,13 +1074,9 @@ ivas_error config_acelp1( test(); test(); test(); -#ifdef NONBE_FIX_GSC_BSTR IF( ( NE_16( coder_type, UNVOICED ) && NE_16( coder_type, AUDIO ) && coder_type != INACTIVE && !( LE_32( core_brate, ACELP_8k00 ) && NE_16( coder_type, TRANSITION ) ) ) /* mid bitrates in GC and VC, low+mid bitrates in TC */ || ( coder_type == INACTIVE && !inactive_coder_type_flag ) /* AVQ inactive */ ) -#else - IF( ( NE_16( coder_type, UNVOICED ) && NE_16( coder_type, AUDIO ) && coder_type != INACTIVE && !( LE_32( core_brate, ACELP_8k00 ) && NE_16( coder_type, TRANSITION ) ) ) || ( coder_type == INACTIVE && GT_32( total_brate, MAX_GSC_INACTIVE_BRATE ) ) ) -#endif { *nBits_es_Pred = Es_pred_bits_tbl[BIT_ALLOC_IDX_fx( core_brate, coder_type, -1, -1 )]; move16(); @@ -1205,11 +1197,7 @@ ivas_error config_acelp1( { test(); test(); -#ifdef NONBE_FIX_GSC_BSTR IF( coder_type == INACTIVE && EQ_16( L_frame, L_FRAME16k ) && inactive_coder_type_flag ) /* GSC Inactive @16kHz */ -#else - IF( coder_type == INACTIVE && EQ_16( L_frame, L_FRAME16k ) && LE_32( total_brate, MAX_GSC_INACTIVE_BRATE ) ) /* GSC Inactive @16kHz */ -#endif { acelp_cfg->ltf_mode = FULL_BAND; move16(); @@ -1427,14 +1415,10 @@ ivas_error config_acelp1( acelp_cfg->fixed_cdk_index[3] = -1; move16(); } -#ifdef NONBE_FIX_GSC_BSTR ELSE IF( ( coder_type != INACTIVE && EQ_16( nb_subfr, NB_SUBFR ) && NE_16( coder_type, AUDIO ) ) || /* @12.8kHz core except of GSC */ ( EQ_16( nb_subfr, NB_SUBFR16k ) && ( !inactive_coder_type_flag || coder_type != INACTIVE ) ) /* @16kHz core GC, TC, AVQ inactive */ || EQ_16( core, HQ_CORE ) /* ACELP -> HQ switching in EVS */ ) -#else - ELSE IF( ( coder_type != INACTIVE && EQ_16( nb_subfr, NB_SUBFR ) && NE_16( coder_type, AUDIO ) ) || ( EQ_16( nb_subfr, NB_SUBFR16k ) && ( GT_32( total_brate, MAX_GSC_INACTIVE_BRATE ) || coder_type != INACTIVE ) ) || EQ_16( core, HQ_CORE ) ) -#endif { /* pitch Q & gain Q bit-budget - part 2*/ FOR( i = 0; i < nb_subfr; i++ ) @@ -1498,13 +1482,9 @@ ivas_error config_acelp1( test(); test(); test(); -#ifdef NONBE_FIX_GSC_BSTR IF( flag_hardcoded /* EVS */ || ( GE_32( core_brate_inp, MIN_BRATE_AVQ_EXC ) && coder_type != INACTIVE ) /* high-birate ACELP except IC */ || ( !inactive_coder_type_flag && coder_type == INACTIVE ) /* AVQ inactive */ ) -#else - IF( flag_hardcoded || ( GE_32( core_brate_inp, MIN_BRATE_AVQ_EXC ) && coder_type != INACTIVE ) || ( GT_32( total_brate, MAX_GSC_INACTIVE_BRATE ) && coder_type == INACTIVE ) ) -#endif { FOR( i = 0; i < nb_subfr; i++ ) { @@ -1613,12 +1593,8 @@ ivas_error config_acelp1( test(); test(); test(); -#ifdef NONBE_FIX_GSC_BSTR IF( ( GE_32( core_brate_inp, MIN_BRATE_AVQ_EXC ) && coder_type != INACTIVE ) /* high-birate ACELP except IC */ || ( !inactive_coder_type_flag && coder_type == INACTIVE ) /* AVQ inactive */ ) -#else - IF( ( GE_32( core_brate_inp, MIN_BRATE_AVQ_EXC ) && coder_type != INACTIVE ) || ( GT_32( total_brate, MAX_GSC_INACTIVE_BRATE ) && coder_type == INACTIVE ) ) -#endif { FOR( i = 0; i < nb_subfr; i++ ) { @@ -1658,13 +1634,9 @@ ivas_error config_acelp1( } } } -#ifdef NONBE_FIX_GSC_BSTR ELSE IF( ( EQ_16( coder_type, UNVOICED ) && EQ_16( tdm_low_rate_mode, 1 ) && EQ_16( element_mode, IVAS_CPE_TD ) ) /* LBR secondary channel in TD stereo */ || ( ( coder_type == INACTIVE || EQ_16( coder_type, AUDIO ) ) && EQ_16( nb_subfr, NB_SUBFR ) ) /* GSC @12.8kHz */ || ( coder_type == INACTIVE && inactive_coder_type_flag ) /* AVQ inactive */ ) -#else - ELSE IF( ( EQ_16( coder_type, UNVOICED ) && EQ_16( tdm_low_rate_mode, 1 ) && EQ_16( element_mode, IVAS_CPE_TD ) ) || ( ( coder_type == INACTIVE || EQ_16( coder_type, AUDIO ) ) && EQ_16( nb_subfr, NB_SUBFR ) ) || ( coder_type == INACTIVE && LE_32( total_brate, MAX_GSC_INACTIVE_BRATE ) ) ) -#endif { Word32 Local_BR, Pitch_BR; Word16 Pitch_CT; @@ -1805,12 +1777,8 @@ ivas_error config_acelp1( test(); test(); test(); -#ifdef NONBE_FIX_GSC_BSTR IF( ( EQ_16( L_frame, L_FRAME16k ) && coder_type == INACTIVE && inactive_coder_type_flag ) /* GSC Inactive @16kHz */ || ( GSC_IVAS_mode > 0 && EQ_16( L_frame, L_FRAME16k ) ) ) /* IVAS GSC @16kHz */ -#else - IF( ( EQ_16( L_frame, L_FRAME16k ) && coder_type == INACTIVE && LE_32( total_brate, MAX_GSC_INACTIVE_BRATE ) ) || ( GSC_IVAS_mode > 0 && EQ_16( L_frame, L_FRAME16k ) ) ) /* GSC Inactive @16kHz */ -#endif { acelp_cfg->ubits = 0; move16(); @@ -1919,33 +1887,31 @@ ivas_error config_acelp1( *--------------------------------------------------------------------*/ ivas_error config_acelp1_IVAS( - const Word16 enc_dec, /* i : encoder/decoder flag */ - const Word32 total_brate, /* i : total bitrate */ - const Word32 core_brate_inp, /* i : core bitrate */ - const Word16 core, /* i : core */ - const Word16 extl, /* i : extension layer */ - const Word32 extl_brate, /* i : extension layer bitrate */ - const Word16 L_frame, /* i : frame length at internal Fs */ - const Word16 GSC_noisy_speech, /* i : GSC on SWB noisy speech flag */ - ACELP_config *acelp_cfg, /* i : ACELP bit-allocation */ - const Word16 signaling_bits, /* i : number of signaling bits */ - const Word16 coder_type, /* i : coder type */ -#ifdef NONBE_FIX_GSC_BSTR + const Word16 enc_dec, /* i : encoder/decoder flag */ + const Word32 total_brate, /* i : total bitrate */ + const Word32 core_brate_inp, /* i : core bitrate */ + const Word16 core, /* i : core */ + const Word16 extl, /* i : extension layer */ + const Word32 extl_brate, /* i : extension layer bitrate */ + const Word16 L_frame, /* i : frame length at internal Fs */ + const Word16 GSC_noisy_speech, /* i : GSC on SWB noisy speech flag */ + ACELP_config *acelp_cfg, /* i : ACELP bit-allocation */ + const Word16 signaling_bits, /* i : number of signaling bits */ + const Word16 coder_type, /* i : coder type */ const Word16 inactive_coder_type_flag, /* i : AVQ (0) or GSC (1) IC flag */ -#endif - const Word16 tc_subfr, /* i : TC subfr ID */ - const Word16 tc_call, /* i : TC call number (0,1,2,3,5(DEC)) */ - Word16 *nBits_es_Pred, /* o : number of bits for Es_pred Q */ - Word16 *unbits, /* o : number of unused bits */ - const Word16 element_mode, /* i : element mode */ - Word16 *uc_two_stage_flag, /* o : flag undicating two-stage UC */ - const Word16 tdm_lp_reuse_flag, /* i : LPC reuse flag (can be 1 only with secondary channel */ - const Word16 tdm_low_rate_mode, /* i : secondary channel low rate mode flag */ - const Word16 idchan, /* i : stereo channel ID */ - const Word16 active_cnt, /* i : Active frame counter */ - const Word16 tdm_Pitch_reuse_flag, /* i : primary channel pitch reuse flag*/ - const Word16 tdm_LRTD_flag, /* i : LRTD stereo mode flag */ - const Word16 GSC_IVAS_mode /* i : GSC IVAS mode */ + const Word16 tc_subfr, /* i : TC subfr ID */ + const Word16 tc_call, /* i : TC call number (0,1,2,3,5(DEC)) */ + Word16 *nBits_es_Pred, /* o : number of bits for Es_pred Q */ + Word16 *unbits, /* o : number of unused bits */ + const Word16 element_mode, /* i : element mode */ + Word16 *uc_two_stage_flag, /* o : flag undicating two-stage UC */ + const Word16 tdm_lp_reuse_flag, /* i : LPC reuse flag (can be 1 only with secondary channel */ + const Word16 tdm_low_rate_mode, /* i : secondary channel low rate mode flag */ + const Word16 idchan, /* i : stereo channel ID */ + const Word16 active_cnt, /* i : Active frame counter */ + const Word16 tdm_Pitch_reuse_flag, /* i : primary channel pitch reuse flag*/ + const Word16 tdm_LRTD_flag, /* i : LRTD stereo mode flag */ + const Word16 GSC_IVAS_mode /* i : GSC IVAS mode */ ) { Word16 i, bits, nb_subfr; @@ -2214,12 +2180,8 @@ ivas_error config_acelp1_IVAS( test(); test(); /* gain Q bit-budget - part 1: 'Es_pred' of memory-less gain Q */ -#ifdef NONBE_FIX_GSC_BSTR IF( ( NE_16( coder_type, UNVOICED ) && NE_16( coder_type, AUDIO ) && coder_type != INACTIVE && !( LE_32( core_brate, ACELP_8k00 ) && NE_16( coder_type, TRANSITION ) ) ) /* mid bitrates in GC and VC, low+mid bitrates in TC */ || ( coder_type == INACTIVE && !inactive_coder_type_flag ) /* AVQ inactive */ ) -#else - IF( ( NE_16( coder_type, UNVOICED ) && NE_16( coder_type, AUDIO ) && ( coder_type != INACTIVE ) && !( LE_32( core_brate, ACELP_8k00 ) && NE_16( coder_type, TRANSITION ) ) ) || ( ( coder_type == INACTIVE ) && GT_32( total_brate, MAX_GSC_INACTIVE_BRATE ) ) ) -#endif { *nBits_es_Pred = Es_pred_bits_tbl[BIT_ALLOC_IDX( core_brate, coder_type, -1, -1 )]; move16(); @@ -2344,11 +2306,7 @@ ivas_error config_acelp1_IVAS( { test(); test(); -#ifdef NONBE_FIX_GSC_BSTR IF( coder_type == INACTIVE && EQ_16( L_frame, L_FRAME16k ) && inactive_coder_type_flag ) /* GSC Inactive @16kHz */ -#else - IF( coder_type == INACTIVE && EQ_16( L_frame, L_FRAME16k ) && LE_32( total_brate, MAX_GSC_INACTIVE_BRATE ) ) /* GSC Inactive @16kHz */ -#endif { acelp_cfg->ltf_mode = FULL_BAND; move16(); @@ -2564,13 +2522,9 @@ ivas_error config_acelp1_IVAS( acelp_cfg->fixed_cdk_index[3] = -1; move16(); } -#ifdef NONBE_FIX_GSC_BSTR ELSE IF( ( coder_type != INACTIVE && EQ_16( nb_subfr, NB_SUBFR ) && NE_16( coder_type, AUDIO ) ) /* @12.8kHz core except of GSC */ || ( EQ_16( nb_subfr, NB_SUBFR16k ) && ( !inactive_coder_type_flag || coder_type != INACTIVE ) ) /* @16kHz core GC, TC, AVQ inactive */ || EQ_16( core, HQ_CORE ) /* ACELP -> HQ switching in EVS */ ) -#else - ELSE IF( ( coder_type != INACTIVE && EQ_16( nb_subfr, NB_SUBFR ) && NE_16( coder_type, AUDIO ) ) || ( EQ_16( nb_subfr, NB_SUBFR16k ) && ( GT_32( total_brate, MAX_GSC_INACTIVE_BRATE ) || coder_type != INACTIVE ) ) || EQ_16( core, HQ_CORE ) ) -#endif { /* pitch Q & gain Q bit-budget - part 2*/ FOR( i = 0; i < nb_subfr; i++ ) @@ -2634,13 +2588,9 @@ ivas_error config_acelp1_IVAS( test(); test(); /* algebraic codebook bit-budget */ -#ifdef NONBE_FIX_GSC_BSTR IF( flag_hardcoded /* EVS */ || ( GE_32( core_brate_inp, MIN_BRATE_AVQ_EXC ) && coder_type != INACTIVE ) /* high-birate ACELP except IC */ || ( !inactive_coder_type_flag && coder_type == INACTIVE ) /* AVQ inactive */ ) -#else - IF( flag_hardcoded || ( GE_32( core_brate_inp, MIN_BRATE_AVQ_EXC ) && coder_type != INACTIVE ) || ( GT_32( total_brate, MAX_GSC_INACTIVE_BRATE ) && coder_type == INACTIVE ) ) -#endif { FOR( i = 0; i < nb_subfr; i++ ) { @@ -2741,12 +2691,8 @@ ivas_error config_acelp1_IVAS( test(); test(); /* AVQ codebook */ -#ifdef NONBE_FIX_GSC_BSTR IF( ( GE_32( core_brate_inp, MIN_BRATE_AVQ_EXC ) && coder_type != INACTIVE ) /* high-birate ACELP except IC */ || ( !inactive_coder_type_flag && coder_type == INACTIVE ) /* AVQ inactive */ ) -#else - IF( ( GE_32( core_brate_inp, MIN_BRATE_AVQ_EXC ) && coder_type != INACTIVE ) || ( GT_32( total_brate, MAX_GSC_INACTIVE_BRATE ) && coder_type == INACTIVE ) ) -#endif { FOR( i = 0; i < nb_subfr; i++ ) { @@ -2784,13 +2730,9 @@ ivas_error config_acelp1_IVAS( } } } -#ifdef NONBE_FIX_GSC_BSTR ELSE IF( ( EQ_16( coder_type, UNVOICED ) && EQ_16( tdm_low_rate_mode, 1 ) && EQ_16( element_mode, IVAS_CPE_TD ) ) /* LBR secondary channel in TD stereo */ || ( ( coder_type == INACTIVE || EQ_16( coder_type, AUDIO ) ) && EQ_16( nb_subfr, NB_SUBFR ) ) /* GSC @12.8kHz */ || ( coder_type == INACTIVE && inactive_coder_type_flag ) /* AVQ inactive */ ) -#else - ELSE IF( ( EQ_16( coder_type, UNVOICED ) && EQ_16( tdm_low_rate_mode, 1 ) && EQ_16( element_mode, IVAS_CPE_TD ) ) || ( ( coder_type == INACTIVE || EQ_16( coder_type, AUDIO ) ) && EQ_16( nb_subfr, NB_SUBFR ) ) || ( coder_type == INACTIVE && LE_32( total_brate, MAX_GSC_INACTIVE_BRATE ) ) ) -#endif { Word32 Local_BR, Pitch_BR; Word16 Pitch_CT; @@ -2931,12 +2873,8 @@ ivas_error config_acelp1_IVAS( test(); test(); test(); -#ifdef NONBE_FIX_GSC_BSTR IF( ( EQ_16( L_frame, L_FRAME16k ) && coder_type == INACTIVE && inactive_coder_type_flag ) /* GSC Inactive @16kHz */ || ( GSC_IVAS_mode > 0 && EQ_16( L_frame, L_FRAME16k ) ) ) /* IVAS GSC @16kHz */ -#else - IF( ( EQ_16( L_frame, L_FRAME16k ) && coder_type == INACTIVE && LE_32( total_brate, MAX_GSC_INACTIVE_BRATE ) ) || ( GSC_IVAS_mode > 0 && EQ_16( L_frame, L_FRAME16k ) ) ) /* GSC Inactive @16kHz */ -#endif { acelp_cfg->ubits = 0; move16(); @@ -3271,4 +3209,3 @@ Word16 set_ACELP_flag_IVAS( return 0; } } -/*#endif IVAS_CODE*/ diff --git a/lib_com/bitstream.c b/lib_com/bitstream.c index e5754fa3550fc318b4ab703338a30db52018fa1d..d8d4563ed3a60fdf6325d71a81a73384c100f911 100644 --- a/lib_com/bitstream.c +++ b/lib_com/bitstream.c @@ -38,13 +38,11 @@ #include #include "options.h" #include "cnst.h" -#include "prot.h" #include "prot_fx.h" #include "stat_enc.h" #include "stat_dec.h" #include "rom_com.h" #include "mime.h" -#include "ivas_prot.h" #include "ivas_cnst.h" #include "ivas_rom_com.h" #include "wmc_auto.h" @@ -1320,33 +1318,6 @@ UWord16 get_indice_st( } #define WMC_TOOL_SKIP -/*-------------------------------------------------------------------* - * reset_indices_enc() - * - * Reset the buffer of encoder indices - *-------------------------------------------------------------------*/ - -void reset_indices_enc( - BSTR_ENC_HANDLE hBstr, /* i/o: encoder bitstream handle */ - const Word16 max_num_indices /* i : max number of indices */ -) -{ - Word16 i; - - hBstr->nb_bits_tot = 0; - move16(); - hBstr->nb_ind_tot = 0; - move16(); - - FOR( i = 0; i < max_num_indices; i++ ) - { - hBstr->ind_list[i].nb_bits = -1; - move16(); - } - - return; -} - /*-------------------------------------------------------------------* * reset_indices_dec() * @@ -1535,21 +1506,21 @@ static ivas_error write_indices_element_fx( { IF( st_ivas->hSCE[element_id]->hMetaData != NULL ) { - reset_indices_enc( st_ivas->hSCE[element_id]->hMetaData, st_ivas->hSCE[element_id]->hMetaData->nb_ind_tot ); + reset_indices_enc_fx( st_ivas->hSCE[element_id]->hMetaData, st_ivas->hSCE[element_id]->hMetaData->nb_ind_tot ); } - reset_indices_enc( sts[0]->hBstr, sts[0]->hBstr->nb_ind_tot ); + reset_indices_enc_fx( sts[0]->hBstr, sts[0]->hBstr->nb_ind_tot ); } ELSE { IF( st_ivas->hCPE[element_id]->hMetaData != NULL ) { - reset_indices_enc( st_ivas->hCPE[element_id]->hMetaData, st_ivas->hCPE[element_id]->hMetaData->nb_ind_tot ); + reset_indices_enc_fx( st_ivas->hCPE[element_id]->hMetaData, st_ivas->hCPE[element_id]->hMetaData->nb_ind_tot ); } FOR( n = 0; n < n_channels; n++ ) { - reset_indices_enc( sts[n]->hBstr, sts[n]->hBstr->nb_ind_tot ); + reset_indices_enc_fx( sts[n]->hBstr, sts[n]->hBstr->nb_ind_tot ); } } @@ -1689,281 +1660,6 @@ static void decoder_selectCodec( return; } -/*-------------------------------------------------------------------* - * dec_prm_core() - * - * - *-------------------------------------------------------------------*/ - -static void dec_prm_core( - Decoder_State *st ) -{ - int16_t n, frame_size_index = -1; - - st->core = -1; - - if ( st->total_brate == FRAME_NO_DATA ) - { - st->m_frame_type = ZERO_FRAME; - } - else if ( st->total_brate == SID_2k40 ) - { - st->m_frame_type = SID_FRAME; - } - else - { - st->m_frame_type = ACTIVE_FRAME; - for ( n = 0; n < FRAME_SIZE_NB; ++n ) - { - if ( FrameSizeConfig[n].frame_bits == st->total_brate / FRAMES_PER_SEC ) - { - frame_size_index = n; - break; - } - } - - /* Get audio bandwidth info */ - st->bwidth = get_next_indice( st, FrameSizeConfig[frame_size_index].bandwidth_bits ); - st->bwidth += FrameSizeConfig[frame_size_index].bandwidth_min; - if ( st->bwidth > FB ) - { - st->bwidth = FB; - st->BER_detect = 1; - } - - if ( st->bwidth > SWB && st->total_brate < ACELP_16k40 ) - { - st->bwidth = SWB; - st->BER_detect = 1; - } - /* Skip reserved bit */ - get_next_indice_tmp( st, FrameSizeConfig[frame_size_index].reserved_bits ); - - if ( get_next_indice_1( st ) ) /* TCX */ - { - if ( get_next_indice_1( st ) ) - { - st->core = HQ_CORE; - } - else - { - st->core = TCX_20_CORE; - } - } - else /* ACELP */ - { - st->core = ACELP_CORE; - } - } - - return; -} - -/*-----------------------------------------------------------------* - * decision_matrix_core_dec() - * - * Read core signaling bits from the bitstream - * Set st->core, and st->bwidth if signalled together with the core. - *-----------------------------------------------------------------*/ - -static void decision_matrix_core_dec( - Decoder_State *st /* i/o: decoder state structure */ -) -{ - int16_t start_idx; - int32_t ind; - int16_t nBits; - - assert( st->bfi != 1 ); - - st->core = -1; - st->bwidth = -1; - - if ( st->total_brate == FRAME_NO_DATA || st->total_brate == SID_2k40 ) - { - st->core = ACELP_CORE; - } - /* SC-VBR */ - else if ( st->total_brate == PPP_NELP_2k80 ) - { - st->core = ACELP_CORE; - return; - } - - /*---------------------------------------------------------------------* - * ACELP/HQ core selection - *---------------------------------------------------------------------*/ - - if ( st->total_brate < ACELP_24k40 ) - { - st->core = ACELP_CORE; - } - else if ( st->total_brate >= ACELP_24k40 && st->total_brate <= ACELP_64k ) - { - /* read the ACELP/HQ core selection bit */ - st->core = get_next_indice( st, 1 ) * HQ_CORE; - } - else - { - st->core = HQ_CORE; - } - - /*-----------------------------------------------------------------* - * Read ACELP signaling bits from the bitstream - *-----------------------------------------------------------------*/ - - if ( st->core == ACELP_CORE ) - { - /* find the section in the ACELP signaling table corresponding to bitrate */ - start_idx = 0; - while ( acelp_sig_tbl[start_idx] != st->total_brate ) - { - start_idx++; - } - - /* skip the bitrate */ - start_idx += 1; - - /* retrieve the number of bits */ - nBits = (int16_t) acelp_sig_tbl[start_idx++]; - - /* retrieve the signaling indice */ - ind = acelp_sig_tbl[start_idx + get_next_indice( st, nBits )]; - st->bwidth = ( ind >> 3 ) & 0x7; - - /* convert signaling indice into signaling information */ - if ( ( ind & 0x7 ) == LR_MDCT ) - { - st->core = HQ_CORE; - } - } - - /*-----------------------------------------------------------------* - * Read HQ signaling bits from the bitstream - * Set HQ core type - *-----------------------------------------------------------------*/ - - if ( st->core == HQ_CORE ) - { - /* read the HQ/TCX core switching flag */ - if ( get_next_indice( st, 1 ) ) - { - st->core = TCX_20_CORE; - } - - /* For TCX: read/set band-width (needed for different I/O sampling rate support) */ - if ( st->core == TCX_20_CORE && st->total_brate > ACELP_16k40 ) - { - ind = get_next_indice( st, 2 ); - - if ( ind == 0 ) - { - st->bwidth = NB; - } - else if ( ind == 1 ) - { - st->bwidth = WB; - } - else if ( ind == 2 ) - { - st->bwidth = SWB; - } - else - { - st->bwidth = FB; - } - } - } - - return; -} - -/*-------------------------------------------------------------------* - * mdct_switching_dec() - * - * Set up MDCT core switching if indicated in the bitstream - *-------------------------------------------------------------------*/ - -void mdct_switching_dec( - Decoder_State *st /* i/o: decoder state structure */ -) -{ - if ( !st->bfi ) - { - - if ( st->Opt_AMR_WB ) - { - return; - } - - - if ( st->total_brate == ACELP_13k20 || st->total_brate == ACELP_32k ) - { - st->mdct_sw_enable = MODE1; - } - else if ( ACELP_16k40 <= st->total_brate && st->total_brate <= ACELP_24k40 ) - { - st->mdct_sw_enable = MODE2; - } - - if ( st->codec_mode == MODE1 && st->mdct_sw_enable == MODE1 ) - { - /* Read ahead core signaling */ - int16_t next_bit_pos_save = st->next_bit_pos; - int16_t core_save = st->core; - int16_t bwidth_save = st->bwidth; - - decision_matrix_core_dec( st ); /* sets st->core */ - - if ( st->core == TCX_20_CORE ) - { - /* Trigger TCX */ - st->codec_mode = MODE2; - st->mdct_sw = MODE1; - } - else - { - /* Rewind bitstream */ - st->next_bit_pos = next_bit_pos_save; - if ( st->bfi ) - { - st->core = core_save; - st->bwidth = bwidth_save; - } - } - } - else if ( st->codec_mode == MODE2 && st->mdct_sw_enable == MODE2 ) - { - /* Read ahead core signaling */ - int16_t next_bit_pos_save = st->next_bit_pos; - int16_t core_save = st->core; - int16_t bwidth_save = st->bwidth; - - dec_prm_core( st ); /* sets st->core */ - - if ( st->core == HQ_CORE ) - { - /* Trigger HQ_CORE */ - st->codec_mode = MODE1; - st->mdct_sw = MODE2; - } - else - { - /* Rewind bitstream */ - st->next_bit_pos = next_bit_pos_save; - if ( st->bfi ) - { - st->core = core_save; - } - /* always reset bwidth, to not interfere with BER logic */ - st->bwidth = bwidth_save; - } - } - } - - return; -} - /*-------------------------------------------------------------------* * reset_elements() @@ -2061,67 +1757,84 @@ void ivas_set_bitstream_pointers( *-------------------------------------------------------------------*/ /*! r: 1 = reading OK, 0 = problem */ -ivas_error read_indices( +ivas_error read_indices_fx( Decoder_Struct *st_ivas, /* i/o: IVAS decoder structure */ - uint16_t bit_stream[], /* i : bitstream buffer */ + UWord16 bit_stream[], /* i : bitstream buffer */ UWord16 num_bits, /* i : number of bits in bitstream */ - int16_t *prev_ft_speech, - int16_t *CNG, - int16_t bfi /* i : bad frame indicator */ + Word16 *prev_ft_speech, + Word16 *CNG, + Word16 bfi /* i : bad frame indicator */ ) { - int16_t k; + Word16 k; Decoder_State **sts; - int32_t total_brate = 0; - int16_t curr_ft_good_sp, curr_ft_bad_sp; - int16_t g192_sid_first, sid_upd_bad, sid_update; - int16_t speech_bad, speech_lost; - int16_t n; + Word32 total_brate = 0; + move32(); + Word16 curr_ft_good_sp, curr_ft_bad_sp; + Word16 g192_sid_first, sid_upd_bad, sid_update; + Word16 speech_bad, speech_lost; + Word16 n; ivas_error error; error = IVAS_ERR_OK; + move32(); st_ivas->BER_detect = 0; + move16(); st_ivas->num_bits = num_bits; + move16(); sts = reset_elements( st_ivas ); st_ivas->bfi = bfi; + move16(); /* convert the frame length to total bitrate */ - total_brate = (int32_t) ( num_bits * FRAMES_PER_SEC ); + total_brate = imult3216( num_bits, FRAMES_PER_SEC ); + move32(); /* verify that a valid num bits value is present in the G.192 file */ /* only AMRWB, EVS or IVAS bitrates or 0(NO DATA) are allowed in G.192 file frame reading */ - if ( st_ivas->ivas_format != MONO_FORMAT ) + IF( NE_32( st_ivas->ivas_format, MONO_FORMAT ) ) { k = 0; - while ( k < SIZE_IVAS_BRATE_TBL && total_brate != ivas_brate_tbl[k] ) + move16(); + + test(); + WHILE( LT_16( k, SIZE_IVAS_BRATE_TBL ) && NE_32( total_brate, ivas_brate_tbl[k] ) ) { - k++; + k = add( k, 1 ); } - if ( st_ivas->ivas_format == ISM_FORMAT && ( k < SIZE_IVAS_BRATE_TBL || total_brate <= SID_2k40 ) ) + test(); + test(); + test(); + test(); + IF( EQ_32( st_ivas->ivas_format, ISM_FORMAT ) && ( LT_16( k, SIZE_IVAS_BRATE_TBL ) || LE_32( total_brate, SID_2k40 ) ) ) { st_ivas->element_mode_init = IVAS_SCE; + move16(); } - else if ( ( st_ivas->ivas_format == SBA_FORMAT || st_ivas->ivas_format == MASA_FORMAT ) && ( total_brate <= SID_2k40 ) ) + ELSE IF( ( EQ_32( st_ivas->ivas_format, SBA_FORMAT ) || EQ_32( st_ivas->ivas_format, MASA_FORMAT ) ) && LE_32( total_brate, SID_2k40 ) ) { st_ivas->element_mode_init = IVAS_SCE; + move16(); } - else if ( k == SIZE_IVAS_BRATE_TBL ) + ELSE IF( EQ_16( k, SIZE_IVAS_BRATE_TBL ) ) { return IVAS_ERROR( IVAS_ERR_INTERNAL_FATAL, "Error, illegal bitrate (%d) in the G.192 frame ! Exiting ! \n", total_brate ); } - else + ELSE { st_ivas->element_mode_init = -1; + move16(); } } - else /* AMRWB or EVS */ + ELSE /* AMRWB or EVS */ { st_ivas->element_mode_init = EVS_MONO; + move16(); - if ( rate2EVSmode_float( total_brate, NULL ) < 0 ) /* negative value means that a valid rate was not found */ + IF( rate2EVSmode_float( total_brate, NULL ) < 0 ) /* negative value means that a valid rate was not found */ { return IVAS_ERROR( IVAS_ERR_INTERNAL_FATAL, "Error, illegal bitrate (%d) in the G.192 frame ! Exiting ! \n", total_brate ); } @@ -2131,47 +1844,58 @@ ivas_error read_indices( /* handle SID_FIRST, SID_BAD, SPEECH_LOST, NO_DATA as properly as possible for the ITU-T G.192 format */ /* (total_brate, bfi , st_CNG) = rx_handler(received frame type, [previous frame type], past CNG state, past core) */ curr_ft_good_sp = 0; + move16(); curr_ft_bad_sp = 0; + move16(); - if ( is_DTXrate( total_brate ) == 0 ) + IF( is_DTXrate( total_brate ) == 0 ) { - if ( st_ivas->bfi == 0 ) + IF( st_ivas->bfi == 0 ) { curr_ft_good_sp = 1; + move16(); } - else + ELSE { curr_ft_bad_sp = 1; + move16(); } } sid_update = 0; + move16(); sid_upd_bad = 0; - if ( is_SIDrate( total_brate ) == 1 ) + move16(); + IF( EQ_16( is_SIDrate( total_brate ), 1 ) ) { - if ( st_ivas->bfi == 0 ) + IF( st_ivas->bfi == 0 ) { sid_update = 1; + move16(); } - else + ELSE { sid_upd_bad = 1; /* this frame type may happen in ETSI/3GPP CS cases, a corrupt SID frames */ + move16(); } } /* all zero indices/bits iSP AMRWB SID_update results in a valid LP filter with extremely high LP-filter-gain */ /* all zero indices/bits may be a result of CS bit errors and/or erroneously injected by gateways or by a bad dejitter handlers */ - if ( total_brate == SID_1k75 && sid_update == 1 ) + test(); + IF( EQ_32( total_brate, SID_1k75 ) && EQ_16( sid_update, 1 ) ) { /* valid sid_update received, check for very risky but formally valid content */ - int16_t sum = 0; - for ( k = 0; k < num_bits; ++k ) + Word16 sum = 0; + move16(); + FOR( k = 0; k < num_bits; ++k ) { - sum += ( bit_stream[k] == 1 ); /* check of 35 zeroes */ + sum = add( sum, extract_l( EQ_32( bit_stream[k], 1 ) ) ); /* check of 35 zeroes */ } if ( sum == 0 ) { /* all zeros */ sid_upd_bad = 1; /* initial signal as corrupt (BER likely) */ + move16(); } } @@ -2182,14 +1906,22 @@ ivas_error read_indices( Here we inhibit use of the SID-length info, even though it is available in the G.192 file format after STL/EID-XOR . */ - if ( sid_upd_bad ) + IF( sid_upd_bad ) { sid_upd_bad = 0; + move16(); total_brate = FRAME_NO_DATA; /* treat SID_BAD as a stolen signaling frame --> SPEECH LOST */ + move32(); } g192_sid_first = 0; - if ( st_ivas->ivas_format == MONO_FORMAT && sts[0]->core == AMR_WB_CORE && *prev_ft_speech && total_brate == FRAME_NO_DATA && st_ivas->bfi == 0 ) + move16(); + + test(); + test(); + test(); + test(); + if ( EQ_32( st_ivas->ivas_format, MONO_FORMAT ) && EQ_16( sts[0]->core, AMR_WB_CORE ) && *prev_ft_speech && total_brate == FRAME_NO_DATA && st_ivas->bfi == 0 ) { g192_sid_first = 1; /* SID_FIRST detected for previous AMRWB/AMRWBIO active frames only */ /* It is not possible to perfectly simulate rate switching conditions EVS->AMRWBIO where: @@ -2197,104 +1929,135 @@ ivas_error read_indices( and a good length 0 "SID_FIRST"(NO_DATA) frame is sent in AMRWBIO, due to the one frame state memory in the AMRWB legacy G.192 SID_FIRST encoding */ + move16(); } speech_bad = 0; + move16(); + + test(); if ( st_ivas->bfi != 0 && ( is_DTXrate( total_brate ) == 0 ) ) { speech_bad = 1; /* initial ft assumption, CNG_state decides what to do */ + move16(); } speech_lost = 0; + move16(); + + test(); if ( total_brate == FRAME_NO_DATA && st_ivas->bfi != 0 ) /* unsent NO_DATA or stolen NO_DATA/signaling frame */ { speech_lost = 1; /* initial ft assumption, CNG_state decides what to do */ + move16(); } /* Do not allow decoder to enter CNG-synthesis for any instantly received GOOD+LENGTH==0 frame as this frame was never transmitted, one can not know it is good and has a a length of zero ) */ - if ( *CNG != 0 ) + IF( *CNG != 0 ) { /* We were in CNG synthesis */ if ( curr_ft_good_sp != 0 ) { /* only a good speech frame makes you leave CNG synthesis */ *CNG = 0; + move16(); } } - else + ELSE { /* We were in SPEECH synthesis */ /* only a received/detected SID frame can make the decoder enter into CNG synthsis */ + test(); + test(); if ( g192_sid_first || sid_update || sid_upd_bad ) { *CNG = 1; + move16(); } } /* set bfi, total_brate pair for proper decoding */ /* handle the G.192 _simulated_ untransmitted NO_DATA frame, setting for decoder SPEECH synthesis */ + test(); + test(); if ( *CNG == 0 && total_brate == FRAME_NO_DATA && st_ivas->bfi == 0 ) { st_ivas->bfi = 1; /* SPEECH PLC code will now become active as in a real system */ /* total_brate= 0 */ + move16(); } /* handle bad/lost speech frame(and CS bad SID frame) in the decoders CNG synthesis settings pair (total_brate, bfi) */ - if ( ( - bfi != FRAMEMODE_FUTURE && - ( *CNG != 0 ) && ( ( speech_bad != 0 ) || ( speech_lost != 0 ) ) ) || /* SP_BAD or SPEECH_LOST) --> stay in CNG */ - ( sid_upd_bad != 0 ) ) /* SID_UPD_BAD --> start CNG */ + test(); + test(); + test(); + test(); + IF( ( + NE_16( bfi, FRAMEMODE_FUTURE ) && + ( *CNG != 0 ) && ( ( speech_bad != 0 ) || ( speech_lost != 0 ) ) ) || /* SP_BAD or SPEECH_LOST) --> stay in CNG */ + ( sid_upd_bad != 0 ) ) /* SID_UPD_BAD --> start CNG */ { st_ivas->bfi = 0; /* bfi=0 needed to activate CNG code */ + move16(); total_brate = FRAME_NO_DATA; + move32(); } /* update for next frame's G.192 file format's odd SID_FIRST detection (primarily for AMRWBIO) */ + test(); *prev_ft_speech = ( ( curr_ft_good_sp != 0 ) || ( curr_ft_bad_sp != 0 ) ); + move16(); /* st->total brate= total_brate; updated in a good frame below */ - for ( k = 0; k < st_ivas->nCPE; k++ ) + FOR( k = 0; k < st_ivas->nCPE; k++ ) { sts = st_ivas->hCPE[k]->hCoreCoder; - for ( n = 0; n < CPE_CHANNELS; n++ ) + FOR( n = 0; n < CPE_CHANNELS; n++ ) { sts[n]->bfi = st_ivas->bfi; + move16(); } } - for ( k = 0; k < st_ivas->nSCE; k++ ) + FOR( k = 0; k < st_ivas->nSCE; k++ ) { sts = st_ivas->hSCE[k]->hCoreCoder; sts[0]->bfi = st_ivas->bfi; + move16(); } - if ( st_ivas->bfi == 0 ) + IF( st_ivas->bfi == 0 ) { /* select Mode 1 or Mode 2 */ - if ( st_ivas->ivas_format == MONO_FORMAT ) /* EVS mono */ + IF( EQ_32( st_ivas->ivas_format, MONO_FORMAT ) ) /* EVS mono */ { decoder_selectCodec( sts[0], total_brate, bit_stream[0] ); st_ivas->hDecoderConfig->Opt_AMR_WB = sts[0]->Opt_AMR_WB; + move16(); } - else /* IVAS */ + ELSE /* IVAS */ { st_ivas->codec_mode = MODE1; + move16(); st_ivas->hDecoderConfig->Opt_AMR_WB = 0; + move16(); } } /* GOOD frame */ - if ( st_ivas->bfi == 0 || st_ivas->bfi == FRAMEMODE_FUTURE ) + test(); + if ( st_ivas->bfi == 0 || EQ_16( st_ivas->bfi, FRAMEMODE_FUTURE ) ) { /* GOOD frame - convert ITU-T G.192 words to short values */ st_ivas->hDecoderConfig->ivas_total_brate = total_brate; + move32(); } st_ivas->bit_stream = bit_stream; - if ( st_ivas->ivas_format == MONO_FORMAT ) + IF( EQ_32( st_ivas->ivas_format, MONO_FORMAT ) ) { ivas_set_bitstream_pointers( st_ivas ); } diff --git a/lib_com/bitstream_fx.c b/lib_com/bitstream_fx.c index 6163fc4ff4163b4f2bee8a629d9ca7f35c2fdfaa..07a6a632fc43a787473c42f94b849dda8c876540 100644 --- a/lib_com/bitstream_fx.c +++ b/lib_com/bitstream_fx.c @@ -143,29 +143,6 @@ void pack_bit( return; } -/*-------------------------------------------------------------------* - * unpack_bit() - * - * unpack a bit from packed octet - *-------------------------------------------------------------------*/ -static Word16 unpack_bit( - UWord8 **pt, /* i/o: pointer to octet array from which bit will be read */ - UWord8 *mask /* i/o: mask to indicate the bit in the octet */ -) -{ - Word16 bit; - - bit = s_and( **pt, *mask ) != 0; - *mask = (UWord8) shr( *mask, 1 ); - move16(); - IF( *mask == 0 ) - { - *mask = 0x80; - move16(); - ( *pt )++; - } - return bit; -} /*-------------------------------------------------------------------* * rate2AMRWB_IOmode() @@ -263,11 +240,11 @@ Word16 rate2EVSmode( } /*-------------------------------------------------------------------* - * push_indice_fx( ) + * push_indice( ) * * Push a new indice into the buffer *-------------------------------------------------------------------*/ - +#ifndef HARM_PUSH_BIT void push_indice_fx( BSTR_ENC_HANDLE hBstr, /* i/o: encoder state structure */ Word16 id, /* i : ID of the indice */ @@ -311,9 +288,8 @@ void push_indice_fx( return; } - /*-------------------------------------------------------------------* - * push_next_indice_fx() * + * push_next_indice() * * Push a new indice into the buffer at the next position *-------------------------------------------------------------------*/ @@ -341,7 +317,7 @@ void push_next_indice_fx( /*-------------------------------------------------------------------* - * push_next_bits_fx() + * push_next_bits() * Push a bit buffer into the buffer at the next position *-------------------------------------------------------------------*/ @@ -391,6 +367,7 @@ void push_next_bits_fx( hBstr->nb_bits_tot = add( hBstr->nb_bits_tot, nb_bits ); move16(); } +#endif /*-------------------------------------------------------------------* * get_next_indice_fx( ) @@ -543,23 +520,23 @@ UWord16 get_indice_1_fx( /* o : value of the indice */ *-------------------------------------------------------------------*/ void reset_indices_enc_fx( - BSTR_ENC_HANDLE hBstr /* i/o: encoder state structure */ + BSTR_ENC_HANDLE hBstr, /* i/o: encoder state structure */ + const Word16 max_num_indices /* i : max number of indices */ ) { Word16 i; -#ifdef MSAN_FIX hBstr->nb_ind_tot = 0; move16(); -#endif hBstr->nb_bits_tot = 0; move16(); +#ifndef HARM_PUSH_BIT hBstr->next_ind_fx = 0; move16(); hBstr->last_ind_fx = -1; move16(); - - FOR( i = 0; i < MAX_NUM_INDICES; i++ ) +#endif + FOR( i = 0; i < max_num_indices; i++ ) { hBstr->ind_list[i].nb_bits = -1; move16(); @@ -589,7 +566,7 @@ void reset_indices_dec_fx( * * Write the buffer of indices to a file *-------------------------------------------------------------------*/ - +#ifndef HARM_PUSH_BIT void write_indices_fx( Encoder_State *st_fx, /* i/o: encoder state structure */ BSTR_ENC_HANDLE hBstr, /* i/o: encoder state structure */ @@ -687,12 +664,13 @@ void write_indices_fx( return; } +#endif /*-------------------------------------------------------------------* * write_indices_buf_fx() * * Write the buffer of indices to a file *-------------------------------------------------------------------*/ - +#ifndef HARM_PUSH_BIT void write_indices_buf_fx( Encoder_State *st_fx, /* i/o: encoder state structure */ BSTR_ENC_HANDLE hBstr, /* i/o: encoder state structure */ @@ -796,6 +774,7 @@ void write_indices_buf_fx( return; } +#endif /*-------------------------------------------------------------------* * indices_to_serial() * @@ -944,154 +923,6 @@ return; } -static void decoder_selectCodec( - Decoder_State *st, /* i/o: decoder state structure */ - const Word32 total_brate, /* i : total bitrate */ - const Word16 bit0 ) -{ - test(); - test(); - test(); - test(); - test(); - test(); - test(); - test(); - test(); - /* check if we are in AMR-WB IO mode */ - IF( EQ_32( total_brate, SID_1k75 ) || - EQ_32( total_brate, ACELP_6k60 ) || EQ_32( total_brate, ACELP_8k85 ) || EQ_32( total_brate, ACELP_12k65 ) || - EQ_32( total_brate, ACELP_14k25 ) || EQ_32( total_brate, ACELP_15k85 ) || EQ_32( total_brate, ACELP_18k25 ) || - EQ_32( total_brate, ACELP_19k85 ) || EQ_32( total_brate, ACELP_23k05 ) || EQ_32( total_brate, ACELP_23k85 ) ) - { - st->Opt_AMR_WB = 1; - move16(); - } - ELSE IF( total_brate != FRAME_NO_DATA ) - { - st->Opt_AMR_WB = 0; - move16(); - } - - /* select MODE1 or MODE2 */ - IF( st->Opt_AMR_WB ) - { - st->codec_mode = MODE1; - move16(); /**/ - } - ELSE - { - SWITCH( total_brate ) - { - case 0: - st->codec_mode = st->last_codec_mode; - move16(); - BREAK; - case 2400: - st->codec_mode = st->last_codec_mode; - move16(); - BREAK; - case 2800: - st->codec_mode = MODE1; - move16(); - BREAK; - case 7200: - st->codec_mode = MODE1; - move16(); - BREAK; - case 8000: - st->codec_mode = MODE1; - move16(); - BREAK; - case 9600: - st->codec_mode = MODE2; - move16(); - BREAK; - case 13200: - st->codec_mode = MODE1; - move16(); - BREAK; - case 16400: - st->codec_mode = MODE2; - move16(); - BREAK; - case 24400: - st->codec_mode = MODE2; - move16(); - BREAK; - case 32000: - st->codec_mode = MODE1; - move16(); - BREAK; - case 48000: - st->codec_mode = MODE2; - move16(); - BREAK; - case 64000: - st->codec_mode = MODE1; - move16(); - BREAK; - case 96000: - st->codec_mode = MODE2; - move16(); - BREAK; - case 128000: - st->codec_mode = MODE2; - move16(); - BREAK; - default: - /* validate that total_brate (derived from RTP packet or a file header) is one of the defined bit rates */ - st->codec_mode = st->last_codec_mode; - st->bfi = 1; - move16(); - move16(); - BREAK; - } - } - - IF( st->ini_frame == 0 ) - { - if ( EQ_16( st->codec_mode, -1 ) ) - { - st->codec_mode = MODE1; - move16(); - } - st->last_codec_mode = st->codec_mode; - move16(); - } - - /* set SID/CNG type */ - IF( EQ_32( total_brate, SID_2k40 ) ) - { - IF( EQ_16( bit0, G192_BIN0 ) ) - { - st->cng_type = LP_CNG; - move16(); - - /* force MODE1 when selecting LP_CNG */ - st->codec_mode = MODE1; - move16(); - } - ELSE - { - st->cng_type = FD_CNG; - move16(); - test(); - if ( EQ_16( st->last_codec_mode, MODE2 ) && EQ_32( st->last_total_brate, 13200 ) ) - { - st->codec_mode = MODE1; - move16(); - } - } - st->hTdCngDec->last_cng_type_fx = st->cng_type; /* CNG type switching at the first correctly received SID frame */ - move16(); - } - - - return; -} - - static void dec_prm_core( Decoder_State *st ) { Word16 n, frame_size_index, num_bits; @@ -1319,109 +1150,115 @@ static void decision_matrix_core_dec( * Set up MDCT core switching if indicated in the bit stream *-------------------------------------------------------------------*/ -static void mdct_switching_dec( +void mdct_switching_dec_fx( Decoder_State *st /* i/o: decoder state structure */ ) { - IF( st->Opt_AMR_WB != 0 ) - { - return; - } - - test(); - test(); - IF( EQ_32( st->total_brate, ACELP_13k20 ) || EQ_32( st->total_brate, ACELP_32k ) ) + if ( !st->bfi ) { - st->mdct_sw_enable = MODE1; - move16(); - } - ELSE IF( LE_32( ACELP_16k40, st->total_brate ) && LE_32( st->total_brate, ACELP_24k40 ) ) - { - st->mdct_sw_enable = MODE2; - move16(); - } - - test(); - test(); - IF( EQ_16( st->codec_mode, MODE1 ) && EQ_16( st->mdct_sw_enable, MODE1 ) ) - { - /* Read ahead core mode signaling */ - Word16 next_bit_pos_save; - Word16 core_save; - Word16 bwidth_save; - - next_bit_pos_save = st->next_bit_pos; - move16(); - core_save = st->core; - move16(); - bwidth_save = st->bwidth; - move16(); - - decision_matrix_core_dec( st ); /* sets st->core */ + IF( st->Opt_AMR_WB != 0 ) + { + return; + } - IF( EQ_16( st->core, TCX_20_CORE ) ) + test(); + test(); + IF( EQ_32( st->total_brate, ACELP_13k20 ) || EQ_32( st->total_brate, ACELP_32k ) ) { - /* Trigger TCX */ - st->codec_mode = MODE2; + st->mdct_sw_enable = MODE1; move16(); - st->mdct_sw = MODE1; + } + ELSE IF( LE_32( ACELP_16k40, st->total_brate ) && LE_32( st->total_brate, ACELP_24k40 ) ) + { + st->mdct_sw_enable = MODE2; move16(); } - ELSE + + test(); + test(); + IF( EQ_16( st->codec_mode, MODE1 ) && EQ_16( st->mdct_sw_enable, MODE1 ) ) { - /* Rewind bitstream */ - st->next_bit_pos = next_bit_pos_save; + /* Read ahead core mode signaling */ + Word16 next_bit_pos_save; + Word16 core_save; + Word16 bwidth_save; + + next_bit_pos_save = st->next_bit_pos; + move16(); + core_save = st->core; move16(); - IF( st->bfi != 0 ) + bwidth_save = st->bwidth; + move16(); + + decision_matrix_core_dec( st ); /* sets st->core */ + + IF( EQ_16( st->core, TCX_20_CORE ) ) { - st->core = core_save; + /* Trigger TCX */ + st->codec_mode = MODE2; move16(); - st->bwidth = bwidth_save; + st->mdct_sw = MODE1; + move16(); + } + ELSE + { + /* Rewind bitstream */ + st->next_bit_pos = next_bit_pos_save; move16(); + IF( st->bfi != 0 ) + { + st->core = core_save; + move16(); + st->bwidth = bwidth_save; + move16(); + } } } - } - ELSE IF( EQ_16( st->codec_mode, MODE2 ) && EQ_16( st->mdct_sw_enable, MODE2 ) ) - { - /* Read ahead core mode signaling */ - Word16 next_bit_pos_save; - Word16 core_save; - Word16 bwidth_save; - - next_bit_pos_save = st->next_bit_pos; - move16(); - core_save = st->core; - move16(); - bwidth_save = st->bwidth; - move16(); - - dec_prm_core( st ); /* sets st->core */ - - IF( EQ_16( st->core, HQ_CORE ) ) + ELSE IF( EQ_16( st->codec_mode, MODE2 ) && EQ_16( st->mdct_sw_enable, MODE2 ) ) { - /* Trigger HQ_CORE */ - st->codec_mode = MODE1; + /* Read ahead core mode signaling */ + Word16 next_bit_pos_save; + Word16 core_save; + Word16 bwidth_save; + + next_bit_pos_save = st->next_bit_pos; move16(); - st->mdct_sw = MODE2; + core_save = st->core; move16(); - } - ELSE - { - /* Rewind bitstream */ - st->next_bit_pos = next_bit_pos_save; + bwidth_save = st->bwidth; move16(); - if ( st->bfi != 0 ) + + dec_prm_core( st ); /* sets st->core */ + + IF( EQ_16( st->core, HQ_CORE ) ) { - st->core = core_save; + /* Trigger HQ_CORE */ + st->codec_mode = MODE1; + move16(); + st->mdct_sw = MODE2; + move16(); + } + ELSE + { + /* Rewind bitstream */ + st->next_bit_pos = next_bit_pos_save; + move16(); + if ( st->bfi != 0 ) + { + st->core = core_save; + move16(); + } + /* always reset bwidth, to not interfere with BER logic */ + st->bwidth = bwidth_save; move16(); } - /* always reset bwidth, to not interfere with BER logic */ - st->bwidth = bwidth_save; - move16(); } } + + return; } + /*-------------------------------------------------------------------* * BRATE2IDX_fx() * @@ -1549,898 +1386,36 @@ Word32 BIT_ALLOC_IDX_16KHZ_fx( Word32 brate, Word16 ctype, Word16 sfrm, Word16 t /*-------------------------------------------------------------------* - * read_indices_fx() + * berCheck() * - * Read indices from an ITU-T G.192 bitstream to the buffer - * Simulate packet losses by inserting frame erasures + * Check for bit errors in channel aware signalling. *-------------------------------------------------------------------*/ -Word16 read_indices_fx( /* o : 1 = reading OK, 0 = problem */ - Decoder_State *st, /* i/o: decoder state structure */ - FILE *file, /* i : bitstream file */ - Word16 rew_flag /* i : rewind flag (rewind file after reading)*/ +static void berCheck( + Decoder_State *st, /* i/o: decoder state structure */ + Word16 *coder_type /* i/o: coder type */ ) { - Word16 k; - UWord16 utmp, stream[2 + MAX_BITS_PER_FRAME], *pt_stream, *bit_stream_ptr; - Word16 num_bits; - Word32 total_brate; - Word32 L_tmp; - Word16 curr_ft_good_sp, curr_ft_bad_sp; - Word16 g192_sid_first, sid_upd_bad, sid_update; - Word16 speech_bad, speech_lost; - Word16 num_bits_read; - - st->bfi = 0; - move16(); - st->BER_detect = 0; - move16(); - st->mdct_sw_enable = 0; - move16(); - st->mdct_sw = 0; - move16(); - reset_indices_dec_fx( st ); - - /* read the Sync Header field from the bitstream */ - /* in case rew_flag is set, read until first good frame is encountered */ + /* In case of RF flag = 1, and valid RF packet with primary and partial copy */ test(); test(); - DO + IF( ( EQ_16( st->bwidth, NB ) || EQ_16( st->bwidth, FB ) ) || ( GE_16( *coder_type, TRANSITION ) ) ) { - /* read the Sync header */ - IF( NE_32( fread( &utmp, sizeof( unsigned short ), 1, file ), 1 ) ) - { - IF( ferror( file ) ) - { - /* error during reading */ - fprintf( stderr, "\nError reading the bitstream !" ); - exit( -1 ); - } - ELSE - { - /* end of file reached */ - return 0; - } - } - - /* set the BFI indicator according the value of Sync Header */ - IF( EQ_16( utmp, SYNC_BAD_FRAME ) ) - { - st->bfi = 1; - move16(); - } - ELSE + if ( EQ_16( st->use_partial_copy, 1 ) ) { - st->bfi = 0; + st->use_partial_copy = 0; move16(); } - /* read the Frame Length field from the bitstream */ - IF( NE_32( fread( &num_bits, sizeof( unsigned short ), 1, file ), 1 ) ) - { - IF( ferror( file ) ) - { - /* error during reading */ - fprintf( stderr, "\nError reading the bitstream !" ); - exit( -1 ); - } - ELSE - { - /* end of file reached */ - return 0; - } - } - /* convert the frame length to total bitrate */ - total_brate = L_mult0( num_bits, 50 ); - - /* read ITU-T G.192 serial stream of indices from file to the local buffer */ - /* Validate that the G.192 length is within the defined bit rate range - to not allow writing past the end of the "stream" buffer */ - IF( GT_16( num_bits, MAX_BITS_PER_FRAME ) ) - { - fprintf( stderr, "\nError, too large G.192 frame (size(%d))! Exiting ! \n", num_bits ); - exit( -1 ); - } - - /* verify that a valid num bits value is present in the G.192 file */ - /* only AMRWB or EVS bit rates or 0(NO DATA) are allowed in G.192 file frame reading */ - IF( rate2EVSmode( total_brate, NULL ) < 0 ) /* negative value means that a valid rate was not found */ - { - fprintf( stderr, "\nError, illegal bit rate (%d) in the G.192 frame ! Exiting ! \n", total_brate ); - exit( -1 ); - } - pt_stream = stream; - - num_bits_read = (Word16) fread( pt_stream, sizeof( unsigned short ), num_bits, file ); + st->bfi = 1; move16(); - - IF( NE_16( num_bits_read, num_bits ) ) - { - fprintf( stderr, "\nError, invalid number of bits read ! Exiting ! \n" ); - exit( -1 ); - } - } - WHILE( rew_flag && ( st->bfi || ( total_brate < 2800 ) ) ); - - /* G.192 RX DTX handler*/ - IF( !rew_flag ) - { - /* handle SID_FIRST, SID_BAD, SPEECH_LOST, NO_DATA as properly as possible for the ITU-T G.192 format */ - - /* (total_brate, bfi , st_CNG) = rx_handler(received frame type, [previous frame type], past CNG state, past core) */ - curr_ft_good_sp = 0; + st->bwidth = st->last_bwidth; move16(); - curr_ft_bad_sp = 0; + st->BER_detect = 1; + move16(); + *coder_type = GENERIC; move16(); - - IF( GT_32( total_brate, SID_2k40 ) ) - { - IF( st->bfi == 0 ) - { - curr_ft_good_sp = 1; - move16(); - } - ELSE - { - curr_ft_bad_sp = 1; - move16(); - } - } - sid_update = 0; - move16(); - sid_upd_bad = 0; - move16(); - - test(); - IF( total_brate == SID_1k75 || total_brate == SID_2k40 ) - { - IF( st->bfi == 0 ) - { - sid_update = 1; - move16(); - } - ELSE - { - sid_upd_bad = 1; /* may happen in CS , corrupt but detected sid frame */ - move16(); - } - } - - /* all zero indeces/bits iSP AMRWB SID_update results in a valid LP filter with extremely high LP-filter-gain */ - /* all zero indeces/bits may be a result of CS bit errors and/or erroneously injected by gateways or by a bad dejitter handlers */ - test(); - IF( EQ_32( total_brate, SID_1k75 ) && EQ_16( sid_update, 1 ) ) - { - /* valid sid_update received, check for very risky but formally valid content */ - Word16 sum = 0; - move16(); - FOR( k = 0; k < num_bits; ++k ) - { - sum = add( sum, extract_l( EQ_16( pt_stream[k], G192_BIN1 ) ) ); /* check of 35 zeroes, 35 ones */ - } - if ( sum == 0 ) - { /* all zeros */ - sid_upd_bad = 1; /* initial signal as corrupt (BER likley) */ - move16(); - } - } - - /* AMRWB 26.173 G.192 file reader (read_serial) does not declare/use SID_BAD ft, - it declares every bad synch marked frame initially as a lost_speech frame, - and then the RXDTX handler CNG state decides the decoding mode CNG/SPEECH. - While In the AMRWB ETSI/3GPP format eid a CRC error in a detected SID_UPDATE frame triggers SID_UPD_BAD. - - Here we inhibit use of the SID-length info, even though it is available in the G.192 file format after STL/EID-XOR . - */ - IF( sid_upd_bad ) - { - sid_upd_bad = 0; - move16(); - total_brate = FRAME_NO_DATA; /* treat SID_BAD as a stolen signaling frame --> SPEECH LOST */ - move32(); - } - - g192_sid_first = 0; - move16(); - - test(); - test(); - test(); - if ( EQ_16( st->core, AMR_WB_CORE ) && st->prev_ft_speech_fx && total_brate == FRAME_NO_DATA && st->bfi == 0 ) - { - g192_sid_first = 1; /* SID_FIRST detected for previous AMRWB/AMRWBIO active frames only */ - /* - It is not possible to perfectly simulate rate switching conditions EVS->AMRWBIO where: - the very first SID_FIRST detection is based on a past EVS active frame - and a good length 0 "SID_FIRST"(NO_DATA) frame is sent in AMRWBIO, - , due to the one frame state memory in the AMRWB legacy G.192 SID_FIRST encoding - */ - move16(); - } - - speech_bad = 0; - move16(); - - test(); - if ( GT_32( total_brate, SID_2k40 ) && st->bfi != 0 ) /* CS-type of CRC failure frame */ - { - speech_bad = 1; /* initial assumption, CNG_state decides what to do */ - move16(); - } - - speech_lost = 0; - move16(); - - test(); - if ( total_brate == 0 && st->bfi != 0 ) /* unsent NO_DATA or stolen NO_DATA/signaling frame */ - { - speech_lost = 1; /* initial assumption, CNG_state decides what to do */ - move16(); - } - - /* Do not allow decoder to enter CNG-synthesis for any instantly received GOOD+LENGTH==0 frame - as this frame was never transmitted, one can not know it is good and has a a length of zero ) */ - - IF( st->CNG_fx != 0 ) - { - /* We were in CNG synthesis */ - if ( curr_ft_good_sp != 0 ) - { - /* only a good speech frame makes you leave CNG synthesis */ - st->CNG_fx = 0; - move16(); - } - } - ELSE - { - /* We were in SPEECH synthesis */ - /* only a received SID frame can make the decoder enter into CNG synthsis */ - test(); - test(); - if ( g192_sid_first || sid_update || sid_upd_bad ) - { - st->CNG_fx = 1; - move16(); - } - } - - /* handle the g.192 _simulated_ untransmitted frame, setting for decoder SPEECH synthesis */ - test(); - test(); - if ( ( st->CNG_fx == 0 ) && ( total_brate == 0 && st->bfi == 0 ) ) - { - st->bfi = 1; - move16(); /* SPEECH PLC code will now become active as in a real system */ - /* total_brate= 0 */ - } - - /* handle bad speech frame(and bad sid frame) in the decoders CNG synthesis settings pair (total_brate, bfi) */ - test(); - test(); - test(); - IF( ( ( st->CNG_fx != 0 ) && ( ( speech_bad != 0 ) || ( speech_lost != 0 ) ) ) || /* SP_BAD or SPEECH_LOST) --> stay in CNG */ - ( sid_upd_bad != 0 ) ) /* SID_UPD_BAD --> start CNG */ - { - st->bfi = 0; - move16(); - total_brate = 0; - move32(); - } - /* update for next frame's G.192 file format's SID_FIRST detection (primarily for AMRWBIO) */ - test(); - st->prev_ft_speech_fx = ( ( curr_ft_good_sp != 0 ) || ( curr_ft_bad_sp != 0 ) ); - move16(); - - /* st->total brate= total_brate ; updated in a good frame below */ - } /* rew_flag */ - - /* get total bit-rate */ -#ifdef DEBUGGING - st->bfi |= file_read_FECpattern(); -#endif - test(); - IF( st->bfi == 0 && !rew_flag ) - { - /* select MODE1 or MODE2 */ - decoder_selectCodec( st, total_brate, *pt_stream ); - } - - Mpy_32_16_ss( total_brate, 5243, &L_tmp, &utmp ); /* 5243 is 1/50 in Q18. (0+18-15=3) */ - st->total_num_bits = extract_l( L_shr( L_tmp, 3 ) ); /* Q0 */ - move16(); - - /* in case rew_flag is set, rewind the file and return */ - /* (used in io_enc() to print out info about technologies and to initialize the codec) */ - IF( rew_flag ) - { - rewind( file ); - st->total_brate = total_brate; - move32(); - return 1; - } - - /* GOOD frame */ - IF( st->bfi == 0 ) - { - /* GOOD frame - convert ITU-T G.192 words to short values */ - bit_stream_ptr = st->bit_stream; - - FOR( k = 0; k < num_bits; ++k ) - { - *bit_stream_ptr++ = (UWord16) EQ_32( *pt_stream++, G192_BIN1 ); - move16(); - } - - /*add two zero bytes for arithmetic coder flush*/ - FOR( k = 0; k < 2 * 8; ++k ) - { - *bit_stream_ptr++ = 0; - move16(); - } - /*a change of the total bitrate should not be - known to the decoder, if the received frame was lost*/ - st->total_brate = total_brate; - move32(); - - mdct_switching_dec( st ); - } -#ifdef DEBUGGING - else - { - bit_stream_ptr = st->bit_stream; - - for ( k = 0; k < num_bits + 2 * 8; ++k ) - { - *bit_stream_ptr++ = 0; - } - } -#endif - return 1; -} - - -/*-------------------------------------------------------------------* - * read_indices_mime_handle_dtx() - * - * Handle DTX for MIME and RTP_DUMP decoding. - * Returns the actual total_brate. - *-------------------------------------------------------------------*/ - -static Word32 read_indices_mime_handle_dtx( - Decoder_State *st, - Word16 isAMRWB_IOmode, - Word16 core_mode, - Word32 total_brate, - Word16 sti, - Word16 speech_lost, - Word16 no_data ) -{ - Word16 curr_ft_good_sp = 0; - Word16 speech_bad = 0; - Word16 sid_upd_bad = 0, sid_update = 0; - Word16 amrwb_sid_first = 0; /* derived from sti SID_FIRST indicator in AMRWB payload */ - move16(); - move16(); - move16(); - move16(); - move16(); - - /* keep st->CNG , st_bfi and total_brate updated for proper synthesis in DTX and FER */ - IF( GT_32( total_brate, SID_2k40 ) ) - { - if ( NE_16( st->bfi, 1 ) ) /* so far derived from q bit in AMRWB/AMRWBIO cases */ - { - curr_ft_good_sp = 1; - move16(); - } - } - - /* handle q_bit and lost_sp clash , assume worst case */ - IF( speech_lost != 0 ) /* overrides a good q_bit */ - { - curr_ft_good_sp = 0; - move16(); - st->bfi = 1; /* override qbit */ - move16(); - } - - /* now_bfi_fx has been set based on q_bit and ToC fields */ - - - /* SID_UPDATE check */ - test(); - IF( EQ_32( total_brate, SID_1k75 ) || EQ_32( total_brate, SID_2k40 ) ) - { - IF( st->bfi == 0 ) - { - /* typically from q bit */ - sid_update = 1; - move16(); - } - ELSE - { - sid_upd_bad = 1; /* may happen in saving from e.g. a CS-connection */ - move16(); - } - } - - test(); - test(); - IF( isAMRWB_IOmode && total_brate == 0 && sti == 0 ) - { - IF( st->bfi ) - { - sid_upd_bad = 1; /* corrupt sid_first, signaled as bad sid */ - move16(); - } - ELSE - { - amrwb_sid_first = 1; /* 1-sti */ - move16(); - } - } - - test(); - test(); - test(); - test(); - IF( sid_upd_bad != 0 && ( ( isAMRWB_IOmode != 0 && st->Opt_AMR_WB == 0 ) || /* switch to AMRWBIO */ - ( NE_16( isAMRWB_IOmode, 1 ) && EQ_16( st->Opt_AMR_WB, 1 ) ) /* switch from AMRWBIO */ - ) ) - { - /* do not allow a normal start of CNG synthesis if this SID(with BER or FER) is a switch to/from AMRWBIO */ - sid_upd_bad = 0; /* revert this detection due to AMRWBIO/EVS mode switch */ - move16(); - total_brate = 0; - move32(); - no_data = 1; - move16(); - assert( st->bfi == 1 ); /* bfi stays 1 */ - } - - test(); - if ( GT_32( total_brate, SID_2k40 ) && EQ_16( st->bfi, 1 ) ) /* typically from q bit */ - { - speech_bad = 1; /* initial assumption, CNG synt state decides what to actually do */ - move16(); - } - /* all frame types decoded */ - - /* update CNG synthesis state */ - /* Decoder can only enter CNG-synthesis for CNG frame types (sid_upd, sid_bad, sid_first) */ - IF( st->CNG_fx != 0 ) - { - /* We were in CNG synthesis */ - if ( curr_ft_good_sp != 0 ) - { - /* only a good speech frame makes decoder leave CNG synthesis */ - st->CNG_fx = 0; - move16(); - } - } - ELSE - { - /* We were in SPEECH synthesis */ - /* only a received SID frame can make the decoder enter into CNG synthesis */ - test(); - test(); - if ( amrwb_sid_first || sid_update || sid_upd_bad ) - { - st->CNG_fx = 1; - move16(); - } - } - - /* Now modify bfi flag for the decoder's SPEECH/CNG synthesis logic */ - /* in SPEECH synthesis, make sure to activate speech plc for a received no_data frame, - no_data frames may be injected by the network or by the dejitter buffer */ - /* modify bfi_flag to stay/move into the correct decoder PLC section */ - test(); - if ( ( st->CNG_fx == 0 ) && ( no_data != 0 ) ) - { - /* treat no_data received in speech synthesis as SP_LOST frames, SPEECH PLC code will now become active */ - st->bfi = 1; - move16(); - /* total_brate= 0; always zero for no_data */ - } - - /* in CNG */ - /* handle bad speech frame(and bad sid frame) in the decoders CNG synthesis settings pair (total_brate, bfi) */ - test(); - test(); - test(); - test(); - IF( ( st->CNG_fx != 0 && ( speech_bad || speech_lost || no_data ) ) || /* SP_BAD or SPEECH_LOST) --> stay in CNG */ - sid_upd_bad ) /* SID_UPD_BAD --> start/stay CNG */ - { - st->bfi = 0; /* mark as good to not start speech PLC */ - move16(); - total_brate = 0; /* this zeroing needed for speech_bad, sid_bad frames */ - move32(); - } - - - /* now bfi, total_brate are set by RX-DTX handler:: - bfi==0, total_brate!=0 cng or speech pending bitrate - bfi==0, total_brate==0 cng will continue or start(sid_first, sid_bad) - bfi==1, total_brate!=0 speech plc - bfi==1, total_brate==0 , speech plc - */ - - - /* handle available AMRWB/AMRWBIO MIME header ToC rate-info at startup */ - test(); - test(); - test(); - test(); - IF( ( EQ_16( st->bfi, 1 ) && st->ini_frame == 0 ) && - ( ( st->amrwb_rfc4867_flag != 0 ) || ( st->amrwb_rfc4867_flag == 0 && isAMRWB_IOmode != 0 ) ) ) /*AMRWB ToC */ - { - Word32 init_rate; - - init_rate = total_brate; /* default , may have been modified from original ToC value */ - move32(); - - test(); - IF( speech_lost != 0 || no_data != 0 ) - { - init_rate = ACELP_12k65; /* make sure the decoder starts up in a selected AMRWB mode */ - move32(); - } - ELSE IF( speech_bad != 0 ) - { - init_rate = AMRWB_IOmode2rate[core_mode]; /* read from from ToC */ - move32(); - } - st->total_brate = init_rate; /* not updated on bfi as decoderSelectCodec is not called below */ - move32(); - st->core_brate = init_rate; - move32(); - } - - return total_brate; -} - - -/*-------------------------------------------------------------------* - * read_indices_mime_handle_sti_and_all_zero_bits() - * - * Handle STI and frames with all zero bits for MIME and RTP_DUMP decoding. - *-------------------------------------------------------------------*/ - -static void read_indices_mime_handle_sti_and_all_zero_bits( - Decoder_State *st, - Word32 *total_brate, - Word16 sti ) -{ - Word16 k; - - IF( sti == 0 ) - { - *total_brate = 0; /* signal received SID_FIRST as a good frame with no bits */ - move32(); - FOR( k = 0; k < 35; k++ ) - { - st->bfi = s_or( st->bfi, st->bit_stream[k] ); /* partity check of 35 zeroes, any single 1 gives BFI */ - move16(); - } - } - /* all zero bit SID_update results in a valid LP filter with extremely high LP-filter-gain */ - /* all zero bits signal may be a result of CS bit errors or erronesouly injected by gateways or bad dejitter handlers */ - IF( EQ_16( sti, 1 ) ) - { /*sid_update received */ - Word16 sum = 0; - move16(); - FOR( k = 0; k < 35; k++ ) - { - sum = add( sum, st->bit_stream[k] ); /* check of 35 zeroes */ - } - - if ( sum == 0 ) - { - st->bfi = 1; /* eventually becomes SID_UPD_BAD */ - move16(); - } - } -} - - -/*------------------------------------------------------------------------------------------* - * read_indices_mime() - * - * Read indices from MIME formatted bitstream to the buffer - * The magic word and number of channnels should be consumed before calling this function - *-------------------------------------------------------------------------------------------*/ - -Word16 read_indices_mime( /* o : 1 = reading OK, 0 = problem */ - Decoder_State *st, /* i/o: decoder state structure */ - FILE *file, /* i : bitstream file */ - Word16 rew_flag /* i : rewind flag (rewind file after reading) */ -) -{ - Word16 k, isAMRWB_IOmode, cmi, core_mode = -1, qbit, sti; - UWord8 header; - UWord8 pFrame[( MAX_BITS_PER_FRAME + 7 ) >> 3]; - UWord8 mask = 0x80, *pt_pFrame = pFrame; - UWord16 *bit_stream_ptr; - Word16 num_bits; - Word32 total_brate; - UWord16 utmp; - Word32 L_tmp; - Word16 speech_lost = 0, no_data = 0; - Word16 num_bytes_read; - - move16(); - move16(); - move16(); - move16(); - - st->BER_detect = 0; - move16(); - st->bfi = 0; - move16(); - st->mdct_sw_enable = 0; - move16(); - st->mdct_sw = 0; - move16(); - reset_indices_dec_fx( st ); - - /* read the FT Header field from the bitstream */ - IF( NE_32( fread( &header, sizeof( UWord8 ), 1, file ), 1 ) ) - { - IF( ferror( file ) ) - { - /* error during reading */ - fprintf( stderr, "\nError reading the bitstream !" ); - exit( -1 ); - } - ELSE - { - /* end of file reached */ - return 0; - } - } - - /* init local RXDTX flags */ - sti = -1; - move16(); - - IF( st->amrwb_rfc4867_flag != 0 ) - { - /* RFC 4867 - 5.3 .... - Each stored speech frame starts with a one-octet frame header with - the following format: - 0 1 2 3 4 5 6 7 - +-+-+-+-+-+-+-+-+ - |P| FT |Q|P|P| - +-+-+-+-+-+-+-+-+ - The FT field and the Q bit are defined in the same way as in - Section 4.3.2. The P bits are padding and MUST be set to 0, and MUST be ignored. */ - - isAMRWB_IOmode = 1; - move16(); - qbit = s_and( shr( header, 2 ), 0x01 ); /* b2 bit (b7 is the F bit ) */ - st->bfi = !qbit; - move16(); - core_mode = s_and( shr( header, 3 ), 0x0F ); /* b6..b3 */ - total_brate = AMRWB_IOmode2rate[core_mode]; /* get the frame length from the header */ - move32(); - } - ELSE - { - /*0 1 2 3 4 5 6 7 MS-bit ---> LS-bit - +-+-+-+-+-+-+-+-+ - |H|F|E|x| brate | - +-+-+-+-+-+-+-+-+ - where : - "E|x| brate " is the 6 bit "FT" -field - x is unused if E=0, (should be 0 ) - x is the q-bit if E=1, q==1(good), Q==0(bad, maybe bit errors in payload ) - H,F always 0 in RTP format. - */ - isAMRWB_IOmode = extract_l( GT_16( s_and( header, 0x20 ), 0 ) ); /* get EVS mode-from header */ /* b2 */ - core_mode = s_and( header, 0x0F ); /* b4,b5,b6,b7 */ - - IF( isAMRWB_IOmode ) - { - qbit = extract_l( GT_16( s_and( header, 0x10 ), 0 ) ); /* get Q bit, valid for IO rates */ /* b3 */ - total_brate = AMRWB_IOmode2rate[core_mode]; - move32(); - } - ELSE - { - qbit = 1; /* assume good q_bit for the unused EVS-mode bit, complete ToC validity checked later */ - move16(); - total_brate = PRIMARYmode2rate[core_mode]; - move32(); - } - st->bfi = !qbit; - move16(); - } - - - /* set up RX-DTX-handler input */ - if ( EQ_16( core_mode, 14 ) ) - { - /* SP_LOST */ - speech_lost = 1; - move16(); - } - if ( EQ_16( core_mode, 15 ) ) - { - /* NO_DATA unsent CNG frame OR any frame marked or injected as no_data by e.g a signaling layer or dejitter buffer */ - no_data = 1; - move16(); - } - - Mpy_32_16_ss( total_brate, 5243, &L_tmp, &utmp ); /* 5243 is 1/50 in Q18. (0+18-15=3) */ - num_bits = extract_l( L_shr( L_tmp, 3 ) ); /* Q0 */ - st->total_num_bits = num_bits; - move16(); - - IF( total_brate < 0 ) - { - /* validate that total_brate (derived from RTP packet or a file header) is one of the defined bit rates */ - fprintf( stderr, "\n Error. Illegal total bit rate (= %d) in MIME ToC header \n", total_brate ); - /* num_bits = -1; not needed as BASOP multiplication preserves sign */ - } - - /* Check correctness of ToC headers */ - IF( st->amrwb_rfc4867_flag == 0 ) - { - /* EVS ToC header (FT field(b2-b7), H bit (b0), F bit (b1) , (EVS-modebit(b2)=0 unused(Qbit)(b3)==0) */ - test(); - test(); - test(); - test(); - test(); - test(); - test(); - IF( ( isAMRWB_IOmode == 0 ) && ( ( num_bits < 0 ) || ( s_and( header, 0x80 ) > 0 ) || ( s_and( header, 0x40 ) > 0 ) || s_and( header, 0x30 ) != 0x00 ) ) - { - /* incorrect FT header */ - fprintf( stderr, "\nError in EVS FT ToC header(%02x) ! ", header ); - exit( -1 ); - } - ELSE IF( ( isAMRWB_IOmode != 0 ) && ( ( num_bits < 0 ) || ( s_and( header, 0x80 ) > 0 ) || ( s_and( header, 0x40 ) > 0 ) ) ) /* AMRWBIO */ - { - /* incorrect IO FT header */ - fprintf( stderr, "\nError in EVS(AMRWBIO) FT ToC header(%02x) ! ", header ); - exit( -1 ); - } - } - ELSE - { - /* legacy AMRWB ToC, is only using Padding bits which MUST be ignored */ - IF( num_bits < 0 ) - { - /* incorrect FT header */ - fprintf( stderr, "\nError in AMRWB RFC4867 Toc(FT) header(%02x) !", header ); - exit( -1 ); - } - } - - /* read serial stream of indices from file to the local buffer */ - num_bytes_read = extract_l( fread( pFrame, sizeof( UWord8 ), shr( add( num_bits, 7 ), 3 ), file ) ); - IF( NE_16( num_bytes_read, shr( add( num_bits, 7 ), 3 ) ) ) - { - fprintf( stderr, "\nError, invalid number of bytes read ! Exiting ! \n" ); - exit( -1 ); - } - - /* in case rew_flag is set, rewind the file and return */ - /* (used in io_dec() to attempt print out info about technologies and to initialize the codec ) */ - IF( rew_flag ) - { - st->total_brate = total_brate; /* used for the codec banner output */ - move32(); - test(); - test(); - IF( st->bfi == 0 && speech_lost == 0 && no_data == 0 ) - { - decoder_selectCodec( st, total_brate, unpack_bit( &pt_pFrame, &mask ) ? G192_BIN1 : G192_BIN0 ); - } - return 1; - } - - - /* unpack speech data */ - bit_stream_ptr = st->bit_stream; - FOR( k = 0; k < num_bits; k++ ) - { - IF( isAMRWB_IOmode ) - { - st->bit_stream[sort_ptr[core_mode][k]] = unpack_bit( &pt_pFrame, &mask ); - move16(); - bit_stream_ptr++; - } - ELSE - { - *bit_stream_ptr++ = unpack_bit( &pt_pFrame, &mask ); - move16(); - } - } - - /* unpack auxiliary bits */ - /* Note: the cmi bits are unpacked for demo purposes; */ - test(); - IF( isAMRWB_IOmode && EQ_32( total_brate, SID_1k75 ) ) - { - sti = unpack_bit( &pt_pFrame, &mask ); - cmi = shl( unpack_bit( &pt_pFrame, &mask ), 3 ); - cmi = s_or( cmi, shl( unpack_bit( &pt_pFrame, &mask ), 2 ) ); - cmi = s_or( cmi, shl( unpack_bit( &pt_pFrame, &mask ), 1 ) ); - cmi = s_or( cmi, unpack_bit( &pt_pFrame, &mask ) ); - - read_indices_mime_handle_sti_and_all_zero_bits( st, &total_brate, sti ); - } - - /*add two zero bytes for arithmetic coder flush*/ - FOR( k = 0; k < 2 * 8; ++k ) - { - *bit_stream_ptr++ = 0; - move16(); - } - - /* MIME RX_DTX handler */ - IF( !rew_flag ) - { - total_brate = read_indices_mime_handle_dtx( st, isAMRWB_IOmode, core_mode, total_brate, sti, speech_lost, no_data ); - } - - IF( st->bfi == 0 ) - { - /* select MODE1 or MODE2 in MIME */ - IF( *st->bit_stream ) - { - decoder_selectCodec( st, total_brate, G192_BIN1 ); - } - ELSE - { - decoder_selectCodec( st, total_brate, G192_BIN0 ); - } - /* a change of the total bitrate should not be known to the decoder, if the received frame was truly lost */ - st->total_brate = total_brate; - move32(); - mdct_switching_dec( st ); - } - /* else{ bfi stay in past synthesis mode(SP,CNG) } */ - - return 1; -} - -/*-------------------------------------------------------------------* - * berCheck() - * - * Check for bit errors in channel aware signalling. - *-------------------------------------------------------------------*/ - -static void berCheck( - Decoder_State *st, /* i/o: decoder state structure */ - Word16 *coder_type /* i/o: coder type */ -) -{ - /* In case of RF flag = 1, and valid RF packet with primary and partial copy */ - test(); - test(); - IF( ( EQ_16( st->bwidth, NB ) || EQ_16( st->bwidth, FB ) ) || ( GE_16( *coder_type, TRANSITION ) ) ) - { - if ( EQ_16( st->use_partial_copy, 1 ) ) - { - st->use_partial_copy = 0; - move16(); - } - - st->bfi = 1; - move16(); - st->bwidth = st->last_bwidth; - move16(); - st->BER_detect = 1; - move16(); - *coder_type = GENERIC; - move16(); - } + } return; } @@ -2769,148 +1744,6 @@ void get_NextCoderType_fx( move16(); } -/*-------------------------------------------------------------------* - * read_indices_from_djb_fx() - * - * Read indices from the de-jitter buffer payload (works also for AMR-WB IO mode) - *-------------------------------------------------------------------*/ - -void read_indices_from_djb_fx( - Decoder_State *st, /* i/o: decoder state structure */ - UWord8 *pt_stream, /* i : bitstream file */ - Word16 num_bits, /* i : input frame length in bits */ - Word16 isAMRWB_IOmode, - Word16 core_mode, - Word16 qbit, - Word16 partialframe, /* i : partial frame information */ - Word16 next_coder_type /* i : next coder type information */ -) -{ - Word16 k; - UWord8 mask = 0x80; - Word16 no_data = 0; - Word16 sti = -1; - UWord16 *bit_stream_ptr; - Word32 total_brate; - Word16 speech_lost = 0; - - move16(); - move16(); - move16(); - move16(); - - st->bfi = 0; - move16(); - st->BER_detect = 0; - move16(); - st->mdct_sw_enable = 0; - move16(); - st->mdct_sw = 0; - move16(); - reset_indices_dec_fx( st ); - - st->bfi = !qbit; - move16(); - total_brate = L_mult0( num_bits, 50 ); - st->total_num_bits = num_bits; - move16(); - - IF( num_bits == 0 ) /* guess type of missing frame for SP_LOST and NO_DATA */ - { - speech_lost = st->CNG_fx == 0; - move16(); - move16(); - no_data = st->CNG_fx != 0; - move16(); - } - - test(); - IF( partialframe || st->prev_use_partial_copy ) - { - st->next_coder_type = next_coder_type; - move16(); - } - ELSE - { - st->next_coder_type = INACTIVE; - move16(); - } - - if ( EQ_16( partialframe, 1 ) ) - { - st->bfi = 2; - move16(); - } - - /* unpack speech data */ - bit_stream_ptr = st->bit_stream; - /* convert bitstream from compact bytes to short values and store it in decoder state */ - FOR( k = 0; k < num_bits; k++ ) - { - test(); - IF( EQ_16( st->bitstreamformat, VOIP_RTPDUMP ) && isAMRWB_IOmode ) - { - st->bit_stream[sort_ptr[core_mode][k]] = unpack_bit( &pt_stream, &mask ); - move16(); - bit_stream_ptr++; - } - ELSE - { - *bit_stream_ptr++ = unpack_bit( &pt_stream, &mask ); - move16(); - } - } - - /* unpack auxiliary bits */ - test(); - IF( isAMRWB_IOmode && EQ_32( total_brate, SID_1k75 ) ) - { - IF( EQ_16( st->bitstreamformat, VOIP_RTPDUMP ) ) - { - /* A.2.2.1.3: AMR-WB SID_1k75 frame is followed by STI bit and CMI bits */ - sti = unpack_bit( &pt_stream, &mask ); - } - ELSE - { - /* VOIP_G192_RTP does not contain STI and CMI */ - sti = 1; - move16(); - } - read_indices_mime_handle_sti_and_all_zero_bits( st, &total_brate, sti ); - } - - /* add two zero bytes for arithmetic coder flush */ - FOR( k = 0; k < 8 * 2; ++k ) - { - *bit_stream_ptr++ = 0; - move16(); - } - - total_brate = read_indices_mime_handle_dtx( st, isAMRWB_IOmode, core_mode, total_brate, sti, speech_lost, no_data ); - /* st->CNG_fx set inside */ - - IF( NE_16( st->bfi, 1 ) ) - { - /* select Mode 1 or Mode 2 */ - IF( *st->bit_stream ) - { - decoder_selectCodec( st, total_brate, G192_BIN1 ); - } - ELSE - { - decoder_selectCodec( st, total_brate, G192_BIN0 ); - } - - - /* a change of the total bitrate should not be known to the decoder, if the received frame was truly lost */ - st->total_brate = total_brate; - move32(); - - mdct_switching_dec( st ); - } -} - - /*-------------------------------------------------------------------* * get_indice_preview() * diff --git a/lib_com/cldfb.c b/lib_com/cldfb.c index b236080217f473564ebc563bc19da54fa5462cc2..d4a6d8ace63ae5b16928fcaa174771d58052fed4 100644 --- a/lib_com/cldfb.c +++ b/lib_com/cldfb.c @@ -39,7 +39,6 @@ #include "options.h" #include #include "stat_dec.h" -#include "prot.h" #include "prot_fx.h" #include "rom_com.h" #include "rom_com_fx.h" @@ -399,18 +398,28 @@ void cldfbAnalysis_ts_fx( /* folding + pre modulation of DST IV */ rr12_fx = L_sub( r1_fx, r2_fx ); // q -1 ri12_fx = L_negate( L_add( i1_fx, i2_fx ) ); // q - 1 - /*cplxMult(&rBuffer[2*k],&rBuffer[2*k+1],rr12,ri12,rot_vctr_re[k],rot_vctr_im[k]);*/ - rBuffer_fx[2 * k] = L_sub( Mpy_32_32( rr12_fx, rot_vctr_re_fx[k] ), Mpy_32_32( ri12_fx, rot_vctr_im_fx[k] ) ); // q - 3 - rBuffer_fx[2 * k + 1] = L_add( Mpy_32_32( rr12_fx, rot_vctr_im_fx[k] ), Mpy_32_32( ri12_fx, rot_vctr_re_fx[k] ) ); // q - 3 + /*cplxMult(&rBuffer[2*k],&rBuffer[2*k+1],rr12,ri12,rot_vctr_re[k],rot_vctr_im[k]);*/ +#ifdef OPT_AVOID_STATE_BUF_RESCALE + rBuffer_fx[2 * k] = Msub_32_32( Mpy_32_32( rr12_fx, rot_vctr_re_fx[k] ), ri12_fx, rot_vctr_im_fx[k] ); // q - 3 + rBuffer_fx[2 * k + 1] = Madd_32_32( Mpy_32_32( rr12_fx, rot_vctr_im_fx[k] ), ri12_fx, rot_vctr_re_fx[k] ); // q - 3 +#else /* OPT_AVOID_STATE_BUF_RESCALE */ + rBuffer_fx[2 * k] = L_sub( Mpy_32_32( rr12_fx, rot_vctr_re_fx[k] ), Mpy_32_32( ri12_fx, rot_vctr_im_fx[k] ) ); // q - 3 + rBuffer_fx[2 * k + 1] = L_add( Mpy_32_32( rr12_fx, rot_vctr_im_fx[k] ), Mpy_32_32( ri12_fx, rot_vctr_re_fx[k] ) ); // q - 3 +#endif /* OPT_AVOID_STATE_BUF_RESCALE */ move32(); move32(); ///* folding + pre modulation of DCT IV */ ir12_fx = L_add( r1_fx, r2_fx ); // q - 1 ii12_fx = L_sub( i1_fx, i2_fx ); // q - 1 - /*cplxMult(&iBuffer[2*k],&iBuffer[2*k+1],ir12,ii12,rot_vctr_re[k],rot_vctr_im[k]);*/ - iBuffer_fx[2 * k] = L_sub( Mpy_32_32( ir12_fx, rot_vctr_re_fx[k] ), Mpy_32_32( ii12_fx, rot_vctr_im_fx[k] ) ); // q - 3 - iBuffer_fx[2 * k + 1] = L_add( Mpy_32_32( ir12_fx, rot_vctr_im_fx[k] ), Mpy_32_32( ii12_fx, rot_vctr_re_fx[k] ) ); // q - 3 + /*cplxMult(&iBuffer[2*k],&iBuffer[2*k+1],ir12,ii12,rot_vctr_re[k],rot_vctr_im[k]);*/ +#ifdef OPT_AVOID_STATE_BUF_RESCALE + iBuffer_fx[2 * k] = Msub_32_32( Mpy_32_32( ir12_fx, rot_vctr_re_fx[k] ), ii12_fx, rot_vctr_im_fx[k] ); // q - 3 + iBuffer_fx[2 * k + 1] = Madd_32_32( Mpy_32_32( ir12_fx, rot_vctr_im_fx[k] ), ii12_fx, rot_vctr_re_fx[k] ); // q - 3 +#else /* OPT_AVOID_STATE_BUF_RESCALE */ + iBuffer_fx[2 * k] = L_sub( Mpy_32_32( ir12_fx, rot_vctr_re_fx[k] ), Mpy_32_32( ii12_fx, rot_vctr_im_fx[k] ) ); // q - 3 + iBuffer_fx[2 * k + 1] = L_add( Mpy_32_32( ir12_fx, rot_vctr_im_fx[k] ), Mpy_32_32( ii12_fx, rot_vctr_re_fx[k] ) ); // q - 3 +#endif /* OPT_AVOID_STATE_BUF_RESCALE */ move32(); move32(); } @@ -450,18 +459,28 @@ void cldfbAnalysis_ts_fx( /* folding + pre modulation of DST IV */ rr12_fx = L_add( r1_fx, r2_fx ); // q - 1 ri12_fx = L_sub( i1_fx, i2_fx ); // q - 1 - /*cplxMult(&rBuffer[2*k],&rBuffer[2*k+1],rr12,ri12,rot_vctr_re[k],rot_vctr_im[k]);*/ - rBuffer_fx[2 * k] = L_sub( Mpy_32_32( rr12_fx, rot_vctr_re_fx[k] ), Mpy_32_32( ri12_fx, rot_vctr_im_fx[k] ) ); // q - 3 - rBuffer_fx[2 * k + 1] = L_add( Mpy_32_32( rr12_fx, rot_vctr_im_fx[k] ), Mpy_32_32( ri12_fx, rot_vctr_re_fx[k] ) ); // q - 3 + /*cplxMult(&rBuffer[2*k],&rBuffer[2*k+1],rr12,ri12,rot_vctr_re[k],rot_vctr_im[k]);*/ +#ifdef OPT_AVOID_STATE_BUF_RESCALE + rBuffer_fx[2 * k] = Msub_32_32( Mpy_32_32( rr12_fx, rot_vctr_re_fx[k] ), ri12_fx, rot_vctr_im_fx[k] ); // q - 3 + rBuffer_fx[2 * k + 1] = Madd_32_32( Mpy_32_32( rr12_fx, rot_vctr_im_fx[k] ), ri12_fx, rot_vctr_re_fx[k] ); // q - 3 +#else /* OPT_AVOID_STATE_BUF_RESCALE */ + rBuffer_fx[2 * k] = L_sub( Mpy_32_32( rr12_fx, rot_vctr_re_fx[k] ), Mpy_32_32( ri12_fx, rot_vctr_im_fx[k] ) ); // q - 3 + rBuffer_fx[2 * k + 1] = L_add( Mpy_32_32( rr12_fx, rot_vctr_im_fx[k] ), Mpy_32_32( ri12_fx, rot_vctr_re_fx[k] ) ); // q - 3 +#endif /* OPT_AVOID_STATE_BUF_RESCALE */ move32(); move32(); /* folding + pre modulation of DCT IV */ ir12_fx = L_sub( r1_fx, r2_fx ); // q - 1 ii12_fx = L_add( i1_fx, i2_fx ); // q - 1 - /*cplxMult(&iBuffer[2*k],&iBuffer[2*k+1],ir12,ii12,rot_vctr_re[k],rot_vctr_im[k]);*/ - iBuffer_fx[2 * k] = L_sub( Mpy_32_32( ir12_fx, rot_vctr_re_fx[k] ), Mpy_32_32( ii12_fx, rot_vctr_im_fx[k] ) ); // q - 3 - iBuffer_fx[2 * k + 1] = L_add( Mpy_32_32( ir12_fx, rot_vctr_im_fx[k] ), Mpy_32_32( ii12_fx, rot_vctr_re_fx[k] ) ); // q - 3 + /*cplxMult(&iBuffer[2*k],&iBuffer[2*k+1],ir12,ii12,rot_vctr_re[k],rot_vctr_im[k]);*/ +#ifdef OPT_AVOID_STATE_BUF_RESCALE + iBuffer_fx[2 * k] = Msub_32_32( Mpy_32_32( ir12_fx, rot_vctr_re_fx[k] ), ii12_fx, rot_vctr_im_fx[k] ); // q - 3 + iBuffer_fx[2 * k + 1] = Madd_32_32( Mpy_32_32( ir12_fx, rot_vctr_im_fx[k] ), ii12_fx, rot_vctr_re_fx[k] ); // q - 3 +#else /* OPT_AVOID_STATE_BUF_RESCALE */ + iBuffer_fx[2 * k] = L_sub( Mpy_32_32( ir12_fx, rot_vctr_re_fx[k] ), Mpy_32_32( ii12_fx, rot_vctr_im_fx[k] ) ); // q - 3 + iBuffer_fx[2 * k + 1] = L_add( Mpy_32_32( ir12_fx, rot_vctr_im_fx[k] ), Mpy_32_32( ii12_fx, rot_vctr_re_fx[k] ) ); // q - 3 +#endif /* OPT_AVOID_STATE_BUF_RESCALE */ move32(); move32(); } @@ -490,8 +509,13 @@ void cldfbAnalysis_ts_fx( FOR( k = 0; k < M2; k++ ) { /*cplxMult(&realBuffer[M1-1-(2*k)],&realBuffer[2*k],rBuffer[2*k],rBuffer[2*k+1],rot_vctr_re[k],rot_vctr_im[k]);*/ +#ifdef OPT_AVOID_STATE_BUF_RESCALE + realBuffer_fx[( ( M1 - 1 ) - ( k * 2 ) )] = Msub_32_32( Mpy_32_32( rBuffer_fx[2 * k], rot_vctr_re_fx[k] ), rBuffer_fx[2 * k + 1], rot_vctr_im_fx[k] ); // q - 5 + realBuffer_fx[2 * k] = Madd_32_32( Mpy_32_32( rBuffer_fx[2 * k], rot_vctr_im_fx[k] ), rBuffer_fx[2 * k + 1], rot_vctr_re_fx[k] ); // q - 5 +#else /* OPT_AVOID_STATE_BUF_RESCALE */ realBuffer_fx[( ( M1 - 1 ) - ( k * 2 ) )] = L_sub( Mpy_32_32( rBuffer_fx[2 * k], rot_vctr_re_fx[k] ), Mpy_32_32( rBuffer_fx[2 * k + 1], rot_vctr_im_fx[k] ) ); // q - 5 realBuffer_fx[2 * k] = L_add( Mpy_32_32( rBuffer_fx[2 * k], rot_vctr_im_fx[k] ), Mpy_32_32( rBuffer_fx[2 * k + 1], rot_vctr_re_fx[k] ) ); // q - 5 +#endif /* OPT_AVOID_STATE_BUF_RESCALE */ move32(); move32(); } @@ -520,8 +544,13 @@ void cldfbAnalysis_ts_fx( { /* do it inplace */ /*cplxMult(&imagBuffer[2*k],&imagBuffer[M1-1-(2*k)],iBuffer[2*k],iBuffer[2*k+1],rot_vctr_re[k],rot_vctr_im[k]);*/ - imagBuffer_fx[2 * k] = L_sub( Mpy_32_32( iBuffer_fx[2 * k], rot_vctr_re_fx[k] ), Mpy_32_32( iBuffer_fx[2 * k + 1], rot_vctr_im_fx[k] ) ); // q - 5 - imagBuffer_fx[( M1 - 1 ) - ( k * 2 )] = L_add( Mpy_32_32( iBuffer_fx[2 * k], rot_vctr_im_fx[k] ), Mpy_32_32( iBuffer_fx[2 * k + 1], rot_vctr_re_fx[k] ) ); // q - 5 +#ifdef OPT_AVOID_STATE_BUF_RESCALE + imagBuffer_fx[2 * k] = Msub_32_32( Mpy_32_32( iBuffer_fx[2 * k], rot_vctr_re_fx[k] ), iBuffer_fx[2 * k + 1], rot_vctr_im_fx[k] ); // q - 5 + imagBuffer_fx[( M1 - 1 ) - ( k * 2 )] = Madd_32_32( Mpy_32_32( iBuffer_fx[2 * k], rot_vctr_im_fx[k] ), iBuffer_fx[2 * k + 1], rot_vctr_re_fx[k] ); // q - 5 +#else /* OPT_AVOID_STATE_BUF_RESCALE */ + imagBuffer_fx[2 * k] = L_sub( Mpy_32_32( iBuffer_fx[2 * k], rot_vctr_re_fx[k] ), Mpy_32_32( iBuffer_fx[2 * k + 1], rot_vctr_im_fx[k] ) ); // q - 5 + imagBuffer_fx[( M1 - 1 ) - ( k * 2 )] = L_add( Mpy_32_32( iBuffer_fx[2 * k], rot_vctr_im_fx[k] ), Mpy_32_32( iBuffer_fx[2 * k + 1], rot_vctr_re_fx[k] ) ); // q - 5 +#endif /* OPT_AVOID_STATE_BUF_RESCALE */ move32(); move32(); } @@ -542,8 +571,13 @@ void cldfbAnalysis_ts_fx( /*cplxMult(&realBuffer[k], &imagBuffer[k], realBuffer[k], imagBuffer[k], rot_vctr_delay_re[k], rot_vctr_delay_im[k]);*/ /*realBuffer[k] = rBuffer[k]; imagBuffer[k] = iBuffer[k];*/ - cplx_aux_fx = L_sub( Mpy_32_32( realBuffer_fx[k], rot_vctr_delay_re_fx[k] ), Mpy_32_32( imagBuffer_fx[k], rot_vctr_delay_im_fx[k] ) ); // q - 5 - imagBuffer_fx[k] = L_add( Mpy_32_32( realBuffer_fx[k], rot_vctr_delay_im_fx[k] ), Mpy_32_32( imagBuffer_fx[k], rot_vctr_delay_re_fx[k] ) ); // q - 5 +#ifdef OPT_AVOID_STATE_BUF_RESCALE + cplx_aux_fx = Msub_32_32( Mpy_32_32( realBuffer_fx[k], rot_vctr_delay_re_fx[k] ), imagBuffer_fx[k], rot_vctr_delay_im_fx[k] ); // q - 5 + imagBuffer_fx[k] = Madd_32_32( Mpy_32_32( realBuffer_fx[k], rot_vctr_delay_im_fx[k] ), imagBuffer_fx[k], rot_vctr_delay_re_fx[k] ); // q - 5 +#else /* OPT_AVOID_STATE_BUF_RESCALE */ + cplx_aux_fx = L_sub( Mpy_32_32( realBuffer_fx[k], rot_vctr_delay_re_fx[k] ), Mpy_32_32( imagBuffer_fx[k], rot_vctr_delay_im_fx[k] ) ); // q - 5 + imagBuffer_fx[k] = L_add( Mpy_32_32( realBuffer_fx[k], rot_vctr_delay_im_fx[k] ), Mpy_32_32( imagBuffer_fx[k], rot_vctr_delay_re_fx[k] ) ); // q - 5 +#endif /* OPT_AVOID_STATE_BUF_RESCALE */ realBuffer_fx[k] = cplx_aux_fx; move32(); move32(); @@ -1091,16 +1125,21 @@ void cldfbAnalysis_ts_fx_fixed_q( return; } + /*-------------------------------------------------------------------* * cldfbSynthesis_ivas() * * Conduct inverse multple overlap cmplex low delay MDCT *--------------------------------------------------------------------*/ void cldfbSynthesis_ivas_fx( - Word32 **realBuffer_fx, /* i : real values Qx*/ - Word32 **imagBuffer_fx, /* i : imag values Qx*/ - Word32 *timeOut_fx, /* o : output time domain samples Qx - 1*/ - const Word16 samplesToProcess, /* i : number of processed samples */ + Word32 **realBuffer_fx, /* i : real values Qx*/ + Word32 **imagBuffer_fx, /* i : imag values Qx*/ + Word32 *timeOut_fx, /* o : output time domain samples Qx - 1*/ + const Word16 samplesToProcess, /* i : number of processed samples */ + const Word16 shift, /* i : scale for state buffer */ +#ifdef OPT_AVOID_STATE_BUF_RESCALE + const Word16 out_shift, /* i : scale for output buffer */ +#endif /* OPT_AVOID_STATE_BUF_RESCALE */ HANDLE_CLDFB_FILTER_BANK h_cldfb /* i : filter bank state */ ) { @@ -1266,31 +1305,73 @@ void cldfbSynthesis_ivas_fx( } /* synthesis prototype filter */ - FOR( i = 0; i < L2; i++ ) + IF( 0 == shift ) + { + FOR( i = 0; i < L2; i++ ) + { + accu0 = Madd_32_16( synthesisBuffer_fx[i], Mpy_32_16_1( new_samples_fx[L2 - 1 - i], p_filter[i] ), p_filter_sf ); // Qx - 1 + accu1 = Madd_32_16( synthesisBuffer_fx[1 * L2 + i], Mpy_32_16_1( new_samples_fx[L2 - 1 - i], p_filter[( 1 * L2 + i )] ), p_filter_sf ); // Qx - 1 + accu2 = Madd_32_16( synthesisBuffer_fx[2 * L2 + i], Mpy_32_16_1( new_samples_fx[L2 - 1 - i], p_filter[( 2 * L2 + i )] ), p_filter_sf ); // Qx - 1 + accu3 = Madd_32_16( synthesisBuffer_fx[3 * L2 + i], Mpy_32_16_1( new_samples_fx[L2 - 1 - i], p_filter[( 3 * L2 + i )] ), p_filter_sf ); // Qx - 1 + accu4 = Madd_32_16( synthesisBuffer_fx[4 * L2 + i], Mpy_32_16_1( new_samples_fx[L2 - 1 - i], p_filter[( 4 * L2 + i )] ), p_filter_sf ); // Qx - 1 + + synthesisBuffer_fx[i] = accu0; + move32(); + synthesisBuffer_fx[1 * L2 + i] = accu1; + move32(); + synthesisBuffer_fx[2 * L2 + i] = accu2; + move32(); + synthesisBuffer_fx[3 * L2 + i] = accu3; + move32(); + synthesisBuffer_fx[4 * L2 + i] = accu4; + move32(); + } + } + ELSE { - accu0 = Madd_32_16( synthesisBuffer_fx[i], Mpy_32_16_1( new_samples_fx[L2 - 1 - i], p_filter[i] ), p_filter_sf ); // Qx - 1 - accu1 = Madd_32_16( synthesisBuffer_fx[1 * L2 + i], Mpy_32_16_1( new_samples_fx[L2 - 1 - i], p_filter[( 1 * L2 + i )] ), p_filter_sf ); // Qx - 1 - accu2 = Madd_32_16( synthesisBuffer_fx[2 * L2 + i], Mpy_32_16_1( new_samples_fx[L2 - 1 - i], p_filter[( 2 * L2 + i )] ), p_filter_sf ); // Qx - 1 - accu3 = Madd_32_16( synthesisBuffer_fx[3 * L2 + i], Mpy_32_16_1( new_samples_fx[L2 - 1 - i], p_filter[( 3 * L2 + i )] ), p_filter_sf ); // Qx - 1 - accu4 = Madd_32_16( synthesisBuffer_fx[4 * L2 + i], Mpy_32_16_1( new_samples_fx[L2 - 1 - i], p_filter[( 4 * L2 + i )] ), p_filter_sf ); // Qx - 1 - synthesisBuffer_fx[i] = accu0; - move32(); - synthesisBuffer_fx[1 * L2 + i] = accu1; - move32(); - synthesisBuffer_fx[2 * L2 + i] = accu2; - move32(); - synthesisBuffer_fx[3 * L2 + i] = accu3; - move32(); - synthesisBuffer_fx[4 * L2 + i] = accu4; - move32(); + FOR( i = 0; i < L2; i++ ) + { + Word32 prod = L_shl_sat( Mpy_32_16_1( new_samples_fx[L2 - 1 - i], p_filter_sf ), shift ); + accu0 = Madd_32_16( synthesisBuffer_fx[i], prod, p_filter[i] ); // Qx -1 + shift + accu1 = Madd_32_16( synthesisBuffer_fx[1 * L2 + i], prod, p_filter[( 1 * L2 + i )] ); // Qx -1 + shift + accu2 = Madd_32_16( synthesisBuffer_fx[2 * L2 + i], prod, p_filter[( 2 * L2 + i )] ); // Qx -1 + shift + accu3 = Madd_32_16( synthesisBuffer_fx[3 * L2 + i], prod, p_filter[( 3 * L2 + i )] ); // Qx -1 + shift + accu4 = Madd_32_16( synthesisBuffer_fx[4 * L2 + i], prod, p_filter[( 4 * L2 + i )] ); // Qx -1 + shift + + synthesisBuffer_fx[i] = accu0; + move32(); + synthesisBuffer_fx[1 * L2 + i] = accu1; + move32(); + synthesisBuffer_fx[2 * L2 + i] = accu2; + move32(); + synthesisBuffer_fx[3 * L2 + i] = accu3; + move32(); + synthesisBuffer_fx[4 * L2 + i] = accu4; + move32(); + } } - FOR( i = 0; i < M1; i++ ) +#ifdef OPT_AVOID_STATE_BUF_RESCALE + IF( 0 == out_shift ) { - ptr_time_out_fx[( M1 - 1 ) - i] = synthesisBuffer_fx[4 * L2 + M1 + i]; - move32(); +#endif /* OPT_AVOID_STATE_BUF_RESCALE */ + FOR( i = 0; i < M1; i++ ) + { + ptr_time_out_fx[( M1 - 1 ) - i] = synthesisBuffer_fx[4 * L2 + M1 + i]; + move32(); + } +#ifdef OPT_AVOID_STATE_BUF_RESCALE } + ELSE + { + FOR( i = 0; i < M1; i++ ) + { + ptr_time_out_fx[( M1 - 1 ) - i] = L_shl_sat( synthesisBuffer_fx[4 * L2 + M1 + i], out_shift ); + move32(); + } + } +#endif /* OPT_AVOID_STATE_BUF_RESCALE */ ptr_time_out_fx += M1; @@ -1305,7 +1386,6 @@ void cldfbSynthesis_ivas_fx( return; } - void configureCldfb_ivas_enc_fx( HANDLE_CLDFB_FILTER_BANK h_cldfb, /* i/o: filter bank handle */ const Word32 sampling_rate /* i : sampling rate */ @@ -1364,8 +1444,8 @@ ivas_error openCldfb_ivas_fx( HANDLE_CLDFB_FILTER_BANK *h_cldfb, /* i/o: filter bank handle */ CLDFB_TYPE type, /* i : analysis or synthesis */ const Word32 sampling_rate, /* i : sampling rate */ - CLDFB_PROTOTYPE prototype /* i : CLDFB version (1.25ms/5ms delay) */ -) + CLDFB_PROTOTYPE prototype, /* i : CLDFB version (1.25ms/5ms delay) */ + const Word16 enc_dec ) /* i : encoder/decoder flag */ { HANDLE_CLDFB_FILTER_BANK hs; Word16 buf_len; @@ -1379,95 +1459,45 @@ ivas_error openCldfb_ivas_fx( move32(); hs->prototype = prototype; move32(); - configureCldfb_ivas_fx( hs, sampling_rate ); - hs->memory32 = NULL; - hs->FilterStates = NULL; - hs->memory_length = 0; - move16(); - - IF( EQ_32( type, CLDFB_ANALYSIS ) ) + IF( enc_dec == ENC ) { - buf_len = sub( hs->p_filter_length, hs->no_channels ); + configureCldfb_ivas_enc_fx( hs, sampling_rate ); + hs->Q_cldfb_state = 0; } ELSE { - buf_len = hs->p_filter_length; - move16(); - } - - IF( ( hs->cldfb_state_fx = (Word32 *) malloc( buf_len * sizeof( Word32 ) ) ) == NULL ) - { - return IVAS_ERROR( IVAS_ERR_FAILED_ALLOC, "Cannot allocate memory for CLDFB" ); + configureCldfb_ivas_fx( hs, sampling_rate ); + hs->Q_cldfb_state = Q11; } - - hs->cldfb_state_length = buf_len; // Temporarily added to store the length of buffer - move16(); - hs->cldfb_size = buf_len; /*for having original size at intermediatery conversion, will be removed on removing conversion*/ - move16(); - set32_fx( hs->cldfb_state_fx, 0, buf_len ); - hs->Q_cldfb_state = Q11; move16(); - *h_cldfb = hs; - move16(); - - return IVAS_ERR_OK; -} - -ivas_error openCldfb_ivas_enc( - HANDLE_CLDFB_FILTER_BANK *h_cldfb, /* i/o: filter bank handle */ - CLDFB_TYPE type, /* i : analysis or synthesis */ - const Word32 sampling_rate, /* i : sampling rate */ - CLDFB_PROTOTYPE prototype /* i : CLDFB version (1.25ms/5ms delay) */ -) -{ - HANDLE_CLDFB_FILTER_BANK hs; - Word16 buf_len; - - IF( ( hs = (HANDLE_CLDFB_FILTER_BANK) malloc( sizeof( CLDFB_FILTER_BANK ) ) ) == NULL ) - { - return IVAS_ERROR( IVAS_ERR_FAILED_ALLOC, "Cannot allocate memory for CLDFB" ); - } - - hs->type = type; - move32(); - hs->prototype = prototype; - move32(); - - configureCldfb_ivas_enc_fx( hs, sampling_rate ); + hs->memory32 = NULL; + hs->FilterStates = NULL; hs->memory_length = 0; - move32(); + move16(); - IF( type == CLDFB_ANALYSIS ) + IF( EQ_32( type, CLDFB_ANALYSIS ) ) { buf_len = sub( hs->p_filter_length, hs->no_channels ); - hs->FilterStates = (Word16 *) malloc( ( 9 + 16 ) * CLDFB_getNumChannels( sampling_rate ) * sizeof( Word16 ) ); - hs->FilterStates_eg = 0; - move16(); } ELSE { buf_len = hs->p_filter_length; move16(); - hs->FilterStates = (Word16 *) malloc( 2 * ( 9 + 16 ) * CLDFB_getNumChannels( sampling_rate ) * sizeof( Word16 ) ); - hs->FilterStates_eg = 0; - move16(); } - if ( ( hs->cldfb_state_fx = (Word32 *) malloc( buf_len * sizeof( Word32 ) ) ) == NULL ) + IF( ( hs->cldfb_state_fx = (Word32 *) malloc( buf_len * sizeof( Word32 ) ) ) == NULL ) { return IVAS_ERROR( IVAS_ERR_FAILED_ALLOC, "Cannot allocate memory for CLDFB" ); } + hs->cldfb_state_length = buf_len; // Temporarily added to store the length of buffer move16(); hs->cldfb_size = buf_len; /*for having original size at intermediatery conversion, will be removed on removing conversion*/ move16(); set32_fx( hs->cldfb_state_fx, 0, buf_len ); - hs->Q_cldfb_state = 0; - move16(); - set16_fx( hs->FilterStates, 0, i_mult( 9 + 16, hs->no_channels ) ); - set16_fx( hs->FilterStates_e, 0, sizeof( hs->FilterStates_e ) / sizeof( hs->FilterStates_e[0] ) ); *h_cldfb = hs; + move16(); return IVAS_ERR_OK; } @@ -1563,41 +1593,6 @@ void analysisCldfbEncoder_ivas_fx( return; } - -/*-------------------------------------------------------------------* - * GetEnergyCldfb_ivas() - * - * Remove handle - *--------------------------------------------------------------------*/ - -void deleteCldfb_ivas( - HANDLE_CLDFB_FILTER_BANK *h_cldfb /* i/o: filter bank handle */ -) -{ - HANDLE_CLDFB_FILTER_BANK hs = *h_cldfb; - - test(); - IF( h_cldfb == NULL || *h_cldfb == NULL ) - { - return; - } - - IF( hs->cldfb_state_fx ) - { - free( hs->cldfb_state_fx ); - } - - IF( hs->FilterStates ) - { - free( hs->FilterStates ); - } - - free( hs ); - *h_cldfb = NULL; - - return; -} - void deleteCldfb_ivas_fx( HANDLE_CLDFB_FILTER_BANK *h_cldfb /* i/o: filter bank handle */ ) diff --git a/lib_com/cldfb_evs.c b/lib_com/cldfb_evs.c index d74b9b64671902f550e2b560d4b3a3992a05ee3e..c28a534d63b01c63d73249732fba395ba4311f79 100644 --- a/lib_com/cldfb_evs.c +++ b/lib_com/cldfb_evs.c @@ -338,7 +338,7 @@ static void calcModulationAndFolding( Word16 *rY, } -/* cldfbAnalysisFiltering +/* cldfbAnalysis_fx Parameters: cldfbBank I/O: handle to analysis CLDFB filter struct @@ -356,14 +356,15 @@ static void calcModulationAndFolding( Word16 *rY, Returns: void */ -void cldfbAnalysisFiltering( HANDLE_CLDFB_FILTER_BANK cldfbBank, - Word32 **rAnalysis, - Word32 **iAnalysis, - CLDFB_SCALE_FACTOR *scaleFactor, - const Word16 *timeIn, // Q(15-timeIn_e) - const Word16 timeIn_e, - const Word16 nTimeSlots, - Word32 *pWorkBuffer // Qx +void cldfbAnalysis_fx( + HANDLE_CLDFB_FILTER_BANK cldfbBank, + Word32 **rAnalysis, + Word32 **iAnalysis, + CLDFB_SCALE_FACTOR *scaleFactor, + const Word16 *timeIn, // Q(15-timeIn_e) + const Word16 timeIn_e, + const Word16 nTimeSlots, + Word32 *pWorkBuffer // Qx ) { @@ -610,7 +611,7 @@ void cldfbAnalysisFiltering( HANDLE_CLDFB_FILTER_BANK cldfbBank, } -/* cldfbSynthesisFiltering +/* cldfbSynthesis_fx Parameters: cldfbBank I/O: handle to analysis CLDFB filter struct @@ -629,14 +630,15 @@ void cldfbAnalysisFiltering( HANDLE_CLDFB_FILTER_BANK cldfbBank, Returns: void */ -void cldfbSynthesisFiltering( HANDLE_CLDFB_FILTER_BANK cldfbBank, - Word32 **rAnalysis, - Word32 **iAnalysis, - const CLDFB_SCALE_FACTOR *scaleFactor, - Word16 *timeOut, // Q(15-timeOut_e) - const Word16 timeOut_e, - const Word16 nTimeSlots, - Word32 *pWorkBuffer // Qx +void cldfbSynthesis_fx( + HANDLE_CLDFB_FILTER_BANK cldfbBank, + Word32 **rAnalysis, + Word32 **iAnalysis, + const CLDFB_SCALE_FACTOR *scaleFactor, + Word16 *timeOut, // Q(15-timeOut_e) + const Word16 timeOut_e, + const Word16 nTimeSlots, + Word32 *pWorkBuffer // Qx ) { Word16 i; @@ -1186,20 +1188,13 @@ void analysisCldfbEncoder_fx( } /* perform analysis */ - cldfbAnalysisFiltering( - st_fx->cldfbAnaEnc, - ppBuf_Real, - ppBuf_Imag, - scale, - timeIn, - 0, - CLDFB_NO_COL_MAX, - workBuffer ); + cldfbAnalysis_fx( st_fx->cldfbAnaEnc, ppBuf_Real, ppBuf_Imag, scale, timeIn, 0, CLDFB_NO_COL_MAX, workBuffer ); enerScale.lb_scale = negate( scale->lb_scale ); enerScale.lb_scale16 = negate( scale->lb_scale ); move16(); move16(); + /* get 16bit respresentation */ AnalysisPostSpectrumScaling_Fx( st_fx->cldfbAnaEnc, diff --git a/lib_com/cng_exc.c b/lib_com/cng_exc.c deleted file mode 100644 index 494305e6f6435bf08e82e84ff48aa93390afef7d..0000000000000000000000000000000000000000 --- a/lib_com/cng_exc.c +++ /dev/null @@ -1,57 +0,0 @@ -/****************************************************************************************************** - - (C) 2022-2025 IVAS codec Public Collaboration with portions copyright Dolby International AB, Ericsson AB, - Fraunhofer-Gesellschaft zur Foerderung der angewandten Forschung e.V., Huawei Technologies Co. LTD., - Koninklijke Philips N.V., Nippon Telegraph and Telephone Corporation, Nokia Technologies Oy, Orange, - Panasonic Holdings Corporation, Qualcomm Technologies, Inc., VoiceAge Corporation, and other - contributors to this repository. All Rights Reserved. - - This software is protected by copyright law and by international treaties. - The IVAS codec Public Collaboration consisting of Dolby International AB, Ericsson AB, - Fraunhofer-Gesellschaft zur Foerderung der angewandten Forschung e.V., Huawei Technologies Co. LTD., - Koninklijke Philips N.V., Nippon Telegraph and Telephone Corporation, Nokia Technologies Oy, Orange, - Panasonic Holdings Corporation, Qualcomm Technologies, Inc., VoiceAge Corporation, and other - contributors to this repository retain full ownership rights in their respective contributions in - the software. This notice grants no license of any kind, including but not limited to patent - license, nor is any license granted by implication, estoppel or otherwise. - - Contributors are required to enter into the IVAS codec Public Collaboration agreement before making - contributions. - - This software is provided "AS IS", without any express or implied warranties. The software is in the - development stage. It is intended exclusively for experts who have experience with such software and - solely for the purpose of inspection. All implied warranties of non-infringement, merchantability - and fitness for a particular purpose are hereby disclaimed and excluded. - - Any dispute, controversy or claim arising under or in relation to providing this software shall be - submitted to and settled by the final, binding jurisdiction of the courts of Munich, Germany in - accordance with the laws of the Federal Republic of Germany excluding its conflict of law rules and - the United Nations Convention on Contracts on the International Sales of Goods. - -*******************************************************************************************************/ - -/*==================================================================================== - EVS Codec 3GPP TS26.443 Nov 04, 2021. Version 12.14.0 / 13.10.0 / 14.6.0 / 15.4.0 / 16.3.0 - ====================================================================================*/ - -#include -#include "options.h" -#include -#include "cnst.h" -#include "prot.h" -#include "rom_com.h" -#include "wmc_auto.h" - -/*---------------------------------------------------------------------* - * Local constants - *---------------------------------------------------------------------*/ - -#define A2 0.2f -#define GAIN_VAR 0.000011f - - -/*-------------------------------------------------------* - * cng_params_upd() - * - * update CNG parameters - *-------------------------------------------------------*/ diff --git a/lib_com/cng_exc_fx.c b/lib_com/cng_exc_fx.c index 3eab0b1f5251aef2467b21caed74f9d40672a597..b314357adee7954c8797853f405db0296b5df6ee 100644 --- a/lib_com/cng_exc_fx.c +++ b/lib_com/cng_exc_fx.c @@ -47,7 +47,7 @@ void CNG_exc_fx( Word16 *cng_ener_seed1, Word16 exc3[], /*Q_exc*/ Word16 Opt_AMR_WB, - const int16_t element_mode /* i : IVAS Element mode */ + const Word16 element_mode /* i : IVAS Element mode */ ) { Word16 i, tmp, tmp2, exp, exp2, Q_ener; @@ -295,10 +295,9 @@ IF( NE_16( Opt_AMR_WB, 1 ) ) /* calculate the spectrum of random excitation signal */ Copy( exc2, fft_io, L_frame ); - Word16 Q_new_inp, mem_decim_size; // TO be removed IF( EQ_16( L_frame, L_FRAME16k ) ) { - modify_Fs_fx( fft_io, L_FRAME16k, 16000, fft_io, 12800, exc_mem1, 0, &Q_new_inp, &mem_decim_size ); + modify_Fs_fx( fft_io, L_FRAME16k, 16000, fft_io, 12800, exc_mem1, 0 ); } /* fft_rel(fft_io, L_FFT, LOG2_L_FFT); */ @@ -411,7 +410,7 @@ IF( NE_16( Opt_AMR_WB, 1 ) ) IF( EQ_16( L_frame, L_FRAME16k ) ) { - modify_Fs_fx( fft_io, L_FFT, 12800, fft_io, 16000, exc_mem, 0, &Q_new_inp, &mem_decim_size ); + modify_Fs_fx( fft_io, L_FFT, 12800, fft_io, 16000, exc_mem, 0 ); } /* enr1 = dotp( fft_io, fft_io, L_frame ) / L_frame; */ @@ -1166,7 +1165,7 @@ void cng_params_upd_ivas_fx( L_tmp = L_add_o( L_tmp, L_tmp, &Overflow ); /* 2*Q_exc+1 */ L_tmp = Mult_32_16( L_tmp, 128 ); /* 2*Q_exc+1 */ tmp = add( add( Q_exc, Q_exc ), 1 ); - sp[i] = L_shr( L_tmp, sub( tmp, 6 ) ); + sp[i] = L_shr_o( L_tmp, sub( tmp, 6 ), &Overflow ); move32(); /* Q6 */ ptR++; ptI--; diff --git a/lib_com/cnst.h b/lib_com/cnst.h index 1dd415812e95033e35bdb7cfce19b8b43c6dc2ea..e7e511e0dce2cd1b8fa73bfda1f606c6f34b287a 100644 --- a/lib_com/cnst.h +++ b/lib_com/cnst.h @@ -240,7 +240,7 @@ enum{ #define L_FRAME48k_EXT 1200 /* Extended MDCT frame size in samples at 48kHz */ /* Conversion of ns to samples for a given sampling frequency */ -#define NS2SA( fs, x ) ( int16_t )( ( ( ( int32_t )( fs ) / 100L ) * ( ( x ) / 100L ) ) / 100000L ) +#define NS2SA( fs, x ) ( Word16 )( ( ( ( Word32 )( fs ) / 100L ) * ( ( x ) / 100L ) ) / 100000L ) #define NRG_CHANGE_E 8 #define AVG_FLAT_E 8 #define ACTIVE_FRAME 0xFF @@ -787,6 +787,9 @@ enum #define L_HP20_MEM 4 /* HP20 filter memory length */ #define CLDFB_NO_CHANNELS_MAX 60 /* CLDFB resampling - max number of CLDFB channels, == IVAS_CLDFB_NO_CHANNELS_MAX */ +#ifdef FIX_867_CLDFB_NRG_SCALE +#define CLDFB_NO_CHANNELS_HALF 30 /* CLDFB resampling - max number of CLDFB channels, == IVAS_CLDFB_NO_CHANNELS_MAX */ +#endif #define CLDFB_NO_CHANNELS_MAX_FX 30720 /*Q9*/ #define CLDFB_NO_COL_MAX 16 /* CLDFB resampling - max number of CLDFB col., == IVAS_CLDFB_NO_COL_MAX */ #define ONE_BY_CLDFB_NO_COL_MAX_Q31 134217728 @@ -935,9 +938,7 @@ typedef enum #define GAIN_PRED_ORDER 4 /* Gain quantization - prediction order for gain quantizer (only for AMR-WB IO mode) */ #define MEAN_ENER 30 /* Gain quantization - average innovation energy */ -#ifdef NONBE_FIX_1277_EVS_DTX_HIGH_RATE_THRESHOLD #define DTX_THR 5 /* DTX - lp_noise threshold for DTX at higher bitrates */ -#endif #define DTX_HIST_SIZE 8 /* CNG & DTX - number of last signal frames used for CNG averaging */ #define CNG_ISF_FACT 0.9f /* CNG & DTX - CNG spectral envelope smoothing factor */ @@ -1175,7 +1176,6 @@ enum #define NBITS_NOISE_FILL_LEVEL 3 /* Number of bits used for coding noise filling level for each range */ #define NF_GAIN_BITS ( NBITS_TCX_GAIN + NOISE_FILL_RANGES * NBITS_NOISE_FILL_LEVEL ) #define MIN_NOISE_FILLING_HOLE 8 -#define HOLE_SIZE_FROM_LTP_FLT( gain ) ( 4 + ( int16_t )( 2.0f * gain * ( 4.0f / 0.625f ) ) ) #define HOLE_SIZE_FROM_LTP( gain ) (add(4, extract_h(L_shr(L_mult0(gain, 0x6666), 10)))) /* gain (Q15), 0x6666 = 2.0*(4.0/0.625) (4Q11) */ #define HOLE_SIZE_FROM_LTP32( gain ) (add(4, extract_h(L_shr(Mpy_32_32(gain, 0x66666667), 11)))) /* gain (Q31), 0x66666667 = 2.0*(4.0/0.625) (4Q27) */ @@ -1472,7 +1472,7 @@ enum #define cbitsnew 16 #define stat_bitsnew 14 -#define ari_q4new ( ( (int32_t) 1 << cbitsnew ) - 1 ) +#define ari_q4new ( ( (Word32) 1 << cbitsnew ) - 1 ) #define ari_q1new ( ari_q4new / 4 + 1 ) #define ari_q2new ( 2 * ari_q1new ) #define ari_q3new ( 3 * ari_q1new ) @@ -1954,7 +1954,6 @@ typedef enum _DCTTYPE #define N_SMC_MIXTURES 6 /* number of mixtures */ #define N_PCA_COEF 12 /* number of PCA components */ #define HALF_N_PCA_COEF_LOG_P12_Q18 2890731 //Q18 of (0.5f * N_PCA_COEF *logf( PI2 )) -#define SMC_ST_MEAN_FACT 0.5 /* forgetting factor of short-term IIR mean filter */ #define SMC_ST_MEAN_RSHIFT_FACT_FX 1 /* SMC_ST_MEAN_FACT equivalent right shift factor */ #define M_LSP_SPMUS 6 /* number of LSPs used in speech/music classifier */ diff --git a/lib_com/codec_tcx_common.c b/lib_com/codec_tcx_common.c index f6da34b5583d96ee20611780db70092f10014bfa..1ebc2829c15493506950bd608ca397162826847c 100644 --- a/lib_com/codec_tcx_common.c +++ b/lib_com/codec_tcx_common.c @@ -6,7 +6,6 @@ #include #include #include "options.h" -#include "prot.h" #include "prot_fx.h" #include "basop_util.h" #include "rom_basop_util.h" diff --git a/lib_com/common_api_types.h b/lib_com/common_api_types.h index 461fe48d38c947020b28e3843f1bcdcb661a1519..3200cb21d4929ea492d2c18741d1af3c36e96296 100644 --- a/lib_com/common_api_types.h +++ b/lib_com/common_api_types.h @@ -114,9 +114,9 @@ typedef enum _IVAS_ENC_FEC_INDICATOR typedef struct _IVAS_ENC_CHANNEL_AWARE_CONFIG { - int16_t channelAwareModeEnabled; + Word16 channelAwareModeEnabled; IVAS_ENC_FEC_INDICATOR fec_indicator; - int16_t fec_offset; + Word16 fec_offset; } IVAS_ENC_CHANNEL_AWARE_CONFIG; @@ -136,7 +136,7 @@ typedef struct _IVAS_ISM_METADATA float gainFactor; float yaw; float pitch; - int16_t non_diegetic_flag; + Word16 non_diegetic_flag; } IVAS_ISM_METADATA; @@ -189,29 +189,29 @@ typedef struct ivas_LS_setup_custom IVAS_LSSETUP_CUSTOM_STRUCT; typedef struct _IVAS_LS_CUSTOM_LAYOUT { - int16_t num_spk; + Word16 num_spk; float azimuth[IVAS_MAX_OUTPUT_CHANNELS]; float elevation[IVAS_MAX_OUTPUT_CHANNELS]; Word32 azimuth_fx[IVAS_MAX_OUTPUT_CHANNELS]; // Q22 Word32 elevation_fx[IVAS_MAX_OUTPUT_CHANNELS]; // Q22 - int16_t num_lfe; - int16_t lfe_idx[IVAS_MAX_OUTPUT_CHANNELS]; + Word16 num_lfe; + Word16 lfe_idx[IVAS_MAX_OUTPUT_CHANNELS]; } IVAS_CUSTOM_LS_DATA; typedef struct _IVAS_JBM_TRACE_DATA { - uint32_t systemTimestamp_ms; - uint16_t extBufferedSamples; - uint16_t lastDecodedWasActive; - int32_t output_Fs; - int16_t dataUnit_flag; - uint16_t sequenceNumber; - uint32_t timeStamp; - uint32_t rcvTime; - - int16_t partial_frame; - int16_t partialCopyOffset; + UWord32 systemTimestamp_ms; + UWord16 extBufferedSamples; + UWord16 lastDecodedWasActive; + Word32 output_Fs; + Word16 dataUnit_flag; + UWord16 sequenceNumber; + UWord32 timeStamp; + UWord32 rcvTime; + + Word16 partial_frame; + Word16 partialCopyOffset; } IVAS_JBM_TRACE_DATA; @@ -322,8 +322,8 @@ typedef enum typedef struct _IVAS_ROOM_ACOUSTICS_CONFIG { - int16_t override; - int16_t nBands; /* Number of frequency bands for which reverb properties are provided, integer, range [2..256] */ + Word16 override; + Word16 nBands; /* Number of frequency bands for which reverb properties are provided, integer, range [2..256] */ float pFc_input[IVAS_CLDFB_NO_CHANNELS_MAX]; /* Center frequencies for which following values are provided: */ float pAcoustic_rt60[IVAS_CLDFB_NO_CHANNELS_MAX]; /* - The room's T60 per center frequency */ float pAcoustic_dsr[IVAS_CLDFB_NO_CHANNELS_MAX]; /* - The room's Diffuse to Source Ratio per center frequency */ @@ -336,12 +336,12 @@ typedef struct _IVAS_ROOM_ACOUSTICS_CONFIG Word32 inputPreDelay_fx; /* Offset in seconds from where DSR is computed in the RIR (0 = at source), float, range [0.001..10] */ /* Assumed Q-27*/ /* early reflections */ - int16_t use_er; /* ER activation flag */ - int32_t lowComplexity; /* Low complexity ER flag */ - IVAS_VECTOR3 dimensions; /* Room dimensions [m] */ - float AbsCoeff[IVAS_ROOM_ABS_COEFF]; /* Absorption coeffs */ - IVAS_VECTOR3 ListenerOrigin; /* Listener origin */ - int32_t AbsCoeff_fx[IVAS_ROOM_ABS_COEFF]; /* Absorption coeffs */ + Word16 use_er; /* ER activation flag */ + Word32 lowComplexity; /* Low complexity ER flag */ + IVAS_VECTOR3 dimensions; /* Room dimensions [m] */ + float AbsCoeff[IVAS_ROOM_ABS_COEFF]; /* Absorption coeffs */ + IVAS_VECTOR3 ListenerOrigin; /* Listener origin */ + Word32 AbsCoeff_fx[IVAS_ROOM_ABS_COEFF]; /* Absorption coeffs */ } IVAS_ROOM_ACOUSTICS_CONFIG_DATA; diff --git a/lib_com/core_com_config.c b/lib_com/core_com_config.c index 8d360c6a33ce404a2f0c4d7881bffb361206ba1e..f0ee8efd8d12c038c78487a8f39ba71dc21a3b9c 100644 --- a/lib_com/core_com_config.c +++ b/lib_com/core_com_config.c @@ -38,10 +38,8 @@ #include #include "options.h" #include "rom_com.h" -#include "prot.h" -#include "wmc_auto.h" -#include "ivas_prot.h" #include "prot_fx.h" +#include "wmc_auto.h" #include "ivas_prot_fx.h" #define FSCALE_DENOM_BY_12800_Q15 1311 @@ -551,63 +549,6 @@ int16_t sr2fscale( return (int16_t) ( ( FSCALE_DENOM * sr_core ) / 12800 ); } -/*-------------------------------------------------------------------* - * getCoreSamplerateMode2_flt() - * - * - *-------------------------------------------------------------------*/ - -int32_t getCoreSamplerateMode2_flt( - const int16_t element_mode, /* i : IVAS element mode */ - const int32_t total_brate, /* i : total bitrate */ - const int16_t bwidth, /* i : audio bandwidth */ - const int16_t flag_ACELP16k, /* i : ACELP@16kHz flag */ - const int16_t rf_mode, /* i : flag to signal the RF mode */ - const IVAS_FORMAT is_ism_format /* i : flag indicating ISM format */ -) -{ - int32_t sr_core = 0; - - if ( bwidth == NB ) - { - sr_core = INT_FS_12k8; - } - else if ( element_mode == EVS_MONO && ( ( bwidth == WB && total_brate < ACELP_13k20 ) || ( bwidth == SWB && total_brate <= ACELP_13k20 ) || ( rf_mode == 1 ) ) ) - { - sr_core = INT_FS_12k8; - } - else if ( element_mode > EVS_MONO && flag_ACELP16k == 0 ) - { - sr_core = INT_FS_12k8; - } - else if ( bwidth == WB || ( bwidth == SWB && total_brate <= ACELP_32k ) || ( bwidth == FB && total_brate <= ACELP_32k ) ) - { - sr_core = INT_FS_16k; - } - else if ( ( bwidth == SWB || bwidth == FB ) && total_brate <= MAX_ACELP_BRATE && element_mode == IVAS_SCE && !is_ism_format ) - { - sr_core = INT_FS_16k; - } - else if ( ( bwidth == SWB || bwidth == FB ) && total_brate <= MAX_ACELP_BRATE_ISM && element_mode == IVAS_SCE && is_ism_format ) - { - sr_core = INT_FS_16k; - } - else if ( ( bwidth == SWB || bwidth == FB ) && total_brate <= MAX_ACELP_BRATE && element_mode == IVAS_SCE && is_ism_format ) - { - sr_core = 25600; - } - else if ( ( ( bwidth == SWB || bwidth == FB ) && element_mode == EVS_MONO && total_brate <= HQ_64k ) || ( element_mode > IVAS_SCE && ( ( bwidth == SWB && total_brate <= IVAS_96k ) || ( bwidth == FB && total_brate <= IVAS_96k ) ) ) ) - { - sr_core = 25600; - } - else if ( bwidth == SWB || bwidth == FB ) - { - sr_core = 32000; - } - - return sr_core; -} - Word32 getCoreSamplerateMode2( const Word16 element_mode, /* i : IVAS element mode Q0*/ const Word32 total_brate, /* i : total bitrate Q0*/ @@ -1235,8 +1176,8 @@ void init_tcx_window_cfg_fx( } /*Mid-OLA*/ /*compute minimum length for "half" window: lookahead - 5ms. It must be also multiple of 2*/ - hTcxCfg->tcx_mdct_window_half_length = extract_l( L_shr( L_mult0( L_LOOK_12k8 - NS2SA_FX2( 12800, 5000000L ), sr2fscale( sr_core ) ), LD_FSCALE_DENOM ) ); /*Q0*/ - hTcxCfg->tcx_mdct_window_half_lengthFB = extract_l( L_shr( L_mult0( L_LOOK_12k8 - NS2SA_FX2( 12800, 5000000L ), sr2fscale( input_Fs ) ), LD_FSCALE_DENOM ) ); /*Q0*/ + hTcxCfg->tcx_mdct_window_half_length = extract_l( L_shr( L_mult0( L_LOOK_12k8 - NS2SA( 12800, 5000000L ), sr2fscale( sr_core ) ), LD_FSCALE_DENOM ) ); /*Q0*/ + hTcxCfg->tcx_mdct_window_half_lengthFB = extract_l( L_shr( L_mult0( L_LOOK_12k8 - NS2SA( 12800, 5000000L ), sr2fscale( input_Fs ) ), LD_FSCALE_DENOM ) ); /*Q0*/ move16(); move16(); assert( GT_16( hTcxCfg->tcx_mdct_window_half_length, 16 ) && "Half window can not be large enough!" ); diff --git a/lib_com/deemph.c b/lib_com/deemph.c index b2b43cf723086f91f455c975a0db37760bfbca6a..9bc20cb6f6892b86fe023ff163fa8272ec9cc7bb 100644 --- a/lib_com/deemph.c +++ b/lib_com/deemph.c @@ -36,32 +36,28 @@ #include #include "options.h" -#include "prot.h" -#include "wmc_auto.h" #include "prot_fx.h" +#include "wmc_auto.h" void deemph_fx_32( - Word16 shift, /*scaled output*/ Word32 *signal, /* i/o: signal Qx*/ const Word16 mu, /* i : deemphasis factor Q15*/ const Word16 L, /* i : vector size */ - Word32 *mem /* i/o: memory (y[-1]) Qx+shift*/ + Word32 *mem /* i/o: memory (y[-1]) Qx*/ ) { Word16 i; - signal[0] = L_add( signal[0], Mpy_32_16_1( ( *mem ), mu ) ); /*Qx*/ + signal[0] = Madd_32_16( signal[0], *mem, mu ); // Qx move32(); FOR( i = 1; i < L; i++ ) { - signal[i] = L_add( signal[i], Mpy_32_16_1( signal[i - 1], mu ) ); /*Qx*/ - signal[i] = L_shl( signal[i], shift ); /*Qx+shift*/ - move32(); + signal[i] = Madd_32_16( signal[i], signal[i - 1], mu ); // Qx move32(); } - *mem = signal[L - 1]; /*Qx+shift*/ + *mem = signal[L - 1]; // Qx move32(); return; diff --git a/lib_com/delay_comp.c b/lib_com/delay_comp.c index ae0a2c4697dc6e4f1d9683227303e8a0c20812fb..0398eb671a638c4c81a91908908983e17b8cbced 100644 --- a/lib_com/delay_comp.c +++ b/lib_com/delay_comp.c @@ -36,10 +36,9 @@ #include #include "options.h" -#include "prot.h" +#include "prot_fx.h" #include "ivas_cnst.h" #include "wmc_auto.h" -#include "prot_fx.h" /*-------------------------------------------------------------------------- * get_delay() diff --git a/lib_com/disclaimer.c b/lib_com/disclaimer.c index ba0973f97ec04508dda0ac2f6132ad3ac562c0cd..3b16773657ca881ea1c5bf7c555638788ae9fca8 100644 --- a/lib_com/disclaimer.c +++ b/lib_com/disclaimer.c @@ -36,7 +36,7 @@ #include #include "options.h" -#include "prot.h" +#include "prot_fx.h" #define WMC_TOOL_SKIP @@ -44,11 +44,7 @@ int16_t print_disclaimer( FILE *fPtr ) { fprintf( fPtr, "\n==================================================================================================\n" ); -#ifdef FIX_DISCLAIMER fprintf( fPtr, " IVAS Codec BASOP Baseline\n" ); -#else - fprintf( fPtr, " IVAS Codec Baseline\n" ); -#endif fprintf( fPtr, " \n" ); fprintf( fPtr, " Based on EVS Codec (Floating Point) 3GPP TS26.443 Nov 04, 2021,\n" ); fprintf( fPtr, " Version 12.14.0 / 13.10.0 / 14.6.0 / 15.4.0 / 16.3.0\n" ); diff --git a/lib_com/edct_fx.c b/lib_com/edct_fx.c index 8d77da13a7eb7df052bb309302e7f19bdef81432..1b303d2856fda4a014caf1cee1775de7064e2294 100644 --- a/lib_com/edct_fx.c +++ b/lib_com/edct_fx.c @@ -395,9 +395,7 @@ void edct_16fx( Word16 Len2, i2; const Word16 *px, *pt; Word16 *py; -#ifdef REMOVE_IVAS_UNUSED_PARAMETERS_WARNING (void) element_mode; -#endif #ifdef BASOP_NOGLOB_DECLARE_LOCAL Flag Overflow; Overflow = 0; @@ -592,11 +590,12 @@ void edxt_fx( const UWord16 synthesis /* i : nonzero for inverse Q0*/ ) { - Word16 k, m, fac; + Word16 k, m, fac, hdrm, tmp = 0; const Word16 *cosPtr, *sinPtr; Word16 n; n = 0; move16(); + move16(); cosPtr = NULL; sinPtr = NULL; IF( EQ_16( length, 512 ) ) @@ -735,7 +734,23 @@ void edxt_fx( IF( EQ_16( length, 512 ) ) { + /* Scaling down re and im buffers to avoid overflow in DoRTFTn_fx if the minimum headroom is less than 4 bits */ + hdrm = s_min( L_norm_arr( re, 512 ), L_norm_arr( im, 512 ) ); + IF( LT_16( hdrm, 4 ) ) + { + tmp = sub( hdrm, 4 ); + scale_sig32( re, 512, tmp ); + scale_sig32( im, 512, tmp ); + } + DoRTFTn_fx( re, im, 512 ); + + IF( LT_16( hdrm, 4 ) ) + { + tmp = negate( tmp ); + scale_sig32( re, 512, tmp ); + scale_sig32( im, 512, tmp ); + } } ELSE /* fft() doesn't support 512 */ { @@ -831,7 +846,23 @@ void edxt_fx( IF( EQ_16( length, 512 ) ) { + /* Scaling down re and im buffers to avoid overflow in DoRTFTn_fx if the minimum headroom is less than 4 bits */ + hdrm = s_min( L_norm_arr( re, 512 ), L_norm_arr( im, 512 ) ); + IF( LT_16( hdrm, 4 ) ) + { + tmp = sub( hdrm, 4 ); + scale_sig32( re, 512, tmp ); + scale_sig32( im, 512, tmp ); + } + DoRTFTn_fx( re, im, 512 ); + + IF( LT_16( hdrm, 4 ) ) + { + tmp = negate( tmp ); + scale_sig32( re, 512, tmp ); + scale_sig32( im, 512, tmp ); + } } ELSE /* fft() doesn't support 512 */ { diff --git a/lib_com/enr_1_az.c b/lib_com/enr_1_az.c index 81fb78262435c66a23d564dc26f15444b91bf27a..5c99cdfa5e27692d9373f9e5bec6e1b046f8b380 100644 --- a/lib_com/enr_1_az.c +++ b/lib_com/enr_1_az.c @@ -37,9 +37,8 @@ #include #include "options.h" #include "cnst.h" -#include "prot.h" -#include "wmc_auto.h" #include "prot_fx.h" +#include "wmc_auto.h" Word16 Enr_1_Az_fx_o( /* o : impulse response energy Q3 */ diff --git a/lib_com/env_adj.c b/lib_com/env_adj.c index 18520e188655666eb58e0a9ef12e83b364be5c1f..5a83dbe5fa8af935aa151a8fdb7d87738100c789 100644 --- a/lib_com/env_adj.c +++ b/lib_com/env_adj.c @@ -38,9 +38,8 @@ #include "options.h" #include "cnst.h" #include "rom_com.h" -#include "prot.h" -#include "wmc_auto.h" #include "prot_fx.h" +#include "wmc_auto.h" /*--------------------------------------------------------------------------* * env_adj() diff --git a/lib_com/env_stab.c b/lib_com/env_stab.c index b80fd0a8bddfbcee88da6ec12e1600dd9cf635dd..a3140b4e498beb79ffa011af6baa60bbeb0a2bad 100644 --- a/lib_com/env_stab.c +++ b/lib_com/env_stab.c @@ -39,11 +39,10 @@ #include "options.h" #include #include "cnst.h" -#include "prot.h" +#include "prot_fx.h" #include "rom_com.h" #include "wmc_auto.h" #include "stl.h" -#include "prot_fx.h" /*--------------------------------------------------------------------------* * Local constants *--------------------------------------------------------------------------*/ diff --git a/lib_com/env_stab_trans.c b/lib_com/env_stab_trans.c index 8c6ec265fca667c94303d50eff38b3d3486f36f1..829bef5f40f99a7245b65102c1f3aad4f685aa7d 100644 --- a/lib_com/env_stab_trans.c +++ b/lib_com/env_stab_trans.c @@ -38,10 +38,9 @@ #include "options.h" #include #include "cnst.h" -#include "prot.h" +#include "prot_fx.h" #include "rom_com.h" #include "wmc_auto.h" -#include "prot_fx.h" /*--------------------------------------------------------------------------* * env_stab_transient_detect() * diff --git a/lib_com/est_tilt_fx.c b/lib_com/est_tilt_fx.c index 138b8c1bc082d6d0b0b4db78e771cc1115c46458..4ff9c6c1129555fe39b5ea34e4200f9afe451741 100644 --- a/lib_com/est_tilt_fx.c +++ b/lib_com/est_tilt_fx.c @@ -40,18 +40,12 @@ Word16 est_tilt_fx( /* o : tilt of the code const Word32 gain_code, /* i : algebraic code gain Q16 */ Word16 *voice_fac, /* o : voicing factor Q15 */ const Word16 Q_exc /* i : Scaling factor of excitation Q0 */ -#ifdef ADD_LRTD - , - const Word16 L_subfr /* i : Sub frame length */ -#endif ) { Word16 i, tmp, exp, ener1, exp1, ener2, exp2; Word32 L_tmp; Word16 tilt_code; -#ifdef ADD_LRTD - PMT( "FIX POINT NEED to be adapted for 16 kHz frame length " ) -#endif + ener1 = extract_h( Dot_product12( exc, exc, L_SUBFR, &exp1 ) ); exp1 = sub( exp1, add( Q_exc, Q_exc ) ); L_tmp = L_mult( gain_pit, gain_pit ); /* energy of pitch excitation */ @@ -117,26 +111,23 @@ Word16 est_tilt_fx( /* o : tilt of the code /* RETURN ARGUMENTS : */ /* _ (Word16) tolt_code : tilt of the code Q15 */ /*=======================================================================*/ -Word16 est_tilt_ivas_fx( /* o : tilt of the code Q15 */ - const Word16 *exc, /* i : adaptive excitation vector Qx */ - const Word16 gain_pit, /* i : adaptive gain Q14 */ - const Word16 *code, /* i : algebraic excitation vector Q9 */ - const Word32 gain_code, /* i : algebraic code gain Q16 */ - Word16 *voice_fac, /* o : voicing factor Q15 */ - const Word16 Q_exc /* i : Scaling factor of excitation Q0 */ -#if 1 // def ADD_LRTD - , - const Word16 L_subfr, /* i : Sub frame length */ - const Word16 flag_tilt /* i : flag for special tilt */ -#endif + +/* o : tilt of the code Q15 */ +Word16 est_tilt_ivas_fx( + const Word16 *exc, /* i : adaptive excitation vector Qx */ + const Word16 gain_pit, /* i : adaptive gain Q14 */ + const Word16 *code, /* i : algebraic excitation vector Q9 */ + const Word32 gain_code, /* i : algebraic code gain Q16 */ + Word16 *voice_fac, /* o : voicing factor Q15 */ + const Word16 Q_exc, /* i : Scaling factor of excitation Q0 */ + const Word16 L_subfr, /* i : Sub frame length */ + const Word16 flag_tilt /* i : flag for special tilt */ ) { Word16 i, tmp, exp, ener1, exp1, ener2, exp2; Word32 L_tmp; Word16 tilt_code; -#ifdef ADD_LRTD - PMT( "FIX POINT NEED to be adapted for 16 kHz frame length " ) -#endif + ener1 = extract_h( Dot_product12( exc, exc, L_subfr, &exp1 ) ); exp1 = sub( exp1, add( Q_exc, Q_exc ) ); L_tmp = L_mult( gain_pit, gain_pit ); /* energy of pitch excitation */ diff --git a/lib_com/fd_cng_com_fx.c b/lib_com/fd_cng_com_fx.c index f4468bd0b7107909f4d29adb81472267ff836aa8..78809ed2c6a0dd5a4ca9ba595896388b03106c75 100644 --- a/lib_com/fd_cng_com_fx.c +++ b/lib_com/fd_cng_com_fx.c @@ -12,7 +12,6 @@ #include "prot_fx.h" #include "prot_fx_enc.h" #include "ivas_prot_fx.h" -#include "prot.h" #define FFT_SCALING_512 1073741824 // Q22 #define FFT_SCALING_640 1342177280 // Q22 @@ -566,11 +565,6 @@ void minimum_statistics( Word16 *msPeriodogBuf, /* i/o: Buffer of periodograms (energies) */ Word16 *msPeriodogBufPtr, /* i/o: Counter */ HANDLE_FD_CNG_COM hFdCngCom /* i/o: FD_CNG structure containing all buffers and variables */ -#ifdef IVAS_CODE_CNG - , - const Word16 enc_dec, /* i : encoder/decoder indicator */ - const Word16 element_mode /* i : IVAS element mode type */ -#endif ) { Word16 i, j, k, s, s1, s2, s3; diff --git a/lib_com/fft.c b/lib_com/fft.c index 352a24be9f15eef4afe81bb41463b90651e525b4..e262f3909f179ea67b91c160866b1f62cd2b411a 100644 --- a/lib_com/fft.c +++ b/lib_com/fft.c @@ -39,7 +39,7 @@ #include "options.h" #include #include "cnst.h" -#include "prot.h" +#include "prot_fx.h" #include "rom_com.h" #include "wmc_auto.h" diff --git a/lib_com/fft_evs.c b/lib_com/fft_evs.c index e53404f0b7f4a8d0cdc9ed405d74f91f119a51c2..94c2dea8ff0a7df4fc62fb898eb379e5d2d31a79 100644 --- a/lib_com/fft_evs.c +++ b/lib_com/fft_evs.c @@ -505,7 +505,7 @@ static void fft15_with_cmplx_data( cmplx *inp_data /*Qx*/ ) */ void fft16( Word32 *re, Word32 *im, Word16 s, Word16 bScale ) { - int i; + Word16 i; if ( s == 2 ) { fft16_with_cmplx_data( (cmplx *) re, bScale ); diff --git a/lib_com/fft_fx.c b/lib_com/fft_fx.c index 1b095e34620b59ece817572a2b5bc9895222ff60..5ee5098797c3b57caf6c91e826bcc76dd1fdf850 100644 --- a/lib_com/fft_fx.c +++ b/lib_com/fft_fx.c @@ -44,7 +44,7 @@ #include "options.h" #include #include "cnst.h" -// #include "prot.h" +// #include "prot_fx.h" #include "prot_fx.h" //#include "cnst_fx.h" #include "rom_com.h" @@ -4727,6 +4727,16 @@ static void fft_len16( cmplx t[4]; cmplx y[16]; +#ifdef OPT_STEREO_32KBPS_V1 + s[0] = x[0]; // Qx + move64(); + s[1] = x[4]; // Qx + move64(); + s[2] = x[8]; // Qx + move64(); + s[3] = x[12]; // Qx + move64(); +#else /* OPT_STEREO_32KBPS_V1 */ s[0] = CL_shr( x[0], SCALEFACTOR16 ); // Qx move64(); s[1] = CL_shr( x[4], SCALEFACTOR16 ); // Qx @@ -4735,6 +4745,7 @@ static void fft_len16( move64(); s[3] = CL_shr( x[12], SCALEFACTOR16 ); // Qx move64(); +#endif /* OPT_STEREO_32KBPS_V1 */ t[0] = CL_add( s[0], s[2] ); move64(); @@ -4754,6 +4765,16 @@ static void fft_len16( y[3] = CL_add( t[1], t[3] ); move64(); +#ifdef OPT_STEREO_32KBPS_V1 + s[0] = x[1]; // Qx + move64(); + s[1] = x[5]; // Qx + move64(); + s[2] = x[9]; // Qx + move64(); + s[3] = x[13]; // Qx + move64(); +#else /* OPT_STEREO_32KBPS_V1 */ s[0] = CL_shr( x[1], SCALEFACTOR16 ); // Qx move64(); s[1] = CL_shr( x[5], SCALEFACTOR16 ); // Qx @@ -4762,6 +4783,7 @@ static void fft_len16( move64(); s[3] = CL_shr( x[13], SCALEFACTOR16 ); // Qx move64(); +#endif /* OPT_STEREO_32KBPS_V1 */ t[0] = CL_add( s[0], s[2] ); move64(); @@ -4781,6 +4803,16 @@ static void fft_len16( y[7] = CL_add( t[1], t[3] ); move64(); +#ifdef OPT_STEREO_32KBPS_V1 + s[0] = x[2]; // Qx + move64(); + s[1] = x[6]; // Qx + move64(); + s[2] = x[10]; // Qx + move64(); + s[3] = x[14]; // Qx + move64(); +#else /* OPT_STEREO_32KBPS_V1 */ s[0] = CL_shr( x[2], SCALEFACTOR16 ); // Qx move64(); s[1] = CL_shr( x[6], SCALEFACTOR16 ); // Qx @@ -4789,6 +4821,7 @@ static void fft_len16( move64(); s[3] = CL_shr( x[14], SCALEFACTOR16 ); // Qx move64(); +#endif /* OPT_STEREO_32KBPS_V1 */ t[0] = CL_add( s[0], s[2] ); move64(); @@ -4810,6 +4843,16 @@ static void fft_len16( y[11] = CL_add( t[1], t[3] ); move64(); +#ifdef OPT_STEREO_32KBPS_V1 + s[0] = x[3]; // Qx + move64(); + s[1] = x[7]; // Qx + move64(); + s[2] = x[11]; // Qx + move64(); + s[3] = x[15]; // Qx + move64(); +#else /* OPT_STEREO_32KBPS_V1 */ s[0] = CL_shr( x[3], SCALEFACTOR16 ); // Qx move64(); s[1] = CL_shr( x[7], SCALEFACTOR16 ); // Qx @@ -4818,6 +4861,7 @@ static void fft_len16( move64(); s[3] = CL_shr( x[15], SCALEFACTOR16 ); // Qx move64(); +#endif /* OPT_STEREO_32KBPS_V1 */ t[0] = CL_add( s[0], s[2] ); move64(); @@ -4978,6 +5022,18 @@ static void fft_len20_fx( cmplx tt[4]; cmplx y[20]; +#ifdef OPT_STEREO_32KBPS_V1 + xx[0] = x[0]; // Qx + move64(); + xx[1] = x[16]; // Qx + move64(); + xx[2] = x[12]; // Qx + move64(); + xx[3] = x[8]; // Qx + move64(); + xx[4] = x[4]; // Qx + move64(); +#else /* OPT_STEREO_32KBPS_V1 */ xx[0] = CL_shr( x[0], SCALEFACTOR20 ); // Qx move64(); xx[1] = CL_shr( x[16], SCALEFACTOR20 ); // Qx @@ -4988,6 +5044,7 @@ static void fft_len20_fx( move64(); xx[4] = CL_shr( x[4], SCALEFACTOR20 ); // Qx move64(); +#endif /* OPT_STEREO_32KBPS_V1 */ s[0] = CL_add( xx[1], xx[4] ); move64(); @@ -5023,6 +5080,18 @@ static void fft_len20_fx( y[12] = CL_msu_j( s[2], s[3] ); move64(); +#ifdef OPT_STEREO_32KBPS_V1 + xx[0] = x[5]; + move64(); + xx[1] = x[1]; + move64(); + xx[2] = x[17]; + move64(); + xx[3] = x[13]; + move64(); + xx[4] = x[9]; + move64(); +#else /* OPT_STEREO_32KBPS_V1 */ xx[0] = CL_shr( x[5], SCALEFACTOR20 ); move64(); xx[1] = CL_shr( x[1], SCALEFACTOR20 ); @@ -5033,6 +5102,7 @@ static void fft_len20_fx( move64(); xx[4] = CL_shr( x[9], SCALEFACTOR20 ); move64(); +#endif /* OPT_STEREO_32KBPS_V1 */ s[0] = CL_add( xx[1], xx[4] ); move64(); @@ -5068,6 +5138,18 @@ static void fft_len20_fx( y[13] = CL_msu_j( s[2], s[3] ); move64(); +#ifdef OPT_STEREO_32KBPS_V1 + xx[0] = x[10]; + move64(); + xx[1] = x[6]; + move64(); + xx[2] = x[2]; + move64(); + xx[3] = x[18]; + move64(); + xx[4] = x[14]; + move64(); +#else /* OPT_STEREO_32KBPS_V1 */ xx[0] = CL_shr( x[10], SCALEFACTOR20 ); move64(); xx[1] = CL_shr( x[6], SCALEFACTOR20 ); @@ -5078,6 +5160,7 @@ static void fft_len20_fx( move64(); xx[4] = CL_shr( x[14], SCALEFACTOR20 ); move64(); +#endif /* OPT_STEREO_32KBPS_V1 */ s[0] = CL_add( xx[1], xx[4] ); move64(); @@ -5113,6 +5196,18 @@ static void fft_len20_fx( y[14] = CL_msu_j( s[2], s[3] ); move64(); +#ifdef OPT_STEREO_32KBPS_V1 + xx[0] = x[15]; + move64(); + xx[1] = x[11]; + move64(); + xx[2] = x[7]; + move64(); + xx[3] = x[3]; + move64(); + xx[4] = x[19]; + move64(); +#else /* OPT_STEREO_32KBPS_V1 */ xx[0] = CL_shr( x[15], SCALEFACTOR20 ); move64(); xx[1] = CL_shr( x[11], SCALEFACTOR20 ); @@ -5123,6 +5218,7 @@ static void fft_len20_fx( move64(); xx[4] = CL_shr( x[19], SCALEFACTOR20 ); move64(); +#endif /* OPT_STEREO_32KBPS_V1 */ s[0] = CL_add( xx[1], xx[4] ); move64(); @@ -6501,6 +6597,239 @@ static void fft_lenN( cmplx s[8]; cmplx y[8]; +#ifdef OPT_STEREO_32KBPS_V1 + y[1] = xx[1 * dim1]; + move64(); + y[2] = xx[2 * dim1]; + move64(); + y[3] = xx[3 * dim1]; + move64(); + y[4] = xx[4 * dim1]; + move64(); + y[5] = xx[5 * dim1]; + move64(); + y[6] = xx[6 * dim1]; + move64(); + y[7] = xx[7 * dim1]; + move64(); + + test(); + test(); + IF( EQ_16( dim1, 8 ) || EQ_16( dim1, 16 ) || EQ_16( dim1, 32 ) ) + { + FOR( i = 0; i < dim1; i++ ) + { + { + y[0] = xx[i]; + move64(); + }; + IF( i > 0 ) + { + { + y[1] = CL_mac_j( CL_scale( xx[( i + ( 1 * dim1 ) )], W[( ( ( sc * i ) + ( ( sc * 1 ) * dim1 ) ) - Woff )] ), + CL_scale( xx[( i + ( 1 * dim1 ) )], W[( ( ( ( sc * i ) + ( ( sc * 1 ) * dim1 ) ) + 1 ) - Woff )] ) ); // Qx + move64(); + }; + { + y[2] = CL_mac_j( CL_scale( xx[( i + ( 2 * dim1 ) )], W[( ( ( sc * i ) + ( ( sc * 2 ) * dim1 ) ) - Woff )] ), + CL_scale( xx[( i + ( 2 * dim1 ) )], W[( ( ( ( sc * i ) + ( ( sc * 2 ) * dim1 ) ) + 1 ) - Woff )] ) ); // Qx + move64(); + }; + { + y[3] = CL_mac_j( CL_scale( xx[( i + ( 3 * dim1 ) )], W[( ( ( sc * i ) + ( ( sc * 3 ) * dim1 ) ) - Woff )] ), + CL_scale( xx[( i + ( 3 * dim1 ) )], W[( ( ( ( sc * i ) + ( ( sc * 3 ) * dim1 ) ) + 1 ) - Woff )] ) ); // Qx + move64(); + }; + { + y[4] = CL_mac_j( CL_scale( xx[( i + ( 4 * dim1 ) )], W[( ( ( sc * i ) + ( ( sc * 4 ) * dim1 ) ) - Woff )] ), + CL_scale( xx[( i + ( 4 * dim1 ) )], W[( ( ( ( sc * i ) + ( ( sc * 4 ) * dim1 ) ) + 1 ) - Woff )] ) ); // Qx + move64(); + }; + { + y[5] = CL_mac_j( CL_scale( xx[( i + ( 5 * dim1 ) )], W[( ( ( sc * i ) + ( ( sc * 5 ) * dim1 ) ) - Woff )] ), + CL_scale( xx[( i + ( 5 * dim1 ) )], W[( ( ( ( sc * i ) + ( ( sc * 5 ) * dim1 ) ) + 1 ) - Woff )] ) ); // Qx + move64(); + }; + { + y[6] = CL_mac_j( CL_scale( xx[( i + ( 6 * dim1 ) )], W[( ( ( sc * i ) + ( ( sc * 6 ) * dim1 ) ) - Woff )] ), + CL_scale( xx[( i + ( 6 * dim1 ) )], W[( ( ( ( sc * i ) + ( ( sc * 6 ) * dim1 ) ) + 1 ) - Woff )] ) ); // Qx + move64(); + }; + { + y[7] = CL_mac_j( CL_scale( xx[( i + ( 7 * dim1 ) )], W[( ( ( sc * i ) + ( ( sc * 7 ) * dim1 ) ) - Woff )] ), + CL_scale( xx[( i + ( 7 * dim1 ) )], W[( ( ( ( sc * i ) + ( ( sc * 7 ) * dim1 ) ) + 1 ) - Woff )] ) ); // Qx + move64(); + }; + } + + t[0] = CL_add( y[0], y[4] ); + move64(); + t[1] = CL_sub( y[0], y[4] ); + move64(); + t[2] = CL_add( y[1], y[5] ); + move64(); + t[3] = CL_sub( y[1], y[5] ); + move64(); + t[4] = CL_add( y[2], y[6] ); + move64(); + t[5] = CL_sub( y[2], y[6] ); + move64(); + t[6] = CL_add( y[3], y[7] ); + move64(); + t[7] = CL_sub( y[3], y[7] ); + move64(); + + s[0] = CL_add( t[0], t[4] ); + move64(); + s[2] = CL_sub( t[0], t[4] ); + move64(); + s[4] = CL_mac_j( t[1], t[5] ); + move64(); + s[5] = CL_msu_j( t[1], t[5] ); + move64(); + s[1] = CL_add( t[2], t[6] ); + move64(); + s[3] = CL_swap_real_imag( CL_sub( CL_conjugate( t[2] ), CL_conjugate( t[6] ) ) ); + move64(); + + t[0] = CL_swap_real_imag( CL_add( t[3], t[7] ) ); + move64(); + t[1] = CL_sub( t[3], t[7] ); + move64(); + + s[6] = CL_scale( CL_add( CL_conjugate( t[0] ), t[1] ), FFT_C81 ); // Qx + move64(); + s[7] = CL_scale( CL_sub( t[0], CL_conjugate( t[1] ) ), FFT_C81 ); // Qx + move64(); + s[7] = CL_conjugate( s[7] ); + move64(); + + x[i] = CL_add( s[0], s[1] ); + move64(); + x[( i + ( 1 * dim1 ) )] = CL_add( s[5], s[6] ); + move64(); + x[( i + ( 2 * dim1 ) )] = CL_sub( s[2], s[3] ); + move64(); + x[( i + ( 3 * dim1 ) )] = CL_add( s[4], s[7] ); + move64(); + x[( i + ( 4 * dim1 ) )] = CL_sub( s[0], s[1] ); + move64(); + x[( i + ( 5 * dim1 ) )] = CL_sub( s[5], s[6] ); + move64(); + x[( i + ( 6 * dim1 ) )] = CL_add( s[2], s[3] ); + move64(); + x[( i + ( 7 * dim1 ) )] = CL_sub( s[4], s[7] ); + move64(); + } + } + ELSE + { + FOR( i = 0; i < dim1; i++ ) + { + { + y[0] = xx[i]; + move64(); + }; + IF( i > 0 ) + { + { + y[1] = CL_mac_j( CL_scale( xx[( i + ( 1 * dim1 ) )], W[( ( ( sc * i ) + ( ( ( sc * 1 ) * dim1 ) << 1 ) ) - Woff )] ), + CL_scale( xx[( i + ( 1 * dim1 ) )], W[( ( ( ( sc * i ) + ( ( ( sc * 1 ) * dim1 ) << 1 ) ) + 1 ) - Woff )] ) ); // Qx + move64(); + }; + { + y[2] = CL_mac_j( CL_scale( xx[( i + ( 2 * dim1 ) )], W[( ( ( sc * i ) + ( ( ( sc * 2 ) * dim1 ) << 1 ) ) - Woff )] ), + CL_scale( xx[( i + ( 2 * dim1 ) )], W[( ( ( ( sc * i ) + ( ( ( sc * 2 ) * dim1 ) << 1 ) ) + 1 ) - Woff )] ) ); // Qx + move64(); + }; + { + y[3] = CL_mac_j( CL_scale( xx[( i + ( 3 * dim1 ) )], W[( ( ( sc * i ) + ( ( ( sc * 3 ) * dim1 ) << 1 ) ) - Woff )] ), + CL_scale( xx[( i + ( 3 * dim1 ) )], W[( ( ( ( sc * i ) + ( ( ( sc * 3 ) * dim1 ) << 1 ) ) + 1 ) - Woff )] ) ); // Qx + move64(); + }; + { + y[4] = CL_mac_j( CL_scale( xx[( i + ( 4 * dim1 ) )], W[( ( ( sc * i ) + ( ( ( sc * 4 ) * dim1 ) << 1 ) ) - Woff )] ), + CL_scale( xx[( i + ( 4 * dim1 ) )], W[( ( ( ( sc * i ) + ( ( ( sc * 4 ) * dim1 ) << 1 ) ) + 1 ) - Woff )] ) ); // Qx + move64(); + }; + { + y[5] = CL_mac_j( CL_scale( xx[( i + ( 5 * dim1 ) )], W[( ( ( sc * i ) + ( ( ( sc * 5 ) * dim1 ) << 1 ) ) - Woff )] ), + CL_scale( xx[( i + ( 5 * dim1 ) )], W[( ( ( ( sc * i ) + ( ( ( sc * 5 ) * dim1 ) << 1 ) ) + 1 ) - Woff )] ) ); // Qx + move64(); + }; + { + y[6] = CL_mac_j( CL_scale( xx[( i + ( 6 * dim1 ) )], W[( ( ( sc * i ) + ( ( ( sc * 6 ) * dim1 ) << 1 ) ) - Woff )] ), + CL_scale( xx[( i + ( 6 * dim1 ) )], W[( ( ( ( sc * i ) + ( ( ( sc * 6 ) * dim1 ) << 1 ) ) + 1 ) - Woff )] ) ); // Qx + move64(); + }; + { + y[7] = CL_mac_j( CL_scale( xx[( i + ( 7 * dim1 ) )], W[( ( ( sc * i ) + ( ( ( sc * 7 ) * dim1 ) << 1 ) ) - Woff )] ), + CL_scale( xx[( i + ( 7 * dim1 ) )], W[( ( ( ( sc * i ) + ( ( ( sc * 7 ) * dim1 ) << 1 ) ) + 1 ) - Woff )] ) ); // Qx + move64(); + }; + } + + t[0] = CL_add( y[0], y[4] ); + move64(); + t[1] = CL_sub( y[0], y[4] ); + move64(); + t[2] = CL_add( y[1], y[5] ); + move64(); + t[3] = CL_sub( y[1], y[5] ); + move64(); + t[4] = CL_add( y[2], y[6] ); + move64(); + t[5] = CL_sub( y[2], y[6] ); + move64(); + t[6] = CL_add( y[3], y[7] ); + move64(); + t[7] = CL_sub( y[3], y[7] ); + move64(); + + s[0] = CL_add( t[0], t[4] ); + move64(); + s[2] = CL_sub( t[0], t[4] ); + move64(); + s[4] = CL_mac_j( t[1], t[5] ); + move64(); + s[5] = CL_msu_j( t[1], t[5] ); + move64(); + s[1] = CL_add( t[2], t[6] ); + move64(); + s[3] = CL_swap_real_imag( CL_sub( CL_conjugate( t[2] ), CL_conjugate( t[6] ) ) ); + move64(); + + t[0] = CL_swap_real_imag( CL_add( t[3], t[7] ) ); + move64(); + t[1] = CL_sub( t[3], t[7] ); + move64(); + + s[6] = CL_scale( CL_add( CL_conjugate( t[0] ), t[1] ), FFT_C81 ); // Qx + move64(); + s[7] = CL_scale( CL_sub( t[0], CL_conjugate( t[1] ) ), FFT_C81 ); // Qx + move64(); + s[7] = CL_conjugate( s[7] ); + move64(); + + x[i] = CL_add( s[0], s[1] ); + move64(); + x[( i + ( 1 * dim1 ) )] = CL_add( s[5], s[6] ); + move64(); + x[( i + ( 2 * dim1 ) )] = CL_sub( s[2], s[3] ); + move64(); + x[( i + ( 3 * dim1 ) )] = CL_add( s[4], s[7] ); + move64(); + x[( i + ( 4 * dim1 ) )] = CL_sub( s[0], s[1] ); + move64(); + x[( i + ( 5 * dim1 ) )] = CL_sub( s[5], s[6] ); + move64(); + x[( i + ( 6 * dim1 ) )] = CL_add( s[2], s[3] ); + move64(); + x[( i + ( 7 * dim1 ) )] = CL_sub( s[4], s[7] ); + move64(); + } + } +#else /* OPT_STEREO_32KBPS_V1 */ test(); test(); test(); @@ -6781,6 +7110,7 @@ static void fft_lenN( move64(); } } +#endif /* OPT_STEREO_32KBPS_V1 */ BREAK; } @@ -7173,7 +7503,11 @@ void rfft_fx( move32(); x[( length - ( i << 1 ) )] = Mpy_32_16_1( L_add( t1, t3 ), 16384 /*0.5.Q15*/ ); move32(); +#ifdef OPT_STEREO_32KBPS_V1 + x[( ( length - ( i << 1 ) ) + 1 )] = Mpy_32_16_1( L_add( t2, t4 ), -16384 /*0.5.Q15*/ ); +#else /* OPT_STEREO_32KBPS_V1 */ x[( ( length - ( i << 1 ) ) + 1 )] = Mpy_32_16_1( L_negate( L_add( t2, t4 ) ), 16384 /*0.5.Q15*/ ); +#endif /* OPT_STEREO_32KBPS_V1 */ move32(); } @@ -7221,152 +7555,3 @@ void rfft_fx( return; } - -Word16 find_guarded_bits_fx( Word32 n ) -{ - // return n <= 1 ? 0 : n <= 2 ? 1 - // : n <= 4 ? 2 - // : n <= 8 ? 3 - // : n <= 16 ? 4 - // : n <= 32 ? 5 - // : n <= 64 ? 6 - // : n <= 128 ? 7 - // : n <= 256 ? 8 - // : n <= 512 ? 9 - // : n <= 1024 ? 10 - // : n <= 2048 ? 11 - // : n <= 4096 ? 12 - // : n <= 8192 ? 13 - // : n <= 16384 ? 14 - // : 15; - /*Word16 val = 0; - move32(); - test(); - WHILE( GT_32( n, L_shl( 1, val ) ) && LT_32( val, 16 ) ) - { - val = add( val, 1 ); - }*/ - IF( LE_32( n, 1 ) ) - { - return 0; - } - ELSE - { - - return sub( 31, norm_l( L_sub( n, 1 ) ) ); - } -} - -Word16 L_norm_arr( const Word32 *arr, Word16 size ) -{ - Word16 q = 31; - move16(); - FOR( Word16 i = 0; i < size; i++ ) -#ifndef FIX_1103_OPT_L_NORM_ARR - IF( arr[i] != 0 ) - { - q = s_min( q, norm_l( arr[i] ) ); - } -#else - { - Word16 q_tst; - - q_tst = norm_l( arr[i] ); - if ( arr[i] != 0 ) - { - q = s_min( q, q_tst ); - } - } - -#endif - return q; -} - -Word16 norm_arr( Word16 *arr, Word16 size ) -{ - Word16 q = 15; - Word16 exp = 0; - move16(); - move16(); - FOR( Word16 i = 0; i < size; i++ ) - { - if ( arr[i] != 0 ) - { - exp = norm_s( arr[i] ); - } - if ( arr[i] != 0 ) - { - q = s_min( q, exp ); - } - } - return q; -} - -Word16 get_min_scalefactor( Word32 x, Word32 y ) -{ -#ifndef FIX_1104_OPT_GETMINSCALEFAC - Word16 scf = Q31; - move16(); - test(); - IF( x == 0 && y == 0 ) - { - return 0; - } - IF( x != 0 ) - { - scf = s_min( scf, norm_l( x ) ); - } - IF( y != 0 ) - { - scf = s_min( scf, norm_l( y ) ); - } - return scf; -#else - Word16 scf_y; - Word16 scf = Q31; - move16(); - - test(); - if ( x == 0 && y == 0 ) - { - scf = 0; - move16(); - } - - if ( x != 0 ) - { - scf = norm_l( x ); - } - - scf_y = norm_l( y ); - if ( y != 0 ) - { - scf = s_min( scf_y, scf ); - } - - return scf; -#endif -} - - -Flag is_zero_arr( Word32 *arr, Word16 size ) -{ - FOR( Word16 i = 0; i < size; i++ ) - IF( arr[i] != 0 ) - { - return 0; - } - - return 1; -} - -Flag is_zero_arr16( Word16 *arr, Word16 size ) -{ - FOR( Word16 i = 0; i < size; i++ ) - IF( arr[i] != 0 ) - { - return 0; - } - - return 1; -} diff --git a/lib_com/fft_rel.c b/lib_com/fft_rel.c index 839b2faaf0012cb535e19a5ba8dbf265d6dccb62..1d020cabdd7d013f554eeb3d0a697e73682881d9 100644 --- a/lib_com/fft_rel.c +++ b/lib_com/fft_rel.c @@ -36,10 +36,9 @@ #include #include "options.h" -#include "prot.h" +#include "prot_fx.h" #include "rom_com.h" #include "wmc_auto.h" -#include "prot_fx.h" /*---------------------------------------------------------------------* * Local constants diff --git a/lib_com/fill_spectrum.c b/lib_com/fill_spectrum.c index 12ed75f0af89e02d3977505249687b75ebe7d7c4..bd9080a7bd41747ba25f9a5cecce507c5ac55e63 100644 --- a/lib_com/fill_spectrum.c +++ b/lib_com/fill_spectrum.c @@ -38,9 +38,8 @@ #include "options.h" #include "cnst.h" #include "rom_com.h" -#include "prot.h" -#include "wmc_auto.h" #include "prot_fx.h" +#include "wmc_auto.h" #include "ivas_prot_fx.h" diff --git a/lib_com/findpulse.c b/lib_com/findpulse.c index f2347d5b37f70a5bf9c5dd41296eb9d59f8da7b1..68853e06142c91523103ce2ae595215b69bbe61c 100644 --- a/lib_com/findpulse.c +++ b/lib_com/findpulse.c @@ -37,10 +37,9 @@ #include #include "options.h" #include -#include "prot.h" +#include "prot_fx.h" #include "cnst.h" #include "wmc_auto.h" -#include "prot_fx.h" /*----------------------------------------------------------------------------------* * findpulse() diff --git a/lib_com/float_to_fix_ops.c b/lib_com/float_to_fix_ops.c index 41d90359f4a2643524d1abd16276b9c1e374512e..8b69e05e8811edbc273a3cd78e735d1bc0f99375 100644 --- a/lib_com/float_to_fix_ops.c +++ b/lib_com/float_to_fix_ops.c @@ -3,7 +3,6 @@ #include #include #include "options.h" -#include "prot.h" #include "prot_fx.h" #define WMC_TOOL_SKIP @@ -184,14 +183,14 @@ Word16 Q_factor( float x ) { Word16 Q = 15; if ( x >= 1 || x <= -1 ) - Q = norm_s( (Word16) abs( (Word32) x ) ); + Q = norm_s( (Word16) L_abs( (Word32) x ) ); return Q; } Word16 Q_factor_L( float x ) { Word16 Q = 31; if ( x >= 1 || x <= -1 ) - Q = norm_l( abs( (Word32) x ) ); + Q = norm_l( L_abs( (Word32) x ) ); return Q; } Word16 Q_factor_L_32( Word32 x ) @@ -207,7 +206,7 @@ Word16 Q_factor_arr( float *x, Word16 l ) for ( int i = 0; i < l; i++ ) { if ( x[i] >= 1 || x[i] <= -1 ) - Q = s_min( Q, norm_s( (Word16) abs( (Word32) x[i] ) ) ); + Q = s_min( Q, norm_s( (Word16) L_abs( (Word32) x[i] ) ) ); } return Q; } @@ -217,7 +216,7 @@ Word16 Q_factor_arrL( float *x, Word16 l ) for ( int i = 0; i < l; i++ ) { if ( x[i] >= 1 || x[i] <= -1 ) - Q = s_min( Q, norm_l( (Word32) abs( (Word32) x[i] ) ) ); + Q = s_min( Q, norm_l( (Word32) L_abs( (Word32) x[i] ) ) ); } return Q; } diff --git a/lib_com/frame_ener.c b/lib_com/frame_ener.c deleted file mode 100644 index e89c4dfad4e22bf0430a33058d441cfcbd4c0956..0000000000000000000000000000000000000000 --- a/lib_com/frame_ener.c +++ /dev/null @@ -1,333 +0,0 @@ -/****************************************************************************************************** - - (C) 2022-2025 IVAS codec Public Collaboration with portions copyright Dolby International AB, Ericsson AB, - Fraunhofer-Gesellschaft zur Foerderung der angewandten Forschung e.V., Huawei Technologies Co. LTD., - Koninklijke Philips N.V., Nippon Telegraph and Telephone Corporation, Nokia Technologies Oy, Orange, - Panasonic Holdings Corporation, Qualcomm Technologies, Inc., VoiceAge Corporation, and other - contributors to this repository. All Rights Reserved. - - This software is protected by copyright law and by international treaties. - The IVAS codec Public Collaboration consisting of Dolby International AB, Ericsson AB, - Fraunhofer-Gesellschaft zur Foerderung der angewandten Forschung e.V., Huawei Technologies Co. LTD., - Koninklijke Philips N.V., Nippon Telegraph and Telephone Corporation, Nokia Technologies Oy, Orange, - Panasonic Holdings Corporation, Qualcomm Technologies, Inc., VoiceAge Corporation, and other - contributors to this repository retain full ownership rights in their respective contributions in - the software. This notice grants no license of any kind, including but not limited to patent - license, nor is any license granted by implication, estoppel or otherwise. - - Contributors are required to enter into the IVAS codec Public Collaboration agreement before making - contributions. - - This software is provided "AS IS", without any express or implied warranties. The software is in the - development stage. It is intended exclusively for experts who have experience with such software and - solely for the purpose of inspection. All implied warranties of non-infringement, merchantability - and fitness for a particular purpose are hereby disclaimed and excluded. - - Any dispute, controversy or claim arising under or in relation to providing this software shall be - submitted to and settled by the final, binding jurisdiction of the courts of Munich, Germany in - accordance with the laws of the Federal Republic of Germany excluding its conflict of law rules and - the United Nations Convention on Contracts on the International Sales of Goods. - -*******************************************************************************************************/ - -/*==================================================================================== - EVS Codec 3GPP TS26.443 Nov 04, 2021. Version 12.14.0 / 13.10.0 / 14.6.0 / 15.4.0 / 16.3.0 - ====================================================================================*/ - -#include -#include "options.h" -#include -#include "cnst.h" -#include "prot.h" -#include "wmc_auto.h" -#include "prot_fx.h" -/*----------------------------------------------------------------------------------* - * fer_energy() - * - * Estimation of pitch-synchronous (voiced sounds) or half-frame energy - *----------------------------------------------------------------------------------*/ - -#ifndef IVAS_FLOAT_FIXED -void fer_energy( - const int16_t L_frame, /* i : frame length */ - const int16_t clas, /* i : frame classification */ - const float *synth, /* i : synthesized speech at Fs = 12k8 Hz */ - const float pitch, /* i : pitch period */ - float *enr, /* o : pitch-synchronous or half_frame energy */ - const int16_t offset /* i : speech pointer offset (0 or L_frame) */ -) -{ - int16_t len; - const float *pt_synth; - - if ( clas == VOICED_CLAS || clas == ONSET || clas == SIN_ONSET ) /* Voiced or Onset current frame */ - { - len = (int16_t) ( pitch + 0.5f ); /* pitch value */ - - pt_synth = synth; - if ( offset != 0 ) - { - pt_synth = synth + L_frame - len; - } - - emaximum( pt_synth, len, enr ); /* pitch synchronous E */ - } - else - { - pt_synth = synth; - if ( offset != 0 ) - { - pt_synth = synth + L_frame / 2; - } - - *enr = dotp( pt_synth, pt_synth, L_frame / 2 ); - *enr /= (float) ( L_frame / 2 ); - } - return; -} -#endif - -void fer_energy_fx( - const Word16 L_frame, /* i : frame length */ - const Word16 clas, /* i : frame classification */ - const Word32 *synth, /* i : synthesized speech at Fs = 12k8 Hz Q(q_synth) */ - const Word16 q_synth, /* i : synthesized speech at Fs = 12k8 Hz */ - const Word16 pitch, /* i : pitch period Q0 */ - Word32 *enr, /* o : pitch-synchronous or half_frame energy Q0 */ - const Word16 offset /* i : speech pointer offset (0 or L_frame) */ -) -{ - Word16 len, shift, exp; - const Word32 *pt_synth; - Word16 enr_tmp, i; - Word64 W_tmp; - - test(); - test(); - IF( EQ_16( clas, VOICED_CLAS ) || EQ_16( clas, ONSET ) || EQ_16( clas, SIN_ONSET ) ) /* Voiced or Onset current frame */ - { - len = ( pitch ); /* pitch value */ - move16(); - - pt_synth = synth; - IF( offset != 0 ) - { - pt_synth = synth + sub( L_frame, len ); - } - - emaximum_32fx( q_synth, pt_synth, len, enr ); /* pitch synchronous E */ - } - ELSE - { - pt_synth = synth; - IF( offset != 0 ) - { - pt_synth = synth + shr( L_frame, 1 ); - } - - W_tmp = 0; - move64(); - FOR( i = 0; i < L_frame / 2; i++ ) - { - W_tmp = W_add( W_tmp, W_mult0_32_32( pt_synth[i], pt_synth[i] ) ); // Q = q_synth * 2 - } - shift = W_norm( W_tmp ); - W_tmp = W_shl( W_tmp, shift ); // Q = q_synth * 2 + shift - *enr = W_extract_h( W_tmp ); // Q = q_synth * 2 + shift - 32 - move32(); - - enr_tmp = BASOP_Util_Divide3216_Scale( *enr, shr( L_frame, 1 ) /*Q0*/, &exp ); - *enr = L_shr( L_deposit_l( enr_tmp ), sub( sub( sub( shift, 32 ), exp ), 1 ) ); /*Q0*/ - move32(); - } - return; -} - - -/*----------------------------------------------------------------------------------* - * frame_ener() - * - * Estimation of pitch-synchronous (voiced) or mean half-frame (unvoiced) energy - *----------------------------------------------------------------------------------*/ -Word16 frame_ener_fx( - const Word16 L_frame, /* i : length of the frame */ - const Word16 clas, /* i : frame classification */ - const Word16 *synth, /* i : synthesized speech at Fs = 12k8 Hz Q_new */ - const Word16 pitch, /* i : pitch period Q0 */ - Word32 *enr_q, /* o : pitch-synchronous or half_frame energy Q0 */ - const Word16 offset, /* i : speech pointer offset (0 or L_FRAME) */ - const Word16 Q_new, /* i : Scaling factor */ - Word16 shift, /* i : Shift need to obtain 12 bits vectors */ - const Word16 enc /* i : Encoder/decoder */ -) -{ - Word16 len, exp_enrq, exp_tmp, pos; - Word16 i; - const Word16 *pt_synth; - Word32 Ltmp; - - exp_enrq = 0; - move16(); - test(); - test(); - IF( ( EQ_16( clas, VOICED_CLAS ) ) || ( EQ_16( clas, ONSET ) ) || ( EQ_16( clas, SIN_ONSET ) ) ) /* current frame is voiced */ - { - /* current frame is voiced */ - len = pitch; - move16(); /* pitch value at the end of frame */ - pt_synth = synth; - if ( offset != 0 ) - { - pt_synth = synth + sub( L_frame, len ); - } - emaximum_fx( Q_new, pt_synth, len, enr_q ); - IF( enc != 0 ) - { - exp_enrq = norm_l( *enr_q ); - *enr_q = L_shl( *enr_q, exp_enrq ); - move32(); - exp_enrq = sub( exp_enrq, 2 ); - } - } - ELSE - { - /* current frame is unvoiced */ - Word16 L_frame2, exp2, enr_q_tmp; - - L_frame2 = shr( L_frame, 1 ); - pos = 0; - move16(); - - if ( offset != 0 ) - { - pos = sub( L_frame, L_frame2 ); - } - Ltmp = L_mult_sat( synth[pos], synth[pos] ); /*2 * Qnew + 1*/ - FOR( i = 1; i < L_frame2; i++ ) - { - Ltmp = L_mac_sat( Ltmp, synth[pos + i], synth[pos + i] ); /*2 * Qnew + 1*/ - } - test(); - IF( EQ_32( Ltmp, MAX_32 ) || enc != 0 ) - { - /* scale down when overflow occurs */ - *enr_q = Energy_scale( synth + pos, L_frame2, shift, &exp_enrq ); - move32(); - } - ELSE - { - shift = 0; - move16(); - /* Normalize acc in Q31 (energy already calculated) */ - pos = norm_l( Ltmp ); - Ltmp = L_shl( Ltmp, pos ); - exp_enrq = sub( 30, pos ); /* exponent = 0..30 */ - *enr_q = Ltmp; - move32(); - } - - /* enr2 = 1.0f/L_FRAME2 * dot_product(synth, synth, L_FRAME2) */ - exp_enrq = sub( exp_enrq, shl( shift, 1 ) ); - - IF( enc != 0 ) - { - assert( L_frame == 256 || L_frame == 320 ); - - exp_tmp = add( shl( Q_new, 1 ), -2 + 7 ); /* L_subfr == L_SUBFR */ - exp_enrq = sub( exp_enrq, exp_tmp ); - exp_enrq = sub( 31, exp_enrq ); - - IF( EQ_16( L_frame, 320 ) ) - { - *enr_q = Mult_32_16( *enr_q, 26214 ); /*x 0.8 to get /160*/ - move32(); - i = norm_l( *enr_q ); - *enr_q = L_shl( *enr_q, i ); - move32(); - exp_enrq = add( i, exp_enrq ); - } - } - ELSE - { - exp_enrq = sub( exp_enrq, add( Q_new, Q_new ) ); - enr_q_tmp /*Q30 exp2+exp_enrq*/ = BASOP_Util_Divide3216_Scale( *enr_q /*Q31*/, L_frame2 /*Q0*/, &exp2 ); - *enr_q = L_shr( L_deposit_l( enr_q_tmp ), sub( 30, add( exp2, exp_enrq ) ) ); /*Q0*/ - move32(); - *enr_q = L_add( *enr_q, 1 ); - move32(); - exp_enrq = 0; - move16(); - } - } - - return exp_enrq; -} - -/*------------------------------------------------------------------------* - * frame_energy() - * - * Compute pitch-synchronous energy at the frame end - *------------------------------------------------------------------------*/ -Word16 frame_energy_fx( /* o : Frame energy in Q8 */ - Word16 L_frame, - const Word16 *pitch, /* i : pitch values for each subframe Q6 */ - const Word16 *speech, /* i : pointer to speech signal for E computation Q_syn*/ - const Word16 lp_speech, /* i : long term active speech energy average Q8 */ - Word16 *frame_ener, /* o : pitch-synchronous energy at frame end Q8 */ - const Word16 Q_syn /* i : Synthesis scaling */ -) -{ - Word32 Ltmp; - const Word16 *pt1; - Word16 tmp16, exp1, exp2, tmp1, tmp2; - Word16 len, enern; -#ifdef BASOP_NOGLOB_DECLARE_LOCAL - Flag Overflow = 0; - move32(); -#endif - - - /* len = (0.5f * (pitch[2]/64.0 + pitch[3]/64.0) + 0.5f) */ - len = mult_r( add_o( pitch[2], pitch[3], &Overflow ), 256 ); - - if ( LT_16( len, L_SUBFR ) ) - { - len = shl( len, 1 ); - } - pt1 = speech + sub( L_frame, len ); - - /* *frame_ener = 10.0f * log10(dot_product(pt1, pt1, len) / (float)len) */ - - tmp1 = norm_s( len ); - tmp2 = shl( len, tmp1 ); - tmp1 = sub( 15, tmp1 ); - - Ltmp = Dot_productSq16HQ( 0, pt1, len, &exp1 ); - exp1 = sub( exp1, shl( Q_syn, 1 ) ); - exp1 = sub( exp1, 1 ); /* compensation of leftshift caused by mac operation in dot_productSq16HQ */ - tmp16 = BASOP_Util_Divide3216_Scale( Ltmp, len, &exp2 ); - - exp1 = add( exp1, exp2 ); - exp1 = add( exp1, 1 ); /* compensate result of division Q-1 */ - - - tmp2 = norm_s( tmp16 ); - Ltmp = L_shl( L_deposit_h( tmp16 ), tmp2 ); /*Q16, (exp1-tmp2) = Q31, exp1-tmp2+15*/ - - Ltmp = BASOP_Util_Log2( Ltmp ); /*Q(31-6) = Q25*/ - exp1 = sub( 15 + exp1, tmp2 ); - - /*add ld(2^exp1)=exp1 but check format, first*/ - tmp16 = sub( sub( 15, norm_s( exp1 ) ), 5 ); /*factor to shift Ltmp and exp1 with (shr) to avoid overflows when adding*/ - Ltmp = L_shr_o( Ltmp, tmp16, &Overflow ); /*Q25, tmp16*/ - exp2 = shr( exp1, tmp16 ); /*Q0 , tmp16*/ - Ltmp = L_add_o( Ltmp, L_shl( L_deposit_l( exp2 ), 25 ), &Overflow ); /*Q25, tmp16, normalized*/ - - /*make 10*log10 out of log2*/ - Ltmp = Mpy_32_16_1( Ltmp, LG10 ); /*Q25,tmp16 * Q13 = Q23, tmp16*/ - *frame_ener = extract_h( L_shl_o( Ltmp, add( tmp16, 1 ), &Overflow ) ); /*Q8*/ - move16(); - enern = sub_o( *frame_ener, lp_speech, &Overflow ); /*Q8*/ - - return enern; -} diff --git a/lib_com/frame_ener_fx.c b/lib_com/frame_ener_fx.c index 4428c07964003506079fb33e6568451c4c8f1820..68fdf33c3a2db5ba8703f436ddc1e1043d17eef4 100644 --- a/lib_com/frame_ener_fx.c +++ b/lib_com/frame_ener_fx.c @@ -38,9 +38,8 @@ #include "options.h" #include #include "cnst.h" -#include "prot.h" -#include "wmc_auto.h" #include "prot_fx.h" +#include "wmc_auto.h" /*----------------------------------------------------------------------------------* * fer_energy() * diff --git a/lib_com/get_gain.c b/lib_com/get_gain.c deleted file mode 100644 index 89b5fa3de291311902c7769b951cb2fd901bf218..0000000000000000000000000000000000000000 --- a/lib_com/get_gain.c +++ /dev/null @@ -1,170 +0,0 @@ -/****************************************************************************************************** - - (C) 2022-2025 IVAS codec Public Collaboration with portions copyright Dolby International AB, Ericsson AB, - Fraunhofer-Gesellschaft zur Foerderung der angewandten Forschung e.V., Huawei Technologies Co. LTD., - Koninklijke Philips N.V., Nippon Telegraph and Telephone Corporation, Nokia Technologies Oy, Orange, - Panasonic Holdings Corporation, Qualcomm Technologies, Inc., VoiceAge Corporation, and other - contributors to this repository. All Rights Reserved. - - This software is protected by copyright law and by international treaties. - The IVAS codec Public Collaboration consisting of Dolby International AB, Ericsson AB, - Fraunhofer-Gesellschaft zur Foerderung der angewandten Forschung e.V., Huawei Technologies Co. LTD., - Koninklijke Philips N.V., Nippon Telegraph and Telephone Corporation, Nokia Technologies Oy, Orange, - Panasonic Holdings Corporation, Qualcomm Technologies, Inc., VoiceAge Corporation, and other - contributors to this repository retain full ownership rights in their respective contributions in - the software. This notice grants no license of any kind, including but not limited to patent - license, nor is any license granted by implication, estoppel or otherwise. - - Contributors are required to enter into the IVAS codec Public Collaboration agreement before making - contributions. - - This software is provided "AS IS", without any express or implied warranties. The software is in the - development stage. It is intended exclusively for experts who have experience with such software and - solely for the purpose of inspection. All implied warranties of non-infringement, merchantability - and fitness for a particular purpose are hereby disclaimed and excluded. - - Any dispute, controversy or claim arising under or in relation to providing this software shall be - submitted to and settled by the final, binding jurisdiction of the courts of Munich, Germany in - accordance with the laws of the Federal Republic of Germany excluding its conflict of law rules and - the United Nations Convention on Contracts on the International Sales of Goods. - -*******************************************************************************************************/ - -/*==================================================================================== - EVS Codec 3GPP TS26.443 Nov 04, 2021. Version 12.14.0 / 13.10.0 / 14.6.0 / 15.4.0 / 16.3.0 - ====================================================================================*/ - -#include -#include "options.h" -#include "prot.h" -#include "wmc_auto.h" -#include "prot_fx.h" - -/*----------------------------------------------------------------------------------* - * get_gain() - * - * - *----------------------------------------------------------------------------------*/ - -#ifndef IVAS_FLOAT_FIXED -/*! r: codebook gain (adaptive or fixed) */ -float get_gain_flt( - const float x[], /* i : target signal */ - const float y[], /* i : filtered codebook excitation */ - const int16_t n, /* i : segment length */ - float *en_y /* o : energy of y (sum of y[]^2, optional) */ -) -{ - float corr = 0.0f, ener = 1e-6f; - int16_t i; - - for ( i = 0; i < n; i++ ) - { - corr += x[i] * y[i]; - ener += y[i] * y[i]; - } - - if ( en_y ) - { - *en_y = ener; - } - - return ( corr / ener ); -} -#endif - -Word32 get_gain( /* output: codebook gain (adaptive or fixed) Q16 */ - const Word16 x[], /* input : target signal Qx */ - const Word16 y[], /* input : filtered codebook excitation Qx */ - const Word16 n /* input : segment length */ -) -{ - Word32 tcorr, tener, Lgain; - Word16 exp_c, exp_e, exp, tmp; -#ifdef BASOP_NOGLOB_DECLARE_LOCAL - Flag Overflow = 0; - move32(); -#endif - - - tcorr = L_deposit_l( 0 ); - tener = L_deposit_l( 0 ); - - - /*----------------------------------------------------------------* - * Find gain based on inter-correlation product - *----------------------------------------------------------------*/ - - tcorr = Dot_product16HQ( 0, x, y, n, &exp_c ); - tener = Dot_productSq16HQ( 0, y, n, &exp_e ); - - BASOP_Util_Divide_MantExp( round_fx_o( tcorr, &Overflow ), exp_c, s_max( round_fx_o( tener, &Overflow ), 1 ), exp_e, &tmp, &exp ); - Lgain = L_shl_o( L_deposit_l( tmp ) /*Q15*/, add( 1, exp ), &Overflow ) /*Q16*/; - - return Lgain; -} - -Word32 get_gain2( /* output: codebook gain (adaptive or fixed) Q16 */ - const Word16 x[], /* input : target signal */ - const Word16 y[], /* input : filtered codebook excitation */ - const Word16 n /* input : segment length */ -) -{ - Word32 tcorr, tener, Lgain; - Word16 m_corr, m_ener, negative, Q_corr, Q_ener; -#ifdef BASOP_NOGLOB_DECLARE_LOCAL - Flag Overflow = 0; - move32(); -#endif - - negative = 0; - move16(); - - /*----------------------------------------------------------------* - * Find gain based on inter-correlation product - *----------------------------------------------------------------*/ - tcorr = Dot_product16HQ( 0, x, y, n, &Q_corr ); - tener = Dot_productSq16HQ( 0, y, n, &Q_ener ); - - tener = L_max( tener, 1 ); - - if ( tcorr <= 0 ) - { - negative = 1; - move16(); - } - BASOP_SATURATE_WARNING_OFF_EVS /*tcorr max be negative maxvall - not critical*/ - tcorr = L_abs( tcorr ); - BASOP_SATURATE_WARNING_ON_EVS - - m_corr = extract_h( tcorr ); - - m_ener = extract_h( tener ); - - IF( GT_16( m_corr, m_ener ) ) - { - m_corr = shr( m_corr, 1 ); - Q_corr = add( Q_corr, 1 ); - } - if ( m_ener == 0 ) - { - move16(); - m_corr = 0x7FFF; - } - IF( m_ener != 0 ) - { - m_corr = div_s( m_corr, m_ener ); - } - - Q_corr = sub( Q_corr, Q_ener ); - - Lgain = L_shl_o( L_deposit_l( m_corr ), add( Q_corr, 1 ), &Overflow ); /* Lgain in Q16 */ - - if ( negative != 0 ) - { - Lgain = L_negate( Lgain ); /* Lgain in Q16 */ - } - - - return Lgain; -} diff --git a/lib_com/get_gain_fx.c b/lib_com/get_gain_fx.c index d4c2413c35dcd4893fbfd11e84b593c433b901e9..8ec4f5a40314afa27263cb7a4a77d8a31dd8d53c 100644 --- a/lib_com/get_gain_fx.c +++ b/lib_com/get_gain_fx.c @@ -36,9 +36,8 @@ #include #include "options.h" -#include "prot.h" -#include "wmc_auto.h" #include "prot_fx.h" +#include "wmc_auto.h" /*----------------------------------------------------------------------------------* * get_gain() diff --git a/lib_com/gs_bitallocation_fx.c b/lib_com/gs_bitallocation_fx.c index 47d3679a8289eff3a9131a3cb23f86eab3c5e7cb..0ce59482f1f0a3de6ed59c06bf4b5065ccda3166 100644 --- a/lib_com/gs_bitallocation_fx.c +++ b/lib_com/gs_bitallocation_fx.c @@ -75,10 +75,8 @@ void bands_and_bit_alloc_fx( Word16 SWB_bit_budget; Word32 bits_per_bands[MBANDS_GN_BITALLOC16k]; Word16 w_sum_bit; -#ifdef REMOVE_IVAS_UNUSED_PARAMETERS_WARNING (void) GSC_IVAS_mode; (void) element_mode; -#endif #ifdef BASOP_NOGLOB_DECLARE_LOCAL Flag Overflow = 0; #endif @@ -120,40 +118,7 @@ void bands_and_bit_alloc_fx( move16(); bit_new_bands = 5; move16(); -#ifdef ADD_LRTD - if ( GT_32( core_brate, ACELP_16k40 ) && EQ_16( L_frame, L_FRAME16k ) ) - { - bit_new_bands = 7; - move16(); - } - - i = 0; - move16(); - WHILE( LT_16( i, SIZE_BRATE_INTERMED_TBL ) ) - { - IF( LE_32( core_brate, brate_intermed_tbl[i] ) ) - { - BREAK; - } - - IF( EQ_32( brate_intermed_tbl[i], ACELP_24k40 ) ) - { - BREAK; - } - - i = add( i, 1 ); - } - - if ( GT_16( element_mode, EVS_MONO ) && EQ_16( coder_type, AUDIO ) && - LE_32( core_brate, STEREO_GSC_BIT_RATE_ALLOC ) && EQ_32( brate_intermed_tbl[i], ACELP_9k60 ) ) /* Bit allocation should be mapped to 8 kb/s instead of 9.6 kb/s in this case */ - { - i = sub( i, 1 ); - } - - bit_index = i_mult2( BRATE2IDX_fx( brate_intermed_tbl[i] ), 17 ); -#else bit_index = i_mult2( BRATE2IDX_fx( core_brate ), 17 ); -#endif bit_index_mem = bit_index; move16(); @@ -189,668 +154,330 @@ void bands_and_bit_alloc_fx( move16(); } -#ifdef ADD_LRTD - if ( L_frame == L_FRAME16k ) + IF( EQ_16( GSC_noisy_speech, 1 ) ) { - *bit -= 8; - } + SWB_bit_budget = *bit; + move16(); + nb_bands = 5; + move16(); - if ( coder_type == INACTIVE && core_brate <= GSC_LRES_GAINQ_LIMIT ) /* can happen only for 2nd channel inactive */ - { - *bit += GSC_LRES_NB_NITS; - } + st_band = nb_bands; + move16(); - if ( *bit > 0 ) - { - if ( GSC_IVAS_mode > 0 ) - { - SWB_bit_budget = *bit; - st_band = 5; + set32_fx( bits_per_bands, 0, MBANDS_GN ); + /*bit_fracf = (1.0f/nb_bands)*(SWB_bit_budget); */ + bit_fracf = L_mult( div_s( 1, nb_bands ), shl( SWB_bit_budget, 2 ) ); /* Q18 */ - set_f( bits_per_bands, 0, MBANDS_GN_BITALLOC16k ); + nb_tot_bands = sub( nb_bands_max, 6 ); + nb_tot_bands = s_min( nb_tot_bands, 16 ); - /* 2- Decide the pourcentage of bits allocated to LF (between 50-75%) depending of the temporal contribution in GSC */ - bit_fracf = ( -0.125f * Diff_len + 76.0f ) / 100; - bit_fracf = check_bounds( bit_fracf, 0.50f, 0.75f ); + FOR( j = 0; j < 2; j++ ) + { + i = j; + move16(); + max_ener_band[j] = i; + move16(); + ener_vec[i] = 0; + move16(); + } - /* Adjusment of the bitrate between LF and HF base on the content type */ - /* 1 = new GSC bit alloc - 2 = GSC bit alloc for tc frame - 3 = more music like (should not happen often given music is coded with dft) */ + FOR( ; j < nb_bands; j++ ) + { + i = maximum_fx( ener_vec, nb_tot_bands, &etmp ); + max_ener_band[j] = i; + move16(); + ener_vec[i] = 0; + move16(); + } - if ( GSC_IVAS_mode <= 3 ) - { - nb_bands_max -= 6; - } + set32_fx( bits_per_bands, bit_fracf, nb_bands ); + } + ELSE + { + bit_index++; + bit_tmp = sub( *bit, GSC_freq_bits[bit_index] ); + bit_index++; + nb_bands_max = add( nb_bands_max, GSC_freq_bits[bit_index] ); + bit_index++; - if ( GSC_IVAS_mode == 2 ) - { - bit_fracf += 0.1f; - nb_bands_max--; - } + *pvq_len = 112; + move16(); + st_band = 7; + move16(); - if ( GSC_IVAS_mode == 3 ) - { - bit_fracf -= 0.1f; - nb_bands_max += 3; - } + IF( LE_32( core_brate, ACELP_9k60 ) ) + { + *pvq_len = 80; + move16(); + st_band = 5; + move16(); - /* First find how much we want to share between LF and HF, at low bitrate, a miminum of bits is needed in LF by limitating the number of bands*/ - /* Adjust the number of band based on the content type and bitrate */ - nb_bands_adj = 1.0f; - if ( GSC_IVAS_mode == 1 && core_brate < GSC_L_RATE_STG ) - { - nb_bands_adj = 0.0125f * SWB_bit_budget - 0.75f; - } - else if ( GSC_IVAS_mode != 2 && core_brate > GSC_H_RATE_STG ) + IF( Diff_len == 0 ) { - nb_bands_adj = 0.02f * SWB_bit_budget - 1.2f; + nb_bands_max = add( nb_bands_max, 2 ); + bit_tmp = sub( bit_tmp, 13 ); } - nb_bands_max = (int16_t) ( nb_bands_max * nb_bands_adj + 0.5f ); - nb_bands_max = check_bounds_s( nb_bands_max, 5, nb_tot_bands ); + } - bit_fracf *= SWB_bit_budget; + ELSE IF( Diff_len == 0 ) + { + nb_bands_max = add( nb_bands_max, 2 ); + bit_tmp = sub( bit_tmp, 17 ); + } - /* Estimation of the number of bit used in HF */ - /* with only the first weigthing The number of bits in max_ener_band[st_band-1] = 17% of bit_fracf */ - mb = .17f * bit_fracf; - mp = ( 2.0f * DSR_NB_PULSE ); - if ( core_brate < GSC_L_RATE_STG && GSC_IVAS_mode == 3 ) - { - mp = 1.5f * DSR_NB_PULSE; - } - else if ( core_brate < GSC_L_RATE_STG ) + nb_bands = shr( *pvq_len, 4 ); + + /*------------------------------------------------------------------------ + * Ajustement of the maximum number of bands in function of the + * dynamics of the spectrum (more or less speech like) + *-----------------------------------------------------------------------*/ + test(); + test(); + test(); + test(); + IF( EQ_16( coder_type, INACTIVE ) || GE_16( noise_lev, NOISE_LEVEL_SP3 ) ) + { + /* Probably classification error -> concentrate bits on LF */ + if ( GE_32( core_brate, ACELP_8k00 ) ) { - mp = DSR_NB_PULSE; + nb_bands_max = add( nb_bands, 1 ); } - - /* We want max_ener_band[st_band] <= max_ener_band[st_band-1] and max_ener_band[nb_bands_max-1] <= max_ener_band[st_band]*/ - /* We will estimate the number of bits to allocate of HF and put the remaining bits, if any, back on LF */ - /* compute the total possible number of band to be coded */ - nb_tot_bands = (int16_t) ( ( SWB_bit_budget - bit_fracf ) / ( mp + ( mb - mp ) / 2.0f ) ); - mp = min( mp, mb ); - if ( nb_tot_bands + st_band > nb_bands_max ) + else { - bit_adj = ( ( mb + mp ) / 2 ) * ( nb_tot_bands + st_band - nb_bands_max ); - bit_adj = max( 0, bit_adj ); - nb_tot_bands = nb_bands_max - st_band; - bit_fracf += bit_adj; + nb_bands_max = nb_bands; + move16(); } - nb_tot_bands += st_band; + } + ELSE IF( GE_16( noise_lev, NOISE_LEVEL_SP2 ) || + ( LE_32( core_brate, ACELP_13k20 ) && GE_32( core_brate, ACELP_9k60 ) && cor_strong_limit == 0 ) ) /* Very low dynamic, tend to speech, do not try to code HF at all */ + { + nb_bands_max = sub( nb_bands_max, 2 ); + } + ELSE IF( GE_16( noise_lev, NOISE_LEVEL_SP1 ) ) /* Very low dynamic, tend to speech, code less HF */ + { + nb_bands_max = sub( nb_bands_max, 1 ); + } - /* Allocate bits to LF */ - etmp = 0.23f; - for ( j = 0; j < st_band; j++ ) - { - i = j; - max_ener_band[j] = i; - ener_vec[i] = MIN16B; - bits_per_bands[j] = etmp * bit_fracf; - etmp -= 0.015f; - } + test(); + if ( ( EQ_16( bwidth, NB ) ) && GT_16( nb_bands_max, 10 ) ) + { + nb_bands_max = 10; + move16(); + } - SWB_bit_budget -= bit_fracf; + /*------------------------------------------------------------------------ + * Find extra number of band to code according to bit rate availables + *-----------------------------------------------------------------------*/ + test(); + WHILE( GE_16( bit_tmp, bit_new_bands ) && LE_16( nb_bands, sub( nb_bands_max, 1 ) ) ) + { + test(); + bit_tmp = sub( bit_tmp, bit_new_bands ); + nb_bands = add( nb_bands, 1 ); + } - /* Find low energy band in HF */ - set_s( nb_pulse_per_band, 2, MBANDS_GN_BITALLOC16k ); - for ( i = st_band + 2; i < nb_tot_bands - 1; i++ ) - { - if ( ener_vec[i] < ener_vec[i - 1] && ener_vec[i] < ener_vec[i + 1] ) - { - nb_pulse_per_band[i] = 1; - } - } - for ( j = st_band; j < nb_tot_bands; j++ ) - { - if ( j > 6 ) - { - i = maximum( ener_vec, nb_tot_bands, &etmp ); - } - else - { - i = j; - } + /*------------------------------------------------------------------------ + * Fractional bits to distribute on the first x bands + *-----------------------------------------------------------------------*/ - max_ener_band[j] = i; - ener_vec[i] = MIN16B; - } + { + bit_fracf = L_mult( div_s( 1, st_band ), shl( bit_tmp, 2 ) ); /* Q18 */ + } + /*------------------------------------------------------------------------ + * Complete the bit allocation per frequency band + *-----------------------------------------------------------------------*/ + imax = 5; + move16(); - /* Recompute the final bit distribution for HF */ - if ( nb_tot_bands > st_band ) - { - bit_fracf = DSR_NB_PULSE; - mb = ( SWB_bit_budget * 2 / ( nb_tot_bands - st_band ) ) - mp; - bit_fracf = ( mb - mp ) / ( nb_tot_bands - st_band ); - mb -= bit_fracf; - /* Do the distribution */ - for ( j = st_band; j < nb_tot_bands; j++ ) - { - if ( nb_pulse_per_band[max_ener_band[j]] > 1 ) - { - bits_per_bands[max_ener_band[j]] = mb; - } - else - { - bits_per_bands[max_ener_band[j]] = 4.5f; - } - mb -= bit_fracf; - SWB_bit_budget -= bits_per_bands[max_ener_band[j]]; - } - } + if ( GT_32( core_brate, ACELP_9k60 ) ) + { + imax = 7; + move16(); + } + FOR( i = 0; i < imax; i++ ) + { + bits_per_bands[i] = L_add( GSC_freq_bits_fx[bit_index], bit_fracf ); + move32(); /* Q18 */ + bit_index = add( bit_index, 1 ); + } - /* Series of verification in case bit allocated != the budget */ - if ( SWB_bit_budget > 0 ) + IF( Diff_len == 0 ) + { + bit_index = add( bit_index_mem, 10 ); + FOR( i = 0; i < 7; i++ ) { - i = st_band - 1; - while ( SWB_bit_budget > 0 ) - { - bits_per_bands[i]++; - SWB_bit_budget--; - i--; - if ( i == -1 ) - { - i = st_band - 1; - } - } + bits_per_bands[i] = L_add( bits_per_bands[i], GSC_freq_bits_fx[bit_index] ); + move32(); /*chk Q18 */ + bit_index = add( bit_index, 1 ); } + } - nb_bands = nb_tot_bands; - - sum_bit = 0; - j = 0; - for ( i = 0; i < nb_bands; i++ ) - { - if ( bits_per_bands[i] > 112 ) - { - sum_bit += bits_per_bands[i] - 112; - bits_per_bands[i] = 112; - j = i + 1; - } - - /* safety check for overage bit reallocation */ - else if ( bits_per_bands[i] + sum_bit / 3 > 112 ) - { - j = i + 1; - } - } + /*-------------------------------------------------------------------------- + * Complete the bit allocation per frequency band for 16kHz high brate mode + *--------------------------------------------------------------------------*/ - if ( sum_bit != 0 ) + { + FOR( j = st_band; j < nb_bands; j++ ) { - sum_bit /= ( nb_bands - j ); - for ( i = j; i < nb_bands; i++ ) - { - bits_per_bands[i] += sum_bit; - } + bits_per_bands[j] = L_shl( bit_new_bands, 18 ); + move32(); /*chk Q18 */ } } - else -#endif - IF( EQ_16( GSC_noisy_speech, 1 ) ) - { - SWB_bit_budget = *bit; - move16(); - nb_bands = 5; - move16(); - -#ifdef ADD_LRTD - - fzero_val = 0.0f; - if ( element_mode > EVS_MONO ) - { - fzero_val = MIN16B_FLT; - } - if ( coder_type == UNVOICED && element_mode > EVS_MONO ) - { - nb_bands = 3; - if ( SWB_bit_budget > 20 ) - { - nb_bands = 5; - } - } - else if ( bwidth < SWB ) - { - nb_bands = 7; - } - -#endif + /*-------------------------------------------------------------------------- + * Compute a maximum band (band offset) for the search on maximal energy + * This is function of the spectral dynamic and the bitrate + *--------------------------------------------------------------------------*/ - st_band = nb_bands; - move16(); + bandoffset = sub( nb_tot_bands, add( nb_bands, 2 ) ); - set32_fx( bits_per_bands, 0, MBANDS_GN ); - /*bit_fracf = (1.0f/nb_bands)*(SWB_bit_budget); */ - bit_fracf = L_mult( div_s( 1, nb_bands ), shl( SWB_bit_budget, 2 ) ); /* Q18 */ + test(); + test(); + test(); + test(); + test(); + IF( LE_16( noise_lev, NOISE_LEVEL_SP1a ) ) + { + bandoffset = sub( bandoffset, 1 ); + } + ELSE IF( ( LE_32( core_brate, ACELP_13k20 ) && ( EQ_16( coder_type, INACTIVE ) || GE_16( noise_lev, NOISE_LEVEL_SP3 ) ) ) || + ( LE_32( core_brate, ACELP_13k20 ) && GE_32( core_brate, ACELP_9k60 ) && cor_strong_limit == 0 ) ) + { + bandoffset = add( bandoffset, 1 ); + } - nb_tot_bands = sub( nb_bands_max, 6 ); - nb_tot_bands = s_min( nb_tot_bands, 16 ); + bandoffset = s_max( bandoffset, 0 ); - FOR( j = 0; j < 2; j++ ) - { - i = j; - move16(); - max_ener_band[j] = i; - move16(); - ener_vec[i] = 0; - move16(); - } -#ifdef ADD_LRTD - if ( bwidth < SWB ) - { - if ( coder_type == UNVOICED && element_mode > EVS_MONO ) - { - nb_tot_bands = 5; - } -#endif - FOR( ; j < nb_bands; j++ ) - { - i = maximum_fx( ener_vec, nb_tot_bands, &etmp ); - max_ener_band[j] = i; - move16(); - ener_vec[i] = 0; - move16(); - } -#ifdef ADD_LRTD - } - else - { - for ( ; j < nb_bands; j++ ) - { - i = maximum( ener_vec, nb_tot_bands, &etmp ); - max_ener_band[j] = i; - ener_vec[i] = fzero_val; - } - } -#endif - set32_fx( bits_per_bands, bit_fracf, nb_bands ); - } - ELSE + /*-------------------------------------------------------------------------- + * Initiazed sorted vector + * For the first x bands to be included in th final sorted vector + * Sort the remaining bands in decrease energy order + *--------------------------------------------------------------------------*/ + FOR( j = 0; j < nb_tot_bands; j++ ) { - bit_index++; - bit_tmp = sub( *bit, GSC_freq_bits[bit_index] ); - bit_index++; - nb_bands_max = add( nb_bands_max, GSC_freq_bits[bit_index] ); - bit_index++; - - *pvq_len = 112; + max_ener_band[j] = -10; move16(); - st_band = 7; + } + FOR( j = 0; j < st_band; j++ ) + { + max_ener_band[j] = j; move16(); -#ifdef ADD_LRTD - if ( L_frame == L_FRAME16k && core_brate > ACELP_16k40 ) - { - *pvq_len = 160; - st_band = 10; - nb_bands = *pvq_len / 16; - bit_tmp -= 35; - bit_new_bands = 5; - } -#endif - IF( LE_32( core_brate, ACELP_9k60 ) ) - { - *pvq_len = 80; - move16(); - st_band = 5; - move16(); - - IF( Diff_len == 0 ) - { - nb_bands_max = add( nb_bands_max, 2 ); - bit_tmp = sub( bit_tmp, 13 ); - } - } - - ELSE IF( Diff_len == 0 ) - { - nb_bands_max = add( nb_bands_max, 2 ); - bit_tmp = sub( bit_tmp, 17 ); - } - - nb_bands = shr( *pvq_len, 4 ); -#ifdef ADD_LRTD - nb_bands_max = min( nb_bands_max, MBANDS_GN_BITALLOC16k ); -#endif - /*------------------------------------------------------------------------ - * Ajustement of the maximum number of bands in function of the - * dynamics of the spectrum (more or less speech like) - *-----------------------------------------------------------------------*/ - test(); - test(); - test(); - test(); - IF( EQ_16( coder_type, INACTIVE ) || GE_16( noise_lev, NOISE_LEVEL_SP3 ) ) - { - /* Probably classification error -> concentrate bits on LF */ -#ifdef ADD_LRTD - if ( L_frame == L_FRAME16k && core_brate >= ACELP_24k40 ) - { - nb_bands_max = nb_tot_bands - 2; - } - else if ( core_brate >= ACELP_16k40 ) - { - nb_bands_max = nb_bands + 2; - } - else -#endif - if ( GE_32( core_brate, ACELP_8k00 ) ) - { - nb_bands_max = add( nb_bands, 1 ); - } - else - { - nb_bands_max = nb_bands; - move16(); - } - } - ELSE IF( GE_16( noise_lev, NOISE_LEVEL_SP2 ) || - ( LE_32( core_brate, ACELP_13k20 ) && GE_32( core_brate, ACELP_9k60 ) && cor_strong_limit == 0 ) ) /* Very low dynamic, tend to speech, do not try to code HF at all */ - { - nb_bands_max = sub( nb_bands_max, 2 ); - } - ELSE IF( GE_16( noise_lev, NOISE_LEVEL_SP1 ) ) /* Very low dynamic, tend to speech, code less HF */ - { - nb_bands_max = sub( nb_bands_max, 1 ); - } -#ifdef ADD_LRTD - if ( L_frame == L_FRAME16k ) - { - if ( core_brate < ACELP_24k40 ) - { - nb_bands_max -= 4; - } - else if ( core_brate < ACELP_32k ) - { - if ( Diff_len > 0 || noise_lev >= NOISE_LEVEL_SP2 ) - { - nb_bands_max -= 2; - bit_new_bands *= 2; - } - } - else if ( core_brate >= ACELP_32k ) - { - bit_new_bands *= 2; - } - } - -#endif - test(); - if ( ( EQ_16( bwidth, NB ) ) && GT_16( nb_bands_max, 10 ) ) - { - nb_bands_max = 10; - move16(); - } - - /*------------------------------------------------------------------------ - * Find extra number of band to code according to bit rate availables - *-----------------------------------------------------------------------*/ - test(); - WHILE( GE_16( bit_tmp, bit_new_bands ) && LE_16( nb_bands, sub( nb_bands_max, 1 ) ) ) - { - test(); - bit_tmp = sub( bit_tmp, bit_new_bands ); - nb_bands = add( nb_bands, 1 ); - } - - /*------------------------------------------------------------------------ - * Fractional bits to distribute on the first x bands - *-----------------------------------------------------------------------*/ -#ifdef ADD_LRTD - if ( L_frame == L_FRAME16k && core_brate > ACELP_32k ) - { - bit_fracf = 0; - } - else -#endif - { - bit_fracf = L_mult( div_s( 1, st_band ), shl( bit_tmp, 2 ) ); /* Q18 */ - } - /*------------------------------------------------------------------------ - * Complete the bit allocation per frequency band - *-----------------------------------------------------------------------*/ - imax = 5; + ener_vec[j] = -10; move16(); + } + pos = st_band; + move16(); + FOR( ; j < nb_bands; j++ ) + { + i = maximum_fx( ener_vec, sub( nb_tot_bands, bandoffset ), &etmp ); + pos = s_max( pos, i ); + max_ener_band[j] = i; + move16(); + ener_vec[i] = -10; + move16(); + } - if ( GT_32( core_brate, ACELP_9k60 ) ) + /* re-allocate bits to the frames such that the highest band with allocated bits is higher than the threshold */ + test(); + test(); + test(); + IF( GT_16( sub( nb_tot_bands, bandoffset ), nb_bands ) && ( GT_16( pos, 7 ) && EQ_32( core_brate, ACELP_8k00 ) ) && EQ_16( bwidth, WB ) ) + { + band = sub( nb_tot_bands, add( bandoffset, nb_bands ) ); + FOR( j = 0; j < band; j++ ) { - imax = 7; + i = maximum_fx( ener_vec, sub( nb_tot_bands, bandoffset ), &etmp ); + max_ener_band[add( nb_bands, j )] = i; move16(); + ener_vec[i] = -10; + move16(); + bits_per_bands[add( nb_bands, j )] = 1310720; + move32(); /*Q18 */ } - FOR( i = 0; i < imax; i++ ) - { - bits_per_bands[i] = L_add( GSC_freq_bits_fx[bit_index], bit_fracf ); - move32(); /* Q18 */ - bit_index = add( bit_index, 1 ); - } -#ifdef ADD_LRTD - if ( L_frame == L_FRAME16k && core_brate > ACELP_16k40 ) - { - bit_index = 0; - i = imax - 1; - bits_per_bands[i] += Compl_GSC_freq_bits[bit_index]; - i++; - bit_index++; + nb_bands = add( nb_bands, band ); - for ( ; i < 10; i++ ) - { - bits_per_bands[i] += Compl_GSC_freq_bits[bit_index] + bit_fracf; - bit_index++; - } - } -#endif - IF( Diff_len == 0 ) - { - bit_index = add( bit_index_mem, 10 ); - FOR( i = 0; i < 7; i++ ) - { - bits_per_bands[i] = L_add( bits_per_bands[i], GSC_freq_bits_fx[bit_index] ); - move32(); /*chk Q18 */ - bit_index = add( bit_index, 1 ); - } - } -#ifdef ADD_LRTD - if ( bit_fracf < 0 ) - { - for ( j = 0; j < nb_tot_bands; j++ ) - { - bits_per_bands[j] = max( bits_per_bands[j], 0 ); - } - } + bit_tmp = i_mult2( band, 5 ); -#endif - /*-------------------------------------------------------------------------- - * Complete the bit allocation per frequency band for 16kHz high brate mode - *--------------------------------------------------------------------------*/ -#ifdef ADD_LRTD - if ( L_frame == L_FRAME16k && core_brate > ACELP_32k ) + IF( LE_16( band, 2 ) ) { - for ( j = st_band; j < nb_bands; j++ ) + FOR( j = sub( st_band, 1 ); j < nb_bands; j++ ) { - bits_per_bands[j] = bit_new_bands; + bits_per_bands[j] = L_add( bits_per_bands[j], 262144 ); /*Q18 */ + move32(); } - - bit_fracf = ( 1.0f / nb_bands ) * ( bit_tmp ); - - etmp = 2.0f * bit_fracf / ( nb_bands + 1 ); - bit_fracf = etmp; - for ( j = nb_bands - 1; j >= 0; j-- ) - { - bits_per_bands[j] += etmp; - etmp += bit_fracf; - } - } - else -#endif - { - FOR( j = st_band; j < nb_bands; j++ ) - { - bits_per_bands[j] = L_shl( bit_new_bands, 18 ); - move32(); /*chk Q18 */ - } - } - - /*-------------------------------------------------------------------------- - * Compute a maximum band (band offset) for the search on maximal energy - * This is function of the spectral dynamic and the bitrate - *--------------------------------------------------------------------------*/ - - bandoffset = sub( nb_tot_bands, add( nb_bands, 2 ) ); - - test(); - test(); - test(); - test(); - test(); - IF( LE_16( noise_lev, NOISE_LEVEL_SP1a ) ) - { - bandoffset = sub( bandoffset, 1 ); - } - ELSE IF( ( LE_32( core_brate, ACELP_13k20 ) && ( EQ_16( coder_type, INACTIVE ) || GE_16( noise_lev, NOISE_LEVEL_SP3 ) ) ) || - ( LE_32( core_brate, ACELP_13k20 ) && GE_32( core_brate, ACELP_9k60 ) && cor_strong_limit == 0 ) ) - { - bandoffset = add( bandoffset, 1 ); + bit_tmp = add( bit_tmp, add( sub( nb_bands, st_band ), 1 ) ); } - bandoffset = s_max( bandoffset, 0 ); - - /*-------------------------------------------------------------------------- - * Initiazed sorted vector - * For the first x bands to be included in th final sorted vector - * Sort the remaining bands in decrease energy order - *--------------------------------------------------------------------------*/ - FOR( j = 0; j < nb_tot_bands; j++ ) - { - max_ener_band[j] = -10; - move16(); - } - FOR( j = 0; j < st_band; j++ ) - { - max_ener_band[j] = j; - move16(); - ener_vec[j] = -10; - move16(); - } - pos = st_band; + i = 0; move16(); - FOR( ; j < nb_bands; j++ ) - { - i = maximum_fx( ener_vec, sub( nb_tot_bands, bandoffset ), &etmp ); - pos = s_max( pos, i ); - max_ener_band[j] = i; - move16(); - ener_vec[i] = -10; - move16(); - } - - /* re-allocate bits to the frames such that the highest band with allocated bits is higher than the threshold */ - test(); - test(); - test(); - IF( GT_16( sub( nb_tot_bands, bandoffset ), nb_bands ) && ( GT_16( pos, 7 ) && EQ_32( core_brate, ACELP_8k00 ) ) && EQ_16( bwidth, WB ) ) + j = 0; + move16(); + FOR( ; bit_tmp > 0; bit_tmp-- ) { - band = sub( nb_tot_bands, add( bandoffset, nb_bands ) ); - FOR( j = 0; j < band; j++ ) + bits_per_bands[j] = L_sub( bits_per_bands[j], 262144 ); /*Q18 */ + j = add( j, 1 ); + if ( EQ_16( j, sub( st_band, i ) ) ) { - i = maximum_fx( ener_vec, sub( nb_tot_bands, bandoffset ), &etmp ); - max_ener_band[add( nb_bands, j )] = i; + j = 0; move16(); - ener_vec[i] = -10; - move16(); - bits_per_bands[add( nb_bands, j )] = 1310720; - move32(); /*Q18 */ - } - nb_bands = add( nb_bands, band ); - - bit_tmp = i_mult2( band, 5 ); - - IF( LE_16( band, 2 ) ) - { - FOR( j = sub( st_band, 1 ); j < nb_bands; j++ ) - { - bits_per_bands[j] = L_add( bits_per_bands[j], 262144 ); /*Q18 */ - move32(); - } - bit_tmp = add( bit_tmp, add( sub( nb_bands, st_band ), 1 ) ); } - - i = 0; - move16(); - j = 0; - move16(); - FOR( ; bit_tmp > 0; bit_tmp-- ) + test(); + if ( j == 0 && LT_16( i, sub( st_band, 1 ) ) ) { - bits_per_bands[j] = L_sub( bits_per_bands[j], 262144 ); /*Q18 */ - j = add( j, 1 ); - if ( EQ_16( j, sub( st_band, i ) ) ) - { - j = 0; - move16(); - } - test(); - if ( j == 0 && LT_16( i, sub( st_band, 1 ) ) ) - { - i = add( i, 1 ); - } + i = add( i, 1 ); } } } - /*-------------------------------------------------------------------------- - * Bit sum verification for GSC inactive at very high rate - * The maximum number of bits per band of length 16 is 112 - * Redistribute the overage bits if needed - *--------------------------------------------------------------------------*/ - sum_bit = 0; - move16(); - j = 0; - move16(); - FOR( i = 0; i < nb_bands; i++ ) - { - L_tmp = Mult_32_16( sum_bit, 10923 ); - - IF( GT_32( bits_per_bands[i], 29360128 ) ) /* 112 in Q18 */ - { - sum_bit = L_add( sum_bit, L_sub( bits_per_bands[i], 29360128 ) ); /* Q18 */ - bits_per_bands[i] = 29360128; - move32(); - j = add( i, 1 ); - } - ELSE IF( GT_32( L_add( bits_per_bands[i], L_tmp ), 29360128 ) ) /* Q18 */ - { - j = add( i, 1 ); - } - } + } + /*-------------------------------------------------------------------------- + * Bit sum verification for GSC inactive at very high rate + * The maximum number of bits per band of length 16 is 112 + * Redistribute the overage bits if needed + *--------------------------------------------------------------------------*/ + sum_bit = 0; + move16(); + j = 0; + move16(); + FOR( i = 0; i < nb_bands; i++ ) + { + L_tmp = Mult_32_16( sum_bit, 10923 ); - IF( sum_bit != 0 ) - { - tmp = sub( nb_bands, j ); - sum_bit = Mult_32_16( sum_bit, div_s( 1, tmp ) ); /* Q18 */ - FOR( i = j; i < nb_bands; i++ ) - { - bits_per_bands[i] = L_add( bits_per_bands[i], sum_bit ); - move32(); /* Q18 */ - } - } - /*-------------------------------------------------------------------------- - * second step of bit sum verification, normally sum_bit == *bit - *--------------------------------------------------------------------------*/ - w_sum_bit = 0; - move16(); - FOR( i = 0; i < nb_bands; i++ ) + IF( GT_32( bits_per_bands[i], 29360128 ) ) /* 112 in Q18 */ { - out_bits_per_bands[i] = shl( extract_l( L_shr( bits_per_bands[i], 18 ) ), 3 ); - move16(); - w_sum_bit = add( w_sum_bit, out_bits_per_bands[i] ); /* Q3 */ + sum_bit = L_add( sum_bit, L_sub( bits_per_bands[i], 29360128 ) ); /* Q18 */ + bits_per_bands[i] = 29360128; + move32(); + j = add( i, 1 ); } - tmp = shl( *bit, 3 ); -#ifdef ADD_LRTD - if ( GSC_IVAS_mode != 0 && sum_bit < *bit ) /* If we need to add bits, we are doing it on the LF */ + ELSE IF( GT_32( L_add( bits_per_bands[i], L_tmp ), 29360128 ) ) /* Q18 */ { - reajust_bits( bits_per_bands, 0, nb_bands, (int16_t) sum_bit, *bit ); + j = add( i, 1 ); } - else + } + + IF( sum_bit != 0 ) + { + tmp = sub( nb_bands, j ); + sum_bit = Mult_32_16( sum_bit, div_s( 1, tmp ) ); /* Q18 */ + FOR( i = j; i < nb_bands; i++ ) { - reajust_bits( bits_per_bands, nb_bands - 1, 0, (int16_t) sum_bit, *bit ); + bits_per_bands[i] = L_add( bits_per_bands[i], sum_bit ); + move32(); /* Q18 */ } -#else + } + /*-------------------------------------------------------------------------- + * second step of bit sum verification, normally sum_bit == *bit + *--------------------------------------------------------------------------*/ + w_sum_bit = 0; + move16(); + FOR( i = 0; i < nb_bands; i++ ) + { + out_bits_per_bands[i] = shl( extract_l( L_shr( bits_per_bands[i], 18 ) ), 3 ); + move16(); + w_sum_bit = add( w_sum_bit, out_bits_per_bands[i] ); /* Q3 */ + } + tmp = shl( *bit, 3 ); + IF( GT_16( tmp, w_sum_bit ) ) { i = sub( nb_bands, 1 ); @@ -866,88 +493,24 @@ void bands_and_bit_alloc_fx( } } } -#endif - /*-------------------------------------------------------------------------- - * Recompute the real number/length of frequency bands to encode - *--------------------------------------------------------------------------*/ - *nb_subbands = nb_bands; - move16(); - *pvq_len = shl( *nb_subbands, 4 ); - /*-------------------------------------------------------------------------- - * Concatenate bands (encoder only) - *--------------------------------------------------------------------------*/ - IF( exc_diff != NULL ) - { - FOR( j = 0; j < nb_bands; j++ ) - { - Copy( exc_diff + shl( max_ener_band[j], 4 ), concat_in + shl( j, 4 ), 16 ); - } - } -#ifdef ADD_LRTD - } - else /* *bit == 0 */ - { - set_s( bits_per_bands_s, 0, nb_tot_bands ); - *nb_subbands = 0; - *pvq_len = 0; - } -#endif - return; -} -#ifdef ADD_LRTD -/*-------------------------------------------------------------------* - * reajust_bits() - * - * - *-------------------------------------------------------------------*/ - -static void reajust_bits( - float *bits_per_bands, - const int16_t st_band, - const int16_t end_band, - const int16_t sum_bit_in, - const int16_t bit_bdgt_in ) -{ - int16_t i, amount_to_add, incr; - int16_t bit_bdgt, sum_bit; - - incr = 1; - if ( end_band < st_band ) - { - incr = -1; - } - - if ( bit_bdgt_in < sum_bit_in ) - { - amount_to_add = -1; - bit_bdgt = sum_bit_in; - sum_bit = bit_bdgt_in; - } - else - { - bit_bdgt = bit_bdgt_in; - sum_bit = sum_bit_in; - amount_to_add = 1; - } + /*-------------------------------------------------------------------------- + * Recompute the real number/length of frequency bands to encode + *--------------------------------------------------------------------------*/ + *nb_subbands = nb_bands; + move16(); + *pvq_len = shl( *nb_subbands, 4 ); - i = st_band; - while ( bit_bdgt > sum_bit ) + /*-------------------------------------------------------------------------- + * Concatenate bands (encoder only) + *--------------------------------------------------------------------------*/ + IF( exc_diff != NULL ) { - if ( amount_to_add > 0 || ( amount_to_add < 0 && bits_per_bands[i] > 1 ) ) + FOR( j = 0; j < nb_bands; j++ ) { - bits_per_bands[i] += amount_to_add; - sum_bit += (int16_t) abs( amount_to_add ); - } - - i += incr; - if ( i == end_band ) - { - i = st_band; + Copy( exc_diff + shl( max_ener_band[j], 4 ), concat_in + shl( j, 4 ), 16 ); } } return; } - -#endif diff --git a/lib_com/gs_bitallocation_ivas_fx.c b/lib_com/gs_bitallocation_ivas_fx.c index 0ab1670151c5e748105ad5463fa21ba9232e3ed3..9243f640e890348f577688a0dc77aff03e10a148 100644 --- a/lib_com/gs_bitallocation_ivas_fx.c +++ b/lib_com/gs_bitallocation_ivas_fx.c @@ -2,13 +2,11 @@ EVS Codec 3GPP TS26.452 Aug 12, 2021. Version 16.3.0 ====================================================================================*/ #include -#include "options.h" /* Compilation switches */ -#include "cnst.h" /* Common constants */ -#include "rom_com.h" /* Static table prototypes */ -#include "prot.h" /* Function prototypes */ -#include "prot_fx.h" /* Function prototypes */ -#include "ivas_prot.h" /* Function prototypes */ -#include "assert.h" /* Debug prototypes */ +#include "options.h" /* Compilation switches */ +#include "cnst.h" /* Common constants */ +#include "rom_com.h" /* Static table prototypes */ +#include "prot_fx.h" /* Function prototypes */ +#include "assert.h" /* Debug prototypes */ #include "stl.h" #include "ivas_prot_fx.h" @@ -103,8 +101,8 @@ void bands_and_bit_alloc_ivas_fx( Word16 etmp; Word16 tmp; Word16 pos, band; - Word32 SWB_bit_budget; // Q0 -> Q18 - Word32 bits_per_bands[MBANDS_GN_BITALLOC16k]; // Q18 + Word32 SWB_bit_budget; /* Q0 -> Q18 */ + Word32 bits_per_bands[MBANDS_GN_BITALLOC16k]; /* Q18 */ Word16 w_sum_bit; Word16 fzero_val; #ifdef BASOP_NOGLOB_DECLARE_LOCAL @@ -148,7 +146,7 @@ void bands_and_bit_alloc_ivas_fx( move16(); bit_new_bands = 5; move16(); -#if 1 // def ADD_LRTD + test(); if ( GT_32( core_brate, ACELP_16k40 ) && EQ_16( L_frame, L_FRAME16k ) ) { @@ -183,9 +181,6 @@ void bands_and_bit_alloc_ivas_fx( } bit_index = i_mult2( BRATE2IDX_fx( brate_intermed_tbl[i] ), 17 ); -#else - bit_index = i_mult2( BRATE2IDX_fx( core_brate ), 17 ); -#endif bit_index_mem = bit_index; move16(); @@ -221,7 +216,6 @@ void bands_and_bit_alloc_ivas_fx( move16(); } -#if 1 // def ADD_LRTD IF( EQ_16( L_frame, L_FRAME16k ) ) { *bit = sub( *bit, 8 ); @@ -242,18 +236,12 @@ void bands_and_bit_alloc_ivas_fx( nb_tot_bands = Find_bit_alloc_IVAS_fx( core_brate, GSC_IVAS_mode, Diff_len, nb_tot_bands, bit, max_ener_band, ener_vec, bits_per_bands ); nb_bands = nb_tot_bands; } - ELSE -#endif - IF( EQ_16( GSC_noisy_speech, 1 ) ) + ELSE IF( EQ_16( GSC_noisy_speech, 1 ) ) { SWB_bit_budget = *bit; /*Q0*/ move32(); nb_bands = 5; move16(); - -#if 1 // def ADD_LRTD - - // fzero_val = 0.0f; fzero_val = 0; move16(); @@ -281,8 +269,6 @@ void bands_and_bit_alloc_ivas_fx( move16(); } -#endif - st_band = nb_bands; move16(); @@ -298,11 +284,10 @@ void bands_and_bit_alloc_ivas_fx( move16(); max_ener_band[j] = i; move16(); - // ener_vec[i] = 0; ener_vec[i] = fzero_val; move16(); } -#if 1 // def ADD_LRTD + IF( LT_16( bwidth, SWB ) ) { test(); @@ -311,17 +296,15 @@ void bands_and_bit_alloc_ivas_fx( nb_tot_bands = 5; move16(); } -#endif + FOR( ; j < nb_bands; j++ ) { i = maximum_fx( ener_vec, nb_tot_bands, &etmp ); max_ener_band[j] = i; move16(); - // ener_vec[i] = 0; ener_vec[i] = fzero_val; move16(); } -#if 1 // def ADD_LRTD } ELSE { @@ -334,7 +317,7 @@ void bands_and_bit_alloc_ivas_fx( move16(); } } -#endif + set32_fx( bits_per_bands, bit_fracf, nb_bands ); } ELSE @@ -349,7 +332,7 @@ void bands_and_bit_alloc_ivas_fx( move16(); st_band = 7; move16(); -#if 1 // def ADD_LRTD + test(); IF( EQ_16( L_frame, L_FRAME16k ) && GT_32( core_brate, ACELP_16k40 ) ) { @@ -362,7 +345,7 @@ void bands_and_bit_alloc_ivas_fx( bit_new_bands = 5; move16(); } -#endif + IF( LE_32( core_brate, ACELP_9k60 ) ) { *pvq_len = 80; @@ -384,9 +367,8 @@ void bands_and_bit_alloc_ivas_fx( } nb_bands = shr( *pvq_len, 4 ); -#if 1 // def ADD_LRTD nb_bands_max = s_min( nb_bands_max, MBANDS_GN_BITALLOC16k ); -#endif + /*------------------------------------------------------------------------ * Ajustement of the maximum number of bands in function of the * dynamics of the spectrum (more or less speech like) @@ -398,7 +380,6 @@ void bands_and_bit_alloc_ivas_fx( IF( coder_type == INACTIVE || GE_16( noise_lev, NOISE_LEVEL_SP3 ) ) { /* Probably classification error -> concentrate bits on LF */ -#if 1 // def ADD_LRTD IF( EQ_16( L_frame, L_FRAME16k ) && GE_32( core_brate, ACELP_24k40 ) ) { nb_bands_max = sub( nb_tot_bands, 2 ); @@ -407,9 +388,7 @@ void bands_and_bit_alloc_ivas_fx( { nb_bands_max = add( nb_bands, 2 ); } - ELSE -#endif - IF( GE_32( core_brate, ACELP_8k00 ) ) + ELSE IF( GE_32( core_brate, ACELP_8k00 ) ) { nb_bands_max = add( nb_bands, 1 ); } @@ -428,7 +407,7 @@ void bands_and_bit_alloc_ivas_fx( { nb_bands_max = sub( nb_bands_max, 1 ); } -#if 1 // def ADD_LRTD + IF( EQ_16( L_frame, L_FRAME16k ) ) { IF( LT_32( core_brate, ACELP_24k40 ) ) @@ -450,7 +429,6 @@ void bands_and_bit_alloc_ivas_fx( } } -#endif test(); if ( ( bwidth == NB ) && GT_16( nb_bands_max, 10 ) ) { @@ -472,7 +450,7 @@ void bands_and_bit_alloc_ivas_fx( /*------------------------------------------------------------------------ * Fractional bits to distribute on the first x bands *-----------------------------------------------------------------------*/ -#if 1 // def ADD_LRTD + test(); IF( EQ_16( L_frame, L_FRAME16k ) && GT_32( core_brate, ACELP_32k ) ) { @@ -480,10 +458,10 @@ void bands_and_bit_alloc_ivas_fx( move32(); } ELSE -#endif { bit_fracf = Find_bit_frac_fx( st_band, bit_tmp ); /*Q18*/ } + /*------------------------------------------------------------------------ * Complete the bit allocation per frequency band *-----------------------------------------------------------------------*/ @@ -501,13 +479,12 @@ void bands_and_bit_alloc_ivas_fx( move32(); /* Q18 */ bit_index = add( bit_index, 1 ); } -#if 1 // def ADD_LRTD + IF( EQ_16( L_frame, L_FRAME16k ) && GT_32( core_brate, ACELP_16k40 ) ) { bit_index = 0; move16(); i = sub( imax, 1 ); - // bits_per_bands[i] += Compl_GSC_freq_bits[bit_index]; bits_per_bands[i] = L_add( bits_per_bands[i], L_shl( Compl_GSC_freq_bits[bit_index], Q18 ) ); /*Q18*/ move32(); i = add( i, 1 ); @@ -515,13 +492,12 @@ void bands_and_bit_alloc_ivas_fx( FOR( ; i < 10; i++ ) { - // bits_per_bands[i] += Compl_GSC_freq_bits[bit_index] + bit_fracf; bits_per_bands[i] = L_add( bits_per_bands[i], L_add( L_shl( Compl_GSC_freq_bits[bit_index], Q18 ), bit_fracf ) ); /*Q18*/ move32(); bit_index = add( bit_index, 1 ); } } -#endif + IF( Diff_len == 0 ) { bit_index = add( bit_index_mem, 10 ); @@ -532,7 +508,7 @@ void bands_and_bit_alloc_ivas_fx( bit_index = add( bit_index, 1 ); } } -#if 1 // def ADD_LRTD + IF( bit_fracf < 0 ) { FOR( j = 0; j < nb_tot_bands; j++ ) @@ -542,39 +518,33 @@ void bands_and_bit_alloc_ivas_fx( } } -#endif /*-------------------------------------------------------------------------- * Complete the bit allocation per frequency band for 16kHz high brate mode *--------------------------------------------------------------------------*/ -#if 1 // def ADD_LRTD + test(); IF( EQ_16( L_frame, L_FRAME16k ) && GT_32( core_brate, ACELP_32k ) ) { FOR( j = st_band; j < nb_bands; j++ ) { - // bits_per_bands[j] = bit_new_bands; bits_per_bands[j] = L_shl( bit_new_bands, Q18 ); move32(); } - // bit_fracf = (1.0f / nb_bands) * (bit_tmp); bit_fracf = L_shl( L_mult0( idiv1616( 16384, nb_bands ), bit_tmp ), 4 ); /*Q18*/ - // etmp = 2.0f * bit_fracf / (nb_bands + 1); - etmp = divide3216( L_shr( bit_fracf, Q2 ), add( nb_bands, 1 ) ); // Q15 - // bit_fracf = etmp; - bit_fracf = L_shl( etmp, Q3 ); // Q18 + etmp = divide3216( L_shr( bit_fracf, Q2 ), add( nb_bands, 1 ) ); /* Q15 */ + + bit_fracf = L_shl( etmp, Q3 ); /* Q18 */ + FOR( j = nb_bands - 1; j >= 0; j-- ) { - // bits_per_bands[j] = etmp; - // etmp += bit_fracf; - bits_per_bands[j] = L_add( bits_per_bands[j], L_shl( etmp, Q3 ) ); // Q18 + bits_per_bands[j] = L_add( bits_per_bands[j], L_shl( etmp, Q3 ) ); /* Q18 */ move32(); etmp = extract_l( L_add( etmp, L_shr( bit_fracf, Q3 ) ) ); } } ELSE -#endif { FOR( j = st_band; j < nb_bands; j++ ) { @@ -688,6 +658,7 @@ void bands_and_bit_alloc_ivas_fx( } } } + /*-------------------------------------------------------------------------- * Bit sum verification for GSC inactive at very high rate * The maximum number of bits per band of length 16 is 112 @@ -724,19 +695,20 @@ void bands_and_bit_alloc_ivas_fx( move32(); /* Q18 */ } } + /*-------------------------------------------------------------------------- * second step of bit sum verification, normally sum_bit == *bit *--------------------------------------------------------------------------*/ -#if 1 // def ADD_LRTD + sum_bit = 0; move32(); FOR( i = 0; i < nb_bands; i++ ) { - // bits_per_bands[i] = (float)floor(bits_per_bands[i]); bits_per_bands[i] = L_shl( L_shr( bits_per_bands[i], Q18 ), Q18 ); move32(); sum_bit = L_add( sum_bit, L_shr( bits_per_bands[i], Q18 ) ); /*Q0*/ } + test(); IF( GSC_IVAS_mode != 0 && LT_32( sum_bit, *bit ) ) /* If we need to add bits, we are doing it on the LF */ { @@ -755,23 +727,7 @@ void bands_and_bit_alloc_ivas_fx( w_sum_bit = add( w_sum_bit, out_bits_per_bands[i] ); /* Q3 */ } tmp = shl( *bit, 3 ); -#else - IF( GT_16( tmp, w_sum_bit ) ) - { - i = sub( nb_bands, 1 ); - move16(); - FOR( ; tmp > w_sum_bit; w_sum_bit += ( 1 << 3 ) ) - { - out_bits_per_bands[i] = add( out_bits_per_bands[i], 1 << 3 ); - move16(); - i = sub( i, 1 ); - IF( i == 0 ) - { - i = sub( nb_bands, 1 ); - } - } - } -#endif + /*-------------------------------------------------------------------------- * Recompute the real number/length of frequency bands to encode *--------------------------------------------------------------------------*/ @@ -790,7 +746,6 @@ void bands_and_bit_alloc_ivas_fx( Copy( exc_diff + shl( max_ener_band[j], 4 ), concat_in + shl( j, 4 ), 16 ); } } -#if 1 // def ADD_LRTD } ELSE /* *bit == 0 */ { @@ -800,10 +755,11 @@ void bands_and_bit_alloc_ivas_fx( *pvq_len = 0; move16(); } -#endif + return; } -#if 1 // def ADD_LRTD + + /*-------------------------------------------------------------------* * reajust_bits() * @@ -924,26 +880,28 @@ static Word32 Find_bit_frac_fx( return ( L_out ); } -static Word16 Find_bit_alloc_IVAS_fx( /*o: Number of band to encode */ - const Word32 core_brate, /* i : core bit rate */ - const Word16 GSC_IVAS_mode, /* i : GSC IVAS mode */ - const Word16 Diff_len, /* i : Length of the difference signal (before pure spectral)*/ - const Word16 nb_tot_bands_in, /* i : total number of band */ - Word16 *bit, /* i/o: Number of bit allowed for frequency quantization */ - Word16 *max_ener_band, /* i/o: Energy based sorted order */ - Word16 *ener_vec, /* i/o: Energy per band order */ - Word32 *bits_per_bands /* o : Number of bit allowed per allowed subband Q18 */ + +/* o : Number of band to encode */ +static Word16 Find_bit_alloc_IVAS_fx( + const Word32 core_brate, /* i : core bit rate */ + const Word16 GSC_IVAS_mode, /* i : GSC IVAS mode */ + const Word16 Diff_len, /* i : Length of the difference signal (before pure spectral)*/ + const Word16 nb_tot_bands_in, /* i : total number of band */ + Word16 *bit, /* i/o: Number of bit allowed for frequency quantization */ + Word16 *max_ener_band, /* i/o: Energy based sorted order */ + Word16 *ener_vec, /* i/o: Energy per band order */ + Word32 *bits_per_bands /* o : Number of bit allowed per allowed subband Q18 */ ) { Word32 mp, mb, nb_bands_adj, bit_adj; Word16 nb_pulse_per_band[MBANDS_GN_BITALLOC16k]; - Word32 SWB_bit_budget; // Q0 -> Q18 + Word32 SWB_bit_budget; /* Q0 -> Q18 */ Word16 i, j, nb_bands_max, st_band, nb_tot_bands_loc, etmp; Word32 sum_bit /*Q18*/, bit_fracf /*Q18*/; Word16 d_tmp, e_div, tmp16; Word32 Ltmp, etmp_32fx; - SWB_bit_budget = *bit; // Q0 + SWB_bit_budget = *bit; /* Q0 */ st_band = 5; nb_bands_max = nb_tot_bands_in; @@ -993,12 +951,12 @@ static Word16 Find_bit_alloc_IVAS_fx( /*o: Number IF( EQ_16( GSC_IVAS_mode, 1 ) && LT_32( core_brate, GSC_L_RATE_STG ) ) { /* nb_bands_adj = 0.0125f * SWB_bit_budget - 0.75f;*/ - nb_bands_adj = L_sub( Mpy_32_32( Q31_0_0125, L_shl( SWB_bit_budget, Q18 ) ), Q18_0_75 ); // Q18 + nb_bands_adj = L_sub( Mpy_32_32( Q31_0_0125, L_shl( SWB_bit_budget, Q18 ) ), Q18_0_75 ); /* Q18 */ } ELSE IF( NE_16( GSC_IVAS_mode, 2 ) && GT_32( core_brate, GSC_H_RATE_STG ) ) { /*nb_bands_adj = 0.02f * SWB_bit_budget - 1.2f;*/ - nb_bands_adj = L_sub( Mpy_32_32( Q31_0_02, L_shl( SWB_bit_budget, Q18 ) ), Q18_1_2 ); // Q18 + nb_bands_adj = L_sub( Mpy_32_32( Q31_0_02, L_shl( SWB_bit_budget, Q18 ) ), Q18_1_2 ); /* Q18 */ } /*nb_bands_max = (int16_t)(nb_bands_max * nb_bands_adj + 0.5f);*/ @@ -1131,7 +1089,7 @@ static Word16 Find_bit_alloc_IVAS_fx( /*o: Number move32(); } mb = L_sub( mb, bit_fracf ); - SWB_bit_budget = L_sub( SWB_bit_budget, bits_per_bands[max_ener_band[j]] ); // Q18 + SWB_bit_budget = L_sub( SWB_bit_budget, bits_per_bands[max_ener_band[j]] ); /* Q18 */ } } @@ -1192,17 +1150,23 @@ static Word16 Find_bit_alloc_IVAS_fx( /*o: Number move32(); } } + return nb_tot_bands_loc; } -static Word16 Find_norm_inv_fx( const Word32 ToDivide, Word16 *e_div ) /* Find normalized 1 / ToDivide */ + +/* Find normalized 1 / ToDivide */ +static Word16 Find_norm_inv_fx( + const Word32 ToDivide, + Word16 *e_div ) { Word16 d_tmp, e_tmp; + e_tmp = norm_l( ToDivide ); d_tmp = round_fx( L_shl( ToDivide, e_tmp ) ); d_tmp = div_s( 16384, d_tmp ); /* 1.0 in Q14, dividend is normalize so >= 16384 as required for the division */ *e_div = sub( 14, e_tmp ); move16(); + return d_tmp; } -#endif diff --git a/lib_com/gs_gains.c b/lib_com/gs_gains.c index 9adb448a4b21203625d0bd16617464f47c9096f7..8fa7694755c7c5ac9f912f26abdff9211895ff07 100644 --- a/lib_com/gs_gains.c +++ b/lib_com/gs_gains.c @@ -39,7 +39,6 @@ #include #include "cnst.h" #include "rom_com.h" -#include "prot.h" #include "prot_fx.h" #include "wmc_auto.h" diff --git a/lib_com/gs_gains_fx.c b/lib_com/gs_gains_fx.c index 35236b6032acbd590fb57c68e3063ca671292c21..ecfe9aae0f28d32e24ac362414cc1f52f47b58b4 100644 --- a/lib_com/gs_gains_fx.c +++ b/lib_com/gs_gains_fx.c @@ -1028,7 +1028,7 @@ Word16 gsc_gainQ_fx( /*Q12*/ mean_4g[0] = round_fx( L_tmp ); move16(); idx_g = vquant_fx( mean_4g, Gain_meanNB_fx, mean_4g, Gain_mean_dicNB_fx, 1, 64 ); - push_indice_fx( hBstr, IND_MEAN_GAIN2, idx_g, 6 ); + push_indice( hBstr, IND_MEAN_GAIN2, idx_g, 6 ); FOR( i = 0; i < Mbands_gn; i++ ) { @@ -1040,21 +1040,21 @@ Word16 gsc_gainQ_fx( /*Q12*/ move16(); set16_fx( y_gain_tmp + 10, 0, MBANDS_GN - 10 ); idx_g = vquant_fx( y_gain_tmp, Mean_dic_NB_fx, y_gain_tmp, Gain_dic1_NB_fx, 3, 64 ); - push_indice_fx( hBstr, IND_Y_GAIN_TMP, idx_g, 6 ); + push_indice( hBstr, IND_Y_GAIN_TMP, idx_g, 6 ); IF( LT_32( core_brate, ACELP_9k60 ) ) { idx_g = vquant_fx( y_gain_tmp + 3, Mean_dic_NB_fx + 3, y_gain_tmp + 3, Gain_dic2_NB_fx, 3, 32 ); - push_indice_fx( hBstr, IND_Y_GAIN_TMP, idx_g, 5 ); + push_indice( hBstr, IND_Y_GAIN_TMP, idx_g, 5 ); idx_g = vquant_fx( y_gain_tmp + 6, Mean_dic_NB_fx + 6, y_gain_tmp + 6, Gain_dic3_NB_fx, 4, 16 ); - push_indice_fx( hBstr, IND_Y_GAIN_TMP, idx_g, 4 ); + push_indice( hBstr, IND_Y_GAIN_TMP, idx_g, 4 ); } ELSE { idx_g = vquant_fx( y_gain_tmp + 3, Mean_dic_NB_fx + 3, y_gain_tmp + 3, Gain_dic2_NBHR_fx, 3, 64 ); - push_indice_fx( hBstr, IND_Y_GAIN_TMP, idx_g, 6 ); + push_indice( hBstr, IND_Y_GAIN_TMP, idx_g, 6 ); idx_g = vquant_fx( y_gain_tmp + 6, Mean_dic_NB_fx + 6, y_gain_tmp + 6, Gain_dic3_NBHR_fx, 4, 128 ); - push_indice_fx( hBstr, IND_Y_GAIN_TMP, idx_g, 7 ); + push_indice( hBstr, IND_Y_GAIN_TMP, idx_g, 7 ); } /*add end */ test(); @@ -1122,7 +1122,7 @@ Word16 gsc_gainQ_fx( /*Q12*/ move16(); idx_g = vquant_fx( mean_4g, mean_m_fx, mean_4g, mean_gain_dic_fx, 1, 64 ); - push_indice_fx( hBstr, IND_MEAN_GAIN2, idx_g, 6 ); + push_indice( hBstr, IND_MEAN_GAIN2, idx_g, 6 ); FOR( i = 0; i < Mbands_gn; i++ ) { @@ -1148,11 +1148,11 @@ Word16 gsc_gainQ_fx( /*Q12*/ move16(); idx_g = vquant_fx( y_gain_tmp2, YGain_mean_LR_fx, y_gain_tmp2, YGain_dic1_LR_fx, 3, 32 ); - push_indice_fx( hBstr, IND_Y_GAIN_TMP, idx_g, 5 ); + push_indice( hBstr, IND_Y_GAIN_TMP, idx_g, 5 ); idx_g = vquant_fx( y_gain_tmp2 + 3, YGain_mean_LR_fx + 3, y_gain_tmp2 + 3, YGain_dic2_LR_fx, 4, 32 ); - push_indice_fx( hBstr, IND_Y_GAIN_TMP, idx_g, 5 ); + push_indice( hBstr, IND_Y_GAIN_TMP, idx_g, 5 ); idx_g = vquant_fx( y_gain_tmp2 + 7, YGain_mean_LR_fx + 7, y_gain_tmp2 + 7, YGain_dic3_LR_fx, 5, 32 ); - push_indice_fx( hBstr, IND_Y_GAIN_TMP, idx_g, 5 ); + push_indice( hBstr, IND_Y_GAIN_TMP, idx_g, 5 ); set16_fx( y_gain_tmp2 + 12, 0, MBANDS_GN - 12 ); /* Update to quantized vector */ @@ -1185,13 +1185,13 @@ Word16 gsc_gainQ_fx( /*Q12*/ ELSE { idx_g = vquant_fx( y_gain_tmp, YG_mean16_fx, y_gain_tmp, YG_dicMR_1_fx, 4, 64 ); - push_indice_fx( hBstr, IND_Y_GAIN_TMP, idx_g, 6 ); + push_indice( hBstr, IND_Y_GAIN_TMP, idx_g, 6 ); idx_g = vquant_fx( y_gain_tmp + 4, YG_mean16_fx + 4, y_gain_tmp + 4, YG_dicMR_2_fx, 4, 32 ); - push_indice_fx( hBstr, IND_Y_GAIN_TMP, idx_g, 5 ); + push_indice( hBstr, IND_Y_GAIN_TMP, idx_g, 5 ); idx_g = vquant_fx( y_gain_tmp + 8, YG_mean16_fx + 8, y_gain_tmp + 8, YG_dicMR_3_fx, 4, 32 ); - push_indice_fx( hBstr, IND_Y_GAIN_TMP, idx_g, 5 ); + push_indice( hBstr, IND_Y_GAIN_TMP, idx_g, 5 ); idx_g = vquant_fx( y_gain_tmp + 12, YG_mean16_fx + 12, y_gain_tmp + 12, YG_dicMR_4_fx, 4, 16 ); - push_indice_fx( hBstr, IND_Y_GAIN_TMP, idx_g, 4 ); + push_indice( hBstr, IND_Y_GAIN_TMP, idx_g, 4 ); } } diff --git a/lib_com/gs_inact_switching_fx.c b/lib_com/gs_inact_switching_fx.c index c0feb91f53993f4027fe1d1f6818023af94b5e13..54fef9e37ca4a881fd62c05b38e13e81d641476f 100644 --- a/lib_com/gs_inact_switching_fx.c +++ b/lib_com/gs_inact_switching_fx.c @@ -158,23 +158,18 @@ void Inac_swtch_ematch_fx( void Inac_switch_ematch_ivas_fx( - Word16 exc2[], /* i/o: CELP/GSC excitation buffer Q_exc*/ - Word16 dct_exc_tmp[], /* i : GSC excitation in DCT domain */ - Word16 lt_ener_per_band[], /* i/o: Long term energy per band Q12 */ - const Word16 coder_type, /* i : Coding mode */ -#ifdef NONBE_FIX_GSC_BSTR + Word16 exc2[], /* i/o: CELP/GSC excitation buffer Q_exc*/ + Word16 dct_exc_tmp[], /* i : GSC excitation in DCT domain */ + Word16 lt_ener_per_band[], /* i/o: Long term energy per band Q12 */ + const Word16 coder_type, /* i : Coding mode */ const Word16 inactive_coder_type_flag, /* i : AVQ (0) or GSC (1) IC flag */ -#endif - const Word16 L_frame, /* i : Frame lenght */ -#ifndef NONBE_FIX_GSC_BSTR - const Word32 total_brate, /* i : total bit rate */ -#endif - const Word16 Q_exc, /* i : input and output format of exc2 */ - const Word16 bfi, /* i : frame lost indicator */ - const Word16 last_core, /* i : Last core used */ - const Word16 last_codec_mode, /* i : Last codec mode */ - const Word16 tdm_low_rate_mode, /* i : secondary channel low rate mode flag*/ - const Word16 element_mode /* i : element mode */ + const Word16 L_frame, /* i : Frame lenght */ + const Word16 Q_exc, /* i : input and output format of exc2 */ + const Word16 bfi, /* i : frame lost indicator */ + const Word16 last_core, /* i : Last core used */ + const Word16 last_codec_mode, /* i : Last codec mode */ + const Word16 tdm_low_rate_mode, /* i : secondary channel low rate mode flag*/ + const Word16 element_mode /* i : element mode */ ) { Word16 Ener_per_bd[MBANDS_GN16k]; @@ -224,11 +219,7 @@ void Inac_switch_ematch_ivas_fx( move16(); } } -#ifdef NONBE_FIX_GSC_BSTR ELSE IF( ( coder_type == INACTIVE ) && inactive_coder_type_flag ) -#else - ELSE IF( ( coder_type == INACTIVE ) && LE_32( total_brate, MAX_GSC_INACTIVE_BRATE ) ) -#endif { /* Find spectrum and energy per band for inactive frames */ edct_16fx( exc2, dct_exc_tmp, L_frame, 5, element_mode ); diff --git a/lib_com/gs_noisefill_fx.c b/lib_com/gs_noisefill_fx.c index d2a576dbe94521f4280f2ad50e0b3b6fbdf77a37..2e00e4641e177d2e17d2bbecbe6c93f93c522e1a 100644 --- a/lib_com/gs_noisefill_fx.c +++ b/lib_com/gs_noisefill_fx.c @@ -793,7 +793,6 @@ void highband_exc_dct_in_fx( { IF( exc_diffQ[i] == 0 ) { - // PMT("code below to be validated for IVAS use") /* exc_diffQ[i] += 2.0f * noisepb[0] * ((float)own_random(seed_tcx) / PCM16_TO_FLT_FAC);*/ tmp = mult( shl( noisepb[0], 1 ), Random( seed_tcx ) ); /*Q15 */ tmp = shr( tmp, sub( 15, Qexc_diffQ ) ); /*qNoise_fac */ @@ -876,66 +875,7 @@ void highband_exc_dct_in_fx( /*--------------------------------------------------------------------------------------* * Apply decoded gain onto the difference signal *--------------------------------------------------------------------------------------*/ -#ifdef ADD_LRTD - if ( GSC_IVAS_mode >= 1 ) - { - float scale_factLF = 0.9f; - float scale_factHF = 0.9f; - - if ( GSC_IVAS_mode == 1 && GSC_noisy_speech == 0 ) - { - scale_factHF = 0.8f; - } - else if ( GSC_IVAS_mode == 2 || GSC_noisy_speech == 1 ) - { - scale_factHF = 0.71f; - } - else if ( GSC_IVAS_mode == 3 ) - { - scale_factHF = 0.9f; - } - for ( i = 0; i < pit_band_idx * 16; i++ ) - { - exc_diffQ[i] *= scale_factLF; - } - for ( ; i < L_frame; i++ ) - { - exc_diffQ[i] *= scale_factHF; - } - } - else if ( GSC_noisy_speech ) - { - float scale_fact = 0.9f; - - if ( element_mode == IVAS_CPE_TD ) - { - if ( coder_type == INACTIVE ) - { - scale_fact = 1.0f; - } - else - { - scale_fact = 0.95f; - } - } - else if ( element_mode > IVAS_SCE ) - { - scale_fact = 0.71f; - } - for ( i = 0; i < L_frame; i++ ) - { - exc_diffQ[i] *= scale_fact; - } - } - if ( GSC_noisy_speech && element_mode > IVAS_SCE && core_brate < ACELP_7k20 ) - { - for ( i = 80; i < L_frame; i++ ) - { - exc_diffQ[i] *= ( +0.0024f * (float) i + 1.192f ); - } - } -#else IF( GSC_noisy_speech ) { FOR( i = 0; i < L_frame; i++ ) @@ -944,7 +884,7 @@ void highband_exc_dct_in_fx( move16(); } } -#endif + Comp_and_apply_gain_fx( exc_diffQ, Ener_per_bd_iQ, Ener_per_bd_yQ, last_bin, 0, Qexc_diffQ, Q_exc ); IF( exc_wo_nf != NULL ) @@ -1232,7 +1172,6 @@ void highband_exc_dct_in_ivas_fx( { IF( exc_diffQ[i] == 0 ) { - // PMT("code below to be validated for IVAS use") /* exc_diffQ[i] += 2.0f * noisepb[0] * ((float)own_random(seed_tcx) / PCM16_TO_FLT_FAC);*/ tmp = mult( shl( noisepb[0], 1 ), Random( seed_tcx ) ); /*Q15 */ tmp = shr( tmp, sub( 15, Qexc_diffQ ) ); /*qNoise_fac */ @@ -1313,105 +1252,86 @@ void highband_exc_dct_in_ivas_fx( } } } + /*--------------------------------------------------------------------------------------* * Apply decoded gain onto the difference signal *--------------------------------------------------------------------------------------*/ -#if 1 // def ADD_LRTD + IF( GSC_IVAS_mode >= 1 ) { - // float scale_factLF = 0.9f; - Word16 scale_factLF = 29491; + Word16 scale_factLF = 29491; /* 0.9f */ move16(); - // float scale_factHF = 0.9f; - Word16 scale_factHF = 29491; + Word16 scale_factHF = 29491; /* 0.9f */ move16(); test(); test(); IF( EQ_16( GSC_IVAS_mode, 1 ) && GSC_noisy_speech == 0 ) { - // scale_factHF = 0.8f; scale_factHF = 26214; move16(); } ELSE IF( EQ_16( GSC_IVAS_mode, 2 ) || EQ_16( GSC_noisy_speech, 1 ) ) { - // scale_factHF = 0.71f; - scale_factHF = 23265; + scale_factHF = 23265; /* 0.71f */ move16(); } ELSE IF( EQ_16( GSC_IVAS_mode, 3 ) ) { - // scale_factHF = 0.9f; - scale_factHF = 29491; + scale_factHF = 29491; /* 0.9f */ move16(); } FOR( i = 0; i < pit_band_idx * 16; i++ ) { - // exc_diffQ[i] *= scale_factLF; exc_diffQ[i] = mult_r( exc_diffQ[i], scale_factLF ); } FOR( ; i < L_frame; i++ ) { - // exc_diffQ[i] *= scale_factHF; exc_diffQ[i] = mult_r( exc_diffQ[i], scale_factHF ); move16(); } } ELSE IF( GSC_noisy_speech ) { - // float scale_fact = 0.9f; - Word16 scale_fact = 29491; + Word16 scale_fact = 29491; /* 0.9f */ move16(); IF( EQ_16( element_mode, IVAS_CPE_TD ) ) { IF( coder_type == INACTIVE ) { - // scale_fact = 1.0f; - scale_fact = 32767; + scale_fact = 32767; /* 1.0f */ move16(); } ELSE { - // scale_fact = 0.95f; - scale_fact = 31129; + scale_fact = 31129; /* 0.95f */ move16(); } } ELSE IF( GT_16( element_mode, IVAS_SCE ) ) { - // scale_fact = 0.71f; - scale_fact = 23265; + scale_fact = 23265; /* 0.71f */ move16(); } FOR( i = 0; i < L_frame; i++ ) { - // exc_diffQ[i] *= scale_fact; exc_diffQ[i] = mult_r( exc_diffQ[i], scale_fact ); move16(); } } + IF( GSC_noisy_speech && GT_16( element_mode, IVAS_SCE ) && LT_32( core_brate, ACELP_7k20 ) ) { FOR( i = 80; i < L_frame; i++ ) { - // exc_diffQ[i] *= (+0.0024f * (float)i + 1.192f); + /* exc_diffQ[i] *= (+0.0024f * (float)i + 1.192f); */ exc_diffQ[i] = mult_r( shl( exc_diffQ[i], 1 ) /*Q16*/, (Word16) L_shr( L_add( 629 * i, 312475 ) /*Q18*/, Q4 ) /*Q14*/ ); move16(); } } -#else - IF( GSC_noisy_speech ) - { - FOR( i = 0; i < L_frame; i++ ) - { - exc_diffQ[i] = mult_r( exc_diffQ[i], 29491 ); - move16(); - } - } -#endif + Word16 Q_tmp = *Q_exc; move16(); Word16 Q_old = *Q_exc; diff --git a/lib_com/gs_preech.c b/lib_com/gs_preech.c deleted file mode 100644 index 58b49172d76f012203cbab808f6f64fb103d74d5..0000000000000000000000000000000000000000 --- a/lib_com/gs_preech.c +++ /dev/null @@ -1,381 +0,0 @@ -/****************************************************************************************************** - - (C) 2022-2025 IVAS codec Public Collaboration with portions copyright Dolby International AB, Ericsson AB, - Fraunhofer-Gesellschaft zur Foerderung der angewandten Forschung e.V., Huawei Technologies Co. LTD., - Koninklijke Philips N.V., Nippon Telegraph and Telephone Corporation, Nokia Technologies Oy, Orange, - Panasonic Holdings Corporation, Qualcomm Technologies, Inc., VoiceAge Corporation, and other - contributors to this repository. All Rights Reserved. - - This software is protected by copyright law and by international treaties. - The IVAS codec Public Collaboration consisting of Dolby International AB, Ericsson AB, - Fraunhofer-Gesellschaft zur Foerderung der angewandten Forschung e.V., Huawei Technologies Co. LTD., - Koninklijke Philips N.V., Nippon Telegraph and Telephone Corporation, Nokia Technologies Oy, Orange, - Panasonic Holdings Corporation, Qualcomm Technologies, Inc., VoiceAge Corporation, and other - contributors to this repository retain full ownership rights in their respective contributions in - the software. This notice grants no license of any kind, including but not limited to patent - license, nor is any license granted by implication, estoppel or otherwise. - - Contributors are required to enter into the IVAS codec Public Collaboration agreement before making - contributions. - - This software is provided "AS IS", without any express or implied warranties. The software is in the - development stage. It is intended exclusively for experts who have experience with such software and - solely for the purpose of inspection. All implied warranties of non-infringement, merchantability - and fitness for a particular purpose are hereby disclaimed and excluded. - - Any dispute, controversy or claim arising under or in relation to providing this software shall be - submitted to and settled by the final, binding jurisdiction of the courts of Munich, Germany in - accordance with the laws of the Federal Republic of Germany excluding its conflict of law rules and - the United Nations Convention on Contracts on the International Sales of Goods. - -*******************************************************************************************************/ - -/*==================================================================================== - EVS Codec 3GPP TS26.443 Nov 04, 2021. Version 12.14.0 / 13.10.0 / 14.6.0 / 15.4.0 / 16.3.0 - ====================================================================================*/ - -#include -#include "options.h" -#include -#include "cnst.h" -#include "rom_com.h" -#include "prot.h" -#include "wmc_auto.h" -#include "prot_fx.h" - -/*-------------------------------------------------------------------* - * Local constants - *-------------------------------------------------------------------*/ - -#define ATT_LENGHT16k 80 -#ifndef IVAS_FLOAT_FIXED -#define INV_L_FRAME16k ( 1.0f / L_FRAME16k ) -#endif - -#define ATT_LENGHT 64 -#define ATT_SEG_LEN ( L_FRAME / ATT_LENGHT ) - -#ifndef IVAS_FLOAT_FIXED -#define INV_ATT_SEG_LEN ( 1.0f / ATT_SEG_LEN ) -#define INV_L_FRAME ( 1.0f / L_FRAME ) -#endif - -#ifndef IVAS_FLOAT_FIXED -/*-------------------------------------------------------------------* - * pre_echo_att() - * - * Attenuation of the pre-echo when encoder specifies an attack - *-------------------------------------------------------------------*/ - -void pre_echo_att( - float *Last_frame_ener, /* i/o: Energy of the last frame */ - float *exc, /* i/o: Excitation of the current frame */ - const int16_t attack_flag, /* i : attack flag (GSC or TC) */ - const int16_t last_coder_type, /* i : Last coder type */ - const int16_t L_frame /* i : frame length */ -) -{ - float etmp; - float etmp1; - float finc[ATT_LENGHT16k], ratio_float, inv_l_frame; - int16_t att_len; - int16_t attack_pos, i; - - if ( attack_flag > 0 && last_coder_type == AUDIO ) - { - /*-------------------------------------------------------------------------* - * Find where the onset (attack) occurs by computing the energy per section - * The inverse weighting aims to favor the first maxima in case of - * gradual onset - *-------------------------------------------------------------------------*/ - - att_len = ATT_LENGHT; - if ( L_frame == L_FRAME16k ) - { - att_len = ATT_LENGHT16k; - } - for ( i = 0; i < att_len; i++ ) - { - finc[i] = sum2_f( exc + i * ATT_SEG_LEN, ATT_SEG_LEN ) * ( (float) ( att_len - i ) / ( att_len ) ); - } - etmp = -1; - attack_pos = maximum( finc, att_len, &etmp ); - - /* Scaled the maximum energy and allowed 6 dB increase*/ - etmp *= INV_ATT_SEG_LEN; - etmp1 = etmp; - *Last_frame_ener *= 4.0f; - - /* If the maximum normalized energy > last frame energy + 6dB */ - if ( etmp > *Last_frame_ener && attack_pos > 0 ) - { - /* Find the average energy before the attack */ - etmp = sum_f( finc, attack_pos ) + 0.01f; - etmp /= ( attack_pos * ATT_SEG_LEN ); - - /* Find the correction factor and apply it before the attack */ - ratio_float = (float) sqrt( *Last_frame_ener / etmp ); - - - /* Pre-echo atttenuation should never increase the energy */ - ratio_float = min( ratio_float, 1.0f ); - for ( i = 0; i < attack_pos * ATT_SEG_LEN; i++ ) - { - exc[i] *= ratio_float; - } - } - *Last_frame_ener = etmp1; - } - else - { - /*-------------------------------------------------------* - * In normal cases, just compute the energy of the frame - *-------------------------------------------------------*/ - - etmp = sum2_f( exc, L_frame ) + 0.01f; - inv_l_frame = INV_L_FRAME; - if ( L_frame == L_FRAME16k ) - { - inv_l_frame = INV_L_FRAME16k; - } - etmp *= inv_l_frame; - *Last_frame_ener = etmp; - } - - return; -} -#endif - -void pre_echo_att_fx( - Word32 *Last_frame_ener_fx, /* i/o: Energy of the last frame 2*Q_new+1*/ - Word16 *exc_fx, /* i/o: Excitation of the current frame Q_new*/ - const Word16 gsc_attack_flag_fx, /* i : flag signalling attack encoded by AC mode (GSC) Q0*/ - const Word16 Q_new, - const Word16 last_coder_type, /* i : Last coding mode Q0*/ - const Word16 L_frame /* i : Frame length Q0*/ -) -{ - Word32 etmp_fx; - Word32 finc_fx[ATT_LENGHT16k] = { 0 }; - move16(); - Word16 ratio_fx; - Word16 attack_pos_fx, i; - Word32 L_tmp, L_tmp1; - Word16 tmp, n1, n2, exp, frac1, frac2; - Word32 etmp1_fx; - Word16 att_len; - - test(); - IF( gsc_attack_flag_fx > 0 && EQ_16( last_coder_type, AUDIO ) ) /*gsc_attack_flag_fx does not get set for all the test cases */ - { - /*-------------------------------------------------------------------------* - * Find where the onset (attack) occurs by computing the energy per section - * The inverse weighting aims to favor the first maxima in case of - * gradual onset - *-------------------------------------------------------------------------*/ - att_len = ATT_LENGHT; /* Q0 */ - move16(); - if ( EQ_16( L_frame, L_FRAME16k ) ) - { - att_len = ATT_LENGHT16k; /* Q0 */ - move16(); - } - FOR( i = 0; i < att_len; i++ ) - { - L_tmp = sum2_fx( &exc_fx[i * 4], ATT_SEG_LEN ); /*2*Q_new+1, //ATT_SEG_LEN=(L_FRAME/ATT_LENGHT)=4(=shl(x,2))*/ - tmp = div_s( sub( att_len, i ), att_len ); /*Q15 */ - L_tmp = Mult_32_16( L_tmp, tmp ); /*2*Q_new+1 */ - finc_fx[i] = L_tmp; - move32(); /*2*Q_new+1 */ - } - - attack_pos_fx = maximum_32_fx( finc_fx, att_len, &etmp_fx ); - - /* Scaled the maximum energy and allowed 6 dB increase*/ - etmp_fx = L_shr( etmp_fx, add( 2 + 1 - 4, shl( Q_new, 1 ) ) ); /*2*Q_new+1 //INV_ATT_SEG_LEN=1/4(=shr(x,2)) -> Q4 */ - etmp1_fx = etmp_fx; - move32(); - *Last_frame_ener_fx = L_shl_sat( *Last_frame_ener_fx, 2 ); - move32(); /*2*Q_new+1 */ - - /* If the maximum normalized energy > last frame energy + 6dB */ - test(); - IF( GT_32( etmp_fx, *Last_frame_ener_fx ) && attack_pos_fx > 0 ) - { - /* Find the average energy before the attack */ - L_tmp = sum32_fx( finc_fx, attack_pos_fx ); /*Q1 */ - L_tmp1 = L_shr( L_mult( attack_pos_fx, attack_pos_fx ), 1 ); /*Q0 */ - tmp = round_fx( Isqrt( L_tmp1 ) ); /*Q15 */ - L_tmp = L_shr( L_tmp, 2 ); /*Q1 ; ATT_SEG_LEN=4 */ - etmp_fx = Mult_32_16( L_tmp, tmp ); /*Q1 */ - - etmp_fx = L_shr( etmp_fx, add( 1 - 4, shl( Q_new, 1 ) ) ); /* makes etmp i nQ4 as *Last_frame_ener_fx */ - /* Find the correction factor and apply it before the attack */ - /* ratio = (float)sqrt(*Last_frame_ener/etmp);*/ - /* = isqrt(etmp/(*Last_frame_ener)) */ - etmp_fx = L_max( etmp_fx, 1 ); - *Last_frame_ener_fx = L_max( *Last_frame_ener_fx, 1 ); - move32(); - n1 = norm_l( etmp_fx ); - n2 = norm_l( *Last_frame_ener_fx ); - - n1 = sub( n1, 1 ); - exp = sub( n1, n2 ); - - frac1 = round_fx( L_shl( etmp_fx, n1 ) ); - frac2 = round_fx_sat( L_shl_sat( *Last_frame_ener_fx, n2 ) ); - L_tmp = L_mult0( 128, div_s( frac1, frac2 ) ); /* s = gain_out / gain_in */ - L_tmp = L_shr( L_tmp, exp ); /* add exponent */ - - L_tmp = Isqrt( L_tmp ); - ratio_fx = round_fx( L_shl( L_tmp, 9 ) ); /* Q13 */ - - /* Pre-echo atttenuation should never increase the energy */ - ratio_fx = s_min( ratio_fx, 8192 /* 1 in Q13 */ ); /* Q13 */ - FOR( i = 0; i < attack_pos_fx * ATT_SEG_LEN; i++ ) - { - /*exc_fx[i] *= ratio_fx;*/ - exc_fx[i] = round_fx( L_shl( L_mac( -8192, exc_fx[i], ratio_fx ), 2 ) ); - move16(); - } - } - *Last_frame_ener_fx = etmp1_fx; /*2*Q_new+1*/ - move32(); - } - ELSE - { - /*-------------------------------------------------------* - * In normal cases, just compute the energy of the frame - *-------------------------------------------------------*/ - - etmp_fx = sum2_fx( exc_fx, L_frame ); /*2*Q_new+1 */ -#ifdef ADD_LRTD - PMTE() - etmp_fx = L_shr( etmp_fx, add( 8 + 1 - 4, shl( Q_new, 1 ) ) ); /*2*Q_new+1 //INV_L_FRAME = 1/256 -> Q4*/ -#else - etmp_fx = L_shr( etmp_fx, add( 8 + 1 - 4, shl( Q_new, 1 ) ) ); /*2*Q_new+1 //INV_L_FRAME = 1/256 -> Q4*/ -#endif - *Last_frame_ener_fx = etmp_fx; - move32(); /*2*Q_new+1*/ - } - - return; -} - - -void pre_echo_att_ivas_fx( - Word32 *Last_frame_ener_fx, /* i/o: Energy of the last frame 2*Q_new+1*/ - Word16 *exc_fx, /* i/o: Excitation of the current frame Q_new*/ - const Word16 gsc_attack_flag_fx, /* i : flag signalling attack encoded by AC mode (GSC) Q0*/ - const Word16 Q_new, - const Word16 last_coder_type, /* i : Last coding mode Q0*/ - const Word16 L_frame /* i : Frame length Q0*/ -) -{ - Word32 etmp_fx; - Word32 finc_fx[ATT_LENGHT16k] = { 0 }; - move16(); - Word16 ratio_fx; - Word16 attack_pos_fx, i; - Word32 L_tmp, L_tmp1; - Word16 tmp, n1, n2, exp, frac1, frac2; - Word32 etmp1_fx; - Word16 att_len; - - test(); - IF( gsc_attack_flag_fx > 0 && EQ_16( last_coder_type, AUDIO ) ) /*gsc_attack_flag_fx does not get set for all the test cases */ - { - /*-------------------------------------------------------------------------* - * Find where the onset (attack) occurs by computing the energy per section - * The inverse weighting aims to favor the first maxima in case of - * gradual onset - *-------------------------------------------------------------------------*/ - att_len = ATT_LENGHT; /* Q0 */ - move16(); - if ( EQ_16( L_frame, L_FRAME16k ) ) - { - att_len = ATT_LENGHT16k; /* Q0 */ - move16(); - } - FOR( i = 0; i < att_len; i++ ) - { - L_tmp = sum2_fx( &exc_fx[i * 4], ATT_SEG_LEN ); /*2*Q_new+1, //ATT_SEG_LEN=(L_FRAME/ATT_LENGHT)=4(=shl(x,2))*/ - tmp = div_s( sub( att_len, i ), att_len ); /*Q15 */ - L_tmp = Mult_32_16( L_tmp, tmp ); /*2*Q_new+1 */ - finc_fx[i] = L_tmp; - move32(); /*2*Q_new+1 */ - } - - attack_pos_fx = maximum_32_fx( finc_fx, att_len, &etmp_fx ); - - /* Scaled the maximum energy and allowed 6 dB increase*/ - etmp_fx = L_shr( etmp_fx, add( 2 + 1 - 4, shl( Q_new, 1 ) ) ); /*2*Q_new+1 //INV_ATT_SEG_LEN=1/4(=shr(x,2)) -> Q4 */ - etmp1_fx = etmp_fx; - move32(); - *Last_frame_ener_fx = L_shl_sat( *Last_frame_ener_fx, 2 ); - move32(); /*2*Q_new+1 */ - - /* If the maximum normalized energy > last frame energy + 6dB */ - test(); - IF( GT_32( etmp_fx, *Last_frame_ener_fx ) && attack_pos_fx > 0 ) - { - /* Find the average energy before the attack */ - L_tmp = sum32_fx( finc_fx, attack_pos_fx ); /*Q1 */ - L_tmp1 = L_shr( L_mult( attack_pos_fx, attack_pos_fx ), 1 ); /*Q0 */ - tmp = round_fx( Isqrt( L_tmp1 ) ); /*Q15 */ - L_tmp = L_shr( L_tmp, 2 ); /*Q1 ; ATT_SEG_LEN=4 */ - etmp_fx = Mult_32_16( L_tmp, tmp ); /*Q1 */ - - etmp_fx = L_shr( etmp_fx, add( 1 - 4, shl( Q_new, 1 ) ) ); /* makes etmp i nQ4 as *Last_frame_ener_fx */ - /* Find the correction factor and apply it before the attack */ - /* ratio = (float)sqrt(*Last_frame_ener/etmp);*/ - /* = isqrt(etmp/(*Last_frame_ener)) */ - etmp_fx = L_max( etmp_fx, 1 ); - *Last_frame_ener_fx = L_max( *Last_frame_ener_fx, 1 ); - move32(); - n1 = norm_l( etmp_fx ); - n2 = norm_l( *Last_frame_ener_fx ); - - n1 = sub( n1, 1 ); - exp = sub( n1, n2 ); - - frac1 = round_fx( L_shl( etmp_fx, n1 ) ); - frac2 = round_fx_sat( L_shl_sat( *Last_frame_ener_fx, n2 ) ); - L_tmp = L_mult0( 128, div_s( frac1, frac2 ) ); /* s = gain_out / gain_in */ - L_tmp = L_shr( L_tmp, exp ); /* add exponent */ - - L_tmp = Isqrt( L_tmp ); - ratio_fx = round_fx( L_shl( L_tmp, 9 ) ); - - /* Pre-echo atttenuation should never increase the energy */ - ratio_fx = s_min( ratio_fx, 8192 /* 1 in Q13 */ ); /* Q13 */ - FOR( i = 0; i < attack_pos_fx * ATT_SEG_LEN; i++ ) - { - /*exc_fx[i] *= ratio_fx;*/ - exc_fx[i] = round_fx( L_shl( L_mac( -8192, exc_fx[i], ratio_fx ), 2 ) ); - move16(); - } - } - *Last_frame_ener_fx = etmp1_fx; /* 2 * Q_new + 1 */ - move32(); - } - ELSE - { - /*-------------------------------------------------------* - * In normal cases, just compute the energy of the frame - *-------------------------------------------------------*/ - Word16 exp_etmp = sub( 15, Q_new ); - etmp_fx = sum2_16_exp_fx( exc_fx, L_frame, &exp_etmp, 7 ); /* Q = 31-exp_etmp */ - - etmp_fx = L_shr( etmp_fx, 8 ); /*31-exp_etmp//INV_L_FRAME = 1/256*/ - - IF( EQ_16( L_frame, L_FRAME16k ) ) - { - etmp_fx = Mpy_32_16_1( etmp_fx, 26214 /* 0.8 in Q15 */ ); /*31 - exp_etmp*/ - } - *Last_frame_ener_fx = L_shl( etmp_fx, sub( shl( Q_new, 1 ), sub( 30 /*31-1*/, exp_etmp ) ) ); /*2*Q_new+1*/ - move32(); /*2*Q_new+1*/ - } - - return; -} diff --git a/lib_com/gs_preech_fx.c b/lib_com/gs_preech_fx.c index 9d905bcf290d87170d612499c3fa426e167d7a99..3b3eaa7776b9ff3c7403e4cb7f30decf8bf77a2b 100644 --- a/lib_com/gs_preech_fx.c +++ b/lib_com/gs_preech_fx.c @@ -39,9 +39,8 @@ #include #include "cnst.h" #include "rom_com.h" -#include "prot.h" -#include "wmc_auto.h" #include "prot_fx.h" +#include "wmc_auto.h" /*-------------------------------------------------------------------* * Local constants @@ -154,13 +153,8 @@ void pre_echo_att_fx( * In normal cases, just compute the energy of the frame *-------------------------------------------------------*/ - etmp_fx = sum2_fx( exc_fx, L_frame ); /*2*Q_new+1 */ -#ifdef ADD_LRTD - PMTE() - etmp_fx = L_shr( etmp_fx, add( 8 + 1 - 4, shl( Q_new, 1 ) ) ); /*2*Q_new+1 //INV_L_FRAME = 1/256 -> Q4*/ -#else + etmp_fx = sum2_fx( exc_fx, L_frame ); /*2*Q_new+1 */ etmp_fx = L_shr( etmp_fx, add( 8 + 1 - 4, shl( Q_new, 1 ) ) ); /*2*Q_new+1 //INV_L_FRAME = 1/256 -> Q4*/ -#endif *Last_frame_ener_fx = etmp_fx; move32(); /*2*Q_new+1*/ } diff --git a/lib_com/hp50.c b/lib_com/hp50.c deleted file mode 100644 index 6920063d42ab74e6fa769c49dbc4ea397580ba2d..0000000000000000000000000000000000000000 --- a/lib_com/hp50.c +++ /dev/null @@ -1,728 +0,0 @@ -/****************************************************************************************************** - - (C) 2022-2025 IVAS codec Public Collaboration with portions copyright Dolby International AB, Ericsson AB, - Fraunhofer-Gesellschaft zur Foerderung der angewandten Forschung e.V., Huawei Technologies Co. LTD., - Koninklijke Philips N.V., Nippon Telegraph and Telephone Corporation, Nokia Technologies Oy, Orange, - Panasonic Holdings Corporation, Qualcomm Technologies, Inc., VoiceAge Corporation, and other - contributors to this repository. All Rights Reserved. - - This software is protected by copyright law and by international treaties. - The IVAS codec Public Collaboration consisting of Dolby International AB, Ericsson AB, - Fraunhofer-Gesellschaft zur Foerderung der angewandten Forschung e.V., Huawei Technologies Co. LTD., - Koninklijke Philips N.V., Nippon Telegraph and Telephone Corporation, Nokia Technologies Oy, Orange, - Panasonic Holdings Corporation, Qualcomm Technologies, Inc., VoiceAge Corporation, and other - contributors to this repository retain full ownership rights in their respective contributions in - the software. This notice grants no license of any kind, including but not limited to patent - license, nor is any license granted by implication, estoppel or otherwise. - - Contributors are required to enter into the IVAS codec Public Collaboration agreement before making - contributions. - - This software is provided "AS IS", without any express or implied warranties. The software is in the - development stage. It is intended exclusively for experts who have experience with such software and - solely for the purpose of inspection. All implied warranties of non-infringement, merchantability - and fitness for a particular purpose are hereby disclaimed and excluded. - - Any dispute, controversy or claim arising under or in relation to providing this software shall be - submitted to and settled by the final, binding jurisdiction of the courts of Munich, Germany in - accordance with the laws of the Federal Republic of Germany excluding its conflict of law rules and - the United Nations Convention on Contracts on the International Sales of Goods. - -*******************************************************************************************************/ - -/*==================================================================================== - EVS Codec 3GPP TS26.443 Nov 04, 2021. Version 12.14.0 / 13.10.0 / 14.6.0 / 15.4.0 / 16.3.0 - ====================================================================================*/ - -#include -#include -#include "options.h" -#include "prot.h" -#include "wmc_auto.h" -#include "prot_fx.h" - -/* - * hp20 - * - * Function: - * 2nd order high pass filter with nominal cut off frequency at 20 Hz. - * - * Returns: - * void - */ - -#ifndef IVAS_FLOAT_FIXED -void hp20_flt( - Float32 signal[], - const Word16 lg, - Float32 mem[], - const Word32 Fs ) -{ - Word16 i; - Float32 x0, x1, x2, y0, y1, y2; - Float32 a1, a2, b1, b2; - - y1 = mem[0]; - y2 = mem[1]; - x0 = mem[2]; - x1 = mem[3]; - - if ( Fs == 8000 ) - { - /* hp filter 20Hz at 3dB for 8000KHz input sampling rate - [b,a] = butter(2, 20.0/4000.0, 'high'); - b = [0.988954248067140 -1.977908496134280 0.988954248067140] - a =[1.000000000000000 -1.977786483776764 0.978030508491796]*/ - a1 = 1.977786483776764f; - a2 = -0.978030508491796f; - b1 = -1.977908496134280f; - b2 = 0.988954248067140f; - } - else if ( Fs == 16000 ) - { - /* hp filter 20Hz at 3dB for 16000KHz sampling rate - [b,a] = butter(2, 20.0/8000.0, 'high'); - b =[ 0.994461788958195 -1.988923577916390 0.994461788958195] - a =[1.000000000000000 -1.988892905899653 0.988954249933127] */ - a1 = 1.988892905899653f; - a2 = -0.988954249933127f; - b1 = -1.988923577916390f; - b2 = 0.994461788958195f; - } - else if ( Fs == 32000 ) - { - /* hp filter 20Hz at 3dB for 32000KHz sampling rate - [b,a] = butter(2, 20.0/16000.0, 'high'); - b =[0.997227049904470 -1.994454099808940 0.997227049904470] - a =[1.000000000000000 -1.994446410541927 0.994461789075954]*/ - a1 = 1.994446410541927f; - a2 = -0.994461789075954f; - b1 = -1.994454099808940f; - b2 = 0.997227049904470f; - } - else - { - /* hp filter 20Hz at 3dB for 48000KHz sampling rate - [b,a] = butter(2, 20.0/24000.0, 'high'); - b =[ 0.998150511190452 -1.996301022380904 0.998150511190452] - a =[1.000000000000000 -1.996297601769122 0.996304442992686]*/ - a1 = 1.996297601769122f; - a2 = -0.996304442992686f; - b1 = -1.996301022380904f; - b2 = 0.998150511190452f; - } - - for ( i = 0; i < lg; i++ ) - { - x2 = x1; - x1 = x0; - x0 = signal[i]; - y0 = ( y1 * a1 ) + ( y2 * a2 ) + ( x0 * b2 ) + ( x1 * b1 ) + ( x2 * b2 ); - signal[i] = y0; - y2 = y1; - y1 = y0; - } - - mem[0] = ( ( y1 > 1e-10 ) | ( y1 < -1e-10 ) ) ? y1 : 0; - mem[1] = ( ( y2 > 1e-10 ) | ( y2 < -1e-10 ) ) ? y2 : 0; - mem[2] = ( ( x0 > 1e-10 ) | ( x0 < -1e-10 ) ) ? x0 : 0; - mem[3] = ( ( x1 > 1e-10 ) | ( x1 < -1e-10 ) ) ? x1 : 0; - - return; -} -#endif - - -#define HP20_COEFF_SCALE ( 2 ) -/* - * hp20 - * - * Function: - * 2nd order high pass filter with nominal cut off frequency at 20 Hz. - * - * Returns: - * void - */ - -static Word32 HP50_Mode2_Mpy_32_16_fix( Word32 a, Word16 b ) -{ - Word32 result = Mpy_32_16_1( a, b ); - /* perform rounding towards lower value for negative results */ - if ( result < 0 ) - result = L_add( result, 1 ); - return result; -} - -static Word32 HP50_Mpy_32_32_fix( Word32 a, Word32 b ) -{ - Word32 result = Mpy_32_32( a, b ); - /* perform rounding towards lower value for negative results */ - if ( result < 0 ) - result = L_add( result, 1 ); - return result; -} - - -static void filter_2nd_order( - Word16 signal[], - const Word16 stride, - const Word16 prescale, - const Word16 lg, - Word32 mem[4], - Word32 a1, - Word32 a2, - Word32 b1, - Word32 b2 ) -{ - - Word16 i; - Word16 x2, x1; - Word32 L_sum, L_y1, L_y2; -#ifdef BASOP_NOGLOB_DECLARE_LOCAL - Flag Overflow = 0; -#endif - - - /* - * Saturation: The states of the filter, namely L_y1 and L_y2 shall - * never saturate, because that causes error in the filter feedback. - * The final output written into signal[] might saturate because of - * unavoidable filter overshoot. - */ - - /* Execute first 2 iterations with 32-bit x anx y memory values */ - BASOP_SATURATE_ERROR_ON_EVS - L_sum = HP50_Mpy_32_32_fix( b2, mem[2] ); /* b2*x2 */ - L_sum = L_add( L_sum, HP50_Mpy_32_32_fix( b1, mem[3] ) ); /* b1*x1 */ - x2 = shr( signal[0], prescale ); - L_sum = L_add( L_sum, HP50_Mode2_Mpy_32_16_fix( b2, x2 ) ); /* b2*x0 */ - L_sum = L_add( L_sum, HP50_Mpy_32_32_fix( mem[0], a2 ) ); /* y2*a2 */ - L_sum = L_add( L_sum, HP50_Mpy_32_32_fix( mem[1], a1 ) ); /* y1*a1 */ - - L_y2 = L_shl_o( L_sum, HP20_COEFF_SCALE, &Overflow ); - BASOP_SATURATE_ERROR_OFF_EVS - BASOP_SATURATE_WARNING_OFF_EVS - signal[0] = round_fx_o( L_shl_o( L_y2, prescale, &Overflow ), &Overflow ); - BASOP_SATURATE_WARNING_ON_EVS - - BASOP_SATURATE_ERROR_ON_EVS - L_sum = HP50_Mpy_32_32_fix( b2, mem[3] ); /* b2*x2 */ - L_sum = L_add( L_sum, HP50_Mode2_Mpy_32_16_fix( b1, x2 ) ); /* b1*x1 */ - x1 = shr( signal[stride], prescale ); - L_sum = L_add( L_sum, HP50_Mode2_Mpy_32_16_fix( b2, x1 ) ); /* b2*x0 */ - L_sum = L_add( L_sum, HP50_Mpy_32_32_fix( mem[1], a2 ) ); /* y2*a2 */ - L_sum = L_add( L_sum, HP50_Mpy_32_32_fix( L_y2, a1 ) ); /* y1*a1 */ - - L_y1 = L_shl_o( L_sum, HP20_COEFF_SCALE, &Overflow ); - BASOP_SATURATE_ERROR_OFF_EVS - BASOP_SATURATE_WARNING_OFF_EVS - signal[stride] = round_fx_o( L_shl_o( L_y1, prescale, &Overflow ), &Overflow ); - BASOP_SATURATE_WARNING_ON_EVS - move16(); - - /* New we use a trick and toggle x1/x2 and L_y1/L_y2 to save a few cycles unrolling the loop by 2 */ - FOR( i = 2; i < lg; i += 2 ) - { - /* y[i+0] = b2*x[i-2] + b1*x[i-1] + b2*x[i-0] + a2*y[i-2] + a1*y[i-1]; */ - BASOP_SATURATE_ERROR_ON_EVS - L_sum = HP50_Mode2_Mpy_32_16_fix( b2, x2 ); - L_sum = L_add( L_sum, HP50_Mode2_Mpy_32_16_fix( b1, x1 ) ); - x2 = shr( signal[i * stride], prescale ); - L_sum = L_add( L_sum, HP50_Mode2_Mpy_32_16_fix( b2, x2 ) ); - L_sum = L_add( L_sum, HP50_Mpy_32_32_fix( L_y2, a2 ) ); - L_sum = L_add( L_sum, HP50_Mpy_32_32_fix( L_y1, a1 ) ); - - L_y2 = L_shl_o( L_sum, HP20_COEFF_SCALE, &Overflow ); - BASOP_SATURATE_ERROR_OFF_EVS - BASOP_SATURATE_WARNING_OFF_EVS - signal[i_mult( i, stride )] = round_fx_o( L_shl_o( L_y2, prescale, &Overflow ), &Overflow ); - BASOP_SATURATE_WARNING_ON_EVS - /* y[i+1] = b2*x[i-1] + b1*x[i-0] + b2*x[i+1] + a2*y[i-1] + a1*y[i+0]; */ - BASOP_SATURATE_ERROR_ON_EVS - L_sum = HP50_Mode2_Mpy_32_16_fix( b2, x1 ); - L_sum = L_add( L_sum, HP50_Mode2_Mpy_32_16_fix( b1, x2 ) ); - x1 = shr( signal[( i + 1 ) * stride], prescale ); - L_sum = L_add( L_sum, HP50_Mode2_Mpy_32_16_fix( b2, x1 ) ); - L_sum = L_add( L_sum, HP50_Mpy_32_32_fix( L_y1, a2 ) ); - L_sum = L_add( L_sum, HP50_Mpy_32_32_fix( L_y2, a1 ) ); - - L_y1 = L_shl_o( L_sum, HP20_COEFF_SCALE, &Overflow ); - BASOP_SATURATE_ERROR_OFF_EVS - BASOP_SATURATE_WARNING_OFF_EVS - signal[i_mult( add( i, 1 ), stride )] = round_fx_o( L_shl_o( L_y1, prescale, &Overflow ), &Overflow ); - BASOP_SATURATE_WARNING_ON_EVS - move16(); - } - /* update static filter memory from variables */ - mem[0] = L_y2; - move32(); - mem[1] = L_y1; - move32(); - mem[2] = L_deposit_h( x2 ); - move32(); - mem[3] = L_deposit_h( x1 ); - move32(); - - - return; -} - - -void hp20( Word16 signal[], /* i/o: signal to filter any */ - const Word16 stride, /* i : stride to be applied accessing signal */ - const Word16 lg, /* i : length of signal (integer) Q0 */ - Word32 mem[5], /* i/o: static filter memory with this layout: */ - /* mem[0]: y[-2] (32-bit) */ - /* mem[1]; y[-1] (32-bit) */ - /* mem[2]: x[-2] << 16 */ - /* mem[3]: x[-1] << 16 */ - /* Note: mem[0..3] need to be scaled per frame */ - /* mem[4]: states scale */ - const Word32 sFreq ) /* i : input sampling rate Q0 */ -{ - Word32 a1, b1, a2, b2; - Word16 prescale, prescaleOld, diff; -#ifdef BASOP_NOGLOB_DECLARE_LOCAL - Flag Overflow = 0; -#endif - - - prescale = getScaleFactor16( signal, lg ); - prescaleOld = extract_l( mem[4] ); - diff = norm_l( L_shl_sat( mem[2], prescaleOld ) ); - if ( mem[2] != 0 ) - { - prescale = s_min( prescale, diff ); - } - diff = norm_l( L_shl_o( mem[3], prescaleOld, &Overflow ) ); - if ( mem[3] != 0 ) - { - prescale = s_min( prescale, diff ); - } - /* Take into account the left shift performed into the loop + 1 bit headroom*/ - prescale = s_max( -12, sub( 1 + HP20_COEFF_SCALE, prescale ) ); - IF( prescale != prescaleOld ) - { - diff = sub( prescale, prescaleOld ); - mem[0] = L_shr_o( mem[0], diff, &Overflow ); - move32(); - mem[1] = L_shr_o( mem[1], diff, &Overflow ); - move32(); - mem[2] = L_shr_o( mem[2], diff, &Overflow ); - move32(); - mem[3] = L_shr_o( mem[3], diff, &Overflow ); - move32(); - mem[4] = L_deposit_l( prescale ); - } - - IF( EQ_32( sFreq, 8000 ) ) - { - /* hp filter 20Hz at 3dB for 8000 Hz input sampling rate - [b,a] = butter(2, 20.0/4000.0, 'high'); - b = [0.988954248067140 -1.977908496134280 0.988954248067140] - a = [1.000000000000000 -1.977786483776764 0.978030508491796]*/ - a1 = 1061816033l /* 1.977786483776764 Q29*/; - move32(); - a2 = -525076131l /*-0.978030508491796 Q29*/; - move32(); - b1 = -1061881538l /*-1.977908496134280 Q29*/; - move32(); - b2 = 530940769l /* 0.988954248067140 Q29*/; - move32(); - } - ELSE IF( EQ_32( sFreq, 16000 ) ) - { - /* hp filter 20Hz at 3dB for 16000KHz sampling rate - [b,a] = butter(2, 20.0/8000.0, 'high'); - b = [0.994461788958195 -1.988923577916390 0.994461788958195] - a = [1.000000000000000 -1.988892905899653 0.988954249933127] */ - a1 = 1067778748l /* 1.988892905899653 Q29*/; - move32(); - a2 = -530940770l /*-0.988954249933127 Q29*/; - move32(); - b1 = -1067795215l /*-1.988923577916390 Q29*/; - move32(); - b2 = 533897608l /* 0.994461788958195 Q29*/; - move32(); - } - ELSE IF( EQ_32( sFreq, 32000 ) ) - { - /* hp filter 20Hz at 3dB for 32000KHz sampling rate - [b,a] = butter(2, 20.0/16000.0, 'high'); - b = [0.997227049904470 -1.994454099808940 0.997227049904470] - a = [1.000000000000000 -1.994446410541927 0.994461789075954]*/ - a1 = 1070760263l /* 1.994446410541927 Q29*/; - move32(); - a2 = -533897608l /*-0.994461789075954 Q29*/; - move32(); - b1 = -1070764392l /*-1.994454099808940 Q29*/; - move32(); - b2 = 535382196l /* 0.997227049904470 Q29*/; - move32(); - } - ELSE - { - assert( sFreq == 48000 ); - /* hp filter 20Hz at 3dB for 48000KHz sampling rate - [b,a] = butter(2, 20.0/24000.0, 'high'); - b =[0.998150511190452 -1.996301022380904 0.998150511190452] - a =[1.000000000000000 -1.996297601769122 0.996304442992686]*/ - a1 = 1071754114l /* 1.996297601769122 Q29*/; - move32(); - a2 = -534886875l /*-0.996304442992686 Q29*/; - move32(); - b1 = -1071755951l /*-1.996301022380904 Q29*/; - move32(); - b2 = 535877975l /* 0.998150511190452 Q29*/; - move32(); - } - - - filter_2nd_order( signal, stride, prescale, lg, - mem, a1, a2, b1, b2 ); - - return; -} - - -#ifdef HP20_FIX32_RECODING -void hp20_fx_32( - Word32 signal_fx[], - const Word16 lg, - Word32 mem_fx[], - const Word32 Fs ) -{ - Word32 i; - Word32 a1_fx, a2_fx, b1_fx, b2_fx; - Word32 diff_pos, diff_neg; - Flag Overflow = 0; - Word16 prescale, prescaleOld, prescale_current_frame, diff; - - prescale = getScaleFactor32( signal_fx, lg ); - prescale_current_frame = s_min( 3, sub( 1 + HP20_COEFF_SCALE, prescale ) ); - - - prescaleOld = extract_l( mem_fx[4] ); - - diff_pos = norm_l( L_shl_o( L_max( mem_fx[2], mem_fx[3] ), prescaleOld, &Overflow ) ); - diff_neg = norm_l( L_shl_o( L_min( mem_fx[2], mem_fx[3] ), prescaleOld, &Overflow ) ); - - diff = L_max( diff_pos, diff_neg ); - - IF( NE_16( diff, 0 ) ) - { - prescale = s_min( prescale, diff ); - } - - prescale = s_min( 3, sub( 1 + HP20_COEFF_SCALE, prescale ) ); - - diff = sub( prescale, prescaleOld ); - mem_fx[0] = L_shr_o( mem_fx[0], diff, &Overflow ); - move32(); - mem_fx[1] = L_shr_o( mem_fx[1], diff, &Overflow ); - move32(); - mem_fx[2] = L_shr_o( mem_fx[2], diff, &Overflow ); - move32(); - mem_fx[3] = L_shr_o( mem_fx[3], diff, &Overflow ); - move32(); - mem_fx[4] = L_deposit_l( prescale_current_frame ); - move32(); - - IF( EQ_32( Fs, 8000 ) ) - { - /* hp filter 20Hz at 3dB for 8000KHz input sampling rate - [b,a] = butter(2, 20.0/4000.0, 'high'); - b = [0.988954248067140 -1.977908496134280 0.988954248067140] - a =[1.000000000000000 -1.977786483776764 0.978030508491796]*/ - a1_fx = 1061816033l /* 1.977786483776764 Q29*/; - a2_fx = -525076131l /*-0.978030508491796 Q29*/; - b1_fx = -1061881538l /*-1.977908496134280 Q29*/; - b2_fx = 530940769l /* 0.988954248067140 Q29*/; - } - ELSE IF( EQ_32( Fs, 16000 ) ) - { - /* hp filter 20Hz at 3dB for 16000KHz sampling rate - [b,a] = butter(2, 20.0/8000.0, 'high'); - b =[ 0.994461788958195 -1.988923577916390 0.994461788958195] - a =[1.000000000000000 -1.988892905899653 0.988954249933127] */ - a1_fx = 1067778748l /* 1.988892905899653 Q29*/; - a2_fx = -530940770l /*-0.988954249933127 Q29*/; - b1_fx = -1067795215l /*-1.988923577916390 Q29*/; - b2_fx = 533897608l /* 0.994461788958195 Q29*/; - } - ELSE IF( EQ_32( Fs, 32000 ) ) - { - /* hp filter 20Hz at 3dB for 32000KHz sampling rate - [b,a] = butter(2, 20.0/16000.0, 'high'); - b =[0.997227049904470 -1.994454099808940 0.997227049904470] - a =[1.000000000000000 -1.994446410541927 0.994461789075954]*/ - a1_fx = 1070760263l /* 1.994446410541927 Q29*/; - a2_fx = -533897608l /*-0.994461789075954 Q29*/; - b1_fx = -1070764392l /*-1.994454099808940 Q29*/; - b2_fx = 535382196l /* 0.997227049904470 Q29*/; - } - ELSE - { - /* hp filter 20Hz at 3dB for 48000KHz sampling rate - [b,a] = butter(2, 20.0/24000.0, 'high'); - b =[ 0.998150511190452 -1.996301022380904 0.998150511190452] - a =[1.000000000000000 -1.996297601769122 0.996304442992686]*/ - a1_fx = 1071754114l /* 1.996297601769122 Q29*/; - a2_fx = -534886875l /*-0.996304442992686 Q29*/; - b1_fx = -1071755951l /*-1.996301022380904 Q29*/; - b2_fx = 535877975l /* 0.998150511190452 Q29*/; - } - move32(); - move32(); - move32(); - move32(); - Word64 W_sum, W_y0, W_y1, W_y2; - Word32 x0, x1, x2; - - W_sum = W_mult_32_32( b2_fx, mem_fx[2] ); /* b2*x2 */ - W_sum = W_mac_32_32( W_sum, b1_fx, mem_fx[3] ); /* b1*x1 */ - x2 = L_shr( signal_fx[0], prescale ); - W_sum = W_mac_32_32( W_sum, b2_fx, x2 ); /* b2*x0 */ - W_sum = W_mac_32_32( W_sum, mem_fx[0], a2_fx ); /* y2*a2 */ - W_sum = W_mac_32_32( W_sum, mem_fx[1], a1_fx ); /* y1*a1 */ - W_y2 = W_shl( W_sum, HP20_COEFF_SCALE ); - signal_fx[0] = W_extract_h( W_shl( W_y2, prescale ) ); - move32(); - - W_sum = W_mult_32_32( b2_fx, mem_fx[3] ); /* b2*x2 */ - W_sum = W_mac_32_32( W_sum, b1_fx, x2 ); /* b1*x1 */ - x1 = L_shr( signal_fx[1], prescale ); - W_sum = W_mac_32_32( W_sum, b2_fx, x1 ); /* b2*x0 */ - W_sum = W_mac_32_32( W_sum, mem_fx[1], a2_fx ); /* y2*a2 */ - W_sum = W_mac_32_32( W_sum, W_extract_h( W_y2 ), a1_fx ); /* y1*a1 */ - W_y1 = W_shl( W_sum, HP20_COEFF_SCALE ); - signal_fx[1] = W_extract_h( W_shl( W_y1, prescale ) ); - move32(); - - diff = sub( prescale_current_frame, prescale ); - W_y1 = W_shr( W_y1, diff ); - W_y2 = W_shr( W_y2, diff ); - x2 = L_shr( x2, diff ); - x1 = L_shr( x1, diff ); - - FOR( i = 2; i < lg; i++ ) - { - W_sum = W_mult_32_32( b2_fx, x2 ); /* b2*x2 */ - W_sum = W_mac_32_32( W_sum, b1_fx, x1 ); /* b1*x1 */ - x0 = L_shr( signal_fx[i], prescale_current_frame ); - W_sum = W_mac_32_32( W_sum, b2_fx, x0 ); /* b2*x0 */ - W_sum = W_mac_32_32( W_sum, W_extract_h( W_y2 ), a2_fx ); /* y2*a2 */ - W_sum = W_mac_32_32( W_sum, W_extract_h( W_y1 ), a1_fx ); /* y1*a1 */ - W_y0 = W_shl( W_sum, HP20_COEFF_SCALE ); - - signal_fx[i] = W_extract_h( W_shl( W_y0, prescale_current_frame ) ); - move32(); - - x2 = x1; - x1 = x0; - W_y2 = W_y1; - W_y1 = W_y0; - - move32(); - move32(); - move64(); - move64(); - } - - mem_fx[0] = W_extract_h( W_y2 ); - mem_fx[1] = W_extract_h( W_y1 ); - mem_fx[2] = x2; - mem_fx[3] = x1; - - move32(); - move32(); - move32(); - move32(); - - return; -} -#else -void hp20_fx_32( - Word32 signal_fx[], - const Word16 lg, - Word32 mem_fx[], - const Word32 Fs ) -{ - Word16 i; - Word32 a1_fx, a2_fx, b1_fx, b2_fx; - Word16 Qx0, Qx1, Qx2, Qy1, Qprev_y1, Qy2, Qprev_y2, Qmin; - Word64 x0_fx64, x1_fx64, x2_fx64, y0_fx64, y1_fx64, y2_fx64, R1, R2, R3, R4, R5; - - IF( EQ_32( Fs, 8000 ) ) - { - /* hp filter 20Hz at 3dB for 8000KHz input sampling rate - [b,a] = butter(2, 20.0/4000.0, 'high'); - b = [0.988954248067140 -1.977908496134280 0.988954248067140] - a =[1.000000000000000 -1.977786483776764 0.978030508491796]*/ - a1_fx = 1061816033l /* 1.977786483776764 Q29*/; - a2_fx = -525076131l /*-0.978030508491796 Q29*/; - b1_fx = -1061881538l /*-1.977908496134280 Q29*/; - b2_fx = 530940769l /* 0.988954248067140 Q29*/; - } - ELSE IF( EQ_32( Fs, 16000 ) ) - { - /* hp filter 20Hz at 3dB for 16000KHz sampling rate - [b,a] = butter(2, 20.0/8000.0, 'high'); - b =[ 0.994461788958195 -1.988923577916390 0.994461788958195] - a =[1.000000000000000 -1.988892905899653 0.988954249933127] */ - a1_fx = 1067778748l /* 1.988892905899653 Q29*/; - a2_fx = -530940770l /*-0.988954249933127 Q29*/; - b1_fx = -1067795215l /*-1.988923577916390 Q29*/; - b2_fx = 533897608l /* 0.994461788958195 Q29*/; - } - ELSE IF( EQ_32( Fs, 32000 ) ) - { - /* hp filter 20Hz at 3dB for 32000KHz sampling rate - [b,a] = butter(2, 20.0/16000.0, 'high'); - b =[0.997227049904470 -1.994454099808940 0.997227049904470] - a =[1.000000000000000 -1.994446410541927 0.994461789075954]*/ - a1_fx = 1070760263l /* 1.994446410541927 Q29*/; - a2_fx = -533897608l /*-0.994461789075954 Q29*/; - b1_fx = -1070764392l /*-1.994454099808940 Q29*/; - b2_fx = 535382196l /* 0.997227049904470 Q29*/; - } - ELSE - { - /* hp filter 20Hz at 3dB for 48000KHz sampling rate - [b,a] = butter(2, 20.0/24000.0, 'high'); - b =[ 0.998150511190452 -1.996301022380904 0.998150511190452] - a =[1.000000000000000 -1.996297601769122 0.996304442992686]*/ - a1_fx = 1071754114l /* 1.996297601769122 Q29*/; - a2_fx = -534886875l /*-0.996304442992686 Q29*/; - b1_fx = -1071755951l /*-1.996301022380904 Q29*/; - b2_fx = 535877975l /* 0.998150511190452 Q29*/; - } - move32(); - move32(); - move32(); - move32(); - - Qprev_y1 = extract_l( mem_fx[4] ); - Qprev_y2 = extract_l( mem_fx[5] ); - y1_fx64 = W_deposit32_l( mem_fx[0] ); - y2_fx64 = W_deposit32_l( mem_fx[1] ); - x0_fx64 = W_deposit32_l( mem_fx[2] ); - x1_fx64 = W_deposit32_l( mem_fx[3] ); - - FOR( i = 0; i < lg; i++ ) - { - x2_fx64 = x1_fx64; - move64(); - x1_fx64 = x0_fx64; - move64(); - x0_fx64 = W_deposit32_l( signal_fx[i] ); - - Qy1 = W_norm( y1_fx64 ); - if ( y1_fx64 == 0 ) - { - Qy1 = 62; - move16(); - } - Qy1 = sub( Qy1, 34 ); - R1 = W_mult0_32_32( W_extract_l( W_shl( y1_fx64, Qy1 ) ), a1_fx ); - Qy1 = add( Qy1, Qprev_y1 ); - - Qy2 = W_norm( y2_fx64 ); - if ( y2_fx64 == 0 ) - { - Qy2 = 62; - move16(); - } - Qy2 = sub( Qy2, 34 ); - R2 = W_mult0_32_32( W_extract_l( W_shl( y2_fx64, Qy2 ) ), a2_fx ); - Qy2 = add( Qy2, Qprev_y2 ); - - Qx0 = W_norm( x0_fx64 ); - if ( x0_fx64 == 0 ) - { - Qx0 = 62; - move16(); - } - Qx0 = sub( Qx0, 34 ); - R3 = W_mult0_32_32( W_extract_l( W_shl( x0_fx64, Qx0 ) ), b2_fx ); - - Qx1 = W_norm( x1_fx64 ); - if ( x1_fx64 == 0 ) - { - Qx1 = 62; - move16(); - } - Qx1 = sub( Qx1, 34 ); - R4 = W_mult0_32_32( W_extract_l( W_shl( x1_fx64, Qx1 ) ), b1_fx ); - - Qx2 = W_norm( x2_fx64 ); - if ( x2_fx64 == 0 ) - { - Qx2 = 62; - move16(); - } - Qx2 = sub( Qx2, 34 ); - R5 = W_mult0_32_32( W_extract_l( W_shl( x2_fx64, Qx2 ) ), b2_fx ); - - Qmin = s_min( Qy1, Qy2 ); - - y0_fx64 = W_add( W_shr( R1, sub( Qy1, Qmin ) ), W_shr( R2, sub( Qy2, Qmin ) ) ); - - Qmin = s_min( Qmin, Qx0 ); - Qmin = s_min( Qmin, Qx1 ); - Qmin = s_min( Qmin, Qx2 ); - - y0_fx64 = W_add( W_shr( y0_fx64, sub( s_min( Qy1, Qy2 ), Qmin ) ), W_add( W_shr( R3, sub( Qx0, Qmin ) ), W_add( W_shr( R4, sub( Qx1, Qmin ) ), W_shr( R5, sub( Qx2, Qmin ) ) ) ) ); - - y0_fx64 = W_shr( y0_fx64, 29 ); - - signal_fx[i] = W_extract_l( W_shr( y0_fx64, Qmin ) ); - move32(); - IF( signal_fx[i] < 0 ) - { - signal_fx[i] = L_add( signal_fx[i], 1 ); - move32(); - } - - y2_fx64 = y1_fx64; - y1_fx64 = y0_fx64; - Qprev_y2 = Qprev_y1; - Qprev_y1 = Qmin; - move64(); - move64(); - move16(); - move16(); - } - - Qy1 = W_norm( y1_fx64 ); - test(); - IF( y1_fx64 != 0 && LT_16( Qy1, 32 ) ) - { - y1_fx64 = W_shr( y1_fx64, sub( 32, Qy1 ) ); - Qprev_y1 = sub( Qprev_y1, sub( 32, Qy1 ) ); - } - - Qy2 = W_norm( y2_fx64 ); - test(); - IF( y2_fx64 != 0 && LT_16( Qy2, 32 ) ) - { - y2_fx64 = W_shr( y2_fx64, sub( 32, Qy2 ) ); - Qprev_y2 = sub( Qprev_y2, sub( 32, Qy2 ) ); - } - - mem_fx[0] = W_extract_l( y1_fx64 ); - mem_fx[1] = W_extract_l( y2_fx64 ); - mem_fx[2] = W_extract_l( x0_fx64 ); - mem_fx[3] = W_extract_l( x1_fx64 ); - mem_fx[4] = Qprev_y1; - mem_fx[5] = Qprev_y2; - move32(); - move32(); - move32(); - move32(); - move32(); - move32(); - - return; -} -#endif diff --git a/lib_com/hp50_fx.c b/lib_com/hp50_fx.c index 84bbf8b3c3c94aefd82d69344e4fa5d9362c0408..f5e7105cfcf9dfeebad0e4bff0d5a262cc8a7dd8 100644 --- a/lib_com/hp50_fx.c +++ b/lib_com/hp50_fx.c @@ -37,19 +37,8 @@ #include #include #include "options.h" -#include "prot.h" -#include "wmc_auto.h" #include "prot_fx.h" - -/* - * hp20 - * - * Function: - * 2nd order high pass filter with nominal cut off frequency at 20 Hz. - * - * Returns: - * void - */ +#include "wmc_auto.h" #define HP20_COEFF_SCALE ( 2 ) @@ -469,8 +458,14 @@ void hp20_fx_32( { Word16 i; Word32 a1_fx, a2_fx, b1_fx, b2_fx; +#ifdef OPT_STEREO_32KBPS_V1 + Word16 Qy1, Qy2, Qmin; + Word64 y0_fx64, y1_fx64, y2_fx64; + Word32 x0, x1, x2; +#else /* OPT_STEREO_32KBPS_V1 */ Word16 Qx0, Qx1, Qx2, Qy1, Qprev_y1, Qy2, Qprev_y2, Qmin; Word64 x0_fx64, x1_fx64, x2_fx64, y0_fx64, y1_fx64, y2_fx64, R1, R2, R3, R4, R5; +#endif /* OPT_STEREO_32KBPS_V1 */ IF( EQ_32( Fs, 8000 ) ) { @@ -521,15 +516,64 @@ void hp20_fx_32( move32(); move32(); +#ifdef OPT_STEREO_32KBPS_V1 + y1_fx64 = W_add( W_deposit32_l( mem_fx[0] ), W_deposit32_h( mem_fx[1] ) ); + y2_fx64 = W_add( W_deposit32_l( mem_fx[2] ), W_deposit32_h( mem_fx[3] ) ); + + x0 = mem_fx[4]; + move32(); + x1 = mem_fx[5]; + move32(); +#else /* OPT_STEREO_32KBPS_V1 */ Qprev_y1 = extract_l( mem_fx[4] ); Qprev_y2 = extract_l( mem_fx[5] ); y1_fx64 = W_deposit32_l( mem_fx[0] ); y2_fx64 = W_deposit32_l( mem_fx[1] ); x0_fx64 = W_deposit32_l( mem_fx[2] ); x1_fx64 = W_deposit32_l( mem_fx[3] ); +#endif /* OPT_STEREO_32KBPS_V1 */ FOR( i = 0; i < lg; i++ ) { +#ifdef OPT_STEREO_32KBPS_V1 + x2 = x1; + move32(); + x1 = x0; + move32(); + x0 = signal_fx[i]; + move32(); + + Qy1 = W_norm( y1_fx64 ); + if ( y1_fx64 == 0 ) + { + Qy1 = 62; + move16(); + } + + Qy2 = W_norm( y2_fx64 ); + if ( y2_fx64 == 0 ) + { + Qy2 = 62; + move16(); + } + + Qmin = s_min( Qy1, Qy2 ); + + Qmin = sub( Qmin, 34 ); + + y0_fx64 = W_mac_32_32( W_mult_32_32( W_shl_sat_l( y1_fx64, Qmin ), a1_fx ), W_shl_sat_l( y2_fx64, Qmin ), a2_fx ); // Qmin + Q29 + Q30 + 1 + + Word64 temp = W_mac_32_32( W_mac_32_32( W_mult_32_32( x2, b2_fx ), x1, b1_fx ), x0, b2_fx ); // Q30 + Word64 y0_fx = W_shr( y0_fx64, add( Qmin, Q30 ) ); // Q30 + y0_fx64 = W_add( temp, y0_fx ); // Q30 + signal_fx[i] = W_shl_sat_l( y0_fx64, -Q30 ); + move32(); + + y2_fx64 = y1_fx64; + move64(); + y1_fx64 = y0_fx64; + move64(); +#else /* OPT_STEREO_32KBPS_V1 */ x2_fx64 = x1_fx64; move64(); x1_fx64 = x0_fx64; @@ -611,8 +655,17 @@ void hp20_fx_32( move64(); move16(); move16(); +#endif /* OPT_STEREO_32KBPS_V1 */ } +#ifdef OPT_STEREO_32KBPS_V1 + mem_fx[0] = W_extract_l( y1_fx64 ); + mem_fx[1] = W_extract_h( y1_fx64 ); + mem_fx[2] = W_extract_l( y2_fx64 ); + mem_fx[3] = W_extract_h( y2_fx64 ); + mem_fx[4] = x0; + mem_fx[5] = x1; +#else /* OPT_STEREO_32KBPS_V1 */ Qy1 = W_norm( y1_fx64 ); test(); IF( y1_fx64 != 0 && LT_16( Qy1, 32 ) ) @@ -635,6 +688,8 @@ void hp20_fx_32( mem_fx[3] = W_extract_l( x1_fx64 ); mem_fx[4] = Qprev_y1; mem_fx[5] = Qprev_y2; +#endif /* OPT_STEREO_32KBPS_V1 */ + move32(); move32(); move32(); diff --git a/lib_com/hq2_core_com.c b/lib_com/hq2_core_com.c index bc4edb8693cb17aed07ff08d218a7eaa169673ec..121dae06a1ef18c4cd878c09921758a9d0ced65e 100644 --- a/lib_com/hq2_core_com.c +++ b/lib_com/hq2_core_com.c @@ -39,7 +39,7 @@ #include #include "cnst.h" #include "rom_com.h" -#include "prot.h" +#include "prot_fx.h" #include "basop_util.h" #include "basop_proto_func.h" #include "wmc_auto.h" diff --git a/lib_com/hq_conf.c b/lib_com/hq_conf.c index c139a493c8601785881ef08bd5a5a781704d1955..90a256ceab3e43b00c51885fe3e3ac35efea1113 100644 --- a/lib_com/hq_conf.c +++ b/lib_com/hq_conf.c @@ -38,9 +38,8 @@ #include "options.h" #include "cnst.h" #include "rom_com.h" -#include "prot.h" -#include "wmc_auto.h" #include "prot_fx.h" +#include "wmc_auto.h" void hq_configure_fx( diff --git a/lib_com/hq_tools_fx.c b/lib_com/hq_tools_fx.c index 4426f85d98d0b79248d5308c349ecef0561ad8ad..0e00b9428f61a9c68daa8f2a4da70847b4cc48dc 100644 --- a/lib_com/hq_tools_fx.c +++ b/lib_com/hq_tools_fx.c @@ -39,7 +39,6 @@ #include "rom_com.h" /* Static table prototypes FIP version */ #include "stl.h" /* required for wmc_tool */ #include "prot_fx.h" -#include "prot.h" #include "ivas_prot_fx.h" /*--------------------------------------------------------------------------* @@ -2037,7 +2036,7 @@ Word16 calc_nor_delta_hf_fx( /* updating norm & storing delta norm */ add_bits_denv = 2; move16(); - push_indice_fx( hBstr, IND_DELTA_ENV_HQ, sub( bitsforDelta, 2 ), 2 ); + push_indice( hBstr, IND_DELTA_ENV_HQ, sub( bitsforDelta, 2 ), 2 ); FOR( i = num_env_bands; i < nb_sfm; ++i ) { IF( Rsubband[i] != 0 ) @@ -2053,7 +2052,7 @@ Word16 calc_nor_delta_hf_fx( delta = min_delta; /*Q0*/ move16(); } - push_indice_fx( hBstr, IND_DELTA_ENV_HQ, delta - min_delta, bitsforDelta ); + push_indice( hBstr, IND_DELTA_ENV_HQ, delta - min_delta, bitsforDelta ); ynrm[i] = add( ynrm[i], delta ); /*Q0*/ move16(); add_bits_denv = add( add_bits_denv, bitsforDelta ); diff --git a/lib_com/ifft_rel.c b/lib_com/ifft_rel.c index 423eea46d7f8d5965fb9c002f3096d4d2efde2df..9e64a4e254f17bd36d456d3d45bf35d36612720d 100644 --- a/lib_com/ifft_rel.c +++ b/lib_com/ifft_rel.c @@ -36,10 +36,9 @@ #include #include "options.h" -#include "prot.h" +#include "prot_fx.h" #include "rom_com.h" #include "wmc_auto.h" -#include "prot_fx.h" /*-----------------------------------------------------------------* * Local constants *-----------------------------------------------------------------*/ diff --git a/lib_com/igf_base_fx.c b/lib_com/igf_base_fx.c index fbccdb5191fe889c5aab51fa4dd2bc4c9a07c6ed..44cf27c5f3da77010f5d13489439a0dc2bc507c7 100644 --- a/lib_com/igf_base_fx.c +++ b/lib_com/igf_base_fx.c @@ -1242,7 +1242,7 @@ void IGFCommonFuncsWriteSerialBit( IF( hBstr ) { - push_next_indice_fx( hBstr, bit, 1 ); + push_next_indice( hBstr, bit, 1 ); } *pBitOffset = add( *pBitOffset, 1 ); move16(); diff --git a/lib_com/int_lsp.c b/lib_com/int_lsp.c index 0f673b8fd610188a6dc014914aaa54fac9ce713d..570e9ebd987527155d240e94341b7224aa876224 100644 --- a/lib_com/int_lsp.c +++ b/lib_com/int_lsp.c @@ -37,10 +37,9 @@ #include #include "options.h" #include "cnst.h" -#include "prot.h" +#include "prot_fx.h" #include "rom_com.h" #include "wmc_auto.h" -#include "prot_fx.h" void int_lsp_fx( diff --git a/lib_com/interleave_spectrum.c b/lib_com/interleave_spectrum.c index 745ee6ac3d7da541cf8d62ac6fc71e2386ed5f05..5c4c98e291e33db70a7fa6a8763926f963fe485c 100644 --- a/lib_com/interleave_spectrum.c +++ b/lib_com/interleave_spectrum.c @@ -37,10 +37,9 @@ #include #include "options.h" #include "cnst.h" -#include "prot.h" +#include "prot_fx.h" #include "rom_com.h" #include "wmc_auto.h" -#include "prot_fx.h" #include "ivas_prot_fx.h" diff --git a/lib_com/interpol.c b/lib_com/interpol.c index 45021f1c274004c456b85e5eddbe8a84982f4d3c..a490a755269c9fa7d3f9bdeb440b60bf7f483253 100644 --- a/lib_com/interpol.c +++ b/lib_com/interpol.c @@ -36,10 +36,9 @@ #include #include "options.h" -#include "prot.h" +#include "prot_fx.h" #include "wmc_auto.h" #include "rom_com.h" -#include "prot_fx.h" #include "prot_fx_enc.h" diff --git a/lib_com/ivas_agc_com_fx.c b/lib_com/ivas_agc_com_fx.c index b2c09fa073e524dfbc82dcaa88db2e910746b719..3f6e181efb2154cf8fc2ce949321b0959c1dab90 100644 --- a/lib_com/ivas_agc_com_fx.c +++ b/lib_com/ivas_agc_com_fx.c @@ -34,11 +34,10 @@ #include "options.h" #include "cnst.h" #include "ivas_cnst.h" -#include "ivas_prot.h" #include "ivas_prot_fx.h" #include #include "wmc_auto.h" -#include "prot.h" +#include "prot_fx.h" #include "rom_com.h" /*------------------------------------------------------------------------------------------* * Local constants diff --git a/lib_com/ivas_arith.c b/lib_com/ivas_arith_fx.c similarity index 99% rename from lib_com/ivas_arith.c rename to lib_com/ivas_arith_fx.c index 2f729bbd4e6d4b9675349adb8ec2bcc998628734..311bccff8e206cbdb862bba20cd4f6e89d62ecc2 100644 --- a/lib_com/ivas_arith.c +++ b/lib_com/ivas_arith_fx.c @@ -33,8 +33,6 @@ #include #include "options.h" #include "wmc_auto.h" -#include "prot.h" -#include "ivas_prot.h" #include "prot_fx.h" #include "ivas_prot_fx.h" #include "stat_dec.h" diff --git a/lib_com/ivas_avq_pos_reorder_com.c b/lib_com/ivas_avq_pos_reorder_com_fx.c similarity index 99% rename from lib_com/ivas_avq_pos_reorder_com.c rename to lib_com/ivas_avq_pos_reorder_com_fx.c index ac539b7879b99ccf2941f6768be01caba574fdbb..25f8be3ad2ae64b4b05bc88bfc19b22043377621 100644 --- a/lib_com/ivas_avq_pos_reorder_com.c +++ b/lib_com/ivas_avq_pos_reorder_com_fx.c @@ -32,7 +32,7 @@ #include #include "options.h" -#include "prot.h" +#include "prot_fx.h" #include "wmc_auto.h" /*-----------------------------------------------------------------* diff --git a/lib_com/ivas_cnst.h b/lib_com/ivas_cnst.h index 6612fac1fb86e071aca955949ba2002477dfaffd..5ceac3b0324230215c994441b90b63f473b4cf0b 100644 --- a/lib_com/ivas_cnst.h +++ b/lib_com/ivas_cnst.h @@ -360,6 +360,8 @@ typedef enum #define ISM_Q_STEP_BORDER 5.0f #define ISM_Q_STEP_BORDER_FX ( 20971520 ) // Q22 +#define ISM_FEC_MAX 10 + #define ISM_RADIUS_NBITS 6 #define ISM_RADIUS_MIN 0.0f #define ISM_RADIUS_MIN_Q9 0 @@ -1285,7 +1287,7 @@ enum #define MASA_RATIO_THRESHOLD 0.1f #define MASA_ANGLE_TOLERANCE 0.5f #define MASA_RATIO_THRESHOLD_FX 214748365 // 0.1 in Q31 -#define MASA_RATIO_TOLERANCE_FX 214748364/*0.1 Q30*/ +#define MASA_RATIO_TOLERANCE_FX 107374182 // 0.1 in Q30 #define MASA_ANGLE_TOLERANCE_FX ONE_IN_Q21 // 0.5 in Q22 #define MASA_LIMIT_NO_BANDS_SUR_COH 8 #define MINIMUM_BIT_BUDGET_NORMAL_META 100 @@ -1440,12 +1442,12 @@ typedef enum _COV_SMOOTHING_TYPE } COV_SMOOTHING_TYPE; typedef struct { - const int32_t *value; - const uint16_t *length; + const Word32 *value; + const UWord16 *length; } HUFF_TAB; typedef struct { - int32_t value[81]; + Word32 value[81]; unsigned short length[81]; } HUFF_ELEMENTS; @@ -1467,8 +1469,8 @@ typedef struct { typedef struct { - const int16_t (*alpha)[2]; - const int16_t (*beta)[2]; + const Word16 (*alpha)[2]; + const Word16 (*beta)[2]; } HUFF_NODE_TABLE; /*----------------------------------------------------------------------------------* diff --git a/lib_com/ivas_cov_smooth.c b/lib_com/ivas_cov_smooth_fx.c similarity index 78% rename from lib_com/ivas_cov_smooth.c rename to lib_com/ivas_cov_smooth_fx.c index 445ea8c78e22e5e04815372b1df63d22601dc3a8..9a8de3c1f055c1e3a119181c3c404a3a903242a7 100644 --- a/lib_com/ivas_cov_smooth.c +++ b/lib_com/ivas_cov_smooth_fx.c @@ -33,9 +33,7 @@ #include #include "options.h" #include "cnst.h" -#include "ivas_prot.h" #include "wmc_auto.h" -#include "prot.h" #include "prot_fx.h" #include "ivas_prot_fx.h" @@ -44,6 +42,8 @@ *-----------------------------------------------------------------------------------------*/ #define BAND_SMOOTH_REST_START_IDX ( 2 ) +#define ONEeN20_Q97 0x5E728433 // 1e-20 in Q97 1.584.563.251 + /*-----------------------------------------------------------------------------------------* * Function ivas_calculate_update_factor_fx() @@ -89,9 +89,10 @@ static void ivas_calculate_smoothning_factor_fx( move16(); tmp = BASOP_Util_Divide3232_Scale( update_factor, L_shl( L_deposit_l( min_pool_size ), Q22 ), &exp_diff ); // Q(31 - exp_diff) - *Smoothing_factor = L_shl_sat( L_deposit_l( tmp ), add( Q16, exp_diff ) ); // Q31 + *Smoothing_factor = L_shl_sat( L_deposit_h( tmp ), exp_diff ); // Q31 move32(); + IF( NE_32( smooth_mode, COV_SMOOTH_MC ) ) { IF( LT_32( ivas_total_brate, IVAS_24k4 ) ) @@ -266,19 +267,17 @@ void ivas_spar_covar_smooth_enc_close_fx( return; } - /*-----------------------------------------------------------------------------------------* * Function ivas_compute_smooth_cov_fx() * * Compute smooth covariance real/imag. *-----------------------------------------------------------------------------------------*/ - static void ivas_compute_smooth_cov_fx( ivas_cov_smooth_state_t *hCovState, ivas_filterbank_t *pFb, Word32 *pCov_buf[IVAS_SPAR_MAX_CH][IVAS_SPAR_MAX_CH], // i/o: Q(q_cov[i][j]) Word32 *pPrior_cov_buf[IVAS_SPAR_MAX_CH][IVAS_SPAR_MAX_CH], // i: hCovState->q_cov_real_per_band[i][j][k] - const Word32 fac, + const Word32 fac, // i: ONEeN20_Q97 (1e-20 in Q97) const Word16 start_band, const Word16 end_band, const Word16 num_ch, @@ -287,10 +286,15 @@ static void ivas_compute_smooth_cov_fx( { Word16 i, j, k; Word16 prev_idx = hCovState->prior_bank_idx; - Word32 factor = 0, L_tmp, L_tmp1; + Word32 factor = 0, L_tmp0, L_tmp1; + + const Word16 q_fac = 97; + const Word16 fac_e = sub( Q31, q_fac ); + + Word16 cov_buf_e; + Word16 sm_b; Word16 non_sm_b_idx; - Word16 q_tmp[IVAS_MAX_NUM_BANDS]; sm_b = BAND_SMOOTH_REST_START_IDX; move16(); @@ -298,7 +302,6 @@ static void ivas_compute_smooth_cov_fx( move32(); assert( end_band <= pFb->filterbank_num_bands ); - test(); IF( EQ_16( prev_idx, -1 ) || EQ_16( transient_det[1], 1 ) ) { @@ -313,9 +316,11 @@ static void ivas_compute_smooth_cov_fx( { FOR( k = start_band; k < end_band; k++ ) { - L_tmp = Mpy_32_32( hCovState->pSmoothing_factor_fx[k], fac ); // (Q31, Q31) -> Q31 - pCov_buf[i][i][k] = L_add( pCov_buf[i][i][k], L_shl( L_tmp, sub( hCovState->q_cov_real_per_band[i][i][k], Q31 ) ) ); // hCovState->q_cov_real_per_band[i][j][k] + /* ref: pCov_buf[i][i][k] += ( hCovState->pSmoothing_factor[k] * fac ); */ + pCov_buf[i][i][k] = BASOP_Util_Add_Mant32Exp( pCov_buf[i][i][k], sub( Q31, q_cov[i][i] ), Mpy_32_32( hCovState->pSmoothing_factor_fx[k], fac ), fac_e, &cov_buf_e ); move32(); + hCovState->q_cov_real_per_band[i][i][k] = sub( Q31, cov_buf_e ); + move16(); } } } @@ -328,38 +333,45 @@ static void ivas_compute_smooth_cov_fx( { IF( EQ_16( i, j ) ) { - factor = fac; // Q31 + factor = fac; // Q97 move32(); } ELSE { - factor = 0; + factor = 0; // Q97 move32(); } - set16_fx( q_tmp, q_cov[i][j], sub( end_band, start_band ) ); FOR( k = start_band; k < non_sm_b_idx; k++ ) { - L_tmp = Mpy_32_32( hCovState->pSmoothing_factor_fx[k], pCov_buf[i][j][k] ); // (Q31, q_cov[i][j]) -> q_cov[i][j] - L_tmp1 = Mpy_32_32( L_sub( ONE_IN_Q31, hCovState->pSmoothing_factor_fx[k] ), pPrior_cov_buf[i][j][k] ); // (Q31, hCovState->q_cov_real_per_band[i][j][k]) -> hCovState->q_cov_real_per_band[i][j][k] - pCov_buf[i][j][k] = BASOP_Util_Add_Mant32Exp( L_tmp, sub( Q31, q_cov[i][j] ), L_tmp1, sub( Q31, hCovState->q_prior_cov_real_per_band[i][j][k] ), &q_tmp[k] ); // Q(31 - q_tmp[k]) + /* ref: pCov_buf[i][j][k] = pPrior_cov_buf[i][j][k] + ( hCovState->pSmoothing_factor[k] * ( pCov_buf[i][j][k] - pPrior_cov_buf[i][j][k] + factor ) ); */ + /* mod: pCov_buf[i][j][k] = pCov_buf[i][j][k] * hCovState->pSmoothing_factor[k] + + pPrior_cov_buf[i][j][k] * (1.0 - hCovState->pSmoothing_factor[k]) + + factor * hCovState->pSmoothing_factor[k] ); */ + L_tmp0 = Mpy_32_32( hCovState->pSmoothing_factor_fx[k], pCov_buf[i][j][k] ); // q_tmp0: q_cov[i][j] // (Q31, q_cov[i][j]) -> q_cov[i][j] + L_tmp1 = Mpy_32_32( L_sub( ONE_IN_Q31, hCovState->pSmoothing_factor_fx[k] ), pPrior_cov_buf[i][j][k] ); // q_tmp1: hCovState->q_prior_cov_real_per_band[i][j][k] + L_tmp0 = BASOP_Util_Add_Mant32Exp( L_tmp0, sub( Q31, q_cov[i][j] ), L_tmp1, sub( Q31, hCovState->q_prior_cov_real_per_band[i][j][k] ), &cov_buf_e ); + pCov_buf[i][j][k] = BASOP_Util_Add_Mant32Exp( L_tmp0, cov_buf_e, Mpy_32_32( hCovState->pSmoothing_factor_fx[k], factor ), fac_e, &cov_buf_e ); move32(); - q_tmp[k] = sub( Q31, q_tmp[k] ); // Q of pConv_buf[i][j][k] is now q_tmp[k] + hCovState->q_cov_real_per_band[i][j][k] = sub( Q31, cov_buf_e ); // Q of pCov_buf[i][j][k] + move16(); + } + FOR( ; k < end_band; k++ ) + { + hCovState->q_cov_real_per_band[i][j][k] = q_cov[i][j]; move16(); - L_tmp = L_shl( Mpy_32_32( hCovState->pSmoothing_factor_fx[k], factor ), sub( q_tmp[k], Q31 ) ); // ((Q31, Q31) -> Q31) -> q_tmp[k] - pCov_buf[i][j][k] = L_add( pCov_buf[i][j][k], L_tmp ); // q_tmp[k] - move32(); } - Copy( q_tmp, hCovState->q_cov_real_per_band[i][j], sub( end_band, start_band ) ); // Q of pCov_buf[i][j][k] is hCovState->q_cov_real_per_band[i][j][j] } } FOR( i = 0; i < num_ch; i++ ) { FOR( k = non_sm_b_idx; k < end_band; k++ ) { - L_tmp = Mpy_32_32( hCovState->pSmoothing_factor_fx[k], fac ); // (Q31, Q31) -> Q31 - pCov_buf[i][i][k] = L_add( pCov_buf[i][i][k], L_shl( L_tmp, sub( hCovState->q_cov_real_per_band[i][i][k], Q31 ) ) ); // hCovState->q_cov_real_per_band[i][j][j] + /* ref: pCov_buf[i][i][k] += ( hCovState->pSmoothing_factor[k] * fac ); */ + pCov_buf[i][i][k] = BASOP_Util_Add_Mant32Exp( pCov_buf[i][i][k], sub( Q31, q_cov[i][i] ), Mpy_32_32( hCovState->pSmoothing_factor_fx[k], fac ), fac_e, &cov_buf_e ); move32(); + hCovState->q_cov_real_per_band[i][i][k] = sub( Q31, cov_buf_e ); // Q of pCov_buf[i][i][k] + move16(); } } } @@ -371,28 +383,29 @@ static void ivas_compute_smooth_cov_fx( { IF( EQ_16( i, j ) ) { - factor = fac; // Q31 + factor = fac; // Q97 move32(); } ELSE { - factor = 0; + factor = 0; // Q97 move32(); } FOR( k = start_band; k < end_band; k++ ) { - L_tmp = Mpy_32_32( hCovState->pSmoothing_factor_fx[k], pCov_buf[i][j][k] ); // (Q31, q_cov[i][j]) -> q_cov[i][j] - L_tmp1 = Mpy_32_32( L_sub( ONE_IN_Q31, hCovState->pSmoothing_factor_fx[k] ), pPrior_cov_buf[i][j][k] ); // (Q31, hCovState->q_cov_real_per_band[i][j][k]) -> hCovState->q_cov_real_per_band[i][j][k] - pCov_buf[i][j][k] = BASOP_Util_Add_Mant32Exp( L_tmp, sub( Q31, q_cov[i][j] ), L_tmp1, sub( Q31, hCovState->q_prior_cov_real_per_band[i][j][k] ), &q_tmp[k] ); // Q(31 - q_tmp[k]) + /* ref: pCov_buf[i][j][k] = pPrior_cov_buf[i][j][k] + ( hCovState->pSmoothing_factor[k] * ( pCov_buf[i][j][k] - pPrior_cov_buf[i][j][k] + factor ) ); */ + /* mod: pCov_buf[i][j][k] = pCov_buf[i][j][k] * hCovState->pSmoothing_factor[k] + + pPrior_cov_buf[i][j][k] * (1.0 - hCovState->pSmoothing_factor[k]) + + factor * hCovState->pSmoothing_factor[k] ); */ + L_tmp0 = Mpy_32_32( hCovState->pSmoothing_factor_fx[k], pCov_buf[i][j][k] ); // q_tmp0: q_cov[i][j] // (Q31, q_cov[i][j]) -> q_cov[i][j] + L_tmp1 = Mpy_32_32( L_sub( ONE_IN_Q31, hCovState->pSmoothing_factor_fx[k] ), pPrior_cov_buf[i][j][k] ); // q_tmp1: hCovState->q_prior_cov_real_per_band[i][j][k] + L_tmp0 = BASOP_Util_Add_Mant32Exp( L_tmp0, sub( Q31, q_cov[i][j] ), L_tmp1, sub( Q31, hCovState->q_prior_cov_real_per_band[i][j][k] ), &cov_buf_e ); + pCov_buf[i][j][k] = BASOP_Util_Add_Mant32Exp( L_tmp0, cov_buf_e, Mpy_32_32( hCovState->pSmoothing_factor_fx[k], factor ), fac_e, &cov_buf_e ); move32(); - q_tmp[k] = sub( Q31, q_tmp[k] ); // Q of pConv_buf[i][j][k] is now q_tmp[k] + hCovState->q_cov_real_per_band[i][j][k] = sub( Q31, cov_buf_e ); // Q of pCov_buf[i][j][k] move16(); - L_tmp = L_shl( Mpy_32_32( hCovState->pSmoothing_factor_fx[k], factor ), sub( q_tmp[k], Q31 ) ); // ((Q31, Q31) -> Q31) -> q_tmp[k] - pCov_buf[i][j][k] = L_add( pCov_buf[i][j][k], L_tmp ); // q_tmp[k] - move32(); } - Copy( q_tmp, hCovState->q_cov_real_per_band[i][j], sub( end_band, start_band ) ); // Q of pCov_buf[i][j][k] is hCovState->q_cov_real_per_band[i][j][j] } } } @@ -420,7 +433,7 @@ void ivas_cov_smooth_process_fx( Word16 i, j, k; Word16 num_bands = sub( end_band, start_band ); - ivas_compute_smooth_cov_fx( hCovState, pFb, cov_real, hCovState->pPrior_cov_real_fx, 0, start_band, end_band, num_ch, transient_det, q_cov ); + ivas_compute_smooth_cov_fx( hCovState, pFb, cov_real, hCovState->pPrior_cov_real_fx, ONEeN20_Q97, start_band, end_band, num_ch, transient_det, q_cov ); FOR( i = 0; i < num_ch; i++ ) { diff --git a/lib_com/ivas_dirac_com.c b/lib_com/ivas_dirac_com_fx.c similarity index 95% rename from lib_com/ivas_dirac_com.c rename to lib_com/ivas_dirac_com_fx.c index 557db9696924b28e7e610943125931ebb4c2d13c..f68b976a727e47dd4d3c53211c7da7beb7504380 100644 --- a/lib_com/ivas_dirac_com.c +++ b/lib_com/ivas_dirac_com_fx.c @@ -36,11 +36,9 @@ #include #include "ivas_cnst.h" #include "ivas_rom_com.h" -#include "ivas_prot.h" -#include "prot.h" +#include "prot_fx.h" #include "cnst.h" #include "wmc_auto.h" -#include "prot_fx.h" #include "ivas_prot_fx.h" #include "ivas_rom_com_fx.h" @@ -225,11 +223,11 @@ ivas_error ivas_dirac_config_fx( IF( EQ_32( ivas_format, SBA_FORMAT ) || EQ_32( ivas_format, SBA_ISM_FORMAT ) ) { // 100861_dirac_dec - ivas_dirac_config_bands_fx( band_grouping, IVAS_MAX_NUM_BANDS, (Word16) ( Fs * INV_CLDFB_BANDWIDTH + 0.5f ), dirac_to_spar_md_bands, hQMetaData->useLowerBandRes, hConfig->enc_param_start_band, hFbMdft ); + ivas_dirac_config_bands_fx( band_grouping, IVAS_MAX_NUM_BANDS, (Word16) ( Fs * INV_CLDFB_BANDWIDTH + 0.5f ), dirac_to_spar_md_bands, hQMetaData->useLowerBandRes, hConfig->enc_param_start_band, hFbMdft, 1 ); } ELSE { - ivas_dirac_config_bands_fx( band_grouping, hConfig->nbands, (Word16) ( Fs * INV_CLDFB_BANDWIDTH + 0.5f ), NULL, 0, 0, hFbMdft ); + ivas_dirac_config_bands_fx( band_grouping, hConfig->nbands, (Word16) ( Fs * INV_CLDFB_BANDWIDTH + 0.5f ), NULL, 0, 0, hFbMdft, 1 ); } return error; @@ -237,19 +235,20 @@ ivas_error ivas_dirac_config_fx( /*------------------------------------------------------------------------- - * ivas_dirac_sba_config_bands() + * ivas_dirac_config_bands_fx() * * DirAC Configuration freq. band function; used also in MASA decoder *------------------------------------------------------------------------*/ void ivas_dirac_config_bands_fx( - Word16 *band_grouping, /* o : band grouping */ - const Word16 nbands, /* i : number of bands */ - const Word16 max_band, /* i : maximal band index +1 */ - Word16 *dirac_to_spar_md_bands, - const Word8 useLowerBandRes, - const Word16 enc_param_start_band, - IVAS_FB_MIXER_HANDLE hFbMdft ) + Word16 *band_grouping, /* o : band grouping */ + const Word16 nbands, /* i : number of bands */ + const Word16 max_band, /* i : maximal band index +1 */ + Word16 *dirac_to_spar_md_bands, /* o : mapping of DirAC parameter band index to SPAR FB band index */ + const Word8 useLowerBandRes, /* i : flag indicating lower band resolution for DirAC */ + const Word16 enc_param_start_band, /* i : band index of first DirAC parameter band */ + IVAS_FB_MIXER_HANDLE hFbMdft, + const Word8 BandGroupLowRes ) { Word16 i; { @@ -309,15 +308,19 @@ void ivas_dirac_config_bands_fx( Word16 step = DIRAC_LOW_BANDRES_STEP; move16(); Word16 reduced_band; - FOR( ( band = enc_param_start_band + 2, reduced_band = enc_param_start_band + 1 ); band <= DIRAC_MAX_NBANDS; ( band += step, reduced_band++ ) ) - { - band_grouping[reduced_band] = band_grouping[band]; - move16(); - } - FOR( ; reduced_band <= DIRAC_MAX_NBANDS; reduced_band++ ) + + IF( BandGroupLowRes ) { - band_grouping[reduced_band] = max_band; - move16(); + FOR( ( band = enc_param_start_band + 2, reduced_band = enc_param_start_band + 1 ); band <= DIRAC_MAX_NBANDS; ( band += step, reduced_band++ ) ) + { + band_grouping[reduced_band] = band_grouping[band]; + move16(); + } + FOR( ; reduced_band <= DIRAC_MAX_NBANDS; reduced_band++ ) + { + band_grouping[reduced_band] = max_band; + move16(); + } } FOR( ( band = enc_param_start_band + ( DIRAC_MAX_NBANDS - enc_param_start_band ) / 2 - 1, reduced_band = DIRAC_MAX_NBANDS - 1 ); band >= enc_param_start_band; ( band--, reduced_band -= step ) ) { @@ -354,6 +357,8 @@ void ivas_dirac_config_bands_fx( return; } + + /*-------------------------------------------------------------------* * ivas_get_dirac_sba_max_md_bits() * @@ -611,11 +616,8 @@ void computeDirectionVectors_fixed( Word32 *direction_vector_y, /* o: Q30*/ Word32 *direction_vector_z, /* o: Q30*/ Word16 i_e /*Exponent of all the intensity buffers*/ -#ifdef NONBE_IMPROVE_DIRAC_INTENSITY_PREC , - Word16 *i_e_band -#endif -) + Word16 *i_e_band ) { Word16 i; Word32 intensityNorm; @@ -633,7 +635,6 @@ void computeDirectionVectors_fixed( scaled_x = L_shl( *intensity_real_x, norm_x ); scaled_y = L_shl( *intensity_real_y, norm_y ); scaled_z = L_shl( *intensity_real_z, norm_z ); -#ifdef NONBE_IMPROVE_DIRAC_INTENSITY_PREC IF( i_e_band != NULL ) { e_x = sub( Q31, add( i_e_band[i - enc_param_start_band], norm_x ) ); @@ -646,12 +647,6 @@ void computeDirectionVectors_fixed( e_y = sub( i_e, norm_y ); e_z = sub( i_e, norm_z ); } -#else - - e_x = sub( i_e, norm_x ); - e_y = sub( i_e, norm_y ); - e_z = sub( i_e, norm_z ); -#endif temp1 = BASOP_Util_Add_Mant32Exp( Mult_32_32( scaled_x, scaled_x ), shl( e_x, 1 ), Mult_32_32( scaled_y, scaled_y ), shl( e_y, 1 ), &exp1 ); intensityNorm = BASOP_Util_Add_Mant32Exp( temp1, exp1, Mult_32_32( scaled_z, scaled_z ), shl( e_z, 1 ), &intensityNorm_e ); @@ -968,17 +963,12 @@ void computeDiffuseness_fixed( q_tmp = add( q_factor_energy[i], min_q_shift1 ); -#ifdef FIX_1072_SPEEDUP_COMPUTEDIFUSENESS Word16 shift_q = sub( q_tmp, q_ene ); Word32 shiftEquiv = L_add( 0, 0 ); Word16 shift_qtotal; if ( shift_q < 0 ) { -#ifdef FIX_USAN_ISSUES shiftEquiv = L_lshl( (Word32) 0x80000000, shift_q ); -#else - shiftEquiv = L_lshl( 0x80000000, shift_q ); -#endif } if ( shift_q >= 0 ) { @@ -992,27 +982,6 @@ void computeDiffuseness_fixed( energy_slow[k] = Madd_32_32_r( tmp, energy_slow[k], shiftEquiv ); move32(); } -#else - Word16 shift_q = sub( q_tmp, q_ene ); - IF( shift_q < 0 ) - { - FOR( k = 0; k < num_freq_bands; k++ ) - { - tmp = L_shl( p_tmp_c[k], min_q_shift1 ); - energy_slow[k] = L_add( L_shl( energy_slow[k], shift_q ), tmp ); - move32(); - } - } - ELSE - { - FOR( k = 0; k < num_freq_bands; k++ ) - { - tmp = L_shl( p_tmp_c[k], min_q_shift1 ); - energy_slow[k] = L_add( energy_slow[k], L_shr( tmp, shift_q ) ); - move32(); - } - } -#endif q_ene = s_min( q_ene, q_tmp ); @@ -1021,14 +990,9 @@ void computeDiffuseness_fixed( q_tmp = add( q_factor_intensity[i], min_q_shift2 ); shift_q = sub( q_tmp, q_intensity ); -#ifdef FIX_1072_SPEEDUP_COMPUTEDIFUSENESS if ( shift_q < 0 ) { -#ifdef FIX_USAN_ISSUES shiftEquiv = L_lshl( (Word32) 0x80000000, shift_q ); -#else - shiftEquiv = L_lshl( 0x80000000, shift_q ); -#endif } if ( shift_q >= 0 ) { @@ -1046,34 +1010,6 @@ void computeDiffuseness_fixed( move32(); } } -#else - IF( shift_q > 0 ) - { - FOR( j = 0; j < DIRAC_NUM_DIMS; ++j ) - { - p_tmp = buffer_intensity[j][i]; - FOR( k = 0; k < num_freq_bands; k++ ) - { - tmp = L_shl( p_tmp[k], min_q_shift2 ); - intensity_slow[j * num_freq_bands + k] = L_add( intensity_slow[j * num_freq_bands + k], L_shr( tmp, shift_q ) ); - move32(); - } - } - } - ELSE - { - FOR( j = 0; j < DIRAC_NUM_DIMS; ++j ) - { - p_tmp = buffer_intensity[j][i]; - FOR( k = 0; k < num_freq_bands; k++ ) - { - tmp = L_shl( p_tmp[k], min_q_shift2 ); - intensity_slow[j * num_freq_bands + k] = L_add( L_shl( intensity_slow[j * num_freq_bands + k], shift_q ), tmp ); - move32(); - } - } - } -#endif q_intensity = s_min( q_intensity, q_tmp ); } diff --git a/lib_com/ivas_entropy_coder_common.c b/lib_com/ivas_entropy_coder_common_fx.c similarity index 99% rename from lib_com/ivas_entropy_coder_common.c rename to lib_com/ivas_entropy_coder_common_fx.c index d28828d6f4d20b163ab0e4a57faaf83391e359c8..f52d59859e7833964f125b0837b23a7d18c91dce 100644 --- a/lib_com/ivas_entropy_coder_common.c +++ b/lib_com/ivas_entropy_coder_common_fx.c @@ -32,10 +32,9 @@ #include #include "options.h" -#include "ivas_prot.h" #include "ivas_rom_com.h" #include "math.h" -#include "prot.h" +#include "prot_fx.h" #include "wmc_auto.h" #include "ivas_prot_fx.h" diff --git a/lib_com/ivas_fb_mixer.c b/lib_com/ivas_fb_mixer_fx.c similarity index 99% rename from lib_com/ivas_fb_mixer.c rename to lib_com/ivas_fb_mixer_fx.c index 498de0188e11b973567acde6d1771ffe56d3b866..d5cd8d4f17875b44cbcecb447e9bf0463a25f056 100644 --- a/lib_com/ivas_fb_mixer.c +++ b/lib_com/ivas_fb_mixer_fx.c @@ -34,13 +34,11 @@ #include #include #include "options.h" -#include "prot.h" -#include "ivas_prot.h" +#include "prot_fx.h" #include "rom_com.h" #include "ivas_rom_com.h" #include "wmc_auto.h" #include "ivas_prot_fx.h" -#include "prot_fx.h" #include "ivas_rom_com_fx.h" @@ -1289,7 +1287,7 @@ static ivas_error ivas_filterbank_setup_fx( ivas_get_active_bins_fx( &pAll_bins_per_band, &pAll_bins_per_band_abs, &pAll_bins_start_offset, &pAll_bins_start_offset_abs, sampling_rate ); - IF( EQ_16( pCfg->fb_latency, NS2SA( sampling_rate, DELAY_FB_1_NS ) ) ) + IF( EQ_16( pCfg->fb_latency, NS2SA_FX2( sampling_rate, DELAY_FB_1_NS ) ) ) { pAll_fb_fr_fx[0] = ivas_fb_fr_12band_1ms_re_fx; // Q30 move32(); @@ -1478,7 +1476,7 @@ static ivas_error ivas_fb_mixer_get_window_fx( error = IVAS_ERR_OK; move32(); - IF( EQ_16( fade_len, NS2SA( sampling_rate, DELAY_FB_4_NS ) ) ) + IF( EQ_16( fade_len, NS2SA_FX2( sampling_rate, DELAY_FB_4_NS ) ) ) { SWITCH( sampling_rate ) { @@ -1495,7 +1493,7 @@ static ivas_error ivas_fb_mixer_get_window_fx( return IVAS_ERROR( IVAS_ERR_INTERNAL_FATAL, "Unsupported Sampling frequency!" ); } } - ELSE IF( EQ_16( fade_len, NS2SA( sampling_rate, DELAY_FB_1_NS ) ) ) + ELSE IF( EQ_16( fade_len, NS2SA_FX2( sampling_rate, DELAY_FB_1_NS ) ) ) { SWITCH( sampling_rate ) { diff --git a/lib_com/ivas_filters.c b/lib_com/ivas_filters_fx.c similarity index 99% rename from lib_com/ivas_filters.c rename to lib_com/ivas_filters_fx.c index 7705deb6afba76acb6c496fbe4851ac27358379b..1e9aaf0c20771fffa77bbebf43f7109a95cc50b5 100644 --- a/lib_com/ivas_filters.c +++ b/lib_com/ivas_filters_fx.c @@ -32,7 +32,6 @@ #include #include "options.h" -#include "ivas_prot.h" #include "ivas_cnst.h" #include "ivas_stat_com.h" #include "wmc_auto.h" diff --git a/lib_com/ivas_ism_com.c b/lib_com/ivas_ism_com_fx.c similarity index 99% rename from lib_com/ivas_ism_com.c rename to lib_com/ivas_ism_com_fx.c index 74e9641aaa290fb689cd3a0ceb4b414d024c05c5..5f1a13afb7ca1a431d823a6d5461813e136c34a0 100644 --- a/lib_com/ivas_ism_com.c +++ b/lib_com/ivas_ism_com_fx.c @@ -35,15 +35,12 @@ #include "cnst.h" #include "ivas_cnst.h" #include "rom_com.h" -#include "prot.h" -#include "ivas_prot.h" +#include "prot_fx.h" #include "ivas_stat_com.h" #include "ivas_rom_com.h" #include "wmc_auto.h" #include "ivas_prot_fx.h" -#include "prot_fx.h" -#define IVAS_FLOAT_FIXED_TO_BE_REMOVED /*-----------------------------------------------------------------------* * Local constants diff --git a/lib_com/ivas_lfe_com.c b/lib_com/ivas_lfe_com_fx.c similarity index 99% rename from lib_com/ivas_lfe_com.c rename to lib_com/ivas_lfe_com_fx.c index 4d993d64f1b23234bb43c5b46800a632f92b1e2a..3d1e7aee66e4b495f8aadbff57788cacdcc5389c 100644 --- a/lib_com/ivas_lfe_com.c +++ b/lib_com/ivas_lfe_com_fx.c @@ -34,8 +34,7 @@ #include "math.h" #include "options.h" #include "ivas_stat_com.h" -#include "prot.h" -#include "ivas_prot.h" +#include "prot_fx.h" #include "rom_com.h" #include "ivas_rom_com.h" #include "cnst.h" diff --git a/lib_com/ivas_limiter.c b/lib_com/ivas_limiter_fx.c similarity index 99% rename from lib_com/ivas_limiter.c rename to lib_com/ivas_limiter_fx.c index 479248160371a3d76af67111c80c523275a5a9a5..4250d7a7a46db4ebc5500b6754d015d1f25a601d 100644 --- a/lib_com/ivas_limiter.c +++ b/lib_com/ivas_limiter_fx.c @@ -33,8 +33,8 @@ #include #include "options.h" #include -#include "prot.h" -#include "ivas_prot_rend.h" +#include "prot_fx.h" +#include "ivas_prot_rend_fx.h" #include "ivas_rom_rend.h" #include "ivas_rom_com.h" #include "wmc_auto.h" diff --git a/lib_com/ivas_masa_com.c b/lib_com/ivas_masa_com_fx.c similarity index 99% rename from lib_com/ivas_masa_com.c rename to lib_com/ivas_masa_com_fx.c index 35db926d0a60f6ac52e7e35bdaab20bac34de81c..cfed06357fe908e6c3fda28720aa7272ca67adb0 100644 --- a/lib_com/ivas_masa_com.c +++ b/lib_com/ivas_masa_com_fx.c @@ -34,14 +34,12 @@ #include #include "options.h" #include -#include "prot.h" +#include "prot_fx.h" #include "ivas_cnst.h" -#include "ivas_prot.h" #include "ivas_rom_com.h" #include "ivas_stat_dec.h" #include "wmc_auto.h" #include "ivas_rom_com_fx.h" -#include "prot_fx.h" #include "ivas_prot_fx.h" diff --git a/lib_com/ivas_mc_com.c b/lib_com/ivas_mc_com_fx.c similarity index 99% rename from lib_com/ivas_mc_com.c rename to lib_com/ivas_mc_com_fx.c index 88d6c1b5ec8526ac9afc06ac569ae91fc1a4d4f2..8201037a1a5f89eb53acb0e81787b0a87f68da5c 100644 --- a/lib_com/ivas_mc_com.c +++ b/lib_com/ivas_mc_com_fx.c @@ -34,8 +34,7 @@ #include #include "options.h" #include -#include "prot.h" -#include "ivas_prot.h" +#include "prot_fx.h" #include "wmc_auto.h" #include "ivas_prot_fx.h" diff --git a/lib_com/ivas_mc_param_com.c b/lib_com/ivas_mc_param_com_fx.c similarity index 99% rename from lib_com/ivas_mc_param_com.c rename to lib_com/ivas_mc_param_com_fx.c index d69da849a4450816e9bb35fe78facfc4c6e96833..4469e7f93d82856a3e2db90e362e3e02265108be 100644 --- a/lib_com/ivas_mc_param_com.c +++ b/lib_com/ivas_mc_param_com_fx.c @@ -35,9 +35,7 @@ #include #include "options.h" #include "ivas_cnst.h" -#include "prot.h" #include "prot_fx.h" -#include "ivas_prot.h" #include "ivas_stat_com.h" #include "ivas_rom_com.h" #include "wmc_auto.h" diff --git a/lib_com/ivas_mcmasa_com.c b/lib_com/ivas_mcmasa_com-fx.c similarity index 99% rename from lib_com/ivas_mcmasa_com.c rename to lib_com/ivas_mcmasa_com-fx.c index da0b8f1c4f20898d92d6a9106e0f25ca495de058..23a3800fb792ba9eeee06ef4cd26001a9b54d5e6 100644 --- a/lib_com/ivas_mcmasa_com.c +++ b/lib_com/ivas_mcmasa_com-fx.c @@ -31,7 +31,6 @@ *******************************************************************************************************/ #include "ivas_cnst.h" -#include "ivas_prot.h" #include "options.h" #include "wmc_auto.h" #include "ivas_prot_fx.h" diff --git a/lib_com/ivas_mct_com.c b/lib_com/ivas_mct_com_fx.c similarity index 99% rename from lib_com/ivas_mct_com.c rename to lib_com/ivas_mct_com_fx.c index b220d69a7651fbe29593101d76d17ad20d306022..81a56df146d9ba7378dbcadacb6aeb39b98f28b0 100644 --- a/lib_com/ivas_mct_com.c +++ b/lib_com/ivas_mct_com_fx.c @@ -33,8 +33,8 @@ #include #include "options.h" #include "ivas_cnst.h" -#include "ivas_prot.h" -#include "prot.h" +#include "prot_fx.h" +#include "ivas_prot_fx.h" #include "wmc_auto.h" #include diff --git a/lib_com/ivas_mdct_core_com.c b/lib_com/ivas_mdct_core_com_fx.c similarity index 99% rename from lib_com/ivas_mdct_core_com.c rename to lib_com/ivas_mdct_core_com_fx.c index a5cfb8673abbf845b4938d48d8a14dd73cdc3b49..fe313eecdd7c3be915f9d9aa73c37081e79b61ac 100644 --- a/lib_com/ivas_mdct_core_com.c +++ b/lib_com/ivas_mdct_core_com_fx.c @@ -33,10 +33,8 @@ #include #include "options.h" #include "ivas_cnst.h" -#include "ivas_prot.h" -#include "prot.h" -#include "wmc_auto.h" #include "prot_fx.h" +#include "wmc_auto.h" #include "ivas_prot_fx.h" /*--------------------------------------------------------------------------* diff --git a/lib_com/ivas_mdft_imdft.c b/lib_com/ivas_mdft_imdft_fx.c similarity index 99% rename from lib_com/ivas_mdft_imdft.c rename to lib_com/ivas_mdft_imdft_fx.c index 0f24fba817b5c3f3781266a7e8dc55033bfc01a0..5d7bee1a6929347ac19968f7d8996878878f8897 100644 --- a/lib_com/ivas_mdft_imdft.c +++ b/lib_com/ivas_mdft_imdft_fx.c @@ -33,14 +33,12 @@ #include #include "options.h" -#include "prot.h" -#include "ivas_prot.h" +#include "prot_fx.h" #include "ivas_rom_com.h" #include #include "wmc_auto.h" #include #include -#include "prot_fx.h" #include "debug.h" #include "ivas_rom_com_fx.h" #include "ivas_prot_fx.h" diff --git a/lib_com/ivas_omasa_com.c b/lib_com/ivas_omasa_com_fx.c similarity index 99% rename from lib_com/ivas_omasa_com.c rename to lib_com/ivas_omasa_com_fx.c index eb230b224a57dd7e58e083a97dbef256d2577c19..1c1d4bf6cb6ca87def78b29f60c793547d2f3e4d 100644 --- a/lib_com/ivas_omasa_com.c +++ b/lib_com/ivas_omasa_com_fx.c @@ -33,13 +33,11 @@ #include "options.h" #include #include "ivas_cnst.h" -#include "ivas_prot.h" #include "ivas_prot_fx.h" -#include "prot.h" +#include "prot_fx.h" #include "ivas_rom_com.h" #include "rom_com.h" #include -#include "prot_fx.h" /*--------------------------------------------------------------- * Local constants diff --git a/lib_com/ivas_pca_tools.c b/lib_com/ivas_pca_tools_fx.c similarity index 99% rename from lib_com/ivas_pca_tools.c rename to lib_com/ivas_pca_tools_fx.c index 5689e81c01988cc20f6fb56879945270a0b03788..c84078a7d4291080687cfe2597eafe8af3aba784 100644 --- a/lib_com/ivas_pca_tools.c +++ b/lib_com/ivas_pca_tools_fx.c @@ -32,13 +32,11 @@ #include #include "options.h" -#include "ivas_prot.h" #include "ivas_cnst.h" #include #include #include "ivas_rom_com.h" #include "wmc_auto.h" -#include "prot.h" #include "prot_fx.h" #include "ivas_prot_fx.h" diff --git a/lib_com/ivas_prot.h b/lib_com/ivas_prot.h index 1e7c52df54b3b5241fc6eb4757b6d4a3fe7aca7a..9ee17fed6baebe335659ce5631a2ce4c1d7adf9f 100644 --- a/lib_com/ivas_prot.h +++ b/lib_com/ivas_prot.h @@ -4011,12 +4011,13 @@ void ivas_omasa_modify_masa_energy_ratios( * TD Binaural Object renderer *----------------------------------------------------------------------------------*/ +#ifndef FIX_910_REMOVE_DUPLICATION_TD_REND ivas_error ivas_td_binaural_renderer( Decoder_Struct *st_ivas, /* i/o: IVAS decoder structure */ float *output[], /* i/o: SCE channels / Binaural synthesis */ const int16_t output_frame /* i : output frame length */ ); - +#endif ivas_error ivas_td_binaural_renderer_sf( Decoder_Struct *st_ivas, /* i/o: IVAS decoder structure */ float *output[], /* i/o: SCE channels / Binaural synthesis */ diff --git a/lib_com/ivas_prot_fx.h b/lib_com/ivas_prot_fx.h index fea1ff7e40023d0976e413fda31166a4935290a6..6c9166111ff804ab906449b4b2fc7ed20de5e85e 100644 --- a/lib_com/ivas_prot_fx.h +++ b/lib_com/ivas_prot_fx.h @@ -46,6 +46,12 @@ #include "ivas_stat_com.h" #include "ivas_error_utils.h" +/* clang-format off */ + +/*----------------------------------------------------------------------------------* + * General IVAS prototypes + *----------------------------------------------------------------------------------*/ + ivas_error ivas_masa_dec_open_fx( Decoder_Struct *st_ivas /* i/o: IVAS decoder handle */ ); @@ -165,11 +171,6 @@ ivas_error ivas_omasa_dec_config_fx( Word16 SrcInd[MAX_NUM_TDREND_CHANNELS], Word16 *data /* o : output synthesis signal */ ); -ivas_error ivas_td_binaural_renderer_sf_fx( - Decoder_Struct *st_ivas, /* i/o: IVAS decoder structure */ - Word32 *output_fx[], /* i/o: SCE channels / Binaural synthesis */ - const Word16 n_samples_granularity /* i : granularity of the renderer/buffer */ -); void ivas_omasa_modify_masa_energy_ratios_fx( IVAS_QMETADATA_HANDLE hQMetaData, /* i/o: q_metadata handle */ @@ -670,11 +671,6 @@ Word16 read_flag_EC_DFT( Word16 *flag /* o : flag value */ ); -/*file : ivas_mc_param_dec_fx.c*/ -Word16 param_mc_get_num_cldfb_syntheses_ivas_fx( - Decoder_Struct *st_ivas /* i : Parametric MC handle */ -); - void ivas_init_dec_get_num_cldfb_instances( Decoder_Struct *st_ivas, /* i : IVAS decoder structure */ Word16 *numCldfbAnalyses, /* o : number of CLDFB analysis instances */ @@ -1164,7 +1160,11 @@ void ivas_apply_non_diegetic_panning_fx( const Word16 output_frame /* i : output frame length per channel */ ); +#ifdef NONBE_FIX_967_ISM_MONO_DMX +void ivas_ism_mono_dmx_fx( +#else void ivas_mono_downmix_render_passive_fx( +#endif Decoder_Struct *st_ivas, /* i/o: IVAS decoder structure */ Word32 *output_f_fx[], /* i/o: synthesized core-coder transport channels/mono output */ const Word16 output_frame /* i : output frame length */ @@ -1315,6 +1315,18 @@ Word16 matrix_diag_product_fx( Word32 *Z, /* o : resulting matrix after the matrix multiplication */ Word16 *Z_e ); +Word16 matrix_diag_product_fx_2( + const Word32 *X, /* i : left hand matrix Q31 - X_e*/ + const Word16 X_e, + const Word16 rowsX, /* i : number of rows of the left hand matrix Q0*/ + const Word16 colsX, /* i : number of columns of the left hand matrix Q0*/ + const Word16 transpX, /* i : flag indicating the transposition of the left hand matrix prior to the multiplication Q0*/ + const Word32 *Y, /* i : right hand diagonal matrix as vector containing the diagonal elements Q31 - Y_e*/ + const Word16 *Y_e, + const Word16 entriesY, /* i : number of entries in the diagonal Q0*/ + Word32 *Z, /* o : resulting matrix after the matrix multiplication Q31 - Z_e*/ + Word16 *Z_e ); + Word16 matrix_diag_product_fx_1( const Word32 *X, /* i : left hand matrix */ const Word16 *X_e, @@ -1961,6 +1973,7 @@ void ivas_DetectTonalComponents_fx( const Word16 scaleFactors_exp[], const Word16 scaleFactors_max_e, const Word32 secondLastPowerSpectrum[], + const Word16 secondLastPowerSpectrum_e, const Word16 nSamples, const Word16 nSamplesCore, Word16 floorPowerSpectrum, /* i: lower limit for power spectrum bins */ @@ -2276,20 +2289,6 @@ ivas_error ivas_mct_dec_fx( const Word16 output_frame, /* i : output frame length per channel */ const Word16 nb_bits_metadata /* i : number of metadata bits */ ); -void swb_tbe_reset_synth_ivas_fx( - Word32 genSHBsynth_Hilbert_Mem[], - Word16 genSHBsynth_state_lsyn_filt_shb_local_fx[], - Word32 genSHBsynth_state_lsyn_filt_shb_local_fx_32[] ); - -void InitSWBdecBuffer_ivas_fx( - Decoder_State *st_fx /* i/o: SHB decoder structure */ -); - -void td_bwe_dec_init_ivas_fx( - Decoder_State *st_fx, /* i/o: SHB decoder structure */ - TD_BWE_DEC_HANDLE hBWE_TD, /* i/o: TD BWE data handle */ - const Word32 output_Fs /* i : output sampling rate */ -); void ivas_dirac_dec_render_sf_fx( Decoder_Struct *st_ivas, /* i/o: IVAS decoder structure */ @@ -2955,7 +2954,7 @@ void stereo_dft_enc_write_BS_fx( void stereo_dft_enc_res_fx( STEREO_DFT_ENC_DATA_HANDLE hStereoDft, /* i/o: encoder stereo handle */ - const Word32 *input_8k, /* i : input buffer sampled at 8kHz Q16 */ + const Word32 *input_8k, /* i : input buffer sampled at 8kHz Q15 */ BSTR_ENC_HANDLE hBstr, /* i/o: bitstream handle */ Word16 *nb_bits, /* o : number of bits written */ const Word16 max_bits ); @@ -3022,7 +3021,7 @@ Word16 ivas_acelp_tcx20_switching_fx( Word16 non_staX, /* i : unbound non-stationarity for sp/mu clas */ Word16 *pitch_fr, /* i : fraction pitch values */ Word16 *voicing_fr, /* i : fractional voicing values */ - Word16 currFlatness, /* i : flatness */ + Word32 currFlatness, /* i : flatness */ Word16 lsp_mid[M], /* i : LSPs at the middle of the frame */ Word16 stab_fac, /* i : LP filter stability */ Word32 *res_cod_SNR_M, @@ -3051,10 +3050,11 @@ void acelp_fast_fx( BSTR_ENC_HANDLE hBstr, /* i/o: encoder bitstream handle */ const Word16 cdk_index, /* i : codebook index */ const Word16 dn_orig[L_SUBFR], - /* i : corr. between target and h[]. */ // Q_new + 1 + /* i : corr. between target and h[]. */ // Q_dn Word16 Q_dn, const Word16 cn[L_SUBFR], - /* i : residual after long term prediction */ // Q_new + 1 + /* i : residual after long term prediction */ // q_cn + const Word16 q_cn, const Word16 H[L_SUBFR], /* i : impulse response of weighted synthesis filter */ // e(norm_s(H[0])+1) Word16 code[L_SUBFR], /* o : algebraic (fixed) codebook excitation */ @@ -3139,7 +3139,7 @@ Word16 transient_analysis_ivas_fx( void set_transient_stereo_fx( CPE_ENC_HANDLE hCPE, /* i : CPE structure */ - Word16 currFlatness[] /* i/o: current flatness Q7*/ + Word32 currFlatness[] /* i/o: current flatness Q21*/ ); void ivas_smc_mode_selection_fx( @@ -3289,11 +3289,8 @@ void computeDirectionVectors_fixed( Word32 *direction_vector_y, /*Q30*/ Word32 *direction_vector_z, /*Q30*/ Word16 i_e /*Exponent of all the intensity buffers*/ -#ifdef NONBE_IMPROVE_DIRAC_INTENSITY_PREC , - Word16 *i_e_band -#endif -); + Word16 *i_e_band ); UWord8 ivas_masa_surrcoh_signicant_fx( @@ -3845,8 +3842,7 @@ ivas_error ivas_osba_dirac_td_binaural_jbm_fx( const UWord16 nSamplesAsked, /* i : number of CLDFB slots requested */ UWord16 *nSamplesRendered, /* o : number of CLDFB slots rendered */ UWord16 *nSamplesAvailable, /* o : number of CLDFB slots still to render */ - Word32 *output_fx[], /* o : rendered time signal */ - Word16 out_len /*Store the length of values in each channel*/ + Word32 *output_fx[] /* o : rendered time signal */ ); ivas_error ivas_osba_ism_metadata_dec_fx( @@ -3894,17 +3890,27 @@ void ivas_omasa_decode_masa_to_total_fx( const Word16 nblocks ); +/*----------------------------------------------------------------------------------* + * TD Binaural Object renderer + *----------------------------------------------------------------------------------*/ + ivas_error ivas_td_binaural_open_fx( - Decoder_Struct *st_ivas, /* i/o: IVAS decoder structure */ - Word16 *SrcInd, /*Temporarily used to store the updated value of SrcInd*/ - Word16 *num_src ); + Decoder_Struct *st_ivas, /* i/o: IVAS decoder structure */ + Word16 *SrcInd, /*Temporarily used to store the updated value of SrcInd*/ + Word16 *num_src +); -ivas_error ivas_td_binaural_renderer_fx( - Decoder_Struct *st_ivas, /* i/o: IVAS decoder structure */ - Word32 *output[], /* i/o: SCE channels / Binaural synthesis */ - const Word16 output_frame /* i : output frame length */ +ivas_error ivas_td_binaural_renderer_sf_fx( + Decoder_Struct *st_ivas, /* i/o: IVAS decoder structure */ + Word32 *output_fx[], /* i/o: SCE channels / Binaural synthesis */ + const Word16 n_samples_granularity /* i : granularity of the renderer/buffer */ ); + +/*----------------------------------------------------------------------------------* + * Filter-bank (FB) Mixer + *----------------------------------------------------------------------------------*/ + void ivas_FB_mixer_close_fx( IVAS_FB_MIXER_HANDLE *hFbMixer, /* i/o: FB mixer handle */ const Word32 sampling_rate, /* i : sampling rate in Hz */ @@ -4761,13 +4767,12 @@ Word32 dot_product_cholesky_fx( const Word32 *A, /* i : Cholesky matrix A */ const Word16 N /* i : vector & matrix size */ ); -Word32 dot_product_cholesky_fixed( + +Word64 dot_product_cholesky_fixed( const Word32 *x, /* i : vector x */ const Word32 *A, /* i : Cholesky matrix A */ - const Word16 N, /* i : vector & matrix size */ - const Word16 exp_x, - const Word16 exp_A, - Word16 *exp_sum ); + const Word16 N /* i : vector & matrix size */ +); void v_mult_mat_fx( Word32 *y_fx, /* o : the product x*A */ @@ -4984,7 +4989,8 @@ void ivas_dirac_config_bands_fx( Word16 *dirac_to_spar_md_bands, /* o : mapping of DirAC parameter band index to SPAR FB band index */ const Word8 useLowerBandRes, /* i : flag indicating lower band resolution for DirAC */ const Word16 enc_param_start_band, /* i : band index of first DirAC parameter band */ - IVAS_FB_MIXER_HANDLE hFbMdft ); + IVAS_FB_MIXER_HANDLE hFbMdft, + const Word8 BandGroupLowRes ); void ivas_dirac_dec_close_fx( DIRAC_DEC_HANDLE *hDirAC_out ); @@ -5050,6 +5056,15 @@ void ivas_dirac_dec_get_response_fx( const Word16 ambisonics_order, Word16 Q_out ); +#ifdef FIX_1310_SPEEDUP_ivas_dirac_dec_get_response_fx +/*This is a derivate to ivas_dirac_dec_get_response_fx with fixed Q_out=29*/ +void ivas_dirac_dec_get_response_fx_29( + const Word16 azimuth, + const Word16 elevation, + Word32 *response_fx, /*Q_out=29*/ + const Word16 ambisonics_order ); +#endif + void calculate_hodirac_sector_parameters_fx( DIRAC_ENC_HANDLE hDirAC, /* i : DirAC handle */ Word32 RealBuffer_fx[DIRAC_MAX_ANA_CHANS][DIRAC_NO_FB_BANDS_MAX], /* i : signal vector (L+1)^2 x N_bins, real part */ @@ -5393,15 +5408,14 @@ ivas_error ivas_sba_dec_render_fx( const UWord16 nSamplesAsked, /* i : number of CLDFB slots requested */ UWord16 *nSamplesRendered, /* o : number of CLDFB slots rendered */ UWord16 *nSamplesAvailableNext, /* o : number of CLDFB slots still to render */ - Word32 *output_fx[], /* o : rendered time signal Q11*/ - Word16 out_len /*Store the length of values in each channel*/ + Word32 *output_fx[] /* o : rendered time signal Q11*/ ); void ivas_spar_dec_upmixer_sf_fx( - Decoder_Struct *st_ivas, /* i/o: IVAS decoder handle */ - Word32 *output_fx[], /* o : output audio channels */ - const Word16 nchan_internal, /* i : number of internal channels */ - Word16 out_len ); + Decoder_Struct *st_ivas, /* i/o: IVAS decoder handle */ + Word32 *output_fx[], /* o : output audio channels */ + const Word16 nchan_internal /* i : number of internal channels */ +); ivas_error ivas_spar_md_enc_open_fx( ivas_spar_md_enc_state_t **hMdEnc_in, /* i/o: SPAR MD encoder handle */ @@ -5912,8 +5926,7 @@ ivas_error ivas_compute_core_buffers_fx( Word16 lsp_mid_fx[M], /* i/o: LSPs in the middle of the frame */ Word16 Q_old_inp_16k, Word16 Q_r[2], - Word16 *Q_new, - Word16 downscale_buf_speech_enc_pe ); + Word16 *Q_new ); ivas_error ivas_enc_fx( Encoder_Struct *st_ivas, /* i/o: IVAS encoder structure */ @@ -5968,5 +5981,818 @@ void modify_Rmat_q_fx( Word16 q_new /* i : target q factor for rotation matrix */ ); #endif +/*=============================================================================================*/ +/* clang-format off */ + +/*----------------------------------------------------------------------------------* + * General IVAS prototypes + *----------------------------------------------------------------------------------*/ + +/*! r: number of channels to be analysed */ + +void copy_encoder_config_ivas_fx( + Encoder_Struct *st_ivas, /* i : IVAS encoder structure */ + Encoder_State *st, /* o : encoder state structure */ + const Word16 flag_all /* i : flag 1==update all, 0=partial update Q0*/ +); + +ivas_error create_mct_enc_fx( + Encoder_Struct *st_ivas /* i/o: IVAS encoder structure */ +); + +void destroy_cpe_enc( + CPE_ENC_HANDLE hCPE /* i/o: CPE encoder structure */ +); + +void ivas_mct_enc_close_fx( + MCT_ENC_HANDLE *hMCT /* i/o: MCT encoder structure */ +); + +ivas_error pre_proc_front_ivas_fx( + SCE_ENC_HANDLE hSCE, /* i/o: SCE encoder structure */ + CPE_ENC_HANDLE hCPE, /* i/o: CPE encoder structure */ + const Word32 element_brate, /* i : SCE/CPE element bitrate Q0*/ + const Word16 nb_bits_metadata, /* i : number of metadata bits Q0*/ + const Word16 input_frame, /* i : frame length Q0*/ + const Word16 n, /* i : channel number Q0*/ + Word16 old_inp_12k8_fx[], /* o : buffer of old input signal Q_new-1*/ + Word16 old_inp_16k_fx[], /* o : buffer of old input signal @16kHz Q_new-1*/ + Word32 *ener_fx, /* o : residual energy from Levinson-Durbin epsP_fx_q*/ + Word16 *relE_fx, /* o : frame relative energy Q8*/ + Word16 A_fx[NB_SUBFR16k * ( M + 1 )], /* o : A(z) unquantized for the 4 subframes Q12*/ + Word16 Aw_fx[NB_SUBFR16k * ( M + 1 )], /* o : weighted A(z) unquantized for subframes Q12*/ + Word32 epsP_fx[M + 1], /* o : LP prediction errors epsP_fx_q*/ + Word16 *epsP_fx_q, + Word16 lsp_new_fx[M], /* o : LSPs at the end of the frame Q15*/ + Word16 lsp_mid_fx[M], /* o : LSPs in the middle of the frame Q15*/ + Word16 *vad_hover_flag, /* o : VAD hangover flag Q0*/ + Word16 *attack_flag, /* o : flag signaling attack Q0*/ + Word32 realBuffer_fx[CLDFB_NO_COL_MAX][CLDFB_NO_CHANNELS_MAX], /* i/o: real buffer Q(q_re_im_buf)*/ + Word32 imagBuffer_fx[CLDFB_NO_COL_MAX][CLDFB_NO_CHANNELS_MAX], /* i/o: imag buffer Q(q_re_im_buf)*/ + Word16 *q_re_im_buf, /* i/o: Q-factor of real and imag buffer */ + Word16 old_wsp_fx[], /* o : weighted input signal buffer q_old_wsp*/ + Word16 *q_old_wsp, + Word16 pitch_fr_fx[NB_SUBFR], /* o : fractional pitch values Q6*/ + Word16 voicing_fr_fx[NB_SUBFR], /* o : fractional pitch gains Q15*/ + Word16 *loc_harm, /* o : harmonicity flag Q0*/ + Word16 *cor_map_sum_fx, /* o : speech/music clasif. parameter Q8*/ + Word16 *vad_flag_dtx, /* o : HE-SAD flag with additional DTX HO Q0*/ + Word32 enerBuffer_fx[CLDFB_NO_CHANNELS_MAX], /* o : energy buffer enerBuffer_fx_exp*/ + Word16 *enerBuffer_fx_exp, /* o : energy buffer */ + Word16 fft_buff_fx[2 * L_FFT], /* o : FFT buffer fft_buff_fx_q*/ + Word16 *fft_buff_fx_q, /* o : FFT buffer */ + const Word16 tdm_A_PCh_fx[M + 1], /* i : unq. LP coeff. of primary channel Q12*/ + const Word16 tdm_lsp_new_PCh_fx[M], /* i : unq. LSPs of primary channel Q15*/ + const Word32 currFlatness_fx, /* i : flatness parameter Q21*/ + const Word16 tdm_ratio_idx, /* i : Current Ratio_L index Q0*/ + Word32 fr_bands_LR_fx[][2 * NB_BANDS], /* i : energy in frequency bands (fr_bands_LR_fx_q) fr_bands_LR_fx_q*/ + Word16 fr_bands_LR_fx_q[CPE_CHANNELS], + const Word16 Etot_LR_fx[], /* i : total energy Left & Right channel Q8*/ + Word32 lf_E_LR_fx[][2 * VOIC_BINS], /* i : per bin spectrum energy in lf, LR channels (lf_E_LR_fx_q)*/ + Word16 lf_E_LR_fx_q, + const Word16 localVAD_HE_SAD_LR[], /* i : HE-SAD flag without hangover, LR channels Q0*/ + Word32 band_energies_LR_fx[2 * NB_BANDS], /* o : energy in critical bands without minimum noise floor E_MIN (band_energies_LR_fx_q)*/ + Word16 band_energies_LR_fx_q, + const Word16 flag_16k_smc, /* i : flag to indicate if the OL SMC is run at 16 kHz Q0*/ + const Word16 front_vad_flag, /* i : front-VAD flag to overwrite VAD decision Q0*/ + const Word16 force_front_vad, /* i : flag to force VAD decision Q0*/ + const Word16 front_vad_dtx_flag, /* i : front-VAD DTX flag to overwrite VAD decision Q0*/ + const IVAS_FORMAT ivas_format, /* i : IVAS format */ + const Word16 MCT_flag, /* i : hMCT handle allocated (1) or not (0) Q0*/ + const Word32 last_ivas_total_brate, /* i : last IVAS total bitrate Q0*/ + const Word32 ivas_total_brate, /* i : IVAS total bitrate - for setting the DTX Q0*/ + Word16 *Q_new +#ifdef DEBUG_MODE_INFO + , + const Word16 ch_idx +#endif +); +ivas_error pre_proc_ivas_fx( + Encoder_State *st, /* i/o: encoder state structure */ + const Word16 last_element_mode, /* i : last element mode Q0*/ + const Word32 element_brate, /* i : element bitrate Q0*/ + const Word32 last_element_brate, /* i : last element bitrate Q0*/ + const Word16 input_frame, /* i : frame length Q0*/ + Word16 old_inp_12k8_fx[], /* i/o: buffer of old input signal Q_new-1 */ + Word16 old_inp_16k_fx[], /* i/o: buffer of old input signal @ 16kHz Q_new-1 */ + Word16 **inp_fx, /* o : ptr. to inp. signal in the current frame Q_new*/ + Word32 *ener_fx, /* o : residual energy from Levinson-Durbin epsP_fx_q*/ + Word16 A_fx[NB_SUBFR16k * ( M + 1 )], /* i/o: A(z) unquantized for the 4 subframes Q12*/ + Word16 Aw_fx[NB_SUBFR16k * ( M + 1 )], /* i/o: weighted A(z) unquantized for subframes Q14*/ + Word32 epsP_fx[M + 1], /* i : LP prediction errors epsP_fx_q*/ + Word16 *epsP_fx_q, /* i : LP prediction errors */ + Word16 lsp_new_fx[M], /* i/o: LSPs at the end of the frame Q15*/ + Word16 lsp_mid_fx[M], /* i/o: LSPs in the middle of the frame Q15*/ + Word16 *new_inp_resamp16k_fx, /* o : new input signal @16kHz, non pre-emphasised, used by the WB TBE/BWE Q_new-1*/ + Word16 *Voicing_flag, /* o : voicing flag for HQ FEC Q0*/ + Word16 old_wsp_fx[], /* i : weighted input signal buffer e_old_wsp*/ + Word16 e_old_wsp, + const Word16 loc_harm, /* i : harmonicity flag Q0*/ + const Word16 vad_flag_dtx, /* i : HE-SAD flag with additional DTX HO Q0*/ + const Word16 MCT_flag, /* i : hMCT handle allocated (1) or not (0) Q0*/ + const Word16 vad_hover_flag, /* i : VAD hangover flag Q0*/ + const Word16 flag_16k_smc, /* i : flag to indicate if the OL SMC is run at 16 kHz Q0*/ + Word32 enerBuffer_fx[CLDFB_NO_CHANNELS_MAX], /* e_enerBuffer */ + Word16 e_enerBuffer, + Word16 fft_buff_fx[2 * L_FFT], /* Qx */ + Word16 cor_map_sum_fx, /* Q8 */ + Word16 *Q_new +); +/*! r: number of clipped samples */ +void ivas_initialize_handles_enc_fx( + Encoder_Struct *st_ivas /* i/o: IVAS encoder structure */ +); + +ivas_error ivas_init_encoder( + Encoder_Struct *st_ivas /* i/o: IVAS encoder structure */ +); + +void ivas_destroy_enc_fx( + Encoder_Struct *st_ivas /* i/o: IVAS encoder structure */ +); + +ivas_error ivas_initialize_MD_bstr_enc_fx( + BSTR_ENC_HANDLE *hBstr, /* o : encoder MD bitstream handle */ + Encoder_Struct *st_ivas /* i/o: IVAS encoder structure */ +); + +void ivas_destroy_MD_bstr_enc_fx( + BSTR_ENC_HANDLE *hMetaData /* i/o: encoder MD bitstream handle */ +); + +ivas_error ivas_init_decoder_front( + Decoder_Struct *st_ivas /* i/o: IVAS decoder structure */ +); + + +void ivas_mct_dec_close( + MCT_DEC_HANDLE *hMCT /* i/o: MCT decoder structure */ +); + +/*! r: number of channels to be synthesised */ + +void copy_decoder_config( + Decoder_Struct *st_ivas, /* i : IVAS decoder structure */ + Decoder_State *st /* o : decoder state structure */ +); + +void ivas_initialize_handles_dec( + Decoder_Struct *st_ivas /* i/o: IVAS decoder structure */ +); + +ivas_error ivas_core_enc_fx( + SCE_ENC_HANDLE hSCE, /* i/o: SCE encoder structure */ + CPE_ENC_HANDLE hCPE, /* i/o: CPE encoder structure */ + MCT_ENC_HANDLE hMCT, /* i/o: MCT encoder structure */ + const Word16 n_CoreChannels, /* i : number of core channels to be coded Q0*/ + Word16 old_inp_12k8_fx[][L_INP_12k8], /* i : buffer of old input signal Q_new-1*/ + Word16 old_inp_16k_fx[][L_INP], /* i : buffer of old input signal Q_new-1*/ + Word16 Q_new[], + Word32 ener_fx[], /* i : residual energy from Levinson-Durbin epsP_fx_q*/ + Word16 A_fx[][NB_SUBFR16k * ( M + 1 )], /* i : A(z) unquantized for the 4 subframes Q12*/ + Word16 Aw_fx[][NB_SUBFR16k * ( M + 1 )], /* i : weighted A(z) unquantized for subframes Q12*/ + Word32 epsP_fx[][M + 1], /* i : LP prediction errors epsP_fx_q*/ + Word16 epsP_fx_q[], /* i : LP prediction errors */ + Word16 lsp_new_fx[][M], /* i : LSPs at the end of the frame Q15*/ + Word16 lsp_mid_fx[][M], /* i : LSPs in the middle of the frame Q15*/ + const Word16 vad_hover_flag[], /* i : VAD hanglover flag Q0*/ + Word16 attack_flag[], /* i : attack flag (GSC or TC) Q0*/ + Word32 realBuffer_fx[][CLDFB_NO_COL_MAX][CLDFB_NO_CHANNELS_MAX], /* i/o: real buffer q_re_im_buf*/ + Word32 imagBuffer_fx[][CLDFB_NO_COL_MAX][CLDFB_NO_CHANNELS_MAX], /* i/o: imag buffer q_re_im_buf*/ + Word16 *q_re_im_buf, + Word16 old_wsp_fx[][L_WSP], /* i : weighted input signal buffer e_old_wsp*/ + Word16 e_old_wsp[], + const Word16 loc_harm[], /* i : harmonicity flag Q0*/ + const Word16 cor_map_sum_fx[], /* i : speech/music clasif. parameter Q8*/ + const Word16 vad_flag_dtx[], /* i : HE-SAD flag with additional DTX HO Q0*/ + Word32 enerBuffer_fx[][CLDFB_NO_CHANNELS_MAX], /* o : energy buffer enerBuffer_fx_exp*/ + Word16 enerBuffer_fx_exp[], /* o : energy buffer */ + Word16 fft_buff_fx[][2 * L_FFT], /* i : FFT buffer Qx*/ + const Word16 tdm_SM_or_LRTD_Pri, /* i : channel combination scheme flag Q0*/ + const Word16 ivas_format, /* i : IVAS format Q0*/ + const Word16 flag_16k_smc /* i : flag to indicate if the OL SMC is run at 16 kHz Q0*/ +); + +void ivas_renderer_select( + Decoder_Struct *st_ivas /* i/o: IVAS decoder structure */ +); + +ivas_error ivas_mc_enc_config_fx( + Encoder_Struct *st_ivas /* i/o: IVAS encoder structure */ +); + +/*! r: flag indicating a valid bitrate */ +Word16 is_IVAS_bitrate_fx( + const Word32 ivas_total_brate /* i : IVAS total bitrate */ +); + +int16_t is_DTXrate( + const int32_t ivas_total_brate /* i : IVAS total bitrate */ +); + + +/*----------------------------------------------------------------------------------* + * JBM prototypes + *----------------------------------------------------------------------------------*/ + +ivas_error ivas_jbm_dec_set_discard_samples( + Decoder_Struct *st_ivas /* i/o: main IVAS decoder structre */ +); + +TC_BUFFER_MODE ivas_jbm_dec_get_tc_buffer_mode( + Decoder_Struct *st_ivas /* i : IVAS decoder handle */ +); + +void ivas_jbm_dec_tc_buffer_close( + DECODER_TC_BUFFER_HANDLE *phTcBuffer /* i/o: TC buffer handle */ +); + +void ivas_jbm_dec_td_renderers_adapt_subframes( + Decoder_Struct *st_ivas /* i/o: IVAS decoder structure */ +); + +ivas_error ivas_jbm_dec_metadata_open( + Decoder_Struct *st_ivas /* i/o: IVAS decoder structure */ +); + +void ivas_jbm_masa_sf_to_sf_map( + Decoder_Struct *st_ivas /* i/o: IVAS decoder structure */ +); + + +/*----------------------------------------------------------------------------------* + * ISM prototypes + *----------------------------------------------------------------------------------*/ + +void bitbudget_to_brate( + const Word16 x[], /* i : bitbudgets Q0 */ + Word32 y[], /* o : bitrates Q0 */ + const Word16 N /* i : number of entries to be converted */ +); + +void ivas_ism_reset_metadata( + ISM_METADATA_HANDLE hIsmMeta /* i/o: ISM metadata handles */ +); + +void ivas_ism_reset_metadata_enc( + ISM_METADATA_HANDLE hIsmMeta /* i/o: ISM metadata handle */ +); +void ivas_ism_reset_metadata_API( + ISM_METADATA_HANDLE hIsmMeta /* i/o: ISM metadata handles */ +); + +/*! r: index of the winning codeword */ +Word16 ism_quant_meta_fx( + const Word32 val, /* i : scalar value to quantize Q22 */ + Word32 *valQ, /* o : quantized value Q22 */ + const Word32 borders_fx[], /* i : level borders Q22 */ + const Word32 q_step_fx, /* i : quantization step Q22 */ + const Word32 q_step_border_fx, /* i : quantization step at the border Q22 */ + const Word16 cbsize /* i : codebook size */ +); + +ivas_error ivas_ism_metadata_enc_create_fx( + Encoder_Struct *st_ivas, /* i/o: IVAS encoder structure */ + const Word16 n_ISms, /* i : number of objects */ + Word32 element_brate_tmp[] /* o : element bitrate per object */ +); + +/*----------------------------------------------------------------------------------* + * Parametric ISM prototypes + *----------------------------------------------------------------------------------*/ + +/*! r: ISM format mode */ + +ivas_error ivas_param_ism_enc_open_fx( + Encoder_Struct *st_ivas /* i/o: IVAS encoder structure */ +); + +void ivas_param_ism_enc_close_fx( + PARAM_ISM_CONFIG_HANDLE *hParamIsm, /* i/o: ParamISM handle */ + const Word32 input_Fs /* i : input sampling_rate */ +); + +void ivas_ism_metadata_close( + ISM_METADATA_HANDLE hIsmMetaData[], /* i/o : object metadata handles */ + const Word16 first_idx /* i : index of first handle to deallocate */ +); + + +ivas_error ivas_ism_enc_config( + Encoder_Struct *st_ivas /* i/o: IVAS encoder structure */ +); + +/*----------------------------------------------------------------------------------* + * ISM DTX prototypes + *----------------------------------------------------------------------------------*/ + +ivas_error ivas_ism_dtx_open( + Encoder_Struct *st_ivas /* i/o: IVAS encoder structure */ +); + +void ivas_ism_metadata_sid_enc_fx( + ISM_DTX_HANDLE hISMDTX, /* i/o: ISM DTX handle */ + const Word16 flag_noisy_speech, /* i : noisy speech flag */ + const Word16 nchan_ism, /* i : number of objects */ + const Word16 nchan_transport, /* i : number of transport channels */ + const ISM_MODE ism_mode, /* i : ISM mode */ + ISM_METADATA_HANDLE hIsmMeta[], /* i/o: ISM metadata handles */ + const Word16 sid_flag, /* i : indication of SID frame */ + const Word16 md_diff_flag[], /* i : metadata differental flag */ + BSTR_ENC_HANDLE hBstr, /* i/o: bitstream handle */ + Word16 nb_bits_metadata[] /* o : number of metadata bits */ +); + + + +void ivas_param_ism_compute_noisy_speech_flag_fx( + Encoder_Struct *st_ivas /* i/o: IVAS encoder structure */ +); + +/*----------------------------------------------------------------------------------* + * DFT Stereo prototypes + *----------------------------------------------------------------------------------*/ + +void stereo_dft_dec_destroy( + STEREO_DFT_DEC_DATA_HANDLE *hStereoDft /* i/o: decoder DFT stereo handle */ +); + +/*----------------------------------------------------------------------------------* + * Range Coder prototypes + *----------------------------------------------------------------------------------*/ + +/*! r: Read bit */ +UWord16 rc_uni_dec_read_bit( + RangeUniDecState *rc_st_dec /* i/o: RC state handle */ +); + +/*! r: Read bit */ +UWord16 rc_uni_dec_read_bit_prob_fast( + RangeUniDecState *rc_st_dec, /* i/o: RC state handle */ + const Word16 freq0, /* i : Frequency for symbol 0 */ + const UWord16 tot_shift /* i : Total frequency as a power of 2 */ +); + +/*! r: Read bits */ +UWord16 rc_uni_dec_read_bits( + RangeUniDecState *rc_st_dec, /* i/o: RC state handle */ + const Word16 bits /* i : Number of bits */ +); + + +/*----------------------------------------------------------------------------------* + * TD Stereo prototypes + *----------------------------------------------------------------------------------*/ + +void tdm_bit_alloc( + const Word16 ivas_format, /* i : IVAS format */ + const Word16 ism_mode, /* i : ISM mode in combined format */ + const Word32 element_brate_wo_meta, /* i : element bitrate without metadata */ + const Word16 tdm_lp_reuse_flag, /* i : LPC reusage flag */ + Word32 *total_brate_pri, /* o : Allocated primary channel bitrate */ + Word32 *total_brate_sec, /* o : Allocated secondary channel bitrate */ + Word16 *tdm_low_rate_mode, /* o : secondary channel low rate mode flag */ + const Word16 coder_type, /* i : secondary channel coder type */ + const Word16 ener_ratio_idx, /* i : correlation ratio indexe */ + const Word16 tdm_Pitch_reuse_flag, /* i : primary channel pitch reuse flag */ + const Word16 bwidth_pri, /* i : bandwidth of the primary channel */ + const Word16 bwidth_sec, /* i : bandwidth of the secondary channel */ + const Word16 flag_ACELP16k_pri, /* i : ACELP@16kHz core flag, primary chan. */ + const Word16 tdm_LRTD_flag, /* i : LRTD stereo mode flag */ + const Word16 coder_type0, /* i : coder type (temporary in the encoder, from bitstream in decoder) */ + const Word16 tdm_inst_ratio_idx /* i : instantaneous correlation ratio index */ +); + + +/*! r: value of the indice */ +uint16_t get_indice_st( + Decoder_State *st, /* i/o: decoder state structure */ + const Word32 element_brate, /* i : element bitrate */ + const Word16 pos, /* i : absolute position in the bitstream */ + const Word16 nb_bits /* i : number of bits to quantize the indice */ +); + +/*----------------------------------------------------------------------------------* + * MDCT Stereo prototypes + *----------------------------------------------------------------------------------*/ + +void stereo_mdct_core_enc_fx( + CPE_ENC_HANDLE hCPE, /* i/o: CPE encoder structure */ + Word16 new_samples[CPE_CHANNELS][L_INP], /* i : new samples Q0*/ + Word16 old_wsp[CPE_CHANNELS][L_WSP], /* i : 12.8kHz weighted speech (for LTP Qx*/ + Word16 pitch_buf_fx[CPE_CHANNELS][NB_SUBFR16k] /* o : floating pitch for each subframe Q6*/ +); + +Word16 write_stereo_to_bitstream_fx +( + STEREO_MDCT_ENC_DATA_HANDLE hStereoMdct, /* i/o: Stereo MDCT encoder structure */ + Encoder_State **sts, /* i/o: Encoder state structure */ + Word16 ms_mask[NB_DIV][MAX_SFB], /* i : bandwise MS mask Q0*/ + const Word16 mct_on, /* i : flag mct block (1) or stereo (0) Q0*/ + BSTR_ENC_HANDLE hBstr /* i/o: bitstream handle */ +); + +/*----------------------------------------------------------------------------------* + * Stereo CNG prototypes + *----------------------------------------------------------------------------------*/ +void stereo_cng_dec_update( + CPE_DEC_HANDLE hCPE, /* i/o: CPE decoder structure */ + const Word32 ivas_total_brate /* i : IVAS total bitrate Q0*/ +); + + +/*----------------------------------------------------------------------------------* + * Framework general prototypes + *----------------------------------------------------------------------------------*/ + +void mvc2c( + const uint8_t x[], /* i : input vector */ + uint8_t y[], /* o : output vector */ + const int16_t n /* i : vector size */ +); + +void stereo_switching_dec( + CPE_DEC_HANDLE hCPE, /* i/o: CPE decoder structure */ + const Word32 ivas_total_brate /* i : IVAS total bitrate Q0*/ +); + + +/*! r: number of bits written */ + + + +/*----------------------------------------------------------------------------------* + * MCT prototypes + *----------------------------------------------------------------------------------*/ +void ivas_mdct_core_whitening_enc_fx( + CPE_ENC_HANDLE hCPE, /* i/o: CPE encoder structure */ + Word16 new_samples_fx[CPE_CHANNELS][L_INP], /* i : new samples */ + Word16 old_wsp_fx[CPE_CHANNELS][L_WSP], /* i : 12.8kHz weighted speech (for LTP */ + Word16 pitch_buf[CPE_CHANNELS][NB_SUBFR16k], /* o : floating pitch for each subframe */ + Word32 *mdst_spectrum_long[CPE_CHANNELS], /* o : buffer for MDST spectrum */ + Word16 tnsBits[CPE_CHANNELS][NB_DIV], /* o : buffer TNS bits */ + Word32 *orig_spectrum_long[CPE_CHANNELS], /* o : origingal spectrum w/o whitening */ + Word16 tnsSize[CPE_CHANNELS][NB_DIV], /* o : size of TNS */ + Word16 p_param[CPE_CHANNELS][NB_DIV], /* o : pointer to parameter array */ + BSTR_ENC_HANDLE hBstr, /* i/o: encoder bitstream handle */ + const Word16 mct_on, /* i : flag mct block (1) or stereo (0) */ + const Word16 nChannels, /* i : total number of coded channels */ +Word16 mdst_spectrum_e[CPE_CHANNELS][NB_DIV], +Word16 orig_spectrum_e[CPE_CHANNELS][NB_DIV] +); + +void splitAvailableBitsMCT_fx( + void **sts, /* i/o: encoder/decoder state structure */ + const Word16 total_bits, /* i : total number of available bits */ + const Word16 split_ratio[MCT_MAX_CHANNELS], /* i : ratio for splitting the bits Q0 */ + const Word16 enc_dec, /* i : encoder or decoder flag */ + const Word16 nchan /* i : number of channels */ +); + +void enc_prm_igf_mdct( + Encoder_State *st, /* i : Encoder state handle */ + BSTR_ENC_HANDLE hBstr /* i/o: Bitstream handle */ +); + +/*----------------------------------------------------------------------------------* + * Q Metadata prototypes for DirAC and MASA + *----------------------------------------------------------------------------------*/ +/*! r: number of bits written */ + +/*! r: number of bits read */ +Word16 ivas_qmetadata_dec_decode( + IVAS_QMETADATA_HANDLE hQMetaData, /* i/o: q_metadata handle */ + UWord16 *bitstream, /* i : bitstream */ + Word16 *index, /* i/o: bitstream position */ + const Word16 hodirac_flag /* i : flag to indicate HO-DirAC mode */ +); + +/*! r: number of bits read */ +Word16 ivas_qmetadata_dec_decode_hr_384_512( + IVAS_QMETADATA_HANDLE hQMetaData, /* i/o: hQMetaData handle */ + UWord16 *bitstream, /* i : bitstream */ + Word16 *index, /* i/o: bitstream position */ + const SPHERICAL_GRID_DATA *sph_grid16, /* i : spherical grid for deindexing */ + const Word16 bits_sph_idx, + const Word16 bits_sp_coh, + const UWord8 ncoding_bands_config +); + +/*! r: number of bits read */ +Word16 ivas_qmetadata_dec_sid_decode( + IVAS_QMETADATA_HANDLE hQMetaData, /* i/o: q_metadata handle */ + UWord16 *bitstream, /* i : bitstream */ + Word16 *index, /* i/o: bitstream position */ + const Word16 nchan_transport, /* i : number of transport channels */ + Word16 *element_mode, /* o : element mode */ + const Word16 ivas_format /* i : IVAS format */ +); + + +UWord16 ivas_qmetadata_reorder_generic_fx( + const Word16 signed_value +); + +void ivas_sba_set_cna_cng_flag( + Decoder_Struct *st_ivas /* i/o: IVAS decoder structure */ +); + +/*! r: number of ambisonics metadata channels */ + +void ivas_sba_dirac_stereo_config( + STEREO_DFT_CONFIG_DATA_HANDLE hConfig /* o : DFT stereo configuration */ +); + + +Word16 ivas_get_sba_dirac_stereo_flag( + Decoder_Struct *st_ivas /* i/o: IVAS decoder structure */ +); + + +/*----------------------------------------------------------------------------------* + * DirAC prototypes + *----------------------------------------------------------------------------------*/ + + +ivas_error ivas_dirac_enc_reconfigure( + Encoder_Struct *st_ivas /* i/o: IVAS encoder handle */ +); + +ivas_error ivas_mc_paramupmix_enc_open_fx( + Encoder_Struct *st_ivas /* i/o: IVAS encoder handle */ +); + +void ivas_mc_paramupmix_enc_close_fx( + MC_PARAMUPMIX_ENC_HANDLE *hMCParamUpmix, /* i/o: MC Param-Upmix encoder handle */ + const int32_t input_Fs /* i : input sampling rate */ +); + +ivas_error ivas_mc_paramupmix_dec_open( + Decoder_Struct *st_ivas /* i/o: IVAS decoder structure */ +); + +void ivas_mc_paramupmix_dec_close( + MC_PARAMUPMIX_DEC_HANDLE *hMCParamUpmix_out /* i/o: Parametric MC decoder handle */ +); + +void ivas_mc_paramupmix_dec_read_BS( + Decoder_Struct *st_ivas, /* i/o: IVAS decoder structure */ + Decoder_State *st, /* i/o: decoder state structure */ + MC_PARAMUPMIX_DEC_HANDLE hMCParamUpmix, /* i/o: decoder MC Param-Upmix handle */ + Word16 *nb_bits /* o : number of bits written */ +); + +void ivas_mc_paramupmix_dec_digest_tc( + Decoder_Struct *st_ivas, /* i/o: IVAS decoder handle */ + const UWord8 nCldfbSlots, /* i : number of CLFBS slots in the transport channels */ + const Word16 nSamplesForRendering /* i : number of samples provided */ +); + +void ivas_param_mc_set_coded_bands_fx( + HANDLE_IVAS_PARAM_MC_METADATA hMetadataPMC /* i/o: handle for the Parametric MC parameter coding state */ +); + +UWord16 ivas_param_mc_get_configuration_index_fx( + const MC_LS_SETUP mc_ls_setup, /* i : MC ls setup */ + const Word32 ivas_total_brate /* i : IVAS total bitrate */ +); + +/*----------------------------------------------------------------------------------* + * SPAR prototypes + *----------------------------------------------------------------------------------*/ + +/* MD module */ + +/*! r: number of MD subframes */ +ivas_error ivas_spar_md_dec_open( + ivas_spar_md_dec_state_t **hMdDec_out, /* i/o: SPAR MD decoder handle */ + const DECODER_CONFIG_HANDLE hDecoderConfig, /* i : configuration structure */ + const Word16 num_channels, /* i : number of internal channels */ + const Word16 sba_order, /* i : SBA order */ + const Word16 sid_format, /* i : SID format */ + const Word32 last_active_ivas_total_brate /* i : IVAS last active bitrate */ +); + +void ivas_spar_md_dec_close( + ivas_spar_md_dec_state_t **hMdDec /* i/o: SPAR MD decoder handle */ +); + +ivas_error ivas_spar_md_dec_init( + ivas_spar_md_dec_state_t *hMdDec, /* i/o: SPAR MD decoder handle */ + const DECODER_CONFIG_HANDLE hDecoderConfig, /* i : configuration structure */ + const Word16 num_channels, /* i : number of internal channels */ + const Word16 sba_order /* i : SBA order */ +); + +/* Transient detector module */ +ivas_error ivas_transient_det_open_fx( + ivas_trans_det_state_t **hTranDet, /* i/o: Transient detector handle */ + const Word32 sampling_rate /* i : sampling rate */ +); + +void ivas_transient_det_close_fx( + ivas_trans_det_state_t **hTranDet /* i/o: Transient detector handle */ +); + +void ivas_huffman_encode_fx( + ivas_huffman_cfg_t *huff_cfg, + Word16 in, + Word16 *hcode, + Word16 *hlen +); + +ivas_error ivas_huffman_decode( + ivas_huffman_cfg_t *huff_cfg, + Decoder_State *st0, + Word16 *dec_out +); + +void ivas_arith_decode_cmplx_cell_array( + ivas_arith_t *pArith_re, + ivas_arith_t *pArith_re_diff, + Decoder_State *st0, + ivas_cell_dim_t *pCell_dims, + Word16 *pDo_diff, const Word16 nB, + Word16 *pSymbol_re, + Word16 *pSymbol_re_old +); + +void ivas_map_prior_coeffs_quant( + ivas_spar_md_prev_t *pSpar_md_prior, + ivas_spar_md_com_cfg *pSpar_md_cfg, + const Word16 qsi, + const Word16 nB +); + +void ivas_clear_band_coeff_idx( + ivas_band_coeffs_ind_t *pband_coeff_idx, + const UWord16 num_bands +); + + +/*----------------------------------------------------------------------------------* + * MASA prototypes + *----------------------------------------------------------------------------------*/ +ivas_error ivas_masa_enc_open_fx( + Encoder_Struct *st_ivas /* i/o: IVAS encoder handle */ +); + +void ivas_masa_enc_close_fx( + MASA_ENCODER_HANDLE *hMasa /* i/o: MASA metadata structure */ +); + +int16_t ivas_qmetadata_encode_extended_gr_length_fx( + const UWord16 value, + const UWord16 alphabet_size, + const Word16 gr_param); + +void ivas_qmetadata_encode_extended_gr_fx( + BSTR_ENC_HANDLE hMetaData, /* i/o: q_metadata handle */ + const UWord16 value, /* i : value to be encoded */ + const UWord16 alphabet_size, /* i : alphabet size */ + const Word16 gr_param); /* i : GR order */ + + +void ivas_set_qmetadata_maxbit_req_fx( + IVAS_QMETADATA_HANDLE hQMetaData, /* o : qmetadata structure where the requirement value is set */ + const IVAS_FORMAT ivas_format /* i : IVAS format */ +); + + +/*---------------------------------------------------------------------------------* + * Binaural FastConv Renderer Prototypes +*-----------------------------------------------------------------------------------*/ + + +void ivas_binaural_hrtf_close( + HRTFS_FASTCONV_HANDLE *hHrtfFastConv /* i/o: decoder binaural hrtf handle */ +); + +/*----------------------------------------------------------------------------------* + * renderer prototypes + *----------------------------------------------------------------------------------*/ + +void ivas_ism_renderer_close( + ISM_RENDERER_HANDLE *hIsmRendererData /* i/o: ISM renderer handle */ +); + + +/*----------------------------------------------------------------------------------* + * Amplitude Panning VBAP prototypes + *----------------------------------------------------------------------------------*/ + +void panning_wrap_angles( + const float azi_deg, /* i : azimuth in degrees for panning direction (positive left) */ + const float ele_deg, /* i : elevation in degrees for panning direction (positive up) */ + float *azi_wrapped, /* o : wrapped azimuth component */ + float *ele_wrapped /* o : wrapped elevation component */ +); + + +/*----------------------------------------------------------------------------------* + * McMASA prototypes + *----------------------------------------------------------------------------------*/ + + +ivas_error ivas_mcmasa_dec_reconfig( + Decoder_Struct *st_ivas /* i/o: IVAS decoder handle */ +); + +void ivas_mcmasa_dmx_modify_fx( + const Word16 n_samples, /* i : input frame length in samples */ + Word32 dmx_fx[][L_FRAME48k + NS2SA(48000, IVAS_FB_ENC_DELAY_NS)], /* i/o: downmix signal to be transformed into another format Qx*/ + Word16 dmx_Q[], /* i/o : Q of the intput signal which is being transformed*/ + const Word16 n_chnls_dmx_old, /* i : number of downmix channels in the old format Q0 */ + const Word16 n_chnls_dmx_new /* i : number of downmix channels in the target format Q0*/ +); + +ivas_error ivas_mono_dmx_renderer_open( + Decoder_Struct *st_ivas /* i/o: IVAS decoder structure */ +); + + +void ivas_mono_dmx_renderer_close( + MONO_DOWNMIX_RENDERER_HANDLE *hMonoDmxRenderer /* i/ i/o: Mono downmix structure */ +); + + +/*----------------------------------------------------------------------------------* + * LFE encoder low pass filter prototypes + *----------------------------------------------------------------------------------*/ + +void ivas_lfe_lpf_enc_close_fx( + ivas_filters_process_state_t **hLfeLpf /* i/o: LFE LPF handle */ +); + + +/*----------------------------------------------------------------------------------* + * LFE Coding prototypes + *----------------------------------------------------------------------------------*/ + +ivas_error ivas_create_lfe_enc_fx( + LFE_ENC_HANDLE *hLFE, /* o : IVAS LFE encoder structure */ + const Word32 input_Fs /* i : input sampling rate */ +); + +void ivas_lfe_enc_close_fx( + LFE_ENC_HANDLE *hLFE /* i/o: LFE encoder handle */ +); + +void ivas_filters_init_fx( + ivas_filters_process_state_t *filter_state, /* i/o: filter state handle */ + const Word32 *filt_coeff_fx, /* i : filter coefficients Q31- *filt_coeff_e */ + const Word16 *filt_coeff_e, /* i : exponents of filter coefficients */ + const Word16 order ) ; + +void ivas_filter_process_fx( + ivas_filters_process_state_t *filter_state, /* i/o: filter state handle */ + Word32 *pIn_Out_fx, /* i/o: signal subject to filtering Q(q_factor) */ + const Word16 length, /* i : filter order */ + Word16 q_factor ); + +/*----------------------------------------------------------------------------------* + * OSBA prototypes + *----------------------------------------------------------------------------------*/ +ivas_error ivas_osba_enc_reconfig( + Encoder_Struct *st_ivas /* i/o: IVAS encoder structure */ +); + +void ivas_set_surplus_brate_enc( + Encoder_Struct *st_ivas /* i/o: IVAS encoder structure */ +#ifdef DEBUG_MODE_INFO + , + const int16_t *nb_bits_metadata /* i : number of metadata bits */ +#endif +); + +void ivas_set_surplus_brate_dec( + Decoder_Struct *st_ivas, /* i/o: IVAS decoder structure */ + int32_t *ism_total_brate /* i : ISM total bitrate */ +); + +ivas_error ivas_omasa_separate_object_renderer_open( + Decoder_Struct *st_ivas /* i/o: IVAS decoder structure */ +); + +void ivas_omasa_separate_object_renderer_close( + Decoder_Struct *st_ivas /* i/o: IVAS decoder structure */ +); + +/*----------------------------------------------------------------------------------* + * Filter-bank (FB) Mixer + *----------------------------------------------------------------------------------*/ + +ivas_error ivas_fb_set_cfg( + IVAS_FB_CFG **pFb_cfg_out, /* o : FB config. handle */ + const Word16 ivas_format, /* i : IVAS format */ + const Word16 num_in_chans, /* i : number of FB input channels */ + const Word16 num_out_chans, /* i : number of FB output channels */ + const Word16 active_w_mixing, /* i : active_w_mixing flag */ + const Word32 sampling_Fs, /* i : sampling rate */ + const Word16 nachan_dirac_ana /* i : number of DirAR analysis channels */ +); + + +/*=============================================================================================*/ #endif diff --git a/lib_com/ivas_qmetadata_com.c b/lib_com/ivas_qmetadata_com_fx.c similarity index 91% rename from lib_com/ivas_qmetadata_com.c rename to lib_com/ivas_qmetadata_com_fx.c index cbc67de00687671820538f9c8f4741fb28928c9d..a5fbf9e83c6d8c0c3b21f77d0a96f8d889f4543a 100644 --- a/lib_com/ivas_qmetadata_com.c +++ b/lib_com/ivas_qmetadata_com_fx.c @@ -36,11 +36,9 @@ #include "options.h" #include "ivas_cnst.h" #include "ivas_rom_com.h" -#include "ivas_prot.h" -#include "prot.h" +#include "prot_fx.h" #include "cnst.h" #include "wmc_auto.h" -#include "prot_fx.h" #include "ivas_prot_fx.h" #include "ivas_rom_com_fx.h" @@ -154,10 +152,8 @@ ivas_error ivas_qmetadata_allocate_memory_fx( { set32_fx( hQMetaData->q_direction[dir].band_data[j].elevation_fx, 0, MAX_PARAM_SPATIAL_SUBFRAMES ); set32_fx( hQMetaData->q_direction[dir].band_data[j].azimuth_fx, 0, MAX_PARAM_SPATIAL_SUBFRAMES ); -#ifdef MSAN_FIX set32_fx( hQMetaData->q_direction[dir].band_data[j].q_elevation_fx, 0, MAX_PARAM_SPATIAL_SUBFRAMES ); set32_fx( hQMetaData->q_direction[dir].band_data[j].q_azimuth_fx, 0, MAX_PARAM_SPATIAL_SUBFRAMES ); -#endif set32_fx( hQMetaData->q_direction[dir].band_data[j].energy_ratio_fx, 0, MAX_PARAM_SPATIAL_SUBFRAMES ); } } @@ -317,14 +313,8 @@ ivas_error only_reduce_bits_direction_fx( Word16 *bits_dir0; Word16 bits_sph_idx_orig[MASA_MAXIMUM_CODING_SUBBANDS][MAX_PARAM_SPATIAL_SUBFRAMES]; -#ifdef FIX_QMETADATA_PENALTY Word32 penalty[MASA_MAXIMUM_CODING_SUBBANDS]; Word16 tmp; -#else - Word16 penalty[MASA_MAXIMUM_CODING_SUBBANDS]; - Word16 shift, tmp, tmp_e, flag; - Word32 tmp_32; -#endif FOR( j = 0; j < coding_subbands; j++ ) { FOR( k = 0; k < no_subframes; k++ ) @@ -409,7 +399,6 @@ ivas_error only_reduce_bits_direction_fx( } ELSE { -#ifdef FIX_QMETADATA_PENALTY Word16 m, sorted, index1, index2; @@ -457,67 +446,6 @@ ivas_error only_reduce_bits_direction_fx( } } } - - -#else - FOR( j = 0; j < coding_subbands; j++ ) - { - penalty[j] = 0; - move16(); - tmp_32 = 0; - move32(); - shift = find_guarded_bits_fx( no_subframes ); - - flag = 1; - move16(); - // This change was done due to loss of precision from BASOP_Util_Divide3232_Scale which was leading to penalty getting calculated wrongly - // and hence ind_order being sorted incorrectly which might cause infinite loop. - FOR( k = 0; k < no_subframes - 1; k++ ) - { - IF( NE_16( bits_sph_idx_orig[j][k], bits_sph_idx_orig[j][k + 1] ) ) - { - flag = 0; - move16(); - } - } - - IF( flag ) - { - tmp = 0; - move16(); - FOR( k = 0; k < no_subframes; k++ ) - { - IF( bits_sph_idx_orig[j][k] > 0 ) - { - tmp = add( tmp, sub( bits_sph_idx_orig[j][k], q_direction->band_data[j].bits_sph_idx[k] ) ); - } - } - - tmp = BASOP_Util_Divide1616_Scale( tmp, bits_sph_idx_orig[j][0], &tmp_e ); - - tmp_32 = L_shl( tmp, tmp_e ); /* Q15 */ - - penalty[j] = extract_l( L_shr( tmp_32, shift ) ); /* Q15 - shift */ - move16(); - // Division by no_subframes for penalty[j] not required - } - ELSE - { - FOR( k = 0; k < no_subframes; k++ ) - { - IF( bits_sph_idx_orig[j][k] > 0 ) - { - tmp = BASOP_Util_Divide3232_Scale( extract_l( L_sub( bits_sph_idx_orig[j][k], q_direction->band_data[j].bits_sph_idx[k] ) ), bits_sph_idx_orig[j][k], &tmp_e ); - tmp_32 = L_add( tmp_32, L_shl( tmp, tmp_e ) ); - } - } - penalty[j] = extract_l( L_shr( tmp_32, shift ) ); /* Q15 - shift */ - move16(); - // Division by no_subframes for penalty[j] not required - } - } - sort_desc_ind_16_fx( penalty, coding_subbands, ind_order ); -#endif } *reduce_bits_out = negate( reduce_bits ); diff --git a/lib_com/ivas_qspherical_com.c b/lib_com/ivas_qspherical_com_fx.c similarity index 99% rename from lib_com/ivas_qspherical_com.c rename to lib_com/ivas_qspherical_com_fx.c index 8ef48be2e355803124f13020b97b562ca6d85615..6661026a8cde298b8d2f618156313e3cdef73a1f 100644 --- a/lib_com/ivas_qspherical_com.c +++ b/lib_com/ivas_qspherical_com_fx.c @@ -36,13 +36,10 @@ #include #include "ivas_cnst.h" #include "ivas_rom_com.h" -#include "ivas_prot.h" -#include "prot.h" +#include "prot_fx.h" #include "cnst.h" #include "wmc_auto.h" #include "ivas_prot_fx.h" -#include "prot_fx.h" -#include "prot_fx.h" #include "ivas_rom_com_fx.h" diff --git a/lib_com/ivas_rom_com_fx.c b/lib_com/ivas_rom_com_fx.c index 8ea2b91e411b204a3b8a6e239481c20f0e6cd7ee..a7a8bdcbfd6176743ab5f8571aa3cb82905bd5fc 100644 --- a/lib_com/ivas_rom_com_fx.c +++ b/lib_com/ivas_rom_com_fx.c @@ -1617,23 +1617,23 @@ const Word32 coherence_cb1_masa_fx[MASA_NO_CV_COH1 * MASA_MAXIMUM_CODING_SUBBAND }; /* Multi-channel input and output setups */ -const int16_t ls_azimuth_CICP2_idx[2] = { 1, 2 }; -const int16_t ls_elevation_CICP2_idx[2] = { 0, 0 }; +const Word16 ls_azimuth_CICP2_idx[2] = { 1, 2 }; +const Word16 ls_elevation_CICP2_idx[2] = { 0, 0 }; -const int16_t ls_azimuth_CICP6_idx[5] = { 1, 2, 0, 7, 8 }; -const int16_t ls_elevation_CICP6_idx[5] = { 0, 0, 0, 0, 0 }; +const Word16 ls_azimuth_CICP6_idx[5] = { 1, 2, 0, 7, 8 }; +const Word16 ls_elevation_CICP6_idx[5] = { 0, 0, 0, 0, 0 }; -const int16_t ls_azimuth_CICP12_idx[7] = { 1, 2, 0, 7, 8, 9, 10 }; -const int16_t ls_elevation_CICP12_idx[7] = { 0, 0, 0, 0, 0, 0, 0 }; +const Word16 ls_azimuth_CICP12_idx[7] = { 1, 2, 0, 7, 8, 9, 10 }; +const Word16 ls_elevation_CICP12_idx[7] = { 0, 0, 0, 0, 0, 0, 0 }; -const int16_t ls_azimuth_CICP14_idx[7] = { 1, 2, 0, 7, 8, 1, 2 }; -const int16_t ls_elevation_CICP14_idx[7] = { 0, 0, 0, 0, 0, 3, 4 }; +const Word16 ls_azimuth_CICP14_idx[7] = { 1, 2, 0, 7, 8, 1, 2 }; +const Word16 ls_elevation_CICP14_idx[7] = { 0, 0, 0, 0, 0, 3, 4 }; -const int16_t ls_azimuth_CICP16_idx[9] = { 1, 2, 0, 7, 8, 1, 2, 7, 8 }; -const int16_t ls_elevation_CICP16_idx[9] = { 0, 0, 0, 0, 0, 3, 3, 3, 3 }; +const Word16 ls_azimuth_CICP16_idx[9] = { 1, 2, 0, 7, 8, 1, 2, 7, 8 }; +const Word16 ls_elevation_CICP16_idx[9] = { 0, 0, 0, 0, 0, 3, 3, 3, 3 }; -const int16_t ls_azimuth_CICP19_idx[11] = { 1, 2, 0, 9, 10, 5, 6, 1, 2, 9, 10 }; -const int16_t ls_elevation_CICP19_idx[11] = { 0, 0, 0, 0, 0, 0, 0, 3, 3, 3, 3 }; +const Word16 ls_azimuth_CICP19_idx[11] = { 1, 2, 0, 9, 10, 5, 6, 1, 2, 9, 10 }; +const Word16 ls_elevation_CICP19_idx[11] = { 0, 0, 0, 0, 0, 0, 0, 3, 3, 3, 3 }; const Word32 shoebox_sin_cos_tbl_fx[11][2] = { { 0, 1073741824 }, // 0 { 536870912, 929887680 }, diff --git a/lib_com/ivas_rotation_com.c b/lib_com/ivas_rotation_com.c index e6f1808e42a1b9fc9f036e50158663b3ae8cd68a..6e31f96d5b13bed79fd99209745e40ee8752b95b 100644 --- a/lib_com/ivas_rotation_com.c +++ b/lib_com/ivas_rotation_com.c @@ -36,8 +36,7 @@ #include "options.h" #include #include "cnst.h" -#include "prot.h" -#include "ivas_prot.h" +#include "prot_fx.h" #include "ivas_prot_fx.h" #ifdef DEBUGGING #include "debug.h" diff --git a/lib_com/ivas_sba_config.c b/lib_com/ivas_sba_config_fx.c similarity index 99% rename from lib_com/ivas_sba_config.c rename to lib_com/ivas_sba_config_fx.c index 94ceb8e3cb1b4a9ae6b0c252636f3641b96ad360..b3a0806d4af63519605efa1c7ff5da40ba095d2e 100644 --- a/lib_com/ivas_sba_config.c +++ b/lib_com/ivas_sba_config_fx.c @@ -37,8 +37,7 @@ #include "cnst.h" #include "ivas_cnst.h" #include "rom_com.h" -#include "prot.h" -#include "ivas_prot.h" +#include "prot_fx.h" #include "ivas_stat_com.h" #include "ivas_rom_com.h" #include "wmc_auto.h" diff --git a/lib_com/ivas_sns_com_fx.c b/lib_com/ivas_sns_com_fx.c index 788fb3c56568b76a9da297901c393c1ded640571..fa64b0092d6de30d78c2199930ea32e99629cb3a 100644 --- a/lib_com/ivas_sns_com_fx.c +++ b/lib_com/ivas_sns_com_fx.c @@ -33,9 +33,7 @@ #include #include "options.h" #include "cnst.h" -#include "prot.h" #include "prot_fx.h" -#include "ivas_prot.h" #include "rom_com.h" #include "ivas_rom_com.h" #include @@ -62,12 +60,11 @@ void sns_compute_scf_fx( Word64 sum; Word32 L_tmp; const Word32 *pow_tilt; + Word16 q_shift, q_out, f_tmp; + Word16 bw, inv_bw, exp; const UWord8 nBands = pPsychParams->nBands; move16(); const UWord8 *bandLengths = pPsychParams->bandLengths; - Word8 bw = 0; - move16(); - Word16 q_shift; const Word16 w_0 = 2730; // (1.0f / 12.0f) in Q15 move16(); @@ -89,91 +86,83 @@ void sns_compute_scf_fx( IF( bandLengths == NULL ) { - bw = (Word8) shr( L_frame, 6 ); + bw = shr( L_frame, 6 ); move16(); + + exp = norm_s( bw ); + inv_bw = div_s( ONE_IN_Q14, shl( bw, exp ) ); // Q:15+14-exp = 29-exp + inv_bw = shl( inv_bw, sub( exp, 14 ) ); // Q15 + /* Energy per band */ k = 0; move16(); FOR( i = 0; i < nBands; ++i ) { - x_64[i] = 0; + sum = 0; move64(); FOR( n = 0; n < bw; ( ++n, ++k ) ) { - x_64[i] = W_add( x_64[i], W_deposit32_l( spectrum[k] ) ); // Q_in - move64(); + /* x[i] += spectrum[k]; + inv_bw is for x[i] /= bw; */ + sum = W_mac_32_16( sum, spectrum[k], inv_bw ); // Q_in+15+1 } + x_64[i] = sum; // Q_in+16 + move64(); } } ELSE { /* Energy per band */ k = 0; - move32(); + move16(); FOR( i = 0; i < nBands; ++i ) { - x_64[i] = 0; + exp = norm_s( bandLengths[i] ); + inv_bw = div_s( ONE_IN_Q14, shl( bandLengths[i], exp ) ); // Q:15+14-exp + inv_bw = shl( inv_bw, sub( exp, 14 ) ); // Q15 + + sum = 0; move64(); FOR( n = 0; n < bandLengths[i]; ( ++n, ++k ) ) { - x_64[i] = W_add( x_64[i], W_deposit32_l( spectrum[k] ) ); // Q_in - move64(); + /* x[i] += spectrum[k]; + inv_bw is for x[i] /= bandLengths[i]; */ + sum = W_mac_32_16( sum, spectrum[k], inv_bw ); // Q_in+15+1 } + x_64[i] = sum; // Q_in+16 + move64(); } } /* Move accumulated values to 32-bit */ - q_shift = 0; - move16(); - IF( x_64[0] != 0 ) + q_shift = W_norm_arr( x_64, nBands ); // W_norm_arr return 63 when all the values of the input buffer are zeroes + IF( EQ_16( q_shift, 63 ) ) { - q_shift = W_norm( x_64[0] ); - } - FOR( i = 1; i < nBands; ++i ) - { - IF( x_64[i] != 0 ) - { - q_shift = s_min( q_shift, W_norm( x_64[i] ) ); - } - } - FOR( i = 0; i < nBands; ++i ) - { - x[i] = W_extract_l( W_shl( x_64[i], sub( q_shift, 32 ) ) ); // Q_in + (q_shift - 32) - } + /* If all the values of x_64 are zeros, the scale factor (scf) values will be calculated as zeroes as per the below operations. + To avoid extra computations in such a case, set scf values as zeroes and return. */ - IF( bandLengths == NULL ) - { - Word16 inv_bw; - bw = (Word8) shr( L_frame, 6 ); - move16(); - inv_bw = div_l( ONE_IN_Q16 /*1 Q16*/, bw ); // Q15 - FOR( i = 0; i < nBands; ++i ) - { - x[i] = Mpy_32_16_1( x[i], inv_bw ); // Q_in + (q_shift - 32) - move32(); - } + set_zero_fx( scf, SNS_NPTS ); + + return; } - ELSE + + FOR( i = 0; i < nBands; ++i ) { - FOR( i = 0; i < nBands; ++i ) - { - Word16 inv_bw = div_l( ONE_IN_Q16 /*1 Q16*/, bandLengths[i] ); // Q15 - x[i] = Mpy_32_16_1( x[i], inv_bw ); // Q_in + (q_shift - 32) - move32(); - } + x[i] = W_extract_h( W_shl( x_64[i], q_shift ) ); // Q: Q_in+16+q_shift-32 = Q_in+q_shift-16 + move32(); } /* Smoothing */ - xs[0] = L_add( Mpy_32_16_1( x[0], 24576 /* 0.75 in Q15 */ ), Mpy_32_16_1( x[1], 8192 /* 0.25 in Q15 */ ) ); // Q_in + (q_shift - 32) + xs[0] = Madd_32_16( Mpy_32_16_1( x[0], 24576 /* 0.75 in Q15 */ ), x[1], 8192 /* 0.25 in Q15 */ ); // Q_in+q_shift-16 move32(); FOR( i = 1; i < FDNS_NPTS - 1; i++ ) { - xs[i] = L_add( L_add( Mpy_32_16_1( x[i], 16384 /* 0.5 in Q15 */ ), Mpy_32_16_1( x[i - 1], 8192 /* 0.25 in Q15 */ ) ), Mpy_32_16_1( x[i + 1], 8192 /* 0.25 in Q15 */ ) ); // Q_in + (q_shift - 32) + xs[i] = Madd_32_16( Madd_32_16( Mpy_32_16_1( x[i], 16384 /* 0.5 in Q15 */ ), x[i - 1], 8192 /* 0.25 in Q15 */ ), x[i + 1], 8192 /* 0.25 in Q15 */ ); // Q_in+q_shift-16 move32(); } - xs[FDNS_NPTS - 1] = L_add( Mpy_32_16_1( x[FDNS_NPTS - 1], 24576 /* 0.75 in Q15 */ ), Mpy_32_16_1( x[FDNS_NPTS - 2], 8192 /* 0.25 in Q15 */ ) ); // Q_in + (q_shift - 32) + xs[FDNS_NPTS - 1] = Madd_32_16( Mpy_32_16_1( x[FDNS_NPTS - 1], 24576 /* 0.75 in Q15 */ ), x[FDNS_NPTS - 2], 8192 /* 0.25 in Q15 */ ); // Q_in+q_shift-16 move32(); /* Pre-emphasis */ @@ -195,86 +184,83 @@ void sns_compute_scf_fx( FOR( i = 0; i < FDNS_NPTS; i++ ) { - xs[i] = Mpy_32_32( xs[i], pow_tilt[i] ); // Q_in + (q_shift - 32) + xs[i] = Mpy_32_32( xs[i], pow_tilt[i] ); // Q_in+q_shift-16+23-31 = Q_in+q_shift-24 move32(); } /* Noise floor at -40dB */ sum = 0; move64(); - FOR( Word16 ind = 0; ind < FDNS_NPTS; ind++ ) + FOR( i = 0; i < FDNS_NPTS; i++ ) { - sum = W_add( sum, W_deposit32_l( xs[ind] ) ); // Q_in + (q_shift - 32) + sum = W_mac_32_16( sum, xs[i], 1 ); // Q_in+q_shift-24+1 } - mean = W_extract_l( W_shr( sum, 6 ) ); // Q_in + (q_shift - 32) - nf = Mpy_32_32( mean, 214748 /* powf( 10.0f, -4.0f ) in Q31 */ ); // Q_in + (q_shift - 32) - nf = L_max( nf, 0 /* powf( 2.0f, -32.0f ) in Q31 */ ); // Q_in + (q_shift - 32) + q_out = sub( add( Q_in, q_shift ), 24 ); + + /* mean = sum / FDNS_NPTS; + -Q6 is for division with FDNS_NPTS and -Q1 is to reduce Q by one */ + mean = W_shl_sat_l( sum, -Q7 ); // q_out + nf = Mpy_32_32( mean, 214748 /* powf( 10.0f, -4.0f ) in Q31 */ ); // q_out + nf = L_max( nf, L_shl( 256, sub( q_out, 40 ) ) /* powf( 2.0f, -32.0f ) in Q40 */ ); // q_out FOR( i = 0; i < FDNS_NPTS; i++ ) { - if ( LT_32( xs[i], nf ) ) - { - xs[i] = nf; // Q_in + (q_shift - 32) - move32(); - } + xs[i] = L_max( xs[i], nf ); // q_out + move32(); } /* Log-domain */ FOR( i = 0; i < FDNS_NPTS; i++ ) { - Word16 e_tmp = norm_l( xs[i] ); - Word16 f_tmp = Log2_norm_lc( L_shl( xs[i], e_tmp ) ); /*Q16*/ - e_tmp = sub( sub( 34, e_tmp ), Q_in ); - /* Note: Mpy_32_16 is used temporarily for this computation, It needs to be replaced with appropriate BASOP. */ - xl[i] = Mpy_32_16( e_tmp, f_tmp, 16384 ); /* Q16 */ + /* xl[i] = logf( xs[i] ) * scale_log; + scale_log = INV_LOG_2 * 0.5f; */ + + exp = norm_l( xs[i] ); + f_tmp = Log2_norm_lc( L_shl( xs[i], exp ) ); // Q15 + exp = sub( sub( 30, exp ), q_out ); + L_tmp = L_mac( L_deposit_h( exp ), f_tmp, 1 ); // Q16 + xl[i] = L_shr( L_tmp, 1 ); // Q16 move32(); } /* Downsampling */ - L_tmp = L_deposit_l( 0 ); - L_tmp = Madd_32_16( L_tmp, xl[0], w_0 ); // Q16 - L_tmp = Madd_32_16( L_tmp, xl[0], w_1 ); // Q16 - L_tmp = Madd_32_16( L_tmp, xl[1], w_2 ); // Q16 - L_tmp = Madd_32_16( L_tmp, xl[2], w_3 ); // Q16 - L_tmp = Madd_32_16( L_tmp, xl[3], w_4 ); // Q16 - L_tmp = Madd_32_16( L_tmp, xl[4], w_5 ); // Q16 - xl4[0] = L_tmp; // Q16 - move32(); + L_tmp = Madd_32_16( Mpy_32_16_1( xl[0], w_0 ), xl[0], w_1 ); // Q16 + L_tmp = Madd_32_16( L_tmp, xl[1], w_2 ); // Q16 + L_tmp = Madd_32_16( L_tmp, xl[2], w_3 ); // Q16 + L_tmp = Madd_32_16( L_tmp, xl[3], w_4 ); // Q16 + xl4[0] = Madd_32_16( L_tmp, xl[4], w_5 ); // Q16 + FOR( n = 1; n < SNS_NPTS - 1; n++ ) { - Word16 n4 = shl( n, 2 ); - - L_tmp = L_deposit_l( 0 ); - L_tmp = Madd_32_16( L_tmp, xl[n4 - 1], w_0 ); // Q16 - L_tmp = Madd_32_16( L_tmp, xl[n4], w_1 ); // Q16 - L_tmp = Madd_32_16( L_tmp, xl[n4 + 1], w_2 ); // Q16 - L_tmp = Madd_32_16( L_tmp, xl[n4 + 2], w_3 ); // Q16 - L_tmp = Madd_32_16( L_tmp, xl[n4 + 3], w_4 ); // Q16 - L_tmp = Madd_32_16( L_tmp, xl[n4 + 4], w_5 ); // Q16 - xl4[n] = L_tmp; // Q16 + L_tmp = Mpy_32_16_1( xl[4 * n - 1], w_0 ); // Q16 + L_tmp = Madd_32_16( L_tmp, xl[4 * n], w_1 ); // Q16 + L_tmp = Madd_32_16( L_tmp, xl[4 * n + 1], w_2 ); // Q16 + L_tmp = Madd_32_16( L_tmp, xl[4 * n + 2], w_3 ); // Q16 + L_tmp = Madd_32_16( L_tmp, xl[4 * n + 3], w_4 ); // Q16 + xl4[n] = Madd_32_16( L_tmp, xl[4 * n + 4], w_5 ); // Q16 move32(); } - L_tmp = L_deposit_l( 0 ); - L_tmp = Madd_32_16( L_tmp, xl[FDNS_NPTS - 5], w_0 ); // Q16 - L_tmp = Madd_32_16( L_tmp, xl[FDNS_NPTS - 4], w_1 ); // Q16 - L_tmp = Madd_32_16( L_tmp, xl[FDNS_NPTS - 3], w_2 ); // Q16 - L_tmp = Madd_32_16( L_tmp, xl[FDNS_NPTS - 2], w_3 ); // Q16 - L_tmp = Madd_32_16( L_tmp, xl[FDNS_NPTS - 1], w_4 ); // Q16 - L_tmp = Madd_32_16( L_tmp, xl[FDNS_NPTS - 1], w_5 ); // Q16 - xl4[SNS_NPTS - 1] = L_tmp; // Q16 + L_tmp = Mpy_32_16_1( xl[FDNS_NPTS - 5], w_0 ); // Q16 + L_tmp = Madd_32_16( L_tmp, xl[FDNS_NPTS - 4], w_1 ); // Q16 + L_tmp = Madd_32_16( L_tmp, xl[FDNS_NPTS - 3], w_2 ); // Q16 + L_tmp = Madd_32_16( L_tmp, xl[FDNS_NPTS - 2], w_3 ); // Q16 + L_tmp = Madd_32_16( L_tmp, xl[FDNS_NPTS - 1], w_4 ); // Q16 + xl4[SNS_NPTS - 1] = Madd_32_16( L_tmp, xl[FDNS_NPTS - 1], w_5 ); // Q16 move32(); /* Remove mean and scaling */ sum = 0; move64(); - FOR( Word16 ind = 0; ind < SNS_NPTS; ind++ ) + FOR( i = 0; i < SNS_NPTS; i++ ) { - sum = W_add( sum, W_deposit32_l( xl4[ind] ) ); // Q16 + sum = W_mac_32_16( sum, xl4[i], 1 ); // Q16+1 } - mean = W_extract_l( W_shr( sum, 4 ) ); // Q16 + /* mean = sum / SNS_NPTS; + -Q4 is for division with SNS_NPTS and -Q1 is to reduce Q by one */ + mean = W_shl_sat_l( sum, -Q5 ); // Q16 FOR( i = 0; i < SNS_NPTS; i++ ) { diff --git a/lib_com/ivas_spar_com.c b/lib_com/ivas_spar_com_fx.c similarity index 96% rename from lib_com/ivas_spar_com.c rename to lib_com/ivas_spar_com_fx.c index 0ebae0de678aacc93972eab223eefd9cb9908cf3..8aaeb7f63b97fdf8e81aa76c9798808e0569ea29 100644 --- a/lib_com/ivas_spar_com.c +++ b/lib_com/ivas_spar_com_fx.c @@ -35,9 +35,7 @@ #include "options.h" #include "basop_util.h" #include "ivas_stat_com.h" -#include "prot.h" #include "prot_fx.h" -#include "ivas_prot.h" #include "rom_com.h" #include "ivas_rom_com.h" #include "cnst.h" @@ -53,24 +51,16 @@ * Local constants *------------------------------------------------------------------------------------------*/ -#define IVAS_FLT_EPS ( 1e-10F ) -#define IVAS_FIX_EPS ( 1 ) -#define IVAS_DBL_EPS ( (double) 1e-20 ) +#define IVAS_FIX_EPS ( 1 ) +#define IVAS_FIX_EPS_Q40 ( 110 ) -#define IVAS_REMIX_MULT_FAC ( 0.5f ) -#define IVAS_ACTIVEW_DM_F ( 1.0f ) #define IVAS_ACTIVEW_DM_F_Q30 ( ONE_IN_Q30 ) /*1 Q30*/ -#define IVAS_ACTIVEW_DM_F_DTX ( 0.25f ) -#define IVAS_ACTIVEW_DM_F_DTX_Q30 ( 268435456 ) /*0.25 Q30*/ -#define IVAS_ACTIVEW_DM_F_VLBR ( 0.25f ) -#define IVAS_ACTIVEW_DM_F_VLBR_Q30 ( 268435456 ) /*0.25 Q30*/ -#define IVAS_LIN_ACTIVEW_QUAD_ACTIVEW_THRESH ( 3.0f ) +#define IVAS_ACTIVEW_DM_F_DTX_Q30 ( 268435456 ) /*0.25 Q30*/ +#define IVAS_ACTIVEW_DM_F_VLBR_Q30 ( 268435456 ) /*0.25 Q30*/ #define IVAS_LIN_ACTIVEW_QUAD_ACTIVEW_THRESH_Q29 ( 1610612736 ) /*3 Q29*/ -#define IVAS_P_NORM_SCALING ( 1.0f ) #define IVAS_P_NORM_SCALING_FX ( ONE_IN_Q31 ) // 1 Q31 -#define IVAS_P_NORM_SCALING_DTX ( 0.75f ) #define IVAS_P_NORM_SCALING_DTX_FX ( 1610612736 ) // 0.75 Q31 #define IVAS_MAT_DIM_3 ( 3 ) @@ -1628,8 +1618,18 @@ static void ivas_get_Wscaling_factor_enc_fx( ivas_calc_post_pred_per_band_enc_fx( cov_real, q_cov_real, mixer_mat, q_mixer_mat, num_ch, b, postpred_cov_re, &q_postpred_cov_re ); } - Gw_sq = BASOP_Util_Divide3232_Scale( cov_real[0][0][b], L_max( postpred_cov_re[0][0], IVAS_FIX_EPS ), &tmp_exp ); // 15-(tmp_exp-(q_cov_real[0][0][b]- q_postpred_cov_re)) - q_Gw_sq = add( sub( 15, tmp_exp ), sub( q_cov_real[0][0][b], q_postpred_cov_re ) ); + tmp = L_shl_sat( IVAS_FIX_EPS_Q40, sub( q_postpred_cov_re, 40 ) ); + + IF( LE_32( postpred_cov_re[0][0], tmp ) ) + { + Gw_sq = Mpy_32_32( cov_real[0][0][b], 1250000000 ); /*1/1e-10 = 1250000000 Q(-4)*/ + q_Gw_sq = add( q_cov_real[0][0][b], -4 - 31 ); + } + ELSE + { + Gw_sq = BASOP_Util_Divide3232_Scale( cov_real[0][0][b], postpred_cov_re[0][0], &tmp_exp ); // 15-(tmp_exp-(q_cov_real[0][0][b]- q_postpred_cov_re)) + q_Gw_sq = add( sub( 15, tmp_exp ), sub( q_cov_real[0][0][b], q_postpred_cov_re ) ); + } shift = MAX16B; move16(); @@ -1994,12 +1994,15 @@ static void ivas_calc_post_pred_per_band_enc_fx( Word32 postpred_cov_re[IVAS_SPAR_MAX_CH][IVAS_SPAR_MAX_CH], /*q_postpred_cov_re*/ Word16 *q_postpred_cov_re ) { - Word16 i, j, k, guard_bits, tmp, q_temp_mat[IVAS_SPAR_MAX_CH][IVAS_SPAR_MAX_CH], q_tmp_re, q_W_tmp; + Word16 i, j, k; Word32 dmx_mat_conj[IVAS_SPAR_MAX_CH][IVAS_SPAR_MAX_CH]; Word32 temp_mat[IVAS_SPAR_MAX_CH][IVAS_SPAR_MAX_CH]; - Word32 max_val; - Word64 tmp_re, W_tmp; - Word16 q_postpred_cov_re_per_value[IVAS_SPAR_MAX_CH][IVAS_SPAR_MAX_CH]; + Word16 temp_mat_e[IVAS_SPAR_MAX_CH][IVAS_SPAR_MAX_CH]; + Word16 q_postpred_cov_re_buf[IVAS_SPAR_MAX_CH][IVAS_SPAR_MAX_CH]; + Word16 min_val; + Word32 tmp_re; + Word16 tmp_q; + Word16 tmp_e; FOR( i = 0; i < num_ch; i++ ) { @@ -2016,135 +2019,71 @@ static void ivas_calc_post_pred_per_band_enc_fx( set32_fx( postpred_cov_re[i], 0, num_ch ); } - max_val = 1; - move32(); + min_val = MAX16B; + move16(); /* num_ch x num_ch mult */ FOR( i = 0; i < num_ch; i++ ) { FOR( j = 0; j < num_ch; j++ ) { - tmp_re = 0; - move64(); - q_tmp_re = 31; + temp_mat[i][j] = 0; + move32(); + temp_mat_e[i][j] = 0; move16(); FOR( k = 0; k < num_ch; k++ ) { - W_tmp = W_shr( W_mult0_32_32( cov_real[i][k][band_idx], dmx_mat_conj[k][j] ), q_mixer_mat ); /*q_cov_real[i][k][band_idx]*/ - IF( LT_16( q_cov_real[i][k][band_idx], q_tmp_re ) ) + tmp_re = Mpy_32_32( cov_real[i][k][band_idx], dmx_mat_conj[k][j] ); + tmp_e = sub( 62, add( q_cov_real[i][k][band_idx], q_mixer_mat ) ); + IF( tmp_re ) { - tmp_re = W_add( W_shr( tmp_re, sub( q_tmp_re, q_cov_real[i][k][band_idx] ) ), W_tmp ); /*q_cov_real[i][k][band_idx]*/ - q_tmp_re = q_cov_real[i][k][band_idx]; - move16(); - } - ELSE - { - tmp_re = W_add( tmp_re, W_shr( W_tmp, sub( q_cov_real[i][k][band_idx], q_tmp_re ) ) ); /*q_tmp_re*/ + temp_mat[i][j] = BASOP_Util_Add_Mant32Exp( temp_mat[i][j], temp_mat_e[i][j], tmp_re, tmp_e, &temp_mat_e[i][j] ); + move32(); } } - IF( tmp_re == 0 ) - { - q_temp_mat[i][j] = 31; - move16(); - temp_mat[i][j] = 0; - move32(); - } - ELSE - { - q_temp_mat[i][j] = q_tmp_re; - move16(); - q_tmp_re = W_norm( tmp_re ); - temp_mat[i][j] = W_extract_h( W_shl( tmp_re, q_tmp_re ) ); /*q_temp_mat[i][j]+ q_tmp_re -32*/ - move32(); - q_temp_mat[i][j] = sub( add( q_temp_mat[i][j], q_tmp_re ), 32 ); - move16(); - } - max_val = L_max( max_val, L_abs( temp_mat[i][j] ) ); } } - guard_bits = find_guarded_bits_fx( num_ch ); - - tmp = norm_l( max_val ); - IF( LT_16( tmp, guard_bits ) ) - { - guard_bits = sub( guard_bits, tmp ); - } - ELSE - { - guard_bits = 0; - move16(); - } - - *q_postpred_cov_re = 31; - move16(); /* num_ch x num_ch mult */ FOR( i = 0; i < num_ch; i++ ) { FOR( j = i; j < num_ch; j++ ) { - tmp_re = 0; - move64(); - q_tmp_re = 31; + q_postpred_cov_re_buf[i][j] = *q_postpred_cov_re; move16(); FOR( k = 0; k < num_ch; k++ ) { - W_tmp = W_shr( W_mult0_32_32( mixer_mat[i][k][band_idx], temp_mat[k][j] ), guard_bits ); // q_temp_mat[k][j]+ q_mixer_mat-guard_bits - q_W_tmp = sub( add( q_temp_mat[k][j], q_mixer_mat ), guard_bits ); - IF( LT_16( q_W_tmp, q_tmp_re ) ) + tmp_re = Mpy_32_32( mixer_mat[i][k][band_idx], temp_mat[k][j] ); + tmp_q = sub( q_mixer_mat, temp_mat_e[k][j] ); + IF( tmp_re ) { - tmp_re = W_add( W_shr( tmp_re, sub( q_tmp_re, q_W_tmp ) ), W_tmp ); // q_W_tmp - q_tmp_re = q_W_tmp; + tmp_e = sub( 31, q_postpred_cov_re_buf[i][j] ); + postpred_cov_re[i][j] = BASOP_Util_Add_Mant32Exp( postpred_cov_re[i][j], tmp_e, tmp_re, sub( Q31, tmp_q ), &tmp_e ); + move32(); + q_postpred_cov_re_buf[i][j] = sub( 31, tmp_e ); move16(); } - ELSE - { - tmp_re = W_add( tmp_re, W_shr( W_tmp, sub( q_W_tmp, q_tmp_re ) ) ); // q_tmp_re - } } - - if ( LT_64( W_abs( tmp_re ), L_shl( IVAS_FIX_EPS, guard_bits ) ) ) + IF( postpred_cov_re[i][j] ) { - tmp_re = 0; - move64(); - } - - q_postpred_cov_re_per_value[i][j] = q_tmp_re; - move16(); - IF( tmp_re == 0 ) - { - postpred_cov_re[i][j] = W_extract_l( tmp_re ); /* q_tmp_re*/ - move32(); + min_val = s_min( min_val, q_postpred_cov_re_buf[i][j] ); } - ELSE - { - q_tmp_re = W_norm( tmp_re ); - postpred_cov_re[i][j] = W_extract_h( W_shl( tmp_re, q_tmp_re ) ); /* q_tmp_re+ q_postpred_cov_re_per_value[i][j] -32*/ - move32(); - q_postpred_cov_re_per_value[i][j] = sub( add( q_tmp_re, q_postpred_cov_re_per_value[i][j] ), 32 ); - move16(); - } - *q_postpred_cov_re = s_min( *q_postpred_cov_re, q_postpred_cov_re_per_value[i][j] ); - move16(); } } + /*Changing Q of postpred_cov_re to min_val*/ FOR( i = 0; i < num_ch; i++ ) { FOR( j = i; j < num_ch; j++ ) { - IF( postpred_cov_re[i][j] >= 0 ) + IF( postpred_cov_re[i][j] ) { - postpred_cov_re[i][j] = L_shr( postpred_cov_re[i][j], sub( q_postpred_cov_re_per_value[i][j], *q_postpred_cov_re ) ); //*q_postpred_cov_re - move32(); - } - ELSE - { - postpred_cov_re[i][j] = L_negate( L_shr( L_negate( postpred_cov_re[i][j] ), sub( q_postpred_cov_re_per_value[i][j], *q_postpred_cov_re ) ) ); //*q_postpred_cov_re + postpred_cov_re[i][j] = L_shl( postpred_cov_re[i][j], sub( min_val, q_postpred_cov_re_buf[i][j] ) ); move32(); } } } + FOR( i = 0; i < num_ch; i++ ) { FOR( j = 0; j < i; j++ ) @@ -2154,6 +2093,14 @@ static void ivas_calc_post_pred_per_band_enc_fx( } } + if ( EQ_16( min_val, MAX16B ) ) + { + min_val = Q31; + move16(); + } + *q_postpred_cov_re = min_val; + move16(); + return; } @@ -2633,11 +2580,7 @@ static void ivas_calc_p_coeffs_per_band_enc_fx( test(); IF( W_norm( re ) == 0 || W_norm( recon_uu_re[i][j] ) == 0 ) { -#ifdef FIX_ISSUE_1122 recon_uu_re[i][j] = L_shr( recon_uu_re[i][j], 1 ); // q_recon_uu_re[i][j] - 1 -#else - re1[m] = L_shr( re1[m], 1 ); // q_recon_uu_re[i][j]-1 -#endif move32(); q_recon_uu_re[i][j] = sub( q_recon_uu_re[i][j], 1 ); move16(); @@ -2693,7 +2636,8 @@ static void ivas_calc_p_coeffs_per_band_enc_fx( trace = W_add( trace, W_deposit32_l( L_abs( cov_uu_re[i - num_dmx][i - num_dmx] ) ) ); // q_cov_uu_re } - factor = L_max( IVAS_FIX_EPS, postpred_cov_re[0][0] ); // q_postpred_cov_re + factor = postpred_cov_re[0][0]; // q_postpred_cov_re + move32(); q_factor = q_postpred_cov_re; move16(); IF( trace != 0 ) @@ -2714,10 +2658,22 @@ static void ivas_calc_p_coeffs_per_band_enc_fx( factor = L_max( factor, tmp ); // q_factor } + tmp = L_shl_sat( 189 /* 1e-20 in Q74 */, sub( q_factor, 74 ) ); + Word16 factor_exp = 0; move16(); - factor = BASOP_Util_Divide3232_Scale( 1, factor, &factor_exp ); // q=15-(factor_exp+31-(31-q_factor)) - factor_exp = add( factor_exp, q_factor ); + IF( LE_32( factor, tmp ) ) + { + factor = 22204; // (1 / 1e-20) in Q(-52) + factor_exp = Q15 - ( -52 ); + move32(); + move16(); + } + ELSE + { + factor = BASOP_Util_Divide3232_Scale( 1, factor, &factor_exp ); // q=15-(factor_exp+31-(31-q_factor)) + factor_exp = add( factor_exp, q_factor ); + } /* normalise Hermitian (except for rounding) cov_uu */ FOR( i = num_dmx; i < num_ch; i++ ) @@ -2734,7 +2690,7 @@ static void ivas_calc_p_coeffs_per_band_enc_fx( { q_tmp = W_norm( W_tmp ); } - cov_uu_re[i - num_dmx][j - num_dmx] = W_extract_h( W_shl( W_mult0_32_32( cov_uu_re[i - num_dmx][j - num_dmx], factor ), q_tmp ) ); /*q_cov_uu_re+15-factor_exp+q_tmp-32*/ + cov_uu_re[i - num_dmx][j - num_dmx] = W_extract_h( W_shl( W_tmp, q_tmp ) ); /*q_cov_uu_re+15-factor_exp+q_tmp-32*/ move32(); q_cov_uu_re_per_value[i - num_dmx][j - num_dmx] = sub( add( add( q_cov_uu_re, sub( 15, factor_exp ) ), q_tmp ), 32 ); move16(); @@ -3317,6 +3273,9 @@ void ivas_calc_c_p_coeffs_enc_fx( Word16 i, j, q_postpred_cov_re; Word32 postpred_cov_re[IVAS_SPAR_MAX_CH][IVAS_SPAR_MAX_CH]; + q_postpred_cov_re = 0; + move16(); + FOR( i = 0; i < IVAS_SPAR_MAX_CH; i++ ) { set_zero_fx( postpred_cov_re[i], IVAS_SPAR_MAX_CH ); @@ -3808,7 +3767,7 @@ void ivas_compute_spar_params_fx( { Word32 pred_coeffs_re[IVAS_SPAR_MAX_CH - 1][IVAS_MAX_NUM_BANDS]; - Word16 b, i, ndm; + Word16 b, i, ndm, j; Word16 q_pred_coeffs; ivas_get_pred_coeffs_fx( cov_real, pred_coeffs_re, dm_fv_re, num_ch, start_band, end_band, active_w, active_w_vlbr, dtx_vad, from_dirac, dyn_active_w_flag, hSparMd->res_ind, &q_pred_coeffs, q_dm_fv_re ); @@ -3836,11 +3795,7 @@ void ivas_compute_spar_params_fx( } ELSE { -#ifdef FIX_11_1_IVAS_SPAR_DEC_UPMIXER_SF_RND_COEFFS hSparMd->band_coeffs[b + ( i_ts * IVAS_MAX_NUM_BANDS )].pred_re_fx[i] = L_shr_r( hSparMd->band_coeffs[b + ( i_ts * IVAS_MAX_NUM_BANDS )].pred_re_fx[i], sub( tmp, 22 ) ); // q22 -#else - hSparMd->band_coeffs[b + ( i_ts * IVAS_MAX_NUM_BANDS )].pred_re_fx[i] = L_shr( hSparMd->band_coeffs[b + ( i_ts * IVAS_MAX_NUM_BANDS )].pred_re_fx[i], sub( tmp, 22 ) ); // q22 -#endif move32(); } } @@ -3867,24 +3822,14 @@ void ivas_compute_spar_params_fx( Word16 q_tmp = hSparMd->band_coeffs[b + ( i_ts * IVAS_MAX_NUM_BANDS )].q_C_re_fx; IF( NE_16( ndm, 1 ) ) { -#ifdef MSAN_FIX FOR( i = 0; i < ( num_ch - ndm ); i++ ) { - FOR( Word16 j = 0; j < sub( ndm, 1 ); j++ ) + FOR( j = 0; j < sub( ndm, 1 ); j++ ) { hSparMd->band_coeffs[b + ( i_ts * IVAS_MAX_NUM_BANDS )].C_re_fx[i][j] = L_shr( hSparMd->band_coeffs[b + ( i_ts * IVAS_MAX_NUM_BANDS )].C_re_fx[i][j], sub( q_tmp, 22 ) ); // q22 move32(); } } -#else - for ( i = 0; i < IVAS_SPAR_MAX_CH - IVAS_SPAR_MAX_DMX_CHS; i++ ) - { - for ( int j = 0; j < IVAS_SPAR_MAX_DMX_CHS - 1; j++ ) - { - hSparMd->band_coeffs[b + i_ts * IVAS_MAX_NUM_BANDS].C_re_fx[i][j] = L_shr( hSparMd->band_coeffs[b + i_ts * IVAS_MAX_NUM_BANDS].C_re_fx[i][j], sub( q_tmp, 22 ) ); - } - } -#endif hSparMd->band_coeffs[b + ( i_ts * IVAS_MAX_NUM_BANDS )].q_C_re_fx = Q22; move16(); } @@ -3892,7 +3837,7 @@ void ivas_compute_spar_params_fx( q_tmp = hSparMd->band_coeffs[b + ( i_ts * IVAS_MAX_NUM_BANDS )].q_P_re_fx; move16(); - FOR( Word16 j = 0; j < sub( IVAS_SPAR_MAX_CH, 1 ); j++ ) + FOR( j = 0; j < sub( IVAS_SPAR_MAX_CH, 1 ); j++ ) { hSparMd->band_coeffs[b + ( i_ts * IVAS_MAX_NUM_BANDS )].P_re_fx[j] = L_shr( hSparMd->band_coeffs[b + ( i_ts * IVAS_MAX_NUM_BANDS )].P_re_fx[j], sub( q_tmp, 22 ) ); // q22 move32(); @@ -4005,7 +3950,8 @@ void ivas_get_spar_md_from_dirac_enc_fx( move16(); P_norm_fx[0] = 0; move32(); - FOR( i = 0; i < max( 0, sub( foa_ch, ndm ) ); i++ ) + Word16 len = s_max( 0, sub( foa_ch, ndm ) ); + FOR( i = 0; i < len; i++ ) { P_norm_fx[0] = L_add( P_norm_fx[0], Mpy_32_32( hSpar_md->band_coeffs[start_band - 1].P_re_fx[i], hSpar_md->band_coeffs[start_band - 1].P_re_fx[i] ) ); // 2*q_P_re - 31 move32(); @@ -4015,7 +3961,8 @@ void ivas_get_spar_md_from_dirac_enc_fx( P_norm_fx[1] = 0; move32(); - FOR( ; i < max( 0, ( min( num_ch, hoa2_ch ) - ndm ) ); i++ ) + len = s_max( 0, sub( s_min( num_ch, hoa2_ch ), ndm ) ); + FOR( ; i < len; i++ ) // max( 0, ( min( num_ch, hoa2_ch ) - ndm ) ) { P_norm_fx[1] = L_add( P_norm_fx[1], Mpy_32_32( hSpar_md->band_coeffs[start_band - 1].P_re_fx[i], hSpar_md->band_coeffs[start_band - 1].P_re_fx[i] ) ); // 2*q_P_re - 31 move32(); @@ -4032,8 +3979,8 @@ void ivas_get_spar_md_from_dirac_enc_fx( } P_norm_fx[2] = Mpy_32_32( L_shl( P_norm_fx[2], 3 ), diff_norm_order3_table[min( diff_norm_order3_fx, max( 0, ( num_ch - ndm ) ) )] ); // 2*q_P_re - 31 move32(); - - FOR( i = 0; i < max( 0, ( foa_ch - ndm ) ); i++ ) + len = s_max( 0, sub( foa_ch, ndm ) ); + FOR( i = 0; i < len; i++ ) // i < max( 0, ( foa_ch - ndm ) ) { idx = sub( remix_order[i + ndm], ndm ); P_dir_fact_fx[idx] = Mpy_32_32( hSpar_md->band_coeffs[start_band - 1].P_re_fx[i], hSpar_md->band_coeffs[start_band - 1].P_re_fx[i] ); // 2*q_P_re - 31 @@ -4046,7 +3993,8 @@ void ivas_get_spar_md_from_dirac_enc_fx( move32(); } } - FOR( ; i < max( 0, ( min( num_ch, hoa2_ch ) - ndm ) ); i++ ) + len = s_max( 0, sub( s_min( num_ch, hoa2_ch ), ndm ) ); + FOR( ; i < len; i++ ) // i < max( 0, ( min( num_ch, hoa2_ch ) - ndm ) ) { idx = sub( remix_order[i + ndm], ndm ); P_dir_fact_fx[idx] = Mpy_32_32( hSpar_md->band_coeffs[start_band - 1].P_re_fx[i], hSpar_md->band_coeffs[start_band - 1].P_re_fx[i] ); // 2*q_P_re - 31 @@ -4058,6 +4006,7 @@ void ivas_get_spar_md_from_dirac_enc_fx( move32(); } } + FOR( ; i < ( num_ch - ndm ); i++ ) { idx = sub( remix_order[i + ndm], ndm ); @@ -4223,7 +4172,8 @@ void ivas_get_spar_md_from_dirac_enc_fx( /*normalize 2nd order*/ norm_fx = 0; move32(); - FOR( ch = foa_ch; ch < min( hoa2_ch_order, num_ch_order ); ch++ ) + Word16 min_ch_order = s_min( hoa2_ch_order, num_ch_order ); + FOR( ch = foa_ch; ch < min_ch_order; ch++ ) { norm_fx = L_add( norm_fx, Mpy_32_32( response_avg_fx[ch], response_avg_fx[ch] ) ); // q29 } @@ -4244,7 +4194,8 @@ void ivas_get_spar_md_from_dirac_enc_fx( move16(); } norm_fx = L_shr( norm_fx, sub( 1, norm_q ) ); // q30 - FOR( ch = foa_ch; ch < min( hoa2_ch_order, num_ch_order ); ch++ ) + min_ch_order = s_min( hoa2_ch_order, num_ch_order ); + FOR( ch = foa_ch; ch < min_ch_order; ch++ ) { IF( LT_32( norm_fx, EPSILON_FX_THR ) ) { @@ -4558,7 +4509,8 @@ void ivas_get_spar_md_from_dirac_fx( move16(); P_norm_fx[0] = 0; move32(); - FOR( i = 0; i < max( 0, sub( foa_ch, ndm ) ); i++ ) + Word16 len = s_max( 0, sub( foa_ch, ndm ) ); + FOR( i = 0; i < len; i++ ) // i < max( 0, sub( foa_ch, ndm ) ) { P_norm_fx[0] = L_add( P_norm_fx[0], Mpy_32_32( hSpar_md->band_coeffs[start_band - 1].P_re_fx[i], hSpar_md->band_coeffs[start_band - 1].P_re_fx[i] ) ); // 2*q_P_re - 31 move32(); @@ -4568,7 +4520,8 @@ void ivas_get_spar_md_from_dirac_fx( P_norm_fx[1] = 0; move32(); - FOR( ; i < max( 0, ( min( num_ch, hoa2_ch ) - ndm ) ); i++ ) + len = s_max( 0, sub( s_min( num_ch, hoa2_ch ), ndm ) ); + FOR( ; i < len; i++ ) // i < max( 0, ( min( num_ch, hoa2_ch ) - ndm ) ) { P_norm_fx[1] = L_add( P_norm_fx[1], Mpy_32_32( hSpar_md->band_coeffs[start_band - 1].P_re_fx[i], hSpar_md->band_coeffs[start_band - 1].P_re_fx[i] ) ); // 2*q_P_re - 31 move32(); @@ -4585,8 +4538,8 @@ void ivas_get_spar_md_from_dirac_fx( } P_norm_fx[2] = Mpy_32_32( L_shl( P_norm_fx[2], 3 ), diff_norm_order3_table[min( diff_norm_order3_fx, max( 0, ( num_ch - ndm ) ) )] ); // 2*q_P_re - 31 move32(); - - FOR( i = 0; i < max( 0, ( foa_ch - ndm ) ); i++ ) + len = s_max( 0, sub( foa_ch, ndm ) ); + FOR( i = 0; i < len; i++ ) // i < max( 0, ( foa_ch - ndm ) ) { idx = sub( remix_order[i + ndm], ndm ); P_dir_fact_fx[idx] = Mpy_32_32( hSpar_md->band_coeffs[start_band - 1].P_re_fx[i], hSpar_md->band_coeffs[start_band - 1].P_re_fx[i] ); // 2*q_P_re - 31 @@ -4599,7 +4552,8 @@ void ivas_get_spar_md_from_dirac_fx( move32(); } } - FOR( ; i < max( 0, ( min( num_ch, hoa2_ch ) - ndm ) ); i++ ) + len = s_max( 0, sub( s_min( num_ch, hoa2_ch ), ndm ) ); + FOR( ; i < len; i++ ) // i < max( 0, ( min( num_ch, hoa2_ch ) - ndm ) ) { idx = sub( remix_order[i + ndm], ndm ); P_dir_fact_fx[idx] = Mpy_32_32( hSpar_md->band_coeffs[start_band - 1].P_re_fx[i], hSpar_md->band_coeffs[start_band - 1].P_re_fx[i] ); // 2*q_P_re - 31 @@ -4776,7 +4730,8 @@ void ivas_get_spar_md_from_dirac_fx( /*normalize 2nd order*/ norm_fx = 0; move32(); - FOR( ch = foa_ch; ch < min( hoa2_ch_order, num_ch_order ); ch++ ) + Word16 min_ch_order = s_min( hoa2_ch_order, num_ch_order ); + FOR( ch = foa_ch; ch < min_ch_order; ch++ ) { norm_fx = L_add( norm_fx, Mpy_32_32( response_avg_fx[ch], response_avg_fx[ch] ) ); // q29 } @@ -4797,7 +4752,8 @@ void ivas_get_spar_md_from_dirac_fx( move16(); } norm_fx = L_shr( norm_fx, sub( 1, norm_q ) ); // q30 - FOR( ch = foa_ch; ch < min( hoa2_ch_order, num_ch_order ); ch++ ) + min_ch_order = s_min( hoa2_ch_order, num_ch_order ); + FOR( ch = foa_ch; ch < min_ch_order; ch++ ) { IF( LT_32( norm_fx, EPSILON_FX_THR ) ) { @@ -7173,6 +7129,133 @@ void ivas_dirac_dec_get_response_fx( return; } +#ifdef FIX_1310_SPEEDUP_ivas_dirac_dec_get_response_fx +/*This is a derivate to ivas_dirac_dec_get_response_fx with fixed Q_out=29*/ +void ivas_dirac_dec_get_response_fx_29( + const Word16 azimuth, + const Word16 elevation, + Word32 *response_fx, /*Q_out*/ + const Word16 ambisonics_order ) +{ + Word16 index_azimuth, index_elevation; + Word16 el, az; + Word32 cos_1_fx, cos_2_fx, sin_1_fx, cos_az_fx[3]; + Word32 sin_az_fx[3]; + Word32 f_fx; + Word32 c_fx_better; + Word16 l, m; + Word16 b, b1, b_2, b1_2; + // Word16 Q_out = 29; + + index_azimuth = add( azimuth, 180 ) % 360; + move16(); + index_elevation = add( elevation, 90 ); + + Word32 e_fac = L_add( 0x7FFFFFFF, 0 ); + + if ( GT_16( index_elevation, 90 ) ) + { + e_fac = MIN_32; + } + + + el = index_elevation; + move16(); + + if ( GT_16( index_elevation, 90 ) ) + { + el = sub( 180, index_elevation ); + } + + az = index_azimuth; + move16(); + + if ( GT_16( index_azimuth, 180 ) ) + { + az = sub( 360, index_azimuth ); + } + + f_fx = 1; + move16(); + + if ( GT_16( index_azimuth, 180 ) ) + { + f_fx = -1; + } + + cos_1_fx = L_shr( dirac_gains_trg_term_fx[az][0], 1 ); // q30 + cos_2_fx = L_shl( Mpy_32_32( cos_1_fx, cos_1_fx ), 1 ); // q30 + sin_1_fx = L_shr( dirac_gains_trg_term_fx[az][1], 1 ); // q30 + + if ( EQ_32( f_fx, -1 ) ) + { + sin_1_fx = L_negate( sin_1_fx ); // q30 + } + cos_az_fx[0] = cos_1_fx; // q30 + move32(); + cos_az_fx[1] = L_shl( L_sub( cos_2_fx, ONE_IN_Q29 /*0.5 q30*/ ), 1 ); /*q30*/ + move32(); + cos_az_fx[2] = L_sub( L_shl( Mpy_32_32( cos_1_fx, cos_az_fx[1] ), 2 ), cos_az_fx[0] /* cos_az_fx[0] q30*/ ); /*q30*/ + move32(); + sin_az_fx[0] = sin_1_fx; /*q30*/ + move32(); + sin_az_fx[1] = L_shl( Mpy_32_32( sin_1_fx, cos_1_fx ), 2 ); /*q30*/ + move32(); + sin_az_fx[2] = L_shl( Mpy_32_32( sin_1_fx, L_sub( cos_2_fx, ONE_IN_Q28 /*1/4 q30*/ ) ), 3 ); /*q30*/ + move32(); + + response_fx[0] = 0x20000000; + move32(); + + FOR( l = 1; l <= ambisonics_order; l++ ) + { + Word16 a; + b_2 = imult1616( l, l ); + b1_2 = add( b_2, shl( l, 1 ) ); + FOR( m = 0; m < l; m += 2 ) + { + b = b_2 + m; + a = dirac_gains_P_idx[b]; + + c_fx_better = local_result_table[el][a]; // q30 + move32(); + response_fx[b] = Mpy_32_32( c_fx_better, sin_az_fx[l - m - 1] ); // Q_out + move32(); + + b1 = b1_2 - m; + response_fx[b1] = Mpy_32_32( c_fx_better, cos_az_fx[l - m - 1] ); // Q_out + move32(); + } + + FOR( m = 1; m < l; m += 2 ) + { + b = b_2 + m; + a = dirac_gains_P_idx[b]; + c_fx_better = local_result_table[el][a]; // q30 + move32(); + c_fx_better = Mpy_32_32( c_fx_better, e_fac ); // q30 + response_fx[b] = Mpy_32_32( c_fx_better, sin_az_fx[l - m - 1] ); // Q_out + move32(); + + b1 = b1_2 - m; + response_fx[b1] = Mpy_32_32( c_fx_better, cos_az_fx[l - m - 1] ); // Q_out + move32(); + } + + b = add( b_2, l ); + a = dirac_gains_P_idx[b]; + c_fx_better = local_result_table_2[el][a]; // q30 + move32(); + if ( s_and( l, 0x01 ) ) + { + c_fx_better = Mpy_32_32( c_fx_better, e_fac ); // q30 + } + response_fx[b] = L_shl( c_fx_better, -1 ); // Q_out + move32(); + } + return; +} +#endif /*FIX_1310_SPEEDUP_ivas_dirac_dec_get_response_fx*/ /*-----------------------------------------------------------------------------------------* * Function ivas_get_bits_to_encode * diff --git a/lib_com/ivas_spar_com_quant_util.c b/lib_com/ivas_spar_com_quant_util_fx.c similarity index 99% rename from lib_com/ivas_spar_com_quant_util.c rename to lib_com/ivas_spar_com_quant_util_fx.c index 0f0e003dd3be3d4b58764a2c74e899361f74f26c..cfd03a3b3e68d51d66045229266e9f412a564231 100644 --- a/lib_com/ivas_spar_com_quant_util.c +++ b/lib_com/ivas_spar_com_quant_util_fx.c @@ -33,9 +33,7 @@ #include #include "options.h" #include "math.h" -#include "prot.h" #include "prot_fx.h" -#include "ivas_prot.h" #include "ivas_rom_com.h" #include #include "wmc_auto.h" diff --git a/lib_com/ivas_stat_com.h b/lib_com/ivas_stat_com.h index 249d1e96384ef5bcf140180c09ce1eedf067eb05..fb11d3934486f3c09af3e8e5482ec78c90f6bc7a 100644 --- a/lib_com/ivas_stat_com.h +++ b/lib_com/ivas_stat_com.h @@ -46,18 +46,18 @@ typedef struct { - int16_t last_angle1_idx; /* last frame index of coded azimuth/yaw */ - int16_t angle1_diff_cnt; /* FEC counter of consecutive differentially azimuth/yaw coded frames */ - int16_t last_angle2_idx; /* last frame index of coded elevation/pitch */ - int16_t angle2_diff_cnt; /* FEC counter of consecutive differentially elevation/pitch coded frames */ + Word16 last_angle1_idx; /* last frame index of coded azimuth/yaw */ + Word16 angle1_diff_cnt; /* FEC counter of consecutive differentially azimuth/yaw coded frames */ + Word16 last_angle2_idx; /* last frame index of coded elevation/pitch */ + Word16 angle2_diff_cnt; /* FEC counter of consecutive differentially elevation/pitch coded frames */ } ISM_METADATA_ANGLE, *ISM_METADATA_ANGLE_HANDLE; /* ISM metadata handle (storage for one frame of read ISM metadata) */ typedef struct { - int16_t ism_metadata_flag; /* flag whether metadata are coded in particular frame of particular object */ - int16_t last_ism_metadata_flag; /* last frame ism_metadata_flag */ + Word16 ism_metadata_flag; /* flag whether metadata are coded in particular frame of particular object */ + Word16 last_ism_metadata_flag; /* last frame ism_metadata_flag */ Word32 azimuth_fx; /* azimuth value read from the input metadata file */ /* Q22 */ Word32 elevation_fx; /* elevation value read from the input metadata file */ /* Q22 */ @@ -65,25 +65,25 @@ typedef struct Word32 yaw_fx; /* yaw value read from the input metadata file */ /* Q22 */ Word32 pitch_fx; /* pitch value read from the input metadata file */ /* Q22 */ - int16_t non_diegetic_flag; /* Non-diegetic (non-headtracked) object flag */ + Word16 non_diegetic_flag; /* Non-diegetic (non-headtracked) object flag */ ISM_METADATA_ANGLE position_angle; /* Angle structs for azimuth and elevation */ ISM_METADATA_ANGLE orientation_angle; /* Angle structs for yaw and pitch */ - int16_t last_radius_idx; /* last frame index of coded radius */ - int16_t radius_diff_cnt; /* FEC counter of consecutive differentially radius coded frames */ + Word16 last_radius_idx; /* last frame index of coded radius */ + Word16 radius_diff_cnt; /* FEC counter of consecutive differentially radius coded frames */ Word32 last_azimuth_fx; /* MD smoothing in DTX- last Q azimuth value */ /* Q22 */ Word32 last_elevation_fx; /* MD smoothing in DTX - last Q elevation value */ /* Q22 */ Word32 last_true_azimuth_fx; /* MD smoothing in DTX- last true Q azimuth value */ /* Q22 */ Word32 last_true_elevation_fx; /* MD smoothing in DTX- last true Q elevation value */ /* Q22 */ - int16_t ism_md_fec_cnt_enc; /* counter of continuous frames where MD are not transmitted */ - int16_t ism_md_inc_diff_cnt; /* counter of continuous frames where MD are transmitted in inactive segments when MD significantly changes */ - Word16 last_true_radius_fx; /* last true Q radius value */ + Word16 ism_md_fec_cnt_enc; /* counter of continuous frames where MD are not transmitted */ + Word16 ism_md_inc_diff_cnt; /* counter of continuous frames where MD are transmitted in inactive segments when MD significantly changes */ + Word16 last_true_radius_fx; /* last true Q radius value */ - int16_t ism_imp; /* ISM importance flag */ - int16_t ism_md_null_flag; - int16_t ism_md_lowrate_flag; + Word16 ism_imp; /* ISM importance flag */ + Word16 ism_md_null_flag; + Word16 ism_md_lowrate_flag; Word32 q_azimuth_old_fx; Word32 q_elevation_old_fx; @@ -96,15 +96,15 @@ typedef struct typedef struct stereo_dft_config_data_struct { - int16_t dmx_active; - int16_t band_res; - int16_t prm_res; /* Send prm every # DFT frames */ - int16_t res_pred_mode; /* mode : from 0 (off) to 1 (on) */ - int16_t res_cod_mode; /* mode : from 0 (off) to 3 */ - int16_t hybrid_itd_flag; - int16_t ada_wb_res_cod_mode; /* res_cod_mode for adaptive wide band residual coding */ + Word16 dmx_active; + Word16 band_res; + Word16 prm_res; /* Send prm every # DFT frames */ + Word16 res_pred_mode; /* mode : from 0 (off) to 1 (on) */ + Word16 res_cod_mode; /* mode : from 0 (off) to 3 */ + Word16 hybrid_itd_flag; + Word16 ada_wb_res_cod_mode; /* res_cod_mode for adaptive wide band residual coding */ - int16_t force_mono_transmission; + Word16 force_mono_transmission; } STEREO_DFT_CONFIG_DATA, *STEREO_DFT_CONFIG_DATA_HANDLE; @@ -115,20 +115,20 @@ typedef struct stereo_dft_config_data_struct typedef struct { - uint8_t const bandLengthsTCX20[SMDCT_MAX_STEREO_BANDS_TCX20]; /* Length of a band in number of bins. Range is 4..160 */ - const int16_t bdnCnt_TCX20[4]; /* uppermost band for FB,SWB,WB,NB */ - uint8_t const bandLengthsTCX10[SMDCT_MAX_STEREO_BANDS_TCX10]; /* Length of a band in number of bins. Range is 2..80, always divisible by 2 */ - const int16_t bndCnt_TCX10[4]; /* uppermost band for FB,SWB,WB,NB */ + UWord8 const bandLengthsTCX20[SMDCT_MAX_STEREO_BANDS_TCX20]; /* Length of a band in number of bins. Range is 4..160 */ + const Word16 bdnCnt_TCX20[4]; /* uppermost band for FB,SWB,WB,NB */ + UWord8 const bandLengthsTCX10[SMDCT_MAX_STEREO_BANDS_TCX10]; /* Length of a band in number of bins. Range is 2..80, always divisible by 2 */ + const Word16 bndCnt_TCX10[4]; /* uppermost band for FB,SWB,WB,NB */ } MDCTStereoBands_config; /* MDCT stereo frequency band structure */ typedef struct stereo_mdct_dec_band_parameters_struct { - int16_t sfbOffset[MAX_SFB + 1]; /* stereo frequency band start offsets */ - int16_t sfbCnt; /* number of stereo frequency bands */ - int16_t nBandsStereoCore; /* number of stereo frequency bands in the core */ - int16_t sfbIgfStart; /*index for first IGF band*/ + Word16 sfbOffset[MAX_SFB + 1]; /* stereo frequency band start offsets */ + Word16 sfbCnt; /* number of stereo frequency bands */ + Word16 nBandsStereoCore; /* number of stereo frequency bands in the core */ + Word16 sfbIgfStart; /*index for first IGF band*/ } STEREO_MDCT_BAND_PARAMETERS; @@ -139,9 +139,9 @@ typedef struct stereo_mdct_dec_band_parameters_struct typedef struct { - int16_t config_index; - int16_t encoding_active; /* internal state specifying if actual encoding is active or only length evaluation is active */ - int32_t bit_count_estimate; /* uses 22Q10 fixed-point representation */ + Word16 config_index; + Word16 encoding_active; /* internal state specifying if actual encoding is active or only length evaluation is active */ + Word32 bit_count_estimate; /* uses 22Q10 fixed-point representation */ void *ac_handle; } ECSQ_instance; @@ -153,9 +153,9 @@ typedef struct typedef struct ivas_dirac_config_data_struct { - int16_t enc_param_start_band; - int16_t dec_param_estim; - int16_t nbands; + Word16 enc_param_start_band; + Word16 dec_param_estim; + Word16 nbands; } DIRAC_CONFIG_DATA, *DIRAC_CONFIG_DATA_HANDLE; @@ -180,9 +180,9 @@ typedef struct ivas_band_coeffs_t typedef struct ivas_band_coeffs_ind_t { - int16_t pred_index_re[IVAS_SPAR_MAX_CH - 1]; - int16_t drct_index_re[IVAS_SPAR_MAX_C_COEFF]; - int16_t decd_index_re[IVAS_SPAR_MAX_CH - 1]; + Word16 pred_index_re[IVAS_SPAR_MAX_CH - 1]; + Word16 drct_index_re[IVAS_SPAR_MAX_C_COEFF]; + Word16 decd_index_re[IVAS_SPAR_MAX_CH - 1]; } ivas_band_coeffs_ind_t; @@ -192,7 +192,7 @@ typedef struct ivas_spar_md_t ivas_band_coeffs_ind_t band_coeffs_idx[IVAS_MAX_NUM_BANDS]; Word16 num_bands; Word32 min_max_fx[2]; /*q28*/ - int16_t dtx_vad; + Word16 dtx_vad; Word32 en_ratio_slow_fx[IVAS_MAX_NUM_BANDS]; Word32 ref_pow_slow_fx[IVAS_MAX_NUM_BANDS]; Word16 res_ind; @@ -210,7 +210,7 @@ typedef struct ivas_quant_coeffs_t { Word32 min_fx; /* Q28 */ Word32 max_fx; /* Q28 */ - int16_t q_levels[2]; + Word16 q_levels[2]; } ivas_quant_coeffs_t; typedef struct ivas_quant_strat_t @@ -224,23 +224,23 @@ typedef struct ivas_quant_strat_t typedef struct ivas_spar_md_com_cfg { - int16_t max_freq_per_chan[IVAS_SPAR_MAX_CH]; - int16_t num_dmx_chans_per_band[IVAS_MAX_NUM_BANDS]; - int16_t num_decorr_per_band[IVAS_MAX_NUM_BANDS]; - int16_t active_w; - int16_t remix_unmix_order; + Word16 max_freq_per_chan[IVAS_SPAR_MAX_CH]; + Word16 num_dmx_chans_per_band[IVAS_MAX_NUM_BANDS]; + Word16 num_decorr_per_band[IVAS_MAX_NUM_BANDS]; + Word16 active_w; + Word16 remix_unmix_order; ivas_quant_strat_t quant_strat[MAX_QUANT_STRATS]; - int16_t quant_strat_bits; - int16_t nchan_transport; - int16_t num_quant_strats; - int16_t prior_strat; - int16_t tgt_bits_per_blk; - int16_t max_bits_per_blk; - int16_t prev_quant_idx; - int16_t agc_bits_ch_idx; - int16_t planarCP; - int16_t num_umx_chs; - int16_t max_md_bits_spar; + Word16 quant_strat_bits; + Word16 nchan_transport; + Word16 num_quant_strats; + Word16 prior_strat; + Word16 tgt_bits_per_blk; + Word16 max_bits_per_blk; + Word16 prev_quant_idx; + Word16 agc_bits_ch_idx; + Word16 planarCP; + Word16 num_umx_chs; + Word16 max_md_bits_spar; } ivas_spar_md_com_cfg; @@ -248,26 +248,26 @@ typedef struct ivas_spar_md_com_cfg /* arithmetic coder structures */ typedef struct ivas_cell_dim_t { - int16_t dim1; - int16_t dim2; + Word16 dim1; + Word16 dim2; } ivas_cell_dim_t; typedef struct ivas_freq_models_t { - int16_t freq_model[IVAS_NUM_PROB_MODELS][IVAS_MAX_QUANT_LEVELS]; - int16_t diff_freq_model[IVAS_NUM_PROB_MODELS][IVAS_MAX_QUANT_LEVELS]; - int16_t vals[IVAS_MAX_QUANT_LEVELS]; - int16_t diff_vals[IVAS_MAX_QUANT_LEVELS]; - int16_t num_models; - int16_t diff_num_models; + Word16 freq_model[IVAS_NUM_PROB_MODELS][IVAS_MAX_QUANT_LEVELS]; + Word16 diff_freq_model[IVAS_NUM_PROB_MODELS][IVAS_MAX_QUANT_LEVELS]; + Word16 vals[IVAS_MAX_QUANT_LEVELS]; + Word16 diff_vals[IVAS_MAX_QUANT_LEVELS]; + Word16 num_models; + Word16 diff_num_models; } ivas_freq_models_t; typedef struct ivas_huff_models_t { - int16_t code_book[IVAS_MAX_QUANT_LEVELS][3]; - int16_t diff_code_book[IVAS_MAX_QUANT_LEVELS][3]; + Word16 code_book[IVAS_MAX_QUANT_LEVELS][3]; + Word16 diff_code_book[IVAS_MAX_QUANT_LEVELS][3]; } ivas_huff_models_t; @@ -275,22 +275,22 @@ typedef struct ivas_huff_models_t /* Entropy coder structures */ typedef struct ivas_huffman_cfg_t { - const int16_t *codebook; - int16_t min_len; - int16_t max_len; - int16_t sym_len; + const Word16 *codebook; + Word16 min_len; + Word16 max_len; + Word16 sym_len; } ivas_huffman_cfg_t; typedef struct ivas_arith_t { - int16_t dyn_model_bits; - const int16_t *pFreq_model; - const int16_t *pAlt_freq_models[IVAS_NUM_PROB_MODELS]; - const int16_t *vals; - int16_t cum_freq[IVAS_NUM_PROB_MODELS][IVAS_MAX_QUANT_LEVELS]; - int16_t range; - int16_t num_models; + Word16 dyn_model_bits; + const Word16 *pFreq_model; + const Word16 *pAlt_freq_models[IVAS_NUM_PROB_MODELS]; + const Word16 *vals; + Word16 cum_freq[IVAS_NUM_PROB_MODELS][IVAS_MAX_QUANT_LEVELS]; + Word16 range; + Word16 num_models; Word32 saved_dist_arr[IVAS_NUM_PROB_MODELS][IVAS_MAX_QUANT_LEVELS]; /* Q15 */ } ivas_arith_t; @@ -338,18 +338,18 @@ typedef struct ivas_cov_smooth_state_t Word32 *pPrior_cov_real_fx[IVAS_SPAR_MAX_CH][IVAS_SPAR_MAX_CH]; Word16 *q_cov_real_per_band[IVAS_SPAR_MAX_CH][IVAS_SPAR_MAX_CH]; Word16 *q_prior_cov_real_per_band[IVAS_SPAR_MAX_CH][IVAS_SPAR_MAX_CH]; - int16_t prior_bank_idx; + Word16 prior_bank_idx; Word32 *pSmoothing_factor_fx; /* Q31 */ - int16_t num_bins; + Word16 num_bins; } ivas_cov_smooth_state_t; typedef struct ivas_cov_smooth_cfg_t { Word32 max_update_rate_fx; /* Q31 */ - int16_t min_pool_size; - int16_t max_bands; - int16_t num_bins; + Word16 min_pool_size; + Word16 max_bands; + Word16 num_bins; } ivas_cov_smooth_cfg_t; @@ -357,20 +357,20 @@ typedef struct ivas_cov_smooth_cfg_t /* SPAR bitrate constant table structure */ typedef struct ivas_spar_br_table_t { - int32_t ivas_total_brate; - int16_t isPlanar; - int16_t sba_order; - int16_t bwidth; - int16_t fpcs; - int16_t nchan_transport; + Word32 ivas_total_brate; + Word16 isPlanar; + Word16 sba_order; + Word16 bwidth; + Word16 fpcs; + Word16 nchan_transport; ivas_spar_pmx_strings_t dmx_str; - int16_t active_w; - int16_t tmode; - int32_t core_brs[FOA_CHANNELS][3]; - int16_t q_lvls[MAX_QUANT_STRATS][NUM_MD_Q_COEFS_SET]; - int16_t td_ducking; - int16_t agc_bits_ch_idx; /* 0-3, Indicates core-coder channel index from which AGC bits have been taken from*/ - int16_t usePlanarCoeff; + Word16 active_w; + Word16 tmode; + Word32 core_brs[FOA_CHANNELS][3]; + Word16 q_lvls[MAX_QUANT_STRATS][NUM_MD_Q_COEFS_SET]; + Word16 td_ducking; + Word16 agc_bits_ch_idx; /* 0-3, Indicates core-coder channel index from which AGC bits have been taken from*/ + Word16 usePlanarCoeff; } ivas_spar_br_table_t; @@ -419,7 +419,7 @@ typedef struct ivas_masa_common_spatial_meta_struct typedef struct ivas_omasa_meta_struct { - uint8_t num_dirs; + UWord8 num_dirs; MASA_DIRECTIONAL_SPATIAL_META directional_meta[MASA_MAXIMUM_DIRECTIONS]; MASA_COMMON_SPATIAL_META common_meta; @@ -435,16 +435,16 @@ typedef struct ivas_masa_metadata_frame_struct typedef struct ivas_masa_config_struct { - uint16_t max_metadata_bits; - int16_t block_grouping[5]; - int16_t band_grouping[MASA_FREQUENCY_BANDS + 1]; - uint8_t numCodingBands; - uint8_t numTwoDirBands; - uint8_t numberOfDirections; - uint8_t joinedSubframes; - uint8_t useCoherence; - uint8_t coherencePresent; - uint8_t mergeRatiosOverSubframes; + UWord16 max_metadata_bits; + Word16 block_grouping[5]; + Word16 band_grouping[MASA_FREQUENCY_BANDS + 1]; + UWord8 numCodingBands; + UWord8 numTwoDirBands; + UWord8 numberOfDirections; + UWord8 joinedSubframes; + UWord8 useCoherence; + UWord8 coherencePresent; + UWord8 mergeRatiosOverSubframes; IVAS_FORMAT input_ivas_format; } MASA_CODEC_CONFIG; @@ -456,11 +456,11 @@ typedef struct ivas_masa_config_struct typedef struct { - int16_t nbands; - int16_t nblocks; - int16_t start_band; - uint8_t inactiveBands; - int16_t search_effort; + Word16 nbands; + Word16 nblocks; + Word16 start_band; + UWord8 inactiveBands; + Word16 search_effort; MC_LS_SETUP mc_ls_setup; } IVAS_METADATA_CONFIG; @@ -615,10 +615,10 @@ typedef struct ivas_parametric_mc_metadata_struct typedef struct ivas_lfe_window { - int16_t dct_len; - int16_t fade_len; - int16_t zero_pad_len; - int16_t full_len; + Word16 dct_len; + Word16 fade_len; + Word16 zero_pad_len; + Word16 full_len; const Word32 *pWindow_coeffs_fx; @@ -626,14 +626,14 @@ typedef struct ivas_lfe_window typedef struct ivas_lfe_freq_models { - uint16_t entropy_coder_model_fine_sg1[65]; - uint16_t entropy_coder_model_fine_sg2[33]; - uint16_t entropy_coder_model_fine_sg3[9]; - uint16_t entropy_coder_model_fine_sg4[3]; - uint16_t entropy_coder_model_coarse_sg1[33]; - uint16_t entropy_coder_model_coarse_sg2[17]; - uint16_t entropy_coder_model_coarse_sg3[5]; - uint16_t entropy_coder_model_coarse_sg4; + UWord16 entropy_coder_model_fine_sg1[65]; + UWord16 entropy_coder_model_fine_sg2[33]; + UWord16 entropy_coder_model_fine_sg3[9]; + UWord16 entropy_coder_model_fine_sg4[3]; + UWord16 entropy_coder_model_coarse_sg1[33]; + UWord16 entropy_coder_model_coarse_sg2[17]; + UWord16 entropy_coder_model_coarse_sg3[5]; + UWord16 entropy_coder_model_coarse_sg4; } ivas_lfe_freq_models; diff --git a/lib_com/ivas_stereo_dft_com.c b/lib_com/ivas_stereo_dft_com_fx.c similarity index 99% rename from lib_com/ivas_stereo_dft_com.c rename to lib_com/ivas_stereo_dft_com_fx.c index 1157fffcf9664bf918466201103087f011585b21..6d63bc6d1565160d0a3a3edb4f84b812077e882e 100644 --- a/lib_com/ivas_stereo_dft_com.c +++ b/lib_com/ivas_stereo_dft_com_fx.c @@ -35,8 +35,7 @@ #include "options.h" #include "ivas_cnst.h" #include "ivas_rom_com.h" -#include "ivas_prot.h" -#include "prot.h" +#include "prot_fx.h" #include "cnst.h" #include "wmc_auto.h" #include "ivas_prot_fx.h" diff --git a/lib_com/ivas_stereo_eclvq_com_fx.c b/lib_com/ivas_stereo_eclvq_com_fx.c index b4fb6642953e1a7d7e2a713eaf572950992addf9..958781473910ff0f164ad50b9eb076fd3e0796e3 100644 --- a/lib_com/ivas_stereo_eclvq_com_fx.c +++ b/lib_com/ivas_stereo_eclvq_com_fx.c @@ -33,11 +33,10 @@ #include #include "options.h" #include -#include "ivas_prot.h" #include "ivas_prot_fx.h" #include "ivas_cnst.h" #include -#include "prot.h" +#include "prot_fx.h" #include "wmc_auto.h" /*--------------------------------------------------------------- diff --git a/lib_com/ivas_stereo_ica_com_fx.c b/lib_com/ivas_stereo_ica_com_fx.c index 78a3c90caa265dec0fdbca7344d3d390b86763a2..8548797a4134d1805618080459a0f8ec38631269 100644 --- a/lib_com/ivas_stereo_ica_com_fx.c +++ b/lib_com/ivas_stereo_ica_com_fx.c @@ -36,9 +36,7 @@ #include "options.h" #include "cnst.h" #include "ivas_cnst.h" -#include "prot.h" #include "prot_fx.h" -#include "ivas_prot.h" #include "wmc_auto.h" #include "rom_com.h" #include "ivas_rom_com.h" diff --git a/lib_com/ivas_stereo_mdct_bands_com.c b/lib_com/ivas_stereo_mdct_bands_com_fx.c similarity index 99% rename from lib_com/ivas_stereo_mdct_bands_com.c rename to lib_com/ivas_stereo_mdct_bands_com_fx.c index b1750fd16a3148fa01e314412e5ae620b41c687f..43f2f16c7efc13d125717975cc63064027644d3d 100644 --- a/lib_com/ivas_stereo_mdct_bands_com.c +++ b/lib_com/ivas_stereo_mdct_bands_com_fx.c @@ -35,11 +35,9 @@ #include "options.h" #include "ivas_cnst.h" #include "ivas_rom_com.h" -#include "ivas_prot.h" #include "rom_com.h" -#include "prot.h" -#include "wmc_auto.h" #include "prot_fx.h" +#include "wmc_auto.h" #include "ivas_prot_fx.h" /*-------------------------------------------------------------------* diff --git a/lib_com/ivas_stereo_mdct_stereo_com.c b/lib_com/ivas_stereo_mdct_stereo_com_fx.c similarity index 99% rename from lib_com/ivas_stereo_mdct_stereo_com.c rename to lib_com/ivas_stereo_mdct_stereo_com_fx.c index dd94358af22c0e0694f43dd8c0c4dde5272edbf0..0a773169d07313155482bed27f0613b1cccb7a40 100644 --- a/lib_com/ivas_stereo_mdct_stereo_com.c +++ b/lib_com/ivas_stereo_mdct_stereo_com_fx.c @@ -33,7 +33,6 @@ #include #include "options.h" #include "ivas_cnst.h" -#include "ivas_prot.h" #include "wmc_auto.h" #include #include "prot_fx.h" diff --git a/lib_com/ivas_stereo_psychlpc_com.c b/lib_com/ivas_stereo_psychlpc_com_fx.c similarity index 99% rename from lib_com/ivas_stereo_psychlpc_com.c rename to lib_com/ivas_stereo_psychlpc_com_fx.c index 996b262db669270cf1f79828cfc99cd04d902c7c..df514089560c440dde31ff103bf87fd0b1ff740f 100644 --- a/lib_com/ivas_stereo_psychlpc_com.c +++ b/lib_com/ivas_stereo_psychlpc_com_fx.c @@ -33,9 +33,7 @@ #include #include "options.h" #include "ivas_rom_com.h" -#include "ivas_prot.h" -#include "prot.h" -#include "ivas_prot.h" +#include "prot_fx.h" #include "wmc_auto.h" #include diff --git a/lib_com/ivas_stereo_td_bit_alloc.c b/lib_com/ivas_stereo_td_bit_alloc_fx.c similarity index 99% rename from lib_com/ivas_stereo_td_bit_alloc.c rename to lib_com/ivas_stereo_td_bit_alloc_fx.c index 14ab8131e196032a592316911b5a25ce4a34df8c..b54c1d3deb5ae86bf589fe0fd34d0e9359885734 100644 --- a/lib_com/ivas_stereo_td_bit_alloc.c +++ b/lib_com/ivas_stereo_td_bit_alloc_fx.c @@ -35,12 +35,10 @@ #include "cnst.h" #include "stat_enc.h" #include "rom_com.h" -#include "ivas_prot.h" #include "ivas_rom_com.h" #include "ivas_cnst.h" -#include "prot.h" -#include "wmc_auto.h" #include "prot_fx.h" +#include "wmc_auto.h" #include "ivas_prot_fx.h" #include "ivas_rom_com_fx.h" diff --git a/lib_com/ivas_tools.c b/lib_com/ivas_tools_fx.c similarity index 91% rename from lib_com/ivas_tools.c rename to lib_com/ivas_tools_fx.c index ec3c30723a14064891ab567e01b2f2dcdb4fdf9a..ca8dec27615addfd578de77e9464538d8f21d519 100644 --- a/lib_com/ivas_tools.c +++ b/lib_com/ivas_tools_fx.c @@ -34,11 +34,9 @@ #include #include "options.h" #include -#include "prot.h" -#include "ivas_prot.h" +#include "prot_fx.h" #include "wmc_auto.h" #include "ivas_rom_com.h" -#include "prot_fx.h" #include "ivas_prot_fx.h" #define ANGLE_90_DEG_Q22 377487360 @@ -308,12 +306,6 @@ void v_add_inc_fx( const Word16 N /* i : Vector length Q0*/ ) { -#ifndef FIX_1107_VADDINC - Word16 i; - Word16 ix1 = 0; - Word16 ix2 = 0; - Word16 iy = 0; -#else Word16 i, ix1, ix2, iy; /* The use of this function is currently always for the interleaved input format, */ @@ -336,7 +328,6 @@ void v_add_inc_fx( ix1 = 0; ix2 = 0; iy = 0; -#endif move16(); move16(); move16(); @@ -607,41 +598,41 @@ void v_sub32_fx( *---------------------------------------------------------------------*/ /*! r: the dot product x'*A*A'*x */ -Word32 dot_product_cholesky_fixed( +Word64 dot_product_cholesky_fixed( const Word32 *x, /* i : vector x Q31 - exp_x*/ const Word32 *A, /* i : Cholesky matrix A Q31 - exp_A*/ - const Word16 N, /* i : vector & matrix size Q0*/ - const Word16 exp_x, - const Word16 exp_A, - Word16 *exp_sum ) + const Word16 N /* i : vector & matrix size Q0*/ +) { Word16 i, j; - Word32 suma, tmp_sum, mul; + Word64 suma, tmp_sum; + Word32 mul; + Word32 tmp; const Word32 *pt_x, *pt_A; - Word16 mul_exp, tmp_sum_exp; - mul_exp = add( exp_x, exp_A ); pt_A = A; suma = 0; - move32(); + move64(); + FOR( i = 0; i < N; i++ ) { tmp_sum = 0; move32(); - tmp_sum_exp = 0; - move16(); pt_x = x; FOR( j = 0; j <= i; j++ ) { - mul = Mpy_32_32( *pt_x++, *pt_A++ ); /*Q31 - (exp_x + exp_A)*/ - tmp_sum = BASOP_Util_Add_Mant32Exp( tmp_sum, tmp_sum_exp, mul, mul_exp, &tmp_sum_exp ); // exp_x+exp_A + mul = Mpy_32_32( *pt_x++, *pt_A++ ); + tmp_sum = W_add( tmp_sum, W_deposit32_l( mul ) ); } - suma = BASOP_Util_Add_Mant32Exp( suma, *exp_sum, Mpy_32_32( tmp_sum, tmp_sum ), shl( tmp_sum_exp, 1 ), exp_sum ); /*Q31 - exp_sum*/ + tmp_sum = W_shr( tmp_sum, 4 ); // to make sure that the tmp_sum will not overflow + tmp = W_extract_l( tmp_sum ); + suma = W_mac_32_32( suma, tmp, tmp ); } return suma; } + void v_mult_mat_fixed( Word32 *y, /* o : the product x*A Qx - guardbits*/ const Word32 *x, /* i : vector x Qx*/ @@ -941,7 +932,6 @@ Word16 matrix_product_mant_exp_fx( Word16 out_e[MAX_OUTPUT_CHANNELS * MAX_OUTPUT_CHANNELS]; Word16 *Zp_fx_e = out_e; Word16 row, col; - Word16 x_idx, y_idx; Word64 temp; Word16 temp_e; Word16 prod_e = add( X_fx_e, Y_fx_e ); @@ -968,9 +958,7 @@ Word16 matrix_product_mant_exp_fx( FOR( k = 0; k < rowsX; ++k ) { - x_idx = k + i * rowsX; - y_idx = k + j * rowsY; - temp = W_mac_32_32( temp, X_fx[x_idx], Y_fx[y_idx] ); // X_fx_e + Y_fx_e + temp = W_mac_32_32( temp, X_fx[k + i * rowsX], Y_fx[k + j * rowsY] ); // X_fx_e + Y_fx_e } /* Maximize accumulated value to 32-bit */ temp_e = W_norm( temp ); @@ -1008,9 +996,7 @@ Word16 matrix_product_mant_exp_fx( move64(); FOR( k = 0; k < colsX; ++k ) { - x_idx = i + k * rowsX; - y_idx = j + k * rowsY; - temp = W_mac_32_32( temp, X_fx[x_idx], Y_fx[y_idx] ); // X_fx_e + Y_fx_e + temp = W_mac_32_32( temp, X_fx[i + k * rowsX], Y_fx[j + k * rowsY] ); // X_fx_e + Y_fx_e } /* Maximize accumulated value to 32-bit */ temp_e = W_norm( temp ); @@ -1048,9 +1034,7 @@ Word16 matrix_product_mant_exp_fx( move64(); FOR( k = 0; k < colsX; ++k ) { - x_idx = k + i * rowsX; - y_idx = j + k * rowsY; - temp = W_mac_32_32( temp, X_fx[x_idx], Y_fx[y_idx] ); // X_fx_e + Y_fx_e + temp = W_mac_32_32( temp, X_fx[k + i * rowsX], Y_fx[j + k * rowsY] ); // X_fx_e + Y_fx_e } /* Maximize accumulated value to 32-bit */ temp_e = W_norm( temp ); @@ -1089,9 +1073,7 @@ Word16 matrix_product_mant_exp_fx( move64(); FOR( k = 0; k < colsX; ++k ) { - x_idx = i + k * rowsX; - y_idx = k + j * rowsY; - temp = W_mac_32_32( temp, X_fx[x_idx], Y_fx[y_idx] ); // X_fx_e + Y_fx_e + temp = W_mac_32_32( temp, X_fx[i + k * rowsX], Y_fx[k + j * rowsY] ); // X_fx_e + Y_fx_e } /* Maximize accumulated value to 32-bit */ temp_e = W_norm( temp ); @@ -1149,7 +1131,6 @@ Word16 matrix_product_fx( ) { Word16 i, j, k; - Word16 x_idx, y_idx; Word32 *Zp_fx = Z_fx; /* Processing */ @@ -1170,9 +1151,7 @@ Word16 matrix_product_fx( move32(); FOR( k = 0; k < rowsX; ++k ) { - x_idx = add( k, imult1616( i, rowsX ) ); /*Q0*/ - y_idx = add( k, imult1616( j, rowsY ) ); /*Q0*/ - ( *Zp_fx ) = L_add( *Zp_fx, Mpy_32_32( X_fx[x_idx], Y_fx[y_idx] ) ); /*Qx + Qy - 31*/ + ( *Zp_fx ) = Madd_32_32( *Zp_fx, X_fx[k + i * rowsX], Y_fx[k + j * rowsY] ); /*Qx + Qy - 31*/ move32(); } Zp_fx++; @@ -1193,9 +1172,7 @@ Word16 matrix_product_fx( move32(); FOR( k = 0; k < colsX; ++k ) { - x_idx = add( i, imult1616( k, rowsX ) ); /*Q0*/ - y_idx = add( j, imult1616( k, rowsY ) ); /*Q0*/ - ( *Zp_fx ) = L_add( *Zp_fx, Mpy_32_32( X_fx[x_idx], Y_fx[y_idx] ) ); /*Qx + Qy - 31*/ + ( *Zp_fx ) = Madd_32_32( *Zp_fx, X_fx[i + k * rowsX], Y_fx[j + k * rowsY] ); /*Qx + Qy - 31*/ move32(); } Zp_fx++; @@ -1216,9 +1193,7 @@ Word16 matrix_product_fx( move32(); FOR( k = 0; k < colsX; ++k ) { - x_idx = add( k, imult1616( i, rowsX ) ); /*Q0*/ - y_idx = add( j, imult1616( k, rowsY ) ); /*Q0*/ - ( *Zp_fx ) = L_add( *Zp_fx, Mpy_32_32( X_fx[x_idx], Y_fx[y_idx] ) ); /*Qx + Qy - 31*/ + ( *Zp_fx ) = Madd_32_32( *Zp_fx, X_fx[k + i * rowsX], Y_fx[j + k * rowsY] ); /*Qx + Qy - 31*/ move32(); } @@ -1241,9 +1216,7 @@ Word16 matrix_product_fx( move32(); FOR( k = 0; k < colsX; ++k ) { - x_idx = add( i, imult1616( k, rowsX ) ); /*Q0*/ - y_idx = add( k, imult1616( j, rowsY ) ); /*Q0*/ - ( *Zp_fx ) = L_add_sat( *Zp_fx, Mpy_32_32( X_fx[x_idx], Y_fx[y_idx] ) ); /*Qx + Qy - 31*/ + ( *Zp_fx ) = L_add_sat( *Zp_fx, Mpy_32_32( X_fx[i + k * rowsX], Y_fx[k + j * rowsY] ) ); /*Qx + Qy - 31*/ // TODO: overflow of Z_fx to be checked move32(); } @@ -1268,7 +1241,6 @@ Word16 matrix_product_q30_fx( ) { Word16 i, j, k; - Word16 x_idx, y_idx; Word32 *Zp_fx = Z_fx; Word64 W_tmp; @@ -1291,10 +1263,7 @@ Word16 matrix_product_q30_fx( move64(); FOR( k = 0; k < rowsX; ++k ) { - //( *Zp_fx ) = L_add( *Zp_fx, Mpy_32_32( X_fx[k + i * rowsX], Y_fx[k + j * rowsY] ) ); - x_idx = add( k, imult1616( i, rowsX ) ); /*Q0*/ - y_idx = add( k, imult1616( j, rowsY ) ); /*Q0*/ - W_tmp = W_add( W_tmp, W_mult0_32_32( X_fx[x_idx], Y_fx[y_idx] ) ); // Q56 + W_tmp = W_add( W_tmp, W_mult0_32_32( X_fx[k + i * rowsX], Y_fx[k + j * rowsY] ) ); // Q56 } W_tmp = W_shl( W_tmp, 6 ); /*Q62*/ ( *Zp_fx ) = W_round64_L( W_tmp ); /*Q30*/ @@ -1318,10 +1287,7 @@ Word16 matrix_product_q30_fx( move64(); FOR( k = 0; k < colsX; ++k ) { - //( *Zp_fx ) = L_add( *Zp_fx, Mpy_32_32( X_fx[i + k * rowsX], Y_fx[j + k * rowsY] ) ); - x_idx = add( i, imult1616( k, rowsX ) ); /*Q0*/ - y_idx = add( j, imult1616( k, rowsY ) ); /*Q0*/ - W_tmp = W_add( W_tmp, W_mult0_32_32( X_fx[x_idx], Y_fx[y_idx] ) ); // Q56 + W_tmp = W_add( W_tmp, W_mult0_32_32( X_fx[i + k * rowsX], Y_fx[j + k * rowsY] ) ); // Q56 } W_tmp = W_shl( W_tmp, 6 ); /*Q62*/ ( *Zp_fx ) = W_round64_L( W_tmp ); /*Q30*/ @@ -1345,9 +1311,6 @@ Word16 matrix_product_q30_fx( move64(); FOR( k = 0; k < colsX; ++k ) { - //( *Zp_fx ) = L_add( *Zp_fx, Mpy_32_32( X_fx[k + i * rowsX], Y_fx[j + k * rowsY] ) ); - x_idx = add( k, imult1616( i, rowsX ) ); /*Q0*/ - y_idx = add( j, imult1616( k, rowsY ) ); /*Q0*/ W_tmp = W_add( W_tmp, W_mult0_32_32( X_fx[k + i * rowsX], Y_fx[j + k * rowsY] ) ); // Q56 } @@ -1374,10 +1337,7 @@ Word16 matrix_product_q30_fx( move64(); FOR( k = 0; k < colsX; ++k ) { - //( *Zp_fx ) = L_add( *Zp_fx, Mpy_32_32( X_fx[i + k * rowsX], Y_fx[k + j * rowsY] ) ); - x_idx = add( i, imult1616( k, rowsX ) ); /*Q0*/ - y_idx = add( k, imult1616( j, rowsY ) ); /*Q0*/ - W_tmp = W_add( W_tmp, W_mult0_32_32( X_fx[x_idx], Y_fx[y_idx] ) ); // Q56 + W_tmp = W_add( W_tmp, W_mult0_32_32( X_fx[i + k * rowsX], Y_fx[k + j * rowsY] ) ); // Q56 } W_tmp = W_shl( W_tmp, 6 ); /*Q62*/ ( *Zp_fx ) = W_round64_L( W_tmp ); /*Q30*/ @@ -1410,7 +1370,6 @@ Word16 matrix_product_mant_exp( Word16 *Zp_e = Z_e; Word32 L_tmp; Word16 tmp_e; - Word16 x_idx, y_idx; /* Processing */ test(); @@ -1432,11 +1391,8 @@ Word16 matrix_product_mant_exp( move16(); FOR( k = 0; k < rowsX; ++k ) { - x_idx = add( k, imult1616( i, rowsX ) ); /*Q0*/ - y_idx = add( k, imult1616( j, rowsY ) ); /*Q0*/ - //( *Zp ) += X[k + i * rowsX] * Y[k + j * rowsY]; - L_tmp = Mpy_32_32( X_fx[x_idx], Y_fx[y_idx] ); /*Q31 - (X_e + Y_e)*/ - tmp_e = add( X_e[x_idx], Y_e[y_idx] ); + L_tmp = Mpy_32_32( X_fx[k + i * rowsX], Y_fx[k + j * rowsY] ); /*Q31 - (X_e + Y_e)*/ + tmp_e = add( X_e[k + i * rowsX], Y_e[k + j * rowsY] ); ( *Zp ) = BASOP_Util_Add_Mant32Exp( *Zp, *Zp_e, L_tmp, tmp_e, &tmp_e ); move32(); @@ -1464,11 +1420,8 @@ Word16 matrix_product_mant_exp( move16(); FOR( k = 0; k < colsX; ++k ) { - x_idx = add( i, imult1616( k, rowsX ) ); /*Q0*/ - y_idx = add( j, imult1616( k, rowsY ) ); /*Q0*/ - //( *Zp ) += X_fx[i + k * rowsX] * Y_fx[j + k * rowsY]; - L_tmp = Mpy_32_32( X_fx[x_idx], Y_fx[y_idx] ); /*Q31 - (X_e + Y_e)*/ - tmp_e = add( X_e[x_idx], Y_e[y_idx] ); + L_tmp = Mpy_32_32( X_fx[i + k * rowsX], Y_fx[j + k * rowsY] ); /*Q31 - (X_e + Y_e)*/ + tmp_e = add( X_e[i + k * rowsX], Y_e[j + k * rowsY] ); ( *Zp ) = BASOP_Util_Add_Mant32Exp( *Zp, *Zp_e, L_tmp, tmp_e, &tmp_e ); ( *Zp_e ) = tmp_e; @@ -1495,11 +1448,8 @@ Word16 matrix_product_mant_exp( move16(); FOR( k = 0; k < colsX; ++k ) { - x_idx = add( k, imult1616( i, rowsX ) ); /*Q0*/ - y_idx = add( j, imult1616( k, rowsY ) ); /*Q0*/ - //( *Zp ) += X_fx[k + i * rowsX] * Y_fx[j + k * rowsY]; - L_tmp = Mpy_32_32( X_fx[x_idx], Y_fx[y_idx] ); /*Q31 - (X_e + Y_e)*/ - tmp_e = add( X_e[x_idx], Y_e[y_idx] ); + L_tmp = Mpy_32_32( X_fx[k + i * rowsX], Y_fx[j + k * rowsY] ); /*Q31 - (X_e + Y_e)*/ + tmp_e = add( X_e[k + i * rowsX], Y_e[j + k * rowsY] ); ( *Zp ) = BASOP_Util_Add_Mant32Exp( *Zp, *Zp_e, L_tmp, tmp_e, &tmp_e ); move32(); @@ -1529,11 +1479,8 @@ Word16 matrix_product_mant_exp( move16(); FOR( k = 0; k < colsX; ++k ) { - x_idx = add( i, imult1616( k, rowsX ) ); /*Q0*/ - y_idx = add( k, imult1616( j, rowsY ) ); /*Q0*/ - //( *Zp ) += X_fx[i + k * rowsX] * Y_fx[k + j * rowsY]; - L_tmp = Mpy_32_32( X_fx[x_idx], Y_fx[y_idx] ); /*Q31 - (X_e + Y_e)*/ - tmp_e = add( X_e[x_idx], Y_e[y_idx] ); + L_tmp = Mpy_32_32( X_fx[i + k * rowsX], Y_fx[k + j * rowsY] ); /*Q31 - (X_e + Y_e)*/ + tmp_e = add( X_e[i + k * rowsX], Y_e[k + j * rowsY] ); ( *Zp ) = BASOP_Util_Add_Mant32Exp( *Zp, *Zp_e, L_tmp, tmp_e, &tmp_e ); move32(); @@ -1564,7 +1511,6 @@ Word16 matrix_diag_product_fx( { Word16 i, j; Word32 *Zp = Z; - Word16 tmp; /* Processing */ IF( EQ_16( transpX, 1 ) ) /* We use X transpose */ @@ -1577,8 +1523,7 @@ Word16 matrix_diag_product_fx( { FOR( i = 0; i < colsX; ++i ) { - tmp = add( j, imult1616( i, rowsX ) ); - *( Zp ) = Mpy_32_32( X[tmp], Y[j] ); /*Q31 - (X_e + Y_e)*/ + *( Zp ) = Mpy_32_32( X[j + i * rowsX], Y[j] ); /*Q31 - (X_e + Y_e)*/ move32(); Zp++; } @@ -1609,6 +1554,98 @@ Word16 matrix_diag_product_fx( return EXIT_SUCCESS; } +Word16 matrix_diag_product_fx_2( + const Word32 *X, /* i : left hand matrix Q31 - X_e*/ + const Word16 X_e, + const Word16 rowsX, /* i : number of rows of the left hand matrix Q0*/ + const Word16 colsX, /* i : number of columns of the left hand matrix Q0*/ + const Word16 transpX, /* i : flag indicating the transposition of the left hand matrix prior to the multiplication Q0*/ + const Word32 *Y, /* i : right hand diagonal matrix as vector containing the diagonal elements Q31 - Y_e*/ + const Word16 *Y_e, + const Word16 entriesY, /* i : number of entries in the diagonal Q0*/ + Word32 *Z, /* o : resulting matrix after the matrix multiplication Q31 - Z_e*/ + Word16 *Z_e ) +{ + Word16 i, j; + Word32 *Zp = Z; + Word16 *Z_ep = Z_e; + Word16 tmp; + Word16 max_exp = -31; + move16(); + + /* Processing */ + IF( EQ_16( transpX, 1 ) ) /* We use X transpose */ + { + IF( NE_16( rowsX, entriesY ) ) + { + return EXIT_FAILURE; + } + FOR( j = 0; j < entriesY; ++j ) + { + FOR( i = 0; i < colsX; ++i ) + { + tmp = j + i * rowsX; /*Q0*/ + *( Zp ) = Mpy_32_32( X[tmp], Y[j] ); /*Q31 - (X_e + Y_e)*/ + move32(); + Zp++; + *( Z_ep ) = add( X_e, Y_e[j] ); + move16(); + max_exp = s_max( max_exp, *Z_ep ); // Find the max exp + Z_ep++; + } + } + + Zp = Z; + Z_ep = Z_e; + FOR( j = 0; j < entriesY; ++j ) + { + FOR( i = 0; i < colsX; ++i ) + { + *Zp = L_shr( *Zp, sub( max_exp, *Z_ep ) ); + *Z_ep = max_exp; + Zp++; + Z_ep++; + } + } + } + ELSE /* Regular case */ + { + IF( NE_16( colsX, entriesY ) ) + { + return EXIT_FAILURE; + } + + FOR( j = 0; j < entriesY; ++j ) + { + FOR( i = 0; i < rowsX; ++i ) + { + *( Zp ) = Mpy_32_32( *( X ), Y[j] ); /*Q31 - (X_e + Y_e)*/ + move32(); + Zp++; + *( Z_ep ) = add( X_e, Y_e[j] ); + move16(); + max_exp = s_max( max_exp, *Z_ep ); // Find the max exp + Z_ep++; + X++; + } + } + Zp = Z; + Z_ep = Z_e; + FOR( j = 0; j < entriesY; ++j ) + { + FOR( i = 0; i < rowsX; ++i ) + { + *Zp = L_shr( *Zp, sub( max_exp, *Z_ep ) ); + *Z_ep = max_exp; + Zp++; + Z_ep++; + } + } + } + + return EXIT_SUCCESS; +} + Word16 matrix_diag_product_fx_1( const Word32 *X, /* i : left hand matrix Q31 - X_e*/ const Word16 *X_e, @@ -1624,7 +1661,6 @@ Word16 matrix_diag_product_fx_1( Word16 i, j; Word32 *Zp = Z; Word16 *Z_ep = Z_e; - Word16 tmp; /* Processing */ IF( EQ_16( transpX, 1 ) ) /* We use X transpose */ @@ -1637,11 +1673,10 @@ Word16 matrix_diag_product_fx_1( { FOR( i = 0; i < colsX; ++i ) { - tmp = add( j, imult1616( i, rowsX ) ); /*Q0*/ - *( Zp ) = Mpy_32_32( X[tmp], Y[j] ); /*Q31 - (X_e + Y_e)*/ + *( Zp ) = Mpy_32_32( X[j + i * rowsX], Y[j] ); /*Q31 - (X_e + Y_e)*/ move32(); Zp++; - *( Z_ep ) = add( X_e[tmp], Y_e[j] ); + *( Z_ep ) = add( X_e[j + i * rowsX], Y_e[j] ); move16(); Z_ep++; } @@ -1687,7 +1722,6 @@ Word16 diag_matrix_product_fx( { Word16 i, j; Word32 *Zp = Z; - Word16 tmp; /* Processing */ IF( EQ_16( transpX, 1 ) ) /* We use X transpose */ @@ -1700,8 +1734,7 @@ Word16 diag_matrix_product_fx( { FOR( j = 0; j < entriesY; ++j ) { - tmp = add( i, imult1616( j, rowsX ) ); /*Q0*/ - *( Zp ) = Mpy_32_32( X[tmp], Y[j] ); /*Q31 - (X_e + Y_e)*/ + *( Zp ) = Mpy_32_32( X[i + j * rowsX], Y[j] ); /*Q31 - (X_e + Y_e)*/ move32(); Zp++; } @@ -1747,7 +1780,6 @@ Word16 matrix_product_diag_fx( { Word16 j, k; Word32 *Zp = Z; - Word16 y_idx, x_idx; /* Processing */ test(); @@ -1766,9 +1798,7 @@ Word16 matrix_product_diag_fx( move32(); FOR( k = 0; k < rowsX; ++k ) { - x_idx = add( k, imult1616( j, rowsX ) ); /*Q0*/ - y_idx = add( k, imult1616( j, rowsY ) ); /*Q0*/ - ( *Zp ) = L_add( ( *Zp ), Mpy_32_32( X[x_idx], Y[y_idx] ) ); /*Q31 - (X_e + Y_e)*/ + ( *Zp ) = Madd_32_32( ( *Zp ), X[k + j * rowsX], Y[k + j * rowsY] ); /*Q31 - (X_e + Y_e)*/ move32(); } Zp++; @@ -1786,9 +1816,7 @@ Word16 matrix_product_diag_fx( move32(); FOR( k = 0; k < colsX; ++k ) { - x_idx = add( j, imult1616( k, rowsX ) ); /*Q0*/ - y_idx = add( j, imult1616( k, rowsY ) ); /*Q0*/ - ( *Zp ) = L_add( ( *Zp ), Mpy_32_32( X[x_idx], Y[y_idx] ) ); /*Q31 - (X_e + Y_e)*/ + ( *Zp ) = Madd_32_32( ( *Zp ), X[j + k * rowsX], Y[j + k * rowsY] ); /*Q31 - (X_e + Y_e)*/ move32(); } Zp++; @@ -1808,9 +1836,7 @@ Word16 matrix_product_diag_fx( move32(); FOR( k = 0; k < colsX; ++k ) { - x_idx = add( k, imult1616( j, rowsX ) ); /*Q0*/ - y_idx = add( j, imult1616( k, rowsY ) ); /*Q0*/ - ( *Zp ) = L_add( ( *Zp ), Mpy_32_32( X[x_idx], Y[y_idx] ) ); /*Q31 - (X_e + Y_e)*/ + ( *Zp ) = Madd_32_32( ( *Zp ), X[k + j * rowsX], Y[j + k * rowsY] ); /*Q31 - (X_e + Y_e)*/ move32(); } @@ -1830,9 +1856,7 @@ Word16 matrix_product_diag_fx( move32(); FOR( k = 0; k < colsX; ++k ) { - x_idx = add( j, imult1616( k, rowsX ) ); /*Q0*/ - y_idx = add( k, imult1616( j, rowsY ) ); /*Q0*/ - ( *Zp ) = L_add( ( *Zp ), Mpy_32_32( X[x_idx], Y[y_idx] ) ); /*Q31 - (X_e + Y_e)*/ + ( *Zp ) = Madd_32_32( ( *Zp ), X[j + k * rowsX], Y[k + j * rowsY] ); /*Q31 - (X_e + Y_e)*/ move32(); } Zp++; @@ -2724,7 +2748,7 @@ Word64 var_32_fx( Word16 q /* q : q-factor for the array */ ) { - + Word16 i; Word64 mean, var; mean = 0; @@ -2732,14 +2756,14 @@ Word64 var_32_fx( var = 0; move64(); - FOR( int i = 0; i < len; i++ ) + FOR( i = 0; i < len; i++ ) { mean = W_add( mean, x[i] ); /*q*/ } mean = mean / len; /* NOTE: No BASOP for 64 bit division q*/ - FOR( int i = 0; i < len; i++ ) + FOR( i = 0; i < len; i++ ) { var = W_add( var, Mpy_32_32( L_sub( x[i], W_extract_l( mean ) ), L_sub( x[i], W_extract_l( mean ) ) ) ); /*q + q - 31*/ } diff --git a/lib_com/ivas_transient_det.c b/lib_com/ivas_transient_det_fx.c similarity index 99% rename from lib_com/ivas_transient_det.c rename to lib_com/ivas_transient_det_fx.c index b5ea507eb4065efc85019a44e0eb8bc226428e45..3b9a8cfd7ebf1e22ec6513d4a5f5229e53c9d53d 100644 --- a/lib_com/ivas_transient_det.c +++ b/lib_com/ivas_transient_det_fx.c @@ -34,11 +34,9 @@ #include "options.h" #include "math.h" #include "wmc_auto.h" -#include "prot.h" +#include "prot_fx.h" #include "ivas_cnst.h" -#include "ivas_prot.h" #include "ivas_prot_fx.h" -#include "prot_fx.h" #include "ivas_stat_com.h" /*------------------------------------------------------------------------------------------* diff --git a/lib_com/lag_wind.c b/lib_com/lag_wind.c index e0871fa70124f1d3479f0d1801c8e71c503ce419..9fb2872711d553565e75f883d9ddeafaef19cd40 100644 --- a/lib_com/lag_wind.c +++ b/lib_com/lag_wind.c @@ -37,7 +37,6 @@ #include #include #include "options.h" -#include "prot.h" #include "prot_fx.h" #include "cnst.h" #include "rom_com.h" diff --git a/lib_com/lerp.c b/lib_com/lerp.c index bb33d9922c50b3f745edce408841d7671f56b12e..6f148057faa5dba000aa064e5e4ba169de6781ec 100644 --- a/lib_com/lerp.c +++ b/lib_com/lerp.c @@ -36,154 +36,25 @@ #include #include "options.h" -#include "prot.h" #include "prot_fx.h" #include "wmc_auto.h" - /*-------------------------------------------------------------* * Local function prototypes *-------------------------------------------------------------*/ -static void lerp_proc_flt( const float *f, float *f_out, const int16_t bufferNewSize, const int16_t bufferOldSize ); - - /*-------------------------------------------------------------* * procedure lerp_flt() * * * * * *-------------------------------------------------------------*/ -void lerp_flt( - const float *f, - float *f_out, - const int16_t bufferNewSize, - const int16_t bufferOldSize_inp ) -{ - float maxFac; - int16_t bufferOldSize, tmpNewSize; - - maxFac = 507.0 / 128.0; - bufferOldSize = bufferOldSize_inp; - - if ( (float) bufferNewSize / bufferOldSize > maxFac ) - { - tmpNewSize = bufferOldSize * 2; - while ( bufferNewSize > bufferOldSize ) - { - if ( (float) bufferNewSize / bufferOldSize <= maxFac ) - { - tmpNewSize = bufferNewSize; - } - - lerp_proc_flt( f, f_out, tmpNewSize, bufferOldSize ); - - f = f_out; - bufferOldSize = tmpNewSize; - tmpNewSize *= 2; - } - } - else if ( (float) bufferOldSize / bufferNewSize > maxFac ) - { - tmpNewSize = bufferOldSize / 2; - while ( bufferNewSize < bufferOldSize ) - { - if ( (float) bufferOldSize / bufferNewSize <= maxFac ) - { - tmpNewSize = bufferNewSize; - } - - lerp_proc_flt( f, f_out, tmpNewSize, bufferOldSize ); - - f = f_out; - bufferOldSize = tmpNewSize; - tmpNewSize /= 2; - } - } - else - { - lerp_proc_flt( f, f_out, bufferNewSize, bufferOldSize ); - } - - return; -} - /*-------------------------------------------------------------* * procedure lerp_proc_flt() * * * * * *-------------------------------------------------------------*/ -static void lerp_proc_flt( - const float *f, - float *f_out, - const int16_t bufferNewSize, - const int16_t bufferOldSize ) -{ - int16_t i, idx; - float pos, shift, diff; - float buf[2 * L_FRAME_MAX]; - Word16 tmp; - - if ( bufferNewSize == bufferOldSize ) - { - mvr2r( f, buf, bufferNewSize ); - mvr2r( buf, f_out, bufferNewSize ); - return; - } - - /* Using the basop code to avoid reading beyond end of input for bufferOldSize=320, bufferNewSize=640 */ - tmp = div_s( bufferOldSize, shl( bufferNewSize, 4 ) ); - shift = (float) ( L_shl( L_deposit_l( tmp ), 4 - 15 + 16 ) ) / 65536.0f; - pos = 0.5f * shift - 0.5f; - - if ( shift < 0.3f ) - { - pos = pos - 0.13f; - } - - /* first point of interpolation */ - if ( pos < 0 ) - { - buf[0] = f[0] + pos * ( f[1] - f[0] ); - } - else - { - idx = (int16_t) pos; - diff = pos - idx; - buf[0] = f[idx] + diff * ( f[idx + 1] - f[idx] ); - } - - pos += shift; - - for ( i = 1; i < bufferNewSize - 1; i++ ) - { - idx = (int16_t) pos; - diff = pos - idx; - - buf[i] = f[idx] + diff * ( f[idx + 1] - f[idx] ); - pos += shift; - } - - - /* last point */ - idx = (int16_t) pos; - - if ( pos > bufferOldSize - 1 ) - { - idx = bufferOldSize - 2; - } - - diff = pos - idx; - - buf[bufferNewSize - 1] = f[idx] + diff * ( f[idx + 1] - f[idx] ); - - mvr2r( buf, f_out, bufferNewSize ); - - return; -} - - /*-------------------------------------------------------------* * Local constants *-------------------------------------------------------------*/ @@ -430,7 +301,7 @@ static void lerp_proc32( Word32 *f /*Qx*/, Word32 *f_out /*Qx*/, Word16 bufferNe { diff = sub( 16384 /*0.5f Q15*/, diff ); /*Q15*/ } - *ptr++ = L_add_sat( f[idx], Mpy_32_16_1( L_sub( f[idx + 1], f[idx] ), diff ) ); /*Qx*/ + *ptr++ = L_add_sat( f[idx], L_sub( Mpy_32_16_1( f[idx + 1], diff ), Mpy_32_16_1( f[idx], diff ) ) ); /*Qx*/ move32(); pos = L_add( pos, shift ); /*Q16*/ idx = extract_h( pos ); @@ -485,10 +356,6 @@ void L_lerp_fx( Word32 *f /*q*/, Word32 *f_out /*q*/, Word16 bufferNewSize /*Q0* f[ind] = L_shr( f[ind], guard_bits ); /*Q(guard_bits)*/ move32(); } -#ifndef MSAN_FIX - FOR( Word16 ind = 0; ind < bufferNewSize; ind++ ) - f_out[ind] = L_shr( f_out[ind], guard_bits ); -#endif } IF( GT_32( L_mult0( 128, bufferNewSize ), L_mult0( bufferOldSize, 507 ) ) ) diff --git a/lib_com/limit_t0.c b/lib_com/limit_t0.c deleted file mode 100644 index d49cad28376c7dd239a9bcd7634582d235a1f225..0000000000000000000000000000000000000000 --- a/lib_com/limit_t0.c +++ /dev/null @@ -1,231 +0,0 @@ -/****************************************************************************************************** - - (C) 2022-2025 IVAS codec Public Collaboration with portions copyright Dolby International AB, Ericsson AB, - Fraunhofer-Gesellschaft zur Foerderung der angewandten Forschung e.V., Huawei Technologies Co. LTD., - Koninklijke Philips N.V., Nippon Telegraph and Telephone Corporation, Nokia Technologies Oy, Orange, - Panasonic Holdings Corporation, Qualcomm Technologies, Inc., VoiceAge Corporation, and other - contributors to this repository. All Rights Reserved. - - This software is protected by copyright law and by international treaties. - The IVAS codec Public Collaboration consisting of Dolby International AB, Ericsson AB, - Fraunhofer-Gesellschaft zur Foerderung der angewandten Forschung e.V., Huawei Technologies Co. LTD., - Koninklijke Philips N.V., Nippon Telegraph and Telephone Corporation, Nokia Technologies Oy, Orange, - Panasonic Holdings Corporation, Qualcomm Technologies, Inc., VoiceAge Corporation, and other - contributors to this repository retain full ownership rights in their respective contributions in - the software. This notice grants no license of any kind, including but not limited to patent - license, nor is any license granted by implication, estoppel or otherwise. - - Contributors are required to enter into the IVAS codec Public Collaboration agreement before making - contributions. - - This software is provided "AS IS", without any express or implied warranties. The software is in the - development stage. It is intended exclusively for experts who have experience with such software and - solely for the purpose of inspection. All implied warranties of non-infringement, merchantability - and fitness for a particular purpose are hereby disclaimed and excluded. - - Any dispute, controversy or claim arising under or in relation to providing this software shall be - submitted to and settled by the final, binding jurisdiction of the courts of Munich, Germany in - accordance with the laws of the Federal Republic of Germany excluding its conflict of law rules and - the United Nations Convention on Contracts on the International Sales of Goods. - -*******************************************************************************************************/ - -/*==================================================================================== - EVS Codec 3GPP TS26.443 Nov 04, 2021. Version 12.14.0 / 13.10.0 / 14.6.0 / 15.4.0 / 16.3.0 - ====================================================================================*/ - -#include -#include "options.h" -#include "cnst.h" -#include "prot.h" -#include "wmc_auto.h" - -/*-------------------------------------------------* - * Local constants - *-------------------------------------------------*/ - -#define LIMIT_PIT_REL_LOWER 2 /* delta interval to extend pitch coding in relative Q */ -#define LIMIT_PIT_REL_UPPER 0 - -/*-------------------------------------------------* - * limit_T0() - * - * Close-loop pitch lag search limitation - *-------------------------------------------------*/ - -void limit_T0( - const int16_t L_frame, /* i : length of the frame */ - const int16_t delta, /* i : Half the close-loop searched interval */ - const int16_t pit_flag, /* i : selecting absolute(0) or delta(1) pitch quantization */ - const int16_t limit_flag, /* i : flag for Q limits (0=restrained, 1=extended) */ - const int16_t T0, /* i : rough pitch estimate around which the search is done */ - const int16_t T0_frac, /* i : pitch estimate fractional part */ - int16_t *T0_min, /* o : lower pitch limit */ - int16_t *T0_max /* o : higher pitch limit */ -) -{ - int16_t delta2, T1; - int16_t pit_min, pit_max; - - if ( limit_flag == 0 ) /* restrained Q limits */ - { - /* set limits */ - if ( L_frame == L_FRAME ) - { - pit_max = PIT_MAX; - pit_min = PIT_MIN; - } - else /* L_frame == L_FRAME16k */ - { - pit_max = PIT16k_MAX; - pit_min = PIT16k_MIN; - } - - delta2 = 2 * delta - 1; - - T1 = T0; - if ( T0_frac >= 2 ) - { - T1++; - } - *T0_min = T1 - delta; - - if ( *T0_min < pit_min ) - { - *T0_min = pit_min; - } - *T0_max = *T0_min + delta2; - - if ( *T0_max > pit_max ) - { - *T0_max = pit_max; - *T0_min = *T0_max - delta2; - } - } - else /* extended Q limits */ - { - - /* set limits */ - if ( L_frame == L_FRAME ) - { - pit_max = PIT_MAX; - pit_min = PIT_MIN_EXTEND; - - if ( limit_flag == 2 ) - { - pit_min = PIT_MIN_DOUBLEEXTEND; - } - } - else /* L_frame == L_FRAME16k */ - { - pit_max = PIT16k_MAX; - pit_min = PIT16k_MIN_EXTEND; - } - - delta2 = 2 * delta - 1; - - T1 = T0; - if ( T0_frac >= 2 ) - { - T1++; - } - *T0_min = T1 - delta; - - if ( pit_flag == 0 ) - { - /* subframes with absolute search: keep Q range */ - if ( *T0_min < pit_min ) - { - *T0_min = pit_min; - } - *T0_max = *T0_min + delta2; - - if ( *T0_max > pit_max ) - { - *T0_max = pit_max; - *T0_min = *T0_max - delta2; - } - } - else - { - /* subframes with relative search: extend Q range */ - if ( *T0_min < pit_min - LIMIT_PIT_REL_LOWER ) - { - *T0_min = pit_min - LIMIT_PIT_REL_LOWER; - } - - if ( *T0_min < L_INTERPOL ) - { - *T0_min = L_INTERPOL; - } - *T0_max = *T0_min + delta2; - - if ( *T0_max > pit_max + LIMIT_PIT_REL_UPPER ) - { - *T0_max = pit_max + LIMIT_PIT_REL_UPPER; - *T0_min = *T0_max - delta2; - } - } - } - - return; -} - - -/*-------------------------------------------------* - * Routine limit_T0_voiced_ivas() - * - * Close-loop pitch lag search limitation - *-------------------------------------------------*/ - -void limit_T0_voiced_ivas( - const int16_t nbits, - const int16_t res, - const int16_t T0, /* i : rough pitch estimate around which the search is done */ - const int16_t T0_frac, /* i : pitch estimate fractional part */ - const int16_t T0_res, /* i : pitch resolution */ - int16_t *T0_min, /* o : lower pitch limit */ - int16_t *T0_min_frac, /* o : lower pitch limit */ - int16_t *T0_max, /* o : higher pitch limit */ - int16_t *T0_max_frac, /* o : higher pitch limit */ - const int16_t pit_min, /* i : Minimum pitch lag */ - const int16_t pit_max /* i : Maximum pitch lag */ -) -{ - int16_t T1, temp1, temp2; - - /* Mid-point */ - T1 = T0; - if ( ( T0_res > 1 ) && ( T0_frac >= ( T0_res >> 1 ) ) ) - { - T1++; - } - - /* Lower-bound */ - temp1 = ( T1 * res ) - ( 1 << ( nbits - 1 ) ); - temp2 = temp1 / res; - *T0_min = temp2; - *T0_min_frac = temp1 - temp2 * res; - if ( *T0_min < pit_min ) - { - *T0_min = pit_min; - *T0_min_frac = 0; - } - - /* Higher-bound */ - temp1 = ( *T0_min * res ) + *T0_min_frac + ( 1 << nbits ) - 1; - temp2 = temp1 / res; - *T0_max = temp2; - *T0_max_frac = temp1 - temp2 * res; - if ( *T0_max > pit_max ) - { - *T0_max = pit_max; - *T0_max_frac = res - 1; - temp1 = ( *T0_max * res ) + *T0_max_frac - ( 1 << nbits ) + 1; - temp2 = temp1 / res; - *T0_min = temp2; - *T0_min_frac = temp1 - temp2 * res; - } - - return; -} diff --git a/lib_com/longarith.c b/lib_com/longarith.c index 66c5dd15ef0e35eac14d866e775ae82f56560561..72a763de3dc933db4fae6d7de78b0893b436a2c9 100644 --- a/lib_com/longarith.c +++ b/lib_com/longarith.c @@ -37,10 +37,9 @@ #include #include #include "options.h" -#include "prot.h" +#include "prot_fx.h" #include "wmc_auto.h" #include "ivas_prot_fx.h" -#include "prot_fx.h" /*-------------------------------------------------------------------* @@ -53,27 +52,27 @@ *--------------------------------------------------------------------*/ void longadd( - uint16_t a[], /* i/o: vector of the length lena */ - const uint16_t b[], /* i/o: vector of the length lenb */ - const int16_t lena, /* i/o: length of vector a[] */ - const int16_t lenb /* i/o: length of vector b[] */ + UWord16 a[], /* i/o: vector of the length lena */ + const UWord16 b[], /* i/o: vector of the length lenb */ + const Word16 lena, /* i/o: length of vector a[] */ + const Word16 lenb /* i/o: length of vector b[] */ ) { - int16_t h; - int32_t carry = 0; + Word16 h; + Word32 carry = 0; assert( lena >= lenb ); for ( h = 0; h < lenb; h++ ) { carry += ( (uint32_t) a[h] ) + ( (uint32_t) b[h] ); - a[h] = (uint16_t) carry; + a[h] = (UWord16) carry; carry = carry >> 16; } for ( ; h < lena; h++ ) { carry = ( (uint32_t) a[h] ) + carry; - a[h] = (uint16_t) carry; + a[h] = (UWord16) carry; carry = carry >> 16; } @@ -92,14 +91,14 @@ void longadd( *--------------------------------------------------------------------*/ void longshiftright( - uint16_t a[], /* i : vector of the length lena */ - const int16_t b, /* i : number of bit positions to shift right */ - uint16_t d[], /* o : vector of the length lend */ - int16_t lena, /* i : length of vector a[] */ - const int16_t lend /* i : length of vector d[] */ + UWord16 a[], /* i : vector of the length lena */ + const Word16 b, /* i : number of bit positions to shift right */ + UWord16 d[], /* o : vector of the length lend */ + Word16 lena, /* i : length of vector a[] */ + const Word16 lend /* i : length of vector d[] */ ) { - int16_t intb, fracb, fracb_u, k; + Word16 intb, fracb, fracb_u, k; intb = b >> 4; @@ -165,16 +164,16 @@ void longshr( *--------------------------------------------------------------------*/ void longshiftleft( - const uint16_t a[], /* i : vector of the length len */ - const int16_t b, /* i : number of bit positions to shift left */ - uint16_t d[], /* o : vector of the length len */ - const int16_t len /* i : length of vector a[] and d[] */ + const UWord16 a[], /* i : vector of the length len */ + const Word16 b, /* i : number of bit positions to shift left */ + UWord16 d[], /* o : vector of the length len */ + const Word16 len /* i : length of vector a[] and d[] */ ) { - int16_t intb; /* integer part of b */ - int16_t fracb; /* shift left value for all upper words a[k] */ - int16_t fracb_l; /* shift right value for all lower words a[k-1] */ - int16_t k = len - 1; + Word16 intb; /* integer part of b */ + Word16 fracb; /* shift left value for all upper words a[k] */ + Word16 fracb_l; /* shift right value for all lower words a[k-1] */ + Word16 k = len - 1; intb = b >> 4; fracb = b & 0xF; diff --git a/lib_com/low_rate_band_att_fx.c b/lib_com/low_rate_band_att_fx.c index 9958b9d5fdef77ec8782e1aaf261baa60b7111b0..e51d2807b10162a20e29b17dca29ab55a8e7c13a 100644 --- a/lib_com/low_rate_band_att_fx.c +++ b/lib_com/low_rate_band_att_fx.c @@ -75,15 +75,11 @@ void ivas_fine_gain_pred_fx( L_tmp = L_shl( xx, exp ); /*2*(15-shift)+exp */ exp = sub( 31, add( exp, sub( 30, shl( shift, 1 ) ) ) ); L_tmp = Isqrt_lc( L_tmp, &exp ); /*31 - exp */ -#ifndef FIX_ISSUE_987 - Mpy_32_16_ss( L_tmp, ivas_fine_gain_pred_sqrt_bw[bw_idx], &L_tmp, &lsb ); /*31-exp+11-15=27-exp */ -#else Word16 norm = norm_s( bw ); Word16 tmp1, tmp_exp = sub( 15, norm ); tmp1 = Sqrt16( shl( bw, norm ), &tmp_exp ); tmp1 = shr( tmp1, sub( sub( 15, tmp_exp ), Q11 ) ); Mpy_32_16_ss( L_tmp, tmp1, &L_tmp, &lsb ); /*31-exp+11-15=27-exp */ -#endif gp = round_fx_o( L_shl_o( L_tmp, add( 1, exp ), &Overflow ), &Overflow ); /*27-exp+1+exp-16=12 */ test(); diff --git a/lib_com/lsf_dec_bfi_fx.c b/lib_com/lsf_dec_bfi_fx.c index 6292630af70ea7d15bd23afe34d9148ccc50db9d..33de5d9ac09d01ac656426a142cbec602cb610c9 100644 --- a/lib_com/lsf_dec_bfi_fx.c +++ b/lib_com/lsf_dec_bfi_fx.c @@ -36,7 +36,7 @@ void lsf_dec_bfi( const Word16 Last_GSC_pit_band_idx, const Word16 Opt_AMR_WB, /* i : IO flag */ const Word8 tcxonly, - const short bwidth /* i: coded bandwidth */ + const Word16 bwidth /* i: coded bandwidth */ ) { Word16 i; diff --git a/lib_com/lsf_tools_fx.c b/lib_com/lsf_tools_fx.c index 6437cc393c2d82d488fe5f6a373235bb0e53edbb..5f0f5aaec035d6eeb5ff1785b03453e6bf58056c 100644 --- a/lib_com/lsf_tools_fx.c +++ b/lib_com/lsf_tools_fx.c @@ -604,7 +604,6 @@ Word16 lpc2lsp_fx( return ( 1 ); } -#ifdef FIX_ISSUE_1165 /*===================================================================*/ /* FUNCTION : lpc2lsp_ivas_fx () */ /*-------------------------------------------------------------------*/ @@ -749,7 +748,6 @@ Word16 lpc2lsp_ivas_fx( return ( 1 ); } -#endif /*===================================================================*/ /* FUNCTION : lsp2lpc_fx () */ @@ -3046,11 +3044,11 @@ void lsf_syn_mem_backup_ivas_fx( /* back-up memories */ FOR( i = 0; i < M; i++ ) { - mem_syn_bck[i] = hLPDmem->mem_syn[i]; // Q: ( 15 - st_fx->hLPDmem->e_mem_syn ) + mem_syn_bck[i] = hLPDmem->mem_syn[i]; // Q( st_fx->hLPDmem->q_mem_syn ) move16(); } - *mem_w0_bck = hLPDmem->mem_w0; // ( 15 - st_fx->hLPDmem->e_mem_syn ) + *mem_w0_bck = hLPDmem->mem_w0; // Q( st_fx->hLPDmem->q_mem_syn ) move16(); @@ -3265,12 +3263,12 @@ void lsf_syn_mem_restore_ivas_fx( } /* restoring memories */ - hLPDmem->mem_w0 = mem_w0_bck; // Q(15 - st_fx->hLPDmem->e_mem_syn ) + hLPDmem->mem_w0 = mem_w0_bck; // Q( st_fx->hLPDmem->q_mem_syn ) move16(); FOR( i = 0; i < M; i++ ) { - hLPDmem->mem_syn[i] = mem_syn_bck[i]; // Q(15 - st_fx->hLPDmem->e_mem_syn ) + hLPDmem->mem_syn[i] = mem_syn_bck[i]; // Q( st_fx->hLPDmem->q_mem_syn ) move16(); } diff --git a/lib_com/lsp_conv_poly_fx.c b/lib_com/lsp_conv_poly_fx.c index 61ead2bf2a75118ce2399146e065fd243fae0077..4f493cacde1c222cba29c4859e08beb17776da29 100644 --- a/lib_com/lsp_conv_poly_fx.c +++ b/lib_com/lsp_conv_poly_fx.c @@ -6,10 +6,9 @@ #include "options.h" #include "cnst.h" #include "rom_com.h" -#include "prot.h" +#include "prot_fx.h" #include "wmc_auto.h" -#include "prot_fx.h" /*-------------------------------------------------------------------* * Local constants diff --git a/lib_com/modif_fs.c b/lib_com/modif_fs.c index 4af93522dd07e3c4ce6d92e13e36644fc040c642..10e64a57deb9efbc548a2416db10d1ec550d66cf 100644 --- a/lib_com/modif_fs.c +++ b/lib_com/modif_fs.c @@ -38,13 +38,13 @@ #include "options.h" #include #include "cnst.h" -#include "prot.h" +#include "prot_fx.h" #include "rom_com.h" #include "wmc_auto.h" -#include "prot_fx.h" -void Interpolate_allpass_steep_32( +/* IVAS 32-bit variant */ +void Interpolate_allpass_steep_fx32( const Word32 *in_fx, /* i : input array of size N Qx */ Word32 *mem_fx, /* i/o: memory Qx */ const Word16 N, /* i : number of input samples */ @@ -102,6 +102,8 @@ void Interpolate_allpass_steep_32( return; } + +/* IVAS 32-bit variant */ void Decimate_allpass_steep_fx32( const Word32 *in, /* i : input array of size N Qx */ Word32 *mem, /* i/o: memory Qx */ @@ -115,6 +117,22 @@ void Decimate_allpass_steep_fx32( /* upper allpass filter chain */ FOR( k = 0; k < N / 2; k++ ) { +#ifdef OPT_STEREO_32KBPS_V1 + temp[0] = Madd_32_16( mem[0], in[2 * k], AP1_STEEP_FX[0] ); // Qx + move32(); + mem[0] = Msub_32_16( in[2 * k], temp[0], AP1_STEEP_FX[0] ); // Qx + move32(); + + temp[1] = Madd_32_16( mem[1], temp[0], AP1_STEEP_FX[1] ); // Qx + move32(); + mem[1] = Msub_32_16( temp[0], temp[1], AP1_STEEP_FX[1] ); // Qx + move32(); + + out[k] = Madd_32_16( mem[ALLPASSSECTIONS_STEEP - 1], temp[ALLPASSSECTIONS_STEEP - 2], AP1_STEEP_FX[ALLPASSSECTIONS_STEEP - 1] ); // Qx + move32(); + mem[ALLPASSSECTIONS_STEEP - 1] = Msub_32_16( temp[ALLPASSSECTIONS_STEEP - 2], out[k], AP1_STEEP_FX[ALLPASSSECTIONS_STEEP - 1] ); // Qx + move32(); +#else /* OPT_STEREO_32KBPS_V1 */ temp[0] = L_add( mem[0], Mpy_32_16_1( in[2 * k], AP1_STEEP_FX[0] ) ); // Qx move32(); mem[0] = L_sub( in[2 * k], Mpy_32_16_1( temp[0], AP1_STEEP_FX[0] ) ); // Qx @@ -129,17 +147,31 @@ void Decimate_allpass_steep_fx32( move32(); mem[ALLPASSSECTIONS_STEEP - 1] = L_sub( temp[ALLPASSSECTIONS_STEEP - 2], Mpy_32_16_1( out[k], AP1_STEEP_FX[ALLPASSSECTIONS_STEEP - 1] ) ); // Qx move32(); +#endif /* OPT_STEREO_32KBPS_V1 */ } /* lower allpass filter chain */ +#ifdef OPT_STEREO_32KBPS_V1 + temp[0] = Madd_32_16( mem[ALLPASSSECTIONS_STEEP], mem[2 * ALLPASSSECTIONS_STEEP], AP2_STEEP_FX[0] ); // Qx + move32(); + mem[ALLPASSSECTIONS_STEEP] = Msub_32_16( mem[2 * ALLPASSSECTIONS_STEEP], temp[0], AP2_STEEP_FX[0] ); // Qx + move32(); +#else /* OPT_STEREO_32KBPS_V1 */ temp[0] = L_add( mem[ALLPASSSECTIONS_STEEP], Mpy_32_16_1( mem[2 * ALLPASSSECTIONS_STEEP], AP2_STEEP_FX[0] ) ); // Qx move32(); mem[ALLPASSSECTIONS_STEEP] = L_sub( mem[2 * ALLPASSSECTIONS_STEEP], Mpy_32_16_1( temp[0], AP2_STEEP_FX[0] ) ); // Qx move32(); +#endif /* OPT_STEREO_32KBPS_V1 */ /* for better performance, unroll this loop */ FOR( n = 1; n < ALLPASSSECTIONS_STEEP - 1; n++ ) { +#ifdef OPT_STEREO_32KBPS_V1 + temp[n] = Madd_32_16( mem[ALLPASSSECTIONS_STEEP + n], temp[n - 1], AP2_STEEP_FX[n] ); // Qx + move32(); + mem[ALLPASSSECTIONS_STEEP + 1] = Msub_32_16( temp[n - 1], temp[n], AP2_STEEP_FX[n] ); // Qx + move32(); +#else /* OPT_STEREO_32KBPS_V1 */ temp[n] = L_add( mem[ALLPASSSECTIONS_STEEP + n], Mpy_32_16_1( temp[n - 1], AP2_STEEP_FX[n] ) ); // Qx move32(); /*if ( fabs( temp[n] ) < 1e-12 ) @@ -148,26 +180,48 @@ void Decimate_allpass_steep_fx32( }*/ mem[ALLPASSSECTIONS_STEEP + 1] = L_sub( temp[n - 1], Mpy_32_16_1( temp[n], AP2_STEEP_FX[n] ) ); // Qx move32(); +#endif /* OPT_STEREO_32KBPS_V1 */ } +#ifdef OPT_STEREO_32KBPS_V1 + temp[ALLPASSSECTIONS_STEEP - 1] = Madd_32_16( mem[2 * ALLPASSSECTIONS_STEEP - 1], temp[ALLPASSSECTIONS_STEEP - 2], AP2_STEEP_FX[ALLPASSSECTIONS_STEEP - 1] ); // Qx + move32(); + + mem[2 * ALLPASSSECTIONS_STEEP - 1] = Msub_32_16( temp[ALLPASSSECTIONS_STEEP - 2], temp[ALLPASSSECTIONS_STEEP - 1], AP2_STEEP_FX[ALLPASSSECTIONS_STEEP - 1] ); // Qx + move32(); +#else /* OPT_STEREO_32KBPS_V1 */ temp[ALLPASSSECTIONS_STEEP - 1] = L_add( mem[2 * ALLPASSSECTIONS_STEEP - 1], Mpy_32_16_1( temp[ALLPASSSECTIONS_STEEP - 2], AP2_STEEP_FX[ALLPASSSECTIONS_STEEP - 1] ) ); // Qx move32(); mem[2 * ALLPASSSECTIONS_STEEP - 1] = L_sub( temp[ALLPASSSECTIONS_STEEP - 2], Mpy_32_16_1( temp[ALLPASSSECTIONS_STEEP - 1], AP2_STEEP_FX[ALLPASSSECTIONS_STEEP - 1] ) ); // Qx move32(); +#endif /* OPT_STEREO_32KBPS_V1 */ out[0] = W_round48_L( W_mac_32_16( W_mult_32_16( out[0], 16384 /*0.5 in Q15*/ ), temp[ALLPASSSECTIONS_STEEP - 1], 16384 /*0.5 in Q15*/ ) ); // Qx move32(); FOR( k = 1; k < N / 2; k++ ) { +#ifdef OPT_STEREO_32KBPS_V1 + temp[0] = Madd_32_16( mem[ALLPASSSECTIONS_STEEP], in[2 * k - 1], AP2_STEEP_FX[0] ); // Qx + move32(); + mem[ALLPASSSECTIONS_STEEP] = Msub_32_16( in[2 * k - 1], temp[0], AP2_STEEP_FX[0] ); // Qx + move32(); +#else /* OPT_STEREO_32KBPS_V1 */ temp[0] = L_add( mem[ALLPASSSECTIONS_STEEP], Mpy_32_16_1( in[sub( shl( k, 1 ), 1 )], AP2_STEEP_FX[0] ) ); // Qx move32(); mem[ALLPASSSECTIONS_STEEP] = L_sub( in[sub( shl( k, 1 ), 1 )], Mpy_32_16_1( temp[0], AP2_STEEP_FX[0] ) ); // Qx move32(); +#endif /* OPT_STEREO_32KBPS_V1 */ /* for better performance, unroll this loop */ FOR( n = 1; n < ALLPASSSECTIONS_STEEP - 1; n++ ) { +#ifdef OPT_STEREO_32KBPS_V1 + temp[n] = Madd_32_16( mem[ALLPASSSECTIONS_STEEP + n], temp[n - 1], AP2_STEEP_FX[n] ); // Qx + move32(); + mem[ALLPASSSECTIONS_STEEP + n] = Msub_32_16( temp[n - 1], temp[n], AP2_STEEP_FX[n] ); // Qx + move32(); +#else /* OPT_STEREO_32KBPS_V1 */ temp[n] = L_add( mem[ALLPASSSECTIONS_STEEP + n], Mpy_32_16_1( temp[n - 1], AP2_STEEP_FX[n] ) ); // Qx move32(); /*if ( fabs( temp[n] ) < 1e-12 ) @@ -176,12 +230,20 @@ void Decimate_allpass_steep_fx32( }*/ mem[ALLPASSSECTIONS_STEEP + n] = L_sub( temp[n - 1], Mpy_32_16_1( temp[n], AP2_STEEP_FX[n] ) ); // Qx move32(); +#endif /* OPT_STEREO_32KBPS_V1 */ } +#ifdef OPT_STEREO_32KBPS_V1 + temp[ALLPASSSECTIONS_STEEP - 1] = Madd_32_16( mem[2 * ALLPASSSECTIONS_STEEP - 1], temp[ALLPASSSECTIONS_STEEP - 2], AP2_STEEP_FX[ALLPASSSECTIONS_STEEP - 1] ); // Qx + move32(); + mem[2 * ALLPASSSECTIONS_STEEP - 1] = Msub_32_16( temp[ALLPASSSECTIONS_STEEP - 2], temp[ALLPASSSECTIONS_STEEP - 1], AP2_STEEP_FX[ALLPASSSECTIONS_STEEP - 1] ); // Qx + move32(); +#else /* OPT_STEREO_32KBPS_V1 */ temp[ALLPASSSECTIONS_STEEP - 1] = L_add( mem[2 * ALLPASSSECTIONS_STEEP - 1], Mpy_32_16_1( temp[ALLPASSSECTIONS_STEEP - 2], AP2_STEEP_FX[ALLPASSSECTIONS_STEEP - 1] ) ); // Qx move32(); mem[2 * ALLPASSSECTIONS_STEEP - 1] = L_sub( temp[ALLPASSSECTIONS_STEEP - 2], Mpy_32_16_1( temp[ALLPASSSECTIONS_STEEP - 1], AP2_STEEP_FX[ALLPASSSECTIONS_STEEP - 1] ) ); // Qx move32(); +#endif /* OPT_STEREO_32KBPS_V1 */ out[k] = W_round48_L( W_mac_32_16( W_mult_32_16( out[k], 16384 /*0.5 in Q15*/ ), temp[ALLPASSSECTIONS_STEEP - 1], 16384 /*0.5 in Q15*/ ) ); // Qx move32(); } @@ -192,7 +254,9 @@ void Decimate_allpass_steep_fx32( return; } -void interpolate_3_over_2_allpass_32( + +/* IVAS 32-bit variant */ +void interpolate_3_over_2_allpass_fx32( const Word32 *input, /* i : input signal Qx*/ const Word16 len, /* i : number of input samples */ Word32 *out, /* o : output signal Qx*/ @@ -211,12 +275,21 @@ void interpolate_3_over_2_allpass_32( FOR( i = 0; i < len; i++ ) { /* Upper branch */ +#ifdef OPT_STEREO_32KBPS_V1 + Vu[0] = Madd_32_16( mem[0], L_sub( input[i], mem[1] ), filt_coeff[0] ); // Qx + Q15 - Q15 -> Qx + move32(); + Vu[1] = Madd_32_16( mem[1], L_sub( Vu[0], mem[2] ), filt_coeff[1] ); // Qx + Q15 - Q15 -> Qx + move32(); + mem[3] = Madd_32_16( mem[2], L_sub( Vu[1], mem[3] ), filt_coeff[2] ); // Qx + Q15 - Q15 -> Qx + move32(); +#else /* OPT_STEREO_32KBPS_V1 */ Vu[0] = L_add( mem[0], Mpy_32_16_1( L_sub( input[i], mem[1] ), filt_coeff[0] ) ); // Qx + Q15 - Q15 -> Qx move32(); Vu[1] = L_add( mem[1], Mpy_32_16_1( L_sub( Vu[0], mem[2] ), filt_coeff[1] ) ); // Qx + Q15 - Q15 -> Qx move32(); mem[3] = L_add( mem[2], Mpy_32_16_1( L_sub( Vu[1], mem[3] ), filt_coeff[2] ) ); // Qx + Q15 - Q15 -> Qx move32(); +#endif /* OPT_STEREO_32KBPS_V1 */ mem[1] = Vu[0]; // Qx move32(); @@ -226,12 +299,21 @@ void interpolate_3_over_2_allpass_32( move32(); /* Middle branch */ +#ifdef OPT_STEREO_32KBPS_V1 + Vm[0] = Madd_32_16( mem[0], L_sub( input[i], mem[4] ), filt_coeff[3] ); // Qx + Q15 - Q15 -> Qx + move32(); + Vm[1] = Madd_32_16( mem[4], L_sub( Vm[0], mem[5] ), filt_coeff[4] ); // Qx + Q15 - Q15 -> Qx + move32(); + mem[6] = Madd_32_16( mem[5], L_sub( Vm[1], mem[6] ), filt_coeff[5] ); // Qx + Q15 - Q15 -> Qx + move32(); +#else /* OPT_STEREO_32KBPS_V1 */ Vm[0] = L_add( mem[0], Mpy_32_16_1( L_sub( input[i], mem[4] ), filt_coeff[3] ) ); // Qx + Q15 - Q15 -> Qx move32(); Vm[1] = L_add( mem[4], Mpy_32_16_1( L_sub( Vm[0], mem[5] ), filt_coeff[4] ) ); // Qx + Q15 - Q15 -> Qx move32(); mem[6] = L_add( mem[5], Mpy_32_16_1( L_sub( Vm[1], mem[6] ), filt_coeff[5] ) ); // Qx + Q15 - Q15 -> Qx move32(); +#endif /* OPT_STEREO_32KBPS_V1 */ mem[4] = Vm[0]; // Qx move32(); @@ -241,12 +323,21 @@ void interpolate_3_over_2_allpass_32( move32(); /* Lower branch */ +#ifdef OPT_STEREO_32KBPS_V1 + Vl[0] = Madd_32_16( mem[0], L_sub( input[i], mem[7] ), filt_coeff[6] ); // Qx + Q15 - Q15 -> Qx + move32(); + Vl[1] = Madd_32_16( mem[7], L_sub( Vl[0], mem[8] ), filt_coeff[7] ); // Qx + Q15 - Q15 -> Qx + move32(); + mem[9] = Madd_32_16( mem[8], L_sub( Vl[1], mem[9] ), filt_coeff[8] ); // Qx + Q15 - Q15 -> Qx + move32(); +#else /* OPT_STEREO_32KBPS_V1 */ Vl[0] = L_add( mem[0], Mpy_32_16_1( L_sub( input[i], mem[7] ), filt_coeff[6] ) ); // Qx + Q15 - Q15 -> Qx move32(); Vl[1] = L_add( mem[7], Mpy_32_16_1( L_sub( Vl[0], mem[8] ), filt_coeff[7] ) ); // Qx + Q15 - Q15 -> Qx move32(); mem[9] = L_add( mem[8], Mpy_32_16_1( L_sub( Vl[1], mem[9] ), filt_coeff[8] ) ); // Qx + Q15 - Q15 -> Qx move32(); +#endif /* OPT_STEREO_32KBPS_V1 */ mem[0] = input[i]; // Qx move32(); @@ -265,10 +356,17 @@ void interpolate_3_over_2_allpass_32( { mem_temp = out1_buff[2 * i]; move32(); +#ifdef OPT_STEREO_32KBPS_V1 + out[i] = Madd_32_16( Mpy_32_16_1( L_add( mem_temp, mem[10] ), 1550 ), L_add( mem[11], mem[14] ), -4965 ); // Qx + Q15 - Q15 -> Qx + // 0.0473147f in Q15 -> 1550, -0.151521f in Q15 -> -4965 + out[i] = Madd_32_16( out[i], L_add( mem[12], mem[13] ), 20125 ); + // 0.614152f in Q15 -> 20125 +#else /* OPT_STEREO_32KBPS_V1 */ out[i] = L_add( Mpy_32_16_1( L_add( mem_temp, mem[10] ), 1550 ), Mpy_32_16_1( L_add( mem[11], mem[14] ), -4965 ) ); // Qx + Q15 - Q15 -> Qx // 0.0473147f in Q15 -> 1550, -0.151521f in Q15 -> -4965 out[i] = L_add( out[i], Mpy_32_16_1( L_add( mem[12], mem[13] ), 20125 ) ); // 0.614152f in Q15 -> 20125 +#endif /* OPT_STEREO_32KBPS_V1 */ mem[10] = mem[11]; // Qx move32(); mem[11] = mem[12]; // Qx @@ -284,8 +382,8 @@ void interpolate_3_over_2_allpass_32( return; } - -void interpolate_3_over_1_allpass_32( +/* IVAS 32-bit variant */ +void interpolate_3_over_1_allpass_fx32( const Word32 *input, /* i : input signal Qx */ const Word16 len, /* i : number of input samples */ Word32 *out, /* o : output signal */ diff --git a/lib_com/modif_fs_fx.c b/lib_com/modif_fs_fx.c index 6079e5db5a5ef4c1a8b073b8a5c1ac8e450170ce..bcbff13d57bebe95c3159b1b75e34fdc517fad79 100644 --- a/lib_com/modif_fs_fx.c +++ b/lib_com/modif_fs_fx.c @@ -330,9 +330,7 @@ Word16 modify_Fs_fx( /* o : length of output Q0 */ Word16 sigOut_fx[], /* o : decimated signal Q0 */ const Word32 fout, /* i : frequency of output Q0 */ Word16 mem_fx[], /* i/o: filter memory Q0 */ - const Word16 nblp, /* i : flag indicating if NB low-pass is applied */ - Word16 *Q_new_inp, // TO be removed - Word16 *mem_decim_size // TO be removed + const Word16 nblp /* i : flag indicating if NB low-pass is applied */ ) { Word16 i; @@ -364,17 +362,13 @@ Word16 modify_Fs_fx( /* o : length of output Q0 */ /*-------------------------------------------------------------------* * Find the resampling configuration *-------------------------------------------------------------------*/ - *Q_new_inp = 0; - move16(); + /* check if fin and fout are the same */ IF( EQ_32( fin, fout ) ) { /* just copy the signal_fx and quit */ Copy( sigIn_fx, sigOut_fx, lg ); - *mem_decim_size = 0; - *Q_new_inp = 0; - move16(); - move16(); + return lg; } ELSE @@ -439,8 +433,6 @@ Word16 modify_Fs_fx( /* o : length of output Q0 */ } mem_len = shl( filt_len, 1 ); - *mem_decim_size = mem_len; - move16(); signal_fx = signal_tab_fx + 2 * L_FILT_MAX + sub( L_FRAME48k, add( mem_len, lg ) ); signal_ana_fx = signal_fx; mem_len_ana = mem_len; @@ -508,7 +500,7 @@ Word16 modify_Fs_fx( /* o : length of output Q0 */ } /* interpolation */ - datastep = shr( div_s( shl( fac_den, 7 ), shl( fac_num, 10 ) ), 12 ); + datastep = shr( div_s( shl( fac_den, 8 ), shl( fac_num, 11 ) ), 12 ); /* equivalent to 'datastep = fac_den % fac_num' */ temp_n = i_mult2( datastep, fac_num ); /*Q0*/ fracstep = sub( fac_den, temp_n ); @@ -550,9 +542,6 @@ Word16 modify_Fs_fx( /* o : length of output Q0 */ FOR( i = 0; i < lg_out; i++ ) { sigOut_fx[i] = round_fx( L_shl( L_mult( sigOut_fx[i], num_den ), 1 ) ); /*Q0*/ - *Q_new_inp = -1; - move16(); - move16(); } } ELSE @@ -562,16 +551,17 @@ Word16 modify_Fs_fx( /* o : length of output Q0 */ test(); if ( GT_32( fin, 16000 ) && ( EQ_16( lg_out, L_FRAME ) || EQ_16( lg_out, L_FRAME16k ) || EQ_16( lg_out, 512 ) ) ) { +#ifdef BASOP_NOGLOB_DECLARE_LOCAL num_den = shl_o( num_den, 1, &Overflow ); - //*Q_new_inp = 2; +#else + num_den = shl( num_den, 1 ); +#endif } FOR( i = 0; i < lg_out; i++ ) { sigOut_fx[i] = mult_r( sigOut_fx[i], num_den ); /*Q0*/ move16(); } - *Q_new_inp = -1; - move16(); } } ELSE @@ -579,13 +569,10 @@ Word16 modify_Fs_fx( /* o : length of output Q0 */ IF( EQ_16( fac_num, 8 ) ) { num_den = 26214; - move16(); FOR( i = 0; i < lg_out; i++ ) { sigOut_fx[i] = mult_r( sigOut_fx[i], num_den ); /*Q-1*/ move16(); - *Q_new_inp = -2; - move16(); } } ELSE @@ -594,9 +581,6 @@ Word16 modify_Fs_fx( /* o : length of output Q0 */ FOR( i = 0; i < lg_out; i++ ) { sigOut_fx[i] = round_fx( L_mac( L_deposit_h( sigOut_fx[i] ), sigOut_fx[i], num_den ) ); /*Q0*/ - *Q_new_inp = -1; - move16(); - move16(); } } } @@ -607,8 +591,6 @@ Word16 modify_Fs_fx( /* o : length of output Q0 */ { sigOut_fx[i] = mult_r( sigOut_fx[i], 16384 ); move16(); /*Q-1*/ - *Q_new_inp = -2; - move16(); } } /* update the filter memory */ diff --git a/lib_com/mslvq_com.c b/lib_com/mslvq_com.c index 34e2083b96bd5146f205f9dd6d3f91e3be14af53..12234a4c055664712312c284ce500a2a019c119a 100644 --- a/lib_com/mslvq_com.c +++ b/lib_com/mslvq_com.c @@ -38,10 +38,8 @@ #include "options.h" #include "cnst.h" #include "rom_com.h" -#include "prot.h" -#include "wmc_auto.h" -#include "ivas_prot.h" #include "prot_fx.h" +#include "wmc_auto.h" #include "ivas_prot_fx.h" /*-----------------------------------------------------------------* @@ -76,10 +74,10 @@ static void make_offset_scale( void create_offset( UWord32 *offset_scale1, UWord32 *offset_scale2, - const int16_t mode, - const int16_t prediction_flag ) + const Word16 mode, + const Word16 prediction_flag ) { - int16_t tmp, tmp1; + Word16 tmp, tmp1; if ( prediction_flag == 0 ) { diff --git a/lib_com/mslvq_com_fx.c b/lib_com/mslvq_com_fx.c index 14c9b6d975f6281f36c620fe66b88bfece809c52..cf2ad8a8a0df8a9294e4f0a13f57664441b19676 100644 --- a/lib_com/mslvq_com_fx.c +++ b/lib_com/mslvq_com_fx.c @@ -31,7 +31,6 @@ *******************************************************************************************************/ #include "options.h" -#include "prot.h" #include "prot_fx.h" #include "ivas_cnst.h" #include "stl.h" @@ -122,9 +121,33 @@ void init_lvq_fx( ) { Word16 i, j; +#ifdef OPT_STEREO_32KBPS_V1 + Word16 k; +#endif /* OPT_STEREO_32KBPS_V1 */ /* safety-net mode */ FOR( i = 0; i < MAX_NO_MODES; i++ ) { +#ifdef OPT_STEREO_32KBPS_V1 + FOR( ( j = 0, k = 0 ); j < MAX_NO_SCALES; ( j++, k++ ) ) + { + if ( ( no_lead_fx[i][j] <= 0 ) ) + { + j = MAX_NO_SCALES; + } + } + no_scales[i][0] = k; + move16(); + + FOR( k = 0; j < MAX_NO_SCALES << 1; ( j++, k++ ) ) + { + if ( no_lead_fx[i][j] <= 0 ) + { + j = MAX_NO_SCALES << 1; + } + } + no_scales[i][1] = k; + move16(); +#else /* OPT_STEREO_32KBPS_V1 */ j = 0; move16(); test(); @@ -143,10 +166,35 @@ void init_lvq_fx( } no_scales[i][1] = sub( j, MAX_NO_SCALES ); move16(); +#endif /* OPT_STEREO_32KBPS_V1 */ } /* predictive mode */ FOR( i = 0; i < MAX_NO_MODES_p; i++ ) { +#ifdef OPT_STEREO_32KBPS_V1 + FOR( ( j = 0, k = 0 ); j < MAX_NO_SCALES; ( j++, k++ ) ) + { + + if ( ( no_lead_p_fx[i][j] <= 0 ) ) + { + j = MAX_NO_SCALES; + } + } + no_scales_p[i][0] = k; + move16(); + + FOR( k = 0; j < MAX_NO_SCALES << 1; ( j++, k++ ) ) + { + + if ( ( no_lead_p_fx[i][j] <= 0 ) ) + { + j = MAX_NO_SCALES << 1; + } + } + + no_scales_p[i][1] = k; + move16(); +#else /* OPT_STEREO_32KBPS_V1 */ j = 0; move16(); WHILE( ( LT_16( j, MAX_NO_SCALES ) ) && ( no_lead_p_fx[i][j] > 0 ) ) @@ -165,6 +213,7 @@ void init_lvq_fx( } no_scales_p[i][1] = sub( j, MAX_NO_SCALES ); move16(); +#endif /* OPT_STEREO_32KBPS_V1 */ } /* index offsets for each truncation */ init_offset_fx( offset_scale1, offset_scale2, offset_scale1_p, offset_scale2_p, no_scales, no_scales_p ); @@ -412,12 +461,10 @@ static Word16 decode_indexes_ivas_fx( IF( index[i] < 0 ) { set16_fx( x_lvq, 0, 2 * LATTICE_DIM ); -#ifdef MSAN_FIX scales_mslvq[0] = 0; move16(); scales_mslvq[1] = 0; move16(); -#endif index[i] = 0; return 1; } @@ -442,10 +489,8 @@ static Word16 decode_indexes_ivas_fx( FOR( i = 0; i < LATTICE_DIM; i++ ) { x_lvq[i] = 0; -#ifdef MSAN_FIX scales_mslvq[0] = 0; move16(); -#endif } } ELSE @@ -454,12 +499,10 @@ static Word16 decode_indexes_ivas_fx( { /* safety check in case of bit errors */ set16_fx( x_lvq, 0, 2 * LATTICE_DIM ); -#ifdef MSAN_FIX scales_mslvq[0] = 0; move16(); scales_mslvq[1] = 0; move16(); -#endif return 1; } @@ -500,10 +543,8 @@ static Word16 decode_indexes_ivas_fx( x_lvq[i] = 0; move16(); } -#ifdef MSAN_FIX scales_mslvq[1] = 0; move16(); -#endif } ELSE { diff --git a/lib_com/options.h b/lib_com/options.h index d351f1aa100e1bd441e1508da583c68f502fab27..bff4dcaad4a11ee2e62b0f03a76092cbeb3e9704 100755 --- a/lib_com/options.h +++ b/lib_com/options.h @@ -67,112 +67,22 @@ #define BASOP_NOGLOB_DECLARE_LOCAL #endif -#define IVAS_FLOAT_FIXED -#define IVAS_FLOAT_FIXED_CONVERSIONS /* Temporary macro to keep track of intermediate flt to fixed and fixed to flt conversions */ -#define MSAN_FIX -#define ISM_DISABLE -#define FIX_TMP_714 -#define BASOP_NOGLOB_TMP_715 -#define EVS_FUNC_MODIFIED -//#define EVS_FLOAT_ENC -#define IVAS_CNST -#define REMOVE_IVAS_UNUSED_PARAMETERS_WARNING /*temporary operation on unused EVS parameters to remove warnings, these parameters will be used in IVAS */ -#define MOD_BIT_ALLOC_ROM_TABLE /* Just to highlight modification in bit allocation table and to ensure these modifications doesn't affect EVS modes*/ -#define SIMPLIFY_CODE_BE // Simplify synthesis loop -#define CR_2109_to_2112_cd0_ce0 /* This is related to the CRs include in the 26.444 package of 21-12. Concerns lead_deindexing and */ -#define FIX_QMETADATA_PENALTY /* Nokia: transform penalty calculation in qmetadata into integer operations */ -#define FIX_1013_CRASH_HQ_CORE_DEC /* Ittiam: Saturation added on the lines of EVS */ -#define NONE_BE_FIX_BASOP_1044_OSBA_PRERENDER_MIX_GAINS /* DLB: adjust prerendering and mixing gain in OSBA encoder. This is fix to float codes*/ -#define NONBE_1233_HQ_CLASSIFIER_DIV_BY_ZERO /* Eri: issue 1233: Address possible division by zero in hf_spectrum_sparseness() */ -#define FIX_ISSUE_1062_AND_1068_TON_ENE_EST_FX -#define FIX_ISSUE_987 -#define FIX_1054_IF_ELSE_CMPLX /* VA: Fix 1054 incorrect counting of complexity when ELSE-IF sequence is encoutered in two functions */ -#define FIX_1052_COPY_CMPLX_DISCREPANCY /* VA: modify IF-ELSE statements used in Copy*() functions to avoid dependency on x[] and y[] in RAM */ -#define FIX_1049_SHR_RO_COMPLEXITY /* VA: fix for issue 1049: incorrect counting of complexity in the shr_ro() function */ -#define NONBE_IMPROVE_DIRAC_INTENSITY_PREC -#define FIX_1103_OPT_L_NORM_ARR /* FhG: Optimize L_norm_arr(), avoid IF */ -#define FIX_1105_OPT_MINIMUM_SL /* FhG: Optimize minimum_s(), minimum_l(), avoid IF */ -#define FIX_1104_OPT_GETMINSCALEFAC /* FhG: Optimize get_min_scalefactor(), avoid IF */ -#define FIX_1106_SIMPLIFY_SET32FX /* FhG: simplify set32_fx() */ -#define FIX_1107_VADDINC /* FhG: Optimize v_add_inc_fx() for most frequent case */ -#define FIX_1009_OPT_PARAMMC_RENDER /* FhG: Optimize ivas_param_mc_dec_render_fx() */ -#define FIX_1109_OPTIM_MCT_STEREO_IGF_DEC /* FhG: optimize mctStereoIGF_dec_fx() */ -#define FIX_1110_OPTIM_DIRAC_DECORR_PROC /* FhG: optimize ivas_dirac_dec_decorr_process() */ -#define FIX_1127_IMPROVE_SBA_MLD /* Ittiam: Avoid saturation for DiRAC reference power */ -#define FIX_1100_REMOVE_LPC_RESCALING /* VA: Remove the rescaling of LPC coefficient to Q12 as residu and syn-filt are already taking care of it*/ -#define FIX_1133_IMPROVE_MC_MLD /* Ittiam: Correcting wrong updation of exponents in ivas_mc_paramupmix_param_est_enc_fx() */ -#define FIX_ISSUE_1122 /* Ittiam: Fix issue 1122: corrected incorrect scaling of a buffer leading to incorrect metadata bits */ -#define FIX_ISSUE_1125 /* Ittiam: Fix issue 1125: interfering talker flag not triggered on short test vector */ -#define FIX_1132_STACK_CORRUPTION /* Stack corruption issue due of extending index access*/ -#define FIX_ISSUE_1092 /* Ittiam: Fix for Issue 1092: BASOP asserts in stereo fx encoder for selection test inputs*/ -#define FIX_ISSUE_1135 /* Ittiam: Fix for Issue 1135: downmixing difference between float and fixed-point (DFT - stereo) */ -#define FIX_ISSUE_1148 -#define FIX_ISSUE_1147 /* Ittiam: Fix for issue 1147: Added saturation in DetectTnsFilt_fx.*/ -#define FIX_ISSUE_1150 /* Ittiam: Fix for Issue 1150: Assertion error observed in evs_enc_fx (with option stereo_dmx_evs) from tcx_ltp_find_gain function*/ -#define FIX_ISSUE_1151 /* Ittiam: Fix for Issue 1151: Assertion error observed in evs_enc_fx (with option stereo_dmx_evs) from sp_mus_classif_gmm_fx function*/ -#define FIX_ISSUE_1153 /* Ittiam: Fix for Issue 1153: Assertion error observed in stereo_dmx_evs_enc_fx from calc_poc_fx function*/ -#define FIX_ISSUE_1154 /* Ittiam: Fix for Issue 1154: Encoder crash for ParamMC 7.1 at 96kbps in ivas_param_mc_param_est_enc_fx() */ -#define FIX_ISSUE_1157 /* Ittiam: Fix for Issue 1157: Encoder crash for Stereo at 48/64kbps DTX on/off in kernel_switch_trafo_fx() */ -#define FIX_ISSUE_1152 /* Ittiam: Fix for issue 1152: Assertion error observed in evs_enc_fx (with option stereo_dmx_evs) from find_tilt_fx function*/ -#define FIX_ISSUE_1156 /* Ittiam: Fix for Issue 1156: Encoder crash for Stereo at 32kbps in SWB_BWE_encoding_ivas_fx() */ -#define FIX_DISCLAIMER /* VA: Add disclaimer for external renderer + Add info about IVAS reference version (FLP issue 1225) */ -#define FIX_ISSUE_1167 /* Ittiam: Fix for Issue 1167: Encoder crash for OSBA ISM3SBA1 at 13.2 and 16.4 kbps in gauss_L2_ivas_fx() */ -#define FIX_1009_REPLACE_DIV_SQRT_BY_ISQRT_LC /* FhG: Reduce workload of binaural rendering: replace 1./tmp & sqrt by Isqrt32 */ -#define FIX_1113_OPT_DIRAC_BIN_REND /* FhG: Various optimizations to ivas_dirac_dec_binaual_functions.c */ -#define FIX_ISSUE_1187 /* Ittiam: Fix for issue 1187: Assertion error observed in evs_enc_fx (with option stereo_dmx_evs) from bass_pf_enc_fx function*/ -#define FIX_ISSUE_1186 /* Ittiam: Fix for Issue 1186: Energy/scaling issue for ISM-1 at all bitrates */ -#define FIX_ISSUE_1165 /* Ittiam: Fix for issue 1165: Assertion in lpc2lsp_fx for OMASA LTV input */ -#define FIX_ISSUE_1185 /* Ittiam: Fix for issue 1185: Assertion in ivas_dirac_dec_binaural_internal_fx() for crash in decoder in fft30_with_cmplx_data()*/ -#define FIX_ISSUE_1209 /* Ittiam: Fix for issue 1209: Assertion exit in BASOP encoder (stereo_dmx_evs)*/ -#define FIX_ISSUE_1218 /* Ittiam: Fix for issue 1218: Assert in stereo_dft_generate_comfort_noise_fx of BASOP decoder with BASOP MASA DTX bitstream at 32 kbps*/ -#define FIX_ISSUE_1290 /* Ittiam: Fix for issue 1218: Assert in stereo_dft_generate_comfort_noise_fx of BASOP decoder with BASOP MASA DTX bitstream at 32 kbps*/ -#define IVAS_ISSUE_1188_EVS_CRASH /* Ittiam: Fix for issue 1188: Issue due to ASAN */ -#define FIX_ISSUE_1155 /* Ittiam: Fix for issue 1155: Encoder crash for Stereo at 32kbps in PostShortTerm_ivas_enc_fx()*/ -#define FIX_1010_OPT_DIV /* FhG: SVD complexity optimizations (non-be) */ -#define FIX_1010_OPT_SINGLE_RESCALE /* FhG: SVD complexity optimizations (non-be) */ -#define FIX_1010_OPT_GIVENS /* FhG: SVD complexity optimizations (non-be) */ -#define FIX_1010_OPT_GIVENS_INV /* FhG: SVD complexity optimizations (non-be) */ -#define FIX_1010_OPT_NORM_NOSAT /* FhG: SVD complexity optimizations (non-be) */ -#define FIX_1010_OPT_SEC_SINGLE_RESCALE /* FhG: SVD complexity optimizations (non-be) */ -#define FIX_1072_SPEEDUP_matrixTransp2Mul_fx /* FhG: complexity optimization (non-be) */ -#define FIX_1072_REDUCE_DIVS /* FhG: complexity optimization (non-be) */ -#define FIX_ISSUE_1230 /* Ittiam: Fix for issue 1230: Basop Enc audible differences and distortion @16kbps */ -#define NONBE_1211_DTX_BR_SWITCHING /* VA: port float issue 1211: fix crash in MASA DTX bitrate switching */ -#define FIX_1189_GSC_IVAS_OMASA /* VA: Fix for issue 1189: Bitstream desynchornization due to reading/writing of the GSC_IVAS_mode parameter */ -#define NONBE_1273_ISM_METADATA_COUNTER /* VA: BASOP issue 1265, FLP issue 1273: fix counter overflow in ISM metadata encoder */ -#define NONBE_FIX_GSC_BSTR /* VA: issue 1264 FLP (1189 BASOP): Fix bitstream synchronization between encoder and decoder in ACELP GSC in OMASA */ -#define FIX_1101_IVAS_SPAR_DEC_UPMIXER_SF /* FhG: fix for issue 1101: complexity of spar dec upmixer */ -/* Note: each compile switch (FIX_1101_...) is independent from the other ones */ -#define FIX_1101_IVAS_SPAR_DEC_UPMIXER_SF_USE_MADD_ADD_WEIGHTS /* FhG: Defines 1.0f-weight variables, uses Madd operation instead of L_add_sat */ -#define FIX_1101_IVAS_SPAR_DEC_UPMIXER_SF_SPLIT_LOOPS /* FhG: Splits single loop with IF-statements into two low-complex loops */ -#define FIX_1101_IVAS_SPAR_DEC_UPMIXER_SF_HQ_CONSTANTS /* FhG: IMPROVE PRECISION: Uses 1/6 and 1/20 in full-precise Q31 constants instead of Q15 */ -#define FIX_1101_IVAS_SPAR_DEC_UPMIXER_SF_USE_UNIQUE_SHL /* FhG: Uses unique shift amount in each loop iteration */ -#define FIX_11_1_IVAS_SPAR_DEC_UPMIXER_SF_RND_COEFFS /* FhG ivas_spar_com.c: Zeroes very small negative coeffs via L_shr_r (was L_shr) */ -#define FIX_ISSUE_1237 /* VA: replacement of Copy_Scale_sig_16_32_DEPREC() that are doing 16 bits left shift by Copy_Scale_sig_16_32_no_sat() */ -#define FIX_ISSUE_1237_KEEP_EVS_BE /* VA: Fix to keep EVS bitexactness to 26.444 */ -#define FIX_ISSUE_1214 /* Ittiam: Fix for issue 1214: Energy leakage in IGF tiles for MDCT-stereo @64kbps SWB*/ -#define FIX_881_HILBERT_FILTER /* VA: improve the precision of the Hilbert filter to remove 2kHz unwanted tone */ -#define FIX_ISSUE_1245 /* Ittiam: Fix for issue 1245: Basop Encoder: Audible noise for silent Stereo input DTX on @24.4 kbps, @32 kbps*/ -#define FIX_ISSUE_1291 /* Ittiam: Wrong use of imult1616() in ACELP rescaling */ -#define FIX_920_IGF_INIT_ERROR /* FhG: issue 920: fix bitrate mismatch in initial IGF config to avoid error message in same cases */ -#define FIX_MINOR_SVD_WMOPS_MR1010X /* FhG: Minor WMOPS tuning, bit-exact to previous version, saves about 8.2 WMOPS for MR1010 */ -#define FIX_USAN_ISSUES /* Ittiam: Fix issues reported by USAN */ -#define SVD_WMOPS_OPT /* Ittiam : SVD related optimizations */ -#define NONBE_FIX_1087_OOB_SBA_DTX_RS /* VA: issue 1087: Extend the length of the buffer for MCT decoding to avoid out-of-bound writing in SBA SID bitrate switching decoding */ -#define FIX_ISSUE_1279 /* VA: correction of wrong scaling update */ -#define FIX_ISSUE_1247 -#define NONBE_FIX_1087_OOB_SBA_DTX_RS /* VA: issue 1087: Extend the length of the buffer for MCT decoding to avoid out-of-bound writing in SBA SID bitrate switching decoding */ -#define FIX_1285_DECODER_CRASH -#define FIX_1072_SPEEDUP_gainpanning /* FhG: Minor WMOPS tuning, nonbe */ -#define FIX_1072_SPEEDUP_COMPUTEDIFUSENESS /* FhG: Minor WMOPS tuning, nonbe */ -#define FIX_1320_LOWRATE_ACELP -#define FIX_1297_OVERFLOW /* VA: fixes issue with overflows in pre-processing */ -#define FIX_1298 /* VA: fix possible assert in gaus_enc */ -#define FIX_1300_ICA_SHIFT_QUANT_IMPROV /* VA: Fix to 1300 to improve precision of the lag quantizer */ -#define FIX_1301_CORRECT_TD_CNST /* VA: Fix 1301, correct wrong constant in TD stereo */ -#define NONBE_FIX_1277_EVS_DTX_HIGH_RATE_THRESHOLD /* VA/Eri: FLP issue 1277: Fix Mismatch in DTX high-rate threshold between EVS float and BASOP */ -#define NONBE_FIX_708_OSBA_BR_SWITCHING_CRASH /* FhG: issue 708: fix crash in OSBA BR switching with long test vectors */ - +#define FIX_867_CLDFB_NRG_SCALE + +#define FIX_1378_ACELP_OUT_OF_BOUNDS + +//#define OPT_STEREO_32KBPS_V1 /* Optimization made in stereo decoding path for 32kbps decoding */ +#define OPT_AVOID_STATE_BUF_RESCALE /* Optimization made to avoid rescale of synth state buffer */ +#define FIX_1310_SPEEDUP_ivas_dirac_dec_get_response_fx /*FhG: WMOPS tuning, nonbe*/ +#define FIX_1310_SPEEDUP_ivas_dirac_dec_output_synthesis_process_slot /*FhG: WMOPS tuning, nonbe*/ +/* Both following 2 macros (IMPROVE_HIGH_COMPLEXITY_PARAM_MC_PRM_EST*) are independent from each other, they refer to different code blocks */ +#define IMPROVE_HIGH_COMPLEXITY_PARAM_MC_PRM_EST_BE /* FhG: reduces WMOPS of param_mc_prm_est, bit-exact to previous version */ +//#define IMPROVE_HIGH_COMPLEXITY_PARAM_MC_PRM_EST_NONBE /* FhG: reduces WMOPS of param_mc_prm_est, not bit-exact to previous version. Obsoleted by MERGE_REQUEST_1378_SPEEDUP_ivas_mc_param_enc_fx_NONBE. */ +#define HARM_PUSH_BIT +#define HARM_ENC_INIT +//#define HARM_SCE_INIT +#define DIV32_OPT_NEWTON /* FhG: faster 32 by 32 bit division */ +#define MERGE_REQUEST_1378_SPEEDUP_ivas_mc_param_enc_fx_NONBE /* FhG: reduce WMOPS of Cy calculation in ivas_param_mc_param_est_enc_fx() by using 64 Bit addition. Obsoletes IMPROVE_HIGH_COMPLEXITY_PARAM_MC_PRM_EST_NONBE. */ /* #################### Start BASOP porting switches ############################ */ @@ -180,9 +90,17 @@ #ifdef SPLIT_REND_WITH_HEAD_ROT #define SPLIT_REND_POSE_CORRECTION_UNUSED_BITS #define ISAR_BITSTREAM_UPDATE_LC3PLUS /* FhG: Multiple improvements to the ISAR bitstream when LC3plus is used. See MR 1456 for details. */ +#define FIX_1372_ISAR_POST_REND #endif +#define NONBE_FIX_1058_DECODER_ERROR_WITH_REVERB_ROOM /* FhG: issue 1058: do not initialize EFAP when IntSetup is HOA3 */ +#define NONBE_FIX_952_MC_PARAMUPMIX_5MS /* Dlb : issue 952 : Differences between 5ms and 20ms rendering for ParamUpmix*/ +#define NONBE_FIX_935_EARLY_REFLECTIONS_WRONG_ORDER /* Qualcomm: issue 953: fix order or ER channels in LC mode*/ +#define FIX_955_FASTCONV_REND_IN_ISM /* VA: put FastConv rendering call under DEBUGGING */ +#define NONBE_FIX_967_ISM_MONO_DMX /* FhG: issue 967: accumulating energies in ISM mono DMX */ #define FIX_959_MASA_LINEAR_REND /* VA: issue 959: remove unused calling of ivas_sba_linear_renderer() in MASA rendering */ +#define NONBE_FIX_968_ISM_BRIR_WITH_HEADROTATION_5MS_FIX /* FhG : issue #968: differences between 5ms and 20ms rendering for discrete ISM with BRIR and head rotation*/ + /* #################### End BASOP porting switches ############################ */ #endif diff --git a/lib_com/parameter_bitmaping_fx.c b/lib_com/parameter_bitmaping_fx.c index 180275d8fa5a74888eac160af018d1e3936fa3a1..92387209012c8cd2dfd7a6bacdb30ab3903715ad 100644 --- a/lib_com/parameter_bitmaping_fx.c +++ b/lib_com/parameter_bitmaping_fx.c @@ -21,7 +21,7 @@ static Word16 PutIntoBitstream_fx( value = *( *pStream )++; codedValue = EncodeValue( value, index ); - push_next_indice_fx( hBstr, codedValue, nBits ); + push_next_indice( hBstr, codedValue, nBits ); return value; } @@ -58,15 +58,15 @@ static Word16 FixedWidthEncoding( Word16 value, Word16 index ) void GetParameters( ParamsBitMap const *paramsBitMap, - const int16_t nArrayLength, + const Word16 nArrayLength, void const *pParameter, - int16_t **pStream, - int16_t *pnSize, - int16_t *pnBits ) + Word16 **pStream, + Word16 *pnSize, + Word16 *pnBits ) { - int16_t index; - int16_t iParam, nParams; - int16_t value; + Word16 index; + Word16 iParam, nParams; + Word16 value; void const *pSubStruct; assert( ( paramsBitMap != NULL ) && ( nArrayLength > 0 ) && ( pParameter != NULL ) && ( pStream != NULL ) && ( pnSize != NULL ) && ( pnBits != NULL ) ); @@ -168,14 +168,14 @@ void GetParameters_fx( void SetParameters( ParamsBitMap const *paramsBitMap, - const int16_t nArrayLength, + const Word16 nArrayLength, void *pParameter, - const int16_t **pStream, - int16_t *pnSize ) + const Word16 **pStream, + Word16 *pnSize ) { - int16_t index; - int16_t iParam, nParams; - int16_t value; + Word16 index; + Word16 iParam, nParams; + Word16 value; void *pSubStruct; assert( ( paramsBitMap != NULL ) && ( nArrayLength > 0 ) && ( pParameter != NULL ) && ( pStream != NULL ) && ( pnSize != NULL ) ); diff --git a/lib_com/preemph.c b/lib_com/preemph.c index 490a18aef187ffac1e65529de8eee2cbe3b3a3d1..9ebc0f72a81c39542312ff9e6bbd3d76b5a49197 100644 --- a/lib_com/preemph.c +++ b/lib_com/preemph.c @@ -36,7 +36,7 @@ #include #include "options.h" -#include "prot.h" +#include "prot_fx.h" #include "wmc_auto.h" /*-------------------------------------------------------------* diff --git a/lib_com/prot.h b/lib_com/prot.h deleted file mode 100644 index 16f4659a049c5ed94b4ab49b59571b7e5e3ff5a3..0000000000000000000000000000000000000000 --- a/lib_com/prot.h +++ /dev/null @@ -1,8339 +0,0 @@ -/****************************************************************************************************** - - (C) 2022-2025 IVAS codec Public Collaboration with portions copyright Dolby International AB, Ericsson AB, - Fraunhofer-Gesellschaft zur Foerderung der angewandten Forschung e.V., Huawei Technologies Co. LTD., - Koninklijke Philips N.V., Nippon Telegraph and Telephone Corporation, Nokia Technologies Oy, Orange, - Panasonic Holdings Corporation, Qualcomm Technologies, Inc., VoiceAge Corporation, and other - contributors to this repository. All Rights Reserved. - - This software is protected by copyright law and by international treaties. - The IVAS codec Public Collaboration consisting of Dolby International AB, Ericsson AB, - Fraunhofer-Gesellschaft zur Foerderung der angewandten Forschung e.V., Huawei Technologies Co. LTD., - Koninklijke Philips N.V., Nippon Telegraph and Telephone Corporation, Nokia Technologies Oy, Orange, - Panasonic Holdings Corporation, Qualcomm Technologies, Inc., VoiceAge Corporation, and other - contributors to this repository retain full ownership rights in their respective contributions in - the software. This notice grants no license of any kind, including but not limited to patent - license, nor is any license granted by implication, estoppel or otherwise. - - Contributors are required to enter into the IVAS codec Public Collaboration agreement before making - contributions. - - This software is provided "AS IS", without any express or implied warranties. The software is in the - development stage. It is intended exclusively for experts who have experience with such software and - solely for the purpose of inspection. All implied warranties of non-infringement, merchantability - and fitness for a particular purpose are hereby disclaimed and excluded. - - Any dispute, controversy or claim arising under or in relation to providing this software shall be - submitted to and settled by the final, binding jurisdiction of the courts of Munich, Germany in - accordance with the laws of the Federal Republic of Germany excluding its conflict of law rules and - the United Nations Convention on Contracts on the International Sales of Goods. - -*******************************************************************************************************/ - -/*==================================================================================== - EVS Codec 3GPP TS26.443 Nov 04, 2021. Version 12.14.0 / 13.10.0 / 14.6.0 / 15.4.0 / 16.3.0 - ====================================================================================*/ - -#ifndef PROT_H -#define PROT_H - -#include -#include -#include -#include "options.h" -#include "typedef.h" -#include "stat_enc.h" -#include "stat_dec.h" -#include "stat_com.h" -#include "ivas_stat_com.h" -#include "ivas_stat_enc.h" -#include "ivas_stat_dec.h" -#include "cnst.h" -#include "stl.h" -#include "ivas_error_utils.h" - - -/*----------------------------------------------------------------------------------* - * Prototypes of global macros - *----------------------------------------------------------------------------------*/ - -#ifndef min -#define min( x, y ) ( ( x ) < ( y ) ? ( x ) : ( y ) ) -#endif - -#ifndef max -#define max( x, y ) ( ( x ) > ( y ) ? ( x ) : ( y ) ) -#endif - -#ifndef TRUNC -#define TRUNC( x ) ( (int16_t) ( ( ( x ) >= 32767. ? 32767 : ( ( x ) <= -32768. ? -32768 : ( x ) ) ) + 0.5 ) ) -#endif - -#define log_base_2( x ) ( (double) log( (double) ( x ) ) * 1.4426950408889634074f ) -#define round_f( x ) ( ( ( x ) > 0 ) ? (int32_t) ( ( x ) + 0.5f ) : ( -(int32_t) ( ( -x ) + 0.5f ) ) ) - -#ifndef ABSVAL -#define ABSVAL( a ) ( ( a ) >= 0 ? ( a ) : ( -( a ) ) ) -#endif - -#ifndef SQR -#define SQR( a ) ( ( a ) * ( a ) ) -#endif - -#ifndef SWAP -#define SWAP( a, b ) \ - { \ - tempr = ( a ); \ - ( a ) = ( b ); \ - ( b ) = tempr; \ - } -#endif - -#ifndef swap -#define swap( x, y, type ) \ - { \ - type u__p; \ - u__p = x; \ - x = y; \ - y = u__p; \ - } -#endif - -#define set_max( a, b ) \ - { \ - if ( ( b ) > *a ) \ - { \ - *a = ( b ); \ - } \ - } /* If the first argument is already the highes or lowest, nothing is done. */ -#define set_min( a, b ) \ - { \ - if ( ( b ) < *a ) \ - { \ - *a = ( b ); \ - } \ - } /* Otherwise, the 2nd arg is stored at the address of the first arg. */ - - -/*----------------------------------------------------------------------------------* - * MODE1 prototypes - *----------------------------------------------------------------------------------*/ - -/*! r: inverse square root of input value */ -float inv_sqrt( - const float x /* i : input value */ -); - -/*! r: output random value */ -int16_t own_random( - int16_t *seed /* i/o: random seed */ -); - -/*! r: sign of x (+1/-1) */ -float sign( - const float x /* i : input value of x */ -); - -/*! r: logarithm2 of x */ -float log2_f( - const float x /* i : input value of x */ -); - -int16_t norm_ul_float( - uint32_t UL_var1 ); - -/*! r: sum of all vector elements */ -int16_t sum_s( - const int16_t *vec, /* i : input vector */ - const int16_t lvec /* i : length of input vector */ -); - -/*! r: sum of all vector elements */ -int32_t sum_l( - const int32_t *vec, /* i : input vector */ - const int16_t lvec /* i : length of input vector */ -); - -/*! r: sum of all vector elements */ -float sum_f( - const float *vec, /* i : input vector */ - const int16_t lvec /* i : length of input vector */ -); - -/*! r: sum of all squared vector elements */ -float sum2_f( - const float *vec, /* i : input vector */ - const int16_t lvec /* i : length of input vector */ -); - -void set_c( - int8_t y[], /* i/o: Vector to set */ - const int8_t a, /* i : Value to set the vector to */ - const int32_t N /* i : Length of the vector */ -); - -void set_s( - int16_t y[], /* i/o: Vector to set */ - const int16_t a, /* i : Value to set the vector to */ - const int16_t N /* i : Lenght of the vector */ -); - -void set_l( - int32_t y[], /* i/o: Vector to set */ - const int32_t a, /* i : Value to set the vector to */ - const int16_t N /* i : Length of the vector */ -); - -void set_f( - float y[], /* i/o: Vector to set */ - const float a, /* i : Value to set the vector to */ - const int16_t N /* i : Lenght of the vector */ -); - -void set_zero_fx( - Word32 *vec, /* o : input vector */ - const Word16 lvec /* i : length of the vector */ -); -void set_zero2_fx( - Word32 *vec, /* o : input vector */ - const Word32 lvec /* i : length of the vector */ -); -void set16_zero_fx( - Word16 *vec, /* o : input vector */ - const Word16 lvec /* i : length of the vector */ -); - -void set_zero( - float *vec, /* o : input vector */ - const int16_t lvec /* i : length of the vector */ -); - -void mvr2r( - const float x[], /* i : input vector */ - float y[], /* o : output vector */ - const int16_t n /* i : vector size */ -); - -void mvs2s( - const int16_t x[], /* i : input vector */ - int16_t y[], /* o : output vector */ - const int16_t n /* i : vector size */ -); - -uint32_t mvr2s( - const float x[], /* i : input vector */ - int16_t y[], /* o : output vector */ - const int16_t n /* i : vector size */ -); - -void mvs2r( - const int16_t x[], /* i : input vector */ - float y[], /* o : output vector */ - const int16_t n /* i : vector size */ -); - -void mvl2l( - const int32_t x[], /* i : input vector */ - int32_t y[], /* o : output vector */ - const int16_t n /* i : vector size */ -); - - -/*! r: index of the maximum value in the input vector */ -int16_t maximum( - const float *vec, /* i : input vector */ - const int16_t lvec, /* i : length of input vector */ - float *max_val /* o : maximum value in the input vector */ -); -/*! r: index of the maximum value in the input vector */ -int16_t maximumAbs( - const float *vec, /* i : input vector */ - const int16_t lvec, /* i : length of input vector */ - float *max_val /* o : maximum value in the input vector */ -); - -Word16 maximumAbs_l( - const Word32 *vec, /* i : input vector */ - const Word16 lvec, /* i : length of input vector */ - Word32 *max_val /* o : maximum value in the input vector */ -); - -/*! r: index of the minimum value in the input vector */ -int16_t minimum( - const float *vec, /* i : input vector */ - const int16_t lvec, /* i : length of input vector */ - float *min_val /* o : minimum value in the input vector */ -); - -/*! r: index of the minimum value in the input vector */ -int16_t minimum_s( - const int16_t *vec, /* i : Input vector */ - const int16_t lvec, /* i : Vector length */ - int16_t *min_val /* o : minimum value in the input vector */ -); - -/*! r: return index with max energy value in vector */ -int16_t emaximum( - const float *vec, /* i : input vector */ - const int16_t lvec, /* i : length of input vector */ - float *ener_max /* o : maximum energy value */ -); - -/*! r: vector mean */ -float mean( - const float *vec, /* i : input vector */ - const int16_t lvec /* i : length of input vector */ -); - -/*! r: dot product of x[] and y[] */ -float dotp( - const float x[], /* i : vector x[] */ - const float y[], /* i : vector y[] */ - const int16_t n /* i : vector length */ -); - -void conv( - const float x[], /* i : input vector */ - const float h[], /* i : impulse response (or second input vector) */ - float y[], /* o : output vetor (result of convolution) */ - const int16_t L /* i : vector size */ -); - -void fir( - const float x[], /* i : input vector */ - const float h[], /* i : impulse response of the FIR filter */ - float y[], /* o : output vector (result of filtering) */ - float mem[], /* i/o: memory of the input signal (M samples) */ - const int16_t L, /* i : input vector size */ - const int16_t K, /* i : order of the FIR filter (M+1 coefs.) */ - const int16_t upd /* i : 1 = update the memory, 0 = not */ -); - -void v_add( - const float x1[], /* i : Input vector 1 */ - const float x2[], /* i : Input vector 2 */ - float y[], /* o : Output vector that contains vector 1 + vector 2 */ - const int16_t N /* i : Vector length */ -); - -void v_sub( - const float x1[], /* i : Input vector 1 */ - const float x2[], /* i : Input vector 2 */ - float y[], /* o : Output vector that contains vector 1 - vector 2 */ - const int16_t N /* i : Vector length */ -); - -void v_mult( - const float x1[], /* i : Input vector 1 */ - const float x2[], /* i : Input vector 2 */ - float y[], /* o : Output vector that contains vector 1 .* vector 2*/ - const int16_t N /* i : Vector length */ -); - -void v_multc( - const float x[], /* i : Input vector */ - const float c, /* i : Constant */ - float y[], /* o : Output vector that contains c*x */ - const int16_t N /* i : Vector length */ -); - -/*! r: index of the winning codeword */ -int16_t squant( - const float x, /* i : scalar value to quantize */ - float *xq, /* o : quantized value */ - const float cb[], /* i : codebook */ - const int16_t cbsize /* i : codebook size */ -); - -int16_t squant_int( - uint8_t x, /* i : scalar value to quantize */ - uint8_t *xq, /* o : quantized value */ - const uint8_t *cb, /* i : codebook */ - const int16_t cbsize /* i : codebook size */ -); - -/*! r: index of the winning codevector */ -int16_t vquant( - float x[], /* i : vector to quantize */ - const float x_mean[], /* i : vector mean to subtract (0 if none) */ - float xq[], /* o : quantized vector */ - const float cb[], /* i : codebook */ - const int16_t dim, /* i : dimension of codebook vectors */ - const int16_t cbsize /* i : codebook size */ -); - -/*! r: index of the winning codevector */ -int16_t w_vquant( - float x[], /* i : vector to quantize */ - const float x_mean[], /* i : vector mean to subtract (0 if none) */ - const int16_t weights[], /* i : error weights */ - float xq[], /* o : quantized vector */ - const float cb[], /* i : codebook */ - const int16_t dim, /* i : dimension of codebook vectors */ - const int16_t cbsize, /* i : codebook size */ - const int16_t reverse /* i : reverse codebook vectors */ -); - -/*! r: index of the winning codeword */ -int16_t usquant( - const float x, /* i : scalar value to quantize */ - float *xq, /* o : quantized value */ - const float qlow, /* i : lowest codebook entry (index 0) */ - const float delta, /* i : quantization step */ - const int16_t cbsize /* i : codebook size */ -); - -/*! r: dequanzited gain */ -float usdequant( - const int16_t idx, /* i : quantizer index */ - const float qlow, /* i : lowest codebook entry (index 0) */ - const float delta /* i : quantization step */ -); - -void v_sort_float( - float *r, /* i/o: Vector to be sorted in place */ - const int16_t lo, /* i : Low limit of sorting range */ - const int16_t up /* i : High limit of sorting range */ -); - -void sort( - uint16_t *x, /* i/o: Vector to be sorted */ - uint16_t len /* i/o: vector length */ -); - -void sort_l( - Word32 *x, /* i/o: Vector to be sorted */ - Word16 len /* i/o: vector length */ -); - -/*! r: variance of vector */ -float var( - const float *x, /* i : input vector */ - const int16_t len /* i : length of inputvector */ -); - -/*! r: standard deviation */ -float std_dev( - const float *x, /* i : input vector */ - const int16_t len /* i : length of the input vector */ -); - -/*! r: the dot product x'*A*x */ -float dot_product_mat( - const float *x, /* i : vector x */ - const float *A, /* i : matrix A */ - const int16_t m /* i : vector length */ -); - -float root_a( - float a ); - -float root_a_over_b( - float a, - float b ); - -void polezero_filter( - const float *in, /* i : input vector */ - float *out, /* o : output vector */ - const int16_t N, /* i : input vector size */ - const float *b, /* i : numerator coefficients */ - const float *a, /* i : denominator coefficients */ - const int16_t order, /* i : filter order */ - float *mem /* i/o: filter memory */ -); - -double rint_new( - double x /* i/o: Round to the nearest integer with mid point exception */ -); - -double anint( - double x /* i/o: Round to the nearest integer */ -); - -/*! r: Output either 1 if Numeric, 0 if NaN or Inf */ -int16_t is_numeric_float( - float x /* i : Input value which is checked if numeric or not */ -); - -void delay_signal_float( - float x[], /* i/o: signal to be delayed */ - const int16_t len, /* i : length of the input signal */ - float mem[], /* i/o: synchronization memory */ - const int16_t delay /* i : delay in samples */ -); - -ivas_error push_indice( - BSTR_ENC_HANDLE hBstr, /* i/o: encoder bitstream handle */ - int16_t id, /* i : ID of the indice */ - uint16_t value, /* i : value of the quantized indice */ - int16_t nb_bits /* i : number of bits used to quantize the indice */ -); - -ivas_error push_next_indice( - BSTR_ENC_HANDLE hBstr, - UWord16 value, /* i : value of the quantized indice */ - Word16 nb_bits /* i : number of bits used to quantize the indice */ -); - -ivas_error push_next_bits( - BSTR_ENC_HANDLE hBstr, /* i/o: encoder bitstream handle */ - const UWord16 bits[], /* i : bit buffer to pack, sequence of single bits */ - const Word16 nb_bits /* i : number of bits to pack */ -); - -/*! r: maximum number of indices */ -Word16 get_ivas_max_num_indices_fx( - const IVAS_FORMAT ivas_format, /* i : IVAS format */ - const Word32 ivas_total_brate /* i : IVAS total bitrate */ -); - -/*! r: maximum number of indices */ -int16_t get_BWE_max_num_indices( - const int32_t extl_brate /* i : extensiona layer bitrate */ -); - -/*! r: maximum number of indices */ -Word16 get_ivas_max_num_indices_metadata_fx( - const IVAS_FORMAT ivas_format, /* i : IVAS format */ - const Word32 ivas_total_brate /* i : IVAS total bitrate */ -); -ivas_error ind_list_realloc( - INDICE_HANDLE old_ind_list, /* i : pointer to the beginning of the old buffer of indices */ - const int16_t max_num_indices, /* i : new maximum number of allowed indices in the list */ - Encoder_Struct *st_ivas /* i : IVAS encoder structure */ -); - -ivas_error check_ind_list_limits( - BSTR_ENC_HANDLE hBstr /* i/o: encoder bitstream handle */ -); - -void move_indices( - INDICE_HANDLE old_ind_list, /* i/o: old location of indices */ - INDICE_HANDLE new_ind_list, /* i/o: new location of indices */ - const int16_t nb_indices /* i : number of moved indices */ -); - -/*! r: index of the indice in the list, -1 if not found */ -int16_t find_indice( - BSTR_ENC_HANDLE hBstr, /* i : encoder bitstream handle */ - const int16_t id, /* i : ID of the indice */ - uint16_t *value, /* o : value of the quantized indice */ - int16_t *nb_bits /* o : number of bits used to quantize the indice */ -); - -/*! r: number of deleted indices */ -uint16_t delete_indice( - BSTR_ENC_HANDLE hBstr, /* i/o: encoder bitstream handle */ - const int16_t id /* i : ID of the indice */ -); - -/*! r: value of the indice */ -uint16_t get_next_indice( - Decoder_State *st, /* i/o: decoder state structure */ - int16_t nb_bits /* i : number of bits that were used to quantize the indice */ -); - -/*! r: value of the indice */ -uint16_t get_next_indice_1( - Decoder_State *st /* i/o: decoder state structure */ -); - -void get_next_indice_tmp( - Decoder_State *st, /* o : decoder state structure */ - int16_t nb_bits /* i : number of bits that were used to quantize the indice */ -); - -/*! r: value of the indice */ -uint16_t get_indice( - Decoder_State *st, /* i/o: decoder state structure */ - int16_t pos, /* i : absolute position in the bitstream */ - int16_t nb_bits /* i : number of bits that were used to quantize the indice */ -); - -/*! r: value of the indice */ -uint16_t get_indice_1( - Decoder_State *st, /* i/o: decoder state structure */ - int16_t pos /* i : absolute position in the bitstream */ -); - -void reset_indices_enc( - BSTR_ENC_HANDLE hBstr, /* i/o: encoder bitstream handle */ - const int16_t max_num_indices /* i : max number of indices */ -); - -void reset_indices_dec( - Decoder_State *st /* i/o: decoder state structure */ -); - -ivas_error write_indices_ivas( - Encoder_Struct *st_ivas, /* i/o: encoder state structure */ - uint16_t *bit_stream, /* i/o: output bitstream */ - uint16_t *num_bits /* i/o: number of bits written to output */ -); - -Word16 rate2EVSmode_float( - const Word32 brate, /* i : bitrate */ - int16_t *is_amr_wb /* o : (flag) does the bitrate belong to AMR-WB? Can be NULL */ -); - - -/*! r: 1 = OK, 0 = something wrong */ -ivas_error read_indices( - Decoder_Struct *st_ivas, /* i/o: IVAS decoder structure */ - uint16_t bit_stream[], /* i : bitstream buffer */ - UWord16 num_bits, /* i : number of bits in bitstream */ - int16_t *prev_ft_speech, - int16_t *CNG, - int16_t bfi /* i : bad frame indicator */ -); - - -void ivas_set_bitstream_pointers( - Decoder_Struct *st_ivas /* i/o: IVAS decoder structure */ -); - -Decoder_State **reset_elements( - Decoder_Struct *st_ivas /* i/o: IVAS decoder structure */ -); - - -void convertSerialToBytestream( - const uint16_t *const serial, /* i : input serial bitstream with values 0 and 1 */ - const uint16_t num_bits, /* i : number of bits in the input bitstream */ - uint8_t *const bytestream /* o : output compact bitstream (bytestream) */ -); - -void convertBytestreamToSerial( - const uint8_t *const bytestream, /* i : input compact bitstream (bytestream) */ - const uint16_t num_bits, /* i : number of bits in the input bitstream */ - uint16_t *const serial /* o : output serial bitstream with values 0 and 1 */ -); - -void mdct_switching_dec( - Decoder_State *st /* i/o: decoder state structure */ -); - -void evs_dec_previewFrame_float( - uint8_t *bitstream, /* i : bitstream pointer */ - int16_t bitstreamSize, /* i : bitstream size */ - int16_t *partialCopyFrameType, /* o : frame type of the partial copy */ - int16_t *partialCopyOffset /* o : offset of the partial copy relative to the primary copy */ -); - - -void getPartialCopyInfo_float( - Decoder_State *st, /* i : decoder state structure */ - int16_t *sharpFlag ); - -void get_NextCoderType( - uint8_t *bitstream, /* i : bitstream */ - int16_t *next_coder_type /* o : next coder type */ -); - -int16_t print_disclaimer( - FILE *fPtr ); - - -/*! r: delay value in ns */ -int32_t get_delay( - const int16_t enc_dec, /* i : encoder/decoder flag */ - const int32_t io_fs, /* i : input/output sampling frequency */ - const IVAS_FORMAT ivas_format, /* i : IVAS format */ - HANDLE_CLDFB_FILTER_BANK hCldfb /* i : Handle of Cldfb analysis */ -); - -void decision_matrix_enc( - Encoder_State *st, /* i/o: encoder state structure */ - int16_t *hq_core_type /* o : HQ core type */ -); - -void signaling_enc( - Encoder_State *st /* i : encoder state structure */ -); - -int16_t signaling_mode1_tcx20_enc( - Encoder_State *st, /* i/o: encoder state structure */ - const int16_t push /* i : flag to push indice */ -); - -void decision_matrix_dec( - Decoder_State *st, /* i/o: decoder state structure */ - int16_t *sharpFlag, /* o : formant sharpening flag */ - int16_t *hq_core_type, /* o : HQ core type */ - int16_t *core_switching_flag /* o : ACELP->HQ switching frame flag */ -); - - -void amr_wb_dec_init( - AMRWB_IO_DEC_HANDLE hAmrwb_IO /* i/o: AMR-WB IO data handle */ -); - -void hf_synth_amr_wb_init( - AMRWB_IO_DEC_HANDLE hAmrwb_IO /* i/o: AMR-WB IO data handle */ -); - -void hf_synth_amr_wb_reset( - AMRWB_IO_DEC_HANDLE hAmrwb_IO, /* i/o: AMR-WB IO data handle */ - ZERO_BWE_DEC_HANDLE hBWE_zero /* o : zero BWE decoder handle */ -); - -void hf_synth_amr_wb( - AMRWB_IO_DEC_HANDLE hAmrwb_IO, /* i/o: AMR-WB IO data handle */ - ZERO_BWE_DEC_HANDLE hBWE_zero, /* o : zero BWE decoder handle */ - const int32_t core_brate, /* i : core bitrate */ - const int16_t output_frame, /* i : output frame length */ - const float *Aq, /* i : quantized Az */ - const float *exc, /* i : excitation at 12.8 kHz */ - float *synth, /* i/o: synthesis signal at 12.8 kHz */ - int16_t *amr_io_class, /* i : signal class (determined by FEC algorithm) */ - float *synth_out, /* i/o: synthesis signal at output Fs */ - float fmerit, /* i : classify parameter from FEC */ - const int16_t *hf_gain, /* i : decoded HF gain */ - const float *voice_factors, /* i : voicing factors */ - const float pitch_buf[], /* i : pitch buffer */ - const float ng_ener_ST, /* i : Noise gate - short-term energy */ - const float *lsf_new /* i : ISF vector */ -); - -void hf_cod_init( - float *mem_hp400_enc, /* o : memory of hp 400 Hz filter */ - float *mem_hf1_enc, /* o : HF band-pass filter memory */ - float *mem_syn_hf_enc, /* o : HF synthesis memory */ - float *mem_hf2_enc, /* o : HF band-pass filter memory */ - float *gain_alpha /* o : smoothing gain for transitions between active and inactive frames */ -); - -void hf_cod( - const int32_t core_brate, /* i : core bitrate */ - const float *speech16k, /* i : original speech at 16 kHz */ - const float Aq[], /* i : quantized Aq */ - const float exc[], /* i : excitation at 12.8 kHz */ - float synth[], /* i : 12.8kHz synthesis signal */ - int16_t *seed2_enc, /* i/o: random seed for HF noise gen */ - float *mem_hp400_enc, /* i/o: memory of hp 400 Hz filter */ - float *mem_syn_hf_enc, /* i/o: HF synthesis memory */ - float *mem_hf1_enc, /* i/o: HF band-pass filter memory */ - float *mem_hf2_enc, /* i/o: HF band-pass filter memory */ - const int16_t *dtxHangoverCount, - float *gain_alpha, /* i/o: smoothing gain for transitions between active and inactive frames */ - int16_t *hf_gain /* o : HF gain to be transmitted to decoder */ -); - -void hf_synth_init( - ZERO_BWE_DEC_HANDLE hBWE_zero /* o : zero BWE decoder handle */ -); - -void hf_synth_reset( - ZERO_BWE_DEC_HANDLE hBWE_zero /* o : zero BWE decoder handle */ -); - -void hf_synth( - ZERO_BWE_DEC_HANDLE hBWE_zero, /* o : zero BWE decoder handle */ - const int32_t core_brate, /* i : core bitrate */ - const int16_t output_frame, /* i : output frame length */ - const float *Aq, /* i : quantized Az */ - const float *exc, /* i : excitation at 12.8 kHz */ - float *synth, /* i/o: 12.8kHz synthesis signal */ - float *synth16k /* i/o: 16kHz synthesis signal */ -); - -void fft_rel( - float x[], /* i/o: input/output vector */ - const int16_t n, /* i : vector length */ - const int16_t m /* i : log2 of vector length */ -); - -void ifft_rel( - float io[], /* i/o: input/output vector */ - const int16_t n, /* i : vector length */ - const int16_t m /* i : log2 of vector length */ -); - -void preemph( - float *signal, /* i/o: signal */ - const float mu, /* i : preemphasis factor */ - const int16_t L, /* i : vector size */ - float *mem /* i/o: memory (x[-1]) */ -); -void preemph_ivas_fx( - Word32 *signal, /* i/o: signal Qx*/ - const Word16 mu, /* i : preemphasis factor Q15*/ - const Word16 L, /* i : vector size Q0*/ - Word32 *mem /* i/o: memory (x[-1]) Qx*/ -); -void cb_shape( - const int16_t preemphFlag, /* i : flag for pre-emphasis */ - const int16_t pitchFlag, /* i : flag for pitch sharpening */ - const int16_t scramblingFlag, /* i : flag for phase scrambling */ - const int16_t formantFlag, /* i : flag for formant sharpening */ - const int16_t formantTiltFlag, /* i : flag for formant tilt */ - const float g1, /* i : formant sharpening numerator weighting */ - const float g2, /* i : formant sharpening denominator weighting */ - const float *p_Aq, /* i : LP filter coefficients */ - float *code, /* i/o: signal to shape */ - const float tilt_code, /* i : tilt of code */ - const float pt_pitch, /* i : pointer to current subframe fractional pitch*/ - const int16_t L_subfr /* i : subfframe length */ -); - -void CNG_exc( - const int32_t core_brate, /* i : core bitrate */ - const int16_t L_frame, /* i : length of the frame */ - float *Enew, /* i/o: decoded SID energy */ - int16_t *seed, /* i/o: random generator seed */ - float exc[], /* o : current non-enhanced excitation */ - float exc2[], /* o : current enhanced excitation */ - float *lp_ener, /* i/o: LP filtered E */ - const int32_t last_core_brate, /* i : previous frame core bitrate */ - int16_t *first_CNG, /* i/o: first CNG frame flag for energy init. */ - int16_t *cng_ener_seed, /* i/o: random generator seed for CNG energy */ - float bwe_exc[], /* o : excitation for SWB TBE */ - const int16_t allow_cn_step, /* i : allow CN step */ - int16_t *last_allow_cn_step, /* i/o: last CN_step */ - const int16_t num_ho, /* i : number of selected hangover frames */ - float q_env[], - float *lp_env, - float *old_env, - float *exc_mem, - float *exc_mem1, - int16_t *sid_bw, - int16_t *cng_ener_seed1, - float exc3[], - const int16_t Opt_AMR_WB, /* i : AMR-WB interop flag */ - const int16_t element_mode /* i : IVAS Element mode */ -); - - -void cng_params_postupd( - const int16_t ho_circ_ptr, /* i : pointer for CNG averaging buffers */ - int16_t *cng_buf_cnt, /* i/o: counter for CNG store buffers */ - const float *cng_exc2_buf, /* i : Excitation buffer */ - const int32_t *cng_brate_buf, /* i : bitrate buffer */ - float ho_env_circ[], /* i/o: Envelope buffer */ - const int16_t element_mode, /* i : Element mode */ - const int16_t bwidth /* i : audio bandwidth */ -); - -void calculate_hangover_attenuation_gain( - Encoder_State *st, /* i : encoder state structure */ - float *att, /* o : attenuation factor */ - const int16_t vad_hover_flag /* i : VAD hangover flag */ -); - -int16_t get_cng_mode_ivas( - const int32_t last_active_brate /* i : last active bitrate */ -); - -void disf_ns_28b( - int16_t *indice, /* i : quantized indices, use indice[0] = -1 in the decoder*/ - float *isf_q /* o : ISF in the frequency domain (0..6400) */ -); - -void limit_T0( - const int16_t L_frame, /* i : length of the frame */ - const int16_t delta, /* i : Half the close-loop searched interval */ - const int16_t pit_flag, /* i : selecting absolute(0) or delta(1) pitch quantization */ - const int16_t limit_flag, /* i : flag for limits (0=restrained, 1=extended) */ - const int16_t T0, /* i : rough pitch estimate around which the search is done */ - const int16_t T0_frac, /* i : pitch estimate fractional part */ - int16_t *T0_min, /* o : lower pitch limit */ - int16_t *T0_max /* o : higher pitch limit */ -); - -/*! r: interpolated value */ -float interpolation( - const float *x, /* i : input vector */ - const float *win, /* i : interpolation window */ - const int16_t frac, /* i : fraction */ - const int16_t up_samp, /* i : upsampling factor */ - const int16_t nb_coef /* i : nb of filter coef */ -); - -void deemph( - float *signal, /* i/o: signal */ - const float mu, /* i : deemphasis factor */ - const int16_t L, /* i : vector size */ - float *mem /* i/o: memory (y[-1]) */ -); - -void weight_a( - const float *a, /* i : LP filter coefficients */ - float *ap, /* o : weighted LP filter coefficients */ - const float gamma, /* i : weighting factor */ - const int16_t m /* i : order of LP filter */ -); - -void weight_a_subfr( - const int16_t nb_subfr, /* i : number of subframes */ - const float *a, /* i : LP filter coefficients */ - float *ap, /* o : weighted LP filter coefficients */ - const float gamma, /* i : weighting factor */ - const int16_t m /* i : order of LP filter */ -); - -void syn_12k8( - const int16_t L_frame, /* i : length of the frame */ - const float *Aq, /* i : LP filter coefficients */ - const float *exc, /* i : input signal */ - float *synth, /* o : output signal */ - float *mem, /* i/o: initial filter states */ - const int16_t update_m /* i : update memory flag: 0 --> no memory update */ -); /* 1 --> update of memory */ - -void syn_filt( - const float a[], /* i : LP filter coefficients */ - const int16_t m, /* i : order of LP filter */ - const float x[], /* i : input signal */ - float y[], /* o : output signal */ - const int16_t l, /* i : size of filtering */ - float mem[], /* i/o: initial filter states */ - const int16_t update_m /* i : update memory flag: 0 --> no memory update */ -); /* 1 --> update of memory */ - -void synth_mem_updt2_flt( - const int16_t L_frame, /* i : frame length */ - const int16_t last_L_frame, /* i : frame length */ - float old_exc[], /* i/o: excitation buffer */ - float mem_syn_r[], /* i/o: synthesis filter memory */ - float mem_syn2[], /* o : synthesis filter memory for find_target */ - float mem_syn[], /* o : synthesis filter memory for find_target */ - const int16_t dec /* i : flag for decoder indication */ -); - -void int_lsp( - const int16_t L_frame, /* i : length of the frame */ - const float lsp_old[], /* i : LSPs from past frame */ - const float lsp_new[], /* i : LSPs from present frame */ - float *Aq, /* o : LP coefficients in both subframes */ - const int16_t m, /* i : order of LP filter */ - const float *int_coeffs, /* i : interpolation coefficients */ - const int16_t Opt_AMR_WB /* i : flag indicating AMR-WB IO mode */ -); - -void int_lsp4( - const int16_t L_frame, /* i : length of the frame */ - const float lsp_old[], /* i : previous end-frame LSPs */ - const float lsp_mid[], /* i : current mid-frame LSPs */ - const float lsp_new[], /* i : current end-frame LSPs */ - float *Aq, /* o : LP coefficients in both subframes */ - const int16_t m, /* i : order of LP filter */ - int16_t relax_prev_lsf_interp /* i : relax prev frame lsf interp after erasure */ -); - -/*! r: length of output */ -int16_t modify_Fs( - const float sigIn[], /* i : signal to decimate */ - const int16_t lg, /* i : length of input */ - const int32_t fin, /* i : frequency of input */ - float sigOut[], /* o : decimated signal */ - const int32_t fout, /* i : frequency of output */ - float mem[], /* i/o: filter memory */ - const int16_t nblp /* i : flag indicating if NB low-pass is applied */ -); - -void pred_lt4_flt( - const float excI[], /* i : input excitation buffer */ - float excO[], /* o : output excitation buffer */ - const int16_t T0, /* i : integer pitch lag */ - int16_t frac, /* i : fraction of lag */ - const int16_t L_subfr, /* i : subframe size */ - const float *win, /* i : interpolation window */ - const int16_t nb_coef, /* i : nb of filter coef */ - const int16_t up_sample /* i : up_sample */ -); - -void pred_lt4_tc_flt( - float exc[], /* i : excitation buffer */ - const int16_t T0, /* i : integer pitch lag */ - int16_t frac, /* i : fraction of lag */ - const float *win, /* i : interpolation window */ - const int16_t imp_pos, /* i : glottal impulse position */ - const int16_t i_subfr /* i : subframe index */ -); - -void residu( - const float *a, /* i : LP filter coefficients */ - const int16_t m, /* i : order of LP filter */ - const float *x, /* i : input signal (usually speech) */ - float *y, /* o : output signal (usually residual) */ - const int16_t l /* i : size of filtering */ -); - -void calc_residu( - const float *speech, /* i : weighted speech signal */ - float *res, /* o : residual signal */ - const float *p_Aq, /* i : quantized LP filter coefficients */ - const int16_t L_frame /* i : size of frame */ -); - -/*! r: impulse response energy */ -float enr_1_Az( - const float Aq[], /* i : LP filter coefs */ - const int16_t len /* i : impulse response length */ -); - -void Es_pred_enc( - float *Es_pred, /* o : predicited scaled innovation energy */ - int16_t *Es_pred_indice, /* o : indice corresponding to above parameter */ - const int16_t L_frame, /* i : length of the frame */ - const int16_t L_subfr, /* i : length of the subframe */ - const float *res, /* i : residual signal */ - const float *voicing, /* i : normal. correlattion in three 1/2frames */ - const int16_t nb_bits, /* i : allocated number of bits */ - const int16_t no_ltp /* i : no_ltp flag */ -); - -void create_offset( - UWord32 *offset_scale1, - UWord32 *offset_scale2, - const int16_t mode, - const int16_t prediction_flag ); - -float mslvq( - float *pTmp, /* i : M-dimensional input vector */ - float *quant, /* o : quantized vector */ - float *cv_out, /* o : corresponding 8-dim lattice codevectors (without the scaling) */ - int16_t *idx_lead, /* o : leader index for each 8-dim subvector */ - int16_t *idx_scale, /* o : scale index for each subvector */ - const float *w, /* i : weights for LSF quantization */ - const int16_t mode, /* i : number indicating the coding mode */ - const int16_t mode_glb, /* i : LVQ coding mode */ - const int16_t pred_flag /* i : prediction flag (0: safety net, 1 - predictive )*/ -); - -void permute( - float *pTmp1, /* i/o: vector whose components are to be permuted */ - const int16_t *perm /* i : permutation info (indexes that should be interchanged), max two perms */ -); - -void sort_desc_ind( - float *s, - const int16_t len, - int16_t *ind ); - -float mslvq_cng( - int16_t idx_cv, /* i : index of cv from previous stage */ - float *pTmp, /* i : 16 dimensional input vector */ - float *quant, /* o : quantized vector */ - float *cv_out, /* o : corresponding 8-dim lattice codevectors (without the scaling) */ - int16_t *idx_lead, /* o : leader index for each 8-dim subvector */ - int16_t *idx_scale, /* o : scale index for each subvector */ - const float *w /* i : weights for LSF quantization */ -); - -int16_t deindex_lvq_cng( - int16_t *index, /* i : index to be decoded, as an array of 3 short */ - float *x_lvq, /* o : decoded codevector */ - const int16_t idx_cv, /* i : relative mode_lvq, wrt START_CNG */ - const int16_t no_bits /* i : number of bits for lattice */ -); - -void multiply32_32_64( - UWord32 x, /* i : operand 1 */ - UWord32 y, /* i : operand 2 */ - UWord32 *res /* o : result as array of two uint32 */ -); - -int16_t deindex_lvq( - int16_t *index, /* i : index to be decoded, as an array of 3 short */ - float *x_lvq, /* o : decoded codevector */ - const int16_t mode, /* i : LVQ coding mode (select scales & no_lead ), or idx_cv */ - const int16_t sf_flag, /* i : safety net flag */ - const int16_t no_bits /* i : number of bits for lattice */ -); - -void index_lvq( - float *quant, /* i : codevector to be indexed (2 8-dim subvectors) */ - int16_t *idx_lead, /* i : leader class index for each subvector */ - int16_t *idx_scale, /* i : scale index for each subvector */ - const int16_t mode, /* i : integer signaling the quantizer structure for the current bitrate */ - int16_t *index, /* o : encoded index (represented on 3 short each with 15 bits ) */ - const int16_t prediction_flag /* i : predictive mode or not */ -); - -int16_t qlsf_ARSN_tcvq_Dec_16k( - float *y, /* o : Quantized LSF vector */ - int16_t *indice, /* i : Indices */ - const int16_t nBits /* i : number of bits */ -); - - -int16_t lsf_bctcvq_decprm_ivas( - Decoder_State *st, - int16_t *param_lpc ); - - -void disf_2s_36b( - int16_t *indice, /* i : quantized indices (use indice[0] = -1 in the decoder) */ - float *isf_q, /* o : quantized ISFs in the cosine domain */ - float *mem_AR, /* i/o: quantizer memory for AR model */ - float *mem_MA /* i/o: quantizer memory for MA model */ -); - -void disf_2s_46b( - int16_t *indice, /* i : quantized indices (use indice[0] = -1 in the decoder) */ - float *isf_q, /* o : quantized ISFs in the cosine domain */ - float *mem_AR, /* o : quantizer memory for AR model */ - float *mem_MA /* i/o: quantizer memory for MA model */ -); - -void re8_k2y( - const int16_t *k, /* i : Voronoi index k[0..7] */ - const int16_t m, /* i : Voronoi modulo (m = 2^r = 1<=2) */ - int16_t *y /* o : 8-dimensional point y[0..7] in RE8 */ -); - -void re8_PPV( - const float x[], /* i : point in R^8 */ - int16_t y[] /* o : point in RE8 (8-dimensional integer vector) */ -); - -void enhancer( - const int16_t codec_mode, /* i : flag indicating Codec Mode */ - const int32_t core_brate, /* i : core bitrate */ - const int16_t cbk_index, /* i : */ - const int16_t Opt_AMR_WB, /* i : flag indicating AMR-WB IO mode */ - const int16_t coder_type, /* i : coding type */ - const int16_t L_frame, /* i : frame size */ - const float voice_fac, /* i : subframe voicing estimation */ - const float stab_fac, /* i : LP filter stablility measure */ - const float norm_gain_code, /* i : normalized innovative cb. gain */ - const float gain_inov, /* i : gain of the unscaled innovation */ - float *gc_threshold, /* i/o: code threshold */ - float *code, /* i/o: innovation */ - float *exc2, /* i/o: adapt. excitation/total exc. */ - const float gain_pit, /* i : Quantized pitch gain */ - float *dispMem /* i/o: Phase dispersion algorithm memory */ -); - -void phase_dispersion_flt( - const float gain_code, /* i : gain of code */ - const float gain_pit, /* i : gain of pitch */ - float code[], /* i/o: code vector */ - const int16_t mode, /* i : level, 0=hi, 1=lo, 2=off */ - float disp_mem[] /* i/o: static memory (size = 8) */ -); - -void re8_vor( - int16_t y[], /* i : point in RE8 (8-dimensional integer vector) */ - int16_t *n, /* o : codebook number n=0,2,3,4,... (scalar integer) */ - int16_t k[], /* o : Voronoi index (integer vector of dimension 8) used only if n>4 */ - int16_t c[], /* o : codevector in Q0, Q2, Q3, or Q4 if n<=4, y=c */ - int16_t *ka /* o : identifier of absolute leader (needed to index c)*/ -); - -void DoRTFT480( - float *x, /* i/o: real part of input and output data */ - float *y /* i/o: imaginary part of input and output data */ -); - -void DoRTFT320( - float *x, /* i/o: real part of input and output data */ - float *y /* i/o: imaginary part of input and output data */ -); - -void DoRTFT160( - float *x, /* i/o: real part of input and output data */ - float *y /* i/o: imaginary part of input and output data */ -); - -void DoRTFT128( - float *x, /* i/o: real part of input and output data */ - float *y /* i/o: imaginary part of input and output data */ -); - -void DoRTFT120( - float *x, /* i/o: real part of input and output data */ - float *y /* i/o: imaginary part of input and output data */ -); - -void DoRTFT80( - float *x, /* i/o: real part of input and output data */ - float *y /* i/o: imaginary part of input and output data */ -); - -void DoRTFT20( - float *x, /* i/o: real part of input and output data */ - float *y /* i/o: imaginary part of input and output data */ -); - -void DoRTFT40( - float *x, /* i/o: real part of input and output data */ - float *y /* i/o: imaginary part of input and output data */ -); - -void DoRTFTn( - float *x, /* i/o: real part of input and output data */ - float *y, /* i/o: imaginary part of input and output data */ - const int16_t n /* i : size of the FFT n=(2^k) up to 1024 */ -); - -void BASOP_cfft_ivas( - Word32 *re, /* i/o: real part */ - Word32 *im, /* i/o: imag part */ - Word16 s, /* i : stride real and imag part */ - Word16 *scale /* i : scalefactor */ -); - -void fft( - float *re, /* i/o: real part */ - float *im, /* i/o: imag part */ - const int16_t length, /* i : length of fft */ - const int16_t s /* i : sign */ -); - -void rfft( - float *x, /* i/o: values */ - const float *w, /* i : window */ - const int16_t length, /* i : length of fft */ - const int16_t isign /* i : sign */ -); - -void sinq( - const float tmp, /* i : sinus factor cos(tmp*i+phi) */ - const float phi, /* i : sinus phase cos(tmp*i+phi) */ - const int16_t N, /* i : size of output */ - float x[] /* o : output vector */ -); - -void edct2( - const int16_t n, - const int16_t isgn, - float *in, - float *a, - const int16_t *ip, - const float *w ); - -void stat_noise_uv_mod( - const int16_t coder_type, /* i : coder type */ - float noisiness, /* i : noisiness parameter */ - const float *const lsp_old, /* i : old LSP vector at 4th sfr */ - const float *const lsp_new, /* i : LSP vector at 4th sfr */ - const float *const lsp_mid, /* i : LSP vector at 2nd sfr */ - float *Aq, /* o : A(z) quantized for the 4 subframes */ - float *exc2, /* o : excitation buffer */ - const int16_t bfi, /* i : bad frame indicator */ - float *ge_sm, /* i/o: smoothed excitation gain */ - int16_t *uv_count, /* i/o: unvoiced counter */ - int16_t *act_count, /* i/o: activation counter */ - float lspold_s[], /* i/o: old LSP */ - int16_t *noimix_seed, /* i/o: mixture seed */ - float *st_min_alpha, /* i/o: minimum alpha */ - float *exc_pe, /* i/o: memory of the preemphasis filter */ - const int32_t bitrate, /* i : core bitrate */ - const int16_t bwidth /* i : audio bandwidth */ -); - -void limit_band_noise_level_calc( - const int16_t *wnorm, /* i : reordered norm of sub-vectors */ - int16_t *limit, /* o : highest band of bit allocation */ - const int32_t core_brate, /* i : core bitrate */ - float *noise_level /* o : noise level */ -); - -/*! r: hqswb_clas */ -int16_t peak_avrg_ratio( - const int32_t total_brate, /* i : total bitrate */ - const float *input_hi, /* i : input signal */ - const int16_t N, /* i : number of coefficients */ - int16_t *mode_count, /* i/o: HQ_HARMONIC mode count */ - int16_t *mode_count1 /* i/o: HQ_NORMAL mode count */ -); - -/*! r: Number of coefficients in nf codebook */ -int16_t build_nf_codebook( - const int16_t flag_32K_env_ho, /* i : Envelope attenuation hangover flag */ - const float *coeff, /* i : Coded spectral coefficients */ - const int16_t *sfm_start, /* i : Subband start indices */ - const int16_t *sfmsize, /* i : Subband widths */ - const int16_t *sfm_end, /* i : Subband end indices */ - const int16_t nb_sfm, /* i : Last coded band */ - const int16_t *R, /* i : Per-band bit allocation */ - float *CodeBook, /* o : Noise-fill codebook */ - float *CodeBook_mod /* o : Densified noise-fill codebook */ -); - -void apply_noisefill_HQ( - const int16_t *R, /* i : bit allocation */ - const int16_t length, /* i : input frame length */ - const int16_t flag_32K_env_ho, /* i : envelope stability hangover flag */ - const int32_t core_brate, /* i : core bitrate */ - const int16_t last_sfm, /* i : last coded subband */ - const float *CodeBook, /* i : Noise-fill codebook */ - const float *CodeBook_mod, /* i : Densified noise-fill codebook */ - const int16_t cb_size, /* i : Codebook length */ - const int16_t *sfm_start, /* i : Subband start coefficient */ - const int16_t *sfm_end, /* i : Subband end coefficient */ - const int16_t *sfmsize, /* i : Subband band width */ - float *coeff /* i/o: coded/noisefilled spectrum */ -); - -void harm_bwe_fine( - const int16_t *R, /* i : bit allocation */ - const int16_t last_sfm, /* i : last coded subband */ - const int16_t high_sfm, /* i : higher transition band to BWE */ - const int16_t num_sfm, /* i : total number of bands */ - const int16_t *norm, /* i : quantization indices for norms */ - const int16_t *sfm_start, /* i : Subband start coefficient */ - const int16_t *sfm_end, /* i : Subband end coefficient */ - int16_t *prev_L_swb_norm, /* i/o: last normalize length */ - float *coeff, /* i/o: coded/noisefilled normalized spectrum */ - float *coeff_out, /* o : coded/noisefilled spectrum */ - float *coeff_fine /* o : BWE fine structure */ -); - -void hvq_bwe_fine( - const int16_t last_sfm, /* i : last coded subband */ - const int16_t num_sfm, /* i : total number of bands */ - const int16_t *sfm_end, /* i : Subband end coefficient */ - const int16_t *peak_idx, /* i : Peak index */ - const int16_t Npeaks, /* i : Number of peaks */ - int16_t *peak_pos, /* i/o: Peak positions */ - int16_t *prev_L_swb_norm, /* i/o: last normalize length */ - float *coeff, /* i/o: coded/noisefilled normalized spectrum */ - int16_t *bwe_peaks, /* o : Positions of peaks in BWE */ - float *coeff_fine /* o : HVQ BWE fine structure */ -); - -void hq_fold_bwe( - const int16_t last_sfm, /* i : last coded subband */ - const int16_t *sfm_end, /* i : Subband end coefficient */ - const int16_t num_sfm, /* i : Number of subbands */ - float *coeff /* i/o: coded/noisefilled normalized spectrum */ -); - -void apply_nf_gain( - const int16_t nf_idx, /* i : noise fill gain index */ - const int16_t last_sfm, /* i : last coded subband */ - const int16_t *R, /* i : bit allocation */ - const int16_t *sfm_start, /* i : Subband start coefficient */ - const int16_t *sfm_end, /* i : Subband end coefficient */ - float *coeff /* i/o: coded/noisefilled normalized spectrum */ - -); - -void hq_generic_fine( - float *coeff, /* i : coded/noisefilled normalized spectrum */ - const int16_t last_sfm, /* i : Last coded band */ - const int16_t *sfm_start, /* i : Subband start coefficient */ - const int16_t *sfm_end, /* i : Subband end coefficient */ - int16_t *bwe_seed, /* i/o: random seed for generating BWE input */ - float *coeff_out1 /* o : HQ GENERIC input */ -); - -void harm_bwe( - const float *coeff_fine, /* i : fine structure for BWE */ - const float *coeff, /* i : coded/noisefilled normalized spectrum */ - const int16_t num_sfm, /* i : Number of subbands */ - const int16_t *sfm_start, /* i : Subband start coefficient */ - const int16_t *sfm_end, /* i : Subband end coefficient */ - const int16_t last_sfm, /* i : last coded subband */ - const int16_t high_sfm, /* i : higher transition band to BWE */ - const int16_t *R, /* i : bit allocation */ - const int16_t prev_hq_mode, /* i : previous hq mode */ - int16_t *norm, /* i/o: quantization indices for norms */ - float *noise_level, /* i/o: noise levels for harmonic modes */ - float *prev_noise_level, /* i/o: noise factor in previous frame */ - int16_t *bwe_seed, /* i/o: random seed for generating BWE input */ - float *coeff_out, /* o : coded/noisefilled spectrum */ - const int16_t element_mode /* i : element mode */ -); - -void hvq_bwe( - const float *coeff, /* i : coded/noisefilled spectrum */ - const float *coeff_fine, /* i : BWE fine structure */ - const int16_t *sfm_start, /* i : Subband start coefficient */ - const int16_t *sfm_end, /* i : Subband end coefficient */ - const int16_t *sfm_len, /* i : Subband length */ - const int16_t last_sfm, /* i : last coded subband */ - const int16_t prev_hq_mode, /* i : previous hq mode */ - const int16_t *bwe_peaks, /* i : HVQ bwe peaks */ - const int16_t bin_th, /* i : HVQ transition bin */ - const int16_t num_sfm, /* i : Number of bands */ - const int32_t core_brate, /* i : Core bitrate */ - const int16_t *R, /* i : Bit allocation */ - int16_t *norm, /* i/o: quantization indices for norms */ - float *noise_level, /* i/o: noise levels for harmonic modes */ - float *prev_noise_level, /* i/o: noise factor in previous frame */ - int16_t *bwe_seed, /* i/o: random seed for generating BWE input */ - float *coeff_out /* o : coded/noisefilled spectrum */ -); - -void hvq_concat_bands( - const int16_t pvq_bands, /* i : Number of bands in concatenated PVQ target */ - const int16_t *sel_bnds, /* i : Array of selected high bands */ - const int16_t n_sel_bnds, /* i : Number of selected high bands */ - int16_t *hvq_band_start, /* o : Band start indices */ - int16_t *hvq_band_width, /* o : Band widths */ - int16_t *hvq_band_end /* o : Band end indices */ -); - -void hq_generic_bwe( - const int16_t HQ_mode, /* i : HQ mode */ - float *coeff_out1, /* i/o: BWE input & temporary buffer */ - const float *hq_generic_fenv, /* i : SWB frequency envelopes */ - float *coeff_out, /* o : SWB signal in MDCT domain */ - const int16_t hq_generic_offset, /* i : frequency offset for representing hq generic*/ - int16_t *prev_L_swb_norm, /* i/o: last normalize length */ - const int16_t hq_generic_exc_clas, /* i : hq generic hf excitation class */ - const int16_t *sfm_end, /* i : End of bands */ - const int16_t num_sfm, /* i : Number of bands */ - const int16_t num_env_bands, /* i : Number of coded envelope bands */ - const int16_t *R /* i : Bit allocation */ -); - -void map_hq_generic_fenv_norm( - const int16_t hqswb_clas, /* i : signal classification flag */ - const float *hq_generic_fenv, /* i : HQ GENERIC envelope */ - int16_t *ynrm, /* o : high band norm indices */ - int16_t *normqlg2, /* o : high band norm values */ - const int16_t num_env_bands, /* i : Number coded envelope bands */ - const int16_t nb_sfm, /* i : Number of envelope bands */ - const int16_t hq_generic_offset /* i : Freq offset for HQ GENERIC */ -); - -/*! r: Number of bits consumed for the delta coding */ -int16_t calc_nor_delta_hf( - BSTR_ENC_HANDLE hBstr, /* i/o: encoder bitstream handle */ - const float *t_audio, /* i : transform-domain coefficients */ - int16_t *ynrm, /* i/o: norm indices */ - int16_t *Rsubband, /* i/o: sub-band bit allocation */ - const int16_t num_env_bands, /* i : Number coded envelope bands */ - const int16_t nb_sfm, /* i : Number of envelope bands */ - const int16_t *sfmsize, /* i : band length */ - const int16_t *sfm_start, /* i : Start index of bands */ - const int16_t core_sfm /* i : index of the end band for core */ -); - -/*! r: Number of bits consumed for the delta coding */ -int16_t get_nor_delta_hf( - Decoder_State *st, /* i/o: Decoder state */ - int16_t *ynrm, /* i/o: norm indices */ - int16_t *Rsubband, /* i/o: sub-band bit allocation */ - const int16_t num_env_bands, /* i : Number coded envelope bands */ - const int16_t nb_sfm, /* i : Number of envelope bands */ - const int16_t core_sfm ); /* i : index of the end band for core */ - -void hq_wb_nf_bwe( - const float *coeff, /* i : coded/noisefilled normal. spectrum */ - const int16_t is_transient, /* i : is transient flag */ - const int16_t prev_bfi, /* i : previous bad frame indicator */ - const float *normq_v, /* i : norms */ - const int16_t num_sfm, /* i : Number of subbands */ - const int16_t *sfm_start, /* i : Subband start coefficient */ - const int16_t *sfm_end, /* i : Subband end coefficient */ - const int16_t *sfmsize, /* i : Subband band width */ - const int16_t last_sfm, /* i : last coded subband */ - const int16_t *R, /* i : bit allocation */ - const int16_t prev_is_transient, /* i : previous transient flag */ - float *prev_normq, /* i/o: previous norms */ - float *prev_env, /* i/o: previous noise envelopes */ - int16_t *bwe_seed, /* i/o: random seed for generating BWE input */ - float *prev_coeff_out, /* i/o: decoded spectrum in previous frame */ - int16_t *prev_R, /* i/o: previous frame bit allocation info. */ - float *coeff_out /* o : coded/noisefilled spectrum */ -); - -/*! r: Number of bits */ -int16_t encode_envelope_indices( - BSTR_ENC_HANDLE hBstr, /* i/o: encoder bitstream handle */ - const int16_t num_sfm, /* i : Number of subbands */ - const int16_t numnrmibits, /* i : Bitrate of fall-back coding mode */ - int16_t *difidx, /* i/o: Diff indices/encoded diff indices */ - int16_t *LCmode, /* o : Coding mode */ - const int16_t flag_pack, /* i : indicator of packing or estimating bits */ - const int16_t flag_HQ2, /* i : indicator of HQ2 core */ - const int16_t is_transient /* i : transient flag */ -); - -void diff_envelope_coding( - const int16_t is_transient, /* i : transient indicator */ - const int16_t num_env_bands, /* i : number of envelope bands to code */ - const int16_t start_norm, /* i : start of envelope coding */ - int16_t *ynrm, /* i/o: quantization indices for norms */ - int16_t *normqlg2, /* i/o: quantized norms */ - int16_t *difidx /* o : differential code */ -); - -/*! r: Number of bits */ -int16_t decode_envelope_indices( - Decoder_State *st, /* i/o: decoder state structure */ - const int16_t start_norm, /* i : First SDE encoded norm */ - const int16_t num_sfm, /* i : Number of norms */ - const int16_t numnrmibits, /* i : Bitrate of fall-back coding mode */ - int16_t *ynrm, /* o : Decoded norm indices */ - const int16_t flag_HQ2, /* i : indicator of HQ2 core */ - const int16_t is_transient /* i : transient flag */ -); - -/*! r: Number of bits */ -void dequantize_norms( - Decoder_State *st, /* i/o: decoder state structure */ - const int16_t start_norm, /* i : First SDE encoded norm */ - const int16_t num_sfm, /* i : Number of norms */ - const int16_t is_transient, /* i : Transient flag */ - int16_t *ynrm, /* o : Decoded norm indices */ - int16_t *normqlg2 /* o : Log2 of decoded norms */ -); - -void hq_configure( - const int16_t length, /* i : Frame length */ - const int16_t hqswb_clas, /* i : HQ SWB class */ - const int32_t core_brate, /* i : core bitrate */ - int16_t *num_sfm, /* o : Total number of subbands */ - int16_t *nb_sfm, /* o : Total number of coded bands */ - int16_t *start_norm, /* o : First norm to be SDE encoded */ - int16_t *num_sde_norm, /* o : Number of norms for SDE encoding */ - int16_t *numnrmibits, /* o : Number of bits in fall-back norm encoding */ - int16_t *hq_generic_offset, /* o : Freq offset for HQ GENERIC */ - int16_t *sfmsize, /* o : Subband bandwidths */ - int16_t *sfm_start, /* o : Subband start coefficients */ - int16_t *sfm_end /* o : Subband end coefficients */ -); - -/*! r: Consumed bits */ -int16_t hvq_enc( - BSTR_ENC_HANDLE hBstr, /* i/o: encoder bitstream handle */ - const int16_t bwidth, /* i : audio bandwidth */ - const int32_t core_brate, /* i : core bitrate */ - const int16_t hvq_bits, /* i : HVQ bit budget */ - const int16_t Npeaks, /* i : Number of peaks */ - const int16_t *ynrm, /* i : Envelope coefficients */ - int16_t *R, /* i/o: Bit allocation/updated bit allocation */ - int16_t *peaks, /* i/o: Peak pos. / Encoded peak pos. */ - float *nf_gains, /* i/o: Noise fill gains / Quant. nf gains */ - float *noise_level, /* o : Quantized noise level */ - const float *pe_gains, /* i : Peak gains */ - const float *coefs, /* i : spectrum coefficients */ - float *coefs_out /* o : encoded spectrum coefficients */ -); -/*! r: Consumed bits */ -int16_t hq_classifier_dec( - Decoder_State *st, /* i/o: decoder state structure */ - const int32_t core_brate, /* i : Core bitrate */ - const int16_t length, /* i : Frame length */ - int16_t *is_transient, /* o : Transient flag */ - int16_t *hqswb_clas /* o : HQ class */ -); - -void hq_bit_allocation( - const int32_t core_brate, /* i : Core bitrate */ - const int16_t length, /* i : Frame length */ - const int16_t hqswb_clas, /* i : HQ class */ - int16_t *num_bits, /* i/o: Remaining bit budget */ - const int16_t *normqlg2, /* i : Quantized norms */ - const int16_t nb_sfm, /* i : Number sub bands to be encoded */ - const int16_t *sfmsize, /* i : Sub band bandwidths */ - float *noise_level, /* o : HVQ noise level */ - int16_t *R, /* o : Bit allocation per sub band */ - int16_t *Rsubband, /* o : Fractional bit allocation (Q3) */ - int16_t *sum, /* o : Sum of allocated shape bits */ - int16_t *core_sfm, /* o : Last coded band in core */ - const int16_t num_env_bands /* i : Number sub bands to be encoded for HQ_SWB_BWE */ -); - -void enforce_zero_for_min_envelope( - const int16_t hqswb_clas, /* i : HQ coding class */ - const int16_t *ynrm, /* i : Envelope indices */ - float *coefsq, /* i/o: Quantized spectrum/zeroed spectrum */ - int16_t nb_sfm, /* i : Number of coded sub bands */ - const int16_t *sfm_start, /* i : Sub band start indices */ - const int16_t *sfm_end /* i : Sub band end indices */ -); - -void apply_envelope( - const float *coeff, /* i/o: Coded/noisefilled normalized spectrum */ - const int16_t *norm, /* i : Envelope */ - const float *norm_adj, /* i : Envelope adjustment */ - const int16_t num_sfm, /* i : Total number of bands */ - const int16_t last_sfm, /* i : Last coded band */ - const int16_t HQ_mode, /* i : HQ mode */ - const int16_t length, /* i : Frame length */ - const int16_t *sfm_start, /* i : Sub band start indices */ - const int16_t *sfm_end, /* i : Sub band end indices */ - float *normq_v, /* o : Envelope with adjustment */ - float *coeff_out, /* o : coded/noisefilled spectrum */ - float *coeff_out1 /* o : noisefilled spectrum for HQ SWB BWE */ -); - -void apply_envelope_enc( - float *coeff, /* i/o: Normalized/scaled normalized spectrum */ - const int16_t *norm, /* i : Envelope */ - const int16_t num_sfm, /* i : Total number of bands */ - const int16_t *sfm_start, /* i : Sub band start indices */ - const int16_t *sfm_end /* i : Sub band end indices */ -); - -/*! r: Leading_sign_index, index, size, k_val */ -PvqEntry mpvq_encode_vec( - const int16_t *vec_in, /* i : Signed pulse train */ - const int16_t dim_in, /* i : Dimension */ - int16_t k_val_local /* i/o: Num unit pulses */ -); - -/*! r: Size, dim, k_val */ -PvqEntry get_size_mpvq_calc_offset( - const int16_t dim_in, /* i : Dimension */ - const int16_t k_val_in, /* i : Num unit pulses */ - uint32_t *h_mem /* o : Offsets */ -); - -void mpvq_decode_vec( - const PvqEntry *entry, /* i : Sign_ind, index, dim, k_val */ - uint32_t *h_mem, /* i : A/U offsets */ - int16_t *vec_out /* o : Pulse train */ -); - -/*! r: Multiplication result */ -uint32_t UMult_32_32( - const uint32_t UL_var1, /* i : factor 1 */ - const uint32_t UL_var2 /* i : factor 2 */ -); - -/*! r: inverse */ -uint32_t UL_inverse_float( - const uint32_t UL_val, /* i : input value Q_exp */ - int16_t *exp /* i/o: input exp / result exp */ -); - -/*! r: ratio */ -Word16 ratio_float( - const Word32 numer, /* i : numerator */ - const Word32 denom, /* i : denominator */ - Word16 *expo /* i/o: input exp / result exp */ -); - -/*! r: Angle between 0 and EVS_PI/2 radian (Q14) */ -Word16 atan2_fx_flt( - const Word32 y, /* i : near side (Argument must be positive) (Q15) */ - const Word32 x /* i : opposite side (Q15) */ -); - -void pvq_encode_frame( - BSTR_ENC_HANDLE hBstr, /* i/o: encoder bitstream handle */ - const float *coefs_norm, /* i : normalized coefficients to encode */ - float *coefs_quant, /* o : quantized coefficients */ - float *gopt, /* o : optimal shape gains */ - int16_t *npulses, /* o : number of pulses per band */ - int16_t *pulse_vector, /* o : non-normalized pulse shapes */ - const int16_t *sfm_start, /* i : indices of first coefficients in the bands */ - const int16_t *sfm_end, /* i : indices of last coefficients in the bands */ - const int16_t *sfmsize, /* i : band sizes */ - const int16_t nb_sfm, /* i : total number of bands */ - const int16_t *R, /* i : bitallocation per band (Q3) */ - const int16_t pvq_bits, /* i : number of bits avaiable */ - const int16_t core /* i : core */ -); - -void pvq_decode_frame( - Decoder_State *st, /* i/o: Decoder state */ - float *coefs_quant, /* o : quantized coefficients */ - int16_t *npulses, /* o : number of pulses per band */ - int16_t *pulse_vector, /* o : non-normalized pulse shapes */ - const int16_t *sfm_start, /* i : indices of first coeffs in the bands */ - const int16_t *sfm_end, /* i : indices of last coeffs in the bands */ - const int16_t *sfmsize, /* i : band sizes */ - const int16_t nb_sfm, /* i : total number of bands */ - const int16_t *R, /* i : bitallocation per band (Q3) */ - const int16_t pvq_bits, /* i : number of bits avaiable */ - const int16_t core /* i : core */ -); - -void srt_vec_ind( - const int16_t *linear, /* linear input */ - int16_t *srt, /* sorted output */ - int16_t *I, /* index for sorted output */ - const int16_t length ); - -void srt_vec_ind_f( - const float *linear, /* linear input */ - float *srt, /* sorted output */ - int16_t *I, /* index for sorted output */ - const int16_t length /* length of vector */ -); - -/*! r: floor(sqrt(input)) */ -uint32_t floor_sqrt_exact( - const uint32_t input /* i : unsigned input [0.. UINT_MAX/4] */ -); - -void fine_gain_quant( - BSTR_ENC_HANDLE hBstr, /* i/o: encoder bitstream handle */ - const int16_t *ord, /* i : Indices for energy order */ - const int16_t num_sfm, /* i : Number of bands */ - const int16_t *gain_bits, /* i : Gain adjustment bits per sub band */ - float *fg_pred, /* i/o: Predicted gains / Corrected gains */ - const float *gopt /* i : Optimal gains */ -); - -void apply_gain( - const int16_t *ord, /* i : Indices for energy order */ - const int16_t *band_start, /* i : Sub band start indices */ - const int16_t *band_end, /* i : Sub band end indices */ - const int16_t num_sfm, /* i : Number of bands */ - const float *gains, /* i : Band gain vector */ - float *xq /* i/o: float synthesis / gain adjusted synth */ -); - -void fine_gain_pred( - const int16_t *sfm_start, /* i : Sub band start indices */ - const int16_t *sfm_end, /* i : Sub band end indices */ - const int16_t *sfm_size, /* i : Sub band bandwidths */ - const int16_t *i_sort, /* i : Energy sorting indices */ - const int16_t *K, /* i : Number of pulses per band */ - const int16_t *maxpulse, /* i : Maximum pulse per band */ - const int16_t *R, /* i : Bits per sub band (Q3) */ - const int16_t num_sfm, /* i : Number of sub bands */ - float *xq, /* i/o: Quantized vector /quantized vector with finegain adj */ - int16_t *y, /* i/o: Quantized vector */ - float *fg_pred, /* o : Predicted fine gains */ - const int16_t core /* i : Core */ -); - -void fine_gain_dec( - Decoder_State *st, /* i/o: Decoder state struct */ - const int16_t *ord, /* i : Indices for energy order */ - const int16_t num_sfm, /* i : Number of bands */ - const int16_t *gain_bits, /* i : Gain adjustment bits per sub band */ - float *fg_pred /* i/o: Predicted gains / Corrected gains */ -); - -void get_max_pulses( - const int16_t *band_start, /* i : Sub band start indices */ - const int16_t *band_end, /* i : Sub band end indices */ - const int16_t *k_sort, /* i : Indices for sorting by energy */ - const int16_t *npulses, /* i : Pulses per sub band */ - const int16_t BANDS, /* i : Number of bands */ - int16_t *inp_vector, /* i/o: Encoded shape vectors */ - int16_t *maxpulse /* o : Maximum pulse height per band */ -); - -Word32 ar_div_ivas( - Word32 num, - Word32 denum ); - -void ar_encoder_start( - PARCODEC arInst, - TCQ_PBITSTREAM bsInst, - int16_t max_bits ); - -void ar_decoder_start( - PARCODEC arInst, - TCQ_PBITSTREAM bsInst ); - -void ar_encoder_done( - PARCODEC arInst ); - -void ar_decoder_done( - PARCODEC arInst ); - - -Word32 Mult_32_16( - Word32 a, - Word16 b ); - -Word32 Mult_32_32( - Word32 a, - Word32 b ); - - -void decode_mangitude_tcq_fx_ivas( - ARCODEC *pardec, - Word16 size, - Word16 npulses, - Word16 nzpos, - Word32 *positions, - Word32 *out, - Word32 *surplus_fx ); - -void decode_signs_fx_ivas( - ARCODEC *pardec, - Word16 size, - Word32 *out ); - -void srt_vec_ind_fx_ivas( - const Word32 *linear, - Word32 *srt, - Word16 *I, - Word16 length ); - - -void bit_allocation_second_fx2( - Word32 *Rk, - Word32 *Rk_sort, - Word16 BANDS, - const Word16 *band_width, - Word16 *k_sort, - Word16 *k_num, - const Word16 *p2a_flags, - const Word16 p2a_bands, - const Word16 *last_bitalloc, - const Word16 input_frame ); - - -Word32 encode_magnitude_tcq_fx_ivas( - ARCODEC *parenc, - float *magn_fx, - Word16 size, - Word16 npulses, - Word16 nzpos, - Word32 *savedstates, - Word32 *est_frame_bits_fx ); - -Word32 encode_signs_fx_ivas( - ARCODEC *parenc, - float *magn, - Word16 size, - Word16 npos, - Word32 *est_frame_bits_fx ); - -Word32 encode_magnitude_usq_fx_ivas( - ARCODEC *parenc, - float *magn_fx, - Word16 size, - Word16 npulses, - Word16 nzpos, - Word32 *est_frame_bits_fx ); - -ivas_error tcq_core_LR_enc( - BSTR_ENC_HANDLE hBstr, /* i/o: encoder bitstream handle */ - int32_t inp_vector[], - const float coefs_norm[], - float coefs_quant[], - const int16_t bit_budget, /* number of bits */ - const int16_t nb_sfm, - const int16_t *sfm_start, - const int16_t *sfm_end, - const int16_t *sfmsize, - Word32 *Rk_fx, - int16_t *npulses, - int16_t *k_sort, - const int16_t *p2a_flags, - const int16_t p2a_bands, - const int16_t *last_bitalloc, - const int16_t input_frame, - const int16_t adjustFlag, - const int16_t is_transient ); - -void tcq_core_LR_dec( - Decoder_State *st, - int32_t *inp_vector, - const int16_t bit_budget, - const int16_t bands, - const int16_t *band_start, - const int16_t *band_width, - Word32 *Rk_fx, - int16_t npulses[], - int16_t *k_sort, - const int16_t *p2a_flags, - const int16_t p2a_bands, - const int16_t *last_bitalloc, - const int16_t input_frame, - const int16_t adjustFlag, - const int16_t *is_transient ); - - -void TCQLSB( - int16_t bcount, - float *abuffer, - float *mbuffer, - float *sbuffer, - int16_t *dpath ); - -void RestoreTCQ( - float *magn, - int16_t size, - int16_t *bcount, - float *mbuffer ); - -void SaveTCQdata( - PARCODEC arInst, - int16_t *dpath, - int16_t bcount ); - -void LoadTCQdata( - PARCODEC arInst, - int16_t *dpath, - int16_t bcount ); - -void RestoreTCQdec( - int32_t *magn, - int16_t size, - int16_t *bcount, - float *mbuffer ); - -void TCQLSBdec( - int16_t *dpath, - float *mbuffer, - int16_t bcount ); - -void bit_allocation_second_fx2( - Word32 *Rk, - Word32 *Rk_sort, - Word16 BANDS, - const Word16 *band_width, - Word16 *k_sort, - Word16 *k_num, - const Word16 *p2a_flags, - const Word16 p2a_bands, - const Word16 *last_bitalloc, - const Word16 input_frame ); - -void io_ini_enc( - const int32_t argc, /* i : command line arguments number */ - char *argv[], /* i : command line arguments */ - FILE **f_input, /* o : input signal file */ - FILE **f_stream, /* o : output bitstream file */ - FILE **f_rate, /* o : bitrate switching profile (0 if N/A) */ - FILE **f_bwidth, /* o : bandwidth switching profile (0 if N/A) */ - FILE **f_metadata, /* o : metadata files (NULL if N/A) */ -#ifdef DEBUGGING - FILE **f_force, /* o : force switching profile (0 if N/A) */ -#endif - FILE **f_rf, /* o : channel aware configuration file */ - int16_t *quietMode, /* o : limit printouts */ - int16_t *noDelayCmp, /* o : turn off delay compensation */ - Encoder_Struct *st /* o : IVAS encoder structure */ -); - -void read_next_rfparam( - int16_t *rf_fec_offset, /* o : RF offset */ - int16_t *rf_fec_indicator, /* o : RF FEC indicator */ - FILE *f_rf /* i : file pointer to read parameters */ -); - -void read_next_brate( - int32_t *total_brate, /* i/o: total bitrate */ - const int32_t last_total_brate, /* i : last total bitrate */ - FILE *f_rate, /* i : bitrate switching profile (0 if N/A) */ - const int16_t element_mode, /* i : IVAS element mode */ - int32_t input_Fs, /* i : input sampling frequency */ - int16_t *Opt_AMR_WB, /* i : flag indicating AMR-WB IO mode */ - int16_t *Opt_SC_VBR, /* i/o: SC-VBR flag */ - int16_t *codec_mode /* i/o: Mode 1 or 2 */ -); - -void read_next_bwidth( - int16_t *max_bwidth, /* i/o: maximum encoded bandwidth */ - FILE *f_bwidth, /* i : bandwidth switching profile (0 if N/A) */ - int32_t *bwidth_profile_cnt, /* i/o: counter of frames for bandwidth switching profile file */ - int32_t input_Fs /* i : input sampling rate */ -); - -#ifdef DEBUGGING -void read_next_force( - int16_t *force, /* i/o: force value (0/1, 0 = speech, 1 = music)*/ - FILE *f_force, /* i : force switching profile (0 if N/A) */ - int32_t *force_profile_cnt /* i/o: counter of frames for force switching profile file */ -); -#endif - -ivas_error init_encoder_ivas_fx( - Encoder_State *st, /* i/o: state structure */ - Encoder_Struct *st_ivas, /* i/o: encoder state structure */ - const Word16 idchan, /* i : channel ID */ - const Word16 var_SID_rate_flag, /* i : flag for variable SID update rate */ - const Word16 interval_SID, /* i : interval for SID update */ - const Word16 vad_only_flag, /* i : flag to indicate front-VAD structure */ - const ISM_MODE ism_mode, /* i : ISM mode */ - const Word32 element_brate /* i : element bitrate */ -); - -void LPDmem_enc_init( - LPD_state_HANDLE hLPDmem /* i/o: LP memories */ -); - -ivas_error evs_enc( - Encoder_State *st, /* i/o: state structure */ - const int16_t *data, /* i : input signal */ - float *mem_hp20_in, /* i/o: hp20 filter memory */ - const int16_t n_samples /* i : number of input samples */ -); -void amr_wb_enc( - Encoder_State *st, /* i/o: encoder state structure */ - const int16_t *data, /* i : input signal */ - float *mem_hp20_in, /* i/o: hp20 filter memory */ - const int16_t n_samples /* i : number of input samples */ -); - -void sc_vbr_enc_init( - SC_VBR_ENC_HANDLE hSC_VBR /* i/o: SC-VBR encoder handle */ -); - -void amr_wb_enc_init( - AMRWB_IO_ENC_HANDLE hAmrwb_IO /* i/o: AMR-WB IO encoder handle */ -); - -void pre_proc( - Encoder_State *st, /* i/o: encoder state structure */ - const int16_t input_frame, /* i : frame length */ - float old_inp_12k8[], /* i/o: buffer of old input signal */ - float old_inp_16k[], /* i/o: buffer of old input signal @ 16kHz */ - float **inp, /* o : ptr. to inp. signal in the current frame*/ - float fr_bands[2 * NB_BANDS], /* i : energy in frequency bands */ - float *ener, /* o : residual energy from Levinson-Durbin */ - int16_t pitch_orig[3], /* o : open-loop pitch values for quantization */ - float A[NB_SUBFR16k * ( M + 1 )], /* i/o: A(z) unquantized for the 4 subframes */ - float Aw[NB_SUBFR16k * ( M + 1 )], /* i/o: weighted A(z) unquantized for subframes */ - float epsP[M + 1], /* i/o: LP prediction errors */ - float lsp_new[M], /* i/o: LSPs at the end of the frame */ - float lsp_mid[M], /* i/o: LSPs in the middle of the frame */ - int16_t *vad_hover_flag, /* i : VAD hangover flag */ - int16_t *attack_flag, /* o : attack flag */ - float *new_inp_resamp16k, /* o : new input signal @16kHz, non pre-emphasised, used by the WB TBE/BWE */ - int16_t *Voicing_flag, /* o : voicing flag for HQ FEC */ - float realBuffer[CLDFB_NO_COL_MAX][CLDFB_NO_CHANNELS_MAX], /* i/o: real buffer */ - float imagBuffer[CLDFB_NO_COL_MAX][CLDFB_NO_CHANNELS_MAX], /* i/o: imag buffer */ - int16_t *hq_core_type /* o : HQ core type */ -); - - -/*! r: HQ_CORE/TCX_20_CORE decision */ -int16_t mdct_classifier( - Encoder_State *st, /* i/o: Encoder state variable */ - const float *fft_buff, /* i : FFT spectrum from fft_rel */ - const float enerBuffer[], /* i : energy buffer */ - const int32_t brate /* i : current brate, IVAS: nominal bitrate, EVS: st->total_brate */ -); - -void MDCT_selector( - Encoder_State *st, /* i/o: Encoder State */ - const float sp_floor, /* i : Noise floor estimate */ - const float Etot, /* i : Total energy */ - const float cor_map_sum, /* i : sum of correlation map */ - const float enerBuffer[] /* i : energy buffer */ -); - -ivas_error acelp_core_enc_ivas_fx( - Encoder_State *st, /* i/o: encoder state structure */ - const Word16 inp[], /* i : input signal of the current frame Q_new*/ - Word16 A[NB_SUBFR16k * ( M + 1 )], /* i : A(z) unquantized for the 4 subframes Q12*/ - Word16 Aw[NB_SUBFR16k * ( M + 1 )], /* i : weighted A(z) unquant. for subframes Q12*/ - const Word32 epsP[M + 1], /* i : LP prediction errors Qx*/ - Word16 lsp_new[M], /* i : LSPs at the end of the frame Q15*/ - Word16 lsp_mid[M], /* i : LSPs in the middle of the frame Q15*/ - const Word16 vad_hover_flag, /* i : VAD hangover flag Q0*/ - const Word16 attack_flag, /* i : attack flag (GSC or TC) Q0*/ - Word32 bwe_exc_extended_fx[], /* i/o: bandwidth extended excitation st->prev_Q_bwe_exc*/ - Word16 *voice_factors_fx, /* o : voicing factors Q15*/ - Word16 old_syn_12k8_16k[], /* o : intermediate ACELP synthesis at 12.8kHz or 16kHz to be used by SWB BWE q_old_syn_12k8_16*/ - Word16 *q_old_syn_12k8_16, - Word16 pitch_buf[NB_SUBFR16k], /* o : floating pitch for each subframe Q6*/ - Word16 *unbits, /* o : number of unused bits Q0*/ - STEREO_TD_ENC_DATA_HANDLE hStereoTD, /* i/o: TD stereo encoder handle */ - Word16 tdm_lsfQ_PCh[M], /* i : Q LSFs for primary channel X2.56*/ - Word16 Q_new ); - -ivas_error acelp_core_switch_dec_bfi( - Decoder_State *st /* i/o: decoder state structure */ -); - -void acelp_core_switch_enc( - Encoder_State *st, /* i/o: encoder state structure */ - const float inp12k8[], /* i : input signal @12.8 kHz */ - const float inp16k[], /* i : input signal @16 kHz */ - const float A[NB_SUBFR16k * ( M + 1 )] /* i : A(z) unquantized for the 4 subframes */ -); - -/*! r: length of output */ -int16_t modify_Fs_intcub3m_sup( - const float sigIn[], /* i : signal to decimate with memory of 2 samples (indexes -2 & -1) */ - const int16_t lg, /* i : length of input */ - const int32_t fin, /* i : frequency of input */ - float sigOut[], /* o : decimated signal */ - const int32_t fout, /* i : frequency of output */ - int16_t *delayout /* o : delay of output */ -); - -void core_switching_OLA( - const float *mem_over_hp, /* i : upsampling filter memory */ - const int16_t last_L_frame, /* i : last L_frame lengthture */ - const int32_t output_Fs, /* i : output sampling rate */ - float *synth, /* i/o: synthesized signal from HQ core */ - const float *synth_subfr_out, /* i : synthesized signal from ACELP core */ - float *synth_subfr_bwe, /* i : synthesized BWE from ACELP core */ - const int16_t output_frame, /* i : output frame length */ - const int16_t bwidth /* i : output bandwidth */ -); - -void retro_interp4_5( - const float *syn, - float *pst_old_syn ); - -void retro_interp5_4( - float *pst_old_syn ); -void core_switching_hq_prepare_dec( - Decoder_State *st, /* i/o: decoder state structure */ - int16_t *num_bits, /* i/o: bit budget update */ - const int16_t input_frame /* i : input frame length */ -); - -ivas_error acelp_core_switch_dec( - Decoder_State *st, /* i/o: decoder structure */ - float *synth_subfr_out, /* o : synthesized ACELP subframe */ - float *tmp_synth_bwe, /* o : synthesized ACELP subframe BWE */ - const int16_t output_frame, /* i : input frame length */ - const int16_t core_switching_flag, /* i : core switching flag */ - float *mem_synth, /* o : synthesis to overlap */ - const int16_t nchan_out /* i : number of output channels */ -); - -void ResetSHBbuffer_Enc( - TD_BWE_ENC_HANDLE hBWE_TD /* i/o: TD BWE data handle */ -); - -void ResetSHBbuffer_Dec( - TD_BWE_DEC_HANDLE hBWE_TD, /* i/o: TD BWE data handle */ - const int16_t extl /* i : BWE extension layer */ -); - -void calc_st_filt( - const float *apond2, /* i : coefficients of numerator */ - const float *apond1, /* i : coefficients of denominator */ - float *parcor0, /* o : 1st parcor calcul. on composed filter */ - float *sig_ltp_ptr, /* i/o: input of 1/A(gamma1) : scaled by 1/g0 */ - float *mem_zero, /* i/o: All zero memory */ - const int16_t L_subfr, /* i : the length of subframe */ - const int16_t extl /* i : extension layer info */ -); - - -void scale_st_ivas( - const float *sig_in, /* i : postfilter input signal */ - float *sig_out, /* i/o: postfilter output signal */ - float *gain_prec, /* i/o: last value of gain for subframe */ - const int16_t L_subfr, /* i : the length of subframe */ - const int16_t extl /* i : extension layer info */ -); - -void filt_mu( - const float *sig_in, /* i : signal (beginning at sample -1) */ - float *sig_out, /* o : output signal */ - const float parcor0, /* i : parcor0 (mu = parcor0 * gamma3) */ - const int16_t L_subfr, /* i : the length of subframe */ - const int16_t extl /* i : extension layer info */ -); - -void PostShortTerm( - float *sig_in, /* i : input signal (ptr. to current subframe */ - float *lpccoeff, /* i : LPC coefficients for current subframe */ - float *sig_out, /* o : postfiltered output */ - float *mem_stp, /* i/o: postfilter memory */ - float *ptr_mem_stp, /* i/o: pointer to postfilter memory */ - float *ptr_gain_prec, /* i/o: for gain adjustment */ - float *mem_zero, /* i/o: null memory to compute h_st */ - const float formant_fac /* i : Strength of post-filter [0,1] */ -); - -/*! r: Formant filter strength [0,1] */ -float swb_formant_fac( - const float lpc_shb2, /* i : 2nd HB LPC coefficient */ - float *tilt_mem /* i/o: Tilt smoothing memory */ -); - -void GenShapedSHBExcitation( - float *excSHB, /* o : synthesized shaped shb exctiation */ - const float *lpc_shb, /* i : lpc coefficients */ - float *exc16kWhtnd, /* o : whitened synthesized shb excitation */ - float *mem_csfilt, /* i/o: memory */ - float *mem_genSHBexc_filt_down_shb, /* i/o: memory */ - float *state_lpc_syn, /* i/o: memory */ - const int16_t coder_type, /* i : coding type */ - const float *bwe_exc_extended, /* i : bandwidth extended excitation */ - int16_t bwe_seed[], /* i/o: random number generator seed */ - float voice_factors[], /* i : voicing factor */ - const int16_t extl, /* i : extension layer */ - float *tbe_demph, /* i/o: de-emphasis memory */ - float *tbe_premph, /* i/o: pre-emphasis memory */ - float *lpc_shb_sf, /* i : LP coefficients */ - float *shb_ener_sf, /* i : SHB subframe energies */ - float *shb_res_gshape, /* i : SHB LP residual gain shape */ - float *shb_res, /* i : SHB residual used in encoder only */ - int16_t *vf_ind, /* i/o: Mixing factor index */ - const float formant_fac, /* i : Formant sharpening factor [0..1] */ - float fb_state_lpc_syn[], /* i/o: memory */ - float *fb_tbe_demph, /* i/o: fb de-emphasis memory */ - const int32_t total_brate, /* i : overall bitrate */ - const int16_t prev_bfi, /* i : previous frame was lost flag */ - const int16_t element_mode, /* i : element mode */ - const int16_t flag_ACELP16k, /* i : ACELP@16kHz flag */ - float *nlExc16k, /* i/o: NL exc for IC-BWE */ - float *mixExc16k, /* i/o: exc spreading for IC-BWE */ - const int32_t extl_brate, /* i : TD BWE bitrate */ - const int16_t MSFlag, /* i : Multi-source flag */ - float EnvSHBres_4k[], /* i/o: TD envelope of the SHB residual signal */ - float *prev_pow_exc16kWhtnd, /* i/o: power of the LB excitation signal in the previous frame */ - float *prev_mix_factor, /* i/o: mixing factor in the previous frame */ - float *Env_error, /* o : error in SHB residual envelope modelling*/ - float Env_error_part[] /* o : per-segment error in SHB residual envelope modelling */ -); - -void GenSHBSynth( - const float *shb_target_speech, /* i : input synthesized speech */ - float *shb_syn_speech_32k, /* o : output highband component */ - float Hilbert_Mem[], /* i/o: memory */ - float state_lsyn_filt_shb_local[], /* i/o: memory */ - const int16_t L_frame, /* i : ACELP Frame length */ - int16_t *syn_dm_phase ); - -void ScaleShapedSHB( - const int16_t length, /* i : SHB overlap length */ - float *synSHB, /* i/o: synthesized shb signal */ - float *overlap, /* i/o: buffer for overlap-add */ - const float *subgain, /* i : subframe gain */ - const float frame_gain, /* i : frame gain */ - const float *win, /* i : window */ - const float *subwin /* i : subframes window */ -); - -void Interpolate_allpass_steep( - const float *in, /* i : input array of size N */ - float *mem, /* i/o: memory */ - const int16_t N, /* i : number of input samples */ - float *out /* o : output array of size 2*N */ -); - -void Decimate_allpass_steep( - const float *in, /* i : input array of size N */ - float *mem, /* i/o: memory */ - const int16_t N, /* i : number of input samples */ - float *out /* o : output array of size N/2 */ -); - -void interpolate_3_over_2_allpass( - const float *input, /* i : input signal */ - const int16_t len, /* i : number of input samples */ - float *out, /* o : output signal */ - float *mem /* i/o: memory */ -); - -void decimate_2_over_3_allpass( - const float *input, /* i : input signal */ - const int16_t len, /* i : number of input samples */ - float *out, /* o : output signal */ - float *mem, /* i/o: memory */ - float *lp_mem ); - -void interpolate_3_over_1_allpass( - const float *input, /* i : input signal */ - const int16_t len, /* i : number of input samples */ - float *out, /* o : output signal */ - float *mem /* i/o: memory */ -); - -void InitSWBencBuffer( - TD_BWE_ENC_HANDLE hBWE_TD /* i/o: TD BWE data handle */ -); - -void InitSWBencBufferStates( - TD_BWE_ENC_HANDLE hBWE_TD, /* i/o: TD BWE data handle */ - float *shb_speech /* o : SHB target signal (6-14kHz) at 16kHz */ -); - -void swb_tbe_enc( - Encoder_State *st, /* i/o: encoder state structure */ - STEREO_ICBWE_ENC_HANDLE hStereoICBWE, /* i/o: IC-BWE state structure */ - const float *new_speech, /* i : original input signal */ - const float *bwe_exc_extended, /* i : bandwidth extended exciatation */ - const float voice_factors[], /* i : voicing factors */ - float *White_exc16k, /* o : shaped white excitation for the FB TBE */ - const float pitch_buf[] /* i : pitch for each subframe */ -); - -void swb_tbe_dec( - Decoder_State *st, /* i/o: decoder state structure */ - STEREO_ICBWE_DEC_HANDLE hStereoICBWE, /* i/o: IC-BWE state structure */ - const float *bwe_exc_extended, /* i : bandwidth extended exciatation */ - const float voice_factors[], /* i : voicing factors */ - const float old_syn_12k8_16k[], /* i : low band synthesis at 12.8kHz or 16kHz */ - float *White_exc16k, /* o : shaped white excitation for the FB TBE */ - float *synth, /* i/o: ACELP core synthesis/final synthesis */ - float *pitch_buf ); - -void flip_and_downmix_generic( - float input[], /* i : input spectrum */ - float output[], /* o : output spectrum */ - const int16_t length, /* i : length of spectra */ - float mem1_ext[HILBERT_ORDER1], /* i/o: Hilbert filter memory */ - float mem2_ext[2 * HILBERT_ORDER2], /* i/o: memory */ - float mem3_ext[2 * HILBERT_ORDER2], /* i/o: memory */ - int16_t *phase_state /* i/o: Phase state in case frequency isn't multiple of 50 Hz */ -); -void flip_and_downmix_generic_fx_32( - Word32 input[], /* i : input spectrum Qx*/ - Word32 output[], /* o : output spectrum Qx*/ - const Word16 length, /* i : length of spectra */ - Word32 mem1_ext[HILBERT_ORDER1], /* i/o: memory Qx*/ - Word32 mem2_ext[2 * HILBERT_ORDER2], /* i/o: memory Qx*/ - Word32 mem3_ext[2 * HILBERT_ORDER2], /* i/o: memory Qx*/ - Word16 *phase_state /* i/o: Phase state in case frequency isn't multiple of 50 Hz */ -); -void non_linearity( - const float input[], /* i : input signal */ - float output[], /* i : output signal */ - float old_bwe_exc_extended[], /* i/o: memory bugffer */ - const int16_t length, /* i : input length */ - float *prev_scale, /* i/o: memory */ - const int16_t coder_type, /* i : Coder Type */ - const float *voice_factors, /* i : Voice Factors */ - const int16_t L_frame /* i : ACELP frame length */ -); - -void interp_code_5over2( - const float inp_code[], /* i : input vector */ - float interp_code[], /* o : output vector */ - const int16_t inp_length /* i : length of the input vector */ -); - -void interp_code_4over2( - const float inp_code[], /* i : input vector */ - float interp_code[], /* o : output vector */ - const int16_t inp_length /* i : length of the input vector */ -); - -void flip_spectrum_and_decimby4( - const float input[], /* i : input spectrum */ - float output[], /* o : output spectrum */ - const int16_t length, /* i : vector length */ - float mem1[], /* i/o: memory */ - float mem2[], /* i/o: memory */ - const int16_t ramp_flag /* i : flag to trigger slow ramp-up of output */ -); - -void GenShapedWBExcitation( - float *excSHB, /* o : synthesized shaped shb exctiation */ - const float *lpc_shb, /* i : lpc coefficients */ - float *exc4kWhtnd, /* o : whitened synthesized shb excitation */ - float *mem_csfilt, /* i/o: memory */ - float *mem_genSHBexc_filt_down1, /* i/o: memory */ - float *mem_genSHBexc_filt_down2, /* i/o: memory */ - float *mem_genSHBexc_filt_down3, /* i/o: memory */ - float *state_lpc_syn, /* i/o: memory */ - const int16_t coder_type, /* i : coding type */ - const float *bwe_exc_extended, /* i : bandwidth extended exciatation */ - int16_t bwe_seed[], /* i/o: random number generator seed */ - const float voice_factors[], /* i : voicing factor */ - const int16_t uv_flag, /* i : unvoiced flag */ - const int16_t igf_flag ); - -void GenWBSynth( - const float *input_synspeech, /* i : input synthesized speech */ - float *shb_syn_speech_16k, /* o : output highband compnent */ - float *state_lsyn_filt_shb1, /* i/o: memory */ - float *state_lsyn_filt_shb2 /* i/o: memory */ -); - -void wb_tbe_enc( - Encoder_State *st, /* i/o: encoder state structure */ - const float *hb_speech, /* i : HB target signal (6-8kHz) at 16kHz */ - const float *bwe_exc_extended, /* i : bandwidth extended exciatation */ - const float pitch_buf[], /* i : pitch for each subframe */ - const float voicing[] /* o : OL maximum normalized correlation */ -); - -void wb_tbe_dec( - Decoder_State *st, /* i/o: decoder state structure */ - const float *bwe_exc_extended, /* i : bandwidth extended exciatation */ - const float voice_factors[], /* i : voicing factors */ - float *synth /* i/o: ACELP core synthesis/final synthesis */ -); - -void tbe_write_bitstream( - Encoder_State *st /* i/o: encoder state structure */ -); - -void tbe_read_bitstream( - Decoder_State *st /* i/o: decoder state structure */ -); - -void GenTransition( - TD_BWE_DEC_HANDLE hBWE_TD, /* i/o: TD BWE data handle */ - float *outputHB, /* o : synthesized HB transitions signal */ - const int32_t output_Fs, /* i : output sampling rate */ - const int16_t element_mode, /* i : element mode */ - const int16_t L_frame, /* i : ACELP frame length */ - const int16_t rf_flag, /* i : RF flag */ - const int32_t total_brate /* i : total bitrate */ -); - - -void GenTransition_fixed( - TD_BWE_DEC_HANDLE hBWE_TD, /* i/o: TD BWE data handle */ - Word32 *outputHB_fx, /* o : synthesized HB transitions signal : Q11 */ - const Word32 output_Fs, /* i : output sampling rate : Q0 */ - const Word16 element_mode, /* i : element mode : Q0 */ - const Word16 L_frame, /* i : ACELP frame length : Q0 */ - const Word16 rf_flag, /* i : RF flag : Q0 */ - const Word32 total_brate, /* i : total bitrate : Q0 */ - const Word16 prev_Qx ); - -void GenTransition_WB( - TD_BWE_DEC_HANDLE hBWE_TD, /* i/o: TD BWE data handle */ - float *outputHB, /* o : synthesized HB transitions signal */ - const int32_t output_Fs /* i : output sampling rate */ -); - -void GenTransition_WB_fixed( - TD_BWE_DEC_HANDLE hBWE_TD, /* i/o: TD BWE data handle */ - Word32 *outputHB_fx, /* o : synthesized HB transitions signal : Q11 */ - const Word32 output_Fs /* i : output sampling rate */ -); - -void td_bwe_dec_init( - TD_BWE_DEC_HANDLE hBWE_TD, /* i/o: TD BWE data handle */ - const int16_t extl, /* i : BWE extension layer */ - const int32_t output_Fs /* i : output sampling rate */ -); - -void TBEreset_enc( - TD_BWE_ENC_HANDLE hBWE_TD, /* i/o: TD BWE data handle */ - const int16_t last_core, /* i : last core */ - const int16_t bwidth /* i : audio bandwidth */ -); - -void TBEreset_dec( - Decoder_State *st /* i/o: decoder state structure */ -); - -/*! r: TBE bit consumption per frame */ -int16_t get_tbe_bits( - const int32_t total_brate, /* i : overall bitrate */ - const int16_t bwidth, /* i : audio bandwidth */ - const int16_t rf_mode /* i : channel aware mode */ -); - -void fb_tbe_enc( - Encoder_State *st, /* i/o: encoder state structure */ - const float new_input[], /* i : input speech at 48 kHz sample rate */ - const float fb_exc[] /* i : FB excitation from the SWB part */ -); - -void fb_tbe_dec( - Decoder_State *st, /* i/o: decoder state structure */ - const float fb_exc[], /* i : FB excitation from the SWB part */ - float *hb_synth, /* i/o: high-band synthesis */ - float *fb_synth_ref, /* o : high-band synthesis 16-20 kHz */ - const int16_t output_frame /* i : output frame length */ -); - -void calc_tilt_bwe( - const float *sp, /* i : input signal */ - float *tilt, /* o : signal tilt */ - const int16_t N /* i : signal length */ -); - -void fd_bwe_enc_init( - FD_BWE_ENC_HANDLE hBWE_FD /* i/o: FD BWE data handle */ -); - -void swb_pre_proc( - Encoder_State *st, /* i/o: encoder state structure */ - float *new_swb_speech, /* o : original input signal at 32kHz */ - float *shb_speech, /* o : SHB target signal (6-14kHz) at 16kHz */ - float realBuffer[CLDFB_NO_COL_MAX][CLDFB_NO_CHANNELS_MAX], /* i : real buffer */ - float imagBuffer[CLDFB_NO_COL_MAX][CLDFB_NO_CHANNELS_MAX], /* i : imag buffer */ - CPE_ENC_HANDLE hCPE /* i/o: CPE encoder structure */ -); - -void wb_pre_proc( - Encoder_State *st, /* i/o: encoder state structure */ - const int16_t last_element_mode, /* i : last element mode */ - const float *new_inp_resamp16k, /* i : original input signal */ - float *hb_speech /* o : HB target signal (6-8kHz) at 16kHz */ -); - -void wb_bwe_enc( - Encoder_State *st, /* i/o: encoder state structure */ - const float *new_wb_speech /* i : original input signal at 16kHz */ -); - -void wb_bwe_dec_flt( - Decoder_State *st, /* i/o: decoder state structure */ - const float output[], /* i : synthesis @internal Fs */ - float *synth, /* i/o: ACELP core synthesis/final synthesis */ - float *hb_synth, /* o : SHB synthesis/final synthesis */ - const int16_t use_cldfb_for_dft, /* i : flag to use of CLDFB for DFT Stereo */ - const int16_t output_frame, /* i : frame length */ - const float voice_factors[], /* i : voicing factors */ - const float pitch_buf[] /* i : pitch buffer */ -); - -void swb_bwe_enc( - Encoder_State *st, /* i/o: encoder state structure */ - const int16_t last_element_mode, /* i : last element mode */ - const float *old_input_12k8, /* i : input signal @12.8kHz for SWB BWE */ - const float *old_input_16k, /* i : input signal @16kHz for SWB BWE */ - const float *old_syn_12k8_16k, /* i : ACELP core synthesis at 12.8kHz or 16kHz*/ - const float *new_swb_speech, /* i : original input signal at 32kHz */ - const float *shb_speech /* i : SHB target signal (6-14kHz) at 16kHz */ -); - -void swb_bwe_enc_hr( - Encoder_State *st, /* i/o: encoder state structure */ - const float *new_input, /* i : input signal */ - const int16_t input_frame, /* i : frame length */ - const int16_t unbits /* i : number of core unused bits */ -); - -void fd_bwe_dec_init_flt( - FD_BWE_DEC_HANDLE hBWE_FD /* i/o: FD BWE data handle */ -); - -void swb_bwe_dec_flt( - Decoder_State *st, /* i/o: decoder state structure */ - const float output[], /* i : synthesis @internal Fs */ - const float *synth, /* i : ACELP core synthesis/final synthesis */ - float *hb_synth, /* o : SHB synthesis/final synthesis */ - const int16_t use_cldfb_for_dft, /* i : flag to use of CLDFB for DFT Stereo */ - const int16_t output_frame /* i : frame length */ -); - -void hr_bwe_dec_init_flt( - HR_BWE_DEC_HANDLE hBWE_FD_HR /* i/o: HR BWE data handle */ -); - -void swb_bwe_dec_hr( - Decoder_State *st, /* i/o: decoder state structure */ - const float *syn_12k8_16k, /* i : ACELP core synthesis @16kHz */ - float *hb_synth, /* o : SHB synthesis */ - const int16_t output_frame, /* i : frame length */ - const int16_t unbits, /* i : number of core unused bits */ - const float pitch_buf[] /* i : pitch buffer */ -); - - -void calc_normal_length( - const int16_t core, /* i : core */ - const float *sp, /* i : input signal */ - const int16_t mode, /* i : input mode */ - const int16_t extl, /* i : extension layer */ - int16_t *L_swb_norm, /* o : normalize length */ - int16_t *prev_L_swb_norm /* i/o: last normalize length */ -); - -void calc_norm_envelop( - const float SWB_signal[], /* i : SWB spectrum */ - float *envelope, /* o : normalized envelope */ - const int16_t L_swb_norm, /* i : length of envelope */ - const int16_t SWB_flength, /* i : Length of input/output */ - const int16_t st_offset /* i : offset */ -); - -void time_envelop_shaping( - float werr[], /* i/o: SHB synthesis */ - float SWB_tenv[], /* i/o: frequency envelope */ - const int16_t L /* i : frame length */ -); - -void time_reduce_pre_echo( - const float *synth, /* i : ACELP core synthesis */ - float *error, /* o : SHB BWE synthesis */ - float prev_td_energy, /* o : last td energy */ - const int16_t L /* i : subframe length */ -); - -int16_t WB_BWE_gain_pred( - float *WB_fenv, /* o : WB frequency envelopes */ - const float *core_dec_freq, /* i : Frequency domain core decoded signal */ - const int16_t coder_type, /* i : coding type */ - const int16_t prev_code_type, /* i : coding type of last frame */ - const float prev_WB_fenv, /* i : envelope for last frame */ - const float voice_factors[], /* i : voicing factors */ - const float pitch_buf[], /* i : pitch buffer */ - const int32_t last_core_brate, /* i : previous frame core bitrate */ - const float last_wb_bwe_ener, /* i : previous frame wb bwe signal energy */ - const int16_t last_extl, /* i : extl. layer for last frame */ - const float tilt ); - -void WB_BWE_decoding( - const float *core_dec_freq, /* i : Frequency domain core decoded signal */ - float *WB_fenv, /* i : WB frequency envelopes */ - float *WB_signal, /* o : WB signal in MDCT domain */ - const int16_t WB_flength, /* i : Length of input/output */ - const int16_t mode, /* i : classification for WB signal */ - const int16_t last_extl, /* i : extl. layer for last frame */ - float *prev_Energy, /* i/o: energy for last frame */ - float *prev_WB_fenv, /* i/o: envelope for last frame */ - int16_t *prev_L_wb_norm, /* i/o: length for last frame wb norm */ - const int16_t extl, /* i : extension layer */ - const int16_t coder_type, /* i : coding type */ - const int32_t total_brate, /* i : core layer bitrate */ - int16_t *Seed, /* i/o: random generator seed */ - int16_t *prev_flag, /* i/o: attenu flag of last frame */ - int16_t prev_coder_type /* i : coding type of last frame */ -); - -void SWB_BWE_decoding( - const float *core_dec_freq, /* i : Frequency domain core decoded signal */ - float *SWB_fenv, /* i/o: SWB frequency envelopes */ - float *SWB_signal, /* o : SWB signal in MDCT domain */ - const int16_t SWB_flength, /* i : Length of input/output */ - const int16_t mode, /* i : classification for SWB signal */ - int16_t *frica_flag, /* o : fricative signal flag */ - float *prev_Energy, /* i/o: energy for last frame */ - float *prev_SWB_fenv, /* i/o: envelope for last frame */ - int16_t *prev_L_swb_norm, /* i/o: length for last frame wb norm */ - const float tilt_nb, /* i : tilt of synthesis wb signal */ - int16_t *Seed, /* i/o: random generator seed */ - const int16_t st_offset, /* i : offset value due to different core */ - float *prev_weight, /* i/o: excitation weight value of last frame */ - const int16_t extl, /* i : extension layer */ - const int16_t last_extl /* i : extension layer of last frame */ -); - -void CNG_reset_enc( - Encoder_State *st, /* i/o: encoder state structure */ - float *pitch_buf, /* o : floating pitch for each subframe */ - float *voice_factors, /* o : voicing factors */ - int16_t VBR_cng_reset_flag ); - -/*! r: stability flag */ -uint16_t a2rc( - const float *a, /* i : LPC coefficients */ - float *refl, /* o : Reflection co-efficients */ - const int16_t lpcorder /* i : LPC order */ -); - - -void analy_sp( - const int16_t element_mode, /* i : element mode */ - CPE_ENC_HANDLE hCPE, /* i/o: CPE encoder structure */ - const int32_t input_Fs, /* i : input sampling rate */ - float *speech, /* i : speech buffer */ - float *Bin_E, /* o : per bin log energy spectrum */ - float *Bin_E_old, /* o : per bin log energy spectrum for mid-frame */ - float *fr_bands, /* o : per band energy spectrum (2 analyses) */ - float lf_E[], /* o : per bin E for first VOIC_BINS bins (without DC) */ - float *Etot, /* o : total input energy */ - const int16_t min_band, /* i : minimum critical band */ - const int16_t max_band, /* i : maximum critical band */ - float *band_ener, /* o : energy in critical frequency bands without minimum noise floor E_MIN */ - float *PS, /* o : Per bin energy spectrum */ - float *fft_buff /* o : FFT coefficients */ -); - -void CNG_enc( - Encoder_State *st, /* i/o: State structure */ - float Aq[], /* o : LP coefficients */ - const float *speech, /* i : pointer to current frame input speech buffer */ - float enr, /* i : frame energy output from Levinson recursion */ - const float *lsp_mid, /* i : mid frame LSPs */ - float *lsp_new, /* i/o: current frame LSPs */ - float *lsf_new, /* i/o: current frame LSFs */ - int16_t *allow_cn_step, /* o : allow CN step */ - float *q_env, - int16_t *sid_bw ); - -void swb_CNG_enc( - Encoder_State *st, /* i/o: State structure */ - const float *shb_speech, /* i : SHB target signal (6-14kHz) at 16kHz */ - const float *syn_12k8_16k /* i : ACELP core synthesis at 12.8kHz or 16kHz */ -); - -void lsf_enc( - Encoder_State *st, /* i/o: state structure */ - float *lsf_new, /* o : quantized LSF vector */ - float *lsp_new, /* i/o: LSP vector to quantize/quantized */ - float *lsp_mid, /* i : mid-frame LSP vector */ - float *Aq, /* o : quantized A(z) for 4 subframes */ - const int16_t tdm_low_rate_mode, /* i : secondary channel low rate mode flag */ - const int16_t GSC_IVAS_mode, /* i : GSC IVAS mode */ - const float tdm_lsfQ_PCh[M] /* i : Q LSFs for primary channel */ -); - -void isf_enc_amr_wb( - Encoder_State *st, /* i/o: state structure */ - float *isf_new, /* o : quantized ISF vector */ - float *isp_new, /* i/o: ISP vector to quantize/quantized */ - float *Aq /* o : quantized A(z) for 4 subframes */ -); - -void find_targets( - const float *speech, /* i : pointer to the speech frame */ - const float *mem_syn, /* i : memory of the synthesis filter */ - const int16_t i_subfr, /* i : subframe index */ - float *mem_w0, /* i/o: weighting filter denominator memory */ - const float *p_Aq, /* i : interpolated quantized A(z) filter */ - const float *res, /* i : residual signal */ - const int16_t L_subfr, /* i : length of vectors for gain quantization */ - const float *Ap, /* i : unquantized A(z) filter with bandwidth expansion */ - const float tilt_fac, /* i : tilt factor */ - float *xn, /* o : Close-loop Pitch search target vector */ - float *cn, /* o : target vector in residual domain */ - float *h1 /* o : impulse response of weighted synthesis filter */ -); - -Word16 quant_2p_2N1_fx( /* o: return (2*N)+1 bits */ - const Word16 pos1, /* i: position of the pulse 1 */ - const Word16 pos2, /* i: position of the pulse 2 */ - const Word16 N /* i: number of bits FOR position */ -); -void find_tilt( - const float fr_bands[], /* i : energy in frequency bands */ - const float bckr[], /* i : per band background noise energy estimate */ - float ee[2], /* o : lf/hf E ration for present frame */ - const int16_t pitch[3], /* i : open loop pitch values for 3 half-frames */ - const float voicing[3], /* i : normalized correlation for 3 half-frames */ - const float *lf_E, /* i : per bin energy for low frequencies */ - const float corr_shift, /* i : normalized correlation correction */ - const int16_t bwidth, /* i : input signal bandwidth */ - const int16_t max_band, /* i : maximum critical band */ - float hp_E[], /* o : energy in HF */ - const int16_t codec_mode, /* i : Mode 1 or 2 */ - float *bckr_tilt_lt, /* i/o: lf/hf E ratio of background noise */ - int16_t Opt_vbr_mode ); - -void init_gp_clip( - float mem[] /* o : memory of gain of pitch clipping algorithm */ -); - -int16_t gp_clip( - const int16_t element_mode, /* i : element mode */ - const int32_t core_brate, /* i : core bitrate */ - const float *voicing, /* i : normalized correlations (from OL pitch) */ - const int16_t i_subfr, /* i : subframe index */ - const int16_t coder_type, /* i : coding type */ - const float xn[], /* i : target vector */ - float mem[] /* i/o: memory of gain of pitch clipping algorithm */ -); - -void gp_clip_test_lsf( - const int16_t element_mode, /* i : element mode */ - const int32_t core_brate, /* i : core bitrate */ - const float lsf[], /* i : LSF vector */ - float mem[], /* i/o: memory of gain of pitch clipping algorithm */ - const int16_t Opt_AMR_WB /* i : flag indicating AMR-WB IO mode */ -); - -void gp_clip_test_gain_pit( - const int16_t element_mode, /* i : element mode */ - const int32_t core_brate, /* i : core bitrate */ - const float gain_pit, /* i : gain of quantized pitch */ - float mem[] /* i/o: memory of gain of pitch clipping algorithm */ -); - -void analy_lp( - const float speech[], /* i : pointer to the denoised speech frame */ - const int16_t L_frame, /* i : length of the frame */ - const int16_t L_look, /* i : look-ahead length */ - float *ener, /* o : residual signal energy */ - float A[], /* o : A(z) filter coefficients */ - float epsP[], /* o : LP analysis residual energies for each iteration */ - float lsp_new[], /* o : current frame ISPs */ - float lsp_mid[], /* o : current mid-frame ISPs */ - float lsp_old[], /* i/o: previous frame unquantized ISPs */ - const int16_t Top[2], /* i : open loop pitch lag */ - const float Tnc[2], /* i : open loop pitch gain */ - const int32_t sr_core, /* i : internal sampling rate */ - const int16_t sec_chan_low_rate /* i : TD secondary channel flag */ -); - -void analy_lp_AMR_WB( - const float speech[], /* i : pointer to the speech frame */ - float *ener, /* o : residual energy from Levinson-Durbin */ - float A[], /* o : A(z) filter coefficients */ - float epsP[], /* o : LP analysis residual energies for each iteration */ - float isp_new[], /* o : current frame ISPs */ - float isp_old[], /* i/o: previous frame unquantized ISPs */ - float isf_new[], /* o : current frame ISFs */ - const int16_t Top, /* i : open loop pitch lag */ - const float Tnc /* i : open loop pitch gain */ -); - -void noise_est_init( - NOISE_EST_HANDLE hNoiseEst /* i/o: Noise estimation handle */ -); - -void speech_music_clas_init( - SP_MUS_CLAS_HANDLE hSpMusClas /* i/o: speech/music classifier handle */ -); - -void long_enr( - Encoder_State *st, /* i/o: encoder state structure */ - const float Etot, /* i : total channel energy */ - const int16_t localVAD_HE_SAD, /* i : HE-SAD flag without hangover */ - const int16_t high_lpn_flag, /* i : sp/mus LPN flag */ - FRONT_VAD_ENC_HANDLE hFrontVad[], /* i/o: front-VAD handles */ - const int16_t n_chan, /* i : number of channels */ - const int16_t localVAD_HE_SAD_LR[], /* i : HE-SAD flag without hangover LR channels */ - const float Etot_LR[] /* i : total channel energy LR channels */ -); - -void noise_est_pre( - const float Etot, /* i : Energy of current frame */ - const int16_t ini_frame, /* i : Frame number (init) */ - NOISE_EST_HANDLE hNoiseEst, /* i/o: Noise estimation data handle */ - const int16_t idchan, /* i : channel ID */ - const int16_t element_mode, /* i : element mode */ - const int16_t last_element_mode /* i : last element mode */ -); - -void noise_est_down( - const float fr_bands[], /* i : per band input energy (contains 2 vectors) */ - float bckr[], /* i/o: per band background noise energy estimate */ - float tmpN[], /* o : temporary noise update */ - float enr[], /* o : averaged energy over both subframes */ - const int16_t min_band, /* i : minimum critical band */ - const int16_t max_band, /* i : maximum critical band */ - float *totalNoise, /* o : noise estimate over all critical bands */ - const float Etot, /* i : Energy of current frame */ - float *Etot_last, /* i/o: Energy of last frame */ - float *Etot_v_h2 /* i/o: Energy variaions of noise frames */ -); - -void noise_est( - Encoder_State *st, /* i/o: encoder state structure */ - const int16_t old_pitch1, /* i : previous frame OL pitch[1] */ - const float tmpN[], /* i : temporary noise update */ - const float *epsP, /* i : LP prediction error energies */ - const float Etot, /* i : total channel E */ - const float relE, /* i : relative frame energy */ - const float corr_shift, /* i : normalized correlation correction */ - const float enr[], /* i : averaged energy over both subframes */ - float fr_bands[], /* i : spectrum per critical bands of the current frame */ - float *cor_map_sum, /* o : sum of correlation map from mult-harm analysis */ - float *ncharX, /* o : noise character for sp/mus classifier */ - float *sp_div, /* o : soectral diversity feature */ - float *non_staX, /* o : non-stationarity for sp/mus classifier */ - int16_t *loc_harm, /* o : multi-harmonicity flag for UV classifier */ - const float *lf_E, /* i : per bin energy for low frequencies */ - int16_t *st_harm_cor_cnt, /* i : 1st harm correlation timer */ - const float Etot_l_lp, /* i : Smoothed low energy */ - float *sp_floor, /* o : noise floor estimate */ - float S_map[], /* o : short-term correlation map */ - STEREO_CLASSIF_HANDLE hStereoClassif, /* i/o: stereo classifier structure */ - FRONT_VAD_ENC_HANDLE hFrontVad, /* i/o: front-VAD handle */ - const int16_t ini_frame /* i : Frame number (init) */ -); - -void vad_param_updt( - Encoder_State *st, /* i/o: encoder state structure */ - const float corr_shift, /* i : correlation shift */ - const float corr_shiftR, /* i : correlation shift right channel */ - const float A[], /* i : A(z) unquantized for the 4 subframes */ - const int16_t old_pitch1, /* i : previous frame OL pitch[1] */ - FRONT_VAD_ENC_HANDLE hFrontVad[], /* i/o: front-VAD handles */ - const int16_t n_channels /* i : number of channels */ -); - - -void lp_gain_updt( - const int16_t i_subfr, /* i : subframe number */ - const float gain_pit, /* i : Decoded gain pitch */ - const float norm_gain_code, /* i : Normalised gain code */ - float *lp_gainp, /* i/o: LP-filtered pitch gain(FEC) */ - float *lp_gainc, /* i/o: LP-filtered code gain (FEC) */ - const int16_t L_frame /* i : length of the frame */ -); - -void GSC_enc_init( - GSC_ENC_HANDLE hGSCEnc /* i/o: GSC data handle */ -); - - -/*! r: index of the last band where pitch contribution is significant */ -int16_t Pit_exc_contribution_len( - Encoder_State *st, /* i/o: state structure */ - const float *dct_res, /* i : DCT of residual */ - float *dct_pitex, /* i/o: DCT of pitch contribution */ - float *pitch_buf, /* i/o: Pitch per subframe */ - int16_t *hangover /* i : Hangover for the time contribution switching */ -); - -int16_t stab_est( - float etot, /* i : Total energy of the current frame */ - float *lt_diff_etot, /* i/o: Long term total energy variation */ - float *mem_etot, /* i/o: Total energy memory */ - int16_t *nb_thr_3, /* i/o: Number of consecutives frames of level 3 */ - int16_t *nb_thr_1, /* i/o: Number of consecutives frames of level 1 */ - float *thresh, /* i/o: Detection thresold */ - int16_t *last_music_flag, /* i/o: Previous music detection ouptut */ - const int16_t vad_flag /* i : VAD flag */ -); - -float gsc_gainQ( - BSTR_ENC_HANDLE hBstr, /* i/o: encoder bitstream handle */ - const int16_t element_mode, /* i : element mode */ - const int16_t idchan, /* i : channel ID */ - const float y_gain4[], /* i : gain per band */ - float y_gainQ[], /* o : quantized gain per band */ - const int32_t core_brate, /* i : Core rate */ - const int16_t coder_type, /* i : coding type */ - const int16_t bwidth, /* i : input signal bandwidth */ - const int16_t L_frame, /* i : frame length */ - const int16_t tdm_LRTD_flag, /* i : LRTD stereo mode flag */ - const int32_t core_brate_inp /* i : true core brate */ -); - -void Comp_and_apply_gain( - float exc_diffQ[], /* i/o: gain per band */ - float Ener_per_bd_iQ[], /* o : Quant Ener per band */ - float Ener_per_bd_yQ[], /* o : Ener per band for quantize y */ - int16_t Mbands_gn, /* i : number of bands */ - const int16_t ReUseGain /* i : Reuse the gain in Ener_per_bd_yQ */ -); - -void bands_and_bit_alloc_ivas_fx( - const Word16 cor_strong_limit, /* i : HF correlation */ - const Word16 noise_lev, /* i : dwn scaling factor */ - const Word32 core_brate, /* i : core bit rate */ - const Word16 Diff_len, /* i : Lenght of the difference signal (before pure spectral)*/ - const Word16 bits_used, /* i : Number of bit used before frequency Q */ - Word16 *bit, /* i/o: Number of bit allowed for frequency quantization */ - const Word16 *Ener_per_bd_iQ, /* i/o: Quantized energy vector */ - Word16 *max_ener_band, /* o : Sorted order */ - Word16 *out_bits_per_bands, /* i/o: Number of bit allowed per allowed subband Q3 */ - Word16 *nb_subbands, /* o : Number of subband allowed */ - const Word16 *exc_diff, /* i : Difference signal to quantize (encoder side only) */ - Word16 *concat_in, /* o : Concatened PVQ's input vector (encoder side only) */ - Word16 *pvq_len, /* o : Number of bin covered with the PVQ */ - const Word16 coder_type, /* i : coding type */ - const Word16 bwidth, /* i : input signal bandwidth */ - const Word16 GSC_noisy_speech, /* i : GSC noisy speech flag */ - const Word16 L_frame, /* i : frame length */ - const Word16 element_mode, /* i : element mode */ - const Word16 GSC_IVAS_mode /* i : GSC IVAS mode */ -); - -void GSC_dec_init_ivas( - GSC_DEC_HANDLE hGSCDec /* i/o: GSC data handle */ -); - -void decod_audio( - Decoder_State *st, /* i/o: decoder static memory */ - float dct_epit[], /* o : GSC excitation in DCT domain */ - const float *Aq, /* i : LP filter coefficient */ - float *tmp_noise, /* o : long term temporary noise energy */ - float *pitch_buf, /* o : floating pitch values for each subframe */ - float *voice_factors, /* o : voicing factors */ - float *exc_dct_in, /* i/o: adapt. excitation exc */ - float *exc2, /* i/o: adapt. excitation/total exc */ - float *bwe_exc, /* o : excitation for SWB TBE */ - float *lsf_new, /* i : current frame ISF vector */ - float *gain_buf, /* o : floating pitch gain for each subframe */ - const int16_t tdm_lp_reuse_flag, /* i : LPC reuse flag */ - const int16_t tdm_low_rate_mode, /* i : secondary channel low rate mode flag */ - const int16_t tdm_Pitch_reuse_flag, /* i : primary channel pitch reuse flag */ - const float tdm_Pri_pitch_buf[] /* i : primary channel pitch buffer */ -); - -void gsc_dec( - Decoder_State *st, /* i/o: State structure */ - float exc_dct_in[], /* i/o: dct of pitch-only/total excitation */ - const int16_t pit_band_idx, /* i : pitch band index */ - const int16_t Diff_len, /* i : */ - const int16_t bits_used, /* i : total number of bits used */ - const int16_t nb_subfr, /* i : Number of subframe considered */ - const int16_t coder_type, /* i : coding type */ - int16_t *last_bin, /* i : last bin of bit allocation */ - const float *lsf_new, /* i : ISFs at the end of the frame */ - float *exc_wo_nf, /* o : excitation (in f domain) without noisefill*/ - float *tmp_noise /* o : long-term noise energy */ -); - -void dec_pit_exc( - Decoder_State *st, /* i/o: decoder static memory */ - const int16_t L_frame, /* i : length of the frame */ - const float *Aq, /* i : LP filter coefficient */ - const float Es_pred, /* i : predicted scaled innov. energy */ - float *pitch_buf, /* o : floating pitch values for each subframe */ - float *code, /* o : innovation */ - float *exc, /* i/o: adapt. excitation exc */ - const int16_t nb_subfr, /* i : Number of subframe considered */ - float *gain_buf, /* o : floating pitch gain for each subframe */ - const int16_t tdm_Pitch_reuse_flag, /* i : primary channel pitch reuse flag */ - const float tdm_Pri_pitch_buf[] /* i : primary channel pitch buffer */ -); - -void music_postfilt_init_flt( - MUSIC_POSTFILT_HANDLE hMusicPF /* i/o: LD music postfilter handle */ -); - -void LD_music_post_filter( - MUSIC_POSTFILT_HANDLE hMusicPF, /* i/o: LD music postfilter handle */ - const float dtc_in[], /* i : input synthesis */ - float dtc_out[], /* o : output synthesis */ - const int32_t core_brate, /* i : core bitrate */ - const int16_t coder_type, /* i : Coder type : -1 in case of IO */ - const int16_t Last_coder_type /* i : last Coder type */ -); - -void Post_music_postP( - float dct_buffer_in[], /* i/o: excitation buffer */ - float exc_buffer_out[], /* o : DCT output buffer */ - float *exc2, /* i/o: Current excitation to be overwriten */ - const float *mem_tmp, /* i : previous frame synthesis memory */ - float *st_mem_syn2, /* i/o: current frame synthesis memory */ - const float *Aq, /* i : LPC filter coefficients */ - float *syn /* i/o: 12k8 synthesis */ -); - -void Prep_music_postP( - float exc_buffer_in[], /* i/o: excitation buffer */ - float dct_buffer_out[], /* o : DCT output buffer */ - float filt_lfE[], /* i/o: long term spectrum energy */ - const int16_t last_core, /* i : last core */ - const float *pitch_buf, /* i : current frame pitch information */ - float *LDm_enh_lp_gbin /* o : smoothed suppression gain, per bin FFT */ -); - -void speech_music_classif( - Encoder_State *st, /* i/o: encoder state structure */ - const float *new_inp, /* i : new input signal */ - const float *inp, /* i : input signal to locate attach position */ - const int16_t localVAD_HE_SAD, /* i : HE-SAD flag without hangover */ - const float lsp_new[M], /* i : LSPs in current frame */ - const float cor_map_sum, /* i : correlation map sum (from multi-harmonic anal.) */ - const float epsP[M + 1], /* i : LP prediciton error */ - const float PS[], /* i : energy spectrum */ - const float Etot, /* i : total frame energy */ - const float old_cor, /* i : max correlation from previous frame */ - int16_t *attack_flag, /* o : attack flag (GSC or TC) */ - const float non_staX, /* i : unbound non-stationarity for sp/mus classifier */ - const float relE, /* i : relative frame energy */ - int16_t *high_lpn_flag, /* o : sp/mus LPN flag */ - const int16_t flag_spitch /* i : flag to indicate very short stable pitch */ -); -void ivas_find_wsp_fx( - const Word16 L_frame, /* i : length of the frame Q0*/ - const Word16 L_subfr, /* i : length of subframe Q0*/ - const Word16 nb_subfr, /* i : number of subframes Q0*/ - const Word16 *A_fx, - /* i : A(z) filter coefficients */ // Q12 - Word16 *Aw_fx, - /* o : weighted A(z) filter coefficients */ // Q12 - const Word16 *speech_fx, - /* i : pointer to the denoised speech frame */ // Q_new - const Word16 tilt_fact, - /* i : tilt factor */ // Q15 - Word16 *wsp_fx, - /* o : poitnter to the weighted speech frame */ // Q_new - Word16 *mem_wsp_fx, - /* i/o: W(Z) denominator memory */ // Q_new - const Word16 gamma, - /* i : weighting factor */ // Q15 - const Word16 L_look /* i : look-ahead Q0*/ -); - -void gain_enc_amr_wb( - BSTR_ENC_HANDLE hBstr, /* i/o: encoder bitstream handle */ - const float *xn, /* i : target vector */ - const float *y1, /* i : zero-memory filtered adaptive excitation */ - const float *y2, /* i : zero-memory filtered algebraic codebook excitation */ - const float *code, /* i : algebraic excitation */ - const int32_t core_brate, /* i : core bitrate */ - float *gain_pit, /* i/o: Pitch gain / Quantized pitch gain */ - float *gain_code, /* o : Quantized codebook gain */ - float *gain_inov, /* o : innovation gain */ - float *norm_gain_code, /* o : norm. gain of the codebook excitation */ - float *coeff, /* i/o: correlations , -2,, -2 and 2 */ - const int16_t clip_gain, /* i : gain pitch clipping flag (1 = clipping) */ - float *past_qua_en /* i/o: gain quantization memory (4 words) */ -); - -void gain_enc_lbr( - BSTR_ENC_HANDLE hBstr, /* i/o: encoder bitstream handle */ - const int16_t gains_mode[], /* i : gain bits */ - const int16_t coder_type, /* i : coding type */ - const int16_t i_subfr, /* i : subframe index */ - const float *xn, /* i : target vector */ - const float *y1, /* i : zero-memory filtered adaptive excitation */ - const float *y2, /* i : zero-memory filtered algebraic codebook excitation */ - const float *code, /* i : algebraic excitation */ - float *gain_pit, /* o : quantized pitch gain */ - float *gain_code, /* o : quantized codebook gain */ - float *gain_inov, /* o : gain of the innovation (used for normalization) */ - float *norm_gain_code, /* o : norm. gain of the codebook excitation */ - float *g_corr, /* i/o: correlations , -2,, -2 and 2 */ - float gains_mem[], /* i/o: pitch gain and code gain from previous subframes */ - const int16_t clip_gain, /* i : gain pitch clipping flag (1 = clipping) */ - const int16_t L_subfr /* i : subfr Lenght */ -); - -void gain_enc_mless( - BSTR_ENC_HANDLE hBstr, /* i/o: encoder bitstream handle */ - const int16_t gains_mode[], /* i : gain bits */ - const int16_t element_mode, /* i : element mode */ - const int16_t L_frame, /* i : length of the frame */ - const int16_t i_subfr, /* i : subframe index */ - const int16_t tc_subfr, /* i : TC subframe index */ - const float *xn, /* i : target vector */ - const float *y1, /* i : zero-memory filtered adaptive excitation */ - const float *y2, /* i : zero-memory filtered algebraic codebook excitation */ - const float *code, /* i : algebraic excitation */ - const float Es_pred, /* i : predicted scaled innovation energy */ - float *gain_pit, /* o : quantized pitch gain */ - float *gain_code, /* o : quantized codebook gain */ - float *gain_inov, /* o : innovation gain */ - float *norm_gain_code, /* o : norm. gain of the codebook excitation */ - float *coeff, /* i/o: correlations , -2,, -2 and 2 */ - const int16_t clip_gain /* i : gain pitch clipping flag (1 = clipping) */ -); - -void gain_enc_SQ( - BSTR_ENC_HANDLE hBstr, /* i/o: encoder bitstream handle */ - const int16_t gains_mode[], /* i : gain bits */ - const int16_t i_subfr, /* i : subframe index */ - const float *xn, /* i : target vector */ - const float *yy1, /* i : zero-memory filtered adaptive excitation */ - const float *y2, /* i : zero-memory filtered algebraic codebook excitation */ - const float *code, /* i : algebraic excitation */ - const float Es_pred, /* i : predicted scaled innovation energy */ - float *gain_pit, /* o : quantized pitch gain */ - float *gain_code, /* o : quantized codebook gain */ - float *gain_inov, /* o : gain of the innovation (used for normalization) */ - float *norm_gain_code, /* o : norm. gain of the codebook excitation */ - float *g_corr, /* i/o: correlations , -2,, -2 and 2 */ - const int16_t clip_gain /* i : gain pitch clipping flag (1 = clipping) */ -); - -/*! r: Return index of quantization */ -int16_t gain_enc_gaus( - float *gain, /* i/o: Code gain to quantize */ - const int16_t bits, /* i : number of bits to quantize */ - const float lowBound, /* i : lower bound of quantizer (dB) */ - const float topBound /* i : upper bound of quantizer (dB) */ -); - -void E_corr_xy2( - const float xn[], /* i : target vector */ - const float y1[], /* i : filtered excitation components 1 */ - const float y2[], /* i : filtered excitation components 2 */ - float g_corr[], /* o : correlations between x, y1, y2, y3, y4 */ - const int16_t L_subfr /* i : subframe size */ -); - - -/*! r: coding type */ -int16_t find_uv( - Encoder_State *st, /* i/o: encoder state structure */ - const float *pitch_fr, /* i : pointer to adjusted fractional pitch (4 val.) */ - const float *voicing_fr, /* i : refined correlation for each subframes */ - const float *speech, /* i : pointer to speech signal for E computation */ - const float *ee, /* i : lf/hf Energy ratio for present frame */ - float *dE1X, /* o : sudden energy increase for S/M classifier */ - const float corr_shift, /* i : normalized correlation correction in noise */ - const float relE, /* i : relative frame energy */ - const float Etot, /* i : total energy */ - const float hp_E[], /* i : energy in HF */ - int16_t *flag_spitch, /* i/o: flag to indicate very short stable pitch and high correlation */ - const int16_t last_core_orig, /* i : original last core */ - STEREO_CLASSIF_HANDLE hStereoClf /* i/o: stereo classifier structure */ -); - -/*! r: classification for current frames */ -int16_t signal_clas( - Encoder_State *st, /* i/o: encoder state structure */ - const float *speech, /* i : pointer to speech signal for E computation */ - const float *ee, /* i : lf/hf E ration for 2 half-frames */ - const float relE, /* i : frame relative E to the long term average */ - const int16_t L_look, /* i : look-ahead */ - int16_t *clas_mod /* o : class flag for NOOP detection */ -); - -void select_TC( - const int16_t codec_mode, /* i : codec mode */ - const int16_t tc_cnt, /* i : TC frame counter */ - int16_t *coder_type, /* i/o: coder type */ - const int16_t localVAD /* i : VAD without hangover */ -); - - -void wb_vad_init( - VAD_HANDLE hVAD /* i/o: VAD data handle */ -); - -int16_t dtx_hangover_addition( - Encoder_State *st, /* i/o: encoder state structure */ - const int16_t vad_flag, /* i : VAD flag */ - const float snr, /* i : input single SNR estimate */ - const int16_t cldfb_subtraction, /* i : */ - int16_t *vad_hover_flag, /* o : VAD hangover flag */ - VAD_HANDLE hVAD, /* i/o: VAD handle for L or R channel */ - NOISE_EST_HANDLE hNoiseEst, /* i : Noise estimation handle */ - int16_t *rem_dtx_ho /* o : Expected remaining hangover frames */ -); - -int16_t wb_vad( - Encoder_State *st, /* i/o: encoder state structure */ - const float fr_bands[], /* i : per band input energy (contains 2 vectors) */ - int16_t *noisy_speech_HO, /* o : SC-VBR noisy speech HO flag */ - int16_t *clean_speech_HO, /* o : SC-VBR clean speech HO flag */ - int16_t *NB_speech_HO, /* o : SC-VBR NB speech HO flag */ - float *snr_sum_he, /* i : voicing metric from SAD */ - int16_t *localVAD_HE_SAD, /* o : HE_SAD decision without hangovers */ - int16_t *flag_noisy_speech_snr, /* o : */ - VAD_HANDLE hVAD, /* i/o: VAD handle */ - NOISE_EST_HANDLE hNoiseEst, /* i/o: Noise estimation handle */ - float lp_speech, /* i : long term active speech energy average */ - float lp_noise /* i : long term noise energy */ -); - -void bw_detect( - Encoder_State *st, /* i/o: Encoder State */ - const float signal_in[], /* i : input signal */ - float *spectrum, /* i : MDCT spectrum */ - const float *enerBuffer, /* i : energy buffer */ - const IVAS_FORMAT ivas_format, /* i : IVAS format */ - const int16_t mct_on /* i : flag MCT mode */ -); - -void set_bw( - const int16_t element_mode, /* i : element mode */ - const int32_t element_brate, /* i : element bitrate */ - Encoder_State *st, /* i/o: Encoder State */ - const int16_t codec_mode /* i : codec mode */ -); - -float gaus_encode( - Encoder_State *st, /* i/o: encoder state structure */ - const int16_t i_subfr, /* i : subframe index */ - const float *h1, /* i : weighted filter input response */ - const float *xn, /* i : target vector */ - float *exc, /* o : pointer to excitation signal frame */ - float *mem_w0, /* o : weighting filter denominator memory */ - float *gp_clip_mem, /* o : memory of gain of pitch clipping algorithm */ - float *tilt_code, /* o : synthesis excitation spectrum tilt */ - float *code, /* o : algebraic excitation */ - float *gain_code, /* o : Code gain. */ - float *y2, /* o : zero-memory filtered adaptive excitation */ - float *gain_inov, /* o : innovation gain */ - float *voice_fac, /* o : voicing factor */ - float *gain_pit, /* o : adaptive excitation gain */ - float *norm_gain_code /* o : normalized innovative cb. gain */ -); - -void td_cng_enc_init( - TD_CNG_ENC_HANDLE hTdCngEnc, /* i/o: DTX/TD CNG data handle */ - const int16_t Opt_DTX_ON, /* i : flag indicating DTX operation */ - const int16_t max_bwidth /* i : maximum encoded bandwidth */ -); - -void dtx( - Encoder_State *st, /* i/o: encoder state structure */ - const int32_t ivas_total_brate, /* i : IVAS total bitrate */ - const int16_t vad, /* i : VAD flag for DTX */ - const float speech[] /* i : Pointer to the speech frame */ -); - -void dtx_hangover_control( - Encoder_State *st, /* i/o: encoder state structure */ - const float lsp_new[M] /* i : current frame LSPs */ -); - - -void updt_enc_common( - Encoder_State *st /* i/o: encoder state structure */ -); - -void updt_IO_switch_enc( - Encoder_State *st, /* i/o: state structure */ - const int16_t input_frame /* i : input frame length */ -); - -void transition_enc( - Encoder_State *st, /* i/o: encoder state structure */ - const int16_t i_subfr, /* i : subframe index */ - int16_t *tc_subfr, /* i/o: TC subframe index */ - int16_t *Jopt_flag, /* i : joint optimization flag */ - int16_t *position, /* i/o: maximum of residual signal index */ - int16_t *T0, /* i/o: close loop integer pitch */ - int16_t *T0_frac, /* i/o: close loop fractional part of the pitch */ - int16_t *T0_min, /* i/o: lower limit for close-loop search */ - int16_t *T0_max, /* i/o: higher limit for close-loop search */ - float *exc, /* i/o: pointer to excitation signal frame */ - float *y1, /* o : zero-memory filtered adaptive excitation */ - const float *h1, /* i : weighted filter input response */ - const float *xn, /* i : target vector */ - float *xn2, /* o : target vector for innovation search */ - float *gp_cl, /* i/o: memory of gain of pitch clipping algorithm */ - float *gain_pit, /* o : adaptive excitation gain */ - float *g_corr, /* o : ACELP correlation values */ - int16_t *clip_gain, /* i/o: adaptive gain clipping flag */ - float **pt_pitch, /* o : floating pitch values */ - float *bwe_exc, /* i/o: excitation for SWB TBE */ - int16_t *unbits /* i/o: unused bits */ -); - -void tc_classif_enc( - const int16_t L_frame, /* i : length of the frame */ - int16_t *tc_subfr, /* i/o: TC subframe index */ - int16_t *position, /* i/o: maximum of residual signal index */ - const int16_t attack_flag, /* i : attack flag */ - const int16_t pitch, /* i : open loop pitch estimates for first halfframe */ - const float *res /* i : pointer to the LP residual signal frame */ -); - - -void gain_enc_tc( - BSTR_ENC_HANDLE hBstr, /* i/o: encoder bitstream handle */ - const int16_t gains_mode[], /* i : gain bits */ - const int16_t i_subfr, /* i : subframe index */ - const float xn[], /* i : target vector */ - const float y2[], /* i : zero-memory filtered algebraic codebook excitation */ - const float code[], /* i : algebraic excitation */ - const float Es_pred, /* i : predicted scaled innovation energy */ - float *gain_pit, /* o : pitch gain / Quantized pitch gain */ - float *gain_code, /* o : quantized codebook gain */ - float *gain_inov, /* o : innovation gain */ - float *norm_gain_code /* o : norm. gain of the codebook excitation */ -); - - -/*! r: comfort noise gain factor */ -float AVQ_cod( - const float xri[], /* i : vector to quantize */ - int16_t xriq[], /* o : quantized normalized vector (assuming the bit budget is enough) */ - const int16_t nb_bits, /* i : number of allocated bits */ - const int16_t Nsv /* i : number of subvectors (lg=Nsv*8) */ -); - -void AVQ_encmux( - BSTR_ENC_HANDLE hBstr, /* i/o: encoder bitstream handle */ - const int16_t extl, /* i : extension layer */ - int16_t xriq[], /* i/o: rounded subvectors [0..8*Nsv-1] followed by rounded bit allocations [8*Nsv..8*Nsv+Nsv-1] */ - int16_t *nb_bits, /* i/o: number of allocated bits */ - const int16_t Nsv, /* i : number of subvectors */ - int16_t nq[], /* o : AVQ nq index */ - int16_t avq_bit_sFlag, /* i : flag indicating AVQ bit savings */ - int16_t trgtSvPos /* i : target SV for AVQ bit savings */ -); - -void ordr_esti( - const int16_t k, /* i : sub-vector index */ - int16_t *Mpos, /* i/o: dominant sub-vector position from ACV */ - int16_t svOrder[], /* i/o: AVQ sub-vector order */ - const int16_t Nsv /* i : total sub-vectors in a sub-frames */ -); - -void re8_cod( - int16_t x[], /* i : point in RE8 (8-dimensional integer vector) */ - int16_t *n, /* i : codebook number (*n is an integer defined in {0,2,3,4,..,n_max}) */ - uint16_t *I, /* o : index of c (pointer to unsigned 16-bit word) */ - int16_t k[] /* o : index of v (8-dimensional vector of binary indices) = Voronoi index */ -); - -void pre_exc( - const int16_t Opt_AMR_WB, /* i : flag indicating AMR-WB IO mode */ - const int16_t L_frame, /* i : frame length */ - const float *speech, /* i : input speech */ - const float *p_Aq, /* i : 12k8 Lp coefficient */ - const float *p_A, /* i : unquantized A(q) filter with bandwidth expansion */ - const int16_t coder_type, /* i : coding type */ - const int16_t i_subfr, /* i : current sub frame indicator */ - float *Ap, /* o : weighted LP filter coefficients */ - const float *res, /* i : residual signal */ - float *h1, /* o : impulse response of weighted synthesis filter */ - float *xn, /* o : close-loop Pitch search target vector */ - float *cn, /* o : target vector in residual domain */ - float *mem_syn, /* i/o: memory of the synthesis filter */ - float *mem_w0, /* i/o: weighting filter denominator memory */ - const int16_t L_subfr /* i : subframe length */ -); - - -void encod_amr_wb( - Encoder_State *st, /* i/o: state structure */ - const float speech[], /* i : input speech */ - const float Aw[], /* i : weighted A(z) unquantized for subframes */ - const float Aq[], /* i : 12k8 Lp coefficient */ - const float *res, /* i : residual signal */ - float *syn, /* i/o: core synthesis */ - float *exc, /* i/o: current non-enhanced excitation */ - float *exc2, /* i/o: current enhanced excitation */ - float *pitch_buf, /* i/o: floating pitch values for each subframe */ - int16_t hf_gain[NB_SUBFR], /* o : decoded HF gain */ - const float *speech16k /* i : input speech @16kHz */ -); - -void stat_noise_uv_enc( - Encoder_State *st, /* i/o: state structure */ - const float *epsP, /* i : LP prediction errors */ - const float *isp_new, /* i : immittance spectral pairs at 4th sfr */ - const float *isp_mid, /* i : immittance spectral pairs at 2nd sfr */ - float *Aq, /* i/o: A(z) quantized for the 4 subframes */ - float *exc2, /* i/o: excitation buffer */ - const int16_t uc_two_stage_flag /* o : flag undicating two-stage UC */ -); - -void re8_compute_base_index( - const int16_t *x, /* i : Elemen of Q2, Q3 or Q4 */ - const int16_t ka, /* i : Identifier of the absolute leader related to x */ - uint16_t *I /* o : index */ -); - -void transf_cdbk_enc( - Encoder_State *st, /* i/o: encoder state structure */ - const int16_t harm_flag_acelp, /* i : harmonic flag for higher rates ACELP */ - const int16_t i_subfr, /* i : subframe index */ - float cn[], /* i/o: target vector in residual domain */ - float exc[], /* i/o: pointer to excitation signal frame */ - const float *p_Aq, /* i : 12k8 Lp coefficient */ - const float Ap[], /* i : weighted LP filter coefficients */ - const float h1[], /* i : weighted filter input response */ - float xn[], /* i/o: target vector */ - float xn2[], /* i/o: target vector for innovation search */ - float y1[], /* i/o: zero-memory filtered adaptive excitation */ - const float y2[], /* i : zero-memory filtered innovative excitation */ - const float Es_pred, /* i : predicited scaled innovation energy */ - float *gain_pit, /* i/o: adaptive excitation gain */ - const float gain_code, /* i : innovative excitation gain */ - float g_corr[], /* o : ACELP correlation values */ - const int16_t clip_gain, /* i : adaptive gain clipping flag */ - float *gain_preQ, /* o : prequantizer excitation gain */ - float code_preQ[], /* o : prequantizer excitation */ - int16_t *unbits /* i/o: number of AVQ unused bits */ -); -void deemph_lpc( - float *p_Aq_cuerr, /* i : LP coefficients current frame */ - float *p_Aq_old, /* i : LP coefficients previous frame */ - float *LPC_de_curr, /* o : De-emphasized LP coefficients current frame */ - float *LPC_de_old, /* o : De-emphasized LP coefficients previous frame*/ - const int16_t deemph_old ); - -void Interpol_delay( - float *out, /* o : pitch interpolation output */ - float *last, /* i : last frame pitch lag */ - float *current, /* i : current frame pitch lag */ - int16_t SubNum, /* i : subframe number */ - const float *frac /* i : interpolation constant */ -); - -void dequantize_uvg( - int16_t iG1, /* i : gain 1 index */ - int16_t *iG2, /* i : gain 2 index */ - float *G, /* o : quantized gain */ - const int16_t bwidth /* i : audio bandwidth */ -); - -void generate_nelp_excitation( - int16_t *seed, /* i/o: random number seed */ - float *Gains, /* i : excitation gains */ - float *output, /* o : excitation output */ - float gain_fac /* i : gain factor */ -); - -void nelp_encoder( - Encoder_State *st, /* i/o: encoder state */ - float *in, /* i : residual signal */ - float *exc, /* o : NELP quantized excitation signal */ - const int16_t reduce_gains ); - -void encod_nelp( - Encoder_State *st, /* i/o: state structure */ - const float *speech, /* i : input speech */ - const float Aw[], /* i : weighted A(z) unquantized for subframes */ - const float *Aq, /* i : 12k8 Lp coefficient */ - float *res, /* o : residual signal */ - float *synth, /* o : core synthesis */ - float *tmp_noise, /* o : long-term noise energy */ - float *exc, /* i/o: current non-enhanced excitation */ - float *exc2, /* i/o: current enhanced excitation */ - float *pitch_buf, /* o : floating pitch values for each subframe */ - float *voice_factors, /* o : voicing factors */ - float *bwe_exc /* o : excitation for SWB TBE */ -); - -void realft( - float *data, /* i/o: data array */ - int16_t n, /* i : length of data array */ - int16_t isign /* i : sign +1 or -1 */ -); - -ivas_error DTFS_new( - DTFS_STRUCTURE **dtfs_out ); - -void DTFS_copy( - DTFS_STRUCTURE *Xout, /* o : DTFS */ - DTFS_STRUCTURE Xinp /* i : DTFS */ -); - -void DTFS_sub( - DTFS_STRUCTURE *tmp, /* o : output DFTS */ - DTFS_STRUCTURE X1, /* i : DTFS input 1 */ - DTFS_STRUCTURE X2 /* i : DTFS input 2 */ -); - -void DTFS_to_fs( - const float *x, /* i : Time domain signal */ - const int16_t N, /* i : Length of input vector */ - DTFS_STRUCTURE *X, /* o : DTFS structure with a, b, lag */ - const int32_t sampling_rate, - const int16_t FR_flag /* i : FR flag */ -); - -void DTFS_fs_inv( - DTFS_STRUCTURE *X, /* i : DTFS */ - float *x, /* o : time domain sig */ - const int16_t N, /* i : Output length */ - float ph0 /* i : Input phase */ -); - -void DTFS_car2pol( - DTFS_STRUCTURE *X /* i/o: DTFS structure a, b, lag */ - /* input in Cartesion, output in Polar */ -); - -void DTFS_pol2car( - DTFS_STRUCTURE *X /* i/o: DTFS structure a, b, lag */ - /* input in Polar, output in Cartesian */ -); - -/*! r: Return Input RMS between f1/f2 b4 scaling */ -float DTFS_setEngyHarm( - float f1, /* i : lower band freq of input to control energy */ - float f2, /* i : upper band freq of input to control energy */ - float g1, /* i : lower band freq of output to control energy */ - float g2, /* i : upper band freq of output to control energy */ - float en2, /* i : Target Energy to set the DTFS to */ - DTFS_STRUCTURE *X /* i/o: DTFS to adjust the energy of */ -); - -void DTFS_to_erb( - DTFS_STRUCTURE X, /* i : DTFS input */ - float *out /* o : ERB output */ -); - -void DTFS_zeroPadd( - const int16_t N, /* i : Target lag */ - DTFS_STRUCTURE *X /* i/o: DTFS */ -); - -/*! r: Energy */ -float DTFS_getEngy( - DTFS_STRUCTURE X /* i : DTFS to compute energy of */ -); - -void DTFS_adjustLag( - DTFS_STRUCTURE *X_DTFS, /* i/o: DTFS to adjust lag for */ - const int16_t N /* i : Target lag */ -); - -void DTFS_poleFilter( - DTFS_STRUCTURE *X, /* i/o: DTFS to poleFilter inplace */ - const float *LPC, /* i : LPCs */ - const int16_t N /* i : LPCORDER */ -); - -void DTFS_zeroFilter( - DTFS_STRUCTURE *X, /* i/o: DTFS to zeroFilter inplace */ - const float *LPC, /* i : LPCs */ - const int16_t N /* i : LPCORDER */ -); - -float DTFS_alignment_full( - DTFS_STRUCTURE X1_DTFS, /* i : reference DTFS */ - DTFS_STRUCTURE X2_DTFS, /* i : DTFS to shift */ - const int16_t num_steps /* i : resolution */ -); - -void DTFS_phaseShift( - DTFS_STRUCTURE *X, /* i : DTFS to shift */ - float ph /* i : phase to shift */ -); - -void erb_add( - float *curr_erb, /* i/o: current ERB */ - const int16_t l, /* i : current lag */ - const float *prev_erb, /* i : previous ERB */ - const int16_t pl, /* i : previous lag */ - const int16_t *index, /* i : ERB index */ - const int16_t num_erb /* i : number of ERBs */ -); - -void erb_slot( - int16_t lag, /* i : input lag */ - int16_t *out, /* o : ERB slots */ - float *mfreq, /* i : ERB frequencies */ - int16_t num_erb /* i : number of ERBs */ -); - -void erb_diff( - const float *prev_erb, /* i : previous ERB */ - const int16_t pl, /* i : previous lag */ - const float *curr_erb, /* i : current ERB */ - const int16_t l, /* i : current lag */ - const float *curr_lsp, /* i : current LSP coefficients */ - float *out, /* o : ERB difference */ - int16_t *index, /* i : ERB index */ - const int16_t num_erb /* i : Number of ERBs */ -); - -void DTFS_erb_inv( - float *in, /* i : ERB inpt */ - int16_t *slot, /* i : ERB slots filled based on lag */ - float *mfreq, /* i : erb frequence edges */ - DTFS_STRUCTURE *X, /* o : DTFS after erb-inv */ - const int16_t num_erb /* i : Number of ERB bands */ -); - -ivas_error ppp_quarter_encoder( - int16_t *returnFlag, /* o : return value */ - BSTR_ENC_HANDLE hBstr, /* i/o: encoder bitstream handle */ - DTFS_STRUCTURE *CURRCW_Q, /* o : Quantized (amp/phase) DTFS */ - DTFS_STRUCTURE *TARGETCW, /* o : DTFS with quant phase but unquant Amp */ - const int16_t prevCW_lag, /* i : previous lag */ - DTFS_STRUCTURE vCURRCW_NQ, /* i : Unquantized DTFS */ - const float *curr_lpc, /* i : LPCS */ - float *lastLgainE, /* i/o: last low band gain */ - float *lastHgainE, /* i/o: last high band gain */ - float *lasterbE, /* i/o: last ERB vector */ - DTFS_STRUCTURE PREV_CW_E /* i : past DTFS */ -); - -ivas_error WIsyn( - DTFS_STRUCTURE PREVCW, /* i : Prev frame DTFS */ - DTFS_STRUCTURE *CURR_CW_DTFS, /* i/o: Curr frame DTFS */ - const float *curr_lpc, /* i : LPC */ - float *ph_offset, /* i/o: Phase offset to line up at end of frame */ - float *out, /* o : Waveform Interpolated time domain signal */ - const int16_t N, /* i : Number of samples of output to generate */ - const int16_t FR_flag /* i : called for post-smoothing in FR */ -); - -void set_ppp_mode( - Encoder_State *st, /* i/o: encoder state structure */ - const int16_t noisy_speech_HO, /* i : SC-VBR noisy speech HO flag */ - const int16_t clean_speech_HO, /* i : SC-VBR clean speech HO flag */ - const int16_t NB_speech_HO, /* i : SC-VBR NB speech HO flag */ - const int16_t localVAD_he /* i : HE-SAD flag without hangover */ -); - -ivas_error ppp_voiced_encoder( - BSTR_ENC_HANDLE hBstr, /* i/o: encoder bitstream handle */ - SC_VBR_ENC_HANDLE hSC_VBR, /* i/o: SC-VBR state structure */ - const int16_t bwidth, /* i : audio bandwidth */ - const int16_t last_coder_type_raw, /* i : raw last_coder_type */ - const float old_pitch_buf[], /* i : buffer of old subframe pitch values */ - float *in, /* i : residual signal */ - float *out, /* o : Quantized residual signal */ - const int16_t delay, /* i : open loop pitch */ - float *lpc1, /* i : prev frame de-emphasized LPC */ - float *lpc2, /* i : current frame de-emphasized LPC */ - float *exc, /* i : previous frame quantized excitation */ - float *pitch /* o : floating pitch values for each subframe */ -); - -ivas_error encod_ppp( - Encoder_State *st, /* i/o: state structure */ - const float speech[], /* i : input speech */ - const float Aw[], /* i : weighted A(z) unquantized for subframes */ - const float Aq[], /* i : 12k8 Lp coefficient */ - float *res, /* i/o: residual signal */ - float *synth, /* i/o: core synthesis */ - float *exc, /* i/o: current non-enhanced excitation */ - float *exc2, /* i/o: current enhanced excitation */ - float *pitch_buf, /* i/o: floating pitch values for each subframe */ - float *voice_factors, /* o : voicing factors */ - float *bwe_exc /* o : excitation for SWB TBE */ -); - -void reset_rf_indices( - RF_ENC_HANDLE hRF, /* i/o: RF state structure */ - const int16_t L_frame, /* i : frame length */ - int16_t *rf_target_bits_write ); - -void signaling_enc_rf( - Encoder_State *st /* i/o: encoder state structure */ -); - -ivas_error acelp_core_dec( - Decoder_State *st, /* i/o: Decoder state structure */ - float output[], /* o : synthesis @internal Fs */ - float synth[], /* o : synthesis */ - float save_hb_synth[], /* o : HB synthesis */ - float bwe_exc_extended[], /* i/o: bandwidth extended excitation */ - float *voice_factors, /* o : voicing factors */ - float old_syn_12k8_16k[], /* o : intermediate ACELP synthesis at 12.8kHz or 16kHz to be used by SWB BWE */ - const int16_t sharpFlag, /* i : formant sharpening flag */ - float pitch_buf[NB_SUBFR16k], /* o : floating pitch for each subframe */ - int16_t *unbits, /* o : number of unused bits */ - int16_t *sid_bw, /* o : 0-NB/WB, 1-SWB SID */ - STEREO_TD_DEC_DATA_HANDLE hStereoTD, /* i/o: TD stereo decoder handle */ - const float tdm_lspQ_PCh[M], /* i : Q LSPs for primary channel */ - const float tdm_lsfQ_PCh[M], /* i : Q LSFs for primary channel */ - const int16_t use_cldfb_for_dft, /* i : flag to use of CLDFB for DFT Stereo */ - const int16_t last_element_mode, /* i : last element mode */ - const int32_t last_element_brate, /* i : last element bitrate */ - const int16_t flag_sec_CNA, /* i : CNA flag for secondary channel */ - const int16_t nchan_out, /* i : number of output channels */ - STEREO_CNG_DEC_HANDLE hStereoCng, /* i : stereo CNG handle */ - const int16_t read_sid_info /* i : read SID info flag */ -); - -void bass_psfilter_init( - BPF_DEC_HANDLE hBPF /* o : BPF data handle */ -); - -void bass_psfilter( - BPF_DEC_HANDLE hBPF, /* o : BPF data handle */ - const int16_t Opt_AMR_WB, /* i : AMR-WB IO flag */ - const float synth_in[], /* i : synthesis (at 16kHz) */ - const int16_t L_frame, /* i : length of the last frame */ - const float pitch_buf[], /* i : pitch for every subfr [0,1,2,3] */ - const int16_t bpf_off, /* i : do not use BPF when set to 1 */ - float v_stab, /* i : stability factor */ - float *v_stab_smooth, /* i : smoothed stability factor */ - const int16_t coder_type, /* i : coder_type */ - float bpf_noise_buf[] /* o : BPF error signal (at int_fs) */ -); - -void CNG_reset_dec( - Decoder_State *st, /* i/o: decoder state structure */ - float *pitch_buf, /* o : floating pitch for each subframe */ - float *voice_factors /* o : voicing factors */ -); - -void updt_dec( - Decoder_State *st, /* i/o: state structure */ - const float *old_exc, /* i : buffer of excitation */ - const float *pitch_buf, /* i : floating pitch values for each subframe */ - const float Es_pred, /* i : predicited scaled innovation energy */ - const float *Aq, /* i : A(z) quantized for all subframes */ - const float *lsf_new, /* i : current frame LSF vector */ - const float *lsp_new, /* i : current frame LSP vector */ - const float voice_factors[], /* i : voicing factors */ - const float *old_bwe_exc, /* i : buffer of excitation */ - const float *gain_buf /* o : floating pitch gain for each subframe */ -); - -void updt_IO_switch_dec( - const int16_t output_frame, /* i : output frame length */ - Decoder_State *st /* i/o: state structure */ -); - -void updt_dec_common( - Decoder_State *st, /* i/o: decoder state structure */ - const int16_t hq_core_type, /* i : HQ core type */ - const int16_t concealWholeFrameTmp, /* i : concealWholeFrameTmp flag */ - const float *synth /* i : decoded synthesis */ -); - -void td_cng_dec_init( - DEC_CORE_HANDLE st /* i/o: decoder state structure */ -); - -void CNG_dec( - Decoder_State *st, /* i/o: State structure */ - const int16_t last_element_mode, /* i : last element mode */ - float Aq[], /* o : LP coefficients */ - float *lsp_new, /* i/o: current frame LSPs */ - float *lsf_new, /* i/o: current frame LSFs */ - int16_t *allow_cn_step, /* o : allow cn step */ - int16_t *sid_bw, /* o : 0-NB/WB, 1-SWB SID */ - float *q_env ); - -void swb_CNG_dec( - Decoder_State *st, /* i/o: State structure */ - const float *synth, /* i : ACELP core synthesis at 32kHz */ - float *shb_synth, /* o : high-band CNG synthesis */ - const int16_t sid_bw /* i : 0-NB/WB, 1-SWB SID */ -); - -void lsf_dec( - Decoder_State *st, /* i/o: State structure */ - const int16_t tc_subfr, /* i : TC subframe index */ - float *Aq, /* o : quantized A(z) for 4 subframes */ - int16_t *LSF_Q_prediction, /* o : LSF prediction mode */ - float *lsf_new, /* o : de-quantized LSF vector */ - float *lsp_new, /* o : de-quantized LSP vector */ - float *lsp_mid, /* o : de-quantized mid-frame LSP vector */ - const int16_t tdm_low_rate_mode, /* i : secondary channel low rate mode flag */ - const float tdm_lsfQ_PCh[M] /* i : Q LSFs for primary channel */ -); - -void isf_dec_amr_wb( - Decoder_State *st, /* i/o: State structure */ - float *Aq, /* o : quantized A(z) for 4 subframes */ - float *isf_new, /* o : de-quantized ISF vector */ - float *isp_new /* o : de-quantized ISP vector */ -); - -void Es_pred_dec( - float *Es_pred, /* o : predicted scaled innovation energy */ - const int16_t enr_idx, /* i : indice */ - const int16_t nb_bits, /* i : number of bits */ - const int16_t no_ltp /* i : no LTP flag */ -); - -void gaus_dec( - Decoder_State *st, /* i/o: decoder state structure */ - const int16_t i_subfr, /* i : subframe index */ - float *code, /* o : gaussian excitation */ - float *norm_gain_code, /* o : gain of the normalized gaussian excitation */ - float *lp_gainp, /* i/o: lp filtered pitch gain(FER) */ - float *lp_gainc, /* i/o: lp filtered code gain (FER) */ - float *gain_inov, /* o : unscaled innovation gain */ - float *tilt_code, /* o : synthesis excitation spectrum tilt */ - float *voice_fac, /* o : estimated voicing factor */ - float *gain_pit, /* o : reset pitch gain */ - float *pt_pitch, /* o : reset floating pitch buffer */ - float *exc, /* o : excitation signal frame */ - float *gain_code, /* o : gain of the gaussian excitation */ - float *exc2 /* o : scaled excitation signal frame */ -); - -void gain_dec_amr_wb( - Decoder_State *st, /* i/o: decoder state structure */ - const int32_t core_brate, /* i : core bitrate */ - float *gain_pit, /* o : Quantized pitch gain */ - float *gain_code, /* o : Quantized codeebook gain */ - float *past_qua_en, /* i/o: gain quantization memory (4 words) */ - float *gain_inov, /* o : unscaled innovation gain */ - const float *code, /* i : algebraic code excitation */ - float *norm_gain_code /* o : norm. gain of the codebook excitation */ -); - -void gain_dec_lbr( - Decoder_State *st, /* i/o: decoder state structure */ - const int16_t coder_type, /* i : coding type */ - const int16_t i_subfr, /* i : subframe index */ - const float *code, /* i : algebraic excitation */ - float *gain_pit, /* o : quantized pitch gain */ - float *gain_code, /* o : quantized codebook gain */ - float *gain_inov, /* o : gain of the innovation (used for normalization) */ - float *norm_gain_code, /* o : norm. gain of the codebook excitation */ - float gains_mem[], /* i/o: pitch gain and code gain from previous subframes */ - const int16_t L_subfr /* i : subframe length */ -); - -void gain_dec_mless( - Decoder_State *st, /* i/o: decoder state structure */ - const int16_t L_frame, /* i : length of the frame */ - const int16_t coder_type, /* i : coding type */ - const int16_t i_subfr, /* i : subframe number */ - const int16_t tc_subfr, /* i : TC subframe index */ - const float *code, /* i : algebraic code excitation */ - const float Es_pred, /* i : predicted scaled innov. energy */ - float *gain_pit, /* o : Quantized pitch gain */ - float *gain_code, /* o : Quantized codeebook gain */ - float *gain_inov, /* o : unscaled innovation gain */ - float *norm_gain_code /* o : norm. gain of the codebook excitation */ -); - -void gain_dec_SQ( - Decoder_State *st, /* i/o: decoder state structure */ - const int16_t i_subfr, /* i : subframe number */ - const float *code, /* i : algebraic code excitation */ - const float Es_pred, /* i : predicted scaled innov. energy */ - float *gain_pit, /* o : Quantized pitch gain */ - float *gain_code, /* o : Quantized codeebook gain */ - float *gain_inov, /* o : unscaled innovation gain */ - float *norm_gain_code /* o : norm. gain of the codebook excitation */ -); - -/*! r: quantized codebook gain */ -float gain_dec_gaus( - const int16_t index, /* i : quantization index */ - const int16_t bits, /* i : number of bits to quantize */ - const float lowBound, /* i : lower bound of quantizer (dB) */ - const float topBound, /* i : upper bound of quantizer (dB) */ - const float gain_inov, /* i : unscaled innovation gain */ - float *norm_gain_code /* o : gain of normalized gaus. excit. */ -); - -/*! r: floating pitch value */ -float pit_decode_flt( - Decoder_State *st, /* i/o: decoder state structure */ - const int32_t core_brate, /* i : core bitrate */ - const int16_t Opt_AMR_WB, /* i : flag indicating AMR-WB IO mode */ - const int16_t L_frame, /* i : length of the frame */ - int16_t i_subfr, /* i : subframe index */ - const int16_t coder_type, /* i : coding type */ - int16_t *limit_flag, /* i/o: restrained(0) or extended(1) Q limits */ - int16_t *T0, /* o : close loop integer pitch */ - int16_t *T0_frac, /* o : close loop fractional part of the pitch */ - int16_t *T0_min, /* i/o: delta search min for sf 2 & 4 */ - int16_t *T0_max, /* i/o: delta search max for sf 2 & 4 */ - const int16_t L_subfr, /* i : subframe length */ - const int16_t tdm_Pitch_reuse_flag, /* i : primary channel pitch reuse flag */ - const float tdm_Pri_pitch_buf[] /* i : primary channel pitch buffer */ -); - -void abs_pit_dec_flt( - const int16_t fr_steps, /* i : fractional resolution steps (0, 2, 4) */ - int16_t pitch_index, /* i : pitch index */ - const int16_t limit_flag, /* i : restrained(0) or extended(1) Q limits */ - int16_t *T0, /* o : integer pitch lag */ - int16_t *T0_frac /* o : pitch fraction */ -); - -void delta_pit_dec_flt( - const int16_t fr_steps, /* i : fractional resolution steps (0, 2, 4) */ - const int16_t pitch_index, /* i : pitch index */ - int16_t *T0, /* o : integer pitch lag */ - int16_t *T0_frac, /* o : pitch fraction */ - const int16_t T0_min /* i : delta search min */ -); - -void pit_Q_dec_flt( - const int16_t Opt_AMR_WB, /* i : flag indicating AMR-WB IO mode */ - const int16_t pitch_index, /* i : pitch index */ - const int16_t nBits, /* i : # of Q bits */ - const int16_t delta, /* i : Half the CL searched interval */ - const int16_t pit_flag, /* i : absolute(0) or delta(1) pitch Q */ - const int16_t limit_flag, /* i : restrained(0) or extended(1) Q limits */ - int16_t *T0, /* o : integer pitch lag */ - int16_t *T0_frac, /* o : pitch fraction */ - int16_t *T0_min, /* i/o: delta search min */ - int16_t *T0_max, /* i/o: delta search max */ - int16_t *BER_detect /* o : BER detect flag */ -); - -void pit16k_Q_dec_flt( - const int16_t pitch_index, /* i : pitch index */ - const int16_t nBits, /* i : # of Q bits */ - const int16_t limit_flag, /* i : restrained(0) or extended(1) Q limits */ - int16_t *T0, /* o : integer pitch lag */ - int16_t *T0_frac, /* o : pitch fraction */ - int16_t *T0_min, /* i/o: delta search min */ - int16_t *T0_max, /* i/o: delta search max */ - int16_t *BER_detect /* o : BER detect flag */ -); - - -void inov_decode( - Decoder_State *st, /* i/o: decoder state structure */ - const int32_t core_brate, /* i : core bitrate */ - const int16_t Opt_AMR_WB, /* i : flag indicating AMR-WB IO mode */ - const int16_t L_frame, /* i : length of the frame */ - const int16_t sharpFlag, /* i : formant sharpening flag */ - const int16_t i_subfr, /* i : subframe index */ - const float *p_Aq, /* i : LP filter coefficients */ - const float tilt_code, /* i : tilt of of the excitation of previous subframe */ - const float pt_pitch, /* i : pointer to current subframe fractional pitch */ - float *code, /* o : algebraic excitation */ - const int16_t L_subfr /* i : subframe length */ -); - -void dec_acelp_1t64( - Decoder_State *st, /* i/o: decoder state structure */ - float code[], /* o : algebraic (fixed) codebook excitation */ - const int16_t L_subfr /* i : subframe length */ -); - -void dec_acelp_2t32( - Decoder_State *st, /* i/o: decoder state structure */ - float code[] /* o : algebraic (fixed) codebook excitation */ -); - -void dec_acelp_4t64( - Decoder_State *st, /* i/o: decoder state structure */ - int16_t nbbits, /* i : number of bits per codebook */ - float code[], /* o : algebraic (fixed) codebook excitation */ - const int16_t Opt_AMR_WB /* i : flag indicating AMR-WB IO mode */ -); - - -void FEC_exc_estim( - Decoder_State *st, /* i/o: Decoder static memory */ - const int16_t L_frame, /* i : length of the frame */ - float *old_exc, /* i/o: excitation buffer */ - float *exc2, /* o : excitation buffer (for synthesis) */ - float *exc_dct_in, /* o : GSC excitation in DCT domain */ - float *pitch_buf, /* o : Floating pitch for each subframe */ - float *tmp_tc, /* o : FEC pitch */ - float *voice_factors, /* o : voicing factors */ - float *bwe_exc, /* i/o: excitation for SWB TBE */ - float *lsf_new, /* i : ISFs at the end of the frame */ - float *tmp_noise /* o : long-term noise energy */ -); - -void FEC_lsf2lsp_interp_flt( - Decoder_State *st, /* i/o: Decoder static memory */ - const int16_t L_frame, /* i : length of the frame */ - float *Aq, /* o : calculated A(z) for 4 subframes */ - float *lsf, /* o : estimated LSF vector */ - float *lsp /* o : estimated LSP vector */ -); - -void FEC_lsf_estim_enc( - Encoder_State *st, /* i : Encoder static memory */ - float *lsf /* o : estimated LSF vector */ -); - -float frame_energy( - const int16_t L_frame, /* i : length of the frame */ - const float *pitch, /* i : pitch values for each subframe */ - const float *speech, /* i : pointer to speech signal for E computation */ - const float lp_speech, /* i : long term active speech energy average */ - float *frame_ener /* o : pitch-synchronous energy at frame end */ -); - -void FEC_SinOnset( - float *exc, /* i/o: exc vector to modify */ - int16_t puls_pos, /* i : Last pulse position desired */ - int16_t T0, /* i : decoded first frame pitch */ - float enr_q, /* i : energy provided by the encoder */ - float *Aq, /* i : Lsp coefficient */ - const int16_t L_frame /* i : Frame length */ -); - -int16_t FEC_enhACB( - const int16_t L_frame, /* i : Frame length */ - const int16_t last_L_frame, /* i : frame length of last frame */ - float *exc_io, /* i/o: Adaptive codebook memory */ - const int16_t new_pit, /* i : decoded first frame pitch */ - const int16_t puls_pos, /* i : decoder position of the last glottal pulses decoded in the previous frame */ - const float bfi_pitch /* i : Pitch used for concealment */ -); - -void FEC_scale_syn( - const int16_t L_frame, /* i : length of the frame */ - int16_t clas, /* i/o: frame classification */ - const int16_t last_good, /* i : last good frame classification */ - float *synth, /* i/o: synthesized speech at Fs = 12k8 Hz */ - const float *pitch, /* i : pitch values for each subframe */ - float enr_old, /* i : energy at the end of prvious frame */ - float enr_q, /* i : transmitted energy for current frame */ - const int16_t coder_type, /* i : coding type */ - const int16_t LSF_Q_prediction, /* i : LSF prediction mode */ - int16_t *scaling_flag, /* i/o: flag to indicate energy control of syn */ - float *lp_ener_FEC_av, /* i/o: averaged voiced signal energy */ - float *lp_ener_FEC_max, /* i/o: averaged voiced signal energy */ - const int16_t bfi, /* i : current frame BFI */ - const int32_t total_brate, /* i : total bitrate */ - const int16_t prev_bfi, /* i : previous frame BFI */ - const int32_t last_core_brate, /* i : previous frame core bitrate */ - float *exc, /* i/o: excitation signal without enhancement */ - float *exc2, /* i/o: excitation signal with enhancement */ - const float Aq[], /* i : LP filter coefs */ - float *old_enr_LP, /* i/o: LP filter E of last good voiced frame */ - const float *mem_tmp, /* i : temp. initial synthesis filter states */ - float *mem_syn, /* o : initial synthesis filter states */ - const int16_t avoid_lpc_burst_on_recovery, /* i : if true the excitation energy is limited if LP has big gain */ - const int16_t force_scaling /* i : force scaling */ -); - -void FEC_pitch_estim( - const int16_t Opt_AMR_WB, /* i : flag indicating AMR-WB IO mode */ - const int16_t last_core, /* i : last core */ - const int16_t L_frame, /* i : length of the frame */ - const int16_t clas, /* i : current frame classification */ - const int16_t last_good, /* i : last good clas information */ - const float pitch_buf[], /* i : Floating pitch for each subframe */ - const float old_pitch_buf[], /* i : buffer of old subframe pitch values */ - float *bfi_pitch, /* i/o: update of the estimated pitch for FEC */ - int16_t *bfi_pitch_frame, /* o : frame length when pitch was updated */ - int16_t *upd_cnt, /* i/o: update counter */ - const int16_t coder_type ); - -void FEC_encode( - BSTR_ENC_HANDLE hBstr, /* i/o: encoder bitstream handle */ - const ACELP_config acelp_cfg, /* i : configuration of the ACELP */ - const float *synth, /* i : pointer to synthesized speech for E computation */ - const int16_t coder_type, /* i : type of coder */ - int16_t clas, /* i : signal clas for current frame */ - const float *fpit, /* i : close loop fractional pitch buffer */ - const float *res, /* i : LP residual signal frame */ - int16_t *last_pulse_pos, /* i/o: Position of the last pulse */ - const int16_t L_frame, /* i : Frame length */ - const int32_t total_brate /* i : total codec bitrate */ -); - -int16_t FEC_pos_dec( - Decoder_State *st, /* i/o: decoder state structure */ - int16_t *last_pulse_pos, /* o : Last glottal pulse position in the lost ACB */ - float *enr_q, /* o : Decoded energy */ - const int16_t nBits_es_Pred /* i : number of bits for Es_pred Q */ -); - -void improv_amr_wb_gs( - const int16_t clas, /* i : bitrate allocated to the core */ - const int16_t coder_type, /* i : coder_type */ - const int32_t core_brate, /* i : bitrate allocated to the core */ - int16_t *seed_tcx, /* i/o: Seed used for noise generation */ - float *old_Aq, /* i/o: old LPC filter coefficient */ - float *mem_syn2, /* i/o: synthesis memory */ - const float lt_voice_fac, /* i/o: long term voice factor */ - const int16_t locattack, /* i : Flag for a detected attack */ - float *Aq, /* i/o: Decoded LP filter coefficient */ - float *exc2, /* i/o: Decoded complete excitation */ - float *mem_tmp, /* i/o: synthesis temporary memory */ - float *syn, /* i/o: Decoded synthesis to be updated */ - const float *pitch_buf, /* i : Decoded pitch buffer */ - const float Last_ener, /* i : Last energy */ - const int16_t rate_switching_reset, /* i : rate switching reset flag */ - const int16_t last_coder_type, /* i : Last coder_type */ - const int16_t VeryLowRateSTflag /* i : Enable the noise enhancement for very low rate stereo generic mode */ -); - -int16_t tc_classif( - Decoder_State *st /* i/o: decoder state structure */ -); - -void transition_dec( - Decoder_State *st, /* i/o: decoder state structure */ - const int16_t L_frame, /* i : length of the frame */ - const int16_t i_subfr, /* i : subframe index */ - const int16_t tc_subfr, /* i : TC subframe index */ - int16_t *Jopt_flag, /* i : joint optimization flag */ - float *exc, /* i/o: current frame excitation signal */ - int16_t *T0, /* o : close loop integer pitch */ - int16_t *T0_frac, /* o : close loop fractional part of the pitch */ - int16_t *T0_min, /* i/o: delta search min for sf 2 & 4 */ - int16_t *T0_max, /* i/o: delta search max for sf 2 & 4 */ - float **pt_pitch, /* o : floating pitch values */ - int16_t *position, /* i/o: first glottal impulse position in frame */ - float *bwe_exc /* i/o: excitation for SWB TBE */ -); - -void gain_dec_tc( - Decoder_State *st, /* i/o: decoder state structure */ - const int16_t i_subfr, /* i : subframe number */ - const float Es_pred, /* i : predicted scaled innov. energy */ - const float *code, /* i : algebraic code excitation */ - float *gain_pit, /* o : pitch gain */ - float *gain_code, /* o : Quantized codeebook gain */ - float *gain_inov, /* o : unscaled innovation gain */ - float *norm_gain_code /* o : norm. gain of the codebook excit. */ -); - -void stat_noise_uv_dec( - Decoder_State *st, /* i/o: decoder static memory */ - const float *lsp_new, /* i : end-frame LSP vector */ - const float *lsp_mid, /* i : mid-frame LSP vector */ - float *Aq, /* o : A(z) quantized for the 4 subframes */ - float *exc2, /* i/o: excitation buffer */ - const int16_t uc_two_stage_flag /* 1 : flag undicating two-stage UC */ -); - -void sc_vbr_dec_init_flt( - SC_VBR_DEC_HANDLE hSC_VBR /* i/o: SC-VBR decoder handle */ -); - -void decod_nelp( - Decoder_State *st, /* i/o: decoder static memory */ - float *tmp_noise, /* o : long term temporary noise energy */ - float *pitch_buf, /* o : floating pitch values for each subframe */ - float *exc, /* o : adapt. excitation exc */ - float *exc2, /* o : adapt. excitation/total exc */ - float *voice_factors, /* o : voicing factors */ - float *bwe_exc, /* o : excitation for SWB TBE */ - const int16_t bfi, /* i : bad frame indicator */ - float *gain_buf /* o : floating pitch gain for each subframe */ -); - -void nelp_decoder( - Decoder_State *st, /* i/o: decoder static memory */ - float *exc_nelp, /* o : adapt. excitation/total exc */ - float *exc, /* o : adapt. excitation exc */ - int16_t bfi, /* i : frame error rate */ - const int16_t coder_type, /* i : coding type */ - float *gain_buf /* o : floating pitch gain for each subframe */ -); - -ivas_error decod_ppp( - Decoder_State *st, /* i/o: state structure */ - const float Aq[], /* i : 12k8 Lp coefficient */ - float *pitch_buf, /* i/o: floating pitch values for each subframe */ - float *exc, /* i/o: current non-enhanced excitation */ - float *exc2, /* i/o: current enhanced excitation */ - float *voice_factors, /* o : voicing factors */ - float *bwe_exc, /* o : excitation for SWB TBE */ - float *gain_buf, /* o : floating pitch gain for each subframe */ - const int16_t bfi /* i : BFI flag */ -); - -ivas_error ppp_quarter_decoder( - Decoder_State *st, /* i/o: decoder state structure */ - DTFS_STRUCTURE *CURRCW_Q_DTFS, /* i/o: Current CW DTFS */ - int16_t prevCW_lag, /* i : Previous lag */ - float *lastLgainD, /* i/o: Last gain lowband */ - float *lastHgainD, /* i/o: Last gain highwband */ - float *lasterbD, /* i/o: Last ERB vector */ - int16_t bfi, /* i : FER flag */ - DTFS_STRUCTURE PREV_CW_D /* i : Previous DTFS */ -); - -ivas_error ppp_voiced_decoder( - Decoder_State *st, /* i/o: state structure */ - float *out, /* o : residual signal */ - const float *lpc2, /* i : current frame LPC */ - float *exc, /* i : previous frame excitation */ - float *pitch, /* o : floating pitch values for each subframe */ - const int16_t bfi /* i : BFI flag */ -); - -void AVQ_demuxdec( - Decoder_State *st, /* i/o: decoder state structure */ - int16_t xriq[], /* o : decoded subvectors [0..8*Nsv-1] */ - int16_t *nb_bits, /* i/o: number of allocated bits */ - const int16_t Nsv, /* i : number of subvectors */ - int16_t nq[], /* i/o: AVQ nq index */ - int16_t avq_bit_sFlag, /* i : flag for AVQ bit saving solution*/ - int16_t trgtSvPos /* i : target SV for AVQ bit savings */ -); - - -void Init_post_filter_ivas( - PFSTAT_HANDLE hPFstat /* i : post-filter state memories */ -); - -void nb_post_filt_ivas( - const int16_t L_frame, /* i : frame length */ - const int16_t L_subfr, /* i : sub-frame length */ - PFSTAT_HANDLE hPFstat, /* i/o: Post filter related memories */ - float *lp_noise, /* i/o: long term noise energy */ - const float tmp_noise, /* i : noise energy */ - float *synth, /* i/o: synthesis */ - const float *Aq, /* i : LP filter coefficient */ - const float *pitch_buf, /* i : Floating pitch for each subframe */ - const int16_t coder_type, /* i : coder_type -> deactivated in AUDIO */ - const int16_t BER_detect, /* i : BER detect flag */ - const int16_t disable_hpf /* i : flag to diabled HPF */ -); - -void decod_unvoiced( - Decoder_State *st, /* i/o: decoder static memory */ - const float *Aq, /* i : LP filter coefficient */ - const float Es_pred, /* i : predicted scaled innov. energy */ - const int16_t uc_two_stage_flag, /* i : flag indicating two-stage UC */ - float *tmp_noise, /* o : long term temporary noise energy */ - float *pitch_buf, /* o : floating pitch values for each subframe */ - float *voice_factors, /* o : voicing factors */ - float *exc, /* o : adapt. excitation exc */ - float *exc2, /* o : adapt. excitation/total exc */ - float *bwe_exc, /* i/o: excitation for SWB TBE */ - float *gain_buf /* o : floating pitch gain for each subfram */ -); - -void decod_tran( - Decoder_State *st, /* i/o: decoder static memory */ - const int16_t L_frame, /* i : length of the frame */ - const int16_t tc_subfr, /* i : TC subframe index */ - const float *Aq, /* i : LP filter coefficient */ - const float Es_pred, /* i : predicted scaled innov. energy */ - float *pitch_buf, /* o : floating pitch values for each subframe */ - float *voice_factors, /* o : voicing factors */ - float *exc, /* i/o: adapt. excitation exc */ - float *exc2, /* i/o: adapt. excitation/total exc */ - float *bwe_exc, /* i/o: excitation for SWB TBE */ - int16_t *unbits, /* i/o: number of unused bits */ - const int16_t sharpFlag, /* i : formant sharpening flag */ - float *gain_buf /* o : floating pitch gain for each subframe */ -); - -ivas_error decod_gen_voic( - Decoder_State *st, /* i/o: decoder static memory */ - const int16_t L_frame, /* i : length of the frame */ - const int16_t sharpFlag, /* i : formant sharpening flag */ - const float *Aq, /* i : LP filter coefficient */ - const float Es_pred, /* i : predicted scaled innov. energy */ - const int16_t do_WI, /* i : FEC fast recovery flag */ - float *pitch_buf, /* o : floating pitch for each subframe */ - float *voice_factors, /* o : voicing factors */ - float *exc, /* i/o: adapt. excitation exc */ - float *exc2, /* i/o: adapt. excitation/total exc */ - float *bwe_exc, /* i/o: excitation for SWB TBE */ - int16_t *unbits, /* i/o: number of unused bits */ - float *gain_buf, /* o : floating pitch gain for each subframe */ - const int16_t tdm_Pitch_reuse_flag, /* i : primary channel pitch reuse flag */ - const float tdm_Pri_pitch_buf[] /* i : primary channel pitch buffer */ -); - -void decod_amr_wb( - Decoder_State *st, /* i/o: decoder static memory */ - const float *Aq, /* i : LP filter coefficients */ - float *pitch_buf, /* o : floating pitch values for each subframe */ - float *exc, /* i/o: adapt. excitation exc */ - float *exc2, /* i/o: adapt. excitation/total exc */ - int16_t hf_gain[NB_SUBFR], /* o : decoded HF gain */ - float *voice_factors, /* o : voicing factors */ - float *gain_buf /* o : floating pitch gain for each subframe */ -); - -ivas_error init_decoder( - Decoder_State *st, /* o : Decoder static variables structure */ - const int16_t idchan, /* i : channel ID */ - const MC_MODE mc_mode /* i : MC mode */ -); - -void destroy_cldfb_decoder_flt( - Decoder_State *st /* o : Decoder static variables structure */ -); - -void HQ_core_dec_init_flt( - HQ_DEC_HANDLE hHQ_core /* i/o: HQ core data handle */ -); - -void HQ_nbfec_init_flt( - HQ_NBFEC_HANDLE hHQ_nbfec /* i/o: HQ NB FEC data handle */ -); - -ivas_error evs_dec( - Decoder_State *st, /* i/o: Decoder state structure */ - float mem_hp20_out[L_HP20_MEM], /* i/o: HP filter memory for synthesis */ - float *output, /* o : output synthesis signal */ - FRAME_MODE frameMode /* i : Decoder frame mode */ -); - -void get_next_frame_parameters( - Decoder_State *st /* i/o: Decoder state structure */ -); - -ivas_error amr_wb_dec( - Decoder_State *st, /* i/o: decoder state structure */ - float mem_hp20_out[L_HP20_MEM], /* i/o: HP filter memory for synthesis */ - float *output /* o : synthesis output */ -); - -void transf_cdbk_dec( - Decoder_State *st, /* i/o: decoder state structure */ - const int16_t harm_flag_acelp, /* i : harmonic flag for higher rates ACELP */ - const int16_t i_subfr, /* i : subframe index */ - const float Es_pred, /* i : predicited scaled innovation energy */ - const float gain_code, /* i : innovative excitation gain */ - float *gain_preQ, /* o : prequantizer excitation gain */ - float *norm_gain_preQ, /* o : normalized prequantizer excitation gain */ - float code_preQ[], /* o : prequantizer excitation */ - int16_t *unbits /* o : number of AVQ unused bits */ -); - -/*! r: decoded gain */ -float gain_dequant( - int16_t index, /* i : quantization index */ - const float min_val, /* i : value of lower limit */ - const float max_val, /* i : value of upper limit */ - const int16_t bits /* i : number of bits to dequantize */ -); - -void hq_core_enc( - Encoder_State *st, /* i/o: encoder state structure */ - const float *audio, /* i : input audio signal */ - const int16_t input_frame, /* i : frame length */ - const int16_t hq_core_type, /* i : HQ core type */ - const int16_t Voicing_flag, /* i : Voicing flag for FER method selection */ - const int16_t vad_hover_flag /* i : VAD hangover flag */ -); - -int16_t detect_transient( - Encoder_State *st, /* i/o: encoder state structure */ - const float *in, /* i : input signal */ - const int16_t L /* i : length */ -); - -void wtda( - const float *new_audio, /* i : input audio */ - float *wtda_audio, /* o : windowed audio */ - float *old_wtda, /* i/o: windowed audio from previous frame */ - const int16_t left_mode, /* i : window overlap of previous frame (0: full, 2: none, or 3: half) */ - const int16_t right_mode, /* i : window overlap of current frame (0: full, 2: none, or 3: half) */ - const int16_t L /* i : length */ -); - -void wtda_ext( - const float *new_audio, /* i : input audio */ - float *wtda_audio, /* o : windowed audio */ - const int16_t left_mode, /* i : window overlap of previous frame (0: full, 2: none, or 3: half) */ - const int16_t right_mode, /* i : window overlap of current frame (0: full, 2: none, or 3: half) */ - const int16_t L, /* i : length */ - const uint16_t kernel_type /* i : transform kernel type (0 - 3) */ -); - -void tcx_get_windows_mode1_flt( - const int16_t left_mode, /* i : overlap mode of left window half */ - const int16_t right_mode, /* i : overlap mode of right window half */ - float *left_win, /* o : left overlap window */ - float *right_win, /* o : right overlap window */ - float *left_win_int, /* o : left overlap window */ - float *right_win_int, /* o : right overlap window */ - const int16_t L /* i : length */ -); - -void direct_transform( - const float *in32, /* i : input signal */ - float *out32, /* o : output transformation */ - const int16_t is_transient, /* i : transient flag */ - const int16_t L, /* i : length */ - const int16_t element_mode /* i : IVAS element mode */ -); - - -void interleave_spectrum( - float *coefs, /* i/o: input and output coefficients */ - const int16_t length /* i : length of spectrum */ -); - -void hq_hr_enc( - Encoder_State *st, /* i/o: encoder state structure */ - float *coefs, /* i/o: transform-domain coefficients */ - const int16_t length, /* i : length of spectrum */ - int16_t *num_bits, /* i/o: number of available bits */ - const int16_t is_transient, /* i : transient flag */ - const int16_t vad_hover_flag /* i : VAD hangover flag */ -); - -void huff_dec( - Decoder_State *st, /* i/o: decoder state structure */ - const int16_t N, /* i : Number of codewords to decode */ - const int16_t buffer_len, /* i : Number of bits to read */ - const int16_t num_lengths, /* i : Number of different huffman codeword lengths */ - const int16_t *thres, /* i : Threshold of first codeword of each length */ - const int16_t *offset, /* i : Offset for first codeword */ - const int16_t *huff_tab, /* i : Huffman table order by codeword lengths */ - int16_t *index /* o : Decoded index */ -); - -void reordernorm( - const int16_t *ynrm, /* i : quantization indices for norms */ - const int16_t *normqlg2, /* i : quantized norms */ - int16_t *idxbuf, /* o : reordered quantization indices */ - int16_t *normbuf, /* o : reordered quantized norms */ - const int16_t nb_sfm /* i : number of bands */ -); - -void diffcod( - const int16_t N, /* i : number of sub-vectors */ - int16_t *y, /* i/o: indices of quantized norms */ - int16_t *difidx /* o : differential code */ -); - -void diffcod_lrmdct( - const int16_t N, /* i : number of sub-vectors */ - const int16_t be_ref, /* i : band energy reference */ - int16_t *y, /* i/o: indices of quantized norms */ - int16_t *difidx, /* o : differential code */ - const int16_t is_transient /* i : transient flag */ -); - -void bitallocsum( - int16_t *R, /* i : bit-allocation vector */ - const int16_t nb_sfm, /* i : number of sub-vectors */ - int16_t *sum, /* o : total number of bits allocated */ - int16_t *Rsubband, /* o : rate per subband (Q3) */ - const int16_t num_bits, /* i : number of bits */ - const int16_t length, /* i : length of spectrum */ - const int16_t *sfmsize /* i : Length of bands */ -); -/*! r: BWE class */ -int16_t swb_bwe_gain_deq_flt( - Decoder_State *st, /* i/o: decoder state structure */ - const int16_t core, /* i : core */ - float *SWB_tenv, /* o : time-domain BWE envelope */ - float *SWB_fenv, /* o : frequency-domain BWE envelope */ - const int16_t hr_flag, /* i : high rate flag */ - const int16_t hqswb_clas /* i : HQ BWE class */ -); - -void save_old_syn( - const int16_t L_frame, /* i : frame length */ - const float syn[], /* i : ACELP synthesis */ - float old_syn[], /* o : old synthesis buffer */ - float old_syn_12k8_16k[], /* i/o: old synthesis buffer */ - const float preemph_fac, /* i : preemphasis factor */ - float *mem_deemph /* i/o: deemphasis filter memory */ -); - -void hq_generic_hf_decoding( - const int16_t HQ_mode, /* i : HQ mode */ - float *coeff_out1, /* i/o: BWE input & temporary buffer */ - const float *hq_generic_fenv, /* i : SWB frequency envelopes */ - float *coeff_out, /* o : SWB signal in MDCT domain */ - const int16_t hq_generic_offset, /* i : frequency offset for representing hq swb bwe*/ - int16_t *prev_L_swb_norm, /* i/o: last normalize length */ - const int16_t hq_swb_bwe_exc_clas, /* i : bwe excitation class */ - const int16_t *R ); - -void hq_core_dec( - Decoder_State *st, /* i/o: decoder state structure */ - float out[], /* o : output synthesis */ - const int16_t output_frame, /* i : output frame length */ - const int16_t hq_core_type, /* i : HQ core type */ - const int16_t core_switching_flag, /* i : ACELP->HQ switching frame flag */ - float *output /* o : LB synthesis in case of ACELP-HQ switch */ -); - -void IMDCT( - float *x, - float *old_syn_overl, - float *syn_Overl_TDAC, - float *xn_buf, - const float *tcx_aldo_window_1_trunc, - const float *tcx_aldo_window_2, - const float *tcx_mdct_window_half, - const float *tcx_mdct_window_minimum, - const float *tcx_mdct_window_trans, - const int16_t tcx_mdct_window_half_length, - const int16_t tcx_mdct_window_min_length, - int16_t index, - const uint16_t kernel_type, /* i : TCX transform kernel type */ - const int16_t left_rect, - const int16_t tcx_offset, - const int16_t overlap, - const int16_t L_frame, - const int16_t L_frameTCX, - const int16_t L_spec_TCX5, - const int16_t L_frame_glob, - const int16_t frame_cnt, - const int16_t bfi, - float *old_out, - const int16_t FB_flag, - Decoder_State *st, - const int16_t fullband, - float *acelp_zir ); - -void hq_hr_dec( - Decoder_State *st, /* i/o: decoder state structure */ - float *t_audio_q, /* o : transform-domain coefficients */ - const int16_t length, /* i : frame length */ - const int16_t num_bits, /* i : number of available bits */ - int16_t *ynrm, /* o : norm quantization index vector */ - int16_t *is_transient, /* o : transient flag */ - int16_t *hqswb_clas, /* o : HQ SWB class */ - float *SWB_fenv, /* o : SWB frequency envelopes */ - const int16_t core_switching_flag /* i : Core switching flag */ - -); - -void hdecnrm_context( - Decoder_State *st, /* i/o: decoder state structure */ - const int16_t N, /* i : number of norms */ - int16_t *index, /* o : indices of quantized norms */ - int16_t *n_length /* o : decoded stream length */ -); - -void hdecnrm_tran( - Decoder_State *st, /* i/o: decoder state structure */ - const int16_t N, /* i : number of norms */ - int16_t *index /* o : indices of quantized norms */ -); - -void hdecnrm_resize( - Decoder_State *st, /* i/o: decoder state structure */ - const int16_t N, /* i : number of SFMs */ - int16_t *index /* o : norm quantization index vector */ -); - -void hdecnrm( - Decoder_State *st, /* i/o: decoder state structure */ - const int16_t N, /* i : number of norms */ - int16_t *index /* o : indices of quantized norms */ -); - -/*! r: index of last band */ -int16_t find_last_band( - const int16_t *bitalloc, /* i : bit allocation */ - const int16_t nb_sfm /* i : number of possibly coded bands */ -); - -void fill_spectrum( - float *coeff, /* i/o: normalized MLT spectrum / nf spectrum */ - int16_t *R, /* i : number of pulses per band */ - const int16_t is_transient, /* i : transient flag */ - int16_t norm[], /* i : quantization indices for norms */ - const float *hq_generic_fenv, /* i : HQ GENERIC envelope */ - const int16_t hq_generic_offset, /* i : HQ GENERIC offset */ - const int16_t nf_idx, /* i : noise fill index */ - const int16_t length, /* i : Length of spectrum (32 or 48 kHz) */ - const float env_stab, /* i : Envelope stability measure [0..1] */ - int16_t *no_att_hangover, /* i/o: Frame counter for attenuation hangover */ - float *energy_lt, /* i/o: Long-term energy measure for transient detection */ - int16_t *bwe_seed, /* i/o: random seed for generating BWE input */ - const int16_t hq_generic_exc_clas, /* i : HF excitation class */ - const int16_t core_sfm, /* i : index of the end band for core */ - int16_t HQ_mode, /* i : HQ mode */ - float noise_level[], /* i : noise level for harmonic modes */ - int32_t core_brate, /* i : target bitrate */ - float prev_noise_level[], /* i/o: noise factor in previous frame */ - int16_t *prev_R, /* i/o: bit allocation info. in previous frame */ - float *prev_coeff_out, /* i/o: decoded spectrum in previous frame */ - const int16_t *peak_idx, /* i : peak positions */ - const int16_t Npeaks, /* i : number of peaks */ - const int16_t *npulses, /* i : Number of assigned pulses per band */ - int16_t prev_is_transient, /* i : previous transient flag */ - float *prev_normq, /* i : previous norms */ - float *prev_env, /* i : previous noise envelopes */ - int16_t prev_bfi, /* i : previous bad frame indicator */ - const int16_t *sfmsize, /* i : Length of bands */ - const int16_t *sfm_start, /* i : Start of bands */ - const int16_t *sfm_end, /* i : End of bands */ - int16_t *prev_L_swb_norm, /* i/o: last normalize length for harmonic mode */ - int16_t prev_hq_mode, /* i : previous HQ mode */ - const int16_t num_sfm, /* i : Number of bands */ - const int16_t num_env_bands, /* i : Number of envelope bands */ - const int16_t element_mode /* i : element mode */ -); - -void de_interleave_spectrum( - float *coefs, /* i/o: input and output coefficients */ - int16_t length /* i : length of spectrum */ -); - -void inverse_transform( - const float *InMDCT, /* i : input MDCT vector */ - float *Out, /* o : output vector */ - const int16_t IsTransient, /* i : transient flag */ - const int16_t L, /* i : output frame length */ - const int16_t L_inner, /* i : length of the transform */ - const int16_t element_mode /* i : IVAS element mode */ -); - -void window_ola( - const float *ImdctOut, /* i : input */ - float *auOut, /* o : output audio */ - float *OldauOut, /* i/o: audio from previous frame */ - const int16_t L, /* i : length */ - const int16_t right_mode, - const int16_t left_mode, /* i : window overlap of current frame (0: full, 2: none, or 3: half) */ - const int16_t use_bfi_win, /* i : use BFI windowing */ - const int16_t oldHqVoicing, /* i : previous HqVoicing */ - float *oldgapsynth /* i : previous gapsynth */ -); - -void window_ola_ext( - const float *ImdstOut, /* i : input */ - float *auOut, /* o : output audio */ - float *OldauOut, /* i/o: audio from previous frame */ - const int16_t L, /* i : length */ - const int16_t right_mode, - const int16_t left_mode, /* i : window overlap of current frame (0: full, 2: none, or 3: half) */ - const uint16_t kernel_type /* i : transform kernel type */ -); - -void map_quant_weight( - const int16_t normqlg2[], /* i : quantized norms */ - int16_t wnorm[], /* o : weighted norm */ - const int16_t is_transient /* i : transient flag */ -); - -void recovernorm( - const int16_t *const idxbuf, /* i : reordered quantization indices */ - int16_t *ynrm, /* o : recovered quantization indices */ - int16_t *normqlg2, /* o : recovered quantized norms */ - const int16_t nb_sfm /* i : number of subbands */ -); - -void reordvct( - int16_t *y, /* i/o: vector to rearrange */ - const int16_t N, /* i : dimensions */ - int16_t *idx /* o : reordered vector index */ -); - -void bitalloc( - int16_t *y, /* i : reordered norm of sub-vectors */ - int16_t *idx, /* i : reordered sub-vector indices */ - int16_t sum, /* i : number of available bits */ - int16_t N, /* i : number of norms */ - int16_t K, /* i : maximum number of bits per dimension */ - int16_t *r, /* o : bit-allacation vector */ - const int16_t *sfmsize, /* i : Length of bands */ - const int16_t hqswb_clas /* i : signal classification flag */ -); - -/*! r: Integer (truncated) number of allocated bits */ -int16_t BitAllocF( - int16_t *y, /* i : norm of sub-vectors */ - int32_t bit_rate, /* i : bitrate */ - int16_t B, /* i : number of available bits */ - int16_t N, /* i : number of sub-vectors */ - int16_t *R, /* o : bit-allocation indicator */ - int16_t *Rsubband, /* o : sub-band bit-allocation vector (Q3) */ - const int16_t hqswb_clas, /* i : hq swb class */ - const int16_t num_env_bands /* i : Number sub bands to be encoded for HQ_SWB_BWE */ -); - -/*! r: Integer (truncated) number of allocated bits */ -int16_t BitAllocWB( - int16_t *y, /* i : norm of sub-vectors */ - int16_t B, /* i : number of available bits */ - int16_t N, /* i : number of sub-vectors */ - int16_t *R, /* o : bit-allocation indicator */ - int16_t *Rsubband ); /* o : sub-band bit-allocation vector (Q3) */ - -/*! r: Number of low frequency bands */ -int16_t hvq_pvq_bitalloc( - int16_t num_bits, /* i/o: Number of available bits (including gain bits) */ - const int32_t core_brate, /* i : bitrate */ - const int16_t bwidth, /* i : Encoded bandwidth */ - const int16_t *ynrm, /* i : Envelope coefficients */ - const int32_t manE_peak, /* i : Peak energy mantissa */ - const int16_t expE_peak, /* i : Peak energy exponent */ - int16_t *Rk, /* o : bit allocation for concatenated vector */ - int16_t *R, /* i/o: Global bit allocation */ - int16_t *sel_bands, /* o : Selected bands for encoding */ - int16_t *n_sel_bands /* o : No. of selected bands for encoding */ -); - -void floating_point_add_float( - int32_t *mx, /* i/o: mantissa of the addend Q31 */ - int16_t *ex, /* i/o: exponent of the addend Q0 */ - const int32_t my, /* i : mantissa of the adder Q31 */ - const int16_t ey /* i : exponent of the adder Q0 */ -); - -/*! r: Number of bits needed */ -int16_t rc_get_bits2( - const int16_t N, /* i : Number of bits currently used */ - const uint32_t range /* i : Range of range coder */ -); - -void rc_enc_init( - PVQ_ENC_HANDLE hPVQ, /* i/o: PVQ encoder handle */ - int16_t tot_bits /* i : Total bit budget */ -); - -void rc_encode( - BSTR_ENC_HANDLE hBstr, /* i/o: encoder bitstream handle */ - PVQ_ENC_HANDLE hPVQ, /* i/o: PVQ encoder handle */ - const uint32_t cum_freq, /* i : Cumulative frequency up to symbol */ - const uint32_t sym_freq, /* i : Symbol probability */ - const uint32_t tot /* i : Total cumulative frequency */ -); - -void rc_enc_finish( - BSTR_ENC_HANDLE hBstr, /* i/o: encoder bitstream handle */ - PVQ_ENC_HANDLE hPVQ /* i/o: PVQ encoder handle */ -); - -void rc_enc_bits( - BSTR_ENC_HANDLE hBstr, /* i/o: encoder bitstream handle */ - PVQ_ENC_HANDLE hPVQ, /* i/o: PVQ encoder handle */ - const uint32_t value, /* i : Value to encode */ - const int16_t bits /* i : Number of bits used */ -); - -void rc_enc_uniform( - BSTR_ENC_HANDLE hBstr, /* i/o: encoder bitstream handle */ - PVQ_ENC_HANDLE hPVQ, /* i/o: PVQ encoder handle */ - uint32_t value, /* i : Value to encode */ - uint32_t tot /* i : Maximum value */ -); - -void rc_dec_init( - Decoder_State *st, /* i/o: Decoder State */ - PVQ_DEC_HANDLE hPVQ, /* i/o: PVQ decoder handle */ - int16_t tot_bits /* i : Total bit budget */ -); - -/*! r: Decoded value */ -uint32_t rc_decode( - int16_t *BER_detect, /* o : Bit error detection flag */ - PVQ_DEC_HANDLE hPVQ, /* i/o: PVQ decoder handle */ - uint32_t tot /* i : Total cumulative frequency */ -); - -void rc_dec_update( - Decoder_State *st, /* i/o: Decoder State */ - PVQ_DEC_HANDLE hPVQ, /* i/o: PVQ decoder handle */ - const uint32_t cum_freq, /* i : Cumulative frequency */ - const uint32_t sym_freq /* i : Symbol frequency */ -); - -/*! r: Decoded value */ -uint32_t rc_dec_bits( - Decoder_State *st, /* i/o: Decoder State */ - PVQ_DEC_HANDLE hPVQ, /* i/o: PVQ decoder handle */ - const int16_t bits /* i : Number of bits */ -); - -/*! r: Decoded value */ -uint32_t rc_dec_uniform( - Decoder_State *st, /* i/o: Decoder State */ - PVQ_DEC_HANDLE hPVQ, /* i/o: PVQ decoder handle */ - const uint32_t tot /* i : Maximum value */ -); - -void rc_dec_finish( - Decoder_State *st, /* i/o: decoder state structure */ - PVQ_DEC_HANDLE hPVQ /* i/o: PVQ decoder handle */ -); - -/*! r: number of bits encoded */ -int16_t pvq_core_enc( - BSTR_ENC_HANDLE hBstr, /* i/o: encoder bitstream handle */ - float coefs_norm[], /* i/o: normalized coefficients to encode */ - float coefs_quant[], /* o : quantized coefficients */ - const int16_t bits_tot, /* i : total number of bits */ - const int16_t nb_sfm, /* i : number of bands */ - const int16_t *sfm_start, /* i : Subband start coefficient */ - const int16_t *sfm_end, /* i : Subband end coefficient */ - const int16_t *sfmsize, /* i : subband width */ - int16_t *R, /* i/o: Bit allocation/Adjusted bit alloc. (Q3) */ - int16_t *Rs, /* i/o: Integer bit allocation */ - int16_t *npulses, /* o : number of pulses */ - int16_t *maxpulse, /* i : maximum pulse per band */ - const int16_t core /* i : number of bands */ -); - -/*! r: number of bits decoded */ -int16_t pvq_core_dec( - Decoder_State *st, /* i/o: Decoder state */ - const int16_t *sfm_start, /* i : indices of first coeffs in the bands */ - const int16_t *sfm_end, /* i : indices of last coeffs in the bands */ - const int16_t *sfmsize, /* i : band sizes */ - float coefs_quant[], /* o : output MDCT */ - const int16_t bits_tot, /* i : bit budget */ - const int16_t nb_sfm, /* i : number of bands */ - int16_t *R, /* i/o: Bit allocation/Adjusted bit alloc.(Q3) */ - int16_t *Rs, /* i/o: Integer bit allocation */ - int16_t *npulses, /* o : number of pulses per band */ - int16_t *maxpulse, /* o : maximum pulse per band */ - const int16_t core /* i : core */ -); - -void pvq_encode( - BSTR_ENC_HANDLE hBstr, /* i/o: encoder bitstream handle */ - PVQ_ENC_HANDLE hPVQ, /* i/o: PVQ encoder handle */ - const float *x, /* i : vector to quantize */ - int16_t *y, /* o : quantized vector (non-scaled integer)*/ - float *xq, /* o : quantized vector (scaled float) */ - const int16_t pulses, /* i : number of allocated pulses */ - const int16_t N, /* i : Length of vector */ - const float gain /* i : Gain */ -); - -void pvq_decode( - Decoder_State *st, /* i/o: Decoder State */ - PVQ_DEC_HANDLE hPVQ, /* i/o: PVQ decoder handle */ - float *xq, /* o : decoded vector (scaled float) */ - int16_t *y, /* o : decoded vector (non-scaled short)*/ - const int16_t K, /* i : number of allocated pulses */ - const int16_t N, /* i : Length of vector */ - const float gain /* i : Gain */ -); - -void rangeCoderFinalizationFBits( - const int16_t Brc, /* i : Current number of decoded bits */ - const uint32_t INTrc, /* i : Range coder state */ - int16_t *FBits /* i : Fractional finalization bits */ -); - -void bandBitsAdjustment( - const int16_t Brc, /* i : Current number of read quanta in range coder */ - const uint32_t INTrc, /* i : Range coder state */ - const int16_t Bavail, /* i : Available number of quanta */ - const int16_t Nbands, /* i : Number of bands */ - const int16_t D, /* i : Remaining number of bands to encode */ - const int16_t L, /* i : Size of current band */ - const int16_t Bband, /* i : Quanta allocation for current band */ - const int16_t Breserv, /* i : Quanta reservoir */ - int16_t *Bband_adj, /* o : Actual used number of quanta */ - int16_t *Brem, /* o : Quanta remaining */ - int16_t *Breservplus /* o : Quanta pool size */ -); - -void conservativeL1Norm( - const int16_t L, /* i : Length of vector segment */ - const int16_t Qvec, /* i : Assigned number of quanta */ - const int16_t Fcons, /* i : Conservative rounding flag */ - const int16_t Qavail, /* i : Input quanta remaining */ - const int16_t Qreserv, /* i : Input quanta in reservoir */ - const int16_t Dspec, /* i : assigned diracs from bitalloc */ - int16_t *Dvec, /* o : actual number of diracs */ - int16_t *Qspare, /* o : Output quanta remaining */ - int16_t *Qreservplus, /* o : Output quanta in reservoir */ - int16_t *Dspecplus /* o : Output number of diracs */ -); - -void NearOppSplitAdjustment( - const int16_t qband, /* i : quanta for current band */ - const int16_t qzero, /* i : range coder finalization quanta */ - const int16_t Qac, /* i : range coder current quanta */ - const uint32_t INTac, /* i : range coder state */ - const int16_t qglobal, /* i : quanta input */ - const int16_t FlagCons, /* i : conservative rounding flag */ - const int16_t Np, /* i : number of parts */ - const int16_t Nhead, /* i : first part */ - const int16_t Ntail, /* i : remaining parts */ - const int16_t Nnear, /* i : length of near component */ - const int16_t Nopp, /* i : length of opposite component */ - int16_t oppRQ3, /* i : ratio */ - int16_t *qnear, /* o : quantized near */ - int16_t *qopp, /* o : quantized opposite */ - int16_t *qglobalupd /* o : quanta remaining */ -); - -/*! r: Approximate integer division for positive input */ -int32_t intLimCDivPos( - const int32_t NUM, /* i : numerator */ - const int16_t DEN /* i : denominator */ -); - -/*! r: Approximate integer division */ -int16_t shrtCDivSignedApprox_flt( - const int16_t num, /* i : numerator */ - const int16_t den /* i : denominator */ -); - -void QuantaPerDsDirac( - const int16_t td, /* i : Length of vector segment */ - const int16_t dsDiracIndex, /* i : Quanta table index */ - const uint8_t *const *dimFrQuanta, /* i : Quanta lookup table */ - int16_t *Quanta /* i : Quanta */ -); - -void obtainEnergyQuantizerDensity( - const int16_t L_in, /* i : left vector energy */ - const int16_t R_in, /* i : right vector energy */ - int16_t *Density /* o : quantizer density */ -); - -void densityAngle2RmsProjDec( - const int16_t D, /* i : density */ - const int16_t indexphi, /* i : decoded index from AR dec */ - int16_t *oppQ15, /* o : opposite */ - int16_t *nearQ15, /* o : near */ - int16_t *oppRatioQ3 /* o : ratio */ -); - -void densityAngle2RmsProjEnc( - const int16_t D, /* i : density */ - const int16_t phiQ14uq, /* i : angle */ - int16_t *indexphi, /* o : index */ - int16_t *oppQ15, /* o : opposite */ - int16_t *nearQ15, /* o : near */ - int16_t *oppRatioQ3 /* o : ratio */ -); - -void env_adj( - const int16_t *pulses, /* i : number of pulses per band */ - const int16_t length, /* i : length of spectrum */ - const int16_t last_sfm, /* i : Index of last band */ - float *adj, /* o : Adjustment factors for the envelope */ - const float env_stab, /* i : Envelope stability parameter */ - const int16_t *sfmsize /* i : Length of bands */ -); - -float env_stability( - const int16_t *ynrm, /* i : Norm vector for current frame */ - const int16_t nb_sfm, /* i : Number of sub-bands */ - int16_t *mem_norm, /* i/o: Norm vector memory from past frame */ - int16_t *mem_env_delta, /* i/o: Envelope stability memory for smoothing*/ - const int16_t core_switching_flag /* i : Core switching flag */ -); - -/*! r: New speech/music state */ -float env_stab_smo( - float env_stab, /* i : env_stab value */ - float *env_stab_state_p, /* i/o: env_stab state probabilities */ - int16_t *ho_cnt /* i/o: hangover counter for speech state */ -); -void core_switching_post_enc( - Encoder_State *st, /* i/o: encoder state structure */ - // const float *old_inp_12k8, /* i : old input signal @12.8kHz */ - float *old_inp_12k8, /* i : old input signal @12.8kHz */ - // const float *old_inp_16k, /* i : old input signal @16kHz */ - float *old_inp_16k, /* i : old input signal @16kHz */ - // const float A[] /* i : unquant. LP filter coefs. */ - Word16 A_fx[], /* i : unquant. LP filter coefs. */ - Word16 Q_new ); -ivas_error core_switching_post_dec( - Decoder_State *st, /* i/o: decoder state structure */ - float *synth, /* i/o: output synthesis */ - float *output, /* i/o: LB synth/upsampled LB synth */ - float output_mem[], /* i : OLA memory from last TCX/HQ frame */ - const IVAS_FORMAT ivas_format, /* i : IVAS format */ - const int16_t use_cldfb_for_dft, /* i : flag to use of CLDFB for DFT Stereo */ - const int16_t output_frame, /* i : frame length */ - const int16_t core_switching_flag, /* i : ACELP->HQ switching frame flag */ - const int16_t sba_dirac_stereo_flag, /* i : signal stereo output for SBA DirAC */ - const int16_t nchan_out, /* i : number of output channels */ - const int16_t last_element_mode /* i : element mode of previous frame */ -); - -ivas_error core_switching_pre_dec( - Decoder_State *st, /* i/o: decoder state structure */ - const int16_t output_frame, /* i : frame length */ - const int32_t last_core_brate_st0, /* i : channel 0 last core bitrate */ - const int16_t nchan_out, /* i : number of output channels */ - const int16_t last_element_mode, /* i : last_element_mode */ - const int32_t last_element_brate /* i : last element bitrate */ -); - -void bandwidth_switching_detect( - Decoder_State *st /* i/o: decoder state structure */ -); - -void bw_switching_pre_proc( - Decoder_State *st, /* i/o: decoder state structure */ - const float *old_syn_12k8_16k, /* i : ACELP core synthesis @ 12.8kHz or 16kHz */ - const int32_t last_element_brate, /* i : last element bitrate */ - const int16_t nchan_out /* i : number of output channels */ -); - -void updt_bw_switching( - Decoder_State *st, /* i/o: decoder state structure */ - const float *synth /* i : float synthesis signal */ -); - -void swb_tbe_reset( - float mem_csfilt[], - float mem_genSHBexc_filt_down_shb[], - float state_lpc_syn[], - float syn_overlap[], - float state_syn_shbexc[], - float *tbe_demph, - float *tbe_premph, - float mem_stp_swb[], - float *gain_prec_swb ); - -void swb_tbe_reset_synth( - float genSHBsynth_Hilbert_Mem[], - float genSHBsynth_state_lsyn_filt_shb_local[] ); - -void find_td_envelope( - const float inp[], - const int16_t len, - const int16_t len_h, - float mem_h[], - float out[] ); - -void fb_tbe_reset_enc( - float elliptic_bpf_2_48k_mem[][4], - float *prev_fb_energy ); - -void fb_tbe_reset_synth( - float fbbwe_hpf_mem[][4], - float *prev_fbbwe_ratio ); - -void wb_tbe_extras_reset( - float mem_genSHBexc_filt_down_wb2[], - float mem_genSHBexc_filt_down_wb3[] ); - -void wb_tbe_extras_reset_synth( - float state_lsyn_filt_shb[], - float state_lsyn_filt_dwn_shb[], - float mem_resamp_HB[] ); - -void tbe_celp_exc_flt( - const int16_t element_mode, /* i : element mode */ - const int16_t idchan, /* i : channel ID */ - float *bwe_exc, /* i/o: BWE excitation */ - const int16_t L_frame, /* i : frame length */ - const int16_t L_subfr, /* i : subframe length */ - const int16_t i_subfr, /* i : subframe index */ - const int16_t T0, /* i : integer pitch lag */ - const int16_t T0_frac, /* i : fraction of lag */ - float *error, /* i/o: error */ - const int16_t tdm_LRTD_flag /* i : LRTD stereo mode flag */ -); - -void prep_tbe_exc( - const int16_t L_frame, /* i : length of the frame */ - const int16_t L_subfr, /* i : subframe length */ - const int16_t i_subfr, /* i : subframe index */ - const float gain_pit, /* i : Pitch gain */ - const float gain_code, /* i : algebraic codebook gain */ - const float code[], /* i : algebraic excitation */ - const float voice_fac, /* i : voicing factor */ - float *voice_factors, /* o : TBE voicing factor */ - float bwe_exc[], /* i/o: excitation for TBE */ - const float gain_preQ, /* i : prequantizer excitation gain */ - const float code_preQ[], /* i : prequantizer excitation */ - const int16_t T0, /* i : integer pitch variables */ - const int16_t coder_type, /* i : coding type */ - const int32_t core_brate, /* i : core bitrate */ - const int16_t element_mode, /* i : element mode */ - const int16_t idchan, /* i : channel ID */ - const int16_t flag_TD_BWE, /* i : flag indicating whether hTD_BWE exists */ - const int16_t tdm_LRTD_flag /* i : LRTD stereo mode flag */ -); - -void synthesise_fb_high_band( - const float excitation_in[], /* i : full band excitation */ - float output[], /* o : high band speech - 14.0 to 20 kHz */ - const float fb_exc_energy, /* i : full band excitation energy */ - const float ratio_float, /* i : energy ratio */ - const int16_t L_frame, /* i : ACELP frame length */ - const int16_t bfi, /* i : BFI flag */ - float *prev_fbbwe_ratio, /* o : previous frame energy for FEC */ - float bpf_memory[][4] /* i/o: memory for elliptic bpf 48k */ -); - -void elliptic_bpf_48k_generic( - const float input[], /* i : input signal */ - float output[], /* o : output signal */ - float memory[][4], /* i/o: 4 arrays for memory */ - const float full_band_bpf[][5] /* i : filter coefficients b0,b1,b2,a0,a1,a2 */ -); - -void HQ_FEC_processing( - Decoder_State *st, /* i/o: decoder state structure */ - float *t_audio_q, /* o : MDCT coeffs. (for synthesis) */ - int16_t is_transient, /* i : Old flag for transient */ - float ynrm_values[][MAX_PGF], /* i : Old average Norm values for each group of bands */ - float r_p_values[][MAX_ROW], /* i : Computed y-intercept and slope by Regression */ - int16_t num_Sb, /* i : Number of sub-band group */ - int16_t nb_sfm, /* i : Number of sub-band */ - int16_t *Num_bands_p, /* i : Number of coeffs. for each sub-band */ - int16_t output_frame, /* i : Frame size */ - const int16_t *sfm_start, /* i : Start of bands */ - const int16_t *sfm_end /* i : End of bands */ -); - -void HQ_FEC_Mem_update( - Decoder_State *st, /* i/o: decoder state structure */ - const float *t_audio_q, - float *normq, - int16_t *ynrm, - const int16_t *Num_bands_p, - const int16_t is_transient, - const int16_t hqswb_clas, - const int16_t c_switching_flag, - const int16_t nb_sfm, - const int16_t num_Sb, - float *mean_en_high, - const int16_t hq_core_type, /* i : normal or low-rate MDCT(HQ) core */ - const int16_t output_frame /* i : Frame size */ -); - -void time_domain_FEC_HQ( - Decoder_State *st, /* i : Decoder State */ - float *wtda_audio, /* i : input */ - float *out, /* o : output audio */ - const float mean_en_high, /* i : transient flag */ - const int16_t output_frame /* i : Frame size */ -); - -void save_synthesis_hq_fec( - Decoder_State *st, /* i/o: decoder state structure */ - const float *output, /* i : decoded synthesis */ - const int16_t output_frame, /* i : decoded synthesis */ - CPE_DEC_HANDLE hCPE /* i : CPE decoder structure */ -); - -void Next_good_after_burst_erasures( - const float *ImdctOut, /* i : input */ - float *auOut, /* o : output audio */ - float *OldauOut, /* i/o: audio from previous frame */ - const int16_t ol_size /* i : overlap size */ -); - - -void reset_preecho_dec( - HQ_DEC_HANDLE hHQ_core /* i/o: HQ decoder handle */ -); - -void preecho_sb( - const int32_t core_brate, /* i : core bitrate */ - const float wtda_audio[], /* i : imdct signal */ - float *rec_sig, /* i : reconstructed signal, output of the imdct transform */ - const int16_t framelength, /* i : frame length */ - float *memfilt_lb, /* i/o: memory */ - float *mean_prev_hb, /* i/o: memory */ - float *smoothmem, /* i/o: memory */ - float *mean_prev, /* i/o: memory */ - float *mean_prev_nc, /* i/o: memory */ - float *wmold_hb, /* i/o: memory */ - int16_t *prevflag, /* i/o: flag */ - int16_t *pastpre, /* i/o: flag */ - const int16_t bwidth /* i : audio bandwidth */ -); - -void hq2_core_configure( - const int16_t frame_length, /* i : frame length */ - const int16_t num_bits, /* i : number of bits */ - const int16_t is_transient, /* i : transient flag */ - int16_t *bands, - int16_t *length, - int16_t band_width[], - int16_t band_start[], - int16_t band_end[], - Word32 *L_qint, /* o : Q29 */ - Word16 *eref_fx, /* o : Q10 */ - Word16 *bit_alloc_weight_fx, /* o : Q13 */ - int16_t *gqlevs, - int16_t *Ngq, - int16_t *p2a_bands, - float *p2a_th, - float *pd_thresh, - float *ld_slope, - float *ni_coef, - float *ni_pd_th, - int32_t bwe_br ); - -void hq_lr_enc( - Encoder_State *st, /* i/o: encoder state structure */ - float t_audio[], /* i/o: transform-domain coefs. */ - const int16_t inner_frame, /* i : inner frame length */ - int16_t *num_bits, /* i/o: number of available bits */ - const int16_t is_transient /* i : transient flag */ -); - -void hq_lr_dec( - Decoder_State *st, /* i/o: decoder state structure */ - float yout[], /* o : transform-domain output coefs. */ - const int16_t inner_frame, /* i : inner frame length */ - int16_t num_bits, /* i : number of available bits */ - int16_t *is_transient /* o : transient flag */ -); - -void hq2_bit_alloc( - const float band_energy[], /* i : band energy of each subband */ - const int16_t bands, /* i : total number of subbands in a frame */ - Word32 L_Rk[], /* i/o: Bit allocation/Adjusted bit alloc. */ - int16_t *bit_budget, /* i/o: bit bugdet */ - int16_t *p2a_flags, /* i : HF tonal indicator */ - const Word16 weight_fx, /* i : weight (Q13) */ - const int16_t band_width[], /* i : Sub band bandwidth */ - const int16_t num_bits, /* i : available bits */ - const int16_t hqswb_clas, /* i : HQ2 class information */ - const int16_t bwidth, /* i : input bandwidth */ - const int16_t is_transient /* i : indicator HQ_TRANSIENT or not */ -); - -void hq2_noise_inject( - float y2hat[], - const int16_t band_start[], - const int16_t band_end[], - const int16_t band_width[], - float Ep[], - float Rk[], - const int16_t npulses[], - int16_t ni_seed, - const int16_t bands, - const int16_t ni_start_band, - const int16_t bw_low, - const int16_t bw_high, - const float enerL, - const float enerH, - float last_ni_gain[], - float last_env[], - int16_t *last_max_pos_pulse, - int16_t *p2a_flags, - int16_t p2a_bands, - const int16_t hqswb_clas, - const int16_t bwidth, - const int32_t bwe_br ); - -void mdct_spectrum_denorm( - const int32_t inp_vector[], - float y2[], - const int16_t band_start[], - const int16_t band_end[], - const int16_t band_width[], - const float band_energy[], - const int16_t npulses[], - const int16_t bands, - const float ld_slope, - const float pd_thresh ); - -void reverse_transient_frame_energies( - float band_energy[], /* o : band energies */ - const int16_t bands /* i : number of bands */ -); - - -void hvq_dec( - Decoder_State *st, /* i/o: decoder state structure */ - const int16_t num_bits, /* i : Number of available bits */ - const int32_t core_brate, /* i : Core bitrate */ - const int16_t *ynrm, /* i : Envelope coefficients */ - int16_t *R, /* i/o: Bit allocation/updated bit allocation */ - float *noise_level, /* o : Noise level */ - int16_t *peak_idx, /* o : Peak position vector */ - int16_t *Npeaks, /* o : Total number of peaks */ - float *coefsq_norm, /* o : Output vector */ - const int16_t core /* i : Core */ -); - -void hq_configure_bfi( - int16_t *nb_sfm, /* o : Number of sub bands */ - int16_t *num_Sb, /* o : Number of FEC sub bands ? */ - int16_t *num_bands_p, /* o : FEC sub bands */ - const int16_t **sfmsize, /* o : Subband bandwidths */ - const int16_t **sfm_start, /* o : Subband start coefficients */ - const int16_t **sfm_end /* o : Subband end coefficients */ -); - -void swb_bwe_enc_lr( - Encoder_State *st, /* i/o: encoder state structure */ - const float m_core[], /* i : core synthesis (MDCT) */ - const float m_orig[], /* i/o: scaled orig signal (MDCT) */ - float m[], /* o : output, SWB part (MDCT) */ - const int32_t total_brate, /* i : total bitrate for selecting subband pattern */ - int16_t BANDS, - int16_t *band_start, - int16_t *band_end, - float *band_energy, - int16_t *p2a_flags, - const int16_t hqswb_clas, - int16_t lowlength, - int16_t highlength, - int16_t *prev_frm_index, - const int16_t har_bands, - int16_t *prev_frm_hfe2, - int16_t *prev_stab_hfe2, - int16_t band_width[], - const float y2_ni[], - int16_t *ni_seed ); - -void swb_bwe_dec_lr( - Decoder_State *st, /* i/o: decoder state structure */ - const float m_core[], /* i : lowband synthesis */ - float m[], /* o : highband synthesis with lowband zeroed */ - const int32_t total_brate, /* i : total bitrate for selecting subband pattern */ - int16_t BANDS, - int16_t *band_start, - int16_t *band_end, - float *band_energy, - int16_t *p2a_flags, - const int16_t hqswb_clas, - int16_t lowlength, - int16_t highlength, - const int16_t har_bands, - int16_t *prev_frm_hfe2, - int16_t *prev_stab_hfe2, - int16_t band_width[], - const float y2_ni[], - int16_t *ni_seed ); - -int16_t get_usebit_npswb( - const int16_t hqswb_clas ); - -void GetPredictedSignal( - const float *predBuf, /* i : prediction buffer */ - float *outBuf, /* o : output buffer */ - const int16_t lag, /* i : prediction buffer offset */ - const int16_t fLen, /* i : length of loop (output) */ - const float gain /* i : gain to be applied */ -); - -void convert_lagIndices_pls2smp( - int16_t lagIndices_in[], - int16_t nBands_search, - int16_t lagIndices_out[], - const float sspectra[], - const int16_t sbWidth[], - const int16_t fLenLow ); - -void FindNBiggest2_simple( - const float *inBuf, /* i : input buffer (searched) */ - GainItem *g, /* o : N biggest components found */ - const int16_t nIdx, /* i : search length */ - int16_t *n, /* i : number of components searched (N biggest) */ - const int16_t N_NBIGGESTSEARCH ); - -void updat_prev_frm( - float y2[], - float t_audio[], - const int32_t bwe_br, - const int16_t length, - const int16_t inner_frame, - const int16_t bands, - const int16_t bwidth, - const int16_t is_transient, - const int16_t hqswb_clas, - int16_t *prev_hqswb_clas, - int16_t *prev_SWB_peak_pos, - int16_t prev_SWB_peak_pos_tmp[], - int16_t *prev_frm_hfe2, - int16_t *prev_stab_hfe2, - const int16_t bws_cnt ); - -void hf_parinitiz( - const int32_t total_brate, - const int16_t hqswb_clas, - int16_t lowlength, - int16_t highlength, - int16_t wBands[], - const int16_t **subband_search_offset, - const int16_t **subband_offsets, - int16_t *nBands, - int16_t *nBands_search, - int16_t *swb_lowband, - int16_t *swb_highband ); - -float spectrumsmooth_noiseton( - float spectra[], - const float spectra_ni[], - float sspectra[], - float sspectra_diff[], - float sspectra_ni[], - const int16_t fLenLow, - int16_t *ni_seed ); - -void noiseinj_hf( - float xSynth_har[], - const float th_g[], - const float band_energy[], - float *prev_En_sb, - const int16_t p2a_flags[], - const int16_t BANDS, - const int16_t band_start[], - const int16_t band_end[], - const int16_t fLenLow ); - -void noise_extr_corcod( - float spectra[], - const float spectra_ni[], - float sspectra[], - float sspectra_diff[], - float sspectra_ni[], - const int16_t fLenLow, - int16_t prev_hqswb_clas, - float *prev_ni_ratio ); - -void genhf_noise( - float noise_flr[], - float xSynth_har[], - float *predBuf, - int16_t bands, /* i : total number of subbands in a frame */ - int16_t harmonic_band, /* i : Number of LF harmonic frames */ - int16_t har_freq_est2, - int16_t pos_max_hfe2, - int16_t *pul_res, - GainItem pk_sf[], - const int16_t fLenLow, - const int16_t fLenHigh, - const int16_t sbWidth[], - const int16_t lagIndices[], - const int16_t subband_offsets[], - const int16_t subband_search_offset[] ); - -void ton_ene_est( - float xSynth_har[], - float be_tonal[], - float band_energy[], - int16_t band_start[], - int16_t band_end[], - int16_t band_width[], - const int16_t fLenLow, - const int16_t fLenHigh, - int16_t bands, - int16_t har_bands, - float ni_lvl, - GainItem pk_sf[], - int16_t *pul_res ); - -void Gettonl_scalfact( - float *outBuf, /* o : synthesized spectrum */ - const float *codbuf, /* i : core coder */ - const int16_t fLenLow, /* i : lowband length */ - const int16_t fLenHigh, /* i : highband length */ - int16_t harmonic_band, /* i : Number of LF harmonic frames */ - int16_t bands, /* i : total number of subbands in a frame */ - float *band_energy, /* i : band energy of each subband */ - int16_t *band_start, /* i : subband start indices */ - int16_t *band_end, /* i : subband end indices */ - const int16_t p2aflags[], - float be_tonal[], - GainItem *pk_sf, - int16_t *pul_res ); - -void SpectrumSmoothing( - float *inBuf, - float *outBuf, - const int16_t fLen, - const float th_cut ); - -void hq2_bit_alloc_har( - float *y, /* i : band energy of sub-vectors */ - int16_t B, /* i : number of available bits */ - int16_t N, /* i : number of sub-vectors */ - Word32 *L_Rsubband, - int16_t p2a_bands, - int32_t core_brate, /* i : core bitrate */ - int16_t p2a_flags[], - int16_t band_width[] ); - -void GetSynthesizedSpecThinOut( - const float *predBuf, - float *outBuf, - const int16_t nBands, - const int16_t *sbWidth, - const int16_t *lagIndices, - const float *lagGains, - const int16_t predBufLen ); - -void return_bits_normal2( - int16_t *bit_budget, - const int16_t p2a_flags[], - const int16_t bands, - const int16_t bits_lagIndices[] ); - -void GetlagGains( - const float *predBuf, - const float *band_energy, - const int16_t nBands, - const int16_t *sbWidth, - const int16_t *lagIndices, - const int16_t predBufLen, - float *lagGains ); - -void preset_hq2_swb( - const int16_t hqswb_clas, - const int16_t band_end[], - int16_t *har_bands, - int16_t p2a_bands, - const int16_t length, - const int16_t bands, - int16_t *lowlength, - int16_t *highlength, - float m[] ); - -void post_hq2_swb( - const float m[], - const int16_t lowlength, - const int16_t highlength, - const int16_t hqswb_clas, - const int16_t har_bands, - const int16_t bands, - const int16_t p2a_flags[], - const int16_t band_start[], - const int16_t band_end[], - float y2[], - int16_t npulses[] ); - -void har_denorm_pulcnt( - float spectra[], /* i/o: MDCT domain spectrum */ - const int16_t band_start[], /* i : Number subbands/Frame */ - const int16_t band_end[], /* i : Band Start of each SB */ - const float band_energy[], /* i : Band end of each SB */ - const int16_t band_width[], - const int16_t npulses[], - const int16_t har_bands /* i : No. of harmonic bands */ -); - -int16_t har_est( - float spectra[], - const int16_t N, - int16_t *har_freq_est1, - int16_t *har_freq_est2, - int16_t *flag_dis, - int16_t *prev_frm_hfe2, - const int16_t subband_search_offset[], - const int16_t sbWidth[], - int16_t *prev_stab_hfe2 ); - -void spt_shorten_domain_pre( - const int16_t band_start[], - const int16_t band_end[], - const int16_t prev_SWB_peak_pos[], - const int16_t BANDS, - const int32_t bwe_br, - int16_t new_band_start[], - int16_t new_band_end[], - int16_t new_band_width[] ); - -void spt_shorten_domain_band_save( - const int16_t bands, - const int16_t band_start[], - const int16_t band_end[], - const int16_t band_width[], - int16_t org_band_start[], - int16_t org_band_end[], - int16_t org_band_width[] ); - -void spt_shorten_domain_band_restore( - const int16_t bands, - int16_t band_start[], - int16_t band_end[], - int16_t band_width[], - const int16_t org_band_start[], - const int16_t org_band_end[], - const int16_t org_band_width[] ); - -void spt_swb_peakpos_tmp_save( - const float y2[], - const int16_t bands, - const int16_t band_start[], - const int16_t band_end[], - int16_t prev_SWB_peak_pos_tmp[] ); - -void hq_ecu( - const float *prevsynth, /* i : buffer of previously synthesized signal */ - float *ecu_rec, /* o : reconstructed frame in tda domain */ - int16_t *time_offs, /* i/o: Sample offset for consecutive frame losses*/ - float *X_sav, /* i/o: Stored spectrum of prototype frame */ - int16_t *num_p, /* i/o: Number of identified peaks */ - int16_t *plocs, /* i/o: Peak locations */ - float *plocsi, /* i/o: Interpolated peak locations */ - const float env_stab, /* i : Envelope stability parameter */ - int16_t *last_fec, /* i/o: Flag for usage of pitch dependent ECU */ - const int16_t ph_ecu_HqVoicing, /* i : HQ Voicing flag */ - int16_t *ph_ecu_active, /* i : Phase ECU active flag */ - float *gapsynth, /* o : Gap synthesis */ - const int16_t prev_bfi, /* i : indicating burst frame error */ - const int16_t old_is_transient[2], /* i : flags indicating previous transient frames*/ - float *mag_chg_1st, /* i/o: per band magnitude modifier for transients*/ - float Xavg[LGW_MAX], /* i/o: Frequency group average gain to fade to */ - float *beta_mute, /* o : Factor for long-term mute */ - const int16_t output_frame, /* i : frame length */ - Decoder_State *st /* i/o: decoder state structure */ -); - -void peakfinder( - const float *x0, /* i : vector from which the maxima will be found */ - const int16_t len0, /* i : length of input vector */ - int16_t *plocs, /* o : the indicies of the identified peaks in x0 */ - int16_t *cInd, /* o : number of identified peaks */ - const float sel, /* i : The amount above surrounding data for a peak to be identified */ - const int16_t endpoints /* i : Flag to include endpoints in peak search */ -); - -/*! r: interpolated maximum position */ -float imax_pos( - const float *y /* i : Input vector for peak interpolation */ -); - - -void fft3( - const float X[], /* i : input frame */ - float Y[], /* o : DFT of input frame */ - const int16_t n /* i : block length (must be radix 3) */ -); - -void ifft3( - const float X[], /* i : input frame */ - float Y[], /* o : iDFT of input frame */ - const int16_t n /* i : block length (must be radix 3) */ -); - -/*! r: updated estimate of background noise */ -void minimumStatistics( - float *noiseLevelMemory, /* i/o: internal state */ - int16_t *noiseLevelIndex, /* i/o: internal state */ - int16_t *currLevelIndex, /* i/o: internal state (circular buffer) */ - float *noiseEstimate, /* i/o: previous estimate of background noise */ - float *lastFrameLevel, /* i/o: level of the last frame */ - float currentFrameLevel, /* i : level of the current frame */ - const float minLev, /* i : minimum level */ - const int16_t buffSize /* i : buffer size */ -); - -void E_ACELP_toeplitz_mul( - const float R[], - const float c[], - float d[] ); - -void E_ACELP_innovative_codebook( - const float *exc, /* i : pointer to the excitation frame */ - const int16_t T0, /* i : integer pitch lag */ - const int16_t T0_frac, /* i : fraction of lag */ - const int16_t T0_res, /* i : pitch resolution */ - const float pitch_gain, /* i : adaptive codebook gain */ - const float tilt_code, /* i : tilt factor */ - ACELP_config *acelp_cfg, /* i/o: configuration of the ACELP */ - const int16_t i_subfr, /* i : subframe index */ - const float *Aq, /* i : quantized LPC coefficients */ - const float *h1, /* i : impulse response of weighted synthesis filter */ - const float *xn, /* i : Close-loop Pitch search target vector */ - const float *cn, /* i : Innovative codebook search target vector */ - const float *y1, /* i : zero-memory filtered adaptive excitation */ - float *y2, /* o : zero-memory filtered algebraic excitation */ - const int16_t acelpautoc, /* i : autocorrelation mode enabled */ - int16_t **pt_indice, /* i/o: quantization indices pointer */ - float *code, /* o : innovative codebook */ - const int16_t L_frame, /* i : length of the frame */ - const int16_t last_L_frame, /* i : length of the last frame */ - const int32_t total_brate /* i : total bitrate */ -); - -int16_t E_ACELP_code43bit( - const float code[], - uint32_t *ps, - int16_t *p, - uint16_t idxs[] ); -void D_ACELP_indexing_ivas( - float code[], - PulseConfig config, - const int16_t num_tracks, - int16_t prm[], - int16_t *BER_detect ); - -void D_ACELP_decode_43bit( - uint16_t idxs[], - float code[], - int16_t *pulsestrack ); - -void fcb_pulse_track_joint_decode_ivas( - uint16_t *idxs, - const int16_t wordcnt, - uint32_t *index_n, - const int16_t *pulse_num, - const int16_t track_num ); - -void lag_wind_flt( - float r[], /* i/o: autocorrelations */ - const int16_t m, /* i : order of LP filter */ - const int32_t sr_core, /* i : sampling rate */ - const int16_t strength /* i : LAGW_WEAK, LAGW_MEDIUM, or LAGW_STRONG */ -); - -void adapt_lag_wind_fx( - float r[], /* i/o: autocorrelations */ - const int16_t m, /* i : order of LP filter */ - const int16_t Top, /* i : open loop pitch lags from curr. frame (or NULL if n/a) */ - const float Tnc, /* i : open loop pitch gains from curr. frame (NULL if n/a) */ - const int32_t sr_core /* i : core sampling rate */ -); - -void core_coder_reconfig( - Encoder_State *st, /* i/o: encoder state structure */ - const int32_t last_total_brate /* i : last total bitrate */ -); - -void core_coder_mode_switch( - Encoder_State *st, /* i/o: encoder state structure */ - const int32_t last_total_brate, /* i : last bitrate */ - const int16_t MCT_flag /* i : hMCT handle allocated (1) or not (0)*/ -); - -void enc_acelp_tcx_main( - Encoder_State *st, /* i/o: encoder state structure */ - const float new_samples[], /* i : new samples */ - float Aw[NB_SUBFR16k * ( M + 1 )], /* i : weighted A(z) unquant. for subframes*/ - const float lsp_new[M], /* i : LSPs at the end of the frame */ - const float lsp_mid[M], /* i : LSPs at the middle of the frame */ - float bwe_exc_extended[], /* i/o: bandwidth extended excitation */ - float *voice_factors, /* o : voicing factors */ - float pitch_buf[], /* o : floating pitch for each subframe */ - const int16_t vad_hover_flag /* i : VAD hangover flag */ -); - -void getTCXMode_ivas( - Decoder_State *st, /* i/o: decoder memory state */ - Decoder_State *st0, /* i : bitstream */ - const Word16 MCT_flag /* i : hMCT handle allocated (1) or not (0)*/ -); - -void getTCXWindowing_ivas( - const Word16 core, /* i : current frame mode */ - const Word16 last_core, /* i : last frame mode */ - const Word16 element_mode, /* i : element mode */ - TCX_CONFIG_HANDLE hTcxCfg, /* i/o: TCX configuration handle */ - Decoder_State *st0 /* i : bitstream */ -); - -void getLPCparam_ivas( - Decoder_State *st, /* i/o: decoder memory state */ - int16_t param_lpc[], /* o : LTP parameters */ - Decoder_State *st0, /* i : bitstream */ - const int16_t ch, /* i : channel */ - const int16_t sns_low_br_mode /* i : SNS low-bitrate mode */ -); - -void getTCXparam_ivas( - Decoder_State *st, /* i/o: Decoder State handle */ - Decoder_State *st0, /* i : bitstream */ - CONTEXT_HM_CONFIG hm_cfg, /* i/o: HM config */ - int16_t param[], /* o : decoded parameters */ - const int16_t bits_common, /* i : number of common bits */ - const int16_t start_bit_pos, /* i : position of the start bit */ - const int16_t *no_param_tns, /* i : number of TNS parameters per subframe */ - int16_t p_param[2], /* o : pointer to parameters for next round of bs reading*/ - int16_t nTnsBitsTCX10[2], - const int16_t pre_past_flag ); - -void pitch_pred_linear_fit_flt( - const int16_t nbLostCmpt, /* i : bfi counter */ - const int16_t last_good, /* i : last classification type */ - float *old_pitch_buf, /* i : pitch lag buffer */ - float *old_fpitch, /* i/o: pitch used for initial ACB generation */ - float *T0_out, /* o : estimated close loop pitch */ - const int16_t pit_min, /* i : Minimum pitch lag */ - const int16_t pit_max, /* i : Maximum pitch lag */ - float *mem_pitch_gain, /* i : lag pitch gain [0] is the most recent subfr lag */ - const int16_t limitation, - const int16_t plc_use_future_lag, /* i : number of subframes to predict */ - int16_t *extrapolationFailed, /* o : flag if extrap decides not to change the pitch */ - const int16_t nb_subfr /* i : number of ACELP subframes */ -); - -void get_subframe_pitch_flt( - const int16_t nSubframes, /* i : number of subframes */ - float pitchStart, /* i : starting pitch lag (in subframe -1) */ - float pitchEnd, /* i : ending pitch lag (in subframe nSubframes-1) */ - float *pitchBuf /* o : interpolated pitch lag per subframe */ -); - -void core_encode_openloop( - Encoder_State *st, /* i/o: encoder state structure */ - const float Aw[NB_SUBFR16k * ( M + 1 )], /* i : weighted A(z) unquant. for subframes*/ - const float lsp_new[M], /* i : LSPs at the end of the frame */ - const float lsp_mid[M], /* i : LSPs at the middle of the frame */ - float *pitch_buf, /* i/o: floating pitch values for each subfr*/ - float *voice_factors, /* o : voicing factors */ - float *ptr_bwe_exc, /* o : excitation for SWB TBE */ - const int16_t vad_hover_flag /* i : VAD hangover flag */ -); - -void core_acelp_tcx20_switching( - Encoder_State *st, /* i/o: encoder state structure */ - float non_staX, /* i : unbound non-stationarity for sp/mu clas */ - float *pitch_fr, /* i/o: fraction pitch values */ - float *voicing_fr, /* i/o: fractional voicing values */ - const float currTempFlatness, /* i : flatness */ - const float lsp_mid[M], /* i : LSPs at the middle of the frame */ - const float stab_fac /* i : LP filter stability */ -); - -void core_encode_twodiv( - Encoder_State *st, /* i/o: coder memory state */ - const float new_samples[], /* i : new samples */ - float Aw[NB_SUBFR16k * ( M + 1 )], /* i : weighted A(z) unquant. for subframes*/ - const int16_t vad_hover_flag /* i : VAD hangover flag */ -); - -void core_encode_update( - Encoder_State *st /* i/o: encoder state structure */ -); - -void core_encode_update_cng( - Encoder_State *st, /* i/o: encoder state structure */ - float *timeDomainBuffer, - float *A, - const float Aw[] /* i : weighted A(z) unquant. for subframes*/ -); - -void core_signal_analysis_high_bitrate( - const float *new_samples, - const int16_t T_op[3], /* i : open-loop pitch values for quantiz. */ - float lsp_new[], - float lsp_mid[], - Encoder_State *st, - float *mdst_spectrum[2], - int16_t pTnsSize[], - int16_t pTnsBits[], - int16_t param_core[], - int16_t *ltpBits, - float *windowed_samples, /* i/o: backup of windowed time signal */ - const int16_t L_frame, - const int16_t L_frameTCX, - const int16_t last_element_mode, - const int16_t vad_hover_flag /* i : VAD hangover flag */ -); - -void encode_acelp_gains( - const float *code, - const int16_t gains_mode, - const float mean_ener_code, - const int16_t clip_gain, - ACELP_CbkCorr *g_corr, - float *gain_pit, - float *gain_code, - int16_t **pt_indice, - float *past_gcode, - float *gain_inov, - const int16_t L_subfr, - float *code2, - float *gain_code2, - const int16_t noisy_speech_flag ); - -int16_t gain_enc_gacelp_uv( - const float *code, /* i : algebraic excitation */ - const float *code2, /* i : gaussian excitation */ - const int16_t lcode, /* i : Subframe size */ - const float mean_ener, /* i : quantized mean energy of the frame */ - float *gain_pit, /* o : quantized pitch gain */ - float *gain_code, /* o : quantized codebook gain */ - float *gain_code2, /* o : quantized codebook gain */ - ACELP_CbkCorr *coeff, /* i/o: correlations , -2,, -2 and 2 */ - float *past_gcode, /* i/o: past gain of code */ - float *gain_inov, /* o : unscaled innovation gain */ - const int16_t noisy_speech_flag /* i : noisy speech flag */ -); - -int16_t Mode2_gain_enc_mless( - const float *code, /* i : algebraic excitation */ - const int16_t lcode, /* i : Subframe size */ - float *gain_pit, /* o : quantized pitch gain */ - float *gain_code, /* o : quantized codebook gain */ - ACELP_CbkCorr *coeff, /* i/o: correlations , -2,, -2 and 2 */ - const float mean_ener, /* i : mean_ener defined in open-loop (3 bits) */ - const int16_t clip_gain, /* i : gain pitch clipping flag (1 = clipping) */ - float *past_gcode, /* i/o: past gain of code */ - float *gain_inov, /* o : unscaled innovation gain */ - const int16_t coder_type /* i : type of coder */ -); - -void decode_acelp_gains( - const float *code, - const int16_t gains_mode, - const float mean_ener_code, - float *gain_pit, - float *gain_code, - int16_t **pt_indice, - float *past_gpit, - float *past_gcode, - float *gain_inov, - const int16_t L_subfr, - float *code2, - float *gain_code2 ); - -void gain_dec_gacelp_uv( - int16_t index, /* i/o: Quantization index vector */ - const float *code, /* i : algebraic code excitation */ - const float *code2, /* i : algebraic code excitation */ - const float mean_ener, /* i : mean energy */ - const int16_t lcode, /* i : Subframe size */ - float *gain_pit, /* o : Quantized pitch gain */ - float *gain_code, /* o : Quantized codebook gain */ - float *gain_code2, /* o : Quantized codebook gain */ - float *past_gpit, /* i/o: past gain of pitch */ - float *past_gcode, /* i/o: past energy of code */ - float *gain_inov /* o : unscaled innovation gain */ -); - -void limit_T0_voiced_ivas( - const int16_t nbits, - const int16_t res, - const int16_t T0, /* i : rough pitch estimate around which the search is done */ - const int16_t T0_frac, /* i : pitch estimate fractional part */ - const int16_t T0_res, /* i : pitch resolution */ - int16_t *T0_min, /* o : lower pitch limit */ - int16_t *T0_min_frac, /* o : lower pitch limit */ - int16_t *T0_max, /* o : higher pitch limit */ - int16_t *T0_max_frac, /* o : higher pitch limit */ - const int16_t pit_min, /* i : Minimum pitch lag */ - const int16_t pit_max /* i : Maximum pitch lag */ -); - - -/*! r: floating pitch value */ -float Mode2_pit_decode_flt( - const int16_t coder_type, /* i : coding model */ - const int16_t i_subfr, /* i : subframe index */ - const int16_t L_subfr, /* i : sub-frame length */ - int16_t **pt_indice, /* i/o: quantization indices pointer */ - int16_t *T0, /* o : close loop integer pitch */ - int16_t *T0_frac, /* o : close loop fractional part of the pitch */ - int16_t *T0_res, /* i/o: pitch resolution */ - int16_t *T0_min, /* i/o: lower limit for close-loop search */ - int16_t *T0_min_frac, /* i/o: lower limit for close-loop search */ - int16_t *T0_max, /* i/o: higher limit for close-loop search */ - int16_t *T0_max_frac, /* i/o: higher limit for close-loop search */ - const int16_t pit_min, - const int16_t pit_fr1, - const int16_t pit_fr1b, - const int16_t pit_fr2, - const int16_t pit_max, - const int16_t pit_res_max ); - -void Mode2_abs_pit_dec_flt( - int16_t *T0, /* o : integer pitch lag */ - int16_t *T0_frac, /* o : pitch fraction */ - int16_t *T0_res, /* o : pitch resolution */ - int16_t **pt_indice, /* i/o: pointer to Vector of Q indexes */ - const int16_t pit_min, - const int16_t pit_fr1, - const int16_t pit_fr2, - const int16_t pit_res_max ); - -void Mode2_delta_pit_dec_flt( - int16_t *T0, /* o : integer pitch lag */ - int16_t *T0_frac, /* o : pitch fraction */ - int16_t T0_res, /* i : pitch resolution */ - int16_t *T0_min, /* i : delta search min */ - int16_t *T0_min_frac, /* i : delta search min */ - int16_t **pt_indice /* i/o: pointer to Vector of Q indexes */ -); - -void formant_post_filt_ivas( - PFSTAT_HANDLE hPFstat, /* i/o: Post filter related memories */ - float *synth_in, /* i : 12k8 synthesis */ - const float *Aq, /* i : LP filter coefficient */ - float *synth_out, /* i/o: input signal */ - const int16_t L_frame, /* i : frame length */ - const int16_t L_subfr, /* i : sub-frame length */ - const float lp_noise, /* i : background noise energy */ - const int32_t brate, /* i : bitrate */ - const int16_t off_flag /* i : Off flag */ -); - - -int16_t dlpc_avq( - int16_t *index, /* i : Quantization indices */ - float *LSF_Q, /* o : Quantized LSF vectors */ - const int16_t numlpc, /* i : Number of sets of lpc */ - const int32_t sr_core /* i : internal sampling rate */ -); - -int16_t decode_lpc_avq( - Decoder_State *st, /* i/o: decoder state structure */ - const int16_t numlpc, /* i : Number of sets of lpc */ - int16_t *param_lpc, /* o : lpc parameters */ - const int16_t ch, /* i : channel */ - const int16_t element_mode, /* i : element mode */ - const int16_t sns_low_br_mode /* i : SNS low-bitrate mode */ -); - - -void vlpc_2st_dec_flt( - float *lsfq, /* i/o: i:1st stage o:1st+2nd stage */ - int16_t *indx, /* i : index[] (4 bits per words) */ - const int16_t mode, /* i : 0=abs, >0=rel */ - const int32_t sr_core /* i : internal sampling rate */ -); - -void lsf_weight_2st_flt( - const float *lsfq, - float *w, - const int16_t mode, - const int32_t sr_core ); - -void mdct_window_sine_flt( - float *window, - const int32_t Fs, - const int16_t n, - const int16_t window_type, - const int16_t element_mode ); - -void mdct_window_aldo_flt( - float *window1, - float *window2, - const int16_t n ); - -void AVQ_cod_lpc( - const float nvec[], /* i : vector to quantize */ - int16_t nvecq[], /* o : quantized normalized vector (assuming the bit budget is enough) */ - int16_t *indx, /* o : index[] (4 bits per words) */ - const int16_t Nsv /* i : number of subvectors (lg=Nsv*8) */ -); - -void AVQ_dec_lpc_ivas( - const int16_t indx[], /* i : index[] (4 bits per words) */ - int16_t nvecq[], /* o : vector quantized */ - const int16_t Nsv /* i : number of subvectors (lg=Nsv*8) */ -); - -void vlpc_1st_dec_flt( - const int16_t index, /* i : codebook index */ - float *lsfq, /* i/o: i:prediction o:quantized lsf */ - const int32_t sr_core ); - -void WindowSignal_flt( - TCX_CONFIG_HANDLE hTcxCfg, /* i : configuration of TCX */ - int16_t offset, /* i : left folding point offset relative to the input signal pointer */ - const int16_t left_overlap_mode, /* i : overlap mode of left window half */ - const int16_t right_overlap_mode, /* i : overlap mode of right window half */ - int16_t *left_overlap_length, /* o : TCX window left overlap length */ - int16_t *right_overlap_length, /* o : TCX window right overlap length */ - const float in[], /* i : input signal */ - int16_t *L_frame, /* i/o: frame length */ - float out[], /* o : output windowed signal */ - const int16_t truncate_aldo, /* i : nonzero to truncate long ALDO slope */ - const int16_t fullband /* i : fullband flag */ -); - -void HBAutocorrelation( - TCX_CONFIG_HANDLE hTcxCfg, /* i : configuration of TCX */ - const int16_t left_mode, /* i : overlap mode of left window half */ - const int16_t right_mode, /* i : overlap mode of right window half */ - float speech[], /* i : speech */ - int16_t L_frame_glob, /* i/o: frame length */ - float *r /* o : autocorrelations vector */ -); - -void TNSAnalysis( - TCX_CONFIG_HANDLE hTcxCfg, /* i : configuration of TCX */ - const int16_t L_frame, /* i : frame length */ - int16_t L_spec, /* i : length of the spectrum */ - const int16_t transform_type, /* i : transform type for the frame/subframe - TCX20 | TCX10 | TCX 5 (meaning 2 x TCX 5) */ - const int16_t isAfterACELP, /* i : Flag indicating if the last frame was ACELP. For the second TCX subframe it should be 0 */ - float spectrum[], /* i : MDCT spectrum of the subframe */ - TRAN_DET_HANDLE hTranDet, /* i : handle transient detection */ - const float ltp_gain, /* i : ltp gain */ - STnsData *pTnsData, /* o : TNS data */ - int8_t *pfUseTns, /* o : Flag indicating if TNS is used */ - float *predictionGain /* o : TNS prediction gain */ -); - -void CalculateTnsFilt( - STnsConfig const *pTnsConfig, /* i : TNS Configuration struct */ - const float pSpectrum[], /* i : MDCT spectrum */ - STnsData *pTnsData, /* o : TNS data struct */ - float *predictionGain /* o : TNS prediction gain */ -); - -void ShapeSpectrum( - TCX_CONFIG_HANDLE hTcxCfg, /* i : configuration of TCX */ - const float A[], /* i : quantized coefficients NxAz_q[M+1] */ - float gainlpc[], /* o : MDCT gains for the previous frame */ - const int16_t L_frame_glob, /* i : frame length */ - int16_t L_spec, /* i : length of the spectrum */ - float spectrum[], /* i/o: MDCT spectrum */ - const int8_t fUseTns, /* i : Flag indicating if TNS is used */ - Encoder_State *st, /* i/o: encoder state structure */ - float *scf /* i : scale factors */ -); - -void QuantizeSpectrum( - Encoder_State *st, /* i/o: encoder state structure */ - const float A[], /* i : quantized coefficients NxAz_q[M+1] */ - const Word16 Aqind[], /* i : frame-independent quantized coeffs (M+1) */ - float gainlpc[], /* i : MDCT gains of the previous frame */ - float synth[], /* o : synthesis buffer */ - const int16_t nb_bits, /* i : bit budget */ - const int16_t tnsSize, /* i : number of tns parameters put into prm */ - int16_t prm[], /* o : tcx parameters */ - const int16_t frame_cnt, /* i : frame counter in the super_frame */ - CONTEXT_HM_CONFIG *hm_cfg, /* i : HM configuration */ - const int16_t vad_hover_flag /* i : VAD hangover flag */ -); - -/*! r: index of next coefficient */ -int16_t get_next_coeff_mapped_ivas( - int16_t ii[2], /* i/o: coefficient indexes */ - int32_t *pp, /* o : peak(1)/hole(0) indicator */ - int16_t *idx, /* o : index in unmapped domain */ - CONTEXT_HM_CONFIG *hm_cfg /* i : HM configuration */ -); - - -void ACcontextMapping_encode2_no_mem_s17_LC( - BSTR_ENC_HANDLE hBstr, /* i/o: bitstream handle */ - int16_t *x, - int16_t nt, - int16_t lastnz, - int16_t nbbits, - int16_t resQMaxBits, - CONTEXT_HM_CONFIG *hm_cfg ); - -int16_t ACcontextMapping_decode2_no_mem_s17_LC_ivas( - Decoder_State *st, /* i/o: decoder state */ - int16_t *x, /* o : decoded spectrum */ - int16_t nt, /* i : size of spectrum */ - int16_t nbbits, /* i : bit budget */ - int16_t resQMaxBits, /* i : residual coding maximum bits */ - CONTEXT_HM_CONFIG *hm_cfg /* i : context-based harmonic model configuration */ -); - -int16_t ACcontextMapping_encode2_estimate_no_mem_s17_LC( - const int16_t *x, - const int16_t nt, - int16_t *lastnz, - int16_t *nEncoded, - const int16_t target, - int16_t *stop, - CONTEXT_HM_CONFIG *hm_cfg ); - -void RCcontextMapping_encode2_no_mem_s17_LCS( - BSTR_ENC_HANDLE hBstr, /* i/o: bitstream handle */ - int16_t *x, - const int16_t nt, - int16_t lastnz, - const int16_t nbbits, - const int16_t resQMaxBits, - CONTEXT_HM_CONFIG *hm_cfg ); - -int16_t RCcontextMapping_decode2_no_mem_s17_LCS( - Decoder_State *st, /* i/o: decoder state */ - int16_t *x, /* o : decoded spectrum */ - const int16_t nt, /* i : size of spectrum */ - const int16_t nbbits, /* i : bit budget */ - const int16_t resQMaxBits, /* i : residual coding maximum bits */ - CONTEXT_HM_CONFIG *hm_cfg /* i : context-based harmonic model configuration */ -); - -int16_t RCcontextMapping_encode2_estimate_no_mem_s17_LCS( - int16_t *x, /* Spectral coefficients */ - const int16_t nt, /* L - size of spectrum (no. of spectral coefficients) */ - int16_t *lastnz_out, - int16_t *nEncoded, /* No. of spectral coefficients that can be coded without an overflow occuring */ - const int16_t target, /* Target bits */ - int16_t *stop, - int16_t mode, - CONTEXT_HM_CONFIG *hm_cfg /* context-based harmonic model configuration */ -); - -Word16 RCcontextMapping_encode2_estimate_bandWise_start_fx( - Word16 *x, /* Q0 */ - const Word16 nt, /* Q0 */ - const Word16 target, /* Q0 */ - HANDLE_RC_CONTEXT_MEM hContextMem ); - -Word16 RCcontextMapping_encode2_estimate_bandWise_fx( - Word16 *x, /* Q0 */ - const Word16 start_line, /* Q0 */ - const Word16 end_line, /* Q0 */ - HANDLE_RC_CONTEXT_MEM hContextMem /* Q0 */ -); - -void tcx_get_windows_flt( - TCX_CONFIG_HANDLE hTcxCfg, /* i : TCX configuration */ - const int16_t left_mode, /* i : overlap mode of left window half */ - const int16_t right_mode, /* i : overlap mode of right window half */ - int16_t *left_overlap, /* o : left overlap length */ - const float **left_win, /* o : left overlap window */ - int16_t *right_overlap, /* o : right overlap length */ - const float **right_win, /* o : right overlap window */ - const int16_t fullband /* i : fullband flag */ -); - -void tcx_windowing_analysis_flt( - const float *signal, /* i : signal vector */ - const int16_t L_frame, /* i : frame length */ - const int16_t left_overlap, /* i : left overlap length */ - const float *left_win, /* i : left overlap window */ - const int16_t right_overlap, /* i : right overlap length */ - const float *right_win, /* i : right overlap window */ - float *output /* o : windowed signal vector */ -); - -void tcx_windowing_synthesis_current_frame_flt( - float *signal, /* i/o: signal vector */ - const float *window, /* i : TCX window vector */ - const float *window_half, /* i : TCX window vector for half-overlap window */ - const float *window_min, /* i : TCX minimum overlap window */ - const int16_t window_length, /* i : TCX window length */ - const int16_t window_half_length, /* i : TCX half window length */ - const int16_t window_min_length, /* i : TCX minimum overlap length */ - const int16_t left_rect, /* i : left part is rectangular */ - const int16_t left_mode, /* i : overlap mode of left window half */ - float *acelp_zir, /* i/o: acelp ZIR */ - const float *old_syn, /* i : old synthesis */ - const float *syn_overl, /* i : overlap synthesis */ - const float *A_zir, - const float *window_trans, /* i : window for transition from ACELP */ - int16_t acelp_zir_len, - const int16_t acelp_mem_len, - const int16_t last_core_bfi, /* i : last mode */ - const int16_t last_is_cng, - const int16_t fullbandScale ); - -void tcx_windowing_synthesis_past_frame_flt( - float *signal, /* i/o: signal vector */ - const float *window, /* i : TCX window vector */ - const float *window_half, /* i : TCX window vector for half-overlap window */ - const float *window_min, /* i : TCX minimum overlap window */ - const int16_t window_length, /* i : TCX window length */ - const int16_t window_half_length, /* i : TCX half window length */ - const int16_t window_min_length, /* i : TCX minimum overlap length */ - const int16_t right_mode /* i : overlap mode (left_mode of current frame) */ -); - -void ProcessIGF( - Encoder_State *st, /* i : Encoder state */ - float *pMDCTSpectrum, /* i : MDCT spectrum */ - const float *pITFMDCTSpectrum, /* i : MDCT spectrum fir ITF */ - float *pPowerSpectrum, /* i : MDCT^2 + MDST^2 spectrum, or estimate */ - const int16_t isTCX20, /* i : flag indicating if the input is TCX20 or TCX10/2xTCX5 */ - const int16_t frameno, /* i : flag indicating index of current subframe */ - const int16_t sp_aud_decision0, /* i : first stage switching decision */ - const int16_t vad_hover_flag /* i : VAD hangover flag */ -); - -void ProcessStereoIGF( - STEREO_MDCT_ENC_DATA_HANDLE hStereoMdct, - Encoder_State *sts[CPE_CHANNELS], /* i : Encoder state */ - int16_t ms_mask[2][MAX_SFB], /* i : bandwise MS mask */ - float *pITFMDCTSpectrum[CPE_CHANNELS][NB_DIV], /* i : MDCT spectrum fir ITF */ - float *pPowerSpectrum[CPE_CHANNELS], /* i/o: MDCT^2 + MDST^2 spectrum, or estimate */ - float *pPowerSpectrumMsInv[CPE_CHANNELS][NB_DIV], /* i : inverse power spectrum */ - float *inv_spectrum[CPE_CHANNELS][NB_DIV], /* i : inverse spectrum */ - const int16_t frameno, /* i : flag indicating index of current subframe*/ - const int16_t sp_aud_decision0, /* i : sp_aud_decision0 */ - const int32_t element_brate, /* i : element bitrate */ - const int16_t mct_on /* i : flag mct block (1) or stereo (0) */ -); - -void AnalyzePowerSpectrum( - Encoder_State *st, /* i/o: encoder states */ - const int16_t L_frame, /* i : frame length */ - const int16_t L_frameTCX, /* i : full band frame length */ - const int16_t left_overlap, /* i : left overlap length */ - const int16_t right_overlap, /* i : right overlap length */ - const float mdctSpectrum[], /* i : MDCT spectrum */ - const float signal[], /* i : windowed signal corresponding to mdctSpectrum */ - float powerSpec[] /* o : Power spectrum */ -); - -void lpc2mdct_flt( - float *lpcCoeffs, - const int16_t lpcOrder, - float mdct_gains[], - const int16_t length, - const int16_t noInverse ); - -void mdct_preShaping( - float x[], - const int16_t lg, - const float gains[] ); - -void mdct_noiseShaping_flt( - float x[], - const int16_t lg, - const float gains[], - const int16_t nBands ); - - -void PsychAdaptLowFreqDeemph_flt( - float x[], - const float lpcGains[], - float lf_deemph_factors[] ); - -void AdaptLowFreqDeemph_flt( - float x[], - int16_t tcx_lpc_shaped_ari, - const float lpcGains[], - const int16_t lg, - float lf_deemph_factors[] ); - - -void tcx_noise_filling_flt( - float *Q, - const int16_t noiseFillSeed, - const int16_t iFirstLine, - const int16_t lowpassLine, - const int16_t nTransWidth, - const int16_t L_frame, - const float tiltCompFactor, - float fac_ns, - Word16 *infoTCXNoise, - const int16_t element_mode /* i : IVAS element mode */ -); - - -void tcx_decoder_memory_update_flt( - Decoder_State *st, /* i/o: decoder memory state */ - const float *xn_buf, /* i : mdct output buffer */ - float *synth, /* i/o: synth */ - const float *A /* i : Quantized LPC coefficients */ -); - - -/*! r: number of bits used (including "bits") */ -int16_t tcx_ari_res_invQ_spec_flt( - float x_Q[], /* i/o: quantized spectrum */ - const int16_t L_frame, /* i : number of lines */ - const int16_t prm[], /* i : bitstream */ - int16_t target_bits, /* i : number of bits available */ - int16_t bits, /* i : number of bits used so far */ - const float deadzone, /* i : quantizer deadzone */ - const float x_fac[] /* i : spectrum post-quantization factors */ -); - - -void ari_copy_states( - Tastat *source, - Tastat *dest ); - - -void ari_start_encoding_14bits( - Tastat *s ); - - -void ari_start_decoding_14bits_ivas( - Decoder_State *st, - Tastat *s ); - -int16_t ari_start_decoding_14bits_prm_ivas( - const int16_t *ptr, - int16_t bp, - Tastat *s ); - -void ari_decode_14bits_s17_ext_ivas( - Decoder_State *st, - uint16_t *res, - Tastat *s, - const uint16_t *cum_freq ); - -void ari_decode_14bits_s27_ext_ivas( - Decoder_State *st, - uint16_t *res, - Tastat *s, - const uint16_t *cum_freq ); - -void ari_decode_14bits_bit_ext_ivas( - Decoder_State *st, - uint16_t *res, - Tastat *s ); - -/*! r: Q15 */ -Word16 expfp_evs_fx( - const Word16 x, /* i : mantissa Q15-e */ - const Word16 x_e /* i : exponent Q0 */ -); - - -void tcx_arith_render_envelope_ivas_fx( - const Word16 A_ind[], /* i : LPC coefficients of signal envelope Q12*/ - const Word16 L_frame, /* i : number of spectral lines Q0*/ - const Word16 L_spec, /* i : length of the coded spectrum Q0*/ - const Word16 preemph_fac, /* i : pre-emphasis factor Q15*/ - const Word16 gamma_w, /* i : A_ind -> weighted envelope factor Q15*/ - const Word16 gamma_uw, /* i : A_ind -> non-weighted envelope factor Q14*/ - Word32 env[] /* o : shaped signal envelope Q16*/ -); - -int16_t ari_encode_14bits_range( - int16_t *ptr, - int16_t bp, - int32_t bits, - Tastat *s, - uint16_t cum_freq_low, - uint16_t cum_freq_high ); - - -int16_t ari_done_cbr_encoding_14bits( - int16_t *ptr, - int16_t bp, - int32_t bits, - Tastat *s ); - - -void tcx_arith_encode_envelope( - float spectrum[], /* i/o: MDCT coefficients */ - int16_t signs[], /* o : signs (spectrum[.]<0) */ - const int16_t L_frame, /* i : frame or MDCT length */ - const int16_t L_spec, /* i : length w/o BW limitation */ - Encoder_State *st, /* i/o: coder state */ - const Word16 A_ind[], /* i : quantised LPC coefficients */ - int16_t target_bits, /* i : number of available bits */ - int16_t prm[], /* o : bitstream parameters */ - const int16_t use_hm, /* i : use HM in current frame? */ - int16_t prm_hm[], /* o : HM parameter area */ - const int16_t tcxltp_pitch, /* i : TCX LTP pitch in FD, -1 if n/a*/ - int16_t *arith_bits, /* o : bits used for ari. coding */ - int16_t *signaling_bits, /* o : bits used for signaling */ - const int16_t low_complexity /* i : low-complexity flag */ -); - -void tcx_arith_decode_envelope( - Decoder_State *st, /* i/o: coder state */ - float q_spectrum[], /* o : quantised MDCT coefficients */ - const int16_t L_frame, /* i : frame or MDCT length */ - int16_t L_spec, /* i : length w/o BW limitation */ - const Word16 A_ind[], /* i : quantised LPC coefficients */ - const int16_t target_bits, /* i : number of available bits */ - const int16_t prm[], /* i : bitstream parameters */ - const int16_t use_hm, /* i : use HM in current frame? */ - const int16_t prm_hm[], /* i : HM parameter area */ - int16_t tcxltp_pitch, /* i : TCX LTP pitch in FD, -1 if n/a*/ - int16_t *arith_bits, /* o : bits used for ari. coding */ - int16_t *signaling_bits, /* o : bits used for signaling */ - const int16_t low_complexity /* i : low-complexity flag */ -); - -void tcx_arith_decode_envelope_ivas_fx( - Decoder_State *st, /* i/o: coder state */ - Word32 q_spectrum[], /* o : quantised MDCT coefficients */ - Word16 *q_spectrum_e, /* o : MDCT exponent */ - const Word16 L_frame, /* i : frame or MDCT length */ - Word16 L_spec, /* i : length w/o BW limitation */ - const Word16 A_ind[], /* i : quantised LPC coefficients */ - const Word16 target_bits, /* i : number of available bits */ - Word16 prm[], /* i : bitstream parameters */ - const Word16 use_hm, /* i : use HM in current frame? */ - const Word16 prm_hm[], /* i : HM parameter area */ - Word16 tcxltp_pitch, /* i : TCX LTP pitch in FD, -1 if n/a*/ - Word16 *arith_bits, /* o : bits used for ari. coding */ - Word16 *signaling_bits, /* o : bits used for signaling */ - const Word16 low_complexity /* i : low-complexity flag */ -); - - -void UnmapIndex_fx( - const Word16 PeriodicityIndex, /* Q0 */ - const Word16 Bandwidth, /* Q0 */ - const Word16 LtpPitchLag, /* Q0 */ - const Word8 SmallerLags, /* Q0 */ - Word16 *FractionalResolution, /* Q0 */ - Word32 *Lag /* Q0 */ -); - -/*! r: PeriodicityIndex */ -int16_t SearchPeriodicityIndex( - const float Mdct[], /* i : Coefficients, Mdct[0..NumCoeffs-1] */ - const float UnfilteredMdct[], /* i : Unfiltered coefficients, UnfilteredMdct[0..NumCoeffs-1] */ - const int16_t NumCoeffs, /* i : Number of coefficients */ - const int16_t shortTargetBits, /* i : Target bit budget (excl. Done flag) */ - const int16_t LtpPitchLag, /* i : TCX-LTP pitch */ - const float LtpGain, /* i : LTP gain */ - float *RelativeScore /* o : Energy concentration factor */ -); - - -int16_t EncodeIndex( - const int16_t Bandwidth, /* o : NB, 1: (S)WB */ - int16_t PeriodicityIndex, - BSTR_ENC_HANDLE hBstr ); - - -Word16 CountIndexBits_fx( - Word16 Bandwidth, /* 0: NB, 1: (S)WB Q0*/ - Word16 PeriodicityIndex /* Q0 */ -); - -int16_t DecodeIndex( - Decoder_State *st, - const int16_t Bandwidth, /* o : NB, 1: (S)WB */ - int16_t *PeriodicityIndex ); - -#define GET_ADJ( T, L ) GET_ADJ2( T, L, *FractionalResolution ) -#define GET_ADJ2( T, L, F ) ( ( ( L ) << ( F ) ) - ( T ) ) - - -Word32 tcx_hm_render_fx( - const Word32 lag, /* i: pitch lag Q0 */ - const Word16 fract_res, /* i: fractional resolution of the lag Q0 */ - Word16 p[] /* o: harmonic model Q13 */ -); - - -void tcx_hm_modify_envelope_fx( - const Word16 gain, /* i: HM gain Q11 */ - const Word32 lag, /* i: pitch lag Q0 */ - const Word16 fract_res, /* i: fractional resolution of the lag Q0 */ - const Word16 p[], /* i: harmonic model Q13 */ - Word32 env[], /* i/o: envelope Q16 */ - const Word16 L_frame /* i: number of spectral lines Q0 */ -); - -void tcx_hm_analyse( - const float abs_spectrum[], /* i : absolute spectrum */ - const int16_t L_frame, /* i : number of spectral lines */ - Word32 env[], /* i/o: envelope shape (Q16) */ - const int16_t targetBits, /* i : target bit budget */ - const int16_t coder_type, /* i : GC/VC coder type */ - int16_t prm_hm[], /* o : HM parameters */ - int16_t LtpPitchLag, /* i : LTP pitch lag or -1 if none */ - const float LtpGain, /* i : LTP gain */ - int16_t *hm_bits /* o : bit consumption */ -); - -void tcx_hm_decode_ivas( - const int16_t L_frame, /* i : number of spectral lines */ - Word32 env[], /* i/o: envelope shape (Q16) */ - const int16_t targetBits, /* i : target bit budget */ - const int16_t coder_type, /* i : GC/VC coder type */ - const int16_t prm_hm[], /* i : HM parameters */ - const int16_t LtpPitchLag, /* i : LTP pitch lag or -1 if none */ - int16_t *hm_bits /* o : bit consumption */ -); - -void tcx_hm_decode( - const Word16 L_frame, /* i : number of spectral lines */ - Word32 env[], /* i/o: envelope shape (Q16) */ - const Word16 targetBits, /* i : target bit budget */ - const Word16 coder_type, /* i : GC/VC coder type */ - const Word16 prm_hm[], /* i : HM parameters */ - const Word16 LtpPitchLag, /* i : LTP pitch lag or -1 if none */ - Word16 *hm_bits /* o : bit consumption */ -); - -void coder_tcx( - Encoder_State *st, /* i/o: encoder state structure */ - TCX_CONFIG_HANDLE hTcxCfg, /* i : configuration of TCX */ - const float A[], /* i : quantized coefficients NxAz_q[M+1] */ - const Word16 Aqind[], /* i : frame-independent quantized coefficients (M+1) */ - float synth[], /* o : decoded synthesis */ - const int16_t L_frame_glob, /* i : frame length */ - const int16_t L_frameTCX_glob, - const int16_t L_spec, - int16_t nb_bits, /* i : bit budget */ - float spectrum[], /* i/o: MDCT spectrum */ - int16_t prm[], /* o : tcx parameters */ - CONTEXT_HM_CONFIG *hm_cfg, - const int16_t vad_hover_flag /* i : VAD hangover flag */ -); - -void coder_tcx_post( - Encoder_State *st, /* i/o: encoder memory state */ - float *A, /* o : Quantized LPC coefficients */ - const float *Ai /* i : Unquantized (interpolated) LPC coefficients */ -); - -void decoder_tcx( - Decoder_State *st, /* i/o: coder memory state */ - int16_t prm[], /* i : parameters */ - float A[], /* i : coefficients NxAz[M+1] */ - Word16 Aind[], /* i : frame-independent coefficients Az[M+1]*/ - float synth[], /* i/o: synth[-M..lg] */ - float synthFB[], /* i/o: encoder memory state */ - const int16_t bfi, /* i : Bad frame indicator */ - const int16_t frame_cnt, /* i : frame counter in the super_frame */ - const int16_t sba_dirac_stereo_flag /* i : signal stereo output for SBA DirAC */ -); - -void decoder_tcx_post( - Decoder_State *st, /* i/o: decoder memory state */ - float *synth, - float *synthFB, - float *A, /* i : A(z) filter coefficients */ - const int16_t bfi, - const int16_t isMCT ); - -void coder_acelp( - Encoder_State *st, /* i/o: coder memory state */ - const float A[], /* i : coefficients 4xAz[M+1] */ - const float Aq[], /* i : coefficients 4xAz_q[M+1] */ - const float speech[], /* i : speech[-M..lg] */ - LPD_state *LPDmem, /* i/o: ACELP memories */ - int16_t *prm, /* o : acelp parameters */ - const float stab_fac, - const int16_t target_bits, - float *gain_pitch_buf, /* o : gain pitch values */ - float *gain_code_buf, /* o : gain code values */ - float *pitch_buf, /* o : pitch values for each subfr.*/ - float *voice_factors, /* o : voicing factors */ - float *bwe_exc /* o : excitation for SWB TBE */ -); - -void coder_acelp_rf( - const int16_t target_bits, /* i : target bits */ - const float speech[], /* i : speech[-M..lg] */ - const int16_t coder_type, /* i : coding type */ - const int16_t rf_frame_type, /* i : rf_frame_type */ - const float A[], /* i : coefficients 4xAz[M+1] */ - const float Aq[], /* i : coefficients 4xAz_q[M+1] */ - const float voicing[], /* i : open-loop LTP gain */ - const int16_t T_op[], /* i : open-loop LTP lag */ - const float stab_fac, /* i : LP stability factor */ - Encoder_State *st, /* i/o: coder memory state */ - ACELP_config *acelp_cfg, /* i/o: configuration of the ACELP */ - float *exc_rf, /* i/o: pointer to RF excitation */ - float *syn_rf /* i/o: pointer to RF synthesis */ -); - -void decoder_acelp( - Decoder_State *st, /* i/o: coder memory state */ - int16_t prm[], /* i : parameters */ - const float A[], /* i : coefficients NxAz[M+1] */ - ACELP_config acelp_cfg, /* i : ACELP config */ - float synth[], /* i/o: synthesis */ - int16_t *pT, /* o : pitch for all subframe */ - float *pgainT, /* o : pitch gain for all subfr */ - const float stab_fac, /* i : stability of isf */ - float *pitch_buffer, /* o : pitch values for each subfr.*/ - float *voice_factors, /* o : voicing factors */ - const int16_t LSF_Q_prediction, /* i : LSF prediction mode */ - float *bwe_exc /* o : excitation for SWB TBE */ -); - -void writeTCXMode_fx( - Encoder_State *st, /* i/o: encoder state structure */ - BSTR_ENC_HANDLE hBstr, /* i/o: bitstream handle */ - const Word16 MCT_flag, /* i : hMCT handle allocated (1) or not (0) Q0*/ - Word16 *nbits_start /* o : nbits start Q0*/ -); - -void writeTCXWindowing_fx( - BSTR_ENC_HANDLE hBstr, /* i/o: bitstream handle */ - const Word16 overlap_mode /* i : overlap mode Q0*/ -); - -void writeLPCparam( - Encoder_State *st, /* i/o: encoder state structure */ - BSTR_ENC_HANDLE hBstr, /* i/o: bitstream handle */ - const int16_t param_lpc[], /* i : LPC parameters to write */ - const int16_t bits_param_lpc[], /* i : bits per LPC parameter */ - const int16_t no_param_lpc, /* i : number of LPC parameters */ - int16_t *nbits_lpc /* o : LPC bits written */ -); - -void enc_prm( - Encoder_State *st, /* i/o: encoder state structure */ - int16_t param[], /* i : parameters */ - int16_t param_lpc[], /* i : LPC parameters */ - CONTEXT_HM_CONFIG hm_cfg[], - const int16_t bits_param_lpc[], - const int16_t no_param_lpc ); - -void writeTCXparam( - Encoder_State *st, /* i/o: Encoder State handle */ - BSTR_ENC_HANDLE hBstr, /* i/o: bitstream handle */ - CONTEXT_HM_CONFIG hm_cfg[], /* i/o: HM config */ - int16_t param[], /* i : parameters */ - const int16_t nbits_header, - const int16_t nbits_start, - const int16_t nbits_lpc, - const int16_t *no_param_tns, /* i : number of TNS parameters per subframe */ - int16_t p_param[2], /* i/o: pointer to parameters from previous bs writing */ - const int16_t target_bitsTCX10[2], - const int16_t pre_past_flag ); - -void enc_prm_rf( - Encoder_State *st, /* i/o: encoder memory state */ - const int16_t rf_frame_type, - const int16_t fec_offset ); - -void dec_prm_hm_ivas( - Decoder_State *st, /* i/o: decoder memory state */ - int16_t *prm_hm, - const int16_t hm_size ); - -void dec_prm_ivas( - Decoder_State *st, /* i/o: decoder memory state */ - int16_t param[], /* o : decoded parameters */ - int16_t param_lpc[], /* i : LPC parameters */ - int16_t *total_nbbits, /* i/o: number of bits / decoded bits */ - int16_t *bitsRead ); -void gaus_L2_dec_flt( - float *code, /* o : decoded gaussian codevector */ - float tilt_code, - const float *A, - float formant_enh_num, - int16_t *seed_acelp /* i/o: random seed */ -); - -/*! r: interpolated value */ -float interpolation( - const float *x, /* i : input vector */ - const float *win, /* i : interpolation window */ - const int16_t frac, /* i : fraction */ - const int16_t up_samp, /* i : upsampling factor */ - const int16_t nb_coef /* i : nb of filter coef */ -); - -void predict_signal_flt( - const float excI[], /* i : input excitation buffer */ - float excO[], /* o : output excitation buffer */ - const int16_t T0, /* i : integer pitch lag */ - int16_t frac, /* i : fraction of lag */ - const int16_t frac_max, /* i : max fraction */ - const int16_t L_subfr /* i : subframe size */ -); - -void tcx_ltp_encode( - Encoder_State *st, - const int16_t tcxMode, - const int16_t L_frame, - const float *speech, - float *speech_ltp, - const float *wsp, - const int16_t Top[], - int16_t *ltp_param, - int16_t *ltp_bits, - float *A, - const int16_t disable_ltp, - const int16_t element_mode ); - -void tcx_ltp_post_flt( - Decoder_State *st, - TCX_LTP_DEC_HANDLE hTcxLtpDec, - const int16_t core, - const int16_t output_frame, - const int16_t L_frame, - float sig[], - const float tcx_buf[] ); - -int16_t tcx_ltp_decode_params_flt( - int16_t *ltp_param, - int16_t *pitch_int, - int16_t *pitch_fr, - float *gain, - const int16_t pitmin, - const int16_t pitfr1, - const int16_t pitfr2, - const int16_t pitmax, - const int16_t pitres ); - -void create_IDCT_N_Matrix( - float *inv_matrixFloatQ, /* i/o: RAM buffer */ - const int16_t N, /* i : DCT length, number of time samples */ - const int16_t n_cols, /* i : number of dct coeffs (as DCT may be truncated) */ - const int16_t alloc_size /* i : RAM buffer size in elements */ -); - -void dctT2_N_apply_matrix( - const float *input, /* i : input in fdcng or DCT(fdcng) domain */ - float *output, /* o : output in DCT(fdcng) or fdcng ordomain */ - const int16_t dct_dim, /* i : dct processing dim possibly truncated */ - const int16_t fdcngvq_dim, /* i : fdcng domain length */ - const float *matrix, /* i : IDCT matrix */ - const int16_t matrix_row_dim, /* i : */ - const DCTTYPE dcttype /* i : matrix operation type */ -); - -void extend_dctN_input( - const float *input, /* i : input in fdcng domain */ - const float *dct_input, /* i : input in dctN(fdcng) domain */ - const int16_t in_dim, /* i : in_dim == N */ - float *ext_sig, /* o : extended output in fdcng domain */ - const int16_t out_dim, /* i : output total dim */ - float *matrix, /* i : idct synthesis matrix N rows, n_cols columns */ - const int16_t n_cols, /* i : number of columns == DCT truncation length */ - const DCTTYPE dcttype /* i : matrix operation type */ -); - - -void PulseResynchronization( - const float *src_exc, /* i : Input excitation buffer */ - float *dst_exc, /* o : output excitation buffer */ - const int16_t nFrameLength, /* i : frame length */ - const int16_t nSubframes, /* i : Number of subframes */ - const float pitchStart, /* i : Pitch at the end of the last frame */ - const float pitchEnd /* i : Pitch at the end of the current frame */ -); - -void con_acelp( - float A[], /* i : coefficients NxAz[M+1] */ - const int16_t coder_type, /* i : ACELP coder type */ - float synth[], /* i/o: synthesis */ - int16_t *pT, /* o : pitch for all subframe */ - float *pgainT, /* o : pitch gain for all subfr */ - float stab_fac, /* i : stability of isf */ - Decoder_State *st, /* i/o: coder memory state */ - float pitch_buffer[], /* i/o: floating pitch values for each subframe */ - float *voice_factors, /* o : voicing factors */ - float *bwe_exc /* o : excitation for SWB TBE */ -); - -void con_tcx( - Decoder_State *st, /* i/o: coder memory state */ - float synth[], /* i/o: synth[] */ - const float coh, /* i : coherence of stereo signal */ - int16_t *noise_seed, /* i/o: noise seed for stereo */ - const int16_t only_left, /* i : TD-PLC only in left channel */ - const float A_cng[] /* i : CNG LP filter coefficients */ -); - -int16_t lsf_msvq_ma_decprm_ivas( - Decoder_State *st, - int16_t *param_lpc ); - -int16_t dec_lsf_tcxlpc_ivas( - Decoder_State *st, /* i : Decoder state */ - int16_t **indices, /* o : Ptr to VQ indices */ - const int16_t narrowband, /* i : narrowband flag */ - const int16_t cdk /* i : codebook selector */ -); - -int16_t D_lsf_tcxlpc_ivas( - const int16_t indices[], /* i : VQ indices */ - float lsf_q[], /* o : quantized lsf */ - Word16 lsp_q_ind[], /* o : quantized lsp (w/o MA prediction) */ - const int16_t narrowband, /* i : narrowband flag */ - const int16_t cdk, /* i : codebook selector */ - const float mem_MA[] /* i : MA memory */ -); - -int16_t Q_lsf_tcxlpc( - /* const */ float lsf[], /* i : original lsf */ - float lsf_q[], /* o : quantized lsf */ - Word16 lsp_q_ind[], /* o : quantized lsp (w/o MA prediction) */ - int16_t indices[], /* o : VQ indices */ - const int16_t narrowband, /* i : narrowband flag */ - const int16_t cdk, /* i : codebook selector */ - const float mem_MA[], /* i : MA memory */ - const int16_t coder_type, /* i : acelp extended mode */ - const float *Bin_Ener /* i : Spectrum energy */ -); - -void midlsf_enc( - const float qlsf0[], - const float qlsf1[], - const float lsf[], - int16_t *idx, - const int16_t N, - const float *Bin_Ener, - const int16_t narrowBand, - const int32_t sr_core, - const int16_t coder_type ); - -void lsf_end_enc( - Encoder_State *st, - const float *lsf, - float *qlsf, - const int16_t nBits, - const int16_t coder_type_org, - const int16_t force_sf, - int16_t *lpc_param, - int16_t *no_stages, - int16_t *bits_param_lpc, - const int16_t coder_type_raw, - const float tdm_lsfQ_PCh[M] /* i : Q LSFs for primary channel */ -); - -void lsf_end_dec( - Decoder_State *st, /* i/o: decoder state structure */ - const int16_t coder_type_org, /* i : coding type */ - const int16_t bwidth, /* i : input signal bandwidth */ - const int16_t nBits, /* i : number of bits used for ISF quantization*/ - float *qlsf, /* o : quantized LSFs in the cosine domain */ - int16_t *lpc_param, /* i : LPC parameters */ - int16_t *LSF_Q_prediction, /* o : LSF prediction mode */ - int16_t *nb_indices, /* o : number of indices */ - const float tdm_lsfQ_PCh[M] /* i : Q LSFs for primary channel */ -); - -void lpc_quantization( - Encoder_State *st, - const float lsp[], - const float lspmid[], - float lsp_q[], - float lsf_q[], - float lspmid_q[], - const int16_t coder_type, - const int16_t acelp_midLpc, - int16_t param_lpc[], - int16_t nbits_lpc[], - int16_t *bits_param_lpc, - int16_t *no_param_lpc ); - -void lpc_unquantize( - Decoder_State *st, - float *lsf, - float *lsp, - int16_t *param_lpc, - float *lspmid, - float *lsfmid, - const int16_t coder_type, - int16_t *LSF_Q_prediction /* o : LSF prediction mode */ -); - -void dlpc_bfi_flt( - const int16_t L_frame, - float *lsf_q, /* o : quantized lsfs */ - const float *lsfold, /* i : past quantized lsf */ - const int16_t last_good, /* i : last good received frame */ - const int16_t nbLostCmpt, /* i : counter of consecutive bad frames */ - float mem_MA[], /* i/o: quantizer memory for MA model */ - float mem_AR[], /* i/o: quantizer memory for MA model */ - float *stab_fac, /* i : lsf stability factor */ - float *lsf_adaptive_mean, /* i : lsf adaptive mean, updated when BFI==0 */ - const int16_t numlpc, /* i : Number of division per superframe */ - float lsf_cng[], - const int16_t plcBackgroundNoiseUpdated, - float *lsf_q_cng, /* o : quantized lsfs of background noise */ - float *old_lsf_q_cng, /* o : old quantized lsfs for background noise */ - const float lsfBase[] /* i : base for differential lsf coding */ -); - -void Unified_weighting( - const float Bin_Ener_128[], /* i : FFT Bin energy 128 bins in two sets */ - const float lsf[], /* i : LSF vector */ - float w[], /* o : LP weighting filter (numerator) */ - const int16_t narrowBand, /* i : flag for Narrowband */ - const int16_t unvoiced, /* i : flag for Unvoiced frame */ - const int32_t sr_core, /* i : sampling rate of core-coder */ - const int16_t order /* i : LP order */ -); - -int16_t vad_init( - VAD_CLDFB_HANDLE hVAD_CLDFB /* i/o: CLDFB VAD state */ -); - -int16_t vad_proc( - float realValues[16][60], /* i : CLDFB real values */ - float imagValues[16][60], /* i : CLDFB imag values */ - float *sb_power, /* i/o: Energy of CLDFB data */ - const int16_t numBands, /* i : number of input bands */ - VAD_CLDFB_HANDLE hVAD_CLDFB, /* i/o: CLDFB VAD state */ - int16_t *cldfb_addition, - const int16_t vada_flag /* i : VAD flag */ -); - - -int16_t update_decision( - VAD_CLDFB_HANDLE hVAD_CLDFB, /* i/o: CLDFB VAD state */ - const float snr, /* i : frequency domain SNR */ - const float tsnr, /* i : time domain SNR */ - const float frame_energy, /* i : current frame energy */ - const float high_eng, /* i : current frame high frequency energy */ - const int16_t vad_flag, /* i : VAD flag */ - const int16_t music_backgound_f /* i : background music flag */ -); - -void frame_spec_dif_cor_rate( - float spec_amp[], /* i : spectral amplitude */ - float pre_spec_low_dif[], /* i/o: low spectrum different */ - float f_tonality_rate[] /* o : tonality rate */ -); - - -void SNR_calc( - const float frame_sb_energy[], /* i : energy of sub-band divided non-uniformly*/ - const float sb_bg_energy[], /* i : sub-band background energy */ - const float t_bg_energy, /* i : time background energy of several frames*/ - float *snr, /* o : frequency domain SNR */ - float *tsnr, /* o : time domain SNR */ - const float frame_energy, /* i : current frame energy */ - const int16_t bwidth /* i : audio bandwidth */ -); - -void background_update( - VAD_CLDFB_HANDLE hVAD_CLDFB, /* i/o: CLDFB VAD state */ - float frame_energy, /* i : current frame energy 2 */ - const int16_t update_flag, /* i : current frame update flag */ - const int16_t music_backgound_f, /* i : background music flag */ - const float snr ); - -void bg_music_decision( - VAD_CLDFB_HANDLE hVAD_CLDFB, /* i/o: CLDFB VAD state */ - int16_t *music_backgound_f, /* i : background music flag */ - const float frame_energy /* i : current frame energy 1 */ -); - -void est_energy( - float sb_power[], /* o : energy of sub-band divided uniformly */ - float frame_sb_energy[], /* o : energy of sub-band divided non-uniformly*/ - float *p_frame_energy, /* o : frame energy 1 */ - float *p_frame_energy2, /* o : frame energy 2 */ - float *p_high_energy, /* o : high frequency energy */ - const int16_t bw /* i : bandwidth */ -); - - -int16_t comvad_decision( - VAD_CLDFB_HANDLE hVAD_CLDFB, /* i/o: CLDFB VAD state */ - const float snr, /* i : frequency domain SNR */ - const float tsnr, /* i : time domain SNR */ - const float snr_flux, /* i : average tsnr of several frames */ - const float lt_snr, /* i : long time SNR calculated by fg_energy and bg_energy*/ - const float lt_snr_org, /* i : original long time SNR */ - const float lf_snr, /* i : long time frequency domain SNR calculated by l_speech_snr and l_silence_snr*/ - const float frame_energy, /* i : current frame energy */ - const int16_t music_backgound_f, /* i : background music flag */ - int16_t *cldfb_addition, - const int16_t vada_flag /* i : VAD flag */ -); - -void calc_snr_flux( - float tsnr, /* i : time-domain SNR */ - float pre_snr[], /* i/o: time-domain SNR storage */ - float *snr_flux /* o : average tsnr */ -); - -void calc_lt_snr( - float *lt_snr_org, /* o : original long time SNR */ - float *lt_snr, /* o : long time SNR calculated by fg_energy and bg_energy*/ - const float fg_energy, /* i : foreground energy sum */ - const int16_t fg_energy_count, /* i : number of the foreground energy frame */ - const float bg_energy, /* i : background energy sum */ - const int16_t bg_energy_count, /* i : number of the background energy frame */ - const int16_t bw_index, /* i : band width index */ - const float lt_noise_sp_center0 /* i : long time noise spectral center by 0 */ -); - -void calc_lf_snr( - float *lf_snr_smooth, /* o : smoothed lf_snr */ - float *lf_snr, /* o : long time frequency domain SNR calculated by l_speech_snr and l_silence_snr*/ - const float l_speech_snr, /* i : sum of active frames snr */ - const int16_t l_speech_snr_count, /* i : number of the active frame */ - const float l_silence_snr, /* i : sum of the nonactive frames snr */ - const int16_t l_silence_snr_count, /* i : number of the nonactive frame */ - const int16_t fg_energy_count, /* i : number of the foreground energy frame */ - const int16_t bg_energy_count, /* i : number of the background energy frame */ - const int16_t bw_index /* i : band width index */ -); - -float construct_snr_thresh( - const float sp_center[], /* i : spectral center */ - const float snr_flux, /* i : snr flux */ - const float lt_snr, /* i : long time time domain snr */ - const float lf_snr, /* i : long time frequency domain snr */ - const int16_t continuous_speech_num, /* i : continuous speech number */ - const int16_t continuous_noise_num, /* i : continuous noise number */ - const int16_t fg_energy_est_start, /* i : whether if estimated energy */ - const int16_t bw_index /* i : band width index */ -); - -void minimum_statistics_flt( - const int16_t len, /* i : Vector length */ - const int16_t lenFFT, /* i : Length of the FFT part of the vectors */ - float *psize_flt, - float *msPeriodog, /* i : Periodograms */ - float *msNoiseFloor, - float *msNoiseEst, /* o : Noise estimates */ - float *msAlpha, - float *msPsd, - float *msPsdFirstMoment, - float *msPsdSecondMoment, - float *msMinBuf, - float *msBminWin, - float *msBminSubWin, - float *msCurrentMin, - float *msCurrentMinOut, - float *msCurrentMinSubWindow, - int16_t *msLocalMinFlag, - int16_t *msNewMinFlag, - float *msPeriodogBuf, - int16_t *msPeriodogBufPtr, - HANDLE_FD_CNG_COM hFdCngCom, /* i/o: FD_CNG structure containing all buffers and variables */ - const int16_t enc_dec, /* i : encoder/decoder indicator */ - const int16_t element_mode /* i : IVAS element mode */ -); - -void generate_comfort_noise_enc( - Encoder_State *st /* i/o: encoder state structure */ -); - -void generate_comfort_noise_dec( - float **bufferReal, /* o : Real part of input bands */ - float **bufferImag, /* o : Imaginary part of input bands */ - Decoder_State *st, /* i/o: decoder state structure */ - const int16_t nchan_out /* i : number of output channels */ -); - -void generate_comfort_noise_dec_hf( - float **bufferReal, /* o : Real part of input bands */ - float **bufferImag, /* o : Imaginary part of input bands */ - HANDLE_FD_CNG_COM hFdCngCom, /* i/o: FD_CNG structure containing all buffers and variables */ - const int16_t cng_flag /* i : CNG Flag */ -); - -void generate_masking_noise( - float *timeDomainBuffer, /* i/o: time-domain signal */ - HANDLE_FD_CNG_COM hFdCngCom, /* i/o: FD_CNG structure containing all buffers and variables */ - const int16_t length, /* i : frame size */ - const int16_t core, /* i : core */ - const int16_t return_noise, /* i : noise is returned instead of added */ - const int16_t secondary, /* i : indicator for secondary channel */ - const int16_t element_mode, /* i : element mode */ - STEREO_CNG_DEC_HANDLE hStereoCng, /* i : stereo CNG handle */ - const int16_t nchan_out /* i : number of output channels */ -); - -void generate_masking_noise_update_seed( - HANDLE_FD_CNG_COM hFdCngCom /* i/o: FD_CNG structure containing all buffers and variables */ -); - -void generate_masking_noise_mdct( - float *mdctBuffer, /* i/o: time-domain signal */ - HANDLE_FD_CNG_COM hFdCngCom /* i/o: FD_CNG structure containing all buffers and variables */ -); - -void SynthesisSTFT_dirac_flt( - float *fftBuffer, /* i : FFT bins */ - float *timeDomainOutput, - float *olapBuffer, - const float *olapWin, - const int16_t samples_out, - HANDLE_FD_CNG_COM hFdCngCom /* i/o: FD_CNG structure containing all buffers and variables */ -); - -void generate_masking_noise_dirac( - HANDLE_FD_CNG_COM hFdCngCom, /* i/o: FD_CNG structure containing all buffers and variables */ - HANDLE_CLDFB_FILTER_BANK h_cldfb, /* i : filterbank state */ - float *tdBuffer, /* i/o: time-domain signal, if NULL no LB-CNA */ - float *Cldfb_RealBuffer, /* o : CLDFD real buffer */ - float *Cldfb_ImagBuffer, /* o : CLDFD imaginary buffer */ - const int16_t slot_index, /* i : CLDFB slot index */ - const int16_t cna_flag, /* i : CNA flag for LB and HB */ - const int16_t fd_cng_flag /* i : FD-CNG flag for HB */ -); - -void generate_stereo_masking_noise( - float *syn, /* i/o: time-domain signal */ - Decoder_State *st, /* i/o: decoder state structure */ - STEREO_TD_DEC_DATA_HANDLE hStereoTD, /* i : TD stereo structure */ - const int16_t flag_sec_CNA, /* i : CNA flag for secondary channel */ - const int16_t fadeOut, /* i : only fade out of previous state */ - STEREO_CNG_DEC_HANDLE hStereoCng, /* i : stereo CNG handle */ - const int16_t nchan_out /* i : number of output channels */ -); - -void apply_scale_flt( - float *scale, /* i : scale factor */ - const int16_t bwidth, /* i : audio bandwidth */ - const int32_t brate, /* i : Bit rate */ - const SCALE_SETUP *scaleTable, /* i : Scale table */ - const int16_t scaleTableSize /* i : Size of scale table */ -); - -void compress_range_flt( - float *in, - float *out, - const int16_t len ); - -void expand_range_flt( - float *in, - float *out, - const int16_t len ); - -void bandcombinepow_flt( - const float *bandpow, /* i : Power for each band */ - const int16_t nband, /* i : Number of bands */ - int16_t *part, /* i : Partition upper boundaries (band indices starting from 0) */ - const int16_t npart, /* i : Number of partitions */ - const float *psize_inv_flt, /* i : Inverse partition sizes */ - float *partpow /* o : Power for each partition */ -); - -void scalebands_flt( - const float *partpow, /* i : Power for each partition */ - int16_t *part, /* i : Partition upper boundaries (band indices starting from 0) */ - const int16_t npart, /* i : Number of partitions */ - int16_t *midband, /* i : Central band of each partition */ - const int16_t nFFTpart, /* i : Number of FFT partitions */ - const int16_t nband, /* i : Number of bands */ - float *bandpow, /* o : Power for each band */ - const int16_t flag_fft_en ); - -void AnalysisSTFT_flt( - const float *timeDomainInput, - float *fftBuffer, /* o : FFT bins */ - HANDLE_FD_CNG_COM st /* i/o: FD_CNG structure containing all buffers and variables */ -); - -void SynthesisSTFT_flt( - float *fftBuffer, - float *timeDomainOutput, - float *olapBuffer, - const float *olapWin, - const int16_t tcx_transition, - HANDLE_FD_CNG_COM hFdCngCom, - const int16_t element_mode, /* i : element mode */ - const int16_t nchan_out /* i : number of output channels */ -); - -void lpc_from_spectrum_flt( - HANDLE_FD_CNG_COM hFdCngCom, - const int16_t start, - const int16_t stop, - const float preemph_fac ); - -ivas_error createFdCngDec( - HANDLE_FD_CNG_DEC *hFdCngDec ); - -void deleteFdCngDec( - HANDLE_FD_CNG_DEC *hFdCngDec ); - -void initFdCngDec( - DEC_CORE_HANDLE st /* i/o: decoder state structure */ -); - -void configureFdCngDec( - HANDLE_FD_CNG_DEC hFdCngDec, /* i/o: Contains the variables related to the FD-based CNG process */ - const int16_t bwidth, - const int32_t total_brate, - const int16_t L_frame, - const int16_t last_L_frame, - const int16_t element_mode ); - -void ApplyFdCng( - float *timeDomainInput, - float *powerSpectrum, - float **realBuffer, /* i/o: Real part of the buffer */ - float **imagBuffer, /* i/o: Imaginary part of the buffer */ - Decoder_State *st, - const int16_t concealWholeFrame, /* i : binary flag indicating frame loss */ - const int16_t is_music ); - -void generate_comfort_noise_dec( - float **bufferReal, /* o : Real part of input bands */ - float **bufferImag, /* o : Imaginary part of input bands */ - Decoder_State *st, /* i/o: decoder state structure */ - const int16_t nchan_out /* i : number of output channels */ -); - -/*! r: CNG energy */ -float cng_energy( - const int16_t element_mode, /* i : element mode */ - const int16_t bwidth, /* i : audio bandwidh */ - const int16_t CNG_mode, /* i : mode for DTX configuration */ - const float CNG_att, /* i : attenuation factor for CNG */ - const float *inputBuffer, /* i : input signal */ - const int16_t len /* i : vector length */ -); - -void FdCng_decodeSID( - Decoder_State *st /* i/o: decoder state structure */ -); - -void FdCng_exc_flt( - HANDLE_FD_CNG_COM hFdCngCom, - int16_t *CNG_mode, - const int16_t L_frame, - const float *lsp_old, - const int16_t first_CNG, - float *lsp_CNG, - float *Aq, /* o : LPC coeffs */ - float *lsp_new, /* o : lsp */ - float *lsf_new, /* o : lsf */ - float *exc, /* o : LP excitation */ - float *exc2, /* o : LP excitation */ - float *bwe_exc /* o : LP excitation for BWE */ -); - -void noisy_speech_detection( - HANDLE_FD_CNG_DEC hFdCngDec, /* i/o: FD_CNG structure */ - const int16_t vad, /* i : VAD flag */ - const float syn[] /* i : input time-domain frame */ -); - -void deleteFdCngEnc( - HANDLE_FD_CNG_ENC *hFdCngEnc /* i/o: FD_CNG structure */ -); - - -void resetFdCngEnc( - Encoder_State *st /* i/o: encoder state structure */ -); - -void perform_noise_estimation_enc( - float *band_energies, /* i : energy in critical bands without minimum noise floor E_MIN */ - float *enerBuffer, /* i : energy buffer */ - HANDLE_FD_CNG_ENC hFdCngEnc, /* i/o: CNG structure containing all buffers and variables */ - const int32_t input_Fs, /* i : input sampling rate */ - CPE_ENC_HANDLE hCPE ); - -void AdjustFirstSID( - Encoder_State *st /* i/o: encoder state structure */ -); - -void FdCng_encodeSID( - Encoder_State *st /* i/o: encoder state structure */ -); - -void GetParameters( - ParamsBitMap const *paramsBitMap, - const int16_t nParams, - void const *pParameter, - int16_t **pStream, - int16_t *pnSize, - int16_t *pnBits ); - -void SetParameters( - ParamsBitMap const *paramsBitMap, - const int16_t nParams, - void *pParameter, - const int16_t **pStream, - int16_t *pnSize ); - -void WriteToBitstream( - ParamsBitMap const *paramsBitMap, - const int16_t nParams, - const int16_t **pStream, - int16_t *pnSize, - BSTR_ENC_HANDLE hBstr, - int16_t *pnBits ); - -void ReadFromBitstream( - ParamsBitMap const *paramsBitMap, - const int16_t nArrayLength, - Decoder_State *st, - int16_t **pStream, - int16_t *pnSize ); - -void const *GetTnsOnWhite( void const *p, const int16_t index, int16_t *pValue ); -void *SetTnsOnWhite( void *p, const int16_t index, const int16_t value ); -void const *GetNumOfTnsFilters_flt( void const *p, const int16_t index, int16_t *pValue ); -void *SetNumOfTnsFilters_flt( void *p, const int16_t index, const int16_t value ); - -int16_t DecodeSWBTCX10TnsFilterCoeff_flt( Decoder_State *st, const int16_t index, int16_t *pValue ); -int16_t DecodeSWBTCX20TnsFilterCoeff_flt( Decoder_State *st, const int16_t index, int16_t *pValue ); - -int16_t DecodeWBTCX20TnsFilterCoeff_flt( Decoder_State *st, const int16_t index, int16_t *pValue ); - -int16_t DecodeTnsFilterOrderSWBTCX10_flt( Decoder_State *st, const int16_t index, int16_t *pValue ); -int16_t DecodeTnsFilterOrderSWBTCX20_flt( Decoder_State *st, const int16_t index, int16_t *pValue ); - -int16_t EncodeTnsFilterOrderSWBTCX10_flt( const int16_t value, const int16_t index ); - -int16_t GetTnsFilterOrderBitsSWBTCX10_flt( const int16_t value, const int16_t index ); -int16_t DecodeTnsFilterOrder_flt( Decoder_State *st, const int16_t index, int16_t *pValue ); - -void ResetTnsData_flt( - STnsData *pTnsData ); - -void ClearTnsFilterCoefficients_flt( - STnsFilter *pTnsFilter ); - - -int16_t DetectTnsFilt( - const STnsConfig *pTnsConfig, /* i : TNS Configuration struct */ - const float pSpectrum[], /* i : MDCT spectrum */ - TRAN_DET_HANDLE hTranDet, /* i : transient detection handle */ - const int16_t isTCX10, /* i : TCX10 or TCX20? */ - const float ltp_gain, /* i : LTP gain */ - STnsData *pTnsData, /* o : TNS data struct */ - float *predictionGain /* o : TNS prediction gain */ -); - -void EncodeTnsData( - STnsConfig const *pTnsConfig, /* i : TNS Configuration struct */ - STnsData const *pTnsData, /* i : TNS data struct (quantized param) */ - int16_t *stream, /* o : internal data stream */ - int16_t *pnSize, /* o : number of written parameters */ - int16_t *pnBits /* o : number of written bits */ -); - -int16_t DecodeTnsData_ivas( - STnsConfig const *pTnsConfig, - const int16_t *stream, - int16_t *pnSize, - STnsData *pTnsData ); - -void WriteTnsData( - const STnsConfig *pTnsConfig, /* i : TNS Configuration struct */ - const int16_t *stream, /* i : internal data stream */ - int16_t *pnSize, /* o : number of written parameters */ - BSTR_ENC_HANDLE hBstr, /* o : bitstream */ - int16_t *pnBits /* o : number of written bits */ -); - -void ReadTnsData_ivas( - STnsConfig const *pTnsConfig, - Decoder_State *st, - int16_t *pnBits, - int16_t *stream, - int16_t *pnSize ); - -void cldfbAnalysis_ivas( - const float *timeIn, /* i : time buffer */ - float **realBuffer, /* o : real value buffer */ - float **imagBuffer, /* o : imag value buffer */ - const int16_t samplesToProcess, /* i : number of input samples */ - HANDLE_CLDFB_FILTER_BANK h_cldfb /* i : filterbank state */ -); - -void cldfbAnalysis_ts_ivas( - const float *timeIn, /* i : time buffer */ - float realBuffer[CLDFB_NO_CHANNELS_MAX], /* o : real value buffer */ - float imagBuffer[CLDFB_NO_CHANNELS_MAX], /* o : imag value buffer */ - const int16_t samplesToProcess, /* i : samples to process */ - HANDLE_CLDFB_FILTER_BANK h_cldfb /* i : filterbank state */ -); - -void cldfbSynthesis_ivas( - float **realBuffer, /* i : real values */ - float **imagBuffer, /* i : imag values */ - float *timeOut, /* o : synthesized output */ - const int16_t samplesToProcess, /* i : number of samples */ - HANDLE_CLDFB_FILTER_BANK h_cldfb /* i : filter bank state */ -); - -void configureCldfb_ivas( - HANDLE_CLDFB_FILTER_BANK h_cldfb, /* i/o: filter bank handle */ - const int32_t sampling_rate /* i : sampling rate */ -); - - -void analysisCldfbEncoder_ivas( - Encoder_State *st, /* i/o: encoder state structure */ - const float *timeIn, - const int16_t samplesToProcess, - float realBuffer[CLDFB_NO_COL_MAX][CLDFB_NO_CHANNELS_MAX], - float imagBuffer[CLDFB_NO_COL_MAX][CLDFB_NO_CHANNELS_MAX], - float *ppBuf_Ener ); - -void analysisCldfbEncoder_ivas_fx( - Encoder_State *st, /* i/o: encoder state structure */ - Word32 *timeIn, /*q11*/ - Word16 timeInq, /*q0*/ - Word16 samplesToProcess, /*q0*/ - Word32 realBuffer[CLDFB_NO_COL_MAX][CLDFB_NO_CHANNELS_MAX], - Word32 imagBuffer[CLDFB_NO_COL_MAX][CLDFB_NO_CHANNELS_MAX], - Word16 realBuffer16[CLDFB_NO_COL_MAX][CLDFB_NO_CHANNELS_MAX], - Word16 imagBuffer16[CLDFB_NO_COL_MAX][CLDFB_NO_CHANNELS_MAX], - Word32 *ppBuf_Ener, - Word16 *enerBuffSum_exp, - CLDFB_SCALE_FACTOR *scale ); - -ivas_error openCldfb_ivas( - HANDLE_CLDFB_FILTER_BANK *h_cldfb, /* i/o: filter bank handle */ - CLDFB_TYPE type, /* i : analysis or synthesis */ - const int32_t sampling_rate, /* i : sampling rate */ - CLDFB_PROTOTYPE prototype /* i : CLDFB version (1.25ms/5ms delay) */ -); - -ivas_error openCldfb_ivas_enc( - HANDLE_CLDFB_FILTER_BANK *h_cldfb, /* i/o: filter bank handle */ - CLDFB_TYPE type, /* i : analysis or synthesis */ - const Word32 sampling_rate, /* i : sampling rate */ - CLDFB_PROTOTYPE prototype /* i : CLDFB version (1.25ms/5ms delay) */ -); - -void resampleCldfb_ivas( - HANDLE_CLDFB_FILTER_BANK hs, /* i/o: filter bank handle */ - const int32_t newSamplerate /* i : new samplerate to operate */ -); - -ivas_error cldfb_save_memory_ivas( - HANDLE_CLDFB_FILTER_BANK hs /* i/o: filter bank handle */ -); - -void cldfb_restore_memory_ivas( - HANDLE_CLDFB_FILTER_BANK hs /* i/o: filter bank handle */ -); - -void cldfb_reset_memory_ivas( - HANDLE_CLDFB_FILTER_BANK hs /* i/o: filter bank handle */ -); - -void deleteCldfb_ivas( - HANDLE_CLDFB_FILTER_BANK *h_cldfb /* i/o: filter bank handle */ -); - -void fft_cldfb( - float *data, /* i/o: input/output vector */ - const int16_t size /* i : size of fft operation */ -); - -void BITS_ALLOC_init_config_acelp_IVAS( - const int32_t bit_rate, - const int16_t narrowBand, - const int16_t nb_subfr, - ACELP_config *acelp_cfg /* o : configuration structure of ACELP */ -); - -int16_t BITS_ALLOC_config_acelp_IVAS( - const int16_t bits_frame, /* i : remaining bit budget for the frame */ - const int16_t coder_type, /* i : acelp coder type */ - ACELP_config *acelp_cfg, /* i/o: configuration structure of ACELP */ - const int16_t narrowband, /* i : narrowband flag */ - const int16_t nb_subfr /* i : number of subframes */ -); - - -void FEC_clas_estim( - const float *syn, - const float *pitch, /* i : pitch values for each subframe */ - const int16_t L_frame, /* i : length of the frame */ - const int16_t coder_type, /* i : coder type */ - const int16_t codec_mode, /* i : codec mode */ - float *mem_syn_clas_estim, /* i/o: memory of the synthesis signal for frame class estimation */ - int16_t *clas, /* i/o: frame classification */ - float *lp_speech, /* i/o: long term active speech energy average */ - const int16_t Opt_AMR_WB, /* i : flag indicating AMR-WB IO mode */ - int16_t *decision_hyst, /* i/o: hysteresis of the music/speech decision */ - int16_t *locattack, /* i/o: detection of attack (mainly to localized speech burst) */ - int16_t *UV_cnt, /* i/o: number of consecutives frames classified as UV */ - float *LT_UV_cnt, /* i/o: long term consecutives frames classified as UV */ - float *Last_ener, /* i/o: last_energy frame */ - int16_t *amr_io_class, /* i/o: classification for AMR-WB IO mode */ - float *lt_diff_etot, /* i/o: long-term total energy variation */ - float *class_para, /* o : classification para. fmerit1 */ - const float LTP_Gain, /* i : */ - const int16_t narrowBand, /* i : */ - const SIGNAL_CLASSIFIER_MODE mode, /* i : */ - const int16_t bfi, /* i : */ - const float preemph_fac, /* i : */ - const int16_t tcxonly, /* i : */ - const int32_t last_core_brate, /* i : last core bitrate */ - const int16_t FEC_mode /* i : ACELP FEC mode */ -); - - -void SetTCXModeInfo( - Encoder_State *st, /* i/o: encoder state structure */ - TRAN_DET_HANDLE hTranDet, /* i/o: transient detection handle */ - int16_t *tcxModeOverlap /* o : window overlap of current frame */ -); - -void TCX_MDCT_flt( - const float *x, - float *y, - const int16_t l, - const int16_t m, - const int16_t r, - const int16_t element_mode ); - -void TCX_MDST_flt( - const float *x, - float *y, - const int16_t l, - const int16_t m, - const int16_t r, - const int16_t element_mode ); - -void TCX_MDCT_Inverse_flt( - const float *x, - float *y, - const int16_t l, - const int16_t m, - const int16_t r, - const int16_t element_mode ); - -void TCX_MDST_Inverse_flt( - const float *x, - float *y, - const int16_t l, - const int16_t m, - const int16_t r, - const int16_t element_mode ); - -void TCX_MDXT_Inverse_flt( - const float *x, - float *y, - const int16_t l, - const int16_t m, - const int16_t r, - const uint16_t kernel_type ); - -void post_decoder_flt( - Decoder_State *st, - float synth_buf[], - const float pit_gain[], - const int16_t pitch[], - float signal_out[], - float bpf_noise_buf[] ); -void cldfb_synth_set_bandsToZero_flt( - Decoder_State *st, /* i/o: decoder state structure */ - float **rAnalysis, - float **iAnalysis, - const int16_t nTimeSlots ); - -void longadd( - uint16_t a[], /* i/o: vector of the length lena */ - const uint16_t b[], /* i/o: vector of the length lenb */ - const int16_t lena, /* i/o: length of vector a[] */ - const int16_t lenb /* i/o: length of vector b[] */ -); - -void longshiftright( - uint16_t a[], /* i : vector of the length lena */ - const int16_t b, /* i : number of bit positions to shift right */ - uint16_t d[], /* o : vector of the length lend */ - int16_t lena, /* i : length of vector a[] */ - const int16_t lend /* i : length of vector d[] */ -); - -void longshiftleft( - const uint16_t a[], /* i : vector of the length len */ - const int16_t b, /* i : number of bit positions to shift left */ - uint16_t d[], /* o : vector of the length len */ - const int16_t len /* i : length of vector a[] and d[] */ -); - -void open_decoder_LPD( - Decoder_State *st, /* i/o: decoder state structure */ - const int32_t total_brate, /* i : total bitrate */ - const int32_t last_total_brate, /* i : last total bitrate */ - const int16_t bwidth, /* i : audio bandwidth */ - const int16_t MCT_flag, /* i : hMCT handle allocated (1) or not (0) */ - const int16_t last_element_mode, /* i : last element mode */ - const int16_t is_init /* i : indicate call during initialization */ -); - -void acelp_plc_mdct_transition( - Decoder_State *st /* i/o: Decoder state */ -); - -void tcxltp_dec_init( - TCX_LTP_DEC_HANDLE hTcxLtpDec, - const int16_t ini_frame, - const int16_t last_codec_mode, - const int16_t element_mode, - const int16_t pit_max, - const int32_t sr_core ); - -void reset_tcx_overl_buf( - TCX_DEC_HANDLE hTcxDec /* i/o: TCX decoder handle */ -); - -void update_decoder_LPD_cng_flt( - Decoder_State *st, /* i/o: decoder state structure */ - float *timeDomainBuffer, - float *A, - float *bpf_noise_buf ); - -void reconfig_decoder_LPD_ivas( - Decoder_State *st, /* i/o: decoder state structure */ - const int16_t bits_frame, /* i : bit budget */ - const int16_t bwidth, /* i : audio bandwidth */ - const int32_t total_brate, /* i : total bitrate */ - const int16_t L_frame_old /* i : frame length */ -); - -void mode_switch_decoder_LPD( - Decoder_State *st, /* i/o: decoder state structure */ - const int16_t bwidth, /* i : audio bandwidth */ - const int32_t total_brate, /* i : total bitrate */ - const int32_t last_total_brate, /* i : last frame total bitrate */ - const int16_t frame_size_index, /* i : index determining the frame size */ - const int16_t MCT_flag, /* i : hMCT handle allocated (1) or not (0)*/ - const int16_t last_element_mode /* i : last element mode */ -); - -void dec_acelp_tcx_frame( - Decoder_State *st, /* i/o: decoder state structure */ - int16_t *concealWholeFrame, /* i/o: concealment flag */ - float *output, /* o : synthesis */ - float *bpf_noise_buf, /* i/o: BPF noise buffer */ - float *pcmbufFB, /* o : synthesis @output_FS */ - float bwe_exc_extended[], /* i/o: bandwidth extended excitation */ - float *voice_factors, /* o : voicing factors */ - float pitch_buf[], /* o : floating pitch for each subframe */ - STEREO_CNG_DEC_HANDLE hStereoCng /* i : stereo CNG handle */ -); - -void decoder_LPD( - Decoder_State *st, /* i/o: decoder memory state pointer */ - float signal_out[], /* o : signal with LPD delay (7 subfrs) */ - float signal_outFB[], /* o : synthesis @output_FS */ - int16_t *total_nbbits, /* i/o: number of bits / decoded bits */ - float *bpf_noise_buf, /* i/o: BPF noise buffer */ - int16_t bfi, /* i : BFI flag */ - int16_t *bitsRead, /* o : number of read bits */ - int16_t param[], /* o : buffer of parameters */ - float *pitch_buf, /* i/o: floating pitch values for each subfr*/ - float *voice_factors, /* o : voicing factors */ - float *ptr_bwe_exc /* o : excitation for SWB TBE */ -); - -int16_t tcxGetNoiseFillingTilt_flt( - const float A[], - const int16_t L_frame, - const int16_t mode, - float *noiseTiltFactor ); - -void tcxFormantEnhancement_flt( - float xn_buf[], - const float *gainlpc, - float spectrum[], - const int16_t L_frame ); - -void tcxInvertWindowGrouping_flt( - TCX_CONFIG_HANDLE hTcxCfg, - float xn_buf[], - float spectrum[], - const int16_t L_frame, - const int8_t fUseTns, - const int16_t last_core, - const int16_t index, - const int16_t frame_cnt, - const int16_t bfi ); - -void tcx5SpectrumInterleaving( - const int16_t tcx5Size, - float *spectrum ); - -void tcx5SpectrumDeinterleaving( - const int16_t tcx5Size, - float *spectrum ); - -void tcx5TnsGrouping( - const int16_t L_frame, - const int16_t L_spec, - float *spectrum ); - -void tcx5TnsUngrouping( - const int16_t L_frame, - const int16_t L_spec, - float *spectrum, - const int16_t enc_dec ); - -void lerp_flt( - const float *f, - float *f_out, - const int16_t bufferNewSize, - const int16_t bufferOldSize ); - -void encoderSideLossSimulation( - Encoder_State *st, - PLC_ENC_EVS_HANDLE hPlc_Ext, - float *isf_q, - const float stab_fac, - const int16_t calcOnlyISF, - const int16_t L_frame ); - -void enc_prm_side_Info( - PLC_ENC_EVS_HANDLE hPlc_Ext, - Encoder_State *st ); - -void GplcTcxEncSetup( - const int16_t tcxltp_pitch_int, - PLC_ENC_EVS_HANDLE hPlc_Ext ); - -int16_t encSideSpecPowDiffuseDetector( - float *isf_ref, - float *isf_con, - const int32_t sr_core, - float *prev_isf4_mean, - const int16_t sw, - const int16_t coder_type ); - -void updateSpecPowDiffuseIdx( - const float gain_pitch_buf[], /* i : gain pitch values */ - const float gain_code_buf[], /* i : gain pitch values */ - int16_t glr_idx[2], /* o : */ - float mean_gc[2] /* o : */ -); - -void getLookAheadResSig_flt( - float *speechLookAhead, - const float *A, - float *res, - const int16_t L_frame, - const int16_t L_subfr, - const int16_t m, - const int16_t numSubFrame ); - -void updatelsfForConcealment_flt( - PLC_ENC_EVS_HANDLE decState, - float *lsf ); - -void getConcealedLP_flt( - PLC_ENC_EVS_HANDLE memDecState, - float *AqCon, - const float xsfBase[], - const int32_t sr_core, - const int16_t last_good, - const int16_t L_frame ); - -void RecLpcSpecPowDiffuseLc_flt( - float *ispq, - float *isp_old, - float *isfq, - Decoder_State *st, - const int16_t reset_q ); - -void modify_lsf_flt( - float *lsf, - const int16_t n, - const int32_t sr_core, - const int16_t reset_q ); - -void init_PLC_enc( - PLC_ENC_EVS_HANDLE hPlcExt, - const int32_t sr_core ); - -void gPLC_encInfo( - PLC_ENC_EVS_HANDLE hPlcExt, - const int32_t total_brate, - const int16_t bwidth, - const int16_t last_clas, - const int16_t coder_type ); - -void resetTecDec( - TEC_DEC_HANDLE hTecDec ); - -void calcGainTemp_TBE( - float **pCldfbRealSrc, - float **pCldfbImagSrc, - float *loBuffer, - const int16_t startPos, /*!< Start position of the current envelope. */ - const int16_t stopPos, /*!< Stop position of the current envelope. */ - const int16_t lowSubband, /* lowSubband */ - float *pGainTemp, - const int16_t code ); - -void procTecTfa_TBE( - float *hb_synth, - float *gain, - const int16_t flat_flag, - const int16_t last_core, - const int16_t L_subfr, - const int16_t code ); - -void resetTecEnc( - TEC_ENC_HANDLE hTecEnc, - const int16_t flag ); - -void calcHiEnvLoBuff( - const int16_t noCols, - const int16_t *pFreqBandTable, /* i : freqbandTable */ - const int16_t nSfb, /* i : Number of scalefactors */ - float **pYBuf, - float *loBuf, - float *hiTempEnv ); - -void calcLoEnvCheckCorrHiLo( - const int16_t noCols, - const int16_t *pFreqBandTable, /* i : freqbandTable */ - float *loBuf, - float *loTempEnv, - float *loTempEnv_ns, - float *hiTempEnv, - int16_t *corr_flag /* o : 0 for original, 1 for TEC */ -); - - -void tecEnc_TBE( - int16_t *corrFlag, - const float *voicing, - const int16_t coder_type ); - -void set_TEC_TFA_code( - const int16_t corrFlag, - int16_t *tec_flag, - int16_t *tfa_flag ); - -float Damping_fact_flt( - const int16_t coder_type, /* i : ACELP core coder type */ - const int16_t nbLostCmpt, /* i : compt for number of consecutive lost frame */ - int16_t last_good, /* i : class of last good received frame */ - float stab_fac, /* i : LSF stability factor */ - float *lp_gainp, /* i/o: low passed pitch gain used for concealment */ - const int16_t core /* i : current core: ACELP = 0, TCX20 = 1, TCX10 = 2 */ -); - -float getLevelSynDeemph( - const float h1Init[], /* i : input value or vector to be processed */ - const float A[], /* i : LPC coefficients */ - const int16_t lenLpcExc, /* i : length of the LPC excitation buffer */ - const float preemph_fac, /* i : preemphasis factor */ - const int16_t numLoops /* i : number of loops */ -); - -void genPlcFiltBWAdap( - const int32_t sr_core, /* i : core sampling rate */ - float *lpFiltAdapt, /* o : filter coefficients for filtering codebooks in case of flc */ - const int16_t type, /* i : type of filter, either 0 : lowpass or 1 : highpass */ - const float alpha /* i : fade out factor [0 1) used decrease filter tilt */ -); - -void highPassFiltering( - const int16_t last_good, /* i : last classification type */ - const int16_t L_buffer, /* i : buffer length */ - float exc2[], /* i/o: unvoiced excitation before the high pass filtering */ - const float hp_filt[], /* i : high pass filter coefficients */ - const int16_t l_fir_fer /* i : high pass filter length */ -); - -int16_t GetPLCModeDecision( - Decoder_State *st /* i/o: decoder memory state pointer */ -); - -void addBassPostFilter( - const float *harm_timeIn, - const int16_t samplesToProcess, - float **rAnalysis, - float **iAnalysis, - HANDLE_CLDFB_FILTER_BANK cldfb ); - -ivas_error TonalMDCTConceal_Init_ivas( - TonalMDCTConcealPtr hTonalMDCTConc, - const uint16_t samplesPerBlock, - const uint16_t nSamplesCore, - const uint16_t nScaleFactors, - TCX_CONFIG_HANDLE hTcxCfg ); - -void TonalMDCTConceal_SaveFreqSignal_ivas( - TonalMDCTConcealPtr hTonalMDCTConc, - const float *mdctSpectrum, - const uint16_t numSamples, - const uint16_t nNewSamplesCore, - const float *scaleFactors, - const int16_t infoIGFStartLine ); - -void TonalMDCTConceal_UpdateState_ivas( - TonalMDCTConcealPtr hTonalMDCTConc, - const int16_t numSamples, - const float pitchLag, - const int16_t badBlock, - const int16_t tonalConcealmentActive ); - -void TonalMDCTConceal_SaveTimeSignal_ivas( - TonalMDCTConcealPtr hTonalMDCTConc, - float *timeSignal, - const int16_t numSamples ); - -void TonalMDCTConceal_Detect_ivas( - const TonalMDCTConcealPtr hTonalMDCTConc, /*IN */ - const float pitchLag, /*IN */ - int16_t *umIndices, /*OUT*/ - const PsychoacousticParameters *psychParamsCurrent /*IN*/ -); - -void TonalMDCTConceal_Apply_ivas( - TonalMDCTConcealPtr hTonalMDCTConc, /*IN */ - float *mdctSpectrum, /*OUT*/ - const PsychoacousticParameters *psychParamsCurrent /*IN*/ -); - -void TonalMDCTConceal_InsertNoise_ivas( - const TonalMDCTConcealPtr hTonalMDCTConc, /*IN */ - float *mdctSpectrum, /*OUT*/ - const int16_t tonalConcealmentActive, - int16_t *pSeed, /*IN/OUT*/ - const float tiltCompFactor, - const float crossfadeGain, - const float concealment_noise[L_FRAME48k], - const float cngLevelBackgroundTrace_bfi, - const int16_t crossOverFreq ); - -void DetectTonalComponents_flt( - uint16_t indexOfTonalPeak[], - uint16_t lowerIndex[], - uint16_t upperIndex[], - uint16_t *pNumIndexes, - const float lastPitchLag, - const float currentPitchLag, - const float lastMDCTSpectrum[], - const float scaleFactors[], - const float secondLastPowerSpectrum[], - const uint16_t nSamples, - const uint16_t nSamplesCore, - float floorPowerSpectrum, - const PsychoacousticParameters *psychParamsCurrent ); - -void RefineTonalComponents_flt( - uint16_t indexOfTonalPeak[], - uint16_t lowerIndex[], - uint16_t upperIndex[], - float phaseDiff[], - float phases[], - uint16_t *pNumIndexes, - const float lastPitchLag, - const float currentPitchLag, - const float lastMDCTSpectrum[], - const float scaleFactors[], - const float secondLastPowerSpectrum[], - const uint16_t nSamples, - const uint16_t nSamplesCore, - float floorPowerSpectrum, - const PsychoacousticParameters *psychParamsCurrent ); - -ivas_error PsychoacousticParameters_Init( - const int32_t sr_core, /* i : sampling rate of core-coder */ - const int16_t nBins, /* i : Number of bins (spectral lines) */ - const int8_t nBands, /* i : Number of spectrum subbands */ - const int16_t isTCX20, /* i : Flag indicating if the subband division is for TCX20 or TCX10 */ - const int16_t isWarped, /* i : Flag indicating if the scale is linear or warped */ - PsychoacousticParameters *pPsychParams ); - -void concealment_init( - const int16_t L_frameTCX, - T_PLCInfo_HANDLE hPlcInfo ); - -void concealment_decode( - const int16_t core, - float *invkoef, - T_PLCInfo_HANDLE hPlcInfo ); - -void concealment_update( - const int16_t bfi, - const int16_t core, - const int16_t harmonic, - float *invkoef, - T_PLCInfo_HANDLE hPlcInfo ); - -void concealment_update2( - const float *outx_new, - T_PLCInfo_HANDLE hPlcInfo, - const int16_t L_frameTCX ); - -void concealment_signal_tuning( - Decoder_State *st, - const int16_t bfi, - float *outx_new, - const int16_t past_core_mode ); - -void waveform_adj2( - T_PLCInfo_HANDLE hPlcInfo, - float *overlapbuf, - float *outx_new, - const int16_t delay, - const int16_t bfi_cnt, - const int16_t bfi ); - -float SFM_Cal( - const float fcoef[], - const int16_t n ); - -void set_state_ivas( - int16_t *state, - const int16_t num, - const int16_t N ); - -int16_t RFFTN( - float *afftData, - const float *trigPtr, - const int16_t len, - const int16_t isign ); - -void DoFFT( - float *re2, - float *im2, - const int16_t length ); - -/*! r: flag indicating a valid bitrate */ -int16_t is_EVS_bitrate( - const int32_t ivas_total_brate, /* i : EVS total bitrate */ - int16_t *Opt_AMR_WB /* i : AMR-WB IO flag */ -); - -int16_t getTcxonly_ivas( - const int16_t element_mode, /* i : IVAS element mode */ - const int32_t total_brate, /* i : total bitrate */ - const int16_t MCT_flag, /* i : hMCT handle allocated (1) or not (0)*/ - const int16_t is_ism_format /* i : flag indicating ISM format */ -); - -int16_t getTnsAllowed( - const int32_t total_brate, /* i : total bitrate */ - const int16_t igf, /* i : flag indicating IGF activity*/ - const int16_t element_mode /* i : IVAS element mode */ -); - -int16_t getCtxHm( - const int16_t element_mode, /* i : IVAS element mode */ - const int32_t total_brate, /* i : total bitrate */ - const int16_t rf_flag /* i : flag to signal the RF mode */ -); - -int16_t getResq( - const int32_t total_brate /* i : total bitrate */ -); - -int16_t getMdctWindowLength( - const int16_t fscale ); - -int16_t sr2fscale( - const int32_t sr_core /* i : internal sampling rate */ -); - -int32_t getCoreSamplerateMode2_flt( - const int16_t element_mode, /* i : IVAS element mode */ - const int32_t total_brate, /* i : total bitrate */ - const int16_t bwidth, /* i : audio bandwidth */ - const int16_t flag_ACELP16k, /* i : ACELP@16kHz flag */ - const int16_t rf_mode, /* i : flag to signal the RF mode */ - const IVAS_FORMAT is_ism_format /* i : flag indicating ISM format */ -); - -float getTcxBandwidth_flt( - const int16_t bwidth /* i : audio bandwidth */ -); - - -int16_t getCnaPresent( - const int16_t element_mode, /* i : element mode */ - const int32_t element_brate, /* i : element bitrate */ - const int32_t total_brate, /* i : total bitrate */ - const int16_t bwidth /* i : audio bandwidth */ -); - -int16_t getTcxLtp( - const int32_t sr_core /* i : internal sampling rate */ -); - -int16_t initPitchLagParameters( - const int32_t sr_core, /* i : internal sampling rate */ - int16_t *pit_min, - int16_t *pit_fr1, - int16_t *pit_fr1b, - int16_t *pit_fr2, - int16_t *pit_max ); - -void attenuateNbSpectrum( - const int16_t L_frame, - float *spectrum ); - -void SetModeIndex( - Encoder_State *st, /* i : Encoder state */ - const int32_t last_total_brate, /* i : last total bitrate */ - const int16_t last_element_mode, /* i : last IVAS element mode */ - const int16_t MCT_flag /* i : hMCT handle allocated (1) or not (0) */ -); - -int16_t getNumTcxCodedLines( - const int16_t bwidth /* i : audio bandwidth */ -); - -int16_t getTcxLpcShapedAri( - const int32_t total_brate, /* i : total bitrate */ - const int16_t rf_mode, /* i : flag to signal the RF mode */ - const int16_t element_mode /* i : IVAS element mode */ -); - -void IGFEncApplyMono( - Encoder_State *st, /* i : Encoder state */ - const int16_t igfGridIdx, /* i : IGF grid index */ - float *pMDCTSpectrum, /* i/o: MDCT spectrum */ - float *pPowerSpectrum, /* i/o: MDCT^2 + MDST^2 spectrum, or estimate */ - const int16_t isTCX20, /* i : flag indicating if the input is TCX20 or TCX10/2xTCX5 */ - const int16_t isTNSActive, /* i : flag indicating if the TNS is active */ - const int16_t sp_aud_decision0, /* i : first stage switching decision */ - const int16_t vad_hover_flag /* i : VAD hangover flag */ -); - -void IGFEncApplyStereo( - STEREO_MDCT_ENC_DATA_HANDLE hStereoMdct, /* i/o: MDCT stereo encoder structure */ - int16_t ms_mask[2][MAX_SFB], /* i : bandwise MS mask */ - const IGF_ENC_INSTANCE_HANDLE hIGFEnc[CPE_CHANNELS], /* i : instance handle of IGF Encoder */ - const int16_t igfGridIdx, /* i : IGF grid index */ - Encoder_State *sts[CPE_CHANNELS], /* i : Encoder state */ - float *pPowerSpectrum[CPE_CHANNELS], /* i/o: MDCT^2 + MDST^2 spectrum, or estimate */ - float *pPowerSpectrumMsInv[CPE_CHANNELS][NB_DIV], /* i/o: inverse power spectrum */ - float *inv_spectrum[CPE_CHANNELS][NB_DIV], /* i : inverse spectrum */ - const int16_t frameno, /* i : flag indicating index of current subframe */ - const int16_t sp_aud_decision0, /* i : sp_aud_decision0 */ - const int32_t element_brate, /* i : element bitrate */ - const int16_t mct_on /* i : flag mct block (1) or stereo (0) */ -); - - -void IGFEncResetTCX10BitCounter_ivas_fx( - const IGF_ENC_INSTANCE_HANDLE hIGFEnc /* i : instance handle of IGF Encoder */ -); - -ivas_error IGF_Reconfig( - IGF_ENC_INSTANCE_HANDLE *hIGFEnc, /* i/o: instance handle of IGF Encoder */ - const int16_t igf, /* i : IGF on/off */ - const int16_t reset, /* i : reset flag */ - const int32_t brate, /* i : bitrate for configuration */ - const int16_t bwidth, /* i : signal bandwidth */ - const int16_t element_mode, /* i : IVAS element mode */ - const int16_t rf_mode /* i : flag to signal the RF mode */ -); - -void IGFEncSetMode( - const IGF_ENC_INSTANCE_HANDLE hIGFEnc, /* i : instance handle of IGF Encoder */ - const int32_t total_brate, /* i : encoder total bitrate */ - const int16_t bwidth, /* i : encoder audio bandwidth */ - const int16_t element_mode, /* i : IVAS element mode */ - const int16_t rf_mode /* i : flag to signal the RF mode */ -); - -/*! r: number of bits written per frame */ -int16_t IGFEncWriteBitstream( - const IGF_ENC_INSTANCE_HANDLE hIGFEnc, /* i : instance handle of IGF Encoder */ - BSTR_ENC_HANDLE hBstr, /* i/o: encoder bitstream handle */ - int16_t *pBitOffset, /* i : ptr to bitOffset counter */ - const int16_t igfGridIdx, /* i : igf grid index see declaration of IGF_GRID_IDX for details */ - const int16_t isIndepFlag /* i : if 1 frame is independent, 0 = frame is coded with data from previous frame */ -); - -/*! r: total number of bits written */ -int16_t IGFEncWriteConcatenatedBitstream( - const IGF_ENC_INSTANCE_HANDLE hIGFEnc, /* i : instance handle of IGF Encoder */ - BSTR_ENC_HANDLE hBstr /* i/o: encoder bitstream handle */ -); - -void IGFDecApplyMono_flt( - const IGF_DEC_INSTANCE_HANDLE hIGFDec, /* i : instance handle of IGF Decoder */ - float *spectrum, /* i/o: MDCT spectrum */ - const int16_t igfGridIdx, /* i : in case of CELP->TCX switching, use 1.25 framelength */ - const int16_t bfi, /* i : frame loss == 1, frame good == 0 */ - const int16_t element_mode /* i : IVAS element mode */ -); - -void IGFDecCopyLPCFlatSpectrum_flt( - const IGF_DEC_INSTANCE_HANDLE hIGFDec, /* i/o: instance handle of IGF Decoder */ - const float *pSpectrumFlat, /* i : LPC flattend spectrum from TCX dec */ - const int16_t igfGridIdx /* i : IGF grid index */ -); - -void IGFDecReadData_flt( - const IGF_DEC_INSTANCE_HANDLE hIGFDec, /* i/o: instance handle of IGF Deccoder */ - Decoder_State *st, /* i : decoder state */ - const int16_t igfGridIdx, /* i : in case of CELP->TCX switching, use 1.25 framelength */ - const int16_t isIndepFrame /* i : if 1: arith dec force reset, if 0: no reset */ -); - -/*! r: return igfAllZero flag indicating if no envelope is transmitted */ -int16_t IGFDecReadLevel_flt( - const IGF_DEC_INSTANCE_HANDLE hIGFDec, /* i/o: instance handle of IGF Deccoder */ - Decoder_State *st, /* i : decoder state */ - const int16_t igfGridIdx, /* i : in case of CELP->TCX switching, use 1.25 framelength */ - const int16_t isIndepFrame /* i : if 1: arith dec force reset, if 0: no reset */ -); - -void IGFDecRestoreTCX10SubFrameData_flt( - const IGF_DEC_INSTANCE_HANDLE hIGFDec, /* o : instance handle of IGF Decoder */ - const int16_t subFrameIdx /* i : index of subframe */ -); - -void init_igf_dec_flt( - IGF_DEC_INSTANCE_HANDLE hIGFDec /* i/o: IGF decoder handle */ -); - -void IGFDecSetMode_flt( - const IGF_DEC_INSTANCE_HANDLE hIGFDec, /* o : instance handle of IGF Decoder */ - const int32_t total_brate, /* i : bitrate */ - const int16_t bwidth, /* i : audio bandwidth */ - const int16_t element_mode, /* i : IVAS element mode */ - const int16_t defaultStartLine, /* i : default start subband index */ - const int16_t defaultStopLine, /* i : default stop subband index */ - const int16_t rf_mode /* i : flag to signal the RF mode */ -); - -void IGFDecStoreTCX10SubFrameData_flt( - const IGF_DEC_INSTANCE_HANDLE hIGFDec, /* i/o: instance handle of IGF Decoder */ - const int16_t subFrameIdx /* i : index of subframe */ -); - -void IGFDecUpdateInfo_flt( - const IGF_DEC_INSTANCE_HANDLE hIGFDec, /* i/o: instance handle of IGF Decoder */ - const int16_t subFrameIdx, /* i : subframe index */ - const int16_t igfGridIdx /* i : IGF grid index */ -); - -/*! r: error value: 0 -> error, 1 -> ok */ -int16_t IGFCommonFuncsIGFConfiguration_flt( - const int32_t total_brate, /* i : bitrate in bs e.g. 9600 for 9.6kbs */ - const int16_t bwidth, /* i : audio bandwidth */ - const int16_t element_mode, /* i : IVAS element mode */ - H_IGF_INFO hIGFInfo, /* o : IGF info handle */ - const int16_t rf_mode /* i : flag to signal the RF mode */ -); - -/*! r: error value: 0 -> error, 1 -> ok */ -int16_t IGFCommonFuncsIGFGetCFTables_flt( - const int32_t total_brate, /* i : bitrate in bs e.g. 9600 for 9.6kbs */ - const int16_t bwidth, /* i : audio bandwidth */ - const int16_t element_mode, /* i : element mode */ - const int16_t rf_mode, /* i : flag to signal the RF mode */ - const uint16_t **cf_se00, /* i : CF table for t == 0 and f == 0 */ - const uint16_t **cf_se01, /* i : CF table for t == 0 and f == 1 */ - int16_t *cf_off_se01, /* o : offset for CF table above */ - const uint16_t **cf_se02, /* i : CF tables for t == 0 and f >= 2 */ - const int16_t **cf_off_se02, /* o : offsets for CF tables above */ - const uint16_t **cf_se10, /* i : CF table for t == 1 and f == 0 */ - int16_t *cf_off_se10, /* o : offset for CF table above */ - const uint16_t **cf_se11, /* i : CF tables for t == 1 and f >= 1 */ - const int16_t **cf_off_se11 /* o : offsets for CF tables above */ -); - -/*! r: multiplication factor */ -int16_t IGF_ApplyTransFac_flt( - const int16_t val, /* i : input value for multiplication, Q15 */ - const float transFac /* i : multiplicator for variable val, Q14: 1.25f=0x5000, 1.0f=0x4000, 0.5f=0x2000 */ -); - -/*! r: return bitrate index */ -int16_t IGF_MapBitRateToIndex_flt( - const int32_t brate, /* i : bitrate */ - const int16_t bwidth, /* i : audio bandwidth */ - const int16_t element_mode, /* i : element mode */ - const int16_t rf_mode /* i : flag to signal the RF mode */ -); - - -void IGFSCFDecoderOpen_ivas( - IGFSCFDEC_INSTANCE_HANDLE hPublicData, /* i : handle to public data */ - H_IGF_INFO hIgfInfo, /* i : IGF info handle */ - const int32_t total_brate, - const int16_t bwidth, - const int16_t element_mode, - const int16_t rf_mode ); - -void IGFSCFDecoderReset_ivas( - IGFSCFDEC_INSTANCE_HANDLE hPublicData /* i : handle to public data or NULL in case there was no instance created */ -); - -void IGFSCFDecoderDecode_ivas( - IGFSCFDEC_INSTANCE_HANDLE hPublicData, /* i : handle to public data or NULL in case there was no instance created */ - Decoder_State *st, /* i/o: pointer to decoder state */ - int16_t *sfe, /* o : ptr to an array which will contain the decoded quantized coefficients */ - const int16_t igfGridIdx, /* i : igf grid index see declaration of IGF_GRID_IDX for details */ - const int16_t indepFlag /* i : if 1 on input the decoder will be forced to reset, - if 0 on input the decoder will be forced to encode without a reset */ -); - -/*! r: offset value */ -int16_t tbe_celp_exc_offset_flt( - const int16_t T0, /* i : Integer pitch */ - const int16_t T0_frac /* i : Fractional part of the pitch */ -); - -void blend_subfr2_flt( - float *sigIn1, /* i : input signal for fade-out */ - float *sigIn2, /* i : input signal for fade-in */ - float *sigOut /* o : output signal */ -); - -void init_tcx_window_cfg( - TCX_CONFIG_HANDLE hTcxCfg, /* i : TCX Config handle */ - const int32_t sr_core, /* i : SR core */ - const int32_t input_Fs, /* i : input/output SR */ - const int16_t L_frame, /* i : L_frame at sr_core */ - const int16_t L_frameTCX, /* i : L_frame at i/o SR */ - const int16_t encoderLookahead_enc, /* i : encoder LA at sr_core */ - const int16_t encoderLookahead_FB, /* i : encoder LA at i/o SR */ - const int16_t mdctWindowLength, /* i : window length at sr_core */ - const int16_t mdctWindowLengthFB, /* i : window length at i/o SR */ - const int16_t element_mode /* i : mode of CPE/SCE */ -); - -void init_tcx_cfg( - TCX_CONFIG_HANDLE hTcxCfg, - const int32_t total_brate, - const int32_t sr_core, - const int32_t input_Fs, - const int16_t L_frame, - const int16_t bwidth, - const int16_t L_frameTCX, - const int16_t fscale, - const int16_t encoderLookahead_enc, - const int16_t encoderLookahead_FB, - const float preemph_fac, - const int16_t tcxonly, - const int16_t rf_mode, - const int16_t igf, - const int16_t infoIGFStopFreq, - const int16_t element_mode, - const int16_t ini_frame, - const int16_t MCT_flag /* i : hMCT handle allocated (1) or not (0) */ -); - -#endif diff --git a/lib_com/prot_fx.h b/lib_com/prot_fx.h index e9269e0f90fc30c91799b6cc19cecb246445fd41..45641b3f8f6789c864216b5d78a78c3b7d747452 100644 --- a/lib_com/prot_fx.h +++ b/lib_com/prot_fx.h @@ -49,14 +49,59 @@ #include "ivas_cnst.h" #include "stat_enc.h" #include "stat_dec.h" +#include "stat_com.h" #include "ivas_stat_enc.h" #include "ivas_stat_dec.h" +#include "ivas_stat_com.h" #include "ivas_error.h" #include "ivas_error_utils.h" #include "complex_basop.h" #define TCX_IMDCT_SCALE 15 #define TCX_IMDCT_HEADROOM 1 + +/*----------------------------------------------------------------------------------* + * Prototypes of global macros + *----------------------------------------------------------------------------------*/ + +#ifndef min +#define min( x, y ) ( ( x ) < ( y ) ? ( x ) : ( y ) ) +#endif + +#ifndef max +#define max( x, y ) ( ( x ) > ( y ) ? ( x ) : ( y ) ) +#endif + +#define log_base_2( x ) ( (double) log( (double) ( x ) ) * 1.4426950408889634074f ) +#define round_f( x ) ( ( ( x ) > 0 ) ? (int32_t) ( ( x ) + 0.5f ) : ( -(int32_t) ( ( -x ) + 0.5f ) ) ) + +#ifndef ABSVAL +#define ABSVAL( a ) ( ( a ) >= 0 ? ( a ) : ( -( a ) ) ) +#endif + +#ifndef SQR +#define SQR( a ) ( ( a ) * ( a ) ) +#endif + +#ifndef SWAP +#define SWAP( a, b ) \ + { \ + tempr = ( a ); \ + ( a ) = ( b ); \ + ( b ) = tempr; \ + } +#endif + +#ifndef swap +#define swap( x, y, type ) \ + { \ + type u__p; \ + u__p = x; \ + x = y; \ + y = u__p; \ + } +#endif + /*================================================================================*/ /* conversion functions: */ /*================================================================================*/ @@ -836,13 +881,11 @@ Word16 lpc2lsp_fx( Word16 *old_freq, Word16 order ); -#ifdef FIX_ISSUE_1165 Word16 lpc2lsp_ivas_fx( Word32 *a, Word16 *freq, Word16 *old_freq, Word16 order ); -#endif void lsp2lpc_fx( Word16 *a, @@ -1278,7 +1321,8 @@ UWord16 get_indice_1_fx( /* o : value of the indice */ ); void reset_indices_enc_fx( - BSTR_ENC_HANDLE hBstr /* i/o: encoder state structure */ + BSTR_ENC_HANDLE hBstr, /* i/o: encoder state structure */ + const Word16 max_num_indices /* i : max number of indices */ ); void reset_indices_dec_fx( @@ -1322,18 +1366,6 @@ Word16 BRATE2IDX16k_fx( Word32 brate ); Word32 BIT_ALLOC_IDX_fx( Word32 brate, Word16 ctype, Word16 sfrm, Word16 tc ); Word32 BIT_ALLOC_IDX_16KHZ_fx( Word32 brate, Word16 ctype, Word16 sfrm, Word16 tc ); -Word16 read_indices_fx( /* o : 1 = OK, 0 = something wrong */ - Decoder_State *st_fx, /* i/o: decoder state structure */ - FILE *file, /* i : bitstream file */ - Word16 rew_flag /* i : rewind flag (rewind file after reading) */ -); - -Word16 read_indices_mime( /* o : 1 = reading OK, 0 = problem */ - Decoder_State *st, /* i/o: decoder state structure */ - FILE *file, /* i : bitstream file */ - Word16 rew_flag /* i : rewind flag (rewind file after reading)*/ -); - void getPartialCopyInfo( Decoder_State *st, /* i : decoder state structure */ Word16 *coder_type, @@ -1365,19 +1397,6 @@ void get_NextCoderType_fx( Word16 *next_coder_type /* o : next coder type */ ); -void read_indices_from_djb_fx( - Decoder_State *st, /* i/o: decoder state structure */ - UWord8 *pt_stream, /* i : bitstream file */ - Word16 nbits /* i : number of bits */ - , - Word16 isAMRWB_IOmode, - Word16 core_mode, - Word16 qbit, - Word16 partialframe /* i : partial frame information */ - , - Word16 next_coder_type /* i : next coder type information */ -); - void evs_dec_previewFrame( UWord8 *bitstream, /* i : bitstream pointer */ Word16 bitstreamSize, /* i : bitstream size */ @@ -1425,6 +1444,13 @@ void scale_sig32( const Word16 lg, /* i : size of x[] Q0 */ const Word16 exp0 /* i : exponent: x = round(x << exp) Qx xx exp */ ); + +void Scale_sig64( + Word64 x[], /* i/o: signal to scale Qx */ + Word16 len, /* i : size of x[] Q0 */ + Word16 exp /* i : exponent: x = round(x << exp) Qx exp */ +); + void scale_sig32_r( Word32 x[], /* i/o: signal to scale Qx */ const Word16 lg, /* i : size of x[] Q0 */ @@ -1632,7 +1658,6 @@ void deemph_fx( void E_UTIL_deemph2( Word16 shift, Word16 *x, const Word16 mu, const Word16 L, Word16 *mem ); void deemph_fx_32( - Word16 shift, /* i : scaled output */ Word32 *signal, /* i/o: signal */ const Word16 mu, /* i : deemphasis factor */ const Word16 L, /* i : vector size */ @@ -2571,14 +2596,12 @@ Word16 modify_Fs_ivas_fx( /* o : length of output Q // modif_fs_fx.c Word16 modify_Fs_fx( /* o : length of output Q0 */ const Word16 sigIn_fx[], /* i : signal to decimate Q0 */ - Word16 lg, /* i : length of input Q0 */ - const Word32 fin, /* i : frequency of input Q0 */ + Word16 lg, /* i : length of i Q0 */ + const Word32 fin, /* i : frequency of i Q0 */ Word16 sigOut_fx[], /* o : decimated signal Q0 */ const Word32 fout, /* i : frequency of output Q0 */ Word16 mem_fx[], /* i/o: filter memory Q0 */ - const Word16 nblp, /* i : flag indicating if NB low-pass is applied */ - Word16 *Q_new_inp, // TO be removed - Word16 *mem_decim_size // TO be removed + const Word16 nblp /* i : flag indicating if NB low-pass is applied */ ); Word16 modify_Fs_intcub3m_sup_fx( /* o : length of output */ @@ -2592,49 +2615,70 @@ Word16 modify_Fs_intcub3m_sup_fx( /* o : length of output void Decimate_allpass_steep_fx( const Word16 *in_fx, - Word16 mem[], /* array of size: 2*ALLPASSSECTIONS_STEEP+1 */ - Word16 N, /* number of input samples */ - Word16 out_fx[] ); + Word16 mem[], /* array of size: 2*ALLPASSSECTIONS_STEEP+1 */ + Word16 N, /* number of input samples */ + Word16 out_fx[] /* o : output array of size N/2 */ +); + +void Decimate_allpass_steep_fx32( + const Word32 *in, /* i : input array of size N */ + Word32 *mem, /* i/o: memory */ + const Word16 N, /* i : number of input samples */ + Word32 *out /* o : output array of size N/2 */ +); void Interpolate_allpass_steep_fx( const Word16 *in_fx, - Word16 mem[], /* array of size: 2*ALLPASSSECTIONS_STEEP+1 */ - Word16 N, /* number of input samples */ - Word16 out_fx[] ); + Word16 mem[], /* array of size: 2*ALLPASSSECTIONS_STEEP+1 */ + Word16 N, /* number of input samples */ + Word16 out_fx[] /* o : output array of size 2*N */ +); + +void Interpolate_allpass_steep_fx32( + const Word32 *in_fx, /* i : input array of size N */ + Word32 *mem_fx, /* i/o: memory */ + const int16_t N, /* i : number of input samples */ + Word32 *out_fx /* o : output array of size 2*N */ +); void interpolate_3_over_2_allpass_fx( - const Word16 *input_fx, - /* i : input signal */ /* Q_input */ - const Word16 len, /* i : number of input samples */ - Word16 *out_fx, - /* o : output signal */ /* Q_input */ - Word16 *mem_fx, - /* i/o: memory */ /* Q_input */ - const Word16 *filt_coeff_fx /* i : filter coefficients */ /* Q15*/ + const Word16 *input_fx, /* i : input signal Q_input */ + const Word16 len, /* i : number of input samples */ + Word16 *out_fx, /* o : output signal Q_input */ + Word16 *mem_fx, /* i/o: memory Q_input */ + const Word16 *filt_coeff_fx /* i : filter coefficients Q15*/ +); + +void interpolate_3_over_2_allpass_fx32( + const Word32 *input, /* i : input signal Qx */ + const int16_t len, /* i : number of input samples */ + Word32 *out, /* o : output signal */ + Word32 *mem /* i/o: memory */ ); void interpolate_3_over_1_allpass_fx( - const Word16 *input_fx, - /* i : input signal */ /* Q_input */ - const Word16 len, /* i : number of input samples */ - Word16 *out_fx, - /* o : output signal */ /* Q_input */ - Word16 *mem_fx /* i/o: memory */ /* Q_input */ + const Word16 *input_fx, /* i : input signal Q_input */ + const Word16 len, /* i : number of input samples */ + Word16 *out_fx, /* o : output signal Q_input */ + Word16 *mem_fx /* i/o: memory Q_input */ +); + +void interpolate_3_over_1_allpass_fx32( + const Word32 *input, /* i : input signal Qx */ + const Word16 len, /* i : number of input samples */ + Word32 *out, /* o : output signal */ + Word32 *mem /* i/o: memory */ ); void decimate_2_over_3_allpass_fx( - const Word16 *input, - /* i : input signal */ /* Q_input */ - const Word16 len, /* i : number of input samples */ - Word16 *out_fx, - /* o : output signal */ /* Q_input */ - Word16 *mem_fx, - /* i/o: memory */ /* Q_input */ - const Word16 *filt_coeff_fx, - /* i : filter coefficients */ /* Q15*/ - const Word16 *lp_num_fx, /* i : Num Coefficients : Q15 */ - const Word16 *lp_den_fx, /* o : Den Coefficients : Q15 */ - Word16 *lp_mem_fx /* o : Filter memories : Q_input */ + const Word16 *input, /* i : input signal Q_input */ + const Word16 len, /* i : number of input samples */ + Word16 *out_fx, /* o : output signal Q_input */ + Word16 *mem_fx, /* i/o: memory Q_input */ + const Word16 *filt_coeff_fx, /* i : filter coefficients Q15 */ + const Word16 *lp_num_fx, /* i : Num Coefficients : Q15 */ + const Word16 *lp_den_fx, /* o : Den Coefficients : Q15 */ + Word16 *lp_mem_fx /* o : Filter memories : Q_input */ ); void retro_interp4_5_fx( @@ -2867,7 +2911,8 @@ void swb_tbe_reset_fx( void swb_tbe_reset_synth_fx( Word32 genSHBsynth_Hilbert_Mem[], - Word16 genSHBsynth_state_lsyn_filt_shb_local_fx[] ); + Word16 genSHBsynth_state_lsyn_filt_shb_local_fx[], + Word32 genSHBsynth_state_lsyn_filt_shb_local_fx_32[] ); void fb_tbe_reset_synth_fx( Word32 fbbwe_hpf_mem_fx[][4], @@ -3131,7 +3176,7 @@ void GenSHBSynth_fx( const Word16 L_frame, /* i : ACELP Frame length */ Word16 *syn_dm_phase ); -void GenSHBSynth_fx_32( +void GenSHBSynth_fx32( const Word32 *input_synspeech, /* i : input synthesized speech */ Word32 *shb_syn_speech_32k, /* o : output highband component */ Word32 Hilbert_Mem[], /* i/o: memory */ @@ -3152,7 +3197,7 @@ void ScaleShapedSHB_fx( Word16 n_mem3, Word16 prev_Q_bwe_syn2 ); -void ScaleShapedSHB_32( +void ScaleShapedSHB_fx32( const Word16 length, /* i : SHB overlap length */ Word32 *synSHB_fx, /* i/o: synthesized shb signal Qx */ Word32 *overlap_fx, /* i/o: buffer for overlap-add Qx */ @@ -4438,14 +4483,15 @@ void calcGainTemp_TBE_Fx( Word16 *pGainTemp_e, const Word16 code ); -Word16 procTecTfa_TBE_Fx( Word16 *hb_synth_Fx, - Word16 hb_synth_fx_exp, - Word16 *gain_m, - Word16 *gain_e, - Word16 flat_flag, - Word16 last_core, - Word16 l_subfr, - Word16 code ); +Word16 procTecTfa_TBE_Fx( + Word16 *hb_synth_Fx, + Word16 hb_synth_fx_exp, + Word16 *gain_m, + Word16 *gain_e, + Word16 flat_flag, + Word16 last_core, + Word16 l_subfr, + Word16 code ); void calcHiEnvLoBuff_Fix( const Word16 noCols, @@ -4656,6 +4702,7 @@ Word16 find_guarded_bits_fx( Word32 n ); Word16 L_norm_arr( const Word32 *arr, Word16 size ); Word16 norm_arr( Word16 *arr, Word16 size ); +Word16 W_norm_arr( Word64 *arr, Word16 size ); Word16 get_min_scalefactor( Word32 x, Word32 y ); @@ -4715,24 +4762,26 @@ void r_fft_fx_lc( ); // cldfb_evs -void cldfbAnalysisFiltering( HANDLE_CLDFB_FILTER_BANK anaCldfb, /*!< Handle of Cldfb Analysis Bank */ - Word32 **cldfbReal, /*!< Pointer to real subband slots */ - Word32 **cldfbImag, /*!< Pointer to imag subband slots */ - CLDFB_SCALE_FACTOR *scaleFactor, /*!< Scale factors of CLDFB data */ - const Word16 *timeIn, /*!< Time signal */ - const Word16 timeIn_e, /*!< Time signal */ - const Word16 nTimeSlots, /*!< Time slots to be processed */ - Word32 *pWorkBuffer /*!< pointer to temporal working buffer */ -); - -void cldfbSynthesisFiltering( HANDLE_CLDFB_FILTER_BANK synCldfb, /*!< Handle of Cldfb Synthesis Bank */ - Word32 **CldfbBufferReal, /*!< Pointer to 32 bit real subband slots */ - Word32 **CldfbBufferImag, /*!< Pointer to 32 bit imag subband slots */ - const CLDFB_SCALE_FACTOR *scaleFactor, /*!< Scale factors of CLDFB data */ - Word16 *timeOut, /*!< Time signal */ - const Word16 timeOut_e, /*!< Target exponent for output signal */ - const Word16 nTimeSlots, /*!< number of time slots to be processed */ - Word32 *pWorkBuffer /*!< pointer to temporal working buffer */ +void cldfbAnalysis_fx( + HANDLE_CLDFB_FILTER_BANK anaCldfb, /*!< Handle of Cldfb Analysis Bank */ + Word32 **cldfbReal, /*!< Pointer to real subband slots */ + Word32 **cldfbImag, /*!< Pointer to imag subband slots */ + CLDFB_SCALE_FACTOR *scaleFactor, /*!< Scale factors of CLDFB data */ + const Word16 *timeIn, /*!< Time signal */ + const Word16 timeIn_e, /*!< Time signal */ + const Word16 nTimeSlots, /*!< Time slots to be processed */ + Word32 *pWorkBuffer /*!< pointer to temporal working buffer */ +); + +void cldfbSynthesis_fx( + HANDLE_CLDFB_FILTER_BANK synCldfb, /*!< Handle of Cldfb Synthesis Bank */ + Word32 **CldfbBufferReal, /*!< Pointer to 32 bit real subband slots */ + Word32 **CldfbBufferImag, /*!< Pointer to 32 bit imag subband slots */ + const CLDFB_SCALE_FACTOR *scaleFactor, /*!< Scale factors of CLDFB data */ + Word16 *timeOut, /*!< Time signal */ + const Word16 timeOut_e, /*!< Target exponent for output signal */ + const Word16 nTimeSlots, /*!< number of time slots to be processed */ + Word32 *pWorkBuffer /*!< pointer to temporal working buffer */ ); void configureCldfb( HANDLE_CLDFB_FILTER_BANK h_cldfb, /*!< CLDFB Handle */ @@ -4808,33 +4857,31 @@ Word16 BITS_ALLOC_config_acelp( const Word16 nb_subfr ); ivas_error config_acelp1( - const Word16 enc_dec, /* i : encoder/decoder flag */ - const Word32 total_brate, /* i : total bitrate */ - const Word32 core_brate_inp, /* i : core bitrate */ - const Word16 core, /* i : core */ - const Word16 extl, /* i : extension layer */ - const Word32 extl_brate, /* i : extension layer bitrate */ - const Word16 L_frame, /* i : frame length at internal Fs */ - const Word16 GSC_noisy_speech, /* i : GSC on SWB noisy speech flag */ - ACELP_config *acelp_cfg, /* i : ACELP bit-allocation */ - const Word16 signalling_bits, /* i : number of signalling bits */ - const Word16 coder_type, /* i : coder type */ -#ifdef NONBE_FIX_GSC_BSTR + const Word16 enc_dec, /* i : encoder/decoder flag */ + const Word32 total_brate, /* i : total bitrate */ + const Word32 core_brate_inp, /* i : core bitrate */ + const Word16 core, /* i : core */ + const Word16 extl, /* i : extension layer */ + const Word32 extl_brate, /* i : extension layer bitrate */ + const Word16 L_frame, /* i : frame length at internal Fs */ + const Word16 GSC_noisy_speech, /* i : GSC on SWB noisy speech flag */ + ACELP_config *acelp_cfg, /* i : ACELP bit-allocation */ + const Word16 signalling_bits, /* i : number of signalling bits */ + const Word16 coder_type, /* i : coder type */ const Word16 inactive_coder_type_flag, /* i : AVQ (0) or GSC (1) IC flag */ -#endif - const Word16 tc_subfr, /* i : TC subfr ID */ - const Word16 tc_call, /* i : TC call number (0,1,2,3,5(DEC)) */ - Word16 *nBits_es_Pred, /* o : number of bits for Es_pred Q */ - Word16 *unbits, /* o : number of unused bits */ - const Word16 element_mode, /* i : element mode */ - Word16 *uc_two_stage_flag, /* o : flag undicating two-stage UC */ - const Word16 tdm_lp_reuse_flag, /* i : LPC reuse flag (can be 1 only with secondary channel */ - const Word16 tdm_low_rate_mode, /* i : secondary channel low rate mode flag */ - const Word16 idchan, /* i : stereo channel ID */ - const Word16 active_cnt, /* i : Active frame counter */ - const Word16 tdm_Pitch_reuse_flag, /* i : primary channel pitch reuse flag*/ - const Word16 tdm_LRTD_flag, /* i : LRTD stereo mode flag */ - const Word16 GSC_IVAS_mode /* i : GSC IVAS mode */ + const Word16 tc_subfr, /* i : TC subfr ID */ + const Word16 tc_call, /* i : TC call number (0,1,2,3,5(DEC)) */ + Word16 *nBits_es_Pred, /* o : number of bits for Es_pred Q */ + Word16 *unbits, /* o : number of unused bits */ + const Word16 element_mode, /* i : element mode */ + Word16 *uc_two_stage_flag, /* o : flag undicating two-stage UC */ + const Word16 tdm_lp_reuse_flag, /* i : LPC reuse flag (can be 1 only with secondary channel */ + const Word16 tdm_low_rate_mode, /* i : secondary channel low rate mode flag */ + const Word16 idchan, /* i : stereo channel ID */ + const Word16 active_cnt, /* i : Active frame counter */ + const Word16 tdm_Pitch_reuse_flag, /* i : primary channel pitch reuse flag*/ + const Word16 tdm_LRTD_flag, /* i : LRTD stereo mode flag */ + const Word16 GSC_IVAS_mode /* i : GSC IVAS mode */ ); Word16 set_ACELP_flag( @@ -4866,24 +4913,18 @@ Word16 est_tilt_fx( /* o : tilt of the code const Word32 gain_code, /* i : algebraic code gain Q16 */ Word16 *voice_fac, /* o : voicing factor Q15 */ const Word16 Q_exc /* i : Scaling factor of excitation Q0 */ -#ifdef ADD_LRTD - , - const Word16 L_subfr /* i : Sub frame lenght */ -#endif ); -Word16 est_tilt_ivas_fx( /* o : tilt of the code Q15 */ - const Word16 *exc, /* i : adaptive excitation vector Qx */ - const Word16 gain_pit, /* i : adaptive gain Q14 */ - const Word16 *code, /* i : algebraic excitation vector Q9 */ - const Word32 gain_code, /* i : algebraic code gain Q16 */ - Word16 *voice_fac, /* o : voicing factor Q15 */ - const Word16 Q_exc /* i : Scaling factor of excitation Q0 */ -#if 1 // def ADD_LRTD - , - const Word16 L_subfr, /* i : Sub frame length */ - const Word16 flag_tilt /* i : flag for special tilt */ -#endif +/* o : tilt of the code Q15 */ +Word16 est_tilt_ivas_fx( + const Word16 *exc, /* i : adaptive excitation vector Qx */ + const Word16 gain_pit, /* i : adaptive gain Q14 */ + const Word16 *code, /* i : algebraic excitation vector Q9 */ + const Word32 gain_code, /* i : algebraic code gain Q16 */ + Word16 *voice_fac, /* o : voicing factor Q15 */ + const Word16 Q_exc, /* i : Scaling factor of excitation Q0 */ + const Word16 L_subfr, /* i : Sub frame length */ + const Word16 flag_tilt /* i : flag for special tilt */ ); Word16 Est_tilt2( /* o : tilt of the code */ @@ -5043,14 +5084,7 @@ void fine_gain_quant_fx( Word16 *fg_pred, /* i/o: Predicted gains / Corrected gains Q12 */ const Word16 *gopt /* i : Optimal gains Q12 */ ); -void fine_gain_quant_ivas_fx( - BSTR_ENC_HANDLE hBstr, /* i/o: encoder bitstream handle */ - const Word16 *ord, /* i : Indices for energy order Q0 */ - const Word16 num_sfm, /* i : Number of bands Q0 */ - const Word16 *gain_bits, /* i : Gain adjustment bits per sub band Q0 */ - Word16 *fg_pred, /* i/o: Predicted gains / Corrected gains i:Q12 / o:Q11 */ - const Word16 *gopt /* i : Optimal gains Q12 */ -); + void get_max_pulses_fx( const Word16 *band_start, /* i : Sub band start indices */ const Word16 *band_end, /* i : Sub band end indices */ @@ -5776,7 +5810,7 @@ Word16 tcx_ltp_decode_params( const Word16 pitres /* Q0 */ ); -void tcx_ltp_post( +void tcx_ltp_post_fx( Decoder_State *st, TCX_LTP_DEC_HANDLE hTcxLtpDec, Word16 core, /* Q0 */ @@ -5786,7 +5820,7 @@ void tcx_ltp_post( Word16 *tcx_buf /* Qx */ ); -void tcx_ltp_post32( +void tcx_ltp_post_fx32( Decoder_State *st, TCX_LTP_DEC_HANDLE hTcxLtpDec, Word16 core, /* Q0 */ @@ -5811,23 +5845,18 @@ void Inac_swtch_ematch_fx( ); void Inac_switch_ematch_ivas_fx( - Word16 exc2[], /* i/o: CELP/GSC excitation buffer Q_exc*/ - Word16 dct_exc_tmp[], /* i : GSC excitation in DCT domain */ - Word16 lt_ener_per_band[], /* i/o: Long term energy per band Q12 */ - const Word16 coder_type, /* i : Coding mode */ -#ifdef NONBE_FIX_GSC_BSTR + Word16 exc2[], /* i/o: CELP/GSC excitation buffer Q_exc*/ + Word16 dct_exc_tmp[], /* i : GSC excitation in DCT domain */ + Word16 lt_ener_per_band[], /* i/o: Long term energy per band Q12 */ + const Word16 coder_type, /* i : Coding mode */ const Word16 inactive_coder_type_flag, /* i : AVQ (0) or GSC (1) IC flag */ -#endif - const Word16 L_frame, /* i : Frame lenght */ -#ifndef NONBE_FIX_GSC_BSTR - const Word32 core_brate, /* i : Core bit rate */ -#endif - const Word16 Q_exc, /* i : input and output format of exc2 */ - const Word16 bfi, /* i : frame lost indicator */ - const Word16 last_core, /* i : Last core used */ - const Word16 last_codec_mode, /* i : Last codec mode */ - const Word16 tdm_low_rate_mode, /* i : secondary channel low rate mode flag*/ - const Word16 element_mode /* i : element mode */ + const Word16 L_frame, /* i : Frame lenght */ + const Word16 Q_exc, /* i : input and output format of exc2 */ + const Word16 bfi, /* i : frame lost indicator */ + const Word16 last_core, /* i : Last core used */ + const Word16 last_codec_mode, /* i : Last codec mode */ + const Word16 tdm_low_rate_mode, /* i : secondary channel low rate mode flag*/ + const Word16 element_mode /* i : element mode */ ); // igf_base_fx.c @@ -5963,13 +5992,9 @@ Word32 calc_gain_inov( /* returns innovation gain /* Lib_dec */ ////////////////////////////////// // swb_tbe_dec.c - -void InitSWBdecBuffer_fx( - Decoder_State *swb_dnc_fx /* i/o: SHB decoder structure */ -); - void ResetSHBbuffer_Dec_fx( - Decoder_State *st_fx /* i/o: decoder state structure */ + TD_BWE_DEC_HANDLE hBWE_TD, /* i/o: TD BWE data handle */ + const Word16 extl /* i : BWE extension layer */ ); void wb_tbe_dec_fx( Decoder_State *st_fx, /* i/o: decoder state structure */ @@ -6028,45 +6053,40 @@ void tbe_read_bitstream_fx( ); void GenTransition_fx( - const Word16 *i, /* i : gain shape overlap buffer */ - const Word16 *old_hb_synth, /* i : synthesized HB from previous frame */ - Word16 length, /* i : targeted length of transition signal */ - Word16 *output, /* o : synthesized transitions signal */ - Word32 Hilbert_Mem[], /* i/o: memory */ - Word16 state_lsyn_filt_shb_local[], /* i/o: memory */ - Word16 mem_resamp_HB_32k[], /* i/o: memory */ - Word16 *syn_dm_phase, - Word32 output_Fs, - Word16 *up_mem, - Word16 rf_flag, - Word32 bitrate ); + TD_BWE_DEC_HANDLE hBWE_TD, /* i/o: TD BWE data handle */ + Word16 *output_HB, /* o : synthesized HB transitions signal st_fx->prev_Q_bwe_syn2 */ + const Word32 output_Fs, /* i : output sampling rate */ + Word16 rf_flag, /* i : RF flag */ + Word32 total_bitrate /* i : total bitrate */ +); + +void GenTransition_fx32( + TD_BWE_DEC_HANDLE hBWE_TD, /* i/o: TD BWE data handle */ + Word32 *outputHB_fx, /* o : synthesized HB transitions signal : Q11 */ + const Word32 output_Fs, /* i : output sampling rate : Q0 */ + const Word16 L_frame, /* i : ACELP frame length : Q0 */ + const Word16 prev_Qx ); void GenTransition_WB_fx( - const Word16 *i, /* i : gain shape overlap buffer */ - const Word16 *old_hb_synth, /* i : synthesized HB from previous frame */ - const Word16 prev_Qx, /* i : scaling of old_hb_synth */ - Word16 length, /* i : targeted length of transition signal */ - Word16 *output, /* o : synthesized transitions signal */ - Word16 state_lsyn_filt_shb1[], - Word16 state_lsyn_filt_shb2[], - Word32 output_Fs, - Word16 *up_mem ); -void TBEreset_dec_ivas_fx( - Decoder_State *st /* i/o: decoder state structure */ + TD_BWE_DEC_HANDLE hBWE_TD, /* i/o: TD BWE data handle */ + Word16 *output, /* o : synthesized transitions signal */ + const Word32 output_Fs /* i : output sampling rate */ +); + +void GenTransition_WB_fx32( + TD_BWE_DEC_HANDLE hBWE_TD, /* i/o: TD BWE data handle */ + Word32 *outputHB_fx, /* o : synthesized HB transitions signal : Q11 */ + const Word32 output_Fs /* i : output sampling rate */ ); void TBEreset_dec_fx( - Decoder_State *st_fx, /* i/o: decoder state structure */ - Word16 bandwidth /* i : bandwidth mode */ + Decoder_State *st_fx /* i/o: decoder state structure */ ); void td_bwe_dec_init_fx( - Decoder_State *st_fx, /* i/o: SHB decoder structure */ TD_BWE_DEC_HANDLE hBWE_TD, /* i/o: TD BWE data handle */ -#ifdef ADD_IVAS_BWE - const Word16 extl, /* i : BWE extension layer */ -#endif - const Word32 output_Fs /* i : output sampling rate */ + const Word16 extl, /* i : BWE extension layer */ + const Word32 output_Fs /* i : output sampling rate */ ); // lsf_dec_fx.c @@ -6279,82 +6299,136 @@ void td_cng_dec_init_fx( DEC_CORE_HANDLE st /* i/o: decoder state structure */ ); -void td_cng_dec_init_ivas_fx( - DEC_CORE_HANDLE st /* i/o: decoder state structure */ -); - // wavadjust_fec_dec_fx.c -void set_state( Word16 *state, Word16 num, Word16 N ); -void concealment_init_x( Word16 N, void *_plcInfo ); -void concealment_init_ivas_fx( +void set_state( + Word16 *state, + Word16 num, + Word16 N ); + +void concealment_init_x( const Word16 L_frameTCX, T_PLCInfo_HANDLE hPlcInfo ); -void concealment_update_x( Word16 bfi, Word16 curr_mode, Word16 harmonic, Word32 *invkoef, Word16 *invkoef_scale, void *_plcInfo ); -Word16 Sqrt_x_fast( Word32 value ); - -Word32 dot_w32_accuracy_x( Word16 *s1, Word16 *s2, Word16 nbits, Word16 N ); - -Word16 int_div_s_x( Word16 a, Word16 b ); - -Word16 GetW32Norm_x( Word32 *s, Word16 N ); -Word16 harmo_x( Word32 *X, Word16 Framesize, Word16 pitch ); - -void LpFilter2_x( Word16 *x, Word16 *y, Word16 N ); - -void sig_tilt_x( Word16 *s, Word16 FrameSize, Word32 *enr1, Word32 *enr2 ); - -void get_maxConv_and_pitch_x( Word16 *s_LP, Word16 s, Word16 e, Word16 N, Word32 *maxConv, Word16 *maxConv_bits, Word16 *pitch ); +void concealment_init_ivas_fx( + const Word16 L_frameTCX, + T_PLCInfo_HANDLE hPlcInfo ); -Word16 get_voicing_x( Word16 *s_LP, Word16 pitch, Word32 covMax, Word16 maxConv_bits, Word16 Framesize ); +void concealment_update_x( + const Word16 bfi, + const Word16 core, + const Word16 tonality, + Word32 *invkoef /*Qinvkoef_scale*/, + Word16 *invkoef_scale, + T_PLCInfo_HANDLE hPlcInfo ); -void pitch_modify_x( Word16 *s_LP, Word16 *voicing, Word16 *pitch, Word16 FrameSize ); +Word16 Sqrt_x_fast( + Word32 value ); -Word16 Is_Periodic_x( Word32 *mdct_data, Word16 cov_max, Word16 zp, Word32 ener, Word32 ener_mean, Word16 pitch, Word16 Framesize ); +Word32 dot_w32_accuracy_x( + Word16 *s1, + Word16 *s2, + Word16 nbits, + Word16 N ); -Word16 get_conv_relation_x( Word16 *s_LP, Word16 shift, Word16 N ); +Word16 int_div_s_x( + Word16 a, + Word16 b ); -void concealment_decode_fix( Word16 curr_mode, Word32 *invkoef, Word16 *invkoef_scale, void *_plcInfo ); +Word16 GetW32Norm_x( + Word32 *s, + Word16 N ); + +Word16 harmo_x( + Word32 *X, + Word16 Framesize, + Word16 pitch ); + +void LpFilter2_x( + Word16 *x, + Word16 *y, + Word16 N ); + +void sig_tilt_x( + Word16 *s, + Word16 FrameSize, + Word32 *enr1, + Word32 *enr2 ); + +void get_maxConv_and_pitch_x( + Word16 *s_LP, + Word16 s, + Word16 e, + Word16 N, + Word32 *maxConv, + Word16 *maxConv_bits, + Word16 *pitch ); + +Word16 get_voicing_x( + Word16 *s_LP, + Word16 pitch, + Word32 covMax, + Word16 maxConv_bits, + Word16 Framesize ); + +void pitch_modify_x( + Word16 *s_LP, + Word16 *voicing, + Word16 *pitch, + Word16 FrameSize ); + +Word16 Is_Periodic_x( + Word32 *mdct_data, + Word16 cov_max, + Word16 zp, + Word32 ener, + Word32 ener_mean, + Word16 pitch, + Word16 Framesize ); + +Word16 get_conv_relation_x( + Word16 *s_LP, + Word16 shift, + Word16 N ); + +void concealment_decode_fix( + Word16 curr_mode, + Word32 *invkoef, + Word16 *invkoef_scale, + T_PLCInfo_HANDLE hPlcInfo ); -Word32 Spl_Energy_x( const Word16 *vector, const Word16 vector_length, Word16 *scale_factor ); +Word32 Spl_Energy_x( + const Word16 *vector, + const Word16 vector_length, + Word16 *scale_factor ); -void Log10OfEnergy_x( const Word16 *s, Word32 *enerlogval, const Word16 len ); +void Log10OfEnergy_x( + const Word16 *s, + Word32 *enerlogval, + const Word16 len ); -void concealment_update2_x( const Word16 *outx_new, void *_plcInfo, const Word16 FrameSize ); +void concealment_update2_x( + const Word16 *outx_new, + T_PLCInfo_HANDLE hPlcInfo, + const Word16 FrameSize ); -Word16 ffr_getSfWord16( Word16 *vector, /*!< Pointer to i vector */ - Word16 len ); +Word16 ffr_getSfWord16( + Word16 *vector, /*!< Pointer to i vector */ + Word16 len ); -void waveform_adj2_fix( Word16 *overlapbuf, - Word16 *outx_new, - Word16 *data_noise, - Word16 *outx_new_n1, - Word16 *nsapp_gain, - Word16 *nsapp_gain_n, - Word16 *recovery_gain, - Word16 step_concealgain, - Word16 pitch, - Word16 Framesize, - Word16 delay, - Word16 bfi_cnt, - Word16 bfi ); +void waveform_adj2_fix( + T_PLCInfo_HANDLE hPlcInfo, + Word16 *overlapbuf, + Word16 *outx_new, + const Word16 delay, + const Word16 bfi_cnt, + const Word16 bfi ); -void concealment_signal_tuning_fx( Word16 bfi, - Word16 curr_mode, - Word16 *outx_new_fx, - void *_plcInfo, - Word16 nbLostCmpt, - Word16 pre_bfi, - Word16 *OverlapBuf_fx, - Word16 past_core_mode, - Word16 *outdata2_fx, - Decoder_State *st ); +void concealment_signal_tuning_fx( + Decoder_State *st, + const Word16 bfi, + Word16 *outx_new_fx /*Qoutx_new_fx*/, + const Word16 past_core ); -// TonalComponentDetect.c -/* Detect tonal components in the lastMDCTSpectrum, use - * secondLastPowerSpectrum for the precise location of the peaks and - * store them in indexOfTonalPeak. Updates lowerIndex, upperIndex, - * pNumIndexes accordingly. */ void DetectTonalComponents( Word16 indexOfTonalPeak[], Word16 lowerIndex[], @@ -6378,12 +6452,6 @@ void DetectTonalComponents( #endif ); -/* When called, the tonal components are already stored in - * indexOfTonalPeak. Detect tonal components in the lastMDCTSpectrum, - * use secondLastPowerSpectrum for the precise location of the peaks and - * then keep in indexOfTonalPeak only the tonal components that are - * again detected Updates indexOfTonalPeak, lowerIndex, upperIndex, - * phaseDiff, phases, pNumIndexes accordingly. */ void RefineTonalComponents( Word16 indexOfTonalPeak[], Word16 lowerIndex[], @@ -6424,6 +6492,7 @@ void ivas_RefineTonalComponents_fx( const Word16 scaleFactors_exp[], const Word16 scaleFactors_max_e, const Word32 secondLastPowerSpectrum[], + const Word16 secondLastPowerSpectrum_e, const Word16 nSamples, const Word16 nSamplesCore, const Word16 floorPowerSpectrum, /* i: lower limit for power spectrum bins */ @@ -6481,26 +6550,13 @@ void TonalMDCTConceal_SaveFreqSignal_ivas_fx( const Word16 gain_tcx_exp, const Word16 infoIGFStartLine ); -/* The call to TonalMDCTConceal_UpdateState() should be called after TonalMDCTConceal_Apply. */ -TONALMDCTCONCEAL_ERROR TonalMDCTConceal_UpdateState( TonalMDCTConcealPtr self, - Word16 nNewSamples, - Word32 pitchLag, - Word16 badBlock, - Word8 tonalConcealmentActive ); - -/* The call to TonalMDCTConceal_SaveTimeSignal() should be at the - * place where the TD signal corresponds to the FD signal stored with TonalMDCTConceal_SaveFreqSignal. */ -void TonalMDCTConceal_SaveTimeSignal( - TonalMDCTConcealPtr hTonalMDCTConc, - Word16 *timeSignal, - Word16 nNewSamples ); +void TonalMDCTConceal_UpdateState( + TonalMDCTConcealPtr self, + Word16 nNewSamples, + Word32 pitchLag, + Word16 badBlock, + Word8 tonalConcealmentActive ); -/* Calculates MDST, power spectrum and performs peak detection. - * Uses the TD signal in pastTimeSignal; if pastTimeSignal is NULL, uses the - * TD signal stored using TonalMDCTConceal_SaveTimeSignal. If the - * second last frame was also lost, it is expected that pastTimeSignal - * could hold a signal somewhat different from the one stored in - * TonalMDCTConceal_SaveTimeSignal (e.g. including fade-out).*/ void TonalMDCTConceal_Detect( const TonalMDCTConcealPtr self, /*IN */ const Word32 pitchLag, /*IN */ @@ -6512,9 +6568,6 @@ void TonalMDCTConceal_Detect( #endif ); -/* Conceals the lost frame using the FD signal previously stored using - * TonalMDCTConceal_SaveFreqSignal. Stores the concealed harmonic part of - * the signal in mdctSpectrum, the rest of the spectrum is unchanged. */ void TonalMDCTConceal_Apply( const TonalMDCTConcealPtr hTonalMDCTConc, /*IN */ Word32* mdctSpectrum, /*IN/OUT*/ @@ -6530,9 +6583,6 @@ void TonalMDCTConceal_Apply_ivas_fx( Word16 mdctSpectrum_exp[L_FRAME48k], /*IN */ const PsychoacousticParameters *psychParamsCurrent ); -/* Conceals the lost frame using the FD signal previously stored using - * TonalMDCTConceal_SaveFreqSignal. Stores the concealed noise part of - * the signal in mdctSpectrum, the rest of the spectrum is unchanged. */ void TonalMDCTConceal_InsertNoise_ivas_fx( const TonalMDCTConcealPtr hTonalMDCTConc, /*IN */ Word32 *mdctSpectrum, @@ -6547,10 +6597,6 @@ void TonalMDCTConceal_InsertNoise_ivas_fx( const Word16 cngLevelBackgroundTrace_e, const Word16 crossOverFreq ); - -/* Conceals the lost frame using the FD signal previously stored using - * TonalMDCTConceal_SaveFreqSignal. Stores the concealed noise part of - * the signal in mdctSpectrum, the rest of the spectrum is unchanged. */ void TonalMDCTConceal_InsertNoise( const TonalMDCTConcealPtr hTonalMDCTConc, /*IN */ Word32 *mdctSpectrum, /*OUT*/ @@ -6563,24 +6609,12 @@ void TonalMDCTConceal_InsertNoise( const Word16concealment_noise[L_FRAME48k], #endif const Word16 crossOverFreq ); -/* Conceals the lost frame using the FD signal previously stored using - * TonalMDCTConceal_SaveFreqSignal. Stores the concealed harmonic part of - * the signal in mdctSpectrum, the rest of the spectrum is unchanged. */ -void TonalMDCTConceal_Apply( - const TonalMDCTConcealPtr hTonalMDCTConc, /*IN */ - Word32* mdctSpectrum, /*IN/OUT*/ - Word16* mdctSpectrum_exp /*IN */ -#ifdef IVAS_CODE_MDCT_GSHAPE - , const PsychoacousticParameters* psychParamsCurrent) -#endif - ); -/* The call to TonalMDCTConceal_SaveTimeSignal() should be at the - * place where the TD signal corresponds to the FD signal stored with TonalMDCTConceal_SaveFreqSignal. */ void TonalMDCTConceal_SaveTimeSignal( TonalMDCTConcealPtr hTonalMDCTConc, Word16 *timeSignal, Word16 nNewSamples ); + void TonalMDCTConceal_SaveTimeSignal_ivas_fx( TonalMDCTConcealPtr hTonalMDCTConc, Word16 *timeSignal, @@ -6612,12 +6646,7 @@ void hf_synth_fx( Word16 *synth, /* i : 12.8kHz synthesis signal Q_syn2*/ Word16 *synth16k, /* o : 16kHz synthesis signal Q_syn2*/ const Word16 Q_exc, /* i : excitation scaling */ - const Word16 Q_syn2, /* i : synthesis scaling */ - Word16 *delay_syn_hf, /*i/o: HF synthesis memory Q_syn2*/ - Word16 *memExp1, /* o : HF excitation exponent */ - Word16 *mem_hp_interp, /* i/o: interpol. memory Qx*/ - const Word16 extl, /* i : flag indicating BWE Q0*/ - const Word16 CNG_mode /* i : CNG_mode Q0*/ + const Word16 Q_syn2 /* i : synthesis scaling */ ); void hf_synth_amr_wb_init_fx( @@ -7127,30 +7156,21 @@ void dec_pit_exc_fx( const Word16 nb_subfr_fx /* i : Number of subframe considered */ , Word16 *gain_buf /*Q14*/ -#ifdef ADD_LRTD - , - const Word16 tdm_Pitch_reuse_flag, /* i : primary channel pitch reuse flag */ - const Word16 tdm_Pri_pitch_buf[] /* i : primary channel pitch buffer */ -#endif ); void dec_pit_exc_ivas_fx( - Decoder_State *st_fx, /* i/o: decoder static memory */ - const Word16 *Aq_fx, /* i : LP filter coefficient */ - const Word16 coder_type, /* i : coding type */ - const Word16 Es_pred_fx, /* i : predicted scaled innov. energy */ - Word16 *pitch_buf_fx, /* o : floating pitch values for each subframe */ - Word16 *code_fx, /* o : innovation */ - Word16 *exc_fx, /* i/o: adapt. excitation exc */ - Word16 *bwe_exc_fx, /* o : excitation for SWB TBE */ - const Word16 nb_subfr_fx /* i : Number of subframe considered */ - , - Word16 *gain_buf /*Q14*/ -#if 1 // def ADD_LRTD - , + Decoder_State *st_fx, /* i/o: decoder static memory */ + const Word16 *Aq_fx, /* i : LP filter coefficient */ + const Word16 coder_type, /* i : coding type */ + const Word16 Es_pred_fx, /* i : predicted scaled innov. energy */ + Word16 *pitch_buf_fx, /* o : floating pitch values for each subframe */ + Word16 *code_fx, /* o : innovation */ + Word16 *exc_fx, /* i/o: adapt. excitation exc */ + Word16 *bwe_exc_fx, /* o : excitation for SWB TBE */ + const Word16 nb_subfr_fx, /* i : Number of subframe considered */ + Word16 *gain_buf, /*Q14*/ const Word16 tdm_Pitch_reuse_flag, /* i : primary channel pitch reuse flag */ const Word16 tdm_Pri_pitch_buf[] /* i : primary channel pitch buffer */ -#endif ); // pit_dec_fx.c @@ -7205,28 +7225,24 @@ Word16 pit_decode_fx( /* o : floating pitch value Word16 *T0_min, /* i/o: delta search min for sf 2 & 4 */ Word16 *T0_max, /* i/o: delta search max for sf 2 & 4 */ const Word16 L_subfr /* i : subframe length */ -#ifdef ADD_LRTD - , - const Word16 tdm_Pitch_reuse_flag, /* i : primary channel pitch reuse flag */ - const Word16 tdm_Pri_pitch_buf[] /* i : primary channel pitch buffer */ -#endif ); -Word16 pit_decode_ivas_fx( /* o : floating pitch value */ - Decoder_State *st_fx, /* i/o: decoder state structure */ - const Word32 core_brate, /* i : core bitrate */ - const Word16 Opt_AMR_WB, /* i : flag indicating AMR-WB IO mode */ - const Word16 L_frame, /* i : length of the frame */ - Word16 i_subfr, /* i : subframe index */ - const Word16 coder_type, /* i : coding type */ - Word16 *limit_flag, /* i/o: restrained(0) or extended(1) Q limits */ - Word16 *T0, /* o : close loop integer pitch */ - Word16 *T0_frac, /* o : close loop fractional part of the pitch */ - Word16 *T0_min, /* i/o: delta search min for sf 2 & 4 */ - Word16 *T0_max, /* i/o: delta search max for sf 2 & 4 */ - const Word16 L_subfr, /* i : subframe length */ - const Word16 tdm_Pitch_reuse_flag, /* i : primary channel pitch reuse flag */ - const Word16 tdm_Pri_pitch_buf[] /* i : primary channel pitch buffer Q6 */ +/* o : floating pitch value */ +Word16 pit_decode_ivas_fx( + Decoder_State *st_fx, /* i/o: decoder state structure */ + const Word32 core_brate, /* i : core bitrate */ + const Word16 Opt_AMR_WB, /* i : flag indicating AMR-WB IO mode */ + const Word16 L_frame, /* i : length of the frame */ + Word16 i_subfr, /* i : subframe index */ + const Word16 coder_type, /* i : coding type */ + Word16 *limit_flag, /* i/o: restrained(0) or extended(1) Q limits */ + Word16 *T0, /* o : close loop integer pitch */ + Word16 *T0_frac, /* o : close loop fractional part of the pitch */ + Word16 *T0_min, /* i/o: delta search min for sf 2 & 4 */ + Word16 *T0_max, /* i/o: delta search max for sf 2 & 4 */ + const Word16 L_subfr, /* i : subframe length */ + const Word16 tdm_Pitch_reuse_flag, /* i : primary channel pitch reuse flag */ + const Word16 tdm_Pri_pitch_buf[] /* i : primary channel pitch buffer Q6 */ ); void pit_Q_dec_fx( @@ -7607,15 +7623,6 @@ void perform_noise_estimation_dec_fx( float *power_spectrum, #endif HANDLE_FD_CNG_DEC hFdCngDec /* i/o: FD_CNG structure containing all buffers and variables */ -#ifdef IVAS_CODE_CNG - , - const Word16 element_mode, /* i : element mode */ - const Word16 bwidth, /* i : audio bandwidth */ - const Word16 L_frame, /* i : frame length at internal Fs */ - const Word16 last_L_frame, /* i : frame length of the last frame at internal Fs */ - const Word32 last_core_brate, /* i : previous frame core bitrate */ - const Word16 VAD /* i : VAD flag in the decoder */ -#endif ); void perform_noise_estimation_dec_ivas_fx( @@ -7728,19 +7735,12 @@ Word16 WB_BWE_gain_deq_fx( ); Word16 wb_bwe_dec_fx( -#ifdef ADD_IVAS_BWE - const Word16 output[], /* i : suntehsis @ internal Fs */ -#endif - Word16 *synth_fx, /* i/o: ACELP core synthesis/final synthesis Q0/Qpost */ - Word16 *hb_synth_fx, /* o : SHB synthesis/final synthesis Q_syn_hb */ -#ifdef ADD_IVAS_BWE - const Word16 use_cldfb_for_dft, /* i : flag to use of CLDFB for DFT Stereo */ -#endif + Word16 *synth_fx, /* i/o: ACELP core synthesis/final synthesis Q0/Qpost */ + Word16 *hb_synth_fx, /* o : SHB synthesis/final synthesis Q_syn_hb */ const Word16 output_frame, /* i : frame length */ Word16 *voice_factors_fx, /* i : voicing factors Q15 */ const Word16 pitch_buf_fx[], /* i : pitch buffer Q6 */ - Decoder_State *st_fx /* i/o: decoder state structure */ - , + Decoder_State *st_fx, /* i/o: decoder state structure */ Word16 *Qpost ); Word16 swb_bwe_gain_deq_fx( /* o : BWE class */ @@ -7752,18 +7752,11 @@ Word16 swb_bwe_gain_deq_fx( /* o : BWE class const Word16 hqswb_clas /* i : HQ BWE class */ ); -Word16 swb_bwe_dec_fx( /*o :Q_syn_hb*/ -#ifdef ADD_IVAS_BWE - const Word16 output[], /* i : suntehsis @ internal Fs */ -#endif - Decoder_State *st_fx, /* i/o: decoder state structure */ - Word16 *synth_fx, /* i/o: ACELP core synthesis/final synthesis (might be rescaled inside wtda() ) Q0/Qpost */ - Word16 *hb_synth_fx, /* o : SHB synthesis/final synthesis Q_syn_hb */ -#ifdef ADD_IVAS_BWE - const Word16 use_cldfb_for_dft, /* i : flag to use of CLDFB for DFT Stereo */ -#endif - const Word16 output_frame /* i : frame length */ - , +Word16 swb_bwe_dec_fx( /*o :Q_syn_hb*/ + Decoder_State *st_fx, /* i/o: decoder state structure */ + Word16 *synth_fx, /* i/o: ACELP core synthesis/final synthesis (might be rescaled inside wtda() ) Q0/Qpost */ + Word16 *hb_synth_fx, /* o : SHB synthesis/final synthesis Q_syn_hb */ + const Word16 output_frame, /* i : frame length */ Word16 *Qpost ); void fd_bwe_dec_init( @@ -8039,22 +8032,12 @@ ivas_error core_switching_pre_dec_fx( ); ivas_error core_switching_post_dec_fx( - Decoder_State *st_fx, /* i/o: decoder state structure */ - Word16 *synth, /* i/o: output synthesis Qsynth Qsynth*/ -#ifdef IVAS_CODE_SWITCHING - float *output, /* i/o: LB synth/upsampled LB synth */ - float output_mem[], /* i : OLA memory from last TCX/HQ frame */ - const IVAS_FORMAT ivas_format, /* i : IVAS format */ - const Word16 use_cldfb_for_dft, /* i : flag to use of CLDFB for DFT Stereo */ -#endif + Decoder_State *st_fx, /* i/o: decoder state structure */ + Word16 *synth, /* i/o: output synthesis Qsynth Qsynth*/ const Word16 output_frame, /* i : frame length Q0*/ const Word16 core_switching_flag, /* i : ACELP->HQ switching flag Q0*/ -#ifdef IVAS_CODE_SWITCHING - const Word16 sba_dirac_stereo_flag, /* i : signal stereo output for SBA DirAC */ - const Word16 nchan_out, /* i : number of output channels */ -#endif - const Word16 last_element_mode, /* i : element mode of previous frame Q0*/ - Word16 *Qsynth /* i/o: Scaling of ACELP exit (Q_syn2-1) or HQ exit (Qsynth); changes after this function */ + const Word16 last_element_mode, /* i : element mode of previous frame Q0*/ + Word16 *Qsynth /* i/o: Scaling of ACELP exit (Q_syn2-1) or HQ exit (Qsynth); changes after this function */ ); ivas_error core_switching_post_dec_ivas_fx( @@ -8062,7 +8045,6 @@ ivas_error core_switching_post_dec_ivas_fx( Word16 *synth, /* i/o: output synthesis Qsynth*/ Word32 *output_fx, /* i/o: LB synth/upsampled LB synth Q4*/ Word16 output_mem_fx[], /* i : OLA memory from last TCX/HQ frame Qx*/ - const IVAS_FORMAT ivas_format, /* i : IVAS format */ const Word16 use_cldfb_for_dft, /* i : flag to use of CLDFB for DFT Stereo Q0*/ const Word16 output_frame, /* i : frame length Q0*/ const Word16 core_switching_flag, /* i : ACELP->HQ switching flag Q0*/ @@ -8566,7 +8548,6 @@ Word16 FEC_synchro_exc_fx( /* o : do_WI flag // dec_uv_fx.c void decod_unvoiced_fx( Decoder_State *st_fx, /* i/o: decoder static memory */ - const Word16 *Aq_fx, /* Q12 i : LP filter coefficient */ const Word16 coder_type, /* Q0 i : coding type */ Word16 *tmp_noise_fx, /* Q5 o : long term temporary noise energy */ Word16 *pitch_buf_fx, /* Q6 o : floating pitch values for each subframe */ @@ -8744,10 +8725,6 @@ Word16 dec_acelp_tcx_frame_fx( Word32 bwe_exc_extended[], /* i/o: bandwidth extended excitation */ Word16 *voice_factors, /* o : voicing factors */ Word16 pitch_buf[] /* o : floating pitch for each subframe */ -#ifdef IVAS_CODE_CNG - , - STEREO_CNG_DEC_HANDLE hStereoCng /* i : stereo CNG handle */ -#endif ); // dec_LPD_fx.c @@ -9610,9 +9587,9 @@ ivas_error acelp_core_dec_fx( // evs_dec_fx.c ivas_error evs_dec_fx( - Decoder_State *st_fx, /* i/o : Decoder state structure */ - Word16 output_sp[], /* o : output synthesis signal */ - frameMode_fx frameMode /* i : Decoder frame mode */ + Decoder_State *st_fx, /* i/o : Decoder state structure */ + Word16 output_sp[], /* o : output synthesis signal */ + FRAME_MODE frameMode /* i : Decoder frame mode */ ); void fft_cldfb_fx( @@ -9639,13 +9616,6 @@ void set32_fx( const Word16 N /* i : Lenght of the vector */ ); -void delay_signal_fx( - Word32 x[], /* i/o: signal to be delayed */ - const Word16 len, /* i : length of the input signal */ - Word32 mem[], /* i/o: synchronization memory */ - const Word16 delay /* i : delay in samples */ -); - void delay_signal_q_adj_fx( Word32 x[], /* i/o: signal to be delayed */ const Word16 len, /* i : length of the input signal */ @@ -9768,10 +9738,14 @@ void cldfbAnalysis_ivas_fx( ); void cldfbSynthesis_ivas_fx( - Word32 **realBuffer_fx, /* i : real values Qx*/ - Word32 **imagBuffer_fx, /* i : imag values Qx*/ - Word32 *timeOut_fx, /* o : output time domain samples Qx - 1*/ - const Word16 samplesToProcess, /* i : number of processed samples */ + Word32 **realBuffer_fx, /* i : real values Qx*/ + Word32 **imagBuffer_fx, /* i : imag values Qx*/ + Word32 *timeOut_fx, /* o : output time domain samples Qx - 1*/ + const Word16 samplesToProcess, /* i : number of processed samples */ + const Word16 shift, /* i : scale for state buffer */ +#ifdef OPT_AVOID_STATE_BUF_RESCALE + const Word16 out_shift, /* i : scale for output buffer */ +#endif HANDLE_CLDFB_FILTER_BANK h_cldfb /* i : filter bank state */ ); @@ -9783,20 +9757,24 @@ void addBassPostFilter_ivas_fx( Word32 **iAnalysis_fx, HANDLE_CLDFB_FILTER_BANK cldfb ); -Word32 ism_dequant_meta_fx( /* o : Q22*/ - const Word16 idx, /* i : quantizer index */ - const Word32 borders_fx[], /* i : level borders Q22*/ - const Word32 q_step_fx, /* i : quantization step Q22 */ - const Word32 q_step_border_fx, /* i : quantization step at the border Q22*/ - const Word16 cbsize /* i : codebook size */ +/* o : Q22*/ +Word32 ism_dequant_meta_fx( + const Word16 idx, /* i : quantizer index */ + const Word32 borders_fx[], /* i : level borders Q22*/ + const Word32 q_step_fx, /* i : quantization step Q22 */ + const Word32 q_step_border_fx, /* i : quantization step at the border Q22*/ + const Word16 cbsize /* i : codebook size */ ); void save_synthesis_hq_fec_fx( Decoder_State *st, /* i/o: decoder state structure */ + const Word16 synth_fx[], /* i : decoded synthesis (EVS) */ const Word32 output_fx[], /* i : decoded synthesis */ const Word16 output_frame, /* i : decoded synthesis */ + const Word16 Qpostd, /* i : Q value of delayed signal */ CPE_DEC_HANDLE hCPE /* i : CPE decoder structure */ ); + void calculate_nbits_meta_fx( const Word16 nchan_ism, Word32 q_energy_ratio_ism[MAX_PARAM_SPATIAL_SUBFRAMES][MASA_FREQUENCY_BANDS][MAX_NUM_OBJECTS], // Q30 @@ -9816,8 +9794,8 @@ ivas_error openCldfb_ivas_fx( HANDLE_CLDFB_FILTER_BANK *h_cldfb, /* i/o: filter bank handle */ CLDFB_TYPE type, /* i : analysis or synthesis */ const Word32 sampling_rate, /* i : sampling rate */ - CLDFB_PROTOTYPE prototype /* i : CLDFB version (1.25ms/5ms delay) */ -); + CLDFB_PROTOTYPE prototype, /* i : CLDFB version (1.25ms/5ms delay) */ + const Word16 enc_dec ); /* i : encoder/decoder flag */ Word32 rand_gauss_fx( Word32 *x, @@ -9841,33 +9819,6 @@ void generate_masking_noise_dirac_ivas_fx( Word16 *q_cldfb ); // modif_fs/c -void interpolate_3_over_2_allpass_32( - const Word32 *input, /* i : input signal Qx */ - const int16_t len, /* i : number of input samples */ - Word32 *out, /* o : output signal */ - Word32 *mem /* i/o: memory */ -); - -void interpolate_3_over_1_allpass_32( - const Word32 *input, /* i : input signal */ - const int16_t len, /* i : number of input samples */ - Word32 *out, /* o : output signal */ - Word32 *mem /* i/o: memory */ -); -void Decimate_allpass_steep_fx32( - const Word32 *in, /* i : input array of size N */ - Word32 *mem, /* i/o: memory */ - const Word16 N, /* i : number of input samples */ - Word32 *out /* o : output array of size N/2 */ -); - -void Interpolate_allpass_steep_32( - const Word32 *in_fx, /* i : input array of size N */ - Word32 *mem_fx, /* i/o: memory */ - const int16_t N, /* i : number of input samples */ - Word32 *out_fx /* o : output array of size 2*N */ -); - void IMDCT_fx( Word32 *x, Word16 x_e, Word16 *old_syn_overl, Word16 *syn_Overl_TDAC, Word16 *xn_buf, const Word16 *tcx_aldo_window_1, const PWord16 *tcx_aldo_window_1_trunc, const PWord16 *tcx_aldo_window_2, const PWord16 *tcx_mdct_window_half, const PWord16 *tcx_mdct_window_minimum, const PWord16 *tcx_mdct_window_trans, Word16 tcx_mdct_window_half_length, Word16 tcx_mdct_window_min_length, Word16 index, Word16 left_rect, Word16 tcx_offset, Word16 overlap, Word16 L_frame, Word16 L_frameTCX, Word16 L_spec_TCX5, Word16 L_frame_glob, Word16 frame_cnt, Word16 bfi, Word16 *old_out, Word16 *Q_old_wtda, Decoder_State *st, Word16 fullbandScale, Word16 *acelp_zir ); void IMDCT_ivas_fx( @@ -10561,15 +10512,15 @@ void floating_point_add( const Word32 my, /* i: mantissa of the adder Q31 */ const Word16 ey /* i: exponent of the adder Q0 */ ); -/*delay_signal_fx is also present*/ -void delay_signal( + +void delay_signal_fx( Word16 x[], /* i/o: signal to be delayed */ const Word16 len, /* i : length of the input signal */ Word16 mem[], /* i/o: synchronization memory */ const Word16 delay /* i : delay in samples */ ); -void delay_signal32( +void delay_signal32_fx( Word32 x[], /* i/o: signal to be delayed */ const Word16 len, /* i : length of the input signal */ Word32 mem[], /* i/o: synchronization memory */ @@ -10907,8 +10858,11 @@ void ProcessStereoIGF_fx( Word16 q_pITFMDCTSpectrum_1, Word16 q_pITFMDCTSpectrum_2, Word32 *pPowerSpectrum_fx[CPE_CHANNELS], /* i/o: MDCT^2 + MDST^2 spectrum, or estimate */ + Word16 exp_pPowerSpectrum_fx[CPE_CHANNELS], /* i/o: exp of pPowerSpectrum_fx */ Word32 *pPowerSpectrumMsInv_fx[CPE_CHANNELS][NB_DIV], /* i : inverse power spectrum */ + Word16 exp_pPowerSpectrumMsInv_fx[CPE_CHANNELS], /* i/o: exp of pPowerSpectrumMsInv_fx */ Word32 *inv_spectrum_fx[CPE_CHANNELS][NB_DIV], /* i : inverse spectrum */ + Word16 exp_inv_spectrum_fx[CPE_CHANNELS], /* i/o: exp of inv_spectrum_fx */ const Word16 frameno, /* i : flag indicating index of current subfr. */ const Word16 sp_aud_decision0, /* i : sp_aud_decision0 */ const Word32 element_brate, /* i : element bitrate */ @@ -10921,8 +10875,11 @@ void IGFEncApplyStereo_fx( const Word16 igfGridIdx, /* i : IGF grid index */ Encoder_State *sts[CPE_CHANNELS], /* i : Encoder state */ Word32 *pPowerSpectrum_fx[CPE_CHANNELS], /* i/o: MDCT^2 + MDST^2 spectrum, or estimate */ + Word16 exp_pPowerSpectrum_fx[CPE_CHANNELS], /* i/o: exp of pPowerSpectrum_fx */ Word32 *pPowerSpectrumMsInv_fx[CPE_CHANNELS][NB_DIV], /* i/o: inverse power spectrum */ + Word16 exp_pPowerSpectrumMsInv_fx[CPE_CHANNELS], /* i/o: exp of pPowerSpectrumMsInv_fx */ Word32 *inv_spectrum_fx[CPE_CHANNELS][NB_DIV], /* i : inverse spectrum */ + Word16 exp_inv_spectrum_fx[CPE_CHANNELS], /* i : exp of inverse spectrum */ const Word16 frameno, /* i : flag indicating index of current subfr. */ const Word16 sp_aud_decision0, /* i : sp_aud_decision0 */ const Word32 element_brate, /* i : element bitrate */ @@ -10979,7 +10936,6 @@ void IGFEncConcatenateBitstream( BSTR_ENC_HANDLE hBstr /* i/o: bitstream handle */ ); -#endif void hq_generic_hf_encoding_fx( const Word32 *coefs_fx, /* i : MDCT coefficients of weighted original */ @@ -11024,33 +10980,31 @@ void lsf_syn_mem_backup_ivas_fx( Word16 *pstreaklen ); ivas_error config_acelp1_IVAS( - const Word16 enc_dec, /* i : encoder/decoder flag */ - const Word32 total_brate, /* i : total bitrate */ - const Word32 core_brate_inp, /* i : core bitrate */ - const Word16 core, /* i : core */ - const Word16 extl, /* i : extension layer */ - const Word32 extl_brate, /* i : extension layer bitrate */ - const Word16 L_frame, /* i : frame length at internal Fs */ - const Word16 GSC_noisy_speech, /* i : GSC on SWB noisy speech flag */ - ACELP_config *acelp_cfg, /* i : ACELP bit-allocation */ - const Word16 signaling_bits, /* i : number of signaling bits */ - const Word16 coder_type, /* i : coder type */ -#ifdef NONBE_FIX_GSC_BSTR + const Word16 enc_dec, /* i : encoder/decoder flag */ + const Word32 total_brate, /* i : total bitrate */ + const Word32 core_brate_inp, /* i : core bitrate */ + const Word16 core, /* i : core */ + const Word16 extl, /* i : extension layer */ + const Word32 extl_brate, /* i : extension layer bitrate */ + const Word16 L_frame, /* i : frame length at internal Fs */ + const Word16 GSC_noisy_speech, /* i : GSC on SWB noisy speech flag */ + ACELP_config *acelp_cfg, /* i : ACELP bit-allocation */ + const Word16 signaling_bits, /* i : number of signaling bits */ + const Word16 coder_type, /* i : coder type */ const Word16 inactive_coder_type_flag, /* i : AVQ (0) or GSC (1) IC flag */ -#endif - const Word16 tc_subfr, /* i : TC subfr ID */ - const Word16 tc_call, /* i : TC call number (0,1,2,3,5(DEC)) */ - Word16 *nBits_es_Pred, /* o : number of bits for Es_pred Q */ - Word16 *unbits, /* o : number of unused bits */ - const Word16 element_mode, /* i : element mode */ - Word16 *uc_two_stage_flag, /* o : flag undicating two-stage UC */ - const Word16 tdm_lp_reuse_flag, /* i : LPC reuse flag (can be 1 only with secondary channel */ - const Word16 tdm_low_rate_mode, /* i : secondary channel low rate mode flag */ - const Word16 idchan, /* i : stereo channel ID */ - const Word16 active_cnt, /* i : Active frame counter */ - const Word16 tdm_Pitch_reuse_flag, /* i : primary channel pitch reuse flag*/ - const Word16 tdm_LRTD_flag, /* i : LRTD stereo mode flag */ - const Word16 GSC_IVAS_mode /* i : GSC IVAS mode */ + const Word16 tc_subfr, /* i : TC subfr ID */ + const Word16 tc_call, /* i : TC call number (0,1,2,3,5(DEC)) */ + Word16 *nBits_es_Pred, /* o : number of bits for Es_pred Q */ + Word16 *unbits, /* o : number of unused bits */ + const Word16 element_mode, /* i : element mode */ + Word16 *uc_two_stage_flag, /* o : flag undicating two-stage UC */ + const Word16 tdm_lp_reuse_flag, /* i : LPC reuse flag (can be 1 only with secondary channel */ + const Word16 tdm_low_rate_mode, /* i : secondary channel low rate mode flag */ + const Word16 idchan, /* i : stereo channel ID */ + const Word16 active_cnt, /* i : Active frame counter */ + const Word16 tdm_Pitch_reuse_flag, /* i : primary channel pitch reuse flag*/ + const Word16 tdm_LRTD_flag, /* i : LRTD stereo mode flag */ + const Word16 GSC_IVAS_mode /* i : GSC IVAS mode */ ); ivas_error push_next_indice( @@ -11104,15 +11058,13 @@ void calculate_hangover_attenuation_gain_ivas_fx( void init_coder_ace_plus_ivas_fx( Encoder_State *st, /* i : Encoder state */ const Word32 last_total_brate, /* i : last total bitrate */ -#ifdef FIX_920_IGF_INIT_ERROR - const Word32 igf_brate, /* i : IGF configuration bitrate */ -#endif - const Word16 MCT_flag /* i : hMCT handle allocated (1) or not (0) */ + const Word32 igf_brate, /* i : IGF configuration bitrate */ + const Word16 MCT_flag /* i : hMCT handle allocated (1) or not (0) */ ); void core_coder_reconfig_ivas_fx( Encoder_State *st, - const int32_t last_total_brate ); + const Word32 last_total_brate ); void core_coder_mode_switch_ivas_fx( Encoder_State *st, /* i/o: encoder state structure */ @@ -11264,3 +11216,714 @@ void WriteToBitstream_ivas_fx( Word16 *pnSize, BSTR_ENC_HANDLE hBstr, Word16 *pnBits ); + + +/*===========================================================================================*/ +/*----------------------------------------------------------------------------------* + * MODE1 prototypes + *----------------------------------------------------------------------------------*/ + +/*! r: inverse square root of input value */ +float inv_sqrt( + const float x /* i : input value */ +); + +/*! r: output random value */ +int16_t own_random( + int16_t *seed /* i/o: random seed */ +); + +/*! r: sign of x (+1/-1) */ +float sign( + const float x /* i : input value of x */ +); + +/*! r: logarithm2 of x */ +float log2_f( + const float x /* i : input value of x */ +); + +int16_t norm_ul_float( + uint32_t UL_var1 ); + +/*! r: sum of all vector elements */ +int16_t sum_s( + const int16_t *vec, /* i : input vector */ + const int16_t lvec /* i : length of input vector */ +); + +/*! r: sum of all vector elements */ +int32_t sum_l( + const int32_t *vec, /* i : input vector */ + const int16_t lvec /* i : length of input vector */ +); + +/*! r: sum of all squared vector elements */ +float sum2_f( + const float *vec, /* i : input vector */ + const int16_t lvec /* i : length of input vector */ +); + +void set_c( + int8_t y[], /* i/o: Vector to set */ + const int8_t a, /* i : Value to set the vector to */ + const int32_t N /* i : Length of the vector */ +); + +void set_s( + int16_t y[], /* i/o: Vector to set */ + const int16_t a, /* i : Value to set the vector to */ + const int16_t N /* i : Lenght of the vector */ +); + +void set_l( + int32_t y[], /* i/o: Vector to set */ + const int32_t a, /* i : Value to set the vector to */ + const int16_t N /* i : Length of the vector */ +); + +void set_f( + float y[], /* i/o: Vector to set */ + const float a, /* i : Value to set the vector to */ + const int16_t N /* i : Lenght of the vector */ +); + +void set_zero_fx( + Word32 *vec, /* o : input vector */ + const Word16 lvec /* i : length of the vector */ +); +void set_zero2_fx( + Word32 *vec, /* o : input vector */ + const Word32 lvec /* i : length of the vector */ +); +void set16_zero_fx( + Word16 *vec, /* o : input vector */ + const Word16 lvec /* i : length of the vector */ +); + +void set_zero( + float *vec, /* o : input vector */ + const int16_t lvec /* i : length of the vector */ +); + +void mvr2r( + const float x[], /* i : input vector */ + float y[], /* o : output vector */ + const int16_t n /* i : vector size */ +); + +void mvs2s( + const int16_t x[], /* i : input vector */ + int16_t y[], /* o : output vector */ + const int16_t n /* i : vector size */ +); + +uint32_t mvr2s( + const float x[], /* i : input vector */ + int16_t y[], /* o : output vector */ + const int16_t n /* i : vector size */ +); + +void mvs2r( + const int16_t x[], /* i : input vector */ + float y[], /* o : output vector */ + const int16_t n /* i : vector size */ +); + +void mvl2l( + const int32_t x[], /* i : input vector */ + int32_t y[], /* o : output vector */ + const int16_t n /* i : vector size */ +); + + +/*! r: index of the maximum value in the input vector */ +int16_t maximum( + const float *vec, /* i : input vector */ + const int16_t lvec, /* i : length of input vector */ + float *max_val /* o : maximum value in the input vector */ +); +/*! r: index of the maximum value in the input vector */ +int16_t maximumAbs( + const float *vec, /* i : input vector */ + const int16_t lvec, /* i : length of input vector */ + float *max_val /* o : maximum value in the input vector */ +); + +Word16 maximumAbs_l( + const Word32 *vec, /* i : input vector */ + const Word16 lvec, /* i : length of input vector */ + Word32 *max_val /* o : maximum value in the input vector */ +); + +/*! r: index of the minimum value in the input vector */ +int16_t minimum( + const float *vec, /* i : input vector */ + const int16_t lvec, /* i : length of input vector */ + float *min_val /* o : minimum value in the input vector */ +); + +/*! r: index of the minimum value in the input vector */ +int16_t minimum_s( + const int16_t *vec, /* i : Input vector */ + const int16_t lvec, /* i : Vector length */ + int16_t *min_val /* o : minimum value in the input vector */ +); + +/*! r: return index with max energy value in vector */ +int16_t emaximum( + const float *vec, /* i : input vector */ + const int16_t lvec, /* i : length of input vector */ + float *ener_max /* o : maximum energy value */ +); + +/*! r: vector mean */ +float mean( + const float *vec, /* i : input vector */ + const int16_t lvec /* i : length of input vector */ +); + +/*! r: dot product of x[] and y[] */ +float dotp( + const float x[], /* i : vector x[] */ + const float y[], /* i : vector y[] */ + const int16_t n /* i : vector length */ +); + +void v_add( + const float x1[], /* i : Input vector 1 */ + const float x2[], /* i : Input vector 2 */ + float y[], /* o : Output vector that contains vector 1 + vector 2 */ + const int16_t N /* i : Vector length */ +); + +void v_sub( + const float x1[], /* i : Input vector 1 */ + const float x2[], /* i : Input vector 2 */ + float y[], /* o : Output vector that contains vector 1 - vector 2 */ + const int16_t N /* i : Vector length */ +); + +/*! r: dequanzited gain */ +float usdequant( + const int16_t idx, /* i : quantizer index */ + const float qlow, /* i : lowest codebook entry (index 0) */ + const float delta /* i : quantization step */ +); + +void sort( + uint16_t *x, /* i/o: Vector to be sorted */ + uint16_t len /* i/o: vector length */ +); + +void sort_l( + Word32 *x, /* i/o: Vector to be sorted */ + Word16 len /* i/o: vector length */ +); + + +ivas_error push_indice( + BSTR_ENC_HANDLE hBstr, /* i/o: encoder bitstream handle */ + int16_t id, /* i : ID of the indice */ + uint16_t value, /* i : value of the quantized indice */ + int16_t nb_bits /* i : number of bits used to quantize the indice */ +); + +ivas_error push_next_indice( + BSTR_ENC_HANDLE hBstr, + UWord16 value, /* i : value of the quantized indice */ + Word16 nb_bits /* i : number of bits used to quantize the indice */ +); + +ivas_error push_next_bits( + BSTR_ENC_HANDLE hBstr, /* i/o: encoder bitstream handle */ + const UWord16 bits[], /* i : bit buffer to pack, sequence of single bits */ + const Word16 nb_bits /* i : number of bits to pack */ +); + +/*! r: maximum number of indices */ +Word16 get_ivas_max_num_indices_fx( + const IVAS_FORMAT ivas_format, /* i : IVAS format */ + const Word32 ivas_total_brate /* i : IVAS total bitrate */ +); + +/*! r: maximum number of indices */ +int16_t get_BWE_max_num_indices( + const int32_t extl_brate /* i : extensiona layer bitrate */ +); + +/*! r: maximum number of indices */ +Word16 get_ivas_max_num_indices_metadata_fx( + const IVAS_FORMAT ivas_format, /* i : IVAS format */ + const Word32 ivas_total_brate /* i : IVAS total bitrate */ +); +ivas_error ind_list_realloc( + INDICE_HANDLE old_ind_list, /* i : pointer to the beginning of the old buffer of indices */ + const int16_t max_num_indices, /* i : new maximum number of allowed indices in the list */ + Encoder_Struct *st_ivas /* i : IVAS encoder structure */ +); + +ivas_error check_ind_list_limits( + BSTR_ENC_HANDLE hBstr /* i/o: encoder bitstream handle */ +); + +void move_indices( + INDICE_HANDLE old_ind_list, /* i/o: old location of indices */ + INDICE_HANDLE new_ind_list, /* i/o: new location of indices */ + const int16_t nb_indices /* i : number of moved indices */ +); + +/*! r: index of the indice in the list, -1 if not found */ +int16_t find_indice( + BSTR_ENC_HANDLE hBstr, /* i : encoder bitstream handle */ + const int16_t id, /* i : ID of the indice */ + uint16_t *value, /* o : value of the quantized indice */ + int16_t *nb_bits /* o : number of bits used to quantize the indice */ +); + +/*! r: number of deleted indices */ +uint16_t delete_indice( + BSTR_ENC_HANDLE hBstr, /* i/o: encoder bitstream handle */ + const int16_t id /* i : ID of the indice */ +); + +/*! r: value of the indice */ +uint16_t get_next_indice( + Decoder_State *st, /* i/o: decoder state structure */ + int16_t nb_bits /* i : number of bits that were used to quantize the indice */ +); + +/*! r: value of the indice */ +uint16_t get_next_indice_1( + Decoder_State *st /* i/o: decoder state structure */ +); + +void get_next_indice_tmp( + Decoder_State *st, /* o : decoder state structure */ + int16_t nb_bits /* i : number of bits that were used to quantize the indice */ +); + +/*! r: value of the indice */ +uint16_t get_indice( + Decoder_State *st, /* i/o: decoder state structure */ + int16_t pos, /* i : absolute position in the bitstream */ + int16_t nb_bits /* i : number of bits that were used to quantize the indice */ +); + +void reset_indices_dec( + Decoder_State *st /* i/o: decoder state structure */ +); + +Word16 rate2EVSmode_float( + const Word32 brate, /* i : bitrate */ + int16_t *is_amr_wb /* o : (flag) does the bitrate belong to AMR-WB? Can be NULL */ +); + + +/*! r: 1 = OK, 0 = something wrong */ +ivas_error read_indices_fx( + Decoder_Struct *st_ivas, /* i/o: IVAS decoder structure */ + UWord16 bit_stream[], /* i : bitstream buffer */ + UWord16 num_bits, /* i : number of bits in bitstream */ + Word16 *prev_ft_speech, + Word16 *CNG, + Word16 bfi /* i : bad frame indicator */ +); + + +void ivas_set_bitstream_pointers( + Decoder_Struct *st_ivas /* i/o: IVAS decoder structure */ +); + +Decoder_State **reset_elements( + Decoder_Struct *st_ivas /* i/o: IVAS decoder structure */ +); + +void mdct_switching_dec_fx( + Decoder_State *st /* i/o: decoder state structure */ +); + +int16_t print_disclaimer( + FILE *fPtr ); + +void fft_rel( + float x[], /* i/o: input/output vector */ + const int16_t n, /* i : vector length */ + const int16_t m /* i : log2 of vector length */ +); + +void preemph_ivas_fx( + Word32 *signal, /* i/o: signal Qx*/ + const Word16 mu, /* i : preemphasis factor Q15*/ + const Word16 L, /* i : vector size Q0*/ + Word32 *mem /* i/o: memory (x[-1]) Qx*/ +); + +void create_offset( + UWord32 *offset_scale1, + UWord32 *offset_scale2, + const int16_t mode, + const int16_t prediction_flag ); + +void BASOP_cfft_ivas( + Word32 *re, /* i/o: real part */ + Word32 *im, /* i/o: imag part */ + Word16 s, /* i : stride real and imag part */ + Word16 *scale /* i : scalefactor */ +); + +Word32 ar_div_ivas( + Word32 num, + Word32 denum ); + +Word32 Mult_32_16( + Word32 a, + Word16 b ); + +Word32 Mult_32_32( + Word32 a, + Word32 b ); + + +void bit_allocation_second_fx2( + Word32 *Rk, + Word32 *Rk_sort, + Word16 BANDS, + const Word16 *band_width, + Word16 *k_sort, + Word16 *k_num, + const Word16 *p2a_flags, + const Word16 p2a_bands, + const Word16 *last_bitalloc, + const Word16 input_frame ); + +void bit_allocation_second_fx2( + Word32 *Rk, + Word32 *Rk_sort, + Word16 BANDS, + const Word16 *band_width, + Word16 *k_sort, + Word16 *k_num, + const Word16 *p2a_flags, + const Word16 p2a_bands, + const Word16 *last_bitalloc, + const Word16 input_frame ); + +#ifdef DEBUGGING +void read_next_force( + int16_t *force, /* i/o: force value (0/1, 0 = speech, 1 = music)*/ + FILE *f_force, /* i : force switching profile (0 if N/A) */ + int32_t *force_profile_cnt /* i/o: counter of frames for force switching profile file */ +); +#endif + +ivas_error init_encoder_ivas_fx( + Encoder_State *st, /* i/o: state structure */ + Encoder_Struct *st_ivas, /* i/o: encoder state structure */ + const Word16 idchan, /* i : channel ID */ + const Word16 var_SID_rate_flag, /* i : flag for variable SID update rate */ + const Word16 interval_SID, /* i : interval for SID update */ + const Word16 vad_only_flag, /* i : flag to indicate front-VAD structure */ + const ISM_MODE ism_mode, /* i : ISM mode */ + const Word32 element_brate /* i : element bitrate */ +); + +ivas_error acelp_core_enc_ivas_fx( + Encoder_State *st, /* i/o: encoder state structure */ + const Word16 inp[], /* i : input signal of the current frame Q_new*/ + Word16 A[NB_SUBFR16k * ( M + 1 )], /* i : A(z) unquantized for the 4 subframes Q12*/ + Word16 Aw[NB_SUBFR16k * ( M + 1 )], /* i : weighted A(z) unquant. for subframes Q12*/ + const Word32 epsP[M + 1], /* i : LP prediction errors Qx*/ + Word16 lsp_new[M], /* i : LSPs at the end of the frame Q15*/ + Word16 lsp_mid[M], /* i : LSPs in the middle of the frame Q15*/ + const Word16 vad_hover_flag, /* i : VAD hangover flag Q0*/ + const Word16 attack_flag, /* i : attack flag (GSC or TC) Q0*/ + Word32 bwe_exc_extended_fx[], /* i/o: bandwidth extended excitation st->prev_Q_bwe_exc*/ + Word16 *voice_factors_fx, /* o : voicing factors Q15*/ + Word16 old_syn_12k8_16k[], /* o : intermediate ACELP synthesis at 12.8kHz or 16kHz to be used by SWB BWE q_old_syn_12k8_16*/ + Word16 *q_old_syn_12k8_16, + Word16 pitch_buf[NB_SUBFR16k], /* o : floating pitch for each subframe Q6*/ + Word16 *unbits, /* o : number of unused bits Q0*/ + STEREO_TD_ENC_DATA_HANDLE hStereoTD, /* i/o: TD stereo encoder handle */ + Word16 tdm_lsfQ_PCh[M], /* i : Q LSFs for primary channel X2.56*/ + Word16 Q_new ); + +void flip_and_downmix_generic_fx32( + Word32 input[], /* i : input spectrum Qx*/ + Word32 output[], /* o : output spectrum Qx*/ + const Word16 length, /* i : length of spectra */ + Word32 mem1_ext[HILBERT_ORDER1], /* i/o: memory Qx*/ + Word32 mem2_ext[2 * HILBERT_ORDER2], /* i/o: memory Qx*/ + Word32 mem3_ext[2 * HILBERT_ORDER2], /* i/o: memory Qx*/ + Word16 *phase_state /* i/o: Phase state in case frequency isn't multiple of 50 Hz */ +); + +Word16 quant_2p_2N1_fx( /* o: return (2*N)+1 bits */ + const Word16 pos1, /* i: position of the pulse 1 */ + const Word16 pos2, /* i: position of the pulse 2 */ + const Word16 N /* i: number of bits FOR position */ +); + +void bands_and_bit_alloc_ivas_fx( + const Word16 cor_strong_limit, /* i : HF correlation */ + const Word16 noise_lev, /* i : dwn scaling factor */ + const Word32 core_brate, /* i : core bit rate */ + const Word16 Diff_len, /* i : Lenght of the difference signal (before pure spectral)*/ + const Word16 bits_used, /* i : Number of bit used before frequency Q */ + Word16 *bit, /* i/o: Number of bit allowed for frequency quantization */ + const Word16 *Ener_per_bd_iQ, /* i/o: Quantized energy vector */ + Word16 *max_ener_band, /* o : Sorted order */ + Word16 *out_bits_per_bands, /* i/o: Number of bit allowed per allowed subband Q3 */ + Word16 *nb_subbands, /* o : Number of subband allowed */ + const Word16 *exc_diff, /* i : Difference signal to quantize (encoder side only) */ + Word16 *concat_in, /* o : Concatened PVQ's input vector (encoder side only) */ + Word16 *pvq_len, /* o : Number of bin covered with the PVQ */ + const Word16 coder_type, /* i : coding type */ + const Word16 bwidth, /* i : input signal bandwidth */ + const Word16 GSC_noisy_speech, /* i : GSC noisy speech flag */ + const Word16 L_frame, /* i : frame length */ + const Word16 element_mode, /* i : element mode */ + const Word16 GSC_IVAS_mode /* i : GSC IVAS mode */ +); + +void ivas_find_wsp_fx( + const Word16 L_frame, /* i : length of the frame Q0*/ + const Word16 L_subfr, /* i : length of subframe Q0*/ + const Word16 nb_subfr, /* i : number of subframes Q0*/ + const Word16 *A_fx, + /* i : A(z) filter coefficients */ // Q12 + Word16 *Aw_fx, + /* o : weighted A(z) filter coefficients */ // Q12 + const Word16 *speech_fx, + /* i : pointer to the denoised speech frame */ // Q_new + const Word16 tilt_fact, + /* i : tilt factor */ // Q15 + Word16 *wsp_fx, + /* o : poitnter to the weighted speech frame */ // Q_new + Word16 *mem_wsp_fx, + /* i/o: W(Z) denominator memory */ // Q_new + const Word16 gamma, + /* i : weighting factor */ // Q15 + const Word16 L_look /* i : look-ahead Q0*/ +); + +Word16 RCcontextMapping_encode2_estimate_bandWise_start_fx( + Word16 *x, /* Q0 */ + const Word16 nt, /* Q0 */ + const Word16 target, /* Q0 */ + HANDLE_RC_CONTEXT_MEM hContextMem ); + +Word16 RCcontextMapping_encode2_estimate_bandWise_fx( + Word16 *x, /* Q0 */ + const Word16 start_line, /* Q0 */ + const Word16 end_line, /* Q0 */ + HANDLE_RC_CONTEXT_MEM hContextMem /* Q0 */ +); + + +/*! r: Q15 */ +Word16 expfp_evs_fx( + const Word16 x, /* i : mantissa Q15-e */ + const Word16 x_e /* i : exponent Q0 */ +); + + +void tcx_arith_render_envelope_ivas_fx( + const Word16 A_ind[], /* i : LPC coefficients of signal envelope Q12*/ + const Word16 L_frame, /* i : number of spectral lines Q0*/ + const Word16 L_spec, /* i : length of the coded spectrum Q0*/ + const Word16 preemph_fac, /* i : pre-emphasis factor Q15*/ + const Word16 gamma_w, /* i : A_ind -> weighted envelope factor Q15*/ + const Word16 gamma_uw, /* i : A_ind -> non-weighted envelope factor Q14*/ + Word32 env[] /* o : shaped signal envelope Q16*/ +); + +void tcx_arith_decode_envelope_ivas_fx( + Decoder_State *st, /* i/o: coder state */ + Word32 q_spectrum[], /* o : quantised MDCT coefficients */ + Word16 *q_spectrum_e, /* o : MDCT exponent */ + const Word16 L_frame, /* i : frame or MDCT length */ + Word16 L_spec, /* i : length w/o BW limitation */ + const Word16 A_ind[], /* i : quantised LPC coefficients */ + const Word16 target_bits, /* i : number of available bits */ + Word16 prm[], /* i : bitstream parameters */ + const Word16 use_hm, /* i : use HM in current frame? */ + const Word16 prm_hm[], /* i : HM parameter area */ + Word16 tcxltp_pitch, /* i : TCX LTP pitch in FD, -1 if n/a*/ + Word16 *arith_bits, /* o : bits used for ari. coding */ + Word16 *signaling_bits, /* o : bits used for signaling */ + const Word16 low_complexity /* i : low-complexity flag */ +); + + +void UnmapIndex_fx( + const Word16 PeriodicityIndex, /* Q0 */ + const Word16 Bandwidth, /* Q0 */ + const Word16 LtpPitchLag, /* Q0 */ + const Word8 SmallerLags, /* Q0 */ + Word16 *FractionalResolution, /* Q0 */ + Word32 *Lag /* Q0 */ +); + +#define GET_ADJ( T, L ) GET_ADJ2( T, L, *FractionalResolution ) +#define GET_ADJ2( T, L, F ) ( ( ( L ) << ( F ) ) - ( T ) ) + + +Word32 tcx_hm_render_fx( + const Word32 lag, /* i: pitch lag Q0 */ + const Word16 fract_res, /* i: fractional resolution of the lag Q0 */ + Word16 p[] /* o: harmonic model Q13 */ +); + + +void tcx_hm_modify_envelope_fx( + const Word16 gain, /* i: HM gain Q11 */ + const Word32 lag, /* i: pitch lag Q0 */ + const Word16 fract_res, /* i: fractional resolution of the lag Q0 */ + const Word16 p[], /* i: harmonic model Q13 */ + Word32 env[], /* i/o: envelope Q16 */ + const Word16 L_frame /* i: number of spectral lines Q0 */ +); + +void tcx_hm_decode( + const Word16 L_frame, /* i : number of spectral lines */ + Word32 env[], /* i/o: envelope shape (Q16) */ + const Word16 targetBits, /* i : target bit budget */ + const Word16 coder_type, /* i : GC/VC coder type */ + const Word16 prm_hm[], /* i : HM parameters */ + const Word16 LtpPitchLag, /* i : LTP pitch lag or -1 if none */ + Word16 *hm_bits /* o : bit consumption */ +); + +void writeTCXMode_fx( + Encoder_State *st, /* i/o: encoder state structure */ + BSTR_ENC_HANDLE hBstr, /* i/o: bitstream handle */ + const Word16 MCT_flag, /* i : hMCT handle allocated (1) or not (0) Q0*/ + Word16 *nbits_start /* o : nbits start Q0*/ +); + +void writeTCXWindowing_fx( + BSTR_ENC_HANDLE hBstr, /* i/o: bitstream handle */ + const Word16 overlap_mode /* i : overlap mode Q0*/ +); + +void writeLPCparam( + Encoder_State *st, /* i/o: encoder state structure */ + BSTR_ENC_HANDLE hBstr, /* i/o: bitstream handle */ + const int16_t param_lpc[], /* i : LPC parameters to write */ + const int16_t bits_param_lpc[], /* i : bits per LPC parameter */ + const int16_t no_param_lpc, /* i : number of LPC parameters */ + int16_t *nbits_lpc /* o : LPC bits written */ +); + +void const *GetTnsOnWhite( void const *p, const int16_t index, int16_t *pValue ); +void *SetTnsOnWhite( void *p, const int16_t index, const int16_t value ); +void const *GetNumOfTnsFilters_flt( void const *p, const int16_t index, int16_t *pValue ); +void *SetNumOfTnsFilters_flt( void *p, const int16_t index, const int16_t value ); + +int16_t DecodeSWBTCX10TnsFilterCoeff_flt( Decoder_State *st, const int16_t index, int16_t *pValue ); +int16_t DecodeSWBTCX20TnsFilterCoeff_flt( Decoder_State *st, const int16_t index, int16_t *pValue ); + +int16_t DecodeWBTCX20TnsFilterCoeff_flt( Decoder_State *st, const int16_t index, int16_t *pValue ); + +int16_t DecodeTnsFilterOrderSWBTCX10_flt( Decoder_State *st, const int16_t index, int16_t *pValue ); +int16_t DecodeTnsFilterOrderSWBTCX20_flt( Decoder_State *st, const int16_t index, int16_t *pValue ); + +int16_t EncodeTnsFilterOrderSWBTCX10_flt( const int16_t value, const int16_t index ); + +int16_t GetTnsFilterOrderBitsSWBTCX10_flt( const int16_t value, const int16_t index ); +int16_t DecodeTnsFilterOrder_flt( Decoder_State *st, const int16_t index, int16_t *pValue ); + +void ResetTnsData_flt( + STnsData *pTnsData ); + +void ClearTnsFilterCoefficients_flt( + STnsFilter *pTnsFilter ); + +void EncodeTnsData( + STnsConfig const *pTnsConfig, /* i : TNS Configuration struct */ + STnsData const *pTnsData, /* i : TNS data struct (quantized param) */ + Word16 *stream, /* o : internal data stream */ + Word16 *pnSize, /* o : number of written parameters */ + Word16 *pnBits /* o : number of written bits */ +); + +Word16 DecodeTnsData_ivas( + STnsConfig const *pTnsConfig, + const Word16 *stream, + Word16 *pnSize, + STnsData *pTnsData ); + +void WriteTnsData( + const STnsConfig *pTnsConfig, /* i : TNS Configuration struct */ + const Word16 *stream, /* i : internal data stream */ + Word16 *pnSize, /* o : number of written parameters */ + BSTR_ENC_HANDLE hBstr, /* o : bitstream */ + Word16 *pnBits /* o : number of written bits */ +); + +void ReadTnsData_ivas( + STnsConfig const *pTnsConfig, + Decoder_State *st, + Word16 *pnBits, + Word16 *stream, + Word16 *pnSize ); + +void analysisCldfbEncoder_ivas_fx( + Encoder_State *st, /* i/o: encoder state structure */ + Word32 *timeIn, /*q11*/ + Word16 timeInq, /*q0*/ + Word16 samplesToProcess, /*q0*/ + Word32 realBuffer[CLDFB_NO_COL_MAX][CLDFB_NO_CHANNELS_MAX], + Word32 imagBuffer[CLDFB_NO_COL_MAX][CLDFB_NO_CHANNELS_MAX], + Word16 realBuffer16[CLDFB_NO_COL_MAX][CLDFB_NO_CHANNELS_MAX], + Word16 imagBuffer16[CLDFB_NO_COL_MAX][CLDFB_NO_CHANNELS_MAX], + Word32 *ppBuf_Ener, + Word16 *enerBuffSum_exp, + CLDFB_SCALE_FACTOR *scale ); + +ivas_error openCldfb_ivas( + HANDLE_CLDFB_FILTER_BANK *h_cldfb, /* i/o: filter bank handle */ + CLDFB_TYPE type, /* i : analysis or synthesis */ + const int32_t sampling_rate, /* i : sampling rate */ + CLDFB_PROTOTYPE prototype /* i : CLDFB version (1.25ms/5ms delay) */ +); + +void resampleCldfb_ivas( + HANDLE_CLDFB_FILTER_BANK hs, /* i/o: filter bank handle */ + const Word32 newSamplerate /* i : new samplerate to operate */ +); + +ivas_error cldfb_save_memory_ivas( + HANDLE_CLDFB_FILTER_BANK hs /* i/o: filter bank handle */ +); + +/*! r: flag indicating a valid bitrate */ +Word16 is_EVS_bitrate( + const Word32 ivas_total_brate, /* i : EVS total bitrate */ + Word16 *Opt_AMR_WB /* i : AMR-WB IO flag */ +); + +void IGFEncResetTCX10BitCounter_ivas_fx( + const IGF_ENC_INSTANCE_HANDLE hIGFEnc /* i : instance handle of IGF Encoder */ +); + +ivas_error IGF_Reconfig( + IGF_ENC_INSTANCE_HANDLE *hIGFEnc, /* i/o: instance handle of IGF Encoder */ + const Word16 igf, /* i : IGF on/off */ + const Word16 reset, /* i : reset flag */ + const Word32 brate, /* i : bitrate for configuration */ + const Word16 bwidth, /* i : signal bandwidth */ + const Word16 element_mode, /* i : IVAS element mode */ + const Word16 rf_mode /* i : flag to signal the RF mode */ +); + +void ordr_esti( + const Word16 k, /* i : sub-vector index */ + Word16 *Mpos, /* i/o: dominant sub-vector position from ACV */ + Word16 svOrder[], /* i/o: AVQ sub-vector order */ + const Word16 Nsv /* i : total sub-vectors in a sub-frames */ +); + +/*===========================================================================================*/ +#endif diff --git a/lib_com/pvq_com_fx.c b/lib_com/pvq_com_fx.c index ed914f2a159085a0359e1951557f5ff2ffb59e4b..a6c0bc462d6757c2a53af013c84dff95f6b44461 100644 --- a/lib_com/pvq_com_fx.c +++ b/lib_com/pvq_com_fx.c @@ -4,7 +4,6 @@ #include #include "options.h" /* Compilation switches */ #include "prot_fx.h" /* Function prototypes */ -#include "prot.h" /* Function prototypes */ #include "cnst.h" /* Common constants */ #include "rom_com.h" /* Static table prototypes */ @@ -510,73 +509,6 @@ void apply_gain_fx( * * Fine gain quantization *--------------------------------------------------------------------------*/ -void fine_gain_quant_ivas_fx( - BSTR_ENC_HANDLE hBstr, /* i/o: encoder bitstream handle */ - const Word16 *ord, /* i : Indices for energy order Q0 */ - const Word16 num_sfm, /* i : Number of bands Q0 */ - const Word16 *gain_bits, /* i : Gain adjustment bits per sub band Q0 */ - Word16 *fg_pred, /* i/o: Predicted gains / Corrected gains i:Q12 / o:Q11 */ - const Word16 *gopt /* i : Optimal gains Q12 */ -) -{ - Word16 band; - Word16 gbits; - Word16 idx; - Word16 gain_db, gain_dbq; - Word16 err; - - Word16 tmp1, tmp2, exp1, exp2; - Word32 L_tmp; - UWord16 lsb; -#ifdef BASOP_NOGLOB_DECLARE_LOCAL - Flag Overflow = 0; - move32(); -#endif - - FOR( band = 0; band < num_sfm; band++ ) - { - gbits = gain_bits[ord[band]]; /* Q0 */ - move16(); - test(); - IF( fg_pred[band] != 0 && gbits > 0 ) - { - exp1 = norm_s( gopt[band] ); - exp1 = sub( exp1, 1 ); - tmp1 = shl( gopt[band], exp1 ); - exp2 = norm_s( fg_pred[band] ); - tmp2 = shl( fg_pred[band], exp2 ); /* Q12 + exp2 */ - exp1 = add( 15, sub( exp1, exp2 ) ); - err = div_s( tmp1, tmp2 ); /* Q15 */ - tmp1 = norm_s( err ); - exp2 = Log2_norm_lc( L_deposit_h( shl( err, tmp1 ) ) ); - tmp1 = sub( 14, tmp1 ); - tmp1 = sub( tmp1, exp1 ); - L_tmp = L_Comp( tmp1, exp2 ); - Mpy_32_16_ss( L_tmp, 24660, &L_tmp, &lsb ); /* 24660 = 20*log10(2) in Q12 */ /*16+12-15=13 */ - gain_db = round_fx_sat( L_shl_o( L_tmp, 17, &Overflow ) ); /* Q14 */ - - idx = squant_fx( gain_db, &gain_dbq, finegain_fx[gbits - 1], gain_cb_size[gbits - 1] ); /* Q0 */ - push_indice( hBstr, IND_PVQ_FINE_GAIN, idx, gbits ); - - L_tmp = L_mult0( gain_dbq, 21771 ); /* 21771=0.05*log2(10) */ /* 14+17=31 */ - L_tmp = L_shr( L_tmp, 15 ); /* Q16 */ - tmp1 = L_Extract_lc( L_tmp, &exp1 ); - tmp1 = abs_s( tmp1 ); - tmp1 = extract_l( Pow2( 14, tmp1 ) ); - exp1 = sub( 14, exp1 ); - - L_tmp = L_mult0( fg_pred[band], tmp1 ); /*12+exp1 */ - fg_pred[band] = round_fx( L_shl( L_tmp, sub( 15, exp1 ) ) ); /*12+exp1+16-exp1-16=12 - 1-> Q11*/ - move16(); - } - ELSE - { - fg_pred[band] = shr( fg_pred[band], 1 ); // Q12 -> Q11 To align all the fg_pred indices in same Q. - } - } - - return; -} void fine_gain_quant_fx( BSTR_ENC_HANDLE hBstr, /* i/o: encoder bitstream handle */ const Word16 *ord, /* i : Indices for energy order Q0 */ @@ -623,7 +555,7 @@ void fine_gain_quant_fx( gain_db = round_fx_sat( L_shl_o( L_tmp, 17, &Overflow ) ); idx = squant_fx( gain_db, &gain_dbq, finegain_fx[gbits - 1], gain_cb_size[gbits - 1] ); - push_indice_fx( hBstr, IND_PVQ_FINE_GAIN, idx, gbits ); + push_indice( hBstr, IND_PVQ_FINE_GAIN, idx, gbits ); L_tmp = L_mult0( gain_dbq, 21771 ); /* 21771=0.05*log2(10) */ /* 14+17=31 */ L_tmp = L_shr( L_tmp, 15 ); /* Q16 */ diff --git a/lib_com/residu_fx.c b/lib_com/residu_fx.c index 665dbfae622164864d8dd41dce80d9254ed1c263..32d18d1feb543401666d751fb554240dce4e8e6f 100644 --- a/lib_com/residu_fx.c +++ b/lib_com/residu_fx.c @@ -7,7 +7,6 @@ #include "cnst.h" /* Common constants */ #include "rom_com.h" /* Static table prototypes */ #include "prot_fx.h" -#include "prot.h" /*--------------------------------------------------------------------* * residu_ivas_fx() diff --git a/lib_com/rom_basop_util.c b/lib_com/rom_basop_util.c index c3bfc6eeffc8ee1ce4bb05c6256255ed8659bdb8..eb79cc02648c67df6dbd075f3da2a9704142e2f8 100644 --- a/lib_com/rom_basop_util.c +++ b/lib_com/rom_basop_util.c @@ -1449,7 +1449,7 @@ void BASOP_getTables( const PWord16 **ptwiddle /*Q15*/, const PWord16 **sin_twid ld2_length = sub( 16 - 1 - 1, norm_s( length ) ); /* Extract sort of "eigenvalue" (the 5 left most bits) of length. */ - SWITCH( (unsigned short) L_shl( length, sub( 15, ld2_length ) ) ) + SWITCH( (UWord16) L_shl( length, sub( 15, ld2_length ) ) ) { case 0xa000: /* 640 */ move16(); diff --git a/lib_com/rom_com.c b/lib_com/rom_com.c index bad47f0659a392b758428ff3284aad3228dee9d8..a5c8a3b7c65d8747e20b83f4afa8205438fe54ac 100644 --- a/lib_com/rom_com.c +++ b/lib_com/rom_com.c @@ -38,10 +38,9 @@ #include "options.h" #include "cnst.h" #include "rom_com.h" -#include "prot.h" +#include "prot_fx.h" #include "basop_util.h" #include "wmc_auto.h" -#include "prot_fx.h" /* clang-format off */ @@ -1770,35 +1769,35 @@ static const Word16 filter_LP30_300K_fx[LFE_PLC_FDEL + 1] = const Resampling_cfg resampling_cfg_tbl[] = { /* fin fout up.fact. den.fac. len.out filter coefs. filter length/2 filter mem./2 flags */ - { 8000, 8000, 12800, 12800, 8, 8, 5, 256, /*filter5_39s320_120,*/ filter5_39s320_120_fx, 15, 15, RS_INV_FAC, RS_INV_FAC }, - { 12800, 12800, 8000, 8000, 5, 5, 8, 160, /*filter5_39s320_120,*/ filter5_39s320_120_fx, L_FILT_UP8k, L_FILT_UP8k, RS_INV_FAC, RS_INV_FAC }, - { 16000, 16000, 8000, 8000, 6, 6, 12, 160, /*filter_LP12_180H,*/ filter_LP12_180H_fx, 180 / 6, 180 / 6, 0, 0 }, - { 12800, 12800, 16000, 16000, 15, 15, 12, 320, /*filter_LP15_180H,*/ filter_LP15_180H_fx, L_FILT_UP16k, L_FILT_UP16k, 0, 0 }, - { 12800, 12800, 32000, 32000, 15, 15, 6, 640, /*filter_LP15_180H,*/ filter_LP15_180H_fx, L_FILT_UP32k, L_FILT_UP32k, 0, 0 }, - { 12800, 12800, 48000, 48000, 15, 15, 4, 960, /*filter_LP15_180H,*/ filter_LP15_180H_fx, L_FILT_UP48k, L_FILT_UP48k, 0, 0 }, + { 8000, 12800, 8, 5, 256, /*filter5_39s320_120,*/ filter5_39s320_120_fx, 15, RS_INV_FAC }, + { 12800, 8000, 5, 8, 160, /*filter5_39s320_120,*/ filter5_39s320_120_fx, L_FILT_UP8k, RS_INV_FAC }, + { 16000, 8000, 6, 12, 160, /*filter_LP12_180H,*/ filter_LP12_180H_fx, 180 / 6, 0 }, + { 12800, 16000, 15, 12, 320, /*filter_LP15_180H,*/ filter_LP15_180H_fx, L_FILT_UP16k, 0 }, + { 12800, 32000, 15, 6, 640, /*filter_LP15_180H,*/ filter_LP15_180H_fx, L_FILT_UP32k, 0 }, + { 12800, 48000, 15, 4, 960, /*filter_LP15_180H,*/ filter_LP15_180H_fx, L_FILT_UP48k, 0 }, - { 16000, 16000, 12800, 12800, 12, 12, 15, 256, /*filter_LP15_180H,*/ filter_LP15_180H_fx, L_FILT16k, L_FILT16k, 0, 0 }, - { 16000, 16000, 32000, 32000, 12, 12, 6, 640, /*filter_LP12_180H, */ filter_LP12_180H_fx, L_FILT16k, L_FILT16k, 0, 0 }, - { 16000, 16000, 48000, 48000, 12, 12, 4, 960, /*filter_LP12_180H,*/ filter_LP12_180H_fx, L_FILT16k, L_FILT16k, 0, 0 }, - - { 32000, 32000, 12800, 12800, 6, 6, 15, 256, /*filter_LP15_180H,*/ filter_LP15_180H_13b_fx, L_FILT32k, L_FILT32k, 0, 0 }, - { 32000, 32000, 16000, 16000, 6, 6, 12, 320, /*filter_LP12_180H,*/ filter_LP12_180H_13b_fx, L_FILT32k, L_FILT32k, 0, 0 }, - { 32000, 32000, 25600, 25600, 12, 12, 15, 512, /*filter_LP15_360H,*/ filter_LP15_360H_13b_fx, L_FILT32k, L_FILT32k, 0, 0 }, - { 32000, 32000, 48000, 48000, 3, 3, 2, 960, /*filter_LP3_90H,*/ filter_LP3_90H_fx, L_FILT32k, L_FILT32k, 0, 0 }, - - { 48000, 48000, 12800, 12800, 4, 4, 15, 256, /*filter_LP15_180H,*/ filter_LP15_180H_13b_fx, L_FILT48k, L_FILT48k, 0, 0 }, - { 48000, 48000, 16000, 16000, 4, 4, 12, 320, /*filter_LP12_180H,*/ filter_LP12_180H_13b_fx, L_FILT48k, L_FILT48k, 0, 0 }, - { 48000, 48000, 25600, 25600, 8, 8, 15, 512, /*filter_LP15_360H,*/ filter_LP15_360H_13b_fx, L_FILT48k, L_FILT48k, 0, 0 }, - { 48000, 48000, 32000, 32000, 2, 2, 3, 640, /*filter_LP3_90H,*/ filter_LP3_90H_fx, L_FILT48k, L_FILT48k, 0, 0 }, + { 16000, 12800, 12, 15, 256, /*filter_LP15_180H,*/ filter_LP15_180H_fx, L_FILT16k, 0, }, + { 16000, 32000, 12, 6, 640, /*filter_LP12_180H, */ filter_LP12_180H_fx, L_FILT16k, 0, }, + { 16000, 48000, 12, 4, 960, /*filter_LP12_180H,*/ filter_LP12_180H_fx, L_FILT16k, 0, }, + + { 32000, 12800, 6, 15, 256, /*filter_LP15_180H,*/ filter_LP15_180H_13b_fx, L_FILT32k, 0, }, + { 32000, 16000, 6, 12, 320, /*filter_LP12_180H,*/ filter_LP12_180H_13b_fx, L_FILT32k, 0, }, + { 32000, 25600, 12, 15, 512, /*filter_LP15_360H,*/ filter_LP15_360H_13b_fx, L_FILT32k, 0, }, + { 32000, 48000, 3, 2, 960, /*filter_LP3_90H,*/ filter_LP3_90H_fx, L_FILT32k, 0, }, + + { 48000, 12800, 4, 15, 256, /*filter_LP15_180H,*/ filter_LP15_180H_13b_fx, L_FILT48k, 0, }, + { 48000, 16000, 4, 12, 320, /*filter_LP12_180H,*/ filter_LP12_180H_13b_fx, L_FILT48k, 0, }, + { 48000, 25600, 8, 15, 512, /*filter_LP15_360H,*/ filter_LP15_360H_13b_fx, L_FILT48k, 0, }, + { 48000, 32000, 2, 3, 640, /*filter_LP3_90H,*/ filter_LP3_90H_fx, L_FILT48k, 0, }, /* configs with NB 4kHz low-pass */ - { 16000, 16000, 12800, 12800, 12, 12, 15, 256, /*filter_LP24_90H,*/ filter_LP24_90H_fx, L_FILT16k, L_FILT16k, 0, 0 }, - { 32000, 32000, 12800, 12800, 6, 6, 15, 256, /*filter_LP24_90H,*/ filter_LP24_90H_13b_fx, L_FILT32k, L_FILT32k, 0, 0 }, - { 48000, 48000, 12800, 12800, 4, 4, 15, 256, /*filter_LP24_90H,*/ filter_LP24_90H_13b_fx, L_FILT48k, L_FILT48k, 0, 0 }, + { 16000, 12800, 12, 15, 256, /*filter_LP24_90H,*/ filter_LP24_90H_fx, L_FILT16k, 0, }, + { 32000, 12800, 6, 15, 256, /*filter_LP24_90H,*/ filter_LP24_90H_13b_fx, L_FILT32k, 0, }, + { 48000, 12800, 4, 15, 256, /*filter_LP24_90H,*/ filter_LP24_90H_13b_fx, L_FILT48k, 0, }, /* entry for LFE PLC */ - { 1600, 1600, 48000, 48000, 30, 30, 1, 960, /*filter_LP30_300K,*/ filter_LP30_300K_fx, LFE_PLC_FDEL/30,LFE_PLC_FDEL / 30, 0, 0 }, - { 0, 0, 0, 0, 0, 0, 0, 0, /* 0, */ 0, 0, 0, 0, 0 } /* trailing entry (just to calculate the length of this table) */ + { 1600, 48000, 30, 1, 960, /*filter_LP30_300K,*/ filter_LP30_300K_fx, LFE_PLC_FDEL / 30, 0, }, + { 0, 0, 0, 0, 0, /* 0, */ 0, 0, 0, } /* trailing entry (just to calculate the length of this table) */ }; //den fac value for last entry is calculated as den.fac = (num.fac*fin)/fout @@ -16791,7 +16790,6 @@ const Word16 GSC_freq_bits[] = 26, 96, 0, 28, 18, 13, 12,10,10, 5, 4, 4, 1, 0, 1, 3, 4, /* ACELP_22k60*/ 26, 96, 0, 28, 18, 13, 12,10,10, 5, 4, 4, 1, 0, 1, 3, 4 /* ACELP_24k40*/ }; // Q0 -#ifdef MOD_BIT_ALLOC_ROM_TABLE const Word32 GSC_freq_bits_fx[] =/*Q18*/ { 5505024, 17563648, -1572864, 6553600, 3932160, 2883584, 2621440, 1310720, 0, 0, 1310720, 1048576, 0, 0, 1048576, 0, 0, /* ACELP_5k00*/ @@ -16824,17 +16822,6 @@ const Word32 GSC_freq_bits_fx_Q18[] =/*Q18*/ 6815744, 25165824, 0, 7340032, 4718592, 3407872, 3145728, 2621440, 2621440, 1310720, 1048576, 1048576, 262144, 0, 262144, 786432, 1048576, 6815744, 25165824, 0, 7340032, 4718592, 3407872, 3145728, 2621440, 2621440, 1310720, 1048576, 1048576, 262144, 0, 262144, 786432, 1048576, }; -#else -const Word32 GSC_freq_bits_fx[] = -{ - 5505024, 17563648, -1572864, 6553600, 3932160, 2883584, 2621440, 1310720, 0, 0, 1310720, 1048576, 0, 0, 1048576, 0, 0, /* ACELP_7k20*/ - 5505024, 19660800, -1048576, 6815744, 4194304, 3145728, 2883584, 2359296, 0, 0, 1048576, 1048576, 262144, 262144, 786432, 0, 0, /* ACELP_8k00*/ - 6815744, 25165824, -1048576, 7340032, 4718592, 3407872, 3145728, 2621440, 2621440, 1310720, 1048576, 1048576, 262144, 0, 262144, 786432, 1048576, /* ACELP_11k60*/ - 6815744, 25165824, -1048576, 7340032, 4718592, 3407872, 3145728, 2621440, 2621440, 1310720, 1048576, 1048576, 262144, 0, 262144, 786432, 1048576, /* ACELP_12k15*/ - 6815744, 25165824, -1048576, 7340032, 4718592, 3407872, 3145728, 2621440, 2621440, 1310720, 1048576, 1048576, 262144, 0, 262144, 786432, 1048576, /* ACELP_12k85*/ - 8126464, 25165824, -1048576, 7340032, 4718592, 3407872, 3145728, 2621440, 2621440, 1310720, 1048576, 1048576, 262144, 0, 262144, 786432, 1048576, /* ACELP_13k20*/ -}; -#endif const Word16 Compl_GSC_freq_bits[] = { 5, 10, 10, 10 /* bitrate > ACELP_16k40 && FS = 16kHz */ @@ -22051,27 +22038,8 @@ const Word32 sigma_BWE_fx[] = {//Q31 40792208 }; /* for 3 bits first stage */ -const Word16 inv_modified_sigma_BWE_fx[] = {//Q1 - 259, -254, -267, -266, -293, -315, -598, -622, -288, -288, -297, -297, -319, -346, -598, -622 -}; - -const Word16 modified_sigma_BWE_fx[] =//Q(log2(2.56) -{ 323, +const Word16 inv_modified_sigma_BWE_fx[] = {//x2.56 +323, 329, 313, 314, @@ -22086,8 +22054,27 @@ const Word16 modified_sigma_BWE_fx[] =//Q(log2(2.56) 262, 242, 140, -134 }; +134 +}; +const Word16 modified_sigma_BWE_fx[] =//Q15 +{ 259, +254, +267, +266, +293, +315, +598, +622, +288, +288, +297, +297, +319, +346, +598, +622 }; + const Word16 SHB_LSF_mean_fx[10] = {//Q15 1353, 2646, 4046, @@ -25352,6 +25339,21 @@ const Word16 lsp_shb_prev_tbl_fx[LPC_SHB_ORDER] = { 13107, 14746 }; + +const Word16 lsp_shb_prev_tbl_swb_tbe_enc_fx[LPC_SHB_ORDER] = { + // Q15 + 32767, + 31165, + 26509, + 19262, + 10123, + 0, + -10124, + -19261, + -26509, + -31166, +}; + const Word16 ivas_lsp_shb_prev_tbl_fx[LPC_SHB_ORDER] = { /* Q15 */ 1489, diff --git a/lib_com/rom_com.h b/lib_com/rom_com.h index 274a33a18488656590d251aa30ca64854eba9a31..73156b9892df5be8df2ea273d450acaf492e1fdc 100644 --- a/lib_com/rom_com.h +++ b/lib_com/rom_com.h @@ -49,13 +49,8 @@ #define INTERP_EXP 0 typedef struct { - Word32 fin; /* input frequency */ - Word32 fin_fx; /* input frequency Q0 */ - - Word32 fout; /* output frequency */ - Word32 fout_fx; /* output frequency Q0 */ - - Word16 fac_num; /* numerator of resampling factor */ + Word32 fin_fx; /* input frequency Q0 */ + Word32 fout_fx; /* output frequency Q0 */ Word16 fac_num_fx; /* numerator of resampling factor Q0 */ Word16 fac_den_fx; /* denominator of resampling factor Q0 */ @@ -63,12 +58,9 @@ typedef struct const Word16 *filter_fx; /* resampling filter coefficients Q14 */ - Word16 filt_len; /* number of filter coeff. */ Word16 filt_len_fx; /* number of filter coeff. Q0 */ - - uint16_t flags; /* flags from config. table */ - UWord16 flags_fx; /* flags from config. table Q0 */ - // UNS_Word16 flags_fx; /* flags from config. table Q0 */ + UWord16 flags_fx; /* flags from config. table Q0 */ + // UNS_Word16 flags_fx; /* flags from config. table Q0 */ } Resampling_cfg; @@ -1512,15 +1504,16 @@ extern const Word16 tab_hup_l_fx[]; // Q15 extern const Word16 mfreq_loc_Q2fx[]; // Q0 extern const Word16 mfreq_loc_div_25[]; // Q0 -extern const Word16 band_len_idx[]; // Q0 -extern const Word16 band_len_ener_shift[]; // Q0 -extern const Word16 fine_gain_pred_sqrt_bw[]; // Q11 -extern const Word16 ivas_band_len_idx[]; // Q0 -extern const Word16 ivas_band_len_ener_shift[]; // Q0 -extern const Word16 ivas_fine_gain_pred_sqrt_bw[]; // Q11 -extern const Word16 Mean_isf_wb[]; // Q2.56 -extern const Word16 lsp_shb_prev_tbl_fx[]; // Q15 -extern const Word16 ivas_lsp_shb_prev_tbl_fx[]; // Q15 +extern const Word16 band_len_idx[]; // Q0 +extern const Word16 band_len_ener_shift[]; // Q0 +extern const Word16 fine_gain_pred_sqrt_bw[]; // Q11 +extern const Word16 ivas_band_len_idx[]; // Q0 +extern const Word16 ivas_band_len_ener_shift[]; // Q0 +extern const Word16 ivas_fine_gain_pred_sqrt_bw[]; // Q11 +extern const Word16 Mean_isf_wb[]; // Q2.56 +extern const Word16 lsp_shb_prev_tbl_fx[]; // Q15 +extern const Word16 lsp_shb_prev_tbl_swb_tbe_enc_fx[]; // Q15 +extern const Word16 ivas_lsp_shb_prev_tbl_fx[]; // Q15 extern const Word16 tab_ari_qnew[4][4]; // enhancer.c diff --git a/lib_com/rom_com_fx.c b/lib_com/rom_com_fx.c index 6116588846bb66eca53cc1f41ed7ef8870094cd3..49f50e1622ba4a26b851bc236695c6e4b472078d 100644 --- a/lib_com/rom_com_fx.c +++ b/lib_com/rom_com_fx.c @@ -38,7 +38,7 @@ EVS Codec 3GPP TS26.443 Nov 04, 2021. Version 12.14.0 / 13.10.0 / 14.6.0 / 15.4.0 / 16.3.0 ====================================================================================*/ -#include "prot.h" +#include "prot_fx.h" #include "basop_util.h" #include "wmc_auto.h" #include "rom_com_fx.h" diff --git a/lib_com/scale_mem_fx.c b/lib_com/scale_mem_fx.c index 0028210502634f7a8a5c8d0acfa27686bcc81435..2ce2ffd12b8aad3cf41c48a53bfb7c253b1ee80b 100644 --- a/lib_com/scale_mem_fx.c +++ b/lib_com/scale_mem_fx.c @@ -307,8 +307,15 @@ void scale_sig32( /* saturation can occur here */ x[i] = L_shl( x[i], exp0 ); move32(); +#ifdef OPT_STEREO_32KBPS_V1 + if ( 0 == exp0 ) + { + i = lg; + } +#endif /* OPT_STEREO_32KBPS_V1 */ } } + void scale_sig32_r( Word32 x[], /* i/o: signal to scale Qx */ const Word16 lg, /* i : size of x[] Q0 */ @@ -322,6 +329,12 @@ void scale_sig32_r( /* saturation can occur here */ x[i] = L_shl_r( x[i], exp0 ); move32(); +#ifdef OPT_STEREO_32KBPS_V1 + if ( 0 == exp0 ) + { + i = lg; + } +#endif /* OPT_STEREO_32KBPS_V1 */ } } diff --git a/lib_com/stat_com.h b/lib_com/stat_com.h index 9edc28c035bf3900cd8021d9989b1ab00950b87a..f99d498027a98db71cfbed521e46712659506917 100644 --- a/lib_com/stat_com.h +++ b/lib_com/stat_com.h @@ -74,7 +74,7 @@ typedef struct typedef struct { Word16 lead_sign_ind; - uint32_t index, size; + UWord32 index, size; Word16 dim, k_val; } PvqEntry; @@ -313,7 +313,7 @@ typedef struct { Word32 low; Word32 high; - uint32_t value; + UWord32 value; Word32 bits_to_follow; } Tastat; typedef struct @@ -490,15 +490,6 @@ typedef Word16 ( *TEncodeValue )( Word16 value, Word16 index ); */ typedef Word16 ( *TDecodeValue )( struct Decoder_State *st, Word16 index, Word16 *pValue ); -/** Linear prediction analysis/synthesis filter definition. - * @param order filter order. - * @param parCoeff filter (PARCOR) coefficients. - * @param state state of the filter. Must be at least of 'order' size. - * @param x the current input value. - * @return the output of the filter. - */ -typedef float ( *TLinearPredictionFilter_flt )( const int16_t order, const float parCoeff[], float *state, float x ); - /** Structure that defines mapping between a parameter and a bitstream. */ typedef struct ParamBitMap { @@ -702,21 +693,6 @@ typedef enum /*---------------------------------------------------------------* * IGF * *---------------------------------------------------------------*/ -/*----------------------------------------------------------------------------------* - * NB postfilter / formant postfilter static variables - *----------------------------------------------------------------------------------*/ -typedef struct pfstat_structure -{ - Word16 on; /* On/off flag */ - Word16 reset; /* reset flag */ - Word16 mem_pf_in[L_SUBFR]; /* Input memory Qqmem_pf_in */ - Word16 mem_stp[L_SUBFR]; /* 1/A(gamma1) memory Qqmem_stp*/ - Word16 mem_res2[DECMEM_RES2]; /* A(gamma2) residual Q_syn*/ - Word16 mem_zero[M]; /* null memory to compute i.r. of A(gamma2)/A(gamma1) Q_qmem_zero*/ - Word16 gain_prec; /*Q14*/ /* for gain adjustment */ - -} PFSTAT, *PFSTAT_HANDLE; - typedef struct { diff --git a/lib_com/swb_bwe_com_fx.c b/lib_com/swb_bwe_com_fx.c index eda099cd93a4d2bf25843d1e4db24e9c4b98ba47..11da78c46f06cf04a6895050c706e53824225711 100644 --- a/lib_com/swb_bwe_com_fx.c +++ b/lib_com/swb_bwe_com_fx.c @@ -2533,12 +2533,8 @@ void hq_generic_decoding_fx( IF( L_tmp != 0 ) { exp = norm_l( L_tmp ); -#ifdef EVS_FUNC_MODIFIED frac = round_fx_sat( L_shl( L_tmp, exp ) ); /*cs+exp-16 */ -#else - frac = round_fx( L_shl( L_tmp, exp ) ); /*cs+exp-16 */ -#endif - tmp = div_s( 16384, frac ); /*15 + 14 - (cs+exp-16) */ + tmp = div_s( 16384, frac ); /*15 + 14 - (cs+exp-16) */ exp = sub( add( cs, exp ), 30 ); L_tmp = Isqrt_lc( L_deposit_h( tmp ), &exp ); /*Q31 - exp */ fenvL_fx = round_fx_sat( L_shl_sat( L_tmp, sub( exp, 14 ) ) ); /*Q1 */ @@ -2868,11 +2864,7 @@ void hq_generic_decoding_fx( tmp4_fx = mult_r( tmp3_fx, 1638 /* 0.05 in Q15 */ ); WHILE( tmp3_fx > 1024 /* 1 in Q10*/ ) { -#ifdef EVS_FUNC_MODIFIED L_tmp1 = L_shl( Mult_32_16( *pit1_fx, tmp3_fx ), 5 ); /*15 + 5 + 10 -15 */ -#else - L_tmp1 = Mult_32_16( L_shl( *pit1_fx, 5 ), tmp3_fx ); /*15 + 5 + 10 -15 */ -#endif *pit1_fx-- = L_tmp1; move32(); tmp3_fx = sub( tmp3_fx, tmp4_fx ); @@ -3089,12 +3081,8 @@ void hq_generic_decoding_ivas_fx( IF( L_tmp != 0 ) { exp = norm_l( L_tmp ); -#ifdef EVS_FUNC_MODIFIED frac = round_fx_sat( L_shl( L_tmp, exp ) ); /*cs+exp-16 */ -#else - frac = round_fx( L_shl( L_tmp, exp ) ); /*cs+exp-16 */ -#endif - tmp = div_s( 16384, frac ); /*15 + 14 - (cs+exp-16) */ + tmp = div_s( 16384, frac ); /*15 + 14 - (cs+exp-16) */ exp = sub( add( cs, exp ), 30 ); L_tmp = Isqrt_lc( L_deposit_h( tmp ), &exp ); /*Q31 - exp */ fenvL_fx = round_fx_sat( L_shl_sat( L_tmp, sub( exp, 14 ) ) ); /*Q1 */ @@ -3424,11 +3412,7 @@ void hq_generic_decoding_ivas_fx( tmp4_fx = mult_r( tmp3_fx, 1638 /* 0.05 in Q15 */ ); WHILE( tmp3_fx > 1024 /* 1 in Q10*/ ) { -#ifdef EVS_FUNC_MODIFIED L_tmp1 = L_shl( Mult_32_16( *pit1_fx, tmp3_fx ), 5 ); /*15 + 5 + 10 -15 */ -#else - L_tmp1 = Mult_32_16( L_shl( *pit1_fx, 5 ), tmp3_fx ); /*15 + 5 + 10 -15 */ -#endif *pit1_fx-- = L_tmp1; move32(); tmp3_fx = sub( tmp3_fx, tmp4_fx ); diff --git a/lib_com/swb_bwe_com_lr_fx.c b/lib_com/swb_bwe_com_lr_fx.c index d0b8d010022f45d3a388d47b8e799c5d288b7983..8fd876f1cb9d6dd008231fd5bc074ec58e0612da 100644 --- a/lib_com/swb_bwe_com_lr_fx.c +++ b/lib_com/swb_bwe_com_lr_fx.c @@ -2366,11 +2366,7 @@ void ton_ene_est_fx( exp_normn = norm_s( peak_fx[k] ); fac_fx = div_s( shl( temp2_fx, exp_normd ), shl( peak_fx[k], exp_normn ) ); -#ifdef FIX_ISSUE_1062_AND_1068_TON_ENE_EST_FX fac_fx = shl_sat( fac_fx, sub( add( Qss, exp_normn ), add( Qtemp2, exp_normd ) ) ); /* Qtemp2+exp_normd-(Qss+exp_normn)+15 -> 15*/ -#else - fac_fx = shl( fac_fx, sub( add( Qss, exp_normn ), add( Qtemp2, exp_normd ) ) ); /* Qtemp2+exp_normd-(Qss+exp_normn)+15 -> 15*/ -#endif } ni_gain_fx[k] = mult_r( avg_pe_fx[k], fac_fx ); /* Qavg_pe[k] */ diff --git a/lib_com/swb_tbe_com.c b/lib_com/swb_tbe_com.c deleted file mode 100644 index 2aa781a43d661d9fe53b5f244aaf56229a056078..0000000000000000000000000000000000000000 --- a/lib_com/swb_tbe_com.c +++ /dev/null @@ -1,298 +0,0 @@ -/****************************************************************************************************** - - (C) 2022-2025 IVAS codec Public Collaboration with portions copyright Dolby International AB, Ericsson AB, - Fraunhofer-Gesellschaft zur Foerderung der angewandten Forschung e.V., Huawei Technologies Co. LTD., - Koninklijke Philips N.V., Nippon Telegraph and Telephone Corporation, Nokia Technologies Oy, Orange, - Panasonic Holdings Corporation, Qualcomm Technologies, Inc., VoiceAge Corporation, and other - contributors to this repository. All Rights Reserved. - - This software is protected by copyright law and by international treaties. - The IVAS codec Public Collaboration consisting of Dolby International AB, Ericsson AB, - Fraunhofer-Gesellschaft zur Foerderung der angewandten Forschung e.V., Huawei Technologies Co. LTD., - Koninklijke Philips N.V., Nippon Telegraph and Telephone Corporation, Nokia Technologies Oy, Orange, - Panasonic Holdings Corporation, Qualcomm Technologies, Inc., VoiceAge Corporation, and other - contributors to this repository retain full ownership rights in their respective contributions in - the software. This notice grants no license of any kind, including but not limited to patent - license, nor is any license granted by implication, estoppel or otherwise. - - Contributors are required to enter into the IVAS codec Public Collaboration agreement before making - contributions. - - This software is provided "AS IS", without any express or implied warranties. The software is in the - development stage. It is intended exclusively for experts who have experience with such software and - solely for the purpose of inspection. All implied warranties of non-infringement, merchantability - and fitness for a particular purpose are hereby disclaimed and excluded. - - Any dispute, controversy or claim arising under or in relation to providing this software shall be - submitted to and settled by the final, binding jurisdiction of the courts of Munich, Germany in - accordance with the laws of the Federal Republic of Germany excluding its conflict of law rules and - the United Nations Convention on Contracts on the International Sales of Goods. - -*******************************************************************************************************/ - -/*==================================================================================== - EVS Codec 3GPP TS26.443 Nov 04, 2021. Version 12.14.0 / 13.10.0 / 14.6.0 / 15.4.0 / 16.3.0 - ====================================================================================*/ - -#include -#include "options.h" -#include -#include "cnst.h" -#include "prot.h" -#include "prot_fx.h" -#include "rom_com.h" -#include "wmc_auto.h" -#include "ivas_prot.h" -#include - - -/*-----------------------------------------------------------------* - * Local function prototypes - *-----------------------------------------------------------------*/ - - -/*-------------------------------------------------------------------* - * flip_spectrum_and_decimby4() - * - * - *-------------------------------------------------------------------*/ - - -void GenSHBSynth_fx_32( - const Word32 *input_synspeech, /* i : input synthesized speech Qx*/ - Word32 *shb_syn_speech_32k, /* o : output highband component Qx*/ - Word32 Hilbert_Mem[], /* i/o: memory Qx*/ - Word32 state_lsyn_filt_shb_local[], /* i/o: memory Qx*/ - const Word16 L_frame, /* i : ACELP frame length */ - Word16 *syn_dm_phase ) -{ - Word32 speech_buf_32k[L_FRAME32k]; - Word16 i; - -#ifdef FIX_881_HILBERT_FILTER - Word16 shift = 0; - Word32 maxm32, input_synspeech_temp[L_FRAME16k]; - move16(); - - /* find the maximum value and derive the shift to improve precision of the Hilber filter */ - maxm32 = L_deposit_l( 0 ); - FOR( i = 0; i < L_FRAME16k; i++ ) - { - maxm32 = L_max( maxm32, L_abs( input_synspeech[i] ) ); - } - - FOR( i = 0; i < 2 * ALLPASSSECTIONS_STEEP; i++ ) - { - maxm32 = L_max( maxm32, L_abs( state_lsyn_filt_shb_local[i] ) ); - } - - FOR( i = 0; i < HILBERT_MEM_SIZE; i++ ) - { - maxm32 = L_max( maxm32, L_abs( Hilbert_Mem[i] ) ); - } - - IF( maxm32 != 0 ) - { - shift = sub( norm_l( maxm32 ), 3 ); - - Copy_Scale_sig32( input_synspeech, input_synspeech_temp, L_FRAME16k, shift ); - Scale_sig32( state_lsyn_filt_shb_local, 2 * ALLPASSSECTIONS_STEEP, shift ); - Scale_sig32( Hilbert_Mem, HILBERT_MEM_SIZE, shift ); - } - ELSE - { - Copy32( input_synspeech, input_synspeech_temp, L_FRAME16k ); - } - - Interpolate_allpass_steep_32( input_synspeech_temp, state_lsyn_filt_shb_local, L_FRAME16k, speech_buf_32k ); -#else - Interpolate_allpass_steep_32( input_synspeech, state_lsyn_filt_shb_local, L_FRAME16k, speech_buf_32k ); -#endif - - IF( EQ_16( L_frame, L_FRAME ) ) - { - flip_and_downmix_generic_fx_32( speech_buf_32k, shb_syn_speech_32k, L_FRAME32k, Hilbert_Mem, Hilbert_Mem + HILBERT_ORDER1, Hilbert_Mem + ( HILBERT_ORDER1 + 2 * HILBERT_ORDER2 ), syn_dm_phase ); - } - ELSE - { - FOR( i = 0; i < L_FRAME32k; i++ ) - { - // shb_syn_speech_32k[i] = ( ( i % 2 ) == 0 ) ? ( -speech_buf_32k[i] ) : ( speech_buf_32k[i] ); - IF( i % 2 == 0 ) - { - shb_syn_speech_32k[i] = L_negate( speech_buf_32k[i] ); // Qx - } - ELSE - { - shb_syn_speech_32k[i] = speech_buf_32k[i]; // Qx - } - move32(); - } - } - -#ifdef FIX_881_HILBERT_FILTER - IF( maxm32 != 0 ) - { - Scale_sig32( shb_syn_speech_32k, L_FRAME32k, negate( shift ) ); - Scale_sig32( state_lsyn_filt_shb_local, 2 * ALLPASSSECTIONS_STEEP, negate( shift ) ); - Scale_sig32( Hilbert_Mem, HILBERT_MEM_SIZE, negate( shift ) ); - } -#endif - - return; -} -void ScaleShapedSHB_32( - const Word16 length, /* i : SHB overlap length */ - Word32 *synSHB_fx, /* i/o: synthesized shb signal Q_inp/Q_new */ - Word32 *overlap_fx, /* i/o: buffer for overlap-add Q_inp/Q_new */ - const Word16 *subgain_fx, /* i : subframe gain Q15 */ - const Word32 frame_gain_fx, /* i : frame gain Q18*/ - const Word16 *win_fx, /* i : window Q15 */ - const Word16 *subwin_fx, /* i : subframes window Q15 */ - Word16 *Q_inp, - Word16 *Q_new ) -{ - const Word16 *skip; - Word16 i, j, k, l_shb_lahead, l_frame; - Word16 join_length, num_join; - Word32 mod_syn_fx[L_FRAME16k + L_SHB_LAHEAD], L_tmp; - Word16 sum_gain_fx; - - /* initilaization */ - l_frame = L_FRAME16k; - l_shb_lahead = L_SHB_LAHEAD; - move16(); - move16(); - skip = skip_bands_SWB_TBE; - - IF( EQ_16( length, SHB_OVERLAP_LEN / 2 ) ) - { - skip = skip_bands_WB_TBE; - l_frame = L_FRAME16k / 4; - l_shb_lahead = L_SHB_LAHEAD / 4; - move16(); - move16(); - } - - /* apply gain for each subframe, and store noise output signal using overlap-add */ - set32_fx( mod_syn_fx, 0, l_frame + l_shb_lahead ); - - IF( EQ_16( length, SHB_OVERLAP_LEN / 2 ) ) - { - sum_gain_fx = 0; - move16(); - FOR( k = 0; k < shr( length, 1 ); k++ ) - { - sum_gain_fx = mult_r( subwin_fx[2 * k + 2], subgain_fx[0] ); - mod_syn_fx[skip[0] + k] = Mpy_32_16_1( synSHB_fx[skip[0] + k], sum_gain_fx ); - move32(); // Qx - mod_syn_fx[skip[0] + k + length / 2] = Mpy_32_16_1( synSHB_fx[skip[0] + k + length / 2], subgain_fx[0] ); // Qx - move32(); - } - FOR( i = 1; i < NUM_SHB_SUBFR / 2; i++ ) - { - FOR( k = 0; k < length; k++ ) - { - L_tmp = L_mult0( subwin_fx[k + 1], subgain_fx[i] ); - sum_gain_fx = round_fx( L_mac0( L_tmp, subwin_fx[length - k - 1], subgain_fx[i - 1] ) ); - mod_syn_fx[skip[i] + k] = L_shl( Mpy_32_16_1( synSHB_fx[skip[i] + k], sum_gain_fx ), 1 ); // Qx - move32(); - } - } - FOR( k = 0; k < shr( length, 1 ); k++ ) - { - sum_gain_fx = mult_r( subwin_fx[length - k * 2 - 2], subgain_fx[i - 1] ); - mod_syn_fx[skip[i] + k] = Mpy_32_16_1( synSHB_fx[skip[i] + k], sum_gain_fx ); // Qx - move32(); - } - } - ELSE - { - num_join = NUM_SHB_SUBFR / NUM_SHB_SUBGAINS; - join_length = i_mult( num_join, length ); - j = 0; - move16(); - move16(); - FOR( k = 0; k < length; k++ ) - { - mod_syn_fx[j] = Mpy_32_16_1( synSHB_fx[j], mult_r( subwin_fx[k + 1], subgain_fx[0] ) ); // Qx - move32(); - j = add( j, 1 ); - } - FOR( i = 0; i < NUM_SHB_SUBGAINS - 1; i++ ) - { - FOR( k = 0; k < join_length - length; k++ ) - { - mod_syn_fx[j] = Mpy_32_16_1( synSHB_fx[j], subgain_fx[i * num_join] ); // Qx - move32(); - j = add( j, 1 ); - } - - FOR( k = 0; k < length; k++ ) - { - L_tmp = L_mult0( subwin_fx[length - k - 1], subgain_fx[i * num_join] ); - mod_syn_fx[j] = L_shl( Mpy_32_16_1( synSHB_fx[j], round_fx( L_mac0( L_tmp, subwin_fx[k + 1], subgain_fx[( i + 1 ) * num_join] ) ) ), 1 ); // Qx - move32(); - j = add( j, 1 ); - } - } - FOR( k = 0; k < join_length - length; k++ ) - { - mod_syn_fx[j] = Mpy_32_16_1( synSHB_fx[j], subgain_fx[( NUM_SHB_SUBGAINS - 1 ) * num_join] ); // Qx - move32(); - j = add( j, 1 ); - } - FOR( k = 0; k < length; k++ ) - { - mod_syn_fx[j] = Mpy_32_16_1( synSHB_fx[j], mult_r( subwin_fx[length - k - 1], subgain_fx[( NUM_SHB_SUBGAINS - 1 ) * num_join] ) ); // Qx - move32(); - j = add( j, 1 ); - } - } - - Word16 norm_shift = norm_l( frame_gain_fx ); - if ( frame_gain_fx == 0 ) - { - norm_shift = 31; - move16(); - } - - norm_shift = s_min( norm_shift, 14 ); - norm_shift = sub( norm_shift, 1 ); - - *Q_new = add( *Q_inp, sub( norm_shift, 13 ) ); // Q_new = Q_inp + min(norm_shift,14) - 14; - move16(); - FOR( i = 0; i < L_SHB_LAHEAD; i++ ) - { - overlap_fx[i] = L_shl( overlap_fx[i], sub( *Q_new, *Q_inp ) ); - move32(); - } - - FOR( i = 0; i < l_shb_lahead; i++ ) - { - synSHB_fx[i] = Mpy_32_32( mod_syn_fx[i], Mpy_32_16_1( L_shl( frame_gain_fx, norm_shift ), win_fx[i] ) ); // Q_new - synSHB_fx[i] = L_add( synSHB_fx[i], overlap_fx[i] ); - synSHB_fx[i + l_shb_lahead] = Mpy_32_32( mod_syn_fx[i], L_shl( frame_gain_fx, norm_shift ) ); // Q_new - move32(); - move32(); - move32(); - } - - FOR( ; i < l_frame; i++ ) - { - synSHB_fx[i] = Mpy_32_32( mod_syn_fx[i], L_shl( frame_gain_fx, norm_shift ) ); // Q_new - move32(); - } - - FOR( ; i < l_frame + l_shb_lahead; i++ ) - { - synSHB_fx[i] = L_shl( synSHB_fx[i], sub( *Q_new, *Q_inp ) ); - overlap_fx[i - l_frame] = Mpy_32_32( mod_syn_fx[i], Mpy_32_16_1( L_shl( frame_gain_fx, norm_shift ), win_fx[l_frame + l_shb_lahead - 1 - i] ) ); // Q_new - move32(); - move32(); - } - - *Q_inp = *Q_new; - move16(); - return; -} diff --git a/lib_com/swb_tbe_com_fx.c b/lib_com/swb_tbe_com_fx.c index 6cdf1185ade75e8eeecc06865dbb904e990bcdbe..238b478c5abce7058655ca0592e3f89969e1e201 100644 --- a/lib_com/swb_tbe_com_fx.c +++ b/lib_com/swb_tbe_com_fx.c @@ -7,17 +7,17 @@ #include "options.h" #include "cnst.h" /* Common constants */ #include "rom_com.h" /* Static table prototypes */ -#include "prot.h" #include "prot_fx.h" #include "basop_util.h" #include "ivas_prot_fx.h" #include "options_warnings.h" -#define POW_EXC16k_WHTND 1.14e11f /* power of random excitation, length 320 samples, uniform distribution */ -#define POW_EXC16k_WHTND_FX_INV_SQRT 6360 // Q31 -#define POW_EXC16k_WHTND_FX 178125000 // Q-6 -#define THR_ENV_ERROR_PLOSIVE 200.0f /* threshold for envelope error used in plosive detection */ -#define THR_ENV_ERROR_PLOSIVE_FX 200 /* threshold for envelope error used in plosive detection Q0 */ +#define POW_EXC16k_WHTND 1.14e11f /* power of random excitation, length 320 samples, uniform distribution */ +#define POW_EXC16k_WHTND_FX_INV_SQRT 6360 // Q31 +#define POW_EXC16k_WHTND_FX_INV_SQRT_IN_Q49 1667313793 // Q49 +#define POW_EXC16k_WHTND_FX 178125000 // Q-6 +#define THR_ENV_ERROR_PLOSIVE 200.0f /* threshold for envelope error used in plosive detection */ +#define THR_ENV_ERROR_PLOSIVE_FX 200 /* threshold for envelope error used in plosive detection Q0 */ /*-----------------------------------------------------------------* * Local function prototypes @@ -73,7 +73,7 @@ void swb_tbe_reset_fx( * Reset the extra parameters needed for synthesis of the SWB TBE output *-------------------------------------------------------------------*/ -void swb_tbe_reset_synth_ivas_fx( +void swb_tbe_reset_synth_fx( Word32 genSHBsynth_Hilbert_Mem[], Word16 genSHBsynth_state_lsyn_filt_shb_local_fx[], Word32 genSHBsynth_state_lsyn_filt_shb_local_fx_32[] ) @@ -81,17 +81,11 @@ void swb_tbe_reset_synth_ivas_fx( set32_fx( genSHBsynth_Hilbert_Mem, 0, HILBERT_MEM_SIZE ); set16_fx( genSHBsynth_state_lsyn_filt_shb_local_fx, 0, 2 * ALLPASSSECTIONS_STEEP ); - set32_fx( genSHBsynth_state_lsyn_filt_shb_local_fx_32, 0, 2 * ALLPASSSECTIONS_STEEP ); - - return; -} -void swb_tbe_reset_synth_fx( - Word32 genSHBsynth_Hilbert_Mem[], - Word16 genSHBsynth_state_lsyn_filt_shb_local_fx[] ) -{ - set32_fx( genSHBsynth_Hilbert_Mem, 0, HILBERT_MEM_SIZE ); - set16_fx( genSHBsynth_state_lsyn_filt_shb_local_fx, 0, 2 * ALLPASSSECTIONS_STEEP ); + if ( genSHBsynth_state_lsyn_filt_shb_local_fx_32 != NULL ) + { + set32_fx( genSHBsynth_state_lsyn_filt_shb_local_fx_32, 0, 2 * ALLPASSSECTIONS_STEEP ); + } return; } @@ -487,10 +481,12 @@ void flip_and_downmix_generic_fx( *phase_state = j; move16(); + return; } -void flip_and_downmix_generic_fx_32( + +void flip_and_downmix_generic_fx32( Word32 input[], /* i : input spectrum Qx*/ Word32 output[], /* o : output spectrum Qx*/ const Word16 length, /* i : length of spectra */ @@ -1041,11 +1037,7 @@ static void filt_mu_fx( FOR( n = 0; n < SubFrameLength; n++ ) { temp = mult_r( mu, ( *ptrs++ ) ); -#ifdef FIX_ISSUE_1155 temp = add_sat( temp, *ptrs ); /*Q12 */ -#else - temp = add( temp, *ptrs ); /*Q12 */ -#endif sig_out[n] = shl_o( mult_r( ga, temp ), 1, &Overflow ); move16(); /*Q12 */ } @@ -3967,7 +3959,7 @@ void GenShapedSHBExcitation_ivas_dec_fx( Word16 exc32k[L_FRAME32k], exc16k[L_FRAME16k]; Word32 pow1, pow22; Word16 scale, temp1, temp2, temp3; - + Word16 Q_White_exc16k; Word16 excTmp2[L_FRAME16k]; Word16 *White_exc16k; Word16 excNoisyEnv[L_FRAME16k]; @@ -3998,12 +3990,13 @@ void GenShapedSHBExcitation_ivas_dec_fx( Word32 White_exc16k_32[L_FRAME16k]; Word16 White_exc16k_tmp[L_FRAME16k]; Word16 Q_temp; - Word16 prev_Q_bwe_exc_fb; - Word16 chk1, chk2; + Word16 prev_Q_bwe_exc_fb, Q_exc16kWhtnd; + Word16 chk1; + Word32 chk2; chk1 = 0; chk2 = 0; move16(); - move16(); + move32(); #if 1 // def ADD_IVAS_TBE_CODE Word16 alpha, step, mem_csfilt_left, mem_csfilt_right, excNoisyEnvLeft[L_FRAME16k], excNoisyEnvRight[L_FRAME16k]; @@ -4271,7 +4264,7 @@ void GenShapedSHBExcitation_ivas_dec_fx( } /* normalize the amplitude of the gaussian excitation to that of the LB exc. */ - Word32 pow22_inv = POW_EXC16k_WHTND_FX_INV_SQRT; + Word32 pow22_inv = POW_EXC16k_WHTND_FX_INV_SQRT_IN_Q49; move32(); move32(); pow22 = POW_EXC16k_WHTND_FX; @@ -4280,21 +4273,23 @@ void GenShapedSHBExcitation_ivas_dec_fx( // v_multc(White_exc16k, (float)sqrt(pow1 / pow22), White_exc16k, L_FRAME16k); Word16 pow1_exp = sub( Q31, Q_pow1 ); Word32 temp_pow = Sqrt32( pow1, &pow1_exp ); - temp_pow = L_shl( Mpy_32_32( temp_pow, pow22_inv ), pow1_exp ); + temp_pow = Mpy_32_32( temp_pow, pow22_inv ); /*Word16 out_exp; Word32 temp_pow1 = root_a_over_b_fx(pow1, Q_pow1, pow22, Q_pow22, &out_exp); temp_pow1 = L_shl(temp_pow1, out_exp);*/ // v_multc_fixed_16_16(White_exc16k, round_fx(temp_pow), White_exc16k, L_FRAME16k); L_tmp = 0; move32(); + shift = getScaleFactor16( White_exc16k, L_FRAME16k ); FOR( k = 0; k < L_FRAME16k; k++ ) { White_exc16k_32[k] = Mpy_32_16_1( temp_pow, White_exc16k[k] ); move32(); - White_exc16k[k] = round_fx( L_shl( White_exc16k_32[k], sub( *Q_bwe_exc, NOISE_QADJ ) ) ); // Q_bwe_exc - NOISE_QADJ + White_exc16k[k] = round_fx( L_shl( White_exc16k_32[k], shift ) ); // Q_White_exc16k move16(); L_tmp = L_max( L_tmp, L_abs( White_exc16k_32[k] ) ); } + Q_White_exc16k = add( shift, sub( 49 - 31, pow1_exp ) ); Q_temp = norm_l( L_tmp ); IF( L_tmp == 0 ) { @@ -4332,22 +4327,24 @@ void GenShapedSHBExcitation_ivas_dec_fx( /* calculate pow22 */ /* pow22=0.00001f */ tmp = sub( shl( sub( *Q_bwe_exc, NOISE_QADJ ), 1 ), 31 ); - pow22 = L_shl( 21475l /*0.00001f Q31*/, tmp ); /* 0.00001f in 2*(*Q_bwe_exc-NOISE_QADJ) */ + Word64 sum = W_shl( 21475l /*0.00001f Q31*/, tmp ); /* 0.00001f in 2*(*Q_bwe_exc-NOISE_QADJ) */ + Q_White_exc16k = getScaleFactor32( White_exc16k_32, L_FRAME16k ); FOR( k = 0; k < L_FRAME16k; k++ ) { - /* White_exc16k[k] *= excNoisyEnv[k]; */ - White_exc16k[k] = mult_r( excNoisyEnv[k], shl( White_exc16k[k], 1 ) ); // Q_excTmp2 + 5 + 1 - 15 ==> Q_excTmp2 - 9 - move16(); - chk2 = s_or( chk2, White_exc16k[k] ); + + White_exc16k[k] = extract_h( L_shl( White_exc16k_32[k], Q_White_exc16k ) ); // Q_excTmp2 + 6 + Q_White_exc16k - 16 ==> Q_excTmp2 + Q_White_exc16k - 10 + chk2 = L_or( chk2, White_exc16k_32[k] ); /* i: excNoisyEnv in (Q_excTmp2) */ /* i: White_exc16k in Q6 */ - /* o: White_exc16k in (Q_bwe_exc-NOISE_QADJ) */ + /* o: White_exc16k in (Q_White_exc16k) */ /* pow22 += White_exc16k[k] * White_exc16k[k]; */ - pow22 = L_mac0_sat( pow22, White_exc16k[k], White_exc16k[k] ); /* 2*(Q_excTmp2-NOISE_QADJ)*/ + sum = W_mac0_16_16( sum, White_exc16k[k], White_exc16k[k] ); /* 2*(Q_excTmp2 + Q_White_exc16k - 10)*/ + move16(); } - /*Q_pow22 = sub( shl(*Q_bwe_exc,1), 18 );*/ - Q_pow22 = shl( sub( Q_excTmp2, NOISE_QADJ ), 1 ); - Scale_sig( White_exc16k, L_FRAME16k, sub( *Q_bwe_exc, Q_excTmp2 ) ); + Q_pow22 = W_norm( sum ); + pow22 = W_extract_h( W_shl( sum, Q_pow22 ) ); // 2*(Q_excTmp2 + Q_White_exc16k - 10)+Q_pow22-32 + Q_pow22 = sub( add( Q_pow22, shl( sub( add( Q_White_exc16k, Q_excTmp2 ), 10 ), 1 ) ), 32 ); + Q_White_exc16k = add( Q_White_exc16k, sub( Q_excTmp2, 10 ) ); } #if 1 // def ADD_IVAS_TBE_CODE @@ -4634,7 +4631,6 @@ void GenShapedSHBExcitation_ivas_dec_fx( move16(); } } -#if 1 // def ADD_IVAS_TBE_CODE test(); IF( GE_16( element_mode, IVAS_CPE_DFT ) && nlExc16k != NULL ) { @@ -4647,29 +4643,42 @@ void GenShapedSHBExcitation_ivas_dec_fx( temp_fac = Sqrt16(temp_fac, &temp_fac_exp);*/ L_tmp = root_a_over_b_fx( pow1, Q_pow1, pow22, Q_pow22, &exp ); Word16 temp_fac = round_fx_sat( L_shl_sat( L_tmp, exp ) ); // Q15 + shift = sub( sub( *Q_bwe_exc, NOISE_QADJ ), Q_White_exc16k ); // v_multc_fixed_16_16(White_exc16k,shr(temp_fac, temp_fac_exp) , mixExc16k, L_FRAME16k); FOR( k = 0; k < L_FRAME16k; k++ ) { - mixExc16k[k] = mult_r( White_exc16k[k], temp_fac ); + mixExc16k[k] = mult_r( shl_sat( White_exc16k[k], shift ), temp_fac ); move16(); } } -#endif tmp = sub( Q_temp, 3 ); FOR( k = 0; k < L_FRAME16k; k++ ) { - White_exc16k_FB[k] = White_exc16k[k]; /* Q_bwe_exc-NOISE_QADJ */ + White_exc16k_FB[k] = White_exc16k[k]; /* Q_White_exc16k */ } prev_Q_bwe_exc_fb = *Q_bwe_exc_fb; move16(); - *Q_bwe_exc_fb = sub( *Q_bwe_exc, NOISE_QADJ ); + *Q_bwe_exc_fb = Q_White_exc16k; move16(); + *tbe_demph = shl_sat( *tbe_demph, sub( Q_White_exc16k, sub( *Q_bwe_exc, NOISE_QADJ ) ) ); deemph_fx( White_exc16k, PREEMPH_FAC, L_FRAME16k, tbe_demph ); - /* i/o: White_exc16k (Q_bwe_exc-NOISE_QADJ) */ - /* i: tbe_demph (Q_bwe_exc-NOISE_QADJ) */ + *tbe_demph = shl_sat( *tbe_demph, sub( sub( *Q_bwe_exc, NOISE_QADJ ), Q_White_exc16k ) ); -#if 1 // def ADD_IVAS_TBE_CODE + Q_exc16kWhtnd = getScaleFactor16( exc16kWhtnd, L_FRAME16k ); + Q_exc16kWhtnd = add( Q_exc16kWhtnd, *Q_bwe_exc ); + + shift = getScaleFactor16( White_exc16k, L_FRAME16k ); + + shift = s_min( Q_exc16kWhtnd, add( shift, Q_White_exc16k ) ); + scale_sig( exc16kWhtnd, L_FRAME16k, sub( shift, *Q_bwe_exc ) ); + scale_sig( White_exc16k, L_FRAME16k, sub( shift, Q_White_exc16k ) ); + + Q_exc16kWhtnd = Q_White_exc16k = shift; + move16(); + move16(); + *tbe_premph = shl_sat( *tbe_premph, sub( Q_White_exc16k, sub( *Q_bwe_exc, NOISE_QADJ ) ) ); + move16(); test(); IF( EQ_32( extl_brate, SWB_TBE_1k10 ) || EQ_32( extl_brate, SWB_TBE_1k75 ) ) { @@ -4702,11 +4711,8 @@ void GenShapedSHBExcitation_ivas_dec_fx( /* mixing of LB and gaussian excitation in the first half of the frame */ FOR( k = 0; k < L_FRAME16k / 2; k++ ) { - // exc16kWhtnd[k] = (float)fact * (White_exc16k[k] * scale) + (float)(1 - fact) * exc16kWhtnd[k]; - // exc16kWhtnd[k] = add(mult_r(fact, mult(shl(White_exc16k[k], *Q_bwe_exc), scale)), mult_r(sub(32767, fact), exc16kWhtnd[k])); - L_tmp = L_add( L_shl( L_mult( fact, mult_r( White_exc16k[k], scale ) ), NOISE_QADJ ), - L_mult( sub( 32767, fact ), exc16kWhtnd[k] ) ); // Q_bwe_exc - exc16kWhtnd[k] = round_fx( L_tmp ); + exc16kWhtnd[k] = mac_r( L_mult( fact, mult_r( White_exc16k[k], scale ) ), + sub( 32767, fact ), exc16kWhtnd[k] ); // Q_exc16kWhtnd move16(); fact = add_sat( fact, step ); scale = add_sat( scale, step_scale ); @@ -4715,11 +4721,8 @@ void GenShapedSHBExcitation_ivas_dec_fx( /* mixing of LB and gaussian excitation in the second half of the frame */ FOR( ; k < L_FRAME16k; k++ ) { - // exc16kWhtnd[k] = (float)new_fact * White_exc16k[k] + (float)(1 - new_fact) * exc16kWhtnd[k]; - // exc16kWhtnd[k] = add(mult_r(new_fact, shl(White_exc16k[k], *Q_bwe_exc)), mult_r(sub(32767, new_fact), exc16kWhtnd[k])); - L_tmp = L_add( L_shl( L_mult( new_fact, White_exc16k[k] ), NOISE_QADJ ), - mult_r( sub( 32767, new_fact ), exc16kWhtnd[k] ) ); // Q_bwe_exc - exc16kWhtnd[k] = round_fx( L_tmp ); + exc16kWhtnd[k] = mac_r( L_mult( new_fact, White_exc16k[k] ), + sub( 32767, new_fact ), exc16kWhtnd[k] ); // Q_exc16kWhtnd move16(); } } @@ -4727,14 +4730,9 @@ void GenShapedSHBExcitation_ivas_dec_fx( PREEMPH_FX( exc16kWhtnd, PREEMPH_FAC, L_FRAME16k, tbe_premph ); } ELSE -#endif { -#if 1 // def ADD_IVAS_TBE_CODE test(); IF( EQ_16( coder_type, UNVOICED ) || EQ_16( MSFlag, 1 ) ) -#else - IF( EQ_16( coder_type, UNVOICED ) ) -#endif { L_tmp = root_a_over_b_fx( pow1, Q_pow1, pow22, Q_pow22, &exp ); test(); @@ -4746,16 +4744,12 @@ void GenShapedSHBExcitation_ivas_dec_fx( scale = round_fx_sat( L_shl_sat( L_tmp, exp ) ); /*Q15 */ FOR( k = 0; k < L_FRAME16k; k++ ) { - /* White_exc16k: (Q_bwe_exc-NOISE_QADJ), scale: Q15 */ - L_tmp = L_mult( White_exc16k[k], scale ); - /* L_tmp: (Q_bwe_exc-NOISE_QADJ) + 15 + 1 */ - exc16kWhtnd[k] = round_fx_sat( L_shl_sat( L_tmp, NOISE_QADJ ) ); + exc16kWhtnd[k] = mult_r_sat( White_exc16k[k], scale ); move16(); - /* exc16kWhtnd: Q_bwe_exc */ } PREEMPH_FX( exc16kWhtnd, PREEMPH_FAC, L_FRAME16k, tbe_premph ); - /* i/o: exc16kWhtnd (Q_bwe_exc) */ - /* i/o: tbe_premph (Q_bwe_exc) */ + /* i/o: exc16kWhtnd (Q_exc16kWhtnd) */ + /* i/o: tbe_premph (Q_exc16kWhtnd) */ } ELSE { @@ -4818,11 +4812,10 @@ void GenShapedSHBExcitation_ivas_dec_fx( FOR( j = 0; j < lSubFr; j++ ) { /*exc16kWhtnd[k+j] = temp1 * exc16kWhtnd[k+j] + temp2 * White_exc16k[k+j]; */ - L_tmp = L_mult( temp2, White_exc16k[k + j] ); /* 16+(Q_bwe_exc-NOISE_QADJ)*/ - L_tmp = L_shl_sat( L_tmp, NOISE_QADJ ); /* 16+(Q_bwe_exc) */ + L_tmp = L_mult( temp2, White_exc16k[k + j] ); exc16kWhtnd[k + j] = mac_r_sat( L_tmp, temp1, exc16kWhtnd[k + j] ); move16(); - /* Q_bwe_exc */ + /* Q_exc16kWhtnd */ } k = add( k, lSubFr ); @@ -4836,19 +4829,18 @@ void GenShapedSHBExcitation_ivas_dec_fx( temp2 = add( temp, shl( temp1, -1 ) ); /* shift right by 1 to avoid overflow */ temp = div_s( temp, temp2 ); /* Q15 */ temp = mult_r( PREEMPH_FAC, temp ); - PREEMPH_FX( &exc16kWhtnd[i * lSubFr], temp, lSubFr, tbe_premph ); - /* exc16kWhtnd: Q_bwe_exc; - tbe_premph: Q_bwe_exc*/ + /* exc16kWhtnd: Q_exc16kWhtnd; + tbe_premph: Q_exc16kWhtnd*/ } } } + *tbe_premph = shl_sat( *tbe_premph, sub( sub( *Q_bwe_exc, NOISE_QADJ ), Q_White_exc16k ) ); + move16(); + Scale_sig( White_exc16k, L_FRAME16k, sub( sub( *Q_bwe_exc, NOISE_QADJ ), Q_White_exc16k ) ); + Scale_sig( exc16kWhtnd, L_FRAME16k, sub( *Q_bwe_exc, Q_White_exc16k ) ); -#if 1 // def ADD_IVAS_TBE_CODE IF( LT_32( extl_brate, SWB_TBE_2k8 ) ) -#else - IF( LT_32( bitrate, ACELP_24k40 ) ) -#endif { Syn_filt_s( 0, lpc_shb, LPC_SHB_ORDER, exc16kWhtnd, excSHB, L_FRAME16k, state_lpc_syn, 1 ); /* i: exc16kWhtnd in Q_bwe_exc */ @@ -5080,6 +5072,86 @@ void GenSHBSynth_fx( } +/* IVAS 32-bit variant */ +void GenSHBSynth_fx32( + const Word32 *input_synspeech, /* i : input synthesized speech Qx*/ + Word32 *shb_syn_speech_32k, /* o : output highband component Qx*/ + Word32 Hilbert_Mem[], /* i/o: memory Qx*/ + Word32 state_lsyn_filt_shb_local[], /* i/o: memory Qx*/ + const Word16 L_frame, /* i : ACELP frame length */ + Word16 *syn_dm_phase ) +{ + Word32 speech_buf_32k[L_FRAME32k]; + Word16 i; + + Word16 shift = 0; + Word32 maxm32, input_synspeech_temp[L_FRAME16k]; + move16(); + + /* find the maximum value and derive the shift to improve precision of the Hilber filter */ + maxm32 = L_deposit_l( 0 ); + FOR( i = 0; i < L_FRAME16k; i++ ) + { + maxm32 = L_max( maxm32, L_abs( input_synspeech[i] ) ); + } + + FOR( i = 0; i < 2 * ALLPASSSECTIONS_STEEP; i++ ) + { + maxm32 = L_max( maxm32, L_abs( state_lsyn_filt_shb_local[i] ) ); + } + + FOR( i = 0; i < HILBERT_MEM_SIZE; i++ ) + { + maxm32 = L_max( maxm32, L_abs( Hilbert_Mem[i] ) ); + } + + IF( maxm32 != 0 ) + { + shift = sub( norm_l( maxm32 ), 3 ); + + Copy_Scale_sig32( input_synspeech, input_synspeech_temp, L_FRAME16k, shift ); + Scale_sig32( state_lsyn_filt_shb_local, 2 * ALLPASSSECTIONS_STEEP, shift ); + Scale_sig32( Hilbert_Mem, HILBERT_MEM_SIZE, shift ); + } + ELSE + { + Copy32( input_synspeech, input_synspeech_temp, L_FRAME16k ); + } + + Interpolate_allpass_steep_fx32( input_synspeech_temp, state_lsyn_filt_shb_local, L_FRAME16k, speech_buf_32k ); + + IF( EQ_16( L_frame, L_FRAME ) ) + { + flip_and_downmix_generic_fx32( speech_buf_32k, shb_syn_speech_32k, L_FRAME32k, Hilbert_Mem, Hilbert_Mem + HILBERT_ORDER1, Hilbert_Mem + ( HILBERT_ORDER1 + 2 * HILBERT_ORDER2 ), syn_dm_phase ); + } + ELSE + { + FOR( i = 0; i < L_FRAME32k; i++ ) + { + // shb_syn_speech_32k[i] = ( ( i % 2 ) == 0 ) ? ( -speech_buf_32k[i] ) : ( speech_buf_32k[i] ); + IF( i % 2 == 0 ) + { + shb_syn_speech_32k[i] = L_negate( speech_buf_32k[i] ); // Qx + } + ELSE + { + shb_syn_speech_32k[i] = speech_buf_32k[i]; // Qx + } + move32(); + } + } + + IF( maxm32 != 0 ) + { + Scale_sig32( shb_syn_speech_32k, L_FRAME32k, negate( shift ) ); + Scale_sig32( state_lsyn_filt_shb_local, 2 * ALLPASSSECTIONS_STEEP, negate( shift ) ); + Scale_sig32( Hilbert_Mem, HILBERT_MEM_SIZE, negate( shift ) ); + } + + return; +} + + /*==============================================================================*/ /* FUNCTION : void ScaleShapedSHB_fx() */ /*------------------------------------------------------------------------------*/ @@ -5301,6 +5373,165 @@ void ScaleShapedSHB_fx( return; } + +/* IVAS 32-bit variant */ +void ScaleShapedSHB_fx32( + const Word16 length, /* i : SHB overlap length */ + Word32 *synSHB_fx, /* i/o: synthesized shb signal Q_inp/Q_new */ + Word32 *overlap_fx, /* i/o: buffer for overlap-add Q_inp/Q_new */ + const Word16 *subgain_fx, /* i : subframe gain Q15 */ + const Word32 frame_gain_fx, /* i : frame gain Q18*/ + const Word16 *win_fx, /* i : window Q15 */ + const Word16 *subwin_fx, /* i : subframes window Q15 */ + Word16 *Q_inp, + Word16 *Q_new ) +{ + const Word16 *skip; + Word16 i, j, k, l_shb_lahead, l_frame; + Word16 join_length, num_join; + Word32 mod_syn_fx[L_FRAME16k + L_SHB_LAHEAD], L_tmp; + Word16 sum_gain_fx; + + /* initilaization */ + l_frame = L_FRAME16k; + l_shb_lahead = L_SHB_LAHEAD; + move16(); + move16(); + skip = skip_bands_SWB_TBE; + + IF( EQ_16( length, SHB_OVERLAP_LEN / 2 ) ) + { + skip = skip_bands_WB_TBE; + l_frame = L_FRAME16k / 4; + l_shb_lahead = L_SHB_LAHEAD / 4; + move16(); + move16(); + } + + /* apply gain for each subframe, and store noise output signal using overlap-add */ + set32_fx( mod_syn_fx, 0, l_frame + l_shb_lahead ); + + IF( EQ_16( length, SHB_OVERLAP_LEN / 2 ) ) + { + sum_gain_fx = 0; + move16(); + FOR( k = 0; k < shr( length, 1 ); k++ ) + { + sum_gain_fx = mult_r( subwin_fx[2 * k + 2], subgain_fx[0] ); + mod_syn_fx[skip[0] + k] = Mpy_32_16_1( synSHB_fx[skip[0] + k], sum_gain_fx ); + move32(); // Qx + mod_syn_fx[skip[0] + k + length / 2] = Mpy_32_16_1( synSHB_fx[skip[0] + k + length / 2], subgain_fx[0] ); // Qx + move32(); + } + FOR( i = 1; i < NUM_SHB_SUBFR / 2; i++ ) + { + FOR( k = 0; k < length; k++ ) + { + L_tmp = L_mult0( subwin_fx[k + 1], subgain_fx[i] ); + sum_gain_fx = round_fx( L_mac0( L_tmp, subwin_fx[length - k - 1], subgain_fx[i - 1] ) ); + mod_syn_fx[skip[i] + k] = L_shl( Mpy_32_16_1( synSHB_fx[skip[i] + k], sum_gain_fx ), 1 ); // Qx + move32(); + } + } + FOR( k = 0; k < shr( length, 1 ); k++ ) + { + sum_gain_fx = mult_r( subwin_fx[length - k * 2 - 2], subgain_fx[i - 1] ); + mod_syn_fx[skip[i] + k] = Mpy_32_16_1( synSHB_fx[skip[i] + k], sum_gain_fx ); // Qx + move32(); + } + } + ELSE + { + num_join = NUM_SHB_SUBFR / NUM_SHB_SUBGAINS; + join_length = i_mult( num_join, length ); + j = 0; + move16(); + move16(); + FOR( k = 0; k < length; k++ ) + { + mod_syn_fx[j] = Mpy_32_16_1( synSHB_fx[j], mult_r( subwin_fx[k + 1], subgain_fx[0] ) ); // Qx + move32(); + j = add( j, 1 ); + } + FOR( i = 0; i < NUM_SHB_SUBGAINS - 1; i++ ) + { + FOR( k = 0; k < join_length - length; k++ ) + { + mod_syn_fx[j] = Mpy_32_16_1( synSHB_fx[j], subgain_fx[i * num_join] ); // Qx + move32(); + j = add( j, 1 ); + } + + FOR( k = 0; k < length; k++ ) + { + L_tmp = L_mult0( subwin_fx[length - k - 1], subgain_fx[i * num_join] ); + mod_syn_fx[j] = L_shl( Mpy_32_16_1( synSHB_fx[j], round_fx( L_mac0( L_tmp, subwin_fx[k + 1], subgain_fx[( i + 1 ) * num_join] ) ) ), 1 ); // Qx + move32(); + j = add( j, 1 ); + } + } + FOR( k = 0; k < join_length - length; k++ ) + { + mod_syn_fx[j] = Mpy_32_16_1( synSHB_fx[j], subgain_fx[( NUM_SHB_SUBGAINS - 1 ) * num_join] ); // Qx + move32(); + j = add( j, 1 ); + } + FOR( k = 0; k < length; k++ ) + { + mod_syn_fx[j] = Mpy_32_16_1( synSHB_fx[j], mult_r( subwin_fx[length - k - 1], subgain_fx[( NUM_SHB_SUBGAINS - 1 ) * num_join] ) ); // Qx + move32(); + j = add( j, 1 ); + } + } + + Word16 norm_shift = norm_l( frame_gain_fx ); + if ( frame_gain_fx == 0 ) + { + norm_shift = 31; + move16(); + } + + norm_shift = s_min( norm_shift, 14 ); + norm_shift = sub( norm_shift, 1 ); + + *Q_new = add( *Q_inp, sub( norm_shift, 13 ) ); // Q_new = Q_inp + min(norm_shift,14) - 14; + move16(); + FOR( i = 0; i < L_SHB_LAHEAD; i++ ) + { + overlap_fx[i] = L_shl( overlap_fx[i], sub( *Q_new, *Q_inp ) ); + move32(); + } + + FOR( i = 0; i < l_shb_lahead; i++ ) + { + synSHB_fx[i] = Mpy_32_32( mod_syn_fx[i], Mpy_32_16_1( L_shl( frame_gain_fx, norm_shift ), win_fx[i] ) ); // Q_new + synSHB_fx[i] = L_add( synSHB_fx[i], overlap_fx[i] ); + synSHB_fx[i + l_shb_lahead] = Mpy_32_32( mod_syn_fx[i], L_shl( frame_gain_fx, norm_shift ) ); // Q_new + move32(); + move32(); + move32(); + } + + FOR( ; i < l_frame; i++ ) + { + synSHB_fx[i] = Mpy_32_32( mod_syn_fx[i], L_shl( frame_gain_fx, norm_shift ) ); // Q_new + move32(); + } + + FOR( ; i < l_frame + l_shb_lahead; i++ ) + { + synSHB_fx[i] = L_shl( synSHB_fx[i], sub( *Q_new, *Q_inp ) ); + overlap_fx[i - l_frame] = Mpy_32_32( mod_syn_fx[i], Mpy_32_16_1( L_shl( frame_gain_fx, norm_shift ), win_fx[l_frame + l_shb_lahead - 1 - i] ) ); // Q_new + move32(); + move32(); + } + + *Q_inp = *Q_new; + move16(); + return; +} + + /*-------------------------------------------------------------------* * ScaleShapedWB() * @@ -5316,15 +5547,11 @@ void ScaleShapedWB_fx( const Word16 *win, /* i : window Q15*/ const Word16 *subwin, /* i : subframes window Q15*/ const Word16 Q_bwe_exc, - Word16 L_frame /* i : Frame length - determines whether 12.8 or 16kHz core in-use */ - , - Word16 dynQ /* i : indicate whether output is dynamic Q, or Q0 */ - , - Word16 *Qx /* o : newly computed Q factor for synSHB */ - , - Word16 prev_Qx /* i : prev_Qx for memory scaling */ - , - Word32 *Hilbert_Mem /* i : Hilbert memory used for computing Qx */ + Word16 L_frame, /* i : Frame length - determines whether 12.8 or 16kHz core in-use */ + Word16 dynQ, /* i : indicate whether output is dynamic Q, or Q0 */ + Word16 *Qx, /* o : newly computed Q factor for synSHB */ + Word16 prev_Qx, /* i : prev_Qx for memory scaling */ + Word32 *Hilbert_Mem /* i : Hilbert memory used for computing Qx */ ) { const Word16 *skip; diff --git a/lib_com/syn_filt_fx.c b/lib_com/syn_filt_fx.c index 6e0f7e716fe0805021cb84d32f99f69cb7af69a0..ada0d243ea88b7c08fdb6ac8bd5d8720f9eb7f8f 100644 --- a/lib_com/syn_filt_fx.c +++ b/lib_com/syn_filt_fx.c @@ -213,14 +213,14 @@ void syn_filt_fx( FOR( i = 0; i < l; i++ ) { - s = L_mult( a0, x[i] ); + s = L_mult( a0, x[i] ); // Qx + Qa - shift + 1 FOR( j = 1; j <= m; j++ ) { - s = L_msu_sat( s, shr( a[j], shift ), yy[i - j] ); + s = L_msu_sat( s, a[j], yy[i - j] ); // Qa + Qx - shift + 1 } - s = L_shl_sat( s, q ); - yy[i] = extract_h( s ); + s = L_shl_sat( s, q ); // Qx + (Qa + q)Q15 - shift + 1 = Qx - shift + Q16 + yy[i] = extract_h( s ); // Qx - shift move16(); y[i] = extract_h( s ); move16(); @@ -639,25 +639,7 @@ void synth_mem_updt2( { lerp( old_exc + L_EXC_MEM - last_L_frame, old_exc + L_EXC_MEM - L_frame, L_frame, last_L_frame ); } -#ifdef ADD_LRTD - IF( EQ_16( dec, DEC_IVAS ) ) - { - IF( EQ_16( L_frame, L_FRAME16k ) ) - { - /* find scaling factor */ - PME() - en1 = 1.25f * sum2_f( mem_syn2, M ); - en2 = sum2_f( mem_syn_r + L_SYN_MEM - M, M ); - loc_rat = sqrtf( en2 ) / ( sqrtf( en1 ) + 0.01f ); - /* scale synthesis filter memory */ - FOR( i = 0; i < M; i++ ) - { - mem_syn_r[L_SYN_MEM - M + i] *= loc_rat; - } - } - } -#endif /*Resamp memory*/ /*Size of LPC syn memory*/ /* 1.25/20.0 = 1.0/16.0 -> shift 4 to the right. */ diff --git a/lib_com/tcq_position_arith_fx.c b/lib_com/tcq_position_arith_fx.c index 0466dc133ffdcfacc31ed63696c9eda864027398..3abd527ca8bfa8b8690066da37fd978afd1aadb9 100644 --- a/lib_com/tcq_position_arith_fx.c +++ b/lib_com/tcq_position_arith_fx.c @@ -1983,11 +1983,7 @@ Word32 encode_magnitude_tcq_fx( move16(); bits_fx = L_deposit_l( 0 ); -#ifdef IVAS_ISSUE_1188_EVS_CRASH tcq_bits_fx = L_sub( table_logcum_fx[npulses], L_add( table_logcum_fx[nzpos], table_logcum_fx[npulses - ( nzpos - 1 )] ) ); -#else - tcq_bits_fx = L_sub( table_logcum_fx[npulses], L_add( table_logcum_fx[nzpos], table_logcum_fx[npulses - nzpos - 1] ) ); -#endif *est_frame_bits_fx = L_add( *est_frame_bits_fx, tcq_bits_fx ); move32(); @@ -2470,11 +2466,7 @@ void decode_mangitude_tcq_fx( move16(); bits_fx = L_deposit_l( 0 ); -#ifdef IVAS_ISSUE_1188_EVS_CRASH tcq_bits_fx = L_sub( table_logcum_fx[npulses], L_add( table_logcum_fx[nzpos], table_logcum_fx[npulses - ( nzpos - 1 )] ) ); -#else - tcq_bits_fx = L_sub( table_logcum_fx[npulses], L_add( table_logcum_fx[nzpos], table_logcum_fx[npulses - nzpos - 1] ) ); -#endif IF( EQ_16( nzpos, npulses ) ) { diff --git a/lib_com/tcx_ltp_fx.c b/lib_com/tcx_ltp_fx.c index 55228e0b348b663d3d7c9eba8dd3408c9ef146b7..322549a6f0841e9d147075092d263ad85526b9da 100644 --- a/lib_com/tcx_ltp_fx.c +++ b/lib_com/tcx_ltp_fx.c @@ -1252,7 +1252,7 @@ Word16 tcx_ltp_decode_params( return 0; } -void tcx_ltp_post( +void tcx_ltp_post_fx( Decoder_State *st, TCX_LTP_DEC_HANDLE hTcxLtpDec, Word16 core, /* Q0 */ @@ -1282,7 +1282,7 @@ void tcx_ltp_post( filtIdx = 0; /* just to avoid comilation warnings */ move16(); - tcx_buf_len = NS2SA( st->output_Fs, TCXLTP_DELAY_NS ); /* Q0 */ + tcx_buf_len = NS2SA_FX2( st->output_Fs, TCXLTP_DELAY_NS ); /* Q0 */ SideInfoOnly = 0; move16(); if ( GE_32( total_brate, HQ_96k ) ) @@ -1616,7 +1616,8 @@ void tcx_ltp_post( } -void tcx_ltp_post32( +/* IVAS 32-bit variant */ +void tcx_ltp_post_fx32( Decoder_State *st, TCX_LTP_DEC_HANDLE hTcxLtpDec, Word16 core, /* Q0 */ diff --git a/lib_com/tcx_mdct_fx.c b/lib_com/tcx_mdct_fx.c index 1fc57871d4b4a6ab7096c28bc6dda728ee5cbd39..b2cee32e67e81bb3cd4b8af746959d3d014edd81 100644 --- a/lib_com/tcx_mdct_fx.c +++ b/lib_com/tcx_mdct_fx.c @@ -106,9 +106,7 @@ void TCX_MDCT( Word16 i; Word16 factor, neg_factor; Word16 factor_e; -#ifdef REMOVE_IVAS_UNUSED_PARAMETERS_WARNING (void) element_mode; -#endif #ifdef BASOP_NOGLOB_DECLARE_LOCAL Flag Overflow = 0; move32(); @@ -164,9 +162,7 @@ void TCX_MDST( Word16 i; Word16 factor, neg_factor; Word16 factor_e; -#ifdef REMOVE_IVAS_UNUSED_PARAMETERS_WARNING (void) element_mode; -#endif #ifdef BASOP_NOGLOB_DECLARE_LOCAL Flag Overflow = 0; move32(); @@ -226,9 +222,7 @@ void TCX_MDCT_Inverse( Word16 L2 = l, R2 = r; Word32 tmp_buf[N_MAX + L_MDCT_OVLP_MAX / 2]; Word16 fac_e; -#ifdef REMOVE_IVAS_UNUSED_PARAMETERS_WARNING (void) element_mode; -#endif L2 = shr( l, 1 ); R2 = shr( r, 1 ); diff --git a/lib_com/tcx_mdct_window.c b/lib_com/tcx_mdct_window.c index cececd8f5228da3cc6c000f11b8866edda7ae1dd..44ce806f73305390709b042c43728ab19ae3aab0 100644 --- a/lib_com/tcx_mdct_window.c +++ b/lib_com/tcx_mdct_window.c @@ -39,7 +39,6 @@ #include "options.h" #include #include "cnst.h" -#include "prot.h" #include "prot_fx.h" #include "rom_com.h" #include "wmc_auto.h" diff --git a/lib_com/tcx_utils_fx.c b/lib_com/tcx_utils_fx.c index 4e40e4ab2d30843044c2c715bb0624e7984d2e37..c5ff95e04e68c7904a93ddc7444440333131cded 100644 --- a/lib_com/tcx_utils_fx.c +++ b/lib_com/tcx_utils_fx.c @@ -9,7 +9,6 @@ #include "rom_com.h" #include "rom_basop_util.h" #include "basop_util.h" -#include "prot.h" #define inv_int InvIntTable diff --git a/lib_com/tns_base.c b/lib_com/tns_base.c index 515746bd5fbd8cde2712c4300e049a7415ae96c9..101bc1df8b6552407c352786dc2e08dd79ec5ec0 100644 --- a/lib_com/tns_base.c +++ b/lib_com/tns_base.c @@ -12,7 +12,6 @@ #include "rom_com.h" #include "prot_fx.h" #include "basop_util.h" -#include "prot.h" /*---------------------------------------------------------------------------- * Local constants diff --git a/lib_com/tools.c b/lib_com/tools.c index 4d9f5e956e17d513f53624c4a71769e7de8dd443..b1a9f4d13f29a8e3b9e0d7e53c8cd5b0b51bfb6f 100644 --- a/lib_com/tools.c +++ b/lib_com/tools.c @@ -37,7 +37,6 @@ #include #include "options.h" #include -#include "prot.h" #include "prot_fx.h" #include "wmc_auto.h" @@ -136,23 +135,6 @@ int16_t sum_s( return tmp; } -/*! r: sum of all vector elements */ -int32_t sum_l( - const int32_t *vec, /* i : input vector */ - const int16_t lvec /* i : length of input vector */ -) -{ - int16_t i; - int32_t tmpL; - - tmpL = 0; - for ( i = 0; i < lvec; i++ ) - { - tmpL += vec[i]; - } - - return tmpL; -} /*! r: sum of all vector elements */ Word32 sum_l_fx( const Word32 *vec, /* i : input vector */ @@ -171,23 +153,6 @@ Word32 sum_l_fx( return tmpL; } -/*! r: sum of all vector elements */ -float sum_f( - const float *vec, /* i : input vector */ - const int16_t lvec /* i : length of input vector */ -) -{ - int16_t i; - float tmp; - - tmp = 0.0f; - for ( i = 0; i < lvec; i++ ) - { - tmp += vec[i]; - } - - return tmp; -} /*---------------------------------------------------------------------- * sum2_f() @@ -228,22 +193,6 @@ Word32 sum2_f_16_gb_fx( return tmp; } -float sum2_f( - const float *vec, /* i : input vector */ - const int16_t lvec /* i : length of input vector */ -) -{ - int16_t i; - float tmp; - - tmp = 0.0f; - for ( i = 0; i < lvec; i++ ) - { - tmp += vec[i] * vec[i]; - } - - return tmp; -} Word32 sum2_16_exp_fx( const Word16 *vec, /* i : input vector Q(15 - exp) */ @@ -532,101 +481,6 @@ void mvs2s( return; } -uint32_t mvr2s( - const float x[], /* i : input vector */ - int16_t y[], /* o : output vector */ - const int16_t n /* i : vector size */ -) -{ - int16_t i; - float temp; - uint32_t noClipping = 0; - - if ( n <= 0 ) - { - /* cannot transfer vectors with size 0 */ - return 0; - } - - if ( (void *) y <= (const void *) x ) - { - for ( i = 0; i < n; i++ ) - { - temp = x[i]; - temp = (float) floor( temp + 0.5f ); - - if ( temp > MAX16B_FLT ) - { - temp = MAX16B_FLT; - noClipping++; - } - else if ( temp < MIN16B_FLT ) - { - temp = MIN16B_FLT; - noClipping++; - } - - y[i] = (int16_t) temp; - } - } - else - { - for ( i = n - 1; i >= 0; i-- ) - { - temp = x[i]; - temp = (float) floor( temp + 0.5f ); - - if ( temp > MAX16B_FLT ) - { - temp = MAX16B_FLT; - noClipping++; - } - else if ( temp < MIN16B_FLT ) - { - temp = MIN16B_FLT; - noClipping++; - } - - y[i] = (int16_t) temp; - } - } - - return noClipping; -} - -void mvs2r( - const int16_t x[], /* i : input vector */ - float y[], /* o : output vector */ - const int16_t n /* i : vector size */ -) -{ - int16_t i; - - if ( n <= 0 ) - { - /* cannot transfer vectors with size 0 */ - return; - } - - if ( (void *) y < (const void *) x ) - { - for ( i = 0; i < n; i++ ) - { - y[i] = (float) x[i]; - } - } - else - { - for ( i = n - 1; i >= 0; i-- ) - { - y[i] = (float) x[i]; - } - } - - return; -} - - void mvl2l( const int32_t x[], /* i : input vector */ int32_t y[], /* o : output vector */ @@ -659,44 +513,6 @@ void mvl2l( return; } - -/*---------------------------------------------------------------------* - * maximum() - * - * Find index and value of the maximum in a vector - *---------------------------------------------------------------------*/ - -/*! r: index of the maximum value in the input vector */ -int16_t maximum( - const float *vec, /* i : input vector */ - const int16_t lvec, /* i : length of input vector */ - float *max_val /* o : maximum value in the input vector */ -) -{ - int16_t j, ind; - float tmp; - - ind = 0; - tmp = vec[0]; - - for ( j = 1; j < lvec; j++ ) - { - if ( vec[j] > tmp ) - { - ind = j; - tmp = vec[j]; - } - } - - if ( max_val != NULL ) - { - *max_val = tmp; - } - - return ind; -} - - /*! r: index of the maximum value in the input vector */ Word16 maximum_s( const Word16 *vec, /* i : input vector */ @@ -766,42 +582,6 @@ Word16 maximum_l( return ind; } -/*---------------------------------------------------------------------* - * maximumAbs() - * - * Find index and value of the maximum in a vector - *---------------------------------------------------------------------*/ - -/*! r: index of the maximum value in the input vector */ -int16_t maximumAbs( - const float *vec, /* i : input vector */ - const int16_t lvec, /* i : length of input vector */ - float *max_val /* o : maximum value in the input vector */ -) -{ - int16_t j, ind; - float tmp; - - ind = 0; - tmp = (float) fabs( vec[0] ); - - for ( j = 1; j < lvec; j++ ) - { - if ( (float) fabs( vec[j] ) > tmp ) - { - ind = j; - tmp = (float) fabs( vec[j] ); - } - } - - if ( max_val != NULL ) - { - *max_val = tmp; - } - - return ind; -} - /*! r: index of the maximum value in the input vector */ Word16 maximumAbs_l( const Word32 *vec, /* i : input vector */ @@ -835,42 +615,6 @@ Word16 maximumAbs_l( return ind; } -/*---------------------------------------------------------------------* - * minimum() - * - * Find index of a minimum in a vector - *---------------------------------------------------------------------*/ - -/*! r: index of the minimum value in the input vector */ -int16_t minimum( - const float *vec, /* i : input vector */ - const int16_t lvec, /* i : length of input vector */ - float *min_val /* o : minimum value in the input vector */ -) -{ - int16_t j, ind; - float tmp; - - ind = 0; - tmp = vec[0]; - - for ( j = 1; j < lvec; j++ ) - { - if ( vec[j] < tmp ) - { - ind = j; - tmp = vec[j]; - } - } - - if ( min_val != NULL ) - { - *min_val = tmp; - } - - return ind; -} - /*-------------------------------------------------------------------* * minimum_s() * @@ -884,45 +628,23 @@ Word16 minimum_s( Word16 *min_val /* o : minimum value in the input vector */ ) { -#ifdef FIX_1105_OPT_MINIMUM_SL Word16 i, ind; -#else - Word16 i, ind, tmp; -#endif ind = 0; move16(); -#ifndef FIX_1105_OPT_MINIMUM_SL - tmp = vec[0]; - move16(); -#endif FOR( i = 1; i < lvec; i++ ) { -#ifdef FIX_1105_OPT_MINIMUM_SL if ( LT_16( vec[i], vec[ind] ) ) { ind = i; move16(); } -#else - IF( LT_16( vec[i], tmp ) ) - { - ind = i; - move16(); - tmp = vec[i]; - move16(); - } -#endif } if ( min_val != NULL ) { -#ifdef FIX_1105_OPT_MINIMUM_SL *min_val = vec[ind]; -#else - *min_val = tmp; -#endif move16(); } @@ -943,104 +665,28 @@ Word16 minimum_l( ) { Word16 i, ind; -#ifndef FIX_1105_OPT_MINIMUM_SL - Word32 tmp; -#endif ind = 0; -#ifndef FIX_1105_OPT_MINIMUM_SL - tmp = vec[0]; -#endif move16(); -#ifndef FIX_1105_OPT_MINIMUM_SL - move32(); -#endif FOR( i = 1; i < lvec; i++ ) { -#ifdef FIX_1105_OPT_MINIMUM_SL if ( LT_32( vec[i], vec[ind] ) ) { ind = i; move16(); } -#else - IF( LT_32( vec[i], tmp ) ) - { - ind = i; - tmp = vec[i]; - move16(); - move32(); - } -#endif } if ( min_val != NULL ) { -#ifdef FIX_1105_OPT_MINIMUM_SL *min_val = vec[ind]; -#else - *min_val = tmp; -#endif move32(); } return ind; } -/*---------------------------------------------------------------------* - * emaximum() - * - * Find index of a maximum energy in a vector - *---------------------------------------------------------------------*/ - -/*! r: return index with max energy value in vector */ -int16_t emaximum( - const float *vec, /* i : input vector */ - const int16_t lvec, /* i : length of input vector */ - float *ener_max /* o : maximum energy value */ -) -{ - int16_t j, ind; - float temp; - - *ener_max = 0.0f; - ind = 0; - - for ( j = 0; j < lvec; j++ ) - { - temp = vec[j] * vec[j]; - - if ( temp > *ener_max ) - { - ind = j; - *ener_max = temp; - } - } - - return ind; -} - - -/*---------------------------------------------------------------------* - * mean() - * - * Find the mean of the vector - *---------------------------------------------------------------------*/ - -/*! r: mean of vector */ -float mean( - const float *vec, /* i : input vector */ - const int16_t lvec /* i : length of input vector */ -) -{ - float tmp; - - tmp = sum_f( vec, lvec ) / (float) lvec; - - return tmp; -} - /*---------------------------------------------------------------------* * dotp() * @@ -1168,175 +814,67 @@ float inv_sqrt( return (float) ( 1.0 / sqrt( x ) ); } - /*-------------------------------------------------------------------* - * conv() + * v_add_w64() * - * Convolution between vectors x[] and h[] written to y[] - * All vectors are of length L. Only the first L samples of the - * convolution are considered. + * Subtraction of two vectors sample by sample *-------------------------------------------------------------------*/ -void conv( - const float x[], /* i : input vector */ - const float h[], /* i : impulse response (or second input vector) */ - float y[], /* o : output vetor (result of convolution) */ - const int16_t L /* i : vector size */ +void v_add_w64( + const Word64 x1[], /* i : Input vector 1 */ + const Word64 x2[], /* i : Input vector 2 */ + Word64 y[], /* o : Output vector that contains vector 1 - vector 2 */ + const Word16 N, /* i : Vector length */ + const Word16 hdrm /* i : headroom for when subtraction result > 1 or < -1 */ ) { - float temp; - int16_t i, n; - for ( n = 0; n < L; n++ ) + Word16 i; + + FOR( i = 0; i < N; i++ ) { - temp = x[0] * h[n]; - for ( i = 1; i <= n; i++ ) - { - temp += x[i] * h[n - i]; - } - y[n] = temp; + y[i] = W_add( W_shr( x1[i], hdrm ), W_shr( x2[i], hdrm ) ); + move64(); } return; } + /*-------------------------------------------------------------------* - * fir() + * v_sub() * - * FIR filtering of vector x[] with filter having impulse response h[] - * written to y[] - * The input vector has length L and the FIR filter has an order of K, i.e. - * K+1 coefficients. The memory of the input signal is provided in the vector mem[] - * which has K values - * The maximum length of the input signal is L_FRAME32k and the maximum order - * of the FIR filter is L_FILT_MAX + * Subtraction of two vectors sample by sample *-------------------------------------------------------------------*/ -void fir( - const float x[], /* i : input vector */ - const float h[], /* i : impulse response of the FIR filter */ - float y[], /* o : output vector (result of filtering) */ - float mem[], /* i/o: memory of the input signal (L samples) */ - const int16_t L, /* i : input vector size */ - const int16_t K, /* i : order of the FIR filter (K+1 coefs.) */ - const int16_t upd /* i : 1 = update the memory, 0 = not */ +void v_sub( + const float x1[], /* i : Input vector 1 */ + const float x2[], /* i : Input vector 2 */ + float y[], /* o : Output vector that contains vector 1 - vector 2 */ + const int16_t N /* i : Vector length */ ) { - float buf_in[L_FRAME48k + 60], buf_out[L_FRAME48k], s; - int16_t i, j; - - /* prepare the input buffer (copy and update memory) */ - mvr2r( mem, buf_in, K ); - mvr2r( x, buf_in + K, L ); - - if ( upd ) - { - mvr2r( buf_in + L, mem, K ); - } + int16_t i; - /* do the filtering */ - for ( i = 0; i < L; i++ ) + for ( i = 0; i < N; i++ ) { - s = buf_in[K + i] * h[0]; - - for ( j = 1; j <= K; j++ ) - { - s += h[j] * buf_in[K + i - j]; - } - - buf_out[i] = s; + y[i] = x1[i] - x2[i]; } - /* copy to the output buffer */ - mvr2r( buf_out, y, L ); - return; } /*-------------------------------------------------------------------* - * v_add() + * v_sub() * - * Addition of two vectors sample by sample + * Subtraction of two vectors sample by sample *-------------------------------------------------------------------*/ -void v_add( - const float x1[], /* i : Input vector 1 */ - const float x2[], /* i : Input vector 2 */ - float y[], /* o : Output vector that contains vector 1 + vector 2 */ - const int16_t N /* i : Vector length */ -) -{ - int16_t i; - - for ( i = 0; i < N; i++ ) - { - y[i] = x1[i] + x2[i]; - } - - return; -} - - -/*-------------------------------------------------------------------* - * v_add_w64() - * - * Subtraction of two vectors sample by sample - *-------------------------------------------------------------------*/ - -void v_add_w64( - const Word64 x1[], /* i : Input vector 1 */ - const Word64 x2[], /* i : Input vector 2 */ - Word64 y[], /* o : Output vector that contains vector 1 - vector 2 */ - const Word16 N, /* i : Vector length */ - const Word16 hdrm /* i : headroom for when subtraction result > 1 or < -1 */ -) -{ - Word16 i; - - FOR( i = 0; i < N; i++ ) - { - y[i] = W_add( W_shr( x1[i], hdrm ), W_shr( x2[i], hdrm ) ); - move64(); - } - - return; -} - - -/*-------------------------------------------------------------------* - * v_sub() - * - * Subtraction of two vectors sample by sample - *-------------------------------------------------------------------*/ - -void v_sub( - const float x1[], /* i : Input vector 1 */ - const float x2[], /* i : Input vector 2 */ - float y[], /* o : Output vector that contains vector 1 - vector 2 */ - const int16_t N /* i : Vector length */ -) -{ - int16_t i; - - for ( i = 0; i < N; i++ ) - { - y[i] = x1[i] - x2[i]; - } - - return; -} - -/*-------------------------------------------------------------------* - * v_sub() - * - * Subtraction of two vectors sample by sample - *-------------------------------------------------------------------*/ - -void v_sub_fixed( - const Word32 x1[], /* i : Input vector 1 */ - const Word32 x2[], /* i : Input vector 2 */ - Word32 y[], /* o : Output vector that contains vector 1 - vector 2 */ - const Word16 N, /* i : Vector length */ - const Word16 hdrm /* i : headroom for when subtraction result > 1 or < -1 */ +void v_sub_fixed( + const Word32 x1[], /* i : Input vector 1 */ + const Word32 x2[], /* i : Input vector 2 */ + Word32 y[], /* o : Output vector that contains vector 1 - vector 2 */ + const Word16 N, /* i : Vector length */ + const Word16 hdrm /* i : headroom for when subtraction result > 1 or < -1 */ ) { Word16 i; @@ -1350,52 +888,6 @@ void v_sub_fixed( return; } -/*-------------------------------------------------------------------* - * v_mult() - * - * Multiplication of two vectors - *-------------------------------------------------------------------*/ - -void v_mult( - const float x1[], /* i : Input vector 1 */ - const float x2[], /* i : Input vector 2 */ - float y[], /* o : Output vector that contains vector 1 .* vector 2 */ - const int16_t N /* i : Vector length */ -) -{ - int16_t i; - - for ( i = 0; i < N; i++ ) - { - y[i] = x1[i] * x2[i]; - } - - return; -} - -/*-------------------------------------------------------------------* - * v_multc() - * - * Multiplication of vector by constant - *-------------------------------------------------------------------*/ - -void v_multc( - const float x[], /* i : Input vector */ - const float c, /* i : Constant */ - float y[], /* o : Output vector that contains c*x */ - const int16_t N /* i : Vector length */ -) -{ - int16_t i; - - for ( i = 0; i < N; i++ ) - { - y[i] = c * x[i]; - } - - return; -} - /*-------------------------------------------------------------------* * v_multc_fixed() * @@ -1456,102 +948,6 @@ void v_multc_fixed_16_16( return; } -/*-------------------------------------------------------------------* - * squant() - * - * Scalar quantizer according to MMSE criterion (nearest neighbour in Euclidean space) - * - * Searches a given codebook to find the nearest neighbour in Euclidean space. - * Index of the winning codeword and the winning codeword itself are returned. - *-------------------------------------------------------------------*/ - -/*! r: index of the winning codeword */ -int16_t squant( - const float x, /* i : scalar value to quantize */ - float *xq, /* o : quantized value */ - const float cb[], /* i : codebook */ - const int16_t cbsize /* i : codebook size */ -) -{ - float dist, mindist, tmp; - int16_t c, idx; - - idx = 0; - mindist = 1e16f; - - for ( c = 0; c < cbsize; c++ ) - { - dist = 0.0f; - tmp = x - cb[c]; - dist += tmp * tmp; - if ( dist < mindist ) - { - mindist = dist; - idx = c; - } - } - - *xq = cb[idx]; - - return idx; -} - -/*! r: index of the winning codeword */ -int16_t squant_int( - uint8_t x, /* i : scalar value to quantize */ - uint8_t *xq, /* o : quantized value */ - const uint8_t *cb, /* i : codebook */ - const int16_t cbsize /* i : codebook size */ -) -{ - int16_t i, idx; - float mindist, d; - - idx = 0; - mindist = 10000000.0f; - for ( i = 0; i < cbsize; i++ ) - { - d = (float) ( x - cb[i] ) * ( x - cb[i] ); - if ( d < mindist ) - { - mindist = d; - idx = i; - } - } - *xq = cb[idx]; - - return idx; -} - - -/*-------------------------------------------------------------------* - * usquant() - * - * Uniform scalar quantizer according to MMSE criterion - * (nearest neighbour in Euclidean space) - * - * Applies quantization based on scale and round operations. - * Index of the winning codeword and the winning codeword itself are returned. - *-------------------------------------------------------------------*/ - -/*! r: index of the winning codeword */ -int16_t usquant( - const float x, /* i : scalar value to quantize */ - float *xq, /* o : quantized value */ - const float qlow, /* i : lowest codebook entry (index 0) */ - const float delta, /* i : quantization step */ - const int16_t cbsize /* i : codebook size */ -) -{ - int16_t idx; - - idx = (int16_t) max( 0.f, min( cbsize - 1, ( ( x - qlow ) / delta + 0.5f ) ) ); - *xq = idx * delta + qlow; - - return idx; -} - - /*-------------------------------------------------------------------* * usdequant() * @@ -1573,219 +969,6 @@ float usdequant( return ( g ); } - -/*-------------------------------------------------------------------* - * vquant() - * - * Vector quantizer according to MMSE criterion (nearest neighbour in Euclidean space) - * - * Searches a given codebook to find the nearest neighbour in Euclidean space. - * Index of the winning codevector and the winning vector itself are returned. - *-------------------------------------------------------------------*/ - -/*! r: index of the winning codevector */ -int16_t vquant( - float x[], /* i : vector to quantize */ - const float x_mean[], /* i : vector mean to subtract (0 if none) */ - float xq[], /* o : quantized vector */ - const float cb[], /* i : codebook */ - const int16_t dim, /* i : dimension of codebook vectors */ - const int16_t cbsize /* i : codebook size */ -) -{ - float dist, mindist, tmp; - int16_t c, d, idx, j; - - idx = 0; - mindist = 1e16f; - - if ( x_mean != 0 ) - { - for ( d = 0; d < dim; d++ ) - { - x[d] -= x_mean[d]; - } - } - - j = 0; - for ( c = 0; c < cbsize; c++ ) - { - dist = 0.0f; - for ( d = 0; d < dim; d++ ) - { - tmp = x[d] - cb[j++]; - dist += tmp * tmp; - } - - if ( dist < mindist ) - { - mindist = dist; - idx = c; - } - } - - if ( xq == 0 ) - { - return idx; - } - - j = idx * dim; - for ( d = 0; d < dim; d++ ) - { - xq[d] = cb[j++]; - } - - if ( x_mean != 0 ) - { - for ( d = 0; d < dim; d++ ) - { - xq[d] += x_mean[d]; - } - } - - return idx; -} - -/*-------------------------------------------------------------------* - * w_vquant() - * - * Vector quantizer according to MMSE criterion (nearest neighbour in Euclidean space) - * - * Searches a given codebook to find the nearest neighbour in Euclidean space. - * Weights are put on the error for each vector element. - * Index of the winning codevector and the winning vector itself are returned. - *-------------------------------------------------------------------*/ - -/*! r: index of the winning codevector */ -int16_t w_vquant( - float x[], /* i : vector to quantize */ - const float x_mean[], /* i : vector mean to subtract (0 if none) */ - const int16_t weights[], /* i : error weights */ - float xq[], /* o : quantized vector */ - const float cb[], /* i : codebook */ - const int16_t dim, /* i : dimension of codebook vectors */ - const int16_t cbsize, /* i : codebook size */ - const int16_t rev_vect /* i : reverse codebook vectors */ -) -{ - float dist, mindist, tmp; - int16_t c, d, idx, j, k; - - idx = 0; - mindist = 1e16f; - - if ( x_mean != 0 ) - { - for ( d = 0; d < dim; d++ ) - { - x[d] -= x_mean[d]; - } - } - - j = 0; - if ( rev_vect ) - { - k = dim - 1; - for ( c = 0; c < cbsize; c++ ) - { - dist = 0.0f; - - for ( d = k; d >= 0; d-- ) - { - tmp = x[d] - cb[j++]; - dist += weights[d] * ( tmp * tmp ); - } - - if ( dist < mindist ) - { - mindist = dist; - idx = c; - } - } - - if ( xq == 0 ) - { - return idx; - } - - j = idx * dim; - for ( d = k; d >= 0; d-- ) - { - xq[d] = cb[j++]; - } - } - else - { - for ( c = 0; c < cbsize; c++ ) - { - dist = 0.0f; - - for ( d = 0; d < dim; d++ ) - { - tmp = x[d] - cb[j++]; - dist += weights[d] * ( tmp * tmp ); - } - - if ( dist < mindist ) - { - mindist = dist; - idx = c; - } - } - - if ( xq == 0 ) - { - return idx; - } - - j = idx * dim; - for ( d = 0; d < dim; d++ ) - { - xq[d] = cb[j++]; - } - } - - if ( x_mean != 0 ) - { - for ( d = 0; d < dim; d++ ) - { - xq[d] += x_mean[d]; - } - } - - return idx; -} - - -/*----------------------------------------------------------------------------------* - * v_sort() - * - * Sorting of vectors. This is very fast with almost ordered vectors. - *----------------------------------------------------------------------------------*/ - -void v_sort_float( - float *r, /* i/o: Vector to be sorted in place */ - const int16_t lo, /* i : Low limit of sorting range */ - const int16_t up /* I : High limit of sorting range */ -) -{ - int16_t i, j; - float tempr; - - for ( i = up - 1; i >= lo; i-- ) - { - tempr = r[i]; - for ( j = i + 1; j <= up && ( tempr > r[j] ); j++ ) - { - r[j - 1] = r[j]; - } - - r[j - 1] = tempr; - } - - return; -} - void sort( UWord16 *x, /* i/o: Vector to be sorted */ UWord16 len /* i/o: vector length */ @@ -1810,426 +993,3 @@ void sort( return; } - -/*---------------------------------------------------------------------* - * var() - * - * Calculate the variance of a vector - *---------------------------------------------------------------------*/ - -/*! r: variance of vector */ -float var( - const float *x, /* i : input vector */ - const int16_t len /* i : length of inputvector */ -) -{ - float m; - float v; - int16_t i; - - m = mean( x, len ); - - v = 0.0f; - for ( i = 0; i < len; i++ ) - { - v += ( x[i] - m ) * ( x[i] - m ); - } - v /= len; - - return v; -} - - -/*---------------------------------------------------------------------* - * std_dev() - * - * Calculate the standard deviation of a vector - *---------------------------------------------------------------------*/ - -/*! r: standard deviation */ -float std_dev( - const float *x, /* i : input vector */ - const int16_t len /* i : length of the input vector */ -) -{ - int16_t i; - float std; - - std = 1e-16f; - for ( i = 0; i < len; i++ ) - { - std += x[i] * x[i]; - } - - std = (float) sqrt( std / len ); - - return std; -} - - -/*---------------------------------------------------------------------* - * dot_product_mat() - * - * Calculates dot product of type x'*A*x, where x is column vector of size m, - * and A is square matrix of size m*m - *---------------------------------------------------------------------*/ - -/*! r: the dot product x'*A*x */ -float dot_product_mat( - const float *x, /* i : vector x */ - const float *A, /* i : matrix A */ - const int16_t m /* i : vector & matrix size */ -) -{ - int16_t i, j; - float suma, tmp_sum; - const float *pt_x, *pt_A; - - pt_A = A; - suma = 0; - - for ( i = 0; i < m; i++ ) - { - tmp_sum = 0; - pt_x = x; - for ( j = 0; j < m; j++ ) - { - tmp_sum += *pt_x++ * *pt_A++; - } - - suma += x[i] * tmp_sum; - } - - return suma; -} - - -/*--------------------------------------------------------------------------------* - * polezero_filter() - * - * Y(Z)=X(Z)(b[0]+b[1]z^(-1)+..+b[L]z^(-L))/(a[0]+a[1]z^(-1)+..+a[M]z^(-M)) - * mem[n]=x[n]+cp[0]mem[n-1]+..+cp[M-1]mem[n-M], where cp[i]=-a[i+1]/a[0] - * y[n]=cz[0]mem[n]+cz[1]mem[n-1]+..+cz[L]mem[n-L], where cz[i]=b[i]/a[0] - * mem={mem[n-K] mem[n-K+1] . . . . mem[n-2] mem[n-1]}, where K=max(L,M) - * - * a[0] must be equal to 1.0f! - *---------------------------------------------------------------------------------*/ - -void polezero_filter( - const float *in, /* i : input vector */ - float *out, /* o : output vector */ - const int16_t N, /* i : input vector size */ - const float *b, /* i : numerator coefficients */ - const float *a, /* i : denominator coefficients */ - const int16_t order, /* i : filter order */ - float *mem /* i/o: filter memory */ -) -{ - int16_t i, j, k; - - - for ( i = 0; i < order; i++ ) - { - out[i] = in[i] * b[0]; - for ( j = 0; j < i; j++ ) - { - out[i] += in[i - 1 - j] * b[j + 1] - out[i - 1 - j] * a[j + 1]; - } - - for ( k = order - 1; j < order; j++, k-- ) - { - out[i] += mem[k] * b[j + 1] - mem[k + order] * a[j + 1]; - } - } - - for ( ; i < N; i++ ) - { - out[i] = in[i] * b[0]; - for ( j = 0; j < order; j++ ) - { - out[i] += in[i - 1 - j] * b[j + 1] - out[i - 1 - j] * a[j + 1]; - } - } - - for ( i = 0; i < order; i++ ) - { - mem[i] = in[N - order + i]; - mem[i + order] = out[N - order + i]; - } - - return; -} - -#define WMC_TOOL_SKIP -static float fleft_shift( float input, const int16_t shift ) -{ - return ( input * (float) pow( 2.0, (double) shift ) ); -} - -static float fright_shift( float input, const int16_t shift ) -{ - return ( input * (float) pow( 0.5, (double) shift ) ); -} -#undef WMC_TOOL_SKIP - - -/*--------------------------------------------------------------------------------* - * root_a() - * - * Implements a quadratic approximation to sqrt(a) - * Firstly, a is normalized to lie between 0.25 & 1.0 - * by shifting the input left or right by an even number of - * shifts. Even shifts represent powers of 4 which, after - * the sqrt, can easily be converted to powers of 2 and are - * easily dealt with. - * At the heart of the algorithm is a quadratic - * approximation of the curve sqrt(a) for 0.25 <= a <= 1.0. - * Sqrt(a) approx = 0.27 + 1.0127 * a - 0.2864 * a^2 - * - *---------------------------------------------------------------------------------*/ - -float root_a( - float a ) -{ - int16_t shift_a; - float mod_a; - float approx; - - if ( a <= 0.0f ) - { - return 0.0; - } - -#define WMC_TOOL_SKIP - /* This next piece of code implements a "norm" function */ - /* and returns the shift needed to scale "a" to have a */ - /* 1 in the (MSB-1) position. This is equivalent to */ - /* giving a value between 0.5 & 1.0. */ - mod_a = a; - - shift_a = 0; - while ( mod_a > 1.0 ) - { - mod_a /= 2.0; - shift_a--; - } - - while ( mod_a < 0.5 ) - { - mod_a *= 2.0; - shift_a++; - } -#undef WMC_TOOL_SKIP - - shift_a &= 0xfffe; - mod_a = fleft_shift( a, shift_a ); - - approx = 0.27f + 1.0127f * mod_a - 0.2864f * mod_a * mod_a; - - approx = fright_shift( approx, ( shift_a >> 1 ) ); - - return ( approx ); -} - -/*--------------------------------------------------------------------------------* - * root_a_over_b() - * - * Implements an approximation to sqrt(a/b) - * Firstly a & b are normalized to lie between 0.25 & 1.0 - * by shifting the inputs left or right by an even number - * of shifts. - * Even shifts represent powers of 4 which, after the sqrt, - * become powers of 2 and are easily dealt with. - * At the heart of the algorithm is an approximation of the - * curve sqrt(a/b) for 0.25 <= a <= 1.0 & 0.25 <= b <= 1.0. - * Given the value of b, the 2nd order coefficients p0, p1 - * & p2 can be determined so that... - * Sqrt(a/b) approx = p0 + p1 * a + p2 * a^2 - * where p0 approx = 0.7176 - 0.8815 * b + 0.4429 * b^2 - * p1 approx = 2.6908 - 3.3056 * b + 1.6608 * b^2 - * p2 approx = -0.7609 + 0.9346 * b - 0.4695 * b^2 - * - *---------------------------------------------------------------------------------*/ - -float root_a_over_b( - float a, - float b ) -{ - int16_t shift_a, shift_b, shift; - float mod_a, mod_b; - float p2 = -0.7609f; - float p1 = 2.6908f; - float p0 = 0.7176f; - float b_sqr; - float approx; - - if ( ( a <= 0.0f ) || ( b <= 0.0f ) ) - { - return 0.0; - } -#define WMC_TOOL_SKIP - if ( isinf( a ) ) -#undef WMC_TOOL_SKIP - { - return FLT_MAX; - } -#define WMC_TOOL_SKIP - if ( isinf( b ) ) -#undef WMC_TOOL_SKIP - { - return 0.f; - } - - a += 0x00000001; - b += 0x00000001; - -#define WMC_TOOL_SKIP - /* This next piece of code implements a "norm" function */ - /* and returns the shift needed to scale "a" to have a */ - /* 1 in the (MSB-1) position. This is equivalent to */ - /* giving a value between 0.5 & 1.0. */ - mod_a = a; - - shift_a = 0; - while ( mod_a > 1.0 ) - { - mod_a /= 2.0; - shift_a--; - } - - while ( mod_a < 0.5 ) - { - mod_a *= 2.0; - shift_a++; - } -#undef WMC_TOOL_SKIP - - shift_a &= 0xfffe; - mod_a = fleft_shift( a, shift_a ); - -#define WMC_TOOL_SKIP - /* This next piece of code implements a "norm" function */ - /* and returns the shift needed to scale "b" to have a */ - /* 1 in the (MSB-1) position. This is equivalent to */ - /* giving a value between 0.5 & 1.0. */ - mod_b = b; - - shift_b = 0; - while ( mod_b > 1.0 ) - { - mod_b /= 2.0; - shift_b--; - } - - while ( mod_b < 0.5 ) - { - mod_b *= 2.0; - shift_b++; - } -#undef WMC_TOOL_SKIP - - shift_b &= 0xfffe; - mod_b = fleft_shift( b, shift_b ); - - shift = ( shift_b - shift_a ) >> 1; - - b_sqr = mod_b * mod_b; - - p2 += 0.9346f * mod_b + -0.4695f * b_sqr; - p1 += -3.3056f * mod_b + 1.6608f * b_sqr; - p0 += -0.8815f * mod_b + 0.4429f * b_sqr; - - approx = p0 + p1 * mod_a + p2 * mod_a * mod_a; - - approx = fleft_shift( approx, shift ); - - return ( approx ); -} - -/*--------------------------------------------------------------------------------* - * rint_new() - * - * Round to the nearest integer with mid-point exception - *---------------------------------------------------------------------------------*/ - -double rint_new( - double x ) -{ - int16_t a; - - /* middle value point test */ - if ( ceil( x + 0.5 ) == floor( x + 0.5 ) ) - { - a = (int16_t) ceil( x ); - - if ( a % 2 == 0 ) - { - return ceil( x ); - } - else - { - return floor( x ); - } - } - else - { - return floor( x + 0.5 ); - } -} - - -/*-------------------------------------------------------------------* - * anint() - * - * Round to the nearest integer. - *-------------------------------------------------------------------*/ - -double anint( - double x ) -{ - return ( x ) >= 0 ? (int32_t) ( ( x ) + 0.5 ) : (int32_t) ( (x) -0.5 ); -} - -/*-------------------------------------------------------------------* - * is_numeric_float() - * - * Returns 0 for all NaN and Inf values defined according to IEEE 754 - * floating point number's definition. Returns 1 for numeric values. - *-------------------------------------------------------------------*/ - -int16_t is_numeric_float( - float x ) -{ - union float_int - { - float float_val; - int32_t int_val; - } float_int; - - float_int.float_val = x; - - return ( ( float_int.int_val & 0x7f800000 ) != 0x7f800000 ); -} - -/*-------------------------------------------------------------------* - * delay_signal_float() - * - * Delay buffer by defined number of samples - *-------------------------------------------------------------------*/ - -void delay_signal_float( - float x[], /* i/o: signal to be delayed */ - const int16_t len, /* i : length of the input signal */ - float mem[], /* i/o: synchronization memory */ - const int16_t delay /* i : delay in samples */ -) -{ - float tmp_buffer[L_FRAME48k]; - - mvr2r( mem, tmp_buffer, delay ); - mvr2r( x + len - delay, mem, delay ); - mvr2r( x, x + delay, len - delay ); - mvr2r( tmp_buffer, x, delay ); - - return; -} diff --git a/lib_com/tools_fx.c b/lib_com/tools_fx.c index 1e23ea44927a5d57157ba6cc1460e6686847ae60..59918a1eae80fa53cd600b229d26bcdca91dc1ee 100644 --- a/lib_com/tools_fx.c +++ b/lib_com/tools_fx.c @@ -50,7 +50,6 @@ #include "basop32.h" #include "wmc_auto.h" #include "prot_fx_enc.h" -#include "prot.h" #include "ivas_prot_fx.h" #define INV_BANDS10 3277 /* 1/10 in Q15 */ @@ -464,26 +463,17 @@ void Copy( move16(); } -#ifdef FIX_1052_COPY_CMPLX_DISCREPANCY /* Location of x and y may differ depending on platform/memory allocation. Since IF and ELSE has different complexity count, the early return is used instead of ELSE to ensure the same complexity number regardless of x and y memory addresses. */ return; -#endif } -#ifndef FIX_1052_COPY_CMPLX_DISCREPANCY - ELSE + FOR( i = L - 1; i >= 0; i-- ) { -#endif - FOR( i = L - 1; i >= 0; i-- ) - { - y[i] = x[i]; - move16(); - } - - return; -#ifndef FIX_1052_COPY_CMPLX_DISCREPANCY + y[i] = x[i]; + move16(); } -#endif + + return; } /*-------------------------------------------------------------------* * Copy64: @@ -505,26 +495,17 @@ void Copy64( move64(); } -#ifdef FIX_1052_COPY_CMPLX_DISCREPANCY /* Location of x and y may differ depending on platform/memory allocation. Since IF and ELSE has different complexity count, the early return is used instead of ELSE to ensure the same complexity number regardless of x and y memory addresses. */ return; -#endif } -#ifndef FIX_1052_COPY_CMPLX_DISCREPANCY - ELSE + FOR( i = L - 1; i >= 0; i-- ) { -#endif - FOR( i = L - 1; i >= 0; i-- ) - { - y[i] = x[i]; - move64(); - } - - return; -#ifndef FIX_1052_COPY_CMPLX_DISCREPANCY + y[i] = x[i]; + move64(); } -#endif + + return; } void set64_fx( @@ -561,28 +542,19 @@ void Copy_pword( move16(); } -#ifdef FIX_1052_COPY_CMPLX_DISCREPANCY /* Location of x and y may differ depending on platform/memory allocation. Since IF and ELSE has different complexity count, the early return is used instead of ELSE to ensure the same complexity number regardless of x and y memory addresses. */ return; -#endif } -#ifndef FIX_1052_COPY_CMPLX_DISCREPANCY - ELSE + FOR( i = L - 1; i >= 0; i-- ) { -#endif - FOR( i = L - 1; i >= 0; i-- ) - { - y[i].v.im = x[i].v.im; - y[i].v.re = x[i].v.re; - move16(); - move16(); - } - - return; -#ifndef FIX_1052_COPY_CMPLX_DISCREPANCY + y[i].v.im = x[i].v.im; + y[i].v.re = x[i].v.re; + move16(); + move16(); } -#endif + + return; } /*-------------------------------------------------------------------* * Copy32: @@ -604,23 +576,14 @@ void Copy32( move32(); } -#ifdef FIX_1052_COPY_CMPLX_DISCREPANCY return; -#endif } -#ifndef FIX_1052_COPY_CMPLX_DISCREPANCY - ELSE + FOR( i = L - 1; i >= 0; i-- ) { -#endif - FOR( i = L - 1; i >= 0; i-- ) - { - y[i] = x[i]; - move32(); - } -#ifndef FIX_1052_COPY_CMPLX_DISCREPANCY + y[i] = x[i]; + move32(); } -#endif } void set8_fx( @@ -669,7 +632,6 @@ void set32_fx( const Word16 N /* i : Lenght of the vector */ ) { -#ifdef FIX_1106_SIMPLIFY_SET32FX Word16 i; FOR( i = 0; i < N; i++ ) @@ -677,26 +639,6 @@ void set32_fx( y[i] = a; move32(); } -#else - Word16 i, tmp; - tmp = extract_l( a ); - IF( EQ_32( L_deposit_l( tmp ), a ) ) - { - FOR( i = 0; i < N; i++ ) - { - y[i] = L_deposit_l( tmp ); - move32(); - } - } - ELSE - { - FOR( i = 0; i < N; i++ ) - { - y[i] = a; - move32(); - } - } -#endif return; } @@ -782,7 +724,6 @@ void Copy_Scale_sig_16_32_DEPREC( } return; } -#ifdef FIX_ISSUE_1237 #ifdef DEBUGGING if ( exp0 >= 16 ) { @@ -790,7 +731,6 @@ void Copy_Scale_sig_16_32_DEPREC( } #else assert( exp0 < 16 ); -#endif #endif tmp = shl_o( 1, exp0, &Overflow ); FOR( i = 0; i < lg; i++ ) @@ -3619,8 +3559,8 @@ Word16 erb_diff_search_fx( Word16 *prev_erb, const Word16 *curr_erb, Word16 *dif } ELSE { - dh = sub( dif_erb[i + offset], cb_fx[j * cb_dim + i] ); /* Q13 */ - Ltemp1 = L_mult( dh, dh ); /* Q27 */ + dh = sub_sat( dif_erb[i + offset], cb_fx[j * cb_dim + i] ); /* Q13 */ + Ltemp1 = L_mult_sat( dh, dh ); /* Q27 */ dh = extract_h( Ltemp1 ); dl = extract_l( Ltemp1 ); @@ -3985,13 +3925,14 @@ void floating_point_add( move16(); return; } + /*-------------------------------------------------------------------* - * delay_signal() + * delay_signal_fx() * * Delay buffer by defined number of samples *-------------------------------------------------------------------*/ -void delay_signal( +void delay_signal_fx( Word16 x[], /* i/o: signal to be delayed */ const Word16 len, /* i : length of the input signal */ Word16 mem[], /* i/o: synchronization memory */ @@ -4008,14 +3949,13 @@ void delay_signal( return; } -void delay_signal_fx( +void delay_signal32_fx( Word32 x[], /* i/o: signal to be delayed */ const Word16 len, /* i : length of the input signal */ Word32 mem[], /* i/o: synchronization memory */ const Word16 delay /* i : delay in samples */ ) { - Word32 tmp_buffer[L_FRAME48k]; Copy32( mem, tmp_buffer, delay ); @@ -4025,6 +3965,7 @@ void delay_signal_fx( return; } + void delay_signal_q_adj_fx( Word32 x[], /* i/o: signal to be delayed */ const Word16 len, /* i : length of the input signal */ @@ -4117,30 +4058,6 @@ void v_shr_16( return; } -/*-------------------------------------------------------------------* - * delay_signal() - * - * Delay buffer by defined number of samples - *-------------------------------------------------------------------*/ - -void delay_signal32( - Word32 x[], /* i/o: signal to be delayed */ - const Word16 len, /* i : length of the input signal */ - Word32 mem[], /* i/o: synchronization memory */ - const Word16 delay /* i : delay in samples */ -) -{ - Word32 tmp_buffer[L_FRAME48k]; - - Copy32( mem, tmp_buffer, delay ); - Copy32( x + sub( len, delay ), mem, delay ); - Copy32( x, x + delay, sub( len, delay ) ); - Copy32( tmp_buffer, x, delay ); - - return; -} - - /*---------------------------------------------------------------------* * lin_interp_fx() * @@ -4589,3 +4506,167 @@ void v_add_fixed_me( return; } + +Word16 find_guarded_bits_fx( Word32 n ) +{ + // return n <= 1 ? 0 : n <= 2 ? 1 + // : n <= 4 ? 2 + // : n <= 8 ? 3 + // : n <= 16 ? 4 + // : n <= 32 ? 5 + // : n <= 64 ? 6 + // : n <= 128 ? 7 + // : n <= 256 ? 8 + // : n <= 512 ? 9 + // : n <= 1024 ? 10 + // : n <= 2048 ? 11 + // : n <= 4096 ? 12 + // : n <= 8192 ? 13 + // : n <= 16384 ? 14 + // : 15; + /*Word16 val = 0; + move32(); + test(); + WHILE( GT_32( n, L_shl( 1, val ) ) && LT_32( val, 16 ) ) + { + val = add( val, 1 ); + }*/ + IF( LE_32( n, 1 ) ) + { + return 0; + } + ELSE + { + + return sub( 31, norm_l( L_sub( n, 1 ) ) ); + } +} + +Word16 L_norm_arr( const Word32 *arr, Word16 size ) +{ + Word16 q = 31; + move16(); + FOR( Word16 i = 0; i < size; i++ ) + { + Word16 q_tst; + + q_tst = norm_l( arr[i] ); + if ( arr[i] != 0 ) + { + q = s_min( q, q_tst ); + } + } + + return q; +} + +Word16 norm_arr( Word16 *arr, Word16 size ) +{ + Word16 q = 15; + Word16 exp = 0; + move16(); + move16(); + FOR( Word16 i = 0; i < size; i++ ) + { + if ( arr[i] != 0 ) + { + exp = norm_s( arr[i] ); + } + if ( arr[i] != 0 ) + { + q = s_min( q, exp ); + } + } + return q; +} + +Word16 W_norm_arr( Word64 *arr, Word16 size ) +{ + Word16 q = 63; + Word16 exp = 0; + move16(); + move16(); + FOR( Word16 i = 0; i < size; i++ ) + { + if ( arr[i] != 0 ) + { + exp = W_norm( arr[i] ); + } + if ( arr[i] != 0 ) + { + q = s_min( q, exp ); + } + } + return q; +} + +Word16 get_min_scalefactor( Word32 x, Word32 y ) +{ + Word16 scf_y; + Word16 scf = Q31; + move16(); + + test(); + if ( x == 0 && y == 0 ) + { + scf = 0; + move16(); + } + + if ( x != 0 ) + { + scf = norm_l( x ); + } + + scf_y = norm_l( y ); + if ( y != 0 ) + { + scf = s_min( scf_y, scf ); + } + + return scf; +} + + +Flag is_zero_arr( Word32 *arr, Word16 size ) +{ + FOR( Word16 i = 0; i < size; i++ ) + IF( arr[i] != 0 ) + { + return 0; + } + + return 1; +} + +Flag is_zero_arr16( Word16 *arr, Word16 size ) +{ + FOR( Word16 i = 0; i < size; i++ ) + IF( arr[i] != 0 ) + { + return 0; + } + + return 1; +} + +void Scale_sig64( + Word64 x[], /* i/o: signal to scale Qx */ + Word16 len, /* i : size of x[] Q0 */ + Word16 exp /* i : exponent: x = round(x << exp) Qx exp */ +) +{ + Word16 i; + assert( exp <= 63 && exp >= -63 ); + IF( exp == 0 ) + { + return; + } + + FOR( i = 0; i < len; i++ ) + { + /* saturation can occur here */ + x[i] = W_shl( x[i], exp ); + move64(); + } +} diff --git a/lib_com/trans_direct_fx.c b/lib_com/trans_direct_fx.c index d4792fb7517c940a9244a9cc51089d14137b636a..6a3cdf108733bc3601d87d7398f6686087eae3cf 100644 --- a/lib_com/trans_direct_fx.c +++ b/lib_com/trans_direct_fx.c @@ -40,9 +40,7 @@ void direct_transform_fx( Word16 shift, Qmin = 31; Word32 L_tmp; Word16 Qs[NUM_TIME_SWITCHING_BLOCKS]; -#ifdef REMOVE_IVAS_UNUSED_PARAMETERS_WARNING (void) ( element_mode ); -#endif move16(); segment_length = shr( L, 1 ); diff --git a/lib_com/trans_inv_fx.c b/lib_com/trans_inv_fx.c index fbe0f0d6ddd6910eabb38ed912be67dad0d819a3..0683e266ce67faea01f2768f6b51a98bd56f3ab4 100644 --- a/lib_com/trans_inv_fx.c +++ b/lib_com/trans_inv_fx.c @@ -84,7 +84,9 @@ void preecho_sb_fx( UWord16 tmp_u16; Word32 mean_prev_hb_fx_loc, mean_prev_nc_fx_loc, mean_prev_fx_loc; /* */ Word16 q16p1, qmemp1, qtmp; - +#ifdef OPT_STEREO_32KBPS_V1 + Word16 shift_q = sub( 15, q_sig32 ); +#endif /* OPT_STEREO_32KBPS_V1 */ q16p1 = add( q_sig16, 1 ); qmemp1 = q16p1; @@ -137,6 +139,18 @@ void preecho_sb_fx( /* len3xLp20 = framelength/2-(short)((float)framelength*N_ZERO_MDCT/FRAME_SIZE_MS); in float*/ fxptr1 = imdct_mem_fx; +#ifdef OPT_STEREO_32KBPS_V1 + FOR( i = 0; i < len3xLp20; i++ ) + { + *fxptr1++ = negate( extract_h( L_shl_sat( wtda_audio_fx[len3xLp20 - 1 - i], shift_q ) ) ); /*Q-1*/ + move16(); /*convert to Word16 Q-1 with saturation (saturation not a problem here) */ + } + FOR( i = 0; i < framelength >> 1; i++ ) + { + *fxptr1++ = negate( extract_h( L_shl_sat( wtda_audio_fx[i], shift_q ) ) ); /*Q-1*/ + move16(); /*convert to Word16 Q-1 with saturation (saturation not a problem here) */ + } +#else /* OPT_STEREO_32KBPS_V1 */ fx32ptr1 = wtda_audio_fx + len3xLp20 - 1; /*q_sig32*/ FOR( i = 0; i < len3xLp20; i++ ) { @@ -148,7 +162,10 @@ void preecho_sb_fx( *fxptr1++ = negate( extract_h( L_shl_sat( wtda_audio_fx[i], sub( 15, q_sig32 ) ) ) ); /*Q-1*/ move16(); /*convert to Word16 Q-1 with saturation (saturation not a problem here) */ } +#endif /* OPT_STEREO_32KBPS_V1 */ + qmemp1 = 0; /*already in q-1*/ + move16(); subframelength = shr( framelength, LOG2_NUMSF ); /*Q0*/ subsubframelength = shr( subframelength, log2_num_subsubframes ); /*Q0*/ @@ -391,6 +408,17 @@ void preecho_sb_fx( move16(); FOR( i = 1; i <= NUMSF; i++ ) { +#ifdef OPT_STEREO_32KBPS_V1 + max_es_hb_fx = L_max( max_es_hb_fx, es_mdct_hb_fx[i] ); /* max energy low band, 8 present and 1 future subframes */ + + max_es_fx = L_max( max_es_fx, es_mdct_fx[i] ); /* max energy low band, 8 present and 1 future subframes */ + + if ( GE_32( es_mdct_fx[i], max_es_fx ) ) /* '=' to handle the first window*/ + { + maxind = i; + move16(); + } +#else /* OPT_STEREO_32KBPS_V1 */ IF( GE_32( es_mdct_hb_fx[i], max_es_hb_fx ) ) /* '=' to handle the first window*/ { max_es_hb_fx = L_add( es_mdct_hb_fx[i], 0 ); /* max energy low band, 8 present and 1 future subframes */ @@ -402,6 +430,7 @@ void preecho_sb_fx( maxind = i; move16(); } +#endif /* OPT_STEREO_32KBPS_V1 */ } cnt2 = cnt5 = 0; @@ -486,11 +515,7 @@ void preecho_sb_fx( tmp_fx1 = norm_l( es_mdct_hb_fx[i] ); tmp_fxL1 = L_shl( es_mdct_hb_fx[i], tmp_fx1 ); tmp_fxL2 = L_shl( mean_prev_hb_fx_loc, tmp_fx1 ); -#ifdef FIX_1013_CRASH_HQ_CORE_DEC tmp_fx1 = round_fx_sat( tmp_fxL1 ); -#else - tmp_fx1 = round_fx( tmp_fxL1 ); -#endif tmp_fx2 = round_fx( tmp_fxL2 ); tmp_fx3 = div_s( tmp_fx2, tmp_fx1 ); min_g_hb_fx[i] = Frac_sqrt( tmp_fx3 ); @@ -967,9 +992,7 @@ void Inverse_Transform( Word16 segment_length_div2, segment_length_div4; Word16 tmp, q_out; Word32 L_temp; -#ifdef REMOVE_IVAS_UNUSED_PARAMETERS_WARNING (void) ( element_mode ); -#endif /* This value is used to right shift all vectors returned by 'iedct_short_fx()' */ /* to bring them to a scaling that is equal to the 1st 'Q' returned by the 1st */ /* call to 'iedct_short_fx()' minus these guard bits. */ diff --git a/lib_com/wi_fx.c b/lib_com/wi_fx.c index 7df4cb3f04098dfa42ec0d36e8885daab0e2326c..591645017b05fddc498af77d499f50e1433571a5 100644 --- a/lib_com/wi_fx.c +++ b/lib_com/wi_fx.c @@ -2901,11 +2901,11 @@ void quant_target_fx( DTFS_STRUCTURE *X_fx, const Word16 *curr_lpc, Word16 *w, W Ltemp1 = log10_fx( Ltemp1 ); /* subtract 10log10(2)*(2Q-13), Q23 */ - Ltemp1 = L_sub( Ltemp1, Ltemp3 ); + Ltemp1 = L_sub_sat( Ltemp1, Ltemp3 ); Ltemp1 = L_max( 0, Ltemp1 ); Ltemp2 = getSpEngyFromResAmp_fx( X_fx, 2828, X_fx->upper_cut_off_freq_fx, curr_lpc, sin_tab, cos_tab ); - Ltemp2 = log10_fx( Ltemp2 ); /* Ltemp1=10log10(eng_hb), Q23, need to adjust for Q factor of energy (2Q-13) */ - Ltemp2 = L_sub( Ltemp2, Ltemp3 ); /* Ltemp2 in Q23 */ + Ltemp2 = log10_fx( Ltemp2 ); /* Ltemp1=10log10(eng_hb), Q23, need to adjust for Q factor of energy (2Q-13) */ + Ltemp2 = L_sub_sat( Ltemp2, Ltemp3 ); /* Ltemp2 in Q23 */ Ltemp2 = L_max( 0, Ltemp2 ); @@ -2929,10 +2929,10 @@ void quant_target_fx( DTFS_STRUCTURE *X_fx, const Word16 *curr_lpc, Word16 *w, W tmp = round_fx( Ltemp ); /* tmp in Q(22-n) */ Ltemp1 = Mult_32_16( Ltemp1, tmp ); /* Q(30-n) */ n = sub( 8, exp ); - w[0] = round_fx( L_shl( Ltemp1, n ) ); /* w[0] in Q15 */ + w[0] = round_fx_sat( L_shl_sat( Ltemp1, n ) ); /* w[0] in Q15 */ move16(); Ltemp2 = Mult_32_16( Ltemp2, tmp ); - w[1] = round_fx( L_shl( Ltemp2, n ) ); /* w[1] in Q15 */ + w[1] = round_fx_sat( L_shl_sat( Ltemp2, n ) ); /* w[1] in Q15 */ move16(); logLag = log10_fx( X_fx->lag_fx ); /* logLag=10*log10(lag), Q23 */ diff --git a/lib_com/window_ola_fx.c b/lib_com/window_ola_fx.c index 19725735ae1d549aecbf4640c6f70f9747a88525..2948e725ecdb0ca7d1add2a05b91500c4b2b8aaa 100644 --- a/lib_com/window_ola_fx.c +++ b/lib_com/window_ola_fx.c @@ -833,13 +833,13 @@ void core_switching_OLA_fx( IF( ( output_frame - L_FRAME16k ) == 0 ) /* no resampling */ { - Copy( mem_over_hp + 2, tmp_buf_switch + i_mult2( SWITCH_GAP_LENGTH_8k, delta ), NS2SA( output_Fs, DELAY_CLDFB_NS ) ); + Copy( mem_over_hp + 2, tmp_buf_switch + i_mult2( SWITCH_GAP_LENGTH_8k, delta ), NS2SA_FX2( output_Fs, DELAY_CLDFB_NS ) ); } ELSE { IF( ( output_frame - L_FRAME8k ) == 0 ) /* not done yet */ { - Copy( synth_subfr_out + SWITCH_GAP_LENGTH_8k, tmp_buf_switch + SWITCH_GAP_LENGTH_8k, NS2SA( output_Fs, DELAY_CLDFB_NS ) ); /* copy subframe to tmp buffer */ + Copy( synth_subfr_out + SWITCH_GAP_LENGTH_8k, tmp_buf_switch + SWITCH_GAP_LENGTH_8k, NS2SA_FX2( output_Fs, DELAY_CLDFB_NS ) ); /* copy subframe to tmp buffer */ } ELSE { @@ -950,7 +950,7 @@ void core_switching_OLA_fx( pt = synth; pt2 = tmp_buf_switch; - tmp = NS2SA( output_Fs, DELAY_CLDFB_NS ); + tmp = NS2SA_FX2( output_Fs, DELAY_CLDFB_NS ); move16(); pt3 = synth_subfr_bwe; diff --git a/lib_com/wtda.c b/lib_com/wtda.c index a7ea5314c916b07875136020956b2a30358d72ad..3fb40813816c7b4462bdcc3ec82b8df2314fb845 100644 --- a/lib_com/wtda.c +++ b/lib_com/wtda.c @@ -37,11 +37,10 @@ #include #include "options.h" #include "cnst.h" -#include "prot.h" +#include "prot_fx.h" #include "rom_com.h" #include #include "wmc_auto.h" -#include "prot_fx.h" void wtda_fx32( diff --git a/lib_dec/ACcontextMapping_dec_fx.c b/lib_dec/ACcontextMapping_dec_fx.c index 34e74a06f9ae9d5f1838d46efb8007cec71a00d8..22e9fff0114f1f5c0d3b5057744a446f95a0a0bb 100644 --- a/lib_dec/ACcontextMapping_dec_fx.c +++ b/lib_dec/ACcontextMapping_dec_fx.c @@ -12,7 +12,6 @@ #include "prot_fx.h" #include "ivas_prot_fx.h" -#include "ivas_prot.h" #include "ivas_rom_com.h" /*-------------------------------------------------------------------* * ACcontextMapping_decode2_no_mem_s17_LC() diff --git a/lib_dec/FEC_HQ_core.c b/lib_dec/FEC_HQ_core.c deleted file mode 100644 index 6a119b365552212f9ae48f4a3e4c760f9d226dac..0000000000000000000000000000000000000000 --- a/lib_dec/FEC_HQ_core.c +++ /dev/null @@ -1,136 +0,0 @@ -/****************************************************************************************************** - - (C) 2022-2025 IVAS codec Public Collaboration with portions copyright Dolby International AB, Ericsson AB, - Fraunhofer-Gesellschaft zur Foerderung der angewandten Forschung e.V., Huawei Technologies Co. LTD., - Koninklijke Philips N.V., Nippon Telegraph and Telephone Corporation, Nokia Technologies Oy, Orange, - Panasonic Holdings Corporation, Qualcomm Technologies, Inc., VoiceAge Corporation, and other - contributors to this repository. All Rights Reserved. - - This software is protected by copyright law and by international treaties. - The IVAS codec Public Collaboration consisting of Dolby International AB, Ericsson AB, - Fraunhofer-Gesellschaft zur Foerderung der angewandten Forschung e.V., Huawei Technologies Co. LTD., - Koninklijke Philips N.V., Nippon Telegraph and Telephone Corporation, Nokia Technologies Oy, Orange, - Panasonic Holdings Corporation, Qualcomm Technologies, Inc., VoiceAge Corporation, and other - contributors to this repository retain full ownership rights in their respective contributions in - the software. This notice grants no license of any kind, including but not limited to patent - license, nor is any license granted by implication, estoppel or otherwise. - - Contributors are required to enter into the IVAS codec Public Collaboration agreement before making - contributions. - - This software is provided "AS IS", without any express or implied warranties. The software is in the - development stage. It is intended exclusively for experts who have experience with such software and - solely for the purpose of inspection. All implied warranties of non-infringement, merchantability - and fitness for a particular purpose are hereby disclaimed and excluded. - - Any dispute, controversy or claim arising under or in relation to providing this software shall be - submitted to and settled by the final, binding jurisdiction of the courts of Munich, Germany in - accordance with the laws of the Federal Republic of Germany excluding its conflict of law rules and - the United Nations Convention on Contracts on the International Sales of Goods. - -*******************************************************************************************************/ - -/*==================================================================================== - EVS Codec 3GPP TS26.443 Nov 04, 2021. Version 12.14.0 / 13.10.0 / 14.6.0 / 15.4.0 / 16.3.0 - ====================================================================================*/ - -#include -#include "options.h" -#include -#include "cnst.h" -#include "rom_dec.h" -#include "rom_com.h" -#include "prot.h" -#include "wmc_auto.h" -#include "prot_fx.h" - - -void save_synthesis_hq_fec_fx( - Decoder_State *st, /* i/o: decoder state structure */ - const Word32 output_fx[], /* i : decoded synthesis */ - const Word16 output_frame, /* i : decoded synthesis */ - CPE_DEC_HANDLE hCPE /* i : CPE decoder structure */ -) -{ - Word16 post_hq_delay; - - SWITCH( st->element_mode ) - { - case EVS_MONO: - post_hq_delay = NS2SA_FX2( st->output_Fs, POST_HQ_DELAY_NS ); - BREAK; - case IVAS_SCE: - post_hq_delay = NS2SA_FX2( st->output_Fs, DELAY_CLDFB_NS ); - BREAK; - case IVAS_CPE_DFT: - test(); - IF( EQ_16( hCPE->nchan_out, 1 ) && hCPE->hStereoDft->hConfig->res_cod_mode == STEREO_DFT_RES_COD_OFF ) - { - post_hq_delay = NS2SA_FX2( st->output_Fs, DELAY_CLDFB_NS ); - } - ELSE - { - post_hq_delay = 0; - move16(); - } - BREAK; - default: - post_hq_delay = 0; - move16(); - BREAK; - } - - test(); - test(); - test(); - test(); - test(); - IF( ( EQ_16( st->codec_mode, MODE1 ) && st->hTcxDec != NULL ) && ( ( ( st->core == ACELP_CORE ) && !( EQ_16( st->bfi, 1 ) && EQ_16( st->con_tcx, 1 ) ) ) || EQ_16( st->core, HQ_CORE ) ) ) - { - Copy( st->hTcxDec->synth_history_fx + output_frame, st->hTcxDec->synth_history_fx, add( sub( output_frame, post_hq_delay ), NS2SA_FX2( st->output_Fs, PH_ECU_MEM_NS ) ) ); - FOR( Word16 i = 0; i < output_frame; i++ ) - { - st->hTcxDec->old_synthFB_fx[( ( i + output_frame ) - post_hq_delay )] = extract_h( L_shl_sat( output_fx[i], 16 ) ); // Q16 - move16(); - } - - IF( st->element_mode == EVS_MONO ) - { - /* reset the remaining buffer, which is read in TCX concealment the necessary samples to fill - this buffer are not available for all cases, the impact on the output is limited */ - - set16_fx( st->hTcxDec->old_synthFB_fx + sub( shl( output_frame, 1 ), post_hq_delay ), 0, post_hq_delay ); - IF( GE_16( output_frame, L_FRAME16k ) ) - { - Copy( st->prev_synth_buffer_fx, st->hTcxDec->old_synthFB_fx + sub( shl( output_frame, 1 ), NS2SA_FX2( st->output_Fs, DELAY_BWE_TOTAL_NS ) ), NS2SA_FX2( st->output_Fs, DELAY_BWE_TOTAL_NS - DELAY_CLDFB_NS ) ); - } - ELSE - { - Copy( st->hHQ_core->old_out_fx + NS2SA_FX2( st->output_Fs, N_ZERO_MDCT_NS ), st->hTcxDec->old_synthFB_fx + shl( output_frame, 1 ), NS2SA_FX2( st->output_Fs, PH_ECU_LOOKAHEAD_NS ) ); - } - - IF( st->core != ACELP_CORE ) - { - IF( GE_16( output_frame, L_FRAME16k ) ) - { - Copy( st->delay_buf_out_fx, st->hTcxDec->old_synthFB_fx + sub( shl( output_frame, 1 ), NS2SA_FX2( st->output_Fs, DELAY_CLDFB_NS ) ), NS2SA_FX2( st->output_Fs, DELAY_CLDFB_NS ) ); - Copy( st->hHQ_core->old_out_fx + NS2SA_FX2( st->output_Fs, N_ZERO_MDCT_NS ), st->hTcxDec->old_synthFB_fx + shl( output_frame, 1 ), NS2SA_FX2( st->output_Fs, PH_ECU_LOOKAHEAD_NS ) ); - } - ELSE - { - Copy( st->delay_buf_out_fx, st->hTcxDec->old_synthFB_fx + sub( shl( output_frame, 1 ), NS2SA_FX2( st->output_Fs, DELAY_BWE_TOTAL_NS ) ), NS2SA_FX2( st->output_Fs, DELAY_CLDFB_NS ) ); - Copy( st->hHQ_core->old_out_fx + NS2SA_FX2( st->output_Fs, N_ZERO_MDCT_NS ), st->hTcxDec->old_synthFB_fx + sub( shl( output_frame, 1 ), NS2SA_FX2( st->output_Fs, DELAY_BWE_TOTAL_NS - DELAY_CLDFB_NS ) ), NS2SA_FX2( st->output_Fs, PH_ECU_LOOKAHEAD_NS ) ); - } - } - } - ELSE - { - IF( st->core != ACELP_CORE ) - { - Copy( st->delay_buf_out_fx, st->hTcxDec->old_synthFB_fx + sub( shl( output_frame, 1 ), post_hq_delay ), post_hq_delay ); - Copy( st->hHQ_core->old_out_fx + NS2SA_FX2( st->output_Fs, N_ZERO_MDCT_NS ), st->hTcxDec->old_synthFB_fx + shl( output_frame, 1 ), NS2SA_FX2( st->output_Fs, PH_ECU_LOOKAHEAD_NS ) ); - } - } - } - return; -} diff --git a/lib_dec/FEC_HQ_core_fx.c b/lib_dec/FEC_HQ_core_fx.c index f88927ee50f3d5ee6c7d6a412805ee7e9fe9151e..cc03dcf525f424e500118ee9f8d2362c74ebedd3 100644 --- a/lib_dec/FEC_HQ_core_fx.c +++ b/lib_dec/FEC_HQ_core_fx.c @@ -725,10 +725,9 @@ void HQ_FEC_Mem_update_fx( move32(); #endif move32(); // tmp_energy_fx -#ifdef ADD_IVAS_HQ_CODE_FEC + IF( EQ_16( output_frame, L_FRAME8k ) ) { -#endif IF( is_transient ) { @@ -759,226 +758,222 @@ void HQ_FEC_Mem_update_fx( } } } -#ifndef ADD_IVAS_HQ_CODE_FEC - IF( EQ_16( output_frame, L_FRAME8k ) ) - { -#endif - /* if LR MDCT core is used, recalculate norms from decoded MDCT spectrum (using code from hq_hr_enc_fx()) */ - test(); - IF( ( EQ_16( hqswb_clas, HQ_HVQ ) ) || ( EQ_16( hq_core_type, LOW_RATE_HQ_CORE ) ) ) - { - /* First group */ - logqnorm_fx( t_audio_q_fx, 12, ynrm, 32, WID_G1, (const Word16) EQ_16( hqswb_clas, HQ_HVQ ) ); - j = ynrm[0]; - move16(); - offset = WID_G1; - move16(); - FOR( i = 1; i < SFM_G1; i++ ) - { - logqnorm_fx( &t_audio_q_fx[offset], 12, &ynrm[i], 40, WID_G1, (const Word16) EQ_16( hqswb_clas, HQ_HVQ ) ); - offset = add( offset, WID_G1 ); - } + /* if LR MDCT core is used, recalculate norms from decoded MDCT spectrum (using code from hq_hr_enc_fx()) */ + test(); + IF( ( EQ_16( hqswb_clas, HQ_HVQ ) ) || ( EQ_16( hq_core_type, LOW_RATE_HQ_CORE ) ) ) + { + /* First group */ + logqnorm_fx( t_audio_q_fx, 12, ynrm, 32, WID_G1, (const Word16) EQ_16( hqswb_clas, HQ_HVQ ) ); + j = ynrm[0]; + move16(); + offset = WID_G1; + move16(); - /* Second group */ - FOR( i = SFM_G1; i < SFM_G1 + 2; i++ ) - { - logqnorm_fx( &t_audio_q_fx[offset], 12, &ynrm[i], 40, WID_G2, (const Word16) EQ_16( hqswb_clas, HQ_HVQ ) ); - offset = add( offset, WID_G2 ); - } + FOR( i = 1; i < SFM_G1; i++ ) + { + logqnorm_fx( &t_audio_q_fx[offset], 12, &ynrm[i], 40, WID_G1, (const Word16) EQ_16( hqswb_clas, HQ_HVQ ) ); + offset = add( offset, WID_G1 ); } - /* Memory update for the LGF log2 Norm */ - FOR( i = 0; i < nb_sfm; i++ ) + /* Second group */ + FOR( i = SFM_G1; i < SFM_G1 + 2; i++ ) { - normq_fx[i] = dicn_fx[ynrm[i]]; - move32(); + logqnorm_fx( &t_audio_q_fx[offset], 12, &ynrm[i], 40, WID_G2, (const Word16) EQ_16( hqswb_clas, HQ_HVQ ) ); + offset = add( offset, WID_G2 ); } - k = 0; - move16(); - FOR( i = 0; i < num_Sb; i++ ) - { - norm_values_fx = &hHQ_nbfec->ynrm_values_fx[i][0]; - Copy32( norm_values_fx, &norm_values_fx[1], MAX_PGF - 1 ); + } - L_tmp = L_deposit_l( 0 ); - FOR( j = 0; j < Num_bands_p[i]; j++ ) - { - L_tmp = L_add( L_tmp, L_shr( normq_fx[k], 3 ) ); /*11*/ - k = add( k, 1 ); - } - tmp_fx = shl_o( inv_tbl_fx[Num_bands_p[i]], 1, &Overflow ); /*16*/ - norm_values_fx[0] = Mult_32_16( L_tmp, tmp_fx ); /*11 + 16 - 15*/ - move32(); - tmp_energy_fx = L_add( tmp_energy_fx, L_shr( L_tmp, 3 ) ); /*8*/ + /* Memory update for the LGF log2 Norm */ + FOR( i = 0; i < nb_sfm; i++ ) + { + normq_fx[i] = dicn_fx[ynrm[i]]; + move32(); + } + k = 0; + move16(); + FOR( i = 0; i < num_Sb; i++ ) + { + norm_values_fx = &hHQ_nbfec->ynrm_values_fx[i][0]; + Copy32( norm_values_fx, &norm_values_fx[1], MAX_PGF - 1 ); + + L_tmp = L_deposit_l( 0 ); + FOR( j = 0; j < Num_bands_p[i]; j++ ) + { + L_tmp = L_add( L_tmp, L_shr( normq_fx[k], 3 ) ); /*11*/ + k = add( k, 1 ); } - test(); - test(); - IF( ( c_switching_flag ) || ( ( st_fx->last_core == ACELP_CORE ) && ( EQ_16( st_fx->core, HQ_CORE ) ) ) ) + tmp_fx = shl_o( inv_tbl_fx[Num_bands_p[i]], 1, &Overflow ); /*16*/ + norm_values_fx[0] = Mult_32_16( L_tmp, tmp_fx ); /*11 + 16 - 15*/ + move32(); + tmp_energy_fx = L_add( tmp_energy_fx, L_shr( L_tmp, 3 ) ); /*8*/ + } + test(); + test(); + IF( ( c_switching_flag ) || ( ( st_fx->last_core == ACELP_CORE ) && ( EQ_16( st_fx->core, HQ_CORE ) ) ) ) + { + FOR( i = 0; i < MAX_SB_NB; i++ ) { - FOR( i = 0; i < MAX_SB_NB; i++ ) + FOR( j = 1; j < MAX_PGF; j++ ) { - FOR( j = 1; j < MAX_PGF; j++ ) - { - hHQ_nbfec->ynrm_values_fx[i][j] = hHQ_nbfec->ynrm_values_fx[i][0]; - move32(); - } + hHQ_nbfec->ynrm_values_fx[i][j] = hHQ_nbfec->ynrm_values_fx[i][0]; + move32(); } } - set16_fx( hHQ_nbfec->Norm_gain_fx, 32767, SFM_N_NB ); /*15*/ - /* st->energy_MA_Curr[1]=Energy of the current frame */ - tmp_fx = inv_tbl_fx[nb_sfm]; - move16(); /*15*/ - L_tmp = Mult_32_16( tmp_energy_fx, tmp_fx ); /*8 + 15 - 15*/ + } + set16_fx( hHQ_nbfec->Norm_gain_fx, 32767, SFM_N_NB ); /*15*/ + /* st->energy_MA_Curr[1]=Energy of the current frame */ + tmp_fx = inv_tbl_fx[nb_sfm]; + move16(); /*15*/ + L_tmp = Mult_32_16( tmp_energy_fx, tmp_fx ); /*8 + 15 - 15*/ - hHQ_nbfec->energy_MA_Curr_fx[1] = extract_h( L_shl_sat( L_tmp, 16 - 8 ) ); - move16(); - /* Moving Average */ - hHQ_nbfec->energy_MA_Curr_fx[0] = s_max( 1, add( mult_r( 26214, hHQ_nbfec->energy_MA_Curr_fx[0] ), mult_r( 6554, hHQ_nbfec->energy_MA_Curr_fx[1] ) ) ); - move16(); + hHQ_nbfec->energy_MA_Curr_fx[1] = extract_h( L_shl_sat( L_tmp, 16 - 8 ) ); + move16(); + /* Moving Average */ + hHQ_nbfec->energy_MA_Curr_fx[0] = s_max( 1, add( mult_r( 26214, hHQ_nbfec->energy_MA_Curr_fx[0] ), mult_r( 6554, hHQ_nbfec->energy_MA_Curr_fx[1] ) ) ); + move16(); + + /*st->diff_energy = (float)fabs((st->energy_MA_Curr[1] - st->energy_MA_Curr[0])/st->energy_MA_Curr[0]); */ + hHQ_nbfec->diff_energy_fx = abs_s( sub( hHQ_nbfec->energy_MA_Curr_fx[1], hHQ_nbfec->energy_MA_Curr_fx[0] ) ); + move16(); + exp1 = sub( norm_l( hHQ_nbfec->diff_energy_fx ), 1 ); + exp2 = norm_l( hHQ_nbfec->energy_MA_Curr_fx[0] ); + hHQ_nbfec->diff_energy_fx = div_s( extract_h( L_shl( hHQ_nbfec->diff_energy_fx, exp1 ) ), extract_h( L_shl( hHQ_nbfec->energy_MA_Curr_fx[0], exp2 ) ) ); + move16(); + exp = add( 15, sub( exp1, exp2 ) ); + hHQ_nbfec->diff_energy_fx = shl( hHQ_nbfec->diff_energy_fx, sub( 11, exp ) ); /*11*/ + move16(); - /*st->diff_energy = (float)fabs((st->energy_MA_Curr[1] - st->energy_MA_Curr[0])/st->energy_MA_Curr[0]); */ - hHQ_nbfec->diff_energy_fx = abs_s( sub( hHQ_nbfec->energy_MA_Curr_fx[1], hHQ_nbfec->energy_MA_Curr_fx[0] ) ); + /* Classify the stationary mode : 12% */ + IF( LT_16( hHQ_nbfec->diff_energy_fx, ED_THRES_12P_fx ) ) + { + stat_mode_curr = 1; move16(); - exp1 = sub( norm_l( hHQ_nbfec->diff_energy_fx ), 1 ); - exp2 = norm_l( hHQ_nbfec->energy_MA_Curr_fx[0] ); - hHQ_nbfec->diff_energy_fx = div_s( extract_h( L_shl( hHQ_nbfec->diff_energy_fx, exp1 ) ), extract_h( L_shl( hHQ_nbfec->energy_MA_Curr_fx[0], exp2 ) ) ); + } + ELSE + { + stat_mode_curr = 0; move16(); - exp = add( 15, sub( exp1, exp2 ) ); - hHQ_nbfec->diff_energy_fx = shl( hHQ_nbfec->diff_energy_fx, sub( 11, exp ) ); /*11*/ + } + + /* Apply Hysteresis to prevent frequent mode changing */ + if ( EQ_16( hHQ_nbfec->stat_mode_old, stat_mode_curr ) ) + { + hHQ_nbfec->stat_mode_out = stat_mode_curr; move16(); + } - /* Classify the stationary mode : 12% */ - IF( LT_16( hHQ_nbfec->diff_energy_fx, ED_THRES_12P_fx ) ) - { - stat_mode_curr = 1; - move16(); - } - ELSE - { - stat_mode_curr = 0; - move16(); - } + hHQ_nbfec->stat_mode_old = stat_mode_curr; + move16(); - /* Apply Hysteresis to prevent frequent mode changing */ - if ( EQ_16( hHQ_nbfec->stat_mode_old, stat_mode_curr ) ) + /* Find max. band index (Minimum value means maximum energy) */ + Min_ind = 0; + move16(); + Min_value = L_deposit_l( 100 ); + FOR( i = 0; i < num_Sb; i++ ) + { + IF( GT_32( Min_value, ynrm[i] ) ) { - hHQ_nbfec->stat_mode_out = stat_mode_curr; + Min_value = ynrm[i]; + move16(); + Min_ind = i; move16(); } + } - hHQ_nbfec->stat_mode_old = stat_mode_curr; - move16(); - - /* Find max. band index (Minimum value means maximum energy) */ - Min_ind = 0; - move16(); - Min_value = L_deposit_l( 100 ); - FOR( i = 0; i < num_Sb; i++ ) + /* Find max. coeff in band 0 */ + Max_ind = 0; + move16(); + IF( Min_ind == 0 ) + { + Max_coeff_fx = L_deposit_l( 0 ); + FOR( i = 0; i < 8; i++ ) { - IF( GT_32( Min_value, ynrm[i] ) ) + L_tmp = L_abs( t_audio_q_fx[i] ); + IF( LT_32( Max_coeff_fx, L_tmp ) ) { - Min_value = ynrm[i]; - move16(); - Min_ind = i; + Max_coeff_fx = L_add( L_tmp, 0 ); + Max_ind = i; move16(); } } + } - /* Find max. coeff in band 0 */ - Max_ind = 0; - move16(); - IF( Min_ind == 0 ) - { - Max_coeff_fx = L_deposit_l( 0 ); - FOR( i = 0; i < 8; i++ ) - { - L_tmp = L_abs( t_audio_q_fx[i] ); - IF( LT_32( Max_coeff_fx, L_tmp ) ) - { - Max_coeff_fx = L_add( L_tmp, 0 ); - Max_ind = i; - move16(); - } - } - } + /* Find energy difference from band 16 */ + k = 1; + move16(); - /* Find energy difference from band 16 */ - k = 1; + FOR( i = k; i < num_Sb; i++ ) + { + en_high_fx[i] = L_deposit_l( 0 ); move16(); - - FOR( i = k; i < num_Sb; i++ ) + FOR( j = 0; j < 2; j++ ) { - en_high_fx[i] = L_deposit_l( 0 ); - move16(); - FOR( j = 0; j < 2; j++ ) - { - /*en_high[i] += 0.5f*st->ynrm_values[i][j+1];*/ - en_high_fx[i] = L_add( en_high_fx[i], L_shr( hHQ_nbfec->ynrm_values_fx[i][j + 1], 1 ) ); /*Q12*/ - move32(); - } + /*en_high[i] += 0.5f*st->ynrm_values[i][j+1];*/ + en_high_fx[i] = L_add( en_high_fx[i], L_shr( hHQ_nbfec->ynrm_values_fx[i][j + 1], 1 ) ); /*Q12*/ + move32(); } + } - *mean_en_high_fx = 0; - move16(); - FOR( i = k; i < num_Sb; i++ ) - { - /* *mean_en_high += (float)(en_high[i]/st->ynrm_values[i][0]);*/ - exp1 = sub( norm_l( en_high_fx[i] ), 1 ); - exp2 = norm_l( hHQ_nbfec->ynrm_values_fx[i][0] ); - tmp_fx = div_s( extract_h( L_shl( en_high_fx[i], exp1 ) ), extract_h( L_shl( hHQ_nbfec->ynrm_values_fx[i][0], exp2 ) ) ); - exp = add( 15, sub( exp1, exp2 ) ); - *mean_en_high_fx = add_o( *mean_en_high_fx, shr_o( tmp_fx, sub( exp, 5 ), &Overflow ), &Overflow ); - move16(); - } - *mean_en_high_fx = mult( *mean_en_high_fx, inv_tbl_fx[sub( num_Sb, k )] ); + *mean_en_high_fx = 0; + move16(); + FOR( i = k; i < num_Sb; i++ ) + { + /* *mean_en_high += (float)(en_high[i]/st->ynrm_values[i][0]);*/ + exp1 = sub( norm_l( en_high_fx[i] ), 1 ); + exp2 = norm_l( hHQ_nbfec->ynrm_values_fx[i][0] ); + tmp_fx = div_s( extract_h( L_shl( en_high_fx[i], exp1 ) ), extract_h( L_shl( hHQ_nbfec->ynrm_values_fx[i][0], exp2 ) ) ); + exp = add( 15, sub( exp1, exp2 ) ); + *mean_en_high_fx = add_o( *mean_en_high_fx, shr_o( tmp_fx, sub( exp, 5 ), &Overflow ), &Overflow ); move16(); + } + *mean_en_high_fx = mult( *mean_en_high_fx, inv_tbl_fx[sub( num_Sb, k )] ); + move16(); + test(); + test(); + test(); + test(); + test(); + test(); + test(); + test(); + test(); + IF( ( LT_16( Min_ind, 5 ) ) && ( LT_16( abs_s( sub( Min_ind, hHQ_nbfec->old_Min_ind ) ), 2 ) ) && ( LT_16( hHQ_nbfec->diff_energy_fx, ED_THRES_90P_fx ) ) && ( !st_fx->bfi ) && ( !st_fx->prev_bfi ) && ( !st_fx->prev_old_bfi ) && ( !is_transient ) && ( !hHQ_core->old_is_transient[1] ) && EQ_16( hHQ_nbfec->prev_last_core, HQ_CORE ) && EQ_16( st_fx->last_core, HQ_CORE ) ) + { + hHQ_nbfec->phase_mat_flag = 1; + move16(); test(); - test(); - test(); - test(); - test(); - test(); - test(); - test(); - test(); - IF( ( LT_16( Min_ind, 5 ) ) && ( LT_16( abs_s( sub( Min_ind, hHQ_nbfec->old_Min_ind ) ), 2 ) ) && ( LT_16( hHQ_nbfec->diff_energy_fx, ED_THRES_90P_fx ) ) && ( !st_fx->bfi ) && ( !st_fx->prev_bfi ) && ( !st_fx->prev_old_bfi ) && ( !is_transient ) && ( !hHQ_core->old_is_transient[1] ) && EQ_16( hHQ_nbfec->prev_last_core, HQ_CORE ) && EQ_16( st_fx->last_core, HQ_CORE ) ) - { - hHQ_nbfec->phase_mat_flag = 1; - move16(); - test(); - if ( Min_ind == 0 && ( LT_16( Max_ind, 3 ) ) ) - { - hHQ_nbfec->phase_mat_flag = 0; - move16(); - } - } - ELSE + if ( Min_ind == 0 && ( LT_16( Max_ind, 3 ) ) ) { hHQ_nbfec->phase_mat_flag = 0; move16(); } - - hHQ_nbfec->old_Min_ind = Min_ind; + } + ELSE + { + hHQ_nbfec->phase_mat_flag = 0; move16(); } + hHQ_nbfec->old_Min_ind = Min_ind; + move16(); + + FOR( i = 0; i < L_FRAME8k; i++ ) { hHQ_nbfec->old_coeffs_fx[i] = t_audio_q_fx[i]; move32(); } - - hHQ_core->old_is_transient[2] = hHQ_core->old_is_transient[1]; - move16(); - hHQ_core->old_is_transient[1] = hHQ_core->old_is_transient[0]; - move16(); - hHQ_core->old_is_transient[0] = is_transient; - move16(); -#ifdef ADD_IVAS_HQ_CODE_FEC } -#endif + + hHQ_core->old_is_transient[2] = hHQ_core->old_is_transient[1]; + move16(); + hHQ_core->old_is_transient[1] = hHQ_core->old_is_transient[0]; + move16(); + hHQ_core->old_is_transient[0] = is_transient; + move16(); + return; } @@ -1961,89 +1956,105 @@ static void Next_good_after_burst_erasures_fx( return; } -#ifdef ADD_IVAS_HQ_CODE_FEC /*-------------------------------------------------------------------------- - * save_synthesis_hq_fec() + * save_synthesis_hq_fec_fx() * * Save synthesis for HQ FEC *-------------------------------------------------------------------------*/ -void save_synthesis_hq_fec( - Decoder_State *st, /* i/o: decoder state structure */ - const float *output, /* i : decoded synthesis */ - const int16_t output_frame, /* i : decoded synthesis */ - CPE_DEC_HANDLE hCPE /* i : CPE decoder structure */ +void save_synthesis_hq_fec_fx( + Decoder_State *st, /* i/o: decoder state structure */ + const Word16 synth_fx[], /* i : decoded synthesis (EVS) */ + const Word32 output_fx[], /* i : decoded synthesis */ + const Word16 output_frame, /* i : decoded synthesis */ + const Word16 Qpostd, /* i : Q value of delayed signal */ + CPE_DEC_HANDLE hCPE /* i : CPE decoder structure */ ) { - int16_t post_hq_delay; + Word16 post_hq_delay; - switch ( st->element_mode ) + SWITCH( st->element_mode ) { case EVS_MONO: - post_hq_delay = NS2SA( st->output_Fs, POST_HQ_DELAY_NS ); - break; + post_hq_delay = NS2SA_FX2( st->output_Fs, POST_HQ_DELAY_NS ); + BREAK; case IVAS_SCE: - post_hq_delay = NS2SA( st->output_Fs, DELAY_CLDFB_NS ); - break; + post_hq_delay = NS2SA_FX2( st->output_Fs, DELAY_CLDFB_NS ); + BREAK; case IVAS_CPE_DFT: - if ( hCPE->nchan_out == 1 && hCPE->hStereoDft->hConfig->res_cod_mode == STEREO_DFT_RES_COD_OFF ) + test(); + IF( EQ_16( hCPE->nchan_out, 1 ) && hCPE->hStereoDft->hConfig->res_cod_mode == STEREO_DFT_RES_COD_OFF ) { - post_hq_delay = NS2SA( st->output_Fs, DELAY_CLDFB_NS ); + post_hq_delay = NS2SA_FX2( st->output_Fs, DELAY_CLDFB_NS ); } - else + ELSE { post_hq_delay = 0; + move16(); } - break; + BREAK; default: post_hq_delay = 0; - break; + move16(); + BREAK; } - - if ( ( st->codec_mode == MODE1 && st->hTcxDec != NULL ) && ( ( st->core == ACELP_CORE && !( st->bfi == 1 && st->con_tcx == 1 ) ) || st->core == HQ_CORE ) ) + test(); + test(); + test(); + test(); + test(); + IF( ( EQ_16( st->codec_mode, MODE1 ) && st->hTcxDec != NULL ) && ( ( ( st->core == ACELP_CORE ) && !( EQ_16( st->bfi, 1 ) && EQ_16( st->con_tcx, 1 ) ) ) || EQ_16( st->core, HQ_CORE ) ) ) { - mvr2r( st->hTcxDec->synth_history + output_frame, st->hTcxDec->synth_history, output_frame - post_hq_delay + NS2SA( st->output_Fs, PH_ECU_MEM_NS ) ); - mvr2r( output, st->hTcxDec->old_synthFB + output_frame - post_hq_delay, output_frame ); - - if ( st->element_mode == EVS_MONO ) + IF( st->element_mode == EVS_MONO ) { + Copy( st->hTcxDec->synth_history_fx + output_frame, st->hTcxDec->synth_history_fx, add( sub( output_frame, post_hq_delay ), NS2SA_FX2( st->output_Fs, PH_ECU_MEM_NS ) ) ); /*hTcxDec->q_synth_history_fx*/ + Copy_Scale_sig( synth_fx, st->hTcxDec->old_synthFB_fx + sub( output_frame, post_hq_delay ), output_frame, negate( Qpostd ) ); /* output_sp not initialized yet */ /* reset the remaining buffer, which is read in TCX concealment the necessary samples to fill this buffer are not available for all cases, the impact on the output is limited */ - set_f( st->hTcxDec->old_synthFB + 2 * output_frame - post_hq_delay, 0.f, post_hq_delay ); - if ( output_frame >= L_FRAME16k ) + set16_fx( st->hTcxDec->old_synthFB_fx + sub( shl( output_frame, 1 ), post_hq_delay ), 0, post_hq_delay ); + + IF( GE_16( output_frame, L_FRAME16k ) ) { - mvr2r( st->prev_synth_buffer, st->hTcxDec->old_synthFB + 2 * output_frame - NS2SA( st->output_Fs, DELAY_BWE_TOTAL_NS ), NS2SA( st->output_Fs, DELAY_BWE_TOTAL_NS - DELAY_CLDFB_NS ) ); + Copy_Scale_sig( st->prev_synth_buffer_fx, st->hTcxDec->old_synthFB_fx + sub( shl( output_frame, 1 ), NS2SA_FX2( st->output_Fs, DELAY_BWE_TOTAL_NS ) ), NS2SA_FX2( st->output_Fs, DELAY_BWE_TOTAL_NS - DELAY_CLDFB_NS ), negate( st->Qprev_synth_buffer_fx ) ); /*Q0*/ } + /* IVAS Floating point code has the commented-out else branch below, but it does not appear to be necessary. To be verified else { mvr2r( st->hHQ_core->old_out + NS2SA( st->output_Fs, N_ZERO_MDCT_NS ), st->hTcxDec->old_synthFB + 2 * output_frame, NS2SA( st->output_Fs, PH_ECU_LOOKAHEAD_NS ) ); } + */ - if ( st->core != ACELP_CORE ) + IF( st->core != ACELP_CORE ) { - if ( output_frame >= L_FRAME16k ) + IF( GE_16( output_frame, L_FRAME16k ) ) { - mvr2r( st->delay_buf_out, st->hTcxDec->old_synthFB + 2 * output_frame - NS2SA( st->output_Fs, DELAY_CLDFB_NS ), NS2SA( st->output_Fs, DELAY_CLDFB_NS ) ); - mvr2r( st->hHQ_core->old_out + NS2SA( st->output_Fs, N_ZERO_MDCT_NS ), st->hTcxDec->old_synthFB + 2 * output_frame, NS2SA( st->output_Fs, PH_ECU_LOOKAHEAD_NS ) ); + Copy_Scale_sig( st->delay_buf_out_fx, st->hTcxDec->old_synthFB_fx + sub( shl( output_frame, 1 ), NS2SA_FX2( st->output_Fs, DELAY_CLDFB_NS ) ), NS2SA_FX2( st->output_Fs, DELAY_CLDFB_NS ), negate( Qpostd ) ); /*Q0*/ + Copy_Scale_sig( st->hHQ_core->old_out_fx + NS2SA_FX2( st->output_Fs, N_ZERO_MDCT_NS ), st->hTcxDec->old_synthFB_fx + shl( output_frame, 1 ), NS2SA_FX2( st->output_Fs, PH_ECU_LOOKAHEAD_NS ), negate( st->hHQ_core->Q_old_wtda ) ); /*Q0*/ } - else + ELSE { - mvr2r( st->delay_buf_out, st->hTcxDec->old_synthFB + 2 * output_frame - NS2SA( st->output_Fs, DELAY_BWE_TOTAL_NS ), NS2SA( st->output_Fs, DELAY_CLDFB_NS ) ); - mvr2r( st->hHQ_core->old_out + NS2SA( st->output_Fs, N_ZERO_MDCT_NS ), st->hTcxDec->old_synthFB + 2 * output_frame - NS2SA( st->output_Fs, DELAY_BWE_TOTAL_NS - DELAY_CLDFB_NS ), NS2SA( st->output_Fs, PH_ECU_LOOKAHEAD_NS ) ); + + Copy_Scale_sig( st->delay_buf_out_fx, st->hTcxDec->old_synthFB_fx + sub( shl( output_frame, 1 ), NS2SA_FX2( st->output_Fs, DELAY_BWE_TOTAL_NS ) ), NS2SA_FX2( st->output_Fs, DELAY_CLDFB_NS ), negate( Qpostd ) ); /*Q0*/ + Copy_Scale_sig( st->hHQ_core->old_out_fx + NS2SA_FX2( st->output_Fs, N_ZERO_MDCT_NS ), st->hTcxDec->old_synthFB_fx + sub( shl( output_frame, 1 ), NS2SA_FX2( st->output_Fs, DELAY_BWE_TOTAL_NS - DELAY_CLDFB_NS ) ), NS2SA_FX2( st->output_Fs, PH_ECU_LOOKAHEAD_NS ), negate( st->hHQ_core->Q_old_wtda ) ); /*Q0*/ } } } - else + ELSE { - if ( st->core != ACELP_CORE ) + Copy( st->hTcxDec->synth_history_fx + output_frame, st->hTcxDec->synth_history_fx, add( sub( output_frame, post_hq_delay ), NS2SA_FX2( st->output_Fs, PH_ECU_MEM_NS ) ) ); + FOR( Word16 i = 0; i < output_frame; i++ ) { - mvr2r( st->delay_buf_out, st->hTcxDec->old_synthFB + 2 * output_frame - post_hq_delay, post_hq_delay ); - mvr2r( st->hHQ_core->old_out + NS2SA( st->output_Fs, N_ZERO_MDCT_NS ), st->hTcxDec->old_synthFB + 2 * output_frame, NS2SA( st->output_Fs, PH_ECU_LOOKAHEAD_NS ) ); + st->hTcxDec->old_synthFB_fx[( ( i + output_frame ) - post_hq_delay )] = extract_h( L_shl_sat( output_fx[i], 16 ) ); // Q16 + move16(); + } + + IF( st->core != ACELP_CORE ) + { + Copy( st->delay_buf_out_fx, st->hTcxDec->old_synthFB_fx + sub( shl( output_frame, 1 ), post_hq_delay ), post_hq_delay ); + Copy( st->hHQ_core->old_out_fx + NS2SA_FX2( st->output_Fs, N_ZERO_MDCT_NS ), st->hTcxDec->old_synthFB_fx + shl( output_frame, 1 ), NS2SA_FX2( st->output_Fs, PH_ECU_LOOKAHEAD_NS ) ); } } } - return; } -#endif diff --git a/lib_dec/FEC_HQ_phase_ecu_fx.c b/lib_dec/FEC_HQ_phase_ecu_fx.c index 708fc39e6544f87830590ccc9a2c584121938d50..ef09c3de3272be34c95156d3f9d7d17033284ec2 100644 --- a/lib_dec/FEC_HQ_phase_ecu_fx.c +++ b/lib_dec/FEC_HQ_phase_ecu_fx.c @@ -1590,11 +1590,7 @@ static void ivas_spec_ana_fx( test(); IF( n > 0 && *pPlocs == 0 ) /* Very 1st peak position possible to have a peak at 0/DC index position. */ { -#ifdef FIX_ISSUE_1237 - Copy_Scale_sig_16_32_no_sat( &xfp[*pPlocs], xfp_32, 3, Q15 ); // Q + 15 -#else - Copy_Scale_sig_16_32_DEPREC( &xfp[*pPlocs], xfp_32, 3, Q16 ); // Q + 16 -#endif + Copy_Scale_sig_16_32_no_sat( &xfp[*pPlocs], xfp_32, 3, Q15 ); // Q + 15 acc = L_deposit_h( *pPlocs ); // Q16 *pPlocsi++ = L_add( acc, L_shl( imax_pos_fx( xfp_32 ) /* Q15 */, 1 ) ); // Q16 move32(); @@ -1605,11 +1601,7 @@ static void ivas_spec_ana_fx( test(); IF( n > 0 && EQ_16( *pPlocs, 1 ) ) /* Also 2nd peak position uses DC which makes jacobsen unsuitable. */ { -#ifdef FIX_ISSUE_1237 - Copy_Scale_sig_16_32_no_sat( &xfp[*pPlocs - 1], xfp_32, 3, Q15 ); // Q + 15 -#else - Copy_Scale_sig_16_32_DEPREC( &xfp[*pPlocs - 1], xfp_32, 3, Q16 ); // Q + 16 -#endif + Copy_Scale_sig_16_32_no_sat( &xfp[*pPlocs - 1], xfp_32, 3, Q15 ); // Q + 15 acc = L_deposit_h( sub( *pPlocs, 1 ) ); // Q16 *pPlocsi++ = L_add( acc, L_shl( imax_pos_fx( xfp_32 ) /* Q15 */, 1 ) ); // Q16 move32(); @@ -1655,11 +1647,7 @@ static void ivas_spec_ana_fx( IF( EQ_16( currPlocs, ( sub( Lprot2_1, DELTA_CORR_F0_INT ) ) ) ) /* Also 2nd last peak position uses fs/2 which makes jacobsen less suitable. */ { -#ifdef FIX_ISSUE_1237 - Copy_Scale_sig_16_32_no_sat( &xfp[currPlocs - 1], xfp_32, 3, Q15 ); // Q + 15 -#else - Copy_Scale_sig_16_32_DEPREC( &xfp[currPlocs - 1], xfp_32, 3, Q16 ); // Q + 16 -#endif + Copy_Scale_sig_16_32_no_sat( &xfp[currPlocs - 1], xfp_32, 3, Q15 ); // Q + 15 acc = L_deposit_h( sub( currPlocs, 1 ) ); // Q16 *pPlocsi++ = L_add( acc, L_shl( imax_pos_fx( xfp_32 ) /* Q15 */, 1 ) ); // Q16 move32(); @@ -1673,11 +1661,7 @@ static void ivas_spec_ana_fx( * whould point */ IF( n > 0 ) /* fs/2 which makes special case . */ { -#ifdef FIX_ISSUE_1237 - Copy_Scale_sig_16_32_no_sat( &xfp[currPlocs - 2], xfp_32, 3, Q15 ); // Q + 15 -#else - Copy_Scale_sig_16_32_DEPREC( &xfp[currPlocs - 2], xfp_32, 3, Q16 ); // Q + 16 -#endif + Copy_Scale_sig_16_32_no_sat( &xfp[currPlocs - 2], xfp_32, 3, Q15 ); // Q + 15 acc = L_deposit_h( sub( currPlocs, 2 ) ); // Q16 *pPlocsi++ = L_add( acc, L_shl( imax_pos_fx( xfp_32 ) /* Q15 */, 1 ) ); // Q16 move32(); @@ -2156,7 +2140,7 @@ static void ivas_subst_spec_fx( ELSE { // tmp = NS2SA(output_frame*50,PH_ECU_ALDO_OLP2_NS-PH_ECU_LOOKAHEAD_NS); - tmp = NS2SA_FX2( output_frame * 50, PH_ECU_ALDO_OLP2_NS ); + tmp = NS2SA_FX2( L_mult0( output_frame, 50 ), PH_ECU_ALDO_OLP2_NS ); move16(); tmp = sub( tmp, ph_ecu_lookahead ); tmp = add( tmp, sub( Lecu, shr( sub( Lecu, Lprot ), 1 ) ) ); @@ -2559,7 +2543,7 @@ static void subst_spec_fx( } ELSE { - tmp = NS2SA( output_frame * 50, PH_ECU_ALDO_OLP2_NS - PH_ECU_LOOKAHEAD_NS ); + tmp = NS2SA_FX2( L_mult0( output_frame, 50 ), PH_ECU_ALDO_OLP2_NS - PH_ECU_LOOKAHEAD_NS ); move16(); tmp = add( tmp, sub( Lecu, shr( sub( Lecu, Lprot ), 1 ) ) ); tmp = sub( tmp, shr( output_frame, 1 ) ); @@ -2920,9 +2904,9 @@ static void ivas_rec_wtda_fx( Word16 copy_len; Word16 ola_len; - copy_len = NS2SA( output_frame * FRAMES_PER_SEC, ( 2 * FRAME_SIZE_NS - L_PROT_NS ) / 2 ); /* prototype fill on each side of xsubst to fill MDCT Frame */ + copy_len = NS2SA_FX2( L_mult0( output_frame, FRAMES_PER_SEC ), ( 2 * FRAME_SIZE_NS - L_PROT_NS ) / 2 ); /* prototype fill on each side of xsubst to fill MDCT Frame */ move16(); - ola_len = NS2SA( output_frame * FRAMES_PER_SEC, N_ZERO_MDCT_NS - ( 2 * FRAME_SIZE_NS - L_PROT_NS ) / 2 ); /* remaining lengt of LA_ZEROS to overlap add decoded with xsubst */ + ola_len = NS2SA_FX2( L_mult0( output_frame, FRAMES_PER_SEC ), N_ZERO_MDCT_NS - ( 2 * FRAME_SIZE_NS - L_PROT_NS ) / 2 ); /* remaining lengt of LA_ZEROS to overlap add decoded with xsubst */ move16(); xf_len = 26; @@ -2980,7 +2964,7 @@ static void ivas_rec_wtda_fx( } /* extract reconstructed frame with aldo window */ - timesh = sub( NS2SA( output_frame * FRAMES_PER_SEC, N_ZERO_MDCT_NS ), shr( sub( shl( output_frame, 1 ), Lprot ), 1 ) ); + timesh = sub( NS2SA_FX2( L_mult0( output_frame, FRAMES_PER_SEC ), N_ZERO_MDCT_NS ), shr( sub( shl( output_frame, 1 ), Lprot ), 1 ) ); set16_fx( xsubst_, 0, add( sub( shl( output_frame, 1 ), Lprot ), timesh ) ); Copy( X, xsubst_ + add( sub( shl( output_frame, 1 ), Lprot ), timesh ), sub( Lprot, timesh ) ); @@ -2988,9 +2972,9 @@ static void ivas_rec_wtda_fx( /* Copy and OLA look ahead zero part of MDCT window from decoded signal */ IF( element_mode != EVS_MONO ) { - Copy( old_dec, xsubst_ + NS2SA( output_frame * FRAMES_PER_SEC, N_ZERO_MDCT_NS ), copy_len ); /* also need to scale to Q0 ?? */ + Copy( old_dec, xsubst_ + NS2SA_FX2( L_mult0( output_frame, FRAMES_PER_SEC ), N_ZERO_MDCT_NS ), copy_len ); /* also need to scale to Q0 ?? */ pOld = old_dec + copy_len; - pNew = xsubst_ + add( copy_len, NS2SA( output_frame * FRAMES_PER_SEC, N_ZERO_MDCT_NS ) ); + pNew = xsubst_ + add( copy_len, NS2SA_FX2( L_mult0( output_frame, FRAMES_PER_SEC ), N_ZERO_MDCT_NS ) ); tmp = div_s( 1, shl( ola_len, 1 ) ); // Q15 tmp = round_fx( L_shl( L_mult( tmp, EVS_PI_FX ), 2 ) ); // Q15 sinq_fx( tmp, 0, ola_len, xfwin ); @@ -4005,11 +3989,7 @@ static void ivas_fec_ecu_dft_fx( tmp = Exp16Array( *Nfft, Tfr16 ); *exp = add( tmp, add( 2, norm_s( *Nfft ) ) ); move16(); -#ifdef FIX_ISSUE_1237 Copy_Scale_sig_16_32_no_sat( Tfr16, Tfr32, *Nfft, *exp ); /*Qin+exp; */ -#else - Copy_Scale_sig_16_32_DEPREC( Tfr16, Tfr32, *Nfft, *exp ); /*Qin+exp; */ -#endif *exp = s_min( *exp, 15 ); DoRTFTn_fx( Tfr32, Tfi32, *Nfft ); @@ -4125,20 +4105,12 @@ static void fec_ecu_dft_fx( tmp = Exp16Array( *Nfft, Tfr16 ); *exp = add( tmp, add( 2, norm_s( *Nfft ) ) ); move16(); -#ifdef FIX_ISSUE_1237 { -#ifdef FIX_ISSUE_1237_KEEP_EVS_BE Word16 loctmp = *exp; move16(); loctmp = s_min( 15, loctmp ); Copy_Scale_sig_16_32_DEPREC( Tfr16, Tfr32, *Nfft, loctmp ); /*Qin+exp; */ /*Even with limiting loctmp, if Copy_Scale_sig_16_32_no_sat() is used, can lead to 1 difference */ -#else - Copy_Scale_sig_16_32_no_sat( Tfr16, Tfr32, *Nfft, *exp ); /*Qin+exp; */ -#endif } -#else - Copy_Scale_sig_16_32_DEPREC( Tfr16, Tfr32, *Nfft, *exp ); /*Qin+exp; */ -#endif DoRTFTn_fx( Tfr32, Tfi32, *Nfft ); N_LP = shr( *Nfft, 1 ); @@ -4583,7 +4555,7 @@ static void ivas_fec_noise_filling_fx( } ELSE { - kk = NS2SA( L * FRAMES_PER_SEC, N_ZERO_MDCT_NS ); + kk = NS2SA_FX2( L_mult0( L, FRAMES_PER_SEC ), N_ZERO_MDCT_NS ); p_mdct_ola = old_out + kk; } @@ -4593,13 +4565,13 @@ static void ivas_fec_noise_filling_fx( pt6 = &p_mdct_ola[0]; FOR( k = 0; k < tmp_fx; k++ ) { - L_tmp = L_mult( *sinq_tab, *sinq_tab ); /*Q30 */ + L_tmp = L_mult( *sinq_tab, *sinq_tab ); /*Q31 */ sinq_tab++; - q2 = round_fx( L_sub( 2147483647, L_tmp ) ); /*Q15 */ - q1 = round_fx( L_tmp ); /*Q15 */ - L_tmp = L_mult( ( *pt1 ), q1 ); /*Qsynth+16 */ - L_tmp = L_mac( L_tmp, shr( *pt6++, Q_old_out ), q2 ); /*Qsynth+16 */ - ( *pt1++ ) = round_fx( L_tmp ); /*Qsynth */ + q2 = round_fx( L_sub( 2147483647, L_tmp ) ); /*Q15 */ + q1 = round_fx( L_tmp ); /*Q15 */ + L_tmp = L_mult( ( *pt1 ), q1 ); /*Qsynth+16 */ + L_tmp = L_add_sat( L_tmp, L_shr_sat( Mpy_32_16_1( L_deposit_h( *pt6++ ), q2 ), Q_old_out ) ); /*Qsynth+16 */ + ( *pt1++ ) = round_fx_sat( L_tmp ); /*Qsynth */ move16(); } @@ -4939,7 +4911,7 @@ static void ivas_hq_phase_ecu_fx( IF( element_mode == EVS_MONO ) { - ph_ecu_lookahead = NS2SA( output_frame * FRAMES_PER_SEC, PH_ECU_LOOKAHEAD_NS ); + ph_ecu_lookahead = NS2SA_FX2( L_mult0( output_frame, FRAMES_PER_SEC ), PH_ECU_LOOKAHEAD_NS ); move16(); } ELSE @@ -5018,7 +4990,7 @@ static void ivas_hq_phase_ecu_fx( alpha, beta, *beta_mute, Xavg, element_mode, ph_ecu_lookahead, noise_fac ); /* reconstructed frame in tda domain */ - old_dec = prevsynth + sub( shl( output_frame, 1 ), NS2SA( output_frame * FRAMES_PER_SEC, N_ZERO_MDCT_NS ) ); + old_dec = prevsynth + sub( shl( output_frame, 1 ), NS2SA_FX2( L_mult0( output_frame, FRAMES_PER_SEC ), N_ZERO_MDCT_NS ) ); ivas_rec_frame_fx( X, ecu_rec, output_frame, *Q_spec, old_dec, element_mode, num_p, plocs ); *last_fec = 0; @@ -5223,11 +5195,11 @@ void ivas_hq_ecu_fx( move16(); IF( EQ_16( st_fx->element_mode, EVS_MONO ) ) { - fec_alg_input = prevsynth + NS2SA( output_frame * FRAMES_PER_SEC, ACELP_LOOK_NS / 2 - PH_ECU_LOOKAHEAD_NS ); + fec_alg_input = prevsynth + NS2SA_FX2( L_mult0( output_frame, FRAMES_PER_SEC ), ACELP_LOOK_NS / 2 - PH_ECU_LOOKAHEAD_NS ); } ELSE { - fec_alg_input = prevsynth - NS2SA( output_frame * FRAMES_PER_SEC, PH_ECU_LOOKAHEAD_NS ); + fec_alg_input = prevsynth - NS2SA_FX2( L_mult0( output_frame, FRAMES_PER_SEC ), PH_ECU_LOOKAHEAD_NS ); } /* init (values ar changed after) */ @@ -5286,7 +5258,7 @@ void ivas_hq_ecu_fx( } ELSE { - ivas_hq_phase_ecu_fx( prevsynth - NS2SA( output_frame * FRAMES_PER_SEC, PH_ECU_LOOKAHEAD_NS ), ecu_rec, time_offs, X_sav, Q_spec, num_p, plocs, plocsi, + ivas_hq_phase_ecu_fx( prevsynth - NS2SA_FX2( L_mult0( output_frame, FRAMES_PER_SEC ), PH_ECU_LOOKAHEAD_NS ), ecu_rec, time_offs, X_sav, Q_spec, num_p, plocs, plocsi, env_stab, last_fec, ph_ecu_active, prev_bfi, old_is_transient, mag_chg_1st, Xavg, beta_mute, st_fx->bwidth, output_frame, corr, st_fx->element_mode ); @@ -5354,7 +5326,7 @@ void hq_ecu_fx( #ifdef IVAS_FEC_ECU_TO_COMPLETE fec_ecu_pitch_fx( fec_alg_input, prevsynth_LP, output_frame, &N, &corr, &decimatefactor, ph_ecu_HqVoicing ); #else - fec_ecu_pitch_fx( prevsynth + NS2SA( output_frame * 50, ACELP_LOOK_NS / 2 - PH_ECU_LOOKAHEAD_NS ), prevsynth_LP, output_frame, &N, &corr, &decimatefactor, ph_ecu_HqVoicing ); + fec_ecu_pitch_fx( prevsynth + NS2SA_FX2( L_mult0( output_frame, 50 ), ACELP_LOOK_NS / 2 - PH_ECU_LOOKAHEAD_NS ), prevsynth_LP, output_frame, &N, &corr, &decimatefactor, ph_ecu_HqVoicing ); #endif } ELSE @@ -5409,7 +5381,7 @@ void hq_ecu_fx( ( LT_32( st_fx->total_brate, 48000 ) && ( ( ph_ecu_HqVoicing || GT_16( corr, 27853 ) ) && !prev_bfi && ( !old_is_transient[0] || old_is_transient[1] ) ) ) ) { - fec_alg_fx( prevsynth + NS2SA( output_frame * 50, ACELP_LOOK_NS / 2 - PH_ECU_LOOKAHEAD_NS ), prevsynth_LP, &st_fx->hHQ_core->ni_seed_forfec, ecu_rec, output_frame, N, decimatefactor, ph_ecu_HqVoicing, gapsynth ); + fec_alg_fx( prevsynth + NS2SA_FX2( L_mult0( output_frame, 50 ), ACELP_LOOK_NS / 2 - PH_ECU_LOOKAHEAD_NS ), prevsynth_LP, &st_fx->hHQ_core->ni_seed_forfec, ecu_rec, output_frame, N, decimatefactor, ph_ecu_HqVoicing, gapsynth ); *last_fec = 1; move16(); *ph_ecu_active = 0; diff --git a/lib_dec/FEC_clas_estim_fx.c b/lib_dec/FEC_clas_estim_fx.c index 9b58084e36ef1cb0d935be70990bb95aa18d485a..e56a77be12f49bf6522a1b129d91eaa0edbe4bb9 100644 --- a/lib_dec/FEC_clas_estim_fx.c +++ b/lib_dec/FEC_clas_estim_fx.c @@ -82,7 +82,7 @@ void FEC_clas_estim_fx( Word16 bfi, /* i : bad frame indicator */ /*B*/ Word32 last_core_brate, /* i : bitrate of previous frame */ - const int16_t FEC_mode /* i : ACELP FEC mode */ + const Word16 FEC_mode /* i : ACELP FEC mode */ ) { Word16 i, j, pos; diff --git a/lib_dec/FEC_fx.c b/lib_dec/FEC_fx.c index 35bb254af835011d3ec461752e47c43ee3c7b2f3..612816efd236c6ca1a51dcca0933ec4d1b7b6284 100644 --- a/lib_dec/FEC_fx.c +++ b/lib_dec/FEC_fx.c @@ -504,11 +504,7 @@ void FEC_exc_estim_fx( test(); test(); test(); -#ifdef NONBE_FIX_GSC_BSTR IF( EQ_16( st_fx->last_coder_type, AUDIO ) || ( EQ_16( st_fx->last_good, INACTIVE_CLAS ) && st_fx->inactive_coder_type_flag && !st_fx->Opt_AMR_WB ) ) -#else - IF( EQ_16( st_fx->last_coder_type, AUDIO ) || ( EQ_16( st_fx->last_good, INACTIVE_CLAS ) && LE_32( st_fx->total_brate, MAX_GSC_INACTIVE_BRATE ) && !st_fx->Opt_AMR_WB ) ) -#endif { st_fx->GSC_noisy_speech = st_fx->Last_GSC_noisy_speech_flag; move16(); @@ -670,11 +666,7 @@ void FEC_exc_estim_fx( test(); test(); test(); -#ifdef NONBE_FIX_GSC_BSTR IF( EQ_16( st_fx->last_coder_type, AUDIO ) || ( EQ_16( st_fx->last_good, INACTIVE_CLAS ) && st_fx->inactive_coder_type_flag && !st_fx->Opt_AMR_WB ) ) -#else - IF( ( EQ_16( st_fx->last_coder_type, AUDIO ) || EQ_16( st_fx->last_good, INACTIVE_CLAS ) ) && LE_32( st_fx->total_brate, MAX_GSC_INACTIVE_BRATE ) && !st_fx->Opt_AMR_WB ) -#endif { /* For GSC - the excitation is already computed */ Copy( exc, exc2, st_fx->L_frame ); diff --git a/lib_dec/TonalComponentDetection_fx.c b/lib_dec/TonalComponentDetection_fx.c index ca7bec1408a10c55203b4a1990f6a7cc95bb71c8..e820f1399780d3fca13070925d67b8d76e443140 100644 --- a/lib_dec/TonalComponentDetection_fx.c +++ b/lib_dec/TonalComponentDetection_fx.c @@ -30,6 +30,7 @@ static void modifyThresholds( Word16 F0, Word16 origF0, Word16 *thresholdModific static void RefineThresholdsUsingPitch( const Word16 nSamples, const Word16 nSamplesCore, const Word32 powerSpectrum[], const Word32 lastPitchLag, const Word32 currentPitchLag, Word16 *pF0, Word16 *thresholdModification ); static void ivas_RefineThresholdsUsingPitch_fx( const Word16 nSamples, const Word16 nSamplesCore, const Word32 powerSpectrum[], const Word32 lastPitchLag, const Word32 currentPitchLag, Word16 *pF0, Word16 *thresholdModification ); static void findTonalComponents( Word16 *indexOfTonalPeak, Word16 *lowerIndex, Word16 *upperIndex, Word16 *numIndexes, Word16 nSamples, const Word32 *powerSpectrum, Word16 F0, Word16 *thresholdModification, Word16 element_mode ); +static void ivas_findTonalComponents_fx( Word16 *indexOfTonalPeak, Word16 *lowerIndex, Word16 *upperIndex, Word16 *numIndexes, Word16 nSamples, const Word32 *powerSpectrum, const Word16 powerSpectrum_e, Word16 F0, Word16 *thresholdModification, Word16 element_mode ); /*-------------------------------------------------------------------* * DetectTonalComponents() @@ -52,7 +53,8 @@ void ivas_DetectTonalComponents_fx( const Word16 scaleFactors[], const Word16 scaleFactors_exp[], const Word16 scaleFactors_max_e, - const Word32 secondLastPowerSpectrum[], /*Qx*/ + const Word32 secondLastPowerSpectrum[], /*Q31-secondLastPowerSpectrum_e*/ + const Word16 secondLastPowerSpectrum_e, const Word16 nSamples, const Word16 nSamplesCore, Word16 floorPowerSpectrum, /* i: lower limit for power spectrum bins Q0*/ @@ -74,13 +76,11 @@ void ivas_DetectTonalComponents_fx( pScaledMdctSpectrum[i] = L_shl( lastMDCTSpectrum[i], 16 ); /*15-lastMDCTSpectrum_exp+16 -> 31 - lastMDCTSpectrum_exp*/ move32(); } -#ifdef MSAN_FIX FOR( Word16 i = 0; i < FDNS_NPTS; i++ ) { sns_int_scf_fx[i] = L_shl_sat( scaleFactors[i], add( 1, scaleFactors_exp[i] ) ); // Q16 move32(); } -#endif IF( psychParamsCurrent == NULL ) { nBands = FDNS_NPTS; @@ -92,12 +92,6 @@ void ivas_DetectTonalComponents_fx( } ELSE { -#ifndef MSAN_FIX - FOR( Word16 i = 0; i < FDNS_NPTS; i++ ) - { - sns_int_scf_fx[i] = L_shl( scaleFactors[i], add( 1, scaleFactors_exp[i] ) ); // Q16 - } -#endif q_pScaledMdctSpectrum = sub( 31, lastMDCTSpectrum_exp ); sns_shape_spectrum_fx( pScaledMdctSpectrum, &q_pScaledMdctSpectrum, psychParamsCurrent, sns_int_scf_fx, 16, nSamplesCore, NULL ); q_pScaledMdctSpectrum = add( q_pScaledMdctSpectrum, 1 ); @@ -127,7 +121,7 @@ void ivas_DetectTonalComponents_fx( ivas_RefineThresholdsUsingPitch_fx( nSamples, nSamplesCore, secondLastPowerSpectrum, lastPitchLag, currentPitchLag, &F0, thresholdModification ); /* Find peaks in the second last frame */ - findTonalComponents( indexOfTonalPeak, lowerIndex, upperIndex, pNumIndexes, nSamples, secondLastPowerSpectrum, F0, thresholdModification, element_mode ); + ivas_findTonalComponents_fx( indexOfTonalPeak, lowerIndex, upperIndex, pNumIndexes, nSamples, secondLastPowerSpectrum, secondLastPowerSpectrum_e, F0, thresholdModification, element_mode ); } void DetectTonalComponents( @@ -306,7 +300,8 @@ void ivas_RefineTonalComponents_fx( const Word16 scaleFactors[], const Word16 scaleFactors_exp[], const Word16 scaleFactors_max_e, - const Word32 secondLastPowerSpectrum[], /*Qx*/ + const Word32 secondLastPowerSpectrum[], /*Q31-secondLastPowerSpectrum_e*/ + const Word16 secondLastPowerSpectrum_e, const Word16 nSamples, const Word16 nSamplesCore, const Word16 floorPowerSpectrum, /* i: lower limit for power spectrum bins Q0*/ @@ -322,7 +317,7 @@ void ivas_RefineTonalComponents_fx( ivas_DetectTonalComponents_fx( newIndexOfTonalPeak, newLowerIndex, newUpperIndex, &newNumIndexes, lastPitchLag, currentPitchLag, lastMDCTSpectrum, - lastMDCTSpectrum_exp, scaleFactors, scaleFactors_exp, scaleFactors_max_e, secondLastPowerSpectrum, nSamples, nSamplesCore, floorPowerSpectrum, + lastMDCTSpectrum_exp, scaleFactors, scaleFactors_exp, scaleFactors_max_e, secondLastPowerSpectrum, secondLastPowerSpectrum_e, nSamples, nSamplesCore, floorPowerSpectrum, psychParamsCurrent, element_mode ); nPreservedPeaks = 0; @@ -1280,6 +1275,171 @@ static void RefineThresholdsUsingPitch( return; } +static void ivas_findTonalComponents_fx( + Word16 *indexOfTonalPeak, /* OUT Q0*/ + Word16 *lowerIndex, /* OUT Q0*/ + Word16 *upperIndex, /* OUT Q0*/ + Word16 *numIndexes, /* OUT Q0*/ + Word16 nSamples, /* IN */ + const Word32 *powerSpectrum, /* IN Q31-powerSpectrum_e*/ + const Word16 powerSpectrum_e, + Word16 F0, /* IN */ + Word16 *thresholdModification, /* IN Q10*/ + Word16 element_mode ) /* IN */ +{ + Word32 envelope[L_FRAME_MAX]; /*powerSpec_exp + LEVEL_EXP*/ + Word32 smoothedSpectrum[L_FRAME_MAX]; /*powerSpec_exp + LEVEL_EXP*/ + Word16 nrOfFIS; + Word16 upperIdx, lowerIdx, lowerBound; + Word16 k, j, m; + Word32 biggerNeighbor; + Word16 tmp_loop1, tmp_loop2, tmp_loop3; + + getEnvelope( nSamples, powerSpectrum, F0, envelope, smoothedSpectrum ); + + + nrOfFIS = 0; + move16(); + lowerBound = 0; + move16(); + + k = GROUP_LENGTH / 2; + move16(); + tmp_loop1 = sub( nSamples, ( GROUP_LENGTH - GROUP_LENGTH / 2 ) ); + tmp_loop2 = sub( nSamples, 1 ); + WHILE( LE_16( k, tmp_loop1 ) ) + { + Word64 mult_64 = W_mult_32_16( envelope[k], thresholdModification[k] ); // (Q31-(powerSpectrum_e+LEVEL_EXP))+1+10 + Word16 lshift = W_norm( mult_64 ); + Word32 mult_32 = W_extract_h( W_shl( mult_64, lshift ) ); //(Q31-(powerSpectrum_e+LEVEL_EXP) + lshift )+11 -32 + Word16 mult_exp = sub( Q31, sub( add( sub( Q31, add( powerSpectrum_e, LEVEL_EXP ) ), add( 10, lshift ) ), 31 ) ); + Word16 flag = BASOP_Util_Cmp_Mant32Exp( smoothedSpectrum[k], ( powerSpectrum_e + LEVEL_EXP ), mult_32, mult_exp ); + /* There is 3 bits headroom in envelope and max of thresholdModification is 16384, so shifting left for 4 would produce overflow only when the result is anyhow close to 1 */ + IF( EQ_16( flag, 1 ) ) + { + /* The check that bin at k is bigger than bins at k-1 and k+1 is needed to avoid deadlocks when the thresholds are low. */ + /* It removes some true peaks, especially if non weighted sum is used for the smoothed spectrum. */ + biggerNeighbor = L_max( powerSpectrum[k - 1], powerSpectrum[k + 1] ); /*Qx*/ + + IF( GE_32( powerSpectrum[k], biggerNeighbor ) ) + { + /* Find the right foot */ + upperIdx = add( k, 1 ); + WHILE( LT_16( upperIdx, tmp_loop2 ) ) + { + IF( LT_32( powerSpectrum[upperIdx], powerSpectrum[upperIdx + 1] ) ) + { + /* Side lobes may increase for certain amount */ + IF( LT_32( L_shl( Mpy_32_16_1( powerSpectrum[upperIdx], ALLOWED_SIDE_LOBE_FLUCTUATION ), ALLOWED_SIDE_LOBE_FLUCTUATION_EXP ), powerSpectrum[upperIdx + 1] ) ) + { + BREAK; + } + /* Check for further decrease after a side lobe increase */ + FOR( j = add( upperIdx, 1 ); j < tmp_loop2; j++ ) + { + IF( LT_32( powerSpectrum[j], L_shl( Mpy_32_16_1( powerSpectrum[j + 1], ALLOWED_SIDE_LOBE_FLUCTUATION ), ALLOWED_SIDE_LOBE_FLUCTUATION_EXP ) ) ) + { + BREAK; + } + } + /* Side lobe increase must be 2 times smaller than the decrease to the foot */ + /* Eq. to 2.0f*powerSpectrum[lowerIdx-1]/powerSpectrum[lowerIdx] > powerSpectrum[lowerIdx]/powerSpectrum[j] */ + test(); + test(); + test(); + IF( ( EQ_16( element_mode, EVS_MONO ) && GT_32( Mpy_32_32( L_shl( powerSpectrum[upperIdx + 1], 1 ), powerSpectrum[j] ), Mpy_32_32( powerSpectrum[upperIdx], powerSpectrum[upperIdx] ) ) ) || + ( NE_16( element_mode, EVS_MONO ) && ( GT_64( W_mult_32_32( L_shl( powerSpectrum[upperIdx + 1], 1 ), powerSpectrum[j] ), W_mult_32_32( powerSpectrum[upperIdx], powerSpectrum[upperIdx] ) ) ) ) ) + { + BREAK; + } + upperIdx = sub( j, 1 ); + } + upperIdx = add( upperIdx, 1 ); + } + /* left foot */ + lowerIdx = sub( k, 1 ); + WHILE( GT_16( lowerIdx, lowerBound ) ) + { + IF( LT_32( powerSpectrum[lowerIdx], powerSpectrum[lowerIdx - 1] ) ) + { + /* Side lobes may increase for certain amount */ + IF( LT_32( L_shl( Mpy_32_16_1( powerSpectrum[lowerIdx], ALLOWED_SIDE_LOBE_FLUCTUATION ), ALLOWED_SIDE_LOBE_FLUCTUATION_EXP ), powerSpectrum[lowerIdx - 1] ) ) + { + BREAK; + } + /* Check for further decrease after a side lobe increase */ + FOR( j = sub( lowerIdx, 1 ); j > 0; j-- ) + { + IF( LT_32( powerSpectrum[j], L_shl( Mpy_32_16_1( powerSpectrum[j - 1], ALLOWED_SIDE_LOBE_FLUCTUATION ), ALLOWED_SIDE_LOBE_FLUCTUATION_EXP ) ) ) + { + BREAK; + } + } + /* Side lobe increase must be 2 times smaller than the decrease to the foot */ + /* Eq. to 2.0f*powerSpectrum[lowerIdx-1]/powerSpectrum[lowerIdx] > powerSpectrum[lowerIdx]/powerSpectrum[j] */ + IF( GT_32( Mpy_32_32( L_shl( powerSpectrum[lowerIdx - 1], 1 ), powerSpectrum[j] ), Mpy_32_32( powerSpectrum[lowerIdx], powerSpectrum[lowerIdx] ) ) ) + { + BREAK; + } + lowerIdx = add( j, 1 ); + } + lowerIdx = sub( lowerIdx, 1 ); + } + + lowerBound = upperIdx; + move16(); + + /* Check if there is a bigger peak up to the next peak foot */ + tmp_loop3 = s_min( upperIdx, tmp_loop1 ); + FOR( j = s_max( GROUP_LENGTH / 2, lowerIdx ); j <= tmp_loop3; j++ ) + { + if ( GT_32( powerSpectrum[j], powerSpectrum[k] ) ) + { + + k = j; + move16(); + } + } + + assert( ( nrOfFIS == 0 ) || ( indexOfTonalPeak[nrOfFIS - 1] < k ) ); + + lowerIndex[nrOfFIS] = sub( k, GROUP_LENGTH / 2 ); + move16(); + + upperIndex[nrOfFIS] = add( k, ( GROUP_LENGTH - GROUP_LENGTH / 2 - 1 ) ); + move16(); + + test(); + IF( ( nrOfFIS > 0 ) && ( LE_16( lowerIndex[nrOfFIS], upperIndex[nrOfFIS - 1] ) ) ) + { + m = shr( add( k, indexOfTonalPeak[nrOfFIS - 1] ), 1 ); + upperIndex[nrOfFIS - 1] = m; + move16(); + lowerIndex[nrOfFIS] = add( m, 1 ); + move16(); + } + + indexOfTonalPeak[nrOfFIS++] = k; + move16(); + + IF( EQ_16( nrOfFIS, MAX_NUMBER_OF_IDX ) ) + { + BREAK; + } + /* Jump to the next foot of the peak. */ + k = upperIdx; + move16(); + } + } + k = add( k, 1 ); + } + + *numIndexes = nrOfFIS; + move16(); + return; +} + + static void ivas_RefineThresholdsUsingPitch_fx( const Word16 nSamples, const Word16 nSamplesCore, diff --git a/lib_dec/acelp_core_dec_fx.c b/lib_dec/acelp_core_dec_fx.c index 1b2207491020bd08416ac1c78f69aeef75ab491c..495ca5c006ecc49b9d7f3108d72d7bc55ef09912 100644 --- a/lib_dec/acelp_core_dec_fx.c +++ b/lib_dec/acelp_core_dec_fx.c @@ -107,16 +107,12 @@ ivas_error acelp_core_dec_fx( Word16 uc_two_stage_flag, dec; Word16 nb_bits, indice; Word16 tdm_lp_reuse_flag, tdm_low_rate_mode, tdm_Pitch_reuse_flag; -#ifdef ADD_LRTD - Word16 *p_tdm_Pri_pitch_buf; -#endif MUSIC_POSTFILT_HANDLE hMusicPF; BPF_DEC_HANDLE hBPF; TD_BWE_DEC_HANDLE hBWE_TD; FD_BWE_DEC_HANDLE hBWE_FD; TCX_DEC_HANDLE hTcxDec; ivas_error error; -#ifdef REMOVE_IVAS_UNUSED_PARAMETERS_WARNING (void) ( tdm_lspQ_PCh ); (void) ( tdm_lsfQ_PCh ); (void) ( use_cldfb_for_dft ); @@ -128,7 +124,6 @@ ivas_error acelp_core_dec_fx( (void) ( output ); (void) ( read_sid_info ); (void) hStereoCng; -#endif hMusicPF = st_fx->hMusicPF; hBPF = st_fx->hBPF; hBWE_TD = st_fx->hBWE_TD; @@ -146,66 +141,6 @@ ivas_error acelp_core_dec_fx( return error; } - -#ifdef IVAS_CODE - output_frame = (int16_t) ( st->output_Fs / FRAMES_PER_SEC ); - - /*----------------------------------------------------------------* - * stereo SID and CNG frames processing - *----------------------------------------------------------------*/ - - if ( st->core_brate <= SID_2k40 && st->element_mode == IVAS_CPE_DFT && nchan_out == 2 ) - { - if ( st->cng_type == FD_CNG ) - { - configureFdCngDec_fx( st->hFdCngDec, st->bwidth, ACELP_14k25, st->L_frame, st->last_L_frame, st->element_mode ); - - /* Only run parameter decoding in SID frames */ - if ( st->core_brate == SID_2k40 ) - { - FdCng_decodeSID_fx( st ); - } - - for ( i = 0; i < NPART; i++ ) - { - st->hFdCngDec->hFdCngCom->sidNoiseEstLp[i] = STEREO_DFT_FD_FILT * st->hFdCngDec->hFdCngCom->sidNoiseEstLp[i] + ( 1 - STEREO_DFT_FD_FILT ) * st->hFdCngDec->hFdCngCom->sidNoiseEst[i]; - } - -#ifdef IVAS_CODE_CNG_FIX185_PLC_FADEOUT - ApplyFdCng_fx( NULL, NULL, NULL, NULL, st, 0, 0 ); -#else - ApplyFdCng_fx( NULL, NULL, NULL, NULL, st, 0, 0 ); -#endif - } - else - { - configureFdCngDec_fx( st->hFdCngDec, st->bwidth, ACELP_14k25, st->L_frame, st->last_L_frame, st->element_mode ); - - /* decode CNG parameters */ - CNG_dec( st, last_element_mode, Aq, lsp_new, lsf_new, &allow_cn_step, sid_bw, q_env ); - - /* comfort noise generation */ - CNG_exc( st->core_brate, st->L_frame, &st->hTdCngDec->Enew, &st->hTdCngDec->cng_seed, NULL, NULL, &st->lp_ener, st->last_core_brate, &st->first_CNG, &( st->hTdCngDec->cng_ener_seed ), NULL, allow_cn_step, &st->hTdCngDec->last_allow_cn_step, st->hTdCngDec->num_ho, q_env, st->hTdCngDec->lp_env, st->hTdCngDec->old_env, st->hTdCngDec->exc_mem, st->hTdCngDec->exc_mem1, sid_bw, &st->hTdCngDec->cng_ener_seed1, NULL, st->Opt_AMR_WB, st->element_mode ); - - mvr2r( Aq, st->Aq_cng, M + 1 ); - - /* update old LSP and LSF vector */ - mvr2r( lsf_new, st->lsf_old, M ); - mvr2r( lsp_new, st->lsp_old, M ); - } - - set_f( output, 0, output_frame ); /* output and synth are not used in DFT domain CNG generation and the decoder output is unaffected if they are left uninitalized */ - set_f( synth, 0, output_frame ); /* They are however read in a few places which causes errors in the valgrind tests. Simplest solution from a code perspective was to set them to zero. */ - - /* CN generation done in DFT domain */ - wmops_sub_end(); - return error; - } - - /*----------------------------------------------------------------* - * Active frames processing - *----------------------------------------------------------------*/ -#endif FOR( i = 0; i < CLDFB_NO_COL_MAX; i++ ) { set32_fx( realBufferTmp[i], 0, CLDFB_NO_CHANNELS_MAX ); @@ -268,13 +203,7 @@ ivas_error acelp_core_dec_fx( move32(); } } -#ifdef IVAS_CODE - if ( st->hFdCngDec != NULL && ( st->element_mode == IVAS_CPE_DFT || st->element_mode == IVAS_CPE_TD ) && ( st->last_core_brate == SID_2k40 || st->last_core_brate == FRAME_NO_DATA ) ) - { - set_zero( st->hFdCngDec->hFdCngCom->olapBufferSynth2, FFTLEN ); - set_zero( hStereoCng->olapBufferSynth22, FFTLEN ); - } -#endif + st_fx->clas_dec = st_fx->last_good; move16(); enr_q_fx = 0; @@ -359,9 +288,6 @@ ivas_error acelp_core_dec_fx( tdm_lp_reuse_flag = hStereoTD->tdm_lp_reuse_flag; tdm_low_rate_mode = hStereoTD->tdm_low_rate_mode; tdm_Pitch_reuse_flag = hStereoTD->tdm_Pitch_reuse_flag; -#ifdef ADD_LRTD - p_tdm_Pri_pitch_buf = hStereoTD->tdm_Pri_pitch_buf; -#endif move16(); move16(); move16(); @@ -380,9 +306,6 @@ ivas_error acelp_core_dec_fx( move16(); } tdm_Pitch_reuse_flag = 0; -#ifdef ADD_LRTD - p_tdm_Pri_pitch_buf = NULL; -#endif move16(); } /*----------------------------------------------------------------* @@ -422,7 +345,7 @@ ivas_error acelp_core_dec_fx( Copy( GEWB_Ave_fx, st_fx->mem_AR_fx, M ); // Qlog2(2.56) } set16_fx( st_fx->mem_MA_fx, 0, M ); -#if 1 // def IVAS_CODE + dec = DEC; move16(); IF( NE_16( st_fx->element_mode, EVS_MONO ) ) @@ -433,9 +356,7 @@ ivas_error acelp_core_dec_fx( /* update synthesis filter memories */ synth_mem_updt2( st_fx->L_frame, st_fx->last_L_frame, st_fx->old_exc_fx, st_fx->mem_syn_r, st_fx->mem_syn2_fx, NULL, dec ); -#else - synth_mem_updt2( st_fx->L_frame, st_fx->last_L_frame, st_fx->old_exc_fx, st_fx->mem_syn_r, st_fx->mem_syn2_fx, NULL, DEC ); -#endif + Copy( st_fx->old_exc_fx, old_exc_fx, L_EXC_MEM_DEC ); // Q_exc Copy_Scale_sig( st_fx->mem_syn2_fx, st_fx->mem_syn1_fx, M, sub( -1, st_fx->Q_syn ) ); /*Q-1*/ @@ -600,7 +521,7 @@ ivas_error acelp_core_dec_fx( { tc_subfr_fx = tc_classif_fx( st_fx, st_fx->L_frame ); } -#if 1 // def IVAS_CODE + /*----------------------------------------------------------------* * Decoding of GSC IVAS mode *----------------------------------------------------------------*/ @@ -620,7 +541,7 @@ ivas_error acelp_core_dec_fx( move16(); } } -#endif + /*----------------------------------------------------------------* * Decoding of inactive CNG frames *----------------------------------------------------------------*/ @@ -631,23 +552,14 @@ ivas_error acelp_core_dec_fx( IF( st_fx->cng_type == LP_CNG ) { - CNG_dec_fx( st_fx, st_fx->last_element_mode, Aq_fx, lsp_new_fx, lsf_new_fx, &allow_cn_step_fx, sid_bw, q_env ); -#ifdef IVAS_CODE - local_element_mode = st_fx->element_mode; - move16(); - IF( ( EQ_16( nchan_out, 1 ) && EQ_16( st_fx->element_mode, IVAS_CPE_DFT ) ) || EQ_16( st_fx->masa_sid_format, 1 ) ) - { - local_element_mode = IVAS_SCE; /* For DFT Stereo mono decoding, run CNG_exc as in SCE */ - move16(); - } -#endif + CNG_dec_fx( st_fx, EVS_MONO, Aq_fx, lsp_new_fx, lsf_new_fx, &allow_cn_step_fx, sid_bw, q_env ); + /* comfort noise generation */ CNG_exc_fx( st_fx->core_brate, st_fx->L_frame, &st_fx->hTdCngDec->Enew_fx, &st_fx->hTdCngDec->cng_seed, exc_fx, exc2_fx, &st_fx->lp_ener_fx, st_fx->last_core_brate, &st_fx->first_CNG, &( st_fx->hTdCngDec->cng_ener_seed ), bwe_exc_fx, allow_cn_step_fx, &st_fx->hTdCngDec->last_allow_cn_step, st_fx->prev_Q_exc, st_fx->Q_exc, st_fx->hTdCngDec->num_ho, q_env, st_fx->hTdCngDec->lp_env_fx, st_fx->hTdCngDec->old_env_fx, st_fx->hTdCngDec->exc_mem_fx, st_fx->hTdCngDec->exc_mem1_fx, sid_bw, &st_fx->hTdCngDec->cng_ener_seed1, exc3_fx, st_fx->Opt_AMR_WB, st_fx->element_mode ); -#if 1 // def IVAS_CODE + Copy( Aq_fx, st_fx->Aq_cng, M + 1 ); // Q12 -#endif } ELSE { @@ -658,32 +570,7 @@ ivas_error acelp_core_dec_fx( *sid_bw = 0; move16(); } -#ifdef IVAS_CODE - if ( st->element_mode == IVAS_CPE_DFT ) - { - assert( nchan_out == 1 ); - for ( i = 0; i < NPART; i++ ) - { - st->hFdCngDec->hFdCngCom->sidNoiseEstLp[i] = STEREO_DFT_FD_FILT * st->hFdCngDec->hFdCngCom->sidNoiseEstLp[i] + ( 1 - STEREO_DFT_FD_FILT ) * st->hFdCngDec->hFdCngCom->sidNoiseEst[i]; - } -#ifdef IVAS_CODE_CNG_FIX185_PLC_FADEOUT - ApplyFdCng_fx( syn, 0, NULL, realBuffer, imagBuffer, NULL, st, 0, ( st->coder_type == AUDIO && !st->GSC_noisy_speech ) ); -#else - ApplyFdCng_fx( syn, realBuffer, imagBuffer, st, 0, ( st->coder_type == AUDIO && !st->GSC_noisy_speech ) ); -#endif - } - if ( !read_sid_info ) - { - float noise_lvl_highest; - - noise_lvl_highest = st->hFdCngDec->hFdCngCom->cngNoiseLevel[st->hFdCngDec->hFdCngCom->stopFFTbin - st->hFdCngDec->hFdCngCom->startBand - 1]; - for ( int16_t b = st->hFdCngDec->hFdCngCom->stopFFTbin - st->hFdCngDec->hFdCngCom->startBand; b < st->hFdCngDec->hFdCngCom->stopBand; b++ ) - { - st->hFdCngDec->hFdCngCom->cngNoiseLevel[b] = noise_lvl_highest; - } - } -#endif generate_comfort_noise_dec_fx( NULL, NULL, NULL, st_fx, &( st_fx->Q_exc ), 2, -1 ); FdCng_exc( st_fx->hFdCngDec->hFdCngCom, &st_fx->CNG_mode, st_fx->L_frame, st_fx->lsp_old_fx, st_fx->first_CNG, st_fx->lspCNG_fx, Aq_fx, lsp_new_fx, lsf_new_fx, exc_fx, exc2_fx, bwe_exc_fx ); @@ -777,21 +664,13 @@ ivas_error acelp_core_dec_fx( move16(); } -#ifdef NONBE_FIX_GSC_BSTR config_acelp1( DEC, st_fx->total_brate, st_fx->core_brate, st_fx->core, st_fx->extl_orig, st_fx->extl_brate_orig, st_fx->L_frame, st_fx->GSC_noisy_speech, &( st_fx->acelp_cfg ), st_fx->next_bit_pos, st_fx->coder_type, st_fx->inactive_coder_type_flag, tc_subfr_tmp, 1, &nb_bits, unbits, st_fx->element_mode, &uc_two_stage_flag, tdm_lp_reuse_flag, tdm_low_rate_mode, st_fx->idchan, st_fx->active_cnt, tdm_Pitch_reuse_flag, st_fx->tdm_LRTD_flag, st_fx->GSC_IVAS_mode ); -#else - config_acelp1( DEC, st_fx->total_brate, st_fx->core_brate, st_fx->core, st_fx->extl_orig, st_fx->extl_brate_orig, st_fx->L_frame, st_fx->GSC_noisy_speech, &( st_fx->acelp_cfg ), st_fx->next_bit_pos, st_fx->coder_type, tc_subfr_tmp, 1, &nb_bits, unbits, st_fx->element_mode, &uc_two_stage_flag, tdm_lp_reuse_flag, tdm_low_rate_mode, st_fx->idchan, st_fx->active_cnt, tdm_Pitch_reuse_flag, st_fx->tdm_LRTD_flag, st_fx->GSC_IVAS_mode ); -#endif test(); test(); IF( EQ_16( st_fx->coder_type, TRANSITION ) && LT_16( tc_subfr_fx, L_SUBFR ) && EQ_16( st_fx->L_frame, L_FRAME ) ) { -#ifdef NONBE_FIX_GSC_BSTR config_acelp1( DEC, st_fx->total_brate, st_fx->core_brate, st_fx->core, st_fx->extl_orig, st_fx->extl_brate_orig, st_fx->L_frame, -1, &( st_fx->acelp_cfg ), st_fx->next_bit_pos, TRANSITION, -1, tc_subfr_fx, 2, &nb_bits, unbits, st_fx->element_mode, &uc_two_stage_flag, tdm_lp_reuse_flag, tdm_low_rate_mode, st_fx->idchan, st_fx->active_cnt, tdm_Pitch_reuse_flag, st_fx->tdm_LRTD_flag, st_fx->GSC_IVAS_mode ); -#else - config_acelp1( DEC, st_fx->total_brate, st_fx->core_brate, st_fx->core, st_fx->extl_orig, st_fx->extl_brate_orig, st_fx->L_frame, -1, &( st_fx->acelp_cfg ), st_fx->next_bit_pos, st_fx->coder_type, tc_subfr_fx, 2, &nb_bits, unbits, st_fx->element_mode, &uc_two_stage_flag, tdm_lp_reuse_flag, tdm_low_rate_mode, st_fx->idchan, st_fx->active_cnt, tdm_Pitch_reuse_flag, st_fx->tdm_LRTD_flag, st_fx->GSC_IVAS_mode ); -#endif } } @@ -818,10 +697,6 @@ ivas_error acelp_core_dec_fx( move16(); st_fx->last_nq_preQ = 0; move16(); -#ifdef IVAS_CODE - st_fx->last_code_preq = 0; - move16(); -#endif } st_fx->use_acelp_preq = 0; @@ -830,86 +705,10 @@ ivas_error acelp_core_dec_fx( /*-----------------------------------------------------------------* * LSF de-quantization and interpolation *-----------------------------------------------------------------*/ -#ifdef ADD_LRTD - if ( !tdm_lp_reuse_flag ) -#endif - { - lsf_dec_fx( st_fx, tc_subfr_fx, Aq_fx, &LSF_Q_prediction, lsf_new_fx, lsp_new_fx, lsp_mid_fx, tdm_low_rate_mode, - tdm_lsfQ_PCh ); - } -#ifdef ADD_LRTD - else - { - const float *pt_interp_2; -#ifdef LSF_RE_USE_SECONDARY_CHANNEL - if ( st->active_cnt != 1 ) - { - int16_t beta_index; - - beta_index = get_next_indice( st, TDM_IC_LSF_PRED_BITS ); - tdm_SCh_lsf_reuse( DEC, st->element_brate, lsf_new, lsp_new, tdm_lsfQ_PCh, NULL, &beta_index ); - } - else - { - mvr2r( tdm_lspQ_PCh, lsp_new, M ); - mvr2r( tdm_lsfQ_PCh, lsf_new, M ); - } -#else - mvr2r( tdm_lspQ_PCh, lsp_new, M ); - mvr2r( tdm_lsfQ_PCh, lsf_new, M ); -#endif - if ( st->rate_switching_reset ) - { - /* extrapolation in case of unstable LSF convert */ - mvr2r( lsp_new, st->lsp_old, M ); - mvr2r( lsf_new, st->lsf_old, M ); - } - - pt_interp_2 = interpol_frac_12k8; - if ( tdm_low_rate_mode == 1 && st->coder_type > UNVOICED ) - { - pt_interp_2 = interpol_frac2; - } - - if ( st->active_cnt == 1 ) - { - mvr2r( lsp_new, st->lsp_old, M ); - lsp2lsf( lsp_new, st->lsf_old, M, st->sr_core ); - } - /* LSP interpolation and conversion of LSPs to A(z) */ - int_lsp( st->L_frame, st->lsp_old, lsp_new, Aq, M, pt_interp_2, 0 ); - /* Check LSF stability (distance between old LSFs and current LSFs) */ - st->stab_fac = lsf_stab( lsf_new, st->lsf_old, 0, st->L_frame ); - } + lsf_dec_fx( st_fx, tc_subfr_fx, Aq_fx, &LSF_Q_prediction, lsf_new_fx, lsp_new_fx, lsp_mid_fx, tdm_low_rate_mode, + tdm_lsfQ_PCh ); - if ( st->last_core == HQ_CORE && st->element_mode > EVS_MONO ) - { - /* Prepare ACB memory from last HQ frame */ - old_exc_s = st->old_exc + L_EXC_MEM_DEC - st->L_frame; - tmpF = *old_exc_s; - st->mem_deemph = old_exc_s[st->L_frame - 1]; - preemph( old_exc_s, st->preemph_fac, L_FRAME16k, &tmpF ); - mvr2r( old_exc_s + st->L_frame - M, st->mem_syn2, M ); - residu( Aq, M, old_exc_s, old_exc + L_EXC_MEM_DEC - st->L_frame, st->L_frame ); - } - if ( st->last_core != ACELP_CORE && st->element_mode > EVS_MONO ) - { - /* Prepare ACB memory of old_bwe_exc */ -#ifdef CR_FIX_639_HQ_ACELP_TRANSITION - if ( st->L_frame == L_FRAME ) - { - lerp( old_exc, old_bwe_exc, L_EXC_MEM_DEC * HIBND_ACB_L_FAC, L_EXC_MEM_DEC ); - } - else - { - lerp( old_exc, old_bwe_exc, L_EXC_MEM_DEC * 2, L_EXC_MEM_DEC ); - } -#else - lerp( old_exc, old_bwe_exc, L_EXC_MEM_DEC * HIBND_ACB_L_FAC, L_EXC_MEM_DEC ); -#endif - } -#endif /*-----------------------------------------------------------------* * FEC - first good frame after lost frame(s) (possibility to correct the ACB) *-----------------------------------------------------------------*/ @@ -979,27 +778,7 @@ ivas_error acelp_core_dec_fx( test(); test(); -#ifdef ADD_LRTD - IF( tdm_low_rate_mode ) /* tdm stereo low rate mode */ - { - IF( LE_16( st_fx->coder_type, UNVOICED ) ) - { - tdm_low_rate_dec( st_fx, dct_exc_tmp, &tmp_noise, pitch_buf, voice_factors, exc, exc2, bwe_exc, lsf_new ); - } - ELSE /* GENERIC */ - { - decod_gen_2sbfr( st_fx, sharpFlag, Aq, pitch_buf, voice_factors, exc, exc2, bwe_exc, gain_buf, tdm_Pitch_reuse_flag, p_tdm_Pri_pitch_buf ); - - IF( EQ_16( st_fx->element_mode, IVAS_CPE_TD ) ) - { - tmp_noise = st_fx->lp_gainc_fx; - move16(); - } - } - } - else -#endif - IF( EQ_16( st_fx->nelp_mode_dec, 1 ) ) + IF( EQ_16( st_fx->nelp_mode_dec, 1 ) ) { /* SC-VBR - NELP frames */ Scale_sig( exc_fx - L_EXC_MEM, L_EXC_MEM, negate( st_fx->Q_exc ) ); // Q0 @@ -1012,7 +791,7 @@ ivas_error acelp_core_dec_fx( ELSE IF( EQ_16( st_fx->coder_type, UNVOICED ) ) { /* UNVOICED frames */ - decod_unvoiced_fx( st_fx, Aq_fx, st_fx->coder_type, &tmp_noise_fx, pitch_buf_fx, voice_factors, exc_fx, exc2_fx, bwe_exc_fx, gain_buf ); + decod_unvoiced_fx( st_fx, st_fx->coder_type, &tmp_noise_fx, pitch_buf_fx, voice_factors, exc_fx, exc2_fx, bwe_exc_fx, gain_buf ); } ELSE IF( EQ_16( st_fx->ppp_mode_dec, 1 ) ) { @@ -1033,12 +812,7 @@ ivas_error acelp_core_dec_fx( } ELSE IF( EQ_16( st_fx->coder_type, AUDIO ) || ( ( st_fx->coder_type == INACTIVE ) && LE_32( st_fx->core_brate, MAX_GSC_INACTIVE_BRATE ) ) ) { - decod_audio_fx( st_fx, dct_exc_tmp, Aq_fx, pitch_buf_fx, voice_factors, exc_fx, exc2_fx, bwe_exc_fx, lsf_new_fx, gain_buf -#ifdef ADD_LRTD - , - tdm_lp_reuse_flag, tdm_low_rate_mode, tdm_Pitch_reuse_flag, p_tdm_Pri_pitch_buf -#endif - ); + decod_audio_fx( st_fx, dct_exc_tmp, Aq_fx, pitch_buf_fx, voice_factors, exc_fx, exc2_fx, bwe_exc_fx, lsf_new_fx, gain_buf ); tmp_noise_fx = shr_r( st_fx->lp_gainc_fx, 3 ); /*Q0*/ } ELSE @@ -1519,103 +1293,8 @@ ivas_error acelp_core_dec_fx( #endif } /* CNA: Generate additional comfort noise to mask potential coding artefacts */ - -#ifdef IVAS_CODE - if ( !st->cna_dirac_flag ) - { - /* CNA: Generate additional comfort noise to mask potential coding artefacts */ - if ( st->flag_cna && !( st->coder_type == AUDIO && !( st->element_mode > EVS_MONO && st->GSC_noisy_speech ) ) ) - { - if ( st->element_mode == IVAS_CPE_TD && nchan_out == 2 ) - { - if ( hStereoCng->flag_cna_fade ) - { - generate_stereo_masking_noise( syn, st, hStereoTD, flag_sec_CNA, 1, hStereoCng, nchan_out ); - hStereoCng->flag_cna_fade = 0; - } - else - { - if ( st->element_mode != last_element_mode && st->idchan == 0 ) - { - /* Clear memory for secondary channel CNA */ - set_f( hStereoCng->olapBufferSynth22, 0.0f, st->hFdCngDec->hFdCngCom->frameSize / 2 ); - } - - generate_stereo_masking_noise( syn, st, hStereoTD, flag_sec_CNA, 0, hStereoCng, nchan_out ); - } - } - else if ( st->element_mode != IVAS_CPE_DFT ) - { - if ( st->idchan == 0 ) - { - if ( st->element_mode != last_element_mode ) - { - set_f( st->hFdCngDec->hFdCngCom->olapBufferSynth2, 0.0f, st->hFdCngDec->hFdCngCom->fftlen ); - } - generate_masking_noise_fx( syn, st->hFdCngDec->hFdCngCom, st->hFdCngDec->hFdCngCom->frameSize, 0, 0, 0, st->element_mode, hStereoCng, nchan_out ); - } - } - } - else if ( st->flag_cna && st->coder_type == AUDIO && ( ( st->last_core == ACELP_CORE && !( st->last_coder_type == AUDIO && !( st->element_mode > EVS_MONO && st->Last_GSC_noisy_speech_flag ) ) ) || st->last_core == TCX_20_CORE ) ) - { - if ( st->element_mode == IVAS_CPE_TD && nchan_out == 2 ) - { - generate_stereo_masking_noise( syn, st, hStereoTD, flag_sec_CNA, 1, hStereoCng, nchan_out ); - hStereoCng->flag_cna_fade = 1; - } - else - { - v_multc( st->hFdCngDec->hFdCngCom->olapBufferSynth2 + 5 * st->hFdCngDec->hFdCngCom->frameSize / 4, (float) ( st->hFdCngDec->hFdCngCom->fftlen / 2 ), temp_buf, st->hFdCngDec->hFdCngCom->frameSize / 2 ); - v_add( temp_buf, syn, syn, st->hFdCngDec->hFdCngCom->frameSize / 2 ); - } - } - else - { - if ( hStereoCng != NULL ) - { - hStereoCng->flag_cna_fade = 1; - hStereoCng->enableSecCNA = 0; - } - } - - if ( st->element_mode == IVAS_CPE_TD ) - { - /*Noise estimate*/ - if ( st->idchan == 0 && ( nchan_out == 2 || ( st->core_brate != FRAME_NO_DATA && st->core_brate != SID_2k40 ) ) ) - { -#ifdef IVAS_CODE_CNG_FIX185_PLC_FADEOUT - ApplyFdCng_fx( syn, st_fx->Q_syn, realBuffer, imagBuffer, NULL, st, 0, ( st->coder_type == AUDIO && !st->GSC_noisy_speech ) ); -#else - ApplyFdCng_fx( syn, st_fx->Q_syn, realBuffer, imagBuffer, NULL, st, 0, ( st->coder_type == AUDIO && !st->GSC_noisy_speech ) ); -#endif - } - } - } -#endif } -#ifdef IVAS_CODE - if ( !st->cna_dirac_flag ) - { - if ( st->flag_cna == 0 && st->L_frame == L_FRAME16k && st->last_flag_cna == 1 && ( ( st->last_core == ACELP_CORE && !( st->last_coder_type == AUDIO && !( st->element_mode > EVS_MONO && st->Last_GSC_noisy_speech_flag ) ) ) || st->last_core == AMR_WB_CORE ) ) - { - v_multc( st->hFdCngDec->hFdCngCom->olapBufferSynth2 + 5 * st->L_frame / 4, 256.f, temp_buf, st->L_frame / 2 ); - v_add( temp_buf, syn, syn, st->L_frame / 2 ); - } - - if ( st->flag_cna == 0 || ( st->coder_type == AUDIO && !( st->element_mode > EVS_MONO && st->GSC_noisy_speech ) ) ) - { - if ( st->idchan == 0 ) - { - set_f( st->hFdCngDec->hFdCngCom->olapBufferSynth2, 0.f, st->hFdCngDec->hFdCngCom->fftlen ); - } - if ( hStereoCng != NULL && st->idchan == 0 ) - { - set_f( hStereoCng->olapBufferSynth22, 0.f, st->hFdCngDec->hFdCngCom->fftlen ); - } - } - } -#else test(); test(); test(); @@ -1632,9 +1311,7 @@ ivas_error acelp_core_dec_fx( move16(); } } -#endif -#ifndef IVAS_CODE test(); test(); test(); @@ -1654,7 +1331,6 @@ ivas_error acelp_core_dec_fx( { set16_fx( st_fx->hFdCngDec->hFdCngCom->olapBufferSynth2, 0, st_fx->hFdCngDec->hFdCngCom->fftlen ); } -#endif } /*----------------------------------------------------------------* @@ -1676,10 +1352,7 @@ ivas_error acelp_core_dec_fx( move16(); } } -#ifdef ADD_LRTD - /* analyze pitch coherence for bass post-filter */ - bpf_pitch_coherence( st, pitch_buf ); -#endif + test(); IF( !( EQ_16( st_fx->element_mode, IVAS_CPE_MDCT ) && st_fx->bpf_off ) ) { @@ -1702,22 +1375,8 @@ ivas_error acelp_core_dec_fx( test(); IF( NE_16( st_fx->element_mode, IVAS_CPE_DFT ) || use_cldfb_for_dft ) { -#ifdef IVAS_CODE - float realBufferSave[CLDFB_NO_COL_MAX][CLDFB_NO_CHANNELS_MAX]; - float imagBufferSave[CLDFB_NO_COL_MAX][CLDFB_NO_CHANNELS_MAX]; - float *pRealSave[CLDFB_NO_COL_MAX], *pImagSave[CLDFB_NO_COL_MAX]; - for ( i = 0; i < CLDFB_NO_COL_MAX; i++ ) - { - pRealSave[i] = realBufferSave[i]; - pImagSave[i] = imagBufferSave[i]; - } - if ( st->p_bpf_noise_buf ) - { - mvr2r( bpf_error_signal, st->p_bpf_noise_buf, st->L_frame ); - } -#endif /* analysis of the synthesis at internal sampling rate */ - cldfbAnalysisFiltering( st_fx->cldfbAna, realBuffer, imagBuffer, &scaleFactor, syn_fx, negate( st_fx->Q_syn ), CLDFB_NO_COL_MAX, workBuffer ); + cldfbAnalysis_fx( st_fx->cldfbAna, realBuffer, imagBuffer, &scaleFactor, syn_fx, negate( st_fx->Q_syn ), CLDFB_NO_COL_MAX, workBuffer ); scaleFactor.hb_scale = scaleFactor.lb_scale; move16(); @@ -1776,42 +1435,8 @@ ivas_error acelp_core_dec_fx( /* synthesis of the combined signal */ st_fx->Q_syn2 = st_fx->Q_syn; move16(); -#ifdef IVAS_CODE - if ( save_hb_synth != NULL ) { - /* save and then zero-out lowband */ - for ( int16_t j = 0; j < CLDFB_NO_CHANNELS_MAX; j++ ) - { - for ( i = 0; i < CLDFB_NO_COL_MAX; i++ ) - { - realBufferSave[i][j] = realBuffer[i][j]; - imagBufferSave[i][j] = imagBuffer[i][j]; - if ( j < st->hFdCngDec->hFdCngCom->numCoreBands && i < st->hFdCngDec->hFdCngCom->numSlots ) - { - realBuffer[i][j] = 0.0f; - imagBuffer[i][j] = 0.0f; - } - } - } - - cldfbSynthesis( realBuffer, imagBuffer, save_hb_synth, -1, st->cldfbSynHB ); - - /* restore lowband */ - for ( int16_t j = 0; j < CLDFB_NO_CHANNELS_MAX; j++ ) - { - for ( i = 0; i < CLDFB_NO_COL_MAX; i++ ) - { - realBuffer[i][j] = realBufferSave[i][j]; - imagBuffer[i][j] = imagBufferSave[i][j]; - } - } - - cldfbSynthesis( pRealSave, pImagSave, synth, -1, st->cldfbSyn ); - } - else -#endif - { - cldfbSynthesisFiltering( st_fx->cldfbSyn, realBuffer, imagBuffer, &scaleFactor, synth_out, negate( st_fx->Q_syn2 ), CLDFB_NO_COL_MAX, workBuffer ); + cldfbSynthesis_fx( st_fx->cldfbSyn, realBuffer, imagBuffer, &scaleFactor, synth_out, negate( st_fx->Q_syn2 ), CLDFB_NO_COL_MAX, workBuffer ); } /* Bring CLDFB output to Q0 */ Scale_sig( synth_out, output_frame, negate( st_fx->Q_syn2 ) ); @@ -1821,34 +1446,7 @@ ivas_error acelp_core_dec_fx( /* save synthesis - needed in case of core switching */ Copy( synth_out, st_fx->previoussynth_fx, output_frame ); } -#ifdef IVAS_CODE - ELSE - { - int16_t nSamples = NS2SA( st->L_frame * FRAMES_PER_SEC, FRAME_SIZE_NS /*DELAY_CLDFB_NS*/ ); /* IVAS-64: optimization is likely possible here (don't resample the whole frame) */ - - /* analysis of the synthesis at internal sampling rate - needed for DFT stereo -> TD stereo switching */ - cldfbAnalysis( syn + st->L_frame - nSamples, realBuffer, imagBuffer, nSamples, st->cldfbAna ); - - /* analysis and add the BPF error signal - needed for DFT stereo -> TD stereo switching */ - addBassPostFilter( bpf_error_signal + st->L_frame - nSamples, st->bpf_off ? 0 : nSamples, realBuffer, imagBuffer, st->cldfbBPF ); - - /* synthesis of the combined signal - needed for DFT stereo -> TD stereo switching */ - cldfbSynthesis( realBuffer, imagBuffer, synth /*dummy*/, NS2SA( st->output_Fs, FRAME_SIZE_NS /*DELAY_CLDFB_NS*/ ), st->cldfbSyn ); - - if ( st->p_bpf_noise_buf ) - { - mvr2r( bpf_error_signal, st->p_bpf_noise_buf, st->L_frame ); - } - - set_f( synth, 0.0f, output_frame ); - } - /* Copy output signal */ - if ( st->element_mode > EVS_MONO ) - { - mvr2r( syn, output, st->L_frame ); - } -#endif /*-----------------------------------------------------------------* * Bandwidth extension 6kHz-7kHz *-----------------------------------------------------------------*/ @@ -1864,8 +1462,7 @@ ivas_error acelp_core_dec_fx( IF( ( EQ_16( st_fx->L_frame, L_FRAME ) && NE_16( st_fx->bwidth, NB ) && GE_16( output_frame, L_FRAME16k ) && ( EQ_16( st_fx->extl, -1 ) || EQ_16( st_fx->extl, SWB_CNG ) || ( EQ_16( st_fx->extl, WB_BWE ) && st_fx->extl_brate == 0 && NE_16( st_fx->coder_type, AUDIO ) ) ) ) ) { - hf_synth_fx( st_fx->hBWE_zero, st_fx->core_brate, output_frame, Aq_fx, exc2_fx, syn_fx, synth_out, st_fx->Q_exc, - st_fx->Q_syn2, st_fx->hBWE_zero->delay_syn_hf_fx, &st_fx->hBWE_zero->memExp1, st_fx->hBWE_zero->mem_hp_interp_fx, st_fx->extl, st_fx->CNG_mode ); + hf_synth_fx( st_fx->hBWE_zero, st_fx->core_brate, output_frame, Aq_fx, exc2_fx, syn_fx, synth_out, st_fx->Q_exc, st_fx->Q_syn2 ); } ELSE { diff --git a/lib_dec/acelp_core_dec_ivas_fx.c b/lib_dec/acelp_core_dec_ivas_fx.c index 42e4e36ef155b0bf5f11146901f3d5ab4d1eeda8..38999e99e4f462d9b9c0af182a5532afb935d672 100644 --- a/lib_dec/acelp_core_dec_ivas_fx.c +++ b/lib_dec/acelp_core_dec_ivas_fx.c @@ -39,10 +39,8 @@ #include "options.h" #include "cnst.h" #include "rom_com.h" -#include "prot.h" #include "prot_fx.h" #include "ivas_cnst.h" -#include "ivas_prot.h" #include "ivas_rom_com.h" #include "wmc_auto.h" #include "ivas_prot_fx.h" @@ -79,29 +77,21 @@ ivas_error acelp_core_dec_ivas_fx( { Word32 synth_fx[960], save_hb_synth_fx[960] /*, bwe_exc_extended_fx[L_FRAME32k + NL_BUFF_OFFSET]*/; - Word16 old_exc_fx[L_EXC_DEC], *exc_fx; /* excitation signal buffer */ - Word16 syn_tmp_fx[L_FRAME16k + L_SUBFR], *psyn_fx; /* synthesis signal buffer */ - Word16 output_frame; /* frame length at output sampling freq. */ - Word16 lsf_new_fx[M]; /* LSFs at the end of the frame Qlog2(2.56) */ - Word16 lsp_new_fx[M]; /* LSPs at the end of the frame Q15 */ - Word16 lsp_mid_fx[M]; /* LSPs in the middle of the frame */ -#ifdef MSAN_FIX - Word16 Aq_fx[NB_SUBFR16k * ( M + 1 )]; /* A(q) quantized for the 4 subframes */ -#else + Word16 old_exc_fx[L_EXC_DEC], *exc_fx; /* excitation signal buffer */ + Word16 syn_tmp_fx[L_FRAME16k + L_SUBFR], *psyn_fx; /* synthesis signal buffer */ + Word16 output_frame; /* frame length at output sampling freq. */ + Word16 lsf_new_fx[M]; /* LSFs at the end of the frame Qlog2(2.56) */ + Word16 lsp_new_fx[M]; /* LSPs at the end of the frame Q15 */ + Word16 lsp_mid_fx[M]; /* LSPs in the middle of the frame */ Word16 Aq_fx[NB_SUBFR16k * ( M + 1 )]; /* A(q) quantized for the 4 subframes */ -#endif - Word16 old_exc2_fx[L_FRAME16k + L_EXC_MEM], *exc2_fx; /* total excitation buffer */ - Word16 mem_tmp_fx[M]; /* temporary synthesis filter memory */ - Word32 enr_q_fx; /* E information for FER protection */ - Word16 tmp_noise_fx; /* Long term temporary noise energy */ - Word16 Es_pred_fx; /* predicted scaled innov. energy Q8 */ - Word16 FEC_pitch_fx; /* FEC pitch */ -#ifdef MSAN_FIX + Word16 old_exc2_fx[L_FRAME16k + L_EXC_MEM], *exc2_fx; /* total excitation buffer */ + Word16 mem_tmp_fx[M]; /* temporary synthesis filter memory */ + Word32 enr_q_fx; /* E information for FER protection */ + Word16 tmp_noise_fx; /* Long term temporary noise energy */ + Word16 Es_pred_fx; /* predicted scaled innov. energy Q8 */ + Word16 FEC_pitch_fx; /* FEC pitch */ Word16 old_bwe_exc_fx[( ( PIT16k_MAX + ( L_FRAME16k + 1 ) + L_SUBFR16k ) * 2 )]; /* excitation buffer */ -#else - Word16 old_bwe_exc_fx[( ( PIT16k_MAX + ( L_FRAME16k + 1 ) + L_SUBFR16k ) * 2 )]; /* excitation buffer */ -#endif - Word16 *bwe_exc_fx; /* Excitation for SWB TBE */ + Word16 *bwe_exc_fx; /* Excitation for SWB TBE */ Word16 i, j, int_fs; Word16 tc_subfr; Word16 allow_cn_step; @@ -135,13 +125,9 @@ ivas_error acelp_core_dec_ivas_fx( ivas_error error; Word32 bpf_error_signal_fx[L_FRAME16k]; -#ifdef MSAN_FIX set32_fx( bpf_error_signal_fx, 0, L_FRAME16k ); -#endif Word16 bpf_error_signal_16fx[L_FRAME16k]; -#ifdef MSAN_FIX set16_fx( bpf_error_signal_16fx, 0, L_FRAME16k ); -#endif set16_fx( Aq_fx, 0, NB_SUBFR16k * ( M + 1 ) ); set16_fx( old_bwe_exc_fx, 0, ( ( PIT16k_MAX + ( L_FRAME16k + 1 ) + L_SUBFR16k ) * 2 ) ); Word16 tmp; @@ -180,7 +166,6 @@ ivas_error acelp_core_dec_ivas_fx( IF( EQ_32( st->core_brate, SID_2k40 ) ) { FdCng_decodeSID_ivas_fx( st ); -#ifdef FIX_ISSUE_1218 Word16 n1, n2; n1 = L_norm_arr( st->hFdCngDec->hFdCngCom->sidNoiseEst, NPART ); n2 = L_norm_arr( st->hFdCngDec->hFdCngCom->sidNoiseEstLp, NPART ); @@ -190,9 +175,6 @@ ivas_error acelp_core_dec_ivas_fx( scale_sig32( st->hFdCngDec->hFdCngCom->sidNoiseEstLp, NPART, sub( old_NoiseEstExp, common_e ) ); st->hFdCngDec->hFdCngCom->sidNoiseEstExp = common_e; move16(); -#else - rescale_fdCngDec( st->hFdCngDec, sub( old_NoiseEstExp, st->hFdCngDec->hFdCngCom->sidNoiseEstExp ) ); -#endif } FOR( i = 0; i < NPART; i++ ) { @@ -623,11 +605,7 @@ ivas_error acelp_core_dec_ivas_fx( { test(); test(); -#ifdef FIX_1189_GSC_IVAS_OMASA IF( EQ_16( st->coder_type, AUDIO ) || ( EQ_16( st->coder_type, INACTIVE ) && EQ_16( st->inactive_coder_type_flag, 1 ) ) ) -#else - IF( EQ_16( st->coder_type, AUDIO ) || ( st->coder_type == INACTIVE && LE_32( st->total_brate, MAX_GSC_INACTIVE_BRATE ) ) ) -#endif { st->GSC_IVAS_mode = get_next_indice_fx( st, 2 ); move16(); @@ -644,14 +622,6 @@ ivas_error acelp_core_dec_ivas_fx( IF( st->cng_type == LP_CNG ) { CNG_dec_ivas_fx( st, last_element_mode, Aq_fx, lsp_new_fx, lsf_new_fx, &allow_cn_step, sid_bw, q_env_fx ); -#ifndef FIX_1100_REMOVE_LPC_RESCALING - FOR( Word32 nsf = 0; nsf < NB_SUBFR16k; nsf++ ) - { - Scale_sig( Aq_fx + imult3216( nsf, ( M + 1 ) ), M + 1, sub( norm_s( Aq_fx[nsf * ( M + 1 )] ), Q2 ) ); - Aq_fx[nsf * ( M + 1 )] = ONE_IN_Q12; - move16(); - } -#endif Copy( Aq_fx, st->Aq_cng, add( M, 1 ) ); /* comfort noise generation */ @@ -690,7 +660,7 @@ ivas_error acelp_core_dec_ivas_fx( STEREO_DFT_FD_FILT_COMP_Q31, st->hFdCngDec->hFdCngCom->sidNoiseEst[i] ); move32(); } - ApplyFdCng_ivas_fx( psyn_fx, st->Q_syn, NULL, 0, realBuffer_fx, imagBuffer_fx, NULL, st, 0, ( st->coder_type == AUDIO && !st->GSC_noisy_speech ) ); + Word16 new_sidNoiseEstExp = 31 - Q4; move16(); Scale_sig32( st->hFdCngDec->hFdCngCom->sidNoiseEstLp, NPART, sub( st->hFdCngDec->hFdCngCom->sidNoiseEstExp, new_sidNoiseEstExp ) ); // Q(31-sidNoiseEstExp) @@ -748,11 +718,7 @@ ivas_error acelp_core_dec_ivas_fx( IF( st->hMusicPF && st->hGSCDec ) { Rescale_exc( st->hMusicPF->dct_post_old_exc_fx, exc_fx, bwe_exc_fx, st->hGSCDec->last_exc_dct_in_fx, st->L_frame, -#ifdef FIX_ISSUE_1291 L_FRAME32k, 0, &( st->Q_exc ), st->Q_subfr, NULL, 0, INACTIVE ); -#else - imult1616( st->L_frame, HIBND_ACB_L_FAC ), 0, &( st->Q_exc ), st->Q_subfr, NULL, 0, INACTIVE ); -#endif } IF( st->hPFstat != NULL ) { @@ -783,9 +749,6 @@ ivas_error acelp_core_dec_ivas_fx( /* synthesis at 12.8kHz sampling rate */ -#ifndef FIX_1100_REMOVE_LPC_RESCALING - Aq_fx[0] = ONE_IN_Q12; -#endif move16(); syn_12k8_fx( st->L_frame, Aq_fx, exc2_fx, psyn_fx, st->mem_syn2_fx, 1, st->Q_exc, st->Q_syn ); syn_12k8_fx( st->L_frame, Aq_fx, exc3_fx, syn1_fx, st->mem_syn3_fx, 1, st->Q_exc, st->Q_syn ); @@ -806,11 +769,7 @@ ivas_error acelp_core_dec_ivas_fx( Copy_Scale_sig( syn1_fx, temp_buf_fx, st->L_frame, sub( -1, st->Q_syn ) ); // Q_syn -> Q(-1) IF( st->hBWE_FD != NULL ) { -#ifdef FIX_ISSUE_1290 save_old_syn_fx( st->L_frame, temp_buf_fx, old_syn_12k8_16k_fx, st->hBWE_FD->old_syn_12k8_16k_fx, st->preemph_fac, &st->hBWE_FD->mem_deemph_old_syn_fx ); -#else - save_old_syn_fx( st->L_frame, syn1_fx, old_syn_12k8_16k_fx, st->hBWE_FD->old_syn_12k8_16k_fx, st->preemph_fac, &st->hBWE_FD->mem_deemph_old_syn_fx ); -#endif } } @@ -850,21 +809,13 @@ ivas_error acelp_core_dec_ivas_fx( move16(); } -#ifdef NONBE_FIX_GSC_BSTR config_acelp1_IVAS( DEC, st->total_brate, st->core_brate, st->core, st->extl_orig, st->extl_brate_orig, st->L_frame, st->GSC_noisy_speech, &( st->acelp_cfg ), st->next_bit_pos, st->coder_type, st->inactive_coder_type_flag, tc_subfr_tmp, 1, &nb_bits, unbits, st->element_mode, &uc_two_stage_flag, tdm_lp_reuse_flag, tdm_low_rate_mode, st->idchan, st->active_cnt, tdm_Pitch_reuse_flag, st->tdm_LRTD_flag, st->GSC_IVAS_mode ); -#else - config_acelp1_IVAS( DEC, st->total_brate, st->core_brate, st->core, st->extl_orig, st->extl_brate_orig, st->L_frame, st->GSC_noisy_speech, &( st->acelp_cfg ), st->next_bit_pos, st->coder_type, tc_subfr_tmp, 1, &nb_bits, unbits, st->element_mode, &uc_two_stage_flag, tdm_lp_reuse_flag, tdm_low_rate_mode, st->idchan, st->active_cnt, tdm_Pitch_reuse_flag, st->tdm_LRTD_flag, st->GSC_IVAS_mode ); -#endif test(); test(); IF( EQ_16( st->coder_type, TRANSITION ) && LT_16( tc_subfr, L_SUBFR ) && EQ_16( st->L_frame, L_FRAME ) ) { -#ifdef NONBE_FIX_GSC_BSTR config_acelp1_IVAS( DEC, st->total_brate, st->core_brate, st->core, st->extl_orig, st->extl_brate_orig, st->L_frame, -1, &( st->acelp_cfg ), st->next_bit_pos, TRANSITION, -1, tc_subfr, 2, &nb_bits, unbits, st->element_mode, &uc_two_stage_flag, tdm_lp_reuse_flag, tdm_low_rate_mode, st->idchan, st->active_cnt, tdm_Pitch_reuse_flag, st->tdm_LRTD_flag, st->GSC_IVAS_mode ); -#else - config_acelp1_IVAS( DEC, st->total_brate, st->core_brate, st->core, st->extl_orig, st->extl_brate_orig, st->L_frame, -1, &( st->acelp_cfg ), st->next_bit_pos, st->coder_type, tc_subfr, 2, &nb_bits, unbits, st->element_mode, &uc_two_stage_flag, tdm_lp_reuse_flag, tdm_low_rate_mode, st->idchan, st->active_cnt, tdm_Pitch_reuse_flag, st->tdm_LRTD_flag, st->GSC_IVAS_mode ); -#endif } } @@ -946,18 +897,6 @@ ivas_error acelp_core_dec_ivas_fx( st->stab_fac_fx = lsf_stab_ivas_fx( lsf_new_fx, st->lsf_old_fx, 0, st->L_frame ); move16(); } -#ifndef FIX_1100_REMOVE_LPC_RESCALING -#ifndef MSAN_FIX - for ( int nsf = 0; nsf < NB_SUBFR16k; nsf++ ) -#else - FOR( Word32 nsf = 0; nsf < st->nb_subfr; nsf++ ) -#endif - { - Scale_sig( Aq_fx + imult3216( nsf, ( M + 1 ) ), M + 1, sub( norm_s( Aq_fx[nsf * ( M + 1 )] ), Q2 ) ); // Q(x-2) - Aq_fx[nsf * ( M + 1 )] = ONE_IN_Q12; - move16(); - } -#endif test(); IF( EQ_16( st->last_core, HQ_CORE ) && st->element_mode > EVS_MONO ) { @@ -1100,12 +1039,8 @@ ivas_error acelp_core_dec_ivas_fx( ELSE IF( EQ_16( st->coder_type, AUDIO ) || ( ( st->coder_type == INACTIVE ) && st->inactive_coder_type_flag ) ) { /* AUDIO and INACTIVE frames (coded by GSC technology) */ - decod_audio_ivas_fx( st, dct_exc_tmp_fx, Aq_fx, pitch_buf_fx, voice_factors_fx, exc_fx, exc2_fx, bwe_exc_fx, lsf_new_fx, gain_buf_fx -#if 1 // def ADD_LRTD - , - tdm_lp_reuse_flag, tdm_low_rate_mode, tdm_Pitch_reuse_flag, p_tdm_Pri_pitch_buf_fx -#endif - ); + decod_audio_ivas_fx( st, dct_exc_tmp_fx, Aq_fx, pitch_buf_fx, voice_factors_fx, exc_fx, exc2_fx, bwe_exc_fx, lsf_new_fx, gain_buf_fx, + tdm_lp_reuse_flag, tdm_low_rate_mode, tdm_Pitch_reuse_flag, p_tdm_Pri_pitch_buf_fx ); tmp_noise_fx = shr_r( st->lp_gainc_fx, 3 ); /*Q0*/ } ELSE @@ -1135,11 +1070,7 @@ ivas_error acelp_core_dec_ivas_fx( * Apply energy matching when switching to inactive frames *-----------------------------------------------------------------*/ -#ifdef NONBE_FIX_GSC_BSTR Inac_switch_ematch_ivas_fx( exc2_fx, dct_exc_tmp_fx, st->hGSCDec->lt_ener_per_band_fx, st->coder_type, st->inactive_coder_type_flag, st->L_frame, st->Q_exc, st->bfi, st->last_core, st->last_codec_mode, tdm_low_rate_mode, st->element_mode ); -#else - Inac_switch_ematch_ivas_fx( exc2_fx, dct_exc_tmp_fx, st->hGSCDec->lt_ener_per_band_fx, st->coder_type, st->L_frame, st->total_brate, st->Q_exc, st->bfi, st->last_core, st->last_codec_mode, tdm_low_rate_mode, st->element_mode ); -#endif /*------------------------------------------------------------* * Decode information and modify the excitation signal of stationary unvoiced frames @@ -1297,18 +1228,6 @@ ivas_error acelp_core_dec_ivas_fx( lsf_dec_bfi( MODE1, lsf_new_fx, st->lsf_old_fx, st->lsf_adaptive_mean_fx, NULL, st->mem_MA_fx, st->mem_AR_fx, st->stab_fac_fx, st->last_coder_type, st->L_frame, st->last_good, st->nbLostCmpt, 0, NULL, NULL, NULL, st->hGSCDec->Last_GSC_pit_band_idx, st->Opt_AMR_WB, 0, st->bwidth ); FEC_lsf2lsp_interp( st, st->L_frame, Aq_fx, lsf_new_fx, lsp_new_fx ); -#ifndef FIX_1100_REMOVE_LPC_RESCALING -#ifndef MSAN_FIX - for ( int nsf = 0; nsf < NB_SUBFR16k; nsf++ ) -#else - FOR( Word32 nsf = 0; nsf < st->nb_subfr; nsf++ ) -#endif - { - Scale_sig( Aq_fx + imult3216( nsf, ( M + 1 ) ), M + 1, sub( norm_s( Aq_fx[nsf * ( M + 1 )] ), Q2 ) ); // Qx->Q(x-2) - Aq_fx[nsf * ( M + 1 )] = ONE_IN_Q12; - move16(); - } -#endif IF( EQ_16( st->nelp_mode_dec, 1 ) ) { /* SC-VBR */ @@ -1346,11 +1265,7 @@ ivas_error acelp_core_dec_ivas_fx( } /* Apply energy matching when switching to inactive frames */ -#ifdef NONBE_FIX_GSC_BSTR Inac_switch_ematch_ivas_fx( exc2_fx, dct_exc_tmp_fx, st->hGSCDec->lt_ener_per_band_fx, st->coder_type, st->inactive_coder_type_flag, st->L_frame, st->Q_exc, st->bfi, st->last_core, st->last_codec_mode, tdm_low_rate_mode, st->element_mode ); -#else - Inac_switch_ematch_ivas_fx( exc2_fx, dct_exc_tmp_fx, st->hGSCDec->lt_ener_per_band_fx, st->coder_type, st->L_frame, st->total_brate, st->Q_exc, st->bfi, st->last_core, st->last_codec_mode, tdm_low_rate_mode, st->element_mode ); -#endif /* update past excitation signals for LD music post-filter */ IF( st->hMusicPF != NULL ) @@ -1482,6 +1397,7 @@ ivas_error acelp_core_dec_ivas_fx( IF( st->hTcxDec != NULL ) { Copy_Scale_sig( psyn_fx + shr( st->L_frame, 1 ), st->hTcxDec->old_syn_Overl, shr( st->L_frame, 1 ), sub( -1, st->Q_syn ) ); /*Q-1*/ + st->hTcxDec->Q_old_syn_Overl = -1; } Copy_Scale_sig( psyn_fx + sub( st->L_frame, M + 1 ), st->syn, M + 1, sub( 0, st->Q_syn ) ); /*Q0*/ @@ -1771,23 +1687,14 @@ ivas_error acelp_core_dec_ivas_fx( pRealSave_fx[i] = realBufferSave_fx[i]; pImagSave_fx[i] = imagBufferSave_fx[i]; } -#ifndef MSAN_FIX - Copy_Scale_sig_16_32_DEPREC( bpf_error_signal_16fx, bpf_error_signal_fx, st->L_frame, -1 ); // Q_syn-1 -#endif IF( st->p_bpf_noise_buf_32 ) { -#ifdef MSAN_FIX Copy_Scale_sig_16_32_DEPREC( bpf_error_signal_16fx, bpf_error_signal_fx, st->L_frame, -1 ); // Q_syn-1 -#endif Copy32( bpf_error_signal_fx, st->p_bpf_noise_buf_32, st->L_frame ); Scale_sig32( st->p_bpf_noise_buf_32, st->L_frame, sub( Q11, sub( st->Q_syn, 1 ) ) ); // Q11 } -#ifdef MSAN_FIX FOR( i = 0; i < st->L_frame; i++ ) -#else - for ( i = 0; i < L_FRAME16k; i++ ) -#endif { syn_32_fx[i] = L_shr( L_deposit_h( psyn_fx[i] ), add( 4, st->Q_syn ) ); // Q12 move32(); @@ -1808,15 +1715,7 @@ ivas_error acelp_core_dec_ivas_fx( q_bpf_error_signal = Q6; move16(); -#ifdef MSAN_FIX -#ifdef FIX_ISSUE_1237 Copy_Scale_sig_16_32_no_sat( bpf_error_signal_16fx, tmp_bpf_error_signal_fx, st->L_frame, sub( q_bpf_error_signal, st->Q_syn ) ); // Q6 -#else - Copy_Scale_sig_16_32_DEPREC( bpf_error_signal_16fx, tmp_bpf_error_signal_fx, st->L_frame, sub( q_bpf_error_signal, st->Q_syn ) ); // Q6 -#endif -#else - Copy_Scale_sig_16_32_DEPREC( bpf_error_signal_16fx, tmp_bpf_error_signal_fx, L_FRAME16k, q_bpf_error_signal - st->Q_syn ); // Q6 -#endif FOR( i = 0; i < CLDFB_NO_COL_MAX; i++ ) { Scale_sig32( realBuffer_fx[i], CLDFB_NO_CHANNELS_MAX, -Q7 ); // Q0 @@ -1908,12 +1807,15 @@ ivas_error acelp_core_dec_ivas_fx( scale_sig32( realBuffer_fx[i], CLDFB_NO_CHANNELS_MAX, Q_real ); // Q_real scale_sig32( imagBuffer_fx[i], CLDFB_NO_CHANNELS_MAX, Q_imag ); // Q_imag } +#ifndef OPT_AVOID_STATE_BUF_RESCALE +#ifdef OPT_STEREO_32KBPS_V1 + scale_sig32( st->cldfbSynHB->cldfb_state_fx, st->cldfbSynHB->p_filter_length, sub( Q_real, Q11 ) ); // Q10 - > (Q_real-1) +#else /* OPT_STEREO_32KBPS_V1 */ scale_sig32_r( st->cldfbSynHB->cldfb_state_fx, st->cldfbSynHB->p_filter_length, sub( sub( Q_real, 1 ), Q10 ) ); // (Q_real-1) +#endif /* OPT_STEREO_32KBPS_V1 */ st->cldfbSynHB->Q_cldfb_state = sub( Q_real, 1 ); move16(); -#ifndef MSAN_FIX - Scale_sig32( save_hb_synth_fx, L_FRAME48k, sub( Q_real, 1 ) ); // Q_real-1 -#endif +#endif /* OPT_AVOID_STATE_BUF_RESCALE */ FOR( j = 0; j < CLDFB_NO_CHANNELS_MAX; j++ ) { @@ -1933,12 +1835,18 @@ ivas_error acelp_core_dec_ivas_fx( } } - cldfbSynthesis_ivas_fx( realBuffer_fx, imagBuffer_fx, save_hb_synth_fx, -1, st->cldfbSynHB ); +#ifdef OPT_AVOID_STATE_BUF_RESCALE + cldfbSynthesis_ivas_fx( realBuffer_fx, imagBuffer_fx, save_hb_synth_fx, -1, sub( Q11, Q_real ), -10, st->cldfbSynHB ); +#else /* OPT_AVOID_STATE_BUF_RESCALE */ + cldfbSynthesis_ivas_fx( realBuffer_fx, imagBuffer_fx, save_hb_synth_fx, -1, 0, st->cldfbSynHB ); +#endif /* OPT_AVOID_STATE_BUF_RESCALE */ +#ifndef OPT_AVOID_STATE_BUF_RESCALE Scale_sig32( save_hb_synth_fx, L_FRAME48k, negate( ( sub( Q_real, 1 ) ) ) ); // Q0 Scale_sig32( st->cldfbSynHB->cldfb_state_fx, st->cldfbSynHB->p_filter_length, sub( Q10, sub( Q_real, 1 ) ) ); // Q10 st->cldfbSynHB->Q_cldfb_state = Q10; move16(); +#endif /* OPT_AVOID_STATE_BUF_RESCALE */ /* restore lowband */ FOR( j = 0; j < CLDFB_NO_CHANNELS_MAX; j++ ) { @@ -1950,14 +1858,21 @@ ivas_error acelp_core_dec_ivas_fx( move32(); } } +#ifndef OPT_AVOID_STATE_BUF_RESCALE Scale_sig32( st->cldfbSyn->cldfb_state_fx, st->cldfbSyn->p_filter_length, sub( sub( Q_real, 1 ), Q10 ) ); // Q_real-1 st->cldfbSynHB->Q_cldfb_state = sub( Q_real, 1 ); move16(); - cldfbSynthesis_ivas_fx( pRealSave_fx, pImagSave_fx, synth_fx, -1, st->cldfbSyn ); +#endif /* OPT_AVOID_STATE_BUF_RESCALE */ + +#ifdef OPT_AVOID_STATE_BUF_RESCALE + cldfbSynthesis_ivas_fx( pRealSave_fx, pImagSave_fx, synth_fx, -1, sub( Q11, Q_real ), -10, st->cldfbSyn ); +#else /* OPT_AVOID_STATE_BUF_RESCALE */ + cldfbSynthesis_ivas_fx( pRealSave_fx, pImagSave_fx, synth_fx, -1, 0, st->cldfbSyn ); Scale_sig32( synth_fx, L_FRAME48k, negate( sub( Q_real, 1 ) ) ); // Q0 Scale_sig32( st->cldfbSyn->cldfb_state_fx, st->cldfbSyn->p_filter_length, sub( Q10, sub( Q_real, 1 ) ) ); // Q10 st->cldfbSynHB->Q_cldfb_state = Q10; move16(); +#endif /* OPT_AVOID_STATE_BUF_RESCALE */ } ELSE { @@ -1989,19 +1904,20 @@ ivas_error acelp_core_dec_ivas_fx( scale_sig32( realBuffer_fx[i], CLDFB_NO_CHANNELS_MAX, Q_real ); // Q_real scale_sig32( imagBuffer_fx[i], CLDFB_NO_CHANNELS_MAX, Q_real ); // Q_real } +#ifdef OPT_STEREO_32KBPS_V1 + scale_sig32( st->cldfbSyn->cldfb_state_fx, st->cldfbSyn->p_filter_length, sub( Q_real, Q11 ) ); // Q10 - > (Q_real-1) +#else /* OPT_STEREO_32KBPS_V1 */ scale_sig32_r( st->cldfbSyn->cldfb_state_fx, st->cldfbSyn->p_filter_length, sub( sub( Q_real, 1 ), Q10 ) ); //(Q_real - 1) +#endif /* OPT_STEREO_32KBPS_V1 */ st->cldfbSyn->Q_cldfb_state = sub( Q_real, 1 ); move16(); -#ifndef MSAN_FIX - Scale_sig32( synth_fx, L_FRAME48k, Q_real - 1 ); -#endif - - cldfbSynthesis_ivas_fx( realBuffer_fx, imagBuffer_fx, synth_fx, -1, st->cldfbSyn ); -#ifdef MSAN_FIX - scale_sig32( synth_fx, output_frame, negate( sub( Q_real, 1 ) ) ); // Q0 -#else - Scale_sig32( synth_fx, L_FRAME48k, -( Q_real - 1 ) ); -#endif + +#ifdef OPT_AVOID_STATE_BUF_RESCALE + cldfbSynthesis_ivas_fx( realBuffer_fx, imagBuffer_fx, synth_fx, -1, 0, 0, st->cldfbSyn ); +#else /* OPT_AVOID_STATE_BUF_RESCALE */ + cldfbSynthesis_ivas_fx( realBuffer_fx, imagBuffer_fx, synth_fx, -1, 0, st->cldfbSyn ); +#endif /* OPT_AVOID_STATE_BUF_RESCALE */ + scale_sig32( synth_fx, output_frame, negate( sub( Q_real, 1 ) ) ); // Q0 scale_sig32( st->cldfbSyn->cldfb_state_fx, st->cldfbSyn->p_filter_length, sub( Q10, sub( Q_real, 1 ) ) ); // Q10 st->cldfbSyn->Q_cldfb_state = Q10; move16(); @@ -2015,11 +1931,7 @@ ivas_error acelp_core_dec_ivas_fx( Word16 nSamples = NS2SA_FX2( i_mult( st->L_frame, FRAMES_PER_SEC ), FRAME_SIZE_NS /*DELAY_CLDFB_NS*/ ); /* IVAS-64: optimization is likely possible here (don't resample the whole frame) */ /* analysis of the synthesis at internal sampling rate - needed for DFT stereo -> TD stereo switching */ -#ifndef MSAN_FIX - for ( i = 0; i < L_FRAME16k; i++ ) -#else FOR( i = 0; i < st->L_frame; i++ ) -#endif { syn_32_fx[i] = L_shr( L_deposit_h( psyn_fx[i] ), add( 4, st->Q_syn ) ); move32(); @@ -2042,11 +1954,7 @@ ivas_error acelp_core_dec_ivas_fx( // Get Q-factor q_bpf_error_signal = Q6; move16(); -#ifdef FIX_ISSUE_1237 Copy_Scale_sig_16_32_no_sat( bpf_error_signal_16fx, tmp_bpf_error_signal_fx, L_FRAME16k, sub( q_bpf_error_signal, st->Q_syn ) ); // Q6 -#else - Copy_Scale_sig_16_32_DEPREC( bpf_error_signal_16fx, tmp_bpf_error_signal_fx, L_FRAME16k, sub( q_bpf_error_signal, st->Q_syn ) ); // Q6 -#endif FOR( i = 0; i < CLDFB_NO_COL_MAX; i++ ) { Scale_sig32( realBuffer_fx[i], CLDFB_NO_CHANNELS_MAX, -Q7 ); // Q0 @@ -2096,21 +2004,26 @@ ivas_error acelp_core_dec_ivas_fx( scale_sig32( realBuffer_fx[i], CLDFB_NO_CHANNELS_MAX, Q_real ); // Q_real scale_sig32( imagBuffer_fx[i], CLDFB_NO_CHANNELS_MAX, Q_real ); // Q_real } - scale_sig32_r( st->cldfbSyn->cldfb_state_fx, st->cldfbSyn->p_filter_length, sub( sub( Q_real, 1 ), Q10 ) ); //(Q_real - 1) -#ifndef MSAN_FIX - Scale_sig32( synth_fx, L_FRAME48k, Q_real - 1 ); -#endif - - cldfbSynthesis_ivas_fx( realBuffer_fx, imagBuffer_fx, synth_fx /*dummy*/, NS2SA( st->output_Fs, FRAME_SIZE_NS /*DELAY_CLDFB_NS*/ ), st->cldfbSyn ); - -#ifdef MSAN_FIX - Scale_sig32( synth_fx, output_frame, negate( sub( Q_real, 1 ) ) ); // Q0 -#else - Scale_sig32( synth_fx, L_FRAME48k, -( Q_real - 1 ) ); -#endif +#ifndef OPT_AVOID_STATE_BUF_RESCALE +#ifdef OPT_STEREO_32KBPS_V1 + scale_sig32( st->cldfbSyn->cldfb_state_fx, st->cldfbSyn->p_filter_length, sub( Q_real, Q11 ) ); // Q10 - > (Q_real-1) +#else /* OPT_STEREO_32KBPS_V1 */ + scale_sig32_r( st->cldfbSyn->cldfb_state_fx, st->cldfbSyn->p_filter_length, sub( sub( Q_real, 1 ), Q10 ) ); //(Q_real - 1) +#endif /* OPT_STEREO_32KBPS_V1 */ +#endif /* OPT_AVOID_STATE_BUF_RESCALE */ + +#ifdef OPT_AVOID_STATE_BUF_RESCALE + cldfbSynthesis_ivas_fx( realBuffer_fx, imagBuffer_fx, synth_fx /*dummy*/, NS2SA_FX2( st->output_Fs, FRAME_SIZE_NS /*DELAY_CLDFB_NS*/ ), sub( Q10, sub( Q_real, 1 ) ), -10, st->cldfbSyn ); +#else /* OPT_AVOID_STATE_BUF_RESCALE */ + cldfbSynthesis_ivas_fx( realBuffer_fx, imagBuffer_fx, synth_fx /*dummy*/, NS2SA_FX2( st->output_Fs, FRAME_SIZE_NS /*DELAY_CLDFB_NS*/ ), 0, st->cldfbSyn ); +#endif /* OPT_AVOID_STATE_BUF_RESCALE */ + +#ifndef OPT_AVOID_STATE_BUF_RESCALE + Scale_sig32( synth_fx, output_frame, negate( sub( Q_real, 1 ) ) ); // Q0 Scale_sig32( st->cldfbSyn->cldfb_state_fx, st->cldfbSyn->p_filter_length, sub( Q10, sub( Q_real, 1 ) ) ); // Q10 st->cldfbSyn->Q_cldfb_state = Q10; move16(); +#endif /* OPT_AVOID_STATE_BUF_RESCALE */ IF( st->p_bpf_noise_buf_32 ) { Copy_Scale_sig_16_32_DEPREC( bpf_error_signal_16fx, bpf_error_signal_fx, st->L_frame, -1 ); // Q_syn-1 @@ -2123,11 +2036,7 @@ ivas_error acelp_core_dec_ivas_fx( } /* Copy output signal */ -#ifndef MSAN_FIX - Scale_sig( syn_tmp_fx, L_FRAME16k + L_SUBFR, -st->Q_syn ); -#else Scale_sig( syn_tmp_fx, add( st->L_frame, L_SUBFR ), negate( st->Q_syn ) ); // Q0 -#endif IF( st->element_mode > EVS_MONO ) { Copy( psyn_fx, output_fx, st->L_frame ); /*Q_syn*/ @@ -2150,26 +2059,14 @@ ivas_error acelp_core_dec_ivas_fx( IF( ( EQ_16( st->L_frame, L_FRAME ) && ( st->bwidth != NB ) && GE_16( output_frame, L_FRAME16k ) && ( EQ_16( st->extl, -1 ) || EQ_16( st->extl, SWB_CNG ) || ( EQ_16( st->extl, WB_BWE ) && st->extl_brate == 0 && NE_16( st->coder_type, AUDIO ) ) ) ) ) { -#ifdef MSAN_FIX Copy_Scale_sig_32_16( synth_fx, synth_fx16, output_frame, 0 ); // Q0 -#else - Copy_Scale_sig_32_16( synth_fx, synth_fx16, L_FRAME48k, 0 ); -#endif - hf_synth_fx( st->hBWE_zero, st->core_brate, output_frame, Aq_fx, exc2_fx, - psyn_fx, synth_fx16, st->Q_exc, st->Q_syn2, st->hBWE_zero->delay_syn_hf_fx, &st->hBWE_zero->memExp1, - st->hBWE_zero->mem_hp_interp_fx, st->extl, st->CNG_mode ); -#ifdef MSAN_FIX + hf_synth_fx( st->hBWE_zero, st->core_brate, output_frame, Aq_fx, exc2_fx, psyn_fx, synth_fx16, st->Q_exc, st->Q_syn2 ); Copy_Scale_sig_16_32_DEPREC( synth_fx16, synth_fx, output_frame, 0 ); -#else - Copy_Scale_sig_16_32_DEPREC( synth_fx16, synth_fx, L_FRAME48k, 0 ); -#endif } ELSE { hf_synth_reset_fx( st->hBWE_zero ); -#ifdef MSAN_FIX set16_fx( st->hBWE_zero->mem_hp400_fx, 0, 6 ); -#endif } } @@ -2204,11 +2101,7 @@ ivas_error acelp_core_dec_ivas_fx( test(); IF( !st->ppp_mode_dec && ( st->idchan == 0 || NE_16( st->element_mode, IVAS_CPE_TD ) || ( EQ_16( st->idchan, 1 ) && EQ_16( st->element_mode, IVAS_CPE_TD ) && st->tdm_LRTD_flag ) ) ) { -#ifdef FIX_ISSUE_1237 Copy_Scale_sig_16_32_no_sat( st->hBWE_TD->old_bwe_exc_extended_fx, bwe_exc_extended_fx, NL_BUFF_OFFSET, ( sub( shl( st->Q_exc, 1 ), sub( st->prev_Q_bwe_exc, 16 ) ) ) ); // prev_Q_bwe_exc -#else - Copy_Scale_sig_16_32_DEPREC( st->hBWE_TD->old_bwe_exc_extended_fx, bwe_exc_extended_fx, NL_BUFF_OFFSET, ( sub( shl( st->Q_exc, 1 ), sub( st->prev_Q_bwe_exc, 16 ) ) ) ); // prev_Q_bwe_exc -#endif non_linearity_ivas_fx( bwe_exc_fx, bwe_exc_extended_fx + NL_BUFF_OFFSET, L_FRAME32k, &st->hBWE_TD->bwe_non_lin_prev_scale_fx, st->Q_exc, st->coder_type, voice_factors_fx, st->L_frame ); Copy_Scale_sig_32_16( bwe_exc_extended_fx + L_FRAME32k, st->hBWE_TD->old_bwe_exc_extended_fx, NL_BUFF_OFFSET, negate( sub( shl( st->Q_exc, 1 ), sub( st->prev_Q_bwe_exc, 16 ) ) ) ); // prev_Q_bwe_exc } @@ -2249,18 +2142,7 @@ ivas_error acelp_core_dec_ivas_fx( { Copy_Scale_sig_32_16( save_hb_synth_fx, save_hb_synth_fx16, L_FRAME48k, 0 ); // Q0 } -#ifdef MSAN_FIX Copy_Scale_sig_32_16( synth_fx, synth_fx16, output_frame, 0 ); // Q_syn2 -#else - Copy_Scale_sig_32_16( synth_fx, synth_fx16, L_FRAME48k, 0 ); -#endif -#ifndef FIX_1100_REMOVE_LPC_RESCALING - if ( st->hFdCngDec ) - { - st->hFdCngDec->hFdCngCom->A_cng[0] = ONE_IN_Q12; - move16(); - } -#endif } pop_wmops(); diff --git a/lib_dec/acelp_core_switch_dec_fx.c b/lib_dec/acelp_core_switch_dec_fx.c index 3875339571c907267d06ede6126a3022dc03d558..7657491885adbc296ef9f41cfad150842b149f7e 100644 --- a/lib_dec/acelp_core_switch_dec_fx.c +++ b/lib_dec/acelp_core_switch_dec_fx.c @@ -7,7 +7,6 @@ #include "cnst.h" /* Common constants */ #include "rom_com.h" /* Static table prototypes */ #include "prot_fx.h" /* Function prototypes */ -#include "prot.h" /* Function prototypes */ /*---------------------------------------------------------------------* * Local function prototypes *---------------------------------------------------------------------*/ @@ -129,11 +128,7 @@ ivas_error acelp_core_switch_dec_fx( * Excitation decoding *----------------------------------------------------------------*/ -#ifdef NONBE_FIX_GSC_BSTR config_acelp1( DEC, st_fx->total_brate, cbrate, st_fx->core, -1, -1, st_fx->last_L_frame, -1, &( st_fx->acelp_cfg ), st_fx->next_bit_pos, GENERIC, st_fx->inactive_coder_type_flag, -1, -1, &decode_bwe /* dummy */, &i, st_fx->element_mode, &i /*dummy*/, 0, 0, st_fx->idchan, st_fx->active_cnt, 0, 0, 0 ); -#else - config_acelp1( DEC, st_fx->total_brate, cbrate, st_fx->core, -1, -1, st_fx->last_L_frame, -1, &( st_fx->acelp_cfg ), st_fx->next_bit_pos, GENERIC, -1, -1, &decode_bwe /* dummy */, &i, st_fx->element_mode, &i /*dummy*/, 0, 0, st_fx->idchan, st_fx->active_cnt, 0, 0, 0 ); -#endif decod_gen_voic_core_switch_fx( st_fx, L_frame_for_cs, 0, Aq, exc, cbrate, &st_fx->Q_exc ); @@ -205,8 +200,7 @@ ivas_error acelp_core_switch_dec_fx( { return error; } - cldfbAnalysisFiltering( st_fx->cldfbAna, realBuffer, imagBuffer, &scaleFactor, synth_intFreq, - negate( st_fx->Q_syn ), CLDFB_NO_COL_MAX_SWITCH, workBuffer ); + cldfbAnalysis_fx( st_fx->cldfbAna, realBuffer, imagBuffer, &scaleFactor, synth_intFreq, negate( st_fx->Q_syn ), CLDFB_NO_COL_MAX_SWITCH, workBuffer ); cldfb_restore_memory( st_fx->cldfbAna ); /* CLDFB synthesis of the combined signal */ @@ -237,12 +231,12 @@ ivas_error acelp_core_switch_dec_fx( { return error; } - cldfbSynthesisFiltering( st_fx->cldfbSyn, realBuffer, imagBuffer, &scaleFactor, synth_subfr_out, 0, CLDFB_NO_COL_MAX_SWITCH, workBuffer ); + cldfbSynthesis_fx( st_fx->cldfbSyn, realBuffer, imagBuffer, &scaleFactor, synth_subfr_out, 0, CLDFB_NO_COL_MAX_SWITCH, workBuffer ); cldfb_restore_memory( st_fx->cldfbSyn ); *Q_syn = 0; move16(); - Copy_Scale_sig( synth_intFreq + sub( NS2SA( i_mult( L_frame_for_cs, 50 ), ( SWITCH_GAP_LENGTH_NS - DELAY_CLDFB_NS ) ), 2 ), mem_synth, add( NS2SA( i_mult( L_frame_for_cs, 50 ), DELAY_CLDFB_NS ), 2 ), negate( st_fx->Q_syn ) ); /* Copy mem with Q0 */ + Copy_Scale_sig( synth_intFreq + sub( NS2SA_FX2( i_mult( L_frame_for_cs, 50 ), ( SWITCH_GAP_LENGTH_NS - DELAY_CLDFB_NS ) ), 2 ), mem_synth, add( NS2SA_FX2( i_mult( L_frame_for_cs, 50 ), DELAY_CLDFB_NS ), 2 ), negate( st_fx->Q_syn ) ); /* Copy mem with Q0 */ /*----------------------------------------------------------------* * BWE decoding @@ -579,8 +573,7 @@ ivas_error acelp_core_switch_dec_bfi_fx( { return error; } - cldfbAnalysisFiltering( st_fx->cldfbAna, realBuffer, imagBuffer, &scaleFactor, syn, - negate( st_fx->Q_syn ), CLDFB_NO_COL_MAX_SWITCH_BFI, workBuffer ); + cldfbAnalysis_fx( st_fx->cldfbAna, realBuffer, imagBuffer, &scaleFactor, syn, negate( st_fx->Q_syn ), CLDFB_NO_COL_MAX_SWITCH_BFI, workBuffer ); cldfb_restore_memory( st_fx->cldfbAna ); scaleFactor.hb_scale = scaleFactor.lb_scale; @@ -591,8 +584,8 @@ ivas_error acelp_core_switch_dec_bfi_fx( { return error; } - cldfbSynthesisFiltering( st_fx->cldfbSyn, realBuffer, imagBuffer, &scaleFactor, synth_out, - negate( st_fx->Q_syn ), CLDFB_NO_COL_MAX_SWITCH_BFI, workBuffer ); + cldfbSynthesis_fx( st_fx->cldfbSyn, realBuffer, imagBuffer, &scaleFactor, synth_out, + negate( st_fx->Q_syn ), CLDFB_NO_COL_MAX_SWITCH_BFI, workBuffer ); /* output to Q0 */ Scale_sig( synth_out, L_FRAME48k, negate( st_fx->Q_syn ) ); // Q0 @@ -822,16 +815,12 @@ ivas_error acelp_core_switch_dec_bfi_ivas_fx( *----------------------------------------------------------------*/ /* CLDFB analysis of the synthesis at internal sampling rate */ Qtmp = sub( 11, st_fx->Q_syn ); -#ifdef FIX_ISSUE_1237 Copy_Scale_sig_16_32_no_sat( syn, syn32, L_FRAME16k, Qtmp ); // Q(11) -#else - Copy_Scale_sig_16_32_DEPREC( syn, syn32, L_FRAME16k, Qtmp ); // Q(11) -#endif IF( NE_32( ( error = cldfb_save_memory_ivas_fx( st_fx->cldfbAna ) ), IVAS_ERR_OK ) ) { return error; } - /*cldfbAnalysisFiltering( st_fx->cldfbAna, realBuffer, imagBuffer, &scaleFactor, syn, + /*cldfbAnalysis_fx( st_fx->cldfbAna, realBuffer, imagBuffer, &scaleFactor, syn, negate(st_fx->Q_syn), CLDFB_NO_COL_MAX_SWITCH_BFI, workBuffer);*/ cldfbAnalysis_ivas_fx( syn32, realBuffer, imagBuffer, shr( st_fx->L_frame, 1 ), st_fx->cldfbAna ); cldfb_restore_memory_ivas_fx( st_fx->cldfbAna ); @@ -841,19 +830,27 @@ ivas_error acelp_core_switch_dec_bfi_ivas_fx( { return error; } - /*cldfbSynthesisFiltering( st_fx->cldfbSyn, realBuffer, imagBuffer, &scaleFactor, synth_out, + /*cldfbSynthesis_fx( st_fx->cldfbSyn, realBuffer, imagBuffer, &scaleFactor, synth_out, negate(st_fx->Q_syn), CLDFB_NO_COL_MAX_SWITCH_BFI, workBuffer );*/ +#ifndef OPT_AVOID_STATE_BUF_RESCALE Scale_sig32( st_fx->cldfbSyn->cldfb_state_fx, st_fx->cldfbSyn->cldfb_state_length, 1 ); // Q_cldfb_state+1 st_fx->cldfbSyn->Q_cldfb_state = add( st_fx->cldfbSyn->Q_cldfb_state, 1 ); move16(); Copy_Scale_sig_16_32_DEPREC( synth_out, synth32, L_FRAME48k, 5 ); /*11-5-1*/ - // cldfbSynthesis_ivas_fx(realBuffer, imagBuffer, synth_out, (int16_t)(st_fx->output_Fs * 0.01f), st_fx->cldfbSyn); - cldfbSynthesis_ivas_fx( realBuffer, imagBuffer, synth32, extract_l( Mpy_32_16_1( st_fx->output_Fs, 328 ) ), st_fx->cldfbSyn ); + cldfbSynthesis_ivas_fx( realBuffer, imagBuffer, synth32, extract_l( Mpy_32_16_1( st_fx->output_Fs, 328 ) ), 0, st_fx->cldfbSyn ); +#else /* OPT_AVOID_STATE_BUF_RESCALE */ + Word16 out_len = extract_l( Mpy_32_16_1( st_fx->output_Fs, 328 ) ); + cldfbSynthesis_ivas_fx( realBuffer, imagBuffer, synth32, out_len, -1, 0, st_fx->cldfbSyn ); + Copy_Scale_sig_32_16( synth32, synth_out, out_len, -4 ); +#endif /* OPT_AVOID_STATE_BUF_RESCALE */ + +#ifndef OPT_AVOID_STATE_BUF_RESCALE Scale_sig32( st_fx->cldfbSyn->cldfb_state_fx, st_fx->cldfbSyn->cldfb_state_length, -1 ); // Q_cldfb_state-1 st_fx->cldfbSyn->Q_cldfb_state = sub( st_fx->cldfbSyn->Q_cldfb_state, 1 ); move16(); Copy_Scale_sig_32_16( synth32, synth_out, L_FRAME48k, -5 ); // 11-5-1 -> 11 +#endif /* OPT_AVOID_STATE_BUF_RESCALE */ // Scale_sig( synth_out, L_FRAME48k, negate( st_fx->Q_syn ) ); diff --git a/lib_dec/amr_wb_dec_fx.c b/lib_dec/amr_wb_dec_fx.c index d45655903fb6f8f427e3d28ea4f7e91cbd2be7a2..db4ad2bb021122533aba2ec98cb77b9455a90804 100644 --- a/lib_dec/amr_wb_dec_fx.c +++ b/lib_dec/amr_wb_dec_fx.c @@ -214,11 +214,10 @@ ivas_error amr_wb_dec_fx( test(); IF( !st_fx->bfi && st_fx->prev_bfi && ( EQ_16( st_fx->last_codec_mode, MODE2 ) ) && ( EQ_16( st_fx->last_core_bfi, TCX_20_CORE ) || EQ_16( st_fx->last_core_bfi, TCX_10_CORE ) ) ) { - /* v_multc(st_fx->old_out_fx, st_fx->plcInfo.recovery_gain, */ - /* st_fx->old_out_fx, st_fx->L_frameTCX); */ + /* v_multc(st_fx->old_out_fx, st_fx->hPlcInfo.recovery_gain, st_fx->old_out_fx, st_fx->L_frameTCX); */ FOR( i = 0; i < hTcxDec->L_frameTCX; i++ ) { - hHQ_core->old_out_fx[i] = shl( mult_r( hHQ_core->old_out_fx[i], st_fx->plcInfo.recovery_gain ), 1 ); + hHQ_core->old_out_fx[i] = shl( mult_r( hHQ_core->old_out_fx[i], st_fx->hPlcInfo->recovery_gain ), 1 ); move16(); } } @@ -756,6 +755,7 @@ ivas_error amr_wb_dec_fx( /* TCX=Q-1, ACELP2 Q0 */ Copy_Scale_sig( syn_fx + L_FRAME / 2, hTcxDec->old_syn_Overl, L_FRAME / 2, sub( -1, st_fx->Q_syn ) ); + hTcxDec->Q_old_syn_Overl = -1; Copy_Scale_sig( syn_fx + L_FRAME - M - 1, st_fx->syn, M + 1, sub( 0, st_fx->Q_syn ) ); /*------------------------------------------------------------------* @@ -872,8 +872,7 @@ ivas_error amr_wb_dec_fx( bass_psfilter_fx( st_fx->hBPF, st_fx->Opt_AMR_WB, syn_fx, L_FRAME, pitch_buf_fx, st_fx->bpf_off, st_fx->stab_fac_fx, &st_fx->stab_fac_smooth_fx, GENERIC, st_fx->Q_syn, bpf_error_signal ); - cldfbAnalysisFiltering( st_fx->cldfbAna, realBuffer, imagBuffer, &scaleFactor, syn_fx, - negate( st_fx->Q_syn ), CLDFB_NO_COL_MAX, workBuffer ); + cldfbAnalysis_fx( st_fx->cldfbAna, realBuffer, imagBuffer, &scaleFactor, syn_fx, negate( st_fx->Q_syn ), CLDFB_NO_COL_MAX, workBuffer ); scaleFactor.hb_scale = scaleFactor.lb_scale; move16(); @@ -898,8 +897,9 @@ ivas_error amr_wb_dec_fx( move16(); } cldfb_synth_set_bandsToZero( st_fx, realBuffer, imagBuffer, CLDFB_NO_COL_MAX, scaleFactor ); + /* CLDFB synthesis of the combined signal */ - cldfbSynthesisFiltering( st_fx->cldfbSyn, realBuffer, imagBuffer, &scaleFactor, synth_out_fx, negate( st_fx->Q_syn2 ), CLDFB_NO_COL_MAX, workBuffer ); + cldfbSynthesis_fx( st_fx->cldfbSyn, realBuffer, imagBuffer, &scaleFactor, synth_out_fx, negate( st_fx->Q_syn2 ), CLDFB_NO_COL_MAX, workBuffer ); /* Bring CLDFB output to Q-1 */ Scale_sig( synth_out_fx, output_frame, negate( st_fx->Q_syn2 ) ); @@ -963,7 +963,7 @@ ivas_error amr_wb_dec_fx( test(); test(); - IF( !st_fx->bfi && st_fx->prev_bfi && GE_32( st_fx->last_total_brate, HQ_48k ) && EQ_16( st_fx->last_codec_mode, MODE2 ) && ( EQ_16( st_fx->last_core_bfi, TCX_20_CORE ) || EQ_16( st_fx->last_core_bfi, TCX_10_CORE ) ) && EQ_16( st_fx->plcInfo.concealment_method, TCX_NONTONAL ) && LT_32( st_fx->plcInfo.nbLostCmpt, 4 ) ) + IF( !st_fx->bfi && st_fx->prev_bfi && GE_32( st_fx->last_total_brate, HQ_48k ) && EQ_16( st_fx->last_codec_mode, MODE2 ) && ( EQ_16( st_fx->last_core_bfi, TCX_20_CORE ) || EQ_16( st_fx->last_core_bfi, TCX_10_CORE ) ) && EQ_16( st_fx->hPlcInfo->concealment_method, TCX_NONTONAL ) && LT_32( st_fx->hPlcInfo->nbLostCmpt, 4 ) ) { waveadj_rec = 1; move16(); @@ -1062,7 +1062,7 @@ ivas_error amr_wb_dec_fx( { tmps = NS2SA_FX2( st_fx->output_Fs, DELAY_BWE_TOTAL_NS - DELAY_CLDFB_NS ); Scale_sig( st_fx->prev_synth_buffer_fx, tmps, sub( st_fx->Q_syn2, st_fx->Qprev_synth_buffer_fx ) ); - delay_signal( synth_out_fx, output_frame, st_fx->prev_synth_buffer_fx, tmps ); + delay_signal_fx( synth_out_fx, output_frame, st_fx->prev_synth_buffer_fx, tmps ); } IF( waveadj_rec ) @@ -1075,9 +1075,7 @@ ivas_error amr_wb_dec_fx( move16(); } - waveform_adj2_fix( st_fx->tonalMDCTconceal.secondLastPcmOut, synth_out_fx + tmps, st_fx->plcInfo.data_noise, &st_fx->plcInfo.outx_new_n1_fx, - &st_fx->plcInfo.nsapp_gain_fx, &st_fx->plcInfo.nsapp_gain_n_fx, &st_fx->plcInfo.recovery_gain, st_fx->plcInfo.step_concealgain_fx, - st_fx->plcInfo.Pitch_fx, st_fx->plcInfo.FrameSize, tmps, add( extract_l( st_fx->plcInfo.nbLostCmpt ), 1 ), st_fx->bfi ); + waveform_adj2_fix( st_fx->hPlcInfo, st_fx->hTonalMDCTConc->secondLastPcmOut, synth_out_fx + tmps, tmps, add( extract_l( st_fx->hPlcInfo->nbLostCmpt ), 1 ), st_fx->bfi ); } /* HP filter */ @@ -1095,7 +1093,7 @@ ivas_error amr_wb_dec_fx( move16(); Scale_sig( hTcxLtpDec->tcxltp_mem_in, delta, sub( st_fx->Q_syn2, st_fx->Qprev_synth_buffer_fx ) ); Scale_sig( hTcxLtpDec->tcxltp_mem_out, output_frame, sub( st_fx->Q_syn2, st_fx->Qprev_synth_buffer_fx ) ); - tcx_ltp_post( st_fx, hTcxLtpDec, ACELP_CORE, output_frame, 0, synth_out_fx, NULL ); + tcx_ltp_post_fx( st_fx, hTcxLtpDec, ACELP_CORE, output_frame, 0, synth_out_fx, NULL ); } /* final output of synthesis signal */ syn_output_fx( st_fx->codec_mode, synth_out_fx, output_frame, output_sp, st_fx->Q_syn2 ); diff --git a/lib_dec/ari_dec.c b/lib_dec/ari_dec.c deleted file mode 100644 index b45cb5d9c77b2379a1d38cc544eb9ba5a8d42d53..0000000000000000000000000000000000000000 --- a/lib_dec/ari_dec.c +++ /dev/null @@ -1,338 +0,0 @@ -/****************************************************************************************************** - - (C) 2022-2025 IVAS codec Public Collaboration with portions copyright Dolby International AB, Ericsson AB, - Fraunhofer-Gesellschaft zur Foerderung der angewandten Forschung e.V., Huawei Technologies Co. LTD., - Koninklijke Philips N.V., Nippon Telegraph and Telephone Corporation, Nokia Technologies Oy, Orange, - Panasonic Holdings Corporation, Qualcomm Technologies, Inc., VoiceAge Corporation, and other - contributors to this repository. All Rights Reserved. - - This software is protected by copyright law and by international treaties. - The IVAS codec Public Collaboration consisting of Dolby International AB, Ericsson AB, - Fraunhofer-Gesellschaft zur Foerderung der angewandten Forschung e.V., Huawei Technologies Co. LTD., - Koninklijke Philips N.V., Nippon Telegraph and Telephone Corporation, Nokia Technologies Oy, Orange, - Panasonic Holdings Corporation, Qualcomm Technologies, Inc., VoiceAge Corporation, and other - contributors to this repository retain full ownership rights in their respective contributions in - the software. This notice grants no license of any kind, including but not limited to patent - license, nor is any license granted by implication, estoppel or otherwise. - - Contributors are required to enter into the IVAS codec Public Collaboration agreement before making - contributions. - - This software is provided "AS IS", without any express or implied warranties. The software is in the - development stage. It is intended exclusively for experts who have experience with such software and - solely for the purpose of inspection. All implied warranties of non-infringement, merchantability - and fitness for a particular purpose are hereby disclaimed and excluded. - - Any dispute, controversy or claim arising under or in relation to providing this software shall be - submitted to and settled by the final, binding jurisdiction of the courts of Munich, Germany in - accordance with the laws of the Federal Republic of Germany excluding its conflict of law rules and - the United Nations Convention on Contracts on the International Sales of Goods. - -*******************************************************************************************************/ - -/*==================================================================================== - EVS Codec 3GPP TS26.443 Nov 04, 2021. Version 12.14.0 / 13.10.0 / 14.6.0 / 15.4.0 / 16.3.0 - ====================================================================================*/ - -#include -#include -#include "options.h" -#include "cnst.h" -#include "prot.h" -#include "prot_fx.h" -#include "stat_com.h" -#include "basop_util.h" -#include "wmc_auto.h" - - -/*--------------------------------------------------------------- - * Ari decode 14 bits routines - -------------------------------------------------------------*/ - -/*--------------------------------------------------------------- - * ari_start_decoding_14bits_ivas() - * - * Start ArCo decoding - *-------------------------------------------------------------*/ - - -Word16 ari_start_decoding_14bits_prm_ivas_fx( - const Word16 *ptr, - Word16 bp, - Tastat *s ) -{ - Word32 val; - Word16 i; - const Word16 *p; - - val = 0; - move32(); - p = ptr + bp; - - FOR( i = 0; i < cbitsnew; i++ ) - { - val = L_or( L_shl( val, 1 ), *( p + i ) ); - } - s->low = 0; - move32(); - s->high = ari_q4new; - move32(); - s->value = val; - move32(); - - return add( bp, i ); -} - - -Word16 ari_decode_14bits_pow_ivas( - Word16 *ptr, - Word16 bp, - Word16 bits, - Word16 *res, - Tastat *s, - UWord16 base ) -{ - UWord16 symbol; - Word32 low, high; - UWord32 range, value, cum; - Word16 pows[12]; /* "base" to the power of 2, 4, 8,... 2^12 */ - Word16 lowlim, highlim, testval; - Word16 k; - - highlim = 0; - low = s->low; - high = L_add( s->high, 1 ); - value = s->value; - lowlim = 0; - symbol = 0; - move16(); - move32(); - move32(); - move16(); - move16(); - - range = (UWord32) W_sub( high, low ); - move32(); - - /* the value read from bitstream */ - assert( value >= (UWord32) low ); - cum = (UWord32) W_add( W_shl( ( W_sub( value, low ) ), stat_bitsnew ), ( 1 << stat_bitsnew ) - 1 ); - move32(); - - /* search for the interval where "cum" fits */ - IF( GT_64( W_mult0_32_32( L_shr( base, 1 ), range ), cum ) ) /* below pow-1 */ - { - pows[0] = testval = base; - move16(); - move16(); - /* increase exponent until it is smaller than "cum" */ - FOR( k = 1; k < 12; k++ ) - { - highlim = testval; - move16(); - pows[k] = mult_r( pows[k - 1], pows[k - 1] ); - move16(); - testval = mult_r( pows[k], base ); - IF( LE_64( W_mult0_32_32( shr( testval, 1 ), range ), cum ) ) /* found! big range is [lowlim,testval], (now narrow it down) */ - { - lowlim = testval; - move16(); - k = sub( k, 1 ); - symbol = (UWord16) L_shl( 1, k ); - BREAK; - } - } - assert( k < 12 ); /* maximum 2^10-1*/ - /* narrow the range down */ - FOR( k--; k > 0; k-- ) - { - testval = mult_r( highlim, pows[k] ); - IF( LE_64( W_mult0_32_32( shr( testval, 1 ), range ), cum ) ) - { - lowlim = testval; - move16(); - symbol = (UWord16) L_sub( symbol, L_shl( 1, sub( k, 1 ) ) ); - } - ELSE - { - highlim = testval; - move16(); - } - } - highlim = shr( highlim, 1 ); - lowlim = shr( lowlim, 1 ); - } - ELSE /* trivial case, above pow-1, that is, first symbol */ - { - symbol = 0; - lowlim = extract_l( L_shr( base, 1 ) ); - highlim = 16384; - move16(); - move16(); - } - - - high = L_add( low, mul_sbc_14bits( range, highlim ) ); - - low = L_add( low, mul_sbc_14bits( range, lowlim ) ); - - /*ptr init for ptr*/ - FOR( ; bp < bits; ) - { - IF( GT_32( high, ari_q2new ) ) - { - IF( GE_32( low, ari_q2new ) ) - { - value = (UWord32) W_sub( value, ari_q2new ); - low = L_sub( low, ari_q2new ); - high = L_sub( high, ari_q2new ); - } - ELSE - { - test(); - IF( GE_32( low, ari_q1new ) && LE_32( high, ari_q3new ) ) - { - value = (UWord32) W_sub( value, ari_q1new ); - low = L_sub( low, ari_q1new ); - high = L_sub( high, ari_q1new ); - } - ELSE - { - BREAK; - } - } - } - low = L_add( low, low ); - high = L_add( high, high ); - - assert( abs( ptr[bp] ) <= 1 && "AC expects reading binary values!!!" ); - - value = (UWord32) ( W_shl( value, 1 ) | ptr[bp++] ); - } - - test(); - test(); - test(); - IF( !( NE_16( bp, bits ) || !( EQ_32( s->low, low ) && ( EQ_32( s->high, high ) ) && ( EQ_64( s->value, value ) ) ) ) ) - { - /* This should not happen except of bit errors. */ - s->high = s->low = 0; - move32(); - move32(); - *res = 0; - move16(); - return -1; - } - - s->low = low; - s->high = L_sub( high, 1 ); - s->value = value; - move32(); - move32(); - move32(); - - *res = symbol; - move16(); - return bp; -} - -Word16 ari_decode_14bits_sign_ivas( - Word16 *ptr, - Word16 bp, - Word16 bits, - Word16 *res, - Tastat *s ) -{ - Word16 symbol; - Word32 low, high; - UWord32 range, value, cum; - - low = s->low; - high = L_add( s->high, 1 ); - value = s->value; - move32(); - move32(); - - range = (UWord32) W_sub( high, low ); - - IF( LT_16( bp, bits ) ) - { - assert( value >= (UWord32) low ); - cum = (UWord32) W_add( W_shl( ( W_sub( value, low ) ), stat_bitsnew ), ( 1 << stat_bitsnew ) - 1 ); - IF( GT_64( W_shl( range, 13 ), cum ) ) - { - symbol = 2; - move16(); - high = L_add( low, W_extract_l( W_shr( range, 1 ) ) ); - } - ELSE - { - symbol = 1; - move16(); - low = L_add( low, W_extract_l( W_shr( range, 1 ) ) ); - } - - /*ptr init for ptr*/ - FOR( ; bp < bits; ) - { - IF( GT_32( high, ari_q2new ) ) - { - IF( GE_32( low, ari_q2new ) ) - { - value = (UWord32) W_sub( value, ari_q2new ); - low = L_sub( low, ari_q2new ); - high = L_sub( high, ari_q2new ); - } - ELSE - { - test(); - IF( GE_32( low, ari_q1new ) && LE_32( high, ari_q3new ) ) - { - value = (UWord32) W_sub( value, ari_q1new ); - low = L_sub( low, ari_q1new ); - high = L_sub( high, ari_q1new ); - } - ELSE - { - BREAK; - } - } - } - low = L_add( low, low ); - high = L_add( high, high ); - - assert( abs( ptr[bp] ) <= 1 && "AC expects reading binary values!!!" ); - - value = (UWord32) ( W_shl( value, 1 ) | ptr[bp++] ); - } - } - ELSE - { - cum = (UWord32) W_sub( value, low ); - range = (UWord32) W_shr( range, 1 ); - IF( GT_64( range, cum ) ) - { - symbol = 2; - move16(); - high = L_add( low, range ); - } - ELSE - { - symbol = 1; - move16(); - low = L_add( low, range ); - } - } - - s->low = low; - s->high = L_sub( high, 1 ); - s->value = value; - move32(); - move32(); - move32(); - - *res = symbol; - move16(); - - return bp; -} diff --git a/lib_dec/ari_dec_fx.c b/lib_dec/ari_dec_fx.c index 3681568f28f46665132a75fefe5aa2ec05ac5bca..3aabbdaa58cbcdda0a7c83d962eb9297c8a8608f 100644 --- a/lib_dec/ari_dec_fx.c +++ b/lib_dec/ari_dec_fx.c @@ -551,3 +551,291 @@ Word16 ari_decode_14bits_sign_fx( Word16 *ptr, Word16 bp, Word16 bits, Word16 *r { return ari_decode_14bits_notbl_fx( ptr, bp, bits, res, s, 0, ari_lookup_sign_fx ); } + +/*--------------------------------------------------------------- + * ari_start_decoding_14bits_ivas() + * + * Start ArCo decoding + *-------------------------------------------------------------*/ + + +Word16 ari_start_decoding_14bits_prm_ivas_fx( + const Word16 *ptr, + Word16 bp, + Tastat *s ) +{ + Word32 val; + Word16 i; + const Word16 *p; + + val = 0; + move32(); + p = ptr + bp; + + FOR( i = 0; i < cbitsnew; i++ ) + { + val = L_or( L_shl( val, 1 ), *( p + i ) ); + } + s->low = 0; + move32(); + s->high = ari_q4new; + move32(); + s->value = val; + move32(); + + return add( bp, i ); +} + + +Word16 ari_decode_14bits_pow_ivas( + Word16 *ptr, + Word16 bp, + Word16 bits, + Word16 *res, + Tastat *s, + UWord16 base ) +{ + UWord16 symbol; + Word32 low, high; + UWord32 range, value, cum; + Word16 pows[12]; /* "base" to the power of 2, 4, 8,... 2^12 */ + Word16 lowlim, highlim, testval; + Word16 k; + + highlim = 0; + low = s->low; + high = L_add( s->high, 1 ); + value = s->value; + lowlim = 0; + symbol = 0; + move16(); + move32(); + move32(); + move16(); + move16(); + + range = (UWord32) W_sub( high, low ); + move32(); + + /* the value read from bitstream */ + assert( value >= (UWord32) low ); + cum = (UWord32) W_add( W_shl( ( W_sub( value, low ) ), stat_bitsnew ), ( 1 << stat_bitsnew ) - 1 ); + move32(); + + /* search for the interval where "cum" fits */ + IF( GT_64( W_mult0_32_32( L_shr( base, 1 ), range ), cum ) ) /* below pow-1 */ + { + pows[0] = testval = base; + move16(); + move16(); + /* increase exponent until it is smaller than "cum" */ + FOR( k = 1; k < 12; k++ ) + { + highlim = testval; + move16(); + pows[k] = mult_r( pows[k - 1], pows[k - 1] ); + move16(); + testval = mult_r( pows[k], base ); + IF( LE_64( W_mult0_32_32( shr( testval, 1 ), range ), cum ) ) /* found! big range is [lowlim,testval], (now narrow it down) */ + { + lowlim = testval; + move16(); + k = sub( k, 1 ); + symbol = (UWord16) L_shl( 1, k ); + BREAK; + } + } + assert( k < 12 ); /* maximum 2^10-1*/ + /* narrow the range down */ + FOR( k--; k > 0; k-- ) + { + testval = mult_r( highlim, pows[k] ); + IF( LE_64( W_mult0_32_32( shr( testval, 1 ), range ), cum ) ) + { + lowlim = testval; + move16(); + symbol = (UWord16) L_sub( symbol, L_shl( 1, sub( k, 1 ) ) ); + } + ELSE + { + highlim = testval; + move16(); + } + } + highlim = shr( highlim, 1 ); + lowlim = shr( lowlim, 1 ); + } + ELSE /* trivial case, above pow-1, that is, first symbol */ + { + symbol = 0; + lowlim = extract_l( L_shr( base, 1 ) ); + highlim = 16384; + move16(); + move16(); + } + + + high = L_add( low, mul_sbc_14bits( range, highlim ) ); + + low = L_add( low, mul_sbc_14bits( range, lowlim ) ); + + /*ptr init for ptr*/ + FOR( ; bp < bits; ) + { + IF( GT_32( high, ari_q2new ) ) + { + IF( GE_32( low, ari_q2new ) ) + { + value = (UWord32) W_sub( value, ari_q2new ); + low = L_sub( low, ari_q2new ); + high = L_sub( high, ari_q2new ); + } + ELSE + { + test(); + IF( GE_32( low, ari_q1new ) && LE_32( high, ari_q3new ) ) + { + value = (UWord32) W_sub( value, ari_q1new ); + low = L_sub( low, ari_q1new ); + high = L_sub( high, ari_q1new ); + } + ELSE + { + BREAK; + } + } + } + low = L_add( low, low ); + high = L_add( high, high ); + + assert( abs( ptr[bp] ) <= 1 && "AC expects reading binary values!!!" ); + + value = (UWord32) ( W_shl( value, 1 ) | ptr[bp++] ); + } + + test(); + test(); + test(); + IF( !( NE_16( bp, bits ) || !( EQ_32( s->low, low ) && ( EQ_32( s->high, high ) ) && ( EQ_64( s->value, value ) ) ) ) ) + { + /* This should not happen except of bit errors. */ + s->high = s->low = 0; + move32(); + move32(); + *res = 0; + move16(); + return -1; + } + + s->low = low; + s->high = L_sub( high, 1 ); + s->value = value; + move32(); + move32(); + move32(); + + *res = symbol; + move16(); + return bp; +} + +Word16 ari_decode_14bits_sign_ivas( + Word16 *ptr, + Word16 bp, + Word16 bits, + Word16 *res, + Tastat *s ) +{ + Word16 symbol; + Word32 low, high; + UWord32 range, value, cum; + + low = s->low; + high = L_add( s->high, 1 ); + value = s->value; + move32(); + move32(); + + range = (UWord32) W_sub( high, low ); + + IF( LT_16( bp, bits ) ) + { + assert( value >= (UWord32) low ); + cum = (UWord32) W_add( W_shl( ( W_sub( value, low ) ), stat_bitsnew ), ( 1 << stat_bitsnew ) - 1 ); + IF( GT_64( W_shl( range, 13 ), cum ) ) + { + symbol = 2; + move16(); + high = L_add( low, W_extract_l( W_shr( range, 1 ) ) ); + } + ELSE + { + symbol = 1; + move16(); + low = L_add( low, W_extract_l( W_shr( range, 1 ) ) ); + } + + /*ptr init for ptr*/ + FOR( ; bp < bits; ) + { + IF( GT_32( high, ari_q2new ) ) + { + IF( GE_32( low, ari_q2new ) ) + { + value = (UWord32) W_sub( value, ari_q2new ); + low = L_sub( low, ari_q2new ); + high = L_sub( high, ari_q2new ); + } + ELSE + { + test(); + IF( GE_32( low, ari_q1new ) && LE_32( high, ari_q3new ) ) + { + value = (UWord32) W_sub( value, ari_q1new ); + low = L_sub( low, ari_q1new ); + high = L_sub( high, ari_q1new ); + } + ELSE + { + BREAK; + } + } + } + low = L_add( low, low ); + high = L_add( high, high ); + + assert( abs( ptr[bp] ) <= 1 && "AC expects reading binary values!!!" ); + + value = (UWord32) ( W_shl( value, 1 ) | ptr[bp++] ); + } + } + ELSE + { + cum = (UWord32) W_sub( value, low ); + range = (UWord32) W_shr( range, 1 ); + IF( GT_64( range, cum ) ) + { + symbol = 2; + move16(); + high = L_add( low, range ); + } + ELSE + { + symbol = 1; + move16(); + low = L_add( low, range ); + } + } + + s->low = low; + s->high = L_sub( high, 1 ); + s->value = value; + move32(); + move32(); + move32(); + + *res = symbol; + move16(); + + return bp; +} diff --git a/lib_dec/ari_hm_dec.c b/lib_dec/ari_hm_dec.c index da7722325058b1ca10f3ed0060b97a37d320444b..ef4fb62d5579e0f89500a76227fbe459a7f1719e 100644 --- a/lib_dec/ari_hm_dec.c +++ b/lib_dec/ari_hm_dec.c @@ -40,10 +40,9 @@ #include "cnst.h" #include "stl.h" #include "basop_util.h" -#include "prot.h" +#include "prot_fx.h" #include "rom_com.h" #include "wmc_auto.h" -#include "prot_fx.h" Word16 DecodeIndex_fx( diff --git a/lib_dec/arith_coder_dec.c b/lib_dec/arith_coder_dec.c deleted file mode 100644 index 93bd8877cf6f23910bb7436b7bb6528b7f0e54ef..0000000000000000000000000000000000000000 --- a/lib_dec/arith_coder_dec.c +++ /dev/null @@ -1,250 +0,0 @@ -/****************************************************************************************************** - - (C) 2022-2025 IVAS codec Public Collaboration with portions copyright Dolby International AB, Ericsson AB, - Fraunhofer-Gesellschaft zur Foerderung der angewandten Forschung e.V., Huawei Technologies Co. LTD., - Koninklijke Philips N.V., Nippon Telegraph and Telephone Corporation, Nokia Technologies Oy, Orange, - Panasonic Holdings Corporation, Qualcomm Technologies, Inc., VoiceAge Corporation, and other - contributors to this repository. All Rights Reserved. - - This software is protected by copyright law and by international treaties. - The IVAS codec Public Collaboration consisting of Dolby International AB, Ericsson AB, - Fraunhofer-Gesellschaft zur Foerderung der angewandten Forschung e.V., Huawei Technologies Co. LTD., - Koninklijke Philips N.V., Nippon Telegraph and Telephone Corporation, Nokia Technologies Oy, Orange, - Panasonic Holdings Corporation, Qualcomm Technologies, Inc., VoiceAge Corporation, and other - contributors to this repository retain full ownership rights in their respective contributions in - the software. This notice grants no license of any kind, including but not limited to patent - license, nor is any license granted by implication, estoppel or otherwise. - - Contributors are required to enter into the IVAS codec Public Collaboration agreement before making - contributions. - - This software is provided "AS IS", without any express or implied warranties. The software is in the - development stage. It is intended exclusively for experts who have experience with such software and - solely for the purpose of inspection. All implied warranties of non-infringement, merchantability - and fitness for a particular purpose are hereby disclaimed and excluded. - - Any dispute, controversy or claim arising under or in relation to providing this software shall be - submitted to and settled by the final, binding jurisdiction of the courts of Munich, Germany in - accordance with the laws of the Federal Republic of Germany excluding its conflict of law rules and - the United Nations Convention on Contracts on the International Sales of Goods. - -*******************************************************************************************************/ - -/*==================================================================================== - EVS Codec 3GPP TS26.443 Nov 04, 2021. Version 12.14.0 / 13.10.0 / 14.6.0 / 15.4.0 / 16.3.0 - ====================================================================================*/ - -#include -#include -#include "options.h" -#include "cnst.h" -#include "prot.h" -#include "rom_com.h" -#include "basop_util.h" -#include "basop_proto_func.h" -#include "wmc_auto.h" -#include "prot_fx.h" - -/*-------------------------------------------------------* - * tcx_arith_decode() - * - * - *-------------------------------------------------------*/ - -/*! r: number of bits consumed */ - -static Word16 tcx_arith_decode_ivas_fx( - const Word16 L_frame, /* i : number of spectral lines */ - const Word16 envelope[], /* i : scaled envelope (Q15-envelope_e) */ - Word16 envelope_e, /* i : scaled envelope exponent (Q0) */ - const Word16 target_bits, /* i : target bit budget */ - Word16 prm[], /* i : bitstream parameters */ - Word32 q_spectrum[], /* o : scalar quantized spectrum (Q31-q_spectrum_e) */ - Word16 *q_spectrum_e /* o : spectrum exponent */ -) -{ - Word16 bp, k, q; - Word16 s; - Tastat as; - UWord16 exp_k; - Word16 tmp; - - bp = ari_start_decoding_14bits_prm_ivas_fx( prm, 0, &as ); - - tmp = sub( envelope_e, 1 ); - - FOR( k = 0; k < L_frame; k++ ) - { - IF( EQ_16( envelope[k], 0 ) ) /* safety check in case of bit errors */ - { - set32_fx( q_spectrum, 0, L_frame ); - return -1; - } - ELSE - { - exp_k = expfp_evs_fx( negate( envelope[k] ), tmp ); - } - - /* decode line magnitude */ - bp = ari_decode_14bits_pow_ivas( prm, bp, target_bits, &q, &as, exp_k ); - - IF( q ) - { - /* line is non-zero, decode sign */ - bp = ari_decode_14bits_sign_ivas( prm, bp, target_bits, &s, &as ); - q_spectrum[k] = L_mult( q, sub( 3, shl( s, 1 ) ) ); - move32(); - q_spectrum[k] = L_shl( q_spectrum[k], 30 - SPEC_EXP_DEC ); // Q(31-20) - move32(); - } - ELSE - { - /* line is zero, no sign needed */ - q_spectrum[k] = 0; - move32(); - } - - IF( LE_32( as.high, as.low ) ) - { - if ( LT_16( bp, target_bits ) ) /* safety check in case of bit errors */ - { - bp = -1; - move16(); - } - BREAK; /* no bits left, so exit loop */ - } - } - *q_spectrum_e = SPEC_EXP_DEC; - move16(); - - set32_fx( q_spectrum + k, 0, sub( L_frame, k ) ); - - return bp; -} - -/*-------------------------------------------------------* - * tcx_arith_decode_envelope() - * - * - *-------------------------------------------------------*/ - -void tcx_arith_decode_envelope_ivas_fx( - Decoder_State *st, /* i/o: coder state */ - Word32 q_spectrum[], /* o : quantised MDCT coefficients Q(31-q_spectrum_e) */ - Word16 *q_spectrum_e, /* o : MDCT exponent */ - const Word16 L_frame, /* i : frame or MDCT length */ - Word16 L_spec, /* i : length w/o BW limitation */ - const Word16 A_ind[], /* i : quantised LPC coefficients */ - const Word16 target_bits, /* i : number of available bits */ - Word16 prm[], /* i : bitstream parameters */ - const Word16 use_hm, /* i : use HM in current frame? */ - const Word16 prm_hm[], /* i : HM parameter area */ - Word16 tcxltp_pitch, /* i : TCX LTP pitch in FD, -1 if n/a*/ - Word16 *arith_bits, /* o : bits used for ari. coding */ - Word16 *signaling_bits, /* o : bits used for signaling */ - const Word16 low_complexity /* i : low-complexity flag */ -) -{ - Word32 env[N_MAX_ARI]; /* unscaled envelope (Q16) */ - Word16 *envelope; /* scaled envelope (Q15-e) */ - Word16 envelope_e; - Word16 L_spec_core; - TCX_CONFIG_HANDLE hTcxCfg; - TCX_DEC_HANDLE hTcxDec; - Word16 gamma_w, gamma_uw; - Word16 hm_bits; - - test(); - test(); - test(); - test(); - test(); - test(); - test(); - IF( GT_16( L_spec, N_MAX_ARI ) || ( ( st->element_mode == EVS_MONO ) && GT_16( target_bits, ( ACELP_13k20 / FRAMES_PER_SEC ) ) ) || - ( EQ_16( st->element_mode, IVAS_SCE ) && ( GT_16( st->bits_frame_nominal, ( LPC_SHAPED_ARI_MAX_RATE / FRAMES_PER_SEC ) ) ) ) || - ( GT_16( st->element_mode, IVAS_SCE ) && ( GT_16( st->bits_frame_nominal, ( LPC_SHAPED_ARI_MAX_RATE_CPE / FRAMES_PER_SEC ) ) ) ) || - ( target_bits <= 0 ) ) - { - /* this could happen in case of bit errors */ - st->BER_detect = 1; - move16(); - L_spec = N_MAX_ARI; - move16(); - *signaling_bits = 0; - move16(); - *arith_bits = 0; - move16(); - set32_fx( q_spectrum, 0, L_frame ); - - return; - } - - hTcxCfg = st->hTcxCfg; - hTcxDec = st->hTcxDec; - *signaling_bits = 0; - move16(); - - assert( hTcxDec->enableTcxLpc ); - gamma_w = MAX16B; - move16(); - gamma_uw = st->inv_gamma; - move16(); - -#define WMC_TOOL_SKIP - tcx_arith_render_envelope_ivas_fx( A_ind, L_frame, L_spec, hTcxCfg->preemph_fac, gamma_w, gamma_uw, env ); -#undef WMC_TOOL_SKIP - - IF( use_hm != 0 ) - { - IF( prm_hm[0] != 0 ) - { - tcx_hm_decode( L_spec, env, target_bits, st->coder_type, prm_hm, tcxltp_pitch, &hm_bits ); - - IF( hm_bits < 0 ) - { - st->BER_detect = 1; - move16(); - *signaling_bits = 0; - move16(); - *arith_bits = 0; - move16(); - set32_fx( q_spectrum, 0, L_frame ); - - return; - } - } - ELSE - { - hm_bits = 1; - move16(); - } - *signaling_bits = add( *signaling_bits, hm_bits ); - move16(); - } - - L_spec_core = L_spec; - move16(); - IF( st->igf ) - { - L_spec_core = s_min( L_spec_core, st->hIGFDec->infoIGFStartLine ); - } - - envelope = (Word16 *) env; - tcx_arith_scale_envelope( L_spec, L_spec_core, env, target_bits, low_complexity, envelope, &envelope_e ); - - *arith_bits = tcx_arith_decode_ivas_fx( L_spec, envelope, envelope_e, target_bits, prm, q_spectrum, q_spectrum_e ); - move16(); - - /* safety check in case of bit errors */ - IF( *arith_bits < 0 ) - { - st->BER_detect = 1; - move16(); - set32_fx( q_spectrum, 0, L_frame ); - } - - set32_fx( q_spectrum + L_spec, 0, sub( L_frame, L_spec ) ); - - return; -} diff --git a/lib_dec/arith_coder_dec_fx.c b/lib_dec/arith_coder_dec_fx.c index 4a18f64f9af7a503a0e66756353605e7e5d03b07..60a59c4da469f113f7195179ed0521d2c343bc2d 100644 --- a/lib_dec/arith_coder_dec_fx.c +++ b/lib_dec/arith_coder_dec_fx.c @@ -8,6 +8,8 @@ #include "cnst.h" #include "rom_com.h" #include "prot_fx.h" +#include "basop_util.h" +#include "basop_proto_func.h" /* Returns: number of bits consumed */ static Word16 tcx_arith_decode_fx( @@ -213,3 +215,207 @@ void tcx_arith_decode_envelope_fx( set32_fx( q_spectrum + L_spec, 0, sub( L_frame, L_spec ) ); } + +/*-------------------------------------------------------* + * tcx_arith_decode() + * + * + *-------------------------------------------------------*/ + +/*! r: number of bits consumed */ + +static Word16 tcx_arith_decode_ivas_fx( + const Word16 L_frame, /* i : number of spectral lines */ + const Word16 envelope[], /* i : scaled envelope (Q15-envelope_e) */ + Word16 envelope_e, /* i : scaled envelope exponent (Q0) */ + const Word16 target_bits, /* i : target bit budget */ + Word16 prm[], /* i : bitstream parameters */ + Word32 q_spectrum[], /* o : scalar quantized spectrum (Q31-q_spectrum_e) */ + Word16 *q_spectrum_e /* o : spectrum exponent */ +) +{ + Word16 bp, k, q; + Word16 s; + Tastat as; + UWord16 exp_k; + Word16 tmp; + + bp = ari_start_decoding_14bits_prm_ivas_fx( prm, 0, &as ); + + tmp = sub( envelope_e, 1 ); + + FOR( k = 0; k < L_frame; k++ ) + { + IF( EQ_16( envelope[k], 0 ) ) /* safety check in case of bit errors */ + { + set32_fx( q_spectrum, 0, L_frame ); + return -1; + } + ELSE + { + exp_k = expfp_evs_fx( negate( envelope[k] ), tmp ); + } + + /* decode line magnitude */ + bp = ari_decode_14bits_pow_ivas( prm, bp, target_bits, &q, &as, exp_k ); + + IF( q ) + { + /* line is non-zero, decode sign */ + bp = ari_decode_14bits_sign_ivas( prm, bp, target_bits, &s, &as ); + q_spectrum[k] = L_mult( q, sub( 3, shl( s, 1 ) ) ); + move32(); + q_spectrum[k] = L_shl( q_spectrum[k], 30 - SPEC_EXP_DEC ); // Q(31-20) + move32(); + } + ELSE + { + /* line is zero, no sign needed */ + q_spectrum[k] = 0; + move32(); + } + + IF( LE_32( as.high, as.low ) ) + { + if ( LT_16( bp, target_bits ) ) /* safety check in case of bit errors */ + { + bp = -1; + move16(); + } + BREAK; /* no bits left, so exit loop */ + } + } + *q_spectrum_e = SPEC_EXP_DEC; + move16(); + + set32_fx( q_spectrum + k, 0, sub( L_frame, k ) ); + + return bp; +} + +/*-------------------------------------------------------* + * tcx_arith_decode_envelope() + * + * + *-------------------------------------------------------*/ + +void tcx_arith_decode_envelope_ivas_fx( + Decoder_State *st, /* i/o: coder state */ + Word32 q_spectrum[], /* o : quantised MDCT coefficients Q(31-q_spectrum_e) */ + Word16 *q_spectrum_e, /* o : MDCT exponent */ + const Word16 L_frame, /* i : frame or MDCT length */ + Word16 L_spec, /* i : length w/o BW limitation */ + const Word16 A_ind[], /* i : quantised LPC coefficients */ + const Word16 target_bits, /* i : number of available bits */ + Word16 prm[], /* i : bitstream parameters */ + const Word16 use_hm, /* i : use HM in current frame? */ + const Word16 prm_hm[], /* i : HM parameter area */ + Word16 tcxltp_pitch, /* i : TCX LTP pitch in FD, -1 if n/a*/ + Word16 *arith_bits, /* o : bits used for ari. coding */ + Word16 *signaling_bits, /* o : bits used for signaling */ + const Word16 low_complexity /* i : low-complexity flag */ +) +{ + Word32 env[N_MAX_ARI]; /* unscaled envelope (Q16) */ + Word16 *envelope; /* scaled envelope (Q15-e) */ + Word16 envelope_e; + Word16 L_spec_core; + TCX_CONFIG_HANDLE hTcxCfg; + TCX_DEC_HANDLE hTcxDec; + Word16 gamma_w, gamma_uw; + Word16 hm_bits; + + test(); + test(); + test(); + test(); + test(); + test(); + test(); + IF( GT_16( L_spec, N_MAX_ARI ) || ( ( st->element_mode == EVS_MONO ) && GT_16( target_bits, ( ACELP_13k20 / FRAMES_PER_SEC ) ) ) || + ( EQ_16( st->element_mode, IVAS_SCE ) && ( GT_16( st->bits_frame_nominal, ( LPC_SHAPED_ARI_MAX_RATE / FRAMES_PER_SEC ) ) ) ) || + ( GT_16( st->element_mode, IVAS_SCE ) && ( GT_16( st->bits_frame_nominal, ( LPC_SHAPED_ARI_MAX_RATE_CPE / FRAMES_PER_SEC ) ) ) ) || + ( target_bits <= 0 ) ) + { + /* this could happen in case of bit errors */ + st->BER_detect = 1; + move16(); + L_spec = N_MAX_ARI; + move16(); + *signaling_bits = 0; + move16(); + *arith_bits = 0; + move16(); + set32_fx( q_spectrum, 0, L_frame ); + + return; + } + + hTcxCfg = st->hTcxCfg; + hTcxDec = st->hTcxDec; + *signaling_bits = 0; + move16(); + + assert( hTcxDec->enableTcxLpc ); + gamma_w = MAX16B; + move16(); + gamma_uw = st->inv_gamma; + move16(); + +#define WMC_TOOL_SKIP + tcx_arith_render_envelope_ivas_fx( A_ind, L_frame, L_spec, hTcxCfg->preemph_fac, gamma_w, gamma_uw, env ); +#undef WMC_TOOL_SKIP + + IF( use_hm != 0 ) + { + IF( prm_hm[0] != 0 ) + { + tcx_hm_decode( L_spec, env, target_bits, st->coder_type, prm_hm, tcxltp_pitch, &hm_bits ); + + IF( hm_bits < 0 ) + { + st->BER_detect = 1; + move16(); + *signaling_bits = 0; + move16(); + *arith_bits = 0; + move16(); + set32_fx( q_spectrum, 0, L_frame ); + + return; + } + } + ELSE + { + hm_bits = 1; + move16(); + } + *signaling_bits = add( *signaling_bits, hm_bits ); + move16(); + } + + L_spec_core = L_spec; + move16(); + IF( st->igf ) + { + L_spec_core = s_min( L_spec_core, st->hIGFDec->infoIGFStartLine ); + } + + envelope = (Word16 *) env; + tcx_arith_scale_envelope( L_spec, L_spec_core, env, target_bits, low_complexity, envelope, &envelope_e ); + + *arith_bits = tcx_arith_decode_ivas_fx( L_spec, envelope, envelope_e, target_bits, prm, q_spectrum, q_spectrum_e ); + move16(); + + /* safety check in case of bit errors */ + IF( *arith_bits < 0 ) + { + st->BER_detect = 1; + move16(); + set32_fx( q_spectrum, 0, L_frame ); + } + + set32_fx( q_spectrum + L_spec, 0, sub( L_frame, L_spec ) ); + + return; +} diff --git a/lib_dec/avq_dec_fx.c b/lib_dec/avq_dec_fx.c index 3bf7e3eb62ff897d2028a462d3e8f30c33ead199..a8ba2bfc3612253b30e153d2cb22f863afe3d4a4 100644 --- a/lib_dec/avq_dec_fx.c +++ b/lib_dec/avq_dec_fx.c @@ -7,7 +7,6 @@ #include "options.h" /* Compilation switches */ #include "cnst.h" /* Common constants */ #include "rom_com.h" /* Static table prototypes */ -#include "prot.h" /* Function prototypes */ #include "prot_fx.h" /* Function prototypes */ /*-------------------------------------------------------------------* diff --git a/lib_dec/bass_psfilter.c b/lib_dec/bass_psfilter.c deleted file mode 100644 index 478a814744be7f47d9ae8df548e54b14d10d289c..0000000000000000000000000000000000000000 --- a/lib_dec/bass_psfilter.c +++ /dev/null @@ -1,317 +0,0 @@ -/****************************************************************************************************** - - (C) 2022-2025 IVAS codec Public Collaboration with portions copyright Dolby International AB, Ericsson AB, - Fraunhofer-Gesellschaft zur Foerderung der angewandten Forschung e.V., Huawei Technologies Co. LTD., - Koninklijke Philips N.V., Nippon Telegraph and Telephone Corporation, Nokia Technologies Oy, Orange, - Panasonic Holdings Corporation, Qualcomm Technologies, Inc., VoiceAge Corporation, and other - contributors to this repository. All Rights Reserved. - - This software is protected by copyright law and by international treaties. - The IVAS codec Public Collaboration consisting of Dolby International AB, Ericsson AB, - Fraunhofer-Gesellschaft zur Foerderung der angewandten Forschung e.V., Huawei Technologies Co. LTD., - Koninklijke Philips N.V., Nippon Telegraph and Telephone Corporation, Nokia Technologies Oy, Orange, - Panasonic Holdings Corporation, Qualcomm Technologies, Inc., VoiceAge Corporation, and other - contributors to this repository retain full ownership rights in their respective contributions in - the software. This notice grants no license of any kind, including but not limited to patent - license, nor is any license granted by implication, estoppel or otherwise. - - Contributors are required to enter into the IVAS codec Public Collaboration agreement before making - contributions. - - This software is provided "AS IS", without any express or implied warranties. The software is in the - development stage. It is intended exclusively for experts who have experience with such software and - solely for the purpose of inspection. All implied warranties of non-infringement, merchantability - and fitness for a particular purpose are hereby disclaimed and excluded. - - Any dispute, controversy or claim arising under or in relation to providing this software shall be - submitted to and settled by the final, binding jurisdiction of the courts of Munich, Germany in - accordance with the laws of the Federal Republic of Germany excluding its conflict of law rules and - the United Nations Convention on Contracts on the International Sales of Goods. - -*******************************************************************************************************/ - -/*==================================================================================== - EVS Codec 3GPP TS26.443 Nov 04, 2021. Version 12.14.0 / 13.10.0 / 14.6.0 / 15.4.0 / 16.3.0 - ====================================================================================*/ - -#include -#include "options.h" -#include -#include "prot.h" -#include "prot_fx.h" -#include "ivas_prot.h" -#include "cnst.h" -#include "stat_dec.h" -#include "rom_com.h" -#include -#include "wmc_auto.h" -#include "ivas_prot_fx.h" - -/*---------------------------------------------------------------------* - * Local constants - *---------------------------------------------------------------------*/ - - -#define NBPSF_L_EXTRA 120 -#define BPF_STOP_STOPBAND_16 16 -#define K_PC_DEC_FX -1170 /* -0.0357f in Q15 */ -#define K_PC_DEC_FX32 -76665166 /* -0.0357f in Q31 */ -#define C_PC_DEC_FX 6583 /*in Q8*/ - -/*---------------------------------------------------------------------* - * Local function prototypes - *---------------------------------------------------------------------*/ - -/*---------------------------------------------------------------------* - * bass_psfilter() - * - * Perform low-frequency postfiltering - *---------------------------------------------------------------------*/ - -/*---------------------------------------------------------------------* - * Pit_track() - * - * Perform pitch tracking and test pitch/2 to avoid continuous pitch doubling - *---------------------------------------------------------------------*/ - -/*! r: Pitch */ - - -/*---------------------------------------------------------------------* - * addBassPostFilter() - * - * Add BPF component in cldfb domain - *---------------------------------------------------------------------*/ - - -void addBassPostFilter_ivas_fx( - const Word32 *harm_timeIn_fx, // Qx - const Word16 samplesToProcess, - Word32 **rAnalysis_fx, // Qx - 5 - Word32 **iAnalysis_fx, // Qx - 5 - HANDLE_CLDFB_FILTER_BANK cldfb ) -{ - Word32 *tmp_R_fx[CLDFB_NO_COL_MAX]; - Word32 *tmp_I_fx[CLDFB_NO_COL_MAX]; - Word32 cldfbBufferReal_fx[CLDFB_NO_COL_MAX][20]; - Word32 cldfbBufferImag_fx[CLDFB_NO_COL_MAX][20]; - Word16 i, b; - Word16 maxBand; - const Word32 *weights_fx; - Word16 nCol = cldfb->no_col; - move16(); - Word16 nColToProcess = nCol; - move16(); - Word16 nChan = cldfb->no_channels; - move16(); - IF( GT_16( samplesToProcess, -1 ) ) - { - nColToProcess = idiv1616( sub( add( samplesToProcess, cldfb->no_channels ), 1 ), cldfb->no_channels ); - move16(); - } - - assert( nCol == 16 ); - - weights_fx = bpf_weights_16_ivas_fx_32; - - IF( GT_16( nChan, BPF_STOP_STOPBAND_16 ) ) - { - maxBand = BPF_STOP_STOPBAND_16; - move16(); - } - ELSE - { - maxBand = nChan; - move16(); - } - - FOR( i = 0; i < nColToProcess; i++ ) - { - tmp_R_fx[i] = cldfbBufferReal_fx[i]; - tmp_I_fx[i] = cldfbBufferImag_fx[i]; - } - - cldfbAnalysis_ivas_fx( harm_timeIn_fx, tmp_R_fx, tmp_I_fx, samplesToProcess, cldfb ); - - /* now do the subtraction */ - FOR( i = 0; i < nColToProcess; i++ ) - { - /* loop over low frequency bands */ - FOR( b = 0; b < maxBand; b++ ) - { - rAnalysis_fx[i][b] = Msub_32_32( rAnalysis_fx[i][b], tmp_R_fx[i][b], weights_fx[b] ); // Qx - 6 - move32(); - iAnalysis_fx[i][b] = Msub_32_32( iAnalysis_fx[i][b], tmp_I_fx[i][b], weights_fx[b] ); // Qx - 6 - move32(); - } - } - - return; -} - - -/*---------------------------------------------------------------------* - * res_bpf_adapt_ivas_fx() - * - * Analyze BPF output and decide if it should be applied on DFT stereo - * residual signal - *---------------------------------------------------------------------*/ - -/*! r: Decision to enable or disable BPF on DFT stereo residual */ -Word16 res_bpf_adapt_ivas_fx( - STEREO_DFT_DEC_DATA_HANDLE hStereoDft, /* i/o: DFT stereo decoder handle */ - const Word32 *bpf_error_signal_8k, /* i : BPF modification signal */ - Word32 res_buf[STEREO_DFT_N_8k], /* i : residual buffer Q12 */ - Word16 q_res ) -{ - Word32 error_nrg; - Word32 tmp; - Word32 res_hb_nrg; - Word16 bpf_error_ratio; - Word16 res_bpf_flag; - Word16 i; - Word16 i_start; - Word16 i_end; - Word16 bw_inv; - Word64 W_tmp; - - IF( EQ_16( hStereoDft->res_cod_band_max, 6 ) ) - { - i_start = 39; - move16(); - i_end = 64; - move16(); - bw_inv = 1311; - move16(); /* 1/(64 - 39) in Q15 */ - } - ELSE - { - i_start = 28; - move16(); - i_end = 40; - move16(); - bw_inv = 2720; - move16(); /* 1/(40 - 28) in Q15*/ - } - - /* Measure energy of high frequency band in MDCT domain */ - res_hb_nrg = L_deposit_l( 0 ); - W_tmp = W_deposit32_l( 0 ); - FOR( i = i_start; i < i_end; i++ ) - { - W_tmp = W_add_nosat( W_tmp, W_mult0_32_32( res_buf[i], res_buf[i] ) ); - } - - res_hb_nrg = W_extract_l( W_shr( W_tmp, shl( q_res, 1 ) ) ); // Q0 - res_hb_nrg = Mpy_32_16_1( res_hb_nrg, bw_inv ); // Q0 - res_hb_nrg = L_add( Mpy_32_16_1( res_hb_nrg, STEREO_DFT_BPF_ADAPT_ALPHA_FX ), Mpy_32_16_1( hStereoDft->res_hb_nrg_mem_fx, sub( MAX_16, STEREO_DFT_BPF_ADAPT_ALPHA_FX ) ) ); - hStereoDft->res_hb_nrg_mem_fx = res_hb_nrg; - move32(); - - /* Measure energy of discontinuities at subframe boundaries */ - error_nrg = 0; - move32(); - FOR( i = 0; i < L_FRAME8k; i += STEREO_DFT_L_SUBFR_8k ) - { - tmp = L_sub( bpf_error_signal_8k[i], hStereoDft->bpf_error_signal_last_fx ); - error_nrg = Madd_32_32( error_nrg, tmp, tmp ); - hStereoDft->bpf_error_signal_last_fx = bpf_error_signal_8k[( i + ( STEREO_DFT_L_SUBFR_8k - 1 ) )]; - move32(); - } - error_nrg = L_shl( error_nrg, 1 ); // Q0 - error_nrg = Mpy_32_16_1( error_nrg, 6553 /* 0.2f in Q15 */ ); /* Division by 5 for average value */ - /* Form decision variable and apply limit */ - IF( LT_32( ( L_shr( error_nrg, 1 ) ), res_hb_nrg ) ) - { - Word16 temp; - bpf_error_ratio = BASOP_Util_Divide3232_Scale( error_nrg, res_hb_nrg, &temp ); - bpf_error_ratio = shl( bpf_error_ratio, sub( 13, sub( 15, temp ) ) ); - } - ELSE - { - bpf_error_ratio = ONE_IN_Q14; // Q13 - move16(); - } - bpf_error_ratio = add( mult( STEREO_DFT_BPF_ADAPT_BETA_FX, bpf_error_ratio ), mult( ( MAX_16 - STEREO_DFT_BPF_ADAPT_BETA_FX ), hStereoDft->bpf_error_ratio_mem_fx ) ); - hStereoDft->bpf_error_ratio_mem_fx = bpf_error_ratio; - move16(); - - res_bpf_flag = (Word16) LT_16( bpf_error_ratio, ONE_IN_Q13 ); - move16(); - - return res_bpf_flag; -} - -void bpf_pitch_coherence_ivas_fx( - Decoder_State *st, /* i/o: decoder state structure */ - const Word32 pitch_buf[] /* i : pitch for every subfr [0,1,2,3] Q20 */ -) -{ - Word16 nb_subfr; - Word32 pc, pcn1, pcn2, pcn3; - Word32 scaled_inv_L_frame; // Q8 + Q23 - - SWITCH( st->L_frame ) - { - case 80: - scaled_inv_L_frame = 26843545; // 1/80 in Q31 - move32(); - BREAK; - case 160: - scaled_inv_L_frame = 13421773; // 1/160 in Q31 - move32(); - BREAK; - case 256: - scaled_inv_L_frame = 8388608; // 1/256 in Q31 - move32(); - BREAK; - case 320: - scaled_inv_L_frame = 6710886; // 1/320 in Q31 - move32(); - BREAK; - case 512: - scaled_inv_L_frame = 4194304; // 1/512 in Q31 - move32(); - BREAK; - case 640: - scaled_inv_L_frame = 3355443; // 1/640 in Q31 - move32(); - BREAK; - case 960: - scaled_inv_L_frame = 2236962; // 1/80 in Q31 - move32(); - BREAK; - default: - scaled_inv_L_frame = 0; - move32(); - } - - nb_subfr = shr( st->L_frame, 6 ); - test(); - IF( GT_16( st->clas_dec, UNVOICED_CLAS ) && ( st->element_mode != EVS_MONO ) ) - { - pc = L_abs( L_sub( L_add( st->old_pitch_buf_fx[nb_subfr + 3], st->old_pitch_buf_fx[nb_subfr + 2] ), L_add( st->old_pitch_buf_fx[nb_subfr], st->old_pitch_buf_fx[nb_subfr + 1] ) ) ); - pc = Mpy_32_32( pc, scaled_inv_L_frame ); - pcn1 = L_add( Mpy_32_32( pc, K_PC_DEC_FX32 ), C_PC_DEC_FX ); - pcn1 = L_max( L_min( pcn1, 4096 ), 0 ); // 4096 = 1 in Q12 - - pc = L_abs( L_sub( L_add( pitch_buf[nb_subfr - 1], pitch_buf[nb_subfr - 2] ), L_add( pitch_buf[1], pitch_buf[0] ) ) ); - pc = Mpy_32_32( pc, scaled_inv_L_frame ); - pcn2 = L_add( Mpy_32_32( pc, K_PC_DEC_FX32 ), C_PC_DEC_FX ); - pcn2 = L_max( L_min( pcn2, 4096 ), 0 ); // 4096 = 1 in Q12 - - pc = L_abs( L_sub( L_add( st->old_pitch_buf_fx[nb_subfr + 3], st->old_pitch_buf_fx[nb_subfr + 2] ), L_add( pitch_buf[1], pitch_buf[0] ) ) ); - pc = Mpy_32_32( pc, scaled_inv_L_frame ); - pcn3 = L_add( Mpy_32_32( pc, K_PC_DEC_FX32 ), C_PC_DEC_FX ); - pcn3 = L_max( L_min( pcn3, 4096 ), 0 ); // 4096 = 1 in Q12 - - IF( LT_32( L_add( pcn1, L_add( pcn2, pcn3 ) ), 10240 /*2.5f in Q12*/ ) ) - { - st->hBPF->psf_att_fx = 13107; //.4 in Q15 - move16(); /*Q15*/ - set16_fx( &st->hBPF->Track_on_hist[L_TRACK_HIST - nb_subfr], 1, nb_subfr ); - } - } - - return; -} diff --git a/lib_dec/bass_psfilter_fx.c b/lib_dec/bass_psfilter_fx.c index c11e30c93af6770d9f053cd177f56482d43484d1..45cf7feed026f9c1ef1b419d1f21e5fb08b2691a 100644 --- a/lib_dec/bass_psfilter_fx.c +++ b/lib_dec/bass_psfilter_fx.c @@ -4,11 +4,12 @@ #include #include -#include "options.h" /* Compilation switches */ -#include "prot_fx.h" /* Function prototypes */ -#include "cnst.h" /* Common constants */ -#include "rom_com.h" /* Static table prototypes */ -#include "rom_dec.h" /* Static table prototypes */ +#include "options.h" /* Compilation switches */ +#include "prot_fx.h" /* Function prototypes */ +#include "ivas_prot_fx.h" /* Function prototypes */ +#include "cnst.h" /* Common constants */ +#include "rom_com.h" /* Static table prototypes */ +#include "rom_dec.h" /* Static table prototypes */ #include "basop_util.h" /*---------------------------------------------------------------------* @@ -17,6 +18,9 @@ #define NBPSF_L_EXTRA 120 #define BPF_STOP_STOPBAND_16 16 +#define K_PC_DEC_FX -1170 /* -0.0357f in Q15 */ +#define K_PC_DEC_FX32 -76665166 /* -0.0357f in Q31 */ +#define C_PC_DEC_FX 6583 /*in Q8*/ /*---------------------------------------------------------------------* * Local function prototypes @@ -837,14 +841,7 @@ void addBassPostFilter_fx( } /* do the CLDFB anlysis of filtered signal */ - cldfbAnalysisFiltering( cldfbBank_bpf_Fx, - tmp_R_Fx, - tmp_I_Fx, - &scale, - harm_timeIn_Fx, - timeIn_e, - nTimeSlots, - workBuffer ); + cldfbAnalysis_fx( cldfbBank_bpf_Fx, tmp_R_Fx, tmp_I_Fx, &scale, harm_timeIn_Fx, timeIn_e, nTimeSlots, workBuffer ); /* now do the subtraction */ @@ -889,6 +886,246 @@ void addBassPostFilter_fx( return; } +/*---------------------------------------------------------------------* + * addBassPostFilter() + * + * Add BPF component in cldfb domain + *---------------------------------------------------------------------*/ + + +void addBassPostFilter_ivas_fx( + const Word32 *harm_timeIn_fx, // Qx + const Word16 samplesToProcess, + Word32 **rAnalysis_fx, // Qx - 5 + Word32 **iAnalysis_fx, // Qx - 5 + HANDLE_CLDFB_FILTER_BANK cldfb ) +{ + Word32 *tmp_R_fx[CLDFB_NO_COL_MAX]; + Word32 *tmp_I_fx[CLDFB_NO_COL_MAX]; + Word32 cldfbBufferReal_fx[CLDFB_NO_COL_MAX][20]; + Word32 cldfbBufferImag_fx[CLDFB_NO_COL_MAX][20]; + Word16 i, b; + Word16 maxBand; + const Word32 *weights_fx; + Word16 nCol = cldfb->no_col; + move16(); + Word16 nColToProcess = nCol; + move16(); + Word16 nChan = cldfb->no_channels; + move16(); + IF( GT_16( samplesToProcess, -1 ) ) + { + nColToProcess = idiv1616( sub( add( samplesToProcess, cldfb->no_channels ), 1 ), cldfb->no_channels ); + move16(); + } + + assert( nCol == 16 ); + + weights_fx = bpf_weights_16_ivas_fx_32; + + IF( GT_16( nChan, BPF_STOP_STOPBAND_16 ) ) + { + maxBand = BPF_STOP_STOPBAND_16; + move16(); + } + ELSE + { + maxBand = nChan; + move16(); + } + + FOR( i = 0; i < nColToProcess; i++ ) + { + tmp_R_fx[i] = cldfbBufferReal_fx[i]; + tmp_I_fx[i] = cldfbBufferImag_fx[i]; + } + + cldfbAnalysis_ivas_fx( harm_timeIn_fx, tmp_R_fx, tmp_I_fx, samplesToProcess, cldfb ); + + /* now do the subtraction */ + FOR( i = 0; i < nColToProcess; i++ ) + { + /* loop over low frequency bands */ + FOR( b = 0; b < maxBand; b++ ) + { + rAnalysis_fx[i][b] = Msub_32_32( rAnalysis_fx[i][b], tmp_R_fx[i][b], weights_fx[b] ); // Qx - 6 + move32(); + iAnalysis_fx[i][b] = Msub_32_32( iAnalysis_fx[i][b], tmp_I_fx[i][b], weights_fx[b] ); // Qx - 6 + move32(); + } + } + + return; +} + + +/*---------------------------------------------------------------------* + * res_bpf_adapt_ivas_fx() + * + * Analyze BPF output and decide if it should be applied on DFT stereo + * residual signal + *---------------------------------------------------------------------*/ + +/*! r: Decision to enable or disable BPF on DFT stereo residual */ +Word16 res_bpf_adapt_ivas_fx( + STEREO_DFT_DEC_DATA_HANDLE hStereoDft, /* i/o: DFT stereo decoder handle */ + const Word32 *bpf_error_signal_8k, /* i : BPF modification signal */ + Word32 res_buf[STEREO_DFT_N_8k], /* i : residual buffer Q12 */ + Word16 q_res ) +{ + Word32 error_nrg; + Word32 tmp; + Word32 res_hb_nrg; + Word16 bpf_error_ratio; + Word16 res_bpf_flag; + Word16 i; + Word16 i_start; + Word16 i_end; + Word16 bw_inv; + Word64 W_tmp; + + IF( EQ_16( hStereoDft->res_cod_band_max, 6 ) ) + { + i_start = 39; + move16(); + i_end = 64; + move16(); + bw_inv = 1311; + move16(); /* 1/(64 - 39) in Q15 */ + } + ELSE + { + i_start = 28; + move16(); + i_end = 40; + move16(); + bw_inv = 2720; + move16(); /* 1/(40 - 28) in Q15*/ + } + + /* Measure energy of high frequency band in MDCT domain */ + res_hb_nrg = L_deposit_l( 0 ); + W_tmp = W_deposit32_l( 0 ); + FOR( i = i_start; i < i_end; i++ ) + { + W_tmp = W_add_nosat( W_tmp, W_mult0_32_32( res_buf[i], res_buf[i] ) ); + } + + res_hb_nrg = W_extract_l( W_shr( W_tmp, shl( q_res, 1 ) ) ); // Q0 + res_hb_nrg = Mpy_32_16_1( res_hb_nrg, bw_inv ); // Q0 + res_hb_nrg = L_add( Mpy_32_16_1( res_hb_nrg, STEREO_DFT_BPF_ADAPT_ALPHA_FX ), Mpy_32_16_1( hStereoDft->res_hb_nrg_mem_fx, sub( MAX_16, STEREO_DFT_BPF_ADAPT_ALPHA_FX ) ) ); + hStereoDft->res_hb_nrg_mem_fx = res_hb_nrg; + move32(); + + /* Measure energy of discontinuities at subframe boundaries */ + error_nrg = 0; + move32(); + FOR( i = 0; i < L_FRAME8k; i += STEREO_DFT_L_SUBFR_8k ) + { + tmp = L_sub( bpf_error_signal_8k[i], hStereoDft->bpf_error_signal_last_fx ); + error_nrg = Madd_32_32( error_nrg, tmp, tmp ); + hStereoDft->bpf_error_signal_last_fx = bpf_error_signal_8k[( i + ( STEREO_DFT_L_SUBFR_8k - 1 ) )]; + move32(); + } + error_nrg = L_shl( error_nrg, 1 ); // Q0 + error_nrg = Mpy_32_16_1( error_nrg, 6553 /* 0.2f in Q15 */ ); /* Division by 5 for average value */ + /* Form decision variable and apply limit */ + IF( LT_32( ( L_shr( error_nrg, 1 ) ), res_hb_nrg ) ) + { + Word16 temp; + bpf_error_ratio = BASOP_Util_Divide3232_Scale( error_nrg, res_hb_nrg, &temp ); + bpf_error_ratio = shl( bpf_error_ratio, sub( 13, sub( 15, temp ) ) ); + } + ELSE + { + bpf_error_ratio = ONE_IN_Q14; // Q13 + move16(); + } + bpf_error_ratio = add( mult( STEREO_DFT_BPF_ADAPT_BETA_FX, bpf_error_ratio ), mult( ( MAX_16 - STEREO_DFT_BPF_ADAPT_BETA_FX ), hStereoDft->bpf_error_ratio_mem_fx ) ); + hStereoDft->bpf_error_ratio_mem_fx = bpf_error_ratio; + move16(); + + res_bpf_flag = (Word16) LT_16( bpf_error_ratio, ONE_IN_Q13 ); + move16(); + + return res_bpf_flag; +} + +void bpf_pitch_coherence_ivas_fx( + Decoder_State *st, /* i/o: decoder state structure */ + const Word32 pitch_buf[] /* i : pitch for every subfr [0,1,2,3] Q20 */ +) +{ + Word16 nb_subfr; + Word32 pc, pcn1, pcn2, pcn3; + Word32 scaled_inv_L_frame; // Q8 + Q23 + + SWITCH( st->L_frame ) + { + case 80: + scaled_inv_L_frame = 26843545; // 1/80 in Q31 + move32(); + BREAK; + case 160: + scaled_inv_L_frame = 13421773; // 1/160 in Q31 + move32(); + BREAK; + case 256: + scaled_inv_L_frame = 8388608; // 1/256 in Q31 + move32(); + BREAK; + case 320: + scaled_inv_L_frame = 6710886; // 1/320 in Q31 + move32(); + BREAK; + case 512: + scaled_inv_L_frame = 4194304; // 1/512 in Q31 + move32(); + BREAK; + case 640: + scaled_inv_L_frame = 3355443; // 1/640 in Q31 + move32(); + BREAK; + case 960: + scaled_inv_L_frame = 2236962; // 1/80 in Q31 + move32(); + BREAK; + default: + scaled_inv_L_frame = 0; + move32(); + } + + nb_subfr = shr( st->L_frame, 6 ); + test(); + IF( GT_16( st->clas_dec, UNVOICED_CLAS ) && ( st->element_mode != EVS_MONO ) ) + { + pc = L_abs( L_sub( L_add( st->old_pitch_buf_fx[nb_subfr + 3], st->old_pitch_buf_fx[nb_subfr + 2] ), L_add( st->old_pitch_buf_fx[nb_subfr], st->old_pitch_buf_fx[nb_subfr + 1] ) ) ); + pc = Mpy_32_32( pc, scaled_inv_L_frame ); + pcn1 = L_add( Mpy_32_32( pc, K_PC_DEC_FX32 ), C_PC_DEC_FX ); + pcn1 = L_max( L_min( pcn1, 4096 ), 0 ); // 4096 = 1 in Q12 + + pc = L_abs( L_sub( L_add( pitch_buf[nb_subfr - 1], pitch_buf[nb_subfr - 2] ), L_add( pitch_buf[1], pitch_buf[0] ) ) ); + pc = Mpy_32_32( pc, scaled_inv_L_frame ); + pcn2 = L_add( Mpy_32_32( pc, K_PC_DEC_FX32 ), C_PC_DEC_FX ); + pcn2 = L_max( L_min( pcn2, 4096 ), 0 ); // 4096 = 1 in Q12 + + pc = L_abs( L_sub( L_add( st->old_pitch_buf_fx[nb_subfr + 3], st->old_pitch_buf_fx[nb_subfr + 2] ), L_add( pitch_buf[1], pitch_buf[0] ) ) ); + pc = Mpy_32_32( pc, scaled_inv_L_frame ); + pcn3 = L_add( Mpy_32_32( pc, K_PC_DEC_FX32 ), C_PC_DEC_FX ); + pcn3 = L_max( L_min( pcn3, 4096 ), 0 ); // 4096 = 1 in Q12 + + IF( LT_32( L_add( pcn1, L_add( pcn2, pcn3 ) ), 10240 /*2.5f in Q12*/ ) ) + { + st->hBPF->psf_att_fx = 13107; //.4 in Q15 + move16(); /*Q15*/ + set16_fx( &st->hBPF->Track_on_hist[L_TRACK_HIST - nb_subfr], 1, nb_subfr ); + } + } + + return; +} + + #ifdef ADD_BPF_ADAPT /*---------------------------------------------------------------------* * res_bpf_adapt() diff --git a/lib_dec/cng_dec_fx.c b/lib_dec/cng_dec_fx.c index 3590dae71f9caf434f47e419f4ffcb37e4d4d672..945f0ca758ed89671ff73a19fe0ba7ff25ab0357 100644 --- a/lib_dec/cng_dec_fx.c +++ b/lib_dec/cng_dec_fx.c @@ -6,7 +6,6 @@ #include "options.h" /* Compilation switches */ #include "cnst.h" #include "rom_com.h" -#include "prot.h" #include "prot_fx.h" #include "ivas_cnst.h" @@ -1378,9 +1377,8 @@ void swb_CNG_dec_fx( Decoder_State *st_fx, /* i/o: State structure */ const Word16 *synth_fx, /* i : ACELP core synthesis at 32kHz Qsyn*/ Word16 *shb_synth_fx, /* o : high-band CNG synthesis Qx*/ - const Word16 sid_bw /* i : 0-NB/WB, 1-SWB SID Q0*/ - , - const Word16 Qsyn /* i : Q value of ACELP core synthesis */ + const Word16 sid_bw, /* i : 0-NB/WB, 1-SWB SID Q0*/ + const Word16 Qsyn /* i : Q value of ACELP core synthesis */ ) { test(); @@ -1394,18 +1392,18 @@ void swb_CNG_dec_fx( } st_fx->last_vad_fx = 0; move16(); - st_fx->hTdCngDec->burst_cnt = 0; + st_fx->hTdCngDec->burst_cnt_fx = 0; move16(); } ELSE { st_fx->last_vad_fx = 1; move16(); - st_fx->hTdCngDec->burst_cnt = add( st_fx->hTdCngDec->burst_cnt, 1 ); + st_fx->hTdCngDec->burst_cnt_fx = add( st_fx->hTdCngDec->burst_cnt_fx, 1 ); move16(); - if ( GT_16( st_fx->hTdCngDec->burst_cnt, 10 ) ) + if ( GT_16( st_fx->hTdCngDec->burst_cnt_fx, 10 ) ) { - st_fx->hTdCngDec->burst_cnt = 0; + st_fx->hTdCngDec->burst_cnt_fx = 0; move16(); } } @@ -1432,18 +1430,18 @@ void swb_CNG_dec_ivas_fx( } st_fx->last_vad_fx = 0; move16(); - st_fx->hTdCngDec->burst_cnt = 0; + st_fx->hTdCngDec->burst_cnt_fx = 0; move16(); } ELSE { st_fx->last_vad_fx = 1; move16(); - st_fx->hTdCngDec->burst_cnt = add_sat( st_fx->hTdCngDec->burst_cnt, 1 ); // saturation reached? + st_fx->hTdCngDec->burst_cnt_fx = add_sat( st_fx->hTdCngDec->burst_cnt_fx, 1 ); // saturation reached? move16(); - if ( GT_16( st_fx->hTdCngDec->burst_cnt, 10 ) ) + if ( GT_16( st_fx->hTdCngDec->burst_cnt_fx, 10 ) ) { - st_fx->hTdCngDec->burst_cnt = 0; + st_fx->hTdCngDec->burst_cnt_fx = 0; move16(); } } @@ -1467,6 +1465,7 @@ static void shb_CNG_decod_fx( { Word16 i; Word16 idx_ener_fx; + TD_CNG_DEC_HANDLE hTdCngDec; Word16 shb_lpcCNG_fx[LPC_SHB_ORDER + 1]; Word16 shb_lspCNG_fx[LPC_SHB_ORDER]; Word16 excTmp_fx[L_FRAME16k]; @@ -1490,7 +1489,9 @@ static void shb_CNG_decod_fx( move16(); Word16 q; TD_BWE_DEC_HANDLE hBWE_TD; + hBWE_TD = st_fx->hBWE_TD; + hTdCngDec = st_fx->hTdCngDec; IF( st_fx->bfi == 0 ) { @@ -1507,18 +1508,12 @@ static void shb_CNG_decod_fx( IF( st_fx->element_mode == EVS_MONO ) { /* de-quantization of SHB CNG parameters */ - L_tmp = L_mult( idx_ener_fx, 27400 ); /*Q14 */ - st_fx->last_shb_cng_ener_fx = extract_l( L_shr( L_sub( L_tmp, 295924 ), 6 ) ); /*Q8 */ + L_tmp = L_mult( idx_ener_fx, 27400 ); /*Q14 */ + hTdCngDec->last_shb_cng_ener_fx = extract_l( L_shr( L_sub( L_tmp, 295924 ), 6 ) ); /*Q8 */ move16(); } ELSE { -#ifdef IVAS_CODE_CNG - /* de-quantization of SHB CNG parameters */ To be verified - L_tmp = L_mult( idx_ener_fx, 17615 ); /*Q13*/ - st_fx->last_shb_cng_ener_fx = extract_l( L_shr( L_sub( L_tmp, 147962 ), 5 ) ); /*Q8 */ - move16(); -#endif } } } @@ -1526,21 +1521,21 @@ static void shb_CNG_decod_fx( /* SHB spectrum estimation */ - interp_fx = s_min( st_fx->shb_dtx_count_fx, 32 ); + interp_fx = s_min( hTdCngDec->shb_dtx_count_fx, 32 ); interp_fx = shl_sat( interp_fx, 10 ); /*Q15*/ FOR( i = 0; i < LPC_SHB_ORDER; i++ ) { - tmp2 = mult( interp_fx, st_fx->lsp_shb_prev_fx[i] ); /*Q14*/ - tmp = mult( sub( 32767, interp_fx ), st_fx->lsp_shb_prev_prev_fx[i] ); /*Q14*/ + tmp2 = mult( interp_fx, hTdCngDec->lsp_shb_prev_fx[i] ); /*Q14*/ + tmp = mult( sub( 32767, interp_fx ), hTdCngDec->lsp_shb_prev_prev_fx[i] ); /*Q14*/ shb_lspCNG_fx[i] = add( tmp2, tmp ); move16(); /*Q14*/ } IF( NE_16( st_fx->element_mode, IVAS_CPE_DFT ) ) { - if ( LT_16( st_fx->shb_dtx_count_fx, 1000 ) ) + if ( LT_16( hTdCngDec->shb_dtx_count_fx, 1000 ) ) { - st_fx->shb_dtx_count_fx = add( st_fx->shb_dtx_count_fx, 1 ); + hTdCngDec->shb_dtx_count_fx = add( hTdCngDec->shb_dtx_count_fx, 1 ); move16(); } } @@ -1549,9 +1544,6 @@ static void shb_CNG_decod_fx( Copy_Scale_sig( shb_lpcCNG_fx, shb_lpcCNG_fx, LPC_SHB_ORDER + 1, sub( norm_s( shb_lpcCNG_fx[0] ), 2 ) ); /* Q12 */ -#ifdef IVAS_CODE_CNG - // mvr2r(shb_lpcCNG, st->hTdCngDec->shb_lpcCNG, LPC_SHB_ORDER + 1); -#endif /* SHB energy estimation */ wb_ener_fx = L_deposit_l( 1 ); /*Q1 */ FOR( i = 0; i < L_FRAME32k; i++ ) @@ -1565,10 +1557,10 @@ static void shb_CNG_decod_fx( wb_ener16_fx = round_fx( L_shl( wb_ener_fx, 10 ) ); /*wb_ener_fx in Q8 */ if ( !st_fx->first_CNG ) { - st_fx->wb_cng_ener_fx = wb_ener16_fx; + hTdCngDec->wb_cng_ener_fx = wb_ener16_fx; move16(); /*Q8 */ } - if ( GT_16( abs_s( sub( wb_ener16_fx, st_fx->wb_cng_ener_fx ) ), 3072 ) ) + if ( GT_16( abs_s( sub( wb_ener16_fx, hTdCngDec->wb_cng_ener_fx ) ), 3072 ) ) { allow_cn_step_fx = 1; move16(); @@ -1576,52 +1568,52 @@ static void shb_CNG_decod_fx( IF( EQ_16( allow_cn_step_fx, 1 ) ) { - st_fx->wb_cng_ener_fx = wb_ener16_fx; + hTdCngDec->wb_cng_ener_fx = wb_ener16_fx; move16(); /*Q8 */ } ELSE { - tmp = sub( wb_ener16_fx, st_fx->wb_cng_ener_fx ); /*Q8 */ - tmp = mult_r( tmp, 29491 ); /*Q8 */ - st_fx->wb_cng_ener_fx = add( st_fx->wb_cng_ener_fx, tmp ); /*Q8 */ + tmp = sub( wb_ener16_fx, hTdCngDec->wb_cng_ener_fx ); /*Q8 */ + tmp = mult_r( tmp, 29491 ); /*Q8 */ + hTdCngDec->wb_cng_ener_fx = add( hTdCngDec->wb_cng_ener_fx, tmp ); /*Q8 */ move16(); } test(); test(); IF( EQ_32( st_fx->core_brate, SID_2k40 ) && EQ_16( sid_bw, 1 ) && ( st_fx->bfi == 0 ) ) { - st_fx->last_wb_cng_ener_fx = st_fx->wb_cng_ener_fx; + hTdCngDec->last_wb_cng_ener_fx = hTdCngDec->wb_cng_ener_fx; move16(); if ( !st_fx->first_CNG ) { - st_fx->shb_cng_ener_fx = st_fx->last_shb_cng_ener_fx; + hTdCngDec->shb_cng_ener_fx = hTdCngDec->last_shb_cng_ener_fx; move16(); } } - gain_fx = sub( st_fx->wb_cng_ener_fx, st_fx->last_wb_cng_ener_fx ); /* Q8 */ + gain_fx = sub( hTdCngDec->wb_cng_ener_fx, hTdCngDec->last_wb_cng_ener_fx ); /* Q8 */ if ( GT_16( gain_fx, 15 ) ) { gain_fx = 15; move16(); } - step_fx = sub( add( gain_fx, st_fx->last_shb_cng_ener_fx ), st_fx->shb_cng_ener_fx ); /*Q8 */ + step_fx = sub( add( gain_fx, hTdCngDec->last_shb_cng_ener_fx ), hTdCngDec->shb_cng_ener_fx ); /*Q8 */ test(); IF( EQ_16( allow_cn_step_fx, 1 ) || GT_32( st_fx->last_core_brate, SID_2k40 ) ) { - st_fx->shb_cng_ener_fx = add( st_fx->shb_cng_ener_fx, step_fx ); /* Q8 */ + hTdCngDec->shb_cng_ener_fx = add( hTdCngDec->shb_cng_ener_fx, step_fx ); /* Q8 */ move16(); } ELSE { - st_fx->shb_cng_ener_fx = add( st_fx->shb_cng_ener_fx, mult( 8192, step_fx ) ); /*Q8 */ + hTdCngDec->shb_cng_ener_fx = add( hTdCngDec->shb_cng_ener_fx, mult( 8192, step_fx ) ); /*Q8 */ move16(); } /* generate white noise excitation */ FOR( i = 0; i < L_FRAME16k; i++ ) { - excTmp_fx[i] = shr_r( Random( &st_fx->swb_cng_seed ), 8 ); + excTmp_fx[i] = shr_r( Random( &hTdCngDec->swb_cng_seed ), 8 ); move16(); /*Q-8*/ } @@ -1642,23 +1634,23 @@ static void shb_CNG_decod_fx( ener_excSHB_fx = round_fx( L_tmp ); /*Qq */ IF( EQ_16( st_fx->last_vad_fx, 1 ) ) { - st_fx->trans_cnt_fx = 0; + hTdCngDec->trans_cnt_fx = 0; move16(); test(); - IF( GT_16( st_fx->hTdCngDec->burst_cnt, 3 ) && NE_16( st_fx->last_core, HQ_CORE ) ) + IF( GT_16( hTdCngDec->burst_cnt_fx, 3 ) && NE_16( st_fx->last_core, HQ_CORE ) ) { - st_fx->trans_cnt_fx = 5; + hTdCngDec->trans_cnt_fx = 5; move16(); } } - ener_fx = st_fx->shb_cng_ener_fx; + ener_fx = hTdCngDec->shb_cng_ener_fx; move16(); /*Q8 */ - IF( st_fx->trans_cnt_fx > 0 ) + IF( hTdCngDec->trans_cnt_fx > 0 ) { - i = extract_l( L_mult0( st_fx->trans_cnt_fx, 17 ) ); /*Q0 */ - ener_fx = add_sat( st_fx->shb_cng_ener_fx, mult( sin_table256_fx[i], sub_sat( st_fx->last_shb_ener_fx, st_fx->shb_cng_ener_fx ) ) ); /*Q8 */ - st_fx->trans_cnt_fx = sub( st_fx->trans_cnt_fx, 1 ); + i = extract_l( L_mult0( hTdCngDec->trans_cnt_fx, 17 ) ); /*Q0 */ + ener_fx = add_sat( hTdCngDec->shb_cng_ener_fx, mult( sin_table256_fx[i], sub_sat( hTdCngDec->last_shb_ener_fx, hTdCngDec->shb_cng_ener_fx ) ) ); /*Q8 */ + hTdCngDec->trans_cnt_fx = sub( hTdCngDec->trans_cnt_fx, 1 ); move16(); } @@ -1695,9 +1687,7 @@ static void shb_CNG_decod_fx( L_tmp = L_deposit_h( tmp ); /*Q31 */ tmp = sub( add( 5, exp ), add( q, exp1 ) ); L_gain_fx = Isqrt_lc( L_tmp, &tmp ); /*Q31-Qtmp */ -#ifdef IVAS_CODE_CNG - st->hTdCngDec->shb_cng_gain = ener_fx; -#endif + FOR( i = 0; i < L_FRAME16k; i++ ) { shb_syn16k_fx[i] = extract_l( L_shr( Mpy_32_16_1( L_gain_fx, excSHB_fx[i] ), sub( 5, tmp ) ) ); /*Q3 = 31-Qtmp-8-15-5+Qtmp */ @@ -1710,13 +1700,13 @@ static void shb_CNG_decod_fx( /* rescale the Hilbert memories to Q0 */ FOR( i = 0; i < HILBERT_MEM_SIZE; i++ ) { - hBWE_TD->genSHBsynth_Hilbert_Mem_fx[i] = L_shr( hBWE_TD->genSHBsynth_Hilbert_Mem_fx[i], st_fx->prev_Q_bwe_syn2 ); /* st_fx->prev_Q_bwe_syn2 */ + hBWE_TD->genSHBsynth_Hilbert_Mem_fx[i] = L_shr( hBWE_TD->genSHBsynth_Hilbert_Mem_fx[i], hBWE_TD->prev_Q_bwe_syn2 ); /* hBWE_TD->prev_Q_bwe_syn2 */ move32(); } FOR( i = 0; i < 2 * ALLPASSSECTIONS_STEEP; i++ ) { - hBWE_TD->genSHBsynth_state_lsyn_filt_shb_local_fx[i] = shr( hBWE_TD->genSHBsynth_state_lsyn_filt_shb_local_fx[i], st_fx->prev_Q_bwe_syn2 ); /* st_fx->prev_Q_bwe_syn2 */ + hBWE_TD->genSHBsynth_state_lsyn_filt_shb_local_fx[i] = shr( hBWE_TD->genSHBsynth_state_lsyn_filt_shb_local_fx[i], hBWE_TD->prev_Q_bwe_syn2 ); /* hBWE_TD->prev_Q_bwe_syn2 */ move16(); } } @@ -1724,13 +1714,10 @@ static void shb_CNG_decod_fx( IF( EQ_32( st_fx->output_Fs, 48000 ) ) { - interpolate_3_over_2_allpass_fx( shb_synth_fx, L_FRAME32k, shb_synth_fx, st_fx->interpol_3_2_cng_dec_fx, allpass_poles_3_ov_2 ); + interpolate_3_over_2_allpass_fx( shb_synth_fx, L_FRAME32k, shb_synth_fx, hTdCngDec->interpol_3_2_cng_dec_fx, allpass_poles_3_ov_2 ); } -#ifdef IVAS_CODE_CNG - ResetSHBbuffer_Dec( st->hBWE_TD, st->extl ); -#else - ResetSHBbuffer_Dec_fx( st_fx ); -#endif + + ResetSHBbuffer_Dec_fx( st_fx->hBWE_TD, st_fx->extl ); return; } @@ -1744,6 +1731,7 @@ static void shb_CNG_decod_ivas_fx( { Word16 i; Word16 idx_ener; + TD_CNG_DEC_HANDLE hTdCngDec; Word16 shb_lpcCNG_fx[LPC_SHB_ORDER + 1]; Word16 shb_lspCNG_fx[LPC_SHB_ORDER]; Word16 excTmp_fx[L_FRAME16k]; @@ -1765,7 +1753,9 @@ static void shb_CNG_decod_ivas_fx( Word16 allow_cn_step_fx; Word16 q; TD_BWE_DEC_HANDLE hBWE_TD; + hBWE_TD = st->hBWE_TD; + hTdCngDec = st->hTdCngDec; allow_cn_step_fx = 0; move16(); @@ -1785,37 +1775,37 @@ static void shb_CNG_decod_ivas_fx( /* de-quantization of SHB CNG parameters */ IF( st->element_mode == EVS_MONO ) { - st->hTdCngDec->last_shb_cng_ener_fx_32 = L_sub( L_mult0( idx_ener, 6850 ), 36991 ); // Q11 + hTdCngDec->last_shb_cng_ener_fx_32 = L_sub( L_mult0( idx_ener, 6850 ), 36991 ); // Q11 move32(); } ELSE { - st->hTdCngDec->last_shb_cng_ener_fx_32 = L_sub( L_mult0( idx_ener, 8807 ), 36991 ); // Q11 + hTdCngDec->last_shb_cng_ener_fx_32 = L_sub( L_mult0( idx_ener, 8807 ), 36991 ); // Q11 move32(); } } } /* SHB spectrum estimation */ - interp_fx = s_min( st->hTdCngDec->shb_dtx_count, 32 ); + interp_fx = s_min( hTdCngDec->shb_dtx_count_fx, 32 ); interp_fx = shl_sat( interp_fx, 10 ); /*Q15*/ FOR( i = 0; i < LPC_SHB_ORDER; i++ ) { - shb_lspCNG_fx[i] = add( mult_r( interp_fx, st->hTdCngDec->lsp_shb_prev_fx[i] ), mult_r( sub( 32767, interp_fx ), st->hTdCngDec->lsp_shb_prev_prev_fx[i] ) ); // Q14 + shb_lspCNG_fx[i] = add( mult_r( interp_fx, hTdCngDec->lsp_shb_prev_fx[i] ), mult_r( sub( 32767, interp_fx ), hTdCngDec->lsp_shb_prev_prev_fx[i] ) ); // Q14 move16(); } - IF( LE_16( st->hTdCngDec->shb_dtx_count, 1000 ) ) + IF( LE_16( hTdCngDec->shb_dtx_count_fx, 1000 ) ) { - st->hTdCngDec->shb_dtx_count = add( st->hTdCngDec->shb_dtx_count, 1 ); + hTdCngDec->shb_dtx_count_fx = add( hTdCngDec->shb_dtx_count_fx, 1 ); move16(); } E_LPC_lsf_lsp_conversion( shb_lspCNG_fx, tmp_lsp, LPC_SHB_ORDER ); /*Q14*/ E_LPC_f_lsp_a_conversion( tmp_lsp, shb_lpcCNG_fx, LPC_SHB_ORDER ); - Copy_Scale_sig( shb_lpcCNG_fx, st->hTdCngDec->shb_lpcCNG_fx, LPC_SHB_ORDER + 1, sub( norm_s( shb_lpcCNG_fx[0] ), -1 ) ); /* Q15 */ + Copy_Scale_sig( shb_lpcCNG_fx, hTdCngDec->shb_lpcCNG_fx, LPC_SHB_ORDER + 1, sub( norm_s( shb_lpcCNG_fx[0] ), -1 ) ); /* Q15 */ Copy_Scale_sig( shb_lpcCNG_fx, shb_lpcCNG_fx, LPC_SHB_ORDER + 1, sub( norm_s( shb_lpcCNG_fx[0] ), 2 ) ); /* Q12 */ @@ -1836,10 +1826,10 @@ static void shb_CNG_decod_ivas_fx( Word32 wb_ener32_fx = L_shl( wb_ener16_fx, 3 ); /*wb_ener_fx in Q11 */ if ( EQ_16( st->first_CNG, 0 ) ) { - st->hTdCngDec->wb_cng_ener_fx_32 = wb_ener32_fx; + hTdCngDec->wb_cng_ener_fx_32 = wb_ener32_fx; move32(); /*Q11 */ } - if ( GT_32( L_abs( L_sub( wb_ener32_fx, st->hTdCngDec->wb_cng_ener_fx_32 ) ), 24576 ) ) /* 12.0f in Q11 */ + if ( GT_32( L_abs( L_sub( wb_ener32_fx, hTdCngDec->wb_cng_ener_fx_32 ) ), 24576 ) ) /* 12.0f in Q11 */ { allow_cn_step_fx = 1; move16(); @@ -1847,52 +1837,52 @@ static void shb_CNG_decod_ivas_fx( IF( EQ_16( allow_cn_step_fx, 1 ) ) { - st->hTdCngDec->wb_cng_ener_fx_32 = wb_ener32_fx; + hTdCngDec->wb_cng_ener_fx_32 = wb_ener32_fx; move32(); /*Q11 */ } ELSE { - tmp = L_sub( wb_ener32_fx, st->hTdCngDec->wb_cng_ener_fx_32 ); /*Q11 */ - tmp = Mpy_32_16_1( tmp, 29491 ); /*Q11 */ - st->hTdCngDec->wb_cng_ener_fx_32 = L_add( st->hTdCngDec->wb_cng_ener_fx_32, tmp ); /*Q11 */ + tmp = L_sub( wb_ener32_fx, hTdCngDec->wb_cng_ener_fx_32 ); /*Q11 */ + tmp = Mpy_32_16_1( tmp, 29491 ); /*Q11 */ + hTdCngDec->wb_cng_ener_fx_32 = L_add( hTdCngDec->wb_cng_ener_fx_32, tmp ); /*Q11 */ move32(); } test(); test(); IF( EQ_32( st->core_brate, SID_2k40 ) && EQ_16( sid_bw, 1 ) && EQ_16( st->bfi, 0 ) ) { - st->hTdCngDec->last_wb_cng_ener_fx_32 = st->hTdCngDec->wb_cng_ener_fx_32; /* Q11 */ + hTdCngDec->last_wb_cng_ener_fx_32 = hTdCngDec->wb_cng_ener_fx_32; /* Q11 */ move32(); if ( !st->first_CNG ) { - st->hTdCngDec->shb_cng_ener_fx_32 = st->hTdCngDec->last_shb_cng_ener_fx_32; /* Q11 */ + hTdCngDec->shb_cng_ener_fx_32 = hTdCngDec->last_shb_cng_ener_fx_32; /* Q11 */ move32(); } } - gain_fx = L_sub( st->hTdCngDec->wb_cng_ener_fx_32, st->hTdCngDec->last_wb_cng_ener_fx_32 ); /*Q11 */ + gain_fx = L_sub( hTdCngDec->wb_cng_ener_fx_32, hTdCngDec->last_wb_cng_ener_fx_32 ); /*Q11 */ if ( GT_32( gain_fx, 30720 ) ) { gain_fx = 30720; move32(); } - step_fx = L_sub( L_add( gain_fx, st->hTdCngDec->last_shb_cng_ener_fx_32 ), st->hTdCngDec->shb_cng_ener_fx_32 ); /*Q11 */ + step_fx = L_sub( L_add( gain_fx, hTdCngDec->last_shb_cng_ener_fx_32 ), hTdCngDec->shb_cng_ener_fx_32 ); /*Q11 */ test(); IF( EQ_16( allow_cn_step_fx, 1 ) || GT_32( st->last_core_brate, SID_2k40 ) ) { - st->hTdCngDec->shb_cng_ener_fx_32 = L_add( st->hTdCngDec->shb_cng_ener_fx_32, step_fx ); /* Q11 */ + hTdCngDec->shb_cng_ener_fx_32 = L_add( hTdCngDec->shb_cng_ener_fx_32, step_fx ); /* Q11 */ move32(); } ELSE { - st->hTdCngDec->shb_cng_ener_fx_32 = L_add( st->hTdCngDec->shb_cng_ener_fx_32, L_shr( step_fx, 2 ) ); /*Q11 */ + hTdCngDec->shb_cng_ener_fx_32 = L_add( hTdCngDec->shb_cng_ener_fx_32, L_shr( step_fx, 2 ) ); /*Q11 */ move32(); } /* generate white noise excitation */ FOR( i = 0; i < L_FRAME16k; i++ ) { - excTmp_fx[i] = shr_r( Random( &st->hTdCngDec->swb_cng_seed ), 8 ); + excTmp_fx[i] = shr_r( Random( &hTdCngDec->swb_cng_seed ), 8 ); move16(); /*Q-8*/ } @@ -1911,29 +1901,26 @@ static void shb_CNG_decod_ivas_fx( L_tmp = L_shl( L_tmp, q ); q = sub( q, 32 ); ener_excSHB_fx = round_fx( L_tmp ); /*Qq */ -#ifdef MSAN_FIX + IF( EQ_16( st->last_vad_fx, 1 ) ) -#else - IF( EQ_16( st->last_vad, 1 ) ) -#endif { - st->hTdCngDec->trans_cnt = 0; + hTdCngDec->trans_cnt_fx = 0; move16(); test(); - if ( GT_16( st->hTdCngDec->burst_cnt, 3 ) && NE_16( st->last_core, HQ_CORE ) ) + if ( GT_16( hTdCngDec->burst_cnt_fx, 3 ) && NE_16( st->last_core, HQ_CORE ) ) { - st->hTdCngDec->trans_cnt = 5; + hTdCngDec->trans_cnt_fx = 5; move16(); } } - ener_fx = st->hTdCngDec->shb_cng_ener_fx_32; + ener_fx = hTdCngDec->shb_cng_ener_fx_32; move32(); /*Q11 */ - IF( GT_16( st->hTdCngDec->trans_cnt, 0 ) ) + IF( GT_16( st->hTdCngDec->trans_cnt_fx, 0 ) ) { - i = extract_l( L_mult0( st->hTdCngDec->trans_cnt, 17 ) ); /*Q0 */ - ener_fx = L_add( st->hTdCngDec->shb_cng_ener_fx_32, Mpy_32_16_1( L_sub( st->hTdCngDec->last_shb_ener_fx, st->hTdCngDec->shb_cng_ener_fx_32 ), sin_table256_fx[i] ) ); /*Q11 */ - st->hTdCngDec->trans_cnt = sub( st->hTdCngDec->trans_cnt, 1 ); + i = extract_l( L_mult0( hTdCngDec->trans_cnt_fx, 17 ) ); /*Q0 */ + ener_fx = L_add( hTdCngDec->shb_cng_ener_fx_32, Mpy_32_16_1( L_sub( hTdCngDec->last_shb_ener_fx_32, hTdCngDec->shb_cng_ener_fx_32 ), sin_table256_fx[i] ) ); /*Q11 */ + hTdCngDec->trans_cnt_fx = sub( hTdCngDec->trans_cnt_fx, 1 ); move16(); } @@ -1975,7 +1962,7 @@ static void shb_CNG_decod_ivas_fx( L_tmp = L_deposit_h( tmp_16 ); /*Q31 */ tmp_16 = sub( add( 5, exp ), add( q, exp1 ) ); L_gain_fx = Isqrt_lc( L_tmp, &tmp_16 ); /*Q31-Qtmp */ - st->hTdCngDec->shb_cng_gain_fx_32 = ener_fx; + hTdCngDec->shb_cng_gain_fx_32 = ener_fx; move32(); FOR( i = 0; i < L_FRAME16k; i++ ) { @@ -1989,13 +1976,13 @@ static void shb_CNG_decod_ivas_fx( /* rescale the Hilbert memories to Q0 */ FOR( i = 0; i < HILBERT_MEM_SIZE; i++ ) { - hBWE_TD->genSHBsynth_Hilbert_Mem_fx[i] = L_shr( hBWE_TD->genSHBsynth_Hilbert_Mem_fx[i], st->prev_Q_bwe_syn2 ); /* st_fx->prev_Q_bwe_syn2 */ + hBWE_TD->genSHBsynth_Hilbert_Mem_fx[i] = L_shr( hBWE_TD->genSHBsynth_Hilbert_Mem_fx[i], hBWE_TD->prev_Q_bwe_syn2 ); /* hBWE_TD->prev_Q_bwe_syn2 */ move32(); } FOR( i = 0; i < 2 * ALLPASSSECTIONS_STEEP; i++ ) { - hBWE_TD->genSHBsynth_state_lsyn_filt_shb_local_fx[i] = shr( hBWE_TD->genSHBsynth_state_lsyn_filt_shb_local_fx[i], st->prev_Q_bwe_syn2 ); /* st_fx->prev_Q_bwe_syn2 */ + hBWE_TD->genSHBsynth_state_lsyn_filt_shb_local_fx[i] = shr( hBWE_TD->genSHBsynth_state_lsyn_filt_shb_local_fx[i], hBWE_TD->prev_Q_bwe_syn2 ); /* hBWE_TD->prev_Q_bwe_syn2 */ move16(); } } @@ -2003,11 +1990,13 @@ static void shb_CNG_decod_ivas_fx( IF( EQ_32( st->output_Fs, 48000 ) ) { - interpolate_3_over_2_allpass_fx( shb_synth_fx, L_FRAME32k, shb_synth_fx, st->interpol_3_2_cng_dec_fx, allpass_poles_3_ov_2 ); + interpolate_3_over_2_allpass_fx( shb_synth_fx, L_FRAME32k, shb_synth_fx, hTdCngDec->interpol_3_2_cng_dec_fx, allpass_poles_3_ov_2 ); } Scale_sig( shb_synth_fx, L_FRAME48k, -3 ); /* Qx - 3 */ - ResetSHBbuffer_Dec_fx( st ); + + ResetSHBbuffer_Dec_fx( st->hBWE_TD, st->extl ); + return; } @@ -2020,96 +2009,6 @@ static void shb_CNG_decod_ivas_fx( void td_cng_dec_init_fx( DEC_CORE_HANDLE st /* i/o: decoder state structure */ ) -{ - TD_CNG_DEC_HANDLE hTdCngDec; - - hTdCngDec = st->hTdCngDec; - - hTdCngDec->cng_seed = RANDOM_INITSEED; - move16(); - hTdCngDec->cng_ener_seed = RANDOM_INITSEED; - move16(); - hTdCngDec->cng_ener_seed1 = RANDOM_INITSEED; - move16(); - hTdCngDec->old_enr_index = -1; - move16(); - hTdCngDec->Enew_fx = L_deposit_l( 0 ); /* Q6*/ - move16(); - hTdCngDec->last_allow_cn_step = 0; - move16(); -#ifdef IVAS_CODE_CNG - // mvr2r(st->lsp_old, st->lspCNG, M); - // hTdCngDec->shb_cng_ener = -6.02f; - IF( st->element_mode != EVS_MONO ) - { - // set_f(hTdCngDec->shb_lpcCNG, 0.0f, LPC_SHB_ORDER + 1); - // hTdCngDec->shb_lpcCNG[0] = 1.0f; - // hTdCngDec->shb_cng_gain = -82.0; /* a dB value approximately corresponding to shb index 0(used as index -15) */ - } - // hTdCngDec->wb_cng_ener = -6.02f; - // hTdCngDec->last_wb_cng_ener = -6.02f; - // hTdCngDec->last_shb_cng_ener = -6.02f; - // hTdCngDec->swb_cng_seed = RANDOM_INITSEED; -#endif - hTdCngDec->ho_hist_ptr = -1; - move16(); - hTdCngDec->ho_sid_bw = L_deposit_l( 0 ); - move16(); - set16_fx( hTdCngDec->ho_lsp_hist_fx, 0, HO_HIST_SIZE * M ); - set32_fx( hTdCngDec->ho_ener_hist_fx, 0, HO_HIST_SIZE ); - set32_fx( hTdCngDec->ho_env_hist_fx, 0, HO_HIST_SIZE * NUM_ENV_CNG ); - hTdCngDec->ho_hist_size = 0; - move16(); - hTdCngDec->act_cnt = 0; - move16(); - hTdCngDec->ho_circ_ptr = -1; - move16(); - set16_fx( hTdCngDec->ho_lsp_circ_fx, 0, HO_HIST_SIZE * M ); - set32_fx( hTdCngDec->ho_ener_circ_fx, 0, HO_HIST_SIZE ); - set32_fx( hTdCngDec->ho_env_circ_fx, 0, HO_HIST_SIZE * NUM_ENV_CNG ); - hTdCngDec->ho_circ_size = 0; - move16(); - - set16_fx( hTdCngDec->ho_16k_lsp, 0, HO_HIST_SIZE ); - hTdCngDec->act_cnt2 = 0; - move16(); - hTdCngDec->num_ho = 0; - move16(); - hTdCngDec->last_cng_type_fx = -1; - move16(); - set32_fx( hTdCngDec->lp_env_fx, 0, NUM_ENV_CNG ); - set16_fx( hTdCngDec->exc_mem_fx, 0, 24 ); - set16_fx( hTdCngDec->exc_mem1_fx, 0, 30 ); - set32_fx( hTdCngDec->old_env_fx, 0, NUM_ENV_CNG ); -#ifdef IVAS_CODE_CNG - // st->CNG_mode = -1; - // for (i = 0; i < LPC_SHB_ORDER; i++) - //{ - // IF (st->element_mode != EVS_MONO) - // { - // hTdCngDec->lsp_shb_prev[i] = 0.5f * ((float)(i + 1)) / ((float)(LPC_SHB_ORDER + 1)); - // } - // else - // { - // hTdCngDec->lsp_shb_prev[i] = 0.5f * ((float)i) / ((float)LPC_SHB_ORDER); - // } - // hTdCngDec->lsp_shb_prev_prev[i] = hTdCngDec->lsp_shb_prev[i]; - // } - - // hTdCngDec->shb_dtx_count = 0; - // hTdCngDec->trans_cnt = 0; - // hTdCngDec->last_shb_ener = 0.001f; - // set_f(hTdCngDec->interpol_3_2_cng_dec, 0.0f, INTERP_3_2_MEM_LEN); -#endif - hTdCngDec->burst_cnt = 0; - move16(); - - return; -} - -void td_cng_dec_init_ivas_fx( - DEC_CORE_HANDLE st /* i/o: decoder state structure */ -) { Word16 i; TD_CNG_DEC_HANDLE hTdCngDec; @@ -2129,6 +2028,8 @@ void td_cng_dec_init_ivas_fx( Copy( st->lsp_old_fx, st->lspCNG_fx, M ); // Q(15) hTdCngDec->last_allow_cn_step = 0; move16(); + hTdCngDec->shb_cng_ener_fx = -1541; // Q8 + move16(); hTdCngDec->shb_cng_ener_fx_32 = -12329; // -6.02 in Q(11) move32(); IF( st->element_mode != EVS_MONO ) @@ -2140,10 +2041,16 @@ void td_cng_dec_init_ivas_fx( move32(); } + hTdCngDec->wb_cng_ener_fx = -1541; // Q8 + move16(); hTdCngDec->wb_cng_ener_fx_32 = -12329; // Q(11) move32(); + hTdCngDec->last_wb_cng_ener_fx = -1541; // Q8 + move16(); hTdCngDec->last_wb_cng_ener_fx_32 = -12329; // Q(11) move32(); + hTdCngDec->last_shb_cng_ener_fx = -1541; // Q8 + move16(); hTdCngDec->last_shb_cng_ener_fx_32 = -12329; // Q(11) move32(); hTdCngDec->swb_cng_seed = RANDOM_INITSEED; @@ -2195,17 +2102,18 @@ void td_cng_dec_init_ivas_fx( move16(); } - hTdCngDec->shb_dtx_count = 0; + hTdCngDec->shb_dtx_count_fx = 0; move16(); - hTdCngDec->trans_cnt = 0; + hTdCngDec->trans_cnt_fx = 0; move16(); - hTdCngDec->burst_cnt = 0; + hTdCngDec->burst_cnt_fx = 0; move16(); - hTdCngDec->last_shb_ener_fx = 2; // 0.001 in Q11 + hTdCngDec->last_shb_ener_fx = 0; // Q8 + move16(); + hTdCngDec->last_shb_ener_fx_32 = 2; // 0.001 in Q11 move32(); - set16_fx( hTdCngDec->interpol_3_2_cng_dec_fx, 0, INTERP_3_2_MEM_LEN ); return; diff --git a/lib_dec/core_dec_init.c b/lib_dec/core_dec_init.c deleted file mode 100644 index 37c397bbf8c4ba8044d86fd7d321d3f04956186e..0000000000000000000000000000000000000000 --- a/lib_dec/core_dec_init.c +++ /dev/null @@ -1,84 +0,0 @@ -/****************************************************************************************************** - - (C) 2022-2025 IVAS codec Public Collaboration with portions copyright Dolby International AB, Ericsson AB, - Fraunhofer-Gesellschaft zur Foerderung der angewandten Forschung e.V., Huawei Technologies Co. LTD., - Koninklijke Philips N.V., Nippon Telegraph and Telephone Corporation, Nokia Technologies Oy, Orange, - Panasonic Holdings Corporation, Qualcomm Technologies, Inc., VoiceAge Corporation, and other - contributors to this repository. All Rights Reserved. - - This software is protected by copyright law and by international treaties. - The IVAS codec Public Collaboration consisting of Dolby International AB, Ericsson AB, - Fraunhofer-Gesellschaft zur Foerderung der angewandten Forschung e.V., Huawei Technologies Co. LTD., - Koninklijke Philips N.V., Nippon Telegraph and Telephone Corporation, Nokia Technologies Oy, Orange, - Panasonic Holdings Corporation, Qualcomm Technologies, Inc., VoiceAge Corporation, and other - contributors to this repository retain full ownership rights in their respective contributions in - the software. This notice grants no license of any kind, including but not limited to patent - license, nor is any license granted by implication, estoppel or otherwise. - - Contributors are required to enter into the IVAS codec Public Collaboration agreement before making - contributions. - - This software is provided "AS IS", without any express or implied warranties. The software is in the - development stage. It is intended exclusively for experts who have experience with such software and - solely for the purpose of inspection. All implied warranties of non-infringement, merchantability - and fitness for a particular purpose are hereby disclaimed and excluded. - - Any dispute, controversy or claim arising under or in relation to providing this software shall be - submitted to and settled by the final, binding jurisdiction of the courts of Munich, Germany in - accordance with the laws of the Federal Republic of Germany excluding its conflict of law rules and - the United Nations Convention on Contracts on the International Sales of Goods. - -*******************************************************************************************************/ - -/*==================================================================================== - EVS Codec 3GPP TS26.443 Nov 04, 2021. Version 12.14.0 / 13.10.0 / 14.6.0 / 15.4.0 / 16.3.0 - ====================================================================================*/ - -#include -#include "options.h" -#include "stat_com.h" -#include "cnst.h" -#include "prot.h" -#include "rom_com.h" -#include "wmc_auto.h" -#include "prot_fx.h" -/*-----------------------------------------------------------------------* - * open_decoder_LPD() - * - * Initialization of state variables - *-----------------------------------------------------------------------*/ -/*-----------------------------------------------------------------------* - * tcxltp_dec_init() - * - * Initialization TCX-LTP handle - *-----------------------------------------------------------------------*/ -/*-----------------------------------------------------------------------* - * reset_tcx_overl_buf() - * - * Reset TCX core overlap buffers - *-----------------------------------------------------------------------*/ - -void reset_tcx_overl_buf_fx( - TCX_DEC_HANDLE hTcxDec /* i/o: TCX decoder handle */ -) -{ - set16_fx( hTcxDec->old_syn_Overl, 0, L_FRAME32k / 2 ); /*HQ-CORE(bfi)->TCX don't need it*/ - hTcxDec->Q_old_syn_Overl = 0; - move16(); - set16_fx( hTcxDec->syn_Overl_TDAC, 0, L_FRAME32k / 2 ); /*HQ-CORE(bfi)->TCX don't need it*/ - hTcxDec->Q_syn_Overl_TDAC = 0; - move16(); - set16_fx( hTcxDec->syn_Overl, 0, L_FRAME32k / 2 ); /*HQ-CORE(bfi)->TCX don't need it*/ - hTcxDec->Q_syn_Overl = 0; - move16(); - set16_fx( hTcxDec->syn_Overl_TDACFB, 0, L_FRAME_MAX / 2 ); /*HQ-CORE(bfi)->TCX don't need it*/ - hTcxDec->Q_syn_Overl_TDACFB = 0; - move16(); - return; -} - -/*-----------------------------------------------------------------------* - * acelp_plc_mdct_transition() - * - * Prepare MDCT OLA memories in TCX/HQ after ACELP PLC - *-----------------------------------------------------------------------*/ diff --git a/lib_dec/core_dec_init_fx.c b/lib_dec/core_dec_init_fx.c index 671dbfd2ca520671ad8ab10abb004f32f8b055f2..967a93bfbb1a0f63da3846387ed0f3b0ccfb998e 100644 --- a/lib_dec/core_dec_init_fx.c +++ b/lib_dec/core_dec_init_fx.c @@ -7,7 +7,6 @@ #include #include #include "options.h" -#include "prot.h" #include "prot_fx.h" #include "basop_util.h" #include "rom_com.h" @@ -837,7 +836,7 @@ void open_decoder_LPD_fx( st->Mode2_lp_gainp = L_deposit_l( 0 ); /* 15Q16 */ move32(); - st->prev_widow_left_rect = 0; + st->hTcxDec->prev_widow_left_rect = 0; move16(); if ( st->hTcxDec != NULL ) { @@ -1030,33 +1029,29 @@ void open_decoder_LPD_fx( test(); IF( EQ_16( st->ini_frame, 0 ) || LT_32( st->last_total_brate, HQ_48k ) || EQ_16( st->last_codec_mode, MODE1 ) || st->force_lpd_reset ) { - concealment_init_x( hTcxDec->L_frameTCX, &st->plcInfo ); + concealment_init_x( hTcxDec->L_frameTCX, st->hPlcInfo ); } } /* PLC: [TCX: Tonal Concealment] */ -#if 0 - PMT("handle to tonalMDCTconceal is missing") -#endif - //#ifdef ADD_IVAS_HTONALMDCTCONC test(); test(); - IF( /*st->ADD_IVAS_HTONALMDCTCONC != NULL &&*/ !( st->element_mode > EVS_MONO && NE_16( st->ini_frame, 0 ) && EQ_16( st->tonalMDCTconceal.nSamples, st->hTcxDec->L_frameTCX ) ) ) + IF( st->hTonalMDCTConc != NULL && !( st->element_mode > EVS_MONO && NE_16( st->ini_frame, 0 ) && EQ_16( st->hTonalMDCTConc->nSamples, st->hTcxDec->L_frameTCX ) ) ) { - st->tonalMDCTconceal.nScaleFactors = 0; + st->hTonalMDCTConc->nScaleFactors = 0; move16(); - st->tonalMDCTconceal.nSamples = 0; + st->hTonalMDCTConc->nSamples = 0; move16(); - st->tonalMDCTconceal.lastPcmOut = 0x0; + st->hTonalMDCTConc->lastPcmOut = 0x0; move16(); - st->tonalMDCTconceal.q_lastPcmOut = Q15; + st->hTonalMDCTConc->q_lastPcmOut = Q15; move16(); - st->tonalMDCTconceal.lastBlockData.tonalConcealmentActive = 0; + st->hTonalMDCTConc->lastBlockData.tonalConcealmentActive = 0; move16(); - st->tonalMDCTconceal.lastBlockData.nSamples = 0; + st->hTonalMDCTConc->lastBlockData.nSamples = 0; move16(); - TonalMDCTConceal_Init( &st->tonalMDCTconceal, hTcxDec->L_frameTCX, st->L_frame, FDNS_NPTS, st->hTcxCfg ); + TonalMDCTConceal_Init( st->hTonalMDCTConc, hTcxDec->L_frameTCX, st->L_frame, FDNS_NPTS, st->hTcxCfg ); } st->last_tns_active = 0; move16(); @@ -2191,3 +2186,28 @@ void open_decoder_LPD_ivas_fx( return; } + +/*-----------------------------------------------------------------------* + * reset_tcx_overl_buf() + * + * Reset TCX core overlap buffers + *-----------------------------------------------------------------------*/ + +void reset_tcx_overl_buf_fx( + TCX_DEC_HANDLE hTcxDec /* i/o: TCX decoder handle */ +) +{ + set16_fx( hTcxDec->old_syn_Overl, 0, L_FRAME32k / 2 ); /*HQ-CORE(bfi)->TCX don't need it*/ + hTcxDec->Q_old_syn_Overl = 0; + move16(); + set16_fx( hTcxDec->syn_Overl_TDAC, 0, L_FRAME32k / 2 ); /*HQ-CORE(bfi)->TCX don't need it*/ + hTcxDec->Q_syn_Overl_TDAC = 0; + move16(); + set16_fx( hTcxDec->syn_Overl, 0, L_FRAME32k / 2 ); /*HQ-CORE(bfi)->TCX don't need it*/ + hTcxDec->Q_syn_Overl = 0; + move16(); + set16_fx( hTcxDec->syn_Overl_TDACFB, 0, L_FRAME_MAX / 2 ); /*HQ-CORE(bfi)->TCX don't need it*/ + hTcxDec->Q_syn_Overl_TDACFB = 0; + move16(); + return; +} diff --git a/lib_dec/core_dec_switch_fx.c b/lib_dec/core_dec_switch_fx.c index c7d2c526574e7a61c710be168e72836de7c5b81b..63c35f876e3da1d41836c8b99f588463a42c8502 100644 --- a/lib_dec/core_dec_switch_fx.c +++ b/lib_dec/core_dec_switch_fx.c @@ -8,7 +8,6 @@ #include "basop_util.h" #include "prot_fx.h" #include "rom_com.h" -#include "prot.h" void mode_switch_decoder_LPD_fx( Decoder_State *st, /* i/o: decoder state structure */ @@ -198,11 +197,7 @@ void mode_switch_decoder_LPD_fx( ( EQ_16( st->bwidth, SWB ) && NE_16( st->last_extl, SWB_TBE ) ) || ( EQ_16( st->bwidth, FB ) && NE_16( st->last_extl, FB_TBE ) ) ) { -#ifdef IVAS_CODE TBEreset_dec_fx( st ); -#else - TBEreset_dec_fx( st, st->bwidth ); -#endif } ELSE { @@ -446,7 +441,7 @@ void mode_switch_decoder_LPD_ivas_fx( ( EQ_16( st->bwidth, SWB ) && NE_16( st->last_extl, SWB_TBE ) ) || ( EQ_16( st->bwidth, FB ) && NE_16( st->last_extl, FB_TBE ) ) ) { - TBEreset_dec_ivas_fx( st ); + TBEreset_dec_fx( st ); } ELSE { diff --git a/lib_dec/core_switching_dec.c b/lib_dec/core_switching_dec.c deleted file mode 100644 index 4c48a6fa870f591d77cb92bb17d7ba477ad7da55..0000000000000000000000000000000000000000 --- a/lib_dec/core_switching_dec.c +++ /dev/null @@ -1,1076 +0,0 @@ -/****************************************************************************************************** - - (C) 2022-2025 IVAS codec Public Collaboration with portions copyright Dolby International AB, Ericsson AB, - Fraunhofer-Gesellschaft zur Foerderung der angewandten Forschung e.V., Huawei Technologies Co. LTD., - Koninklijke Philips N.V., Nippon Telegraph and Telephone Corporation, Nokia Technologies Oy, Orange, - Panasonic Holdings Corporation, Qualcomm Technologies, Inc., VoiceAge Corporation, and other - contributors to this repository. All Rights Reserved. - - This software is protected by copyright law and by international treaties. - The IVAS codec Public Collaboration consisting of Dolby International AB, Ericsson AB, - Fraunhofer-Gesellschaft zur Foerderung der angewandten Forschung e.V., Huawei Technologies Co. LTD., - Koninklijke Philips N.V., Nippon Telegraph and Telephone Corporation, Nokia Technologies Oy, Orange, - Panasonic Holdings Corporation, Qualcomm Technologies, Inc., VoiceAge Corporation, and other - contributors to this repository retain full ownership rights in their respective contributions in - the software. This notice grants no license of any kind, including but not limited to patent - license, nor is any license granted by implication, estoppel or otherwise. - - Contributors are required to enter into the IVAS codec Public Collaboration agreement before making - contributions. - - This software is provided "AS IS", without any express or implied warranties. The software is in the - development stage. It is intended exclusively for experts who have experience with such software and - solely for the purpose of inspection. All implied warranties of non-infringement, merchantability - and fitness for a particular purpose are hereby disclaimed and excluded. - - Any dispute, controversy or claim arising under or in relation to providing this software shall be - submitted to and settled by the final, binding jurisdiction of the courts of Munich, Germany in - accordance with the laws of the Federal Republic of Germany excluding its conflict of law rules and - the United Nations Convention on Contracts on the International Sales of Goods. - -*******************************************************************************************************/ - -/*==================================================================================== - EVS Codec 3GPP TS26.443 Nov 04, 2021. Version 12.14.0 / 13.10.0 / 14.6.0 / 15.4.0 / 16.3.0 - ====================================================================================*/ - -#include -#include "options.h" -#include -#include "cnst.h" -#include "rom_com.h" -#include "prot.h" -#include "prot_fx.h" -#include "ivas_cnst.h" -#include "wmc_auto.h" - -#include "ivas_prot_fx.h" -#include "debug.h" -/*---------------------------------------------------------------------* - * Local prototypes - *---------------------------------------------------------------------*/ - - -/*---------------------------------------------------------------------* - * core_switching_pre_dec() - * - * Preprocessing/preparation for ACELP/HQ core switching - *---------------------------------------------------------------------*/ -ivas_error core_switching_pre_dec_ivas_fx( - Decoder_State *st, /* i/o: decoder state structure */ - const Word16 output_frame, /* i : frame length */ - const Word32 last_core_brate_st0, /* i : channel 0 last core bitrate */ - const Word16 nchan_out, /* i : number of output channels */ - const Word16 last_element_mode, /* i : last_element_mode */ - const Word32 last_element_brate, /* i : last element bitrate */ - Word16 Q_old_synthFB, - Word16 *Q_olapBufferSynth, - Word16 *Q_olapBufferSynth2 ) -{ - Word32 tmp_fx; /*Q-12*/ - Word16 i, oldLenClasBuff, newLenClasBuff; - ivas_error error; - Word16 exp = 25; - move16(); - error = IVAS_ERR_OK; - move32(); - - /* Codec mode switching */ - test(); - test(); - test(); - IF( EQ_16( st->last_codec_mode, MODE2 ) || ( ( EQ_16( st->last_core, TCX_20_CORE ) || EQ_16( st->last_core, TCX_10_CORE ) ) && ( st->element_mode > EVS_MONO ) ) ) - { - st->mem_deemph_fx = st->syn[M]; - move16(); - set16_fx( st->agc_mem_fx, 0, 2 ); - Scale_sig( &( st->mem_deemph_fx ), 1, st->Q_syn ); /* Brings mem_deemph to Qsyn */ - - Copy_Scale_sig( st->mem_syn2_fx, st->mem_syn1_fx, M, sub( -1, st->Q_syn ) ); /*Q-1*/ - - st->bpf_off = 1; - move16(); - IF( st->hPFstat != NULL ) - { - Scale_sig( st->hPFstat->mem_pf_in, L_SUBFR, st->Q_syn ); /* Post_filter mem ,Q_syn*/ - Scale_sig( st->hPFstat->mem_res2, DECMEM_RES2, st->Q_syn ); /* NB post_filter mem , Q_syn*/ - Scale_sig( st->hPFstat->mem_stp, L_SUBFR, st->Q_syn ); /* Post_filter mem ,Q_syn*/ - set16_fx( st->hBPF->pst_old_syn_fx, 0, NBPSF_PIT_MAX ); /* BPF mem*/ - } - IF( st->hBPF != NULL ) - { - st->hBPF->pst_lp_ener_fx = round_fx( L_shl( Mpy_32_16_1( st->lp_error_ener, 0x6054 ), 2 + 8 ) ); /* convert from 15Q16, log2 -> 7Q8 10*log10 */ - st->hBPF->pst_mem_deemp_err_fx = 0; - move16(); - move16(); - } - st->psf_lp_noise_fx = round_fx( L_shl( st->lp_noise, 1 ) ); // Q(23+1-16)->Q8 - move16(); - - /* reset old HB synthesis buffer */ - IF( EQ_16( st->last_L_frame, L_FRAME ) ) - { - st->old_bwe_delay = NS2SA( st->output_Fs, MAX_DELAY_TBE_NS - DELAY_SWB_TBE_12k8_NS ); - } - ELSE - { - st->old_bwe_delay = NS2SA( st->output_Fs, MAX_DELAY_TBE_NS - DELAY_SWB_TBE_16k_NS ); - } - move16(); - set16_fx( st->hb_prev_synth_buffer_fx, 0, NS2SA( 48000, DELAY_BWE_TOTAL_NS ) ); - - test(); - IF( st->hBWE_TD != NULL && ( st->last_core != ACELP_CORE ) ) - { -#ifdef MSAN_FIX - st->hBWE_TD->prev_hb_synth_fx_exp = 31; - move16(); -#endif // MSAN_FIX - /* reset BWE memories */ - set16_fx( st->hBWE_TD->old_bwe_exc_fx, 0, PIT16k_MAX * 2 ); - st->hBWE_TD->bwe_non_lin_prev_scale_fx = 0; - move32(); - } - - /* reset upd_cnt */ - st->upd_cnt = MAX_UPD_CNT; - move16(); - - st->igf = 0; - move16(); - - test(); - IF( GT_32( st->output_Fs, 16000 ) && st->hBWE_zero != NULL ) - { - hf_synth_reset_fx( st->hBWE_zero ); -#ifdef MSAN_FIX - set16_fx( st->hBWE_zero->mem_hp400_fx, 0, 6 ); -#endif - } - - IF( st->hBWE_FD != NULL ) - { - set16_fx( st->hBWE_FD->old_syn_12k8_16k_fx, 0, NS2SA( 16000, DELAY_FD_BWE_ENC_NS ) ); - } - - IF( st->hHQ_core != NULL ) - { - set32_fx( st->hHQ_core->prev_env_fx, 0, SFM_N_WB ); - set32_fx( st->hHQ_core->prev_normq_fx, 0, SFM_N_WB ); - - set32_fx( st->hHQ_core->last_ni_gain_fx, 0, BANDS_MAX ); - set16_fx( st->hHQ_core->last_env_fx, 0, BANDS_MAX ); - - st->hHQ_core->last_max_pos_pulse = 0; - move16(); - - IF( GT_32( st->output_Fs, 16000 ) ) - { - set32_fx( st->hHQ_core->prev_coeff_out_fx, 0, L_HQ_WB_BWE ); - } - - /* pre-echo */ - st->hHQ_core->pastpre = 0; - move16(); - } - - /* reset the GSC pre echo energy threshold in case of switching */ - if ( st->hGSCDec != NULL ) - { - st->hGSCDec->Last_frame_ener_fx = MAX_32; - move32(); - } - - test(); - IF( EQ_16( st->last_core, TCX_20_CORE ) || EQ_16( st->last_core, TCX_10_CORE ) ) - { - IF( st->element_mode == EVS_MONO ) - { - st->last_core = HQ_CORE; - move16(); - - Copy32( st->hTcxDec->FBTCXdelayBuf_32, st->prev_synth_buffer32_fx, NS2SA( st->output_Fs, DELAY_BWE_TOTAL_NS - DELAY_CLDFB_NS ) ); - // Copy_Scale_sig_32_16( st->hTcxDec->FBTCXdelayBuf_32, st->prev_synth_buffer_fx, NS2SA( st->output_Fs, DELAY_BWE_TOTAL_NS - DELAY_CLDFB_NS ), -11 ); //Q11 -> Q0 - } - - IF( st->hHQ_core != NULL ) - { - set32_fx( st->hHQ_core->last_ni_gain_fx, 0, BANDS_MAX ); - set16_fx( st->hHQ_core->last_env_fx, 0, BANDS_MAX ); - st->hHQ_core->last_max_pos_pulse = 0; - move16(); - - set16_fx( st->hHQ_core->prev_SWB_peak_pos, 0, SPT_SHORTEN_SBNUM ); - st->hHQ_core->prev_frm_hfe2 = 0; - st->hHQ_core->prev_stab_hfe2 = 0; - move16(); - move16(); - } - } - - IF( st->prev_bfi != 0 ) - { - Word16 delay_comp; - - /*switch off Hq Voicing as it was not updated in MODE2*/ - IF( st->hHQ_core != NULL ) - { - st->hHQ_core->oldHqVoicing = 0; - st->hHQ_core->HqVoicing = 0; - move16(); - move16(); - } - - delay_comp = NS2SA( st->output_Fs, DELAY_CLDFB_NS ); - /*TODO To be tested:control not entering the block*/ - test(); - test(); - IF( !st->last_con_tcx && ( st->last_core_bfi == ACELP_CORE ) && EQ_16( st->core, HQ_CORE ) ) - { - /*TODO None of the test dtreams are entering this block,hence enabled assert(0)*/ - assert( 0 ); - Word32 *realBuffer_fx[CLDFB_NO_COL_MAX_SWITCH], *imagBuffer_fx[CLDFB_NO_COL_MAX_SWITCH]; - Word32 realBufferTmp_fx[CLDFB_NO_COL_MAX_SWITCH][CLDFB_NO_CHANNELS_MAX], imagBufferTmp_fx[CLDFB_NO_COL_MAX_SWITCH][CLDFB_NO_CHANNELS_MAX]; - Word32 syn_Overl_fx[320]; - Word32 fer_samples_fx[960]; - Copy_Scale_sig_16_32_DEPREC( st->hTcxDec->syn_Overl, syn_Overl_fx, 320, 15 ); - Copy_Scale_sig_16_32_DEPREC( st->hHQ_core->fer_samples_fx, fer_samples_fx, 960, 15 ); - - - FOR( i = 0; i < CLDFB_NO_COL_MAX_SWITCH; i++ ) - { - set32_fx( realBufferTmp_fx[i], 0, CLDFB_NO_CHANNELS_MAX ); - set32_fx( imagBufferTmp_fx[i], 0, CLDFB_NO_CHANNELS_MAX ); - realBuffer_fx[i] = realBufferTmp_fx[i]; - imagBuffer_fx[i] = imagBufferTmp_fx[i]; - } - - /* CLDFB analysis of the synthesis at internal sampling rate */ - IF( NE_32( ( error = cldfb_save_memory_ivas_fx( st->cldfbAna ) ), IVAS_ERR_OK ) ) - { - return error; - } - - cldfbAnalysis_ivas_fx( syn_Overl_fx, realBuffer_fx, imagBuffer_fx, delay_comp, st->cldfbAna ); - cldfb_restore_memory_ivas_fx( st->cldfbAna ); /*Assuming Q10*/ - - /* CLDFB synthesis of the combined signal */ - IF( NE_32( ( error = cldfb_save_memory_ivas_fx( st->cldfbSyn ) ), IVAS_ERR_OK ) ) - { - return error; - } - - cldfbSynthesis_ivas_fx( realBuffer_fx, imagBuffer_fx, fer_samples_fx, delay_comp, st->cldfbSyn ); - cldfb_restore_memory_ivas_fx( st->cldfbSyn ); - Copy_Scale_sig_32_16( syn_Overl_fx, st->hTcxDec->syn_Overl, 320, 15 ); - Copy_Scale_sig_32_16( fer_samples_fx, st->hHQ_core->fer_samples_fx, 960, 9 ); - } - - test(); - test(); - IF( !st->last_con_tcx && ( st->last_core_bfi == ACELP_CORE ) && EQ_16( st->core, HQ_CORE ) ) - { - lerp( st->hTcxDec->syn_Overl, st->hHQ_core->fer_samples_fx + delay_comp, shr( output_frame, 1 ), shr( st->last_L_frame, 1 ) ); - /*Set to zero the remaining part*/ - set16_fx( st->hHQ_core->fer_samples_fx + delay_comp + output_frame / 2, 0, sub( shr( output_frame, 1 ), delay_comp ) ); - } - } - - st->use_acelp_preq = 0; - st->reset_mem_AR = 0; - move16(); - move16(); - } - - /*FEC*/ - IF( LE_16( st->L_frame, L_FRAME16k ) ) - { - test(); - IF( LE_16( st->last_L_frame, L_FRAME16k ) && NE_16( st->core, HQ_CORE ) ) - { - IF( NE_16( st->L_frame, st->last_L_frame ) ) - { - IF( GT_16( st->L_frame, st->last_L_frame ) ) - { - oldLenClasBuff = mult_r( L_SYN_MEM_CLAS_ESTIM, div_s( st->last_L_frame, st->L_frame ) ); - newLenClasBuff = L_SYN_MEM_CLAS_ESTIM; - move16(); - } - ELSE - { - oldLenClasBuff = L_SYN_MEM_CLAS_ESTIM; - move16(); - newLenClasBuff = mult_r( L_SYN_MEM_CLAS_ESTIM, div_s( st->L_frame, st->last_L_frame ) ); - } - lerp( &st->mem_syn_clas_estim_fx[L_SYN_MEM_CLAS_ESTIM - oldLenClasBuff], &st->mem_syn_clas_estim_fx[L_SYN_MEM_CLAS_ESTIM - newLenClasBuff], newLenClasBuff, oldLenClasBuff ); - } - } - ELSE - { - set16_fx( st->mem_syn_clas_estim_fx, 0, L_SYN_MEM_CLAS_ESTIM ); - } - } - - /* Here we only handle cases where last_ppp and last_nelp not updated when coming from CodecB or other cores - within ACELP_CORE if switching from another bitarate to vbr, last_ppp and last_nelp is always updated in the previous frame */ - test(); - test(); - IF( ( st->core == ACELP_CORE ) && ( ( st->last_core != ACELP_CORE ) || EQ_16( st->last_codec_mode, MODE2 ) ) ) - { - st->last_ppp_mode_dec = 0; - st->last_nelp_mode_dec = 0; - move16(); - move16(); - } - - /* Handle state reset of stat_noise_uv_mod memory */ - test(); - test(); - test(); - IF( ( st->core == ACELP_CORE ) && ( ( st->last_core != ACELP_CORE ) || EQ_16( st->last_codec_mode, MODE2 ) || LE_32( st->last_total_brate, PPP_NELP_2k80 ) ) ) - { - st->act_count = 3; - st->uv_count = 0; - move16(); - move16(); - } - - test(); - test(); - test(); - test(); - test(); - test(); - test(); - test(); - test(); - test(); - test(); - IF( ( ( ( st->core == ACELP_CORE ) || EQ_16( st->core, AMR_WB_CORE ) ) && EQ_16( st->last_core, HQ_CORE ) ) || ( ( EQ_16( st->element_mode, IVAS_CPE_DFT ) || EQ_16( st->element_mode, IVAS_CPE_TD ) || ( EQ_16( st->element_mode, IVAS_CPE_MDCT ) && EQ_16( last_element_mode, IVAS_CPE_DFT ) ) ) && EQ_16( nchan_out, 2 ) && - NE_32( st->core_brate, SID_2k40 ) && ( st->core_brate != FRAME_NO_DATA ) && ( ( last_core_brate_st0 == FRAME_NO_DATA ) || EQ_32( last_core_brate_st0, SID_2k40 ) ) ) ) - { - test(); - if ( EQ_16( st->element_mode, IVAS_CPE_DFT ) || EQ_16( st->element_mode, IVAS_CPE_TD ) ) - { - st->hPFstat->reset = 1; - move16(); - } - - IF( EQ_16( st->L_frame, L_FRAME16k ) ) - { - Copy( TRWB2_Ave_fx, st->lsf_old_fx, M ); /* init of LSP */ - Copy( TRWB2_Ave_fx, st->lsfoldbfi1_fx, M ); - Copy( TRWB2_Ave_fx, st->lsfoldbfi0_fx, M ); - Copy( TRWB2_Ave_fx, st->lsf_adaptive_mean_fx, M ); - lsf2lsp_fx( st->lsf_old_fx, st->lsp_old_fx, M, INT_FS_16k ); - } - ELSE - { - Copy( TRWB_Ave_fx, st->lsf_old_fx, M ); /* init of LSP */ - Copy( TRWB_Ave_fx, st->lsfoldbfi1_fx, M ); - Copy( TRWB_Ave_fx, st->lsfoldbfi0_fx, M ); - Copy( TRWB_Ave_fx, st->lsf_adaptive_mean_fx, M ); - lsf2lsp_fx( st->lsf_old_fx, st->lsp_old_fx, M, INT_FS_12k8 ); - } - - test(); - test(); - test(); - test(); - test(); - test(); - IF( ( EQ_16( st->element_mode, IVAS_CPE_DFT ) || EQ_16( st->element_mode, IVAS_CPE_TD ) ) && EQ_16( nchan_out, 2 ) && GT_32( st->core_brate, SID_2k40 ) && ( ( last_core_brate_st0 == FRAME_NO_DATA ) || EQ_32( last_core_brate_st0, SID_2k40 ) ) && st->hTcxDec != NULL ) - { - /* Last frame was Stereo CNG and the synthesis memory is outdated -- reset */ - set16_fx( st->hTcxDec->old_syn_Overl, 0, L_FRAME32k / 2 ); - set16_fx( st->hFdCngDec->hFdCngCom->olapBufferAna_fx, 0, FFTLEN ); - set16_fx( st->agc_mem_fx, 0, 2 ); - } - st->mem_deemph_fx = 0; - move16(); - IF( !st->last_con_tcx ) - { - set16_fx( st->mem_syn2_fx, 0, M ); - } - set16_fx( st->mem_syn1_fx, 0, M ); - if ( st->hBWE_TD != NULL ) - { - st->hBWE_TD->bwe_non_lin_prev_scale_fx = 0; - move32(); - } - - /* Reset ACELP parameters */ - set16_fx( st->mem_MA_fx, 0, M ); - - IF( EQ_32( st->sr_core, INT_FS_16k ) ) - { - Copy( GEWB2_Ave_fx, st->mem_AR_fx, M ); - } - ELSE - { - Copy( GEWB_Ave_fx, st->mem_AR_fx, M ); - } - - st->tilt_code_fx = 0; - st->gc_threshold_fx = 0; - st->dm_fx.prev_gain_code = 0; - st->dm_fx.prev_state = 0; - move16(); - move32(); - move32(); - move16(); - set16_fx( st->dm_fx.prev_gain_pit, 0, 6 ); - - st->last_coder_type = GENERIC; - move16(); - - fer_energy_fx( output_frame, UNVOICED_CLAS, st->previoussynth_fx_32, 0, -1, &st->enr_old_fx, 1 ); /*Q-0*/ - st->lp_gainp_fx = 0; - move16(); - st->lp_gainc_fx = extract_h( Sqrt32( st->lp_ener_fx, &exp ) ); /*Q=15-exp*/ - move16(); - st->lp_gainc_fx = shr( st->lp_gainc_fx, sub( 12, exp ) ); /*Q3*/ - move16(); - - st->last_voice_factor_fx = 0; - st->Last_GSC_noisy_speech_flag = 0; - move16(); - move16(); - - /* reset CLDFB memories */ - cldfb_reset_memory_fx( st->cldfbAna ); - cldfb_reset_memory_fx( st->cldfbBPF ); - cldfb_reset_memory_fx( st->cldfbSyn ); - - /* reset TBE memories */ - test(); - test(); - IF( !st->last_con_tcx && !( ( EQ_16( st->last_core, HQ_CORE ) ) && ( st->element_mode > EVS_MONO ) ) ) - { - set16_fx( st->old_exc_fx, 0, L_EXC_MEM_DEC ); - } - ELSE IF( LT_16( st->L_frame, L_FRAME16k ) ) - { - /* resample from 16kHz to 12.8kHZ */ - synth_mem_updt2( st->L_frame, L_FRAME16k, st->old_exc_fx, st->mem_syn_r, st->mem_syn2_fx, NULL, DEC ); - } - - IF( st->hBWE_TD != NULL ) - { - set16_fx( st->hBWE_TD->old_bwe_exc_fx, 0, PIT16k_MAX * 2 ); - } - - test(); - IF( GT_32( st->output_Fs, 16000 ) && st->hBWE_zero != NULL ) - { - hf_synth_reset_fx( st->hBWE_zero ); -#ifdef MSAN_FIX - set16_fx( st->hBWE_zero->mem_hp400_fx, 0, 6 ); -#endif - } - - IF( st->hBWE_FD != NULL ) - { - set16_fx( st->hBWE_FD->old_syn_12k8_16k_fx, 0, NS2SA( 16000, DELAY_FD_BWE_ENC_NS ) ); - } - } - - test(); - test(); - test(); - IF( ( ( st->core == ACELP_CORE ) || EQ_16( st->core, AMR_WB_CORE ) ) && ( EQ_16( st->last_core, TCX_20_CORE ) || EQ_16( st->last_core, TCX_10_CORE ) ) ) - { - IF( st->hBWE_TD != NULL ) - { - st->hBWE_TD->bwe_non_lin_prev_scale_fx = 0; - move32(); - set16_fx( st->hBWE_TD->old_bwe_exc_fx, 0, PIT16k_MAX * 2 ); - } - - st->tilt_code_fx = 0; - st->gc_threshold_fx = 0; - st->dm_fx.prev_gain_code = 0; - st->dm_fx.prev_state = 0; - move16(); - move32(); - move32(); - move16(); - set16_fx( st->dm_fx.prev_gain_pit, 0, 6 ); - st->last_coder_type = GENERIC; - move16(); - fer_energy_fx( output_frame, UNVOICED_CLAS, st->previoussynth_fx_32, 0, -1, &st->enr_old_fx, 1 ); /*Q-0*/ - - st->lp_gainp_fx = 0; - move16(); - st->lp_gainc_fx = extract_h( Sqrt32( st->lp_ener_fx, &exp ) ); /*Q=15-exp*/ - move16(); - st->lp_gainc_fx = shr( st->lp_gainc_fx, sub( 12, exp ) ); /*Q3*/ - move16(); - - st->last_voice_factor_fx = 0; - st->Last_GSC_noisy_speech_flag = 0; - move16(); - move16(); - - test(); - IF( GT_32( st->output_Fs, 16000 ) && st->hBWE_zero != NULL ) - { - hf_synth_reset_fx( st->hBWE_zero ); -#ifdef MSAN_FIX - set16_fx( st->hBWE_zero->mem_hp400_fx, 0, 6 ); -#endif - } - - IF( st->hBWE_FD != NULL ) - { - set16_fx( st->hBWE_FD->old_syn_12k8_16k_fx, 0, NS2SA( 16000, DELAY_FD_BWE_ENC_NS ) ); - } - - test(); - test(); - test(); - IF( EQ_16( nchan_out, 1 ) && EQ_16( st->element_mode, IVAS_CPE_DFT ) && LE_32( st->element_brate, IVAS_24k4 ) && GT_32( last_element_brate, IVAS_24k4 ) ) - { - /* update cldbf state with previous frame TCX synthesis when going from a bitrate with residual coding to a bitrate without it */ - Word16 offset; - offset = sub( st->cldfbAna->p_filter_length, st->cldfbAna->no_channels ); - Word32 *old_synthFB_fx; - IF( ( old_synthFB_fx = (Word32 *) malloc( st->hTcxDec->old_synth_lenFB * sizeof( Word32 ) ) ) == NULL ) - { - return ( IVAS_ERROR( IVAS_ERR_FAILED_ALLOC, "Cannot allocate memory for old_synth_lenFB (32 bit) \n" ) ); - } -#ifdef FIX_ISSUE_1237 - Copy_Scale_sig_16_32_no_sat( st->hTcxDec->old_synthFB_fx, old_synthFB_fx, st->hTcxDec->old_synth_lenFB, sub( Q10, Q_old_synthFB ) ); // Q10 -#else - Copy_Scale_sig_16_32_DEPREC( st->hTcxDec->old_synthFB_fx, old_synthFB_fx, st->hTcxDec->old_synth_lenFB, sub( Q10, Q_old_synthFB ) ); // Q10 -#endif - Copy32( old_synthFB_fx + st->hTcxDec->old_synth_lenFB - offset, st->cldfbAna->cldfb_state_fx, offset ); - st->cldfbAna->Q_cldfb_state = Q10; - move16(); - IF( old_synthFB_fx ) - free( old_synthFB_fx ); - } - } - - test(); - test(); - test(); - test(); - IF( EQ_16( st->core, HQ_CORE ) && ( ( st->last_core == ACELP_CORE ) || EQ_16( st->last_core, AMR_WB_CORE ) || ( ( ( st->element_mode != EVS_MONO ) ) && ( NE_16( st->last_core, HQ_CORE ) ) ) ) ) - { - set32_fx( st->hHQ_core->prev_env_fx, 0, SFM_N_WB ); - set32_fx( st->hHQ_core->prev_normq_fx, 0, SFM_N_WB ); - - set32_fx( st->hHQ_core->last_ni_gain_fx, 0, BANDS_MAX ); - set16_fx( st->hHQ_core->last_env_fx, 0, BANDS_MAX ); - st->hHQ_core->last_max_pos_pulse = 0; - move16(); - - set16_fx( st->hHQ_core->prev_SWB_peak_pos, 0, SPT_SHORTEN_SBNUM ); - st->hHQ_core->prev_frm_hfe2 = 0; - st->hHQ_core->prev_stab_hfe2 = 0; - move16(); - move16(); - IF( GT_32( st->output_Fs, 16000 ) ) - { - set32_fx( st->hHQ_core->prev_coeff_out_fx, 0, L_HQ_WB_BWE ); - } - - IF( st->element_mode != EVS_MONO ) - { - /* Estimate mem_env_delta to reinit env_stab */ - tmp_fx = L_max( 0, L_add( ENV_STAB_EST1_FX, L_add( Mult_32_16( st->stab_fac_smooth_lt_fx, ENV_STAB_EST2_FX ), Mult_32_16( st->log_energy_diff_lt_fx, ENV_STAB_EST3_FX ) ) ) ); /*Q12*/ - - st->hHQ_core->mem_env_delta = extract_l( L_min( MAX16B, tmp_fx ) ); /* Convert to Q12 and handle saturation */ - move16(); - test(); - IF( NE_16( st->last_core, TCX_20_CORE ) && NE_16( st->last_core, TCX_10_CORE ) ) - { - set16_fx( st->hHQ_core->old_out_fx, 0, output_frame ); - set32_fx( st->hHQ_core->old_outLB_fx, 0, L_FRAME16k ); - set16_fx( st->hHQ_core->old_out_LB_fx, 0, L_FRAME16k ); - } - - st->hHQ_core->no_att_hangover = 0; - move16(); - st->hHQ_core->energy_lt_fx = 2457600; /*300.0f Q13*/ - move32(); - set16_fx( st->hHQ_core->old_is_transient, 0, 3 ); - set16_fx( st->hHQ_core->prev_noise_level_fx, 0, 2 ); - st->hHQ_core->prev_R = 0; - move16(); - set16_fx( st->hHQ_core->mem_norm + 1, 39, SFM_N_ENV_STAB - 1 ); - st->hHQ_core->prev_hqswb_clas = HQ_NORMAL; - st->hHQ_core->prev_ni_ratio_fx = 16384; /*Q15*/ - move16(); - move16(); - set16_fx( st->hHQ_core->prev_En_sb_fx, 0, NB_SWB_SUBBANDS ); - } - ELSE - { - set16_fx( st->hHQ_core->old_out_fx, 0, output_frame ); - set32_fx( st->hHQ_core->old_outLB_fx, 0, L_FRAME16k ); - } - } - - /* handle switching cases where preecho_sb was not called in the last frame (memory not up to date) */ - IF( st->hHQ_core != NULL ) - { - st->hHQ_core->pastpre = sub( st->hHQ_core->pastpre, 1 ); - move16(); - IF( st->hHQ_core->pastpre < 0 ) - { - reset_preecho_dec_fx( st->hHQ_core ); - } - } - test(); - IF( st->core_brate == FRAME_NO_DATA ) - { - st->VAD = 0; - st->m_frame_type = ZERO_FRAME; - } - ELSE IF( EQ_32( st->core_brate, SID_2k40 ) || EQ_32( st->core_brate, SID_1k75 ) ) - { - st->VAD = 0; - st->m_frame_type = SID_FRAME; - } - ELSE - { - st->VAD = 1; - st->m_frame_type = ACTIVE_FRAME; - } - - move16(); - move16(); - /*switch on CNA on active frames*/ - IF( ( st->element_mode == EVS_MONO ) ) /* for IVAS modes, st->flag_cna is set earlier */ - { - test(); - test(); - test(); - test(); - test(); - test(); - IF( st->VAD && ( ( NE_16( st->core, AMR_WB_CORE ) && LE_32( st->total_brate, CNA_MAX_BRATE ) ) || ( EQ_16( st->core, AMR_WB_CORE ) && LE_32( st->total_brate, ACELP_8k85 ) ) ) ) - { - st->flag_cna = 1; - move16(); - } - ELSE IF( st->VAD || ( EQ_16( st->cng_type, FD_CNG ) && EQ_16( st->L_frame, L_FRAME16k ) ) ) - { - st->flag_cna = 0; - move16(); - } - } - - if ( EQ_16( st->core, AMR_WB_CORE ) ) - { - st->cng_type = LP_CNG; - move16(); - } - - /* Reconfigure CNG */ - test(); - test(); - test(); - test(); - IF( st->hFdCngDec && ( NE_16( st->last_L_frame, st->L_frame ) || NE_16( st->hFdCngDec->hFdCngCom->frameSize, st->L_frame ) || ( st->ini_frame == 0 ) || NE_16( st->bwidth, st->last_bwidth ) ) ) - { - /* || st->last_core == AMR_WB_CORE || st->last_codec_mode == MODE2)){*/ - IF( NE_16( st->core, AMR_WB_CORE ) ) - { - test(); - IF( EQ_16( st->rf_flag, 1 ) && EQ_32( st->total_brate, ACELP_13k20 ) ) - { - configureFdCngDec_ivas_fx( st->hFdCngDec, st->bwidth, ACELP_9k60, st->L_frame, st->last_L_frame, st->element_mode ); - } - ELSE - { - configureFdCngDec_ivas_fx( st->hFdCngDec, st->bwidth, st->total_brate, st->L_frame, st->last_L_frame, st->element_mode ); - } - } - ELSE - { - configureFdCngDec_ivas_fx( st->hFdCngDec, WB, ACELP_8k00, st->L_frame, st->last_L_frame, st->element_mode ); - - if ( st->VAD ) - { - st->hFdCngDec->hFdCngCom->CngBitrate = st->total_brate; - move32(); - } - } - test(); - test(); - IF( NE_16( st->last_L_frame, st->L_frame ) && LE_16( st->L_frame, L_FRAME16k ) && LE_16( st->last_L_frame, L_FRAME16k ) ) - { - test(); - IF( EQ_16( st->element_mode, IVAS_CPE_DFT ) || EQ_16( st->element_mode, IVAS_CPE_TD ) ) - { - lerp( st->hFdCngDec->hFdCngCom->olapBufferAna_fx + st->last_L_frame, st->hFdCngDec->hFdCngCom->olapBufferAna_fx + st->L_frame, st->L_frame, st->last_L_frame ); - } - - L_lerp_fx( st->hFdCngDec->hFdCngCom->olapBufferSynth2_fx, st->hFdCngDec->hFdCngCom->olapBufferSynth2_fx, shl( st->L_frame, 1 ), shl( st->last_L_frame, 1 ), Q_olapBufferSynth2 ); - - test(); - IF( LE_32( st->total_brate, SID_2k40 ) && LE_32( st->last_total_brate, SID_2k40 ) ) - { - L_lerp_fx( st->hFdCngDec->hFdCngCom->olapBufferSynth_fx, st->hFdCngDec->hFdCngCom->olapBufferSynth_fx, shl( st->L_frame, 1 ), shl( st->last_L_frame, 1 ), Q_olapBufferSynth ); - - IF( EQ_16( st->L_frame, L_FRAME ) ) - { - FOR( i = 0; i < ( st->L_frame * 2 ); i++ ) - { - st->hFdCngDec->hFdCngCom->olapBufferSynth_fx[i] = Mult_32_16( st->hFdCngDec->hFdCngCom->olapBufferSynth_fx[i], (Word16) 20480 /* 0.6250f in Q15 */ ); - move32(); - } - } - ELSE - { - FOR( i = 0; i < ( st->L_frame * 2 ); i++ ) - { - st->hFdCngDec->hFdCngCom->olapBufferSynth_fx[i] = Mult_32_16( L_shl( st->hFdCngDec->hFdCngCom->olapBufferSynth_fx[i], 1 ), (Word16) 26214 /* 1.6f in Q14 */ ); - move32(); - } - } - } - } - } - - return error; -} -/*---------------------------------------------------------------------* - * core_switching_hq_prepare_dec() - * - * Preprocessing in the first HQ frame after ACELP frame - * Modify bit allocation for HQ core by removing ACELP subframe budget - *---------------------------------------------------------------------*/ - -/*---------------------------------------------------------------------* - * bandwidth_switching_detect() - * - * Classification for band-width switching - *---------------------------------------------------------------------*/ - -void bandwidth_switching_detect_ivas_fx( - Decoder_State *st_fx /* i/o: encoder state structure */ -) -{ - test(); - test(); - IF( ( EQ_16( st_fx->element_mode, IVAS_CPE_TD ) && EQ_16( st_fx->idchan, 1 ) ) || EQ_16( st_fx->element_mode, IVAS_CPE_MDCT ) ) - { - /* there is no BWE in TD stereo secondary channel and in MDCT stereo, IGF is part of the core decoding -> no BW switching -> reset BWS counters */ - st_fx->prev_bws_cnt = 0; - st_fx->bws_cnt = 0; - st_fx->bws_cnt1 = 0; - move16(); - move16(); - move16(); - - return; - } - /* update band-width switching counter */ - test(); - test(); - test(); - test(); - IF( GE_16( st_fx->bws_cnt1, N_NS2W_FRAMES ) ) - { - st_fx->bws_cnt1 = 0; - move16(); - } - ELSE IF( GT_32( st_fx->total_brate, ACELP_9k60 ) && LT_32( st_fx->last_core_brate, ACELP_9k60 ) && EQ_16( st_fx->bwidth, SWB ) && EQ_16( st_fx->last_bwidth, WB ) && ( st_fx->last_low_rate_mode == 0 ) ) - { - st_fx->bws_cnt1 = add( st_fx->bws_cnt1, 1 ); - move16(); - } - ELSE IF( st_fx->bws_cnt1 > 0 ) - { - IF( LT_16( st_fx->bwidth, st_fx->last_bwidth ) ) - { - st_fx->bws_cnt = sub( shl( sub( N_NS2W_FRAMES, st_fx->bws_cnt1 ), 1 ), 1 ); - move16(); - } - ELSE - { - st_fx->bws_cnt = 0; - move16(); - } - - IF( LT_16( st_fx->bwidth, st_fx->last_bwidth ) ) - { - st_fx->bws_cnt1 = 0; - move16(); - } - ELSE - { - IF( EQ_16( st_fx->bwidth, SWB ) ) - { - st_fx->bws_cnt1 = add( st_fx->bws_cnt1, 1 ); - move16(); - } - ELSE - { - st_fx->bws_cnt1 = 0; - move16(); - } - } - } - - /* update band-width switching counter */ - test(); - test(); - test(); - IF( GE_16( st_fx->bws_cnt, N_WS2N_FRAMES ) ) - { - st_fx->bws_cnt = 0; - move16(); - } - ELSE IF( LT_32( st_fx->total_brate, ACELP_9k60 ) && GT_32( st_fx->last_core_brate, ACELP_9k60 ) && LT_16( st_fx->bwidth, st_fx->last_bwidth ) && EQ_16( st_fx->bwidth, WB ) ) - { - st_fx->bws_cnt = add( st_fx->bws_cnt, 1 ); - move16(); - } - ELSE IF( st_fx->bws_cnt > 0 ) - { - IF( GT_16( st_fx->bwidth, st_fx->last_bwidth ) ) - { - st_fx->bws_cnt1 = shr( sub( N_WS2N_FRAMES, st_fx->bws_cnt ), 1 ); - move16(); - } - ELSE - { - st_fx->bws_cnt1 = 0; - move16(); - } - - IF( GT_16( st_fx->bwidth, st_fx->last_bwidth ) ) - { - st_fx->bws_cnt = 0; - move16(); - } - ELSE - { - IF( EQ_16( st_fx->bwidth, WB ) ) - { - st_fx->bws_cnt = add( st_fx->bws_cnt, 1 ); - move16(); - } - ELSE - { - st_fx->bws_cnt = 0; - move16(); - } - } - } - - return; -} - - -/*---------------------------------------------------------------------* - * bw_switching_pre_proc() - * - * Band-width switching pre-processing - *---------------------------------------------------------------------*/ -void ivas_bw_switching_pre_proc_fx( - Decoder_State *st, /* i/o: decoder state structure */ - const Word32 last_element_brate, /* i : last element bitrate */ - const Word16 nchan_out /* i : number of output channels */, - Word32 *old_syn_12k8_16k_fx, - Word16 Q, - Word16 Q_audio ) -{ - Word16 i; - Word32 syn_dct_fx[L_FRAME]; - - - Flag Overflow = 0; - move32(); - - IF( st->element_mode > EVS_MONO ) - { - test(); - test(); - test(); - test(); - test(); - test(); - test(); - test(); - test(); - test(); - IF( ( st->core == ACELP_CORE ) && !( EQ_16( st->bfi, 1 ) && EQ_16( st->con_tcx, 1 ) ) && st->hBWE_FD != NULL && !( LE_32( st->core_brate, SID_2k40 ) && EQ_16( st->element_mode, IVAS_CPE_DFT ) && EQ_16( nchan_out, 2 ) ) && !( EQ_16( st->element_mode, IVAS_CPE_MDCT ) && EQ_16( nchan_out, 1 ) && EQ_16( st->idchan, 1 ) && LE_32( last_element_brate, IVAS_SID_5k2 ) ) ) - { - /* Calculate tilt of the ACELP core synthesis - needed in SWB BWE decoding */ - Word16 old_syn_12k8_16k_tmp_16fx[L_FRAME16k]; - Copy_Scale_sig_32_16( old_syn_12k8_16k_fx, old_syn_12k8_16k_tmp_16fx, st->L_frame, sub( -1, Q ) ); - st->tilt_wb_fx = round_fx_sat( L_shl_sat( calc_tilt_bwe_fx( old_syn_12k8_16k_tmp_16fx, -1, st->L_frame ), sub( Q, 8 ) ) ); // Q24+(Q-8) - 16 - move16(); - } - - return; - } - - - test(); - test(); - IF( ( st->core == ACELP_CORE ) && !( EQ_16( st->bfi, 1 ) && EQ_16( st->con_tcx, 1 ) ) ) - { - /*----------------------------------------------------------------------* - * Calculate tilt of the ACELP core synthesis - *----------------------------------------------------------------------*/ - - st->tilt_wb_fx = ivas_calc_tilt_bwe_fx( old_syn_12k8_16k_fx, Q, st->L_frame ); - move16(); - /*-------------------------------------------------------------------------------* - * Calculate frequency energy of 0~3.2kHz and 3.2~6.4kHz the ACELP core synthesis - *-------------------------------------------------------------------------------*/ - edct_fx( old_syn_12k8_16k_fx, syn_dct_fx, L_FRAME, &Q ); - Word64 W_tmp = 0; - move64(); - Word32 tmp; - Word16 shift; - FOR( i = 0; i < L_FRAME / 2; i++ ) - { - W_tmp = W_add( W_tmp, W_shr( W_mult0_32_32( syn_dct_fx[i], syn_dct_fx[i] ), Q ) ); - } - shift = W_norm( W_tmp ); - W_tmp = W_shl( W_tmp, shift ); - tmp = W_extract_h( W_tmp ); - tmp = L_shr( tmp, 8 ); - - tmp = getSqrtWord32( tmp ); - st->enerLL_fx = tmp; - move32(); - st->enerLL_fx_Q = shr( sub( add( Q, shift ), 32 ), 1 ); - move16(); - W_tmp = 0; - move64(); - FOR( ; i < L_FRAME; i++ ) - { - W_tmp = W_add( W_tmp, W_shr( W_mult0_32_32( syn_dct_fx[i], syn_dct_fx[i] ), Q ) ); - } - shift = W_norm( W_tmp ); - W_tmp = W_shl( W_tmp, shift ); - tmp = W_extract_h( W_tmp ); // Q = Q + shift - 32 - tmp = L_shr( tmp, 7 ); // divide by 128 - tmp = getSqrtWord32( tmp ); - st->enerLH_fx = tmp; - move32(); - st->enerLH_fx_Q = shr( sub( add( Q, shift ), 32 ), 1 ); - move16(); - } - ELSE - { - IF( st->hHQ_core->old_is_transient[0] ) - { - Word32 tmp, L_tmp = 0; - move32(); - FOR( i = 0; i < 32; i++ ) - { - L_tmp = L_mac0_o( L_tmp, st->t_audio_q_fx[i], st->t_audio_q_fx[i], &Overflow ); - } - tmp = L_shr( L_tmp, 5 ); // divide by 32 - tmp = getSqrtWord32( tmp ); - st->enerLL_fx = tmp; - move32(); - st->enerLL_fx_Q = Q_audio; - move16(); - - L_tmp = 0; - move32(); - FOR( ; i < 64; i++ ) - { - L_tmp = L_mac0_o( L_tmp, st->t_audio_q_fx[i], st->t_audio_q_fx[i], &Overflow ); - } - - tmp = L_shr( L_tmp, 5 ); // divide by 32 - tmp = getSqrtWord32( tmp ); - st->enerLH_fx = tmp; - move32(); - st->enerLH_fx_Q = Q_audio; - move16(); - } - ELSE - { - Word32 tmp, L_tmp = 0; - move32(); - FOR( i = 0; i < L_FRAME / 2; i++ ) - { - L_tmp = L_mac0_o( L_tmp, st->t_audio_q_fx[i], st->t_audio_q_fx[i], &Overflow ); - } - tmp = L_shr( L_tmp, 5 ); // divide by 32 - tmp = getSqrtWord32( tmp ); - st->enerLL_fx = tmp; - move32(); - st->enerLL_fx_Q = Q_audio; - move16(); - - L_tmp = 0; - move32(); - FOR( ; i < L_FRAME; i++ ) - { - L_tmp = L_mac0_o( L_tmp, st->t_audio_q_fx[i], st->t_audio_q_fx[i], &Overflow ); - } - tmp = L_shr( L_tmp, 5 ); // divide by 32 - tmp = getSqrtWord32( tmp ); - st->enerLL_fx = tmp; - move32(); - st->enerLL_fx_Q = Q_audio; - move16(); - } - } - - test(); - test(); - test(); - test(); - test(); - test(); - test(); - IF( EQ_16( st->last_bwidth, 0 ) && LE_16( st->extl, SWB_CNG ) ) - { - - st->prev_ener_shb_fx = 0; - move16(); - IF( st->hBWE_FD != NULL ) - { - set16_fx( st->prev_SWB_fenv_fx, 0, SWB_FENV ); - } - } - ELSE IF( ( ( ( st->core == ACELP_CORE ) && ( EQ_16( st->last_core, HQ_CORE ) || EQ_16( st->last_core, TCX_10_CORE ) || EQ_16( st->last_core, TCX_20_CORE ) ) ) || ( EQ_16( st->core, st->last_core ) && NE_16( st->extl, st->last_extl ) ) ) && GE_16( st->last_bwidth, SWB ) ) - { - st->attenu_fx = 3277; // 0.1f in Q15 - move16(); - } - - test(); - test(); - test(); - test(); - test(); - if ( EQ_16( st->last_core, HQ_CORE ) || ( ( st->last_core == ACELP_CORE ) && !( EQ_16( st->last_extl, WB_TBE ) || EQ_16( st->last_extl, SWB_TBE ) || EQ_16( st->last_extl, FB_TBE ) ) && GT_32( st->core_brate, ACELP_8k00 ) ) ) - { - st->prev_fractive = 0; - move16(); - } - - return; -} -/*---------------------------------------------------------------------* - * core_switch_lb_upsamp() - * - * Resample HQ/TCX-LB to the output sampling rate (8/16/32/48 kHz) - *---------------------------------------------------------------------*/ - - -/*---------------------------------------------------------------------* - * smoothTransitionDtxToTcx() - * - * apply smoothing to the transition part for inactive to active transitions in DTX - *---------------------------------------------------------------------*/ - -#define TRANSITION_SMOOTHING_LEN_16k 15 -#define TRANSITION_SMOOTHING_LEN_32k 31 -#define TRANSITION_SMOOTHING_LEN_48k 47 diff --git a/lib_dec/core_switching_dec_fx.c b/lib_dec/core_switching_dec_fx.c index 17df8b5ca95b3054abcf4109bb92b63cd55ad32a..ba7c73741751664b8b8545bcdb85a0d66fc6f557 100644 --- a/lib_dec/core_switching_dec_fx.c +++ b/lib_dec/core_switching_dec_fx.c @@ -16,10 +16,6 @@ * * *---------------------------------------------------------------------*/ -#ifdef IVAS_CODE_SWITCHING -static void core_switch_lb_upsamp( Decoder_State *st, float *output ); -static void smoothTransitionDtxToTcx( float synth[], const int16_t output_frame, const int16_t delay_comp ); -#endif static void smoothTransitionDtxToTcx_fx( Word16 synth[], const Word16 output_frame, const Word16 delay_comp ); static void core_switch_lb_upsamp_fx( Decoder_State *st, Word32 *output ); @@ -189,30 +185,11 @@ void bw_switching_pre_proc_fx( Flag Overflow = 0; move32(); #endif -#ifdef IVAS_CODE_SWITCHING + IF( st_fx->element_mode > EVS_MONO ) { - test(); - test(); - test(); - test(); - test(); - test(); - test(); - test(); - test(); - test(); - IF( EQ_16( st_fx->core, ACELP_CORE ) && !( EQ_16( st_fx->bfi, 1 ) && EQ_16( st_fx->con_tcx, 1 ) ) && - st_fx->hBWE_FD != NULL && !( LE_16( st_fx->core_brate, SID_2k40 ) && EQ_16( st_fx->element_mode, IVAS_CPE_DFT ) && EQ_16( nchan_out, 2 ) ) && - !( EQ_16( st_fx->element_mode, IVAS_CPE_MDCT ) && EQ_16( nchan_out, 1 ) && EQ_16( st_fx->idchan, 1 ) && LE_16( last_element_brate, IVAS_SID_4k4 ) ) ) - { - /* Calculate tilt of the ACELP core synthesis - needed in SWB BWE decoding */ - calc_tilt_bwe( old_syn_12k8_16k, &st->tilt_wb, st->L_frame ); - } - - return; } -#endif + test(); test(); IF( EQ_16( st_fx->core, ACELP_CORE ) && !( EQ_16( st_fx->bfi, 1 ) && EQ_16( st_fx->con_tcx, 1 ) ) ) @@ -300,7 +277,7 @@ void bw_switching_pre_proc_fx( { st_fx->prev_ener_shb_fx = 0; move16(); - set16_fx( st_fx->prev_SWB_fenv_fx, 0, SWB_FENV ); + set16_fx( st_fx->hBWE_FD->prev_SWB_fenv_fx, 0, SWB_FENV ); } ELSE IF( ( ( st_fx->core == ACELP_CORE && ( EQ_16( st_fx->last_core, HQ_CORE ) || EQ_16( st_fx->last_core, TCX_10_CORE ) || EQ_16( st_fx->last_core, TCX_20_CORE ) ) ) || ( EQ_16( st_fx->core, st_fx->last_core ) && NE_16( st_fx->extl, st_fx->last_extl ) ) ) && GE_16( st_fx->last_bwidth, SWB ) ) { @@ -321,149 +298,7 @@ void bw_switching_pre_proc_fx( return; } -#ifdef IVAS_CODE_SWITCHING - - -/*---------------------------------------------------------------------* - * core_switch_lb_upsamp() - * - * Resample HQ/TCX-LB to the output sampling rate (8/16/32/48 kHz) - *---------------------------------------------------------------------*/ - -static void core_switch_lb_upsamp( - Decoder_State *st, /* i/o: Decoder state */ - float *output /* i/o: LB synth/upsampled LB synth */ -) -{ - int16_t i; - float *realBuffer[CLDFB_OVRLP_MIN_SLOTS], *imagBuffer[CLDFB_OVRLP_MIN_SLOTS]; - float realBufferTmp[CLDFB_OVRLP_MIN_SLOTS][CLDFB_NO_CHANNELS_MAX]; - float imagBufferTmp[CLDFB_OVRLP_MIN_SLOTS][CLDFB_NO_CHANNELS_MAX]; - - /* open CLDFB buffer up to CLDFB_NO_CHANNELS_MAX bands for 48kHz */ - for ( i = 0; i < CLDFB_OVRLP_MIN_SLOTS; i++ ) - { - set_f( realBufferTmp[i], 0, CLDFB_NO_CHANNELS_MAX ); - set_f( imagBufferTmp[i], 0, CLDFB_NO_CHANNELS_MAX ); - realBuffer[i] = realBufferTmp[i]; - imagBuffer[i] = imagBufferTmp[i]; - } - - /* check if the CLDFB works on the right sample rate */ - if ( ( st->cldfbAna->no_channels * st->cldfbAna->no_col ) != st->L_frame ) - { - resampleCldfb( st->cldfbAna, st->L_frame * FRAMES_PER_SEC ); - - if ( st->cldfbBPF != NULL && st->L_frame <= L_FRAME16k ) - { - resampleCldfb( st->cldfbBPF, st->L_frame * FRAMES_PER_SEC ); - } - - if ( st->ini_frame > 0 ) - { - st->cldfbSyn->bandsToZero = st->cldfbSyn->no_channels - st->cldfbAna->no_channels; - } - } - - /* analysis of the synthesis at internal sampling rate */ - cldfbAnalysis( output, realBuffer, imagBuffer, CLDFB_OVRLP_MIN_SLOTS * st->cldfbAna->no_channels, st->cldfbAna ); - - /* analysis and add the BPF error signal */ - if ( st->p_bpf_noise_buf ) - { - addBassPostFilter( st->p_bpf_noise_buf, st->bpf_off ? 0 : CLDFB_OVRLP_MIN_SLOTS * st->cldfbBPF->no_channels, realBuffer, imagBuffer, st->cldfbBPF ); - } - - /* set output mask for upsampling */ - if ( st->bwidth == NB ) - { - /* set NB mask for upsampling */ - st->cldfbSyn->bandsToZero = st->cldfbSyn->no_channels - 10; - } - else if ( st->cldfbSyn->bandsToZero != st->cldfbSyn->no_channels - st->cldfbAna->no_channels ) - { - /* in case of BW switching, re-init to default */ - st->cldfbSyn->bandsToZero = st->cldfbSyn->no_channels - st->cldfbAna->no_channels; - } - - /* synthesis of the combined signal */ - cldfbSynthesis( realBuffer, imagBuffer, output, CLDFB_OVRLP_MIN_SLOTS * st->cldfbSyn->no_channels, st->cldfbSyn ); - - /* save synthesis - needed in case of core switching */ - if ( st->hTcxDec != NULL ) - { - mvr2r( output, st->previoussynth, st->hTcxDec->L_frameTCX ); - } - - return; -} - -/*---------------------------------------------------------------------* - * smoothTransitionMdctStereoDtx() - * - * apply smoothing to the transition part for MDCT-Stereo DTX - *---------------------------------------------------------------------*/ - -#define TRANSITION_SMOOTHING_LEN_16k 15 -#define TRANSITION_SMOOTHING_LEN_32k 31 -#define TRANSITION_SMOOTHING_LEN_48k 47 - -static void smoothTransitionMdctStereoDtx( - float synth[], /* i/o: synthesis */ - const int16_t output_frame, /* i : output frame length */ - const int16_t delay_comp /* i : delay compensation in samples */ -) -{ - int16_t i, filter_len; - float w, mem, step, fade_in; - float smoothing_input_buffer[2 * NS2SA( 48000, DELAY_CLDFB_NS ) + TRANSITION_SMOOTHING_LEN_48k]; - float smoothing_out_buffer[2 * NS2SA( 48000, DELAY_CLDFB_NS ) + TRANSITION_SMOOTHING_LEN_48k]; - - filter_len = TRANSITION_SMOOTHING_LEN_16k; - if ( output_frame == L_FRAME32k ) - { - filter_len = TRANSITION_SMOOTHING_LEN_32k; - } - else if ( output_frame == L_FRAME48k ) - { - filter_len = TRANSITION_SMOOTHING_LEN_48k; - } - - /* prepare buffer */ - for ( i = 0; i < filter_len / 2; i++ ) - { - smoothing_input_buffer[i] = synth[0]; - } - mvr2r( synth, smoothing_input_buffer + filter_len / 2, 2 * delay_comp + filter_len / 2 ); - - /* apply Mean filter */ - w = 1.f / filter_len; - mem = sum_f( smoothing_input_buffer, filter_len ); - for ( i = 0; i < 2 * delay_comp; i++ ) - { - smoothing_out_buffer[i] = w * mem; - mem = mem - smoothing_input_buffer[i] + smoothing_input_buffer[i + filter_len]; - } - - /* apply fades around transition */ - step = 1.f / delay_comp; - fade_in = 0.f; - for ( i = 0; i < delay_comp; i++ ) - { - synth[i] = smoothing_out_buffer[i] * fade_in + synth[i] * ( 1 - fade_in ); - fade_in += step; - } - - fade_in = 0.f; - for ( ; i < 2 * delay_comp; i++ ) - { - synth[i] = synth[i] * fade_in + smoothing_out_buffer[i] * ( 1 - fade_in ); - fade_in += step; - } - return; -} -#endif /*---------------------------------------------------------------------* * core_switching_pre_dec_fx() * @@ -651,7 +486,7 @@ ivas_error core_switching_pre_dec_fx( { return error; } - cldfbAnalysisFiltering( st_fx->cldfbAna, realBuffer, imagBuffer, &scaleFactor, hTcxDec->syn_Overl, 0, no_col, workBuffer ); + cldfbAnalysis_fx( st_fx->cldfbAna, realBuffer, imagBuffer, &scaleFactor, hTcxDec->syn_Overl, 0, no_col, workBuffer ); cldfb_restore_memory( st_fx->cldfbAna ); scaleFactor.hb_scale = scaleFactor.lb_scale; @@ -662,7 +497,7 @@ ivas_error core_switching_pre_dec_fx( { return error; } - cldfbSynthesisFiltering( st_fx->cldfbSyn, realBuffer, imagBuffer, &scaleFactor, hHQ_core->fer_samples_fx, 0, no_col, workBuffer ); + cldfbSynthesis_fx( st_fx->cldfbSyn, realBuffer, imagBuffer, &scaleFactor, hHQ_core->fer_samples_fx, 0, no_col, workBuffer ); cldfb_restore_memory( st_fx->cldfbSyn ); } @@ -738,13 +573,7 @@ ivas_error core_switching_pre_dec_fx( test(); test(); - IF( ( ( EQ_16( st_fx->core, ACELP_CORE ) || EQ_16( st_fx->core, AMR_WB_CORE ) ) && EQ_16( st_fx->last_core, HQ_CORE ) ) - //#ifdef IVAS_CODE_SWITCHING - // || ((EQ_16(st_fx->element_mode, IVAS_CPE_DFT) || EQ_16(st_fx->element_mode, IVAS_CPE_TD) || - // (EQ_16(st_fx->element_mode, IVAS_CPE_MDCT) && last_element_mode == IVAS_CPE_DFT)) && EQ_16(nchan_out,2) && - // NE_16(st_fx->core_brate, SID_2k40) && NE_16(st_fx->core_brate, FRAME_NO_DATA) && (EQ_16(last_core_brate_st0, FRAME_NO_DATA) || EQ_16(last_core_brate_st0, SID_2k40))) - //#endif - ) + IF( ( ( EQ_16( st_fx->core, ACELP_CORE ) || EQ_16( st_fx->core, AMR_WB_CORE ) ) && EQ_16( st_fx->last_core, HQ_CORE ) ) ) { test(); IF( EQ_16( st_fx->element_mode, IVAS_CPE_DFT ) || EQ_16( st_fx->element_mode, IVAS_CPE_TD ) ) @@ -770,14 +599,7 @@ ivas_error core_switching_pre_dec_fx( lsf2lsp_fx( st_fx->lsf_old_fx, st_fx->lsp_old_fx, M, INT_FS_FX ); } -#ifdef IVAS_CODE_SWITCHING - if ( ( st->element_mode == IVAS_CPE_DFT || st->element_mode == IVAS_CPE_TD ) && nchan_out == 2 && st->core_brate > SID_2k40 && ( last_core_brate_st0 == FRAME_NO_DATA || last_core_brate_st0 == SID_2k40 ) && st->hTcxDec != NULL ) - { - /* Last frame was Stereo CNG and the synthesis memory is outdated -- reset */ - set_f( st->hTcxDec->old_syn_Overl, 0.0f, L_FRAME32k / 2 ); - set_f( st->hFdCngDec->hFdCngCom->olapBufferAna, 0.0f, FFTLEN ); - } -#endif + set16_fx( st_fx->agc_mem_fx, 0, 2 ); st_fx->mem_deemph_fx = 0; move16(); @@ -876,47 +698,7 @@ ivas_error core_switching_pre_dec_fx( set16_fx( hBWE_FD->old_syn_12k8_16k_fx, 0, NS2SA_FX2( 16000, DELAY_FD_BWE_ENC_NS ) ); } } -#ifdef IVAS_CODE_SWITCHING - if ( ( st->core == ACELP_CORE || st->core == AMR_WB_CORE ) && ( st->last_core == TCX_20_CORE || st->last_core == TCX_10_CORE ) ) - { - if ( st->hBWE_TD != NULL ) - { - st->hBWE_TD->bwe_non_lin_prev_scale = 0.0f; - set_f( st->hBWE_TD->old_bwe_exc, 0, PIT16k_MAX * 2 ); - } - - st->tilt_code = 0.0f; - st->gc_threshold = 0.0f; - set_f( st->dispMem, 0, 8 ); - st->last_coder_type = GENERIC; - - fer_energy( output_frame, UNVOICED_CLAS, st->previoussynth, -1, &st->enr_old, 1 ); - st->lp_gainp = 0.0f; - st->lp_gainc = (float) sqrt( st->lp_ener ); - - st->last_voice_factor = 0; - st->Last_GSC_noisy_speech_flag = 0; - - if ( st->output_Fs >= 16000 && st->hBWE_zero != NULL ) - { - hf_synth_reset( st->hBWE_zero ); - } - - if ( st->hBWE_FD != NULL ) - { - set_f( st->hBWE_FD->old_syn_12k8_16k, 0, NS2SA( 16000, DELAY_FD_BWE_ENC_NS ) ); - } - - if ( nchan_out == 1 && st->element_mode == IVAS_CPE_DFT && st->element_brate <= IVAS_24k4 && last_element_brate > IVAS_24k4 ) - { - /* update cldbf state with previous frame TCX synthesis when going from a bitrate with residual coding to a bitrate without it */ - int16_t offset; - offset = st->cldfbAna->p_filter_length - st->cldfbAna->no_channels; - mvr2r( st->hTcxDec->old_synthFB + st->hTcxDec->old_synth_lenFB - offset, st->cldfbAna->cldfb_state, offset ); - } - } -#endif test(); test(); test(); @@ -941,40 +723,16 @@ ivas_error core_switching_pre_dec_fx( { set32_fx( hHQ_core->prev_coeff_out_fx, 0, L_HQ_WB_BWE ); } -#ifdef IVAS_CODE_SWITCHING - if ( st->element_mode != EVS_MONO ) - { - /* Estimate mem_env_delta to reinit env_stab */ - tmp = max( 0, ENV_STAB_EST1 + ( ENV_STAB_EST2 * st->stab_fac_smooth_lt ) + ( ENV_STAB_EST3 * st->log_energy_diff_lt ) ); - st->hHQ_core->mem_env_delta = (int16_t) min( MAX16B, (int32_t) ( tmp * ( 1 << 12 ) ) ); /* Convert to Q12 and handle saturation */ - - if ( st->last_core != TCX_20_CORE && st->last_core != TCX_10_CORE ) - { - set_f( st->hHQ_core->old_out, 0, output_frame ); - set_f( st->hHQ_core->old_outLB, 0, L_FRAME16k ); - } - - st->hHQ_core->no_att_hangover = 0; - st->hHQ_core->energy_lt = 300.0f; - set_s( st->hHQ_core->old_is_transient, 0, 3 ); - set_f( st->hHQ_core->prev_noise_level, 0.0f, 2 ); - st->hHQ_core->prev_R = 0; - set_s( st->hHQ_core->mem_norm + 1, 39, SFM_N_ENV_STAB - 1 ); - st->hHQ_core->prev_hqswb_clas = HQ_NORMAL; - st->hHQ_core->prev_ni_ratio = 0.5f; - set_f( st->hHQ_core->prev_En_sb, 0.0f, NB_SWB_SUBBANDS ); + if ( st_fx->element_mode != EVS_MONO ) + { } else -#endif { set16_fx( hHQ_core->old_out_fx, 0, output_frame ); hHQ_core->Q_old_wtda_LB = 15; hHQ_core->Q_old_wtda = 15; move16(); -#ifdef IVAS_CODE_SWITCHING - set_f( st->hHQ_core->old_outLB, 0, L_FRAME16k ); -#endif } } @@ -1081,12 +839,10 @@ ivas_error core_switching_pre_dec_fx( IF( NE_16( st_fx->last_L_frame, st_fx->L_frame ) && LE_16( st_fx->L_frame, L_FRAME16k ) && LE_16( st_fx->last_L_frame, L_FRAME16k ) ) { test(); -#ifdef IVAS_CODE_SWITCHING IF( EQ_16( st_fx->element_mode, IVAS_CPE_DFT ) || EQ_16( st_fx->element_mode, IVAS_CPE_TD ) ) { - lerp( st_fx->hFdCngDec->hFdCngCom->olapBufferAna + st_fx->last_L_frame, st_fx->hFdCngDec->hFdCngCom->olapBufferAna + st_fx->L_frame, st_fx->L_frame, st_fx->last_L_frame ); } -#endif + lerp( st_fx->hFdCngDec->hFdCngCom->olapBufferSynth2, st_fx->hFdCngDec->hFdCngCom->olapBufferSynth2, shl( st_fx->L_frame, 1 ), shl( st_fx->last_L_frame, 1 ) ); test(); IF( LE_32( st_fx->total_brate, SID_2k40 ) && LE_32( st_fx->last_total_brate, SID_2k40 ) ) @@ -1122,22 +878,12 @@ ivas_error core_switching_pre_dec_fx( *---------------------------------------------------------------------*/ ivas_error core_switching_post_dec_fx( - Decoder_State *st_fx, /* i/o: decoder state structure */ - Word16 *synth, /* i/o: output synthesis Qsynth*/ -#ifdef IVAS_CODE_SWITCHING - float *output, /* i/o: LB synth/upsampled LB synth */ - float output_mem[], /* i : OLA memory from last TCX/HQ frame */ - const IVAS_FORMAT ivas_format, /* i : IVAS format */ - const Word16 use_cldfb_for_dft, /* i : flag to use of CLDFB for DFT Stereo */ -#endif + Decoder_State *st_fx, /* i/o: decoder state structure */ + Word16 *synth, /* i/o: output synthesis Qsynth*/ const Word16 output_frame, /* i : frame length Q0*/ const Word16 core_switching_flag, /* i : ACELP->HQ switching flag Q0*/ -#ifdef IVAS_CODE_SWITCHING - const Word16 sba_dirac_stereo_flag, /* i : signal stereo output for SBA DirAC */ - const Word16 nchan_out, /* i : number of output channels */ -#endif - const Word16 last_element_mode, /* i : element mode of previous frame Q0*/ - Word16 *Qsynth /* i/o: Scaling of ACELP exit (Q_syn2-1) or HQ exit (Qsynth); changes after this function */ + const Word16 last_element_mode, /* i : element mode of previous frame Q0*/ + Word16 *Qsynth /* i/o: Scaling of ACELP exit (Q_syn2-1) or HQ exit (Qsynth); changes after this function */ ) { Word16 i, delay_comp, delta; @@ -1152,20 +898,13 @@ ivas_error core_switching_post_dec_fx( HQ_DEC_HANDLE hHQ_core; ivas_error error; -#ifdef IVAS_CODE_SWITCHING - int16_t offset; -#endif -#ifdef REMOVE_IVAS_UNUSED_PARAMETERS_WARNING (void) ( last_element_mode ); -#endif hBWE_TD = st_fx->hBWE_TD; hBWE_FD = st_fx->hBWE_FD; hHQ_core = st_fx->hHQ_core; error = IVAS_ERR_OK; move32(); - // PMT("core_switching_post_dec_fx : Only handles has been converted, code needs to be entirely reviewed ") - /* Rescale synthesis in Q0 to avoid multiple rescaling after */ tmp = Find_Max_Norm16( synth, output_frame ); Scale_sig( synth, output_frame, tmp ); @@ -1237,10 +976,7 @@ ivas_error core_switching_post_dec_fx( Scale_sig( st_fx->delay_buf_out_fx, delay_comp, sub( Qtmp, hHQ_core->Q_old_postdec ) ); /* Qtmp */ hHQ_core->Q_old_postdec = Qtmp; move16(); - - Copy( synth, &synth[delay_comp], output_frame ); /* Qsynth */ - Copy( st_fx->delay_buf_out_fx, synth, delay_comp ); /* Q0 */ - Copy( &synth[output_frame], st_fx->delay_buf_out_fx, delay_comp ); /* Qsynth */ + delay_signal_fx( synth, output_frame, st_fx->delay_buf_out_fx, delay_comp ); /* Qsynth, Q0 */ test(); test(); @@ -1412,7 +1148,7 @@ ivas_error core_switching_post_dec_fx( move16(); hBWE_FD->prev_weight_fx = 6554; move16(); /*0.2 in Q15*/ - st_fx->prev_fb_ener_adjust_fx = 0; + hBWE_FD->prev_fb_ener_adjust_fx = 0; move16(); } @@ -1464,8 +1200,8 @@ ivas_error core_switching_post_dec_fx( swb_tbe_reset_fx( hBWE_TD->mem_csfilt_fx, hBWE_TD->mem_genSHBexc_filt_down_shb_fx, hBWE_TD->state_lpc_syn_fx, hBWE_TD->syn_overlap_fx, hBWE_TD->state_syn_shbexc_fx, &( hBWE_TD->tbe_demph_fx ), &( hBWE_TD->tbe_premph_fx ), hBWE_TD->mem_stp_swb_fx, &( hBWE_TD->gain_prec_swb_fx ) ); - set16_fx( st_fx->GainShape_Delay, 0, NUM_SHB_SUBFR / 2 ); - swb_tbe_reset_synth_fx( hBWE_TD->genSHBsynth_Hilbert_Mem_fx, hBWE_TD->genSHBsynth_state_lsyn_filt_shb_local_fx ); + set16_fx( hBWE_TD->GainShape_Delay_fx, 0, NUM_SHB_SUBFR / 2 ); + swb_tbe_reset_synth_fx( hBWE_TD->genSHBsynth_Hilbert_Mem_fx, hBWE_TD->genSHBsynth_state_lsyn_filt_shb_local_fx, hBWE_TD->genSHBsynth_state_lsyn_filt_shb_local_fx_32 ); IF( EQ_16( output_frame, L_FRAME16k ) ) { @@ -1492,9 +1228,9 @@ ivas_error core_switching_post_dec_fx( test(); test(); test(); - IF( EQ_32( st_fx->output_Fs, 48000 ) && ( ( GT_32( st_fx->last_core_brate, SID_2k40 ) ) && ( EQ_32( st_fx->core_brate, FRAME_NO_DATA ) || EQ_32( st_fx->core_brate, SID_2k40 ) ) ) ) + IF( st_fx->hTdCngDec != NULL && EQ_32( st_fx->output_Fs, 48000 ) && ( ( GT_32( st_fx->last_core_brate, SID_2k40 ) ) && ( EQ_32( st_fx->core_brate, FRAME_NO_DATA ) || EQ_32( st_fx->core_brate, SID_2k40 ) ) ) ) { - set16_fx( st_fx->interpol_3_2_cng_dec_fx, 0, INTERP_3_2_MEM_LEN ); + set16_fx( st_fx->hTdCngDec->interpol_3_2_cng_dec_fx, 0, INTERP_3_2_MEM_LEN ); } /* reset FB TBE buffers */ @@ -1528,7 +1264,6 @@ ivas_error core_switching_post_dec_ivas_fx( Word16 *synth, /* i/o: output synthesis Qsynth*/ Word32 *output_fx, /* i/o: LB synth/upsampled LB synth Q4*/ Word16 output_mem_fx[], /* i : OLA memory from last TCX/HQ frame Qx*/ - const IVAS_FORMAT ivas_format, /* i : IVAS format */ const Word16 use_cldfb_for_dft, /* i : flag to use of CLDFB for DFT Stereo Q0*/ const Word16 output_frame, /* i : frame length Q0*/ const Word16 core_switching_flag, /* i : ACELP->HQ switching flag Q0*/ @@ -1549,7 +1284,7 @@ ivas_error core_switching_post_dec_ivas_fx( FD_BWE_DEC_HANDLE hBWE_FD; HQ_DEC_HANDLE hHQ_core; ivas_error error; - int16_t offset; + Word16 offset; L_tmp = 0; move32(); @@ -1560,8 +1295,6 @@ ivas_error core_switching_post_dec_ivas_fx( error = IVAS_ERR_OK; move32(); - // PMT("core_switching_post_dec_fx : Only handles has been converted, code needs to be entirely reviewed ") - /* Rescale synthesis in Q0 to avoid multiple rescaling after */ tmp = Find_Max_Norm16( synth, output_frame ); Scale_sig( synth, output_frame, tmp ); /* Qsynth + tmp */ @@ -1671,13 +1404,7 @@ ivas_error core_switching_post_dec_ivas_fx( Scale_sig( st_fx->delay_buf_out_fx, delay_comp, sub( Qtmp, hHQ_core->Q_old_postdec ) ); /* Qtmp */ hHQ_core->Q_old_postdec = Qtmp; move16(); - Word16 temp_buffer[L_FRAME48k]; - - Copy( st_fx->delay_buf_out_fx, temp_buffer, delay_comp ); /* Q0 */ - Copy( synth + sub( output_frame, delay_comp ), st_fx->delay_buf_out_fx, delay_comp ); /* Qsynth */ - move16(); - Copy( synth, synth + delay_comp, sub( output_frame, delay_comp ) ); /* Qsynth */ - Copy( temp_buffer, synth, delay_comp ); /* Q0 */ + delay_signal_fx( synth, output_frame, st_fx->delay_buf_out_fx, delay_comp ); /* Qsynth, Q0 */ test(); test(); @@ -1765,7 +1492,7 @@ ivas_error core_switching_post_dec_ivas_fx( Copy_Scale_sig( st_fx->previoussynth_fx, synth, delay_comp, *Qsynth ); /* Qsynth */ /* Overlap between TCX-LB and TCX-FB*/ - Word16 tmpDelta = NS2SA( st_fx->output_Fs, DELAY_BWE_TOTAL_NS ); + Word16 tmpDelta = NS2SA_FX2( st_fx->output_Fs, DELAY_BWE_TOTAL_NS ); Word32 L_tmp2; FOR( i = 0; i < tmpDelta; i++ ) { @@ -1784,11 +1511,12 @@ ivas_error core_switching_post_dec_ivas_fx( test(); test(); test(); - IF( ( EQ_16( st_fx->element_mode, IVAS_CPE_MDCT ) || ( EQ_16( ivas_format, ISM_FORMAT ) && EQ_16( st_fx->core, TCX_20_CORE ) /* <- means TCX in general, TCX10 is forbidden after ACELP */ ) ) && LE_32( st_fx->last_core_brate, SID_2k40 ) && GT_32( st_fx->core_brate, SID_2k40 ) ) + IF( ( EQ_16( st_fx->element_mode, IVAS_CPE_MDCT ) || ( st_fx->is_ism_format && EQ_16( st_fx->core, TCX_20_CORE ) /* <- means TCX in general, TCX10 is forbidden after ACELP */ ) ) && LE_32( st_fx->last_core_brate, SID_2k40 ) && GT_32( st_fx->core_brate, SID_2k40 ) ) { /* smooth transitions to avoid pops in car noise items */ smoothTransitionDtxToTcx_fx( synth, output_frame, delay_comp ); } + /* Reset memories of CLDFBs */ IF( st_fx->cldfbAna != NULL ) { @@ -1924,7 +1652,7 @@ ivas_error core_switching_post_dec_ivas_fx( } IF( output_mem_fx != NULL ) { - Scale_sig( output_mem_fx, NS2SA( st_fx->output_Fs, STEREO_DFT32MS_OVL_NS ), Qtmp ); /* Qtmp */ + Scale_sig( output_mem_fx, NS2SA_FX2( st_fx->output_Fs, STEREO_DFT32MS_OVL_NS ), Qtmp ); /* Qtmp */ } *Qsynth = Qtmp; move16(); @@ -2052,7 +1780,7 @@ ivas_error core_switching_post_dec_ivas_fx( move16(); hBWE_FD->prev_weight_fx = 6554; move16(); /*0.2 in Q15*/ - st_fx->prev_fb_ener_adjust_fx = 0; + hBWE_FD->prev_fb_ener_adjust_fx = 0; move16(); } @@ -2113,12 +1841,11 @@ ivas_error core_switching_post_dec_ivas_fx( swb_tbe_reset_fx( hBWE_TD->mem_csfilt_fx, hBWE_TD->mem_genSHBexc_filt_down_shb_fx, hBWE_TD->state_lpc_syn_fx, hBWE_TD->syn_overlap_fx, hBWE_TD->state_syn_shbexc_fx, &( hBWE_TD->tbe_demph_fx ), &( hBWE_TD->tbe_premph_fx ), hBWE_TD->mem_stp_swb_fx, &( hBWE_TD->gain_prec_swb_fx ) ); - set16_fx( st_fx->GainShape_Delay, 0, NUM_SHB_SUBFR / 2 ); - // swb_tbe_reset_synth_fx( hBWE_TD->genSHBsynth_Hilbert_Mem_fx, hBWE_TD->genSHBsynth_state_lsyn_filt_shb_local_fx ); - swb_tbe_reset_synth_ivas_fx( hBWE_TD->genSHBsynth_Hilbert_Mem_fx, hBWE_TD->genSHBsynth_state_lsyn_filt_shb_local_fx, hBWE_TD->genSHBsynth_state_lsyn_filt_shb_local_fx_32 ); + set16_fx( hBWE_TD->GainShape_Delay_fx, 0, NUM_SHB_SUBFR / 2 ); + swb_tbe_reset_synth_fx( hBWE_TD->genSHBsynth_Hilbert_Mem_fx, hBWE_TD->genSHBsynth_state_lsyn_filt_shb_local_fx, hBWE_TD->genSHBsynth_state_lsyn_filt_shb_local_fx_32 ); - st_fx->hBWE_TD->prev_pow_exc16kWhtnd_fx32 = 1; /* Q0 1.f */ - st_fx->hBWE_TD->prev_mix_factor_fx = 32767; /* Q15 1.f */ + hBWE_TD->prev_pow_exc16kWhtnd_fx32 = 1; /* Q0 1.f */ + hBWE_TD->prev_mix_factor_fx = 32767; /* Q15 1.f */ move16(); move16(); @@ -2142,7 +1869,7 @@ ivas_error core_switching_post_dec_ivas_fx( } ELSE IF( st_fx->hBWE_TD != NULL && ( EQ_16( st_fx->last_core, TCX_20_CORE ) || EQ_16( st_fx->last_core, TCX_10_CORE ) ) ) { - TBEreset_dec_ivas_fx( st_fx ); + TBEreset_dec_fx( st_fx ); } /* reset FB TBE buffers */ @@ -2174,9 +1901,9 @@ ivas_error core_switching_post_dec_ivas_fx( test(); test(); test(); - IF( EQ_32( st_fx->output_Fs, 48000 ) && ( ( GT_32( st_fx->last_core_brate, SID_2k40 ) ) && ( EQ_32( st_fx->core_brate, FRAME_NO_DATA ) || EQ_32( st_fx->core_brate, SID_2k40 ) ) ) ) + IF( st_fx->hTdCngDec != NULL && EQ_32( st_fx->output_Fs, 48000 ) && ( ( GT_32( st_fx->last_core_brate, SID_2k40 ) ) && ( EQ_32( st_fx->core_brate, FRAME_NO_DATA ) || EQ_32( st_fx->core_brate, SID_2k40 ) ) ) ) { - set16_fx( st_fx->interpol_3_2_cng_dec_fx, 0, INTERP_3_2_MEM_LEN ); + set16_fx( st_fx->hTdCngDec->interpol_3_2_cng_dec_fx, 0, INTERP_3_2_MEM_LEN ); } return error; @@ -2329,7 +2056,11 @@ static void core_switch_lb_upsamp_fx( } /* synthesis of the combined signal */ - cldfbSynthesis_ivas_fx( realBuffer_fx, imagBuffer_fx, output, i_mult( CLDFB_OVRLP_MIN_SLOTS, st->cldfbSyn->no_channels ), st->cldfbSyn ); +#ifdef OPT_AVOID_STATE_BUF_RESCALE + cldfbSynthesis_ivas_fx( realBuffer_fx, imagBuffer_fx, output, i_mult( CLDFB_OVRLP_MIN_SLOTS, st->cldfbSyn->no_channels ), 0, 0, st->cldfbSyn ); +#else /* OPT_AVOID_STATE_BUF_RESCALE */ + cldfbSynthesis_ivas_fx( realBuffer_fx, imagBuffer_fx, output, i_mult( CLDFB_OVRLP_MIN_SLOTS, st->cldfbSyn->no_channels ), 0, st->cldfbSyn ); +#endif /* OPT_AVOID_STATE_BUF_RESCALE */ /*rescaling whole buffer to a common Q*/ no_col = st->cldfbSyn->no_col; @@ -2367,13 +2098,8 @@ static void smoothTransitionDtxToTcx_fx( Word16 i, filter_len; Word16 w, step, fade_in; Word32 mem; -#ifdef MSAN_FIX Word16 smoothing_input_buffer[2 * NS2SA( 48000, DELAY_CLDFB_NS ) + TRANSITION_SMOOTHING_LEN_48k]; Word16 smoothing_out_buffer[2 * NS2SA( 48000, DELAY_CLDFB_NS ) + TRANSITION_SMOOTHING_LEN_48k]; -#else - Word16 smoothing_input_buffer[2 * NS2SA( 48000, DELAY_CLDFB_NS ) + TRANSITION_SMOOTHING_LEN_48k]; - Word16 smoothing_out_buffer[2 * NS2SA( 48000, DELAY_CLDFB_NS ) + TRANSITION_SMOOTHING_LEN_48k]; -#endif set16_fx( smoothing_input_buffer, 0, 2 * NS2SA( 48000, DELAY_CLDFB_NS ) + TRANSITION_SMOOTHING_LEN_48k ); set16_fx( smoothing_out_buffer, 0, 2 * NS2SA( 48000, DELAY_CLDFB_NS ) + TRANSITION_SMOOTHING_LEN_48k ); @@ -2435,3 +2161,1003 @@ static void smoothTransitionDtxToTcx_fx( return; } + + +/*---------------------------------------------------------------------* + * core_switching_pre_dec() + * + * Preprocessing/preparation for ACELP/HQ core switching + *---------------------------------------------------------------------*/ +ivas_error core_switching_pre_dec_ivas_fx( + Decoder_State *st, /* i/o: decoder state structure */ + const Word16 output_frame, /* i : frame length */ + const Word32 last_core_brate_st0, /* i : channel 0 last core bitrate */ + const Word16 nchan_out, /* i : number of output channels */ + const Word16 last_element_mode, /* i : last_element_mode */ + const Word32 last_element_brate, /* i : last element bitrate */ + Word16 Q_old_synthFB, + Word16 *Q_olapBufferSynth, + Word16 *Q_olapBufferSynth2 ) +{ + Word32 tmp_fx; /*Q-12*/ + Word16 i, oldLenClasBuff, newLenClasBuff; + ivas_error error; + Word16 exp = 25; + move16(); + error = IVAS_ERR_OK; + move32(); + + /* Codec mode switching */ + test(); + test(); + test(); + IF( EQ_16( st->last_codec_mode, MODE2 ) || ( ( EQ_16( st->last_core, TCX_20_CORE ) || EQ_16( st->last_core, TCX_10_CORE ) ) && ( st->element_mode > EVS_MONO ) ) ) + { + st->mem_deemph_fx = st->syn[M]; + move16(); + set16_fx( st->agc_mem_fx, 0, 2 ); + Scale_sig( &( st->mem_deemph_fx ), 1, st->Q_syn ); /* Brings mem_deemph to Qsyn */ + + Copy_Scale_sig( st->mem_syn2_fx, st->mem_syn1_fx, M, sub( -1, st->Q_syn ) ); /*Q-1*/ + + st->bpf_off = 1; + move16(); + IF( st->hPFstat != NULL ) + { + Scale_sig( st->hPFstat->mem_pf_in, L_SUBFR, st->Q_syn ); /* Post_filter mem ,Q_syn*/ + Scale_sig( st->hPFstat->mem_res2, DECMEM_RES2, st->Q_syn ); /* NB post_filter mem , Q_syn*/ + Scale_sig( st->hPFstat->mem_stp, L_SUBFR, st->Q_syn ); /* Post_filter mem ,Q_syn*/ + set16_fx( st->hBPF->pst_old_syn_fx, 0, NBPSF_PIT_MAX ); /* BPF mem*/ + } + IF( st->hBPF != NULL ) + { + st->hBPF->pst_lp_ener_fx = round_fx( L_shl( Mpy_32_16_1( st->lp_error_ener, 0x6054 ), 2 + 8 ) ); /* convert from 15Q16, log2 -> 7Q8 10*log10 */ + st->hBPF->pst_mem_deemp_err_fx = 0; + move16(); + move16(); + } + st->psf_lp_noise_fx = round_fx( L_shl( st->lp_noise, 1 ) ); // Q(23+1-16)->Q8 + move16(); + + /* reset old HB synthesis buffer */ + IF( EQ_16( st->last_L_frame, L_FRAME ) ) + { + st->old_bwe_delay = NS2SA( st->output_Fs, MAX_DELAY_TBE_NS - DELAY_SWB_TBE_12k8_NS ); + } + ELSE + { + st->old_bwe_delay = NS2SA( st->output_Fs, MAX_DELAY_TBE_NS - DELAY_SWB_TBE_16k_NS ); + } + move16(); + set16_fx( st->hb_prev_synth_buffer_fx, 0, NS2SA( 48000, DELAY_BWE_TOTAL_NS ) ); + + test(); + IF( st->hBWE_TD != NULL && ( st->last_core != ACELP_CORE ) ) + { + st->hBWE_TD->prev_hb_synth_fx_exp = 31; + move16(); + /* reset BWE memories */ + set16_fx( st->hBWE_TD->old_bwe_exc_fx, 0, PIT16k_MAX * 2 ); + st->hBWE_TD->bwe_non_lin_prev_scale_fx = 0; + move32(); + } + + /* reset upd_cnt */ + st->upd_cnt = MAX_UPD_CNT; + move16(); + + st->igf = 0; + move16(); + + test(); + IF( GT_32( st->output_Fs, 16000 ) && st->hBWE_zero != NULL ) + { + hf_synth_reset_fx( st->hBWE_zero ); + set16_fx( st->hBWE_zero->mem_hp400_fx, 0, 6 ); + } + + IF( st->hBWE_FD != NULL ) + { + set16_fx( st->hBWE_FD->old_syn_12k8_16k_fx, 0, NS2SA( 16000, DELAY_FD_BWE_ENC_NS ) ); + } + + IF( st->hHQ_core != NULL ) + { + set32_fx( st->hHQ_core->prev_env_fx, 0, SFM_N_WB ); + set32_fx( st->hHQ_core->prev_normq_fx, 0, SFM_N_WB ); + + set32_fx( st->hHQ_core->last_ni_gain_fx, 0, BANDS_MAX ); + set16_fx( st->hHQ_core->last_env_fx, 0, BANDS_MAX ); + + st->hHQ_core->last_max_pos_pulse = 0; + move16(); + + IF( GT_32( st->output_Fs, 16000 ) ) + { + set32_fx( st->hHQ_core->prev_coeff_out_fx, 0, L_HQ_WB_BWE ); + } + + /* pre-echo */ + st->hHQ_core->pastpre = 0; + move16(); + } + + /* reset the GSC pre echo energy threshold in case of switching */ + if ( st->hGSCDec != NULL ) + { + st->hGSCDec->Last_frame_ener_fx = MAX_32; + move32(); + } + + test(); + IF( EQ_16( st->last_core, TCX_20_CORE ) || EQ_16( st->last_core, TCX_10_CORE ) ) + { + IF( st->element_mode == EVS_MONO ) + { + st->last_core = HQ_CORE; + move16(); + + Copy32( st->hTcxDec->FBTCXdelayBuf_32, st->prev_synth_buffer32_fx, NS2SA( st->output_Fs, DELAY_BWE_TOTAL_NS - DELAY_CLDFB_NS ) ); + // Copy_Scale_sig_32_16( st->hTcxDec->FBTCXdelayBuf_32, st->prev_synth_buffer_fx, NS2SA( st->output_Fs, DELAY_BWE_TOTAL_NS - DELAY_CLDFB_NS ), -11 ); //Q11 -> Q0 + } + + IF( st->hHQ_core != NULL ) + { + set32_fx( st->hHQ_core->last_ni_gain_fx, 0, BANDS_MAX ); + set16_fx( st->hHQ_core->last_env_fx, 0, BANDS_MAX ); + st->hHQ_core->last_max_pos_pulse = 0; + move16(); + + set16_fx( st->hHQ_core->prev_SWB_peak_pos_fx, 0, SPT_SHORTEN_SBNUM ); + st->hHQ_core->prev_frm_hfe2 = 0; + st->hHQ_core->prev_stab_hfe2 = 0; + move16(); + move16(); + } + } + + IF( st->prev_bfi != 0 ) + { + Word16 delay_comp; + + /*switch off Hq Voicing as it was not updated in MODE2*/ + IF( st->hHQ_core != NULL ) + { + st->hHQ_core->oldHqVoicing = 0; + st->hHQ_core->HqVoicing = 0; + move16(); + move16(); + } + + delay_comp = NS2SA( st->output_Fs, DELAY_CLDFB_NS ); + /*TODO To be tested:control not entering the block*/ + test(); + test(); + IF( !st->last_con_tcx && ( st->last_core_bfi == ACELP_CORE ) && EQ_16( st->core, HQ_CORE ) ) + { + /*TODO None of the test dtreams are entering this block,hence enabled assert(0)*/ + assert( 0 ); + Word32 *realBuffer_fx[CLDFB_NO_COL_MAX_SWITCH], *imagBuffer_fx[CLDFB_NO_COL_MAX_SWITCH]; + Word32 realBufferTmp_fx[CLDFB_NO_COL_MAX_SWITCH][CLDFB_NO_CHANNELS_MAX], imagBufferTmp_fx[CLDFB_NO_COL_MAX_SWITCH][CLDFB_NO_CHANNELS_MAX]; + Word32 syn_Overl_fx[320]; + Word32 fer_samples_fx[960]; + Copy_Scale_sig_16_32_DEPREC( st->hTcxDec->syn_Overl, syn_Overl_fx, 320, 15 ); + Copy_Scale_sig_16_32_DEPREC( st->hHQ_core->fer_samples_fx, fer_samples_fx, 960, 15 ); + + + FOR( i = 0; i < CLDFB_NO_COL_MAX_SWITCH; i++ ) + { + set32_fx( realBufferTmp_fx[i], 0, CLDFB_NO_CHANNELS_MAX ); + set32_fx( imagBufferTmp_fx[i], 0, CLDFB_NO_CHANNELS_MAX ); + realBuffer_fx[i] = realBufferTmp_fx[i]; + imagBuffer_fx[i] = imagBufferTmp_fx[i]; + } + + /* CLDFB analysis of the synthesis at internal sampling rate */ + IF( NE_32( ( error = cldfb_save_memory_ivas_fx( st->cldfbAna ) ), IVAS_ERR_OK ) ) + { + return error; + } + + cldfbAnalysis_ivas_fx( syn_Overl_fx, realBuffer_fx, imagBuffer_fx, delay_comp, st->cldfbAna ); + cldfb_restore_memory_ivas_fx( st->cldfbAna ); /*Assuming Q10*/ + + /* CLDFB synthesis of the combined signal */ + IF( NE_32( ( error = cldfb_save_memory_ivas_fx( st->cldfbSyn ) ), IVAS_ERR_OK ) ) + { + return error; + } + +#ifdef OPT_AVOID_STATE_BUF_RESCALE + cldfbSynthesis_ivas_fx( realBuffer_fx, imagBuffer_fx, fer_samples_fx, delay_comp, 0, 0, st->cldfbSyn ); +#else /* OPT_AVOID_STATE_BUF_RESCALE */ + cldfbSynthesis_ivas_fx( realBuffer_fx, imagBuffer_fx, fer_samples_fx, delay_comp, 0, st->cldfbSyn ); +#endif /* OPT_AVOID_STATE_BUF_RESCALE */ + cldfb_restore_memory_ivas_fx( st->cldfbSyn ); + Copy_Scale_sig_32_16( syn_Overl_fx, st->hTcxDec->syn_Overl, 320, 15 ); + Copy_Scale_sig_32_16( fer_samples_fx, st->hHQ_core->fer_samples_fx, 960, 9 ); + } + + test(); + test(); + IF( !st->last_con_tcx && ( st->last_core_bfi == ACELP_CORE ) && EQ_16( st->core, HQ_CORE ) ) + { + lerp( st->hTcxDec->syn_Overl, st->hHQ_core->fer_samples_fx + delay_comp, shr( output_frame, 1 ), shr( st->last_L_frame, 1 ) ); + /*Set to zero the remaining part*/ + set16_fx( st->hHQ_core->fer_samples_fx + delay_comp + output_frame / 2, 0, sub( shr( output_frame, 1 ), delay_comp ) ); + } + } + + st->use_acelp_preq = 0; + st->reset_mem_AR = 0; + move16(); + move16(); + } + + /*FEC*/ + IF( LE_16( st->L_frame, L_FRAME16k ) ) + { + test(); + IF( LE_16( st->last_L_frame, L_FRAME16k ) && NE_16( st->core, HQ_CORE ) ) + { + IF( NE_16( st->L_frame, st->last_L_frame ) ) + { + IF( GT_16( st->L_frame, st->last_L_frame ) ) + { + oldLenClasBuff = mult_r( L_SYN_MEM_CLAS_ESTIM, div_s( st->last_L_frame, st->L_frame ) ); + newLenClasBuff = L_SYN_MEM_CLAS_ESTIM; + move16(); + } + ELSE + { + oldLenClasBuff = L_SYN_MEM_CLAS_ESTIM; + move16(); + newLenClasBuff = mult_r( L_SYN_MEM_CLAS_ESTIM, div_s( st->L_frame, st->last_L_frame ) ); + } + lerp( &st->mem_syn_clas_estim_fx[L_SYN_MEM_CLAS_ESTIM - oldLenClasBuff], &st->mem_syn_clas_estim_fx[L_SYN_MEM_CLAS_ESTIM - newLenClasBuff], newLenClasBuff, oldLenClasBuff ); + } + } + ELSE + { + set16_fx( st->mem_syn_clas_estim_fx, 0, L_SYN_MEM_CLAS_ESTIM ); + } + } + + /* Here we only handle cases where last_ppp and last_nelp not updated when coming from CodecB or other cores + within ACELP_CORE if switching from another bitarate to vbr, last_ppp and last_nelp is always updated in the previous frame */ + test(); + test(); + IF( ( st->core == ACELP_CORE ) && ( ( st->last_core != ACELP_CORE ) || EQ_16( st->last_codec_mode, MODE2 ) ) ) + { + st->last_ppp_mode_dec = 0; + st->last_nelp_mode_dec = 0; + move16(); + move16(); + } + + /* Handle state reset of stat_noise_uv_mod memory */ + test(); + test(); + test(); + IF( ( st->core == ACELP_CORE ) && ( ( st->last_core != ACELP_CORE ) || EQ_16( st->last_codec_mode, MODE2 ) || LE_32( st->last_total_brate, PPP_NELP_2k80 ) ) ) + { + st->act_count = 3; + st->uv_count = 0; + move16(); + move16(); + } + + test(); + test(); + test(); + test(); + test(); + test(); + test(); + test(); + test(); + test(); + test(); + IF( ( ( ( st->core == ACELP_CORE ) || EQ_16( st->core, AMR_WB_CORE ) ) && EQ_16( st->last_core, HQ_CORE ) ) || ( ( EQ_16( st->element_mode, IVAS_CPE_DFT ) || EQ_16( st->element_mode, IVAS_CPE_TD ) || ( EQ_16( st->element_mode, IVAS_CPE_MDCT ) && EQ_16( last_element_mode, IVAS_CPE_DFT ) ) ) && EQ_16( nchan_out, 2 ) && + NE_32( st->core_brate, SID_2k40 ) && ( st->core_brate != FRAME_NO_DATA ) && ( ( last_core_brate_st0 == FRAME_NO_DATA ) || EQ_32( last_core_brate_st0, SID_2k40 ) ) ) ) + { + test(); + if ( EQ_16( st->element_mode, IVAS_CPE_DFT ) || EQ_16( st->element_mode, IVAS_CPE_TD ) ) + { + st->hPFstat->reset = 1; + move16(); + } + + IF( EQ_16( st->L_frame, L_FRAME16k ) ) + { + Copy( TRWB2_Ave_fx, st->lsf_old_fx, M ); /* init of LSP */ + Copy( TRWB2_Ave_fx, st->lsfoldbfi1_fx, M ); + Copy( TRWB2_Ave_fx, st->lsfoldbfi0_fx, M ); + Copy( TRWB2_Ave_fx, st->lsf_adaptive_mean_fx, M ); + lsf2lsp_fx( st->lsf_old_fx, st->lsp_old_fx, M, INT_FS_16k ); + } + ELSE + { + Copy( TRWB_Ave_fx, st->lsf_old_fx, M ); /* init of LSP */ + Copy( TRWB_Ave_fx, st->lsfoldbfi1_fx, M ); + Copy( TRWB_Ave_fx, st->lsfoldbfi0_fx, M ); + Copy( TRWB_Ave_fx, st->lsf_adaptive_mean_fx, M ); + lsf2lsp_fx( st->lsf_old_fx, st->lsp_old_fx, M, INT_FS_12k8 ); + } + + test(); + test(); + test(); + test(); + test(); + test(); + IF( ( EQ_16( st->element_mode, IVAS_CPE_DFT ) || EQ_16( st->element_mode, IVAS_CPE_TD ) ) && EQ_16( nchan_out, 2 ) && GT_32( st->core_brate, SID_2k40 ) && ( ( last_core_brate_st0 == FRAME_NO_DATA ) || EQ_32( last_core_brate_st0, SID_2k40 ) ) && st->hTcxDec != NULL ) + { + /* Last frame was Stereo CNG and the synthesis memory is outdated -- reset */ + set16_fx( st->hTcxDec->old_syn_Overl, 0, L_FRAME32k / 2 ); + set16_fx( st->hFdCngDec->hFdCngCom->olapBufferAna_fx, 0, FFTLEN ); + set16_fx( st->agc_mem_fx, 0, 2 ); + } + st->mem_deemph_fx = 0; + move16(); + IF( !st->last_con_tcx ) + { + set16_fx( st->mem_syn2_fx, 0, M ); + } + set16_fx( st->mem_syn1_fx, 0, M ); + if ( st->hBWE_TD != NULL ) + { + st->hBWE_TD->bwe_non_lin_prev_scale_fx = 0; + move32(); + } + + /* Reset ACELP parameters */ + set16_fx( st->mem_MA_fx, 0, M ); + + IF( EQ_32( st->sr_core, INT_FS_16k ) ) + { + Copy( GEWB2_Ave_fx, st->mem_AR_fx, M ); + } + ELSE + { + Copy( GEWB_Ave_fx, st->mem_AR_fx, M ); + } + + st->tilt_code_fx = 0; + st->gc_threshold_fx = 0; + st->dm_fx.prev_gain_code = 0; + st->dm_fx.prev_state = 0; + move16(); + move32(); + move32(); + move16(); + set16_fx( st->dm_fx.prev_gain_pit, 0, 6 ); + + st->last_coder_type = GENERIC; + move16(); + + fer_energy_fx( output_frame, UNVOICED_CLAS, st->previoussynth_fx_32, 0, -1, &st->enr_old_fx, 1 ); /*Q-0*/ + st->lp_gainp_fx = 0; + move16(); + st->lp_gainc_fx = extract_h( Sqrt32( st->lp_ener_fx, &exp ) ); /*Q=15-exp*/ + move16(); + st->lp_gainc_fx = shr( st->lp_gainc_fx, sub( 12, exp ) ); /*Q3*/ + move16(); + + st->last_voice_factor_fx = 0; + st->Last_GSC_noisy_speech_flag = 0; + move16(); + move16(); + + /* reset CLDFB memories */ + cldfb_reset_memory_fx( st->cldfbAna ); + cldfb_reset_memory_fx( st->cldfbBPF ); + cldfb_reset_memory_fx( st->cldfbSyn ); + + /* reset TBE memories */ + test(); + test(); + IF( !st->last_con_tcx && !( ( EQ_16( st->last_core, HQ_CORE ) ) && ( st->element_mode > EVS_MONO ) ) ) + { + set16_fx( st->old_exc_fx, 0, L_EXC_MEM_DEC ); + } + ELSE IF( LT_16( st->L_frame, L_FRAME16k ) ) + { + /* resample from 16kHz to 12.8kHZ */ + synth_mem_updt2( st->L_frame, L_FRAME16k, st->old_exc_fx, st->mem_syn_r, st->mem_syn2_fx, NULL, DEC ); + } + + IF( st->hBWE_TD != NULL ) + { + set16_fx( st->hBWE_TD->old_bwe_exc_fx, 0, PIT16k_MAX * 2 ); + } + + test(); + IF( GT_32( st->output_Fs, 16000 ) && st->hBWE_zero != NULL ) + { + hf_synth_reset_fx( st->hBWE_zero ); + set16_fx( st->hBWE_zero->mem_hp400_fx, 0, 6 ); + } + + IF( st->hBWE_FD != NULL ) + { + set16_fx( st->hBWE_FD->old_syn_12k8_16k_fx, 0, NS2SA( 16000, DELAY_FD_BWE_ENC_NS ) ); + } + } + + test(); + test(); + test(); + IF( ( ( st->core == ACELP_CORE ) || EQ_16( st->core, AMR_WB_CORE ) ) && ( EQ_16( st->last_core, TCX_20_CORE ) || EQ_16( st->last_core, TCX_10_CORE ) ) ) + { + IF( st->hBWE_TD != NULL ) + { + st->hBWE_TD->bwe_non_lin_prev_scale_fx = 0; + move32(); + set16_fx( st->hBWE_TD->old_bwe_exc_fx, 0, PIT16k_MAX * 2 ); + } + + st->tilt_code_fx = 0; + st->gc_threshold_fx = 0; + st->dm_fx.prev_gain_code = 0; + st->dm_fx.prev_state = 0; + move16(); + move32(); + move32(); + move16(); + set16_fx( st->dm_fx.prev_gain_pit, 0, 6 ); + st->last_coder_type = GENERIC; + move16(); + fer_energy_fx( output_frame, UNVOICED_CLAS, st->previoussynth_fx_32, 0, -1, &st->enr_old_fx, 1 ); /*Q-0*/ + + st->lp_gainp_fx = 0; + move16(); + st->lp_gainc_fx = extract_h( Sqrt32( st->lp_ener_fx, &exp ) ); /*Q=15-exp*/ + move16(); + st->lp_gainc_fx = shr( st->lp_gainc_fx, sub( 12, exp ) ); /*Q3*/ + move16(); + + st->last_voice_factor_fx = 0; + st->Last_GSC_noisy_speech_flag = 0; + move16(); + move16(); + + test(); + IF( GT_32( st->output_Fs, 16000 ) && st->hBWE_zero != NULL ) + { + hf_synth_reset_fx( st->hBWE_zero ); + set16_fx( st->hBWE_zero->mem_hp400_fx, 0, 6 ); + } + + IF( st->hBWE_FD != NULL ) + { + set16_fx( st->hBWE_FD->old_syn_12k8_16k_fx, 0, NS2SA( 16000, DELAY_FD_BWE_ENC_NS ) ); + } + + test(); + test(); + test(); + IF( EQ_16( nchan_out, 1 ) && EQ_16( st->element_mode, IVAS_CPE_DFT ) && LE_32( st->element_brate, IVAS_24k4 ) && GT_32( last_element_brate, IVAS_24k4 ) ) + { + /* update cldbf state with previous frame TCX synthesis when going from a bitrate with residual coding to a bitrate without it */ + Word16 offset; + offset = sub( st->cldfbAna->p_filter_length, st->cldfbAna->no_channels ); + Word32 *old_synthFB_fx; + IF( ( old_synthFB_fx = (Word32 *) malloc( st->hTcxDec->old_synth_lenFB * sizeof( Word32 ) ) ) == NULL ) + { + return ( IVAS_ERROR( IVAS_ERR_FAILED_ALLOC, "Cannot allocate memory for old_synth_lenFB (32 bit) \n" ) ); + } + Copy_Scale_sig_16_32_no_sat( st->hTcxDec->old_synthFB_fx, old_synthFB_fx, st->hTcxDec->old_synth_lenFB, sub( Q10, Q_old_synthFB ) ); // Q10 + Copy32( old_synthFB_fx + st->hTcxDec->old_synth_lenFB - offset, st->cldfbAna->cldfb_state_fx, offset ); + st->cldfbAna->Q_cldfb_state = Q10; + move16(); + IF( old_synthFB_fx ) + free( old_synthFB_fx ); + } + } + + test(); + test(); + test(); + test(); + IF( EQ_16( st->core, HQ_CORE ) && ( ( st->last_core == ACELP_CORE ) || EQ_16( st->last_core, AMR_WB_CORE ) || ( ( ( st->element_mode != EVS_MONO ) ) && ( NE_16( st->last_core, HQ_CORE ) ) ) ) ) + { + set32_fx( st->hHQ_core->prev_env_fx, 0, SFM_N_WB ); + set32_fx( st->hHQ_core->prev_normq_fx, 0, SFM_N_WB ); + + set32_fx( st->hHQ_core->last_ni_gain_fx, 0, BANDS_MAX ); + set16_fx( st->hHQ_core->last_env_fx, 0, BANDS_MAX ); + st->hHQ_core->last_max_pos_pulse = 0; + move16(); + + set16_fx( st->hHQ_core->prev_SWB_peak_pos_fx, 0, SPT_SHORTEN_SBNUM ); + st->hHQ_core->prev_frm_hfe2 = 0; + st->hHQ_core->prev_stab_hfe2 = 0; + move16(); + move16(); + IF( GT_32( st->output_Fs, 16000 ) ) + { + set32_fx( st->hHQ_core->prev_coeff_out_fx, 0, L_HQ_WB_BWE ); + } + + IF( st->element_mode != EVS_MONO ) + { + /* Estimate mem_env_delta to reinit env_stab */ + tmp_fx = L_max( 0, L_add( ENV_STAB_EST1_FX, L_add( Mult_32_16( st->stab_fac_smooth_lt_fx, ENV_STAB_EST2_FX ), Mult_32_16( st->log_energy_diff_lt_fx, ENV_STAB_EST3_FX ) ) ) ); /*Q12*/ + + st->hHQ_core->mem_env_delta = extract_l( L_min( MAX16B, tmp_fx ) ); /* Convert to Q12 and handle saturation */ + move16(); + test(); + IF( NE_16( st->last_core, TCX_20_CORE ) && NE_16( st->last_core, TCX_10_CORE ) ) + { + set16_fx( st->hHQ_core->old_out_fx, 0, output_frame ); + set32_fx( st->hHQ_core->old_out_LB_fx32, 0, L_FRAME16k ); + set16_fx( st->hHQ_core->old_out_LB_fx, 0, L_FRAME16k ); + } + + st->hHQ_core->no_att_hangover = 0; + move16(); + st->hHQ_core->energy_lt_fx = 2457600; /*300.0f Q13*/ + move32(); + set16_fx( st->hHQ_core->old_is_transient, 0, 3 ); + set16_fx( st->hHQ_core->prev_noise_level_fx, 0, 2 ); + st->hHQ_core->prev_R = 0; + move16(); + set16_fx( st->hHQ_core->mem_norm + 1, 39, SFM_N_ENV_STAB - 1 ); + st->hHQ_core->prev_hqswb_clas = HQ_NORMAL; + st->hHQ_core->prev_ni_ratio_fx = 16384; /*Q15*/ + move16(); + move16(); + set16_fx( st->hHQ_core->prev_En_sb_fx, 0, NB_SWB_SUBBANDS ); + } + ELSE + { + set16_fx( st->hHQ_core->old_out_fx, 0, output_frame ); + set32_fx( st->hHQ_core->old_out_LB_fx32, 0, L_FRAME16k ); + } + } + + /* handle switching cases where preecho_sb was not called in the last frame (memory not up to date) */ + IF( st->hHQ_core != NULL ) + { + st->hHQ_core->pastpre = sub( st->hHQ_core->pastpre, 1 ); + move16(); + IF( st->hHQ_core->pastpre < 0 ) + { + reset_preecho_dec_fx( st->hHQ_core ); + } + } + test(); + IF( st->core_brate == FRAME_NO_DATA ) + { + st->VAD = 0; + st->m_frame_type = ZERO_FRAME; + } + ELSE IF( EQ_32( st->core_brate, SID_2k40 ) || EQ_32( st->core_brate, SID_1k75 ) ) + { + st->VAD = 0; + st->m_frame_type = SID_FRAME; + } + ELSE + { + st->VAD = 1; + st->m_frame_type = ACTIVE_FRAME; + } + + move16(); + move16(); + /*switch on CNA on active frames*/ + IF( ( st->element_mode == EVS_MONO ) ) /* for IVAS modes, st->flag_cna is set earlier */ + { + test(); + test(); + test(); + test(); + test(); + test(); + IF( st->VAD && ( ( NE_16( st->core, AMR_WB_CORE ) && LE_32( st->total_brate, CNA_MAX_BRATE ) ) || ( EQ_16( st->core, AMR_WB_CORE ) && LE_32( st->total_brate, ACELP_8k85 ) ) ) ) + { + st->flag_cna = 1; + move16(); + } + ELSE IF( st->VAD || ( EQ_16( st->cng_type, FD_CNG ) && EQ_16( st->L_frame, L_FRAME16k ) ) ) + { + st->flag_cna = 0; + move16(); + } + } + + if ( EQ_16( st->core, AMR_WB_CORE ) ) + { + st->cng_type = LP_CNG; + move16(); + } + + /* Reconfigure CNG */ + test(); + test(); + test(); + test(); + IF( st->hFdCngDec && ( NE_16( st->last_L_frame, st->L_frame ) || NE_16( st->hFdCngDec->hFdCngCom->frameSize, st->L_frame ) || ( st->ini_frame == 0 ) || NE_16( st->bwidth, st->last_bwidth ) ) ) + { + /* || st->last_core == AMR_WB_CORE || st->last_codec_mode == MODE2)){*/ + IF( NE_16( st->core, AMR_WB_CORE ) ) + { + test(); + IF( EQ_16( st->rf_flag, 1 ) && EQ_32( st->total_brate, ACELP_13k20 ) ) + { + configureFdCngDec_ivas_fx( st->hFdCngDec, st->bwidth, ACELP_9k60, st->L_frame, st->last_L_frame, st->element_mode ); + } + ELSE + { + configureFdCngDec_ivas_fx( st->hFdCngDec, st->bwidth, st->total_brate, st->L_frame, st->last_L_frame, st->element_mode ); + } + } + ELSE + { + configureFdCngDec_ivas_fx( st->hFdCngDec, WB, ACELP_8k00, st->L_frame, st->last_L_frame, st->element_mode ); + + if ( st->VAD ) + { + st->hFdCngDec->hFdCngCom->CngBitrate = st->total_brate; + move32(); + } + } + test(); + test(); + IF( NE_16( st->last_L_frame, st->L_frame ) && LE_16( st->L_frame, L_FRAME16k ) && LE_16( st->last_L_frame, L_FRAME16k ) ) + { + test(); + IF( EQ_16( st->element_mode, IVAS_CPE_DFT ) || EQ_16( st->element_mode, IVAS_CPE_TD ) ) + { + lerp( st->hFdCngDec->hFdCngCom->olapBufferAna_fx + st->last_L_frame, st->hFdCngDec->hFdCngCom->olapBufferAna_fx + st->L_frame, st->L_frame, st->last_L_frame ); + } + + L_lerp_fx( st->hFdCngDec->hFdCngCom->olapBufferSynth2_fx, st->hFdCngDec->hFdCngCom->olapBufferSynth2_fx, shl( st->L_frame, 1 ), shl( st->last_L_frame, 1 ), Q_olapBufferSynth2 ); + + test(); + IF( LE_32( st->total_brate, SID_2k40 ) && LE_32( st->last_total_brate, SID_2k40 ) ) + { + L_lerp_fx( st->hFdCngDec->hFdCngCom->olapBufferSynth_fx, st->hFdCngDec->hFdCngCom->olapBufferSynth_fx, shl( st->L_frame, 1 ), shl( st->last_L_frame, 1 ), Q_olapBufferSynth ); + + IF( EQ_16( st->L_frame, L_FRAME ) ) + { + FOR( i = 0; i < ( st->L_frame * 2 ); i++ ) + { + st->hFdCngDec->hFdCngCom->olapBufferSynth_fx[i] = Mult_32_16( st->hFdCngDec->hFdCngCom->olapBufferSynth_fx[i], (Word16) 20480 /* 0.6250f in Q15 */ ); + move32(); + } + } + ELSE + { + FOR( i = 0; i < ( st->L_frame * 2 ); i++ ) + { + st->hFdCngDec->hFdCngCom->olapBufferSynth_fx[i] = Mult_32_16( L_shl( st->hFdCngDec->hFdCngCom->olapBufferSynth_fx[i], 1 ), (Word16) 26214 /* 1.6f in Q14 */ ); + move32(); + } + } + } + } + } + + return error; +} +/*---------------------------------------------------------------------* + * core_switching_hq_prepare_dec() + * + * Preprocessing in the first HQ frame after ACELP frame + * Modify bit allocation for HQ core by removing ACELP subframe budget + *---------------------------------------------------------------------*/ + +/*---------------------------------------------------------------------* + * bandwidth_switching_detect() + * + * Classification for band-width switching + *---------------------------------------------------------------------*/ + +void bandwidth_switching_detect_ivas_fx( + Decoder_State *st_fx /* i/o: encoder state structure */ +) +{ + test(); + test(); + IF( ( EQ_16( st_fx->element_mode, IVAS_CPE_TD ) && EQ_16( st_fx->idchan, 1 ) ) || EQ_16( st_fx->element_mode, IVAS_CPE_MDCT ) ) + { + /* there is no BWE in TD stereo secondary channel and in MDCT stereo, IGF is part of the core decoding -> no BW switching -> reset BWS counters */ + st_fx->prev_bws_cnt = 0; + st_fx->bws_cnt = 0; + st_fx->bws_cnt1 = 0; + move16(); + move16(); + move16(); + + return; + } + /* update band-width switching counter */ + test(); + test(); + test(); + test(); + IF( GE_16( st_fx->bws_cnt1, N_NS2W_FRAMES ) ) + { + st_fx->bws_cnt1 = 0; + move16(); + } + ELSE IF( GT_32( st_fx->total_brate, ACELP_9k60 ) && LT_32( st_fx->last_core_brate, ACELP_9k60 ) && EQ_16( st_fx->bwidth, SWB ) && EQ_16( st_fx->last_bwidth, WB ) && ( st_fx->last_low_rate_mode == 0 ) ) + { + st_fx->bws_cnt1 = add( st_fx->bws_cnt1, 1 ); + move16(); + } + ELSE IF( st_fx->bws_cnt1 > 0 ) + { + IF( LT_16( st_fx->bwidth, st_fx->last_bwidth ) ) + { + st_fx->bws_cnt = sub( shl( sub( N_NS2W_FRAMES, st_fx->bws_cnt1 ), 1 ), 1 ); + move16(); + } + ELSE + { + st_fx->bws_cnt = 0; + move16(); + } + + IF( LT_16( st_fx->bwidth, st_fx->last_bwidth ) ) + { + st_fx->bws_cnt1 = 0; + move16(); + } + ELSE + { + IF( EQ_16( st_fx->bwidth, SWB ) ) + { + st_fx->bws_cnt1 = add( st_fx->bws_cnt1, 1 ); + move16(); + } + ELSE + { + st_fx->bws_cnt1 = 0; + move16(); + } + } + } + + /* update band-width switching counter */ + test(); + test(); + test(); + IF( GE_16( st_fx->bws_cnt, N_WS2N_FRAMES ) ) + { + st_fx->bws_cnt = 0; + move16(); + } + ELSE IF( LT_32( st_fx->total_brate, ACELP_9k60 ) && GT_32( st_fx->last_core_brate, ACELP_9k60 ) && LT_16( st_fx->bwidth, st_fx->last_bwidth ) && EQ_16( st_fx->bwidth, WB ) ) + { + st_fx->bws_cnt = add( st_fx->bws_cnt, 1 ); + move16(); + } + ELSE IF( st_fx->bws_cnt > 0 ) + { + IF( GT_16( st_fx->bwidth, st_fx->last_bwidth ) ) + { + st_fx->bws_cnt1 = shr( sub( N_WS2N_FRAMES, st_fx->bws_cnt ), 1 ); + move16(); + } + ELSE + { + st_fx->bws_cnt1 = 0; + move16(); + } + + IF( GT_16( st_fx->bwidth, st_fx->last_bwidth ) ) + { + st_fx->bws_cnt = 0; + move16(); + } + ELSE + { + IF( EQ_16( st_fx->bwidth, WB ) ) + { + st_fx->bws_cnt = add( st_fx->bws_cnt, 1 ); + move16(); + } + ELSE + { + st_fx->bws_cnt = 0; + move16(); + } + } + } + + return; +} + + +/*---------------------------------------------------------------------* + * bw_switching_pre_proc() + * + * Band-width switching pre-processing + *---------------------------------------------------------------------*/ +void ivas_bw_switching_pre_proc_fx( + Decoder_State *st, /* i/o: decoder state structure */ + const Word32 last_element_brate, /* i : last element bitrate */ + const Word16 nchan_out /* i : number of output channels */, + Word32 *old_syn_12k8_16k_fx, + Word16 Q, + Word16 Q_audio ) +{ + Word16 i; + Word32 syn_dct_fx[L_FRAME]; + + + Flag Overflow = 0; + move32(); + + IF( st->element_mode > EVS_MONO ) + { + test(); + test(); + test(); + test(); + test(); + test(); + test(); + test(); + test(); + test(); + IF( ( st->core == ACELP_CORE ) && !( EQ_16( st->bfi, 1 ) && EQ_16( st->con_tcx, 1 ) ) && st->hBWE_FD != NULL && !( LE_32( st->core_brate, SID_2k40 ) && EQ_16( st->element_mode, IVAS_CPE_DFT ) && EQ_16( nchan_out, 2 ) ) && !( EQ_16( st->element_mode, IVAS_CPE_MDCT ) && EQ_16( nchan_out, 1 ) && EQ_16( st->idchan, 1 ) && LE_32( last_element_brate, IVAS_SID_5k2 ) ) ) + { + /* Calculate tilt of the ACELP core synthesis - needed in SWB BWE decoding */ + Word16 old_syn_12k8_16k_tmp_16fx[L_FRAME16k]; + Copy_Scale_sig_32_16( old_syn_12k8_16k_fx, old_syn_12k8_16k_tmp_16fx, st->L_frame, sub( -1, Q ) ); + st->tilt_wb_fx = round_fx_sat( L_shl_sat( calc_tilt_bwe_fx( old_syn_12k8_16k_tmp_16fx, -1, st->L_frame ), sub( Q, 8 ) ) ); // Q24+(Q-8) - 16 + move16(); + } + + return; + } + + + test(); + test(); + IF( ( st->core == ACELP_CORE ) && !( EQ_16( st->bfi, 1 ) && EQ_16( st->con_tcx, 1 ) ) ) + { + /*----------------------------------------------------------------------* + * Calculate tilt of the ACELP core synthesis + *----------------------------------------------------------------------*/ + + st->tilt_wb_fx = ivas_calc_tilt_bwe_fx( old_syn_12k8_16k_fx, Q, st->L_frame ); + move16(); + /*-------------------------------------------------------------------------------* + * Calculate frequency energy of 0~3.2kHz and 3.2~6.4kHz the ACELP core synthesis + *-------------------------------------------------------------------------------*/ + edct_fx( old_syn_12k8_16k_fx, syn_dct_fx, L_FRAME, &Q ); + Word64 W_tmp = 0; + move64(); + Word32 tmp; + Word16 shift; + FOR( i = 0; i < L_FRAME / 2; i++ ) + { + W_tmp = W_add( W_tmp, W_shr( W_mult0_32_32( syn_dct_fx[i], syn_dct_fx[i] ), Q ) ); + } + shift = W_norm( W_tmp ); + W_tmp = W_shl( W_tmp, shift ); + tmp = W_extract_h( W_tmp ); + tmp = L_shr( tmp, 8 ); + + tmp = getSqrtWord32( tmp ); + st->enerLL_fx = tmp; + move32(); + st->enerLL_fx_Q = shr( sub( add( Q, shift ), 32 ), 1 ); + move16(); + W_tmp = 0; + move64(); + FOR( ; i < L_FRAME; i++ ) + { + W_tmp = W_add( W_tmp, W_shr( W_mult0_32_32( syn_dct_fx[i], syn_dct_fx[i] ), Q ) ); + } + shift = W_norm( W_tmp ); + W_tmp = W_shl( W_tmp, shift ); + tmp = W_extract_h( W_tmp ); // Q = Q + shift - 32 + tmp = L_shr( tmp, 7 ); // divide by 128 + tmp = getSqrtWord32( tmp ); + st->enerLH_fx = tmp; + move32(); + st->enerLH_fx_Q = shr( sub( add( Q, shift ), 32 ), 1 ); + move16(); + } + ELSE + { + IF( st->hHQ_core->old_is_transient[0] ) + { + Word32 tmp, L_tmp = 0; + move32(); + FOR( i = 0; i < 32; i++ ) + { + L_tmp = L_mac0_o( L_tmp, st->t_audio_q_fx[i], st->t_audio_q_fx[i], &Overflow ); + } + tmp = L_shr( L_tmp, 5 ); // divide by 32 + tmp = getSqrtWord32( tmp ); + st->enerLL_fx = tmp; + move32(); + st->enerLL_fx_Q = Q_audio; + move16(); + + L_tmp = 0; + move32(); + FOR( ; i < 64; i++ ) + { + L_tmp = L_mac0_o( L_tmp, st->t_audio_q_fx[i], st->t_audio_q_fx[i], &Overflow ); + } + + tmp = L_shr( L_tmp, 5 ); // divide by 32 + tmp = getSqrtWord32( tmp ); + st->enerLH_fx = tmp; + move32(); + st->enerLH_fx_Q = Q_audio; + move16(); + } + ELSE + { + Word32 tmp, L_tmp = 0; + move32(); + FOR( i = 0; i < L_FRAME / 2; i++ ) + { + L_tmp = L_mac0_o( L_tmp, st->t_audio_q_fx[i], st->t_audio_q_fx[i], &Overflow ); + } + tmp = L_shr( L_tmp, 5 ); // divide by 32 + tmp = getSqrtWord32( tmp ); + st->enerLL_fx = tmp; + move32(); + st->enerLL_fx_Q = Q_audio; + move16(); + + L_tmp = 0; + move32(); + FOR( ; i < L_FRAME; i++ ) + { + L_tmp = L_mac0_o( L_tmp, st->t_audio_q_fx[i], st->t_audio_q_fx[i], &Overflow ); + } + tmp = L_shr( L_tmp, 5 ); // divide by 32 + tmp = getSqrtWord32( tmp ); + st->enerLL_fx = tmp; + move32(); + st->enerLL_fx_Q = Q_audio; + move16(); + } + } + + test(); + test(); + test(); + test(); + test(); + test(); + test(); + IF( EQ_16( st->last_bwidth, 0 ) && LE_16( st->extl, SWB_CNG ) ) + { + st->prev_ener_shb_fx = 0; + move16(); + IF( st->hBWE_FD != NULL ) + { + set16_fx( st->hBWE_FD->prev_SWB_fenv_fx, 0, SWB_FENV ); + } + } + ELSE IF( ( ( ( st->core == ACELP_CORE ) && ( EQ_16( st->last_core, HQ_CORE ) || EQ_16( st->last_core, TCX_10_CORE ) || EQ_16( st->last_core, TCX_20_CORE ) ) ) || ( EQ_16( st->core, st->last_core ) && NE_16( st->extl, st->last_extl ) ) ) && GE_16( st->last_bwidth, SWB ) ) + { + st->attenu_fx = 3277; // 0.1f in Q15 + move16(); + } + + test(); + test(); + test(); + test(); + test(); + if ( EQ_16( st->last_core, HQ_CORE ) || ( ( st->last_core == ACELP_CORE ) && !( EQ_16( st->last_extl, WB_TBE ) || EQ_16( st->last_extl, SWB_TBE ) || EQ_16( st->last_extl, FB_TBE ) ) && GT_32( st->core_brate, ACELP_8k00 ) ) ) + { + st->prev_fractive = 0; + move16(); + } + + return; +} diff --git a/lib_dec/dec4t64_fx.c b/lib_dec/dec4t64_fx.c index 58f9048c4c69194c0874af32fad1343b5a9bde92..ee6ef65a6ce3aa2b91e1020f51ad5f12405baa84 100644 --- a/lib_dec/dec4t64_fx.c +++ b/lib_dec/dec4t64_fx.c @@ -793,242 +793,7 @@ void D_ACELP_decode_43bit_fx( UWord16 idxs[], Word16 code[], Word16 *pulsestrack return; } -#ifdef IVAS_CODE_FCB -/*-------------------------------------------------------* - * dec_1p_N1() - * - * Decode 1 pulse with N+1 bits - *-------------------------------------------------------*/ - -static void dec_1p_N1_L_subfr( - const int32_t index, /* i : quantization index */ - const int16_t nb_pos, /* i : number of positions */ - const int16_t N, /* i : nb. of bits */ - int16_t pos[] /* o : pulse position */ -) -{ - int16_t i, pos1; - int32_t mask; - - mask = ( ( 1 << N ) - 1 ); - pos1 = (int16_t) ( index & mask ); - i = (int16_t) ( index >> N ) & 1; - - if ( i == 1 ) - { - pos1 += nb_pos; - } - - pos[0] = pos1; - - return; -} - -/*-------------------------------------------------------* - * add_pulses() - * - * Add decoded pulses to the codeword - *-------------------------------------------------------*/ - -static void add_pulses_L_subfr( - const int16_t nb_pos, /* i : number of positions */ - const int16_t pos[], /* i : pulse position */ - const int16_t nb_pulse, /* i : nb. of pulses */ - const int16_t track, /* i : no. of the tracks */ - float code[] /* i/o: decoded codevector */ -) -{ - int16_t i, k; - - for ( k = 0; k < nb_pulse; k++ ) - { - i = ( ( pos[k] & ( nb_pos - 1 ) ) * NB_TRACK_FCB_4T ) + track; - if ( ( pos[k] & nb_pos ) == 0 ) - { - code[i] += 1.0f; - } - else - { - code[i] -= 1.0f; - } - } - - return; -} - -/*----------------------------------------------------------------------------------* - * dec_acelp_fast() - * - * fast algebraic codebook decoder - *----------------------------------------------------------------------------------*/ - -void dec_acelp_fast( - Decoder_State *st, /* i/o: decoder state structure */ - const int16_t cdk_index, /* i : codebook index */ - float code[], /* o : algebraic (fixed) codebook excitation */ - const int16_t L_subfr /* i : subframe length */ -) -{ - int16_t k, pos[7], skip_track; - int32_t L_index; - PulseConfig config; - - skip_track = -1; - set_f( code, 0.0f, L_subfr ); - - if ( L_subfr == L_SUBFR ) - { - config = PulseConfTable[cdk_index]; - - if ( cdk_index == 2 ) - { - dec_acelp_2t32( st, code ); - } - else if ( config.nb_pulse == 2 ) - { - /* 10 bits, 2 pulses, 4 tracks 1010 (used only even tracks) */ - for ( k = 0; k < NB_TRACK_FCB_4T - 1; k += 2 ) - { - L_index = get_next_indice( st, 5 ); - dec_1p_N1( L_index, 4, 0, pos ); - add_pulses( pos, 1, k, code ); - } - } - else if ( config.nb_pulse == 3 ) - { - if ( config.codetrackpos == TRACKPOS_FIXED_FIRST ) - { - /* 15 bits, 3 pulses, 4 tracks 1110 fixed track to first ? */ - for ( k = 0; k < NB_TRACK_FCB_4T - 1; k++ ) - { - L_index = get_next_indice( st, 5 ); - dec_1p_N1( L_index, 4, 0, pos ); - add_pulses( pos, 1, k, code ); - } - } - else if ( config.codetrackpos == TRACKPOS_FREE_THREE ) - { - /* 17 bits, 3 pulses, 4 tracks (used all tracks) - 1110, 1101, 1011, 0111 */ - skip_track = get_next_indice( st, 2 ); - for ( k = 0; k < NB_TRACK_FCB_4T; k++ ) - { - if ( k != skip_track ) - { - L_index = get_next_indice( st, 5 ); - dec_1p_N1( L_index, 4, 0, pos ); - add_pulses( pos, 1, k, code ); - } - } - } - } - else - { - if ( config.bits == 20 ) - { - skip_track = -1; - } - else if ( config.codetrackpos == TRACKPOS_FIXED_FIRST ) - { - skip_track = 0; - } - else if ( config.codetrackpos == TRACKPOS_FREE_ONE ) - { - skip_track = get_next_indice( st, 2 ); - } - - for ( k = 0; k < NB_TRACK_FCB_4T; k++ ) - { - if ( k == skip_track ) - { - L_index = get_next_indice( st, 9 ); - dec_2p_2N1( L_index, 4, 0, pos ); - add_pulses( pos, 2, k, code ); - } - else - { - L_index = get_next_indice( st, 5 ); - dec_1p_N1( L_index, 4, 0, pos ); - add_pulses( pos, 1, k, code ); - } - } - } - } - else /* L_subfr == 2*L_SUBFR */ - { - config.bits = cdk_index; - - if ( cdk_index == 14 ) - { - /* 14 bits, 2 pulses, 2 tracks: 11 (used all tracks) */ - int16_t index, i0, i1; - - index = get_next_indice( st, 14 ); - - i0 = ( ( index >> 7 ) & ( NB_POS_FCB_2T_128 - 1 ) ) * NB_TRACK_FCB_2T; - i1 = ( ( index & ( NB_POS_FCB_2T_128 - 1 ) ) * NB_TRACK_FCB_2T ) + 1; - - code[i0] = -1.0f; - if ( ( index & 0x2000 ) == 0 ) - { - code[i0] = 1.0f; - } - - code[i1] = -1.0f; - if ( ( index & 0x40 ) == 0 ) - { - code[i1] = 1.0f; - } - } - else if ( cdk_index == 12 ) - { - /* 12 bits, 2 pulses, 4 tracks: 1010 (used only even tracks) */ - for ( k = 0; k < NB_TRACK_FCB_4T - 1; k += 2 ) - { - L_index = get_next_indice( st, 6 ); - dec_1p_N1_L_subfr( L_index, NB_POS_FCB_4T_128, 5, pos ); - add_pulses_L_subfr( NB_POS_FCB_4T_128, pos, 1, k, code ); - } - } - else if ( cdk_index == 18 ) - { - /* 18 bits, 3 pulses, 4 tracks: 1110 (used first three tracks) */ - for ( k = 0; k < NB_TRACK_FCB_4T - 1; k++ ) - { - L_index = get_next_indice( st, 6 ); - dec_1p_N1_L_subfr( L_index, NB_POS_FCB_4T_128, 5, pos ); - add_pulses_L_subfr( NB_POS_FCB_4T_128, pos, 1, k, code ); - } - } - else if ( cdk_index == 20 ) - { - /* 20 bits, 3 pulses, 4 tracks (used all tracks): 1110, 1101, 1011, 0111 */ - skip_track = get_next_indice( st, 2 ); - for ( k = 0; k < NB_TRACK_FCB_4T; k++ ) - { - if ( k != skip_track ) - { - L_index = get_next_indice( st, 6 ); - dec_1p_N1_L_subfr( L_index, NB_POS_FCB_4T_128, 5, pos ); - add_pulses_L_subfr( NB_POS_FCB_4T_128, pos, 1, k, code ); - } - } - } - else if ( cdk_index == 24 ) - { - /* 24 bits, 4 pulses, 4 tracks: 1111 */ - for ( k = 0; k < NB_TRACK_FCB_4T; k++ ) - { - L_index = get_next_indice( st, 6 ); - dec_1p_N1_L_subfr( L_index, NB_POS_FCB_4T_128, 5, pos ); - add_pulses_L_subfr( NB_POS_FCB_4T_128, pos, 1, k, code ); - } - } - } - - return; -} -#endif /*-------------------------------------------------------* * dec_1p_N1() diff --git a/lib_dec/dec_LPD_fx.c b/lib_dec/dec_LPD_fx.c index f3443349a1a542e0ff66f85b2ba1650107e1c2f8..d5294eb7a0a9eed009f3475c4f24be9270a76377 100644 --- a/lib_dec/dec_LPD_fx.c +++ b/lib_dec/dec_LPD_fx.c @@ -455,7 +455,7 @@ void decoder_LPD_fx( } if ( bfi ) { - st->plcInfo.nbLostCmpt = add( st->plcInfo.nbLostCmpt, 1 ); + st->hPlcInfo->nbLostCmpt = add( st->hPlcInfo->nbLostCmpt, 1 ); move16(); } } @@ -634,7 +634,7 @@ void decoder_LPD_fx( /* PLC: [TCX: Tonal Concealment] */ /* Signal that this frame is not TCX */ - TonalMDCTConceal_UpdateState( &st->tonalMDCTconceal, 0, 0, 0, 0 ); + TonalMDCTConceal_UpdateState( st->hTonalMDCTConc, 0, 0, 0, 0 ); IF( bfi == 0 ) { @@ -752,21 +752,18 @@ void decoder_LPD_fx( EQ_16( st->last_codec_mode, MODE2 ) ) ) { /* waveform adjustment */ + concealment_signal_tuning_fx( st, bfi, synthFB, past_core_mode ); - concealment_signal_tuning_fx( bfi, st->core, - synthFB, &st->plcInfo, st->nbLostCmpt, st->prev_bfi, - st->tonalMDCTconceal.secondLastPcmOut, - past_core_mode, st->tonalMDCTconceal.lastPcmOut, st ); test(); test(); test(); - IF( ( bfi || st->prev_bfi ) && st->plcInfo.Pitch_fx && ( ( st->plcInfo.concealment_method == TCX_NONTONAL ) ) ) + IF( ( bfi || st->prev_bfi ) && st->hPlcInfo->Pitch_fx && ( ( st->hPlcInfo->concealment_method == TCX_NONTONAL ) ) ) { lerp( synthFB, synth, L_frame, L_frameTCX ); test(); if ( !bfi && st->prev_bfi ) { - st->plcInfo.Pitch_fx = 0; + st->hPlcInfo->Pitch_fx = 0; move16(); } } @@ -774,7 +771,7 @@ void decoder_LPD_fx( IF( !bfi ) { - TonalMDCTConceal_SaveTimeSignal( &st->tonalMDCTconceal, synthFB, L_frameTCX ); + TonalMDCTConceal_SaveTimeSignal( st->hTonalMDCTConc, synthFB, L_frameTCX ); } #ifdef IVAS_CODE_CNG_FIX185_PLC_FADEOUT decoder_tcx_post_fx( st, synth, synthFB, Aq, bfi, 0 ); @@ -977,13 +974,13 @@ void decoder_LPD_fx( { if ( !bfi ) { - st->plcInfo.nbLostCmpt = 0; + st->hPlcInfo->nbLostCmpt = 0; move16(); } IF( st->core == 0 ) { - set_state( st->plcInfo.Transient, st->core, MAX_POST_LEN ); + set_state( st->hPlcInfo->Transient, st->core, MAX_POST_LEN ); } } diff --git a/lib_dec/dec_acelp_fx.c b/lib_dec/dec_acelp_fx.c index 07750469f1515adef0f16688151631db8c2fef4b..51cbef624c6ea7d74e2a0b70cd7c4e6727ef2ba8 100644 --- a/lib_dec/dec_acelp_fx.c +++ b/lib_dec/dec_acelp_fx.c @@ -169,6 +169,7 @@ void D_ACELP_indexing_fx( pulses = pulsestrack[0]; move16(); +#ifndef FIX_1378_ACELP_OUT_OF_BOUNDS /* safety check in case of bit errors */ IF( GE_64( s, pulsestostates[16][pulses - 1] ) ) { @@ -177,9 +178,20 @@ void D_ACELP_indexing_fx( move16(); return; } +#endif IF( pulses ) { +#ifdef FIX_1378_ACELP_OUT_OF_BOUNDS + /* safety check in case of bit errors */ + IF( GE_64( s, pulsestostates[16][pulses - 1] ) ) + { + set16_fx( code, 0, L_SUBFR ); + *BER_detect = 1; + move16(); + return; + } +#endif D_ACELP_decode_arithtrack_fx( code, s, pulses, num_tracks, 16 ); } ELSE diff --git a/lib_dec/dec_acelp_tcx_main_fx.c b/lib_dec/dec_acelp_tcx_main_fx.c index 7edd2354961721af2eb1ee3be18067cd3f76704f..04a41ed46c9a3ca1b4f0110d3eb3b60872886ffa 100644 --- a/lib_dec/dec_acelp_tcx_main_fx.c +++ b/lib_dec/dec_acelp_tcx_main_fx.c @@ -10,12 +10,7 @@ #include "stat_com.h" #include "prot_fx.h" #include "basop_util.h" -static void decode_frame_type_fx( Decoder_State *st -#ifdef IVAS_CODE_CNG - , - STEREO_CNG_DEC_HANDLE hStereoCng -#endif -) +static void decode_frame_type_fx( Decoder_State *st ) { Word32 L_tmp; Word16 num_bits; @@ -259,9 +254,7 @@ static void decode_frame_type_fx( Decoder_State *st IF( EQ_16( st->m_frame_type, SID_FRAME ) && NE_16( st->hFdCngDec->hFdCngCom->frame_type_previous, ACTIVE_FRAME ) ) { lerp( st->hFdCngDec->hFdCngCom->olapBufferSynth, st->hFdCngDec->hFdCngCom->olapBufferSynth, st->L_frame * 2, st->last_L_frame * 2 ); -#ifdef IVAS_CODE_CNG - lerp( hStereoCng->olapBufferSynth22, hStereoCng->olapBufferSynth22, st->L_frame * 2, st->last_L_frame * 2 ); -#endif + IF( EQ_16( st->L_frame, L_FRAME ) ) { FOR( n = 0; n < shl( st->L_frame, 1 ); n++ ) @@ -311,10 +304,6 @@ Word16 dec_acelp_tcx_frame_fx( Word32 bwe_exc_extended[], /* i/o: bandwidth extended excitation Q0 */ Word16 *voice_factors, /* o : voicing factors Q15 */ Word16 pitch_buf[] /* o : floating pitch for each subframe Q6 */ -#ifdef IVAS_CODE_CNG - , - STEREO_CNG_DEC_HANDLE hStereoCng /* i : stereo CNG handle */ -#endif ) { Word16 num_bits; @@ -366,12 +355,7 @@ Word16 dec_acelp_tcx_frame_fx( Word32 total_brate = st->last_total_brate; move32(); - decode_frame_type_fx( st -#ifdef IVAS_CODE_CNG - , - hStereoCng -#endif - ); + decode_frame_type_fx( st ); st->force_lpd_reset = 0; move16(); diff --git a/lib_dec/dec_amr_wb_fx.c b/lib_dec/dec_amr_wb_fx.c index baea98a2c0883f936ad95cb0290a90234fdcadf6..415b4584e53c884068ce8f194e63305bc2ed8dd9 100644 --- a/lib_dec/dec_amr_wb_fx.c +++ b/lib_dec/dec_amr_wb_fx.c @@ -71,12 +71,8 @@ void decod_amr_wb_fx( * Decode pitch lag *----------------------------------------------------------------------*/ - *pt_pitch_fx = pit_decode_fx( st_fx, st_fx->core_brate, 1, L_FRAME, i_subfr, -1, &pitch_limit_flag, &T0, &T0_frac, &T0_min, &T0_max, L_SUBFR -#ifdef ADD_LRTD - , - 0, NULL -#endif - ); + *pt_pitch_fx = pit_decode_fx( st_fx, st_fx->core_brate, 1, L_FRAME, i_subfr, -1, &pitch_limit_flag, &T0, &T0_frac, &T0_min, &T0_max, L_SUBFR ); + /*--------------------------------------------------------------* * Find the adaptive codebook vector *--------------------------------------------------------------*/ diff --git a/lib_dec/dec_gen_voic_fx.c b/lib_dec/dec_gen_voic_fx.c index bdfac224f45b0efbfee46ebfe92a8acf010a9f0f..325beb9f3b347fc5183cd875e42b633dd0075449 100644 --- a/lib_dec/dec_gen_voic_fx.c +++ b/lib_dec/dec_gen_voic_fx.c @@ -693,11 +693,7 @@ ivas_error decod_gen_voic_ivas_fx( * Transform domain contribution decoding *-----------------------------------------------------------------*/ test(); -#ifdef NONBE_FIX_GSC_BSTR IF( !st_fx->inactive_coder_type_flag && st_fx->coder_type == INACTIVE ) -#else - IF( GE_32( st_fx->total_brate, MAX_GSC_INACTIVE_BRATE ) && ( st_fx->coder_type == INACTIVE ) ) -#endif { transf_cdbk_dec_fx( st_fx, harm_flag_acelp, i_subfr_fx, Es_pred_fx, gain_code_fx, &gain_preQ_fx, &norm_gain_preQ_fx, code_preQ_fx, unbits ); } diff --git a/lib_dec/dec_higher_acelp_fx.c b/lib_dec/dec_higher_acelp_fx.c index b1cb2b5161aee7a69f1a9f8c2f141baeb6af73d3..aff7e56564e134e0492ba56f92bed3e6882af87b 100644 --- a/lib_dec/dec_higher_acelp_fx.c +++ b/lib_dec/dec_higher_acelp_fx.c @@ -8,7 +8,6 @@ #include "prot_fx.h" /* Function prototypes */ #include "rom_com.h" /* Static table prototypes */ -#define IVAS_CODE #define IVAS_CODE_AVQ /*-----------------------------------------------------------------* * transf_cdbk_dec() @@ -36,7 +35,6 @@ void transf_cdbk_dec_fx( Flag Overflow = 0; move32(); #endif -#ifdef IVAS_CODE Word16 avq_bit_sFlag; Word16 trgtSvPos; Word16 Nsv; @@ -50,7 +48,7 @@ void transf_cdbk_dec_fx( move16(); avq_bit_sFlag = 1; } -#endif + /*--------------------------------------------------------------* * Set bit-allocation *--------------------------------------------------------------*/ @@ -112,7 +110,7 @@ void transf_cdbk_dec_fx( *gain_preQ = round_fx( L_tmp ); /* Q2*/ move16(); } -#ifdef IVAS_CODE + trgtSvPos = sub( Nsv, 1 ); test(); test(); @@ -126,7 +124,7 @@ void transf_cdbk_dec_fx( move16(); move16(); } -#endif + /*--------------------------------------------------------------* * Demultiplex and decode subvectors from bit-stream *--------------------------------------------------------------*/ diff --git a/lib_dec/dec_pit_exc_fx.c b/lib_dec/dec_pit_exc_fx.c index 4e18eebce4bfc689e7c6fd9e9fc04aa1796636dd..746b668198d4c2d0a3ff030739b0d40d82b23952 100644 --- a/lib_dec/dec_pit_exc_fx.c +++ b/lib_dec/dec_pit_exc_fx.c @@ -41,11 +41,6 @@ void dec_pit_exc_fx( const Word16 nb_subfr_fx /* i : Number of subframe considered */ , Word16 *gain_buf /*Q14*/ -#ifdef ADD_LRTD - , - const Word16 tdm_Pitch_reuse_flag, /* i : primary channel pitch reuse flag */ - const Word16 tdm_Pri_pitch_buf[] /* i : primary channel pitch buffer */ -#endif ) { Word16 T0_fx, T0_frac_fx, T0_min_fx, T0_max_fx; /* integer pitch variables */ @@ -179,12 +174,7 @@ void dec_pit_exc_fx( /*----------------------------------------------------------------------* * Decode pitch lag *----------------------------------------------------------------------*/ - *pt_pitch_fx = pit_decode_fx( st_fx, Pitch_BR_fx, 0, st_fx->L_frame, i_subfr_fx, Pitch_CT_fx, &pitch_limit_flag, &T0_fx, &T0_frac_fx, &T0_min_fx, &T0_max_fx, L_subfr_fx -#ifdef ADD_LRTD - , - tdm_Pitch_reuse_flag, tdm_Pri_pitch_buf -#endif - ); + *pt_pitch_fx = pit_decode_fx( st_fx, Pitch_BR_fx, 0, st_fx->L_frame, i_subfr_fx, Pitch_CT_fx, &pitch_limit_flag, &T0_fx, &T0_frac_fx, &T0_min_fx, &T0_max_fx, L_subfr_fx ); move16(); /*--------------------------------------------------------------* @@ -207,12 +197,7 @@ void dec_pit_exc_fx( gain_dec_mless_fx( st_fx, st_fx->L_frame, LOCAL_CT, i_subfr_fx, -1, code_fx, Es_pred_fx, &gain_pit_fx, &gain_code_fx, &gain_inov_fx, &norm_gain_code_fx ); - st_fx->tilt_code_fx = est_tilt_fx( exc_fx + i_subfr_fx, gain_pit_fx, code_fx, gain_code_fx, &voice_fac_fx, 0 -#ifdef ADD_LRTD - , - L_subfr_fx -#endif - ); + st_fx->tilt_code_fx = est_tilt_fx( exc_fx + i_subfr_fx, gain_pit_fx, code_fx, gain_code_fx, &voice_fac_fx, 0 ); move16(); } ELSE IF( EQ_16( use_fcb, 2 ) ) /* IVAS only */ @@ -225,12 +210,7 @@ void dec_pit_exc_fx( gain_dec_lbr_fx( st_fx, GENERIC, i_subfr_fx, code_fx, &gain_pit_fx, &gain_code_fx, &gain_inov_fx, &norm_gain_code_fx, gc_mem, gp_mem, L_subfr_fx ); - st_fx->tilt_code_fx = est_tilt_fx( exc_fx + i_subfr_fx, gain_pit_fx, code_fx, gain_code_fx, &voice_fac_fx, 0 -#ifdef ADD_LRTD - , - L_subfr_fx -#endif - ); + st_fx->tilt_code_fx = est_tilt_fx( exc_fx + i_subfr_fx, gain_pit_fx, code_fx, gain_code_fx, &voice_fac_fx, 0 ); move16(); } ELSE @@ -457,22 +437,18 @@ void dec_pit_exc_fx( /* _ None */ /*==========================================================================*/ void dec_pit_exc_ivas_fx( - Decoder_State *st_fx, /* i/o: decoder static memory */ - const Word16 *Aq_fx, /* i : LP filter coefficient */ - const Word16 coder_type, /* i : coding type */ - const Word16 Es_pred_fx, /* i : predicted scaled innov. energy */ - Word16 *pitch_buf_fx, /* o : Word16 pitch values for each subframe */ - Word16 *code_fx, /* o : innovation */ - Word16 *exc_fx, /* i/o: adapt. excitation exc */ - Word16 *bwe_exc_fx, /* o : excitation for SWB TBE */ - const Word16 nb_subfr_fx /* i : Number of subframe considered */ - , - Word16 *gain_buf /*Q14*/ -#if 1 // def ADD_LRTD - , + Decoder_State *st_fx, /* i/o: decoder static memory */ + const Word16 *Aq_fx, /* i : LP filter coefficient */ + const Word16 coder_type, /* i : coding type */ + const Word16 Es_pred_fx, /* i : predicted scaled innov. energy */ + Word16 *pitch_buf_fx, /* o : Word16 pitch values for each subframe */ + Word16 *code_fx, /* o : innovation */ + Word16 *exc_fx, /* i/o: adapt. excitation exc */ + Word16 *bwe_exc_fx, /* o : excitation for SWB TBE */ + const Word16 nb_subfr_fx, /* i : Number of subframe considered */ + Word16 *gain_buf, /*Q14*/ const Word16 tdm_Pitch_reuse_flag, /* i : primary channel pitch reuse flag */ const Word16 tdm_Pri_pitch_buf[] /* i : primary channel pitch buffer */ -#endif ) { Word16 T0_fx, T0_frac_fx, T0_min_fx, T0_max_fx; /* integer pitch variables */ @@ -591,9 +567,11 @@ void dec_pit_exc_ivas_fx( set16_fx( st_fx->acelp_cfg.pitch_bits, 9, 4 ); set16_fx( st_fx->acelp_cfg.fixed_cdk_index, 14, 5 ); } + /*------------------------------------------------------------------* * ACELP subframe loop *------------------------------------------------------------------*/ + p_Aq_fx = Aq_fx; /* pointer to interpolated LPC parameters */ pt_pitch_fx = pitch_buf_fx; /* pointer to the pitch buffer */ pt_gain = gain_buf; /* pointer to the gain buffer */ @@ -602,12 +580,8 @@ void dec_pit_exc_ivas_fx( /*----------------------------------------------------------------------* * Decode pitch lag *----------------------------------------------------------------------*/ - *pt_pitch_fx = pit_decode_ivas_fx( st_fx, Pitch_BR_fx, 0, st_fx->L_frame, i_subfr_fx, Pitch_CT_fx, &pitch_limit_flag, &T0_fx, &T0_frac_fx, &T0_min_fx, &T0_max_fx, L_subfr_fx -#if 1 // def ADD_LRTD - , - tdm_Pitch_reuse_flag, tdm_Pri_pitch_buf -#endif - ); + + *pt_pitch_fx = pit_decode_ivas_fx( st_fx, Pitch_BR_fx, 0, st_fx->L_frame, i_subfr_fx, Pitch_CT_fx, &pitch_limit_flag, &T0_fx, &T0_frac_fx, &T0_min_fx, &T0_max_fx, L_subfr_fx, tdm_Pitch_reuse_flag, tdm_Pri_pitch_buf ); move16(); /*--------------------------------------------------------------* @@ -623,6 +597,7 @@ void dec_pit_exc_ivas_fx( IF( EQ_16( use_fcb, 1 ) ) { inov_decode_fx( st_fx, Local_BR_fx, 0, st_fx->L_frame, 1, i_subfr_fx, p_Aq_fx, st_fx->tilt_code_fx, *pt_pitch_fx, code_fx, L_subfr_fx ); + /*--------------------------------------------------------------* * Gain decoding * Estimate spectrum tilt and voicing @@ -630,18 +605,14 @@ void dec_pit_exc_ivas_fx( gain_dec_mless_fx( st_fx, st_fx->L_frame, LOCAL_CT, i_subfr_fx, -1, code_fx, Es_pred_fx, &gain_pit_fx, &gain_code_fx, &gain_inov_fx, &norm_gain_code_fx ); - st_fx->tilt_code_fx = est_tilt_ivas_fx( exc_fx + i_subfr_fx, gain_pit_fx, code_fx, gain_code_fx, &voice_fac_fx, 0 -#if 1 // def ADD_LRTD - , - L_subfr_fx, 0 -#endif - ); + st_fx->tilt_code_fx = est_tilt_ivas_fx( exc_fx + i_subfr_fx, gain_pit_fx, code_fx, gain_code_fx, &voice_fac_fx, 0, L_subfr_fx, 0 ); move16(); } ELSE IF( EQ_16( use_fcb, 2 ) ) /* IVAS only */ { /*inov_decode_fx(st_fx, Local_BR_fx, 0, st_fx->L_frame, 1, i_subfr_fx, p_Aq_fx, st_fx->tilt_code_fx, *pt_pitch_fx, code_fx, L_subfr_fx);*/ inov_decode_fx( st_fx, st_fx->core_brate, 0, st_fx->L_frame, 0, i_subfr_fx, p_Aq_fx, st_fx->tilt_code_fx, *pt_pitch_fx, code_fx, L_subfr_fx ); + /*--------------------------------------------------------------* * Gain decoding * Estimate spectrum tilt and voicing @@ -649,12 +620,7 @@ void dec_pit_exc_ivas_fx( gain_dec_lbr_ivas_fx( st_fx, GENERIC, i_subfr_fx, code_fx, &gain_pit_fx, &gain_code_fx, &gain_inov_fx, &norm_gain_code_fx, gc_mem, gp_mem, L_subfr_fx ); - st_fx->tilt_code_fx = est_tilt_ivas_fx( exc_fx + i_subfr_fx, gain_pit_fx, code_fx, gain_code_fx, &voice_fac_fx, 0 -#if 1 // def ADD_LRTD - , - L_subfr_fx, 0 -#endif - ); + st_fx->tilt_code_fx = est_tilt_ivas_fx( exc_fx + i_subfr_fx, gain_pit_fx, code_fx, gain_code_fx, &voice_fac_fx, 0, L_subfr_fx, 0 ); move16(); } ELSE diff --git a/lib_dec/dec_prm.c b/lib_dec/dec_prm.c deleted file mode 100644 index 7b4567f7ad8bb192b6f6fa17cb60378fb9ea499e..0000000000000000000000000000000000000000 --- a/lib_dec/dec_prm.c +++ /dev/null @@ -1,328 +0,0 @@ -/****************************************************************************************************** - - (C) 2022-2025 IVAS codec Public Collaboration with portions copyright Dolby International AB, Ericsson AB, - Fraunhofer-Gesellschaft zur Foerderung der angewandten Forschung e.V., Huawei Technologies Co. LTD., - Koninklijke Philips N.V., Nippon Telegraph and Telephone Corporation, Nokia Technologies Oy, Orange, - Panasonic Holdings Corporation, Qualcomm Technologies, Inc., VoiceAge Corporation, and other - contributors to this repository. All Rights Reserved. - - This software is protected by copyright law and by international treaties. - The IVAS codec Public Collaboration consisting of Dolby International AB, Ericsson AB, - Fraunhofer-Gesellschaft zur Foerderung der angewandten Forschung e.V., Huawei Technologies Co. LTD., - Koninklijke Philips N.V., Nippon Telegraph and Telephone Corporation, Nokia Technologies Oy, Orange, - Panasonic Holdings Corporation, Qualcomm Technologies, Inc., VoiceAge Corporation, and other - contributors to this repository retain full ownership rights in their respective contributions in - the software. This notice grants no license of any kind, including but not limited to patent - license, nor is any license granted by implication, estoppel or otherwise. - - Contributors are required to enter into the IVAS codec Public Collaboration agreement before making - contributions. - - This software is provided "AS IS", without any express or implied warranties. The software is in the - development stage. It is intended exclusively for experts who have experience with such software and - solely for the purpose of inspection. All implied warranties of non-infringement, merchantability - and fitness for a particular purpose are hereby disclaimed and excluded. - - Any dispute, controversy or claim arising under or in relation to providing this software shall be - submitted to and settled by the final, binding jurisdiction of the courts of Munich, Germany in - accordance with the laws of the Federal Republic of Germany excluding its conflict of law rules and - the United Nations Convention on Contracts on the International Sales of Goods. - -*******************************************************************************************************/ - -/*==================================================================================== - EVS Codec 3GPP TS26.443 Nov 04, 2021. Version 12.14.0 / 13.10.0 / 14.6.0 / 15.4.0 / 16.3.0 - ====================================================================================*/ - -#include -#include -#include "options.h" -#include "cnst.h" -#include "rom_com.h" -#include "prot.h" -#include "wmc_auto.h" -#include "prot_fx.h" - -/*-------------------------------------------------------------------* - * getTCXMode_ivas() - * - * get TCX mode - *--------------------------------------------------------------------*/ -void getTCXMode_ivas_fx( - Decoder_State *st, /* i/o: decoder memory state */ - Decoder_State *st0, /* i : bitstream */ - const Word16 MCT_flag /* i : hMCT handle allocated (1) or not (0) */ -) -{ - UWord16 ind; - - IF( st->tcxonly ) - { - /* get core */ - ind = get_next_indice_fx( st0, 1 ); /* Store decoder memory of last_core */ - st->core = add( ind, TCX_20_CORE ); - move16(); - /* get class */ - ind = get_next_indice_fx( st0, 2 ); - - st->clas_dec = ONSET; - move16(); - IF( ind == 0 ) - { - st->clas_dec = UNVOICED_CLAS; - move16(); - } - ELSE IF( EQ_16( ind, 1 ) ) - { - IF( GE_16( st->last_good, VOICED_TRANSITION ) ) - { - st->clas_dec = VOICED_TRANSITION; - move16(); - } - ELSE - { - st->clas_dec = UNVOICED_TRANSITION; - move16(); - } - } - ELSE IF( EQ_16( ind, 2 ) ) - { - st->clas_dec = VOICED_CLAS; - move16(); - } - - st->coder_type = INACTIVE; - move16(); - test(); - IF( EQ_16( st->element_mode, IVAS_CPE_MDCT ) && !MCT_flag ) - { - st->VAD = get_next_indice_fx( st0, 1 ); - move16(); - } - ELSE - { - st->VAD = 0; - move16(); - } - } - ELSE - { - IF( EQ_16( st->mdct_sw, MODE1 ) ) - { - /* 2 bits instead of 3 as TCX is already signaled */ - st->core = TCX_20_CORE; - move16(); - st->hTcxCfg->coder_type = get_next_indice_fx( st0, 2 ); - move16(); - st->coder_type = st->hTcxCfg->coder_type; - move16(); - } - ELSE - { - IF( EQ_16( st->mdct_sw_enable, MODE2 ) ) - { - IF( get_next_indice_1_fx( st0 ) ) - { - ind = get_next_indice_fx( st0, 3 ); - assert( !( ind & 4 ) || !"HQ_CORE encountered in dec_prm_ivas" ); - st->core = TCX_20_CORE; - move16(); - st->hTcxCfg->coder_type = ind; - move16(); - st->coder_type = st->hTcxCfg->coder_type; - move16(); - } - ELSE /* ACELP */ - { - st->core = ACELP_CORE; - move16(); - st->coder_type = get_next_indice_fx( st0, 2 ); - move16(); - } - } - ELSE - { - IF( EQ_16( st->rf_flag, 1 ) ) - { - IF( !st->use_partial_copy ) - { - ind = get_next_indice_fx( st0, 1 ); - IF( ind == 0 ) - { - st->core = ACELP_CORE; - move16(); - } - ELSE - { - st->core = TCX_20_CORE; - move16(); - st->hTcxCfg->coder_type = st->coder_type; - move16(); - } - } - } - ELSE - { - ind = get_next_indice_fx( st, 3 ); - IF( LT_16( ind, ACELP_MODE_MAX ) ) - { - st->core = ACELP_CORE; - move16(); - st->coder_type = ind; - move16(); - } - ELSE - { - st->core = TCX_20_CORE; - move16(); - st->hTcxCfg->coder_type = sub( ind, ACELP_MODE_MAX ); - move16(); - st->coder_type = st->hTcxCfg->coder_type; - move16(); - } - } - } - } - - IF( EQ_16( st->element_mode, EVS_MONO ) ) - { - test(); - IF( st->igf && EQ_16( st->core, ACELP_CORE ) ) - { - st->bits_frame_core = sub( st->bits_frame_core, get_tbe_bits_fx( st->total_brate, st->bwidth, st->rf_flag ) ); - move16(); - } - - IF( st->rf_flag ) - { - st->bits_frame_core = sub( st->bits_frame_core, add( st->rf_target_bits, 1 ) ); /* +1 as flag-bit not considered in rf_target_bits */ - move16(); - } - } - - /* Inactive frame detection on non-DTX mode */ - IF( EQ_16( st->coder_type, INACTIVE ) ) - { - st->VAD = 0; - move16(); - } - ELSE - { - st->VAD = 1; - move16(); - } - } - - /*Core extended mode mapping for correct PLC classification*/ - st->core_ext_mode = st->coder_type; - move16(); - if ( EQ_16( st->coder_type, INACTIVE ) ) - { - st->core_ext_mode = UNVOICED; - move16(); - } - - return; -} - -/*-------------------------------------------------------------------* - * getTCXWindowing_ivas() - * - * get TCX transform type for each subframe - *--------------------------------------------------------------------*/ -void getTCXWindowing_ivas_fx( - const Word16 core, /* i : current core */ - const Word16 last_core, /* i : last frame core */ - const Word16 element_mode, /* i : element mode */ - TCX_CONFIG_HANDLE hTcxCfg, /* i/o: TCX configuration handle */ - Decoder_State *st0 /* i : bitstream */ -) -{ - Word16 overlap_code; - - /* Set the last overlap mode based on the previous and current frame type and coded overlap mode */ - test(); - test(); - test(); - IF( EQ_16( last_core, ACELP_CORE ) || EQ_16( last_core, AMR_WB_CORE ) ) - { - hTcxCfg->tcx_last_overlap_mode = TRANSITION_OVERLAP; - move16(); - } - ELSE IF( EQ_16( core, TCX_10_CORE ) && EQ_16( hTcxCfg->tcx_curr_overlap_mode, ALDO_WINDOW ) ) - { - hTcxCfg->tcx_last_overlap_mode = FULL_OVERLAP; - move16(); - } - ELSE IF( NE_16( core, TCX_10_CORE ) && EQ_16( hTcxCfg->tcx_curr_overlap_mode, FULL_OVERLAP ) ) - { - hTcxCfg->tcx_last_overlap_mode = ALDO_WINDOW; - move16(); - } - ELSE - { - hTcxCfg->tcx_last_overlap_mode = hTcxCfg->tcx_curr_overlap_mode; - move16(); - } - - /* Set the current overlap mode based on the current frame type and coded overlap mode */ - hTcxCfg->tcx_curr_overlap_mode = ALDO_WINDOW; - move16(); - - IF( NE_16( core, ACELP_CORE ) ) - { - overlap_code = 0; - move16(); - IF( get_next_indice_fx( st0, 1 ) ) - { - overlap_code = add( 2, get_next_indice_fx( st0, 1 ) ); - } - - assert( MIN_OVERLAP == 2 && HALF_OVERLAP == 3 ); - hTcxCfg->tcx_curr_overlap_mode = overlap_code; - move16(); - /*TCX10 : always symmetric windows*/ - test(); - test(); - test(); - IF( EQ_16( core, TCX_20_CORE ) && ( overlap_code == 0 ) && NE_16( last_core, ACELP_CORE ) && NE_16( last_core, AMR_WB_CORE ) ) - { - hTcxCfg->tcx_curr_overlap_mode = ALDO_WINDOW; - move16(); - } - } - - test(); - IF( NE_16( element_mode, EVS_MONO ) && EQ_16( core, TCX_10_CORE ) ) - { - /* also read last overlap */ - overlap_code = 0; - move16(); - - IF( get_next_indice_fx( st0, 1 ) ) - { - overlap_code = add( 2, get_next_indice_fx( st0, 1 ) ); - } - - hTcxCfg->tcx_last_overlap_mode = overlap_code; - move16(); - } - - return; -} - -/*-------------------------------------------------------------------* - * getLPCparam_ivas() - * - * get LPC parameters - *--------------------------------------------------------------------*/ - - -/*-----------------------------------------------------------------* - * Function dec_prm_ivas() * - * ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ * - * - * SQ is used for TCX modes - * - * decode parameters according to selected mode * - *-----------------------------------------------------------------*/ diff --git a/lib_dec/dec_prm_fx.c b/lib_dec/dec_prm_fx.c index 73edd3b3b3c98d0a0018f9e206153a54254a3ec3..3d277807d2fed95764ba8e3c4992662fd26eac4b 100644 --- a/lib_dec/dec_prm_fx.c +++ b/lib_dec/dec_prm_fx.c @@ -1742,3 +1742,272 @@ void dec_prm_fx( return; } + + +/*-------------------------------------------------------------------* + * getTCXMode_ivas() + * + * get TCX mode + *--------------------------------------------------------------------*/ +void getTCXMode_ivas_fx( + Decoder_State *st, /* i/o: decoder memory state */ + Decoder_State *st0, /* i : bitstream */ + const Word16 MCT_flag /* i : hMCT handle allocated (1) or not (0) */ +) +{ + UWord16 ind; + + IF( st->tcxonly ) + { + /* get core */ + ind = get_next_indice_fx( st0, 1 ); /* Store decoder memory of last_core */ + st->core = add( ind, TCX_20_CORE ); + move16(); + /* get class */ + ind = get_next_indice_fx( st0, 2 ); + + st->clas_dec = ONSET; + move16(); + IF( ind == 0 ) + { + st->clas_dec = UNVOICED_CLAS; + move16(); + } + ELSE IF( EQ_16( ind, 1 ) ) + { + IF( GE_16( st->last_good, VOICED_TRANSITION ) ) + { + st->clas_dec = VOICED_TRANSITION; + move16(); + } + ELSE + { + st->clas_dec = UNVOICED_TRANSITION; + move16(); + } + } + ELSE IF( EQ_16( ind, 2 ) ) + { + st->clas_dec = VOICED_CLAS; + move16(); + } + + st->coder_type = INACTIVE; + move16(); + test(); + IF( EQ_16( st->element_mode, IVAS_CPE_MDCT ) && !MCT_flag ) + { + st->VAD = get_next_indice_fx( st0, 1 ); + move16(); + } + ELSE + { + st->VAD = 0; + move16(); + } + } + ELSE + { + IF( EQ_16( st->mdct_sw, MODE1 ) ) + { + /* 2 bits instead of 3 as TCX is already signaled */ + st->core = TCX_20_CORE; + move16(); + st->hTcxCfg->coder_type = get_next_indice_fx( st0, 2 ); + move16(); + st->coder_type = st->hTcxCfg->coder_type; + move16(); + } + ELSE + { + IF( EQ_16( st->mdct_sw_enable, MODE2 ) ) + { + IF( get_next_indice_1_fx( st0 ) ) + { + ind = get_next_indice_fx( st0, 3 ); + assert( !( ind & 4 ) || !"HQ_CORE encountered in dec_prm_ivas" ); + st->core = TCX_20_CORE; + move16(); + st->hTcxCfg->coder_type = ind; + move16(); + st->coder_type = st->hTcxCfg->coder_type; + move16(); + } + ELSE /* ACELP */ + { + st->core = ACELP_CORE; + move16(); + st->coder_type = get_next_indice_fx( st0, 2 ); + move16(); + } + } + ELSE + { + IF( EQ_16( st->rf_flag, 1 ) ) + { + IF( !st->use_partial_copy ) + { + ind = get_next_indice_fx( st0, 1 ); + IF( ind == 0 ) + { + st->core = ACELP_CORE; + move16(); + } + ELSE + { + st->core = TCX_20_CORE; + move16(); + st->hTcxCfg->coder_type = st->coder_type; + move16(); + } + } + } + ELSE + { + ind = get_next_indice_fx( st, 3 ); + IF( LT_16( ind, ACELP_MODE_MAX ) ) + { + st->core = ACELP_CORE; + move16(); + st->coder_type = ind; + move16(); + } + ELSE + { + st->core = TCX_20_CORE; + move16(); + st->hTcxCfg->coder_type = sub( ind, ACELP_MODE_MAX ); + move16(); + st->coder_type = st->hTcxCfg->coder_type; + move16(); + } + } + } + } + + IF( EQ_16( st->element_mode, EVS_MONO ) ) + { + test(); + IF( st->igf && EQ_16( st->core, ACELP_CORE ) ) + { + st->bits_frame_core = sub( st->bits_frame_core, get_tbe_bits_fx( st->total_brate, st->bwidth, st->rf_flag ) ); + move16(); + } + + IF( st->rf_flag ) + { + st->bits_frame_core = sub( st->bits_frame_core, add( st->rf_target_bits, 1 ) ); /* +1 as flag-bit not considered in rf_target_bits */ + move16(); + } + } + + /* Inactive frame detection on non-DTX mode */ + IF( EQ_16( st->coder_type, INACTIVE ) ) + { + st->VAD = 0; + move16(); + } + ELSE + { + st->VAD = 1; + move16(); + } + } + + /*Core extended mode mapping for correct PLC classification*/ + st->core_ext_mode = st->coder_type; + move16(); + if ( EQ_16( st->coder_type, INACTIVE ) ) + { + st->core_ext_mode = UNVOICED; + move16(); + } + + return; +} + +/*-------------------------------------------------------------------* + * getTCXWindowing_ivas() + * + * get TCX transform type for each subframe + *--------------------------------------------------------------------*/ +void getTCXWindowing_ivas_fx( + const Word16 core, /* i : current core */ + const Word16 last_core, /* i : last frame core */ + const Word16 element_mode, /* i : element mode */ + TCX_CONFIG_HANDLE hTcxCfg, /* i/o: TCX configuration handle */ + Decoder_State *st0 /* i : bitstream */ +) +{ + Word16 overlap_code; + + /* Set the last overlap mode based on the previous and current frame type and coded overlap mode */ + test(); + test(); + test(); + IF( EQ_16( last_core, ACELP_CORE ) || EQ_16( last_core, AMR_WB_CORE ) ) + { + hTcxCfg->tcx_last_overlap_mode = TRANSITION_OVERLAP; + move16(); + } + ELSE IF( EQ_16( core, TCX_10_CORE ) && EQ_16( hTcxCfg->tcx_curr_overlap_mode, ALDO_WINDOW ) ) + { + hTcxCfg->tcx_last_overlap_mode = FULL_OVERLAP; + move16(); + } + ELSE IF( NE_16( core, TCX_10_CORE ) && EQ_16( hTcxCfg->tcx_curr_overlap_mode, FULL_OVERLAP ) ) + { + hTcxCfg->tcx_last_overlap_mode = ALDO_WINDOW; + move16(); + } + ELSE + { + hTcxCfg->tcx_last_overlap_mode = hTcxCfg->tcx_curr_overlap_mode; + move16(); + } + + /* Set the current overlap mode based on the current frame type and coded overlap mode */ + hTcxCfg->tcx_curr_overlap_mode = ALDO_WINDOW; + move16(); + + IF( NE_16( core, ACELP_CORE ) ) + { + overlap_code = 0; + move16(); + IF( get_next_indice_fx( st0, 1 ) ) + { + overlap_code = add( 2, get_next_indice_fx( st0, 1 ) ); + } + + assert( MIN_OVERLAP == 2 && HALF_OVERLAP == 3 ); + hTcxCfg->tcx_curr_overlap_mode = overlap_code; + move16(); + /*TCX10 : always symmetric windows*/ + test(); + test(); + test(); + IF( EQ_16( core, TCX_20_CORE ) && ( overlap_code == 0 ) && NE_16( last_core, ACELP_CORE ) && NE_16( last_core, AMR_WB_CORE ) ) + { + hTcxCfg->tcx_curr_overlap_mode = ALDO_WINDOW; + move16(); + } + } + + test(); + IF( NE_16( element_mode, EVS_MONO ) && EQ_16( core, TCX_10_CORE ) ) + { + /* also read last overlap */ + overlap_code = 0; + move16(); + + IF( get_next_indice_fx( st0, 1 ) ) + { + overlap_code = add( 2, get_next_indice_fx( st0, 1 ) ); + } + + hTcxCfg->tcx_last_overlap_mode = overlap_code; + move16(); + } + + return; +} diff --git a/lib_dec/dec_tcx.c b/lib_dec/dec_tcx.c deleted file mode 100644 index aca84d9d9cb01237ba9c9d644a876986d3d6335e..0000000000000000000000000000000000000000 --- a/lib_dec/dec_tcx.c +++ /dev/null @@ -1,508 +0,0 @@ - -/****************************************************************************************************** - - (C) 2022-2025 IVAS codec Public Collaboration with portions copyright Dolby International AB, Ericsson AB, - Fraunhofer-Gesellschaft zur Foerderung der angewandten Forschung e.V., Huawei Technologies Co. LTD., - Koninklijke Philips N.V., Nippon Telegraph and Telephone Corporation, Nokia Technologies Oy, Orange, - Panasonic Holdings Corporation, Qualcomm Technologies, Inc., VoiceAge Corporation, and other - contributors to this repository. All Rights Reserved. - - This software is protected by copyright law and by international treaties. - The IVAS codec Public Collaboration consisting of Dolby International AB, Ericsson AB, - Fraunhofer-Gesellschaft zur Foerderung der angewandten Forschung e.V., Huawei Technologies Co. LTD., - Koninklijke Philips N.V., Nippon Telegraph and Telephone Corporation, Nokia Technologies Oy, Orange, - Panasonic Holdings Corporation, Qualcomm Technologies, Inc., VoiceAge Corporation, and other - contributors to this repository retain full ownership rights in their respective contributions in - the software. This notice grants no license of any kind, including but not limited to patent - license, nor is any license granted by implication, estoppel or otherwise. - - Contributors are required to enter into the IVAS codec Public Collaboration agreement before making - contributions. - - This software is provided "AS IS", without any express or implied warranties. The software is in the - development stage. It is intended exclusively for experts who have experience with such software and - solely for the purpose of inspection. All implied warranties of non-infringement, merchantability - and fitness for a particular purpose are hereby disclaimed and excluded. - - Any dispute, controversy or claim arising under or in relation to providing this software shall be - submitted to and settled by the final, binding jurisdiction of the courts of Munich, Germany in - accordance with the laws of the Federal Republic of Germany excluding its conflict of law rules and - the United Nations Convention on Contracts on the International Sales of Goods. - -*******************************************************************************************************/ - -/*==================================================================================== - EVS Codec 3GPP TS26.443 Nov 04, 2021. Version 12.14.0 / 13.10.0 / 14.6.0 / 15.4.0 / 16.3.0 - ====================================================================================*/ - -#include -#include "prot.h" -#include "ivas_prot.h" -#include "prot_fx.h" -#include -#include "options.h" -#include -#include "stat_com.h" -#include "cnst.h" -#include "wmc_auto.h" -#include "ivas_rom_com.h" -#include "ivas_prot_fx.h" -#include "debug.h" - -/*-------------------------------------------------------------------* - * decoder_tcx_post() - * - * - *-------------------------------------------------------------------*/ - - -/*-------------------------------------------------------------------* - * decoder_tcx_tns() - * - * TCX: TNS application - *-------------------------------------------------------------------*/ - -void decoder_tcx_tns_fx( - Decoder_State *st, /* i/o: coder memory state */ - const Word16 L_frame_glob, /* i : frame length */ - const Word16 L_spec, - const Word16 L_frame, - const Word16 L_frameTCX, - Word32 x_fx[N_MAX], // Qx - const Word16 fUseTns, /* i : flag that is set if TNS data is present */ - STnsData *tnsData, - const Word16 bfi, /* i : Bad frame indicator */ - const Word16 frame_cnt, /* i : frame counter in the super frame */ - const Word16 whitenedDomain, - Word16 *length ) -{ - Word16 index, isTCX5, L, tmp; - TCX_CONFIG_HANDLE hTcxCfg = st->hTcxCfg; - - index = hTcxCfg->tcx_last_overlap_mode; /* backup last TCX overlap mode */ - move16(); - - isTCX5 = 0; - move16(); - L = L_frameTCX; - move16(); - tmp = L; - move16(); - - test(); - IF( EQ_16( L_frame, shr( st->L_frame, 1 ) ) && NE_16( st->tcxonly, 0 ) ) - { - test(); - test(); - IF( NE_16( frame_cnt, 0 ) && EQ_16( bfi, 0 ) && NE_16( st->last_core, ACELP_CORE ) ) - { - /* fix sub-window overlap */ - hTcxCfg->tcx_last_overlap_mode = hTcxCfg->tcx_curr_overlap_mode; - move16(); - } - - test(); - test(); - test(); - IF( ( NE_16( hTcxCfg->fIsTNSAllowed, 0 ) && NE_16( fUseTns, 0 ) && NE_16( bfi, 1 ) ) || GT_16( L_spec, L_frameTCX ) ) - { - L = L_spec; - move16(); - tmp = L; - move16(); - } - - test(); - test(); - test(); - test(); - test(); - test(); - test(); - IF( ( EQ_16( bfi, 0 ) && ( NE_16( hTcxCfg->tcx_last_overlap_mode, FULL_OVERLAP ) || - ( EQ_16( hTcxCfg->tcx_curr_overlap_mode, FULL_OVERLAP ) && EQ_16( frame_cnt, 0 ) && EQ_16( index, 0 ) ) ) ) || - ( NE_16( bfi, 0 ) && ( NE_16( hTcxCfg->tcx_last_overlap_mode, FULL_OVERLAP ) && - NE_16( hTcxCfg->tcx_curr_overlap_mode, FULL_OVERLAP ) ) ) ) - { - isTCX5 = 1; - move16(); - - tcx5SpectrumDeinterleaving_fx( shr( L, 1 ), x_fx ); - } - } - - /*-----------------------------------------------------------* - * Temporal Noise Shaping Synthesis * - *-----------------------------------------------------------*/ - - - test(); - test(); - test(); - IF( NE_16( hTcxCfg->fIsTNSAllowed, 0 ) && NE_16( fUseTns, 0 ) && NE_16( bfi, 1 ) && EQ_16( tnsData->tnsOnWhitenedSpectra, whitenedDomain ) ) - { - /* Apply TNS to get the reconstructed signal */ - SetTnsConfig( hTcxCfg, L_frame_glob == st->L_frame, ( st->last_core == ACELP_CORE ) && ( frame_cnt == 0 ) ); - - test(); - test(); - IF( EQ_16( L_frame, shr( st->L_frame, 1 ) ) && NE_16( st->tcxonly, 0 ) && NE_16( isTCX5, 0 ) ) - { - tcx5TnsGrouping_fx( shr( L, 1 ), shr( hTcxCfg->tnsConfig[0][0].iFilterBorders[0], 1 ), x_fx ); - } - - ApplyTnsFilter( hTcxCfg->pCurrentTnsConfig, tnsData, x_fx, 0 ); - - test(); - test(); - IF( EQ_16( L_frame, shr( st->L_frame, 1 ) ) && NE_16( st->tcxonly, 0 ) && NE_16( isTCX5, 0 ) ) - { - test(); - IF( EQ_16( st->element_mode, EVS_MONO ) || LT_16( L_spec, L_frameTCX ) ) /* todo: this is temporary to maintain EVS BE, this is a bug and should be fixed also for EVS (see issue 13) */ - { - tcx5TnsUngrouping_fx( shr( L_frameTCX, 1 ), shr( hTcxCfg->tnsConfig[0][0].iFilterBorders[0], 1 ), x_fx, DEC ); - tmp = L_frameTCX; - move16(); - } - ELSE - { - tcx5TnsUngrouping_fx( shr( L, 1 ), shr( hTcxCfg->tnsConfig[0][0].iFilterBorders[0], 1 ), x_fx, DEC ); - } - } - } - test(); - IF( NE_16( whitenedDomain, 0 ) && NE_16( isTCX5, 0 ) ) - { - tcx5SpectrumInterleaving_fx( shr( L, 1 ), x_fx ); - } - - /* restore index */ - test(); - test(); - test(); - test(); - IF( EQ_16( L_frame, shr( st->L_frame, 1 ) ) && NE_16( st->tcxonly, 0 ) && NE_16( frame_cnt, 0 ) && EQ_16( bfi, 0 ) && NE_16( st->last_core, ACELP_CORE ) ) - { - /* restore sub-window overlap */ - hTcxCfg->tcx_last_overlap_mode = index; - move16(); - } - - if ( length != NULL ) - { - *length = tmp; - move16(); - } - - return; -} - - -void decoder_tcx_imdct_fx( - Decoder_State *st, /* i/o: coder memory state */ - const Word16 L_frame_glob, /* i : frame length */ - const Word16 L_frameTCX_glob, - const Word16 L_spec, - const Word16 tcx_offset, - const Word16 tcx_offsetFB, - const Word16 L_frame, - const Word16 L_frameTCX, - const Word16 left_rect, - Word32 x_fx[N_MAX], // Q(11) - Word16 q_x, - Word16 xn_buf_fx[], // Q(-2) - Word16 q_win, - const UWord16 kernelType, /* i : TCX transform kernel type */ - const Word16 fUseTns, /* i : flag that is set if TNS data is present */ - Word16 synth_fx[], // Q(-2) /* i/o: synth[-M..L_frame] */ - Word16 synthFB_fx[], // Q(-2) - const Word16 bfi, /* i : Bad frame indicator */ - const Word16 frame_cnt, /* i : frame counter in the super frame */ - const Word16 sba_dirac_stereo_flag /* i : signal stereo output for SBA DirAC */ -) -{ - Word16 j, L, overlap, curr_order, startLine, endLine, isTCX5; - Word16 overlapFB; - Word32 x_tmp_fx[L_FRAME_PLUS]; - Word32 xn_bufFB_fx[L_MDCT_OVLP_MAX + L_FRAME_PLUS + L_MDCT_OVLP_MAX] = { 0 }; - Word16 xn_bufFB_fx_16[L_MDCT_OVLP_MAX + L_FRAME_PLUS + L_MDCT_OVLP_MAX]; - Word16 acelp_zir_fx[L_FRAME_MAX / 2]; - Word32 x_itf_fx[N_MAX_TCX - IGF_START_MN]; - Word16 index, proc = 0; - TCX_LTP_DEC_HANDLE hTcxLtpDec = st->hTcxLtpDec; - TCX_DEC_HANDLE hTcxDec = st->hTcxDec; - TCX_CONFIG_HANDLE hTcxCfg = st->hTcxCfg; - Word16 predictionGain_fx; - Word16 A_itf_fx[ITF_MAX_FILTER_ORDER + 1]; // q_a_itf - Word16 q_a_itf = 15; - Word16 x_e = sub( 31, q_x ); - move16(); - Word16 shift_q = sub( q_x, q_win ); - - /*-----------------------------------------------------------------* - * Initializations - *-----------------------------------------------------------------*/ - - /* Init lengths */ - overlap = hTcxCfg->tcx_mdct_window_length; - move16(); - overlapFB = hTcxCfg->tcx_mdct_window_lengthFB; - move16(); - - index = hTcxCfg->tcx_last_overlap_mode; /* backup last TCX overlap mode */ - move16(); - test(); - test(); - test(); - test(); - IF( EQ_16( L_frame, shr( st->L_frame, 1 ) ) && ( st->tcxonly != 0 ) && ( frame_cnt != 0 ) && ( bfi == 0 ) && ( st->last_core != ACELP_CORE ) ) - { - /* fix sub-window overlap */ - hTcxCfg->tcx_last_overlap_mode = hTcxCfg->tcx_curr_overlap_mode; - move16(); - } - - IF( st->igf != 0 ) - { - proc = st->hIGFDec->flatteningTrigger; - move16(); - - test(); - IF( proc && fUseTns != 0 ) - { - proc = 0; - move16(); - } - - IF( proc ) - { - - startLine = st->hIGFDec->infoIGFStartLine; - move16(); - endLine = st->hIGFDec->infoIGFStopLine; - move16(); - curr_order = 0; - move16(); - predictionGain_fx = 0; - move16(); - L = L_frameTCX; - move16(); - isTCX5 = 0; - move16(); - - /* interleave again for ITF */ - test(); - IF( EQ_16( L_frame, shr( st->L_frame, 1 ) ) && st->tcxonly ) - { - test(); - test(); - test(); - IF( ( hTcxCfg->fIsTNSAllowed && ( fUseTns != 0 ) && NE_16( bfi, 1 ) ) || GT_16( L_spec, L_frameTCX ) ) - { - L = L_spec; - move16(); - } - - test(); - test(); - test(); - test(); - test(); - test(); - test(); - test(); - test(); - test(); - IF( ( ( bfi == 0 ) && ( ( hTcxCfg->tcx_last_overlap_mode != FULL_OVERLAP ) || - ( ( hTcxCfg->tcx_curr_overlap_mode == FULL_OVERLAP ) && ( frame_cnt == 0 ) && ( index == 0 ) ) ) ) || - ( ( bfi != 0 ) && ( ( hTcxCfg->tcx_last_overlap_mode != FULL_OVERLAP ) && - ( hTcxCfg->tcx_curr_overlap_mode != FULL_OVERLAP ) ) ) ) - { - isTCX5 = 1; - move16(); - - tcx5SpectrumInterleaving_fx( shr( L, 1 ), x_fx ); - } - } - - FOR( j = startLine; j < endLine; j++ ) - { - IF( EQ_16( st->hIGFDec->flag_sparse[j - IGF_START_MN], 2 ) ) - { - x_itf_fx[j - IGF_START_MN] = x_fx[j]; // q_x - move32(); - x_fx[j] = st->hIGFDec->virtualSpec_fx[j - IGF_START_MN]; - move32(); - } - } - - ITF_Detect_fx( x_fx + IGF_START_MN, startLine, endLine, 8 /*maxOrder*/, A_itf_fx, &q_a_itf, &predictionGain_fx, &curr_order, shl( x_e, 1 ) ); - - ITF_Apply_fx( x_fx, startLine, endLine, A_itf_fx, q_a_itf, curr_order ); - - FOR( j = startLine; j < endLine; j++ ) - { - IF( EQ_16( st->hIGFDec->flag_sparse[j - IGF_START_MN], 2 ) ) - { - x_fx[j] = x_itf_fx[j - IGF_START_MN]; // q_x - move32(); - } - } - - /* deinterleave */ - IF( NE_16( isTCX5, 0 ) ) - { - tcx5SpectrumDeinterleaving_fx( shr( L, 1 ), x_fx ); - } - } - } - - /*-----------------------------------------------------------* - * Prepare OLA buffer after waveadjustment. * - * Compute inverse MDCT of x[]. * - *-----------------------------------------------------------*/ - - - IF( EQ_16( st->element_mode, IVAS_CPE_MDCT ) ) - { - Word16 copy_len = s_min( L_FRAME48k, s_max( L_spec, s_max( L_frame, L_frameTCX ) ) ); - set32_fx( x_tmp_fx, 0, L_FRAME_PLUS ); - Copy32( x_fx, x_tmp_fx, copy_len ); // q_x - Copy32( x_fx, xn_bufFB_fx, copy_len ); // q_x - } - ELSE IF( ( st->element_mode == EVS_MONO ) ) - { - Copy32( x_fx, xn_bufFB_fx, s_max( L_spec, s_max( L_frame, L_frameTCX ) ) ); // q_x - } - ELSE - { - Word16 copy_len = s_max( L_spec, s_max( L_frame, L_frameTCX ) ); - Copy32( x_fx, x_tmp_fx, copy_len ); // q_x - Copy32( x_fx, xn_bufFB_fx, copy_len ); // q_x - } - - IF( ( st->igf != 0 ) ) - { - set32_fx( xn_bufFB_fx + st->hIGFDec->infoIGFStartLine, 0, L_frameTCX - st->hIGFDec->infoIGFStartLine ); - } - - test(); - IF( NE_16( st->element_mode, IVAS_CPE_DFT ) && !sba_dirac_stereo_flag ) - { - - IMDCT_ivas_fx( xn_bufFB_fx, q_x, hTcxDec->syn_Overl, hTcxDec->syn_Overl_TDAC, xn_buf_fx, hTcxCfg->tcx_aldo_window_1, hTcxCfg->tcx_aldo_window_1_trunc, hTcxCfg->tcx_aldo_window_2, - hTcxCfg->tcx_mdct_window_half, hTcxCfg->tcx_mdct_window_minimum, hTcxCfg->tcx_mdct_window_trans, hTcxCfg->tcx_mdct_window_half_length, hTcxCfg->tcx_mdct_window_min_length, index, - kernelType, left_rect, tcx_offset, overlap, L_frame, L_frameTCX, shr( s_max( L_frameTCX, L_spec ), 1 ), L_frame_glob, frame_cnt, bfi, st->hHQ_core->old_out_LB_fx, 0, st, 0, acelp_zir_fx, q_win ); - } - - /* Generate additional comfort noise to mask potential coding artefacts */ - test(); - test(); - test(); - IF( ( st->flag_cna != 0 ) && NE_16( st->element_mode, IVAS_CPE_TD ) && NE_16( st->element_mode, IVAS_CPE_DFT ) && ( st->cna_dirac_flag == 0 ) ) - { - generate_masking_noise_mdct_ivas_fx( x_fx, &x_e, st->hFdCngDec->hFdCngCom ); - FOR( Word16 ind = 0; ind < L_frame; ind++ ) - { - x_fx[ind] = L_shr( x_fx[ind], sub( 31, add( x_e, q_x ) ) ); // q_x - } - } - - test(); - IF( EQ_16( st->element_mode, IVAS_CPE_DFT ) || ( sba_dirac_stereo_flag != 0 ) ) - { - Copy32( x_fx, xn_bufFB_fx, s_max( L_spec, s_max( L_frame, L_frameTCX ) ) ); // q_x - - IMDCT_ivas_fx( xn_bufFB_fx, q_x, hTcxDec->syn_Overl, hTcxDec->syn_Overl_TDAC, xn_buf_fx, hTcxCfg->tcx_aldo_window_1, hTcxCfg->tcx_aldo_window_1_trunc, hTcxCfg->tcx_aldo_window_2, hTcxCfg->tcx_mdct_window_half, hTcxCfg->tcx_mdct_window_minimum, hTcxCfg->tcx_mdct_window_trans, hTcxCfg->tcx_mdct_window_half_length, hTcxCfg->tcx_mdct_window_min_length, index, - kernelType, left_rect, tcx_offset, overlap, L_frame, L_frameTCX, shr( s_max( L_frameTCX, L_spec ), 1 ), L_frame_glob, frame_cnt, bfi, st->hHQ_core->old_out_LB_fx, 0, st, 0, acelp_zir_fx, q_win ); - } - - FOR( Word16 ind = 0; ind < L_MDCT_OVLP_MAX + L_FRAME_PLUS + L_MDCT_OVLP_MAX; ind++ ) - { - xn_bufFB_fx_16[ind] = extract_l( L_shr( xn_bufFB_fx[ind], shift_q ) ); // q_x - move16(); - } - - Word16 ratio_e; - Word16 ratio = BASOP_Util_Divide1616_Scale( L_frameTCX_glob, L_frame_glob, &ratio_e ); // Q = 15-ratio_e. * FSCALE_DENOM is (1 << 9) - ratio = shr( ratio, sub( 6, ratio_e ) ); - - IF( st->element_mode != EVS_MONO ) - { - IMDCT_ivas_fx( x_tmp_fx, q_x, hTcxDec->syn_OverlFB, hTcxDec->syn_Overl_TDACFB, xn_bufFB_fx_16, hTcxCfg->tcx_aldo_window_1_FB, hTcxCfg->tcx_aldo_window_1_FB_trunc, hTcxCfg->tcx_aldo_window_2_FB, - hTcxCfg->tcx_mdct_window_halfFB, hTcxCfg->tcx_mdct_window_minimumFB, hTcxCfg->tcx_mdct_window_transFB, hTcxCfg->tcx_mdct_window_half_lengthFB, hTcxCfg->tcx_mdct_window_min_lengthFB, index, - kernelType, left_rect, tcx_offsetFB, overlapFB, L_frameTCX, L_frameTCX, shr( max( L_frameTCX, L_spec ), 1 ), L_frameTCX_glob, frame_cnt, bfi, st->hHQ_core->old_out_fx, 1, st, ratio, acelp_zir_fx, q_win ); - } - ELSE - { - - IMDCT_ivas_fx( x_fx, q_x, hTcxDec->syn_OverlFB, hTcxDec->syn_Overl_TDACFB, xn_bufFB_fx_16, hTcxCfg->tcx_aldo_window_1_FB, hTcxCfg->tcx_aldo_window_1_FB_trunc, hTcxCfg->tcx_aldo_window_2_FB, hTcxCfg->tcx_mdct_window_halfFB, hTcxCfg->tcx_mdct_window_minimumFB, hTcxCfg->tcx_mdct_window_transFB, hTcxCfg->tcx_mdct_window_half_lengthFB, hTcxCfg->tcx_mdct_window_min_lengthFB, index, - kernelType, left_rect, tcx_offsetFB, overlapFB, L_frameTCX, L_frameTCX, shr( s_max( L_frameTCX, L_spec ), 1 ), L_frameTCX_glob, frame_cnt, bfi, st->hHQ_core->old_out_fx, 1, st, ratio, acelp_zir_fx, q_win ); - } - FOR( Word16 ind = 0; ind < L_MDCT_OVLP_MAX + L_FRAME_PLUS + L_MDCT_OVLP_MAX; ind++ ) - { - xn_bufFB_fx[ind] = L_shl( L_deposit_l( xn_bufFB_fx_16[ind] ), shift_q ); // Q_x - } - - IF( ( bfi == 0 ) ) - { - Word16 res_m, res_e = 0; - move16(); - st->second_last_tns_active = st->last_tns_active; - move16(); - st->last_tns_active = hTcxCfg->fIsTNSAllowed & fUseTns; - move16(); - hTcxDec->tcxltp_third_last_pitch = hTcxDec->tcxltp_second_last_pitch; - move32(); - hTcxDec->tcxltp_second_last_pitch = st->old_fpitch; - move32(); - res_m = BASOP_Util_Divide1616_Scale( hTcxLtpDec->tcxltp_pitch_fr, st->pit_res_max, &res_e ); - st->old_fpitch = L_add( L_shl( hTcxLtpDec->tcxltp_pitch_int, 16 ), L_shl( res_m, add( res_e, 1 ) ) ); - - IF( EQ_16( st->element_mode, IVAS_CPE_MDCT ) ) - { - // Using sat as a single instruction shifts and extracts - st->old_fpitch = W_shl_sat_l( W_mult0_32_32( st->old_fpitch, L_frame_glob ), -8 ); // Divide by 256 ==> SHR by 8 - move32(); - } - - IF( GT_16( st->element_mode, EVS_MONO ) ) - { - res_m = BASOP_Util_Divide1616_Scale( L_frameTCX_glob, L_frame_glob, &res_e ); - st->old_fpitchFB = L_shl( Mpy_32_16_1( st->old_fpitch, res_m ), res_e ); - move32(); - } - ELSE - { - res_m = BASOP_Util_Divide1616_Scale( L_frameTCX, L_frame, &res_e ); - st->old_fpitchFB = L_shl( Mpy_32_16_1( st->old_fpitch, res_m ), res_e ); - move32(); - } - } - - /* Update old_syn_overl */ - IF( hTcxCfg->last_aldo == 0 ) - { - Copy( xn_buf_fx + L_frame, hTcxDec->syn_Overl, overlap ); // Q(-2) - FOR( Word16 ind = 0; ind < overlapFB; ind++ ) - { - hTcxDec->syn_OverlFB[ind] = extract_l( L_shr( xn_bufFB_fx[( ind + L_frameTCX )], shift_q ) ); // q_x - } - } - - /* Output */ - Copy( xn_buf_fx + sub( shr( overlap, 1 ), tcx_offset ), synth_fx, L_frame_glob ); // Q(-2) - FOR( Word16 ind = 0; ind < L_frameTCX_glob; ind++ ) - { - synthFB_fx[ind] = extract_l( L_shr( xn_bufFB_fx[( ind + ( ( overlapFB >> 1 ) - tcx_offsetFB ) )], shift_q ) ); // q_x - } - - - return; -} - -/*-------------------------------------------------------------------* - * init_tcx_info() - * - * Initialize lengths for TCX processing, update IGF subframe info - *-------------------------------------------------------------------*/ diff --git a/lib_dec/dec_tcx_fx.c b/lib_dec/dec_tcx_fx.c index a0556437dbdba05954c2ae8cef80c71761abf197..af80ee1f54e8672c19b05e6c29432d91639ccd3f 100644 --- a/lib_dec/dec_tcx_fx.c +++ b/lib_dec/dec_tcx_fx.c @@ -9,9 +9,7 @@ #include "basop_util.h" #include "stl.h" #include "options.h" -#include "prot.h" #include "math.h" -#include "ivas_prot.h" #include "ivas_prot_fx.h" #include "rom_com.h" #include "ivas_rom_com.h" @@ -155,7 +153,7 @@ void decoder_tcx_fx( L_frameTCX = st->L_frameTCX_past; move16(); - left_rect = st->prev_widow_left_rect; + left_rect = hTcxDec->prev_widow_left_rect; move16(); IF( left_rect != 0 ) @@ -192,7 +190,7 @@ void decoder_tcx_fx( move16(); left_rect = 1; move16(); - st->prev_widow_left_rect = 1; + hTcxDec->prev_widow_left_rect = 1; move16(); } ELSE @@ -204,7 +202,7 @@ void decoder_tcx_fx( move16(); left_rect = 0; move16(); - st->prev_widow_left_rect = 0; + hTcxDec->prev_widow_left_rect = 0; move16(); } @@ -765,42 +763,42 @@ void decoder_tcx_fx( { IF( EQ_16( st->nbLostCmpt, 1 ) ) { - st->plcInfo.concealment_method = TCX_NONTONAL; + st->hPlcInfo->concealment_method = TCX_NONTONAL; move16(); /* tonal/non-tonal decision */ test(); test(); - IF( EQ_16( st->plcInfo.Transient[0], 1 ) && EQ_16( st->plcInfo.Transient[1], 1 ) && EQ_16( st->plcInfo.Transient[2], 1 ) ) + IF( EQ_16( st->hPlcInfo->Transient[0], 1 ) && EQ_16( st->hPlcInfo->Transient[1], 1 ) && EQ_16( st->hPlcInfo->Transient[2], 1 ) ) { Word16 sum_word16 = 0; move16(); FOR( i = 9; i >= 0; i-- ) { - sum_word16 = add( sum_word16, st->plcInfo.TCX_Tonality[i] ); + sum_word16 = add( sum_word16, st->hPlcInfo->TCX_Tonality[i] ); } if ( GE_16( sum_word16, 6 ) ) { - st->plcInfo.concealment_method = TCX_TONAL; + st->hPlcInfo->concealment_method = TCX_TONAL; move16(); } } if ( st->tonal_mdct_plc_active ) { - st->plcInfo.concealment_method = TCX_TONAL; + st->hPlcInfo->concealment_method = TCX_TONAL; move16(); } } if ( GT_16( L_frameTCX, hTcxDec->L_frameTCX ) ) { - st->plcInfo.concealment_method = TCX_TONAL; + st->hPlcInfo->concealment_method = TCX_TONAL; move16(); } - temp_concealment_method = st->plcInfo.concealment_method; + temp_concealment_method = st->hPlcInfo->concealment_method; move16(); if ( EQ_16( st->core, TCX_10_CORE ) ) @@ -812,7 +810,7 @@ void decoder_tcx_fx( /* get the starting location of the subframe in the frame */ IF( EQ_16( st->core, TCX_10_CORE ) ) { - st->plcInfo.subframe_fx = extract_l( L_mult0( frame_cnt, L_frameTCX_glob ) ); + st->hPlcInfo->subframe_fx = extract_l( L_mult0( frame_cnt, L_frameTCX_glob ) ); move16(); } } @@ -823,8 +821,7 @@ void decoder_tcx_fx( IF( bfi == 0 ) { - TonalMDCTConceal_SaveFreqSignal( &st->tonalMDCTconceal, x, x_e, L_frameTCX, - L_frame, gainlpc2, gainlpc2_e, gain_tcx_e ); + TonalMDCTConceal_SaveFreqSignal( st->hTonalMDCTConc, x, x_e, L_frameTCX, L_frame, gainlpc2, gainlpc2_e, gain_tcx_e ); } ELSE { @@ -854,8 +851,8 @@ void decoder_tcx_fx( Word16 exp1, exp2; Word32 E_2ndlast, E_last; - E_2ndlast = CalculateAbsEnergy_fx( 1, &( st->tonalMDCTconceal.lastBlockData.spectralData[0] ), infoIGFStartLine, &exp2 ); - E_last = CalculateAbsEnergy_fx( 1, &( st->tonalMDCTconceal.lastBlockData.spectralData[1] ), infoIGFStartLine, &exp1 ); + E_2ndlast = CalculateAbsEnergy_fx( 1, &( st->hTonalMDCTConc->lastBlockData.spectralData[0] ), infoIGFStartLine, &exp2 ); + E_last = CalculateAbsEnergy_fx( 1, &( st->hTonalMDCTConc->lastBlockData.spectralData[1] ), infoIGFStartLine, &exp1 ); BASOP_Util_Divide_MantExp( extract_h( E_2ndlast ), exp2, extract_h( E_last ), exp1, &tmp1, &tmp2 ); @@ -867,7 +864,7 @@ void decoder_tcx_fx( FOR( i = 0; i < infoIGFStartLine; i += 2 ) { move32(); - st->tonalMDCTconceal.lastBlockData.spectralData[i] = st->tonalMDCTconceal.lastBlockData.spectralData[i + 1]; + st->hTonalMDCTConc->lastBlockData.spectralData[i] = st->hTonalMDCTConc->lastBlockData.spectralData[i + 1]; } } ELSE IF( LT_16( tmp1, 4096 /*0.5 in Q13*/ ) ) @@ -875,7 +872,7 @@ void decoder_tcx_fx( FOR( i = 0; i < infoIGFStartLine; i += 2 ) { move32(); - st->tonalMDCTconceal.lastBlockData.spectralData[i + 1] = st->tonalMDCTconceal.lastBlockData.spectralData[i]; + st->hTonalMDCTConc->lastBlockData.spectralData[i + 1] = st->hTonalMDCTConc->lastBlockData.spectralData[i]; } } } @@ -894,7 +891,7 @@ void decoder_tcx_fx( tcxGetNoiseFillingTilt( A, M, L_frame, tmp, &noiseTiltFactor ); - TonalMDCTConceal_InsertNoise( &st->tonalMDCTconceal, x, &x_e, st->tonal_mdct_plc_active, &st->seed_tcx_plc, + TonalMDCTConceal_InsertNoise( st->hTonalMDCTConc, x, &x_e, st->tonal_mdct_plc_active, &st->seed_tcx_plc, noiseTiltFactor, f, #ifdef IVAS_CODE_CNG_FIX185_PLC_FADEOUT concealment_noise, @@ -982,7 +979,7 @@ void decoder_tcx_fx( test(); IF( bfi && st->tonal_mdct_plc_active ) { - TonalMDCTConceal_Apply( &st->tonalMDCTconceal, x, &x_e ); + TonalMDCTConceal_Apply( st->hTonalMDCTConc, x, &x_e ); } tmp32 = L_deposit_h( 0 ); @@ -998,11 +995,8 @@ void decoder_tcx_fx( tmp8 = 1; move16(); } - TonalMDCTConceal_UpdateState( &st->tonalMDCTconceal, - L_frameTCX, - tmp32, - bfi, - tmp8 ); + + TonalMDCTConceal_UpdateState( st->hTonalMDCTConc, L_frameTCX, tmp32, bfi, tmp8 ); IF( st->enablePlcWaveadjust ) { @@ -1013,10 +1007,11 @@ void decoder_tcx_fx( IF( bfi && ( EQ_16( temp_concealment_method, TCX_NONTONAL ) ) ) { /* x_e =31-x_scale; */ - concealment_decode_fix( core, x, &x_e, &st->plcInfo ); + concealment_decode_fix( core, x, &x_e, st->hPlcInfo ); } + /* update spectrum buffer, tonality flag, etc. */ - concealment_update_x( bfi, core, st->tonality_flag, x, &x_e, &st->plcInfo ); + concealment_update_x( bfi, core, st->tonality_flag, x, &x_e, st->hPlcInfo ); } /*-----------------------------------------------------------* @@ -1307,7 +1302,7 @@ void decoder_tcx_post_fx( Decoder_State *st_fx, { test(); /* run lpc gain compensation not for waveform adjustment */ - IF( 0 == st_fx->enablePlcWaveadjust || EQ_16( st_fx->plcInfo.concealment_method, TCX_TONAL ) ) + IF( 0 == st_fx->enablePlcWaveadjust || EQ_16( st_fx->hPlcInfo->concealment_method, TCX_TONAL ) ) { UWord32 dmy; tmp32_1 /*gainHelperFB*/ = L_shl_r( L_deposit_h( hTcxDec->gainHelper ), sub( hTcxDec->gainHelper_e, 31 - 28 ) ); /*Q28*/ @@ -1477,20 +1472,19 @@ void decoder_tcx_post_fx( Decoder_State *st_fx, move16(); /* run lpc gain compensation not for waveform adjustment */ test(); - IF( 0 == st_fx->enablePlcWaveadjust || EQ_16( st_fx->plcInfo.concealment_method, TCX_TONAL ) ) + IF( 0 == st_fx->enablePlcWaveadjust || EQ_16( st_fx->hPlcInfo->concealment_method, TCX_TONAL ) ) { - st_fx->plcInfo.recovery_gain = extract_h( L_shl_o( Mpy_32_16_1( conceal_eof_gainFB, - st_fx->last_concealed_gain_syn_deemph ), - st_fx->last_concealed_gain_syn_deemph_e, &Overflow ) ); /*Q30->Q14*/ + st_fx->hPlcInfo->recovery_gain = extract_h( L_shl_o( Mpy_32_16_1( conceal_eof_gainFB, + st_fx->last_concealed_gain_syn_deemph ), + st_fx->last_concealed_gain_syn_deemph_e, &Overflow ) ); /*Q30->Q14*/ move16(); } ELSE { - st_fx->plcInfo.recovery_gain = extract_h( conceal_eof_gainFB ); /*Q14*/ + st_fx->hPlcInfo->recovery_gain = extract_h( conceal_eof_gainFB ); /*Q14*/ move16(); } - st_fx->plcInfo.step_concealgain_fx = - round_fx_sat( L_shl_sat( L_mult0( round_fx_sat( step ), round_fx_sat( L_shl_sat( L_mult0( st_fx->L_frame, getInvFrameLen( hTcxDec->L_frameTCX ) ), 8 ) ) ), 3 ) ); /*Q15*/ + st_fx->hPlcInfo->step_concealgain_fx = round_fx_sat( L_shl_sat( L_mult0( round_fx_sat( step ), round_fx_sat( L_shl_sat( L_mult0( st_fx->L_frame, getInvFrameLen( hTcxDec->L_frameTCX ) ), 8 ) ) ), 3 ) ); /*Q15*/ move16(); } @@ -1587,7 +1581,7 @@ void decoder_tcx_post_ivas_fx( Decoder_State *st_fx, test(); test(); /* run lpc gain compensation not for waveform adjustment */ - IF( 0 == st_fx->enablePlcWaveadjust || ( st_fx->hPlcInfo != NULL && EQ_16( st_fx->plcInfo.concealment_method, TCX_TONAL ) ) ) + IF( 0 == st_fx->enablePlcWaveadjust || ( st_fx->hPlcInfo != NULL && EQ_16( st_fx->hPlcInfo->concealment_method, TCX_TONAL ) ) ) { UWord32 dmy; tmp32_1 /*gainHelperFB*/ = L_shl_r( L_deposit_h( hTcxDec->gainHelper ), sub( hTcxDec->gainHelper_e, 31 - 28 ) ); /*Q28*/ @@ -1806,22 +1800,22 @@ void decoder_tcx_post_ivas_fx( Decoder_State *st_fx, } /* run lpc gain compensation not for waveform adjustment */ - test(); - IF( 0 == st_fx->enablePlcWaveadjust || EQ_16( st_fx->plcInfo.concealment_method, TCX_TONAL ) ) - { - st_fx->plcInfo.recovery_gain = extract_h( L_shl_o( Mpy_32_16_1( conceal_eof_gainFB, - st_fx->last_concealed_gain_syn_deemph ), - st_fx->last_concealed_gain_syn_deemph_e, &Overflow ) ); /*Q30->Q14*/ - move16(); - } - ELSE + IF( st_fx->hPlcInfo != NULL ) { - st_fx->plcInfo.recovery_gain = extract_h( conceal_eof_gainFB ); /*Q14*/ + test(); + IF( 0 == st_fx->enablePlcWaveadjust || EQ_16( st_fx->hPlcInfo->concealment_method, TCX_TONAL ) ) + { + st_fx->hPlcInfo->recovery_gain = extract_h( L_shl_o( Mpy_32_16_1( conceal_eof_gainFB, st_fx->last_concealed_gain_syn_deemph ), st_fx->last_concealed_gain_syn_deemph_e, &Overflow ) ); /*Q30->Q14*/ + move16(); + } + ELSE + { + st_fx->hPlcInfo->recovery_gain = extract_h( conceal_eof_gainFB ); /*Q14*/ + move16(); + } + st_fx->hPlcInfo->step_concealgain_fx = round_fx_sat( L_shl_sat( L_mult0( round_fx_sat( L_shr_sat( step, sub( 1, step_e ) ) ), round_fx_sat( L_shl_sat( L_mult0( st_fx->L_frame, getInvFrameLen( hTcxDec->L_frameTCX ) ), 8 ) ) ), 4 ) ); /*Q15*/ move16(); } - st_fx->plcInfo.step_concealgain_fx = - round_fx_sat( L_shl_sat( L_mult0( round_fx_sat( L_shr_sat( step, sub( 1, step_e ) ) ), round_fx_sat( L_shl_sat( L_mult0( st_fx->L_frame, getInvFrameLen( hTcxDec->L_frameTCX ) ), 8 ) ) ), 4 ) ); /*Q15*/ - move16(); } /*-----------------------------------------------------------* @@ -2642,10 +2636,10 @@ void IMDCT_ivas_fx( { Word32 fac; // fac = shl_sat( mult_r( extract_h( L_shr_sat( hTcxDec->conceal_eof_gain32, sub( 1, hTcxDec->conceal_eof_gain_e ) ) ), st->last_concealed_gain_syn_deemph ), 1 ); - fac = Mpy_32_16_1( hTcxDec->conceal_eof_gain32, st->last_concealed_gain_syn_deemph ); // q = 31 - hTcxDec->conceal_eof_gain_e + fac = Mpy_32_16_1( hTcxDec->conceal_eof_gain32, st->last_concealed_gain_syn_deemph ); // q = 31 - hTcxDec->conceal_eof_gain_e - last_concealed_gain_syn_deemph_e FOR( Word16 ind = 0; ind < overlap; ind++ ) { - old_syn_overl_fx[ind] = extract_l( L_shl_sat( Mpy_32_32( old_syn_overl_fx[ind], fac ), hTcxDec->conceal_eof_gain_e ) ); // Q(-2) + old_syn_overl_fx[ind] = extract_h( L_shl_sat( Mpy_32_16_1( fac, old_syn_overl_fx[ind] ), add( hTcxDec->conceal_eof_gain_e, st->last_concealed_gain_syn_deemph_e ) ) ); // Q(-2) move16(); } } @@ -2688,7 +2682,7 @@ void IMDCT_ivas_fx( } move16(); - set16_fx( win_fx, 0, shr( add( L_FRAME_PLUS, L_MDCT_OVLP_MAX ), 1 ) ); + set16_fx( win_fx, 0, ( L_FRAME_PLUS + L_MDCT_OVLP_MAX ) >> 1 ); Word16 tcx_offset_tmp = add( tcx_offset, shr( L_ola, 1 ) ); set16_fx( xn_buf_fx, 0, tcx_offset_tmp ); /* zero left end of buffer */ @@ -2867,9 +2861,10 @@ void IMDCT_ivas_fx( q_tmp_fx_32 = q_xn_buf_fx_32; move16(); + Word16 diff = sub( q_tmp_fx_32, q_win ); FOR( Word16 ind = 0; ind < L_frame; ind++ ) { - old_out_fx_32[ind] = L_shl( old_out_fx[ind], sub( q_tmp_fx_32, q_win ) ); + old_out_fx_32[ind] = L_shl( old_out_fx[ind], diff ); move32(); } @@ -2877,8 +2872,8 @@ void IMDCT_ivas_fx( FOR( Word16 ind = 0; ind < L_frame; ind++ ) { - old_out_fx[ind] = (Word16) L_shr( old_out_fx_32[ind], sub( q_tmp_fx_32, q_win ) ); - xn_buf_fx[ind] = (Word16) L_shr( xn_buf_fx_32[ind], sub( q_tmp_fx_32, q_win ) ); + old_out_fx[ind] = extract_l( L_shr( old_out_fx_32[ind], diff ) ); + xn_buf_fx[ind] = extract_l( L_shr( xn_buf_fx_32[ind], diff ) ); move16(); move16(); } @@ -2902,19 +2897,23 @@ void IMDCT_ivas_fx( q_tmp_fx_32 = sub( q_xn_buf_fx_32, res_e ); // v_multc_fixed( xn_buf_fx_32 + overlap / 2 + nz, (float) sqrt( (float) L_frame / NORM_MDCT_FACTOR ), tmp_fx_32, L_frame ); + Word16 q_diff = sub( q_xn_buf_fx_32, q_win ); FOR( Word16 ind = 0; ind < L_frame; ind++ ) { - xn_buf_fx[( ind + ( overlap / 2 ) ) + nz] = (Word16) L_shr( xn_buf_fx_32[( ind + ( overlap / 2 ) ) + nz], sub( q_xn_buf_fx_32, q_win ) ); + xn_buf_fx[( ind + ( overlap / 2 ) ) + nz] = extract_l( L_shr( xn_buf_fx_32[( ind + ( overlap / 2 ) ) + nz], q_diff ) ); move16(); } window_ola_fx( tmp_fx_32, xn_buf_fx, &q_tmp_fx_32, old_out_fx, &q_old_out, L_frame, hTcxCfg->tcx_last_overlap_mode, hTcxCfg->tcx_curr_overlap_mode, 0, 0, NULL ); + q_diff = sub( q_old_out, q_win ); + + Word16 diff = sub( q_tmp_fx_32, q_win ); FOR( Word16 ind = 0; ind < L_frame; ind++ ) { - old_out_fx[ind] = shr_sat( old_out_fx[ind], sub( q_old_out, q_win ) ); + old_out_fx[ind] = shr_sat( old_out_fx[ind], q_diff ); move16(); - xn_buf_fx[ind] = shr_sat( xn_buf_fx[ind], sub( q_tmp_fx_32, q_win ) ); + xn_buf_fx[ind] = shr_sat( xn_buf_fx[ind], diff ); move16(); } } @@ -3610,7 +3609,8 @@ void decoder_tcx_ivas_fx( st->hHQ_core->Q_old_wtda_LB = 0; move16(); - Scale_sig( st->hTcxDec->old_syn_Overl, 320, 1 ); // Scaling to Q_syn + Scale_sig( st->hTcxDec->old_syn_Overl, 320, st->Q_syn - st->hTcxDec->Q_old_syn_Overl ); // Scaling to Q_syn + st->hTcxDec->Q_old_syn_Overl = st->Q_syn; Copy_Scale_sig_16_32_no_sat( st->old_Aq_12_8_fx, st->old_Aq_12_8_fx_32, M + 1, ( sub( 28, ( sub( 15, norm_s( sub( st->old_Aq_12_8_fx[0], 1 ) ) ) ) ) ) ); Scale_sig( synth_fx, L_frame_glob, st->Q_syn ); // Scaling to Q_syn @@ -3627,7 +3627,8 @@ void decoder_tcx_ivas_fx( // Scale_sig( st->hHQ_core->old_out_LB_fx, L_FRAME32k, ( sub( st->hHQ_core->Q_old_wtda, st->Q_syn ) ) ); st->hHQ_core->Q_old_wtda_LB = st->Q_syn; // Scale_sig( st->hHQ_core->old_out_fx, L_FRAME48k, ( sub( st->hHQ_core->Q_old_wtda, st->Q_syn ) ) ); - Scale_sig( st->hTcxDec->old_syn_Overl, 320, ( -2 + st->Q_syn ) ); // Scaling to Q-2 + Scale_sig( st->hTcxDec->old_syn_Overl, 320, ( -2 - st->hTcxDec->Q_old_syn_Overl ) ); // Scaling to Q-2 + st->hTcxDec->Q_old_syn_Overl = -2; } /*-------------------------------------------------------------------* @@ -3808,7 +3809,7 @@ void decoder_tcx_invQ_fx( FOR( i = 0; i < noiseFillingSize; ++i ) { tmp32 = L_shr( x[i], sub( 31, *x_e ) ); - *nf_seed = add_o( *nf_seed, (Word16) abs( tmp32 ) * i * 2, &Overflow ); + *nf_seed = add_o( *nf_seed, extract_l( L_shl( i_mult( (Word16) L_abs( tmp32 ), i ), 1 ) ), &Overflow ); // abs( tmp32 ) * i * 2 move16(); } } @@ -3876,7 +3877,8 @@ void decoder_tcx_invQ_fx( test(); IF( !st->tcxonly || ( hTcxCfg->resq && hTcxDec->tcx_lpc_shaped_ari ) ) { - FOR( i = 0; i < max( L_spec, L_frameTCX ); i++ ) + Word16 len = s_max( L_spec, L_frameTCX ); + FOR( i = 0; i < len; i++ ) { xn_buf[i] = ONE_IN_Q14; move16(); @@ -4409,7 +4411,7 @@ void decoder_tcx_noisefilling_fx( /* get the starting location of the subframe in the frame */ IF( EQ_16( st->core, TCX_10_CORE ) ) { - st->hPlcInfo->subframe = extract_l( L_mult0( frame_cnt, L_frameTCX_glob ) ); + st->hPlcInfo->subframe_fx = extract_l( L_mult0( frame_cnt, L_frameTCX_glob ) ); move16(); } } @@ -4800,11 +4802,11 @@ void decoder_tcx_noiseshaping_igf_fx( /* spectrum concealment */ IF( bfi && EQ_16( *temp_concealment_method, TCX_NONTONAL ) ) { - concealment_decode_fix( st->core, x_fx, x_e, &st->hPlcInfo ); + concealment_decode_fix( st->core, x_fx, x_e, st->hPlcInfo ); } /* update spectrum buffer, tonality flag, etc. */ - concealment_update_x( bfi, st->core, st->tonality_flag, x_fx, x_e, &st->hPlcInfo ); + concealment_update_x( bfi, st->core, st->tonality_flag, x_fx, x_e, st->hPlcInfo ); *x_len = s_max( *x_len, st->hPlcInfo->L_frameTCX ); move16(); @@ -4856,3 +4858,449 @@ void decoder_tcx_noiseshaping_igf_fx( return; } + + +/*-------------------------------------------------------------------* + * decoder_tcx_tns() + * + * TCX: TNS application + *-------------------------------------------------------------------*/ + +void decoder_tcx_tns_fx( + Decoder_State *st, /* i/o: coder memory state */ + const Word16 L_frame_glob, /* i : frame length */ + const Word16 L_spec, + const Word16 L_frame, + const Word16 L_frameTCX, + Word32 x_fx[N_MAX], // Qx + const Word16 fUseTns, /* i : flag that is set if TNS data is present */ + STnsData *tnsData, + const Word16 bfi, /* i : Bad frame indicator */ + const Word16 frame_cnt, /* i : frame counter in the super frame */ + const Word16 whitenedDomain, + Word16 *length ) +{ + Word16 index, isTCX5, L, tmp; + TCX_CONFIG_HANDLE hTcxCfg = st->hTcxCfg; + + index = hTcxCfg->tcx_last_overlap_mode; /* backup last TCX overlap mode */ + move16(); + + isTCX5 = 0; + move16(); + L = L_frameTCX; + move16(); + tmp = L; + move16(); + + test(); + IF( EQ_16( L_frame, shr( st->L_frame, 1 ) ) && st->tcxonly != 0 ) + { + test(); + test(); + IF( frame_cnt != 0 && bfi == 0 && st->last_core != ACELP_CORE ) + { + /* fix sub-window overlap */ + hTcxCfg->tcx_last_overlap_mode = hTcxCfg->tcx_curr_overlap_mode; + move16(); + } + + test(); + test(); + test(); + IF( ( NE_16( hTcxCfg->fIsTNSAllowed, 0 ) && NE_16( fUseTns, 0 ) && NE_16( bfi, 1 ) ) || GT_16( L_spec, L_frameTCX ) ) + { + L = L_spec; + move16(); + tmp = L; + move16(); + } + + test(); + test(); + test(); + test(); + test(); + test(); + test(); + IF( ( EQ_16( bfi, 0 ) && ( NE_16( hTcxCfg->tcx_last_overlap_mode, FULL_OVERLAP ) || + ( EQ_16( hTcxCfg->tcx_curr_overlap_mode, FULL_OVERLAP ) && EQ_16( frame_cnt, 0 ) && EQ_16( index, 0 ) ) ) ) || + ( NE_16( bfi, 0 ) && ( NE_16( hTcxCfg->tcx_last_overlap_mode, FULL_OVERLAP ) && + NE_16( hTcxCfg->tcx_curr_overlap_mode, FULL_OVERLAP ) ) ) ) + { + isTCX5 = 1; + move16(); + + tcx5SpectrumDeinterleaving_fx( shr( L, 1 ), x_fx ); + } + } + + /*-----------------------------------------------------------* + * Temporal Noise Shaping Synthesis * + *-----------------------------------------------------------*/ + + + test(); + test(); + test(); + IF( NE_16( hTcxCfg->fIsTNSAllowed, 0 ) && fUseTns != 0 && NE_16( bfi, 1 ) && EQ_16( tnsData->tnsOnWhitenedSpectra, whitenedDomain ) ) + { + /* Apply TNS to get the reconstructed signal */ + SetTnsConfig( hTcxCfg, L_frame_glob == st->L_frame, ( st->last_core == ACELP_CORE ) && ( frame_cnt == 0 ) ); + + test(); + test(); + IF( EQ_16( L_frame, shr( st->L_frame, 1 ) ) && st->tcxonly != 0 && isTCX5 != 0 ) + { + tcx5TnsGrouping_fx( shr( L, 1 ), shr( hTcxCfg->tnsConfig[0][0].iFilterBorders[0], 1 ), x_fx ); + } + + ApplyTnsFilter( hTcxCfg->pCurrentTnsConfig, tnsData, x_fx, 0 ); + + test(); + test(); + IF( EQ_16( L_frame, shr( st->L_frame, 1 ) ) && st->tcxonly != 0 && isTCX5 != 0 ) + { + test(); + IF( st->element_mode == EVS_MONO || LT_16( L_spec, L_frameTCX ) ) /* todo: this is temporary to maintain EVS BE, this is a bug and should be fixed also for EVS (see issue 13) */ + { + tcx5TnsUngrouping_fx( shr( L_frameTCX, 1 ), shr( hTcxCfg->tnsConfig[0][0].iFilterBorders[0], 1 ), x_fx, DEC ); + tmp = L_frameTCX; + move16(); + } + ELSE + { + tcx5TnsUngrouping_fx( shr( L, 1 ), shr( hTcxCfg->tnsConfig[0][0].iFilterBorders[0], 1 ), x_fx, DEC ); + } + } + } + test(); + IF( NE_16( whitenedDomain, 0 ) && NE_16( isTCX5, 0 ) ) + { + tcx5SpectrumInterleaving_fx( shr( L, 1 ), x_fx ); + } + + /* restore index */ + test(); + test(); + test(); + test(); + IF( EQ_16( L_frame, shr( st->L_frame, 1 ) ) && NE_16( st->tcxonly, 0 ) && NE_16( frame_cnt, 0 ) && EQ_16( bfi, 0 ) && NE_16( st->last_core, ACELP_CORE ) ) + { + /* restore sub-window overlap */ + hTcxCfg->tcx_last_overlap_mode = index; + move16(); + } + + if ( length != NULL ) + { + *length = tmp; + move16(); + } + + return; +} + + +void decoder_tcx_imdct_fx( + Decoder_State *st, /* i/o: coder memory state */ + const Word16 L_frame_glob, /* i : frame length */ + const Word16 L_frameTCX_glob, + const Word16 L_spec, + const Word16 tcx_offset, + const Word16 tcx_offsetFB, + const Word16 L_frame, + const Word16 L_frameTCX, + const Word16 left_rect, + Word32 x_fx[N_MAX], // Q(11) + Word16 q_x, + Word16 xn_buf_fx[], // Q(-2) + Word16 q_win, + const UWord16 kernelType, /* i : TCX transform kernel type */ + const Word16 fUseTns, /* i : flag that is set if TNS data is present */ + Word16 synth_fx[], // Q(-2) /* i/o: synth[-M..L_frame] */ + Word16 synthFB_fx[], // Q(-2) + const Word16 bfi, /* i : Bad frame indicator */ + const Word16 frame_cnt, /* i : frame counter in the super frame */ + const Word16 sba_dirac_stereo_flag /* i : signal stereo output for SBA DirAC */ +) +{ + Word16 j, L, overlap, curr_order, startLine, endLine, isTCX5; + Word16 overlapFB; + Word32 x_tmp_fx[L_FRAME_PLUS]; + Word32 xn_bufFB_fx[L_MDCT_OVLP_MAX + L_FRAME_PLUS + L_MDCT_OVLP_MAX] = { 0 }; + Word16 xn_bufFB_fx_16[L_MDCT_OVLP_MAX + L_FRAME_PLUS + L_MDCT_OVLP_MAX]; + Word16 acelp_zir_fx[L_FRAME_MAX / 2]; + Word32 x_itf_fx[N_MAX_TCX - IGF_START_MN]; + Word16 index, proc = 0; + TCX_LTP_DEC_HANDLE hTcxLtpDec = st->hTcxLtpDec; + TCX_DEC_HANDLE hTcxDec = st->hTcxDec; + TCX_CONFIG_HANDLE hTcxCfg = st->hTcxCfg; + Word16 predictionGain_fx; + Word16 A_itf_fx[ITF_MAX_FILTER_ORDER + 1]; // q_a_itf + Word16 q_a_itf = 15; + Word16 x_e = sub( 31, q_x ); + move16(); + Word16 shift_q = sub( q_x, q_win ); + + /*-----------------------------------------------------------------* + * Initializations + *-----------------------------------------------------------------*/ + + /* Init lengths */ + overlap = hTcxCfg->tcx_mdct_window_length; + move16(); + overlapFB = hTcxCfg->tcx_mdct_window_lengthFB; + move16(); + + index = hTcxCfg->tcx_last_overlap_mode; /* backup last TCX overlap mode */ + move16(); + test(); + test(); + test(); + test(); + IF( EQ_16( L_frame, shr( st->L_frame, 1 ) ) && ( st->tcxonly != 0 ) && ( frame_cnt != 0 ) && ( bfi == 0 ) && ( st->last_core != ACELP_CORE ) ) + { + /* fix sub-window overlap */ + hTcxCfg->tcx_last_overlap_mode = hTcxCfg->tcx_curr_overlap_mode; + move16(); + } + + IF( st->igf != 0 ) + { + proc = st->hIGFDec->flatteningTrigger; + move16(); + + test(); + IF( proc && fUseTns != 0 ) + { + proc = 0; + move16(); + } + + IF( proc ) + { + + startLine = st->hIGFDec->infoIGFStartLine; + move16(); + endLine = st->hIGFDec->infoIGFStopLine; + move16(); + curr_order = 0; + move16(); + predictionGain_fx = 0; + move16(); + L = L_frameTCX; + move16(); + isTCX5 = 0; + move16(); + + /* interleave again for ITF */ + test(); + IF( EQ_16( L_frame, shr( st->L_frame, 1 ) ) && st->tcxonly ) + { + test(); + test(); + test(); + IF( ( hTcxCfg->fIsTNSAllowed && ( fUseTns != 0 ) && NE_16( bfi, 1 ) ) || GT_16( L_spec, L_frameTCX ) ) + { + L = L_spec; + move16(); + } + + test(); + test(); + test(); + test(); + test(); + test(); + test(); + test(); + test(); + test(); + IF( ( ( bfi == 0 ) && ( ( hTcxCfg->tcx_last_overlap_mode != FULL_OVERLAP ) || + ( ( hTcxCfg->tcx_curr_overlap_mode == FULL_OVERLAP ) && ( frame_cnt == 0 ) && ( index == 0 ) ) ) ) || + ( ( bfi != 0 ) && ( ( hTcxCfg->tcx_last_overlap_mode != FULL_OVERLAP ) && + ( hTcxCfg->tcx_curr_overlap_mode != FULL_OVERLAP ) ) ) ) + { + isTCX5 = 1; + move16(); + + tcx5SpectrumInterleaving_fx( shr( L, 1 ), x_fx ); + } + } + + FOR( j = startLine; j < endLine; j++ ) + { + IF( EQ_16( st->hIGFDec->flag_sparse[j - IGF_START_MN], 2 ) ) + { + x_itf_fx[j - IGF_START_MN] = x_fx[j]; // q_x + move32(); + x_fx[j] = st->hIGFDec->virtualSpec_fx[j - IGF_START_MN]; + move32(); + } + } + + ITF_Detect_fx( x_fx + IGF_START_MN, startLine, endLine, 8 /*maxOrder*/, A_itf_fx, &q_a_itf, &predictionGain_fx, &curr_order, shl( x_e, 1 ) ); + + ITF_Apply_fx( x_fx, startLine, endLine, A_itf_fx, q_a_itf, curr_order ); + + FOR( j = startLine; j < endLine; j++ ) + { + IF( EQ_16( st->hIGFDec->flag_sparse[j - IGF_START_MN], 2 ) ) + { + x_fx[j] = x_itf_fx[j - IGF_START_MN]; // q_x + move32(); + } + } + + /* deinterleave */ + IF( NE_16( isTCX5, 0 ) ) + { + tcx5SpectrumDeinterleaving_fx( shr( L, 1 ), x_fx ); + } + } + } + + /*-----------------------------------------------------------* + * Prepare OLA buffer after waveadjustment. * + * Compute inverse MDCT of x[]. * + *-----------------------------------------------------------*/ + + + IF( EQ_16( st->element_mode, IVAS_CPE_MDCT ) ) + { + Word16 copy_len = s_min( L_FRAME48k, s_max( L_spec, s_max( L_frame, L_frameTCX ) ) ); + set32_fx( x_tmp_fx, 0, L_FRAME_PLUS ); + Copy32( x_fx, x_tmp_fx, copy_len ); // q_x + Copy32( x_fx, xn_bufFB_fx, copy_len ); // q_x + } + ELSE IF( ( st->element_mode == EVS_MONO ) ) + { + Copy32( x_fx, xn_bufFB_fx, s_max( L_spec, s_max( L_frame, L_frameTCX ) ) ); // q_x + } + ELSE + { + Word16 copy_len = s_max( L_spec, s_max( L_frame, L_frameTCX ) ); + Copy32( x_fx, x_tmp_fx, copy_len ); // q_x + Copy32( x_fx, xn_bufFB_fx, copy_len ); // q_x + } + + IF( ( st->igf != 0 ) ) + { + set32_fx( xn_bufFB_fx + st->hIGFDec->infoIGFStartLine, 0, L_frameTCX - st->hIGFDec->infoIGFStartLine ); + } + + test(); + IF( NE_16( st->element_mode, IVAS_CPE_DFT ) && !sba_dirac_stereo_flag ) + { + + IMDCT_ivas_fx( xn_bufFB_fx, q_x, hTcxDec->syn_Overl, hTcxDec->syn_Overl_TDAC, xn_buf_fx, hTcxCfg->tcx_aldo_window_1, hTcxCfg->tcx_aldo_window_1_trunc, hTcxCfg->tcx_aldo_window_2, + hTcxCfg->tcx_mdct_window_half, hTcxCfg->tcx_mdct_window_minimum, hTcxCfg->tcx_mdct_window_trans, hTcxCfg->tcx_mdct_window_half_length, hTcxCfg->tcx_mdct_window_min_length, index, + kernelType, left_rect, tcx_offset, overlap, L_frame, L_frameTCX, shr( s_max( L_frameTCX, L_spec ), 1 ), L_frame_glob, frame_cnt, bfi, st->hHQ_core->old_out_LB_fx, 0, st, 0, acelp_zir_fx, q_win ); + } + + /* Generate additional comfort noise to mask potential coding artefacts */ + test(); + test(); + test(); + IF( ( st->flag_cna != 0 ) && NE_16( st->element_mode, IVAS_CPE_TD ) && NE_16( st->element_mode, IVAS_CPE_DFT ) && ( st->cna_dirac_flag == 0 ) ) + { + generate_masking_noise_mdct_ivas_fx( x_fx, &x_e, st->hFdCngDec->hFdCngCom ); + FOR( Word16 ind = 0; ind < L_frame; ind++ ) + { + x_fx[ind] = L_shr( x_fx[ind], sub( 31, add( x_e, q_x ) ) ); // q_x + } + } + + test(); + IF( EQ_16( st->element_mode, IVAS_CPE_DFT ) || ( sba_dirac_stereo_flag != 0 ) ) + { + Copy32( x_fx, xn_bufFB_fx, s_max( L_spec, s_max( L_frame, L_frameTCX ) ) ); // q_x + + IMDCT_ivas_fx( xn_bufFB_fx, q_x, hTcxDec->syn_Overl, hTcxDec->syn_Overl_TDAC, xn_buf_fx, hTcxCfg->tcx_aldo_window_1, hTcxCfg->tcx_aldo_window_1_trunc, hTcxCfg->tcx_aldo_window_2, hTcxCfg->tcx_mdct_window_half, hTcxCfg->tcx_mdct_window_minimum, hTcxCfg->tcx_mdct_window_trans, hTcxCfg->tcx_mdct_window_half_length, hTcxCfg->tcx_mdct_window_min_length, index, + kernelType, left_rect, tcx_offset, overlap, L_frame, L_frameTCX, shr( s_max( L_frameTCX, L_spec ), 1 ), L_frame_glob, frame_cnt, bfi, st->hHQ_core->old_out_LB_fx, 0, st, 0, acelp_zir_fx, q_win ); + } + + FOR( Word16 ind = 0; ind < L_MDCT_OVLP_MAX + L_FRAME_PLUS + L_MDCT_OVLP_MAX; ind++ ) + { + xn_bufFB_fx_16[ind] = extract_l( L_shr( xn_bufFB_fx[ind], shift_q ) ); // q_x + move16(); + } + + Word16 ratio_e; + Word16 ratio = BASOP_Util_Divide1616_Scale( L_frameTCX_glob, L_frame_glob, &ratio_e ); // Q = 15-ratio_e. * FSCALE_DENOM is (1 << 9) + ratio = shr( ratio, sub( 6, ratio_e ) ); + + IF( st->element_mode != EVS_MONO ) + { + IMDCT_ivas_fx( x_tmp_fx, q_x, hTcxDec->syn_OverlFB, hTcxDec->syn_Overl_TDACFB, xn_bufFB_fx_16, hTcxCfg->tcx_aldo_window_1_FB, hTcxCfg->tcx_aldo_window_1_FB_trunc, hTcxCfg->tcx_aldo_window_2_FB, + hTcxCfg->tcx_mdct_window_halfFB, hTcxCfg->tcx_mdct_window_minimumFB, hTcxCfg->tcx_mdct_window_transFB, hTcxCfg->tcx_mdct_window_half_lengthFB, hTcxCfg->tcx_mdct_window_min_lengthFB, index, + kernelType, left_rect, tcx_offsetFB, overlapFB, L_frameTCX, L_frameTCX, shr( s_max( L_frameTCX, L_spec ), 1 ), L_frameTCX_glob, frame_cnt, bfi, st->hHQ_core->old_out_fx, 1, st, ratio, acelp_zir_fx, q_win ); + } + ELSE + { + + IMDCT_ivas_fx( x_fx, q_x, hTcxDec->syn_OverlFB, hTcxDec->syn_Overl_TDACFB, xn_bufFB_fx_16, hTcxCfg->tcx_aldo_window_1_FB, hTcxCfg->tcx_aldo_window_1_FB_trunc, hTcxCfg->tcx_aldo_window_2_FB, hTcxCfg->tcx_mdct_window_halfFB, hTcxCfg->tcx_mdct_window_minimumFB, hTcxCfg->tcx_mdct_window_transFB, hTcxCfg->tcx_mdct_window_half_lengthFB, hTcxCfg->tcx_mdct_window_min_lengthFB, index, + kernelType, left_rect, tcx_offsetFB, overlapFB, L_frameTCX, L_frameTCX, shr( s_max( L_frameTCX, L_spec ), 1 ), L_frameTCX_glob, frame_cnt, bfi, st->hHQ_core->old_out_fx, 1, st, ratio, acelp_zir_fx, q_win ); + } + FOR( Word16 ind = 0; ind < L_MDCT_OVLP_MAX + L_FRAME_PLUS + L_MDCT_OVLP_MAX; ind++ ) + { + xn_bufFB_fx[ind] = L_shl( L_deposit_l( xn_bufFB_fx_16[ind] ), shift_q ); // Q_x + } + + IF( ( bfi == 0 ) ) + { + Word16 res_m, res_e = 0; + move16(); + st->second_last_tns_active = st->last_tns_active; + move16(); + st->last_tns_active = hTcxCfg->fIsTNSAllowed & fUseTns; + move16(); + hTcxDec->tcxltp_third_last_pitch = hTcxDec->tcxltp_second_last_pitch; + move32(); + hTcxDec->tcxltp_second_last_pitch = st->old_fpitch; + move32(); + res_m = BASOP_Util_Divide1616_Scale( hTcxLtpDec->tcxltp_pitch_fr, st->pit_res_max, &res_e ); + st->old_fpitch = L_add( L_shl( hTcxLtpDec->tcxltp_pitch_int, 16 ), L_shl( res_m, add( res_e, 1 ) ) ); + + IF( EQ_16( st->element_mode, IVAS_CPE_MDCT ) ) + { + // Using sat as a single instruction shifts and extracts + st->old_fpitch = W_shl_sat_l( W_mult0_32_32( st->old_fpitch, L_frame_glob ), -8 ); // Divide by 256 ==> SHR by 8 + move32(); + } + + IF( GT_16( st->element_mode, EVS_MONO ) ) + { + res_m = BASOP_Util_Divide1616_Scale( L_frameTCX_glob, L_frame_glob, &res_e ); + st->old_fpitchFB = L_shl( Mpy_32_16_1( st->old_fpitch, res_m ), res_e ); + move32(); + } + ELSE + { + res_m = BASOP_Util_Divide1616_Scale( L_frameTCX, L_frame, &res_e ); + st->old_fpitchFB = L_shl( Mpy_32_16_1( st->old_fpitch, res_m ), res_e ); + move32(); + } + } + + /* Update old_syn_overl */ + IF( hTcxCfg->last_aldo == 0 ) + { + Copy( xn_buf_fx + L_frame, hTcxDec->syn_Overl, overlap ); // Q(-2) + FOR( Word16 ind = 0; ind < overlapFB; ind++ ) + { + hTcxDec->syn_OverlFB[ind] = extract_l( L_shr( xn_bufFB_fx[( ind + L_frameTCX )], shift_q ) ); // q_x + } + } + + /* Output */ + Copy( xn_buf_fx + sub( shr( overlap, 1 ), tcx_offset ), synth_fx, L_frame_glob ); // Q(-2) + FOR( Word16 ind = 0; ind < L_frameTCX_glob; ind++ ) + { + synthFB_fx[ind] = extract_l( L_shr( xn_bufFB_fx[( ind + ( ( overlapFB >> 1 ) - tcx_offsetFB ) )], shift_q ) ); // q_x + } + + + return; +} diff --git a/lib_dec/dec_uv_fx.c b/lib_dec/dec_uv_fx.c index aa898956a106198302bdc046458327e8f84766cf..bbec94d94f903d1116d84751f4a0c9e43223c012 100644 --- a/lib_dec/dec_uv_fx.c +++ b/lib_dec/dec_uv_fx.c @@ -27,7 +27,6 @@ static void gain_dec_gacelp_uv_fx( void decod_unvoiced_fx( Decoder_State *st_fx, /* i/o: decoder static memory */ - const Word16 *Aq_fx, /* Q12 i : LP filter coefficient */ const Word16 coder_type, /* Q0 i : coding type */ Word16 *tmp_noise_fx, /* Q0 o : long term temporary noise energy */ Word16 *pitch_buf_fx, /* Q6 o : floating pitch values for each subframe*/ @@ -44,7 +43,6 @@ void decod_unvoiced_fx( Word16 voice_fac_fx; /* Voicing factor */ Word16 code_fx[L_SUBFR]; /* algebraic codevector */ Word16 i_subfr_fx; - const Word16 *p_Aq_fx; Word16 *pt_pitch_fx; gain_pit_fx = 0; @@ -57,7 +55,6 @@ void decod_unvoiced_fx( CNG_reset_dec_fx( st_fx, pitch_buf_fx, voice_factors_fx ); } - p_Aq_fx = Aq_fx; move16(); /*Q12*/ /* pointer to interpolated LPC parameters */ pt_pitch_fx = pitch_buf_fx; move16(); /* pointer to the pitch buffer */ @@ -92,7 +89,6 @@ void decod_unvoiced_fx( interp_code_5over2_fx( &exc_fx[i_subfr_fx], &bwe_exc_fx[( ( i_subfr_fx * 2 * HIBND_ACB_L_FAC ) >> 1 )], L_SUBFR ); - p_Aq_fx += ( M + 1 ); pt_pitch_fx++; st_fx->tilt_code_dec_fx[tmp_idx] = st_fx->tilt_code_fx; move16(); @@ -114,17 +110,17 @@ void decod_unvoiced_fx( *-------------------------------------------------------------------*/ void decod_unvoiced_ivas_fx( - Decoder_State *st_fx, /* i/o: decoder static memory */ - const Word16 *Aq_fx, /* Q12 i : LP filter coefficient */ - const Word16 Es_pred_fx, /* i : predicted scaled innov. energy */ - const int16_t uc_two_stage_flag, /* i : flag indicating two-stage UC */ - const Word16 coder_type, /* Q0 i : coding type */ - Word16 *tmp_noise_fx, /* Q0 o : long term temporary noise energy */ - Word16 *pitch_buf_fx, /* Q6 o : floating pitch values for each subframe*/ - Word16 *voice_factors_fx, /* Q15 o : voicing factors */ - Word16 *exc_fx, /* Q_X o : adapt. excitation exc */ - Word16 *exc2_fx, /* Q_X o : adapt. excitation/total exc */ - Word16 *bwe_exc_fx, /* Q_X i/o: excitation for SWB TBE */ + Decoder_State *st_fx, /* i/o: decoder static memory */ + const Word16 *Aq_fx, /* Q12 i : LP filter coefficient */ + const Word16 Es_pred_fx, /* i : predicted scaled innov. energy */ + const Word16 uc_two_stage_flag, /* i : flag indicating two-stage UC */ + const Word16 coder_type, /* Q0 i : coding type */ + Word16 *tmp_noise_fx, /* Q0 o : long term temporary noise energy */ + Word16 *pitch_buf_fx, /* Q6 o : floating pitch values for each subframe*/ + Word16 *voice_factors_fx, /* Q15 o : voicing factors */ + Word16 *exc_fx, /* Q_X o : adapt. excitation exc */ + Word16 *exc2_fx, /* Q_X o : adapt. excitation/total exc */ + Word16 *bwe_exc_fx, /* Q_X i/o: excitation for SWB TBE */ Word16 *gain_buf ) { Word16 gain_pit_fx; /* Quantized pitch gain */ diff --git a/lib_dec/decision_matrix_dec_fx.c b/lib_dec/decision_matrix_dec_fx.c index a83de038afe2e1fa2a92923f65ca270fec68b461..0bc7794dc7b8322b5e9f670b889945c80aebebdf 100644 --- a/lib_dec/decision_matrix_dec_fx.c +++ b/lib_dec/decision_matrix_dec_fx.c @@ -681,12 +681,12 @@ void decision_matrix_dec_fx( st->nb_subfr = NB_SUBFR16k; move16(); } -#if 1 // def ADD_IVAS_BWE 0> NEEDED for IO with conf_acelp1 + st->extl_orig = st->extl; move16(); st->extl_brate_orig = st->extl_brate; move32(); -#endif + test(); IF( EQ_32( st->output_Fs, 8000 ) ) { @@ -713,7 +713,6 @@ void decision_matrix_dec_fx( move16(); } -#ifdef NONBE_FIX_GSC_BSTR /*-----------------------------------------------------------------* * set inactive coder_type flag in ACELP core *-----------------------------------------------------------------*/ @@ -727,6 +726,5 @@ void decision_matrix_dec_fx( move16(); } -#endif return; } diff --git a/lib_dec/er_dec_acelp_fx.c b/lib_dec/er_dec_acelp_fx.c index 7c3ecaa0a96c3bec1e70c9ddfea1a4d8891862dd..e30553d388e32c0a53b2b903aa763b120af22ab0 100644 --- a/lib_dec/er_dec_acelp_fx.c +++ b/lib_dec/er_dec_acelp_fx.c @@ -446,7 +446,7 @@ void con_acelp_fx( ELSE { /* No harmonic part */ - assert( (int) ( sizeof( buf ) / sizeof( buf[0] ) ) - M - L_EXC_MEM_DEC >= st->L_frame + st->L_frame / 2 ); + assert( (Word32) ( sizeof( buf ) / sizeof( buf[0] ) ) - M - L_EXC_MEM_DEC >= st->L_frame + st->L_frame / 2 ); set16_fx( &exc[0], 0, add( st->L_frame, shr( st->L_frame, 1 ) ) ); FOR( i = 0; i < st->nb_subfr; i++ ) diff --git a/lib_dec/er_dec_tcx_fx.c b/lib_dec/er_dec_tcx_fx.c index 8c10e5f810542410d079e27227e72046a05c7921..e804d200927334135725f05bc7294f3e4da06dce 100644 --- a/lib_dec/er_dec_tcx_fx.c +++ b/lib_dec/er_dec_tcx_fx.c @@ -1168,7 +1168,7 @@ void con_tcx_ivas_fx( /* apply pre-emphasis to the signal */ mem = synth[( -( ( ( L_frame / 2 ) + hTcxDec->pit_max_TCX ) + M + M ) - 1 )]; /*Q0*/ move16(); - Q_exc = E_UTIL_f_preemph3_ivas_fx( &( synth[-add( add( shr( L_frame, 1 ), hTcxDec->pit_max_TCX ), 2 * M )] ), st->preemph_fac, add( add( shr( L_frame, 1 ), hTcxDec->pit_max_TCX ), shl( M, 1 ) ), &mem, 1 ); + Q_exc = E_UTIL_f_preemph3_ivas_fx( &( synth[-( ( ( L_frame / 2 ) + hTcxDec->pit_max_TCX ) + 2 * M )] ), st->preemph_fac, add( add( shr( L_frame, 1 ), hTcxDec->pit_max_TCX ), shl( M, 1 ) ), &mem, 1 ); st->Mode2_lp_gainc = L_deposit_l( 0 ); st->Mode2_lp_gainp = get_gain2( synth - shl( L_subfr, 1 ), synth - add( shl( L_subfr, 1 ), Tc ), shl( L_subfr, 1 ) ); @@ -2036,6 +2036,7 @@ void con_tcx_ivas_fx( st->Q_syn = Q_syn; move16(); Scale_sig( hTcxDec->old_syn_Overl, shr( st->L_frame, 1 ), sub( -1, Q_syn ) ); /*Q_syn*/ + st->hTcxDec->Q_old_syn_Overl = -1; lerp( hTcxDec->syn_OverlFB, hTcxDec->syn_Overl, shr( st->L_frame, 1 ), shr( L_frame, 1 ) ); lerp( hTcxDec->syn_Overl_TDACFB, hTcxDec->syn_Overl_TDAC, shr( st->L_frame, 1 ), shr( L_frame, 1 ) ); hTcxDec->Q_syn_Overl_TDAC = hTcxDec->Q_syn_Overl_TDACFB; diff --git a/lib_dec/er_util_fx.c b/lib_dec/er_util_fx.c index 8c94ecf987e1152e94d8c19b63da37c8bdaee5cf..9735129ec14bc56a1aed50c894ac3cf27a087b6a 100644 --- a/lib_dec/er_util_fx.c +++ b/lib_dec/er_util_fx.c @@ -439,8 +439,6 @@ Word16 GetPLCModeDecision_ivas_fx( test(); test(); test(); - // PMT("handle to tonalMDCTconceal is missing") - //#ifdef ADD_IVAS_HTONALMDCTCONC IF( ( st->hTonalMDCTConc != NULL && EQ_16( st->last_core, TCX_20_CORE ) ) && ( EQ_16( st->second_last_core, TCX_20_CORE ) ) && ( ( LE_32( st->old_fpitch, L_deposit_h( shr( st->L_frame, 1 ) ) ) ) || ( LE_16( hTcxDec->tcxltp_last_gain_unmodified, 13107 /*0.4f Q15*/ ) ) ) /* it is fine to call the detection even if no ltp information is available, meaning that st->old_fpitch == @@ -454,12 +452,8 @@ Word16 GetPLCModeDecision_ivas_fx( { pitch = L_add( st->old_fpitch, 0 ); /*Q16*/ } - // TonalMDCTConceal_Detect_ivas_fx(&st->tonalMDCTconceal, pitch, &numIndices - // , (st->element_mode == IVAS_CPE_MDCT ? &(st->hTcxCfg->psychParamsTCX20) : st->hTcxCfg->psychParamsCurrent) - //); - TonalMDCTConceal_Detect_ivas_fx( st->hTonalMDCTConc, pitch, &numIndices, ( EQ_16( st->element_mode, IVAS_CPE_MDCT ) ? &( st->hTcxCfg->psychParamsTCX20 ) : st->hTcxCfg->psychParamsCurrent ), - st->element_mode ); + TonalMDCTConceal_Detect_ivas_fx( st->hTonalMDCTConc, pitch, &numIndices, ( EQ_16( st->element_mode, IVAS_CPE_MDCT ) ? &( st->hTcxCfg->psychParamsTCX20 ) : st->hTcxCfg->psychParamsCurrent ), st->element_mode ); test(); test(); @@ -554,6 +548,7 @@ Word16 GetPLCModeDecision_fx( core = st->last_core_bfi; move16(); } + IF( EQ_16( st->nbLostCmpt, 1 ) ) { st->tonal_mdct_plc_active = 0; @@ -569,9 +564,7 @@ Word16 GetPLCModeDecision_fx( test(); test(); test(); - // PMT("handle to tonalMDCTconceal is missing") - //#ifdef ADD_IVAS_HTONALMDCTCONC - IF( ( /*st->ADD_IVAS_HTONALMDCTCONC != NULL &&*/ EQ_16( st->last_core, TCX_20_CORE ) ) && ( EQ_16( st->second_last_core, TCX_20_CORE ) ) && ( ( LE_32( st->old_fpitch, L_deposit_h( shr( st->L_frame, 1 ) ) ) ) || ( LE_16( hTcxDec->tcxltp_last_gain_unmodified, 13107 /*0.4f Q15*/ ) ) ) + IF( ( st->hTonalMDCTConc != NULL && EQ_16( st->last_core, TCX_20_CORE ) ) && ( EQ_16( st->second_last_core, TCX_20_CORE ) ) && ( ( LE_32( st->old_fpitch, L_deposit_h( shr( st->L_frame, 1 ) ) ) ) || ( LE_16( hTcxDec->tcxltp_last_gain_unmodified, 13107 /*0.4f Q15*/ ) ) ) /* it is fine to call the detection even if no ltp information is available, meaning that st->old_fpitch == st->tcxltp_second_last_pitch == st->L_frame */ @@ -585,24 +578,13 @@ Word16 GetPLCModeDecision_fx( { pitch = L_add( st->old_fpitch, 0 ); /*Q16*/ } - IF( st->element_mode == EVS_MONO ) - { - TonalMDCTConceal_Detect( &st->tonalMDCTconceal, pitch, &numIndices, st->element_mode -#ifdef ADD_IVAS_HTONALMDCTCONC - , - ( st->element_mode == IVAS_CPE_MDCT ? &( st->hTcxCfg->psychParamsTCX20 ) : st->hTcxCfg->psychParamsCurrent ) -#endif - ); - } - ELSE - { - TonalMDCTConceal_Detect( st->hTonalMDCTConc, pitch, &numIndices, st->element_mode -#ifdef ADD_IVAS_HTONALMDCTCONC - , - ( st->element_mode == IVAS_CPE_MDCT ? &( st->hTcxCfg->psychParamsTCX20 ) : st->hTcxCfg->psychParamsCurrent ) + + TonalMDCTConceal_Detect( st->hTonalMDCTConc, pitch, &numIndices, st->element_mode +#ifdef IVAS_CODE_MDCT_GSHAPE + , + ( st->element_mode == IVAS_CPE_MDCT ? &( st->hTcxCfg->psychParamsTCX20 ) : st->hTcxCfg->psychParamsCurrent ) #endif - ); - } + ); test(); test(); diff --git a/lib_dec/evs_dec_fx.c b/lib_dec/evs_dec_fx.c index de644843362064518ad334eee93afa097fb7a7f3..74340b530f6fe9cc1c2733664b854cc317f057cf 100644 --- a/lib_dec/evs_dec_fx.c +++ b/lib_dec/evs_dec_fx.c @@ -16,9 +16,9 @@ *--------------------------------------------------------------------------*/ ivas_error evs_dec_fx( - Decoder_State *st_fx, /* i/o : Decoder state structure */ - Word16 output_sp[], /* o : output synthesis signal Q0*/ - frameMode_fx frameMode /* i : Decoder frame mode */ + Decoder_State *st_fx, /* i/o : Decoder state structure */ + Word16 output_sp[], /* o : output synthesis signal Q0*/ + FRAME_MODE frameMode /* i : Decoder frame mode */ ) { Word16 i, j, output_frame; @@ -27,7 +27,6 @@ ivas_error evs_dec_fx( Word16 core_switching_flag; Word16 unbits; Word16 hq_core_type; - Word16 post_hq_delay; Word32 bwe_exc_extended_fx[L_FRAME32k + NL_BUFF_OFFSET]; Word16 voice_factors_fx[NB_SUBFR16k]; Word16 hb_synth_fx[L_FRAME48k]; @@ -36,11 +35,7 @@ ivas_error evs_dec_fx( Word16 exp, fra; Word16 tmp_buffer_fx[L_FRAME48k]; Word16 tmp16, tmp16_2; -#ifdef IVAS_CODE Word16 synth_fx[L_FRAME48k]; -#else - Word16 synth_fx[L_FRAME48k + HQ_DELTA_MAX * HQ_DELAY_COMP]; -#endif Word16 fb_exc_fx[L_FRAME16k]; Word16 pitch_buf_fx[NB_SUBFR16k] = { 0 }; Word16 Q_fb_exc; @@ -58,8 +53,6 @@ ivas_error evs_dec_fx( Word16 Q_synth; Word16 Qpostd_prev; - Word32 *realBuffer[CLDFB_NO_COL_MAX], *imagBuffer[CLDFB_NO_COL_MAX]; - Word32 realBufferTmp[CLDFB_NO_COL_MAX][CLDFB_NO_CHANNELS_MAX], imagBufferTmp[CLDFB_NO_COL_MAX][CLDFB_NO_CHANNELS_MAX]; Word16 timeIn_e; TD_BWE_DEC_HANDLE hBWE_TD; HQ_DEC_HANDLE hHQ_core; @@ -102,15 +95,6 @@ ivas_error evs_dec_fx( move32(); st_fx->flag_ACELP16k = set_ACELP_flag( EVS_MONO, -1, st_fx->total_brate, 0, 0, -1, -1 ); - FOR( i = 0; i < CLDFB_NO_COL_MAX; i++ ) - { - set32_fx( realBufferTmp[i], 0, CLDFB_NO_CHANNELS_MAX ); - set32_fx( imagBufferTmp[i], 0, CLDFB_NO_CHANNELS_MAX ); - realBuffer[i] = realBufferTmp[i]; - move32(); - imagBuffer[i] = imagBufferTmp[i]; - move32(); - } if ( st_fx->bfi == 0 ) { st_fx->extl = -1; @@ -159,16 +143,15 @@ ivas_error evs_dec_fx( test(); IF( !st_fx->bfi && st_fx->prev_bfi && ( EQ_16( st_fx->last_codec_mode, MODE2 ) ) && ( EQ_16( st_fx->last_core_bfi, TCX_20_CORE ) || EQ_16( st_fx->last_core_bfi, TCX_10_CORE ) ) ) { - /* v_multc(st_fx->old_out_fx, st_fx->plcInfo.recovery_gain, */ - /* st_fx->old_out_fx, st_fx->L_frameTCX); */ + /* v_multc(st_fx->old_out_fx, st_fx->hPlcInfo.recovery_gain, st_fx->old_out_fx, st_fx->L_frameTCX); */ FOR( i = 0; i < hTcxDec->L_frameTCX; i++ ) { - hHQ_core->old_out_fx[i] = shl_sat( mult_r( hHQ_core->old_out_fx[i], st_fx->plcInfo.recovery_gain ), 1 ); /*hHQ_core->exp_old_out*/ + hHQ_core->old_out_fx[i] = shl_sat( mult_r( hHQ_core->old_out_fx[i], st_fx->hPlcInfo->recovery_gain ), 1 ); /*hHQ_core->exp_old_out*/ move16(); } FOR( i = 0; i < st_fx->L_frame; i++ ) { - hHQ_core->old_out_LB_fx[i] = shl_sat( mult_r( hHQ_core->old_out_LB_fx[i], st_fx->plcInfo.recovery_gain ), 1 ); /*hHQ_core->exp_old_out*/ + hHQ_core->old_out_LB_fx[i] = shl_sat( mult_r( hHQ_core->old_out_LB_fx[i], st_fx->hPlcInfo->recovery_gain ), 1 ); /*hHQ_core->exp_old_out*/ move16(); } /* attenuate PLC buffers, if no aldo window @@ -283,6 +266,7 @@ ivas_error evs_dec_fx( /*------------------------------------------------------------------* * Decoding *-----------------------------------------------------------------*/ + IF( EQ_16( st_fx->codec_mode, MODE1 ) ) { /*------------------------------------------------------------------* @@ -306,6 +290,7 @@ ivas_error evs_dec_fx( } } } + IF( EQ_16( st_fx->codec_mode, MODE1 ) ) { /*------------------------------------------------------------------* @@ -333,7 +318,7 @@ ivas_error evs_dec_fx( /*---------------------------------------------------------------------* * Preprocessing (preparing) for ACELP/HQ core switching *---------------------------------------------------------------------*/ - // PMT("core_switching_pre_dec_fx missign args") + IF( ( error = core_switching_pre_dec_fx( st_fx, output_frame ) ) != IVAS_ERR_OK ) { return error; @@ -343,10 +328,10 @@ ivas_error evs_dec_fx( * ACELP core decoding * HQ core decoding *---------------------------------------------------------------------*/ + IF( EQ_16( st_fx->core, ACELP_CORE ) ) { /* ACELP core decoder */ - IF( ( error = acelp_core_dec_fx( st_fx, NULL, synth_fx, NULL, bwe_exc_extended_fx, voice_factors_fx, old_syn_12k8_16k_fx, sharpFlag, pitch_buf_fx, &unbits, &sid_bw, NULL, NULL, NULL, 0, EVS_MONO, 0, 0, 1, NULL, 1 ) ) != IVAS_ERR_OK ) { return error; @@ -356,33 +341,24 @@ ivas_error evs_dec_fx( } ELSE { - // PMT("HQ core missing args") - hq_core_dec_fx( st_fx, synth_fx, &Q_synth, output_frame, hq_core_type, core_switching_flag ); Qpostd = Q_synth; move16(); } + /*---------------------------------------------------------------------* * Postprocessing for ACELP/HQ core switching *---------------------------------------------------------------------*/ - if ( ( error = core_switching_post_dec_fx( st_fx, synth_fx, -#ifdef IVAS_CODE_SWITCHING - output, output_mem[], IVAS_FORMAT ivas_format, use_cldfb_for_dft, -#endif - output_frame, core_switching_flag, -#ifdef IVAS_CODE_SWITCHING - sba_dirac_stereo_flag, nchan_out, -#endif - st_fx->last_element_mode, &Qpostd ) ) != IVAS_ERR_OK ) + if ( ( error = core_switching_post_dec_fx( st_fx, synth_fx, output_frame, core_switching_flag, EVS_MONO, &Qpostd ) ) != IVAS_ERR_OK ) { return error; } + /*---------------------------------------------------------------------* * Pre-processing for bandwidth switching *---------------------------------------------------------------------*/ - /// PMT("bw_switching_pre_proc_fx missing args") bw_switching_pre_proc_fx( old_syn_12k8_16k_fx, st_fx ); /*---------------------------------------------------------------------* @@ -398,15 +374,7 @@ ivas_error evs_dec_fx( ELSE IF( EQ_16( st_fx->extl, WB_BWE ) && st_fx->bws_cnt == 0 ) { /* WB BWE decoder */ - hb_synth_fx_exp = wb_bwe_dec_fx( -#ifdef ADD_IVAS_BWE - NULL, -#endif - synth_fx, hb_synth_fx, -#ifdef ADD_IVAS_BWE - 0, -#endif - output_frame, voice_factors_fx, pitch_buf_fx, st_fx, &Qpostd ); /*Q0*/ + hb_synth_fx_exp = wb_bwe_dec_fx( synth_fx, hb_synth_fx, output_frame, voice_factors_fx, pitch_buf_fx, st_fx, &Qpostd ); /*Q0*/ } /*---------------------------------------------------------------------* @@ -436,9 +404,11 @@ ivas_error evs_dec_fx( test(); IF( EQ_16( st_fx->extl, SWB_TBE ) || EQ_16( st_fx->extl, FB_TBE ) || ( NE_16( st_fx->coder_type, AUDIO ) && NE_16( st_fx->coder_type, INACTIVE ) && GT_32( st_fx->core_brate, SID_2k40 ) && EQ_16( st_fx->core, ACELP_CORE ) && GE_32( st_fx->output_Fs, 32000 ) && GT_16( st_fx->bwidth, NB ) && st_fx->bws_cnt > 0 && !st_fx->ppp_mode_dec && !( EQ_16( st_fx->nelp_mode_dec, 1 ) && EQ_16( st_fx->bfi, 1 ) ) ) ) { + /* SWB TBE decoder */ swb_tbe_dec_fx( st_fx, st_fx->coder_type, bwe_exc_extended_fx, st_fx->Q_exc, voice_factors_fx, old_syn_12k8_16k_fx, fb_exc_fx, &Q_fb_exc, hb_synth_fx, &hb_synth_fx_exp, pitch_buf_fx ); - /* FB TBE decoder/synthesis */ + + /* FB TBE decoder */ test(); IF( EQ_16( output_frame, L_FRAME48k ) && EQ_16( st_fx->extl, FB_TBE ) ) { @@ -449,15 +419,7 @@ ivas_error evs_dec_fx( ( GE_32( st_fx->output_Fs, 32000 ) && EQ_16( st_fx->core, ACELP_CORE ) && GT_16( st_fx->bwidth, NB ) && st_fx->bws_cnt > 0 && !st_fx->ppp_mode_dec && !( EQ_16( st_fx->nelp_mode_dec, 1 ) && EQ_16( st_fx->bfi, 1 ) ) ) ) { /* SWB BWE decoder */ - hb_synth_fx_exp = swb_bwe_dec_fx( -#ifdef ADD_IVAS_BWE - NULL, -#endif - st_fx, synth_fx, hb_synth_fx, -#ifdef ADD_IVAS_BWE - 0, -#endif - output_frame, &Qpostd ); /*Q0*/ + hb_synth_fx_exp = swb_bwe_dec_fx( st_fx, synth_fx, hb_synth_fx, output_frame, &Qpostd ); /*Q0*/ } ELSE IF( EQ_16( st_fx->extl, SWB_BWE_HIGHRATE ) || EQ_16( st_fx->extl, FB_BWE_HIGHRATE ) ) { @@ -495,6 +457,7 @@ ivas_error evs_dec_fx( /*---------------------------------------------------------------------* * SWB CNG *---------------------------------------------------------------------*/ + IF( GE_16( output_frame, L_FRAME32k ) ) { /* SHB CNG decoder */ @@ -523,10 +486,7 @@ ivas_error evs_dec_fx( Scale_sig( st_fx->prev_synth_buffer_fx, tmps, sub( exp, st_fx->Qprev_synth_buffer_fx ) ); /*exp*/ st_fx->Qprev_synth_buffer_fx = exp; move16(); - Copy( synth_fx, tmp_buffer_fx, output_frame ); /*exp*/ - Copy( st_fx->prev_synth_buffer_fx, synth_fx, tmps ); /*st_fx->Qprev_synth_buffer_fx*/ - Copy( tmp_buffer_fx, synth_fx + tmps, output_frame - tmps ); /*exp*/ - Copy( tmp_buffer_fx + output_frame - tmps, st_fx->prev_synth_buffer_fx, tmps ); /*exp*/ + delay_signal_fx( synth_fx, output_frame, st_fx->prev_synth_buffer_fx, tmps ); /*exp, t_fx->Qprev_synth_buffer_fx*/ } ELSE { @@ -546,7 +506,7 @@ ivas_error evs_dec_fx( test(); test(); test(); - IF( EQ_16( st_fx->core, ACELP_CORE ) && !st_fx->bfi && st_fx->prev_bfi && GE_32( st_fx->last_total_brate, HQ_48k ) && EQ_16( st_fx->last_codec_mode, MODE2 ) && ( EQ_16( st_fx->last_core_bfi, TCX_20_CORE ) || EQ_16( st_fx->last_core_bfi, TCX_10_CORE ) ) && EQ_16( st_fx->plcInfo.concealment_method, TCX_NONTONAL ) && LT_32( st_fx->plcInfo.nbLostCmpt, 4 ) ) + IF( EQ_16( st_fx->core, ACELP_CORE ) && !st_fx->bfi && st_fx->prev_bfi && GE_32( st_fx->last_total_brate, HQ_48k ) && EQ_16( st_fx->last_codec_mode, MODE2 ) && ( EQ_16( st_fx->last_core_bfi, TCX_20_CORE ) || EQ_16( st_fx->last_core_bfi, TCX_10_CORE ) ) && EQ_16( st_fx->hPlcInfo->concealment_method, TCX_NONTONAL ) && LT_32( st_fx->hPlcInfo->nbLostCmpt, 4 ) ) { tmps = 0; move16(); @@ -555,20 +515,8 @@ ivas_error evs_dec_fx( tmps = NS2SA_FX2( st_fx->output_Fs, DELAY_BWE_TOTAL_NS ); /*Q0*/ } - waveform_adj2_fix( st_fx->tonalMDCTconceal.secondLastPcmOut, - synth_fx + tmps, - st_fx->plcInfo.data_noise, - &st_fx->plcInfo.outx_new_n1_fx, - &st_fx->plcInfo.nsapp_gain_fx, - &st_fx->plcInfo.nsapp_gain_n_fx, - &st_fx->plcInfo.recovery_gain, - st_fx->plcInfo.step_concealgain_fx, - st_fx->plcInfo.Pitch_fx, - st_fx->plcInfo.FrameSize, - tmps, - add( extract_l( st_fx->plcInfo.nbLostCmpt ), 1 ), - st_fx->bfi ); - st_fx->plcInfo.Pitch_fx = 0; + waveform_adj2_fix( st_fx->hPlcInfo, st_fx->hTonalMDCTConc->secondLastPcmOut, synth_fx + tmps, tmps, add( extract_l( st_fx->hPlcInfo->nbLostCmpt ), 1 ), st_fx->bfi ); + st_fx->hPlcInfo->Pitch_fx = 0; move16(); } @@ -665,16 +613,14 @@ ivas_error evs_dec_fx( Copy( tmp_buffer_fx, st_fx->hb_prev_synth_buffer_fx, tmps ); /*Q15 - hBWE_TD->prev_hb_synth_fx_exp*/ } + /* Delay hb_synth */ tmp16 = sub( hb_synth_fx_exp, hBWE_TD->prev_hb_synth_fx_exp ); IF( tmp16 != 0 ) { Scale_sig( st_fx->hb_prev_synth_buffer_fx, tmps, tmp16 ); /*Q15 - hb_synth_fx_exp*/ } - Copy( hb_synth_fx, tmp_buffer_fx, output_frame ); /*Q15 - hb_synth_fx_exp*/ - Copy( st_fx->hb_prev_synth_buffer_fx, hb_synth_fx, tmps ); /*Q15 - hb_synth_fx_exp*/ - Copy( tmp_buffer_fx, hb_synth_fx + tmps, sub( output_frame, tmps ) ); /*Q15 - hb_synth_fx_exp*/ - Copy( tmp_buffer_fx + sub( output_frame, tmps ), st_fx->hb_prev_synth_buffer_fx, tmps ); /*Q15 - hb_synth_fx_exp*/ + delay_signal_fx( hb_synth_fx, output_frame, st_fx->hb_prev_synth_buffer_fx, tmps ); /*Q15 - hb_synth_fx_exp, Q15 - hb_synth_fx_exp*/ st_fx->old_bwe_delay = tmps; move16(); @@ -737,7 +683,7 @@ ivas_error evs_dec_fx( fra = Log2_norm_lc( L_shl( L_tmp, exp ) ); exp = sub( sub( 30, shl( hb_synth_fx_exp, 1 ) ), exp ); L_tmp = Mpy_32_16( exp, fra, LG10 ); - st_fx->last_shb_ener_fx = round_fx_sat( L_shl_sat( L_tmp, 10 ) ); /*Q8*/ + st_fx->hTdCngDec->last_shb_ener_fx = round_fx_sat( L_shl_sat( L_tmp, 10 ) ); /*Q8*/ } } hBWE_TD->prev_hb_synth_fx_exp = hb_synth_fx_exp; @@ -747,17 +693,16 @@ ivas_error evs_dec_fx( delta = NS2SA_FX2( st_fx->output_Fs, TCXLTP_DELAY_NS ); /*Q0*/ Scale_sig( hTcxLtpDec->tcxltp_mem_in, delta, sub( Qpostd, Qpostd_prev ) ); /*Qpostd*/ Scale_sig( hTcxLtpDec->tcxltp_mem_out, output_frame, sub( Qpostd, Qpostd_prev ) ); /*Qpostd*/ - tcx_ltp_post( st_fx, hTcxLtpDec, ACELP_CORE, output_frame, 0, synth_fx, NULL ); - + tcx_ltp_post_fx( st_fx, hTcxLtpDec, ACELP_CORE, output_frame, 0, synth_fx, NULL ); /* final output of synthesis signal */ Copy( synth_fx, output_sp, output_frame ); /*Qpostd*/ } - ELSE /* MODE2 PART */ + ELSE /* Mode 2 */ { /* -------------------------------------------------------------- */ - /* CONCEALMENT */ + /* Mode 2 concealment */ /* -------------------------------------------------------------- */ concealWholeFrame = 0; @@ -797,11 +742,10 @@ ivas_error evs_dec_fx( /* -------------------------------------------------------------- */ - /* DECODE CORE */ + /* Decode core */ /* -------------------------------------------------------------- */ - dec_acelp_tcx_frame_fx( st_fx, &concealWholeFrame, output_sp, - st_fx->p_bpf_noise_buf, pcmbufFB, bwe_exc_extended_fx, voice_factors_fx, pitch_buf_fx ); + dec_acelp_tcx_frame_fx( st_fx, &concealWholeFrame, output_sp, st_fx->p_bpf_noise_buf, pcmbufFB, bwe_exc_extended_fx, voice_factors_fx, pitch_buf_fx ); concealWholeFrameTmp = concealWholeFrame; /*Q0*/ move16(); @@ -810,10 +754,10 @@ ivas_error evs_dec_fx( frameMode = FRAMEMODE_MISSING; move32(); } + IF( st_fx->igf ) { - - /* TBE interface */ + /* TBE for Mode 2 interface */ test(); test(); IF( ( st_fx->bfi == 0 || st_fx->last_core == ACELP_CORE ) && st_fx->core == ACELP_CORE ) @@ -919,29 +863,26 @@ ivas_error evs_dec_fx( IF( ( EQ_16( st_fx->bwidth, SWB ) || EQ_16( st_fx->bwidth, FB ) ) && ( ( EQ_16( st_fx->last_extl, SWB_TBE ) || EQ_16( st_fx->last_extl, FB_TBE ) ) && EQ_16( st_fx->last_codec_mode, MODE2 ) ) ) { - GenTransition_fx( hBWE_TD->syn_overlap_fx, hBWE_TD->old_tbe_synth_fx, 2 * NS2SA( st_fx->output_Fs, DELAY_BWE_TOTAL_NS ), hb_synth_fx, - hBWE_TD->genSHBsynth_Hilbert_Mem_fx, hBWE_TD->genSHBsynth_state_lsyn_filt_shb_local_fx, - hBWE_TD->mem_resamp_HB_32k_fx, - &( hBWE_TD->syn_dm_phase ), st_fx->output_Fs, hBWE_TD->int_3_over_2_tbemem_dec_fx, st_fx->rf_flag, st_fx->total_brate ); + GenTransition_fx( hBWE_TD, hb_synth_fx, st_fx->output_Fs, st_fx->rf_flag, st_fx->total_brate ); - hb_synth_fx_exp = st_fx->prev_Q_bwe_syn2; + hb_synth_fx_exp = hBWE_TD->prev_Q_bwe_syn2; move16(); } ELSE IF( EQ_16( st_fx->bwidth, WB ) && EQ_16( st_fx->last_extl, WB_TBE ) ) { - GenTransition_WB_fx( hBWE_TD->syn_overlap_fx, hBWE_TD->old_tbe_synth_fx, st_fx->prev_Qx, 2 * NS2SA( st_fx->output_Fs, DELAY_BWE_TOTAL_NS ), hb_synth_fx, - hBWE_TD->state_lsyn_filt_shb_fx, hBWE_TD->state_lsyn_filt_dwn_shb_fx, st_fx->output_Fs, hBWE_TD->mem_resamp_HB_fx ); + GenTransition_WB_fx( hBWE_TD, hb_synth_fx, st_fx->output_Fs ); - hb_synth_fx_exp = st_fx->prev_Qx; + hb_synth_fx_exp = hBWE_TD->prev_Qx; move16(); } - TBEreset_dec_fx( st_fx, st_fx->bwidth ); + TBEreset_dec_fx( st_fx ); } ELSE IF( EQ_16( st_fx->last_codec_mode, MODE1 ) ) { swb_tbe_reset_fx( hBWE_TD->mem_csfilt_fx, hBWE_TD->mem_genSHBexc_filt_down_shb_fx, hBWE_TD->state_lpc_syn_fx, hBWE_TD->syn_overlap_fx, hBWE_TD->state_syn_shbexc_fx, &( hBWE_TD->tbe_demph_fx ), &( hBWE_TD->tbe_premph_fx ), hBWE_TD->mem_stp_swb_fx, &( hBWE_TD->gain_prec_swb_fx ) ); + IF( EQ_16( st_fx->extl, FB_TBE ) ) { set16_fx( hBWE_TD->fb_state_lpc_syn_fx, 0, LPC_SHB_ORDER ); @@ -949,7 +890,8 @@ ivas_error evs_dec_fx( move16(); fb_tbe_reset_synth_fx( hBWE_TD->fbbwe_hpf_mem_fx, hBWE_TD->fbbwe_hpf_mem_fx_Q, &hBWE_TD->prev_fbbwe_ratio_fx ); } - swb_tbe_reset_synth_fx( hBWE_TD->genSHBsynth_Hilbert_Mem_fx, hBWE_TD->genSHBsynth_state_lsyn_filt_shb_local_fx ); + + swb_tbe_reset_synth_fx( hBWE_TD->genSHBsynth_Hilbert_Mem_fx, hBWE_TD->genSHBsynth_state_lsyn_filt_shb_local_fx, hBWE_TD->genSHBsynth_state_lsyn_filt_shb_local_fx_32 ); } } } @@ -963,10 +905,23 @@ ivas_error evs_dec_fx( } /* -------------------------------------------------------------- */ - /* APPLY POSTPROC */ + /* Postprocessing */ /* -------------------------------------------------------------- */ { + Word32 *realBuffer[CLDFB_NO_COL_MAX], *imagBuffer[CLDFB_NO_COL_MAX]; + Word32 realBufferTmp[CLDFB_NO_COL_MAX][CLDFB_NO_CHANNELS_MAX], imagBufferTmp[CLDFB_NO_COL_MAX][CLDFB_NO_CHANNELS_MAX]; + + FOR( i = 0; i < CLDFB_NO_COL_MAX; i++ ) + { + set32_fx( realBufferTmp[i], 0, CLDFB_NO_CHANNELS_MAX ); + set32_fx( imagBufferTmp[i], 0, CLDFB_NO_CHANNELS_MAX ); + realBuffer[i] = realBufferTmp[i]; + move32(); + imagBuffer[i] = imagBufferTmp[i]; + move32(); + } + nab = s_min( st_fx->cldfbAna->no_channels, st_fx->cldfbSyn->no_channels ); /*Q0*/ st_fx->cldfbSyn->lsb = s_min( st_fx->cldfbAna->no_channels, st_fx->cldfbSyn->no_channels ); /*Q0*/ st_fx->cldfbSyn->usb = st_fx->cldfbSyn->no_channels; /*Q0*/ @@ -982,11 +937,12 @@ ivas_error evs_dec_fx( test(); IF( st_fx->hFdCngDec != NULL && ( EQ_32( st_fx->sr_core, 8000 ) || EQ_32( st_fx->sr_core, INT_FS_12k8 ) || EQ_32( st_fx->sr_core, INT_FS_16k ) ) && LE_32( st_fx->total_brate, ACELP_32k ) ) { - /*************************************** - In CLDFB domain: - - perform noise estimation during active frames - - do CNG during inactive frames - ****************************************/ + /* -------------------------------------------------------------- * + * In CLDFB domain: + * - perform noise estimation during active frames + * - do CNG during inactive frames + * -------------------------------------------------------------- */ + HANDLE_FD_CNG_DEC hFdCngDec = st_fx->hFdCngDec; noisy_speech_detection_fx( st_fx->hFdCngDec, st_fx->VAD && EQ_16( st_fx->m_frame_type, ACTIVE_FRAME ), output_sp, 0 ); @@ -1034,7 +990,7 @@ ivas_error evs_dec_fx( } Scale_sig( output_sp, st_fx->L_frame, timeIn_e ); /*timeIn_e*/ timeIn_e = negate( timeIn_e ); - cldfbAnalysisFiltering( st_fx->cldfbAna, realBuffer, imagBuffer, &st_fx->scaleFactor, output_sp, timeIn_e, CLDFB_NO_COL_MAX, workBuffer ); + cldfbAnalysis_fx( st_fx->cldfbAna, realBuffer, imagBuffer, &st_fx->scaleFactor, output_sp, timeIn_e, CLDFB_NO_COL_MAX, workBuffer ); st_fx->scaleFactor.hb_scale = st_fx->scaleFactor.lb_scale; move16(); } @@ -1047,6 +1003,7 @@ ivas_error evs_dec_fx( Copy( st_fx->hFdCngDec->hFdCngCom->A_cng, A, M + 1 ); /*Q12*/ update_decoder_LPD_cng( st_fx, st_fx->coder_type, timeDomainBuffer, A, st_fx->p_bpf_noise_buf ); + /* Generate additional comfort noise to mask potential coding artefacts */ test(); test(); @@ -1065,6 +1022,7 @@ ivas_error evs_dec_fx( move16(); } } + /* check if the CLDFB works on the right sample rate */ IF( NE_16( i_mult( st_fx->cldfbAna->no_channels, st_fx->cldfbAna->no_col ), st_fx->L_frame ) ) { @@ -1095,7 +1053,7 @@ ivas_error evs_dec_fx( } timeIn_e = negate( timeIn_e ); - cldfbAnalysisFiltering( st_fx->cldfbAna, realBuffer, imagBuffer, &st_fx->scaleFactor, timeDomainBuffer, timeIn_e, CLDFB_NO_COL_MAX, workBuffer ); + cldfbAnalysis_fx( st_fx->cldfbAna, realBuffer, imagBuffer, &st_fx->scaleFactor, timeDomainBuffer, timeIn_e, CLDFB_NO_COL_MAX, workBuffer ); } IF( st_fx->flag_cna == 0 ) @@ -1145,8 +1103,7 @@ ivas_error evs_dec_fx( } timeIn_e = s_min( 0, add( timeIn_e, 2 ) ); - cldfbSynthesisFiltering( st_fx->cldfbSyn, realBuffer, imagBuffer, &st_fx->scaleFactor, output_sp, timeIn_e, CLDFB_NO_COL_MAX, workBuffer ); - /*CLDFB output always in timeIn_e*/ + cldfbSynthesis_fx( st_fx->cldfbSyn, realBuffer, imagBuffer, &st_fx->scaleFactor, output_sp, timeIn_e, CLDFB_NO_COL_MAX, workBuffer ); /*CLDFB output always in timeIn_e*/ /* MODE1 MDCT to ACELP 2 transition */ delay_comp = NS2SA_FX2( st_fx->output_Fs, DELAY_CLDFB_NS ); @@ -1234,10 +1191,9 @@ ivas_error evs_dec_fx( /* Delay compensation for TD-BWE*/ IF( GE_16( output_frame, L_FRAME16k ) ) { - Copy( output_sp, tmp_buffer_fx, output_frame ); /*timeIn_e*/ - Copy_Scale_sig( st_fx->prev_synth_buffer_fx, output_sp, delay_tdbwe, negate( timeIn_e ) ); /*st_fx->q_prev_synth_buffer_fx*/ - Copy( tmp_buffer_fx, output_sp + delay_tdbwe, sub( output_frame, delay_tdbwe ) ); /*timeIn_e*/ - Copy_Scale_sig( tmp_buffer_fx + sub( output_frame, delay_tdbwe ), st_fx->prev_synth_buffer_fx, delay_tdbwe, timeIn_e ); /*timeIn_e*/ + Scale_sig( st_fx->prev_synth_buffer_fx, delay_tdbwe, negate( timeIn_e ) ); + delay_signal_fx( output_sp, output_frame, st_fx->prev_synth_buffer_fx, delay_tdbwe ); /*timeIn_e, st_fx->q_prev_synth_buffer_fx*/ + Scale_sig( st_fx->prev_synth_buffer_fx, delay_tdbwe, timeIn_e ); } test(); @@ -1271,11 +1227,11 @@ ivas_error evs_dec_fx( ( ( EQ_16( st_fx->last_core, ACELP_CORE ) ) && ( NE_16( st_fx->bwidth, NB ) && EQ_16( st_fx->last_codec_mode, MODE2 ) ) ) ) && ( GT_32( st_fx->output_Fs, 8000 ) ) ) { + /* Add the delayed hb_synth component to the delayed core synthesis */ add_vec_fx( output_sp, negate( timeIn_e ), hb_synth_fx, hb_synth_fx_exp, output_sp, negate( timeIn_e ), output_frame ); } } - IF( EQ_32( st_fx->output_Fs, 8000 ) ) { tmps = NS2SA_FX2( st_fx->output_Fs, DELAY_CLDFB_NS ); /*Q0*/ @@ -1289,19 +1245,23 @@ ivas_error evs_dec_fx( test(); test(); test(); + /* TCX/ACELP/HQ-CORE->TCX */ IF( ( st_fx->bfi && GT_16( st_fx->last_core, ACELP_CORE ) ) || GT_16( st_fx->core, ACELP_CORE ) ) { test(); test(); test(); test(); + /* TCX / HQ-CORE / TD-TCX-PLC -> TCX / TD-TCX-PLC */ IF( GT_16( st_fx->last_core_bfi, ACELP_CORE ) || ( st_fx->bfi && st_fx->last_core > ACELP_CORE ) || ( st_fx->prev_bfi && st_fx->last_con_tcx ) ) { Copy_Scale_sig( hTcxDec->FBTCXdelayBuf, output_sp, tmps, negate( timeIn_e ) ); /*Q0*/ Copy_Scale_sig( pcmbufFB, output_sp + tmps, sub( hTcxDec->L_frameTCX, tmps ), negate( timeIn_e ) ); /*Q0*/ } + /* ACELP -> TCX */ ELSE { + /*cross-fading between LB-TCX and FB-TCX over 2.3125ms*/ Word16 step, alpha; i = 15; @@ -1327,15 +1287,16 @@ ivas_error evs_dec_fx( { IF( EQ_32( st_fx->output_Fs, 8000 ) ) { - Copy( hTcxDec->FBTCXdelayBuf, st_fx->delay_buf_out_fx, NS2SA( st_fx->output_Fs, DELAY_CLDFB_NS ) ); /*st_fx->q_prev_synth_buffer_fx*/ + Copy( hTcxDec->FBTCXdelayBuf, st_fx->delay_buf_out_fx, NS2SA_FX2( st_fx->output_Fs, DELAY_CLDFB_NS ) ); /*st_fx->q_prev_synth_buffer_fx*/ } ELSE { - Copy( hTcxDec->FBTCXdelayBuf, st_fx->prev_synth_buffer_fx, NS2SA( st_fx->output_Fs, DELAY_BWE_TOTAL_NS - DELAY_CLDFB_NS ) ); /*st_fx->Qprev_synth_buffer_fx*/ - Copy( hTcxDec->FBTCXdelayBuf + NS2SA( st_fx->output_Fs, DELAY_BWE_TOTAL_NS - DELAY_CLDFB_NS ), st_fx->delay_buf_out_fx, NS2SA( st_fx->output_Fs, DELAY_CLDFB_NS ) ); /*Q0*/ + Copy( hTcxDec->FBTCXdelayBuf, st_fx->prev_synth_buffer_fx, NS2SA_FX2( st_fx->output_Fs, DELAY_BWE_TOTAL_NS - DELAY_CLDFB_NS ) ); /*st_fx->Qprev_synth_buffer_fx*/ + Copy( hTcxDec->FBTCXdelayBuf + NS2SA_FX2( st_fx->output_Fs, DELAY_BWE_TOTAL_NS - DELAY_CLDFB_NS ), st_fx->delay_buf_out_fx, NS2SA_FX2( st_fx->output_Fs, DELAY_CLDFB_NS ) ); /*Q0*/ } } } + /* TCX/TD TCX PLC->ACELP */ ELSE IF( ( EQ_16( st_fx->last_codec_mode, MODE2 ) ) && ( GT_16( st_fx->last_core, ACELP_CORE ) ) ) { Word16 step, alpha; @@ -1362,46 +1323,18 @@ ivas_error evs_dec_fx( Scale_sig( output_sp, output_frame, timeIn_e ); /*timeIn_e*/ - tcx_ltp_post( st_fx, hTcxLtpDec, st_fx->core, output_frame /*hTcxDec->L_frameTCX*/, NS2SA_FX2( st_fx->output_Fs, ACELP_LOOK_NS ) + tmps, - output_sp, hTcxDec->FBTCXdelayBuf ); + tcx_ltp_post_fx( st_fx, hTcxLtpDec, st_fx->core, output_frame /*hTcxDec->L_frameTCX*/, add( NS2SA_FX2( st_fx->output_Fs, ACELP_LOOK_NS ), tmps ), output_sp, hTcxDec->FBTCXdelayBuf ); Copy( output_sp, synth_fx, output_frame ); /*timeIn_e*/ - } /* end of MODE2 */ + } /* end of Mode 2 */ /*----------------------------------------------------------------* * Save synthesis for HQ FEC *----------------------------------------------------------------*/ - // PMT("The code below could be move to save_synthesis_hq_fec") - post_hq_delay = NS2SA_FX2( st_fx->output_Fs, POST_HQ_DELAY_NS ); - IF( EQ_16( st_fx->codec_mode, MODE1 ) ) - { - Copy( hTcxDec->synth_history_fx + output_frame, hTcxDec->synth_history_fx, add( sub( output_frame, post_hq_delay ), NS2SA_FX2( st_fx->output_Fs, PH_ECU_MEM_NS ) ) ); /*hTcxDec->q_synth_history_fx*/ - Copy_Scale_sig( synth_fx, hTcxDec->old_synthFB_fx + sub( output_frame, post_hq_delay ), output_frame, negate( Qpostd ) ); /* output_sp not initialized yet */ - /* reset the remaining buffer, which is read in TCX concealment the necessary samples to fill - this buffer are not available for all cases, the impact on the output is limited */ - set16_fx( hTcxDec->old_synthFB_fx + sub( shl( output_frame, 1 ), post_hq_delay ), 0, post_hq_delay ); + save_synthesis_hq_fec_fx( st_fx, synth_fx, NULL, output_frame, Qpostd, NULL ); - IF( GE_16( output_frame, L_FRAME16k ) ) - { - Copy_Scale_sig( st_fx->prev_synth_buffer_fx, hTcxDec->old_synthFB_fx + sub( shl( output_frame, 1 ), NS2SA_FX2( st_fx->output_Fs, DELAY_BWE_TOTAL_NS ) ), NS2SA_FX2( st_fx->output_Fs, DELAY_BWE_TOTAL_NS - DELAY_CLDFB_NS ), negate( st_fx->Qprev_synth_buffer_fx ) ); /*Q0*/ - } - IF( NE_16( st_fx->core, ACELP_CORE ) ) - { - IF( GE_16( output_frame, L_FRAME16k ) ) - { - Copy_Scale_sig( synth_fx + output_frame, hTcxDec->old_synthFB_fx + sub( shl( output_frame, 1 ), NS2SA_FX2( st_fx->output_Fs, DELAY_CLDFB_NS ) ), NS2SA_FX2( st_fx->output_Fs, DELAY_CLDFB_NS ), negate( Qpostd ) ); /*Q0*/ - Copy_Scale_sig( hHQ_core->old_out_fx + NS2SA_FX2( st_fx->output_Fs, N_ZERO_MDCT_NS ), hTcxDec->old_synthFB_fx + shl( output_frame, 1 ), NS2SA_FX2( st_fx->output_Fs, PH_ECU_LOOKAHEAD_NS ), negate( hHQ_core->Q_old_wtda ) ); /*Q0*/ - } - ELSE - { - - Copy_Scale_sig( synth_fx + output_frame, hTcxDec->old_synthFB_fx + sub( shl( output_frame, 1 ), NS2SA_FX2( st_fx->output_Fs, DELAY_BWE_TOTAL_NS ) ), NS2SA_FX2( st_fx->output_Fs, DELAY_CLDFB_NS ), negate( Qpostd ) ); /*Q0*/ - Copy_Scale_sig( hHQ_core->old_out_fx + NS2SA_FX2( st_fx->output_Fs, N_ZERO_MDCT_NS ), hTcxDec->old_synthFB_fx + shl( output_frame, 1 ) - NS2SA_FX2( st_fx->output_Fs, DELAY_BWE_TOTAL_NS - DELAY_CLDFB_NS ), NS2SA_FX2( st_fx->output_Fs, PH_ECU_LOOKAHEAD_NS ), negate( hHQ_core->Q_old_wtda ) ); /*Q0*/ - } - } - } /*----------------------------------------------------------------* * HP filtering *----------------------------------------------------------------*/ diff --git a/lib_dec/fd_cng_dec.c b/lib_dec/fd_cng_dec.c deleted file mode 100644 index dd3adb2470ab33c3b0d5da3f21bad0e8c9cb366b..0000000000000000000000000000000000000000 --- a/lib_dec/fd_cng_dec.c +++ /dev/null @@ -1,1393 +0,0 @@ -/****************************************************************************************************** - - (C) 2022-2025 IVAS codec Public Collaboration with portions copyright Dolby International AB, Ericsson AB, - Fraunhofer-Gesellschaft zur Foerderung der angewandten Forschung e.V., Huawei Technologies Co. LTD., - Koninklijke Philips N.V., Nippon Telegraph and Telephone Corporation, Nokia Technologies Oy, Orange, - Panasonic Holdings Corporation, Qualcomm Technologies, Inc., VoiceAge Corporation, and other - contributors to this repository. All Rights Reserved. - - This software is protected by copyright law and by international treaties. - The IVAS codec Public Collaboration consisting of Dolby International AB, Ericsson AB, - Fraunhofer-Gesellschaft zur Foerderung der angewandten Forschung e.V., Huawei Technologies Co. LTD., - Koninklijke Philips N.V., Nippon Telegraph and Telephone Corporation, Nokia Technologies Oy, Orange, - Panasonic Holdings Corporation, Qualcomm Technologies, Inc., VoiceAge Corporation, and other - contributors to this repository retain full ownership rights in their respective contributions in - the software. This notice grants no license of any kind, including but not limited to patent - license, nor is any license granted by implication, estoppel or otherwise. - - Contributors are required to enter into the IVAS codec Public Collaboration agreement before making - contributions. - - This software is provided "AS IS", without any express or implied warranties. The software is in the - development stage. It is intended exclusively for experts who have experience with such software and - solely for the purpose of inspection. All implied warranties of non-infringement, merchantability - and fitness for a particular purpose are hereby disclaimed and excluded. - - Any dispute, controversy or claim arising under or in relation to providing this software shall be - submitted to and settled by the final, binding jurisdiction of the courts of Munich, Germany in - accordance with the laws of the Federal Republic of Germany excluding its conflict of law rules and - the United Nations Convention on Contracts on the International Sales of Goods. - -*******************************************************************************************************/ - -/*==================================================================================== - EVS Codec 3GPP TS26.443 Nov 04, 2021. Version 12.14.0 / 13.10.0 / 14.6.0 / 15.4.0 / 16.3.0 - ====================================================================================*/ - -#include -#include -#include "options.h" -#include -#include "prot.h" -#include "ivas_prot.h" -#include "rom_com.h" -#include "wmc_auto.h" -#include "ivas_prot.h" -#include "ivas_rom_dec.h" -#include "ivas_rom_com_fx.h" -#include "prot_fx.h" -#include "ivas_prot_fx.h" -#include "basop_util.h" -#include "rom_basop_util.h" - -/*------------------------------------------------------------------- - * Local constants - *-------------------------------------------------------------------*/ - -#define DELTA_MASKING_NOISE_Q15 0 -#define CNA_ACT_DN_LARGE_PARTITION 50 /* index of the first larger partition */ -#define FIRST_CNA_NOISE_UPD_FRAMES 5 /* minimum number of CN initialization frames */ -#define LOG_10_BASE_2 1783446566 /* Q29 */ -#define GAIN_Q_OFFSET_IVAS_FX 45 -#define LOG_10_BASE_2_BY_10_Q31 713378606 -#define TWO_BY_THREE_Q31 1431655765 -#define ONE_BY_FRAMES_PER_SEC_Q15 656 -#define NB_LAST_BAND_SCALE_Q31 1717986918 -#define SWB_13k2_LAST_BAND_SCALE_Q31 1717986918 - -/*------------------------------------------------------------------- - * Local fucntions declarations - *-------------------------------------------------------------------*/ - -/*------------------------------------------------------------------- - * createFdCngDec() - * - * Create an instance of type FD_CNG - *-------------------------------------------------------------------*/ - - -/*------------------------------------------------------------------- - * initFdCngDec() - * - * Initialize an instance of type FD_CNG - *-------------------------------------------------------------------*/ -void configureFdCngDec_ivas_fx( - HANDLE_FD_CNG_DEC hFdCngDec, /* i/o: Contains the variables related to the FD-based CNG process */ - const Word16 bwidth, /*Q0*/ - const Word32 total_brate, /*Q0*/ - const Word16 L_frame, /*Q0*/ - const Word16 last_L_frame, /*Q0*/ - const Word16 element_mode /*Q0*/ ) -{ - Word16 j, stopBandFR; - HANDLE_FD_CNG_COM hsCom = hFdCngDec->hFdCngCom; - - hsCom->CngBandwidth = bwidth; /*Q0*/ - move16(); - if ( EQ_16( hsCom->CngBandwidth, FB ) ) - { - hsCom->CngBandwidth = SWB; - move16(); - } - test(); - IF( NE_32( total_brate, FRAME_NO_DATA ) && NE_32( total_brate, SID_2k40 ) ) - { - hsCom->CngBitrate = total_brate; /*Q0*/ - move32(); - } - ELSE IF( EQ_32( hsCom->CngBitrate, -1 ) ) - { - /* set minimum active CBR bitrate IF CngBitrate is uninitialized */ - IF( element_mode > EVS_MONO ) - { - hsCom->CngBitrate = IVAS_13k2; - move32(); - } - ELSE - { - hsCom->CngBitrate = ACELP_7k20; - move32(); - } - } - - /* FD-CNG config for MDCT-Stereo is always the same (since for > 48 kbps only) */ - /* This may need adjustment in the future IF 2TC DTX for some mode uses MDCT-Stereo DTX for lower bitrates too */ - if ( EQ_16( element_mode, IVAS_CPE_MDCT ) ) - { - hsCom->CngBitrate = IVAS_48k; - move32(); - } - hsCom->numSlots = 16; - move32(); - - /* NB configuration */ - IF( EQ_16( bwidth, NB ) ) - { - hsCom->FdCngSetup = FdCngSetup_nb; - hsCom->numCoreBands = 16; - move16(); - hsCom->regularStopBand = 16; - move16(); - } - - /* WB configuration */ - ELSE IF( EQ_16( bwidth, WB ) ) - { - /* FFT 6.4kHz, no CLDFB */ - test(); - test(); - IF( LE_32( hsCom->CngBitrate, ACELP_8k00 ) && EQ_16( L_frame, L_FRAME ) ) - { - hsCom->FdCngSetup = FdCngSetup_wb1; - hsCom->numCoreBands = 16; - move16(); - hsCom->regularStopBand = 16; - move16(); - } - /* FFT 6.4kHz, CLDFB 8.0kHz */ - ELSE IF( LE_32( hsCom->CngBitrate, ACELP_13k20 ) || EQ_16( L_frame, L_FRAME ) ) - { - hsCom->FdCngSetup = FdCngSetup_wb2; - hsCom->numCoreBands = 16; - move16(); - hsCom->regularStopBand = 20; - move16(); - IF( EQ_16( L_frame, L_FRAME16k ) ) - { - hsCom->FdCngSetup = FdCngSetup_wb2; - hsCom->numCoreBands = 20; - move16(); - hsCom->regularStopBand = 20; - move16(); - hsCom->FdCngSetup.fftlen = 640; - move16(); - hsCom->FdCngSetup.stopFFTbin = 256; - move16(); - } - } - /* FFT 8.0kHz, no CLDFB */ - ELSE - { - hsCom->FdCngSetup = FdCngSetup_wb3; - hsCom->numCoreBands = 20; - move16(); - hsCom->regularStopBand = 20; - move16(); - } - } - - /* SWB/FB configuration */ - ELSE - { - /* FFT 6.4kHz, CLDFB 14kHz */ - IF( EQ_16( L_frame, L_FRAME ) ) - { - hsCom->FdCngSetup = FdCngSetup_swb1; - hsCom->numCoreBands = 16; - move16(); - hsCom->regularStopBand = 35; - move16(); - } - /* FFT 8.0kHz, CLDFB 16kHz */ - ELSE - { - hsCom->FdCngSetup = FdCngSetup_swb2; - hsCom->numCoreBands = 20; - move16(); - hsCom->regularStopBand = 40; - move16(); - test(); - if ( EQ_16( last_L_frame, L_FRAME ) && EQ_16( element_mode, IVAS_CPE_DFT ) ) - { - hsCom->regularStopBand = 35; - move16(); - } - } - } - - - hsCom->fftlen = hsCom->FdCngSetup.fftlen; - move16(); - hsCom->stopFFTbin = hsCom->FdCngSetup.stopFFTbin; - move16(); - - /* Configure the SID quantizer and the Comfort Noise Generator */ - - hsCom->startBand = 2; - move16(); - hsCom->stopBand = add( hsCom->FdCngSetup.sidPartitions[( hsCom->FdCngSetup.numPartitions - 1 )], 1 ); /*Q0*/ - initPartitions( hsCom->FdCngSetup.sidPartitions, hsCom->FdCngSetup.numPartitions, hsCom->startBand, hsCom->stopBand, hsCom->part, &hsCom->npart, hsCom->midband, hsCom->psize, hsCom->psize_norm, &hsCom->psize_norm_exp, hsCom->psize_inv, 0 ); - - IF( EQ_16( hsCom->stopFFTbin, 160 ) ) - { - hsCom->nFFTpart = 17; - move16(); - } - ELSE IF( EQ_16( hsCom->stopFFTbin, 256 ) ) - { - hsCom->nFFTpart = 20; - move16(); - } - ELSE - { - hsCom->nFFTpart = 21; - move16(); - } - hsCom->nCLDFBpart = sub( hsCom->npart, hsCom->nFFTpart ); /*Q0*/ - move16(); - FOR( j = 0; j < hsCom->nCLDFBpart; j++ ) - { - hsCom->CLDFBpart[j] = sub( hsCom->part[( j + hsCom->nFFTpart )], sub( hsCom->stopFFTbin, hsCom->startBand ) ); /*Q0*/ - move16(); - hsCom->CLDFBpsize_inv[j] = hsCom->psize_inv[( j + hsCom->nFFTpart )]; - move16(); - } - - stopBandFR = 40; //(Word16)floor(1000.f /*Hz*/ / 25.f /*Hz/Bin*/); - move16(); - if ( GT_16( stopBandFR, hsCom->stopFFTbin ) ) - { - stopBandFR = hsCom->stopFFTbin; /*Q0*/ - move16(); - } - - initPartitions( hsCom->FdCngSetup.shapingPartitions, hsCom->FdCngSetup.numShapingPartitions, hsCom->startBand, hsCom->stopFFTbin, hFdCngDec->part_shaping, &hFdCngDec->npart_shaping, hFdCngDec->midband_shaping, hFdCngDec->psize_shaping, hFdCngDec->psize_shaping_norm, &hFdCngDec->psize_shaping_norm_exp, hFdCngDec->psize_inv_shaping, stopBandFR ); - - hFdCngDec->nFFTpart_shaping = hFdCngDec->npart_shaping; /*Q0*/ - move16(); - - BASOP_getTables( &hsCom->olapWinAna, NULL, NULL, shr( hsCom->fftlen, 1 ) ); - BASOP_getTables( &hsCom->olapWinSyn, NULL, NULL, shr( hsCom->fftlen, 2 ) ); - - SWITCH( hsCom->fftlen ) - { - case 512: - hsCom->olapWinAna_fx = olapWinAna512_fx; /*Q30*/ - hsCom->fftSineTab_fx = NULL; - hsCom->olapWinSyn_fx = olapWinSyn256_fx; /*Q15*/ - hsCom->fftlenShift = 8; - move16(); - hsCom->fftlenFac = 32767 /*1.0 Q15*/; - move16(); - BREAK; - case 640: - hsCom->olapWinAna_fx = olapWinAna640_fx; /*Q30*/ - hsCom->fftSineTab_fx = fftSineTab640_fx; /*Q15*/ - hsCom->olapWinSyn_fx = olapWinSyn320_fx; /*Q15*/ - hsCom->fftlenShift = 9; - move16(); - hsCom->fftlenFac = 20480 /*0.625 Q15*/; - move16(); - BREAK; - default: - assert( !"Unsupported FFT length for FD-based CNG" ); - BREAK; - } - BASOP_getTables( &hsCom->olapWinAna, NULL, NULL, shr( hsCom->fftlen, 1 ) ); - BASOP_getTables( &hsCom->olapWinSyn, NULL, NULL, shr( hsCom->fftlen, 2 ) ); - hsCom->frameSize = shr( hsCom->fftlen, 1 ); - - return; -} - -/*------------------------------------------------------------------- - * deleteFdCngDec() - * - * Delete the instance of type FD_CNG - *-------------------------------------------------------------------*/ - - -/*------------------------------------------------------------------- - * ApplyFdCng() - * - * Apply the CLDFB-based CNG at the decoder - *-------------------------------------------------------------------*/ - -/*------------------------------------------------------------------- - * FdCng_decodeSID() - * - * Decode the FD-CNG bitstream - *-------------------------------------------------------------------*/ - - -/*------------------------------------------------------------------- - * FdCng_decodeSID_ivas_fx() - * - * Decode the FD-CNG bitstream - *-------------------------------------------------------------------*/ - -void FdCng_decodeSID_ivas_fx( - Decoder_State *st /* i/o: decoder state structure */ -) -{ - Word16 N; - Word32 *sidNoiseEst; - Word32 gain; - Word16 i, index; - Word32 v[32]; - Word16 indices[32]; - HANDLE_FD_CNG_COM hFdCngCom; - Word32 *invTrfMatrix_fx; - Word32 tmpRAM_fx[FDCNG_VQ_MAX_LEN][FDCNG_VQ_DCT_MAXTRUNC]; - Word16 tmp16; - - IF( st->element_mode == EVS_MONO ) - { - tmp16 = GAIN_Q_OFFSET_EVS_FX_Q0; - move16(); - } - ELSE - { - tmp16 = GAIN_Q_OFFSET_IVAS_FX_Q0; - move16(); - } - - const Word16 gain_q_offset = tmp16; /* Q0 */ - move16(); - - invTrfMatrix_fx = (Word32 *) tmpRAM_fx; /*Q31*/ - - hFdCngCom = ( st->hFdCngDec )->hFdCngCom; - - sidNoiseEst = hFdCngCom->sidNoiseEst; /*Q16*/ - - N = hFdCngCom->npart; /*Q0*/ - move16(); - gain = 0; - move32(); - hFdCngCom->sid_frame_counter = add( hFdCngCom->sid_frame_counter, 1 ); - move16(); - - /* Read bitstream */ - FOR( i = 0; i < FD_CNG_stages_37bits; i++ ) - { - indices[i] = get_next_indice_fx( st, bits_37bits[i] ); /*Q0*/ - move16(); - } - - index = get_next_indice_fx( st, 7 ); - - /* MSVQ decoder */ - - IF( st->element_mode != EVS_MONO ) - { - create_IDCT_N_Matrix_fx( invTrfMatrix_fx, FDCNG_VQ_MAX_LEN, FDCNG_VQ_DCT_MAXTRUNC, FDCNG_VQ_MAX_LEN * FDCNG_VQ_DCT_MAXTRUNC ); - msvq_dec_fx( ivas_cdk_37bits_fx, NULL, NULL, FD_CNG_stages_37bits, N, FD_CNG_maxN_37bits, indices, 1, invTrfMatrix_fx, v, NULL, 7 ); - } - ELSE - { /* Legacy EVS_MONO MSVQ tables */ - msvq_dec_fx( cdk_37bits, NULL, NULL, FD_CNG_stages_37bits, N, FD_CNG_maxN_37bits, indices, 0, NULL, v, NULL, 7 ); - } - - - /* Decode gain */ - // gain = ((float)index - gain_q_offset) / 1.5f; - gain = L_mult0( sub( index, gain_q_offset ), 21845 ); // Q15 - - /* Apply gain and undo log */ - Word16 res_exp[NPART]; - Word16 max_res_exp = 0; - move16(); - FOR( i = 0; i < N; i++ ) - { - sidNoiseEst[i] = BASOP_util_Pow2( Mpy_32_32( L_add( v[i], gain ), LOG_10_BASE_2_BY_10_Q31 ), Q16, &res_exp[i] ); /*Q31 - res_exp[i]*/ - move32(); - if ( LT_16( max_res_exp, res_exp[i] ) ) - { - max_res_exp = res_exp[i]; - move16(); - } - } - - FOR( i = 0; i < N; i++ ) - { - sidNoiseEst[i] = L_shr( sidNoiseEst[i], sub( max_res_exp, res_exp[i] ) ); /*Q31 - max_res_exp*/ - move32(); - } - - hFdCngCom->sidNoiseEstExp = max_res_exp; - move16(); - - /* NB last band energy compensation */ - - IF( hFdCngCom->CngBandwidth == NB ) - { - sidNoiseEst[( N - 1 )] = Mpy_32_16_1( sidNoiseEst[( N - 1 )], NB_LAST_BAND_SCALE ); /*Q31 - max_res_exp*/ - move32(); - } - - test(); - IF( EQ_16( hFdCngCom->CngBandwidth, SWB ) && LE_32( hFdCngCom->CngBitrate, ACELP_13k20 ) ) - { - sidNoiseEst[( N - 1 )] = Mpy_32_16_1( sidNoiseEst[( N - 1 )], SWB_13k2_LAST_BAND_SCALE ); /*Q31 - max_res_exp*/ - move32(); - } - - scalebands( sidNoiseEst, hFdCngCom->part, hFdCngCom->npart, hFdCngCom->midband, hFdCngCom->nFFTpart, sub( hFdCngCom->stopBand, hFdCngCom->startBand ), hFdCngCom->cngNoiseLevel, 1 ); - hFdCngCom->cngNoiseLevelExp = hFdCngCom->sidNoiseEstExp; - move16(); - - lpc_from_spectrum( hFdCngCom, hFdCngCom->startBand, hFdCngCom->stopFFTbin, st->preemph_fac ); - - return; -} - -/*------------------------------------------------------------------- - * noisy_speech_detection() - * - * - *-------------------------------------------------------------------*/ - -/*------------------------------------------------------------------- - * generate_comfort_noise_dec() - * - * Generate the comfort noise based on the target noise level - *-------------------------------------------------------------------*/ - -/*------------------------------------------------------------------- - * generate_masking_noise() - * - * Generate additional comfort noise (kind of noise filling) - *-------------------------------------------------------------------*/ - -/*------------------------------------------------------------------- - * generate_masking_noise_ivas_fx() - * - * Generate additional comfort noise (kind of noise filling) - *-------------------------------------------------------------------*/ - -void generate_masking_noise_ivas_fx( - Word32 *timeDomainBuffer, /* i/o: time-domain signal Q31 - *exp_out*/ - Word16 *exp_out, /* o : time-domain signal exp */ - HANDLE_FD_CNG_COM hFdCngCom, /* i/o: FD_CNG structure containing all buffers and variables */ - const Word16 length, /* i : frame size Q0*/ - const Word16 core, /* i : core Q0*/ - const Word16 return_noise, /* i : noise is returned instead of added Q0*/ - const Word16 secondary, /* i : flag to indicate secondary noise generation Q0*/ - const Word16 element_mode, /* i : element mode Q0*/ - STEREO_CNG_DEC_HANDLE hStereoCng, /* i : stereo CNG handle */ - const Word16 nchan_out /* i : number of output channels Q0*/ -) -{ - Word32 *cngNoiseLevel_fx = hFdCngCom->cngNoiseLevel; - Word32 *ptr_level_fx = cngNoiseLevel_fx; - Word32 *fftBuffer_fx = hFdCngCom->fftBuffer; - Word16 i; - Word32 maskingNoise_fx[L_FRAME16k]; - Word32 *ptr_r_fx; - Word32 *ptr_i_fx; - Word16 startBand; - Word16 *seed = &( hFdCngCom->seed ); - Word32 scale_fx; - Word16 shift; - scale_fx = 0x40000000; // 1.0 in Q30 - move32(); - startBand = hFdCngCom->startBand; /*Q0*/ - move16(); - shift = getScaleFactor32( hFdCngCom->cngNoiseLevel, FFTCLDFBLEN ); - if ( LT_16( sub( hFdCngCom->cngNoiseLevelExp, shift ), 4 ) ) - { - shift = sub( hFdCngCom->cngNoiseLevelExp, 4 ); /*Q0*/ - } - scale_sig32( hFdCngCom->cngNoiseLevel, FFTCLDFBLEN, shift ); /*hFdCngCom->cngNoiseLevelExp*/ - hFdCngCom->cngNoiseLevelExp = sub( hFdCngCom->cngNoiseLevelExp, shift ); - move16(); - - /* skip noise generating if level is very low, to avoid problems with possibly running into denormals */ - *exp_out = Q15; - move16(); - IF( GT_16( hFdCngCom->likelihood_noisy_speech, DELTA_MASKING_NOISE_Q15 ) ) - { - IF( NE_16( core, AMR_WB_CORE ) ) - { - /* Compute additional CN level */ - FOR( i = 0; i < SIZE_SCALE_TABLE_CN; i++ ) - { - test(); - test(); - if ( EQ_16( hFdCngCom->CngBandwidth, scaleTable_cn_only[i].bwmode ) && - GE_32( hFdCngCom->CngBitrate, scaleTable_cn_only[i].bitrateFrom ) && - LT_32( hFdCngCom->CngBitrate, scaleTable_cn_only[i].bitrateTo ) ) - { - BREAK; - } - } - - scale_fx = L_deposit_h( scaleTable_cn_only[i].scale_ivas ); /* Q30 */ - } - ELSE - { - /* Compute additional CN level */ - FOR( i = 0; i < SIZE_SCALE_TABLE_CN_AMRWB; i++ ) - { - if ( GE_32( hFdCngCom->CngBitrate, scaleTable_cn_only_amrwbio[i][0] ) ) - { - BREAK; - } - } - - IF( LT_16( i, SIZE_SCALE_TABLE_CN_AMRWB ) ) - { - scale_fx = L_deposit_h( scaleTable_cn_only_amrwbio[i][1] ); /* Q30 */ - } - ELSE - { - scale_fx = 0; - move32(); - } - } - - /* Exclude clean speech */ - scale_fx = Mpy_32_16_1( scale_fx, hFdCngCom->likelihood_noisy_speech ); // Q30 - - /* Generate Gaussian random noise in real and imaginary parts of the FFT bins - Amplitudes are adjusted to the estimated noise level cngNoiseLevel_flt in each bin */ - IF( startBand == 0 ) - { - rand_gauss_fx( &fftBuffer_fx[0], seed, *exp_out ); // Q15 - ptr_r_fx = fftBuffer_fx + 2; /*Q31 - hFdCngCom->fftBuffer_exp*/ - Word16 exp1; - exp1 = add( hFdCngCom->cngNoiseLevelExp, 1 ); - Word32 mpy1; - mpy1 = Sqrt32( Mpy_32_32( scale_fx, *ptr_level_fx ), &exp1 ); /*Q31 - exp1*/ - mpy1 = L_shl( mpy1, exp1 ); // Q31 - fftBuffer_fx[0] = Mpy_32_32( fftBuffer_fx[0], mpy1 ); /* DC component in FFT */ // Q = Q15 - ptr_level_fx++; - } - ELSE - { - fftBuffer_fx[0] = 0; - move32(); - set32_fx( fftBuffer_fx + 2, 0, shl( sub( startBand, 1 ), 1 ) ); - ptr_r_fx = fftBuffer_fx + shl( startBand, 1 ); /*Q31 - hFdCngCom->fftBuffer_exp*/ - } - ptr_i_fx = ptr_r_fx + 1; - FOR( ; ptr_level_fx < cngNoiseLevel_fx + hFdCngCom->stopFFTbin - startBand; ptr_level_fx++ ) - { - /* Real part in FFT bins */ - rand_gauss_fx( ptr_r_fx, seed, *exp_out ); // Q15 - Word16 exp2; - exp2 = add( hFdCngCom->cngNoiseLevelExp, 1 ); - Word32 mpy2; - mpy2 = Sqrt32( L_shr( Mpy_32_32( scale_fx, *ptr_level_fx ), 1 ), &exp2 ); /*Q31 - exp2*/ - ( *ptr_r_fx ) = L_shl( Mpy_32_32( *ptr_r_fx, mpy2 ), exp2 ); // Q = Q15 - move32(); - ptr_r_fx += 2; - - /* Imaginary part in FFT bins */ - rand_gauss_fx( ptr_i_fx, seed, *exp_out ); // Q15 - ( *ptr_i_fx ) = L_shl( Mpy_32_32( *ptr_i_fx, mpy2 ), exp2 ); // Q = Q15 - ptr_i_fx += 2; - } - - /* Remaining FFT bins are set to zero */ - set32_fx( fftBuffer_fx + shl( hFdCngCom->stopFFTbin, 1 ), 0, sub( hFdCngCom->fftlen, shl( hFdCngCom->stopFFTbin, 1 ) ) ); - /* Nyquist frequency is discarded */ - fftBuffer_fx[1] = 0; - move32(); - } - ELSE - { - /* very low level case - update random seeds and reset FFT buffer; don't fully skip SynthesisSTFT_flt(), because of the buffer updates done there... */ - generate_masking_noise_update_seed_fx( hFdCngCom ); - - set32_fx( fftBuffer_fx, 0, hFdCngCom->fftlen ); - } - - /* Perform STFT synthesis */ - IF( secondary ) - { - SynthesisSTFT_fx( fftBuffer_fx, maskingNoise_fx, hStereoCng->olapBufferSynth22_32fx, hFdCngCom->olapWinSyn_fx, 0, hFdCngCom, element_mode, nchan_out ); - } - ELSE - { - SynthesisSTFT_fx( fftBuffer_fx, maskingNoise_fx, hFdCngCom->olapBufferSynth2_fx, hFdCngCom->olapWinSyn_fx, 0, hFdCngCom, element_mode, nchan_out ); - } - *exp_out = sub( *exp_out, Q9 ); - move16(); - - /* Add some comfort noise on top of decoded signal */ - IF( return_noise ) - { - Copy32( maskingNoise_fx, timeDomainBuffer, s_min( hFdCngCom->frameSize, length ) ); /*Q31 - *exp_out*/ - } - ELSE - { - v_add_fixed( maskingNoise_fx, timeDomainBuffer, timeDomainBuffer, s_min( hFdCngCom->frameSize, length ), 0 ); /*Q31 - *exp_out*/ - } - - return; -} - -/*------------------------------------------------------------------- - * generate_masking_noise_update_seed() - * - * Update seed for scenarios where generate_masking_noise() is - * not called based on signal statistics - *-------------------------------------------------------------------*/ - - -/*------------------------------------------------------------------- - * generate_stereo_masking_noise_fx() - * - * Generate additional comfort noise (kind of noise filling) - *-------------------------------------------------------------------*/ - -void generate_stereo_masking_noise_fx( - Word16 *syn, /* i/o: time-domain signal Q_syn*/ - Word16 Q_syn, - Decoder_State *st, /* i/o: decoder state structure */ - STEREO_TD_DEC_DATA_HANDLE hStereoTD, /* i : TD stereo structure */ - const Word16 flag_sec_CNA, /* i : CNA flag for secondary channel Q0*/ - const Word16 fadeOut, /* i : only fade out of previous state Q0*/ - STEREO_CNG_DEC_HANDLE hStereoCng, /* i : Stereo CNG handle */ - const Word16 nchan_out /* i : number of output channels Q0*/ -) -{ - HANDLE_FD_CNG_COM hFdCngCom; - Word32 gamma_fx, scale_fx /*, SP_ratio_fx needs to be integrated*/; - Word32 Np_fx[L_FRAME16k]; - Word32 Ns_fx[L_FRAME16k]; - Word32 N1_fx[L_FRAME16k]; - Word32 N2_fx[L_FRAME16k]; - Word16 N1_fx_exp, N2_fx_exp; - Word16 i; - - IF( st->idchan == 0 ) - { - hFdCngCom = st->hFdCngDec->hFdCngCom; -#ifdef FIX_ISSUE_1237 - Copy_Scale_sig_16_32_no_sat( hStereoCng->olapBufferSynth22_fx, Ns_fx, shr( hFdCngCom->frameSize, 1 ), sub( Q6, st->Q_syn ) ); /*Q6*/ -#else - Copy_Scale_sig_16_32_DEPREC( hStereoCng->olapBufferSynth22_fx, Ns_fx, shr( hFdCngCom->frameSize, 1 ), sub( Q6, st->Q_syn ) ); /*Q6*/ -#endif - Copy32( hFdCngCom->olapBufferSynth2_fx, Np_fx, shr( hFdCngCom->frameSize, 1 ) ); /*st->Q_syn*/ - - set32_fx( &Np_fx[( hFdCngCom->frameSize / 2 )], 0, shr( hFdCngCom->frameSize, 1 ) ); - set32_fx( &Ns_fx[( hFdCngCom->frameSize / 2 )], 0, shr( hFdCngCom->frameSize, 1 ) ); - - IF( !fadeOut ) - { -#ifdef FIX_ISSUE_1237 - Copy_Scale_sig_16_32_no_sat( hStereoCng->olapBufferSynth22_fx, hStereoCng->olapBufferSynth22_32fx, hFdCngCom->fftlen, sub( Q15, st->Q_syn ) ); /*Q15*/ -#else - Copy_Scale_sig_16_32_DEPREC( hStereoCng->olapBufferSynth22_fx, hStereoCng->olapBufferSynth22_32fx, hFdCngCom->fftlen, sub( Q15, st->Q_syn ) ); /*Q15*/ -#endif - generate_masking_noise_ivas_fx( N1_fx, &N1_fx_exp, hFdCngCom, hFdCngCom->frameSize, 0, 1, 0, st->element_mode, hStereoCng, nchan_out ); // N1_fx Q6 - /* Generate masking noise for secondary channel */ - IF( flag_sec_CNA ) - { - generate_masking_noise_ivas_fx( N2_fx, &N2_fx_exp, hFdCngCom, hFdCngCom->frameSize, 0, 1, 1, st->element_mode, hStereoCng, nchan_out ); // N2_fx Q6 - gamma_fx = L_shr( Mpy_32_32( hStereoCng->c_PS_LT_fx, hStereoCng->c_PS_LT_fx ), 1 ); /*Q30*/ - scale_fx = ONE_IN_Q30; - move32(); - IF( LT_32( gamma_fx, 966367642 /* 0.9 in Q30 */ ) ) - { - Word16 exp_gamma; - exp_gamma = 0; - move16(); - Word16 divisor1; - divisor1 = Inv16( (Word16) L_shr( L_sub( ONE_IN_Q30, gamma_fx ), Q15 ), &exp_gamma ); // Q15-exp_gamma - gamma_fx = L_shl( Mpy_32_16_1( gamma_fx, divisor1 ), exp_gamma ); // Q30 - Word16 exp_gamma1, exp_gamma2, exp_gamma3; - exp_gamma1 = Q1; - exp_gamma2 = Q1; - exp_gamma3 = Q1; - move16(); - move16(); - move16(); - gamma_fx = Sqrt32( L_add( gamma_fx, ONE_IN_Q30 ), &exp_gamma1 ); /*Q31 - exp_gamma1*/ - Word32 temp; - temp = Sqrt32( gamma_fx, &exp_gamma2 ); // Q31-exp_gamma1 - gamma_fx = L_sub( gamma_fx, L_shl( temp, sub( exp_gamma2, exp_gamma1 ) ) ); // Q31-exp_gamma1 - gamma_fx = L_shl( gamma_fx, sub( exp_gamma1, Q1 ) ); // Q30 - Word32 divisor2; - divisor2 = Sqrt32( L_add( ONE_IN_Q30, L_shl( Mpy_32_32( gamma_fx, gamma_fx ), Q1 ) ), &exp_gamma3 ); // Q31 - exp_gamma3 - scale_fx = L_shl( divide3232( ONE_IN_Q30, divisor2 ), add( Q15, exp_gamma3 ) ); // Q30 - } - ELSE - { - gamma_fx = 0; - move16(); - } - - FOR( i = 0; i < 2 * hFdCngCom->frameSize / 4; i++ ) - { - Np_fx[i] = L_add( Np_fx[i], - Mpy_32_32( scale_fx, L_shl( L_add( N1_fx[i], Mpy_32_32( gamma_fx, L_shl( N2_fx[i], Q1 ) ) ), Q1 ) ) ); // Q6 - move32(); - Word32 add2; - add2 = Mpy_32_32( scale_fx, L_shl( L_sub( N1_fx[i], Mpy_32_32( gamma_fx, L_shl( N2_fx[i], Q1 ) ) ), Q1 ) ); // Q6 - if ( hStereoCng->c_PS_LT_fx < 0 ) - { - add2 = L_negate( add2 ); /*Q6*/ - } - Ns_fx[i] = L_add( Ns_fx[i], add2 ); /*Q6*/ - move32(); - } - FOR( ; i < hFdCngCom->frameSize; i++ ) - { - Np_fx[i] = Mpy_32_32( scale_fx, L_shl( L_add( N1_fx[i], Mpy_32_32( gamma_fx, L_shl( N2_fx[i], Q1 ) ) ), Q1 ) ); // Q6 - move32(); - Ns_fx[i] = Mpy_32_32( scale_fx, L_shl( L_sub( N1_fx[i], Mpy_32_32( gamma_fx, L_shl( N2_fx[i], Q1 ) ) ), Q1 ) ); // Q6 - move32(); - IF( hStereoCng->c_PS_LT_fx < 0 ) - { - Ns_fx[i] = L_negate( Ns_fx[i] ); - move32(); - } - } - /* Below code to be converted */ - Word32 scale_fx_tmp = Mpy_32_32( scale_fx, L_shl( shr( hFdCngCom->fftlen, 1 ), Q22 ) ); // Q21 - FOR( i = 0; i < shr( hFdCngCom->frameSize, 1 ); i++ ) - { - hFdCngCom->olapBufferSynth2[i] = (Word16) L_shr( Mpy_32_32( scale_fx_tmp, - L_add( L_shr( hFdCngCom->olapBufferSynth2[( i + ( 5 * ( hFdCngCom->frameSize / 4 ) ) )], Q15 ), - Mpy_32_16_1( gamma_fx, hStereoCng->olapBufferSynth22_fx[( i + ( 5 * ( hFdCngCom->frameSize / 4 ) ) )] ) ) ), - Q14 ); // Q_olap - move16(); - hStereoCng->olapBufferSynth22_fx[i] = (Word16) L_shr( Mpy_32_32( scale_fx_tmp, - L_sub( L_shr( hFdCngCom->olapBufferSynth2[( i + ( 5 * ( hFdCngCom->frameSize / 4 ) ) )], Q15 ), - Mpy_32_16_1( gamma_fx, hStereoCng->olapBufferSynth22_fx[( i + ( 5 * ( hFdCngCom->frameSize / 4 ) ) )] ) ) ), - Q14 ); // Q_olap - move16(); - } - } - ELSE - { - FOR( i = 0; i < shr( hFdCngCom->frameSize, 1 ); i++ ) - { - Np_fx[i] = L_add( Np_fx[i], N1_fx[i] ); // Q6 - move32(); - } - Copy32( &N1_fx[( hFdCngCom->frameSize / 2 )], &Np_fx[( hFdCngCom->frameSize / 2 )], shr( hFdCngCom->frameSize, 1 ) ); /*Q6*/ - scale_fx = L_shl( shr( hFdCngCom->fftlen, 1 ), Q22 ); // Q21 - FOR( i = 0; i < hFdCngCom->frameSize; i++ ) - { - hFdCngCom->olapBufferSynth2[i] = (Word16) L_shr( Mpy_32_16_1( scale_fx, hFdCngCom->olapBufferSynth2[( i + ( 5 * ( hFdCngCom->frameSize / 4 ) ) )] ), Q6 ); // Q_olap - move16(); - } - } - - Copy_Scale_sig_32_16( hStereoCng->olapBufferSynth22_32fx, hStereoCng->olapBufferSynth22_fx, hFdCngCom->fftlen, sub( st->Q_syn, 15 ) ); /*st->Q_syn*/ - } - ELSE - { - set16_fx( hFdCngCom->olapBufferSynth2, 0, shr( hFdCngCom->frameSize, 1 ) ); - set16_fx( hStereoCng->olapBufferSynth22_fx, 0, shr( hFdCngCom->frameSize, 1 ) ); - } - IF( flag_sec_CNA ) - { - Copy_Scale_sig_32_16( Ns_fx, hStereoCng->maskingNoiseS_fx, hFdCngCom->frameSize, 0 ); // Q6 - hStereoCng->enableSecCNA = 1; - move16(); - } - ELSE - { - set16_fx( hStereoCng->olapBufferSynth22_fx, 0, hFdCngCom->frameSize ); - } - - /* add masking noise */ - FOR( i = 0; i < hFdCngCom->frameSize; i++ ) - { - syn[i] = add( syn[i], (Word16) L_shr( Np_fx[i], sub( Q16 + Q6, Q_syn ) ) ); // Q_syn - move16(); - } - } - ELSE IF( hStereoCng->enableSecCNA ) - { - Word16 SP_ratio_fx; - SP_ratio_fx = extract_h( hStereoTD->SP_ratio_LT_fx ); /* Use long-term SP ratio based on L/R synthesis Q15*/ - Word16 prevSP_ratio_fx; - prevSP_ratio_fx = hStereoTD->prevSP_ratio_fx; /* Use long-term SP ratio based on L/R synthesis Q15*/ - move16(); - /* scale and add masking noise */ - FOR( i = 0; i < shr( *hStereoCng->frameSize, 2 ); i++ ) - { - Word16 s; - Word16 scale_fx_tmp; - scale_fx_tmp = BASOP_Util_Divide3216_Scale( L_add( L_mult0( prevSP_ratio_fx, sub( shr( *hStereoCng->frameSize, 2 ), i ) ), L_mult0( SP_ratio_fx, i ) ), shr( *hStereoCng->frameSize, 2 ), &s ); // Q15 - scale_fx_tmp = shl( scale_fx_tmp, s ); - syn[i] = add( syn[i], mult( scale_fx_tmp, shr( hStereoCng->maskingNoiseS_fx[i], sub( Q6, Q_syn ) ) ) ); /*Q_syn*/ - move16(); - } - FOR( ; i < *hStereoCng->frameSize / 2; i++ ) - { - syn[i] = add( syn[i], mult( SP_ratio_fx, shr( hStereoCng->maskingNoiseS_fx[i], sub( Q6, Q_syn ) ) ) ); /*Q_syn*/ - move16(); - } - FOR( ; i < *hStereoCng->frameSize; i++ ) - { - syn[i] = add( syn[i], mult( SP_ratio_fx, shr( hStereoCng->maskingNoiseS_fx[i], sub( Q6, Q_syn ) ) ) ); /*Q_syn*/ - move16(); - } - hStereoTD->prevSP_ratio_fx = extract_h( hStereoTD->SP_ratio_LT_fx ); /*Q15*/ - move16(); - } - - return; -} -void generate_masking_noise_lb_dirac_fx( - HANDLE_FD_CNG_COM hFdCngCom, /* i/o: FD_CNG structure containing all buffers and variables */ - Word32 *tdBuffer, /* i/o: time-domain signal, if NULL no LB-CNA Q11*/ - const Word16 nCldfbTs, /* i : number of CLDFB slots that will be rendered Q0*/ - const Word16 cna_flag /* i : CNA flag for LB and HB Q0*/ -) -{ - Word16 i; - Word32 *cngNoiseLevel = hFdCngCom->cngNoiseLevel; /*hFdCngCom->cngNoiseLevelExp*/ - Word32 *fftBuffer = hFdCngCom->fftBuffer; /*hFdCngCom->fftBuffer_exp*/ - Word32 *ptr_r; - Word32 *ptr_i; - Word32 *ptr_level; - Word16 *seed = &( hFdCngCom->seed ); - Word32 scale; - Word16 n_samples_out, n_samples_start, n_samples_out_loop; - - push_wmops( "fd_cng_dirac" ); - - /* Init */ - scale = 0; - move32(); - n_samples_out = i_mult( shr( hFdCngCom->frameSize, 4 ), nCldfbTs ); - n_samples_start = 0; - move16(); - Word16 exp_out = Q11; - move16(); - /*LB CLDFB - CNA from STFT*/ - IF( cna_flag ) - { - /* skip noise generating if level is very low, to avoid problems with possibly running into denormals */ - IF( GT_16( hFdCngCom->likelihood_noisy_speech, DELTA_MASKING_NOISE_Q15 ) ) - { - /* Compute additional CN level */ - FOR( i = 0; i < 15; i++ ) - { - test(); - test(); - if ( ( EQ_16( hFdCngCom->CngBandwidth, scaleTable_cn_dirac[i].bwmode ) ) && - GE_32( hFdCngCom->CngBitrate, scaleTable_cn_dirac[i].bitrateFrom ) && - LT_32( hFdCngCom->CngBitrate, scaleTable_cn_dirac[i].bitrateTo ) ) - { - BREAK; - } - } - - scale = L_deposit_h( scaleTable_cn_dirac[i].scale_ivas ); /* Q30 */ - scale = Mpy_32_16_1( scale, hFdCngCom->likelihood_noisy_speech ); /* Q30 */ - } - } - - /* LB CLDFB - CNA from STFT: CNA applied only in channel 0*/ - test(); - IF( cna_flag && tdBuffer != NULL ) - { - WHILE( n_samples_out > 0 ) - { - n_samples_out_loop = s_min( hFdCngCom->frameSize, n_samples_out ); - IF( scale != 0 ) - { - /*Generate LF comfort noise only at first slot, for the whole frame*/ - ptr_level = cngNoiseLevel; /*hFdCngCom->cngNoiseLevelExp*/ - - /* Generate Gaussian random noise in real and imaginary parts of the FFT bins - Amplitudes are adjusted to the estimated noise level cngNoiseLevel_flt in each bin */ - IF( EQ_16( hFdCngCom->startBand, 0 ) ) - { - rand_gauss_fx( &fftBuffer[0], seed, exp_out ); - ptr_r = fftBuffer + 2; /*hFdCngCom->fftBuffer_exp*/ - - Word16 exp2 = sub( 31, hFdCngCom->cngNoiseLevelExp ); - Word32 sqr = Sqrt32( L_shr( Mpy_32_32( scale, *ptr_level ), 1 ), &exp2 ); /* DC component in FFT Q31 - exp2*/ - sqr = L_shl( sqr, exp2 ); /*Q31*/ - fftBuffer[0] = Mpy_32_32( fftBuffer[0], sqr ); /* DC component in FFT Q31 - hFdCngCom->fftBuffer_exp*/ - move32(); - ptr_level++; - } - ELSE - { - fftBuffer[0] = 0; - move32(); - set32_fx( fftBuffer + 2, 0, shl( sub( hFdCngCom->startBand, 1 ), 1 ) ); - ptr_r = fftBuffer + shl( hFdCngCom->startBand, 1 ); /*hFdCngCom->fftBuffer_exp*/ - } - ptr_i = ptr_r + 1; /*hFdCngCom->fftBuffer_exp*/ - - FOR( ; ptr_level < cngNoiseLevel + sub( hFdCngCom->stopFFTbin, hFdCngCom->startBand ); ptr_level++ ) - { - rand_gauss_fx( ptr_r, seed, exp_out ); - Word16 exp2 = hFdCngCom->cngNoiseLevelExp; - Word32 mpy2 = Sqrt32( Mpy_32_32( scale, *ptr_level ), &exp2 ); /*Q31 - exp2*/ - ( *ptr_r ) = L_shl( Mpy_32_32( *ptr_r, mpy2 ), exp2 ); /*Q31 - hFdCngCom->fftBuffer_exp*/ - move32(); - ptr_r += 2; - - /* Imaginary part in FFT bins */ - rand_gauss_fx( ptr_i, seed, exp_out ); - ( *ptr_i ) = L_shl( Mpy_32_32( *ptr_i, mpy2 ), exp2 ); /*Q31 - hFdCngCom->fftBuffer_exp*/ - move32(); - ptr_i += 2; - } - /* Remaining FFT bins are set to zero */ - set32_fx( fftBuffer + shl( hFdCngCom->stopFFTbin, 1 ), 0, sub( hFdCngCom->fftlen, shl( hFdCngCom->stopFFTbin, 1 ) ) ); - /* Nyquist frequency is discarded */ - fftBuffer[1] = 0; - move32(); - - /* Perform STFT synthesis */ - SynthesisSTFT_dirac_fx( fftBuffer, tdBuffer + n_samples_start, hFdCngCom->olapBufferSynth2_fx, hFdCngCom->olapWinSyn_fx, n_samples_out_loop, hFdCngCom ); - scale_sig32( tdBuffer + n_samples_start, n_samples_out_loop, Q9 ); // Q2 -> Q11 - } - - ELSE - { - /* very low level case - update random seeds */ - generate_masking_noise_update_seed_fx( hFdCngCom ); - - set32_fx( fftBuffer, 0, hFdCngCom->fftlen ); - /* Perform STFT synthesis */ - SynthesisSTFT_dirac_fx( fftBuffer, tdBuffer + n_samples_start, hFdCngCom->olapBufferSynth2_fx, hFdCngCom->olapWinSyn_fx, n_samples_out_loop, hFdCngCom ); - } - hFdCngCom->fftBuffer_exp = 31 - 11; - move16(); - n_samples_out = sub( n_samples_out, hFdCngCom->frameSize ); - n_samples_start = add( n_samples_start, hFdCngCom->frameSize ); - } - } - - pop_wmops(); - - return; -} -void generate_masking_noise_dirac_ivas_fx( - HANDLE_FD_CNG_COM hFdCngCom, /* i/o: FD_CNG structure containing all buffers and variables */ - HANDLE_CLDFB_FILTER_BANK h_cldfb, /* i : filterbank state */ - Word32 *tdBuffer_fx, /* i/o: time-domain signal, if NULL no LB-CNA q_input*/ - Word32 *Cldfb_RealBuffer_fx, /* o : CLDFD real buffer q_cldfb*/ - Word32 *Cldfb_ImagBuffer_fx, /* o : CLDFD imaginary buffer q_cldfb*/ - const Word16 slot_index, /* i : CLDFB slot index Q0*/ - const Word16 cna_flag, /* i : CNA flag for LB and HB Q0*/ - const Word16 fd_cng_flag, /* i : FD-CNG flag for HB Q0*/ - Word16 q_input, - Word16 *q_cldfb ) -{ - Word16 i; - Word32 *ptr_level_fx; - Word16 *seed = &( hFdCngCom->seed ); - Word32 scale_fx; - Word16 q_scale, q_shift, q_ptr_level; - - push_wmops( "fd_cng_dirac" ); - - /* Init */ - scale_fx = 0; - move32(); - - /* Resample CLDFB memories if necessary*/ - IF( NE_16( i_mult( h_cldfb->no_channels, h_cldfb->no_col ), hFdCngCom->frameSize ) ) - { - resampleCldfb_ivas_fx( h_cldfb, hFdCngCom->frameSize * FRAMES_PER_SEC ); - } - - set32_fx( Cldfb_RealBuffer_fx, 0, CLDFB_NO_CHANNELS_MAX ); - set32_fx( Cldfb_ImagBuffer_fx, 0, CLDFB_NO_CHANNELS_MAX ); - - /*LB CLDFB - CNA from STFT*/ - IF( cna_flag != 0 ) - { - /* skip noise generating if level is very low, to avoid problems with possibly running into denormals */ - IF( hFdCngCom->likelihood_noisy_speech > 0 ) - { - /* Compute additional CN level */ - FOR( i = 0; i < 15; i++ ) - { - test(); - test(); - if ( ( EQ_16( hFdCngCom->CngBandwidth, scaleTable_cn_dirac[i].bwmode ) ) && - ( GE_32( hFdCngCom->CngBitrate, scaleTable_cn_dirac[i].bitrateFrom ) ) && - ( LT_32( hFdCngCom->CngBitrate, scaleTable_cn_dirac[i].bitrateTo ) ) ) - { - BREAK; - } - } - - scale_fx = L_shr( L_deposit_h( scaleTable_cn_dirac[i].scale_ivas ), Q3 ); /* Q27 */ - scale_fx = Mpy_32_16_1( scale_fx, hFdCngCom->likelihood_noisy_speech ); - } - } - /* LB CLDFB - CNA from STFT: CNA applied only in channel 0*/ - IF( cna_flag && tdBuffer_fx != NULL ) - { - *q_cldfb = q_input; - move16(); - IF( scale_fx != 0 ) - { - /* LF CLDFB*/ - cldfbAnalysis_ts_fx_fixed_q( &( tdBuffer_fx[( hFdCngCom->numCoreBands * slot_index )] ), Cldfb_RealBuffer_fx, Cldfb_ImagBuffer_fx, hFdCngCom->numCoreBands, h_cldfb, q_cldfb ); - } - ELSE - { - /* LB ana CLDFB*/ - cldfbAnalysis_ts_fx_fixed_q( &( tdBuffer_fx[( hFdCngCom->numCoreBands * slot_index )] ), Cldfb_RealBuffer_fx, Cldfb_ImagBuffer_fx, hFdCngCom->numCoreBands, h_cldfb, q_cldfb ); - } - } - - /*HF CLDFB - CNA and/or FD-CNG*/ - if ( fd_cng_flag ) - { - scale_fx = L_add( scale_fx, ONE_IN_Q27 ); // 1 in Q27 - } - IF( scale_fx != 0 ) - { - q_scale = 27; - move16(); - q_shift = norm_l( scale_fx ); - scale_fx = L_shl( scale_fx, q_shift ); /*q_scale+q_shift*/ - q_scale = add( q_scale, q_shift ); - scale_fx = Mpy_32_32( scale_fx, Mpy_32_16_1( L_mult( h_cldfb->scale, h_cldfb->scale ), CLDFB_SCALING ) ); // Q = q_scale + 2 * Q8 - 34 - q_scale = sub( add( q_scale, 2 * Q8 ), 31 ); - ptr_level_fx = hFdCngCom->cngNoiseLevel + sub( hFdCngCom->stopFFTbin, hFdCngCom->startBand ); /*Q31 - hFdCngCom->cngNoiseLevelExp*/ - q_ptr_level = sub( 31, hFdCngCom->cngNoiseLevelExp ); - - FOR( i = hFdCngCom->numCoreBands; i < hFdCngCom->regularStopBand; i++ ) - { - Word32 num; - Word16 exp, q_num; - q_shift = norm_l( scale_fx ); - scale_fx = L_shl( scale_fx, q_shift ); /*q_scale+q_shift*/ - q_scale = add( q_scale, q_shift ); - num = Mpy_32_32( scale_fx, *ptr_level_fx ); /*q_num*/ - q_num = sub( add( q_scale, q_ptr_level ), 31 ); - exp = sub( 31, q_num ); - num = Sqrt32( num, &exp ); /*Q31 - exp*/ - /* Real part in CLDFB band */ - rand_gauss_fx( &Cldfb_RealBuffer_fx[i], seed, *q_cldfb ); - Cldfb_RealBuffer_fx[i] = L_shl( Mpy_32_32( Cldfb_RealBuffer_fx[i], num ), exp ); - move32(); - /* Imaginary part in CLDFB band */ - rand_gauss_fx( &Cldfb_ImagBuffer_fx[i], seed, *q_cldfb ); - Cldfb_ImagBuffer_fx[i] = L_shl( Mpy_32_32( Cldfb_ImagBuffer_fx[i], num ), exp ); - move32(); - - ptr_level_fx++; - } - } - - pop_wmops(); - - return; -} - - -/*------------------------------------------------------------------- - * FdCngDecodeMDCTStereoSID() - * - * Decode FD-Cng parameters for CNG in MDCT-Stereo mode from the bitstream - * - *-------------------------------------------------------------------*/ - -void FdCngDecodeMDCTStereoSID_fx( - CPE_DEC_HANDLE hCPE /* i/o: CPE decoder state structure */ -) -{ - DEC_CORE_HANDLE sts[CPE_CHANNELS]; - HANDLE_FD_CNG_COM hFdCngCom; - Word32 *ms_ptr_fx[CPE_CHANNELS]; - Word32 *lr_ptr_fx[CPE_CHANNELS]; - Word32 logNoiseEst_fx[CPE_CHANNELS][NPART]; - Word32 gain_fx[CPE_CHANNELS]; - Word16 indices[FD_CNG_stages_37bits]; - Word16 N, i, ch, p, stages; - Word16 is_out_ms; - Word32 *invTrfMatrix_fx; - Word32 tmpRAM_fx[FDCNG_VQ_MAX_LEN][FDCNG_VQ_DCT_MAXTRUNC]; - Word16 shift, exp_diff, max_exp_idx; - Word16 exp_arr[NPART]; - Word32 tmp32, tmp32_arr[NPART]; - - invTrfMatrix_fx = (Word32 *) tmpRAM_fx; - create_IDCT_N_Matrix_fx( invTrfMatrix_fx, FDCNG_VQ_MAX_LEN, FDCNG_VQ_DCT_MAXTRUNC, FDCNG_VQ_MAX_LEN * FDCNG_VQ_DCT_MAXTRUNC ); // Q31 - - is_out_ms = 0; - move16(); - if ( hCPE->hCoreCoder[0]->cng_sba_flag ) - { - is_out_ms = 1; - move16(); - } - - N = 0; /* to avoid compilation warning */ - move16(); - - FOR( ch = 0; ch < CPE_CHANNELS; ch++ ) - { - sts[ch] = hCPE->hCoreCoder[ch]; - ms_ptr_fx[ch] = &logNoiseEst_fx[ch][0]; /*Q20*/ - lr_ptr_fx[ch] = &sts[ch]->hFdCngDec->hFdCngCom->sidNoiseEst[0]; /*Q18*/ - } - - /* decode noise shapes and gains */ - FOR( ch = 0; ch < CPE_CHANNELS; ch++ ) - { - sts[ch] = hCPE->hCoreCoder[ch]; - hFdCngCom = ( sts[ch]->hFdCngDec )->hFdCngCom; - N = hFdCngCom->npart; - move16(); - hFdCngCom->sid_frame_counter = add( hFdCngCom->sid_frame_counter, 1 ); /*Q0*/ - move16(); - - IF( ch ) - { - stages = FD_CNG_JOINT_stages_25bits; - move16(); - } - ELSE - { - stages = FD_CNG_stages_37bits; - move16(); - } - - /* read bitstream */ - FOR( i = 0; i < stages; i++ ) - { - indices[i] = get_next_indice_fx( sts[ch], bits_37bits[i] ); /*Q0*/ - move16(); - } - { - gain_fx[ch] = Mpy_32_32( L_shl( L_sub( get_next_indice_fx( sts[ch], 7 ), GAIN_Q_OFFSET_IVAS_FX ), Q20 ), TWO_BY_THREE_Q31 /* 2/3 in Q31 */ ); // Q20 - move32(); - } - - /* MSVQ decoder */ - shift = find_guarded_bits_fx( N ); - msvq_dec_fx( ivas_cdk_37bits_fx, NULL, NULL, stages, N, FD_CNG_maxN_37bits, indices, 1, invTrfMatrix_fx, ms_ptr_fx[ch], NULL, 7 ); // Q20 - shift - - Scale_sig32( ms_ptr_fx[ch], N, shift ); // Q20 - } - - dtx_read_padding_bits_fx( sts[1], mult( sub( IVAS_SID_5k2, 4400 ), ONE_BY_FRAMES_PER_SEC_Q15 ) ); - - IF( sts[0]->hFdCngDec->hFdCngCom->no_side_flag ) - { - set32_fx( ms_ptr_fx[1], 0, NPART ); - } - - IF( EQ_16( is_out_ms, 0 ) ) - { - inverseMS_fx( N, ms_ptr_fx[0], ms_ptr_fx[1], ONE_IN_Q31 ); - } - - FOR( ch = 0; ch < CPE_CHANNELS; ch++ ) - { - max_exp_idx = 0; - move16(); - hFdCngCom = sts[ch]->hFdCngDec->hFdCngCom; - FOR( p = 0; p < N; p++ ) - { - tmp32 = L_add( ms_ptr_fx[ch][p], gain_fx[ch] ); // Q20 - tmp32_arr[p] = BASOP_util_Pow2( Mpy_32_32( tmp32, LOG_10_BASE_2_BY_10_Q31 ), Q11, &exp_arr[p] ); /*Q31 - exp_arr[p]*/ - move32(); - if ( LT_16( exp_arr[max_exp_idx], exp_arr[p] ) ) - { - max_exp_idx = p; /*Q0*/ - move16(); - } - } - - // Bringing in same exponent - FOR( p = 0; p < N; p++ ) - { - lr_ptr_fx[ch][p] = L_shl( tmp32_arr[p], sub( exp_arr[p], exp_arr[max_exp_idx] ) ); /*Q31 - exp_arr[max_exp_idx]*/ - move32(); - } - - hFdCngCom->sidNoiseEstExp = exp_arr[max_exp_idx]; - move16(); - - scalebands( hFdCngCom->sidNoiseEst, hFdCngCom->part, hFdCngCom->npart, hFdCngCom->midband, hFdCngCom->nFFTpart, sub( hFdCngCom->stopBand, hFdCngCom->startBand ), hFdCngCom->cngNoiseLevel, 1 ); - - hFdCngCom->cngNoiseLevelExp = hFdCngCom->sidNoiseEstExp; - move16(); - - lpc_from_spectrum( hFdCngCom, hFdCngCom->startBand, hFdCngCom->stopFFTbin, sts[ch]->preemph_fac ); - } - - test(); - IF( EQ_16( hCPE->nchan_out, 1 ) && LE_32( hCPE->last_element_brate, IVAS_SID_5k2 ) ) - { - /* create proper M noise shape in channel zero after gains have been applied */ - exp_diff = sub( sts[0]->hFdCngDec->hFdCngCom->sidNoiseEstExp, sts[1]->hFdCngDec->hFdCngCom->sidNoiseEstExp ); - move16(); - FOR( p = 0; p < N; p++ ) - { - IF( GT_16( exp_diff, 0 ) ) - { - sts[0]->hFdCngDec->hFdCngCom->sidNoiseEst[p] = L_add( L_shr( sts[0]->hFdCngDec->hFdCngCom->sidNoiseEst[p], 1 ), L_shr( sts[1]->hFdCngDec->hFdCngCom->sidNoiseEst[p], add( exp_diff, 1 ) ) ); /*Q18*/ - move32(); - } - ELSE - { - sts[0]->hFdCngDec->hFdCngCom->sidNoiseEst[p] = L_add( L_shr( sts[0]->hFdCngDec->hFdCngCom->sidNoiseEst[p], sub( 1, exp_diff ) ), L_shr( sts[1]->hFdCngDec->hFdCngCom->sidNoiseEst[p], 1 ) ); /*Q18*/ - move32(); - } - } - IF( LT_16( exp_diff, 0 ) ) - { - sts[0]->hFdCngDec->hFdCngCom->sidNoiseEstExp = add( sts[0]->hFdCngDec->hFdCngCom->sidNoiseEstExp, negate( exp_diff ) ); - move16(); - } - } - - return; -} - - -/*------------------------------------------------------------------- - * FdCngDecodeDiracMDCTStereoSID_fx() - * - * Decode FD-CNG parameters for CNG in 2TC DirAC mode from the bitstream - *-------------------------------------------------------------------*/ - -void FdCngDecodeDiracMDCTStereoSID_fx( - CPE_DEC_HANDLE hCPE /* i/o: CPE decoder state structure */ -) -{ - DEC_CORE_HANDLE sts[CPE_CHANNELS]; - HANDLE_FD_CNG_COM hFdCngCom; - Word32 *ms_ptr_fx[CPE_CHANNELS]; - Word32 *lr_ptr_fx[CPE_CHANNELS]; - Word32 logNoiseEst_fx[CPE_CHANNELS][NPART]; - Word32 gain_fx[CPE_CHANNELS]; - Word16 indices[FD_CNG_stages_37bits]; - Word16 N, i, ch, p; - Word32 *invTrfMatrix_fx; - Word32 tmpRAM_fx[FDCNG_VQ_MAX_LEN][FDCNG_VQ_DCT_MAXTRUNC]; - Word16 shift, exp_diff, max_exp_idx; - Word16 exp_arr[NPART]; - Word32 tmp32, tmp32_arr[NPART]; - - invTrfMatrix_fx = (Word32 *) tmpRAM_fx; /* dynamically filled */ - create_IDCT_N_Matrix_fx( invTrfMatrix_fx, FDCNG_VQ_MAX_LEN, FDCNG_VQ_DCT_MAXTRUNC, FDCNG_VQ_MAX_LEN * FDCNG_VQ_DCT_MAXTRUNC ); // Q31 - - FOR( ch = 0; ch < CPE_CHANNELS; ch++ ) - { - sts[ch] = hCPE->hCoreCoder[ch]; - ms_ptr_fx[ch] = &logNoiseEst_fx[ch][0]; /*Q20*/ - lr_ptr_fx[ch] = &sts[ch]->hFdCngDec->hFdCngCom->sidNoiseEst[0]; /*Q20*/ - ( sts[ch]->hFdCngDec )->hFdCngCom->sid_frame_counter++; /*Q18*/ - } - - /* decode noise shapes and gains */ - hFdCngCom = ( sts[0]->hFdCngDec )->hFdCngCom; - N = hFdCngCom->npart; /*Q0*/ - move16(); - - /* read bitstream */ - FOR( i = 0; i < FD_CNG_stages_37bits; i++ ) - { - indices[i] = get_next_indice_fx( sts[0], bits_37bits[i] ); /*Q0*/ - move16(); - } - gain_fx[0] = Mpy_32_32( L_shl( L_sub( get_next_indice_fx( sts[0], 7 ), GAIN_Q_OFFSET_IVAS_FX ), Q20 ), TWO_BY_THREE_Q31 /* 2/3 in Q31 */ ); // Q20 - move32(); - - gain_fx[1] = gain_fx[0]; /*Q20*/ - move32(); - - /* MSVQ decoder */ - shift = find_guarded_bits_fx( N ); - msvq_dec_fx( ivas_cdk_37bits_fx, NULL, NULL, FD_CNG_stages_37bits, N, FD_CNG_maxN_37bits, indices, 1, invTrfMatrix_fx, ms_ptr_fx[0], NULL, 7 ); // Q20 - shift - - Scale_sig32( ms_ptr_fx[0], N, shift ); // Q20 - - Copy32( ms_ptr_fx[0], ms_ptr_fx[1], N ); /*Q20*/ - - FOR( ch = 0; ch < CPE_CHANNELS; ch++ ) - { - max_exp_idx = 0; - move16(); - hFdCngCom = sts[ch]->hFdCngDec->hFdCngCom; - - FOR( p = 0; p < N; p++ ) - { - tmp32 = L_add( ms_ptr_fx[ch][p], gain_fx[ch] ); // Q20 - tmp32_arr[p] = BASOP_util_Pow2( Mpy_32_32( tmp32, LOG_10_BASE_2_BY_10_Q31 ), Q11, &exp_arr[p] ); /*Q31 - exp_arr[p]*/ - move32(); - if ( LT_16( exp_arr[max_exp_idx], exp_arr[p] ) ) - { - max_exp_idx = p; /*Q0*/ - move16(); - } - } - - // Bringing in same exponent - FOR( p = 0; p < N; p++ ) - { - lr_ptr_fx[ch][p] = L_shl( tmp32_arr[p], sub( exp_arr[p], exp_arr[max_exp_idx] ) ); /*Q20*/ - move32(); - } - - hFdCngCom->sidNoiseEstExp = exp_arr[max_exp_idx]; /*Q0*/ - move16(); - - /* NB last band energy compensation */ - test(); - IF( hFdCngCom->CngBandwidth == NB ) - { - lr_ptr_fx[ch][( N - 1 )] = Mpy_32_32( lr_ptr_fx[ch][( N - 1 )], NB_LAST_BAND_SCALE_Q31 ); /*Q20*/ - move32(); - } - ELSE IF( EQ_16( hFdCngCom->CngBandwidth, SWB ) && LE_32( hFdCngCom->CngBitrate, ACELP_13k20 ) ) - { - lr_ptr_fx[ch][( N - 1 )] = Mpy_32_32( lr_ptr_fx[ch][( N - 1 )], SWB_13k2_LAST_BAND_SCALE_Q31 ); /*Q20*/ - move32(); - } - - scalebands( hFdCngCom->sidNoiseEst, hFdCngCom->part, hFdCngCom->npart, hFdCngCom->midband, hFdCngCom->nFFTpart, sub( hFdCngCom->stopBand, hFdCngCom->startBand ), hFdCngCom->cngNoiseLevel, 1 ); - - hFdCngCom->cngNoiseLevelExp = hFdCngCom->sidNoiseEstExp; - move16(); - - lpc_from_spectrum( hFdCngCom, hFdCngCom->startBand, hFdCngCom->stopFFTbin, sts[ch]->preemph_fac ); - } - sts[0]->hFdCngDec->hFdCngCom->coherence_fx = 0; - move16(); - sts[1]->hFdCngDec->hFdCngCom->coherence_fx = 0; - move16(); - - IF( EQ_16( hCPE->nchan_out, 1 ) ) - { - /* create proper M noise shape in channel zero after gains have been applied */ - exp_diff = sub( sts[0]->hFdCngDec->hFdCngCom->sidNoiseEstExp, sts[1]->hFdCngDec->hFdCngCom->sidNoiseEstExp ); - FOR( p = 0; p < N; p++ ) - { - IF( exp_diff > 0 ) - { - sts[0]->hFdCngDec->hFdCngCom->sidNoiseEst[p] = L_add( L_shr( sts[0]->hFdCngDec->hFdCngCom->sidNoiseEst[p], 1 ), L_shr( sts[1]->hFdCngDec->hFdCngCom->sidNoiseEst[p], add( exp_diff, 1 ) ) ); /*Q18*/ - move32(); - } - ELSE - { - sts[0]->hFdCngDec->hFdCngCom->sidNoiseEst[p] = L_add( L_shr( sts[0]->hFdCngDec->hFdCngCom->sidNoiseEst[p], sub( 1, exp_diff ) ), L_shr( sts[1]->hFdCngDec->hFdCngCom->sidNoiseEst[p], 1 ) ); /*Q18*/ - move32(); - } - } - IF( exp_diff < 0 ) - { - sts[0]->hFdCngDec->hFdCngCom->sidNoiseEstExp = add( sts[0]->hFdCngDec->hFdCngCom->sidNoiseEstExp, negate( exp_diff ) ); - move16(); - } - } - - return; -} diff --git a/lib_dec/fd_cng_dec_fx.c b/lib_dec/fd_cng_dec_fx.c index fa7e602a54da5179a26696905633c5077bfef264..4c42a795997fa4bcc4b1372ce91ec35361e16bb3 100644 --- a/lib_dec/fd_cng_dec_fx.c +++ b/lib_dec/fd_cng_dec_fx.c @@ -20,10 +20,18 @@ #endif -#define CNA_ACT_DN_LARGE_PARTITION 50 /* index of the first larger partition */ -#define ST_PERIODOG_FACT_Q15 29491 /* 0.9 in Q15, short-term filter factor for periodogram */ -#define CNA_ACT_DN_FACT_Q15 22938 /* 0.7 in Q15, downward updating factor for CNA during active frames */ -#define FIRST_CNA_NOISE_UPD_FRAMES 5 /* minimum number of CN initialization frames */ +#define CNA_ACT_DN_LARGE_PARTITION 50 /* index of the first larger partition */ +#define ST_PERIODOG_FACT_Q15 29491 /* 0.9 in Q15, short-term filter factor for periodogram */ +#define CNA_ACT_DN_FACT_Q15 22938 /* 0.7 in Q15, downward updating factor for CNA during active frames */ +#define FIRST_CNA_NOISE_UPD_FRAMES 5 /* minimum number of CN initialization frames */ +#define DELTA_MASKING_NOISE_Q15 0 +#define LOG_10_BASE_2 1783446566 /* Q29 */ +#define GAIN_Q_OFFSET_IVAS_FX 45 +#define LOG_10_BASE_2_BY_10_Q31 713378606 +#define TWO_BY_THREE_Q31 1431655765 +#define ONE_BY_FRAMES_PER_SEC_Q15 656 +#define NB_LAST_BAND_SCALE_Q31 1717986918 +#define SWB_13k2_LAST_BAND_SCALE_Q31 1717986918 /******************************** * External tables * @@ -179,9 +187,7 @@ void initFdCngDec_ivas_fx( st->CNG_mode = -1; move16(); Copy( st->lsp_old_fx, st->lspCNG_fx, M ); /*Q15*/ -#ifdef MSAN_FIX hFdCngDec->hFdCngCom->sid_frame_counter = 0; -#endif return; } @@ -271,30 +277,6 @@ void initFdCngDec_fx( hFdCngDec->smoothed_psd_exp = 0; move16(); -#ifdef IVAS_CODE_CNG - set_f( hFdCngDec->hFdCngCom->sidNoiseEstLp, 0.0f, NPART ); - - set_f( hFdCngDec->smoothed_psd, 0.0f, L_FRAME16k ); - set_f( hFdCngDec->msPeriodog_ST, 0.0f, NPART_SHAPING ); - - hFdCngDec->ms_last_inactive_bwidth = NB; - hFdCngDec->ms_cnt_bw_up = 0; - - hFdCngDec->cna_LR_LT = 0.5f; - hFdCngDec->cna_ILD_LT = 0.0f; - hFdCngDec->first_cna_noise_updated = 0; - hFdCngDec->first_cna_noise_update_cnt = 0; - hFdCngDec->cna_nbands = 6; - mvs2s( cna_init_bands, hFdCngDec->cna_band_limits, MAX_CNA_NBANDS + 1 ); - hFdCngDec->cna_act_fact = 1.0f; - hFdCngDec->cna_rescale_fact = 0.0f; - hFdCngDec->cna_seed = 5687; - set_zero( hFdCngDec->cna_cm, STEREO_DFT_BAND_MAX ); - set_zero( hFdCngDec->cna_g_state, STEREO_DFT_BAND_MAX ); - - st->CNG_mode = -1; - mvr2r( st->lsp_old, st->lspCNG, M ); -#endif return; } /* @@ -1024,12 +1006,6 @@ Word16 ApplyFdCng_fx( hFdCngCom->psize_inv, hFdCngDec->partNoiseShape, &hFdCngDec->partNoiseShape_exp ); -#ifdef IVAS_CODE_CNG - IF( EQ_16( st->element_mode, IVAS_CPE_DFT ) ) - { - Copy( hFdCngDec->hFdCngCom->sidNoiseEst, hFdCngDec->hFdCngCom->sidNoiseEstLp, NPART ); - } -#endif } IF( EQ_16( st->m_frame_type, SID_FRAME ) ) @@ -1046,11 +1022,8 @@ Word16 ApplyFdCng_fx( { if ( EQ_16( st->element_mode, IVAS_CPE_DFT ) ) { -#ifdef IVAS_CODE_CNG - sidNoiseEst = hFdCngCom->sidNoiseEstLp; - move16(); -#endif } + /* Interpolate the CLDFB band levels from the SID (partition) levels */ IF( GT_16( hFdCngCom->regularStopBand, hFdCngCom->numCoreBands ) ) { @@ -1128,24 +1101,7 @@ Word16 ApplyFdCng_fx( move16(); } } -#ifdef IVAS_CODE_CNG - else if ( st->element_mode == IVAS_CPE_DFT ) - { - if ( !( hFdCngCom->msFrCnt_init_counter < hFdCngCom->msFrCnt_init_thresh ) ) - { - sidNoiseEst = hFdCngCom->sidNoiseEstLp; - j = 0; - for ( k = 0; k < hFdCngCom->nFFTpart; k++ ) - { - factor = ( sidNoiseEst[k] + DELTA ) / ( hFdCngDec->partNoiseShape[k] + DELTA ); - for ( ; j <= hFdCngCom->part[k]; j++ ) - { - cngNoiseLevel[j] = hFdCngDec->bandNoiseShape[j] * factor; - } - } - } - } -#endif + IF( EQ_16( st->codec_mode, MODE2 ) ) { /* Generate comfort noise during SID or zero frames */ @@ -1362,13 +1318,10 @@ Word16 ApplyFdCng_ivas_fx( e_shift = sub( s, q_norm ); } } - FOR( ; k < hFdCngCom->npart; k++ ) + FOR( ; j < FFTCLDFBLEN; j++ ) { - FOR( ; j <= hFdCngCom->part[k]; j++ ) - { - cngNoiseLevel[j] = L_shl( cngNoiseLevel[j], sub( s, e_shift ) ); /*Q: s*/ - move32(); - } + cngNoiseLevel[j] = L_shl( cngNoiseLevel[j], sub( s, e_shift ) ); /*Q: s*/ + move32(); } *cngNoiseLevel_exp = add( add( hFdCngDec->bandNoiseShape_exp, s2 ), e_shift ); @@ -1578,7 +1531,15 @@ Word16 ApplyFdCng_ivas_fx( move16(); /* This sets the new CNG levels until a SID update overwrites it */ Copy32( hFdCngDec->bandNoiseShape, cngNoiseLevel, sub( hFdCngCom->stopFFTbin, hFdCngCom->startBand ) ); /* This sets the new CNG levels until a SID update overwrites it */ /*Q31 - hFdCngDec->bandNoiseShape_exp*/ - *cngNoiseLevel_exp = hFdCngDec->bandNoiseShape_exp; + + Word16 shift1 = L_norm_arr( cngNoiseLevel, sub( hFdCngCom->stopFFTbin, hFdCngCom->startBand ) ); + Word16 shift2 = L_norm_arr( cngNoiseLevel + sub( hFdCngCom->stopFFTbin, hFdCngCom->startBand ), sub( FFTCLDFBLEN, sub( hFdCngCom->stopFFTbin, hFdCngCom->startBand ) ) ); + Word16 shift = s_max( sub( hFdCngDec->bandNoiseShape_exp, shift1 ), sub( *cngNoiseLevel_exp, shift2 ) ); + + scale_sig32( cngNoiseLevel, sub( hFdCngCom->stopFFTbin, hFdCngCom->startBand ), sub( sub( hFdCngDec->bandNoiseShape_exp, shift1 ), shift ) ); + scale_sig32( cngNoiseLevel + sub( hFdCngCom->stopFFTbin, hFdCngCom->startBand ), sub( FFTCLDFBLEN, sub( hFdCngCom->stopFFTbin, hFdCngCom->startBand ) ), sub( sub( *cngNoiseLevel_exp, shift2 ), shift ) ); + + *cngNoiseLevel_exp = shift; move16(); /*st->cngTDLevel = (float)sqrt( (sumFLOAT(cngNoiseLevel, hFdCngCom->stopFFTbin - hFdCngCom->startBand) / 2 * hFdCngCom->fftlen) / st->Mode2_L_frame);*/ @@ -1729,14 +1690,13 @@ Word16 ApplyFdCng_ivas_fx( } /* adapt scaling for rest of the buffer */ s = sub( *cngNoiseLevel_exp, add( hFdCngDec->bandNoiseShape_exp, s2 ) ); - FOR( ; k < hFdCngCom->npart; k++ ) + + FOR( ; j < FFTCLDFBLEN; j++ ) { - FOR( ; j <= hFdCngCom->part[k]; j++ ) - { - cngNoiseLevel[j] = L_shl( cngNoiseLevel[j], s ); /*Q31 - hFdCngDec->bandNoiseShape_exp + s*/ - move32(); - } + cngNoiseLevel[j] = L_shl( cngNoiseLevel[j], s ); /*Q31 - hFdCngDec->bandNoiseShape_exp + s*/ + move32(); } + *cngNoiseLevel_exp = add( hFdCngDec->bandNoiseShape_exp, s2 ); move16(); } @@ -1803,19 +1763,15 @@ Word16 ApplyFdCng_ivas_fx( } /* adapt scaling for rest of the buffer */ s = sub( *cngNoiseLevel_exp, add( hFdCngDec->bandNoiseShape_exp, s2 ) ); - FOR( ; k < hFdCngCom->npart; k++ ) + + FOR( ; j < FFTCLDFBLEN; j++ ) { - FOR( ; j <= hFdCngCom->part[k]; j++ ) - { -#ifdef FIX_ISSUE_1218 - /* NOTE: saturation is added here as part of issue 1218 fix. after rescaling the fdcng noise estimation buffers, due to slight precision loss, values may slightly overflow */ - cngNoiseLevel[j] = L_shl_sat( cngNoiseLevel[j], s ); /*Q31 - hFdCngDec->bandNoiseShape_exp + s*/ -#else - cngNoiseLevel[j] = L_shl( cngNoiseLevel[j], s ); /*Q31 - hFdCngDec->bandNoiseShape_exp + s*/ -#endif - move32(); - } + /* NOTE: saturation is added here as part of issue 1218 fix. after rescaling the fdcng noise estimation buffers, due to slight precision loss, values may slightly overflow */ + cngNoiseLevel[j] = L_shl_sat( cngNoiseLevel[j], s ); /*Q31 - hFdCngDec->bandNoiseShape_exp + s*/ + move32(); } + + *cngNoiseLevel_exp = add( hFdCngDec->bandNoiseShape_exp, s2 ); move16(); } @@ -1858,15 +1814,6 @@ void perform_noise_estimation_dec_fx( float *power_spectrum, #endif HANDLE_FD_CNG_DEC hFdCngDec /* i/o: FD_CNG structure containing all buffers and variables */ -#ifdef IVAS_CODE_CNG - , - const int16_t element_mode, /* i : element mode */ - const int16_t bwidth, /* i : audio bandwidth */ - const int16_t L_frame, /* i : frame length at internal Fs */ - const int16_t last_L_frame, /* i : frame length of the last frame at internal Fs */ - const int32_t last_core_brate, /* i : previous frame core bitrate */ - const int16_t VAD /* i : VAD flag in the decoder */ -#endif ) { Word16 i, tmp_r, tmp_i, fac, fftBuffer_exp; @@ -1875,10 +1822,6 @@ void perform_noise_estimation_dec_fx( Word16 *part, *psize_inv, *psize_norm; Word32 tmp, *fftBuffer, *periodog, *ptr_per, *ptr_r, *ptr_i; -#ifdef IVAS_CODE_CNG - PMT( "lots of code related to IVAS needs to be done " ) -#endif - /* pointer initialization */ periodog = hFdCngDec->hFdCngCom->periodog; /*Q31 - hFdCngDec->hFdCngCom->periodog_exp*/ @@ -1911,238 +1854,7 @@ void perform_noise_estimation_dec_fx( AnalysisSTFT( timeDomainInput, Q, fftBuffer, &fftBuffer_exp, hFdCngDec->hFdCngCom ); #endif fftBuffer_exp = add( fftBuffer_exp, WORD16_BITS - 1 ); -#ifdef IVAS_CODE_CNG - if ( element_mode == IVAS_CPE_TD || element_mode == IVAS_CPE_DFT ) - { - /* Calculate periodogram (squared magnitude in each FFT bin) */ - if ( startBand == 0 ) - { - ( *ptr_per ) = fftBuffer[0] * fftBuffer[0]; - ptr_per++; - ptr_r = fftBuffer + 2; - } - else - { - ptr_r = fftBuffer + 2 * startBand; - } - - ptr_i = ptr_r + 1; - - for ( ; ptr_per < periodog + stopFFTbin - startBand; ptr_per++ ) - { - ( *ptr_per ) = ( *ptr_r ) * ( *ptr_r ) + ( *ptr_i ) * ( *ptr_i ); - ptr_r += 2; - ptr_i += 2; - } - - /* Rescale to get energy/sample: it should be 2*(1/N)*(2/N), parseval relation with 1/N,*2 for nrg computed till Nyquist only, 2/N as windowed samples correspond to half a frame*/ - v_multc( periodog, 4.f / (float) ( hFdCngDec->hFdCngCom->fftlen * hFdCngDec->hFdCngCom->fftlen ), periodog, stopFFTbin - startBand ); - - /* Combine bins of power spectrum into partitions */ - i = 0; - for ( p = 0; p < npart; p++ ) - { - - /* calculate mean over all bins in power partition */ - temp = 0; - for ( ; i <= part[p]; i++ ) - { - temp += periodog[i]; - } - msPeriodog[p] = temp * psize_inv[p]; - } - - /* compensate for the loss of variance - don't do when first noise update is not completed yet due to risk of msPeriodog[p] < 0 */ - if ( hFdCngDec->first_cna_noise_updated ) - { - i = 0; - for ( p = 0; p < npart; p++ ) - { - /* calculate variance over all bins in power partition */ - temp = 0; - for ( ; i <= part[p]; i++ ) - { - delta = periodog[i] - msPeriodog[p]; - temp += delta * delta; - } - temp *= psize_inv[p]; - - /* compensate for the loss of variance */ - msPeriodog[p] = (float) ( msPeriodog[p] + sqrt( temp ) * rand_gauss( &ftemp, &hFdCngDec->cna_seed ) ); - - if ( msPeriodog[p] < 1e-5f ) - { - msPeriodog[p] = 1e-5f; - } - } - } - - /* calculate total energy (short-term and long-term) */ - enr_tot = sum_f( msPeriodog, npart ) + EPSILON; - enr_tot0 = sum_f( msNoiseEst, npart ) + EPSILON; - - /* update short-term periodogram on larger partitions */ - for ( p = CNA_ACT_DN_LARGE_PARTITION; p < npart; p++ ) - { - if ( L_frame != last_L_frame || last_core_brate <= SID_2k40 ) - { - /* core Fs has changed or last frame was SID/NO_DATA -> re-initialize short-term periodogram */ - hFdCngDec->msPeriodog_ST[p] = msPeriodog[p]; - } - else - { - hFdCngDec->msPeriodog_ST[p] = (float) ( ST_PERIODOG_FACT * hFdCngDec->msPeriodog_ST[p] + ( 1 - ST_PERIODOG_FACT ) * msPeriodog[p] ); - } - } - - /* core Fs has changed -> partitions have changed -> re-calculate long-term periodogram */ - /* part L_FRAME16k L_FRAME */ - /* ... */ - /* [55] 146 146 */ - /* [56] 174 160 */ - /* [57] 210 174 */ - /* [58] 254 190 */ - /* [59] 306 210 */ - /* [60] 317 230 */ - /* [61] 253 */ - - if ( last_L_frame == L_FRAME16k && L_frame == L_FRAME ) - { - msNoiseEst[61] = msNoiseEst[58]; - msNoiseEst[60] = min( msNoiseEst[58], msNoiseEst[57] ); - msNoiseEst[59] = msNoiseEst[57]; - msNoiseEst[58] = msNoiseEst[56]; - msNoiseEst[57] = msNoiseEst[56]; - msNoiseEst[56] = min( msNoiseEst[56], msNoiseEst[55] ); - } - else if ( last_L_frame == L_FRAME && L_frame == L_FRAME16k ) - { - msNoiseEst[56] = min( msNoiseEst[56], msNoiseEst[57] ); - msNoiseEst[57] = min( msNoiseEst[58], msNoiseEst[59] ); - msNoiseEst[58] = min( msNoiseEst[60], msNoiseEst[61] ); - msNoiseEst[59] = 0.0f; - msNoiseEst[60] = 0.0f; - msNoiseEst[61] = 0.0f; - - hFdCngDec->ms_cnt_bw_up = FIRST_CNA_NOISE_UPD_FRAMES; - } - - /* Smooth with IIR filter */ - if ( !hFdCngDec->first_cna_noise_updated ) - { - if ( !VAD ) - { - /* background noise update with moving average */ - alpha = 1.0f / ( hFdCngDec->first_cna_noise_update_cnt + 1 ); - for ( p = 0; p < npart; p++ ) - { - msNoiseEst[p] = ( 1 - alpha ) * msNoiseEst[p] + alpha * msPeriodog[p]; - } - - /* check, if we reached the required number of first CNA noise update frames */ - if ( hFdCngDec->first_cna_noise_update_cnt < FIRST_CNA_NOISE_UPD_FRAMES - 1 ) - { - hFdCngDec->first_cna_noise_update_cnt++; - } - else - { - hFdCngDec->first_cna_noise_updated = 1; - if ( hFdCngDec->hFdCngCom->msFrCnt_init_counter == 0 ) - { - hFdCngDec->hFdCngCom->msFrCnt_init_counter = 1; - } - } - } - else - { - hFdCngDec->first_cna_noise_update_cnt = 0; - } - } - else - { - hFdCngDec->hFdCngCom->msFrCnt_init_counter = 1; - if ( VAD ) - { - /* no updates during active frames except for significant energy drops */ - enr_ratio = enr_tot / enr_tot0; - if ( enr_ratio < 0.5f ) - { - /* total energy significantly decreases during active frames -> downward update */ - wght = lin_interp( enr_ratio, 0.0f, 0.8f, 0.5f, 0.95f, 1 ); - for ( p = 0; p < npart; p++ ) - { - if ( msPeriodog[p] < msNoiseEst[p] ) - { - msNoiseEst[p] = wght * msNoiseEst[p] + ( 1 - wght ) * msPeriodog[p]; - } - } - } - else - { - /* energy significantly decreases in one of the larger partitions during active frames -> downward update */ - for ( p = CNA_ACT_DN_LARGE_PARTITION; p < npart; p++ ) - { - if ( hFdCngDec->msPeriodog_ST[p] < msNoiseEst[p] ) - { - msNoiseEst[p] = (float) ( CNA_ACT_DN_FACT * msNoiseEst[p] + ( 1 - CNA_ACT_DN_FACT ) * hFdCngDec->msPeriodog_ST[p] ); - } - } - } - } - else - { - - if ( bwidth >= WB && hFdCngDec->ms_last_inactive_bwidth == NB ) - { - /* bandwidth increased -> set counter for fast initilization */ - hFdCngDec->ms_cnt_bw_up = FIRST_CNA_NOISE_UPD_FRAMES; - } - hFdCngDec->ms_last_inactive_bwidth = bwidth; - /* update background noise during inactive frames */ - ptr_per = msNoiseEst; - for ( p = 0; p < npart; p++ ) - { - enr = msPeriodog[p]; - alpha = 0.95f; - /* bandwidth increased -> do fast re-initilization */ - if ( hFdCngDec->ms_cnt_bw_up > 0 && p > 55 ) - { - alpha = 1.0f / ( hFdCngDec->ms_cnt_bw_up + 1 ); - } - else if ( enr < *ptr_per && part[p] == 1 ) - { - /* faster downward update for single-bin partitions */ - alpha = 0.8f; - } - else if ( enr > 2.0f * ( *ptr_per ) ) - { - /* prevent abrupt upward updates */ - enr = 2.0f * ( *ptr_per ); - } - - /* IIR smoothing */ - *ptr_per *= alpha; - *ptr_per += ( 1 - alpha ) * enr; - ptr_per++; - } - - if ( hFdCngDec->ms_cnt_bw_up > 0 ) - { - hFdCngDec->ms_cnt_bw_up--; - } - } - } - - mvr2r( msNoiseEst, hFdCngDec->msPsd, npart ); - - /* Expand partitions into bins of power spectrum */ - scalebands( msNoiseEst, part, nFFTpart, hFdCngDec->midband_shaping, nFFTpart, stopFFTbin - startBand, hFdCngDec->bandNoiseShape, 1 ); - mvr2r( hFdCngDec->bandNoiseShape, &hFdCngDec->smoothed_psd[startBand], stopFFTbin - startBand ); - set_zero( &hFdCngDec->smoothed_psd[stopFFTbin], L_FRAME16k - stopFFTbin ); - } - else -#endif { #ifdef IVAS_CODE_CNG_FIX185_PLC_FADEOUT if ( element_mode == IVAS_CPE_MDCT && power_spectrum != NULL ) @@ -2294,12 +2006,7 @@ void perform_noise_estimation_dec_fx( hFdCngDec->msNewMinFlag, hFdCngDec->msPeriodogBuf, &( hFdCngDec->msPeriodogBufPtr ), - hFdCngDec->hFdCngCom -#ifdef IVAS_CODE_CNG - , - DEC, element_mode -#endif - ); + hFdCngDec->hFdCngCom ); /* Expand MS outputs */ expand_range( hFdCngDec->msLogNoiseEst, hFdCngDec->msNoiseEst, &hFdCngDec->msNoiseEst_exp, npart ); @@ -2339,10 +2046,6 @@ void perform_noise_estimation_dec_ivas_fx( Word16 q_shift; Word32 max_l; Word16 norm_shift; -#ifdef IVAS_CODE_CNG - PMT( "lots of code related to IVAS needs to be done " ) -#endif - /* pointer initialization */ periodog = hFdCngDec->hFdCngCom->periodog; /*Q31 - hFdCngDec->hFdCngCom->periodog_exp*/ @@ -3621,9 +3324,9 @@ void generate_comfort_noise_dec_fx( IF( st->hTcxCfg->last_aldo != 0 ) { - FOR( i = 0; i < sub( hFdCngCom->frameSize, NS2SA( st->sr_core, N_ZERO_MDCT_NS ) ); i++ ) + FOR( i = 0; i < hFdCngCom->frameSize - NS2SA( st->sr_core, N_ZERO_MDCT_NS ); i++ ) { - timeDomainOutput[i] = add( timeDomainOutput[i], shr_r( st->hHQ_core->old_out_LB_fx[i + NS2SA( st->sr_core, N_ZERO_MDCT_NS )], st->hHQ_core->Q_old_wtda_LB ) ); /*st->q_old_outLB_fx*/ + timeDomainOutput[i] = add( timeDomainOutput[i], shr_r( st->hHQ_core->old_out_LB_fx[i + NS2SA_FX2( st->sr_core, N_ZERO_MDCT_NS )], st->hHQ_core->Q_old_wtda_LB ) ); /*st->q_old_outLB_fx*/ move16(); } } @@ -4160,9 +3863,9 @@ void generate_comfort_noise_dec_ivas_fx( IF( st->hTcxCfg->last_aldo != 0 ) { - FOR( i = 0; i < sub( hFdCngCom->frameSize, NS2SA( st->sr_core, N_ZERO_MDCT_NS ) ); i++ ) + FOR( i = 0; i < hFdCngCom->frameSize - NS2SA( st->sr_core, N_ZERO_MDCT_NS ); i++ ) { - timeDomainOutput[i] = add( timeDomainOutput[i], shr_r( st->hHQ_core->old_out_LB_fx[i + NS2SA( st->sr_core, N_ZERO_MDCT_NS )], st->hHQ_core->Q_old_wtda_LB ) ); /*st->q_old_outLB_fx*/ + timeDomainOutput[i] = add( timeDomainOutput[i], shr_r( st->hHQ_core->old_out_LB_fx[i + NS2SA_FX2( st->sr_core, N_ZERO_MDCT_NS )], st->hHQ_core->Q_old_wtda_LB ) ); /*st->q_old_outLB_fx*/ move16(); } } @@ -5025,318 +4728,968 @@ void generate_masking_noise_mdct_ivas_fx( return; } -#ifdef IVAS_CODE_CNG /*------------------------------------------------------------------- - * generate_stereo_masking_noise() + * initFdCngDec() * - * Generate additional comfort noise (kind of noise filling) + * Initialize an instance of type FD_CNG *-------------------------------------------------------------------*/ - -void generate_stereo_masking_noise( - float *syn, /* i/o: time-domain signal */ - Decoder_State *st, /* i/o: decoder state structure */ - STEREO_TD_DEC_DATA_HANDLE hStereoTD, /* i : TD stereo structure */ - const int16_t flag_sec_CNA, /* i : CNA flag for secondary channel */ - const int16_t fadeOut, /* i : only fade out of previous state */ - STEREO_CNG_DEC_HANDLE hStereoCng, /* i : Stereo CNG handle */ - const int16_t nchan_out /* i : number of output channels */ -) +void configureFdCngDec_ivas_fx( + HANDLE_FD_CNG_DEC hFdCngDec, /* i/o: Contains the variables related to the FD-based CNG process */ + const Word16 bwidth, /*Q0*/ + const Word32 total_brate, /*Q0*/ + const Word16 L_frame, /*Q0*/ + const Word16 last_L_frame, /*Q0*/ + const Word16 element_mode /*Q0*/ ) { - HANDLE_FD_CNG_COM hFdCngCom; - float gamma, scale, SP_ratio; - float Np[L_FRAME16k]; - float Ns[L_FRAME16k]; - float N1[L_FRAME16k]; - float N2[L_FRAME16k]; - int16_t i; - - if ( st->idchan == 0 ) - { - hFdCngCom = st->hFdCngDec->hFdCngCom; - mvr2r( hFdCngCom->olapBufferSynth2, Np, hFdCngCom->frameSize / 2 ); - mvr2r( hStereoCng->olapBufferSynth22, Ns, hFdCngCom->frameSize / 2 ); - set_f( &Np[hFdCngCom->frameSize / 2], 0.0f, hFdCngCom->frameSize / 2 ); - set_f( &Ns[hFdCngCom->frameSize / 2], 0.0f, hFdCngCom->frameSize / 2 ); + Word16 j, stopBandFR; + HANDLE_FD_CNG_COM hsCom = hFdCngDec->hFdCngCom; - if ( !fadeOut ) + hsCom->CngBandwidth = bwidth; /*Q0*/ + move16(); + if ( EQ_16( hsCom->CngBandwidth, FB ) ) + { + hsCom->CngBandwidth = SWB; + move16(); + } + test(); + IF( NE_32( total_brate, FRAME_NO_DATA ) && NE_32( total_brate, SID_2k40 ) ) + { + hsCom->CngBitrate = total_brate; /*Q0*/ + move32(); + } + ELSE IF( EQ_32( hsCom->CngBitrate, -1 ) ) + { + /* set minimum active CBR bitrate IF CngBitrate is uninitialized */ + IF( element_mode > EVS_MONO ) { - generate_masking_noise_fx( N1, hFdCngCom, hFdCngCom->frameSize, 0, 1, 0, st->element_mode, hStereoCng, nchan_out ); - /* Generate masking noise for secondary channel */ - if ( flag_sec_CNA ) - { - generate_masking_noise_fx( N2, hFdCngCom, hFdCngCom->frameSize, 0, 1, 1, st->element_mode, hStereoCng, nchan_out ); - gamma = hStereoCng->c_PS_LT * hStereoCng->c_PS_LT; - scale = 1.0f; - if ( gamma < 0.9f ) - { - gamma = gamma / ( 1 - gamma ); - gamma = (float) sqrt( gamma + 1 ) - (float) sqrt( gamma ); - scale = 1.0f / (float) sqrt( 1 + gamma * gamma ); - } - else - { - gamma = 0.0f; - } - - for ( i = 0; i < 2 * hFdCngCom->frameSize / 4; i++ ) - { - Np[i] += scale * ( N1[i] + gamma * N2[i] ); - Ns[i] += scale * sign( hStereoCng->c_PS_LT ) * ( N1[i] - gamma * N2[i] ); - } - for ( ; i < hFdCngCom->frameSize; i++ ) - { - Np[i] = scale * ( N1[i] + gamma * N2[i] ); - Ns[i] = scale * sign( hStereoCng->c_PS_LT ) * ( N1[i] - gamma * N2[i] ); - } - scale *= (float) ( hFdCngCom->fftlen / 2 ); - for ( i = 0; i < hFdCngCom->frameSize / 2; i++ ) - { - hFdCngCom->olapBufferSynth2[i] = scale * ( hFdCngCom->olapBufferSynth2[i + 5 * hFdCngCom->frameSize / 4] + gamma * hStereoCng->olapBufferSynth22[i + 5 * hFdCngCom->frameSize / 4] ); - hStereoCng->olapBufferSynth22[i] = sign( hStereoCng->c_PS_LT ) * scale * ( hFdCngCom->olapBufferSynth2[i + 5 * hFdCngCom->frameSize / 4] - gamma * hStereoCng->olapBufferSynth22[i + 5 * hFdCngCom->frameSize / 4] ); + hsCom->CngBitrate = IVAS_13k2; + move32(); + } + ELSE + { + hsCom->CngBitrate = ACELP_7k20; + move32(); + } + } + + /* FD-CNG config for MDCT-Stereo is always the same (since for > 48 kbps only) */ + /* This may need adjustment in the future IF 2TC DTX for some mode uses MDCT-Stereo DTX for lower bitrates too */ + if ( EQ_16( element_mode, IVAS_CPE_MDCT ) ) + { + hsCom->CngBitrate = IVAS_48k; + move32(); + } + hsCom->numSlots = 16; + move32(); + + /* NB configuration */ + IF( EQ_16( bwidth, NB ) ) + { + hsCom->FdCngSetup = FdCngSetup_nb; + hsCom->numCoreBands = 16; + move16(); + hsCom->regularStopBand = 16; + move16(); + } + + /* WB configuration */ + ELSE IF( EQ_16( bwidth, WB ) ) + { + /* FFT 6.4kHz, no CLDFB */ + test(); + test(); + IF( LE_32( hsCom->CngBitrate, ACELP_8k00 ) && EQ_16( L_frame, L_FRAME ) ) + { + hsCom->FdCngSetup = FdCngSetup_wb1; + hsCom->numCoreBands = 16; + move16(); + hsCom->regularStopBand = 16; + move16(); + } + /* FFT 6.4kHz, CLDFB 8.0kHz */ + ELSE IF( LE_32( hsCom->CngBitrate, ACELP_13k20 ) || EQ_16( L_frame, L_FRAME ) ) + { + hsCom->FdCngSetup = FdCngSetup_wb2; + hsCom->numCoreBands = 16; + move16(); + hsCom->regularStopBand = 20; + move16(); + IF( EQ_16( L_frame, L_FRAME16k ) ) + { + hsCom->FdCngSetup = FdCngSetup_wb2; + hsCom->numCoreBands = 20; + move16(); + hsCom->regularStopBand = 20; + move16(); + hsCom->FdCngSetup.fftlen = 640; + move16(); + hsCom->FdCngSetup.stopFFTbin = 256; + move16(); + } + } + /* FFT 8.0kHz, no CLDFB */ + ELSE + { + hsCom->FdCngSetup = FdCngSetup_wb3; + hsCom->numCoreBands = 20; + move16(); + hsCom->regularStopBand = 20; + move16(); + } + } + + /* SWB/FB configuration */ + ELSE + { + /* FFT 6.4kHz, CLDFB 14kHz */ + IF( EQ_16( L_frame, L_FRAME ) ) + { + hsCom->FdCngSetup = FdCngSetup_swb1; + hsCom->numCoreBands = 16; + move16(); + hsCom->regularStopBand = 35; + move16(); + } + /* FFT 8.0kHz, CLDFB 16kHz */ + ELSE + { + hsCom->FdCngSetup = FdCngSetup_swb2; + hsCom->numCoreBands = 20; + move16(); + hsCom->regularStopBand = 40; + move16(); + test(); + if ( EQ_16( last_L_frame, L_FRAME ) && EQ_16( element_mode, IVAS_CPE_DFT ) ) + { + hsCom->regularStopBand = 35; + move16(); + } + } + } + + + hsCom->fftlen = hsCom->FdCngSetup.fftlen; + move16(); + hsCom->stopFFTbin = hsCom->FdCngSetup.stopFFTbin; + move16(); + + /* Configure the SID quantizer and the Comfort Noise Generator */ + + hsCom->startBand = 2; + move16(); + hsCom->stopBand = add( hsCom->FdCngSetup.sidPartitions[( hsCom->FdCngSetup.numPartitions - 1 )], 1 ); /*Q0*/ + initPartitions( hsCom->FdCngSetup.sidPartitions, hsCom->FdCngSetup.numPartitions, hsCom->startBand, hsCom->stopBand, hsCom->part, &hsCom->npart, hsCom->midband, hsCom->psize, hsCom->psize_norm, &hsCom->psize_norm_exp, hsCom->psize_inv, 0 ); + + IF( EQ_16( hsCom->stopFFTbin, 160 ) ) + { + hsCom->nFFTpart = 17; + move16(); + } + ELSE IF( EQ_16( hsCom->stopFFTbin, 256 ) ) + { + hsCom->nFFTpart = 20; + move16(); + } + ELSE + { + hsCom->nFFTpart = 21; + move16(); + } + hsCom->nCLDFBpart = sub( hsCom->npart, hsCom->nFFTpart ); /*Q0*/ + move16(); + FOR( j = 0; j < hsCom->nCLDFBpart; j++ ) + { + hsCom->CLDFBpart[j] = sub( hsCom->part[( j + hsCom->nFFTpart )], sub( hsCom->stopFFTbin, hsCom->startBand ) ); /*Q0*/ + move16(); + hsCom->CLDFBpsize_inv[j] = hsCom->psize_inv[( j + hsCom->nFFTpart )]; + move16(); + } + + stopBandFR = 40; //(Word16)floor(1000.f /*Hz*/ / 25.f /*Hz/Bin*/); + move16(); + if ( GT_16( stopBandFR, hsCom->stopFFTbin ) ) + { + stopBandFR = hsCom->stopFFTbin; /*Q0*/ + move16(); + } + + initPartitions( hsCom->FdCngSetup.shapingPartitions, hsCom->FdCngSetup.numShapingPartitions, hsCom->startBand, hsCom->stopFFTbin, hFdCngDec->part_shaping, &hFdCngDec->npart_shaping, hFdCngDec->midband_shaping, hFdCngDec->psize_shaping, hFdCngDec->psize_shaping_norm, &hFdCngDec->psize_shaping_norm_exp, hFdCngDec->psize_inv_shaping, stopBandFR ); + + hFdCngDec->nFFTpart_shaping = hFdCngDec->npart_shaping; /*Q0*/ + move16(); + + BASOP_getTables( &hsCom->olapWinAna, NULL, NULL, shr( hsCom->fftlen, 1 ) ); + BASOP_getTables( &hsCom->olapWinSyn, NULL, NULL, shr( hsCom->fftlen, 2 ) ); + + SWITCH( hsCom->fftlen ) + { + case 512: + hsCom->olapWinAna_fx = olapWinAna512_fx; /*Q30*/ + hsCom->fftSineTab_fx = NULL; + hsCom->olapWinSyn_fx = olapWinSyn256_fx; /*Q15*/ + hsCom->fftlenShift = 8; + move16(); + hsCom->fftlenFac = 32767 /*1.0 Q15*/; + move16(); + BREAK; + case 640: + hsCom->olapWinAna_fx = olapWinAna640_fx; /*Q30*/ + hsCom->fftSineTab_fx = fftSineTab640_fx; /*Q15*/ + hsCom->olapWinSyn_fx = olapWinSyn320_fx; /*Q15*/ + hsCom->fftlenShift = 9; + move16(); + hsCom->fftlenFac = 20480 /*0.625 Q15*/; + move16(); + BREAK; + default: + assert( !"Unsupported FFT length for FD-based CNG" ); + BREAK; + } + BASOP_getTables( &hsCom->olapWinAna, NULL, NULL, shr( hsCom->fftlen, 1 ) ); + BASOP_getTables( &hsCom->olapWinSyn, NULL, NULL, shr( hsCom->fftlen, 2 ) ); + hsCom->frameSize = shr( hsCom->fftlen, 1 ); + + return; +} + +/*------------------------------------------------------------------- + * FdCng_decodeSID_ivas_fx() + * + * Decode the FD-CNG bitstream + *-------------------------------------------------------------------*/ + +void FdCng_decodeSID_ivas_fx( + Decoder_State *st /* i/o: decoder state structure */ +) +{ + Word16 N; + Word32 *sidNoiseEst; + Word32 gain; + Word16 i, index; + Word32 v[32]; + Word16 indices[32]; + HANDLE_FD_CNG_COM hFdCngCom; + Word32 *invTrfMatrix_fx; + Word32 tmpRAM_fx[FDCNG_VQ_MAX_LEN][FDCNG_VQ_DCT_MAXTRUNC]; + Word16 tmp16; + + IF( st->element_mode == EVS_MONO ) + { + tmp16 = GAIN_Q_OFFSET_EVS_FX_Q0; + move16(); + } + ELSE + { + tmp16 = GAIN_Q_OFFSET_IVAS_FX_Q0; + move16(); + } + + const Word16 gain_q_offset = tmp16; /* Q0 */ + move16(); + + invTrfMatrix_fx = (Word32 *) tmpRAM_fx; /*Q31*/ + + hFdCngCom = ( st->hFdCngDec )->hFdCngCom; + + sidNoiseEst = hFdCngCom->sidNoiseEst; /*Q16*/ + + N = hFdCngCom->npart; /*Q0*/ + move16(); + gain = 0; + move32(); + hFdCngCom->sid_frame_counter = add( hFdCngCom->sid_frame_counter, 1 ); + move16(); + + /* Read bitstream */ + FOR( i = 0; i < FD_CNG_stages_37bits; i++ ) + { + indices[i] = get_next_indice_fx( st, bits_37bits[i] ); /*Q0*/ + move16(); + } + + index = get_next_indice_fx( st, 7 ); + + /* MSVQ decoder */ + + IF( st->element_mode != EVS_MONO ) + { + create_IDCT_N_Matrix_fx( invTrfMatrix_fx, FDCNG_VQ_MAX_LEN, FDCNG_VQ_DCT_MAXTRUNC, FDCNG_VQ_MAX_LEN * FDCNG_VQ_DCT_MAXTRUNC ); + msvq_dec_fx( ivas_cdk_37bits_fx, NULL, NULL, FD_CNG_stages_37bits, N, FD_CNG_maxN_37bits, indices, 1, invTrfMatrix_fx, v, NULL, 7 ); + } + ELSE + { /* Legacy EVS_MONO MSVQ tables */ + msvq_dec_fx( cdk_37bits, NULL, NULL, FD_CNG_stages_37bits, N, FD_CNG_maxN_37bits, indices, 0, NULL, v, NULL, 7 ); + } + + + /* Decode gain */ + // gain = ((float)index - gain_q_offset) / 1.5f; + gain = L_mult0( sub( index, gain_q_offset ), 21845 ); // Q15 + + /* Apply gain and undo log */ + Word16 res_exp[NPART]; + Word16 max_res_exp = 0; + move16(); + FOR( i = 0; i < N; i++ ) + { + sidNoiseEst[i] = BASOP_util_Pow2( Mpy_32_32( L_add( v[i], gain ), LOG_10_BASE_2_BY_10_Q31 ), Q16, &res_exp[i] ); /*Q31 - res_exp[i]*/ + move32(); + if ( LT_16( max_res_exp, res_exp[i] ) ) + { + max_res_exp = res_exp[i]; + move16(); + } + } + + FOR( i = 0; i < N; i++ ) + { + sidNoiseEst[i] = L_shr( sidNoiseEst[i], sub( max_res_exp, res_exp[i] ) ); /*Q31 - max_res_exp*/ + move32(); + } + + hFdCngCom->sidNoiseEstExp = max_res_exp; + move16(); + + /* NB last band energy compensation */ + + IF( hFdCngCom->CngBandwidth == NB ) + { + sidNoiseEst[( N - 1 )] = Mpy_32_16_1( sidNoiseEst[( N - 1 )], NB_LAST_BAND_SCALE ); /*Q31 - max_res_exp*/ + move32(); + } + + test(); + IF( EQ_16( hFdCngCom->CngBandwidth, SWB ) && LE_32( hFdCngCom->CngBitrate, ACELP_13k20 ) ) + { + sidNoiseEst[( N - 1 )] = Mpy_32_16_1( sidNoiseEst[( N - 1 )], SWB_13k2_LAST_BAND_SCALE ); /*Q31 - max_res_exp*/ + move32(); + } + + scalebands( sidNoiseEst, hFdCngCom->part, hFdCngCom->npart, hFdCngCom->midband, hFdCngCom->nFFTpart, sub( hFdCngCom->stopBand, hFdCngCom->startBand ), hFdCngCom->cngNoiseLevel, 1 ); + Word16 shift1 = L_norm_arr( hFdCngCom->cngNoiseLevel, sub( hFdCngCom->stopBand, hFdCngCom->startBand ) ); + Word16 shift2 = L_norm_arr( hFdCngCom->cngNoiseLevel + sub( hFdCngCom->stopBand, hFdCngCom->startBand ), sub( FFTCLDFBLEN, sub( hFdCngCom->stopBand, hFdCngCom->startBand ) ) ); + Word16 shift = s_max( sub( hFdCngCom->sidNoiseEstExp, shift1 ), sub( hFdCngCom->cngNoiseLevelExp, shift2 ) ); + + scale_sig32( hFdCngCom->cngNoiseLevel, sub( hFdCngCom->stopBand, hFdCngCom->startBand ), sub( sub( hFdCngCom->sidNoiseEstExp, shift1 ), shift ) ); + scale_sig32( hFdCngCom->cngNoiseLevel + sub( hFdCngCom->stopBand, hFdCngCom->startBand ), sub( FFTCLDFBLEN, sub( hFdCngCom->stopBand, hFdCngCom->startBand ) ), sub( sub( hFdCngCom->cngNoiseLevelExp, shift2 ), shift ) ); + + hFdCngCom->cngNoiseLevelExp = shift; + move16(); + + lpc_from_spectrum( hFdCngCom, hFdCngCom->startBand, hFdCngCom->stopFFTbin, st->preemph_fac ); + + return; +} + +/*------------------------------------------------------------------- + * generate_masking_noise_ivas_fx() + * + * Generate additional comfort noise (kind of noise filling) + *-------------------------------------------------------------------*/ + +void generate_masking_noise_ivas_fx( + Word32 *timeDomainBuffer, /* i/o: time-domain signal Q31 - *exp_out*/ + Word16 *exp_out, /* o : time-domain signal exp */ + HANDLE_FD_CNG_COM hFdCngCom, /* i/o: FD_CNG structure containing all buffers and variables */ + const Word16 length, /* i : frame size Q0*/ + const Word16 core, /* i : core Q0*/ + const Word16 return_noise, /* i : noise is returned instead of added Q0*/ + const Word16 secondary, /* i : flag to indicate secondary noise generation Q0*/ + const Word16 element_mode, /* i : element mode Q0*/ + STEREO_CNG_DEC_HANDLE hStereoCng, /* i : stereo CNG handle */ + const Word16 nchan_out /* i : number of output channels Q0*/ +) +{ + Word32 *cngNoiseLevel_fx = hFdCngCom->cngNoiseLevel; + Word32 *ptr_level_fx = cngNoiseLevel_fx; + Word32 *fftBuffer_fx = hFdCngCom->fftBuffer; + Word16 i; + Word32 maskingNoise_fx[L_FRAME16k]; + Word32 *ptr_r_fx; + Word32 *ptr_i_fx; + Word16 startBand; + Word16 *seed = &( hFdCngCom->seed ); + Word32 scale_fx; + Word16 shift; + scale_fx = 0x40000000; // 1.0 in Q30 + move32(); + startBand = hFdCngCom->startBand; /*Q0*/ + move16(); + shift = getScaleFactor32( hFdCngCom->cngNoiseLevel, FFTCLDFBLEN ); + if ( LT_16( sub( hFdCngCom->cngNoiseLevelExp, shift ), 4 ) ) + { + shift = sub( hFdCngCom->cngNoiseLevelExp, 4 ); /*Q0*/ + } + scale_sig32( hFdCngCom->cngNoiseLevel, FFTCLDFBLEN, shift ); /*hFdCngCom->cngNoiseLevelExp*/ + hFdCngCom->cngNoiseLevelExp = sub( hFdCngCom->cngNoiseLevelExp, shift ); + move16(); + + /* skip noise generating if level is very low, to avoid problems with possibly running into denormals */ + *exp_out = Q15; + move16(); + IF( GT_16( hFdCngCom->likelihood_noisy_speech, DELTA_MASKING_NOISE_Q15 ) ) + { + IF( NE_16( core, AMR_WB_CORE ) ) + { + /* Compute additional CN level */ + FOR( i = 0; i < SIZE_SCALE_TABLE_CN; i++ ) + { + test(); + test(); + if ( EQ_16( hFdCngCom->CngBandwidth, scaleTable_cn_only[i].bwmode ) && + GE_32( hFdCngCom->CngBitrate, scaleTable_cn_only[i].bitrateFrom ) && + LT_32( hFdCngCom->CngBitrate, scaleTable_cn_only[i].bitrateTo ) ) + { + BREAK; + } + } + + scale_fx = L_deposit_h( scaleTable_cn_only[i].scale_ivas ); /* Q30 */ + } + ELSE + { + /* Compute additional CN level */ + FOR( i = 0; i < SIZE_SCALE_TABLE_CN_AMRWB; i++ ) + { + if ( GE_32( hFdCngCom->CngBitrate, scaleTable_cn_only_amrwbio[i][0] ) ) + { + BREAK; + } + } + + IF( LT_16( i, SIZE_SCALE_TABLE_CN_AMRWB ) ) + { + scale_fx = L_deposit_h( scaleTable_cn_only_amrwbio[i][1] ); /* Q30 */ + } + ELSE + { + scale_fx = 0; + move32(); + } + } + + /* Exclude clean speech */ + scale_fx = Mpy_32_16_1( scale_fx, hFdCngCom->likelihood_noisy_speech ); // Q30 + + /* Generate Gaussian random noise in real and imaginary parts of the FFT bins + Amplitudes are adjusted to the estimated noise level cngNoiseLevel_flt in each bin */ + IF( startBand == 0 ) + { + rand_gauss_fx( &fftBuffer_fx[0], seed, *exp_out ); // Q15 + ptr_r_fx = fftBuffer_fx + 2; /*Q31 - hFdCngCom->fftBuffer_exp*/ + Word16 exp1; + exp1 = add( hFdCngCom->cngNoiseLevelExp, 1 ); + Word32 mpy1; + mpy1 = Sqrt32( Mpy_32_32( scale_fx, *ptr_level_fx ), &exp1 ); /*Q31 - exp1*/ + mpy1 = L_shl( mpy1, exp1 ); // Q31 + fftBuffer_fx[0] = Mpy_32_32( fftBuffer_fx[0], mpy1 ); /* DC component in FFT */ // Q = Q15 + ptr_level_fx++; + } + ELSE + { + fftBuffer_fx[0] = 0; + move32(); + set32_fx( fftBuffer_fx + 2, 0, shl( sub( startBand, 1 ), 1 ) ); + ptr_r_fx = fftBuffer_fx + shl( startBand, 1 ); /*Q31 - hFdCngCom->fftBuffer_exp*/ + } + ptr_i_fx = ptr_r_fx + 1; + FOR( ; ptr_level_fx < cngNoiseLevel_fx + hFdCngCom->stopFFTbin - startBand; ptr_level_fx++ ) + { + /* Real part in FFT bins */ + rand_gauss_fx( ptr_r_fx, seed, *exp_out ); // Q15 + Word16 exp2; + exp2 = add( hFdCngCom->cngNoiseLevelExp, 1 ); + Word32 mpy2; + mpy2 = Sqrt32( L_shr( Mpy_32_32( scale_fx, *ptr_level_fx ), 1 ), &exp2 ); /*Q31 - exp2*/ + ( *ptr_r_fx ) = L_shl( Mpy_32_32( *ptr_r_fx, mpy2 ), exp2 ); // Q = Q15 + move32(); + ptr_r_fx += 2; + + /* Imaginary part in FFT bins */ + rand_gauss_fx( ptr_i_fx, seed, *exp_out ); // Q15 + ( *ptr_i_fx ) = L_shl( Mpy_32_32( *ptr_i_fx, mpy2 ), exp2 ); // Q = Q15 + ptr_i_fx += 2; + } + + /* Remaining FFT bins are set to zero */ + set32_fx( fftBuffer_fx + shl( hFdCngCom->stopFFTbin, 1 ), 0, sub( hFdCngCom->fftlen, shl( hFdCngCom->stopFFTbin, 1 ) ) ); + /* Nyquist frequency is discarded */ + fftBuffer_fx[1] = 0; + move32(); + } + ELSE + { + /* very low level case - update random seeds and reset FFT buffer; don't fully skip SynthesisSTFT_flt(), because of the buffer updates done there... */ + generate_masking_noise_update_seed_fx( hFdCngCom ); + + set32_fx( fftBuffer_fx, 0, hFdCngCom->fftlen ); + } + + /* Perform STFT synthesis */ + IF( secondary ) + { + SynthesisSTFT_fx( fftBuffer_fx, maskingNoise_fx, hStereoCng->olapBufferSynth22_32fx, hFdCngCom->olapWinSyn_fx, 0, hFdCngCom, element_mode, nchan_out ); + } + ELSE + { + SynthesisSTFT_fx( fftBuffer_fx, maskingNoise_fx, hFdCngCom->olapBufferSynth2_fx, hFdCngCom->olapWinSyn_fx, 0, hFdCngCom, element_mode, nchan_out ); + } + *exp_out = sub( *exp_out, Q9 ); + move16(); + + /* Add some comfort noise on top of decoded signal */ + IF( return_noise ) + { + Copy32( maskingNoise_fx, timeDomainBuffer, s_min( hFdCngCom->frameSize, length ) ); /*Q31 - *exp_out*/ + } + ELSE + { + v_add_fixed( maskingNoise_fx, timeDomainBuffer, timeDomainBuffer, s_min( hFdCngCom->frameSize, length ), 0 ); /*Q31 - *exp_out*/ + } + + return; +} + +/*------------------------------------------------------------------- + * generate_stereo_masking_noise_fx() + * + * Generate additional comfort noise (kind of noise filling) + *-------------------------------------------------------------------*/ + +void generate_stereo_masking_noise_fx( + Word16 *syn, /* i/o: time-domain signal Q_syn*/ + Word16 Q_syn, + Decoder_State *st, /* i/o: decoder state structure */ + STEREO_TD_DEC_DATA_HANDLE hStereoTD, /* i : TD stereo structure */ + const Word16 flag_sec_CNA, /* i : CNA flag for secondary channel Q0*/ + const Word16 fadeOut, /* i : only fade out of previous state Q0*/ + STEREO_CNG_DEC_HANDLE hStereoCng, /* i : Stereo CNG handle */ + const Word16 nchan_out /* i : number of output channels Q0*/ +) +{ + HANDLE_FD_CNG_COM hFdCngCom; + Word32 gamma_fx, scale_fx /*, SP_ratio_fx needs to be integrated*/; + Word32 Np_fx[L_FRAME16k]; + Word32 Ns_fx[L_FRAME16k]; + Word32 N1_fx[L_FRAME16k]; + Word32 N2_fx[L_FRAME16k]; + Word16 N1_fx_exp, N2_fx_exp; + Word16 i; + + IF( st->idchan == 0 ) + { + hFdCngCom = st->hFdCngDec->hFdCngCom; + Copy_Scale_sig_16_32_no_sat( hStereoCng->olapBufferSynth22_fx, Ns_fx, shr( hFdCngCom->frameSize, 1 ), sub( Q6, st->Q_syn ) ); /*Q6*/ + Copy32( hFdCngCom->olapBufferSynth2_fx, Np_fx, shr( hFdCngCom->frameSize, 1 ) ); /*st->Q_syn*/ + + set32_fx( &Np_fx[( hFdCngCom->frameSize / 2 )], 0, shr( hFdCngCom->frameSize, 1 ) ); + set32_fx( &Ns_fx[( hFdCngCom->frameSize / 2 )], 0, shr( hFdCngCom->frameSize, 1 ) ); + + IF( !fadeOut ) + { + Copy_Scale_sig_16_32_no_sat( hStereoCng->olapBufferSynth22_fx, hStereoCng->olapBufferSynth22_32fx, hFdCngCom->fftlen, sub( Q15, st->Q_syn ) ); /*Q15*/ + generate_masking_noise_ivas_fx( N1_fx, &N1_fx_exp, hFdCngCom, hFdCngCom->frameSize, 0, 1, 0, st->element_mode, hStereoCng, nchan_out ); // N1_fx Q6 + /* Generate masking noise for secondary channel */ + IF( flag_sec_CNA ) + { + generate_masking_noise_ivas_fx( N2_fx, &N2_fx_exp, hFdCngCom, hFdCngCom->frameSize, 0, 1, 1, st->element_mode, hStereoCng, nchan_out ); // N2_fx Q6 + gamma_fx = L_shr( Mpy_32_32( hStereoCng->c_PS_LT_fx, hStereoCng->c_PS_LT_fx ), 1 ); /*Q30*/ + scale_fx = ONE_IN_Q30; + move32(); + IF( LT_32( gamma_fx, 966367642 /* 0.9 in Q30 */ ) ) + { + Word16 exp_gamma; + exp_gamma = 0; + move16(); + Word16 divisor1; + divisor1 = Inv16( (Word16) L_shr( L_sub( ONE_IN_Q30, gamma_fx ), Q15 ), &exp_gamma ); // Q15-exp_gamma + gamma_fx = L_shl( Mpy_32_16_1( gamma_fx, divisor1 ), exp_gamma ); // Q30 + Word16 exp_gamma1, exp_gamma2, exp_gamma3; + exp_gamma1 = Q1; + exp_gamma2 = Q1; + exp_gamma3 = Q1; + move16(); + move16(); + move16(); + gamma_fx = Sqrt32( L_add( gamma_fx, ONE_IN_Q30 ), &exp_gamma1 ); /*Q31 - exp_gamma1*/ + Word32 temp; + temp = Sqrt32( gamma_fx, &exp_gamma2 ); // Q31-exp_gamma1 + gamma_fx = L_sub( gamma_fx, L_shl( temp, sub( exp_gamma2, exp_gamma1 ) ) ); // Q31-exp_gamma1 + gamma_fx = L_shl( gamma_fx, sub( exp_gamma1, Q1 ) ); // Q30 + Word32 divisor2; + divisor2 = Sqrt32( L_add( ONE_IN_Q30, L_shl( Mpy_32_32( gamma_fx, gamma_fx ), Q1 ) ), &exp_gamma3 ); // Q31 - exp_gamma3 + scale_fx = L_shl( divide3232( ONE_IN_Q30, divisor2 ), add( Q15, exp_gamma3 ) ); // Q30 + } + ELSE + { + gamma_fx = 0; + move16(); + } + + FOR( i = 0; i < 2 * hFdCngCom->frameSize / 4; i++ ) + { + Np_fx[i] = L_add( Np_fx[i], + Mpy_32_32( scale_fx, L_shl( L_add( N1_fx[i], Mpy_32_32( gamma_fx, L_shl( N2_fx[i], Q1 ) ) ), Q1 ) ) ); // Q6 + move32(); + Word32 add2; + add2 = Mpy_32_32( scale_fx, L_shl( L_sub( N1_fx[i], Mpy_32_32( gamma_fx, L_shl( N2_fx[i], Q1 ) ) ), Q1 ) ); // Q6 + if ( hStereoCng->c_PS_LT_fx < 0 ) + { + add2 = L_negate( add2 ); /*Q6*/ + } + Ns_fx[i] = L_add( Ns_fx[i], add2 ); /*Q6*/ + move32(); + } + FOR( ; i < hFdCngCom->frameSize; i++ ) + { + Np_fx[i] = Mpy_32_32( scale_fx, L_shl( L_add( N1_fx[i], Mpy_32_32( gamma_fx, L_shl( N2_fx[i], Q1 ) ) ), Q1 ) ); // Q6 + move32(); + Ns_fx[i] = Mpy_32_32( scale_fx, L_shl( L_sub( N1_fx[i], Mpy_32_32( gamma_fx, L_shl( N2_fx[i], Q1 ) ) ), Q1 ) ); // Q6 + move32(); + IF( hStereoCng->c_PS_LT_fx < 0 ) + { + Ns_fx[i] = L_negate( Ns_fx[i] ); + move32(); + } + } + /* Below code to be converted */ + Word32 scale_fx_tmp = Mpy_32_32( scale_fx, L_shl( shr( hFdCngCom->fftlen, 1 ), Q22 ) ); // Q21 + FOR( i = 0; i < shr( hFdCngCom->frameSize, 1 ); i++ ) + { + hFdCngCom->olapBufferSynth2[i] = (Word16) L_shr( Mpy_32_32( scale_fx_tmp, + L_add( L_shr( hFdCngCom->olapBufferSynth2[( i + ( 5 * ( hFdCngCom->frameSize / 4 ) ) )], Q15 ), + Mpy_32_16_1( gamma_fx, hStereoCng->olapBufferSynth22_fx[( i + ( 5 * ( hFdCngCom->frameSize / 4 ) ) )] ) ) ), + Q14 ); // Q_olap + move16(); + hStereoCng->olapBufferSynth22_fx[i] = (Word16) L_shr( Mpy_32_32( scale_fx_tmp, + L_sub( L_shr( hFdCngCom->olapBufferSynth2[( i + ( 5 * ( hFdCngCom->frameSize / 4 ) ) )], Q15 ), + Mpy_32_16_1( gamma_fx, hStereoCng->olapBufferSynth22_fx[( i + ( 5 * ( hFdCngCom->frameSize / 4 ) ) )] ) ) ), + Q14 ); // Q_olap + move16(); } } - else + ELSE { - for ( i = 0; i < hFdCngCom->frameSize / 2; i++ ) + FOR( i = 0; i < shr( hFdCngCom->frameSize, 1 ); i++ ) { - Np[i] += N1[i]; + Np_fx[i] = L_add( Np_fx[i], N1_fx[i] ); // Q6 + move32(); } - mvr2r( &N1[hFdCngCom->frameSize / 2], &Np[hFdCngCom->frameSize / 2], hFdCngCom->frameSize / 2 ); - scale = (float) ( hFdCngCom->fftlen / 2 ); - for ( i = 0; i < hFdCngCom->frameSize; i++ ) + Copy32( &N1_fx[( hFdCngCom->frameSize / 2 )], &Np_fx[( hFdCngCom->frameSize / 2 )], shr( hFdCngCom->frameSize, 1 ) ); /*Q6*/ + scale_fx = L_shl( shr( hFdCngCom->fftlen, 1 ), Q22 ); // Q21 + FOR( i = 0; i < hFdCngCom->frameSize; i++ ) { - hFdCngCom->olapBufferSynth2[i] = scale * hFdCngCom->olapBufferSynth2[i + 5 * hFdCngCom->frameSize / 4]; + hFdCngCom->olapBufferSynth2[i] = (Word16) L_shr( Mpy_32_16_1( scale_fx, hFdCngCom->olapBufferSynth2[( i + ( 5 * ( hFdCngCom->frameSize / 4 ) ) )] ), Q6 ); // Q_olap + move16(); } } + + Copy_Scale_sig_32_16( hStereoCng->olapBufferSynth22_32fx, hStereoCng->olapBufferSynth22_fx, hFdCngCom->fftlen, sub( st->Q_syn, 15 ) ); /*st->Q_syn*/ } - else + ELSE { - set_f( hFdCngCom->olapBufferSynth2, 0.0f, hFdCngCom->frameSize / 2 ); - set_f( hStereoCng->olapBufferSynth22, 0.0f, hFdCngCom->frameSize / 2 ); + set16_fx( hFdCngCom->olapBufferSynth2, 0, shr( hFdCngCom->frameSize, 1 ) ); + set16_fx( hStereoCng->olapBufferSynth22_fx, 0, shr( hFdCngCom->frameSize, 1 ) ); } - if ( flag_sec_CNA ) + IF( flag_sec_CNA ) { - mvr2r( Ns, hStereoCng->maskingNoiseS, hFdCngCom->frameSize ); + Copy_Scale_sig_32_16( Ns_fx, hStereoCng->maskingNoiseS_fx, hFdCngCom->frameSize, 0 ); // Q6 hStereoCng->enableSecCNA = 1; + move16(); } - else + ELSE { - set_f( hStereoCng->olapBufferSynth22, 0.0f, hFdCngCom->frameSize ); + set16_fx( hStereoCng->olapBufferSynth22_fx, 0, hFdCngCom->frameSize ); } /* add masking noise */ - v_add( Np, syn, syn, hFdCngCom->frameSize ); + FOR( i = 0; i < hFdCngCom->frameSize; i++ ) + { + syn[i] = add( syn[i], (Word16) L_shr( Np_fx[i], sub( Q16 + Q6, Q_syn ) ) ); // Q_syn + move16(); + } } - else if ( hStereoCng->enableSecCNA ) + ELSE IF( hStereoCng->enableSecCNA ) { - SP_ratio = hStereoTD->SP_ratio_LT; /* Use long-term SP ratio based on L/R synthesis */ + Word16 SP_ratio_fx; + SP_ratio_fx = extract_h( hStereoTD->SP_ratio_LT_fx ); /* Use long-term SP ratio based on L/R synthesis Q15*/ + Word16 prevSP_ratio_fx; + prevSP_ratio_fx = hStereoTD->prevSP_ratio_fx; /* Use long-term SP ratio based on L/R synthesis Q15*/ + move16(); /* scale and add masking noise */ - for ( i = 0; i < *hStereoCng->frameSize / 4; i++ ) + FOR( i = 0; i < shr( *hStereoCng->frameSize, 2 ); i++ ) { - scale = ( ( hStereoTD->prevSP_ratio * ( *hStereoCng->frameSize / 4 - (float) i ) + SP_ratio * (float) i ) / ( *hStereoCng->frameSize / 4 ) ); - syn[i] += scale * hStereoCng->maskingNoiseS[i]; + Word16 s; + Word16 scale_fx_tmp; + scale_fx_tmp = BASOP_Util_Divide3216_Scale( L_add( L_mult0( prevSP_ratio_fx, sub( shr( *hStereoCng->frameSize, 2 ), i ) ), L_mult0( SP_ratio_fx, i ) ), shr( *hStereoCng->frameSize, 2 ), &s ); // Q15 + scale_fx_tmp = shl( scale_fx_tmp, s ); + syn[i] = add( syn[i], mult( scale_fx_tmp, shr( hStereoCng->maskingNoiseS_fx[i], sub( Q6, Q_syn ) ) ) ); /*Q_syn*/ + move16(); } - for ( ; i < *hStereoCng->frameSize / 2; i++ ) + FOR( ; i < *hStereoCng->frameSize / 2; i++ ) { - syn[i] += SP_ratio * hStereoCng->maskingNoiseS[i]; + syn[i] = add( syn[i], mult( SP_ratio_fx, shr( hStereoCng->maskingNoiseS_fx[i], sub( Q6, Q_syn ) ) ) ); /*Q_syn*/ + move16(); } - for ( ; i < *hStereoCng->frameSize; i++ ) + FOR( ; i < *hStereoCng->frameSize; i++ ) { - syn[i] += SP_ratio * hStereoCng->maskingNoiseS[i]; + syn[i] = add( syn[i], mult( SP_ratio_fx, shr( hStereoCng->maskingNoiseS_fx[i], sub( Q6, Q_syn ) ) ) ); /*Q_syn*/ + move16(); } - hStereoTD->prevSP_ratio = SP_ratio; + hStereoTD->prevSP_ratio_fx = extract_h( hStereoTD->SP_ratio_LT_fx ); /*Q15*/ + move16(); } return; } - -/*------------------------------------------------------------------- - * generate_masking_noise_hf_cldfb() - * - * Generate additional comfort noise (kind of noise filling) - *-------------------------------------------------------------------*/ - -void generate_masking_noise_dirac( - HANDLE_FD_CNG_COM hFdCngCom, /* i/o: FD_CNG structure containing all buffers and variables */ - HANDLE_CLDFB_FILTER_BANK h_cldfb, /* i : filterbank state */ - float *tdBuffer, /* i/o: time-domain signal, if NULL no LB-CNA */ - float *Cldfb_RealBuffer, /* o : CLDFD real buffer */ - float *Cldfb_ImagBuffer, /* o : CLDFD imaginary buffer */ - const int16_t slot_index, /* i : CLDFB slot index */ - const int16_t cna_flag, /* i : CNA flag for LB and HB */ - const int16_t fd_cng_flag /* i : FD-CNG flag for HB */ +void generate_masking_noise_lb_dirac_fx( + HANDLE_FD_CNG_COM hFdCngCom, /* i/o: FD_CNG structure containing all buffers and variables */ + Word32 *tdBuffer, /* i/o: time-domain signal, if NULL no LB-CNA Q11*/ + const Word16 nCldfbTs, /* i : number of CLDFB slots that will be rendered Q0*/ + const Word16 cna_flag /* i : CNA flag for LB and HB Q0*/ ) { - int16_t i; - float *cngNoiseLevel = hFdCngCom->cngNoiseLevel; - float *fftBuffer = hFdCngCom->fftBuffer; - float *ptr_r; - float *ptr_i; - float *ptr_level; - int16_t *seed = &( hFdCngCom->seed ); - float scale; + Word16 i; + Word32 *cngNoiseLevel = hFdCngCom->cngNoiseLevel; /*hFdCngCom->cngNoiseLevelExp*/ + Word32 *fftBuffer = hFdCngCom->fftBuffer; /*hFdCngCom->fftBuffer_exp*/ + Word32 *ptr_r; + Word32 *ptr_i; + Word32 *ptr_level; + Word16 *seed = &( hFdCngCom->seed ); + Word32 scale; + Word16 n_samples_out, n_samples_start, n_samples_out_loop; - wmops_sub_start( "fd_cng_dirac" ); + push_wmops( "fd_cng_dirac" ); /* Init */ - scale = 0.f; - - /* Resample CLDFB memories if necessary*/ - if ( ( h_cldfb->no_channels * h_cldfb->no_col ) != hFdCngCom->frameSize ) - { - resampleCldfb( h_cldfb, hFdCngCom->frameSize * FRAMES_PER_SEC ); - } - - set_zero( Cldfb_RealBuffer, CLDFB_NO_CHANNELS_MAX ); - set_zero( Cldfb_ImagBuffer, CLDFB_NO_CHANNELS_MAX ); - + scale = 0; + move32(); + n_samples_out = i_mult( shr( hFdCngCom->frameSize, 4 ), nCldfbTs ); + n_samples_start = 0; + move16(); + Word16 exp_out = Q11; + move16(); /*LB CLDFB - CNA from STFT*/ -#ifdef DEBUG_MODE_DIRAC - { - int16_t tmp_s; - tmp_s = (int16_t) ( 32768.f * 0.5f * hFdCngCom->likelihood_noisy_speech * cna_flag + 0.5f ); - dbgwrite( &tmp_s, sizeof( int16_t ), 1, hFdCngCom->frameSize / 16, "./res/ivas_dirac_likelihood_noisy.pcm" ); - } -#endif - if ( cna_flag ) + IF( cna_flag ) { /* skip noise generating if level is very low, to avoid problems with possibly running into denormals */ - if ( hFdCngCom->likelihood_noisy_speech > DELTA_MASKING_NOISE ) + IF( GT_16( hFdCngCom->likelihood_noisy_speech, DELTA_MASKING_NOISE_Q15 ) ) { /* Compute additional CN level */ - for ( i = 0; i < 15; i++ ) + FOR( i = 0; i < 15; i++ ) { - if ( ( hFdCngCom->CngBandwidth == scaleTable_cn_dirac[i].bwmode ) && - ( hFdCngCom->CngBitrate >= scaleTable_cn_dirac[i].bitrateFrom ) && - ( hFdCngCom->CngBitrate < scaleTable_cn_dirac[i].bitrateTo ) ) + test(); + test(); + if ( ( EQ_16( hFdCngCom->CngBandwidth, scaleTable_cn_dirac[i].bwmode ) ) && + GE_32( hFdCngCom->CngBitrate, scaleTable_cn_dirac[i].bitrateFrom ) && + LT_32( hFdCngCom->CngBitrate, scaleTable_cn_dirac[i].bitrateTo ) ) { - break; + BREAK; } } - scale = (float) pow( 10.f, -scaleTable_cn_dirac[i].scale / 10.f ) - 1.f; - scale *= hFdCngCom->likelihood_noisy_speech; + scale = L_deposit_h( scaleTable_cn_dirac[i].scale_ivas ); /* Q30 */ + scale = Mpy_32_16_1( scale, hFdCngCom->likelihood_noisy_speech ); /* Q30 */ } } /* LB CLDFB - CNA from STFT: CNA applied only in channel 0*/ - if ( cna_flag && tdBuffer != NULL ) + test(); + IF( cna_flag && tdBuffer != NULL ) { - if ( scale != 0 ) + WHILE( n_samples_out > 0 ) { - /*Generate LF comfort noise only at first slot, for the whole frame*/ - if ( slot_index == 0 ) + n_samples_out_loop = s_min( hFdCngCom->frameSize, n_samples_out ); + IF( scale != 0 ) { - ptr_level = cngNoiseLevel; + /*Generate LF comfort noise only at first slot, for the whole frame*/ + ptr_level = cngNoiseLevel; /*hFdCngCom->cngNoiseLevelExp*/ /* Generate Gaussian random noise in real and imaginary parts of the FFT bins - Amplitudes are adjusted to the estimated noise level cngNoiseLevel in each bin */ - if ( hFdCngCom->startBand == 0 ) + Amplitudes are adjusted to the estimated noise level cngNoiseLevel_flt in each bin */ + IF( EQ_16( hFdCngCom->startBand, 0 ) ) { - rand_gauss( &fftBuffer[0], seed ); - ptr_r = fftBuffer + 2; - fftBuffer[0] *= (float) sqrt( scale * *ptr_level ); /* DC component in FFT */ + rand_gauss_fx( &fftBuffer[0], seed, exp_out ); + ptr_r = fftBuffer + 2; /*hFdCngCom->fftBuffer_exp*/ + + Word16 exp2 = sub( 31, hFdCngCom->cngNoiseLevelExp ); + Word32 sqr = Sqrt32( L_shr( Mpy_32_32( scale, *ptr_level ), 1 ), &exp2 ); /* DC component in FFT Q31 - exp2*/ + sqr = L_shl( sqr, exp2 ); /*Q31*/ + fftBuffer[0] = Mpy_32_32( fftBuffer[0], sqr ); /* DC component in FFT Q31 - hFdCngCom->fftBuffer_exp*/ + move32(); ptr_level++; } - else + ELSE { - fftBuffer[0] = 0.f; - set_f( fftBuffer + 2, 0.0f, 2 * ( hFdCngCom->startBand - 1 ) ); - ptr_r = fftBuffer + 2 * hFdCngCom->startBand; + fftBuffer[0] = 0; + move32(); + set32_fx( fftBuffer + 2, 0, shl( sub( hFdCngCom->startBand, 1 ), 1 ) ); + ptr_r = fftBuffer + shl( hFdCngCom->startBand, 1 ); /*hFdCngCom->fftBuffer_exp*/ } - ptr_i = ptr_r + 1; + ptr_i = ptr_r + 1; /*hFdCngCom->fftBuffer_exp*/ - for ( ; ptr_level < cngNoiseLevel + hFdCngCom->stopFFTbin - hFdCngCom->startBand; ptr_level++ ) + FOR( ; ptr_level < cngNoiseLevel + sub( hFdCngCom->stopFFTbin, hFdCngCom->startBand ); ptr_level++ ) { - /* Real part in FFT bins */ - rand_gauss( ptr_r, seed ); - ( *ptr_r ) *= (float) sqrt( ( scale * *ptr_level ) * 0.5f ); + rand_gauss_fx( ptr_r, seed, exp_out ); + Word16 exp2 = hFdCngCom->cngNoiseLevelExp; + Word32 mpy2 = Sqrt32( Mpy_32_32( scale, *ptr_level ), &exp2 ); /*Q31 - exp2*/ + ( *ptr_r ) = L_shl( Mpy_32_32( *ptr_r, mpy2 ), exp2 ); /*Q31 - hFdCngCom->fftBuffer_exp*/ + move32(); ptr_r += 2; + /* Imaginary part in FFT bins */ - rand_gauss( ptr_i, seed ); - ( *ptr_i ) *= (float) sqrt( ( scale * *ptr_level ) * 0.5f ); + rand_gauss_fx( ptr_i, seed, exp_out ); + ( *ptr_i ) = L_shl( Mpy_32_32( *ptr_i, mpy2 ), exp2 ); /*Q31 - hFdCngCom->fftBuffer_exp*/ + move32(); ptr_i += 2; } - /* Remaining FFT bins are set to zero */ - set_f( fftBuffer + 2 * hFdCngCom->stopFFTbin, 0.0f, hFdCngCom->fftlen - 2 * hFdCngCom->stopFFTbin ); + set32_fx( fftBuffer + shl( hFdCngCom->stopFFTbin, 1 ), 0, sub( hFdCngCom->fftlen, shl( hFdCngCom->stopFFTbin, 1 ) ) ); /* Nyquist frequency is discarded */ - fftBuffer[1] = 0.f; + fftBuffer[1] = 0; + move32(); /* Perform STFT synthesis */ - SynthesisSTFT( fftBuffer, tdBuffer, hFdCngCom->olapBufferSynth2, hFdCngCom->olapWinSyn, 0, hFdCngCom, X, Y, -1, -1 ); - -#ifdef DEBUG_MODE_DIRAC - { - int16_t tmp[1000]; - - for ( i = 0; i < hFdCngCom->frameSize; i++ ) - { - tmp[i] = (int16_t) ( tdBuffer[i] + 0.5f ); - } - dbgwrite( tmp, sizeof( int16_t ), hFdCngCom->frameSize, 1, "./res/ivas_dirac_cna_fft.pcm" ); - } -#endif + SynthesisSTFT_dirac_fx( fftBuffer, tdBuffer + n_samples_start, hFdCngCom->olapBufferSynth2_fx, hFdCngCom->olapWinSyn_fx, n_samples_out_loop, hFdCngCom ); + scale_sig32( tdBuffer + n_samples_start, n_samples_out_loop, Q9 ); // Q2 -> Q11 } - /* LF CLDFB*/ - cldfbAnalysis_ts( &( tdBuffer[hFdCngCom->numCoreBands * slot_index] ), Cldfb_RealBuffer, Cldfb_ImagBuffer, hFdCngCom->numCoreBands, h_cldfb ); - } - else - { - if ( slot_index == 0 ) + ELSE { /* very low level case - update random seeds */ generate_masking_noise_update_seed_fx( hFdCngCom ); - set_f( fftBuffer, 0.f, hFdCngCom->fftlen ); - + set32_fx( fftBuffer, 0, hFdCngCom->fftlen ); /* Perform STFT synthesis */ - SynthesisSTFT( fftBuffer, tdBuffer, hFdCngCom->olapBufferSynth2, hFdCngCom->olapWinSyn, 0, hFdCngCom, X, Y, -1, -1 ); + SynthesisSTFT_dirac_fx( fftBuffer, tdBuffer + n_samples_start, hFdCngCom->olapBufferSynth2_fx, hFdCngCom->olapWinSyn_fx, n_samples_out_loop, hFdCngCom ); + } + hFdCngCom->fftBuffer_exp = 31 - 11; + move16(); + n_samples_out = sub( n_samples_out, hFdCngCom->frameSize ); + n_samples_start = add( n_samples_start, hFdCngCom->frameSize ); + } + } -#ifdef DEBUG_MODE_DIRAC - { - int16_t tmp[1000]; + pop_wmops(); - for ( i = 0; i < hFdCngCom->frameSize; i++ ) - { - tmp[i] = (int16_t) ( tdBuffer[i] + 0.5f ); - } - dbgwrite( tmp, sizeof( int16_t ), hFdCngCom->frameSize, 1, "./res/ivas_dirac_cna_fft.pcm" ); + return; +} +void generate_masking_noise_dirac_ivas_fx( + HANDLE_FD_CNG_COM hFdCngCom, /* i/o: FD_CNG structure containing all buffers and variables */ + HANDLE_CLDFB_FILTER_BANK h_cldfb, /* i : filterbank state */ + Word32 *tdBuffer_fx, /* i/o: time-domain signal, if NULL no LB-CNA q_input*/ + Word32 *Cldfb_RealBuffer_fx, /* o : CLDFD real buffer q_cldfb*/ + Word32 *Cldfb_ImagBuffer_fx, /* o : CLDFD imaginary buffer q_cldfb*/ + const Word16 slot_index, /* i : CLDFB slot index Q0*/ + const Word16 cna_flag, /* i : CNA flag for LB and HB Q0*/ + const Word16 fd_cng_flag, /* i : FD-CNG flag for HB Q0*/ + Word16 q_input, + Word16 *q_cldfb ) +{ + Word16 i; + Word32 *ptr_level_fx; + Word16 *seed = &( hFdCngCom->seed ); + Word32 scale_fx; + Word16 q_scale, q_shift, q_ptr_level; + + push_wmops( "fd_cng_dirac" ); + + /* Init */ + scale_fx = 0; + move32(); + + /* Resample CLDFB memories if necessary*/ + IF( NE_16( i_mult( h_cldfb->no_channels, h_cldfb->no_col ), hFdCngCom->frameSize ) ) + { + resampleCldfb_ivas_fx( h_cldfb, hFdCngCom->frameSize * FRAMES_PER_SEC ); + } + + set32_fx( Cldfb_RealBuffer_fx, 0, CLDFB_NO_CHANNELS_MAX ); + set32_fx( Cldfb_ImagBuffer_fx, 0, CLDFB_NO_CHANNELS_MAX ); + + /*LB CLDFB - CNA from STFT*/ + IF( cna_flag != 0 ) + { + /* skip noise generating if level is very low, to avoid problems with possibly running into denormals */ + IF( hFdCngCom->likelihood_noisy_speech > 0 ) + { + /* Compute additional CN level */ + FOR( i = 0; i < 15; i++ ) + { + test(); + test(); + if ( ( EQ_16( hFdCngCom->CngBandwidth, scaleTable_cn_dirac[i].bwmode ) ) && + ( GE_32( hFdCngCom->CngBitrate, scaleTable_cn_dirac[i].bitrateFrom ) ) && + ( LT_32( hFdCngCom->CngBitrate, scaleTable_cn_dirac[i].bitrateTo ) ) ) + { + BREAK; } -#endif } + scale_fx = L_shr( L_deposit_h( scaleTable_cn_dirac[i].scale_ivas ), Q3 ); /* Q27 */ + scale_fx = Mpy_32_16_1( scale_fx, hFdCngCom->likelihood_noisy_speech ); + } + } + /* LB CLDFB - CNA from STFT: CNA applied only in channel 0*/ + IF( cna_flag && tdBuffer_fx != NULL ) + { + *q_cldfb = q_input; + move16(); + IF( scale_fx != 0 ) + { + /* LF CLDFB*/ + cldfbAnalysis_ts_fx_fixed_q( &( tdBuffer_fx[( hFdCngCom->numCoreBands * slot_index )] ), Cldfb_RealBuffer_fx, Cldfb_ImagBuffer_fx, hFdCngCom->numCoreBands, h_cldfb, q_cldfb ); + } + ELSE + { /* LB ana CLDFB*/ - cldfbAnalysis_ts( &( tdBuffer[hFdCngCom->numCoreBands * slot_index] ), Cldfb_RealBuffer, Cldfb_ImagBuffer, hFdCngCom->numCoreBands, h_cldfb ); + cldfbAnalysis_ts_fx_fixed_q( &( tdBuffer_fx[( hFdCngCom->numCoreBands * slot_index )] ), Cldfb_RealBuffer_fx, Cldfb_ImagBuffer_fx, hFdCngCom->numCoreBands, h_cldfb, q_cldfb ); } } /*HF CLDFB - CNA and/or FD-CNG*/ if ( fd_cng_flag ) { - scale += 1.f; + scale_fx = L_add( scale_fx, ONE_IN_Q27 ); // 1 in Q27 } - if ( scale != 0 ) + IF( scale_fx != 0 ) { - scale *= CLDFB_SCALING_FLT * ( h_cldfb->scale * h_cldfb->scale * 8.f ); - ptr_level = hFdCngCom->cngNoiseLevel + hFdCngCom->stopFFTbin - hFdCngCom->startBand; - - for ( i = hFdCngCom->numCoreBands; i < hFdCngCom->regularStopBand; i++ ) + q_scale = 27; + move16(); + q_shift = norm_l( scale_fx ); + scale_fx = L_shl( scale_fx, q_shift ); /*q_scale+q_shift*/ + q_scale = add( q_scale, q_shift ); + scale_fx = Mpy_32_32( scale_fx, Mpy_32_16_1( L_mult( h_cldfb->scale, h_cldfb->scale ), CLDFB_SCALING ) ); // Q = q_scale + 2 * Q8 - 34 + q_scale = sub( add( q_scale, 2 * Q8 ), 31 ); + ptr_level_fx = hFdCngCom->cngNoiseLevel + sub( hFdCngCom->stopFFTbin, hFdCngCom->startBand ); /*Q31 - hFdCngCom->cngNoiseLevelExp*/ + q_ptr_level = sub( 31, hFdCngCom->cngNoiseLevelExp ); + + FOR( i = hFdCngCom->numCoreBands; i < hFdCngCom->regularStopBand; i++ ) { + Word32 num; + Word16 exp, q_num; + q_shift = norm_l( scale_fx ); + scale_fx = L_shl( scale_fx, q_shift ); /*q_scale+q_shift*/ + q_scale = add( q_scale, q_shift ); + num = Mpy_32_32( scale_fx, *ptr_level_fx ); /*q_num*/ + q_num = sub( add( q_scale, q_ptr_level ), 31 ); + exp = sub( 31, q_num ); + num = Sqrt32( num, &exp ); /*Q31 - exp*/ /* Real part in CLDFB band */ - rand_gauss( &Cldfb_RealBuffer[i], seed ); - Cldfb_RealBuffer[i] *= (float) sqrt( ( scale * *ptr_level ) * 0.5f ); + rand_gauss_fx( &Cldfb_RealBuffer_fx[i], seed, *q_cldfb ); + Cldfb_RealBuffer_fx[i] = L_shl( Mpy_32_32( Cldfb_RealBuffer_fx[i], num ), exp ); + move32(); /* Imaginary part in CLDFB band */ - rand_gauss( &Cldfb_ImagBuffer[i], seed ); - Cldfb_ImagBuffer[i] *= (float) sqrt( ( scale * *ptr_level ) * 0.5f ); + rand_gauss_fx( &Cldfb_ImagBuffer_fx[i], seed, *q_cldfb ); + Cldfb_ImagBuffer_fx[i] = L_shl( Mpy_32_32( Cldfb_ImagBuffer_fx[i], num ), exp ); + move32(); - ptr_level++; + ptr_level_fx++; } } - wmops_sub_end(); + pop_wmops(); return; } @@ -5349,94 +5702,155 @@ void generate_masking_noise_dirac( * *-------------------------------------------------------------------*/ -void FdCngDecodeMDCTStereoSID( +void FdCngDecodeMDCTStereoSID_fx( CPE_DEC_HANDLE hCPE /* i/o: CPE decoder state structure */ ) { DEC_CORE_HANDLE sts[CPE_CHANNELS]; HANDLE_FD_CNG_COM hFdCngCom; - float *ms_ptr[CPE_CHANNELS]; - float *lr_ptr[CPE_CHANNELS]; - float logNoiseEst[CPE_CHANNELS][NPART]; - float gain[CPE_CHANNELS]; - int16_t indices[FD_CNG_stages_37bits]; - int16_t N, i, ch, p, stages; - int16_t is_out_ms; + Word32 *ms_ptr_fx[CPE_CHANNELS]; + Word32 *lr_ptr_fx[CPE_CHANNELS]; + Word32 logNoiseEst_fx[CPE_CHANNELS][NPART]; + Word32 gain_fx[CPE_CHANNELS]; + Word16 indices[FD_CNG_stages_37bits]; + Word16 N, i, ch, p, stages; + Word16 is_out_ms; + Word32 *invTrfMatrix_fx; + Word32 tmpRAM_fx[FDCNG_VQ_MAX_LEN][FDCNG_VQ_DCT_MAXTRUNC]; + Word16 shift, exp_diff, max_exp_idx; + Word16 exp_arr[NPART]; + Word32 tmp32, tmp32_arr[NPART]; + + invTrfMatrix_fx = (Word32 *) tmpRAM_fx; + create_IDCT_N_Matrix_fx( invTrfMatrix_fx, FDCNG_VQ_MAX_LEN, FDCNG_VQ_DCT_MAXTRUNC, FDCNG_VQ_MAX_LEN * FDCNG_VQ_DCT_MAXTRUNC ); // Q31 is_out_ms = 0; + move16(); if ( hCPE->hCoreCoder[0]->cng_sba_flag ) { is_out_ms = 1; + move16(); } N = 0; /* to avoid compilation warning */ + move16(); - for ( ch = 0; ch < CPE_CHANNELS; ch++ ) + FOR( ch = 0; ch < CPE_CHANNELS; ch++ ) { sts[ch] = hCPE->hCoreCoder[ch]; - ms_ptr[ch] = &logNoiseEst[ch][0]; - lr_ptr[ch] = &sts[ch]->hFdCngDec->hFdCngCom->sidNoiseEst[0]; + ms_ptr_fx[ch] = &logNoiseEst_fx[ch][0]; /*Q20*/ + lr_ptr_fx[ch] = &sts[ch]->hFdCngDec->hFdCngCom->sidNoiseEst[0]; /*Q18*/ } /* decode noise shapes and gains */ - for ( ch = 0; ch < CPE_CHANNELS; ch++ ) + FOR( ch = 0; ch < CPE_CHANNELS; ch++ ) { sts[ch] = hCPE->hCoreCoder[ch]; hFdCngCom = ( sts[ch]->hFdCngDec )->hFdCngCom; N = hFdCngCom->npart; - hFdCngCom->sid_frame_counter++; + move16(); + hFdCngCom->sid_frame_counter = add( hFdCngCom->sid_frame_counter, 1 ); /*Q0*/ + move16(); - if ( ch ) + IF( ch ) { stages = FD_CNG_JOINT_stages_25bits; + move16(); } - else + ELSE { stages = FD_CNG_stages_37bits; + move16(); } /* read bitstream */ - for ( i = 0; i < stages; i++ ) + FOR( i = 0; i < stages; i++ ) { - indices[i] = get_next_indice( sts[ch], bits_37bits[i] ); + indices[i] = get_next_indice_fx( sts[ch], bits_37bits[i] ); /*Q0*/ + move16(); } { - gain[ch] = ( (float) get_next_indice( sts[ch], 7 ) - GAIN_Q_OFFSET_IVAS ) / 1.5f; + gain_fx[ch] = Mpy_32_32( L_shl( L_sub( get_next_indice_fx( sts[ch], 7 ), GAIN_Q_OFFSET_IVAS_FX ), Q20 ), TWO_BY_THREE_Q31 /* 2/3 in Q31 */ ); // Q20 + move32(); } /* MSVQ decoder */ - msvq_dec( cdk_37bits_ivas, NULL, NULL, stages, N, FD_CNG_maxN_37bits, indices, ms_ptr[ch], NULL ); + shift = find_guarded_bits_fx( N ); + msvq_dec_fx( ivas_cdk_37bits_fx, NULL, NULL, stages, N, FD_CNG_maxN_37bits, indices, 1, invTrfMatrix_fx, ms_ptr_fx[ch], NULL, 7 ); // Q20 - shift + + Scale_sig32( ms_ptr_fx[ch], N, shift ); // Q20 } - if ( sts[0]->hFdCngDec->hFdCngCom->no_side_flag ) + dtx_read_padding_bits_fx( sts[1], mult( sub( IVAS_SID_5k2, 4400 ), ONE_BY_FRAMES_PER_SEC_Q15 ) ); + + IF( sts[0]->hFdCngDec->hFdCngCom->no_side_flag ) { - set_zero( ms_ptr[1], NPART ); + set32_fx( ms_ptr_fx[1], 0, NPART ); } - if ( is_out_ms == 0 ) + IF( EQ_16( is_out_ms, 0 ) ) { - inverseMS( N, ms_ptr[0], ms_ptr[1], 1.f ); + inverseMS_fx( N, ms_ptr_fx[0], ms_ptr_fx[1], ONE_IN_Q31 ); } - for ( ch = 0; ch < CPE_CHANNELS; ch++ ) + FOR( ch = 0; ch < CPE_CHANNELS; ch++ ) { + max_exp_idx = 0; + move16(); hFdCngCom = sts[ch]->hFdCngDec->hFdCngCom; - for ( p = 0; p < N; p++ ) + FOR( p = 0; p < N; p++ ) { - lr_ptr[ch][p] = powf( 10.f, ( ms_ptr[ch][p] + gain[ch] ) / 10.f ); + tmp32 = L_add( ms_ptr_fx[ch][p], gain_fx[ch] ); // Q20 + tmp32_arr[p] = BASOP_util_Pow2( Mpy_32_32( tmp32, LOG_10_BASE_2_BY_10_Q31 ), Q11, &exp_arr[p] ); /*Q31 - exp_arr[p]*/ + move32(); + if ( LT_16( exp_arr[max_exp_idx], exp_arr[p] ) ) + { + max_exp_idx = p; /*Q0*/ + move16(); + } + } + + // Bringing in same exponent + FOR( p = 0; p < N; p++ ) + { + lr_ptr_fx[ch][p] = L_shl( tmp32_arr[p], sub( exp_arr[p], exp_arr[max_exp_idx] ) ); /*Q31 - exp_arr[max_exp_idx]*/ + move32(); } - scalebands( hFdCngCom->sidNoiseEst, hFdCngCom->part, hFdCngCom->npart, hFdCngCom->midband, hFdCngCom->nFFTpart, hFdCngCom->stopBand - hFdCngCom->startBand, hFdCngCom->cngNoiseLevel, 1 ); + hFdCngCom->sidNoiseEstExp = exp_arr[max_exp_idx]; + move16(); + + scalebands( hFdCngCom->sidNoiseEst, hFdCngCom->part, hFdCngCom->npart, hFdCngCom->midband, hFdCngCom->nFFTpart, sub( hFdCngCom->stopBand, hFdCngCom->startBand ), hFdCngCom->cngNoiseLevel, 1 ); + + hFdCngCom->cngNoiseLevelExp = hFdCngCom->sidNoiseEstExp; + move16(); lpc_from_spectrum( hFdCngCom, hFdCngCom->startBand, hFdCngCom->stopFFTbin, sts[ch]->preemph_fac ); } - if ( hCPE->nchan_out == 1 && hCPE->last_element_brate <= IVAS_SID_4k4 ) + test(); + IF( EQ_16( hCPE->nchan_out, 1 ) && LE_32( hCPE->last_element_brate, IVAS_SID_5k2 ) ) { /* create proper M noise shape in channel zero after gains have been applied */ - for ( p = 0; p < N; p++ ) + exp_diff = sub( sts[0]->hFdCngDec->hFdCngCom->sidNoiseEstExp, sts[1]->hFdCngDec->hFdCngCom->sidNoiseEstExp ); + move16(); + FOR( p = 0; p < N; p++ ) + { + IF( GT_16( exp_diff, 0 ) ) + { + sts[0]->hFdCngDec->hFdCngCom->sidNoiseEst[p] = L_add( L_shr( sts[0]->hFdCngDec->hFdCngCom->sidNoiseEst[p], 1 ), L_shr( sts[1]->hFdCngDec->hFdCngCom->sidNoiseEst[p], add( exp_diff, 1 ) ) ); /*Q18*/ + move32(); + } + ELSE + { + sts[0]->hFdCngDec->hFdCngCom->sidNoiseEst[p] = L_add( L_shr( sts[0]->hFdCngDec->hFdCngCom->sidNoiseEst[p], sub( 1, exp_diff ) ), L_shr( sts[1]->hFdCngDec->hFdCngCom->sidNoiseEst[p], 1 ) ); /*Q18*/ + move32(); + } + } + IF( LT_16( exp_diff, 0 ) ) { - sts[0]->hFdCngDec->hFdCngCom->sidNoiseEst[p] = 0.5f * ( sts[0]->hFdCngDec->hFdCngCom->sidNoiseEst[p] + sts[1]->hFdCngDec->hFdCngCom->sidNoiseEst[p] ); + sts[0]->hFdCngDec->hFdCngCom->sidNoiseEstExp = add( sts[0]->hFdCngDec->hFdCngCom->sidNoiseEstExp, negate( exp_diff ) ); + move16(); } } @@ -5445,86 +5859,141 @@ void FdCngDecodeMDCTStereoSID( /*------------------------------------------------------------------- - * FdCngDecodeDiracMDCTStereoSID() + * FdCngDecodeDiracMDCTStereoSID_fx() * - * Decode FD-Cng parameters for CNG in 2TC DirAC mode from the bitstream + * Decode FD-CNG parameters for CNG in 2TC DirAC mode from the bitstream *-------------------------------------------------------------------*/ -void FdCngDecodeDiracMDCTStereoSID( +void FdCngDecodeDiracMDCTStereoSID_fx( CPE_DEC_HANDLE hCPE /* i/o: CPE decoder state structure */ ) { DEC_CORE_HANDLE sts[CPE_CHANNELS]; HANDLE_FD_CNG_COM hFdCngCom; - float *ms_ptr[CPE_CHANNELS]; - float *lr_ptr[CPE_CHANNELS]; - float logNoiseEst[CPE_CHANNELS][NPART]; - float gain[CPE_CHANNELS]; - int16_t indices[FD_CNG_stages_37bits]; - int16_t N, i, ch, p; - - for ( ch = 0; ch < CPE_CHANNELS; ch++ ) + Word32 *ms_ptr_fx[CPE_CHANNELS]; + Word32 *lr_ptr_fx[CPE_CHANNELS]; + Word32 logNoiseEst_fx[CPE_CHANNELS][NPART]; + Word32 gain_fx[CPE_CHANNELS]; + Word16 indices[FD_CNG_stages_37bits]; + Word16 N, i, ch, p; + Word32 *invTrfMatrix_fx; + Word32 tmpRAM_fx[FDCNG_VQ_MAX_LEN][FDCNG_VQ_DCT_MAXTRUNC]; + Word16 shift, exp_diff, max_exp_idx; + Word16 exp_arr[NPART]; + Word32 tmp32, tmp32_arr[NPART]; + + invTrfMatrix_fx = (Word32 *) tmpRAM_fx; /* dynamically filled */ + create_IDCT_N_Matrix_fx( invTrfMatrix_fx, FDCNG_VQ_MAX_LEN, FDCNG_VQ_DCT_MAXTRUNC, FDCNG_VQ_MAX_LEN * FDCNG_VQ_DCT_MAXTRUNC ); // Q31 + + FOR( ch = 0; ch < CPE_CHANNELS; ch++ ) { sts[ch] = hCPE->hCoreCoder[ch]; - ms_ptr[ch] = &logNoiseEst[ch][0]; - lr_ptr[ch] = &sts[ch]->hFdCngDec->hFdCngCom->sidNoiseEst[0]; - ( sts[ch]->hFdCngDec )->hFdCngCom->sid_frame_counter++; + ms_ptr_fx[ch] = &logNoiseEst_fx[ch][0]; /*Q20*/ + lr_ptr_fx[ch] = &sts[ch]->hFdCngDec->hFdCngCom->sidNoiseEst[0]; /*Q20*/ + ( sts[ch]->hFdCngDec )->hFdCngCom->sid_frame_counter++; /*Q18*/ } /* decode noise shapes and gains */ hFdCngCom = ( sts[0]->hFdCngDec )->hFdCngCom; - N = hFdCngCom->npart; + N = hFdCngCom->npart; /*Q0*/ + move16(); /* read bitstream */ - for ( i = 0; i < FD_CNG_stages_37bits; i++ ) + FOR( i = 0; i < FD_CNG_stages_37bits; i++ ) { - indices[i] = get_next_indice( sts[0], bits_37bits[i] ); + indices[i] = get_next_indice_fx( sts[0], bits_37bits[i] ); /*Q0*/ + move16(); } - gain[0] = ( (float) get_next_indice( sts[0], 7 ) - GAIN_Q_OFFSET_IVAS ) / 1.5f; - gain[1] = gain[0]; + gain_fx[0] = Mpy_32_32( L_shl( L_sub( get_next_indice_fx( sts[0], 7 ), GAIN_Q_OFFSET_IVAS_FX ), Q20 ), TWO_BY_THREE_Q31 /* 2/3 in Q31 */ ); // Q20 + move32(); + + gain_fx[1] = gain_fx[0]; /*Q20*/ + move32(); /* MSVQ decoder */ - msvq_dec( cdk_37bits_ivas, NULL, NULL, FD_CNG_stages_37bits, N, FD_CNG_maxN_37bits, indices, ms_ptr[0], NULL ); - mvr2r( ms_ptr[0], ms_ptr[1], N ); + shift = find_guarded_bits_fx( N ); + msvq_dec_fx( ivas_cdk_37bits_fx, NULL, NULL, FD_CNG_stages_37bits, N, FD_CNG_maxN_37bits, indices, 1, invTrfMatrix_fx, ms_ptr_fx[0], NULL, 7 ); // Q20 - shift + + Scale_sig32( ms_ptr_fx[0], N, shift ); // Q20 - /*inverseMS( N, ms_ptr[0], ms_ptr[1], 1.f );*/ + Copy32( ms_ptr_fx[0], ms_ptr_fx[1], N ); /*Q20*/ - for ( ch = 0; ch < CPE_CHANNELS; ch++ ) + FOR( ch = 0; ch < CPE_CHANNELS; ch++ ) { + max_exp_idx = 0; + move16(); hFdCngCom = sts[ch]->hFdCngDec->hFdCngCom; - for ( p = 0; p < N; p++ ) + + FOR( p = 0; p < N; p++ ) + { + tmp32 = L_add( ms_ptr_fx[ch][p], gain_fx[ch] ); // Q20 + tmp32_arr[p] = BASOP_util_Pow2( Mpy_32_32( tmp32, LOG_10_BASE_2_BY_10_Q31 ), Q11, &exp_arr[p] ); /*Q31 - exp_arr[p]*/ + move32(); + if ( LT_16( exp_arr[max_exp_idx], exp_arr[p] ) ) + { + max_exp_idx = p; /*Q0*/ + move16(); + } + } + + // Bringing in same exponent + FOR( p = 0; p < N; p++ ) { - lr_ptr[ch][p] = powf( 10.f, ( ms_ptr[ch][p] + gain[ch] ) / 10.f ); + lr_ptr_fx[ch][p] = L_shl( tmp32_arr[p], sub( exp_arr[p], exp_arr[max_exp_idx] ) ); /*Q20*/ + move32(); } + hFdCngCom->sidNoiseEstExp = exp_arr[max_exp_idx]; /*Q0*/ + move16(); + /* NB last band energy compensation */ - if ( hFdCngCom->CngBandwidth == NB ) + test(); + IF( hFdCngCom->CngBandwidth == NB ) { - lr_ptr[ch][N - 1] *= NB_LAST_BAND_SCALE; + lr_ptr_fx[ch][( N - 1 )] = Mpy_32_32( lr_ptr_fx[ch][( N - 1 )], NB_LAST_BAND_SCALE_Q31 ); /*Q20*/ + move32(); } - else if ( hFdCngCom->CngBandwidth == SWB && hFdCngCom->CngBitrate <= ACELP_13k20 ) + ELSE IF( EQ_16( hFdCngCom->CngBandwidth, SWB ) && LE_32( hFdCngCom->CngBitrate, ACELP_13k20 ) ) { - lr_ptr[ch][N - 1] *= SWB_13k2_LAST_BAND_SCALE; + lr_ptr_fx[ch][( N - 1 )] = Mpy_32_32( lr_ptr_fx[ch][( N - 1 )], SWB_13k2_LAST_BAND_SCALE_Q31 ); /*Q20*/ + move32(); } - scalebands( hFdCngCom->sidNoiseEst, hFdCngCom->part, hFdCngCom->npart, hFdCngCom->midband, hFdCngCom->nFFTpart, hFdCngCom->stopBand - hFdCngCom->startBand, hFdCngCom->cngNoiseLevel, 1 ); + scalebands( hFdCngCom->sidNoiseEst, hFdCngCom->part, hFdCngCom->npart, hFdCngCom->midband, hFdCngCom->nFFTpart, sub( hFdCngCom->stopBand, hFdCngCom->startBand ), hFdCngCom->cngNoiseLevel, 1 ); + + hFdCngCom->cngNoiseLevelExp = hFdCngCom->sidNoiseEstExp; + move16(); lpc_from_spectrum( hFdCngCom, hFdCngCom->startBand, hFdCngCom->stopFFTbin, sts[ch]->preemph_fac ); } - sts[0]->hFdCngDec->hFdCngCom->coherence = 0.0f; - sts[1]->hFdCngDec->hFdCngCom->coherence = 0.0f; + sts[0]->hFdCngDec->hFdCngCom->coherence_fx = 0; + move16(); + sts[1]->hFdCngDec->hFdCngCom->coherence_fx = 0; + move16(); - if ( hCPE->nchan_out == 1 ) + IF( EQ_16( hCPE->nchan_out, 1 ) ) { /* create proper M noise shape in channel zero after gains have been applied */ - for ( p = 0; p < N; p++ ) + exp_diff = sub( sts[0]->hFdCngDec->hFdCngCom->sidNoiseEstExp, sts[1]->hFdCngDec->hFdCngCom->sidNoiseEstExp ); + FOR( p = 0; p < N; p++ ) + { + IF( exp_diff > 0 ) + { + sts[0]->hFdCngDec->hFdCngCom->sidNoiseEst[p] = L_add( L_shr( sts[0]->hFdCngDec->hFdCngCom->sidNoiseEst[p], 1 ), L_shr( sts[1]->hFdCngDec->hFdCngCom->sidNoiseEst[p], add( exp_diff, 1 ) ) ); /*Q18*/ + move32(); + } + ELSE + { + sts[0]->hFdCngDec->hFdCngCom->sidNoiseEst[p] = L_add( L_shr( sts[0]->hFdCngDec->hFdCngCom->sidNoiseEst[p], sub( 1, exp_diff ) ), L_shr( sts[1]->hFdCngDec->hFdCngCom->sidNoiseEst[p], 1 ) ); /*Q18*/ + move32(); + } + } + IF( exp_diff < 0 ) { - sts[0]->hFdCngDec->hFdCngCom->sidNoiseEst[p] = 0.5f * ( sts[0]->hFdCngDec->hFdCngCom->sidNoiseEst[p] + sts[1]->hFdCngDec->hFdCngCom->sidNoiseEst[p] ); + sts[0]->hFdCngDec->hFdCngCom->sidNoiseEstExp = add( sts[0]->hFdCngDec->hFdCngCom->sidNoiseEstExp, negate( exp_diff ) ); + move16(); } - sts[0]->hFdCngDec->hFdCngCom->coherence = 0.0f; - sts[1]->hFdCngDec->hFdCngCom->coherence = 0.0f; } return; } -#endif diff --git a/lib_dec/gs_dec_fx.c b/lib_dec/gs_dec_fx.c index 3a39f9e3312ee58ab31739545e069199f2d2accb..8f29eb9d13ce53f72ad042cec7c6fe757ca09f7d 100644 --- a/lib_dec/gs_dec_fx.c +++ b/lib_dec/gs_dec_fx.c @@ -6,7 +6,6 @@ #include "options.h" #include "cnst.h" #include "rom_com.h" -#include "prot.h" #include "prot_fx.h" #include "ivas_cnst.h" /*=========================================================================*/ @@ -75,12 +74,7 @@ void decod_audio_fx( /* decode GSC SWB speech flag */ test(); -#if !defined ADD_LRTD IF( st_fx->coder_type != INACTIVE && GE_32( st_fx->total_brate, ACELP_13k20 ) ) -#else - if ( st_fx->GSC_IVAS_mode >= 1 || ( st_fx->coder_type != INACTIVE && ( ( st_fx->element_mode == EVS_MONO && st_fx->total_brate >= ACELP_13k20 ) || - ( st_fx->element_mode > EVS_MONO && st_fx->total_brate > MIN_BRATE_GSC_NOISY_FLAG && st_fx->bwidth >= SWB && !st_fx->flag_ACELP16k ) ) ) ) -#endif { st_fx->GSC_noisy_speech = (Word16) get_next_indice_fx( st_fx, 1 ); /* Q0 */ move16(); @@ -98,30 +92,13 @@ void decod_audio_fx( } /* set bit-allocation */ -#ifdef ADD_LRTD -#ifdef NONBE_FIX_GSC_BSTR - config_acelp1( DEC, st_fx->total_brate, st_fx->core_brate, st_fx->core, st_fx->extl_orig, st_fx->extl_brate_orig, st_fx->L_frame, st_fx->GSC_noisy_speech, &( st_fx->acelp_cfg ), st_fx->next_bit_pos, st_fx->coder_type, st_fx->inactive_coder_type_flag, -1, 1, &nbits, NULL, st_fx->element_mode, &nbits /*dummy*/, tdm_lp_reuse_flag, tdm_low_rate_mode, st_fx->idchan, st_fx->active_cnt, tdm_Pitch_reuse_flag, st_fx->tdm_LRTD_flag, st_fx->GSC_IVAS_mode ); -#else - config_acelp1( DEC, st_fx->total_brate, st_fx->core_brate, st_fx->core, st_fx->extl_orig, st_fx->extl_brate_orig, st_fx->L_frame, st_fx->GSC_noisy_speech, &( st_fx->acelp_cfg ), st_fx->next_bit_pos, st_fx->coder_type, -1, 1, &nbits, NULL, st_fx->element_mode, &nbits /*dummy*/, tdm_lp_reuse_flag, tdm_low_rate_mode, st_fx->idchan, st_fx->active_cnt, tdm_Pitch_reuse_flag, st_fx->tdm_LRTD_flag, st_fx->GSC_IVAS_mode ); -#endif -#else -#ifdef NONBE_FIX_GSC_BSTR config_acelp1( DEC, st_fx->total_brate, st_fx->core_brate, st_fx->core, st_fx->extl_orig, st_fx->extl_brate_orig, st_fx->L_frame, st_fx->GSC_noisy_speech, &( st_fx->acelp_cfg ), st_fx->next_bit_pos, st_fx->coder_type, st_fx->inactive_coder_type_flag, -1, 1, &nbits, NULL, st_fx->element_mode, &nbits /*dummy*/, 0, 0, st_fx->idchan, st_fx->active_cnt, 0, st_fx->tdm_LRTD_flag, st_fx->GSC_IVAS_mode ); -#else - config_acelp1( DEC, st_fx->total_brate, st_fx->core_brate, st_fx->core, st_fx->extl_orig, st_fx->extl_brate_orig, st_fx->L_frame, st_fx->GSC_noisy_speech, &( st_fx->acelp_cfg ), st_fx->next_bit_pos, st_fx->coder_type, -1, 1, &nbits, NULL, st_fx->element_mode, &nbits /*dummy*/, 0, 0, st_fx->idchan, st_fx->active_cnt, 0, st_fx->tdm_LRTD_flag, st_fx->GSC_IVAS_mode ); -#endif -#endif /*---------------------------------------------------------------* * Decode energy dynamics *---------------------------------------------------------------*/ -#if defined ADD_LRTD - test(); - test(); - IF( st_fx->GSC_IVAS_mode >= 1 || ( EQ_16( st_fx->GSC_noisy_speech, 1 ) && st_fx->GSC_IVAS_mode == 0 ) ) -#else + IF( EQ_16( st_fx->GSC_noisy_speech, 1 ) ) -#endif { nb_subfr = NB_SUBFR; /* Q0 */ move16(); @@ -129,25 +106,6 @@ void decod_audio_fx( move16(); hGSCDec->noise_lev = NOISE_LEVEL_SP3; /* Q0 */ move16(); -#ifdef ADD_LRTD - if ( st_fx->GSC_IVAS_mode >= 1 ) - { - if ( st_fx->core_brate < GSC_L_RATE_STG && st_fx->GSC_IVAS_mode < 3 ) - { - nb_subfr = 2; - } - hGSCDec->noise_lev = NOISE_LEVEL_SP2; - - if ( st_fx->GSC_IVAS_mode == 3 ) /* Music like */ - { - hGSCDec->noise_lev = NOISE_LEVEL_SP0; - } - else if ( st_fx->GSC_noisy_speech == 0 ) /* speech like but not noisy */ - { - hGSCDec->noise_lev = NOISE_LEVEL_SP3; - } - } -#endif } ELSE { @@ -165,54 +123,30 @@ void decod_audio_fx( /*---------------------------------------------------------------* * Decode number of subframes *---------------------------------------------------------------*/ -#ifdef ADD_LRTD - if ( st_fx->L_frame == L_FRAME16k && ( st_fx->core_brate <= ACELP_13k20 || st_fx->coder_type == INACTIVE ) ) - { - hGSCDec->cor_strong_limit = 0; - nb_subfr = 1; - } - else -#endif + + + hGSCDec->cor_strong_limit = 1; /* Q0 */ + move16(); + nb_subfr = SWNB_SUBFR; + move16(); + + IF( GE_32( st_fx->core_brate, ACELP_9k60 ) ) { - hGSCDec->cor_strong_limit = 1; /* Q0 */ + nbits = 1; move16(); - nb_subfr = SWNB_SUBFR; + nb_frame_flg = (Word16) get_next_indice_fx( st_fx, nbits ); /* Q0 */ move16(); - IF( GE_32( st_fx->core_brate, ACELP_9k60 ) ) + IF( s_and( nb_frame_flg, 0x1 ) == 0 ) { - nbits = 1; + nb_subfr = 2 * SWNB_SUBFR; /* Q0 */ move16(); -#ifdef ADD_LRTD - if ( st_fx->L_frame == L_FRAME16k && st_fx->core_brate >= MIN_RATE_4SBFR ) - { - nbits = 2; - } -#endif - nb_frame_flg = (Word16) get_next_indice_fx( st_fx, nbits ); /* Q0 */ + hGSCDec->cor_strong_limit = 0; move16(); - - IF( s_and( nb_frame_flg, 0x1 ) == 0 ) - { - nb_subfr = 2 * SWNB_SUBFR; /* Q0 */ - move16(); - hGSCDec->cor_strong_limit = 0; - move16(); - } -#ifdef ADD_LRTD - else if ( st_fx->L_frame == L_FRAME16k && st_fx->core_brate >= MIN_RATE_4SBFR ) - { - nb_subfr = 2 * SWNB_SUBFR; /* cor_strong already set to 1 */ - } - - if ( ( nb_frame_flg >> 1 ) == 1 ) - { - nb_subfr *= 2; - } -#endif } } } + /*---------------------------------------------------------------* * Decode the last band where the adaptive (pitch) contribution is significant *---------------------------------------------------------------*/ @@ -282,13 +216,7 @@ void decod_audio_fx( * Decode adaptive (pitch) excitation contribution *---------------------------------------------------------------*/ test(); -#ifdef ADD_LRTD - if ( !( st_fx->GSC_IVAS_mode > 0 && st_fx->L_frame / nb_subfr == 2 * L_SUBFR && st_fx->GSC_IVAS_mode < 3 ) && - ( ( st_fx->core_brate >= MIN_RATE_FCB || st_fx->GSC_noisy_speech ) && - ( ( nb_subfr == NB_SUBFR && st_fx->L_frame == L_FRAME ) || ( nb_subfr == NB_SUBFR16k && st_fx->L_frame == L_FRAME16k ) ) ) ) -#else IF( EQ_16( st_fx->GSC_noisy_speech, 1 ) && EQ_16( nb_subfr, NB_SUBFR ) ) -#endif { Word16 indice; nbits = Es_pred_bits_tbl[BIT_ALLOC_IDX_fx( st_fx->core_brate, GENERIC, -1, -1 )]; /* Q0 */ @@ -303,11 +231,9 @@ void decod_audio_fx( Es_pred_dec_fx( &Es_pred, indice, nbits, 0 ); } -#ifdef ADD_LRTD - dec_pit_exc_fx( st_fx, Aq, coder_type, Es_pred, pitch_buf, code, exc, bwe_exc, nb_subfr, gain_buf, tdm_Pitch_reuse_flag, tdm_Pri_pitch_buf ); -#else + dec_pit_exc_fx( st_fx, Aq, st_fx->coder_type, Es_pred, pitch_buf, code, exc, bwe_exc, nb_subfr, gain_buf ); -#endif + IF( LT_32( st_fx->core_brate, ACELP_9k60 ) ) { minimum_fx( pitch_buf, shr( st_fx->L_frame, 6 ), &low_pit ); @@ -439,39 +365,19 @@ void decod_audio_fx( tmp_nb_bits_tot = st_fx->next_bit_pos; /* Q0 */ move16(); -#ifdef IVAS_CODE - if ( st_fx->extl_brate_fx_orig > 0 ) -#else + if ( st_fx->extl_brate > 0 ) -#endif { /* subtract 1 bit for TBE/BWE BWE flag (bit counted in extl_brate) */ tmp_nb_bits_tot = sub( tmp_nb_bits_tot, 1 ); /* Q0 */ } - - test(); -#if defined ADD_LRTD - test(); - if ( EQ_16( st_fx->coder_type, INACTIVE ) && LE_32( st_fx->core_brate, ACELP_9k60 ) && st_fx->idchan == 0 ) -#else test(); if ( st_fx->coder_type == INACTIVE && LE_32( st_fx->core_brate, ACELP_9k60 ) ) -#endif { tmp_nb_bits_tot = add( tmp_nb_bits_tot, 5 ); /* Q0 */ } -#ifdef ADD_LRTD - IF( EQ_16( st_fx->idchan, 1 ) ) - { - tmp_nb_bits_tot = add( tmp_nb_bits_tot, TDM_SIGNAL_BITS_READ_FROM_THE_END_OF_BS ); - IF( EQ_16( st_fx->tdm_LRTD_flag, 1 ) ) - { - tmp_nb_bits_tot = sub( tmp_nb_bits_tot, STEREO_BITS_TCA ); - } - } -#endif gsc_dec_fx( st_fx, dct_epit, pit_band_idx, Diff_len, tmp_nb_bits_tot, nb_subfr, st_fx->coder_type, &last_bin, lsf_new, exc_wo_nf, st_fx->Q_exc ); /*--------------------------------------------------------------------------------------* * iDCT transform @@ -612,26 +518,15 @@ void decod_audio_ivas_fx( } /* set bit-allocation */ -#if 1 // def ADD_LRTD -#ifdef NONBE_FIX_GSC_BSTR config_acelp1_IVAS( DEC, st_fx->total_brate, st_fx->core_brate, st_fx->core, st_fx->extl_orig, st_fx->extl_brate_orig, st_fx->L_frame, st_fx->GSC_noisy_speech, &( st_fx->acelp_cfg ), st_fx->next_bit_pos, st_fx->coder_type, st_fx->inactive_coder_type_flag, -1, 1, &nbits, NULL, st_fx->element_mode, &nbits /*dummy*/, tdm_lp_reuse_flag, tdm_low_rate_mode, st_fx->idchan, st_fx->active_cnt, tdm_Pitch_reuse_flag, st_fx->tdm_LRTD_flag, st_fx->GSC_IVAS_mode ); -#else - config_acelp1_IVAS( DEC, st_fx->total_brate, st_fx->core_brate, st_fx->core, st_fx->extl_orig, st_fx->extl_brate_orig, st_fx->L_frame, st_fx->GSC_noisy_speech, &( st_fx->acelp_cfg ), st_fx->next_bit_pos, st_fx->coder_type, -1, 1, &nbits, NULL, st_fx->element_mode, &nbits /*dummy*/, tdm_lp_reuse_flag, tdm_low_rate_mode, st_fx->idchan, st_fx->active_cnt, tdm_Pitch_reuse_flag, st_fx->tdm_LRTD_flag, st_fx->GSC_IVAS_mode ); -#endif -#else - config_acelp1( DEC, st_fx->total_brate, st_fx->core_brate, st_fx->core, st_fx->extl_orig, st_fx->extl_brate_orig, st_fx->L_frame, st_fx->GSC_noisy_speech, &( st_fx->acelp_cfg ), st_fx->next_bit_pos, st_fx->coder_type, -1, 1, &nbits, NULL, st_fx->element_mode, &nbits /*dummy*/, 0, 0, st_fx->idchan, st_fx->active_cnt, 0, st_fx->tdm_LRTD_flag, st_fx->GSC_IVAS_mode ); -#endif /*---------------------------------------------------------------* * Decode energy dynamics *---------------------------------------------------------------*/ -#if 1 // defined ADD_LRTD + test(); test(); IF( GE_16( st_fx->GSC_IVAS_mode, 1 ) || ( EQ_16( st_fx->GSC_noisy_speech, 1 ) && st_fx->GSC_IVAS_mode == 0 ) ) -#else - IF( EQ_16( st_fx->GSC_noisy_speech, 1 ) ) -#endif { nb_subfr = NB_SUBFR; /* Q0 */ move16(); @@ -639,7 +534,7 @@ void decod_audio_ivas_fx( move16(); hGSCDec->noise_lev = NOISE_LEVEL_SP3; /* Q0 */ move16(); -#if 1 // def ADD_LRTD + IF( GE_16( st_fx->GSC_IVAS_mode, 1 ) ) { test(); @@ -662,7 +557,6 @@ void decod_audio_ivas_fx( move16(); } } -#endif } ELSE { @@ -680,7 +574,7 @@ void decod_audio_ivas_fx( /*---------------------------------------------------------------* * Decode number of subframes *---------------------------------------------------------------*/ -#if 1 // def ADD_LRTD + test(); test(); IF( EQ_16( st_fx->L_frame, L_FRAME16k ) && ( LE_32( st_fx->core_brate, ACELP_13k20 ) || st_fx->coder_type == INACTIVE ) ) @@ -691,7 +585,6 @@ void decod_audio_ivas_fx( move16(); } ELSE -#endif { hGSCDec->cor_strong_limit = 1; /* Q0 */ move16(); @@ -702,14 +595,14 @@ void decod_audio_ivas_fx( { nbits = 1; /* Q0 */ move16(); -#if 1 // def ADD_LRTD + test(); if ( EQ_16( st_fx->L_frame, L_FRAME16k ) && GE_32( st_fx->core_brate, MIN_RATE_4SBFR ) ) { nbits = 2; /* Q0 */ move16(); } -#endif + nb_frame_flg = (Word16) get_next_indice_fx( st_fx, nbits ); /* Q0 */ move16(); @@ -721,7 +614,6 @@ void decod_audio_ivas_fx( hGSCDec->cor_strong_limit = 0; move16(); } -#if 1 // def ADD_LRTD ELSE IF( EQ_16( st_fx->L_frame, L_FRAME16k ) && GE_32( st_fx->core_brate, MIN_RATE_4SBFR ) ) { nb_subfr = 2 * SWNB_SUBFR; /* cor_strong already set to 1 */ @@ -732,18 +624,17 @@ void decod_audio_ivas_fx( { nb_subfr = shl( nb_subfr, 1 ); /* Q0 */ } -#endif } } } -#if 1 + test(); if ( EQ_16( st_fx->L_frame, L_FRAME16k ) && EQ_16( nb_subfr, NB_SUBFR ) ) { nb_subfr = NB_SUBFR16k; /* Q0 */ move16(); } -#endif + /*---------------------------------------------------------------* * Decode the last band where the adaptive (pitch) contribution is significant *---------------------------------------------------------------*/ @@ -802,7 +693,6 @@ void decod_audio_ivas_fx( hGSCDec->Last_GSC_pit_band_idx = pit_band_idx; /* Q0 */ move16(); - /*--------------------------------------------------------------------------------------* * Decode adaptive (pitch) excitation contribution * Reset unvaluable part of the adaptive (pitch) excitation contribution @@ -813,7 +703,6 @@ void decod_audio_ivas_fx( * Decode adaptive (pitch) excitation contribution *---------------------------------------------------------------*/ test(); -#if 1 // def ADD_LRTD test(); test(); test(); @@ -824,9 +713,6 @@ void decod_audio_ivas_fx( IF( !( ( st_fx->GSC_IVAS_mode > 0 ) && EQ_16( idiv1616( st_fx->L_frame, nb_subfr ), 2 * L_SUBFR ) && LT_16( st_fx->GSC_IVAS_mode, 3 ) ) && ( ( GE_32( st_fx->core_brate, MIN_RATE_FCB ) || st_fx->GSC_noisy_speech ) && ( ( EQ_16( nb_subfr, NB_SUBFR ) && EQ_16( st_fx->L_frame, L_FRAME ) ) || ( EQ_16( nb_subfr, NB_SUBFR16k ) && EQ_16( st_fx->L_frame, L_FRAME16k ) ) ) ) ) -#else - IF( EQ_16( st_fx->GSC_noisy_speech, 1 ) && EQ_16( nb_subfr, NB_SUBFR ) ) -#endif { Word16 indice; nbits = Es_pred_bits_tbl[BIT_ALLOC_IDX_fx( st_fx->core_brate, GENERIC, -1, -1 )]; /* Q0 */ @@ -841,11 +727,9 @@ void decod_audio_ivas_fx( Es_pred_dec_fx( &Es_pred, indice, nbits, 0 ); } -#if 1 // def ADD_LRTD + dec_pit_exc_ivas_fx( st_fx, Aq, st_fx->coder_type, Es_pred, pitch_buf, code, exc, bwe_exc, nb_subfr, gain_buf, tdm_Pitch_reuse_flag, tdm_Pri_pitch_buf ); -#else - dec_pit_exc_fx( st_fx, Aq, st_fx->coder_type, Es_pred, pitch_buf, code, exc, bwe_exc, nb_subfr, gain_buf ); -#endif + IF( LT_32( st_fx->core_brate, ACELP_9k60 ) ) { minimum_fx( pitch_buf, shr( st_fx->L_frame, 6 ), &low_pit ); @@ -977,29 +861,20 @@ void decod_audio_ivas_fx( tmp_nb_bits_tot = st_fx->next_bit_pos; /* Q0 */ move16(); -#if 1 // def IVAS_CODE + if ( st_fx->extl_brate_orig > 0 ) -#else - if ( st_fx->extl_brate > 0 ) -#endif { /* subtract 1 bit for TBE/BWE BWE flag (bit counted in extl_brate) */ tmp_nb_bits_tot = sub( tmp_nb_bits_tot, 1 ); /* Q0 */ } - test(); -#if 1 // defined ADD_LRTD test(); if ( st_fx->coder_type == INACTIVE && LE_32( st_fx->core_brate, ACELP_9k60 ) && st_fx->idchan == 0 ) -#else - if ( EQ_16( st_fx->coder_type, INACTIVE ) && LE_32( st_fx->core_brate, ACELP_9k60 ) ) -#endif { tmp_nb_bits_tot = add( tmp_nb_bits_tot, 5 ); /* Q0 */ } -#if 1 // ydef ADD_LRTD IF( EQ_16( st_fx->idchan, 1 ) ) { tmp_nb_bits_tot = add( tmp_nb_bits_tot, TDM_SIGNAL_BITS_READ_FROM_THE_END_OF_BS ); /* Q0 */ @@ -1008,7 +883,7 @@ void decod_audio_ivas_fx( tmp_nb_bits_tot = sub( tmp_nb_bits_tot, STEREO_BITS_TCA ); /* Q0 */ } } -#endif + Word16 Q_exc_old = st_fx->Q_exc; move16(); gsc_dec_ivas_fx( st_fx, dct_epit, pit_band_idx, Diff_len, tmp_nb_bits_tot, nb_subfr, st_fx->coder_type, &last_bin, lsf_new, exc_wo_nf, &st_fx->Q_exc ); @@ -1105,7 +980,6 @@ void gsc_dec_fx( Word16 Q_exc ) { Word16 i, j, bit, nb_subbands, pvq_len; -#if 1 // def ADD_LRTD Word16 bitallocation_band[MBANDS_GN_BITALLOC16k]; Word16 bitallocation_exc[2]; Word16 Ener_per_bd_iQ[MBANDS_GN_BITALLOC16k]; @@ -1113,15 +987,6 @@ void gsc_dec_fx( Word16 exc_diffQ[L_FRAME16k]; Word16 bits_per_bands[MBANDS_GN_BITALLOC16k]; Word16 concat_out[L_FRAME16k]; -#else - Word16 bitallocation_band[MBANDS_GN]; - Word16 bitallocation_exc[2]; - Word16 Ener_per_bd_iQ[MBANDS_GN]; - Word16 max_ener_band[MBANDS_GN]; - Word16 exc_diffQ[L_FRAME]; - Word16 bits_per_bands[MBANDS_GN]; - Word16 concat_out[L_FRAME]; -#endif Word16 inpulses_fx[NB_SFM]; Word16 imaxpulse_fx[NB_SFM]; Word16 mean_gain; @@ -1145,22 +1010,7 @@ void gsc_dec_fx( *--------------------------------------------------------------------------------------*/ bit = bits_used; move16(); -#ifdef ADD_LRTD - test(); - test(); - test(); - test(); - IF( EQ_16( coder_type, INACTIVE ) && ( EQ_16( st_fx->tdm_LRTD_flag, 1 ) || EQ_16( st_fx->element_mode, IVAS_SCE ) ) && LE_32( st_fx->core_brate, GSC_LRES_GAINQ_LIMIT ) ) - { - bit = add( bit, GSC_LRES_NB_NITS ); - } - IF( EQ_16( st_fx->L_frame, L_FRAME16k ) ) - { - Mbands_gn = MBANDS_GN16k; - move16(); - } -#endif set16_fx( exc_diffQ, 0, st_fx->L_frame ); /*--------------------------------------------------------------------------------------* @@ -1184,33 +1034,8 @@ void gsc_dec_fx( } ELSE { - -#ifdef ADD_LRTD - i = 0; - move16(); - While( LT_16( i, SIZE_BRATE_INTERMED_TBL ) ) - { - IF( LQ_32( st_fx->core_brate, brate_intermed_tbl[i] ) ) - { - break; - } - i = add( i, 1 ); - } - - test(); - test(); - test(); - test(); - IF( GT_16( st_fx->element_mode, EVS_MONO ) > &&EQ_16( coder_type, AUDIO ) && - LE_32( st_fx->core_brate, STEREO_GSC_BIT_RATE_ALLOC ) && EQ_32( brate_intermed_tbl[i], ACELP_9k60 ) ) /* Bit allocation is mapped to 8 kb/s instead of 9.6 kb/s in this case */ - { - i--; - } - mean_gain = gsc_gaindec_fx( st_fx, Ener_per_bd_iQ, brate_intermed_tbl[i], hGSCDec->old_y_gain_fx, coder_type, st_fx->bwidth ); - -#else mean_gain = gsc_gaindec_fx( st_fx, Ener_per_bd_iQ, st_fx->core_brate, hGSCDec->old_y_gain_fx, coder_type, st_fx->bwidth ); /* Q12 */ -#endif + st_fx->lp_gainc_fx = mult_r( 640, mean_gain ); /*10 in Q6 x Q12 -> lp_gainc in Q3 */ move16(); } @@ -1236,10 +1061,7 @@ void gsc_dec_fx( * reduce spectral dynamic * save spectrum *--------------------------------------------------------------------------------------*/ -#ifdef ADD_LRTD - max_eq = 32767; - move16(); -#endif + test(); IF( EQ_16( st_fx->last_good, INACTIVE_CLAS ) || EQ_16( st_fx->Last_GSC_noisy_speech_flag, 1 ) ) { @@ -1270,12 +1092,6 @@ void gsc_dec_fx( max_ener_band, bits_per_bands, &nb_subbands, NULL, NULL, &pvq_len, coder_type, st_fx->bwidth, st_fx->GSC_noisy_speech, st_fx->L_frame, st_fx->element_mode, st_fx->GSC_IVAS_mode ); -#ifdef ADD_LRTD - if ( bit == 0 ) - { - set16_fx( concact_out, 0, L_FRAME16k ); - } -#endif { pvq_core_dec_fx( st_fx, gsc_sfm_start, gsc_sfm_end, gsc_sfm_size, concat_out, &Q_tmp, bit, nb_subbands, bits_per_bands, NULL, inpulses_fx, imaxpulse_fx, ACELP_CORE ); Scale_sig( concat_out, gsc_sfm_end[nb_subbands - 1], sub( Q_PVQ_OUT, Q_tmp ) ); /* Q_PVQ_OUT */ @@ -1283,17 +1099,6 @@ void gsc_dec_fx( seed_init = 0; move16(); -#ifdef ADD_LRTD - max_eq = 0.0f; - max_eq_val = 1.0f; - - if ( ( ( st_fx->core_brate < ACELP_7k20 && st_fx->GSC_noisy_speech == 1 ) || st_fx->core_brate < 6000 ) && coder_type <= UNVOICED ) - { - j = emaximum( concat_out, nb_subbands * 16, &max_eq ); - max_eq = (float) ( max_eq_val / ( fabs( concat_out[j] ) + 0.01f ) ); - max_eq = min( max_eq_val, max_eq ); - } -#endif /* Reorder Q bands */ FOR( j = 0; j < nb_subbands; j++ ) { @@ -1350,34 +1155,8 @@ void gsc_dec_fx( * Find x pulses between 1.6-3.2kHz to code in the spectrum of the residual signal * Gain is based on the inter-correlation gain between the pulses found and residual signal *--------------------------------------------------------------------------------------*/ -#ifdef ADD_LRTD - test(); - test(); - test(); - test(); - test(); - test(); - IF( GE_16( st_fx->GSC_IVAS_mode, 1 ) && EQ_16( st_fx->GSC_noisy_speech, 1 ) ) - { - FOR( i = 64; i < st_fx->L_frame; i++ ) - { - PMT( "GSC FIX point to be done here" ) - exc_diffQ[i] *= max_eq; - } - } - ELSE IF( ( ( LT_32( st_fx->core_brate, ACELP_7k20 ) && EQ_16( st_fx->GSC_noisy_speech, 1 ) ) || LT_32( st_fx->core_brate, 6000 ) ) && LE_16( st_fx->coder_type, UNVOICED ) ) - { - FOR( i = 0; i < L_FRAME; i++ ) - { - PMT( "GSC FIX point to be done here" ) - exc_diffQ[i] *= max_eq; - } - } - else -#endif - { - freq_dnw_scaling_fx( hGSCDec->cor_strong_limit, st_fx->coder_type, hGSCDec->noise_lev, st_fx->core_brate, exc_diffQ, Qexc_diffQ, st_fx->L_frame ); - } + + freq_dnw_scaling_fx( hGSCDec->cor_strong_limit, st_fx->coder_type, hGSCDec->noise_lev, st_fx->core_brate, exc_diffQ, Qexc_diffQ, st_fx->L_frame ); } /*--------------------------------------------------------------------------------------* @@ -1432,7 +1211,6 @@ void gsc_dec_ivas_fx( Word16 *Q_exc ) { Word16 i, j, bit, nb_subbands, pvq_len; -#if 1 // def ADD_LRTD Word16 bitallocation_band[MBANDS_GN_BITALLOC16k]; Word16 bitallocation_exc[2]; Word16 Ener_per_bd_iQ[MBANDS_GN_BITALLOC16k]; @@ -1441,19 +1219,10 @@ void gsc_dec_ivas_fx( Word16 bits_per_bands[MBANDS_GN_BITALLOC16k]; Word16 concat_out[L_FRAME16k]; Word16 max_eq, max_eq_val; -#else - Word16 bitallocation_band[MBANDS_GN]; - Word16 bitallocation_exc[2]; - Word16 Ener_per_bd_iQ[MBANDS_GN]; - Word16 max_ener_band[MBANDS_GN]; - Word16 exc_diffQ[L_FRAME]; - Word16 bits_per_bands[MBANDS_GN]; - Word16 concat_out[L_FRAME]; -#endif Word16 inpulses_fx[NB_SFM]; Word16 imaxpulse_fx[NB_SFM]; Word16 mean_gain; - Word16 Mbands_gn = 16; + Word16 Mbands_gn = MBANDS_GN; Word16 Qexc_diffQ = Q_PVQ_OUT; Word32 L_tmp; Word16 Q_tmp; @@ -1461,8 +1230,8 @@ void gsc_dec_ivas_fx( GSC_DEC_HANDLE hGSCDec; hGSCDec = st_fx->hGSCDec; - move16(); // for Mbands_gn - move16(); // for Qexc_diffQ + move16(); /* for Mbands_gn */ + move16(); /* for Qexc_diffQ */ set16_fx( inpulses_fx, 0, NB_SFM ); set16_fx( imaxpulse_fx, 0, NB_SFM ); @@ -1471,7 +1240,7 @@ void gsc_dec_ivas_fx( *--------------------------------------------------------------------------------------*/ bit = bits_used; move16(); -#if 1 // def ADD_LRTD + test(); test(); test(); @@ -1485,7 +1254,7 @@ void gsc_dec_ivas_fx( Mbands_gn = MBANDS_GN16k; /* Q0 */ move16(); } -#endif + set16_fx( exc_diffQ, 0, st_fx->L_frame ); /*--------------------------------------------------------------------------------------* @@ -1509,8 +1278,6 @@ void gsc_dec_ivas_fx( } ELSE { - -#if 1 // def ADD_LRTD i = 0; move16(); WHILE( LT_16( i, SIZE_BRATE_INTERMED_TBL ) ) @@ -1532,9 +1299,6 @@ void gsc_dec_ivas_fx( } mean_gain = gsc_gaindec_ivas_fx( st_fx, Ener_per_bd_iQ, brate_intermed_tbl[i], hGSCDec->old_y_gain_fx, coder_type, st_fx->bwidth ); /* Q3 */ -#else - mean_gain = gsc_gaindec_fx( st_fx, Ener_per_bd_iQ, st_fx->core_brate, hGSCDec->old_y_gain_fx, coder_type, st_fx->bwidth ); -#endif st_fx->lp_gainc_fx = mult_r( 640, mean_gain ); /*10 in Q6 x Q12 -> lp_gainc in Q3 */ move16(); } @@ -1560,17 +1324,17 @@ void gsc_dec_ivas_fx( * reduce spectral dynamic * save spectrum *--------------------------------------------------------------------------------------*/ -#if 1 // def ADD_LRTD + max_eq = 32767; move16(); -#endif + test(); IF( EQ_16( st_fx->last_good, INACTIVE_CLAS ) || EQ_16( st_fx->Last_GSC_noisy_speech_flag, 1 ) ) { FOR( i = 0; i < st_fx->L_frame; i++ ) { L_tmp = L_shr( L_mult( Random( &hGSCDec->seed_tcx ), 26214 ), 5 ); /*Q10*/ - L_tmp = L_mac( L_tmp, hGSCDec->Last_GSC_spectrum_fx[i], 6554 ); /* Q10 */ + L_tmp = L_mac( L_tmp, hGSCDec->Last_GSC_spectrum_fx[i], 6554 ); /*Q10*/ hGSCDec->Last_GSC_spectrum_fx[i] = round_fx( L_tmp ); /*Q10*/ move16(); } @@ -1594,27 +1358,20 @@ void gsc_dec_ivas_fx( max_ener_band, bits_per_bands, &nb_subbands, NULL, NULL, &pvq_len, coder_type, st_fx->bwidth, st_fx->GSC_noisy_speech, st_fx->L_frame, st_fx->element_mode, st_fx->GSC_IVAS_mode ); -#if 1 // def ADD_LRTD IF( bit == 0 ) { set16_fx( concat_out, 0, L_FRAME16k ); } -#endif + + pvq_core_dec_fx( st_fx, gsc_sfm_start, gsc_sfm_end, gsc_sfm_size, concat_out, &Q_tmp, bit, nb_subbands, bits_per_bands, NULL, inpulses_fx, imaxpulse_fx, ACELP_CORE ); + IF( nb_subbands > 0 ) { - pvq_core_dec_fx( st_fx, gsc_sfm_start, gsc_sfm_end, gsc_sfm_size, concat_out, &Q_tmp, bit, nb_subbands, bits_per_bands, NULL, inpulses_fx, imaxpulse_fx, ACELP_CORE ); -#ifdef MSAN_FIX - IF( nb_subbands > 0 ) - { - Scale_sig( concat_out, gsc_sfm_end[nb_subbands - 1], sub( Q_PVQ_OUT, Q_tmp ) ); /* Q_PVQ_OUT */ - } -#else Scale_sig( concat_out, gsc_sfm_end[nb_subbands - 1], sub( Q_PVQ_OUT, Q_tmp ) ); /* Q_PVQ_OUT */ -#endif } + seed_init = 0; move16(); -#if 1 // def ADD_LRTD max_eq = 0; move16(); max_eq_val = 32767; /* 1.0f in Q15 */ @@ -1626,7 +1383,6 @@ void gsc_dec_ivas_fx( IF( ( ( LT_32( st_fx->core_brate, ACELP_7k20 ) && EQ_16( st_fx->GSC_noisy_speech, 1 ) ) || LT_32( st_fx->core_brate, 6000 ) ) && LE_16( coder_type, UNVOICED ) ) { j = maximum_fx( concat_out, imult1616( nb_subbands, 16 ), &max_eq ); - // max_eq = max_eq_val / (abs_s(concat_out[j]) + 328 /*0.01f*/ ); Word16 temp_max_eq = add( abs_s( concat_out[j] ), 10 ) /*0.01f in Q10*/; if ( LE_16( temp_max_eq, ONE_IN_Q10 ) ) { @@ -1641,7 +1397,7 @@ void gsc_dec_ivas_fx( max_eq = shl( max_eq, exp ); /* Q15 */ } } -#endif + /* Reorder Q bands */ FOR( j = 0; j < nb_subbands; j++ ) { @@ -1667,11 +1423,7 @@ void gsc_dec_ivas_fx( } if ( concat_out[j] < 0 ) { -#ifdef BASOP_NOGLOB_TMP_715 seed_init = add_sat( seed_init, 3 ); /* Q0 */ -#else - seed_init = add( seed_init, 3 ); -#endif } } @@ -1701,7 +1453,7 @@ void gsc_dec_ivas_fx( * Find x pulses between 1.6-3.2kHz to code in the spectrum of the residual signal * Gain is based on the inter-correlation gain between the pulses found and residual signal *--------------------------------------------------------------------------------------*/ -#if 1 // def ADD_LRTD + test(); test(); test(); @@ -1710,8 +1462,6 @@ void gsc_dec_ivas_fx( { FOR( i = 64; i < st_fx->L_frame; i++ ) { - // PMT("GSC FIX point to be done here") - // exc_diffQ[i] *= max_eq; exc_diffQ[i] = mult_r( exc_diffQ[i], max_eq ); /* Q_PVQ_OUT */ move16(); } @@ -1720,14 +1470,11 @@ void gsc_dec_ivas_fx( { FOR( i = 0; i < L_FRAME; i++ ) { - // PMT("GSC FIX point to be done here") - // exc_diffQ[i] *= max_eq; exc_diffQ[i] = mult_r( exc_diffQ[i], max_eq ); /* Q_PVQ_OUT */ move16(); } } ELSE -#endif { freq_dnw_scaling_fx( hGSCDec->cor_strong_limit, st_fx->coder_type, hGSCDec->noise_lev, st_fx->core_brate, exc_diffQ, Qexc_diffQ, st_fx->L_frame ); } @@ -1768,17 +1515,11 @@ void GSC_dec_init( move16(); move16(); -#ifdef ADD_LRTD - set16_fx( hGSCDec->Last_GSC_spectrum_fx, 0, L_FRAME16k ); - set16_fx( hGSCDec->last_exc_dct_in_fx, 0, L_FRAME16k ); - set16_fx( hGSCDec->lt_ener_per_band_fx, 4096, MBANDS_GN_BITALLOC16k ); - set16_fx( hGSCDec->old_y_gain_fx, 0, MBANDS_GN_BITALLOC16k ); -#else set16_fx( hGSCDec->Last_GSC_spectrum_fx, 0, L_FRAME ); set16_fx( hGSCDec->last_exc_dct_in_fx, 0, L_FRAME ); set16_fx( hGSCDec->old_y_gain_fx, 0, MBANDS_GN ); set16_fx( hGSCDec->lt_ener_per_band_fx, 4096, MBANDS_GN ); /*Q12*/ -#endif + hGSCDec->last_ener_fx = 0; move16(); set16_fx( hGSCDec->last_bitallocation_band, 0, 6 ); diff --git a/lib_dec/hf_synth_fx.c b/lib_dec/hf_synth_fx.c index c61bf95ce2298f39e258b4d8f1a0e63a8ee639fd..94c7d4c6282edf47fa8278add6362ece82625d00 100644 --- a/lib_dec/hf_synth_fx.c +++ b/lib_dec/hf_synth_fx.c @@ -7,7 +7,6 @@ #include "prot_fx.h" /* Function prototypes */ #include "rom_com.h" /* Static table prototypes */ #include "basop32.h" -#include "prot.h" /*---------------------------------------------------------------------* * Local constants @@ -21,7 +20,7 @@ *---------------------------------------------------------------------*/ static void filt_6k_7k_scale_fx( Word16 signal[], Word16 lg, Word16 mem[], Word16 fact, Word16 exp ); -static void hf_synthesis_fx( ZERO_BWE_DEC_HANDLE hBWE_zero, const Word32 core_brate, const Word16 output_subfr, const Word16 Aq[], const Word16 exc[], const Word16 Q_exc, Word16 synth[], Word16 synth16k[], const Word16 Q_syn, Word16 *delay_syn_hf, Word16 *memExp1, Word16 *mem_hp_interp, const Word16 extl, const Word16 CNG_mode ); +static void hf_synthesis_fx( ZERO_BWE_DEC_HANDLE hBWE_zero, const Word32 core_brate, const Word16 output_subfr, const Word16 Aq[], const Word16 exc[], const Word16 Q_exc, Word16 synth[], Word16 synth16k[], const Word16 Q_syn ); static void hf_synthesis_amr_wb_fx( const Word32 core_brate, const Word16 output_subfr, const Word16 Ap[], Word16 exc16k[], Word16 synth_out[], Word16 *mem_syn_hf, Word16 *delay_syn_hf, Word16 *mem_hp_interp, Word16 p_r, Word16 HF_corr_gain, Word16 til, Word16 voice_factors, const Word16 exc[], const Word16 Q_exc, const Word16 Q_out, Word16 qhf ); static void envelope_fx( AMRWB_IO_DEC_HANDLE hAmrwb_IO, const Word32 core_brate, const Word16 Aq[], Word16 Ap[], Word16 *r, Word16 tilt0, Word16 tilt, Word16 voice_factor ); static void AdaptiveStartBand_fx( Word16 *start_band, const Word32 rate, const Word16 *lsf, const Word16 voicing_fac, const Word16 clas, Word16 *voicing_flag, Word16 *start_band_old, Word32 *OptCrit_old ); @@ -87,12 +86,7 @@ void hf_synth_fx( Word16 *synth, /* i : 12.8kHz synthesis signal Q_syn2*/ Word16 *synth16k, /* o : 16kHz synthesis signal Q_syn2*/ const Word16 Q_exc, /* i : excitation scaling */ - const Word16 Q_syn2, /* i : synthesis scaling */ - Word16 *delay_syn_hf, /*i/o: HF synthesis memory Q_syn2*/ - Word16 *memExp1, /* o : HF excitation exponent */ - Word16 *mem_hp_interp, /* i/o: interpol. memory Qx*/ - const Word16 extl, /* i : flag indicating BWE Q0*/ - const Word16 CNG_mode /* i : CNG_mode Q0*/ + const Word16 Q_syn2 /* i : synthesis scaling */ ) { const Word16 *p_Aq; @@ -104,8 +98,7 @@ void hf_synth_fx( p_Aq = Aq; /* Q12 */ FOR( i_subfr = 0; i_subfr < L_FRAME; i_subfr += L_SUBFR ) { - hf_synthesis_fx( hBWE_zero, core_brate, output_subfr, p_Aq, &exc[i_subfr], Q_exc, &synth[i_subfr], &synth16k[imult3216( (Word32) i_subfr, output_subfr ) / L_SUBFR], - Q_syn2, delay_syn_hf, memExp1, mem_hp_interp, extl, CNG_mode ); + hf_synthesis_fx( hBWE_zero, core_brate, output_subfr, p_Aq, &exc[i_subfr], Q_exc, &synth[i_subfr], &synth16k[imult3216( (Word32) i_subfr, output_subfr ) / L_SUBFR], Q_syn2 ); p_Aq += ( M + 1 ); /* Q12 */ } @@ -133,27 +126,19 @@ static void hf_synthesis_fx( const Word16 Q_exc, /* i : excitation scaling */ Word16 synth[], /* i : 12.8kHz synthesis signal Q_syn*/ Word16 synth16k[], /* i/o: 16kHz synthesis signal Q_syn*/ - const Word16 Q_syn, /* i : synthesis scaling */ - Word16 *delay_syn_hf, /* i/o: HF synthesis memory Q_syn*/ - Word16 *memExp1, /* o : HF excitation scaling exponent */ - Word16 *mem_hp_interp, /* i/o: interpol. memory Qx*/ - const Word16 extl, /* i : flag indicating BWE Q0*/ - const Word16 CNG_mode /* i : CNG_mode Q0*/ + const Word16 Q_syn /* i : synthesis scaling */ ) { - Word16 i; + Word16 i, s; Word16 HF_syn[L_SUBFR16k], upsampled_HF_syn[L_FRAME48k / NB_SUBFR]; Word16 HF_exc[L_SUBFR16k]; - Word16 temp_buffer[NS2SA( 16000, DELAY_CLDFB_NS ) - L_FILT16k]; - Word16 tmp, ener, exp1, exp2, scale, delay; + Word16 tmp, ener, exp1, exp2, scale; Word32 L_tmp; Word16 Ap[M16k + 1]; #ifdef BASOP_NOGLOB_DECLARE_LOCAL Flag Overflow = 0; move32(); #endif - (void) extl; - (void) CNG_mode; /*-----------------------------------------------------------------* * generate white noise vector @@ -189,8 +174,8 @@ static void hf_synthesis_fx( L_tmp = Isqrt_lc( L_tmp, &exp1 ); scale = round_fx( L_tmp ); /* Q18 when Q_exc=-1, HF_exc in Q-3 */ - exp2 = sub( *memExp1, exp1 ); - *memExp1 = exp1; + exp2 = sub( hBWE_zero->memExp1, exp1 ); + hBWE_zero->memExp1 = exp1; move16(); /*-----------------------------------------------------------------* @@ -280,41 +265,31 @@ static void hf_synthesis_fx( *-----------------------------------------------------------------*/ /* delay by 5 samples @16kHz to compensate CLDFB resampling delay (20samples) and HP filtering delay (roughly 15 samples) */ - delay = NS2SA_FX2( 16000, DELAY_CLDFB_NS ) - 15; - Copy( HF_syn + sub( L_SUBFR16k, delay ), temp_buffer, delay ); /* Q_syn+exp1 */ - Copy( HF_syn, HF_syn + delay, sub( L_SUBFR16k, delay ) ); /* Q_syn+exp1 */ - Copy( delay_syn_hf, HF_syn, delay ); /* Q_syn */ - Copy( temp_buffer, delay_syn_hf, delay ); /* Q_syn */ + delay_signal_fx( HF_syn, L_SUBFR16k, hBWE_zero->delay_syn_hf_fx, NS2SA_FX2( 16000, DELAY_CLDFB_NS ) - 15 ); /* interpolate the HF synthesis */ IF( EQ_16( output_subfr, L_SUBFR48k ) ) /* 48kHz sampled output */ { - { - Word16 s; - s = s_max( s_min( sub( s_min( Find_Max_Norm16( HF_syn, L_SUBFR16k ), Find_Max_Norm16( mem_hp_interp, INTERP_3_1_MEM_LEN - 3 ) ), 3 ), - sub( Find_Max_Norm16( mem_hp_interp + INTERP_3_1_MEM_LEN - 3, 3 ), 1 ) ), - 0 ); - Scale_sig( HF_syn, L_SUBFR16k, s ); /* Q_syn+exp1+s */ - Scale_sig( mem_hp_interp, INTERP_3_1_MEM_LEN, s ); /* Qx + s */ - interpolate_3_over_1_allpass_fx( HF_syn, L_SUBFR16k, upsampled_HF_syn, mem_hp_interp ); - Scale_sig( upsampled_HF_syn, 3 * L_SUBFR16k, -s ); /* Q_syn + exp1 + s */ - Scale_sig( mem_hp_interp, INTERP_3_1_MEM_LEN, -s ); /* Qx */ - Scale_sig( HF_syn, L_SUBFR16k, -s ); /* Q_syn+exp1 */ - } + s = s_max( s_min( sub( s_min( Find_Max_Norm16( HF_syn, L_SUBFR16k ), Find_Max_Norm16( hBWE_zero->mem_hp_interp_fx, INTERP_3_1_MEM_LEN - 3 ) ), 3 ), + sub( Find_Max_Norm16( hBWE_zero->mem_hp_interp_fx + INTERP_3_1_MEM_LEN - 3, 3 ), 1 ) ), + 0 ); + Scale_sig( HF_syn, L_SUBFR16k, s ); /* Q_syn+exp1+s */ + Scale_sig( hBWE_zero->mem_hp_interp_fx, INTERP_3_1_MEM_LEN, s ); /* Qx + s */ + interpolate_3_over_1_allpass_fx( HF_syn, L_SUBFR16k, upsampled_HF_syn, hBWE_zero->mem_hp_interp_fx ); + Scale_sig( upsampled_HF_syn, 3 * L_SUBFR16k, -s ); /* Q_syn + exp1 + s */ + Scale_sig( hBWE_zero->mem_hp_interp_fx, INTERP_3_1_MEM_LEN, -s ); /* Qx */ + Scale_sig( HF_syn, L_SUBFR16k, -s ); /* Q_syn+exp1 */ Scale_sig( upsampled_HF_syn, L_SUBFR48k, -1 ); } ELSE IF( EQ_16( output_subfr, L_SUBFR32k ) ) /* 32kHz sampled output */ { - { - Word16 s; - s = s_max( sub( s_min( Find_Max_Norm16( HF_syn, L_SUBFR16k ), Find_Max_Norm16( mem_hp_interp, 2 * ALLPASSSECTIONS_STEEP ) ), 2 ), 0 ); - Scale_sig( HF_syn, L_SUBFR16k, s ); /* Q_syn+exp1+s */ - Scale_sig( mem_hp_interp, 2 * ALLPASSSECTIONS_STEEP, s ); /* Qx + s */ - Interpolate_allpass_steep_fx( HF_syn, mem_hp_interp, L_SUBFR16k, upsampled_HF_syn ); - Scale_sig( upsampled_HF_syn, 2 * L_SUBFR16k, -s ); /* Q_syn + exp1 */ - Scale_sig( mem_hp_interp, 2 * ALLPASSSECTIONS_STEEP, -s ); /* Qx */ - Scale_sig( HF_syn, L_SUBFR16k, -s ); /* Q_syn+exp1 */ - } + s = s_max( sub( s_min( Find_Max_Norm16( HF_syn, L_SUBFR16k ), Find_Max_Norm16( hBWE_zero->mem_hp_interp_fx, 2 * ALLPASSSECTIONS_STEEP ) ), 2 ), 0 ); + Scale_sig( HF_syn, L_SUBFR16k, s ); /* Q_syn+exp1+s */ + Scale_sig( hBWE_zero->mem_hp_interp_fx, 2 * ALLPASSSECTIONS_STEEP, s ); /* Qx + s */ + Interpolate_allpass_steep_fx( HF_syn, hBWE_zero->mem_hp_interp_fx, L_SUBFR16k, upsampled_HF_syn ); + Scale_sig( upsampled_HF_syn, 2 * L_SUBFR16k, -s ); /* Q_syn + exp1 */ + Scale_sig( hBWE_zero->mem_hp_interp_fx, 2 * ALLPASSSECTIONS_STEEP, -s ); /* Qx */ + Scale_sig( HF_syn, L_SUBFR16k, -s ); /* Q_syn+exp1 */ } ELSE /* 16kHz sampled output */ { @@ -1151,7 +1126,8 @@ static void hf_synthesis_amr_wb_fx( * Synchronize LB and HB components (delay componsation) * Add synthesised high band to speech synthesis *-----------------------------------------------------------------*/ - delay_signal( HF_syn, L_SUBFR16k, delay_syn_hf, NS2SA( 16000, DELAY_CLDFB_NS ) ); + + delay_signal_fx( HF_syn, L_SUBFR16k, delay_syn_hf, NS2SA( 16000, DELAY_CLDFB_NS ) ); IF( EQ_16( output_subfr, L_SUBFR48k ) ) /* 48kHz sampled output */ { diff --git a/lib_dec/hq_core_dec_fx.c b/lib_dec/hq_core_dec_fx.c index 626f25ef4861d56dfdc4a97bf817b3929084e0a2..4d1ef677471054485e43ff9c2a27c3b2058f86d3 100644 --- a/lib_dec/hq_core_dec_fx.c +++ b/lib_dec/hq_core_dec_fx.c @@ -6,7 +6,6 @@ #include "cnst.h" /* Common constants */ #include "prot_fx.h" /* Function prototypes */ #include "rom_com.h" /* Static table prototypes */ -#include "prot.h" #include "ivas_prot_fx.h" /*-------------------------------------------------------------------------- * hq_core_dec() @@ -491,30 +490,18 @@ void hq_core_dec_fx( test(); test(); test(); - IF( !st_fx->bfi && st_fx->prev_bfi && GE_32( st_fx->last_total_brate, HQ_48k ) && EQ_16( st_fx->last_codec_mode, MODE2 ) && ( EQ_16( st_fx->last_core_bfi, TCX_20_CORE ) || EQ_16( st_fx->last_core_bfi, TCX_10_CORE ) ) && st_fx->plcInfo.concealment_method == TCX_NONTONAL && LT_32( st_fx->plcInfo.nbLostCmpt, 4 ) ) + IF( !st_fx->bfi && st_fx->prev_bfi && GE_32( st_fx->last_total_brate, HQ_48k ) && EQ_16( st_fx->last_codec_mode, MODE2 ) && ( EQ_16( st_fx->last_core_bfi, TCX_20_CORE ) || EQ_16( st_fx->last_core_bfi, TCX_10_CORE ) ) && st_fx->hPlcInfo->concealment_method == TCX_NONTONAL && LT_32( st_fx->hPlcInfo->nbLostCmpt, 4 ) ) { - st_fx->plcInfo.recovery_gain = shl_sat( st_fx->plcInfo.recovery_gain, *Q_synth ); /* Q14 + Q_synth */ + st_fx->hPlcInfo->recovery_gain = shl_sat( st_fx->hPlcInfo->recovery_gain, *Q_synth ); /* Q14 + Q_synth */ move16(); - IF( st_fx->tonalMDCTconceal.q_lastPcmOut != 0 ) + IF( st_fx->hTonalMDCTConc->q_lastPcmOut != 0 ) { - Scale_sig( st_fx->tonalMDCTconceal.secondLastPcmOut, shr( st_fx->plcInfo.FrameSize, 1 ), negate( st_fx->tonalMDCTconceal.q_lastPcmOut ) ); - Scale_sig( st_fx->tonalMDCTconceal.lastPcmOut, st_fx->plcInfo.FrameSize, negate( st_fx->tonalMDCTconceal.q_lastPcmOut ) ); - st_fx->tonalMDCTconceal.q_lastPcmOut = 0; + Scale_sig( st_fx->hTonalMDCTConc->secondLastPcmOut, shr( st_fx->hPlcInfo->L_frameTCX, 1 ), negate( st_fx->hTonalMDCTConc->q_lastPcmOut ) ); + Scale_sig( st_fx->hTonalMDCTConc->lastPcmOut, st_fx->hPlcInfo->L_frameTCX, negate( st_fx->hTonalMDCTConc->q_lastPcmOut ) ); + st_fx->hTonalMDCTConc->q_lastPcmOut = 0; move16(); } - waveform_adj2_fix( st_fx->tonalMDCTconceal.secondLastPcmOut, - synth, - st_fx->plcInfo.data_noise, - &st_fx->plcInfo.outx_new_n1_fx, - &st_fx->plcInfo.nsapp_gain_fx, - &st_fx->plcInfo.nsapp_gain_n_fx, - &st_fx->plcInfo.recovery_gain, - st_fx->plcInfo.step_concealgain_fx, - st_fx->plcInfo.Pitch_fx, - st_fx->plcInfo.FrameSize, - 0, - add( extract_l( st_fx->plcInfo.nbLostCmpt ), 1 ), - st_fx->bfi ); + waveform_adj2_fix( st_fx->hPlcInfo, st_fx->hTonalMDCTConc->secondLastPcmOut, synth, 0, add( extract_l( st_fx->hPlcInfo->nbLostCmpt ), 1 ), st_fx->bfi ); } IF( GE_16( output_frame, L_FRAME16k ) ) @@ -640,9 +627,7 @@ void ivas_hq_core_dec_fx( set16_fx( gapsynth_fx, 0, L_FRAME48k ); set16_fx( num_bands_p, 0, MAX_SB_NB ); set16_fx( ynrm, 39, NB_SFM ); /* Initialize to the smallest value */ -#ifdef MSAN_FIX set16_fx( wtda_audio_16, 0, 2 * L_FRAME48k ); -#endif mean_en_high_fx = 0; move16(); Q_audio = 12; @@ -964,9 +949,6 @@ void ivas_hq_core_dec_fx( index = tcx_cfg->tcx_last_overlap_mode; /* Q0 */ move16(); -#ifndef MSAN_FIX - Copy_Scale_sig_32_16( wtda_audio, wtda_audio_16, 2 * L_FRAME48k, -13 ); -#endif /* LB synthesis */ E_audio = sub( 31, Q_audio ); @@ -1123,30 +1105,18 @@ void ivas_hq_core_dec_fx( test(); test(); test(); - IF( !st_fx->bfi && st_fx->prev_bfi && GE_32( st_fx->last_total_brate, HQ_48k ) && EQ_16( st_fx->last_codec_mode, MODE2 ) && ( EQ_16( st_fx->last_core_bfi, TCX_20_CORE ) || EQ_16( st_fx->last_core_bfi, TCX_10_CORE ) ) && EQ_16( st_fx->plcInfo.concealment_method, TCX_NONTONAL ) && LT_32( st_fx->plcInfo.nbLostCmpt, 4 ) ) + IF( !st_fx->bfi && st_fx->prev_bfi && GE_32( st_fx->last_total_brate, HQ_48k ) && EQ_16( st_fx->last_codec_mode, MODE2 ) && ( EQ_16( st_fx->last_core_bfi, TCX_20_CORE ) || EQ_16( st_fx->last_core_bfi, TCX_10_CORE ) ) && EQ_16( st_fx->hPlcInfo->concealment_method, TCX_NONTONAL ) && LT_32( st_fx->hPlcInfo->nbLostCmpt, 4 ) ) { - st_fx->plcInfo.recovery_gain = shl_sat( st_fx->plcInfo.recovery_gain, *Q_synth ); /* Q15 */ + st_fx->hPlcInfo->recovery_gain = shl_sat( st_fx->hPlcInfo->recovery_gain, *Q_synth ); /* Q15 */ move16(); - IF( st_fx->tonalMDCTconceal.q_lastPcmOut != 0 ) + IF( st_fx->hTonalMDCTConc->q_lastPcmOut != 0 ) { - Scale_sig( st_fx->tonalMDCTconceal.secondLastPcmOut, shr( st_fx->plcInfo.FrameSize, 1 ), negate( st_fx->tonalMDCTconceal.q_lastPcmOut ) ); - Scale_sig( st_fx->tonalMDCTconceal.lastPcmOut, st_fx->plcInfo.FrameSize, negate( st_fx->tonalMDCTconceal.q_lastPcmOut ) ); - st_fx->tonalMDCTconceal.q_lastPcmOut = 0; + Scale_sig( st_fx->hTonalMDCTConc->secondLastPcmOut, shr( st_fx->hPlcInfo->L_frameTCX, 1 ), negate( st_fx->hTonalMDCTConc->q_lastPcmOut ) ); + Scale_sig( st_fx->hTonalMDCTConc->lastPcmOut, st_fx->hPlcInfo->L_frameTCX, negate( st_fx->hTonalMDCTConc->q_lastPcmOut ) ); + st_fx->hTonalMDCTConc->q_lastPcmOut = 0; move16(); } - waveform_adj2_fix( st_fx->tonalMDCTconceal.secondLastPcmOut, - synth, - st_fx->plcInfo.data_noise, - &st_fx->plcInfo.outx_new_n1_fx, - &st_fx->plcInfo.nsapp_gain_fx, - &st_fx->plcInfo.nsapp_gain_n_fx, - &st_fx->plcInfo.recovery_gain, - st_fx->plcInfo.step_concealgain_fx, - st_fx->plcInfo.Pitch_fx, - st_fx->plcInfo.FrameSize, - 0, - add( extract_l( st_fx->plcInfo.nbLostCmpt ), 1 ), - st_fx->bfi ); + waveform_adj2_fix( st_fx->hPlcInfo, st_fx->hTonalMDCTConc->secondLastPcmOut, synth, 0, add( extract_l( st_fx->hPlcInfo->nbLostCmpt ), 1 ), st_fx->bfi ); } IF( GE_16( output_frame, L_FRAME16k ) ) @@ -1226,17 +1196,15 @@ void HQ_core_dec_init_fx( ) { set16_fx( hHQ_core->old_out_fx, 0, L_FRAME48k ); + set32_fx( hHQ_core->old_out_fx32, 0, L_FRAME48k ); set16_fx( hHQ_core->old_out_LB_fx, 0, L_FRAME32k ); - set32_fx( hHQ_core->oldOut_fx, 0, L_FRAME48k ); - set32_fx( hHQ_core->old_outLB_fx, 0, L_FRAME32k ); + set32_fx( hHQ_core->old_out_LB_fx32, 0, L_FRAME32k ); hHQ_core->Q_old_wtda = 15; hHQ_core->Q_old_postdec = 0; hHQ_core->Q_old_wtda_LB = 0; move16(); move16(); move16(); - move16(); - move16(); hHQ_core->last_hq_core_type = -1; /* Q0 */ move16(); diff --git a/lib_dec/hq_hr_dec_fx.c b/lib_dec/hq_hr_dec_fx.c index f96b8f59787008b5a1eb5bee0f584f417e4563c6..89864bc3b7f272c2c992b4f253242c0d7217b5e5 100644 --- a/lib_dec/hq_hr_dec_fx.c +++ b/lib_dec/hq_hr_dec_fx.c @@ -61,7 +61,7 @@ void ivas_hq_pred_hb_bws_fx( IF( GE_16( st_fx->last_inner_frame, L_FRAME32k ) && st_fx->hBWE_FD != NULL ) { - set16_fx( st_fx->prev_SWB_fenv_fx, st_fx->prev_ener_shb_fx, SWB_FENV ); + set16_fx( st_fx->hBWE_FD->prev_SWB_fenv_fx, st_fx->prev_ener_shb_fx, SWB_FENV ); } return; @@ -100,7 +100,6 @@ void hq_pred_hb_bws_fx( } ELSE { -#ifdef EVS_FUNC_MODIFIED st_fx->prev_ener_shb_fx = 0; move16(); L_tmp = L_deposit_l( 0 ); @@ -111,21 +110,12 @@ void hq_pred_hb_bws_fx( L_tmp = Mpy_32_16_1( L_tmp, 2979 ); // Q1 st_fx->prev_ener_shb_fx = extract_l( L_tmp ); /*Q1*/ move16(); -#else - st_fx->prev_ener_shb_fx = 0; - move16(); - FOR( i = 0; i < SWB_FENV - 3; i++ ) - { - st_fx->prev_ener_shb_fx = add( st_fx->prev_ener_shb_fx, SWB_fenv[i] ); /*Q1*/ - } - st_fx->prev_ener_shb_fx = mult( st_fx->prev_ener_shb_fx, 2979 ); /*Q1*/ -#endif } } IF( GE_16( st_fx->last_inner_frame, L_FRAME32k ) ) { - set16_fx( st_fx->prev_SWB_fenv_fx, st_fx->prev_ener_shb_fx, SWB_FENV ); + set16_fx( st_fx->hBWE_FD->prev_SWB_fenv_fx, st_fx->prev_ener_shb_fx, SWB_FENV ); } return; diff --git a/lib_dec/hq_lr_dec_fx.c b/lib_dec/hq_lr_dec_fx.c index 61c1d0938eef3222ee6e0366fbdcb2f284aa9f85..7d5d6a34b907255f65e9d83ee0e0224c686ba7aa 100644 --- a/lib_dec/hq_lr_dec_fx.c +++ b/lib_dec/hq_lr_dec_fx.c @@ -893,7 +893,7 @@ void hq_lr_dec_fx( test(); IF( GE_16( st_fx->last_inner_frame, L_FRAME32k ) && st_fx->hBWE_FD != NULL ) { - set16_fx( st_fx->prev_SWB_fenv_fx, st_fx->prev_ener_shb_fx, SWB_FENV ); + set16_fx( st_fx->hBWE_FD->prev_SWB_fenv_fx, st_fx->prev_ener_shb_fx, SWB_FENV ); } updat_prev_frm_fx( L_y2, L_yout, L_bwe_br, length_fx, inner_frame, bands_fx, st_fx->bwidth, *is_transient_fx, hqswb_clas_fx, &hHQ_core->prev_hqswb_clas, diff --git a/lib_dec/igf_dec_fx.c b/lib_dec/igf_dec_fx.c index 4f74c31ca8f1484fb0b9066555abc59658062070..5c2bff4e734aaae0f107ec51e57e00d68e294e14 100644 --- a/lib_dec/igf_dec_fx.c +++ b/lib_dec/igf_dec_fx.c @@ -8,10 +8,8 @@ #include #include "options.h" #include "stl.h" -#include "prot.h" -#include "ivas_prot.h" -#include "ivas_prot_fx.h" #include "prot_fx.h" +#include "ivas_prot_fx.h" #include "cnst.h" #include "stat_dec.h" #include "basop_util.h" @@ -125,8 +123,8 @@ return noise; } static Word16 ivas_IGF_replaceTCXNoise_1_fx( /**< out: Q0 | number of noise bands */ - const Word32 *in, /**< in: Q31 | MDCT spectrum */ - Word16 s_l, /**< in: Q0 | noise headroom */ + const Word32 *in, /**< in: in_exp | MDCT spectrum */ + Word16 in_exp, /**< in: Q0 | noise headroom */ const Word16 *TCXNoise, /**< in: Q0 | tcx noise indicator vector */ const Word16 start, /**< in: Q0 | start MDCT subband index */ const Word16 stop, /**< in: Q0 | stop MDCT subband index */ @@ -134,41 +132,44 @@ static Word16 ivas_IGF_replaceTCXNoise_1_fx( /**< out: Q Word16 *totalNoiseNrg_exp ) { Word16 sb; - Word16 tmp16; + Word16 tmp16, shift; Word16 noise; + Word32 tmp32; Word64 nE; - tmp16 = 0; + shift = 2; move16(); noise = 0; move16(); - s_l = sub( s_l, 5 ); nE = 0; move64(); + *totalNoiseNrg = 0; + move32(); + *totalNoiseNrg_exp = 0; + move16(); + FOR( sb = start; sb < stop; sb++ ) { IF( TCXNoise[sb] ) { - tmp16 = extract_h( L_shl( in[sb], s_l ) ); // Q31 + s_l - } - IF( TCXNoise[sb] ) - { - nE = W_mac_16_16( nE, tmp16, tmp16 ); // Q31 + s_l - } - IF( TCXNoise[sb] ) - { - noise = add( noise, 1 ); // Q0 + tmp32 = L_shr( in[sb], shift ); + nE = W_mac_32_32( nE, tmp32, tmp32 ); // 62 - (in_exp + shift + in_exp + shift + 1) + noise = add( noise, 1 ); } } - tmp16 = W_norm( nE ); - nE = W_shl( nE, tmp16 ); - *totalNoiseNrg = W_extract_h( nE ); - move32(); - *totalNoiseNrg_exp = sub( tmp16, 32 ); - move16(); + IF( nE ) + { + tmp16 = W_norm( nE ); + nE = W_shl( nE, tmp16 ); + *totalNoiseNrg = W_extract_h( nE ); + move32(); + *totalNoiseNrg_exp = sub( add( shl( shift, 1 ), shl( in_exp, 1 ) ), tmp16 ); + move16(); + } + return noise; } @@ -897,9 +898,9 @@ static void IGF_prepStereo( Word16 *igf_specL_e_arr, /* i/o: prepared left IGF spectrum exponents for each index */ Word32 *igf_specR_fx, /* i/o: prepared right IGF spectrum */ Word16 *igf_specR_e_arr, /* i/o: prepared right IGF spectrum exponents for each index */ - const Word32 *src_specL_fx, /* i : left source spectrum */ + Word32 *src_specL_fx, /* i : left source spectrum */ const Word16 src_specL_e, /* i : left source spectrum exp */ - const Word32 *src_specR_fx, /* i : right source spectrum */ + Word32 *src_specR_fx, /* i : right source spectrum */ const Word16 src_specR_e, /* i : right source spectrum exp */ const Word16 *coreMsMask /* i : line wise ms Mask Q0 */ ) @@ -966,15 +967,15 @@ static void IGF_prepStereo( { IF( hPrivateDataL->n_noise_bands_off ) { - IGF_replaceTCXNoise_2_new_ivas_with_var_shift( igf_specL_fx, - igf_specL_e_arr, - TCXNoiseL, - strt_cpy, - stop, - hPrivateDataL->totalNoiseNrg_off, - hPrivateDataL->totalNoiseNrg_off_exp, - hPrivateDataL->n_noise_bands_off, - hInfoL->nfSeed ); + IGF_replaceTCXNoise_2_new_ivas( src_specL_fx, + src_specL_e, + TCXNoiseL, + strt_cpy, + stop, + hPrivateDataL->totalNoiseNrg_off, + hPrivateDataL->totalNoiseNrg_off_exp, + hPrivateDataL->n_noise_bands_off, + hInfoL->nfSeed ); } selectionL = 1; move16(); @@ -1001,15 +1002,15 @@ static void IGF_prepStereo( { IF( hPrivateDataR->n_noise_bands_off ) { - IGF_replaceTCXNoise_2_new_ivas_with_var_shift( igf_specR_fx, - igf_specR_e_arr, - TCXNoiseR, - strt_cpy, - stop, - hPrivateDataR->totalNoiseNrg_off, - hPrivateDataR->totalNoiseNrg_off_exp, - hPrivateDataR->n_noise_bands_off, - hInfoR->nfSeed ); + IGF_replaceTCXNoise_2_new_ivas( src_specR_fx, + src_specR_e, + TCXNoiseR, + strt_cpy, + stop, + hPrivateDataR->totalNoiseNrg_off, + hPrivateDataR->totalNoiseNrg_off_exp, + hPrivateDataR->n_noise_bands_off, + hInfoR->nfSeed ); } selectionR = 1; move16(); @@ -1131,15 +1132,15 @@ static void IGF_prepStereo( { IF( hPrivateDataL->n_noise_bands_off ) { - IGF_replaceTCXNoise_2_new_ivas_with_var_shift( igf_specL_fx, - igf_specL_e_arr, - TCXNoiseL, - strt_cpy, - stop, - hPrivateDataL->totalNoiseNrg_off, - hPrivateDataL->totalNoiseNrg_off_exp, - hPrivateDataL->n_noise_bands_off, - hInfoL->nfSeed ); + IGF_replaceTCXNoise_2_new_ivas( src_specL_fx, + src_specL_e, + TCXNoiseL, + strt_cpy, + stop, + hPrivateDataL->totalNoiseNrg_off, + hPrivateDataL->totalNoiseNrg_off_exp, + hPrivateDataL->n_noise_bands_off, + hInfoL->nfSeed ); } selectionL = 1; move16(); @@ -1166,15 +1167,15 @@ static void IGF_prepStereo( { IF( hPrivateDataR->n_noise_bands_off ) { - IGF_replaceTCXNoise_2_new_ivas_with_var_shift( igf_specR_fx, - igf_specR_e_arr, - TCXNoiseR, - strt_cpy, - stop, - hPrivateDataR->totalNoiseNrg_off, - hPrivateDataR->totalNoiseNrg_off_exp, - hPrivateDataR->n_noise_bands_off, - hInfoR->nfSeed ); + IGF_replaceTCXNoise_2_new_ivas( src_specR_fx, + src_specR_e, + TCXNoiseR, + strt_cpy, + stop, + hPrivateDataR->totalNoiseNrg_off, + hPrivateDataR->totalNoiseNrg_off_exp, + hPrivateDataR->n_noise_bands_off, + hInfoR->nfSeed ); } selectionR = 1; move16(); @@ -2885,7 +2886,6 @@ static void IGF_getWhiteSpectralData_ivas( Word16 j; Word32 ak; Word16 ak_e; - Word16 tmp_16; Word16 tmp_e; Word16 out_e_arr[IGF_START_MX + MAX_IGF_SFB_LEN]; Word16 max_out_e; @@ -2904,48 +2904,51 @@ static void IGF_getWhiteSpectralData_ivas( Word16 guard_bits = add( find_guarded_bits_fx( add( i_mult( 2, level ), 1 ) ), 1 ) / 2; s_l = sub( s_l, guard_bits ); + Word16 shift = sub( shl( s_l, 1 ), 32 ); + Word16 eff_e = sub( shl( sub( in_e, s_l ), 1 ), 15 ); + Word16 diff = add( 21, in_e ); + Word16 quo = BASOP_Util_Divide3216_Scale( ONE_IN_Q30, add( shl( level, 1 ), 1 ), &tmp_e ); tmp_e = add( tmp_e, 1 ); ak_e = add( tmp_e, sub( shl( sub( in_e, s_l ), 1 ), 15 ) ); // tmp_e + 2 * (in_e - s_l) - 15 + ak_e = sub( ak_e, 1 ); + FOR( i = start; i < stop - level; i++ ) { - ak = 0; - move32(); - move32(); + Word64 temp = 0; + move64(); FOR( j = i - level; j < i + level + 1; j++ ) { - tmp_16 = extract_h( L_shl( in[j], s_l ) ); // e: in_e - s_l - ak = L_mac( ak, tmp_16, tmp_16 ); // e: 2 * (in_e - s_l) + temp = W_mac_32_32( temp, in[j], in[j] ); } - ak = Mult_32_16( ak, quo ); // add( shl( level, 1 ), 1 ), &tmp_e ) ); + ak = Mult_32_16( W_shl_sat_l( temp, shift ), quo ); // add( shl( level, 1 ), 1 ), &tmp_e ) ); - n = sub( 30, add( norm_l( ak ), sub( 31, ak_e ) ) ); + n = sub( ak_e, norm_l( ak ) ); n = shr( n, 1 ); - out_e_arr[i] = add( sub( 21, n ), in_e ); + out_e_arr[i] = sub( diff, n ); move16(); max_out_e = s_max( max_out_e, out_e_arr[i] ); } FOR( ; i < stop; i++ ) { - ak = 0; - move32(); - move16(); + Word64 temp = 0; + move64(); FOR( j = i - level; j < stop; j++ ) { - tmp_16 = extract_h( L_shl( in[j], s_l ) ); // e: in_e - s_l - ak = L_mac( ak, tmp_16, tmp_16 ); // e: 2 * (in_e - s_l) + temp = W_mac_32_32( temp, in[j], in[j] ); } - ak = Mult_32_16( ak, quo ); - n = sub( 30, add( norm_l( ak ), sub( 31, ak_e ) ) ); + ak = L_deposit_h( BASOP_Util_Divide3216_Scale( W_shl_sat_l( temp, shift ), sub( stop, sub( i, level ) ), &tmp_e ) ); + ak_e = add( tmp_e, eff_e ); // tmp_e + 2 * (in_e - s_l) - 15 + n = sub( ak_e, add( norm_l( ak ), 1 ) ); n = shr( n, 1 ); - out_e_arr[i] = add( sub( 21, n ), in_e ); + out_e_arr[i] = sub( diff, n ); move16(); max_out_e = s_max( max_out_e, out_e_arr[i] ); } @@ -3533,14 +3536,8 @@ void IGFDecApplyMono_ivas( const IGF_DEC_INSTANCE_HANDLE hInstance, /**< in specMed_e = igf_spec_e[i]; move16(); - /*14 seems to be precise enough*/ - hPrivateData->headroom_TCX_noise_white = IGF_getScaleFactor32Cond( - hInstance->infoTCXNoise_ptr, - igf_spec + hGrid->minSrcSubband, - sub( hGrid->startLine, hGrid->minSrcSubband ) ); - move16(); hPrivateData->n_noise_bands = ivas_IGF_replaceTCXNoise_1_fx( igf_spec, - hPrivateData->headroom_TCX_noise_white, + igf_spec_e[i], hInstance->infoTCXNoise_ptr, hGrid->minSrcSubband, hGrid->startLine, @@ -3548,9 +3545,6 @@ void IGFDecApplyMono_ivas( const IGF_DEC_INSTANCE_HANDLE hInstance, /**< in &hPrivateData->totalNoiseNrg_exp ); move16(); - hPrivateData->totalNoiseNrg_exp = sub( shl( sub( igf_spec_e[i], sub( hPrivateData->headroom_TCX_noise_white, 5 ) ), 1 ), hPrivateData->totalNoiseNrg_exp ); - move16(); - BREAK; } } @@ -3560,22 +3554,15 @@ void IGFDecApplyMono_ivas( const IGF_DEC_INSTANCE_HANDLE hInstance, /**< in { IF( EQ_16( hPrivateData->currWhiteningLevel[i], IGF_WHITENING_OFF ) ) { - hPrivateData->headroom_TCX_noise = IGF_getScaleFactor32Cond( - hInstance->infoTCXNoise_ptr, - hPrivateData->pSpecFlat + hGrid->minSrcSubband, - sub( hGrid->startLine, hGrid->minSrcSubband ) ); - move16(); hPrivateData->n_noise_bands_off = ivas_IGF_replaceTCXNoise_1_fx( hPrivateData->pSpecFlat, - hPrivateData->headroom_TCX_noise, + hPrivateData->pSpecFlat_exp, hInstance->infoTCXNoise_ptr, hGrid->minSrcSubband, hGrid->startLine, &hPrivateData->totalNoiseNrg_off, &hPrivateData->totalNoiseNrg_off_exp ); move16(); - hPrivateData->totalNoiseNrg_off_exp = sub( shl( sub( hPrivateData->pSpecFlat_exp, sub( hPrivateData->headroom_TCX_noise, 5 ) ), 1 ), hPrivateData->totalNoiseNrg_off_exp ); - move16(); BREAK; } } @@ -3760,12 +3747,9 @@ void IGFDecApplyStereo( move16(); } - hPrivateDataL->headroom_TCX_noise_white = IGF_getScaleFactor32Cond( hIGFDecL->infoTCXNoise_ptr + hGrid->minSrcSubband, - igf_specL_fx + hGrid->minSrcSubband, - sub( hGrid->startLine, hGrid->minSrcSubband ) ); - move16(); + hPrivateDataL->n_noise_bands = ivas_IGF_replaceTCXNoise_1_fx( igf_specL_fx, - hPrivateDataL->headroom_TCX_noise_white, + specMedL_e, hIGFDecL->infoTCXNoise_ptr, hGrid->minSrcSubband, hGrid->startLine, @@ -3773,9 +3757,6 @@ void IGFDecApplyStereo( &hPrivateDataL->totalNoiseNrg_exp ); move16(); - hPrivateDataL->totalNoiseNrg_exp = sub( shl( sub( specMedL_e, sub( hPrivateDataL->headroom_TCX_noise_white, 5 ) ), 1 ), hPrivateDataL->totalNoiseNrg_exp ); - move16(); - IF( !bfi ) { s_l = getScaleFactor32( hPrivateDataR->pSpecFlat + hGrid->minSrcSubband - whiteningLevel, @@ -3796,21 +3777,14 @@ void IGFDecApplyStereo( move16(); } - hPrivateDataR->headroom_TCX_noise_white = IGF_getScaleFactor32Cond( hIGFDecR->infoTCXNoise_ptr, - igf_specR_fx + hGrid->minSrcSubband, - sub( hGrid->startLine, hGrid->minSrcSubband ) ); - move16(); hPrivateDataR->n_noise_bands = ivas_IGF_replaceTCXNoise_1_fx( igf_specR_fx, - hPrivateDataR->headroom_TCX_noise_white, + specMedR_e, hIGFDecR->infoTCXNoise_ptr, hGrid->minSrcSubband, hGrid->startLine, &hPrivateDataR->totalNoiseNrg, &hPrivateDataR->totalNoiseNrg_exp ); move16(); - hPrivateDataR->totalNoiseNrg_exp = sub( shl( sub( specMedR_e, sub( hPrivateDataR->headroom_TCX_noise_white, 5 ) ), 1 ), hPrivateDataR->totalNoiseNrg_exp ); - move16(); - BREAK; } } @@ -3820,37 +3794,23 @@ void IGFDecApplyStereo( test(); IF( EQ_16( hPrivateDataL->currWhiteningLevel[i], IGF_WHITENING_OFF ) || EQ_16( hPrivateDataR->currWhiteningLevel[i], IGF_WHITENING_OFF ) ) { - hPrivateDataL->headroom_TCX_noise_white = IGF_getScaleFactor32Cond( hIGFDecL->infoTCXNoise_ptr + hGrid->minSrcSubband, - hPrivateDataL->pSpecFlat + hGrid->minSrcSubband, - sub( hGrid->startLine, hGrid->minSrcSubband ) ); hPrivateDataL->n_noise_bands_off = ivas_IGF_replaceTCXNoise_1_fx( hPrivateDataL->pSpecFlat, - hPrivateDataL->headroom_TCX_noise_white, + hPrivateDataL->pSpecFlat_exp, hIGFDecL->infoTCXNoise_ptr, hGrid->minSrcSubband, hGrid->startLine, &hPrivateDataL->totalNoiseNrg_off, &hPrivateDataL->totalNoiseNrg_off_exp ); - hPrivateDataL->totalNoiseNrg_off_exp = sub( shl( sub( hPrivateDataL->pSpecFlat_exp, sub( hPrivateDataL->headroom_TCX_noise_white, 5 ) ), 1 ), hPrivateDataL->totalNoiseNrg_off_exp ); - move16(); - move16(); move16(); - hPrivateDataR->headroom_TCX_noise_white = IGF_getScaleFactor32Cond( hIGFDecR->infoTCXNoise_ptr, - hPrivateDataR->pSpecFlat + hGrid->minSrcSubband, - sub( hGrid->startLine, hGrid->minSrcSubband ) ); hPrivateDataR->n_noise_bands_off = ivas_IGF_replaceTCXNoise_1_fx( hPrivateDataR->pSpecFlat, - hPrivateDataR->headroom_TCX_noise_white, + hPrivateDataR->pSpecFlat_exp, hIGFDecR->infoTCXNoise_ptr, hGrid->minSrcSubband, hGrid->startLine, &hPrivateDataR->totalNoiseNrg_off, &hPrivateDataR->totalNoiseNrg_off_exp ); - hPrivateDataR->totalNoiseNrg_off_exp = sub( shl( sub( hPrivateDataR->pSpecFlat_exp, sub( hPrivateDataR->headroom_TCX_noise_white, 5 ) ), 1 ), hPrivateDataR->totalNoiseNrg_off_exp ); move16(); - move16(); - move16(); - - BREAK; } } diff --git a/lib_dec/init_dec.c b/lib_dec/init_dec.c deleted file mode 100644 index 2b80913050f8377570fb2b62377a6b71cdbb3d5a..0000000000000000000000000000000000000000 --- a/lib_dec/init_dec.c +++ /dev/null @@ -1,76 +0,0 @@ -/****************************************************************************************************** - - (C) 2022-2025 IVAS codec Public Collaboration with portions copyright Dolby International AB, Ericsson AB, - Fraunhofer-Gesellschaft zur Foerderung der angewandten Forschung e.V., Huawei Technologies Co. LTD., - Koninklijke Philips N.V., Nippon Telegraph and Telephone Corporation, Nokia Technologies Oy, Orange, - Panasonic Holdings Corporation, Qualcomm Technologies, Inc., VoiceAge Corporation, and other - contributors to this repository. All Rights Reserved. - - This software is protected by copyright law and by international treaties. - The IVAS codec Public Collaboration consisting of Dolby International AB, Ericsson AB, - Fraunhofer-Gesellschaft zur Foerderung der angewandten Forschung e.V., Huawei Technologies Co. LTD., - Koninklijke Philips N.V., Nippon Telegraph and Telephone Corporation, Nokia Technologies Oy, Orange, - Panasonic Holdings Corporation, Qualcomm Technologies, Inc., VoiceAge Corporation, and other - contributors to this repository retain full ownership rights in their respective contributions in - the software. This notice grants no license of any kind, including but not limited to patent - license, nor is any license granted by implication, estoppel or otherwise. - - Contributors are required to enter into the IVAS codec Public Collaboration agreement before making - contributions. - - This software is provided "AS IS", without any express or implied warranties. The software is in the - development stage. It is intended exclusively for experts who have experience with such software and - solely for the purpose of inspection. All implied warranties of non-infringement, merchantability - and fitness for a particular purpose are hereby disclaimed and excluded. - - Any dispute, controversy or claim arising under or in relation to providing this software shall be - submitted to and settled by the final, binding jurisdiction of the courts of Munich, Germany in - accordance with the laws of the Federal Republic of Germany excluding its conflict of law rules and - the United Nations Convention on Contracts on the International Sales of Goods. - -*******************************************************************************************************/ - -/*==================================================================================== - EVS Codec 3GPP TS26.443 Nov 04, 2021. Version 12.14.0 / 13.10.0 / 14.6.0 / 15.4.0 / 16.3.0 - ====================================================================================*/ - -#include -#include "options.h" -#include "cnst.h" -#include "ivas_cnst.h" -#include "rom_com.h" -#include "prot.h" -#include "wmc_auto.h" -#include "prot_fx.h" - -/*----------------------------------------------------------------------* - * init_decoder() - * - * Initialization of static variables for the decoder - *----------------------------------------------------------------------*/ - -/*----------------------------------------------------------------------* - * reset_preecho_dec() - * - * Initialization of static variables for pre-echo - *----------------------------------------------------------------------*/ - -/*----------------------------------------------------------------------* - * destroy_cldfb_decoder_flt() - * - * Free memory which was allocated in init_decoder() - *----------------------------------------------------------------------*/ -void destroy_cldfb_decoder_ivas_fx( - Decoder_State *st /* o : Decoder static variables structure */ -) -{ - /* CLDFB BPF & resampling tools */ - deleteCldfb_ivas_fx( &st->cldfbAna ); /* delete analysis at max. sampling rate 48kHz */ - deleteCldfb_ivas_fx( &st->cldfbBPF ); /* delete analysis BPF at max. internal sampling rate 16kHz */ - deleteCldfb_ivas_fx( &st->cldfbSyn ); /* delete synthesis at output sampling rate */ - deleteCldfb_ivas_fx( &st->cldfbSynHB ); - - deleteFdCngDec_fx( &st->hFdCngDec ); - - return; -} diff --git a/lib_dec/init_dec_fx.c b/lib_dec/init_dec_fx.c index d709ff5fcfcc2a11824bc4c07aa47688b3e0f6ec..b588fdce1bd047a957cc644092befc7ee5368519 100644 --- a/lib_dec/init_dec_fx.c +++ b/lib_dec/init_dec_fx.c @@ -8,7 +8,6 @@ #include "rom_com.h" /* Static table prototypes */ #include "stl.h" /* required for wmc_tool */ #include "basop_util.h" -#include "prot.h" #include "ivas_prot_fx.h" /*----------------------------------------------------------------------* @@ -20,10 +19,6 @@ ivas_error init_decoder_fx( Decoder_State *st_fx, /* o: Decoder static variables structure */ const Word16 idchan /* i : channel ID */ -#ifdef IVAS_CODE - , - const MC_MODE mc_mode /* i : MC mode */ -#endif ) { Word16 i; @@ -131,7 +126,7 @@ ivas_error init_decoder_fx( return ( IVAS_ERROR( IVAS_ERR_FAILED_ALLOC, "Can not allocate memory for FD BWE\n" ) ); } - fd_bwe_dec_init( st_fx, st_fx->hBWE_FD ); + fd_bwe_dec_init_fx( st_fx->hBWE_FD ); } ELSE { @@ -198,7 +193,6 @@ ivas_error init_decoder_fx( st_fx->last_voice_factor_fx = 0; // Q6 move16(); - set16_fx( st_fx->prev_lpc_wb_fx, 0, LPC_SHB_ORDER_WB ); test(); test(); @@ -321,10 +315,8 @@ ivas_error init_decoder_fx( move16(); /*1; Q15*/ st_fx->exc_pe_fx = 0; // Q_stat_noise move16(); -#ifdef MSAN_FIX st_fx->Q_stat_noise = 31; move16(); -#endif // MSAN_FIX /*-----------------------------------------------------------------* * LD music post-filter *-----------------------------------------------------------------*/ @@ -363,23 +355,9 @@ ivas_error init_decoder_fx( } st_fx->cng_type = -1; move16(); - st_fx->CNG_fx = 0; - move16(); /* RTXDTX handler CNG=1 nonCNG= 0,*/ - st_fx->prev_ft_speech_fx = 1; - move16(); /* RXDTX handeler previous frametype flag for G.192 format AMRWB SID_FIRST detection */ st_fx->first_CNG = 0; move16(); Copy( st_fx->lsp_old_fx, st_fx->lspCNG_fx, M ); // Q15 - st_fx->shb_cng_ener_fx = -1541; // Q8 - move16(); - st_fx->wb_cng_ener_fx = -1541; // Q8 - move16(); - st_fx->last_wb_cng_ener_fx = -1541; // Q8 - move16(); - st_fx->last_shb_cng_ener_fx = -1541; // Q8 - move16(); - st_fx->swb_cng_seed = RANDOM_INITSEED; - move16(); st_fx->CNG_mode = -1; move16(); @@ -388,22 +366,9 @@ ivas_error init_decoder_fx( st_fx->last_CNG_L_frame = L_FRAME; move16(); - FOR( i = 0; i < LPC_SHB_ORDER; i++ ) - { - st_fx->lsp_shb_prev_fx[i] = lsp_shb_prev_tbl_fx[i]; // Q15 - move16(); - st_fx->lsp_shb_prev_prev_fx[i] = st_fx->lsp_shb_prev_fx[i]; // Q15 - move16(); - } - st_fx->shb_dtx_count_fx = 0; - move16(); st_fx->last_vad_fx = 0; move16(); - st_fx->trans_cnt_fx = 0; - move16(); - st_fx->last_shb_ener_fx = 0; // Q8 - move16(); /* HF (6-7kHz) BWE */ move16(); @@ -493,8 +458,8 @@ ivas_error init_decoder_fx( set16_fx( st_fx->hTcxDec->FBTCXdelayBuf, 0, 111 ); - st_fx->hTcxDec->old_synthFB_fx = st_fx->hTcxDec->synth_history_fx + NS2SA( st_fx->output_Fs, PH_ECU_MEM_NS ); - st_fx->hTcxDec->prev_good_synth_fx = st_fx->hTcxDec->old_synthFB_fx + NS2SA( st_fx->output_Fs, PH_ECU_LOOKAHEAD_NS ); + st_fx->hTcxDec->old_synthFB_fx = st_fx->hTcxDec->synth_history_fx + NS2SA_FX2( st_fx->output_Fs, PH_ECU_MEM_NS ); + st_fx->hTcxDec->prev_good_synth_fx = st_fx->hTcxDec->old_synthFB_fx + NS2SA_FX2( st_fx->output_Fs, PH_ECU_LOOKAHEAD_NS ); } ELSE { @@ -512,6 +477,14 @@ ivas_error init_decoder_fx( { st_fx->hTcxCfg = NULL; } + + /* Tonal MDCT concealment data structure */ + + if ( ( st_fx->hTonalMDCTConc = (TonalMDCTConcealPtr) malloc( sizeof( TonalMDCTConceal_INSTANCE ) ) ) == NULL ) + { + return ( IVAS_ERROR( IVAS_ERR_FAILED_ALLOC, "Can not allocate memory for TonalMDCTConcealment\n" ) ); + } + st_fx->prev_coder_type = GENERIC; move16(); @@ -536,16 +509,10 @@ ivas_error init_decoder_fx( return ( IVAS_ERROR( IVAS_ERR_FAILED_ALLOC, "Can not allocate memory for TD BWE\n" ) ); } - td_bwe_dec_init_fx( st_fx, st_fx->hBWE_TD, -#ifdef ADD_IVAS_BWE - st_fx->extl, -#endif - st_fx->output_Fs ); + td_bwe_dec_init_fx( st_fx->hBWE_TD, st_fx->extl, st_fx->output_Fs ); -#ifdef MSAN_FIX - st_fx->hBWE_TD->prev_hb_synth_fx_exp = 31; + st_fx->prev_Q_bwe_exc = 31; move16(); -#endif } ELSE { @@ -757,6 +724,14 @@ ivas_error init_decoder_fx( st_fx->last_vbr_hw_BWE_disable_dec = 0; move16(); + /*-----------------------------------------------------------------* + * Mode 2 initialization + *-----------------------------------------------------------------*/ + + IF( ( st_fx->hPlcInfo = (T_PLCInfo_HANDLE) malloc( sizeof( T_PLCInfo ) ) ) == NULL ) + { + return ( IVAS_ERROR( IVAS_ERR_FAILED_ALLOC, "Can not allocate memory for PLC handle\n" ) ); + } st_fx->enablePlcWaveadjust = 0; move16(); @@ -778,11 +753,7 @@ ivas_error init_decoder_fx( resampleCldfb( st_fx->cldfbBPF, newCldfbBands, st_fx->L_frame, 1 ); test(); -#ifdef IVAS_CODE - IF( ( EQ_16( st_fx->element_mode, IVAS_CPE_MDCT ) || idchan == 0 ) && NE_16( mc_mode, MC_MODE_MCT ) && NE_16( mc_mode, MC_MODE_PARAMUPMIX ) ) // TBV Fixed point missing -#else IF( ( EQ_16( st_fx->element_mode, IVAS_CPE_MDCT ) || idchan == 0 ) /*&& mc_mode != MC_MODE_MCT && mc_mode != MC_MODE_PARAMUPMIX*/ ) -#endif { /* Create FD_CNG instance */ @@ -840,8 +811,6 @@ ivas_error init_decoder_fx( move16(); st_fx->element_mode = EVS_MONO; /* element mode */ move16(); - st_fx->last_element_mode = st_fx->element_mode; /* element mode */ - move16(); st_fx->element_brate = -1; /* element bitrate */ move16(); st_fx->low_rate_mode = 0; /* low-rate mode flag */ @@ -1065,10 +1034,8 @@ ivas_error init_decoder_ivas_fx( move16(); st_fx->exc_pe_fx = 0; move16(); -#ifdef MSAN_FIX st_fx->Q_stat_noise = 31; move16(); -#endif st_fx->prev_coder_type = GENERIC; move16(); @@ -1168,9 +1135,7 @@ ivas_error init_decoder_ivas_fx( } hf_synth_init_fx( st_fx->hBWE_zero ); -#ifdef MSAN_FIX set16_fx( st_fx->hBWE_zero->mem_hp400_fx, 0, 6 ); -#endif } ELSE { @@ -1223,7 +1188,7 @@ ivas_error init_decoder_ivas_fx( return ( IVAS_ERROR( IVAS_ERR_FAILED_ALLOC, "Can not allocate memory for DTX/TD CNG\n" ) ); } - td_cng_dec_init_ivas_fx( st_fx ); + td_cng_dec_init_fx( st_fx ); } ELSE { @@ -1299,11 +1264,10 @@ ivas_error init_decoder_ivas_fx( return ( IVAS_ERROR( IVAS_ERR_FAILED_ALLOC, "Can not allocate memory for TD BWE\n" ) ); } - td_bwe_dec_init_ivas_fx( st_fx, st_fx->hBWE_TD, st_fx->output_Fs ); -#ifdef MSAN_FIX - st_fx->hBWE_TD->prev_hb_synth_fx_exp = 31; + td_bwe_dec_init_fx( st_fx->hBWE_TD, st_fx->extl, st_fx->output_Fs ); + + st_fx->prev_Q_bwe_exc = 31; move16(); -#endif } ELSE { @@ -1325,7 +1289,7 @@ ivas_error init_decoder_ivas_fx( return ( IVAS_ERROR( IVAS_ERR_FAILED_ALLOC, "Can not allocate memory for FD BWE\n" ) ); } - fd_bwe_dec_init( st_fx, st_fx->hBWE_FD ); + fd_bwe_dec_init_fx( st_fx->hBWE_FD ); } ELSE { @@ -1460,13 +1424,13 @@ ivas_error init_decoder_ivas_fx( IF( ( idchan == 0 && NE_16( st_fx->element_mode, IVAS_CPE_MDCT ) ) || EQ_16( st_fx->element_mode, IVAS_CPE_TD ) ) { /* open analysis for max. SR 48kHz */ - IF( NE_32( ( error = openCldfb_ivas_fx( &st_fx->cldfbAna, CLDFB_ANALYSIS, 48000, CLDFB_PROTOTYPE_1_25MS ) ), IVAS_ERR_OK ) ) + IF( NE_32( ( error = openCldfb_ivas_fx( &st_fx->cldfbAna, CLDFB_ANALYSIS, 48000, CLDFB_PROTOTYPE_1_25MS, DEC ) ), IVAS_ERR_OK ) ) { return error; } /* open analysis BPF for max. SR 16kHz */ - IF( NE_32( ( error = openCldfb_ivas_fx( &st_fx->cldfbBPF, CLDFB_ANALYSIS, 16000, CLDFB_PROTOTYPE_1_25MS ) ), IVAS_ERR_OK ) ) + IF( NE_32( ( error = openCldfb_ivas_fx( &st_fx->cldfbBPF, CLDFB_ANALYSIS, 16000, CLDFB_PROTOTYPE_1_25MS, DEC ) ), IVAS_ERR_OK ) ) { return error; } @@ -1478,7 +1442,7 @@ ivas_error init_decoder_ivas_fx( } /* open synthesis for output SR */ - IF( NE_32( ( error = openCldfb_ivas_fx( &st_fx->cldfbSyn, CLDFB_SYNTHESIS, st_fx->output_Fs, CLDFB_PROTOTYPE_1_25MS ) ), IVAS_ERR_OK ) ) + IF( NE_32( ( error = openCldfb_ivas_fx( &st_fx->cldfbSyn, CLDFB_SYNTHESIS, st_fx->output_Fs, CLDFB_PROTOTYPE_1_25MS, DEC ) ), IVAS_ERR_OK ) ) { return error; } @@ -1822,3 +1786,18 @@ void destroy_cldfb_decoder_fx( return; } + +void destroy_cldfb_decoder_ivas_fx( + Decoder_State *st /* o : Decoder static variables structure */ +) +{ + /* CLDFB BPF & resampling tools */ + deleteCldfb_ivas_fx( &st->cldfbAna ); /* delete analysis at max. sampling rate 48kHz */ + deleteCldfb_ivas_fx( &st->cldfbBPF ); /* delete analysis BPF at max. internal sampling rate 16kHz */ + deleteCldfb_ivas_fx( &st->cldfbSyn ); /* delete synthesis at output sampling rate */ + deleteCldfb_ivas_fx( &st->cldfbSynHB ); + + deleteFdCngDec_fx( &st->hFdCngDec ); + + return; +} diff --git a/lib_dec/inov_dec_fx.c b/lib_dec/inov_dec_fx.c index ef65c4fcd20fd8f3af216ccf3b7ff5df989c275b..1ab1efe8fa8c587a2494997818d9694b6cc63a71 100644 --- a/lib_dec/inov_dec_fx.c +++ b/lib_dec/inov_dec_fx.c @@ -113,7 +113,7 @@ void inov_decode_fx( move16(); bitcnt = s_and( ACELP_FIXED_CDK_BITS( st_fx->acelp_cfg.fixed_cdk_index[i_subfr / L_SUBFR] ), 15 ); // Q0 move16(); - // PMT("CONDITION above is missing -> idchan") + FOR( i = 0; i < wordcnt; i++ ) { indexing_indices[i] = extract_l( get_next_indice_fx( st_fx, 16 ) ); // Q0 @@ -298,7 +298,7 @@ void inov_decode_ivas_fx( move16(); bitcnt = s_and( ACELP_FIXED_CDK_BITS( st_fx->acelp_cfg.fixed_cdk_index[i_subfr / L_SUBFR] ), 15 ); // Q0 move16(); - // PMT("CONDITION above is missing -> idchan") + FOR( i = 0; i < wordcnt; i++ ) { indexing_indices[i] = get_next_indice_fx( st_fx, 16 ); // Q0 diff --git a/lib_dec/ivas_agc_dec_fx.c b/lib_dec/ivas_agc_dec_fx.c index f5418abc658150e90f9d9b5f98dd073fd8581089..a196a1abdd8a157e472fdcf21913f8367fd42e63 100644 --- a/lib_dec/ivas_agc_dec_fx.c +++ b/lib_dec/ivas_agc_dec_fx.c @@ -34,9 +34,7 @@ #include #include #include "options.h" -#include "prot.h" #include "prot_fx.h" -#include "ivas_prot.h" #include "ivas_prot_fx.h" #include "rom_com.h" #include "wmc_auto.h" diff --git a/lib_dec/ivas_binRenderer_internal.c b/lib_dec/ivas_binRenderer_internal_fx.c similarity index 95% rename from lib_dec/ivas_binRenderer_internal.c rename to lib_dec/ivas_binRenderer_internal_fx.c index d1620026df32b3890a36b68e1dc6e537092feba2..0709c6b7543533648436a277a56ea2ff6ab4fac5 100644 --- a/lib_dec/ivas_binRenderer_internal.c +++ b/lib_dec/ivas_binRenderer_internal_fx.c @@ -33,9 +33,8 @@ #include #include "options.h" #include -#include "prot.h" -#include "ivas_prot.h" -#include "ivas_prot_rend.h" +#include "prot_fx.h" +#include "ivas_prot_rend_fx.h" #include "cnst.h" #include "ivas_cnst.h" #include "ivas_rom_rend.h" @@ -43,7 +42,6 @@ #include "ivas_rom_com.h" #include "ivas_rom_binauralRenderer.h" #include "wmc_auto.h" -#include "prot_fx.h" #include "ivas_prot_fx.h" #include "ivas_rom_com_fx.h" #include "debug.h" @@ -73,9 +71,16 @@ static void ivas_binRenderer_filterModule_fx( { Word16 bandIdx, k, chIdx, tapIdx; Word32 *filterStatesLeftRealPtr_fx, *filterStatesLeftImagPtr_fx; - Word16 *Q_filterStates; + Word16 Q_filterStates; const Word32 *filterTapsLeftRealPtr_fx, *filterTapsLeftImagPtr_fx, *filterTapsRightRealPtr_fx, *filterTapsRightImagPtr_fx; Word16 shift_q; +#ifdef SPLIT_REND_WITH_HEAD_ROT + Q_filterStates = hBinRenderer->hBinRenConvModule->Q_filterStates[pos_idx]; + move16(); +#else + Q_filterStates = hBinRenderer->hBinRenConvModule->Q_filterStatesLeft; + move16(); +#endif FOR( bandIdx = 0; bandIdx < hBinRenderer->conv_band; bandIdx++ ) { @@ -84,12 +89,10 @@ static void ivas_binRenderer_filterModule_fx( #ifdef SPLIT_REND_WITH_HEAD_ROT filterStatesLeftRealPtr_fx = (Word32 *) &( hBinRenderer->hBinRenConvModule->filterStatesLeftReal_fx[pos_idx][bandIdx][chIdx][0] ); filterStatesLeftImagPtr_fx = (Word32 *) &( hBinRenderer->hBinRenConvModule->filterStatesLeftImag_fx[pos_idx][bandIdx][chIdx][0] ); - Q_filterStates = (Word16 *) &( hBinRenderer->hBinRenConvModule->Q_filterStatesLeft[pos_idx][bandIdx][chIdx][0] ); #else filterStatesLeftRealPtr_fx = (Word32 *) &( hBinRenderer->hBinRenConvModule->filterStatesLeftReal_fx[bandIdx][chIdx][0] ); filterStatesLeftImagPtr_fx = (Word32 *) &( hBinRenderer->hBinRenConvModule->filterStatesLeftImag_fx[bandIdx][chIdx][0] ); - Q_filterStates = (Word16 *) &( hBinRenderer->hBinRenConvModule->Q_filterStatesLeft[bandIdx][chIdx][0] ); -#endif +#endif /* SPLIT_REND_WITH_HEAD_ROT */ filterTapsLeftRealPtr_fx = hBinRenderer->hBinRenConvModule->filterTapsLeftReal_fx[bandIdx][chIdx]; // Q29 filterTapsLeftImagPtr_fx = hBinRenderer->hBinRenConvModule->filterTapsLeftImag_fx[bandIdx][chIdx]; // Q29 @@ -111,39 +114,40 @@ static void ivas_binRenderer_filterModule_fx( filterStatesLeftImagPtr_fx[tapIdx] = filterStatesLeftImagPtr_fx[tapIdx - 1]; move32(); - shift_q = sub( Q_filterStates[tapIdx], Q_filterStates[tapIdx - 1] ); - outRealLeft_fx = W_shr( outRealLeft_fx, shift_q ); - outImagLeft_fx = W_shr( outImagLeft_fx, shift_q ); - outRealRight_fx = W_shr( outRealRight_fx, shift_q ); - outImagRight_fx = W_shr( outImagRight_fx, shift_q ); - outRealLeft_fx = W_mac_32_32( outRealLeft_fx, filterStatesLeftRealPtr_fx[tapIdx], filterTapsLeftRealPtr_fx[tapIdx] ); - outRealLeft_fx = W_mac_32_32( outRealLeft_fx, L_negate( filterStatesLeftImagPtr_fx[tapIdx] ), filterTapsLeftImagPtr_fx[tapIdx] ); // Q30 + Q_filterStates[tapIdx - 1] + outRealLeft_fx = W_mac_32_32( outRealLeft_fx, filterStatesLeftRealPtr_fx[tapIdx], filterTapsLeftRealPtr_fx[tapIdx] ); // Q30 + Q_filterStates + outRealLeft_fx = W_mac_32_32( outRealLeft_fx, L_negate( filterStatesLeftImagPtr_fx[tapIdx] ), filterTapsLeftImagPtr_fx[tapIdx] ); // Q30 + Q_filterStates - outImagLeft_fx = W_mac_32_32( outImagLeft_fx, filterStatesLeftRealPtr_fx[tapIdx], filterTapsLeftImagPtr_fx[tapIdx] ); - outImagLeft_fx = W_mac_32_32( outImagLeft_fx, filterStatesLeftImagPtr_fx[tapIdx], filterTapsLeftRealPtr_fx[tapIdx] ); + outImagLeft_fx = W_mac_32_32( outImagLeft_fx, filterStatesLeftRealPtr_fx[tapIdx], filterTapsLeftImagPtr_fx[tapIdx] ); // Q30 + Q_filterStates + outImagLeft_fx = W_mac_32_32( outImagLeft_fx, filterStatesLeftImagPtr_fx[tapIdx], filterTapsLeftRealPtr_fx[tapIdx] ); // Q30 + Q_filterStates - outRealRight_fx = W_mac_32_32( outRealRight_fx, filterStatesLeftRealPtr_fx[tapIdx], filterTapsRightRealPtr_fx[tapIdx] ); - outRealRight_fx = W_mac_32_32( outRealRight_fx, L_negate( filterStatesLeftImagPtr_fx[tapIdx] ), filterTapsRightImagPtr_fx[tapIdx] ); + outRealRight_fx = W_mac_32_32( outRealRight_fx, filterStatesLeftRealPtr_fx[tapIdx], filterTapsRightRealPtr_fx[tapIdx] ); // Q30 + Q_filterStates + outRealRight_fx = W_mac_32_32( outRealRight_fx, L_negate( filterStatesLeftImagPtr_fx[tapIdx] ), filterTapsRightImagPtr_fx[tapIdx] ); // Q30 + Q_filterStates - outImagRight_fx = W_mac_32_32( outImagRight_fx, filterStatesLeftRealPtr_fx[tapIdx], filterTapsRightImagPtr_fx[tapIdx] ); - outImagRight_fx = W_mac_32_32( outImagRight_fx, filterStatesLeftImagPtr_fx[tapIdx], filterTapsRightRealPtr_fx[tapIdx] ); + outImagRight_fx = W_mac_32_32( outImagRight_fx, filterStatesLeftRealPtr_fx[tapIdx], filterTapsRightImagPtr_fx[tapIdx] ); // Q30 + Q_filterStates + outImagRight_fx = W_mac_32_32( outImagRight_fx, filterStatesLeftImagPtr_fx[tapIdx], filterTapsRightRealPtr_fx[tapIdx] ); // Q30 + Q_filterStates + } + + shift_q = add( sub( Q_filterStates, Q_curr ), 1 ); - Q_filterStates[tapIdx] = Q_filterStates[tapIdx - 1]; + IF( shift_q != 0 ) + { + outRealLeft_fx = W_shr( outRealLeft_fx, shift_q ); // Q_curr + outImagLeft_fx = W_shr( outImagLeft_fx, shift_q ); // Q_curr + outRealRight_fx = W_shr( outRealRight_fx, shift_q ); // Q_curr + outImagRight_fx = W_shr( outImagRight_fx, shift_q ); // Q_curr +#ifdef SPLIT_REND_WITH_HEAD_ROT + hBinRenderer->hBinRenConvModule->Q_filterStates[pos_idx] = Q_curr; +#else + hBinRenderer->hBinRenConvModule->Q_filterStatesLeft = Q_curr; +#endif move16(); } - shift_q = add( sub( Q_filterStates[1], Q_curr ), 1 ); - outRealLeft_fx = W_shr( outRealLeft_fx, shift_q ); - outImagLeft_fx = W_shr( outImagLeft_fx, shift_q ); - outRealRight_fx = W_shr( outRealRight_fx, shift_q ); - outImagRight_fx = W_shr( outImagRight_fx, shift_q ); filterStatesLeftRealPtr_fx[0] = CLDFB_real[chIdx][k][bandIdx]; move32(); filterStatesLeftImagPtr_fx[0] = CLDFB_imag[chIdx][k][bandIdx]; move32(); - Q_filterStates[0] = Q_curr; - move16(); /* Left Real and Imag */ @@ -338,7 +342,7 @@ static ivas_error ivas_binRenderer_convModuleOpen( return ( IVAS_ERROR( IVAS_ERR_FAILED_ALLOC, "Can not allocate memory for Convolution Module \n" ) ); } - IF( ( hBinRenConvModule->Q_filterStatesLeft = (Word16 ****) malloc( num_poses * sizeof( Word16 *** ) ) ) == NULL ) + IF( ( hBinRenConvModule->Q_filterStates = (Word16 *) malloc( num_poses * sizeof( Word16 ) ) ) == NULL ) { return ( IVAS_ERROR( IVAS_ERR_FAILED_ALLOC, "Can not allocate memory for Convolution Module \n" ) ); } @@ -355,10 +359,6 @@ static ivas_error ivas_binRenderer_convModuleOpen( return ( IVAS_ERROR( IVAS_ERR_FAILED_ALLOC, "Can not allocate memory for Convolution Module \n" ) ); } - IF( ( hBinRenConvModule->Q_filterStatesLeft[pos_idx] = (Word16 ***) malloc( hBinRenderer->conv_band * sizeof( Word16 ** ) ) ) == NULL ) - { - return ( IVAS_ERROR( IVAS_ERR_FAILED_ALLOC, "Can not allocate memory for Convolution Module \n" ) ); - } for ( bandIdx = 0; bandIdx < hBinRenderer->conv_band; bandIdx++ ) { @@ -372,10 +372,6 @@ static ivas_error ivas_binRenderer_convModuleOpen( return ( IVAS_ERROR( IVAS_ERR_FAILED_ALLOC, "Can not allocate memory for Convolution Module \n" ) ); } - IF( ( hBinRenConvModule->Q_filterStatesLeft[pos_idx][bandIdx] = (Word16 **) malloc( hBinRenderer->nInChannels * sizeof( Word16 * ) ) ) == NULL ) - { - return ( IVAS_ERROR( IVAS_ERR_FAILED_ALLOC, "Can not allocate memory for Convolution Module \n" ) ); - } for ( chIdx = 0; chIdx < hBinRenderer->nInChannels; chIdx++ ) { @@ -388,11 +384,6 @@ static ivas_error ivas_binRenderer_convModuleOpen( { return ( IVAS_ERROR( IVAS_ERR_FAILED_ALLOC, "Can not allocate memory for Convolution Module \n" ) ); } - - IF( ( hBinRenConvModule->Q_filterStatesLeft[pos_idx][bandIdx][chIdx] = (Word16 *) malloc( hBinRenConvModule->numTapsArray[bandIdx] * sizeof( Word16 ) ) ) == NULL ) - { - return ( IVAS_ERROR( IVAS_ERR_FAILED_ALLOC, "Can not allocate memory for Convolution Module \n" ) ); - } } } } @@ -408,10 +399,6 @@ static ivas_error ivas_binRenderer_convModuleOpen( return ( IVAS_ERROR( IVAS_ERR_FAILED_ALLOC, "Can not allocate memory for Convolution Module \n" ) ); } - IF( ( hBinRenConvModule->Q_filterStatesLeft = (Word16 ***) malloc( hBinRenderer->conv_band * sizeof( Word16 ** ) ) ) == NULL ) - { - return ( IVAS_ERROR( IVAS_ERR_FAILED_ALLOC, "Can not allocate memory for Convolution Module \n" ) ); - } FOR( bandIdx = 0; bandIdx < hBinRenderer->conv_band; bandIdx++ ) { @@ -425,10 +412,6 @@ static ivas_error ivas_binRenderer_convModuleOpen( return ( IVAS_ERROR( IVAS_ERR_FAILED_ALLOC, "Can not allocate memory for Convolution Module \n" ) ); } - IF( ( hBinRenConvModule->Q_filterStatesLeft[bandIdx] = (Word16 **) malloc( hBinRenderer->nInChannels * sizeof( Word16 * ) ) ) == NULL ) - { - return ( IVAS_ERROR( IVAS_ERR_FAILED_ALLOC, "Can not allocate memory for Convolution Module \n" ) ); - } FOR( chIdx = 0; chIdx < hBinRenderer->nInChannels; chIdx++ ) { @@ -441,11 +424,6 @@ static ivas_error ivas_binRenderer_convModuleOpen( { return ( IVAS_ERROR( IVAS_ERR_FAILED_ALLOC, "Can not allocate memory for Convolution Module \n" ) ); } - - IF( ( hBinRenConvModule->Q_filterStatesLeft[bandIdx][chIdx] = (Word16 *) malloc( hBinRenConvModule->numTapsArray[bandIdx] * sizeof( Word16 ) ) ) == NULL ) - { - return ( IVAS_ERROR( IVAS_ERR_FAILED_ALLOC, "Can not allocate memory for Convolution Module \n" ) ); - } } } #endif @@ -492,8 +470,9 @@ static ivas_error ivas_binRenderer_convModuleOpen( #ifndef SPLIT_REND_WITH_HEAD_ROT set32_fx( hBinRenConvModule->filterStatesLeftReal_fx[bandIdx][chIdx], 0, hBinRenConvModule->numTapsArray[bandIdx] ); set32_fx( hBinRenConvModule->filterStatesLeftImag_fx[bandIdx][chIdx], 0, hBinRenConvModule->numTapsArray[bandIdx] ); - set16_fx( hBinRenConvModule->Q_filterStatesLeft[bandIdx][chIdx], 31, hBinRenConvModule->numTapsArray[bandIdx] ); -#endif + hBinRenConvModule->Q_filterStatesLeft = 31; + move16(); +#endif /* !SPLIT_REND_WITH_HEAD_ROT */ IF( isLoudspeaker ) { hBinRenConvModule->filterTapsLeftReal_fx[bandIdx][chIdx] = hHrtf->leftBRIRReal_fx[bandIdx][tmp]; @@ -508,8 +487,9 @@ static ivas_error ivas_binRenderer_convModuleOpen( /* set the memories to zero */ set32_fx( hBinRenConvModule->filterStatesLeftReal_fx[bandIdx][chIdx], 0, hBinRenConvModule->numTaps ); set32_fx( hBinRenConvModule->filterStatesLeftImag_fx[bandIdx][chIdx], 0, hBinRenConvModule->numTaps ); - set16_fx( hBinRenConvModule->Q_filterStatesLeft[bandIdx][chIdx], 31, hBinRenConvModule->numTaps ); -#endif + hBinRenConvModule->Q_filterStatesLeft = 31; + move16(); +#endif /* SPLIT_REND_WITH_HEAD_ROT */ IF( isLoudspeaker ) { hBinRenConvModule->filterTapsLeftReal_fx[bandIdx][chIdx] = hHrtf->leftHRIRReal_fx[bandIdx][tmp]; @@ -557,6 +537,8 @@ static ivas_error ivas_binRenderer_convModuleOpen( { for ( pos_idx = 0; pos_idx < num_poses; pos_idx++ ) { + hBinRenConvModule->Q_filterStates[pos_idx] = 31; + move16(); for ( bandIdx = 0; bandIdx < hBinRenderer->conv_band; bandIdx++ ) { for ( chIdx = 0; chIdx < hBinRenderer->nInChannels; chIdx++ ) @@ -564,7 +546,6 @@ static ivas_error ivas_binRenderer_convModuleOpen( /* set the memories to zero */ set32_fx( hBinRenConvModule->filterStatesLeftReal_fx[pos_idx][bandIdx][chIdx], 0, hBinRenConvModule->numTapsArray[bandIdx] ); set32_fx( hBinRenConvModule->filterStatesLeftImag_fx[pos_idx][bandIdx][chIdx], 0, hBinRenConvModule->numTapsArray[bandIdx] ); - set16_fx( hBinRenConvModule->Q_filterStatesLeft[pos_idx][bandIdx][chIdx], 31, hBinRenConvModule->numTapsArray[bandIdx] ); } } } @@ -573,6 +554,8 @@ static ivas_error ivas_binRenderer_convModuleOpen( { for ( pos_idx = 0; pos_idx < num_poses; pos_idx++ ) { + hBinRenConvModule->Q_filterStates[pos_idx] = 31; + move16(); for ( bandIdx = 0; bandIdx < hBinRenderer->conv_band; bandIdx++ ) { for ( chIdx = 0; chIdx < hBinRenderer->nInChannels; chIdx++ ) @@ -580,7 +563,6 @@ static ivas_error ivas_binRenderer_convModuleOpen( /* set the memories to zero */ set32_fx( hBinRenConvModule->filterStatesLeftReal_fx[pos_idx][bandIdx][chIdx], 0, hBinRenConvModule->numTaps ); set32_fx( hBinRenConvModule->filterStatesLeftImag_fx[pos_idx][bandIdx][chIdx], 0, hBinRenConvModule->numTaps ); - set16_fx( hBinRenConvModule->Q_filterStatesLeft[pos_idx][bandIdx][chIdx], 31, hBinRenConvModule->numTaps ); } } } @@ -1430,7 +1412,7 @@ ivas_error ivas_binRenderer_open_fx( /* Allocate memories needed for reverb module */ test(); - IF( EQ_32( st_ivas->renderer_type, RENDERER_BINAURAL_FASTCONV ) && EQ_32( st_ivas->hIntSetup.output_config, IVAS_AUDIO_CONFIG_BINAURAL_ROOM_REVERB ) ) + IF( ( EQ_32( st_ivas->renderer_type, RENDERER_BINAURAL_FASTCONV_ROOM ) || EQ_32( st_ivas->renderer_type, RENDERER_BINAURAL_FASTCONV ) ) && EQ_32( st_ivas->hOutSetup.output_config, IVAS_AUDIO_CONFIG_BINAURAL_ROOM_REVERB ) ) { IF( NE_32( ( error = ivas_binaural_reverb_open_fastconv_fx( &( hBinRenderer->hReverb ), hBinRenderer->conv_band, hBinRenderer->timeSlots, &( st_ivas->hRenderConfig->roomAcoustics ), st_ivas->hIntSetup.output_config, st_ivas->hDecoderConfig->output_Fs, st_ivas->hHrtfFastConv ) ), IVAS_ERR_OK ) ) { @@ -1438,6 +1420,19 @@ ivas_error ivas_binRenderer_open_fx( } /* initialize the dmx matrix */ +#ifdef NONBE_FIX_1058_DECODER_ERROR_WITH_REVERB_ROOM + IF( NE_16( hBinRenderer->nInChannels, HOA3_CHANNELS ) ) + { + FOR( chIdx = 0; chIdx < BINAURAL_CHANNELS; chIdx++ ) + { + FOR( k = 0; k < hBinRenderer->nInChannels; k++ ) + { + hBinRenderer->hReverb->dmxmtx_fx[chIdx][k] = dmxmtx_table_fx[chIdx][k]; + move32(); + } + } + } +#else FOR( chIdx = 0; chIdx < BINAURAL_CHANNELS; chIdx++ ) { FOR( k = 0; k < hBinRenderer->nInChannels; k++ ) @@ -1446,6 +1441,7 @@ ivas_error ivas_binRenderer_open_fx( move32(); } } +#endif } ELSE { @@ -1454,10 +1450,15 @@ ivas_error ivas_binRenderer_open_fx( hBinRenderer->hEFAPdata = NULL; +#ifdef NONBE_FIX_1058_DECODER_ERROR_WITH_REVERB_ROOM + IF( hBinRenderer->hReverb != NULL && NE_16( hBinRenderer->nInChannels, HOA3_CHANNELS ) ) +#else IF( hBinRenderer->hReverb != NULL ) +#endif { test(); test(); + /* NOTE to future self by @kiene: this should have been changed by NONBE_FIX_1058_DECODER_ERROR_WITH_REVERB_ROOM, but the BASOP repo code is not at that point yet, so not change needed here */ IF( hBinRenderer->hInputSetup->is_loudspeaker_setup == 0 ) { FOR( k = 0; k < 11; k++ ) @@ -1551,9 +1552,6 @@ static void ivas_binRenderer_convModuleClose_fx( free( hBinRenConvModule->filterStatesLeftImag_fx[posIdx][bandIdx][chIdx] ); hBinRenConvModule->filterStatesLeftImag_fx[posIdx][bandIdx][chIdx] = NULL; - - free( hBinRenConvModule->Q_filterStatesLeft[posIdx][bandIdx][chIdx] ); - hBinRenConvModule->Q_filterStatesLeft[posIdx][bandIdx][chIdx] = NULL; } free( hBinRenConvModule->filterStatesLeftReal_fx[posIdx][bandIdx] ); @@ -1561,18 +1559,12 @@ static void ivas_binRenderer_convModuleClose_fx( free( hBinRenConvModule->filterStatesLeftImag_fx[posIdx][bandIdx] ); hBinRenConvModule->filterStatesLeftImag_fx[posIdx][bandIdx] = NULL; - - free( hBinRenConvModule->Q_filterStatesLeft[posIdx][bandIdx] ); - hBinRenConvModule->Q_filterStatesLeft[posIdx][bandIdx] = NULL; } free( hBinRenConvModule->filterStatesLeftReal_fx[posIdx] ); hBinRenConvModule->filterStatesLeftReal_fx[posIdx] = NULL; free( hBinRenConvModule->filterStatesLeftImag_fx[posIdx] ); hBinRenConvModule->filterStatesLeftImag_fx[posIdx] = NULL; - - free( hBinRenConvModule->Q_filterStatesLeft[posIdx] ); - hBinRenConvModule->Q_filterStatesLeft[posIdx] = NULL; } #else FOR( bandIdx = 0; bandIdx < ( *hBinRenderer )->conv_band; bandIdx++ ) @@ -1584,9 +1576,6 @@ static void ivas_binRenderer_convModuleClose_fx( free( hBinRenConvModule->filterStatesLeftImag_fx[bandIdx][chIdx] ); hBinRenConvModule->filterStatesLeftImag_fx[bandIdx][chIdx] = NULL; - - free( hBinRenConvModule->Q_filterStatesLeft[bandIdx][chIdx] ); - hBinRenConvModule->Q_filterStatesLeft[bandIdx][chIdx] = NULL; } free( hBinRenConvModule->filterStatesLeftReal_fx[bandIdx] ); @@ -1594,9 +1583,6 @@ static void ivas_binRenderer_convModuleClose_fx( free( hBinRenConvModule->filterStatesLeftImag_fx[bandIdx] ); hBinRenConvModule->filterStatesLeftImag_fx[bandIdx] = NULL; - - free( hBinRenConvModule->Q_filterStatesLeft[bandIdx] ); - hBinRenConvModule->Q_filterStatesLeft[bandIdx] = NULL; } #endif free( hBinRenConvModule->filterStatesLeftReal_fx ); @@ -1605,8 +1591,6 @@ static void ivas_binRenderer_convModuleClose_fx( free( hBinRenConvModule->filterStatesLeftImag_fx ); hBinRenConvModule->filterStatesLeftImag_fx = NULL; - free( hBinRenConvModule->Q_filterStatesLeft ); - hBinRenConvModule->Q_filterStatesLeft = NULL; free( ( *hBinRenderer )->hBinRenConvModule ); ( *hBinRenderer )->hBinRenConvModule = NULL; @@ -1743,7 +1727,7 @@ void ivas_binaural_add_LFE_fx( Word32 *output_fx[] /* o : synthesized core-coder transport channels/DirAC output Q11*/ ) { - Word16 render_lfe, idx_lfe, gain_fx; + Word16 render_lfe, idx_lfe, gain_fx, idx; Word32 lfe_tc[L_FRAME48k]; IF( st_ivas->hBinRenderer != NULL ) @@ -1783,7 +1767,7 @@ void ivas_binaural_add_LFE_fx( { v_multc_fixed_16( input_fx[st_ivas->hIntSetup.index_lfe[idx_lfe]], gain_fx, lfe_tc, output_frame ); // q_input_fx - 1 /* copy LFE to left and right channels */ - FOR( int idx = 0; idx < output_frame; idx++ ) + FOR( idx = 0; idx < output_frame; idx++ ) { lfe_tc[idx] = L_shl_sat( lfe_tc[idx], 1 ); // saturating to keep same q move32(); diff --git a/lib_dec/ivas_core_dec.c b/lib_dec/ivas_core_dec_fx.c similarity index 77% rename from lib_dec/ivas_core_dec.c rename to lib_dec/ivas_core_dec_fx.c index 92b43092b8a4355de0913c6fd026333ae38900c5..03f0e4b40a7904afa92be4f0e71e70df0845e214 100644 --- a/lib_dec/ivas_core_dec.c +++ b/lib_dec/ivas_core_dec_fx.c @@ -36,12 +36,10 @@ #include #include "cnst.h" #include "rom_com.h" -#include "prot.h" -#include "ivas_prot.h" +#include "prot_fx.h" #include "ivas_prot_fx.h" #include "ivas_rom_com.h" #include "wmc_auto.h" -#include "prot_fx.h" #include "ivas_prot_fx.h" @@ -50,6 +48,7 @@ * * Principal IVAS core decoder routine, where number of core channels is 1 or 2 *-------------------------------------------------------------------*/ + ivas_error ivas_core_dec_fx( Decoder_Struct *st_ivas, /* i/o: IVAS decoder structure */ SCE_DEC_HANDLE hSCE, /* i/o: SCE decoder structure */ @@ -66,15 +65,15 @@ ivas_error ivas_core_dec_fx( Decoder_State **sts, *st; STEREO_ICBWE_DEC_HANDLE hStereoICBWE; STEREO_TD_DEC_DATA_HANDLE hStereoTD; + STEREO_CNG_DEC_HANDLE hStereoCng; + TD_BWE_DEC_HANDLE hBWE_TD; + FD_BWE_DEC_HANDLE hBWE_FD; Word16 sharpFlag[CPE_CHANNELS]; Word16 tmp_buffer_fx[L_FRAME48k]; - set16_fx( tmp_buffer_fx, 0, L_FRAME48k ); Word16 tmp16, tmp16_2, j; - tmp16 = 0; - move16(); Word16 Q_white_exc; - Q_white_exc = 0; - move16(); + + set16_fx( tmp_buffer_fx, 0, L_FRAME48k ); Word16 tmps, incr; Word32 bwe_exc_extended_fx[CPE_CHANNELS][L_FRAME32k + NL_BUFF_OFFSET]; @@ -111,15 +110,8 @@ ivas_error ivas_core_dec_fx( move16(); move16(); - FOR( i = 0; i < CPE_CHANNELS; i++ ) - { - set16_fx( pitch_buf_fx[i], 0, NB_SUBFR16k ); - set16_fx( output_16_fx[i], 0, L_FRAME48k ); - } - Word16 tdm_lsfQ_PCh_fx[M], tdm_lspQ_PCh_fx[M]; Word32 conceal_eof_gain32; - Flag Overflow; error = IVAS_ERR_OK; @@ -148,9 +140,11 @@ ivas_error ivas_core_dec_fx( last_element_mode = IVAS_SCE; move16(); hStereoTD = NULL; + hStereoCng = NULL; p_output_mem_fx = NULL; nchan_out = 1; move16(); + test(); IF( st_ivas != NULL && EQ_32( st_ivas->ivas_format, ISM_FORMAT ) ) { @@ -172,8 +166,8 @@ ivas_error ivas_core_dec_fx( move16(); hStereoICBWE = hCPE->hStereoICBWE; hStereoTD = hCPE->hStereoTD; + hStereoCng = hCPE->hStereoCng; p_output_mem_fx = hCPE->output_mem_fx[1]; - nchan_out = hCPE->nchan_out; move16(); @@ -183,19 +177,12 @@ ivas_error ivas_core_dec_fx( move16(); } - IF( EQ_16( sts[0]->element_mode, IVAS_CPE_DFT ) ) + test(); + test(); + IF( EQ_16( sts[0]->element_mode, IVAS_CPE_DFT ) && EQ_16( hCPE->nchan_out, 1 ) && EQ_16( hCPE->hStereoDft->hConfig->res_cod_mode, STEREO_DFT_RES_COD_OFF ) ) { - test(); - IF( EQ_16( hCPE->nchan_out, 1 ) && EQ_16( hCPE->hStereoDft->hConfig->res_cod_mode, STEREO_DFT_RES_COD_OFF ) ) - { - use_cldfb_for_dft = 1; - move16(); - } - ELSE - { - use_cldfb_for_dft = 0; - move16(); - } + use_cldfb_for_dft = 1; + move16(); } } @@ -285,10 +272,8 @@ ivas_error ivas_core_dec_fx( IF( !st->bfi && st->prev_bfi && ( EQ_16( st->last_core_bfi, TCX_20_CORE ) || EQ_16( st->last_core_bfi, TCX_10_CORE ) ) && st->hTcxDec != NULL ) #endif { - conceal_eof_gain32 = L_shr_sat( st->hTcxDec->conceal_eof_gain32, sub( 16, st->hTcxDec->conceal_eof_gain_e ) ); // e = 31 - Q , 16 - e => 16 - (31 - Q) => Q - 15, // shr(16 -e ) = shr(Q -15) => 15 - Q ==> Q15 - FOR( i = 0; i < st->hTcxDec->L_frameTCX; i++ ) { L_tmp = Mpy_32_16_1( conceal_eof_gain32, st->hHQ_core->old_out_fx[i] ); // Q0 (15+1+0 - (15 + 1) @@ -311,6 +296,7 @@ ivas_error ivas_core_dec_fx( set16_fx( voice_factors_fx[n], 0, NB_SUBFR16k ); set32_fx( hb_synth_32_fx[n], 0, L_FRAME48k ); set16_fx( hb_synth_16_fx[n], 0, L_FRAME48k ); + /*------------------------------------------------------------------* * Decision matrix (selection of technologies) *-----------------------------------------------------------------*/ @@ -347,19 +333,14 @@ ivas_error ivas_core_dec_fx( /* MDCT stereo -> DFT stereo switching */ test(); - test(); - IF( hCPE != NULL && EQ_16( hCPE->last_element_mode, IVAS_CPE_MDCT ) && EQ_16( hCPE->element_mode, IVAS_CPE_DFT ) ) + IF( EQ_16( last_element_mode, IVAS_CPE_MDCT ) && EQ_16( sts[0]->element_mode, IVAS_CPE_DFT ) ) { Word16 ovl, fade_len; IF( NE_16( sts[0]->L_frame, sts[0]->last_L_frame ) ) { -#ifdef FIX_ISSUE_1237 - Copy_Scale_sig_16_32_no_sat( sts[0]->hHQ_core->old_out_LB_fx, sts[0]->hHQ_core->old_outLB_fx, L_FRAME32k, sub( Q11, sts[0]->hHQ_core->Q_old_wtda_LB ) ); // Q11 -#else - Copy_Scale_sig_16_32_DEPREC( sts[0]->hHQ_core->old_out_LB_fx, sts[0]->hHQ_core->old_outLB_fx, L_FRAME32k, sub( Q11, sts[0]->hHQ_core->Q_old_wtda_LB ) ); // Q11 -#endif - L_lerp_fx_q11( sts[0]->hHQ_core->old_outLB_fx, sts[0]->hHQ_core->old_outLB_fx, sts[0]->L_frame, sts[0]->last_L_frame ); - Copy_Scale_sig_32_16( sts[0]->hHQ_core->old_outLB_fx, sts[0]->hHQ_core->old_out_LB_fx, L_FRAME32k, sub( sts[0]->hHQ_core->Q_old_wtda_LB, Q11 ) ); // Q_old_wtda_LB + Copy_Scale_sig_16_32_no_sat( sts[0]->hHQ_core->old_out_LB_fx, sts[0]->hHQ_core->old_out_LB_fx32, L_FRAME32k, sub( Q11, sts[0]->hHQ_core->Q_old_wtda_LB ) ); // Q11 + L_lerp_fx_q11( sts[0]->hHQ_core->old_out_LB_fx32, sts[0]->hHQ_core->old_out_LB_fx32, sts[0]->L_frame, sts[0]->last_L_frame ); + Copy_Scale_sig_32_16( sts[0]->hHQ_core->old_out_LB_fx32, sts[0]->hHQ_core->old_out_LB_fx, L_FRAME32k, sub( sts[0]->hHQ_core->Q_old_wtda_LB, Q11 ) ); // Q_old_wtda_LB } IF( NE_16( sts[0]->L_frame, L_FRAME16k ) ) { @@ -372,9 +353,9 @@ ivas_error ivas_core_dec_fx( } test(); - if ( hCPE != NULL && hCPE->hStereoCng != NULL ) + if ( hStereoCng != NULL ) { - hCPE->hStereoCng->flag_cna_fade = 0; + hStereoCng->flag_cna_fade = 0; move16(); } @@ -415,7 +396,7 @@ ivas_error ivas_core_dec_fx( test(); IF( hCPE != NULL && EQ_16( hCPE->element_mode, IVAS_CPE_DFT ) && hCPE->brate_surplus > 0 ) { - ivas_combined_format_brate_sanity_fx( hCPE->element_brate, sts[0]->core, sts[0]->total_brate, &( sts[0]->core_brate ), &( sts[0]->inactive_coder_type_flag ), &tmps ); + ivas_combined_format_brate_sanity_fx( element_brate, sts[0]->core, sts[0]->total_brate, &( sts[0]->core_brate ), &( sts[0]->inactive_coder_type_flag ), &tmps ); } /*------------------------------------------------------------------* @@ -469,6 +450,7 @@ ivas_error ivas_core_dec_fx( /*---------------------------------------------------------------------* * Preprocessing (preparing) for ACELP/HQ core switching *---------------------------------------------------------------------*/ + Word16 Q_olapBufferSynth, Q_olapBufferSynth2; Q_olapBufferSynth = Q15; /*Initializing with max values to avoid warnings*/ @@ -497,12 +479,14 @@ ivas_error ivas_core_dec_fx( * HQ core decoding *---------------------------------------------------------------------*/ + set16_fx( output_16_fx[n], 0, L_FRAME48k ); /* this is needed for instances like L_norm_arr( p_output_fx[i], L_FRAME48k ) */ + IF( st->core == ACELP_CORE ) { /* ACELP core decoder */ Word16 old_syn_12k8_16k_fx_16[L_FRAME16k]; - set16_fx( output_16_fx[n], 0, L_FRAME48k ); Word16 save_hb_synth_fx_arr[L_FRAME48k], *save_hb_synth_16_fx; + IF( save_hb_synth_32_fx ) { save_hb_synth_16_fx = save_hb_synth_fx_arr; @@ -536,26 +520,13 @@ ivas_error ivas_core_dec_fx( Scale_sig( st->hFdCngDec->hFdCngCom->A_cng, add( M, 1 ), sub( norm_s( sub( st->hFdCngDec->hFdCngCom->A_cng[0], 1 ) ), 3 ) ); // Qx } - IF( hCPE == NULL ) + IF( NE_32( ( error = acelp_core_dec_ivas_fx( st, output_16_fx[n], synth_16_fx[n], save_hb_synth_16_fx, bwe_exc_extended_fx[n], voice_factors_fx[n], old_syn_12k8_16k_fx_16, sharpFlag[n], pitch_buf_fx[n], &unbits[n], &sid_bw[n], hStereoTD, tdm_lspQ_PCh_fx, tdm_lsfQ_PCh_fx, use_cldfb_for_dft, last_element_mode, last_element_brate, flag_sec_CNA, nchan_out, hStereoCng, read_sid_info ) ), IVAS_ERR_OK ) ) { - IF( NE_32( ( error = acelp_core_dec_ivas_fx( st, output_16_fx[n], synth_16_fx[n], save_hb_synth_16_fx, bwe_exc_extended_fx[n], voice_factors_fx[n], old_syn_12k8_16k_fx_16, sharpFlag[n], pitch_buf_fx[n], &unbits[n], &sid_bw[n], hStereoTD, tdm_lspQ_PCh_fx, tdm_lsfQ_PCh_fx, use_cldfb_for_dft, last_element_mode, last_element_brate, flag_sec_CNA, nchan_out, NULL, read_sid_info ) ), IVAS_ERR_OK ) ) - { - return error; - } - } - ELSE - { - IF( NE_32( ( error = acelp_core_dec_ivas_fx( st, output_16_fx[n], synth_16_fx[n], save_hb_synth_16_fx, bwe_exc_extended_fx[n], voice_factors_fx[n], old_syn_12k8_16k_fx_16, sharpFlag[n], pitch_buf_fx[n], &unbits[n], &sid_bw[n], hStereoTD, tdm_lspQ_PCh_fx, tdm_lsfQ_PCh_fx, use_cldfb_for_dft, last_element_mode, last_element_brate, flag_sec_CNA, nchan_out, hCPE->hStereoCng, read_sid_info ) ), IVAS_ERR_OK ) ) - { - return error; - } + return error; } -#ifdef FIX_ISSUE_1237 + Copy_Scale_sig_16_32_no_sat( output_16_fx[n], output_32_fx[n], L_FRAME48k, sub( Q11, st->Q_syn2 ) ); // Q_syn2->Q11 -#else - Copy_Scale_sig_16_32_DEPREC( output_16_fx[n], output_32_fx[n], L_FRAME48k, sub( Q11, st->Q_syn2 ) ); // Q_syn2->Q11 -#endif - Scale_sig( output_16_fx[n], L_FRAME48k, negate( st->Q_syn2 ) ); // Q0 + Scale_sig( output_16_fx[n], L_FRAME48k, negate( st->Q_syn2 ) ); // Q0 IF( st->cldfbAna ) { scale_sig32( st->cldfbAna->cldfb_state_fx, st->cldfbAna->cldfb_size, Q10 - Q11 ); /* 9 * (Word16)(st->L_frame * FRAMES_PER_SEC * INV_CLDFB_BANDWIDTH + 0.5f) , Q10 */ @@ -574,9 +545,6 @@ ivas_error ivas_core_dec_fx( st->cldfbSyn->Q_cldfb_state = Q11; move16(); } -#ifndef FIX_ISSUE_1279 /* the update of prev_Q_syn is already done inside rescale_mem( ) */ - st->prev_Q_syn = st->Q_syn; -#endif move16(); IF( save_hb_synth_32_fx ) @@ -596,7 +564,6 @@ ivas_error ivas_core_dec_fx( IF( ( EQ_16( st->core, TCX_20_CORE ) || EQ_16( st->core, TCX_10_CORE ) ) && NE_16( st->element_mode, IVAS_CPE_MDCT ) ) { Word16 Qsyn_temp; - STEREO_CNG_DEC_HANDLE hStereoCng; IVAS_FORMAT ivas_format; Qsyn_temp = st->Q_syn; @@ -622,14 +589,6 @@ ivas_error ivas_core_dec_fx( st->hHQ_core->Q_old_wtda = 0; move16(); - IF( hCPE == NULL ) - { - hStereoCng = NULL; - } - ELSE - { - hStereoCng = hCPE->hStereoCng; - } IF( st_ivas == NULL ) { ivas_format = 0; @@ -640,7 +599,9 @@ ivas_error ivas_core_dec_fx( ivas_format = st_ivas->ivas_format; move32(); } + stereo_tcx_core_dec_fx( st, frameMode[n], output_16_fx[n], synth_16_fx[n], pitch_buf_fx[n], sba_dirac_stereo_flag, hStereoTD, last_element_mode, flag_sec_CNA, hStereoCng, nchan_out, ivas_format ); + st->hHQ_core->Q_old_wtda_LB = st->hHQ_core->Q_old_wtda; move16(); Copy_Scale_sig_16_32_DEPREC( output_16_fx[n], output_32_fx[n], L_FRAME48k, Q11 ); // Q11 @@ -671,12 +632,8 @@ ivas_error ivas_core_dec_fx( ivas_hq_core_dec_fx( st, synth_16_fx[n], &Q_synth, output_frame, NORMAL_HQ_CORE, core_switching_flag[n], output_16_fx[n], &Q_output ); Copy_Scale_sig_16_32_DEPREC( output_16_fx[n], output_32_fx[n], L_FRAME48k, sub( Q11, Q_output ) ); // Q11 -#ifdef MSAN_FIX - Scale_sig( synth_16_fx[n], output_frame, negate( Q_synth ) ); // Q0 -#else - Scale_sig( synth_16_fx[n], L_FRAME48k, negate( Q_synth ) ); -#endif - Scale_sig( output_16_fx[n], L_FRAME48k, negate( Q_output ) ); // Q0 + Scale_sig( synth_16_fx[n], output_frame, negate( Q_synth ) ); // Q0 + Scale_sig( output_16_fx[n], L_FRAME48k, negate( Q_output ) ); // Q0 } /*---------------------------------------------------------------------* @@ -690,11 +647,7 @@ ivas_error ivas_core_dec_fx( td_stereo_param_updt_fx( st->lsp_old_fx, st->lsf_old_fx, st->old_pitch_buf_16_fx + st->nb_subfr, tdm_lspQ_PCh_fx, tdm_lsfQ_PCh_fx, hStereoTD->tdm_Pri_pitch_buf_fx, st->flag_ACELP16k, hStereoTD->tdm_use_IAWB_Ave_lpc ); -#ifdef FIX_ISSUE_1237 Copy_Scale_sig_16_32_no_sat( hCPE->hCoreCoder[0]->old_pitch_buf_16_fx, hCPE->hCoreCoder[0]->old_pitch_buf_fx, add( imult1616( 2, NB_SUBFR16k ), 2 ), Q10 ); // Q16 -#else - Copy_Scale_sig_16_32_DEPREC( hCPE->hCoreCoder[0]->old_pitch_buf_16_fx, hCPE->hCoreCoder[0]->old_pitch_buf_fx, add( imult1616( 2, NB_SUBFR16k ), 2 ), Q10 ); // Q16 -#endif } } /* n_channels loop */ @@ -740,6 +693,7 @@ ivas_error ivas_core_dec_fx( move16(); move16(); sts = hCPE->hCoreCoder; + FOR( ch = 0; ch < CPE_CHANNELS; ch++ ) { st = sts[ch]; @@ -783,19 +737,21 @@ ivas_error ivas_core_dec_fx( ELSE IF( EQ_16( hCPE->nchan_out, 1 ) ) { Word16 shift1, shift2; + sts[0] = hCPE->hCoreCoder[0]; sts[1] = hCPE->hCoreCoder[1]; - IF( LE_32( hCPE->last_element_brate, IVAS_SID_5k2 ) ) + IF( LE_32( last_element_brate, IVAS_SID_5k2 ) ) { sts[0]->hHQ_core->exp_old_out = sub( 15, sts[0]->hHQ_core->Q_old_wtda ); move16(); sts[1]->hHQ_core->exp_old_out = sub( 15, sts[1]->hHQ_core->Q_old_wtda ); move16(); } + updateBuffersForDmxMdctStereo_fx( hCPE, output_frame, output_32_fx[0], output_32_fx[1], synth_16_fx ); - IF( LE_32( hCPE->last_element_brate, IVAS_SID_5k2 ) ) + IF( LE_32( last_element_brate, IVAS_SID_5k2 ) ) { sts[0]->hHQ_core->Q_old_wtda = sub( 15, sts[0]->hHQ_core->exp_old_out ); move16(); @@ -838,7 +794,7 @@ ivas_error ivas_core_dec_fx( *---------------------------------------------------------------------*/ test(); - IF( EQ_16( sts[0]->element_mode, IVAS_CPE_TD ) && hCPE->hStereoCng != NULL ) + IF( EQ_16( sts[0]->element_mode, IVAS_CPE_TD ) && hStereoCng != NULL ) { /* To be cleaned up once the caller function is converted // These changes are for system testing of fixed changes made */ Word16 Q_c_PS_LT, Q_output; @@ -848,13 +804,13 @@ ivas_error ivas_core_dec_fx( move16(); Q_output = 11; move16(); - c_PS_LT_fx = L_deposit_h( hCPE->hStereoCng->c_PS_LT_fx ); + c_PS_LT_fx = L_deposit_h( hStereoCng->c_PS_LT_fx ); Q_c_PS_LT = Q31; move16(); stereo_cng_compute_PScorr_fx( output_32_fx[0], output_32_fx[1], &Q_output, &c_PS_LT_fx, Q_c_PS_LT, sts[0]->L_frame, sts[1]->L_frame ); - hCPE->hStereoCng->c_PS_LT_fx = extract_h( c_PS_LT_fx ); + hStereoCng->c_PS_LT_fx = extract_h( c_PS_LT_fx ); } /*---------------------------------------------------------------------* @@ -864,6 +820,8 @@ ivas_error ivas_core_dec_fx( FOR( n = 0; n < n_channels; n++ ) { st = sts[n]; + hBWE_TD = st->hBWE_TD; + hBWE_FD = st->hBWE_FD; /*---------------------------------------------------------------------* * TD-BWE for ACELP to TCX transitions @@ -909,7 +867,7 @@ ivas_error ivas_core_dec_fx( test(); test(); test(); - IF( ( st->last_core == ACELP_CORE ) && ( EQ_16( st->core, TCX_20_CORE ) || EQ_16( st->core, TCX_10_CORE ) || EQ_16( st->core, HQ_CORE ) ) && st->hBWE_TD != NULL ) + IF( ( st->last_core == ACELP_CORE ) && ( EQ_16( st->core, TCX_20_CORE ) || EQ_16( st->core, TCX_10_CORE ) || EQ_16( st->core, HQ_CORE ) ) && hBWE_TD != NULL ) { test(); test(); @@ -917,39 +875,32 @@ ivas_error ivas_core_dec_fx( test(); IF( ( EQ_16( st->bwidth, SWB ) || EQ_16( st->bwidth, FB ) ) && ( EQ_16( st->last_extl, SWB_TBE ) || EQ_16( st->last_extl, FB_TBE ) ) ) { - GenTransition_fixed( st->hBWE_TD, hb_synth_32_fx[n], output_Fs, st->element_mode, st->L_frame, st->rf_flag, st->total_brate, st->prev_Qx ); + GenTransition_fx32( hBWE_TD, hb_synth_32_fx[n], output_Fs, st->L_frame, hBWE_TD->prev_Qx ); } ELSE IF( EQ_16( st->bwidth, WB ) && EQ_16( st->last_extl, WB_TBE ) ) { - GenTransition_WB_fixed( st->hBWE_TD, hb_synth_32_fx[n], output_Fs ); + GenTransition_WB_fx32( hBWE_TD, hb_synth_32_fx[n], output_Fs ); } /* Memories Scaling */ - Copy_Scale_sig_32_16( st->hBWE_TD->syn_overlap_fx_32, st->hBWE_TD->syn_overlap_fx, L_SHB_LAHEAD, sub( st->prev_Q_bwe_syn2, Q11 ) ); // prev_Q_bwe_syn2 - Copy_Scale_sig_32_16( st->hBWE_TD->old_tbe_synth_fx_32, st->hBWE_TD->old_tbe_synth_fx, L_SHB_TRANSITION_LENGTH, sub( st->prev_Qx, Q11 ) ); // prev_Qx - Copy_Scale_sig_32_16( st->hBWE_TD->state_lsyn_filt_dwn_shb_fx_32, st->hBWE_TD->state_lsyn_filt_dwn_shb_fx, ALLPASSSECTIONS_STEEP * 2, sub( st->prev_Qx, Q11 ) ); // prev_Qx - Copy_Scale_sig_32_16( st->hBWE_TD->state_lsyn_filt_shb_fx_32, st->hBWE_TD->state_lsyn_filt_shb_fx, ALLPASSSECTIONS_STEEP * 2, sub( st->prev_Qx, Q11 ) ); // prev_Qx - Copy_Scale_sig_32_16( st->hBWE_TD->mem_resamp_HB_fx_32, st->hBWE_TD->mem_resamp_HB_fx, INTERP_3_1_MEM_LEN, sub( st->prev_Qx, Q11 ) ); // prev_Qx + Copy_Scale_sig_32_16( hBWE_TD->syn_overlap_fx_32, hBWE_TD->syn_overlap_fx, L_SHB_LAHEAD, sub( hBWE_TD->prev_Q_bwe_syn2, Q11 ) ); // prev_Q_bwe_syn2 + Copy_Scale_sig_32_16( hBWE_TD->old_tbe_synth_fx_32, hBWE_TD->old_tbe_synth_fx, L_SHB_TRANSITION_LENGTH, sub( hBWE_TD->prev_Qx, Q11 ) ); // prev_Qx + Copy_Scale_sig_32_16( hBWE_TD->state_lsyn_filt_dwn_shb_fx_32, hBWE_TD->state_lsyn_filt_dwn_shb_fx, ALLPASSSECTIONS_STEEP * 2, sub( hBWE_TD->prev_Qx, Q11 ) ); // prev_Qx + Copy_Scale_sig_32_16( hBWE_TD->state_lsyn_filt_shb_fx_32, hBWE_TD->state_lsyn_filt_shb_fx, ALLPASSSECTIONS_STEEP * 2, sub( hBWE_TD->prev_Qx, Q11 ) ); // prev_Qx + Copy_Scale_sig_32_16( hBWE_TD->mem_resamp_HB_fx_32, hBWE_TD->mem_resamp_HB_fx, INTERP_3_1_MEM_LEN, sub( hBWE_TD->prev_Qx, Q11 ) ); // prev_Qx } /* Memories Re-Scaling */ - IF( st->hBWE_TD != NULL ) + IF( hBWE_TD != NULL ) { -#ifdef FIX_ISSUE_1237 - Copy_Scale_sig_16_32_no_sat( st->hBWE_TD->syn_overlap_fx, st->hBWE_TD->syn_overlap_fx_32, L_SHB_LAHEAD, sub( Q11, st->prev_Q_bwe_syn2 ) ); // Q11 - Copy_Scale_sig_16_32_no_sat( st->hBWE_TD->old_tbe_synth_fx, st->hBWE_TD->old_tbe_synth_fx_32, L_SHB_TRANSITION_LENGTH, sub( Q11, st->prev_Qx ) ); // Q11 - Copy_Scale_sig_16_32_no_sat( st->hBWE_TD->state_lsyn_filt_dwn_shb_fx, st->hBWE_TD->state_lsyn_filt_dwn_shb_fx_32, ALLPASSSECTIONS_STEEP * 2, sub( Q11, st->prev_Qx ) ); // Q11 - Copy_Scale_sig_16_32_no_sat( st->hBWE_TD->state_lsyn_filt_shb_fx, st->hBWE_TD->state_lsyn_filt_shb_fx_32, ALLPASSSECTIONS_STEEP * 2, sub( Q11, st->prev_Qx ) ); // Q11 - Copy_Scale_sig_16_32_no_sat( st->hBWE_TD->mem_resamp_HB_fx, st->hBWE_TD->mem_resamp_HB_fx_32, INTERP_3_1_MEM_LEN, sub( Q11, st->prev_Qx ) ); // Q11 -#else - Copy_Scale_sig_16_32_DEPREC( st->hBWE_TD->syn_overlap_fx, st->hBWE_TD->syn_overlap_fx_32, L_SHB_LAHEAD, sub( Q11, st->prev_Q_bwe_syn2 ) ); // Q11 - Copy_Scale_sig_16_32_DEPREC( st->hBWE_TD->old_tbe_synth_fx, st->hBWE_TD->old_tbe_synth_fx_32, L_SHB_TRANSITION_LENGTH, sub( Q11, st->prev_Qx ) ); // Q11 - Copy_Scale_sig_16_32_DEPREC( st->hBWE_TD->state_lsyn_filt_dwn_shb_fx, st->hBWE_TD->state_lsyn_filt_dwn_shb_fx_32, ALLPASSSECTIONS_STEEP * 2, sub( Q11, st->prev_Qx ) ); // Q11 - Copy_Scale_sig_16_32_DEPREC( st->hBWE_TD->state_lsyn_filt_shb_fx, st->hBWE_TD->state_lsyn_filt_shb_fx_32, ALLPASSSECTIONS_STEEP * 2, sub( Q11, st->prev_Qx ) ); // Q11 - Copy_Scale_sig_16_32_DEPREC( st->hBWE_TD->mem_resamp_HB_fx, st->hBWE_TD->mem_resamp_HB_fx_32, INTERP_3_1_MEM_LEN, sub( Q11, st->prev_Qx ) ); // Q11 -#endif - Copy( st->hBWE_TD->mem_resamp_HB_fx, st->hBWE_TD->state_32and48k_WB_upsample_fx, ( 2 * ALLPASSSECTIONS_STEEP ) ); + Copy_Scale_sig_16_32_no_sat( hBWE_TD->syn_overlap_fx, hBWE_TD->syn_overlap_fx_32, L_SHB_LAHEAD, sub( Q11, hBWE_TD->prev_Q_bwe_syn2 ) ); // Q11 + Copy_Scale_sig_16_32_no_sat( hBWE_TD->old_tbe_synth_fx, hBWE_TD->old_tbe_synth_fx_32, L_SHB_TRANSITION_LENGTH, sub( Q11, hBWE_TD->prev_Qx ) ); // Q11 + Copy_Scale_sig_16_32_no_sat( hBWE_TD->state_lsyn_filt_dwn_shb_fx, hBWE_TD->state_lsyn_filt_dwn_shb_fx_32, ALLPASSSECTIONS_STEEP * 2, sub( Q11, hBWE_TD->prev_Qx ) ); // Q11 + Copy_Scale_sig_16_32_no_sat( hBWE_TD->state_lsyn_filt_shb_fx, hBWE_TD->state_lsyn_filt_shb_fx_32, ALLPASSSECTIONS_STEEP * 2, sub( Q11, hBWE_TD->prev_Qx ) ); // Q11 + Copy_Scale_sig_16_32_no_sat( hBWE_TD->mem_resamp_HB_fx, hBWE_TD->mem_resamp_HB_fx_32, INTERP_3_1_MEM_LEN, sub( Q11, hBWE_TD->prev_Qx ) ); // Q11 + Copy( hBWE_TD->mem_resamp_HB_fx, hBWE_TD->state_32and48k_WB_upsample_fx, ( 2 * ALLPASSSECTIONS_STEEP ) ); } + /*---------------------------------------------------------------------* * Postprocessing for ACELP/MDCT core switching *---------------------------------------------------------------------*/ @@ -960,35 +911,10 @@ ivas_error ivas_core_dec_fx( test(); IF( sba_dirac_stereo_flag && NE_16( st->element_mode, IVAS_CPE_MDCT ) && !( EQ_32( st->core_brate, SID_2k40 ) && EQ_16( st->cng_type, FD_CNG ) ) ) { -#ifdef FIX_ISSUE_1237 Copy_Scale_sig_16_32_no_sat( synth_16_fx[n], hSCE->save_synth_fx, output_frame, sub( hSCE->q_save_synth_fx, Q_synth ) ); // q_save_synth_fx -#else - Copy_Scale_sig_16_32_DEPREC( synth_16_fx[n], hSCE->save_synth_fx, output_frame, sub( hSCE->q_save_synth_fx, Q_synth ) ); // q_save_synth_fx -#endif } - IVAS_FORMAT ivas_format; - IF( st_ivas != NULL ) - { - ivas_format = st_ivas->ivas_format; - move32(); - } - ELSE - { - ivas_format = UNDEFINED_FORMAT; - move32(); - } - IF( hCPE != NULL ) - { - last_element_mode = hCPE->last_element_mode; - move16(); - } - ELSE - { - last_element_mode = IVAS_SCE; - move16(); - } - IF( NE_32( ( error = core_switching_post_dec_ivas_fx( st, synth_16_fx[n], output_32_fx[n], p_output_mem_16, ivas_format, use_cldfb_for_dft, output_frame, 0 /*core_switching_flag*/, sba_dirac_stereo_flag, nchan_out, last_element_mode, &Q_synth ) ), IVAS_ERR_OK ) ) + IF( NE_32( ( error = core_switching_post_dec_ivas_fx( st, synth_16_fx[n], output_32_fx[n], p_output_mem_16, use_cldfb_for_dft, output_frame, 0 /*core_switching_flag*/, sba_dirac_stereo_flag, nchan_out, last_element_mode, &Q_synth ) ), IVAS_ERR_OK ) ) { return error; } @@ -999,11 +925,7 @@ ivas_error ivas_core_dec_fx( test(); IF( sba_dirac_stereo_flag && hSCE && EQ_32( st->core_brate, SID_2k40 ) && EQ_16( st->cng_type, FD_CNG ) ) { -#ifdef FIX_ISSUE_1237 Copy_Scale_sig_16_32_no_sat( synth_16_fx[n], hSCE->save_synth_fx, output_frame, sub( hSCE->q_save_synth_fx, Q_synth ) ); // q_save_synth_fx -#else - Copy_Scale_sig_16_32_DEPREC( synth_16_fx[n], hSCE->save_synth_fx, output_frame, sub( hSCE->q_save_synth_fx, Q_synth ) ); // q_save_synth_fx -#endif } /* if we transition from inactive to active coding in MDCT-Stereo DTX and the output format is mono DMX, we need to sync the upsampled buffer between channels here */ @@ -1013,10 +935,11 @@ ivas_error ivas_core_dec_fx( test(); test(); test(); - IF( n == 0 && EQ_16( st->element_mode, IVAS_CPE_MDCT ) && st->last_core == ACELP_CORE && st->core != ACELP_CORE && ( EQ_16( nchan_out, 1 ) || ( hCPE != NULL && EQ_16( hCPE->last_element_mode, IVAS_CPE_DFT ) ) ) ) + IF( n == 0 && EQ_16( st->element_mode, IVAS_CPE_MDCT ) && st->last_core == ACELP_CORE && st->core != ACELP_CORE && ( EQ_16( nchan_out, 1 ) || EQ_16( last_element_mode, IVAS_CPE_DFT ) ) ) { Copy( sts[0]->previoussynth_fx, sts[1]->previoussynth_fx, st->hTcxDec->L_frameTCX ); } + /*---------------------------------------------------------------------* * Pre-processing for bandwidth switching *---------------------------------------------------------------------*/ @@ -1029,11 +952,7 @@ ivas_error ivas_core_dec_fx( } ELSE { -#ifdef FIX_ISSUE_1237 Copy_Scale_sig_16_32_no_sat( st->delay_buf_out_fx, st->delay_buf_out32_fx, ( HQ_DELTA_MAX * HQ_DELAY_COMP ), sub( Q11, st->hHQ_core->Q_old_postdec ) ); // Q11 -#else - Copy_Scale_sig_16_32_DEPREC( st->delay_buf_out_fx, st->delay_buf_out32_fx, ( HQ_DELTA_MAX * HQ_DELAY_COMP ), sub( Q11, st->hHQ_core->Q_old_postdec ) ); // Q11 -#endif } Scale_sig32( output_32_fx[n], L_FRAME48k, ( Q11 - Q4 ) ); // Q11 @@ -1047,32 +966,28 @@ ivas_error ivas_core_dec_fx( move16(); } -#ifdef MSAN_FIX IF( Q_synth > 0 ) { Scale_sig( synth_16_fx[n], output_frame, negate( Q_synth ) ); // Q0 Q_synth = 0; move16(); } -#else - Scale_sig( synth_16_fx[n], L_FRAME48k, negate( Q_synth ) ); -#endif /*------------------reset-code-start---------------------*/ test(); test(); - IF( NE_16( st->last_extl, WB_BWE ) && EQ_16( st->extl, WB_BWE ) && st->hBWE_FD != NULL ) + IF( NE_16( st->last_extl, WB_BWE ) && EQ_16( st->extl, WB_BWE ) && hBWE_FD != NULL ) { test(); if ( NE_16( st->last_extl, SWB_BWE ) && NE_16( st->last_extl, FB_BWE ) ) { - st->hBWE_FD->prev_mode = st->hBWE_FD->prev_mode; + hBWE_FD->prev_mode = hBWE_FD->prev_mode; move16(); } - st->hBWE_FD->prev_L_swb_norm = st->hBWE_FD->prev_L_swb_norm; + hBWE_FD->prev_L_swb_norm = hBWE_FD->prev_L_swb_norm; move16(); - st->hBWE_FD->prev_flag = st->hBWE_FD->prev_flag; + hBWE_FD->prev_flag = hBWE_FD->prev_flag; move16(); } @@ -1097,9 +1012,6 @@ ivas_error ivas_core_dec_fx( Q_synth_fx = Q_synth; move16(); - FD_BWE_DEC_HANDLE hBWE_FD; - hBWE_FD = st->hBWE_FD; - Copy_Scale_sig_32_16( output_32_fx[n], output_16_fx[n], L_FRAME48k, sub( Q_input, Q11 ) ); // Q_input Copy_Scale_sig_32_16( hb_synth_32_fx[n], hb_synth_16_fx[n], L_FRAME48k, -( Q11 ) ); // Q0 test(); @@ -1125,37 +1037,27 @@ ivas_error ivas_core_dec_fx( } /* Memories Re-Scaling */ -#ifdef FIX_ISSUE_1237 Copy_Scale_sig_16_32_no_sat( hb_synth_16_fx[n], hb_synth_32_fx[n], L_FRAME48k, sub( Q11, Q_hb_synth_fx ) ); // Q11 Copy_Scale_sig_16_32_no_sat( output_16_fx[n], output_32_fx[n], L_FRAME48k, sub( Q11, Q_input ) ); // Q11 // Q_input can get value <= -5 Copy_Scale_sig_16_32_no_sat( synth_16_fx[n], synth_32_fx[n], L_FRAME48k, sub( Q11, Q_synth_fx ) ); // Q11 -#else - Copy_Scale_sig_16_32_DEPREC( hb_synth_16_fx[n], hb_synth_32_fx[n], L_FRAME48k, sub( Q11, Q_hb_synth_fx ) ); // Q11 - Copy_Scale_sig_16_32_DEPREC( output_16_fx[n], output_32_fx[n], L_FRAME48k, sub( Q11, Q_input ) ); // Q11 - Copy_Scale_sig_16_32_DEPREC( synth_16_fx[n], synth_32_fx[n], L_FRAME48k, sub( Q11, Q_synth_fx ) ); // Q11 -#endif IF( hBWE_FD != NULL ) { -#ifdef FIX_ISSUE_1237 Copy_Scale_sig_16_32_no_sat( hBWE_FD->L_old_wtda_swb_fx, hBWE_FD->L_old_wtda_swb_fx32, L_FRAME48k, sub( Q11, hBWE_FD->old_wtda_swb_fx_exp ) ); // Q11 -#else - Copy_Scale_sig_16_32_DEPREC( hBWE_FD->L_old_wtda_swb_fx, hBWE_FD->L_old_wtda_swb_fx32, L_FRAME48k, sub( Q11, hBWE_FD->old_wtda_swb_fx_exp ) ); // Q11 -#endif } - IF( st->hBWE_TD != NULL ) + IF( hBWE_TD != NULL ) { -#ifdef FIX_ISSUE_1237 - Copy_Scale_sig_16_32_no_sat( st->hBWE_TD->old_tbe_synth_fx, st->hBWE_TD->old_tbe_synth_fx_32, L_SHB_TRANSITION_LENGTH, sub( Q11, st->prev_Qx ) ); // Q11 -#else - Copy_Scale_sig_16_32_DEPREC( st->hBWE_TD->old_tbe_synth_fx, st->hBWE_TD->old_tbe_synth_fx_32, L_SHB_TRANSITION_LENGTH, sub( Q11, st->prev_Qx ) ); // Q11 -#endif + Copy_Scale_sig_16_32_no_sat( hBWE_TD->old_tbe_synth_fx, hBWE_TD->old_tbe_synth_fx_32, L_SHB_TRANSITION_LENGTH, sub( Q11, hBWE_TD->prev_Qx ) ); // Q11 } /*---------------------------------------------------------------------* * SWB(FB) TBE decoding * SWB(FB) BWE decoding *---------------------------------------------------------------------*/ + + Q_white_exc = 0; + move16(); + test(); test(); test(); @@ -1176,12 +1078,10 @@ ivas_error ivas_core_dec_fx( IF( EQ_16( st->extl, SWB_TBE ) || EQ_16( st->extl, FB_TBE ) || ( NE_16( st->coder_type, AUDIO ) && NE_16( st->coder_type, INACTIVE ) && GE_32( st->core_brate, SID_2k40 ) && EQ_16( st->core, ACELP_CORE ) && !st->con_tcx && GE_32( output_Fs, 32000 ) && GT_16( st->bwidth, NB ) && st->bws_cnt > 0 ) ) { /* SWB TBE decoder */ - Q_white_exc = 0; - move16(); - ivas_swb_tbe_dec_fx( st, hStereoICBWE, bwe_exc_extended_fx[n], st->Q_exc, voice_factors_fx[n], old_syn_12k8_16k_fx[n], tmp_buffer_fx /*fb_exc*/, hb_synth_32_fx[n], pitch_buf_fx[n], &Q_white_exc ); - Copy_Scale_sig_16_32_no_sat( st->hBWE_TD->syn_overlap_fx, st->hBWE_TD->syn_overlap_fx_32, L_SHB_LAHEAD, sub( Q11, st->prev_Q_bwe_syn2 ) ); // Q11 - Copy_Scale_sig_32_16( st->hBWE_TD->old_tbe_synth_fx_32, st->hBWE_TD->old_tbe_synth_fx, L_SHB_TRANSITION_LENGTH, sub( st->prev_Qx, Q11 ) ); // prev_Qx + + Copy_Scale_sig_16_32_no_sat( hBWE_TD->syn_overlap_fx, hBWE_TD->syn_overlap_fx_32, L_SHB_LAHEAD, sub( Q11, hBWE_TD->prev_Q_bwe_syn2 ) ); // Q11 + Copy_Scale_sig_32_16( hBWE_TD->old_tbe_synth_fx_32, hBWE_TD->old_tbe_synth_fx, L_SHB_TRANSITION_LENGTH, sub( hBWE_TD->prev_Qx, Q11 ) ); // prev_Qx IF( GT_16( Q_white_exc, 31 ) ) { @@ -1203,7 +1103,7 @@ ivas_error ivas_core_dec_fx( Scale_sig32( hb_synth_32_fx[n], output_frame, sub( Q11, Q_syn_hb ) ); // Q11 - Copy_Scale_sig_32_16( st->hBWE_FD->L_old_wtda_swb_fx32, st->hBWE_FD->L_old_wtda_swb_fx, output_frame, sub( hBWE_FD->old_wtda_swb_fx_exp, Q11 ) ); // old_wtda_swb_fx_exp + Copy_Scale_sig_32_16( hBWE_FD->L_old_wtda_swb_fx32, hBWE_FD->L_old_wtda_swb_fx, output_frame, sub( hBWE_FD->old_wtda_swb_fx_exp, Q11 ) ); // old_wtda_swb_fx_exp } /*---------------------------------------------------------------------* @@ -1249,14 +1149,10 @@ ivas_error ivas_core_dec_fx( q = 2; move16(); - Copy_Scale_sig_32_16( hb_synth_32_fx[n], hb_synth_16_fx[n], L_FRAME48k, -( Q11 ) ); // Q0 -#ifdef MSAN_FIX - Copy_Scale_sig_32_16( synth_32_fx[n], synth_fxl, output_frame, negate( add( Q11, q ) ) ); // Q0 -#else - Copy_Scale_sig_32_16( synth_32_fx[n], synth_fxl, L_FRAME48k, negate( add( Q11, q ) ) ); -#endif - Scale_sig( st->hBWE_TD->state_lpc_syn_fx, LPC_SHB_ORDER, sub( Q8, st->prev_Q_bwe_syn ) ); // Q8 - Copy_Scale_sig_32_16( st->hBWE_TD->genSHBsynth_state_lsyn_filt_shb_local_fx_32, st->hBWE_TD->genSHBsynth_state_lsyn_filt_shb_local_fx, ( 2 * ALLPASSSECTIONS_STEEP ), sub( st->prev_Q_bwe_syn2, Q11 ) ); // prev_Q_bew_syn2 + Copy_Scale_sig_32_16( hb_synth_32_fx[n], hb_synth_16_fx[n], L_FRAME48k, -( Q11 ) ); // Q0 + Copy_Scale_sig_32_16( synth_32_fx[n], synth_fxl, output_frame, negate( add( Q11, q ) ) ); // Q0 + Scale_sig( hBWE_TD->state_lpc_syn_fx, LPC_SHB_ORDER, sub( Q8, hBWE_TD->prev_Q_bwe_syn ) ); // Q8 + Copy_Scale_sig_32_16( hBWE_TD->genSHBsynth_state_lsyn_filt_shb_local_fx_32, hBWE_TD->genSHBsynth_state_lsyn_filt_shb_local_fx, ( 2 * ALLPASSSECTIONS_STEEP ), sub( hBWE_TD->prev_Q_bwe_syn2, Q11 ) ); // prev_Q_bew_syn2 swb_CNG_dec_ivas_fx( st, synth_fxl, hb_synth_16_fx[n], sid_bw[n], negate( q ) ); @@ -1266,13 +1162,14 @@ ivas_error ivas_core_dec_fx( Copy_Scale_sig_16_32_DEPREC( hb_synth_16_fx[n], hb_synth_32_fx[n], L_FRAME48k, ( Q11 ) ); // Q11 } - Scale_sig( st->hBWE_TD->state_lpc_syn_fx, LPC_SHB_ORDER, negate( sub( Q8, st->prev_Q_bwe_syn ) ) ); // Q0 - Copy_Scale_sig_16_32_no_sat( st->hBWE_TD->genSHBsynth_state_lsyn_filt_shb_local_fx, st->hBWE_TD->genSHBsynth_state_lsyn_filt_shb_local_fx_32, 2 * ALLPASSSECTIONS_STEEP, negate( sub( st->prev_Q_bwe_syn2, Q11 ) ) ); + Scale_sig( hBWE_TD->state_lpc_syn_fx, LPC_SHB_ORDER, negate( sub( Q8, hBWE_TD->prev_Q_bwe_syn ) ) ); // Q0 + Copy_Scale_sig_16_32_no_sat( hBWE_TD->genSHBsynth_state_lsyn_filt_shb_local_fx, hBWE_TD->genSHBsynth_state_lsyn_filt_shb_local_fx_32, 2 * ALLPASSSECTIONS_STEEP, negate( sub( hBWE_TD->prev_Q_bwe_syn2, Q11 ) ) ); } /*-------------------------------------------------------------------* * Inter-channel BWE decoding *-------------------------------------------------------------------*/ + test(); IF( n == 0 && GE_16( st->element_mode, IVAS_CPE_DFT ) ) { @@ -1286,7 +1183,6 @@ ivas_error ivas_core_dec_fx( move32(); } stereo_icBWE_dec_fx( hCPE, hb_synth_32_fx[0], hb_synth_32_fx[1], tmp_buffer_fx /*fb_synth_ref*/, voice_factors_fx[0], output_frame, &q, Q_white_exc ); -#ifdef MSAN_FIX test(); test(); test(); @@ -1298,10 +1194,6 @@ ivas_error ivas_core_dec_fx( Scale_sig32( hb_synth_32_fx[0], output_frame, sub( Q11, q ) ); // Q11 Scale_sig32( hb_synth_32_fx[1], output_frame, sub( Q11, q ) ); // Q11 } -#else - Scale_sig32( hb_synth_32_fx[0], L_FRAME48k, sub( Q11, q ) ); - Scale_sig32( hb_synth_32_fx[1], L_FRAME48k, sub( Q11, q ) ); -#endif } IF( EQ_16( st->element_mode, EVS_MONO ) ) @@ -1321,18 +1213,16 @@ ivas_error ivas_core_dec_fx( IF( EQ_16( st->core, ACELP_CORE ) && !st->bfi && st->prev_bfi && GE_32( st->last_total_brate, HQ_48k ) && EQ_16( st->last_codec_mode, MODE2 ) && ( EQ_16( st->last_core_bfi, TCX_20_CORE ) || EQ_16( st->last_core_bfi, TCX_10_CORE ) ) && EQ_16( st->hPlcInfo->concealment_method, TCX_NONTONAL ) && LT_16( st->hPlcInfo->nbLostCmpt, 4 ) ) { tmps = NS2SA_FX2( output_Fs, DELAY_CLDFB_NS ); - IF( st->tonalMDCTconceal.q_lastPcmOut != 0 ) + IF( st->hTonalMDCTConc->q_lastPcmOut != 0 ) { - Scale_sig( st->tonalMDCTconceal.secondLastPcmOut, shr( st->plcInfo.FrameSize, 1 ), negate( st->tonalMDCTconceal.q_lastPcmOut ) ); - Scale_sig( st->tonalMDCTconceal.lastPcmOut, st->plcInfo.FrameSize, negate( st->tonalMDCTconceal.q_lastPcmOut ) ); - st->tonalMDCTconceal.q_lastPcmOut = 0; + Scale_sig( st->hTonalMDCTConc->secondLastPcmOut, shr( st->hPlcInfo->L_frameTCX, 1 ), negate( st->hTonalMDCTConc->q_lastPcmOut ) ); + Scale_sig( st->hTonalMDCTConc->lastPcmOut, st->hPlcInfo->L_frameTCX, negate( st->hTonalMDCTConc->q_lastPcmOut ) ); + st->hTonalMDCTConc->q_lastPcmOut = 0; move16(); } - waveform_adj2_fix( st->hTonalMDCTConc->secondLastPcmOut, synth_16_fx[n] + tmps, st->plcInfo.data_noise, &st->plcInfo.outx_new_n1_fx, - &st->plcInfo.nsapp_gain_fx, &st->plcInfo.nsapp_gain_n_fx, &st->plcInfo.recovery_gain, st->plcInfo.step_concealgain_fx, - st->plcInfo.Pitch_fx, st->plcInfo.FrameSize, tmps, add( st->hPlcInfo->nbLostCmpt, 1 ), st->bfi ); + waveform_adj2_fix( st->hPlcInfo, st->hTonalMDCTConc->secondLastPcmOut, synth_16_fx[n] + tmps, tmps, add( st->hPlcInfo->nbLostCmpt, 1 ), st->bfi ); - st->hPlcInfo->Pitch = 0; + st->hPlcInfo->Pitch_fx = 0; move16(); } } @@ -1450,7 +1340,7 @@ ivas_error ivas_core_dec_fx( Word32 hb_prev_synth_buffer_fx_32[111]; Copy_Scale_sig_16_32_DEPREC( st->hb_prev_synth_buffer_fx, hb_prev_synth_buffer_fx_32, 111, 11 ); // Q11 - delay_signal_fx( hb_synth_32_fx[n], output_frame, hb_prev_synth_buffer_fx_32, tmps ); + delay_signal32_fx( hb_synth_32_fx[n], output_frame, hb_prev_synth_buffer_fx_32, tmps ); Copy_Scale_sig_32_16( hb_prev_synth_buffer_fx_32, st->hb_prev_synth_buffer_fx, 111, -( 11 ) ); // Q0 } ELSE @@ -1469,24 +1359,13 @@ ivas_error ivas_core_dec_fx( { Word16 exp; Word32 fra; - SWITCH( output_frame ) + + tmp16 = 34; /*ouput_frame == L_FRAME 48k: Q15*/ + move16(); + if ( EQ_16( output_frame, L_FRAME32k ) ) { - case L_FRAME8k: - tmp16 = 205; - move16(); - BREAK; /*Q15*/ - case L_FRAME16k: - tmp16 = 102; - move16(); - BREAK; /*Q15*/ - case L_FRAME32k: - tmp16 = 51; - move16(); - BREAK; /*Q15*/ - case L_FRAME48k: - tmp16 = 34; - move16(); - BREAK; /*Q15*/ + tmp16 = 51; /*Q15*/ + move16(); } L_tmp = L_deposit_l( 2 ); /*0.001 in Q11*/ @@ -1506,9 +1385,9 @@ ivas_error ivas_core_dec_fx( L_tmp = BASOP_Util_Add_Mant32Exp( fra, 6, L_tmp, exp, &exp ); L_tmp = Mpy_32_16_1( L_tmp, 24660 ); exp = add( exp, 2 ); - st->last_shb_ener_fx = round_fx_sat( L_shl_sat( L_tmp, sub( exp, 7 ) ) ); /*Q8*/ + st->hTdCngDec->last_shb_ener_fx = round_fx_sat( L_shl_sat( L_tmp, sub( exp, 7 ) ) ); /*Q8*/ move16(); - st->hTdCngDec->last_shb_ener_fx = L_shl_sat( L_tmp, sub( exp, 20 ) ); /*Q11*/ + st->hTdCngDec->last_shb_ener_fx_32 = L_shl_sat( L_tmp, sub( exp, 20 ) ); /*Q11*/ move32(); } } @@ -1526,48 +1405,13 @@ ivas_error ivas_core_dec_fx( * - core switching in DFT stereo * - updates for potential TD->DFT stereo switching *----------------------------------------------------------------*/ - IF( hCPE != NULL ) - { - FOR( Word32 ch_ind = 0; ch_ind < n_channels; ch_ind++ ) - { - IF( hCPE->hCoreCoder[ch_ind] != NULL ) - { - IF( hCPE->hCoreCoder[ch_ind]->hHQ_core != NULL ) - { -#ifdef FIX_ISSUE_1237 - Copy_Scale_sig_16_32_no_sat( hCPE->hCoreCoder[ch_ind]->hHQ_core->old_out_LB_fx, hCPE->hCoreCoder[ch_ind]->hHQ_core->old_outLB_fx, L_FRAME32k, sub( Q11, hCPE->hCoreCoder[ch_ind]->hHQ_core->Q_old_wtda_LB ) ); // Q11 - Copy_Scale_sig_16_32_no_sat( hCPE->hCoreCoder[ch_ind]->hHQ_core->old_out_fx, hCPE->hCoreCoder[ch_ind]->hHQ_core->oldOut_fx, L_FRAME48k, sub( Q11, hCPE->hCoreCoder[ch_ind]->hHQ_core->Q_old_wtda ) ); // Q11 -#else - Copy_Scale_sig_16_32_DEPREC( hCPE->hCoreCoder[ch_ind]->hHQ_core->old_out_LB_fx, hCPE->hCoreCoder[ch_ind]->hHQ_core->old_outLB_fx, L_FRAME32k, sub( Q11, hCPE->hCoreCoder[ch_ind]->hHQ_core->Q_old_wtda_LB ) ); // Q11 - Copy_Scale_sig_16_32_DEPREC( hCPE->hCoreCoder[ch_ind]->hHQ_core->old_out_fx, hCPE->hCoreCoder[ch_ind]->hHQ_core->oldOut_fx, L_FRAME48k, sub( Q11, hCPE->hCoreCoder[ch_ind]->hHQ_core->Q_old_wtda ) ); // Q11 -#endif - } - } - } - } - IF( hSCE != NULL ) + IF( st->hHQ_core != NULL ) { - IF( hSCE->hCoreCoder[0] != NULL ) - { - IF( hSCE->hCoreCoder[0]->hHQ_core != NULL ) - { -#ifdef FIX_ISSUE_1237 - Copy_Scale_sig_16_32_no_sat( hSCE->hCoreCoder[0]->hHQ_core->old_out_LB_fx, hSCE->hCoreCoder[0]->hHQ_core->old_outLB_fx, L_FRAME32k, sub( Q11, hSCE->hCoreCoder[0]->hHQ_core->Q_old_wtda_LB ) ); // Q11 - Copy_Scale_sig_16_32_no_sat( hSCE->hCoreCoder[0]->hHQ_core->old_out_fx, hSCE->hCoreCoder[0]->hHQ_core->oldOut_fx, L_FRAME48k, sub( Q11, hSCE->hCoreCoder[0]->hHQ_core->Q_old_wtda ) ); // Q11 -#else - Copy_Scale_sig_16_32_DEPREC( hSCE->hCoreCoder[0]->hHQ_core->old_out_LB_fx, hSCE->hCoreCoder[0]->hHQ_core->old_outLB_fx, L_FRAME32k, sub( Q11, hSCE->hCoreCoder[0]->hHQ_core->Q_old_wtda_LB ) ); // Q11 - Copy_Scale_sig_16_32_DEPREC( hSCE->hCoreCoder[0]->hHQ_core->old_out_fx, hSCE->hCoreCoder[0]->hHQ_core->oldOut_fx, L_FRAME48k, sub( Q11, hSCE->hCoreCoder[0]->hHQ_core->Q_old_wtda ) ); // Q11 -#endif - } - } + Copy_Scale_sig_16_32_no_sat( st->hHQ_core->old_out_LB_fx, st->hHQ_core->old_out_LB_fx32, L_FRAME32k, sub( Q11, st->hHQ_core->Q_old_wtda_LB ) ); // Q11 + Copy_Scale_sig_16_32_no_sat( st->hHQ_core->old_out_fx, st->hHQ_core->old_out_fx32, L_FRAME48k, sub( Q11, st->hHQ_core->Q_old_wtda ) ); // Q11 } - Word16 exp_max; - Word32 output_fx_loc[L_FRAME48k]; - - exp_max = 0; - move16(); IF( NE_16( st->element_mode, IVAS_CPE_DFT ) ) { test(); @@ -1590,7 +1434,7 @@ ivas_error ivas_core_dec_fx( Word16 q; q = 11; move16(); - IF( EQ_16( hCPE->last_element_mode, IVAS_CPE_MDCT ) ) + IF( EQ_16( last_element_mode, IVAS_CPE_MDCT ) ) { stereo_mdct2dft_update_fx( hCPE, output_32_fx[0], synth_32_fx[0] ); } @@ -1623,8 +1467,13 @@ ivas_error ivas_core_dec_fx( * Common updates *--------------------------------------------------------*/ - /*Scale Memories*/ + Word16 exp_max; + Word32 output_fx_loc[L_FRAME48k]; + exp_max = 0; + move16(); + + /*Scale Memories*/ test(); test(); test(); @@ -1639,15 +1488,15 @@ ivas_error ivas_core_dec_fx( move16(); move16(); - Copy_Scale_sig32_16( st->prev_synth_buffer32_fx, st->prev_synth_buffer_fx, NS2SA_FX2( 48000, DELAY_BWE_TOTAL_NS - DELAY_CLDFB_NS ), -( Q11 ) ); // Q0 + Copy_Scale_sig32_16( st->prev_synth_buffer32_fx, st->prev_synth_buffer_fx, NS2SA( 48000, DELAY_BWE_TOTAL_NS - DELAY_CLDFB_NS ), -( Q11 ) ); // Q0 st->q_prev_synth_buffer_fx = 0; move16(); exp_ouput = Find_Max_Norm32( output_32_fx[n], output_frame ); exp_ouput = add( exp_ouput, Q11 ); - exp_prev_synth_buffer = Find_Max_Norm16( st->prev_synth_buffer_fx, NS2SA_FX2( 48000, DELAY_BWE_TOTAL_NS - DELAY_CLDFB_NS ) ); + exp_prev_synth_buffer = Find_Max_Norm16( st->prev_synth_buffer_fx, NS2SA( 48000, DELAY_BWE_TOTAL_NS - DELAY_CLDFB_NS ) ); exp_prev_synth_buffer = add( exp_prev_synth_buffer, st->q_prev_synth_buffer_fx ); - exp_old_out = Find_Max_Norm16( st->hHQ_core->old_out_fx + NS2SA_FX2( st->output_Fs, N_ZERO_MDCT_NS ), sub( add( NS2SA_FX2( st->output_Fs, N_ZERO_MDCT_NS ), NS2SA_FX2( st->output_Fs, PH_ECU_LOOKAHEAD_NS ) ), NS2SA( st->output_Fs, N_ZERO_MDCT_NS ) ) ); + exp_old_out = Find_Max_Norm16( st->hHQ_core->old_out_fx + NS2SA_FX2( st->output_Fs, N_ZERO_MDCT_NS ), sub( add( NS2SA_FX2( st->output_Fs, N_ZERO_MDCT_NS ), NS2SA_FX2( st->output_Fs, PH_ECU_LOOKAHEAD_NS ) ), NS2SA_FX2( st->output_Fs, N_ZERO_MDCT_NS ) ) ); exp_delay_buf_out = Find_Max_Norm16( st->delay_buf_out_fx, NS2SA_FX2( st->output_Fs, DELAY_CLDFB_NS ) ); exp_synth_history = Find_Max_Norm16( st->hTcxDec->synth_history_fx + output_frame, sub( add( sub( imult1616( 2, output_frame ), NS2SA_FX2( st->output_Fs, DELAY_CLDFB_NS ) ), NS2SA_FX2( st->output_Fs, PH_ECU_MEM_NS ) ), output_frame ) ); exp_max = s_min( exp_synth_history, exp_ouput ); @@ -1660,17 +1509,17 @@ ivas_error ivas_core_dec_fx( Scale_sig32( output_fx_loc, output_frame, sub( exp_max, Q11 ) ); // Q(31-exp_max) Scale_sig( st->delay_buf_out_fx, NS2SA_FX2( st->output_Fs, DELAY_CLDFB_NS ), exp_max ); // exp_max Scale_sig( st->hHQ_core->old_out_fx + NS2SA_FX2( st->output_Fs, N_ZERO_MDCT_NS ), sub( NS2SA_FX2( st->output_Fs, PH_ECU_LOOKAHEAD_NS ), NS2SA_FX2( st->output_Fs, N_ZERO_MDCT_NS ) ), exp_max ); // Q(31-exp_max) - Scale_sig( st->prev_synth_buffer_fx, NS2SA_FX2( 48000, L_sub( DELAY_BWE_TOTAL_NS, DELAY_CLDFB_NS ) ), sub( exp_max, st->q_prev_synth_buffer_fx ) ); // Q(exp_max - prev_synth_buffer_fx) + Scale_sig( st->prev_synth_buffer_fx, NS2SA_FX2( 48000, DELAY_BWE_TOTAL_NS - DELAY_CLDFB_NS ), sub( exp_max, st->q_prev_synth_buffer_fx ) ); // Q(exp_max - prev_synth_buffer_fx) Scale_sig( st->hTcxDec->synth_history_fx + output_frame, sub( add( sub( imult1616( 2, output_frame ), NS2SA_FX2( st->output_Fs, DELAY_CLDFB_NS ) ), NS2SA_FX2( st->output_Fs, PH_ECU_MEM_NS ) ), output_frame ), sub( exp_max, 0 ) ); // Q(31-exp_max) st->q_prev_synth_buffer_fx = sub( exp_max, st->q_prev_synth_buffer_fx ); move16(); } + /* Save synthesis for HQ FEC */ - save_synthesis_hq_fec_fx( st, output_fx_loc, output_frame, hCPE ); + save_synthesis_hq_fec_fx( st, NULL, output_fx_loc, output_frame, 0, hCPE ); /* Updates */ - ivas_updt_dec_common_fx( st, NORMAL_HQ_CORE, -1, output_32_fx[n], Q11 ); Scale_sig( st->delay_buf_out_fx, NS2SA_FX2( st->output_Fs, DELAY_CLDFB_NS ), negate( exp_max ) ); // Q0 diff --git a/lib_dec/ivas_corecoder_dec_reconfig.c b/lib_dec/ivas_corecoder_dec_reconfig_fx.c similarity index 99% rename from lib_dec/ivas_corecoder_dec_reconfig.c rename to lib_dec/ivas_corecoder_dec_reconfig_fx.c index 89ca9a5ba322dd43247aa6d06e921444a4461c3d..8333f146f594a61de657bee9e9b066119b14e694 100644 --- a/lib_dec/ivas_corecoder_dec_reconfig.c +++ b/lib_dec/ivas_corecoder_dec_reconfig_fx.c @@ -32,10 +32,8 @@ #include "options.h" #include "ivas_cnst.h" -#include "ivas_prot.h" #include "ivas_prot_fx.h" #include "prot_fx.h" -#include "prot.h" #include #include "wmc_auto.h" @@ -604,7 +602,7 @@ ivas_error ivas_cldfb_dec_reconfig_fx( /* create additional CLDFB synthesis instances */ FOR( i = numCldfbAnalyses_old; i < numCldfbAnalyses; i++ ) { - IF( NE_32( ( error = openCldfb_ivas_fx( &( st_ivas->cldfbAnaDec[i] ), CLDFB_ANALYSIS, hDecoderConfig->output_Fs, CLDFB_PROTOTYPE_5_00MS ) ), IVAS_ERR_OK ) ) + IF( NE_32( ( error = openCldfb_ivas_fx( &( st_ivas->cldfbAnaDec[i] ), CLDFB_ANALYSIS, hDecoderConfig->output_Fs, CLDFB_PROTOTYPE_5_00MS, DEC ) ), IVAS_ERR_OK ) ) { return error; } @@ -624,7 +622,7 @@ ivas_error ivas_cldfb_dec_reconfig_fx( /* create additional CLDFB synthesis instances */ FOR( i = numCldfbSyntheses_old; i < numCldfbSyntheses; i++ ) { - IF( NE_32( ( error = openCldfb_ivas_fx( &( st_ivas->cldfbSynDec[i] ), CLDFB_SYNTHESIS, hDecoderConfig->output_Fs, CLDFB_PROTOTYPE_5_00MS ) ), IVAS_ERR_OK ) ) + IF( NE_32( ( error = openCldfb_ivas_fx( &( st_ivas->cldfbSynDec[i] ), CLDFB_SYNTHESIS, hDecoderConfig->output_Fs, CLDFB_PROTOTYPE_5_00MS, DEC ) ), IVAS_ERR_OK ) ) { return error; } diff --git a/lib_dec/ivas_cpe_dec_fx.c b/lib_dec/ivas_cpe_dec_fx.c index c22c617c075b377a741849e82fc8379c8237b032..c10c6beda022acd7c4dbefdb47d957741647b4c4 100644 --- a/lib_dec/ivas_cpe_dec_fx.c +++ b/lib_dec/ivas_cpe_dec_fx.c @@ -36,10 +36,8 @@ #include "cnst.h" #include "ivas_cnst.h" #include "rom_com.h" -#include "prot.h" -#include "ivas_prot.h" -#include "ivas_prot_fx.h" #include "prot_fx.h" +#include "ivas_prot_fx.h" #include "ivas_rom_com.h" #include "wmc_auto.h" #include @@ -126,22 +124,14 @@ ivas_error ivas_cpe_dec_fx( test(); IF( hCPE->hCoreCoder[ind1] && hCPE->hCoreCoder[ind1]->hHQ_core ) { -#ifdef FIX_ISSUE_1237 - Copy_Scale_sig_16_32_no_sat( hCPE->hCoreCoder[ind1]->hHQ_core->old_out_fx, hCPE->hCoreCoder[ind1]->hHQ_core->oldOut_fx, L_FRAME48k, sub( Q11, hCPE->hCoreCoder[ind1]->hHQ_core->Q_old_wtda ) ); // Q11 -#else - Copy_Scale_sig_16_32_DEPREC( hCPE->hCoreCoder[ind1]->hHQ_core->old_out_fx, hCPE->hCoreCoder[ind1]->hHQ_core->oldOut_fx, L_FRAME48k, sub( Q11, hCPE->hCoreCoder[ind1]->hHQ_core->Q_old_wtda ) ); // Q11 -#endif + Copy_Scale_sig_16_32_no_sat( hCPE->hCoreCoder[ind1]->hHQ_core->old_out_fx, hCPE->hCoreCoder[ind1]->hHQ_core->old_out_fx32, L_FRAME48k, sub( Q11, hCPE->hCoreCoder[ind1]->hHQ_core->Q_old_wtda ) ); // Q11 } } FOR( Word16 ind1 = 0; ind1 < 2; ind1++ ) { IF( hCPE->hCoreCoder[ind1]->hHQ_core ) { -#ifdef FIX_ISSUE_1237 - Copy_Scale_sig_16_32_no_sat( hCPE->hCoreCoder[ind1]->hHQ_core->old_out_LB_fx, hCPE->hCoreCoder[ind1]->hHQ_core->old_outLB_fx, L_FRAME32k, sub( Q11, hCPE->hCoreCoder[ind1]->hHQ_core->Q_old_wtda_LB ) ); // Q11 -#else - Copy_Scale_sig_16_32_DEPREC( hCPE->hCoreCoder[ind1]->hHQ_core->old_out_LB_fx, hCPE->hCoreCoder[ind1]->hHQ_core->old_outLB_fx, L_FRAME32k, sub( Q11, hCPE->hCoreCoder[ind1]->hHQ_core->Q_old_wtda_LB ) ); // Q11 -#endif + Copy_Scale_sig_16_32_no_sat( hCPE->hCoreCoder[ind1]->hHQ_core->old_out_LB_fx, hCPE->hCoreCoder[ind1]->hHQ_core->old_out_LB_fx32, L_FRAME32k, sub( Q11, hCPE->hCoreCoder[ind1]->hHQ_core->Q_old_wtda_LB ) ); // Q11 hCPE->hCoreCoder[ind1]->hHQ_core->q_old_outLB_fx = Q11; move16(); } @@ -157,7 +147,7 @@ ivas_error ivas_cpe_dec_fx( test(); IF( hCPE->hCoreCoder[ind1] && hCPE->hCoreCoder[ind1]->hHQ_core ) { - Copy_Scale_sig_32_16( hCPE->hCoreCoder[ind1]->hHQ_core->oldOut_fx, hCPE->hCoreCoder[ind1]->hHQ_core->old_out_fx, L_FRAME48k, sub( hCPE->hCoreCoder[ind1]->hHQ_core->Q_old_wtda, Q11 ) ); // Q_old_wtda + Copy_Scale_sig_32_16( hCPE->hCoreCoder[ind1]->hHQ_core->old_out_fx32, hCPE->hCoreCoder[ind1]->hHQ_core->old_out_fx, L_FRAME48k, sub( hCPE->hCoreCoder[ind1]->hHQ_core->Q_old_wtda, Q11 ) ); // Q_old_wtda } } FOR( Word16 ind1 = 0; ind1 < 2; ind1++ ) @@ -165,7 +155,7 @@ ivas_error ivas_cpe_dec_fx( test(); IF( hCPE->hCoreCoder[ind1] && hCPE->hCoreCoder[ind1]->hHQ_core ) { - Copy_Scale_sig_32_16( hCPE->hCoreCoder[ind1]->hHQ_core->old_outLB_fx, hCPE->hCoreCoder[ind1]->hHQ_core->old_out_LB_fx, L_FRAME32k, sub( hCPE->hCoreCoder[ind1]->hHQ_core->Q_old_wtda_LB, Q11 ) ); // Q_old_wtda + Copy_Scale_sig_32_16( hCPE->hCoreCoder[ind1]->hHQ_core->old_out_LB_fx32, hCPE->hCoreCoder[ind1]->hHQ_core->old_out_LB_fx, L_FRAME32k, sub( hCPE->hCoreCoder[ind1]->hHQ_core->Q_old_wtda_LB, Q11 ) ); // Q_old_wtda } } @@ -354,10 +344,6 @@ ivas_error ivas_cpe_dec_fx( { sts[0]->total_brate = hCPE->element_brate; /* Only mono downmix was transmitted in this case */ move32(); -#ifdef MSAN_FIX - hCPE->hStereoDft->frame_sid_nodata = 0; - move16(); -#endif } ELSE { @@ -735,8 +721,8 @@ ivas_error ivas_cpe_dec_fx( hCPE->hStereoDft->q_res_cod_mem_fx = hCPE->hStereoDft->q_dft; move16(); stereo_dft_unify_dmx_fx( hCPE->hStereoDft, sts[0], DFT_fx, hCPE->input_mem_fx[1], hCPE->hStereoCng->prev_sid_nodata ); - scale_sig32( hCPE->hStereoDft->res_cod_mem_fx, STEREO_DFT_OVL_8k, sub( Q16, hCPE->hStereoDft->q_res_cod_mem_fx ) ); // Q16 - hCPE->hStereoDft->q_res_cod_mem_fx = Q16; + scale_sig32( hCPE->hStereoDft->res_cod_mem_fx, STEREO_DFT_OVL_8k, sub( Q15, hCPE->hStereoDft->q_res_cod_mem_fx ) ); // Q15 + hCPE->hStereoDft->q_res_cod_mem_fx = Q15; move16(); } ELSE @@ -760,8 +746,8 @@ ivas_error ivas_cpe_dec_fx( move16(); } stereo_dft_dec_fx( hCPE->hStereoDft, sts[0], DFT_fx, hCPE->input_mem_fx[1], hCPE->hStereoCng, 0, 0, 0, 0, 0, 0, MAX_PARAM_SPATIAL_SUBFRAMES ); - scale_sig32( hCPE->hStereoDft->res_cod_mem_fx, STEREO_DFT_OVL_8k, sub( Q16, hCPE->hStereoDft->q_res_cod_mem_fx ) ); // Q16 - hCPE->hStereoDft->q_res_cod_mem_fx = Q16; + scale_sig32( hCPE->hStereoDft->res_cod_mem_fx, STEREO_DFT_OVL_8k, sub( Q15, hCPE->hStereoDft->q_res_cod_mem_fx ) ); // Q15 + hCPE->hStereoDft->q_res_cod_mem_fx = Q15; move16(); } @@ -1103,8 +1089,6 @@ ivas_error create_cpe_dec( move32(); st->is_ism_format = 0; move16(); - st->ivas_format = st_ivas->ivas_format; - move32(); IF( NE_32( ( error = init_decoder_ivas_fx( st, n, st_ivas->mc_mode ) ), IVAS_ERR_OK ) ) { diff --git a/lib_dec/ivas_decision_matrix_dec.c b/lib_dec/ivas_decision_matrix_dec_fx.c similarity index 99% rename from lib_dec/ivas_decision_matrix_dec.c rename to lib_dec/ivas_decision_matrix_dec_fx.c index a8c151edb34868f138aef7a5fb254ea0f60c016f..717bb3b93512bdd8818088c6a585e9a2376d71b6 100644 --- a/lib_dec/ivas_decision_matrix_dec.c +++ b/lib_dec/ivas_decision_matrix_dec_fx.c @@ -34,12 +34,10 @@ #include "options.h" #include "stat_dec.h" #include "rom_com.h" -#include "ivas_prot.h" -#include "prot.h" +#include "prot_fx.h" #include "ivas_cnst.h" #include "wmc_auto.h" #include "ivas_prot_fx.h" -#include "prot_fx.h" /*-----------------------------------------------------------------* * ivas_decision_matrix_dec() diff --git a/lib_dec/ivas_dirac_dec.c b/lib_dec/ivas_dirac_dec_fx.c similarity index 92% rename from lib_dec/ivas_dirac_dec.c rename to lib_dec/ivas_dirac_dec_fx.c index 560a1b43f8fcd9c5ebed6b7e4cb9198f311f459f..44a024e549e94a5e1d49a59ba8c2233206dc2bdc 100644 --- a/lib_dec/ivas_dirac_dec.c +++ b/lib_dec/ivas_dirac_dec_fx.c @@ -35,15 +35,13 @@ #include "options.h" #include #include "cnst.h" -#include "prot.h" -#include "ivas_prot.h" -#include "ivas_prot_rend.h" +#include "prot_fx.h" +#include "ivas_prot_rend_fx.h" #include "ivas_cnst.h" #include "ivas_rom_com.h" #include "ivas_rom_dec.h" #include "ivas_rom_rend.h" #include "wmc_auto.h" -#include "prot_fx.h" /* Function prototypes */ #include "ivas_rom_com_fx.h" #include "ivas_prot_fx.h" @@ -1626,7 +1624,9 @@ void ivas_qmetadata_to_dirac_fx( move16(); hDirAC->hConfig->nbands = 5; move16(); - ivas_dirac_config_bands_fx( hDirAC->band_grouping, hDirAC->hConfig->nbands, nbands, NULL, 0, 0, NULL ); + + ivas_dirac_config_bands_fx( hDirAC->band_grouping, hDirAC->hConfig->nbands, nbands, NULL, 0, 0, NULL, 1 ); + nbands = 5; move16(); } @@ -1645,7 +1645,7 @@ void ivas_qmetadata_to_dirac_fx( move16(); } - ivas_dirac_config_bands_fx( hDirAC->band_grouping, hDirAC->hConfig->nbands, nbands, dirac_to_spar_md_bands, hQMetaData->useLowerBandRes, hDirAC->hConfig->enc_param_start_band, hDirAC->hFbMdft ); + ivas_dirac_config_bands_fx( hDirAC->band_grouping, hDirAC->hConfig->nbands, nbands, dirac_to_spar_md_bands, hQMetaData->useLowerBandRes, hDirAC->hConfig->enc_param_start_band, hDirAC->hFbMdft, 0 ); nbands = hDirAC->hConfig->nbands; move16(); @@ -2155,7 +2155,7 @@ void ivas_dirac_dec_render_fx( output_f_local_fx[ch] = output_f_local_buff_fx[ch]; set_zero_fx( output_f_local_fx[ch], nSamplesAsked ); } - slot_size = NS2SA( st_ivas->hDecoderConfig->output_Fs, CLDFB_SLOT_NS ); // cL + slot_size = NS2SA_FX2( st_ivas->hDecoderConfig->output_Fs, CLDFB_SLOT_NS ); // cL /* loop for synthesis, assume we always have to render in multiples of 5ms subframes with spills */ @@ -2177,11 +2177,7 @@ void ivas_dirac_dec_render_fx( FOR( subframe_idx = first_sf; subframe_idx < last_sf; subframe_idx++ ) { -#ifdef MSAN_FIX ivas_dirac_dec_render_sf_fx( st_ivas, output_f_local_fx, nchan_transport, NULL, NULL ); -#else - ivas_dirac_dec_render_sf_fx( st_ivas, output_f_local, nchan_transport, NULL, NULL ); -#endif // MSAN_FIX n_samples_sf = i_mult( hSpatParamRendCom->subframe_nbslots[subframe_idx], hSpatParamRendCom->slot_size ); @@ -2273,25 +2269,32 @@ void ivas_dirac_dec_render_sf_fx( Word32 Cldfb_RealBuffer_Temp_fx[2][CLDFB_SLOTS_PER_SUBFRAME][CLDFB_NO_CHANNELS_MAX]; Word32 Cldfb_ImagBuffer_Temp_fx[2][CLDFB_SLOTS_PER_SUBFRAME][CLDFB_NO_CHANNELS_MAX]; Word16 cldfb_buf_q; - Word16 offset, buff_len; + Word16 offset = 0, buff_len = 0; + move16(); + move16(); Word16 q_cldfb, q_temp_cldfb = 0; move16(); Word16 proto_length = 0; move16(); - Word16 q_proto_direct_buffer[CLDFB_SLOTS_PER_SUBFRAME]; - Word16 q_proto_diffuse_buffer[CLDFB_SLOTS_PER_SUBFRAME]; + Word16 q_proto_direct_buffer[CLDFB_SLOTS_PER_SUBFRAME + 1]; + Word16 q_proto_diffuse_buffer[CLDFB_SLOTS_PER_SUBFRAME + 1]; Word16 size, size_ho; DIRAC_DEC_STACK_MEM DirAC_mem; Word32 *p_onset_filter_fx = NULL; - uint16_t coherence_flag; + UWord16 coherence_flag; SPAT_PARAM_REND_COMMON_DATA_HANDLE hSpatParamRendCom; Word16 scale = 0; move16(); DIRAC_OUTPUT_SYNTHESIS_PARAMS *h_dirac_output_synthesis_params; DIRAC_OUTPUT_SYNTHESIS_STATE *h_dirac_output_synthesis_state; Word16 num_channels_dir, exp; +#ifdef FIX_867_CLDFB_NRG_SCALE + Word16 q_diffuseness_vector = Q31, q_reference_power_smooth[2] = { Q31, Q31 }; + move16(); +#else Word16 q_diffuseness_vector = Q31, q_reference_power_smooth = Q31; +#endif move16(); move16(); Word16 proto_power_smooth_len = 0; @@ -2327,8 +2330,8 @@ void ivas_dirac_dec_render_sf_fx( } q_cldfb = Q11; move16(); - set16_fx( q_proto_direct_buffer, hDirACRend->h_output_synthesis_psd_state.proto_direct_buffer_f_q, CLDFB_SLOTS_PER_SUBFRAME ); - set16_fx( q_proto_diffuse_buffer, hDirACRend->h_output_synthesis_psd_state.proto_diffuse_buffer_f_q, CLDFB_SLOTS_PER_SUBFRAME ); + set16_fx( q_proto_direct_buffer, hDirACRend->h_output_synthesis_psd_state.proto_direct_buffer_f_q, CLDFB_SLOTS_PER_SUBFRAME + 1 ); + set16_fx( q_proto_diffuse_buffer, hDirACRend->h_output_synthesis_psd_state.proto_diffuse_buffer_f_q, CLDFB_SLOTS_PER_SUBFRAME + 1 ); set_zero_fx( surCohRatio_fx, CLDFB_NO_CHANNELS_MAX ); IF( EQ_16( hDirACRend->synthesisConf, DIRAC_SYNTHESIS_MONO ) ) @@ -2531,10 +2534,37 @@ void ivas_dirac_dec_render_sf_fx( scale_sig32( hDirACRend->h_output_synthesis_psd_state.cy_auto_diff_smooth_prev_fx, imult1616( hSpatParamRendCom->num_freq_bands, hDirACRend->hOutSetup.nchan_out_woLFE ), tmp1 ); // Q(hDirACRend->h_output_synthesis_psd_state.q_cy_auto_diff_smooth_prev+ tmp1) hDirACRend->h_output_synthesis_psd_state.q_cy_auto_diff_smooth_prev = add( hDirACRend->h_output_synthesis_psd_state.q_cy_auto_diff_smooth_prev, tmp1 ); move16(); +#ifdef FIX_867_CLDFB_NRG_SCALE + tmp1 = 31; + move16(); + FOR( i = 0; i < i_mult( hSpatParamRendCom->num_freq_bands, hDirACRend->num_protos_dir ); i = add( i, hSpatParamRendCom->num_freq_bands ) ) + { + tmp1 = s_min( tmp1, L_norm_arr( hDirACRend->h_output_synthesis_psd_state.proto_power_smooth_prev_fx + i, s_min( hSpatParamRendCom->num_freq_bands, CLDFB_NO_CHANNELS_HALF ) ) ); + } + FOR( i = 0; i < i_mult( hSpatParamRendCom->num_freq_bands, hDirACRend->num_protos_dir ); i = add( i, hSpatParamRendCom->num_freq_bands ) ) + { + scale_sig32( hDirACRend->h_output_synthesis_psd_state.proto_power_smooth_prev_fx + i, s_min( hSpatParamRendCom->num_freq_bands, CLDFB_NO_CHANNELS_HALF ), tmp1 ); // Q(hDirACRend->h_output_synthesis_psd_state.proto_power_smooth_prev_q tmp1) + } + hDirACRend->h_output_synthesis_psd_state.proto_power_smooth_prev_q[0] = add( hDirACRend->h_output_synthesis_psd_state.proto_power_smooth_prev_q[0], tmp1 ); + move16(); + tmp1 = 31; + move16(); + FOR( i = 0; i < i_mult( hSpatParamRendCom->num_freq_bands, hDirACRend->num_protos_dir ); i = add( i, hSpatParamRendCom->num_freq_bands ) ) + { + tmp1 = s_min( tmp1, L_norm_arr( hDirACRend->h_output_synthesis_psd_state.proto_power_smooth_prev_fx + CLDFB_NO_CHANNELS_HALF + i, s_max( 0, sub( hSpatParamRendCom->num_freq_bands, CLDFB_NO_CHANNELS_HALF ) ) ) ); + } + FOR( i = 0; i < i_mult( hSpatParamRendCom->num_freq_bands, hDirACRend->num_protos_dir ); i = add( i, hSpatParamRendCom->num_freq_bands ) ) + { + scale_sig32( hDirACRend->h_output_synthesis_psd_state.proto_power_smooth_prev_fx + CLDFB_NO_CHANNELS_HALF + i, s_max( 0, sub( hSpatParamRendCom->num_freq_bands, CLDFB_NO_CHANNELS_HALF ) ), tmp1 ); // Q(hDirACRend->h_output_synthesis_psd_state.proto_power_smooth_prev_q tmp1) + } + hDirACRend->h_output_synthesis_psd_state.proto_power_smooth_prev_q[1] = add( hDirACRend->h_output_synthesis_psd_state.proto_power_smooth_prev_q[1], tmp1 ); + move16(); +#else tmp1 = L_norm_arr( hDirACRend->h_output_synthesis_psd_state.proto_power_smooth_prev_fx, imult1616( hDirACRend->num_protos_dir, hSpatParamRendCom->num_freq_bands ) ); scale_sig32( hDirACRend->h_output_synthesis_psd_state.proto_power_smooth_prev_fx, imult1616( hDirACRend->num_protos_dir, hSpatParamRendCom->num_freq_bands ), tmp1 ); // Q(hDirACRend->h_output_synthesis_psd_state.proto_power_smooth_prev_q tmp1) hDirACRend->h_output_synthesis_psd_state.proto_power_smooth_prev_q = add( hDirACRend->h_output_synthesis_psd_state.proto_power_smooth_prev_q, tmp1 ); move16(); +#endif IF( hDirACRend->h_output_synthesis_psd_state.proto_power_diff_smooth_prev_fx != 0 ) { tmp1 = L_norm_arr( hDirACRend->h_output_synthesis_psd_state.proto_power_diff_smooth_prev_fx, imult1616( hDirACRend->h_output_synthesis_psd_params.max_band_decorr, hDirACRend->hOutSetup.nchan_out_woLFE ) ); @@ -2653,7 +2683,7 @@ void ivas_dirac_dec_render_sf_fx( hDirACRend->h_output_synthesis_psd_state.direct_power_factor_fx[i] = L_add( hDirACRend->h_output_synthesis_psd_state.direct_power_factor_fx[i], surCohEner_fx ); // Q29 move32(); - surCohRatio_fx[i] = BASOP_Util_Divide3232_Scale_cadence( surCohEner_fx, ( L_add( EPSILLON_FX, L_add( dirEne_fx, surCohEner_fx ) ) ), &temp_q ); + surCohRatio_fx[i] = BASOP_Util_Divide3232_Scale_newton( surCohEner_fx, ( L_add( EPSILLON_FX, L_add( dirEne_fx, surCohEner_fx ) ) ), &temp_q ); move32(); surCohRatio_fx[i] = L_shl( surCohRatio_fx[i], sub( temp_q, 16 ) ); // Q15 move32(); @@ -2879,7 +2909,11 @@ void ivas_dirac_dec_render_sf_fx( &hDirACRend->h_output_synthesis_psd_state.proto_direct_buffer_f_q, hDirACRend->h_output_synthesis_psd_state.proto_diffuse_buffer_f_fx, &hDirACRend->h_output_synthesis_psd_state.proto_diffuse_buffer_f_q, +#ifdef FIX_867_CLDFB_NRG_SCALE + reference_power_fx, DirAC_mem.reference_power_q, +#else reference_power_fx, &DirAC_mem.reference_power_q, +#endif slot_idx, nchan_transport, hDirACRend->num_outputs_diff, hSpatParamRendCom->num_freq_bands, @@ -2892,7 +2926,11 @@ void ivas_dirac_dec_render_sf_fx( &hDirACRend->h_output_synthesis_psd_state.proto_direct_buffer_f_q, hDirACRend->h_output_synthesis_psd_state.proto_diffuse_buffer_f_fx, &hDirACRend->h_output_synthesis_psd_state.proto_diffuse_buffer_f_q, +#ifdef FIX_867_CLDFB_NRG_SCALE + reference_power_fx, DirAC_mem.reference_power_q, +#else reference_power_fx, &DirAC_mem.reference_power_q, +#endif slot_idx, nchan_transport, hDirACRend->num_outputs_diff, hSpatParamRendCom->num_freq_bands, @@ -2911,9 +2949,17 @@ void ivas_dirac_dec_render_sf_fx( hDirACRend->h_output_synthesis_psd_state.proto_direct_buffer_f_fx, &hDirACRend->h_output_synthesis_psd_state.proto_direct_buffer_f_q, reference_power_fx, +#ifdef FIX_867_CLDFB_NRG_SCALE + DirAC_mem.reference_power_q, +#else &DirAC_mem.reference_power_q, +#endif hDirACRend->h_output_synthesis_psd_state.proto_power_smooth_fx, +#ifdef FIX_867_CLDFB_NRG_SCALE + hDirACRend->h_output_synthesis_psd_state.proto_power_smooth_q, +#else &hDirACRend->h_output_synthesis_psd_state.proto_power_smooth_q, +#endif 0, slot_idx, hSpatParamRendCom->num_freq_bands, hDirACRend->masa_stereo_type_detect, q_cldfb ); @@ -2937,9 +2983,17 @@ void ivas_dirac_dec_render_sf_fx( hDirACRend->h_output_synthesis_psd_state.proto_direct_buffer_f_fx, &hDirACRend->h_output_synthesis_psd_state.proto_direct_buffer_f_q, reference_power_fx, +#ifdef FIX_867_CLDFB_NRG_SCALE + DirAC_mem.reference_power_q, +#else &DirAC_mem.reference_power_q, +#endif hDirACRend->h_output_synthesis_psd_state.proto_power_smooth_fx, +#ifdef FIX_867_CLDFB_NRG_SCALE + hDirACRend->h_output_synthesis_psd_state.proto_power_smooth_q, +#else &hDirACRend->h_output_synthesis_psd_state.proto_power_smooth_q, +#endif slot_idx, hDirACRend->num_outputs_diff, hSpatParamRendCom->num_freq_bands, hDirACRend->hoa_decoder, @@ -2954,9 +3008,17 @@ void ivas_dirac_dec_render_sf_fx( hDirACRend->h_output_synthesis_psd_state.proto_direct_buffer_f_fx, &hDirACRend->h_output_synthesis_psd_state.proto_direct_buffer_f_q, reference_power_fx, +#ifdef FIX_867_CLDFB_NRG_SCALE + DirAC_mem.reference_power_q, +#else &DirAC_mem.reference_power_q, +#endif hDirACRend->h_output_synthesis_psd_state.proto_power_smooth_fx, +#ifdef FIX_867_CLDFB_NRG_SCALE + hDirACRend->h_output_synthesis_psd_state.proto_power_smooth_q, +#else &hDirACRend->h_output_synthesis_psd_state.proto_power_smooth_q, +#endif hDirACRend->hOutSetup.is_loudspeaker_setup, slot_idx, hSpatParamRendCom->num_freq_bands, @@ -2979,9 +3041,17 @@ void ivas_dirac_dec_render_sf_fx( hDirACRend->h_output_synthesis_psd_state.proto_direct_buffer_f_fx, &hDirACRend->h_output_synthesis_psd_state.proto_direct_buffer_f_q, reference_power_fx, +#ifdef FIX_867_CLDFB_NRG_SCALE + DirAC_mem.reference_power_q, +#else &DirAC_mem.reference_power_q, +#endif hDirACRend->h_output_synthesis_psd_state.proto_power_smooth_fx, +#ifdef FIX_867_CLDFB_NRG_SCALE + hDirACRend->h_output_synthesis_psd_state.proto_power_smooth_q, +#else &hDirACRend->h_output_synthesis_psd_state.proto_power_smooth_q, +#endif slot_idx, hDirACRend->num_protos_diff, hSpatParamRendCom->num_freq_bands, q_cldfb ); @@ -3044,7 +3114,12 @@ void ivas_dirac_dec_render_sf_fx( num_freq_bands, azimuth, elevation ); Copy32( reference_power_fx, &( hDirACRend->buffer_energy_fx[i_mult( sub( index, 1 ), num_freq_bands )] ), num_freq_bands ); +#ifdef FIX_867_CLDFB_NRG_SCALE + Scale_sig32( &( hDirACRend->buffer_energy_fx[add( i_mult( sub( index, 1 ), num_freq_bands ), CLDFB_NO_CHANNELS_HALF )] ), s_max( 0, sub( num_freq_bands, CLDFB_NO_CHANNELS_HALF ) ), sub( DirAC_mem.reference_power_q[0], DirAC_mem.reference_power_q[1] ) ); + hDirACRend->q_buffer_energy[index - 1] = DirAC_mem.reference_power_q[0]; +#else hDirACRend->q_buffer_energy[index - 1] = DirAC_mem.reference_power_q; +#endif move16(); computeDiffuseness_fixed( hDirACRend->buffer_intensity_real_fx, hDirACRend->buffer_energy_fx, num_freq_bands, hSpatParamRendCom->diffuseness_vector_fx[md_idx], hDirACRend->q_buffer_intensity_real, hDirACRend->q_buffer_energy, &hSpatParamRendCom->q_diffuseness_vector ); @@ -3276,6 +3351,18 @@ void ivas_dirac_dec_render_sf_fx( IF( NE_16( hDirACRend->synthesisConf, DIRAC_SYNTHESIS_GAIN_SHD ) ) { +#ifdef FIX_867_CLDFB_NRG_SCALE + v_add_fixed_me( reference_power_fx, sub( 31, DirAC_mem.reference_power_q[0] ), + reference_power_smooth_fx, sub( 31, q_reference_power_smooth[0] ), + reference_power_smooth_fx, &temp_q, + s_min( hSpatParamRendCom->num_freq_bands, CLDFB_NO_CHANNELS_HALF ), 1 ); + q_reference_power_smooth[0] = sub( 31, temp_q ); + v_add_fixed_me( reference_power_fx + CLDFB_NO_CHANNELS_HALF, sub( 31, DirAC_mem.reference_power_q[1] ), + reference_power_smooth_fx + CLDFB_NO_CHANNELS_HALF, sub( 31, q_reference_power_smooth[1] ), + reference_power_smooth_fx + CLDFB_NO_CHANNELS_HALF, &temp_q, + s_max( 0, sub( hSpatParamRendCom->num_freq_bands, CLDFB_NO_CHANNELS_HALF ) ), 1 ); + q_reference_power_smooth[1] = sub( 31, temp_q ); +#else IF( LT_16( q_reference_power_smooth, DirAC_mem.reference_power_q ) ) { Word32 temp; @@ -3318,25 +3405,25 @@ void ivas_dirac_dec_render_sf_fx( } v_add_fixed( reference_power_fx, reference_power_smooth_fx, reference_power_smooth_fx, hSpatParamRendCom->num_freq_bands, 1 ); q_reference_power_smooth = sub( q_reference_power_smooth, 1 ); +#endif } } - minimum_s( q_proto_direct_buffer, hSpatParamRendCom->subframe_nbslots[subframe_idx], &hDirACRend->h_output_synthesis_psd_state.proto_direct_buffer_f_q ); + minimum_s( q_proto_direct_buffer, add( hSpatParamRendCom->subframe_nbslots[subframe_idx], 1 ), &hDirACRend->h_output_synthesis_psd_state.proto_direct_buffer_f_q ); IF( EQ_16( hDirACRend->synthesisConf, DIRAC_SYNTHESIS_GAIN_SHD ) ) { - minimum_s( q_proto_diffuse_buffer, hSpatParamRendCom->subframe_nbslots[subframe_idx], &hDirACRend->h_output_synthesis_psd_state.proto_diffuse_buffer_f_q ); + minimum_s( q_proto_diffuse_buffer, add( hSpatParamRendCom->subframe_nbslots[subframe_idx], 1 ), &hDirACRend->h_output_synthesis_psd_state.proto_diffuse_buffer_f_q ); } FOR( slot_idx = 0; slot_idx < hSpatParamRendCom->subframe_nbslots[subframe_idx]; slot_idx++ ) { IF( EQ_16( hDirACRend->synthesisConf, DIRAC_SYNTHESIS_GAIN_SHD ) ) { - offset = i_mult( i_mult( slot_idx, 2 ), i_mult( hSpatParamRendCom->num_freq_bands, nchan_transport ) ); - buff_len = i_mult( 2, i_mult( nchan_transport, hSpatParamRendCom->num_freq_bands ) ); - scale_sig32( hDirACRend->h_output_synthesis_psd_state.proto_direct_buffer_f_fx + offset, buff_len, sub( hDirACRend->h_output_synthesis_psd_state.proto_direct_buffer_f_q, q_proto_direct_buffer[slot_idx] ) ); // proto_direct_buffer_f_q - offset = i_mult( i_mult( slot_idx, 2 ), i_mult( hSpatParamRendCom->num_freq_bands, hDirACRend->num_outputs_diff ) ); buff_len = i_mult( 2, i_mult( hDirACRend->num_outputs_diff, hSpatParamRendCom->num_freq_bands ) ); scale_sig32( hDirACRend->h_output_synthesis_psd_state.proto_diffuse_buffer_f_fx + offset, buff_len, sub( hDirACRend->h_output_synthesis_psd_state.proto_diffuse_buffer_f_q, q_proto_diffuse_buffer[slot_idx] ) ); // proto_diffuse_buffer_f_q + offset = i_mult( i_mult( slot_idx, 2 ), i_mult( hSpatParamRendCom->num_freq_bands, nchan_transport ) ); + buff_len = i_mult( 2, i_mult( nchan_transport, hSpatParamRendCom->num_freq_bands ) ); + scale_sig32( hDirACRend->h_output_synthesis_psd_state.proto_direct_buffer_f_fx + offset, buff_len, sub( hDirACRend->h_output_synthesis_psd_state.proto_direct_buffer_f_q, q_proto_direct_buffer[slot_idx] ) ); // proto_direct_buffer_f_q } ELSE IF( EQ_16( hDirACRend->synthesisConf, DIRAC_SYNTHESIS_MONO ) ) { @@ -3376,10 +3463,18 @@ void ivas_dirac_dec_render_sf_fx( BREAK; } } - q_proto_direct_buffer[slot_idx] = hDirACRend->h_output_synthesis_psd_state.proto_direct_buffer_f_q; - move16(); } - + test(); + IF( EQ_16( slot_idx, hSpatParamRendCom->subframe_nbslots[subframe_idx] ) && sub( hDirACRend->h_output_synthesis_psd_state.proto_direct_buffer_f_len, add( offset, buff_len ) ) > 0 ) + { + scale_sig32( hDirACRend->h_output_synthesis_psd_state.proto_direct_buffer_f_fx + add( offset, buff_len ), sub( hDirACRend->h_output_synthesis_psd_state.proto_direct_buffer_f_len, add( offset, buff_len ) ), sub( hDirACRend->h_output_synthesis_psd_state.proto_direct_buffer_f_q, q_proto_direct_buffer[slot_idx] ) ); // proto_direct_buffer_f_q + offset = i_mult( i_mult( sub( slot_idx, 1 ), 2 ), i_mult( hSpatParamRendCom->num_freq_bands, hDirACRend->num_outputs_diff ) ); + buff_len = i_mult( 2, i_mult( hDirACRend->num_outputs_diff, hSpatParamRendCom->num_freq_bands ) ); + IF( EQ_16( hDirACRend->synthesisConf, DIRAC_SYNTHESIS_GAIN_SHD ) && sub( hDirACRend->h_output_synthesis_psd_state.proto_diffuse_buffer_f_len, add( offset, buff_len ) ) > 0 ) + { + scale_sig32( hDirACRend->h_output_synthesis_psd_state.proto_diffuse_buffer_f_fx + add( offset, buff_len ), sub( hDirACRend->h_output_synthesis_psd_state.proto_diffuse_buffer_f_len, add( offset, buff_len ) ), sub( hDirACRend->h_output_synthesis_psd_state.proto_diffuse_buffer_f_q, q_proto_diffuse_buffer[slot_idx] ) ); // proto_direct_buffer_f_q + } + } ivas_dirac_dec_output_synthesis_get_interpolator_fx( &hDirACRend->h_output_synthesis_psd_params, hSpatParamRendCom->subframe_nbslots[subframe_idx] ); size = i_mult( hDirACRend->num_outputs_dir, hSpatParamRendCom->num_freq_bands ); @@ -3509,6 +3604,51 @@ void ivas_dirac_dec_render_sf_fx( Scale_sig32( hDirACRend->h_output_synthesis_psd_state.direct_responses_square_fx, i_mult( hDirACRend->num_outputs_dir, hSpatParamRendCom->num_freq_bands ), sub( Q31, hDirACRend->h_output_synthesis_psd_state.direct_responses_square_q ) ); // Q31 } +#ifdef FIX_867_CLDFB_NRG_SCALE + exp = L_norm_arr( reference_power_smooth_fx, s_min( hSpatParamRendCom->num_freq_bands, CLDFB_NO_CHANNELS_HALF ) ); + scale_sig32( reference_power_smooth_fx, s_min( hSpatParamRendCom->num_freq_bands, CLDFB_NO_CHANNELS_HALF ), exp ); // q_reference_power_smooth[0] + exp + q_reference_power_smooth[0] = add( q_reference_power_smooth[0], exp ); + IF( LT_16( q_reference_power_smooth[0], hDirACRend->h_output_synthesis_psd_state.reference_power_smooth_prev_q[0] ) ) + { + scale_sig32( hDirACRend->h_output_synthesis_psd_state.reference_power_smooth_prev_fx, s_min( hSpatParamRendCom->num_freq_bands, CLDFB_NO_CHANNELS_HALF ), sub( q_reference_power_smooth[0], hDirACRend->h_output_synthesis_psd_state.reference_power_smooth_prev_q[0] ) ); // q_reference_power_smooth[0] + hDirACRend->h_output_synthesis_psd_state.reference_power_smooth_prev_q[0] = q_reference_power_smooth[0]; + move16(); + } + ELSE + { + Word32 temp; + FOR( i = 0; i < s_min( hSpatParamRendCom->num_freq_bands, CLDFB_NO_CHANNELS_HALF ); i++ ) + { + temp = L_shl( reference_power_smooth_fx[i], sub( hDirACRend->h_output_synthesis_psd_state.reference_power_smooth_prev_q[0], q_reference_power_smooth[0] ) ); + reference_power_smooth_fx[i] = L_max( temp, L_min( reference_power_smooth_fx[i], 1 ) ); + move32(); + } + q_reference_power_smooth[0] = hDirACRend->h_output_synthesis_psd_state.reference_power_smooth_prev_q[0]; + move16(); + } + + exp = L_norm_arr( reference_power_smooth_fx + CLDFB_NO_CHANNELS_HALF, s_max( 0, sub( hSpatParamRendCom->num_freq_bands, CLDFB_NO_CHANNELS_HALF ) ) ); + scale_sig32( reference_power_smooth_fx + CLDFB_NO_CHANNELS_HALF, s_max( 0, sub( hSpatParamRendCom->num_freq_bands, CLDFB_NO_CHANNELS_HALF ) ), exp ); // q_reference_power_smooth + exp + q_reference_power_smooth[1] = add( q_reference_power_smooth[1], exp ); + IF( LT_16( q_reference_power_smooth[1], hDirACRend->h_output_synthesis_psd_state.reference_power_smooth_prev_q[1] ) ) + { + scale_sig32( hDirACRend->h_output_synthesis_psd_state.reference_power_smooth_prev_fx + CLDFB_NO_CHANNELS_HALF, s_max( 0, sub( hSpatParamRendCom->num_freq_bands, CLDFB_NO_CHANNELS_HALF ) ), sub( q_reference_power_smooth[1], hDirACRend->h_output_synthesis_psd_state.reference_power_smooth_prev_q[1] ) ); // q_reference_power_smooth + hDirACRend->h_output_synthesis_psd_state.reference_power_smooth_prev_q[1] = q_reference_power_smooth[1]; + move16(); + } + ELSE + { + Word32 temp; + FOR( i = CLDFB_NO_CHANNELS_HALF; i < hSpatParamRendCom->num_freq_bands; i++ ) + { + temp = L_shl( reference_power_smooth_fx[i], sub( hDirACRend->h_output_synthesis_psd_state.reference_power_smooth_prev_q[1], q_reference_power_smooth[1] ) ); + reference_power_smooth_fx[i] = L_max( temp, L_min( reference_power_smooth_fx[i], 1 ) ); + move32(); + } + q_reference_power_smooth[1] = hDirACRend->h_output_synthesis_psd_state.reference_power_smooth_prev_q[1]; + move16(); + } +#else exp = L_norm_arr( reference_power_smooth_fx, hSpatParamRendCom->num_freq_bands ); scale_sig32( reference_power_smooth_fx, hSpatParamRendCom->num_freq_bands, exp ); // q_reference_power_smooth + exp q_reference_power_smooth = add( q_reference_power_smooth, exp ); @@ -3539,6 +3679,7 @@ void ivas_dirac_dec_render_sf_fx( q_reference_power_smooth = hDirACRend->h_output_synthesis_psd_state.reference_power_smooth_prev_q; move16(); } +#endif IF( hDirACRend->masa_stereo_type_detect != NULL ) { @@ -3558,6 +3699,69 @@ void ivas_dirac_dec_render_sf_fx( } } +#ifdef FIX_867_CLDFB_NRG_SCALE + exp = 31; + move16(); + FOR( i = 0; proto_power_smooth_len > i; i = add( i, hSpatParamRendCom->num_freq_bands ) ) + { + exp = s_min( exp, L_norm_arr( hDirACRend->h_output_synthesis_psd_state.proto_power_smooth_fx + i, s_min( CLDFB_NO_CHANNELS_HALF, hSpatParamRendCom->num_freq_bands ) ) ); + } + FOR( i = 0; proto_power_smooth_len > i; i = add( i, hSpatParamRendCom->num_freq_bands ) ) + { + scale_sig32( hDirACRend->h_output_synthesis_psd_state.proto_power_smooth_fx + i, s_min( CLDFB_NO_CHANNELS_HALF, hSpatParamRendCom->num_freq_bands ), exp ); // Q(hDirACRend->h_output_synthesis_psd_state.proto_power_smooth_q + exp) + } + hDirACRend->h_output_synthesis_psd_state.proto_power_smooth_q[0] = add( hDirACRend->h_output_synthesis_psd_state.proto_power_smooth_q[0], exp ); + move16(); + exp = 31; + move16(); + FOR( i = 0; proto_power_smooth_len > i; i = add( i, hSpatParamRendCom->num_freq_bands ) ) + { + exp = s_min( exp, L_norm_arr( hDirACRend->h_output_synthesis_psd_state.proto_power_smooth_fx + CLDFB_NO_CHANNELS_HALF + i, s_max( 0, sub( hSpatParamRendCom->num_freq_bands, CLDFB_NO_CHANNELS_HALF ) ) ) ); + } + FOR( i = 0; proto_power_smooth_len > i; i = add( i, hSpatParamRendCom->num_freq_bands ) ) + { + scale_sig32( hDirACRend->h_output_synthesis_psd_state.proto_power_smooth_fx + CLDFB_NO_CHANNELS_HALF + i, sub( hSpatParamRendCom->num_freq_bands, CLDFB_NO_CHANNELS_HALF ), exp ); // Q(hDirACRend->h_output_synthesis_psd_state.proto_power_smooth_q + exp) + } + hDirACRend->h_output_synthesis_psd_state.proto_power_smooth_q[1] = add( hDirACRend->h_output_synthesis_psd_state.proto_power_smooth_q[1], exp ); + move16(); + + IF( LT_16( hDirACRend->h_output_synthesis_psd_state.proto_power_smooth_q[0], hDirACRend->h_output_synthesis_psd_state.proto_power_smooth_prev_q[0] ) ) + { + FOR( i = 0; proto_power_smooth_len > i; i = add( i, hSpatParamRendCom->num_freq_bands ) ) + { + scale_sig32( hDirACRend->h_output_synthesis_psd_state.proto_power_smooth_prev_fx + i, s_min( CLDFB_NO_CHANNELS_HALF, hSpatParamRendCom->num_freq_bands ), sub( hDirACRend->h_output_synthesis_psd_state.proto_power_smooth_q[0], hDirACRend->h_output_synthesis_psd_state.proto_power_smooth_prev_q[0] ) ); // proto_power_smooth_q + } + hDirACRend->h_output_synthesis_psd_state.proto_power_smooth_prev_q[0] = hDirACRend->h_output_synthesis_psd_state.proto_power_smooth_q[0]; + move16(); + } + ELSE + { + FOR( i = 0; proto_power_smooth_len > i; i = add( i, hSpatParamRendCom->num_freq_bands ) ) + { + scale_sig32( hDirACRend->h_output_synthesis_psd_state.proto_power_smooth_fx + i, s_min( CLDFB_NO_CHANNELS_HALF, hSpatParamRendCom->num_freq_bands ), sub( hDirACRend->h_output_synthesis_psd_state.proto_power_smooth_prev_q[0], hDirACRend->h_output_synthesis_psd_state.proto_power_smooth_q[0] ) ); // proto_power_smooth_prev_q + } + hDirACRend->h_output_synthesis_psd_state.proto_power_smooth_q[0] = hDirACRend->h_output_synthesis_psd_state.proto_power_smooth_prev_q[0]; + move16(); + } + IF( LT_16( hDirACRend->h_output_synthesis_psd_state.proto_power_smooth_q[1], hDirACRend->h_output_synthesis_psd_state.proto_power_smooth_prev_q[1] ) ) + { + FOR( i = 0; proto_power_smooth_len > i; i = add( i, hSpatParamRendCom->num_freq_bands ) ) + { + scale_sig32( hDirACRend->h_output_synthesis_psd_state.proto_power_smooth_prev_fx + CLDFB_NO_CHANNELS_HALF + i, s_max( 0, sub( hSpatParamRendCom->num_freq_bands, CLDFB_NO_CHANNELS_HALF ) ), sub( hDirACRend->h_output_synthesis_psd_state.proto_power_smooth_q[1], hDirACRend->h_output_synthesis_psd_state.proto_power_smooth_prev_q[1] ) ); // proto_power_smooth_q + } + hDirACRend->h_output_synthesis_psd_state.proto_power_smooth_prev_q[1] = hDirACRend->h_output_synthesis_psd_state.proto_power_smooth_q[1]; + move16(); + } + ELSE + { + FOR( i = 0; proto_power_smooth_len > i; i = add( i, hSpatParamRendCom->num_freq_bands ) ) + { + scale_sig32( hDirACRend->h_output_synthesis_psd_state.proto_power_smooth_fx + CLDFB_NO_CHANNELS_HALF + i, s_max( 0, sub( hSpatParamRendCom->num_freq_bands, CLDFB_NO_CHANNELS_HALF ) ), sub( hDirACRend->h_output_synthesis_psd_state.proto_power_smooth_prev_q[1], hDirACRend->h_output_synthesis_psd_state.proto_power_smooth_q[1] ) ); // proto_power_smooth_prev_q + } + hDirACRend->h_output_synthesis_psd_state.proto_power_smooth_q[1] = hDirACRend->h_output_synthesis_psd_state.proto_power_smooth_prev_q[1]; + move16(); + } +#else exp = getScaleFactor32( hDirACRend->h_output_synthesis_psd_state.proto_power_smooth_fx, proto_power_smooth_len ); scale_sig32( hDirACRend->h_output_synthesis_psd_state.proto_power_smooth_fx, proto_power_smooth_len, exp ); // Q(hDirACRend->h_output_synthesis_psd_state.proto_power_smooth_q + exp) hDirACRend->h_output_synthesis_psd_state.proto_power_smooth_q = add( hDirACRend->h_output_synthesis_psd_state.proto_power_smooth_q, exp ); @@ -3574,6 +3778,7 @@ void ivas_dirac_dec_render_sf_fx( hDirACRend->h_output_synthesis_psd_state.proto_power_smooth_q = hDirACRend->h_output_synthesis_psd_state.proto_power_smooth_prev_q; move16(); } +#endif exp = getScaleFactor32( hDirACRend->h_output_synthesis_psd_state.proto_power_diff_smooth_fx, i_mult( hDirACRend->h_output_synthesis_psd_params.max_band_decorr, hDirACRend->hOutSetup.nchan_out_woLFE ) ); scale_sig32( hDirACRend->h_output_synthesis_psd_state.proto_power_diff_smooth_fx, i_mult( hDirACRend->h_output_synthesis_psd_params.max_band_decorr, hDirACRend->hOutSetup.nchan_out_woLFE ), exp ); // Q(hDirACRend->h_output_synthesis_psd_state.proto_power_diff_smooth_q + exp) @@ -3617,11 +3822,37 @@ void ivas_dirac_dec_render_sf_fx( hSpatParamRendCom->subframe_nbslots[subframe_idx], diffuseness_vector_fx, reference_power_smooth_fx, +#ifdef FIX_867_CLDFB_NRG_SCALE + q_reference_power_smooth, +#else &q_reference_power_smooth, +#endif qualityBasedSmFactor_fx, hDirAC->hConfig->enc_param_start_band, &q_Cldfb ); +#ifdef FIX_867_CLDFB_NRG_SCALE + Word16 allZero = 1; + move16(); + FOR( i = 0; i < proto_power_smooth_len; i++ ) + { + if ( hDirACRend->h_output_synthesis_psd_state.proto_power_smooth_fx[i] != 0 ) + { + allZero = 0; + move16(); + } + } + if ( allZero ) + { + hDirACRend->h_output_synthesis_psd_state.proto_power_smooth_q[0] = 31; + move16(); + } + if ( allZero ) + { + hDirACRend->h_output_synthesis_psd_state.proto_power_smooth_q[1] = 31; + move16(); + } +#else Word16 sh = hDirACRend->h_output_synthesis_psd_state.proto_power_smooth_q; move16(); hDirACRend->h_output_synthesis_psd_state.proto_power_smooth_q = 31; @@ -3634,6 +3865,7 @@ void ivas_dirac_dec_render_sf_fx( move16(); } } +#endif FOR( ch = 0; ch < hDirACRend->hOutSetup.nchan_out_woLFE; ch++ ) { @@ -3860,7 +4092,11 @@ void ivas_dirac_dec_render_sf_fx( st_ivas->cldfbSynDec[ch]->Q_cldfb_state = ( Q6 - 1 ); move16(); - cldfbSynthesis_ivas_fx( RealBuffer_fx, ImagBuffer_fx, synth_fx, i_mult( hSpatParamRendCom->num_freq_bands, hSpatParamRendCom->subframe_nbslots[subframe_idx] ), st_ivas->cldfbSynDec[ch] ); +#ifdef OPT_AVOID_STATE_BUF_RESCALE + cldfbSynthesis_ivas_fx( RealBuffer_fx, ImagBuffer_fx, synth_fx, i_mult( hSpatParamRendCom->num_freq_bands, hSpatParamRendCom->subframe_nbslots[subframe_idx] ), 0, 0, st_ivas->cldfbSynDec[ch] ); +#else /* OPT_AVOID_STATE_BUF_RESCALE */ + cldfbSynthesis_ivas_fx( RealBuffer_fx, ImagBuffer_fx, synth_fx, i_mult( hSpatParamRendCom->num_freq_bands, hSpatParamRendCom->subframe_nbslots[subframe_idx] ), 0, st_ivas->cldfbSynDec[ch] ); +#endif /* OPT_AVOID_STATE_BUF_RESCALE */ Word16 no_col = st_ivas->cldfbSynDec[ch]->no_col; move16(); @@ -3963,7 +4199,11 @@ void ivas_dirac_dec_render_sf_fx( ImagBuffer_fx[i] = Cldfb_ImagBuffer_fx[idx_in][i]; move32(); } - cldfbSynthesis_ivas_fx( RealBuffer_fx, ImagBuffer_fx, &( output_buf_fx[ch][subframe_start_sample] ), num_samples_subframe, st_ivas->cldfbSynDec[idx_in] ); +#ifdef OPT_AVOID_STATE_BUF_RESCALE + cldfbSynthesis_ivas_fx( RealBuffer_fx, ImagBuffer_fx, &( output_buf_fx[ch][subframe_start_sample] ), num_samples_subframe, 0, 0, st_ivas->cldfbSynDec[idx_in] ); +#else /* OPT_AVOID_STATE_BUF_RESCALE */ + cldfbSynthesis_ivas_fx( RealBuffer_fx, ImagBuffer_fx, &( output_buf_fx[ch][subframe_start_sample] ), num_samples_subframe, 0, st_ivas->cldfbSynDec[idx_in] ); +#endif /* OPT_AVOID_STATE_BUF_RESCALE*/ IF( !st_ivas->hLsSetupCustom->separate_ch_found ) { @@ -4003,7 +4243,11 @@ void ivas_dirac_dec_render_sf_fx( scale_sig32( st_ivas->cldfbSynDec[cldfbSynIdx]->cldfb_state_fx, st_ivas->cldfbSynDec[cldfbSynIdx]->p_filter_length, sub( ( Q6 - 1 ), st_ivas->cldfbSynDec[cldfbSynIdx]->Q_cldfb_state ) ); // Q6-1 st_ivas->cldfbSynDec[cldfbSynIdx]->Q_cldfb_state = ( Q6 - 1 ); move16(); - cldfbSynthesis_ivas_fx( RealBuffer_fx, ImagBuffer_fx, p_out, samplesToProcess, st_ivas->cldfbSynDec[cldfbSynIdx] ); +#ifdef OPT_AVOID_STATE_BUF_RESCALE + cldfbSynthesis_ivas_fx( RealBuffer_fx, ImagBuffer_fx, p_out, samplesToProcess, 0, 0, st_ivas->cldfbSynDec[cldfbSynIdx] ); +#else /* OPT_AVOID_STATE_BUF_RESCALE */ + cldfbSynthesis_ivas_fx( RealBuffer_fx, ImagBuffer_fx, p_out, samplesToProcess, 0, st_ivas->cldfbSynDec[cldfbSynIdx] ); +#endif /* OPT_AVOID_STATE_BUF_RESCALE*/ // Calculating length of output Word16 no_col = st_ivas->cldfbSynDec[cldfbSynIdx]->no_col; @@ -4071,8 +4315,11 @@ void ivas_dirac_dec_render_sf_fx( scale_sig32( st_ivas->cldfbSynDec[idx_in]->cldfb_state_fx, st_ivas->cldfbSynDec[idx_in]->p_filter_length, sub( ( Q6 - 1 ), st_ivas->cldfbSynDec[idx_in]->Q_cldfb_state ) ); st_ivas->cldfbSynDec[idx_in]->Q_cldfb_state = ( Q6 - 1 ); move16(); - - cldfbSynthesis_ivas_fx( RealBuffer_fx, ImagBuffer_fx, p_out, samplesToProcess, st_ivas->cldfbSynDec[idx_in] ); +#ifdef OPT_AVOID_STATE_BUF_RESCALE + cldfbSynthesis_ivas_fx( RealBuffer_fx, ImagBuffer_fx, p_out, samplesToProcess, 0, 0, st_ivas->cldfbSynDec[idx_in] ); +#else /* OPT_AVOID_STATE_BUF_RESCALE */ + cldfbSynthesis_ivas_fx( RealBuffer_fx, ImagBuffer_fx, p_out, samplesToProcess, 0, st_ivas->cldfbSynDec[idx_in] ); +#endif /* OPT_AVOID_STATE_BUF_RESCALE */ // Scaling output from Q6-1 to Q11 Scale_sig32( p_out, out_len, ( Q11 - ( Q6 - 1 ) ) ); diff --git a/lib_dec/ivas_dirac_output_synthesis_cov.c b/lib_dec/ivas_dirac_output_synthesis_cov_fx.c similarity index 95% rename from lib_dec/ivas_dirac_output_synthesis_cov.c rename to lib_dec/ivas_dirac_output_synthesis_cov_fx.c index 13d8fc940a625213ddf73eecc73693fed23bef9f..6d367538d26d575e27d55756a9222a5c96d5c322 100644 --- a/lib_dec/ivas_dirac_output_synthesis_cov.c +++ b/lib_dec/ivas_dirac_output_synthesis_cov_fx.c @@ -40,15 +40,13 @@ #include "cnst.h" #include "rom_enc.h" #include "rom_com.h" -#include "prot.h" -#include "ivas_prot.h" +#include "prot_fx.h" #include "ivas_stat_dec.h" #include "ivas_cnst.h" #include "ivas_rom_com.h" #include "ivas_rom_dec.h" #include "wmc_auto.h" #include "rom_dec.h" -#include "prot_fx.h" #include "ivas_prot_fx.h" @@ -725,7 +723,7 @@ Word16 computeMixingMatrices_fx( Word32 G_hat_fx[MAX_OUTPUT_CHANNELS]; Word16 G_hat_buff_e[MAX_OUTPUT_CHANNELS]; - Word16 mat_mult_buffer1_e, mat_mult_buffer2_e, mat_mult_buffer3_e; + Word16 mat_mult_buffer2_e, mat_mult_buffer3_e; Word32 mat_mult_buffer3_fx[MAX_OUTPUT_CHANNELS * MAX_OUTPUT_CHANNELS]; @@ -775,7 +773,7 @@ Word16 computeMixingMatrices_fx( mat2svdMat_fx( Cy_fx, svd_in_buffer_fx, lengthCy, lengthCy, 0 ); svd_fx( svd_in_buffer_fx, Cy_fx_e, svd_u_buffer_fx, svd_s_buffer_fx, svd_v_buffer_fx, svd_s_buffer_e, lengthCy, lengthCy ); - + Word16 max_e = -32; /* Computing Ky */ FOR( i = 0; i < lengthCy; ++i ) { @@ -788,8 +786,16 @@ Word16 computeMixingMatrices_fx( move32(); Ky_fx_e[i + ( j * lengthCy )] = tmp_e; move16(); + max_e = s_max( max_e, tmp_e ); } } + FOR( i = 0; i < lengthCy * lengthCy; ++i ) + { + Ky_fx[i] = L_shr( Ky_fx[i], sub( max_e, Ky_fx_e[i] ) ); + move32(); + Ky_fx_e[i] = max_e; + move16(); + } /*-----------------------------------------------------------------* * Decomposition of Cx @@ -800,7 +806,7 @@ Word16 computeMixingMatrices_fx( mat2svdMat_fx( Cx_fx, svd_in_buffer_fx, lengthCx, lengthCx, 0 ); svd_fx( svd_in_buffer_fx, Cx_fx_e, svd_u_buffer_fx, svd_s_buffer_fx, svd_v_buffer_fx, svd_s_buffer_e, lengthCx, lengthCx ); - + max_e = -32; FOR( i = 0; i < lengthCx; ++i ) { FOR( j = 0; j < lengthCx; ++j ) @@ -812,9 +818,16 @@ Word16 computeMixingMatrices_fx( move32(); Kx_fx_e[( i + ( j * lengthCx ) )] = tmp_e; move16(); + max_e = s_max( max_e, tmp_e ); } } - + FOR( i = 0; i < lengthCx * lengthCx; ++i ) + { + Kx_fx[i] = L_shr( Kx_fx[i], sub( max_e, Kx_fx_e[i] ) ); + move32(); + Kx_fx_e[i] = max_e; + move16(); + } FOR( i = 0; i < lengthCx; ++i ) { @@ -938,37 +951,15 @@ Word16 computeMixingMatrices_fx( /* Computing the input matrix Kx'*Q'*G_hat'*Ky */ - Word16 mat_mult_buffer1_fx_e[MAX_OUTPUT_CHANNELS * MAX_OUTPUT_CHANNELS]; - Word16 Q_e_arr[PARAM_MC_MAX_TRANSPORT_CHANS * MAX_CICP_CHANNELS]; - set16_fx( Q_e_arr, Q_e, PARAM_MC_MAX_TRANSPORT_CHANS * MAX_CICP_CHANNELS ); - - matrix_product_mant_exp( Kx_fx, Kx_fx_e, lengthCx, lengthCx, 1, Q_fx, Q_e_arr, lengthCy, lengthCx, 1, mat_mult_buffer1_fx, mat_mult_buffer1_fx_e ); + Word16 mat_mult_buffer1_fx_e; Word16 mat_mult_buffer2_fx_e[MAX_OUTPUT_CHANNELS * MAX_OUTPUT_CHANNELS]; - matrix_diag_product_fx_1( mat_mult_buffer1_fx, mat_mult_buffer1_fx_e, lengthCx, lengthCy, 0, G_hat_fx, G_hat_buff_e, lengthCy, mat_mult_buffer2_fx, mat_mult_buffer2_fx_e ); + matrix_product_mant_exp_fx( Kx_fx, Kx_fx_e[0], lengthCx, lengthCx, 1, Q_fx, Q_e, lengthCy, lengthCx, 1, mat_mult_buffer1_fx, &mat_mult_buffer1_fx_e ); - matrix_product_mant_exp( mat_mult_buffer2_fx, mat_mult_buffer2_fx_e, lengthCx, lengthCy, 0, Ky_fx, Ky_fx_e, lengthCy, lengthCy, 0, mat_mult_buffer1_fx, mat_mult_buffer1_fx_e ); - - exp = mat_mult_buffer1_fx_e[0]; - move16(); - FOR( i = 1; i < lengthCy * lengthCx; i++ ) - { - if ( LT_16( exp, mat_mult_buffer1_fx_e[i] ) ) - { - exp = mat_mult_buffer1_fx_e[i]; - move16(); - } - } - - FOR( i = 0; i < lengthCy * lengthCx; i++ ) - { - mat_mult_buffer1_fx[i] = L_shr( mat_mult_buffer1_fx[i], sub( exp, mat_mult_buffer1_fx_e[i] ) ); // Q(31-exp) - move32(); - } + matrix_diag_product_fx_2( mat_mult_buffer1_fx, mat_mult_buffer1_fx_e, lengthCx, lengthCy, 0, G_hat_fx, G_hat_buff_e, lengthCy, mat_mult_buffer2_fx, mat_mult_buffer2_fx_e ); - mat_mult_buffer1_e = exp; - move16(); + matrix_product_mant_exp_fx( mat_mult_buffer2_fx, mat_mult_buffer2_fx_e[0], lengthCx, lengthCy, 0, Ky_fx, Ky_fx_e[0], lengthCy, lengthCy, 0, mat_mult_buffer1_fx, &mat_mult_buffer1_fx_e ); IF( LT_16( lengthCx, lengthCy ) ) { @@ -977,7 +968,7 @@ Word16 computeMixingMatrices_fx( move16(); nC = lengthCx; move16(); - svd_fx( svd_in_buffer_fx, mat_mult_buffer1_e, svd_v_buffer_fx, svd_s_buffer_fx, svd_u_buffer_fx, svd_s_buffer_e, nL, nC ); + svd_fx( svd_in_buffer_fx, mat_mult_buffer1_fx_e, svd_v_buffer_fx, svd_s_buffer_fx, svd_u_buffer_fx, svd_s_buffer_e, nL, nC ); } ELSE { @@ -986,7 +977,7 @@ Word16 computeMixingMatrices_fx( move16(); nC = lengthCy; move16(); - svd_fx( svd_in_buffer_fx, mat_mult_buffer1_e, svd_u_buffer_fx, svd_s_buffer_fx, svd_v_buffer_fx, svd_s_buffer_e, nL, nC ); + svd_fx( svd_in_buffer_fx, mat_mult_buffer1_fx_e, svd_u_buffer_fx, svd_s_buffer_fx, svd_v_buffer_fx, svd_s_buffer_e, nL, nC ); } /* Actually Processing P */ @@ -997,25 +988,25 @@ Word16 computeMixingMatrices_fx( svdMat2mat_fx( svd_v_buffer_fx, mat_mult_buffer1_fx, lengthCy, lengthCx ); svdMat2mat_fx( svd_u_buffer_fx, mat_mult_buffer2_fx, lengthCx, lengthCx ); - mat_mult_buffer1_e = 0; + mat_mult_buffer1_fx_e = 0; move16(); mat_mult_buffer2_e = 0; move16(); - matrix_product_mant_exp_fx( mat_mult_buffer1_fx, mat_mult_buffer1_e, lengthCy, lengthCx, 0, + matrix_product_mant_exp_fx( mat_mult_buffer1_fx, mat_mult_buffer1_fx_e, lengthCy, lengthCx, 0, mat_mult_buffer2_fx, mat_mult_buffer2_e, lengthCx, lengthCx, 1, mat_mult_buffer3_fx, &mat_mult_buffer3_e ); /************************ Formulate M **********************/ - Word16 mat_mult_buffer3_fx_e[MAX_OUTPUT_CHANNELS * MAX_OUTPUT_CHANNELS]; - set16_fx( mat_mult_buffer3_fx_e, mat_mult_buffer3_e, MAX_OUTPUT_CHANNELS * MAX_OUTPUT_CHANNELS ); - - matrix_product_mant_exp( Ky_fx, Ky_fx_e, lengthCy, lengthCy, 0, mat_mult_buffer3_fx, mat_mult_buffer3_fx_e, lengthCy, lengthCx, 0, mat_mult_buffer1_fx, mat_mult_buffer1_fx_e ); + matrix_product_mant_exp_fx( Ky_fx, Ky_fx_e[0], lengthCy, lengthCy, 0, mat_mult_buffer3_fx, mat_mult_buffer3_e, lengthCy, lengthCx, 0, mat_mult_buffer1_fx, &mat_mult_buffer1_fx_e ); Word16 mixing_matrix_fx_e[MAX_CICP_CHANNELS * PARAM_MC_MAX_TRANSPORT_CHANS]; - matrix_product_mant_exp( mat_mult_buffer1_fx, mat_mult_buffer1_fx_e, lengthCy, lengthCx, 0, Kx_reg_inv_fx, Kx_reg_inv_e, lengthCx, lengthCx, 0, mixing_matrix_fx, mixing_matrix_fx_e ); + Word16 mat_mult_buffer1_fx_e1[MAX_OUTPUT_CHANNELS * MAX_OUTPUT_CHANNELS]; + set16_fx( mat_mult_buffer1_fx_e1, mat_mult_buffer1_fx_e, MAX_OUTPUT_CHANNELS * MAX_OUTPUT_CHANNELS ); + + matrix_product_mant_exp( mat_mult_buffer1_fx, mat_mult_buffer1_fx_e1, lengthCy, lengthCx, 0, Kx_reg_inv_fx, Kx_reg_inv_e, lengthCx, lengthCx, 0, mixing_matrix_fx, mixing_matrix_fx_e ); /*-----------------------------------------------------------------* * Formulate Cr @@ -1026,9 +1017,9 @@ Word16 computeMixingMatrices_fx( Word16 Cx_e_arr[PARAM_MC_MAX_TRANSPORT_CHANS * PARAM_MC_MAX_TRANSPORT_CHANS]; set16_fx( Cx_e_arr, Cx_fx_e, PARAM_MC_MAX_TRANSPORT_CHANS * PARAM_MC_MAX_TRANSPORT_CHANS ); - matrix_product_mant_exp( mixing_matrix_fx, mixing_matrix_fx_e, lengthCy, lengthCx, 0, Cx_fx, Cx_e_arr, lengthCx, lengthCx, 0, mat_mult_buffer1_fx, mat_mult_buffer1_fx_e ); + matrix_product_mant_exp( mixing_matrix_fx, mixing_matrix_fx_e, lengthCy, lengthCx, 0, Cx_fx, Cx_e_arr, lengthCx, lengthCx, 0, mat_mult_buffer1_fx, mat_mult_buffer1_fx_e1 ); - matrix_product_mant_exp( mat_mult_buffer1_fx, mat_mult_buffer1_fx_e, lengthCy, lengthCx, 0, mixing_matrix_fx, mixing_matrix_fx_e, lengthCy, lengthCx, 1, mat_mult_buffer2_fx, mat_mult_buffer2_fx_e ); + matrix_product_mant_exp( mat_mult_buffer1_fx, mat_mult_buffer1_fx_e1, lengthCy, lengthCx, 0, mixing_matrix_fx, mixing_matrix_fx_e, lengthCy, lengthCx, 1, mat_mult_buffer2_fx, mat_mult_buffer2_fx_e ); exp = mixing_matrix_fx_e[0]; move16(); @@ -1067,7 +1058,7 @@ Word16 computeMixingMatrices_fx( } /* Avoid Meaningless negative main diagonal elements */ - IF( BASOP_Util_Cmp_Mant32Exp( Cr_fx[i + ( i * lengthCy )], exp, 0, 0 ) < 0 ) + IF( Cr_fx[i + ( i * lengthCy )] < 0 ) { Cr_fx[i + ( i * lengthCy )] = 0; move32(); @@ -1129,7 +1120,7 @@ Word16 computeMixingMatrices_fx( { /* Avoid correction for very small energies, main diagonal elements of Cy_tilde_p may be negative */ - IF( BASOP_Util_Cmp_Mant32Exp( Cy_tilde_p_fx[i + ( i * lengthCy )], mat_mult_buffer2_e, 0, 0 ) < 0 ) + IF( Cy_tilde_p_fx[i + ( i * lengthCy )] < 0 ) { adj_fx_p[i] = 1073741824; // 1.0f in Q30 move32(); @@ -1148,7 +1139,8 @@ Word16 computeMixingMatrices_fx( move16(); } - IF( BASOP_Util_Cmp_Mant32Exp( adj_fx_p[i], adj_e[i], 1073741824, 3 ) > 0 ) + Word32 temp = W_shl_sat_l( W_deposit32_l( 4 ), sub( 31, adj_e[i] ) ); + IF( GT_32( adj_fx_p[i], temp ) ) { adj_fx_p[i] = 1073741824; // 1.0f in Q30 move32(); @@ -1233,11 +1225,7 @@ Word16 computeMixingMatricesResidual_fx( Word16 mixing_matrix_e = 0, mat_mult_buffer1_e, adj_e, mat_mult_buffer3_e, mat_mult_buffer2_e; move16(); -#ifdef MSAN_FIX Word32 svd_s_buffer_fx[MAX_OUTPUT_CHANNELS] = { 0 }; -#else - Word32 svd_s_buffer_fx[MAX_OUTPUT_CHANNELS]; -#endif Word16 svd_s_buffer_e[MAX_OUTPUT_CHANNELS]; Word32 L_tmp; Word16 tmp_e; @@ -1281,6 +1269,7 @@ Word16 computeMixingMatricesResidual_fx( svd_fx( svd_in_buffer_fx, Cy_fx_e, svd_u_buffer_fx, svd_s_buffer_fx, svd_v_buffer_fx, svd_s_buffer_e, lengthCy, lengthCy ); /* Computing Ky */ + Word16 max_e = -32; FOR( i = 0; i < lengthCy; ++i ) { FOR( j = 0; j < lengthCy; ++j ) @@ -1292,9 +1281,18 @@ Word16 computeMixingMatricesResidual_fx( move32(); Ky_fx_e[i + j * lengthCy] = tmp_e; move16(); + max_e = s_max( max_e, tmp_e ); } } + FOR( i = 0; i < lengthCy * lengthCy; ++i ) + { + Ky_fx[i] = L_shr( Ky_fx[i], sub( max_e, Ky_fx_e[i] ) ); + move32(); + Ky_fx_e[i] = max_e; + move16(); + } + /*-----------------------------------------------------------------* * Decomposition of Cx *-----------------------------------------------------------------*/ @@ -1305,7 +1303,7 @@ Word16 computeMixingMatricesResidual_fx( * square root of the diagonal of Cx */ /* Computing Kx */ - + max_e = -32; FOR( i = 0; i < lengthCx; ++i ) { exp = Cx_e; @@ -1314,6 +1312,15 @@ Word16 computeMixingMatricesResidual_fx( move32(); Kx_fx_e[i] = exp; move16(); + max_e = s_max( max_e, exp ); + } + + FOR( i = 0; i < lengthCx; ++i ) + { + Kx_fx[i] = L_shr( Kx_fx[i], sub( max_e, Kx_fx_e[i] ) ); + move32(); + Kx_fx_e[i] = max_e; + move16(); } /*-----------------------------------------------------------------* @@ -1322,16 +1329,13 @@ Word16 computeMixingMatricesResidual_fx( limit_fx = Kx_fx[0]; move32(); - limit_e = Kx_fx_e[0]; - move16(); + FOR( i = 1; i < lengthCx; i++ ) { - IF( BASOP_Util_Cmp_Mant32Exp( Kx_fx[i], Kx_fx_e[i], limit_fx, limit_e ) > 0 ) + IF( GT_32( Kx_fx[i], limit_fx ) ) { limit_fx = Kx_fx[i]; move32(); - limit_e = Kx_fx_e[i]; - move16(); } } @@ -1339,7 +1343,7 @@ Word16 computeMixingMatricesResidual_fx( L_tmp = L_add( L_tmp, EPSILLON_FX ); limit_fx = L_tmp; move16(); - limit_e = add( limit_e, reg_Sx_e ); + limit_e = add( Kx_fx_e[0], reg_Sx_e ); FOR( i = 0; i < lengthCx; ++i ) { @@ -1488,10 +1492,9 @@ Word16 computeMixingMatricesResidual_fx( * Formulate M *-----------------------------------------------------------------*/ - Word16 mat_mult_buffer3_fx_e[MAX_OUTPUT_CHANNELS * MAX_OUTPUT_CHANNELS]; - set16_fx( mat_mult_buffer3_fx_e, mat_mult_buffer3_e, MAX_OUTPUT_CHANNELS * MAX_OUTPUT_CHANNELS ); - matrix_product_mant_exp( Ky_fx, Ky_fx_e, lengthCy, lengthCy, 0, mat_mult_buffer3_fx, mat_mult_buffer3_fx_e, lengthCy, lengthCx, 0, mat_mult_buffer1_fx, mat_mult_buffer1_buff_e ); + matrix_product_mant_exp_fx( Ky_fx, Ky_fx_e[0], lengthCy, lengthCy, 0, mat_mult_buffer3_fx, mat_mult_buffer3_e, lengthCy, lengthCx, 0, mat_mult_buffer1_fx, mat_mult_buffer1_buff_e ); + set16_fx( mat_mult_buffer1_buff_e, mat_mult_buffer1_buff_e[0], MAX_OUTPUT_CHANNELS * MAX_OUTPUT_CHANNELS ); Word16 mixing_matrix_fx_e[MAX_CICP_CHANNELS * MAX_CICP_CHANNELS]; @@ -1576,7 +1579,8 @@ Word16 computeMixingMatricesResidual_fx( move32(); adj_buff_e[i] = scale; move16(); - IF( BASOP_Util_Cmp_Mant32Exp( adj_fx_p[i], scale, 1073741824, 3 ) > 0 ) // 1073741824 -> 1.0f in Q30 + Word32 temp = W_shl_sat_l( W_deposit32_l( 4 ), sub( 31, scale ) ); + IF( GT_32( adj_fx_p[i], temp ) ) // 1073741824 -> 1.0f in Q30 { adj_fx_p[i] = 1073741824; // 1.0f in Q30 move32(); @@ -1747,7 +1751,7 @@ Word16 computeMixingMatricesISM_fx( IF( svd_s_buffer_fx[i] ) { Word32 reg_fac; - reg_fac = BASOP_Util_Divide3232_Scale_cadence( MAX_32, svd_s_buffer_fx[i], &temp_e[i] ); + reg_fac = BASOP_Util_Divide3232_Scale_newton( MAX_32, svd_s_buffer_fx[i], &temp_e[i] ); Kx_reg_inv_fx[i] = reg_fac; move32(); temp_e[i] = sub( temp_e[i], svd_s_buffer_fx_e ); @@ -1756,7 +1760,7 @@ Word16 computeMixingMatricesISM_fx( ELSE { Word32 reg_fac; - reg_fac = BASOP_Util_Divide3232_Scale_cadence( MAX_32, EPSILON_FX_M, &temp_e[i] ); + reg_fac = BASOP_Util_Divide3232_Scale_newton( MAX_32, EPSILON_FX_M, &temp_e[i] ); Kx_reg_inv_fx[i] = reg_fac; move32(); temp_e[i] = sub( temp_e[i], EPSILON_FX_E ); @@ -1833,7 +1837,7 @@ Word16 computeMixingMatricesISM_fx( { IF( Cy_hat_diag_fx[i] ) { - G_hat_fx[i] = BASOP_Util_Divide3232_Scale_cadence( Cy_diag_fx[i], Cy_hat_diag_fx[i], &temp_e[i] ); + G_hat_fx[i] = BASOP_Util_Divide3232_Scale_newton( Cy_diag_fx[i], Cy_hat_diag_fx[i], &temp_e[i] ); move32(); temp_e[i] = add( temp_e[i], sub( Cy_diag_e, Cy_hat_diag_e ) ); move16(); @@ -1842,7 +1846,7 @@ Word16 computeMixingMatricesISM_fx( } ELSE { - G_hat_fx[i] = BASOP_Util_Divide3232_Scale_cadence( Cy_diag_fx[i], EPSILON_FX_M, &temp_e[i] ); + G_hat_fx[i] = BASOP_Util_Divide3232_Scale_newton( Cy_diag_fx[i], EPSILON_FX_M, &temp_e[i] ); move32(); temp_e[i] = add( temp_e[i], sub( Cy_diag_e, EPSILON_FX_E ) ); move16(); @@ -1945,7 +1949,7 @@ Word16 computeMixingMatricesISM_fx( { IF( Cy_tilde_p_fx[i + ( i * lengthCy )] ) { - adj_fx[i] = BASOP_Util_Divide3232_Scale_cadence( Cy_diag_fx[i], Cy_tilde_p_fx[i + ( i * lengthCy )], &temp_e[i] ); + adj_fx[i] = BASOP_Util_Divide3232_Scale_newton( Cy_diag_fx[i], Cy_tilde_p_fx[i + ( i * lengthCy )], &temp_e[i] ); move32(); temp_e[i] = add( temp_e[i], sub( Cy_diag_e, mat_mult_buffer2_e ) ); move16(); @@ -1954,7 +1958,7 @@ Word16 computeMixingMatricesISM_fx( } ELSE { - adj_fx[i] = BASOP_Util_Divide3232_Scale_cadence( Cy_diag_fx[i], EPSILON_FX_M, &temp_e[i] ); + adj_fx[i] = BASOP_Util_Divide3232_Scale_newton( Cy_diag_fx[i], EPSILON_FX_M, &temp_e[i] ); move32(); temp_e[i] = add( temp_e[i], sub( Cy_diag_e, EPSILON_FX_E ) ); move16(); @@ -1971,7 +1975,8 @@ Word16 computeMixingMatricesISM_fx( } } - IF( BASOP_Util_Cmp_Mant32Exp( adj_fx[i], temp_e[i], MAX_32, 2 ) > 0 ) + Word32 temp = W_shl_sat_l( W_deposit32_l( 4 ), sub( 31, temp_e[i] ) ); + IF( GT_32( adj_fx[i], temp ) ) { adj_fx[i] = MAX_32; move32(); diff --git a/lib_dec/ivas_entropy_decoder.c b/lib_dec/ivas_entropy_decoder_fx.c similarity index 99% rename from lib_dec/ivas_entropy_decoder.c rename to lib_dec/ivas_entropy_decoder_fx.c index 0c489fb04ccc58831bbe4bad92f233b400b67a86..f8bf3c0910563b96492446ff76aa581507552b77 100644 --- a/lib_dec/ivas_entropy_decoder.c +++ b/lib_dec/ivas_entropy_decoder_fx.c @@ -32,13 +32,11 @@ #include #include "options.h" -#include "prot.h" -#include "ivas_prot.h" +#include "prot_fx.h" #include "ivas_cnst.h" #include "ivas_rom_com.h" #include #include "wmc_auto.h" -#include "prot_fx.h" #include "ivas_prot_fx.h" diff --git a/lib_dec/ivas_init_dec.c b/lib_dec/ivas_init_dec.c index dc9126607a389e38f6f082a6686cbf5a5005a19f..ba49051897aea72fdf720be956a9bcace9489d77 100644 --- a/lib_dec/ivas_init_dec.c +++ b/lib_dec/ivas_init_dec.c @@ -35,14 +35,12 @@ #include #include "options.h" #include "ivas_cnst.h" -#include "ivas_prot.h" -#include "ivas_prot_rend.h" +#include "ivas_prot_rend_fx.h" #include "rom_com.h" #include "ivas_rom_com.h" #include "ivas_stat_enc.h" -#include "prot.h" -#include "wmc_auto.h" #include "prot_fx.h" +#include "wmc_auto.h" #include "ivas_prot_fx.h" #ifdef SPLIT_REND_WITH_HEAD_ROT #include "lib_isar_pre_rend.h" @@ -150,7 +148,7 @@ static ivas_error ivas_dec_reconfig_split_rend( FOR( ch = 0; ch < num_ch; ch++ ) { - IF( ( error = openCldfb_ivas_fx( &( hSplitRendWrapper->hCldfbHandles->cldfbAna[ch] ), CLDFB_ANALYSIS, st_ivas->hDecoderConfig->output_Fs, CLDFB_PROTOTYPE_5_00MS ) ) != IVAS_ERR_OK ) + IF( ( error = openCldfb_ivas_fx( &( hSplitRendWrapper->hCldfbHandles->cldfbAna[ch] ), CLDFB_ANALYSIS, st_ivas->hDecoderConfig->output_Fs, CLDFB_PROTOTYPE_5_00MS, DEC ) ) != IVAS_ERR_OK ) { return ( IVAS_ERROR( IVAS_ERR_FAILED_ALLOC, "Can not open CLDFB handles\n" ) ); } @@ -158,7 +156,7 @@ static ivas_error ivas_dec_reconfig_split_rend( FOR( ch = 0; ch < BINAURAL_CHANNELS; ch++ ) { - if ( ( error = openCldfb_ivas_fx( &( hSplitRendWrapper->hCldfbHandles->cldfbSyn[ch] ), CLDFB_SYNTHESIS, st_ivas->hDecoderConfig->output_Fs, CLDFB_PROTOTYPE_5_00MS ) ) != IVAS_ERR_OK ) + if ( ( error = openCldfb_ivas_fx( &( hSplitRendWrapper->hCldfbHandles->cldfbSyn[ch] ), CLDFB_SYNTHESIS, st_ivas->hDecoderConfig->output_Fs, CLDFB_PROTOTYPE_5_00MS, DEC ) ) != IVAS_ERR_OK ) { return error; } @@ -1515,9 +1513,7 @@ ivas_error ivas_init_decoder_fx( { return error; } -#ifdef MSAN_FIX set16_fx( st_ivas->hSpar->hFbMixer->cldfb_cross_fade_fx, 0, CLDFB_NO_COL_MAX ); -#endif test(); IF( EQ_32( st_ivas->renderer_type, RENDERER_SBA_LINEAR_DEC ) && st_ivas->hOutSetup.is_loudspeaker_setup ) { @@ -1562,6 +1558,7 @@ ivas_error ivas_init_decoder_fx( st_ivas->hSpar->enc_param_start_band = s_min( IVAS_MAX_NUM_BANDS, SPAR_DIRAC_SPLIT_START_BAND ); move16(); + IF( ivas_get_hodirac_flag_fx( ivas_total_brate, st_ivas->sba_analysis_order ) ) { st_ivas->hSpar->enc_param_start_band = 0; @@ -1572,10 +1569,12 @@ ivas_error ivas_init_decoder_fx( } ivas_dirac_config_bands_fx( band_grouping, IVAS_MAX_NUM_BANDS, extract_l( Mpy_32_32_r( st_ivas->hDecoderConfig->output_Fs, INV_CLDFB_BANDWIDTH_Q31 ) ), - st_ivas->hSpar->dirac_to_spar_md_bands, st_ivas->hQMetaData->useLowerBandRes, st_ivas->hSpar->enc_param_start_band, 0 ); + st_ivas->hSpar->dirac_to_spar_md_bands, st_ivas->hQMetaData->useLowerBandRes, st_ivas->hSpar->enc_param_start_band, 0, 1 ); } + st_ivas->sba_dirac_stereo_flag = ivas_get_sba_dirac_stereo_flag( st_ivas ); move16(); + FOR( sce_id = 0; sce_id < st_ivas->nSCE; sce_id++ ) { Word32 res_dec, res_frac; @@ -1762,7 +1761,7 @@ ivas_error ivas_init_decoder_fx( } ivas_dirac_config_bands_fx( band_grouping, IVAS_MAX_NUM_BANDS, extract_l( Mpy_32_32_r( st_ivas->hDecoderConfig->output_Fs, INV_CLDFB_BANDWIDTH_Q31 ) ), - st_ivas->hSpar->dirac_to_spar_md_bands, st_ivas->hQMetaData->useLowerBandRes, st_ivas->hSpar->enc_param_start_band, 0 ); + st_ivas->hSpar->dirac_to_spar_md_bands, st_ivas->hQMetaData->useLowerBandRes, st_ivas->hSpar->enc_param_start_band, 0, 1 ); } FOR( sce_id = 0; sce_id < st_ivas->nSCE; sce_id++ ) @@ -2281,7 +2280,7 @@ ivas_error ivas_init_decoder_fx( } } - granularity = NS2SA( st_ivas->hDecoderConfig->output_Fs, FRAME_SIZE_NS / MAX_PARAM_SPATIAL_SUBFRAMES ); + granularity = NS2SA_FX2( st_ivas->hDecoderConfig->output_Fs, FRAME_SIZE_NS / MAX_PARAM_SPATIAL_SUBFRAMES ); n_channels_transport_jbm = ivas_jbm_dec_get_num_tc_channels_fx( st_ivas ); @@ -2522,7 +2521,7 @@ ivas_error ivas_init_decoder_fx( FOR( i = 0; i < numCldfbAnalyses; i++ ) { - IF( NE_32( ( error = openCldfb_ivas_fx( &( st_ivas->cldfbAnaDec[i] ), CLDFB_ANALYSIS, output_Fs, CLDFB_PROTOTYPE_5_00MS ) ), IVAS_ERR_OK ) ) + IF( NE_32( ( error = openCldfb_ivas_fx( &( st_ivas->cldfbAnaDec[i] ), CLDFB_ANALYSIS, output_Fs, CLDFB_PROTOTYPE_5_00MS, DEC ) ), IVAS_ERR_OK ) ) { return error; } @@ -2534,7 +2533,7 @@ ivas_error ivas_init_decoder_fx( FOR( i = 0; i < numCldfbSyntheses; i++ ) { - IF( NE_32( ( error = openCldfb_ivas_fx( &( st_ivas->cldfbSynDec[i] ), CLDFB_SYNTHESIS, output_Fs, CLDFB_PROTOTYPE_5_00MS ) ), IVAS_ERR_OK ) ) + IF( NE_32( ( error = openCldfb_ivas_fx( &( st_ivas->cldfbSynDec[i] ), CLDFB_SYNTHESIS, output_Fs, CLDFB_PROTOTYPE_5_00MS, DEC ) ), IVAS_ERR_OK ) ) { return error; } @@ -2589,7 +2588,7 @@ ivas_error ivas_init_decoder_fx( /* no module has yet open the TC buffer, open a default one */ n_channels_transport_jbm = ivas_jbm_dec_get_num_tc_channels_fx( st_ivas ); - IF( NE_32( ( error = ivas_jbm_dec_tc_buffer_open_fx( st_ivas, ivas_jbm_dec_get_tc_buffer_mode( st_ivas ), n_channels_transport_jbm, n_channels_transport_jbm, n_channels_transport_jbm, NS2SA( st_ivas->hDecoderConfig->output_Fs, CLDFB_SLOT_NS ) ) ), IVAS_ERR_OK ) ) + IF( NE_32( ( error = ivas_jbm_dec_tc_buffer_open_fx( st_ivas, ivas_jbm_dec_get_tc_buffer_mode( st_ivas ), n_channels_transport_jbm, n_channels_transport_jbm, n_channels_transport_jbm, NS2SA_FX2( st_ivas->hDecoderConfig->output_Fs, CLDFB_SLOT_NS ) ) ), IVAS_ERR_OK ) ) { return error; } diff --git a/lib_dec/ivas_init_dec_fx.c b/lib_dec/ivas_init_dec_fx.c index 47b17aa966f20831df65941e63265300acfcccb8..dac7d0da670a406e6151a14afebf2ed923038300 100644 --- a/lib_dec/ivas_init_dec_fx.c +++ b/lib_dec/ivas_init_dec_fx.c @@ -132,7 +132,7 @@ void ivas_init_dec_get_num_cldfb_instances_ivas_fx( } ELSE { - *numCldfbSyntheses = param_mc_get_num_cldfb_syntheses_ivas_fx( st_ivas ); + *numCldfbSyntheses = param_mc_get_num_cldfb_syntheses_fx( st_ivas ); move16(); } BREAK; @@ -214,7 +214,7 @@ void ivas_init_dec_get_num_cldfb_instances_ivas_fx( case RENDERER_SBA_LINEAR_ENC: IF( EQ_32( st_ivas->mc_mode, MC_MODE_PARAMMC ) ) { - *numCldfbSyntheses = param_mc_get_num_cldfb_syntheses_ivas_fx( st_ivas ); + *numCldfbSyntheses = param_mc_get_num_cldfb_syntheses_fx( st_ivas ); move16(); } ELSE IF( EQ_32( st_ivas->ism_mode, ISM_MODE_PARAM ) ) diff --git a/lib_dec/ivas_ism_dec.c b/lib_dec/ivas_ism_dec_fx.c similarity index 99% rename from lib_dec/ivas_ism_dec.c rename to lib_dec/ivas_ism_dec_fx.c index 785e1a0a1e9726762e8fed6303171acd90cca6eb..18c6953f282aaab2cb794776bdea986e0c5aafe9 100644 --- a/lib_dec/ivas_ism_dec.c +++ b/lib_dec/ivas_ism_dec_fx.c @@ -32,13 +32,11 @@ #include #include "options.h" -#include "prot.h" -#include "ivas_prot.h" +#include "prot_fx.h" #include "ivas_prot_fx.h" -#include "ivas_prot_rend.h" +#include "ivas_prot_rend_fx.h" #include "wmc_auto.h" #include "ivas_prot_fx.h" -#include "prot_fx.h" /*-------------------------------------------------------------------------* diff --git a/lib_dec/ivas_ism_dtx_dec.c b/lib_dec/ivas_ism_dtx_dec_fx.c similarity index 96% rename from lib_dec/ivas_ism_dtx_dec.c rename to lib_dec/ivas_ism_dtx_dec_fx.c index 0365005bee964400c30e6851e082e247ad989f7b..73ea5cd1f27289546002cddce0f3de1f71654c66 100644 --- a/lib_dec/ivas_ism_dtx_dec.c +++ b/lib_dec/ivas_ism_dtx_dec_fx.c @@ -33,12 +33,10 @@ #include #include #include "options.h" -#include "ivas_prot.h" #include "ivas_prot_fx.h" -#include "prot.h" +#include "prot_fx.h" #include "wmc_auto.h" -#include "prot_fx.h" /*-------------------------------------------------------------------* * ivas_ism_dtx_dec_fx() @@ -183,7 +181,12 @@ void ivas_ism_dtx_limit_noise_energy_for_near_silence_fx( cng_noise_nrg_obj_fx = dotp_fixed_o( hFdCngCom->cngNoiseLevel, hFdCngCom->cngNoiseLevel, cng_noise_level_len, 9, &Q_cng_noise_nrg_obj ); /*Resultant Q_cng_noise_nrg_obj= (Q_cng_noise_nrg_obj-x)<=31*/ IF( GT_32( cng_noise_nrg_obj_fx, cng_noise_nrg_dominant_fx ) ) { - Word32 temp = divide3232( L_shr( cng_noise_nrg_dominant_fx, 1 ), cng_noise_nrg_obj_fx ); /*Stores value of cng_noise_nrg_dominant_fx/cng_noise_nrg_obj_fx*/ + Word32 temp = 0; + move32(); + IF( L_shr( cng_noise_nrg_dominant_fx, 1 ) ) + { + temp = divide3232( L_shr( cng_noise_nrg_dominant_fx, 1 ), cng_noise_nrg_obj_fx ); /*Stores value of cng_noise_nrg_dominant_fx/cng_noise_nrg_obj_fx*/ + } Word16 Q_temp = add( sub( sub( Q_cng_noise_nrg_dominant, 1 ), Q_cng_noise_nrg_obj ), 15 ); /*Stores resultant Q after divide3232 operation above*/ IF( EQ_16( Q_temp % 2, 1 ) ) /*Making Q_temp even for sqrt function*/ { diff --git a/lib_dec/ivas_ism_metadata_dec.c b/lib_dec/ivas_ism_metadata_dec_fx.c similarity index 99% rename from lib_dec/ivas_ism_metadata_dec.c rename to lib_dec/ivas_ism_metadata_dec_fx.c index 833ed5e163ea183ee61efef20a29d7738f0c8818..3288903ab8f43b3b9cb00c03a44abb6b904cfbcc 100644 --- a/lib_dec/ivas_ism_metadata_dec.c +++ b/lib_dec/ivas_ism_metadata_dec_fx.c @@ -33,11 +33,9 @@ #include #include "options.h" #include "ivas_cnst.h" -#include "ivas_prot.h" #include "ivas_prot_fx.h" #include "ivas_rom_com.h" #include "ivas_rom_com_fx.h" -#include "prot.h" #include "prot_fx.h" #include "ivas_stat_enc.h" #include diff --git a/lib_dec/ivas_ism_param_dec.c b/lib_dec/ivas_ism_param_dec_fx.c similarity index 98% rename from lib_dec/ivas_ism_param_dec.c rename to lib_dec/ivas_ism_param_dec_fx.c index a8b02fe2ad5029192a6229ffa477d36510dd1967..d7ec5b6e7a803ad763c0e3231dff91866beefd6f 100644 --- a/lib_dec/ivas_ism_param_dec.c +++ b/lib_dec/ivas_ism_param_dec_fx.c @@ -34,15 +34,13 @@ #include #include #include "options.h" -#include "ivas_prot.h" -#include "ivas_prot_rend.h" -#include "prot.h" +#include "ivas_prot_rend_fx.h" +#include "prot_fx.h" #include "rom_com.h" #include "ivas_rom_com.h" #include "ivas_rom_dec.h" #include "wmc_auto.h" #include "ivas_prot_fx.h" -#include "prot_fx.h" #include "debug.h" #include "ivas_rom_com_fx.h" @@ -513,9 +511,7 @@ static ivas_error ivas_param_ism_rendering_init_fx( { set32_fx( hParamIsmRendering->mixing_matrix_lin_old_fx[bin_idx], 0, PARAM_ISM_MAX_CHAN * PARAM_ISM_MAX_DMX ); } -#ifdef MSAN_FIX set16_fx( hParamIsmRendering->exp_mixing_matrix_lin_old_fx, 0, CLDFB_NO_CHANNELS_MAX ); -#endif /* memory allocation for proto matrix and interpolator */ IF( ( hParamIsmRendering->proto_matrix_fx = (Word16 *) malloc( hOutSetup.nchan_out_woLFE * nchan_transport * sizeof( Word16 ) ) ) == NULL ) @@ -810,7 +806,6 @@ ivas_error ivas_param_ism_dec_open_fx( IF( st_ivas->hTcBuffer == NULL ) { - move16(); // NS2SA IF( NE_32( ( error = ivas_jbm_dec_tc_buffer_open_fx( st_ivas, TC_BUFFER_MODE_RENDERER, nchan_transport, nchan_transport, nchan_full, NS2SA_FX2( st_ivas->hDecoderConfig->output_Fs, CLDFB_SLOT_NS ) ) ), IVAS_ERR_OK ) ) { @@ -1443,9 +1438,9 @@ void ivas_ism_param_dec_tc_gain_ajust_fx( static void ivas_ism_param_dec_render_sf_fx( Decoder_Struct *st_ivas, IVAS_OUTPUT_SETUP hSetup, - const int16_t nchan_transport, - const int16_t nchan_out, - const int16_t nchan_out_woLFE, + const Word16 nchan_transport, + const Word16 nchan_out, + const Word16 nchan_out_woLFE, Word32 *output_f_fx[], /*Q_output*/ Word16 Q_output[] ) { @@ -1551,7 +1546,11 @@ static void ivas_ism_param_dec_render_sf_fx( Scale_sig32( st_ivas->cldfbSynDec[ch]->cldfb_state_fx, st_ivas->cldfbSynDec[ch]->p_filter_length, sub( sub( Q_real, 1 ), Q11 ) ); // Q_real-1 st_ivas->cldfbSynDec[ch]->Q_cldfb_state = sub( Q_real, 1 ); move16(); - cldfbSynthesis_ivas_fx( RealBuffer_fx, ImagBuffer_fx, output_f_fx[ch], i_mult( hSpatParamRendCom->num_freq_bands, hSpatParamRendCom->subframe_nbslots[subframe_idx] ), st_ivas->cldfbSynDec[ch] ); +#ifdef OPT_AVOID_STATE_BUF_RESCALE + cldfbSynthesis_ivas_fx( RealBuffer_fx, ImagBuffer_fx, output_f_fx[ch], i_mult( hSpatParamRendCom->num_freq_bands, hSpatParamRendCom->subframe_nbslots[subframe_idx] ), 0, 0, st_ivas->cldfbSynDec[ch] ); +#else /* OPT_AVOID_STATE_BUF_RESCALE */ + cldfbSynthesis_ivas_fx( RealBuffer_fx, ImagBuffer_fx, output_f_fx[ch], i_mult( hSpatParamRendCom->num_freq_bands, hSpatParamRendCom->subframe_nbslots[subframe_idx] ), 0, st_ivas->cldfbSynDec[ch] ); +#endif /* OPT_AVOID_STATE_BUF_RESCALE */ Scale_sig32( st_ivas->cldfbSynDec[ch]->cldfb_state_fx, st_ivas->cldfbSynDec[ch]->p_filter_length, sub( Q11, sub( Q_real, 1 ) ) ); // Q11 st_ivas->cldfbSynDec[ch]->Q_cldfb_state = Q11; move16(); diff --git a/lib_dec/ivas_ism_renderer.c b/lib_dec/ivas_ism_renderer_fx.c similarity index 76% rename from lib_dec/ivas_ism_renderer.c rename to lib_dec/ivas_ism_renderer_fx.c index 738e5a598f06c3c7b6c66aa3d26ae32d33ee45b1..7f4f32731abc0f08e8e17b5882e507c7cf88da65 100644 --- a/lib_dec/ivas_ism_renderer.c +++ b/lib_dec/ivas_ism_renderer_fx.c @@ -33,11 +33,9 @@ #include #include "options.h" #include "ivas_cnst.h" -#include "prot.h" #include "prot_fx.h" -#include "ivas_prot.h" #include "ivas_prot_fx.h" -#include "ivas_prot_rend.h" +#include "ivas_prot_rend_fx.h" #include "ivas_stat_com.h" #include "ivas_rom_com.h" #include "rom_com.h" @@ -151,6 +149,7 @@ void ivas_ism_renderer_close( return; } + /*-------------------------------------------------------------------------* * ivas_ism_render_sf() * @@ -172,6 +171,25 @@ void ivas_ism_render_sf_fx( Word32 gain_fx, prev_gain_fx; Word32 tc_local_fx[MAX_NUM_OBJECTS][L_FRAME48k]; Word32 *p_tc_fx[MAX_NUM_OBJECTS]; +#ifdef NONBE_FIX_968_ISM_BRIR_WITH_HEADROTATION_5MS_FIX + Word16 ism_md_subframe_update_jbm, slots_to_render, first_sf, last_sf, subframe_idx; + Word16 n_samples_rendered_loop; + + /* loop for synthesis, assume we always have to render in multiples of 5ms subframes with spills */ + slots_to_render = s_min( sub( st_ivas->hTcBuffer->num_slots, st_ivas->hTcBuffer->slots_rendered ), n_samples_to_render / st_ivas->hTcBuffer->n_samples_granularity ); + first_sf = st_ivas->hTcBuffer->subframes_rendered; + move16(); + last_sf = first_sf; + move16(); + n_samples_rendered_loop = 0; + move16(); + + WHILE( slots_to_render > 0 ) + { + slots_to_render = sub( slots_to_render, st_ivas->hTcBuffer->subframe_nbslots[last_sf] ); + last_sf = add( last_sf, 1 ); + } +#endif num_objects = st_ivas->nchan_transport; move16(); @@ -189,6 +207,18 @@ void ivas_ism_render_sf_fx( interp_offset = st_ivas->hTcBuffer->n_samples_rendered; move16(); +#ifdef NONBE_FIX_968_ISM_BRIR_WITH_HEADROTATION_5MS_FIX + /* Number of subframes to delay metadata to sync with audio */ + IF( st_ivas->hDecoderConfig->Opt_delay_comp ) + { + ism_md_subframe_update_jbm = s_max( 0, sub( st_ivas->hTcBuffer->nb_subframes, 3 ) ); + } + ELSE + { + ism_md_subframe_update_jbm = sub( st_ivas->hTcBuffer->nb_subframes, 2 ); + } +#endif + IF( st_ivas->hDecoderConfig->Opt_tsm ) { FOR( i = 0; i < num_objects; i++ ) @@ -210,76 +240,126 @@ void ivas_ism_render_sf_fx( set32_fx( output_fx[i], 0, n_samples_to_render ); } - test(); - IF( st_ivas->hCombinedOrientationData && EQ_16( st_ivas->hCombinedOrientationData->enableCombinedOrientation[st_ivas->hCombinedOrientationData->subframe_idx], 1 ) ) - { - ivas_jbm_dec_get_adapted_linear_interpolator_fx( n_samples_to_render, n_samples_to_render, st_ivas->hIsmRendererData->interpolator_fx ); - interp_offset = 0; - move16(); - } - FOR( i = 0; i < num_objects; i++ ) +#ifdef NONBE_FIX_968_ISM_BRIR_WITH_HEADROTATION_5MS_FIX + FOR( subframe_idx = first_sf; subframe_idx < last_sf; subframe_idx++ ) { - /* Combined rotation: rotate the object positions depending the head and external orientations */ + int16_t n_samples_in_subframe; + + n_samples_in_subframe = st_ivas->hTcBuffer->n_samples_granularity * st_ivas->hTcBuffer->subframe_nbslots[subframe_idx]; +#endif test(); - IF( st_ivas->hCombinedOrientationData != NULL && EQ_16( st_ivas->hCombinedOrientationData->enableCombinedOrientation[st_ivas->hCombinedOrientationData->subframe_idx], 1 ) ) + IF( st_ivas->hCombinedOrientationData && EQ_16( st_ivas->hCombinedOrientationData->enableCombinedOrientation[st_ivas->hCombinedOrientationData->subframe_idx], 1 ) ) { - rotateAziEle_fx( extract_l( L_shr( st_ivas->hIsmMetaData[i]->azimuth_fx, 22 ) ), extract_l( L_shr( st_ivas->hIsmMetaData[i]->elevation_fx, 22 ) ), &azimuth, &elevation, st_ivas->hCombinedOrientationData->Rmat_fx[0], st_ivas->hIntSetup.is_planar_setup ); - - IF( st_ivas->hEFAPdata != NULL ) - { - efap_determine_gains_fx( st_ivas->hEFAPdata, st_ivas->hIsmRendererData->gains_fx[i], L_shl( azimuth, 22 ), L_shl( elevation, 22 ), EFAP_MODE_EFAP ); - } +#ifdef NONBE_FIX_968_ISM_BRIR_WITH_HEADROTATION_5MS_FIX + ivas_jbm_dec_get_adapted_linear_interpolator_fx( n_samples_in_subframe, n_samples_in_subframe, st_ivas->hIsmRendererData->interpolator_fx ); +#else + ivas_jbm_dec_get_adapted_linear_interpolator_fx( n_samples_to_render, n_samples_to_render, st_ivas->hIsmRendererData->interpolator_fx ); +#endif + interp_offset = 0; + move16(); } - lfe_index = 0; - move16(); - FOR( ( j = 0, j2 = 0 ); j < nchan_out_woLFE; ( j++, j2++ ) ) + FOR( i = 0; i < num_objects; i++ ) { + /* Combined rotation: rotate the object positions depending the head and external orientations */ test(); - IF( ( st_ivas->hIntSetup.num_lfe > 0 ) && EQ_16( st_ivas->hIntSetup.index_lfe[lfe_index], j ) ) + IF( st_ivas->hCombinedOrientationData != NULL && EQ_16( st_ivas->hCombinedOrientationData->enableCombinedOrientation[st_ivas->hCombinedOrientationData->subframe_idx], 1 ) ) { - IF( LT_16( lfe_index, sub( st_ivas->hIntSetup.num_lfe, 1 ) ) ) +#ifdef NONBE_FIX_968_ISM_BRIR_WITH_HEADROTATION_5MS_FIX + if ( GE_16( subframe_idx, ism_md_subframe_update_jbm ) ) { - lfe_index = add( lfe_index, 1 ); - j2 = add( j2, 1 ); + rotateAziEle_fx( extract_l( L_shr( st_ivas->hIsmMetaData[i]->azimuth_fx, 22 ) ), extract_l( L_shr( st_ivas->hIsmMetaData[i]->elevation_fx, 22 ) ), &azimuth, &elevation, st_ivas->hCombinedOrientationData->Rmat_fx[st_ivas->hCombinedOrientationData->subframe_idx], st_ivas->hIntSetup.is_planar_setup ); } - ELSE + else { - j2 = add( j2, 1 ); + rotateAziEle_fx( extract_l( L_shr( st_ivas->hIsmMetaData[i]->last_azimuth_fx, 22 ) ), extract_l( L_shr( st_ivas->hIsmMetaData[i]->last_elevation_fx, 22 ) ), &azimuth, &elevation, st_ivas->hCombinedOrientationData->Rmat_fx[st_ivas->hCombinedOrientationData->subframe_idx], st_ivas->hIntSetup.is_planar_setup ); } - } - - gain_fx = st_ivas->hIsmRendererData->gains_fx[i][j]; - move32(); - prev_gain_fx = st_ivas->hIsmRendererData->prev_gains_fx[i][j]; - move32(); +#else + rotateAziEle_fx( extract_l( L_shr( st_ivas->hIsmMetaData[i]->azimuth_fx, 22 ) ), extract_l( L_shr( st_ivas->hIsmMetaData[i]->elevation_fx, 22 ) ), &azimuth, &elevation, st_ivas->hCombinedOrientationData->Rmat_fx[0], st_ivas->hIntSetup.is_planar_setup ); +#endif - test(); - IF( ( L_abs( gain_fx ) > 0 ) || ( L_abs( prev_gain_fx ) > 0 ) ) - { - g1_fx = &st_ivas->hIsmRendererData->interpolator_fx[interp_offset]; - tc_fx = p_tc_fx[i]; - FOR( k = 0; k < n_samples_to_render; k++ ) + IF( st_ivas->hEFAPdata != NULL ) { - g2_fx = sub( 32767, *g1_fx ); // 32767 = (1.0f in Q15) - 1 - output_fx[j2][k] = L_add( output_fx[j2][k], L_shl( Mpy_32_32( L_add( Mpy_32_16_1( gain_fx, *( g1_fx++ ) ), Mpy_32_16_1( prev_gain_fx, g2_fx ) ), *( tc_fx++ ) ), 1 ) ); // Q11( (30+15+1-16) + 11 -31 +1) - move16(); + efap_determine_gains_fx( st_ivas->hEFAPdata, st_ivas->hIsmRendererData->gains_fx[i], L_shl( azimuth, 22 ), L_shl( elevation, 22 ), EFAP_MODE_EFAP ); } } - /* update here only in case of head rotation */ - test(); - IF( st_ivas->hCombinedOrientationData != NULL && st_ivas->hCombinedOrientationData->enableCombinedOrientation[st_ivas->hCombinedOrientationData->subframe_idx] == 1 ) + lfe_index = 0; + move16(); + FOR( ( j = 0, j2 = 0 ); j < nchan_out_woLFE; ( j++, j2++ ) ) { - st_ivas->hIsmRendererData->prev_gains_fx[i][j] = gain_fx; // Q30 + test(); + IF( ( st_ivas->hIntSetup.num_lfe > 0 ) && EQ_16( st_ivas->hIntSetup.index_lfe[lfe_index], j ) ) + { + IF( LT_16( lfe_index, sub( st_ivas->hIntSetup.num_lfe, 1 ) ) ) + { + lfe_index = add( lfe_index, 1 ); + j2 = add( j2, 1 ); + } + ELSE + { + j2 = add( j2, 1 ); + } + } + + gain_fx = st_ivas->hIsmRendererData->gains_fx[i][j]; move32(); + prev_gain_fx = st_ivas->hIsmRendererData->prev_gains_fx[i][j]; + move32(); + + test(); + IF( ( L_abs( gain_fx ) > 0 ) || ( L_abs( prev_gain_fx ) > 0 ) ) + { + g1_fx = &st_ivas->hIsmRendererData->interpolator_fx[interp_offset]; + tc_fx = p_tc_fx[i]; +#ifdef NONBE_FIX_968_ISM_BRIR_WITH_HEADROTATION_5MS_FIX + FOR( k = 0; k < n_samples_in_subframe; k++ ) +#else + FOR( k = 0; k < n_samples_to_render; k++ ) +#endif + { + g2_fx = sub( 32767, *g1_fx ); // 32767 = (1.0f in Q15) - 1 +#ifdef NONBE_FIX_968_ISM_BRIR_WITH_HEADROTATION_5MS_FIX + output_fx[j2][k + n_samples_rendered_loop] = L_add( output_fx[j2][k + n_samples_rendered_loop], L_shl( Mpy_32_32( L_add( Mpy_32_16_1( gain_fx, *( g1_fx++ ) ), Mpy_32_16_1( prev_gain_fx, g2_fx ) ), *( tc_fx++ ) ), 1 ) ); // Q11( (30+15+1-16) + 11 -31 +1) +#else + output_fx[j2][k] = L_add( output_fx[j2][k], L_shl( Mpy_32_32( L_add( Mpy_32_16_1( gain_fx, *( g1_fx++ ) ), Mpy_32_16_1( prev_gain_fx, g2_fx ) ), *( tc_fx++ ) ), 1 ) ); // Q11( (30+15+1-16) + 11 -31 +1) +#endif + move16(); + } + } + + /* update here only in case of head rotation */ + test(); + IF( st_ivas->hCombinedOrientationData != NULL && st_ivas->hCombinedOrientationData->enableCombinedOrientation[st_ivas->hCombinedOrientationData->subframe_idx] == 1 ) + { + st_ivas->hIsmRendererData->prev_gains_fx[i][j] = gain_fx; // Q30 + move32(); + } } +#ifdef NONBE_FIX_968_ISM_BRIR_WITH_HEADROTATION_5MS_FIX + p_tc_fx[i] += n_samples_in_subframe; +#endif } - } - /* update combined orientation access index */ + /* update combined orientation access index */ +#ifdef NONBE_FIX_968_ISM_BRIR_WITH_HEADROTATION_5MS_FIX + ivas_combined_orientation_update_index( st_ivas->hCombinedOrientationData, n_samples_in_subframe ); +#else ivas_combined_orientation_update_index( st_ivas->hCombinedOrientationData, n_samples_to_render ); +#endif + +#ifdef NONBE_FIX_968_ISM_BRIR_WITH_HEADROTATION_5MS_FIX + n_samples_rendered_loop = add( n_samples_rendered_loop, n_samples_in_subframe ); + IF( EQ_16( st_ivas->renderer_type, RENDERER_TD_PANNING ) ) + { + st_ivas->hTcBuffer->subframes_rendered = add( st_ivas->hTcBuffer->subframes_rendered, 1 ); + st_ivas->hTcBuffer->slots_rendered = add( st_ivas->hTcBuffer->slots_rendered, st_ivas->hTcBuffer->subframe_nbslots[subframe_idx] ); + } + tc_offset = add( tc_offset, n_samples_in_subframe ); + interp_offset = add( interp_offset, n_samples_in_subframe ); + } +#endif return; } @@ -566,7 +646,7 @@ void ivas_omasa_separate_object_render_jbm_fx( Word16 tcBufferSize; tcBufferSize = i_mult( hSpatParamRendCom->num_slots, hSpatParamRendCom->slot_size ); - delay_signal_fx( input_fx[obj], tcBufferSize, st_ivas->hMasaIsmData->delayBuffer_fx[obj], st_ivas->hMasaIsmData->delayBuffer_size ); + delay_signal32_fx( input_fx[obj], tcBufferSize, st_ivas->hMasaIsmData->delayBuffer_fx[obj], st_ivas->hMasaIsmData->delayBuffer_size ); } offsetSamples = 0; move16(); diff --git a/lib_dec/ivas_jbm_dec.c b/lib_dec/ivas_jbm_dec_fx.c similarity index 94% rename from lib_dec/ivas_jbm_dec.c rename to lib_dec/ivas_jbm_dec_fx.c index 64f8a80b4cff9429c4bfae078770f3f90d50aa0c..246befb84fe64fdf9305a9df0bdfbaf99efdc401 100644 --- a/lib_dec/ivas_jbm_dec.c +++ b/lib_dec/ivas_jbm_dec_fx.c @@ -35,10 +35,9 @@ #include "cnst.h" #include "ivas_cnst.h" #include "rom_com.h" -#include "prot.h" -#include "ivas_prot.h" +#include "prot_fx.h" #include "ivas_prot_fx.h" -#include "ivas_prot_rend.h" +#include "ivas_prot_rend_fx.h" #include "ivas_rom_com.h" #include #include "wmc_auto.h" @@ -46,7 +45,6 @@ #ifdef DEBUGGING #include "debug.h" #endif -#include "prot_fx.h" /*-----------------------------------------------------------------------* @@ -84,7 +82,7 @@ ivas_error ivas_jbm_dec_tc_fx( Word32 *data_fx /*Q11*/ ) { - Word16 n, output_frame, nchan_out, i; + Word16 n, output_frame, nchan_out, i, ii; Decoder_State *st; /* used for bitstream handling */ Word32 *p_output_fx[MAX_TRANSPORT_CHANNELS]; /* buffer for output synthesis */ Word16 nchan_remapped; @@ -131,10 +129,8 @@ ivas_error ivas_jbm_dec_tc_fx( set_zero_fx( st_ivas->p_output_fx[n], L_FRAME48k ); st_ivas->hTcBuffer->tc_fx[n] = st_ivas->p_output_fx[n]; } -#ifdef MSAN_FIX st_ivas->hTcBuffer->no_channels = ivas_get_nchan_buffers_dec( st_ivas, st_ivas->sba_analysis_order, st_ivas->hDecoderConfig->ivas_total_brate ); move16(); -#endif } Word16 ch; @@ -269,7 +265,11 @@ ivas_error ivas_jbm_dec_tc_fx( test(); IF( EQ_32( st_ivas->renderer_type, RENDERER_MONO_DOWNMIX ) ) { +#ifdef NONBE_FIX_967_ISM_MONO_DMX + ivas_ism_mono_dmx_fx( st_ivas, p_output_fx, output_frame ); +#else ivas_mono_downmix_render_passive_fx( st_ivas, p_output_fx, output_frame ); +#endif Scale_sig32( p_output_fx[0], L_FRAME48k, 3 ); } @@ -411,7 +411,7 @@ ivas_error ivas_jbm_dec_tc_fx( move16(); FOR( i = 0; i < 2; i++ ) { - s = s_min( s, L_norm_arr( p_output_fx[i], L_FRAME48k ) - 11 ) /* Guard bits */; + s = s_min( s, L_norm_arr( p_output_fx[i], L_FRAME48k ) - 11 ) /* Guard bits */; // L_frame should be used instead of L_FRAME48k */ } FOR( i = 0; i < 2; i++ ) { @@ -431,24 +431,18 @@ ivas_error ivas_jbm_dec_tc_fx( scale_sig32( hCPE->input_mem_BPF_fx[0], STEREO_DFT32MS_OVL_16k, sub( hCPE->hStereoDft->q_dft, Q11 ) ); // q_dft FOR( i = 0; i < CPE_CHANNELS; ++i ) { - scale_sig32( hCPE->input_mem_LB_fx[i], STEREO_DFT32MS_OVL_16k, sub( hCPE->hStereoDft->q_dft, Q11 ) ); // q_dft - scale_sig32( hCPE->input_mem_fx[i], NS2SA( hCPE->hCoreCoder[0]->output_Fs, STEREO_DFT32MS_OVL_NS ), sub( hCPE->hStereoDft->q_dft, Q11 ) ); // q_dft + scale_sig32( hCPE->input_mem_LB_fx[i], STEREO_DFT32MS_OVL_16k, sub( hCPE->hStereoDft->q_dft, Q11 ) ); // q_dft + scale_sig32( hCPE->input_mem_fx[i], NS2SA_FX2( hCPE->hCoreCoder[0]->output_Fs, STEREO_DFT32MS_OVL_NS ), sub( hCPE->hStereoDft->q_dft, Q11 ) ); // q_dft } IF( hCPE->hCoreCoder[0] != NULL ) { -#ifdef FIX_ISSUE_1237 - Copy_Scale_sig_16_32_no_sat( hCPE->hCoreCoder[0]->hHQ_core->old_out_LB_fx, hCPE->hCoreCoder[0]->hHQ_core->old_outLB_fx, L_FRAME32k, q - hCPE->hCoreCoder[0]->hHQ_core->Q_old_wtda_LB ); // q - Copy_Scale_sig_16_32_no_sat( hCPE->hCoreCoder[0]->hHQ_core->old_out_fx, hCPE->hCoreCoder[0]->hHQ_core->oldOut_fx, L_FRAME48k, q - hCPE->hCoreCoder[0]->hHQ_core->Q_old_wtda ); // q -#else - Copy_Scale_sig_16_32_DEPREC( hCPE->hCoreCoder[0]->hHQ_core->old_out_LB_fx, hCPE->hCoreCoder[0]->hHQ_core->old_outLB_fx, L_FRAME32k, q - hCPE->hCoreCoder[0]->hHQ_core->Q_old_wtda_LB ); // q - Copy_Scale_sig_16_32_DEPREC( hCPE->hCoreCoder[0]->hHQ_core->old_out_fx, hCPE->hCoreCoder[0]->hHQ_core->oldOut_fx, L_FRAME48k, q - hCPE->hCoreCoder[0]->hHQ_core->Q_old_wtda ); // q -#endif + Copy_Scale_sig_16_32_no_sat( hCPE->hCoreCoder[0]->hHQ_core->old_out_LB_fx, hCPE->hCoreCoder[0]->hHQ_core->old_out_LB_fx32, L_FRAME32k, q - hCPE->hCoreCoder[0]->hHQ_core->Q_old_wtda_LB ); // q + Copy_Scale_sig_16_32_no_sat( hCPE->hCoreCoder[0]->hHQ_core->old_out_fx, hCPE->hCoreCoder[0]->hHQ_core->old_out_fx32, L_FRAME48k, q - hCPE->hCoreCoder[0]->hHQ_core->Q_old_wtda ); // q hCPE->hCoreCoder[0]->hHQ_core->q_old_outLB_fx = q; move16(); } IF( hCPE->hStereoDft != NULL ) { -#ifdef MSAN_FIX IF( LE_16( st_ivas->nchan_transport, 1 ) ) { st = hCPE->hCoreCoder[0]; @@ -496,9 +490,6 @@ ivas_error ivas_jbm_dec_tc_fx( } } } -#else - scale_sig32( hCPE->hStereoDft->buff_LBTCX_mem_fx, NS2SA( 16000, STEREO_DFT32MS_OVL_NS ), sub( hCPE->hStereoDft->q_dft, Q11 ) ); -#endif scale_sig32( hCPE->hStereoDft->ap_delay_mem_fx, NS2SA_FX2( 16000, DELAY_BWE_TOTAL_NS ), sub( hCPE->hStereoDft->q_dft, hCPE->hStereoDft->q_ap_fade_mem_fx ) ); // q_dft hCPE->hStereoDft->q_ap_fade_mem_fx = hCPE->hStereoDft->q_dft; move16(); @@ -513,20 +504,16 @@ ivas_error ivas_jbm_dec_tc_fx( hSCE->q_save_synth_fx = hCPE->hStereoDft->q_dft; move16(); } - FOR( Word16 ii = 0; ii < CPE_CHANNELS; ii++ ) + FOR( ii = 0; ii < CPE_CHANNELS; ii++ ) { scale_sig32( hCPE->output_mem_fx[ii], NS2SA_FX2( st_ivas->hDecoderConfig->output_Fs, STEREO_DFT32MS_OVL_NS ), sub( hCPE->hStereoDft->q_dft, Q11 ) ); // q_dft hCPE->q_output_mem_fx[ii] = hCPE->hStereoDft->q_dft; move16(); } -#ifdef MSAN_FIX - FOR( Word16 ii = 0; ii < CPE_CHANNELS; ii++ ) + FOR( ii = 0; ii < CPE_CHANNELS; ii++ ) { - Scale_sig32( &hCPE->prev_synth_fx[ii][0], NS2SA_FX2( st_ivas->hDecoderConfig->output_Fs, IVAS_DEC_DELAY_NS - STEREO_DFT32MS_OVL_NS ), hCPE->q_prev_synth_fx - 11 ); // q_prev_synth_fx + Scale_sig32( &hCPE->prev_synth_fx[ii][0], NS2SA_FX2( st_ivas->hDecoderConfig->output_Fs, IVAS_DEC_DELAY_NS - STEREO_DFT32MS_OVL_NS ), sub( hCPE->q_prev_synth_fx, Q11 ) ); // q_prev_synth_fx } -#else - Scale_sig32( &hCPE->prev_synth_fx[0][0], sizeof( hCPE->prev_synth_fx ) / sizeof( hCPE->prev_synth_fx[0][0] ), hCPE->q_prev_synth_fx - 11 ); -#endif ivas_sba_dirac_stereo_dec_fx( st_ivas, p_output_fx, output_frame, st_ivas->ivas_format == MC_FORMAT ); @@ -534,14 +521,10 @@ ivas_error ivas_jbm_dec_tc_fx( { Scale_sig32( p_output_fx[i], L_FRAME48k, negate( s ) ); } -#ifdef MSAN_FIX - FOR( int ii = 0; ii < CPE_CHANNELS; ii++ ) + FOR( ii = 0; ii < CPE_CHANNELS; ii++ ) { - Scale_sig32( &hCPE->prev_synth_fx[ii][0], NS2SA_FX2( st_ivas->hDecoderConfig->output_Fs, IVAS_DEC_DELAY_NS - STEREO_DFT32MS_OVL_NS ), sub( 11, hCPE->q_prev_synth_fx ) ); // Q11 + Scale_sig32( &hCPE->prev_synth_fx[ii][0], NS2SA_FX2( st_ivas->hDecoderConfig->output_Fs, IVAS_DEC_DELAY_NS - STEREO_DFT32MS_OVL_NS ), sub( Q11, hCPE->q_prev_synth_fx ) ); // Q11 } -#else - Scale_sig32( &hCPE->prev_synth_fx[0][0], sizeof( hCPE->prev_synth_fx ) / sizeof( hCPE->prev_synth_fx[0][0] ), 11 - hCPE->q_prev_synth_fx ); -#endif scale_sig32( hCPE->input_mem_BPF_fx[0], STEREO_DFT32MS_OVL_16k, sub( Q11, hCPE->hStereoDft->q_dft ) ); FOR( i = 0; i < CPE_CHANNELS; ++i ) @@ -552,12 +535,11 @@ ivas_error ivas_jbm_dec_tc_fx( IF( hCPE->hCoreCoder[0] != NULL ) { - Copy_Scale_sig_32_16( hCPE->hCoreCoder[0]->hHQ_core->old_outLB_fx, hCPE->hCoreCoder[0]->hHQ_core->old_out_LB_fx, L_FRAME32k, hCPE->hCoreCoder[0]->hHQ_core->Q_old_wtda_LB - q ); // Q_old_wtda_LB - Copy_Scale_sig_32_16( hCPE->hCoreCoder[0]->hHQ_core->oldOut_fx, hCPE->hCoreCoder[0]->hHQ_core->old_out_fx, L_FRAME48k, hCPE->hCoreCoder[0]->hHQ_core->Q_old_wtda - q ); // Q_old_wtda_LB + Copy_Scale_sig_32_16( hCPE->hCoreCoder[0]->hHQ_core->old_out_LB_fx32, hCPE->hCoreCoder[0]->hHQ_core->old_out_LB_fx, L_FRAME32k, hCPE->hCoreCoder[0]->hHQ_core->Q_old_wtda_LB - q ); // Q_old_wtda_LB + Copy_Scale_sig_32_16( hCPE->hCoreCoder[0]->hHQ_core->old_out_fx32, hCPE->hCoreCoder[0]->hHQ_core->old_out_fx, L_FRAME48k, hCPE->hCoreCoder[0]->hHQ_core->Q_old_wtda - q ); // Q_old_wtda_LB } IF( hCPE->hStereoDft != NULL ) { -#ifdef MSAN_FIX IF( LE_16( st_ivas->nchan_transport, 1 ) ) { st = hCPE->hCoreCoder[0]; @@ -605,9 +587,6 @@ ivas_error ivas_jbm_dec_tc_fx( } } } -#else - scale_sig32( hCPE->hStereoDft->buff_LBTCX_mem_fx, NS2SA( 16000, STEREO_DFT32MS_OVL_NS ), sub( Q11, hCPE->hStereoDft->q_dft ) ); // Q11 -#endif scale_sig32( hCPE->hStereoDft->ap_delay_mem_fx, NS2SA_FX2( 16000, DELAY_BWE_TOTAL_NS ), sub( Q11, hCPE->hStereoDft->q_ap_fade_mem_fx ) ); // Q11 hCPE->hStereoDft->q_ap_fade_mem_fx = Q11; test(); @@ -615,7 +594,7 @@ ivas_error ivas_jbm_dec_tc_fx( st_ivas->hSpar->hMdDec->Q_mixer_mat = 30; move16(); - FOR( Word16 ii = 0; ii < CPE_CHANNELS; ii++ ) + FOR( ii = 0; ii < CPE_CHANNELS; ii++ ) { scale_sig32( hCPE->output_mem_fx[ii], NS2SA_FX2( st_ivas->hDecoderConfig->output_Fs, STEREO_DFT32MS_OVL_NS ), sub( Q11, hCPE->hStereoDft->q_dft ) ); // Q11 hCPE->q_output_mem_fx[ii] = Q11; @@ -819,7 +798,11 @@ ivas_error ivas_jbm_dec_tc_fx( move16(); IF( EQ_32( st_ivas->renderer_type, RENDERER_MONO_DOWNMIX ) ) { +#ifdef NONBE_FIX_967_ISM_MONO_DMX + ivas_ism_mono_dmx_fx( st_ivas, p_output_fx, output_frame ); +#else ivas_mono_downmix_render_passive_fx( st_ivas, p_output_fx, output_frame ); +#endif output_q = 8; move16(); @@ -968,18 +951,13 @@ ivas_error ivas_jbm_dec_tc_fx( scale_sig32( hCPE->input_mem_BPF_fx[0], STEREO_DFT32MS_OVL_16k, sub( hCPE->hStereoDft->q_dft, Q11 ) ); FOR( i = 0; i < CPE_CHANNELS; ++i ) { - scale_sig32( hCPE->input_mem_LB_fx[i], STEREO_DFT32MS_OVL_16k, sub( hCPE->hStereoDft->q_dft, Q11 ) ); // q_dft - scale_sig32( hCPE->input_mem_fx[i], NS2SA( hCPE->hCoreCoder[0]->output_Fs, STEREO_DFT32MS_OVL_NS ), sub( hCPE->hStereoDft->q_dft, Q11 ) ); // q_dft + scale_sig32( hCPE->input_mem_LB_fx[i], STEREO_DFT32MS_OVL_16k, sub( hCPE->hStereoDft->q_dft, Q11 ) ); // q_dft + scale_sig32( hCPE->input_mem_fx[i], NS2SA_FX2( hCPE->hCoreCoder[0]->output_Fs, STEREO_DFT32MS_OVL_NS ), sub( hCPE->hStereoDft->q_dft, Q11 ) ); // q_dft } IF( hCPE->hCoreCoder[0] != NULL ) { -#ifdef FIX_ISSUE_1237 - Copy_Scale_sig_16_32_no_sat( hCPE->hCoreCoder[0]->hHQ_core->old_out_LB_fx, hCPE->hCoreCoder[0]->hHQ_core->old_outLB_fx, L_FRAME32k, sub( q, hCPE->hCoreCoder[0]->hHQ_core->Q_old_wtda_LB ) ); // q - Copy_Scale_sig_16_32_no_sat( hCPE->hCoreCoder[0]->hHQ_core->old_out_fx, hCPE->hCoreCoder[0]->hHQ_core->oldOut_fx, L_FRAME48k, sub( q, hCPE->hCoreCoder[0]->hHQ_core->Q_old_wtda ) ); // q -#else - Copy_Scale_sig_16_32_DEPREC( hCPE->hCoreCoder[0]->hHQ_core->old_out_LB_fx, hCPE->hCoreCoder[0]->hHQ_core->old_outLB_fx, L_FRAME32k, sub( q, hCPE->hCoreCoder[0]->hHQ_core->Q_old_wtda_LB ) ); // q - Copy_Scale_sig_16_32_DEPREC( hCPE->hCoreCoder[0]->hHQ_core->old_out_fx, hCPE->hCoreCoder[0]->hHQ_core->oldOut_fx, L_FRAME48k, sub( q, hCPE->hCoreCoder[0]->hHQ_core->Q_old_wtda ) ); // q -#endif + Copy_Scale_sig_16_32_no_sat( hCPE->hCoreCoder[0]->hHQ_core->old_out_LB_fx, hCPE->hCoreCoder[0]->hHQ_core->old_out_LB_fx32, L_FRAME32k, sub( q, hCPE->hCoreCoder[0]->hHQ_core->Q_old_wtda_LB ) ); // q + Copy_Scale_sig_16_32_no_sat( hCPE->hCoreCoder[0]->hHQ_core->old_out_fx, hCPE->hCoreCoder[0]->hHQ_core->old_out_fx32, L_FRAME48k, sub( q, hCPE->hCoreCoder[0]->hHQ_core->Q_old_wtda ) ); // q hCPE->hCoreCoder[0]->hHQ_core->q_old_outLB_fx = q; move16(); } @@ -1000,43 +978,35 @@ ivas_error ivas_jbm_dec_tc_fx( hSCE->q_save_synth_fx = hCPE->hStereoDft->q_dft; move16(); } - FOR( Word16 ii = 0; ii < CPE_CHANNELS; ii++ ) + FOR( ii = 0; ii < CPE_CHANNELS; ii++ ) { scale_sig32( hCPE->output_mem_fx[ii], NS2SA_FX2( st_ivas->hDecoderConfig->output_Fs, STEREO_DFT32MS_OVL_NS ), sub( hCPE->hStereoDft->q_dft, Q11 ) ); // q_dft hCPE->q_output_mem_fx[ii] = hCPE->hStereoDft->q_dft; move16(); } -#ifdef MSAN_FIX FOR( i = 0; i < CPE_CHANNELS; i++ ) - Scale_sig32( hCPE->prev_synth_fx[i], NS2SA_FX2( output_Fs, IVAS_DEC_DELAY_NS - STEREO_DFT32MS_OVL_NS ), sub( hCPE->q_prev_synth_fx, 11 ) ); // q_prev_synth_fx -#else - Scale_sig32( &hCPE->prev_synth_fx[0][0], sizeof( hCPE->prev_synth_fx ) / sizeof( hCPE->prev_synth_fx[0][0] ), hCPE->q_prev_synth_fx - 11 ); -#endif + Scale_sig32( hCPE->prev_synth_fx[i], NS2SA_FX2( output_Fs, IVAS_DEC_DELAY_NS - STEREO_DFT32MS_OVL_NS ), sub( hCPE->q_prev_synth_fx, Q11 ) ); // q_prev_synth_fx ivas_sba_dirac_stereo_dec_fx( st_ivas, &p_output_fx[sba_ch_idx], output_frame, 0 ); FOR( i = 0; i < 2; i++ ) { Scale_sig32( p_output_fx[sba_ch_idx + i], L_FRAME48k, negate( s ) ); } -#ifdef MSAN_FIX FOR( i = 0; i < CPE_CHANNELS; i++ ) Scale_sig32( hCPE->prev_synth_fx[i], NS2SA_FX2( output_Fs, IVAS_DEC_DELAY_NS - STEREO_DFT32MS_OVL_NS ), sub( 11, hCPE->q_prev_synth_fx ) ); // Q11 -#else - Scale_sig32( &hCPE->prev_synth_fx[0][0], sizeof( hCPE->prev_synth_fx ) / sizeof( hCPE->prev_synth_fx[0][0] ), 11 - hCPE->q_prev_synth_fx ); -#endif scale_sig32( hCPE->input_mem_BPF_fx[0], STEREO_DFT32MS_OVL_16k, sub( Q11, hCPE->hStereoDft->q_dft ) ); // Q11 FOR( i = 0; i < CPE_CHANNELS; ++i ) { - scale_sig32( hCPE->input_mem_LB_fx[i], STEREO_DFT32MS_OVL_16k, sub( Q11, hCPE->hStereoDft->q_dft ) ); // Q11 - scale_sig32( hCPE->input_mem_fx[i], NS2SA( hCPE->hCoreCoder[0]->output_Fs, STEREO_DFT32MS_OVL_NS ), sub( Q11, hCPE->hStereoDft->q_dft ) ); // Q11 + scale_sig32( hCPE->input_mem_LB_fx[i], STEREO_DFT32MS_OVL_16k, sub( Q11, hCPE->hStereoDft->q_dft ) ); // Q11 + scale_sig32( hCPE->input_mem_fx[i], NS2SA_FX2( hCPE->hCoreCoder[0]->output_Fs, STEREO_DFT32MS_OVL_NS ), sub( Q11, hCPE->hStereoDft->q_dft ) ); // Q11 } IF( hCPE->hCoreCoder[0] != NULL ) { - Copy_Scale_sig_32_16( hCPE->hCoreCoder[0]->hHQ_core->old_outLB_fx, hCPE->hCoreCoder[0]->hHQ_core->old_out_LB_fx, L_FRAME32k, sub( hCPE->hCoreCoder[0]->hHQ_core->Q_old_wtda_LB, q ) ); // Q_old_wtda_LB - Copy_Scale_sig_32_16( hCPE->hCoreCoder[0]->hHQ_core->oldOut_fx, hCPE->hCoreCoder[0]->hHQ_core->old_out_fx, L_FRAME48k, sub( hCPE->hCoreCoder[0]->hHQ_core->Q_old_wtda, q ) ); // Q_old_wtda + Copy_Scale_sig_32_16( hCPE->hCoreCoder[0]->hHQ_core->old_out_LB_fx32, hCPE->hCoreCoder[0]->hHQ_core->old_out_LB_fx, L_FRAME32k, sub( hCPE->hCoreCoder[0]->hHQ_core->Q_old_wtda_LB, q ) ); // Q_old_wtda_LB + Copy_Scale_sig_32_16( hCPE->hCoreCoder[0]->hHQ_core->old_out_fx32, hCPE->hCoreCoder[0]->hHQ_core->old_out_fx, L_FRAME48k, sub( hCPE->hCoreCoder[0]->hHQ_core->Q_old_wtda, q ) ); // Q_old_wtda } IF( hCPE->hStereoDft != NULL ) { @@ -1046,7 +1016,7 @@ ivas_error ivas_jbm_dec_tc_fx( move16(); } - FOR( Word16 ii = 0; ii < CPE_CHANNELS; ii++ ) + FOR( ii = 0; ii < CPE_CHANNELS; ii++ ) { scale_sig32( hCPE->output_mem_fx[ii], NS2SA_FX2( st_ivas->hDecoderConfig->output_Fs, STEREO_DFT32MS_OVL_NS ), sub( Q11, hCPE->hStereoDft->q_dft ) ); // Q11 hCPE->q_output_mem_fx[ii] = Q11; @@ -1120,7 +1090,11 @@ ivas_error ivas_jbm_dec_tc_fx( } ELSE IF( EQ_32( st_ivas->renderer_type, RENDERER_MONO_DOWNMIX ) && EQ_32( st_ivas->ism_mode, ISM_SBA_MODE_DISC ) ) { +#ifdef NONBE_FIX_967_ISM_MONO_DMX + ivas_ism_mono_dmx_fx( st_ivas, p_output_fx, output_frame ); +#else ivas_mono_downmix_render_passive_fx( st_ivas, p_output_fx, output_frame ); +#endif Scale_sig32( p_output_fx[0], L_FRAME48k, Q11 - Q8 ); // Q11 @@ -1290,18 +1264,7 @@ ivas_error ivas_jbm_dec_tc_fx( test(); IF( EQ_32( output_config, IVAS_AUDIO_CONFIG_MONO ) || EQ_32( output_config, IVAS_AUDIO_CONFIG_STEREO ) ) { - s = Q16 - Q11; - move16(); - s = sub( s, find_guarded_bits_fx( st_ivas->nchan_transport ) ); - FOR( i = 0; i < s_max( st_ivas->hDecoderConfig->nchan_out, st_ivas->nchan_transport ); ++i ) - { - Scale_sig32( p_output_fx[i], output_frame, s ); - } ivas_ls_setup_conversion_fx( st_ivas, st_ivas->nchan_transport, output_frame, p_output_fx, p_output_fx ); - FOR( i = 0; i < s_max( st_ivas->hDecoderConfig->nchan_out, st_ivas->nchan_transport ); ++i ) - { - Scale_sig32( p_output_fx[i], output_frame, negate( s ) ); - } } } ELSE IF( EQ_32( st_ivas->mc_mode, MC_MODE_MCMASA ) ) @@ -1363,7 +1326,7 @@ ivas_error ivas_jbm_dec_tc_fx( ELSE IF( EQ_32( output_config, IVAS_AUDIO_CONFIG_LS_CUSTOM ) && st_ivas->hOutSetup.num_lfe == 0 ) { /* Delay the separated channel to sync with the DirAC rendering */ - delay_signal_fx( p_output_fx[n], output_frame, st_ivas->hMasa->hMasaLfeSynth->delayBuffer_syncDirAC_fx, st_ivas->hMasa->hMasaLfeSynth->delayBuffer_syncDirAC_size ); + delay_signal32_fx( p_output_fx[n], output_frame, st_ivas->hMasa->hMasaLfeSynth->delayBuffer_syncDirAC_fx, st_ivas->hMasa->hMasaLfeSynth->delayBuffer_syncDirAC_size ); } } ELSE @@ -1427,19 +1390,14 @@ ivas_error ivas_jbm_dec_tc_fx( scale_sig32( hCPE->input_mem_BPF_fx[0], STEREO_DFT32MS_OVL_16k, sub( hCPE->hStereoDft->q_dft, Q11 ) ); FOR( i = 0; i < CPE_CHANNELS; ++i ) { - scale_sig32( hCPE->input_mem_LB_fx[i], STEREO_DFT32MS_OVL_16k, sub( hCPE->hStereoDft->q_dft, Q11 ) ); // q_dft - scale_sig32( hCPE->input_mem_fx[i], NS2SA( hCPE->hCoreCoder[0]->output_Fs, STEREO_DFT32MS_OVL_NS ), sub( hCPE->hStereoDft->q_dft, Q11 ) ); // q_dft + scale_sig32( hCPE->input_mem_LB_fx[i], STEREO_DFT32MS_OVL_16k, sub( hCPE->hStereoDft->q_dft, Q11 ) ); // q_dft + scale_sig32( hCPE->input_mem_fx[i], NS2SA_FX2( hCPE->hCoreCoder[0]->output_Fs, STEREO_DFT32MS_OVL_NS ), sub( hCPE->hStereoDft->q_dft, Q11 ) ); // q_dft } IF( hCPE->hCoreCoder[0] != NULL ) { -#ifdef FIX_ISSUE_1237 - Copy_Scale_sig_16_32_no_sat( hCPE->hCoreCoder[0]->hHQ_core->old_out_LB_fx, hCPE->hCoreCoder[0]->hHQ_core->old_outLB_fx, L_FRAME32k, q - hCPE->hCoreCoder[0]->hHQ_core->Q_old_wtda_LB ); // q - Copy_Scale_sig_16_32_no_sat( hCPE->hCoreCoder[0]->hHQ_core->old_out_fx, hCPE->hCoreCoder[0]->hHQ_core->oldOut_fx, L_FRAME48k, q - hCPE->hCoreCoder[0]->hHQ_core->Q_old_wtda ); // q -#else - Copy_Scale_sig_16_32_DEPREC( hCPE->hCoreCoder[0]->hHQ_core->old_out_LB_fx, hCPE->hCoreCoder[0]->hHQ_core->old_outLB_fx, L_FRAME32k, q - hCPE->hCoreCoder[0]->hHQ_core->Q_old_wtda_LB ); // q - Copy_Scale_sig_16_32_DEPREC( hCPE->hCoreCoder[0]->hHQ_core->old_out_fx, hCPE->hCoreCoder[0]->hHQ_core->oldOut_fx, L_FRAME48k, q - hCPE->hCoreCoder[0]->hHQ_core->Q_old_wtda ); // q -#endif + Copy_Scale_sig_16_32_no_sat( hCPE->hCoreCoder[0]->hHQ_core->old_out_LB_fx, hCPE->hCoreCoder[0]->hHQ_core->old_out_LB_fx32, L_FRAME32k, q - hCPE->hCoreCoder[0]->hHQ_core->Q_old_wtda_LB ); // q + Copy_Scale_sig_16_32_no_sat( hCPE->hCoreCoder[0]->hHQ_core->old_out_fx, hCPE->hCoreCoder[0]->hHQ_core->old_out_fx32, L_FRAME48k, q - hCPE->hCoreCoder[0]->hHQ_core->Q_old_wtda ); // q hCPE->hCoreCoder[0]->hHQ_core->q_old_outLB_fx = q; move16(); } @@ -1465,29 +1423,21 @@ ivas_error ivas_jbm_dec_tc_fx( hSCE->q_save_synth_fx = hCPE->hStereoDft->q_dft; move16(); } - FOR( Word16 ii = 0; ii < CPE_CHANNELS; ii++ ) + FOR( ii = 0; ii < CPE_CHANNELS; ii++ ) { scale_sig32( hCPE->output_mem_fx[ii], NS2SA_FX2( st_ivas->hDecoderConfig->output_Fs, STEREO_DFT32MS_OVL_NS ), sub( hCPE->hStereoDft->q_dft, hCPE->q_output_mem_fx[ii] ) ); // q_dft hCPE->q_output_mem_fx[ii] = hCPE->hStereoDft->q_dft; move16(); } -#ifdef MSAN_FIX FOR( i = 0; i < CPE_CHANNELS; i++ ) - Scale_sig32( hCPE->prev_synth_fx[i], NS2SA_FX2( output_Fs, IVAS_DEC_DELAY_NS - STEREO_DFT32MS_OVL_NS ), sub( hCPE->q_prev_synth_fx, 11 ) ); // q_prev_synth_fx -#else - Scale_sig32( &hCPE->prev_synth_fx[0][0], sizeof( hCPE->prev_synth_fx ) / sizeof( hCPE->prev_synth_fx[0][0] ), hCPE->q_prev_synth_fx - 11 ); -#endif + Scale_sig32( hCPE->prev_synth_fx[i], NS2SA_FX2( output_Fs, IVAS_DEC_DELAY_NS - STEREO_DFT32MS_OVL_NS ), sub( hCPE->q_prev_synth_fx, Q11 ) ); // q_prev_synth_fx ivas_sba_dirac_stereo_dec_fx( st_ivas, p_output_fx, output_frame, 1 ); FOR( i = 0; i < 2; i++ ) { Scale_sig32( p_output_fx[i], L_FRAME48k, negate( s ) ); } -#ifdef MSAN_FIX FOR( i = 0; i < CPE_CHANNELS; i++ ) - Scale_sig32( hCPE->prev_synth_fx[i], NS2SA_FX2( output_Fs, IVAS_DEC_DELAY_NS - STEREO_DFT32MS_OVL_NS ), sub( 11, hCPE->q_prev_synth_fx ) ); // Q11 -#else - Scale_sig32( &hCPE->prev_synth_fx[0][0], sizeof( hCPE->prev_synth_fx ) / sizeof( hCPE->prev_synth_fx[0][0] ), 11 - hCPE->q_prev_synth_fx ); -#endif // MSAN_FIX + Scale_sig32( hCPE->prev_synth_fx[i], NS2SA_FX2( output_Fs, IVAS_DEC_DELAY_NS - STEREO_DFT32MS_OVL_NS ), sub( Q11, hCPE->q_prev_synth_fx ) ); // Q11 scale_sig32( hCPE->input_mem_BPF_fx[0], STEREO_DFT32MS_OVL_16k, sub( Q11, hCPE->hStereoDft->q_dft ) ); FOR( i = 0; i < CPE_CHANNELS; ++i ) @@ -1498,8 +1448,8 @@ ivas_error ivas_jbm_dec_tc_fx( IF( hCPE->hCoreCoder[0] != NULL ) { - Copy_Scale_sig_32_16( hCPE->hCoreCoder[0]->hHQ_core->old_outLB_fx, hCPE->hCoreCoder[0]->hHQ_core->old_out_LB_fx, L_FRAME32k, sub( hCPE->hCoreCoder[0]->hHQ_core->Q_old_wtda_LB, q ) ); // Q_old_wtda_LB - Copy_Scale_sig_32_16( hCPE->hCoreCoder[0]->hHQ_core->oldOut_fx, hCPE->hCoreCoder[0]->hHQ_core->old_out_fx, L_FRAME48k, sub( hCPE->hCoreCoder[0]->hHQ_core->Q_old_wtda, q ) ); // Q_old_wtda + Copy_Scale_sig_32_16( hCPE->hCoreCoder[0]->hHQ_core->old_out_LB_fx32, hCPE->hCoreCoder[0]->hHQ_core->old_out_LB_fx, L_FRAME32k, sub( hCPE->hCoreCoder[0]->hHQ_core->Q_old_wtda_LB, q ) ); // Q_old_wtda_LB + Copy_Scale_sig_32_16( hCPE->hCoreCoder[0]->hHQ_core->old_out_fx32, hCPE->hCoreCoder[0]->hHQ_core->old_out_fx, L_FRAME48k, sub( hCPE->hCoreCoder[0]->hHQ_core->Q_old_wtda, q ) ); // Q_old_wtda } IF( hCPE->hStereoDft != NULL ) { @@ -1510,7 +1460,7 @@ ivas_error ivas_jbm_dec_tc_fx( } IF( st_ivas->hSpar != NULL ) { - FOR( Word16 ii = 0; ii < CPE_CHANNELS; ii++ ) + FOR( ii = 0; ii < CPE_CHANNELS; ii++ ) { scale_sig32( hCPE->output_mem_fx[ii], NS2SA_FX2( st_ivas->hDecoderConfig->output_Fs, STEREO_DFT32MS_OVL_NS ), sub( Q11, hCPE->hStereoDft->q_dft ) ); // Q11 hCPE->q_output_mem_fx[ii] = Q11; @@ -1722,7 +1672,7 @@ void ivas_jbm_dec_feed_tc_to_renderer_fx( { FOR( n = 0; n < st_ivas->nchan_ism; n++ ) { - delay_signal_fx( st_ivas->hTcBuffer->tc_fx[n], st_ivas->hTcBuffer->n_samples_available, st_ivas->hSbaIsmData->delayBuffer_fx[n], st_ivas->hSbaIsmData->delayBuffer_size ); + delay_signal32_fx( st_ivas->hTcBuffer->tc_fx[n], st_ivas->hTcBuffer->n_samples_available, st_ivas->hSbaIsmData->delayBuffer_fx[n], st_ivas->hSbaIsmData->delayBuffer_size ); } } @@ -1799,7 +1749,7 @@ void ivas_jbm_dec_feed_tc_to_renderer_fx( } ELSE IF( EQ_16( st_ivas->mc_mode, MC_MODE_PARAMUPMIX ) ) { - ivas_mc_paramupmix_dec_digest_tc( st_ivas, (uint8_t) n_render_timeslots, st_ivas->hTcBuffer->n_samples_available ); + ivas_mc_paramupmix_dec_digest_tc( st_ivas, (UWord8) n_render_timeslots, st_ivas->hTcBuffer->n_samples_available ); } ELSE IF( EQ_16( st_ivas->mc_mode, MC_MODE_PARAMMC ) ) { @@ -1894,7 +1844,7 @@ ivas_error ivas_jbm_dec_render_fx( ivas_error error; Word32 *p_output_fx[MAX_OUTPUT_CHANNELS + MAX_NUM_OBJECTS]; Word32 *p_tc_fx[MAX_TRANSPORT_CHANNELS + MAX_NUM_OBJECTS]; - Word16 subframe_len, gd_bits, exp, nchan_in, i, j; + Word16 subframe_len, gd_bits, exp, nchan_in, i, j, ch; const Word16 output_q_factor = Q11; move16(); SPAT_PARAM_REND_COMMON_DATA_HANDLE hSpatParamRendCom; @@ -1943,10 +1893,8 @@ ivas_error ivas_jbm_dec_render_fx( } } -#ifdef MSAN_FIX st_ivas->hTcBuffer->no_channels = st_ivas->hTcBuffer->nchan_buffer_full; move16(); -#endif // MSAN_FIX /*----------------------------------------------------------------* * Update combined orientation access index *----------------------------------------------------------------*/ @@ -2004,12 +1952,6 @@ ivas_error ivas_jbm_dec_render_fx( { ivas_dirac_dec_binaural_render_fx( st_ivas, nSamplesAskedLocal, nSamplesRendered, nSamplesAvailableNext, st_ivas->nchan_transport, p_output_fx ); } - ELSE IF( EQ_32( st_ivas->renderer_type, RENDERER_NON_DIEGETIC_DOWNMIX ) ) - { - *nSamplesRendered = s_min( st_ivas->hTcBuffer->n_samples_available, nSamplesAskedLocal ); - move16(); - ivas_apply_non_diegetic_panning_fx( p_output_fx, st_ivas->hDecoderConfig->non_diegetic_pan_gain_fx, *nSamplesRendered ); - } ELSE IF( EQ_32( st_ivas->renderer_type, RENDERER_PARAM_ISM ) || EQ_32( st_ivas->renderer_type, RENDERER_SBA_LINEAR_ENC ) ) { ivas_param_ism_dec_render_fx( st_ivas, nSamplesAskedLocal, nSamplesRendered, nSamplesAvailableNext, p_output_fx ); @@ -2038,13 +1980,22 @@ ivas_error ivas_jbm_dec_render_fx( { ivas_apply_non_diegetic_panning_fx( p_output_fx, st_ivas->hDecoderConfig->non_diegetic_pan_gain_fx, *nSamplesRendered ); } +#ifdef FIX_955_FASTCONV_REND_IN_ISM +#ifdef DEBUGGING + ELSE IF( EQ_32( st_ivas->renderer_type, RENDERER_SBA_LINEAR_ENC ) || EQ_32( st_ivas->renderer_type, RENDERER_BINAURAL_FASTCONV ) ) +#else + ELSE IF( EQ_32( st_ivas->renderer_type, RENDERER_SBA_LINEAR_ENC ) ) +#endif + { + /* Convert to Ambisonics */ +#else ELSE IF( EQ_32( st_ivas->renderer_type, RENDERER_SBA_LINEAR_ENC ) || EQ_32( st_ivas->renderer_type, RENDERER_BINAURAL_FASTCONV ) ) { - /* Convert to Ambisonics; used also for ISM->HOA3->binaural rendering */ -#ifdef MSAN_FIX +/* Convert to Ambisonics; used also for ISM->HOA3->binaural rendering */ +#endif FOR( i = 0; i < st_ivas->nchan_transport; i++ ) { - FOR( j = 0; j < 16; j++ ) + FOR( j = 0; j < HOA3_CHANNELS; j++ ) { st_ivas->hIsmRendererData->gains_fx[i][j] = L_shr( st_ivas->hIsmRendererData->gains_fx[i][j], 1 ); // Q30 -> Q29 move32(); @@ -2052,25 +2003,15 @@ ivas_error ivas_jbm_dec_render_fx( move32(); } } -#else - FOR( i = 0; i < 15; i++ ) - { - FOR( j = 0; j < 16; j++ ) - { - st_ivas->hIsmRendererData->gains_fx[i][j] = L_shr( st_ivas->hIsmRendererData->gains_fx[i][j], 1 ); // Q30 -> Q29 - st_ivas->hIsmRendererData->prev_gains_fx[i][j] = L_shr( st_ivas->hIsmRendererData->prev_gains_fx[i][j], 1 ); // Q30 -> Q29 - } - } -#endif + ivas_ism2sba_sf_fx( st_ivas->hTcBuffer->tc_fx, p_output_fx, st_ivas->hIsmRendererData, st_ivas->nchan_transport, *nSamplesRendered, st_ivas->hTcBuffer->n_samples_rendered, st_ivas->hIntSetup.ambisonics_order ); + Word16 sba_num_chans = imult1616( add( st_ivas->hIntSetup.ambisonics_order, 1 ), add( st_ivas->hIntSetup.ambisonics_order, 1 ) ); FOR( j = 0; j < sba_num_chans; j++ ) { scale_sig32( p_output_fx[j], *nSamplesRendered, sub( Q11, sub( add( output_q_factor, 29 ), 31 ) ) ); // Q11 } - -#ifdef MSAN_FIX FOR( i = 0; i < st_ivas->nchan_transport; i++ ) { FOR( j = 0; j < 16; j++ ) @@ -2081,16 +2022,6 @@ ivas_error ivas_jbm_dec_render_fx( move32(); } } -#else - FOR( i = 0; i < 15; i++ ) - { - FOR( j = 0; j < 16; j++ ) - { - st_ivas->hIsmRendererData->gains_fx[i][j] = L_shl( st_ivas->hIsmRendererData->gains_fx[i][j], 1 ); // Q29 -> Q30 - st_ivas->hIsmRendererData->prev_gains_fx[i][j] = L_shl( st_ivas->hIsmRendererData->prev_gains_fx[i][j], 1 ); // Q29 -> Q30 - } - } -#endif } #ifdef SPLIT_REND_WITH_HEAD_ROT @@ -2197,7 +2128,7 @@ ivas_error ivas_jbm_dec_render_fx( } ELSE { - IF( NE_32( ( error = ivas_sba_dec_render_fx( st_ivas, nSamplesAskedLocal, nSamplesRendered, nSamplesAvailableNext, p_output_fx, 960 ) ), IVAS_ERR_OK ) ) + IF( NE_32( ( error = ivas_sba_dec_render_fx( st_ivas, nSamplesAskedLocal, nSamplesRendered, nSamplesAvailableNext, p_output_fx ) ), IVAS_ERR_OK ) ) { return error; } @@ -2245,7 +2176,7 @@ ivas_error ivas_jbm_dec_render_fx( hSpar->hMdDec->Q_mixer_mat = 30; move16(); - IF( NE_32( ( error = ivas_osba_dirac_td_binaural_jbm_fx( st_ivas, nSamplesAskedLocal, nSamplesRendered, nSamplesAvailableNext, p_output_fx, 960 ) ), IVAS_ERR_OK ) ) + IF( NE_32( ( error = ivas_osba_dirac_td_binaural_jbm_fx( st_ivas, nSamplesAskedLocal, nSamplesRendered, nSamplesAvailableNext, p_output_fx ) ), IVAS_ERR_OK ) ) { return error; } @@ -2283,7 +2214,7 @@ ivas_error ivas_jbm_dec_render_fx( } ELSE IF( EQ_32( st_ivas->hDecoderConfig->output_config, IVAS_AUDIO_CONFIG_EXTERNAL ) ) /*EXT output = individual objects + HOA3*/ { - IF( NE_32( ( error = ivas_sba_dec_render_fx( st_ivas, nSamplesAskedLocal, nSamplesRendered, nSamplesAvailableNext, &p_output_fx[st_ivas->nchan_ism], 960 ) ), IVAS_ERR_OK ) ) + IF( NE_32( ( error = ivas_sba_dec_render_fx( st_ivas, nSamplesAskedLocal, nSamplesRendered, nSamplesAvailableNext, &p_output_fx[st_ivas->nchan_ism] ) ), IVAS_ERR_OK ) ) { return error; } @@ -2295,7 +2226,7 @@ ivas_error ivas_jbm_dec_render_fx( } ELSE { - IF( NE_32( ( error = ivas_sba_dec_render_fx( st_ivas, nSamplesAskedLocal, nSamplesRendered, nSamplesAvailableNext, p_output_fx, 960 ) ), IVAS_ERR_OK ) ) + IF( NE_32( ( error = ivas_sba_dec_render_fx( st_ivas, nSamplesAskedLocal, nSamplesRendered, nSamplesAvailableNext, p_output_fx ) ), IVAS_ERR_OK ) ) { return error; } @@ -2307,7 +2238,7 @@ ivas_error ivas_jbm_dec_render_fx( } ELSE { - IF( NE_32( ( error = ivas_sba_dec_render_fx( st_ivas, nSamplesAskedLocal, nSamplesRendered, nSamplesAvailableNext, p_output_fx, 960 ) ), IVAS_ERR_OK ) ) + IF( NE_32( ( error = ivas_sba_dec_render_fx( st_ivas, nSamplesAskedLocal, nSamplesRendered, nSamplesAvailableNext, p_output_fx ) ), IVAS_ERR_OK ) ) { return error; } @@ -2327,6 +2258,12 @@ ivas_error ivas_jbm_dec_render_fx( } ELSE IF( EQ_32( st_ivas->ivas_format, MC_FORMAT ) ) { + + FOR( n = 0; n < st_ivas->hTcBuffer->nchan_buffer_full; n++ ) + { + p_tc_fx[n] = &st_ivas->hTcBuffer->tc_fx[n][st_ivas->hTcBuffer->n_samples_rendered]; + } + IF( EQ_32( st_ivas->mc_mode, MC_MODE_MCT ) ) { Word16 crendInPlaceRotation = FALSE; @@ -2481,15 +2418,6 @@ ivas_error ivas_jbm_dec_render_fx( { ivas_mc2sba_fx( st_ivas->hIntSetup, p_output_fx, p_output_fx, *nSamplesRendered, st_ivas->hOutSetup.ambisonics_order, 0 ); } - ELSE IF( EQ_32( st_ivas->renderer_type, RENDERER_BINAURAL_OBJECTS_TD ) ) - { - IF( NE_32( ( error = ivas_td_binaural_renderer_fx( st_ivas, p_output_fx, *nSamplesRendered ) ), IVAS_ERR_OK ) ) - { - return error; - } - - ivas_binaural_add_LFE_fx( st_ivas, *nSamplesRendered, p_output_fx, p_output_fx ); - } } ELSE IF( EQ_32( st_ivas->mc_mode, MC_MODE_PARAMMC ) ) { @@ -2543,7 +2471,7 @@ ivas_error ivas_jbm_dec_render_fx( move16(); } /* CLDFB synthesis */ - FOR( Word16 ch = 0; ch < nchan_out_cldfb; ch++ ) + FOR( ch = 0; ch < nchan_out_cldfb; ch++ ) { IF( st_ivas->cldfbSynDec[ch] ) { @@ -2571,7 +2499,7 @@ ivas_error ivas_jbm_dec_render_fx( ivas_param_mc_dec_render_fx( st_ivas, nSamplesAskedLocal, nSamplesRendered, nSamplesAvailableNext, p_output_fx, channel_active_fx ); - FOR( int ch = 0; ch < nchan_out_cldfb; ch++ ) + FOR( ch = 0; ch < nchan_out_cldfb; ch++ ) { IF( st_ivas->cldfbSynDec[ch] ) { @@ -2745,8 +2673,8 @@ ivas_error ivas_jbm_dec_flush_renderer_fx( Word16 n_slots_still_available; Word16 n_samples_to_render; DECODER_TC_BUFFER_HANDLE hTcBuffer; - Word32 output_fx[MAX_CICP_CHANNELS][L_FRAME48k / MAX_PARAM_SPATIAL_SUBFRAMES]; - Word32 *p_output_fx[MAX_CICP_CHANNELS]; + Word32 output_fx[MAX_OUTPUT_CHANNELS + MAX_NUM_OBJECTS][L_FRAME48k / MAX_PARAM_SPATIAL_SUBFRAMES]; + Word32 *p_output_fx[MAX_OUTPUT_CHANNELS + MAX_NUM_OBJECTS]; Word16 nchan_in, nchan_out; IF( !st_ivas->hDecoderConfig->Opt_tsm ) { @@ -2795,11 +2723,7 @@ ivas_error ivas_jbm_dec_flush_renderer_fx( hTcBuffer->n_samples_buffered = add( hTcBuffer->n_samples_granularity, n_samples_still_available ); hTcBuffer->n_samples_available = 0; hTcBuffer->n_samples_flushed = n_samples_to_render; -#ifdef CR_FIX_JBM_FLUSH_OFFSET hTcBuffer->n_samples_rendered = 0; -#else - hTcBuffer->n_samples_rendered = hTcBuffer->n_samples_granularity; -#endif move16(); move16(); move16(); @@ -2991,7 +2915,7 @@ ivas_error ivas_jbm_dec_flush_renderer_fx( set16_fx( st_ivas->hSpatParamRendCom->render_to_md_map, last_dirac_md_idx, n_slots_still_available ); /* render the last subframe */ - IF( NE_32( ( error = ivas_osba_dirac_td_binaural_jbm_fx( st_ivas, (UWord16) hTcBuffer->n_samples_granularity, nSamplesRendered, &nSamplesAvailableNext, p_output_fx, L_FRAME48k / MAX_PARAM_SPATIAL_SUBFRAMES ) ), IVAS_ERR_OK ) ) + IF( NE_32( ( error = ivas_osba_dirac_td_binaural_jbm_fx( st_ivas, (UWord16) hTcBuffer->n_samples_granularity, nSamplesRendered, &nSamplesAvailableNext, p_output_fx ) ), IVAS_ERR_OK ) ) { return error; } @@ -3000,9 +2924,7 @@ ivas_error ivas_jbm_dec_flush_renderer_fx( { return IVAS_ERROR( IVAS_ERR_WRONG_MODE, "Wrong IVAS format in VoIP renderer flushing!" ); } -#ifdef CR_FIX_JBM_FLUSH_OFFSET hTcBuffer->n_samples_rendered = hTcBuffer->n_samples_granularity; -#endif } /* update global combined orientation start index */ @@ -3129,7 +3051,7 @@ void ivas_jbm_dec_get_adapted_subframes( move16(); Word16 temp, temp_e; /* get last subframe size from previous frame, determine how many slots have to be processed - in the first subframe (i.e. potential leftover of a 5ms subframe) */ + in the first subframe (i.e. potential leftover of a 5ms subframe) */ nSlotsInFirstSubframe = ( sub( PARAM_MC_MAX_NSLOTS_IN_SUBFRAME, subframe_nbslots[*nb_subframes - 1] ) ); *nb_subframes = 0; move16(); @@ -3194,7 +3116,7 @@ void ivas_jbm_dec_get_md_map( } /* changed part (first segment), interpolate index to parameters - (we do not want to interpolate and smooth acutal direction/diffuseness values even more) */ + (we do not want to interpolate and smooth acutal direction/diffuseness values even more) */ IF( src_idx >= 0 ) { dec_fx = BASOP_Util_Divide3232_Scale( L_shl( add( src_idx, 1 ), 16 ), jbm_segment_len, &temp_e ); @@ -3405,9 +3327,7 @@ Word16 ivas_jbm_dec_get_num_tc_channels_fx( move16(); } - test(); - test(); - if ( ( st_ivas->sba_planar && GE_16( num_tc, 3 ) ) || EQ_16( num_tc, 3 ) ) + if ( EQ_16( num_tc, 3 ) ) { num_tc = add( num_tc, 1 ); } diff --git a/lib_dec/ivas_lfe_dec_fx.c b/lib_dec/ivas_lfe_dec_fx.c index 616b15c6ed0ac675c8b53208e30a0fc94db39fcd..d73030d56af4fa7ac8ba9213c879092c6bdc7ec4 100644 --- a/lib_dec/ivas_lfe_dec_fx.c +++ b/lib_dec/ivas_lfe_dec_fx.c @@ -32,9 +32,7 @@ #include #include "options.h" -#include "prot.h" #include "prot_fx.h" -#include "ivas_prot.h" #include "ivas_prot_fx.h" #include "ivas_rom_com.h" #include "rom_com.h" @@ -394,7 +392,7 @@ void ivas_lfe_dec_fx( /* add delay to make overall max(block_offset, 11.5) */ IF( hLFE->lfe_addl_delay > 0 ) { - delay_signal_fx( output_lfe_ch, output_frame, hLFE->lfe_delay_buf_fx, hLFE->lfe_addl_delay ); + delay_signal32_fx( output_lfe_ch, output_frame, hLFE->lfe_delay_buf_fx, hLFE->lfe_addl_delay ); } return; diff --git a/lib_dec/ivas_lfe_plc_fx.c b/lib_dec/ivas_lfe_plc_fx.c index f5e7816add00985fbb77806c8e5ebff3b0bdb45e..a480ce7bebdcb58eb606d72f4f76374b1747370a 100644 --- a/lib_dec/ivas_lfe_plc_fx.c +++ b/lib_dec/ivas_lfe_plc_fx.c @@ -32,9 +32,7 @@ #include #include "options.h" -#include "prot.h" #include "prot_fx.h" -#include "ivas_prot.h" #include "ivas_rom_com.h" #include #include "wmc_auto.h" @@ -227,7 +225,7 @@ static Word16 lfeplc_lev_dur_fx( a_out_q_fx[0] = 30; move16(); - rc_fx[0] = BASOP_Util_Divide3232_Scale_cadence( -r_fx[1], r_fx[0], &temp_q2 ); + rc_fx[0] = BASOP_Util_Divide3232_Scale_newton( -r_fx[1], r_fx[0], &temp_q2 ); move32(); rc_q_fx[0] = add( sub( r_q_fx[1], r_q_fx[0] ), sub( 31, temp_q2 ) ); move16(); @@ -389,7 +387,7 @@ static Word16 lfeplc_lev_dur_fx( s = W_extract_h( W_shl( s_fx, exp1 ) ); s_q_fx = sub( add( s_q_fx, exp1 ), 32 ); - rc_fx[i - 1] = L_shr( BASOP_Util_Divide3232_Scale_cadence( -s, err_fx, &temp_q2 ), 1 ); + rc_fx[i - 1] = L_shr( BASOP_Util_Divide3232_Scale_newton( L_negate( s ), err_fx, &temp_q2 ), 1 ); move32(); rc_q_fx[i - 1] = sub( add( sub( s_q_fx, err_q_fx ), sub( 31, temp_q2 ) ), 1 ); move16(); @@ -397,7 +395,7 @@ static Word16 lfeplc_lev_dur_fx( IF( LT_16( rc_q_fx[i - 1], 31 ) ) { - IF( GT_32( abs( rc_fx[i - 1] ), L_shr( 2146302532, sub( 31, rc_q_fx[i - 1] ) ) ) ) // 2146302532 = 0.99945f in Q31 + IF( GT_32( L_abs( rc_fx[i - 1] ), L_shr( 2146302532, sub( 31, rc_q_fx[i - 1] ) ) ) ) // 2146302532 = 0.99945f in Q31 { return 1; } @@ -414,7 +412,7 @@ static Word16 lfeplc_lev_dur_fx( } ELSE { - IF( GT_32( abs( L_shr( rc_fx[i - 1], sub( rc_q_fx[i - 1], 31 ) ) ), 2146302532 ) ) // 2146302532 = 0.00045f in Q31 + IF( GT_32( L_abs( L_shr( rc_fx[i - 1], sub( rc_q_fx[i - 1], 31 ) ) ), 2146302532 ) ) // 2146302532 = 0.00045f in Q31 { return 1; } @@ -466,7 +464,7 @@ static Word16 d_a2rc_fx( move32(); km_q_fx = ff_q_fx[m]; move16(); - IF( GE_64( W_shr( abs( km_fx ), sub( ff_q_fx[m], Q30 ) ), W_deposit32_l( ONE_IN_Q30 ) ) ) + IF( GE_64( W_shr( L_abs( km_fx ), sub( ff_q_fx[m], Q30 ) ), W_deposit32_l( ONE_IN_Q30 ) ) ) { FOR( j = 0; j < lpcorder; j++ ) { @@ -827,7 +825,7 @@ static Word32 find_max_delta_fx( IF( !stable ) { - temp = abs( eps_fx ); + temp = L_abs( eps_fx ); IF( GT_32( L_shr( temp, sub( eps_q_fx, 31 ) ), EPS_STOP_Q31 ) ) { exp1 = norm_l( -temp ); @@ -837,12 +835,12 @@ static Word32 find_max_delta_fx( } ELSE { - eps_fx = L_negate( abs( eps_fx ) ); + eps_fx = L_negate( L_abs( eps_fx ) ); } } ELSE { - temp = abs( eps_fx ); + temp = L_abs( eps_fx ); if ( LT_32( L_shr( temp, sub( eps_q_fx, 31 ) ), EPS_STOP_Q31 ) ) { BREAK; diff --git a/lib_dec/ivas_ls_custom_dec.c b/lib_dec/ivas_ls_custom_dec_fx.c similarity index 99% rename from lib_dec/ivas_ls_custom_dec.c rename to lib_dec/ivas_ls_custom_dec_fx.c index eabee357b27573fb6d2b978cb52b7449725415b0..5ad390f9a66786ed847e1f78cc278c1fa165826c 100644 --- a/lib_dec/ivas_ls_custom_dec.c +++ b/lib_dec/ivas_ls_custom_dec_fx.c @@ -31,11 +31,9 @@ *******************************************************************************************************/ #include #include "options.h" -#include "ivas_prot.h" -#include "prot.h" +#include "prot_fx.h" #include "wmc_auto.h" #include "ivas_prot_fx.h" -#include "prot_fx.h" /*-----------------------------------------------------------------------* diff --git a/lib_dec/ivas_masa_dec.c b/lib_dec/ivas_masa_dec_fx.c similarity index 99% rename from lib_dec/ivas_masa_dec.c rename to lib_dec/ivas_masa_dec_fx.c index 25053e3ab04752c487a9b99176eafee2639aabf2..23653c53b91395bc70c561e636fd1506971bb40a 100644 --- a/lib_dec/ivas_masa_dec.c +++ b/lib_dec/ivas_masa_dec_fx.c @@ -35,12 +35,10 @@ #include #include "options.h" #include "ivas_cnst.h" -#include "ivas_prot.h" -#include "ivas_prot_rend.h" +#include "ivas_prot_rend_fx.h" #include "rom_com.h" #include "ivas_rom_com.h" #include "ivas_stat_dec.h" -#include "prot.h" #include "prot_fx.h" #include "wmc_auto.h" #include "ivas_prot_fx.h" @@ -836,7 +834,7 @@ ivas_error ivas_masa_dec_open_fx( nchan_to_allocate = add( nchan_to_allocate, 1 ); } - IF( ( error = ivas_jbm_dec_tc_buffer_open_fx( st_ivas, buffer_mode, nchan_transport, nchan_to_allocate, nchan_to_allocate, NS2SA( st_ivas->hDecoderConfig->output_Fs, CLDFB_SLOT_NS ) ) ) != IVAS_ERR_OK ) + IF( ( error = ivas_jbm_dec_tc_buffer_open_fx( st_ivas, buffer_mode, nchan_transport, nchan_to_allocate, nchan_to_allocate, NS2SA_FX2( st_ivas->hDecoderConfig->output_Fs, CLDFB_SLOT_NS ) ) ) != IVAS_ERR_OK ) { return error; } diff --git a/lib_dec/ivas_mc_param_dec.c b/lib_dec/ivas_mc_param_dec.c deleted file mode 100644 index 7ed698ab81eb0a7440797bc69078805e8417b180..0000000000000000000000000000000000000000 --- a/lib_dec/ivas_mc_param_dec.c +++ /dev/null @@ -1,3855 +0,0 @@ -/****************************************************************************************************** - - (C) 2022-2025 IVAS codec Public Collaboration with portions copyright Dolby International AB, Ericsson AB, - Fraunhofer-Gesellschaft zur Foerderung der angewandten Forschung e.V., Huawei Technologies Co. LTD., - Koninklijke Philips N.V., Nippon Telegraph and Telephone Corporation, Nokia Technologies Oy, Orange, - Panasonic Holdings Corporation, Qualcomm Technologies, Inc., VoiceAge Corporation, and other - contributors to this repository. All Rights Reserved. - - This software is protected by copyright law and by international treaties. - The IVAS codec Public Collaboration consisting of Dolby International AB, Ericsson AB, - Fraunhofer-Gesellschaft zur Foerderung der angewandten Forschung e.V., Huawei Technologies Co. LTD., - Koninklijke Philips N.V., Nippon Telegraph and Telephone Corporation, Nokia Technologies Oy, Orange, - Panasonic Holdings Corporation, Qualcomm Technologies, Inc., VoiceAge Corporation, and other - contributors to this repository retain full ownership rights in their respective contributions in - the software. This notice grants no license of any kind, including but not limited to patent - license, nor is any license granted by implication, estoppel or otherwise. - - Contributors are required to enter into the IVAS codec Public Collaboration agreement before making - contributions. - - This software is provided "AS IS", without any express or implied warranties. The software is in the - development stage. It is intended exclusively for experts who have experience with such software and - solely for the purpose of inspection. All implied warranties of non-infringement, merchantability - and fitness for a particular purpose are hereby disclaimed and excluded. - - Any dispute, controversy or claim arising under or in relation to providing this software shall be - submitted to and settled by the final, binding jurisdiction of the courts of Munich, Germany in - accordance with the laws of the Federal Republic of Germany excluding its conflict of law rules and - the United Nations Convention on Contracts on the International Sales of Goods. - -*******************************************************************************************************/ - -#include -#include "options.h" -#include -#include "cnst.h" -#include "rom_enc.h" -#include "rom_com.h" -#include "prot.h" -#include "ivas_prot.h" -#include "ivas_prot_rend.h" -#include "ivas_cnst.h" -#include "ivas_rom_com.h" -#include "ivas_rom_dec.h" -#include "math.h" -#include "wmc_auto.h" -#include "rom_dec.h" -#include "prot_fx.h" -#include "ivas_prot_fx.h" - -#define INV_EPSILON_MANT 214748365 - -/*-----------------------------------------------------------------------* - * Local constants - *-----------------------------------------------------------------------*/ - -#define PARAM_MC_LOCAL_SZ_LFE_MAP 5 - -/*-----------------------------------------------------------------------* - * Local typedefs - *-----------------------------------------------------------------------*/ - -typedef struct parameter_band_mapping_struct -{ - Word16 n_source_bands[20]; - Word16 source_band_idx[20][4]; - Word16 source_band_factor_fx[20][4]; /*Q15*/ - -} PARAM_MC_PARAMETER_BAND_MAPPING; - -/*-----------------------------------------------------------------------* - * Local function prototypes - *-----------------------------------------------------------------------*/ - -static void ivas_param_mc_dec_init_fx( PARAM_MC_DEC_HANDLE hParamMC, const Word16 nchan_in, const Word16 nchan_out ); - -static void ivas_param_mc_dec_copy_diffuse_proto( PARAM_MC_DEC_HANDLE hParamMC, Word32 Cldfb_buffer_real_fx[MAX_CICP_CHANNELS][PARAM_MC_MAX_NSLOTS_IN_SUBFRAME][CLDFB_NO_CHANNELS_MAX], Word32 Cldfb_buffer_imag_fx[MAX_CICP_CHANNELS][PARAM_MC_MAX_NSLOTS_IN_SUBFRAME][CLDFB_NO_CHANNELS_MAX], const Word16 nY, const Word16 slot_idx ); -static Word16 ivas_param_mc_range_decoder_LC_fx( UWord16 *bit_buffer, Word16 *x, Word16 *BER_detect, const Word16 sz_seq, const Word16 sz_alphabet, const UWord16 *cft, const UWord16 *sft, const Word16 tot_shift, const Word16 nbbits ); - - -static void ivas_param_mc_get_mixing_matrices_fx( - PARAM_MC_DEC_HANDLE hParamMC, /* i : Parametric MC handle */ - IVAS_OUTPUT_SETUP *hSynthesisOutputSetup, - Word32 Cx_in_fixed[PARAM_MC_MAX_TRANSPORT_CHANS * PARAM_MC_MAX_TRANSPORT_CHANS], /* i : input covariance for all parameter bands */ - Word16 Cx_in_e, - const Word16 param_band_idx, - Word32 *mixing_matrix_fx[], - Word16 *mixing_matrix_e, - Word32 *mixing_matrix_res_fx[], - Word16 *mixing_matrix_res_e, - const Word16 nY_intern, /* i : number of channels in the transported format */ - const PARAM_MC_SYNTHESIS_CONF synth_config, /* i : Parametric MC synthesis config */ - const Word16 nX, /* i : number of transport channels */ - const Word16 nY_cov /* i : number of covariance synthesis output channels */ -); - -static Word16 ivas_param_mc_uniform_decoder_fx( Word16 *seq, const Word16 sz_seq, const Word16 *alphabet, const Word16 N, UWord16 bit_buffer[PARAM_MC_MAX_BITS] ); -static void ivas_param_mc_dec_compute_interpolator_fx( const UWord16 bAttackPresent, const UWord16 attackPos, const UWord16 interp_length, Word16 *interpolator ); - -static void param_mc_set_num_synth_bands( const Word32 output_Fs, PARAM_MC_DEC_HANDLE hParamMC ); - -static void ivas_param_mc_get_param_band_mapping( const Word16 n_target_bands, const Word16 *target_band_grouping, const Word16 n_source_bands, const Word16 *source_band_grouping, PARAM_MC_PARAMETER_BAND_MAPPING *parameter_band_mapping ); - - -static void ivas_param_mc_bs_decode_parameter_values_fx( UWord16 bit_buffer[], Word16 *bit_pos, const Word16 max_bits, Word16 *BER_detect, HANDLE_IVAS_PARAM_MC_METADATA hMetadataPMC, HANDLE_PARAM_MC_PARAMETER_CODING_INFO hParamCodingInfo, const Word16 map_size_wo_lfe, const Word16 map_size, const Word16 num_lfe_bands, const Word16 band_step, const Word16 num_param_bands, Word16 *value_buffer ); -static void ivas_param_mc_dequantize_cov_fx( PARAM_MC_DEC_HANDLE hParamMC, Word16 *ild_q_fx, Word16 *icc_q_fx, const Word16 param_band_index, const Word16 nY_cov, const PARAM_MC_SYNTHESIS_CONF synth_conf, const Word16 nY_int, const Word16 nX, Word32 *Cx_state_fx, Word16 Cx_state_e, Word32 *Cproto_fx, Word16 Cproto_e, Word32 *Cy_state_fx, Word16 *Cy_state_e ); -static ivas_error param_mc_get_diff_proto_info_fx( const Word32 *proto_mtx, const UWord16 nchan_transport, const UWord16 nchan_out_cov, PARAM_MC_DIFF_PROTO_INFO *p_diff_proto_info, Word16 Q_proto_mtx ); -static void param_mc_update_mixing_matrices_fx( PARAM_MC_DEC_HANDLE hParamMC, Word32 *mixing_matrix[], Word16 *mixing_matrix_fx, Word32 *mixing_matrix_res[], Word16 *mixing_matrix_res_exp, const UWord16 nX, const UWord16 nY ); - - -static void param_mc_protoSignalComputation_fx( Word32 *RealBuffer_fx, Word32 *ImagBuffer_fx, Word32 *proto_frame_f_fx, const PARAM_MC_DIFF_PROTO_INFO *diff_proto_info, const int16_t num_freq_bands /*, Word16 RealBuffer_fx_e, Word16 ImagBuffer_fx_e, Word16 *common_e*/ ); - -/*------------------------------------------------------------------------- - * ivas_param_mc_dec_open() - * - * Open Parametric MC decoder handle - *-------------------------------------------------------------------------*/ - -ivas_error ivas_param_mc_dec_open_fx( - Decoder_Struct *st_ivas /* i/o: IVAS decoder structure */ -) -{ - Word16 k, nchan_transport; - PARAM_MC_DEC_HANDLE hParamMC; - Word16 nchan_out_transport; - Word16 nchan_out_cov; - Word32 proto_matrix_fx[MAX_CICP_CHANNELS * PARAM_MC_MAX_TRANSPORT_CHANS]; - Word32 proto_mtx_norm_fx; - Word16 frequency_axis_fx[CLDFB_NO_CHANNELS_MAX]; - Word16 max_param_band_residual; - UWord16 config_index; - MC_LS_SETUP mc_ls_setup; - AUDIO_CONFIG output_config; - Word32 output_Fs, ivas_total_brate; - ivas_error error; - - error = IVAS_ERR_OK; - move32(); - - /*-----------------------------------------------------------------* - * prepare library opening - *-----------------------------------------------------------------*/ - - IF( ( hParamMC = (PARAM_MC_DEC_HANDLE) malloc( sizeof( PARAM_MC_DEC_DATA ) ) ) == NULL ) - { - return ( IVAS_ERROR( IVAS_ERR_FAILED_ALLOC, "Can not allocate memory for Parametric MC\n" ) ); - } - - IF( ( hParamMC->hMetadataPMC = (HANDLE_IVAS_PARAM_MC_METADATA) malloc( sizeof( IVAS_PARAM_MC_METADATA ) ) ) == NULL ) - { - return ( IVAS_ERROR( IVAS_ERR_FAILED_ALLOC, "Can not allocate memory for Parametric MC metadata \n" ) ); - } - - output_Fs = st_ivas->hDecoderConfig->output_Fs; - move32(); - output_config = st_ivas->hDecoderConfig->output_config; - move32(); - ivas_total_brate = st_ivas->hDecoderConfig->ivas_total_brate; - move32(); - mc_ls_setup = ivas_mc_map_output_config_to_mc_ls_setup_fx( st_ivas->transport_config ); - nchan_out_transport = add( st_ivas->hTransSetup.nchan_out_woLFE, st_ivas->hTransSetup.num_lfe ); - hParamMC->hoa_encoder_fx = NULL; - - /* determine the synthesis config */ - test(); - test(); - test(); - test(); - test(); - IF( EQ_32( st_ivas->renderer_type, RENDERER_SBA_LINEAR_ENC ) || EQ_32( st_ivas->renderer_type, RENDERER_BINAURAL_FASTCONV ) || EQ_32( st_ivas->renderer_type, RENDERER_BINAURAL_FASTCONV_ROOM ) || EQ_32( st_ivas->renderer_type, RENDERER_BINAURAL_OBJECTS_TD ) || EQ_32( st_ivas->transport_config, output_config ) ) - { - hParamMC->synthesis_conf = PARAM_MC_SYNTH_DIRECT; - move32(); - } - ELSE IF( EQ_32( output_config, IVAS_AUDIO_CONFIG_MONO ) || EQ_32( output_config, IVAS_AUDIO_CONFIG_STEREO ) ) - { - hParamMC->synthesis_conf = PARAM_MC_SYNTH_MONO_STEREO; - move32(); - } - ELSE IF( NE_32( st_ivas->transport_config, output_config ) ) - { - test(); - test(); - IF( ( NE_32( output_config, IVAS_AUDIO_CONFIG_LS_CUSTOM ) && GT_16( nchan_out_transport, audioCfg2channels( output_config ) ) ) || ( EQ_32( output_config, IVAS_AUDIO_CONFIG_LS_CUSTOM ) && GT_16( nchan_out_transport, st_ivas->hOutSetup.nchan_out_woLFE ) ) ) - { - hParamMC->synthesis_conf = PARAM_MC_SYNTH_LS_CONV_COV; - move32(); - /* need to reset the intern config */ - st_ivas->intern_config = output_config; - move32(); - ivas_output_init( &( st_ivas->hIntSetup ), st_ivas->intern_config ); - IF( EQ_32( output_config, IVAS_AUDIO_CONFIG_LS_CUSTOM ) ) - { - st_ivas->hIntSetup.nchan_out_woLFE = st_ivas->hLsSetupCustom->num_spk; - move32(); - st_ivas->hIntSetup.ls_azimuth_fx = st_ivas->hLsSetupCustom->ls_azimuth_fx; // Q22 - st_ivas->hIntSetup.ls_elevation_fx = st_ivas->hLsSetupCustom->ls_elevation_fx; // Q22 - } - } - ELSE - { - hParamMC->synthesis_conf = PARAM_MC_SYNTH_LS_CONV_CLDFB; - move32(); - } - } - - hParamMC->ls_conv_dmx_matrix_fx = NULL; - - test(); - IF( EQ_32( hParamMC->synthesis_conf, PARAM_MC_SYNTH_LS_CONV_COV ) || EQ_32( hParamMC->synthesis_conf, PARAM_MC_SYNTH_MONO_STEREO ) ) - { - nchan_out_cov = add( st_ivas->hOutSetup.nchan_out_woLFE, st_ivas->hOutSetup.num_lfe ); - } - ELSE - { - nchan_out_cov = nchan_out_transport; - move16(); - } - - st_ivas->nchan_transport = ivas_param_mc_getNumTransportChannels_fx( ivas_total_brate, mc_ls_setup ); - move16(); - config_index = ivas_param_mc_get_configuration_index_fx( mc_ls_setup, ivas_total_brate ); - nchan_transport = st_ivas->nchan_transport; - move16(); - - SWITCH( nchan_transport ) - { - case 4: - case 3: - st_ivas->nCPE = 2; - move16(); - st_ivas->nSCE = 0; - move16(); - st_ivas->element_mode_init = IVAS_CPE_MDCT; - move16(); - BREAK; - case 2: - st_ivas->nCPE = 1; - move16(); - st_ivas->nSCE = 0; - move16(); - st_ivas->element_mode_init = IVAS_CPE_MDCT; - move16(); - - BREAK; - } - - /*-----------------------------------------------------------------* - * set input parameters - *-----------------------------------------------------------------*/ - - // hParamMC->slot_size = (int16_t) ( output_Fs / FRAMES_PER_SEC ) / CLDFB_NO_COL_MAX; - Word16 temp_e; - Word16 temp = BASOP_Util_Divide3232_Scale( output_Fs, FRAMES_PER_SEC, &temp_e ); - temp = shr( temp, sub( 15, temp_e ) ); // Going back to Q0 - temp = BASOP_Util_Divide1616_Scale( temp, CLDFB_NO_COL_MAX, &temp_e ); - temp = shr( temp, sub( 15, temp_e ) ); // Going back to Q0 - hParamMC->slot_size = temp; - move16(); - set16_fx( hParamMC->subframe_nbslots, 0, MAX_JBM_SUBFRAMES_5MS ); - set16_fx( hParamMC->subframe_nbslots, PARAM_MC_MAX_NSLOTS_IN_SUBFRAME, DEFAULT_JBM_SUBFRAMES_5MS ); - hParamMC->nb_subframes = DEFAULT_JBM_SUBFRAMES_5MS; - move16(); - - // hParamMC->num_freq_bands = (int16_t)(output_Fs * INV_CLDFB_BANDWIDTH + 0.5f); - hParamMC->num_freq_bands = extract_l( Mpy_32_32_r( output_Fs, INV_CLDFB_BANDWIDTH_Q31 ) ); - move16(); - hParamMC->max_band_energy_compensation = hParamMC->num_freq_bands; - move16(); - ivas_param_mc_metadata_open_fx( mc_ls_setup, ivas_total_brate, hParamMC->hMetadataPMC ); - - /* init arrays for quantized parameters */ - - IF( ( hParamMC->icc_q_fx = (Word16 *) malloc( hParamMC->hMetadataPMC->num_parameter_bands * hParamMC->hMetadataPMC->icc_mapping_conf->icc_map_size_lfe * sizeof( Word16 ) ) ) == NULL ) - { - return ( IVAS_ERROR( IVAS_ERR_FAILED_ALLOC, "Can not allocate memory for Parametric MC\n" ) ); - } - IF( ( hParamMC->icld_q_fx = (Word16 *) malloc( hParamMC->hMetadataPMC->num_parameter_bands * hParamMC->hMetadataPMC->ild_mapping_conf->ild_map_size_lfe * sizeof( Word16 ) ) ) == NULL ) - { - return ( IVAS_ERROR( IVAS_ERR_FAILED_ALLOC, "Can not allocate memory for Parametric MC\n" ) ); - } - set16_fx( hParamMC->icld_q_fx, PARAM_MC_DEFAULT_MIN_ILD_FX, imult1616( hParamMC->hMetadataPMC->num_parameter_bands, hParamMC->hMetadataPMC->ild_mapping_conf->ild_map_size_lfe ) ); // Q8 - set16_fx( hParamMC->icc_q_fx, 0, imult1616( hParamMC->hMetadataPMC->num_parameter_bands, hParamMC->hMetadataPMC->icc_mapping_conf->icc_map_size_lfe ) ); // Q15 - - param_mc_set_num_synth_bands( output_Fs, hParamMC ); - - /* Band Grouping */ - IF( EQ_16( hParamMC->hMetadataPMC->num_parameter_bands, 20 ) ) - { - Copy( param_mc_band_grouping_20, hParamMC->band_grouping, 20 + 1 ); - } - ELSE IF( EQ_16( hParamMC->hMetadataPMC->num_parameter_bands, 14 ) ) - { - Copy( param_mc_band_grouping_14, hParamMC->band_grouping, 14 + 1 ); - } - ELSE IF( EQ_16( hParamMC->hMetadataPMC->num_parameter_bands, 10 ) ) - { - Copy( param_mc_band_grouping_10, hParamMC->band_grouping, 10 + 1 ); - } - ELSE - { - assert( 0 && "nbands must be 20, 14, or 10!" ); - } - - /* set max parameter band for abs cov */ - k = 0; - move16(); - WHILE( LE_16( hParamMC->band_grouping[k], PARAM_MC_MAX_BAND_ABS_COV_DEC ) ) - { - hParamMC->max_param_band_abs_cov = k; - move16(); - k = add( k, 1 ); - } - - /*-----------------------------------------------------------------* - * open sub-modules - *-----------------------------------------------------------------*/ - - /* prototype signal computation */ - - test(); - test(); - IF( EQ_32( hParamMC->synthesis_conf, PARAM_MC_SYNTH_LS_CONV_CLDFB ) || EQ_32( hParamMC->synthesis_conf, PARAM_MC_SYNTH_LS_CONV_COV ) || EQ_32( hParamMC->synthesis_conf, PARAM_MC_SYNTH_MONO_STEREO ) ) - { - IF( NE_32( ( error = ivas_ls_setup_conversion_open_fx( st_ivas ) ), IVAS_ERR_OK ) ) - { - return error; - } - - /* convert the ls conv dmx matrix into column order matrix format (nchan_out_cldfb x nchan_out) */ - test(); - IF( EQ_32( hParamMC->synthesis_conf, PARAM_MC_SYNTH_LS_CONV_COV ) || EQ_32( hParamMC->synthesis_conf, PARAM_MC_SYNTH_MONO_STEREO ) ) - { - IF( ( hParamMC->ls_conv_dmx_matrix_fx = (Word32 *) malloc( nchan_out_transport * nchan_out_cov * sizeof( Word32 ) ) ) == NULL ) - { - return ( IVAS_ERROR( IVAS_ERR_FAILED_ALLOC, "Can not allocate memory for Parametric MC\n" ) ); - } - - FOR( k = 0; k < nchan_out_transport; k++ ) - { - Copy32( st_ivas->hLsSetUpConversion->dmxMtx_fx[k], &hParamMC->ls_conv_dmx_matrix_fx[k * nchan_out_cov], nchan_out_cov ); /*Q30*/ - } - - /* convert ParamMC parameter bands to SFB */ - IF( EQ_32( hParamMC->synthesis_conf, PARAM_MC_SYNTH_MONO_STEREO ) ) - { - st_ivas->hLsSetUpConversion->sfbCnt = hParamMC->num_param_bands_synth; - move16(); - FOR( k = 0; k <= hParamMC->num_param_bands_synth; k++ ) - { - st_ivas->hLsSetUpConversion->sfbOffset[k] = imult1616( PARAM_MC_BAND_TO_MDCT_BAND_RATIO, hParamMC->band_grouping[k] ); - move16(); - } - } - ELSE - { - /* close the ls conversion handle immediately, it was only needed to get the DMX matrix in case of DMX in the covariance domain */ - ivas_ls_setup_conversion_close_fx( &st_ivas->hLsSetUpConversion ); - } - } - } - IF( ( hParamMC->proto_matrix_int_fx = (Word32 *) malloc( nchan_out_transport * nchan_transport * sizeof( Word32 ) ) ) == NULL ) - { - return ( IVAS_ERROR( IVAS_ERR_FAILED_ALLOC, "Can not allocate memory for Parametric MC\n" ) ); - } - Copy32( ivas_param_mc_conf[config_index].dmx_fac_fx, hParamMC->proto_matrix_int_fx, imult1616( nchan_transport, nchan_out_transport ) ); /*Q31*/ - - hParamMC->proto_matrix_int_len = imult1616( nchan_out_transport, nchan_transport ); - move16(); - - test(); - IF( EQ_32( hParamMC->synthesis_conf, PARAM_MC_SYNTH_LS_CONV_COV ) || EQ_32( hParamMC->synthesis_conf, PARAM_MC_SYNTH_MONO_STEREO ) ) - { - Scale_sig32( hParamMC->ls_conv_dmx_matrix_fx, imult1616( nchan_out_transport, nchan_out_cov ), -4 ); /*Q.26*/ - matrix_product_fx( hParamMC->ls_conv_dmx_matrix_fx, nchan_out_cov, nchan_out_transport, 0, ivas_param_mc_conf[config_index].dmx_fac_fx, nchan_out_transport, nchan_transport, 0, proto_matrix_fx ); /*Q.26*/ - Scale_sig32( hParamMC->ls_conv_dmx_matrix_fx, imult1616( nchan_out_transport, nchan_out_cov ), 4 ); /*Q.26*/ - IF( EQ_32( hParamMC->synthesis_conf, PARAM_MC_SYNTH_MONO_STEREO ) ) - { - proto_mtx_norm_fx = ONE_IN_Q26; /*Q26*/ - move32(); - FOR( k = 0; k < nchan_transport * nchan_out_cov; k++ ) - { - proto_mtx_norm_fx = L_max( L_abs( proto_mtx_norm_fx ), L_abs( proto_matrix_fx[k] ) ); /*Q.26*/ - } - proto_mtx_norm_fx = divide3232( ONE_IN_Q26, proto_mtx_norm_fx ); /*Q15*/ - - /* transfer flattened proto_matrix to 2D in hLsSetupConversion->dmxMtx */ - FOR( k = 0; k < nchan_transport; k++ ) - { - FOR( Word16 i = 0; i < nchan_out_cov; i++ ) - { - st_ivas->hLsSetUpConversion->dmxMtx_fx[k][i] = L_shl( Mult_32_16( proto_matrix_fx[k * nchan_out_cov + i], extract_l( proto_mtx_norm_fx ) ), 4 ); /*Q.30*/ - move32(); - } - } - } - } - ELSE - { - Copy32( ivas_param_mc_conf[config_index].dmx_fac_fx, proto_matrix_fx, imult1616( nchan_out_transport, nchan_transport ) ); /*Q.31*/ - Scale_sig32( proto_matrix_fx, imult1616( nchan_out_transport, nchan_transport ), -5 ); /*Scaling down to 26*/ - } - - IF( EQ_32( hParamMC->synthesis_conf, PARAM_MC_SYNTH_MONO_STEREO ) ) - { - hParamMC->num_outputs_diff = 0; - move16(); - hParamMC->diff_proto_info = NULL; - hParamMC->h_output_synthesis_params.use_onset_filters = 0; - move16(); - hParamMC->max_band_decorr = 0; - move16(); - hParamMC->h_freq_domain_decorr_ap_params = NULL; - hParamMC->h_freq_domain_decorr_ap_state = NULL; - } - ELSE - { - hParamMC->num_outputs_diff = nchan_out_cov; - move16(); - IF( ( hParamMC->diff_proto_info = (PARAM_MC_DIFF_PROTO_INFO *) malloc( sizeof( PARAM_MC_DIFF_PROTO_INFO ) ) ) == NULL ) - { - return ( IVAS_ERROR( IVAS_ERR_FAILED_ALLOC, "Can not allocate memory for Parametric MC\n" ) ); - } - - IF( NE_32( ( error = param_mc_get_diff_proto_info_fx( proto_matrix_fx, nchan_transport, nchan_out_cov, hParamMC->diff_proto_info, Q26 ) ), IVAS_ERR_OK ) ) - { - return error; - } - - /* decorrelation */ - hParamMC->h_freq_domain_decorr_ap_params = NULL; - hParamMC->h_freq_domain_decorr_ap_state = NULL; - - ivas_dirac_dec_get_frequency_axis_fx( frequency_axis_fx, output_Fs, hParamMC->num_freq_bands ); // Q0 - - IF( NE_32( ( error = ivas_dirac_dec_decorr_open_fx( &( hParamMC->h_freq_domain_decorr_ap_params ), &( hParamMC->h_freq_domain_decorr_ap_state ), hParamMC->num_freq_bands, hParamMC->num_outputs_diff, - hParamMC->diff_proto_info->num_protos_diff, DIRAC_SYNTHESIS_COV_MC_LS, frequency_axis_fx, nchan_transport, output_Fs ) ), - IVAS_ERR_OK ) ) - { - return error; - } - - hParamMC->h_output_synthesis_params.use_onset_filters = 0; - move16(); - hParamMC->max_band_decorr = hParamMC->h_freq_domain_decorr_ap_params->max_band_decorr; - move16(); - } - hParamMC->max_band_energy_compensation = hParamMC->band_grouping[hParamMC->hMetadataPMC->nbands_coded]; - move16(); - max_param_band_residual = 0; - move16(); - - FOR( k = hParamMC->hMetadataPMC->num_parameter_bands; k >= 0; k-- ) - { - IF( LE_16( hParamMC->band_grouping[k], hParamMC->max_band_decorr ) ) - { - max_param_band_residual = k; - move16(); - assert( hParamMC->band_grouping[k] == hParamMC->max_band_decorr ); - break; - } - } - - /* output synthesis */ - IF( NE_32( ( error = ivas_dirac_dec_output_synthesis_cov_open_fx( &( hParamMC->h_output_synthesis_params ), &( hParamMC->h_output_synthesis_cov_state ), hParamMC->max_band_decorr, PARAM_MC_MAX_NSLOTS, hParamMC->hMetadataPMC->num_parameter_bands, max_param_band_residual, nchan_transport, nchan_out_cov, proto_matrix_fx ) ), IVAS_ERR_OK ) ) - { - return error; - } - - ivas_param_mc_dec_compute_interpolator_fx( 0, 0, DEFAULT_JBM_CLDFB_TIMESLOTS, hParamMC->h_output_synthesis_params.interpolator_fx ); - - /* Head or external rotation */ - test(); - test(); - test(); - IF( ( EQ_32( st_ivas->renderer_type, RENDERER_BINAURAL_FASTCONV ) || EQ_32( st_ivas->renderer_type, RENDERER_BINAURAL_FASTCONV_ROOM ) ) && ( st_ivas->hDecoderConfig->Opt_Headrotation || st_ivas->hDecoderConfig->Opt_ExternalOrientation ) ) - { - IF( ( hParamMC->hoa_encoder_fx = (Word32 *) malloc( st_ivas->hTransSetup.nchan_out_woLFE * MAX_INTERN_CHANNELS * sizeof( Word32 ) ) ) == NULL ) - { - return ( IVAS_ERROR( IVAS_ERR_FAILED_ALLOC, "Can not allocate memory for Parametric MC\n" ) ); - } - compute_hoa_encoder_mtx_fx( st_ivas->hTransSetup.ls_azimuth_fx, st_ivas->hTransSetup.ls_elevation_fx, hParamMC->hoa_encoder_fx, st_ivas->hTransSetup.nchan_out_woLFE, HEAD_ROTATION_HOA_ORDER ); - } - - /*-----------------------------------------------------------------* - * memory allocation - *-----------------------------------------------------------------*/ - - IF( hParamMC->max_band_decorr > 0 ) - { - IF( ( hParamMC->proto_frame_f_fx = (Word32 *) malloc( 2 * hParamMC->diff_proto_info->num_protos_diff * hParamMC->num_freq_bands * sizeof( Word32 ) ) ) == NULL ) - { - return ( IVAS_ERROR( IVAS_ERR_FAILED_ALLOC, "Can not allocate memory for Parametric MC\n" ) ); - } - IF( ( hParamMC->proto_frame_dec_f_fx = (Word32 *) malloc( 2 * nchan_out_cov * hParamMC->num_freq_bands * sizeof( Word32 ) ) ) == NULL ) - { - return ( IVAS_ERROR( IVAS_ERR_FAILED_ALLOC, "Can not allocate memory for Parametric MC\n" ) ); - } - } - ELSE - { - hParamMC->proto_frame_f_fx = NULL; - hParamMC->proto_frame_dec_f_fx = NULL; - } - - ivas_param_mc_dec_init_fx( hParamMC, nchan_transport, nchan_out_cov ); - - IF( NE_32( hParamMC->synthesis_conf, PARAM_MC_SYNTH_MONO_STEREO ) ) - { - Word16 n_cldfb_slots; - - n_cldfb_slots = DEFAULT_JBM_CLDFB_TIMESLOTS; - move16(); - IF( st_ivas->hDecoderConfig->Opt_tsm ) - { - n_cldfb_slots = MAX_JBM_CLDFB_TIMESLOTS; - move16(); - } - - Word16 cldfb_buf_size = imult1616( imult1616( n_cldfb_slots, nchan_transport ), hParamMC->num_freq_bands ); - IF( ( hParamMC->Cldfb_RealBuffer_tc_fx = (Word32 *) malloc( cldfb_buf_size * sizeof( Word32 ) ) ) == NULL ) - { - return ( IVAS_ERROR( IVAS_ERR_FAILED_ALLOC, "Can not allocate memory for Parametric MC JBM\n" ) ); - } - set32_fx( hParamMC->Cldfb_RealBuffer_tc_fx, 0, cldfb_buf_size ); - IF( ( hParamMC->Cldfb_ImagBuffer_tc_fx = (Word32 *) malloc( cldfb_buf_size * sizeof( Word32 ) ) ) == NULL ) - { - return ( IVAS_ERROR( IVAS_ERR_FAILED_ALLOC, "Can not allocate memory for Parametric MC JBM\n" ) ); - } - set32_fx( hParamMC->Cldfb_ImagBuffer_tc_fx, 0, cldfb_buf_size ); - - hParamMC->sz = imult1616( imult1616( n_cldfb_slots, nchan_transport ), hParamMC->num_freq_bands ); - move16(); - - IF( st_ivas->hTcBuffer == NULL ) - { - IF( NE_32( ( error = ivas_jbm_dec_tc_buffer_open_fx( st_ivas, TC_BUFFER_MODE_RENDERER, nchan_transport, nchan_transport, 0, NS2SA( st_ivas->hDecoderConfig->output_Fs, CLDFB_SLOT_NS ) ) ), IVAS_ERR_OK ) ) - { - return error; - } - } - } - ELSE - { - hParamMC->Cldfb_RealBuffer_tc_fx = NULL; - hParamMC->Cldfb_ImagBuffer_tc_fx = NULL; - } - - hParamMC->subframes_rendered = 0; - move16(); - hParamMC->slots_rendered = 0; - move16(); - - st_ivas->hParamMC = hParamMC; - return error; -} - - -/*------------------------------------------------------------------------- - * ivas_param_mc_get_param_band_mapping() - * - * - *-------------------------------------------------------------------------*/ - -static void ivas_param_mc_get_param_band_mapping( - const Word16 n_target_bands, - const Word16 *target_band_grouping, - const Word16 n_source_bands, - const Word16 *source_band_grouping, - PARAM_MC_PARAMETER_BAND_MAPPING *parameter_band_mapping ) -{ - Word16 target_band_idx; - Word16 source_band_idx = 0; - move16(); - Word16 source_band_cnt_total; - - FOR( target_band_idx = 0; target_band_idx < n_target_bands; target_band_idx++ ) - { - Word16 upper = target_band_grouping[target_band_idx + 1]; - Word16 lower = target_band_grouping[target_band_idx]; - Word16 source_band_in_target_band_cnt = 0; - Word16 norm_fac_fx = 32767; // 1.Q15 - source_band_cnt_total = 0; - move16(); - move16(); - move16(); - - FOR( source_band_idx = 0; source_band_idx < n_source_bands; source_band_idx++ ) - { - /* find lowest corresponding source band*/ - test(); - IF( LE_16( source_band_grouping[source_band_idx], lower ) && GE_16( source_band_grouping[source_band_idx + 1], lower ) ) - { - DO - { - Word16 source_bands_in_target_band = sub( s_min( source_band_grouping[source_band_idx + 1], upper ), s_max( source_band_grouping[source_band_idx], lower ) ); - IF( source_bands_in_target_band ) - { - source_band_cnt_total = add( source_band_cnt_total, source_bands_in_target_band ); - parameter_band_mapping->source_band_idx[target_band_idx][source_band_in_target_band_cnt] = source_band_idx; - parameter_band_mapping->source_band_factor_fx[target_band_idx][source_band_in_target_band_cnt++] = shl( source_bands_in_target_band, 10 ); /*Q10*/ - move16(); - move16(); - } - source_band_idx++; - } - WHILE( LE_16( source_band_grouping[source_band_idx], upper ) && LT_16( source_band_idx, n_source_bands ) ); - BREAK; - } - } - norm_fac_fx = div_s( 1, source_band_cnt_total ); /*Q15*/ - FOR( source_band_idx = 0; source_band_idx < source_band_in_target_band_cnt; source_band_idx++ ) - { - parameter_band_mapping->source_band_factor_fx[target_band_idx][source_band_idx] = shl_sat( mult( parameter_band_mapping->source_band_factor_fx[target_band_idx][source_band_idx], norm_fac_fx ) /*Q10*/, 5 ); /*Q15*/ - move16(); - } - parameter_band_mapping->n_source_bands[target_band_idx] = source_band_in_target_band_cnt; - move16(); - } - return; -} - - -/*------------------------------------------------------------------------- - * ivas_param_mc_dec_reconfig() - * - * Reconfiguration of ParamMC decoder - *-------------------------------------------------------------------------*/ - -ivas_error ivas_param_mc_dec_reconfig_fx( - Decoder_Struct *st_ivas /* i/o: IVAS decoder structure */ -) -{ - Word16 k, nchan_transport; - PARAM_MC_DEC_HANDLE hParamMC; - Word16 nchan_out_transport; - Word16 nchan_out_cov; - Word32 proto_matrix_fx[MAX_CICP_CHANNELS * PARAM_MC_MAX_TRANSPORT_CHANS]; - Word32 proto_mtx_norm_fx; - Word16 max_param_band_residual; - UWord16 config_index; - MC_LS_SETUP mc_ls_setup; - Word32 output_Fs, ivas_total_brate; - ivas_error error; - Word16 nchan_transport_old; - Word16 num_param_bands_old; - PARAM_MC_PARAMETER_BAND_MAPPING parameter_band_mapping; - Word16 band_grouping_old[20 + 1]; - - hParamMC = st_ivas->hParamMC; - error = IVAS_ERR_OK; - move32(); - /* save important config information from the previous state */ - nchan_transport_old = st_ivas->nchan_transport; - move32(); - num_param_bands_old = hParamMC->hMetadataPMC->num_parameter_bands; - move32(); - - /*-----------------------------------------------------------------* - * prepare library opening - *-----------------------------------------------------------------*/ - - output_Fs = st_ivas->hDecoderConfig->output_Fs; - move32(); - ivas_total_brate = st_ivas->hDecoderConfig->ivas_total_brate; - move32(); - mc_ls_setup = ivas_mc_map_output_config_to_mc_ls_setup_fx( st_ivas->transport_config ); - nchan_out_transport = add( st_ivas->hTransSetup.nchan_out_woLFE, st_ivas->hTransSetup.num_lfe ); - - test(); - IF( EQ_16( hParamMC->synthesis_conf, PARAM_MC_SYNTH_LS_CONV_COV ) || EQ_16( hParamMC->synthesis_conf, PARAM_MC_SYNTH_MONO_STEREO ) ) - { - nchan_out_cov = add( st_ivas->hOutSetup.nchan_out_woLFE, st_ivas->hOutSetup.num_lfe ); - } - ELSE - { - nchan_out_cov = nchan_out_transport; - move16(); - } - - st_ivas->nchan_transport = ivas_param_mc_getNumTransportChannels_fx( ivas_total_brate, mc_ls_setup ); - move16(); - config_index = ivas_param_mc_get_configuration_index_fx( mc_ls_setup, ivas_total_brate ); - nchan_transport = st_ivas->nchan_transport; - move16(); - - SWITCH( nchan_transport ) - { - case 4: - case 3: - st_ivas->nCPE = 2; - move16(); - st_ivas->nSCE = 0; - move16(); - st_ivas->element_mode_init = IVAS_CPE_MDCT; - move16(); - BREAK; - case 2: - st_ivas->nCPE = 1; - move16(); - st_ivas->nSCE = 0; - move16(); - st_ivas->element_mode_init = IVAS_CPE_MDCT; - move16(); - - BREAK; - } - - /*-----------------------------------------------------------------* - * set input parameters - *-----------------------------------------------------------------*/ - hParamMC->num_freq_bands = shr( add( (Word16) Mpy_32_32( output_Fs, INV_CLDFB_BANDWIDTH_Q31 << 1 ), 1 ), 1 ); // Q0 - move16(); - hParamMC->max_band_energy_compensation = hParamMC->num_freq_bands; - move16(); - - Copy( hParamMC->band_grouping, band_grouping_old, add( hParamMC->hMetadataPMC->num_parameter_bands, 1 ) ); - ivas_param_mc_metadata_open_fx( mc_ls_setup, ivas_total_brate, hParamMC->hMetadataPMC ); - /* Band Grouping */ - IF( EQ_16( hParamMC->hMetadataPMC->num_parameter_bands, 20 ) ) - { - Copy( param_mc_band_grouping_20, hParamMC->band_grouping, 20 + 1 ); - } - ELSE IF( EQ_16( hParamMC->hMetadataPMC->num_parameter_bands, 14 ) ) - { - Copy( param_mc_band_grouping_14, hParamMC->band_grouping, 14 + 1 ); - } - ELSE IF( EQ_16( hParamMC->hMetadataPMC->num_parameter_bands, 10 ) ) - { - Copy( param_mc_band_grouping_10, hParamMC->band_grouping, 10 + 1 ); - } - ELSE - { - assert( 0 && "nbands must be 20, 14, or 10!" ); - } - - ivas_param_mc_get_param_band_mapping( hParamMC->hMetadataPMC->num_parameter_bands, hParamMC->band_grouping, num_param_bands_old, band_grouping_old, ¶meter_band_mapping ); - - test(); - IF( NE_16( nchan_transport_old, nchan_transport ) || NE_16( num_param_bands_old, hParamMC->hMetadataPMC->num_parameter_bands ) ) - { - Word16 *ild_q_old_fx = hParamMC->icld_q_fx; // Q8 - Word16 *icc_q_old_fx = hParamMC->icc_q_fx; // Q15 - - IF( ( hParamMC->icc_q_fx = (Word16 *) malloc( hParamMC->hMetadataPMC->num_parameter_bands * hParamMC->hMetadataPMC->icc_mapping_conf->icc_map_size_lfe * sizeof( Word16 ) ) ) == NULL ) - { - return ( IVAS_ERROR( IVAS_ERR_FAILED_ALLOC, "Can not allocate memory for Parametric MC\n" ) ); - } - IF( ( hParamMC->icld_q_fx = (Word16 *) malloc( hParamMC->hMetadataPMC->num_parameter_bands * hParamMC->hMetadataPMC->ild_mapping_conf->ild_map_size_lfe * sizeof( Word16 ) ) ) == NULL ) - { - return ( IVAS_ERROR( IVAS_ERR_FAILED_ALLOC, "Can not allocate memory for Parametric MC\n" ) ); - } - set16_fx( hParamMC->icld_q_fx, PARAM_MC_DEFAULT_MIN_ILD_FX, hParamMC->hMetadataPMC->num_parameter_bands * hParamMC->hMetadataPMC->ild_mapping_conf->ild_map_size_lfe ); /*Q8*/ - set16_fx( hParamMC->icc_q_fx, 0, hParamMC->hMetadataPMC->num_parameter_bands * hParamMC->hMetadataPMC->icc_mapping_conf->icc_map_size_lfe ); /*Q15*/ - - /* map old to new parameter banding, only for same number of TCs, needs some more thought for a changing number of TCs */ - test(); - IF( NE_16( num_param_bands_old, hParamMC->hMetadataPMC->num_parameter_bands ) && EQ_16( nchan_transport_old, nchan_transport ) ) - { - Word16 new_param_band_idx, param_idx, source_param_idx; - Word16 num_param_lfe; - Word16 *p_icc_new_fx = hParamMC->icc_q_fx; // Q15 - Word16 *p_ild_new_fx = hParamMC->icld_q_fx; // Q8 - Word16 p_ild_new_e = 23; - move16(); - Word16 p_ild_new_tmp; - - /* ICC */ - num_param_lfe = hParamMC->hMetadataPMC->icc_mapping_conf->icc_map_size_lfe; - move16(); - FOR( new_param_band_idx = 0; new_param_band_idx < hParamMC->hMetadataPMC->num_parameter_bands; new_param_band_idx++ ) - { - FOR( param_idx = 0; param_idx < num_param_lfe; param_idx++ ) - { - *p_icc_new_fx = 0; - move16(); - FOR( source_param_idx = 0; source_param_idx < parameter_band_mapping.n_source_bands[new_param_band_idx]; source_param_idx++ ) - { - *p_icc_new_fx = add( *p_icc_new_fx, mult( icc_q_old_fx[parameter_band_mapping.source_band_idx[new_param_band_idx][source_param_idx] * num_param_lfe + param_idx], parameter_band_mapping.source_band_factor_fx[new_param_band_idx][source_param_idx] ) ); /*Q15*/ - move16(); - } - p_icc_new_fx++; - } - } - - /* ILD */ - num_param_lfe = hParamMC->hMetadataPMC->ild_mapping_conf->ild_map_size_lfe; - move16(); - FOR( new_param_band_idx = 0; new_param_band_idx < hParamMC->hMetadataPMC->num_parameter_bands; new_param_band_idx++ ) - { - FOR( param_idx = 0; param_idx < num_param_lfe; param_idx++ ) - { - *p_ild_new_fx = 0; - move16(); - FOR( source_param_idx = 0; source_param_idx < parameter_band_mapping.n_source_bands[new_param_band_idx]; source_param_idx++ ) - { - p_ild_new_tmp = extract_h( BASOP_util_Pow2( L_mult0( 10885 /*log2(10)/10*2^15*/, ild_q_old_fx[parameter_band_mapping.source_band_idx[new_param_band_idx][source_param_idx] * num_param_lfe + param_idx] ), 8, &p_ild_new_e ) ); // 31 - p_ild_new_e - 16 - *p_ild_new_fx = add( *p_ild_new_fx, mult( p_ild_new_tmp, parameter_band_mapping.source_band_factor_fx[new_param_band_idx][source_param_idx] ) ); - move16(); - } - *p_ild_new_fx = extract_l( L_shr( Mpy_32_16_1( L_add( BASOP_Util_Log2( *p_ild_new_fx ), L_add( 16 << Q25, L_shl( p_ild_new_e, 25 ) ) ), 24660 /*3.Q13*/ ), 15 ) ); // Q8 - move16(); - p_ild_new_fx++; - } - } - } - free( ild_q_old_fx ); - free( icc_q_old_fx ); - } - - param_mc_set_num_synth_bands( output_Fs, hParamMC ); - - /* set max parameter band for abs cov */ - k = 0; - move16(); - WHILE( LE_16( hParamMC->band_grouping[k], PARAM_MC_MAX_BAND_ABS_COV_DEC ) ) - { - hParamMC->max_param_band_abs_cov = k; - move16(); - k = add( k, 1 ); - } - - /*-----------------------------------------------------------------* - * open sub-modules - *-----------------------------------------------------------------*/ - - /* prototype signal computation */ - - IF( EQ_16( hParamMC->synthesis_conf, PARAM_MC_SYNTH_MONO_STEREO ) ) - { - IF( NE_16( nchan_transport_old, nchan_transport ) ) - { - IF( st_ivas->hLsSetUpConversion != NULL ) - { - ivas_ls_setup_conversion_close_fx( &st_ivas->hLsSetUpConversion ); - } - - IF( NE_32( ( error = ivas_ls_setup_conversion_open_fx( st_ivas ) ), IVAS_ERR_OK ) ) - { - return error; - } - - /* convert the ls conv dmx matrix into column order matrix format (nchan_out_cldfb x nchan_out) */ - free( hParamMC->ls_conv_dmx_matrix_fx ); - - IF( ( hParamMC->ls_conv_dmx_matrix_fx = (Word32 *) malloc( nchan_out_transport * nchan_out_cov * sizeof( Word32 ) ) ) == NULL ) - { - return ( IVAS_ERROR( IVAS_ERR_FAILED_ALLOC, "Can not allocate memory for Parametric MC\n" ) ); - } - FOR( k = 0; k < nchan_out_transport; k++ ) - { - Copy32( st_ivas->hLsSetUpConversion->dmxMtx_fx[k], &hParamMC->ls_conv_dmx_matrix_fx[k * nchan_out_cov], nchan_out_cov ); - } - } - /* convert ParamMC parameter bands to SFB */ - - st_ivas->hLsSetUpConversion->sfbCnt = hParamMC->num_param_bands_synth; - move16(); - FOR( k = 0; k <= hParamMC->num_param_bands_synth; k++ ) - { - st_ivas->hLsSetUpConversion->sfbOffset[k] = imult1616( PARAM_MC_BAND_TO_MDCT_BAND_RATIO, hParamMC->band_grouping[k] ); - move16(); - } - FOR( ; k < MAX_SFB + 2; k++ ) - { - st_ivas->hLsSetUpConversion->sfbOffset[k] = 0; - move16(); - } - } - - IF( NE_16( nchan_transport_old, nchan_transport ) ) - { - free( hParamMC->proto_matrix_int_fx ); - IF( ( hParamMC->proto_matrix_int_fx = (Word32 *) malloc( nchan_out_transport * nchan_transport * sizeof( Word32 ) ) ) == NULL ) - { - return ( IVAS_ERROR( IVAS_ERR_FAILED_ALLOC, "Can not allocate memory for Parametric MC\n" ) ); - } - hParamMC->proto_matrix_int_len = imult1616( nchan_out_transport, nchan_transport ); - move16(); - Copy32( ivas_param_mc_conf[config_index].dmx_fac_fx, hParamMC->proto_matrix_int_fx, hParamMC->proto_matrix_int_len ); /*Q31*/ - } - - test(); - IF( EQ_16( hParamMC->synthesis_conf, PARAM_MC_SYNTH_LS_CONV_COV ) || EQ_16( hParamMC->synthesis_conf, PARAM_MC_SYNTH_MONO_STEREO ) ) - { - Scale_sig32( hParamMC->ls_conv_dmx_matrix_fx, imult1616( nchan_out_transport, nchan_out_cov ), -4 ); // Q30 -> Q26 - matrix_product_fx( hParamMC->ls_conv_dmx_matrix_fx, nchan_out_cov, nchan_out_transport, 0, - ivas_param_mc_conf[config_index].dmx_fac_fx, nchan_out_transport, nchan_transport, 0, - proto_matrix_fx /*Q26*/ ); - Scale_sig32( hParamMC->ls_conv_dmx_matrix_fx, imult1616( nchan_out_transport, nchan_out_cov ), 4 ); // Q26 -> Q30 - - IF( EQ_16( hParamMC->synthesis_conf, PARAM_MC_SYNTH_MONO_STEREO ) ) - { - proto_mtx_norm_fx = ONE_IN_Q26; // Q26 - move32(); - FOR( k = 0; k < nchan_transport * nchan_out_cov; k++ ) - { - proto_mtx_norm_fx = L_max( L_abs( proto_mtx_norm_fx ), L_abs( proto_matrix_fx[k] ) ); // Q26 - } - proto_mtx_norm_fx = divide3232( ONE_IN_Q26, proto_mtx_norm_fx ); /*Q15*/ - - /* transfer flattened proto_matrix to 2D in hLsSetupConversion->dmxMtx */ - FOR( k = 0; k < nchan_transport; k++ ) - { - FOR( Word16 i = 0; i < nchan_out_cov; i++ ) - { - st_ivas->hLsSetUpConversion->dmxMtx_fx[k][i] = L_shl( Mpy_32_16_1( proto_matrix_fx[k * nchan_out_cov + i], (Word16) proto_mtx_norm_fx ), 4 ); // Q26 -> Q30 - move32(); - } - } - } - } - ELSE - { - Copy32( ivas_param_mc_conf[config_index].dmx_fac_fx, proto_matrix_fx, imult1616( nchan_out_transport, nchan_transport ) ); // proto_matrix_fx -> Q31 - Scale_sig32( proto_matrix_fx, imult1616( nchan_out_transport, nchan_transport ), -5 ); // proto_matrix_fx -> Q26 - } - - test(); - IF( NE_16( nchan_transport_old, nchan_transport ) && NE_16( hParamMC->synthesis_conf, PARAM_MC_SYNTH_MONO_STEREO ) ) - { - Word16 i; - Word16 len; - - /* close decorrelator */ - ivas_dirac_dec_decorr_close_fx( &hParamMC->h_freq_domain_decorr_ap_params, &hParamMC->h_freq_domain_decorr_ap_state ); - - /* deallocate diffuse prototype info */ - IF( hParamMC->diff_proto_info ) - { - FOR( i = 0; i < hParamMC->diff_proto_info->num_protos_diff; i++ ) - { - free( hParamMC->diff_proto_info->source_chan_idx[i] ); - hParamMC->diff_proto_info->source_chan_idx[i] = NULL; - - free( hParamMC->diff_proto_info->proto_fac_fx[i] ); - hParamMC->diff_proto_info->proto_fac_fx[i] = NULL; - } - - free( hParamMC->diff_proto_info->source_chan_idx ); - hParamMC->diff_proto_info->source_chan_idx = NULL; - - free( hParamMC->diff_proto_info->proto_fac_fx ); - hParamMC->diff_proto_info->proto_fac_fx = NULL; - - free( hParamMC->diff_proto_info->proto_index_diff ); - hParamMC->diff_proto_info->proto_index_diff = NULL; - - free( hParamMC->diff_proto_info->num_source_chan_diff ); - hParamMC->diff_proto_info->num_source_chan_diff = NULL; - - free( hParamMC->diff_proto_info ); - hParamMC->diff_proto_info = NULL; - } - - hParamMC->num_outputs_diff = nchan_out_cov; - move16(); - IF( ( hParamMC->diff_proto_info = (PARAM_MC_DIFF_PROTO_INFO *) malloc( sizeof( PARAM_MC_DIFF_PROTO_INFO ) ) ) == NULL ) - { - return ( IVAS_ERROR( IVAS_ERR_FAILED_ALLOC, "Can not allocate memory for Parametric MC\n" ) ); - } - IF( ( param_mc_get_diff_proto_info_fx( proto_matrix_fx, nchan_transport, nchan_out_cov, hParamMC->diff_proto_info, Q26 ) ) != IVAS_ERR_OK ) - { - return error; - } - - /* decorrelation */ - hParamMC->h_freq_domain_decorr_ap_params = NULL; - hParamMC->h_freq_domain_decorr_ap_state = NULL; - - Word16 frequency_axis_fx[CLDFB_NO_CHANNELS_MAX]; - ivas_dirac_dec_get_frequency_axis_fx( frequency_axis_fx, output_Fs, hParamMC->num_freq_bands ); // Q0 - - IF( NE_32( ( error = ivas_dirac_dec_decorr_open_fx( &( hParamMC->h_freq_domain_decorr_ap_params ), &( hParamMC->h_freq_domain_decorr_ap_state ), hParamMC->num_freq_bands, hParamMC->num_outputs_diff, - hParamMC->diff_proto_info->num_protos_diff, DIRAC_SYNTHESIS_COV_MC_LS, frequency_axis_fx, nchan_transport, output_Fs ) ), - IVAS_ERR_OK ) ) - { - return error; - } - hParamMC->h_output_synthesis_params.use_onset_filters = 0; - move16(); - hParamMC->max_band_decorr = hParamMC->h_freq_domain_decorr_ap_params->max_band_decorr; - move16(); - /* init decorrelation */ - IF( hParamMC->max_band_decorr > 0 ) - { - - len = imult1616( hParamMC->diff_proto_info->num_protos_diff, hParamMC->h_freq_domain_decorr_ap_params->h_onset_detection_power_params.max_band_decorr ); - - /* init onsetDetectionPower */ - set_zero_fx( hParamMC->h_freq_domain_decorr_ap_state->h_onset_detection_power_state.onset_detector_1_fx, len ); - set_zero_fx( hParamMC->h_freq_domain_decorr_ap_state->h_onset_detection_power_state.onset_detector_2_fx, len ); - hParamMC->h_freq_domain_decorr_ap_state->h_onset_detection_power_state.q_onset_detector = Q31; - move16(); - } - } - hParamMC->max_band_energy_compensation = hParamMC->band_grouping[hParamMC->hMetadataPMC->nbands_coded]; - move16(); - max_param_band_residual = 0; - move16(); - - FOR( k = hParamMC->hMetadataPMC->num_parameter_bands; k >= 0; k-- ) - { - IF( LE_16( hParamMC->band_grouping[k], hParamMC->max_band_decorr ) ) - { - max_param_band_residual = k; - move16(); - assert( hParamMC->band_grouping[k] == hParamMC->max_band_decorr ); - BREAK; - } - } - - test(); - IF( NE_16( nchan_transport_old, nchan_transport ) || NE_16( num_param_bands_old, hParamMC->hMetadataPMC->num_parameter_bands ) ) - { - DIRAC_OUTPUT_SYNTHESIS_COV_STATE cov_state_old = hParamMC->h_output_synthesis_cov_state; - DIRAC_OUTPUT_SYNTHESIS_PARAMS params_old = hParamMC->h_output_synthesis_params; - - Word32 tmp_buf_fx[MAX_CICP_CHANNELS * MAX_CICP_CHANNELS]; - - set_zero_fx( tmp_buf_fx, MAX_CICP_CHANNELS * MAX_CICP_CHANNELS ); - - /* output synthesis */ - IF( NE_32( ( error = ivas_dirac_dec_output_synthesis_cov_open_fx( &( hParamMC->h_output_synthesis_params ), &( hParamMC->h_output_synthesis_cov_state ), hParamMC->max_band_decorr, PARAM_MC_MAX_NSLOTS, - hParamMC->hMetadataPMC->num_parameter_bands, max_param_band_residual, nchan_transport, nchan_out_cov, proto_matrix_fx ) ), - IVAS_ERR_OK ) ) - { - return error; - } - - ivas_param_mc_dec_compute_interpolator_fx( 0, 0, DEFAULT_JBM_CLDFB_TIMESLOTS, hParamMC->h_output_synthesis_params.interpolator_fx ); - - ivas_dirac_dec_output_synthesis_cov_init_fx( &( hParamMC->h_output_synthesis_cov_state ), nchan_transport, nchan_out_cov, hParamMC->hMetadataPMC->num_parameter_bands, max_param_band_residual ); - - /* map old to new parameter banding, only for same number of TCs, needs some more thought for changing number of TCs */ - test(); - IF( NE_16( num_param_bands_old, hParamMC->hMetadataPMC->num_parameter_bands ) && EQ_16( nchan_transport_old, nchan_transport ) ) - { - Word16 new_param_band_idx, source_param_idx; - - FOR( new_param_band_idx = 0; new_param_band_idx < hParamMC->hMetadataPMC->num_parameter_bands; new_param_band_idx++ ) - { - FOR( source_param_idx = 0; source_param_idx < parameter_band_mapping.n_source_bands[new_param_band_idx]; source_param_idx++ ) - { - /* Cx */ - v_multc_fixed_16( cov_state_old.cx_old_fx[parameter_band_mapping.source_band_idx[new_param_band_idx][source_param_idx]], parameter_band_mapping.source_band_factor_fx[new_param_band_idx][source_param_idx], tmp_buf_fx, imult1616( nchan_transport_old, nchan_transport_old ) ); // Q(31 - cov_state_old.cx_old_e) - v_add_fixed_me( tmp_buf_fx, cov_state_old.cx_old_e[parameter_band_mapping.source_band_idx[new_param_band_idx][source_param_idx]], hParamMC->h_output_synthesis_cov_state.cx_old_fx[new_param_band_idx], hParamMC->h_output_synthesis_cov_state.cx_old_e[new_param_band_idx], hParamMC->h_output_synthesis_cov_state.cx_old_fx[new_param_band_idx], &hParamMC->h_output_synthesis_cov_state.cx_old_e[new_param_band_idx], imult1616( nchan_transport_old, nchan_transport_old ), 0 ); // Q(31 - hParamMC->h_output_synthesis_cov_state.cx_old_e[new_param_band_idx]) - /* Cy */ - v_multc_fixed_16( cov_state_old.cy_old_fx[parameter_band_mapping.source_band_idx[new_param_band_idx][source_param_idx]], parameter_band_mapping.source_band_factor_fx[new_param_band_idx][source_param_idx], tmp_buf_fx, imult1616( nchan_out_cov, nchan_out_cov ) ); // Q(31 - cov_state_old.cy_old_e) - v_add_fixed_me( tmp_buf_fx, cov_state_old.cy_old_e[parameter_band_mapping.source_band_idx[new_param_band_idx][source_param_idx]], hParamMC->h_output_synthesis_cov_state.cy_old_fx[new_param_band_idx], hParamMC->h_output_synthesis_cov_state.cy_old_e[new_param_band_idx], hParamMC->h_output_synthesis_cov_state.cy_old_fx[new_param_band_idx], &hParamMC->h_output_synthesis_cov_state.cy_old_e[new_param_band_idx], imult1616( nchan_out_cov, nchan_out_cov ), 0 ); // Q(31 - hParamMC->h_output_synthesis_cov_state.cy_old_e[new_param_band_idx]) - /* mixing matrix*/ - v_multc_fixed_16( cov_state_old.mixing_matrix_old_fx[parameter_band_mapping.source_band_idx[new_param_band_idx][source_param_idx]], parameter_band_mapping.source_band_factor_fx[new_param_band_idx][source_param_idx], tmp_buf_fx, imult1616( nchan_transport_old, nchan_out_cov ) ); // Q(31 - mixing_matrix_old_exp) - v_add_fixed_me( tmp_buf_fx, cov_state_old.mixing_matrix_old_exp[parameter_band_mapping.source_band_idx[new_param_band_idx][source_param_idx]], hParamMC->h_output_synthesis_cov_state.mixing_matrix_old_fx[new_param_band_idx], hParamMC->h_output_synthesis_cov_state.mixing_matrix_old_exp[new_param_band_idx], hParamMC->h_output_synthesis_cov_state.mixing_matrix_old_fx[new_param_band_idx], &hParamMC->h_output_synthesis_cov_state.mixing_matrix_old_exp[new_param_band_idx], imult1616( nchan_transport_old, nchan_out_cov ), 0 ); // Q(31 - hParamMC->h_output_synthesis_cov_state.mixing_matrix_old_exp[new_param_band_idx]) - } - } - FOR( new_param_band_idx = 0; new_param_band_idx < max_param_band_residual; new_param_band_idx++ ) - { - FOR( source_param_idx = 0; source_param_idx < parameter_band_mapping.n_source_bands[new_param_band_idx]; source_param_idx++ ) - { - /* residual mixing matrix*/ - v_multc_fixed_16( cov_state_old.mixing_matrix_res_old_fx[parameter_band_mapping.source_band_idx[new_param_band_idx][source_param_idx]], parameter_band_mapping.source_band_factor_fx[new_param_band_idx][source_param_idx], tmp_buf_fx, imult1616( nchan_out_cov, nchan_out_cov ) ); // Q(31 - mixing_matrix_res_old_exp) - v_add_fixed_me( tmp_buf_fx, cov_state_old.mixing_matrix_res_old_exp[parameter_band_mapping.source_band_idx[new_param_band_idx][source_param_idx]], hParamMC->h_output_synthesis_cov_state.mixing_matrix_res_old_fx[new_param_band_idx], hParamMC->h_output_synthesis_cov_state.mixing_matrix_res_old_exp[new_param_band_idx], hParamMC->h_output_synthesis_cov_state.mixing_matrix_res_old_fx[new_param_band_idx], &hParamMC->h_output_synthesis_cov_state.mixing_matrix_res_old_exp[new_param_band_idx], imult1616( nchan_out_cov, nchan_out_cov ), 0 ); // Q(hParamMC->h_output_synthesis_cov_state.mixing_matrix_res_old_exp[new_param_band_idx]) - } - } - } - ivas_dirac_dec_output_synthesis_cov_close_fx( ¶ms_old, &cov_state_old ); - } - - /*-----------------------------------------------------------------* - * memory allocation - *-----------------------------------------------------------------*/ - - test(); - IF( ( hParamMC->max_band_decorr > 0 ) && NE_16( nchan_transport_old, nchan_transport ) ) - { - free( hParamMC->proto_frame_f_fx ); - IF( ( hParamMC->proto_frame_f_fx = (Word32 *) malloc( 2 * hParamMC->diff_proto_info->num_protos_diff * hParamMC->num_freq_bands * sizeof( Word32 ) ) ) == NULL ) - { - return ( IVAS_ERROR( IVAS_ERR_FAILED_ALLOC, "Can not allocate memory for Parametric MC\n" ) ); - } - set_zero_fx( hParamMC->proto_frame_f_fx, shl( imult1616( hParamMC->diff_proto_info->num_protos_diff, hParamMC->num_freq_bands ), 1 ) ); - } - - - IF( NE_16( nchan_transport_old, nchan_transport ) ) - { - IF( NE_16( hParamMC->synthesis_conf, PARAM_MC_SYNTH_MONO_STEREO ) ) - { - Word16 n_cldfb_slots; - IF( hParamMC->Cldfb_RealBuffer_tc_fx != NULL ) - { - free( hParamMC->Cldfb_RealBuffer_tc_fx ); - hParamMC->Cldfb_RealBuffer_tc_fx = NULL; // Q12 - } - IF( hParamMC->Cldfb_ImagBuffer_tc_fx != NULL ) - { - free( hParamMC->Cldfb_ImagBuffer_tc_fx ); - hParamMC->Cldfb_ImagBuffer_tc_fx = NULL; // Q12 - } - - n_cldfb_slots = DEFAULT_JBM_CLDFB_TIMESLOTS; - move16(); - IF( st_ivas->hDecoderConfig->Opt_tsm ) - { - n_cldfb_slots = MAX_JBM_CLDFB_TIMESLOTS; - move16(); - } - Word16 cldfb_size = imult1616( imult1616( n_cldfb_slots, nchan_transport ), hParamMC->num_freq_bands ); - IF( ( hParamMC->Cldfb_RealBuffer_tc_fx = (Word32 *) malloc( cldfb_size * sizeof( Word32 ) ) ) == NULL ) - { - return ( IVAS_ERROR( IVAS_ERR_FAILED_ALLOC, "Can not allocate memory for Parametric MC JBM\n" ) ); - } - set_zero_fx( hParamMC->Cldfb_RealBuffer_tc_fx, cldfb_size ); - - IF( ( hParamMC->Cldfb_ImagBuffer_tc_fx = (Word32 *) malloc( cldfb_size * sizeof( Word32 ) ) ) == NULL ) - { - return ( IVAS_ERROR( IVAS_ERR_FAILED_ALLOC, "Can not allocate memory for Parametric MC JBM\n" ) ); - } - set_zero_fx( hParamMC->Cldfb_ImagBuffer_tc_fx, cldfb_size ); - } - ELSE - { - IF( hParamMC->Cldfb_RealBuffer_tc_fx != NULL ) - { - free( hParamMC->Cldfb_RealBuffer_tc_fx ); - hParamMC->Cldfb_RealBuffer_tc_fx = NULL; - } - IF( hParamMC->Cldfb_ImagBuffer_tc_fx != NULL ) - { - free( hParamMC->Cldfb_ImagBuffer_tc_fx ); - hParamMC->Cldfb_ImagBuffer_tc_fx = NULL; - } - } - } - return error; -} - - -/*------------------------------------------------------------------------- - * param_mc_get_num_cldfb_syntheses() - * - * calculate the necessary number of CLDFB synthesis instances - *------------------------------------------------------------------------*/ - -/*! r: number of cldfb synthesis instances */ -Word16 param_mc_get_num_cldfb_syntheses_fx( - Decoder_Struct *st_ivas /* i : Parametric MC handle */ -) -{ - Word16 num_cldfb_syntheses; - - num_cldfb_syntheses = 0; - move16(); - - /* sanity check*/ - IF( st_ivas->hParamMC == NULL ) - { - assert( 0 && "ParamMC handle does not exist!\n" ); - } - - test(); - IF( EQ_32( st_ivas->renderer_type, RENDERER_BINAURAL_FASTCONV ) || EQ_32( st_ivas->renderer_type, RENDERER_BINAURAL_FASTCONV_ROOM ) ) - { - num_cldfb_syntheses = 2; - move16(); - } - ELSE IF( EQ_32( st_ivas->renderer_type, RENDERER_SBA_LINEAR_ENC ) ) - { - num_cldfb_syntheses = add( st_ivas->hTransSetup.nchan_out_woLFE, st_ivas->hTransSetup.num_lfe ); - } - ELSE IF( EQ_32( st_ivas->renderer_type, RENDERER_MC_PARAMMC ) ) - { - num_cldfb_syntheses = add( st_ivas->hOutSetup.nchan_out_woLFE, st_ivas->hOutSetup.num_lfe ); - } - - return num_cldfb_syntheses; -} - - -/*------------------------------------------------------------------------- - * ivas_param_mc_dec_close() - * - * Close Parametric MC memories - *------------------------------------------------------------------------*/ - -void ivas_param_mc_dec_close_fx( - PARAM_MC_DEC_HANDLE *hParamMC_out /* i/o: Parametric MC decoder handle */ -) -{ - UWord16 i; - PARAM_MC_DEC_HANDLE hParamMC; - - IF( hParamMC_out == NULL || *hParamMC_out == NULL ) - { - return; - } - - hParamMC = *hParamMC_out; - - /* close sub-modules */ - ivas_dirac_dec_output_synthesis_cov_close_fx( &hParamMC->h_output_synthesis_params, &hParamMC->h_output_synthesis_cov_state ); - - IF( hParamMC->h_freq_domain_decorr_ap_params != NULL || hParamMC->h_freq_domain_decorr_ap_state != NULL ) - { - ivas_dirac_dec_decorr_close_fx( &hParamMC->h_freq_domain_decorr_ap_params, &hParamMC->h_freq_domain_decorr_ap_state ); - } - - /* parameter decoding */ - IF( hParamMC->hMetadataPMC != NULL ) - { - free( hParamMC->hMetadataPMC ); - hParamMC->hMetadataPMC = NULL; - } - IF( hParamMC->icc_q_fx != NULL ) - { - free( hParamMC->icc_q_fx ); - hParamMC->icc_q_fx = NULL; // Q15 - } - - IF( hParamMC->icld_q_fx != NULL ) - { - free( hParamMC->icld_q_fx ); - hParamMC->icld_q_fx = NULL; // Q8 - } - /* diffuse prototype info */ - IF( hParamMC->diff_proto_info ) - { - FOR( i = 0; i < hParamMC->diff_proto_info->num_protos_diff; i++ ) - { - free( hParamMC->diff_proto_info->source_chan_idx[i] ); - hParamMC->diff_proto_info->source_chan_idx[i] = NULL; - - free( hParamMC->diff_proto_info->proto_fac_fx[i] ); - hParamMC->diff_proto_info->proto_fac_fx[i] = NULL; - } - - free( hParamMC->diff_proto_info->source_chan_idx ); - hParamMC->diff_proto_info->source_chan_idx = NULL; - - free( hParamMC->diff_proto_info->proto_fac_fx ); - hParamMC->diff_proto_info->proto_fac_fx = NULL; - - free( hParamMC->diff_proto_info->proto_index_diff ); - hParamMC->diff_proto_info->proto_index_diff = NULL; - - free( hParamMC->diff_proto_info->num_source_chan_diff ); - hParamMC->diff_proto_info->num_source_chan_diff = NULL; - - free( hParamMC->diff_proto_info ); - hParamMC->diff_proto_info = NULL; - } - /* States */ - /* free prototype signal buffers */ - IF( hParamMC->proto_frame_f_fx != NULL ) - { - free( hParamMC->proto_frame_f_fx ); - hParamMC->proto_frame_f_fx = NULL; - } - - IF( hParamMC->proto_frame_dec_f_fx != NULL ) - { - free( hParamMC->proto_frame_dec_f_fx ); - hParamMC->proto_frame_dec_f_fx = NULL; - } - - IF( hParamMC->ls_conv_dmx_matrix_fx != NULL ) - { - free( hParamMC->ls_conv_dmx_matrix_fx ); - hParamMC->ls_conv_dmx_matrix_fx = NULL; - } - - IF( hParamMC->proto_matrix_int_fx != NULL ) - { - free( hParamMC->proto_matrix_int_fx ); - hParamMC->proto_matrix_int_fx = NULL; - } - - IF( hParamMC->hoa_encoder_fx != NULL ) - { - free( hParamMC->hoa_encoder_fx ); - hParamMC->hoa_encoder_fx = NULL; - } - IF( hParamMC->Cldfb_RealBuffer_tc_fx != NULL ) - { - free( hParamMC->Cldfb_RealBuffer_tc_fx ); - hParamMC->Cldfb_RealBuffer_tc_fx = NULL; - } - IF( hParamMC->Cldfb_ImagBuffer_tc_fx != NULL ) - { - free( hParamMC->Cldfb_ImagBuffer_tc_fx ); - hParamMC->Cldfb_ImagBuffer_tc_fx = NULL; - } - - free( *hParamMC_out ); - *hParamMC_out = NULL; - - return; -} - - -/*------------------------------------------------------------------------- - * ivas_param_mc_dec_read_BS() - * - * Read the Parametric MC metadata - *------------------------------------------------------------------------*/ - -void ivas_param_mc_dec_read_BS_fx( - const Word32 ivas_total_brate, /* i : IVAS total bitrate */ - Decoder_State *st, /* i/o: decoder state structure */ - PARAM_MC_DEC_HANDLE hParamMC, /* i/o: decoder ParamMC handle */ - Word16 *nb_bits /* o : number of bits written */ -) -{ - Word16 param_frame_idx; - Word16 band_step; - UWord16 bit_buffer[PARAM_MC_MAX_BITS]; - Word16 bits_to_copy; - Word16 bit_pos; - Word16 num_lfe_bands; - Word16 num_param_bands; - Word16 metadata_bit_pos; - Word16 i, j, k; - Word16 icc_map_size; - Word16 icc_map_size_wo_lfe; - Word16 ild_map_size; - Word16 ild_map_size_wo_lfe; - HANDLE_IVAS_PARAM_MC_METADATA hMetadataPMC; - - push_wmops( "param_mc_read_bs" ); - - /* Inits */ - *nb_bits = 0; - move16(); - hMetadataPMC = hParamMC->hMetadataPMC; - icc_map_size = hMetadataPMC->icc_mapping_conf->icc_map_size_lfe; - move16(); - icc_map_size_wo_lfe = hMetadataPMC->icc_mapping_conf->icc_map_size_wo_lfe; - move16(); - ild_map_size = hMetadataPMC->ild_mapping_conf->ild_map_size_lfe; - move16(); - ild_map_size_wo_lfe = hMetadataPMC->ild_mapping_conf->ild_map_size_wo_lfe; - move16(); - - IF( !st->bfi ) - { - /*metadata_bit_pos = extract_l(ivas_total_brate / FRAMES_PER_SEC - 1); - bits_to_copy = s_min(extract_l(ivas_total_brate / FRAMES_PER_SEC), PARAM_MC_MAX_BITS);*/ - Word16 temp = extract_l( Mpy_32_32_r( ivas_total_brate, ONE_BY_FRAMES_PER_SEC_Q31 ) ); - metadata_bit_pos = sub( temp, 1 ); - bits_to_copy = s_min( temp, PARAM_MC_MAX_BITS ); - - /* copy and reverse metadata */ - FOR( bit_pos = 0; bit_pos < bits_to_copy; bit_pos++ ) - { - bit_buffer[bit_pos] = st->bit_stream[metadata_bit_pos]; - move16(); - metadata_bit_pos = sub( metadata_bit_pos, 1 ); - move16(); - } - - bit_pos = 0; - move16(); - - /* read reserved bit */ - hMetadataPMC->lfe_on = bit_buffer[bit_pos++]; - move16(); - - /* get coded bwidth */ - { - Word16 pos; - Word16 bw = 0; - move16(); - FOR( pos = 0; pos < 2; pos++ ) - { - bw = add( bw, extract_l( L_shl( bit_buffer[bit_pos++], pos ) ) ); - } - hMetadataPMC->coded_bwidth = bw; - move16(); - } - - /* set tables if coded band width differs from last frame */ - IF( NE_16( hMetadataPMC->coded_bwidth, hMetadataPMC->last_coded_bwidth ) ) - { - ivas_param_mc_set_coded_bands_fx( hMetadataPMC ); - param_mc_set_num_synth_bands( st->output_Fs, hParamMC ); - hParamMC->max_band_energy_compensation = hParamMC->band_grouping[hParamMC->num_param_bands_synth]; - move16(); - } - - param_frame_idx = bit_buffer[bit_pos++]; - move16(); - hMetadataPMC->param_frame_idx = param_frame_idx; - move16(); - num_param_bands = hMetadataPMC->nbands_in_param_frame[param_frame_idx]; - move16(); - - hMetadataPMC->bAttackPresent = bit_buffer[bit_pos++]; - move16(); - hMetadataPMC->attackIndex = 0; - move16(); - band_step = 1; - move16(); - num_lfe_bands = 0; - move16(); - - IF( hMetadataPMC->bAttackPresent ) - { - FOR( i = 2; i >= 0; i-- ) - { - hMetadataPMC->attackIndex = add( hMetadataPMC->attackIndex, extract_l( L_shl( bit_buffer[bit_pos++], i ) ) ); - } - - band_step = PARAM_MC_TRANSIENT_BAND_STEP; - move16(); - - /*num_lfe_bands = add(PARAM_MC_MAX_BAND_LFE / band_step, (PARAM_MC_MAX_BAND_LFE % band_step) ? 1 : 0); - num_param_bands = add(hMetadataPMC->nbands_coded / band_step, ((hMetadataPMC->nbands_coded % band_step) ? 1 : 0));*/ - Word16 temp_e; - temp = BASOP_Util_Divide3232_Scale( PARAM_MC_MAX_BAND_LFE, band_step, &temp_e ); - temp = shr( temp, sub( 15, temp_e ) ); - Word16 temp1; - IF( PARAM_MC_MAX_BAND_LFE % band_step ) - { - temp1 = 1; - } - ELSE - { - temp1 = 0; - } - move16(); - num_lfe_bands = add( temp, temp1 ); - - temp = BASOP_Util_Divide3232_Scale( hMetadataPMC->nbands_coded, band_step, &temp_e ); - temp = shr( temp, sub( 15, temp_e ) ); - Word16 temp2; - IF( hMetadataPMC->nbands_coded % band_step ) - { - temp2 = 1; - } - ELSE - { - temp2 = 0; - } - move16(); - num_param_bands = add( temp, temp2 ); - } - ELSE - { - FOR( j = 0; j < PARAM_MC_MAX_BAND_LFE; j += band_step ) - { - IF( EQ_16( param_frame_idx, hMetadataPMC->coding_band_mapping[j] ) ) - { - /* LFE ICC is always the last ICC in coding band 0 */ - num_lfe_bands = add( num_lfe_bands, 1 ); - move16(); - } - } - } - - IF( !hMetadataPMC->lfe_on ) - { - num_lfe_bands = 0; - move16(); - } - - ivas_param_mc_bs_decode_parameter_values_fx( bit_buffer, &bit_pos, bits_to_copy, &st->BER_detect, hMetadataPMC, &hMetadataPMC->icc_coding, - icc_map_size_wo_lfe, icc_map_size, num_lfe_bands, band_step, num_param_bands, hParamMC->icc_q_fx ); - - IF( !st->BER_detect ) - { - ivas_param_mc_bs_decode_parameter_values_fx( bit_buffer, &bit_pos, bits_to_copy, &st->BER_detect, hMetadataPMC, &hMetadataPMC->ild_coding, - ild_map_size_wo_lfe, ild_map_size, num_lfe_bands, band_step, num_param_bands, hParamMC->icld_q_fx ); - } - /* set LFE ILD and ICC to zero above PARAM_MC_MAX_BAND_LFE for attack frames */ - IF( hMetadataPMC->bAttackPresent ) - { - FOR( k = PARAM_MC_MAX_BAND_LFE; k < imult1616( band_step, num_lfe_bands ); k++ ) - { - hParamMC->icc_q_fx[L_sub( L_mult0( add( k, 1 ), icc_map_size ), 1 )] = 32767; /* 1.0f in Q15 */ - move16(); - hParamMC->icld_q_fx[L_sub( L_mult0( add( k, 1 ), ild_map_size ), 1 )] = PARAM_MC_DEFAULT_MIN_ILD_FX; /* -92.0f in Q8 */ - move16(); - } - } - - *nb_bits = bit_pos; - move16(); - - } /* if ( !st->bfi ) */ - - IF( st->bfi ) - { - /* for PLC, use the saved ILDs and ICCs from the past and set the transient flag and transient position to zero */ - hMetadataPMC->bAttackPresent = 0; - move16(); - hMetadataPMC->attackIndex = 0; - move16(); - } - - pop_wmops(); - - return; -} - - -/*------------------------------------------------------------------------- - * ivas_param_mc_dec_digest_tc() - * - * - *------------------------------------------------------------------------*/ - -void ivas_param_mc_dec_digest_tc_fx( - Decoder_Struct *st_ivas, /* i/o: IVAS decoder handle */ - const uint8_t nCldfbSlots, /* i : number of CLFBS slots in the transport channels */ - Word32 *transport_channels_f_fx[], - Word16 transport_f_e ) -{ - PARAM_MC_DEC_HANDLE hParamMC; - Word16 i, ch; - Word16 is_next_band, skip_next_band; - Word16 slot_idx, param_band_idx; - Word16 nchan_transport, nchan_out_transport, nchan_out_cldfb; - Word16 nchan_out_cov; - /*CLDFB*/ - /* format converter */ - Word16 channel_active[MAX_OUTPUT_CHANNELS]; - IVAS_OUTPUT_SETUP *hSynthesisOutputSetup; - - hParamMC = st_ivas->hParamMC; - assert( hParamMC ); - Word32 *pCx, *pCx_imag; - Word32 cx_fx[PARAM_MC_MAX_TRANSPORT_CHANS * PARAM_MC_MAX_TRANSPORT_CHANS]; // Q(31 - cx_e) - Word32 cx_imag_fx[PARAM_MC_MAX_TRANSPORT_CHANS * PARAM_MC_MAX_TRANSPORT_CHANS]; // Q(31 - cx_imag_e) - Word32 cx_next_band_fx[PARAM_MC_MAX_TRANSPORT_CHANS * PARAM_MC_MAX_TRANSPORT_CHANS]; // Q(31 - cx_next_band_e) - Word32 cx_imag_next_band_fx[PARAM_MC_MAX_TRANSPORT_CHANS * PARAM_MC_MAX_TRANSPORT_CHANS]; // Q(31 - cx_imag_next_band_e) - - Word16 cx_buff_e[2][PARAM_MC_MAX_TRANSPORT_CHANS * PARAM_MC_MAX_TRANSPORT_CHANS]; - Word16 cx_e; - Word16 cx_imag_e, tmp_e; - Word16 cx_imag_next_band_e, cx_next_band_e; - Word16 qout = 0; - move16(); - - Word32 real_part_fx, imag_part_fx, L_tmp1, L_tmp2; - - Word16 max_e; - - push_wmops( "param_mc_dec_digest_tc" ); - - set16_fx( channel_active, 0, MAX_CICP_CHANNELS ); - nchan_transport = st_ivas->nchan_transport; - move16(); - nchan_out_transport = add( st_ivas->hTransSetup.nchan_out_woLFE, st_ivas->hTransSetup.num_lfe ); - - test(); - test(); - IF( EQ_32( st_ivas->renderer_type, RENDERER_BINAURAL_FASTCONV ) || EQ_32( st_ivas->renderer_type, RENDERER_BINAURAL_FASTCONV_ROOM ) ) - { - nchan_out_cldfb = BINAURAL_CHANNELS; - move16(); - set16_fx( channel_active, 1, nchan_out_cldfb ); - nchan_out_cov = add( st_ivas->hTransSetup.nchan_out_woLFE, st_ivas->hTransSetup.num_lfe ); - hSynthesisOutputSetup = &st_ivas->hTransSetup; - } - ELSE IF( EQ_32( hParamMC->synthesis_conf, PARAM_MC_SYNTH_LS_CONV_CLDFB ) ) - { - nchan_out_cov = nchan_out_transport; - move16(); - nchan_out_cldfb = add( st_ivas->hOutSetup.nchan_out_woLFE, st_ivas->hOutSetup.num_lfe ); - hSynthesisOutputSetup = &st_ivas->hTransSetup; - } - ELSE IF( EQ_32( hParamMC->synthesis_conf, PARAM_MC_SYNTH_LS_CONV_COV ) || EQ_32( hParamMC->synthesis_conf, PARAM_MC_SYNTH_MONO_STEREO ) ) - { - nchan_out_cov = add( st_ivas->hOutSetup.nchan_out_woLFE, st_ivas->hOutSetup.num_lfe ); - nchan_out_cldfb = nchan_out_cov; - move16(); - set16_fx( channel_active, 1, nchan_out_cov ); - hSynthesisOutputSetup = &st_ivas->hOutSetup; - } - ELSE - { - nchan_out_cov = nchan_out_transport; - move16(); - nchan_out_cldfb = nchan_out_transport; - move16(); - set16_fx( channel_active, 1, nchan_out_cov ); - hSynthesisOutputSetup = &st_ivas->hTransSetup; - } - - /* adapt transient position */ - IF( hParamMC->hMetadataPMC->bAttackPresent ) - { - hParamMC->hMetadataPMC->attackIndex = s_max( 0, add( hParamMC->hMetadataPMC->attackIndex, shr( sub( nCldfbSlots, DEFAULT_JBM_CLDFB_TIMESLOTS ), 1 ) ) ); - move16(); - } - /* adapt subframes */ - hParamMC->num_slots = nCldfbSlots; - move16(); - hParamMC->slots_rendered = 0; - move16(); - hParamMC->subframes_rendered = 0; - move16(); - ivas_jbm_dec_get_adapted_subframes( nCldfbSlots, hParamMC->subframe_nbslots, &hParamMC->nb_subframes ); - st_ivas->hTcBuffer->nb_subframes = hParamMC->nb_subframes; - move16(); - Copy( hParamMC->subframe_nbslots, st_ivas->hTcBuffer->subframe_nbslots, hParamMC->nb_subframes ); - - ivas_param_mc_dec_compute_interpolator_fx( hParamMC->hMetadataPMC->bAttackPresent, hParamMC->hMetadataPMC->attackIndex, nCldfbSlots, hParamMC->h_output_synthesis_params.interpolator_fx ); - - /* loop over two bands at a time */ - FOR( param_band_idx = 0; param_band_idx < hParamMC->num_param_bands_synth; param_band_idx += 2 ) - { - /* don't process next band if it exceeds the limit */ - skip_next_band = ( ( param_band_idx + 1 ) == hParamMC->num_param_bands_synth ) ? 1 : 0; - - set_zero_fx( cx_fx, PARAM_MC_MAX_TRANSPORT_CHANS * PARAM_MC_MAX_TRANSPORT_CHANS ); - set_zero_fx( cx_imag_fx, PARAM_MC_MAX_TRANSPORT_CHANS * PARAM_MC_MAX_TRANSPORT_CHANS ); - set_zero_fx( cx_next_band_fx, PARAM_MC_MAX_TRANSPORT_CHANS * PARAM_MC_MAX_TRANSPORT_CHANS ); - set_zero_fx( cx_imag_next_band_fx, PARAM_MC_MAX_TRANSPORT_CHANS * PARAM_MC_MAX_TRANSPORT_CHANS ); - - cx_e = 0; - move16(); - cx_imag_e = 0; - move16(); - cx_next_band_e = 0; - move16(); - cx_imag_next_band_e = 0; - move16(); - /* slot loop for gathering the input data */ - FOR( slot_idx = 0; slot_idx < nCldfbSlots; slot_idx++ ) - { - IF( st_ivas->hDecoderConfig->Opt_tsm ) - { - IF( param_band_idx == 0 ) /* only run cldfbAna once */ - { - Word32 RealBuffer_fx[CLDFB_NO_CHANNELS_MAX]; - Word32 ImagBuffer_fx[CLDFB_NO_CHANNELS_MAX]; - - /* CLDFB Analysis*/ - FOR( ch = 0; ch < nchan_transport; ch++ ) - { - qout = transport_f_e; - move16(); - cldfbAnalysis_ts_fx_fixed_q( &( transport_channels_f_fx[ch][hParamMC->num_freq_bands * slot_idx] ), RealBuffer_fx, ImagBuffer_fx, hParamMC->num_freq_bands, st_ivas->cldfbAnaDec[ch], &qout ); - - Copy32( RealBuffer_fx, &hParamMC->Cldfb_RealBuffer_tc_fx[slot_idx * hParamMC->num_freq_bands * nchan_transport + ch * hParamMC->num_freq_bands], hParamMC->num_freq_bands ); - Copy32( ImagBuffer_fx, &hParamMC->Cldfb_ImagBuffer_tc_fx[slot_idx * hParamMC->num_freq_bands * nchan_transport + ch * hParamMC->num_freq_bands], hParamMC->num_freq_bands ); - } - - hParamMC->Cldfb_ImagBuffer_tc_e = qout; - move16(); - } - } - IF( GE_16( slot_idx, shl( hParamMC->hMetadataPMC->attackIndex, 1 ) ) ) - { - FOR( is_next_band = 0; is_next_band < 2; is_next_band++ ) - { - test(); - IF( is_next_band && skip_next_band ) - { - continue; - } - IF( is_next_band ) - { - ivas_dirac_dec_output_synthesis_cov_param_mc_collect_slot_fx( &hParamMC->Cldfb_RealBuffer_tc_fx[slot_idx * hParamMC->num_freq_bands * nchan_transport], - /*hParamMC->Cldfb_RealBuffer_tc_e*/ Q31 - Q6, - &hParamMC->Cldfb_ImagBuffer_tc_fx[slot_idx * hParamMC->num_freq_bands * nchan_transport], - /*hParamMC->Cldfb_ImagBuffer_tc_e*/ Q31 - Q6, - cx_next_band_fx, - &cx_next_band_e, - cx_imag_next_band_fx, - &cx_imag_next_band_e, - hParamMC, - add( param_band_idx, is_next_band ), - nchan_transport ); - } - ELSE - { - ivas_dirac_dec_output_synthesis_cov_param_mc_collect_slot_fx( &hParamMC->Cldfb_RealBuffer_tc_fx[slot_idx * hParamMC->num_freq_bands * nchan_transport], - /*hParamMC->Cldfb_RealBuffer_tc_e*/ Q31 - Q6, - &hParamMC->Cldfb_ImagBuffer_tc_fx[slot_idx * hParamMC->num_freq_bands * nchan_transport], - /*hParamMC->Cldfb_ImagBuffer_tc_e*/ Q31 - Q6, - cx_fx, - &cx_e, - cx_imag_fx, - &cx_imag_e, - hParamMC, - add( param_band_idx, is_next_band ), - nchan_transport ); - } - } - } - } - - Word16 tmp_cx_e, tmp_cx_imag_e; - /* map from complex input covariance to real values */ - FOR( is_next_band = 0; is_next_band < 2; is_next_band++ ) - { - test(); - IF( is_next_band && skip_next_band ) - { - continue; - } - /* Cx for transport channels */ - IF( is_next_band ) - { - pCx = &cx_next_band_fx[0]; - pCx_imag = &cx_imag_next_band_fx[0]; - tmp_cx_e = cx_next_band_e; - tmp_cx_imag_e = cx_imag_next_band_e; - } - ELSE - { - pCx = &cx_fx[0]; - pCx_imag = &cx_imag_fx[0]; - tmp_cx_e = cx_e; - tmp_cx_imag_e = cx_imag_e; - } - - FOR( i = 0; i < nchan_transport * nchan_transport; i++ ) - { - real_part_fx = pCx[i]; // Q(31 - cx_buff_e) - imag_part_fx = pCx_imag[i]; - move32(); - move32(); - cx_buff_e[is_next_band][i] = tmp_cx_e; - move16(); - /* (a-ib)(c+id) = ac + bd + i(ad-bc) */ - IF( LT_16( param_band_idx, hParamMC->max_param_band_abs_cov ) ) - { - L_tmp1 = Mpy_32_32( real_part_fx, real_part_fx ); - L_tmp2 = Mpy_32_32( imag_part_fx, imag_part_fx ); - L_tmp1 = BASOP_Util_Add_Mant32Exp( L_tmp1, add( tmp_cx_e, tmp_cx_e ), L_tmp2, add( tmp_cx_imag_e, tmp_cx_imag_e ), &tmp_e ); - pCx[i] = Sqrt32( L_tmp1, &tmp_e ); - move32(); - cx_buff_e[is_next_band][i] = tmp_e; - move16(); - } - ELSE - { - pCx[i] = real_part_fx; - move32(); - cx_buff_e[is_next_band][i] = tmp_cx_e; - move16(); - } - } - } - - max_e = cx_buff_e[0][0]; - move16(); - - /* Cx for transport channels */ - FOR( is_next_band = 0; is_next_band < 2; is_next_band++ ) - { - FOR( i = 0; i < imult1616( nchan_transport, nchan_transport ); i++ ) - { - - IF( LT_16( max_e, cx_buff_e[is_next_band][i] ) ) - { - max_e = cx_buff_e[is_next_band][i]; - } - } - } - /* Cx for transport channels */ - FOR( is_next_band = 0; is_next_band < 2; is_next_band++ ) - { - FOR( i = 0; i < imult1616( nchan_transport, nchan_transport ); i++ ) - { - if ( is_next_band == 0 ) - { - cx_fx[i] = L_shr( cx_fx[i], sub( max_e, cx_buff_e[is_next_band][i] ) ); - } - else - { - cx_next_band_fx[i] = L_shr( cx_next_band_fx[i], sub( max_e, cx_buff_e[is_next_band][i] ) ); - } - move32(); - } - } - cx_e = max_e; - move16(); - - - /* we have to do it similar to the encoder in case of attacks (i.e. accumulate two bands) to ensure correct DMX of the target covariance*/ - - test(); - test(); - IF( hParamMC->hMetadataPMC->bAttackPresent && ( EQ_32( hParamMC->synthesis_conf, PARAM_MC_SYNTH_LS_CONV_COV ) || EQ_32( hParamMC->synthesis_conf, PARAM_MC_SYNTH_MONO_STEREO ) ) ) - { - v_add_fx( cx_fx, cx_next_band_fx, cx_fx, imult1616( nchan_transport, nchan_transport ) ); - Copy32( cx_fx, cx_next_band_fx, imult1616( nchan_transport, nchan_transport ) ); - } - - FOR( is_next_band = 0; is_next_band < 2; is_next_band++ ) - { - test(); - IF( is_next_band && skip_next_band ) - { - continue; - } - - IF( NE_32( hParamMC->synthesis_conf, PARAM_MC_SYNTH_MONO_STEREO ) ) - { - IF( is_next_band ) - { - - ivas_param_mc_get_mixing_matrices_fx( hParamMC, hSynthesisOutputSetup, cx_next_band_fx, cx_e, add( param_band_idx, is_next_band ), hParamMC->h_output_synthesis_cov_state.mixing_matrix_fx, hParamMC->h_output_synthesis_cov_state.mixing_matrix_exp, hParamMC->h_output_synthesis_cov_state.mixing_matrix_res_fx, hParamMC->h_output_synthesis_cov_state.mixing_matrix_res_exp, nchan_out_transport, hParamMC->synthesis_conf, nchan_transport, nchan_out_cov ); - } - ELSE - { - - ivas_param_mc_get_mixing_matrices_fx( hParamMC, hSynthesisOutputSetup, cx_fx, cx_e, add( param_band_idx, is_next_band ), hParamMC->h_output_synthesis_cov_state.mixing_matrix_fx, hParamMC->h_output_synthesis_cov_state.mixing_matrix_exp, hParamMC->h_output_synthesis_cov_state.mixing_matrix_res_fx, hParamMC->h_output_synthesis_cov_state.mixing_matrix_res_exp, nchan_out_transport, hParamMC->synthesis_conf, nchan_transport, nchan_out_cov ); - } - } - } - } - pop_wmops(); - - return; -} - - -/*------------------------------------------------------------------------- - * ivas_param_mc_dec() - * - * Parametric MC decoding process - *------------------------------------------------------------------------*/ - -void ivas_param_mc_dec_render_fx( - Decoder_Struct *st_ivas, /* i/o: IVAS decoder handle */ - const UWord16 nSamplesAsked, /* i : number of CLDFB slots requested */ - UWord16 *nSamplesRendered, /* o : number of CLDFB slots rendered */ - UWord16 *nSamplesAvailableNext, /* o : number of CLDFB slots still to render */ - Word32 *output_f_fx[], /* o : rendered time signal Q11*/ - Word16 channel_active_fx[MAX_OUTPUT_CHANNELS] ) -{ - PARAM_MC_DEC_HANDLE hParamMC; - Word16 i, ch; - Word16 subframe_idx; - Word16 slot_idx, slot_idx_start, slot_idx_start_cldfb_synth, first_sf, last_sf, slots_to_render; - Word16 nchan_transport, nchan_out_transport, nchan_out_cldfb; - Word16 nchan_out_cov; - - /*CLDFB*/ - Word32 Cldfb_RealBuffer_fx[MAX_INTERN_CHANNELS][PARAM_MC_MAX_NSLOTS_IN_SUBFRAME][CLDFB_NO_CHANNELS_MAX]; - Word32 Cldfb_ImagBuffer_fx[MAX_INTERN_CHANNELS][PARAM_MC_MAX_NSLOTS_IN_SUBFRAME][CLDFB_NO_CHANNELS_MAX]; -#ifdef SPLIT_REND_WITH_HEAD_ROT - Word32 Cldfb_RealBuffer_Binaural_fx[MAX_HEAD_ROT_POSES][BINAURAL_CHANNELS][PARAM_MC_MAX_NSLOTS_IN_SUBFRAME][CLDFB_NO_CHANNELS_MAX]; - Word32 Cldfb_ImagBuffer_Binaural_fx[MAX_HEAD_ROT_POSES][BINAURAL_CHANNELS][PARAM_MC_MAX_NSLOTS_IN_SUBFRAME][CLDFB_NO_CHANNELS_MAX]; -#else - Word32 Cldfb_RealBuffer_Binaural_fx[BINAURAL_CHANNELS][MAX_PARAM_SPATIAL_SUBFRAMES][CLDFB_NO_CHANNELS_MAX]; - Word32 Cldfb_ImagBuffer_Binaural_fx[BINAURAL_CHANNELS][MAX_PARAM_SPATIAL_SUBFRAMES][CLDFB_NO_CHANNELS_MAX]; -#endif - Word32 *p_output_f_fx[MAX_OUTPUT_CHANNELS]; - FOR( i = 0; i < MAX_OUTPUT_CHANNELS; i++ ) - { - p_output_f_fx[i] = output_f_fx[i]; // Q11 - } - /*Decorrelator*/ - Word32 onset_filter_fx[MAX_CICP_CHANNELS * CLDFB_NO_CHANNELS_MAX]; // Q31 - - /* format converter */ - Word16 channel_active[MAX_OUTPUT_CHANNELS]; - UWord16 nband_synth; -#ifndef MSAN_FIX - UWord16 nchan_out_init, nbands_to_zero; -#endif - UWord32 output_Fs; - Word16 tmp_q = 0; - move16(); - - hParamMC = st_ivas->hParamMC; - assert( hParamMC ); - - push_wmops( "param_mc_dec_render" ); - - set16_fx( channel_active, 0, MAX_CICP_CHANNELS ); - nchan_transport = st_ivas->nchan_transport; - move16(); - nchan_out_transport = add( st_ivas->hTransSetup.nchan_out_woLFE, st_ivas->hTransSetup.num_lfe ); -#ifndef MSAN_FIX - nchan_out_init = nchan_out_transport; - move16(); -#endif - output_Fs = st_ivas->hDecoderConfig->output_Fs; - move32(); - - test(); - test(); - IF( EQ_16( st_ivas->renderer_type, RENDERER_BINAURAL_FASTCONV ) || EQ_16( st_ivas->renderer_type, RENDERER_BINAURAL_FASTCONV_ROOM ) ) - { - nchan_out_cldfb = BINAURAL_CHANNELS; - set16_fx( channel_active, 1, nchan_out_cldfb ); -#ifndef MSAN_FIX - IF( st_ivas->hCombinedOrientationData ) - { - nchan_out_init = MAX_INTERN_CHANNELS; - } -#endif - nchan_out_cov = add( st_ivas->hTransSetup.nchan_out_woLFE, st_ivas->hTransSetup.num_lfe ); - } - ELSE IF( EQ_16( hParamMC->synthesis_conf, PARAM_MC_SYNTH_LS_CONV_CLDFB ) ) - { - nchan_out_cov = nchan_out_transport; - move16(); - nchan_out_cldfb = add( st_ivas->hOutSetup.nchan_out_woLFE, st_ivas->hOutSetup.num_lfe ); - } - ELSE IF( EQ_16( hParamMC->synthesis_conf, PARAM_MC_SYNTH_LS_CONV_COV ) || EQ_16( hParamMC->synthesis_conf, PARAM_MC_SYNTH_MONO_STEREO ) ) - { - nchan_out_cov = add( st_ivas->hOutSetup.nchan_out_woLFE, st_ivas->hOutSetup.num_lfe ); - nchan_out_cldfb = nchan_out_cov; - move16(); - set16_fx( channel_active, 1, nchan_out_cov ); - } - ELSE - { - nchan_out_cov = nchan_out_transport; - move16(); - nchan_out_cldfb = nchan_out_transport; - move16(); - set16_fx( channel_active, 1, nchan_out_cov ); - } - - /* set everything to zero that will not be decoded */ - nband_synth = hParamMC->band_grouping[hParamMC->num_param_bands_synth]; - move16(); -#ifdef MSAN_FIX - FOR( ch = 0; ch < MAX_OUTPUT_CHANNELS; ch++ ) -#else - FOR( ch = 0; ch < nchan_out_init; ch++ ) -#endif - { - FOR( slot_idx = 0; slot_idx < JBM_CLDFB_SLOTS_IN_SUBFRAME; slot_idx++ ) - { -#ifdef MSAN_FIX - set32_fx( &( Cldfb_RealBuffer_fx[ch][slot_idx][0] ), 0, CLDFB_NO_CHANNELS_MAX ); - set32_fx( &( Cldfb_ImagBuffer_fx[ch][slot_idx][0] ), 0, CLDFB_NO_CHANNELS_MAX ); -#else - set32_fx( &( Cldfb_RealBuffer_fx[ch][slot_idx][nband_synth] ), 0, nbands_to_zero ); - set32_fx( &( Cldfb_ImagBuffer_fx[ch][slot_idx][nband_synth] ), 0, nbands_to_zero ); -#endif - } - } - - /* loop FOR synthesis, assume we always have to render in multiples of 5ms subframes with spills */ - /*slots_to_render = min(sub(hParamMC->num_slots, hParamMC->slots_rendered), nSamplesAsked / NS2SA(output_Fs, CLDFB_SLOT_NS)); - *nSamplesRendered = slots_to_render * NS2SA(output_Fs, CLDFB_SLOT_NS);*/ - Word16 temp_e; - Word16 temp = BASOP_Util_Divide1616_Scale( nSamplesAsked, NS2SA( output_Fs, CLDFB_SLOT_NS ), &temp_e ); - temp = shr( temp, sub( 15, temp_e ) ); - slots_to_render = s_min( sub( hParamMC->num_slots, hParamMC->slots_rendered ), temp ); - *nSamplesRendered = imult1616( slots_to_render, NS2SA( output_Fs, CLDFB_SLOT_NS ) ); - move16(); - Word16 j, k; - first_sf = hParamMC->subframes_rendered; - move16(); - last_sf = first_sf; - move16(); - WHILE( slots_to_render > 0 ) - { - slots_to_render = sub( slots_to_render, hParamMC->subframe_nbslots[last_sf] ); - last_sf = add( last_sf, 1 ); - } - IF( EQ_16( st_ivas->renderer_type, RENDERER_SBA_LINEAR_ENC ) ) - { - FOR( subframe_idx = first_sf; subframe_idx < last_sf; subframe_idx++ ) - { - slots_to_render = add( slots_to_render, hParamMC->subframe_nbslots[subframe_idx] ); - } - } - slot_idx_start = hParamMC->slots_rendered; - move16(); - slot_idx_start_cldfb_synth = 0; - move16(); - -#ifndef FIX_1009_OPT_PARAMMC_RENDER - Flag is_zero = 1; - move32(); -#endif - FOR( j = 0; j < st_ivas->hParamMC->hMetadataPMC->nbands_coded; j++ ) - { -#ifndef FIX_1009_OPT_PARAMMC_RENDER - is_zero = 1; - move16(); - FOR( i = 0; i < hParamMC->h_output_synthesis_cov_state.mixing_matrix_len; i++ ) - { - IF( hParamMC->h_output_synthesis_cov_state.mixing_matrix_fx[j][i] != 0 ) - { - is_zero = 0; - move16(); - } - } - IF( is_zero ) - { - hParamMC->h_output_synthesis_cov_state.mixing_matrix_exp[j] = 0; - move16(); - } - is_zero = 1; - move16(); -#else - Flag is_zero = is_zero_arr( hParamMC->h_output_synthesis_cov_state.mixing_matrix_fx[j], hParamMC->h_output_synthesis_cov_state.mixing_matrix_len ); - { - if ( is_zero != 0 ) - { - hParamMC->h_output_synthesis_cov_state.mixing_matrix_exp[j] = 0; - move16(); - } - } -#endif - IF( LT_16( st_ivas->hParamMC->band_grouping[j], st_ivas->hParamMC->h_output_synthesis_params.max_band_decorr ) ) - { -#ifndef FIX_1009_OPT_PARAMMC_RENDER - FOR( i = 0; i < hParamMC->h_output_synthesis_cov_state.mixing_matrix_res_len; i++ ) - { - IF( NE_32( hParamMC->h_output_synthesis_cov_state.mixing_matrix_res_fx[j][i], 0 ) ) - { - is_zero = 0; - move16(); - } - } - IF( is_zero ) -#else - is_zero = is_zero_arr( hParamMC->h_output_synthesis_cov_state.mixing_matrix_res_fx[j], hParamMC->h_output_synthesis_cov_state.mixing_matrix_res_len ); - if ( is_zero != 0 ) -#endif - { - hParamMC->h_output_synthesis_cov_state.mixing_matrix_res_exp[j] = 0; - move16(); - } - } - } - FOR( subframe_idx = first_sf; subframe_idx < last_sf; subframe_idx++ ) - { - FOR( slot_idx = 0; slot_idx < hParamMC->subframe_nbslots[subframe_idx]; ( slot_idx++, hParamMC->slots_rendered++ ) ) - { - IF( hParamMC->max_band_decorr > 0 ) - { - /*-----------------------------------------------------------------* - * protoype signal computation - *-----------------------------------------------------------------*/ - param_mc_protoSignalComputation_fx( &hParamMC->Cldfb_RealBuffer_tc_fx[hParamMC->slots_rendered * nchan_transport * hParamMC->num_freq_bands], - &hParamMC->Cldfb_ImagBuffer_tc_fx[hParamMC->slots_rendered * nchan_transport * hParamMC->num_freq_bands], - hParamMC->proto_frame_f_fx, hParamMC->diff_proto_info, - hParamMC->num_freq_bands ); - /*-----------------------------------------------------------------* - * frequency domain decorrelation - *-----------------------------------------------------------------*/ - /* decorrelate prototype frame */ - - ivas_dirac_dec_decorr_process_fx( hParamMC->num_freq_bands, - hParamMC->num_outputs_diff, - hParamMC->diff_proto_info->num_protos_diff, - DIRAC_SYNTHESIS_COV_MC_LS, - nchan_transport, - hParamMC->proto_frame_f_fx, - Q5, - hParamMC->diff_proto_info->num_protos_diff, - hParamMC->diff_proto_info->proto_index_diff, - hParamMC->proto_frame_dec_f_fx, // output - &tmp_q, - onset_filter_fx, - hParamMC->h_freq_domain_decorr_ap_params, - hParamMC->h_freq_domain_decorr_ap_state ); - - /* copy decorrelated frame directly to output CLDFB buffer, acts also as intermediate */ - /* memory FOR the decorrelated signal */ - ivas_param_mc_dec_copy_diffuse_proto( hParamMC, Cldfb_RealBuffer_fx, Cldfb_ImagBuffer_fx, nchan_out_cov, slot_idx ); // Returns Cldfb buffers in Q11(tmp_q) - - FOR( k = 0; k < nchan_out_cov; k++ ) - { - FOR( Word16 l = 0; l < hParamMC->h_output_synthesis_params.max_band_decorr; l++ ) - { - Cldfb_RealBuffer_fx[k][slot_idx][l] = L_shl( Cldfb_RealBuffer_fx[k][slot_idx][l], sub( 6, tmp_q ) ); // Q11(tmp_q) -> Q6 - move32(); - Cldfb_ImagBuffer_fx[k][slot_idx][l] = L_shl( Cldfb_ImagBuffer_fx[k][slot_idx][l], sub( 6, tmp_q ) ); // Q11(tmp_q) -> Q6 - move32(); - } - } - } - - /*-----------------------------------------------------------------* - * output synthesis - *-----------------------------------------------------------------*/ - ivas_dirac_dec_output_synthesis_cov_param_mc_synthesise_slot_fx( - &hParamMC->Cldfb_RealBuffer_tc_fx[hParamMC->slots_rendered * nchan_transport * hParamMC->num_freq_bands], - &hParamMC->Cldfb_ImagBuffer_tc_fx[hParamMC->slots_rendered * nchan_transport * hParamMC->num_freq_bands], Cldfb_RealBuffer_fx, Cldfb_ImagBuffer_fx, hParamMC->h_output_synthesis_cov_state.mixing_matrix_fx, hParamMC->h_output_synthesis_cov_state.mixing_matrix_exp, hParamMC->h_output_synthesis_cov_state.mixing_matrix_res_fx, hParamMC->h_output_synthesis_cov_state.mixing_matrix_res_exp, slot_idx, add( slot_idx, slot_idx_start ), - nchan_transport, nchan_out_cov, hParamMC ); - - test(); - IF( ( EQ_16( st_ivas->renderer_type, RENDERER_BINAURAL_FASTCONV ) || EQ_16( st_ivas->renderer_type, RENDERER_BINAURAL_FASTCONV_ROOM ) ) ) - { - test(); - IF( st_ivas->hCombinedOrientationData && EQ_16( st_ivas->renderer_type, RENDERER_BINAURAL_FASTCONV ) ) - { - Word16 Q_Cldfb_ImagBuffer, Q_Cldfb_RealBuffer; - Q_Cldfb_ImagBuffer = Q6 - 5; /*max value =MAX_INTERN_CHANNELS(=16)*Cldfb_ImagBuffer_fx*/ - move16(); - Q_Cldfb_RealBuffer = Q6 - 5; - move16(); - FOR( i = 0; i < MAX_OUTPUT_CHANNELS; i++ ) - { - FOR( j = 0; j < MAX_PARAM_SPATIAL_SUBFRAMES; j++ ) - { - Scale_sig32( Cldfb_RealBuffer_fx[i][j], CLDFB_NO_CHANNELS_MAX, sub( Q_Cldfb_ImagBuffer, Q6 ) ); // Q1 - Scale_sig32( Cldfb_ImagBuffer_fx[i][j], CLDFB_NO_CHANNELS_MAX, sub( Q_Cldfb_RealBuffer, Q6 ) ); // Q1 - } - } - ivas_param_mc_mc2sba_cldfb_fx( st_ivas->hTransSetup, hParamMC->hoa_encoder_fx, slot_idx, Cldfb_RealBuffer_fx, Cldfb_ImagBuffer_fx, nband_synth, GAIN_LFE_FX ); - FOR( i = 0; i < MAX_OUTPUT_CHANNELS; i++ ) - { - FOR( j = 0; j < MAX_PARAM_SPATIAL_SUBFRAMES; j++ ) - { - Scale_sig32( Cldfb_RealBuffer_fx[i][j], CLDFB_NO_CHANNELS_MAX, sub( Q6, Q_Cldfb_ImagBuffer ) ); // Q6 - Scale_sig32( Cldfb_ImagBuffer_fx[i][j], CLDFB_NO_CHANNELS_MAX, sub( Q6, Q_Cldfb_RealBuffer ) ); // Q6 - } - } - } - ELSE - { - /* remove LFE */ - UWord16 idx_out; - UWord16 idx_lfe; - IVAS_OUTPUT_SETUP hLsSetup; - - hLsSetup = st_ivas->hTransSetup; - /* If LFE should be rendered, add it to other channels before removing */ - IF( st_ivas->hBinRenderer->render_lfe ) - { - Word16 tmp_exp = 0; - move16(); - Word16 tmp = BASOP_Util_Divide1616_Scale( GAIN_LFE_FX, hLsSetup.nchan_out_woLFE, &tmp_exp ); - tmp_exp = add( tmp_exp, ( 1 - 15 ) ); - FOR( idx_lfe = 0; idx_lfe < hLsSetup.num_lfe; idx_lfe++ ) - { - /* Copy just the first band of LFE*/ - v_multc_fixed_16( Cldfb_RealBuffer_fx[hLsSetup.index_lfe[idx_lfe]][slot_idx], tmp, Cldfb_RealBuffer_fx[hLsSetup.index_lfe[idx_lfe]][slot_idx], 1 ); - v_multc_fixed_16( Cldfb_ImagBuffer_fx[hLsSetup.index_lfe[idx_lfe]][slot_idx], tmp, Cldfb_ImagBuffer_fx[hLsSetup.index_lfe[idx_lfe]][slot_idx], 1 ); - - Scale_sig32( Cldfb_RealBuffer_fx[hLsSetup.index_lfe[idx_lfe]][slot_idx], 1, tmp_exp ); - Scale_sig32( Cldfb_ImagBuffer_fx[hLsSetup.index_lfe[idx_lfe]][slot_idx], 1, tmp_exp ); - FOR( ch = 0; ch < ( hLsSetup.nchan_out_woLFE + hLsSetup.num_lfe ); ch++ ) - { - IF( hLsSetup.index_lfe[idx_lfe] != ch ) - { - v_add_fixed( Cldfb_RealBuffer_fx[ch][slot_idx], Cldfb_RealBuffer_fx[hLsSetup.index_lfe[idx_lfe]][slot_idx], Cldfb_RealBuffer_fx[ch][slot_idx], 1, 0 ); - v_add_fixed( Cldfb_ImagBuffer_fx[ch][slot_idx], Cldfb_ImagBuffer_fx[hLsSetup.index_lfe[idx_lfe]][slot_idx], Cldfb_ImagBuffer_fx[ch][slot_idx], 1, 0 ); - } - } - } - } - - idx_out = 0; - move16(); - idx_lfe = 0; - move16(); - - FOR( ch = 0; ch < ( hLsSetup.nchan_out_woLFE + hLsSetup.num_lfe ); ch++ ) - { - test(); - IF( ( hLsSetup.num_lfe > 0 ) && EQ_16( hLsSetup.index_lfe[idx_lfe], ch ) ) - { - IF( LT_16( idx_lfe, ( sub( hLsSetup.num_lfe, 1 ) ) ) ) - { - idx_lfe = add( idx_lfe, 1 ); - } - } - ELSE IF( NE_16( ch, idx_out ) ) - { - Copy32( Cldfb_RealBuffer_fx[ch][slot_idx], Cldfb_RealBuffer_fx[idx_out][slot_idx], nband_synth ); - Copy32( Cldfb_ImagBuffer_fx[ch][slot_idx], Cldfb_ImagBuffer_fx[idx_out][slot_idx], nband_synth ); - idx_out = add( idx_out, 1 ); - } - ELSE - { - idx_out = add( idx_out, 1 ); - } - } - } - } - } - - test(); - IF( EQ_16( st_ivas->renderer_type, RENDERER_BINAURAL_FASTCONV ) || EQ_16( st_ivas->renderer_type, RENDERER_BINAURAL_FASTCONV_ROOM ) ) - { - Word16 input_q = 6; - move16(); - -#ifdef SPLIT_REND_WITH_HEAD_ROT - IF( EQ_16( st_ivas->hDecoderConfig->output_config, IVAS_AUDIO_CONFIG_BINAURAL_SPLIT_CODED ) || EQ_16( st_ivas->hDecoderConfig->output_config, IVAS_AUDIO_CONFIG_BINAURAL_SPLIT_PCM ) ) - { - IF( st_ivas->hSplitBinRend->hCldfbDataOut != NULL ) - { - FOR( slot_idx = 0; slot_idx < MAX_PARAM_SPATIAL_SUBFRAMES; slot_idx++ ) - { - FOR( ch = 0; ch < ( st_ivas->hIntSetup.nchan_out_woLFE + st_ivas->hIntSetup.num_lfe ); ch++ ) - { - Copy32( Cldfb_RealBuffer_fx[ch][slot_idx], st_ivas->hSplitBinRend->hCldfbDataOut->Cldfb_RealBuffer_fx[ch][add( slot_idx_start, slot_idx )], hParamMC->num_freq_bands ); - Copy32( Cldfb_ImagBuffer_fx[ch][slot_idx], st_ivas->hSplitBinRend->hCldfbDataOut->Cldfb_ImagBuffer_fx[ch][add( slot_idx_start, slot_idx )], hParamMC->num_freq_bands ); - } - } - st_ivas->hSplitBinRend->hCldfbDataOut->config = st_ivas->hIntSetup.output_config; - move16(); - } - } -#endif - - /* Implement binaural rendering */ - ivas_binRenderer_fx( st_ivas->hBinRenderer, -#ifdef SPLIT_REND_WITH_HEAD_ROT - ( st_ivas->hSplitBinRend == NULL ) ? NULL : &st_ivas->hSplitBinRend->splitrend.multiBinPoseData, -#endif - st_ivas->hCombinedOrientationData, - hParamMC->subframe_nbslots[subframe_idx], - Cldfb_RealBuffer_Binaural_fx, Cldfb_ImagBuffer_Binaural_fx, - Cldfb_RealBuffer_fx, - Cldfb_ImagBuffer_fx, &input_q ); - - FOR( i = 0; i < MAX_OUTPUT_CHANNELS; i++ ) - { - FOR( j = 0; j < MAX_PARAM_SPATIAL_SUBFRAMES; j++ ) - { - FOR( k = 0; k < CLDFB_NO_CHANNELS_MAX; k++ ) - { - Cldfb_RealBuffer_fx[i][j][k] = L_shl( Cldfb_RealBuffer_fx[i][j][k], sub( Q6, input_q ) ); // Q6 - Cldfb_ImagBuffer_fx[i][j][k] = L_shl( Cldfb_ImagBuffer_fx[i][j][k], sub( Q6, input_q ) ); // Q6 - } - } - } - -#ifdef SPLIT_REND_WITH_HEAD_ROT - int16_t pos_idx; - FOR( pos_idx = 0; pos_idx < st_ivas->hBinRenderer->numPoses; pos_idx++ ) - { - FOR( Word16 idx1 = 0; idx1 < BINAURAL_CHANNELS; idx1++ ) - { - FOR( Word16 idx2 = 0; idx2 < hParamMC->subframe_nbslots[subframe_idx]; idx2++ ) - { - Scale_sig32( Cldfb_RealBuffer_Binaural_fx[pos_idx][idx1][idx2], CLDFB_NO_CHANNELS_MAX, sub( Q6, input_q ) ); // Q6 - Scale_sig32( Cldfb_ImagBuffer_Binaural_fx[pos_idx][idx1][idx2], CLDFB_NO_CHANNELS_MAX, sub( Q6, input_q ) ); // Q6 - } - } - } -#else - FOR( Word16 idx1 = 0; idx1 < BINAURAL_CHANNELS; idx1++ ) - { - FOR( Word16 idx2 = 0; idx2 < hParamMC->subframe_nbslots[subframe_idx]; idx2++ ) - { - Scale_sig32( Cldfb_RealBuffer_Binaural_fx[idx1][idx2], CLDFB_NO_CHANNELS_MAX, sub( Q6, input_q ) ); // Q6 - Scale_sig32( Cldfb_ImagBuffer_Binaural_fx[idx1][idx2], CLDFB_NO_CHANNELS_MAX, sub( Q6, input_q ) ); // Q6 - } - } -#endif - -#ifdef SPLIT_REND_WITH_HEAD_ROT - IF( EQ_16( st_ivas->hDecoderConfig->output_config, IVAS_AUDIO_CONFIG_BINAURAL_SPLIT_CODED ) || EQ_16( st_ivas->hDecoderConfig->output_config, IVAS_AUDIO_CONFIG_BINAURAL_SPLIT_PCM ) ) - { - FOR( pos_idx = 0; pos_idx < st_ivas->hBinRenderer->numPoses; pos_idx++ ) - { - FOR( slot_idx = 0; slot_idx < hParamMC->subframe_nbslots[subframe_idx]; slot_idx++ ) - { - FOR( ch = 0; ch < nchan_out_cldfb; ch++ ) - { - Copy32( Cldfb_RealBuffer_Binaural_fx[pos_idx][ch][slot_idx], st_ivas->hSplitBinRend->hMultiBinCldfbData->Cldfb_RealBuffer_Binaural_fx[add( i_mult( pos_idx, BINAURAL_CHANNELS ), ch )][add( slot_idx_start, slot_idx )], hParamMC->num_freq_bands ); - Copy32( Cldfb_ImagBuffer_Binaural_fx[pos_idx][ch][slot_idx], st_ivas->hSplitBinRend->hMultiBinCldfbData->Cldfb_ImagBuffer_Binaural_fx[add( i_mult( pos_idx, BINAURAL_CHANNELS ), ch )][add( slot_idx_start, slot_idx )], hParamMC->num_freq_bands ); - } - } - } - } -#endif - - /* update combined orientation access index */ - ivas_combined_orientation_update_index( st_ivas->hCombinedOrientationData, hParamMC->num_freq_bands * hParamMC->subframe_nbslots[subframe_idx] ); - } - ELSE IF( EQ_16( hParamMC->synthesis_conf, PARAM_MC_SYNTH_LS_CONV_CLDFB ) ) - { - /* format conversion*/ - ivas_lssetupconversion_process_param_mc_fx( st_ivas, hParamMC->subframe_nbslots[subframe_idx], Cldfb_RealBuffer_fx, Cldfb_ImagBuffer_fx, channel_active ); - } - - - /* CLDFB synthesis */ - FOR( ch = 0; ch < nchan_out_cldfb; ch++ ) - { - Word32 *RealBuffer_fx[16]; - Word32 *ImagBuffer_fx[16]; - - IF( channel_active[ch] ) - { - /* open CLDFB buffer up to CLDFB_NO_CHANNELS_MAX bands FOR 48kHz */ - FOR( i = 0; i < hParamMC->subframe_nbslots[subframe_idx]; i++ ) - { - IF( EQ_16( st_ivas->renderer_type, RENDERER_BINAURAL_FASTCONV ) || EQ_16( st_ivas->renderer_type, RENDERER_BINAURAL_FASTCONV_ROOM ) ) - { -#ifdef SPLIT_REND_WITH_HEAD_ROT - RealBuffer_fx[i] = Cldfb_RealBuffer_Binaural_fx[0][ch][i]; // Q6 - ImagBuffer_fx[i] = Cldfb_ImagBuffer_Binaural_fx[0][ch][i]; // Q6 -#else - RealBuffer_fx[i] = Cldfb_RealBuffer_Binaural_fx[ch][i]; // Q6 - ImagBuffer_fx[i] = Cldfb_ImagBuffer_Binaural_fx[ch][i]; // Q6 -#endif - } - ELSE - { - RealBuffer_fx[i] = Cldfb_RealBuffer_fx[ch][i]; // Q6 - ImagBuffer_fx[i] = Cldfb_ImagBuffer_fx[ch][i]; // Q6 - } - } - - Word16 len = add( imult1616( slot_idx_start_cldfb_synth, hParamMC->num_freq_bands ), imult1616( hParamMC->num_freq_bands, hParamMC->subframe_nbslots[subframe_idx] ) ); - scale_sig32( output_f_fx[ch], len, 5 - 11 ); - cldfbSynthesis_ivas_fx( RealBuffer_fx, ImagBuffer_fx, &( output_f_fx[ch][slot_idx_start_cldfb_synth * hParamMC->num_freq_bands] ), - imult1616( hParamMC->num_freq_bands, hParamMC->subframe_nbslots[subframe_idx] ), st_ivas->cldfbSynDec[ch] ); - - scale_sig32( output_f_fx[ch], len, 11 - 5 ); // Q11 - } - ELSE - { - set32_fx( &( output_f_fx[ch][slot_idx_start_cldfb_synth * hParamMC->num_freq_bands] ), 0, imult1616( hParamMC->num_freq_bands, hParamMC->subframe_nbslots[subframe_idx] ) ); - } - } - slot_idx_start = add( slot_idx_start, hParamMC->subframe_nbslots[subframe_idx] ); - slot_idx_start_cldfb_synth = add( slot_idx_start_cldfb_synth, hParamMC->subframe_nbslots[subframe_idx] ); - } - IF( EQ_16( st_ivas->renderer_type, RENDERER_SBA_LINEAR_ENC ) ) - { - ivas_mc2sba_fx( st_ivas->hIntSetup, p_output_f_fx, p_output_f_fx, *nSamplesRendered, st_ivas->hOutSetup.ambisonics_order, 0 ); - } - - /* update */ - - IF( EQ_16( hParamMC->slots_rendered, hParamMC->num_slots ) ) - { - hParamMC->hMetadataPMC->last_coded_bwidth = hParamMC->hMetadataPMC->coded_bwidth; - move16(); - param_mc_update_mixing_matrices_fx( hParamMC, hParamMC->h_output_synthesis_cov_state.mixing_matrix_fx, hParamMC->h_output_synthesis_cov_state.mixing_matrix_exp, hParamMC->h_output_synthesis_cov_state.mixing_matrix_res_fx, hParamMC->h_output_synthesis_cov_state.mixing_matrix_res_exp, nchan_transport, nchan_out_cov ); - } - - - hParamMC->subframes_rendered = last_sf; - move16(); - *nSamplesAvailableNext = imult1616( sub( hParamMC->num_slots, hParamMC->slots_rendered ), NS2SA( output_Fs, CLDFB_SLOT_NS ) ); - move16(); - - FOR( i = 0; i < MAX_OUTPUT_CHANNELS; i++ ) - { - channel_active_fx[i] = channel_active[i]; - move16(); - } - pop_wmops(); - - return; -} - -/*------------------------------------------------------------------------- - * param_mc_dec_init() - * - * Parametric MC decoding initialization - *------------------------------------------------------------------------*/ - -static void ivas_param_mc_dec_init_fx( - PARAM_MC_DEC_HANDLE hParamMC, /* i/o: decoder DirAC handle */ - const Word16 nchan_transport, /* i : number of input (transport) channels */ - const Word16 nchan_cov ) /* i : number of cov synthesis channels */ -{ - Word16 k; - UWord16 max_param_band_residual; - Word16 len; - - /*-----------------------------------------------------------------* - * init sub-modules - *-----------------------------------------------------------------*/ - - /* decorrelation */ - IF( hParamMC->max_band_decorr > 0 ) - { - len = imult1616( hParamMC->diff_proto_info->num_protos_diff, hParamMC->h_freq_domain_decorr_ap_params->h_onset_detection_power_params.max_band_decorr ); - - /* init onsetDetectionPower */ - set_zero_fx( hParamMC->h_freq_domain_decorr_ap_state->h_onset_detection_power_state.onset_detector_1_fx, len ); - set_zero_fx( hParamMC->h_freq_domain_decorr_ap_state->h_onset_detection_power_state.onset_detector_2_fx, len ); - hParamMC->h_freq_domain_decorr_ap_state->h_onset_detection_power_state.q_onset_detector = Q31; - move16(); - } - - max_param_band_residual = 0; - move16(); - - /* output synthesis */ - FOR( k = hParamMC->hMetadataPMC->num_parameter_bands; k >= 0; k-- ) - { - IF( LE_16( hParamMC->band_grouping[k], hParamMC->max_band_decorr ) ) - { - max_param_band_residual = k; - move16(); - BREAK; - } - } - - ivas_dirac_dec_output_synthesis_cov_init_fx( &( hParamMC->h_output_synthesis_cov_state ), nchan_transport, nchan_cov, hParamMC->hMetadataPMC->num_parameter_bands, max_param_band_residual ); - - /*-----------------------------------------------------------------* - * init proto frames - *-----------------------------------------------------------------*/ - - IF( hParamMC->max_band_decorr > 0 ) - { - set_zero_fx( hParamMC->proto_frame_f_fx, shl( imult1616( hParamMC->diff_proto_info->num_protos_diff, hParamMC->num_freq_bands ), 1 ) ); - set32_fx( hParamMC->proto_frame_dec_f_fx, 0, shl( imult1616( nchan_cov, hParamMC->num_freq_bands ), 1 ) ); - } - - return; -} - - -/*------------------------------------------------------------------------- - * Local functions - *-------------------------------------------------------------------------*/ - - -/*------------------------------------------------------------------------- - * ivas_param_mc_dec_compute_diffuse_proto() - * - * Compute prototypes for decorrelation - *------------------------------------------------------------------------*/ - -static void param_mc_protoSignalComputation_fx( - Word32 *RealBuffer_fx, /* i : CLDFB samples of the transport channels (real part) */ - Word32 *ImagBuffer_fx, /* i : CLDFB samples of the transport channels (imaginary part) */ - Word32 *proto_frame_f_fx, /* o : interleaved complex prototype CLDFB samples */ - const PARAM_MC_DIFF_PROTO_INFO *diff_proto_info, /* i : prototype generation information */ - const int16_t num_freq_bands /* i : number of frequency bands for the prototypes */ -) -{ - Word16 band; - Word16 proto_ch_idx, source_ch_cnt; - - Word32 *p_proto_frame_fx; - Word32 *p_real_buffer_fx; // Q12 - Word32 *p_imag_buffer_fx; // Q12 - - set32_fx( proto_frame_f_fx, 0, shl( imult1616( num_freq_bands, diff_proto_info->num_protos_diff ), 1 ) ); - - - FOR( proto_ch_idx = 0; proto_ch_idx < diff_proto_info->num_protos_diff; proto_ch_idx++ ) - { - Word16 num_source_ch = diff_proto_info->num_source_chan_diff[proto_ch_idx]; - move16(); - - FOR( source_ch_cnt = 0; source_ch_cnt < num_source_ch; source_ch_cnt++ ) - { - - Word32 fac_fx = diff_proto_info->proto_fac_fx[proto_ch_idx][source_ch_cnt]; - move32(); - - Word16 source_ch_idx = diff_proto_info->source_chan_idx[proto_ch_idx][source_ch_cnt]; - move16(); - - p_proto_frame_fx = &proto_frame_f_fx[shl( imult1616( proto_ch_idx, num_freq_bands ), 1 )]; - p_real_buffer_fx = &RealBuffer_fx[imult1616( source_ch_idx, num_freq_bands )]; - p_imag_buffer_fx = &ImagBuffer_fx[imult1616( source_ch_idx, num_freq_bands )]; - - FOR( band = 0; band < num_freq_bands; band++ ) - { - - Word32 tmp_x = Mpy_32_32( fac_fx, ( *( p_real_buffer_fx++ ) ) ); // Q(30 + 6 - 31) :: Q5 - - *( p_proto_frame_fx ) = L_add( *( p_proto_frame_fx ), tmp_x ); - move32(); - p_proto_frame_fx++; - - tmp_x = Mpy_32_32( fac_fx, ( *( p_imag_buffer_fx++ ) ) ); // Q(30 + 6 - 31) :: Q5 - - *( p_proto_frame_fx ) = L_add( *( p_proto_frame_fx ), tmp_x ); - move32(); - p_proto_frame_fx++; - } - } - } - - return; -} - -/*------------------------------------------------------------------------- - * ivas_param_mc_dec_compute_diffuse_proto() - * - * Transfer decorrelated signals back from the decorrelator buffer to - * the buffers used in the final synthesis - *------------------------------------------------------------------------*/ - -static void ivas_param_mc_dec_copy_diffuse_proto( - PARAM_MC_DEC_HANDLE hParamMC, /* i : Parametric MC handle */ - Word32 Cldfb_buffer_real_fx[MAX_CICP_CHANNELS][PARAM_MC_MAX_NSLOTS_IN_SUBFRAME][CLDFB_NO_CHANNELS_MAX], /* o : CLDFB buffer used in the final synthesis (real part) */ - Word32 Cldfb_buffer_imag_fx[MAX_CICP_CHANNELS][PARAM_MC_MAX_NSLOTS_IN_SUBFRAME][CLDFB_NO_CHANNELS_MAX], /* o : CLDFB buffer used in the final synthesis (imaginary part) */ - const Word16 nY, /* i : number of decorrelated channels */ - const Word16 slot_idx /* i : current time slot index */ -) -{ - Word16 k, l; - Word16 num_freq_bands, num_freq_bands_diff; - Word32 *p_proto_diff_fx; - num_freq_bands = hParamMC->num_freq_bands; - move16(); - num_freq_bands_diff = hParamMC->h_output_synthesis_params.max_band_decorr; - move16(); - - FOR( k = 0; k < nY; k++ ) - { - p_proto_diff_fx = hParamMC->proto_frame_dec_f_fx + imult1616( shl( k, 1 ), num_freq_bands ); // Q11 - - FOR( l = 0; l < num_freq_bands_diff; l++ ) - { - Cldfb_buffer_real_fx[k][slot_idx][l] = *( p_proto_diff_fx++ ); // Q11 - move32(); - Cldfb_buffer_imag_fx[k][slot_idx][l] = *( p_proto_diff_fx++ ); // Q11 - move32(); - } - } - - return; -} - -/*------------------------------------------------------------------------- - * ivas_param_mc_bin2dec() - * - * decode a number of bits to an integer - *------------------------------------------------------------------------*/ -/* r : decoded integer */ -static Word16 ivas_param_mc_bin2dec_fx( - UWord16 bits[PARAM_MC_MAX_BITS], /* i : bit buffer */ - const Word16 N /* i : number of bits to decode */ -) -{ - Word16 i; - Word16 out; - - assert( N <= 16 ); - out = 0; - move16(); - FOR( i = 0; i < N; i++ ) - { - out = add( out, shl( bits[i], sub( sub( N, 1 ), i ) ) ); - } - - return out; -} - -/*------------------------------------------------------------------------- - * ivas_param_mc_uniform_decoder() - * - * decode a uniformily coded sequence of float values - *------------------------------------------------------------------------*/ -static Word16 ivas_param_mc_uniform_decoder_fx( - Word16 *seq, /* o : decoded sequence of float values hParamCodingInfo -> Q-quant*/ - const Word16 sz_seq, /* i : number of values to decode */ - const Word16 *alphabet, /* i : codebook hParamCodingInfo -> Q-quant*/ - const Word16 N, /* i : number of bits per coded index */ - UWord16 bit_buffer[PARAM_MC_MAX_BITS] /* i : bit buffer to decode */ -) -{ - Word16 i; - Word16 idx; - Word16 n_bits; - - n_bits = 0; - move16(); - assert( N * sz_seq < PARAM_MC_MAX_BITS ); - - FOR( i = 0; i < sz_seq; ++i ) - { - idx = ivas_param_mc_bin2dec_fx( &bit_buffer[i * N], N ); - seq[i] = alphabet[idx]; - move16(); - } - - n_bits = imult1616( N, sz_seq ); - - return n_bits; -} - - -/*------------------------------------------------------------------------- - * ivas_param_mc_range_decoder_LC() - * - * decode a sequency of inidices coded with a range coder - *------------------------------------------------------------------------*/ -static Word16 ivas_param_mc_range_decoder_LC_fx( - UWord16 *bit_buffer, /* i : bit buffer to read from */ - Word16 *x, /* o : decoded indices */ - Word16 *BER_detect, /* o : flag for indicating a bit error */ - const Word16 sz_seq, /* i : size of the sequence to be decoded */ - const Word16 sz_alphabet, /* i : size of the alphabet */ - const UWord16 *cft, /* i : cumulative frequency table */ - const UWord16 *sft, /* i : symbol frequency table */ - const Word16 tot_shift, /* i : total frequency as a power of 2 */ - const Word16 nbbits /* i : maximum bit budget */ -) -{ - RangeUniDecState rc_st_dec; /* State of the range decoder */ - Word16 cur_bit_pos; - Word16 k; - Word16 r; - - /* Start Decoding */ - /* Initialize range decoder */ - cur_bit_pos = 0; - move16(); - rc_uni_dec_init_fx( &rc_st_dec, bit_buffer, sub( nbbits, 32 ) ); /* (nbbits + 30) entries are read by the decoder */ - - /* Main Loop through the indices */ - FOR( k = 0; k < sz_seq; k++ ) - { - r = rc_uni_dec_read_symbol_fastS_fx( &rc_st_dec, cft, sft, sz_alphabet, tot_shift ); /*Alphabet size = 17 (2^4 = 16 MSB symbols + 1 ESC symbol) */ - /* r is the symbol read, the possible values are {0,1,....alphabet_size - 1} */ - - /* Update bitstream pointer */ - cur_bit_pos = rc_uni_dec_virtual_finish_fx( &rc_st_dec ); - - /* Confirm that there is no overflow */ - IF( GT_16( cur_bit_pos, nbbits ) ) - { - *BER_detect = s_or( *BER_detect, 1 ); - move16(); - } - - x[k] = r; - move16(); - } - - /* We don't need to finish because virtual_finish() already does the same */ - /*st->next_bit_pos = rc_uni_dec_finish(&rc_st_dec);*/ - - /* Check for bitstream errors */ - IF( rc_st_dec.bit_error_detected != 0 ) - { - *BER_detect = s_or( *BER_detect, 1 ); - move16(); - } - - return cur_bit_pos; -} - -/*------------------------------------------------------------------------- - * param_mc_compute_interpolator() - * - * compute the interpolator used in the final synthesis - *------------------------------------------------------------------------*/ - -static void ivas_param_mc_dec_compute_interpolator_fx( - const UWord16 bAttackPresent, /* i : flag indicating if we have a transient in the current frame */ - const UWord16 attackPos, /* i : position of the transient */ - const UWord16 interp_length, /* i : number of interpolation values to be calculated */ - Word16 *interpolator /* o : interpolator */ -) -{ - Word16 idx; - - IF( bAttackPresent ) - { - FOR( idx = 0; idx < attackPos * 2; idx++ ) - { - interpolator[idx] = 0; - move16(); - } - FOR( ; idx < interp_length; idx++ ) - { - interpolator[idx] = 32767; /* 1.0f Q15 */ - move16(); - } - } - ELSE - { - ivas_jbm_dec_get_adapted_linear_interpolator_fx( DEFAULT_JBM_CLDFB_TIMESLOTS, interp_length, interpolator ); - } - - return; -} - - -/*------------------------------------------------------------------------- - * remove_lfe_from_cy() - * - * remove all LFE related values from a covariance matrix - *------------------------------------------------------------------------*/ - -static void remove_lfe_from_cy_fx( - const Word16 nY, /* i : dimension of the covariance matrix */ - Word16 lfe_indices[PARAM_MC_LOCAL_SZ_LFE_MAP], /* i : LFE index */ - Word16 num_lfe, /* i : number of LFEs */ - Word32 *cy, /* i : covariance matrix */ - Word32 *cy_woLFE /* o : covariance matrix with LFE removed */ -) -{ - Word16 ch_idx1, ch_idx2; - Word16 lfe_idx1, lfe_idx2; - Word32 *ptrCy; - Word32 *ptrCy_out; - - ptrCy = cy; - ptrCy_out = cy_woLFE; - - FOR( lfe_idx1 = 0; lfe_idx1 < num_lfe + 1; lfe_idx1++ ) - { - FOR( ch_idx1 = lfe_indices[lfe_idx1] + 1; ch_idx1 < lfe_indices[lfe_idx1 + 1]; ch_idx1++ ) - { - FOR( lfe_idx2 = 0; lfe_idx2 < num_lfe + 1; lfe_idx2++ ) - { - FOR( ch_idx2 = lfe_indices[lfe_idx2] + 1; ch_idx2 < lfe_indices[lfe_idx2 + 1]; ch_idx2++ ) - { - *( ptrCy_out++ ) = *( ptrCy++ ); - move32(); - } - ptrCy++; - } - ptrCy--; - } - ptrCy += nY; - } - - return; -} - - -/*------------------------------------------------------------------------- - * ivas_param_mc_get_mixing_matrices() - * - * calculate the direct and residual mixing matrices - * using the covariance method - *------------------------------------------------------------------------*/ - -static void ivas_param_mc_get_mixing_matrices_fx( - PARAM_MC_DEC_HANDLE hParamMC, /* i : Parametric MC handle */ - IVAS_OUTPUT_SETUP *hSynthesisOutputSetup, - Word32 Cx_in_fixed[PARAM_MC_MAX_TRANSPORT_CHANS * PARAM_MC_MAX_TRANSPORT_CHANS], /* i : input covariance for all parameter bands Q(31 - Cx_in_e)*/ - Word16 Cx_in_e, - const Word16 param_band_idx, /* i : parameter band index */ - Word32 *mixing_matrix_fx[], // Q(31 - mixing_matrix_e) - Word16 *mixing_matrix_e, - Word32 *mixing_matrix_res_fx[], // Q(31 - mixing_matrix_res_e) - Word16 *mixing_matrix_res_e, - const Word16 nY_intern, /* i : number of channels in the transported format */ - const PARAM_MC_SYNTHESIS_CONF synth_config, /* i : Parametric MC synthesis config */ - const Word16 nX, /* i : number of transport channels */ - const Word16 nY_cov /* i : number of covariance synthesis output channels */ -) -{ - Word16 matSize = MAX_OUTPUT_CHANNELS * MAX_OUTPUT_CHANNELS; - Word16 nY_band; - Word16 num_lfe_bands; - Word16 brange[2]; - uint16_t i; - Word16 ch_idx1, ch_idx2, lfe_idx1, lfe_idx2; - Word16 remove_lfe; - Word16 lfe_indices[PARAM_MC_LOCAL_SZ_LFE_MAP]; - - Word32 Cx_fx[PARAM_MC_MAX_TRANSPORT_CHANS * PARAM_MC_MAX_TRANSPORT_CHANS]; - Word32 Cy_fx[MAX_CICP_CHANNELS * MAX_CICP_CHANNELS]; - - Word32 Cy_full_fx[MAX_CICP_CHANNELS * MAX_CICP_CHANNELS]; - - Word32 Cr_fx[MAX_CICP_CHANNELS * MAX_CICP_CHANNELS]; // Q(31 - Cr_e) - Word16 Cr_e; - Word32 Cy_diag_fx[MAX_OUTPUT_CHANNELS]; // Q(31 - Cy_diag_buff_e) - Word16 Cy_diag_buff_e[MAX_OUTPUT_CHANNELS]; - Word32 mixing_matrix_local_fx[MAX_CICP_CHANNELS * PARAM_MC_MAX_TRANSPORT_CHANS]; // Q(31 - mixing_matrix_local_e) - Word16 Cy_diag_e = 0, mixing_matrix_local_e = 0; - Word32 Cproto_fx[MAX_CICP_CHANNELS * MAX_CICP_CHANNELS]; // Q(31 - Cproto_e) - Word16 Cproto_e; - Word32 *proto_matrix_ptr_fx; // Q(31 - proto_matrix_ptr_e) - Word32 *Cx_state_fx; // Q(31 - Cx_state_e) - Word32 *Cx_old_state_fx; - Word32 Cy_state_fx[MAX_CICP_CHANNELS * MAX_CICP_CHANNELS]; // Q(31 - Cy_state_e) - Word32 *Cy_old_state_fx; - Word16 Cx_state_e; - Word16 Cy_state_e; - Word32 mixing_matrix_res_local_fx[MAX_CICP_CHANNELS * MAX_CICP_CHANNELS]; // Q(31 - mixing_matrix_res_local_e) - Word16 mixing_matrix_res_local_e; - Word32 L_tmp; - Word16 tmp_e, tmp; - - Word16 proto_matrix_e = hParamMC->h_output_synthesis_params.proto_matrix_e; - move16(); - Word32 proto_matrix_noLFE_fx[PARAM_MC_MAX_TRANSPORT_CHANS * MAX_CICP_CHANNELS]; // Q(31 - proto_matrix_noLFE_e) - - Word32 mat_mult_buffer1_fx[MAX_CICP_CHANNELS * MAX_CICP_CHANNELS]; // Q(31 - mat_mult_buffer1_e) - - Word32 Cproto_diag_fx[MAX_CICP_CHANNELS]; // Q(31 - Cproto_diag_e) - Word16 mat_mult_buffer1_e, proto_matrix_ptr_e, Cproto_diag_e; - - Word32 *ptrMM_fx; - Word32 *ptrMM_out_fx; - - Word16 Cy_e, Cx_e; - Word16 Cy_full_e; - Word16 new_e = 0; - move16(); - - set_zero_fx( Cproto_fx, MAX_CICP_CHANNELS * MAX_CICP_CHANNELS ); - set_zero_fx( mat_mult_buffer1_fx, MAX_CICP_CHANNELS * MAX_CICP_CHANNELS ); - set_zero_fx( proto_matrix_noLFE_fx, PARAM_MC_MAX_TRANSPORT_CHANS * MAX_CICP_CHANNELS ); - set_zero_fx( mixing_matrix_local_fx, MAX_CICP_CHANNELS * PARAM_MC_MAX_TRANSPORT_CHANS ); -#ifdef MSAN_FIX - set_zero_fx( mixing_matrix_res_local_fx, MAX_CICP_CHANNELS * MAX_CICP_CHANNELS ); -#endif - Word16 proto_matrix_noLFE_e = 0; - move16(); - - Word32 Cx_in_fx[PARAM_MC_MAX_TRANSPORT_CHANS * PARAM_MC_MAX_TRANSPORT_CHANS]; - - Copy32( Cx_in_fixed, Cx_in_fx, PARAM_MC_MAX_TRANSPORT_CHANS * PARAM_MC_MAX_TRANSPORT_CHANS ); - - nY_band = nY_cov; - move16(); - num_lfe_bands = 0; - move16(); - remove_lfe = 0; - move16(); - - set16_fx( lfe_indices, -1, PARAM_MC_LOCAL_SZ_LFE_MAP ); - IF( hSynthesisOutputSetup->num_lfe ) - { - Word32 *proto_matrix_ptr_in_fx; - FOR( lfe_idx1 = 0; lfe_idx1 < hSynthesisOutputSetup->num_lfe; lfe_idx1++ ) - { - lfe_indices[lfe_idx1 + 1] = hSynthesisOutputSetup->index_lfe[lfe_idx1]; - move16(); - } - lfe_indices[hSynthesisOutputSetup->num_lfe + 1] = nY_cov; - move16(); - proto_matrix_ptr_fx = &proto_matrix_noLFE_fx[0]; - proto_matrix_ptr_in_fx = &hParamMC->h_output_synthesis_params.proto_matrix_fx[0]; - proto_matrix_noLFE_e = proto_matrix_e; - move16(); - - set_zero_fx( proto_matrix_noLFE_fx, PARAM_MC_MAX_TRANSPORT_CHANS * MAX_CICP_CHANNELS ); - - FOR( ch_idx1 = 0; ch_idx1 < nX; ch_idx1++ ) - { - FOR( lfe_idx1 = 0; lfe_idx1 < hSynthesisOutputSetup->num_lfe + 1; lfe_idx1++ ) - { - FOR( ch_idx2 = lfe_indices[lfe_idx1] + 1; ch_idx2 < lfe_indices[lfe_idx1 + 1]; ch_idx2++ ) - { - *( proto_matrix_ptr_fx++ ) = *( proto_matrix_ptr_in_fx++ ); - move32(); - } - proto_matrix_ptr_in_fx++; - } - proto_matrix_ptr_in_fx--; - } - - proto_matrix_ptr_e = proto_matrix_e; - move16(); - } - - if ( hParamMC->hMetadataPMC->lfe_on ) - { - num_lfe_bands = PARAM_MC_MAX_BAND_LFE; - move16(); - } - IF( hSynthesisOutputSetup->num_lfe > 0 && param_band_idx >= num_lfe_bands ) - { - remove_lfe = 1; - move16(); - nY_band = sub( nY_cov, hSynthesisOutputSetup->num_lfe ); - proto_matrix_ptr_fx = proto_matrix_noLFE_fx; - proto_matrix_ptr_e = proto_matrix_noLFE_e; - move16(); - } - ELSE - { - proto_matrix_ptr_fx = hParamMC->h_output_synthesis_params.proto_matrix_fx; - proto_matrix_ptr_e = hParamMC->h_output_synthesis_params.proto_matrix_e; - move16(); - } - - brange[0] = hParamMC->band_grouping[param_band_idx]; - move16(); - brange[1] = hParamMC->band_grouping[param_band_idx + 1]; - move16(); - - Cx_state_fx = Cx_in_fx; - Cx_old_state_fx = hParamMC->h_output_synthesis_cov_state.cx_old_fx[param_band_idx]; - Cy_old_state_fx = hParamMC->h_output_synthesis_cov_state.cy_old_fx[param_band_idx]; - - - /* Getting mixing mtx */ - /* estimate target cov from input cov and proto_matrix */ - - Cx_state_e = Cx_in_e; - move16(); - matrix_product_fx( hParamMC->proto_matrix_int_fx, nY_intern, nX, 0, Cx_state_fx, nX, nX, 0, mat_mult_buffer1_fx ); - mat_mult_buffer1_e = add( hParamMC->proto_matrix_int_e, Cx_in_e ); - - matrix_product_fx( mat_mult_buffer1_fx, nY_intern, nX, 0, hParamMC->proto_matrix_int_fx, nY_intern, nX, 1, Cproto_fx ); - Cproto_e = add( mat_mult_buffer1_e, hParamMC->proto_matrix_int_e ); - - FOR( ch_idx1 = 0; ch_idx1 < nY_intern; ch_idx1++ ) - { - IF( BASOP_Util_Cmp_Mant32Exp( Cproto_fx[ch_idx1 + ( ch_idx1 * nY_intern )], Cproto_e, 0, 0 ) < 0 ) - { - Cproto_fx[ch_idx1 + ( ch_idx1 * nY_intern )] = 0; - move32(); - } - } - - set_zero_fx( Cy_state_fx, matSize ); - Cy_state_e = 0; - move16(); - - ivas_param_mc_dequantize_cov_fx( hParamMC, - hParamMC->icld_q_fx + L_mult0( param_band_idx, hParamMC->hMetadataPMC->ild_mapping_conf->ild_map_size_lfe ), - hParamMC->icc_q_fx + L_mult0( param_band_idx, hParamMC->hMetadataPMC->icc_mapping_conf->icc_map_size_lfe ), - param_band_idx, nY_cov, - synth_config, - nY_intern, - nX, Cx_state_fx, Cx_state_e, Cproto_fx, Cproto_e, Cy_state_fx, &Cy_state_e ); - - // dbgwrite2_txt(Cy_state_fx,nY_intern*nY_intern,"../cy_state_fx.txt"); - - /* Smoothing: Sum over two buffers */ - IF( hParamMC->hMetadataPMC->bAttackPresent ) - { - /* no smoothing on attacks */ - Copy32( Cx_state_fx, Cx_fx, imult1616( nX, nX ) ); - Copy32( Cy_state_fx, Cy_full_fx, imult1616( nY_cov, nY_cov ) ); - Cy_full_e = Cy_state_e; - move16(); - Cx_e = Cx_state_e; - move16(); - } - ELSE - { - /* smoothing gains are now identical to one, simply add up */ - // v_add( Cy_state, Cy_old_state, Cy_full, nY_cov * nY_cov ); - - v_add_fixed_me( Cx_state_fx, Cx_state_e, Cx_old_state_fx, hParamMC->h_output_synthesis_cov_state.cx_old_e[param_band_idx], Cx_fx, &Cx_e, imult1616( nX, nX ), 1 ); - v_add_fixed_me( Cy_state_fx, Cy_state_e, Cy_old_state_fx, hParamMC->h_output_synthesis_cov_state.cy_old_e[param_band_idx], Cy_full_fx, &Cy_full_e, imult1616( nY_cov, nY_cov ), 1 ); - } - - Copy32( Cx_state_fx, Cx_old_state_fx, imult1616( nX, nX ) ); - - Copy32( Cy_state_fx, Cy_old_state_fx, imult1616( nY_cov, nY_cov ) ); - - hParamMC->h_output_synthesis_cov_state.cx_old_e[param_band_idx] = Cx_state_e; - move16(); - hParamMC->h_output_synthesis_cov_state.cy_old_e[param_band_idx] = Cy_state_e; - move16(); - - FOR( i = 0; i < nX * nX; i++ ) - { - if ( Cx_old_state_fx[i] != 0 ) - { - new_e = hParamMC->h_output_synthesis_cov_state.cx_old_e[param_band_idx]; - move16(); - BREAK; - } - } - - hParamMC->h_output_synthesis_cov_state.cx_old_e[param_band_idx] = new_e; - move16(); - - new_e = 0; - move16(); - - FOR( i = 0; i < nY_cov * nY_cov; i++ ) - { - if ( Cy_old_state_fx[i] != 0 ) - { - new_e = hParamMC->h_output_synthesis_cov_state.cy_old_e[param_band_idx]; - move16(); - BREAK; - } - } - - hParamMC->h_output_synthesis_cov_state.cy_old_e[param_band_idx] = new_e; - move16(); - - /* remove LFE IF necessary */ - IF( remove_lfe ) - { - - Cy_e = Cy_full_e; - remove_lfe_from_cy_fx( nY_cov, lfe_indices, hSynthesisOutputSetup->num_lfe, Cy_full_fx, Cy_fx ); - } - ELSE - { - Copy32( Cy_full_fx, Cy_fx, imult1616( nY_band, nY_band ) ); - Cy_e = Cy_full_e; - move16(); - } - - matrix_product_fx( proto_matrix_ptr_fx, nY_band, nX, 0, Cx_fx, nX, nX, 0, mat_mult_buffer1_fx ); - mat_mult_buffer1_e = add( proto_matrix_ptr_e, Cx_e ); - - matrix_product_diag_fx( mat_mult_buffer1_fx, mat_mult_buffer1_e, nY_band, nX, 0, proto_matrix_ptr_fx, proto_matrix_ptr_e, nY_band, nX, 1, Cproto_diag_fx, &Cproto_diag_e ); - - /* make sure we have no negative entries in Cproto_diag due to rounding errors */ - - FOR( ch_idx1 = 0; ch_idx1 < nY_band; ch_idx1++ ) - { - if ( BASOP_Util_Cmp_Mant32Exp( Cproto_diag_fx[ch_idx1], Cproto_diag_e, 0, 0 ) < 0 ) - { - Cproto_diag_fx[ch_idx1] = 0; - move16(); - } - } - - - /* Computing the mixing matrices */ - - /* bands with decorr */ - IF( LT_16( brange[0], hParamMC->h_output_synthesis_params.max_band_decorr ) ) - { - computeMixingMatrices_fx( nX, nY_band, Cx_fx, Cx_e, Cy_fx, Cy_e, proto_matrix_ptr_fx, proto_matrix_ptr_e, 0, PARAM_MC_REG_SX_FX, 0, PARAM_MC_REG_GHAT_FX, 0, mixing_matrix_local_fx, &mixing_matrix_local_e, Cr_fx, &Cr_e ); - /* Compute mixing matrix FOR residual */ - computeMixingMatricesResidual_fx( nY_band, Cproto_diag_fx, Cproto_diag_e, Cr_fx, Cr_e, PARAM_MC_REG_SX_FX, 0, PARAM_MC_REG_GHAT_FX, 0, mixing_matrix_res_local_fx, &mixing_matrix_res_local_e ); - - IF( NE_16( mixing_matrix_res_local_e, mixing_matrix_local_e ) ) - { - tmp = getScaleFactor32( mixing_matrix_local_fx, MAX_CICP_CHANNELS * PARAM_MC_MAX_TRANSPORT_CHANS ); - scale_sig32( mixing_matrix_local_fx, MAX_CICP_CHANNELS * PARAM_MC_MAX_TRANSPORT_CHANS, tmp ); - mixing_matrix_local_e = sub( mixing_matrix_local_e, tmp ); - - tmp = getScaleFactor32( mixing_matrix_res_local_fx, MAX_CICP_CHANNELS * MAX_CICP_CHANNELS ); - scale_sig32( mixing_matrix_res_local_fx, MAX_CICP_CHANNELS * MAX_CICP_CHANNELS, tmp ); - mixing_matrix_res_local_e = sub( mixing_matrix_res_local_e, tmp ); - - scale_sig32( mixing_matrix_local_fx, MAX_CICP_CHANNELS * PARAM_MC_MAX_TRANSPORT_CHANS, sub( mixing_matrix_local_e, s_max( mixing_matrix_local_e, mixing_matrix_res_local_e ) ) ); - scale_sig32( mixing_matrix_res_local_fx, MAX_CICP_CHANNELS * MAX_CICP_CHANNELS, sub( mixing_matrix_res_local_e, s_max( mixing_matrix_local_e, mixing_matrix_res_local_e ) ) ); - - mixing_matrix_res_local_e = mixing_matrix_local_e = s_max( mixing_matrix_local_e, mixing_matrix_res_local_e ); - move16(); - } - IF( remove_lfe ) - { - set_zero_fx( mixing_matrix_res_fx[param_band_idx], imult1616( nY_cov, nY_cov ) ); - - ptrMM_fx = mixing_matrix_res_local_fx; - ptrMM_out_fx = mixing_matrix_res_fx[param_band_idx]; - FOR( lfe_idx1 = 0; lfe_idx1 < hSynthesisOutputSetup->num_lfe + 1; lfe_idx1++ ) - { - FOR( ch_idx1 = lfe_indices[lfe_idx1] + 1; ch_idx1 < lfe_indices[lfe_idx1 + 1]; ch_idx1++ ) - { - FOR( lfe_idx2 = 0; lfe_idx2 < hSynthesisOutputSetup->num_lfe + 1; lfe_idx2++ ) - { - FOR( ch_idx2 = lfe_indices[lfe_idx2] + 1; ch_idx2 < lfe_indices[lfe_idx2 + 1]; ch_idx2++ ) - { - *( ptrMM_out_fx++ ) = *( ptrMM_fx++ ); - move32(); - } - ptrMM_out_fx++; - } - ptrMM_out_fx--; - } - ptrMM_out_fx += nY_cov; - } - mixing_matrix_res_e[param_band_idx] = mixing_matrix_res_local_e; - move16(); - } - ELSE - { - Copy32( mixing_matrix_res_local_fx, mixing_matrix_res_fx[param_band_idx], imult1616( nY_cov, nY_cov ) ); - mixing_matrix_res_e[param_band_idx] = mixing_matrix_res_local_e; - move16(); - } - } - ELSE IF( brange[0] < hParamMC->max_band_energy_compensation ) - { - /* Compute mixing matrices (energy compensation only) */ - computeMixingMatrices_fx( nX, nY_band, Cx_fx, Cx_e, Cy_fx, Cy_e, proto_matrix_ptr_fx, proto_matrix_ptr_e, 1, PARAM_MC_REG_SX_FX, 0, PARAM_MC_REG_GHAT_FX, 0, mixing_matrix_local_fx, &mixing_matrix_local_e, Cr_fx, &Cr_e ); - } - ELSE - { - /*IF neither decorrelation nor energy compensation is applied*/ - FOR( i = 0; i < nY_band; i++ ) - { - tmp = BASOP_Util_Divide3232_Scale( Cy_fx[i], L_add( Cproto_diag_fx[i], EPSILON_FX ), &tmp_e ); - tmp_e = add( Cy_diag_e, Cproto_diag_e ); - L_tmp = Sqrt32( L_deposit_h( tmp ), &tmp_e ); - Cy_diag_fx[i] = L_tmp; - move32(); - Cy_diag_buff_e[i] = tmp_e; - move16(); - } - - - Cy_diag_e = Cy_diag_buff_e[0]; - move16(); - - FOR( i = 1; i < nY_band; i++ ) - { - if ( LT_16( Cy_diag_e, Cy_diag_buff_e[i] ) ) - { - Cy_diag_e = Cy_diag_buff_e[i]; - move16(); - } - } - - FOR( i = 0; i < nY_band; i++ ) - { - Cy_diag_fx[i] = L_shr( Cy_diag_fx[i], sub( Cy_diag_e, Cy_diag_buff_e[i] ) ); - move32(); - } - - diag_matrix_product_fx( Cy_diag_fx, Cy_diag_e, nY_band, proto_matrix_ptr_fx, proto_matrix_ptr_e, nY_band, nX, 0, mixing_matrix_local_fx, &mixing_matrix_local_e ); - } - - IF( remove_lfe ) - { - set_zero_fx( mixing_matrix_fx[param_band_idx], imult1616( nX, nY_cov ) ); - ptrMM_fx = mixing_matrix_local_fx; - ptrMM_out_fx = mixing_matrix_fx[param_band_idx]; - FOR( ch_idx1 = 0; ch_idx1 < nX; ch_idx1++ ) - { - FOR( lfe_idx1 = 0; lfe_idx1 < hSynthesisOutputSetup->num_lfe + 1; lfe_idx1++ ) - { - FOR( ch_idx2 = lfe_indices[lfe_idx1] + 1; ch_idx2 < lfe_indices[lfe_idx1 + 1]; ch_idx2++ ) - { - *( ptrMM_out_fx++ ) = *( ptrMM_fx++ ); - move32(); - } - ptrMM_out_fx++; - } - ptrMM_out_fx--; - } - - mixing_matrix_e[param_band_idx] = mixing_matrix_local_e; - move16(); - } - ELSE - { - Copy32( mixing_matrix_local_fx, mixing_matrix_fx[param_band_idx], imult1616( nY_cov, nX ) ); - mixing_matrix_e[param_band_idx] = mixing_matrix_local_e; - move16(); - } - - return; -} - - -/*------------------------------------------------------------------------- - * ivas_param_mc_get_mono_stereo_mixing_matrices() - * - * calculate the direct and residual mixing matrices - * for mono and stereo output - *------------------------------------------------------------------------*/ - - -/*------------------------------------------------------------------------- - * param_mc_update_mixing_matrices() - * - * update mixing matrix buffers - *------------------------------------------------------------------------*/ - -static void param_mc_update_mixing_matrices_fx( - PARAM_MC_DEC_HANDLE hParamMC, /* i/o: Parametric MC handle */ - Word32 *mixing_matrix[], /* i : direct mixing matrices for the frame just processed */ - Word16 *mixing_matrix_exp, - Word32 *mixing_matrix_res[], /* i : residual mixing matrices for the frame just processed */ - Word16 *mixing_matrix_res_exp, - const UWord16 nX, /* i : number of transport channels */ - const UWord16 nY ) /* i : number of synthesis channels */ -{ - UWord16 param_band_idx; - - FOR( param_band_idx = 0; param_band_idx < hParamMC->hMetadataPMC->nbands_coded; param_band_idx++ ) - { - Word16 brange[2]; - - brange[0] = hParamMC->band_grouping[param_band_idx]; - move16(); - brange[1] = hParamMC->band_grouping[param_band_idx + 1]; - move16(); - - Copy32( mixing_matrix[param_band_idx], hParamMC->h_output_synthesis_cov_state.mixing_matrix_old_fx[param_band_idx], imult1616( nX, nY ) ); - hParamMC->h_output_synthesis_cov_state.mixing_matrix_old_exp[param_band_idx] = mixing_matrix_exp[param_band_idx]; - move16(); - - IF( LT_16( brange[0], hParamMC->h_output_synthesis_params.max_band_decorr ) ) - { - Copy32( mixing_matrix_res[param_band_idx], hParamMC->h_output_synthesis_cov_state.mixing_matrix_res_old_fx[param_band_idx], imult1616( nY, nY ) ); - hParamMC->h_output_synthesis_cov_state.mixing_matrix_res_old_exp[param_band_idx] = mixing_matrix_res_exp[param_band_idx]; - move16(); - } - } - - return; -} - - -/*------------------------------------------------------------------------- - * ivas_param_mc_dequantize_cov() - * - * generate the target covariance matrix - *------------------------------------------------------------------------*/ - - -/*------------------------------------------------------------------------- - * ivas_param_mc_dequantize_cov_fx() - * - * generate the target covariance matrix - *------------------------------------------------------------------------*/ - -static void ivas_param_mc_dequantize_cov_fx( - PARAM_MC_DEC_HANDLE hParamMC, /* i : Parametric MC handle */ - Word16 *ild_q_fx, /* i : sequence of dequantized ILD values Q8 */ - Word16 *icc_q_fx, /* i : sequence of dequantized ICC values Q15*/ - const Word16 param_band_index, /* i : current parameter band */ - const Word16 nY_cov, /* i : number of output channels in the covariance synthesis */ - const PARAM_MC_SYNTHESIS_CONF synth_conf, /* i : Parametric MC synthesis configuration */ - const Word16 nY_int, /* i : number of channels in the transported format */ - const Word16 nX, /* i : number of transport channels */ - Word32 *Cx_state_fx, /* i : transport channel covariance matrix */ - Word16 Cx_state_e, /* i : exponent for transport channel covariance matrix */ - Word32 *Cproto_fx, /* i : prototype matrix */ - Word16 Cproto_e, /* i : exponent for prototype matrix */ - Word32 *Cy_state_fx, /* o : target covariance matrix */ - Word16 *Cy_state_e /* o : exponent for target covariance matrix */ -) -{ - Word16 Cy_buf_e[MAX_OUTPUT_CHANNELS * MAX_OUTPUT_CHANNELS]; - Word16 Cp_buf_e[MAX_OUTPUT_CHANNELS * MAX_OUTPUT_CHANNELS]; - - Word32 Nrqq_fx[MAX_OUTPUT_CHANNELS]; // Q(31 - Nrqq_e) - Word16 Nrqq_e[MAX_OUTPUT_CHANNELS]; - Word32 a_fx[MAX_OUTPUT_CHANNELS]; // Q(31 - a_e) - Word16 a_e[MAX_OUTPUT_CHANNELS]; - Word16 k; - Word16 l; - Word32 *Cyp_fx; // Q(31 - Cyp_e) - Word16 *Cyp_e; - Word32 ap_fx; // Q(31 - ap_e) - Word16 ap_e; - Word32 L_tmp; - Word16 tmp, tmp_e; - const PARAM_MC_ILD_MAPPING *h_ild_mapping; - Word32 Cy_state_int_fx[MAX_OUTPUT_CHANNELS * MAX_OUTPUT_CHANNELS]; - Word16 Cy_state_int_e[MAX_OUTPUT_CHANNELS * MAX_OUTPUT_CHANNELS]; - - set16_fx( Cp_buf_e, Cproto_e, MAX_OUTPUT_CHANNELS * MAX_OUTPUT_CHANNELS ); - set32_fx( Nrqq_fx, 0, MAX_OUTPUT_CHANNELS ); - set16_fx( Nrqq_e, 0, MAX_OUTPUT_CHANNELS ); - h_ild_mapping = hParamMC->hMetadataPMC->ild_mapping_conf; - - /*get back Nrg*/ - tmp = 0; - move16(); - - FOR( k = 0; k < nY_int; k++ ) - { - Word32 ref_ener_fx = 0; // Q(31 - ref_ener_e) - move32(); - Word16 ref_ener_e = 0; - move16(); - Word16 ref_channel_cnt; - Word16 ref_channel_idx; - - FOR( ref_channel_cnt = 0; ref_channel_cnt < h_ild_mapping->num_ref_channels[k]; ref_channel_cnt++ ) - { - ref_channel_idx = h_ild_mapping->ref_channel_idx[k][ref_channel_cnt]; - move16(); - ref_ener_fx = BASOP_Util_Add_Mant32Exp( Cx_state_fx[ref_channel_idx + ( ref_channel_idx * nX )], Cx_state_e, ref_ener_fx, ref_ener_e, &ref_ener_e ); - move32(); - } - - L_tmp = Mpy_32_16_1( 713378626, ild_q_fx[k] ); /*Q24 : L_tmp Q31 for log2(10)/10 -> 713378626 */ - L_tmp = BASOP_util_Pow2( L_tmp, 31 - 24, &tmp_e ); /*powf( 10.0f, ild_q_fx[k] / 10.0f )*/ - L_tmp = Mpy_32_32( L_tmp, Mpy_32_16_1( ref_ener_fx, hParamMC->hMetadataPMC->ild_factors_fx[k] ) ); - - Nrqq_fx[h_ild_mapping->ild_index[k]] = L_tmp; - move32(); - Nrqq_e[h_ild_mapping->ild_index[k]] = add( tmp_e, ref_ener_e ); - move16(); - } - - /* estimate ICCs from estimated Cproto */ - - FOR( k = 0; k < nY_int; k++ ) - { - // a_fx[k] = 1.f / ( sqrtf( Cproto_fx[k + nY_int * k] ) + EPSILON ); - tmp_e = Cp_buf_e[k + ( nY_int * k )]; - move16(); - - IF( Cproto_fx[k + ( nY_int * k )] != 0 ) - { - L_tmp = ISqrt32( Cproto_fx[k + ( nY_int * k )], &tmp_e ); - } - ELSE - { - L_tmp = INV_EPSILON_MANT; - move32(); - tmp_e = 15; - move16(); - } - a_fx[k] = L_tmp; - move32(); - a_e[k] = tmp_e; - move16(); - - FOR( l = 0; l < nY_int; l++ ) - { - Cy_state_int_fx[( k * nY_int ) + l] = Mpy_32_32( Cproto_fx[( k * nY_int ) + l], a_fx[k] ); - move32(); - Cy_state_int_e[( k * nY_int ) + l] = add( Cp_buf_e[( k * nY_int ) + l], a_e[k] ); - move16(); - } - } - - FOR( k = 0; k < nY_int; k++ ) - { - Cyp_fx = Cy_state_int_fx + k; - Cyp_e = Cy_state_int_e + k; - ap_fx = a_fx[k]; - move32(); - ap_e = a_e[k]; - move16(); - - FOR( l = 0; l < nY_int; l++ ) - { - ( *Cyp_fx ) = Mpy_32_32( *Cyp_fx, ap_fx ); - move32(); - *Cyp_e = add( *Cyp_e, ap_e ); - move16(); - - Cyp_fx += nY_int; - Cyp_e += nY_int; - } - } - - /*normalizing the Cy_state_int_fx to a common exponent*/ - - /* replace some estimated ICCs with transmitted values */ - FOR( k = 0; k < hParamMC->hMetadataPMC->icc_mapping_conf->icc_map_size_lfe; k++ ) - { - Cy_state_int_fx[hParamMC->hMetadataPMC->icc_mapping_conf->icc_mapping[k][0] + ( nY_int * hParamMC->hMetadataPMC->icc_mapping_conf->icc_mapping[k][1] )] = L_shr( L_deposit_h( icc_q_fx[k] ), tmp ); - move32(); - Cy_state_int_e[hParamMC->hMetadataPMC->icc_mapping_conf->icc_mapping[k][0] + ( nY_int * hParamMC->hMetadataPMC->icc_mapping_conf->icc_mapping[k][1] )] = tmp; - move16(); - Cy_state_int_fx[hParamMC->hMetadataPMC->icc_mapping_conf->icc_mapping[k][1] + ( nY_int * hParamMC->hMetadataPMC->icc_mapping_conf->icc_mapping[k][0] )] = L_shr( L_deposit_h( icc_q_fx[k] ), tmp ); - move32(); - Cy_state_int_e[hParamMC->hMetadataPMC->icc_mapping_conf->icc_mapping[k][1] + ( nY_int * hParamMC->hMetadataPMC->icc_mapping_conf->icc_mapping[k][0] )] = tmp; - move16(); - } - - test(); - IF( GE_16( param_band_index, PARAM_MC_MAX_BAND_LFE ) || ( hParamMC->hMetadataPMC->lfe_on == 0 ) ) - { - FOR( k = 0; k < nY_int; k++ ) - { - Cy_state_int_fx[k + ( 3 * nY_int )] = ONE_IN_Q31; - move32(); - Cy_state_int_e[k + ( 3 * nY_int )] = 0; - move16(); - Cy_state_int_fx[3 + ( k * nY_int )] = ONE_IN_Q31; - move32(); - Cy_state_int_e[3 + ( k * nY_int )] = 0; - move16(); - } - Nrqq_fx[3] = 0; - move32(); - } - - /* Generate back Covariance Mtx */ - FOR( k = 0; k < nY_int; k++ ) - { - tmp_e = Nrqq_e[k]; - move16(); - a_fx[k] = Sqrt32( Nrqq_fx[k], &tmp_e ); - move32(); - a_e[k] = tmp_e; - move16(); - - /* v_multc( Cy_state_int_fx + k * nY_int, a_fx[k], Cy_state_int_fx + k * nY_int, nY_int ) */ - FOR( l = 0; l < nY_int; l++ ) - { - Cy_state_int_fx[( k * nY_int ) + l] = Mpy_32_32( Cy_state_int_fx[( k * nY_int ) + l], a_fx[k] ); - move32(); - Cy_state_int_e[( k * nY_int ) + l] = add( Cy_state_int_e[( k * nY_int ) + l], a_e[k] ); - move16(); - } - } - - FOR( k = 0; k < nY_int; k++ ) - { - Cyp_fx = Cy_state_int_fx + k; - Cyp_e = Cy_state_int_e + k; - ap_fx = a_fx[k]; - move32(); - ap_e = a_e[k]; - move16(); - - FOR( l = 0; l < nY_int; l++ ) - { - ( *Cyp_fx ) = Mpy_32_32( *Cyp_fx, ap_fx ); - move32(); - ( *Cyp_e ) = add( *Cyp_e, ap_e ); - move16(); - - Cyp_fx += nY_int; - Cyp_e += nY_int; - } - } - - IF( EQ_32( synth_conf, PARAM_MC_SYNTH_LS_CONV_COV ) ) - { - /* Cy = dmx*Cy*dmx' */ - Word32 mat_mult_buffer1_fx[MAX_CICP_CHANNELS * MAX_CICP_CHANNELS]; // Q(31 - mat_mult_buffer1_e) - Word16 mat_mult_buffer1_e[MAX_CICP_CHANNELS * MAX_CICP_CHANNELS]; - Word32 target_ch_ener_fx[MAX_CICP_CHANNELS]; // Q(31 - target_ch_ener_e) - Word16 target_ch_ener_e[MAX_CICP_CHANNELS]; - Word32 dmx_ch_ener_fx[MAX_CICP_CHANNELS]; - - Word16 ls_conv_dmx_matrix_e[MAX_CICP_CHANNELS * MAX_CICP_CHANNELS]; - - set32_fx( target_ch_ener_fx, 0, MAX_CICP_CHANNELS ); - set16_fx( target_ch_ener_e, 0, MAX_CICP_CHANNELS ); - set32_fx( dmx_ch_ener_fx, 0, MAX_CICP_CHANNELS ); - set16_fx( ls_conv_dmx_matrix_e, 1, MAX_OUTPUT_CHANNELS * MAX_OUTPUT_CHANNELS ); - - matrix_product_mant_exp( hParamMC->ls_conv_dmx_matrix_fx, ls_conv_dmx_matrix_e, nY_cov, nY_int, 0, - Cy_state_int_fx, Cy_state_int_e, nY_int, nY_int, 0, - mat_mult_buffer1_fx, mat_mult_buffer1_e ); - - matrix_product_mant_exp( mat_mult_buffer1_fx, mat_mult_buffer1_e, nY_cov, nY_int, 0, - hParamMC->ls_conv_dmx_matrix_fx, ls_conv_dmx_matrix_e, nY_cov, nY_int, 1, - Cy_state_fx, Cy_buf_e ); - - FOR( k = 0; k < nY_cov; k++ ) - { - FOR( l = 0; l < nY_int; l++ ) - { - L_tmp = Mpy_32_32( hParamMC->ls_conv_dmx_matrix_fx[k + ( l * nY_cov )], Nrqq_fx[l] ); - tmp_e = add( ls_conv_dmx_matrix_e[k + ( l + nY_cov )], Nrqq_e[l] ); - L_tmp = BASOP_Util_Add_Mant32Exp( target_ch_ener_fx[k], target_ch_ener_e[k], L_tmp, tmp_e, &tmp_e ); - target_ch_ener_fx[k] = L_tmp; - move32(); - target_ch_ener_e[k] = tmp_e; - move16(); - } - - dmx_ch_ener_fx[k] = Cy_state_fx[k + ( nY_cov * k )]; - move32(); - - IF( dmx_ch_ener_fx[k] < 0 ) - { - Cy_state_fx[k + ( nY_cov * k )] = L_negate( Cy_state_fx[k + ( nY_cov * k )] ); - move32(); - dmx_ch_ener_fx[k] = L_negate( dmx_ch_ener_fx[k] ); - move32(); - } - - IF( extract_h( dmx_ch_ener_fx[k] ) == 0 ) - { - target_ch_ener_fx[k] = 0; - move32(); - target_ch_ener_e[k] = 0; - move16(); - } - ELSE - { - BASOP_Util_Divide_MantExp( extract_h( target_ch_ener_fx[k] ), target_ch_ener_e[k], extract_h( dmx_ch_ener_fx[k] ), Cy_buf_e[k + ( nY_cov * k )], &tmp, &tmp_e ); - tmp = Sqrt16( tmp, &tmp_e ); - target_ch_ener_fx[k] = L_deposit_h( tmp ); - move32(); - target_ch_ener_e[k] = tmp_e; - move16(); - } - - FOR( l = 0; l < nY_cov; l++ ) - { - Cy_state_fx[( k * nY_cov ) + l] = Mpy_32_32( target_ch_ener_fx[k], Cy_state_fx[( k * nY_cov ) + l] ); - move32(); - Cy_buf_e[( k * nY_cov ) + l] = add( target_ch_ener_e[k], Cy_buf_e[( k * nY_cov ) + l] ); - move16(); - } - - Cyp_fx = Cy_state_fx + k; - Cyp_e = Cy_buf_e + k; - ap_fx = target_ch_ener_fx[k]; - move32(); - ap_e = target_ch_ener_e[k]; - move16(); - FOR( l = 0; l < nY_cov; l++ ) - { - ( *Cyp_fx ) = Mpy_32_32( *Cyp_fx, ap_fx ); - move32(); - *Cyp_e = add( *Cyp_e, ap_e ); - move16(); - - Cyp_fx += nY_cov; - Cyp_e += nY_cov; - } - } - } - ELSE - { - Copy32( Cy_state_int_fx, Cy_state_fx, imult1616( nY_int, nY_int ) ); - Copy( Cy_state_int_e, Cy_buf_e, imult1616( nY_int, nY_int ) ); - } - - /*normalize output matrix to a common exponent*/ - tmp = 0; - FOR( k = 0; k < nY_int * nY_int; k++ ) - { - Cy_state_fx[k] = BASOP_Util_Add_Mant32Exp( Cy_state_fx[k], Cy_buf_e[k], 0, 0, &Cy_buf_e[k] ); - move32(); - tmp = s_max( tmp, Cy_buf_e[k] ); - } - FOR( k = 0; k < nY_int * nY_int; k++ ) - { - L_tmp = L_shr( Cy_state_fx[k], sub( tmp, Cy_buf_e[k] ) ); - Cy_state_fx[k] = L_tmp; - move32(); - } - *Cy_state_e = tmp; - move16(); - - return; -} - -/*-------------------------------------------------------------------------* - * param_mc_set_num_synth_bands() - * - * set the number of frequency bands to be synthesized - *-------------------------------------------------------------------------*/ - -static void param_mc_set_num_synth_bands( - const Word32 output_Fs, /* i : output sampling frequency */ - PARAM_MC_DEC_HANDLE hParamMC /* i/o: Parametric MC handle */ -) -{ - UWord16 max_param_band_synth; - const Word16 *param_mc_bands_coded; - - SWITCH( hParamMC->hMetadataPMC->num_parameter_bands ) - { - case 20: - param_mc_bands_coded = param_mc_bands_coded_20; - BREAK; - case 10: - param_mc_bands_coded = param_mc_bands_coded_10; - BREAK; - case 14: - default: - param_mc_bands_coded = param_mc_bands_coded_14; - BREAK; - } - move16(); - SWITCH( output_Fs ) - { - case 8000: - max_param_band_synth = (UWord16) param_mc_bands_coded[NB]; - BREAK; - case 16000: - max_param_band_synth = (UWord16) param_mc_bands_coded[WB]; - BREAK; - case 32000: - max_param_band_synth = (UWord16) param_mc_bands_coded[SWB]; - BREAK; - case 48000: - default: - max_param_band_synth = (UWord16) param_mc_bands_coded[FB]; - BREAK; - } - move16(); - hParamMC->num_param_bands_synth = s_min( hParamMC->hMetadataPMC->nbands_coded, max_param_band_synth ); - move16(); - - return; -} - - -/*-------------------------------------------------------------------------* - * param_mc_get_diff_proto_info() - * - * calculated the diffuse prototype information - *-------------------------------------------------------------------------*/ - - -static ivas_error param_mc_get_diff_proto_info_fx( - const Word32 *proto_mtx, /* i : protoype matrix for the synthesis */ - const UWord16 nchan_transport, /* i : number of transport channels */ - const UWord16 nchan_out_cov, /* i : number if output channels of the covariance synthesis */ - PARAM_MC_DIFF_PROTO_INFO *p_diff_proto_info, /* o : generated diffuse prototype info */ - Word16 Q_proto_mtx ) -{ - Word32 proto_fac_fx[MAX_CICP_CHANNELS * PARAM_MC_MAX_TRANSPORT_CHANS]; - UWord16 cur_out_ch; - UWord16 cur_diff_proto; - UWord16 cur_transport_ch; - UWord16 max_num_src_chan; - - /* Initializations */ - max_num_src_chan = 0; - move16(); - - set_zero_fx( proto_fac_fx, MAX_CICP_CHANNELS * PARAM_MC_MAX_TRANSPORT_CHANS ); - IF( ( p_diff_proto_info->proto_index_diff = (Word16 *) malloc( nchan_out_cov * sizeof( Word16 ) ) ) == NULL ) - { - return ( IVAS_ERROR( IVAS_ERR_FAILED_ALLOC, "Can not allocate memory for Parametric MC\n" ) ); - } - set16_fx( p_diff_proto_info->proto_index_diff, 0, nchan_out_cov ); - - IF( ( p_diff_proto_info->num_source_chan_diff = (Word16 *) malloc( nchan_out_cov * sizeof( Word16 ) ) ) == NULL ) - { - return ( IVAS_ERROR( IVAS_ERR_FAILED_ALLOC, "Can not allocate memory for Parametric MC\n" ) ); - } - set16_fx( p_diff_proto_info->num_source_chan_diff, 0, nchan_out_cov ); - - /* we have at least one prototype, copy the first one */ - p_diff_proto_info->num_protos_diff = 1; - move16(); - - mvr2r_inc_fixed( proto_mtx, nchan_out_cov, proto_fac_fx, nchan_out_cov, nchan_transport ); - p_diff_proto_info->proto_index_diff[0] = 0; - move16(); - - /* search for distinct prototypes */ - FOR( cur_out_ch = 1; cur_out_ch < nchan_out_cov; cur_out_ch++ ) - { - UWord16 found = 0; - move16(); - - FOR( cur_diff_proto = 0; cur_diff_proto < p_diff_proto_info->num_protos_diff; cur_diff_proto++ ) - { - Word32 diff_fx = 0; - move32(); - Word32 *proto_fac_ptr_fx = proto_fac_fx + cur_diff_proto; - const Word32 *proto_mtx_ptr = proto_mtx + cur_out_ch; - FOR( cur_transport_ch = 0; cur_transport_ch < nchan_transport; cur_transport_ch++ ) - { - diff_fx = L_add( diff_fx, L_abs( L_sub( *proto_fac_ptr_fx, *proto_mtx_ptr ) ) ); - proto_fac_ptr_fx += nchan_out_cov; - proto_mtx_ptr += nchan_out_cov; - } - - /* we already have this prototype, save the index */ - IF( LT_64( W_mult0_32_32( diff_fx, 10 ), L_shl_sat( 1, Q_proto_mtx ) ) ) - { - found = 1; - move16(); - p_diff_proto_info->proto_index_diff[cur_out_ch] = cur_diff_proto; - move16(); - BREAK; - } - } - - /* new distinct prototype, add it */ - IF( found == 0 ) - { - const Word32 *proto_mtx_ptr = proto_mtx + cur_out_ch; - Word16 cur_num_src_chan; - - cur_num_src_chan = 0; - move16(); - FOR( cur_transport_ch = 0; cur_transport_ch < nchan_transport; cur_transport_ch++ ) - { - if ( GT_32( *proto_mtx_ptr, 0 /*EPSILON*/ ) ) - { - cur_num_src_chan = add( cur_num_src_chan, 1 ); - } - proto_mtx_ptr += nchan_out_cov; - } - - mvr2r_inc_fixed( proto_mtx + cur_out_ch, nchan_out_cov, proto_fac_fx + p_diff_proto_info->num_protos_diff, nchan_out_cov, nchan_transport ); - - p_diff_proto_info->proto_index_diff[cur_out_ch] = p_diff_proto_info->num_protos_diff; - move16(); - p_diff_proto_info->num_protos_diff = add( p_diff_proto_info->num_protos_diff, 1 ); - move16(); - max_num_src_chan = s_max( max_num_src_chan, cur_num_src_chan ); - } - } - - /* set up the prototype info struct */ - IF( ( p_diff_proto_info->source_chan_idx = (Word16 **) malloc( p_diff_proto_info->num_protos_diff * sizeof( Word16 * ) ) ) == NULL ) - { - return ( IVAS_ERROR( IVAS_ERR_FAILED_ALLOC, "Can not allocate memory for Parametric MC\n" ) ); - } - - IF( ( p_diff_proto_info->proto_fac_fx = (Word32 **) malloc( p_diff_proto_info->num_protos_diff * sizeof( Word32 * ) ) ) == NULL ) - { - return ( IVAS_ERROR( IVAS_ERR_FAILED_ALLOC, "Can not allocate memory for Parametric MC\n" ) ); - } - FOR( cur_diff_proto = 0; cur_diff_proto < p_diff_proto_info->num_protos_diff; cur_diff_proto++ ) - { - Word32 *proto_fac_ptr; - - IF( ( p_diff_proto_info->source_chan_idx[cur_diff_proto] = (Word16 *) malloc( max_num_src_chan * sizeof( Word16 ) ) ) == NULL ) - { - return ( IVAS_ERROR( IVAS_ERR_FAILED_ALLOC, "Can not allocate memory for Parametric MC\n" ) ); - } - - IF( ( p_diff_proto_info->proto_fac_fx[cur_diff_proto] = (Word32 *) malloc( max_num_src_chan * sizeof( Word32 ) ) ) == NULL ) - { - return ( IVAS_ERROR( IVAS_ERR_FAILED_ALLOC, "Can not allocate memory for Parametric MC\n" ) ); - } - - proto_fac_ptr = proto_fac_fx + cur_diff_proto; - FOR( cur_transport_ch = 0; cur_transport_ch < nchan_transport; cur_transport_ch++ ) - { - IF( GT_32( *proto_fac_ptr, EPSILON_FX_SMALL ) ) - { - p_diff_proto_info->source_chan_idx[cur_diff_proto][p_diff_proto_info->num_source_chan_diff[cur_diff_proto]] = cur_transport_ch; - move16(); - p_diff_proto_info->proto_fac_fx[cur_diff_proto][p_diff_proto_info->num_source_chan_diff[cur_diff_proto]] = L_shl( *proto_fac_ptr, 4 ); // (proto_fac_fx)Q26 + 4 = Q30 - move16(); - p_diff_proto_info->num_source_chan_diff[cur_diff_proto] = add( p_diff_proto_info->num_source_chan_diff[cur_diff_proto], 1 ); - move16(); - } - proto_fac_ptr += nchan_out_cov; - } - } - return IVAS_ERR_OK; -} - - -/*-------------------------------------------------------------------------* - * ivas_param_mc_bs_decode_parameter_values() - * - * reads and decodes a sequence of Parametric MC parameters from the bitstream - *-------------------------------------------------------------------------*/ - -static void ivas_param_mc_bs_decode_parameter_values_fx( - UWord16 bit_buffer[], /* i : bitstream buffer */ - Word16 *bit_pos, /* i/o: current bitstream buffer position */ - const Word16 max_bits, /* i : maximum available bits in the buffer */ - Word16 *BER_detect, /* i/o: bit error detection flag */ - HANDLE_IVAS_PARAM_MC_METADATA hMetadataPMC, /* i : Parametric MC metadata information */ - HANDLE_PARAM_MC_PARAMETER_CODING_INFO hParamCodingInfo, /* i : Parametric MC parameter quantization and coding tables */ - const Word16 map_size_wo_lfe, /* i : number of parameters per band (w/o LFEs) */ - const Word16 map_size, /* i : number of parameters per band (total) */ - const Word16 num_lfe_bands, /* i : number of parameter bands with coded LFE */ - const Word16 band_step, /* i : parameter band step */ - const Word16 num_param_bands, /* i : number of parameter bands to decode */ - Word16 *value_buffer /* o : output buffer for decoded parameter values hParamCodingInfo -> Q-quant*/ -) -{ - Word16 range_coding; - Word16 sz_seq; - Word16 delta_coding; - Word16 delta_idx[PARAM_MC_MAX_PARAMETER_BANDS * PARAM_MC_MAX_VAL_MAP_SIZE]; - Word16 idx[PARAM_MC_MAX_PARAMETER_BANDS * PARAM_MC_MAX_VAL_MAP_SIZE]; - Word16 idx_prev; - Word16 idx_offset; - Word16 sz_alphabet; - Word16 i, j, k; - Word16 dequant_seq_fx[PARAM_MC_MAX_PARAMETER_BANDS * PARAM_MC_MAX_VAL_MAP_SIZE]; - Word16 dequant_ordered_fx[PARAM_MC_MAX_PARAMETER_BANDS * PARAM_MC_MAX_VAL_MAP_SIZE]; - Word16 n_lfe_idx; - - range_coding = bit_buffer[*bit_pos]; - move16(); - *bit_pos = add( *bit_pos, 1 ); - move16(); - - /* Decoding the sequence */ - n_lfe_idx = sub( map_size, map_size_wo_lfe ); - sz_seq = add( imult1616( num_param_bands, map_size_wo_lfe ), imult1616( num_lfe_bands, n_lfe_idx ) ); - - set16_fx( idx, 0, PARAM_MC_MAX_PARAMETER_BANDS * PARAM_MC_MAX_VAL_MAP_SIZE ); - set16_fx( dequant_ordered_fx, 0, PARAM_MC_MAX_PARAMETER_BANDS * PARAM_MC_MAX_VAL_MAP_SIZE ); - set16_fx( dequant_seq_fx, 0, PARAM_MC_MAX_PARAMETER_BANDS * PARAM_MC_MAX_VAL_MAP_SIZE ); - IF( range_coding ) - { - delta_coding = bit_buffer[*bit_pos]; - move16(); - *bit_pos = add( *bit_pos, 1 ); - move16(); - - IF( delta_coding ) - { - idx_prev = sub( add( shr( hParamCodingInfo->quantizer_size, 1 ), hParamCodingInfo->quantizer_size % 2 ), 1 ); - sz_alphabet = sub( shl( hParamCodingInfo->quantizer_size, 1 ), 1 ); - idx_offset = sub( hParamCodingInfo->quantizer_size, 1 ); - - /* read range coded delta ICC indices */ - *bit_pos = add( *bit_pos, ivas_param_mc_range_decoder_LC_fx( &bit_buffer[*bit_pos], delta_idx, BER_detect, sz_seq, sz_alphabet, - hParamCodingInfo->cum_freq_delta, hParamCodingInfo->sym_freq_delta, PARAM_MC_RANGE_CODER_TOT_SHIFT, sub( max_bits, *bit_pos ) ) ); - move16(); - - /* delta index to absolute index */ - FOR( j = 0; j < sz_seq; j++ ) - { - idx[j] = add( idx_prev, sub( delta_idx[j], idx_offset ) ); - idx_prev = idx[j]; - move16(); - } - } - ELSE - { - /* read range coded absolute ICC indices */ - sz_alphabet = hParamCodingInfo->quantizer_size; - move16(); - *bit_pos = add( *bit_pos, ivas_param_mc_range_decoder_LC_fx( &bit_buffer[*bit_pos], idx, BER_detect, sz_seq, sz_alphabet, - hParamCodingInfo->cum_freq, hParamCodingInfo->sym_freq, PARAM_MC_RANGE_CODER_TOT_SHIFT, sub( max_bits, *bit_pos ) ) ); - move16(); - } - - /* dequantize */ - FOR( j = 0; j < sz_seq; j++ ) - { - dequant_seq_fx[j] = hParamCodingInfo->quantizer_fx[idx[j]]; // hParamCodingInfo -> Q-quant - move16(); - } - } - ELSE - { - set16_fx( dequant_seq_fx, 0, PARAM_MC_MAX_PARAMETER_BANDS * PARAM_MC_MAX_VAL_MAP_SIZE ); - /* read uniformly coded ICCs */ - *bit_pos = add( *bit_pos, ivas_param_mc_uniform_decoder_fx( dequant_seq_fx, sz_seq, hParamCodingInfo->quantizer_fx, hParamCodingInfo->uni_bits, &bit_buffer[*bit_pos] ) ); - move16(); - } - - /* reorder from sequential to parameter-band-wise */ - k = 0; - FOR( j = 0; j < map_size_wo_lfe; ++j ) - { - FOR( i = 0; i < num_param_bands; ++i ) - { - dequant_ordered_fx[j + ( i * map_size )] = dequant_seq_fx[k]; // hParamCodingInfo -> Q-quant - move16(); - k = add( k, 1 ); - } - } - - FOR( i = 0; i < num_lfe_bands; i++ ) - { - FOR( j = 0; j < n_lfe_idx; j++ ) - { - dequant_ordered_fx[map_size - n_lfe_idx + j + i * map_size] = dequant_seq_fx[k]; // hParamCodingInfo -> Q-quant - move16(); - k = add( k, 1 ); - } - } - - IF( !( *BER_detect ) ) - { - j = 0; - FOR( k = 0; k < hMetadataPMC->nbands_coded; k += band_step ) - { - test(); - IF( hMetadataPMC->bAttackPresent || EQ_16( hMetadataPMC->param_frame_idx, hMetadataPMC->coding_band_mapping[k] ) ) - { - Copy( dequant_ordered_fx + imult1616( j, map_size ), value_buffer + imult1616( k, map_size ), map_size ); // hParamCodingInfo -> Q-quant - j++; - } - IF( hMetadataPMC->bAttackPresent && k + 1 < hMetadataPMC->nbands_coded ) - { - Copy( value_buffer + imult1616( k, map_size ), value_buffer + imult1616( add( k, 1 ), map_size ), map_size ); - } - } - } - - return; -} diff --git a/lib_dec/ivas_mc_param_dec_fx.c b/lib_dec/ivas_mc_param_dec_fx.c index 0d9ee27107cedfdf97ef477e77d8c0882d2917ca..b5962311337b000a9acb56faddd40ba4853fdaa2 100644 --- a/lib_dec/ivas_mc_param_dec_fx.c +++ b/lib_dec/ivas_mc_param_dec_fx.c @@ -1,34 +1,3804 @@ +/****************************************************************************************************** + + (C) 2022-2025 IVAS codec Public Collaboration with portions copyright Dolby International AB, Ericsson AB, + Fraunhofer-Gesellschaft zur Foerderung der angewandten Forschung e.V., Huawei Technologies Co. LTD., + Koninklijke Philips N.V., Nippon Telegraph and Telephone Corporation, Nokia Technologies Oy, Orange, + Panasonic Holdings Corporation, Qualcomm Technologies, Inc., VoiceAge Corporation, and other + contributors to this repository. All Rights Reserved. + + This software is protected by copyright law and by international treaties. + The IVAS codec Public Collaboration consisting of Dolby International AB, Ericsson AB, + Fraunhofer-Gesellschaft zur Foerderung der angewandten Forschung e.V., Huawei Technologies Co. LTD., + Koninklijke Philips N.V., Nippon Telegraph and Telephone Corporation, Nokia Technologies Oy, Orange, + Panasonic Holdings Corporation, Qualcomm Technologies, Inc., VoiceAge Corporation, and other + contributors to this repository retain full ownership rights in their respective contributions in + the software. This notice grants no license of any kind, including but not limited to patent + license, nor is any license granted by implication, estoppel or otherwise. + + Contributors are required to enter into the IVAS codec Public Collaboration agreement before making + contributions. + + This software is provided "AS IS", without any express or implied warranties. The software is in the + development stage. It is intended exclusively for experts who have experience with such software and + solely for the purpose of inspection. All implied warranties of non-infringement, merchantability + and fitness for a particular purpose are hereby disclaimed and excluded. + + Any dispute, controversy or claim arising under or in relation to providing this software shall be + submitted to and settled by the final, binding jurisdiction of the courts of Munich, Germany in + accordance with the laws of the Federal Republic of Germany excluding its conflict of law rules and + the United Nations Convention on Contracts on the International Sales of Goods. + +*******************************************************************************************************/ + +#include +#include "options.h" +#include +#include "cnst.h" +#include "rom_enc.h" +#include "rom_com.h" +#include "prot_fx.h" +#include "ivas_prot_rend_fx.h" +#include "ivas_cnst.h" +#include "ivas_rom_com.h" +#include "ivas_rom_dec.h" +#include "math.h" +#include "wmc_auto.h" +#include "rom_dec.h" #include "ivas_prot_fx.h" -Word16 param_mc_get_num_cldfb_syntheses_ivas_fx( - Decoder_Struct *st_ivas /* i : Parametric MC handle */ +#define INV_EPSILON_MANT 214748365 + +/*-----------------------------------------------------------------------* + * Local constants + *-----------------------------------------------------------------------*/ + +#define PARAM_MC_LOCAL_SZ_LFE_MAP 5 + +/*-----------------------------------------------------------------------* + * Local typedefs + *-----------------------------------------------------------------------*/ + +typedef struct parameter_band_mapping_struct +{ + Word16 n_source_bands[20]; + Word16 source_band_idx[20][4]; + Word16 source_band_factor_fx[20][4]; /*Q15*/ + +} PARAM_MC_PARAMETER_BAND_MAPPING; + +/*-----------------------------------------------------------------------* + * Local function prototypes + *-----------------------------------------------------------------------*/ + +static void ivas_param_mc_dec_init_fx( PARAM_MC_DEC_HANDLE hParamMC, const Word16 nchan_in, const Word16 nchan_out ); + +static void ivas_param_mc_dec_copy_diffuse_proto( PARAM_MC_DEC_HANDLE hParamMC, Word32 Cldfb_buffer_real_fx[MAX_CICP_CHANNELS][PARAM_MC_MAX_NSLOTS_IN_SUBFRAME][CLDFB_NO_CHANNELS_MAX], Word32 Cldfb_buffer_imag_fx[MAX_CICP_CHANNELS][PARAM_MC_MAX_NSLOTS_IN_SUBFRAME][CLDFB_NO_CHANNELS_MAX], const Word16 nY, const Word16 slot_idx ); +static Word16 ivas_param_mc_range_decoder_LC_fx( UWord16 *bit_buffer, Word16 *x, Word16 *BER_detect, const Word16 sz_seq, const Word16 sz_alphabet, const UWord16 *cft, const UWord16 *sft, const Word16 tot_shift, const Word16 nbbits ); + + +static void ivas_param_mc_get_mixing_matrices_fx( + PARAM_MC_DEC_HANDLE hParamMC, /* i : Parametric MC handle */ + IVAS_OUTPUT_SETUP *hSynthesisOutputSetup, + Word32 Cx_in_fixed[PARAM_MC_MAX_TRANSPORT_CHANS * PARAM_MC_MAX_TRANSPORT_CHANS], /* i : input covariance for all parameter bands */ + Word16 Cx_in_e, + const Word16 param_band_idx, + Word32 *mixing_matrix_fx[], + Word16 *mixing_matrix_e, + Word32 *mixing_matrix_res_fx[], + Word16 *mixing_matrix_res_e, + const Word16 nY_intern, /* i : number of channels in the transported format */ + const PARAM_MC_SYNTHESIS_CONF synth_config, /* i : Parametric MC synthesis config */ + const Word16 nX, /* i : number of transport channels */ + const Word16 nY_cov /* i : number of covariance synthesis output channels */ +); + +static Word16 ivas_param_mc_uniform_decoder_fx( Word16 *seq, const Word16 sz_seq, const Word16 *alphabet, const Word16 N, UWord16 bit_buffer[PARAM_MC_MAX_BITS] ); +static void ivas_param_mc_dec_compute_interpolator_fx( const UWord16 bAttackPresent, const UWord16 attackPos, const UWord16 interp_length, Word16 *interpolator ); + +static void param_mc_set_num_synth_bands( const Word32 output_Fs, PARAM_MC_DEC_HANDLE hParamMC ); + +static void ivas_param_mc_get_param_band_mapping( const Word16 n_target_bands, const Word16 *target_band_grouping, const Word16 n_source_bands, const Word16 *source_band_grouping, PARAM_MC_PARAMETER_BAND_MAPPING *parameter_band_mapping ); + + +static void ivas_param_mc_bs_decode_parameter_values_fx( UWord16 bit_buffer[], Word16 *bit_pos, const Word16 max_bits, Word16 *BER_detect, HANDLE_IVAS_PARAM_MC_METADATA hMetadataPMC, HANDLE_PARAM_MC_PARAMETER_CODING_INFO hParamCodingInfo, const Word16 map_size_wo_lfe, const Word16 map_size, const Word16 num_lfe_bands, const Word16 band_step, const Word16 num_param_bands, Word16 *value_buffer ); +static void ivas_param_mc_dequantize_cov_fx( PARAM_MC_DEC_HANDLE hParamMC, Word16 *ild_q_fx, Word16 *icc_q_fx, const Word16 param_band_index, const Word16 nY_cov, const PARAM_MC_SYNTHESIS_CONF synth_conf, const Word16 nY_int, const Word16 nX, Word32 *Cx_state_fx, Word16 Cx_state_e, Word32 *Cproto_fx, Word16 Cproto_e, Word32 *Cy_state_fx, Word16 *Cy_state_e ); +static ivas_error param_mc_get_diff_proto_info_fx( const Word32 *proto_mtx, const UWord16 nchan_transport, const UWord16 nchan_out_cov, PARAM_MC_DIFF_PROTO_INFO *p_diff_proto_info, Word16 Q_proto_mtx ); +static void param_mc_update_mixing_matrices_fx( PARAM_MC_DEC_HANDLE hParamMC, Word32 *mixing_matrix[], Word16 *mixing_matrix_fx, Word32 *mixing_matrix_res[], Word16 *mixing_matrix_res_exp, const UWord16 nX, const UWord16 nY ); + + +static void param_mc_protoSignalComputation_fx( Word32 *RealBuffer_fx, Word32 *ImagBuffer_fx, Word32 *proto_frame_f_fx, const PARAM_MC_DIFF_PROTO_INFO *diff_proto_info, const Word16 num_freq_bands /*, Word16 RealBuffer_fx_e, Word16 ImagBuffer_fx_e, Word16 *common_e*/ ); + +/*------------------------------------------------------------------------- + * ivas_param_mc_dec_open() + * + * Open Parametric MC decoder handle + *-------------------------------------------------------------------------*/ + +ivas_error ivas_param_mc_dec_open_fx( + Decoder_Struct *st_ivas /* i/o: IVAS decoder structure */ ) { - Word16 num_cldfb_syntheses; + Word16 k, nchan_transport; + PARAM_MC_DEC_HANDLE hParamMC; + Word16 nchan_out_transport; + Word16 nchan_out_cov; + Word32 proto_matrix_fx[MAX_CICP_CHANNELS * PARAM_MC_MAX_TRANSPORT_CHANS]; + Word32 proto_mtx_norm_fx, tmp32; + Word16 frequency_axis_fx[CLDFB_NO_CHANNELS_MAX]; + Word16 max_param_band_residual; + UWord16 config_index; + MC_LS_SETUP mc_ls_setup; + AUDIO_CONFIG output_config; + Word32 output_Fs, ivas_total_brate; + ivas_error error; - num_cldfb_syntheses = 0; + error = IVAS_ERR_OK; + move32(); + + /*-----------------------------------------------------------------* + * prepare library opening + *-----------------------------------------------------------------*/ + + IF( ( hParamMC = (PARAM_MC_DEC_HANDLE) malloc( sizeof( PARAM_MC_DEC_DATA ) ) ) == NULL ) + { + return ( IVAS_ERROR( IVAS_ERR_FAILED_ALLOC, "Can not allocate memory for Parametric MC\n" ) ); + } + + IF( ( hParamMC->hMetadataPMC = (HANDLE_IVAS_PARAM_MC_METADATA) malloc( sizeof( IVAS_PARAM_MC_METADATA ) ) ) == NULL ) + { + return ( IVAS_ERROR( IVAS_ERR_FAILED_ALLOC, "Can not allocate memory for Parametric MC metadata \n" ) ); + } + + output_Fs = st_ivas->hDecoderConfig->output_Fs; + move32(); + output_config = st_ivas->hDecoderConfig->output_config; + move32(); + ivas_total_brate = st_ivas->hDecoderConfig->ivas_total_brate; + move32(); + mc_ls_setup = ivas_mc_map_output_config_to_mc_ls_setup_fx( st_ivas->transport_config ); + nchan_out_transport = add( st_ivas->hTransSetup.nchan_out_woLFE, st_ivas->hTransSetup.num_lfe ); + hParamMC->hoa_encoder_fx = NULL; + + /* determine the synthesis config */ + test(); + test(); + test(); + test(); + test(); + IF( EQ_32( st_ivas->renderer_type, RENDERER_SBA_LINEAR_ENC ) || EQ_32( st_ivas->renderer_type, RENDERER_BINAURAL_FASTCONV ) || EQ_32( st_ivas->renderer_type, RENDERER_BINAURAL_FASTCONV_ROOM ) || EQ_32( st_ivas->renderer_type, RENDERER_BINAURAL_OBJECTS_TD ) || EQ_32( st_ivas->transport_config, output_config ) ) + { + hParamMC->synthesis_conf = PARAM_MC_SYNTH_DIRECT; + move32(); + } + ELSE IF( EQ_32( output_config, IVAS_AUDIO_CONFIG_MONO ) || EQ_32( output_config, IVAS_AUDIO_CONFIG_STEREO ) ) + { + hParamMC->synthesis_conf = PARAM_MC_SYNTH_MONO_STEREO; + move32(); + } + ELSE IF( NE_32( st_ivas->transport_config, output_config ) ) + { + test(); + test(); + IF( ( NE_32( output_config, IVAS_AUDIO_CONFIG_LS_CUSTOM ) && GT_16( nchan_out_transport, audioCfg2channels( output_config ) ) ) || ( EQ_32( output_config, IVAS_AUDIO_CONFIG_LS_CUSTOM ) && GT_16( nchan_out_transport, st_ivas->hOutSetup.nchan_out_woLFE ) ) ) + { + hParamMC->synthesis_conf = PARAM_MC_SYNTH_LS_CONV_COV; + move32(); + /* need to reset the intern config */ + st_ivas->intern_config = output_config; + move32(); + ivas_output_init( &( st_ivas->hIntSetup ), st_ivas->intern_config ); + IF( EQ_32( output_config, IVAS_AUDIO_CONFIG_LS_CUSTOM ) ) + { + st_ivas->hIntSetup.nchan_out_woLFE = st_ivas->hLsSetupCustom->num_spk; + move32(); + st_ivas->hIntSetup.ls_azimuth_fx = st_ivas->hLsSetupCustom->ls_azimuth_fx; // Q22 + st_ivas->hIntSetup.ls_elevation_fx = st_ivas->hLsSetupCustom->ls_elevation_fx; // Q22 + } + } + ELSE + { + hParamMC->synthesis_conf = PARAM_MC_SYNTH_LS_CONV_CLDFB; + move32(); + } + } + + hParamMC->ls_conv_dmx_matrix_fx = NULL; + + test(); + IF( EQ_32( hParamMC->synthesis_conf, PARAM_MC_SYNTH_LS_CONV_COV ) || EQ_32( hParamMC->synthesis_conf, PARAM_MC_SYNTH_MONO_STEREO ) ) + { + nchan_out_cov = add( st_ivas->hOutSetup.nchan_out_woLFE, st_ivas->hOutSetup.num_lfe ); + } + ELSE + { + nchan_out_cov = nchan_out_transport; + move16(); + } + + st_ivas->nchan_transport = ivas_param_mc_getNumTransportChannels_fx( ivas_total_brate, mc_ls_setup ); + move16(); + config_index = ivas_param_mc_get_configuration_index_fx( mc_ls_setup, ivas_total_brate ); + nchan_transport = st_ivas->nchan_transport; move16(); - /* sanity check*/ - IF( st_ivas->hParamMC == NULL ) + SWITCH( nchan_transport ) { - assert( 0 && "ParamMC handle does not exist!\n" ); + case 4: + case 3: + st_ivas->nCPE = 2; + move16(); + st_ivas->nSCE = 0; + move16(); + st_ivas->element_mode_init = IVAS_CPE_MDCT; + move16(); + BREAK; + case 2: + st_ivas->nCPE = 1; + move16(); + st_ivas->nSCE = 0; + move16(); + st_ivas->element_mode_init = IVAS_CPE_MDCT; + move16(); + + BREAK; } + /*-----------------------------------------------------------------* + * set input parameters + *-----------------------------------------------------------------*/ + + // hParamMC->slot_size = (int16_t) ( output_Fs / FRAMES_PER_SEC ) / CLDFB_NO_COL_MAX; + Word16 temp_e; + Word16 temp = BASOP_Util_Divide3232_Scale( output_Fs, FRAMES_PER_SEC, &temp_e ); + temp = shr( temp, sub( 15, temp_e ) ); // Going back to Q0 + temp = BASOP_Util_Divide1616_Scale( temp, CLDFB_NO_COL_MAX, &temp_e ); + temp = shr( temp, sub( 15, temp_e ) ); // Going back to Q0 + hParamMC->slot_size = temp; + move16(); + set16_fx( hParamMC->subframe_nbslots, 0, MAX_JBM_SUBFRAMES_5MS ); + set16_fx( hParamMC->subframe_nbslots, PARAM_MC_MAX_NSLOTS_IN_SUBFRAME, DEFAULT_JBM_SUBFRAMES_5MS ); + hParamMC->nb_subframes = DEFAULT_JBM_SUBFRAMES_5MS; + move16(); + + // hParamMC->num_freq_bands = (int16_t)(output_Fs * INV_CLDFB_BANDWIDTH + 0.5f); + hParamMC->num_freq_bands = extract_l( Mpy_32_32_r( output_Fs, INV_CLDFB_BANDWIDTH_Q31 ) ); + move16(); + hParamMC->max_band_energy_compensation = hParamMC->num_freq_bands; + move16(); + ivas_param_mc_metadata_open_fx( mc_ls_setup, ivas_total_brate, hParamMC->hMetadataPMC ); + + /* init arrays for quantized parameters */ + + IF( ( hParamMC->icc_q_fx = (Word16 *) malloc( hParamMC->hMetadataPMC->num_parameter_bands * hParamMC->hMetadataPMC->icc_mapping_conf->icc_map_size_lfe * sizeof( Word16 ) ) ) == NULL ) + { + return ( IVAS_ERROR( IVAS_ERR_FAILED_ALLOC, "Can not allocate memory for Parametric MC\n" ) ); + } + IF( ( hParamMC->icld_q_fx = (Word16 *) malloc( hParamMC->hMetadataPMC->num_parameter_bands * hParamMC->hMetadataPMC->ild_mapping_conf->ild_map_size_lfe * sizeof( Word16 ) ) ) == NULL ) + { + return ( IVAS_ERROR( IVAS_ERR_FAILED_ALLOC, "Can not allocate memory for Parametric MC\n" ) ); + } + set16_fx( hParamMC->icld_q_fx, PARAM_MC_DEFAULT_MIN_ILD_FX, imult1616( hParamMC->hMetadataPMC->num_parameter_bands, hParamMC->hMetadataPMC->ild_mapping_conf->ild_map_size_lfe ) ); // Q8 + set16_fx( hParamMC->icc_q_fx, 0, imult1616( hParamMC->hMetadataPMC->num_parameter_bands, hParamMC->hMetadataPMC->icc_mapping_conf->icc_map_size_lfe ) ); // Q15 + + param_mc_set_num_synth_bands( output_Fs, hParamMC ); + + /* Band Grouping */ + IF( EQ_16( hParamMC->hMetadataPMC->num_parameter_bands, 20 ) ) + { + Copy( param_mc_band_grouping_20, hParamMC->band_grouping, 20 + 1 ); + } + ELSE IF( EQ_16( hParamMC->hMetadataPMC->num_parameter_bands, 14 ) ) + { + Copy( param_mc_band_grouping_14, hParamMC->band_grouping, 14 + 1 ); + } + ELSE IF( EQ_16( hParamMC->hMetadataPMC->num_parameter_bands, 10 ) ) + { + Copy( param_mc_band_grouping_10, hParamMC->band_grouping, 10 + 1 ); + } + ELSE + { + assert( 0 && "nbands must be 20, 14, or 10!" ); + } + + /* set max parameter band for abs cov */ + k = 0; + move16(); + WHILE( LE_16( hParamMC->band_grouping[k], PARAM_MC_MAX_BAND_ABS_COV_DEC ) ) + { + hParamMC->max_param_band_abs_cov = k; + move16(); + k = add( k, 1 ); + } + + /*-----------------------------------------------------------------* + * open sub-modules + *-----------------------------------------------------------------*/ + + /* prototype signal computation */ + test(); - IF( EQ_16( st_ivas->renderer_type, RENDERER_BINAURAL_FASTCONV ) || EQ_16( st_ivas->renderer_type, RENDERER_BINAURAL_FASTCONV_ROOM ) ) + test(); + IF( EQ_32( hParamMC->synthesis_conf, PARAM_MC_SYNTH_LS_CONV_CLDFB ) || EQ_32( hParamMC->synthesis_conf, PARAM_MC_SYNTH_LS_CONV_COV ) || EQ_32( hParamMC->synthesis_conf, PARAM_MC_SYNTH_MONO_STEREO ) ) { - num_cldfb_syntheses = 2; + IF( NE_32( ( error = ivas_ls_setup_conversion_open_fx( st_ivas ) ), IVAS_ERR_OK ) ) + { + return error; + } + + /* convert the ls conv dmx matrix into column order matrix format (nchan_out_cldfb x nchan_out) */ + test(); + IF( EQ_32( hParamMC->synthesis_conf, PARAM_MC_SYNTH_LS_CONV_COV ) || EQ_32( hParamMC->synthesis_conf, PARAM_MC_SYNTH_MONO_STEREO ) ) + { + IF( ( hParamMC->ls_conv_dmx_matrix_fx = (Word32 *) malloc( nchan_out_transport * nchan_out_cov * sizeof( Word32 ) ) ) == NULL ) + { + return ( IVAS_ERROR( IVAS_ERR_FAILED_ALLOC, "Can not allocate memory for Parametric MC\n" ) ); + } + + FOR( k = 0; k < nchan_out_transport; k++ ) + { + Copy32( st_ivas->hLsSetUpConversion->dmxMtx_fx[k], &hParamMC->ls_conv_dmx_matrix_fx[k * nchan_out_cov], nchan_out_cov ); /*Q30*/ + } + + /* convert ParamMC parameter bands to SFB */ + IF( EQ_32( hParamMC->synthesis_conf, PARAM_MC_SYNTH_MONO_STEREO ) ) + { + st_ivas->hLsSetUpConversion->sfbCnt = hParamMC->num_param_bands_synth; + move16(); + FOR( k = 0; k <= hParamMC->num_param_bands_synth; k++ ) + { + st_ivas->hLsSetUpConversion->sfbOffset[k] = imult1616( PARAM_MC_BAND_TO_MDCT_BAND_RATIO, hParamMC->band_grouping[k] ); + move16(); + } + } + ELSE + { + /* close the ls conversion handle immediately, it was only needed to get the DMX matrix in case of DMX in the covariance domain */ + ivas_ls_setup_conversion_close_fx( &st_ivas->hLsSetUpConversion ); + } + } + } + IF( ( hParamMC->proto_matrix_int_fx = (Word32 *) malloc( nchan_out_transport * nchan_transport * sizeof( Word32 ) ) ) == NULL ) + { + return ( IVAS_ERROR( IVAS_ERR_FAILED_ALLOC, "Can not allocate memory for Parametric MC\n" ) ); + } + Copy32( ivas_param_mc_conf[config_index].dmx_fac_fx, hParamMC->proto_matrix_int_fx, imult1616( nchan_transport, nchan_out_transport ) ); /*Q31*/ + + hParamMC->proto_matrix_int_len = imult1616( nchan_out_transport, nchan_transport ); + move16(); + + test(); + IF( EQ_32( hParamMC->synthesis_conf, PARAM_MC_SYNTH_LS_CONV_COV ) || EQ_32( hParamMC->synthesis_conf, PARAM_MC_SYNTH_MONO_STEREO ) ) + { + Scale_sig32( hParamMC->ls_conv_dmx_matrix_fx, imult1616( nchan_out_transport, nchan_out_cov ), -4 ); /*Q.26*/ + matrix_product_fx( hParamMC->ls_conv_dmx_matrix_fx, nchan_out_cov, nchan_out_transport, 0, ivas_param_mc_conf[config_index].dmx_fac_fx, nchan_out_transport, nchan_transport, 0, proto_matrix_fx ); /*Q.26*/ + Scale_sig32( hParamMC->ls_conv_dmx_matrix_fx, imult1616( nchan_out_transport, nchan_out_cov ), 4 ); /*Q.26*/ + IF( EQ_32( hParamMC->synthesis_conf, PARAM_MC_SYNTH_MONO_STEREO ) ) + { + tmp32 = ONE_IN_Q26; /*Q26*/ + move32(); + FOR( k = 0; k < nchan_transport * nchan_out_cov; k++ ) + { + tmp32 = L_max( L_abs( tmp32 ), L_abs( proto_matrix_fx[k] ) ); /*Q.26*/ + } + proto_mtx_norm_fx = divide3232( ONE_IN_Q26, tmp32 ); /*Q15*/ + + /* transfer flattened proto_matrix to 2D in hLsSetupConversion->dmxMtx */ + FOR( k = 0; k < nchan_transport; k++ ) + { + FOR( Word16 i = 0; i < nchan_out_cov; i++ ) + { + IF( EQ_32( proto_matrix_fx[k * nchan_out_cov + i], tmp32 ) ) + { + st_ivas->hLsSetUpConversion->dmxMtx_fx[k][i] = ONE_IN_Q30; // Q30 + } + ELSE + { + st_ivas->hLsSetUpConversion->dmxMtx_fx[k][i] = L_shl( Mult_32_16( proto_matrix_fx[k * nchan_out_cov + i], extract_l( proto_mtx_norm_fx ) ), 4 ); /*Q.30*/ + } + move32(); + } + } + } + } + ELSE + { + Copy32( ivas_param_mc_conf[config_index].dmx_fac_fx, proto_matrix_fx, imult1616( nchan_out_transport, nchan_transport ) ); /*Q.31*/ + Scale_sig32( proto_matrix_fx, imult1616( nchan_out_transport, nchan_transport ), -5 ); /*Scaling down to 26*/ + } + + IF( EQ_32( hParamMC->synthesis_conf, PARAM_MC_SYNTH_MONO_STEREO ) ) + { + hParamMC->num_outputs_diff = 0; + move16(); + hParamMC->diff_proto_info = NULL; + hParamMC->h_output_synthesis_params.use_onset_filters = 0; + move16(); + hParamMC->max_band_decorr = 0; move16(); + hParamMC->h_freq_domain_decorr_ap_params = NULL; + hParamMC->h_freq_domain_decorr_ap_state = NULL; } - ELSE IF( EQ_16( st_ivas->renderer_type, RENDERER_SBA_LINEAR_ENC ) ) + ELSE { - num_cldfb_syntheses = add( st_ivas->hTransSetup.nchan_out_woLFE, st_ivas->hTransSetup.num_lfe ); + hParamMC->num_outputs_diff = nchan_out_cov; + move16(); + IF( ( hParamMC->diff_proto_info = (PARAM_MC_DIFF_PROTO_INFO *) malloc( sizeof( PARAM_MC_DIFF_PROTO_INFO ) ) ) == NULL ) + { + return ( IVAS_ERROR( IVAS_ERR_FAILED_ALLOC, "Can not allocate memory for Parametric MC\n" ) ); + } + + IF( NE_32( ( error = param_mc_get_diff_proto_info_fx( proto_matrix_fx, nchan_transport, nchan_out_cov, hParamMC->diff_proto_info, Q26 ) ), IVAS_ERR_OK ) ) + { + return error; + } + + /* decorrelation */ + hParamMC->h_freq_domain_decorr_ap_params = NULL; + hParamMC->h_freq_domain_decorr_ap_state = NULL; + + ivas_dirac_dec_get_frequency_axis_fx( frequency_axis_fx, output_Fs, hParamMC->num_freq_bands ); // Q0 + + IF( NE_32( ( error = ivas_dirac_dec_decorr_open_fx( &( hParamMC->h_freq_domain_decorr_ap_params ), &( hParamMC->h_freq_domain_decorr_ap_state ), hParamMC->num_freq_bands, hParamMC->num_outputs_diff, + hParamMC->diff_proto_info->num_protos_diff, DIRAC_SYNTHESIS_COV_MC_LS, frequency_axis_fx, nchan_transport, output_Fs ) ), + IVAS_ERR_OK ) ) + { + return error; + } + + hParamMC->h_output_synthesis_params.use_onset_filters = 0; + move16(); + hParamMC->max_band_decorr = hParamMC->h_freq_domain_decorr_ap_params->max_band_decorr; + move16(); + } + hParamMC->max_band_energy_compensation = hParamMC->band_grouping[hParamMC->hMetadataPMC->nbands_coded]; + move16(); + max_param_band_residual = 0; + move16(); + + FOR( k = hParamMC->hMetadataPMC->num_parameter_bands; k >= 0; k-- ) + { + IF( LE_16( hParamMC->band_grouping[k], hParamMC->max_band_decorr ) ) + { + max_param_band_residual = k; + move16(); + assert( hParamMC->band_grouping[k] == hParamMC->max_band_decorr ); + break; + } } - ELSE IF( EQ_16( st_ivas->renderer_type, RENDERER_MC_PARAMMC ) ) + + /* output synthesis */ + IF( NE_32( ( error = ivas_dirac_dec_output_synthesis_cov_open_fx( &( hParamMC->h_output_synthesis_params ), &( hParamMC->h_output_synthesis_cov_state ), hParamMC->max_band_decorr, PARAM_MC_MAX_NSLOTS, hParamMC->hMetadataPMC->num_parameter_bands, max_param_band_residual, nchan_transport, nchan_out_cov, proto_matrix_fx ) ), IVAS_ERR_OK ) ) { - num_cldfb_syntheses = add( st_ivas->hOutSetup.nchan_out_woLFE, st_ivas->hOutSetup.num_lfe ); + return error; } - return num_cldfb_syntheses; + ivas_param_mc_dec_compute_interpolator_fx( 0, 0, DEFAULT_JBM_CLDFB_TIMESLOTS, hParamMC->h_output_synthesis_params.interpolator_fx ); + + /* Head or external rotation */ + test(); + test(); + test(); + IF( ( EQ_32( st_ivas->renderer_type, RENDERER_BINAURAL_FASTCONV ) || EQ_32( st_ivas->renderer_type, RENDERER_BINAURAL_FASTCONV_ROOM ) ) && ( st_ivas->hDecoderConfig->Opt_Headrotation || st_ivas->hDecoderConfig->Opt_ExternalOrientation ) ) + { + IF( ( hParamMC->hoa_encoder_fx = (Word32 *) malloc( st_ivas->hTransSetup.nchan_out_woLFE * MAX_INTERN_CHANNELS * sizeof( Word32 ) ) ) == NULL ) + { + return ( IVAS_ERROR( IVAS_ERR_FAILED_ALLOC, "Can not allocate memory for Parametric MC\n" ) ); + } + compute_hoa_encoder_mtx_fx( st_ivas->hTransSetup.ls_azimuth_fx, st_ivas->hTransSetup.ls_elevation_fx, hParamMC->hoa_encoder_fx, st_ivas->hTransSetup.nchan_out_woLFE, HEAD_ROTATION_HOA_ORDER ); + } + + /*-----------------------------------------------------------------* + * memory allocation + *-----------------------------------------------------------------*/ + + IF( hParamMC->max_band_decorr > 0 ) + { + IF( ( hParamMC->proto_frame_f_fx = (Word32 *) malloc( 2 * hParamMC->diff_proto_info->num_protos_diff * hParamMC->num_freq_bands * sizeof( Word32 ) ) ) == NULL ) + { + return ( IVAS_ERROR( IVAS_ERR_FAILED_ALLOC, "Can not allocate memory for Parametric MC\n" ) ); + } + IF( ( hParamMC->proto_frame_dec_f_fx = (Word32 *) malloc( 2 * nchan_out_cov * hParamMC->num_freq_bands * sizeof( Word32 ) ) ) == NULL ) + { + return ( IVAS_ERROR( IVAS_ERR_FAILED_ALLOC, "Can not allocate memory for Parametric MC\n" ) ); + } + } + ELSE + { + hParamMC->proto_frame_f_fx = NULL; + hParamMC->proto_frame_dec_f_fx = NULL; + } + + ivas_param_mc_dec_init_fx( hParamMC, nchan_transport, nchan_out_cov ); + + IF( NE_32( hParamMC->synthesis_conf, PARAM_MC_SYNTH_MONO_STEREO ) ) + { + Word16 n_cldfb_slots; + + n_cldfb_slots = DEFAULT_JBM_CLDFB_TIMESLOTS; + move16(); + IF( st_ivas->hDecoderConfig->Opt_tsm ) + { + n_cldfb_slots = MAX_JBM_CLDFB_TIMESLOTS; + move16(); + } + + Word16 cldfb_buf_size = imult1616( imult1616( n_cldfb_slots, nchan_transport ), hParamMC->num_freq_bands ); + IF( ( hParamMC->Cldfb_RealBuffer_tc_fx = (Word32 *) malloc( cldfb_buf_size * sizeof( Word32 ) ) ) == NULL ) + { + return ( IVAS_ERROR( IVAS_ERR_FAILED_ALLOC, "Can not allocate memory for Parametric MC JBM\n" ) ); + } + set32_fx( hParamMC->Cldfb_RealBuffer_tc_fx, 0, cldfb_buf_size ); + IF( ( hParamMC->Cldfb_ImagBuffer_tc_fx = (Word32 *) malloc( cldfb_buf_size * sizeof( Word32 ) ) ) == NULL ) + { + return ( IVAS_ERROR( IVAS_ERR_FAILED_ALLOC, "Can not allocate memory for Parametric MC JBM\n" ) ); + } + set32_fx( hParamMC->Cldfb_ImagBuffer_tc_fx, 0, cldfb_buf_size ); + + hParamMC->sz = imult1616( imult1616( n_cldfb_slots, nchan_transport ), hParamMC->num_freq_bands ); + move16(); + + IF( st_ivas->hTcBuffer == NULL ) + { + IF( NE_32( ( error = ivas_jbm_dec_tc_buffer_open_fx( st_ivas, TC_BUFFER_MODE_RENDERER, nchan_transport, nchan_transport, 0, NS2SA_FX2( st_ivas->hDecoderConfig->output_Fs, CLDFB_SLOT_NS ) ) ), IVAS_ERR_OK ) ) + { + return error; + } + } + } + ELSE + { + hParamMC->Cldfb_RealBuffer_tc_fx = NULL; + hParamMC->Cldfb_ImagBuffer_tc_fx = NULL; + } + + hParamMC->subframes_rendered = 0; + move16(); + hParamMC->slots_rendered = 0; + move16(); + + st_ivas->hParamMC = hParamMC; + return error; +} + + +/*------------------------------------------------------------------------- + * ivas_param_mc_get_param_band_mapping() + * + * + *-------------------------------------------------------------------------*/ + +static void ivas_param_mc_get_param_band_mapping( + const Word16 n_target_bands, + const Word16 *target_band_grouping, + const Word16 n_source_bands, + const Word16 *source_band_grouping, + PARAM_MC_PARAMETER_BAND_MAPPING *parameter_band_mapping ) +{ + Word16 target_band_idx; + Word16 source_band_idx = 0; + move16(); + Word16 source_band_cnt_total; + + FOR( target_band_idx = 0; target_band_idx < n_target_bands; target_band_idx++ ) + { + Word16 upper = target_band_grouping[target_band_idx + 1]; + Word16 lower = target_band_grouping[target_band_idx]; + Word16 source_band_in_target_band_cnt = 0; + Word16 norm_fac_fx = 32767; // 1.Q15 + source_band_cnt_total = 0; + move16(); + move16(); + move16(); + + FOR( source_band_idx = 0; source_band_idx < n_source_bands; source_band_idx++ ) + { + /* find lowest corresponding source band*/ + test(); + IF( LE_16( source_band_grouping[source_band_idx], lower ) && GE_16( source_band_grouping[source_band_idx + 1], lower ) ) + { + DO + { + Word16 source_bands_in_target_band = sub( s_min( source_band_grouping[source_band_idx + 1], upper ), s_max( source_band_grouping[source_band_idx], lower ) ); + IF( source_bands_in_target_band ) + { + source_band_cnt_total = add( source_band_cnt_total, source_bands_in_target_band ); + parameter_band_mapping->source_band_idx[target_band_idx][source_band_in_target_band_cnt] = source_band_idx; + parameter_band_mapping->source_band_factor_fx[target_band_idx][source_band_in_target_band_cnt++] = shl( source_bands_in_target_band, 10 ); /*Q10*/ + move16(); + move16(); + } + source_band_idx++; + } + WHILE( LE_16( source_band_grouping[source_band_idx], upper ) && LT_16( source_band_idx, n_source_bands ) ); + BREAK; + } + } + norm_fac_fx = div_s( 1, source_band_cnt_total ); /*Q15*/ + FOR( source_band_idx = 0; source_band_idx < source_band_in_target_band_cnt; source_band_idx++ ) + { + parameter_band_mapping->source_band_factor_fx[target_band_idx][source_band_idx] = shl_sat( mult( parameter_band_mapping->source_band_factor_fx[target_band_idx][source_band_idx], norm_fac_fx ) /*Q10*/, 5 ); /*Q15*/ + move16(); + } + parameter_band_mapping->n_source_bands[target_band_idx] = source_band_in_target_band_cnt; + move16(); + } + return; +} + + +/*------------------------------------------------------------------------- + * ivas_param_mc_dec_reconfig() + * + * Reconfiguration of ParamMC decoder + *-------------------------------------------------------------------------*/ + +ivas_error ivas_param_mc_dec_reconfig_fx( + Decoder_Struct *st_ivas /* i/o: IVAS decoder structure */ +) +{ + Word16 k, nchan_transport; + PARAM_MC_DEC_HANDLE hParamMC; + Word16 nchan_out_transport; + Word16 nchan_out_cov; + Word32 proto_matrix_fx[MAX_CICP_CHANNELS * PARAM_MC_MAX_TRANSPORT_CHANS]; + Word32 proto_mtx_norm_fx; + Word16 max_param_band_residual; + UWord16 config_index; + MC_LS_SETUP mc_ls_setup; + Word32 output_Fs, ivas_total_brate; + ivas_error error; + Word16 nchan_transport_old; + Word16 num_param_bands_old; + PARAM_MC_PARAMETER_BAND_MAPPING parameter_band_mapping; + Word16 band_grouping_old[20 + 1]; + + hParamMC = st_ivas->hParamMC; + error = IVAS_ERR_OK; + move32(); + /* save important config information from the previous state */ + nchan_transport_old = st_ivas->nchan_transport; + move32(); + num_param_bands_old = hParamMC->hMetadataPMC->num_parameter_bands; + move32(); + + /*-----------------------------------------------------------------* + * prepare library opening + *-----------------------------------------------------------------*/ + + output_Fs = st_ivas->hDecoderConfig->output_Fs; + move32(); + ivas_total_brate = st_ivas->hDecoderConfig->ivas_total_brate; + move32(); + mc_ls_setup = ivas_mc_map_output_config_to_mc_ls_setup_fx( st_ivas->transport_config ); + nchan_out_transport = add( st_ivas->hTransSetup.nchan_out_woLFE, st_ivas->hTransSetup.num_lfe ); + + test(); + IF( EQ_16( hParamMC->synthesis_conf, PARAM_MC_SYNTH_LS_CONV_COV ) || EQ_16( hParamMC->synthesis_conf, PARAM_MC_SYNTH_MONO_STEREO ) ) + { + nchan_out_cov = add( st_ivas->hOutSetup.nchan_out_woLFE, st_ivas->hOutSetup.num_lfe ); + } + ELSE + { + nchan_out_cov = nchan_out_transport; + move16(); + } + + st_ivas->nchan_transport = ivas_param_mc_getNumTransportChannels_fx( ivas_total_brate, mc_ls_setup ); + move16(); + config_index = ivas_param_mc_get_configuration_index_fx( mc_ls_setup, ivas_total_brate ); + nchan_transport = st_ivas->nchan_transport; + move16(); + + SWITCH( nchan_transport ) + { + case 4: + case 3: + st_ivas->nCPE = 2; + move16(); + st_ivas->nSCE = 0; + move16(); + st_ivas->element_mode_init = IVAS_CPE_MDCT; + move16(); + BREAK; + case 2: + st_ivas->nCPE = 1; + move16(); + st_ivas->nSCE = 0; + move16(); + st_ivas->element_mode_init = IVAS_CPE_MDCT; + move16(); + + BREAK; + } + + /*-----------------------------------------------------------------* + * set input parameters + *-----------------------------------------------------------------*/ + hParamMC->num_freq_bands = shr( add( (Word16) Mpy_32_32( output_Fs, INV_CLDFB_BANDWIDTH_Q31 << 1 ), 1 ), 1 ); // Q0 + move16(); + hParamMC->max_band_energy_compensation = hParamMC->num_freq_bands; + move16(); + + Copy( hParamMC->band_grouping, band_grouping_old, add( hParamMC->hMetadataPMC->num_parameter_bands, 1 ) ); + ivas_param_mc_metadata_open_fx( mc_ls_setup, ivas_total_brate, hParamMC->hMetadataPMC ); + /* Band Grouping */ + IF( EQ_16( hParamMC->hMetadataPMC->num_parameter_bands, 20 ) ) + { + Copy( param_mc_band_grouping_20, hParamMC->band_grouping, 20 + 1 ); + } + ELSE IF( EQ_16( hParamMC->hMetadataPMC->num_parameter_bands, 14 ) ) + { + Copy( param_mc_band_grouping_14, hParamMC->band_grouping, 14 + 1 ); + } + ELSE IF( EQ_16( hParamMC->hMetadataPMC->num_parameter_bands, 10 ) ) + { + Copy( param_mc_band_grouping_10, hParamMC->band_grouping, 10 + 1 ); + } + ELSE + { + assert( 0 && "nbands must be 20, 14, or 10!" ); + } + + ivas_param_mc_get_param_band_mapping( hParamMC->hMetadataPMC->num_parameter_bands, hParamMC->band_grouping, num_param_bands_old, band_grouping_old, ¶meter_band_mapping ); + + test(); + IF( NE_16( nchan_transport_old, nchan_transport ) || NE_16( num_param_bands_old, hParamMC->hMetadataPMC->num_parameter_bands ) ) + { + Word16 *ild_q_old_fx = hParamMC->icld_q_fx; // Q8 + Word16 *icc_q_old_fx = hParamMC->icc_q_fx; // Q15 + + IF( ( hParamMC->icc_q_fx = (Word16 *) malloc( hParamMC->hMetadataPMC->num_parameter_bands * hParamMC->hMetadataPMC->icc_mapping_conf->icc_map_size_lfe * sizeof( Word16 ) ) ) == NULL ) + { + return ( IVAS_ERROR( IVAS_ERR_FAILED_ALLOC, "Can not allocate memory for Parametric MC\n" ) ); + } + IF( ( hParamMC->icld_q_fx = (Word16 *) malloc( hParamMC->hMetadataPMC->num_parameter_bands * hParamMC->hMetadataPMC->ild_mapping_conf->ild_map_size_lfe * sizeof( Word16 ) ) ) == NULL ) + { + return ( IVAS_ERROR( IVAS_ERR_FAILED_ALLOC, "Can not allocate memory for Parametric MC\n" ) ); + } + set16_fx( hParamMC->icld_q_fx, PARAM_MC_DEFAULT_MIN_ILD_FX, hParamMC->hMetadataPMC->num_parameter_bands * hParamMC->hMetadataPMC->ild_mapping_conf->ild_map_size_lfe ); /*Q8*/ + set16_fx( hParamMC->icc_q_fx, 0, hParamMC->hMetadataPMC->num_parameter_bands * hParamMC->hMetadataPMC->icc_mapping_conf->icc_map_size_lfe ); /*Q15*/ + + /* map old to new parameter banding, only for same number of TCs, needs some more thought for a changing number of TCs */ + test(); + IF( NE_16( num_param_bands_old, hParamMC->hMetadataPMC->num_parameter_bands ) && EQ_16( nchan_transport_old, nchan_transport ) ) + { + Word16 new_param_band_idx, param_idx, source_param_idx; + Word16 num_param_lfe; + Word16 *p_icc_new_fx = hParamMC->icc_q_fx; // Q15 + Word16 *p_ild_new_fx = hParamMC->icld_q_fx; // Q8 + Word16 p_ild_new_e = 23; + move16(); + Word16 p_ild_new_tmp; + + /* ICC */ + num_param_lfe = hParamMC->hMetadataPMC->icc_mapping_conf->icc_map_size_lfe; + move16(); + FOR( new_param_band_idx = 0; new_param_band_idx < hParamMC->hMetadataPMC->num_parameter_bands; new_param_band_idx++ ) + { + FOR( param_idx = 0; param_idx < num_param_lfe; param_idx++ ) + { + *p_icc_new_fx = 0; + move16(); + FOR( source_param_idx = 0; source_param_idx < parameter_band_mapping.n_source_bands[new_param_band_idx]; source_param_idx++ ) + { + *p_icc_new_fx = add( *p_icc_new_fx, mult( icc_q_old_fx[parameter_band_mapping.source_band_idx[new_param_band_idx][source_param_idx] * num_param_lfe + param_idx], parameter_band_mapping.source_band_factor_fx[new_param_band_idx][source_param_idx] ) ); /*Q15*/ + move16(); + } + p_icc_new_fx++; + } + } + + /* ILD */ + num_param_lfe = hParamMC->hMetadataPMC->ild_mapping_conf->ild_map_size_lfe; + move16(); + FOR( new_param_band_idx = 0; new_param_band_idx < hParamMC->hMetadataPMC->num_parameter_bands; new_param_band_idx++ ) + { + FOR( param_idx = 0; param_idx < num_param_lfe; param_idx++ ) + { + *p_ild_new_fx = 0; + move16(); + FOR( source_param_idx = 0; source_param_idx < parameter_band_mapping.n_source_bands[new_param_band_idx]; source_param_idx++ ) + { + p_ild_new_tmp = extract_h( BASOP_util_Pow2( L_mult0( 10885 /*log2(10)/10*2^15*/, ild_q_old_fx[parameter_band_mapping.source_band_idx[new_param_band_idx][source_param_idx] * num_param_lfe + param_idx] ), 8, &p_ild_new_e ) ); // 31 - p_ild_new_e - 16 + *p_ild_new_fx = add( *p_ild_new_fx, mult( p_ild_new_tmp, parameter_band_mapping.source_band_factor_fx[new_param_band_idx][source_param_idx] ) ); + move16(); + } + *p_ild_new_fx = extract_l( L_shr( Mpy_32_16_1( L_add( BASOP_Util_Log2( *p_ild_new_fx ), L_add( 16 << Q25, L_shl( p_ild_new_e, 25 ) ) ), 24660 /*3.Q13*/ ), 15 ) ); // Q8 + move16(); + p_ild_new_fx++; + } + } + } + free( ild_q_old_fx ); + free( icc_q_old_fx ); + } + + param_mc_set_num_synth_bands( output_Fs, hParamMC ); + + /* set max parameter band for abs cov */ + k = 0; + move16(); + WHILE( LE_16( hParamMC->band_grouping[k], PARAM_MC_MAX_BAND_ABS_COV_DEC ) ) + { + hParamMC->max_param_band_abs_cov = k; + move16(); + k = add( k, 1 ); + } + + /*-----------------------------------------------------------------* + * open sub-modules + *-----------------------------------------------------------------*/ + + /* prototype signal computation */ + + IF( EQ_16( hParamMC->synthesis_conf, PARAM_MC_SYNTH_MONO_STEREO ) ) + { + IF( NE_16( nchan_transport_old, nchan_transport ) ) + { + IF( st_ivas->hLsSetUpConversion != NULL ) + { + ivas_ls_setup_conversion_close_fx( &st_ivas->hLsSetUpConversion ); + } + + IF( NE_32( ( error = ivas_ls_setup_conversion_open_fx( st_ivas ) ), IVAS_ERR_OK ) ) + { + return error; + } + + /* convert the ls conv dmx matrix into column order matrix format (nchan_out_cldfb x nchan_out) */ + free( hParamMC->ls_conv_dmx_matrix_fx ); + + IF( ( hParamMC->ls_conv_dmx_matrix_fx = (Word32 *) malloc( nchan_out_transport * nchan_out_cov * sizeof( Word32 ) ) ) == NULL ) + { + return ( IVAS_ERROR( IVAS_ERR_FAILED_ALLOC, "Can not allocate memory for Parametric MC\n" ) ); + } + FOR( k = 0; k < nchan_out_transport; k++ ) + { + Copy32( st_ivas->hLsSetUpConversion->dmxMtx_fx[k], &hParamMC->ls_conv_dmx_matrix_fx[k * nchan_out_cov], nchan_out_cov ); + } + } + /* convert ParamMC parameter bands to SFB */ + + st_ivas->hLsSetUpConversion->sfbCnt = hParamMC->num_param_bands_synth; + move16(); + FOR( k = 0; k <= hParamMC->num_param_bands_synth; k++ ) + { + st_ivas->hLsSetUpConversion->sfbOffset[k] = imult1616( PARAM_MC_BAND_TO_MDCT_BAND_RATIO, hParamMC->band_grouping[k] ); + move16(); + } + FOR( ; k < MAX_SFB + 2; k++ ) + { + st_ivas->hLsSetUpConversion->sfbOffset[k] = 0; + move16(); + } + } + + IF( NE_16( nchan_transport_old, nchan_transport ) ) + { + free( hParamMC->proto_matrix_int_fx ); + IF( ( hParamMC->proto_matrix_int_fx = (Word32 *) malloc( nchan_out_transport * nchan_transport * sizeof( Word32 ) ) ) == NULL ) + { + return ( IVAS_ERROR( IVAS_ERR_FAILED_ALLOC, "Can not allocate memory for Parametric MC\n" ) ); + } + hParamMC->proto_matrix_int_len = imult1616( nchan_out_transport, nchan_transport ); + move16(); + Copy32( ivas_param_mc_conf[config_index].dmx_fac_fx, hParamMC->proto_matrix_int_fx, hParamMC->proto_matrix_int_len ); /*Q31*/ + } + + test(); + IF( EQ_16( hParamMC->synthesis_conf, PARAM_MC_SYNTH_LS_CONV_COV ) || EQ_16( hParamMC->synthesis_conf, PARAM_MC_SYNTH_MONO_STEREO ) ) + { + Scale_sig32( hParamMC->ls_conv_dmx_matrix_fx, imult1616( nchan_out_transport, nchan_out_cov ), -4 ); // Q30 -> Q26 + matrix_product_fx( hParamMC->ls_conv_dmx_matrix_fx, nchan_out_cov, nchan_out_transport, 0, + ivas_param_mc_conf[config_index].dmx_fac_fx, nchan_out_transport, nchan_transport, 0, + proto_matrix_fx /*Q26*/ ); + Scale_sig32( hParamMC->ls_conv_dmx_matrix_fx, imult1616( nchan_out_transport, nchan_out_cov ), 4 ); // Q26 -> Q30 + + IF( EQ_16( hParamMC->synthesis_conf, PARAM_MC_SYNTH_MONO_STEREO ) ) + { + proto_mtx_norm_fx = ONE_IN_Q26; // Q26 + move32(); + FOR( k = 0; k < nchan_transport * nchan_out_cov; k++ ) + { + proto_mtx_norm_fx = L_max( L_abs( proto_mtx_norm_fx ), L_abs( proto_matrix_fx[k] ) ); // Q26 + } + proto_mtx_norm_fx = divide3232( ONE_IN_Q26, proto_mtx_norm_fx ); /*Q15*/ + + /* transfer flattened proto_matrix to 2D in hLsSetupConversion->dmxMtx */ + FOR( k = 0; k < nchan_transport; k++ ) + { + FOR( Word16 i = 0; i < nchan_out_cov; i++ ) + { + st_ivas->hLsSetUpConversion->dmxMtx_fx[k][i] = L_shl( Mpy_32_16_1( proto_matrix_fx[k * nchan_out_cov + i], (Word16) proto_mtx_norm_fx ), 4 ); // Q26 -> Q30 + move32(); + } + } + } + } + ELSE + { + Copy32( ivas_param_mc_conf[config_index].dmx_fac_fx, proto_matrix_fx, imult1616( nchan_out_transport, nchan_transport ) ); // proto_matrix_fx -> Q31 + Scale_sig32( proto_matrix_fx, imult1616( nchan_out_transport, nchan_transport ), -5 ); // proto_matrix_fx -> Q26 + } + + test(); + IF( NE_16( nchan_transport_old, nchan_transport ) && NE_16( hParamMC->synthesis_conf, PARAM_MC_SYNTH_MONO_STEREO ) ) + { + Word16 i; + Word16 len; + + /* close decorrelator */ + ivas_dirac_dec_decorr_close_fx( &hParamMC->h_freq_domain_decorr_ap_params, &hParamMC->h_freq_domain_decorr_ap_state ); + + /* deallocate diffuse prototype info */ + IF( hParamMC->diff_proto_info ) + { + FOR( i = 0; i < hParamMC->diff_proto_info->num_protos_diff; i++ ) + { + free( hParamMC->diff_proto_info->source_chan_idx[i] ); + hParamMC->diff_proto_info->source_chan_idx[i] = NULL; + + free( hParamMC->diff_proto_info->proto_fac_fx[i] ); + hParamMC->diff_proto_info->proto_fac_fx[i] = NULL; + } + + free( hParamMC->diff_proto_info->source_chan_idx ); + hParamMC->diff_proto_info->source_chan_idx = NULL; + + free( hParamMC->diff_proto_info->proto_fac_fx ); + hParamMC->diff_proto_info->proto_fac_fx = NULL; + + free( hParamMC->diff_proto_info->proto_index_diff ); + hParamMC->diff_proto_info->proto_index_diff = NULL; + + free( hParamMC->diff_proto_info->num_source_chan_diff ); + hParamMC->diff_proto_info->num_source_chan_diff = NULL; + + free( hParamMC->diff_proto_info ); + hParamMC->diff_proto_info = NULL; + } + + hParamMC->num_outputs_diff = nchan_out_cov; + move16(); + IF( ( hParamMC->diff_proto_info = (PARAM_MC_DIFF_PROTO_INFO *) malloc( sizeof( PARAM_MC_DIFF_PROTO_INFO ) ) ) == NULL ) + { + return ( IVAS_ERROR( IVAS_ERR_FAILED_ALLOC, "Can not allocate memory for Parametric MC\n" ) ); + } + IF( ( param_mc_get_diff_proto_info_fx( proto_matrix_fx, nchan_transport, nchan_out_cov, hParamMC->diff_proto_info, Q26 ) ) != IVAS_ERR_OK ) + { + return error; + } + + /* decorrelation */ + hParamMC->h_freq_domain_decorr_ap_params = NULL; + hParamMC->h_freq_domain_decorr_ap_state = NULL; + + Word16 frequency_axis_fx[CLDFB_NO_CHANNELS_MAX]; + ivas_dirac_dec_get_frequency_axis_fx( frequency_axis_fx, output_Fs, hParamMC->num_freq_bands ); // Q0 + + IF( NE_32( ( error = ivas_dirac_dec_decorr_open_fx( &( hParamMC->h_freq_domain_decorr_ap_params ), &( hParamMC->h_freq_domain_decorr_ap_state ), hParamMC->num_freq_bands, hParamMC->num_outputs_diff, + hParamMC->diff_proto_info->num_protos_diff, DIRAC_SYNTHESIS_COV_MC_LS, frequency_axis_fx, nchan_transport, output_Fs ) ), + IVAS_ERR_OK ) ) + { + return error; + } + hParamMC->h_output_synthesis_params.use_onset_filters = 0; + move16(); + hParamMC->max_band_decorr = hParamMC->h_freq_domain_decorr_ap_params->max_band_decorr; + move16(); + /* init decorrelation */ + IF( hParamMC->max_band_decorr > 0 ) + { + + len = imult1616( hParamMC->diff_proto_info->num_protos_diff, hParamMC->h_freq_domain_decorr_ap_params->h_onset_detection_power_params.max_band_decorr ); + + /* init onsetDetectionPower */ + set_zero_fx( hParamMC->h_freq_domain_decorr_ap_state->h_onset_detection_power_state.onset_detector_1_fx, len ); + set_zero_fx( hParamMC->h_freq_domain_decorr_ap_state->h_onset_detection_power_state.onset_detector_2_fx, len ); + hParamMC->h_freq_domain_decorr_ap_state->h_onset_detection_power_state.q_onset_detector = Q31; + move16(); + } + } + hParamMC->max_band_energy_compensation = hParamMC->band_grouping[hParamMC->hMetadataPMC->nbands_coded]; + move16(); + max_param_band_residual = 0; + move16(); + + FOR( k = hParamMC->hMetadataPMC->num_parameter_bands; k >= 0; k-- ) + { + IF( LE_16( hParamMC->band_grouping[k], hParamMC->max_band_decorr ) ) + { + max_param_band_residual = k; + move16(); + assert( hParamMC->band_grouping[k] == hParamMC->max_band_decorr ); + BREAK; + } + } + + test(); + IF( NE_16( nchan_transport_old, nchan_transport ) || NE_16( num_param_bands_old, hParamMC->hMetadataPMC->num_parameter_bands ) ) + { + DIRAC_OUTPUT_SYNTHESIS_COV_STATE cov_state_old = hParamMC->h_output_synthesis_cov_state; + DIRAC_OUTPUT_SYNTHESIS_PARAMS params_old = hParamMC->h_output_synthesis_params; + + Word32 tmp_buf_fx[MAX_CICP_CHANNELS * MAX_CICP_CHANNELS]; + + set_zero_fx( tmp_buf_fx, MAX_CICP_CHANNELS * MAX_CICP_CHANNELS ); + + /* output synthesis */ + IF( NE_32( ( error = ivas_dirac_dec_output_synthesis_cov_open_fx( &( hParamMC->h_output_synthesis_params ), &( hParamMC->h_output_synthesis_cov_state ), hParamMC->max_band_decorr, PARAM_MC_MAX_NSLOTS, + hParamMC->hMetadataPMC->num_parameter_bands, max_param_band_residual, nchan_transport, nchan_out_cov, proto_matrix_fx ) ), + IVAS_ERR_OK ) ) + { + return error; + } + + ivas_param_mc_dec_compute_interpolator_fx( 0, 0, DEFAULT_JBM_CLDFB_TIMESLOTS, hParamMC->h_output_synthesis_params.interpolator_fx ); + + ivas_dirac_dec_output_synthesis_cov_init_fx( &( hParamMC->h_output_synthesis_cov_state ), nchan_transport, nchan_out_cov, hParamMC->hMetadataPMC->num_parameter_bands, max_param_band_residual ); + + /* map old to new parameter banding, only for same number of TCs, needs some more thought for changing number of TCs */ + test(); + IF( NE_16( num_param_bands_old, hParamMC->hMetadataPMC->num_parameter_bands ) && EQ_16( nchan_transport_old, nchan_transport ) ) + { + Word16 new_param_band_idx, source_param_idx; + + FOR( new_param_band_idx = 0; new_param_band_idx < hParamMC->hMetadataPMC->num_parameter_bands; new_param_band_idx++ ) + { + FOR( source_param_idx = 0; source_param_idx < parameter_band_mapping.n_source_bands[new_param_band_idx]; source_param_idx++ ) + { + /* Cx */ + v_multc_fixed_16( cov_state_old.cx_old_fx[parameter_band_mapping.source_band_idx[new_param_band_idx][source_param_idx]], parameter_band_mapping.source_band_factor_fx[new_param_band_idx][source_param_idx], tmp_buf_fx, imult1616( nchan_transport_old, nchan_transport_old ) ); // Q(31 - cov_state_old.cx_old_e) + v_add_fixed_me( tmp_buf_fx, cov_state_old.cx_old_e[parameter_band_mapping.source_band_idx[new_param_band_idx][source_param_idx]], hParamMC->h_output_synthesis_cov_state.cx_old_fx[new_param_band_idx], hParamMC->h_output_synthesis_cov_state.cx_old_e[new_param_band_idx], hParamMC->h_output_synthesis_cov_state.cx_old_fx[new_param_band_idx], &hParamMC->h_output_synthesis_cov_state.cx_old_e[new_param_band_idx], imult1616( nchan_transport_old, nchan_transport_old ), 0 ); // Q(31 - hParamMC->h_output_synthesis_cov_state.cx_old_e[new_param_band_idx]) + /* Cy */ + v_multc_fixed_16( cov_state_old.cy_old_fx[parameter_band_mapping.source_band_idx[new_param_band_idx][source_param_idx]], parameter_band_mapping.source_band_factor_fx[new_param_band_idx][source_param_idx], tmp_buf_fx, imult1616( nchan_out_cov, nchan_out_cov ) ); // Q(31 - cov_state_old.cy_old_e) + v_add_fixed_me( tmp_buf_fx, cov_state_old.cy_old_e[parameter_band_mapping.source_band_idx[new_param_band_idx][source_param_idx]], hParamMC->h_output_synthesis_cov_state.cy_old_fx[new_param_band_idx], hParamMC->h_output_synthesis_cov_state.cy_old_e[new_param_band_idx], hParamMC->h_output_synthesis_cov_state.cy_old_fx[new_param_band_idx], &hParamMC->h_output_synthesis_cov_state.cy_old_e[new_param_band_idx], imult1616( nchan_out_cov, nchan_out_cov ), 0 ); // Q(31 - hParamMC->h_output_synthesis_cov_state.cy_old_e[new_param_band_idx]) + /* mixing matrix*/ + v_multc_fixed_16( cov_state_old.mixing_matrix_old_fx[parameter_band_mapping.source_band_idx[new_param_band_idx][source_param_idx]], parameter_band_mapping.source_band_factor_fx[new_param_band_idx][source_param_idx], tmp_buf_fx, imult1616( nchan_transport_old, nchan_out_cov ) ); // Q(31 - mixing_matrix_old_exp) + v_add_fixed_me( tmp_buf_fx, cov_state_old.mixing_matrix_old_exp[parameter_band_mapping.source_band_idx[new_param_band_idx][source_param_idx]], hParamMC->h_output_synthesis_cov_state.mixing_matrix_old_fx[new_param_band_idx], hParamMC->h_output_synthesis_cov_state.mixing_matrix_old_exp[new_param_band_idx], hParamMC->h_output_synthesis_cov_state.mixing_matrix_old_fx[new_param_band_idx], &hParamMC->h_output_synthesis_cov_state.mixing_matrix_old_exp[new_param_band_idx], imult1616( nchan_transport_old, nchan_out_cov ), 0 ); // Q(31 - hParamMC->h_output_synthesis_cov_state.mixing_matrix_old_exp[new_param_band_idx]) + } + } + FOR( new_param_band_idx = 0; new_param_band_idx < max_param_band_residual; new_param_band_idx++ ) + { + FOR( source_param_idx = 0; source_param_idx < parameter_band_mapping.n_source_bands[new_param_band_idx]; source_param_idx++ ) + { + /* residual mixing matrix*/ + v_multc_fixed_16( cov_state_old.mixing_matrix_res_old_fx[parameter_band_mapping.source_band_idx[new_param_band_idx][source_param_idx]], parameter_band_mapping.source_band_factor_fx[new_param_band_idx][source_param_idx], tmp_buf_fx, imult1616( nchan_out_cov, nchan_out_cov ) ); // Q(31 - mixing_matrix_res_old_exp) + v_add_fixed_me( tmp_buf_fx, cov_state_old.mixing_matrix_res_old_exp[parameter_band_mapping.source_band_idx[new_param_band_idx][source_param_idx]], hParamMC->h_output_synthesis_cov_state.mixing_matrix_res_old_fx[new_param_band_idx], hParamMC->h_output_synthesis_cov_state.mixing_matrix_res_old_exp[new_param_band_idx], hParamMC->h_output_synthesis_cov_state.mixing_matrix_res_old_fx[new_param_band_idx], &hParamMC->h_output_synthesis_cov_state.mixing_matrix_res_old_exp[new_param_band_idx], imult1616( nchan_out_cov, nchan_out_cov ), 0 ); // Q(hParamMC->h_output_synthesis_cov_state.mixing_matrix_res_old_exp[new_param_band_idx]) + } + } + } + ivas_dirac_dec_output_synthesis_cov_close_fx( ¶ms_old, &cov_state_old ); + } + + /*-----------------------------------------------------------------* + * memory allocation + *-----------------------------------------------------------------*/ + + test(); + IF( ( hParamMC->max_band_decorr > 0 ) && NE_16( nchan_transport_old, nchan_transport ) ) + { + free( hParamMC->proto_frame_f_fx ); + IF( ( hParamMC->proto_frame_f_fx = (Word32 *) malloc( 2 * hParamMC->diff_proto_info->num_protos_diff * hParamMC->num_freq_bands * sizeof( Word32 ) ) ) == NULL ) + { + return ( IVAS_ERROR( IVAS_ERR_FAILED_ALLOC, "Can not allocate memory for Parametric MC\n" ) ); + } + set_zero_fx( hParamMC->proto_frame_f_fx, shl( imult1616( hParamMC->diff_proto_info->num_protos_diff, hParamMC->num_freq_bands ), 1 ) ); + } + + + IF( NE_16( nchan_transport_old, nchan_transport ) ) + { + IF( NE_16( hParamMC->synthesis_conf, PARAM_MC_SYNTH_MONO_STEREO ) ) + { + Word16 n_cldfb_slots; + IF( hParamMC->Cldfb_RealBuffer_tc_fx != NULL ) + { + free( hParamMC->Cldfb_RealBuffer_tc_fx ); + hParamMC->Cldfb_RealBuffer_tc_fx = NULL; // Q12 + } + IF( hParamMC->Cldfb_ImagBuffer_tc_fx != NULL ) + { + free( hParamMC->Cldfb_ImagBuffer_tc_fx ); + hParamMC->Cldfb_ImagBuffer_tc_fx = NULL; // Q12 + } + + n_cldfb_slots = DEFAULT_JBM_CLDFB_TIMESLOTS; + move16(); + IF( st_ivas->hDecoderConfig->Opt_tsm ) + { + n_cldfb_slots = MAX_JBM_CLDFB_TIMESLOTS; + move16(); + } + Word16 cldfb_size = imult1616( imult1616( n_cldfb_slots, nchan_transport ), hParamMC->num_freq_bands ); + IF( ( hParamMC->Cldfb_RealBuffer_tc_fx = (Word32 *) malloc( cldfb_size * sizeof( Word32 ) ) ) == NULL ) + { + return ( IVAS_ERROR( IVAS_ERR_FAILED_ALLOC, "Can not allocate memory for Parametric MC JBM\n" ) ); + } + set_zero_fx( hParamMC->Cldfb_RealBuffer_tc_fx, cldfb_size ); + + IF( ( hParamMC->Cldfb_ImagBuffer_tc_fx = (Word32 *) malloc( cldfb_size * sizeof( Word32 ) ) ) == NULL ) + { + return ( IVAS_ERROR( IVAS_ERR_FAILED_ALLOC, "Can not allocate memory for Parametric MC JBM\n" ) ); + } + set_zero_fx( hParamMC->Cldfb_ImagBuffer_tc_fx, cldfb_size ); + } + ELSE + { + IF( hParamMC->Cldfb_RealBuffer_tc_fx != NULL ) + { + free( hParamMC->Cldfb_RealBuffer_tc_fx ); + hParamMC->Cldfb_RealBuffer_tc_fx = NULL; + } + IF( hParamMC->Cldfb_ImagBuffer_tc_fx != NULL ) + { + free( hParamMC->Cldfb_ImagBuffer_tc_fx ); + hParamMC->Cldfb_ImagBuffer_tc_fx = NULL; + } + } + } + return error; +} + + +/*------------------------------------------------------------------------- + * param_mc_get_num_cldfb_syntheses() + * + * calculate the necessary number of CLDFB synthesis instances + *------------------------------------------------------------------------*/ + +/*! r: number of cldfb synthesis instances */ +Word16 param_mc_get_num_cldfb_syntheses_fx( + Decoder_Struct *st_ivas /* i : Parametric MC handle */ +) +{ + Word16 num_cldfb_syntheses; + + num_cldfb_syntheses = 0; + move16(); + + /* sanity check*/ + IF( st_ivas->hParamMC == NULL ) + { + assert( 0 && "ParamMC handle does not exist!\n" ); + } + + test(); + IF( EQ_32( st_ivas->renderer_type, RENDERER_BINAURAL_FASTCONV ) || EQ_32( st_ivas->renderer_type, RENDERER_BINAURAL_FASTCONV_ROOM ) ) + { + num_cldfb_syntheses = 2; + move16(); + } + ELSE IF( EQ_32( st_ivas->renderer_type, RENDERER_SBA_LINEAR_ENC ) ) + { + num_cldfb_syntheses = add( st_ivas->hTransSetup.nchan_out_woLFE, st_ivas->hTransSetup.num_lfe ); + } + ELSE IF( EQ_32( st_ivas->renderer_type, RENDERER_MC_PARAMMC ) ) + { + num_cldfb_syntheses = add( st_ivas->hOutSetup.nchan_out_woLFE, st_ivas->hOutSetup.num_lfe ); + } + + return num_cldfb_syntheses; +} + + +/*------------------------------------------------------------------------- + * ivas_param_mc_dec_close() + * + * Close Parametric MC memories + *------------------------------------------------------------------------*/ + +void ivas_param_mc_dec_close_fx( + PARAM_MC_DEC_HANDLE *hParamMC_out /* i/o: Parametric MC decoder handle */ +) +{ + UWord16 i; + PARAM_MC_DEC_HANDLE hParamMC; + + IF( hParamMC_out == NULL || *hParamMC_out == NULL ) + { + return; + } + + hParamMC = *hParamMC_out; + + /* close sub-modules */ + ivas_dirac_dec_output_synthesis_cov_close_fx( &hParamMC->h_output_synthesis_params, &hParamMC->h_output_synthesis_cov_state ); + + IF( hParamMC->h_freq_domain_decorr_ap_params != NULL || hParamMC->h_freq_domain_decorr_ap_state != NULL ) + { + ivas_dirac_dec_decorr_close_fx( &hParamMC->h_freq_domain_decorr_ap_params, &hParamMC->h_freq_domain_decorr_ap_state ); + } + + /* parameter decoding */ + IF( hParamMC->hMetadataPMC != NULL ) + { + free( hParamMC->hMetadataPMC ); + hParamMC->hMetadataPMC = NULL; + } + IF( hParamMC->icc_q_fx != NULL ) + { + free( hParamMC->icc_q_fx ); + hParamMC->icc_q_fx = NULL; // Q15 + } + + IF( hParamMC->icld_q_fx != NULL ) + { + free( hParamMC->icld_q_fx ); + hParamMC->icld_q_fx = NULL; // Q8 + } + /* diffuse prototype info */ + IF( hParamMC->diff_proto_info ) + { + FOR( i = 0; i < hParamMC->diff_proto_info->num_protos_diff; i++ ) + { + free( hParamMC->diff_proto_info->source_chan_idx[i] ); + hParamMC->diff_proto_info->source_chan_idx[i] = NULL; + + free( hParamMC->diff_proto_info->proto_fac_fx[i] ); + hParamMC->diff_proto_info->proto_fac_fx[i] = NULL; + } + + free( hParamMC->diff_proto_info->source_chan_idx ); + hParamMC->diff_proto_info->source_chan_idx = NULL; + + free( hParamMC->diff_proto_info->proto_fac_fx ); + hParamMC->diff_proto_info->proto_fac_fx = NULL; + + free( hParamMC->diff_proto_info->proto_index_diff ); + hParamMC->diff_proto_info->proto_index_diff = NULL; + + free( hParamMC->diff_proto_info->num_source_chan_diff ); + hParamMC->diff_proto_info->num_source_chan_diff = NULL; + + free( hParamMC->diff_proto_info ); + hParamMC->diff_proto_info = NULL; + } + /* States */ + /* free prototype signal buffers */ + IF( hParamMC->proto_frame_f_fx != NULL ) + { + free( hParamMC->proto_frame_f_fx ); + hParamMC->proto_frame_f_fx = NULL; + } + + IF( hParamMC->proto_frame_dec_f_fx != NULL ) + { + free( hParamMC->proto_frame_dec_f_fx ); + hParamMC->proto_frame_dec_f_fx = NULL; + } + + IF( hParamMC->ls_conv_dmx_matrix_fx != NULL ) + { + free( hParamMC->ls_conv_dmx_matrix_fx ); + hParamMC->ls_conv_dmx_matrix_fx = NULL; + } + + IF( hParamMC->proto_matrix_int_fx != NULL ) + { + free( hParamMC->proto_matrix_int_fx ); + hParamMC->proto_matrix_int_fx = NULL; + } + + IF( hParamMC->hoa_encoder_fx != NULL ) + { + free( hParamMC->hoa_encoder_fx ); + hParamMC->hoa_encoder_fx = NULL; + } + IF( hParamMC->Cldfb_RealBuffer_tc_fx != NULL ) + { + free( hParamMC->Cldfb_RealBuffer_tc_fx ); + hParamMC->Cldfb_RealBuffer_tc_fx = NULL; + } + IF( hParamMC->Cldfb_ImagBuffer_tc_fx != NULL ) + { + free( hParamMC->Cldfb_ImagBuffer_tc_fx ); + hParamMC->Cldfb_ImagBuffer_tc_fx = NULL; + } + + free( *hParamMC_out ); + *hParamMC_out = NULL; + + return; +} + + +/*------------------------------------------------------------------------- + * ivas_param_mc_dec_read_BS() + * + * Read the Parametric MC metadata + *------------------------------------------------------------------------*/ + +void ivas_param_mc_dec_read_BS_fx( + const Word32 ivas_total_brate, /* i : IVAS total bitrate */ + Decoder_State *st, /* i/o: decoder state structure */ + PARAM_MC_DEC_HANDLE hParamMC, /* i/o: decoder ParamMC handle */ + Word16 *nb_bits /* o : number of bits written */ +) +{ + Word16 param_frame_idx; + Word16 band_step; + UWord16 bit_buffer[PARAM_MC_MAX_BITS]; + Word16 bits_to_copy; + Word16 bit_pos; + Word16 num_lfe_bands; + Word16 num_param_bands; + Word16 metadata_bit_pos; + Word16 i, j, k; + Word16 icc_map_size; + Word16 icc_map_size_wo_lfe; + Word16 ild_map_size; + Word16 ild_map_size_wo_lfe; + HANDLE_IVAS_PARAM_MC_METADATA hMetadataPMC; + + push_wmops( "param_mc_read_bs" ); + + /* Inits */ + *nb_bits = 0; + move16(); + hMetadataPMC = hParamMC->hMetadataPMC; + icc_map_size = hMetadataPMC->icc_mapping_conf->icc_map_size_lfe; + move16(); + icc_map_size_wo_lfe = hMetadataPMC->icc_mapping_conf->icc_map_size_wo_lfe; + move16(); + ild_map_size = hMetadataPMC->ild_mapping_conf->ild_map_size_lfe; + move16(); + ild_map_size_wo_lfe = hMetadataPMC->ild_mapping_conf->ild_map_size_wo_lfe; + move16(); + + IF( !st->bfi ) + { + /*metadata_bit_pos = extract_l(ivas_total_brate / FRAMES_PER_SEC - 1); + bits_to_copy = s_min(extract_l(ivas_total_brate / FRAMES_PER_SEC), PARAM_MC_MAX_BITS);*/ + Word16 temp = extract_l( Mpy_32_32_r( ivas_total_brate, ONE_BY_FRAMES_PER_SEC_Q31 ) ); + metadata_bit_pos = sub( temp, 1 ); + bits_to_copy = s_min( temp, PARAM_MC_MAX_BITS ); + + /* copy and reverse metadata */ + FOR( bit_pos = 0; bit_pos < bits_to_copy; bit_pos++ ) + { + bit_buffer[bit_pos] = st->bit_stream[metadata_bit_pos]; + move16(); + metadata_bit_pos = sub( metadata_bit_pos, 1 ); + move16(); + } + + bit_pos = 0; + move16(); + + /* read reserved bit */ + hMetadataPMC->lfe_on = bit_buffer[bit_pos++]; + move16(); + + /* get coded bwidth */ + { + Word16 pos; + Word16 bw = 0; + move16(); + FOR( pos = 0; pos < 2; pos++ ) + { + bw = add( bw, extract_l( L_shl( bit_buffer[bit_pos++], pos ) ) ); + } + hMetadataPMC->coded_bwidth = bw; + move16(); + } + + /* set tables if coded band width differs from last frame */ + IF( NE_16( hMetadataPMC->coded_bwidth, hMetadataPMC->last_coded_bwidth ) ) + { + ivas_param_mc_set_coded_bands_fx( hMetadataPMC ); + param_mc_set_num_synth_bands( st->output_Fs, hParamMC ); + hParamMC->max_band_energy_compensation = hParamMC->band_grouping[hParamMC->num_param_bands_synth]; + move16(); + } + + param_frame_idx = bit_buffer[bit_pos++]; + move16(); + hMetadataPMC->param_frame_idx = param_frame_idx; + move16(); + num_param_bands = hMetadataPMC->nbands_in_param_frame[param_frame_idx]; + move16(); + + hMetadataPMC->bAttackPresent = bit_buffer[bit_pos++]; + move16(); + hMetadataPMC->attackIndex = 0; + move16(); + band_step = 1; + move16(); + num_lfe_bands = 0; + move16(); + + IF( hMetadataPMC->bAttackPresent ) + { + FOR( i = 2; i >= 0; i-- ) + { + hMetadataPMC->attackIndex = add( hMetadataPMC->attackIndex, extract_l( L_shl( bit_buffer[bit_pos++], i ) ) ); + } + + band_step = PARAM_MC_TRANSIENT_BAND_STEP; + move16(); + + /*num_lfe_bands = add(PARAM_MC_MAX_BAND_LFE / band_step, (PARAM_MC_MAX_BAND_LFE % band_step) ? 1 : 0); + num_param_bands = add(hMetadataPMC->nbands_coded / band_step, ((hMetadataPMC->nbands_coded % band_step) ? 1 : 0));*/ + Word16 temp_e; + temp = BASOP_Util_Divide3232_Scale( PARAM_MC_MAX_BAND_LFE, band_step, &temp_e ); + temp = shr( temp, sub( 15, temp_e ) ); + Word16 temp1; + IF( PARAM_MC_MAX_BAND_LFE % band_step ) + { + temp1 = 1; + } + ELSE + { + temp1 = 0; + } + move16(); + num_lfe_bands = add( temp, temp1 ); + + temp = BASOP_Util_Divide3232_Scale( hMetadataPMC->nbands_coded, band_step, &temp_e ); + temp = shr( temp, sub( 15, temp_e ) ); + Word16 temp2; + IF( hMetadataPMC->nbands_coded % band_step ) + { + temp2 = 1; + } + ELSE + { + temp2 = 0; + } + move16(); + num_param_bands = add( temp, temp2 ); + } + ELSE + { + FOR( j = 0; j < PARAM_MC_MAX_BAND_LFE; j += band_step ) + { + IF( EQ_16( param_frame_idx, hMetadataPMC->coding_band_mapping[j] ) ) + { + /* LFE ICC is always the last ICC in coding band 0 */ + num_lfe_bands = add( num_lfe_bands, 1 ); + move16(); + } + } + } + + IF( !hMetadataPMC->lfe_on ) + { + num_lfe_bands = 0; + move16(); + } + + ivas_param_mc_bs_decode_parameter_values_fx( bit_buffer, &bit_pos, bits_to_copy, &st->BER_detect, hMetadataPMC, &hMetadataPMC->icc_coding, + icc_map_size_wo_lfe, icc_map_size, num_lfe_bands, band_step, num_param_bands, hParamMC->icc_q_fx ); + + IF( !st->BER_detect ) + { + ivas_param_mc_bs_decode_parameter_values_fx( bit_buffer, &bit_pos, bits_to_copy, &st->BER_detect, hMetadataPMC, &hMetadataPMC->ild_coding, + ild_map_size_wo_lfe, ild_map_size, num_lfe_bands, band_step, num_param_bands, hParamMC->icld_q_fx ); + } + /* set LFE ILD and ICC to zero above PARAM_MC_MAX_BAND_LFE for attack frames */ + IF( hMetadataPMC->bAttackPresent ) + { + FOR( k = PARAM_MC_MAX_BAND_LFE; k < imult1616( band_step, num_lfe_bands ); k++ ) + { + hParamMC->icc_q_fx[L_sub( L_mult0( add( k, 1 ), icc_map_size ), 1 )] = 32767; /* 1.0f in Q15 */ + move16(); + hParamMC->icld_q_fx[L_sub( L_mult0( add( k, 1 ), ild_map_size ), 1 )] = PARAM_MC_DEFAULT_MIN_ILD_FX; /* -92.0f in Q8 */ + move16(); + } + } + + *nb_bits = bit_pos; + move16(); + + } /* if ( !st->bfi ) */ + + IF( st->bfi ) + { + /* for PLC, use the saved ILDs and ICCs from the past and set the transient flag and transient position to zero */ + hMetadataPMC->bAttackPresent = 0; + move16(); + hMetadataPMC->attackIndex = 0; + move16(); + } + + pop_wmops(); + + return; +} + + +/*------------------------------------------------------------------------- + * ivas_param_mc_dec_digest_tc() + * + * + *------------------------------------------------------------------------*/ + +void ivas_param_mc_dec_digest_tc_fx( + Decoder_Struct *st_ivas, /* i/o: IVAS decoder handle */ + const UWord8 nCldfbSlots, /* i : number of CLFBS slots in the transport channels */ + Word32 *transport_channels_f_fx[], + Word16 transport_f_e ) +{ + PARAM_MC_DEC_HANDLE hParamMC; + Word16 i, ch; + Word16 is_next_band, skip_next_band; + Word16 slot_idx, param_band_idx; + Word16 nchan_transport, nchan_out_transport, nchan_out_cldfb; + Word16 nchan_out_cov; + /*CLDFB*/ + /* format converter */ + Word16 channel_active[MAX_OUTPUT_CHANNELS]; + IVAS_OUTPUT_SETUP *hSynthesisOutputSetup; + + hParamMC = st_ivas->hParamMC; + assert( hParamMC ); + Word32 *pCx, *pCx_imag; + Word32 cx_fx[PARAM_MC_MAX_TRANSPORT_CHANS * PARAM_MC_MAX_TRANSPORT_CHANS]; // Q(31 - cx_e) + Word32 cx_imag_fx[PARAM_MC_MAX_TRANSPORT_CHANS * PARAM_MC_MAX_TRANSPORT_CHANS]; // Q(31 - cx_imag_e) + Word32 cx_next_band_fx[PARAM_MC_MAX_TRANSPORT_CHANS * PARAM_MC_MAX_TRANSPORT_CHANS]; // Q(31 - cx_next_band_e) + Word32 cx_imag_next_band_fx[PARAM_MC_MAX_TRANSPORT_CHANS * PARAM_MC_MAX_TRANSPORT_CHANS]; // Q(31 - cx_imag_next_band_e) + + Word16 cx_buff_e[2][PARAM_MC_MAX_TRANSPORT_CHANS * PARAM_MC_MAX_TRANSPORT_CHANS]; + Word16 cx_e; + Word16 cx_imag_e, tmp_e; + Word16 cx_imag_next_band_e, cx_next_band_e; + Word16 qout = 0; + move16(); + + Word32 real_part_fx, imag_part_fx, L_tmp1, L_tmp2; + + Word16 max_e; + + push_wmops( "param_mc_dec_digest_tc" ); + + set16_fx( channel_active, 0, MAX_CICP_CHANNELS ); + nchan_transport = st_ivas->nchan_transport; + move16(); + nchan_out_transport = add( st_ivas->hTransSetup.nchan_out_woLFE, st_ivas->hTransSetup.num_lfe ); + + test(); + test(); + IF( EQ_32( st_ivas->renderer_type, RENDERER_BINAURAL_FASTCONV ) || EQ_32( st_ivas->renderer_type, RENDERER_BINAURAL_FASTCONV_ROOM ) ) + { + nchan_out_cldfb = BINAURAL_CHANNELS; + move16(); + set16_fx( channel_active, 1, nchan_out_cldfb ); + nchan_out_cov = add( st_ivas->hTransSetup.nchan_out_woLFE, st_ivas->hTransSetup.num_lfe ); + hSynthesisOutputSetup = &st_ivas->hTransSetup; + } + ELSE IF( EQ_32( hParamMC->synthesis_conf, PARAM_MC_SYNTH_LS_CONV_CLDFB ) ) + { + nchan_out_cov = nchan_out_transport; + move16(); + nchan_out_cldfb = add( st_ivas->hOutSetup.nchan_out_woLFE, st_ivas->hOutSetup.num_lfe ); + hSynthesisOutputSetup = &st_ivas->hTransSetup; + } + ELSE IF( EQ_32( hParamMC->synthesis_conf, PARAM_MC_SYNTH_LS_CONV_COV ) || EQ_32( hParamMC->synthesis_conf, PARAM_MC_SYNTH_MONO_STEREO ) ) + { + nchan_out_cov = add( st_ivas->hOutSetup.nchan_out_woLFE, st_ivas->hOutSetup.num_lfe ); + nchan_out_cldfb = nchan_out_cov; + move16(); + set16_fx( channel_active, 1, nchan_out_cov ); + hSynthesisOutputSetup = &st_ivas->hOutSetup; + } + ELSE + { + nchan_out_cov = nchan_out_transport; + move16(); + nchan_out_cldfb = nchan_out_transport; + move16(); + set16_fx( channel_active, 1, nchan_out_cov ); + hSynthesisOutputSetup = &st_ivas->hTransSetup; + } + + /* adapt transient position */ + IF( hParamMC->hMetadataPMC->bAttackPresent ) + { + hParamMC->hMetadataPMC->attackIndex = s_max( 0, add( hParamMC->hMetadataPMC->attackIndex, shr( sub( nCldfbSlots, DEFAULT_JBM_CLDFB_TIMESLOTS ), 1 ) ) ); + move16(); + } + /* adapt subframes */ + hParamMC->num_slots = nCldfbSlots; + move16(); + hParamMC->slots_rendered = 0; + move16(); + hParamMC->subframes_rendered = 0; + move16(); + ivas_jbm_dec_get_adapted_subframes( nCldfbSlots, hParamMC->subframe_nbslots, &hParamMC->nb_subframes ); + st_ivas->hTcBuffer->nb_subframes = hParamMC->nb_subframes; + move16(); + Copy( hParamMC->subframe_nbslots, st_ivas->hTcBuffer->subframe_nbslots, hParamMC->nb_subframes ); + + ivas_param_mc_dec_compute_interpolator_fx( hParamMC->hMetadataPMC->bAttackPresent, hParamMC->hMetadataPMC->attackIndex, nCldfbSlots, hParamMC->h_output_synthesis_params.interpolator_fx ); + + /* loop over two bands at a time */ + FOR( param_band_idx = 0; param_band_idx < hParamMC->num_param_bands_synth; param_band_idx += 2 ) + { + /* don't process next band if it exceeds the limit */ + skip_next_band = ( ( param_band_idx + 1 ) == hParamMC->num_param_bands_synth ) ? 1 : 0; + + set_zero_fx( cx_fx, PARAM_MC_MAX_TRANSPORT_CHANS * PARAM_MC_MAX_TRANSPORT_CHANS ); + set_zero_fx( cx_imag_fx, PARAM_MC_MAX_TRANSPORT_CHANS * PARAM_MC_MAX_TRANSPORT_CHANS ); + set_zero_fx( cx_next_band_fx, PARAM_MC_MAX_TRANSPORT_CHANS * PARAM_MC_MAX_TRANSPORT_CHANS ); + set_zero_fx( cx_imag_next_band_fx, PARAM_MC_MAX_TRANSPORT_CHANS * PARAM_MC_MAX_TRANSPORT_CHANS ); + + cx_e = 0; + move16(); + cx_imag_e = 0; + move16(); + cx_next_band_e = 0; + move16(); + cx_imag_next_band_e = 0; + move16(); + /* slot loop for gathering the input data */ + FOR( slot_idx = 0; slot_idx < nCldfbSlots; slot_idx++ ) + { + IF( st_ivas->hDecoderConfig->Opt_tsm ) + { + IF( param_band_idx == 0 ) /* only run cldfbAna once */ + { + Word32 RealBuffer_fx[CLDFB_NO_CHANNELS_MAX]; + Word32 ImagBuffer_fx[CLDFB_NO_CHANNELS_MAX]; + + /* CLDFB Analysis*/ + FOR( ch = 0; ch < nchan_transport; ch++ ) + { + qout = transport_f_e; + move16(); + cldfbAnalysis_ts_fx_fixed_q( &( transport_channels_f_fx[ch][hParamMC->num_freq_bands * slot_idx] ), RealBuffer_fx, ImagBuffer_fx, hParamMC->num_freq_bands, st_ivas->cldfbAnaDec[ch], &qout ); + + Copy32( RealBuffer_fx, &hParamMC->Cldfb_RealBuffer_tc_fx[slot_idx * hParamMC->num_freq_bands * nchan_transport + ch * hParamMC->num_freq_bands], hParamMC->num_freq_bands ); + Copy32( ImagBuffer_fx, &hParamMC->Cldfb_ImagBuffer_tc_fx[slot_idx * hParamMC->num_freq_bands * nchan_transport + ch * hParamMC->num_freq_bands], hParamMC->num_freq_bands ); + } + + hParamMC->Cldfb_ImagBuffer_tc_e = qout; + move16(); + } + } + IF( GE_16( slot_idx, shl( hParamMC->hMetadataPMC->attackIndex, 1 ) ) ) + { + FOR( is_next_band = 0; is_next_band < 2; is_next_band++ ) + { + test(); + IF( is_next_band && skip_next_band ) + { + CONTINUE; + } + IF( is_next_band ) + { + ivas_dirac_dec_output_synthesis_cov_param_mc_collect_slot_fx( &hParamMC->Cldfb_RealBuffer_tc_fx[slot_idx * hParamMC->num_freq_bands * nchan_transport], + /*hParamMC->Cldfb_RealBuffer_tc_e*/ Q31 - Q6, + &hParamMC->Cldfb_ImagBuffer_tc_fx[slot_idx * hParamMC->num_freq_bands * nchan_transport], + /*hParamMC->Cldfb_ImagBuffer_tc_e*/ Q31 - Q6, + cx_next_band_fx, + &cx_next_band_e, + cx_imag_next_band_fx, + &cx_imag_next_band_e, + hParamMC, + add( param_band_idx, is_next_band ), + nchan_transport ); + } + ELSE + { + ivas_dirac_dec_output_synthesis_cov_param_mc_collect_slot_fx( &hParamMC->Cldfb_RealBuffer_tc_fx[slot_idx * hParamMC->num_freq_bands * nchan_transport], + /*hParamMC->Cldfb_RealBuffer_tc_e*/ Q31 - Q6, + &hParamMC->Cldfb_ImagBuffer_tc_fx[slot_idx * hParamMC->num_freq_bands * nchan_transport], + /*hParamMC->Cldfb_ImagBuffer_tc_e*/ Q31 - Q6, + cx_fx, + &cx_e, + cx_imag_fx, + &cx_imag_e, + hParamMC, + add( param_band_idx, is_next_band ), + nchan_transport ); + } + } + } + } + + Word16 tmp_cx_e, tmp_cx_imag_e; + /* map from complex input covariance to real values */ + FOR( is_next_band = 0; is_next_band < 2; is_next_band++ ) + { + test(); + IF( is_next_band && skip_next_band ) + { + CONTINUE; + } + /* Cx for transport channels */ + IF( is_next_band ) + { + pCx = &cx_next_band_fx[0]; + pCx_imag = &cx_imag_next_band_fx[0]; + tmp_cx_e = cx_next_band_e; + tmp_cx_imag_e = cx_imag_next_band_e; + } + ELSE + { + pCx = &cx_fx[0]; + pCx_imag = &cx_imag_fx[0]; + tmp_cx_e = cx_e; + tmp_cx_imag_e = cx_imag_e; + } + + FOR( i = 0; i < nchan_transport * nchan_transport; i++ ) + { + real_part_fx = pCx[i]; // Q(31 - cx_buff_e) + imag_part_fx = pCx_imag[i]; + move32(); + move32(); + cx_buff_e[is_next_band][i] = tmp_cx_e; + move16(); + /* (a-ib)(c+id) = ac + bd + i(ad-bc) */ + IF( LT_16( param_band_idx, hParamMC->max_param_band_abs_cov ) ) + { + L_tmp1 = Mpy_32_32( real_part_fx, real_part_fx ); + L_tmp2 = Mpy_32_32( imag_part_fx, imag_part_fx ); + L_tmp1 = BASOP_Util_Add_Mant32Exp( L_tmp1, add( tmp_cx_e, tmp_cx_e ), L_tmp2, add( tmp_cx_imag_e, tmp_cx_imag_e ), &tmp_e ); + pCx[i] = Sqrt32( L_tmp1, &tmp_e ); + move32(); + cx_buff_e[is_next_band][i] = tmp_e; + move16(); + } + ELSE + { + pCx[i] = real_part_fx; + move32(); + cx_buff_e[is_next_band][i] = tmp_cx_e; + move16(); + } + } + } + + max_e = cx_buff_e[0][0]; + move16(); + + /* Cx for transport channels */ + FOR( is_next_band = 0; is_next_band < 2; is_next_band++ ) + { + FOR( i = 0; i < imult1616( nchan_transport, nchan_transport ); i++ ) + { + + IF( LT_16( max_e, cx_buff_e[is_next_band][i] ) ) + { + max_e = cx_buff_e[is_next_band][i]; + } + } + } + /* Cx for transport channels */ + FOR( is_next_band = 0; is_next_band < 2; is_next_band++ ) + { + FOR( i = 0; i < imult1616( nchan_transport, nchan_transport ); i++ ) + { + if ( is_next_band == 0 ) + { + cx_fx[i] = L_shr( cx_fx[i], sub( max_e, cx_buff_e[is_next_band][i] ) ); + } + else + { + cx_next_band_fx[i] = L_shr( cx_next_band_fx[i], sub( max_e, cx_buff_e[is_next_band][i] ) ); + } + move32(); + } + } + cx_e = max_e; + move16(); + + + /* we have to do it similar to the encoder in case of attacks (i.e. accumulate two bands) to ensure correct DMX of the target covariance*/ + + test(); + test(); + IF( hParamMC->hMetadataPMC->bAttackPresent && ( EQ_32( hParamMC->synthesis_conf, PARAM_MC_SYNTH_LS_CONV_COV ) || EQ_32( hParamMC->synthesis_conf, PARAM_MC_SYNTH_MONO_STEREO ) ) ) + { + v_add_fx( cx_fx, cx_next_band_fx, cx_fx, imult1616( nchan_transport, nchan_transport ) ); + Copy32( cx_fx, cx_next_band_fx, imult1616( nchan_transport, nchan_transport ) ); + } + + FOR( is_next_band = 0; is_next_band < 2; is_next_band++ ) + { + test(); + IF( is_next_band && skip_next_band ) + { + CONTINUE; + } + + IF( NE_32( hParamMC->synthesis_conf, PARAM_MC_SYNTH_MONO_STEREO ) ) + { + IF( is_next_band ) + { + + ivas_param_mc_get_mixing_matrices_fx( hParamMC, hSynthesisOutputSetup, cx_next_band_fx, cx_e, add( param_band_idx, is_next_band ), hParamMC->h_output_synthesis_cov_state.mixing_matrix_fx, hParamMC->h_output_synthesis_cov_state.mixing_matrix_exp, hParamMC->h_output_synthesis_cov_state.mixing_matrix_res_fx, hParamMC->h_output_synthesis_cov_state.mixing_matrix_res_exp, nchan_out_transport, hParamMC->synthesis_conf, nchan_transport, nchan_out_cov ); + } + ELSE + { + + ivas_param_mc_get_mixing_matrices_fx( hParamMC, hSynthesisOutputSetup, cx_fx, cx_e, add( param_band_idx, is_next_band ), hParamMC->h_output_synthesis_cov_state.mixing_matrix_fx, hParamMC->h_output_synthesis_cov_state.mixing_matrix_exp, hParamMC->h_output_synthesis_cov_state.mixing_matrix_res_fx, hParamMC->h_output_synthesis_cov_state.mixing_matrix_res_exp, nchan_out_transport, hParamMC->synthesis_conf, nchan_transport, nchan_out_cov ); + } + } + } + } + pop_wmops(); + + return; +} + + +/*------------------------------------------------------------------------- + * ivas_param_mc_dec() + * + * Parametric MC decoding process + *------------------------------------------------------------------------*/ + +void ivas_param_mc_dec_render_fx( + Decoder_Struct *st_ivas, /* i/o: IVAS decoder handle */ + const UWord16 nSamplesAsked, /* i : number of CLDFB slots requested */ + UWord16 *nSamplesRendered, /* o : number of CLDFB slots rendered */ + UWord16 *nSamplesAvailableNext, /* o : number of CLDFB slots still to render */ + Word32 *output_f_fx[], /* o : rendered time signal Q11*/ + Word16 channel_active_fx[MAX_OUTPUT_CHANNELS] ) +{ + PARAM_MC_DEC_HANDLE hParamMC; + Word16 i, ch; + Word16 subframe_idx; + Word16 slot_idx, slot_idx_start, slot_idx_start_cldfb_synth, first_sf, last_sf, slots_to_render; + Word16 nchan_transport, nchan_out_transport, nchan_out_cldfb; + Word16 nchan_out_cov; + + /*CLDFB*/ + Word32 Cldfb_RealBuffer_fx[MAX_INTERN_CHANNELS][PARAM_MC_MAX_NSLOTS_IN_SUBFRAME][CLDFB_NO_CHANNELS_MAX]; + Word32 Cldfb_ImagBuffer_fx[MAX_INTERN_CHANNELS][PARAM_MC_MAX_NSLOTS_IN_SUBFRAME][CLDFB_NO_CHANNELS_MAX]; +#ifdef SPLIT_REND_WITH_HEAD_ROT + Word32 Cldfb_RealBuffer_Binaural_fx[MAX_HEAD_ROT_POSES][BINAURAL_CHANNELS][PARAM_MC_MAX_NSLOTS_IN_SUBFRAME][CLDFB_NO_CHANNELS_MAX]; + Word32 Cldfb_ImagBuffer_Binaural_fx[MAX_HEAD_ROT_POSES][BINAURAL_CHANNELS][PARAM_MC_MAX_NSLOTS_IN_SUBFRAME][CLDFB_NO_CHANNELS_MAX]; +#else + Word32 Cldfb_RealBuffer_Binaural_fx[BINAURAL_CHANNELS][MAX_PARAM_SPATIAL_SUBFRAMES][CLDFB_NO_CHANNELS_MAX]; + Word32 Cldfb_ImagBuffer_Binaural_fx[BINAURAL_CHANNELS][MAX_PARAM_SPATIAL_SUBFRAMES][CLDFB_NO_CHANNELS_MAX]; +#endif + Word32 *p_output_f_fx[MAX_OUTPUT_CHANNELS]; + FOR( i = 0; i < MAX_OUTPUT_CHANNELS; i++ ) + { + p_output_f_fx[i] = output_f_fx[i]; // Q11 + } + /*Decorrelator*/ + Word32 onset_filter_fx[MAX_CICP_CHANNELS * CLDFB_NO_CHANNELS_MAX]; // Q31 + + /* format converter */ + Word16 channel_active[MAX_OUTPUT_CHANNELS]; + UWord16 nband_synth; + UWord32 output_Fs; + Word16 tmp_q = 0; + move16(); + + hParamMC = st_ivas->hParamMC; + assert( hParamMC ); + + push_wmops( "param_mc_dec_render" ); + + set16_fx( channel_active, 0, MAX_CICP_CHANNELS ); + nchan_transport = st_ivas->nchan_transport; + move16(); + nchan_out_transport = add( st_ivas->hTransSetup.nchan_out_woLFE, st_ivas->hTransSetup.num_lfe ); + output_Fs = st_ivas->hDecoderConfig->output_Fs; + move32(); + + test(); + test(); + IF( EQ_16( st_ivas->renderer_type, RENDERER_BINAURAL_FASTCONV ) || EQ_16( st_ivas->renderer_type, RENDERER_BINAURAL_FASTCONV_ROOM ) ) + { + nchan_out_cldfb = BINAURAL_CHANNELS; + set16_fx( channel_active, 1, nchan_out_cldfb ); + nchan_out_cov = add( st_ivas->hTransSetup.nchan_out_woLFE, st_ivas->hTransSetup.num_lfe ); + } + ELSE IF( EQ_16( hParamMC->synthesis_conf, PARAM_MC_SYNTH_LS_CONV_CLDFB ) ) + { + nchan_out_cov = nchan_out_transport; + move16(); + nchan_out_cldfb = add( st_ivas->hOutSetup.nchan_out_woLFE, st_ivas->hOutSetup.num_lfe ); + } + ELSE IF( EQ_16( hParamMC->synthesis_conf, PARAM_MC_SYNTH_LS_CONV_COV ) || EQ_16( hParamMC->synthesis_conf, PARAM_MC_SYNTH_MONO_STEREO ) ) + { + nchan_out_cov = add( st_ivas->hOutSetup.nchan_out_woLFE, st_ivas->hOutSetup.num_lfe ); + nchan_out_cldfb = nchan_out_cov; + move16(); + set16_fx( channel_active, 1, nchan_out_cov ); + } + ELSE + { + nchan_out_cov = nchan_out_transport; + move16(); + nchan_out_cldfb = nchan_out_transport; + move16(); + set16_fx( channel_active, 1, nchan_out_cov ); + } + + /* set everything to zero that will not be decoded */ + nband_synth = hParamMC->band_grouping[hParamMC->num_param_bands_synth]; + move16(); + FOR( ch = 0; ch < MAX_OUTPUT_CHANNELS; ch++ ) + { + FOR( slot_idx = 0; slot_idx < JBM_CLDFB_SLOTS_IN_SUBFRAME; slot_idx++ ) + { + set32_fx( &( Cldfb_RealBuffer_fx[ch][slot_idx][0] ), 0, CLDFB_NO_CHANNELS_MAX ); + set32_fx( &( Cldfb_ImagBuffer_fx[ch][slot_idx][0] ), 0, CLDFB_NO_CHANNELS_MAX ); + } + } + + /* loop FOR synthesis, assume we always have to render in multiples of 5ms subframes with spills */ + /*slots_to_render = min(sub(hParamMC->num_slots, hParamMC->slots_rendered), nSamplesAsked / NS2SA(output_Fs, CLDFB_SLOT_NS)); + *nSamplesRendered = slots_to_render * NS2SA(output_Fs, CLDFB_SLOT_NS);*/ + Word16 temp_e; + Word16 temp = BASOP_Util_Divide1616_Scale( nSamplesAsked, NS2SA_FX2( output_Fs, CLDFB_SLOT_NS ), &temp_e ); + temp = shr( temp, sub( 15, temp_e ) ); + slots_to_render = s_min( sub( hParamMC->num_slots, hParamMC->slots_rendered ), temp ); + *nSamplesRendered = imult1616( slots_to_render, NS2SA_FX2( output_Fs, CLDFB_SLOT_NS ) ); + move16(); + Word16 j, k; + first_sf = hParamMC->subframes_rendered; + move16(); + last_sf = first_sf; + move16(); + WHILE( slots_to_render > 0 ) + { + slots_to_render = sub( slots_to_render, hParamMC->subframe_nbslots[last_sf] ); + last_sf = add( last_sf, 1 ); + } + IF( EQ_16( st_ivas->renderer_type, RENDERER_SBA_LINEAR_ENC ) ) + { + FOR( subframe_idx = first_sf; subframe_idx < last_sf; subframe_idx++ ) + { + slots_to_render = add( slots_to_render, hParamMC->subframe_nbslots[subframe_idx] ); + } + } + slot_idx_start = hParamMC->slots_rendered; + move16(); + slot_idx_start_cldfb_synth = 0; + move16(); + + FOR( j = 0; j < st_ivas->hParamMC->hMetadataPMC->nbands_coded; j++ ) + { + Flag is_zero = is_zero_arr( hParamMC->h_output_synthesis_cov_state.mixing_matrix_fx[j], hParamMC->h_output_synthesis_cov_state.mixing_matrix_len ); + { + if ( is_zero != 0 ) + { + hParamMC->h_output_synthesis_cov_state.mixing_matrix_exp[j] = 0; + move16(); + } + } + IF( LT_16( st_ivas->hParamMC->band_grouping[j], st_ivas->hParamMC->h_output_synthesis_params.max_band_decorr ) ) + { + is_zero = is_zero_arr( hParamMC->h_output_synthesis_cov_state.mixing_matrix_res_fx[j], hParamMC->h_output_synthesis_cov_state.mixing_matrix_res_len ); + if ( is_zero != 0 ) + { + hParamMC->h_output_synthesis_cov_state.mixing_matrix_res_exp[j] = 0; + move16(); + } + } + } + FOR( subframe_idx = first_sf; subframe_idx < last_sf; subframe_idx++ ) + { + FOR( slot_idx = 0; slot_idx < hParamMC->subframe_nbslots[subframe_idx]; ( slot_idx++, hParamMC->slots_rendered++ ) ) + { + IF( hParamMC->max_band_decorr > 0 ) + { + /*-----------------------------------------------------------------* + * protoype signal computation + *-----------------------------------------------------------------*/ + param_mc_protoSignalComputation_fx( &hParamMC->Cldfb_RealBuffer_tc_fx[hParamMC->slots_rendered * nchan_transport * hParamMC->num_freq_bands], + &hParamMC->Cldfb_ImagBuffer_tc_fx[hParamMC->slots_rendered * nchan_transport * hParamMC->num_freq_bands], + hParamMC->proto_frame_f_fx, hParamMC->diff_proto_info, + hParamMC->num_freq_bands ); + /*-----------------------------------------------------------------* + * frequency domain decorrelation + *-----------------------------------------------------------------*/ + /* decorrelate prototype frame */ + + ivas_dirac_dec_decorr_process_fx( hParamMC->num_freq_bands, + hParamMC->num_outputs_diff, + hParamMC->diff_proto_info->num_protos_diff, + DIRAC_SYNTHESIS_COV_MC_LS, + nchan_transport, + hParamMC->proto_frame_f_fx, + Q5, + hParamMC->diff_proto_info->num_protos_diff, + hParamMC->diff_proto_info->proto_index_diff, + hParamMC->proto_frame_dec_f_fx, // output + &tmp_q, + onset_filter_fx, + hParamMC->h_freq_domain_decorr_ap_params, + hParamMC->h_freq_domain_decorr_ap_state ); + + /* copy decorrelated frame directly to output CLDFB buffer, acts also as intermediate */ + /* memory FOR the decorrelated signal */ + ivas_param_mc_dec_copy_diffuse_proto( hParamMC, Cldfb_RealBuffer_fx, Cldfb_ImagBuffer_fx, nchan_out_cov, slot_idx ); // Returns Cldfb buffers in Q11(tmp_q) + + FOR( k = 0; k < nchan_out_cov; k++ ) + { + FOR( Word16 l = 0; l < hParamMC->h_output_synthesis_params.max_band_decorr; l++ ) + { + Cldfb_RealBuffer_fx[k][slot_idx][l] = L_shl( Cldfb_RealBuffer_fx[k][slot_idx][l], sub( 6, tmp_q ) ); // Q11(tmp_q) -> Q6 + move32(); + Cldfb_ImagBuffer_fx[k][slot_idx][l] = L_shl( Cldfb_ImagBuffer_fx[k][slot_idx][l], sub( 6, tmp_q ) ); // Q11(tmp_q) -> Q6 + move32(); + } + } + } + + /*-----------------------------------------------------------------* + * output synthesis + *-----------------------------------------------------------------*/ + ivas_dirac_dec_output_synthesis_cov_param_mc_synthesise_slot_fx( + &hParamMC->Cldfb_RealBuffer_tc_fx[hParamMC->slots_rendered * nchan_transport * hParamMC->num_freq_bands], + &hParamMC->Cldfb_ImagBuffer_tc_fx[hParamMC->slots_rendered * nchan_transport * hParamMC->num_freq_bands], Cldfb_RealBuffer_fx, Cldfb_ImagBuffer_fx, hParamMC->h_output_synthesis_cov_state.mixing_matrix_fx, hParamMC->h_output_synthesis_cov_state.mixing_matrix_exp, hParamMC->h_output_synthesis_cov_state.mixing_matrix_res_fx, hParamMC->h_output_synthesis_cov_state.mixing_matrix_res_exp, slot_idx, add( slot_idx, slot_idx_start ), + nchan_transport, nchan_out_cov, hParamMC ); + + test(); + IF( ( EQ_16( st_ivas->renderer_type, RENDERER_BINAURAL_FASTCONV ) || EQ_16( st_ivas->renderer_type, RENDERER_BINAURAL_FASTCONV_ROOM ) ) ) + { + test(); + IF( st_ivas->hCombinedOrientationData && EQ_16( st_ivas->renderer_type, RENDERER_BINAURAL_FASTCONV ) ) + { + Word16 Q_Cldfb_ImagBuffer, Q_Cldfb_RealBuffer; + Q_Cldfb_ImagBuffer = Q6 - 5; /*max value =MAX_INTERN_CHANNELS(=16)*Cldfb_ImagBuffer_fx*/ + move16(); + Q_Cldfb_RealBuffer = Q6 - 5; + move16(); + FOR( i = 0; i < MAX_OUTPUT_CHANNELS; i++ ) + { + FOR( j = 0; j < MAX_PARAM_SPATIAL_SUBFRAMES; j++ ) + { + Scale_sig32( Cldfb_RealBuffer_fx[i][j], CLDFB_NO_CHANNELS_MAX, sub( Q_Cldfb_ImagBuffer, Q6 ) ); // Q1 + Scale_sig32( Cldfb_ImagBuffer_fx[i][j], CLDFB_NO_CHANNELS_MAX, sub( Q_Cldfb_RealBuffer, Q6 ) ); // Q1 + } + } + ivas_param_mc_mc2sba_cldfb_fx( st_ivas->hTransSetup, hParamMC->hoa_encoder_fx, slot_idx, Cldfb_RealBuffer_fx, Cldfb_ImagBuffer_fx, nband_synth, GAIN_LFE_FX ); + FOR( i = 0; i < MAX_OUTPUT_CHANNELS; i++ ) + { + FOR( j = 0; j < MAX_PARAM_SPATIAL_SUBFRAMES; j++ ) + { + Scale_sig32( Cldfb_RealBuffer_fx[i][j], CLDFB_NO_CHANNELS_MAX, sub( Q6, Q_Cldfb_ImagBuffer ) ); // Q6 + Scale_sig32( Cldfb_ImagBuffer_fx[i][j], CLDFB_NO_CHANNELS_MAX, sub( Q6, Q_Cldfb_RealBuffer ) ); // Q6 + } + } + } + ELSE + { + /* remove LFE */ + UWord16 idx_out; + UWord16 idx_lfe; + IVAS_OUTPUT_SETUP hLsSetup; + + hLsSetup = st_ivas->hTransSetup; + /* If LFE should be rendered, add it to other channels before removing */ + IF( st_ivas->hBinRenderer->render_lfe ) + { + Word16 tmp_exp = 0; + move16(); + Word16 tmp = BASOP_Util_Divide1616_Scale( GAIN_LFE_FX, hLsSetup.nchan_out_woLFE, &tmp_exp ); + tmp_exp = add( tmp_exp, ( 1 - 15 ) ); + FOR( idx_lfe = 0; idx_lfe < hLsSetup.num_lfe; idx_lfe++ ) + { + /* Copy just the first band of LFE*/ + v_multc_fixed_16( Cldfb_RealBuffer_fx[hLsSetup.index_lfe[idx_lfe]][slot_idx], tmp, Cldfb_RealBuffer_fx[hLsSetup.index_lfe[idx_lfe]][slot_idx], 1 ); + v_multc_fixed_16( Cldfb_ImagBuffer_fx[hLsSetup.index_lfe[idx_lfe]][slot_idx], tmp, Cldfb_ImagBuffer_fx[hLsSetup.index_lfe[idx_lfe]][slot_idx], 1 ); + + Scale_sig32( Cldfb_RealBuffer_fx[hLsSetup.index_lfe[idx_lfe]][slot_idx], 1, tmp_exp ); + Scale_sig32( Cldfb_ImagBuffer_fx[hLsSetup.index_lfe[idx_lfe]][slot_idx], 1, tmp_exp ); + FOR( ch = 0; ch < ( hLsSetup.nchan_out_woLFE + hLsSetup.num_lfe ); ch++ ) + { + IF( hLsSetup.index_lfe[idx_lfe] != ch ) + { + v_add_fixed( Cldfb_RealBuffer_fx[ch][slot_idx], Cldfb_RealBuffer_fx[hLsSetup.index_lfe[idx_lfe]][slot_idx], Cldfb_RealBuffer_fx[ch][slot_idx], 1, 0 ); + v_add_fixed( Cldfb_ImagBuffer_fx[ch][slot_idx], Cldfb_ImagBuffer_fx[hLsSetup.index_lfe[idx_lfe]][slot_idx], Cldfb_ImagBuffer_fx[ch][slot_idx], 1, 0 ); + } + } + } + } + + idx_out = 0; + move16(); + idx_lfe = 0; + move16(); + + FOR( ch = 0; ch < ( hLsSetup.nchan_out_woLFE + hLsSetup.num_lfe ); ch++ ) + { + test(); + IF( ( hLsSetup.num_lfe > 0 ) && EQ_16( hLsSetup.index_lfe[idx_lfe], ch ) ) + { + IF( LT_16( idx_lfe, ( sub( hLsSetup.num_lfe, 1 ) ) ) ) + { + idx_lfe = add( idx_lfe, 1 ); + } + } + ELSE IF( NE_16( ch, idx_out ) ) + { + Copy32( Cldfb_RealBuffer_fx[ch][slot_idx], Cldfb_RealBuffer_fx[idx_out][slot_idx], nband_synth ); + Copy32( Cldfb_ImagBuffer_fx[ch][slot_idx], Cldfb_ImagBuffer_fx[idx_out][slot_idx], nband_synth ); + idx_out = add( idx_out, 1 ); + } + ELSE + { + idx_out = add( idx_out, 1 ); + } + } + } + } + } + + test(); + IF( EQ_16( st_ivas->renderer_type, RENDERER_BINAURAL_FASTCONV ) || EQ_16( st_ivas->renderer_type, RENDERER_BINAURAL_FASTCONV_ROOM ) ) + { + Word16 input_q = 6; + move16(); + +#ifdef SPLIT_REND_WITH_HEAD_ROT + IF( EQ_16( st_ivas->hDecoderConfig->output_config, IVAS_AUDIO_CONFIG_BINAURAL_SPLIT_CODED ) || EQ_16( st_ivas->hDecoderConfig->output_config, IVAS_AUDIO_CONFIG_BINAURAL_SPLIT_PCM ) ) + { + IF( st_ivas->hSplitBinRend->hCldfbDataOut != NULL ) + { + FOR( slot_idx = 0; slot_idx < MAX_PARAM_SPATIAL_SUBFRAMES; slot_idx++ ) + { + FOR( ch = 0; ch < ( st_ivas->hIntSetup.nchan_out_woLFE + st_ivas->hIntSetup.num_lfe ); ch++ ) + { + Copy32( Cldfb_RealBuffer_fx[ch][slot_idx], st_ivas->hSplitBinRend->hCldfbDataOut->Cldfb_RealBuffer_fx[ch][add( slot_idx_start, slot_idx )], hParamMC->num_freq_bands ); + Copy32( Cldfb_ImagBuffer_fx[ch][slot_idx], st_ivas->hSplitBinRend->hCldfbDataOut->Cldfb_ImagBuffer_fx[ch][add( slot_idx_start, slot_idx )], hParamMC->num_freq_bands ); + } + } + st_ivas->hSplitBinRend->hCldfbDataOut->config = st_ivas->hIntSetup.output_config; + move16(); + } + } +#endif + + /* Implement binaural rendering */ + ivas_binRenderer_fx( st_ivas->hBinRenderer, +#ifdef SPLIT_REND_WITH_HEAD_ROT + ( st_ivas->hSplitBinRend == NULL ) ? NULL : &st_ivas->hSplitBinRend->splitrend.multiBinPoseData, +#endif + st_ivas->hCombinedOrientationData, + hParamMC->subframe_nbslots[subframe_idx], + Cldfb_RealBuffer_Binaural_fx, Cldfb_ImagBuffer_Binaural_fx, + Cldfb_RealBuffer_fx, + Cldfb_ImagBuffer_fx, &input_q ); + + FOR( i = 0; i < MAX_OUTPUT_CHANNELS; i++ ) + { + FOR( j = 0; j < MAX_PARAM_SPATIAL_SUBFRAMES; j++ ) + { + FOR( k = 0; k < CLDFB_NO_CHANNELS_MAX; k++ ) + { + Cldfb_RealBuffer_fx[i][j][k] = L_shl( Cldfb_RealBuffer_fx[i][j][k], sub( Q6, input_q ) ); // Q6 + Cldfb_ImagBuffer_fx[i][j][k] = L_shl( Cldfb_ImagBuffer_fx[i][j][k], sub( Q6, input_q ) ); // Q6 + } + } + } + +#ifdef SPLIT_REND_WITH_HEAD_ROT + int16_t pos_idx; + FOR( pos_idx = 0; pos_idx < st_ivas->hBinRenderer->numPoses; pos_idx++ ) + { + FOR( Word16 idx1 = 0; idx1 < BINAURAL_CHANNELS; idx1++ ) + { + FOR( Word16 idx2 = 0; idx2 < hParamMC->subframe_nbslots[subframe_idx]; idx2++ ) + { + Scale_sig32( Cldfb_RealBuffer_Binaural_fx[pos_idx][idx1][idx2], CLDFB_NO_CHANNELS_MAX, sub( Q6, input_q ) ); // Q6 + Scale_sig32( Cldfb_ImagBuffer_Binaural_fx[pos_idx][idx1][idx2], CLDFB_NO_CHANNELS_MAX, sub( Q6, input_q ) ); // Q6 + } + } + } +#else + FOR( Word16 idx1 = 0; idx1 < BINAURAL_CHANNELS; idx1++ ) + { + FOR( Word16 idx2 = 0; idx2 < hParamMC->subframe_nbslots[subframe_idx]; idx2++ ) + { + Scale_sig32( Cldfb_RealBuffer_Binaural_fx[idx1][idx2], CLDFB_NO_CHANNELS_MAX, sub( Q6, input_q ) ); // Q6 + Scale_sig32( Cldfb_ImagBuffer_Binaural_fx[idx1][idx2], CLDFB_NO_CHANNELS_MAX, sub( Q6, input_q ) ); // Q6 + } + } +#endif + +#ifdef SPLIT_REND_WITH_HEAD_ROT + IF( EQ_16( st_ivas->hDecoderConfig->output_config, IVAS_AUDIO_CONFIG_BINAURAL_SPLIT_CODED ) || EQ_16( st_ivas->hDecoderConfig->output_config, IVAS_AUDIO_CONFIG_BINAURAL_SPLIT_PCM ) ) + { + FOR( pos_idx = 0; pos_idx < st_ivas->hBinRenderer->numPoses; pos_idx++ ) + { + FOR( slot_idx = 0; slot_idx < hParamMC->subframe_nbslots[subframe_idx]; slot_idx++ ) + { + FOR( ch = 0; ch < nchan_out_cldfb; ch++ ) + { + Copy32( Cldfb_RealBuffer_Binaural_fx[pos_idx][ch][slot_idx], st_ivas->hSplitBinRend->hMultiBinCldfbData->Cldfb_RealBuffer_Binaural_fx[add( i_mult( pos_idx, BINAURAL_CHANNELS ), ch )][add( slot_idx_start, slot_idx )], hParamMC->num_freq_bands ); + Copy32( Cldfb_ImagBuffer_Binaural_fx[pos_idx][ch][slot_idx], st_ivas->hSplitBinRend->hMultiBinCldfbData->Cldfb_ImagBuffer_Binaural_fx[add( i_mult( pos_idx, BINAURAL_CHANNELS ), ch )][add( slot_idx_start, slot_idx )], hParamMC->num_freq_bands ); + } + } + } + } +#endif + /* update combined orientation access index */ + ivas_combined_orientation_update_index( st_ivas->hCombinedOrientationData, hParamMC->num_freq_bands * hParamMC->subframe_nbslots[subframe_idx] ); + } + ELSE IF( EQ_16( hParamMC->synthesis_conf, PARAM_MC_SYNTH_LS_CONV_CLDFB ) ) + { + /* format conversion*/ + ivas_lssetupconversion_process_param_mc_fx( st_ivas, hParamMC->subframe_nbslots[subframe_idx], Cldfb_RealBuffer_fx, Cldfb_ImagBuffer_fx, channel_active ); + } + + + /* CLDFB synthesis */ + FOR( ch = 0; ch < nchan_out_cldfb; ch++ ) + { + Word32 *RealBuffer_fx[16]; + Word32 *ImagBuffer_fx[16]; + + IF( channel_active[ch] ) + { + /* open CLDFB buffer up to CLDFB_NO_CHANNELS_MAX bands FOR 48kHz */ + FOR( i = 0; i < hParamMC->subframe_nbslots[subframe_idx]; i++ ) + { + IF( EQ_16( st_ivas->renderer_type, RENDERER_BINAURAL_FASTCONV ) || EQ_16( st_ivas->renderer_type, RENDERER_BINAURAL_FASTCONV_ROOM ) ) + { +#ifdef SPLIT_REND_WITH_HEAD_ROT + RealBuffer_fx[i] = Cldfb_RealBuffer_Binaural_fx[0][ch][i]; // Q6 + ImagBuffer_fx[i] = Cldfb_ImagBuffer_Binaural_fx[0][ch][i]; // Q6 +#else + RealBuffer_fx[i] = Cldfb_RealBuffer_Binaural_fx[ch][i]; // Q6 + ImagBuffer_fx[i] = Cldfb_ImagBuffer_Binaural_fx[ch][i]; // Q6 +#endif + } + ELSE + { + RealBuffer_fx[i] = Cldfb_RealBuffer_fx[ch][i]; // Q6 + ImagBuffer_fx[i] = Cldfb_ImagBuffer_fx[ch][i]; // Q6 + } + } + + Word16 len = add( imult1616( slot_idx_start_cldfb_synth, hParamMC->num_freq_bands ), imult1616( hParamMC->num_freq_bands, hParamMC->subframe_nbslots[subframe_idx] ) ); + scale_sig32( output_f_fx[ch], len, 5 - 11 ); +#ifdef OPT_AVOID_STATE_BUF_RESCALE + cldfbSynthesis_ivas_fx( RealBuffer_fx, ImagBuffer_fx, &( output_f_fx[ch][slot_idx_start_cldfb_synth * hParamMC->num_freq_bands] ), + imult1616( hParamMC->num_freq_bands, hParamMC->subframe_nbslots[subframe_idx] ), 0, 0, st_ivas->cldfbSynDec[ch] ); +#else /* OPT_AVOID_STATE_BUF_RESCALE */ + cldfbSynthesis_ivas_fx( RealBuffer_fx, ImagBuffer_fx, &( output_f_fx[ch][slot_idx_start_cldfb_synth * hParamMC->num_freq_bands] ), + imult1616( hParamMC->num_freq_bands, hParamMC->subframe_nbslots[subframe_idx] ), 0, st_ivas->cldfbSynDec[ch] ); +#endif /* OPT_AVOID_STATE_BUF_RESCALE */ + + scale_sig32( output_f_fx[ch], len, 11 - 5 ); // Q11 + } + ELSE + { + set32_fx( &( output_f_fx[ch][slot_idx_start_cldfb_synth * hParamMC->num_freq_bands] ), 0, imult1616( hParamMC->num_freq_bands, hParamMC->subframe_nbslots[subframe_idx] ) ); + } + } + slot_idx_start = add( slot_idx_start, hParamMC->subframe_nbslots[subframe_idx] ); + slot_idx_start_cldfb_synth = add( slot_idx_start_cldfb_synth, hParamMC->subframe_nbslots[subframe_idx] ); + } + IF( EQ_16( st_ivas->renderer_type, RENDERER_SBA_LINEAR_ENC ) ) + { + ivas_mc2sba_fx( st_ivas->hIntSetup, p_output_f_fx, p_output_f_fx, *nSamplesRendered, st_ivas->hOutSetup.ambisonics_order, 0 ); + } + + /* update */ + + IF( EQ_16( hParamMC->slots_rendered, hParamMC->num_slots ) ) + { + hParamMC->hMetadataPMC->last_coded_bwidth = hParamMC->hMetadataPMC->coded_bwidth; + move16(); + param_mc_update_mixing_matrices_fx( hParamMC, hParamMC->h_output_synthesis_cov_state.mixing_matrix_fx, hParamMC->h_output_synthesis_cov_state.mixing_matrix_exp, hParamMC->h_output_synthesis_cov_state.mixing_matrix_res_fx, hParamMC->h_output_synthesis_cov_state.mixing_matrix_res_exp, nchan_transport, nchan_out_cov ); + } + + + hParamMC->subframes_rendered = last_sf; + move16(); + *nSamplesAvailableNext = imult1616( sub( hParamMC->num_slots, hParamMC->slots_rendered ), NS2SA_FX2( output_Fs, CLDFB_SLOT_NS ) ); + move16(); + + FOR( i = 0; i < MAX_OUTPUT_CHANNELS; i++ ) + { + channel_active_fx[i] = channel_active[i]; + move16(); + } + pop_wmops(); + + return; +} + +/*------------------------------------------------------------------------- + * param_mc_dec_init() + * + * Parametric MC decoding initialization + *------------------------------------------------------------------------*/ + +static void ivas_param_mc_dec_init_fx( + PARAM_MC_DEC_HANDLE hParamMC, /* i/o: decoder DirAC handle */ + const Word16 nchan_transport, /* i : number of input (transport) channels */ + const Word16 nchan_cov ) /* i : number of cov synthesis channels */ +{ + Word16 k; + UWord16 max_param_band_residual; + Word16 len; + + /*-----------------------------------------------------------------* + * init sub-modules + *-----------------------------------------------------------------*/ + + /* decorrelation */ + IF( hParamMC->max_band_decorr > 0 ) + { + len = imult1616( hParamMC->diff_proto_info->num_protos_diff, hParamMC->h_freq_domain_decorr_ap_params->h_onset_detection_power_params.max_band_decorr ); + + /* init onsetDetectionPower */ + set_zero_fx( hParamMC->h_freq_domain_decorr_ap_state->h_onset_detection_power_state.onset_detector_1_fx, len ); + set_zero_fx( hParamMC->h_freq_domain_decorr_ap_state->h_onset_detection_power_state.onset_detector_2_fx, len ); + hParamMC->h_freq_domain_decorr_ap_state->h_onset_detection_power_state.q_onset_detector = Q31; + move16(); + } + + max_param_band_residual = 0; + move16(); + + /* output synthesis */ + FOR( k = hParamMC->hMetadataPMC->num_parameter_bands; k >= 0; k-- ) + { + IF( LE_16( hParamMC->band_grouping[k], hParamMC->max_band_decorr ) ) + { + max_param_band_residual = k; + move16(); + BREAK; + } + } + + ivas_dirac_dec_output_synthesis_cov_init_fx( &( hParamMC->h_output_synthesis_cov_state ), nchan_transport, nchan_cov, hParamMC->hMetadataPMC->num_parameter_bands, max_param_band_residual ); + + /*-----------------------------------------------------------------* + * init proto frames + *-----------------------------------------------------------------*/ + + IF( hParamMC->max_band_decorr > 0 ) + { + set_zero_fx( hParamMC->proto_frame_f_fx, shl( imult1616( hParamMC->diff_proto_info->num_protos_diff, hParamMC->num_freq_bands ), 1 ) ); + set32_fx( hParamMC->proto_frame_dec_f_fx, 0, shl( imult1616( nchan_cov, hParamMC->num_freq_bands ), 1 ) ); + } + + return; +} + + +/*------------------------------------------------------------------------- + * Local functions + *-------------------------------------------------------------------------*/ + + +/*------------------------------------------------------------------------- + * ivas_param_mc_dec_compute_diffuse_proto() + * + * Compute prototypes for decorrelation + *------------------------------------------------------------------------*/ + +static void param_mc_protoSignalComputation_fx( + Word32 *RealBuffer_fx, /* i : CLDFB samples of the transport channels (real part) */ + Word32 *ImagBuffer_fx, /* i : CLDFB samples of the transport channels (imaginary part) */ + Word32 *proto_frame_f_fx, /* o : interleaved complex prototype CLDFB samples */ + const PARAM_MC_DIFF_PROTO_INFO *diff_proto_info, /* i : prototype generation information */ + const Word16 num_freq_bands /* i : number of frequency bands for the prototypes */ +) +{ + Word16 band; + Word16 proto_ch_idx, source_ch_cnt; + + Word32 *p_proto_frame_fx; + Word32 *p_real_buffer_fx; // Q12 + Word32 *p_imag_buffer_fx; // Q12 + + set32_fx( proto_frame_f_fx, 0, shl( imult1616( num_freq_bands, diff_proto_info->num_protos_diff ), 1 ) ); + + + FOR( proto_ch_idx = 0; proto_ch_idx < diff_proto_info->num_protos_diff; proto_ch_idx++ ) + { + Word16 num_source_ch = diff_proto_info->num_source_chan_diff[proto_ch_idx]; + move16(); + + FOR( source_ch_cnt = 0; source_ch_cnt < num_source_ch; source_ch_cnt++ ) + { + + Word32 fac_fx = diff_proto_info->proto_fac_fx[proto_ch_idx][source_ch_cnt]; + move32(); + + Word16 source_ch_idx = diff_proto_info->source_chan_idx[proto_ch_idx][source_ch_cnt]; + move16(); + + p_proto_frame_fx = &proto_frame_f_fx[shl( imult1616( proto_ch_idx, num_freq_bands ), 1 )]; + p_real_buffer_fx = &RealBuffer_fx[imult1616( source_ch_idx, num_freq_bands )]; + p_imag_buffer_fx = &ImagBuffer_fx[imult1616( source_ch_idx, num_freq_bands )]; + + FOR( band = 0; band < num_freq_bands; band++ ) + { + + Word32 tmp_x = Mpy_32_32( fac_fx, ( *( p_real_buffer_fx++ ) ) ); // Q(30 + 6 - 31) :: Q5 + + *( p_proto_frame_fx ) = L_add( *( p_proto_frame_fx ), tmp_x ); + move32(); + p_proto_frame_fx++; + + tmp_x = Mpy_32_32( fac_fx, ( *( p_imag_buffer_fx++ ) ) ); // Q(30 + 6 - 31) :: Q5 + + *( p_proto_frame_fx ) = L_add( *( p_proto_frame_fx ), tmp_x ); + move32(); + p_proto_frame_fx++; + } + } + } + + return; +} + +/*------------------------------------------------------------------------- + * ivas_param_mc_dec_compute_diffuse_proto() + * + * Transfer decorrelated signals back from the decorrelator buffer to + * the buffers used in the final synthesis + *------------------------------------------------------------------------*/ + +static void ivas_param_mc_dec_copy_diffuse_proto( + PARAM_MC_DEC_HANDLE hParamMC, /* i : Parametric MC handle */ + Word32 Cldfb_buffer_real_fx[MAX_CICP_CHANNELS][PARAM_MC_MAX_NSLOTS_IN_SUBFRAME][CLDFB_NO_CHANNELS_MAX], /* o : CLDFB buffer used in the final synthesis (real part) */ + Word32 Cldfb_buffer_imag_fx[MAX_CICP_CHANNELS][PARAM_MC_MAX_NSLOTS_IN_SUBFRAME][CLDFB_NO_CHANNELS_MAX], /* o : CLDFB buffer used in the final synthesis (imaginary part) */ + const Word16 nY, /* i : number of decorrelated channels */ + const Word16 slot_idx /* i : current time slot index */ +) +{ + Word16 k, l; + Word16 num_freq_bands, num_freq_bands_diff; + Word32 *p_proto_diff_fx; + num_freq_bands = hParamMC->num_freq_bands; + move16(); + num_freq_bands_diff = hParamMC->h_output_synthesis_params.max_band_decorr; + move16(); + + FOR( k = 0; k < nY; k++ ) + { + p_proto_diff_fx = hParamMC->proto_frame_dec_f_fx + imult1616( shl( k, 1 ), num_freq_bands ); // Q11 + + FOR( l = 0; l < num_freq_bands_diff; l++ ) + { + Cldfb_buffer_real_fx[k][slot_idx][l] = *( p_proto_diff_fx++ ); // Q11 + move32(); + Cldfb_buffer_imag_fx[k][slot_idx][l] = *( p_proto_diff_fx++ ); // Q11 + move32(); + } + } + + return; +} + +/*------------------------------------------------------------------------- + * ivas_param_mc_bin2dec() + * + * decode a number of bits to an integer + *------------------------------------------------------------------------*/ +/* r : decoded integer */ +static Word16 ivas_param_mc_bin2dec_fx( + UWord16 bits[PARAM_MC_MAX_BITS], /* i : bit buffer */ + const Word16 N /* i : number of bits to decode */ +) +{ + Word16 i; + Word16 out; + + assert( N <= 16 ); + out = 0; + move16(); + FOR( i = 0; i < N; i++ ) + { + out = add( out, shl( bits[i], sub( sub( N, 1 ), i ) ) ); + } + + return out; +} + +/*------------------------------------------------------------------------- + * ivas_param_mc_uniform_decoder() + * + * decode a uniformily coded sequence of float values + *------------------------------------------------------------------------*/ +static Word16 ivas_param_mc_uniform_decoder_fx( + Word16 *seq, /* o : decoded sequence of float values hParamCodingInfo -> Q-quant*/ + const Word16 sz_seq, /* i : number of values to decode */ + const Word16 *alphabet, /* i : codebook hParamCodingInfo -> Q-quant*/ + const Word16 N, /* i : number of bits per coded index */ + UWord16 bit_buffer[PARAM_MC_MAX_BITS] /* i : bit buffer to decode */ +) +{ + Word16 i; + Word16 idx; + Word16 n_bits; + + n_bits = 0; + move16(); + assert( N * sz_seq < PARAM_MC_MAX_BITS ); + + FOR( i = 0; i < sz_seq; ++i ) + { + idx = ivas_param_mc_bin2dec_fx( &bit_buffer[i * N], N ); + seq[i] = alphabet[idx]; + move16(); + } + + n_bits = imult1616( N, sz_seq ); + + return n_bits; +} + + +/*------------------------------------------------------------------------- + * ivas_param_mc_range_decoder_LC() + * + * decode a sequency of inidices coded with a range coder + *------------------------------------------------------------------------*/ +static Word16 ivas_param_mc_range_decoder_LC_fx( + UWord16 *bit_buffer, /* i : bit buffer to read from */ + Word16 *x, /* o : decoded indices */ + Word16 *BER_detect, /* o : flag for indicating a bit error */ + const Word16 sz_seq, /* i : size of the sequence to be decoded */ + const Word16 sz_alphabet, /* i : size of the alphabet */ + const UWord16 *cft, /* i : cumulative frequency table */ + const UWord16 *sft, /* i : symbol frequency table */ + const Word16 tot_shift, /* i : total frequency as a power of 2 */ + const Word16 nbbits /* i : maximum bit budget */ +) +{ + RangeUniDecState rc_st_dec; /* State of the range decoder */ + Word16 cur_bit_pos; + Word16 k; + Word16 r; + + /* Start Decoding */ + /* Initialize range decoder */ + cur_bit_pos = 0; + move16(); + rc_uni_dec_init_fx( &rc_st_dec, bit_buffer, sub( nbbits, 32 ) ); /* (nbbits + 30) entries are read by the decoder */ + + /* Main Loop through the indices */ + FOR( k = 0; k < sz_seq; k++ ) + { + r = rc_uni_dec_read_symbol_fastS_fx( &rc_st_dec, cft, sft, sz_alphabet, tot_shift ); /*Alphabet size = 17 (2^4 = 16 MSB symbols + 1 ESC symbol) */ + /* r is the symbol read, the possible values are {0,1,....alphabet_size - 1} */ + + /* Update bitstream pointer */ + cur_bit_pos = rc_uni_dec_virtual_finish_fx( &rc_st_dec ); + + /* Confirm that there is no overflow */ + IF( GT_16( cur_bit_pos, nbbits ) ) + { + *BER_detect = s_or( *BER_detect, 1 ); + move16(); + } + + x[k] = r; + move16(); + } + + /* We don't need to finish because virtual_finish() already does the same */ + /*st->next_bit_pos = rc_uni_dec_finish(&rc_st_dec);*/ + + /* Check for bitstream errors */ + IF( rc_st_dec.bit_error_detected != 0 ) + { + *BER_detect = s_or( *BER_detect, 1 ); + move16(); + } + + return cur_bit_pos; +} + +/*------------------------------------------------------------------------- + * param_mc_compute_interpolator() + * + * compute the interpolator used in the final synthesis + *------------------------------------------------------------------------*/ + +static void ivas_param_mc_dec_compute_interpolator_fx( + const UWord16 bAttackPresent, /* i : flag indicating if we have a transient in the current frame */ + const UWord16 attackPos, /* i : position of the transient */ + const UWord16 interp_length, /* i : number of interpolation values to be calculated */ + Word16 *interpolator /* o : interpolator */ +) +{ + Word16 idx; + + IF( bAttackPresent ) + { + FOR( idx = 0; idx < attackPos * 2; idx++ ) + { + interpolator[idx] = 0; + move16(); + } + FOR( ; idx < interp_length; idx++ ) + { + interpolator[idx] = 32767; /* 1.0f Q15 */ + move16(); + } + } + ELSE + { + ivas_jbm_dec_get_adapted_linear_interpolator_fx( DEFAULT_JBM_CLDFB_TIMESLOTS, interp_length, interpolator ); + } + + return; +} + + +/*------------------------------------------------------------------------- + * remove_lfe_from_cy() + * + * remove all LFE related values from a covariance matrix + *------------------------------------------------------------------------*/ + +static void remove_lfe_from_cy_fx( + const Word16 nY, /* i : dimension of the covariance matrix */ + Word16 lfe_indices[PARAM_MC_LOCAL_SZ_LFE_MAP], /* i : LFE index */ + Word16 num_lfe, /* i : number of LFEs */ + Word32 *cy, /* i : covariance matrix */ + Word32 *cy_woLFE /* o : covariance matrix with LFE removed */ +) +{ + Word16 ch_idx1, ch_idx2; + Word16 lfe_idx1, lfe_idx2; + Word32 *ptrCy; + Word32 *ptrCy_out; + + ptrCy = cy; + ptrCy_out = cy_woLFE; + + FOR( lfe_idx1 = 0; lfe_idx1 < num_lfe + 1; lfe_idx1++ ) + { + FOR( ch_idx1 = lfe_indices[lfe_idx1] + 1; ch_idx1 < lfe_indices[lfe_idx1 + 1]; ch_idx1++ ) + { + FOR( lfe_idx2 = 0; lfe_idx2 < num_lfe + 1; lfe_idx2++ ) + { + FOR( ch_idx2 = lfe_indices[lfe_idx2] + 1; ch_idx2 < lfe_indices[lfe_idx2 + 1]; ch_idx2++ ) + { + *( ptrCy_out++ ) = *( ptrCy++ ); + move32(); + } + ptrCy++; + } + ptrCy--; + } + ptrCy += nY; + } + + return; +} + + +/*------------------------------------------------------------------------- + * ivas_param_mc_get_mixing_matrices() + * + * calculate the direct and residual mixing matrices + * using the covariance method + *------------------------------------------------------------------------*/ + +static void ivas_param_mc_get_mixing_matrices_fx( + PARAM_MC_DEC_HANDLE hParamMC, /* i : Parametric MC handle */ + IVAS_OUTPUT_SETUP *hSynthesisOutputSetup, + Word32 Cx_in_fixed[PARAM_MC_MAX_TRANSPORT_CHANS * PARAM_MC_MAX_TRANSPORT_CHANS], /* i : input covariance for all parameter bands Q(31 - Cx_in_e)*/ + Word16 Cx_in_e, + const Word16 param_band_idx, /* i : parameter band index */ + Word32 *mixing_matrix_fx[], // Q(31 - mixing_matrix_e) + Word16 *mixing_matrix_e, + Word32 *mixing_matrix_res_fx[], // Q(31 - mixing_matrix_res_e) + Word16 *mixing_matrix_res_e, + const Word16 nY_intern, /* i : number of channels in the transported format */ + const PARAM_MC_SYNTHESIS_CONF synth_config, /* i : Parametric MC synthesis config */ + const Word16 nX, /* i : number of transport channels */ + const Word16 nY_cov /* i : number of covariance synthesis output channels */ +) +{ + Word16 matSize = MAX_OUTPUT_CHANNELS * MAX_OUTPUT_CHANNELS; + Word16 nY_band; + Word16 num_lfe_bands; + Word16 brange[2]; + UWord16 i; + Word16 ch_idx1, ch_idx2, lfe_idx1, lfe_idx2; + Word16 remove_lfe; + Word16 lfe_indices[PARAM_MC_LOCAL_SZ_LFE_MAP]; + + Word32 Cx_fx[PARAM_MC_MAX_TRANSPORT_CHANS * PARAM_MC_MAX_TRANSPORT_CHANS]; + Word32 Cy_fx[MAX_CICP_CHANNELS * MAX_CICP_CHANNELS]; + + Word32 Cy_full_fx[MAX_CICP_CHANNELS * MAX_CICP_CHANNELS]; + + Word32 Cr_fx[MAX_CICP_CHANNELS * MAX_CICP_CHANNELS]; // Q(31 - Cr_e) + Word16 Cr_e; + Word32 Cy_diag_fx[MAX_OUTPUT_CHANNELS]; // Q(31 - Cy_diag_buff_e) + Word16 Cy_diag_buff_e[MAX_OUTPUT_CHANNELS]; + Word32 mixing_matrix_local_fx[MAX_CICP_CHANNELS * PARAM_MC_MAX_TRANSPORT_CHANS]; // Q(31 - mixing_matrix_local_e) + Word16 Cy_diag_e = 0, mixing_matrix_local_e = 0; + Word32 Cproto_fx[MAX_CICP_CHANNELS * MAX_CICP_CHANNELS]; // Q(31 - Cproto_e) + Word16 Cproto_e; + Word32 *proto_matrix_ptr_fx; // Q(31 - proto_matrix_ptr_e) + Word32 *Cx_state_fx; // Q(31 - Cx_state_e) + Word32 *Cx_old_state_fx; + Word32 Cy_state_fx[MAX_CICP_CHANNELS * MAX_CICP_CHANNELS]; // Q(31 - Cy_state_e) + Word32 *Cy_old_state_fx; + Word16 Cx_state_e; + Word16 Cy_state_e; + Word32 mixing_matrix_res_local_fx[MAX_CICP_CHANNELS * MAX_CICP_CHANNELS]; // Q(31 - mixing_matrix_res_local_e) + Word16 mixing_matrix_res_local_e; + Word32 L_tmp; + Word16 tmp_e, tmp; + + Word16 proto_matrix_e = hParamMC->h_output_synthesis_params.proto_matrix_e; + move16(); + Word32 proto_matrix_noLFE_fx[PARAM_MC_MAX_TRANSPORT_CHANS * MAX_CICP_CHANNELS]; // Q(31 - proto_matrix_noLFE_e) + + Word32 mat_mult_buffer1_fx[MAX_CICP_CHANNELS * MAX_CICP_CHANNELS]; // Q(31 - mat_mult_buffer1_e) + + Word32 Cproto_diag_fx[MAX_CICP_CHANNELS]; // Q(31 - Cproto_diag_e) + Word16 mat_mult_buffer1_e, proto_matrix_ptr_e, Cproto_diag_e; + + Word32 *ptrMM_fx; + Word32 *ptrMM_out_fx; + + Word16 Cy_e, Cx_e; + Word16 Cy_full_e; + Word16 new_e = 0; + move16(); + + set_zero_fx( Cproto_fx, MAX_CICP_CHANNELS * MAX_CICP_CHANNELS ); + set_zero_fx( mat_mult_buffer1_fx, MAX_CICP_CHANNELS * MAX_CICP_CHANNELS ); + set_zero_fx( proto_matrix_noLFE_fx, PARAM_MC_MAX_TRANSPORT_CHANS * MAX_CICP_CHANNELS ); + set_zero_fx( mixing_matrix_local_fx, MAX_CICP_CHANNELS * PARAM_MC_MAX_TRANSPORT_CHANS ); + set_zero_fx( mixing_matrix_res_local_fx, MAX_CICP_CHANNELS * MAX_CICP_CHANNELS ); + Word16 proto_matrix_noLFE_e = 0; + move16(); + + Word32 Cx_in_fx[PARAM_MC_MAX_TRANSPORT_CHANS * PARAM_MC_MAX_TRANSPORT_CHANS]; + + Copy32( Cx_in_fixed, Cx_in_fx, PARAM_MC_MAX_TRANSPORT_CHANS * PARAM_MC_MAX_TRANSPORT_CHANS ); + + nY_band = nY_cov; + move16(); + num_lfe_bands = 0; + move16(); + remove_lfe = 0; + move16(); + + set16_fx( lfe_indices, -1, PARAM_MC_LOCAL_SZ_LFE_MAP ); + IF( hSynthesisOutputSetup->num_lfe ) + { + Word32 *proto_matrix_ptr_in_fx; + FOR( lfe_idx1 = 0; lfe_idx1 < hSynthesisOutputSetup->num_lfe; lfe_idx1++ ) + { + lfe_indices[lfe_idx1 + 1] = hSynthesisOutputSetup->index_lfe[lfe_idx1]; + move16(); + } + lfe_indices[hSynthesisOutputSetup->num_lfe + 1] = nY_cov; + move16(); + proto_matrix_ptr_fx = &proto_matrix_noLFE_fx[0]; + proto_matrix_ptr_in_fx = &hParamMC->h_output_synthesis_params.proto_matrix_fx[0]; + proto_matrix_noLFE_e = proto_matrix_e; + move16(); + + set_zero_fx( proto_matrix_noLFE_fx, PARAM_MC_MAX_TRANSPORT_CHANS * MAX_CICP_CHANNELS ); + + FOR( ch_idx1 = 0; ch_idx1 < nX; ch_idx1++ ) + { + FOR( lfe_idx1 = 0; lfe_idx1 < hSynthesisOutputSetup->num_lfe + 1; lfe_idx1++ ) + { + FOR( ch_idx2 = lfe_indices[lfe_idx1] + 1; ch_idx2 < lfe_indices[lfe_idx1 + 1]; ch_idx2++ ) + { + *( proto_matrix_ptr_fx++ ) = *( proto_matrix_ptr_in_fx++ ); + move32(); + } + proto_matrix_ptr_in_fx++; + } + proto_matrix_ptr_in_fx--; + } + + proto_matrix_ptr_e = proto_matrix_e; + move16(); + } + + if ( hParamMC->hMetadataPMC->lfe_on ) + { + num_lfe_bands = PARAM_MC_MAX_BAND_LFE; + move16(); + } + IF( hSynthesisOutputSetup->num_lfe > 0 && param_band_idx >= num_lfe_bands ) + { + remove_lfe = 1; + move16(); + nY_band = sub( nY_cov, hSynthesisOutputSetup->num_lfe ); + proto_matrix_ptr_fx = proto_matrix_noLFE_fx; + proto_matrix_ptr_e = proto_matrix_noLFE_e; + move16(); + } + ELSE + { + proto_matrix_ptr_fx = hParamMC->h_output_synthesis_params.proto_matrix_fx; + proto_matrix_ptr_e = hParamMC->h_output_synthesis_params.proto_matrix_e; + move16(); + } + + brange[0] = hParamMC->band_grouping[param_band_idx]; + move16(); + brange[1] = hParamMC->band_grouping[param_band_idx + 1]; + move16(); + + Cx_state_fx = Cx_in_fx; + Cx_old_state_fx = hParamMC->h_output_synthesis_cov_state.cx_old_fx[param_band_idx]; + Cy_old_state_fx = hParamMC->h_output_synthesis_cov_state.cy_old_fx[param_band_idx]; + + + /* Getting mixing mtx */ + /* estimate target cov from input cov and proto_matrix */ + + Cx_state_e = Cx_in_e; + move16(); + matrix_product_fx( hParamMC->proto_matrix_int_fx, nY_intern, nX, 0, Cx_state_fx, nX, nX, 0, mat_mult_buffer1_fx ); + mat_mult_buffer1_e = add( hParamMC->proto_matrix_int_e, Cx_in_e ); + + matrix_product_fx( mat_mult_buffer1_fx, nY_intern, nX, 0, hParamMC->proto_matrix_int_fx, nY_intern, nX, 1, Cproto_fx ); + Cproto_e = add( mat_mult_buffer1_e, hParamMC->proto_matrix_int_e ); + + FOR( ch_idx1 = 0; ch_idx1 < nY_intern; ch_idx1++ ) + { + IF( BASOP_Util_Cmp_Mant32Exp( Cproto_fx[ch_idx1 + ( ch_idx1 * nY_intern )], Cproto_e, 0, 0 ) < 0 ) + { + Cproto_fx[ch_idx1 + ( ch_idx1 * nY_intern )] = 0; + move32(); + } + } + + set_zero_fx( Cy_state_fx, matSize ); + Cy_state_e = 0; + move16(); + + ivas_param_mc_dequantize_cov_fx( hParamMC, + hParamMC->icld_q_fx + L_mult0( param_band_idx, hParamMC->hMetadataPMC->ild_mapping_conf->ild_map_size_lfe ), + hParamMC->icc_q_fx + L_mult0( param_band_idx, hParamMC->hMetadataPMC->icc_mapping_conf->icc_map_size_lfe ), + param_band_idx, nY_cov, + synth_config, + nY_intern, + nX, Cx_state_fx, Cx_state_e, Cproto_fx, Cproto_e, Cy_state_fx, &Cy_state_e ); + + // dbgwrite2_txt(Cy_state_fx,nY_intern*nY_intern,"../cy_state_fx.txt"); + + /* Smoothing: Sum over two buffers */ + IF( hParamMC->hMetadataPMC->bAttackPresent ) + { + /* no smoothing on attacks */ + Copy32( Cx_state_fx, Cx_fx, imult1616( nX, nX ) ); + Copy32( Cy_state_fx, Cy_full_fx, imult1616( nY_cov, nY_cov ) ); + Cy_full_e = Cy_state_e; + move16(); + Cx_e = Cx_state_e; + move16(); + } + ELSE + { + /* smoothing gains are now identical to one, simply add up */ + // v_add( Cy_state, Cy_old_state, Cy_full, nY_cov * nY_cov ); + + v_add_fixed_me( Cx_state_fx, Cx_state_e, Cx_old_state_fx, hParamMC->h_output_synthesis_cov_state.cx_old_e[param_band_idx], Cx_fx, &Cx_e, imult1616( nX, nX ), 1 ); + v_add_fixed_me( Cy_state_fx, Cy_state_e, Cy_old_state_fx, hParamMC->h_output_synthesis_cov_state.cy_old_e[param_band_idx], Cy_full_fx, &Cy_full_e, imult1616( nY_cov, nY_cov ), 1 ); + } + + Copy32( Cx_state_fx, Cx_old_state_fx, imult1616( nX, nX ) ); + + Copy32( Cy_state_fx, Cy_old_state_fx, imult1616( nY_cov, nY_cov ) ); + + hParamMC->h_output_synthesis_cov_state.cx_old_e[param_band_idx] = Cx_state_e; + move16(); + hParamMC->h_output_synthesis_cov_state.cy_old_e[param_band_idx] = Cy_state_e; + move16(); + + FOR( i = 0; i < nX * nX; i++ ) + { + if ( Cx_old_state_fx[i] != 0 ) + { + new_e = hParamMC->h_output_synthesis_cov_state.cx_old_e[param_band_idx]; + move16(); + BREAK; + } + } + + hParamMC->h_output_synthesis_cov_state.cx_old_e[param_band_idx] = new_e; + move16(); + + new_e = 0; + move16(); + + FOR( i = 0; i < nY_cov * nY_cov; i++ ) + { + if ( Cy_old_state_fx[i] != 0 ) + { + new_e = hParamMC->h_output_synthesis_cov_state.cy_old_e[param_band_idx]; + move16(); + BREAK; + } + } + + hParamMC->h_output_synthesis_cov_state.cy_old_e[param_band_idx] = new_e; + move16(); + + /* remove LFE IF necessary */ + IF( remove_lfe ) + { + + Cy_e = Cy_full_e; + remove_lfe_from_cy_fx( nY_cov, lfe_indices, hSynthesisOutputSetup->num_lfe, Cy_full_fx, Cy_fx ); + } + ELSE + { + Copy32( Cy_full_fx, Cy_fx, imult1616( nY_band, nY_band ) ); + Cy_e = Cy_full_e; + move16(); + } + + matrix_product_fx( proto_matrix_ptr_fx, nY_band, nX, 0, Cx_fx, nX, nX, 0, mat_mult_buffer1_fx ); + mat_mult_buffer1_e = add( proto_matrix_ptr_e, Cx_e ); + + matrix_product_diag_fx( mat_mult_buffer1_fx, mat_mult_buffer1_e, nY_band, nX, 0, proto_matrix_ptr_fx, proto_matrix_ptr_e, nY_band, nX, 1, Cproto_diag_fx, &Cproto_diag_e ); + + /* make sure we have no negative entries in Cproto_diag due to rounding errors */ + + FOR( ch_idx1 = 0; ch_idx1 < nY_band; ch_idx1++ ) + { + if ( Cproto_diag_fx[ch_idx1] < 0 ) + { + Cproto_diag_fx[ch_idx1] = 0; + move16(); + } + } + + + /* Computing the mixing matrices */ + + /* bands with decorr */ + IF( LT_16( brange[0], hParamMC->h_output_synthesis_params.max_band_decorr ) ) + { + computeMixingMatrices_fx( nX, nY_band, Cx_fx, Cx_e, Cy_fx, Cy_e, proto_matrix_ptr_fx, proto_matrix_ptr_e, 0, PARAM_MC_REG_SX_FX, 0, PARAM_MC_REG_GHAT_FX, 0, mixing_matrix_local_fx, &mixing_matrix_local_e, Cr_fx, &Cr_e ); + /* Compute mixing matrix FOR residual */ + computeMixingMatricesResidual_fx( nY_band, Cproto_diag_fx, Cproto_diag_e, Cr_fx, Cr_e, PARAM_MC_REG_SX_FX, 0, PARAM_MC_REG_GHAT_FX, 0, mixing_matrix_res_local_fx, &mixing_matrix_res_local_e ); + + IF( NE_16( mixing_matrix_res_local_e, mixing_matrix_local_e ) ) + { + tmp = getScaleFactor32( mixing_matrix_local_fx, MAX_CICP_CHANNELS * PARAM_MC_MAX_TRANSPORT_CHANS ); + scale_sig32( mixing_matrix_local_fx, MAX_CICP_CHANNELS * PARAM_MC_MAX_TRANSPORT_CHANS, tmp ); + mixing_matrix_local_e = sub( mixing_matrix_local_e, tmp ); + + tmp = getScaleFactor32( mixing_matrix_res_local_fx, MAX_CICP_CHANNELS * MAX_CICP_CHANNELS ); + scale_sig32( mixing_matrix_res_local_fx, MAX_CICP_CHANNELS * MAX_CICP_CHANNELS, tmp ); + mixing_matrix_res_local_e = sub( mixing_matrix_res_local_e, tmp ); + + scale_sig32( mixing_matrix_local_fx, MAX_CICP_CHANNELS * PARAM_MC_MAX_TRANSPORT_CHANS, sub( mixing_matrix_local_e, s_max( mixing_matrix_local_e, mixing_matrix_res_local_e ) ) ); + scale_sig32( mixing_matrix_res_local_fx, MAX_CICP_CHANNELS * MAX_CICP_CHANNELS, sub( mixing_matrix_res_local_e, s_max( mixing_matrix_local_e, mixing_matrix_res_local_e ) ) ); + + mixing_matrix_res_local_e = mixing_matrix_local_e = s_max( mixing_matrix_local_e, mixing_matrix_res_local_e ); + move16(); + } + IF( remove_lfe ) + { + set_zero_fx( mixing_matrix_res_fx[param_band_idx], imult1616( nY_cov, nY_cov ) ); + + ptrMM_fx = mixing_matrix_res_local_fx; + ptrMM_out_fx = mixing_matrix_res_fx[param_band_idx]; + FOR( lfe_idx1 = 0; lfe_idx1 < hSynthesisOutputSetup->num_lfe + 1; lfe_idx1++ ) + { + FOR( ch_idx1 = lfe_indices[lfe_idx1] + 1; ch_idx1 < lfe_indices[lfe_idx1 + 1]; ch_idx1++ ) + { + FOR( lfe_idx2 = 0; lfe_idx2 < hSynthesisOutputSetup->num_lfe + 1; lfe_idx2++ ) + { + FOR( ch_idx2 = lfe_indices[lfe_idx2] + 1; ch_idx2 < lfe_indices[lfe_idx2 + 1]; ch_idx2++ ) + { + *( ptrMM_out_fx++ ) = *( ptrMM_fx++ ); + move32(); + } + ptrMM_out_fx++; + } + ptrMM_out_fx--; + } + ptrMM_out_fx += nY_cov; + } + mixing_matrix_res_e[param_band_idx] = mixing_matrix_res_local_e; + move16(); + } + ELSE + { + Copy32( mixing_matrix_res_local_fx, mixing_matrix_res_fx[param_band_idx], imult1616( nY_cov, nY_cov ) ); + mixing_matrix_res_e[param_band_idx] = mixing_matrix_res_local_e; + move16(); + } + } + ELSE IF( brange[0] < hParamMC->max_band_energy_compensation ) + { + /* Compute mixing matrices (energy compensation only) */ + computeMixingMatrices_fx( nX, nY_band, Cx_fx, Cx_e, Cy_fx, Cy_e, proto_matrix_ptr_fx, proto_matrix_ptr_e, 1, PARAM_MC_REG_SX_FX, 0, PARAM_MC_REG_GHAT_FX, 0, mixing_matrix_local_fx, &mixing_matrix_local_e, Cr_fx, &Cr_e ); + } + ELSE + { + /*IF neither decorrelation nor energy compensation is applied*/ + FOR( i = 0; i < nY_band; i++ ) + { + tmp = BASOP_Util_Divide3232_Scale( Cy_fx[i], L_add( Cproto_diag_fx[i], EPSILON_FX ), &tmp_e ); + tmp_e = add( Cy_diag_e, Cproto_diag_e ); + L_tmp = Sqrt32( L_deposit_h( tmp ), &tmp_e ); + Cy_diag_fx[i] = L_tmp; + move32(); + Cy_diag_buff_e[i] = tmp_e; + move16(); + } + + + Cy_diag_e = Cy_diag_buff_e[0]; + move16(); + + FOR( i = 1; i < nY_band; i++ ) + { + if ( LT_16( Cy_diag_e, Cy_diag_buff_e[i] ) ) + { + Cy_diag_e = Cy_diag_buff_e[i]; + move16(); + } + } + + FOR( i = 0; i < nY_band; i++ ) + { + Cy_diag_fx[i] = L_shr( Cy_diag_fx[i], sub( Cy_diag_e, Cy_diag_buff_e[i] ) ); + move32(); + } + + diag_matrix_product_fx( Cy_diag_fx, Cy_diag_e, nY_band, proto_matrix_ptr_fx, proto_matrix_ptr_e, nY_band, nX, 0, mixing_matrix_local_fx, &mixing_matrix_local_e ); + } + + IF( remove_lfe ) + { + set_zero_fx( mixing_matrix_fx[param_band_idx], imult1616( nX, nY_cov ) ); + ptrMM_fx = mixing_matrix_local_fx; + ptrMM_out_fx = mixing_matrix_fx[param_band_idx]; + FOR( ch_idx1 = 0; ch_idx1 < nX; ch_idx1++ ) + { + FOR( lfe_idx1 = 0; lfe_idx1 < hSynthesisOutputSetup->num_lfe + 1; lfe_idx1++ ) + { + FOR( ch_idx2 = lfe_indices[lfe_idx1] + 1; ch_idx2 < lfe_indices[lfe_idx1 + 1]; ch_idx2++ ) + { + *( ptrMM_out_fx++ ) = *( ptrMM_fx++ ); + move32(); + } + ptrMM_out_fx++; + } + ptrMM_out_fx--; + } + + mixing_matrix_e[param_band_idx] = mixing_matrix_local_e; + move16(); + } + ELSE + { + Copy32( mixing_matrix_local_fx, mixing_matrix_fx[param_band_idx], imult1616( nY_cov, nX ) ); + mixing_matrix_e[param_band_idx] = mixing_matrix_local_e; + move16(); + } + + return; +} + + +/*------------------------------------------------------------------------- + * ivas_param_mc_get_mono_stereo_mixing_matrices() + * + * calculate the direct and residual mixing matrices + * for mono and stereo output + *------------------------------------------------------------------------*/ + + +/*------------------------------------------------------------------------- + * param_mc_update_mixing_matrices() + * + * update mixing matrix buffers + *------------------------------------------------------------------------*/ + +static void param_mc_update_mixing_matrices_fx( + PARAM_MC_DEC_HANDLE hParamMC, /* i/o: Parametric MC handle */ + Word32 *mixing_matrix[], /* i : direct mixing matrices for the frame just processed */ + Word16 *mixing_matrix_exp, + Word32 *mixing_matrix_res[], /* i : residual mixing matrices for the frame just processed */ + Word16 *mixing_matrix_res_exp, + const UWord16 nX, /* i : number of transport channels */ + const UWord16 nY ) /* i : number of synthesis channels */ +{ + UWord16 param_band_idx; + + FOR( param_band_idx = 0; param_band_idx < hParamMC->hMetadataPMC->nbands_coded; param_band_idx++ ) + { + Word16 brange[2]; + + brange[0] = hParamMC->band_grouping[param_band_idx]; + move16(); + brange[1] = hParamMC->band_grouping[param_band_idx + 1]; + move16(); + + Copy32( mixing_matrix[param_band_idx], hParamMC->h_output_synthesis_cov_state.mixing_matrix_old_fx[param_band_idx], imult1616( nX, nY ) ); + hParamMC->h_output_synthesis_cov_state.mixing_matrix_old_exp[param_band_idx] = mixing_matrix_exp[param_band_idx]; + move16(); + + IF( LT_16( brange[0], hParamMC->h_output_synthesis_params.max_band_decorr ) ) + { + Copy32( mixing_matrix_res[param_band_idx], hParamMC->h_output_synthesis_cov_state.mixing_matrix_res_old_fx[param_band_idx], imult1616( nY, nY ) ); + hParamMC->h_output_synthesis_cov_state.mixing_matrix_res_old_exp[param_band_idx] = mixing_matrix_res_exp[param_band_idx]; + move16(); + } + } + + return; +} + + +/*------------------------------------------------------------------------- + * ivas_param_mc_dequantize_cov() + * + * generate the target covariance matrix + *------------------------------------------------------------------------*/ + + +/*------------------------------------------------------------------------- + * ivas_param_mc_dequantize_cov_fx() + * + * generate the target covariance matrix + *------------------------------------------------------------------------*/ + +static void ivas_param_mc_dequantize_cov_fx( + PARAM_MC_DEC_HANDLE hParamMC, /* i : Parametric MC handle */ + Word16 *ild_q_fx, /* i : sequence of dequantized ILD values Q8 */ + Word16 *icc_q_fx, /* i : sequence of dequantized ICC values Q15*/ + const Word16 param_band_index, /* i : current parameter band */ + const Word16 nY_cov, /* i : number of output channels in the covariance synthesis */ + const PARAM_MC_SYNTHESIS_CONF synth_conf, /* i : Parametric MC synthesis configuration */ + const Word16 nY_int, /* i : number of channels in the transported format */ + const Word16 nX, /* i : number of transport channels */ + Word32 *Cx_state_fx, /* i : transport channel covariance matrix */ + Word16 Cx_state_e, /* i : exponent for transport channel covariance matrix */ + Word32 *Cproto_fx, /* i : prototype matrix */ + Word16 Cproto_e, /* i : exponent for prototype matrix */ + Word32 *Cy_state_fx, /* o : target covariance matrix */ + Word16 *Cy_state_e /* o : exponent for target covariance matrix */ +) +{ + Word16 Cy_buf_e[MAX_OUTPUT_CHANNELS * MAX_OUTPUT_CHANNELS]; + Word16 Cp_buf_e[MAX_OUTPUT_CHANNELS * MAX_OUTPUT_CHANNELS]; + + Word32 Nrqq_fx[MAX_OUTPUT_CHANNELS]; // Q(31 - Nrqq_e) + Word16 Nrqq_e[MAX_OUTPUT_CHANNELS]; + Word32 a_fx[MAX_OUTPUT_CHANNELS]; // Q(31 - a_e) + Word16 a_e[MAX_OUTPUT_CHANNELS]; + Word16 k; + Word16 l; + Word32 *Cyp_fx; // Q(31 - Cyp_e) + Word16 *Cyp_e; + Word32 ap_fx; // Q(31 - ap_e) + Word16 ap_e; + Word32 L_tmp; + Word16 tmp, tmp_e; + const PARAM_MC_ILD_MAPPING *h_ild_mapping; + Word32 Cy_state_int_fx[MAX_OUTPUT_CHANNELS * MAX_OUTPUT_CHANNELS]; + Word16 Cy_state_int_e[MAX_OUTPUT_CHANNELS * MAX_OUTPUT_CHANNELS]; + + set16_fx( Cp_buf_e, Cproto_e, MAX_OUTPUT_CHANNELS * MAX_OUTPUT_CHANNELS ); + set32_fx( Nrqq_fx, 0, MAX_OUTPUT_CHANNELS ); + set16_fx( Nrqq_e, 0, MAX_OUTPUT_CHANNELS ); + h_ild_mapping = hParamMC->hMetadataPMC->ild_mapping_conf; + + /*get back Nrg*/ + tmp = 0; + move16(); + + FOR( k = 0; k < nY_int; k++ ) + { + Word32 ref_ener_fx = 0; // Q(31 - ref_ener_e) + move32(); + Word16 ref_ener_e = 0; + move16(); + Word16 ref_channel_cnt; + Word16 ref_channel_idx; + + FOR( ref_channel_cnt = 0; ref_channel_cnt < h_ild_mapping->num_ref_channels[k]; ref_channel_cnt++ ) + { + ref_channel_idx = h_ild_mapping->ref_channel_idx[k][ref_channel_cnt]; + move16(); + ref_ener_fx = BASOP_Util_Add_Mant32Exp( Cx_state_fx[ref_channel_idx + ( ref_channel_idx * nX )], Cx_state_e, ref_ener_fx, ref_ener_e, &ref_ener_e ); + move32(); + } + + L_tmp = Mpy_32_16_1( 713378626, ild_q_fx[k] ); /*Q24 : L_tmp Q31 for log2(10)/10 -> 713378626 */ + L_tmp = BASOP_util_Pow2( L_tmp, 31 - 24, &tmp_e ); /*powf( 10.0f, ild_q_fx[k] / 10.0f )*/ + L_tmp = Mpy_32_32( L_tmp, Mpy_32_16_1( ref_ener_fx, hParamMC->hMetadataPMC->ild_factors_fx[k] ) ); + + Nrqq_fx[h_ild_mapping->ild_index[k]] = L_tmp; + move32(); + Nrqq_e[h_ild_mapping->ild_index[k]] = add( tmp_e, ref_ener_e ); + move16(); + } + + /* estimate ICCs from estimated Cproto */ + + FOR( k = 0; k < nY_int; k++ ) + { + // a_fx[k] = 1.f / ( sqrtf( Cproto_fx[k + nY_int * k] ) + EPSILON ); + tmp_e = Cp_buf_e[k + ( nY_int * k )]; + move16(); + + IF( Cproto_fx[k + ( nY_int * k )] != 0 ) + { + L_tmp = ISqrt32( Cproto_fx[k + ( nY_int * k )], &tmp_e ); + } + ELSE + { + L_tmp = INV_EPSILON_MANT; + move32(); + tmp_e = 15; + move16(); + } + a_fx[k] = L_tmp; + move32(); + a_e[k] = tmp_e; + move16(); + + FOR( l = 0; l < nY_int; l++ ) + { + Cy_state_int_fx[( k * nY_int ) + l] = Mpy_32_32( Cproto_fx[( k * nY_int ) + l], a_fx[k] ); + move32(); + Cy_state_int_e[( k * nY_int ) + l] = add( Cp_buf_e[( k * nY_int ) + l], a_e[k] ); + move16(); + } + } + + FOR( k = 0; k < nY_int; k++ ) + { + Cyp_fx = Cy_state_int_fx + k; + Cyp_e = Cy_state_int_e + k; + ap_fx = a_fx[k]; + move32(); + ap_e = a_e[k]; + move16(); + + FOR( l = 0; l < nY_int; l++ ) + { + ( *Cyp_fx ) = Mpy_32_32( *Cyp_fx, ap_fx ); + move32(); + *Cyp_e = add( *Cyp_e, ap_e ); + move16(); + + Cyp_fx += nY_int; + Cyp_e += nY_int; + } + } + + /*normalizing the Cy_state_int_fx to a common exponent*/ + + /* replace some estimated ICCs with transmitted values */ + FOR( k = 0; k < hParamMC->hMetadataPMC->icc_mapping_conf->icc_map_size_lfe; k++ ) + { + Cy_state_int_fx[hParamMC->hMetadataPMC->icc_mapping_conf->icc_mapping[k][0] + ( nY_int * hParamMC->hMetadataPMC->icc_mapping_conf->icc_mapping[k][1] )] = L_shr( L_deposit_h( icc_q_fx[k] ), tmp ); + move32(); + Cy_state_int_e[hParamMC->hMetadataPMC->icc_mapping_conf->icc_mapping[k][0] + ( nY_int * hParamMC->hMetadataPMC->icc_mapping_conf->icc_mapping[k][1] )] = tmp; + move16(); + Cy_state_int_fx[hParamMC->hMetadataPMC->icc_mapping_conf->icc_mapping[k][1] + ( nY_int * hParamMC->hMetadataPMC->icc_mapping_conf->icc_mapping[k][0] )] = L_shr( L_deposit_h( icc_q_fx[k] ), tmp ); + move32(); + Cy_state_int_e[hParamMC->hMetadataPMC->icc_mapping_conf->icc_mapping[k][1] + ( nY_int * hParamMC->hMetadataPMC->icc_mapping_conf->icc_mapping[k][0] )] = tmp; + move16(); + } + + test(); + IF( GE_16( param_band_index, PARAM_MC_MAX_BAND_LFE ) || ( hParamMC->hMetadataPMC->lfe_on == 0 ) ) + { + FOR( k = 0; k < nY_int; k++ ) + { + Cy_state_int_fx[k + ( 3 * nY_int )] = ONE_IN_Q31; + move32(); + Cy_state_int_e[k + ( 3 * nY_int )] = 0; + move16(); + Cy_state_int_fx[3 + ( k * nY_int )] = ONE_IN_Q31; + move32(); + Cy_state_int_e[3 + ( k * nY_int )] = 0; + move16(); + } + Nrqq_fx[3] = 0; + move32(); + } + + /* Generate back Covariance Mtx */ + FOR( k = 0; k < nY_int; k++ ) + { + tmp_e = Nrqq_e[k]; + move16(); + a_fx[k] = Sqrt32( Nrqq_fx[k], &tmp_e ); + move32(); + a_e[k] = tmp_e; + move16(); + + /* v_multc( Cy_state_int_fx + k * nY_int, a_fx[k], Cy_state_int_fx + k * nY_int, nY_int ) */ + FOR( l = 0; l < nY_int; l++ ) + { + Cy_state_int_fx[( k * nY_int ) + l] = Mpy_32_32( Cy_state_int_fx[( k * nY_int ) + l], a_fx[k] ); + move32(); + Cy_state_int_e[( k * nY_int ) + l] = add( Cy_state_int_e[( k * nY_int ) + l], a_e[k] ); + move16(); + } + } + + FOR( k = 0; k < nY_int; k++ ) + { + Cyp_fx = Cy_state_int_fx + k; + Cyp_e = Cy_state_int_e + k; + ap_fx = a_fx[k]; + move32(); + ap_e = a_e[k]; + move16(); + + FOR( l = 0; l < nY_int; l++ ) + { + ( *Cyp_fx ) = Mpy_32_32( *Cyp_fx, ap_fx ); + move32(); + ( *Cyp_e ) = add( *Cyp_e, ap_e ); + move16(); + + Cyp_fx += nY_int; + Cyp_e += nY_int; + } + } + + IF( EQ_32( synth_conf, PARAM_MC_SYNTH_LS_CONV_COV ) ) + { + /* Cy = dmx*Cy*dmx' */ + Word32 mat_mult_buffer1_fx[MAX_CICP_CHANNELS * MAX_CICP_CHANNELS]; // Q(31 - mat_mult_buffer1_e) + Word16 mat_mult_buffer1_e[MAX_CICP_CHANNELS * MAX_CICP_CHANNELS]; + Word32 target_ch_ener_fx[MAX_CICP_CHANNELS]; // Q(31 - target_ch_ener_e) + Word16 target_ch_ener_e[MAX_CICP_CHANNELS]; + Word32 dmx_ch_ener_fx[MAX_CICP_CHANNELS]; + + Word16 ls_conv_dmx_matrix_e[MAX_CICP_CHANNELS * MAX_CICP_CHANNELS]; + + set32_fx( target_ch_ener_fx, 0, MAX_CICP_CHANNELS ); + set16_fx( target_ch_ener_e, 0, MAX_CICP_CHANNELS ); + set32_fx( dmx_ch_ener_fx, 0, MAX_CICP_CHANNELS ); + set16_fx( ls_conv_dmx_matrix_e, 1, MAX_OUTPUT_CHANNELS * MAX_OUTPUT_CHANNELS ); + + matrix_product_mant_exp( hParamMC->ls_conv_dmx_matrix_fx, ls_conv_dmx_matrix_e, nY_cov, nY_int, 0, + Cy_state_int_fx, Cy_state_int_e, nY_int, nY_int, 0, + mat_mult_buffer1_fx, mat_mult_buffer1_e ); + + matrix_product_mant_exp( mat_mult_buffer1_fx, mat_mult_buffer1_e, nY_cov, nY_int, 0, + hParamMC->ls_conv_dmx_matrix_fx, ls_conv_dmx_matrix_e, nY_cov, nY_int, 1, + Cy_state_fx, Cy_buf_e ); + + FOR( k = 0; k < nY_cov; k++ ) + { + FOR( l = 0; l < nY_int; l++ ) + { + L_tmp = Mpy_32_32( hParamMC->ls_conv_dmx_matrix_fx[k + ( l * nY_cov )], Nrqq_fx[l] ); + tmp_e = add( ls_conv_dmx_matrix_e[k + ( l + nY_cov )], Nrqq_e[l] ); + L_tmp = BASOP_Util_Add_Mant32Exp( target_ch_ener_fx[k], target_ch_ener_e[k], L_tmp, tmp_e, &tmp_e ); + target_ch_ener_fx[k] = L_tmp; + move32(); + target_ch_ener_e[k] = tmp_e; + move16(); + } + + dmx_ch_ener_fx[k] = Cy_state_fx[k + ( nY_cov * k )]; + move32(); + + IF( dmx_ch_ener_fx[k] < 0 ) + { + Cy_state_fx[k + ( nY_cov * k )] = L_negate( Cy_state_fx[k + ( nY_cov * k )] ); + move32(); + dmx_ch_ener_fx[k] = L_negate( dmx_ch_ener_fx[k] ); + move32(); + } + + IF( extract_h( dmx_ch_ener_fx[k] ) == 0 ) + { + target_ch_ener_fx[k] = 0; + move32(); + target_ch_ener_e[k] = 0; + move16(); + } + ELSE + { + BASOP_Util_Divide_MantExp( extract_h( target_ch_ener_fx[k] ), target_ch_ener_e[k], extract_h( dmx_ch_ener_fx[k] ), Cy_buf_e[k + ( nY_cov * k )], &tmp, &tmp_e ); + tmp = Sqrt16( tmp, &tmp_e ); + target_ch_ener_fx[k] = L_deposit_h( tmp ); + move32(); + target_ch_ener_e[k] = tmp_e; + move16(); + } + + FOR( l = 0; l < nY_cov; l++ ) + { + Cy_state_fx[( k * nY_cov ) + l] = Mpy_32_32( target_ch_ener_fx[k], Cy_state_fx[( k * nY_cov ) + l] ); + move32(); + Cy_buf_e[( k * nY_cov ) + l] = add( target_ch_ener_e[k], Cy_buf_e[( k * nY_cov ) + l] ); + move16(); + } + + Cyp_fx = Cy_state_fx + k; + Cyp_e = Cy_buf_e + k; + ap_fx = target_ch_ener_fx[k]; + move32(); + ap_e = target_ch_ener_e[k]; + move16(); + FOR( l = 0; l < nY_cov; l++ ) + { + ( *Cyp_fx ) = Mpy_32_32( *Cyp_fx, ap_fx ); + move32(); + *Cyp_e = add( *Cyp_e, ap_e ); + move16(); + + Cyp_fx += nY_cov; + Cyp_e += nY_cov; + } + } + } + ELSE + { + Copy32( Cy_state_int_fx, Cy_state_fx, imult1616( nY_int, nY_int ) ); + Copy( Cy_state_int_e, Cy_buf_e, imult1616( nY_int, nY_int ) ); + } + + /*normalize output matrix to a common exponent*/ + tmp = 0; + FOR( k = 0; k < nY_int * nY_int; k++ ) + { + Cy_state_fx[k] = BASOP_Util_Add_Mant32Exp( Cy_state_fx[k], Cy_buf_e[k], 0, 0, &Cy_buf_e[k] ); + move32(); + tmp = s_max( tmp, Cy_buf_e[k] ); + } + FOR( k = 0; k < nY_int * nY_int; k++ ) + { + L_tmp = L_shr( Cy_state_fx[k], sub( tmp, Cy_buf_e[k] ) ); + Cy_state_fx[k] = L_tmp; + move32(); + } + *Cy_state_e = tmp; + move16(); + + return; +} + +/*-------------------------------------------------------------------------* + * param_mc_set_num_synth_bands() + * + * set the number of frequency bands to be synthesized + *-------------------------------------------------------------------------*/ + +static void param_mc_set_num_synth_bands( + const Word32 output_Fs, /* i : output sampling frequency */ + PARAM_MC_DEC_HANDLE hParamMC /* i/o: Parametric MC handle */ +) +{ + UWord16 max_param_band_synth; + const Word16 *param_mc_bands_coded; + + SWITCH( hParamMC->hMetadataPMC->num_parameter_bands ) + { + case 20: + param_mc_bands_coded = param_mc_bands_coded_20; + BREAK; + case 10: + param_mc_bands_coded = param_mc_bands_coded_10; + BREAK; + case 14: + default: + param_mc_bands_coded = param_mc_bands_coded_14; + BREAK; + } + move16(); + SWITCH( output_Fs ) + { + case 8000: + max_param_band_synth = (UWord16) param_mc_bands_coded[NB]; + BREAK; + case 16000: + max_param_band_synth = (UWord16) param_mc_bands_coded[WB]; + BREAK; + case 32000: + max_param_band_synth = (UWord16) param_mc_bands_coded[SWB]; + BREAK; + case 48000: + default: + max_param_band_synth = (UWord16) param_mc_bands_coded[FB]; + BREAK; + } + move16(); + hParamMC->num_param_bands_synth = s_min( hParamMC->hMetadataPMC->nbands_coded, max_param_band_synth ); + move16(); + + return; +} + + +/*-------------------------------------------------------------------------* + * param_mc_get_diff_proto_info() + * + * calculated the diffuse prototype information + *-------------------------------------------------------------------------*/ + + +static ivas_error param_mc_get_diff_proto_info_fx( + const Word32 *proto_mtx, /* i : protoype matrix for the synthesis */ + const UWord16 nchan_transport, /* i : number of transport channels */ + const UWord16 nchan_out_cov, /* i : number if output channels of the covariance synthesis */ + PARAM_MC_DIFF_PROTO_INFO *p_diff_proto_info, /* o : generated diffuse prototype info */ + Word16 Q_proto_mtx ) +{ + Word32 proto_fac_fx[MAX_CICP_CHANNELS * PARAM_MC_MAX_TRANSPORT_CHANS]; + UWord16 cur_out_ch; + UWord16 cur_diff_proto; + UWord16 cur_transport_ch; + UWord16 max_num_src_chan; + + /* Initializations */ + max_num_src_chan = 0; + move16(); + + set_zero_fx( proto_fac_fx, MAX_CICP_CHANNELS * PARAM_MC_MAX_TRANSPORT_CHANS ); + IF( ( p_diff_proto_info->proto_index_diff = (Word16 *) malloc( nchan_out_cov * sizeof( Word16 ) ) ) == NULL ) + { + return ( IVAS_ERROR( IVAS_ERR_FAILED_ALLOC, "Can not allocate memory for Parametric MC\n" ) ); + } + set16_fx( p_diff_proto_info->proto_index_diff, 0, nchan_out_cov ); + + IF( ( p_diff_proto_info->num_source_chan_diff = (Word16 *) malloc( nchan_out_cov * sizeof( Word16 ) ) ) == NULL ) + { + return ( IVAS_ERROR( IVAS_ERR_FAILED_ALLOC, "Can not allocate memory for Parametric MC\n" ) ); + } + set16_fx( p_diff_proto_info->num_source_chan_diff, 0, nchan_out_cov ); + + /* we have at least one prototype, copy the first one */ + p_diff_proto_info->num_protos_diff = 1; + move16(); + + mvr2r_inc_fixed( proto_mtx, nchan_out_cov, proto_fac_fx, nchan_out_cov, nchan_transport ); + p_diff_proto_info->proto_index_diff[0] = 0; + move16(); + + /* search for distinct prototypes */ + FOR( cur_out_ch = 1; cur_out_ch < nchan_out_cov; cur_out_ch++ ) + { + UWord16 found = 0; + move16(); + + FOR( cur_diff_proto = 0; cur_diff_proto < p_diff_proto_info->num_protos_diff; cur_diff_proto++ ) + { + Word32 diff_fx = 0; + move32(); + Word32 *proto_fac_ptr_fx = proto_fac_fx + cur_diff_proto; + const Word32 *proto_mtx_ptr = proto_mtx + cur_out_ch; + FOR( cur_transport_ch = 0; cur_transport_ch < nchan_transport; cur_transport_ch++ ) + { + diff_fx = L_add( diff_fx, L_abs( L_sub( *proto_fac_ptr_fx, *proto_mtx_ptr ) ) ); + proto_fac_ptr_fx += nchan_out_cov; + proto_mtx_ptr += nchan_out_cov; + } + + /* we already have this prototype, save the index */ + IF( LT_64( W_mult0_32_32( diff_fx, 10 ), L_shl_sat( 1, Q_proto_mtx ) ) ) + { + found = 1; + move16(); + p_diff_proto_info->proto_index_diff[cur_out_ch] = cur_diff_proto; + move16(); + BREAK; + } + } + + /* new distinct prototype, add it */ + IF( found == 0 ) + { + const Word32 *proto_mtx_ptr = proto_mtx + cur_out_ch; + Word16 cur_num_src_chan; + + cur_num_src_chan = 0; + move16(); + FOR( cur_transport_ch = 0; cur_transport_ch < nchan_transport; cur_transport_ch++ ) + { + if ( GT_32( *proto_mtx_ptr, 0 /*EPSILON*/ ) ) + { + cur_num_src_chan = add( cur_num_src_chan, 1 ); + } + proto_mtx_ptr += nchan_out_cov; + } + + mvr2r_inc_fixed( proto_mtx + cur_out_ch, nchan_out_cov, proto_fac_fx + p_diff_proto_info->num_protos_diff, nchan_out_cov, nchan_transport ); + + p_diff_proto_info->proto_index_diff[cur_out_ch] = p_diff_proto_info->num_protos_diff; + move16(); + p_diff_proto_info->num_protos_diff = add( p_diff_proto_info->num_protos_diff, 1 ); + move16(); + max_num_src_chan = s_max( max_num_src_chan, cur_num_src_chan ); + } + } + + /* set up the prototype info struct */ + IF( ( p_diff_proto_info->source_chan_idx = (Word16 **) malloc( p_diff_proto_info->num_protos_diff * sizeof( Word16 * ) ) ) == NULL ) + { + return ( IVAS_ERROR( IVAS_ERR_FAILED_ALLOC, "Can not allocate memory for Parametric MC\n" ) ); + } + + IF( ( p_diff_proto_info->proto_fac_fx = (Word32 **) malloc( p_diff_proto_info->num_protos_diff * sizeof( Word32 * ) ) ) == NULL ) + { + return ( IVAS_ERROR( IVAS_ERR_FAILED_ALLOC, "Can not allocate memory for Parametric MC\n" ) ); + } + FOR( cur_diff_proto = 0; cur_diff_proto < p_diff_proto_info->num_protos_diff; cur_diff_proto++ ) + { + Word32 *proto_fac_ptr; + + IF( ( p_diff_proto_info->source_chan_idx[cur_diff_proto] = (Word16 *) malloc( max_num_src_chan * sizeof( Word16 ) ) ) == NULL ) + { + return ( IVAS_ERROR( IVAS_ERR_FAILED_ALLOC, "Can not allocate memory for Parametric MC\n" ) ); + } + + IF( ( p_diff_proto_info->proto_fac_fx[cur_diff_proto] = (Word32 *) malloc( max_num_src_chan * sizeof( Word32 ) ) ) == NULL ) + { + return ( IVAS_ERROR( IVAS_ERR_FAILED_ALLOC, "Can not allocate memory for Parametric MC\n" ) ); + } + + proto_fac_ptr = proto_fac_fx + cur_diff_proto; + FOR( cur_transport_ch = 0; cur_transport_ch < nchan_transport; cur_transport_ch++ ) + { + IF( GT_32( *proto_fac_ptr, EPSILON_FX_SMALL ) ) + { + p_diff_proto_info->source_chan_idx[cur_diff_proto][p_diff_proto_info->num_source_chan_diff[cur_diff_proto]] = cur_transport_ch; + move16(); + p_diff_proto_info->proto_fac_fx[cur_diff_proto][p_diff_proto_info->num_source_chan_diff[cur_diff_proto]] = L_shl( *proto_fac_ptr, 4 ); // (proto_fac_fx)Q26 + 4 = Q30 + move16(); + p_diff_proto_info->num_source_chan_diff[cur_diff_proto] = add( p_diff_proto_info->num_source_chan_diff[cur_diff_proto], 1 ); + move16(); + } + proto_fac_ptr += nchan_out_cov; + } + } + return IVAS_ERR_OK; +} + + +/*-------------------------------------------------------------------------* + * ivas_param_mc_bs_decode_parameter_values() + * + * reads and decodes a sequence of Parametric MC parameters from the bitstream + *-------------------------------------------------------------------------*/ + +static void ivas_param_mc_bs_decode_parameter_values_fx( + UWord16 bit_buffer[], /* i : bitstream buffer */ + Word16 *bit_pos, /* i/o: current bitstream buffer position */ + const Word16 max_bits, /* i : maximum available bits in the buffer */ + Word16 *BER_detect, /* i/o: bit error detection flag */ + HANDLE_IVAS_PARAM_MC_METADATA hMetadataPMC, /* i : Parametric MC metadata information */ + HANDLE_PARAM_MC_PARAMETER_CODING_INFO hParamCodingInfo, /* i : Parametric MC parameter quantization and coding tables */ + const Word16 map_size_wo_lfe, /* i : number of parameters per band (w/o LFEs) */ + const Word16 map_size, /* i : number of parameters per band (total) */ + const Word16 num_lfe_bands, /* i : number of parameter bands with coded LFE */ + const Word16 band_step, /* i : parameter band step */ + const Word16 num_param_bands, /* i : number of parameter bands to decode */ + Word16 *value_buffer /* o : output buffer for decoded parameter values hParamCodingInfo -> Q-quant*/ +) +{ + Word16 range_coding; + Word16 sz_seq; + Word16 delta_coding; + Word16 delta_idx[PARAM_MC_MAX_PARAMETER_BANDS * PARAM_MC_MAX_VAL_MAP_SIZE]; + Word16 idx[PARAM_MC_MAX_PARAMETER_BANDS * PARAM_MC_MAX_VAL_MAP_SIZE]; + Word16 idx_prev; + Word16 idx_offset; + Word16 sz_alphabet; + Word16 i, j, k; + Word16 dequant_seq_fx[PARAM_MC_MAX_PARAMETER_BANDS * PARAM_MC_MAX_VAL_MAP_SIZE]; + Word16 dequant_ordered_fx[PARAM_MC_MAX_PARAMETER_BANDS * PARAM_MC_MAX_VAL_MAP_SIZE]; + Word16 n_lfe_idx; + + range_coding = bit_buffer[*bit_pos]; + move16(); + *bit_pos = add( *bit_pos, 1 ); + move16(); + + /* Decoding the sequence */ + n_lfe_idx = sub( map_size, map_size_wo_lfe ); + sz_seq = add( imult1616( num_param_bands, map_size_wo_lfe ), imult1616( num_lfe_bands, n_lfe_idx ) ); + + set16_fx( idx, 0, PARAM_MC_MAX_PARAMETER_BANDS * PARAM_MC_MAX_VAL_MAP_SIZE ); + set16_fx( dequant_ordered_fx, 0, PARAM_MC_MAX_PARAMETER_BANDS * PARAM_MC_MAX_VAL_MAP_SIZE ); + set16_fx( dequant_seq_fx, 0, PARAM_MC_MAX_PARAMETER_BANDS * PARAM_MC_MAX_VAL_MAP_SIZE ); + IF( range_coding ) + { + delta_coding = bit_buffer[*bit_pos]; + move16(); + *bit_pos = add( *bit_pos, 1 ); + move16(); + + IF( delta_coding ) + { + idx_prev = sub( add( shr( hParamCodingInfo->quantizer_size, 1 ), hParamCodingInfo->quantizer_size % 2 ), 1 ); + sz_alphabet = sub( shl( hParamCodingInfo->quantizer_size, 1 ), 1 ); + idx_offset = sub( hParamCodingInfo->quantizer_size, 1 ); + + /* read range coded delta ICC indices */ + *bit_pos = add( *bit_pos, ivas_param_mc_range_decoder_LC_fx( &bit_buffer[*bit_pos], delta_idx, BER_detect, sz_seq, sz_alphabet, + hParamCodingInfo->cum_freq_delta, hParamCodingInfo->sym_freq_delta, PARAM_MC_RANGE_CODER_TOT_SHIFT, sub( max_bits, *bit_pos ) ) ); + move16(); + + /* delta index to absolute index */ + FOR( j = 0; j < sz_seq; j++ ) + { + idx[j] = add( idx_prev, sub( delta_idx[j], idx_offset ) ); + idx_prev = idx[j]; + move16(); + } + } + ELSE + { + /* read range coded absolute ICC indices */ + sz_alphabet = hParamCodingInfo->quantizer_size; + move16(); + *bit_pos = add( *bit_pos, ivas_param_mc_range_decoder_LC_fx( &bit_buffer[*bit_pos], idx, BER_detect, sz_seq, sz_alphabet, + hParamCodingInfo->cum_freq, hParamCodingInfo->sym_freq, PARAM_MC_RANGE_CODER_TOT_SHIFT, sub( max_bits, *bit_pos ) ) ); + move16(); + } + + /* dequantize */ + FOR( j = 0; j < sz_seq; j++ ) + { + dequant_seq_fx[j] = hParamCodingInfo->quantizer_fx[idx[j]]; // hParamCodingInfo -> Q-quant + move16(); + } + } + ELSE + { + set16_fx( dequant_seq_fx, 0, PARAM_MC_MAX_PARAMETER_BANDS * PARAM_MC_MAX_VAL_MAP_SIZE ); + /* read uniformly coded ICCs */ + *bit_pos = add( *bit_pos, ivas_param_mc_uniform_decoder_fx( dequant_seq_fx, sz_seq, hParamCodingInfo->quantizer_fx, hParamCodingInfo->uni_bits, &bit_buffer[*bit_pos] ) ); + move16(); + } + + /* reorder from sequential to parameter-band-wise */ + k = 0; + FOR( j = 0; j < map_size_wo_lfe; ++j ) + { + FOR( i = 0; i < num_param_bands; ++i ) + { + dequant_ordered_fx[j + ( i * map_size )] = dequant_seq_fx[k]; // hParamCodingInfo -> Q-quant + move16(); + k = add( k, 1 ); + } + } + + FOR( i = 0; i < num_lfe_bands; i++ ) + { + FOR( j = 0; j < n_lfe_idx; j++ ) + { + dequant_ordered_fx[map_size - n_lfe_idx + j + i * map_size] = dequant_seq_fx[k]; // hParamCodingInfo -> Q-quant + move16(); + k = add( k, 1 ); + } + } + + IF( !( *BER_detect ) ) + { + j = 0; + FOR( k = 0; k < hMetadataPMC->nbands_coded; k += band_step ) + { + test(); + IF( hMetadataPMC->bAttackPresent || EQ_16( hMetadataPMC->param_frame_idx, hMetadataPMC->coding_band_mapping[k] ) ) + { + Copy( dequant_ordered_fx + imult1616( j, map_size ), value_buffer + imult1616( k, map_size ), map_size ); // hParamCodingInfo -> Q-quant + j++; + } + IF( hMetadataPMC->bAttackPresent && k + 1 < hMetadataPMC->nbands_coded ) + { + Copy( value_buffer + imult1616( k, map_size ), value_buffer + imult1616( add( k, 1 ), map_size ), map_size ); + } + } + } + + return; } diff --git a/lib_dec/ivas_mc_paramupmix_dec.c b/lib_dec/ivas_mc_paramupmix_dec_fx.c similarity index 93% rename from lib_dec/ivas_mc_paramupmix_dec.c rename to lib_dec/ivas_mc_paramupmix_dec_fx.c index 9e25fcb5190335c03392834fd3c378a4a9728e69..0cb6a579619c91a00e98f97c6f536e7876499498 100644 --- a/lib_dec/ivas_mc_paramupmix_dec.c +++ b/lib_dec/ivas_mc_paramupmix_dec_fx.c @@ -34,11 +34,9 @@ #include #include "options.h" #include "cnst.h" -#include "prot.h" #include "prot_fx.h" #include "ivas_prot_fx.h" -#include "ivas_prot.h" -#include "ivas_prot_rend.h" +#include "ivas_prot_rend_fx.h" #include "ivas_cnst.h" #include "rom_com.h" #include "ivas_rom_com.h" @@ -120,6 +118,15 @@ void ivas_mc_paramupmix_dec_read_BS( move32(); } } + +#ifdef NONBE_FIX_952_MC_PARAMUPMIX_5MS + FOR( i = 0; i < MC_PARAMUPMIX_COMBINATIONS; i++ ) + { + Copy32( hMCParamUpmix->alpha_prev_fx[i], hMCParamUpmix->alpha_sf_fx[i], IVAS_MAX_NUM_BANDS ); + Copy32( hMCParamUpmix->beta_prev_fx[i], hMCParamUpmix->beta_sf_fx[i], IVAS_MAX_NUM_BANDS ); + } +#endif + hMCParamUpmix->first_frame = 1; move16(); } @@ -133,7 +140,8 @@ void ivas_mc_paramupmix_dec_read_BS( nb_bits_read_orig = 0; move16(); last_bit_pos = sub( last_bit_pos, nb_bits_read_orig ); /* reverse the bitstream for easier reading of indices */ - FOR( i = 0; i < min( MAX_BITS_METADATA, last_bit_pos ); i++ ) + Word16 len = s_min( MAX_BITS_METADATA, last_bit_pos ); + FOR( i = 0; i < len; i++ ) { bstr_meta[i] = st_ivas->bit_stream[last_bit_pos - i]; move16(); @@ -146,6 +154,18 @@ void ivas_mc_paramupmix_dec_read_BS( st0->total_brate = st_ivas->hDecoderConfig->ivas_total_brate; /* to avoid BER detect */ move32(); + +#ifdef NONBE_FIX_952_MC_PARAMUPMIX_5MS + IF( EQ_16( hMCParamUpmix->first_frame, 0 ) ) + { + FOR( i = 0; i < MC_PARAMUPMIX_COMBINATIONS; i++ ) + { + Copy32( hMCParamUpmix->alphas_fx[i], hMCParamUpmix->alpha_prev_fx[i], IVAS_MAX_NUM_BANDS ); + Copy32( hMCParamUpmix->betas_fx[i], hMCParamUpmix->beta_prev_fx[i], IVAS_MAX_NUM_BANDS ); + } + } +#endif + FOR( i = 0; i < MC_PARAMUPMIX_COMBINATIONS; i++ ) { get_ec_data( st0, ALPHA, hMCParamUpmix->alpha_quant[i], alpha_quant, hMCParamUpmix->alphas_fx[i] ); @@ -168,6 +188,14 @@ void ivas_mc_paramupmix_dec_read_BS( hMCParamUpmix->first_frame = 0; move16(); } + +#ifdef NONBE_FIX_952_MC_PARAMUPMIX_5MS + FOR( i = 0; i < MC_PARAMUPMIX_COMBINATIONS; i++ ) + { + Copy32( hMCParamUpmix->alpha_prev_fx[i], hMCParamUpmix->alpha_sf_fx[i], IVAS_MAX_NUM_BANDS ); + Copy32( hMCParamUpmix->beta_prev_fx[i], hMCParamUpmix->beta_sf_fx[i], IVAS_MAX_NUM_BANDS ); + } +#endif } pop_wmops(); @@ -258,11 +286,13 @@ void ivas_mc_paramupmix_dec_render( } { +#ifndef NONBE_FIX_952_MC_PARAMUPMIX_5MS FOR( ch = 0; ch < MC_PARAMUPMIX_COMBINATIONS; ch++ ) { Copy32( hMCParamUpmix->alpha_prev_fx[ch], hMCParamUpmix->alpha_sf_fx[ch], IVAS_MAX_NUM_BANDS ); Copy32( hMCParamUpmix->beta_prev_fx[ch], hMCParamUpmix->beta_sf_fx[ch], IVAS_MAX_NUM_BANDS ); } +#endif FOR( subframe_idx = first_sf; subframe_idx < last_sf; subframe_idx++ ) { @@ -270,7 +300,8 @@ void ivas_mc_paramupmix_dec_render( ivas_mc_paramupmix_dec_sf( st_ivas, output_local_fx ); - FOR( ch = 0; ch < min( MAX_OUTPUT_CHANNELS, ivas_get_nchan_buffers_dec( st_ivas, -1, -1 ) ); ch++ ) + Word16 num_ch = s_min( MAX_OUTPUT_CHANNELS, ivas_get_nchan_buffers_dec( st_ivas, -1, -1 ) ); + FOR( ch = 0; ch < num_ch; ch++ ) { output_local_fx[ch] += n_samples_sf; } @@ -278,11 +309,14 @@ void ivas_mc_paramupmix_dec_render( /* update combined orientation access index */ ivas_combined_orientation_update_index( st_ivas->hCombinedOrientationData, n_samples_sf ); } + +#ifndef NONBE_FIX_952_MC_PARAMUPMIX_5MS FOR( ch = 0; ch < MC_PARAMUPMIX_COMBINATIONS; ch++ ) { Copy32( hMCParamUpmix->alphas_fx[ch], hMCParamUpmix->alpha_prev_fx[ch], IVAS_MAX_NUM_BANDS ); Copy32( hMCParamUpmix->betas_fx[ch], hMCParamUpmix->beta_prev_fx[ch], IVAS_MAX_NUM_BANDS ); } +#endif } *nSamplesAvailable = imult1616( sub( st_ivas->hTcBuffer->num_slots, st_ivas->hTcBuffer->slots_rendered ), (Word16) slot_size ); @@ -418,7 +452,7 @@ ivas_error ivas_mc_paramupmix_dec_open( move16(); } - IF( NE_32( ( error = ivas_jbm_dec_tc_buffer_open_fx( st_ivas, buffer_mode, nchan_tc, nchan_to_allocate, nchan_to_allocate, NS2SA( st_ivas->hDecoderConfig->output_Fs, CLDFB_SLOT_NS ) ) ), IVAS_ERR_OK ) ) + IF( NE_32( ( error = ivas_jbm_dec_tc_buffer_open_fx( st_ivas, buffer_mode, nchan_tc, nchan_to_allocate, nchan_to_allocate, NS2SA_FX2( st_ivas->hDecoderConfig->output_Fs, CLDFB_SLOT_NS ) ) ), IVAS_ERR_OK ) ) { return error; } @@ -499,7 +533,7 @@ static void paramupmix_td_decorr_process_jbm_fx( FOR( k = 0; k < MC_PARAMUPMIX_COMBINATIONS; k++ ) { Copy32( pcm_in[k], pp_out_pcm[k], output_frame ); - delay_signal_fx( pp_out_pcm[k], output_frame, hTdDecorr[k]->look_ahead_buf, offset ); + delay_signal32_fx( pp_out_pcm[k], output_frame, hTdDecorr[k]->look_ahead_buf, offset ); /* In ducking gains */ IF( hTdDecorr[k]->ducking_flag ) @@ -716,13 +750,8 @@ static void ivas_mc_paramupmix_dec_sf( Word16 noparamupmix_delay, n_samples_rendered; MC_PARAMUPMIX_DEC_HANDLE hMCParamUpmix; Word16 subframeIdx, idx_in, maxBand; -#ifdef MSAN_FIX Word32 Cldfb_RealBuffer_subfr_fx[MAX_INTERN_CHANNELS][MAX_PARAM_SPATIAL_SUBFRAMES][CLDFB_NO_CHANNELS_MAX] = { 0 }; Word32 Cldfb_ImagBuffer_subfr_fx[MAX_INTERN_CHANNELS][MAX_PARAM_SPATIAL_SUBFRAMES][CLDFB_NO_CHANNELS_MAX] = { 0 }; -#else - Word32 Cldfb_RealBuffer_subfr_fx[MAX_INTERN_CHANNELS][MAX_PARAM_SPATIAL_SUBFRAMES][CLDFB_NO_CHANNELS_MAX]; - Word32 Cldfb_ImagBuffer_subfr_fx[MAX_INTERN_CHANNELS][MAX_PARAM_SPATIAL_SUBFRAMES][CLDFB_NO_CHANNELS_MAX]; -#endif // MSAN_FIX #ifdef SPLIT_REND_WITH_HEAD_ROT Word32 Cldfb_RealBuffer_Binaural_fx[MAX_HEAD_ROT_POSES][BINAURAL_CHANNELS][MAX_PARAM_SPATIAL_SUBFRAMES][CLDFB_NO_CHANNELS_MAX]; @@ -941,22 +970,32 @@ static void ivas_mc_paramupmix_dec_sf( RealBuffer_fx[slot_idx] = Cldfb_RealBuffer_Binaural_fx[0][ch][slot_idx]; // Q6 ImagBuffer_fx[slot_idx] = Cldfb_ImagBuffer_Binaural_fx[0][ch][slot_idx]; // Q6 #else - RealBuffer_fx[slot_idx] = Cldfb_RealBuffer_Binaural_fx[ch][slot_idx]; // Q6 - ImagBuffer_fx[slot_idx] = Cldfb_ImagBuffer_Binaural_fx[ch][slot_idx]; // Q6 + RealBuffer_fx[slot_idx] = Cldfb_RealBuffer_Binaural_fx[ch][slot_idx]; // Q6 + ImagBuffer_fx[slot_idx] = Cldfb_ImagBuffer_Binaural_fx[ch][slot_idx]; // Q6 #endif } +#ifndef OPT_AVOID_STATE_BUF_RESCALE scale_sig32( st_ivas->cldfbSynDec[ch]->cldfb_state_fx, st_ivas->cldfbSynDec[ch]->cldfb_size, Q5 - Q11 ); // Q11 -> Q5 st_ivas->cldfbSynDec[ch]->Q_cldfb_state = Q5; move16(); - cldfbSynthesis_ivas_fx( RealBuffer_fx, ImagBuffer_fx, &( output_fx[ch][0] ), imult1616( maxBand, st_ivas->hTcBuffer->subframe_nbslots[subframeIdx] ), st_ivas->cldfbSynDec[ch] ); // output_fx returned in Q5 - scale_sig32( st_ivas->cldfbSynDec[ch]->cldfb_state_fx, st_ivas->cldfbSynDec[ch]->cldfb_size, Q11 - Q5 ); // Q5 -> Q11 + cldfbSynthesis_ivas_fx( RealBuffer_fx, ImagBuffer_fx, &( output_fx[ch][0] ), imult1616( maxBand, st_ivas->hTcBuffer->subframe_nbslots[subframeIdx] ), 0, st_ivas->cldfbSynDec[ch] ); // output_fx returned in Q5 +#else /* OPT_AVOID_STATE_BUF_RESCALE */ + cldfbSynthesis_ivas_fx( RealBuffer_fx, ImagBuffer_fx, &( output_fx[ch][0] ), imult1616( maxBand, st_ivas->hTcBuffer->subframe_nbslots[subframeIdx] ), 6, 0, st_ivas->cldfbSynDec[ch] ); // output_fx returned in Q11 +#endif /* OPT_AVOID_STATE_BUF_RESCALE */ + +#ifndef OPT_AVOID_STATE_BUF_RESCALE + scale_sig32( st_ivas->cldfbSynDec[ch]->cldfb_state_fx, st_ivas->cldfbSynDec[ch]->cldfb_size, Q11 - Q5 ); // Q5 -> Q11 st_ivas->cldfbSynDec[ch]->Q_cldfb_state = Q11; move16(); +#endif /* OPT_AVOID_STATE_BUF_RESCALE */ } + +#ifndef OPT_AVOID_STATE_BUF_RESCALE FOR( ch = 0; ch < BINAURAL_CHANNELS; ch++ ) { Scale_sig32( output_fx[ch], imult1616( maxBand, st_ivas->hTcBuffer->subframe_nbslots[subframeIdx] ), 6 ); // Q5 -> Q11 } +#endif /* OPT_AVOID_STATE_BUF_RESCALE */ } ELSE { @@ -982,9 +1021,13 @@ static void ivas_mc_paramupmix_dec_sf( ptr_re_fx[0] = Cldfb_RealBuffer_fx[ch][slot_idx]; // Q6 ptr_im_fx[0] = Cldfb_ImagBuffer_fx[ch][slot_idx]; // Q6 - +#ifdef OPT_AVOID_STATE_BUF_RESCALE + cldfbSynthesis_ivas_fx( ptr_re_fx, ptr_im_fx, &( pPcm_temp_fx[ch][L_mult0( hMCParamUpmix->num_freq_bands, slot_idx )] ), + hMCParamUpmix->num_freq_bands, 0, 0, st_ivas->cldfbSynDec[ch] ); +#else /* OPT_AVOID_STATE_BUF_RESCALE */ cldfbSynthesis_ivas_fx( ptr_re_fx, ptr_im_fx, &( pPcm_temp_fx[ch][L_mult0( hMCParamUpmix->num_freq_bands, slot_idx )] ), - hMCParamUpmix->num_freq_bands, st_ivas->cldfbSynDec[ch] ); + hMCParamUpmix->num_freq_bands, 0, st_ivas->cldfbSynDec[ch] ); +#endif /* OPT_AVOID_STATE_BUF_RESCALE */ } scale_sig32( st_ivas->cldfbSynDec[ch]->cldfb_state_fx, st_ivas->cldfbSynDec[ch]->cldfb_size, sub( Q11, st_ivas->cldfbSynDec[ch]->Q_cldfb_state ) ); // Q6 -> Q11 st_ivas->cldfbSynDec[ch]->Q_cldfb_state = Q11; diff --git a/lib_dec/ivas_mcmasa_dec.c b/lib_dec/ivas_mcmasa_dec_fx.c similarity index 98% rename from lib_dec/ivas_mcmasa_dec.c rename to lib_dec/ivas_mcmasa_dec_fx.c index 687efb3ce45f53bbb55b970f668845e232ccea1f..d12b190c640728b55825a1a5a4b948591e481b70 100644 --- a/lib_dec/ivas_mcmasa_dec.c +++ b/lib_dec/ivas_mcmasa_dec_fx.c @@ -33,9 +33,8 @@ #include "options.h" #include #include "ivas_cnst.h" -#include "ivas_prot.h" -#include "ivas_prot_rend.h" -#include "prot.h" +#include "ivas_prot_rend_fx.h" +#include "prot_fx.h" #include "wmc_auto.h" #include "ivas_prot_fx.h" diff --git a/lib_dec/ivas_mct_core_dec.c b/lib_dec/ivas_mct_core_dec_fx.c similarity index 96% rename from lib_dec/ivas_mct_core_dec.c rename to lib_dec/ivas_mct_core_dec_fx.c index 824370bb8bfb0d4522b78f709741ebc206dcae62..b42eb534b34af52b78b359306728ea7fd919f4a3 100644 --- a/lib_dec/ivas_mct_core_dec.c +++ b/lib_dec/ivas_mct_core_dec_fx.c @@ -33,16 +33,14 @@ #include #include #include "options.h" -#include "prot.h" +#include "prot_fx.h" #include "rom_com.h" #include "wmc_auto.h" #include "cnst.h" #include "basop_proto_func.h" #include "stat_com.h" -#include "ivas_prot.h" #include "ivas_stat_dec.h" #include "ivas_stat_com.h" -#include "prot_fx.h" #include "ivas_prot_fx.h" /*-----------------------------------------------------------------* @@ -90,9 +88,9 @@ void ivas_mct_side_bits_fx( FOR( ch = 0; ch < nChannels; ch++ ) { st = sts[ch]; - if ( EQ_32( st->mct_chan_mode, MCT_CHAN_MODE_IGNORE ) ) + IF( EQ_32( st->mct_chan_mode, MCT_CHAN_MODE_IGNORE ) ) { - continue; + CONTINUE; } mdct_read_IGF_bits_fx( st, st0 ); @@ -233,7 +231,7 @@ void ivas_mct_core_dec( { IF( EQ_32( sts[ch]->mct_chan_mode, MCT_CHAN_MODE_IGNORE ) ) { - continue; + CONTINUE; } i = add( i, 1 ); } @@ -260,15 +258,15 @@ void ivas_mct_core_dec( { st = sts[ch]; - if ( EQ_32( sts[ch]->mct_chan_mode, MCT_CHAN_MODE_IGNORE ) ) /*indicates LFE */ + IF( EQ_32( sts[ch]->mct_chan_mode, MCT_CHAN_MODE_IGNORE ) ) /*indicates LFE */ { - continue; + CONTINUE; } test(); - if ( bfi && EQ_16( st->core, ACELP_CORE ) ) /*no igf processing needed*/ + IF( bfi && EQ_16( st->core, ACELP_CORE ) ) /*no igf processing needed*/ { - continue; + CONTINUE; } IF( EQ_16( st->core, TCX_10_CORE ) ) diff --git a/lib_dec/ivas_mct_dec.c b/lib_dec/ivas_mct_dec_fx.c similarity index 96% rename from lib_dec/ivas_mct_dec.c rename to lib_dec/ivas_mct_dec_fx.c index 4af691affc0d64f83833a51c853a49944ba621ba..db9cddc39b60321ed51c9394b12e19a518e38286 100644 --- a/lib_dec/ivas_mct_dec.c +++ b/lib_dec/ivas_mct_dec_fx.c @@ -38,9 +38,7 @@ #include "ivas_cnst.h" #include "rom_com.h" #include "prot_fx.h" -#include "prot.h" -#include "ivas_prot.h" -#include "ivas_prot_rend.h" +#include "ivas_prot_rend_fx.h" #include "ivas_rom_com.h" #include "wmc_auto.h" #include "ivas_prot_fx.h" @@ -86,10 +84,8 @@ ivas_error ivas_mct_dec_fx( set16_fx( x_len[0], 0, NB_DIV ); set16_fx( x_len[1], 0, NB_DIV ); Decoder_State **sts; -#ifdef NONBE_FIX_1087_OOB_SBA_DTX_RS Word32 *p_output_orig_fx[2]; Word32 synth_32_fx[CPE_CHANNELS][L_FRAME_PLUS]; -#endif Word16 synth_fx[CPE_CHANNELS][L_FRAME_PLUS]; //(Q_synth) Word32 ivas_total_brate; ivas_error error; @@ -166,7 +162,6 @@ ivas_error ivas_mct_dec_fx( /* MCT side bits decoder */ ivas_mct_side_bits_fx( hMCT, st_ivas->hCPE, nCPE, st_ivas->hCPE[0]->hCoreCoder[0], st_ivas->bfi, st_ivas->hCPE[0]->hCoreCoder[0]->bit_stream, ivas_total_brate, nb_bits_metadata ); -#ifdef NONBE_FIX_1087_OOB_SBA_DTX_RS /* in case of switching from an SID frame (with ACELP core) to MCT, buffer of L_FRAME_PLUS samples is needed -> use synth[] as a temporary buffer */ IF( st_ivas->hCPE[0]->hCoreCoder[0]->last_core == ACELP_CORE ) { @@ -176,7 +171,6 @@ ivas_error ivas_mct_dec_fx( output_fx[n] = synth_32_fx[n]; } } -#endif FOR( cpe_id = 0; cpe_id < nCPE; cpe_id++ ) { @@ -350,13 +344,8 @@ ivas_error ivas_mct_dec_fx( x_fx[n][0] = output_fx[n + ( cpe_id * CPE_CHANNELS )]; // Q11 x_fx[n][1] = output_fx[n + ( cpe_id * CPE_CHANNELS )] + ( L_FRAME48k / 2 ); // Q11 } -#ifdef FIX_ISSUE_1237 Copy_Scale_sig_16_32_no_sat( hCPE->hCoreCoder[0]->old_Aq_12_8_fx, hCPE->hCoreCoder[0]->old_Aq_12_8_fx_32, add( M, 1 ), sub( 28, sub( 15, norm_s( sub( hCPE->hCoreCoder[0]->old_Aq_12_8_fx[0], 1 ) ) ) ) ); Copy_Scale_sig_16_32_no_sat( hCPE->hCoreCoder[1]->old_Aq_12_8_fx, hCPE->hCoreCoder[1]->old_Aq_12_8_fx_32, add( M, 1 ), sub( 28, sub( 15, norm_s( sub( hCPE->hCoreCoder[1]->old_Aq_12_8_fx[0], 1 ) ) ) ) ); -#else - Copy_Scale_sig_16_32_DEPREC( hCPE->hCoreCoder[0]->old_Aq_12_8_fx, hCPE->hCoreCoder[0]->old_Aq_12_8_fx_32, add( M, 1 ), sub( 28, norm_s( sub( hCPE->hCoreCoder[0]->old_Aq_12_8_fx[0], 1 ) ) ) ); - Copy_Scale_sig_16_32_DEPREC( hCPE->hCoreCoder[1]->old_Aq_12_8_fx, hCPE->hCoreCoder[1]->old_Aq_12_8_fx_32, add( M, 1 ), sub( 28, norm_s( sub( hCPE->hCoreCoder[1]->old_Aq_12_8_fx[0], 1 ) ) ) ); -#endif ivas_mdct_core_reconstruct_fx( hCPE, x_fx, synth_fx, fUseTns[cpe_id], 1, q_output, e_sig ); Word16 hdrm, sh; @@ -387,7 +376,6 @@ ivas_error ivas_mct_dec_fx( } } -#ifdef NONBE_FIX_1087_OOB_SBA_DTX_RS /* set pointers back */ test(); IF( cpe_id == 0 && st_ivas->hCPE[0]->hCoreCoder[0]->last_core == ACELP_CORE ) @@ -398,7 +386,6 @@ ivas_error ivas_mct_dec_fx( } } -#endif /*----------------------------------------------------------------* * CoreCoder Post-processing and updates @@ -411,30 +398,21 @@ ivas_error ivas_mct_dec_fx( test(); IF( ( st_ivas->sba_dirac_stereo_flag != 0 ) && ( NE_16( st_ivas->ivas_format, SBA_ISM_FORMAT ) || GE_16( cpe_id, sub( nCPE, 2 ) ) ) ) { -#ifdef FIX_ISSUE_1237 Copy_Scale_sig_16_32_no_sat( synth_fx[n], synth_fx_32[n], L_FRAME48k, sub( Q11, ( sub( 15, e_sig[n] ) ) ) ); // Q11 - Copy_Scale_sig_16_32_no_sat( hCPE->hCoreCoder[n]->hHQ_core->old_out_fx, hCPE->hCoreCoder[n]->hHQ_core->oldOut_fx, output_frame, sub( Q11, hCPE->hCoreCoder[n]->hHQ_core->Q_old_wtda ) ); -#else - Copy_Scale_sig_16_32_DEPREC( synth_fx[n], synth_fx_32[n], L_FRAME48k, sub( Q11, ( sub( 15, e_sig[n] ) ) ) ); // Q11 - Copy_Scale_sig_16_32_DEPREC( hCPE->hCoreCoder[n]->hHQ_core->old_out_fx, hCPE->hCoreCoder[n]->hHQ_core->oldOut_fx, output_frame, sub( Q11, hCPE->hCoreCoder[n]->hHQ_core->Q_old_wtda ) ); -#endif + Copy_Scale_sig_16_32_no_sat( hCPE->hCoreCoder[n]->hHQ_core->old_out_fx, hCPE->hCoreCoder[n]->hHQ_core->old_out_fx32, output_frame, sub( Q11, hCPE->hCoreCoder[n]->hHQ_core->Q_old_wtda ) ); ivas_post_proc_fx( NULL, hCPE, n, synth_fx_32[n], NULL, output_frame, 1, Q11 ); -#ifdef MSAN_FIX Copy_Scale_sig_32_16( synth_fx_32[n], synth_fx[n], output_frame, sub( sub( 15, e_sig[n] ), Q11 ) ); // Q0 -#else - Copy_Scale_sig_32_16( synth_fx_32[n], synth_fx[n], L_FRAME48k, 0 - Q11 ); -#endif } /* Postprocessing for ACELP/MDCT core switching and synchronization */ Word16 output_mem_fx[L_FRAME48k]; IF( hCPE->output_mem_fx[1] != NULL ) { - Copy_Scale_sig_32_16( hCPE->output_mem_fx[1], output_mem_fx, NS2SA( sts[n]->output_Fs, 3125000 ), -Q11 ); + Copy_Scale_sig_32_16( hCPE->output_mem_fx[1], output_mem_fx, NS2SA_FX2( sts[n]->output_Fs, 3125000 ), -Q11 ); } ELSE { - set16_fx( output_mem_fx, 0, NS2SA( sts[n]->output_Fs, 3125000 ) ); + set16_fx( output_mem_fx, 0, NS2SA_FX2( sts[n]->output_Fs, 3125000 ) ); } Word16 Q_synth = sub( 15, e_sig[n] ); @@ -450,24 +428,20 @@ ivas_error ivas_mct_dec_fx( { dirac_stereo_flag = 0; } - IF( NE_32( ( error = core_switching_post_dec_ivas_fx( sts[n], synth_fx[n], output_fx[( cpe_id * CPE_CHANNELS ) + n], output_mem_fx, st_ivas->ivas_format, 0, output_frame, 0 /*core_switching_flag*/, dirac_stereo_flag, -1, hCPE->last_element_mode, &Q_synth ) ), IVAS_ERR_OK ) ) + IF( NE_32( ( error = core_switching_post_dec_ivas_fx( sts[n], synth_fx[n], output_fx[( cpe_id * CPE_CHANNELS ) + n], output_mem_fx, 0, output_frame, 0 /*core_switching_flag*/, dirac_stereo_flag, -1, hCPE->last_element_mode, &Q_synth ) ), IVAS_ERR_OK ) ) { return error; } -#ifdef FIX_ISSUE_1237 Copy_Scale_sig_16_32_no_sat( synth_fx[n], output_fx[( cpe_id * CPE_CHANNELS ) + n], output_frame, sub( Q11, Q_synth ) ); // Q11 -#else - Copy_Scale_sig_16_32_DEPREC( synth_fx[n], output_fx[( cpe_id * CPE_CHANNELS ) + n], output_frame, sub( Q11, Q_synth ) ); // Q11 -#endif /* Save synthesis for HQ FEC */ Word32 output_fx_[L_FRAME48k]; - Copy32( output_fx[( cpe_id * CPE_CHANNELS ) + n], output_fx_, L_FRAME48k ); // Q11 - Scale_sig32( output_fx_, L_FRAME48k, Q16 - Q11 ); // Q11 -> Q16 - Copy_Scale_sig32_16( sts[n]->prev_synth_buffer32_fx, sts[n]->prev_synth_buffer_fx, NS2SA( 48000, DELAY_BWE_TOTAL_NS - DELAY_CLDFB_NS ), -11 ); // Q11 -> Q0 + Copy32( output_fx[( cpe_id * CPE_CHANNELS ) + n], output_fx_, L_FRAME48k ); // Q11 + Scale_sig32( output_fx_, L_FRAME48k, Q16 - Q11 ); // Q11 -> Q16 + Copy_Scale_sig32_16( sts[n]->prev_synth_buffer32_fx, sts[n]->prev_synth_buffer_fx, NS2SA( 48000, DELAY_BWE_TOTAL_NS - DELAY_CLDFB_NS ), -Q11 ); // Q11 -> Q0 sts[n]->q_prev_synth_buffer_fx = 0; move16(); - save_synthesis_hq_fec_fx( sts[n], output_fx_, output_frame, hCPE ); + save_synthesis_hq_fec_fx( sts[n], NULL, output_fx_, output_frame, 0, hCPE ); /* CoreCoder common updates */ ivas_updt_dec_common_fx( hCPE->hCoreCoder[n], NORMAL_HQ_CORE, -1, output_fx[( cpe_id * CPE_CHANNELS ) + n], 11 ); @@ -478,11 +452,7 @@ ivas_error ivas_mct_dec_fx( { IF( hCPE->hCoreCoder[n] ) { -#ifdef FIX_ISSUE_1237 Copy_Scale_sig_16_32_no_sat( hCPE->hCoreCoder[n]->delay_buf_out_fx, hCPE->hCoreCoder[n]->delay_buf_out32_fx, HQ_DELTA_MAX * HQ_DELAY_COMP, Q11 ); // Q0 -> Q11 -#else - Copy_Scale_sig_16_32_DEPREC( hCPE->hCoreCoder[n]->delay_buf_out_fx, hCPE->hCoreCoder[n]->delay_buf_out32_fx, HQ_DELTA_MAX * HQ_DELAY_COMP, Q11 ); // Q0 -> Q11 -#endif } } @@ -1360,7 +1330,7 @@ static ivas_error ivas_mc_dec_reconfig_fx( new_brate_SCE = 0; move32(); Word16 temp_e; - Word32 L_temp = BASOP_Util_Divide3232_Scale_cadence( ivas_total_brate, sub( st_ivas->nchan_transport, 1 ), &temp_e ); + Word32 L_temp = BASOP_Util_Divide3232_Scale_newton( ivas_total_brate, sub( st_ivas->nchan_transport, 1 ), &temp_e ); L_temp = L_shr( L_temp, sub( 31, temp_e ) ); new_brate_CPE = L_shl( L_temp, 1 ) /*CPE_CHANNELS*/; } @@ -1369,7 +1339,7 @@ static ivas_error ivas_mc_dec_reconfig_fx( new_brate_SCE = 0; move32(); Word16 temp_e; - Word32 L_temp = BASOP_Util_Divide3232_Scale_cadence( ivas_total_brate, sub( st_ivas->nchan_transport, 1 ), &temp_e ); + Word32 L_temp = BASOP_Util_Divide3232_Scale_newton( ivas_total_brate, sub( st_ivas->nchan_transport, 1 ), &temp_e ); L_temp = L_shr( L_temp, sub( 31, temp_e ) ); new_brate_CPE = L_shl( L_temp, 1 ) /*CPE_CHANNELS*/; } @@ -1378,7 +1348,7 @@ static ivas_error ivas_mc_dec_reconfig_fx( new_brate_SCE = 0; /* ivas_total_brate / st_ivas->nchan_transport;*/ move32(); Word16 temp_e; - Word32 L_temp = BASOP_Util_Divide3232_Scale_cadence( ivas_total_brate, st_ivas->nchan_transport, &temp_e ); + Word32 L_temp = BASOP_Util_Divide3232_Scale_newton( ivas_total_brate, st_ivas->nchan_transport, &temp_e ); L_temp = L_shr( L_temp, sub( 31, temp_e ) ); new_brate_CPE = L_shl( L_temp, 1 ) /*CPE_CHANNELS*/; } diff --git a/lib_dec/ivas_mct_dec_mct_fx.c b/lib_dec/ivas_mct_dec_mct_fx_fx.c similarity index 94% rename from lib_dec/ivas_mct_dec_mct_fx.c rename to lib_dec/ivas_mct_dec_mct_fx_fx.c index 331bdc2538e1feff86a39064ef649c7926bf673d..0f20c1ec0fbdd12dc61b9d97a6d8bf256733fbb5 100644 --- a/lib_dec/ivas_mct_dec_mct_fx.c +++ b/lib_dec/ivas_mct_dec_mct_fx_fx.c @@ -33,12 +33,10 @@ #include #include "options.h" #include "ivas_cnst.h" -#include "ivas_prot.h" -#include "prot.h" +#include "prot_fx.h" #include "wmc_auto.h" #include #include "stat_enc.h" -#include "prot_fx.h" #include "ivas_prot_fx.h" /*----------------------------------------------------------* @@ -315,17 +313,6 @@ void mctStereoIGF_dec_fx( test(); IF( NE_16( hMCT->hBlockData[b]->hStereoMdct->IGFStereoMode[k], SMDCT_DUAL_MONO ) || NE_16( hMCT->hBlockData[b]->hStereoMdct->mdct_stereo_mode[k], SMDCT_DUAL_MONO ) ) { -#ifndef FIX_1109_OPTIM_MCT_STEREO_IGF_DEC - tmp = BASOP_Util_Divide1616_Scale( sts[0]->hTcxCfg->tcx_coded_lines, nSubframes, &tmp_e ); - L_spec[0] = shr( tmp, add( 15, negate( tmp_e ) ) ); - move16(); - - tmp = BASOP_Util_Divide1616_Scale( sts[0]->L_frame, nSubframes, &tmp_e ); - L_frame_nSubframe = shr( tmp, add( 15, negate( tmp_e ) ) ); - - tmp = BASOP_Util_Divide1616_Scale( sts[0]->hTcxDec->L_frameTCX, nSubframes, &tmp_e ); - L_frameTCX_nSubframe = shr( tmp, add( 15, negate( tmp_e ) ) ); -#else Word16 shr_div, shr_k; assert( nSubframes == 1 || nSubframes == 2 ); @@ -336,7 +323,6 @@ void mctStereoIGF_dec_fx( move16(); L_frame_nSubframe = shr( sts[0]->L_frame, shr_div ); L_frameTCX_nSubframe = shr( sts[0]->hTcxDec->L_frameTCX, shr_div ); -#endif init_tcx_info_fx( sts[0], L_frame_nSubframe, L_frameTCX_nSubframe, k, bfi, &tcx_offset[0], &tcx_offsetFB[0], &L_frame[0], &L_frameTCX[0], &left_rect[0], &L_spec[0] ); @@ -346,28 +332,16 @@ void mctStereoIGF_dec_fx( decoder_tcx_IGF_stereo_fx( sts, hMCT->hBlockData[b]->hStereoMdct, hMCT->hBlockData[b]->mask, p_x, p_x_e, p_x_len, L_frame[0], left_rect[0], k, bfi, 1 /* MCT_flag */ ); // Shifting output with variable exponent back to Q12 -#ifdef FIX_1109_OPTIM_MCT_STEREO_IGF_DEC shr_k = sub( 31 - Q12, p_x_e[0][k] ); -#endif FOR( Word16 i = 0; i < p_x_len[0][k]; i++ ) { -#ifndef FIX_1109_OPTIM_MCT_STEREO_IGF_DEC - p_x[0][k][i] = L_shr( p_x[0][k][i], sub( 31 - Q12, p_x_e[0][k] ) ); -#else p_x[0][k][i] = L_shr( p_x[0][k][i], shr_k ); -#endif move32(); } -#ifdef FIX_1109_OPTIM_MCT_STEREO_IGF_DEC shr_k = sub( 31 - Q12, p_x_e[1][k] ); -#endif FOR( Word16 i = 0; i < p_x_len[1][k]; i++ ) { -#ifndef FIX_1109_OPTIM_MCT_STEREO_IGF_DEC - p_x[1][k][i] = L_shr( p_x[1][k][i], sub( 31 - Q12, p_x_e[1][k] ) ); -#else p_x[1][k][i] = L_shr( p_x[1][k][i], shr_k ); -#endif move32(); } } diff --git a/lib_dec/ivas_mdct_core_dec.c b/lib_dec/ivas_mdct_core_dec_fx.c similarity index 95% rename from lib_dec/ivas_mdct_core_dec.c rename to lib_dec/ivas_mdct_core_dec_fx.c index 2158dec1c635b869514942fb7f0d1e3722bdd9f5..fabebede4e6e468526331188d065f9086d1715c9 100644 --- a/lib_dec/ivas_mdct_core_dec.c +++ b/lib_dec/ivas_mdct_core_dec_fx.c @@ -33,18 +33,16 @@ #include #include #include "options.h" -#include "prot.h" +#include "prot_fx.h" #include "rom_com.h" #include "ivas_rom_com.h" #include "wmc_auto.h" #include "cnst.h" #include "basop_proto_func.h" #include "stat_com.h" -#include "ivas_prot.h" #include "ivas_stat_dec.h" #include "ivas_stat_com.h" #include -#include "prot_fx.h" #include "ivas_prot_fx.h" @@ -686,10 +684,8 @@ void ivas_mdct_core_invQ_fx( { spectralData_tmp[k] = malloc( N_MAX * sizeof( Word32 ) ); } -#ifdef MSAN_FIX set32_fx( spectralData_tmp[0], 0, L_FRAME_MAX ); set32_fx( spectralData_tmp[1], 0, L_FRAME_MAX ); -#endif // MSAN_FIX push_wmops( "mdct_core_invQ" ); sts = hCPE->hCoreCoder; @@ -730,18 +726,8 @@ void ivas_mdct_core_invQ_fx( common_exp = s_max( sts[0]->hTonalMDCTConc->lastBlockData.spectralData_exp, sts[1]->hTonalMDCTConc->lastBlockData.spectralData_exp ); -#ifdef MSAN_FIX -#ifdef FIX_ISSUE_1237 Copy_Scale_sig_16_32_no_sat( sts[0]->hTonalMDCTConc->lastBlockData.spectralData, spectralData_tmp[0], L_frameTCX[0], sub( 15, sub( common_exp, sts[0]->hTonalMDCTConc->lastBlockData.spectralData_exp ) ) ); // 30 - spectral_exp1 Copy_Scale_sig_16_32_no_sat( sts[1]->hTonalMDCTConc->lastBlockData.spectralData, spectralData_tmp[1], L_frameTCX[1], sub( 15, sub( common_exp, sts[1]->hTonalMDCTConc->lastBlockData.spectralData_exp ) ) ); // 30 - spectral_exp2 -#else - Copy_Scale_sig_16_32_DEPREC( sts[0]->hTonalMDCTConc->lastBlockData.spectralData, spectralData_tmp[0], L_frameTCX[0], sub( 15, sub( common_exp, sts[0]->hTonalMDCTConc->lastBlockData.spectralData_exp ) ) ); // 30 - spectral_exp1 - Copy_Scale_sig_16_32_DEPREC( sts[1]->hTonalMDCTConc->lastBlockData.spectralData, spectralData_tmp[1], L_frameTCX[1], sub( 15, sub( common_exp, sts[1]->hTonalMDCTConc->lastBlockData.spectralData_exp ) ) ); // 30 - spectral_exp2 -#endif -#else - Copy_Scale_sig_16_32_DEPREC( sts[0]->hTonalMDCTConc->lastBlockData.spectralData, spectralData_tmp[0], L_FRAME_MAX, 15 - ( common_exp - sts[0]->hTonalMDCTConc->lastBlockData.spectralData_exp ) ); // 30 - spectral_exp1 - Copy_Scale_sig_16_32_DEPREC( sts[1]->hTonalMDCTConc->lastBlockData.spectralData, spectralData_tmp[1], L_FRAME_MAX, 15 - ( common_exp - sts[1]->hTonalMDCTConc->lastBlockData.spectralData_exp ) ); // 30 - spectral_exp2 -#endif // MSAN_FIX sts[0]->hTonalMDCTConc->lastBlockData.spectralData_exp = sts[1]->hTonalMDCTConc->lastBlockData.spectralData_exp = common_exp; move16(); @@ -753,13 +739,8 @@ void ivas_mdct_core_invQ_fx( /* both input in same Q */ stereo_decoder_tcx_fx( hCPE->hStereoMdct, ms_mask, x_0[1], &spectralData_tmp[0], &spectralData_tmp[1], &hCPE->hStereoMdct->mdct_stereo_mode[0], sts[0]->core, sts[1]->core, sts[0]->igf, L_frameTCX[0], L_frameTCX[1], 0, sts[0]->last_core, sts[1]->last_core, 1, &q_r, &q_l ); -#ifdef MSAN_FIX Copy_Scale_sig_32_16( spectralData_tmp[0], sts[0]->hTonalMDCTConc->lastBlockData.spectralData, L_frameTCX[0], -15 ); // q_l - 15 Copy_Scale_sig_32_16( spectralData_tmp[1], sts[1]->hTonalMDCTConc->lastBlockData.spectralData, L_frameTCX[1], -15 ); // q_r - 15 -#else - Copy_Scale_sig_32_16( spectralData_tmp[0], sts[0]->hTonalMDCTConc->lastBlockData.spectralData, L_FRAME_MAX, -15 ); - Copy_Scale_sig_32_16( spectralData_tmp[1], sts[1]->hTonalMDCTConc->lastBlockData.spectralData, L_FRAME_MAX, -15 ); -#endif sts[0]->hTonalMDCTConc->lastBlockData.spectralData_exp = sub( 30, q_l ); sts[1]->hTonalMDCTConc->lastBlockData.spectralData_exp = sub( 30, q_r ); move16(); @@ -1189,19 +1170,15 @@ void ivas_mdct_core_reconstruct_fx( { Scale_sig( st->hTcxDec->syn_Overl_TDACFB, L_FRAME_MAX / 2, sub( q_win, st->hTcxDec->Q_syn_Overl_TDACFB ) ); // st->hTcxDec->Q_syn_Overl_TDACFB -> q_win Scale_sig( st->hTcxDec->syn_Overl_TDAC, L_FRAME32k / 2, sub( q_win, st->hTcxDec->Q_syn_Overl_TDAC ) ); // st->hTcxDec->Q_syn_Overl_TDAC -> q_win - Scale_sig( st->hTcxDec->old_syn_Overl, L_FRAME32k / 2, sub( q_win, sub( -1, st->Q_syn ) ) ); // Q(-1 - st->Q_syn) -> q_win - Scale_sig( st->hTcxDec->syn_Overl, L_FRAME32k / 2, sub( q_win, st->Q_syn ) ); // Q(st->Q_syn) -> q_win - Scale_sig( st->hTcxDec->syn_OverlFB, L_FRAME_MAX / 2, sub( q_win, st->Q_syn ) ); // Q(st->Q_syn) -> q_win - Scale_sig( st->hHQ_core->old_out_LB_fx, L_FRAME32k, sub( q_win, st->hHQ_core->Q_old_wtda_LB ) ); // Q(st->hHQ_core->Q_old_wtda_LB) -> q_win - Scale_sig( st->hHQ_core->old_out_fx, L_FRAME48k, sub( q_win, st->hHQ_core->Q_old_wtda ) ); // Q(st->hHQ_core->Q_old_wtda) -> q_win -#ifdef MSAN_FIX + Scale_sig( st->hTcxDec->old_syn_Overl, L_FRAME32k / 2, sub( q_win, st->hTcxDec->Q_old_syn_Overl ) ); // Q(-1 - st->Q_syn) -> q_win + st->hTcxDec->Q_old_syn_Overl = q_win; + Scale_sig( st->hTcxDec->syn_Overl, L_FRAME32k / 2, sub( q_win, st->Q_syn ) ); // Q(st->Q_syn) -> q_win + Scale_sig( st->hTcxDec->syn_OverlFB, L_FRAME_MAX / 2, sub( q_win, st->Q_syn ) ); // Q(st->Q_syn) -> q_win + Scale_sig( st->hHQ_core->old_out_LB_fx, L_FRAME32k, sub( q_win, st->hHQ_core->Q_old_wtda_LB ) ); // Q(st->hHQ_core->Q_old_wtda_LB) -> q_win + Scale_sig( st->hHQ_core->old_out_fx, L_FRAME48k, sub( q_win, st->hHQ_core->Q_old_wtda ) ); // Q(st->hHQ_core->Q_old_wtda) -> q_win Scale_sig( synth_buf_fx, add( add( st->hTcxDec->old_synth_len, L_FRAME_PLUS ), M ), sub( q_win, q_syn ) ); // q_syn -> q_win Scale_sig( synth_bufFB_fx, add( add( st->hTcxDec->old_synth_lenFB, L_FRAME_PLUS ), M ), sub( q_win, q_syn ) ); // q_syn -> q_win -#else - Scale_sig( synth_buf_fx, 3136, sub( q_win, q_syn ) ); - Scale_sig( synth_bufFB_fx, 3136, sub( q_win, q_syn ) ); -#endif - Scale_sig( st->syn, M + 1, sub( q_win, st->Q_syn ) ); // st->Q_syn -> q_win + Scale_sig( st->syn, M + 1, sub( q_win, st->Q_syn ) ); // st->Q_syn -> q_win FOR( k = 0; k < nSubframes[ch]; k++ ) { init_tcx_info_fx( st, L_frame_global[ch], L_frame_globalTCX[ch], k, bfi, &tcx_offset[ch], @@ -1262,14 +1239,10 @@ void ivas_mdct_core_reconstruct_fx( Scale_sig( st->hTcxDec->syn_Overl_TDAC, L_FRAME32k / 2, sub( sub( -1, st->Q_syn ), q_win ) ); // q_win -> Q(-1 - st->Q_syn) st->hTcxDec->Q_syn_Overl_TDAC = sub( -1, st->Q_syn ); move16(); - Scale_sig( st->hTcxDec->old_syn_Overl, L_FRAME32k / 2, sub( sub( -1, st->Q_syn ), q_win ) ); // q_win -> Q(-1 - st->Q_syn) -#ifdef MSAN_FIX + Scale_sig( st->hTcxDec->old_syn_Overl, L_FRAME32k / 2, sub( sub( -1, st->Q_syn ), st->hTcxDec->Q_old_syn_Overl ) ); // q_win -> Q(-1 - st->Q_syn) + st->hTcxDec->Q_old_syn_Overl = sub( -1, st->Q_syn ); Scale_sig( synth_buf_fx, add( add( st->hTcxDec->old_synth_len, L_FRAME_PLUS ), M ), sub( q_syn, q_win ) ); // q_win -> q_syn Scale_sig( synth_bufFB_fx, add( add( st->hTcxDec->old_synth_lenFB, L_FRAME_PLUS ), M ), sub( q_syn, q_win ) ); // q_win -> q_syn -#else - Scale_sig( synth_buf_fx, 3136, sub( q_syn, q_win ) ); - Scale_sig( synth_bufFB_fx, 3136, sub( q_syn, q_win ) ); -#endif Scale_sig( st->syn, M + 1, add( st->Q_syn, 2 ) ); Scale_sig( st->hTcxDec->syn_OverlFB, L_FRAME_MAX / 2, sub( st->Q_syn, q_win ) ); // q_win -> st->Q_syn Scale_sig( st->hTcxDec->syn_Overl, L_FRAME32k / 2, sub( st->Q_syn, q_win ) ); // q_win -> st->Q_syn @@ -1283,11 +1256,6 @@ void ivas_mdct_core_reconstruct_fx( ELSE /*ACELP core for ACELP-PLC */ { assert( EQ_16( st->bfi, 1 ) ); - - Scale_sig( synth_buf_fx, add( add( st->hTcxDec->old_synth_len, L_FRAME_PLUS ), M ), sub( -2, q_syn ) ); // Q0 - Scale_sig( synth_bufFB_fx, add( add( st->hTcxDec->old_synth_lenFB, L_FRAME_PLUS ), M ), sub( -2, q_syn ) ); // Q0 - q_syn = -2; - move16(); /* PLC: [TCX: TD PLC] */ IF( MCT_flag != 0 ) { @@ -1314,14 +1282,15 @@ void ivas_mdct_core_reconstruct_fx( move16(); st->Q_syn = q_syn; move16(); + st->hTcxDec->Q_old_syn_Overl = add( st->hTcxDec->Q_old_syn_Overl, q_syn ); IF( ( EQ_16( st->nbLostCmpt, 1 ) ) || ( st->hTcxDec->tcxConceal_recalc_exc != 0 ) ) { - Scale_sig( synthFB_fx - add( add( shr( st->hTcxDec->L_frameTCX, 1 ), st->hTcxDec->pit_max_TCX ), 2 * M ), add( add( shr( st->hTcxDec->L_frameTCX, 1 ), st->hTcxDec->pit_max_TCX ), 2 * M ), sub( q_syn, sub( st->Q_exc, 1 ) ) ); // 2 * q_syn - (st->Q_exc - 1) + Scale_sig( synthFB_fx - add( add( shr( st->hTcxDec->L_frameTCX, 1 ), st->hTcxDec->pit_max_TCX ), 2 * M ), sub( add( add( shr( st->hTcxDec->L_frameTCX, 1 ), st->hTcxDec->pit_max_TCX ), 2 * M ), 1 ), sub( q_syn, sub( st->Q_exc, 1 ) ) ); // 2 * q_syn - (st->Q_exc - 1) } ELSE { - Scale_sig( synthFB_fx - st->hTcxDec->L_frameTCX, st->hTcxDec->L_frameTCX, sub( q_syn, sub( st->Q_exc, 1 ) ) ); // 2 * q_syn - (st->Q_exc - 1) + Scale_sig( synthFB_fx - st->hTcxDec->L_frameTCX, sub( st->hTcxDec->L_frameTCX, 1 ), sub( q_syn, sub( st->Q_exc, 1 ) ) ); // 2 * q_syn - (st->Q_exc - 1) } lerp( synthFB_fx, synth_fx, st->L_frame, st->hTcxDec->L_frameTCX ); @@ -1361,7 +1330,7 @@ void ivas_mdct_core_reconstruct_fx( /* Update */ Copy( synth_buf_fx + st->L_frame, st->hTcxDec->old_synth, st->hTcxDec->old_synth_len ); - Copy( st->hTcxDec->old_synthFB_fx + st->hTcxDec->L_frameTCX - NS2SA( st->output_Fs, PH_ECU_MEM_NS ), st->hTcxDec->synth_history_fx, NS2SA( st->output_Fs, PH_ECU_MEM_NS ) ); + Copy( st->hTcxDec->old_synthFB_fx + st->hTcxDec->L_frameTCX - NS2SA_FX2( st->output_Fs, PH_ECU_MEM_NS ), st->hTcxDec->synth_history_fx, NS2SA_FX2( st->output_Fs, PH_ECU_MEM_NS ) ); Copy( synth_bufFB_fx + st->hTcxDec->L_frameTCX, st->hTcxDec->old_synthFB_fx, st->hTcxDec->old_synth_lenFB ); st->hTcxDec->q_old_synth = q_syn; st->hTcxDec->q_synth_history_fx = st->hTcxDec->q_old_synth; @@ -1371,7 +1340,7 @@ void ivas_mdct_core_reconstruct_fx( IF( st->hHQ_core != NULL ) { - Copy( st->hHQ_core->old_out_fx + NS2SA( st->output_Fs, N_ZERO_MDCT_NS ), st->hTcxDec->old_synthFB_fx + st->hTcxDec->old_synth_lenFB, NS2SA( st->output_Fs, PH_ECU_LOOKAHEAD_NS ) ); + Copy( st->hHQ_core->old_out_fx + NS2SA_FX2( st->output_Fs, N_ZERO_MDCT_NS ), st->hTcxDec->old_synthFB_fx + st->hTcxDec->old_synth_lenFB, NS2SA_FX2( st->output_Fs, PH_ECU_LOOKAHEAD_NS ) ); } Copy( st->lsp_q_cng, st->old_lsp_q_cng, M ); @@ -1404,11 +1373,7 @@ void ivas_mdct_core_reconstruct_fx( move16(); st->last_coder_type = st->coder_type; move16(); -#ifdef FIX_ISSUE_1237 Copy_Scale_sig_16_32_no_sat( x_fx_16, x_fx[ch][0], st->L_frame, sub( q_x, q_syn ) ); // q_syn -> Q_x -#else - Copy_Scale_sig_16_32_DEPREC( x_fx_16, x_fx[ch][0], st->L_frame, sub( q_x, q_syn ) ); // q_syn -> Q_x -#endif } IF( GT_16( e_sig[0], e_sig[1] ) ) @@ -1512,9 +1477,7 @@ void ivas_mdct_core_tns_ns_fx( move16(); set32_fx( xn_buf_fx, 0, L_MDCT_OVLP_MAX + L_FRAME_PLUS + L_MDCT_OVLP_MAX ); -#ifdef MSAN_FIX set32_fx( sns_int_scf_fx, 0, FDNS_NPTS ); -#endif /* TNS, ITF, IMDCT and updates */ @@ -1556,7 +1519,7 @@ void ivas_mdct_core_tns_ns_fx( } /* nothing to do for missing LFE */ - continue; + CONTINUE; } FOR( k = 0; k < nSubframes[ch]; k++ ) @@ -1660,6 +1623,8 @@ void ivas_mdct_core_tns_ns_fx( } q_2 = q_x; move16(); + Word16 length2 = length; + move16(); sns_shape_spectrum_fx( x_fx[ch][k], &q_x, st->hTcxCfg->psychParamsCurrent, sns_int_scf_fx, q_sns_int_scf, st->hTcxCfg->psychParamsCurrent->nBins, &length ); IF( LT_16( q_2, add( q_x, 1 ) ) ) /*scaling to q_2*/ { @@ -1669,7 +1634,7 @@ void ivas_mdct_core_tns_ns_fx( } ELSE /*scaling to q_x+1*/ { - Scale_sig32( &x_fx[ch][k][0] + length, sub( L_spec[ch], length ), sub( add( q_x, 1 ), q_2 ) ); + Scale_sig32( &x_fx[ch][k][0] + length, sub( length2, length ), sub( add( q_x, 1 ), q_2 ) ); q_x = add( q_x, 1 ); } x_e[ch][k] = sub( 31, q_x ); diff --git a/lib_dec/ivas_mono_dmx_renderer.c b/lib_dec/ivas_mono_dmx_renderer_fx.c similarity index 94% rename from lib_dec/ivas_mono_dmx_renderer.c rename to lib_dec/ivas_mono_dmx_renderer_fx.c index 231aee8aaf0c2a827e56898d572f899a250ba0fb..1d24e0153383188ef0d0af15524a5cefeaee13b0 100644 --- a/lib_dec/ivas_mono_dmx_renderer.c +++ b/lib_dec/ivas_mono_dmx_renderer_fx.c @@ -34,9 +34,7 @@ #include "options.h" #include #include "cnst.h" -#include "prot.h" #include "prot_fx.h" -#include "ivas_prot.h" #include "ivas_prot_fx.h" #include "ivas_cnst.h" #include "ivas_rom_com.h" @@ -47,8 +45,13 @@ /*------------------------------------------------------------------------- * Local constants *------------------------------------------------------------------------*/ -#define DOWNMIX_ALPHA_FX 31130 /* Smoothing coefficient */ +#define DOWNMIX_ALPHA_FX 31130 /* Smoothing coefficient alpha */ +#ifdef NONBE_FIX_967_ISM_MONO_DMX +#define DOWNMIX_ONE_MINUS_ALPHA_FX 1638 /* Smoothing coefficient (1 - alpha) */ +#endif +#ifndef NONBE_FIX_967_ISM_MONO_DMX #define MONO_DOWNMIX_RENDERER_MAX_INPUT_CHANS 4 +#endif /*------------------------------------------------------------------------- * ivas_mono_dmx_renderer_open() @@ -104,11 +107,15 @@ void ivas_mono_dmx_renderer_close( } /*------------------------------------------------------------------------- - * ivas_mono_downmix_render_passive() + * ivas_ism_mono_dmx() * * Downmix process *------------------------------------------------------------------------*/ +#ifdef NONBE_FIX_967_ISM_MONO_DMX +void ivas_ism_mono_dmx_fx( +#else void ivas_mono_downmix_render_passive_fx( +#endif Decoder_Struct *st_ivas, /* i/o: IVAS decoder structure */ Word32 *output_f_fx[], /* i/o: synthesized core-coder transport channels/mono output Qin = 11/ Qout = 8*/ const Word16 output_frame /* i : output frame length */ @@ -122,6 +129,7 @@ void ivas_mono_downmix_render_passive_fx( Word16 Q_shift, proto_shift, input_shift, norm_protoEner, norm_inputEner, proto_norm; Word16 diff_shift, div, div_sqrt; Word32 protoEner_pre, inputEner_pre; + numInputChannels = st_ivas->nSCE; move16(); if ( EQ_32( st_ivas->ivas_format, SBA_ISM_FORMAT ) ) @@ -162,11 +170,13 @@ void ivas_mono_downmix_render_passive_fx( v_add_32( output_shr, proto_signal_fx, proto_signal_fx, output_frame ); } +#ifndef NONBE_FIX_967_ISM_MONO_DMX /* compute the input energy, proto energy after smoothing */ hDownmix->inputEnergy_fx = Mpy_32_16_1( hDownmix->inputEnergy_fx, DOWNMIX_ALPHA_FX ); move32(); hDownmix->protoEnergy_fx = Mpy_32_16_1( hDownmix->protoEnergy_fx, DOWNMIX_ALPHA_FX ); move32(); +#endif proto_norm = L_norm_arr( proto_signal_fx, output_frame ); @@ -187,6 +197,16 @@ void ivas_mono_downmix_render_passive_fx( } } +#ifdef NONBE_FIX_967_ISM_MONO_DMX + hDownmix->inputEnergy_fx = Mpy_32_16_1( hDownmix->inputEnergy_fx, DOWNMIX_ALPHA_FX ); + move32(); + hDownmix->protoEnergy_fx = Mpy_32_16_1( hDownmix->protoEnergy_fx, DOWNMIX_ALPHA_FX ); + move32(); + + protoEner_pre = Mpy_32_16_1( protoEner_pre, DOWNMIX_ONE_MINUS_ALPHA_FX ); + inputEner_pre = Mpy_32_16_1( inputEner_pre, DOWNMIX_ONE_MINUS_ALPHA_FX ); +#endif + /* compute the eq factor */ IF( hDownmix->protoEnergy_fx == 0 ) diff --git a/lib_dec/ivas_objectRenderer_internal.c b/lib_dec/ivas_objectRenderer_internal_fx.c similarity index 92% rename from lib_dec/ivas_objectRenderer_internal.c rename to lib_dec/ivas_objectRenderer_internal_fx.c index 98d9c73fc68294e65ddfbb653cf712dc1456fd93..71b16a6c6f6b9c59b7a8e00ee6247e8889688d97 100644 --- a/lib_dec/ivas_objectRenderer_internal.c +++ b/lib_dec/ivas_objectRenderer_internal_fx.c @@ -32,14 +32,12 @@ #include #include "options.h" -#include "prot.h" -#include "ivas_prot.h" -#include "ivas_prot_rend.h" +#include "prot_fx.h" +#include "ivas_prot_rend_fx.h" #include #include "ivas_rom_com.h" #include "wmc_auto.h" #include "ivas_prot_fx.h" -#include "prot_fx.h" #include "debug.h" @@ -65,51 +63,6 @@ ivas_error ivas_td_binaural_open_fx( } -/*---------------------------------------------------------------------* - * ivas_td_binaural_renderer() - * - * Receives the current frames for the object streams, updates metadata - * and renders the current frame. - *---------------------------------------------------------------------*/ - -ivas_error ivas_td_binaural_renderer_fx( - Decoder_Struct *st_ivas, /* i/o: IVAS decoder structure */ - Word32 *output[], /* i/o: SCE channels / Binaural synthesis Q11*/ - const Word16 output_frame /* i : output frame length */ -) -{ - Word16 ism_md_subframe_update; - Word16 nchan_transport; - test(); - IF( EQ_32( st_ivas->ism_mode, ISM_MASA_MODE_DISC ) || EQ_32( st_ivas->ism_mode, ISM_SBA_MODE_DISC ) ) - { - nchan_transport = st_ivas->nchan_ism; - } - ELSE - { - nchan_transport = st_ivas->nchan_transport; - } - move16(); - - IF( st_ivas->hDecoderConfig->Opt_delay_comp ) - { - ism_md_subframe_update = 1; - } - ELSE - { - ism_md_subframe_update = 2; - } - move16(); - - if ( EQ_32( st_ivas->ivas_format, MASA_ISM_FORMAT ) ) - { - ism_md_subframe_update = 2; - move16(); - } - return ivas_td_binaural_renderer_unwrap_fx( st_ivas->hReverb, st_ivas->transport_config, st_ivas->hBinRendererTd, nchan_transport, LFE_CHANNEL, st_ivas->ivas_format, st_ivas->hIsmMetaData, st_ivas->hCombinedOrientationData, ism_md_subframe_update, output, output_frame, MAX_PARAM_SPATIAL_SUBFRAMES ); -} - - /*---------------------------------------------------------------------* * ivas_td_binaural_renderer_sf() * diff --git a/lib_dec/ivas_omasa_dec.c b/lib_dec/ivas_omasa_dec_fx.c similarity index 98% rename from lib_dec/ivas_omasa_dec.c rename to lib_dec/ivas_omasa_dec_fx.c index c812dcfd1ef69e74f3ac3db7d0e776d31c63b4ab..2e7d5e47b54055e1d71515e3a2b4b0b8590a42ea 100644 --- a/lib_dec/ivas_omasa_dec.c +++ b/lib_dec/ivas_omasa_dec_fx.c @@ -33,14 +33,12 @@ #include "options.h" #include #include "ivas_cnst.h" -#include "ivas_prot.h" #include "ivas_prot_fx.h" -#include "prot.h" -#include "ivas_prot_rend.h" +#include "prot_fx.h" +#include "ivas_prot_rend_fx.h" #include "ivas_rom_com.h" #include "wmc_auto.h" #include "ivas_prot_fx.h" -#include "prot_fx.h" /*------------------------------------------------------------------------- @@ -722,22 +720,14 @@ void ivas_omasa_dirac_rend_jbm_fx( ivas_dirac_dec_render_fx( st_ivas, nchan_transport, nSamplesAsked, nSamplesRendered, nSamplesAvailable, output_f ); -#ifdef MSAN_FIX FOR( Word16 ind1 = 0; ind1 < MAX_NUM_OBJECTS; ind1++ ) -#else - FOR( Word16 ind1 = 0; ind1 < MAX_CICP_CHANNELS - 1; ind1++ ) -#endif // MSAN_FIX { scale_sig32( st_ivas->hIsmRendererData->prev_gains_fx[ind1], MAX_OUTPUT_CHANNELS, -1 ); // Q30 -> Q29 } ivas_omasa_separate_object_render_jbm_fx( st_ivas, *nSamplesRendered, data_separated_objects, output_f, subframes_rendered, slots_rendered ); -#ifdef MSAN_FIX FOR( Word16 ind1 = 0; ind1 < MAX_NUM_OBJECTS; ind1++ ) -#else - FOR( Word16 ind1 = 0; ind1 < MAX_CICP_CHANNELS - 1; ind1++ ) -#endif // MSAN_FIX { scale_sig32( st_ivas->hIsmRendererData->prev_gains_fx[ind1], MAX_OUTPUT_CHANNELS, 1 ); // Q29 -> Q30 } @@ -792,7 +782,7 @@ ivas_error ivas_omasa_dirac_td_binaural_jbm_fx( tc_local_fx[n] = st_ivas->hTcBuffer->tc_fx[n + 2]; // Q11 v_multc_fixed_16( tc_local_fx[n], gain_fx, tc_local_fx[n], tcBufferSize ); - delay_signal_fx( tc_local_fx[n], tcBufferSize, st_ivas->hMasaIsmData->delayBuffer_fx[n], st_ivas->hMasaIsmData->delayBuffer_size ); + delay_signal32_fx( tc_local_fx[n], tcBufferSize, st_ivas->hMasaIsmData->delayBuffer_fx[n], st_ivas->hMasaIsmData->delayBuffer_size ); } } diff --git a/lib_dec/ivas_osba_dec.c b/lib_dec/ivas_osba_dec_fx.c similarity index 97% rename from lib_dec/ivas_osba_dec.c rename to lib_dec/ivas_osba_dec_fx.c index 0bdc3528af6206d5491fd6bd802b5ca7f213bbe9..c96a91d5815fbd78752717eefacc6ca25ff20c8f 100644 --- a/lib_dec/ivas_osba_dec.c +++ b/lib_dec/ivas_osba_dec_fx.c @@ -33,13 +33,11 @@ #include "options.h" #include #include "ivas_cnst.h" -#include "ivas_prot.h" -#include "prot.h" -#include "ivas_prot_rend.h" +#include "prot_fx.h" +#include "ivas_prot_rend_fx.h" #include "ivas_rom_com.h" #include "wmc_auto.h" #include "ivas_prot_fx.h" -#include "prot_fx.h" /*-------------------------------------------------------------------* @@ -131,8 +129,7 @@ ivas_error ivas_osba_dirac_td_binaural_jbm_fx( const UWord16 nSamplesAsked, /* i : number of CLDFB slots requested */ UWord16 *nSamplesRendered, /* o : number of CLDFB slots rendered */ UWord16 *nSamplesAvailable, /* o : number of CLDFB slots still to render */ - Word32 *output_fx[], /* o : rendered time signal Q11*/ - Word16 out_len /*Store the length of values in each channel*/ + Word32 *output_fx[] /* o : rendered time signal Q11*/ ) { Word16 n; @@ -147,6 +144,11 @@ ivas_error ivas_osba_dirac_td_binaural_jbm_fx( move16(); #endif + FOR( Word16 i = 0; i < BINAURAL_CHANNELS; i++ ) + { + set32_fx( output_separated_objects_fx[i], 0, L_FRAME48k ); + } + FOR( n = 0; n < BINAURAL_CHANNELS; n++ ) { p_sepobj_fx[n] = &output_separated_objects_fx[n][0]; @@ -155,7 +157,7 @@ ivas_error ivas_osba_dirac_td_binaural_jbm_fx( channel_offset = st_ivas->nchan_ism; move16(); - IF( NE_32( ( error = ivas_sba_dec_render_fx( st_ivas, nSamplesAsked, nSamplesRendered, nSamplesAvailable, &output_fx[channel_offset], out_len ) ), IVAS_ERR_OK ) ) + IF( NE_32( ( error = ivas_sba_dec_render_fx( st_ivas, nSamplesAsked, nSamplesRendered, nSamplesAvailable, &output_fx[channel_offset] ) ), IVAS_ERR_OK ) ) { return error; } @@ -300,7 +302,7 @@ ivas_error ivas_osba_render_sf_fx( v_shr( p_output[n], Q11 - Q11, output_ism[n], nSamplesAsked ); // Q11 } - IF( NE_32( ( error = ivas_sba_dec_render_fx( st_ivas, nSamplesAsked, nSamplesRendered, nSamplesAvailableNext, p_output, 960 ) ), IVAS_ERR_OK ) ) + IF( NE_32( ( error = ivas_sba_dec_render_fx( st_ivas, nSamplesAsked, nSamplesRendered, nSamplesAvailableNext, p_output ) ), IVAS_ERR_OK ) ) { return error; } diff --git a/lib_dec/ivas_out_setup_conversion.c b/lib_dec/ivas_out_setup_conversion_fx.c similarity index 97% rename from lib_dec/ivas_out_setup_conversion.c rename to lib_dec/ivas_out_setup_conversion_fx.c index 02f37672dd740bee0e8c443e1e1f863599eac070..93a7c204e891f5b88d5519612e7a876a70a2a320 100644 --- a/lib_dec/ivas_out_setup_conversion.c +++ b/lib_dec/ivas_out_setup_conversion_fx.c @@ -34,13 +34,11 @@ #include "options.h" #include #include -#include "prot.h" -#include "ivas_prot.h" -#include "ivas_prot_rend.h" +#include "prot_fx.h" +#include "ivas_prot_rend_fx.h" #include "ivas_rom_com.h" #include "ivas_rom_rend.h" #include "wmc_auto.h" -#include "prot_fx.h" #include "ivas_prot_fx.h" #include "debug.h" @@ -481,12 +479,10 @@ ivas_error ivas_ls_setup_conversion_open_fx( set32_fx( hLsSetUpConversion->targetEnergyPrev_fx[0], 0, MAX_SFB + 2 ); set32_fx( hLsSetUpConversion->dmxEnergyPrev_fx[0], 0, MAX_SFB + 2 ); -#ifdef MSAN_FIX hLsSetUpConversion->te_prev_exp[0] = 0; hLsSetUpConversion->dmx_prev_exp[0] = 0; move16(); move16(); -#endif } /* Initialize the DMX conversion matrix */ @@ -588,14 +584,14 @@ void ivas_ls_setup_conversion_fx( Decoder_Struct *st_ivas, /* i : IVAS decoder structure */ const Word16 input_chans, /* i : number of input channels to the renderer */ const Word16 output_frame, /* i : frame length */ - Word32 *input[], /* i : LS input/output synthesis signal Q16*/ - Word32 *output[] /* i/o: LS input/output synthesis signal Q16*/ + Word32 *input[], /* i : LS input/output synthesis signal Qx*/ + Word32 *output[] /* i/o: LS input/output synthesis signal Qx*/ ) { Word16 chInIdx, chOutIdx, idx; LSSETUP_CONVERSION_HANDLE hLsSetUpConversion; Word32 dmxCoeff, tmpVal; - Word32 output_tmp[MAX_OUTPUT_CHANNELS][L_FRAME48k]; // Q16 + Word32 output_tmp[MAX_OUTPUT_CHANNELS][L_FRAME48k]; // Qx push_wmops( "LS_Renderer" ); @@ -661,6 +657,7 @@ void ivas_ls_setup_conversion_process_mdct_fx( Word16 transform_type[MAX_CICP_CHANNELS][2]; Word16 frameSize; Word32 targetEnergy[MAX_SFB + 2], dmxEnergy[MAX_SFB + 2]; + Word16 dmxEnergy_exp[MAX_SFB + 2], dmxEnergy_exp_temp; Word32 dmxCoeff; Word32 dmxSignalReal[L_FRAME48k], dmxSignalImag[L_FRAME48k]; Word32 eqGain; @@ -743,6 +740,9 @@ void ivas_ls_setup_conversion_process_mdct_fx( set32_fx( targetEnergy, 0, MAX_SFB + 2 ); set32_fx( dmxEnergy, 0, MAX_SFB + 2 ); + set16_fx( dmxEnergy_exp, 0, MAX_SFB + 2 ); + dmxEnergy_exp_temp = 0; + move16(); FOR( chOutIdx = 0; chOutIdx < outChannels; chOutIdx++ ) { @@ -833,6 +833,7 @@ void ivas_ls_setup_conversion_process_mdct_fx( FOR( bandIdx = 0; bandIdx < hLsSetUpConversion->sfbCnt; bandIdx++ ) { Word32 tmpReal, tmpImag, DMXEne; + Word16 DMXEne_exp; start = hLsSetUpConversion->sfbOffset[bandIdx]; move16(); @@ -842,6 +843,8 @@ void ivas_ls_setup_conversion_process_mdct_fx( /* Loop over all the bins in the band */ DMXEne = 0; move32(); + DMXEne_exp = 0; + move16(); FOR( binIdx = start; binIdx < stop; binIdx++ ) { tmpReal = dmxSignalReal[binIdx]; @@ -849,13 +852,20 @@ void ivas_ls_setup_conversion_process_mdct_fx( tmpImag = dmxSignalImag[binIdx]; move32(); - DMXEne = L_add( DMXEne, L_add( Mpy_32_32( tmpReal, tmpReal ), Mpy_32_32( tmpImag, tmpImag ) ) ); + DMXEne = BASOP_Util_Add_Mant32Exp( DMXEne, DMXEne_exp, L_add( Mpy_32_32( tmpReal, tmpReal ), Mpy_32_32( tmpImag, tmpImag ) ), sub( 40, shl( q_output, 1 ) ), &DMXEne_exp ); } - dmxEnergy[bandIdx] = L_add( dmxEnergy[bandIdx], DMXEne ); + dmxEnergy[bandIdx] = BASOP_Util_Add_Mant32Exp( dmxEnergy[bandIdx], dmxEnergy_exp[bandIdx], DMXEne, DMXEne_exp, &dmxEnergy_exp[bandIdx] ); move32(); + dmxEnergy_exp_temp = s_max( dmxEnergy_exp_temp, dmxEnergy_exp[bandIdx] ); } } /* end of out channel loop */ + /* Scaling to common exponent */ + FOR( bandIdx = 0; bandIdx < MAX_SFB + 2; bandIdx++ ) + { + dmxEnergy[bandIdx] = L_shl( dmxEnergy[bandIdx], sub( dmxEnergy_exp[bandIdx], dmxEnergy_exp_temp ) ); + move32(); + } /* Step 3: Peform energy smoothing */ Word16 te_scale = getScaleFactor32( hLsSetUpConversion->targetEnergyPrev_fx[0], hLsSetUpConversion->sfbCnt ); @@ -864,13 +874,13 @@ void ivas_ls_setup_conversion_process_mdct_fx( scale_sig32( hLsSetUpConversion->dmxEnergyPrev_fx[0], hLsSetUpConversion->sfbCnt, dmx_sacle ); Word16 te_max_e = s_max( sub( 40, shl( q_output, 1 ) ), sub( hLsSetUpConversion->te_prev_exp[0], te_scale ) ); - Word16 dmx_max_e = s_max( sub( 40, shl( q_output, 1 ) ), sub( hLsSetUpConversion->dmx_prev_exp[0], dmx_sacle ) ); + Word16 dmx_max_e = s_max( dmxEnergy_exp_temp, sub( hLsSetUpConversion->dmx_prev_exp[0], dmx_sacle ) ); FOR( bandIdx = 0; bandIdx < hLsSetUpConversion->sfbCnt; bandIdx++ ) { targetEnergy[bandIdx] = L_add( Mpy_32_32( LS_OUT_CONV_SMOOTHING_FACTOR_Q31, L_shr( targetEnergy[bandIdx], sub( te_max_e, sub( 40, shl( q_output, 1 ) ) ) ) ), Mpy_32_32( ( ONE_IN_Q31 - LS_OUT_CONV_SMOOTHING_FACTOR_Q31 ), L_shr( hLsSetUpConversion->targetEnergyPrev_fx[0][bandIdx], sub( te_max_e, sub( hLsSetUpConversion->te_prev_exp[0], te_scale ) ) ) ) ); move32(); - dmxEnergy[bandIdx] = L_add( Mpy_32_32( LS_OUT_CONV_SMOOTHING_FACTOR_Q31, L_shr( dmxEnergy[bandIdx], sub( dmx_max_e, sub( 40, shl( q_output, 1 ) ) ) ) ), Mpy_32_32( ( ONE_IN_Q31 - LS_OUT_CONV_SMOOTHING_FACTOR_Q31 ), L_shr( hLsSetUpConversion->dmxEnergyPrev_fx[0][bandIdx], sub( dmx_max_e, sub( hLsSetUpConversion->dmx_prev_exp[0], dmx_sacle ) ) ) ) ); + dmxEnergy[bandIdx] = L_add( Mpy_32_32( LS_OUT_CONV_SMOOTHING_FACTOR_Q31, L_shr( dmxEnergy[bandIdx], sub( dmx_max_e, dmxEnergy_exp_temp ) ) ), Mpy_32_32( ( ONE_IN_Q31 - LS_OUT_CONV_SMOOTHING_FACTOR_Q31 ), L_shr( hLsSetUpConversion->dmxEnergyPrev_fx[0][bandIdx], sub( dmx_max_e, sub( hLsSetUpConversion->dmx_prev_exp[0], dmx_sacle ) ) ) ) ); move32(); hLsSetUpConversion->targetEnergyPrev_fx[0][bandIdx] = targetEnergy[bandIdx]; /* te_prev_exp = 40 - 2*q_output */ move32(); diff --git a/lib_dec/ivas_output_config.c b/lib_dec/ivas_output_config_fx.c similarity index 99% rename from lib_dec/ivas_output_config.c rename to lib_dec/ivas_output_config_fx.c index 427aa2f1ba54c8216a747814f6225181b0536c2a..a8adb5387b933e7c9c5092e3327b0a906cdb3938 100644 --- a/lib_dec/ivas_output_config.c +++ b/lib_dec/ivas_output_config_fx.c @@ -33,7 +33,6 @@ #include #include "options.h" #include "ivas_cnst.h" -#include "ivas_prot.h" #include "ivas_stat_dec.h" #include "wmc_auto.h" #include "ivas_prot_fx.h" @@ -248,8 +247,7 @@ void ivas_renderer_select( test(); test(); test(); - test(); - IF( ( EQ_32( st_ivas->transport_config, IVAS_AUDIO_CONFIG_5_1 ) || EQ_32( st_ivas->transport_config, IVAS_AUDIO_CONFIG_7_1 ) ) && ( st_ivas->hDecoderConfig->Opt_Headrotation || st_ivas->hDecoderConfig->Opt_ExternalOrientation ) && ( EQ_32( st_ivas->mc_mode, MC_MODE_MCT ) || EQ_32( st_ivas->mc_mode, MC_MODE_PARAMUPMIX ) ) ) + IF( ( EQ_32( st_ivas->transport_config, IVAS_AUDIO_CONFIG_5_1 ) || EQ_32( st_ivas->transport_config, IVAS_AUDIO_CONFIG_7_1 ) ) && ( st_ivas->hDecoderConfig->Opt_Headrotation || st_ivas->hDecoderConfig->Opt_ExternalOrientation ) && EQ_32( st_ivas->mc_mode, MC_MODE_MCT ) ) { *renderer_type = RENDERER_BINAURAL_OBJECTS_TD; move16(); diff --git a/lib_dec/ivas_pca_dec_fx.c b/lib_dec/ivas_pca_dec_fx.c index 4a0c62e8d6a36bf22aa51a07e8eb1e17003a757b..98611ab7cbcf9af52799eb55c91a6353ee726624 100644 --- a/lib_dec/ivas_pca_dec_fx.c +++ b/lib_dec/ivas_pca_dec_fx.c @@ -32,12 +32,10 @@ #include #include "options.h" -#include "prot.h" -#include "ivas_prot.h" +#include "prot_fx.h" #include #include "ivas_cnst.h" #include "wmc_auto.h" -#include "prot_fx.h" #include "math.h" #include "ivas_prot_fx.h" diff --git a/lib_dec/ivas_post_proc.c b/lib_dec/ivas_post_proc_fx.c similarity index 90% rename from lib_dec/ivas_post_proc.c rename to lib_dec/ivas_post_proc_fx.c index dc4a1b01bb535cb49e980cd586ad705cc9669c0f..c0e69b91663e2275b0398e4dec3439df3baf5c1b 100644 --- a/lib_dec/ivas_post_proc.c +++ b/lib_dec/ivas_post_proc_fx.c @@ -35,9 +35,7 @@ #include "options.h" #include "cnst.h" #include "rom_com.h" -#include "prot.h" #include "prot_fx.h" -#include "ivas_prot.h" #include "ivas_prot_fx.h" #include "ivas_cnst.h" #include "wmc_auto.h" @@ -94,7 +92,7 @@ void ivas_post_proc_fx( IF( NE_16( sts[n]->core, TCX_20_CORE ) && NE_16( sts[n]->core, TCX_10_CORE ) ) { /* TCX-LTP Postfilter: used in Mode 1 to update memories and to avoid discontinuities when the past frame was TCX */ - tcx_ltp_post32( sts[n], hTcxLtpDec, ACELP_CORE, output_frame, 0, synth, NULL, output_q ); + tcx_ltp_post_fx32( sts[n], hTcxLtpDec, ACELP_CORE, output_frame, 0, synth, NULL, output_q ); } ELSE { @@ -114,10 +112,10 @@ void ivas_post_proc_fx( { Word16 numZeros = (Word16) ( NS2SA_FX2( output_Fs, N_ZERO_MDCT_NS ) ); /*Q0*/ move16(); - Copy32( sts[n]->hHQ_core->oldOut_fx + numZeros, sts[n]->hTcxDec->FBTCXdelayBuf_32, delay_comp ); /*Q11*/ + Copy32( sts[n]->hHQ_core->old_out_fx32 + numZeros, sts[n]->hTcxDec->FBTCXdelayBuf_32, delay_comp ); /*Q11*/ } - tcx_ltp_post32( sts[n], hTcxLtpDec, sts[n]->core, output_frame, add( NS2SA_FX2( output_Fs, ACELP_LOOK_NS ), delay_comp ), synth, sts[n]->hTcxDec->FBTCXdelayBuf_32, output_q ); + tcx_ltp_post_fx32( sts[n], hTcxLtpDec, sts[n]->core, output_frame, add( NS2SA_FX2( output_Fs, ACELP_LOOK_NS ), delay_comp ), synth, sts[n]->hTcxDec->FBTCXdelayBuf_32, output_q ); } } } @@ -154,12 +152,12 @@ void ivas_post_proc_fx( IF( NE_16( sts[0]->core, TCX_20_CORE ) && NE_16( sts[0]->core, TCX_10_CORE ) ) { /* update memories and to avoid discontinuities when the past frame was TCX */ - tcx_ltp_post32( sts[0], hTcxLtpDec, ACELP_CORE, output_frame, 0, output[k], NULL, output_q ); + tcx_ltp_post_fx32( sts[0], hTcxLtpDec, ACELP_CORE, output_frame, 0, output[k], NULL, output_q ); } ELSE { /*Use channel 0 side info.*/ - tcx_ltp_post32( sts[0], hTcxLtpDec, TCX_20_CORE, output_frame, NS2SA( output_Fs, STEREO_DFT32MS_OVL_NS ), output[k], hCPE->output_mem_fx[k], output_q ); + tcx_ltp_post_fx32( sts[0], hTcxLtpDec, TCX_20_CORE, output_frame, NS2SA_FX2( output_Fs, STEREO_DFT32MS_OVL_NS ), output[k], hCPE->output_mem_fx[k], output_q ); } } } @@ -245,12 +243,6 @@ void stereo_dft_dec_core_switching_fx( move16(); } -#ifndef MSAN_FIX - IF( st->p_bpf_noise_buf_32 ) - { - Scale_sig32( st->p_bpf_noise_buf_32, L_FRAME16k, sub( *q, Q11 ) ); - } -#endif test(); test(); @@ -268,16 +260,14 @@ void stereo_dft_dec_core_switching_fx( IF( ( ( ( st->last_core != ACELP_CORE ) || ( EQ_16( st->prev_bfi, 1 ) && EQ_16( st->last_core, ACELP_CORE ) && EQ_16( st->last_con_tcx, 1 ) ) ) && NE_16( st->last_core, AMR_WB_CORE ) ) || ( sba_dirac_stereo_dtx_flag && EQ_16( st->cng_type, FD_CNG ) ) ) /* TCX / HQ-CORE -> TCX / HQ-CORE */ { /* In case of a TCX to ACELP switch next frame */ - Copy32( &output_fx[st->L_frame - NS2SA_FX2( L_mult0( st->L_frame, FRAMES_PER_SEC ), STEREO_DFT32MS_OVL_NS )], hCPE->hStereoDft->buff_LBTCX_mem_fx, NS2SA_FX2( L_mult0( st->L_frame, FRAMES_PER_SEC ), STEREO_DFT32MS_OVL_NS ) ); /*q*/ + Copy32( &output_fx[st->L_frame - NS2SA( ( st->L_frame * FRAMES_PER_SEC ), STEREO_DFT32MS_OVL_NS )], hCPE->hStereoDft->buff_LBTCX_mem_fx, NS2SA_FX2( L_mult0( st->L_frame, FRAMES_PER_SEC ), STEREO_DFT32MS_OVL_NS ) ); /*q*/ /* BPF */ test(); test(); IF( st->p_bpf_noise_buf_32 && NE_16( st->core, HQ_CORE ) ) { -#ifdef MSAN_FIX Scale_sig32( st->p_bpf_noise_buf_32, st->L_frame, sub( *q, Q11 ) ); /*q*/ -#endif stereo_dft_dec_analyze_fx( hCPE, st->p_bpf_noise_buf_32, DFT_fx, 0, st->L_frame, output_frame, DFT_STEREO_DEC_ANA_BPF, 2, 0, q, q_DFT ); } /* st->p_bpf_noise_buf not updated FOR HQ core -> skip analysis and set input memory to zero */ @@ -296,11 +286,7 @@ void stereo_dft_dec_core_switching_fx( { Word16 mem_len = NS2SA_FX2( L_mult0( L_frameTCX, FRAMES_PER_SEC ), STEREO_DFT32MS_OVL_NS ); /*Q0*/ move16(); -#ifdef MSAN_FIX Word32 mem_len_inv = mem_len_inv_tbl[( mem_len / 25 ) - 1]; -#else - Word32 mem_len_inv = mem_len_inv_tbl[( mem_len / 25 )]; -#endif move32(); Word16 qmem_len = norm_l( mem_len ); Word32 mem_len_fx = L_shl( mem_len, qmem_len ); @@ -315,8 +301,8 @@ void stereo_dft_dec_core_switching_fx( /* Update FB input buff with hb synth FOR last delay_tdbwe sampled */ FOR( i = 0; i < delay_tdbwe; i++ ) { - hCPE->input_mem_fx[0][( ( NS2SA_FX2( L_mult0( L_frameTCX, FRAMES_PER_SEC ), STEREO_DFT32MS_OVL_NS ) - delay_tdbwe ) + i )] = - L_add( hCPE->input_mem_fx[0][NS2SA_FX2( L_add( L_sub( L_mult0( L_frameTCX, FRAMES_PER_SEC ), STEREO_DFT32MS_OVL_NS ), delay_tdbwe ), i )], hb_synth_fx[i] ); /*Q11*/ + hCPE->input_mem_fx[0][( ( NS2SA( L_frameTCX * FRAMES_PER_SEC, STEREO_DFT32MS_OVL_NS ) - delay_tdbwe ) + i )] = + L_add( hCPE->input_mem_fx[0][NS2SA( ( ( L_frameTCX * FRAMES_PER_SEC ) - STEREO_DFT32MS_OVL_NS ) + delay_tdbwe, i )], hb_synth_fx[i] ); /*Q11*/ move32(); } } @@ -325,7 +311,7 @@ void stereo_dft_dec_core_switching_fx( /* Update FB input buff with hb synth FOR last delay_tdbwe sampled */ FOR( i = 0; i < delay_tdbwe; i++ ) { - hCPE->input_mem_fx[0][( ( NS2SA_FX2( L_mult0( L_frameTCX, FRAMES_PER_SEC ), STEREO_DFT32MS_OVL_NS ) - delay_tdbwe ) + i )] = hb_synth_fx[i]; /*Q11*/ + hCPE->input_mem_fx[0][( ( NS2SA_FX2( L_frameTCX * FRAMES_PER_SEC, STEREO_DFT32MS_OVL_NS ) - delay_tdbwe ) + i )] = hb_synth_fx[i]; /*Q11*/ move32(); } } @@ -368,7 +354,7 @@ void stereo_dft_dec_core_switching_fx( /* In case of TCX frames, output LB TCX is zeroed out until the end but in case of an TCX->ACELP switch, this memory is needed, hence it is backed up */ /* Unlike the case when DFT32MS is disabled, there is only 1 DFT analysis window, hence in the TCX frame we don't want to do a DFT analysis FOR LB TCX but in a potential ACELP frame, we want the memories of the LB TCX FOR the last OLA samples so that HB analysis can be skipped */ - Copy32( &output_fx[st->L_frame - NS2SA_FX2( L_mult0( st->L_frame, FRAMES_PER_SEC ), STEREO_DFT32MS_OVL_NS )], hCPE->hStereoDft->buff_LBTCX_mem_fx, NS2SA_FX2( L_mult0( st->L_frame, FRAMES_PER_SEC ), STEREO_DFT32MS_OVL_NS ) ); /*q*/ + Copy32( &output_fx[st->L_frame - NS2SA_FX2( st->L_frame * FRAMES_PER_SEC, STEREO_DFT32MS_OVL_NS )], hCPE->hStereoDft->buff_LBTCX_mem_fx, NS2SA_FX2( L_mult0( st->L_frame, FRAMES_PER_SEC ), STEREO_DFT32MS_OVL_NS ) ); /*q*/ /*zero the rest FOR avoiding adding contribution except the last samples which are not considered in DFT analysis (potentially used in next ACELP frame)*/ IF( GT_32( st->last_core_brate, SID_2k40 ) ) @@ -418,8 +404,8 @@ void stereo_dft_dec_core_switching_fx( delay_comp = NS2SA_FX2( st->output_Fs, DELAY_CLDFB_NS ); /*Q0*/ move16(); - Copy32( &st->hHQ_core->oldOut_fx[( nZeros - ( delay_comp + NS2SA_FX2( L_mult0( output_frame, FRAMES_PER_SEC ), STEREO_DFT32MS_OVL_NS ) ) )], hCPE->input_mem_fx[0], NS2SA_FX2( L_mult0( output_frame, FRAMES_PER_SEC ), STEREO_DFT32MS_OVL_NS ) ); /*Q11*/ - Copy32( synth_fx, synth_tmp_fx, output_frame ); /*q*/ + Copy32( &st->hHQ_core->old_out_fx32[nZeros - ( delay_comp + NS2SA( output_frame * FRAMES_PER_SEC, STEREO_DFT32MS_OVL_NS ) )], hCPE->input_mem_fx[0], NS2SA_FX2( L_mult0( output_frame, FRAMES_PER_SEC ), STEREO_DFT32MS_OVL_NS ) ); /*Q11*/ + Copy32( synth_fx, synth_tmp_fx, output_frame ); /*q*/ Word16 mem_len; mem_len = NS2SA_FX2( L_mult0( st->L_frame, FRAMES_PER_SEC ), STEREO_DFT32MS_OVL_NS ); /*Q0*/ @@ -443,9 +429,7 @@ void stereo_dft_dec_core_switching_fx( /* BPF */ IF( st->p_bpf_noise_buf_32 ) { -#ifdef MSAN_FIX Scale_sig32( st->p_bpf_noise_buf_32, st->L_frame, sub( *q, Q11 ) ); /*q*/ -#endif stereo_dft_dec_analyze_fx( hCPE, st->p_bpf_noise_buf_32, DFT_fx, 0, st->L_frame, output_frame, DFT_STEREO_DEC_ANA_BPF, 0, 0, q, q_DFT ); } } @@ -462,11 +446,11 @@ void stereo_dft_dec_core_switching_fx( Word32 delay_dft_dec_lb_inv = (Word32) ( calc_inv / delay_dft_dec_lb ); FOR( i = 0; i < delay_dft_dec_lb; i++ ) { - hCPE->input_mem_LB_fx[0][( ( NS2SA_FX2( L_mult0( st->L_frame, FRAMES_PER_SEC ), STEREO_DFT32MS_OVL_NS ) - delay_dft_dec_lb ) + i )] = - Mpy_32_32( hCPE->input_mem_LB_fx[0][( ( NS2SA_FX2( L_mult0( st->L_frame, FRAMES_PER_SEC ), STEREO_DFT32MS_OVL_NS ) - delay_dft_dec_lb ) + i )], L_shl( i, qdelay_dft_dec_lb ) ); /*Q11 + qdelay_dft_dec_lb -31*/ + hCPE->input_mem_LB_fx[0][( ( NS2SA( st->L_frame * FRAMES_PER_SEC, STEREO_DFT32MS_OVL_NS ) - delay_dft_dec_lb ) + i )] = + Mpy_32_32( hCPE->input_mem_LB_fx[0][( NS2SA( st->L_frame * FRAMES_PER_SEC, STEREO_DFT32MS_OVL_NS ) - delay_dft_dec_lb ) + i], L_shl( i, qdelay_dft_dec_lb ) ); /*Q11 + qdelay_dft_dec_lb -31*/ move32(); - hCPE->input_mem_LB_fx[0][( ( NS2SA_FX2( L_mult0( st->L_frame, FRAMES_PER_SEC ), STEREO_DFT32MS_OVL_NS ) - delay_dft_dec_lb ) + i )] = - L_shl( Mpy_32_32( hCPE->input_mem_LB_fx[0][( ( NS2SA_FX2( L_mult0( st->L_frame, FRAMES_PER_SEC ), STEREO_DFT32MS_OVL_NS ) - delay_dft_dec_lb ) + i )], delay_dft_dec_lb_inv ), sub( Q31, qdelay_dft_dec_lb ) ); /*Q11*/ + hCPE->input_mem_LB_fx[0][( ( NS2SA( st->L_frame * FRAMES_PER_SEC, STEREO_DFT32MS_OVL_NS ) - delay_dft_dec_lb ) + i )] = + L_shl( Mpy_32_32( hCPE->input_mem_LB_fx[0][( ( NS2SA( st->L_frame * FRAMES_PER_SEC, STEREO_DFT32MS_OVL_NS ) - delay_dft_dec_lb ) + i )], delay_dft_dec_lb_inv ), sub( Q31, qdelay_dft_dec_lb ) ); /*Q11*/ move32(); } stereo_dft_dec_analyze_fx( hCPE, output_fx, DFT_fx, 0, st->L_frame, output_frame, DFT_STEREO_DEC_ANA_LB, 0, 0, q, q_DFT ); @@ -474,9 +458,7 @@ void stereo_dft_dec_core_switching_fx( /* BPF */ IF( st->p_bpf_noise_buf_32 ) { -#ifdef MSAN_FIX Scale_sig32( st->p_bpf_noise_buf_32, st->L_frame, sub( *q, Q11 ) ); /*q*/ -#endif stereo_dft_dec_analyze_fx( hCPE, st->p_bpf_noise_buf_32, DFT_fx, 0, st->L_frame, output_frame, DFT_STEREO_DEC_ANA_BPF, 0, 0, q, q_DFT ); } @@ -551,9 +533,7 @@ void stereo_dft_dec_core_switching_fx( /* BPF */ IF( st->p_bpf_noise_buf_32 ) { -#ifdef MSAN_FIX Scale_sig32( st->p_bpf_noise_buf_32, st->L_frame, sub( *q, Q11 ) ); /*q*/ -#endif stereo_dft_dec_analyze_fx( hCPE, st->p_bpf_noise_buf_32, DFT_fx, 0, st->L_frame, output_frame, DFT_STEREO_DEC_ANA_BPF, 0, 0, q, q_DFT ); } @@ -607,7 +587,7 @@ void stereo_dft_dec_core_switching_fx( Word16 numZeros = (Word16) ( NS2SA_FX2( st->sr_core, N_ZERO_MDCT_NS ) ); /*Q0*/ Word32 tmp_fade_fx[max( STEREO_DFT_ALLPASS_FADELEN_12k8, STEREO_DFT_ALLPASS_FADELEN_16k )]; - Copy32( st->hHQ_core->old_outLB_fx + numZeros, hCPE->hStereoDft->ap_fade_mem_fx, ap_fade_len ); /*st->hHQ_core->q_old_outLB_fx*/ + Copy32( st->hHQ_core->old_out_LB_fx32 + numZeros, hCPE->hStereoDft->ap_fade_mem_fx, ap_fade_len ); /*st->hHQ_core->q_old_outLB_fx*/ hCPE->hStereoDft->q_ap_fade_mem_fx = st->hHQ_core->q_old_outLB_fx; move16(); @@ -725,12 +705,6 @@ void stereo_dft_dec_core_switching_fx( } } -#ifndef MSAN_FIX - IF( st->p_bpf_noise_buf_32 ) - { - Scale_sig32( st->p_bpf_noise_buf_32, L_FRAME16k, negate( sub( *q, Q11 ) ) ); - } -#endif return; } diff --git a/lib_dec/ivas_qmetadata_dec.c b/lib_dec/ivas_qmetadata_dec_fx.c similarity index 99% rename from lib_dec/ivas_qmetadata_dec.c rename to lib_dec/ivas_qmetadata_dec_fx.c index c225f126aa014c9ac3332c93f920a47f3d33f21c..266389ea107fd4e6379448a03718d7bb03a6b543 100644 --- a/lib_dec/ivas_qmetadata_dec.c +++ b/lib_dec/ivas_qmetadata_dec_fx.c @@ -35,13 +35,11 @@ #include "options.h" #include #include "ivas_cnst.h" -#include "ivas_prot.h" #include "ivas_rom_com.h" #include "ivas_rom_dec.h" #include "wmc_auto.h" -#include "prot.h" - #include "prot_fx.h" + #include "ivas_prot_fx.h" #include "ivas_rom_com_fx.h" @@ -1115,7 +1113,6 @@ Word16 ivas_qmetadata_dec_decode_hr_384_512( } } -#ifdef MSAN_FIX FOR( b = 0; b < hQMetaData->q_direction[0].cfg.nbands; b++ ) { FOR( m = 0; m < hQMetaData->q_direction[0].cfg.nblocks; m++ ) @@ -1124,19 +1121,8 @@ Word16 ivas_qmetadata_dec_decode_hr_384_512( move32(); } } -#else - FOR( b = 0; b < MASA_MAXIMUM_CODING_SUBBANDS; b++ ) - { - FOR( m = 0; m < MAX_PARAM_SPATIAL_SUBFRAMES; m++ ) - { - hQMetaData->q_direction[0].band_data[b].energy_ratio_fx[m] = W_round64_L( W_nrg_ratio[0][b][m] ); - move32(); - } - } -#endif // MSAN_FIX IF( EQ_32( hQMetaData->no_directions, 2 ) ) { -#ifdef MSAN_FIX FOR( b = 0; b < hQMetaData->q_direction[0].cfg.nbands; b++ ) { FOR( m = 0; m < hQMetaData->q_direction[0].cfg.nblocks; m++ ) @@ -1145,16 +1131,6 @@ Word16 ivas_qmetadata_dec_decode_hr_384_512( move32(); } } -#else - FOR( b = 0; b < MASA_MAXIMUM_CODING_SUBBANDS; b++ ) - { - FOR( m = 0; m < MAX_PARAM_SPATIAL_SUBFRAMES; m++ ) - { - hQMetaData->q_direction[1].band_data[b].energy_ratio_fx[m] = W_round64_L( W_nrg_ratio[1][b][m] ); - move32(); - } - } -#endif // MSAN_FIX } /* Store status information for renderer use */ hQMetaData->ec_flag = 0; @@ -3258,7 +3234,8 @@ static Word16 read_truncGR_azimuth_fx( move16(); IF( LE_16( allowed_bits, add( no_subframes, 1 ) ) ) { - FOR( i = 0; i < min( allowed_bits, no_subframes ); i++ ) + Word16 len = s_min( allowed_bits, no_subframes ); + FOR( i = 0; i < len; i++ ) { IF( bitstream[( *pbit_pos )--] == 0 ) { @@ -4647,15 +4624,13 @@ static void read_stream_dct_coeffs_omasa_fx( Word16 *index, /*Q0*/ const Word16 first_line /*Q0*/ ) { - Word16 sign, nbits; + Word16 sign; Word16 i, j, i_min; - Word32 step; Word16 GR1, GR2; step = STEP_M2T_FX; move32(); - nbits = 0; move16(); sign = 1; move16(); @@ -4669,7 +4644,6 @@ static void read_stream_dct_coeffs_omasa_fx( sign = -1; move16(); } - nbits = add( nbits, 1 ); } set16_fx( q_idx, 0, len_stream ); @@ -4695,7 +4669,7 @@ static void read_stream_dct_coeffs_omasa_fx( { i_min = extract_l( L_add( shl( i_min, 1 ), bit_stream[( *index )--] ) ); /*Q0*/ } - nbits = add( nbits, j ); + /* read GR orders */ GR1 = extract_l( L_add( bit_stream[( *index )--], 1 ) ); /*Q0*/ IF( EQ_16( GR1, 2 ) ) diff --git a/lib_dec/ivas_qspherical_dec.c b/lib_dec/ivas_qspherical_dec_fx.c similarity index 99% rename from lib_dec/ivas_qspherical_dec.c rename to lib_dec/ivas_qspherical_dec_fx.c index 43ac6030557aee745f295581b745a3df14939641..f6ac39a99f081d7fc2a3d63802bb9983abe5bc7c 100644 --- a/lib_dec/ivas_qspherical_dec.c +++ b/lib_dec/ivas_qspherical_dec_fx.c @@ -33,11 +33,10 @@ #include #include "options.h" #include "ivas_cnst.h" -#include "ivas_prot.h" #include "ivas_rom_com.h" #include "ivas_stat_dec.h" #include "wmc_auto.h" -#include "prot.h" +#include "prot_fx.h" #include "ivas_rom_com_fx.h" #include "ivas_prot_fx.h" diff --git a/lib_dec/ivas_range_uni_dec.c b/lib_dec/ivas_range_uni_dec_fx.c similarity index 99% rename from lib_dec/ivas_range_uni_dec.c rename to lib_dec/ivas_range_uni_dec_fx.c index 6d6631f73ef26fef8765f8063be276a2c31f6056..9a49680e874a2d665b7ba37e3e0c2c47334cc18a 100644 --- a/lib_dec/ivas_range_uni_dec.c +++ b/lib_dec/ivas_range_uni_dec_fx.c @@ -31,17 +31,15 @@ *******************************************************************************************************/ #include -#include "ivas_prot.h" #include "ivas_cnst.h" #include "ivas_stat_dec.h" #include "cnst.h" #include "rom_com.h" #include #include "options.h" -#include "prot.h" +#include "prot_fx.h" #include "wmc_auto.h" #include "ivas_prot_fx.h" -#include "prot_fx.h" /* diff --git a/lib_dec/ivas_rom_dec.c b/lib_dec/ivas_rom_dec.c index 812d9957f450b6bc14e88f7470f90a15a5dcbd07..6f75230c9510b987af703f417b2b20e655e107f7 100644 --- a/lib_dec/ivas_rom_dec.c +++ b/lib_dec/ivas_rom_dec.c @@ -100,7 +100,7 @@ const Word32 dft_ap_gains_fx[5][3] = { 644245094, -644245120, 1073741824 } }; -const int16_t dft_ap_delays[3][3] = +const Word16 dft_ap_delays[3][3] = { { 2, 47, 61}, {29, 41, 73}, @@ -196,7 +196,7 @@ const Word16 dft_win_8k_fx[70] = * stereo CNA tables *------------------------------------------------------------------------*/ -const int16_t cna_init_bands[CNA_INIT_NBANDS + 1] = +const Word16 cna_init_bands[CNA_INIT_NBANDS + 1] = { 1, 4, 14, 33, 67, 171, 320 }; @@ -235,7 +235,7 @@ const Word16 min_smooth_gains2_fx[SBA_DIRAC_STEREO_NUM_BANDS] = /* all the "probability" tables for the actual AC are in the reversed cumulative counts table format; for example, given the counts table [c0 | c1 | c2 | c3] with c0 + c1 + c2 + c3 = 2 ^ 14, the reversed cumulative counts table is [2 ^ 14 | 2 ^ 14 - c0 | 2 ^ 14 - c0 - c1 | 2 ^ 14 - c0 - c1 - c2 | 2 ^ 14 - c0 - c1 - c2 - c3] */ -const uint16_t cum_freq_ECSQ_tab_param[ECSQ_CONFIG_COUNT][1 + ECSQ_PARAM_COUNT] = +const UWord16 cum_freq_ECSQ_tab_param[ECSQ_CONFIG_COUNT][1 + ECSQ_PARAM_COUNT] = { {0,1024,2048,3072,4096,5120,6144,7168,8192,9216,10240,11264,12288,13312,14336,15360,16384 }, {0,9294,16019,16213,16311,16346,16363,16371,16375,16377,16378,16379,16380,16381,16382,16383,16384 }, @@ -246,7 +246,7 @@ const uint16_t cum_freq_ECSQ_tab_param[ECSQ_CONFIG_COUNT][1 + ECSQ_PARAM_COUNT] {0,5836,14448,15610,16267,16343,16374,16375,16376,16377,16378,16379,16380,16381,16382,16383,16384 } }; -const uint16_t sym_freq_ECSQ_tab_param[ECSQ_CONFIG_COUNT][ECSQ_PARAM_COUNT] = +const UWord16 sym_freq_ECSQ_tab_param[ECSQ_CONFIG_COUNT][ECSQ_PARAM_COUNT] = { {1024,1024,1024,1024,1024,1024,1024,1024,1024,1024,1024,1024,1024,1024,1024,1024 }, {9294,6725,194,98,35,17,8,4,2,1,1,1,1,1,1,1 }, @@ -257,7 +257,7 @@ const uint16_t sym_freq_ECSQ_tab_param[ECSQ_CONFIG_COUNT][ECSQ_PARAM_COUNT] = {5836,8612,1162,657,76,31,1,1,1,1,1,1,1,1,1,1 } }; -const uint16_t cum_freq_ECSQ_tab_vals[ECSQ_PARAM_COUNT - 1][1 + ECSQ_TAB_VALS_SIZE] = +const UWord16 cum_freq_ECSQ_tab_vals[ECSQ_PARAM_COUNT - 1][1 + ECSQ_TAB_VALS_SIZE] = { {0,6445,12725,15035,15885,16198,16313,16355,16370,16376,16378,16379,16380,16381,16382,16383,16384 }, {0,3624,8645,11690,13537,14657,15336,15748,15998,16150,16242,16298,16332,16352,16364,16372,16384 }, @@ -276,7 +276,7 @@ const uint16_t cum_freq_ECSQ_tab_vals[ECSQ_PARAM_COUNT - 1][1 + ECSQ_TAB_VALS_SI {0,3623,6446,8644,10356,11689,12727,13536,14166,14657,15039,15337,15569,15749,15890,15999,16384 }, }; -const uint16_t sym_freq_ECSQ_tab_vals[ECSQ_PARAM_COUNT - 1][ECSQ_TAB_VALS_SIZE] = +const UWord16 sym_freq_ECSQ_tab_vals[ECSQ_PARAM_COUNT - 1][ECSQ_TAB_VALS_SIZE] = { {6445,6280,2310,850,313,115,42,15,6,2,1,1,1,1,1,1 }, {3624,5021,3045,1847,1120,679,412,250,152,92,56,34,20,12,8,12 }, @@ -295,59 +295,59 @@ const uint16_t sym_freq_ECSQ_tab_vals[ECSQ_PARAM_COUNT - 1][ECSQ_TAB_VALS_SIZE] {3623,2823,2198,1712,1333,1038,809,630,491,382,298,232,180,141,109,385 }, }; -const uint16_t cum_freq_ECSQ_tab_abs_1bit[1 + 2] = +const UWord16 cum_freq_ECSQ_tab_abs_1bit[1 + 2] = { 0, 5462, 16384 }; /* table for uniform coding of absolute values in {0, +-1, +-2, +-3} */ -const uint16_t cum_freq_ECSQ_tab_abs_2bit[1 + 4] = +const UWord16 cum_freq_ECSQ_tab_abs_2bit[1 + 4] = { 0, 2338, 7020, 11702, 16384 }; /* table for uniform coding of absolute values in {0, +-1, ..., +-7} */ -const uint16_t cum_freq_ECSQ_tab_abs_3bit[1 + 8] = +const UWord16 cum_freq_ECSQ_tab_abs_3bit[1 + 8] = { 0, 1096, 3280, 5464, 7648, 9832, 12016, 14200, 16384 }; /* table for uniform coding of absolute values in {0, +-1, ..., +-15} */ -const uint16_t cum_freq_ECSQ_tab_abs_4bit[1 + 16] = +const UWord16 cum_freq_ECSQ_tab_abs_4bit[1 + 16] = { 0, 514, 1572, 2630, 3688, 4746, 5804, 6862, 7920, 8978, 10036, 11094, 12152, 13210, 14268, 15326, 16384 }; -const uint16_t sym_freq_ECSQ_tab_abs_1bit[2] = +const UWord16 sym_freq_ECSQ_tab_abs_1bit[2] = { 5462, 10922 }; /* table for uniform coding of absolute values in {0, +-1, +-2, +-3} */ -const uint16_t sym_freq_ECSQ_tab_abs_2bit[4] = +const UWord16 sym_freq_ECSQ_tab_abs_2bit[4] = { 2338, 4682, 4682, 4682 }; /* table for uniform coding of absolute values in {0, +-1, ..., +-7} */ -const uint16_t sym_freq_ECSQ_tab_abs_3bit[8] = +const UWord16 sym_freq_ECSQ_tab_abs_3bit[8] = { 1096, 2184, 2184, 2184, 2184, 2184, 2184, 2184 }; /* table for uniform coding of absolute values in {0, +-1, ..., +-15} */ -const uint16_t sym_freq_ECSQ_tab_abs_4bit[16] = +const UWord16 sym_freq_ECSQ_tab_abs_4bit[16] = { 514, 1058, 1058, 1058, 1058, 1058, 1058, 1058, 1058, 1058, 1058, 1058, 1058, 1058, 1058, 1058 }; /* array of tables for uniform coding of absolute values */ -const uint16_t * const cum_freq_ECSQ_tab_abs_lsbs[1 + 4] = +const UWord16 * const cum_freq_ECSQ_tab_abs_lsbs[1 + 4] = { NULL, cum_freq_ECSQ_tab_abs_1bit, cum_freq_ECSQ_tab_abs_2bit, cum_freq_ECSQ_tab_abs_3bit, cum_freq_ECSQ_tab_abs_4bit }; -const uint16_t * const sym_freq_ECSQ_tab_abs_lsbs[1 + 4] = +const UWord16 * const sym_freq_ECSQ_tab_abs_lsbs[1 + 4] = { NULL, sym_freq_ECSQ_tab_abs_1bit, sym_freq_ECSQ_tab_abs_2bit, sym_freq_ECSQ_tab_abs_3bit, sym_freq_ECSQ_tab_abs_4bit }; @@ -391,7 +391,7 @@ const Word32 dmxmtx_table_fx[BINAURAL_CHANNELS][11] = *-----------------------------------------------------------------------*/ /* Alpha Fine Huffman table df0 */ -static const int16_t huff_nodes_first_band_alpha[32][2] = +static const Word16 huff_nodes_first_band_alpha[32][2] = { { -17, 1 }, { 3, 2 }, @@ -428,7 +428,7 @@ static const int16_t huff_nodes_first_band_alpha[32][2] = }; /* Alpha Fine Huffman table df */ -static const int16_t huff_nodes_alpha_1D_DF[64][2] = +static const Word16 huff_nodes_alpha_1D_DF[64][2] = { { -33, 1 }, { 3, 2 }, @@ -497,7 +497,7 @@ static const int16_t huff_nodes_alpha_1D_DF[64][2] = }; /* Alpha Fine Huffman table dt */ -static const int16_t huff_nodes_alpha_1D_DT[64][2] = +static const Word16 huff_nodes_alpha_1D_DT[64][2] = { { -33, 1 }, { -34, 2 }, @@ -566,19 +566,19 @@ static const int16_t huff_nodes_alpha_1D_DT[64][2] = }; /* Beta Fine Huffman table df0 */ -static const int16_t huff_nodes_first_band_beta[8][2] = +static const Word16 huff_nodes_first_band_beta[8][2] = { { -1, 1 }, { -2, 2 }, { -3, 3 }, { -4, 4 }, { -5, 5 }, { -6, 6 }, { -7, 7 }, { -8, -9 } }; /* Beta Fine Huffman table df */ -static const int16_t huff_nodes_beta_1D_DF[16][2] = +static const Word16 huff_nodes_beta_1D_DF[16][2] = { { -9, 1 }, { -10, 2 }, { -8, 3 }, { -11, 4 }, { -7, 5 }, { 7, 6 }, { -6, -12 }, { 9, 8 }, { -5, -13 }, { 11, 10 }, { -4, -14 }, { -15, 12 }, { -3, 13 }, { -16, 14 }, { -2, 15 }, { -1, -17 } }; /* Beta Fine Huffman table dt */ -static const int16_t huff_nodes_beta_1D_DT[16][2] = +static const Word16 huff_nodes_beta_1D_DT[16][2] = { { -9, 1 }, { -10, 2 }, { -8, 3 }, { -11, 4 }, { -7, 5 }, { 7, 6 }, { -6, -12 }, { -13, 8 }, { -5, 9 }, { -14, 10 }, { -4, 11 }, { -15, 12 }, { -3, 13 }, { -16, 14 }, { -2, 15 }, { -1, -17 } }; diff --git a/lib_dec/ivas_rom_dec.h b/lib_dec/ivas_rom_dec.h index 11752380def460b241ebd09af98298a0a29c2465..84c1a94a07d72577dc9dcafdef45974da14bc540 100644 --- a/lib_dec/ivas_rom_dec.h +++ b/lib_dec/ivas_rom_dec.h @@ -53,7 +53,7 @@ extern const Word16 dft_alpha_s2_b2_fx[STEREO_DFT_BAND_MAX]; extern const Word32 dft_bpf_weights_fx[]; extern const Word32 dft_ap_gains_fx[5][3]; -extern const int16_t dft_ap_delays[3][3]; +extern const Word16 dft_ap_delays[3][3]; extern const Word16 dft_win232ms_8k_fx[75]; extern const Word16 dft_win232ms_12k8_fx[120]; extern const Word16 dft_win232ms_16k_fx[150]; @@ -62,7 +62,7 @@ extern const Word16 dft_win232ms_48k_fx[450]; extern const Word16 dft_res_pred_weights_fx[][STEREO_DFT_BAND_MAX]; extern const Word16 dft_win_8k_fx[70]; -extern const int16_t cna_init_bands[CNA_INIT_NBANDS + 1]; +extern const Word16 cna_init_bands[CNA_INIT_NBANDS + 1]; extern const Word16 min_smooth_gains1_fx[SBA_DIRAC_STEREO_NUM_BANDS]; @@ -74,12 +74,12 @@ extern const Word16 max_smooth_gains2_fx[SBA_DIRAC_STEREO_NUM_BANDS]; * ECLVQ Stereo ROM tables *----------------------------------------------------------------------------------*/ -extern const uint16_t cum_freq_ECSQ_tab_param[ECSQ_CONFIG_COUNT][1 + ECSQ_PARAM_COUNT]; -extern const uint16_t sym_freq_ECSQ_tab_param[ECSQ_CONFIG_COUNT][ECSQ_PARAM_COUNT]; -extern const uint16_t cum_freq_ECSQ_tab_vals[ECSQ_PARAM_COUNT - 1][1 + ECSQ_TAB_VALS_SIZE]; -extern const uint16_t sym_freq_ECSQ_tab_vals[ECSQ_PARAM_COUNT - 1][ECSQ_TAB_VALS_SIZE]; -extern const uint16_t *const cum_freq_ECSQ_tab_abs_lsbs[1 + 4]; -extern const uint16_t *const sym_freq_ECSQ_tab_abs_lsbs[1 + 4]; +extern const UWord16 cum_freq_ECSQ_tab_param[ECSQ_CONFIG_COUNT][1 + ECSQ_PARAM_COUNT]; +extern const UWord16 sym_freq_ECSQ_tab_param[ECSQ_CONFIG_COUNT][ECSQ_PARAM_COUNT]; +extern const UWord16 cum_freq_ECSQ_tab_vals[ECSQ_PARAM_COUNT - 1][1 + ECSQ_TAB_VALS_SIZE]; +extern const UWord16 sym_freq_ECSQ_tab_vals[ECSQ_PARAM_COUNT - 1][ECSQ_TAB_VALS_SIZE]; +extern const UWord16 *const cum_freq_ECSQ_tab_abs_lsbs[1 + 4]; +extern const UWord16 *const sym_freq_ECSQ_tab_abs_lsbs[1 + 4]; /*----------------------------------------------------------------------------------* diff --git a/lib_dec/ivas_sba_dec.c b/lib_dec/ivas_sba_dec_fx.c similarity index 98% rename from lib_dec/ivas_sba_dec.c rename to lib_dec/ivas_sba_dec_fx.c index f5723f8bb642b47b5da848811b2e8c27228c0dcf..fdbcdef48b53768d6ba50d4ec54ff5bdfa5c4a2b 100644 --- a/lib_dec/ivas_sba_dec.c +++ b/lib_dec/ivas_sba_dec_fx.c @@ -35,16 +35,14 @@ #include "options.h" #include "cnst.h" #include "ivas_cnst.h" -#include "prot.h" -#include "ivas_prot.h" -#include "ivas_prot_rend.h" +#include "prot_fx.h" +#include "ivas_prot_rend_fx.h" #include "rom_com.h" #include "ivas_rom_com.h" #include "ivas_rom_dec.h" #include #include "wmc_auto.h" #include "ivas_prot_fx.h" -#include "prot_fx.h" /*-------------------------------------------------------------------* * ivas_sba_set_cna_cng_flag() * @@ -235,7 +233,7 @@ ivas_error ivas_sba_dec_reconfigure_fx( } /* determine new granularity */ - granularity_new = NS2SA( st_ivas->hDecoderConfig->output_Fs, CLDFB_SLOT_NS ); /*Q0*/ + granularity_new = NS2SA_FX2( st_ivas->hDecoderConfig->output_Fs, CLDFB_SLOT_NS ); /*Q0*/ move16(); /* this will change anyway only with binaural */ @@ -363,12 +361,8 @@ ivas_error ivas_sba_dec_reconfigure_fx( test(); test(); test(); -#ifdef NONBE_FIX_708_OSBA_BR_SWITCHING_CRASH test(); IF( hSpar->hPCA == NULL && EQ_32( st_ivas->hDecoderConfig->ivas_total_brate, PCA_BRATE ) && EQ_16( st_ivas->sba_order, 1 ) && ( EQ_32( st_ivas->ivas_format, SBA_FORMAT ) || EQ_32( st_ivas->ivas_format, SBA_ISM_FORMAT ) ) ) -#else - IF( hSpar->hPCA == NULL && EQ_32( st_ivas->hDecoderConfig->ivas_total_brate, PCA_BRATE ) && EQ_16( st_ivas->sba_order, 1 ) && EQ_32( st_ivas->ivas_format, SBA_FORMAT ) ) -#endif { IF( ( hSpar->hPCA = (PCA_DEC_STATE *) malloc( sizeof( PCA_DEC_STATE ) ) ) == NULL ) { @@ -491,7 +485,7 @@ ivas_error ivas_sba_dec_reconfigure_fx( } ivas_dirac_config_bands_fx( band_grouping, IVAS_MAX_NUM_BANDS, (Word16) ( L_add( st_ivas->hDecoderConfig->output_Fs, 400 ) / CLDFB_BANDWIDTH ), - st_ivas->hSpar->dirac_to_spar_md_bands, st_ivas->hQMetaData->useLowerBandRes, st_ivas->hSpar->enc_param_start_band, 0 ); + st_ivas->hSpar->dirac_to_spar_md_bands, st_ivas->hQMetaData->useLowerBandRes, st_ivas->hSpar->enc_param_start_band, 0, 1 ); if ( st_ivas->hDirAC ) { @@ -909,8 +903,7 @@ ivas_error ivas_sba_dec_render_fx( const UWord16 nSamplesAsked, /* i : number of CLDFB slots requested Q0*/ UWord16 *nSamplesRendered, /* o : number of CLDFB slots rendered Q0*/ UWord16 *nSamplesAvailableNext, /* o : number of CLDFB slots still to render Q0*/ - Word32 *output_fx[], /* o : rendered time signal Q11*/ - Word16 out_len /*Store the length of values in each channel*/ + Word32 *output_fx[] /* o : rendered time signal Q11*/ ) { Word16 slots_to_render, first_sf, last_sf, subframe_idx; @@ -919,11 +912,8 @@ ivas_error ivas_sba_dec_render_fx( SPAR_DEC_HANDLE hSpar; SPAT_PARAM_REND_COMMON_DATA_HANDLE hSpatParamRendCom; Word32 *output_f_local_fx[MAX_OUTPUT_CHANNELS]; - Word16 output_f_local_len; ivas_error error; - output_f_local_len = out_len; - move16(); hSpar = st_ivas->hSpar; hSpatParamRendCom = st_ivas->hSpatParamRendCom; nchan_internal = ivas_sba_get_nchan_metadata_fx( st_ivas->sba_analysis_order, st_ivas->hDecoderConfig->ivas_total_brate ); @@ -955,13 +945,11 @@ ivas_error ivas_sba_dec_render_fx( { Word16 n_samples_sf = imult1616( slot_size, hSpar->subframe_nbslots[subframe_idx] ); /*Q0*/ - ivas_spar_dec_upmixer_sf_fx( st_ivas, output_f_local_fx, nchan_internal, output_f_local_len ); + ivas_spar_dec_upmixer_sf_fx( st_ivas, output_f_local_fx, nchan_internal ); FOR( ch = 0; ch < nchan_out; ch++ ) { output_f_local_fx[ch] = output_f_local_fx[ch] + n_samples_sf; /*Q11*/ } - - output_f_local_len = sub( output_f_local_len, n_samples_sf ); /* update combined orientation access index */ ivas_combined_orientation_update_index( st_ivas->hCombinedOrientationData, n_samples_sf ); } diff --git a/lib_dec/ivas_sba_dirac_stereo_dec_fx.c b/lib_dec/ivas_sba_dirac_stereo_dec_fx.c index 150d81b13d68cd228ffcd96b71dcc940e7f2ab13..e20e2df9ae0359478f56eb02f199311218e21177 100644 --- a/lib_dec/ivas_sba_dirac_stereo_dec_fx.c +++ b/lib_dec/ivas_sba_dirac_stereo_dec_fx.c @@ -35,7 +35,6 @@ #include "cnst.h" #include "ivas_cnst.h" #include "prot_fx.h" -#include "ivas_prot.h" #include "ivas_prot_fx.h" #include "rom_com.h" #include "ivas_rom_com.h" @@ -728,12 +727,10 @@ static void ivas_sba_dirac_stereo_compute_td_stefi_nrgs( ELSE { set32_fx( hStereoDft->hb_stefi_sig_fx + hStereoDft->hb_stefi_delay, 0, output_frame ); -#ifdef MSAN_FIX hStereoDft->hb_nrg_subr_fx[0] = 0; move32(); hStereoDft->hb_nrg_subr_fx[1] = 0; move32(); -#endif // MSAN_FIX } hStereoDft->hb_nrg_subr_fx[0] = hStereoDft->hb_nrg_subr_fx[0]; // imult3216(hStereoDft->hb_nrg_subr_fx[0] , shr(hStereoDft->NFFT, 1)); /*hStereoDft->q_hb_nrg_subr*/ move32(); @@ -1243,12 +1240,10 @@ void ivas_sba_dirac_stereo_dec_fx( CPE_DEC_HANDLE hCPE; STEREO_DFT_DEC_DATA_HANDLE hStereoDft; -#ifdef MSAN_FIX FOR( Word16 i = 0; i < CPE_CHANNELS; i++ ) { set32_fx( DFT[i], 0, STEREO_DFT_BUF_MAX ); } -#endif hSCE = st_ivas->hSCE[0]; hCPE = st_ivas->hCPE[0]; @@ -1260,18 +1255,10 @@ void ivas_sba_dirac_stereo_dec_fx( q_dft[1] = hCPE->hStereoDft->q_dft; move16(); -#ifdef MSAN_FIX Scale_sig32( hCPE->prev_hb_synth_fx[0], NS2SA_FX2( st_ivas->hDecoderConfig->output_Fs, IVAS_DEC_DELAY_NS - DELAY_BWE_TOTAL_NS ), negate( sub( Q11, hCPE->hStereoDft->q_dft ) ) ); /*hSCE->q_prev_hb_synth_fx + hCPE->hStereoDft->q_dft - Q11*/ -#else - Scale_sig32( hCPE->prev_hb_synth_fx[0], NS2SA_FX2( 48000, IVAS_DEC_DELAY_NS - DELAY_BWE_TOTAL_NS ), -( Q11 - hCPE->hStereoDft->q_dft ) ); -#endif IF( hSCE != NULL ) { -#ifdef MSAN_FIX Scale_sig32( hSCE->prev_hb_synth_fx, NS2SA_FX2( st_ivas->hDecoderConfig->output_Fs, IVAS_DEC_DELAY_NS - DELAY_BWE_TOTAL_NS ), negate( sub( Q11, hCPE->hStereoDft->q_dft ) ) ); /*hSCE->q_prev_hb_synth_fx + hCPE->hStereoDft->q_dft - Q11*/ -#else - Scale_sig32( hSCE->prev_hb_synth_fx, NS2SA_FX2( 48000, IVAS_DEC_DELAY_NS - DELAY_BWE_TOTAL_NS ), -( Q11 - hCPE->hStereoDft->q_dft ) ); -#endif // MSAN_FIX hSCE->q_prev_hb_synth_fx = hCPE->hStereoDft->q_dft; move16(); } @@ -1295,7 +1282,7 @@ void ivas_sba_dirac_stereo_dec_fx( sba_mono_flag = (Word16) EQ_16( st_ivas->hDecoderConfig->nchan_out, 1 ); move16(); - memOffset = NS2SA( L_mult0( output_frame, FRAMES_PER_SEC ), IVAS_DEC_DELAY_NS - DELAY_BWE_TOTAL_NS ); + memOffset = NS2SA_FX2( L_mult0( output_frame, FRAMES_PER_SEC ), IVAS_DEC_DELAY_NS - DELAY_BWE_TOTAL_NS ); move16(); ivas_sba_dirac_stereo_config( hStereoDft->hConfig ); @@ -1401,18 +1388,10 @@ void ivas_sba_dirac_stereo_dec_fx( set32_fx( output[ch], 0, output_frame ); } -#ifdef MSAN_FIX Scale_sig32( hCPE->prev_hb_synth_fx[0], NS2SA_FX2( st_ivas->hDecoderConfig->output_Fs, IVAS_DEC_DELAY_NS - DELAY_BWE_TOTAL_NS ), sub( Q11, hCPE->hStereoDft->q_dft ) ); /*hSCE->q_prev_hb_synth_fx + Q11 - hCPE->hStereoDft->q_dft*/ -#else - Scale_sig32( hCPE->prev_hb_synth_fx[0], NS2SA_FX2( 48000, IVAS_DEC_DELAY_NS - DELAY_BWE_TOTAL_NS ), ( Q11 - hCPE->hStereoDft->q_dft ) ); -#endif IF( hSCE != NULL ) { -#ifdef MSAN_FIX Scale_sig32( hSCE->prev_hb_synth_fx, NS2SA_FX2( st_ivas->hDecoderConfig->output_Fs, IVAS_DEC_DELAY_NS - DELAY_BWE_TOTAL_NS ), sub( Q11, hCPE->hStereoDft->q_dft ) ); /*hSCE->q_prev_hb_synth_fx + Q11 - hCPE->hStereoDft->q_dft*/ -#else - Scale_sig32( hSCE->prev_hb_synth_fx, NS2SA_FX2( 48000, IVAS_DEC_DELAY_NS - DELAY_BWE_TOTAL_NS ), ( Q11 - hCPE->hStereoDft->q_dft ) ); -#endif // MSAN_FIX hSCE->q_prev_hb_synth_fx = Q11; move16(); } diff --git a/lib_dec/ivas_sba_rendering_internal.c b/lib_dec/ivas_sba_rendering_internal_fx.c similarity index 99% rename from lib_dec/ivas_sba_rendering_internal.c rename to lib_dec/ivas_sba_rendering_internal_fx.c index 434fdf5fa25d447efa4f26eaf0160d8953113e94..bbe63e965c4dd80be1cedec78bd8365bdd4b3a92 100644 --- a/lib_dec/ivas_sba_rendering_internal.c +++ b/lib_dec/ivas_sba_rendering_internal_fx.c @@ -32,15 +32,13 @@ #include #include "options.h" -#include "prot.h" -#include "ivas_prot.h" -#include "ivas_prot_rend.h" +#include "prot_fx.h" +#include "ivas_prot_rend_fx.h" #include "ivas_stat_dec.h" #include "ivas_cnst.h" #include #include "wmc_auto.h" #include "ivas_prot_fx.h" -#include "prot_fx.h" #ifdef DEBUGGING #include "debug.h" #endif @@ -321,7 +319,7 @@ Word16 ivas_sba_remapTCs_fx( Copy32( sba_data_fx[2], sba_data_fx[3], output_frame ); /*Q11*/ } } - IF( GT_16( st_ivas->nchan_transport, 3 ) ) + IF( GE_16( st_ivas->nchan_transport, 3 ) ) { Word16 i = 0; move16(); diff --git a/lib_dec/ivas_sce_dec_fx.c b/lib_dec/ivas_sce_dec_fx.c index ce4992046a8a59bd0604d78f2bf3c2db7a53f673..6e1893015fec3992e084426df2874572579b5d15 100644 --- a/lib_dec/ivas_sce_dec_fx.c +++ b/lib_dec/ivas_sce_dec_fx.c @@ -36,9 +36,7 @@ #include "cnst.h" #include "ivas_cnst.h" #include "rom_com.h" -#include "prot.h" #include "prot_fx.h" -#include "ivas_prot.h" #include "ivas_prot_fx.h" #include "ivas_rom_com.h" #include "wmc_auto.h" @@ -320,13 +318,13 @@ ivas_error ivas_sce_dec_fx( * LB synthesis synchronization between IVAS formats *----------------------------------------------------------------*/ - delay_signal_fx( output[0], output_frame, st->prev_synth_buffer32_fx, NS2SA_FX2( output_Fs, IVAS_DEC_DELAY_NS - DELAY_CLDFB_NS ) ); + delay_signal32_fx( output[0], output_frame, st->prev_synth_buffer32_fx, NS2SA_FX2( output_Fs, IVAS_DEC_DELAY_NS - DELAY_CLDFB_NS ) ); /*----------------------------------------------------------------* * HB synthesis synchronization between IVAS formats *----------------------------------------------------------------*/ - delay_signal_fx( outputHB[0], output_frame, hSCE->prev_hb_synth_fx, NS2SA_FX2( output_Fs, IVAS_DEC_DELAY_NS - DELAY_BWE_TOTAL_NS ) ); + delay_signal32_fx( outputHB[0], output_frame, hSCE->prev_hb_synth_fx, NS2SA_FX2( output_Fs, IVAS_DEC_DELAY_NS - DELAY_BWE_TOTAL_NS ) ); /*----------------------------------------------------------------* * output LB and HB mix @@ -410,8 +408,6 @@ ivas_error create_sce_dec( move16(); st->is_ism_format = 0; move16(); - st->ivas_format = st_ivas->ivas_format; - move16(); test(); if ( EQ_16( (Word16) st_ivas->ivas_format, ISM_FORMAT ) || EQ_16( (Word16) st_ivas->ivas_format, MASA_ISM_FORMAT ) ) @@ -440,7 +436,7 @@ ivas_error create_sce_dec( IF( EQ_16( (Word16) st_ivas->ivas_format, SBA_FORMAT ) && ( EQ_16( (Word16) st_ivas->hDecoderConfig->output_config, IVAS_AUDIO_CONFIG_STEREO ) || ( EQ_16( (Word16) st_ivas->hDecoderConfig->output_config, IVAS_AUDIO_CONFIG_MONO ) && EQ_16( st_ivas->nchan_transport, 1 ) ) ) ) { - IF( NE_32( ( error = openCldfb_ivas_fx( &st->cldfbSynHB, CLDFB_SYNTHESIS, st->output_Fs, CLDFB_PROTOTYPE_1_25MS ) ), IVAS_ERR_OK ) ) + IF( NE_32( ( error = openCldfb_ivas_fx( &st->cldfbSynHB, CLDFB_SYNTHESIS, st->output_Fs, CLDFB_PROTOTYPE_1_25MS, DEC ) ), IVAS_ERR_OK ) ) { return error; } @@ -458,7 +454,7 @@ ivas_error create_sce_dec( return ( IVAS_ERROR( IVAS_ERR_FAILED_ALLOC, "Can not allocate memory for DTX/TD CNG\n" ) ); } - td_cng_dec_init_ivas_fx( st ); + td_cng_dec_init_fx( st ); } /*-----------------------------------------------------------------* diff --git a/lib_dec/ivas_sns_dec_fx.c b/lib_dec/ivas_sns_dec_fx.c index 37489e58f84ef46437d4a0e0a092550de22e5d66..3bc6d337e9d57924af5fffa7957ceac12ecb2d4d 100644 --- a/lib_dec/ivas_sns_dec_fx.c +++ b/lib_dec/ivas_sns_dec_fx.c @@ -32,14 +32,12 @@ #include #include "options.h" -#include "prot.h" -#include "ivas_prot.h" +#include "prot_fx.h" #include "rom_com.h" #include "ivas_rom_com.h" #include "ivas_cnst.h" #include #include "wmc_auto.h" -#include "prot_fx.h" #include "ivas_rom_com_fx.h" #include "ivas_prot_fx.h" @@ -374,7 +372,7 @@ void dequantize_sns_fx( IF( zero_side_flag[k] ) { set32_fx( snsQ_fx, 0, M ); - continue; + CONTINUE; } nStages = SNS_MSVQ_NSTAGES_SIDE; diff --git a/lib_dec/ivas_spar_decoder.c b/lib_dec/ivas_spar_decoder_fx.c similarity index 90% rename from lib_dec/ivas_spar_decoder.c rename to lib_dec/ivas_spar_decoder_fx.c index e10d336d8c2cab48ad137f54f9f39f60e2947164..38b403606647791cede76f1d1ab907a18089bed4 100644 --- a/lib_dec/ivas_spar_decoder.c +++ b/lib_dec/ivas_spar_decoder_fx.c @@ -35,17 +35,15 @@ #include #include "options.h" #include "ivas_stat_dec.h" -#include "prot.h" +#include "prot_fx.h" #include "string.h" -#include "ivas_prot.h" -#include "ivas_prot_rend.h" +#include "ivas_prot_rend_fx.h" #include "rom_com.h" #include "ivas_rom_com.h" #include "ivas_rom_dec.h" #include "ivas_stat_com.h" #include "stat_com.h" #include "wmc_auto.h" -#include "prot_fx.h" #include "ivas_prot_fx.h" #ifdef DEBUGGING #include "debug.h" @@ -789,8 +787,11 @@ void ivas_spar_get_cldfb_gains_fx( cldfbAnalysis_ts_fx_fixed_q( ts_inout_fx, ts_re_fx, ts_im_fx, num_cldfb_bands, cldfbAnaDec0, &q_cldfb ); cldfb_reset_memory_fx( cldfbSynDec0 ); - cldfbSynthesis_ivas_fx( pp_ts_re_fx, pp_ts_im_fx, ts_inout_fx, num_cldfb_bands, cldfbSynDec0 ); - +#ifdef OPT_AVOID_STATE_BUF_RESCALE + cldfbSynthesis_ivas_fx( pp_ts_re_fx, pp_ts_im_fx, ts_inout_fx, num_cldfb_bands, 0, 0, cldfbSynDec0 ); +#else /* OPT_AVOID_STATE_BUF_RESCALE */ + cldfbSynthesis_ivas_fx( pp_ts_re_fx, pp_ts_im_fx, ts_inout_fx, num_cldfb_bands, 0, cldfbSynDec0 ); +#endif /* OPT_AVOID_STATE_BUF_RESCALE */ FOR( sample = 0; sample < stride; sample++ ) { T_fx[( ( slot * stride ) + sample )][slot] = ts_inout_fx[sample]; /*Q21*/ @@ -1160,10 +1161,8 @@ void ivas_spar_get_parameters_fx( split_band = SPAR_DIRAC_SPLIT_START_BAND; move16(); -#ifdef FIX_1101_IVAS_SPAR_DEC_UPMIXER_SF_USE_MADD_ADD_WEIGHTS Word16 add_weight_fx = sub( MAX_WORD16, weight_fx ); Word16 add_weight_20ms_fx = sub( MAX_WORD16, weight_20ms_fx ); -#endif FOR( spar_band = 0; spar_band < num_spar_bands; spar_band++ ) { FOR( out_ch = 0; out_ch < num_ch_out; out_ch++ ) @@ -1178,13 +1177,8 @@ void ivas_spar_get_parameters_fx( { IF( GT_16( hSpar->i_subframe, 3 ) ) { -#ifndef FIX_1101_IVAS_SPAR_DEC_UPMIXER_SF_USE_MADD_ADD_WEIGHTS - par_mat_fx[out_ch][in_ch][spar_band] = L_add_sat( Mpy_32_16_1( hSpar->hMdDec->mixer_mat_prev_fx[ts0][out_ch][in_ch][spar_band], sub( MAX_WORD16, weight_fx ) ), - Mpy_32_16_1( hSpar->hMdDec->mixer_mat_prev_fx[ts1][out_ch][in_ch][spar_band], weight_fx ) ); /*hSpar->hMdDec->Q_mixer_mat*/ -#else par_mat_fx[out_ch][in_ch][spar_band] = Madd_32_16( Mpy_32_16_1( hSpar->hMdDec->mixer_mat_prev_fx[ts1][out_ch][in_ch][spar_band], weight_fx ), hSpar->hMdDec->mixer_mat_prev_fx[ts0][out_ch][in_ch][spar_band], add_weight_fx ); -#endif move32(); } ELSE @@ -1201,12 +1195,8 @@ void ivas_spar_get_parameters_fx( /* 20ms Transport channel reconstruction with matching encoder/decoder processing */ Word16 prev_idx = SPAR_DIRAC_SPLIT_START_BAND < IVAS_MAX_NUM_BANDS ? 1 : 0; /* if SPAR_DIRAC_SPLIT_START_BAND == IVAS_MAX_NUM_BANDS, then the sub-frame mixer_mat delay line is not active */ move16(); -#ifndef FIX_1101_IVAS_SPAR_DEC_UPMIXER_SF_USE_MADD_ADD_WEIGHTS - par_mat_fx[out_ch][in_ch][spar_band] = L_add_sat( Mpy_32_16_1( hSpar->hMdDec->mixer_mat_prev_fx[prev_idx][out_ch][in_ch][spar_band], sub( MAX_WORD16, weight_20ms_fx ) ), Mpy_32_16_1( hSpar->hMdDec->mixer_mat_fx[out_ch][in_ch][spar_band], weight_20ms_fx ) ); /*hSpar->hMdDec->Q_mixer_mat*/ -#else par_mat_fx[out_ch][in_ch][spar_band] = Madd_32_16( Mpy_32_16_1( hSpar->hMdDec->mixer_mat_prev_fx[prev_idx][out_ch][in_ch][spar_band], add_weight_20ms_fx ), hSpar->hMdDec->mixer_mat_fx[out_ch][in_ch][spar_band], weight_20ms_fx ); /*hSpar->hMdDec->Q_mixer_mat*/ -#endif move32(); } } @@ -1366,17 +1356,10 @@ static void ivas_spar_calc_smooth_facs_fx( smooth_long_avg_fx[b] = L_add( smooth_long_avg_fx[b], smooth_buf_fx[b][i] ); // Q0 move32(); } -#ifndef FIX_1101_IVAS_SPAR_DEC_UPMIXER_SF_HQ_CONSTANTS - smooth_short_avg_fx[b] = Mpy_32_16_1( smooth_short_avg_fx[b], 5461 /*(1/6 in Q15)*/ ); // Q0 - move32(); - smooth_long_avg_fx[b] = Mpy_32_16_1( smooth_long_avg_fx[b], 1639 /*(1/20 in Q15)*/ ); // Q0 - move32(); -#else - smooth_short_avg_fx[b] = Mpy_32_32( smooth_short_avg_fx[b], 357913941 /*(1/6 in Q31)*/ ); // Q0 + smooth_short_avg_fx[b] = Mpy_32_32( smooth_short_avg_fx[b], 357913941 /*(1/6 in Q31)*/ ); // Q0 move32(); smooth_long_avg_fx[b] = Mpy_32_32( smooth_long_avg_fx[b], 107374182 /*(1/20 in Q31)*/ ); // Q0 move32(); -#endif /* calculate smoothing factor based on energy averages */ /* reduce factor for higher short-term energy */ @@ -1685,10 +1668,10 @@ void ivas_spar_dec_digest_tc_fx( *-------------------------------------------------------------------*/ void ivas_spar_dec_upmixer_sf_fx( - Decoder_Struct *st_ivas, /* i/o: IVAS decoder handle */ - Word32 *output_fx[], /* o : output audio channels Q11*/ - const Word16 nchan_internal, /* i : number of internal channels Q0*/ - Word16 out_len ) + Decoder_Struct *st_ivas, /* i/o: IVAS decoder handle */ + Word32 *output_fx[], /* o : output audio channels Q11*/ + const Word16 nchan_internal /* i : number of internal channels Q0*/ +) { Word16 cldfb_band, num_cldfb_bands, numch_in, numch_out; Word32 *cldfb_in_ts_re_fx[MAX_OUTPUT_CHANNELS + MAX_NUM_OBJECTS][CLDFB_NO_COL_MAX]; @@ -1788,9 +1771,7 @@ void ivas_spar_dec_upmixer_sf_fx( * Prepare CLDFB buffers *---------------------------------------------------------------------*/ -#ifdef MSAN_FIX set_zero_fx( &Pcm_tmp_fx[0][0], ( MAX_OUTPUT_CHANNELS + MAX_NUM_OBJECTS ) * L_FRAME48k ); -#endif // MSAN_FIX /* set-up pointers */ IF( NE_32( hDecoderConfig->output_config, IVAS_AUDIO_CONFIG_FOA ) ) { @@ -1866,9 +1847,7 @@ void ivas_spar_dec_upmixer_sf_fx( ivas_spar_calc_smooth_facs_fx( cldfb_in_ts_re_fx[0], cldfb_in_ts_im_fx[0], q_cldfb, num_spar_bands, hSpar->subframe_nbslots[hSpar->subframes_rendered], hSpar->subframes_rendered == 0, &hSpar->hFbMixer->pFb->fb_bin_to_band, hSpar->hMdDec->smooth_fac_fx, hSpar->hMdDec->smooth_buf_fx ); } -#ifdef FIX_1101_IVAS_SPAR_DEC_UPMIXER_SF_USE_UNIQUE_SHL Word16 sh_l = sub( 31, q1 ); -#endif FOR( ts = 0; ts < hSpar->subframe_nbslots[hSpar->subframes_rendered]; ts++ ) { md_idx = hSpar->render_to_md_map[( ts + slot_idx_start )]; /*Q0*/ @@ -1884,11 +1863,12 @@ void ivas_spar_dec_upmixer_sf_fx( { FOR( spar_band = 0; spar_band < num_spar_bands; spar_band++ ) { + Word16 diff = sub( 32767, hSpar->hMdDec->smooth_fac_fx[spar_band] ); FOR( out_ch = 0; out_ch < numch_out; out_ch++ ) { FOR( in_ch = 0; in_ch < numch_in; in_ch++ ) { - mixer_mat_fx[out_ch][in_ch][spar_band] = Madd_32_16( Mpy_32_16_1( mixer_mat_fx[out_ch][in_ch][spar_band], sub( 32767, hSpar->hMdDec->smooth_fac_fx[spar_band] ) ), hSpar->hMdDec->mixer_mat_prev2_fx[out_ch][in_ch][spar_band], hSpar->hMdDec->smooth_fac_fx[spar_band] ); /*q1*/ + mixer_mat_fx[out_ch][in_ch][spar_band] = Madd_32_16( Mpy_32_16_1( mixer_mat_fx[out_ch][in_ch][spar_band], diff ), hSpar->hMdDec->mixer_mat_prev2_fx[out_ch][in_ch][spar_band], hSpar->hMdDec->smooth_fac_fx[spar_band] ); /*q1*/ move32(); hSpar->hMdDec->mixer_mat_prev2_fx[out_ch][in_ch][spar_band] = mixer_mat_fx[out_ch][in_ch][spar_band]; /*q1*/ move32(); @@ -1896,68 +1876,6 @@ void ivas_spar_dec_upmixer_sf_fx( } } } -#ifndef FIX_1101_IVAS_SPAR_DEC_UPMIXER_SF_SPLIT_LOOPS - FOR( cldfb_band = 0; cldfb_band < num_cldfb_bands; cldfb_band++ ) - { - Word32 out_re_fx[IVAS_SPAR_MAX_CH]; - Word32 out_im_fx[IVAS_SPAR_MAX_CH]; - Word32 cldfb_par_fx; /*q1*/ - ivas_fb_bin_to_band_data_t *bin2band = &hSpar->hFbMixer->pFb->fb_bin_to_band; - - FOR( out_ch = 0; out_ch < numch_out; out_ch++ ) - { - out_re_fx[out_ch] = 0; - move32(); - out_im_fx[out_ch] = 0; - move32(); - FOR( in_ch = 0; in_ch < numch_in; in_ch++ ) - { - IF( b_skip_mat[out_ch][in_ch] == 0 ) - { - IF( LT_16( cldfb_band, CLDFB_PAR_WEIGHT_START_BAND ) ) /* tuning parameter, depends on how much SPAR Filters overlap for the CLDFB bands */ - { - spar_band = bin2band->p_cldfb_map_to_spar_band[cldfb_band]; /*Q0*/ - move16(); - cldfb_par_fx = mixer_mat_fx[out_ch][in_ch][spar_band]; /*q1*/ - move32(); - } - ELSE - { - Word64 acc = 0; - move64(); - FOR( spar_band = bin2band->p_spar_start_bands[cldfb_band]; spar_band < num_spar_bands; spar_band++ ) - { - /* accumulate contributions from all SPAR bands */ - acc = W_mac_32_32( acc, mixer_mat_fx[out_ch][in_ch][spar_band], bin2band->pp_cldfb_weights_per_spar_band_fx[cldfb_band][spar_band] ); // q1+ Q23 - } - cldfb_par_fx = W_shl_sat_l( acc, -23 ); // q1 - } - - out_re_fx[out_ch] = Madd_32_32( out_re_fx[out_ch], cldfb_in_ts_re_fx[in_ch][ts][cldfb_band], cldfb_par_fx ); /*q1-25*/ - move32(); - out_im_fx[out_ch] = Madd_32_32( out_im_fx[out_ch], cldfb_in_ts_im_fx[in_ch][ts][cldfb_band], cldfb_par_fx ); /*q1-25*/ - move32(); - } - } - } - - /*update CLDFB data with the parameter-modified data*/ - FOR( out_ch = 0; out_ch < numch_out; out_ch++ ) - { -#ifndef FIX_1101_IVAS_SPAR_DEC_UPMIXER_SF_USE_UNIQUE_SHL - cldfb_in_ts_re_fx[out_ch][ts][cldfb_band] = L_shl( out_re_fx[out_ch], sub( 31, q1 ) ); /*Q=6*/ - move32(); - cldfb_in_ts_im_fx[out_ch][ts][cldfb_band] = L_shl( out_im_fx[out_ch], sub( 31, q1 ) ); /*Q=6*/ - move32(); -#else - cldfb_in_ts_re_fx[out_ch][ts][cldfb_band] = L_shl( out_re_fx[out_ch], sh_l ); /*Q=6*/ - move32(); - cldfb_in_ts_im_fx[out_ch][ts][cldfb_band] = L_shl( out_im_fx[out_ch], sh_l ); /*Q=6*/ - move32(); -#endif - } - } -#else /* FIX_1101_IVAS_SPAR_DEC_UPMIXER_SF_SPLIT_LOOPS */ /* Note: This version splits the cldfb band loop into 2 loops, removing some inner-loop IF_statements */ Word16 min_cldf_band = s_min( CLDFB_PAR_WEIGHT_START_BAND, num_cldfb_bands ); Word32 out_re_fx[IVAS_SPAR_MAX_CH]; @@ -1992,17 +1910,10 @@ void ivas_spar_dec_upmixer_sf_fx( /*update CLDFB data with the parameter-modified data*/ FOR( out_ch = 0; out_ch < numch_out; out_ch++ ) { -#ifndef FIX_1101_IVAS_SPAR_DEC_UPMIXER_SF_USE_UNIQUE_SHL - cldfb_in_ts_re_fx[out_ch][ts][cldfb_band] = L_shl( out_re_fx[out_ch], sub( 31, q1 ) ); /*Q=6*/ - move32(); - cldfb_in_ts_im_fx[out_ch][ts][cldfb_band] = L_shl( out_im_fx[out_ch], sub( 31, q1 ) ); /*Q=6*/ - move32(); -#else cldfb_in_ts_re_fx[out_ch][ts][cldfb_band] = L_shl( out_re_fx[out_ch], sh_l ); /*Q=6*/ move32(); cldfb_in_ts_im_fx[out_ch][ts][cldfb_band] = L_shl( out_im_fx[out_ch], sh_l ); /*Q=6*/ move32(); -#endif } } @@ -2040,20 +1951,12 @@ void ivas_spar_dec_upmixer_sf_fx( /*update CLDFB data with the parameter-modified data*/ FOR( out_ch = 0; out_ch < numch_out; out_ch++ ) { -#ifndef FIX_1101_IVAS_SPAR_DEC_UPMIXER_SF_USE_UNIQUE_SHL - cldfb_in_ts_re_fx[out_ch][ts][cldfb_band] = L_shl( out_re_fx[out_ch], sub( 31, q1 ) ); /*Q=6*/ - move32(); - cldfb_in_ts_im_fx[out_ch][ts][cldfb_band] = L_shl( out_im_fx[out_ch], sub( 31, q1 ) ); /*Q=6*/ - move32(); -#else cldfb_in_ts_re_fx[out_ch][ts][cldfb_band] = L_shl( out_re_fx[out_ch], sh_l ); /*Q=6*/ move32(); cldfb_in_ts_im_fx[out_ch][ts][cldfb_band] = L_shl( out_im_fx[out_ch], sh_l ); /*Q=6*/ move32(); -#endif } } -#endif /* FIX_1101_IVAS_SPAR_DEC_UPMIXER_SF_SPLIT_LOOPS */ test(); IF( ( EQ_16( ( add( add( slot_idx_start, ts ), 1 ) ), hSpar->num_slots ) ) || ( NE_16( ( shr( md_idx, 2 ) /* md_idx / JBM_CLDFB_SLOTS_IN_SUBFRAME */ ), ( hSpar->render_to_md_map[( ( slot_idx_start + ts ) + 1 )] / JBM_CLDFB_SLOTS_IN_SUBFRAME /*It's value is 4*/ ) ) ) ) { @@ -2068,10 +1971,6 @@ void ivas_spar_dec_upmixer_sf_fx( } IF( LT_16( split_band, IVAS_MAX_NUM_BANDS ) ) { - Copy32( hSpar->hMdDec->mixer_mat_prev_fx[1][0][0], hSpar->hMdDec->mixer_mat_prev_fx[0][0][0], IVAS_MAX_FB_MIXER_OUT_CH * IVAS_MAX_SPAR_FB_MIXER_IN_CH * IVAS_MAX_NUM_BANDS ); /*hSpar->hMdDec->Q_mixer_mat*/ - Copy32( hSpar->hMdDec->mixer_mat_prev_fx[2][0][0], hSpar->hMdDec->mixer_mat_prev_fx[1][0][0], IVAS_MAX_FB_MIXER_OUT_CH * IVAS_MAX_SPAR_FB_MIXER_IN_CH * IVAS_MAX_NUM_BANDS ); /*hSpar->hMdDec->Q_mixer_mat*/ - Copy32( hSpar->hMdDec->mixer_mat_prev_fx[3][0][0], hSpar->hMdDec->mixer_mat_prev_fx[2][0][0], IVAS_MAX_FB_MIXER_OUT_CH * IVAS_MAX_SPAR_FB_MIXER_IN_CH * IVAS_MAX_NUM_BANDS ); /*hSpar->hMdDec->Q_mixer_mat*/ - Copy32( hSpar->hMdDec->mixer_mat_prev_fx[4][0][0], hSpar->hMdDec->mixer_mat_prev_fx[3][0][0], IVAS_MAX_FB_MIXER_OUT_CH * IVAS_MAX_SPAR_FB_MIXER_IN_CH * IVAS_MAX_NUM_BANDS ); /*hSpar->hMdDec->Q_mixer_mat*/ FOR( out_ch = 0; out_ch < numch_out; out_ch++ ) { @@ -2079,6 +1978,15 @@ void ivas_spar_dec_upmixer_sf_fx( { FOR( b = 0; b < num_spar_bands; b++ ) { + hSpar->hMdDec->mixer_mat_prev_fx[0][out_ch][in_ch][b] = hSpar->hMdDec->mixer_mat_prev_fx[1][out_ch][in_ch][b]; + hSpar->hMdDec->mixer_mat_prev_fx[1][out_ch][in_ch][b] = hSpar->hMdDec->mixer_mat_prev_fx[2][out_ch][in_ch][b]; + hSpar->hMdDec->mixer_mat_prev_fx[2][out_ch][in_ch][b] = hSpar->hMdDec->mixer_mat_prev_fx[3][out_ch][in_ch][b]; + hSpar->hMdDec->mixer_mat_prev_fx[3][out_ch][in_ch][b] = hSpar->hMdDec->mixer_mat_prev_fx[4][out_ch][in_ch][b]; + move32(); + move32(); + move32(); + move32(); + hSpar->hMdDec->mixer_mat_prev_fx[4][out_ch][in_ch][b] = hSpar->hMdDec->mixer_mat_fx[out_ch][in_ch][( b + ( md_sf * IVAS_MAX_NUM_BANDS ) )]; /*hSpar->hMdDec->Q_mixer_mat*/ move32(); } @@ -2136,18 +2044,14 @@ void ivas_spar_dec_upmixer_sf_fx( !( EQ_32( st_ivas->ivas_format, SBA_ISM_FORMAT ) && EQ_32( st_ivas->ism_mode, ISM_SBA_MODE_DISC ) && EQ_32( st_ivas->renderer_type, RENDERER_BINAURAL_FASTCONV_ROOM ) ) ) #endif { - Scale_sig32( st_ivas->cldfbSynDec[idx_in]->cldfb_state_fx, st_ivas->cldfbSynDec[idx_in]->p_filter_length, -6 ); /*st_ivas->cldfbSynDec[idx_in]->Q_cldfb_state-6*/ - st_ivas->cldfbSynDec[idx_in]->Q_cldfb_state = sub( st_ivas->cldfbSynDec[idx_in]->Q_cldfb_state, 6 ); - move16(); - Scale_sig32( output_fx[ch], out_len, -6 ); /*Q5*/ FOR( ts = 0; ts < hSpar->subframe_nbslots[hSpar->subframes_rendered]; ts++ ) { - cldfbSynthesis_ivas_fx( &cldfb_in_ts_re_fx[idx_in][ts], &cldfb_in_ts_im_fx[idx_in][ts], &output_fx[ch][i_mult( ts, num_cldfb_bands )], num_cldfb_bands, st_ivas->cldfbSynDec[idx_in] ); +#ifdef OPT_AVOID_STATE_BUF_RESCALE + cldfbSynthesis_ivas_fx( &cldfb_in_ts_re_fx[idx_in][ts], &cldfb_in_ts_im_fx[idx_in][ts], &output_fx[ch][i_mult( ts, num_cldfb_bands )], num_cldfb_bands, 6, 0, st_ivas->cldfbSynDec[idx_in] ); +#else /* OPT_AVOID_STATE_BUF_RESCALE */ + cldfbSynthesis_ivas_fx( &cldfb_in_ts_re_fx[idx_in][ts], &cldfb_in_ts_im_fx[idx_in][ts], &output_fx[ch][i_mult( ts, num_cldfb_bands )], num_cldfb_bands, 6, st_ivas->cldfbSynDec[idx_in] ); +#endif /* OPT_AVOID_STATE_BUF_RESCALE */ } - Scale_sig32( output_fx[ch], out_len, 6 ); /*Q11*/ - Scale_sig32( st_ivas->cldfbSynDec[idx_in]->cldfb_state_fx, st_ivas->cldfbSynDec[idx_in]->p_filter_length, 6 ); /*st_ivas->cldfbSynDec[idx_in]->Q_cldfb_state+6*/ - st_ivas->cldfbSynDec[idx_in]->Q_cldfb_state = add( st_ivas->cldfbSynDec[idx_in]->Q_cldfb_state, 6 ); - move16(); } idx_in = add( idx_in, 1 ); @@ -2159,18 +2063,14 @@ void ivas_spar_dec_upmixer_sf_fx( /* CLDFB to time synthesis (overwrite mixer output) */ FOR( out_ch = 0; out_ch < numch_out_dirac; out_ch++ ) { - Scale_sig32( st_ivas->cldfbSynDec[out_ch]->cldfb_state_fx, st_ivas->cldfbSynDec[out_ch]->p_filter_length, -6 ); /*st_ivas->cldfbSynDec[out_ch]->Q_cldfb_state-6*/ - st_ivas->cldfbSynDec[out_ch]->Q_cldfb_state = sub( st_ivas->cldfbSynDec[out_ch]->Q_cldfb_state, 6 ); - move16(); - Scale_sig32( output_fx[out_ch], out_len, -6 ); /*Q5*/ FOR( ts = 0; ts < hSpar->subframe_nbslots[hSpar->subframes_rendered]; ts++ ) { - cldfbSynthesis_ivas_fx( &cldfb_in_ts_re_fx[out_ch][ts], &cldfb_in_ts_im_fx[out_ch][ts], &output_fx[out_ch][i_mult( ts, num_cldfb_bands )], num_cldfb_bands, st_ivas->cldfbSynDec[out_ch] ); +#ifdef OPT_AVOID_STATE_BUF_RESCALE + cldfbSynthesis_ivas_fx( &cldfb_in_ts_re_fx[out_ch][ts], &cldfb_in_ts_im_fx[out_ch][ts], &output_fx[out_ch][i_mult( ts, num_cldfb_bands )], num_cldfb_bands, 6, 0, st_ivas->cldfbSynDec[out_ch] ); +#else /* OPT_AVOID_STATE_BUF_RESCALE */ + cldfbSynthesis_ivas_fx( &cldfb_in_ts_re_fx[out_ch][ts], &cldfb_in_ts_im_fx[out_ch][ts], &output_fx[out_ch][i_mult( ts, num_cldfb_bands )], num_cldfb_bands, 6, st_ivas->cldfbSynDec[out_ch] ); +#endif /* OPT_AVOID_STATE_BUF_RESCALE */ } - Scale_sig32( output_fx[out_ch], out_len, 6 ); /*Q11*/ - Scale_sig32( st_ivas->cldfbSynDec[out_ch]->cldfb_state_fx, st_ivas->cldfbSynDec[out_ch]->p_filter_length, 6 ); /*st_ivas->cldfbSynDec[out_ch]->Q_cldfb_state+6*/ - st_ivas->cldfbSynDec[out_ch]->Q_cldfb_state = add( st_ivas->cldfbSynDec[out_ch]->Q_cldfb_state, 6 ); - move16(); } } diff --git a/lib_dec/ivas_spar_md_dec.c b/lib_dec/ivas_spar_md_dec_fx.c similarity index 99% rename from lib_dec/ivas_spar_md_dec.c rename to lib_dec/ivas_spar_md_dec_fx.c index 3ad16b981fbbb74b84519fd0f97391fab5677819..7f487a75c272279cbc0ab168f8116743069db676 100644 --- a/lib_dec/ivas_spar_md_dec.c +++ b/lib_dec/ivas_spar_md_dec_fx.c @@ -33,13 +33,11 @@ #include #include "options.h" #include "math.h" -#include "prot.h" -#include "ivas_prot.h" +#include "prot_fx.h" #include "ivas_rom_com.h" #include #include "wmc_auto.h" #include "ivas_stat_dec.h" -#include "prot_fx.h" #include "ivas_prot_fx.h" #include "ivas_rom_com_fx.h" @@ -50,11 +48,11 @@ #define IVAS_DEFAULT_DTX_CNG_RAMP ( 8 ) /* PLC constants */ -static const int16_t ivas_spar_dec_plc_num_frames_keep = 9; -// static const int16_t ivas_spar_dec_plc_num_frames_fade_out = 9; -static const int16_t ivas_spar_dec_plc_per_frame_ramp_down_gain_dB = 3; -static const int16_t ivas_spar_dec_plc_max_num_frames_ramp_down = 33; -static const int16_t ivas_spar_dec_plc_spatial_target[IVAS_SPAR_MAX_CH] = { 1, 0, 0, 0, 0, 0, 0, 0 }; +static const Word16 ivas_spar_dec_plc_num_frames_keep = 9; +// static const Word16 ivas_spar_dec_plc_num_frames_fade_out = 9; +static const Word16 ivas_spar_dec_plc_per_frame_ramp_down_gain_dB = 3; +static const Word16 ivas_spar_dec_plc_max_num_frames_ramp_down = 33; +static const Word16 ivas_spar_dec_plc_spatial_target[IVAS_SPAR_MAX_CH] = { 1, 0, 0, 0, 0, 0, 0, 0 }; /*------------------------------------------------------------------------------------------* @@ -937,9 +935,10 @@ Word16 ivas_spar_chk_zero_coefs_fx( ndm = hMdDec->spar_md_cfg.num_dmx_chans_per_band[0]; /*Q0*/ move16(); - FOR( b = 0; b < min( hMdDec->spar_md.num_bands, SPAR_DIRAC_SPLIT_START_BAND ); b++ ) + Word16 min_bands = s_min( hMdDec->spar_md.num_bands, SPAR_DIRAC_SPLIT_START_BAND ); + FOR( b = 0; b < min_bands; b++ ) { - FOR( j = 0; j < sub( add( ndm, ndec ), 1 ); j++ ) + FOR( j = 0; j < ( ( ndm + ndec ) - 1 ); j++ ) { if ( hMdDec->spar_md.band_coeffs[b].pred_re_fx[j] != 0 ) { @@ -949,7 +948,7 @@ Word16 ivas_spar_chk_zero_coefs_fx( } FOR( j = 0; j < ndec; j++ ) { - FOR( k = 0; k < sub( ndm, 1 ); k++ ) + FOR( k = 0; k < ( ndm - 1 ); k++ ) { if ( hMdDec->spar_md.band_coeffs[b].C_re_fx[j][k] != 0 ) { diff --git a/lib_dec/ivas_stat_dec.h b/lib_dec/ivas_stat_dec.h index b7712d9dc263d35c884118e017f6faf269f3dcad..d86ece7c87df0deb8a3a03bc1c84074ff185bae5 100644 --- a/lib_dec/ivas_stat_dec.h +++ b/lib_dec/ivas_stat_dec.h @@ -50,14 +50,14 @@ /* State of the range decoder */ typedef struct { - uint32_t rc_low; - uint32_t rc_range; + UWord32 rc_low; + UWord32 rc_range; - uint16_t *bit_buffer; - int16_t bit_count; - int16_t max_allowable_bit_count; + UWord16 *bit_buffer; + Word16 bit_count; + Word16 max_allowable_bit_count; - int16_t bit_error_detected; + Word16 bit_error_detected; } RangeUniDecState; @@ -79,11 +79,11 @@ typedef struct stereo_dft_dec_data_struct STEREO_DFT_CONFIG_DATA_HANDLE hConfig; /*Sizes*/ - int16_t N; /* Size of DFT hop size */ - int16_t NFFT; /* Size of DFT */ + Word16 N; /* Size of DFT hop size */ + Word16 NFFT; /* Size of DFT */ /*FFT*/ - int16_t dft_trigo_step; + Word16 dft_trigo_step; const Word16 *dft_trigo_fx; /* Q15 */ const Word16 *dft_trigo_12k8_fx; /* Q15 */ @@ -91,13 +91,13 @@ typedef struct stereo_dft_dec_data_struct const Word16 *dft_trigo_8k_fx; /* Q15 */ - int16_t dft32ms_ovl; /* Overlap size */ + Word16 dft32ms_ovl; /* Overlap size */ const Word16 *win32ms_fx; /* DFT window */ /* Q15 */ const Word16 *win32ms_12k8_fx; /* DFT window */ /* Q15 */ const Word16 *win32ms_16k_fx; /* DFT window */ /* Q15 */ const Word16 *win32ms_8k_fx; /* DFT window */ /* Q15 */ - int16_t dft32ms_ovl2; /* Overlap2 size */ + Word16 dft32ms_ovl2; /* Overlap2 size */ const Word16 *win232ms_fx; /* DFT window */ /* Q15 */ const Word16 *win232ms_12k8_fx; /* DFT window */ /* Q15 */ const Word16 *win232ms_16k_fx; /* DFT window */ /* Q15 */ @@ -106,31 +106,31 @@ typedef struct stereo_dft_dec_data_struct /*Bands*/ - int16_t band_res[STEREO_DFT_DEC_DFT_NB]; - int16_t band_limits[STEREO_DFT_BAND_MAX + 1]; - int16_t nbands; + Word16 band_res[STEREO_DFT_DEC_DFT_NB]; + Word16 band_limits[STEREO_DFT_BAND_MAX + 1]; + Word16 nbands; /*Configuration*/ - int16_t prm_res[STEREO_DFT_DEC_DFT_NB]; + Word16 prm_res[STEREO_DFT_DEC_DFT_NB]; /*Stereo parameters*/ Word32 side_gain_fx[STEREO_DFT_DEC_DFT_NB * STEREO_DFT_BAND_MAX]; /* Q31 */ - int16_t side_gain_flag_1; - int16_t side_gain_flag_2; - int16_t side_gain_index_previous[STEREO_DFT_BAND_MAX]; - int16_t side_gain_index[STEREO_DFT_BAND_MAX]; + Word16 side_gain_flag_1; + Word16 side_gain_flag_2; + Word16 side_gain_index_previous[STEREO_DFT_BAND_MAX]; + Word16 side_gain_index[STEREO_DFT_BAND_MAX]; Word32 gipd_fx[STEREO_DFT_DEC_DFT_NB]; /* Q27 */ - int16_t no_ipd_flag; /* flag to indicate when no IPD gets used */ + Word16 no_ipd_flag; /* flag to indicate when no IPD gets used */ - int16_t itd_xfade_counter; - int32_t last_active_element_brate; - int16_t ipd_xfade_counter; + Word16 itd_xfade_counter; + Word32 last_active_element_brate; + Word16 ipd_xfade_counter; /*residual prediction*/ - int16_t res_pred_mode[STEREO_DFT_DEC_DFT_NB]; /* residual prediction mode: 0(off), 1(stereo filling only), 2(enhanced stereo filling) */ - Word32 itd_fx[STEREO_DFT_DEC_DFT_NB]; /* Q15 */ + Word16 res_pred_mode[STEREO_DFT_DEC_DFT_NB]; /* residual prediction mode: 0(off), 1(stereo filling only), 2(enhanced stereo filling) */ + Word32 itd_fx[STEREO_DFT_DEC_DFT_NB]; /* Q15 */ Word32 itd_xfade_step_fx; /* Q15 */ Word32 itd_xfade_target_fx; /* Q15 */ @@ -140,19 +140,19 @@ typedef struct stereo_dft_dec_data_struct Word32 ipd_xfade_step_fx; /* Q27 */ Word32 ipd_xfade_prev_fx; /* Q27 */ Word32 res_pred_gain_fx[STEREO_DFT_DEC_DFT_NB * STEREO_DFT_BAND_MAX]; /* prediction gain for the residual HFs */ /* Q31 */ - int16_t res_pred_band_min; /* Band min for prediction of residual */ - int16_t past_DMX_pos; - int16_t res_pred_flag_0; - int16_t res_pred_flag_1; - int16_t res_pred_index_previous[STEREO_DFT_BAND_MAX]; + Word16 res_pred_band_min; /* Band min for prediction of residual */ + Word16 past_DMX_pos; + Word16 res_pred_flag_0; + Word16 res_pred_flag_1; + Word16 res_pred_index_previous[STEREO_DFT_BAND_MAX]; - int16_t reverb_flag; - int16_t nbands_respred; + Word16 reverb_flag; + Word16 nbands_respred; /*residual coding*/ - int16_t res_cod_mode[STEREO_DFT_DEC_DFT_NB]; /* mode from 0 (off) to 3 */ - int16_t res_cod_band_max; /* Band max for coding of residual */ - int16_t res_cod_line_max; + Word16 res_cod_mode[STEREO_DFT_DEC_DFT_NB]; /* mode from 0 (off) to 3 */ + Word16 res_cod_band_max; /* Band max for coding of residual */ + Word16 res_cod_line_max; Word32 DFT_past_DMX_fx[STEREO_DFT_PAST_MAX][STEREO_DFT32MS_N_32k]; /* Past DMX for residual prediction */ /* Q(q_DFT_past_DMX_fx) */ Word32 past_res_pred_gain_fx[STEREO_DFT_PAST_MAX][STEREO_DFT_BAND_MAX]; /* Q31 */ Word32 res_gains_ind_fx[2][2 * STEREO_DFT_BAND_MAX]; /* Q26 */ @@ -172,9 +172,9 @@ typedef struct stereo_dft_dec_data_struct BPF_DEC_HANDLE hBpf; TCX_LTP_DEC_HANDLE hTcxLtpDec; - int16_t trans; - int16_t attackPresent; - int16_t wasTransient; + Word16 trans; + Word16 attackPresent; + Word16 wasTransient; basic_allpass_t ap1, ap2, ap3; @@ -189,9 +189,9 @@ typedef struct stereo_dft_dec_data_struct Word32 ap_fade_mem_fx[STEREO_DFT_ALLPASS_FADELEN_16k]; /* Q(q_ap_fade_mem_fx) */ Word16 q_ap_fade_mem_fx; - int16_t ap_wasTransient; - int16_t core_hist[STEREO_DFT_CORE_HIST_MAX]; - int16_t hb_stefi_delay; + Word16 ap_wasTransient; + Word16 core_hist[STEREO_DFT_CORE_HIST_MAX]; + Word16 hb_stefi_delay; Word32 smooth_dmx_nrg_fx[STEREO_DFT_BAND_MAX]; /* Q(q_smoothed_nrg) */ Word32 smooth_res_nrg_fx[STEREO_DFT_BAND_MAX]; /* Q(q_smoothed_nrg) */ Word32 td_gain_fx[STEREO_DFT_CORE_HIST_MAX]; /* Q(q_td_gain) */ @@ -207,16 +207,16 @@ typedef struct stereo_dft_dec_data_struct /* stereo DTX */ Word16 g_state_fx[STEREO_DFT_BAND_MAX]; /* Q15 */ - int16_t frame_sid_nodata; - int16_t frame_nodata; - int16_t frame_sid; + Word16 frame_sid_nodata; + Word16 frame_nodata; + Word16 frame_sid; Word16 scale_fx; /* Q15 */ /* PLC on residual signal */ - int16_t time_offs; - int16_t sg_mem_corrupt; - int16_t recovery_flg; + Word16 time_offs; + Word16 sg_mem_corrupt; + Word16 recovery_flg; /* PLC on residual signal */ Word32 sg_mean_fx; /* Q31 */ @@ -229,7 +229,7 @@ typedef struct stereo_dft_dec_data_struct Word16 q_hb_nrg_subr; Word16 q_res_mem; - int16_t first_frame; + Word16 first_frame; Word32 mixer_mat_smooth_fx[2][4][2 * IVAS_MAX_NUM_BANDS]; /* Q31 */ Word32 g_L_prev_fx; /* Q31 */ Word32 g_R_prev_fx; /* Q31 */ @@ -258,26 +258,26 @@ typedef struct stereo_dec_cng { Word16 cm_fx[STEREO_DFT_BAND_MAX]; /* cm */ /* Q15 */ Word16 coh_fx[STEREO_DFT_BAND_MAX + 1]; /* coherence */ /* Q15 */ - int16_t first_SID; /* first SID indicator */ - int16_t first_SID_after_TD; /* first SID after TD-stereo indicator */ - int16_t prev_sid_nodata; /* previous frame SID/FRAME_NO_DATA indicator */ - int16_t last_tdm_idx; /* last tdm index */ + Word16 first_SID; /* first SID indicator */ + Word16 first_SID_after_TD; /* first SID after TD-stereo indicator */ + Word16 prev_sid_nodata; /* previous frame SID/FRAME_NO_DATA indicator */ + Word16 last_tdm_idx; /* last tdm index */ Word32 c_LR_LT_fx; /* left right cross correlation */ /* Q31 */ - int16_t active_frame_counter; /* counter for active frames */ - int16_t xfade_frame_counter; /* xfade counter */ - int16_t xfade_length; /* number of frames to perform xfade */ - int16_t nr_dft_frames; /* dft frame counter */ - int16_t nr_corr_frames; /* correlation frame counter */ - int16_t nr_sid_frames; /* SID frame counter */ - int16_t last_act_element_mode; /* Element mode of last active frame */ + Word16 active_frame_counter; /* counter for active frames */ + Word16 xfade_frame_counter; /* xfade counter */ + Word16 xfade_length; /* number of frames to perform xfade */ + Word16 nr_dft_frames; /* dft frame counter */ + Word16 nr_corr_frames; /* correlation frame counter */ + Word16 nr_sid_frames; /* SID frame counter */ + Word16 last_act_element_mode; /* Element mode of last active frame */ Word16 olapBufferSynth22_fx[FFTLEN]; /* overlap buffer for secondary channel CNA */ Word32 olapBufferSynth22_32fx[FFTLEN]; /* overlap buffer for secondary channel CNA */ - int16_t flag_cna_fade; /* flag enabling CNA fade out */ + Word16 flag_cna_fade; /* flag enabling CNA fade out */ Word16 maskingNoiseS_fx[L_FRAME16k]; /* masking noise (CNA) for secondary channel */ - int16_t enableSecCNA; /* flag enabling secondary channel CNA */ + Word16 enableSecCNA; /* flag enabling secondary channel CNA */ Word16 c_PS_LT_fx; /* long term cross-correlation between primary and secondary channel */ // Assumed Q15 for initialization. Can be modified later if reqd. - const int16_t *frameSize; /* Frame size in samples */ - const int16_t *fftlen; /* FFT length used for the decomposition */ + const Word16 *frameSize; /* Frame size in samples */ + const Word16 *fftlen; /* FFT length used for the decomposition */ } STEREO_CNG_DEC, *STEREO_CNG_DEC_HANDLE; @@ -288,18 +288,18 @@ typedef struct stereo_dec_cng typedef struct stereo_td_dec_data_structure { - int16_t tdm_last_ratio_idx; /* last TDM ratio index */ - int16_t tdm_last_SM_flag; /* last channel combination scheme flag */ - int16_t tdm_prev_last_SM_flag; /* channel combination scheme flag before last frame */ - int16_t tdm_SM_flag; /* current channel combination scheme flag */ - int16_t tdm_use_IAWB_Ave_lpc; /* Flag to indicate the usage of mean inactive LP coefficients */ - - int16_t tdm_lp_reuse_flag; /* Flag that indicate if it is possible to reuse the LP coefficient from the primary channel or not */ - int16_t tdm_low_rate_mode; /* secondary channel low rate mode flag */ + Word16 tdm_last_ratio_idx; /* last TDM ratio index */ + Word16 tdm_last_SM_flag; /* last channel combination scheme flag */ + Word16 tdm_prev_last_SM_flag; /* channel combination scheme flag before last frame */ + Word16 tdm_SM_flag; /* current channel combination scheme flag */ + Word16 tdm_use_IAWB_Ave_lpc; /* Flag to indicate the usage of mean inactive LP coefficients */ + + Word16 tdm_lp_reuse_flag; /* Flag that indicate if it is possible to reuse the LP coefficient from the primary channel or not */ + Word16 tdm_low_rate_mode; /* secondary channel low rate mode flag */ Word16 tdm_Pri_pitch_buf_fx[NB_SUBFR]; - int16_t tdm_Pitch_reuse_flag; - int16_t tdm_LRTD_flag; - int16_t flag_skip_DMX; /* flag that indicates whether the TD downmixing is skipped */ + Word16 tdm_Pitch_reuse_flag; + Word16 tdm_LRTD_flag; + Word16 flag_skip_DMX; /* flag that indicates whether the TD downmixing is skipped */ Word32 TCX_old_syn_Overl_fx[L_FRAME16k / 2]; /* past ovrl buffer for possible switching from TD stereo ACELP to MDCT stereo TCX frame */ /* Q11 */ Word16 prevSP_ratio_fx; /* previous SP ratio */ @@ -321,24 +321,24 @@ typedef struct stereo_mdct_dec_data_structure STEREO_MDCT_BAND_PARAMETERS stbParamsTCX20afterACELP; /* stereo frequency band parameters for transition frame */ /* only intraframe */ - int16_t mdct_stereo_mode[2]; /* mdct stereo mode: LR, MS, band-wise MS */ - int16_t global_ild[2]; /* Quantized ILD for the whole spectrum */ - int16_t split_ratio; /* Ratio of bitrate (1 to 7), split_ratio = 8 * 1st chn bitrate / (1st + 2nd chn bitrate) */ + Word16 mdct_stereo_mode[2]; /* mdct stereo mode: LR, MS, band-wise MS */ + Word16 global_ild[2]; /* Quantized ILD for the whole spectrum */ + Word16 split_ratio; /* Ratio of bitrate (1 to 7), split_ratio = 8 * 1st chn bitrate / (1st + 2nd chn bitrate) */ - int16_t IGFStereoMode[2]; /* MDCT stereo mode for IGF */ + Word16 IGFStereoMode[2]; /* MDCT stereo mode for IGF */ - int16_t use_itd; - int16_t itd_mode; /*0/1*/ - Word32 itd_fx; /* Q15 */ + Word16 use_itd; + Word16 itd_mode; /*0/1*/ + Word32 itd_fx; /* Q15 */ - int16_t reverse_dmx; + Word16 reverse_dmx; Word32 smooth_ratio_fx; /* Q26 */ - int16_t prev_ms_mask[NB_DIV][MAX_SFB]; + Word16 prev_ms_mask[NB_DIV][MAX_SFB]; Word16 lastCoh_fx; /* Q14 */ - int16_t noise_seeds_channels[CPE_CHANNELS]; - int16_t noise_seed_common; - int16_t isSBAStereoMode; + Word16 noise_seeds_channels[CPE_CHANNELS]; + Word16 noise_seed_common; + Word16 isSBAStereoMode; } STEREO_MDCT_DEC_DATA, *STEREO_MDCT_DEC_DATA_HANDLE; @@ -349,18 +349,18 @@ typedef struct stereo_mdct_dec_data_structure typedef struct stereo_tca_dec_data_structure { - int16_t refChanIndx; /* reference channel index in current frame */ - int16_t prevRefChanIndx; /* reference channel index in previous frame */ - int16_t indx_ica_NCShift; /* ICA target channel inter-channel corrstats */ - int16_t indx_ica_gD; /* ICA target gain */ + Word16 refChanIndx; /* reference channel index in current frame */ + Word16 prevRefChanIndx; /* reference channel index in previous frame */ + Word16 indx_ica_NCShift; /* ICA target channel inter-channel corrstats */ + Word16 indx_ica_gD; /* ICA target gain */ Word32 targetGain_fx; /* gain norm applied on target (or right) channel in current frame */ // Q29 Word32 prevTargetGain_fx; /* gain norm applied on target (or right) channel in previous frame */ // Q29 - int16_t corrLagStats; /* corr lag stats in current frame */ - int16_t prevCorrLagStats; /* corr lag stats in previous frame */ + Word16 corrLagStats; /* corr lag stats in current frame */ + Word16 prevCorrLagStats; /* corr lag stats in previous frame */ - int16_t interp_dec_prevNCShift; /* NC Shift in previous frame */ - int16_t interp_dec_switch_to_zero_diff; /* switch flag for interpolation */ + Word16 interp_dec_prevNCShift; /* NC Shift in previous frame */ + Word16 interp_dec_switch_to_zero_diff; /* switch flag for interpolation */ Word32 memChanL_fx[L_DEC_MEM_LEN_ICA]; /* left channel input to correct at the cross-over for Fixed */ @@ -429,10 +429,10 @@ typedef struct stereo_icbwe_dec_data_structure typedef struct { - int16_t dtx_flag; - int16_t sce_id_dtx; + Word16 dtx_flag; + Word16 sce_id_dtx; - int16_t ism_dtx_hangover_cnt; /* hangover counter for ISM DTX decoder */ + Word16 ism_dtx_hangover_cnt; /* hangover counter for ISM DTX decoder */ } ISM_DTX_DATA_DEC; @@ -479,9 +479,9 @@ typedef struct ivas_dirac_dec_data_structure { DIRAC_CONFIG_DATA_HANDLE hConfig; - int16_t band_grouping[IVAS_MAX_NUM_BANDS + 1]; - int16_t dithering_seed; - int16_t spar_to_dirac_write_idx; + Word16 band_grouping[IVAS_MAX_NUM_BANDS + 1]; + Word16 dithering_seed; + Word16 spar_to_dirac_write_idx; IVAS_FB_MIXER_HANDLE hFbMdft; @@ -522,10 +522,10 @@ typedef struct dirac_output_synthesis_cov_state_structure typedef struct ivas_param_mc_diff_proto_info_structure { - int16_t num_protos_diff; - int16_t *proto_index_diff; - int16_t *num_source_chan_diff; - int16_t **source_chan_idx; + Word16 num_protos_diff; + Word16 *proto_index_diff; + Word16 *num_source_chan_diff; + Word16 **source_chan_idx; Word32 **proto_fac_fx; } PARAM_MC_DIFF_PROTO_INFO; @@ -533,42 +533,42 @@ typedef struct ivas_param_mc_diff_proto_info_structure typedef struct ivas_param_mc_dec_data_structure { - int16_t slot_size; + Word16 slot_size; Word32 *Cldfb_RealBuffer_tc_fx; // Q12 Word16 Cldfb_RealBuffer_tc_e; Word32 *Cldfb_ImagBuffer_tc_fx; // Q12 Word16 Cldfb_ImagBuffer_tc_e; Word16 sz; - int16_t subframe_nbslots[MAX_JBM_SUBFRAMES_5MS]; - int16_t nb_subframes; - int16_t subframes_rendered; - int16_t slots_rendered; - int16_t num_slots; - int16_t num_freq_bands; - int16_t num_param_bands_synth; + Word16 subframe_nbslots[MAX_JBM_SUBFRAMES_5MS]; + Word16 nb_subframes; + Word16 subframes_rendered; + Word16 slots_rendered; + Word16 num_slots; + Word16 num_freq_bands; + Word16 num_param_bands_synth; - int16_t band_grouping[PARAM_MC_MAX_PARAMETER_BANDS + 1]; + Word16 band_grouping[PARAM_MC_MAX_PARAMETER_BANDS + 1]; /*Decoder parameters */ /*Prototypes*/ - int16_t num_outputs_diff; + Word16 num_outputs_diff; PARAM_MC_DIFF_PROTO_INFO *diff_proto_info; PARAM_MC_SYNTHESIS_CONF synthesis_conf; /*Options*/ /* Decorrelator options */ - int16_t max_band_decorr; + Word16 max_band_decorr; /*Decoder states=memories*/ Word32 *proto_frame_f_fx; /* Q11 */ Word32 *proto_frame_dec_f_fx; /* Q11 */ DIRAC_OUTPUT_SYNTHESIS_COV_STATE h_output_synthesis_cov_state; DIRAC_OUTPUT_SYNTHESIS_PARAMS h_output_synthesis_params; - int16_t max_band_energy_compensation; + Word16 max_band_energy_compensation; HANDLE_IVAS_PARAM_MC_METADATA hMetadataPMC; Word16 *icc_q_fx; /* ICC parameters*/ /* Q15 */ Word16 *icld_q_fx; /* Q8 */ - int16_t max_param_band_abs_cov; + Word16 max_param_band_abs_cov; Word16 q_proto_frame_f; Word32 *ls_conv_dmx_matrix_fx; /* Q30 */ Word32 *proto_matrix_int_fx; @@ -589,12 +589,12 @@ typedef struct ivas_param_mc_dec_data_structure typedef struct ivas_mc_paramupmix_dec_data_structure { - int16_t num_freq_bands; + Word16 num_freq_bands; ivas_td_decorr_state_t *hTdDecorr[MC_PARAMUPMIX_COMBINATIONS]; - int32_t alpha_quant[MC_PARAMUPMIX_COMBINATIONS][IVAS_MAX_NUM_BANDS]; - int32_t beta_quant[MC_PARAMUPMIX_COMBINATIONS][IVAS_MAX_NUM_BANDS]; - int16_t first_frame; - int16_t free_param_interpolator; + Word32 alpha_quant[MC_PARAMUPMIX_COMBINATIONS][IVAS_MAX_NUM_BANDS]; + Word32 beta_quant[MC_PARAMUPMIX_COMBINATIONS][IVAS_MAX_NUM_BANDS]; + Word16 first_frame; + Word16 free_param_interpolator; Word32 alphas_fx[MC_PARAMUPMIX_COMBINATIONS][IVAS_MAX_NUM_BANDS]; // Q28 @@ -628,30 +628,30 @@ typedef struct ivas_spar_md_dec_state_t ivas_spar_dec_matrices_t spar_coeffs; ivas_spar_dec_matrices_t spar_coeffs_prev; ivas_spar_dec_matrices_t spar_coeffs_tar; - int16_t dtx_md_smoothing_cntr; - int16_t valid_bands[IVAS_MAX_NUM_BANDS]; - int16_t base_band_age[IVAS_MAX_NUM_BANDS]; - int16_t spar_plc_num_lost_frames; - int16_t num_decorr; - int16_t td_decorr_flag; - int16_t spar_plc_enable_fadeout_flag; + Word16 dtx_md_smoothing_cntr; + Word16 valid_bands[IVAS_MAX_NUM_BANDS]; + Word16 base_band_age[IVAS_MAX_NUM_BANDS]; + Word16 spar_plc_num_lost_frames; + Word16 num_decorr; + Word16 td_decorr_flag; + Word16 spar_plc_enable_fadeout_flag; Word32 ***mixer_mat_fx; /* Q(Q_mixer_mat) */ Word32 mixer_mat_prev_fx[MAX_PARAM_SPATIAL_SUBFRAMES + 1][IVAS_MAX_FB_MIXER_OUT_CH][IVAS_MAX_SPAR_FB_MIXER_IN_CH][IVAS_MAX_NUM_BANDS]; /* Q(Q_mixer_mat) */ Word16 Q_mixer_mat; ivas_spar_md_com_cfg spar_md_cfg; ivas_arith_coeffs_t arith_coeffs; ivas_huff_coeffs_t huff_coeffs; - int16_t table_idx; - int16_t dtx_vad; - int16_t spar_hoa_md_flag; - int16_t spar_hoa_dirac2spar_md_flag; - int16_t HOA_md_ind[IVAS_SPAR_MAX_CH]; + Word16 table_idx; + Word16 dtx_vad; + Word16 spar_hoa_md_flag; + Word16 spar_hoa_dirac2spar_md_flag; + Word16 HOA_md_ind[IVAS_SPAR_MAX_CH]; Word32 smooth_buf_fx[IVAS_MAX_NUM_BANDS][2 * SBA_DIRAC_NRG_SMOOTH_LONG + 1]; /* Q0 */ Word16 smooth_fac_fx[IVAS_MAX_NUM_BANDS]; /* Q15 */ Word32 mixer_mat_prev2_fx[IVAS_SPAR_MAX_CH][IVAS_SPAR_MAX_CH][IVAS_MAX_NUM_BANDS]; /* Q(Q_mixer_mat) */ - int16_t first_valid_frame; + Word16 first_valid_frame; ivas_band_coeffs_t *band_coeffs_prev; - int16_t base_band_coeffs_age[IVAS_MAX_NUM_BANDS]; + Word16 base_band_coeffs_age[IVAS_MAX_NUM_BANDS]; } ivas_spar_md_dec_state_t; @@ -677,11 +677,11 @@ typedef struct { Word16 prev_ql_fx[IVAS_PCA_INTERP]; Word16 prev_qr_fx[IVAS_PCA_INTERP]; - int16_t prev_pca_bypass; + Word16 prev_pca_bypass; Word16 mem_eigVec_interp_fx[IVAS_PCA_LEN_INTERP_EIG_DEC]; /* parser output: */ - int16_t pca_bypass; - int32_t index[2]; + Word16 pca_bypass; + Word32 index[2]; } PCA_DEC_STATE; @@ -691,20 +691,20 @@ typedef struct ivas_spar_dec_lib_t ivas_td_decorr_state_t *hTdDecorr; ivas_spar_md_dec_state_t *hMdDec; IVAS_FB_MIXER_HANDLE hFbMixer; - int16_t AGC_flag; + Word16 AGC_flag; ivas_agc_dec_state_t *hAgcDec; PCA_DEC_STATE *hPCA; - int16_t dirac_to_spar_md_bands[DIRAC_MAX_NBANDS]; - int16_t enc_param_start_band; - int32_t core_nominal_brate; /* Nominal bitrate for core coding */ - int16_t i_subframe; - - int16_t subframe_nbslots[MAX_JBM_SUBFRAMES_5MS]; - int16_t render_to_md_map[MAX_JBM_CLDFB_TIMESLOTS]; - int16_t nb_subframes; - int16_t subframes_rendered; - int16_t slots_rendered; - int16_t num_slots; + Word16 dirac_to_spar_md_bands[DIRAC_MAX_NBANDS]; + Word16 enc_param_start_band; + Word32 core_nominal_brate; /* Nominal bitrate for core coding */ + Word16 i_subframe; + + Word16 subframe_nbslots[MAX_JBM_SUBFRAMES_5MS]; + Word16 render_to_md_map[MAX_JBM_CLDFB_TIMESLOTS]; + Word16 nb_subframes; + Word16 subframes_rendered; + Word16 slots_rendered; + Word16 num_slots; } SPAR_DEC_DATA, *SPAR_DEC_HANDLE; @@ -713,8 +713,8 @@ typedef struct ivas_spar_dec_lib_t typedef struct ivas_osba_data { Word32 **delayBuffer_fx; - int16_t delayBuffer_size; - int16_t delayBuffer_nchan; + Word16 delayBuffer_size; + Word16 delayBuffer_nchan; } SBA_ISM_DATA, *SBA_ISM_DATA_HANDLE; @@ -725,9 +725,9 @@ typedef struct ivas_osba_data typedef struct sce_dec_data_structure { - int16_t sce_id; /* SCE # identifier */ - int32_t element_brate; /* SCE total bitrate in bps */ - int32_t last_element_brate; /* SCE last total bitrate in bps */ + Word16 sce_id; /* SCE # identifier */ + Word32 element_brate; /* SCE total bitrate in bps */ + Word32 last_element_brate; /* SCE last total bitrate in bps */ /* core coder handle */ DEC_CORE_HANDLE hCoreCoder[1]; @@ -748,15 +748,15 @@ typedef struct sce_dec_data_structure typedef struct cpe_dec_data_structure { - int16_t cpe_id; /* CPE # identifier */ - int32_t element_brate; /* CPE element total bitrate in bps */ - int32_t last_element_brate; /* last CPE element total bitrate in bps */ + Word16 cpe_id; /* CPE # identifier */ + Word32 element_brate; /* CPE element total bitrate in bps */ + Word32 last_element_brate; /* last CPE element total bitrate in bps */ - int16_t element_mode; /* element mode, in CPE it can be IVAS_CPE_DFT, IVAS_CPE_TD or IVAS_CPE_MDCT */ - int16_t last_element_mode; /* last element mode */ + Word16 element_mode; /* element mode, in CPE it can be IVAS_CPE_DFT, IVAS_CPE_TD or IVAS_CPE_MDCT */ + Word16 last_element_mode; /* last element mode */ - int16_t stereo_switching_counter; - int16_t NbFrameMod; + Word16 stereo_switching_counter; + Word16 NbFrameMod; /* core coder handle */ DEC_CORE_HANDLE hCoreCoder[CPE_CHANNELS]; @@ -769,7 +769,7 @@ typedef struct cpe_dec_data_structure STEREO_ICBWE_DEC_HANDLE hStereoICBWE; /* Stereo inter-channel BWE data handle */ STEREO_CNG_DEC_HANDLE hStereoCng; /* Stereo CNG data structure */ - int16_t nchan_out; /* number of output channels (1: mono dmx, 2: default stereo) */ + Word16 nchan_out; /* number of output channels (1: mono dmx, 2: default stereo) */ /* DFT stereo I/O channel buffer memories that need to be updated for TD->DFT stereo switching */ @@ -793,7 +793,7 @@ typedef struct cpe_dec_data_structure /* buffers used for fading between MDCT and DFT Stereo */ - int32_t brate_surplus; /* bitrate surplus for bitrate adaptation in combined format coding */ + Word32 brate_surplus; /* bitrate surplus for bitrate adaptation in combined format coding */ } CPE_DEC_DATA, *CPE_DEC_HANDLE; @@ -804,8 +804,8 @@ typedef struct cpe_dec_data_structure typedef struct mct_dec_block_data_struct { - int16_t ch1, ch2; - int16_t mask[2][MAX_SFB]; + Word16 ch1, ch2; + Word16 mask[2][MAX_SFB]; STEREO_MDCT_DEC_DATA_HANDLE hStereoMdct; /* MDCT stereo data handle */ } MCT_DEC_BLOCK_DATA, *MCT_DEC_BLOCK_DATA_HANDLE; @@ -813,14 +813,14 @@ typedef struct mct_dec_block_data_struct typedef struct mct_dec_data_structure { - int16_t nchan_out_woLFE; /* number of active channels within multi-channel configuration */ - int16_t currBlockDataCnt; - int16_t bitsChannelPairIndex; /* bits needed to code channel pair index, depends on number of active channels */ + Word16 nchan_out_woLFE; /* number of active channels within multi-channel configuration */ + Word16 currBlockDataCnt; + Word16 bitsChannelPairIndex; /* bits needed to code channel pair index, depends on number of active channels */ MCT_DEC_BLOCK_DATA_HANDLE hBlockData[MCT_MAX_BLOCKS]; - int16_t chBitRatios[MCT_MAX_CHANNELS]; - int16_t lowE_ch[MCT_MAX_CHANNELS]; /* note: pointer to local parameter */ - uint16_t mc_global_ild[MCT_MAX_CHANNELS]; /* note: pointer to local parameter */ + Word16 chBitRatios[MCT_MAX_CHANNELS]; + Word16 lowE_ch[MCT_MAX_CHANNELS]; /* note: pointer to local parameter */ + UWord16 mc_global_ild[MCT_MAX_CHANNELS]; /* note: pointer to local parameter */ } MCT_DEC_DATA, *MCT_DEC_HANDLE; @@ -868,12 +868,12 @@ typedef struct ivas_binaural_rendering_struct IVAS_OUTPUT_SETUP_HANDLE hInputSetup; /* pointer to input spatial format for binaural renderer*/ EFAP_HANDLE hEFAPdata; /* EFAP structure*/ Word32 *hoa_dec_mtx; /* pointer to HOA decoder mtx */ /*Q29*/ - int8_t rotInCldfb; /* Flag to enable rotation within bin Renderer in CLDFB*/ - int16_t max_band; /* band upto which rendering is performed */ - int16_t conv_band; /* band upto which convolution in cldfb domain is performed */ - int16_t timeSlots; /* number of time slots of binaural renderer */ - int16_t nInChannels; /* number input channels */ - int8_t render_lfe; /* Flag to render LFE in binaural rendering*/ + Word8 rotInCldfb; /* Flag to enable rotation within bin Renderer in CLDFB*/ + Word16 max_band; /* band upto which rendering is performed */ + Word16 conv_band; /* band upto which convolution in cldfb domain is performed */ + Word16 timeSlots; /* number of time slots of binaural renderer */ + Word16 nInChannels; /* number input channels */ + Word8 render_lfe; /* Flag to render LFE in binaural rendering*/ IVAS_FORMAT ivas_format; /* format; corresponds to st_ivas->ivas_format, unless the signal gets transormed to a different domain for rendering */ /* Convolution module structure */ @@ -927,18 +927,18 @@ typedef struct ivas_masa_decoder_ext_out_meta_struct { MASA_DECRIPTIVE_META descriptiveMeta; - uint16_t directionIndex[MASA_MAXIMUM_DIRECTIONS][MAX_PARAM_SPATIAL_SUBFRAMES][MASA_FREQUENCY_BANDS]; - uint8_t directToTotalRatio[MASA_MAXIMUM_DIRECTIONS][MAX_PARAM_SPATIAL_SUBFRAMES][MASA_FREQUENCY_BANDS]; - uint8_t spreadCoherence[MASA_MAXIMUM_DIRECTIONS][MAX_PARAM_SPATIAL_SUBFRAMES][MASA_FREQUENCY_BANDS]; + UWord16 directionIndex[MASA_MAXIMUM_DIRECTIONS][MAX_PARAM_SPATIAL_SUBFRAMES][MASA_FREQUENCY_BANDS]; + UWord8 directToTotalRatio[MASA_MAXIMUM_DIRECTIONS][MAX_PARAM_SPATIAL_SUBFRAMES][MASA_FREQUENCY_BANDS]; + UWord8 spreadCoherence[MASA_MAXIMUM_DIRECTIONS][MAX_PARAM_SPATIAL_SUBFRAMES][MASA_FREQUENCY_BANDS]; - uint8_t surroundCoherence[MAX_PARAM_SPATIAL_SUBFRAMES][MASA_FREQUENCY_BANDS]; - uint8_t diffuseToTotalRatio[MAX_PARAM_SPATIAL_SUBFRAMES][MASA_FREQUENCY_BANDS]; + UWord8 surroundCoherence[MAX_PARAM_SPATIAL_SUBFRAMES][MASA_FREQUENCY_BANDS]; + UWord8 diffuseToTotalRatio[MAX_PARAM_SPATIAL_SUBFRAMES][MASA_FREQUENCY_BANDS]; } MASA_DECODER_EXT_OUT_META; typedef struct ivas_masa_decoder_data_struct { - int16_t band_mapping[MASA_FREQUENCY_BANDS + 1]; + Word16 band_mapping[MASA_FREQUENCY_BANDS + 1]; SPHERICAL_GRID_DATA *sph_grid16; MASA_DECODER_EXT_OUT_META *extOutMeta; @@ -957,32 +957,32 @@ typedef struct ivas_masa_decoder_struct /* Data structure for MASA_ISM rendering */ typedef struct ivas_masa_ism_data_structure { - int16_t azimuth_ism[MAX_NUM_OBJECTS][MAX_PARAM_SPATIAL_SUBFRAMES + DELAY_MASA_PARAM_DEC_SFR]; - int16_t elevation_ism[MAX_NUM_OBJECTS][MAX_PARAM_SPATIAL_SUBFRAMES + DELAY_MASA_PARAM_DEC_SFR]; + Word16 azimuth_ism[MAX_NUM_OBJECTS][MAX_PARAM_SPATIAL_SUBFRAMES + DELAY_MASA_PARAM_DEC_SFR]; + Word16 elevation_ism[MAX_NUM_OBJECTS][MAX_PARAM_SPATIAL_SUBFRAMES + DELAY_MASA_PARAM_DEC_SFR]; Word32 energy_ratio_ism_fx[MAX_NUM_OBJECTS][MAX_PARAM_SPATIAL_SUBFRAMES + DELAY_MASA_PARAM_DEC_SFR][CLDFB_NO_CHANNELS_MAX]; /* Q30 */ Word32 masa_to_total_energy_ratio_fx[MAX_PARAM_SPATIAL_SUBFRAMES][MASA_FREQUENCY_BANDS]; /* Q30 */ - int16_t azimuth_ism_edited[MAX_NUM_OBJECTS]; - int16_t elevation_ism_edited[MAX_NUM_OBJECTS]; - uint8_t ism_is_edited[MAX_NUM_OBJECTS]; + Word16 azimuth_ism_edited[MAX_NUM_OBJECTS]; + Word16 elevation_ism_edited[MAX_NUM_OBJECTS]; + UWord8 ism_is_edited[MAX_NUM_OBJECTS]; - int16_t idx_separated_ism; - int16_t azimuth_separated_ism[MAX_PARAM_SPATIAL_SUBFRAMES + DELAY_MASA_PARAM_DEC_SFR]; - int16_t elevation_separated_ism[MAX_PARAM_SPATIAL_SUBFRAMES + DELAY_MASA_PARAM_DEC_SFR]; + Word16 idx_separated_ism; + Word16 azimuth_separated_ism[MAX_PARAM_SPATIAL_SUBFRAMES + DELAY_MASA_PARAM_DEC_SFR]; + Word16 elevation_separated_ism[MAX_PARAM_SPATIAL_SUBFRAMES + DELAY_MASA_PARAM_DEC_SFR]; Word32 q_azimuth_old_fx[MAX_NUM_OBJECTS]; /* Q22 */ Word32 q_elevation_old_fx[MAX_NUM_OBJECTS]; /* Q22 */ Word16 ismPreprocMatrix_fx[2][2][CLDFB_NO_CHANNELS_MAX]; /* Q15 */ - uint8_t objectsMoved; + UWord8 objectsMoved; Word32 eneMoveIIR_fx[2][CLDFB_NO_CHANNELS_MAX]; /*Q-22*/ Word32 enePreserveIIR_fx[2][CLDFB_NO_CHANNELS_MAX]; /*Q-22*/ Word32 preprocEneTarget_fx[CLDFB_NO_CHANNELS_MAX]; /*Q-19*/ Word32 preprocEneRealized_fx[CLDFB_NO_CHANNELS_MAX]; /*Q-19*/ Word32 **delayBuffer_fx; /* Q11 */ - int16_t delayBuffer_size; - int16_t delayBuffer_nchan; + Word16 delayBuffer_size; + Word16 delayBuffer_nchan; } MASA_ISM_DATA, *MASA_ISM_DATA_HANDLE; @@ -996,45 +996,43 @@ typedef struct decoder_tc_buffer_structure Word32 *tc_buffer_fx; /* the buffer itself */ Word16 tc_buff_len; /*stores memory length of tc buffer*/ Word32 *tc_fx[MAX_OUTPUT_CHANNELS + MAX_NUM_OBJECTS]; /* pointers into the buffer to the beginning of each tc Q11 for ivas */ // VE2SB: TBV -#ifdef MSAN_FIX - Word16 no_channels; /*Stores no of channels in tc_fx with values*/ -#endif + Word16 no_channels; /*Stores no of channels in tc_fx with values*/ Word16 q_tc_fx; - TC_BUFFER_MODE tc_buffer_mode; /* mode of the buffer (no buffering, render buffering, out buffering) */ - int16_t nchan_transport_jbm; /* number of TCs after TC decoding */ - int16_t nchan_transport_internal; /* total number of TC buffer channels, can include e.g. TD decorr data */ - int16_t nchan_buffer_full; /* number of channels to be fully buffered */ - int16_t n_samples_available; /* samples still available for rendering in the current frame */ - int16_t n_samples_buffered; /* full number of samples in the buffer (including spill to next frame) */ - int16_t n_samples_rendered; /* samples already rendered in the current frame */ - int16_t n_samples_granularity; /* render granularity */ - int16_t n_samples_flushed; - int16_t subframe_nbslots[MAX_JBM_SUBFRAMES_5MS]; - int16_t nb_subframes; - int16_t subframes_rendered; - int16_t slots_rendered; - int16_t num_slots; - int16_t n_samples_discard; /* number of samples to discard from the beginning of the output */ + TC_BUFFER_MODE tc_buffer_mode; /* mode of the buffer (no buffering, render buffering, out buffering) */ + Word16 nchan_transport_jbm; /* number of TCs after TC decoding */ + Word16 nchan_transport_internal; /* total number of TC buffer channels, can include e.g. TD decorr data */ + Word16 nchan_buffer_full; /* number of channels to be fully buffered */ + Word16 n_samples_available; /* samples still available for rendering in the current frame */ + Word16 n_samples_buffered; /* full number of samples in the buffer (including spill to next frame) */ + Word16 n_samples_rendered; /* samples already rendered in the current frame */ + Word16 n_samples_granularity; /* render granularity */ + Word16 n_samples_flushed; + Word16 subframe_nbslots[MAX_JBM_SUBFRAMES_5MS]; + Word16 nb_subframes; + Word16 subframes_rendered; + Word16 slots_rendered; + Word16 num_slots; + Word16 n_samples_discard; /* number of samples to discard from the beginning of the output */ } DECODER_TC_BUFFER, *DECODER_TC_BUFFER_HANDLE; typedef struct jbm_metadata_structure { - int16_t sf_write_idx; - int16_t sf_md_buffer_length; + Word16 sf_write_idx; + Word16 sf_md_buffer_length; - uint16_t directionIndexBuffer[MASA_MAXIMUM_DIRECTIONS][MAX_PARAM_SPATIAL_SUBFRAMES * MASA_JBM_RINGBUFFER_FRAMES][MASA_FREQUENCY_BANDS]; - uint8_t directToTotalRatioBuffer[MASA_MAXIMUM_DIRECTIONS][MAX_PARAM_SPATIAL_SUBFRAMES * MASA_JBM_RINGBUFFER_FRAMES][MASA_FREQUENCY_BANDS]; - uint8_t spreadCoherenceBuffer[MASA_MAXIMUM_DIRECTIONS][MAX_PARAM_SPATIAL_SUBFRAMES * MASA_JBM_RINGBUFFER_FRAMES][MASA_FREQUENCY_BANDS]; - uint8_t surroundCoherenceBuffer[MAX_PARAM_SPATIAL_SUBFRAMES * MASA_JBM_RINGBUFFER_FRAMES][MASA_FREQUENCY_BANDS]; - uint8_t diffuseToTotalRatioBuffer[MAX_PARAM_SPATIAL_SUBFRAMES * MASA_JBM_RINGBUFFER_FRAMES][MASA_FREQUENCY_BANDS]; - uint8_t numberOfDirections[MAX_PARAM_SPATIAL_SUBFRAMES * MASA_JBM_RINGBUFFER_FRAMES]; /* Descriptive metadata, value is 0 or 1 */ + UWord16 directionIndexBuffer[MASA_MAXIMUM_DIRECTIONS][MAX_PARAM_SPATIAL_SUBFRAMES * MASA_JBM_RINGBUFFER_FRAMES][MASA_FREQUENCY_BANDS]; + UWord8 directToTotalRatioBuffer[MASA_MAXIMUM_DIRECTIONS][MAX_PARAM_SPATIAL_SUBFRAMES * MASA_JBM_RINGBUFFER_FRAMES][MASA_FREQUENCY_BANDS]; + UWord8 spreadCoherenceBuffer[MASA_MAXIMUM_DIRECTIONS][MAX_PARAM_SPATIAL_SUBFRAMES * MASA_JBM_RINGBUFFER_FRAMES][MASA_FREQUENCY_BANDS]; + UWord8 surroundCoherenceBuffer[MAX_PARAM_SPATIAL_SUBFRAMES * MASA_JBM_RINGBUFFER_FRAMES][MASA_FREQUENCY_BANDS]; + UWord8 diffuseToTotalRatioBuffer[MAX_PARAM_SPATIAL_SUBFRAMES * MASA_JBM_RINGBUFFER_FRAMES][MASA_FREQUENCY_BANDS]; + UWord8 numberOfDirections[MAX_PARAM_SPATIAL_SUBFRAMES * MASA_JBM_RINGBUFFER_FRAMES]; /* Descriptive metadata, value is 0 or 1 */ - int16_t slot_read_idx; - int16_t slot_write_idx; - int16_t slot_md_buffer_length; + Word16 slot_read_idx; + Word16 slot_write_idx; + Word16 slot_md_buffer_length; - int16_t sf_to_slot_map[MAX_JBM_SUBFRAMES_5MS * JBM_CLDFB_SLOTS_IN_SUBFRAME * MASA_JBM_RINGBUFFER_FRAMES]; + Word16 sf_to_slot_map[MAX_JBM_SUBFRAMES_5MS * JBM_CLDFB_SLOTS_IN_SUBFRAME * MASA_JBM_RINGBUFFER_FRAMES]; } JBM_METADATA, *JBM_METADATA_HANDLE; @@ -1045,25 +1043,25 @@ typedef struct jbm_metadata_structure typedef struct decoder_config_structure { - int32_t ivas_total_brate; /* IVAS total bitrate in bps */ - int32_t last_ivas_total_brate; /* last IVAS total bitrate in bps */ - int32_t output_Fs; /* output signal sampling frequency in Hz */ - int16_t nchan_out; /* number of output audio channels */ + Word32 ivas_total_brate; /* IVAS total bitrate in bps */ + Word32 last_ivas_total_brate; /* last IVAS total bitrate in bps */ + Word32 output_Fs; /* output signal sampling frequency in Hz */ + Word16 nchan_out; /* number of output audio channels */ AUDIO_CONFIG output_config; /* output audio configuration */ - int16_t Opt_LsCustom; /* indicates whether loudspeaker custom setup is used */ - int16_t Opt_HRTF_binary; /* indicates whether HRTF binary file is used */ - int16_t Opt_Headrotation; /* indicates whether head-rotation is used */ - int16_t Opt_RendConfigCustom; /* indicates whether Renderer configuration custom setup is used */ + Word16 Opt_LsCustom; /* indicates whether loudspeaker custom setup is used */ + Word16 Opt_HRTF_binary; /* indicates whether HRTF binary file is used */ + Word16 Opt_Headrotation; /* indicates whether head-rotation is used */ + Word16 Opt_RendConfigCustom; /* indicates whether Renderer configuration custom setup is used */ IVAS_HEAD_ORIENT_TRK_T orientation_tracking; /* indicates orientation tracking type */ - int16_t Opt_non_diegetic_pan; /* indicates diegetic or not */ + Word16 Opt_non_diegetic_pan; /* indicates diegetic or not */ Word16 non_diegetic_pan_gain_fx; /* non diegetic panning gain*/ /* Q15 */ - int16_t Opt_AMR_WB; /* flag indicating AMR-WB IO mode */ - int16_t Opt_ExternalOrientation; /* indiates whether external orientations are used */ - int16_t Opt_dpid_on; /* indicates whether Directivity pattern option is used */ - int16_t Opt_aeid_on; /* indicates whether Acoustic environment option is used */ - int16_t Opt_tsm; /* indicates whether time scaling modification is activated */ + Word16 Opt_AMR_WB; /* flag indicating AMR-WB IO mode */ + Word16 Opt_ExternalOrientation; /* indiates whether external orientations are used */ + Word16 Opt_dpid_on; /* indicates whether Directivity pattern option is used */ + Word16 Opt_aeid_on; /* indicates whether Acoustic environment option is used */ + Word16 Opt_tsm; /* indicates whether time scaling modification is activated */ IVAS_RENDER_FRAMESIZE render_framesize; - int16_t Opt_delay_comp; /* flag indicating delay compensation active */ + Word16 Opt_delay_comp; /* flag indicating delay compensation active */ #ifdef SPLIT_REND_WITH_HEAD_ROT int16_t Opt_Limiter; #endif @@ -1084,8 +1082,8 @@ typedef struct Decoder_Struct IVAS_FORMAT ivas_format; /* IVAS format */ IVAS_FORMAT last_ivas_format; /* last frame IVAS format */ - int16_t sid_format; /* IVAS format indicator from SID frame */ - int16_t nchan_transport; /* number of transport channels */ + Word16 sid_format; /* IVAS format indicator from SID frame */ + Word16 nchan_transport; /* number of transport channels */ IVAS_OUTPUT_SETUP hOutSetup; /* output setup structure */ AUDIO_CONFIG intern_config; /* internal audio configuration */ IVAS_OUTPUT_SETUP hIntSetup; /* internal setup structure */ @@ -1093,24 +1091,24 @@ typedef struct Decoder_Struct AUDIO_CONFIG transport_config; /* transport audio configuration */ IVAS_OUTPUT_SETUP hTransSetup; /* transport setup structure */ - int16_t element_mode_init; /* element mode used at initialization */ - int16_t codec_mode; /* Mode 1 or 2 */ - int16_t ini_frame; /* initialization frames counter */ - int16_t ini_active_frame; /* initialization active frames counter */ + Word16 element_mode_init; /* element mode used at initialization */ + Word16 codec_mode; /* Mode 1 or 2 */ + Word16 ini_frame; /* initialization frames counter */ + Word16 ini_active_frame; /* initialization active frames counter */ - int16_t bfi; /* FEC - bad frame indicator */ - int16_t BER_detect; /* BER detect flag */ - int16_t num_bits; /* BER detect flag */ + Word16 bfi; /* FEC - bad frame indicator */ + Word16 BER_detect; /* BER detect flag */ + Word16 num_bits; /* BER detect flag */ - uint16_t *bit_stream; /* Pointer to bitstream buffer */ - int16_t writeFECoffset; /* parameter for debugging JBM stuff */ + UWord16 *bit_stream; /* Pointer to bitstream buffer */ + Word16 writeFECoffset; /* parameter for debugging JBM stuff */ IVAS_LIMITER_HANDLE hLimiter; /* Limiter handle */ /* core-decoder modules */ - int16_t nSCE; /* number of total SCEs */ - int16_t nCPE; /* number of total CPEs */ - int16_t nCPE_old; /* number of total CPEs available in the last frame before bitrate switching */ + Word16 nSCE; /* number of total SCEs */ + Word16 nCPE; /* number of total CPEs */ + Word16 nCPE_old; /* number of total CPEs available in the last frame before bitrate switching */ SCE_DEC_HANDLE hSCE[MAX_SCE]; /* SCE handles */ CPE_DEC_HANDLE hCPE[MCT_MAX_BLOCKS]; /* CPE handles */ @@ -1129,12 +1127,12 @@ typedef struct Decoder_Struct LFE_DEC_HANDLE hLFE; /* LFE handle */ ISM_MODE ism_mode; /* ISM format mode */ - int16_t nchan_ism; /* number of ISM channels */ + Word16 nchan_ism; /* number of ISM channels */ MC_MODE mc_mode; /* MC format mode */ - int16_t sba_order; /* Ambisonic (SBA) order */ - int16_t sba_planar; /* Ambisonic (SBA) planar flag */ - int16_t sba_analysis_order; /* Ambisonic (SBA) order used for analysis and coding */ - int16_t sba_dirac_stereo_flag; /* flag indicating stereo output for SBA DirAC modes with 1 TC */ + Word16 sba_order; /* Ambisonic (SBA) order */ + Word16 sba_planar; /* Ambisonic (SBA) planar flag */ + Word16 sba_analysis_order; /* Ambisonic (SBA) order used for analysis and coding */ + Word16 sba_dirac_stereo_flag; /* flag indicating stereo output for SBA DirAC modes with 1 TC */ /* rendering modules */ RENDERER_TYPE renderer_type; /* renderer type */ @@ -1161,7 +1159,7 @@ typedef struct Decoder_Struct Word32 *hoa_dec_mtx; /* Pointer to decoder matrix for SBA */ HEAD_TRACK_DATA_HANDLE hHeadTrackData; /* Head tracking data structure */ RENDER_CONFIG_DATA *hRenderConfig; /* Renderer config pointer */ - int32_t binaural_latency_ns; /* Binauralization latency in ns */ + Word32 binaural_latency_ns; /* Binauralization latency in ns */ EXTERNAL_ORIENTATION_HANDLE hExtOrientationData; /* External orientation data structure */ COMBINED_ORIENTATION_HANDLE hCombinedOrientationData; /* Combined external and head orientation data structure */ DIRAC_REND_HANDLE hDirACRend; /* DirAC renderer handle */ @@ -1169,7 +1167,7 @@ typedef struct Decoder_Struct MASA_ISM_DATA_HANDLE hMasaIsmData; /* OMASA rendering handle */ SBA_ISM_DATA_HANDLE hSbaIsmData; /* OSBA rendering handle */ - int16_t flag_omasa_brate; + Word16 flag_omasa_brate; #ifdef SPLIT_REND_WITH_HEAD_ROT ISAR_DEC_SPLIT_REND_WRAPPER_HANDLE hSplitBinRend; /* ISAR split binaural rendering handle */ @@ -1180,9 +1178,9 @@ typedef struct Decoder_Struct DECODER_TC_BUFFER_HANDLE hTcBuffer; /* JBM structure */ JBM_METADATA_HANDLE hJbmMetadata; /* Structure for metadata buffering in JBM */ - int32_t last_active_ivas_total_brate; - int16_t ism_extmeta_active; /* Extended metadata active in decoder */ - int16_t ism_extmeta_cnt; /* Change frame counter for extended metadata */ + Word32 last_active_ivas_total_brate; + Word16 ism_extmeta_active; /* Extended metadata active in decoder */ + Word16 ism_extmeta_cnt; /* Change frame counter for extended metadata */ Word32 **mem_hp20_out_fx; Word32 *p_output_fx[MAX_OUTPUT_CHANNELS + MAX_NUM_OBJECTS]; /* Word32-output audio buffers */ Word16 p_out_len;/*Stores the total no of channels for which memory is allocated to p_output_fx*/ diff --git a/lib_dec/ivas_stereo_adapt_GR_dec.c b/lib_dec/ivas_stereo_adapt_GR_dec_fx.c similarity index 99% rename from lib_dec/ivas_stereo_adapt_GR_dec.c rename to lib_dec/ivas_stereo_adapt_GR_dec_fx.c index c67a52b6c77db98e288ec4fe49206d5fbfd3d800..2bade4786e8c8fde9f33e95ff0cbdeaaedc95ffb 100644 --- a/lib_dec/ivas_stereo_adapt_GR_dec.c +++ b/lib_dec/ivas_stereo_adapt_GR_dec_fx.c @@ -32,12 +32,10 @@ #include #include "options.h" -#include "prot.h" +#include "prot_fx.h" #include "wmc_auto.h" -#include "ivas_prot.h" #include "ivas_rom_com.h" #include "rom_dec.h" -#include "prot_fx.h" #include "ivas_prot_fx.h" /*---------------------------------------------------------------------* diff --git a/lib_dec/ivas_stereo_cng_dec.c b/lib_dec/ivas_stereo_cng_dec.c index c8985d7cd44487fba2c473f8f404b071a2df7e39..6b8a8f949435c9e234e51f8e02128cb8ba4073de 100644 --- a/lib_dec/ivas_stereo_cng_dec.c +++ b/lib_dec/ivas_stereo_cng_dec.c @@ -34,13 +34,11 @@ #include "options.h" #include #include "cnst.h" -#include "prot.h" -#include "ivas_prot.h" +#include "prot_fx.h" #include "ivas_cnst.h" #include "ivas_rom_com.h" #include "wmc_auto.h" #include "ivas_prot_fx.h" -#include "prot_fx.h" #include "ivas_rom_com_fx.h" /*------------------------------------------------------------------- @@ -318,7 +316,7 @@ static void stereo_dft_generate_comfort_noise_fx( // lp_ener_fx will be in Q6 at this point. // So applying appropriate left shift on the denominator. - factor = L_shr( BASOP_Util_Divide3232_Scale_cadence( st->lp_ener_fx, L_shl( st->L_frame, Q6 ), &q_div ), 1 ); /* fixed factor in the loop below */ /* q_div */ + factor = L_shr( BASOP_Util_Divide3232_Scale_newton( st->lp_ener_fx, L_shl( st->L_frame, Q6 ), &q_div ), 1 ); /* fixed factor in the loop below */ /* q_div */ factor = Sqrt32( factor, &q_div ); q_div = add( q_div, 1 ); @@ -401,7 +399,7 @@ static void stereo_dft_generate_comfort_noise_fx( assert( ftmp > 0 ); q_div = 0; move16(); - ftmp = BASOP_Util_Divide3232_Scale_cadence( L_shl( 1, q_tmp ), ftmp, &q_div ); /* q_div */ + ftmp = BASOP_Util_Divide3232_Scale_newton( L_shl( 1, q_tmp ), ftmp, &q_div ); /* q_div */ /* in float: both a = "div"=(1/(x^2+y^2) and sqrt(a) is used and summed up in the same loop. @@ -586,7 +584,8 @@ static void stereo_dft_generate_comfort_noise_fx( ptr_r = DFT[chan] + add( hFdCngCom->stopFFTbin, i_mult( k, STEREO_DFT32MS_N_MAX ) ); /* q_dft */ ptr_i = ptr_r + 1; - FOR( i = 0; i < ( min( output_frame, hFdCngCom->regularStopBand * 16 ) - hFdCngCom->stopFFTbin ) / 2; i++ ) + Word16 len = shr( ( sub( s_min( output_frame, i_mult( hFdCngCom->regularStopBand, 16 ) ), hFdCngCom->stopFFTbin ) ), 1 ); + FOR( i = 0; i < len; i++ ) { /* Real part in FFT bins */ rand_gauss_fx( ptr_r, &st->hTdCngDec->cng_seed, q_dft ); @@ -623,7 +622,8 @@ static void stereo_dft_generate_comfort_noise_fx( ptr_r = DFT[chan] + add( hFdCngCom->stopFFTbin, i_mult( k, STEREO_DFT32MS_N_MAX ) ); /* q_dft */ ptr_i = ptr_r + 1; - FOR( i = 0; i < ( min( output_frame, hFdCngCom->regularStopBand * 16 ) - hFdCngCom->stopFFTbin ) / 2; i++ ) + tmp = shr( sub( s_min( output_frame, i_mult( hFdCngCom->regularStopBand, 16 ) ), hFdCngCom->stopFFTbin ), 1 ); + FOR( i = 0; i < tmp; i++ ) { ( *ptr_r ) = L_shl( Mpy_32_32( ( *ptr_r ), tmp32_1 ), q_shift ); /* q_dft + q_shift */ move32(); @@ -672,7 +672,7 @@ static void stereo_dft_generate_comfort_noise_fx( move16(); FOR( k = 0; k < ( hFdCngCom->nFFTpart - 2 ); k++ ) { - factor = BASOP_Util_Divide3232_Scale_cadence( L_add( hFdCngCom->sidNoiseEstLp[k], DELTA_FX ), L_add( st->hFdCngDec->partNoiseShape[k], DELTA_FX ), &q_div ); /* q_div */ + factor = BASOP_Util_Divide3232_Scale_newton( L_add( hFdCngCom->sidNoiseEstLp[k], DELTA_FX ), L_add( st->hFdCngDec->partNoiseShape[k], DELTA_FX ), &q_div ); /* q_div */ q_div = add( q_div, sub( hFdCngCom->sidNoiseEstExp, st->hFdCngDec->partNoiseShape_exp ) ); IF( q_div < 0 ) { @@ -683,12 +683,8 @@ static void stereo_dft_generate_comfort_noise_fx( factor = L_min( L_add( L_shl( hStereoDft->scale_fx, sub( 16, q_div ) ), W_extract_l( W_mult0_32_32( Mpy_32_16_1( L_sub( factor, L_shl( hStereoDft->scale_fx, sub( 16, q_div ) ) ), ONE_BY_MAX_K ), hStereoCng->xfade_frame_counter ) ) ), factor ); /* q_div */ FOR( ; j <= hFdCngCom->part[k]; j++ ) { -#ifdef FIX_ISSUE_1218 /* NOTE: saturation is added here as part of issue 1218 fix. After rescaling the fdcng noise estimation buffers, due to slight precision loss, values may slightly overflow */ hFdCngCom->cngNoiseLevel[j] = L_shl_sat( Mpy_32_32( st->hFdCngDec->bandNoiseShape[j], factor ), q_div ); /* exp(st->hFdCngDec->bandNoiseShape_exp) */ -#else - hFdCngCom->cngNoiseLevel[j] = L_shl( Mpy_32_32( st->hFdCngDec->bandNoiseShape[j], factor ), q_div ); /* exp(st->hFdCngDec->bandNoiseShape_exp) */ -#endif move32(); } } @@ -1450,7 +1446,11 @@ void stereo_cna_update_params_fx( { IF( EQ_16( hCPE->nchan_out, 1 ) ) { +#ifdef OPT_STEREO_32KBPS_V1 + c_LR_fx = MAX_32; +#else /* OPT_STEREO_32KBPS_V1 */ c_LR_fx = MAX_WORD16; +#endif /* OPT_STEREO_32KBPS_V1 */ move32(); c_ILD_fx = 0; move32(); @@ -1512,8 +1512,12 @@ void stereo_cna_update_params_fx( dotLR_fx = Mpy_32_32( W_extract_l( dotLR_fx ), energy_xy_fx ); /* dotLR_fx_q + ((31 - temp_res_q) - 31)) */ dotLR_fx_q = add( dotLR_fx_q, sub( sub( 31, temp_res_q ), 31 ) ); dotLR_fx = W_deposit32_l( L_shl_sat( W_extract_l( dotLR_fx ), sub( 31, dotLR_fx_q ) ) ); /* Q31 */ - /* estimate L/R correlation factor and ILD in time domain */ + /* estimate L/R correlation factor and ILD in time domain */ +#ifdef OPT_STEREO_32KBPS_V1 + c_LR_fx = W_extract_l( dotLR_fx ); /* Q31 */ +#else /* OPT_STEREO_32KBPS_V1 */ c_LR_fx = extract_h( W_extract_l( dotLR_fx ) ); /* Q15 */ +#endif /* OPT_STEREO_32KBPS_V1 */ temp_res_q = 0; move16(); @@ -1552,15 +1556,24 @@ void stereo_cna_update_params_fx( /* update of long-term ILD and LR correlation factors for stereo CNA */ IF( !hFdCngDec->first_cna_noise_updated ) { +#ifdef OPT_STEREO_32KBPS_V1 + hFdCngDec->cna_LR_LT_fx = extract_h( c_LR_fx ); +#else /* OPT_STEREO_32KBPS_V1 */ hFdCngDec->cna_LR_LT_fx = extract_l( c_LR_fx ); +#endif /* OPT_STEREO_32KBPS_V1 */ move16(); hFdCngDec->cna_ILD_LT_fx = extract_l( c_ILD_fx ); move16(); } ELSE { +#ifdef OPT_STEREO_32KBPS_V1 + hFdCngDec->cna_LR_LT_fx = extract_h( L_add_sat( Mpy_32_16_1( STEREO_CNA_LR_CORR_LT_FILT_FX, hFdCngDec->cna_LR_LT_fx ), + Mpy_32_32( ONE_IN_Q31 - STEREO_CNA_LR_CORR_LT_FILT_FX, c_LR_fx ) ) ); /* Q31 */ +#else /* OPT_STEREO_32KBPS_V1 */ hFdCngDec->cna_LR_LT_fx = extract_h( L_add_sat( Mpy_32_16_1( STEREO_CNA_LR_CORR_LT_FILT_FX, hFdCngDec->cna_LR_LT_fx ), Mpy_32_16_1( L_sub( ONE_IN_Q31, STEREO_CNA_LR_CORR_LT_FILT_FX ), extract_l( c_LR_fx ) ) ) ); /* Q31 */ +#endif /* OPT_STEREO_32KBPS_V1 */ move16(); hFdCngDec->cna_ILD_LT_fx = extract_h( L_add_sat( Mpy_32_16_1( STEREO_CNA_ILD_LT_FILT_FX, hFdCngDec->cna_ILD_LT_fx ), diff --git a/lib_dec/ivas_stereo_dft_dec.c b/lib_dec/ivas_stereo_dft_dec.c index 5449521d66e72b5ae91956d37aa0b926450c07ac..92ae9159cd99b32fcbf18839bed6508bc7bcbe70 100644 --- a/lib_dec/ivas_stereo_dft_dec.c +++ b/lib_dec/ivas_stereo_dft_dec.c @@ -37,9 +37,7 @@ #include "cnst.h" #include "rom_com.h" #include "rom_dec.h" -#include "prot.h" #include "prot_fx.h" -#include "ivas_prot.h" #include "ivas_cnst.h" #include "ivas_rom_com.h" #include "ivas_rom_com_fx.h" @@ -283,13 +281,13 @@ void stereo_dft_dec_analyze_fx( move16(); NFFT = NS2SA_FX2( inputFs, STEREO_DFT32MS_N_NS ); Word16 qfac_fx; - fac_fx = BASOP_Util_Divide3232_Scale_cadence( hStereoDft->NFFT, NFFT, &qfac_fx ); /* qfac_fx */ + fac_fx = BASOP_Util_Divide3232_Scale_newton( hStereoDft->NFFT, NFFT, &qfac_fx ); /* qfac_fx */ qfac_fx = sub( 31, qfac_fx ); ovl2 = NS2SA_FX2( inputFs, STEREO_DFT32MS_OVL2_NS ); move16(); /* Offset FOR the time buffers */ - assert( ( delay >= -NS2SA_FX2( ( input_frame * FRAMES_PER_SEC ), STEREO_DFT_DELAY_DEC_BWE_NS + STEREO_DFT_OVL_NS / 2 ) ) && ( delay <= NS2SA_FX2( ( input_frame * FRAMES_PER_SEC ), STEREO_DFT_OVL_NS ) ) ); + assert( ( delay >= -NS2SA( input_frame * FRAMES_PER_SEC, STEREO_DFT_DELAY_DEC_BWE_NS + STEREO_DFT_OVL_NS / 2 ) ) && ( delay <= NS2SA( input_frame * FRAMES_PER_SEC, STEREO_DFT_OVL_NS ) ) ); mem_size = add( delay_dec, delay ); /* Update buffers */ diff --git a/lib_dec/ivas_stereo_dft_dec_dmx.c b/lib_dec/ivas_stereo_dft_dec_dmx_fx.c similarity index 98% rename from lib_dec/ivas_stereo_dft_dec_dmx.c rename to lib_dec/ivas_stereo_dft_dec_dmx_fx.c index 99cea064bfb06d61b94e495cf7d0a9ac35d482bb..e82005965b6a452c7d327e89d07b42b082048c7b 100644 --- a/lib_dec/ivas_stereo_dft_dec_dmx.c +++ b/lib_dec/ivas_stereo_dft_dec_dmx_fx.c @@ -35,15 +35,13 @@ #include "options.h" #include #include "cnst.h" -#include "prot.h" -#include "ivas_prot.h" +#include "prot_fx.h" #include "ivas_cnst.h" #include "ivas_rom_com.h" #include "ivas_rom_dec.h" #include "rom_com.h" #include "wmc_auto.h" #include "ivas_prot_fx.h" -#include "prot_fx.h" /*------------------------------------------------------------------------- @@ -61,8 +59,8 @@ void stereo_dft_dmx_out_reset_fx( hStereoDftDmx->prevTargetGain_fx = ONE_IN_Q29; /* Q29 */ move32(); - set32_fx( hStereoDftDmx->memOutHB_fx, 0, NS2SA_FX2( 48000, STEREO_DFT32MS_OVL_NS ) ); - set32_fx( hStereoDftDmx->memTransitionHB_fx, 0, NS2SA_FX2( 48000, STEREO_DFT32MS_OVL_NS ) ); + set32_fx( hStereoDftDmx->memOutHB_fx, 0, NS2SA( 48000, STEREO_DFT32MS_OVL_NS ) ); + set32_fx( hStereoDftDmx->memTransitionHB_fx, 0, NS2SA( 48000, STEREO_DFT32MS_OVL_NS ) ); return; } diff --git a/lib_dec/ivas_stereo_dft_dec_fx.c b/lib_dec/ivas_stereo_dft_dec_fx.c index b76bddbbced0311c235340efc37b5b2155fc51fd..324f2b7f3a07c34f698ba7c232b91052895d4661 100644 --- a/lib_dec/ivas_stereo_dft_dec_fx.c +++ b/lib_dec/ivas_stereo_dft_dec_fx.c @@ -37,9 +37,7 @@ #include "cnst.h" #include "rom_com.h" #include "rom_dec.h" -#include "prot.h" #include "prot_fx.h" -#include "ivas_prot.h" #include "ivas_prot_fx.h" #include "ivas_cnst.h" #include "ivas_rom_com.h" @@ -98,9 +96,7 @@ void stereo_dft_dec_reset_fx( { Word16 i; Word16 j, b; -#ifdef MSAN_FIX - set_zero_fx( hStereoDft->buff_LBTCX_mem_fx, NS2SA_FX2( 16000, STEREO_DFT32MS_OVL_NS ) ); -#endif + set_zero_fx( hStereoDft->buff_LBTCX_mem_fx, NS2SA( 16000, STEREO_DFT32MS_OVL_NS ) ); /*Configuration*/ set16_fx( hStereoDft->prm_res, hStereoDft->hConfig->prm_res, STEREO_DFT_DEC_DFT_NB ); @@ -124,31 +120,19 @@ void stereo_dft_dec_reset_fx( set16_fx( hStereoDft->res_pred_index_previous, 0, STEREO_DFT_BAND_MAX ); -#ifdef MSAN_FIX FOR( i = 0; i < STEREO_DFT_BAND_MAX * 2; i++ ) { hStereoDft->res_gains_ind_fx[0][i] = 1006632960; /* 15.0f in Q26 */ move32(); } -#else - FOR( i = 0; i < STEREO_DFT_BAND_MAX; i++ ) - { - hStereoDft->res_gains_ind_fx[0][i] = 1006632960; /* 15.0f in Q26 */ - move32(); - } -#endif -#ifdef MSAN_FIX set32_fx( hStereoDft->res_gains_ind_fx[1], 0, STEREO_DFT_BAND_MAX * 2 ); -#else - set32_fx( hStereoDft->res_gains_ind_fx[1], 0, STEREO_DFT_BAND_MAX ); -#endif /*residual coding*/ set16_fx( hStereoDft->res_cod_mode, hStereoDft->hConfig->res_cod_mode, STEREO_DFT_DEC_DFT_NB ); hStereoDft->res_cod_band_max = dft_band_res_cod[hStereoDft->hConfig->band_res][hStereoDft->hConfig->res_cod_mode]; set32_fx( hStereoDft->res_cod_mem_fx, 0, STEREO_DFT_OVL_8k ); - hStereoDft->q_res_cod_mem_fx = Q16; + hStereoDft->q_res_cod_mem_fx = Q15; move16(); hStereoDft->res_pred_band_min = s_max( STEREO_DFT_RES_PRED_BAND_MIN, hStereoDft->res_cod_band_max ); @@ -260,8 +244,8 @@ void stereo_dft_dec_reset_fx( move16(); hStereoDft->ipd_xfade_prev_fx = 0; move32(); - -#ifdef MSAN_FIX + hStereoDft->frame_sid_nodata = 0; + move16(); FOR( b = 0; b < 2 * IVAS_MAX_NUM_BANDS; b++ ) { FOR( i = 0; i < 2; i++ ) @@ -273,19 +257,6 @@ void stereo_dft_dec_reset_fx( } } } -#else - FOR( b = 0; b < hStereoDft->nbands; b++ ) - { - FOR( i = 0; i < 2; i++ ) - { - FOR( j = 0; j < 4; j++ ) - { - hStereoDft->mixer_mat_smooth_fx[i][j][b] = 0; - move32(); - } - } - } -#endif hStereoDft->first_frame = 1; move16(); hStereoDft->g_L_prev_fx = 0; @@ -430,9 +401,7 @@ ivas_error stereo_dft_dec_create_fx( { return ( IVAS_ERROR( IVAS_ERR_FAILED_ALLOC, "Can not allocate memory for TCX-LTP handle\n" ) ); } -#ifdef MSAN_FIX set_zero_fx( hStereoDft_loc->hb_nrg_subr_fx, STEREO_DFT_NBDIV ); /*Setting hb_nrg_subr_fx to zero*/ -#endif // MSAN_FIX hStereoDft_loc->hConfig->force_mono_transmission = 0; move16(); @@ -1358,9 +1327,9 @@ void stereo_dft_dec_res_fx( IF( EQ_16( hCPE->hStereoDft->res_cod_mode[STEREO_DFT_OFFSET - 1], STEREO_DFT_RES_COD_OFF ) ) { set32_fx( hCPE->hStereoDft->res_cod_mem_fx, 0, STEREO_DFT_OVL_8k ); - hCPE->hStereoDft->q_res_cod_mem_fx = Q16; + hCPE->hStereoDft->q_res_cod_mem_fx = Q15; move16(); - set32_fx( hCPE->input_mem_fx[1], 0, NS2SA_FX2( 8000, STEREO_DFT32MS_OVL_NS ) ); + set32_fx( hCPE->input_mem_fx[1], 0, NS2SA( 8000, STEREO_DFT32MS_OVL_NS ) ); set16_fx( hCPE->hStereoDft->hBpf->pst_old_syn_fx, 0, STEREO_DFT_NBPSF_PIT_MAX_8k ); hCPE->hStereoDft->hBpf->pst_mem_deemp_err_fx = 0; move16(); @@ -1369,23 +1338,23 @@ void stereo_dft_dec_res_fx( /*Inverse MDCT*/ TCX_MDCT_Inverse( res_buf, q_res, win, STEREO_DFT_OVL_8k, L_FRAME8k - STEREO_DFT_OVL_8k, STEREO_DFT_OVL_8k, IVAS_CPE_DFT ); + scale_sig( win, L_FRAME8k + STEREO_DFT_OVL_8k, -1 ); + + Word16 q_shift = sub( hCPE->hStereoDft->q_res_cod_mem_fx, Q15 ); IF( !prev_bfi ) { /*OLA*/ /*overlapping parts*/ - Word16 q_shift = sub( hCPE->hStereoDft->q_res_cod_mem_fx, Q16 ); + FOR( i = 0; i < STEREO_DFT_OVL_8k; i++ ) { - win[i] = extract_h( L_add( hCPE->hStereoDft->res_cod_mem_fx[i], L_shl( L_mult( win[i], hCPE->hStereoDft->win_8k_fx[i] ), q_shift ) ) ); /* q_res_cod_mem_fx */ + win[i] = extract_h( L_add( hCPE->hStereoDft->res_cod_mem_fx[i], L_shl( L_mult( win[i], hCPE->hStereoDft->win_8k_fx[i] ), q_shift ) ) ); /* q_res_cod_mem_fx -17 (q_shift -1)*/ move16(); - hCPE->hStereoDft->res_cod_mem_fx[i] = L_mult( win[L_FRAME8k + i], hCPE->hStereoDft->win_8k_fx[STEREO_DFT_OVL_8k - 1 - i] ); /* q_res_cod_mem_fx */ + hCPE->hStereoDft->res_cod_mem_fx[i] = L_mult( win[L_FRAME8k + i], hCPE->hStereoDft->win_8k_fx[STEREO_DFT_OVL_8k - 1 - i] ); /* -1 +15 +1 */ move32(); } - IF( q_shift != 0 ) - { - v_shr_16( &win[STEREO_DFT_OVL_8k], negate( q_shift ), &win[STEREO_DFT_OVL_8k], L_FRAME8k ); - } - hCPE->hStereoDft->q_res_cod_mem_fx = Q16; + + move16(); } ELSE @@ -1398,22 +1367,29 @@ void stereo_dft_dec_res_fx( FOR( i = 0; i < STEREO_DFT_OVL_8k; i++ ) { win[i] = extract_h( Madd_32_16( Mpy_32_16_1( hCPE->hStereoDft->res_cod_mem_fx[i], sub( MAX_16, mult( fac, fac ) ) ), - L_mult( hCPE->hStereoDft->win_8k_fx[i], win[i] ), - sub( MAX_16, mult( sub( MAX_16, fac ), sub( MAX_16, fac ) ) ) ) ); /* Q0 */ + L_shl( L_mult( hCPE->hStereoDft->win_8k_fx[i], win[i] ), q_shift ), + sub( MAX_16, mult( sub( MAX_16, fac ), sub( MAX_16, fac ) ) ) ) ); /* Q(q_shift -1) */ move16(); - hCPE->hStereoDft->res_cod_mem_fx[i] = L_mult( win[L_FRAME8k + i], hCPE->hStereoDft->win_8k_fx[STEREO_DFT_OVL_8k - 1 - i] ); /* Q16 */ + hCPE->hStereoDft->res_cod_mem_fx[i] = L_mult( win[L_FRAME8k + i], hCPE->hStereoDft->win_8k_fx[STEREO_DFT_OVL_8k - 1 - i] ); /* Q15 */ move32(); fac = add( fac, step ); } } - Copy( win, out_16, L_FRAME8k ); /* Q0 */ + IF( q_shift != 0 ) + { + v_shr_16( &win[STEREO_DFT_OVL_8k], negate( q_shift ), &win[STEREO_DFT_OVL_8k], L_FRAME8k ); + } + + hCPE->hStereoDft->q_res_cod_mem_fx = Q15; + + Copy( win, out_16, L_FRAME8k ); /* Q(q_shift -1 ) */ IF( hCPE->hCoreCoder[0]->core == ACELP_CORE ) { /* bass post-filter */ bass_psfilter_fx( hCPE->hStereoDft->hBpf, hCPE->hCoreCoder[0]->Opt_AMR_WB, out_16, L_FRAME8k, hCPE->hCoreCoder[0]->old_pitch_buf_16_fx + ( L_FRAME8k / STEREO_DFT_L_SUBFR_8k ), hCPE->hCoreCoder[0]->bpf_off, - hCPE->hCoreCoder[0]->stab_fac_fx, &hCPE->hStereoDft->stab_fac_smooth_res_fx, hCPE->hCoreCoder[0]->last_coder_type, 0, bpf_error_signal_8k_16 ); + hCPE->hCoreCoder[0]->stab_fac_fx, &hCPE->hStereoDft->stab_fac_smooth_res_fx, hCPE->hCoreCoder[0]->last_coder_type, sub( q_shift, 1 ), bpf_error_signal_8k_16 ); Copy_Scale_sig_16_32_DEPREC( bpf_error_signal_8k_16, bpf_error_signal_8k, L_FRAME8k, Q15 ); /* Q15 */ res_bpf_flag = res_bpf_adapt_ivas_fx( hCPE->hStereoDft, bpf_error_signal_8k, res_buf, q_res ); @@ -1430,11 +1406,7 @@ void stereo_dft_dec_res_fx( move32(); } } -#ifdef FIX_ISSUE_1237 - Copy_Scale_sig_16_32_no_sat( out_16, output, L_FRAME8k, 15 ); /* Q15 */ -#else - Copy_Scale_sig_16_32_DEPREC( out_16, output, L_FRAME8k, 16 ); /* Q16 */ -#endif + Copy_Scale_sig_16_32_no_sat( out_16, output, L_FRAME8k, sub( 15, sub( q_shift, 1 ) ) ); /* Q15 */ IF( res_bpf_flag ) { v_sub_32( output, bpf_error_signal_8k, output, L_FRAME8k ); @@ -1445,20 +1417,12 @@ void stereo_dft_dec_res_fx( set16_fx( hCPE->hStereoDft->hBpf->pst_old_syn_fx, 0, STEREO_DFT_NBPSF_PIT_MAX_8k ); hCPE->hStereoDft->hBpf->pst_mem_deemp_err_fx = 0; move16(); -#ifdef FIX_ISSUE_1237 - Copy_Scale_sig_16_32_no_sat( out_16, output, L_FRAME8k, 15 ); /* Q15 */ -#else - Copy_Scale_sig_16_32_DEPREC( out_16, output, L_FRAME8k, 16 ); /* Q16 */ -#endif + Copy_Scale_sig_16_32_no_sat( out_16, output, L_FRAME8k, sub( 15, sub( q_shift, 1 ) ) ); /* Q15 */ } ELSE { /* This step is needed to ensure output is properly populated with scaled values in all cases*/ -#ifdef FIX_ISSUE_1237 - Copy_Scale_sig_16_32_no_sat( out_16, output, L_FRAME8k, 15 ); /* Q15 */ -#else - Copy_Scale_sig_16_32_DEPREC( out_16, output, L_FRAME8k, 16 ); /* Q16 */ -#endif + Copy_Scale_sig_16_32_no_sat( out_16, output, L_FRAME8k, sub( 15, sub( q_shift, 1 ) ) ); /* Q15 */ } return; @@ -1519,8 +1483,11 @@ void stereo_dft_dec_fx( HANDLE_FD_CNG_COM hFdCngCom = hFdCngDec->hFdCngCom; Word16 *cna_seed = &( hFdCngCom->seed ); Word32 DFT_W, DFT_Y; +#ifndef OPT_STEREO_32KBPS_V1 Word16 q_samp_ratio = Q15; move16(); +#endif /* OPT_STEREO_32KBPS_V1 */ + Word16 len; output_frame = (Word16) Mpy_32_32( L_add( st0->output_Fs, FRAMES_PER_SEC_BY_2 ), ONE_BY_FRAMES_PER_SEC_Q31 ); /* Q0 */ @@ -1528,8 +1495,12 @@ void stereo_dft_dec_fx( * Initialization *-----------------------------------------------------------------*/ +#ifdef OPT_STEREO_32KBPS_V1 + samp_ratio = divide3232( st0->sr_core, st0->output_Fs ); // Q15 +#else /* OPT_STEREO_32KBPS_V1 */ samp_ratio = (Word16) BASOP_Util_Divide3232_Scale( st0->sr_core, st0->output_Fs, &q_samp_ratio ); samp_ratio = shr( samp_ratio, sub( Q15 - Q12, q_samp_ratio ) ); +#endif /* OPT_STEREO_32KBPS_V1 */ stop = shr( STEREO_DFT32MS_N_32k, 1 ); @@ -1885,7 +1856,8 @@ void stereo_dft_dec_fx( DFT_R[2 * i + 1] = L_sub( DFT_W, DFT_Y ); /* qDFT */ move32(); } - FOR( i = hStereoDft->band_limits[b]; i < min( stop, hStereoDft->band_limits[b + 1] ); i++ ) + len = s_min( stop, hStereoDft->band_limits[b + 1] ); + FOR( i = hStereoDft->band_limits[b]; i < len; i++ ) { DFT_W = Madd_32_32( Mpy_32_32( hStereoDft->mixer_mat_smooth_fx[0][0][b + k * IVAS_MAX_NUM_BANDS], pDFT_DMX[2 * i] ), L_add( hStereoDft->mixer_mat_smooth_fx[0][1][b + k * IVAS_MAX_NUM_BANDS], @@ -1992,7 +1964,8 @@ void stereo_dft_dec_fx( } ELSE { - FOR( i = hStereoDft->band_limits[b]; i < min( stop, hStereoDft->band_limits[b + 1] ); i++ ) + len = s_min( stop, hStereoDft->band_limits[b + 1] ); + FOR( i = hStereoDft->band_limits[b]; i < len; i++ ) { tmp = L_add( Madd_32_16( pDFT_RES[2 * i], pDFT_DMX[2 * i], g ), DFT_PRED_RES[2 * i] ); /* qDFT */ @@ -2102,10 +2075,17 @@ void stereo_dft_dec_fx( /*Nyquist Freq.*/ IF( EQ_16( hStereoDft->band_limits[b], shr( hStereoDft->NFFT, 1 ) ) ) { +#ifdef OPT_STEREO_32KBPS_V1 + DFT_L[1] = Madd_32_16( pDFT_DMX[1], pDFT_DMX[1], g ); /* qDFT */ + move32(); + DFT_R[1] = Msub_32_16( pDFT_DMX[1], pDFT_DMX[1], g ); /* qDFT */ + move32(); +#else /* OPT_STEREO_32KBPS_V1 */ DFT_L[1] = L_add( pDFT_DMX[1], Mpy_32_16_1( pDFT_DMX[1], g ) ); /* qDFT */ move32(); DFT_R[1] = L_sub( pDFT_DMX[1], Mpy_32_16_1( pDFT_DMX[1], g ) ); /* qDFT */ move32(); +#endif /* OPT_STEREO_32KBPS_V1 */ DFT_L[1] = Mpy_32_16_1( DFT_L[1], INV_SQRT2_FX_Q15 ); /* qDFT */ move32(); DFT_R[1] = Mpy_32_16_1( DFT_R[1], INV_SQRT2_FX_Q15 ); /* qDFT */ @@ -2206,8 +2186,8 @@ void stereo_dft_dec_fx( gamma = 0; move16(); } - - FOR( i = max( hFdCngDec->cna_band_limits[b], ( hFdCngCom->startBand / 2 ) ); i < min( hFdCngDec->cna_band_limits[b + 1], ( L_FRAME16k ) >> 1 ); i++ ) + len = s_min( hFdCngDec->cna_band_limits[b + 1], ( L_FRAME16k ) >> 1 ); + FOR( i = s_max( hFdCngDec->cna_band_limits[b], ( hFdCngCom->startBand >> 1 ) ); i < len; i++ ) // i < min( hFdCngDec->cna_band_limits[b + 1], ( L_FRAME16k ) >> 1 ); { Word32 l_tmp; lev1 = *ptr_per++; @@ -2238,27 +2218,52 @@ void stereo_dft_dec_fx( q_cna_level = sub( Q31, add( q_cna_level, Q16 ) ); /* generate comfort noise from gaussian noise and add to the decoded DFT spectrum */ +#ifdef OPT_STEREO_32KBPS_V1 + Word16 shift = sub( q_cna_level, hStereoDft->q_dft ); +#endif /* OPT_STEREO_32KBPS_V1 */ N1 = L_shl( Mpy_32_16_1( scale_fact, rand_gauss_fix( &ftmp, cna_seed ) ), Q2 ); /* q_cna_level */ N2 = L_shl( Mpy_32_16_1( scale_fact, rand_gauss_fix( &ftmp, cna_seed ) ), Q2 ); /* q_cna_level */ - l_tmp = L_add( Madd_32_16( N1, N1, g ), Mpy_32_16_1( N2, gamma ) ); /* q_cna_level */ - l_tmp = L_shr( l_tmp, sub( q_cna_level, hStereoDft->q_dft ) ); /* q_dft */ - DFT_L[2 * i] = L_add( DFT_L[2 * i], l_tmp ); /* q_dft */ +#ifdef OPT_STEREO_32KBPS_V1 + l_tmp = Madd_32_16( Madd_32_16( N1, N1, g ), N2, gamma ); /* q_cna_level */ + l_tmp = L_shr( l_tmp, shift ); /* q_dft */ +#else /* OPT_STEREO_32KBPS_V1 */ + l_tmp = L_add( Madd_32_16( N1, N1, g ), Mpy_32_16_1( N2, gamma ) ); /* q_cna_level */ + l_tmp = L_shr( l_tmp, sub( q_cna_level, hStereoDft->q_dft ) ); /* q_dft */ +#endif /* OPT_STEREO_32KBPS_V1 */ + DFT_L[2 * i] = L_add( DFT_L[2 * i], l_tmp ); /* q_dft */ move32(); +#ifdef OPT_STEREO_32KBPS_V1 + l_tmp = Msub_32_16( Msub_32_16( N1, N1, g ), N2, gamma ); /* q_cna_level */ + l_tmp = L_shr( l_tmp, shift ); /* q_dft */ + DFT_R[2 * i] = L_add( DFT_R[2 * i], l_tmp ); /* q_dft */ +#else /* OPT_STEREO_32KBPS_V1 */ l_tmp = L_sub( Msub_32_16( N1, N1, g ), Mpy_32_16_1( N2, gamma ) ); /* q_cna_level */ l_tmp = L_shr( l_tmp, sub( q_cna_level, hStereoDft->q_dft ) ); /* q_dft */ DFT_R[2 * i] = L_add( DFT_R[2 * i], l_tmp ); /* q_dft */ +#endif /* OPT_STEREO_32KBPS_V1 */ move32(); N1 = L_shl( Mpy_32_16_1( scale_fact, rand_gauss_fix( &ftmp, cna_seed ) ), Q2 ); /* q_cna_level */ N2 = L_shl( Mpy_32_16_1( scale_fact, rand_gauss_fix( &ftmp, cna_seed ) ), Q2 ); /* q_cna_level */ - l_tmp = L_add( Madd_32_16( N1, N1, g ), Mpy_32_16_1( N2, gamma ) ); /* q_cna_level */ - l_tmp = L_shr( l_tmp, sub( q_cna_level, hStereoDft->q_dft ) ); /* q_dft */ - DFT_L[2 * i + 1] = L_add( DFT_L[2 * i + 1], l_tmp ); /* q_dft */ +#ifdef OPT_STEREO_32KBPS_V1 + l_tmp = Madd_32_16( Madd_32_16( N1, N1, g ), N2, gamma ); /* q_cna_level */ + l_tmp = L_shr( l_tmp, shift ); /* q_dft */ + DFT_L[2 * i + 1] = L_add( DFT_L[2 * i + 1], l_tmp ); /* q_dft */ + move32(); + l_tmp = Msub_32_16( Msub_32_16( N1, N1, g ), N2, gamma ); /* q_cna_level */ + l_tmp = L_shr( l_tmp, shift ); /* q_dft */ + DFT_R[2 * i + 1] = L_add( DFT_R[2 * i + 1], l_tmp ); /* q_dft */ + move32(); +#else /* OPT_STEREO_32KBPS_V1 */ + l_tmp = L_add( Madd_32_16( N1, N1, g ), Mpy_32_16_1( N2, gamma ) ); /* q_cna_level */ + l_tmp = L_shr( l_tmp, sub( q_cna_level, hStereoDft->q_dft ) ); /* q_dft */ + DFT_L[2 * i + 1] = L_add( DFT_L[2 * i + 1], l_tmp ); /* q_dft */ move32(); l_tmp = L_sub( Msub_32_16( N1, N1, g ), Mpy_32_16_1( N2, gamma ) ); /* q_cna_level */ l_tmp = L_shr( l_tmp, sub( q_cna_level, hStereoDft->q_dft ) ); /* q_dft */ DFT_R[2 * i + 1] = L_add( DFT_R[2 * i + 1], l_tmp ); /* q_dft */ move32(); +#endif /* OPT_STEREO_32KBPS_V1 */ } } @@ -2346,8 +2351,12 @@ static void stereo_dft_compute_td_stefi_params_fx( return; } +#ifdef OPT_STEREO_32KBPS_V1 + bin0 = round_fx( L_mult0( hStereoDft->NFFT, samp_ratio ) ); +#else /* OPT_STEREO_32KBPS_V1 */ bin0 = extract_l( L_shr_r( Mpy_32_16_1( (Word32) hStereoDft->NFFT, samp_ratio ), 1 ) ); /* Q0 */ bin0 = shl( bin0, Q3 ); +#endif /* OPT_STEREO_32KBPS_V1 */ bin0 = s_min( bin0, hStereoDft->band_limits[hStereoDft->nbands] ); /* Q0 */ b = hStereoDft->nbands; /* Q0 */ move16(); @@ -2512,14 +2521,18 @@ static void stereo_dft_dequantize_ipd_fx( *-------------------------------------------------------------------------*/ void stereo_dft_generate_res_pred_fx( STEREO_DFT_DEC_DATA_HANDLE hStereoDft, /* i/o: decoder DFT stereo handle */ - const Word16 samp_ratio, /* i : sampling ratio Q13*/ - Word32 *pDFT_DMX, /* i : downmix signal qDFT*/ - Word32 *DFT_PRED_RES, /* o : residual prediction signal qDFT*/ - Word32 *pPredGain, /* i : residual prediction gains Q31*/ - const Word16 k, /* i : subframe index Q0*/ - Word32 *ap_filt_DMX, /* i : enhanced stereo filling signal qDFT*/ - Word16 *stop, /* o : last FD stereo filling bin Q0*/ - const Word16 bfi /* i : BFI flag Q0*/ +#ifdef OPT_STEREO_32KBPS_V1 + const Word16 samp_ratio, /* i : sampling ratio Q15*/ +#else /* OPT_STEREO_32KBPS_V1 */ + const Word16 samp_ratio, /* i : sampling ratio Q13*/ +#endif /* OPT_STEREO_32KBPS_V1 */ + Word32 *pDFT_DMX, /* i : downmix signal qDFT*/ + Word32 *DFT_PRED_RES, /* o : residual prediction signal qDFT*/ + Word32 *pPredGain, /* i : residual prediction gains Q31*/ + const Word16 k, /* i : subframe index Q0*/ + Word32 *ap_filt_DMX, /* i : enhanced stereo filling signal qDFT*/ + Word16 *stop, /* o : last FD stereo filling bin Q0*/ + const Word16 bfi /* i : BFI flag Q0*/ ) { /* general variables */ @@ -2529,7 +2542,10 @@ void stereo_dft_generate_res_pred_fx( Word16 lb_stefi_start_band; /* variables for enhanced stereo filling */ - Word16 norm_fac, q_norm_fac, lim_norm_fac; + Word16 norm_fac, q_norm_fac; +#ifndef OPT_STEREO_32KBPS_V1 + Word16 lim_norm_fac; +#endif /* OPT_STEREO_32KBPS_V1 */ Word16 q_sqrt; Word16 alpha; // gain_limit; @@ -2543,8 +2559,13 @@ void stereo_dft_generate_res_pred_fx( Word32 pred_gain_avg; Word32 g2; Word16 nbands_respred; +#ifdef OPT_STEREO_32KBPS_V1 + Word16 q_new, diff; +#else /* OPT_STEREO_32KBPS_V1 */ q_norm_fac = 0; move16(); +#endif /* OPT_STEREO_32KBPS_V1 */ + Word16 len; push_wmops( "gen_respred" ); /* smoothing and limiting parameters */ @@ -2566,8 +2587,12 @@ void stereo_dft_generate_res_pred_fx( /* In ACELP mode the downmix signal is not available in bandwidth extension area. * * Therefore, the downmix energy in the corresponding subbands is estimated. */ +#ifdef OPT_STEREO_32KBPS_V1 + bin0 = round_fx( L_mult0( hStereoDft->NFFT, samp_ratio ) ); +#else /* OPT_STEREO_32KBPS_V1 */ bin0 = (Word16) ( L_shr( L_add( L_mult0( hStereoDft->NFFT, samp_ratio ), ONE_IN_Q12 ), Q12 + 1 ) ); /* Q0 */ move16(); +#endif /* OPT_STEREO_32KBPS_V1 */ bin0 = s_min( bin0, hStereoDft->band_limits[hStereoDft->nbands] ); /* Q0 */ b = hStereoDft->nbands; move16(); @@ -2609,39 +2634,81 @@ void stereo_dft_generate_res_pred_fx( move64(); /* calculate band energies (low band only in case of ACELP) */ - FOR( i = hStereoDft->band_limits[b]; i < min( hStereoDft->band_limits[b + 1], bin0 ); i++ ) + len = s_min( hStereoDft->band_limits[b + 1], bin0 ); + FOR( i = hStereoDft->band_limits[b]; i < len; i++ ) { +#ifdef OPT_STEREO_32KBPS_V1 + dmx_nrg_64bit = W_mac_32_32( W_mac_32_32( dmx_nrg_64bit, pDFT_DMX[2 * i], pDFT_DMX[2 * i] ), + pDFT_DMX[2 * i + 1], pDFT_DMX[2 * i + 1] ); /* 2 * q_dft + 1 */ + rev_nrg_64bit = W_mac_32_32( W_mac_32_32( rev_nrg_64bit, ap_filt_DMX[2 * i], ap_filt_DMX[2 * i] ), + ap_filt_DMX[2 * i + 1], ap_filt_DMX[2 * i + 1] ); /* 2 * q_dft + 1 */ +#else /* OPT_STEREO_32KBPS_V1 */ dmx_nrg_64bit = W_add( dmx_nrg_64bit, W_add( W_mult0_32_32( pDFT_DMX[2 * i], pDFT_DMX[2 * i] ), W_mult0_32_32( pDFT_DMX[2 * i + 1], pDFT_DMX[2 * i + 1] ) ) ); /* 2 * q_dft */ rev_nrg_64bit = W_add( rev_nrg_64bit, W_add( W_mult0_32_32( ap_filt_DMX[2 * i], ap_filt_DMX[2 * i] ), W_mult0_32_32( ap_filt_DMX[2 * i + 1], ap_filt_DMX[2 * i + 1] ) ) ); /* 2 * q_dft */ +#endif /* OPT_STEREO_32KBPS_V1 */ } + +#ifdef OPT_STEREO_32KBPS_V1 + q_new = add( shl( hStereoDft->q_dft, 1 ), 1 ); + q_shift = W_norm( dmx_nrg_64bit ); + dmx_nrg = W_shl_sat_l( dmx_nrg_64bit, sub( q_shift, 32 ) ); // 2 * hStereoDft->q_dft + 1 - (q_shift - 32) + dmx_nrg_q = add( q_new, sub( q_shift, 32 ) ); + q_shift = W_norm( rev_nrg_64bit ); + rev_nrg = W_shl_sat_l( rev_nrg_64bit, sub( q_shift, 32 ) ); // 2 * hStereoDft->q_dft + 1 - (q_shift - 32) + rev_nrg_q = add( q_new, sub( q_shift, 32 ) ); + move16(); +#else /* OPT_STEREO_32KBPS_V1 */ q_shift = W_norm( dmx_nrg_64bit ); dmx_nrg = W_extract_l( W_shl( dmx_nrg_64bit, sub( q_shift, 32 ) ) ); // 2 * hStereoDft->q_dft + (q_shift - 32) dmx_nrg_q = add( imult1616( 2, hStereoDft->q_dft ), sub( q_shift, 32 ) ); q_shift = W_norm( rev_nrg_64bit ); rev_nrg = W_extract_l( W_shl( rev_nrg_64bit, sub( q_shift, 32 ) ) ); // 2 * hStereoDft->q_dft + (q_shift - 32) rev_nrg_q = add( imult1616( 2, hStereoDft->q_dft ), sub( q_shift, 32 ) ); +#endif /* OPT_STEREO_32KBPS_V1 */ /* Reach a common Q for dmx_nrg and rev_nrg */ q_com = s_min( dmx_nrg_q, rev_nrg_q ); dmx_nrg = L_shl( dmx_nrg, sub( q_com, dmx_nrg_q ) ); /* q_com */ rev_nrg = L_shl( rev_nrg, sub( q_com, rev_nrg_q ) ); /* q_com */ + +#ifdef OPT_STEREO_32KBPS_V1 + diff = sub( hStereoDft->q_smoothed_nrg, q_com ); + IF( diff < 0 ) +#else /* OPT_STEREO_32KBPS_V1 */ IF( LT_16( hStereoDft->q_smoothed_nrg, q_com ) ) +#endif /* OPT_STEREO_32KBPS_V1 */ { +#ifdef OPT_STEREO_32KBPS_V1 + rev_nrg = L_shl( rev_nrg, shl( diff, 1 ) ); + dmx_nrg = L_shl( dmx_nrg, shl( diff, 1 ) ); +#else /* OPT_STEREO_32KBPS_V1 */ rev_nrg = L_shr( rev_nrg, shl( sub( q_com, hStereoDft->q_smoothed_nrg ), 1 ) ); dmx_nrg = L_shr( dmx_nrg, shl( sub( q_com, hStereoDft->q_smoothed_nrg ), 1 ) ); +#endif /* OPT_STEREO_32KBPS_V1 */ q_com = hStereoDft->q_smoothed_nrg; move16(); } +#ifdef OPT_STEREO_32KBPS_V1 + ELSE +#else /* OPT_STEREO_32KBPS_V1 */ ELSE IF( GT_16( hStereoDft->q_smoothed_nrg, q_com ) ) +#endif /* OPT_STEREO_32KBPS_V1 */ { +#ifdef OPT_STEREO_32KBPS_V1 + hStereoDft->smooth_res_nrg_fx[b] = L_shr( hStereoDft->smooth_res_nrg_fx[b], shl( diff, 1 ) ); /* hStereoDft->q_smoothed_nrg */ + move32(); + hStereoDft->smooth_dmx_nrg_fx[b] = L_shr( hStereoDft->smooth_dmx_nrg_fx[b], shl( diff, 1 ) ); /* hStereoDft->q_smoothed_nrg */ + move32(); +#else /* OPT_STEREO_32KBPS_V1 */ hStereoDft->smooth_res_nrg_fx[b] = L_shr( hStereoDft->smooth_res_nrg_fx[b], shl( sub( hStereoDft->q_smoothed_nrg, q_com ), 1 ) ); /* hStereoDft->q_smoothed_nrg */ move32(); hStereoDft->smooth_dmx_nrg_fx[b] = L_shr( hStereoDft->smooth_dmx_nrg_fx[b], shl( sub( hStereoDft->q_smoothed_nrg, q_com ), 1 ) ); /* hStereoDft->q_smoothed_nrg */ move32(); +#endif /* OPT_STEREO_32KBPS_V1 */ q_smoothed_nrg_local[b] = q_com; move16(); } @@ -2651,9 +2718,38 @@ void stereo_dft_generate_res_pred_fx( hStereoDft->smooth_dmx_nrg_fx[b] = Madd_32_16( Mpy_32_16_1( hStereoDft->smooth_dmx_nrg_fx[b], alpha ), dmx_nrg, sub( (Word16) ( 0x7FFF ), alpha ) ); /* hStereoDft->q_smoothed_nrg */ move32(); +#ifdef OPT_STEREO_32KBPS_V1 + // Compute norm_fac in Q14 + norm_fac = MAX_16; + move16(); +#endif /* OPT_STEREO_32KBPS_V1 */ /* normalization factor */ IF( hStereoDft->smooth_res_nrg_fx[b] != 0 ) { +#ifdef OPT_STEREO_32KBPS_V1 + norm_fac = 0; + move16(); + IF( hStereoDft->smooth_dmx_nrg_fx[b] != 0 ) + { + Word16 quo, quo_e; + Word32 prod; + + norm_fac = BASOP_Util_Divide3232_Scale( hStereoDft->smooth_dmx_nrg_fx[b], hStereoDft->smooth_res_nrg_fx[b], &q_norm_fac ); /* q_norm_fac */ + norm_fac = Sqrt16( norm_fac, &q_norm_fac ); + + quo = BASOP_Util_Divide1616_Scale( 32767, norm_fac, &quo_e ); /* q_norm_fac */ + quo_e = sub( quo_e, q_norm_fac ); + quo = shl_sat( quo, sub( quo_e, 1 ) ); // Q14 + quo = s_max( 13107 /*0.8 in Q14 */, quo ); + quo = s_min( quo, 20480 /* 1.25 in Q14*/ ); + + prod = L_mult( norm_fac, quo ); // exp:q_norm_fac+1 + // Bring to Q30 + prod = L_shl_sat( prod, q_norm_fac ); + + norm_fac = extract_h( prod ); + } +#else /* OPT_STEREO_32KBPS_V1 */ norm_fac = BASOP_Util_Divide3232_Scale( hStereoDft->smooth_dmx_nrg_fx[b], hStereoDft->smooth_res_nrg_fx[b], &q_norm_fac ); /* q_norm_fac */ norm_fac = Sqrt16( norm_fac, &q_norm_fac ); IF( norm_fac != 0 ) @@ -2709,7 +2805,9 @@ void stereo_dft_generate_res_pred_fx( } } } +#endif /* OPT_STEREO_32KBPS_V1 */ } +#ifndef OPT_STEREO_32KBPS_V1 ELSE { norm_fac = MAX_16; @@ -2717,13 +2815,22 @@ void stereo_dft_generate_res_pred_fx( q_norm_fac = Q1; move16(); } +#endif /* OPT_STEREO_32KBPS_V1 */ - FOR( i = hStereoDft->band_limits[b]; i < min( hStereoDft->band_limits[b + 1], bin0 ); i++ ) + len = s_min( hStereoDft->band_limits[b + 1], bin0 ); + FOR( i = hStereoDft->band_limits[b]; i < len; i++ ) { +#ifdef OPT_STEREO_32KBPS_V1 + DFT_PRED_RES[2 * i] = L_shl( Mpy_32_32( Mpy_32_16_1( pPredGain[b], norm_fac ), ap_filt_DMX[2 * i] ), 1 ); /* q_dft */ + move32(); + DFT_PRED_RES[2 * i + 1] = L_shl( Mpy_32_32( Mpy_32_16_1( pPredGain[b], norm_fac ), ap_filt_DMX[2 * i + 1] ), 1 ); /* q_dft */ + move32(); +#else /* OPT_STEREO_32KBPS_V1 */ DFT_PRED_RES[2 * i] = L_shl( Mpy_32_32( Mpy_32_16_1( pPredGain[b], norm_fac ), ap_filt_DMX[2 * i] ), q_norm_fac ); /* q_dft */ move32(); DFT_PRED_RES[2 * i + 1] = L_shl( Mpy_32_32( Mpy_32_16_1( pPredGain[b], norm_fac ), ap_filt_DMX[2 * i + 1] ), q_norm_fac ); /* q_dft */ move32(); +#endif /* OPT_STEREO_32KBPS_V1 */ } } @@ -2833,7 +2940,8 @@ void stereo_dft_generate_res_pred_fx( move32(); dmx_nrg = EPSILON_FIX; move32(); - FOR( i = hStereoDft->band_limits[b]; i < min( bin0, hStereoDft->band_limits[b + 1] ); i++ ) + len = s_min( bin0, hStereoDft->band_limits[b + 1] ); + FOR( i = hStereoDft->band_limits[b]; i < len; i++ ) { dmx_nrg = Madd_32_32( Madd_32_32( dmx_nrg, pDFT_DMX[2 * i], pDFT_DMX[2 * i] ), pDFT_DMX[2 * i + 1], pDFT_DMX[2 * i + 1] ); /* 2 * q_dft - 31 */ @@ -2874,8 +2982,8 @@ void stereo_dft_generate_res_pred_fx( q_sqrt = 0; move16(); } - - FOR( i = hStereoDft->band_limits[b]; i < min( bin0, hStereoDft->band_limits[b + 1] ); i++ ) + len = s_min( bin0, hStereoDft->band_limits[b + 1] ); + FOR( i = hStereoDft->band_limits[b]; i < len; i++ ) { DFT_PRED_RES[2 * i] = L_shl( Mpy_32_32( g2, DFT_PRED_RES[2 * i] ), q_sqrt ); /* q_dft */ move32(); @@ -2932,7 +3040,8 @@ void stereo_dft_generate_res_pred_fx( // past_dmx_nrg = EPSILON_FIX; past_dmx_nrg = 0; move32(); - FOR( i = bin0; i < min( ( hStereoDft->NFFT / 2 ), ( STEREO_DFT32MS_N_32k / 2 ) ); i++ ) + len = s_min( shr( hStereoDft->NFFT, 1 ), ( STEREO_DFT32MS_N_32k >> 1 ) ); + FOR( i = bin0; i < len; i++ ) // i < min( ( hStereoDft->NFFT / 2 ), ( hStereoDft->NFFT / 2 ) ) { past_dmx_nrg = L_add( past_dmx_nrg, Madd_32_32( Mpy_32_32( hStereoDft->DFT_past_DMX_fx[d_short_ind][2 * i], hStereoDft->DFT_past_DMX_fx[d_short_ind][2 * i] ), hStereoDft->DFT_past_DMX_fx[d_short_ind][2 * i + 1], hStereoDft->DFT_past_DMX_fx[d_short_ind][2 * i + 1] ) ); /* 2 * hStereoDft->q_DFT_past_DMX_fx[d_short_ind] - 31 */ } @@ -2993,7 +3102,8 @@ void stereo_dft_generate_res_pred_fx( } q_shift = sub( hStereoDft->q_dft, hStereoDft->q_DFT_past_DMX_fx[d_short_ind] ); move16(); - FOR( i = max( hStereoDft->band_limits[b], bin0 ); i < min( hStereoDft->band_limits[b + 1], STEREO_DFT32MS_N_32k / 2 ); i++ ) + len = s_min( hStereoDft->band_limits[b + 1], STEREO_DFT32MS_N_32k >> 1 ); + FOR( i = s_max( hStereoDft->band_limits[b], bin0 ); i < len; i++ ) // i < min( hStereoDft->band_limits[b + 1], STEREO_DFT32MS_N_32k / 2 ) { DFT_PRED_RES[2 * i] = L_shl( Mpy_32_32( g2, hStereoDft->DFT_past_DMX_fx[d_short_ind][2 * i] ), q_shift ); /* q_dft */ move32(); @@ -3107,7 +3217,8 @@ void stereo_dft_generate_res_pred_fx( move32(); dmx_nrg = EPSILON_FIX; move32(); - FOR( i = max( hStereoDft->band_limits[b], bin0 ); i < min( hStereoDft->band_limits[b + 1], STEREO_DFT32MS_N_32k / 2 ); i++ ) + len = s_min( hStereoDft->band_limits[b + 1], STEREO_DFT32MS_N_32k >> 1 ); + FOR( i = s_max( hStereoDft->band_limits[b], bin0 ); i < len; i++ ) // i < min( hStereoDft->band_limits[b + 1], STEREO_DFT32MS_N_32k / 2 ) { dmx_nrg = L_add( dmx_nrg, L_shr( Madd_32_32( Mpy_32_32( pDFT_DMX[2 * i], pDFT_DMX[2 * i] ), pDFT_DMX[2 * i + 1], pDFT_DMX[2 * i + 1] ), 1 ) ); /* 2 * q_dft - 31 - 1 */ @@ -3133,8 +3244,8 @@ void stereo_dft_generate_res_pred_fx( g2 = L_min( Mpy_32_16_1( pred_gain_avg, STEREO_DFT_STEFFI_GAIN_AMP_FX ), Madd_32_16( Mpy_32_16_1( pred_gain_avg, sub( (Word16) ( 0x7FFF ), STEREO_DFT_STEFFI_GAIN_REST_AMT_FX ) ), g2, STEREO_DFT_STEFFI_GAIN_REST_AMT_FX ) ); /* Q31 */ - - FOR( i = max( hStereoDft->band_limits[b], bin0 ); i < min( hStereoDft->band_limits[b + 1], STEREO_DFT32MS_N_32k / 2 ); i++ ) + len = s_min( hStereoDft->band_limits[b + 1], STEREO_DFT32MS_N_32k >> 1 ); + FOR( i = s_max( hStereoDft->band_limits[b], bin0 ); i < len; i++ ) // i < min( hStereoDft->band_limits[b + 1], STEREO_DFT32MS_N_32k / 2 ) { DFT_PRED_RES[2 * i] = Mpy_32_32( g2, DFT_PRED_RES[2 * i] ); /* Q31 */ move32(); diff --git a/lib_dec/ivas_stereo_dft_plc_fx.c b/lib_dec/ivas_stereo_dft_plc_fx.c index 9e6878fafbc6e4b2293ea11973aa6d255cb3f744..90d9c58235bda9d978657307b0547a9e1c8abda4 100644 --- a/lib_dec/ivas_stereo_dft_plc_fx.c +++ b/lib_dec/ivas_stereo_dft_plc_fx.c @@ -33,10 +33,8 @@ #include #include "options.h" #include "cnst.h" -#include "prot.h" #include "prot_fx.h" #include "ivas_cnst.h" -#include "ivas_prot.h" #include "ivas_prot_fx.h" #include "math.h" #include "wmc_auto.h" diff --git a/lib_dec/ivas_stereo_eclvq_dec.c b/lib_dec/ivas_stereo_eclvq_dec_fx.c similarity index 99% rename from lib_dec/ivas_stereo_eclvq_dec.c rename to lib_dec/ivas_stereo_eclvq_dec_fx.c index ed26543d302137a13ebbe105e22a08abf1852f6e..dfa411145fc3ce2930203029047d821a1d37e45d 100644 --- a/lib_dec/ivas_stereo_eclvq_dec.c +++ b/lib_dec/ivas_stereo_eclvq_dec_fx.c @@ -32,12 +32,11 @@ #include #include "options.h" -#include "ivas_prot.h" #include "ivas_cnst.h" #include "ivas_rom_com.h" #include "ivas_rom_dec.h" #include -#include "prot.h" +#include "prot_fx.h" #include "wmc_auto.h" #include "ivas_prot_fx.h" diff --git a/lib_dec/ivas_stereo_esf_dec.c b/lib_dec/ivas_stereo_esf_dec_fx.c similarity index 99% rename from lib_dec/ivas_stereo_esf_dec.c rename to lib_dec/ivas_stereo_esf_dec_fx.c index 80603f6c0f6e53b3acb19e5b2b80a75ec711401b..d4219f1e60464e7dbaf87c7effb4c814e18bc0ae 100644 --- a/lib_dec/ivas_stereo_esf_dec.c +++ b/lib_dec/ivas_stereo_esf_dec_fx.c @@ -32,7 +32,6 @@ #include #include "options.h" -#include "ivas_prot.h" #include "ivas_prot_fx.h" #include "ivas_stat_dec.h" #include "ivas_cnst.h" diff --git a/lib_dec/ivas_stereo_ica_dec.c b/lib_dec/ivas_stereo_ica_dec_fx.c similarity index 96% rename from lib_dec/ivas_stereo_ica_dec.c rename to lib_dec/ivas_stereo_ica_dec_fx.c index b72e66c5f1f0c4e3157bb801c20ce46ca568766b..73cf9ccd0c779ab296f375a180d893068f3020a2 100644 --- a/lib_dec/ivas_stereo_ica_dec.c +++ b/lib_dec/ivas_stereo_ica_dec_fx.c @@ -36,12 +36,10 @@ #include #include "cnst.h" #include "ivas_cnst.h" -#include "prot.h" -#include "ivas_prot.h" +#include "prot_fx.h" #include "wmc_auto.h" #include "rom_com.h" #include "ivas_rom_com.h" -#include "prot_fx.h" #include "ivas_prot_fx.h" #include "basop32.h" #include "ivas_stat_dec.h" @@ -61,13 +59,8 @@ void stereo_tca_dec_fx( ) { /* Buffers, input Left and right channels @ input_Fs*/ -#ifdef MSAN_FIX Word32 bufChanL_fx[L_DEC_MEM_LEN_ICA + L_FRAME48k] = { 0 }; Word32 bufChanR_fx[L_DEC_MEM_LEN_ICA + L_FRAME48k] = { 0 }; -#else - Word32 bufChanL_fx[L_DEC_MEM_LEN_ICA + L_FRAME48k]; - Word32 bufChanR_fx[L_DEC_MEM_LEN_ICA + L_FRAME48k]; -#endif Word32 *ptrChanL_fx, *ptrChanR_fx; Word32 *target_fx; Word16 target_idx, prevNCShift, currentNCShift, l_shift_adapt; @@ -126,7 +119,7 @@ void stereo_tca_dec_fx( dsFactor = BASOP_Util_Divide3232_Scale( output_Fs, 8000, &exp_ds ); dsFactor = shr( dsFactor, sub( 15, exp_ds ) ); /* Q0 */ - tempMax = NS2SA( output_Fs, L_NCSHIFT_NS ); /* Q0 */ + tempMax = NS2SA_FX2( output_Fs, L_NCSHIFT_NS ); /* Q0 */ hStereoTCA->corrLagStats = s_min( hStereoTCA->indx_ica_NCShift * dsFactor, tempMax ); /* Q0 */ bothChannelShift = 0; @@ -343,14 +336,14 @@ void stereo_tca_scale_R_channel_fx( return; } /* Scale the Right channel with the gain */ - l_ica_ovl = NS2SA( output_Fs, STEREO_L_TCA_OVLP_NS ); /* Q0 */ + l_ica_ovl = NS2SA_FX2( output_Fs, STEREO_L_TCA_OVLP_NS ); /* Q0 */ move16(); test(); IF( EQ_16( hCPE->nchan_out, 1 ) ) { /* in mono DMX, the scaling is done before synchro_synthesis() */ - flat_old = NS2SA( output_Fs, ACELP_LOOK_NS + IVAS_DEC_DELAY_NS - DELAY_CLDFB_NS ); /* Q0 */ + flat_old = NS2SA_FX2( output_Fs, ACELP_LOOK_NS + IVAS_DEC_DELAY_NS - DELAY_CLDFB_NS ); /* Q0 */ move16(); test(); @@ -365,18 +358,18 @@ void stereo_tca_scale_R_channel_fx( hCPE->hStereoDftDmx->targetGain_fx = ONE_IN_Q29; /* Q29 */ move32(); - flat_old = NS2SA( output_Fs, IVAS_DEC_DELAY_NS ); /* Q0 */ + flat_old = NS2SA_FX2( output_Fs, IVAS_DEC_DELAY_NS ); /* Q0 */ move16(); } } ELSE IF( EQ_16( hCPE->last_element_mode, IVAS_CPE_TD ) && EQ_16( hCPE->element_mode, IVAS_CPE_DFT ) ) { - flat_old = NS2SA( output_Fs, IVAS_DEC_DELAY_NS ); /* Q0 */ + flat_old = NS2SA_FX2( output_Fs, IVAS_DEC_DELAY_NS ); /* Q0 */ move16(); } ELSE { - flat_old = NS2SA( output_Fs, ACELP_LOOK_NS + IVAS_DEC_DELAY_NS ); /* Q0 */ + flat_old = NS2SA_FX2( output_Fs, ACELP_LOOK_NS + IVAS_DEC_DELAY_NS ); /* Q0 */ move16(); } diff --git a/lib_dec/ivas_stereo_icbwe_dec.c b/lib_dec/ivas_stereo_icbwe_dec_fx.c similarity index 95% rename from lib_dec/ivas_stereo_icbwe_dec.c rename to lib_dec/ivas_stereo_icbwe_dec_fx.c index 6bba90febafbce125220d3e69422646f39429283..c7bc98566326d456bc85283242ad1137e28fb4c6 100644 --- a/lib_dec/ivas_stereo_icbwe_dec.c +++ b/lib_dec/ivas_stereo_icbwe_dec_fx.c @@ -36,9 +36,7 @@ #include #include "cnst.h" #include "ivas_cnst.h" -#include "prot.h" #include "prot_fx.h" -#include "ivas_prot.h" #include "ivas_prot_fx.h" #include "wmc_auto.h" #include "rom_com.h" @@ -236,12 +234,10 @@ void stereo_icBWE_dec_fx( ELSE { set32_fx( hCPE->hStereoDft->hb_stefi_sig_fx + hCPE->hStereoDft->hb_stefi_delay, 0, output_frame ); -#ifdef MSAN_FIX hCPE->hStereoDft->hb_nrg_subr_fx[0] = 0; move32(); hCPE->hStereoDft->hb_nrg_subr_fx[1] = 0; move32(); -#endif // MSAN_FIX } hCPE->hStereoDft->hb_nrg_subr_fx[0] = ( Mpy_32_16_1( hCPE->hStereoDft->hb_nrg_subr_fx[0], shl( shr( hCPE->hStereoDft->NFFT, 1 ), 6 ) ) ); // 2 * (Qsynth + SynthRef_shift) - 40 // 2 * (Qx + SynthRef_shift) - 31 - 15 move32(); @@ -339,7 +335,7 @@ void stereo_icBWE_dec_fx( move32(); alpha_fx = add_sat( alpha_fx, winSlope_fx ); /* Q15 */ } - FOR( ; i < NS2SA( st->output_Fs, FRAME_SIZE_NS ); i++ ) + FOR( ; i < NS2SA_FX2( st->output_Fs, FRAME_SIZE_NS ); i++ ) { synthRef_fx[i] = Mpy_32_16_1( synthRef_fx[i], icbweM2Ref_fx ); // Qsyth - 1 move32(); @@ -615,7 +611,7 @@ void stereo_icBWE_dec_fx( Q_syn_shb = tmp; move16(); - deemph_fx_32( 0, shb_synth_nonref_fx + L_SHB_LAHEAD, specMapping_fx, L_FRAME16k, &( hStereoICBWE->memShbSpecMapping_fx ) ); + deemph_fx_32( shb_synth_nonref_fx + L_SHB_LAHEAD, specMapping_fx, L_FRAME16k, &( hStereoICBWE->memShbSpecMapping_fx ) ); hStereoICBWE->prev_Q_memshbspec = Q_syn_shb; move16(); Copy32( shb_synth_nonref_fx + L_FRAME16k, hStereoICBWE->mem_syn_shb_nonref_fx, L_SHB_LAHEAD ); /* Q_syn_shb */ @@ -632,7 +628,7 @@ void stereo_icBWE_dec_fx( Scale_sig32( shb_synth_nonref_fx, L_FRAME16k + L_SHB_LAHEAD, sub( tmp, Q_syn_shb ) ); /* tmp */ Scale_sig32( hStereoICBWE->mem_syn_shb_ola_nonref_fx, L_SHB_LAHEAD, sub( tmp, hStereoICBWE->prev_Q_syn_shb_ola_nonref ) ); /* tmp */ - ScaleShapedSHB_32( SHB_OVERLAP_LEN, shb_synth_nonref_fx, hStereoICBWE->mem_syn_shb_ola_nonref_fx, hStereoICBWE->gshapeRef_fx, ( Mpy_32_16_1( L_shl( hStereoICBWE->gFrameRef_fx, 1 ), mult_r( gsMapping_fx, 29492 /* 0.9 in Q15 */ ) ) ), window_shb_fx, subwin_shb_fx, &tmp, &temp1_fx ); + ScaleShapedSHB_fx32( SHB_OVERLAP_LEN, shb_synth_nonref_fx, hStereoICBWE->mem_syn_shb_ola_nonref_fx, hStereoICBWE->gshapeRef_fx, ( Mpy_32_16_1( L_shl( hStereoICBWE->gFrameRef_fx, 1 ), mult_r( gsMapping_fx, 29492 /* 0.9 in Q15 */ ) ) ), window_shb_fx, subwin_shb_fx, &tmp, &temp1_fx ); hStereoICBWE->prev_Q_syn_shb_ola_nonref = tmp; move16(); @@ -666,7 +662,7 @@ void stereo_icBWE_dec_fx( Q_syn_shb = tmp; move16(); - GenSHBSynth_fx_32( shb_synth_nonref_fx, error_fx, hStereoICBWE->memShbHilbert_nonref_fx, hStereoICBWE->memShbInterp_nonref_fx, st->L_frame, &( hStereoICBWE->syn_dm_phase_nonref ) ); + GenSHBSynth_fx32( shb_synth_nonref_fx, error_fx, hStereoICBWE->memShbHilbert_nonref_fx, hStereoICBWE->memShbInterp_nonref_fx, st->L_frame, &( hStereoICBWE->syn_dm_phase_nonref ) ); } ELSE { @@ -721,13 +717,9 @@ void stereo_icBWE_dec_fx( { IF( LE_16( ratio_L_fx, 29490 /* 0.9 in Q15*/ ) ) { -#ifdef FIX_TMP_714 tmp = mult_r( ratio_L_fx, ratio_L_fx ); // Q15 -#else - tmp = mult_r( sub( 32767, ratio_L_fx ), sub( 32767, ratio_L_fx ) ); // Q15 -#endif - tmp = mult_r( tmp, gsMapping_fx ); // Q14 - tmp = mult_r( tmp, gsMapping_fx ); // Q13 + tmp = mult_r( tmp, gsMapping_fx ); // Q14 + tmp = mult_r( tmp, gsMapping_fx ); // Q13 IF( LT_16( tmp, 4096 /* 0.5 in Q13*/ ) ) { temp1_fx = 0; @@ -766,7 +758,7 @@ void stereo_icBWE_dec_fx( alpha_fx = add( alpha_fx, winSlope_fx ); /* Q15 */ } } - FOR( ; i < NS2SA( st->output_Fs, FRAME_SIZE_NS ); i++ ) + FOR( ; i < NS2SA_FX2( st->output_Fs, FRAME_SIZE_NS ); i++ ) { synthRef_fx[i] = Mpy_32_16_1( synthRef_fx[i], icbweM2Ref_fx ); /* Qsyn - 1 */ move32(); @@ -799,7 +791,7 @@ void stereo_icBWE_dec_fx( Scale_sig32( error_fx, L_FRAME32k, sub( tmp, Q_syn_shb ) ); /* tmp */ Scale_sig32( hStereoICBWE->memShb_fsout_nonref_fx, INTERP_3_2_MEM_LEN, sub( tmp, hStereoICBWE->prev_Q_fsout ) ); /* tmp */ - interpolate_3_over_2_allpass_32( error_fx, L_FRAME32k, synth_fx, hStereoICBWE->memShb_fsout_nonref_fx ); + interpolate_3_over_2_allpass_fx32( error_fx, L_FRAME32k, synth_fx, hStereoICBWE->memShb_fsout_nonref_fx ); hStereoICBWE->prev_Q_fsout = tmp; move16(); } @@ -821,11 +813,7 @@ void stereo_icBWE_dec_fx( hStereoICBWE->prev_Q_fsout = tmp; move16(); } -#ifndef MSAN_FIX - Scale_sig32( synth_fx, L_FRAME48k, sub( *Q_syn, add( 1, tmp ) ) ); -#else - Scale_sig32( synth_fx, output_frame, sub( *Q_syn, add( 1, tmp ) ) ); /* Qsyn - 1 */ -#endif + Scale_sig32( synth_fx, output_frame, sub( *Q_syn, add( 1, tmp ) ) ); /* Qsyn - 1 */ *Q_syn = sub( *Q_syn, 1 ); @@ -888,13 +876,9 @@ void stereo_icBWE_dec_fx( { IF( LE_16( ratio_L_fx, 29490 /* 0.9 in Q15*/ ) ) { -#ifdef FIX_TMP_714 tmp = mult_r( ratio_L_fx, ratio_L_fx ); // Q15 -#else - tmp = mult_r( sub( 32767, ratio_L_fx ), sub( 32767, ratio_L_fx ) ); // Q15 -#endif - tmp = mult_r( tmp, gsMapping_fx ); // Q14 - tmp = mult_r( tmp, gsMapping_fx ); // Q13 + tmp = mult_r( tmp, gsMapping_fx ); // Q14 + tmp = mult_r( tmp, gsMapping_fx ); // Q13 IF( LT_16( tmp, 4096 /* 0.5 in Q13*/ ) ) { temp1_fx = 0; @@ -933,7 +917,7 @@ void stereo_icBWE_dec_fx( } } - FOR( ; i < NS2SA( st->output_Fs, FRAME_SIZE_NS ); i++ ) + FOR( ; i < NS2SA_FX2( st->output_Fs, FRAME_SIZE_NS ); i++ ) { synthRef_fx[i] = Mpy_32_16_1( synthRef_fx[i], icbweM2Ref_fx ); /* Qsyn - 1 */ move32(); @@ -1015,7 +999,7 @@ void stereo_icBWE_decproc_fx( output_Fs = hCPE->hCoreCoder[0]->output_Fs; /* Q0 */ move32(); - memOffset = NS2SA( output_Fs, IVAS_DEC_DELAY_NS - DELAY_BWE_TOTAL_NS ); /* Q0 */ + memOffset = NS2SA_FX2( output_Fs, IVAS_DEC_DELAY_NS - DELAY_BWE_TOTAL_NS ); /* Q0 */ /* LRTD stereo mode - 2xBWEs used */ test(); @@ -1070,8 +1054,8 @@ void stereo_icBWE_decproc_fx( set32_fx( hStereoICBWE->memOutHB_fx[0], 0, memOffset ); set32_fx( hStereoICBWE->memOutHB_fx[1], 0, memOffset ); - set32_fx( hStereoICBWE->memTransitionHB_fx[0], 0, NS2SA( output_Fs, STEREO_DFT32MS_OVL_NS ) ); - set32_fx( hStereoICBWE->memTransitionHB_fx[1], 0, NS2SA( output_Fs, STEREO_DFT32MS_OVL_NS ) ); + set32_fx( hStereoICBWE->memTransitionHB_fx[0], 0, NS2SA_FX2( output_Fs, STEREO_DFT32MS_OVL_NS ) ); + set32_fx( hStereoICBWE->memTransitionHB_fx[1], 0, NS2SA_FX2( output_Fs, STEREO_DFT32MS_OVL_NS ) ); } test(); @@ -1123,13 +1107,13 @@ void stereo_icBWE_decproc_fx( Copy32( outputHB[refChanIndx_bwe], temp0_fx + memOffset, sub( output_frame, memOffset ) ); /* Q11 */ Copy32( outputHB[!refChanIndx_bwe], temp1_fx + memOffset, sub( output_frame, memOffset ) ); /* Q11 */ - decoderDelay = NS2SA( output_Fs, IVAS_DEC_DELAY_NS ); /* Q0 */ + decoderDelay = NS2SA_FX2( output_Fs, IVAS_DEC_DELAY_NS ); /* Q0 */ test(); IF( last_core != ACELP_CORE && EQ_16( hCPE->element_mode, IVAS_CPE_DFT ) ) { /* hb_synth of mid band is faded out in the 1.25 ms prior to DFT analysis and the icbwe is faded in time domain */ - icbweOLASize = NS2SA( output_Fs, STEREO_DFT_DELAY_DEC_BWE_NS ); /* Q0 */ + icbweOLASize = NS2SA_FX2( output_Fs, STEREO_DFT_DELAY_DEC_BWE_NS ); /* Q0 */ FOR( i = 0; i < decoderDelay; i++ ) { @@ -1286,15 +1270,15 @@ void stereo_icBWE_decproc_fx( ELSE { /* This is generated in the ACELP frame and windowed. This process is akin to GenTransition for IC-BWE */ - v_add_32( output[0], hStereoICBWE->memTransitionHB_fx[hStereoICBWE->prev_refChanIndx_bwe], output[0], NS2SA( output_Fs, STEREO_DFT32MS_OVL_NS ) ); - v_add_32( output[1], hStereoICBWE->memTransitionHB_fx[!hStereoICBWE->prev_refChanIndx_bwe], output[1], NS2SA( output_Fs, STEREO_DFT32MS_OVL_NS ) ); + v_add_32( output[0], hStereoICBWE->memTransitionHB_fx[hStereoICBWE->prev_refChanIndx_bwe], output[0], NS2SA_FX2( output_Fs, STEREO_DFT32MS_OVL_NS ) ); + v_add_32( output[1], hStereoICBWE->memTransitionHB_fx[!hStereoICBWE->prev_refChanIndx_bwe], output[1], NS2SA_FX2( output_Fs, STEREO_DFT32MS_OVL_NS ) ); } set32_fx( hStereoICBWE->memOutHB_fx[0], 0, memOffset ); set32_fx( hStereoICBWE->memOutHB_fx[1], 0, memOffset ); - set32_fx( hStereoICBWE->memTransitionHB_fx[0], 0, NS2SA( output_Fs, STEREO_DFT32MS_OVL_NS ) ); - set32_fx( hStereoICBWE->memTransitionHB_fx[1], 0, NS2SA( output_Fs, STEREO_DFT32MS_OVL_NS ) ); + set32_fx( hStereoICBWE->memTransitionHB_fx[0], 0, NS2SA_FX2( output_Fs, STEREO_DFT32MS_OVL_NS ) ); + set32_fx( hStereoICBWE->memTransitionHB_fx[1], 0, NS2SA_FX2( output_Fs, STEREO_DFT32MS_OVL_NS ) ); } } } @@ -1304,19 +1288,23 @@ void stereo_icBWE_decproc_fx( } ELSE IF( EQ_16( hCPE->element_mode, IVAS_CPE_MDCT ) && EQ_16( hCPE->last_element_mode, IVAS_CPE_DFT ) && EQ_16( last_core, ACELP_CORE ) ) { - Word16 delay_tdbwe = NS2SA( output_Fs, DELAY_BWE_TOTAL_NS ); + Word16 delay_tdbwe = NS2SA_FX2( output_Fs, DELAY_BWE_TOTAL_NS ); FOR( n = 0; n < hCPE->nchan_out; n++ ) { FOR( i = 0; i < delay_tdbwe; i++ ) { - output[n][NS2SA( output_Fs, STEREO_DFT32MS_OVL_NS ) - delay_tdbwe + i] = L_add_sat( output[n][NS2SA( output_Fs, STEREO_DFT32MS_OVL_NS ) - delay_tdbwe + i], outputHB[0][i] ); + output[n][NS2SA_FX2( output_Fs, STEREO_DFT32MS_OVL_NS ) - delay_tdbwe + i] = L_add_sat( output[n][NS2SA_FX2( output_Fs, STEREO_DFT32MS_OVL_NS ) - delay_tdbwe + i], outputHB[0][i] ); move32(); } } + /* reset BWE structs as they are only needed in the transition frame in MDCT Stereo */ - td_bwe_dec_init_ivas_fx( hCPE->hCoreCoder[0], hCPE->hCoreCoder[0]->hBWE_TD, output_Fs ); - fd_bwe_dec_init( hCPE->hCoreCoder[0], hCPE->hCoreCoder[0]->hBWE_FD ); + td_bwe_dec_init_fx( hCPE->hCoreCoder[0]->hBWE_TD, -1, output_Fs ); + fd_bwe_dec_init_fx( hCPE->hCoreCoder[0]->hBWE_FD ); + + hCPE->hCoreCoder[0]->prev_Q_bwe_exc = 31; + move16(); } test(); diff --git a/lib_dec/ivas_stereo_mdct_core_dec_fx.c b/lib_dec/ivas_stereo_mdct_core_dec_fx.c index bf343da7f3982ab8f05bbfbc87ab90dcbbb873c6..890e5fc9ef6db902a60454e094612449ceac424c 100644 --- a/lib_dec/ivas_stereo_mdct_core_dec_fx.c +++ b/lib_dec/ivas_stereo_mdct_core_dec_fx.c @@ -34,13 +34,11 @@ #include #include "options.h" #include -#include "prot.h" +#include "prot_fx.h" #include "cnst.h" #include "stat_com.h" -#include "ivas_prot.h" #include "ivas_stat_dec.h" #include "wmc_auto.h" -#include "prot_fx.h" #include "ivas_prot_fx.h" @@ -471,6 +469,14 @@ void stereo_mdct_core_dec_fx( move16(); move16(); + FOR( ch = 0; ch < CPE_CHANNELS; ch++ ) + { + if ( NE_16( hCPE->hCoreCoder[ch]->core, TCX_20_CORE ) ) + { + x_e[ch][1] = x_e[ch][0]; + move16(); + } + } stereo_decoder_tcx_fx( hCPE->hStereoMdct, ms_mask, x_0_fx[1], x_fx[0], x_fx[1], &hCPE->hStereoMdct->mdct_stereo_mode[0], sts[0]->core, sts[1]->core, sts[0]->igf, L_frameTCX[0], L_frameTCX[1], 0, sts[0]->last_core, sts[1]->last_core, 0, &q_x_1, &q_x_0 ); } @@ -542,13 +548,8 @@ void stereo_mdct_core_dec_fx( move16(); } } -#ifdef FIX_ISSUE_1237 Copy_Scale_sig_16_32_no_sat( hCPE->hCoreCoder[0]->old_Aq_12_8_fx, hCPE->hCoreCoder[0]->old_Aq_12_8_fx_32, M + 1, sub( 28, sub( 15, norm_s( sub( hCPE->hCoreCoder[0]->old_Aq_12_8_fx[0], 1 ) ) ) ) ); /* Q28 */ Copy_Scale_sig_16_32_no_sat( hCPE->hCoreCoder[1]->old_Aq_12_8_fx, hCPE->hCoreCoder[1]->old_Aq_12_8_fx_32, M + 1, sub( 28, sub( 15, norm_s( sub( hCPE->hCoreCoder[1]->old_Aq_12_8_fx[0], 1 ) ) ) ) ); /* Q28 */ -#else - Copy_Scale_sig_16_32_DEPREC( hCPE->hCoreCoder[0]->old_Aq_12_8_fx, hCPE->hCoreCoder[0]->old_Aq_12_8_fx_32, M + 1, ( 28 - norm_s( hCPE->hCoreCoder[0]->old_Aq_12_8_fx[0] - 1 ) ) ); /* Q28 */ - Copy_Scale_sig_16_32_DEPREC( hCPE->hCoreCoder[1]->old_Aq_12_8_fx, hCPE->hCoreCoder[1]->old_Aq_12_8_fx_32, M + 1, ( 28 - norm_s( hCPE->hCoreCoder[1]->old_Aq_12_8_fx[0] - 1 ) ) ); /* Q28 */ -#endif ivas_mdct_core_reconstruct_fx( hCPE, x_fx, signal_outFB_tmp_fx, fUseTns, 0, Q11, e_sigFB ); Copy32( signal_out_tmp_fx[0], signal_out_fx[0], L_FRAME48k ); /* Q11 */ diff --git a/lib_dec/ivas_stereo_mdct_stereo_dec.c b/lib_dec/ivas_stereo_mdct_stereo_dec_fx.c similarity index 97% rename from lib_dec/ivas_stereo_mdct_stereo_dec.c rename to lib_dec/ivas_stereo_mdct_stereo_dec_fx.c index 4a788be836fe8623e2d51c64f703ce4fb42e9897..8842a6792a8c866cbcc17e6b0b0a9f1a32f7392d 100644 --- a/lib_dec/ivas_stereo_mdct_stereo_dec.c +++ b/lib_dec/ivas_stereo_mdct_stereo_dec_fx.c @@ -35,11 +35,9 @@ #include #include "options.h" #include "ivas_cnst.h" -#include "ivas_prot.h" -#include "prot.h" +#include "prot_fx.h" #include "rom_com.h" #include "wmc_auto.h" -#include "prot_fx.h" #include "ivas_prot_fx.h" @@ -435,7 +433,7 @@ void stereo_decoder_tcx_fx( IF( !mct_on ) { - tmp_32 = BASOP_Util_Divide3232_Scale_cadence( SMDCT_ILD_RANGE << 16, L_deposit_h( hStereoMdct->global_ild[k] ), &tmp_e ); + tmp_32 = BASOP_Util_Divide3232_Scale_newton( SMDCT_ILD_RANGE << 16, L_deposit_h( hStereoMdct->global_ild[k] ), &tmp_e ); tmp_32 = L_shr( tmp_32, sub( 5, tmp_e ) ); /* nrgRatio = nrg[1]/nrg[0] */ // Q26 nrgRatio = L_sub( tmp_32, ONE_IN_Q26 ); // Q26 @@ -490,7 +488,7 @@ void stereo_decoder_tcx_fx( } ELSE IF( ( LT_32( nrgRatio, ONE_IN_Q26 ) ) && ( LT_16( k, tmp2 ) ) ) { - inv_nrgRatio = BASOP_Util_Divide3232_Scale_cadence( ONE_IN_Q26, nrgRatio, &tmp_e ); + inv_nrgRatio = BASOP_Util_Divide3232_Scale_newton( ONE_IN_Q26, nrgRatio, &tmp_e ); shift = sub( 5, tmp_e ); v_multc_fixed( spec_l[k], inv_nrgRatio, spec_l[k], L_frameTCX_l ); /* spec_r will be in Qx - tmp_e */ Scale_sig32( spec_l[k], L_frameTCX_l, sub( 5, shift ) ); /* Qx */ @@ -603,7 +601,7 @@ ivas_error initMdctStereoDtxData_fx( IF( st->cldfbAna == NULL ) { /* open analysis for max. sampling rate 48kHz */ - IF( NE_32( ( error = openCldfb_ivas_fx( &st->cldfbAna, CLDFB_ANALYSIS, 48000, CLDFB_PROTOTYPE_1_25MS ) ), IVAS_ERR_OK ) ) + IF( NE_32( ( error = openCldfb_ivas_fx( &st->cldfbAna, CLDFB_ANALYSIS, 48000, CLDFB_PROTOTYPE_1_25MS, DEC ) ), IVAS_ERR_OK ) ) { return error; } @@ -612,7 +610,7 @@ ivas_error initMdctStereoDtxData_fx( IF( st->cldfbBPF == NULL ) { /* open analysis BPF for max. internal sampling rate 16kHz */ - IF( NE_32( ( error = openCldfb_ivas_fx( &st->cldfbBPF, CLDFB_ANALYSIS, 16000, CLDFB_PROTOTYPE_1_25MS ) ), IVAS_ERR_OK ) ) + IF( NE_32( ( error = openCldfb_ivas_fx( &st->cldfbBPF, CLDFB_ANALYSIS, 16000, CLDFB_PROTOTYPE_1_25MS, DEC ) ), IVAS_ERR_OK ) ) { return error; } @@ -906,13 +904,8 @@ void updateBuffersForDmxMdctStereo_fx( move16(); sts[0]->hTcxLtpDec->exp_tcxltp_mem_out = add( sts[0]->hTcxLtpDec->exp_tcxltp_mem_out, 1 ); move16(); -#ifdef FIX_ISSUE_1237 Copy_Scale_sig_16_32_no_sat( &sts[0]->hTcxLtpDec->tcxltp_mem_in[0], &sts[0]->hTcxLtpDec->tcxltp_mem_in_32[0], TCXLTP_MAX_DELAY, sub( 11, sub( 15, sts[0]->hTcxLtpDec->exp_tcxltp_mem_in ) ) ); // Q11 Copy_Scale_sig_16_32_no_sat( &sts[0]->hTcxLtpDec->tcxltp_mem_out[0], &sts[0]->hTcxLtpDec->tcxltp_mem_out_32[0], TCXLTP_MAX_DELAY, sub( 11, sub( 15, sts[0]->hTcxLtpDec->exp_tcxltp_mem_out ) ) ); // Q11 -#else - Copy_Scale_sig_16_32_DEPREC( &sts[0]->hTcxLtpDec->tcxltp_mem_in[0], &sts[0]->hTcxLtpDec->tcxltp_mem_in_32[0], TCXLTP_MAX_DELAY, sub( 11, sub( 15, sts[0]->hTcxLtpDec->exp_tcxltp_mem_in ) ) ); // Q11 - Copy_Scale_sig_16_32_DEPREC( &sts[0]->hTcxLtpDec->tcxltp_mem_out[0], &sts[0]->hTcxLtpDec->tcxltp_mem_out_32[0], TCXLTP_MAX_DELAY, sub( 11, sub( 15, sts[0]->hTcxLtpDec->exp_tcxltp_mem_out ) ) ); // Q11 -#endif } return; @@ -947,7 +940,7 @@ void applyDmxMdctStereo_fx( test(); IF( LE_32( hCPE->last_element_brate, IVAS_SID_5k2 ) ) { - crossfade_len = NS2SA( hCPE->hCoreCoder[0]->output_Fs, IVAS_DEC_DELAY_NS - DELAY_CLDFB_NS ); + crossfade_len = NS2SA_FX2( hCPE->hCoreCoder[0]->output_Fs, IVAS_DEC_DELAY_NS - DELAY_CLDFB_NS ); move16(); SWITCH( hCPE->hCoreCoder[0]->output_Fs ) { @@ -994,7 +987,7 @@ void applyDmxMdctStereo_fx( } ELSE IF( EQ_16( hCPE->last_element_mode, IVAS_CPE_DFT ) && LE_32( hCPE->last_element_brate, IVAS_32k ) ) { - crossfade_len = NS2SA( hCPE->hCoreCoder[0]->output_Fs, DELAY_CLDFB_NS ); /* Q0 */ + crossfade_len = NS2SA_FX2( hCPE->hCoreCoder[0]->output_Fs, DELAY_CLDFB_NS ); /* Q0 */ move16(); SWITCH( hCPE->hCoreCoder[0]->output_Fs ) { diff --git a/lib_dec/ivas_stereo_switching_dec.c b/lib_dec/ivas_stereo_switching_dec_fx.c similarity index 94% rename from lib_dec/ivas_stereo_switching_dec.c rename to lib_dec/ivas_stereo_switching_dec_fx.c index a8b74c4478248026c7a8e44ea8b31469d563eac3..bcf714352d2e72e7f4c890d442651bd05648976f 100644 --- a/lib_dec/ivas_stereo_switching_dec.c +++ b/lib_dec/ivas_stereo_switching_dec_fx.c @@ -34,15 +34,13 @@ #include "options.h" #include "cnst.h" #include "rom_com.h" -#include "prot.h" -#include "ivas_prot.h" +#include "prot_fx.h" #include "ivas_prot_fx.h" #include "ivas_rom_com.h" #include "assert.h" #include "wmc_auto.h" #include #include "ivas_prot_fx.h" -#include "prot_fx.h" #include "ivas_rom_com_fx.h" /*-------------------------------------------------------------------* @@ -199,15 +197,13 @@ static ivas_error allocate_CoreCoder_fx( } hf_synth_init_fx( st->hBWE_zero ); -#ifdef MSAN_FIX set16_fx( st->hBWE_zero->mem_hp400_fx, 0, 6 ); -#endif } IF( st->cldfbAna == NULL ) { /* open analysis for max. sampling rate 48kHz */ - IF( NE_32( ( error = openCldfb_ivas_fx( &st->cldfbAna, CLDFB_ANALYSIS, 48000, CLDFB_PROTOTYPE_1_25MS ) ), IVAS_ERR_OK ) ) + IF( NE_32( ( error = openCldfb_ivas_fx( &st->cldfbAna, CLDFB_ANALYSIS, 48000, CLDFB_PROTOTYPE_1_25MS, DEC ) ), IVAS_ERR_OK ) ) { return error; } @@ -216,7 +212,7 @@ static ivas_error allocate_CoreCoder_fx( IF( st->cldfbBPF == NULL ) { /* open analysis BPF for max. internal sampling rate 16kHz */ - IF( NE_32( ( error = openCldfb_ivas_fx( &st->cldfbBPF, CLDFB_ANALYSIS, 16000, CLDFB_PROTOTYPE_1_25MS ) ), IVAS_ERR_OK ) ) + IF( NE_32( ( error = openCldfb_ivas_fx( &st->cldfbBPF, CLDFB_ANALYSIS, 16000, CLDFB_PROTOTYPE_1_25MS, DEC ) ), IVAS_ERR_OK ) ) { return error; } @@ -415,18 +411,18 @@ ivas_error stereo_memory_dec_fx( IF( hCPE->hCoreCoder[0]->last_core != ACELP_CORE ) { - Copy32( hCPE->hStereoDft->buff_LBTCX_mem_fx, hCPE->input_mem_LB_fx[0], NS2SA( i_mult( hCPE->hCoreCoder[0]->last_L_frame, FRAMES_PER_SEC ), STEREO_DFT32MS_OVL_NS ) ); /* Q11 */ + Copy32( hCPE->hStereoDft->buff_LBTCX_mem_fx, hCPE->input_mem_LB_fx[0], NS2SA_FX2( i_mult( hCPE->hCoreCoder[0]->last_L_frame, FRAMES_PER_SEC ), STEREO_DFT32MS_OVL_NS ) ); /* Q11 */ } } test(); IF( EQ_16( hCPE->last_element_mode, IVAS_CPE_MDCT ) && EQ_16( hCPE->element_mode, IVAS_CPE_DFT ) ) { - v_add_32( hCPE->hCoreCoder[0]->hHQ_core->oldOut_fx, hCPE->hCoreCoder[1]->hHQ_core->oldOut_fx, hCPE->hCoreCoder[0]->hHQ_core->oldOut_fx, extract_l( Mpy_32_16_1( output_Fs, INV_FRAME_PER_SEC_Q15 ) ) ); /* exp(exp_old_out) */ - v_multc_fixed_16( hCPE->hCoreCoder[0]->hHQ_core->oldOut_fx, 16384 /* 0.5 in Q15 */, hCPE->hCoreCoder[0]->hHQ_core->oldOut_fx, extract_l( Mpy_32_16_1( output_Fs, INV_FRAME_PER_SEC_Q15 ) ) ); /* exp(exp_old_out) */ + v_add_32( hCPE->hCoreCoder[0]->hHQ_core->old_out_fx32, hCPE->hCoreCoder[1]->hHQ_core->old_out_fx32, hCPE->hCoreCoder[0]->hHQ_core->old_out_fx32, extract_l( Mpy_32_16_1( output_Fs, INV_FRAME_PER_SEC_Q15 ) ) ); /* exp(exp_old_out) */ + v_multc_fixed_16( hCPE->hCoreCoder[0]->hHQ_core->old_out_fx32, 16384 /* 0.5 in Q15 */, hCPE->hCoreCoder[0]->hHQ_core->old_out_fx32, extract_l( Mpy_32_16_1( output_Fs, INV_FRAME_PER_SEC_Q15 ) ) ); /* exp(exp_old_out) */ - v_add_32( hCPE->hCoreCoder[0]->hHQ_core->old_outLB_fx, hCPE->hCoreCoder[1]->hHQ_core->old_outLB_fx, hCPE->hCoreCoder[0]->hHQ_core->old_outLB_fx, L_FRAME32k ); /* q_old_outLB_fx */ - v_multc_fixed_16( hCPE->hCoreCoder[0]->hHQ_core->old_outLB_fx, 16384 /* 0.5 in Q15 */, hCPE->hCoreCoder[0]->hHQ_core->old_outLB_fx, L_FRAME32k ); /* exp(exp_old_out) */ + v_add_32( hCPE->hCoreCoder[0]->hHQ_core->old_out_LB_fx32, hCPE->hCoreCoder[1]->hHQ_core->old_out_LB_fx32, hCPE->hCoreCoder[0]->hHQ_core->old_out_LB_fx32, L_FRAME32k ); /* q_old_outLB_fx */ + v_multc_fixed_16( hCPE->hCoreCoder[0]->hHQ_core->old_out_LB_fx32, 16384 /* 0.5 in Q15 */, hCPE->hCoreCoder[0]->hHQ_core->old_out_LB_fx32, L_FRAME32k ); /* exp(exp_old_out) */ } /*--------------------------------------------------------------* @@ -470,7 +466,7 @@ ivas_error stereo_memory_dec_fx( } /* memory update - needed in TD stereo, TCX/HQ frame -> DFT stereo, ACELP frame switching */ - Copy32( hCPE->input_mem_LB_fx[0], hCPE->hStereoDft->buff_LBTCX_mem_fx, NS2SA( s_min( i_mult( hCPE->hCoreCoder[0]->last_L_frame, FRAMES_PER_SEC ), 16000 ), STEREO_DFT32MS_OVL_NS ) ); /* Q11 */ + Copy32( hCPE->input_mem_LB_fx[0], hCPE->hStereoDft->buff_LBTCX_mem_fx, NS2SA_FX2( s_min( i_mult( hCPE->hCoreCoder[0]->last_L_frame, FRAMES_PER_SEC ), 16000 ), STEREO_DFT32MS_OVL_NS ) ); /* Q11 */ /* allocate ICBWE structure */ IF( hCPE->hStereoICBWE == NULL ) @@ -503,7 +499,7 @@ ivas_error stereo_memory_dec_fx( return ( IVAS_ERROR( IVAS_ERR_FAILED_ALLOC, "Can not allocate memory for DTX/TD CNG\n" ) ); } - td_cng_dec_init_ivas_fx( st ); + td_cng_dec_init_fx( st ); } } @@ -578,7 +574,7 @@ ivas_error stereo_memory_dec_fx( move16(); len = NS2SA_FX2( st->output_Fs, 3000000 ); /* Q0 */ move16(); - Copy32( st->hHQ_core->oldOut_fx + nZeros, hCPE->output_mem_fx[1], len ); /* exp(exp_old_out) */ + Copy32( st->hHQ_core->old_out_fx32 + nZeros, hCPE->output_mem_fx[1], len ); /* exp(exp_old_out) */ } /* deallocated HQ-core for second channel */ @@ -628,16 +624,10 @@ ivas_error stereo_memory_dec_fx( return ( IVAS_ERROR( IVAS_ERR_FAILED_ALLOC, "Can not allocate memory for TD BWE\n" ) ); } - td_bwe_dec_init_ivas_fx( st, st->hBWE_TD, st->output_Fs ); + td_bwe_dec_init_fx( st->hBWE_TD, -1, st->output_Fs ); st->prev_Q_bwe_exc = 31; move16(); - st->prev_Qx = 0; - move16(); - st->prev_ener_fx_Q = 31; - move16(); - st->prev_frame_pow_exp = 0; - move16(); IF( ( st->hBWE_FD = (FD_BWE_DEC_HANDLE) malloc( sizeof( FD_BWE_DEC_DATA ) ) ) == NULL ) { @@ -645,19 +635,6 @@ ivas_error stereo_memory_dec_fx( } fd_bwe_dec_init_fx( st->hBWE_FD ); - set16_fx( st->prev_SWB_fenv_fx, 0, SWB_FENV ); - st->last_wb_bwe_ener_fx = 0; - move16(); - st->prev_fb_ener_adjust_fx = 0; - move16(); - - fd_bwe_dec_init( st, st->hBWE_FD ); - st->hBWE_FD->old_wtda_swb_fx_exp = 0; - move16(); - st->hBWE_FD->mem_imdct_exp_fx = 0; - move16(); - st->prev_Q_synth = 0; - move16(); } /* Allocated FD_CNG instance for primary channel*/ @@ -754,7 +731,7 @@ ivas_error stereo_memory_dec_fx( IF( st->cldfbAna == NULL ) { - IF( NE_32( ( error = openCldfb_ivas_fx( &st->cldfbAna, CLDFB_ANALYSIS, 48000, CLDFB_PROTOTYPE_1_25MS ) ), IVAS_ERR_OK ) ) + IF( NE_32( ( error = openCldfb_ivas_fx( &st->cldfbAna, CLDFB_ANALYSIS, 48000, CLDFB_PROTOTYPE_1_25MS, DEC ) ), IVAS_ERR_OK ) ) { return error; } @@ -763,7 +740,7 @@ ivas_error stereo_memory_dec_fx( IF( st->cldfbBPF == NULL ) { /* open analysis BPF for max. internal sampling rate 16kHz */ - IF( NE_32( ( error = openCldfb_ivas_fx( &st->cldfbBPF, CLDFB_ANALYSIS, 16000, CLDFB_PROTOTYPE_1_25MS ) ), IVAS_ERR_OK ) ) + IF( NE_32( ( error = openCldfb_ivas_fx( &st->cldfbBPF, CLDFB_ANALYSIS, 16000, CLDFB_PROTOTYPE_1_25MS, DEC ) ), IVAS_ERR_OK ) ) { return error; } @@ -806,6 +783,7 @@ ivas_error stereo_memory_dec_fx( { Copy32( tmpF_buff, st->hTcxDec->old_syn_Overl_32, L_FRAME16k / 2 ); /* Q11 */ Copy_Scale_sig32_16( st->hTcxDec->old_syn_Overl_32, st->hTcxDec->old_syn_Overl, L_FRAME16k / 2, add( st->Q_syn, 5 ) ); //(st->Qsyn - (11 - 16)) + st->hTcxDec->Q_old_syn_Overl = st->Q_syn; } st->hTcxDec->q_old_synth = st->Q_syn; move16(); @@ -874,16 +852,10 @@ ivas_error stereo_memory_dec_fx( return ( IVAS_ERROR( IVAS_ERR_FAILED_ALLOC, "Can not allocate memory for TD BWE\n" ) ); } - td_bwe_dec_init_ivas_fx( st, st->hBWE_TD, st->output_Fs ); + td_bwe_dec_init_fx( st->hBWE_TD, -1, st->output_Fs ); st->prev_Q_bwe_exc = 31; move16(); - st->prev_Qx = 0; - move16(); - st->prev_ener_fx_Q = 31; - move16(); - st->prev_frame_pow_exp = 0; - move16(); IF( ( st->hBWE_FD = (FD_BWE_DEC_HANDLE) malloc( sizeof( FD_BWE_DEC_DATA ) ) ) == NULL ) { @@ -891,19 +863,6 @@ ivas_error stereo_memory_dec_fx( } fd_bwe_dec_init_fx( st->hBWE_FD ); - set16_fx( st->prev_SWB_fenv_fx, 0, SWB_FENV ); - st->last_wb_bwe_ener_fx = 0; - move16(); - st->prev_fb_ener_adjust_fx = 0; - move16(); - - fd_bwe_dec_init( st, st->hBWE_FD ); - st->hBWE_FD->old_wtda_swb_fx_exp = 0; - move16(); - st->hBWE_FD->mem_imdct_exp_fx = 0; - move16(); - st->prev_Q_synth = 0; - move16(); } } ELSE /* tdm_LRTD_flag == 0 */ @@ -1034,11 +993,11 @@ ivas_error stereo_memory_dec_fx( IF( hCPE->prev_synth_chs_fx[1] == NULL ) { st = hCPE->hCoreCoder[1]; - IF( ( hCPE->prev_synth_chs_fx[1] = (Word32 *) malloc( sizeof( Word32 ) * NS2SA( st->output_Fs, FRAME_SIZE_NS ) ) ) == NULL ) + IF( ( hCPE->prev_synth_chs_fx[1] = (Word32 *) malloc( sizeof( Word32 ) * NS2SA_FX2( st->output_Fs, FRAME_SIZE_NS ) ) ) == NULL ) { return ( IVAS_ERROR( IVAS_ERR_FAILED_ALLOC, "Can not allocate memory for DFT stereo memory\n" ) ); } - set32_fx( hCPE->prev_synth_chs_fx[1], 0, NS2SA( st->output_Fs, FRAME_SIZE_NS ) ); + set32_fx( hCPE->prev_synth_chs_fx[1], 0, NS2SA_FX2( st->output_Fs, FRAME_SIZE_NS ) ); } IF( hCPE->hStereoICBWE == NULL && EQ_16( hCPE->element_mode, IVAS_CPE_DFT ) ) @@ -1102,7 +1061,7 @@ ivas_error stereo_memory_dec_fx( { IF( hCPE->hCoreCoder[i]->cldfbSyn == NULL ) /* could be NULL when we had the MCT LFE channel */ { - IF( NE_32( ( error = openCldfb_ivas_fx( &hCPE->hCoreCoder[i]->cldfbSyn, CLDFB_SYNTHESIS, hCPE->hCoreCoder[i]->output_Fs, CLDFB_PROTOTYPE_1_25MS ) ), IVAS_ERR_OK ) ) + IF( NE_32( ( error = openCldfb_ivas_fx( &hCPE->hCoreCoder[i]->cldfbSyn, CLDFB_SYNTHESIS, hCPE->hCoreCoder[i]->output_Fs, CLDFB_PROTOTYPE_1_25MS, DEC ) ), IVAS_ERR_OK ) ) { return error; } @@ -1265,7 +1224,7 @@ void synchro_synthesis_fx( { /* delay CLDFB-based mono output (<= 24.4 kbps) to be aligned with DFT-based mono output (32 kbps), needed to avoid discontinuities with TCX-LTP. */ Copy32( sts[0]->prev_synth_buffer32_fx + delay_comp_DFT, hCPE->hCoreCoder[0]->hTcxDec->FBTCXdelayBuf_32, delay_diff ); /* Q11 */ - delay_signal_fx( output_fx[0], output_frame, hCPE->hCoreCoder[0]->hTcxDec->FBTCXdelayBuf_32, delay_diff ); + delay_signal32_fx( output_fx[0], output_frame, hCPE->hCoreCoder[0]->hTcxDec->FBTCXdelayBuf_32, delay_diff ); } IF( NE_16( hCPE->element_mode, IVAS_CPE_MDCT ) ) @@ -1282,7 +1241,7 @@ void synchro_synthesis_fx( } ELSE { - delay_signal_fx( output_fx[n], output_frame, sts[n]->prev_synth_buffer32_fx, delay_comp_DFT ); + delay_signal32_fx( output_fx[n], output_frame, sts[n]->prev_synth_buffer32_fx, delay_comp_DFT ); } } if ( sba_dirac_stereo_flag ) @@ -1603,15 +1562,15 @@ void synchro_synthesis_fx( IF( EQ_16( hCPE->element_mode, IVAS_CPE_MDCT ) ) { Copy32( sts[n]->prev_synth_buffer32_fx + delay_comp_DFT, hCPE->hCoreCoder[n]->hTcxDec->FBTCXdelayBuf_32, delay_diff ); /* Q11 */ - delay_signal_fx( output_fx[n], output_frame, hCPE->hCoreCoder[n]->hTcxDec->FBTCXdelayBuf_32, delay_diff ); /* Q11 */ + delay_signal32_fx( output_fx[n], output_frame, hCPE->hCoreCoder[n]->hTcxDec->FBTCXdelayBuf_32, delay_diff ); /* Q11 */ ivas_post_proc_fx( NULL, hCPE, n, output_fx[n], output_fx, output_frame, 0, output_fx_q ); - delay_signal_fx( output_fx[n], output_frame, sts[n]->prev_synth_buffer32_fx, delay_comp_DFT ); + delay_signal32_fx( output_fx[n], output_frame, sts[n]->prev_synth_buffer32_fx, delay_comp_DFT ); Copy32( hCPE->hCoreCoder[n]->hTcxDec->FBTCXdelayBuf_32, sts[n]->prev_synth_buffer32_fx + delay_comp_DFT, delay_diff ); /* Q11 */ } ELSE { - delay_signal_fx( output_fx[n], output_frame, sts[n]->prev_synth_buffer32_fx, delay_comp_TD ); + delay_signal32_fx( output_fx[n], output_frame, sts[n]->prev_synth_buffer32_fx, delay_comp_TD ); } } @@ -1880,7 +1839,7 @@ void stereo_switching_dec( /* reset residual coding / ESF (secondary channel) */ set32_fx( hCPE->hStereoDft->res_cod_mem_fx, 0, STEREO_DFT_OVL_8k ); - hCPE->hStereoDft->q_res_cod_mem_fx = Q16; + hCPE->hStereoDft->q_res_cod_mem_fx = Q15; move16(); set32_fx( hCPE->input_mem_fx[1], 0, NS2SA_FX2( sts[0]->output_Fs, STEREO_DFT32MS_OVL_NS ) ); @@ -1986,19 +1945,29 @@ void stereo_switching_dec( move16(); Copy( sts[0]->Q_subfr, sts[1]->Q_subfr, L_Q_MEM ); - sts[1]->prev_Q_bwe_syn = sts[0]->prev_Q_bwe_syn; - move16(); - sts[1]->prev_Q_bwe_syn2 = sts[0]->prev_Q_bwe_syn2; - move16(); + test(); + IF( sts[0]->hBWE_TD != NULL && sts[1]->hBWE_TD != NULL ) + { + sts[1]->hBWE_TD->prev_Q_bwe_syn = sts[0]->hBWE_TD->prev_Q_bwe_syn; + move16(); + sts[1]->hBWE_TD->prev_Q_bwe_syn2 = sts[0]->hBWE_TD->prev_Q_bwe_syn2; + move16(); + + sts[1]->hBWE_TD->prev_Q_bwe_exc_fb = sts[0]->hBWE_TD->prev_Q_bwe_exc_fb; + move16(); + sts[1]->hBWE_TD->prev_Qx = sts[0]->hBWE_TD->prev_Qx; + move16(); + } + + test(); + IF( sts[0]->hBWE_FD != NULL && sts[1]->hBWE_FD != NULL ) + { + sts[1]->hBWE_FD->prev_Q_synth = sts[0]->hBWE_FD->prev_Q_synth; + move16(); + } - sts[1]->prev_Q_bwe_exc_fb = sts[0]->prev_Q_bwe_exc_fb; - move16(); - sts[1]->prev_Qx = sts[0]->prev_Qx; - move16(); sts[1]->prev_Q_bwe_exc = sts[0]->prev_Q_bwe_exc; move16(); - sts[1]->prev_Q_synth = sts[0]->prev_Q_synth; - move16(); sts[1]->Q_syn = sts[0]->Q_syn; move16(); sts[1]->Q_syn2 = sts[0]->Q_syn2; @@ -2019,7 +1988,7 @@ void stereo_switching_dec( // 32bit buffer - Copy32( sts[0]->hHQ_core->oldOut_fx, sts[1]->hHQ_core->oldOut_fx, L_FRAME48k ); /* exp(exp_old_out) */ + Copy32( sts[0]->hHQ_core->old_out_fx32, sts[1]->hHQ_core->old_out_fx32, L_FRAME48k ); /* exp(exp_old_out) */ Copy32( sts[0]->delay_buf_out32_fx, sts[1]->delay_buf_out32_fx, HQ_DELTA_MAX * HQ_DELAY_COMP ); /* Q11 */ Copy32( sts[0]->hTcxDec->old_syn_Overl_32, sts[1]->hTcxDec->old_syn_Overl_32, 256 ); /* Q_old_syn_Overl*/ // 16 bit buffer @@ -2029,6 +1998,7 @@ void stereo_switching_dec( move16(); Copy( sts[0]->delay_buf_out_fx, sts[1]->delay_buf_out_fx, HQ_DELTA_MAX * HQ_DELAY_COMP ); /* Q0 */ Copy( sts[0]->hTcxDec->old_syn_Overl, sts[1]->hTcxDec->old_syn_Overl, 256 ); /* Q_old_syn_Overl*/ + sts[1]->hTcxDec->Q_old_syn_Overl = sts[0]->hTcxDec->Q_old_syn_Overl; } } ELSE IF( EQ_16( hCPE->element_mode, IVAS_CPE_TD ) && EQ_16( hCPE->last_element_mode, IVAS_CPE_MDCT ) ) @@ -2079,7 +2049,7 @@ void stereo_td2dft_update_fx( ) { Word16 ovl, ovl_TCX, dft32ms_ovl, hq_delay_comp; - Word16 ns, nsLB; + Word16 ns, nsLB, i; Word16 old_out_len, old_outLB_len; Decoder_State **sts; @@ -2143,7 +2113,7 @@ void stereo_td2dft_update_fx( /* TCX synthesis (it was already delayed in TD stereo in core_switching_post_dec()) */ IF( sts[n]->hTcxDec != NULL ) { - ovl_TCX = NS2SA_FX2( sts[n]->hTcxDec->L_frameTCX * FRAMES_PER_SEC, STEREO_DFT32MS_OVL_NS ); /* Q0 */ + ovl_TCX = NS2SA_FX2( L_mult0( sts[n]->hTcxDec->L_frameTCX, FRAMES_PER_SEC ), STEREO_DFT32MS_OVL_NS ); /* Q0 */ move16(); Copy32( synth_fx + sts[n]->hTcxDec->L_frameTCX + hq_delay_comp - ovl_TCX, hCPE->input_mem_fx[n], sub( ovl_TCX, hq_delay_comp ) ); /* Q11 */ Copy32( sts[n]->delay_buf_out32_fx, hCPE->input_mem_fx[n] + ovl_TCX - hq_delay_comp, hq_delay_comp ); /* Q11 */ @@ -2161,7 +2131,7 @@ void stereo_td2dft_update_fx( /* TCX synthesis (it was already delayed in TD stereo in core_switching_post_dec()) */ IF( sts[n]->hTcxDec != NULL ) { - ovl_TCX = NS2SA_FX2( sts[n]->hTcxDec->L_frameTCX * FRAMES_PER_SEC, STEREO_DFT32MS_OVL_NS ); /* Q0 */ + ovl_TCX = NS2SA_FX2( L_mult0( sts[n]->hTcxDec->L_frameTCX, FRAMES_PER_SEC ), STEREO_DFT32MS_OVL_NS ); /* Q0 */ move16(); Copy32( synth_fx + add( sts[n]->hTcxDec->L_frameTCX, sub( hq_delay_comp, ovl_TCX ) ), hCPE->input_mem_fx[n], sub( ovl_TCX, hq_delay_comp ) ); /* Q11 */ Copy32( sts[n]->delay_buf_out32_fx, hCPE->input_mem_fx[n] + sub( ovl_TCX, hq_delay_comp ), hq_delay_comp ); /* Q11 */ @@ -2179,23 +2149,15 @@ void stereo_td2dft_update_fx( move16(); /* update buffers used for fading when switching to DFT Stereo */ - v_add_fx( sts[0]->hHQ_core->old_outLB_fx + nsLB, sts[1]->hHQ_core->old_outLB_fx + nsLB, hCPE->old_outLB_mdct_fx, old_outLB_len ); + v_add_fx( sts[0]->hHQ_core->old_out_LB_fx32 + nsLB, sts[1]->hHQ_core->old_out_LB_fx32 + nsLB, hCPE->old_outLB_mdct_fx, old_outLB_len ); L_lerp_fx_q11( hCPE->old_outLB_mdct_fx, hCPE->old_outLB_mdct_fx, STEREO_MDCT2DFT_FADE_LEN_48k, old_outLB_len ); -#ifndef MSAN_FIX - for ( int i = 0; i < STEREO_MDCT2DFT_FADE_LEN_48k; i++ ) -#else - FOR( Word32 i = 0; i < old_outLB_len; i++ ) -#endif + FOR( i = 0; i < old_outLB_len; i++ ) { hCPE->old_outLB_mdct_fx[i] = L_shr( hCPE->old_outLB_mdct_fx[i], 1 ); /* Q11 */ move32(); } - v_add_fx( sts[0]->hHQ_core->oldOut_fx + ns, sts[1]->hHQ_core->oldOut_fx + ns, hCPE->old_out_mdct_fx, old_out_len ); /* exp(exp_old_out) */ -#ifndef MSAN_FIX - for ( int i = 0; i < STEREO_MDCT2DFT_FADE_LEN_48k; i++ ) -#else - FOR( Word32 i = 0; i < old_out_len; i++ ) -#endif + v_add_fx( sts[0]->hHQ_core->old_out_fx32 + ns, sts[1]->hHQ_core->old_out_fx32 + ns, hCPE->old_out_mdct_fx, old_out_len ); /* exp(exp_old_out) */ + FOR( i = 0; i < old_out_len; i++ ) { hCPE->old_out_mdct_fx[i] = L_shr( hCPE->old_out_mdct_fx[i], 1 ); /* q_old_out_mdct */ move32(); @@ -2343,15 +2305,20 @@ static Word32 ncross_corr_self_fx( { Word64 c_c_fx; Word32 c_c_fx_return; + Word64 energy_x_fx, energy_y_fx; +#ifndef OPT_STEREO_32KBPS_V1 Word16 c_c_fx_q; - Word64 energy_xy_fx, energy_x_fx, energy_y_fx; + Word64 energy_xy_fx; +#endif /* OPT_STEREO_32KBPS_V1 */ UWord16 j; Word32 *signal_a_fx, *signal_b_fx; Word32 temp_x, temp_y; Word16 headroom_left_x, headroom_left_y; +#ifndef OPT_STEREO_32KBPS_V1 Word16 x_inv_q, y_inv_q; Word16 x_q, y_q; Word16 res_q; +#endif /* OPT_STEREO_32KBPS_V1 */ c_c_fx = 0; move64(); energy_x_fx = 0; @@ -2362,13 +2329,43 @@ static Word32 ncross_corr_self_fx( signal_b_fx = &signal_fx[y]; /* Q11 */ FOR( j = 0; j < corr_len; j += subsampling ) { +#ifdef OPT_STEREO_32KBPS_V1 + c_c_fx = W_mac_32_32( c_c_fx, signal_a_fx[j], signal_b_fx[j] ); /* 2 * Q11 + 1*/ + energy_x_fx = W_mac_32_32( energy_x_fx, signal_a_fx[j], signal_a_fx[j] ); /* 2 * Q11+ 1 */ + energy_y_fx = W_mac_32_32( energy_y_fx, signal_b_fx[j], signal_b_fx[j] ); /* 2 * Q11+ 1 */ +#else /* OPT_STEREO_32KBPS_V1 */ c_c_fx = W_add( c_c_fx, W_mult0_32_32( ( signal_a_fx[j] ), ( signal_b_fx[j] ) ) ); /* 2 * Q11 */ energy_x_fx = W_add( energy_x_fx, W_mult0_32_32( ( signal_a_fx[j] ), ( signal_a_fx[j] ) ) ); /* 2 * Q11 */ energy_y_fx = W_add( energy_y_fx, W_mult0_32_32( ( signal_b_fx[j] ), ( signal_b_fx[j] ) ) ); /* 2 * Q11 */ +#endif /* OPT_STEREO_32KBPS_V1 */ } headroom_left_x = W_norm( energy_x_fx ); headroom_left_y = W_norm( energy_y_fx ); +#ifdef OPT_STEREO_32KBPS_V1 + temp_x = W_extract_h( W_shl( energy_x_fx, headroom_left_x ) ); // Q23 + headroom_left_x -32 + temp_y = W_extract_h( W_shl( energy_y_fx, headroom_left_y ) ); // Q23 + headroom_left_y -32 + Word64 prod = W_mult0_32_32( temp_x, temp_y ); // Q(headroom_left_x + headroom_left_y - 18) + Word16 q_prod = W_norm( prod ); + Word32 energy = W_extract_h( W_shl( prod, q_prod ) ); // Q(headroom_left_x + headroom_left_y + q_prod - 18) - 32 + q_prod = sub( 81, add( add( headroom_left_x, headroom_left_y ), q_prod ) ); + energy = Sqrt32( energy, &q_prod ); + + IF( LT_32( energy, L_shl_sat( 1, sub( 31, q_prod ) ) ) ) + { + c_c_fx_return = W_shl_sat_l( c_c_fx, 31 - ( 2 * OUTPUT_Q + 1 ) ); // Q31 + } + ELSE + { + // Maximize c_c_fx + Word16 q_cc = W_norm( c_c_fx ); + Word32 num = W_extract_h( W_shl( c_c_fx, q_cc ) ); // Q(23 + q_cc - 32) -> e(40 - q_cc) + Word16 quo_e; + num = BASOP_Util_Divide3232_Scale_newton( num, energy, &quo_e ); + quo_e = add( sub( sub( 40, q_cc ), q_prod ), quo_e ); + c_c_fx_return = L_shl_sat( num, quo_e ); // Q31 + } +#else /* OPT_STEREO_32KBPS_V1 */ IF( LT_16( headroom_left_x, 32 ) ) { energy_x_fx = W_shr( energy_x_fx, sub( 32, headroom_left_x ) ); /* 2 * Q11 - (32 -headroom_left_x) */ @@ -2440,6 +2437,7 @@ static Word32 ncross_corr_self_fx( c_c_fx_return = W_extract_l( c_c_fx ); /* Q31 */ move32(); +#endif /* OPT_STEREO_32KBPS_V1 */ return c_c_fx_return; } diff --git a/lib_dec/ivas_stereo_td_dec.c b/lib_dec/ivas_stereo_td_dec_fx.c similarity index 95% rename from lib_dec/ivas_stereo_td_dec.c rename to lib_dec/ivas_stereo_td_dec_fx.c index d296e3f3303f9d604be289b9b99d1fbc83f2ab6c..023c9a2e5e3a1fc4dd97ded44e0ac846508e84ed 100644 --- a/lib_dec/ivas_stereo_td_dec.c +++ b/lib_dec/ivas_stereo_td_dec_fx.c @@ -35,9 +35,7 @@ #include #include "cnst.h" #include "rom_com.h" -#include "prot.h" #include "prot_fx.h" -#include "ivas_prot.h" #include "ivas_rom_com.h" #include "ivas_cnst.h" #include "wmc_auto.h" @@ -339,52 +337,13 @@ void tdm_configure_dec_fx( return; } -/*-------------------------------------------------------------------* - * Function tdm_downmix_plain() - * - * downmix Left+Right to Primary+Secondary channel - *-------------------------------------------------------------------*/ - -void tdm_upmix_plain( - float Left[], /* o : left channel */ - float Right[], /* o : right channel */ - const float PCh_2_L[], /* i : primary channel */ - const float SCh_2_R[], /* i : secondary channel */ - const float LR_ratio, /* i : mixing ratio */ - const float inv_den_LR_ratio, /* i : inverse mixing ration */ - const int16_t start_index, /* i : start index */ - const int16_t end_index, /* i : end index */ - const int16_t plus_minus_flag /* i : plus/minus flag */ -) -{ - int16_t i; - - if ( plus_minus_flag == 1 ) - { - for ( i = start_index; i < end_index; i++ ) - { - Left[i] = ( LR_ratio * ( PCh_2_L[i] - SCh_2_R[i] ) + SCh_2_R[i] ) * inv_den_LR_ratio; - Right[i] = ( -LR_ratio * ( PCh_2_L[i] + SCh_2_R[i] ) + PCh_2_L[i] ) * inv_den_LR_ratio; - } - } - else - { - for ( i = start_index; i < end_index; i++ ) - { - Left[i] = ( LR_ratio * ( PCh_2_L[i] + SCh_2_R[i] ) - SCh_2_R[i] ) * inv_den_LR_ratio; - Right[i] = ( LR_ratio * ( PCh_2_L[i] - SCh_2_R[i] ) - PCh_2_L[i] ) * inv_den_LR_ratio; - } - } - - return; -} void tdm_upmix_plain_fx( Word32 Left_fx[], /* o : left channel Qx*/ Word32 Right_fx[], /* o : right channel Qx*/ const Word32 PCh_2_L_fx[], /* i : primary channel Qx*/ const Word32 SCh_2_R_fx[], /* i : secondary channel Qx*/ const Word32 LR_ratio_fx, /* i : mixing ratio Q31*/ - const Word32 inv_den_LR_ratio_fx, /* i : inverse mixing ration Q31*/ + const Word32 inv_den_LR_ratio_fx, /* i : inverse mixing ration Q30*/ const Word16 start_index, /* i : start index Q0*/ const Word16 end_index, /* i : end index Q0*/ const Word16 plus_minus_flag /* i : plus/minus flag Q0*/ @@ -396,16 +355,37 @@ void tdm_upmix_plain_fx( { FOR( i = start_index; i < end_index; i++ ) { +#ifdef OPT_STEREO_32KBPS_V1 + Word32 temp_left = Madd_32_32( SCh_2_R_fx[i], L_sub( PCh_2_L_fx[i], SCh_2_R_fx[i] ), LR_ratio_fx ); /* Qx */ + Left_fx[i] = W_shl_sat_l( W_mult0_32_32( temp_left, inv_den_LR_ratio_fx ), -30 ); /* Qx */ + move32(); + Word32 temp_right = Msub_32_32( PCh_2_L_fx[i], L_add( PCh_2_L_fx[i], SCh_2_R_fx[i] ), LR_ratio_fx ); /* Qx */ + Right_fx[i] = W_shl_sat_l( W_mult0_32_32( temp_right, inv_den_LR_ratio_fx ), -30 ); /* Qx */ + move32(); +#else /* OPT_STEREO_32KBPS_V1 */ Word32 temp_left = L_add( Mpy_32_32( L_sub( PCh_2_L_fx[i], SCh_2_R_fx[i] ), LR_ratio_fx ), SCh_2_R_fx[i] ); /* Qx */ Left_fx[i] = L_shl_sat( Mpy_32_32( temp_left, inv_den_LR_ratio_fx ), 1 ); /* Qx + 1 */ move32(); Word32 temp_right = L_add( Mpy_32_32( L_add( PCh_2_L_fx[i], SCh_2_R_fx[i] ), L_negate( LR_ratio_fx ) ), PCh_2_L_fx[i] ); /* Qx */ Right_fx[i] = L_shl_sat( Mpy_32_32( temp_right, inv_den_LR_ratio_fx ), 1 ); /* Qx + 1 */ move32(); +#endif /* OPT_STEREO_32KBPS_V1 */ } } ELSE { +#ifdef OPT_STEREO_32KBPS_V1 + Word32 inv_den_LR_ratio_fx_neg = L_negate( inv_den_LR_ratio_fx ); + FOR( i = start_index; i < end_index; i++ ) + { + Word32 temp_left = Msub_32_32( SCh_2_R_fx[i], L_add( PCh_2_L_fx[i], SCh_2_R_fx[i] ), LR_ratio_fx ); /* Qx */ + Left_fx[i] = W_shl_sat_l( W_mult0_32_32( temp_left, inv_den_LR_ratio_fx_neg ), -30 ); /* Qx */ + move32(); + Word32 temp_right = Msub_32_32( PCh_2_L_fx[i], L_sub( PCh_2_L_fx[i], SCh_2_R_fx[i] ), LR_ratio_fx ); /* Qx */ + Right_fx[i] = W_shl_sat_l( W_mult0_32_32( temp_right, inv_den_LR_ratio_fx_neg ), -30 ); /* Qx */ + move32(); + } +#else /* OPT_STEREO_32KBPS_V1 */ FOR( i = start_index; i < end_index; i++ ) { Word32 temp_left = L_sub( Mpy_32_32( L_add( PCh_2_L_fx[i], SCh_2_R_fx[i] ), LR_ratio_fx ), SCh_2_R_fx[i] ); /* Qx */ @@ -415,6 +395,7 @@ void tdm_upmix_plain_fx( Right_fx[i] = L_shl_sat( Mpy_32_32( temp_right, inv_den_LR_ratio_fx ), 1 ); /* Qx + 1 */ move32(); } +#endif /* OPT_STEREO_32KBPS_V1 */ } return; @@ -680,17 +661,17 @@ void stereo_tdm_combine_fx( output_Fs = hCPE->hCoreCoder[0]->output_Fs; /* Q0 */ move32(); - tdm_n_OVA = NS2SA( output_Fs, TDM_L_NOVA_NS ); /* Q0 */ + tdm_n_OVA = NS2SA_FX2( output_Fs, TDM_L_NOVA_NS ); /* Q0 */ move16(); IF( flag_HB ) { - upmixing_delay = NS2SA( output_Fs, ACELP_LOOK_NS + DELAY_BWE_TOTAL_NS ); /* Q0 */ + upmixing_delay = NS2SA_FX2( output_Fs, ACELP_LOOK_NS + DELAY_BWE_TOTAL_NS ); /* Q0 */ move16(); } ELSE { - upmixing_delay = NS2SA( output_Fs, ACELP_LOOK_NS + DELAY_CLDFB_NS ); /* Q0 */ + upmixing_delay = NS2SA_FX2( output_Fs, ACELP_LOOK_NS + DELAY_CLDFB_NS ); /* Q0 */ move16(); } @@ -845,7 +826,7 @@ void stereo_tdm_combine_fx( } incr_fx = Mpy_32_32( L_sub( ONE_IN_Q29, fac_fx ), step ); /* Q29 */ - FOR( i = 0; i < NS2SA( output_Fs, ACELP_LOOK_NS ); i++ ) + FOR( i = 0; i < NS2SA_FX2( output_Fs, ACELP_LOOK_NS ); i++ ) { PCh_2_L_fx[i] = L_shl_sat( Mpy_32_32( PCh_2_L_fx[i], fac_fx ), 2 ); /* Qx */ move32(); diff --git a/lib_dec/ivas_svd_dec.c b/lib_dec/ivas_svd_dec_fx.c similarity index 66% rename from lib_dec/ivas_svd_dec.c rename to lib_dec/ivas_svd_dec_fx.c index a22502188fdbe5eb8e8cf4c443f20fc99f330e97..4b052288430d888a2b29857d24ec105999397042 100644 --- a/lib_dec/ivas_svd_dec.c +++ b/lib_dec/ivas_svd_dec_fx.c @@ -32,13 +32,11 @@ #include #include "options.h" -#include "prot.h" -#include "ivas_prot.h" +#include "prot_fx.h" #include "ivas_stat_dec.h" #include "ivas_cnst.h" #include #include "wmc_auto.h" -#include "prot_fx.h" #include "ivas_prot_fx.h" /*-----------------------------------------------------------------------* @@ -72,11 +70,7 @@ static void biDiagonalReductionLeft_fx( Word32 singularVectors[][MAX_OUTPUT_CHANNELS], /* exp(singularVectors_e) */ Word32 singularValues[MAX_OUTPUT_CHANNELS], /* exp(singularValues_e) */ Word32 secDiag[MAX_OUTPUT_CHANNELS], /* exp(secDiag_e) */ -#ifndef FIX_1010_OPT_SINGLE_RESCALE - Word16 *singularVectors_e, -#else Word16 singularVectors2_e[][MAX_OUTPUT_CHANNELS], -#endif Word16 singularValues_e[MAX_OUTPUT_CHANNELS], Word16 *secDiag_e, const Word16 nChannelsL, /* Q0 */ @@ -90,11 +84,7 @@ static void biDiagonalReductionLeft_fx( static void biDiagonalReductionRight_fx( Word32 singularVectors[][MAX_OUTPUT_CHANNELS], /* exp(singularVectors_e) */ Word32 secDiag[MAX_OUTPUT_CHANNELS], /* exp(secDiag_e) */ -#ifndef FIX_1010_OPT_SINGLE_RESCALE - Word16 *singularVectors_e, -#else Word16 singularVectors2_e[][MAX_OUTPUT_CHANNELS], -#endif Word16 *secDiag_e, const Word16 nChannelsL, /* Q0 */ const Word16 nChannelsC, /* Q0 */ @@ -107,11 +97,7 @@ static void biDiagonalReductionRight_fx( static void singularVectorsAccumulationLeft_fx( Word32 singularVectors_Left[][MAX_OUTPUT_CHANNELS], /* exp(singularVectors_e) as Input, Q31 as output */ Word32 singularValues[MAX_OUTPUT_CHANNELS], /* exp(singularValues_e) */ -#ifndef FIX_1010_OPT_SINGLE_RESCALE - Word16 singularVectors_e, -#else Word16 singularVectors_Left_e[][MAX_OUTPUT_CHANNELS], -#endif Word16 singularValues_e[MAX_OUTPUT_CHANNELS], const Word16 nChannelsL, /* Q0 */ const Word16 nChannelsC /* Q0 */ @@ -121,16 +107,8 @@ static void singularVectorsAccumulationRight_fx( Word32 singularVectors_Left[][MAX_OUTPUT_CHANNELS], /* singularVectors_e */ Word32 singularVectors_Right[][MAX_OUTPUT_CHANNELS], /* singularVectors_e */ Word32 secDiag[MAX_OUTPUT_CHANNELS], /* exp(secDiag_e) */ -#ifndef FIX_1010_OPT_SINGLE_RESCALE - Word16 singularVectors_e, -#else Word16 singularVectors_Left_e[][MAX_OUTPUT_CHANNELS], -#endif -#ifndef FIX_1010_OPT_SEC_SINGLE_RESCALE - Word16 secDiag_e, -#else Word16 *secDiag_e, -#endif const Word16 nChannelsC /* Q0 */ ); @@ -170,7 +148,6 @@ static void ApplyRotation_fx( const Word16 nChannels /* Q0 */ ); -#ifdef FIX_1010_OPT_GIVENS_INV static void GivensRotation2_fx( const Word32 x, /* exp(x_e) */ const Word16 x_e, @@ -180,7 +157,6 @@ static void GivensRotation2_fx( Word32 *resultInv, Word16 *out_e, Word16 *outInv_e ); -#endif static Word32 GivensRotation_fx( const Word32 x, /* exp(x_e) */ @@ -307,13 +283,8 @@ Word16 svd_fx( Word16 iCh, jCh; Word16 lengthSingularValues; Word16 errorMessage, condition; - // int16_t max_length = ((nChannelsL > nChannelsC) ? nChannelsL : nChannelsC); Word32 secDiag_fx[MAX_OUTPUT_CHANNELS]; -#ifndef FIX_1010_OPT_SEC_SINGLE_RESCALE - Word16 secDiag_fx_e = 0; -#else Word16 secDiag_fx_e[MAX_OUTPUT_CHANNELS]; -#endif move16(); Word32 eps_x_fx = 0, temp_fx; move16(); @@ -323,11 +294,6 @@ Word16 svd_fx( push_wmops( "svd_fx" ); -#ifndef FIX_1010_OPT_SINGLE_RESCALE - set32_fx( secDiag_fx, 0, MAX_OUTPUT_CHANNELS ); - set16_fx( singularValues_fx_e, 0, MAX_OUTPUT_CHANNELS ); -#endif - /* Collecting Values */ FOR( iCh = 0; iCh < nChannelsL; iCh++ ) { @@ -339,22 +305,14 @@ Word16 svd_fx( } /* Householder reduction */ -#ifndef FIX_1010_OPT_SEC_SINGLE_RESCALE - HouseholderReduction_fx( singularVectors_Left_fx, singularValues_fx, singularVectors_Right_fx, secDiag_fx, InputMatrix_e, singularValues_fx_e, &secDiag_fx_e, nChannelsL, nChannelsC, &eps_x_fx, &eps_x_fx_e ); -#else HouseholderReduction_fx( singularVectors_Left_fx, singularValues_fx, singularVectors_Right_fx, secDiag_fx, InputMatrix_e, singularValues_fx_e, secDiag_fx_e, nChannelsL, nChannelsC, &eps_x_fx, &eps_x_fx_e ); -#endif /* Set extremely small values to zero if needed */ // flushToZeroArray(singularValues, max_length); // flushToZeroMat(singularVectors_Left, nChannelsL, nChannelsL); // flushToZeroMat(singularVectors_Right, nChannelsC, nChannelsC); /* BidagonalDiagonalisation */ -#ifndef FIX_1010_OPT_SEC_SINGLE_RESCALE - errorMessage = BidagonalDiagonalisation_fx( singularVectors_Left_fx, singularValues_fx, singularVectors_Right_fx, secDiag_fx, singularValues_fx_e, &secDiag_fx_e, nChannelsL, nChannelsC, eps_x_fx, eps_x_fx_e ); /* Q0 */ -#else errorMessage = BidagonalDiagonalisation_fx( singularVectors_Left_fx, singularValues_fx, singularVectors_Right_fx, secDiag_fx, singularValues_fx_e, secDiag_fx_e, nChannelsL, nChannelsC, eps_x_fx, eps_x_fx_e ); /* Q0 */ -#endif /* Sort the singular values descending order */ lengthSingularValues = s_min( nChannelsL, nChannelsC ); /* Q0 */ @@ -426,15 +384,11 @@ static Word16 BidagonalDiagonalisation_fx( Word32 singularVectors_Right_fx[][MAX_OUTPUT_CHANNELS], /* i/o: right singular vectors (V) singularValues_fx_e*/ Word32 secDiag_fx[MAX_OUTPUT_CHANNELS], /* i/o: secDiag_fx_e*/ Word16 singularValues_fx_e[MAX_OUTPUT_CHANNELS], /* i/o: singular values vector (S) */ -#ifndef FIX_1010_OPT_SEC_SINGLE_RESCALE - Word16 *secDiag_fx_e, /* i/o: */ -#else - Word16 *secDiag_new_e, /* i/o: */ -#endif - const Word16 nChannelsL, /* i : number of rows in the matrix to be decomposed Q0*/ - const Word16 nChannelsC, /* i : number of columns in the matrix to be decomposed Q0*/ - const Word32 eps_x, /* i : eps_x_e*/ - const Word16 eps_x_e /* i : */ + Word16 *secDiag_new_e, /* i/o: */ + const Word16 nChannelsL, /* i : number of rows in the matrix to be decomposed Q0*/ + const Word16 nChannelsC, /* i : number of columns in the matrix to be decomposed Q0*/ + const Word32 eps_x, /* i : eps_x_e*/ + const Word16 eps_x_e /* i : */ ) { Word16 kCh, nCh, iCh, jCh, split; @@ -444,9 +398,7 @@ static Word16 BidagonalDiagonalisation_fx( move16(); move16(); Word16 temp_exp; -#ifdef FIX_1010_OPT_NORM_NOSAT Word16 temp_exp2; -#endif Word32 g = 0; move16(); Word16 g_e = 0; @@ -454,14 +406,8 @@ static Word16 BidagonalDiagonalisation_fx( Word16 convergence, iteration, found_split; Word16 error = 0; move16(); -#ifdef FIX_1010_OPT_GIVENS_INV Word32 temp; -#endif Word16 singularValues_new_e[MAX_OUTPUT_CHANNELS]; -#ifndef FIX_1010_OPT_SEC_SINGLE_RESCALE - Word16 secDiag_new_e[MAX_OUTPUT_CHANNELS]; - set16_fx( secDiag_new_e, *secDiag_fx_e, MAX_OUTPUT_CHANNELS ); -#endif Copy( singularValues_fx_e, singularValues_new_e, MAX_OUTPUT_CHANNELS ); FOR( iCh = nChannelsC - 1; iCh >= 0; iCh-- ) /* nChannelsC */ @@ -530,46 +476,17 @@ static Word16 BidagonalDiagonalisation_fx( c = singularValues_fx[kCh]; /* exp(singularValues_new_e) */ c_e = singularValues_new_e[kCh]; -#ifdef FIX_1010_OPT_GIVENS_INV GivensRotation2_fx( g, g_e, singularValues_fx[kCh], singularValues_new_e[kCh], &singularValues_fx[kCh], &temp, &singularValues_new_e[kCh], &temp_exp ); /* exp(singularValues_new_e) */ c = Mpy_32_32( c, temp ); c_e = add( c_e, temp_exp ); -#else - singularValues_fx[kCh] = GivensRotation_fx( g, g_e, singularValues_fx[kCh], singularValues_new_e[kCh], &singularValues_new_e[kCh] ); /* exp(singularValues_new_e) */ - c = BASOP_Util_Divide3232_Scale_cadence( c, maxWithSign_fx( singularValues_fx[kCh] ), &temp_exp ); /* exp(temp_exp + (c_e - singularValues_new_e)) */ - c_e = add( temp_exp, sub( c_e, singularValues_new_e[kCh] ) ); -#endif -#ifndef FIX_1010_OPT_NORM_NOSAT - IF( c_e > 0 ) - { - c = L_shl_sat( c, c_e ); // Q31 - c_e = 0; - move16(); - } -#else temp_exp2 = norm_l( c ); c = L_shl( c, temp_exp2 ); c_e = sub( c_e, temp_exp2 ); -#endif -#ifdef FIX_1010_OPT_GIVENS_INV s = Mpy_32_32( -g, temp ); s_e = add( g_e, temp_exp ); -#else - s = BASOP_Util_Divide3232_Scale_cadence( -g, maxWithSign_fx( singularValues_fx[kCh] ), &temp_exp ); /* exp(temp_exp + (g_e - singularValues_new_e))*/ - s_e = add( temp_exp, sub( g_e, singularValues_new_e[kCh] ) ); -#endif -#ifndef FIX_1010_OPT_NORM_NOSAT - IF( s_e > 0 ) - { - s = L_shl_sat( s, s_e ); // Q31 - s_e = 0; - move16(); - } -#else temp_exp2 = norm_l( s ); s = L_shl( s, temp_exp2 ); s_e = sub( s_e, temp_exp2 ); -#endif ApplyRotation_fx( singularVectors_Left_fx, c, c_e, s, s_e, 0, x11_e, 0, x12_e, &f1, &f1_e, &f2, &f2_e, kCh, split, nChannelsL ); /* nChannelsL */ } } @@ -620,24 +537,6 @@ static Word16 BidagonalDiagonalisation_fx( // rescaling block Copy( singularValues_new_e, singularValues_fx_e, MAX_OUTPUT_CHANNELS ); -#ifndef FIX_1010_OPT_SEC_SINGLE_RESCALE - Word16 max_exp = -31; - move16(); - FOR( iCh = 0; iCh < nChannelsC; iCh++ ) - { - if ( secDiag_fx[iCh] ) - { - max_exp = s_max( max_exp, secDiag_new_e[iCh] ); - } - } - *secDiag_fx_e = max_exp; - move16(); - FOR( iCh = 0; iCh < nChannelsC; iCh++ ) - { - secDiag_fx[iCh] = L_shr_r( secDiag_fx[iCh], sub( *secDiag_fx_e, secDiag_new_e[iCh] ) ); /* exp(secDiag_fx_e) */ - move32(); - } -#endif return ( error ); } @@ -661,13 +560,9 @@ static void ApplyQRTransform_fx( const Word16 nChannelsC /* i : number of columns in the matrix to be decomposed Q0*/ ) { -#ifdef FIX_1010_OPT_GIVENS_INV Word32 temp; Word16 temp_e; -#endif -#ifdef FIX_1010_OPT_NORM_NOSAT Word16 temp_norm_e; -#endif Word16 ch, split; Word32 d = 0, g = 0, r = 0, x_ii = 0, x_split = 0, x_kk = 0, mu = 0, aux = 0; move32(); @@ -733,7 +628,7 @@ static void ApplyQRTransform_fx( L_temp1 = BASOP_Util_Add_Mant32Exp( r, r_e, r, r_e, &L_temp1_e ); /* exp(L_temp1_e) */ L_temp1 = maxWithSign_fx( Mpy_32_32( L_temp1, x_split ) ); /* exp(L_temp1_e + x_split_e) */ L_temp1_e = add( L_temp1_e, x_split_e ); - d = BASOP_Util_Divide3232_Scale_cadence( d, L_temp1, &temp_exp ); /* temp_exp + d_e - L_temp1_e */ + d = BASOP_Util_Divide3232_Scale_newton( d, L_temp1, &temp_exp ); /* temp_exp + d_e - L_temp1_e */ d_e = add( temp_exp, sub( d_e, L_temp1_e ) ); g = GivensRotation_fx( MAX_32, 0, d, d_e, &g_e ); @@ -751,7 +646,7 @@ static void ApplyQRTransform_fx( L_temp1_e = g_e; move16(); L_temp2 = maxWithSign_fx( BASOP_Util_Add_Mant32Exp( d, d_e, L_temp1, L_temp1_e, &L_temp2_e ) ); /* exp(L_temp2_e) */ - mu = BASOP_Util_Divide3232_Scale_cadence( x_split, L_temp2, &mu_e ); /* exp(mu_e + (x-plit_e - L_temp2_e)) */ + mu = BASOP_Util_Divide3232_Scale_newton( x_split, L_temp2, &mu_e ); /* exp(mu_e + (x-plit_e - L_temp2_e)) */ mu_e = add( mu_e, sub( x_split_e, L_temp2_e ) ); mu = BASOP_Util_Add_Mant32Exp( mu, mu_e, L_negate( r ), r_e, &mu_e ); /* exp(mu_e) */ @@ -759,7 +654,7 @@ static void ApplyQRTransform_fx( L_temp1 = BASOP_Util_Add_Mant32Exp( x_ii, x_ii_e, x_kk, x_kk_e, &L_temp1_e ); /* exp(L_temp1_e) */ L_temp2 = BASOP_Util_Add_Mant32Exp( x_ii, x_ii_e, L_negate( x_kk ), x_kk_e, &L_temp2_e ); /* exp(L_temp2_e) */ d = BASOP_Util_Add_Mant32Exp( Mpy_32_32( L_temp1, L_temp2 ), add( L_temp1_e, L_temp2_e ), Mpy_32_32( r, mu ), add( r_e, mu_e ), &d_e ); /* exp(d_e) */ - d = BASOP_Util_Divide3232_Scale_cadence( d, maxWithSign_fx( x_ii ), &temp_exp ); /* exp(temp_exp + (d_e - x_ii_e) */ + d = BASOP_Util_Divide3232_Scale_newton( d, maxWithSign_fx( x_ii ), &temp_exp ); /* exp(temp_exp + (d_e - x_ii_e) */ d_e = add( temp_exp, sub( d_e, x_ii_e ) ); /*QR transformation*/ @@ -770,47 +665,17 @@ static void ApplyQRTransform_fx( g = Mpy_32_32( c, secDiag[ch + 1] ); /* exp(c_e + secDiag_e) */ g_e = add( c_e, secDiag_e[ch + 1] ); -#ifdef FIX_1010_OPT_GIVENS_INV GivensRotation2_fx( d, d_e, r, r_e, &secDiag[ch], &temp, &secDiag_e[ch], &temp_e ); /* exp(secDiag_e) */ c = Mpy_32_32( d, temp ); c_e = add( temp_e, d_e ); -#else - secDiag[ch] = GivensRotation_fx( d, d_e, r, r_e, &secDiag_e[ch] ); /* exp(secDiag_e) */ - move32(); - c = BASOP_Util_Divide3232_Scale_cadence( d, maxWithSign_fx( secDiag[ch] ), &c_e ); /* exp(c_e + (d_e + secDiag_e)) */ - c_e = add( c_e, sub( d_e, secDiag_e[ch] ) ); -#endif -#ifndef FIX_1010_OPT_NORM_NOSAT - IF( c_e > 0 ) - { - c = L_shl_sat( c, c_e ); // Q31 - c_e = 0; - move16(); - } -#else temp_norm_e = norm_l( c ); c = L_shl( c, temp_norm_e ); c_e = sub( c_e, temp_norm_e ); -#endif -#ifdef FIX_1010_OPT_GIVENS_INV s = Mpy_32_32( r, temp ); s_e = add( r_e, temp_e ); -#else - s = BASOP_Util_Divide3232_Scale_cadence( r, maxWithSign_fx( secDiag[ch] ), &s_e ); /* exp(s_e + (r_e - sec_Diag_e))*/ - s_e = add( s_e, sub( r_e, secDiag_e[ch] ) ); -#endif -#ifndef FIX_1010_OPT_NORM_NOSAT - IF( s_e > 0 ) - { - s = L_shl_sat( s, s_e ); // Q31 - s_e = 0; - move16(); - } -#else temp_norm_e = norm_l( s ); s = L_shl( s, temp_norm_e ); s_e = sub( s_e, temp_norm_e ); -#endif r = Mpy_32_32( s, singularValues[ch + 1] ); /* exp(r_e + secDiag_e) */ r_e = add( s_e, singularValues_e[ch + 1] ); x_split = Mpy_32_32( c, singularValues[ch + 1] ); /* exp(c_e + secDiag_e) */ @@ -824,48 +689,21 @@ static void ApplyQRTransform_fx( // ApplyRotation(singularVectors_Right, c, s, x_ii, aux, &d, &g, ch + 1, ch, nChannelsC); ApplyRotation_fx( singularVectors_Right, c, c_e, s, s_e, x_ii, x_ii_e, aux, aux_e, &d, &d_e, &g, &g_e, ch + 1, ch, nChannelsC ); -#ifdef FIX_1010_OPT_GIVENS_INV GivensRotation2_fx( d, d_e, r, r_e, &singularValues[ch], &aux, &singularValues_e[ch], &aux_e ); /* exp(singularValues_e) */ -#else - singularValues[ch] = GivensRotation_fx( d, d_e, r, r_e, &singularValues_e[ch] ); /* exp(singularValues_e) */ - move32(); -#endif IF( singularValues[ch] != 0 ) { -#ifndef FIX_1010_OPT_GIVENS_INV - aux = BASOP_Util_Divide3232_Scale_cadence( ONE_IN_Q30, singularValues[ch], &aux_e ); /* exp(aux_e + (1 - singularValues_e)) */ - aux_e = add( aux_e, sub( 1, singularValues_e[ch] ) ); -#endif c = Mpy_32_32( d, aux ); /* exp(d_e + aux_e) */ c_e = add( d_e, aux_e ); -#ifndef FIX_1010_OPT_NORM_NOSAT - IF( c_e > 0 ) - { - c = L_shl_sat( c, c_e ); // Q31 - c_e = 0; - move16(); - } -#else temp_norm_e = norm_l( c ); c = L_shl( c, temp_norm_e ); c_e = sub( c_e, temp_norm_e ); -#endif s = Mpy_32_32( r, aux ); /* exp(r_e + aux_e) */ s_e = add( r_e, aux_e ); -#ifndef FIX_1010_OPT_NORM_NOSAT - IF( s_e > 0 ) - { - s = L_shl_sat( s, s_e ); // Q31 - s_e = 0; - move16(); - } -#else temp_norm_e = norm_l( s ); s = L_shl( s, temp_norm_e ); s_e = sub( s_e, temp_norm_e ); -#endif } // ApplyRotation(singularVectors_Left, c, s, g, x_split, &d, &x_ii, ch + 1, ch, nChannelsL); @@ -918,7 +756,6 @@ static void ApplyRotation_fx( *g = BASOP_Util_Add_Mant32Exp( Mpy_32_32( c, x12 ), add( c_e, x12_e ), Mpy_32_32( L_negate( s ), x11 ), add( s_e, x11_e ), g_e ); /* exp(g_e) */ move32(); -#ifdef SVD_WMOPS_OPT Word16 c_q = sub( 31, c_e ); Word16 s_q = sub( 31, s_e ); Word32 op1, op2; @@ -960,42 +797,6 @@ static void ApplyRotation_fx( singularVector[ch][currentIndex1] = W_sat_l( temp ); // Q(singularVector) move32(); } -#else -#ifndef FIX_MINOR_SVD_WMOPS_MR1010X - FOR( ch = 0; ch < nChannels; ch++ ) - { - x11 = singularVector[ch][currentIndex2]; - move32(); - x12 = singularVector[ch][currentIndex1]; - move32(); - singularVector[ch][currentIndex2] = BASOP_Util_Add_Mant32Exp( Mpy_32_32( c, x11 ), c_e, Mpy_32_32( s, x12 ), s_e, &temp_exp ); /* exp(temp_exp) */ - move32(); - singularVector[ch][currentIndex2] = L_shl_sat( singularVector[ch][currentIndex2], temp_exp ); /* exp(temp_exp) */ - move32(); - singularVector[ch][currentIndex1] = BASOP_Util_Add_Mant32Exp( Mpy_32_32( c, x12 ), c_e, Mpy_32_32( L_negate( s ), x11 ), s_e, &temp_exp ); /* exp(temp_exp) */ - move32(); - singularVector[ch][currentIndex1] = L_shl_sat( singularVector[ch][currentIndex1], temp_exp ); /* exp(temp_exp) */ - move32(); - } -#else - Word32 s_neg = L_negate( s ); - Word32 temp; - FOR( ch = 0; ch < nChannels; ch++ ) - { - x11 = singularVector[ch][currentIndex2]; - move32(); - x12 = singularVector[ch][currentIndex1]; - move32(); - temp = BASOP_Util_Add_Mant32Exp( Mpy_32_32( c, x11 ), c_e, Mpy_32_32( s, x12 ), s_e, &temp_exp ); /* exp(temp_exp) */ - singularVector[ch][currentIndex2] = L_shl_sat( temp, temp_exp ); /* exp(temp_exp) */ - move32(); - temp = BASOP_Util_Add_Mant32Exp( Mpy_32_32( c, x12 ), c_e, Mpy_32_32( s_neg, x11 ), s_e, &temp_exp ); /* exp(temp_exp) */ - singularVector[ch][currentIndex1] = L_shl_sat( temp, temp_exp ); /* exp(temp_exp) */ - move32(); - } - -#endif -#endif return; } @@ -1027,7 +828,6 @@ static void HouseholderReduction_fx( Word16 sig_x_fx_e = 0; move16(); -#ifdef FIX_1010_OPT_SINGLE_RESCALE Word16 iCh, jCh; Word16 singularVectors_Left_fx_e[MAX_OUTPUT_CHANNELS][MAX_OUTPUT_CHANNELS]; FOR( jCh = 0; jCh < nChannelsL; jCh++ ) @@ -1038,25 +838,15 @@ static void HouseholderReduction_fx( move16(); } } -#endif /* Bidiagonal Reduction for every channel */ FOR( nCh = 0; nCh < nChannelsC; nCh++ ) /* nChannelsC */ { -#ifndef FIX_1010_OPT_SINGLE_RESCALE - biDiagonalReductionLeft_fx( singularVectors_Left_fx, singularValues_fx, secDiag_fx, &singularVectors_Left_e, singularValues_fx_e, secDiag_fx_e, nChannelsL, nChannelsC, nCh, &sig_x_fx, &sig_x_fx_e, &g_fx ); - biDiagonalReductionRight_fx( singularVectors_Left_fx, secDiag_fx, &singularVectors_Left_e, secDiag_fx_e, nChannelsL, nChannelsC, nCh, &sig_x_fx, &sig_x_fx_e, &g_fx ); -#else biDiagonalReductionLeft_fx( singularVectors_Left_fx, singularValues_fx, secDiag_fx, singularVectors_Left_fx_e, singularValues_fx_e, secDiag_fx_e, nChannelsL, nChannelsC, nCh, &sig_x_fx, &sig_x_fx_e, &g_fx ); biDiagonalReductionRight_fx( singularVectors_Left_fx, secDiag_fx, singularVectors_Left_fx_e, secDiag_fx_e, nChannelsL, nChannelsC, nCh, &sig_x_fx, &sig_x_fx_e, &g_fx ); -#endif Word16 L_temp_e; -#ifndef FIX_1010_OPT_SEC_SINGLE_RESCALE - Word32 L_temp = BASOP_Util_Add_Mant32Exp( L_abs( singularValues_fx[nCh] ), singularValues_fx_e[nCh], L_abs( secDiag_fx[nCh] ), *secDiag_fx_e, &L_temp_e ); /* exp(L_temp_e) */ -#else Word32 L_temp = BASOP_Util_Add_Mant32Exp( L_abs( singularValues_fx[nCh] ), singularValues_fx_e[nCh], L_abs( secDiag_fx[nCh] ), secDiag_fx_e[nCh], &L_temp_e ); /* exp(L_temp_e) */ -#endif IF( EQ_16( BASOP_Util_Cmp_Mant32Exp( L_temp, L_temp_e, *eps_x_fx, *eps_x_fx_e ), 1 ) ) { *eps_x_fx = L_temp; /* exp(L_temp_e) */ @@ -1067,19 +857,10 @@ static void HouseholderReduction_fx( } /* SingularVecotr Accumulation */ -#ifndef FIX_1010_OPT_SINGLE_RESCALE - singularVectorsAccumulationRight_fx( singularVectors_Left_fx, singularVectors_Right_fx, secDiag_fx, singularVectors_Left_e, *secDiag_fx_e, nChannelsC ); - singularVectorsAccumulationLeft_fx( singularVectors_Left_fx, singularValues_fx, singularVectors_Left_e, singularValues_fx_e, nChannelsL, nChannelsC ); -#else -#ifndef FIX_1010_OPT_SEC_SINGLE_RESCALE - singularVectorsAccumulationRight_fx( singularVectors_Left_fx, singularVectors_Right_fx, secDiag_fx, singularVectors_Left_fx_e, *secDiag_fx_e, nChannelsC ); -#else singularVectorsAccumulationRight_fx( singularVectors_Left_fx, singularVectors_Right_fx, secDiag_fx, singularVectors_Left_fx_e, secDiag_fx_e, nChannelsC ); -#endif singularVectorsAccumulationLeft_fx( singularVectors_Left_fx, singularValues_fx, singularVectors_Left_fx_e, singularValues_fx_e, nChannelsL, nChannelsC ); -#endif return; } @@ -1094,11 +875,7 @@ static void biDiagonalReductionLeft_fx( Word32 singularVectors[][MAX_OUTPUT_CHANNELS], /* exp(singularVectors_e) */ Word32 singularValues[MAX_OUTPUT_CHANNELS], /* exp(singularValues_e) */ Word32 secDiag[MAX_OUTPUT_CHANNELS], /* exp(secDiag_e) */ -#ifndef FIX_1010_OPT_SINGLE_RESCALE - Word16 *singularVectors_e, -#else Word16 singularVectors2_e[][MAX_OUTPUT_CHANNELS], -#endif Word16 singularValues_e[MAX_OUTPUT_CHANNELS], Word16 *secDiag_e, const Word16 nChannelsL, /* Q0 */ @@ -1114,227 +891,110 @@ static void biDiagonalReductionLeft_fx( Word16 norm_x_e, f_e, r_e; Word32 L_temp; Word16 L_temp_e; -#ifndef FIX_1010_OPT_SINGLE_RESCALE - Word16 sing_exp[MAX_OUTPUT_CHANNELS]; - Word16 sing_exp2[MAX_OUTPUT_CHANNELS][MAX_OUTPUT_CHANNELS] = { 0 }; - FOR( jCh = 0; jCh < MAX_OUTPUT_CHANNELS; jCh++ ) - { - set16_fx( sing_exp2[jCh], *singularVectors_e, MAX_OUTPUT_CHANNELS ); - } -#endif secDiag[currChannel] = Mpy_32_32( *sig_x, *g ); /* exp(sig_x_e) */ move32(); -#ifndef FIX_1010_OPT_SEC_SINGLE_RESCALE - // rescaling block - IF( GT_16( *sig_x_e, *secDiag_e ) ) - { - FOR( Word16 i = 0; i < MAX_OUTPUT_CHANNELS; i++ ){ - IF( NE_16( i, currChannel ) ){ - secDiag[i] = L_shl( secDiag[i], sub( *secDiag_e, *sig_x_e ) ); /* sig_x_e */ - move32(); - } -} -*secDiag_e = *sig_x_e; -move16(); -} -ELSE IF( LT_16( *sig_x_e, *secDiag_e ) ) -{ - secDiag[currChannel] = L_shr_r( secDiag[currChannel], sub( *secDiag_e, *sig_x_e ) ); /* exp(secDiag_e) */ - move32(); -} -#else secDiag_e[currChannel] = *sig_x_e; move16(); -#endif - -/* Setting values to 0 */ -( *sig_x ) = 0; -move32(); -( *g ) = 0; -move32(); - -IF( LT_16( currChannel, nChannelsL ) ) /* i <= m */ -{ - idx = currChannel; - move16(); - FOR( jCh = idx; jCh < nChannelsL; jCh++ ) /* nChannelsL */ - { -#ifndef FIX_1010_OPT_SINGLE_RESCALE - ( *sig_x ) = BASOP_Util_Add_Mant32Exp( *sig_x, *sig_x_e, L_abs( singularVectors[jCh][currChannel] ), *singularVectors_e, sig_x_e ); /* exp(sig_x_e) */ -#else - ( *sig_x ) = BASOP_Util_Add_Mant32Exp( *sig_x, *sig_x_e, L_abs( singularVectors[jCh][currChannel] ), singularVectors2_e[jCh][currChannel], sig_x_e ); /* exp(sig_x_e) */ -#endif - } + /* Setting values to 0 */ + ( *sig_x ) = 0; + move32(); + ( *g ) = 0; + move32(); - IF( ( *sig_x ) ) /*(fabsf(*sig_x) > EPSILON * fabsf(*sig_x)) { */ + IF( LT_16( currChannel, nChannelsL ) ) /* i <= m */ { -#ifdef FIX_1010_OPT_DIV - Word16 invVal_e; - Word32 invVal; - invVal = BASOP_Util_Divide3232_Scale_cadence( MAXVAL_WORD32, maxWithSign_fx( *sig_x ), &invVal_e ); -#endif - norm_x = 0; - move32(); - norm_x_e = 0; + idx = currChannel; move16(); + FOR( jCh = idx; jCh < nChannelsL; jCh++ ) /* nChannelsL */ { -#ifndef FIX_1010_OPT_DIV -#ifndef FIX_1010_OPT_SINGLE_RESCALE - singularVectors[jCh][currChannel] = BASOP_Util_Divide3232_Scale_cadence( singularVectors[jCh][currChannel], maxWithSign_fx( *sig_x ), &sing_exp[jCh] ); /* exp(sing_exp + (singularVectors_e - sig_x_e) */ - move32(); - sing_exp[jCh] = add( sing_exp[jCh], sub( *singularVectors_e, *sig_x_e ) ); - move16(); - norm_x = BASOP_Util_Add_Mant32Exp( norm_x, norm_x_e, Mpy_32_32( singularVectors[jCh][currChannel], singularVectors[jCh][currChannel] ), shl( sing_exp[jCh], 1 ), &norm_x_e ); /* exp(norm_x_e) */ -#else - singularVectors[jCh][currChannel] = BASOP_Util_Divide3232_Scale_cadence( singularVectors[jCh][currChannel], maxWithSign_fx( *sig_x ), &L_temp_e ); /* exp(sing_exp + (singularVectors_e - sig_x_e) */ + ( *sig_x ) = BASOP_Util_Add_Mant32Exp( *sig_x, *sig_x_e, L_abs( singularVectors[jCh][currChannel] ), singularVectors2_e[jCh][currChannel], sig_x_e ); /* exp(sig_x_e) */ + } + + IF( ( *sig_x ) ) /*(fabsf(*sig_x) > EPSILON * fabsf(*sig_x)) { */ + { + Word16 invVal_e; + Word32 invVal; + invVal = BASOP_Util_Divide3232_Scale_newton( MAXVAL_WORD32, maxWithSign_fx( *sig_x ), &invVal_e ); + norm_x = 0; move32(); - singularVectors2_e[jCh][currChannel] = add( L_temp_e, sub( singularVectors2_e[jCh][currChannel], *sig_x_e ) ); + norm_x_e = 0; move16(); - norm_x = BASOP_Util_Add_Mant32Exp( norm_x, norm_x_e, Mpy_32_32( singularVectors[jCh][currChannel], singularVectors[jCh][currChannel] ), shl( singularVectors2_e[jCh][currChannel], 1 ), &norm_x_e ); /* exp(norm_x_e) */ -#endif -#else + FOR( jCh = idx; jCh < nChannelsL; jCh++ ) /* nChannelsL */ + { Word16 temp_e = norm_l( singularVectors[jCh][currChannel] ); singularVectors[jCh][currChannel] = Mpy_32_32( L_shl( singularVectors[jCh][currChannel], temp_e ), invVal ); /* exp(sing_exp + (singularVectors_e - sig_x_e) */ move32(); -#ifndef FIX_1010_OPT_SINGLE_RESCALE - sing_exp[jCh] = sub( add( invVal_e, sub( *singularVectors_e, *sig_x_e ) ), temp_e ); - move16(); - norm_x = BASOP_Util_Add_Mant32Exp( norm_x, norm_x_e, Mpy_32_32( singularVectors[jCh][currChannel], singularVectors[jCh][currChannel] ), shl( sing_exp[jCh], 1 ), &norm_x_e ); /* exp(norm_x_e) */ -#else singularVectors2_e[jCh][currChannel] = sub( add( invVal_e, sub( singularVectors2_e[jCh][currChannel], *sig_x_e ) ), temp_e ); move16(); norm_x = BASOP_Util_Add_Mant32Exp( norm_x, norm_x_e, Mpy_32_32( singularVectors[jCh][currChannel], singularVectors[jCh][currChannel] ), shl( singularVectors2_e[jCh][currChannel], 1 ), &norm_x_e ); /* exp(norm_x_e) */ -#endif -#endif - } - IF( GT_16( norm_x_e, 0 ) ) - { - norm_x = MAX_32; - move32(); - norm_x_e = 0; + } + IF( GT_16( norm_x_e, 0 ) ) + { + norm_x = MAX_32; + move32(); + norm_x_e = 0; + move16(); + } + L_temp_e = norm_x_e; move16(); - } - L_temp_e = norm_x_e; - move16(); - L_temp = Sqrt32( norm_x, &L_temp_e ); - L_temp = L_shl_r( L_temp, L_temp_e ); // Q31 - //( *g ) = L_negate( GE_32( singularVectors[currChannel][idx], 0 ) ? L_temp : L_negate( L_temp ) ); -#ifndef FIX_MINOR_SVD_WMOPS_MR1010X - IF( singularVectors[currChannel][idx] >= 0 ) - { - ( *g ) = L_negate( L_temp ); - move32(); - } - ELSE - { - ( *g ) = L_negate( L_negate( L_temp ) ); - move32(); - } -#else + L_temp = Sqrt32( norm_x, &L_temp_e ); + L_temp = L_shl_r( L_temp, L_temp_e ); // Q31 + //( *g ) = L_negate( GE_32( singularVectors[currChannel][idx], 0 ) ? L_temp : L_negate( L_temp ) ); if ( singularVectors[currChannel][idx] >= 0 ) { L_temp = L_negate( L_temp ); } ( *g ) = L_temp; move32(); -#endif - -#ifndef FIX_1010_OPT_SINGLE_RESCALE - r = BASOP_Util_Add_Mant32Exp( Mpy_32_32( ( *g ), singularVectors[currChannel][idx] ), sing_exp[currChannel], -norm_x, norm_x_e, &r_e ); /* exp(r_e) */ - singularVectors[currChannel][idx] = BASOP_Util_Add_Mant32Exp( singularVectors[currChannel][idx], sing_exp[currChannel], -( *g ), 0, &sing_exp[currChannel] ); /* sing_exp */ -#else - r = BASOP_Util_Add_Mant32Exp( Mpy_32_32( ( *g ), singularVectors[currChannel][idx] ), singularVectors2_e[currChannel][idx], -norm_x, norm_x_e, &r_e ); /* exp(r_e) */ - singularVectors[currChannel][idx] = BASOP_Util_Add_Mant32Exp( singularVectors[currChannel][idx], singularVectors2_e[currChannel][idx], -( *g ), 0, &singularVectors2_e[currChannel][idx] ); /* sing_exp */ -#endif - move32(); - -#ifdef FIX_1010_OPT_DIV - invVal = BASOP_Util_Divide3232_Scale_cadence( MAXVAL_WORD32, maxWithSign_fx( r ), &invVal_e ); -#endif - FOR( iCh = currChannel + 1; iCh < nChannelsC; iCh++ ) /* nChannelsC */ - { - norm_x = 0; + r = BASOP_Util_Add_Mant32Exp( Mpy_32_32( ( *g ), singularVectors[currChannel][idx] ), singularVectors2_e[currChannel][idx], -norm_x, norm_x_e, &r_e ); /* exp(r_e) */ + singularVectors[currChannel][idx] = BASOP_Util_Add_Mant32Exp( singularVectors[currChannel][idx], singularVectors2_e[currChannel][idx], -( *g ), 0, &singularVectors2_e[currChannel][idx] ); /* sing_exp */ move32(); - norm_x_e = 0; - move16(); - FOR( jCh = idx; jCh < nChannelsL; jCh++ ) /* nChannelsL */ + + invVal = BASOP_Util_Divide3232_Scale_newton( MAXVAL_WORD32, maxWithSign_fx( r ), &invVal_e ); + + FOR( iCh = currChannel + 1; iCh < nChannelsC; iCh++ ) /* nChannelsC */ { -#ifndef FIX_1010_OPT_SINGLE_RESCALE - norm_x = BASOP_Util_Add_Mant32Exp( norm_x, norm_x_e, Mpy_32_32( singularVectors[jCh][currChannel], singularVectors[jCh][iCh] ), add( sing_exp[jCh], *singularVectors_e ), &norm_x_e ); /* exp(norm_x_e) */ -#else + norm_x = 0; + move32(); + norm_x_e = 0; + move16(); + FOR( jCh = idx; jCh < nChannelsL; jCh++ ) /* nChannelsL */ + { norm_x = BASOP_Util_Add_Mant32Exp( norm_x, norm_x_e, Mpy_32_32( singularVectors[jCh][currChannel], singularVectors[jCh][iCh] ), add( singularVectors2_e[jCh][currChannel], singularVectors2_e[jCh][iCh] ), &norm_x_e ); /* exp(norm_x_e) */ -#endif - } + } -#ifndef FIX_1010_OPT_DIV - f = BASOP_Util_Divide3232_Scale_cadence( norm_x, maxWithSign_fx( r ), &f_e ); /* f_e + (norm_x_e - r_e) */ - f_e = add( f_e, sub( norm_x_e, r_e ) ); -#else - f = Mpy_32_32( norm_x, invVal ); /* invVal_e + (norm_x_e - r_e) */ + f = Mpy_32_32( norm_x, invVal ); /* invVal_e + (norm_x_e - r_e) */ f_e = add( invVal_e, sub( norm_x_e, r_e ) ); -#endif - FOR( jCh = idx; jCh < nChannelsL; jCh++ ) /* nChannelsL */ - { -#ifndef FIX_1010_OPT_SINGLE_RESCALE - singularVectors[jCh][iCh] = BASOP_Util_Add_Mant32Exp( singularVectors[jCh][iCh], *singularVectors_e, Mpy_32_32( f, singularVectors[jCh][currChannel] ), add( f_e, sing_exp[jCh] ), &sing_exp2[jCh][iCh] ); /* exp( sing_exp2) */ -#else + FOR( jCh = idx; jCh < nChannelsL; jCh++ ) /* nChannelsL */ + { singularVectors[jCh][iCh] = BASOP_Util_Add_Mant32Exp( singularVectors[jCh][iCh], singularVectors2_e[jCh][iCh], Mpy_32_32( f, singularVectors[jCh][currChannel] ), add( f_e, singularVectors2_e[jCh][currChannel] ), &singularVectors2_e[jCh][iCh] ); -#endif - move32(); + move32(); + } } - } - FOR( jCh = idx; jCh < nChannelsL; jCh++ ) /* nChannelsL */ - { - singularVectors[jCh][currChannel] = Mpy_32_32( singularVectors[jCh][currChannel], ( *sig_x ) ); /* sing_exp + sig_x_e */ - move32(); -#ifndef FIX_1010_OPT_SINGLE_RESCALE - sing_exp2[jCh][currChannel] = add( sing_exp[jCh], *sig_x_e ); -#else - singularVectors2_e[jCh][currChannel] = add( singularVectors2_e[jCh][currChannel], *sig_x_e ); -#endif - move16(); - } - -#ifndef FIX_1010_OPT_SINGLE_RESCALE - // rescaling block - Word16 exp_max = *singularVectors_e; - move16(); - FOR( iCh = 0; iCh < nChannelsC; iCh++ ) - { - FOR( jCh = 0; jCh < nChannelsL; jCh++ ) - { - exp_max = s_max( exp_max, sing_exp2[jCh][iCh] ); - } - } - - FOR( iCh = 0; iCh < nChannelsC; iCh++ ) - { - FOR( jCh = 0; jCh < nChannelsL; jCh++ ) + FOR( jCh = idx; jCh < nChannelsL; jCh++ ) /* nChannelsL */ { - singularVectors[jCh][iCh] = L_shr_r( singularVectors[jCh][iCh], sub( exp_max, sing_exp2[jCh][iCh] ) ); /* exp(exp_max) */ + singularVectors[jCh][currChannel] = Mpy_32_32( singularVectors[jCh][currChannel], ( *sig_x ) ); /* sing_exp + sig_x_e */ move32(); + singularVectors2_e[jCh][currChannel] = add( singularVectors2_e[jCh][currChannel], *sig_x_e ); + move16(); } } - *singularVectors_e = exp_max; + + // rescaling block + singularValues[currChannel] = Mpy_32_32( ( *sig_x ), ( *g ) ); /* sig_x_e */ + move32(); + singularValues_e[currChannel] = *sig_x_e; move16(); -#endif } - // rescaling block - singularValues[currChannel] = Mpy_32_32( ( *sig_x ), ( *g ) ); /* sig_x_e */ - move32(); - singularValues_e[currChannel] = *sig_x_e; - move16(); -} - -return; + return; } /*------------------------------------------------------------------------- @@ -1346,16 +1006,8 @@ return; static void biDiagonalReductionRight_fx( Word32 singularVectors[][MAX_OUTPUT_CHANNELS], /* exp(singularVectors_e) */ Word32 secDiag[MAX_OUTPUT_CHANNELS], /* exp(secDiag_exp[]) */ -#ifndef FIX_1010_OPT_SINGLE_RESCALE - Word16 *singularVectors_e, -#else Word16 singularVectors2_e[][MAX_OUTPUT_CHANNELS], -#endif -#ifndef FIX_1010_OPT_SEC_SINGLE_RESCALE - Word16 *secDiag_e, -#else Word16 *secDiag_exp, -#endif const Word16 nChannelsL, /* Q0 */ const Word16 nChannelsC, /* Q0 */ const Word16 currChannel, /* Q0 */ @@ -1367,22 +1019,8 @@ static void biDiagonalReductionRight_fx( Word16 iCh, jCh, idx; Word32 norm_x, r; Word16 norm_x_e, r_e; -#ifndef FIX_1010_OPT_SEC_SINGLE_RESCALE - Word16 secDiag_exp[MAX_OUTPUT_CHANNELS]; -#endif Word32 L_temp; Word16 L_temp_e; -#ifndef FIX_1010_OPT_SINGLE_RESCALE - Word16 sing_exp[MAX_OUTPUT_CHANNELS]; - Word16 sing_exp2[MAX_OUTPUT_CHANNELS][MAX_OUTPUT_CHANNELS] = { 0 }; - FOR( jCh = 0; jCh < MAX_OUTPUT_CHANNELS; jCh++ ) - { - set16_fx( sing_exp2[jCh], *singularVectors_e, MAX_OUTPUT_CHANNELS ); - } -#endif -#ifndef FIX_1010_OPT_SEC_SINGLE_RESCALE - set16_fx( secDiag_exp, *secDiag_e, MAX_OUTPUT_CHANNELS ); -#endif /* Setting values to 0 */ ( *sig_x ) = 0; @@ -1396,11 +1034,7 @@ static void biDiagonalReductionRight_fx( FOR( jCh = idx; jCh < nChannelsC; jCh++ ) /* nChannelsC */ { -#ifndef FIX_1010_OPT_SINGLE_RESCALE - ( *sig_x ) = BASOP_Util_Add_Mant32Exp( *sig_x, *sig_x_e, L_abs( singularVectors[currChannel][jCh] ), *singularVectors_e, sig_x_e ); /* exp(sig_x_e) */ -#else ( *sig_x ) = BASOP_Util_Add_Mant32Exp( *sig_x, *sig_x_e, L_abs( singularVectors[currChannel][jCh] ), singularVectors2_e[currChannel][jCh], sig_x_e ); /* exp(sig_x_e) */ -#endif } IF( ( *sig_x ) ) /*(fabsf(*sig_x) > EPSILON * fabsf(*sig_x)) { */ @@ -1410,41 +1044,17 @@ static void biDiagonalReductionRight_fx( norm_x_e = 0; move16(); -#ifdef FIX_1010_OPT_DIV Word16 invVal_e, temp_e; Word32 invVal; - invVal = BASOP_Util_Divide3232_Scale_cadence( MAXVAL_WORD32, maxWithSign_fx( *sig_x ), &invVal_e ); -#endif + invVal = BASOP_Util_Divide3232_Scale_newton( MAXVAL_WORD32, maxWithSign_fx( *sig_x ), &invVal_e ); FOR( jCh = idx; jCh < nChannelsC; jCh++ ) /*nChannelsC */ { -#ifndef FIX_1010_OPT_DIV -#ifndef FIX_1010_OPT_SINGLE_RESCALE - singularVectors[currChannel][jCh] = BASOP_Util_Divide3232_Scale_cadence( singularVectors[currChannel][jCh], maxWithSign_fx( *sig_x ), &sing_exp[jCh] ); /* exp(sing_exp + (singularVectors_e - sig_x_e)) */ - move32(); - sing_exp[jCh] = add( sing_exp[jCh], sub( *singularVectors_e, *sig_x_e ) ); - move16(); - norm_x = BASOP_Util_Add_Mant32Exp( norm_x, norm_x_e, Mpy_32_32( singularVectors[currChannel][jCh], singularVectors[currChannel][jCh] ), shl( sing_exp[jCh], 1 ), &norm_x_e ); /* exp(norm_x_e) */ -#else - singularVectors[currChannel][jCh] = BASOP_Util_Divide3232_Scale_cadence( singularVectors[currChannel][jCh], maxWithSign_fx( *sig_x ), &L_temp_e ); /* exp(sing_exp + (singularVectors_e - sig_x_e)) */ - move32(); - singularVectors2_e[currChannel][jCh] = add( L_temp_e, sub( singularVectors2_e[currChannel][jCh], *sig_x_e ) ); - move16(); - norm_x = BASOP_Util_Add_Mant32Exp( norm_x, norm_x_e, Mpy_32_32( singularVectors[currChannel][jCh], singularVectors[currChannel][jCh] ), shl( singularVectors2_e[currChannel][jCh], 1 ), &norm_x_e ); /* exp(norm_x_e) */ -#endif -#else temp_e = norm_l( singularVectors[currChannel][jCh] ); singularVectors[currChannel][jCh] = Mpy_32_32( L_shl( singularVectors[currChannel][jCh], temp_e ), invVal ); /* exp(sing_exp + (singularVectors_e - sig_x_e) */ move32(); -#ifndef FIX_1010_OPT_SINGLE_RESCALE - sing_exp[jCh] = add( sub( invVal_e, temp_e ), sub( *singularVectors_e, *sig_x_e ) ); - move16(); - norm_x = BASOP_Util_Add_Mant32Exp( norm_x, norm_x_e, Mpy_32_32( singularVectors[currChannel][jCh], singularVectors[currChannel][jCh] ), shl( sing_exp[jCh], 1 ), &norm_x_e ); /* exp(norm_x_e) */ -#else singularVectors2_e[currChannel][jCh] = add( sub( invVal_e, temp_e ), sub( singularVectors2_e[currChannel][jCh], *sig_x_e ) ); move16(); norm_x = BASOP_Util_Add_Mant32Exp( norm_x, norm_x_e, Mpy_32_32( singularVectors[currChannel][jCh], singularVectors[currChannel][jCh] ), shl( singularVectors2_e[currChannel][jCh], 1 ), &norm_x_e ); /* exp(norm_x_e) */ -#endif -#endif } IF( GT_16( norm_x_e, 0 ) ) { @@ -1468,44 +1078,19 @@ static void biDiagonalReductionRight_fx( move32(); } -#ifndef FIX_1010_OPT_SINGLE_RESCALE - r = BASOP_Util_Add_Mant32Exp( Mpy_32_32( ( *g ), singularVectors[currChannel][idx] ), sing_exp[idx], -norm_x, norm_x_e, &r_e ); /* exp(r_e) */ - singularVectors[currChannel][idx] = BASOP_Util_Add_Mant32Exp( singularVectors[currChannel][idx], sing_exp[idx], -( *g ), 0, &sing_exp[idx] ); /* exp(sing_exp) */ -#else r = BASOP_Util_Add_Mant32Exp( Mpy_32_32( ( *g ), singularVectors[currChannel][idx] ), singularVectors2_e[currChannel][idx], -norm_x, norm_x_e, &r_e ); /* exp(r_e) */ singularVectors[currChannel][idx] = BASOP_Util_Add_Mant32Exp( singularVectors[currChannel][idx], singularVectors2_e[currChannel][idx], -( *g ), 0, &singularVectors2_e[currChannel][idx] ); /* exp(sing_exp) */ -#endif move32(); -#ifdef FIX_1010_OPT_DIV - invVal = BASOP_Util_Divide3232_Scale_cadence( MAXVAL_WORD32, maxWithSign_fx( r ), &invVal_e ); -#endif + invVal = BASOP_Util_Divide3232_Scale_newton( MAXVAL_WORD32, maxWithSign_fx( r ), &invVal_e ); FOR( jCh = idx; jCh < nChannelsC; jCh++ ) /* nChannelsC */ { -#ifndef FIX_1010_OPT_DIV -#ifndef FIX_1010_OPT_SINGLE_RESCALE - secDiag[jCh] = BASOP_Util_Divide3232_Scale_cadence( singularVectors[currChannel][jCh], maxWithSign_fx( r ), &secDiag_exp[jCh] ); /* exp(secDiag_exp + (sing_exp - r_e) */ - move32(); - secDiag_exp[jCh] = add( secDiag_exp[jCh], sub( sing_exp[jCh], r_e ) ); - move32(); -#else - secDiag[jCh] = BASOP_Util_Divide3232_Scale_cadence( singularVectors[currChannel][jCh], maxWithSign_fx( r ), &secDiag_exp[jCh] ); /* exp(secDiag_exp + (sing_exp - r_e) */ - move32(); - secDiag_exp[jCh] = add( secDiag_exp[jCh], sub( singularVectors2_e[currChannel][jCh], r_e ) ); - move32(); -#endif -#else temp_e = norm_l( singularVectors[currChannel][jCh] ); secDiag[jCh] = Mpy_32_32( L_shl( singularVectors[currChannel][jCh], temp_e ), invVal ); /* exp(sing_exp + (singularVectors_e - sig_x_e) */ move32(); -#ifndef FIX_1010_OPT_SINGLE_RESCALE - secDiag_exp[jCh] = add( sub( invVal_e, temp_e ), sub( sing_exp[jCh], r_e ) ); -#else secDiag_exp[jCh] = add( sub( invVal_e, temp_e ), sub( singularVectors2_e[currChannel][jCh], r_e ) ); -#endif move16(); -#endif } FOR( iCh = currChannel + 1; iCh < nChannelsL; iCh++ ) /* nChannelsL */ @@ -1516,20 +1101,12 @@ static void biDiagonalReductionRight_fx( move16(); FOR( jCh = idx; jCh < nChannelsC; jCh++ ) /* nChannelsC */ { -#ifndef FIX_1010_OPT_SINGLE_RESCALE - norm_x = BASOP_Util_Add_Mant32Exp( norm_x, norm_x_e, Mpy_32_32( singularVectors[iCh][jCh], singularVectors[currChannel][jCh] ), add( *singularVectors_e, sing_exp[jCh] ), &norm_x_e ); /* exp(norm_x_e) */ -#else norm_x = BASOP_Util_Add_Mant32Exp( norm_x, norm_x_e, Mpy_32_32( singularVectors[iCh][jCh], singularVectors[currChannel][jCh] ), add( singularVectors2_e[iCh][jCh], singularVectors2_e[currChannel][jCh] ), &norm_x_e ); /* exp(norm_x_e) */ -#endif } FOR( jCh = idx; jCh < nChannelsC; jCh++ ) /* nChannelsC */ { -#ifndef FIX_1010_OPT_SINGLE_RESCALE - singularVectors[iCh][jCh] = BASOP_Util_Add_Mant32Exp( singularVectors[iCh][jCh], *singularVectors_e, Mpy_32_32( norm_x, secDiag[jCh] ), add( norm_x_e, secDiag_exp[jCh] ), &sing_exp2[iCh][jCh] ); /* exp(sing_exp2) */ -#else - singularVectors[iCh][jCh] = BASOP_Util_Add_Mant32Exp( singularVectors[iCh][jCh], singularVectors2_e[iCh][jCh], Mpy_32_32( norm_x, secDiag[jCh] ), add( norm_x_e, secDiag_exp[jCh] ), &singularVectors2_e[iCh][jCh] ); /* exp(sing_exp2) */ -#endif + singularVectors[iCh][jCh] = BASOP_Util_Add_Mant32Exp( singularVectors[iCh][jCh], singularVectors2_e[iCh][jCh], Mpy_32_32( norm_x, secDiag[jCh] ), add( norm_x_e, secDiag_exp[jCh] ), &singularVectors2_e[iCh][jCh] ); /* exp(sing_exp2) */ move32(); } } @@ -1538,54 +1115,9 @@ static void biDiagonalReductionRight_fx( { singularVectors[currChannel][jCh] = Mpy_32_32( singularVectors[currChannel][jCh], ( *sig_x ) ); /* exp(sing_exp + sig_x_e) */ move32(); -#ifndef FIX_1010_OPT_SINGLE_RESCALE - sing_exp2[currChannel][jCh] = add( sing_exp[jCh], *sig_x_e ); -#else singularVectors2_e[currChannel][jCh] = add( singularVectors2_e[currChannel][jCh], *sig_x_e ); -#endif move16(); } - -#ifndef FIX_1010_OPT_SEC_SINGLE_RESCALE - /*rescaling block*/ - Word16 exp_max = *secDiag_e; - move16(); - FOR( jCh = 0; jCh < nChannelsC; jCh++ ) - { - exp_max = s_max( exp_max, secDiag_exp[jCh] ); - } - FOR( jCh = 0; jCh < nChannelsC; jCh++ ) - { - secDiag[jCh] = L_shr_r( secDiag[jCh], sub( exp_max, secDiag_exp[jCh] ) ); /* exp(exp_max) */ - move32(); - } - *secDiag_e = exp_max; - move16(); -#endif - - -#ifndef FIX_1010_OPT_SINGLE_RESCALE - exp_max = *singularVectors_e; - move16(); - FOR( iCh = 0; iCh < nChannelsL; iCh++ ) - { - FOR( jCh = 0; jCh < nChannelsC; jCh++ ) - { - exp_max = s_max( exp_max, sing_exp2[iCh][jCh] ); - } - } - - FOR( iCh = 0; iCh < nChannelsL; iCh++ ) - { - FOR( jCh = 0; jCh < nChannelsC; jCh++ ) - { - singularVectors[iCh][jCh] = L_shr_r( singularVectors[iCh][jCh], sub( exp_max, sing_exp2[iCh][jCh] ) ); /* exp(exp_max) */ - move32(); - } - } - *singularVectors_e = exp_max; - move16(); -#endif } } @@ -1601,11 +1133,7 @@ static void biDiagonalReductionRight_fx( static void singularVectorsAccumulationLeft_fx( Word32 singularVectors_Left[][MAX_OUTPUT_CHANNELS], /* input exp(singularVectors_Left_e), output Q31 */ Word32 singularValues[MAX_OUTPUT_CHANNELS], /* exp(singularValues_e) */ -#ifndef FIX_1010_OPT_SINGLE_RESCALE - Word16 singularVectors_e, -#else Word16 singularVectors_Left_e[][MAX_OUTPUT_CHANNELS], -#endif Word16 singularValues_e[MAX_OUTPUT_CHANNELS], const Word16 nChannelsL, /* Q0 */ const Word16 nChannelsC /* Q0 */ @@ -1615,13 +1143,6 @@ static void singularVectorsAccumulationLeft_fx( Word16 nChannels; Word32 norm_y, t_jj, t_ii; Word16 norm_y_e, t_jj_e, t_ii_e, temp_exp; -#ifndef FIX_1010_OPT_SINGLE_RESCALE - Word16 sing_exp2[MAX_OUTPUT_CHANNELS][MAX_OUTPUT_CHANNELS] = { 0 }; - FOR( nCh = 0; nCh < MAX_OUTPUT_CHANNELS; nCh++ ) - { - set16_fx( sing_exp2[nCh], singularVectors_e, MAX_OUTPUT_CHANNELS ); - } -#endif /* Processing */ nChannels = s_min( nChannelsL, nChannelsC ); /* min(nChannelsL,ChannelsC) Q0*/ @@ -1641,15 +1162,10 @@ static void singularVectorsAccumulationLeft_fx( IF( t_ii ) /*if (fabsf(t_ii) > EPSILON *fabsf(t_ii)) {*/ { -#ifdef FIX_1010_OPT_DIV - t_ii = BASOP_Util_Divide3232_Scale_cadence( MAXVAL_WORD32, maxWithSign_fx( t_ii ), &temp_exp ); + t_ii = BASOP_Util_Divide3232_Scale_newton( MAXVAL_WORD32, maxWithSign_fx( t_ii ), &temp_exp ); t_ii_e = sub( temp_exp, t_ii_e ); -#else - t_ii = BASOP_Util_Divide3232_Scale_cadence( ONE_IN_Q30, maxWithSign_fx( t_ii ), &temp_exp ); /* exp(1 + (temp_exp + tii_e)) */ - t_ii_e = add( 1, sub( temp_exp, t_ii_e ) ); -#endif Word16 tempe; - Word32 temp = BASOP_Util_Divide3232_Scale_cadence( t_ii, maxWithSign_fx( singularVectors_Left[nCh][nCh] ), &tempe ); + Word32 temp = BASOP_Util_Divide3232_Scale_newton( t_ii, maxWithSign_fx( singularVectors_Left[nCh][nCh] ), &tempe ); tempe = add( tempe, sub( t_ii_e, singularVectors_Left_e[nCh][nCh] ) ); // fprintf( fp, "%e\n", me2f( t_ii, t_ii_e ) ); FOR( iCh = nCh + 1; iCh < nChannelsC; iCh++ ) /* nChannelsC */ @@ -1662,13 +1178,9 @@ static void singularVectorsAccumulationLeft_fx( move16(); FOR( k = nCh + 1; k < nChannelsL; k++ ) /* nChannelsL */ { -#ifndef FIX_1010_OPT_SINGLE_RESCALE - norm_y = BASOP_Util_Add_Mant32Exp( norm_y, norm_y_e, Mpy_32_32( singularVectors_Left[k][nCh], singularVectors_Left[k][iCh] ), add( sing_exp2[k][nCh], sing_exp2[k][iCh] ), &norm_y_e ); /* exp(norm_y_e) */ -#else prod[k] = W_mult0_32_32( singularVectors_Left[k][nCh], singularVectors_Left[k][iCh] ); prod_e[k] = add( singularVectors_Left_e[k][nCh], singularVectors_Left_e[k][iCh] ); max_e = s_max( max_e, prod_e[k] ); -#endif } FOR( k = nCh + 1; k < nChannelsL; k++ ) /* nChannelsL */ @@ -1681,18 +1193,10 @@ static void singularVectorsAccumulationLeft_fx( norm_y = W_extract_h( acc ); norm_y_e = add( sub( max_e, acc_e ), 1 ); t_jj = Mpy_32_32( temp, norm_y ); -#ifndef FIX_1010_OPT_SINGLE_RESCALE - t_jj_e = add( temp_exp, sub( add( t_ii_e, norm_y_e ), sing_exp2[nCh][nCh] ) ); -#else t_jj_e = add( tempe, norm_y_e ); -#endif FOR( k = nCh; k < nChannelsL; k++ ) /* nChannelsL */ { -#ifndef FIX_1010_OPT_SINGLE_RESCALE - singularVectors_Left[k][iCh] = BASOP_Util_Add_Mant32Exp( singularVectors_Left[k][iCh], sing_exp2[k][iCh], Mpy_32_32( t_jj, singularVectors_Left[k][nCh] ), add( t_jj_e, sing_exp2[k][nCh] ), &sing_exp2[k][iCh] ); /* exp(sing_exp2) */ -#else singularVectors_Left[k][iCh] = BASOP_Util_Add_Mant32Exp( singularVectors_Left[k][iCh], singularVectors_Left_e[k][iCh], Mpy_32_32( t_jj, singularVectors_Left[k][nCh] ), add( t_jj_e, singularVectors_Left_e[k][nCh] ), &singularVectors_Left_e[k][iCh] ); /* exp(sing_exp2) */ -#endif move32(); } } @@ -1701,11 +1205,7 @@ static void singularVectorsAccumulationLeft_fx( { singularVectors_Left[iCh][nCh] = Mpy_32_32( singularVectors_Left[iCh][nCh], t_ii ); /* exp(sing_exp2 + t_ii_e) */ move32(); -#ifndef FIX_1010_OPT_SINGLE_RESCALE - sing_exp2[iCh][nCh] = add( sing_exp2[iCh][nCh], t_ii_e ); -#else singularVectors_Left_e[iCh][nCh] = add( singularVectors_Left_e[iCh][nCh], t_ii_e ); -#endif move16(); } } @@ -1717,11 +1217,7 @@ static void singularVectorsAccumulationLeft_fx( move32(); } } -#ifndef FIX_1010_OPT_SINGLE_RESCALE - singularVectors_Left[nCh][nCh] = BASOP_Util_Add_Mant32Exp( singularVectors_Left[nCh][nCh], sing_exp2[nCh][nCh], ONE_IN_Q30, 1, &sing_exp2[nCh][nCh] ); /* exp(sing_exp2) */ -#else singularVectors_Left[nCh][nCh] = BASOP_Util_Add_Mant32Exp( singularVectors_Left[nCh][nCh], singularVectors_Left_e[nCh][nCh], ONE_IN_Q30, 1, &singularVectors_Left_e[nCh][nCh] ); /* exp(sing_exp2) */ -#endif move32(); } // fclose(fp); @@ -1729,11 +1225,7 @@ static void singularVectorsAccumulationLeft_fx( { FOR( iCh = 0; iCh < nChannelsC; iCh++ ) { -#ifndef FIX_1010_OPT_SINGLE_RESCALE - singularVectors_Left[nCh][iCh] = L_shl_sat( singularVectors_Left[nCh][iCh], sing_exp2[nCh][iCh] ); /* Q31 */ -#else - singularVectors_Left[nCh][iCh] = L_shl_sat( singularVectors_Left[nCh][iCh], singularVectors_Left_e[nCh][iCh] ); /* Q31 */ -#endif + singularVectors_Left[nCh][iCh] = L_shl_sat( singularVectors_Left[nCh][iCh], singularVectors_Left_e[nCh][iCh] ); /* Q31 */ move32(); } } @@ -1751,16 +1243,8 @@ static void singularVectorsAccumulationRight_fx( Word32 singularVectors_Left[][MAX_OUTPUT_CHANNELS], /* exp(singularVectors_Left_e) */ Word32 singularVectors_Right[][MAX_OUTPUT_CHANNELS], /* input exp(singularVectors_Left_e), output Q31 */ Word32 secDiag[MAX_OUTPUT_CHANNELS], /* exp(secDiag_e) */ -#ifndef FIX_1010_OPT_SINGLE_RESCALE - Word16 singularVectors_e, -#else Word16 singularVectors_Left_e[][MAX_OUTPUT_CHANNELS], -#endif -#ifndef FIX_1010_OPT_SEC_SINGLE_RESCALE - Word16 secDiag_e, -#else Word16 *secDiag_e, -#endif const Word16 nChannelsC /* Q0 */ ) { @@ -1786,22 +1270,11 @@ static void singularVectorsAccumulationRight_fx( FOR( iCh = nCh + 1; iCh < nChannelsC; iCh++ ) /* nChannelsC*/ { -#ifdef FIX_1010_OPT_DIV ratio_float = L_deposit_h( BASOP_Util_Divide3232_Scale( singularVectors_Left[nCh][iCh], maxWithSign_fx( singularVectors_Left[nCh][nCh + 1] ), &temp_exp1 ) ); /* exp(temp_exp1) */ singularVectors_Right[iCh][nCh] = L_deposit_h( BASOP_Util_Divide3232_Scale( ratio_float, maxWithSign_fx( t_ii ), &sing_right_exp[iCh][nCh] ) ); /* exp(sing_right_exp + (temp_exp1 - secDiag_e) */ -#else - ratio_float = BASOP_Util_Divide3232_Scale_cadence( singularVectors_Left[nCh][iCh], maxWithSign_fx( singularVectors_Left[nCh][nCh + 1] ), &temp_exp1 ); /* exp(temp_exp1) */ - singularVectors_Right[iCh][nCh] = BASOP_Util_Divide3232_Scale_cadence( ratio_float, maxWithSign_fx( t_ii ), &sing_right_exp[iCh][nCh] ); /* exp(sing_right_exp + (temp_exp1 - secDiag_e) */ -#endif -#ifdef FIX_1010_OPT_SINGLE_RESCALE temp_exp1 = add( temp_exp1, sub( singularVectors_Left_e[nCh][iCh], singularVectors_Left_e[nCh][nCh + 1] ) ); -#endif move32(); -#ifndef FIX_1010_OPT_SEC_SINGLE_RESCALE - sing_right_exp[iCh][nCh] = add( sing_right_exp[iCh][nCh], sub( temp_exp1, secDiag_e ) ); -#else sing_right_exp[iCh][nCh] = add( sing_right_exp[iCh][nCh], sub( temp_exp1, secDiag_e[nCh + 1] ) ); -#endif move16(); // singularVectors_Right[iCh][nCh] = L_shl_sat( singularVectors_Right[iCh][nCh], temp_exp2 ); } @@ -1815,11 +1288,7 @@ static void singularVectorsAccumulationRight_fx( FOR( k = nCh + 1; k < nChannelsC; k++ ) /* nChannelsC */ { -#ifndef FIX_1010_OPT_SINGLE_RESCALE - norm_y = BASOP_Util_Add_Mant32Exp( norm_y, norm_y_e, Mpy_32_32( singularVectors_Left[nCh][k], singularVectors_Right[k][iCh] ), add( singularVectors_e, sing_right_exp[k][iCh] ), &norm_y_e ); /* exp(norm_y_e) */ -#else norm_y = BASOP_Util_Add_Mant32Exp( norm_y, norm_y_e, Mpy_32_32( singularVectors_Left[nCh][k], singularVectors_Right[k][iCh] ), add( singularVectors_Left_e[nCh][k], sing_right_exp[k][iCh] ), &norm_y_e ); /* exp(norm_y_e) */ -#endif } FOR( k = nCh + 1; k < nChannelsC; k++ ) /* nChannelsC */ @@ -1856,7 +1325,6 @@ static void singularVectorsAccumulationRight_fx( *-------------------------------------------------------------------------*/ -#ifdef FIX_1010_OPT_GIVENS_INV static void GivensRotation2_fx( const Word32 x, /* exp(x_e) */ const Word16 x_e, @@ -1878,7 +1346,6 @@ static void GivensRotation2_fx( *resultInv = ISqrt32( r, outInv_e ); move32(); } -#endif static Word32 GivensRotation_fx( const Word32 x, /* exp(x_e) */ @@ -1887,62 +1354,10 @@ static Word32 GivensRotation_fx( const Word16 z_e, Word16 *out_e ) { -#ifdef FIX_1010_OPT_GIVENS Word32 r; -#else - Word32 x_abs, z_abs; - Word32 cotan, tan, r; - Word16 temp_exp; - Word32 L_temp; -#endif -#ifdef FIX_1010_OPT_GIVENS r = BASOP_Util_Add_Mant32Exp( Mpy_32_32( z, z ), shl( z_e, 1 ), Mpy_32_32( x, x ), shl( x_e, 1 ), out_e ); r = Sqrt32( r, out_e ); -#else - x_abs = L_abs( x ); - z_abs = L_abs( z ); - test(); - IF( LE_32( x_abs, Mpy_32_32( CONVERGENCE_FACTOR_FX, x_abs ) ) && LE_32( z_abs, Mpy_32_32( CONVERGENCE_FACTOR_FX, z_abs ) ) ) - { - r = 0; - move32(); - } - ELSE IF( BASOP_Util_Cmp_Mant32Exp( x_abs, x_e, z_abs, z_e ) >= 0 ) - { - IF( LE_32( x_abs, SVD_MINIMUM_VALUE_FX ) ) - { - r = 0; - move32(); - } - ELSE - { - cotan = BASOP_Util_Divide3232_Scale_cadence( z_abs, x_abs, &temp_exp ); /* exp(temp_exp + (z_e - x_e) */ - temp_exp = add( temp_exp, sub( z_e, x_e ) ); - L_temp = BASOP_Util_Add_Mant32Exp( ONE_IN_Q30, 1, Mpy_32_32( cotan, cotan ), 2 * temp_exp, &temp_exp ); /* exp(temp_exp) */ - L_temp = Sqrt32( L_temp, &temp_exp ); - r = Mpy_32_32( x_abs, L_temp ); /* exp(x_e + temp_exp) */ - *out_e = add( x_e, temp_exp ); - } - } - ELSE - { - IF( LE_32( z_abs, SVD_MINIMUM_VALUE_FX ) ) - { - r = 0; - move32(); - } - ELSE - { - tan = BASOP_Util_Divide3232_Scale_cadence( x_abs, z_abs, &temp_exp ); /* exp(temp_exp + (x_e - z_e) */ - temp_exp = add( temp_exp, sub( x_e, z_e ) ); - L_temp = BASOP_Util_Add_Mant32Exp( ONE_IN_Q30, 1, Mpy_32_32( tan, tan ), shl( temp_exp, 1 ), &temp_exp ); /* exp(temp_exp) */ - L_temp = Sqrt32( L_temp, &temp_exp ); - r = Mpy_32_32( z_abs, L_temp ); /* exp(z_e + temp_exp) */ - *out_e = add( z_e, temp_exp ); - } - } -#endif return ( r ); } @@ -1956,20 +1371,6 @@ static Word32 maxWithSign_fx( const Word32 a /* Qx */ ) { -#ifndef FIX_MINOR_SVD_WMOPS_MR1010X - IF( GT_32( L_abs( a ), SVD_MINIMUM_VALUE_FX ) ) - { - return a; - } - ELSE IF( a < 0 ) - { - return -SVD_MINIMUM_VALUE_FX; - } - ELSE - { - return SVD_MINIMUM_VALUE_FX; - } -#else Word32 result; IF( a >= 0 ) { @@ -1980,7 +1381,6 @@ static Word32 maxWithSign_fx( result = L_min( a, -SVD_MINIMUM_VALUE_FX ); } return result; -#endif } /*------------------------------------------------------------------------- diff --git a/lib_dec/ivas_tcx_core_dec.c b/lib_dec/ivas_tcx_core_dec_fx.c similarity index 98% rename from lib_dec/ivas_tcx_core_dec.c rename to lib_dec/ivas_tcx_core_dec_fx.c index 37ffc51289287dcb9dcbc5477042e80c7d4f650c..aa5a379e87c316892f9f161dd48749c31e46ede7 100644 --- a/lib_dec/ivas_tcx_core_dec.c +++ b/lib_dec/ivas_tcx_core_dec_fx.c @@ -34,14 +34,12 @@ #include #include "options.h" #include -#include "prot.h" +#include "prot_fx.h" #include "rom_com.h" #include "stat_dec.h" #include "wmc_auto.h" #include "basop_proto_func.h" #include "stat_com.h" -#include "ivas_prot.h" -#include "prot_fx.h" #include "ivas_prot_fx.h" /*-------------------------------------------------------------* @@ -641,18 +639,18 @@ void stereo_tcx_core_dec_fx( move16(); } /* waveform adjustment */ - concealment_signal_tuning_fx( bfi, st->core, synthFB_fx, &st->plcInfo, st->nbLostCmpt, st->prev_bfi, st->hTonalMDCTConc->secondLastPcmOut, st->last_core_bfi, st->hTonalMDCTConc->lastPcmOut, st ); + concealment_signal_tuning_fx( st, bfi, synthFB_fx, st->last_core_bfi ); test(); test(); test(); - IF( ( bfi || st->prev_bfi ) && st->hPlcInfo->Pitch && EQ_16( st->hPlcInfo->concealment_method, TCX_NONTONAL ) ) + IF( ( bfi || st->prev_bfi ) && st->hPlcInfo->Pitch_fx && EQ_16( st->hPlcInfo->concealment_method, TCX_NONTONAL ) ) { lerp( synthFB_fx, synth_fx, st->L_frame, hTcxDec->L_frameTCX ); if ( !bfi && st->prev_bfi ) { - st->hPlcInfo->Pitch = 0; + st->hPlcInfo->Pitch_fx = 0; move16(); } } @@ -810,21 +808,11 @@ void stereo_tcx_core_dec_fx( move16(); /* Postfiltering */ -#ifndef MSAN_FIX - IF( st->p_bpf_noise_buf_32 ) - { - Copy_Scale_sig_32_16( st->p_bpf_noise_buf_32, st->p_bpf_noise_buf, st->L_frame, negate( Q11 ) ); - } -#endif post_decoder( st, synth_buf_fx, pit_gain_fx, pitch, signal_out_fx, st->p_bpf_noise_buf ); test(); -#ifdef MSAN_FIX IF( st->p_bpf_noise_buf_32 && st->tcxonly == 0 ) -#else - IF( st->p_bpf_noise_buf_32 ) -#endif // MSAN_FIX { Copy_Scale_sig_16_32_no_sat( st->p_bpf_noise_buf, st->p_bpf_noise_buf_32, st->L_frame, Q11 ); /* q_p_bpf + Q11 */ } diff --git a/lib_dec/ivas_td_low_rate_dec.c b/lib_dec/ivas_td_low_rate_dec_fx.c similarity index 97% rename from lib_dec/ivas_td_low_rate_dec.c rename to lib_dec/ivas_td_low_rate_dec_fx.c index a4380bd4e7c3c70cb8805d432b15ce25be18d540..3191a8b4abcdcd54fb80589a75dbfa64a9b3b950 100644 --- a/lib_dec/ivas_td_low_rate_dec.c +++ b/lib_dec/ivas_td_low_rate_dec_fx.c @@ -37,9 +37,7 @@ #include "rom_com.h" #include "ivas_rom_com.h" #include "ivas_cnst.h" -#include "prot.h" #include "prot_fx.h" -#include "ivas_prot.h" #include "wmc_auto.h" #include "ivas_prot_fx.h" void tdm_low_rate_dec_fx( @@ -139,7 +137,6 @@ void tdm_low_rate_dec_fx( edct_16fx( exc_wo_nf_fx, exc_wo_nf_fx, L_FRAME, find_guarded_bits_fx( L_FRAME ), IVAS_CPE_TD ); -#ifdef FIX_USAN_ISSUES IF( bwe_exc != NULL ) { Rescale_exc( st->hMusicPF->dct_post_old_exc_fx, &exc[0], &bwe_exc[0], st->hGSCDec->last_exc_dct_in_fx, @@ -150,10 +147,6 @@ void tdm_low_rate_dec_fx( Rescale_exc( st->hMusicPF->dct_post_old_exc_fx, &exc[0], NULL, st->hGSCDec->last_exc_dct_in_fx, L_FRAME, L_FRAME * HIBND_ACB_L_FAC, L_shl( st->lp_gainc_fx, 13 /* Q3 -> Q16*/ ), &( st->Q_exc ), st->Q_subfr, NULL, 0, st->coder_type ); } -#else - Rescale_exc( st->hMusicPF->dct_post_old_exc_fx, &exc[0], &bwe_exc[0], st->hGSCDec->last_exc_dct_in_fx, - L_FRAME, L_FRAME * HIBND_ACB_L_FAC, L_shl( st->lp_gainc_fx, 13 /* Q3 -> Q16*/ ), &( st->Q_exc ), st->Q_subfr, NULL, 0, st->coder_type ); -#endif /*----------------------------------------------------------------------* * Remove potential pre-echo in case an onset has been detected *----------------------------------------------------------------------*/ diff --git a/lib_dec/jbm_jb4_circularbuffer.c b/lib_dec/jbm_jb4_circularbuffer.c index cdabe4700874d140093d30ee06759cf4abf2be4e..f9d6d1ca148c39a2c2891ace4451261d119a2458 100644 --- a/lib_dec/jbm_jb4_circularbuffer.c +++ b/lib_dec/jbm_jb4_circularbuffer.c @@ -38,7 +38,7 @@ #include #include "options.h" #include "string.h" -#include "prot.h" +#include "prot_fx.h" #include "wmc_auto.h" /* local includes */ #include "jbm_jb4_circularbuffer.h" diff --git a/lib_dec/jbm_jb4_circularbuffer.h b/lib_dec/jbm_jb4_circularbuffer.h index de614eeeacbc2a13a68552346507f5894375bd53..9e3102feba4dee6b3812f2aca4cdd5c6b7461c20 100644 --- a/lib_dec/jbm_jb4_circularbuffer.h +++ b/lib_dec/jbm_jb4_circularbuffer.h @@ -37,7 +37,7 @@ #ifndef JBM_JB4_CIRCULARBUFFER_H #define JBM_JB4_CIRCULARBUFFER_H JBM_JB4_CIRCULARBUFFER_H -#include "prot.h" +#include "prot_fx.h" #include "cnst.h" /** handle for circular buffer (FIFO) with fixed capacity */ diff --git a/lib_dec/jbm_jb4_inputbuffer.c b/lib_dec/jbm_jb4_inputbuffer.c index 55113ee1366b2bfff5bca8db5e6041940fa57bbd..5497a437126a701eccbc82e1aad6bf352a654f06 100644 --- a/lib_dec/jbm_jb4_inputbuffer.c +++ b/lib_dec/jbm_jb4_inputbuffer.c @@ -39,7 +39,7 @@ #include #include #include "options.h" -#include "prot.h" +#include "prot_fx.h" #include "string.h" #include "jbm_jb4_inputbuffer.h" #include "wmc_auto.h" diff --git a/lib_dec/jbm_jb4_jmf.c b/lib_dec/jbm_jb4_jmf.c index 940df5ecb7a612d96087112f41493e5ce410cd0b..5ab8242c75bbbd078d3fbc6ddc30ee102bf1b224 100644 --- a/lib_dec/jbm_jb4_jmf.c +++ b/lib_dec/jbm_jb4_jmf.c @@ -42,7 +42,7 @@ #include #include #include "options.h" -#include "prot.h" +#include "prot_fx.h" #include "wmc_auto.h" /* local includes */ diff --git a/lib_dec/jbm_jb4sb.c b/lib_dec/jbm_jb4sb.c index 4878b7d647b5716ea3b17e70477b86dc9e54905c..d1f782b55c18b79990c3ea00b920f1cda41a6f13 100644 --- a/lib_dec/jbm_jb4sb.c +++ b/lib_dec/jbm_jb4sb.c @@ -48,7 +48,6 @@ #include "jbm_jb4_inputbuffer.h" #include "jbm_jb4_jmf.h" #include "jbm_jb4sb.h" -#include "prot.h" #include "prot_fx.h" #define WMC_TOOL_SKIP @@ -912,7 +911,7 @@ static void JB4_adaptActivePlayout( ELSE { Word16 exp; - Word32 temp = BASOP_Util_Divide3232_Scale_cadence( W_extract_l( W_sub( dropRateMax, dropRateMin ) ), W_extract_l( dropGapMax ), &exp ); + Word32 temp = BASOP_Util_Divide3232_Scale_newton( W_extract_l( W_sub( dropRateMax, dropRateMin ) ), W_extract_l( dropGapMax ), &exp ); /* limit gap to [gapMin,gapMax] and calculate current drop rate from gap */ Word64 temp2 = W_mult0_32_32( W_extract_l( JB4_MIN( gap, dropGapMax ) ), temp ); Word64 temp3 = W_shr( temp2, sub( 31, exp ) ); diff --git a/lib_dec/jbm_jb4sb.h b/lib_dec/jbm_jb4sb.h index 939fad2cb042b0af13a76b9813945befbfc2af57..5b5ff16c5f2a19c2e06b74cf8bd1e456feeb8545 100644 --- a/lib_dec/jbm_jb4sb.h +++ b/lib_dec/jbm_jb4sb.h @@ -67,7 +67,7 @@ struct JB4_DATAUNIT Word16 qBit; /** the binary encoded access unit */ - uint8_t *data; + UWord8 *data; /** the size of the binary encoded access unit [bits] */ UWord16 dataSize; diff --git a/lib_dec/jbm_pcmdsp_apa.c b/lib_dec/jbm_pcmdsp_apa.c index 10b91a60c4f472e7d91281954adb26bb0948568b..e2528e619eb9ab631ad0ced53399220cba4a2702 100644 --- a/lib_dec/jbm_pcmdsp_apa.c +++ b/lib_dec/jbm_pcmdsp_apa.c @@ -44,7 +44,7 @@ #include #include #include "options.h" -#include "prot.h" +#include "prot_fx.h" #include "wmc_auto.h" /* local headers */ #include "jbm_pcmdsp_apa.h" @@ -54,7 +54,6 @@ #include "rom_dec.h" -#include "prot_fx.h" #define INV_100_Q15 328 #define INV_400_Q15 82 #define INV_80_Q15 410 @@ -271,9 +270,7 @@ UWord8 apa_reconfigure( free( ps->buf_out_fx ); ps->buf_out_fx = (Word16 *) malloc( sizeof( Word16 ) * ps->buf_out_capacity ); -#ifdef MSAN_FIX memset( ps->buf_out_fx, 0, ( sizeof( Word16 ) * ps->buf_out_capacity ) ); -#endif ps->Q_buf_out = Q15; move16(); IF( !ps->buf_out_fx ) @@ -901,7 +898,7 @@ UWord8 apa_exec_ivas_fx( UWord32 statsResetThreshold, statsResetShift; Word16 Q_a_out; - Q_a_out = add( getScaleFactor32_copy( a_in, L_mult0( ps->num_channels, APA_BUF_PER_CHANNEL ) ), Q11 - Q16 ); + Q_a_out = add( getScaleFactor32_copy( a_in, L_mult0( ps->num_channels, APA_BUF_PER_CHANNEL ) ), Q11 - Q16 - Q1 ); statsResetThreshold = 1637; move32(); statsResetShift = 2; diff --git a/lib_dec/jbm_pcmdsp_apa.h b/lib_dec/jbm_pcmdsp_apa.h index 1fe7481df8bcaf5d220fde8a0dd0a6ea262b9816..7955d0ea6e1b86aa6be7d6dcab90b331ef7c463f 100644 --- a/lib_dec/jbm_pcmdsp_apa.h +++ b/lib_dec/jbm_pcmdsp_apa.h @@ -92,7 +92,7 @@ typedef struct apa_state_t *PCMDSP_APA_HANDLE; /*! Allocates memory for state struct and initializes elements. * @return 0 on success, 1 on failure */ ivas_error apa_init( apa_state_t **s, - const int32_t num_channels ); + const Word32 num_channels ); /*! Sets state variables to initial value. */ void apa_reset( apa_state_t *s ); @@ -106,7 +106,7 @@ void apa_reset( apa_state_t *s ); * @param[in] output_Fs sample rate [Hz] * @param[in] num_channels number of channels * @return 0 on success, 1 on failure */ -bool apa_set_rate( apa_state_t *ps, const int32_t output_Fs ); +bool apa_set_rate( apa_state_t *ps, const Word32 output_Fs ); /*! Set scaling. * The scale is given in % and will be valid until changed again. @@ -120,7 +120,7 @@ bool apa_set_renderer_residual_samples( apa_state_t *ps, UWord16 l_r_buf ); bool apa_set_evs_compat_mode( apa_state_t *ps, bool mode ); -uint8_t apa_reconfigure( apa_state_t *ps, uint16_t num_channels, uint16_t l_ts ); +UWord8 apa_reconfigure( apa_state_t *ps, UWord16 num_channels, UWord16 l_ts ); bool apa_set_complexity_options( apa_state_t *s, UWord16 wss, UWord16 css ); @@ -129,5 +129,5 @@ bool apa_set_quality( apa_state_t *s, Word32 quality, UWord16 qualityred, UWord1 bool apa_exit( apa_state_t **s ); UWord8 apa_exec_ivas_fx( apa_state_t *s, const Word32 a_in[], UWord16 l_in, UWord16 maxScaling, Word32 a_out[], UWord16 *l_out ); -uint8_t apa_exec_fx( apa_state_t *s, const Word16 a_in[], UWord16 l_in, UWord16 maxScaling, Word16 a_out[], UWord16 *l_out ); +UWord8 apa_exec_fx( apa_state_t *s, const Word16 a_in[], UWord16 l_in, UWord16 maxScaling, Word16 a_out[], UWord16 *l_out ); #endif /* JBM_PCMDSP_APA_H */ diff --git a/lib_dec/jbm_pcmdsp_window.h b/lib_dec/jbm_pcmdsp_window.h index 3551380de6a391b59e7d7a16ef1b67c1ca11ce48..1d193433e7b90f55d7a22902932a7bdaf19f17c2 100644 --- a/lib_dec/jbm_pcmdsp_window.h +++ b/lib_dec/jbm_pcmdsp_window.h @@ -52,7 +52,7 @@ * <------> * n */ -void hannWindow( uint16_t n, float *w ); +void hannWindow( UWord16 n, float *w ); /** Overlap/Add of two signal with a given window. */ /** @param[in] fadeOut signal to fade out diff --git a/lib_dec/lead_deindexing_fx.c b/lib_dec/lead_deindexing_fx.c index 786e0c276956fcb209bed3bc2c814b69c2b6f828..ecc5f6fe01a50d55b5156784ae951993658b3092 100644 --- a/lib_dec/lead_deindexing_fx.c +++ b/lib_dec/lead_deindexing_fx.c @@ -192,7 +192,6 @@ void re8_decode_base_index_fx( m1 = sub( k1, 1 ); m2 = 8; move16(); -#ifdef CR_2109_to_2112_cd0_ce0 l = 1; move16(); FOR( i = 0; i < 8; i++ ) @@ -206,9 +205,6 @@ void re8_decode_base_index_fx( test(); /* if the signs are constrained and all components are non-zero */ IF( EQ_16( k1, 7 ) && ( l > 0 ) ) -#else - IF( k1 == 7 ) -#endif { m2 = 7; move16(); diff --git a/lib_dec/lib_dec_fx.c b/lib_dec/lib_dec_fx.c index 9753893e2cd84e406a23e383f2a8fe70e69232d4..95d599d6dfc5bb5fd821abe181ad7ed106086eee 100644 --- a/lib_dec/lib_dec_fx.c +++ b/lib_dec/lib_dec_fx.c @@ -35,22 +35,17 @@ #include #include #include "ivas_cnst.h" -#include "ivas_prot.h" -#include "ivas_prot_rend.h" -#include "prot.h" -#include "ivas_prot_fx.h" +#include "ivas_prot_rend_fx.h" #include "prot_fx.h" #include "isar_prot.h" #include "lib_isar_pre_rend.h" +#include "ivas_prot_fx.h" #include "jbm_jb4sb.h" #include "jbm_pcmdsp_apa.h" #include "jbm_pcmdsp_fifo.h" #include #include -#ifndef FIX_DISCLAIMER -#include -#endif #include "wmc_auto.h" #define INV_1000_Q31 2147484 /*1/1000 IN Q31*/ @@ -1046,7 +1041,7 @@ ivas_error IVAS_DEC_FeedFrame_Serial( } } - IF( NE_32( ( error = read_indices( hIvasDec->st_ivas, serial, num_bits, &hIvasDec->prev_ft_speech, &hIvasDec->CNG, bfi ) ), IVAS_ERR_OK ) ) + IF( NE_32( ( error = read_indices_fx( hIvasDec->st_ivas, serial, num_bits, &hIvasDec->prev_ft_speech, &hIvasDec->CNG, bfi ) ), IVAS_ERR_OK ) ) { return error; } @@ -2843,7 +2838,8 @@ ivas_error IVAS_DEC_GetDelay( nSamples[0] = add( nSamples[1], nSamples[2] ); move16(); - IF( EQ_16( (Word16) st_ivas->ivas_format, MASA_FORMAT ) ) + test(); + IF( EQ_16( (Word16) st_ivas->ivas_format, MASA_FORMAT ) || EQ_16( (Word16) st_ivas->ivas_format, MASA_ISM_FORMAT ) ) { /* note: in MASA, all delay is compensated at the decoder by default, so subtract the encoder delay for print-out */ nSamples[1] = sub( nSamples[1], NS2SA_FX2( hDecoderConfig->output_Fs, IVAS_ENC_DELAY_NS ) ); @@ -3532,85 +3528,6 @@ const char *IVAS_DEC_GetErrorMessage( return ivas_error_to_string( error ); } -#ifndef FIX_DISCLAIMER -/*---------------------------------------------------------------------* - * get_channel_config() - * - * Gets a str related to input config - *---------------------------------------------------------------------*/ - -static ivas_error get_channel_config( - AUDIO_CONFIG config, - Word8 *str ) -{ - IF( EQ_16( (Word16) config, IVAS_AUDIO_CONFIG_MONO ) ) - { - strcpy( (char *) str, "Mono" ); - } - ELSE IF( EQ_16( (Word16) config, IVAS_AUDIO_CONFIG_STEREO ) ) - { - strcpy( (char *) str, "Stereo" ); - } - ELSE IF( EQ_16( (Word16) config, IVAS_AUDIO_CONFIG_5_1 ) ) - { - strcpy( (char *) str, "Multichannel 5.1 (CICP6)" ); - } - ELSE IF( EQ_16( (Word16) config, IVAS_AUDIO_CONFIG_7_1 ) ) - { - strcpy( (char *) str, "Multichannel 7.1 (CICP12)" ); - } - ELSE IF( EQ_16( (Word16) config, IVAS_AUDIO_CONFIG_5_1_2 ) ) - { - strcpy( (char *) str, "Multichannel 5.1+2 (CICP14)" ); - } - ELSE IF( EQ_16( (Word16) config, IVAS_AUDIO_CONFIG_5_1_4 ) ) - { - strcpy( (char *) str, "Multichannel 5.1+4 (CICP16)" ); - } - ELSE IF( EQ_16( (Word16) config, IVAS_AUDIO_CONFIG_7_1_4 ) ) - { - strcpy( (char *) str, "Multichannel 7.1+4 (CICP19)" ); - } - ELSE IF( EQ_16( (Word16) config, IVAS_AUDIO_CONFIG_LS_CUSTOM ) ) - { - strcpy( (char *) str, "Multichannel (custom loudspeaker layout)" ); - } - ELSE IF( EQ_16( (Word16) config, IVAS_AUDIO_CONFIG_FOA ) ) - { - strcpy( (char *) str, "Ambisonics: First Order (FOA)" ); - } - ELSE IF( EQ_16( (Word16) config, IVAS_AUDIO_CONFIG_HOA2 ) ) - { - strcpy( (char *) str, "Ambisonics: Second Order (HOA2)" ); - } - ELSE IF( EQ_16( (Word16) config, IVAS_AUDIO_CONFIG_HOA3 ) ) - { - strcpy( (char *) str, "Ambisonics: Third Order (HOA3)" ); - } - ELSE IF( EQ_16( (Word16) config, IVAS_AUDIO_CONFIG_BINAURAL ) ) - { - strcpy( (char *) str, "Binaural: no room" ); - } - ELSE IF( EQ_16( (Word16) config, IVAS_AUDIO_CONFIG_BINAURAL_ROOM_IR ) ) - { - strcpy( (char *) str, "Binaural: room with impulse responses" ); - } - ELSE IF( EQ_16( (Word16) config, IVAS_AUDIO_CONFIG_BINAURAL_ROOM_REVERB ) ) - { - strcpy( (char *) str, "Binaural: room with reverb" ); - } - ELSE IF( EQ_16( (Word16) config, IVAS_AUDIO_CONFIG_EXTERNAL ) ) - { - strcpy( (char *) str, "External renderer" ); - } - ELSE - { - return IVAS_ERROR( IVAS_ERR_INVALID_OUTPUT_FORMAT, "Error: Incorrect Input/Output Configuration" ); - } - - return IVAS_ERR_OK; -} -#endif /*---------------------------------------------------------------------* * printConfigInfo_dec( ) @@ -3871,7 +3788,7 @@ static ivas_error evs_dec_main_fx( move32(); hCoreCoder[0]->output_frame_fx = extract_l( Mult_32_16( hCoreCoder[0]->output_Fs, 0x0290 /*Q0*/ ) ); // Q0 move16(); - mdct_switching_dec( hCoreCoder[0] ); + mdct_switching_dec_fx( hCoreCoder[0] ); FOR( ch = 0; ch < MAX_OUTPUT_CHANNELS_IN_DIEGETIC_PAN; ch++ ) { diff --git a/lib_dec/lsf_dec_fx.c b/lib_dec/lsf_dec_fx.c index 50b5ec34131966f34314a4cf6e45dd344127e03a..21e8705f3aa64d7b7efcb4a8b7b929fbfe49a626 100644 --- a/lib_dec/lsf_dec_fx.c +++ b/lib_dec/lsf_dec_fx.c @@ -7,7 +7,6 @@ #include "cnst.h" /* Common constants */ #include "rom_com.h" /* Static table prototypes */ #include "prot_fx.h" /* Function prototypes */ -#include "ivas_prot.h" #include "ivas_prot_fx.h" /*-------------------------------------------------------------------* * Local functions @@ -195,7 +194,6 @@ void lsf_dec_fx( /* rightshift before *seed_acelp+param_lpc[i] to avoid overflows*/ st_fx->seed_acelp = extract_l( L_add( imult3216( 31821L /* Q0 */, add( shr( ( st_fx->seed_acelp ), 1 ), param_lpc[i] ) ), 13849L /* Q0 */ ) ); /* Q0 */ move16(); - // PMTE() /*IVAS_CODE to be completed */ } } IF( EQ_32( st_fx->core_brate, SID_2k40 ) ) @@ -449,7 +447,6 @@ void lsf_dec_ivas_fx( /* rightshift before *seed_acelp+param_lpc[i] to avoid overflows*/ st_fx->seed_acelp = extract_l( L_add( imult3216( 31821L /* Q0 */, add( shr( ( st_fx->seed_acelp ), 1 ), param_lpc[i] ) ), 13849L /* Q0 */ ) ); /* Q0 */ move16(); - // PMTE() /*IVAS_CODE to be completed */ } } IF( EQ_32( st_fx->core_brate, SID_2k40 ) ) @@ -664,12 +661,7 @@ void lsf_end_dec_fx( test(); test(); -#ifdef LSF_RE_USE_SECONDARY_CHANNEL - test(); - IF( ( EQ_16( coder_type_org, GENERIC ) ) && ( EQ_32( st->sr_core, INT_FS_16k ) ) && ( mode2_flag == 0 ) && ( st->idchan == 0 ) ) -#else IF( ( EQ_16( coder_type_org, GENERIC ) ) && ( EQ_32( st->sr_core, INT_FS_16k ) ) && ( mode2_flag == 0 ) ) -#endif { /* this bit is used only for primary channel or mono */ coder_type = (Word16) get_next_indice_fx( st, 1 ); /* Q0 */ diff --git a/lib_dec/pit_dec_fx.c b/lib_dec/pit_dec_fx.c index b72c2bae16296e0d49371ce46b16907438c3ba4f..1d3e9649793cb0578063ec2b5235a452812ffe1d 100644 --- a/lib_dec/pit_dec_fx.c +++ b/lib_dec/pit_dec_fx.c @@ -333,11 +333,6 @@ Word16 pit_decode_fx( /* o : floating pitch value Word16 *T0_min, /* i/o: delta search min for sf 2 & 4 */ Word16 *T0_max, /* i/o: delta search max for sf 2 & 4 */ const Word16 L_subfr /* i : subframe length */ -#ifdef ADD_LRTD - , - const Word16 tdm_Pitch_reuse_flag, /* i : primary channel pitch reuse flag */ - const Word16 tdm_Pri_pitch_buf[] /* i : primary channel pitch buffer */ -#endif ) { Word16 pitch; /*Q2*/ @@ -458,57 +453,6 @@ Word16 pit_decode_fx( /* o : floating pitch value pit_Q_dec_fx( 0, pitch_index, nBits, 4, pit_flag, *limit_flag, T0, T0_frac, T0_min, T0_max, &st_fx->BER_detect ); } -#ifdef ADD_LRTD - ELSE IF( EQ_16( st_fx->idchan, 1 ) && ( EQ_16( tdm_Pitch_reuse_flag, 1 ) || EQ_16( nBits, 4 ) ) ) - { - test(); - test(); - /*-------------------------------------------------------* - * Pitch decoding with reusing of primary channel information - *-------------------------------------------------------*/ - Word16 loc_T0, loc_frac, delta, pit_tmp1, pit_tmp2, isubfridx; - - delta = 4; - pit_flag = L_SUBFR; - move16(); - move16(); - isubfridx = shr( i_subfr, 6 ); - IF( EQ_16( L_subfr, 2 * L_SUBFR ) ) - { - move16(); - move16(); - pit_tmp1 = tdm_Pri_pitch_buf[isubfridx]; /*tdm_Pri_pitch_buf in Q6 ->pit_tmp1 and 2 in Q6 too */ - pit_tmp2 = tdm_Pri_pitch_buf[shr( add( i_subfr, 1 ), 6 )]; - /*loc_T0 = (int16_t)(0.5f * tdm_Pri_pitch_buf[i_subfr / L_SUBFR] + 0.5f * tdm_Pri_pitch_buf[(i_subfr + L_SUBFR) / L_SUBFR]);*/ - loc_T0 = mac_r( L_mult( 16384, pit_tmp1, 16384, pit_tmp2 ) ); - /*loc_frac = (int16_t)(((0.5f * tdm_Pri_pitch_buf[i_subfr / L_SUBFR] + 0.5f * tdm_Pri_pitch_buf[(i_subfr + L_SUBFR) / L_SUBFR]) - loc_T0) * 4.0f);*/ - } - ELSE - { - /*loc_T0 = (int16_t)tdm_Pri_pitch_buf[i_subfr / L_SUBFR];*/ - loc_T0 = tdm_Pri_pitch_buf[isubfridx]; /*Q6*/ - /*loc_frac = (int16_t)((tdm_Pri_pitch_buf[i_subfr / L_SUBFR] - loc_T0) * 4.0f);*/ - } - loc_frac = shr(sub(loc_T0, shl(shr(loc_T0, 6), 6)), 4)); /* Final result in Q 2*/ - loc_T0 = shr( loc_T0, 6 ); /*Q6 -> Q0*/ - - - limit_T0_fx( L_FRAME, delta, pit_flag, *limit_flag, loc_T0, loc_frac, T0_min, T0_max ); - - IF( nBits > 0 ) - { - pit_Q_dec_fx( 0, pitch_index, nBits, delta, pit_flag, *limit_flag, T0, T0_frac, T0_min, T0_max, &st_fx->BER_detect ); - } - ELSE - { - *T0 = loc_T0; - *T0_frac = loc_frac; - move16(); - move16(); - } - printf( "function not tested yet\n" ); - } -#endif ELSE { /*-------------------------------------------------------* diff --git a/lib_dec/stat_dec.h b/lib_dec/stat_dec.h index 3c1065c24203d7a41d294bf723baf7708142d40d..fcd5142a4c11b824f0a9638e8ca0d1209ae58b37 100644 --- a/lib_dec/stat_dec.h +++ b/lib_dec/stat_dec.h @@ -58,21 +58,7 @@ typedef enum FRAMEMODE_NORMAL = 0x0, /* frame available */ FRAMEMODE_MISSING = 0x1, /* frame missing => conceal */ FRAMEMODE_FUTURE = 0x2 -} FRAME_MODE, - frameMode_fx; - -typedef enum -{ - TONALMDCTCONCEAL_OK = 0, - - __error_codes_start = -100, - - TONALMDCTCONCEAL_NSAMPLES_LARGER_THAN_MAXBLOCKSIZE, - TONALMDCTCONCEAL_INVALIDPOINTER, - TONALMDCTCONCEAL_UNEXPECTED_ERROR, - - __error_codes_end -} TONALMDCTCONCEAL_ERROR; +} FRAME_MODE; /*---------------------------------------------------------------* @@ -174,12 +160,8 @@ typedef struct typedef struct { Word16 L_frameTCX; - Word16 FrameSize; - Word16 Pitch; Word16 Pitch_fx; - - Word16 T_bfi; Word8 T_bfi_fx; Word16 Transient[MAX_POST_LEN]; @@ -194,18 +176,13 @@ typedef struct Word32 ener_mean_fx; Word32 ener_fx; - Word16 zp; Word16 zp_fx; Word16 recovery_gain; /*outside waveformadjustment: Q14 - insinde waveformadjustment: Q15*/ Word16 step_concealgain_fx; Word16 concealment_method; - - Word16 subframe; Word16 subframe_fx; - Word16 nbLostCmpt; - Word16 seed; } T_PLCInfo, *T_PLCInfo_HANDLE; @@ -219,17 +196,12 @@ typedef struct { UWord16 nSamples; UWord16 nSamplesCore; - - Float32 *spectralData_float; Word16 *spectralData; - Word16 spectralData_exp; Word16 *scaleFactors; - Word16 *scaleFactors_exp; Word16 scaleFactors_max_e; Word16 gain_tcx_exp; - Word16 blockIsValid; Word16 blockIsConcealed; Word16 tonalConcealmentActive; @@ -241,9 +213,7 @@ typedef struct UWord16 indexOfTonalPeak[MAX_NUMBER_OF_IDX]; UWord16 lowerIndex[MAX_NUMBER_OF_IDX]; UWord16 upperIndex[MAX_NUMBER_OF_IDX]; - - Word16 phaseDiff[MAX_NUMBER_OF_IDX]; // Q12 /* This one can be stored with 16 bits in range 0..2*PI */ - + Word16 phaseDiff[MAX_NUMBER_OF_IDX]; // Q12 /* This one can be stored with 16 bits in range 0..2*PI */ Word16 phase_currentFramePredicted[MAX_NUMBER_OF_IDX * GROUP_LENGTH]; // Q13 /* This one can be stored with 16 bits in range [-pi;pi] 2Q13, but the code has to be adapted to use moduo(2*PI) after adding */ } TonalComponentsInfo; @@ -262,21 +232,13 @@ typedef struct tonalmdctconceal blockData secondLastBlockData; Word16 scaleFactorsBuffers[2][FDNS_NPTS]; /* Contains also global gain. */ - Word16 scaleFactorsBuffers_exp[2][FDNS_NPTS]; - - Word16 spectralDataBuffers[2][L_FRAME_MAX]; /* 16 bits is enough, because it is stored before applying scale factors. Take care that power spectrum is also stored here. */ - + Word16 spectralDataBuffers[2][L_FRAME_MAX]; /* 16 bits is enough, because it is stored before applying scale factors. Take care that power spectrum is also stored here. */ Word16 timeDataBuffer[( 3 * L_FRAME_MAX ) / 2]; /* 16 bits are enough for the TD signal */ - Word16 *lastPcmOut; - Word16 *secondLastPcmOut; - Word16 q_lastPcmOut; - Word16 *secondLastPowerSpectrum; - Word16 secondLastPowerSpectrum_exp; Word32 scaleFactorsBackground_fx[FDNS_NPTS]; @@ -292,6 +254,7 @@ typedef struct tonalmdctconceal Word16 faded_signal_nrg_exp; Word16 nFramesLost; TonalComponentsInfo *pTCI; + } TonalMDCTConceal_INSTANCE, *TonalMDCTConcealPtr; @@ -396,8 +359,6 @@ typedef struct igfdec_instance_struct typedef struct tec_dec_structure { - - // fixed variable Word16 pGainTemp_m[CLDFB_NO_COL_MAX]; Word16 pGainTemp_e[CLDFB_NO_COL_MAX]; Word16 loBuffer[CLDFB_NO_COL_MAX + MAX_TEC_SMOOTHING_DEG]; @@ -426,12 +387,9 @@ typedef struct tcx_ltp_dec_structure Word32 tcxltp_mem_out_32[L_FRAME48k]; Word16 exp_tcxltp_mem_out; - Word16 tcxltp_pitch_int_post_prev; Word16 tcxltp_pitch_fr_post_prev; - Word16 tcxltp_gain_post_prev; - Word16 tcxltp_filt_idx_prev; } TCX_LTP_DEC_DATA, *TCX_LTP_DEC_HANDLE; @@ -483,7 +441,6 @@ typedef struct tcx_dec_structure Word16 FBTCXdelayBuf[111]; /* 2.3125ms at 48kHz -> 111 samples */ Word32 FBTCXdelayBuf_32[111]; /* 2.3125ms at 48kHz -> 111 samples */ - /*TCX resisual Q*/ Word16 resQBits[NB_DIV]; /* number of bits read for the residual Quantization in TCX*/ @@ -519,7 +476,6 @@ typedef struct tcx_dec_structure Word16 tcxConceal_recalc_exc; Word16 cummulative_damping_tcx; // Q15 - } TCX_DEC_DATA, *TCX_DEC_HANDLE; @@ -529,32 +485,17 @@ typedef struct tcx_dec_structure typedef struct gsc_dec_structure { - Word16 seed_tcx; /* AC mode (GSC) - seed for noise fill */ - - Word16 cor_strong_limit; /* AC mode (GSC) - Indicator about high spectral correlation per band */ - // Word16 cor_strong_limit; /* AC mode (GSC) - Indicator about high spectral correlation per band */ - - Word16 old_y_gain_fx[MBANDS_GN16k]; /* AC mode (GSC) - AR mem for low rate gain quantization */ - - Word16 noise_lev; /* AC mode (GSC) - noise level */ - // Word16 noise_lev; /* AC mode (GSC) - noise level Q0*/ - + Word16 seed_tcx; /* AC mode (GSC) - seed for noise fill */ + Word16 cor_strong_limit; /* AC mode (GSC) - Indicator about high spectral correlation per band */ + Word16 old_y_gain_fx[MBANDS_GN16k]; /* AC mode (GSC) - AR mem for low rate gain quantization */ + Word16 noise_lev; /* AC mode (GSC) - noise level */ Word16 lt_ener_per_band_fx[MBANDS_GN16k]; /* Q12 */ - - Word32 Last_frame_ener_fx; /* AC mode (GSC) - last frame energy */ - - Word16 Last_GSC_spectrum_fx[L_FRAME16k]; /* AC mode (GSC) - Last good GSC spectrum */ - - Word16 Last_GSC_pit_band_idx; /* AC mode (GSC) - Last pitch band index */ - // Word16 Last_GSC_pit_band_idx; /* AC mode (GSC) - Last pitch band index Q0*/ - - Word16 last_exc_dct_in_fx[L_FRAME16k]; /* AC mode (GSC) - previous excitation */ - - Word16 last_ener_fx; /* AC mode (GSC) - previous energy */ - - Word16 last_bitallocation_band[6]; /* AC mode (GSC) - previous bit allocation of each band */ - // Word16 last_bitallocation_band[6]; /* AC mode (GSC) - previous bit allocation of each band */ - + Word32 Last_frame_ener_fx; /* AC mode (GSC) - last frame energy */ + Word16 Last_GSC_spectrum_fx[L_FRAME16k]; /* AC mode (GSC) - Last good GSC spectrum */ + Word16 Last_GSC_pit_band_idx; /* AC mode (GSC) - Last pitch band index */ + Word16 last_exc_dct_in_fx[L_FRAME16k]; /* AC mode (GSC) - previous excitation */ + Word16 last_ener_fx; /* AC mode (GSC) - previous energy */ + Word16 last_bitallocation_band[6]; /* AC mode (GSC) - previous bit allocation of each band */ } GSC_DEC_DATA, *GSC_DEC_HANDLE; @@ -566,47 +507,49 @@ typedef struct gsc_dec_structure typedef struct WI_dec_structure { Word16 old_exc2_fx[L_EXC_MEM]; /* FEC - old excitation2 used in fast recovery */ - Word16 old_syn2_fx[L_EXC_MEM]; /* FEC - old syn speech used in fast recovery */ - } WI_DEC_DATA, *WI_DEC_HANDLE; /*----------------------------------------------------------------------------------* - * LD music post-filter + * NB postfilter / formant postfilter static variables *----------------------------------------------------------------------------------*/ -typedef struct ld_music_postfilt_structure +typedef struct pfstat_structure { - Word16 LDm_mem_etot_fx; /* LD music post-filter - total energy memory */ + Word16 on; /* On/off flag */ + Word16 reset; /* reset flag */ + Word16 mem_pf_in[L_SUBFR]; /* Input memory Qqmem_pf_in */ + Word16 mem_stp[L_SUBFR]; /* 1/A(gamma1) memory Qqmem_stp*/ + Word16 mem_res2[DECMEM_RES2]; /* A(gamma2) residual Q_syn*/ + Word16 mem_zero[M]; /* null memory to compute i.r. of A(gamma2)/A(gamma1) Q_qmem_zero*/ + Word16 gain_prec; /*Q14*/ /* for gain adjustment */ - Word16 LDm_last_music_flag; /* LD music post-filter - last music flag */ +} PFSTAT, *PFSTAT_HANDLE; - Word16 LDm_nb_thr_1; /* LD music post-filter - number of consecutive frames of level 1 */ - Word16 LDm_nb_thr_3; +/*----------------------------------------------------------------------------------* + * LD music post-filter + *----------------------------------------------------------------------------------*/ +typedef struct ld_music_postfilt_structure +{ + Word16 LDm_mem_etot_fx; /* LD music post-filter - total energy memory */ + Word16 LDm_last_music_flag; /* LD music post-filter - last music flag */ + Word16 LDm_nb_thr_1; /* LD music post-filter - number of consecutive frames of level 1 */ + Word16 LDm_nb_thr_3; Word16 dct_post_old_exc_fx[DCT_L_POST - OFFSET2]; - - Word16 LDm_thres_fx[4]; /* LD music post-filter - Classification threshold */ - - Word16 LDm_lt_diff_etot_fx[MAX_LT]; /* LD music post-filter - long-term total energy variation */ - + Word16 LDm_thres_fx[4]; /* LD music post-filter - Classification threshold */ + Word16 LDm_lt_diff_etot_fx[MAX_LT]; /* LD music post-filter - long-term total energy variation */ Word16 LDm_enh_lp_gbin_fx[VOIC_BINS_HR]; /* LD music post-filter - smoothed suppression gain, per bin FFT */ - - Word32 LDm_enh_lf_EO_fx[VOIC_BINS_HR]; /* LD music post-filter - old per bin E for previous half frame */ - - Word16 LDm_enh_min_ns_gain_fx; /* LD music post-filter - minimum suppression gain */ - - Word32 LDm_bckr_noise_fx[MBANDS_GN_LD]; /* LD music post-filter - background noise estimation per critical band */ + Word32 LDm_enh_lf_EO_fx[VOIC_BINS_HR]; /* LD music post-filter - old per bin E for previous half frame */ + Word16 LDm_enh_min_ns_gain_fx; /* LD music post-filter - minimum suppression gain */ + Word32 LDm_bckr_noise_fx[MBANDS_GN_LD]; /* LD music post-filter - background noise estimation per critical band */ Word16 filt_lfE_fx[DCT_L_POST]; - Word16 last_nonfull_music; - Word16 Old_ener_Q; /* Old energy scaling factor */ - } MUSIC_POSTFILT_DATA, *MUSIC_POSTFILT_HANDLE; /*----------------------------------------------------------------------------------* @@ -617,18 +560,13 @@ typedef struct bass_postfilt_structure { Word16 pst_old_syn_fx[NBPSF_PIT_MAX]; /* Bass post-filter - old synthesis buffer 1 Q_syn2-1*/ Word16 q_pst_old_syn; - Word16 pst_mem_deemp_err_fx; /* Bass post-filter - filter memory of noise LP filter Q_syn2-1*/ - - Word16 pst_lp_ener_fx; /* Bass post-filter - long-term energy Q8*/ - - Word16 Track_on_hist[L_TRACK_HIST]; /* Bass post-filter - History of half frame usage */ - + Word16 pst_mem_deemp_err_fx; /* Bass post-filter - filter memory of noise LP filter Q_syn2-1*/ + Word16 pst_lp_ener_fx; /* Bass post-filter - long-term energy Q8*/ + Word16 Track_on_hist[L_TRACK_HIST]; /* Bass post-filter - History of half frame usage */ Word16 vibrato_hist[L_TRACK_HIST]; /* Bass post-filter - History of frames declared as vibrato */ - // Word16 vibrato_hist[L_TRACK_HIST]; /* Bass post-filter - History of frames declared as vibrato */ Word16 psf_att_fx; /* Bass post-filter - post filter attenuation factor */ Word16 mem_mean_pit_fx[L_TRACK_HIST]; /* Bass post-filter - average pitch memory */ - } BPF_DEC_DATA, *BPF_DEC_HANDLE; /*------------------------------------------------------------------------------------------* @@ -637,75 +575,54 @@ typedef struct bass_postfilt_structure typedef struct td_cng_dec_structure { - Word16 cng_seed; /* DTX/CNG - seed for white noise random generator */ - // Word16 cng_seed; /*CNG and DTX - seed for white noise random generator*/ - Word32 Enew_fx; /* CNG and DTX - decoded residual energy Q6*/ - + Word16 cng_seed; /* DTX/CNG - seed for white noise random generator */ + Word32 Enew_fx; /* CNG and DTX - decoded residual energy Q6*/ Word16 old_enr_index; /* DTX/CNG - index of last encoded CNG energy */ - Word16 cng_ener_seed; /* DTX/CNG - seed for random generator for variation of excitation energy */ - Word16 cng_ener_seed1; - Word16 last_allow_cn_step; - - Word16 ho_hist_size; /* DTX/CNG - size of DTX hangover history buffer for averaging, <0,HO_HIST_SIZE> */ - - Word16 ho_hist_ptr; /* DTX/CNG - pointer for averaging buffers */ - + Word16 ho_hist_size; /* DTX/CNG - size of DTX hangover history buffer for averaging, <0,HO_HIST_SIZE> */ + Word16 ho_hist_ptr; /* DTX/CNG - pointer for averaging buffers */ Word32 ho_sid_bw; /* DTX/CNG - SID bandwidth flags */ - // Word32 ho_sid_bw; /* CNG and DTX - SID bandwidth flags */ Word16 ho_lsp_hist_fx[HO_HIST_SIZE * M]; /* CNG and DTX - old LSP buffer for averaging */ Word32 ho_ener_hist_fx[HO_HIST_SIZE]; /* CNG and DTX - energy buffer for averaging */ /*Q6 */ Word32 ho_env_hist_fx[HO_HIST_SIZE * NUM_ENV_CNG]; - - - Word16 act_cnt; /* DTX/CNG - counter of active frames */ - - Word16 ho_circ_size; /* DTX/CNG - size of DTX hangover history buffer for averaging, <0,HO_HIST_SIZE> */ - - Word16 ho_circ_ptr; /* DTX/CNG - pointer for averaging buffers */ - // Word16 ho_circ_ptr; /* CNG and DTX - pointer for averaging buffers */ - + Word16 act_cnt; /* DTX/CNG - counter of active frames */ + Word16 ho_circ_size; /* DTX/CNG - size of DTX hangover history buffer for averaging, <0,HO_HIST_SIZE> */ + Word16 ho_circ_ptr; /* DTX/CNG - pointer for averaging buffers */ Word16 ho_lsp_circ_fx[HO_HIST_SIZE * M]; /* CNG and DTX - old LSP buffer for averaging */ Word32 ho_ener_circ_fx[HO_HIST_SIZE]; /* CNG and DTX - energy buffer for averaging */ /* Q6 */ Word32 ho_env_circ_fx[HO_HIST_SIZE * NUM_ENV_CNG]; - - - Word16 num_ho; /* DTX/CNG - number of selected hangover frames */ - + Word16 num_ho; /* DTX/CNG - number of selected hangover frames */ Word16 ho_16k_lsp[HO_HIST_SIZE]; /* DTX/CNG - 16k LSPs flags */ - // Word16 ho_16k_lsp[HO_HIST_SIZE]; /* DTX/CNG - 16k LSPs flags */ - - - Word16 act_cnt2; /* DTX/CNG - counter of active frames for CNG_mode switching */ - // Word16 act_cnt2; /* DTX/CNG - counter of active frames for CNG_mode switching */ + Word16 act_cnt2; /* DTX/CNG - counter of active frames for CNG_mode switching */ Word32 old_env_fx[20]; Word32 lp_env_fx[20]; Word16 exc_mem_fx[24]; Word16 exc_mem1_fx[30]; + Word16 interpol_3_2_cng_dec_fx[INTERP_3_2_MEM_LEN]; + + /* SWB DTX/CNG parameters */ + Word16 shb_cng_ener_fx; + Word32 shb_cng_ener_fx_32; // Q(11) Word16 shb_lpcCNG_fx[LPC_SHB_ORDER + 1]; /* Assumed in Q12 */ Word16 shb_cng_gain_fx; /* Assumed in Q8 */ + Word32 shb_cng_gain_fx_32; // Q(11) + Word16 wb_cng_ener_fx; + Word32 wb_cng_ener_fx_32; // Q(11) + Word16 last_wb_cng_ener_fx; + Word32 last_wb_cng_ener_fx_32; // Q(11) + Word16 last_shb_cng_ener_fx; + Word32 last_shb_cng_ener_fx_32; // Q(11) Word16 swb_cng_seed; - Word16 shb_dtx_count; - Word16 trans_cnt; - - Word16 interpol_3_2_cng_dec_fx[INTERP_3_2_MEM_LEN]; - - Word32 shb_cng_ener_fx_32; // Q(11) - Word32 shb_cng_gain_fx_32; // Q(11) - Word32 wb_cng_ener_fx_32; // Q(11) - Word32 last_wb_cng_ener_fx_32; // Q(11) - Word32 last_shb_cng_ener_fx_32; // Q(11) Word16 lsp_shb_prev_fx[LPC_SHB_ORDER]; // Q(14) Word16 lsp_shb_prev_prev_fx[LPC_SHB_ORDER]; // Q(14) - - Word16 burst_cnt; - Word32 last_shb_ener_fx; // Q(11) - - Word16 last_cng_type_fx; /* DTX/CNG - flag indicating last frame LP or CLDFB based SID/CNG */ - + Word16 shb_dtx_count_fx; + Word16 trans_cnt_fx; + Word16 burst_cnt_fx; + Word16 last_shb_ener_fx; + Word32 last_shb_ener_fx_32; // Q(11) } TD_CNG_DEC_DATA, *TD_CNG_DEC_HANDLE; @@ -721,36 +638,27 @@ typedef struct sc_vbr_dec_structure /* DTFS variables */ Word16 dtfs_dec_a_fx[MAXLAG_WI]; /*Variable Q format in dtfs_dec_Q*/ Word16 dtfs_dec_b_fx[MAXLAG_WI]; /*Variable Q format in dtfs_dec_Q*/ - Word16 dtfs_dec_lag; - Word16 dtfs_dec_nH; - Word16 dtfs_dec_nH_4kHz; - Word16 dtfs_dec_upper_cut_off_freq_of_interest_fx; /*Q0*/ Word16 dtfs_dec_upper_cut_off_freq_fx; /*Q0*/ Word16 ph_offset_D_fx; /* normalized by 2Pi Q15*/ Word16 lastLgainD_fx; /* previous gain value for the low band Q11*/ Word16 lastHgainD_fx; /* previous gain value for the high band Q11 */ Word16 lasterbD_fx[NUM_ERB_WB]; /* previous amplitude spectrum (ERB) Q13*/ - - Word16 dtfs_dec_Q; /*Q0*/ + Word16 dtfs_dec_Q; /*Q0*/ /* NELP decoder variables */ Word32 bp1_filt_mem_nb_dec_fx[14]; /* qfm currently Q0*/ Word16 bp1_filt_mem_wb_dec_fx[8]; /* qfm currently Q0*/ Word16 shape1_filt_mem_dec_fx[10]; /* qfm currently Q0*/ Word16 shape2_filt_mem_dec_fx[10]; /* qfm currently Q0*/ - Word16 shape3_filt_mem_dec_fx[10]; /* qfm currently Q0*/ - Word16 nelp_dec_seed; - Word16 FadeScale_fx; /*Q15*/ - } SC_VBR_DEC_DATA, *SC_VBR_DEC_HANDLE; /*----------------------------------------------------------------------------------* @@ -760,46 +668,24 @@ typedef struct sc_vbr_dec_structure typedef struct hq_nbfec_structure { Word16 prev_last_core; /* !!! note: the parameter is identical to last_core in IVAS */ - // Word16 prev_last_core; /* !!! note: the parameter is identical to last_core in IVAS */ Word16 diff_energy_fx; - Word16 stat_mode_out; - Word16 stat_mode_old; - - Word16 phase_mat_flag; - Word16 phase_mat_next; - Word16 old_Min_ind; - Word16 old_auOut_2fr_fx[L_FRAME8k * 2]; - Word16 old_out_pha_fx[2][N_LEAD_NB]; /* FEC for HQ Core, 0-phase matching old_out, 1-overlapping original old_out and phase matching old_out*/ - Word32 ynrm_values_fx[MAX_SB_NB][MAX_PGF]; - Word32 r_p_values_fx[MAX_SB_NB][MAX_ROW]; - Word16 Norm_gain_fx[SFM_N_NB]; - - /*Word16 old_hqswb_clas;*/ /* only used in inactive code, where it might probably be replaced by old_hqswb_clas_fx */ - - Word16 HQ_FEC_seed; - Word16 energy_MA_Curr_fx[2]; - Word16 prev_sign_switch[HQ_FEC_SIGN_SFM]; - Word16 prev_sign_switch_2[HQ_FEC_SIGN_SFM]; - Word32 old_coeffs_fx[L_FRAME8k]; /* HQ core - old coefficients (for FEC) */ - Word32 oldIMDCTout_fx[L_FRAME8k / 2]; - Word16 prev_oldauOut_fx[L_FRAME8k]; @@ -811,86 +697,52 @@ typedef struct hq_nbfec_structure typedef struct hq_dec_structure { - - Word32 oldOut_fx[L_FRAME48k]; /* HQ core - previous synthesis for OLA */ - Word16 old_out_fx[L_FRAME48k]; /* HQ core - previous synthesis for OLA */ + Word32 old_out_fx32[L_FRAME48k]; /* HQ core - previous synthesis for OLA */ + Word16 old_out_fx[L_FRAME48k]; /* HQ core - previous synthesis for OLA */ Word16 exp_old_out; - Word16 old_out_LB_fx[L_FRAME32k]; /* HQ core - previous synthesis for OLA for Low Band */ - Word32 old_outLB_fx[L_FRAME32k]; + Word32 old_out_LB_fx32[L_FRAME32k]; Word16 q_old_outLB_fx; - Word16 Q_old_wtda_LB; Word16 Q_old_wtda; Word16 Q_old_postdec; /*scaling of the output of core_switching_post_dec_fx() */ - Word16 last_hq_core_type; - Word16 old_is_transient[3]; /* HQ core - previous transient flag (for FEC) */ Word16 mem_norm[SFM_N_ENV_STAB]; /* Q0 */ - - Word16 mem_env_delta; /* Q11 */ - - Word16 no_att_hangover; /* Q0 */ - - Word32 energy_lt_fx; /* Q13 */ - + Word16 mem_env_delta; /* Q11 */ + Word16 no_att_hangover; /* Q0 */ + Word32 energy_lt_fx; /* Q13 */ Word16 hq_generic_seed; - Word16 prev_noise_level_fx[2]; /* Q15 */ - Word16 prev_hqswb_clas; - - Word16 prev_R; /* the table of bit allocation of last frame */ - - Word16 prev_SWB_peak_pos[SPT_SHORTEN_SBNUM]; - + Word16 prev_R; /* the table of bit allocation of last frame */ Word32 prev_coeff_out_fx[L_HQ_WB_BWE]; /* Q12 */ /* the coefficients of last frame */ Word16 prev_SWB_peak_pos_fx[SPT_SHORTEN_SBNUM]; - Word16 HqVoicing; Word16 fer_samples_fx[L_FRAME48k]; Word16 Q_fer_samples; Word32 prev_normq_fx[SFM_N_WB]; /* Q14 */ /* previous norms */ - - - Word32 prev_env_fx[SFM_N_WB]; /* previous noise envelopes */ - + Word32 prev_env_fx[SFM_N_WB]; /* previous noise envelopes */ Word16 prev_env_Q[SFM_N_WB]; - Word32 last_ni_gain_fx[BANDS_MAX]; - Word16 last_env_fx[BANDS_MAX]; - Word16 last_max_pos_pulse; /* pre-echo reduction */ - Word16 memfilt_lb_fx; /* Q0 */ - + Word16 memfilt_lb_fx; /* Q0 */ Word32 mean_prev_hb_fx; /* Q0 */ - - Word16 smoothmem_fx; /* Q15 */ - - Word32 mean_prev_fx; /* Q0 */ - + Word16 smoothmem_fx; /* Q15 */ + Word32 mean_prev_fx; /* Q0 */ Word32 mean_prev_nc_fx; /* Q0 */ - - Word16 wmold_hb_fx; /* Q15 */ - + Word16 wmold_hb_fx; /* Q15 */ Word16 prevflag; - Word16 pastpre; - - Word16 prev_frm_hfe2; - Word16 prev_stab_hfe2; - - Word16 prev_ni_ratio_fx; /* 15 */ - + Word16 prev_ni_ratio_fx; /* 15 */ Word16 prev_En_sb_fx[NB_SWB_SUBBANDS]; /* QsEn(4) */ /*----------------------------------------------------------------------------------* @@ -899,50 +751,30 @@ typedef struct hq_dec_structure /* HQ PHASE ECU internal state */ Word16 time_offs; - Word16 X_sav_fx[PH_ECU_SPEC_SIZE]; - Word16 Q_X_sav; - Word16 num_p; - Word16 plocs[MAX_PLOCS]; - Word32 plocsi_fx[MAX_PLOCS]; - Word16 env_stab_fx; - Word16 mem_norm_hqfec[SFM_N_ENV_STAB]; - Word16 mem_env_delta_hqfec; - Word16 env_stab_plc_fx; - Word16 env_stab_state_p_fx[NUM_ENV_STAB_PLC_STATES]; - Word16 envstabplc_hocnt; Word16 mag_chg_1st_fx[LGW_MAX]; /* i/o: per band magnitude modifier for transients*/ - - Word16 Xavg_fx[LGW_MAX]; /* Frequency group average gain to fade to */ - - Word16 beta_mute_fx; /* Factor for long-term mute */ + Word16 Xavg_fx[LGW_MAX]; /* Frequency group average gain to fade to */ + Word16 beta_mute_fx; /* Factor for long-term mute */ Word16 last_fec; - Word16 ph_ecu_HqVoicing; - Word16 oldHqVoicing; - Word16 oldgapsynth_fx[L_FRAME48k]; - Word16 ph_ecu_active; /* Set if Phase ECU was used in last bad frame */ - Word16 ni_seed_forfec; - Word16 ber_occured_in_pvq; /* flag for BER detection from PVQ routines */ - } HQ_DEC_DATA, *HQ_DEC_HANDLE; @@ -952,20 +784,15 @@ typedef struct hq_dec_structure typedef struct zero_bwe_dec_structure { - Word16 seed2; /* HF (6-7kHz) BWE - seed for random signal generator */ - - - Word16 mem_hp400_fx[6]; /* HF (6-7kHz) BWE - hp400 filter memory */ - Word16 q_mem_hp400_fx; - - Word16 mem_hf_fx[2 * L_FILT16k]; /* HF (6-7kHz) BWE - band-pass filter memory Q(-2-memExp1)*/ - - Word16 mem_syn_hf_fx[M]; /* HF (6-7kHz) BWE - synthesis filter memory Q0*/ - + Word16 seed2; /* HF (6-7kHz) BWE - seed for random signal generator */ + Word16 mem_hp400_fx[6]; /* HF (6-7kHz) BWE - hp400 filter memory */ + Word16 q_mem_hp400_fx; /* Exponent for mem_hp400_fx[] scaling */ + Word16 mem_hf_fx[2 * L_FILT16k]; /* HF (6-7kHz) BWE - band-pass filter memory Q(-2-memExp1)*/ + Word16 mem_syn_hf_fx[M]; /* HF (6-7kHz) BWE - synthesis filter memory Q0 */ Word16 delay_syn_hf_fx[NS2SA( 16000, DELAY_CLDFB_NS )]; /* HF (6-7kHz) BWE - To synchronise BWE content with postfiltered synthesis Q0*/ + Word16 mem_hp_interp_fx[INTERP_3_1_MEM_LEN]; /* HF (6-7 kHz) BWE - interp. memory */ + Word16 memExp1; /* Exponent for mem_hf_fx scaling */ - Word16 mem_hp_interp_fx[INTERP_3_1_MEM_LEN]; /* HF (6-7 kHz) BWE - interp. memory */ - Word16 memExp1; /* Exponent for mem_hf_fx scaling*/ } ZERO_BWE_DEC_DATA, *ZERO_BWE_DEC_HANDLE; @@ -977,147 +804,104 @@ typedef struct td_bwe_dec_structure { /* states for the filters used in generating SHB excitation from WB excitation */ Word16 state_lpc_syn_fx[LPC_SHB_ORDER]; - Word32 mem_csfilt_fx[2]; /* states for the filters used in generating SHB signal from SHB excitation*/ Word16 state_syn_shbexc_fx[L_SHB_LAHEAD]; - Word16 syn_overlap_fx[L_SHB_LAHEAD]; /* overlap buffer used to Adjust SHB Frame Gain*/ - Word32 syn_overlap_fx_32[L_SHB_LAHEAD]; /* overlap buffer used to Adjust SHB Frame Gain*/ + Word32 syn_overlap_fx_32[L_SHB_LAHEAD]; /* overlap buffer used to Adjust SHB Frame Gain, IVAS 32-bit variant */ /* previous frame parameters for frame error concealment */ Word16 lsp_prevfrm_fx[LPC_SHB_ORDER]; - Word32 GainFrame_prevfrm_fx; - Word16 GainShape_Delay_fx[NUM_SHB_SUBFR / 2]; - Word16 GainAttn_fx; - Word16 old_bwe_exc_fx[PIT16k_MAX * 2]; /*Q_exc*/ - Word16 bwe_seed[2]; - Word32 bwe_non_lin_prev_scale_fx; - Word16 old_bwe_exc_extended_fx[NL_BUFF_OFFSET]; - Word32 genSHBsynth_Hilbert_Mem_fx[HILBERT_MEM_SIZE]; Word16 mem_genSHBexc_filt_down_shb_fx[2 * ALLPASSSECTIONS_STEEP + 1]; - Word16 mem_genSHBexc_filt_down_wb2_fx[2 * ALLPASSSECTIONS_STEEP + 1]; - Word16 mem_genSHBexc_filt_down_wb3_fx[2 * ALLPASSSECTIONS_STEEP + 1]; - Word16 genSHBsynth_state_lsyn_filt_shb_local_fx[2 * ALLPASSSECTIONS_STEEP]; - Word32 genSHBsynth_state_lsyn_filt_shb_local_fx_32[2 * ALLPASSSECTIONS_STEEP]; - + Word32 genSHBsynth_state_lsyn_filt_shb_local_fx_32[2 * ALLPASSSECTIONS_STEEP]; /* IVAS 32-bit variant */ Word16 state_lsyn_filt_shb_fx[2 * ALLPASSSECTIONS_STEEP]; - Word32 state_lsyn_filt_shb_fx_32[2 * ALLPASSSECTIONS_STEEP]; - + Word32 state_lsyn_filt_shb_fx_32[2 * ALLPASSSECTIONS_STEEP]; /* IVAS 32-bit variant */ Word16 state_lsyn_filt_dwn_shb_fx[2 * ALLPASSSECTIONS_STEEP]; - Word32 state_lsyn_filt_dwn_shb_fx_32[2 * ALLPASSSECTIONS_STEEP]; - + Word32 state_lsyn_filt_dwn_shb_fx_32[2 * ALLPASSSECTIONS_STEEP]; /* IVAS 32-bit variant */ Word16 mem_resamp_HB_fx[INTERP_3_1_MEM_LEN]; - Word32 mem_resamp_HB_fx_32[INTERP_3_1_MEM_LEN]; - + Word32 mem_resamp_HB_fx_32[INTERP_3_1_MEM_LEN]; /* IVAS 32-bit variant */ Word16 mem_resamp_HB_32k_fx[2 * ALLPASSSECTIONS_STEEP + 1]; - Word32 mem_resamp_HB_32k_fx_32[2 * ALLPASSSECTIONS_STEEP + 1]; + Word32 mem_resamp_HB_32k_fx_32[2 * ALLPASSSECTIONS_STEEP + 1]; /* IVAS 32-bit variant */ + Word32 prev_pow_exc16kWhtnd_fx32; /* power of the LB excitation signal in the previous frame */ + Word16 prev_mix_factor_fx; /* mixing factor in the previous frame */ Word16 state_32and48k_WB_upsample_fx[2 * ALLPASSSECTIONS_STEEP]; /* !!! this memory in FLP is called mem_resamp_HB */ - Word32 prev_pow_exc16kWhtnd_fx32; /* power of the LB excitation signal in the previous frame */ - Word16 prev_mix_factor_fx; /* mixing factor in the previous frame */ - Word16 syn_dm_phase; - Word32 fbbwe_hpf_mem_fx[4][4]; - Word16 fbbwe_hpf_mem_fx_Q[4]; - Word32 prev_wb_bwe_frame_pow_fx; - Word32 prev_swb_bwe_frame_pow_fx; - Word32 prev_ener_fx; - Word16 prev_GainShape_fx; - Word16 fb_state_lpc_syn_fx[LPC_SHB_ORDER]; - Word16 fb_tbe_demph_fx; - Word16 prev_fbbwe_ratio_fx; - Word16 tbe_demph_fx; - Word16 tbe_premph_fx; - Word16 mem_stp_swb_fx[LPC_SHB_ORDER]; - Word16 *ptr_mem_stp_swb_fx; - Word16 gain_prec_swb_fx; - Word16 mem_zero_swb_fx[LPC_SHB_ORDER]; Word16 swb_lsp_prev_interp_fx[LPC_SHB_ORDER]; - Word32 prev1_shb_ener_sf_fx, prev2_shb_ener_sf_fx, prev3_shb_ener_sf_fx; - Word16 prev_res_shb_gshape_fx, prev_mixFactors_fx; - Word16 tilt_mem_fx; - Word16 prev_lsf_diff_fx[LPC_SHB_ORDER - 2]; /*Q15*/ - - Word16 prev_tilt_para_fx; /*Q10*/ - - Word16 cur_sub_Aq_fx[M + 1]; /*Q12*/ - + Word16 prev_tilt_para_fx; /*Q10*/ + Word16 cur_sub_Aq_fx[M + 1]; /*Q12*/ /* quantized data */ Word16 lsf_idx[NUM_Q_LSF]; - Word16 m_idx; - Word16 grid_idx; - Word16 idxSubGains; - Word16 idxFrameGain; - Word16 idx_shb_fr_gain; - Word16 idx_res_gs[NB_SUBFR16k]; - Word16 idx_mixFac; Word16 lsf_WB; - Word16 gFrame_WB; Word16 idxGain; Word16 old_core_synth_fx[L_FRAME16k]; - Word16 old_tbe_synth_fx[L_SHB_TRANSITION_LENGTH]; - Word32 old_tbe_synth_fx_32[L_SHB_TRANSITION_LENGTH]; + Word32 old_tbe_synth_fx_32[L_SHB_TRANSITION_LENGTH]; /* IVAS 32-bit variant */ Word16 int_3_over_2_tbemem_dec_fx[INTERP_3_2_MEM_LEN]; - Word32 int_3_over_2_tbemem_dec_fx_32[INTERP_3_2_MEM_LEN]; + Word32 int_3_over_2_tbemem_dec_fx_32[INTERP_3_2_MEM_LEN]; /* IVAS 32-bit variant */ Word16 old_hb_synth_fx[L_FRAME48k]; Word16 tilt_swb_fec_fx; /* FEC - SWB TBE TILT */ Word16 prev_hb_synth_fx_exp; - + Word16 prev_frame_pow_exp; + Word16 prev_ener_fx_Q; + Word16 prev_lpc_wb_fx[LPC_SHB_ORDER_WB]; + Word16 prev_Q_bwe_syn; + Word16 prev_Q_bwe_syn2; + Word16 prev_Q_bwe_exc_fb; + Word16 prev_Qx; } TD_BWE_DEC_DATA, *TD_BWE_DEC_HANDLE; @@ -1127,42 +911,27 @@ typedef struct td_bwe_dec_structure typedef struct fd_bwe_dec_structure { - Word16 old_wtda_wb_fx_exp; - Word16 L_old_wtda_swb_fx[L_FRAME48k]; Word32 L_old_wtda_swb_fx32[L_FRAME48k]; - Word16 old_wtda_swb_fx_exp; - Word16 old_syn_12k8_16k_fx[NS2SA( 16000, DELAY_FD_BWE_ENC_NS )]; /*Q_syn2-1*/ - Word16 mem_deemph_old_syn_fx; - Word16 prev_mode; - - + Word16 prev_SWB_fenv_fx[SWB_FENV]; Word16 prev_Energy_fx; - Word32 prev_Energy_wb_fx; - Word16 prev_L_swb_norm; - Word16 Seed; - Word16 memExp1; - Word16 prev_frica_flag; - Word16 mem_imdct_fx[L_FRAME48k]; - Word16 mem_imdct_exp_fx; - Word16 prev_td_energy_fx; - Word16 prev_weight_fx; - Word16 prev_flag; - + Word16 last_wb_bwe_ener_fx; + Word16 prev_Q_synth; + Word16 prev_fb_ener_adjust_fx; } FD_BWE_DEC_DATA, *FD_BWE_DEC_HANDLE; @@ -1173,22 +942,13 @@ typedef struct fd_bwe_dec_structure typedef struct hr_swb_bwe_dec_structure { - - Word16 bwe_highrate_seed; Word16 bwe_highrate_seed_fx; - Word16 t_audio_prev_fx[2 * END_FREQ_BWE_FULL_FB / 50 - NUM_NONTRANS_START_FREQ_COEF]; - Word16 t_audio_prev_fx_exp[NUM_TIME_SWITCHING_BLOCKS]; - - Word16 old_is_transient_hr_bwe; Word16 old_is_transient_hr_bwe_fx; - Word32 L_mem_EnergyLT_fx; - Word16 mem_EnergyLT_fx_exp; - } HR_BWE_DEC_DATA, *HR_BWE_DEC_HANDLE; @@ -1216,45 +976,26 @@ typedef struct amrwb_io_dec_structure { Word16 past_qua_en_fx[GAIN_PRED_ORDER]; /* gain quantization memory (used also in AMR-WB IO mode) */ - Word16 prev_r_fx; /* HF BWE - previous sub-frame gain */ - - Word16 fmerit_w_sm_fx; /* HF BWE - fmerit parameter memory */ - - Word16 frame_count; /* HF BWE - frame count */ - Word16 frame_count_fx; /* HF BWE - frame count */ - Word16 ne_min_fx; /* HF BWE - minimum Noise gate - short-term energy */ - - Word16 fmerit_m_sm_fx; /* HF BWE - memory of fmerit_m param */ - + Word16 prev_r_fx; /* HF BWE - previous sub-frame gain */ + Word16 fmerit_w_sm_fx; /* HF BWE - fmerit parameter memory */ + Word16 frame_count_fx; /* HF BWE - frame count */ + Word16 ne_min_fx; /* HF BWE - minimum Noise gate - short-term energy */ + Word16 fmerit_m_sm_fx; /* HF BWE - memory of fmerit_m param */ Word16 voice_fac_amr_wb_hf; /* HF BWE - voice factor */ - - Word16 unvoicing_fx; /* HF BWE - unvoiced parameter */ - - Word16 unvoicing_sm_fx; /* HF BWE - smoothed unvoiced parameter */ - - Word16 unvoicing_flag; /* HF BWE - unvoiced flag */ - Word16 unvoicing_flag_fx; /* HF BWE - unvoiced flag */ - - Word16 voicing_flag; /* HF BWE - voiced flag */ - Word16 voicing_flag_fx; /* HF BWE - voiced flag */ - - Word16 start_band_old; /* HF BWE - previous start point for copying frequency band */ - Word16 start_band_old_fx; /* HF BWE - previous start point for copying frequency band */ - Word32 OptCrit_old_fx; /* HF BWE - previous criterion value for deciding the start point */ + Word16 unvoicing_fx; /* HF BWE - unvoiced parameter */ + Word16 unvoicing_sm_fx; /* HF BWE - smoothed unvoiced parameter */ + Word16 unvoicing_flag_fx; /* HF BWE - unvoiced flag */ + Word16 voicing_flag_fx; /* HF BWE - voiced flag */ + Word16 start_band_old_fx; /* HF BWE - previous start point for copying frequency band */ + Word32 OptCrit_old_fx; /* HF BWE - previous criterion value for deciding the start point */ /* Improvement of unvoiced and audio signals in AMR-WB IO mode */ - Word16 UV_cnt; /* number of consecutives frames classified as UV */ - Word16 UV_cnt_fx; /* number of consecutives frames classified as UV */ - Word16 LT_UV_cnt_fx; /* long-term consecutives frames classified as UV */ - - Word16 Last_ener_fx; /* last_energy frame */ - + Word16 UV_cnt_fx; /* number of consecutives frames classified as UV */ + Word16 LT_UV_cnt_fx; /* long-term consecutives frames classified as UV */ + Word16 Last_ener_fx; /* last_energy frame */ Word16 lt_diff_etot_fx[MAX_LT]; /* stability estimation - long-term total energy variation */ - - Word16 old_Aq_fx[68]; /* old LPC filter coefficient */ - - Word16 lt_voice_fac_fx; /* average voice factor over 4 sub-frames */ - + Word16 old_Aq_fx[68]; /* old LPC filter coefficient */ + Word16 lt_voice_fac_fx; /* average voice factor over 4 sub-frames */ } AMRWB_IO_DEC_DATA, *AMRWB_IO_DEC_HANDLE; @@ -1272,115 +1013,74 @@ typedef struct Decoder_State * Common parameters *----------------------------------------------------------------------------------*/ - Word16 idchan; /* channel ID (audio channel number) */ - Word16 element_mode; /* element mode */ + Word16 idchan; /* channel ID (audio channel number) */ + Word16 element_mode; /* element mode */ +#ifdef DEBUGGING + Word16 id_element; /* element ID */ +#endif Word32 element_brate; /* element bitrate */ Word16 codec_mode; /* Mode 1 or 2 */ Word16 mdct_sw_enable; /* MDCT switching enable flag */ Word16 mdct_sw; /* MDCT switching indicator */ Word16 last_codec_mode; /* last used codec mode */ - UWord16 *bit_stream; /* pointer to bitstream buffer */ - - Word16 next_bit_pos; /* position of the next bit to be read from the bitstream */ - - Word16 bitstreamformat; /* Bitstream format flag (G.192/MIME/VOIP_G192_RTP/VOIP_RTPDUMP) */ - Word16 sdp_hf_only; /* RTP payload format parameter: only Header-Full format without zero padding for size collision avoidance */ - Word16 amrwb_rfc4867_flag; /* MIME from rfc4867 is used */ - Word16 total_num_bits; /* == st->total_brate / 50 */ - - Word16 BER_detect; /* flag to signal detected bit error in the bitstream */ - - Word32 output_Fs; /* output sampling rate */ - - Word16 output_frame_fx; /* Output frame length Q0*/ - - Word32 total_brate; /* total bitrate in kbps of the codec */ - - Word32 last_total_brate; /* last total bitrate in kbps of the codec */ - // Word32 last_total_brate_fx; /* last total bitrate in kbps of the codec Q0*/ - - Word32 last_total_brate_ber; /* last total bitrate in kbps of the codec - used only when first frame is lost and BER is detected afterwards */ - - Word16 bits_frame_nominal; /* avg bits per frame on active frame */ - Word32 last_bits_frame_nominal; /* last avg bits per frame on active frame */ - Word16 flag_ACELP16k; /* flag indicating use of ACELP core at 16kHz internal sampling rate */ - Word16 bits_frame_channel; /* bits frame channel */ - Word16 side_bits_frame_channel; /* bits frame channel */ - - Word16 core; /* core (ACELP_CORE, TCX_20_CORE, TCX_10_CORE, HQ_CORE, AMR_WB_CORE) */ - - Word16 coder_type; /* coder type */ - Word16 transform_type[2]; /* TCX20/10/5 mode in each subframe */ - - Word32 core_brate; /* core bitrate */ - - Word32 last_core_brate; /* previous frame core bitrate */ - - Word16 extl; /* extension layer */ - - Word16 extl_orig; /* extension layer */ - - Word16 last_extl; /* previous extension layer */ - - Word32 extl_brate; /* extension layer bitrate */ - - Word32 extl_brate_orig; /* extension layer bitrate */ - - Word16 L_frame; /* ACELP core internal frame length */ - - Word16 bwidth; /* encoded signal bandwidth */ - - Word16 Opt_AMR_WB; /* flag indicating AMR-WB IO mode */ - - Word16 Opt_VOIP_fx; /* flag indicating VOIP mode with JBM */ - - Word16 ini_frame; /* initialization frames counter */ - + UWord16 *bit_stream; /* pointer to bitstream buffer */ + Word16 next_bit_pos; /* position of the next bit to be read from the bitstream */ + Word16 bitstreamformat; /* Bitstream format flag (G.192/MIME/VOIP_G192_RTP/VOIP_RTPDUMP) */ + Word16 sdp_hf_only; /* RTP payload format parameter: only Header-Full format without zero padding for size collision avoidance */ + Word16 amrwb_rfc4867_flag; /* MIME from rfc4867 is used */ + Word16 total_num_bits; /* == st->total_brate / 50 */ + Word16 BER_detect; /* flag to signal detected bit error in the bitstream */ + Word32 output_Fs; /* output sampling rate */ + Word16 output_frame_fx; /* Output frame length Q0*/ + Word32 total_brate; /* total bitrate in kbps of the codec */ + Word32 last_total_brate; /* last total bitrate in kbps of the codec */ + Word32 last_total_brate_ber; /* last total bitrate in kbps of the codec - used only when first frame is lost and BER is detected afterwards */ + Word16 bits_frame_nominal; /* avg bits per frame on active frame */ + Word32 last_bits_frame_nominal; /* last avg bits per frame on active frame */ + Word16 flag_ACELP16k; /* flag indicating use of ACELP core at 16kHz internal sampling rate */ + Word16 bits_frame_channel; /* bits frame channel */ + Word16 side_bits_frame_channel; /* bits frame channel */ + Word16 core; /* core (ACELP_CORE, TCX_20_CORE, TCX_10_CORE, HQ_CORE, AMR_WB_CORE) */ + Word16 coder_type; /* coder type */ + Word16 transform_type[2]; /* TCX20/10/5 mode in each subframe */ + Word32 core_brate; /* core bitrate */ + Word32 last_core_brate; /* previous frame core bitrate */ + Word16 extl; /* extension layer */ + Word16 extl_orig; /* extension layer */ + Word16 last_extl; /* previous extension layer */ + Word32 extl_brate; /* extension layer bitrate */ + Word32 extl_brate_orig; /* extension layer bitrate */ + Word16 L_frame; /* ACELP core internal frame length */ + Word16 bwidth; /* encoded signal bandwidth */ + Word16 Opt_AMR_WB; /* flag indicating AMR-WB IO mode */ + Word16 Opt_VOIP_fx; /* flag indicating VOIP mode with JBM */ + Word16 ini_frame; /* initialization frames counter */ Word16 prev_coder_type; /* coding type of last frame */ Word16 low_rate_mode; /* low-rate mode flag */ Word16 last_low_rate_mode; /* previous frame low-rate mode flag */ Word16 inactive_coder_type_flag; /* inactive coder type flag (0 = AVQ / 1 = GSC) */ - Word16 CNG_fx; /* RXDTX handler: CNG=1, nonCNG=0 */ - Word16 prev_ft_speech_fx; /* RXDTX handler: previous frametype flag for G.192 format AMRWB SID_FIRST detection */ - - - // note_ : produces failures if added below their float parts - Word16 old_exc_fx[L_EXC_MEM_DEC]; /* old excitation Q_exc*/ - Word16 lsf_old_fx[M]; /* old LSF vector at the end of the frame Q2.56*/ - Word16 lsp_old_fx[M]; /* old LSP vector at the end of the frame Q15*/ - /*----------------------------------------------------------------------------------* * ACELP core parameters *----------------------------------------------------------------------------------*/ - - Word16 tilt_code_fx; /* tilt of code Q15*/ - - - Word16 mem_syn1_fx[M]; /* synthesis filter memory (for core switching and FD BWE) */ - Word16 mem_syn2_fx[M]; /* synthesis filter memory Q_syn*/ + Word16 old_exc_fx[L_EXC_MEM_DEC]; /* old excitation Q_exc*/ + Word16 lsf_old_fx[M]; /* old LSF vector at the end of the frame Q2.56*/ + Word16 lsp_old_fx[M]; /* old LSP vector at the end of the frame Q15*/ + Word16 tilt_code_fx; /* tilt of code Q15*/ + Word16 mem_syn1_fx[M]; /* synthesis filter memory (for core switching and FD BWE) */ + Word16 mem_syn2_fx[M]; /* synthesis filter memory Q_syn*/ Word16 mem_syn3_fx[M]; - - Word16 mem_deemph_fx; /* deemphasis filter memory Q_syn*/ - - Word16 mem_AR_fx[M]; /* AR memory of LSF quantizer (past quantized LSFs without mean)(Qx2.56) */ - - Word16 mem_MA_fx[M]; /* MA memory of LSF quantizer (past quantized residual)(Qx2.56)*/ - - Word16 stab_fac_fx; /* LSF stability factor Q15*/ - + Word16 mem_deemph_fx; /* deemphasis filter memory Q_syn*/ + Word16 mem_AR_fx[M]; /* AR memory of LSF quantizer (past quantized LSFs without mean)(Qx2.56) */ + Word16 mem_MA_fx[M]; /* MA memory of LSF quantizer (past quantized residual)(Qx2.56)*/ + Word16 stab_fac_fx; /* LSF stability factor Q15*/ Word16 stab_fac_smooth_fx; /* low-pass filtered stability factor Q15*/ - - Word16 last_coder_type; /* previous coder type */ - - Word16 agc_mem_fx[2]; /* memory of AGC for saturation control Q0*/ - + Word16 last_coder_type; /* previous coder type */ + Word16 agc_mem_fx[2]; /* memory of AGC for saturation control Q0*/ Word16 mid_lsf_int; - Word16 safety_net; - Word32 log_energy_diff_lt_fx; /*In range of word16*/ /*Q-15*/ Word16 stab_fac_smooth_lt_fx; /*In range of word16*/ /*Q-15*/ Word32 log_energy_old_fx; @@ -1393,145 +1093,88 @@ typedef struct Decoder_State Word16 no_scales_p_fx[MAX_NO_MODES_p][2]; /* LSF LVQ structure Q0*/ Word32 L_mem_hp_out_fx[5]; /* hp filter memory for synthesis */ - - Word16 GSC_noisy_speech; /* AC mode (GSC) - flag to indicate GSC on SWB noisy speech */ - - Word16 GSC_IVAS_mode; /* AC mode (GSC) - GSC IVAS mode */ - + Word16 GSC_noisy_speech; /* AC mode (GSC) - flag to indicate GSC on SWB noisy speech */ + Word16 GSC_IVAS_mode; /* AC mode (GSC) - GSC IVAS mode */ Word16 Last_GSC_noisy_speech_flag; /* AC mode (GSC) - mem of the past flag to indicate GSC osn SWB noisy speech */ - GSC_DEC_HANDLE hGSCDec; - - Word32 gc_threshold_fx; /* Noise enhancer - threshold for gain_code Q16*/ - + Word32 gc_threshold_fx; /* Noise enhancer - threshold for gain_code Q16*/ struct dispMem_fx dm_fx; /* Noise enhancer - phase dispersion algorithm memory */ ZERO_BWE_DEC_HANDLE hBWE_zero; /* HF (6-7kHz) BWE */ - Word16 unv_cnt; /* Stationary noise UV modification - unvoiced frame counter */ - - Word16 uv_count; /* Stationary noise UV modification - unvoiced counter */ - - Word16 act_count; /* Stationary noise UV modification - activation counter */ - - Word32 ge_sm_fx; /* Stationary noise UV modification - smoothed excitation gain Q(GE_SHIFT)*/ - - Word16 lspold_s_fx[M]; /* Stationary noise UV modification - old LSP vector Q15*/ - - Word16 noimix_seed; /* Stationary noise UV modification - mixture seed */ - - Word16 min_alpha_fx; /* Stationary noise UV modification - minimum alpha Q15*/ - - Word16 Q_stat_noise; /* Q of Exc_pe */ - - Word16 exc_pe_fx; /* Stationary noise UV modification - scale (Q_stat_noise) */ - + Word16 unv_cnt; /* Stationary noise UV modification - unvoiced frame counter */ + Word16 uv_count; /* Stationary noise UV modification - unvoiced counter */ + Word16 act_count; /* Stationary noise UV modification - activation counter */ + Word32 ge_sm_fx; /* Stationary noise UV modification - smoothed excitation gain Q(GE_SHIFT)*/ + Word16 lspold_s_fx[M]; /* Stationary noise UV modification - old LSP vector Q15*/ + Word16 noimix_seed; /* Stationary noise UV modification - mixture seed */ + Word16 min_alpha_fx; /* Stationary noise UV modification - minimum alpha Q15*/ + Word16 Q_stat_noise; /* Q of Exc_pe */ + Word16 exc_pe_fx; /* Stationary noise UV modification - scale (Q_stat_noise) */ Word16 Q_stat_noise_ge; /* Q of ge_sm_fx */ - - Word16 bfi; /* FEC - bad frame indicator */ - - Word16 prev_bfi; /* FEC - previous bad frame indicator */ - - Word16 prev_old_bfi; /* FEC - previous old bad frame indicator */ - - Word16 seed; /* FEC - seed for random generator for excitation */ - // Word16 seed_fx; /* FEC - seed for random generator for excitation Q0*/ - - - Word16 last_good; /* FEC - clas of last good received */ - - Word16 lp_gainp_fx; /* FEC - low-pass filtered pitch gain Q14 */ - - Word16 lp_gainc_fx; /* FEC - low-pass filtered code gain Q3*/ - - Word32 lp_ener_fx; /* FEC - low-pass filtered energy Q6*/ - - Word32 enr_old_fx; /* FEC - energy of the concealed frame Q0*/ - - Word16 bfi_pitch_fx; /* FEC - pitch for FEC */ - - Word16 bfi_pitch_frame; /* FEC - frame length when pitch for FEC is saved */ - + Word16 bfi; /* FEC - bad frame indicator */ + Word16 prev_bfi; /* FEC - previous bad frame indicator */ + Word16 prev_old_bfi; /* FEC - previous old bad frame indicator */ + Word16 seed; /* FEC - seed for random generator for excitation */ + Word16 last_good; /* FEC - clas of last good received */ + Word16 lp_gainp_fx; /* FEC - low-pass filtered pitch gain Q14 */ + Word16 lp_gainc_fx; /* FEC - low-pass filtered code gain Q3*/ + Word32 lp_ener_fx; /* FEC - low-pass filtered energy Q6*/ + Word32 enr_old_fx; /* FEC - energy of the concealed frame Q0*/ + Word16 bfi_pitch_fx; /* FEC - pitch for FEC */ + Word16 bfi_pitch_frame; /* FEC - frame length when pitch for FEC is saved */ Word16 old_pitch_buf_16_fx[2 * NB_SUBFR16k + 2]; /* FEC - buffer of old subframe pitch values Q6 */ Word32 old_pitch_buf_fx[2 * NB_SUBFR16k + 2]; /* FEC - buffer of old subframe pitch values 15Q16 */ - - Word16 upd_cnt; /* FEC - counter of frames since last update */ - - Word16 scaling_flag; /* FEC - flag to indicate energy control of syn */ - - Word32 lp_ener_FEC_av; /* FEC - averaged voiced signal energy Q0 */ - - Word32 lp_ener_FEC_max; /* FEC - averaged voiced signal energy Q0 */ - - Word16 old_enr_LP; /* FEC - LP filter gain Q5*/ - - Word16 prev_nbLostCmpt; /* FEC - compt for number of consecutive lost frame at the previous frame*/ - Word16 mode_lvq; /* FEC - index for LSF mean vector*/ - - - Word16 lsfoldbfi0_fx[M]; /* FEC - LSF vector of the previous frame (Qx2.56)*/ - - Word16 lsfoldbfi1_fx[M]; /* FEC - LSF vector of the past previous frame (Qx2.56) */ - - Word16 lsf_adaptive_mean_fx[M]; /* FEC - adaptive mean LSF vector for FEC (Qx2.56)*/ - - Word16 decision_hyst; /* FEC - hysteresis of the music/speech decision */ - - Word16 lp_ener_FER_fx; /* FEC - long-term active-signal average energy Q8*/ - - + Word16 upd_cnt; /* FEC - counter of frames since last update */ + Word16 scaling_flag; /* FEC - flag to indicate energy control of syn */ + Word32 lp_ener_FEC_av; /* FEC - averaged voiced signal energy Q0 */ + Word32 lp_ener_FEC_max; /* FEC - averaged voiced signal energy Q0 */ + Word16 old_enr_LP; /* FEC - LP filter gain Q5*/ + Word16 prev_nbLostCmpt; /* FEC - compt for number of consecutive lost frame at the previous frame*/ + Word16 mode_lvq; /* FEC - index for LSF mean vector*/ + Word16 lsfoldbfi0_fx[M]; /* FEC - LSF vector of the previous frame (Qx2.56)*/ + Word16 lsfoldbfi1_fx[M]; /* FEC - LSF vector of the past previous frame (Qx2.56) */ + Word16 lsf_adaptive_mean_fx[M]; /* FEC - adaptive mean LSF vector for FEC (Qx2.56)*/ + Word16 decision_hyst; /* FEC - hysteresis of the music/speech decision */ + Word16 lp_ener_FER_fx; /* FEC - long-term active-signal average energy Q8*/ WI_DEC_HANDLE hWIDec; - Word16 relax_prev_lsf_interp; - Word16 mem_syn_clas_estim_fx[L_SYN_MEM_CLAS_ESTIM]; /* FEC - memory of the synthesis signal for frame class estimation */ - Word16 bpf_off; /* Bass post-filter - do not use BPF when this flag is set to 1 */ - + Word16 bpf_off; /* Bass post-filter - do not use BPF when this flag is set to 1 */ BPF_DEC_HANDLE hBPF; /* Bass post-filter handle */ - HANDLE_CLDFB_FILTER_BANK cldfbAna; /* main analysis filter bank handle */ - - HANDLE_CLDFB_FILTER_BANK cldfbBPF; /* BPF analysis filter bank handle */ - - HANDLE_CLDFB_FILTER_BANK cldfbSyn; /* main synthesis filter bank handle */ - + HANDLE_CLDFB_FILTER_BANK cldfbAna; /* main analysis filter bank handle */ + HANDLE_CLDFB_FILTER_BANK cldfbBPF; /* BPF analysis filter bank handle */ + HANDLE_CLDFB_FILTER_BANK cldfbSyn; /* main synthesis filter bank handle */ HANDLE_CLDFB_FILTER_BANK cldfbSynHB; /* high band synthesis filter bank needed in SBA2Stereo DTX handling */ - Word16 last_active_bandsToZero_bwdec; Word16 last_flag_filter_NB; - Word16 perc_bwddec; /*Q14*/ - Word16 active_frame_cnt_bwddec; Word16 flag_buffer[20]; Word16 total_frame_cnt_bwddec; - Word32 avg_nrg_LT; - Word16 Ng_ener_ST_fx; /* Noise gate - short-term energy Q8*/ - Word16 last_L_frame; /* ACELP@16kHz - last value of st->L_frame */ - + Word16 last_L_frame; /* ACELP@16kHz - last value of st->L_frame */ Word16 mem_preemp_preQ_fx; /* ACELP@16kHz - prequantizer preemhasis memory */ - - Word16 last_nq_preQ; /* ACELP@16kHz - AVQ subquantizer number of the last sub-band of the last subframe */ - - Word16 last_code_preq; /* ACELP@16kHz - last coefficient of the pre-quantizer contribution */ - - Word16 use_acelp_preq; /* ACELP@16kHz - flag of prequantizer usage */ - + Word16 last_nq_preQ; /* ACELP@16kHz - AVQ subquantizer number of the last sub-band of the last subframe */ + Word16 last_code_preq; /* ACELP@16kHz - last coefficient of the pre-quantizer contribution */ + Word16 use_acelp_preq; /* ACELP@16kHz - flag of prequantizer usage */ /* NB and formant post-filter */ PFSTAT_HANDLE hPFstat; /* NB and formant post-filter states */ - Word16 psf_lp_noise_fx; - Word16 last_voice_factor_fx; /* Q6*/ - + Word16 last_voice_factor_fx; /* Q6*/ + Word16 prev_synth_buffer_fx[NS2SA( 48000, IVAS_DEC_DELAY_NS - DELAY_CLDFB_NS )]; /*Updated IVAS size is 96*/ + Word32 prev_synth_buffer32_fx[NS2SA( 48000, IVAS_DEC_DELAY_NS - DELAY_CLDFB_NS )]; + Word16 q_prev_synth_buffer_fx; + Word16 Qprev_synth_buffer_fx; Word16 old_bfi_cnt; /* HQ core - # of bfi until previous frame(for FEC) */ @@ -1540,23 +1183,16 @@ typedef struct Decoder_State *----------------------------------------------------------------------------------*/ Word16 first_CNG; /* DTX/CNG - first CNG frame flag */ - - Word16 cng_type; /* DTX/CNG - flag indicating LP or CLDFB based SID/CNG */ - - Word16 last_vad; - + Word16 cng_type; /* DTX/CNG - flag indicating LP or CLDFB based SID/CNG */ + Word16 last_vad_fx; Word32 last_active_brate; /* DTX/CNG - last active frame bitrate used for CNG_mode control */ + Word16 last_CNG_L_frame; /* DTX/CNG - last CNG frame length */ - Word16 last_CNG_L_frame; /* DTX/CNG - last CNG frame length */ - // Word16 last_CNG_L_frame_fx; /* DTX/CNG - last CNG frame length */ - - Word16 CNG_mode; /* DTX/CNG - mode for DTX configuration */ - // Word16 CNG_mode_fx; /* DTX/CNG - mode for DTX configuration */ + Word16 active_cnt; + Word16 CNG_mode; /* DTX/CNG - mode for DTX configuration */ Word16 lspCNG_fx[M]; /* CNG and DTX - LP filtered ISPs Q15*/ - Word16 active_cnt; - TD_CNG_DEC_HANDLE hTdCngDec; Word16 masa_sid_format; @@ -1573,20 +1209,12 @@ typedef struct Decoder_State SC_VBR_DEC_HANDLE hSC_VBR; Word16 last_ppp_mode_dec; - Word16 ppp_mode_dec; - Word16 last_nelp_mode_dec; - Word16 nelp_mode_dec; - - Word16 prev_gain_pit_dec_fx; /*Q14*/ - - + Word16 prev_gain_pit_dec_fx; /*Q14*/ Word16 prev_tilt_code_dec_fx; /*Q15*/ - Word16 vbr_hw_BWE_disable_dec; - Word16 last_vbr_hw_BWE_disable_dec; /*----------------------------------------------------------------------------------* @@ -1616,7 +1244,6 @@ typedef struct Decoder_State *----------------------------------------------------------------------------------*/ HR_BWE_DEC_HANDLE hBWE_FD_HR; - Word16 Qprev_synth_buffer_fx; /*----------------------------------------------------------------------------------* * HQ core parameters @@ -1625,26 +1252,18 @@ typedef struct Decoder_State HQ_DEC_HANDLE hHQ_core; Word16 last_core; - Word16 last_core_from_bs; /* last frame core as coded in TCX bitstream */ - // Word16 last_core_bs_fx; Word16 last_L_frame_ori; - Word16 previoussynth_fx[L_FRAME48k]; Word32 previoussynth_fx_32[L_FRAME48k]; - - Word16 old_synth_sw_fx[NS2SA( 48000, FRAME_SIZE_NS - ACELP_LOOK_NS - DELAY_BWE_TOTAL_NS )]; - Word16 delay_buf_out_fx[HQ_DELTA_MAX * HQ_DELAY_COMP]; /*Q0*/ Word32 delay_buf_out32_fx[HQ_DELTA_MAX * HQ_DELAY_COMP]; /*Q11*/ - Word16 old_Aq_12_8_fx[M + 1]; /* Q12 old Aq[] for core switching */ Word32 old_Aq_12_8_fx_32[M + 1]; /* Q28 old Aq[] for core switching */ - - Word16 old_Es_pred_fx; /* old Es_pred for core switching */ + Word16 old_Es_pred_fx; /* old Es_pred for core switching */ HQ_NBFEC_HANDLE hHQ_nbfec; @@ -1655,74 +1274,41 @@ typedef struct Decoder_State TD_BWE_DEC_HANDLE hBWE_TD; Word16 old_bwe_delay; - Word16 hb_prev_synth_buffer_fx[NS2SA( 48000, DELAY_BWE_TOTAL_NS )]; /* WB/SWB bandwidth switching */ - Word16 tilt_wb_fx; // Q11 - - Word16 tilt_swb_fx; // Q24 - + Word16 tilt_wb_fx; // Q11 + Word16 tilt_swb_fx; // Q24 Word16 prev_ener_shb_fx; // Q1 - Word32 enerLH_fx; Word16 enerLH_fx_Q; - Word32 prev_enerLH_fx; // Q1 - Word32 enerLL_fx; Word16 enerLL_fx_Q; - Word32 prev_enerLL_fx; // Q1 - Word16 prev_fractive; - Word16 prev_bws_cnt; - Word16 bws_cnt; - Word16 bws_cnt1; - Word16 attenu_fx; - Word16 last_inner_frame; - Word16 last_bwidth; - Word16 t_audio_q_fx[L_FRAME]; - Word16 interpol_3_2_cng_dec_fx[INTERP_3_2_MEM_LEN]; - /*----------------------------------------------------------------------------------* * Fixed point only *----------------------------------------------------------------------------------*/ + Word16 Q_exc; Word16 Q_exc_cng; Word16 prev_Q_exc; Word16 Q_subfr[L_Q_MEM]; - Word16 prev_Q_bwe_syn; - Word16 prev_Q_bwe_syn2; - - Word16 prev_Q_bwe_exc_fb; - Word16 prev_Qx; - Word16 prev_Q_bwe_exc; - Word16 prev_Q_synth; - Word16 prev_SWB_fenv_fx[SWB_FENV]; - Word16 Q_syn; Word16 Q_syn2; Word16 Q_syn_cng; Word16 prev_Q_syn; - Word16 prev_frame_pow_exp; - Word16 prev_ener_fx_Q; - Word16 last_wb_bwe_ener_fx; - Word16 prev_fb_ener_adjust_fx; - - Word16 prev_synth_buffer_fx[NS2SA( 48000, IVAS_DEC_DELAY_NS - DELAY_CLDFB_NS )]; /*Updated IVAS size is 96*/ - Word16 q_prev_synth_buffer_fx; - Word16 GainShape_Delay[NUM_SHB_SUBFR / 2]; - Word16 prev_lpc_wb_fx[LPC_SHB_ORDER_WB]; + Word16 prev_Q_bwe_exc; /*----------------------------------------------------------------------------------* * SWB BWE structure @@ -1730,22 +1316,6 @@ typedef struct Decoder_State FD_BWE_DEC_HANDLE hBWE_FD; - /*----------------------------------------------------------------------------------* - * SWB DTX/CNG parameters - *----------------------------------------------------------------------------------*/ - - Word16 shb_cng_ener_fx; - Word16 wb_cng_ener_fx; - Word16 last_wb_cng_ener_fx; - Word16 last_shb_cng_ener_fx; - Word16 swb_cng_seed; - Word16 lsp_shb_prev_prev_fx[LPC_SHB_ORDER]; - Word16 lsp_shb_prev_fx[LPC_SHB_ORDER]; - Word16 shb_dtx_count_fx; - Word16 last_vad_fx; - Word16 trans_cnt_fx; - Word16 last_shb_ener_fx; - /*----------------------------------------------------------------------------------* * LD music post-filter *----------------------------------------------------------------------------------*/ @@ -1755,6 +1325,7 @@ typedef struct Decoder_State /*----------------------------------------------------------------------------------* * TCX LTP decoder handle *----------------------------------------------------------------------------------*/ + TCX_LTP_DEC_HANDLE hTcxLtpDec; /*----------------------------------------------------------------------------------* @@ -1763,6 +1334,7 @@ typedef struct Decoder_State TCX_DEC_HANDLE hTcxDec; + /* in floating point implementation, different buffers are used: lp_error_ener <-> pst_lp_ener, mem_error <-> pst_mem_deemp_err */ Word32 lp_error_ener; Word32 mem_error; @@ -1791,43 +1363,25 @@ typedef struct Decoder_State Word16 L_frame_past; Word16 L_frameTCX_past; - Word16 lsfold_uw[M]; /* old lsf (unweighted) */ - - Word16 lspold_uw[M]; /* old lsp (unweighted) */ - - Word16 seed_tcx_plc; /* seed memory (for random function in TCX PLC) */ - - + Word16 lsfold_uw[M]; /* old lsf (unweighted) */ + Word16 lspold_uw[M]; /* old lsp (unweighted) */ + Word16 seed_tcx_plc; /* seed memory (for random function in TCX PLC) */ Word16 past_gpit; /* past gain of pitch (for frame recovery) */ Word32 past_gcode; /* past energy (!) of code (for frame recovery) */ /*15Q16*/ - - Word16 lsf_cng[M]; /* xSF coefficients used for CNG generation (long term) */ - - Word16 lspold_cng[M]; /* xSP coefficients used for CNG generation (long term) */ - - Word16 lsp_q_cng[M]; /* xSP coefficients used for CNG generation (short term interpolated) */ - - Word16 old_lsp_q_cng[M]; /* xSP coefficients used for CNG generation (short term interpolated) */ - - Word16 lsf_q_cng[M]; /* xSF coefficients used for CNG generation (short term interpolated) */ - - Word16 old_lsf_q_cng[M]; /* xSF: old quantized lsfs for background noise */ - - Word16 Aq_cng[( NB_SUBFR16k + 1 ) * ( M + 1 )]; /* LPC coefficients derived from CNG estimate */ - - Word16 mem_syn_unv_back[M]; /* filter memory for unvoiced synth */ - - Word16 plcBackgroundNoiseUpdated; /* flag: Is background noise estimate updated? */ - - Word16 last_gain_syn_deemph; /*Q15*/ - + Word16 lsf_cng[M]; /* xSF coefficients used for CNG generation (long term) */ + Word16 lspold_cng[M]; /* xSP coefficients used for CNG generation (long term) */ + Word16 lsp_q_cng[M]; /* xSP coefficients used for CNG generation (short term interpolated) */ + Word16 old_lsp_q_cng[M]; /* xSP coefficients used for CNG generation (short term interpolated) */ + Word16 lsf_q_cng[M]; /* xSF coefficients used for CNG generation (short term interpolated) */ + Word16 old_lsf_q_cng[M]; /* xSF: old quantized lsfs for background noise */ + Word16 Aq_cng[( NB_SUBFR16k + 1 ) * ( M + 1 )]; /* LPC coefficients derived from CNG estimate */ + Word16 mem_syn_unv_back[M]; /* filter memory for unvoiced synth */ + Word16 plcBackgroundNoiseUpdated; /* flag: Is background noise estimate updated? */ + Word16 last_gain_syn_deemph; /*Q15*/ Word16 last_gain_syn_deemph_e; - Word16 last_concealed_gain_syn_deemph; /*Q15*/ - Word16 last_concealed_gain_syn_deemph_e; - /* variables for framing */ Word16 nb_subfr; @@ -1845,10 +1399,7 @@ typedef struct Decoder_State /*Preemphasis factor*/ Word16 preemph_fac; /*0Q15*/ - - Word16 gamma; - Word16 inv_gamma; /*for AMR-WB like 6.4 to 7 kHz upsampling and noise filling*/ @@ -1858,34 +1409,22 @@ typedef struct Decoder_State Word16 last_core_bfi; /* PLC - mode in previous frame */ Word16 nbLostCmpt; /* PLC - compt for number of consecutive lost frame */ - Word32 old_fpitch; /* last pitch of previous frame */ /*15Q16*/ - + Word32 old_fpitch; /* last pitch of previous frame */ /*15Q16*/ Word32 old_fpitchFB; /* PLC - last pitch of previous FB frame (depends on output sr) */ /*15Q16*/ - - Word16 clas_dec; /* PLC - frame class at the decoder */ - - Word16 mem_pitch_gain[2 * NB_SUBFR16k + 2]; /* Pitch gain memory Q14 */ - - Word16 plc_use_future_lag; /* PLC - flag indicating if info (pitch lag / pitch gain) about future frame is usable */ + Word16 clas_dec; /* PLC - frame class at the decoder */ + Word16 mem_pitch_gain[2 * NB_SUBFR16k + 2]; /* Pitch gain memory Q14 */ + Word16 plc_use_future_lag; /* PLC - flag indicating if info (pitch lag / pitch gain) about future frame is usable */ Word32 Mode2_lp_gainc; /* 15Q16 low passed code gain used for concealment*/ Word32 Mode2_lp_gainp; /* 15Q16 low passed pitch gain used for concealment*/ - Word16 cummulative_damping; /*Q15*/ - Word16 cngTDLevel; Word16 cngTDLevel_e; - - Word16 prev_widow_left_rect; - Word16 reset_mem_AR; - Word16 classifier_Q_mem_syn; /*scalingfactor of mem_syn_clas_estim_fx in MODE2 */ - Word16 rate_switching_init; - /* LPC quantization */ Word16 lpcQuantization; Word16 numlpc; @@ -1899,8 +1438,6 @@ typedef struct Decoder_State Word16 last_ctx_hm_enabled; - struct tonalmdctconceal tonalMDCTconceal; - TonalMDCTConcealPtr hTonalMDCTConc; Word16 tonal_mdct_plc_active; Word16 last_tns_active; @@ -1925,7 +1462,6 @@ typedef struct Decoder_State Word16 enablePlcWaveadjust; Word16 tonality_flag; T_PLCInfo_HANDLE hPlcInfo; - T_PLCInfo plcInfo; Word16 VAD; Word16 flag_cna; @@ -1976,6 +1512,7 @@ typedef struct Decoder_State Word16 tec_flag; Word16 tfa_flag; TEC_DEC_HANDLE hTECDec; + /*----------------------------------------------------------------------------------* * IVAS parameters *----------------------------------------------------------------------------------*/ @@ -1985,21 +1522,11 @@ typedef struct Decoder_State Word16 cng_sba_flag; /* CNG in SBA flag */ /* MCT Channel mode indication: LFE, ignore channel? */ - // note_ : one extra value in evs ivas macro code MCT_CHAN_MODE mct_chan_mode; Word16 cng_ism_flag; /* CNG in ISM format flag */ Word16 is_ism_format; /* Indication whether the codec operates in ISM format */ - Word16 last_element_mode; /* element mode */ - // Word16 coder_type; /* low-rate mode flag */ - Word32 prev_synth_buffer32_fx[NS2SA( 48000, IVAS_DEC_DELAY_NS - DELAY_CLDFB_NS )]; - -#ifdef DEBUGGING - Word16 id_element; /* element ID */ -#endif - IVAS_FORMAT ivas_format; /* format; corresponds to st_ivas->ivas_format, unless the signal gets transormed to a different domain for rendering */ - } Decoder_State, *DEC_CORE_HANDLE; #endif diff --git a/lib_dec/swb_bwe_dec.c b/lib_dec/swb_bwe_dec.c deleted file mode 100644 index 68272a79fb39c7aacbc3a6fc06306ced80066c3d..0000000000000000000000000000000000000000 --- a/lib_dec/swb_bwe_dec.c +++ /dev/null @@ -1,681 +0,0 @@ -/****************************************************************************************************** - - (C) 2022-2025 IVAS codec Public Collaboration with portions copyright Dolby International AB, Ericsson AB, - Fraunhofer-Gesellschaft zur Foerderung der angewandten Forschung e.V., Huawei Technologies Co. LTD., - Koninklijke Philips N.V., Nippon Telegraph and Telephone Corporation, Nokia Technologies Oy, Orange, - Panasonic Holdings Corporation, Qualcomm Technologies, Inc., VoiceAge Corporation, and other - contributors to this repository. All Rights Reserved. - - This software is protected by copyright law and by international treaties. - The IVAS codec Public Collaboration consisting of Dolby International AB, Ericsson AB, - Fraunhofer-Gesellschaft zur Foerderung der angewandten Forschung e.V., Huawei Technologies Co. LTD., - Koninklijke Philips N.V., Nippon Telegraph and Telephone Corporation, Nokia Technologies Oy, Orange, - Panasonic Holdings Corporation, Qualcomm Technologies, Inc., VoiceAge Corporation, and other - contributors to this repository retain full ownership rights in their respective contributions in - the software. This notice grants no license of any kind, including but not limited to patent - license, nor is any license granted by implication, estoppel or otherwise. - - Contributors are required to enter into the IVAS codec Public Collaboration agreement before making - contributions. - - This software is provided "AS IS", without any express or implied warranties. The software is in the - development stage. It is intended exclusively for experts who have experience with such software and - solely for the purpose of inspection. All implied warranties of non-infringement, merchantability - and fitness for a particular purpose are hereby disclaimed and excluded. - - Any dispute, controversy or claim arising under or in relation to providing this software shall be - submitted to and settled by the final, binding jurisdiction of the courts of Munich, Germany in - accordance with the laws of the Federal Republic of Germany excluding its conflict of law rules and - the United Nations Convention on Contracts on the International Sales of Goods. - -*******************************************************************************************************/ - -/*==================================================================================== - EVS Codec 3GPP TS26.443 Nov 04, 2021. Version 12.14.0 / 13.10.0 / 14.6.0 / 15.4.0 / 16.3.0 - ====================================================================================*/ - -#include -#include "options.h" -#include -#include "cnst.h" -#include "prot.h" -#include "prot_fx.h" -#include "rom_com.h" -#include "basop_util.h" -#include "basop_proto_func.h" -#include "wmc_auto.h" - - -static Word16 para_pred_bws_fx( - Decoder_State *st_fx, /* i/o: decoder state structure */ - Word16 *signal_wb_fx, /* i : wideband frequency signal Q_syn */ - Word16 *SWB_fenv_fx, /* o : frequency-domain BWE envelope Q1 */ - Word16 Q_syn ) -{ - Word16 i, j, k; - Word16 mode; - Word16 tmp, tmp_den, tmp_num; - Word32 L_tmp, L_tmp_max; - Word16 exp; - Word16 *input_hi_fx; - Word32 *mea; - Word16 peak_fx, mag_fx; - Word32 mean_fx[7], peak_32_fx; - Word32 avrg1_fx, avrg2_fx, min_fx; - Word16 att_fx; - Word16 coder_type = st_fx->coder_type; - move16(); - - mode = NORMAL; - move16(); - - k = 0; - move16(); - input_hi_fx = &signal_wb_fx[SHARP_WIDTH]; /*Q_syn*/ - FOR( i = 0; i < 7; i++ ) - { - peak_fx = 0; - move16(); - mean_fx[i] = 0; - move16(); - FOR( j = 0; j < SHARP_WIDTH; j++ ) - { - mag_fx = abs_s( *input_hi_fx ); /*Q_syn*/ - peak_fx = s_max( peak_fx, mag_fx ); /*Q_syn*/ - mean_fx[i] = L_add( mean_fx[i], L_deposit_l( mag_fx ) ); /*Q_syn*/ - move32(); - input_hi_fx++; - } - - IF( LT_16( Q_syn, 11 ) ) - { - tmp = 1; - move16(); - } - ELSE - { - tmp = 0; - move16(); - if ( GT_16( shr( peak_fx, 3 ), shl( 1, Q_syn ) ) ) - { - tmp = 1; - move16(); - } - } - IF( tmp > 0 ) - { - L_tmp = L_msu0( Mult_32_16( L_shl( mean_fx[i], 10 ) /*Q_syn + 10*/, 18432 /*4.5f Q12*/ ), peak_fx /*Q_syn*/, 4544 /*35.5 (SHARP_WIDTH + 3.5f)Q7*/ ); - if ( L_tmp < 0 ) - { - k = add( k, 1 ); - } - } - } - - avrg1_fx = L_deposit_l( 0 ); - avrg2_fx = L_deposit_l( 0 ); - FOR( i = 1; i < 4; i++ ) - { - avrg1_fx = L_add( avrg1_fx, mean_fx[i] ); /*Q_syn*/ - avrg2_fx = L_add( avrg2_fx, mean_fx[i + 3] ); /*Q_syn*/ - } - avrg1_fx = Mult_32_16( avrg1_fx, 10923 /* 1/3 -> Q15 -> 10923 */ ); /*Q_syn + Q15 - 15*/ - avrg2_fx = Mult_32_16( avrg2_fx, 10923 /* 1/3 -> Q15 -> 10923 */ ); /*Q_syn + Q15 - 15*/ - - min_fx = L_add( 2147483647, 0 ); /*2^31 */ - peak_32_fx = L_deposit_l( 0 ); - FOR( i = 4; i < 7; i++ ) - { - IF( GT_32( mean_fx[i], L_shl( avrg2_fx, 1 ) ) ) - { - exp = norm_l( mean_fx[i] ); - IF( LT_16( exp, 16 ) ) - { - tmp_den = extract_l( L_shr( mean_fx[i], sub( 16, exp ) ) ); /*Qsyn - 16 + exp */ - tmp_num = extract_l( L_shr( avrg2_fx, sub( 15, exp ) ) ); /*Qsyn - 16 + exp */ - } - ELSE - { - tmp_den = extract_l( mean_fx[i] ); - tmp_num = extract_l( L_shl( avrg2_fx, 1 ) ); - } - - tmp_den = div_s( 1, tmp_den ); - - tmp = i_mult( tmp_num, tmp_den ); /*Q15 */ - - mean_fx[i] = Mult_32_16( mean_fx[i], tmp ); /*Q_syn + Q15 - 15*/ - move32(); - } - min_fx = L_min( min_fx, mean_fx[i] ); - peak_32_fx = L_max( peak_32_fx, mean_fx[i] ); - } - - IF( GT_16( st_fx->tilt_wb_fx, 16384 /*8 in Q11*/ ) ) - { - IF( GT_16( st_fx->tilt_wb_fx, 30720 /*15.0f in Q11*/ ) ) - { - min_fx = peak_32_fx; - move32(); - } - ELSE - { - tmp = extract_l( L_shr( L_mult0( st_fx->tilt_wb_fx, 17476 ), 14 ) ); /*Q15 */ - min_fx = Mult_32_16( peak_32_fx, tmp ); - } - } - - test(); - IF( peak_32_fx == 0 || min_fx == 0 ) - { - set16_fx( SWB_fenv_fx, 0, SWB_FENV ); - } - ELSE - { - exp = norm_l( peak_32_fx ); - IF( LT_16( exp, 16 ) ) - { - tmp_den = extract_l( L_shr( peak_32_fx, sub( 16, exp ) ) ); /*Qsyn - 16 + exp */ - tmp = div_s( 16384, tmp_den ); /*Q15+14 - (Qsyn - 16 + exp) */ - tmp_num = extract_l( L_shr( min_fx, sub( 16, exp ) ) ); /*Qsyn - 16 + exp */ - tmp = extract_l( L_shr( L_mult0( tmp_num, tmp ), 14 ) ); /*Q15 */ - } - ELSE - { - tmp_den = extract_l( peak_32_fx ); /*Qsyn */ - exp = norm_s( tmp_den ); - tmp = div_s( shl( 1, sub( 14, exp ) ), tmp_den ); /*Q 29-exp - Qsyn */ - tmp_num = extract_l( min_fx ); /*Qsyn */ - tmp = extract_l( L_shr( L_mult0( tmp_num, tmp ), sub( 14, exp ) ) ); /*Q15 */ - } - - j = 0; - move16(); - mea = &mean_fx[4]; - L_tmp_max = L_shl( 32767, add( Q_syn, 5 ) ); - FOR( i = 0; i < SWB_FENV; i++ ) - { - if ( EQ_16( j, 5 ) ) - { - mea++; - j = 0; - move16(); - } - j = add( j, 1 ); - L_tmp = L_min( Mult_32_16( *mea, tmp ), L_tmp_max ); - SWB_fenv_fx[i] = extract_l( L_shr( L_tmp, add( Q_syn, 5 ) ) ); - move16(); - } - } - - j = 0; - move16(); - FOR( i = SWB_FENV / 2; i < SWB_FENV; i++ ) - { - tmp = sub( 32767, i_mult( j, 2341 ) ); - SWB_fenv_fx[i] = mult_r( SWB_fenv_fx[i], tmp ); - move16(); - j = add( j, 1 ); - } - - IF( GT_32( avrg1_fx, L_shl( avrg2_fx, 3 ) ) ) - { - FOR( i = 0; i < SWB_FENV; i++ ) - { - SWB_fenv_fx[i] = shr( SWB_fenv_fx[i], 1 ); - move16(); - } - } - - test(); - test(); - test(); - test(); - test(); - IF( NE_16( st_fx->last_core, HQ_CORE ) && EQ_16( st_fx->last_codec_mode, MODE1 ) && - ( GT_32( st_fx->enerLH_fx, L_shr( st_fx->prev_enerLH_fx, 1 ) ) && LT_32( L_shr( st_fx->enerLH_fx, 1 ), st_fx->prev_enerLH_fx ) ) && - ( GT_32( st_fx->enerLL_fx, L_shr( st_fx->prev_enerLL_fx, 1 ) ) && LT_32( L_shr( st_fx->enerLL_fx, 1 ), st_fx->prev_enerLL_fx ) ) ) - { - FOR( i = 0; i < SWB_FENV; i++ ) - { - test(); - IF( NE_16( st_fx->prev_coder_type, coder_type ) && GT_16( mult_r( SWB_fenv_fx[i], 16384 /*1/2.0f in Q15*/ ), st_fx->prev_SWB_fenv_fx[i] ) ) - { - SWB_fenv_fx[i] = round_fx( L_mac( L_mult( SWB_fenv_fx[i], 3277 /*0.1f in Q15*/ ), st_fx->prev_SWB_fenv_fx[i], 29491 /*0.9f in Q15*/ ) ); - move16(); - } - ELSE - { - SWB_fenv_fx[i] = round_fx( L_mac( L_mult( SWB_fenv_fx[i], st_fx->attenu_fx ), st_fx->prev_SWB_fenv_fx[i], sub( 32767 /*1.0f in Q15*/, st_fx->attenu_fx ) ) ); - move16(); - } - } - - IF( LT_16( st_fx->attenu_fx, 29491 /*0.9f in Q15*/ ) ) - { - st_fx->attenu_fx = add( st_fx->attenu_fx, 1638 /*0.05f in Q15*/ ); - move16(); - } - } - ELSE - { - test(); - test(); - test(); - test(); - IF( NE_32( st_fx->core_brate, st_fx->last_core_brate ) || ( GT_32( st_fx->enerLH_fx, L_shr( st_fx->prev_enerLH_fx, 1 ) ) && LT_32( L_shr( st_fx->enerLH_fx, 1 ), st_fx->prev_enerLH_fx ) ) || - ( GT_32( st_fx->enerLL_fx, L_shr( st_fx->prev_enerLL_fx, 1 ) ) && LT_32( L_shr( st_fx->enerLL_fx, 1 ), st_fx->prev_enerLL_fx ) ) ) - { - FOR( i = 0; i < SWB_FENV; i++ ) - { - if ( GT_16( mult_r( SWB_fenv_fx[i], 16384 /*0.5f in Q15*/ ), st_fx->prev_SWB_fenv_fx[i] ) ) - { - SWB_fenv_fx[i] = st_fx->prev_SWB_fenv_fx[i]; - move16(); - } - } - } - - FOR( i = 0; i < SWB_FENV; i++ ) - { - SWB_fenv_fx[i] = round_fx( L_mac( L_mult( SWB_fenv_fx[i], 29491 /*0.9f in Q15*/ ), st_fx->prev_SWB_fenv_fx[i], 3277 /*0.1f in Q15*/ ) ); - move16(); - } - st_fx->attenu_fx = 3277; /*Q15*/ - move16(); - } - - if ( GT_16( k, 3 ) ) - { - mode = HARMONIC; - move16(); - } - - - att_fx = i_mult( sub( N_WS2N_FRAMES, st_fx->bws_cnt ), 819 ); /*15 */ - IF( EQ_16( st_fx->L_frame, L_FRAME16k ) ) - { - FOR( i = 0; i < 4; i++ ) - { - SWB_fenv_fx[i] = mult_r( SWB_fenv_fx[i], att_fx ); - move16(); /*Q1 */ - } - } - - FOR( i = 4; i < SWB_FENV; i++ ) - { - SWB_fenv_fx[i] = mult_r( SWB_fenv_fx[i], att_fx ); - move16(); /*Q1 */ - } - - return mode; -} - - -/*-------------------------------------------------------------------* - * WB_BWE_gain_deq() - * - * Decoding of WB parameters - *-------------------------------------------------------------------*/ - - -Word16 swb_bwe_dec_fx32( - Decoder_State *st_fx, /* i/o: decoder state structure */ - Word32 output_fx[], /* i : synthesis @internal Fs : Q11 */ - Word32 *synth_fx, /* i : ACELP core synthesis/final synthesis : Q11 */ - Word32 *hb_synth_fx, /* o : SHB synthesis/final synthesis : Q_syn_hb */ - Word16 use_cldfb_for_dft, /* i : flag to use of CLDFB for DFT Stereo */ - Word16 output_frame /* i : frame length */ -) -{ - Word16 L; - Word16 mode; - Word16 idxGain; - Word16 i, j, l_subfr; - Word16 fb_band_begin; - Word16 frica_flag = 0; - move16(); - Word16 ener_adjust_quan_fx; - Word16 fb_ener_adjust_fx = 0; - move16(); - Word16 scl, new_input_fx_exp, ysynth_frame_size; - Word16 Q_syn, Q_syn_hb, tmp, tmp2, q_tmp, Qsynth_fx16; - - Word16 ysynth_fx[L_FRAME48k]; - Word16 SWB_fenv_fx[SWB_FENV]; - Word16 SWB_tenv_fx[SWB_TENV]; - Word16 synth_fx16[L_FRAME48k]; - Word16 hb_synth_fx16[L_FRAME48k]; - - Word32 L_tmp; - Word32 yerror_fx[L_FRAME48k]; - Word32 ysynth_fx32[L_FRAME48k]; - Word32 SWB_tenv_tmp_fx[SWB_TENV]; - Word32 wtda_synth_fx[2 * L_FRAME48k]; - - FD_BWE_DEC_HANDLE hBWE_FD; - hBWE_FD = st_fx->hBWE_FD; - - /*---------------------------------------------------------------------* - * SWB BWE decoding - *---------------------------------------------------------------------*/ - test(); - IF( EQ_16( st_fx->element_mode, IVAS_CPE_DFT ) && !use_cldfb_for_dft ) - { - /* todo - wtda() does not support L_FRAME length; thus temporarily resample the signal */ - /* todo - delay output[] by 1.25ms ? */ - L_lerp_fx_q11( output_fx, ysynth_fx32, L_FRAME16k, st_fx->L_frame ); - - /* windowing of the ACELP core synthesis */ - wtda_fx32( ysynth_fx32, wtda_synth_fx, hBWE_FD->L_old_wtda_swb_fx32, ALDO_WINDOW, ALDO_WINDOW, /*st_fx->L_frame*/ L_FRAME16k ); - - /* DCT of the ACELP core synthesis */ - new_input_fx_exp = 11; - move16(); - direct_transform_fx( wtda_synth_fx, ysynth_fx32, 0, /*st_fx->L_frame*/ L_FRAME16k, &new_input_fx_exp, st_fx->element_mode ); - ysynth_frame_size = L_FRAME16k; - move16(); - } - ELSE - { - /* windowing of the ACELP core synthesis */ - wtda_fx32( synth_fx, wtda_synth_fx, hBWE_FD->L_old_wtda_swb_fx32, ALDO_WINDOW, ALDO_WINDOW, output_frame ); - - /* DCT of the ACELP core synthesis */ - new_input_fx_exp = 11; - move16(); - direct_transform_fx( wtda_synth_fx, ysynth_fx32, 0, output_frame, &new_input_fx_exp, st_fx->element_mode ); - ysynth_frame_size = output_frame; - move16(); - } - - /* Convert to 16 Bits (Calc Shift Required to Stay within MAX_Q_NEW_INPUT) */ - scl = sub( 16 + 11, new_input_fx_exp ); - /* Possible to Upscale? */ - IF( scl > 0 ) - { - /* Yes */ - /* Calc Room to Upscale */ - Q_syn = sub( Find_Max_Norm32( ysynth_fx32, ysynth_frame_size ), 3 ); - /* Stay within MAX_Q_NEW_INPUT */ - scl = s_min( Q_syn, scl ); - } - /*Don't upscale if already in 15 bits*/ - IF( GT_16( scl, 15 ) ) - { - FOR( i = 0; i < ysynth_frame_size; i++ ) - { - ysynth_fx[i] = extract_l( ysynth_fx32[i] ); - move16(); - } - Q_syn = new_input_fx_exp; - move16(); - } - ELSE - { - Copy_Scale_sig32_16( ysynth_fx32, ysynth_fx, ysynth_frame_size, scl ); - Q_syn = add( sub( new_input_fx_exp, 16 ), scl ); - } - - IF( !st_fx->bfi ) - { - IF( st_fx->bws_cnt > 0 ) - { - /* estimate parameters */ - mode = para_pred_bws_fx( st_fx, ysynth_fx, SWB_fenv_fx, Q_syn ); - } - ELSE - { - /* de-quantization */ - mode = swb_bwe_gain_deq_fx( st_fx, ACELP_CORE, SWB_tenv_fx, SWB_fenv_fx, 0, -1 ); - } - - L = SWB_FENV; - move16(); - if ( EQ_16( mode, TRANSIENT ) ) - { - L = SWB_FENV_TRANS; - move16(); - } - - L_tmp = 0; - move32(); - FOR( i = 0; i < L; i++ ) - { - L_tmp = L_add( L_tmp, L_deposit_l( SWB_fenv_fx[i] ) ); - } - q_tmp = norm_s( L ); - tmp = div_s( shl( 1, sub( 14, q_tmp ) ), L ); /*Q(29-q_tmp) */ - L_tmp = Mpy_32_16_1( L_tmp, tmp ); /*Q(1+29-q_tmp+1-16)->Q(15-q_tmp) */ - st_fx->prev_ener_shb_fx = round_fx( L_shl( L_tmp, add( q_tmp, 2 ) ) ); /*Q1 */ - move16(); - } - ELSE - { - /* SHB FEC */ - - IF( NE_16( hBWE_FD->prev_mode, TRANSIENT ) ) - { - mode = hBWE_FD->prev_mode; - move16(); - } - ELSE - { - mode = NORMAL; - move16(); - } - - Copy( st_fx->prev_SWB_fenv_fx, SWB_fenv_fx, SWB_FENV ); - } - - /* reconstruction of MDCT spectrum of the error signal */ - set32_fx( yerror_fx, 0, output_frame ); - - IF( EQ_16( st_fx->L_frame, L_FRAME16k ) ) - { - SWB_BWE_decoding_fx( ysynth_fx, SWB_fenv_fx, yerror_fx, L_FRAME32k - 80, mode, &frica_flag, &hBWE_FD->prev_Energy_fx, st_fx->prev_SWB_fenv_fx, &hBWE_FD->prev_L_swb_norm, st_fx->tilt_wb_fx, &hBWE_FD->Seed, 80, &hBWE_FD->prev_weight_fx, st_fx->extl, Q_syn, st_fx->last_extl ); - } - ELSE - { - SWB_BWE_decoding_fx( ysynth_fx, SWB_fenv_fx, yerror_fx, L_FRAME32k - 80, mode, &frica_flag, &hBWE_FD->prev_Energy_fx, st_fx->prev_SWB_fenv_fx, &hBWE_FD->prev_L_swb_norm, st_fx->tilt_wb_fx, &hBWE_FD->Seed, 6, &hBWE_FD->prev_weight_fx, st_fx->extl, Q_syn, st_fx->last_extl ); - } - - test(); - IF( EQ_16( hBWE_FD->prev_frica_flag, 1 ) && frica_flag == 0 ) - { - FOR( i = 0; i < L_SUBFR; i++ ) - { - tmp = sub( 32767, extract_l( L_mult0( i, 512 ) ) ); /*Q15 */ - hBWE_FD->mem_imdct_fx[i] = mult_r( hBWE_FD->mem_imdct_fx[i], tmp ); - move16(); - } - - FOR( ; i < output_frame; i++ ) - { - hBWE_FD->mem_imdct_fx[i] = 0; - move16(); - } - } - - /* decode information */ - IF( EQ_16( st_fx->extl, FB_BWE ) ) - { - IF( !st_fx->bfi ) - { - idxGain = (Word16) get_next_indice_fx( st_fx, NUM_BITS_FB_FRAMEGAIN ); - fb_ener_adjust_fx = usdequant_fx( idxGain, FB_GAIN_QLOW_FX, FB_GAIN_QDELTA_FX ); /*Q15 */ - } - ELSE IF( st_fx->bfi ) - { - fb_ener_adjust_fx = st_fx->prev_fb_ener_adjust_fx; - move16(); - } - - st_fx->prev_fb_ener_adjust_fx = fb_ener_adjust_fx; - move16(); - IF( EQ_16( mode, TRANSIENT ) ) - { - ener_adjust_quan_fx = shr( fb_ener_adjust_fx, 2 ); - } - ELSE - { - IF( SWB_fenv_fx[7] != 0 ) - { - tmp = div_s( 1, SWB_fenv_fx[7] ); - ener_adjust_quan_fx = s_min( shr( i_mult_sat( SWB_fenv_fx[13], tmp ), 2 ), 32767 ); - } - ELSE - { - ener_adjust_quan_fx = 0; - move16(); - } - } - - fb_band_begin = FB_BAND_BEGIN; - move16(); - if ( EQ_16( st_fx->L_frame, L_FRAME ) ) - { - fb_band_begin = FB_BAND_BEGIN_12k8; - move16(); - } - - j = 0; - move16(); - FOR( i = fb_band_begin; i < add( fb_band_begin, DE_OFFSET1 ); i++ ) - { - tmp = sub( 32767, i_mult( j, 1024 ) ); - tmp = mult_r( tmp, ener_adjust_quan_fx ); /*Q13*/ - - tmp2 = i_mult( j, 256 ); /*Q13*/ - tmp2 = mult_r( tmp2, fb_ener_adjust_fx ); /*Q13*/ - - tmp = add( tmp, tmp2 ); /*Q13*/ - yerror_fx[i] = L_shl( Mpy_32_16_1( yerror_fx[i - FB_BAND_WIDTH], tmp ), 2 ); /*15+Q_syn */ - move32(); - j = add( j, 1 ); - } - FOR( ; i < FB_BAND_END; i++ ) - { - yerror_fx[i] = Mpy_32_16_1( yerror_fx[i - FB_BAND_WIDTH], fb_ener_adjust_fx ); /*15+Q_syn */ - move32(); - } - } - - /* iDCT of the error signal */ - Q_syn_hb = add( Q_syn, 15 ); - Inverse_Transform( yerror_fx, &Q_syn_hb, wtda_synth_fx, 0, output_frame, -1, st_fx->element_mode ); - - /* inverse windowing of the error signal */ - window_ola_fx( wtda_synth_fx, hb_synth_fx16, &Q_syn_hb, hBWE_FD->mem_imdct_fx, &hBWE_FD->mem_imdct_exp_fx, output_frame, ALDO_WINDOW, ALDO_WINDOW, 0, 0, 0 ); - l_subfr = mult( output_frame, 8192 ); - - test(); - IF( EQ_16( mode, TRANSIENT ) ) - { - FOR( i = 0; i < SWB_TENV; i++ ) - { - SWB_tenv_tmp_fx[i] = L_mult0( SWB_tenv_fx[i] /*Q0*/, 26214 /*0.8f Q15*/ ); // Q15 - move32(); - } - - /* time envelope shaping when the current frame is TRANSIENT frame */ - time_envelop_shaping_ivas_fx( hb_synth_fx16, SWB_tenv_tmp_fx, output_frame, &Q_syn_hb ); - - Q_syn_hb = sub( Q_syn_hb, 3 ); - - hBWE_FD->prev_td_energy_fx = SWB_tenv_fx[3]; - move16(); - } - ELSE IF( EQ_16( frica_flag, 1 ) && hBWE_FD->prev_frica_flag == 0 ) - { - Qsynth_fx16 = Find_Max_Norm32( synth_fx, output_frame ); - Qsynth_fx16 = sub( Qsynth_fx16, shr( add( sub( 15, norm_s( l_subfr ) ), 1 ), 1 ) ); - Copy_Scale_sig32_16( synth_fx, synth_fx16, output_frame, Qsynth_fx16 ); - Qsynth_fx16 = add( 11 - 16, Qsynth_fx16 ); - - /* IVAS_fmToDo: synth[] is @internal_Fs!!! */ - time_reduce_pre_echo_fx( synth_fx16, hb_synth_fx16, hBWE_FD->prev_td_energy_fx, l_subfr, Qsynth_fx16, Q_syn_hb ); - } - ELSE - { - tmp = i_mult2( 3, l_subfr ); - L_tmp = L_deposit_l( 0 ); - - FOR( i = 0; i < l_subfr; i++ ) - { - L_tmp = L_mac0_sat( L_tmp, hb_synth_fx16[add( tmp, i )], hb_synth_fx16[add( tmp, i )] ); /*(2*Q_syn_hb) */ - } - - L_tmp = Mult_32_16( L_tmp, div_s( 1, l_subfr ) ); /*(2*Q_syn_hb) */ - hBWE_FD->prev_td_energy_fx = 0; - move16(); - - IF( L_tmp != 0 ) - { - q_tmp = norm_l( L_tmp ); - tmp = extract_h( L_shl( L_tmp, q_tmp ) ); - q_tmp = sub( q_tmp, sub( 30, shl( Q_syn_hb, 1 ) ) ); - - tmp = div_s( 16384, tmp ); - L_tmp = L_deposit_h( tmp ); - L_tmp = Isqrt_lc( L_tmp, &q_tmp ); /*Q(31-exp) */ - hBWE_FD->prev_td_energy_fx = round_fx( L_shl( L_tmp, sub( q_tmp, 15 ) ) ); /*Q0 */ - move16(); - } - } - - test(); - IF( EQ_16( st_fx->element_mode, IVAS_CPE_DFT ) && !use_cldfb_for_dft ) - { - Qsynth_fx16 = add( 16 - 11, Q_syn_hb ); - Copy_Scale_sig32_16( synth_fx, synth_fx16, output_frame, Qsynth_fx16 ); - - /* add HB synth from hf_synth() */ - v_add_16( hb_synth_fx16, synth_fx16, hb_synth_fx16, output_frame ); - } - - hBWE_FD->prev_mode = mode; - move16(); - hBWE_FD->prev_frica_flag = frica_flag; - move16(); - - FOR( i = 0; i < output_frame; i++ ) - { - hb_synth_fx[i] = L_deposit_l( hb_synth_fx16[i] ); // Q_syn_hb - move32(); - } - - return Q_syn_hb; -} - - -void fd_bwe_dec_init_fx( - FD_BWE_DEC_HANDLE hBWE_FD /* i/o: FD BWE data handle */ -) -{ - set16_fx( hBWE_FD->L_old_wtda_swb_fx, 0, L_FRAME48k ); - set16_fx( hBWE_FD->old_syn_12k8_16k_fx, 0, NS2SA_FX2( 16000, DELAY_FD_BWE_ENC_NS ) ); - hBWE_FD->prev_mode = NORMAL; - move16(); - hBWE_FD->prev_Energy_fx = 0; - move16(); - hBWE_FD->prev_L_swb_norm = 8; - move16(); - hBWE_FD->Seed = 21211; - move16(); - hBWE_FD->prev_frica_flag = 0; - move16(); - set16_fx( hBWE_FD->mem_imdct_fx, 0, L_FRAME48k ); - hBWE_FD->prev_td_energy_fx = 0; - move16(); - hBWE_FD->prev_weight_fx = 0; - move16(); - hBWE_FD->prev_flag = 0; - move16(); - hBWE_FD->prev_Energy_wb_fx = 0; - move32(); - hBWE_FD->mem_deemph_old_syn_fx = 0; - move16(); - - return; -} diff --git a/lib_dec/swb_bwe_dec_fx.c b/lib_dec/swb_bwe_dec_fx.c index 7a6abb79001d34faf376c75c56a7b40d5af65d1a..42d2a9cc4a2e8015773e402e81b9751400538e11 100644 --- a/lib_dec/swb_bwe_dec_fx.c +++ b/lib_dec/swb_bwe_dec_fx.c @@ -19,6 +19,7 @@ * * predict SWB parameters for bandwidth switching *-------------------------------------------------------------------*/ + static Word16 para_pred_bws_fx( Decoder_State *st_fx, /* i/o: decoder state structure */ Word16 *signal_wb_fx, /* i : wideband frequency signal Q_syn*/ @@ -27,6 +28,7 @@ static Word16 para_pred_bws_fx( { Word16 i, j, k; Word16 mode; + FD_BWE_DEC_HANDLE hBWE_FD; Word16 tmp, tmp_den, tmp_num; Word32 L_tmp, L_tmp_max; Word16 exp; @@ -39,6 +41,7 @@ static Word16 para_pred_bws_fx( Word16 coder_type = st_fx->coder_type; move16(); + hBWE_FD = st_fx->hBWE_FD; mode = NORMAL; move16(); @@ -226,16 +229,16 @@ static Word16 para_pred_bws_fx( FOR( i = 0; i < SWB_FENV; i++ ) { test(); - IF( NE_16( st_fx->prev_coder_type, coder_type ) && GT_16( mult_r( SWB_fenv_fx[i], 16384 ), st_fx->prev_SWB_fenv_fx[i] ) ) + IF( NE_16( st_fx->prev_coder_type, coder_type ) && GT_16( mult_r( SWB_fenv_fx[i], 16384 ), hBWE_FD->prev_SWB_fenv_fx[i] ) ) { /*SWB_fenv_fx[i] = add(mult_r(SWB_fenv_fx[i], 3277), mult_r(st_fx->prev_SWB_fenv_fx[i], 29491)); */ - SWB_fenv_fx[i] = round_fx( L_mac( L_mult( SWB_fenv_fx[i], 3277 ), st_fx->prev_SWB_fenv_fx[i], 29491 ) ); + SWB_fenv_fx[i] = round_fx( L_mac( L_mult( SWB_fenv_fx[i], 3277 ), hBWE_FD->prev_SWB_fenv_fx[i], 29491 ) ); move16(); } ELSE { /*SWB_fenv_fx[i] = add(mult_r(SWB_fenv_fx[i], st_fx->attenu_fx), mult_r(st_fx->prev_SWB_fenv_fx[i], sub(32767, st_fx->attenu_fx))); */ - SWB_fenv_fx[i] = round_fx( L_mac( L_mult( SWB_fenv_fx[i], st_fx->attenu_fx ), st_fx->prev_SWB_fenv_fx[i], sub( 32767, st_fx->attenu_fx ) ) ); + SWB_fenv_fx[i] = round_fx( L_mac( L_mult( SWB_fenv_fx[i], st_fx->attenu_fx ), hBWE_FD->prev_SWB_fenv_fx[i], sub( 32767, st_fx->attenu_fx ) ) ); move16(); } } @@ -257,9 +260,9 @@ static Word16 para_pred_bws_fx( { FOR( i = 0; i < SWB_FENV; i++ ) { - if ( GT_16( mult_r( SWB_fenv_fx[i], 16384 ), st_fx->prev_SWB_fenv_fx[i] ) ) + if ( GT_16( mult_r( SWB_fenv_fx[i], 16384 ), hBWE_FD->prev_SWB_fenv_fx[i] ) ) { - SWB_fenv_fx[i] = st_fx->prev_SWB_fenv_fx[i]; + SWB_fenv_fx[i] = hBWE_FD->prev_SWB_fenv_fx[i]; move16(); } } @@ -268,7 +271,7 @@ static Word16 para_pred_bws_fx( FOR( i = 0; i < SWB_FENV; i++ ) { /*SWB_fenv_fx[i] = add(mult_r(SWB_fenv_fx[i], 29491), mult_r(st_fx->prev_SWB_fenv_fx[i], 3277)); */ - SWB_fenv_fx[i] = round_fx( L_mac( L_mult( SWB_fenv_fx[i], 29491 ), st_fx->prev_SWB_fenv_fx[i], 3277 ) ); + SWB_fenv_fx[i] = round_fx( L_mac( L_mult( SWB_fenv_fx[i], 29491 ), hBWE_FD->prev_SWB_fenv_fx[i], 3277 ) ); move16(); } st_fx->attenu_fx = 3277; /*Q15*/ @@ -349,16 +352,18 @@ Word16 WB_BWE_gain_deq_fx( * * WB BWE decoder (only for 16kHz signals) *-------------------------------------------------------------------*/ -Word16 ivas_wb_bwe_dec_fx( /* o : Q_syn_hb */ - Decoder_State *st_fx, /* i/o: decoder state structure */ - const Word16 output[], /* i : suntehsis @ internal Fs Q_input */ - Word16 *synth_fx, /* i/o: ACELP core synthesis/final synthesis Q0/Qpost */ - Word16 *hb_synth_fx, /* o : SHB synthesis/final synthesis Q_syn_hb */ - const Word16 use_cldfb_for_dft, /* i : flag to use of CLDFB for DFT Stereo */ - const Word16 output_frame, /* i : frame length */ - Word16 *voice_factors_fx, /* i : voicing factors Q15 */ - const Word16 pitch_buf_fx[], /* i : pitch buffer Q6 */ - Word16 *Qpost ) + +/* o : Q_syn_hb */ +Word16 ivas_wb_bwe_dec_fx( + Decoder_State *st_fx, /* i/o: decoder state structure */ + const Word16 output[], /* i : suntehsis @ internal Fs Q_input */ + Word16 *synth_fx, /* i/o: ACELP core synthesis/final synthesis Q0/Qpost */ + Word16 *hb_synth_fx, /* o : SHB synthesis/final synthesis Q_syn_hb */ + const Word16 use_cldfb_for_dft, /* i : flag to use of CLDFB for DFT Stereo */ + const Word16 output_frame, /* i : frame length */ + Word16 *voice_factors_fx, /* i : voicing factors Q15 */ + const Word16 pitch_buf_fx[], /* i : pitch buffer Q6 */ + Word16 *Qpost ) { Word16 mode; Word16 WB_fenv_fx[SWB_FENV]; @@ -421,7 +426,7 @@ Word16 ivas_wb_bwe_dec_fx( /* o : { /* de-quantization */ mode = WB_BWE_gain_deq_fx( st_fx, WB_fenv_fx ); - st_fx->last_wb_bwe_ener_fx = extract_l( Mpy_32_16_r( L_add( WB_fenv_fx[0], WB_fenv_fx[1] ), 16384 /*0.5f in Q15*/ ) ); + st_fx->hBWE_FD->last_wb_bwe_ener_fx = extract_l( Mpy_32_16_r( L_add( WB_fenv_fx[0], WB_fenv_fx[1] ), 16384 /*0.5f in Q15*/ ) ); move16(); } ELSE @@ -438,12 +443,12 @@ Word16 ivas_wb_bwe_dec_fx( /* o : } if ( NE_16( st_fx->last_extl, WB_BWE ) ) { - st_fx->prev_SWB_fenv_fx[0] = 0; + hBWE_FD->prev_SWB_fenv_fx[0] = 0; move16(); } - mode = WB_BWE_gain_pred_fx( WB_fenv_fx, ysynth_fx, coder_type, st_fx->prev_coder_type, st_fx->prev_SWB_fenv_fx[0], - voice_factors_fx, pitch_buf_fx, tmp_brate, st_fx->last_wb_bwe_ener_fx, Q_syn, st_fx->last_extl, st_fx->tilt_wb_fx ); + mode = WB_BWE_gain_pred_fx( WB_fenv_fx, ysynth_fx, coder_type, st_fx->prev_coder_type, hBWE_FD->prev_SWB_fenv_fx[0], + voice_factors_fx, pitch_buf_fx, tmp_brate, st_fx->hBWE_FD->last_wb_bwe_ener_fx, Q_syn, st_fx->last_extl, st_fx->tilt_wb_fx ); } } ELSE @@ -453,32 +458,34 @@ Word16 ivas_wb_bwe_dec_fx( /* o : move16(); FOR( i = 0; i < 2; i++ ) { - WB_fenv_fx[i] = mult_r( st_fx->prev_SWB_fenv_fx[i], 24576 ); + WB_fenv_fx[i] = mult_r( hBWE_FD->prev_SWB_fenv_fx[i], 24576 ); move16(); } } test(); IF( NE_16( st_fx->last_extl, WB_BWE ) || st_fx->bfi ) { - Copy( WB_fenv_fx, st_fx->prev_SWB_fenv_fx, 2 ); + Copy( WB_fenv_fx, hBWE_FD->prev_SWB_fenv_fx, 2 ); } exp = norm_l( hBWE_FD->prev_Energy_wb_fx ); - IF( GT_16( add( st_fx->prev_Q_synth, exp ), Q_syn ) ) + IF( GT_16( add( hBWE_FD->prev_Q_synth, exp ), Q_syn ) ) { - hBWE_FD->prev_Energy_wb_fx = L_shr( hBWE_FD->prev_Energy_wb_fx, sub( st_fx->prev_Q_synth, Q_syn ) ); + hBWE_FD->prev_Energy_wb_fx = L_shr( hBWE_FD->prev_Energy_wb_fx, sub( hBWE_FD->prev_Q_synth, Q_syn ) ); move32(); } ELSE { - Q_syn = add( st_fx->prev_Q_synth, exp ); + Q_syn = add( hBWE_FD->prev_Q_synth, exp ); hBWE_FD->prev_Energy_wb_fx = L_shl( hBWE_FD->prev_Energy_wb_fx, exp ); move32(); } + WB_BWE_decoding_fx( ysynth_fx, WB_fenv_fx, ysynth_32, L_FRAME16k, mode, - st_fx->last_extl, &hBWE_FD->prev_Energy_wb_fx, st_fx->prev_SWB_fenv_fx, &hBWE_FD->prev_L_swb_norm, + st_fx->last_extl, &hBWE_FD->prev_Energy_wb_fx, hBWE_FD->prev_SWB_fenv_fx, &hBWE_FD->prev_L_swb_norm, st_fx->extl, coder_type, st_fx->total_brate, &hBWE_FD->Seed, &hBWE_FD->prev_flag, st_fx->prev_coder_type, Q_syn, &Q_syn_hb ); + IF( EQ_32( st_fx->output_Fs, 32000 ) ) { set32_fx( &ysynth_32[L_FRAME16k], 0, L_FRAME16k ); @@ -487,7 +494,9 @@ Word16 ivas_wb_bwe_dec_fx( /* o : { set32_fx( &ysynth_32[L_FRAME16k], 0, L_FRAME32k ); } + Inverse_Transform( ysynth_32, &Q_syn_hb, t_audio32_tmp, 0, output_frame, output_frame, st_fx->element_mode ); + window_ola_fx( t_audio32_tmp, hb_synth_fx, &Q_syn_hb, hBWE_FD->mem_imdct_fx, &hBWE_FD->mem_imdct_exp_fx, output_frame, ALDO_WINDOW, ALDO_WINDOW, 0, 0, 0 ); @@ -497,27 +506,23 @@ Word16 ivas_wb_bwe_dec_fx( /* o : /* add HB synth from hf_synth() */ v_add_16( hb_synth_fx, synth_fx, hb_synth_fx, output_frame ); } + hBWE_FD->prev_mode = mode; move16(); - st_fx->prev_Q_synth = Q_syn; + hBWE_FD->prev_Q_synth = Q_syn; move16(); + return Q_syn_hb; } + Word16 wb_bwe_dec_fx( -#ifdef ADD_IVAS_BWE - const Word16 output[], /* i : suntehsis @ internal Fs */ -#endif - Word16 *synth_fx, /* i/o: ACELP core synthesis/final synthesis Q0/Qpost */ - Word16 *hb_synth_fx, /* o : SHB synthesis/final synthesis Q_syn_hb */ -#ifdef ADD_IVAS_BWE - const Word16 use_cldfb_for_dft, /* i : flag to use of CLDFB for DFT Stereo */ -#endif + Word16 *synth_fx, /* i/o: ACELP core synthesis/final synthesis Q0/Qpost */ + Word16 *hb_synth_fx, /* o : SHB synthesis/final synthesis Q_syn_hb */ const Word16 output_frame, /* i : frame length */ Word16 *voice_factors_fx, /* i : voicing factors Q15 */ const Word16 pitch_buf_fx[], /* i : pitch buffer Q6 */ - Decoder_State *st_fx /* i/o: decoder state structure */ - , + Decoder_State *st_fx, /* i/o: decoder state structure */ Word16 *Qpost ) { Word16 mode; @@ -538,18 +543,7 @@ Word16 wb_bwe_dec_fx( new_input_fx_exp = *Qpost; move16(); -#ifdef ADD_IVAS_BWE - if ( st->element_mode == IVAS_CPE_DFT && !use_cldfb_for_dft ) - { - /* IVAS_fmToDo: wtda() does not support L_FRAME length; thus temporarily resample the signal */ - /* IVAS_fmToDo: delay output[] by 1.25ms ? */ - lerp( output, ysynth, L_FRAME16k, st->L_frame ); - wtda( ysynth, wtda_synth, hBWE_FD->old_wtda_swb, ALDO_WINDOW, ALDO_WINDOW, /*st->L_frame*/ L_FRAME16k ); - direct_transform( wtda_synth, ysynth, 0, /*st->L_frame*/ L_FRAME16k, st->element_mode ); - } - else -#endif { wtda_fx( synth_fx, &new_input_fx_exp, L_wtda_synth_fx, hBWE_FD->L_old_wtda_swb_fx, &hBWE_FD->old_wtda_swb_fx_exp, ALDO_WINDOW, ALDO_WINDOW, /* window overlap of current frame (0: full, 2: none, or 3: half) */ @@ -574,15 +568,11 @@ Word16 wb_bwe_dec_fx( Q_syn = add( sub( new_input_fx_exp, 16 ), scl ); IF( !st_fx->bfi ) { -#ifdef ADD_IVAS_BWE - IF( st_fx->extl_brate > 0 ) -#else IF( EQ_32( st_fx->total_brate, ACELP_13k20 ) ) -#endif { /* de-quantization */ mode = WB_BWE_gain_deq_fx( st_fx, WB_fenv_fx ); - st_fx->last_wb_bwe_ener_fx = mult_r( add_sat( WB_fenv_fx[0], WB_fenv_fx[1] ), 16384 ); // this would not saturate if written like : rounf_fx(L_mac(L_mult(WB_fenv_fx[0], 16384), WB_fenv_fx[1], 16384)) + hBWE_FD->last_wb_bwe_ener_fx = mult_r( add_sat( WB_fenv_fx[0], WB_fenv_fx[1] ), 16384 ); // this would not saturate if written like : rounf_fx(L_mac(L_mult(WB_fenv_fx[0], 16384), WB_fenv_fx[1], 16384)) move16(); } ELSE @@ -601,12 +591,12 @@ Word16 wb_bwe_dec_fx( if ( NE_16( st_fx->last_extl, WB_BWE ) ) { - st_fx->prev_SWB_fenv_fx[0] = 0; + hBWE_FD->prev_SWB_fenv_fx[0] = 0; move16(); } - mode = WB_BWE_gain_pred_fx( WB_fenv_fx, ysynth_fx, coder_type, st_fx->prev_coder_type, st_fx->prev_SWB_fenv_fx[0], - voice_factors_fx, pitch_buf_fx, tmp_brate, st_fx->last_wb_bwe_ener_fx, Q_syn, st_fx->last_extl, st_fx->tilt_wb_fx ); + mode = WB_BWE_gain_pred_fx( WB_fenv_fx, ysynth_fx, coder_type, st_fx->prev_coder_type, hBWE_FD->prev_SWB_fenv_fx[0], + voice_factors_fx, pitch_buf_fx, tmp_brate, hBWE_FD->last_wb_bwe_ener_fx, Q_syn, st_fx->last_extl, st_fx->tilt_wb_fx ); } } ELSE @@ -616,32 +606,34 @@ Word16 wb_bwe_dec_fx( move16(); FOR( i = 0; i < 2; i++ ) { - WB_fenv_fx[i] = mult_r( st_fx->prev_SWB_fenv_fx[i], 24576 ); + WB_fenv_fx[i] = mult_r( hBWE_FD->prev_SWB_fenv_fx[i], 24576 ); move16(); } } test(); IF( NE_16( st_fx->last_extl, WB_BWE ) || st_fx->bfi ) { - Copy( WB_fenv_fx, st_fx->prev_SWB_fenv_fx, 2 ); + Copy( WB_fenv_fx, hBWE_FD->prev_SWB_fenv_fx, 2 ); } exp = norm_l( hBWE_FD->prev_Energy_wb_fx ); - IF( GT_16( add( st_fx->prev_Q_synth, exp ), Q_syn ) ) + IF( GT_16( add( hBWE_FD->prev_Q_synth, exp ), Q_syn ) ) { - hBWE_FD->prev_Energy_wb_fx = L_shr( hBWE_FD->prev_Energy_wb_fx, sub( st_fx->prev_Q_synth, Q_syn ) ); + hBWE_FD->prev_Energy_wb_fx = L_shr( hBWE_FD->prev_Energy_wb_fx, sub( hBWE_FD->prev_Q_synth, Q_syn ) ); move32(); } ELSE { - Q_syn = add( st_fx->prev_Q_synth, exp ); + Q_syn = add( hBWE_FD->prev_Q_synth, exp ); hBWE_FD->prev_Energy_wb_fx = L_shl( hBWE_FD->prev_Energy_wb_fx, exp ); move32(); } + WB_BWE_decoding_fx( ysynth_fx, WB_fenv_fx, ysynth_32, L_FRAME16k, mode, - st_fx->last_extl, &hBWE_FD->prev_Energy_wb_fx, st_fx->prev_SWB_fenv_fx, &hBWE_FD->prev_L_swb_norm, + st_fx->last_extl, &hBWE_FD->prev_Energy_wb_fx, hBWE_FD->prev_SWB_fenv_fx, &hBWE_FD->prev_L_swb_norm, st_fx->extl, coder_type, st_fx->total_brate, &hBWE_FD->Seed, &hBWE_FD->prev_flag, st_fx->prev_coder_type, Q_syn, &Q_syn_hb ); + IF( EQ_32( st_fx->output_Fs, 32000 ) ) { set32_fx( &ysynth_32[L_FRAME16k], 0, L_FRAME16k ); @@ -650,36 +642,35 @@ Word16 wb_bwe_dec_fx( { set32_fx( &ysynth_32[L_FRAME16k], 0, L_FRAME32k ); } + Inverse_Transform( ysynth_32, &Q_syn_hb, t_audio32_tmp, 0, output_frame, output_frame, st_fx->element_mode ); + window_ola_fx( t_audio32_tmp, hb_synth_fx, &Q_syn_hb, hBWE_FD->mem_imdct_fx, &hBWE_FD->mem_imdct_exp_fx, output_frame, ALDO_WINDOW, ALDO_WINDOW, 0, 0, 0 ); -#ifdef ADD_IVAS_BWE - test(); - IF( EQ_16( st_fx->element_mode, IVAS_CPE_DFT ) && !use_cldfb_for_dft ) - { - /* add HB synth from hf_synth() */ - v_add( hb_synth, synth, hb_synth, output_frame ); - } -#endif hBWE_FD->prev_mode = mode; move16(); - st_fx->prev_Q_synth = Q_syn; + hBWE_FD->prev_Q_synth = Q_syn; move16(); + return Q_syn_hb; } + + /*-------------------------------------------------------------------* * swb_bwe_gain_deq() * * Decoding of SWB parameters *-------------------------------------------------------------------*/ -Word16 swb_bwe_gain_deq_fx( /* o : BWE class */ - Decoder_State *st_fx, /* i/o: decoder state structure */ - const Word16 core, /* i : core : Q0 */ - Word16 *SWB_tenv, /* o : time-domain BWE envelope : Q0 */ - Word16 *SWB_fenv, /* o : frequency-domain BWE envelope : Q1 */ - const Word16 hr_flag, /* i : high rate flag : Q0 */ - const Word16 hqswb_clas /* i : HQ BWE class : Q0 */ + +/* o : BWE class */ +Word16 swb_bwe_gain_deq_fx( + Decoder_State *st_fx, /* i/o: decoder state structure */ + const Word16 core, /* i : core : Q0 */ + Word16 *SWB_tenv, /* o : time-domain BWE envelope : Q0 */ + Word16 *SWB_fenv, /* o : frequency-domain BWE envelope : Q1 */ + const Word16 hr_flag, /* i : high rate flag : Q0 */ + const Word16 hqswb_clas /* i : HQ BWE class : Q0 */ ) { Word16 index, mode, n_band; @@ -910,19 +901,14 @@ Word16 swb_bwe_gain_deq_fx( /* o : BWE class * * SWB BWE decoder *-------------------------------------------------------------------*/ -Word16 swb_bwe_dec_fx( /*o :Q_syn_hb*/ -#ifdef ADD_IVAS_BWE - const Word16 output[], /* i : suntehsis @ internal Fs */ -#endif - Decoder_State *st_fx, /* i/o: decoder state structure */ - Word16 *synth_fx, /* i/o: ACELP core synthesis/final synthesis (might be rescaled inside wtda() ) Q0/Qpost */ - Word16 *hb_synth_fx, /* o : SHB synthesis/final synthesis Q_syn_hb */ -#ifdef ADD_IVAS_BWE - const Word16 use_cldfb_for_dft, /* i : flag to use of CLDFB for DFT Stereo */ -#endif - const Word16 output_frame /* i : frame length */ - , - Word16 *Qpost ) + +/*o : Q_syn_hb */ +Word16 swb_bwe_dec_fx( + Decoder_State *st_fx, /* i/o: decoder state structure */ + Word16 *synth_fx, /* i/o: ACELP core synthesis/final synthesis (might be rescaled inside wtda() ) Q0/Qpost */ + Word16 *hb_synth_fx, /* o : SHB synthesis/final synthesis Q_syn_hb */ + const Word16 output_frame, /* i : frame length */ + Word16 *Qpost ) { Word16 i, l_subfr; Word16 mode; @@ -957,19 +943,7 @@ Word16 swb_bwe_dec_fx( /*o :Q_syn_hb*/ /* windowing of the ACELP core synthesis */ new_input_fx_exp = *Qpost; move16(); -#ifdef ADD_IVAS_BWE - if ( st->element_mode == IVAS_CPE_DFT && !use_cldfb_for_dft ) - { - /* IVAS_fmToDo: wtda() does not support L_FRAME length; thus temporarily resample the signal */ - /* IVAS_fmToDo: delay output[] by 1.25ms ? */ - lerp( output, ysynthIfx, L_FRAME16k, st_fx->L_frame ); - wtda_fx( ysynth_fx, &new_input_fx_exp, L_wtda_synth_fx, hBWE_FD->L_old_wtda_swb_fx, - &hBWE_FD->old_wtda_swb_fx_exp, ALDO_WINDOW, ALDO_WINDOW, /*st->L_frame*/ L_FRAME16k ); - direct_transform_fx( L_wtda_synth_fx, ysynth_32, 0, /*st->L_frame*/ L_FRAME16k, &new_input_fx_exp, st_fx->element_mode ); - } - else -#endif { wtda_fx( synth_fx, &new_input_fx_exp, L_wtda_synth_fx, hBWE_FD->L_old_wtda_swb_fx, &hBWE_FD->old_wtda_swb_fx_exp, @@ -1043,19 +1017,19 @@ Word16 swb_bwe_dec_fx( /*o :Q_syn_hb*/ move16(); } - Copy( st_fx->prev_SWB_fenv_fx, SWB_fenv_fx, SWB_FENV ); + Copy( hBWE_FD->prev_SWB_fenv_fx, SWB_fenv_fx, SWB_FENV ); } /* reconstruction of MDCT spectrum of the error signal */ set32_fx( ysynth_32, 0, output_frame ); IF( EQ_16( st_fx->L_frame, L_FRAME16k ) ) { - SWB_BWE_decoding_fx( ysynth_fx, SWB_fenv_fx, ysynth_32, L_FRAME32k - 80, mode, &frica_flag, &hBWE_FD->prev_Energy_fx, st_fx->prev_SWB_fenv_fx, + SWB_BWE_decoding_fx( ysynth_fx, SWB_fenv_fx, ysynth_32, L_FRAME32k - 80, mode, &frica_flag, &hBWE_FD->prev_Energy_fx, hBWE_FD->prev_SWB_fenv_fx, &hBWE_FD->prev_L_swb_norm, st_fx->tilt_wb_fx, &hBWE_FD->Seed, 80, &hBWE_FD->prev_weight_fx, st_fx->extl, Q_syn, st_fx->last_extl ); } ELSE { - SWB_BWE_decoding_fx( ysynth_fx, SWB_fenv_fx, ysynth_32, L_FRAME32k - 80, mode, &frica_flag, &hBWE_FD->prev_Energy_fx, st_fx->prev_SWB_fenv_fx, + SWB_BWE_decoding_fx( ysynth_fx, SWB_fenv_fx, ysynth_32, L_FRAME32k - 80, mode, &frica_flag, &hBWE_FD->prev_Energy_fx, hBWE_FD->prev_SWB_fenv_fx, &hBWE_FD->prev_L_swb_norm, st_fx->tilt_wb_fx, &hBWE_FD->Seed, 6, &hBWE_FD->prev_weight_fx, st_fx->extl, Q_syn, st_fx->last_extl ); } @@ -1086,11 +1060,11 @@ Word16 swb_bwe_dec_fx( /*o :Q_syn_hb*/ } ELSE IF( st_fx->bfi ) { - fb_ener_adjust_fx = st_fx->prev_fb_ener_adjust_fx; + fb_ener_adjust_fx = hBWE_FD->prev_fb_ener_adjust_fx; move16(); } - st_fx->prev_fb_ener_adjust_fx = fb_ener_adjust_fx; + hBWE_FD->prev_fb_ener_adjust_fx = fb_ener_adjust_fx; move16(); IF( EQ_16( mode, TRANSIENT ) ) { @@ -1112,12 +1086,7 @@ Word16 swb_bwe_dec_fx( /*o :Q_syn_hb*/ } fb_band_begin = FB_BAND_BEGIN; move16(); -#ifdef ADD_IVAS_BWE - IF( st_fx->L_frame == L_FRAME ) - { - fb_band_begin = FB_BAND_BEGIN_12k8; - } -#endif + FOR( i = fb_band_begin; i < add( fb_band_begin, DE_OFFSET1 ); i++ ) { tmp = sub( 32767, i_mult( j, 1024 ) ); @@ -1193,14 +1162,7 @@ Word16 swb_bwe_dec_fx( /*o :Q_syn_hb*/ move16(); } } -#ifdef ADD_IVAS_BWE - test(); - IF( EQ_16( st_fx->element_mode, IVAS_CPE_DFT ) && !use_cldfb_for_dft ) - { - /* add HB synth from hf_synth() */ - v_add( hb_synth, synth, hb_synth, output_frame ); - } -#endif + hBWE_FD->prev_frica_flag = frica_flag; move16(); hBWE_FD->prev_mode = mode; @@ -1216,23 +1178,18 @@ Word16 swb_bwe_dec_fx( /*o :Q_syn_hb*/ * Initialize FD BWE state structure at the decoder *-------------------------------------------------------------------*/ -void fd_bwe_dec_init( - Decoder_State *st_fx, /* i/o: decoder state structure */ +void fd_bwe_dec_init_fx( FD_BWE_DEC_HANDLE hBWE_FD /* i/o: FD BWE data handle */ ) { - hBWE_FD->old_wtda_wb_fx_exp = 0; - move16(); - set16_fx( hBWE_FD->old_syn_12k8_16k_fx, 0, NS2SA_FX2( 16000, DELAY_FD_BWE_ENC_NS ) ); + set16_fx( hBWE_FD->old_syn_12k8_16k_fx, 0, NS2SA( 16000, DELAY_FD_BWE_ENC_NS ) ); set16_fx( hBWE_FD->L_old_wtda_swb_fx, 0, L_FRAME48k ); hBWE_FD->old_wtda_swb_fx_exp = 0; move16(); - hBWE_FD->mem_imdct_exp_fx = 0; - move16(); hBWE_FD->prev_mode = NORMAL; move16(); - set16_fx( st_fx->prev_SWB_fenv_fx, 0, SWB_FENV ); + set16_fx( hBWE_FD->prev_SWB_fenv_fx, 0, SWB_FENV ); hBWE_FD->prev_Energy_fx = 0; move16(); hBWE_FD->prev_L_swb_norm = 8; @@ -1242,13 +1199,15 @@ void fd_bwe_dec_init( hBWE_FD->prev_frica_flag = 0; move16(); set16_fx( hBWE_FD->mem_imdct_fx, 0, L_FRAME48k ); + hBWE_FD->mem_imdct_exp_fx = 0; + move16(); hBWE_FD->prev_td_energy_fx = 0; move16(); hBWE_FD->prev_weight_fx = 6554; /*0.2 in Q15*/ move16(); hBWE_FD->prev_flag = 0; move16(); - st_fx->last_wb_bwe_ener_fx = 0; + hBWE_FD->last_wb_bwe_ener_fx = 0; move16(); hBWE_FD->prev_Energy_wb_fx = L_deposit_l( 0 ); move32(); @@ -1256,13 +1215,349 @@ void fd_bwe_dec_init( move16(); /* Previous frame LPC initialization for PPP */ - st_fx->prev_Q_synth = 0; + hBWE_FD->prev_Q_synth = 0; move16(); hBWE_FD->mem_deemph_old_syn_fx = 0; move16(); - st_fx->prev_fb_ener_adjust_fx = 0; + hBWE_FD->prev_fb_ener_adjust_fx = 0; move16(); return; } + +/*-------------------------------------------------------------------* + * WB_BWE_gain_deq() + * + * Decoding of WB parameters + *-------------------------------------------------------------------*/ + + +Word16 swb_bwe_dec_fx32( + Decoder_State *st_fx, /* i/o: decoder state structure */ + Word32 output_fx[], /* i : synthesis @internal Fs : Q11 */ + Word32 *synth_fx, /* i : ACELP core synthesis/final synthesis : Q11 */ + Word32 *hb_synth_fx, /* o : SHB synthesis/final synthesis : Q_syn_hb */ + Word16 use_cldfb_for_dft, /* i : flag to use of CLDFB for DFT Stereo */ + Word16 output_frame /* i : frame length */ +) +{ + Word16 L; + Word16 mode; + Word16 idxGain; + Word16 i, j, l_subfr; + Word16 fb_band_begin; + Word16 frica_flag = 0; + move16(); + Word16 ener_adjust_quan_fx; + Word16 fb_ener_adjust_fx = 0; + move16(); + Word16 scl, new_input_fx_exp, ysynth_frame_size; + Word16 Q_syn, Q_syn_hb, tmp, tmp2, q_tmp, Qsynth_fx16; + + Word16 ysynth_fx[L_FRAME48k]; + Word16 SWB_fenv_fx[SWB_FENV]; + Word16 SWB_tenv_fx[SWB_TENV]; + Word16 synth_fx16[L_FRAME48k]; + Word16 hb_synth_fx16[L_FRAME48k]; + + Word32 L_tmp; + Word32 yerror_fx[L_FRAME48k]; + Word32 ysynth_fx32[L_FRAME48k]; + Word32 SWB_tenv_tmp_fx[SWB_TENV]; + Word32 wtda_synth_fx[2 * L_FRAME48k]; + + FD_BWE_DEC_HANDLE hBWE_FD; + hBWE_FD = st_fx->hBWE_FD; + + /*---------------------------------------------------------------------* + * SWB BWE decoding + *---------------------------------------------------------------------*/ + test(); + IF( EQ_16( st_fx->element_mode, IVAS_CPE_DFT ) && !use_cldfb_for_dft ) + { + /* todo - wtda() does not support L_FRAME length; thus temporarily resample the signal */ + /* todo - delay output[] by 1.25ms ? */ + L_lerp_fx_q11( output_fx, ysynth_fx32, L_FRAME16k, st_fx->L_frame ); + + /* windowing of the ACELP core synthesis */ + wtda_fx32( ysynth_fx32, wtda_synth_fx, hBWE_FD->L_old_wtda_swb_fx32, ALDO_WINDOW, ALDO_WINDOW, /*st_fx->L_frame*/ L_FRAME16k ); + + /* DCT of the ACELP core synthesis */ + new_input_fx_exp = 11; + move16(); + direct_transform_fx( wtda_synth_fx, ysynth_fx32, 0, /*st_fx->L_frame*/ L_FRAME16k, &new_input_fx_exp, st_fx->element_mode ); + ysynth_frame_size = L_FRAME16k; + move16(); + } + ELSE + { + /* windowing of the ACELP core synthesis */ + wtda_fx32( synth_fx, wtda_synth_fx, hBWE_FD->L_old_wtda_swb_fx32, ALDO_WINDOW, ALDO_WINDOW, output_frame ); + + /* DCT of the ACELP core synthesis */ + new_input_fx_exp = 11; + move16(); + direct_transform_fx( wtda_synth_fx, ysynth_fx32, 0, output_frame, &new_input_fx_exp, st_fx->element_mode ); + ysynth_frame_size = output_frame; + move16(); + } + + /* Convert to 16 Bits (Calc Shift Required to Stay within MAX_Q_NEW_INPUT) */ + scl = sub( 16 + 11, new_input_fx_exp ); + /* Possible to Upscale? */ + IF( scl > 0 ) + { + /* Yes */ + /* Calc Room to Upscale */ + Q_syn = sub( Find_Max_Norm32( ysynth_fx32, ysynth_frame_size ), 3 ); + /* Stay within MAX_Q_NEW_INPUT */ + scl = s_min( Q_syn, scl ); + } + /*Don't upscale if already in 15 bits*/ + IF( GT_16( scl, 15 ) ) + { + FOR( i = 0; i < ysynth_frame_size; i++ ) + { + ysynth_fx[i] = extract_l( ysynth_fx32[i] ); + move16(); + } + Q_syn = new_input_fx_exp; + move16(); + } + ELSE + { + Copy_Scale_sig32_16( ysynth_fx32, ysynth_fx, ysynth_frame_size, scl ); + Q_syn = add( sub( new_input_fx_exp, 16 ), scl ); + } + + IF( !st_fx->bfi ) + { + IF( st_fx->bws_cnt > 0 ) + { + /* estimate parameters */ + mode = para_pred_bws_fx( st_fx, ysynth_fx, SWB_fenv_fx, Q_syn ); + } + ELSE + { + /* de-quantization */ + mode = swb_bwe_gain_deq_fx( st_fx, ACELP_CORE, SWB_tenv_fx, SWB_fenv_fx, 0, -1 ); + } + + L = SWB_FENV; + move16(); + if ( EQ_16( mode, TRANSIENT ) ) + { + L = SWB_FENV_TRANS; + move16(); + } + + L_tmp = 0; + move32(); + FOR( i = 0; i < L; i++ ) + { + L_tmp = L_add( L_tmp, L_deposit_l( SWB_fenv_fx[i] ) ); + } + q_tmp = norm_s( L ); + tmp = div_s( shl( 1, sub( 14, q_tmp ) ), L ); /*Q(29-q_tmp) */ + L_tmp = Mpy_32_16_1( L_tmp, tmp ); /*Q(1+29-q_tmp+1-16)->Q(15-q_tmp) */ + st_fx->prev_ener_shb_fx = round_fx( L_shl( L_tmp, add( q_tmp, 2 ) ) ); /*Q1 */ + move16(); + } + ELSE + { + /* SHB FEC */ + + IF( NE_16( hBWE_FD->prev_mode, TRANSIENT ) ) + { + mode = hBWE_FD->prev_mode; + move16(); + } + ELSE + { + mode = NORMAL; + move16(); + } + + Copy( hBWE_FD->prev_SWB_fenv_fx, SWB_fenv_fx, SWB_FENV ); + } + + /* reconstruction of MDCT spectrum of the error signal */ + set32_fx( yerror_fx, 0, output_frame ); + + IF( EQ_16( st_fx->L_frame, L_FRAME16k ) ) + { + SWB_BWE_decoding_fx( ysynth_fx, SWB_fenv_fx, yerror_fx, L_FRAME32k - 80, mode, &frica_flag, &hBWE_FD->prev_Energy_fx, hBWE_FD->prev_SWB_fenv_fx, &hBWE_FD->prev_L_swb_norm, st_fx->tilt_wb_fx, &hBWE_FD->Seed, 80, &hBWE_FD->prev_weight_fx, st_fx->extl, Q_syn, st_fx->last_extl ); + } + ELSE + { + SWB_BWE_decoding_fx( ysynth_fx, SWB_fenv_fx, yerror_fx, L_FRAME32k - 80, mode, &frica_flag, &hBWE_FD->prev_Energy_fx, hBWE_FD->prev_SWB_fenv_fx, &hBWE_FD->prev_L_swb_norm, st_fx->tilt_wb_fx, &hBWE_FD->Seed, 6, &hBWE_FD->prev_weight_fx, st_fx->extl, Q_syn, st_fx->last_extl ); + } + + test(); + IF( EQ_16( hBWE_FD->prev_frica_flag, 1 ) && frica_flag == 0 ) + { + FOR( i = 0; i < L_SUBFR; i++ ) + { + tmp = sub( 32767, extract_l( L_mult0( i, 512 ) ) ); /*Q15 */ + hBWE_FD->mem_imdct_fx[i] = mult_r( hBWE_FD->mem_imdct_fx[i], tmp ); + move16(); + } + + FOR( ; i < output_frame; i++ ) + { + hBWE_FD->mem_imdct_fx[i] = 0; + move16(); + } + } + + /* decode information */ + IF( EQ_16( st_fx->extl, FB_BWE ) ) + { + IF( !st_fx->bfi ) + { + idxGain = (Word16) get_next_indice_fx( st_fx, NUM_BITS_FB_FRAMEGAIN ); + fb_ener_adjust_fx = usdequant_fx( idxGain, FB_GAIN_QLOW_FX, FB_GAIN_QDELTA_FX ); /*Q15 */ + } + ELSE IF( st_fx->bfi ) + { + fb_ener_adjust_fx = hBWE_FD->prev_fb_ener_adjust_fx; + move16(); + } + + hBWE_FD->prev_fb_ener_adjust_fx = fb_ener_adjust_fx; + move16(); + IF( EQ_16( mode, TRANSIENT ) ) + { + ener_adjust_quan_fx = shr( fb_ener_adjust_fx, 2 ); + } + ELSE + { + IF( SWB_fenv_fx[7] != 0 ) + { + tmp = div_s( 1, SWB_fenv_fx[7] ); + ener_adjust_quan_fx = s_min( shr( i_mult_sat( SWB_fenv_fx[13], tmp ), 2 ), 32767 ); + } + ELSE + { + ener_adjust_quan_fx = 0; + move16(); + } + } + + fb_band_begin = FB_BAND_BEGIN; + move16(); + if ( EQ_16( st_fx->L_frame, L_FRAME ) ) + { + fb_band_begin = FB_BAND_BEGIN_12k8; + move16(); + } + + j = 0; + move16(); + FOR( i = fb_band_begin; i < add( fb_band_begin, DE_OFFSET1 ); i++ ) + { + tmp = sub( 32767, i_mult( j, 1024 ) ); + tmp = mult_r( tmp, ener_adjust_quan_fx ); /*Q13*/ + + tmp2 = i_mult( j, 256 ); /*Q13*/ + tmp2 = mult_r( tmp2, fb_ener_adjust_fx ); /*Q13*/ + + tmp = add( tmp, tmp2 ); /*Q13*/ + yerror_fx[i] = L_shl( Mpy_32_16_1( yerror_fx[i - FB_BAND_WIDTH], tmp ), 2 ); /*15+Q_syn */ + move32(); + j = add( j, 1 ); + } + FOR( ; i < FB_BAND_END; i++ ) + { + yerror_fx[i] = Mpy_32_16_1( yerror_fx[i - FB_BAND_WIDTH], fb_ener_adjust_fx ); /*15+Q_syn */ + move32(); + } + } + + /* iDCT of the error signal */ + Q_syn_hb = add( Q_syn, 15 ); + Inverse_Transform( yerror_fx, &Q_syn_hb, wtda_synth_fx, 0, output_frame, -1, st_fx->element_mode ); + + /* inverse windowing of the error signal */ + window_ola_fx( wtda_synth_fx, hb_synth_fx16, &Q_syn_hb, hBWE_FD->mem_imdct_fx, &hBWE_FD->mem_imdct_exp_fx, output_frame, ALDO_WINDOW, ALDO_WINDOW, 0, 0, 0 ); + l_subfr = mult( output_frame, 8192 ); + + test(); + IF( EQ_16( mode, TRANSIENT ) ) + { + FOR( i = 0; i < SWB_TENV; i++ ) + { + SWB_tenv_tmp_fx[i] = L_mult0( SWB_tenv_fx[i] /*Q0*/, 26214 /*0.8f Q15*/ ); // Q15 + move32(); + } + + /* time envelope shaping when the current frame is TRANSIENT frame */ + time_envelop_shaping_ivas_fx( hb_synth_fx16, SWB_tenv_tmp_fx, output_frame, &Q_syn_hb ); + + Q_syn_hb = sub( Q_syn_hb, 3 ); + + hBWE_FD->prev_td_energy_fx = SWB_tenv_fx[3]; + move16(); + } + ELSE IF( EQ_16( frica_flag, 1 ) && hBWE_FD->prev_frica_flag == 0 ) + { + Qsynth_fx16 = Find_Max_Norm32( synth_fx, output_frame ); + Qsynth_fx16 = sub( Qsynth_fx16, shr( add( sub( 15, norm_s( l_subfr ) ), 1 ), 1 ) ); + Copy_Scale_sig32_16( synth_fx, synth_fx16, output_frame, Qsynth_fx16 ); + Qsynth_fx16 = add( 11 - 16, Qsynth_fx16 ); + + /* IVAS_fmToDo: synth[] is @internal_Fs!!! */ + time_reduce_pre_echo_fx( synth_fx16, hb_synth_fx16, hBWE_FD->prev_td_energy_fx, l_subfr, Qsynth_fx16, Q_syn_hb ); + } + ELSE + { + tmp = i_mult2( 3, l_subfr ); + L_tmp = L_deposit_l( 0 ); + + FOR( i = 0; i < l_subfr; i++ ) + { + L_tmp = L_mac0_sat( L_tmp, hb_synth_fx16[add( tmp, i )], hb_synth_fx16[add( tmp, i )] ); /*(2*Q_syn_hb) */ + } + + L_tmp = Mult_32_16( L_tmp, div_s( 1, l_subfr ) ); /*(2*Q_syn_hb) */ + hBWE_FD->prev_td_energy_fx = 0; + move16(); + + IF( L_tmp != 0 ) + { + q_tmp = norm_l( L_tmp ); + tmp = extract_h( L_shl( L_tmp, q_tmp ) ); + q_tmp = sub( q_tmp, sub( 30, shl( Q_syn_hb, 1 ) ) ); + + tmp = div_s( 16384, tmp ); + L_tmp = L_deposit_h( tmp ); + L_tmp = Isqrt_lc( L_tmp, &q_tmp ); /*Q(31-exp) */ + hBWE_FD->prev_td_energy_fx = round_fx( L_shl( L_tmp, sub( q_tmp, 15 ) ) ); /*Q0 */ + move16(); + } + } + + test(); + IF( EQ_16( st_fx->element_mode, IVAS_CPE_DFT ) && !use_cldfb_for_dft ) + { + Qsynth_fx16 = add( 16 - 11, Q_syn_hb ); + Copy_Scale_sig32_16( synth_fx, synth_fx16, output_frame, Qsynth_fx16 ); + + /* add HB synth from hf_synth() */ + v_add_16( hb_synth_fx16, synth_fx16, hb_synth_fx16, output_frame ); + } + + hBWE_FD->prev_mode = mode; + move16(); + hBWE_FD->prev_frica_flag = frica_flag; + move16(); + + FOR( i = 0; i < output_frame; i++ ) + { + hb_synth_fx[i] = L_deposit_l( hb_synth_fx16[i] ); // Q_syn_hb + move32(); + } + + return Q_syn_hb; +} diff --git a/lib_dec/swb_bwe_dec_hr_fx.c b/lib_dec/swb_bwe_dec_hr_fx.c index 18867ce40bcd5d9ad0bb09e12c67b1212a9b31d0..9fae1ded560681fb2420b3bc487adbb7ab23ece4 100644 --- a/lib_dec/swb_bwe_dec_hr_fx.c +++ b/lib_dec/swb_bwe_dec_hr_fx.c @@ -1306,7 +1306,7 @@ Word16 swb_bwe_dec_hr_fx( /* o : Exponent of SHB } FOR( i = 0; i < SWB_FENV; i++ ) { - st_fx->prev_SWB_fenv_fx[i] = st_fx->prev_ener_shb_fx; /*gain_e + 15*/ + st_fx->hBWE_FD->prev_SWB_fenv_fx[i] = st_fx->prev_ener_shb_fx; /*gain_e + 15*/ move16(); } diff --git a/lib_dec/swb_tbe_dec.c b/lib_dec/swb_tbe_dec.c deleted file mode 100644 index 80dfad505c3822d91ca395323cbeb6a8b7e00e8e..0000000000000000000000000000000000000000 --- a/lib_dec/swb_tbe_dec.c +++ /dev/null @@ -1,2478 +0,0 @@ -/****************************************************************************************************** - - (C) 2022-2025 IVAS codec Public Collaboration with portions copyright Dolby International AB, Ericsson AB, - Fraunhofer-Gesellschaft zur Foerderung der angewandten Forschung e.V., Huawei Technologies Co. LTD., - Koninklijke Philips N.V., Nippon Telegraph and Telephone Corporation, Nokia Technologies Oy, Orange, - Panasonic Holdings Corporation, Qualcomm Technologies, Inc., VoiceAge Corporation, and other - contributors to this repository. All Rights Reserved. - - This software is protected by copyright law and by international treaties. - The IVAS codec Public Collaboration consisting of Dolby International AB, Ericsson AB, - Fraunhofer-Gesellschaft zur Foerderung der angewandten Forschung e.V., Huawei Technologies Co. LTD., - Koninklijke Philips N.V., Nippon Telegraph and Telephone Corporation, Nokia Technologies Oy, Orange, - Panasonic Holdings Corporation, Qualcomm Technologies, Inc., VoiceAge Corporation, and other - contributors to this repository retain full ownership rights in their respective contributions in - the software. This notice grants no license of any kind, including but not limited to patent - license, nor is any license granted by implication, estoppel or otherwise. - - Contributors are required to enter into the IVAS codec Public Collaboration agreement before making - contributions. - - This software is provided "AS IS", without any express or implied warranties. The software is in the - development stage. It is intended exclusively for experts who have experience with such software and - solely for the purpose of inspection. All implied warranties of non-infringement, merchantability - and fitness for a particular purpose are hereby disclaimed and excluded. - - Any dispute, controversy or claim arising under or in relation to providing this software shall be - submitted to and settled by the final, binding jurisdiction of the courts of Munich, Germany in - accordance with the laws of the Federal Republic of Germany excluding its conflict of law rules and - the United Nations Convention on Contracts on the International Sales of Goods. - -*******************************************************************************************************/ - -/*==================================================================================== - EVS Codec 3GPP TS26.443 Nov 04, 2021. Version 12.14.0 / 13.10.0 / 14.6.0 / 15.4.0 / 16.3.0 - ====================================================================================*/ - -#include -#include "options.h" -#include -#include "cnst.h" -#include "prot.h" -#include "prot_fx.h" -#include "rom_com.h" -#include "rom_dec.h" -#include "wmc_auto.h" -#include "ivas_prot.h" -#include "ivas_prot_fx.h" - -/*-----------------------------------------------------------------* - * Local function prototypes - *-----------------------------------------------------------------*/ - - -void find_max_mem_dec_m3( - Decoder_State *st, - Word16 *n_mem3 ); - -/*-------------------------------------------------------------------* - * ResetSHBbuffer_Dec() - * - * - *-------------------------------------------------------------------*/ - -static void calc_tilt_bwe_fx_loc( - const Word32 *sp_fx, /* i : input signal : Q11 */ - Word32 *tilt_fx, /* o : signal tilt : tilt_fx_q */ - Word16 *tilt_fx_q, /* o : signal tilt */ - const Word16 N /* i : signal length : Q0 */ -) -{ - Word16 i; - Word64 r0_fx, r1_fx; - - r0_fx = EPSILON_FX_SMALL; - move64(); - FOR( i = 0; i < N; i++ ) - { - r0_fx = W_add( r0_fx, W_shr( W_mult_32_32( sp_fx[i], sp_fx[i] ), 1 ) ); /*Q11*2 - 1*/ - } - r1_fx = W_deposit32_l( abs( L_sub( sp_fx[1], sp_fx[0] ) ) ); /*Q11*/ - FOR( i = 2; i < N; i++ ) - { - IF( W_mult_32_32( L_sub( sp_fx[i], sp_fx[i - 1] ) /*Q11*/, L_sub( sp_fx[i - 1], sp_fx[i - 2] ) /*Q11*/ ) /*Q11 * 2 - 1*/ < 0 ) - { - r1_fx = W_add( r1_fx, W_deposit32_l( abs( L_sub( sp_fx[i], sp_fx[i - 1] ) ) ) ); /*Q11*/ - } - } - Word16 headroom_left_r0 = W_norm( r0_fx ); - Word16 headroom_left_r1 = W_norm( r1_fx ); - Word16 r0_q = 0, r1_q = 0; - move16(); - move16(); - IF( LT_16( headroom_left_r0, 32 ) ) - { - r0_fx = W_shr( r0_fx, sub( 32, headroom_left_r0 ) ); - r0_q = sub( 31, sub( ( 2 * OUTPUT_Q ), sub( 32, headroom_left_r0 ) ) ); - } - ELSE - { - r0_q = 31 - ( 2 * OUTPUT_Q ); - move16(); - } - - IF( LT_16( headroom_left_r1, 32 ) ) - { - r1_fx = W_shr( r1_fx, sub( 32, headroom_left_r1 ) ); - r1_q = sub( OUTPUT_Q, sub( 32, headroom_left_r1 ) ); - } - ELSE - { - r1_q = OUTPUT_Q; - move16(); - } - Word32 temp_r0_inv = ISqrt32( W_extract_l( r0_fx ), &r0_q ); - Word32 res = Mpy_32_32( W_extract_l( r1_fx ), temp_r0_inv ); - // Word16 res_q = r1_q + ( r0_q < 0 ? ( 31 + ( -1 * r0_q ) ) : r0_q ) - 31; - Word16 res_q; - IF( r0_q < 0 ) - { - res_q = add( r1_q, sub( add( 31, -r0_q ), 31 ) ); - } - ELSE - { - res_q = add( r1_q, sub( r0_q, 31 ) ); - } - Word16 norm_res = norm_l( res ); - IF( norm_res > 0 ) - { - *tilt_fx = L_shl_sat( res, norm_res ); - move32(); - *tilt_fx_q = add( res_q, norm_res ); - move16(); - } - ELSE - { - *tilt_fx = res; - move32(); - *tilt_fx_q = res_q; - move16(); - } - return; -} - -/*-------------------------------------------------------------------* - * swb_tbe_dec() - * - * SWB TBE decoder, 6 - 14 kHz (or 7.5 - 15.5 kHz) band decoding module - *-------------------------------------------------------------------*/ -static void rescale_genSHB_mem_dec( - Decoder_State *st_fx, - Word16 sf /*Q0*/ -) -{ - Word16 i; - TD_BWE_DEC_HANDLE hBWE_TD; - hBWE_TD = st_fx->hBWE_TD; - - FOR( i = 0; i < NL_BUFF_OFFSET; i++ ) - { - hBWE_TD->old_bwe_exc_extended_fx[i] = shl( hBWE_TD->old_bwe_exc_extended_fx[i], sf ); - move16(); - } - - FOR( i = 0; i < 7; i++ ) - { - hBWE_TD->mem_genSHBexc_filt_down_shb_fx[i] = shl( hBWE_TD->mem_genSHBexc_filt_down_shb_fx[i], sf ); - move16(); - } - - /* -- Apply memory scaling for 13.2 and 16.4k bps using sf ----*/ - IF( LT_32( st_fx->total_brate, ACELP_24k40 ) ) - { - FOR( i = 0; i < LPC_SHB_ORDER; i++ ) - { - hBWE_TD->state_lpc_syn_fx[i] = shl_sat( hBWE_TD->state_lpc_syn_fx[i], sf ); - move16(); - } - - FOR( i = 0; i < L_SHB_LAHEAD; i++ ) - { - hBWE_TD->state_syn_shbexc_fx[i] = shl_sat( hBWE_TD->state_syn_shbexc_fx[i], sf ); - move16(); - } - } - - hBWE_TD->mem_csfilt_fx[0] = L_shl( hBWE_TD->mem_csfilt_fx[0], sf ); - move32(); - - hBWE_TD->tbe_demph_fx = shl_r( hBWE_TD->tbe_demph_fx, sf ); - move16(); - hBWE_TD->tbe_premph_fx = shl_r( hBWE_TD->tbe_premph_fx, sf ); - move16(); -} - -static void gradientGainShape( - Decoder_State *st_fx, - Word16 *GainShape_fx, /*Q15*/ - Word32 *GainFrame_fx /* Q18 */ ) -{ - Word16 i, j, tmp; - Word16 GainShapeTemp[NUM_SHB_SUBFR / 4]; - Word16 GainGrad0[3]; - Word16 GainGrad1[3]; - Word16 GainGradFEC[4]; - TD_BWE_DEC_HANDLE hBWE_TD; - hBWE_TD = st_fx->hBWE_TD; - - - /* the previous frame gainshape gradient and the gainshape gradient pattern for the current frame */ - FOR( j = 0; j < 3; j++ ) - { - GainGrad0[j] = sub( shr( st_fx->GainShape_Delay[j + 1], 1 ), shr( st_fx->GainShape_Delay[j], 1 ) ); - move16(); /* Q14 */ - GainGrad1[j] = sub( shr( st_fx->GainShape_Delay[j + 5], 1 ), shr( st_fx->GainShape_Delay[j + 4], 1 ) ); - move16(); /* Q14 */ - GainGradFEC[j + 1] = add( mult_r( GainGrad0[j], 13107 /*0.4f in Q15*/ ), mult_r( GainGrad1[j], 19660 /*0.6f in Q15*/ ) ); - move16(); /* Q14 */ - } - - /* gradient for the first gainshape */ - test(); - test(); - test(); - IF( ( ( GT_16( shr( GainGrad1[2], 1 ), GainGrad1[1] ) ) && ( GT_16( shr( GainGrad1[1], 1 ), GainGrad1[0] ) ) ) || - ( ( LT_16( shr( GainGrad1[2], 1 ), GainGrad1[1] ) ) && ( LT_16( shr( GainGrad1[1], 1 ), GainGrad1[0] ) ) ) ) - { - GainGradFEC[0] = add( mult_r( GainGrad1[1], 3277 /*0.1f in Q15*/ ), mult_r( GainGrad1[2], 29490 /*0.9f in Q15*/ ) ); - move16(); /* Q14 */ - } - ELSE - { - GainGradFEC[0] = add( mult_r( GainGrad1[0], 6553 /*0.2f in Q15*/ ), mult_r( GainGrad1[1], 9830 /*0.3f in Q15*/ ) ); - move16(); - GainGradFEC[0] = add( GainGradFEC[0], mult_r( GainGrad1[2], 16384 /*0.5f in Q15*/ ) ); - move16(); /* Q14 */ - } - - /* get the first gainshape template */ - test(); - test(); - IF( ( EQ_16( st_fx->prev_coder_type, UNVOICED ) || ( st_fx->last_good == UNVOICED_CLAS ) ) && ( GainGradFEC[0] > 0 ) ) - { - GainShapeTemp[0] = add( shr( st_fx->GainShape_Delay[7], 1 ), GainGradFEC[0] ); - move16(); - } - ELSE IF( GainGradFEC[0] > 0 ) - { - GainShapeTemp[0] = add( shr( st_fx->GainShape_Delay[7], 1 ), mult_r( GainGradFEC[0], 16384 /*0.5f in Q15*/ ) ); - move16(); /* Q14 */ - } - ELSE - { - GainShapeTemp[0] = shr( st_fx->GainShape_Delay[7], 1 ); - move16(); /* Q14 */ - } - - /*Get the second the third and the fourth gainshape template*/ - - tmp = shr( GainGrad1[2], 3 ); /* GainGrad1[2]/8 */ - tmp = mult_r( tmp, 26214 ); /* 0.8 in Q15 tmp*(8/10) */ - - test(); - IF( ( GT_16( tmp, GainGrad1[1] ) ) && ( GainGrad1[1] > 0 ) ) - { - FOR( i = 1; i < NUM_SHB_SUBFR / 4; i++ ) - { - GainShapeTemp[i] = add( GainShapeTemp[i - 1], mult_r( GainGradFEC[i], 26214 /*0.8f in Q15*/ ) ); - move16(); /* GainShapeTemp[i-1] + 0.8* GainShapeTemp[i] */ - GainShapeTemp[i] = s_max( GainShapeTemp[i], 328 /*0.01f Q15*/ ); - move16(); - } - } - ELSE - { - test(); - IF( ( GT_16( tmp, GainGrad1[1] ) ) && ( GainGrad1[1] < 0 ) ) - { - FOR( i = 1; i < NUM_SHB_SUBFR / 4; i++ ) - { - GainShapeTemp[i] = add( GainShapeTemp[i - 1], mult_r( GainGradFEC[i], 6553 /*0.2f in Q15*/ ) ); - move16(); /* GainShapeTemp[i-1] + 0.8* GainShapeTemp[i] */ - GainShapeTemp[i] = s_max( GainShapeTemp[i], 328 /*0.01f Q15*/ ); - move16(); /* Q14 */ - } - } - ELSE - { - FOR( i = 1; i < NUM_SHB_SUBFR / 4; i++ ) - { - GainShapeTemp[i] = add( GainShapeTemp[i - 1], GainGradFEC[i] ); - move16(); - GainShapeTemp[i] = s_max( GainShapeTemp[i], 328 /*0.01f Q15*/ ); - move16(); - } - } - } - - /* Get the gainshape and gain frame for the current frame*/ - test(); - test(); - test(); - IF( ( EQ_16( st_fx->prev_coder_type, UNVOICED ) || ( st_fx->last_good == UNVOICED_CLAS ) ) && EQ_16( st_fx->nbLostCmpt, 1 ) ) - { - FOR( i = 0; i < NUM_SHB_SUBFR / 4; i++ ) - { - FOR( j = 0; j < 4; j++ ) - { - tmp = mult_r( GainShapeTemp[i], 19660 /*0.6f Q15*/ ); /* GainShapeTemp[i]*0.6 */ - - IF( GT_16( 8192, tmp ) ) - { - GainShape_fx[i * 4 + j] = shl( tmp, 2 ); /*Q15*/ - move16(); /* (GainShapeTemp[i]*0.6)>>1 */ - } - ELSE - { - GainShape_fx[i * 4 + j] = 32767; /*Q15*/ - move16(); /* Clipping here to avoid the a huge change of the code due to gain shape change */ - } - } - } - hBWE_TD->GainAttn_fx = mult_r( hBWE_TD->GainAttn_fx, 31129 ); - move16(); - } - ELSE IF( EQ_16( st_fx->prev_coder_type, UNVOICED ) || ( st_fx->last_good == UNVOICED_CLAS ) ) - { - FOR( i = 0; i < NUM_SHB_SUBFR / 4; i++ ) - { - FOR( j = 0; j < 4; j++ ) - { - IF( LT_16( GainShapeTemp[i], 16384 ) ) - { - GainShape_fx[i * 4 + j] = shl( GainShapeTemp[i], 1 ); /*Q15*/ - move16(); - } - ELSE - { - GainShape_fx[i * 4 + j] = 32767; // 1.0f in Q15 - move16(); - } - } - } - hBWE_TD->GainAttn_fx = mult_r( hBWE_TD->GainAttn_fx, 31129 /*0.95f in Q15*/ ); /*Q15*/ - move16(); - } - ELSE IF( GT_16( st_fx->nbLostCmpt, 1 ) ) - { - FOR( i = 0; i < NUM_SHB_SUBFR / 4; i++ ) - { - FOR( j = 0; j < 4; j++ ) - { - GainShape_fx[i * 4 + j] = GainShapeTemp[i]; /*Q15*/ - move16(); - } - } - hBWE_TD->GainAttn_fx = mult_r( hBWE_TD->GainAttn_fx, 16384 /*0.5f in Q15*/ ); /*Q15*/ - move16(); - } - ELSE - { - FOR( i = 0; i < NUM_SHB_SUBFR / 4; i++ ) - { - FOR( j = 0; j < 4; j++ ) - { - IF( LT_16( GainShapeTemp[i], 16384 ) ) - { - GainShape_fx[i * 4 + j] = shl( GainShapeTemp[i], 1 ); /*Q15*/ - move16(); - } - ELSE - { - GainShape_fx[i * 4 + j] = 32767; /*Q15*/ - move16(); - } - } - } - hBWE_TD->GainAttn_fx = mult_r( hBWE_TD->GainAttn_fx, 27852 /*0.85f in Q15*/ ); /*Q15*/ - move16(); - } - - *GainFrame_fx = Mult_32_16( hBWE_TD->GainFrame_prevfrm_fx, hBWE_TD->GainAttn_fx ); /* Q18 */ - move32(); -} - -static void find_max_mem_dec( - Decoder_State *st_fx, - Word16 *n_mem, - Word16 *n_mem2, - Word16 *n_mem3 ) -{ - Word16 i; - Word16 n_mem_32; - Word16 max = 0; - move16(); - Word32 Lmax = 0; - move32(); - Word16 tempQ15, max2 = 0; - move16(); - Word16 max3; - Word32 tempQ32, Lmax3; - TD_BWE_DEC_HANDLE hBWE_TD; - hBWE_TD = st_fx->hBWE_TD; - - /* old BWE exc max */ - FOR( i = 0; i < NL_BUFF_OFFSET; i++ ) - { - tempQ15 = abs_s( hBWE_TD->old_bwe_exc_extended_fx[i] ); - max = s_max( max, tempQ15 ); - } - - /* decimate all-pass steep memory */ - FOR( i = 0; i < 7; i++ ) - { - tempQ15 = abs_s( hBWE_TD->mem_genSHBexc_filt_down_shb_fx[i] ); - max = s_max( max, tempQ15 ); - } - - /* -- keep norm of state_lpc_syn_fx, state_syn_shbexc_fx, - and mem_stp_swb_fx separately for 24.4 and 32kbps ----*/ - /* findMaxMem2() inside tbe com */ - FOR( i = 0; i < LPC_SHB_ORDER; i++ ) - { - tempQ15 = abs_s( hBWE_TD->state_lpc_syn_fx[i] ); - max2 = s_max( max2, tempQ15 ); - } - - /* findMaxMem2() inside tbe com */ - FOR( i = 0; i < L_SHB_LAHEAD; i++ ) - { - tempQ15 = abs_s( hBWE_TD->state_syn_shbexc_fx[i] ); - max2 = s_max( max2, tempQ15 ); - } - - /* findMaxMem2() inside tbe com */ - FOR( i = 0; i < LPC_SHB_ORDER; i++ ) - { - tempQ15 = abs_s( hBWE_TD->mem_stp_swb_fx[i] ); - max2 = s_max( max2, tempQ15 ); - } - - /* for total_brate > 16.4kbps, use n_mem2; else account for the max2 for n_mem calculation */ - *n_mem2 = norm_s( max2 ); - move16(); - if ( max2 == 0 ) - { - *n_mem2 = 15; - move16(); - } - - if ( LT_32( st_fx->total_brate, ACELP_24k40 ) ) - { - max = s_max( max, max2 ); - } - - /* de-emph and pre-emph memory */ - tempQ15 = abs_s( hBWE_TD->tbe_demph_fx ); - max = s_max( max, tempQ15 ); - - tempQ15 = abs_s( hBWE_TD->tbe_premph_fx ); - max = s_max( max, tempQ15 ); - - IF( EQ_16( st_fx->extl, FB_TBE ) ) - { - FOR( i = 0; i < LPC_SHB_ORDER; i++ ) - { - tempQ15 = abs_s( hBWE_TD->fb_state_lpc_syn_fx[i] ); - max = s_max( max, tempQ15 ); - } - /* FB de-emph memory */ - tempQ15 = abs_s( hBWE_TD->fb_tbe_demph_fx ); - max = s_max( max, tempQ15 ); - } - /* estimate the norm for 16-bit memories */ - *n_mem = norm_s( max ); - move16(); - if ( max == 0 ) - { - *n_mem = 15; - move16(); - } - - /* estimate the norm for 32-bit memories */ - Lmax = L_abs( hBWE_TD->mem_csfilt_fx[0] ); /* only element [0] is used in env. shaping */ - - n_mem_32 = norm_l( Lmax ); - if ( Lmax == 0 ) - { - n_mem_32 = 31; - move16(); - } - - tempQ15 = sub( s_min( *n_mem, n_mem_32 ), 1 ); - *n_mem = s_max( tempQ15, 0 ); - move16(); - - /* --------------------------------------------------------------*/ - /* Find headroom for synthesis stage associated with these memories: - 1. st_fx->syn_overlap_fx - 2. st_fx->genSHBsynth_state_lsyn_filt_shb_local - 3. st_fx->genSHBsynth_Hilbert_Mem_fx (32-bit) */ - max3 = 0; - move16(); - /* find max in prev overlapSyn */ - FOR( i = 0; i < L_SHB_LAHEAD; i++ ) - { - tempQ15 = abs_s( hBWE_TD->syn_overlap_fx[i] ); - max3 = s_max( max3, tempQ15 ); - } - /* find max in prev genSHBsynth_state_lsyn_filt_shb_local_fx */ - FOR( i = 0; i < 2 * ALLPASSSECTIONS_STEEP; i++ ) - { - tempQ15 = abs_s( hBWE_TD->genSHBsynth_state_lsyn_filt_shb_local_fx[i] ); - max3 = s_max( max3, tempQ15 ); - } - /* find max in prev int_3_over_2_tbemem_dec_fx */ - IF( EQ_32( st_fx->output_Fs, 48000 ) ) - { - FOR( i = 0; i < INTERP_3_2_MEM_LEN; i++ ) - { - tempQ15 = abs_s( hBWE_TD->int_3_over_2_tbemem_dec_fx[i] ); - max3 = s_max( max3, tempQ15 ); - } - } - IF( EQ_32( st_fx->output_Fs, 16000 ) ) - { - FOR( i = 0; i < ( 2 * ALLPASSSECTIONS_STEEP + 1 ); i++ ) - { - tempQ15 = abs_s( hBWE_TD->mem_resamp_HB_32k_fx[i] ); - max3 = s_max( max3, tempQ15 ); - } - } - /* estimate the norm for 16-bit memories */ - *n_mem3 = norm_s( max3 ); - move16(); - if ( max3 == 0 ) - { - *n_mem3 = 15; - move16(); - } - - Lmax3 = 0; - move32(); - IF( EQ_16( st_fx->L_frame, L_FRAME ) ) - { - /* find max in prev genSHBsynth_Hilbert_Mem_fx */ - FOR( i = 0; i < HILBERT_MEM_SIZE; i++ ) - { - tempQ32 = L_abs( hBWE_TD->genSHBsynth_Hilbert_Mem_fx[i] ); - Lmax3 = L_max( Lmax3, tempQ32 ); - } - } - - /* estimate the norm for 32-bit memories */ - n_mem_32 = norm_l( Lmax3 ); - if ( Lmax3 == 0 ) - { - n_mem_32 = 31; - move16(); - } - - tempQ15 = sub( s_min( *n_mem3, n_mem_32 ), 2 ); /* very important leave at least 2 bit head room - because of the Hilber transform and Q14 coeffs */ - *n_mem3 = s_max( tempQ15, 0 ); - move16(); - /* --------------------------------------------------------------*/ -} - -void find_max_mem_dec_m3( - Decoder_State *st, - Word16 *n_mem3 ) -{ - Word16 i; - // Word16 n_mem_32; - Word16 tempQ15; - Word16 max3; - // Word32 tempQ32, Lmax3; - TD_BWE_DEC_HANDLE hBWE_TD; - hBWE_TD = st->hBWE_TD; - - /* --------------------------------------------------------------*/ - /* Find headroom for synthesis stage associated with these memories: - 1. st->syn_overlap_fx*/ - max3 = 0; - move16(); - /* find max in prev overlapSyn */ - FOR( i = 0; i < L_SHB_LAHEAD; i++ ) - { - tempQ15 = abs_s( hBWE_TD->syn_overlap_fx[i] ); - max3 = s_max( max3, tempQ15 ); - } - /* find max in prev genSHBsynth_state_lsyn_filt_shb_local_fx */ - - /* estimate the norm for 16-bit memories */ - *n_mem3 = norm_s( max3 ); - move16(); - if ( max3 == 0 ) - { - *n_mem3 = 15; - move16(); - } -} - -/*-------------------------------------------------------------------* - * ivas_swb_tbe_dec_fx() - * - * SWB TBE decoder, 6 - 14 kHz (or 7.5 - 15.5 kHz) band decoding module - *-------------------------------------------------------------------*/ -void ivas_swb_tbe_dec_fx( - Decoder_State *st, /* i/o: decoder state structure */ - STEREO_ICBWE_DEC_HANDLE hStereoICBWE, /* i/o: IC-BWE state structure */ - const Word32 *bwe_exc_extended_fx, /* i : bandwidth extended excitation : Q_exc */ - Word16 Q_exc, - const Word16 voice_factors_fx[], /* i : voicing factors : Q15 */ - const Word32 old_syn_12k8_16k_fx[], /* i : low band synthesis : old_syn_fx */ - Word16 *White_exc16k_fx, /* o : shaped white excitation for the FB TBE : Q_white_exc*/ - Word32 *synth_fx, /* o : SHB synthesis/final synthesis : Qx */ - Word16 *pitch_buf_fx, /* i : Q6 */ - Word16 *Q_white_exc ) -{ - Word16 i, j, cnt, n; - Word16 stemp; - TD_BWE_DEC_HANDLE hBWE_TD; - Word32 shaped_shb_excitation_fx_32[L_FRAME16k + L_SHB_LAHEAD]; - Word16 bwe_exc_extended_16[L_FRAME32k + NL_BUFF_OFFSET]; - Word16 shaped_shb_excitation_fx[L_FRAME16k + L_SHB_LAHEAD]; - Word16 lsf_shb_fx[LPC_SHB_ORDER], lpc_shb_fx[LPC_SHB_ORDER + 1], GainShape_fx[NUM_SHB_SUBFR]; // Q12,Q12,Q15 - Word32 GainFrame_fx; // Q18 - Word32 error_fx[L_FRAME32k]; - Word16 ener_fx; - Word32 L_ener; - Word16 is_fractive; - Word32 prev_pow_fx, curr_pow_fx, Lscale; - Word16 scale_fx; - Word16 max_val, temp_fx, shaped_shb_excitation_frac[L_FRAME16k + L_SHB_LAHEAD]; - Word32 curr_frame_pow_fx; - Word16 curr_frame_pow_exp; - Word32 L_prev_ener_shb; - Word16 vf_modified_fx[NB_SUBFR16k]; - Word16 f_fx, inc_fx; - Word32 GainFrame_prevfrm_fx; - Word32 tilt_swb_fec_32_fx; - Word16 tilt_swb_fec_fx_q; - Word16 tilt_swb_fec_fx; - Word32 prev_ener_ratio_fx = 0; /* initialize just to avoid compiler warning */ - Word16 lsp_shb_1_fx[LPC_SHB_ORDER], lsp_shb_2_fx[LPC_SHB_ORDER], lsp_temp_fx[LPC_SHB_ORDER]; - Word16 lpc_shb_sf_fx[4 * ( LPC_SHB_ORDER + 1 )]; - const Word16 *ptr_lsp_interp_coef_fx; - Word32 shb_ener_sf_32; - Word16 shb_res_gshape_fx[NB_SUBFR16k]; - Word16 mixFactors_fx; - Word16 vind; - Word16 shb_res_dummy_fx[L_FRAME16k]; - Word16 shaped_shb_excitationTemp_fx[L_FRAME16k]; - Word32 ener_tmp_fx[NUM_SHB_SUBGAINS]; - Word16 GainShape_tmp_fx[NUM_SHB_SUBGAINS]; - Word16 pitch_fx; - Word16 l_subframe; - Word16 formant_fac_fx; - Word16 synth_scale_fx; - Word16 lsf_diff_fx[LPC_SHB_ORDER], w_fx[LPC_SHB_ORDER]; - Word16 refl_fx[M]; - Word16 tilt_para_fx; - Word16 *nlExc16k_fx, *mixExc16k_fx; - Word16 MSFlag; - Word16 feedback_fx; - Word16 GainShape_tilt_fx; - - // scaling - Word16 exp, tmp; - Word16 tmp1, tmp2; - Word16 mean_vf; - Word32 Lmax, L_tmp; - Word16 frac; - Word32 L_tmp1, L_tmp2; - Word16 Q_bwe_exc; - Word16 Q_bwe_exc_fb; - Word16 Q_shb; - Word16 n_mem, n_mem2, n_mem3, Qx, sc; - Word16 expa, expb; - Word16 fraca, fracb; - Word16 exp_ener, inv_ener; - - hBWE_TD = st->hBWE_TD; - - /* initializations */ - GainFrame_fx = 0; - move32(); - mixFactors_fx = 0; - move16(); - shb_ener_sf_32 = 0; - move32(); - set16_fx( shaped_shb_excitationTemp_fx, 0, L_FRAME16k ); - if ( st->hTdCngDec != NULL ) - { - st->hTdCngDec->shb_dtx_count = 0; - move16(); - } - is_fractive = 0; - move16(); - - IF( hStereoICBWE != NULL ) - { - nlExc16k_fx = hStereoICBWE->nlExc16k_fx; - mixExc16k_fx = hStereoICBWE->mixExc16k_fx; - MSFlag = hStereoICBWE->MSFlag; - move16(); - } - ELSE - { - nlExc16k_fx = NULL; - mixExc16k_fx = NULL; - MSFlag = 0; - move16(); - } - - /* find tilt */ - calc_tilt_bwe_fx_loc( old_syn_12k8_16k_fx, &tilt_swb_fec_32_fx, &tilt_swb_fec_fx_q, L_FRAME ); - tilt_swb_fec_fx = round_fx_sat( L_shl_sat( tilt_swb_fec_32_fx, sub( 11 + 16, tilt_swb_fec_fx_q ) ) ); - test(); - if ( st->bfi && st->clas_dec != UNVOICED_CLAS ) - { - tilt_swb_fec_fx = hBWE_TD->tilt_swb_fec_fx; - move16(); - } - - /* WB/SWB bandwidth switching */ - test(); - test(); - IF( ( GT_16( st->tilt_wb_fx, 10240 /*5 in Q11*/ ) && ( EQ_16( st->clas_dec, UNVOICED_CLAS ) ) ) || GT_16( st->tilt_wb_fx, 20480 /*10 in Q11*/ ) ) - { - test(); - test(); - test(); - test(); - test(); - test(); - test(); - test(); - IF( ( ( st->prev_fractive == 0 ) && - ( LT_32( st->prev_enerLH_fx, L_shl( st->enerLH_fx, 1 ) ) && GT_32( st->prev_enerLH_fx, L_shr( st->enerLH_fx, 1 ) ) && LT_32( st->prev_enerLL_fx, L_shl( st->enerLL_fx, 1 ) ) && GT_32( st->prev_enerLL_fx, L_shr( st->enerLL_fx, 1 ) ) ) ) || - ( EQ_16( st->prev_fractive, 1 ) && - GT_32( L_shr( st->prev_enerLH_fx, 2 ), Mult_32_16( st->enerLH_fx, 24576 ) ) ) /* 24576 in Q13*/ - || ( GT_32( L_shr( st->enerLL_fx, 1 ), Mult_32_16( st->enerLH_fx, 24576 ) ) && /*24576 = 1.5 in Q14*/ - LT_16( st->tilt_wb_fx, 20480 ) ) /* 20480 = 10 in Q11*/ - ) - { - is_fractive = 0; - } - ELSE - { - is_fractive = 1; - } - move16(); - } - - /* WB/SWB bandwidth switching */ - IF( st->bws_cnt > 0 ) - { - f_fx = 1489; /*1.0f / 22.0f in Q15*/ - move16(); - inc_fx = 1489; /*1.0f / 22.0f in Q15*/ - move16(); - - IF( EQ_16( is_fractive, 1 ) ) - { - Copy( lsf_tab_fx, hBWE_TD->lsp_prevfrm_fx, LPC_SHB_ORDER ); - } - ELSE - { - FOR( i = 0; i < LPC_SHB_ORDER; i++ ) - { - hBWE_TD->lsp_prevfrm_fx[i] = f_fx; /*Q15*/ - move16(); - f_fx = add( f_fx, inc_fx ); /*Q15*/ - } - } - test(); - test(); - test(); - test(); - test(); - test(); - test(); - IF( ( NE_16( st->last_extl, SWB_TBE ) && NE_16( st->last_extl, FB_TBE ) && !( ( L_sub( L_shr( st->prev_enerLH_fx, 1 ), st->enerLH_fx ) < 0 ) && L_sub( st->prev_enerLH_fx, ( L_shr( st->enerLH_fx, 1 ) > 0 ) ) ) ) || st->last_core != ACELP_CORE || ( ( st->last_core == ACELP_CORE ) && GT_32( abs( L_sub( st->last_core_brate, st->core_brate ) ), 3600 ) ) || EQ_16( s_xor( is_fractive, st->prev_fractive ), 1 ) ) - { - set16_fx( GainShape_fx, 11587, NUM_SHB_SUBFR ); /*0.3536f in Q15*/ - } - ELSE - { - if ( GT_16( hBWE_TD->prev_GainShape_fx, 11587 ) ) /*0.3536f in Q15*/ - { - hBWE_TD->prev_GainShape_fx = 11587; /*0.3536f in Q15*/ - move16(); - } - set16_fx( GainShape_fx, hBWE_TD->prev_GainShape_fx, NUM_SHB_SUBFR ); - } - - Copy( hBWE_TD->lsp_prevfrm_fx, lsf_shb_fx, LPC_SHB_ORDER ); - set16_fx( shb_res_gshape_fx, 3277 /*0.2f Q14*/, NB_SUBFR16k ); /* Q14 */ - } - ELSE - { - test(); - IF( NE_16( st->last_extl, SWB_TBE ) && NE_16( st->last_extl, FB_TBE ) ) - { - f_fx = 1489; /*Q15*/ - move16(); - inc_fx = 1489; /*Q15*/ - move16(); - FOR( i = 0; i < LPC_SHB_ORDER; i++ ) - { - hBWE_TD->lsp_prevfrm_fx[i] = f_fx; /*Q15*/ - move16(); - f_fx = add( f_fx, inc_fx ); - } - } - - IF( !st->bfi ) - { - IF( st->use_partial_copy ) - { - IF( NE_16( st->last_extl, SWB_TBE ) ) - { - hBWE_TD->GainFrame_prevfrm_fx = 0; - move32(); - f_fx = 1489 /*0.045454f Q15*/; - move16(); - inc_fx = 1489 /*0.045454f Q15*/; - move16(); - FOR( i = 0; i < LPC_SHB_ORDER; i++ ) - { - hBWE_TD->lsp_prevfrm_fx[i] = f_fx; /*Q15*/ - move16(); - f_fx = add( f_fx, inc_fx ); /*Q15*/ - } - } - Copy( hBWE_TD->lsp_prevfrm_fx, lsf_shb_fx, LPC_SHB_ORDER ); - set16_fx( GainShape_fx, RECIP_ROOT_EIGHT_FX, NUM_SHB_SUBFR ); - - IF( EQ_16( st->rf_frame_type, RF_NELP ) ) - { - /* Frame gain */ - - GainFrame_fx = L_mac( SHB_GAIN_QLOW_FX, st->rf_indx_tbeGainFr, SHB_GAIN_QDELTA_FX ); - L_tmp = Mult_32_16( GainFrame_fx, 27213 ); /*Q16*/ /* 3.321928 in Q13 */ - - frac = L_Extract_lc( L_tmp, &exp ); - L_tmp = Pow2( 30, frac ); - GainFrame_fx = L_shl( L_tmp, sub( exp, 12 ) ); /*Q18*/ - - test(); - test(); - test(); - test(); - test(); - test(); - IF( ( st->core == ACELP_CORE ) && ( st->last_core == ACELP_CORE ) && !st->prev_use_partial_copy && EQ_16( st->prev_coder_type, UNVOICED ) && NE_32( GainFrame_fx, hBWE_TD->GainFrame_prevfrm_fx ) && NE_16( st->next_coder_type, GENERIC ) && EQ_16( st->last_extl, SWB_TBE ) ) - { - GainFrame_fx = L_add( Mult_32_16( hBWE_TD->GainFrame_prevfrm_fx, 26214 /*0.8f in Q15*/ ), Mult_32_16( GainFrame_fx, 6553 /*0.2f in Q15*/ ) ); - } - } - ELSE - { - temp_fx = 0; - move16(); - /* Frame gain */ - SWITCH( st->rf_indx_tbeGainFr ) - { - case 0: - GainFrame_fx = 131072; /* 0.5f in Q18 */ - move32(); - if ( LE_32( hBWE_TD->GainFrame_prevfrm_fx, 327680l /*1.25 Q18*/ ) ) - { - temp_fx = 26214 /*0.8 Q15*/; - move16(); - } - BREAK; - case 1: - GainFrame_fx = 524288; /* 2.0f in Q18 */ - move32(); - test(); - if ( GT_32( hBWE_TD->GainFrame_prevfrm_fx, 327680l /*1.25 Q18*/ ) && LE_32( hBWE_TD->GainFrame_prevfrm_fx, 786432l /*3 Q18*/ ) ) - { - temp_fx = 26214 /*0.8 Q15*/; - move16(); - } - BREAK; - case 2: - GainFrame_fx = 1048576; /* 4.0f in Q18 */ - move32(); - test(); - if ( GT_32( hBWE_TD->GainFrame_prevfrm_fx, 786432l /*3 Q18*/ ) && LE_32( hBWE_TD->GainFrame_prevfrm_fx, 1572864l /*6 Q18*/ ) ) - { - temp_fx = 26214 /*0.8 Q15*/; - move16(); - } - BREAK; - case 3: - GainFrame_fx = 2097152; /* 8.0f in Q18 */ - move32(); - test(); - if ( GT_32( hBWE_TD->GainFrame_prevfrm_fx, 1572864l /*6 Q18*/ ) && LE_32( hBWE_TD->GainFrame_prevfrm_fx, 4194304l /*16Q18*/ ) ) - { - temp_fx = 26214 /*0.8 Q15*/; - move16(); - } - BREAK; - default: - fprintf( stderr, "RF SWB-TBE gain bits not supported." ); - } - - IF( EQ_16( st->last_extl, SWB_TBE ) ) - { - GainFrame_fx = L_add( Mult_32_16( hBWE_TD->GainFrame_prevfrm_fx, temp_fx ), Mult_32_16( GainFrame_fx, sub( 32767, temp_fx ) ) ); - /*Q18*/ - } - - IF( ( st->core == ACELP_CORE ) && ( st->last_core == ACELP_CORE ) ) - { - if ( !st->prev_use_partial_copy && EQ_16( st->last_coder_type, VOICED ) && EQ_16( st->rf_frame_type, RF_GENPRED ) && GT_32( GainFrame_fx, 2097152 /*8.0f in Q18*/ ) && LT_32( GainFrame_fx, 3059606 /*11.67f in Q18*/ ) ) - { - GainFrame_fx = Mult_32_16( GainFrame_fx, 9830 /*0.3f in Q15*/ ); // Q18 - } - } - } - } - ELSE - { - /* de-quantization */ - ivas_dequantizeSHBparams_fx_9_1( st, st->extl, st->extl_brate, lsf_shb_fx, GainShape_fx, &GainFrame_fx, &stemp, - &shb_ener_sf_32, shb_res_gshape_fx, &mixFactors_fx, &MSFlag ); - if ( hStereoICBWE != NULL ) - { - hStereoICBWE->MSFlag = MSFlag; - move16(); - } - } - } - ELSE - { - Copy( hBWE_TD->lsp_prevfrm_fx, lsf_shb_fx, LPC_SHB_ORDER ); - test(); - IF( EQ_16( st->codec_mode, MODE1 ) && ( st->element_mode == EVS_MONO ) ) - { - gradientGainShape( st, GainShape_fx, &GainFrame_fx ); - } - ELSE - { - FOR( i = 0; i < NUM_SHB_SUBFR / 4; i++ ) - { - FOR( j = 0; j < 4; j++ ) - { - GainShape_fx[i * 4 + j] = mult_r( st->cummulative_damping, st->GainShape_Delay[4 + i] ); - move16(); - } - } - IF( GT_16( tilt_swb_fec_fx, ( 8 << 11 ) ) ) /* tilt_swb_fec_fx in Q11 */ - { - IF( EQ_16( st->nbLostCmpt, 1 ) ) - { - GainFrame_fx = Mult_32_16( hBWE_TD->GainFrame_prevfrm_fx, 19661 /*0.6f Q15*/ ); - } - ELSE IF( EQ_16( st->nbLostCmpt, 2 ) ) - { - GainFrame_fx = Mult_32_16( hBWE_TD->GainFrame_prevfrm_fx, 11469 /*0.35f Q15*/ ); - } - ELSE - { - GainFrame_fx = Mult_32_16( hBWE_TD->GainFrame_prevfrm_fx, 6554 /*0.2f Q15*/ ); - } - GainFrame_fx = Mult_32_16( GainFrame_fx, st->cummulative_damping ); - } - ELSE - { - GainFrame_fx = hBWE_TD->GainFrame_prevfrm_fx; - move32(); /* gain locking */ - } - } - - IF( GE_32( st->extl_brate, SWB_TBE_2k8 ) ) - { - test(); - IF( EQ_16( st->codec_mode, MODE1 ) && ( st->element_mode == EVS_MONO ) ) - { - L_tmp = L_mult( extract_l( hBWE_TD->prev2_shb_ener_sf_fx ), extract_l( hBWE_TD->prev3_shb_ener_sf_fx ) ); /*Q1*/ - tmp = round_fx( root_a_fx( L_tmp, 1, &exp ) ); /* Q = 15-exp */ - tmp1 = extract_l( hBWE_TD->prev1_shb_ener_sf_fx ); /*Q0*/ - i = sub( norm_s( tmp1 ), 1 ); - tmp1 = shl( tmp1, i ); /* Qi */ - IF( tmp == 0 ) - { - tmp = 32767 /*1.0f Q15*/; - move16(); /*Q15*/ - } - ELSE - { - scale_fx = div_s( tmp1, tmp ); /* Q15 - Q(15-exp) + Qi = Qexp+i */ - scale_fx = s_max( scale_fx, 0 ); - tmp = shl_sat( scale_fx, sub( sub( 15, exp ), i ) ); /*Q15*/ - } - scale_fx = mult_r( hBWE_TD->prev_res_shb_gshape_fx, tmp ); /* Q14 */ - test(); - IF( GT_32( L_shr( hBWE_TD->prev2_shb_ener_sf_fx, 1 ), hBWE_TD->prev1_shb_ener_sf_fx ) || - GT_32( L_shr( hBWE_TD->prev3_shb_ener_sf_fx, 1 ), hBWE_TD->prev2_shb_ener_sf_fx ) ) - { - shb_ener_sf_32 = Mult_32_16( hBWE_TD->prev1_shb_ener_sf_fx, scale_fx ); - - if ( GT_16( st->nbLostCmpt, 1 ) ) - { - shb_ener_sf_32 = L_shr( shb_ener_sf_32, 1 ); - } - } - ELSE - { - L_tmp = L_mult( scale_fx, scale_fx ); /* Q29 */ - shb_ener_sf_32 = L_shl( Mult_32_16( hBWE_TD->prev1_shb_ener_sf_fx, round_fx( L_tmp ) ), 2 ); - } - } - ELSE - { - test(); - IF( GT_32( L_shr( hBWE_TD->prev2_shb_ener_sf_fx, 1 ), hBWE_TD->prev1_shb_ener_sf_fx ) || - GT_32( L_shr( hBWE_TD->prev3_shb_ener_sf_fx, 1 ), hBWE_TD->prev2_shb_ener_sf_fx ) ) - { - shb_ener_sf_32 = L_shr( Mult_32_16( hBWE_TD->prev1_shb_ener_sf_fx, st->cummulative_damping ), 1 ); - } - ELSE - { - shb_ener_sf_32 = Mult_32_16( hBWE_TD->prev1_shb_ener_sf_fx, st->cummulative_damping ); - } - } - } - - shb_ener_sf_32 = L_max( shb_ener_sf_32, 1l /*1.0f Q0*/ ); - mixFactors_fx = hBWE_TD->prev_mixFactors_fx; - move16(); - - IF( EQ_16( st->codec_mode, MODE1 ) ) - { - set16_fx( shb_res_gshape_fx, 3277 /*0.2f Q14*/, 5 ); /* Q14 */ - } - ELSE - { - set16_fx( shb_res_gshape_fx, 16384 /*1.0f Q14*/, 5 ); /* Q14 */ - } - } - } - - /* get the gainshape delay */ - Copy( &st->GainShape_Delay[4], &st->GainShape_Delay[0], NUM_SHB_SUBFR / 4 ); - FOR( i = 0; i < NUM_SHB_SUBFR / 4; i++ ) - { - st->GainShape_Delay[i + 4] = GainShape_fx[i * 4]; /*Q15*/ - move16(); - } - - L_tmp = L_mult( voice_factors_fx[0], 8192 ); - L_tmp = L_mac( L_tmp, voice_factors_fx[1], 8192 ); - L_tmp = L_mac( L_tmp, voice_factors_fx[2], 8192 ); - mean_vf = mac_r( L_tmp, voice_factors_fx[3], 8192 ); - - Copy( voice_factors_fx, vf_modified_fx, NB_SUBFR16k ); - - test(); - IF( EQ_16( st->coder_type, VOICED ) || GT_16( mean_vf, 13107 /*0.4f Q15*/ ) ) - { - FOR( i = 1; i < NB_SUBFR; i++ ) - { - L_tmp = L_mult( voice_factors_fx[i], 26214 /*0.8f Q15*/ ); - vf_modified_fx[i] = mac_r( L_tmp, voice_factors_fx[i - 1], 6554 /*0.2f Q15*/ ); - move16(); - } - - IF( st->L_frame != L_FRAME ) - { - L_tmp = L_mult( voice_factors_fx[4], 26214 /*0.8f Q15*/ ); - vf_modified_fx[4] = mac_r( L_tmp, voice_factors_fx[3], 6554 /*0.2f Q15*/ ); - move16(); - } - } - - test(); - IF( st->use_partial_copy && st->nelp_mode_dec ) - { - set16_fx( vf_modified_fx, 0, NB_SUBFR16k ); - } - - /* SHB LSF from current frame; and convert to LSP for interpolation */ - E_LPC_lsf_lsp_conversion( lsf_shb_fx, lsp_shb_2_fx, LPC_SHB_ORDER ); - - test(); - IF( EQ_16( st->last_extl, SWB_TBE ) || EQ_16( st->last_extl, FB_TBE ) ) - { - /* SHB LSP values from prev. frame for interpolation */ - Copy( hBWE_TD->swb_lsp_prev_interp_fx, lsp_shb_1_fx, LPC_SHB_ORDER ); - } - ELSE - { - /* Use current frame's LSPs; in effect no interpolation */ - Copy( lsp_shb_2_fx, lsp_shb_1_fx, LPC_SHB_ORDER ); - } - - test(); - test(); - test(); - IF( ( st->bws_cnt == 0 ) && ( st->bws_cnt1 == 0 ) && ( st->prev_use_partial_copy == 0 ) && ( st->use_partial_copy == 0 ) ) - { - lsf_diff_fx[0] = 16384; - move16(); /*Q15*/ - lsf_diff_fx[LPC_SHB_ORDER - 1] = 16384; - move16(); /*Q15*/ - FOR( i = 1; i < LPC_SHB_ORDER - 1; i++ ) - { - lsf_diff_fx[i] = sub( lsf_shb_fx[i], lsf_shb_fx[i - 1] ); - move16(); - } - - a2rc_fx( hBWE_TD->cur_sub_Aq_fx + 1, refl_fx, M ); - tmp = add( 16384, shr( refl_fx[0], 1 ) ); /*Q14*/ - tmp1 = mult( 27425, tmp ); - tmp1 = mult( tmp1, tmp ); /*Q10*/ - tmp2 = shr( mult( 31715, tmp ), 2 ); /*Q10*/ - tilt_para_fx = add( sub( tmp1, tmp2 ), 1335 ); /*Q10*/ - - test(); - IF( NE_16( st->last_extl, SWB_TBE ) && NE_16( st->last_extl, FB_TBE ) ) - { - FOR( i = 1; i < LPC_SHB_ORDER - 1; i++ ) - { - hBWE_TD->prev_lsf_diff_fx[i - 1] = shr( lsf_diff_fx[i], 1 ); - move16(); - } - } - - IF( LE_32( st->extl_brate, FB_TBE_1k8 ) ) - { - test(); - test(); - test(); - test(); - test(); - IF( !( GT_16( hBWE_TD->prev_tilt_para_fx, 5120 ) && ( EQ_16( st->coder_type, TRANSITION ) || LT_16( tilt_para_fx, 1024 ) ) ) && - !( ( ( LT_16( hBWE_TD->prev_tilt_para_fx, 3072 ) && GE_16( st->prev_coder_type, VOICED ) ) ) && GT_16( tilt_para_fx, 5120 ) ) ) - { - FOR( i = 1; i < LPC_SHB_ORDER - 1; i++ ) - { - IF( LT_16( lsf_diff_fx[i], hBWE_TD->prev_lsf_diff_fx[i - 1] ) ) - { - tmp = mult( 26214, lsf_diff_fx[i] ); - - test(); - IF( ( hBWE_TD->prev_lsf_diff_fx[i - 1] <= 0 ) || ( tmp < 0 ) ) /* safety check in case of bit errors */ - { - st->BER_detect = 1; - move16(); - tmp = 0; - move16(); - } - ELSE - { - tmp = div_s( tmp, hBWE_TD->prev_lsf_diff_fx[i - 1] ); - } - - tmp = s_max( tmp, 16384 ); - w_fx[i] = s_min( tmp, 32767 ); - move16(); - } - ELSE - { - tmp = mult( 26214, hBWE_TD->prev_lsf_diff_fx[i - 1] ); - - test(); - IF( ( lsf_diff_fx[i] <= 0 ) || ( tmp < 0 ) ) /* safety check in case of bit errors */ - { - st->BER_detect = 1; - move16(); - tmp = 0; - move16(); - } - ELSE - { - tmp = div_s( tmp, lsf_diff_fx[i] ); - } - - tmp = s_max( tmp, 16384 ); - w_fx[i] = s_min( tmp, 32767 ); - move16(); - } - } - w_fx[0] = w_fx[1]; - move16(); - w_fx[LPC_SHB_ORDER - 1] = w_fx[LPC_SHB_ORDER - 2]; - move16(); - - FOR( i = 0; i < LPC_SHB_ORDER; i++ ) - { - tmp1 = mult( lsp_shb_1_fx[i], sub( 32767, w_fx[i] ) ); - tmp2 = mult( lsp_shb_2_fx[i], w_fx[i] ); - lsp_temp_fx[i] = add( tmp1, tmp2 ); - move16(); - } - } - ELSE - { - Copy( lsp_shb_2_fx, lsp_temp_fx, LPC_SHB_ORDER ); - } - - /* convert from lsp to lsf */ - lsp2lsf_fx( lsp_temp_fx, lsf_shb_fx, LPC_SHB_ORDER, 1 ); - } - - Copy( lsf_diff_fx + 1, hBWE_TD->prev_lsf_diff_fx, LPC_SHB_ORDER - 2 ); - hBWE_TD->prev_tilt_para_fx = tilt_para_fx; - move16(); - } - ELSE - { - Copy( lsp_shb_2_fx, lsp_temp_fx, LPC_SHB_ORDER ); - } - - IF( GE_32( st->extl_brate, SWB_TBE_2k8 ) ) - { - /* SHB LSP interpolation */ - ptr_lsp_interp_coef_fx = interpol_frac_shb; /*Q15*/ - FOR( j = 0; j < 4; j++ ) - { - FOR( i = 0; i < LPC_SHB_ORDER; i++ ) - { - L_tmp = L_mult( lsp_shb_1_fx[i], ( *ptr_lsp_interp_coef_fx ) ); - lsp_temp_fx[i] = mac_r( L_tmp, lsp_shb_2_fx[i], ( *( ptr_lsp_interp_coef_fx + 1 ) ) ); - move16(); - } - ptr_lsp_interp_coef_fx += 2; - - tmp = i_mult( j, ( LPC_SHB_ORDER + 1 ) ); - /* convert LSPs to LP coefficients */ - E_LPC_f_lsp_a_conversion( lsp_temp_fx, lpc_shb_sf_fx + tmp, LPC_SHB_ORDER ); -#ifndef FIX_1100_REMOVE_LPC_RESCALING - /* Bring the LPCs to Q12 */ - Copy_Scale_sig( lpc_shb_sf_fx + tmp, lpc_shb_sf_fx + tmp, LPC_SHB_ORDER + 1, sub( norm_s( lpc_shb_sf_fx[tmp] ), 2 ) ); - lpc_shb_sf_fx[i_mult( j, ( LPC_SHB_ORDER + 1 ) )] = ONE_IN_Q12; // recheck this - move16(); -#endif - } - } - - /* Save the SWB LSP values from current frame for interpolation */ - Copy( lsp_shb_2_fx, hBWE_TD->swb_lsp_prev_interp_fx, LPC_SHB_ORDER ); - - /* save the shb_ener and mixFactor values */ - hBWE_TD->prev3_shb_ener_sf_fx = hBWE_TD->prev2_shb_ener_sf_fx; - move32(); - hBWE_TD->prev2_shb_ener_sf_fx = hBWE_TD->prev1_shb_ener_sf_fx; - move32(); - hBWE_TD->prev1_shb_ener_sf_fx = shb_ener_sf_32; - move32(); - hBWE_TD->prev_res_shb_gshape_fx = shb_res_gshape_fx[4]; - move16(); - hBWE_TD->prev_mixFactors_fx = mixFactors_fx; - move16(); - - /* SWB CNG/DTX - update memories */ - IF( st->hTdCngDec != NULL ) - { - Copy( st->hTdCngDec->lsp_shb_prev_fx, st->hTdCngDec->lsp_shb_prev_prev_fx, LPC_SHB_ORDER ); - Copy( lsf_shb_fx, st->hTdCngDec->lsp_shb_prev_fx, LPC_SHB_ORDER ); - } - - /* convert LSPs back into LP coeffs */ - E_LPC_f_lsp_a_conversion( lsp_temp_fx, lpc_shb_fx, LPC_SHB_ORDER ); - Copy_Scale_sig( lpc_shb_fx, lpc_shb_fx, LPC_SHB_ORDER + 1, sub( norm_s( lpc_shb_fx[0] ), 2 ) ); /* Q12 */ - lpc_shb_fx[0] = ONE_IN_Q12; - move16(); - - test(); - IF( EQ_32( st->extl_brate, SWB_TBE_1k10 ) || EQ_32( st->extl_brate, SWB_TBE_1k75 ) ) - { - Word32 vind_temp = Mpy_32_32( L_shl( L_add( L_deposit_l( mixFactors_fx ), 1 ), 15 ), ( ( ( 1 << NUM_BITS_SHB_VF ) - 1 ) << 16 ) ); // check addition of 1 - vind = extract_l( L_shr( vind_temp, 15 ) ); /* 3 for mpy by 8.0f, -15 to bring it to Q0 */ /*mixFactors*7*/ - /* i: mixFactors_fx in Q15 */ - /* o: vind in Q0 */ - } - ELSE - { - vind = shl( mixFactors_fx, 3 - 15 ); /* 3 for mpy by 8.0f, -15 to bring it to Q0 */ /*mixFactors*8*/ - /* i: mixFactors_fx in Q15 */ - /* o: vind in Q0 */ - } - - /* Determine formant PF strength */ - formant_fac_fx = swb_formant_fac_fx( lpc_shb_fx[1], &hBWE_TD->tilt_mem_fx ); - /* i:lpc_shb_fx Q12, o:formant_fac_fx Q15 */ - IF( GT_32( st->total_brate, ACELP_32k ) ) - { - FOR( j = 0; j < 4; j++ ) - { - Copy( lpc_shb_fx, &lpc_shb_sf_fx[i_mult( j, ( LPC_SHB_ORDER + 1 ) )], LPC_SHB_ORDER + 1 ); - } - } - - /* From low band excitation, generate highband excitation */ - - /* -------- start of memory rescaling -------- */ - /* ----- calculate optimum Q_bwe_exc and rescale memories accordingly ----- */ - Lmax = 0; - move32(); - FOR( cnt = 0; cnt < L_FRAME32k; cnt++ ) - { - Lmax = L_max( Lmax, L_abs( bwe_exc_extended_fx[cnt] ) ); - } - Q_bwe_exc = norm_l( Lmax ); - if ( Lmax == 0 ) - { - Q_bwe_exc = 31; - move16(); - } - Q_bwe_exc = add( Q_bwe_exc, add( Q_exc, Q_exc ) ); - find_max_mem_dec( st, &n_mem, &n_mem2, &n_mem3 ); /* for >=24.4, use n_mem2 lpc_syn, shb_20sample, and mem_stp_swb_fx memory */ - - tmp = add( st->prev_Q_bwe_exc, n_mem ); - if ( GT_16( Q_bwe_exc, tmp ) ) - { - Q_bwe_exc = tmp; - move16(); - } - - /* rescale the memories if Q_bwe_exc is different from previous frame */ - sc = sub( Q_bwe_exc, st->prev_Q_bwe_exc ); - IF( sc != 0 ) - { - rescale_genSHB_mem_dec( st, sc ); - } - - /* rescale the bwe_exc_extended and bring it to 16-bit single precision with dynamic norm */ - sc = sub( Q_bwe_exc, add( Q_exc, Q_exc ) ); - - FOR( cnt = 0; cnt < L_FRAME32k; cnt++ ) - { - bwe_exc_extended_16[cnt] = round_fx_sat( L_shl_sat( bwe_exc_extended_fx[cnt], sc ) ); - move16(); - } - - /* state_syn_shbexc_fx is kept at (st_fx->prev_Q_bwe_syn) for 24.4/32kbps or is kept at Q_bwe_exc for 13.2/16.4kbps */ - - /* save the previous Q factor (32-bit) of the buffer */ - st->prev_Q_bwe_exc = Q_bwe_exc; - move16(); - - Q_bwe_exc = sub( Q_bwe_exc, 16 ); /* Q_bwe_exc reflecting the single precision dynamic norm-ed buffers from here */ - - /* -------- end of rescaling memories -------- */ - - Q_bwe_exc_fb = st->prev_Q_bwe_exc_fb; - move16(); - - Q_shb = 0; - move16(); - - Copy( hBWE_TD->state_syn_shbexc_fx, shaped_shb_excitation_fx, L_SHB_LAHEAD ); - GenShapedSHBExcitation_ivas_dec_fx( shaped_shb_excitation_fx + L_SHB_LAHEAD, lpc_shb_fx, White_exc16k_fx, - hBWE_TD->mem_csfilt_fx, hBWE_TD->mem_genSHBexc_filt_down_shb_fx, hBWE_TD->state_lpc_syn_fx, - st->coder_type, bwe_exc_extended_16, hBWE_TD->bwe_seed, vf_modified_fx, st->extl, - &( hBWE_TD->tbe_demph_fx ), &( hBWE_TD->tbe_premph_fx ), lpc_shb_sf_fx, shb_ener_sf_32, - shb_res_gshape_fx, shb_res_dummy_fx, &vind, formant_fac_fx, hBWE_TD->fb_state_lpc_syn_fx, - &( hBWE_TD->fb_tbe_demph_fx ), &Q_bwe_exc, &Q_bwe_exc_fb, Q_shb, n_mem2, st->prev_Q_bwe_syn, st->total_brate, st->prev_bfi, - st->element_mode, st->flag_ACELP16k, nlExc16k_fx, mixExc16k_fx, st->extl_brate, MSFlag, - NULL, &( hBWE_TD->prev_pow_exc16kWhtnd_fx32 ), &( hBWE_TD->prev_mix_factor_fx ), NULL, NULL ); - - *Q_white_exc = Q_bwe_exc_fb; - move16(); - IF( EQ_16( st->extl, FB_TBE ) ) - { - st->prev_Q_bwe_exc_fb = Q_bwe_exc_fb; - move16(); - } - ELSE - { - /*Indirectly a memory reset of FB memories for next frame such that rescaling of memories would lead to 0 due to such high prev. Q value. - 51 because of 31 + 20(shift of Q_bwe_exc_fb before de-emphasis)*/ - st->prev_Q_bwe_exc_fb = 51; - move16(); - } - - /* rescale the TBE post proc memory */ - FOR( i = 0; i < LPC_SHB_ORDER; i++ ) - { - hBWE_TD->mem_stp_swb_fx[i] = shl_sat( hBWE_TD->mem_stp_swb_fx[i], sub( Q_bwe_exc, st->prev_Q_bwe_syn ) ); - move16(); - } - /* fill-in missing SHB excitation */ - test(); - test(); - IF( ( EQ_16( st->element_mode, IVAS_CPE_TD ) || EQ_16( st->element_mode, IVAS_CPE_DFT ) ) && LE_32( st->last_core_brate, SID_2k40 ) ) - { - Copy( shaped_shb_excitation_fx + L_SHB_LAHEAD, shaped_shb_excitation_fx, L_SHB_LAHEAD ); - } - - IF( hStereoICBWE != NULL ) - { - Copy( shaped_shb_excitation_fx + L_SHB_LAHEAD, hStereoICBWE->shbSynthRef_fx, L_FRAME16k ); - } - - test(); - IF( NE_32( st->extl_brate, SWB_TBE_1k10 ) && NE_32( st->extl_brate, SWB_TBE_1k75 ) ) - { - FOR( i = 0; i < L_FRAME16k; i += L_SUBFR16k ) - { - /* TD BWE post-processing */ - PostShortTerm_ivas_dec_fx( &shaped_shb_excitation_fx[L_SHB_LAHEAD + i], lpc_shb_fx, &shaped_shb_excitationTemp_fx[i], hBWE_TD->mem_stp_swb_fx, - hBWE_TD->ptr_mem_stp_swb_fx, &( hBWE_TD->gain_prec_swb_fx ), hBWE_TD->mem_zero_swb_fx, formant_fac_fx ); - } - - Copy( shaped_shb_excitationTemp_fx, &shaped_shb_excitation_fx[L_SHB_LAHEAD], L_FRAME16k ); /* Q_bwe_exc */ - - tmp = sub( shl( Q_bwe_exc, 1 ), 31 + 16 ); - prev_pow_fx = L_shl_sat( 1407374848l /*0.00001f Q47*/, tmp ); /* 2*(Q_bwe_exc) */ - curr_pow_fx = L_shl_sat( 1407374848l /*0.00001f Q47*/, tmp ); /* 2*(Q_bwe_exc) */ - FOR( i = 0; i < L_SHB_LAHEAD + 10; i++ ) - { - prev_pow_fx = L_mac0_sat( prev_pow_fx, shaped_shb_excitation_fx[i], shaped_shb_excitation_fx[i] ); /*2*Q_bwe_exc*/ - curr_pow_fx = L_mac0_sat( curr_pow_fx, shaped_shb_excitation_fx[i + L_SHB_LAHEAD + 10], shaped_shb_excitation_fx[i + L_SHB_LAHEAD + 10] ); /* 2*Q_bwe_exc */ - } - - if ( GT_16( voice_factors_fx[0], 24576 /*0.75f Q15*/ ) ) - { - curr_pow_fx = L_shr( curr_pow_fx, 2 ); /* Q(2*Q_bwe_exc) */ - } - - Lscale = root_a_over_b_fx( curr_pow_fx, - shl( Q_bwe_exc, 1 ), - prev_pow_fx, - shl( Q_bwe_exc, 1 ), - &exp ); - - FOR( i = 0; i < L_SHB_LAHEAD; i++ ) - { - L_tmp = Mult_32_16( Lscale, shaped_shb_excitation_fx[i] ); /* Q_bwe_exc + (31-exp) - 15 */ - shaped_shb_excitation_fx[i] = round_fx_sat( L_shl_sat( L_tmp, exp ) ); /* Q_bwe_exc */ - move16(); - } - IF( exp < 0 ) - { - Lscale = L_shl( Lscale, exp ); - exp = 0; - move16(); - } - FOR( ; i < L_SHB_LAHEAD + 10; i++ ) - { - temp_fx = i_mult_sat( sub( i, 19 ), 3277 /*0.1f Q15*/ ); /* Q15 */ - L_tmp1 = Mult_32_16( L_shl_sat( 1, sub( 31, exp ) ), temp_fx ); /* Q31-exp */ - temp_fx = sub( 32767 /*1.0f Q15*/, temp_fx ); - Lscale = L_add( Mult_32_16( Lscale, temp_fx ), L_tmp1 ); - L_tmp = Mult_32_16( Lscale, shaped_shb_excitation_fx[i] ); /* Q_bwe_exc + (31-exp) - 15 */ - shaped_shb_excitation_fx[i] = round_fx_sat( L_shl_sat( L_tmp, exp ) ); /* Q_bwe_exc */ - move16(); - } - } - ELSE - { - /* reset the PF memories if the PF is not running */ - set16_fx( hBWE_TD->mem_stp_swb_fx, 0, LPC_SHB_ORDER ); - hBWE_TD->gain_prec_swb_fx = ONE_IN_Q14; - move16(); - set16_fx( hBWE_TD->mem_zero_swb_fx, 0, LPC_SHB_ORDER ); - } - - /* Update SHB excitation */ - Copy( shaped_shb_excitation_fx + L_FRAME16k, hBWE_TD->state_syn_shbexc_fx, L_SHB_LAHEAD ); /* Q_bwe_exc */ - l_subframe = L_FRAME16k / NUM_SHB_SUBGAINS; - move16(); - L_ener = EPSILON_FX_SMALL; - move32(); - - FOR( i = 0; i < NUM_SHB_SUBGAINS; i++ ) - { - L_tmp = 0; - move32(); - ener_tmp_fx[i] = EPSILON_FX_SMALL; - move32(); - - Word64 tmp64 = 0; - move64(); - FOR( j = 0; j < l_subframe; j++ ) - { - tmp64 = W_mac0_16_16( tmp64, shaped_shb_excitation_fx[add( i_mult( i, l_subframe ), j )], shaped_shb_excitation_fx[add( i_mult( i, l_subframe ), j )] ); /* 2*Q_bwe_exc */ - } - L_tmp = W_sat_l( tmp64 ); - - L_tmp = Mult_32_16( L_tmp, 410 /*0.0125 Q15*/ ); /* 2*Q_bwe_exc: ener_tmp_fx in (2*Q_bwe_exc) */ - IF( L_tmp != 0 ) - { - exp = norm_l( L_tmp ); - tmp = extract_h( L_shl( L_tmp, exp ) ); - exp = sub( exp, sub( 30, i_mult( 2, Q_bwe_exc ) ) ); - - tmp = div_s( 16384, tmp ); - L_tmp = L_deposit_h( tmp ); - L_tmp = Isqrt_lc( L_tmp, &exp ); - ener_tmp_fx[i] = L_shl_sat( L_tmp, sub( add( exp, shl( Q_bwe_exc, 1 ) ), 31 ) ); /*2 * Q_bwe_exc: Q31 -exp +exp +2 * Q_bwe_exc -31 */ - move32(); - L_ener = L_add_sat( L_ener, L_shr( ener_tmp_fx[i], 2 ) ); /* 2*Q_bwe_exc */ - } - } - ener_fx = s_max( 1, round_fx_sat( L_shl_sat( L_ener, sub( 18, shl( Q_bwe_exc, 1 ) ) ) ) ); /* Q2: 2*Q_bwe_exc+18-2*Q_bwe_exc-16 */ - /* WB/SWB bandwidth switching */ - IF( st->bws_cnt > 0 ) - { - IF( is_fractive == 0 ) - { - IF( GT_16( st->tilt_wb_fx, 2048 ) ) /*assuming st->tilt_wb_fx in Q11*/ - { - st->tilt_wb_fx = 2048; - move16(); - } - ELSE IF( LT_16( st->tilt_wb_fx, 1024 ) ) - { - st->tilt_wb_fx = 1024; - move16(); - } - test(); - if ( EQ_16( st->prev_fractive, 1 ) && GT_16( st->tilt_wb_fx, 1024 ) ) - { - st->tilt_wb_fx = 1024; - move16(); - } - } - ELSE - { - IF( GT_16( st->tilt_wb_fx, 8192 ) ) - { - IF( st->prev_fractive == 0 ) - { - st->tilt_wb_fx = 8192; - move16(); - } - ELSE - { - st->tilt_wb_fx = 16384; - move16(); - } - } - ELSE - { - st->tilt_wb_fx = shl( st->tilt_wb_fx, 2 ); - move16(); - } - } - - IF( ener_fx != 0 ) - { - L_tmp = L_shl( L_mult0( ener_fx, st->tilt_wb_fx ), sub( st->Q_syn2, 13 ) ); /* 2+11 +st->Q_syn2 -13 = st->Q_syn2*/ - exp_ener = norm_s( ener_fx ); - tmp = shl( ener_fx, exp_ener ); /*Q(2+exp)*/ - inv_ener = shr( div_s( 16384, tmp ), 1 ); /*Q(15+14-2-exp-1) = 26 - exp*/ - - test(); - IF( GT_32( L_tmp, st->enerLH_fx ) ) /*st->Q_syn2*/ - { - st->tilt_wb_fx = extract_h( L_shr_sat( Mult_32_16( st->enerLH_fx, inv_ener ), sub( sub( st->Q_syn2, exp_ener ), 16 ) ) ); /*Q11*/ - move16(); - /*st->Q_syn2 -1 + 26- exp_ener -15 -(st->Q_syn2 -exp_ener -16 ) -16 +1 -1 = (11) *0.5*/ - } - ELSE IF( LT_32( L_tmp, Mult_32_16( st->enerLH_fx, 1638 ) ) && EQ_16( is_fractive, 1 ) ) - { - st->tilt_wb_fx = extract_h( L_shr_sat( Mult_32_16( st->enerLH_fx, inv_ener ), sub( sub( st->Q_syn2, exp_ener ), 15 ) ) ); /*Q11*/ - move16(); - /*st->Q_syn2 -1 + 26- exp_ener -15 -(st->Q_syn2 -exp_ener -15 ) -16 = (11) 0.25*/ - } - L_tmp = L_mult0( st->prev_ener_shb_fx, inv_ener ); /*Q(1+15+14-3-exp_ener) = 27 -exp_ener*/ - GainFrame_prevfrm_fx = L_shr( L_tmp, sub( 9, exp_ener ) ); /*27 -exp_ener -(9-exp_ener )= Q18*/ - } - ELSE - { - GainFrame_prevfrm_fx = 0; - move32(); - } - - IF( EQ_16( is_fractive, 1 ) ) - { - GainFrame_fx = L_shl( L_deposit_l( st->tilt_wb_fx ), 10 ); - } - ELSE - { - GainFrame_fx = L_shl( L_deposit_l( st->tilt_wb_fx ), 8 ); - } - - test(); - IF( EQ_16( ( is_fractive & st->prev_fractive ), 1 ) && GT_32( GainFrame_fx, GainFrame_prevfrm_fx ) ) - { - GainFrame_fx = L_add( Mult_32_16( GainFrame_prevfrm_fx, 26214 ), Mult_32_16( GainFrame_fx, 6554 ) ); /* 18 +15 -15 = 18*/ - } - ELSE - { - test(); - test(); - test(); - test(); - IF( ( LT_32( L_shr( st->prev_enerLH_fx, 1 ), st->enerLH_fx ) && GT_32( st->prev_enerLH_fx, L_shr( st->enerLH_fx, 1 ) ) ) && ( LT_32( L_shr( st->prev_enerLL_fx, 1 ), st->enerLL_fx ) && GT_32( st->prev_enerLL_fx, L_shr( st->enerLL_fx, 1 ) ) ) && ( s_xor( is_fractive, st->prev_fractive ) == 0 ) ) - { - GainFrame_fx = L_add( L_shr( GainFrame_fx, 1 ), L_shr( GainFrame_prevfrm_fx, 1 ) ); - } - ELSE - { - test(); - IF( ( is_fractive == 0 ) && EQ_16( st->prev_fractive, 1 ) ) - { - L_tmp1 = L_shl( Mult_32_16( GainFrame_fx, 3277 ), 13 ); /* 31 */ - L_tmp = L_sub( 2147483647, L_tmp1 ); /* 31 */ - GainFrame_fx = L_add( Mult_32_32( GainFrame_fx, L_tmp ), Mult_32_32( GainFrame_prevfrm_fx, L_tmp1 ) ); /* 18 */ - } - ELSE - { - GainFrame_fx = L_add( L_shr( GainFrame_fx, 1 ), L_shr( L_min( GainFrame_prevfrm_fx, GainFrame_fx ), 1 ) ); /* 18 */ - } - } - } - - GainFrame_fx = Mult_32_16( GainFrame_fx, i_mult( sub( N_WS2N_FRAMES, st->bws_cnt ), 819 ) ); /*Q18*/ - } - ELSE - { - IF( st->bws_cnt1 > 0 ) - { - GainFrame_fx = Mult_32_16( GainFrame_fx, i_mult( st->bws_cnt1, 819 ) ); /*Q18*/ - } - IF( GE_16( st->nbLostCmpt, 1 ) ) - { - ener_fx = s_max( 1, ener_fx ); - exp_ener = norm_s( ener_fx ); - tmp = shl( ener_fx, exp_ener ); /*Q(2+exp)*/ - inv_ener = div_s( 16384, tmp ); /*Q(15+14-2-exp)*/ - prev_ener_ratio_fx = L_shr( L_mult0( st->prev_ener_shb_fx, inv_ener ), add( sub( 9, exp_ener ), 1 ) ); /*Q: 1+27-exp-9+exp-1 = 18 */ - } - - IF( EQ_16( st->nbLostCmpt, 1 ) ) - { - test(); - test(); - test(); - test(); - test(); - test(); - test(); - test(); - test(); - test(); - IF( ( st->clas_dec != UNVOICED_CLAS ) && NE_16( st->clas_dec, UNVOICED_TRANSITION ) && LT_16( hBWE_TD->tilt_swb_fec_fx, 16384 ) && - ( ( GT_32( st->enerLL_fx, L_shr( st->prev_enerLL_fx, 1 ) ) && LT_32( L_shr( st->enerLL_fx, 1 ), st->prev_enerLL_fx ) ) || ( GT_32( st->enerLH_fx, L_shr( st->prev_enerLH_fx, 1 ) ) && LT_32( L_shr( st->enerLH_fx, 1 ), st->prev_enerLH_fx ) ) ) ) - { - IF( GT_32( L_shr( prev_ener_ratio_fx, 2 ), GainFrame_fx ) ) /*18*/ - { - GainFrame_fx = L_add( Mult_32_16( prev_ener_ratio_fx, 13107 ), Mult_32_16( GainFrame_fx, 19661 ) ); /*18*/ - } - ELSE IF( GT_32( L_shr( prev_ener_ratio_fx, 1 ), GainFrame_fx ) ) - { - GainFrame_fx = L_add( Mult_32_16( prev_ener_ratio_fx, 26214 ), Mult_32_16( GainFrame_fx, 6554 ) ); - } - ELSE - { - GainFrame_fx = L_add( Mult_32_16( prev_ener_ratio_fx, 6554 ), Mult_32_16( GainFrame_fx, 26214 ) ); - } - - test(); - IF( GT_16( tilt_swb_fec_fx, hBWE_TD->tilt_swb_fec_fx ) && ( hBWE_TD->tilt_swb_fec_fx > 0 ) ) - { - exp = norm_s( hBWE_TD->tilt_swb_fec_fx ); - tmp = shl( hBWE_TD->tilt_swb_fec_fx, exp ); /*Q(11+exp)*/ - tmp = div_s( 16384, tmp ); /*Q(15+14-11-exp)*/ - tmp = extract_h( L_shl( L_mult0( tmp, st->tilt_wb_fx ), sub( exp, 1 ) ) ); /*18 -exp +11 + exp -1 -16 =12; */ - GainFrame_fx = L_shl( Mult_32_16( GainFrame_fx, s_min( tmp, 20480 ) ), 3 ); /*Q18 = 18 +12 -15 +3 */ - } - } - ELSE IF( ( ( st->clas_dec != UNVOICED_CLAS ) || GT_16( hBWE_TD->tilt_swb_fec_fx, 4096 ) ) && GT_32( L_shr( prev_ener_ratio_fx, 2 ), GainFrame_fx ) && - ( GT_32( st->enerLL_fx, L_shr( st->prev_enerLL_fx, 1 ) ) || GT_32( st->enerLH_fx, L_shr( st->prev_enerLH_fx, 1 ) ) ) ) - { - GainFrame_fx = L_add( Mult_32_16( prev_ener_ratio_fx, 6554 ), Mult_32_16( GainFrame_fx, 26214 ) ); - } - } - ELSE IF( GT_16( st->nbLostCmpt, 1 ) ) - { - test(); - test(); - test(); - test(); - test(); - test(); - test(); - test(); - IF( GT_32( L_shr( prev_ener_ratio_fx, 2 ), GainFrame_fx ) && ( ( EQ_16( st->codec_mode, MODE1 ) && GT_32( st->enerLL_fx, st->prev_enerLL_fx ) && GT_32( st->enerLH_fx, st->prev_enerLH_fx ) ) || EQ_16( st->codec_mode, MODE2 ) ) ) - { - test(); - IF( GT_16( tilt_swb_fec_fx, 20480 /*10.0f in Q11*/ ) && GT_16( hBWE_TD->tilt_swb_fec_fx, 20480 /*10.0f in Q11*/ ) ) - { - GainFrame_fx = L_min( L_add( Mult_32_16( prev_ener_ratio_fx, 26214 /*0.8f in Q15*/ ), Mult_32_16( GainFrame_fx, 6554 /*0.2f in Q15*/ ) ), L_shl( Mult_32_16( GainFrame_fx, 16384 /*4.0f in Q12*/ ), 3 ) ); /*Q18*/ - } - ELSE - { - GainFrame_fx = L_min( L_add( Mult_32_16( prev_ener_ratio_fx, 16384 ), Mult_32_16( GainFrame_fx, 16384 ) ), L_shl( Mult_32_16( GainFrame_fx, 16384 ), 3 ) ); /*Q18*/ - } - } - ELSE IF( GT_32( prev_ener_ratio_fx, GainFrame_fx ) && ( ( EQ_16( st->codec_mode, MODE1 ) && GT_32( st->enerLL_fx, st->prev_enerLL_fx ) && GT_32( st->enerLH_fx, st->prev_enerLH_fx ) ) || EQ_16( st->codec_mode, MODE2 ) ) ) - { - test(); - IF( GT_16( tilt_swb_fec_fx, 20480 ) && GT_16( hBWE_TD->tilt_swb_fec_fx, 20480 ) ) - { - GainFrame_fx = L_add( Mult_32_16( prev_ener_ratio_fx, 16384 /*0.5f in Q15*/ ), Mult_32_16( GainFrame_fx, 16384 /*0.5f in Q15*/ ) ); /* Q18 */ - } - ELSE - { - GainFrame_fx = L_add( Mult_32_16( prev_ener_ratio_fx, 6554 /*0.2f in Q15*/ ), Mult_32_16( GainFrame_fx, 26214 /*0.8f in Q15*/ ) ); /* Q18 */ - } - } - } - } - - st->prev_fractive = is_fractive; - move16(); - - /* Adjust the subframe and frame gain of the synthesized shb signal */ - /* Scale the shaped excitation */ - IF( EQ_16( st->L_frame, L_FRAME ) ) - { - L_tmp = L_mult( pitch_buf_fx[0], 8192 ); - FOR( i = 1; i < NB_SUBFR; i++ ) - { - L_tmp = L_mac( L_tmp, pitch_buf_fx[i], 8192 ); /* pitch_buf in Q6 x 0.25 in Q15 */ - } - pitch_fx = round_fx( L_tmp ); /* Q6 */ - } - ELSE - { - L_tmp = L_mult( pitch_buf_fx[0], 6554 ); - FOR( i = 1; i < NB_SUBFR16k; i++ ) - { - L_tmp = L_mac( L_tmp, pitch_buf_fx[i], 6554 ); /* pitch_buf in Q6 x 0.2 in Q15 */ - } - pitch_fx = round_fx( L_tmp ); /* Q6 */ - } - - test(); - test(); - test(); - test(); - test(); - test(); - test(); - test(); - test(); - test(); - test(); - test(); - IF( ( ( GE_32( st->extl_brate, SWB_TBE_2k8 ) && EQ_16( st->prev_coder_type, st->coder_type ) && NE_16( st->coder_type, UNVOICED ) ) || ( LT_32( st->extl_brate, SWB_TBE_2k8 ) && ( EQ_16( st->prev_coder_type, st->coder_type ) || ( EQ_16( st->prev_coder_type, VOICED ) && EQ_16( st->coder_type, GENERIC ) ) || ( EQ_16( st->prev_coder_type, GENERIC ) && EQ_16( st->coder_type, VOICED ) ) ) ) ) && GT_16( pitch_fx, 4480 /*70 in Q6*/ ) && LT_16( st->extl, FB_TBE ) && NE_32( st->extl_brate, SWB_TBE_1k10 ) && NE_32( st->extl_brate, SWB_TBE_1k75 ) ) - { - FOR( i = 0; i < NUM_SHB_SUBGAINS; i++ ) - { - GainShape_tmp_fx[i] = GainShape_fx[i * 4]; /* Q15 */ - move16(); - } - - FOR( i = 0; i < NUM_SHB_SUBGAINS; i++ ) - { - L_tmp1 = Mult_32_16( ener_tmp_fx[i], GainShape_tmp_fx[i] ); /* (2*Q_bwe_exc) */ - L_tmp2 = Mult_32_16( hBWE_TD->prev_ener_fx, hBWE_TD->prev_GainShape_fx ); /* (2*st->prev_ener_fx_Q) */ - tmp = sub( shl( Q_bwe_exc, 1 ), shl( st->prev_ener_fx_Q, 1 ) ); - L_tmp2 = L_shl_sat( L_tmp2, tmp ); /* new Q = (2*Q_bwe_exc) */ - IF( GT_32( L_tmp1, L_tmp2 ) ) - { - L_tmp = L_tmp2; - move32(); - if ( L_tmp2 < 0 ) - { - L_tmp = L_negate( L_tmp2 ); - } - - expb = norm_l( L_tmp ); - fracb = round_fx_sat( L_shl_sat( L_tmp, expb ) ); - expb = sub( 30, expb ); /* - (2*Q_bwe_exc_ext); */ - - expa = norm_l( ener_tmp_fx[i] ); - fraca = extract_h( L_shl( ener_tmp_fx[i], expa ) ); - expa = sub( 30, expa ); - - scale_fx = shr( sub( fraca, fracb ), 15 ); - fracb = shl( fracb, scale_fx ); - expb = sub( expb, scale_fx ); - - tmp = div_s( fracb, fraca ); - exp = sub( sub( expb, expa ), 1 ); - tmp = shl( tmp, exp ); - GainShape_tmp_fx[i] = add( tmp, shr( GainShape_tmp_fx[i], 1 ) ); /* Q15 */ - move16(); - } - - hBWE_TD->prev_ener_fx = ener_tmp_fx[i]; - move32(); - hBWE_TD->prev_GainShape_fx = GainShape_tmp_fx[i]; - move16(); - st->prev_ener_fx_Q = Q_bwe_exc; - move16(); - } - - FOR( i = 0; i < NUM_SHB_SUBFR; i++ ) - { - Word16 idx = 0; - move16(); - IF( i != 0 ) - { - idx = idiv1616( i_mult( i, NUM_SHB_SUBGAINS ), NUM_SHB_SUBFR ); - } - GainShape_fx[i] = GainShape_tmp_fx[idx]; - move16(); - } - } - ELSE - { - st->prev_ener_fx_Q = Q_bwe_exc; - move16(); - } - st->prev_Q_bwe_syn = Q_bwe_exc; - move16(); - - - /* Gain shape smoothing after quantization */ - test(); - IF( EQ_32( st->extl_brate, SWB_TBE_1k10 ) || EQ_32( st->extl_brate, SWB_TBE_1k75 ) ) - { - FOR( i = 0; i < NUM_SHB_SUBGAINS; i++ ) - { - GainShape_tmp_fx[i] = GainShape_fx[i * NUM_SHB_SUBGAINS]; - move16(); - } - - lls_interp_n_fx( GainShape_tmp_fx, NUM_SHB_SUBGAINS, &GainShape_tilt_fx, &temp_fx, 1 ); - - test(); - IF( GE_16( vind, 6 ) && LT_16( abs_s( GainShape_tilt_fx ), 3932 ) ) - { - feedback_fx = 9830; - move16(); - FOR( i = 0; i < NUM_SHB_SUBGAINS; i++ ) - { - GainShape_fx[i] = add_sat( mult( sub( 32767, feedback_fx ), GainShape_fx[i * NUM_SHB_SUBGAINS] ), mult( feedback_fx, GainShape_tmp_fx[i] ) ); - move16(); - } - - FOR( i = NUM_SHB_SUBFR - 1; i > 0; i-- ) - { - Word16 idx = 0; - move16(); - IF( i != 0 ) - { - idx = idiv1616( i_mult( i, NUM_SHB_SUBGAINS ), NUM_SHB_SUBFR ); - } - GainShape_fx[i] = GainShape_fx[idx]; - move16(); - } - } - } - - /* fil-in missing memory */ - test(); - test(); - IF( ( EQ_16( st->element_mode, IVAS_CPE_TD ) || EQ_16( st->element_mode, IVAS_CPE_DFT ) ) && LE_32( st->last_core_brate, SID_2k40 ) ) - { - FOR( i = 0; i < L_SHB_LAHEAD; i++ ) - { - Word16 intermediate = mult( shaped_shb_excitation_fx[i], subwin_shb_fx[L_SHB_LAHEAD - i] ); - Word32 intermediate_32 = Mpy_32_16_1( Mpy_32_16_1( GainFrame_fx, window_shb_fx[L_SHB_LAHEAD - 1 - i] ), intermediate ); - hBWE_TD->syn_overlap_fx[i] = round_fx( L_shl_sat( intermediate_32, sub( 16, ( add( Q_bwe_exc, 18 - 15 ) ) ) ) ); - move16(); - } - } - - Word16 n_mem3_new = 0; - move16(); - find_max_mem_dec_m3( st, &n_mem3_new ); - - ScaleShapedSHB_fx( SHB_OVERLAP_LEN, - shaped_shb_excitation_fx, /* i/o: Q_bwe_exc */ - hBWE_TD->syn_overlap_fx, - GainShape_fx, /* Q15 */ - GainFrame_fx, /* Q18 */ - window_shb_fx, - subwin_shb_fx, - &Q_bwe_exc, &Qx, n_mem3_new, st->prev_Q_bwe_syn2 ); - - IF( hStereoICBWE != NULL ) - { - Copy_Scale_sig_16_32_DEPREC( lpc_shb_fx, hStereoICBWE->lpSHBRef_fx, LPC_SHB_ORDER + 1, 0 ); - Copy( GainShape_fx, hStereoICBWE->gshapeRef_fx, NUM_SHB_SUBFR ); - hStereoICBWE->gFrameRef_fx = GainFrame_fx; - move32(); - - Copy( shaped_shb_excitation_fx, hStereoICBWE->shbSynthRef_fx, L_FRAME16k ); - } - - max_val = 0; - move16(); - FOR( i = 0; i < L_FRAME16k; i++ ) - { - max_val = s_max( max_val, abs_s( shaped_shb_excitation_fx[i] ) ); /* Q0 */ - } - IF( max_val == 0 ) - { - curr_frame_pow_fx = 0; - move32(); - n = 0; - move16(); - } - ELSE - { - n = norm_s( max_val ); - max_val = 0; - move16(); - FOR( i = 0; i < L_FRAME16k; i++ ) - { - shaped_shb_excitation_frac[i] = shl_sat( shaped_shb_excitation_fx[i], n ); /*Q_bwe_exc+n*/ - move16(); - } - - curr_frame_pow_fx = 0; - move32(); - FOR( i = 0; i < L_FRAME16k; i++ ) - { - L_tmp = L_mult0( shaped_shb_excitation_frac[i], shaped_shb_excitation_frac[i] ); /*2*(Q_bwe_exc+n)*/ - curr_frame_pow_fx = L_add( curr_frame_pow_fx, L_shr( L_tmp, 9 ) ); /*2*(Q_bwe_exc+n)-9*/ - } - } - curr_frame_pow_exp = sub( shl( add( Q_bwe_exc, n ), 1 ), 9 ); - tmp = sub( st->prev_frame_pow_exp, curr_frame_pow_exp ); - IF( tmp > 0 ) /* shifting prev */ - { - IF( GT_16( tmp, 32 ) ) - { - st->prev_frame_pow_exp = add( curr_frame_pow_exp, 32 ); - move16(); - tmp = 32; - move16(); - } - hBWE_TD->prev_swb_bwe_frame_pow_fx = L_shr( hBWE_TD->prev_swb_bwe_frame_pow_fx, tmp ); - move32(); - st->prev_frame_pow_exp = curr_frame_pow_exp; - move16(); - } - ELSE /* shifting curr */ - { - IF( LT_16( tmp, -32 ) ) - { - curr_frame_pow_exp = sub( st->prev_frame_pow_exp, 32 ); - tmp = -32; - move16(); - } - curr_frame_pow_fx = L_shr( curr_frame_pow_fx, -tmp ); - curr_frame_pow_exp = st->prev_frame_pow_exp; - move16(); - } - test(); - test(); - IF( !st->bfi && ( st->prev_bfi || st->prev_use_partial_copy ) ) - { - test(); - test(); - IF( ( GT_32( L_shr( curr_frame_pow_fx, 1 ), hBWE_TD->prev_swb_bwe_frame_pow_fx ) ) && - ( GT_32( hBWE_TD->prev_swb_bwe_frame_pow_fx, L_tmp ) ) && EQ_16( st->prev_coder_type, UNVOICED ) ) - { - L_tmp = root_a_over_b_fx( hBWE_TD->prev_swb_bwe_frame_pow_fx, curr_frame_pow_exp, curr_frame_pow_fx, curr_frame_pow_exp, &exp ); - scale_fx = round_fx( L_shl( L_tmp, exp ) ); /*Q15*/ - - L_tmp = root_a_fx( L_tmp, sub( 31, exp ), &exp ); - L_tmp = root_a_fx( L_tmp, sub( 31, exp ), &exp ); - L_tmp = root_a_fx( L_tmp, sub( 31, exp ), &exp ); - temp_fx = round_fx( L_shl( L_tmp, exp ) ); /*Q15*/ - } - ELSE - { - scale_fx = temp_fx = 32767; - move16(); /*Q15*/ - move16(); /*Q15*/ - } - - FOR( j = 0; j < 8; j++ ) - { - GainShape_fx[2 * j] = mult_r( GainShape_fx[2 * j], scale_fx ); - move16(); - GainShape_fx[2 * j + 1] = mult_r( GainShape_fx[2 * j + 1], scale_fx ); - move16(); - FOR( i = 0; i < L_FRAME16k / 8; i++ ) - { - shaped_shb_excitation_fx[add( i, j * ( L_FRAME16k / 8 ) )] = mult_r( shaped_shb_excitation_fx[add( i, j * ( L_FRAME16k / 8 ) )], scale_fx ); - move16(); - } - - IF( temp_fx > 0 ) - { - /* scale_fx <= temp_fx, due to scale_fx = sqrt( st->prev_swb_bwe_frame_pow_fx/curr_frame_pow_fx ), temp_fx = sqrt( scale_fx, 1.f/8.f ) - and curr_frame_pow_fx > st->prev_swb_bwe_frame_pow_fx -> scale_fx <= 1.0, sqrt(scale_fx, 1.f/8.f) >= scale_fx */ - IF( LT_16( scale_fx, temp_fx ) ) - { - scale_fx = div_s( scale_fx, temp_fx ); - } - ELSE - { - scale_fx = 32767; - move16(); - } - } - ELSE - { - scale_fx = 0; - move16(); - } - } - } - - /* adjust the FEC frame energy */ - IF( st->bfi ) - { - scale_fx = temp_fx = 4096; - move16(); /*Q12*/ - move16(); - IF( EQ_16( st->nbLostCmpt, 1 ) ) - { - test(); - test(); - test(); - test(); - test(); - test(); - test(); - test(); - IF( GT_32( curr_frame_pow_fx, hBWE_TD->prev_swb_bwe_frame_pow_fx ) && - NE_16( st->prev_coder_type, UNVOICED ) && - ( st->last_good != UNVOICED_CLAS ) ) - { - L_tmp = root_a_over_b_fx( hBWE_TD->prev_swb_bwe_frame_pow_fx, curr_frame_pow_exp, curr_frame_pow_fx, curr_frame_pow_exp, &exp ); /*31 - exp*/ - scale_fx = round_fx( L_shl( L_tmp, sub( exp, 3 ) ) ); /*Q12*/ - L_tmp = root_a_fx( L_tmp, sub( 31, exp ), &exp ); - L_tmp = root_a_fx( L_tmp, sub( 31, exp ), &exp ); - L_tmp = root_a_fx( L_tmp, sub( 31, exp ), &exp ); - temp_fx = round_fx( L_shl( L_tmp, sub( exp, 3 ) ) ); /*Q12*/ - } - ELSE IF( LT_32( curr_frame_pow_fx, L_shr( hBWE_TD->prev_swb_bwe_frame_pow_fx, 1 ) ) && EQ_16( st->nbLostCmpt, 1 ) && - ( GT_32( st->enerLL_fx, L_shr( st->prev_enerLL_fx, 1 ) ) || GT_32( st->enerLH_fx, L_shr( st->prev_enerLH_fx, 1 ) ) ) && - ( EQ_16( st->prev_coder_type, UNVOICED ) || ( st->last_good == UNVOICED_CLAS ) || GT_16( hBWE_TD->tilt_swb_fec_fx, 10240 ) ) ) - { - L_tmp = root_a_over_b_fx( hBWE_TD->prev_swb_bwe_frame_pow_fx, curr_frame_pow_exp, curr_frame_pow_fx, curr_frame_pow_exp, &exp ); - scale_fx = round_fx_sat( L_shl_sat( L_tmp, sub( exp, 3 ) ) ); /*Q12*/ - L_tmp = root_a_fx( L_tmp, sub( 31, exp ), &exp ); - L_tmp = root_a_fx( L_tmp, sub( 31, exp ), &exp ); - L_tmp = root_a_fx( L_tmp, sub( 31, exp ), &exp ); - temp_fx = round_fx( L_shl( L_tmp, sub( exp, 3 ) ) ); /*Q12*/ - } - } - ELSE IF( GT_16( st->nbLostCmpt, 1 ) ) - { - test(); - test(); - test(); - test(); - test(); - IF( GT_32( curr_frame_pow_fx, hBWE_TD->prev_swb_bwe_frame_pow_fx ) ) - { - L_tmp = root_a_over_b_fx( hBWE_TD->prev_swb_bwe_frame_pow_fx, curr_frame_pow_exp, curr_frame_pow_fx, curr_frame_pow_exp, &exp ); - scale_fx = round_fx( L_shl( L_tmp, sub( exp, 3 ) ) ); /*Q12*/ - L_tmp = root_a_fx( L_tmp, sub( 31, exp ), &exp ); - L_tmp = root_a_fx( L_tmp, sub( 31, exp ), &exp ); - L_tmp = root_a_fx( L_tmp, sub( 31, exp ), &exp ); - temp_fx = round_fx_sat( L_shl_sat( L_tmp, sub( exp, 3 ) ) ); /*Q12*/ - } - ELSE IF( LT_32( curr_frame_pow_fx, L_shr( hBWE_TD->prev_swb_bwe_frame_pow_fx, 1 ) ) && - ( GT_32( st->enerLL_fx, L_shr( st->prev_enerLL_fx, 1 ) ) || GT_32( st->enerLH_fx, L_shr( st->prev_enerLH_fx, 1 ) ) ) && - ( EQ_16( st->prev_coder_type, UNVOICED ) || ( st->last_good == UNVOICED_CLAS ) || GT_16( hBWE_TD->tilt_swb_fec_fx, 10240 ) ) ) - { - L_tmp = root_a_over_b_fx( hBWE_TD->prev_swb_bwe_frame_pow_fx, curr_frame_pow_exp, curr_frame_pow_fx, curr_frame_pow_exp, &exp ); - L_tmp = L_min( L_tmp, L_shl_sat( 2, sub( 31, exp ) ) ); /*31 - exp*/ - scale_fx = round_fx( L_shl( L_tmp, sub( exp, 3 ) ) ); /*Q12*/ - L_tmp = root_a_fx( L_tmp, sub( 31, exp ), &exp ); - L_tmp = root_a_fx( L_tmp, sub( 31, exp ), &exp ); - L_tmp = root_a_fx( L_tmp, sub( 31, exp ), &exp ); - temp_fx = round_fx( L_shl( L_tmp, sub( exp, 3 ) ) ); /*Q12*/ - } - } - - FOR( j = 0; j < 8; j++ ) - { - GainShape_fx[2 * j] = shl_sat( mult_r( GainShape_fx[2 * j], scale_fx ), 3 ); - move16(); /* 15 +12 +3-15 =15*/ - GainShape_fx[add( 2 * j, 1 )] = shl_sat( mult_r( GainShape_fx[add( 2 * j, 1 )], scale_fx ), 3 ); - move16(); - FOR( i = 0; i < 40; i++ ) - { - shaped_shb_excitation_fx[i + j * L_FRAME16k / 8] = shl( mult_r( shaped_shb_excitation_fx[i + j * L_FRAME16k / 8], scale_fx ), 3 ); - move16(); /* Q_bwe_exc +12+3 -15 =Q_bwe_exc*/ - } - - IF( temp_fx > 0 ) - { - IF( LT_16( scale_fx, temp_fx ) ) - { - scale_fx = shr( div_s( scale_fx, temp_fx ), 3 ); - } - ELSE - { - tmp1 = sub( norm_s( scale_fx ), 1 ); - tmp2 = norm_s( temp_fx ); - scale_fx = div_s( shl( scale_fx, tmp1 ), shl( temp_fx, tmp2 ) ); - scale_fx = shr( scale_fx, add( sub( tmp1, tmp2 ), 3 ) ); - } - } - ELSE - { - scale_fx = 0; - move16(); - } - } - } - - hBWE_TD->prev_swb_bwe_frame_pow_fx = curr_frame_pow_fx; - move32(); - st->prev_frame_pow_exp = curr_frame_pow_exp; - move16(); - - Word64 prev_ener_shb64 = 0; - move64(); - FOR( i = 0; i < L_FRAME16k; i++ ) - { - prev_ener_shb64 = W_mac0_16_16( prev_ener_shb64, shaped_shb_excitation_fx[i], shaped_shb_excitation_fx[i] ); /* Q0 */ - } - L_prev_ener_shb = W_sat_l( prev_ener_shb64 ); - - L_prev_ener_shb = Mult_32_16( L_prev_ener_shb, 26214 ); /* 2*Q_bwe_exc_mod+8; 26214=(1/L_FRAME16k) in Q23 */ - st->prev_ener_shb_fx = 0; - move16(); - IF( L_prev_ener_shb != 0 ) - { - exp = norm_l( L_prev_ener_shb ); - tmp = extract_h( L_shl( L_prev_ener_shb, exp ) ); - exp = sub( exp, sub( 30, ( add( i_mult( 2, Q_bwe_exc ), 8 ) ) ) ); - - tmp = div_s( 16384, tmp ); - L_tmp = L_deposit_h( tmp ); - L_tmp = Isqrt_lc( L_tmp, &exp ); - st->prev_ener_shb_fx = round_fx_sat( L_shl_sat( L_tmp, sub( exp, 14 ) ) ); /* Q1 */ - move16(); - } - - IF( st->hBWE_FD != NULL ) - { - L_tmp = Mult_32_16( curr_frame_pow_fx, 26214 ); /* curr_frame_pow_exp+8; 26214=(1/L_FRAME16k) in Q23 */ - tmp = 0; - move16(); - IF( L_tmp != 0 ) - { - exp = norm_l( L_tmp ); - tmp = extract_h( L_shl( L_tmp, exp ) ); - exp = sub( exp, sub( 30, add( curr_frame_pow_exp, 8 ) ) ); - - tmp = div_s( 16384, tmp ); - L_tmp = L_deposit_h( tmp ); - L_tmp = Isqrt_lc( L_tmp, &exp ); - tmp = round_fx_sat( L_shl_sat( L_tmp, sub( exp, 14 ) ) ); /* Q1 */ - } - set16_fx( st->prev_SWB_fenv_fx, tmp, SWB_FENV ); /* Q1 */ - } - - FOR( i = 0; i < L_FRAME16k; i++ ) - { - shaped_shb_excitation_fx_32[i] = L_shl( shaped_shb_excitation_fx[i], sub( Q11, Q_bwe_exc ) ); - move32(); - } - - /* generate 32kHz SHB synthesis from 12.8(16)kHz signal */ - GenSHBSynth_fx_32( shaped_shb_excitation_fx_32, error_fx, hBWE_TD->genSHBsynth_Hilbert_Mem_fx, hBWE_TD->genSHBsynth_state_lsyn_filt_shb_local_fx_32, st->L_frame, &( hBWE_TD->syn_dm_phase ) ); - Copy_Scale_sig_32_16( st->hBWE_TD->genSHBsynth_state_lsyn_filt_shb_local_fx_32, st->hBWE_TD->genSHBsynth_state_lsyn_filt_shb_local_fx, 2 * ALLPASSSECTIONS_STEEP, -( Q11 - Q_bwe_exc ) ); - Copy32( error_fx + L_FRAME32k - L_SHB_TRANSITION_LENGTH, hBWE_TD->old_tbe_synth_fx_32, L_SHB_TRANSITION_LENGTH ); - - /* resample SHB synthesis (if needed) and scale down */ - synth_scale_fx = 32767; - move16(); /* 1.0 in Q15 */ - if ( EQ_16( st->codec_mode, MODE1 ) ) - { - synth_scale_fx = 29491; - move16(); /* 0.9 in Q15 */ - } - - IF( EQ_32( st->output_Fs, 48000 ) ) - { - IF( EQ_16( st->extl, FB_TBE ) ) - { - tmp = norm_l( GainFrame_fx ); - if ( GainFrame_fx == 0 ) - { - tmp = 31; - move16(); - } - L_tmp = L_shl( GainFrame_fx, tmp ); /* 18 + tmp */ - - tmp1 = 0; - move16(); - FOR( i = 0; i < L_FRAME16k; i++ ) - { - Word16 idx = 0; - move16(); - IF( i != 0 ) - { - idx = idiv1616( i_mult( NUM_SHB_SUBFR, i ), L_FRAME16k ); - } - L_tmp1 = Mult_32_16( L_tmp, GainShape_fx[idx] ); /* Q : 18 + tmp +15 -15*/ - White_exc16k_fx[i] = round_fx( Mult_32_16( L_tmp1, White_exc16k_fx[i] ) ); /* 18 + tmp +*Q_white_exc -15 -16 */ - move16(); - tmp1 = s_max( tmp1, abs_s( White_exc16k_fx[i] ) ); - } - - *Q_white_exc = sub( add( *Q_white_exc, tmp ), 13 ); /* *Q_white_exc + 18 + tmp -15 -16 */ - move16(); - tmp = norm_s( tmp1 ); - if ( tmp1 == 0 ) - { - tmp = 15; - move16(); - } - - FOR( i = 0; i < L_FRAME16k; i++ ) - { - White_exc16k_fx[i] = shl( White_exc16k_fx[i], sub( tmp, 1 ) ); - move16(); - } - *Q_white_exc = sub( add( *Q_white_exc, tmp ), 1 ); - move16(); - } - - IF( NE_16( synth_scale_fx, 32767 ) ) /* 1.0 in Q15 */ - { - FOR( i = 0; i < L_FRAME32k; i++ ) - { - error_fx[i] = Mpy_32_16_1( error_fx[i], synth_scale_fx ); - move32(); - } - } - interpolate_3_over_2_allpass_32( error_fx, L_FRAME32k, synth_fx, hBWE_TD->int_3_over_2_tbemem_dec_fx_32 ); - } - ELSE IF( EQ_32( st->output_Fs, 32000 ) ) - { - IF( NE_16( synth_scale_fx, 32767 ) ) /* 1.0 in Q15 */ - { - FOR( i = 0; i < L_FRAME32k; i++ ) - { - synth_fx[i] = Mpy_32_16_1( error_fx[i], synth_scale_fx ); - move32(); /*Qx*/ - } - } - ELSE - { - Copy32( error_fx, synth_fx, L_FRAME32k ); - } - } - ELSE IF( EQ_32( st->output_Fs, 16000 ) ) - { - IF( NE_16( synth_scale_fx, 32767 ) ) /* 1.0 in Q15 */ - { - FOR( i = 0; i < L_FRAME32k; i++ ) - { - error_fx[i] = Mpy_32_16_1( error_fx[i], synth_scale_fx ); - move32(); - } - } - - Decimate_allpass_steep_fx32( error_fx, hBWE_TD->mem_resamp_HB_32k_fx_32, L_FRAME32k, synth_fx ); - } - - - /* Update previous frame parameters for FEC */ - Copy( lsf_shb_fx, hBWE_TD->lsp_prevfrm_fx, LPC_SHB_ORDER ); - IF( EQ_16( st->codec_mode, MODE1 ) ) - { - hBWE_TD->GainFrame_prevfrm_fx = GainFrame_fx; - move32(); /*Q18*/ - hBWE_TD->tilt_swb_fec_fx = tilt_swb_fec_fx; - move16(); - - if ( !st->bfi ) - { - hBWE_TD->GainAttn_fx = 32767; /*1.0f in Q15*/ - move16(); - } - } - ELSE - { - IF( !st->bfi ) - { - hBWE_TD->GainFrame_prevfrm_fx = GainFrame_fx; - move32(); /*Q18*/ - hBWE_TD->tilt_swb_fec_fx = tilt_swb_fec_fx; - move16(); - hBWE_TD->GainAttn_fx = 32767; /*1.0f in Q15*/ - move16(); - } - } - - hBWE_TD->prev_ener_fx = ener_tmp_fx[NUM_SHB_SUBGAINS - 1]; - move32(); - hBWE_TD->prev_GainShape_fx = GainShape_fx[NUM_SHB_SUBFR - 1]; - move16(); - st->prev_Q_bwe_syn2 = Q_bwe_exc; - move16(); - st->prev_Qx = Q_bwe_exc; - move16(); - - return; -} -/*-------------------------------------------------------------------* - * Dequant_lower_LSF() - * - * Dequantized the lower LSFs - *-------------------------------------------------------------------*/ - - -/*-------------------------------------------------------------------* - * Map_higher_LSF() - * - * Map the higher LSFs from the lower LSFs - *-------------------------------------------------------------------*/ - - -/*-------------------------------------------------------------------* - * Map_higher_LSF() - * - * Map the higher LSFs from the lower LSFs - *-------------------------------------------------------------------*/ - - -/*-------------------------------------------------------------------* - * dequantizeSHBparams() - * - * Dequantize super highband spectral envolope, temporal gains and frame gain - *-------------------------------------------------------------------*/ - - -void GenTransition_fixed( - TD_BWE_DEC_HANDLE hBWE_TD, /* i/o: TD BWE data handle */ - Word32 *outputHB_fx, /* o : synthesized HB transitions signal : Q11 */ - const Word32 output_Fs, /* i : output sampling rate : Q0 */ - const Word16 element_mode, /* i : element mode : Q0 */ - const Word16 L_frame, /* i : ACELP frame length : Q0 */ - const Word16 rf_flag, /* i : RF flag : Q0 */ - const Word32 total_brate, /* i : total bitrate : Q0 */ - const Word16 prev_Qx ) -{ - Word16 i, length; - - Word32 syn_overlap_32k_fx[2 * SHB_OVERLAP_LEN]; - - /* set targeted length of transition signal */ - length = i_mult( 2, NS2SA_FX2( output_Fs, DELAY_BWE_TOTAL_NS ) ); - - /* upsample overlap snippet */ - Interpolate_allpass_steep_32( hBWE_TD->syn_overlap_fx_32, hBWE_TD->genSHBsynth_state_lsyn_filt_shb_local_fx_32, SHB_OVERLAP_LEN, syn_overlap_32k_fx ); - - /* perFORm spectral flip and downmix with overlap snippet to match HB synth */ - test(); - test(); - test(); - test(); - IF( ( ( element_mode == EVS_MONO ) && ( rf_flag || EQ_32( total_brate, ACELP_9k60 ) ) ) || ( ( element_mode > EVS_MONO ) && EQ_16( L_frame, L_FRAME ) ) ) - { - flip_and_downmix_generic_fx_32( syn_overlap_32k_fx, syn_overlap_32k_fx, 2 * SHB_OVERLAP_LEN, hBWE_TD->genSHBsynth_Hilbert_Mem_fx, hBWE_TD->genSHBsynth_Hilbert_Mem_fx + HILBERT_ORDER1, hBWE_TD->genSHBsynth_Hilbert_Mem_fx + ( HILBERT_ORDER1 + 2 * HILBERT_ORDER2 ), &( hBWE_TD->syn_dm_phase ) ); - } - ELSE - { - FOR( i = 0; i < 2 * SHB_OVERLAP_LEN; i++ ) - { - IF( i % 2 == 0 ) - { - syn_overlap_32k_fx[i] = L_negate( syn_overlap_32k_fx[i] ); - } - ELSE - { - syn_overlap_32k_fx[i] = syn_overlap_32k_fx[i]; - } - move32(); - } - } - - /* cross fade of overlap snippet and mirrored HB synth from previous frame */ - FOR( i = 0; i < 2 * L_SHB_LAHEAD; i++ ) - { - outputHB_fx[i] = L_add_sat( Mpy_32_16_1( hBWE_TD->old_tbe_synth_fx_32[L_SHB_TRANSITION_LENGTH - 1 - i], window_shb_32k_fx[i] ), Mpy_32_16_1( syn_overlap_32k_fx[i], window_shb_32k_fx[2 * L_SHB_LAHEAD - 1 - i] ) ); - move32(); - } - - /* fill transition signal with mirrored HB synth from previous frame to fully fill delay alignment buffer gap */ - FOR( ; i < length; i++ ) - { - outputHB_fx[i] = L_shl( hBWE_TD->old_tbe_synth_fx[L_SHB_TRANSITION_LENGTH - 1 - i], sub( Q11, prev_Qx ) ); - move32(); - } - - IF( EQ_32( output_Fs, 48000 ) ) - { - interpolate_3_over_2_allpass_32( outputHB_fx, length, outputHB_fx, hBWE_TD->int_3_over_2_tbemem_dec_fx_32 ); - } - ELSE IF( EQ_32( output_Fs, 16000 ) ) - { - Decimate_allpass_steep_fx32( outputHB_fx, hBWE_TD->mem_resamp_HB_32k_fx_32, L_FRAME32k, outputHB_fx ); - } - - return; -} -void GenTransition_WB_fixed( - TD_BWE_DEC_HANDLE hBWE_TD, /* i/o: TD BWE data handle */ - Word32 *outputHB_fx, /* o : synthesized HB transitions signal : Q11 */ - const Word32 output_Fs /* i : output sampling rate */ -) -{ - Word16 i, length; - Word32 speech_buf_16k1_fx[SHB_OVERLAP_LEN], speech_buf_16k2_fx[2 * SHB_OVERLAP_LEN]; - Word32 upsampled_synth_fx[L_FRAME48k]; - - /* set targeted length of transition signal */ - length = i_mult( 2, NS2SA_FX2( output_Fs, DELAY_BWE_TOTAL_NS ) ); - - /* upsample overlap snippet */ - Interpolate_allpass_steep_32( hBWE_TD->syn_overlap_fx_32, hBWE_TD->state_lsyn_filt_shb_fx_32, SHB_OVERLAP_LEN / 2, speech_buf_16k1_fx ); - Interpolate_allpass_steep_32( speech_buf_16k1_fx, hBWE_TD->state_lsyn_filt_dwn_shb_fx_32, SHB_OVERLAP_LEN, speech_buf_16k2_fx ); - - /* perform spectral flip and downmix with overlap snippet to match HB synth */ - FOR( i = 0; i < SHB_OVERLAP_LEN; i++ ) - { - IF( i % 2 == 0 ) - { - speech_buf_16k2_fx[i] = L_negate( speech_buf_16k2_fx[i] ); - move32(); - } - ELSE - { - speech_buf_16k2_fx[i] = speech_buf_16k2_fx[i]; - move32(); - } - } - - /* cross fade of overlap snippet and mirrored HB synth from previous frame */ - FOR( i = 0; i < L_SHB_LAHEAD; i++ ) - { - outputHB_fx[i] = L_add( Mpy_32_16_1( hBWE_TD->old_tbe_synth_fx_32[L_SHB_TRANSITION_LENGTH - 1 - i], window_shb_fx[i] ), Mpy_32_16_1( speech_buf_16k2_fx[i], window_shb_fx[L_SHB_LAHEAD - 1 - i] ) ); - move32(); - outputHB_fx[i] = Mpy_32_16_1( outputHB_fx[i], 21299 ); - move32(); - } - - /* fill transition signal with mirrored HB synth from previous frame to fully fill delay alignment buffer gap */ - FOR( ; i < length; i++ ) - { - outputHB_fx[i] = hBWE_TD->old_tbe_synth_fx_32[L_SHB_TRANSITION_LENGTH - 1 - i]; - move32(); - outputHB_fx[i] = Mpy_32_16_1( outputHB_fx[i], 21299 ); - move32(); - } - - /* upsampling if necessary */ - IF( EQ_32( output_Fs, 32000 ) ) - { - Interpolate_allpass_steep_32( outputHB_fx, hBWE_TD->mem_resamp_HB_fx_32, L_FRAME16k, upsampled_synth_fx ); - Copy32( upsampled_synth_fx, outputHB_fx, L_FRAME32k ); - } - ELSE IF( EQ_32( output_Fs, 48000 ) ) - { - interpolate_3_over_1_allpass_32( outputHB_fx, L_FRAME16k, upsampled_synth_fx, hBWE_TD->mem_resamp_HB_fx_32 ); - Copy32( upsampled_synth_fx, outputHB_fx, L_FRAME48k ); - } - - return; -} - -/*-------------------------------------------------------------------* - * td_bwe_dec_init() - * - * Initialize TD BWE state structure at the decoder - *-------------------------------------------------------------------*/ diff --git a/lib_dec/swb_tbe_dec_fx.c b/lib_dec/swb_tbe_dec_fx.c index 28ac016711566fe8063b8cbd586dd718ab271df4..1b51a29fb642cfffd08c7a39517f1f2d7224b226 100644 --- a/lib_dec/swb_tbe_dec_fx.c +++ b/lib_dec/swb_tbe_dec_fx.c @@ -25,11 +25,8 @@ static void rescale_genWB_mem( Decoder_State *st_fx, Word16 sf ); static void Dequant_lower_LSF_fx( const Word16 lsf_idx[], Word16 lsf_q[] ); static void Map_higher_LSF_fx( Word16 lsf_q[], const Word16 m, const Word16 grid_in[] ); static void Dequant_mirror_point_fx( const Word16 lsf_q[], const Word16 m_idx, Word16 *m ); -Word16 dotp_loc( - const Word16 x[], /* i : vector x[] */ - const Word32 y[], /* i : vector y[] */ - const Word16 n /* i : vector length */ -); +static Word16 dotp_loc( const Word16 x[], const Word32 y[], const Word16 n ); +static void find_max_mem_dec_m3( Decoder_State *st, Word16 *n_mem3 ); /* gain shape concealment code */ static void gradientGainShape( Decoder_State *st_fx, Word16 *GainShape, Word32 *GainFrame ); @@ -406,62 +403,14 @@ void rescale_genWB_mem( Decoder_State *st_fx, Word16 sf ) hBWE_TD->mem_csfilt_fx[i] = L_shl( hBWE_TD->mem_csfilt_fx[i], sf ); move32(); } -} - -void InitSWBdecBuffer_ivas_fx( - Decoder_State *st_fx /* i/o: SHB decoder structure */ -) -{ - TD_BWE_DEC_HANDLE hBWE_TD; - hBWE_TD = st_fx->hBWE_TD; - - set16_fx( hBWE_TD->old_bwe_exc_fx, 0, ( PIT16k_MAX * 2 ) ); - hBWE_TD->bwe_seed[0] = 23; - move16(); - hBWE_TD->bwe_seed[1] = 59; - move16(); - - set16_fx( hBWE_TD->old_bwe_exc_extended_fx, 0, NL_BUFF_OFFSET ); - hBWE_TD->bwe_non_lin_prev_scale_fx = 0; - move16(); - - set32_fx( hBWE_TD->genSHBsynth_Hilbert_Mem_fx, 0, HILBERT_MEM_SIZE ); - set16_fx( hBWE_TD->genSHBsynth_state_lsyn_filt_shb_local_fx, 0, 2 * ALLPASSSECTIONS_STEEP ); /* Interp all pass memory */ - set32_fx( hBWE_TD->genSHBsynth_state_lsyn_filt_shb_local_fx_32, 0, 2 * ALLPASSSECTIONS_STEEP ); /* Interp all pass memory */ - - hBWE_TD->syn_dm_phase = 0; - move16(); - hBWE_TD->prev_fbbwe_ratio_fx = 32767 /*1.0f Q15*/; - move16(); - /* these are fd-bwe constants */ - hBWE_TD->prev_wb_bwe_frame_pow_fx = 4194l /*0.001f Q22*/; /* Q22 */ - move32(); - hBWE_TD->prev_swb_bwe_frame_pow_fx = 4194l /*0.001f Q22*/; /* Q22 */ - move32(); - st_fx->prev_Q_bwe_exc = 31; - move16(); - st_fx->prev_ener_fx_Q = 31; - move16(); - st_fx->prev_Qx = 0; - move16(); - st_fx->prev_frame_pow_exp = 0; - move16(); - st_fx->prev_Q_bwe_syn = 0; - move16(); - st_fx->prev_Q_bwe_syn2 = 0; - move16(); return; } -void InitSWBdecBuffer_fx( - Decoder_State *st_fx /* i/o: SHB decoder structure */ -) +static void InitSWBdecBuffer_fx( + TD_BWE_DEC_HANDLE hBWE_TD /* TD BWE data handle */ ) { - TD_BWE_DEC_HANDLE hBWE_TD; - hBWE_TD = st_fx->hBWE_TD; - set16_fx( hBWE_TD->old_bwe_exc_fx, 0, ( PIT16k_MAX * 2 ) ); hBWE_TD->bwe_seed[0] = 23; move16(); @@ -473,7 +422,8 @@ void InitSWBdecBuffer_fx( move16(); set32_fx( hBWE_TD->genSHBsynth_Hilbert_Mem_fx, 0, HILBERT_MEM_SIZE ); - set16_fx( hBWE_TD->genSHBsynth_state_lsyn_filt_shb_local_fx, 0, 2 * ALLPASSSECTIONS_STEEP ); /* Interp all pass memory */ + set16_fx( hBWE_TD->genSHBsynth_state_lsyn_filt_shb_local_fx, 0, 2 * ALLPASSSECTIONS_STEEP ); /* Interp all pass memory */ + set32_fx( hBWE_TD->genSHBsynth_state_lsyn_filt_shb_local_fx_32, 0, 2 * ALLPASSSECTIONS_STEEP ); /* Interp all pass memory */ hBWE_TD->syn_dm_phase = 0; move16(); @@ -485,31 +435,33 @@ void InitSWBdecBuffer_fx( move32(); hBWE_TD->prev_swb_bwe_frame_pow_fx = 4194l /*0.001f Q22*/; /* Q22 */ move32(); - st_fx->prev_Q_bwe_exc = 31; + hBWE_TD->prev_ener_fx_Q = 31; move16(); - st_fx->prev_ener_fx_Q = 31; + hBWE_TD->prev_Qx = 0; move16(); - st_fx->prev_Qx = 0; + hBWE_TD->prev_frame_pow_exp = 0; move16(); - st_fx->prev_frame_pow_exp = 0; + hBWE_TD->prev_Q_bwe_syn = 0; move16(); - st_fx->prev_Q_bwe_syn = 0; + hBWE_TD->prev_Q_bwe_syn2 = 0; move16(); - st_fx->prev_Q_bwe_syn2 = 0; + hBWE_TD->prev_hb_synth_fx_exp = 31; move16(); + return; } -void ResetSHBbuffer_Dec_fx( Decoder_State *st_fx /* i/o: SHB encoder structure */ ) +void ResetSHBbuffer_Dec_fx( + TD_BWE_DEC_HANDLE hBWE_TD, /* i/o: TD BWE data handle */ + const Word16 extl /* i : BWE extension layer */ +) { Word16 i; Word16 f; Word16 inc; - TD_BWE_DEC_HANDLE hBWE_TD; - hBWE_TD = st_fx->hBWE_TD; - IF( NE_16( st_fx->extl, WB_TBE ) ) + IF( NE_16( extl, WB_TBE ) ) { f = 1489; move16(); /* Q15 */ @@ -531,7 +483,7 @@ void ResetSHBbuffer_Dec_fx( Decoder_State *st_fx /* i/o: SHB encoder structure * set16_fx( hBWE_TD->state_syn_shbexc_fx, 0, L_SHB_LAHEAD ); set16_fx( hBWE_TD->state_lpc_syn_fx, 0, LPC_SHB_ORDER ); - IF( EQ_16( st_fx->extl, FB_TBE ) ) + IF( EQ_16( extl, FB_TBE ) ) { set16_fx( hBWE_TD->fb_state_lpc_syn_fx, 0, LPC_SHB_ORDER ); hBWE_TD->fb_tbe_demph_fx = 0; @@ -554,7 +506,7 @@ void ResetSHBbuffer_Dec_fx( Decoder_State *st_fx /* i/o: SHB encoder structure * /* States for FEC */ - IF( NE_16( st_fx->extl, WB_TBE ) ) + IF( NE_16( extl, WB_TBE ) ) { FOR( i = 0; i < LPC_SHB_ORDER; i++ ) { @@ -590,7 +542,7 @@ void ResetSHBbuffer_Dec_fx( Decoder_State *st_fx /* i/o: SHB encoder structure * set16_fx( hBWE_TD->mem_stp_swb_fx, 0, LPC_SHB_ORDER ); hBWE_TD->gain_prec_swb_fx = 16384; /*Q14 =1*/ move16(); - set16_fx( &st_fx->GainShape_Delay[0], 0, NUM_SHB_SUBFR / 2 ); + set16_fx( hBWE_TD->GainShape_Delay_fx, 0, NUM_SHB_SUBFR / 2 ); hBWE_TD->prev_pow_exc16kWhtnd_fx32 = 1; /* Q0 1.f */ move32(); hBWE_TD->prev_mix_factor_fx = 32767; /*Q15 1.f*/ @@ -820,11 +772,11 @@ void ivas_wb_tbe_dec_fx( IF( EQ_32( st_fx->extl_brate, WB_TBE_0k35 ) ) { /* convert LSPs back into LP coeffs */ - lsp2lpc_fx( lpc_wb + 1, lsf_wb, st_fx->prev_lpc_wb_fx, LPC_SHB_ORDER_LBR_WB ); + lsp2lpc_fx( lpc_wb + 1, lsf_wb, hBWE_TD->prev_lpc_wb_fx, LPC_SHB_ORDER_LBR_WB ); set16_fx( lpc_wb + LPC_SHB_ORDER_LBR_WB + 1, 0, ( LPC_SHB_ORDER_WB - LPC_SHB_ORDER_LBR_WB ) ); FOR( i = 0; i < LPC_SHB_ORDER_WB; i++ ) { - st_fx->prev_lpc_wb_fx[i] = lpc_wb[i + 1]; + hBWE_TD->prev_lpc_wb_fx[i] = lpc_wb[i + 1]; move16(); } FOR( i = 1; i < LPC_SHB_ORDER_LBR_WB + 1; i++ ) @@ -838,10 +790,10 @@ void ivas_wb_tbe_dec_fx( ELSE { /* convert LSPs back into LP coeffs */ - lsp2lpc_fx( lpc_wb + 1, lsf_wb, st_fx->prev_lpc_wb_fx, LPC_SHB_ORDER_WB ); + lsp2lpc_fx( lpc_wb + 1, lsf_wb, hBWE_TD->prev_lpc_wb_fx, LPC_SHB_ORDER_WB ); FOR( i = 0; i < LPC_SHB_ORDER_WB; i++ ) { - st_fx->prev_lpc_wb_fx[i] = lpc_wb[i + 1]; + hBWE_TD->prev_lpc_wb_fx[i] = lpc_wb[i + 1]; move16(); } FOR( i = 1; i < LPC_SHB_ORDER_WB + 1; i++ ) @@ -1005,15 +957,15 @@ void ivas_wb_tbe_dec_fx( } curr_frame_pow_exp = add( n, n ); - IF( GT_16( st_fx->prev_frame_pow_exp, curr_frame_pow_exp ) ) + IF( GT_16( hBWE_TD->prev_frame_pow_exp, curr_frame_pow_exp ) ) { - curr_frame_pow = L_shr( curr_frame_pow, sub( st_fx->prev_frame_pow_exp, curr_frame_pow_exp ) ); - curr_frame_pow_exp = st_fx->prev_frame_pow_exp; + curr_frame_pow = L_shr( curr_frame_pow, sub( hBWE_TD->prev_frame_pow_exp, curr_frame_pow_exp ) ); + curr_frame_pow_exp = hBWE_TD->prev_frame_pow_exp; move16(); } ELSE { - hBWE_TD->prev_wb_bwe_frame_pow_fx = L_shr( hBWE_TD->prev_wb_bwe_frame_pow_fx, sub( curr_frame_pow_exp, st_fx->prev_frame_pow_exp ) ); + hBWE_TD->prev_wb_bwe_frame_pow_fx = L_shr( hBWE_TD->prev_wb_bwe_frame_pow_fx, sub( curr_frame_pow_exp, hBWE_TD->prev_frame_pow_exp ) ); move32(); } @@ -1069,7 +1021,7 @@ void ivas_wb_tbe_dec_fx( hBWE_TD->prev_wb_bwe_frame_pow_fx = curr_frame_pow; move32(); - st_fx->prev_frame_pow_exp = curr_frame_pow_exp; + hBWE_TD->prev_frame_pow_exp = curr_frame_pow_exp; move16(); /* generate 16kHz SHB signal (6 - 8 kHz) from 2kHz signal */ @@ -1127,8 +1079,10 @@ void ivas_wb_tbe_dec_fx( } n_mem = s_max( n_mem, 0 ); - if ( GT_16( sub( Qx, st_fx->prev_Qx ), n_mem ) ) - Qx = add( st_fx->prev_Qx, n_mem ); + if ( GT_16( sub( Qx, hBWE_TD->prev_Qx ), n_mem ) ) + { + Qx = add( hBWE_TD->prev_Qx, n_mem ); + } FOR( i = 0; i < ( L_FRAME16k + L_SHB_LAHEAD ) / 4; i++ ) { @@ -1138,13 +1092,13 @@ void ivas_wb_tbe_dec_fx( FOR( i = 0; i < 2 * ALLPASSSECTIONS_STEEP; i++ ) { - hBWE_TD->state_lsyn_filt_shb_fx[i] = shl( hBWE_TD->state_lsyn_filt_shb_fx[i], sub( Qx, st_fx->prev_Qx ) ); + hBWE_TD->state_lsyn_filt_shb_fx[i] = shl( hBWE_TD->state_lsyn_filt_shb_fx[i], sub( Qx, hBWE_TD->prev_Qx ) ); move16(); } FOR( i = 0; i < 2 * ALLPASSSECTIONS_STEEP; i++ ) { - hBWE_TD->state_lsyn_filt_dwn_shb_fx[i] = shl( hBWE_TD->state_lsyn_filt_dwn_shb_fx[i], sub( Qx, st_fx->prev_Qx ) ); + hBWE_TD->state_lsyn_filt_dwn_shb_fx[i] = shl( hBWE_TD->state_lsyn_filt_dwn_shb_fx[i], sub( Qx, hBWE_TD->prev_Qx ) ); move16(); } @@ -1158,56 +1112,58 @@ void ivas_wb_tbe_dec_fx( move16(); } - max = 0; - move16(); - FOR( cnt = 0; cnt < L_FRAME16k; cnt++ ) - { - max = s_max( max, abs_s( synth[cnt] ) ); - } - - IF( max == 0 ) + IF( st_fx->hBWE_FD != NULL ) { - st_fx->last_wb_bwe_ener_fx = 0; + max = 0; move16(); - } - ELSE - { - n = norm_s( max ); FOR( cnt = 0; cnt < L_FRAME16k; cnt++ ) { - synth_frac[cnt] = shl( synth[cnt], n ); /*Q14*/ - move16(); + max = s_max( max, abs_s( synth[cnt] ) ); } - n = sub( sub( 14, n ), Qx ); - Lacc = 0; - move32(); - FOR( i = 0; i < L_FRAME16k; i++ ) + IF( max == 0 ) { - L_tmp = L_mult( synth_frac[i], synth_frac[i] ); /* Q29 */ - Lacc = L_add( Lacc, L_shr( L_tmp, 7 ) ); /* Q22 */ + st_fx->hBWE_FD->last_wb_bwe_ener_fx = 0; + move16(); } + ELSE + { + n = norm_s( max ); + FOR( cnt = 0; cnt < L_FRAME16k; cnt++ ) + { + synth_frac[cnt] = shl( synth[cnt], n ); /*Q14*/ + move16(); + } + n = sub( sub( 14, n ), Qx ); - L_tmp = Mult_32_16( Lacc, 102 ); /* Q22 */ - exp = norm_l( L_tmp ); - tmp = round_fx_o( L_shl_o( L_tmp, exp, &Overflow ), &Overflow ); - exp = sub( add( exp, 22 ), 30 ); - tmp = div_s( 16384, tmp ); - L_tmp = Isqrt_lc( L_deposit_h( tmp ), &exp ); /* Q(31-exp) */ - st_fx->last_wb_bwe_ener_fx = round_fx_sat( L_shl_sat( L_tmp, add( exp, sub( n, 12 ) ) ) ); /* Q3 */ - move16(); - } + Lacc = 0; + move32(); + FOR( i = 0; i < L_FRAME16k; i++ ) + { + L_tmp = L_mult( synth_frac[i], synth_frac[i] ); /* Q29 */ + Lacc = L_add( Lacc, L_shr( L_tmp, 7 ) ); /* Q22 */ + } + L_tmp = Mult_32_16( Lacc, 102 ); /* Q22 */ + exp = norm_l( L_tmp ); + tmp = round_fx_o( L_shl_o( L_tmp, exp, &Overflow ), &Overflow ); + exp = sub( add( exp, 22 ), 30 ); + tmp = div_s( 16384, tmp ); + L_tmp = Isqrt_lc( L_deposit_h( tmp ), &exp ); /* Q(31-exp) */ + st_fx->hBWE_FD->last_wb_bwe_ener_fx = round_fx_sat( L_shl_sat( L_tmp, add( exp, sub( n, 12 ) ) ) ); /* Q3 */ + move16(); + } + } IF( EQ_32( st_fx->output_Fs, 32000 ) ) /* 32kHz sampling rate, but only WB output - interpolate */ { - Scale_sig( hBWE_TD->state_32and48k_WB_upsample_fx, 2 * ALLPASSSECTIONS_STEEP, sub( Qx, st_fx->prev_Qx ) ); + Scale_sig( hBWE_TD->state_32and48k_WB_upsample_fx, 2 * ALLPASSSECTIONS_STEEP, sub( Qx, hBWE_TD->prev_Qx ) ); Interpolate_allpass_steep_fx( synth, hBWE_TD->state_32and48k_WB_upsample_fx, L_FRAME16k, upsampled_synth ); Copy( upsampled_synth, synth, L_FRAME32k ); } ELSE IF( EQ_32( st_fx->output_Fs, 48000 ) ) { - Scale_sig( hBWE_TD->mem_resamp_HB_fx, INTERP_3_1_MEM_LEN, sub( Qx, st_fx->prev_Qx ) ); + Scale_sig( hBWE_TD->mem_resamp_HB_fx, INTERP_3_1_MEM_LEN, sub( Qx, hBWE_TD->prev_Qx ) ); ivas_interpolate_3_over_1_allpass_fx( synth, L_FRAME16k, upsampled_synth, hBWE_TD->mem_resamp_HB_fx ); Copy( upsampled_synth, synth, L_FRAME48k ); } @@ -1233,7 +1189,7 @@ void ivas_wb_tbe_dec_fx( move16(); hBWE_TD->prev_wb_bwe_frame_pow_fx = 4194l /*0.001f Q22*/; /* Q22 */ move32(); - st_fx->prev_frame_pow_exp = 0; + hBWE_TD->prev_frame_pow_exp = 0; move16(); } @@ -1260,7 +1216,7 @@ void ivas_wb_tbe_dec_fx( st_fx->prev_Q_bwe_exc = Q_bwe_exc; move16(); - st_fx->prev_Qx = Qx; + hBWE_TD->prev_Qx = Qx; move16(); return; @@ -1458,11 +1414,11 @@ void wb_tbe_dec_fx( IF( EQ_32( st_fx->extl_brate, WB_TBE_0k35 ) ) { /* convert LSPs back into LP coeffs */ - lsp2lpc_fx( lpc_wb + 1, lsf_wb, st_fx->prev_lpc_wb_fx, LPC_SHB_ORDER_LBR_WB ); + lsp2lpc_fx( lpc_wb + 1, lsf_wb, hBWE_TD->prev_lpc_wb_fx, LPC_SHB_ORDER_LBR_WB ); set16_fx( lpc_wb + LPC_SHB_ORDER_LBR_WB + 1, 0, LPC_SHB_ORDER_WB - LPC_SHB_ORDER_LBR_WB ); FOR( i = 0; i < LPC_SHB_ORDER_WB; i++ ) { - st_fx->prev_lpc_wb_fx[i] = lpc_wb[i + 1]; + hBWE_TD->prev_lpc_wb_fx[i] = lpc_wb[i + 1]; move16(); } FOR( i = 1; i < LPC_SHB_ORDER_LBR_WB + 1; i++ ) @@ -1476,10 +1432,10 @@ void wb_tbe_dec_fx( ELSE { /* convert LSPs back into LP coeffs */ - lsp2lpc_fx( lpc_wb + 1, lsf_wb, st_fx->prev_lpc_wb_fx, LPC_SHB_ORDER_WB ); + lsp2lpc_fx( lpc_wb + 1, lsf_wb, hBWE_TD->prev_lpc_wb_fx, LPC_SHB_ORDER_WB ); FOR( i = 0; i < LPC_SHB_ORDER_WB; i++ ) { - st_fx->prev_lpc_wb_fx[i] = lpc_wb[i + 1]; + hBWE_TD->prev_lpc_wb_fx[i] = lpc_wb[i + 1]; move16(); } FOR( i = 1; i < LPC_SHB_ORDER_WB + 1; i++ ) @@ -1643,15 +1599,15 @@ void wb_tbe_dec_fx( } curr_frame_pow_exp = add( n, n ); - IF( GT_16( st_fx->prev_frame_pow_exp, curr_frame_pow_exp ) ) + IF( GT_16( hBWE_TD->prev_frame_pow_exp, curr_frame_pow_exp ) ) { - curr_frame_pow = L_shr( curr_frame_pow, sub( st_fx->prev_frame_pow_exp, curr_frame_pow_exp ) ); - curr_frame_pow_exp = st_fx->prev_frame_pow_exp; + curr_frame_pow = L_shr( curr_frame_pow, sub( hBWE_TD->prev_frame_pow_exp, curr_frame_pow_exp ) ); + curr_frame_pow_exp = hBWE_TD->prev_frame_pow_exp; move16(); } ELSE { - hBWE_TD->prev_wb_bwe_frame_pow_fx = L_shr( hBWE_TD->prev_wb_bwe_frame_pow_fx, sub( curr_frame_pow_exp, st_fx->prev_frame_pow_exp ) ); + hBWE_TD->prev_wb_bwe_frame_pow_fx = L_shr( hBWE_TD->prev_wb_bwe_frame_pow_fx, sub( curr_frame_pow_exp, hBWE_TD->prev_frame_pow_exp ) ); move32(); } @@ -1705,7 +1661,7 @@ void wb_tbe_dec_fx( hBWE_TD->prev_wb_bwe_frame_pow_fx = curr_frame_pow; move32(); - st_fx->prev_frame_pow_exp = curr_frame_pow_exp; + hBWE_TD->prev_frame_pow_exp = curr_frame_pow_exp; move16(); /* generate 16kHz SHB signal (6 - 8 kHz) from 2kHz signal */ @@ -1732,13 +1688,17 @@ void wb_tbe_dec_fx( FOR( i = 0; i < 2 * ALLPASSSECTIONS_STEEP; i++ ) { if ( GT_16( abs_s( hBWE_TD->state_lsyn_filt_shb_fx[i] ), max ) ) + { max = abs_s( hBWE_TD->state_lsyn_filt_shb_fx[i] ); + } } FOR( i = 0; i < 2 * ALLPASSSECTIONS_STEEP; i++ ) { if ( GT_16( abs_s( hBWE_TD->state_lsyn_filt_dwn_shb_fx[i] ), max ) ) + { max = abs_s( hBWE_TD->state_lsyn_filt_dwn_shb_fx[i] ); + } } IF( EQ_32( st_fx->output_Fs, 32000 ) ) @@ -1763,8 +1723,10 @@ void wb_tbe_dec_fx( } n_mem = s_max( n_mem, 0 ); - if ( GT_16( sub( Qx, st_fx->prev_Qx ), n_mem ) ) - Qx = add( st_fx->prev_Qx, n_mem ); + if ( GT_16( sub( Qx, hBWE_TD->prev_Qx ), n_mem ) ) + { + Qx = add( hBWE_TD->prev_Qx, n_mem ); + } FOR( i = 0; i < ( L_FRAME16k + L_SHB_LAHEAD ) / 4; i++ ) { @@ -1774,13 +1736,13 @@ void wb_tbe_dec_fx( FOR( i = 0; i < 2 * ALLPASSSECTIONS_STEEP; i++ ) { - hBWE_TD->state_lsyn_filt_shb_fx[i] = shl( hBWE_TD->state_lsyn_filt_shb_fx[i], sub( Qx, st_fx->prev_Qx ) ); + hBWE_TD->state_lsyn_filt_shb_fx[i] = shl( hBWE_TD->state_lsyn_filt_shb_fx[i], sub( Qx, hBWE_TD->prev_Qx ) ); move16(); } FOR( i = 0; i < 2 * ALLPASSSECTIONS_STEEP; i++ ) { - hBWE_TD->state_lsyn_filt_dwn_shb_fx[i] = shl( hBWE_TD->state_lsyn_filt_dwn_shb_fx[i], sub( Qx, st_fx->prev_Qx ) ); + hBWE_TD->state_lsyn_filt_dwn_shb_fx[i] = shl( hBWE_TD->state_lsyn_filt_dwn_shb_fx[i], sub( Qx, hBWE_TD->prev_Qx ) ); move16(); } @@ -1794,56 +1756,58 @@ void wb_tbe_dec_fx( move16(); } - max = 0; - move16(); - FOR( cnt = 0; cnt < L_FRAME16k; cnt++ ) - { - max = s_max( max, abs_s( synth[cnt] ) ); - } - - IF( max == 0 ) + IF( st_fx->hBWE_FD != NULL ) { - st_fx->last_wb_bwe_ener_fx = 0; + max = 0; move16(); - } - ELSE - { - n = norm_s( max ); FOR( cnt = 0; cnt < L_FRAME16k; cnt++ ) { - synth_frac[cnt] = shl( synth[cnt], n ); /*Q14*/ - move16(); + max = s_max( max, abs_s( synth[cnt] ) ); } - n = sub( sub( 14, n ), Qx ); - Lacc = 0; - move32(); - FOR( i = 0; i < L_FRAME16k; i++ ) + IF( max == 0 ) { - L_tmp = L_mult( synth_frac[i], synth_frac[i] ); /* Q29 */ - Lacc = L_add( Lacc, L_shr( L_tmp, 7 ) ); /* Q22 */ + st_fx->hBWE_FD->last_wb_bwe_ener_fx = 0; + move16(); } + ELSE + { + n = norm_s( max ); + FOR( cnt = 0; cnt < L_FRAME16k; cnt++ ) + { + synth_frac[cnt] = shl( synth[cnt], n ); /*Q14*/ + move16(); + } + n = sub( sub( 14, n ), Qx ); - L_tmp = Mult_32_16( Lacc, 102 ); /* Q22 */ - exp = norm_l( L_tmp ); - tmp = round_fx_o( L_shl_o( L_tmp, exp, &Overflow ), &Overflow ); - exp = sub( add( exp, 22 ), 30 ); - tmp = div_s( 16384, tmp ); - L_tmp = Isqrt_lc( L_deposit_h( tmp ), &exp ); /* Q(31-exp) */ - st_fx->last_wb_bwe_ener_fx = round_fx_sat( L_shl_sat( L_tmp, add( exp, sub( n, 12 ) ) ) ); /* Q3 */ - move16(); - } + Lacc = 0; + move32(); + FOR( i = 0; i < L_FRAME16k; i++ ) + { + L_tmp = L_mult( synth_frac[i], synth_frac[i] ); /* Q29 */ + Lacc = L_add( Lacc, L_shr( L_tmp, 7 ) ); /* Q22 */ + } + L_tmp = Mult_32_16( Lacc, 102 ); /* Q22 */ + exp = norm_l( L_tmp ); + tmp = round_fx_o( L_shl_o( L_tmp, exp, &Overflow ), &Overflow ); + exp = sub( add( exp, 22 ), 30 ); + tmp = div_s( 16384, tmp ); + L_tmp = Isqrt_lc( L_deposit_h( tmp ), &exp ); /* Q(31-exp) */ + st_fx->hBWE_FD->last_wb_bwe_ener_fx = round_fx_sat( L_shl_sat( L_tmp, add( exp, sub( n, 12 ) ) ) ); /* Q3 */ + move16(); + } + } IF( EQ_32( st_fx->output_Fs, 32000 ) ) /* 32kHz sampling rate, but only WB output - interpolate */ { - Scale_sig( hBWE_TD->state_32and48k_WB_upsample_fx, 2 * ALLPASSSECTIONS_STEEP, sub( Qx, st_fx->prev_Qx ) ); + Scale_sig( hBWE_TD->state_32and48k_WB_upsample_fx, 2 * ALLPASSSECTIONS_STEEP, sub( Qx, hBWE_TD->prev_Qx ) ); Interpolate_allpass_steep_fx( synth, hBWE_TD->state_32and48k_WB_upsample_fx, L_FRAME16k, upsampled_synth ); Copy( upsampled_synth, synth, L_FRAME32k ); } ELSE IF( EQ_32( st_fx->output_Fs, 48000 ) ) { - Scale_sig( hBWE_TD->mem_resamp_HB_fx, INTERP_3_1_MEM_LEN, sub( Qx, st_fx->prev_Qx ) ); + Scale_sig( hBWE_TD->mem_resamp_HB_fx, INTERP_3_1_MEM_LEN, sub( Qx, hBWE_TD->prev_Qx ) ); interpolate_3_over_1_allpass_fx( synth, L_FRAME16k, upsampled_synth, hBWE_TD->mem_resamp_HB_fx ); Copy( upsampled_synth, synth, L_FRAME48k ); } @@ -1869,7 +1833,7 @@ void wb_tbe_dec_fx( move16(); hBWE_TD->prev_wb_bwe_frame_pow_fx = 4194l /*0.001f Q22*/; /* Q22 */ move32(); - st_fx->prev_frame_pow_exp = 0; + hBWE_TD->prev_frame_pow_exp = 0; move16(); } @@ -1896,7 +1860,7 @@ void wb_tbe_dec_fx( st_fx->prev_Q_bwe_exc = Q_bwe_exc; move16(); - st_fx->prev_Qx = Qx; + hBWE_TD->prev_Qx = Qx; move16(); return; @@ -2009,7 +1973,7 @@ void swb_tbe_dec_fx( move16(); shb_ener_sf_32 = L_deposit_l( 0 ); set16_fx( shaped_shb_excitationTemp, 0, L_FRAME16k ); - st_fx->shb_dtx_count_fx = 0; + st_fx->hTdCngDec->shb_dtx_count_fx = 0; move16(); is_fractive = 0; move16(); @@ -2264,7 +2228,7 @@ void swb_tbe_dec_fx( { FOR( j = 0; j < 4; j++ ) { - GainShape[add( i * 4, j )] = mult_r( st_fx->cummulative_damping, st_fx->GainShape_Delay[4 + i] ); + GainShape[add( i * 4, j )] = mult_r( st_fx->cummulative_damping, hBWE_TD->GainShape_Delay_fx[4 + i] ); move16(); } } @@ -2369,13 +2333,13 @@ void swb_tbe_dec_fx( } /* get the gainshape delay */ - Copy( &st_fx->GainShape_Delay[4], &st_fx->GainShape_Delay[0], NUM_SHB_SUBFR / 4 ); + Copy( &hBWE_TD->GainShape_Delay_fx[4], &hBWE_TD->GainShape_Delay_fx[0], NUM_SHB_SUBFR / 4 ); test(); IF( ( st_fx->rf_flag != 0 ) || EQ_32( st_fx->total_brate, ACELP_9k60 ) ) { FOR( i = 0; i < NUM_SHB_SUBFR / 4; i++ ) { - st_fx->GainShape_Delay[i + 4] = s_min( s_max( GainShape[i * 4], 3277 /*0.1f Q15*/ ), 16384 /*0.5f Q15*/ ); + hBWE_TD->GainShape_Delay_fx[i + 4] = s_min( s_max( GainShape[i * 4], 3277 /*0.1f Q15*/ ), 16384 /*0.5f Q15*/ ); move16(); } } @@ -2383,7 +2347,7 @@ void swb_tbe_dec_fx( { FOR( i = 0; i < NUM_SHB_SUBFR / 4; i++ ) { - st_fx->GainShape_Delay[i + 4] = GainShape[i * 4]; + hBWE_TD->GainShape_Delay_fx[i + 4] = GainShape[i * 4]; move16(); } } @@ -2595,8 +2559,11 @@ void swb_tbe_dec_fx( move16(); /* SWB CNG/DTX - update memories */ - Copy( st_fx->lsp_shb_prev_fx, st_fx->lsp_shb_prev_prev_fx, LPC_SHB_ORDER ); /* Q15 */ - Copy( lsf_shb, st_fx->lsp_shb_prev_fx, LPC_SHB_ORDER ); /* Q15 */ + if ( st_fx->hTdCngDec != NULL ) + { + Copy( st_fx->hTdCngDec->lsp_shb_prev_fx, st_fx->hTdCngDec->lsp_shb_prev_prev_fx, LPC_SHB_ORDER ); /* Q15 */ + Copy( lsf_shb, st_fx->hTdCngDec->lsp_shb_prev_fx, LPC_SHB_ORDER ); /* Q15 */ + } /* vind = (short)(mixFactors*8.0f); */ vind = shl( mixFactors, 3 - 15 ); /* 3 for mpy by 8.0f, -15 to bring it to Q0 */ @@ -2660,7 +2627,7 @@ void swb_tbe_dec_fx( Q_bwe_exc = sub( Q_bwe_exc, 16 ); /* Q_bwe_exc reflecting the single precision dynamic norm-ed buffers from here */ /* -------- end of rescaling memories -------- */ - Q_bwe_exc_fb = st_fx->prev_Q_bwe_exc_fb; + Q_bwe_exc_fb = hBWE_TD->prev_Q_bwe_exc_fb; move16(); IF( GT_32( st_fx->total_brate, ACELP_32k ) ) @@ -2677,26 +2644,26 @@ void swb_tbe_dec_fx( coder_type, bwe_exc_extended_16, hBWE_TD->bwe_seed, vf_modified, st_fx->extl, &( hBWE_TD->tbe_demph_fx ), &( hBWE_TD->tbe_premph_fx ), lpc_shb_sf, shb_ener_sf_32, shb_res_gshape, shb_res_dummy, &vind, formant_fac, hBWE_TD->fb_state_lpc_syn_fx, - &( hBWE_TD->fb_tbe_demph_fx ), &Q_bwe_exc, &Q_bwe_exc_fb, Q_shb, n_mem2, st_fx->prev_Q_bwe_syn, st_fx->total_brate, st_fx->prev_bfi ); + &( hBWE_TD->fb_tbe_demph_fx ), &Q_bwe_exc, &Q_bwe_exc_fb, Q_shb, n_mem2, hBWE_TD->prev_Q_bwe_syn, st_fx->total_brate, st_fx->prev_bfi ); *Q_white_exc = Q_bwe_exc_fb; move16(); IF( EQ_16( st_fx->extl, FB_TBE ) ) { - st_fx->prev_Q_bwe_exc_fb = Q_bwe_exc_fb; + hBWE_TD->prev_Q_bwe_exc_fb = Q_bwe_exc_fb; move16(); } ELSE { /*Indirectly a memory reset of FB memories for next frame such that rescaling of memories would lead to 0 due to such high prev. Q value. 51 because of 31 + 20(shift of Q_bwe_exc_fb before de-emphasis)*/ - st_fx->prev_Q_bwe_exc_fb = 51; + hBWE_TD->prev_Q_bwe_exc_fb = 51; move16(); } /* rescale the TBE post proc memory */ FOR( i = 0; i < LPC_SHB_ORDER; i++ ) { - hBWE_TD->mem_stp_swb_fx[i] = shl( hBWE_TD->mem_stp_swb_fx[i], sub( Q_bwe_exc, st_fx->prev_Q_bwe_syn ) ); + hBWE_TD->mem_stp_swb_fx[i] = shl( hBWE_TD->mem_stp_swb_fx[i], sub( Q_bwe_exc, hBWE_TD->prev_Q_bwe_syn ) ); move16(); } @@ -2722,11 +2689,7 @@ void swb_tbe_dec_fx( curr_pow = L_shr( curr_pow, 2 ); /* Q(2*Q_bwe_exc) */ } - Lscale = root_a_over_b_fx( curr_pow, - shl( Q_bwe_exc, 1 ), - prev_pow, - shl( Q_bwe_exc, 1 ), - &exp ); + Lscale = root_a_over_b_fx( curr_pow, shl( Q_bwe_exc, 1 ), prev_pow, shl( Q_bwe_exc, 1 ), &exp ); FOR( i = 0; i < L_SHB_LAHEAD; i++ ) { @@ -3055,7 +3018,7 @@ void swb_tbe_dec_fx( /* if( ener_tmp_fx[i]*GainShape_tmp_fx[i] > st_fx->prev_ener_fx*st_fx->prev_GainShape_fx ) */ L_tmp1 = Mult_32_16( ener_tmp[i], GainShape_tmp[i] ); /* (2*Q_bwe_exc) */ L_tmp2 = Mult_32_16( hBWE_TD->prev_ener_fx, hBWE_TD->prev_GainShape_fx ); /* (2*st_fx->prev_ener_fx_Q) */ - tmp = sub( shl( Q_bwe_exc, 1 ), shl( st_fx->prev_ener_fx_Q, 1 ) ); + tmp = sub( shl( Q_bwe_exc, 1 ), shl( hBWE_TD->prev_ener_fx_Q, 1 ) ); L_tmp2 = L_shl_sat( L_tmp2, tmp ); /* new Q = (2*Q_bwe_exc) */ IF( GT_32( L_tmp1, L_tmp2 ) ) { @@ -3091,7 +3054,7 @@ void swb_tbe_dec_fx( move32(); hBWE_TD->prev_GainShape_fx = GainShape_tmp[i]; move16(); - st_fx->prev_ener_fx_Q = Q_bwe_exc; + hBWE_TD->prev_ener_fx_Q = Q_bwe_exc; move16(); } FOR( i = 0; i < NUM_SHB_SUBFR; i++ ) @@ -3108,13 +3071,13 @@ void swb_tbe_dec_fx( } ELSE { - st_fx->prev_ener_fx_Q = Q_bwe_exc; + hBWE_TD->prev_ener_fx_Q = Q_bwe_exc; move16(); } /* Back up the Q_bwe_exc associated with shaped_shb_excitation for the next frame*/ - st_fx->prev_Q_bwe_syn = Q_bwe_exc; + hBWE_TD->prev_Q_bwe_syn = Q_bwe_exc; move16(); /* Scale the shaped excitation */ @@ -3125,13 +3088,7 @@ void swb_tbe_dec_fx( GainFrame, /* Q18 */ window_shb_fx, subwin_shb_fx, - &Q_bwe_exc, &Qx, n_mem3, st_fx->prev_Q_bwe_syn2 ); - /* i: GainShape Q15 */ - /* i: GainFrame Q18 */ - /* i: shaped_shb_excitation Q_bwe_exc */ - /* o: shaped_shb_excitation Q_bwe_exc */ - /* o: st_fx->syn_overlap_fx Q_bwe_exc */ - + &Q_bwe_exc, &Qx, n_mem3, hBWE_TD->prev_Q_bwe_syn2 ); max = 0; move16(); @@ -3169,31 +3126,31 @@ void swb_tbe_dec_fx( curr_frame_pow_exp = sub( shl( add( Q_bwe_exc, n ), 1 ), 9 ); - tmp = sub( st_fx->prev_frame_pow_exp, curr_frame_pow_exp ); + tmp = sub( hBWE_TD->prev_frame_pow_exp, curr_frame_pow_exp ); IF( tmp > 0 ) /* shifting prev */ { IF( GT_16( tmp, 32 ) ) { - st_fx->prev_frame_pow_exp = add( curr_frame_pow_exp, 32 ); + hBWE_TD->prev_frame_pow_exp = add( curr_frame_pow_exp, 32 ); move16(); tmp = 32; move16(); } hBWE_TD->prev_swb_bwe_frame_pow_fx = L_shr( hBWE_TD->prev_swb_bwe_frame_pow_fx, tmp ); move32(); - st_fx->prev_frame_pow_exp = curr_frame_pow_exp; + hBWE_TD->prev_frame_pow_exp = curr_frame_pow_exp; move16(); } ELSE /* shifting curr */ { IF( LT_16( tmp, -32 ) ) { - curr_frame_pow_exp = sub( st_fx->prev_frame_pow_exp, 32 ); + curr_frame_pow_exp = sub( hBWE_TD->prev_frame_pow_exp, 32 ); tmp = -32; move16(); } curr_frame_pow = L_shr( curr_frame_pow, -tmp ); - curr_frame_pow_exp = st_fx->prev_frame_pow_exp; + curr_frame_pow_exp = hBWE_TD->prev_frame_pow_exp; move16(); } test(); @@ -3358,10 +3315,9 @@ void swb_tbe_dec_fx( hBWE_TD->prev_swb_bwe_frame_pow_fx = curr_frame_pow; move32(); - st_fx->prev_frame_pow_exp = curr_frame_pow_exp; + hBWE_TD->prev_frame_pow_exp = curr_frame_pow_exp; move16(); - { Word64 prev_ener_shb64 = 0; move64(); @@ -3372,7 +3328,6 @@ void swb_tbe_dec_fx( L_prev_ener_shb = W_sat_l( prev_ener_shb64 ); } - /* st->prev_ener_shb = sqrt(st->prev_ener_shb/L_FRAME16k) */ L_prev_ener_shb = Mult_32_16( L_prev_ener_shb, 26214 ); /* 2*Q_bwe_exc_mod+8; 26214=(1/L_FRAME16k) in Q23 */ st_fx->prev_ener_shb_fx = 0; @@ -3405,11 +3360,10 @@ void swb_tbe_dec_fx( L_tmp = Isqrt_lc( L_tmp, &exp ); tmp = round_fx_sat( L_shl_sat( L_tmp, sub( exp, 14 ) ) ); /* Q1 */ } - set16_fx( st_fx->prev_SWB_fenv_fx, tmp, SWB_FENV ); /* Q1 */ - + set16_fx( st_fx->hBWE_FD->prev_SWB_fenv_fx, tmp, SWB_FENV ); /* Q1 */ /* rescale the memories if Q_bwe_exc is different from previous frame */ - sc = sub( Q_bwe_exc, st_fx->prev_Q_bwe_syn2 ); + sc = sub( Q_bwe_exc, hBWE_TD->prev_Q_bwe_syn2 ); IF( sc != 0 ) { FOR( i = 0; i < 2 * ALLPASSSECTIONS_STEEP; i++ ) @@ -3572,10 +3526,11 @@ void swb_tbe_dec_fx( move32(); *Q_synth = Q_bwe_exc; move16(); - st_fx->prev_Q_bwe_syn2 = Q_bwe_exc; + hBWE_TD->prev_Q_bwe_syn2 = Q_bwe_exc; move16(); - st_fx->prev_Qx = Q_bwe_exc; + hBWE_TD->prev_Qx = Q_bwe_exc; move16(); + return; } @@ -3595,9 +3550,9 @@ static void gradientGainShape( /* the previous frame gainshape gradient and the gainshape gradient pattern for the current frame */ FOR( j = 0; j < 3; j++ ) { - GainGrad0[j] = sub( shr( st_fx->GainShape_Delay[j + 1], 1 ), shr( st_fx->GainShape_Delay[j], 1 ) ); + GainGrad0[j] = sub( shr( hBWE_TD->GainShape_Delay_fx[j + 1], 1 ), shr( hBWE_TD->GainShape_Delay_fx[j], 1 ) ); move16(); /* Q14 */ - GainGrad1[j] = sub( shr( st_fx->GainShape_Delay[j + 5], 1 ), shr( st_fx->GainShape_Delay[j + 4], 1 ) ); + GainGrad1[j] = sub( shr( hBWE_TD->GainShape_Delay_fx[j + 5], 1 ), shr( hBWE_TD->GainShape_Delay_fx[j + 4], 1 ) ); move16(); /* Q14 */ GainGradFEC[j + 1] = add( mult_r( GainGrad0[j], 13107 ), mult_r( GainGrad1[j], 19660 ) ); move16(); /* Q14 */ @@ -3626,17 +3581,17 @@ static void gradientGainShape( test(); IF( ( EQ_16( st_fx->prev_coder_type, UNVOICED ) || ( st_fx->last_good == UNVOICED_CLAS ) ) && ( GainGradFEC[0] > 0 ) ) { - GainShapeTemp[0] = add( shr( st_fx->GainShape_Delay[7], 1 ), GainGradFEC[0] ); + GainShapeTemp[0] = add( shr( hBWE_TD->GainShape_Delay_fx[7], 1 ), GainGradFEC[0] ); move16(); } ELSE IF( GainGradFEC[0] > 0 ) { - GainShapeTemp[0] = add( shr( st_fx->GainShape_Delay[7], 1 ), mult_r( GainGradFEC[0], 16384 ) ); + GainShapeTemp[0] = add( shr( hBWE_TD->GainShape_Delay_fx[7], 1 ), mult_r( GainGradFEC[0], 16384 ) ); move16(); /* Q14 */ } ELSE { - GainShapeTemp[0] = shr( st_fx->GainShape_Delay[7], 1 ); + GainShapeTemp[0] = shr( hBWE_TD->GainShape_Delay_fx[7], 1 ); move16(); /* Q14 */ } @@ -3695,12 +3650,12 @@ static void gradientGainShape( IF( GT_16( 8192, tmp ) ) { - GainShape[add( i * 4, j )] = shl( tmp, 2 ); + GainShape[i * 4 + j] = shl( tmp, 2 ); move16(); /* (GainShapeTemp[i]*0.6)>>1 */ } ELSE { - GainShape[add( i * 4, j )] = 32767; + GainShape[i * 4 + j] = 32767; move16(); /* Clipping here to avoid the a huge change of the code due to gain shape change */ } } @@ -3716,12 +3671,12 @@ static void gradientGainShape( { IF( LT_16( GainShapeTemp[i], 16384 ) ) { - GainShape[add( i * 4, j )] = shl( GainShapeTemp[i], 1 ); + GainShape[i * 4 + j] = shl( GainShapeTemp[i], 1 ); move16(); } ELSE { - GainShape[add( i * 4, j )] = 32767; + GainShape[i * 4 + j] = 32767; move16(); } } @@ -3750,12 +3705,12 @@ static void gradientGainShape( { IF( LT_16( GainShapeTemp[i], 16384 ) ) { - GainShape[add( i * 4, j )] = shl( GainShapeTemp[i], 1 ); + GainShape[i * 4 + j] = shl( GainShapeTemp[i], 1 ); move16(); } ELSE { - GainShape[add( i * 4, j )] = 32767; + GainShape[i * 4 + j] = 32767; move16(); } } @@ -3869,7 +3824,9 @@ static void Dequant_mirror_point_fx( return; } -Word16 dotp_loc( + + +static Word16 dotp_loc( const Word16 x[], /* i : vector x[] Qx */ const Word32 y[], /* i : vector y[] Qy */ const Word16 n /* i : vector length */ @@ -4888,35 +4845,33 @@ void tbe_read_bitstream_fx( * buffer to fill the gap caused by the delay alignment buffer when * switching from TBE to IGF *---------------------------------------------------------------------*/ + void GenTransition_fx( - const Word16 *input, /* i : gain shape overlap buffer Q11 */ - const Word16 *old_hb_synth, /* i : synthesized HB from previous frame Q(15 - hb_synth_fx_exp)*/ - Word16 length, /* i : targeted length of transition signal */ - Word16 *output, /* o : synthesized transitions signal st_fx->prev_Q_bwe_syn2 */ - Word32 Hilbert_Mem[], /* i/o: memory st_fx->prev_Q_bwe_syn2 */ - Word16 state_lsyn_filt_shb_local[], /* i/o: memory st_fx->prev_Q_bwe_syn2*/ - Word16 mem_resamp_HB_32k[], /* i/o: memory */ - Word16 *syn_dm_phase, - Word32 target_fs, - Word16 *up_mem, - Word16 rf_flag, - Word32 bitrate ) + TD_BWE_DEC_HANDLE hBWE_TD, /* i/o: TD BWE data handle */ + Word16 *output_HB, /* o : synthesized HB transitions signal st_fx->prev_Q_bwe_syn2 */ + const Word32 output_Fs, /* i : output sampling rate */ + Word16 rf_flag, /* i : RF flag */ + Word32 total_bitrate /* i : total bitrate */ +) { - Word16 i; + Word16 i, length; Word16 syn_overlap_32k[L_FRAME32k]; Word32 L_tmp; Word16 ol_len = 2 * SHB_OVERLAP_LEN; + /* set targeted length of transition signal */ + length = shl( NS2SA_FX2( output_Fs, DELAY_BWE_TOTAL_NS ), 1 ); + /* upsample overlap snippet */ - Interpolate_allpass_steep_fx( input, state_lsyn_filt_shb_local, SHB_OVERLAP_LEN, syn_overlap_32k ); + Interpolate_allpass_steep_fx( hBWE_TD->syn_overlap_fx, hBWE_TD->genSHBsynth_state_lsyn_filt_shb_local_fx, SHB_OVERLAP_LEN, syn_overlap_32k ); /* perform spectral flip and downmix with overlap snippet to match HB synth */ test(); - IF( ( rf_flag != 0 ) || EQ_32( bitrate, ACELP_9k60 ) ) + IF( ( rf_flag != 0 ) || EQ_32( total_bitrate, ACELP_9k60 ) ) { - flip_and_downmix_generic_fx( syn_overlap_32k, syn_overlap_32k, 2 * SHB_OVERLAP_LEN, Hilbert_Mem, - Hilbert_Mem + HILBERT_ORDER1, Hilbert_Mem + ( HILBERT_ORDER1 + 2 * HILBERT_ORDER2 ), - syn_dm_phase ); + flip_and_downmix_generic_fx( syn_overlap_32k, syn_overlap_32k, 2 * SHB_OVERLAP_LEN, hBWE_TD->genSHBsynth_Hilbert_Mem_fx, + hBWE_TD->genSHBsynth_Hilbert_Mem_fx + HILBERT_ORDER1, hBWE_TD->genSHBsynth_Hilbert_Mem_fx + ( HILBERT_ORDER1 + 2 * HILBERT_ORDER2 ), + &( hBWE_TD->syn_dm_phase ) ); } ELSE { @@ -4932,25 +4887,91 @@ void GenTransition_fx( /* cross fade of overlap snippet and mirrored HB synth from previous frame */ FOR( i = 0; i < ol_len; i++ ) { - L_tmp = L_mult( window_shb_32k_fx[i], old_hb_synth[L_SHB_TRANSITION_LENGTH - 1 - i] ); - output[i] = mac_r( L_tmp, window_shb_32k_fx[2 * L_SHB_LAHEAD - 1 - i], syn_overlap_32k[i] ); + L_tmp = L_mult( window_shb_32k_fx[i], hBWE_TD->old_tbe_synth_fx[L_SHB_TRANSITION_LENGTH - 1 - i] ); + output_HB[i] = mac_r( L_tmp, window_shb_32k_fx[2 * L_SHB_LAHEAD - 1 - i], syn_overlap_32k[i] ); move16(); } /* fill transition signal with mirrored HB synth from previous frame to fully fill delay alignment buffer gap */ FOR( ; i < length; i++ ) { - output[i] = old_hb_synth[L_SHB_TRANSITION_LENGTH - 1 - i]; + output_HB[i] = hBWE_TD->old_tbe_synth_fx[L_SHB_TRANSITION_LENGTH - 1 - i]; move16(); } - IF( EQ_32( target_fs, 48000 ) ) + IF( EQ_32( output_Fs, 48000 ) ) + { + interpolate_3_over_2_allpass_fx( output_HB, length, output_HB, hBWE_TD->int_3_over_2_tbemem_dec_fx, allpass_poles_3_ov_2 ); + } + ELSE IF( EQ_32( output_Fs, 16000 ) ) + { + Decimate_allpass_steep_fx( output_HB, hBWE_TD->mem_resamp_HB_32k_fx, L_FRAME32k, output_HB ); + } + + return; +} + +/* IVAS 32-bit variant */ +void GenTransition_fx32( + TD_BWE_DEC_HANDLE hBWE_TD, /* i/o: TD BWE data handle */ + Word32 *outputHB_fx, /* o : synthesized HB transitions signal : Q11 */ + const Word32 output_Fs, /* i : output sampling rate : Q0 */ + const Word16 L_frame, /* i : ACELP frame length : Q0 */ + const Word16 prev_Qx ) +{ + Word16 i, length; + + Word32 syn_overlap_32k_fx[2 * SHB_OVERLAP_LEN]; + + /* set targeted length of transition signal */ + length = i_mult( 2, NS2SA_FX2( output_Fs, DELAY_BWE_TOTAL_NS ) ); + + /* upsample overlap snippet */ + Interpolate_allpass_steep_fx32( hBWE_TD->syn_overlap_fx_32, hBWE_TD->genSHBsynth_state_lsyn_filt_shb_local_fx_32, SHB_OVERLAP_LEN, syn_overlap_32k_fx ); + + /* perform spectral flip and downmix with overlap snippet to match HB synth */ + test(); + IF( EQ_16( L_frame, L_FRAME ) ) + { + flip_and_downmix_generic_fx32( syn_overlap_32k_fx, syn_overlap_32k_fx, 2 * SHB_OVERLAP_LEN, hBWE_TD->genSHBsynth_Hilbert_Mem_fx, hBWE_TD->genSHBsynth_Hilbert_Mem_fx + HILBERT_ORDER1, hBWE_TD->genSHBsynth_Hilbert_Mem_fx + ( HILBERT_ORDER1 + 2 * HILBERT_ORDER2 ), &( hBWE_TD->syn_dm_phase ) ); + } + ELSE + { + FOR( i = 0; i < 2 * SHB_OVERLAP_LEN; i++ ) + { + IF( i % 2 == 0 ) + { + syn_overlap_32k_fx[i] = L_negate( syn_overlap_32k_fx[i] ); + } + ELSE + { + syn_overlap_32k_fx[i] = syn_overlap_32k_fx[i]; + } + move32(); + } + } + + /* cross fade of overlap snippet and mirrored HB synth from previous frame */ + FOR( i = 0; i < 2 * L_SHB_LAHEAD; i++ ) { - interpolate_3_over_2_allpass_fx( output, length, output, up_mem, allpass_poles_3_ov_2 ); + outputHB_fx[i] = L_add_sat( Mpy_32_16_1( hBWE_TD->old_tbe_synth_fx_32[L_SHB_TRANSITION_LENGTH - 1 - i], window_shb_32k_fx[i] ), Mpy_32_16_1( syn_overlap_32k_fx[i], window_shb_32k_fx[2 * L_SHB_LAHEAD - 1 - i] ) ); + move32(); + } + + /* fill transition signal with mirrored HB synth from previous frame to fully fill delay alignment buffer gap */ + FOR( ; i < length; i++ ) + { + outputHB_fx[i] = L_shl( hBWE_TD->old_tbe_synth_fx[L_SHB_TRANSITION_LENGTH - 1 - i], sub( Q11, prev_Qx ) ); + move32(); + } + + IF( EQ_32( output_Fs, 48000 ) ) + { + interpolate_3_over_2_allpass_fx32( outputHB_fx, length, outputHB_fx, hBWE_TD->int_3_over_2_tbemem_dec_fx_32 ); } - ELSE IF( EQ_32( target_fs, 16000 ) ) + ELSE IF( EQ_32( output_Fs, 16000 ) ) { - Decimate_allpass_steep_fx( output, mem_resamp_HB_32k, L_FRAME32k, output ); + Decimate_allpass_steep_fx32( outputHB_fx, hBWE_TD->mem_resamp_HB_32k_fx_32, L_FRAME32k, outputHB_fx ); } return; @@ -4958,32 +4979,29 @@ void GenTransition_fx( /*---------------------------------------------------------------------* - * GenTransition_WB_fx() + * GenTransition_WB() * *---------------------------------------------------------------------*/ void GenTransition_WB_fx( - const Word16 *input, /* i : gain shape overlap buffer */ - const Word16 *old_hb_synth, /* i : synthesized HB from previous frame */ - const Word16 prev_Qx, /* i : scaling of old_hb_synth */ - Word16 length, /* i : targeted length of transition signal */ - Word16 *output, /* o : synthesized transitions signal */ - Word16 state_lsyn_filt_shb1[], - Word16 state_lsyn_filt_shb2[], - Word32 output_Fs, - Word16 *up_mem ) + TD_BWE_DEC_HANDLE hBWE_TD, /* i/o: TD BWE data handle */ + Word16 *output, /* o : synthesized transitions signal */ + const Word32 output_Fs /* i : output sampling rate */ +) { - Word16 i; + Word16 i, length; Word32 L_tmp; Word16 speech_buf_16k1[L_FRAME16k], speech_buf_16k2[L_FRAME16k]; Word16 upsampled_synth[L_FRAME48k]; Word16 input_scaled[SHB_OVERLAP_LEN / 2]; - /* upsample overlap snippet */ - Copy_Scale_sig( input, input_scaled, SHB_OVERLAP_LEN / 2, prev_Qx ); - Interpolate_allpass_steep_fx( input_scaled, state_lsyn_filt_shb1, SHB_OVERLAP_LEN / 2, speech_buf_16k1 ); - Interpolate_allpass_steep_fx( speech_buf_16k1, state_lsyn_filt_shb2, SHB_OVERLAP_LEN, speech_buf_16k2 ); + /* set targeted length of transition signal */ + length = shl( NS2SA_FX2( output_Fs, DELAY_BWE_TOTAL_NS ), 1 ); + /* upsample overlap snippet */ + Copy_Scale_sig( hBWE_TD->syn_overlap_fx, input_scaled, SHB_OVERLAP_LEN / 2, hBWE_TD->prev_Qx ); + Interpolate_allpass_steep_fx( input_scaled, hBWE_TD->state_lsyn_filt_shb_fx, SHB_OVERLAP_LEN / 2, speech_buf_16k1 ); + Interpolate_allpass_steep_fx( speech_buf_16k1, hBWE_TD->state_lsyn_filt_dwn_shb_fx, SHB_OVERLAP_LEN, speech_buf_16k2 ); /* perform spectral flip and downmix with overlap snippet to match HB synth */ FOR( i = 0; i < SHB_OVERLAP_LEN; i += 2 ) @@ -4995,7 +5013,7 @@ void GenTransition_WB_fx( /* cross fade of overlap snippet and mirrored HB synth from previous frame */ FOR( i = 0; i < L_SHB_LAHEAD; i++ ) { - L_tmp = L_mult( window_shb_fx[i], old_hb_synth[L_SHB_TRANSITION_LENGTH - 1 - i] ); + L_tmp = L_mult( window_shb_fx[i], hBWE_TD->old_tbe_synth_fx[L_SHB_TRANSITION_LENGTH - 1 - i] ); output[i] = mac_r( L_tmp, window_shb_fx[L_SHB_LAHEAD - 1 - i], speech_buf_16k2[i] ); move16(); output[i] = mult_r( output[i], 21299 ); @@ -5005,105 +5023,116 @@ void GenTransition_WB_fx( /* fill transition signal with mirrored HB synth from previous frame to fully fill delay alignment buffer gap */ FOR( ; i < length; i++ ) { - output[i] = mult_r( old_hb_synth[L_SHB_TRANSITION_LENGTH - 1 - i], 21299 ); + output[i] = mult_r( hBWE_TD->old_tbe_synth_fx[L_SHB_TRANSITION_LENGTH - 1 - i], 21299 ); move16(); } /* upsampling if necessary */ IF( EQ_32( output_Fs, 32000 ) ) { - Interpolate_allpass_steep_fx( output, up_mem, L_FRAME16k, upsampled_synth ); + Interpolate_allpass_steep_fx( output, hBWE_TD->mem_resamp_HB_fx, L_FRAME16k, upsampled_synth ); Copy( upsampled_synth, output, L_FRAME32k ); } ELSE IF( EQ_32( output_Fs, 48000 ) ) { - interpolate_3_over_1_allpass_fx( output, L_FRAME16k, upsampled_synth, up_mem ); + interpolate_3_over_1_allpass_fx( output, L_FRAME16k, upsampled_synth, hBWE_TD->mem_resamp_HB_fx ); Copy( upsampled_synth, output, L_FRAME48k ); } return; } -/*---------------------------------------------------------------------* - * TBEreset_dec_fx() - * - *---------------------------------------------------------------------*/ -void TBEreset_dec_fx( - Decoder_State *st_fx, /* i/o: decoder state structure */ - Word16 bandwidth /* i : bandwidth mode */ +/* IVAS 32-bit variant */ +void GenTransition_WB_fx32( + TD_BWE_DEC_HANDLE hBWE_TD, /* i/o: TD BWE data handle */ + Word32 *outputHB_fx, /* o : synthesized HB transitions signal : Q11 */ + const Word32 output_Fs /* i : output sampling rate */ ) { - TD_BWE_DEC_HANDLE hBWE_TD; - hBWE_TD = st_fx->hBWE_TD; + Word16 i, length; + Word32 speech_buf_16k1_fx[SHB_OVERLAP_LEN], speech_buf_16k2_fx[2 * SHB_OVERLAP_LEN]; + Word32 upsampled_synth_fx[L_FRAME48k]; - IF( NE_16( st_fx->last_core, ACELP_CORE ) ) + /* set targeted length of transition signal */ + length = i_mult( 2, NS2SA_FX2( output_Fs, DELAY_BWE_TOTAL_NS ) ); + + /* upsample overlap snippet */ + Interpolate_allpass_steep_fx32( hBWE_TD->syn_overlap_fx_32, hBWE_TD->state_lsyn_filt_shb_fx_32, SHB_OVERLAP_LEN / 2, speech_buf_16k1_fx ); + Interpolate_allpass_steep_fx32( speech_buf_16k1_fx, hBWE_TD->state_lsyn_filt_dwn_shb_fx_32, SHB_OVERLAP_LEN, speech_buf_16k2_fx ); + + /* perform spectral flip and downmix with overlap snippet to match HB synth */ + FOR( i = 0; i < SHB_OVERLAP_LEN; i++ ) { - set16_fx( hBWE_TD->old_bwe_exc_fx, 0, PIT16k_MAX * 2 ); - hBWE_TD->bwe_non_lin_prev_scale_fx = L_deposit_l( 0 ); + IF( i % 2 == 0 ) + { + speech_buf_16k2_fx[i] = L_negate( speech_buf_16k2_fx[i] ); + move32(); + } + ELSE + { + speech_buf_16k2_fx[i] = speech_buf_16k2_fx[i]; + move32(); + } + } + + /* cross fade of overlap snippet and mirrored HB synth from previous frame */ + FOR( i = 0; i < L_SHB_LAHEAD; i++ ) + { + outputHB_fx[i] = L_add( Mpy_32_16_1( hBWE_TD->old_tbe_synth_fx_32[L_SHB_TRANSITION_LENGTH - 1 - i], window_shb_fx[i] ), Mpy_32_16_1( speech_buf_16k2_fx[i], window_shb_fx[L_SHB_LAHEAD - 1 - i] ) ); + move32(); + outputHB_fx[i] = Mpy_32_16_1( outputHB_fx[i], 21299 ); move32(); - st_fx->prev_Q_bwe_exc = 31; - move16(); } - test(); - IF( EQ_16( bandwidth, WB ) ) + /* fill transition signal with mirrored HB synth from previous frame to fully fill delay alignment buffer gap */ + FOR( ; i < length; i++ ) { - wb_tbe_extras_reset_fx( hBWE_TD->mem_genSHBexc_filt_down_wb2_fx, hBWE_TD->mem_genSHBexc_filt_down_wb3_fx ); - wb_tbe_extras_reset_synth_fx( hBWE_TD->state_lsyn_filt_shb_fx, hBWE_TD->state_lsyn_filt_dwn_shb_fx, hBWE_TD->state_32and48k_WB_upsample_fx, hBWE_TD->mem_resamp_HB_fx ); + outputHB_fx[i] = hBWE_TD->old_tbe_synth_fx_32[L_SHB_TRANSITION_LENGTH - 1 - i]; + move32(); + outputHB_fx[i] = Mpy_32_16_1( outputHB_fx[i], 21299 ); + move32(); + } - set16_fx( hBWE_TD->mem_genSHBexc_filt_down_shb_fx, 0, 7 ); - set16_fx( hBWE_TD->state_lpc_syn_fx, 0, 10 ); - set16_fx( hBWE_TD->state_syn_shbexc_fx, 0, L_SHB_LAHEAD / 4 ); - set16_fx( hBWE_TD->syn_overlap_fx, 0, L_SHB_LAHEAD ); - set32_fx( hBWE_TD->mem_csfilt_fx, 0, 2 ); + /* upsampling if necessary */ + IF( EQ_32( output_Fs, 32000 ) ) + { + Interpolate_allpass_steep_fx32( outputHB_fx, hBWE_TD->mem_resamp_HB_fx_32, L_FRAME16k, upsampled_synth_fx ); + Copy32( upsampled_synth_fx, outputHB_fx, L_FRAME32k ); } - ELSE IF( EQ_16( bandwidth, SWB ) || EQ_16( bandwidth, FB ) ) + ELSE IF( EQ_32( output_Fs, 48000 ) ) { - swb_tbe_reset_fx( hBWE_TD->mem_csfilt_fx, hBWE_TD->mem_genSHBexc_filt_down_shb_fx, hBWE_TD->state_lpc_syn_fx, - hBWE_TD->syn_overlap_fx, hBWE_TD->state_syn_shbexc_fx, &( hBWE_TD->tbe_demph_fx ), - &( hBWE_TD->tbe_premph_fx ), hBWE_TD->mem_stp_swb_fx, &( hBWE_TD->gain_prec_swb_fx ) ); - - swb_tbe_reset_synth_fx( hBWE_TD->genSHBsynth_Hilbert_Mem_fx, hBWE_TD->genSHBsynth_state_lsyn_filt_shb_local_fx ); - - set16_fx( st_fx->GainShape_Delay, 0, NUM_SHB_SUBFR / 2 ); - set16_fx( hBWE_TD->int_3_over_2_tbemem_dec_fx, 0, INTERP_3_2_MEM_LEN ); - set32_fx( hBWE_TD->int_3_over_2_tbemem_dec_fx_32, 0, INTERP_3_2_MEM_LEN ); - set16_fx( hBWE_TD->mem_resamp_HB_32k_fx, 0, 2 * ALLPASSSECTIONS_STEEP + 1 ); - set32_fx( hBWE_TD->mem_resamp_HB_32k_fx_32, 0, 2 * ALLPASSSECTIONS_STEEP + 1 ); - - IF( EQ_16( bandwidth, FB ) ) - { - st_fx->prev_fb_ener_adjust_fx = 0; - move16(); - set16_fx( hBWE_TD->fb_state_lpc_syn_fx, 0, LPC_SHB_ORDER ); - hBWE_TD->fb_tbe_demph_fx = 0; - move16(); - fb_tbe_reset_synth_fx( hBWE_TD->fbbwe_hpf_mem_fx, hBWE_TD->fbbwe_hpf_mem_fx_Q, &hBWE_TD->prev_fbbwe_ratio_fx ); - } + interpolate_3_over_1_allpass_fx32( outputHB_fx, L_FRAME16k, upsampled_synth_fx, hBWE_TD->mem_resamp_HB_fx_32 ); + Copy32( upsampled_synth_fx, outputHB_fx, L_FRAME48k ); } return; } -void TBEreset_dec_ivas_fx( - Decoder_State *st /* i/o: decoder state structure */ + +/*---------------------------------------------------------------------* + * TBEreset_dec() + * + *---------------------------------------------------------------------*/ + +void TBEreset_dec_fx( + Decoder_State *st_fx /* i/o: decoder state structure */ ) { TD_BWE_DEC_HANDLE hBWE_TD; + hBWE_TD = st_fx->hBWE_TD; - hBWE_TD = st->hBWE_TD; - - IF( st->last_core != ACELP_CORE ) + IF( NE_16( st_fx->last_core, ACELP_CORE ) ) { set16_fx( hBWE_TD->old_bwe_exc_fx, 0, PIT16k_MAX * 2 ); hBWE_TD->bwe_non_lin_prev_scale_fx = L_deposit_l( 0 ); move32(); - st->prev_Q_bwe_exc = 31; + st_fx->prev_Q_bwe_exc = 31; move16(); } + test(); - IF( EQ_16( st->bwidth, WB ) ) + IF( EQ_16( st_fx->bwidth, WB ) ) { wb_tbe_extras_reset_fx( hBWE_TD->mem_genSHBexc_filt_down_wb2_fx, hBWE_TD->mem_genSHBexc_filt_down_wb3_fx ); wb_tbe_extras_reset_synth_fx( hBWE_TD->state_lsyn_filt_shb_fx, hBWE_TD->state_lsyn_filt_dwn_shb_fx, hBWE_TD->state_32and48k_WB_upsample_fx, hBWE_TD->mem_resamp_HB_fx ); @@ -5115,11 +5144,15 @@ void TBEreset_dec_ivas_fx( set32_fx( hBWE_TD->syn_overlap_fx_32, 0, L_SHB_LAHEAD ); set32_fx( hBWE_TD->mem_csfilt_fx, 0, 2 ); } - ELSE IF( EQ_16( st->bwidth, SWB ) || EQ_16( st->bwidth, FB ) ) + ELSE IF( EQ_16( st_fx->bwidth, SWB ) || EQ_16( st_fx->bwidth, FB ) ) { - swb_tbe_reset_fx( hBWE_TD->mem_csfilt_fx, hBWE_TD->mem_genSHBexc_filt_down_shb_fx, hBWE_TD->state_lpc_syn_fx, hBWE_TD->syn_overlap_fx, hBWE_TD->state_syn_shbexc_fx, &( hBWE_TD->tbe_demph_fx ), &( hBWE_TD->tbe_premph_fx ), hBWE_TD->mem_stp_swb_fx, &( hBWE_TD->gain_prec_swb_fx ) ); + swb_tbe_reset_fx( hBWE_TD->mem_csfilt_fx, hBWE_TD->mem_genSHBexc_filt_down_shb_fx, hBWE_TD->state_lpc_syn_fx, + hBWE_TD->syn_overlap_fx, hBWE_TD->state_syn_shbexc_fx, &( hBWE_TD->tbe_demph_fx ), + &( hBWE_TD->tbe_premph_fx ), hBWE_TD->mem_stp_swb_fx, &( hBWE_TD->gain_prec_swb_fx ) ); - set16_fx( st->GainShape_Delay, 0, NUM_SHB_SUBFR / 2 ); + swb_tbe_reset_synth_fx( hBWE_TD->genSHBsynth_Hilbert_Mem_fx, hBWE_TD->genSHBsynth_state_lsyn_filt_shb_local_fx, hBWE_TD->genSHBsynth_state_lsyn_filt_shb_local_fx_32 ); + + set16_fx( hBWE_TD->GainShape_Delay_fx, 0, NUM_SHB_SUBFR / 2 ); set16_fx( hBWE_TD->int_3_over_2_tbemem_dec_fx, 0, INTERP_3_2_MEM_LEN ); set32_fx( hBWE_TD->int_3_over_2_tbemem_dec_fx_32, 0, INTERP_3_2_MEM_LEN ); set16_fx( hBWE_TD->mem_resamp_HB_32k_fx, 0, 2 * ALLPASSSECTIONS_STEEP + 1 ); @@ -5128,15 +5161,12 @@ void TBEreset_dec_ivas_fx( move32(); hBWE_TD->prev_mix_factor_fx = 32767; /* Q15 1.f */ move16(); - // swb_tbe_reset_synth_fx( hBWE_TD->genSHBsynth_Hilbert_Mem_fx, hBWE_TD->genSHBsynth_state_lsyn_filt_shb_local_fx ); - swb_tbe_reset_synth_ivas_fx( hBWE_TD->genSHBsynth_Hilbert_Mem_fx, hBWE_TD->genSHBsynth_state_lsyn_filt_shb_local_fx, hBWE_TD->genSHBsynth_state_lsyn_filt_shb_local_fx_32 ); - - IF( EQ_16( st->bwidth, FB ) ) + IF( EQ_16( st_fx->bwidth, FB ) ) { - if ( st->hBWE_FD != NULL ) + if ( st_fx->hBWE_FD != NULL ) { - st->prev_fb_ener_adjust_fx = 0; + st_fx->hBWE_FD->prev_fb_ener_adjust_fx = 0; move16(); } set16_fx( hBWE_TD->fb_state_lpc_syn_fx, 0, LPC_SHB_ORDER ); @@ -5149,25 +5179,27 @@ void TBEreset_dec_ivas_fx( return; } + /*-------------------------------------------------------------------* * td_bwe_dec_init() * * Initialize TD BWE state structure at the decoder *-------------------------------------------------------------------*/ -void td_bwe_dec_init_ivas_fx( - Decoder_State *st_fx, /* i/o: SHB decoder structure */ +void td_bwe_dec_init_fx( TD_BWE_DEC_HANDLE hBWE_TD, /* i/o: TD BWE data handle */ + const Word16 extl, /* i : BWE extension layer */ const Word32 output_Fs /* i : output sampling rate */ ) { Word16 i; /* init. SHB buffers */; - InitSWBdecBuffer_ivas_fx( st_fx ); + InitSWBdecBuffer_fx( hBWE_TD ); /* reset SHB buffers */ - ResetSHBbuffer_Dec_fx( st_fx ); + ResetSHBbuffer_Dec_fx( hBWE_TD, extl ); + IF( EQ_32( output_Fs, 48000 ) ) { set32_fx( hBWE_TD->fbbwe_hpf_mem_fx[0], 0, 4 ); @@ -5184,12 +5216,13 @@ void td_bwe_dec_init_ivas_fx( hBWE_TD->tilt_mem_fx = 0; move16(); - set16_fx( hBWE_TD->prev_lsf_diff_fx, 16384, LPC_SHB_ORDER - 2 ); + set16_fx( hBWE_TD->prev_lsf_diff_fx, 16384 /*0.5f in Q15*/, LPC_SHB_ORDER - 2 ); hBWE_TD->prev_tilt_para_fx = 0; move16(); set16_fx( hBWE_TD->cur_sub_Aq_fx, 0, M + 1 ); set16_fx( hBWE_TD->int_3_over_2_tbemem_dec_fx, 0, INTERP_3_2_MEM_LEN ); set32_fx( hBWE_TD->int_3_over_2_tbemem_dec_fx_32, 0, INTERP_3_2_MEM_LEN ); + /* TD BWE post-processing */ hBWE_TD->ptr_mem_stp_swb_fx = hBWE_TD->mem_stp_swb_fx + LPC_SHB_ORDER - 1; set16_fx( hBWE_TD->mem_zero_swb_fx, 0, LPC_SHB_ORDER ); @@ -5212,7 +5245,7 @@ void td_bwe_dec_init_ivas_fx( move16(); hBWE_TD->prev_GainShape_fx = 0; move16(); - st_fx->prev_Q_bwe_exc_fb = 51; + hBWE_TD->prev_Q_bwe_exc_fb = 51; move16(); set16_fx( hBWE_TD->fb_state_lpc_syn_fx, 0, LPC_SHB_ORDER ); hBWE_TD->fb_tbe_demph_fx = 0; @@ -5223,80 +5256,1879 @@ void td_bwe_dec_init_ivas_fx( hBWE_TD->prev_ener_fx = L_deposit_l( 0 ); move32(); + set16_fx( hBWE_TD->prev_lpc_wb_fx, 0, LPC_SHB_ORDER_WB ); + return; } +/*-------------------------------------------------------------------* + * ResetSHBbuffer_Dec() + * + * + *-------------------------------------------------------------------*/ -void td_bwe_dec_init_fx( - Decoder_State *st_fx, /* i/o: SHB decoder structure */ - TD_BWE_DEC_HANDLE hBWE_TD, /* i/o: TD BWE data handle */ -#ifdef ADD_IVAS_BWE - const Word16 extl, /* i : BWE extension layer */ -#endif - const Word32 output_Fs /* i : output sampling rate */ +static void calc_tilt_bwe_fx_loc( + const Word32 *sp_fx, /* i : input signal : Q11 */ + Word32 *tilt_fx, /* o : signal tilt : tilt_fx_q */ + Word16 *tilt_fx_q, /* o : signal tilt */ + const Word16 N /* i : signal length : Q0 */ ) { Word16 i; + Word64 r0_fx, r1_fx; - /* init. SHB buffers */; - InitSWBdecBuffer_fx( st_fx ); - - /* reset SHB buffers */ - ResetSHBbuffer_Dec_fx( st_fx ); - IF( EQ_32( output_Fs, 48000 ) ) + r0_fx = EPSILON_FX_SMALL; + move64(); + FOR( i = 0; i < N; i++ ) { - set32_fx( hBWE_TD->fbbwe_hpf_mem_fx[0], 0, 4 ); - set32_fx( hBWE_TD->fbbwe_hpf_mem_fx[1], 0, 4 ); - set32_fx( hBWE_TD->fbbwe_hpf_mem_fx[2], 0, 4 ); - set32_fx( hBWE_TD->fbbwe_hpf_mem_fx[3], 0, 4 ); - set16_fx( hBWE_TD->fbbwe_hpf_mem_fx_Q, 0, 4 ); + r0_fx = W_add( r0_fx, W_shr( W_mult_32_32( sp_fx[i], sp_fx[i] ), 1 ) ); /*Q11*2 - 1*/ + } + r1_fx = W_deposit32_l( abs( L_sub( sp_fx[1], sp_fx[0] ) ) ); /*Q11*/ + FOR( i = 2; i < N; i++ ) + { + IF( W_mult_32_32( L_sub( sp_fx[i], sp_fx[i - 1] ) /*Q11*/, L_sub( sp_fx[i - 1], sp_fx[i - 2] ) /*Q11*/ ) /*Q11 * 2 - 1*/ < 0 ) + { + r1_fx = W_add( r1_fx, W_deposit32_l( abs( L_sub( sp_fx[i], sp_fx[i - 1] ) ) ) ); /*Q11*/ + } + } + Word16 headroom_left_r0 = W_norm( r0_fx ); + Word16 headroom_left_r1 = W_norm( r1_fx ); + Word16 r0_q = 0, r1_q = 0; + move16(); + move16(); + IF( LT_16( headroom_left_r0, 32 ) ) + { + r0_fx = W_shr( r0_fx, sub( 32, headroom_left_r0 ) ); + r0_q = sub( 31, sub( ( 2 * OUTPUT_Q ), sub( 32, headroom_left_r0 ) ) ); + } + ELSE + { + r0_q = 31 - ( 2 * OUTPUT_Q ); + move16(); } - set16_fx( hBWE_TD->mem_resamp_HB_fx, 0, INTERP_3_1_MEM_LEN ); + IF( LT_16( headroom_left_r1, 32 ) ) + { + r1_fx = W_shr( r1_fx, sub( 32, headroom_left_r1 ) ); + r1_q = sub( OUTPUT_Q, sub( 32, headroom_left_r1 ) ); + } + ELSE + { + r1_q = OUTPUT_Q; + move16(); + } + Word32 temp_r0_inv = ISqrt32( W_extract_l( r0_fx ), &r0_q ); + Word32 res = Mpy_32_32( W_extract_l( r1_fx ), temp_r0_inv ); + // Word16 res_q = r1_q + ( r0_q < 0 ? ( 31 + ( -1 * r0_q ) ) : r0_q ) - 31; + Word16 res_q; + IF( r0_q < 0 ) + { + res_q = add( r1_q, sub( add( 31, -r0_q ), 31 ) ); + } + ELSE + { + res_q = add( r1_q, sub( r0_q, 31 ) ); + } + Word16 norm_res = norm_l( res ); + IF( norm_res > 0 ) + { + *tilt_fx = L_shl_sat( res, norm_res ); + move32(); + *tilt_fx_q = add( res_q, norm_res ); + move16(); + } + ELSE + { + *tilt_fx = res; + move32(); + *tilt_fx_q = res_q; + move16(); + } + return; +} - set16_fx( hBWE_TD->mem_resamp_HB_32k_fx, 0, 2 * ALLPASSSECTIONS_STEEP + 1 ); - set32_fx( hBWE_TD->mem_resamp_HB_32k_fx_32, 0, 2 * ALLPASSSECTIONS_STEEP + 1 ); +/*-------------------------------------------------------------------* + * swb_tbe_dec() + * + * SWB TBE decoder, 6 - 14 kHz (or 7.5 - 15.5 kHz) band decoding module + *-------------------------------------------------------------------*/ +static void rescale_genSHB_mem_dec_ivas( + Decoder_State *st_fx, + Word16 sf /*Q0*/ +) +{ + Word16 i; + TD_BWE_DEC_HANDLE hBWE_TD; + hBWE_TD = st_fx->hBWE_TD; - hBWE_TD->tilt_mem_fx = 0; - move16(); - set16_fx( hBWE_TD->prev_lsf_diff_fx, 16384 /*0.5f in Q15*/, LPC_SHB_ORDER - 2 ); - hBWE_TD->prev_tilt_para_fx = 0; - move16(); - set16_fx( hBWE_TD->cur_sub_Aq_fx, 0, M + 1 ); - set16_fx( hBWE_TD->int_3_over_2_tbemem_dec_fx, 0, INTERP_3_2_MEM_LEN ); - set32_fx( hBWE_TD->int_3_over_2_tbemem_dec_fx_32, 0, INTERP_3_2_MEM_LEN ); - /* TD BWE post-processing */ - hBWE_TD->ptr_mem_stp_swb_fx = hBWE_TD->mem_stp_swb_fx + LPC_SHB_ORDER - 1; - set16_fx( hBWE_TD->mem_zero_swb_fx, 0, LPC_SHB_ORDER ); + FOR( i = 0; i < NL_BUFF_OFFSET; i++ ) + { + hBWE_TD->old_bwe_exc_extended_fx[i] = shl( hBWE_TD->old_bwe_exc_extended_fx[i], sf ); + move16(); + } - FOR( i = 0; i < LPC_SHB_ORDER; i++ ) + FOR( i = 0; i < 7; i++ ) { - hBWE_TD->swb_lsp_prev_interp_fx[i] = swb_lsp_prev_interp_init[i]; + hBWE_TD->mem_genSHBexc_filt_down_shb_fx[i] = shl( hBWE_TD->mem_genSHBexc_filt_down_shb_fx[i], sf ); move16(); } - hBWE_TD->prev1_shb_ener_sf_fx = 32767; /* Q15*/ - move16(); - hBWE_TD->prev2_shb_ener_sf_fx = 32767; /* Q15*/ - move16(); - hBWE_TD->prev3_shb_ener_sf_fx = 32767; /* Q15*/ + /* -- Apply memory scaling for 13.2 and 16.4k bps using sf ----*/ + IF( LT_32( st_fx->total_brate, ACELP_24k40 ) ) + { + FOR( i = 0; i < LPC_SHB_ORDER; i++ ) + { + hBWE_TD->state_lpc_syn_fx[i] = shl_sat( hBWE_TD->state_lpc_syn_fx[i], sf ); + move16(); + } + + FOR( i = 0; i < L_SHB_LAHEAD; i++ ) + { + hBWE_TD->state_syn_shbexc_fx[i] = shl_sat( hBWE_TD->state_syn_shbexc_fx[i], sf ); + move16(); + } + } + + hBWE_TD->mem_csfilt_fx[0] = L_shl( hBWE_TD->mem_csfilt_fx[0], sf ); + move32(); + + hBWE_TD->tbe_demph_fx = shl_r( hBWE_TD->tbe_demph_fx, sf ); move16(); - hBWE_TD->prev_res_shb_gshape_fx = 8192; /* 0.125 in Q14*/ + hBWE_TD->tbe_premph_fx = shl_r( hBWE_TD->tbe_premph_fx, sf ); move16(); - hBWE_TD->prev_mixFactors_fx = 16384; /* 0.5 in Q15*/ + + return; +} + +static void find_max_mem_dec_m3( + Decoder_State *st, + Word16 *n_mem3 ) +{ + Word16 i; + // Word16 n_mem_32; + Word16 tempQ15; + Word16 max3; + // Word32 tempQ32, Lmax3; + TD_BWE_DEC_HANDLE hBWE_TD; + hBWE_TD = st->hBWE_TD; + + /* --------------------------------------------------------------*/ + /* Find headroom for synthesis stage associated with these memories: + 1. st->syn_overlap_fx*/ + max3 = 0; move16(); - hBWE_TD->prev_GainShape_fx = 0; + /* find max in prev overlapSyn */ + FOR( i = 0; i < L_SHB_LAHEAD; i++ ) + { + tempQ15 = abs_s( hBWE_TD->syn_overlap_fx[i] ); + max3 = s_max( max3, tempQ15 ); + } + /* find max in prev genSHBsynth_state_lsyn_filt_shb_local_fx */ + + /* estimate the norm for 16-bit memories */ + *n_mem3 = norm_s( max3 ); move16(); - st_fx->prev_Q_bwe_exc_fb = 51; + if ( max3 == 0 ) + { + *n_mem3 = 15; + move16(); + } +} + +/*-------------------------------------------------------------------* + * ivas_swb_tbe_dec_fx() + * + * SWB TBE decoder, 6 - 14 kHz (or 7.5 - 15.5 kHz) band decoding module + *-------------------------------------------------------------------*/ +void ivas_swb_tbe_dec_fx( + Decoder_State *st, /* i/o: decoder state structure */ + STEREO_ICBWE_DEC_HANDLE hStereoICBWE, /* i/o: IC-BWE state structure */ + const Word32 *bwe_exc_extended_fx, /* i : bandwidth extended excitation : Q_exc */ + Word16 Q_exc, + const Word16 voice_factors_fx[], /* i : voicing factors : Q15 */ + const Word32 old_syn_12k8_16k_fx[], /* i : low band synthesis : old_syn_fx */ + Word16 *White_exc16k_fx, /* o : shaped white excitation for the FB TBE : Q_white_exc*/ + Word32 *synth_fx, /* o : SHB synthesis/final synthesis : Qx */ + Word16 *pitch_buf_fx, /* i : Q6 */ + Word16 *Q_white_exc ) +{ + Word16 i, j, cnt, n; + Word16 stemp; + TD_BWE_DEC_HANDLE hBWE_TD; + Word32 shaped_shb_excitation_fx_32[L_FRAME16k + L_SHB_LAHEAD]; + Word16 bwe_exc_extended_16[L_FRAME32k + NL_BUFF_OFFSET]; + Word16 shaped_shb_excitation_fx[L_FRAME16k + L_SHB_LAHEAD]; + Word16 lsf_shb_fx[LPC_SHB_ORDER], lpc_shb_fx[LPC_SHB_ORDER + 1], GainShape_fx[NUM_SHB_SUBFR]; // Q12,Q12,Q15 + Word32 GainFrame_fx; // Q18 + Word32 error_fx[L_FRAME32k]; + Word16 ener_fx; + Word32 L_ener; + Word16 is_fractive; + Word32 prev_pow_fx, curr_pow_fx, Lscale; + Word16 scale_fx; + Word16 max_val, temp_fx, shaped_shb_excitation_frac[L_FRAME16k + L_SHB_LAHEAD]; + Word32 curr_frame_pow_fx; + Word16 curr_frame_pow_exp; + Word32 L_prev_ener_shb; + Word16 vf_modified_fx[NB_SUBFR16k]; + Word16 f_fx, inc_fx; + Word32 GainFrame_prevfrm_fx; + Word32 tilt_swb_fec_32_fx; + Word16 tilt_swb_fec_fx_q; + Word16 tilt_swb_fec_fx; + Word32 prev_ener_ratio_fx = 0; /* initialize just to avoid compiler warning */ + Word16 lsp_shb_1_fx[LPC_SHB_ORDER], lsp_shb_2_fx[LPC_SHB_ORDER], lsp_temp_fx[LPC_SHB_ORDER]; + Word16 lpc_shb_sf_fx[4 * ( LPC_SHB_ORDER + 1 )]; + const Word16 *ptr_lsp_interp_coef_fx; + Word32 shb_ener_sf_32; + Word16 shb_res_gshape_fx[NB_SUBFR16k]; + Word16 mixFactors_fx; + Word16 vind; + Word16 shb_res_dummy_fx[L_FRAME16k]; + Word16 shaped_shb_excitationTemp_fx[L_FRAME16k]; + Word32 ener_tmp_fx[NUM_SHB_SUBGAINS]; + Word16 GainShape_tmp_fx[NUM_SHB_SUBGAINS]; + Word16 pitch_fx; + Word16 l_subframe; + Word16 formant_fac_fx; + Word16 synth_scale_fx; + Word16 lsf_diff_fx[LPC_SHB_ORDER], w_fx[LPC_SHB_ORDER]; + Word16 refl_fx[M]; + Word16 tilt_para_fx; + Word16 *nlExc16k_fx, *mixExc16k_fx; + Word16 MSFlag; + Word16 feedback_fx; + Word16 GainShape_tilt_fx; + + // scaling + Word16 exp, tmp; + Word16 tmp1, tmp2; + Word16 mean_vf; + Word32 Lmax, L_tmp; + Word16 frac; + Word32 L_tmp1, L_tmp2; + Word16 Q_bwe_exc; + Word16 Q_bwe_exc_fb; + Word16 Q_shb; + Word16 n_mem, n_mem2, n_mem3, Qx, sc; + Word16 expa, expb; + Word16 fraca, fracb; + Word16 exp_ener, inv_ener; + + hBWE_TD = st->hBWE_TD; + + /* initializations */ + GainFrame_fx = 0; + move32(); + mixFactors_fx = 0; move16(); - set16_fx( hBWE_TD->fb_state_lpc_syn_fx, 0, LPC_SHB_ORDER ); - hBWE_TD->fb_tbe_demph_fx = 0; + shb_ener_sf_32 = 0; + move32(); + set16_fx( shaped_shb_excitationTemp_fx, 0, L_FRAME16k ); + if ( st->hTdCngDec != NULL ) + { + st->hTdCngDec->shb_dtx_count_fx = 0; + move16(); + } + is_fractive = 0; move16(); - set16_fx( hBWE_TD->old_hb_synth_fx, 0, L_FRAME48k ); + IF( hStereoICBWE != NULL ) + { + nlExc16k_fx = hStereoICBWE->nlExc16k_fx; + mixExc16k_fx = hStereoICBWE->mixExc16k_fx; + MSFlag = hStereoICBWE->MSFlag; + move16(); + } + ELSE + { + nlExc16k_fx = NULL; + mixExc16k_fx = NULL; + MSFlag = 0; + move16(); + } - hBWE_TD->prev_ener_fx = L_deposit_l( 0 ); - move32(); + /* find tilt */ + calc_tilt_bwe_fx_loc( old_syn_12k8_16k_fx, &tilt_swb_fec_32_fx, &tilt_swb_fec_fx_q, L_FRAME ); + tilt_swb_fec_fx = round_fx_sat( L_shl_sat( tilt_swb_fec_32_fx, sub( 11 + 16, tilt_swb_fec_fx_q ) ) ); + test(); + if ( st->bfi && st->clas_dec != UNVOICED_CLAS ) + { + tilt_swb_fec_fx = hBWE_TD->tilt_swb_fec_fx; + move16(); + } + + /* WB/SWB bandwidth switching */ + test(); + test(); + IF( ( GT_16( st->tilt_wb_fx, 10240 /*5 in Q11*/ ) && ( EQ_16( st->clas_dec, UNVOICED_CLAS ) ) ) || GT_16( st->tilt_wb_fx, 20480 /*10 in Q11*/ ) ) + { + test(); + test(); + test(); + test(); + test(); + test(); + test(); + test(); + IF( ( ( st->prev_fractive == 0 ) && + ( LT_32( st->prev_enerLH_fx, L_shl( st->enerLH_fx, 1 ) ) && GT_32( st->prev_enerLH_fx, L_shr( st->enerLH_fx, 1 ) ) && LT_32( st->prev_enerLL_fx, L_shl( st->enerLL_fx, 1 ) ) && GT_32( st->prev_enerLL_fx, L_shr( st->enerLL_fx, 1 ) ) ) ) || + ( EQ_16( st->prev_fractive, 1 ) && + GT_32( L_shr( st->prev_enerLH_fx, 2 ), Mult_32_16( st->enerLH_fx, 24576 ) ) ) /* 24576 in Q13*/ + || ( GT_32( L_shr( st->enerLL_fx, 1 ), Mult_32_16( st->enerLH_fx, 24576 ) ) && /*24576 = 1.5 in Q14*/ + LT_16( st->tilt_wb_fx, 20480 ) ) /* 20480 = 10 in Q11*/ + ) + { + is_fractive = 0; + } + ELSE + { + is_fractive = 1; + } + move16(); + } + + /* WB/SWB bandwidth switching */ + IF( st->bws_cnt > 0 ) + { + f_fx = 1489; /*1.0f / 22.0f in Q15*/ + move16(); + inc_fx = 1489; /*1.0f / 22.0f in Q15*/ + move16(); + + IF( EQ_16( is_fractive, 1 ) ) + { + Copy( lsf_tab_fx, hBWE_TD->lsp_prevfrm_fx, LPC_SHB_ORDER ); + } + ELSE + { + FOR( i = 0; i < LPC_SHB_ORDER; i++ ) + { + hBWE_TD->lsp_prevfrm_fx[i] = f_fx; /*Q15*/ + move16(); + f_fx = add( f_fx, inc_fx ); /*Q15*/ + } + } + test(); + test(); + test(); + test(); + test(); + test(); + test(); + IF( ( NE_16( st->last_extl, SWB_TBE ) && NE_16( st->last_extl, FB_TBE ) && !( ( L_sub( L_shr( st->prev_enerLH_fx, 1 ), st->enerLH_fx ) < 0 ) && L_sub( st->prev_enerLH_fx, ( L_shr( st->enerLH_fx, 1 ) > 0 ) ) ) ) || st->last_core != ACELP_CORE || ( ( st->last_core == ACELP_CORE ) && GT_32( abs( L_sub( st->last_core_brate, st->core_brate ) ), 3600 ) ) || EQ_16( s_xor( is_fractive, st->prev_fractive ), 1 ) ) + { + set16_fx( GainShape_fx, 11587, NUM_SHB_SUBFR ); /*0.3536f in Q15*/ + } + ELSE + { + if ( GT_16( hBWE_TD->prev_GainShape_fx, 11587 ) ) /*0.3536f in Q15*/ + { + hBWE_TD->prev_GainShape_fx = 11587; /*0.3536f in Q15*/ + move16(); + } + set16_fx( GainShape_fx, hBWE_TD->prev_GainShape_fx, NUM_SHB_SUBFR ); + } + + Copy( hBWE_TD->lsp_prevfrm_fx, lsf_shb_fx, LPC_SHB_ORDER ); + set16_fx( shb_res_gshape_fx, 3277 /*0.2f Q14*/, NB_SUBFR16k ); /* Q14 */ + } + ELSE + { + test(); + IF( NE_16( st->last_extl, SWB_TBE ) && NE_16( st->last_extl, FB_TBE ) ) + { + f_fx = 1489; /*Q15*/ + move16(); + inc_fx = 1489; /*Q15*/ + move16(); + FOR( i = 0; i < LPC_SHB_ORDER; i++ ) + { + hBWE_TD->lsp_prevfrm_fx[i] = f_fx; /*Q15*/ + move16(); + f_fx = add( f_fx, inc_fx ); + } + } + + IF( !st->bfi ) + { + IF( st->use_partial_copy ) + { + IF( NE_16( st->last_extl, SWB_TBE ) ) + { + hBWE_TD->GainFrame_prevfrm_fx = 0; + move32(); + f_fx = 1489 /*0.045454f Q15*/; + move16(); + inc_fx = 1489 /*0.045454f Q15*/; + move16(); + FOR( i = 0; i < LPC_SHB_ORDER; i++ ) + { + hBWE_TD->lsp_prevfrm_fx[i] = f_fx; /*Q15*/ + move16(); + f_fx = add( f_fx, inc_fx ); /*Q15*/ + } + } + Copy( hBWE_TD->lsp_prevfrm_fx, lsf_shb_fx, LPC_SHB_ORDER ); + set16_fx( GainShape_fx, RECIP_ROOT_EIGHT_FX, NUM_SHB_SUBFR ); + + IF( EQ_16( st->rf_frame_type, RF_NELP ) ) + { + /* Frame gain */ + + GainFrame_fx = L_mac( SHB_GAIN_QLOW_FX, st->rf_indx_tbeGainFr, SHB_GAIN_QDELTA_FX ); + L_tmp = Mult_32_16( GainFrame_fx, 27213 ); /*Q16*/ /* 3.321928 in Q13 */ + + frac = L_Extract_lc( L_tmp, &exp ); + L_tmp = Pow2( 30, frac ); + GainFrame_fx = L_shl( L_tmp, sub( exp, 12 ) ); /*Q18*/ + + test(); + test(); + test(); + test(); + test(); + test(); + IF( ( st->core == ACELP_CORE ) && ( st->last_core == ACELP_CORE ) && !st->prev_use_partial_copy && EQ_16( st->prev_coder_type, UNVOICED ) && NE_32( GainFrame_fx, hBWE_TD->GainFrame_prevfrm_fx ) && NE_16( st->next_coder_type, GENERIC ) && EQ_16( st->last_extl, SWB_TBE ) ) + { + GainFrame_fx = L_add( Mult_32_16( hBWE_TD->GainFrame_prevfrm_fx, 26214 /*0.8f in Q15*/ ), Mult_32_16( GainFrame_fx, 6553 /*0.2f in Q15*/ ) ); + } + } + ELSE + { + temp_fx = 0; + move16(); + /* Frame gain */ + SWITCH( st->rf_indx_tbeGainFr ) + { + case 0: + GainFrame_fx = 131072; /* 0.5f in Q18 */ + move32(); + if ( LE_32( hBWE_TD->GainFrame_prevfrm_fx, 327680l /*1.25 Q18*/ ) ) + { + temp_fx = 26214 /*0.8 Q15*/; + move16(); + } + BREAK; + case 1: + GainFrame_fx = 524288; /* 2.0f in Q18 */ + move32(); + test(); + if ( GT_32( hBWE_TD->GainFrame_prevfrm_fx, 327680l /*1.25 Q18*/ ) && LE_32( hBWE_TD->GainFrame_prevfrm_fx, 786432l /*3 Q18*/ ) ) + { + temp_fx = 26214 /*0.8 Q15*/; + move16(); + } + BREAK; + case 2: + GainFrame_fx = 1048576; /* 4.0f in Q18 */ + move32(); + test(); + if ( GT_32( hBWE_TD->GainFrame_prevfrm_fx, 786432l /*3 Q18*/ ) && LE_32( hBWE_TD->GainFrame_prevfrm_fx, 1572864l /*6 Q18*/ ) ) + { + temp_fx = 26214 /*0.8 Q15*/; + move16(); + } + BREAK; + case 3: + GainFrame_fx = 2097152; /* 8.0f in Q18 */ + move32(); + test(); + if ( GT_32( hBWE_TD->GainFrame_prevfrm_fx, 1572864l /*6 Q18*/ ) && LE_32( hBWE_TD->GainFrame_prevfrm_fx, 4194304l /*16Q18*/ ) ) + { + temp_fx = 26214 /*0.8 Q15*/; + move16(); + } + BREAK; + default: + fprintf( stderr, "RF SWB-TBE gain bits not supported." ); + } + + IF( EQ_16( st->last_extl, SWB_TBE ) ) + { + GainFrame_fx = L_add( Mult_32_16( hBWE_TD->GainFrame_prevfrm_fx, temp_fx ), Mult_32_16( GainFrame_fx, sub( 32767, temp_fx ) ) ); + /*Q18*/ + } + + IF( ( st->core == ACELP_CORE ) && ( st->last_core == ACELP_CORE ) ) + { + if ( !st->prev_use_partial_copy && EQ_16( st->last_coder_type, VOICED ) && EQ_16( st->rf_frame_type, RF_GENPRED ) && GT_32( GainFrame_fx, 2097152 /*8.0f in Q18*/ ) && LT_32( GainFrame_fx, 3059606 /*11.67f in Q18*/ ) ) + { + GainFrame_fx = Mult_32_16( GainFrame_fx, 9830 /*0.3f in Q15*/ ); // Q18 + } + } + } + } + ELSE + { + /* de-quantization */ + ivas_dequantizeSHBparams_fx_9_1( st, st->extl, st->extl_brate, lsf_shb_fx, GainShape_fx, &GainFrame_fx, &stemp, + &shb_ener_sf_32, shb_res_gshape_fx, &mixFactors_fx, &MSFlag ); + if ( hStereoICBWE != NULL ) + { + hStereoICBWE->MSFlag = MSFlag; + move16(); + } + } + } + ELSE + { + Copy( hBWE_TD->lsp_prevfrm_fx, lsf_shb_fx, LPC_SHB_ORDER ); + test(); + IF( EQ_16( st->codec_mode, MODE1 ) && ( st->element_mode == EVS_MONO ) ) + { + gradientGainShape( st, GainShape_fx, &GainFrame_fx ); + } + ELSE + { + FOR( i = 0; i < NUM_SHB_SUBFR / 4; i++ ) + { + FOR( j = 0; j < 4; j++ ) + { + GainShape_fx[i * 4 + j] = mult_r( st->cummulative_damping, hBWE_TD->GainShape_Delay_fx[4 + i] ); + move16(); + } + } + IF( GT_16( tilt_swb_fec_fx, ( 8 << 11 ) ) ) /* tilt_swb_fec_fx in Q11 */ + { + IF( EQ_16( st->nbLostCmpt, 1 ) ) + { + GainFrame_fx = Mult_32_16( hBWE_TD->GainFrame_prevfrm_fx, 19661 /*0.6f Q15*/ ); + } + ELSE IF( EQ_16( st->nbLostCmpt, 2 ) ) + { + GainFrame_fx = Mult_32_16( hBWE_TD->GainFrame_prevfrm_fx, 11469 /*0.35f Q15*/ ); + } + ELSE + { + GainFrame_fx = Mult_32_16( hBWE_TD->GainFrame_prevfrm_fx, 6554 /*0.2f Q15*/ ); + } + GainFrame_fx = Mult_32_16( GainFrame_fx, st->cummulative_damping ); + } + ELSE + { + GainFrame_fx = hBWE_TD->GainFrame_prevfrm_fx; + move32(); /* gain locking */ + } + } + + IF( GE_32( st->extl_brate, SWB_TBE_2k8 ) ) + { + test(); + IF( EQ_16( st->codec_mode, MODE1 ) && ( st->element_mode == EVS_MONO ) ) + { + L_tmp = L_mult( extract_l( hBWE_TD->prev2_shb_ener_sf_fx ), extract_l( hBWE_TD->prev3_shb_ener_sf_fx ) ); /*Q1*/ + tmp = round_fx( root_a_fx( L_tmp, 1, &exp ) ); /* Q = 15-exp */ + tmp1 = extract_l( hBWE_TD->prev1_shb_ener_sf_fx ); /*Q0*/ + i = sub( norm_s( tmp1 ), 1 ); + tmp1 = shl( tmp1, i ); /* Qi */ + IF( tmp == 0 ) + { + tmp = 32767 /*1.0f Q15*/; + move16(); /*Q15*/ + } + ELSE + { + scale_fx = div_s( tmp1, tmp ); /* Q15 - Q(15-exp) + Qi = Qexp+i */ + scale_fx = s_max( scale_fx, 0 ); + tmp = shl_sat( scale_fx, sub( sub( 15, exp ), i ) ); /*Q15*/ + } + scale_fx = mult_r( hBWE_TD->prev_res_shb_gshape_fx, tmp ); /* Q14 */ + test(); + IF( GT_32( L_shr( hBWE_TD->prev2_shb_ener_sf_fx, 1 ), hBWE_TD->prev1_shb_ener_sf_fx ) || + GT_32( L_shr( hBWE_TD->prev3_shb_ener_sf_fx, 1 ), hBWE_TD->prev2_shb_ener_sf_fx ) ) + { + shb_ener_sf_32 = Mult_32_16( hBWE_TD->prev1_shb_ener_sf_fx, scale_fx ); + + if ( GT_16( st->nbLostCmpt, 1 ) ) + { + shb_ener_sf_32 = L_shr( shb_ener_sf_32, 1 ); + } + } + ELSE + { + L_tmp = L_mult( scale_fx, scale_fx ); /* Q29 */ + shb_ener_sf_32 = L_shl( Mult_32_16( hBWE_TD->prev1_shb_ener_sf_fx, round_fx( L_tmp ) ), 2 ); + } + } + ELSE + { + test(); + IF( GT_32( L_shr( hBWE_TD->prev2_shb_ener_sf_fx, 1 ), hBWE_TD->prev1_shb_ener_sf_fx ) || + GT_32( L_shr( hBWE_TD->prev3_shb_ener_sf_fx, 1 ), hBWE_TD->prev2_shb_ener_sf_fx ) ) + { + shb_ener_sf_32 = L_shr( Mult_32_16( hBWE_TD->prev1_shb_ener_sf_fx, st->cummulative_damping ), 1 ); + } + ELSE + { + shb_ener_sf_32 = Mult_32_16( hBWE_TD->prev1_shb_ener_sf_fx, st->cummulative_damping ); + } + } + } + + shb_ener_sf_32 = L_max( shb_ener_sf_32, 1l /*1.0f Q0*/ ); + mixFactors_fx = hBWE_TD->prev_mixFactors_fx; + move16(); + + IF( EQ_16( st->codec_mode, MODE1 ) ) + { + set16_fx( shb_res_gshape_fx, 3277 /*0.2f Q14*/, 5 ); /* Q14 */ + } + ELSE + { + set16_fx( shb_res_gshape_fx, 16384 /*1.0f Q14*/, 5 ); /* Q14 */ + } + } + } + + /* get the gainshape delay */ + Copy( &hBWE_TD->GainShape_Delay_fx[4], &hBWE_TD->GainShape_Delay_fx[0], NUM_SHB_SUBFR / 4 ); + FOR( i = 0; i < NUM_SHB_SUBFR / 4; i++ ) + { + hBWE_TD->GainShape_Delay_fx[i + 4] = GainShape_fx[i * 4]; /*Q15*/ + move16(); + } + + L_tmp = L_mult( voice_factors_fx[0], 8192 ); + L_tmp = L_mac( L_tmp, voice_factors_fx[1], 8192 ); + L_tmp = L_mac( L_tmp, voice_factors_fx[2], 8192 ); + mean_vf = mac_r( L_tmp, voice_factors_fx[3], 8192 ); + + Copy( voice_factors_fx, vf_modified_fx, NB_SUBFR16k ); + + test(); + IF( EQ_16( st->coder_type, VOICED ) || GT_16( mean_vf, 13107 /*0.4f Q15*/ ) ) + { + FOR( i = 1; i < NB_SUBFR; i++ ) + { + L_tmp = L_mult( voice_factors_fx[i], 26214 /*0.8f Q15*/ ); + vf_modified_fx[i] = mac_r( L_tmp, voice_factors_fx[i - 1], 6554 /*0.2f Q15*/ ); + move16(); + } + + IF( st->L_frame != L_FRAME ) + { + L_tmp = L_mult( voice_factors_fx[4], 26214 /*0.8f Q15*/ ); + vf_modified_fx[4] = mac_r( L_tmp, voice_factors_fx[3], 6554 /*0.2f Q15*/ ); + move16(); + } + } + + test(); + IF( st->use_partial_copy && st->nelp_mode_dec ) + { + set16_fx( vf_modified_fx, 0, NB_SUBFR16k ); + } + + /* SHB LSF from current frame; and convert to LSP for interpolation */ + E_LPC_lsf_lsp_conversion( lsf_shb_fx, lsp_shb_2_fx, LPC_SHB_ORDER ); + + test(); + IF( EQ_16( st->last_extl, SWB_TBE ) || EQ_16( st->last_extl, FB_TBE ) ) + { + /* SHB LSP values from prev. frame for interpolation */ + Copy( hBWE_TD->swb_lsp_prev_interp_fx, lsp_shb_1_fx, LPC_SHB_ORDER ); + } + ELSE + { + /* Use current frame's LSPs; in effect no interpolation */ + Copy( lsp_shb_2_fx, lsp_shb_1_fx, LPC_SHB_ORDER ); + } + + test(); + test(); + test(); + IF( ( st->bws_cnt == 0 ) && ( st->bws_cnt1 == 0 ) && ( st->prev_use_partial_copy == 0 ) && ( st->use_partial_copy == 0 ) ) + { + lsf_diff_fx[0] = 16384; + move16(); /*Q15*/ + lsf_diff_fx[LPC_SHB_ORDER - 1] = 16384; + move16(); /*Q15*/ + FOR( i = 1; i < LPC_SHB_ORDER - 1; i++ ) + { + lsf_diff_fx[i] = sub( lsf_shb_fx[i], lsf_shb_fx[i - 1] ); + move16(); + } + + a2rc_fx( hBWE_TD->cur_sub_Aq_fx + 1, refl_fx, M ); + tmp = add( 16384, shr( refl_fx[0], 1 ) ); /*Q14*/ + tmp1 = mult( 27425, tmp ); + tmp1 = mult( tmp1, tmp ); /*Q10*/ + tmp2 = shr( mult( 31715, tmp ), 2 ); /*Q10*/ + tilt_para_fx = add( sub( tmp1, tmp2 ), 1335 ); /*Q10*/ + + test(); + IF( NE_16( st->last_extl, SWB_TBE ) && NE_16( st->last_extl, FB_TBE ) ) + { + FOR( i = 1; i < LPC_SHB_ORDER - 1; i++ ) + { + hBWE_TD->prev_lsf_diff_fx[i - 1] = shr( lsf_diff_fx[i], 1 ); + move16(); + } + } + + IF( LE_32( st->extl_brate, FB_TBE_1k8 ) ) + { + test(); + test(); + test(); + test(); + test(); + IF( !( GT_16( hBWE_TD->prev_tilt_para_fx, 5120 ) && ( EQ_16( st->coder_type, TRANSITION ) || LT_16( tilt_para_fx, 1024 ) ) ) && + !( ( ( LT_16( hBWE_TD->prev_tilt_para_fx, 3072 ) && GE_16( st->prev_coder_type, VOICED ) ) ) && GT_16( tilt_para_fx, 5120 ) ) ) + { + FOR( i = 1; i < LPC_SHB_ORDER - 1; i++ ) + { + IF( LT_16( lsf_diff_fx[i], hBWE_TD->prev_lsf_diff_fx[i - 1] ) ) + { + tmp = mult( 26214, lsf_diff_fx[i] ); + + test(); + IF( ( hBWE_TD->prev_lsf_diff_fx[i - 1] <= 0 ) || ( tmp < 0 ) ) /* safety check in case of bit errors */ + { + st->BER_detect = 1; + move16(); + tmp = 0; + move16(); + } + ELSE + { + tmp = div_s( tmp, hBWE_TD->prev_lsf_diff_fx[i - 1] ); + } + + tmp = s_max( tmp, 16384 ); + w_fx[i] = s_min( tmp, 32767 ); + move16(); + } + ELSE + { + tmp = mult( 26214, hBWE_TD->prev_lsf_diff_fx[i - 1] ); + + test(); + IF( ( lsf_diff_fx[i] <= 0 ) || ( tmp < 0 ) ) /* safety check in case of bit errors */ + { + st->BER_detect = 1; + move16(); + tmp = 0; + move16(); + } + ELSE + { + tmp = div_s( tmp, lsf_diff_fx[i] ); + } + + tmp = s_max( tmp, 16384 ); + w_fx[i] = s_min( tmp, 32767 ); + move16(); + } + } + w_fx[0] = w_fx[1]; + move16(); + w_fx[LPC_SHB_ORDER - 1] = w_fx[LPC_SHB_ORDER - 2]; + move16(); + + FOR( i = 0; i < LPC_SHB_ORDER; i++ ) + { + tmp1 = mult( lsp_shb_1_fx[i], sub( 32767, w_fx[i] ) ); + tmp2 = mult( lsp_shb_2_fx[i], w_fx[i] ); + lsp_temp_fx[i] = add( tmp1, tmp2 ); + move16(); + } + } + ELSE + { + Copy( lsp_shb_2_fx, lsp_temp_fx, LPC_SHB_ORDER ); + } + + /* convert from lsp to lsf */ + lsp2lsf_fx( lsp_temp_fx, lsf_shb_fx, LPC_SHB_ORDER, 1 ); + } + + Copy( lsf_diff_fx + 1, hBWE_TD->prev_lsf_diff_fx, LPC_SHB_ORDER - 2 ); + hBWE_TD->prev_tilt_para_fx = tilt_para_fx; + move16(); + } + ELSE + { + Copy( lsp_shb_2_fx, lsp_temp_fx, LPC_SHB_ORDER ); + } + + IF( GE_32( st->extl_brate, SWB_TBE_2k8 ) ) + { + /* SHB LSP interpolation */ + ptr_lsp_interp_coef_fx = interpol_frac_shb; /*Q15*/ + FOR( j = 0; j < 4; j++ ) + { + FOR( i = 0; i < LPC_SHB_ORDER; i++ ) + { + L_tmp = L_mult( lsp_shb_1_fx[i], ( *ptr_lsp_interp_coef_fx ) ); + lsp_temp_fx[i] = mac_r( L_tmp, lsp_shb_2_fx[i], ( *( ptr_lsp_interp_coef_fx + 1 ) ) ); + move16(); + } + ptr_lsp_interp_coef_fx += 2; + + tmp = i_mult( j, ( LPC_SHB_ORDER + 1 ) ); + /* convert LSPs to LP coefficients */ + E_LPC_f_lsp_a_conversion( lsp_temp_fx, lpc_shb_sf_fx + tmp, LPC_SHB_ORDER ); + } + } + + /* Save the SWB LSP values from current frame for interpolation */ + Copy( lsp_shb_2_fx, hBWE_TD->swb_lsp_prev_interp_fx, LPC_SHB_ORDER ); + + /* save the shb_ener and mixFactor values */ + hBWE_TD->prev3_shb_ener_sf_fx = hBWE_TD->prev2_shb_ener_sf_fx; + move32(); + hBWE_TD->prev2_shb_ener_sf_fx = hBWE_TD->prev1_shb_ener_sf_fx; + move32(); + hBWE_TD->prev1_shb_ener_sf_fx = shb_ener_sf_32; + move32(); + hBWE_TD->prev_res_shb_gshape_fx = shb_res_gshape_fx[4]; + move16(); + hBWE_TD->prev_mixFactors_fx = mixFactors_fx; + move16(); + + /* SWB CNG/DTX - update memories */ + IF( st->hTdCngDec != NULL ) + { + Copy( st->hTdCngDec->lsp_shb_prev_fx, st->hTdCngDec->lsp_shb_prev_prev_fx, LPC_SHB_ORDER ); + Copy( lsf_shb_fx, st->hTdCngDec->lsp_shb_prev_fx, LPC_SHB_ORDER ); + } + + /* convert LSPs back into LP coeffs */ + E_LPC_f_lsp_a_conversion( lsp_temp_fx, lpc_shb_fx, LPC_SHB_ORDER ); + Copy_Scale_sig( lpc_shb_fx, lpc_shb_fx, LPC_SHB_ORDER + 1, sub( norm_s( lpc_shb_fx[0] ), 2 ) ); /* Q12 */ + lpc_shb_fx[0] = ONE_IN_Q12; + move16(); + + test(); + IF( EQ_32( st->extl_brate, SWB_TBE_1k10 ) || EQ_32( st->extl_brate, SWB_TBE_1k75 ) ) + { + Word32 vind_temp = Mpy_32_32( L_shl( L_add( L_deposit_l( mixFactors_fx ), 1 ), 15 ), ( ( ( 1 << NUM_BITS_SHB_VF ) - 1 ) << 16 ) ); // check addition of 1 + vind = extract_l( L_shr( vind_temp, 15 ) ); /* 3 for mpy by 8.0f, -15 to bring it to Q0 */ /*mixFactors*7*/ + /* i: mixFactors_fx in Q15 */ + /* o: vind in Q0 */ + } + ELSE + { + vind = shl( mixFactors_fx, 3 - 15 ); /* 3 for mpy by 8.0f, -15 to bring it to Q0 */ /*mixFactors*8*/ + /* i: mixFactors_fx in Q15 */ + /* o: vind in Q0 */ + } + + /* Determine formant PF strength */ + formant_fac_fx = swb_formant_fac_fx( lpc_shb_fx[1], &hBWE_TD->tilt_mem_fx ); + /* i:lpc_shb_fx Q12, o:formant_fac_fx Q15 */ + IF( GT_32( st->total_brate, ACELP_32k ) ) + { + FOR( j = 0; j < 4; j++ ) + { + Copy( lpc_shb_fx, &lpc_shb_sf_fx[i_mult( j, ( LPC_SHB_ORDER + 1 ) )], LPC_SHB_ORDER + 1 ); + } + } + + /* From low band excitation, generate highband excitation */ + + /* -------- start of memory rescaling -------- */ + /* ----- calculate optimum Q_bwe_exc and rescale memories accordingly ----- */ + Lmax = 0; + move32(); + FOR( cnt = 0; cnt < L_FRAME32k; cnt++ ) + { + Lmax = L_max( Lmax, L_abs( bwe_exc_extended_fx[cnt] ) ); + } + Q_bwe_exc = norm_l( Lmax ); + if ( Lmax == 0 ) + { + Q_bwe_exc = 31; + move16(); + } + Q_bwe_exc = add( Q_bwe_exc, add( Q_exc, Q_exc ) ); + find_max_mem_dec( st, &n_mem, &n_mem2, &n_mem3 ); /* for >=24.4, use n_mem2 lpc_syn, shb_20sample, and mem_stp_swb_fx memory */ + + tmp = add( st->prev_Q_bwe_exc, n_mem ); + if ( GT_16( Q_bwe_exc, tmp ) ) + { + Q_bwe_exc = tmp; + move16(); + } + + /* rescale the memories if Q_bwe_exc is different from previous frame */ + sc = sub( Q_bwe_exc, st->prev_Q_bwe_exc ); + IF( sc != 0 ) + { + rescale_genSHB_mem_dec_ivas( st, sc ); + } + + /* rescale the bwe_exc_extended and bring it to 16-bit single precision with dynamic norm */ + sc = sub( Q_bwe_exc, add( Q_exc, Q_exc ) ); + + FOR( cnt = 0; cnt < L_FRAME32k; cnt++ ) + { + bwe_exc_extended_16[cnt] = round_fx_sat( L_shl_sat( bwe_exc_extended_fx[cnt], sc ) ); + move16(); + } + + /* state_syn_shbexc_fx is kept at (st_fx->prev_Q_bwe_syn) for 24.4/32kbps or is kept at Q_bwe_exc for 13.2/16.4kbps */ + + /* save the previous Q factor (32-bit) of the buffer */ + st->prev_Q_bwe_exc = Q_bwe_exc; + move16(); + + Q_bwe_exc = sub( Q_bwe_exc, 16 ); /* Q_bwe_exc reflecting the single precision dynamic norm-ed buffers from here */ + + /* -------- end of rescaling memories -------- */ + + Q_bwe_exc_fb = hBWE_TD->prev_Q_bwe_exc_fb; + move16(); + + Q_shb = 0; + move16(); + + Copy( hBWE_TD->state_syn_shbexc_fx, shaped_shb_excitation_fx, L_SHB_LAHEAD ); + GenShapedSHBExcitation_ivas_dec_fx( shaped_shb_excitation_fx + L_SHB_LAHEAD, lpc_shb_fx, White_exc16k_fx, + hBWE_TD->mem_csfilt_fx, hBWE_TD->mem_genSHBexc_filt_down_shb_fx, hBWE_TD->state_lpc_syn_fx, + st->coder_type, bwe_exc_extended_16, hBWE_TD->bwe_seed, vf_modified_fx, st->extl, + &( hBWE_TD->tbe_demph_fx ), &( hBWE_TD->tbe_premph_fx ), lpc_shb_sf_fx, shb_ener_sf_32, + shb_res_gshape_fx, shb_res_dummy_fx, &vind, formant_fac_fx, hBWE_TD->fb_state_lpc_syn_fx, + &( hBWE_TD->fb_tbe_demph_fx ), &Q_bwe_exc, &Q_bwe_exc_fb, Q_shb, n_mem2, hBWE_TD->prev_Q_bwe_syn, st->total_brate, st->prev_bfi, + st->element_mode, st->flag_ACELP16k, nlExc16k_fx, mixExc16k_fx, st->extl_brate, MSFlag, + NULL, &( hBWE_TD->prev_pow_exc16kWhtnd_fx32 ), &( hBWE_TD->prev_mix_factor_fx ), NULL, NULL ); + + *Q_white_exc = Q_bwe_exc_fb; + move16(); + IF( EQ_16( st->extl, FB_TBE ) ) + { + hBWE_TD->prev_Q_bwe_exc_fb = Q_bwe_exc_fb; + move16(); + } + ELSE + { + /*Indirectly a memory reset of FB memories for next frame such that rescaling of memories would lead to 0 due to such high prev. Q value. + 51 because of 31 + 20(shift of Q_bwe_exc_fb before de-emphasis)*/ + hBWE_TD->prev_Q_bwe_exc_fb = 51; + move16(); + } + + /* rescale the TBE post proc memory */ + FOR( i = 0; i < LPC_SHB_ORDER; i++ ) + { + hBWE_TD->mem_stp_swb_fx[i] = shl_sat( hBWE_TD->mem_stp_swb_fx[i], sub( Q_bwe_exc, hBWE_TD->prev_Q_bwe_syn ) ); + move16(); + } + /* fill-in missing SHB excitation */ + test(); + test(); + IF( ( EQ_16( st->element_mode, IVAS_CPE_TD ) || EQ_16( st->element_mode, IVAS_CPE_DFT ) ) && LE_32( st->last_core_brate, SID_2k40 ) ) + { + Copy( shaped_shb_excitation_fx + L_SHB_LAHEAD, shaped_shb_excitation_fx, L_SHB_LAHEAD ); + } + + IF( hStereoICBWE != NULL ) + { + Copy( shaped_shb_excitation_fx + L_SHB_LAHEAD, hStereoICBWE->shbSynthRef_fx, L_FRAME16k ); + } + + test(); + IF( NE_32( st->extl_brate, SWB_TBE_1k10 ) && NE_32( st->extl_brate, SWB_TBE_1k75 ) ) + { + FOR( i = 0; i < L_FRAME16k; i += L_SUBFR16k ) + { + /* TD BWE post-processing */ + PostShortTerm_ivas_dec_fx( &shaped_shb_excitation_fx[L_SHB_LAHEAD + i], lpc_shb_fx, &shaped_shb_excitationTemp_fx[i], hBWE_TD->mem_stp_swb_fx, + hBWE_TD->ptr_mem_stp_swb_fx, &( hBWE_TD->gain_prec_swb_fx ), hBWE_TD->mem_zero_swb_fx, formant_fac_fx ); + } + + Copy( shaped_shb_excitationTemp_fx, &shaped_shb_excitation_fx[L_SHB_LAHEAD], L_FRAME16k ); /* Q_bwe_exc */ + + tmp = sub( shl( Q_bwe_exc, 1 ), 31 + 16 ); + prev_pow_fx = L_shl_sat( 1407374848l /*0.00001f Q47*/, tmp ); /* 2*(Q_bwe_exc) */ + curr_pow_fx = L_shl_sat( 1407374848l /*0.00001f Q47*/, tmp ); /* 2*(Q_bwe_exc) */ + FOR( i = 0; i < L_SHB_LAHEAD + 10; i++ ) + { + prev_pow_fx = L_mac0_sat( prev_pow_fx, shaped_shb_excitation_fx[i], shaped_shb_excitation_fx[i] ); /*2*Q_bwe_exc*/ + curr_pow_fx = L_mac0_sat( curr_pow_fx, shaped_shb_excitation_fx[i + L_SHB_LAHEAD + 10], shaped_shb_excitation_fx[i + L_SHB_LAHEAD + 10] ); /* 2*Q_bwe_exc */ + } + + if ( GT_16( voice_factors_fx[0], 24576 /*0.75f Q15*/ ) ) + { + curr_pow_fx = L_shr( curr_pow_fx, 2 ); /* Q(2*Q_bwe_exc) */ + } + + Lscale = root_a_over_b_fx( curr_pow_fx, shl( Q_bwe_exc, 1 ), prev_pow_fx, shl( Q_bwe_exc, 1 ), &exp ); + + FOR( i = 0; i < L_SHB_LAHEAD; i++ ) + { + L_tmp = Mult_32_16( Lscale, shaped_shb_excitation_fx[i] ); /* Q_bwe_exc + (31-exp) - 15 */ + shaped_shb_excitation_fx[i] = round_fx_sat( L_shl_sat( L_tmp, exp ) ); /* Q_bwe_exc */ + move16(); + } + IF( exp < 0 ) + { + Lscale = L_shl( Lscale, exp ); + exp = 0; + move16(); + } + FOR( ; i < L_SHB_LAHEAD + 10; i++ ) + { + temp_fx = i_mult_sat( sub( i, 19 ), 3277 /*0.1f Q15*/ ); /* Q15 */ + L_tmp1 = Mult_32_16( L_shl_sat( 1, sub( 31, exp ) ), temp_fx ); /* Q31-exp */ + temp_fx = sub( 32767 /*1.0f Q15*/, temp_fx ); + Lscale = L_add( Mult_32_16( Lscale, temp_fx ), L_tmp1 ); + L_tmp = Mult_32_16( Lscale, shaped_shb_excitation_fx[i] ); /* Q_bwe_exc + (31-exp) - 15 */ + shaped_shb_excitation_fx[i] = round_fx_sat( L_shl_sat( L_tmp, exp ) ); /* Q_bwe_exc */ + move16(); + } + } + ELSE + { + /* reset the PF memories if the PF is not running */ + set16_fx( hBWE_TD->mem_stp_swb_fx, 0, LPC_SHB_ORDER ); + hBWE_TD->gain_prec_swb_fx = ONE_IN_Q14; + move16(); + set16_fx( hBWE_TD->mem_zero_swb_fx, 0, LPC_SHB_ORDER ); + } + + /* Update SHB excitation */ + Copy( shaped_shb_excitation_fx + L_FRAME16k, hBWE_TD->state_syn_shbexc_fx, L_SHB_LAHEAD ); /* Q_bwe_exc */ + l_subframe = L_FRAME16k / NUM_SHB_SUBGAINS; + move16(); + L_ener = EPSILON_FX_SMALL; + move32(); + + FOR( i = 0; i < NUM_SHB_SUBGAINS; i++ ) + { + L_tmp = 0; + move32(); + ener_tmp_fx[i] = EPSILON_FX_SMALL; + move32(); + + Word64 tmp64 = 0; + move64(); + FOR( j = 0; j < l_subframe; j++ ) + { + tmp64 = W_mac0_16_16( tmp64, shaped_shb_excitation_fx[add( i_mult( i, l_subframe ), j )], shaped_shb_excitation_fx[add( i_mult( i, l_subframe ), j )] ); /* 2*Q_bwe_exc */ + } + L_tmp = W_sat_l( tmp64 ); + + L_tmp = Mult_32_16( L_tmp, 410 /*0.0125 Q15*/ ); /* 2*Q_bwe_exc: ener_tmp_fx in (2*Q_bwe_exc) */ + IF( L_tmp != 0 ) + { + exp = norm_l( L_tmp ); + tmp = extract_h( L_shl( L_tmp, exp ) ); + exp = sub( exp, sub( 30, i_mult( 2, Q_bwe_exc ) ) ); + + tmp = div_s( 16384, tmp ); + L_tmp = L_deposit_h( tmp ); + L_tmp = Isqrt_lc( L_tmp, &exp ); + ener_tmp_fx[i] = L_shl_sat( L_tmp, sub( add( exp, shl( Q_bwe_exc, 1 ) ), 31 ) ); /*2 * Q_bwe_exc: Q31 -exp +exp +2 * Q_bwe_exc -31 */ + move32(); + L_ener = L_add_sat( L_ener, L_shr( ener_tmp_fx[i], 2 ) ); /* 2*Q_bwe_exc */ + } + } + ener_fx = s_max( 1, round_fx_sat( L_shl_sat( L_ener, sub( 18, shl( Q_bwe_exc, 1 ) ) ) ) ); /* Q2: 2*Q_bwe_exc+18-2*Q_bwe_exc-16 */ + /* WB/SWB bandwidth switching */ + IF( st->bws_cnt > 0 ) + { + IF( is_fractive == 0 ) + { + IF( GT_16( st->tilt_wb_fx, 2048 ) ) /*assuming st->tilt_wb_fx in Q11*/ + { + st->tilt_wb_fx = 2048; + move16(); + } + ELSE IF( LT_16( st->tilt_wb_fx, 1024 ) ) + { + st->tilt_wb_fx = 1024; + move16(); + } + test(); + if ( EQ_16( st->prev_fractive, 1 ) && GT_16( st->tilt_wb_fx, 1024 ) ) + { + st->tilt_wb_fx = 1024; + move16(); + } + } + ELSE + { + IF( GT_16( st->tilt_wb_fx, 8192 ) ) + { + IF( st->prev_fractive == 0 ) + { + st->tilt_wb_fx = 8192; + move16(); + } + ELSE + { + st->tilt_wb_fx = 16384; + move16(); + } + } + ELSE + { + st->tilt_wb_fx = shl( st->tilt_wb_fx, 2 ); + move16(); + } + } + + IF( ener_fx != 0 ) + { + L_tmp = L_shl( L_mult0( ener_fx, st->tilt_wb_fx ), sub( st->Q_syn2, 13 ) ); /* 2+11 +st->Q_syn2 -13 = st->Q_syn2*/ + exp_ener = norm_s( ener_fx ); + tmp = shl( ener_fx, exp_ener ); /*Q(2+exp)*/ + inv_ener = shr( div_s( 16384, tmp ), 1 ); /*Q(15+14-2-exp-1) = 26 - exp*/ + + test(); + IF( GT_32( L_tmp, st->enerLH_fx ) ) /*st->Q_syn2*/ + { + st->tilt_wb_fx = extract_h( L_shr_sat( Mult_32_16( st->enerLH_fx, inv_ener ), sub( sub( st->Q_syn2, exp_ener ), 16 ) ) ); /*Q11*/ + move16(); + /*st->Q_syn2 -1 + 26- exp_ener -15 -(st->Q_syn2 -exp_ener -16 ) -16 +1 -1 = (11) *0.5*/ + } + ELSE IF( LT_32( L_tmp, Mult_32_16( st->enerLH_fx, 1638 ) ) && EQ_16( is_fractive, 1 ) ) + { + st->tilt_wb_fx = extract_h( L_shr_sat( Mult_32_16( st->enerLH_fx, inv_ener ), sub( sub( st->Q_syn2, exp_ener ), 15 ) ) ); /*Q11*/ + move16(); + /*st->Q_syn2 -1 + 26- exp_ener -15 -(st->Q_syn2 -exp_ener -15 ) -16 = (11) 0.25*/ + } + L_tmp = L_mult0( st->prev_ener_shb_fx, inv_ener ); /*Q(1+15+14-3-exp_ener) = 27 -exp_ener*/ + GainFrame_prevfrm_fx = L_shr( L_tmp, sub( 9, exp_ener ) ); /*27 -exp_ener -(9-exp_ener )= Q18*/ + } + ELSE + { + GainFrame_prevfrm_fx = 0; + move32(); + } + + IF( EQ_16( is_fractive, 1 ) ) + { + GainFrame_fx = L_shl( L_deposit_l( st->tilt_wb_fx ), 10 ); + } + ELSE + { + GainFrame_fx = L_shl( L_deposit_l( st->tilt_wb_fx ), 8 ); + } + + test(); + IF( EQ_16( ( is_fractive & st->prev_fractive ), 1 ) && GT_32( GainFrame_fx, GainFrame_prevfrm_fx ) ) + { + GainFrame_fx = L_add( Mult_32_16( GainFrame_prevfrm_fx, 26214 ), Mult_32_16( GainFrame_fx, 6554 ) ); /* 18 +15 -15 = 18*/ + } + ELSE + { + test(); + test(); + test(); + test(); + IF( ( LT_32( L_shr( st->prev_enerLH_fx, 1 ), st->enerLH_fx ) && GT_32( st->prev_enerLH_fx, L_shr( st->enerLH_fx, 1 ) ) ) && ( LT_32( L_shr( st->prev_enerLL_fx, 1 ), st->enerLL_fx ) && GT_32( st->prev_enerLL_fx, L_shr( st->enerLL_fx, 1 ) ) ) && ( s_xor( is_fractive, st->prev_fractive ) == 0 ) ) + { + GainFrame_fx = L_add( L_shr( GainFrame_fx, 1 ), L_shr( GainFrame_prevfrm_fx, 1 ) ); + } + ELSE + { + test(); + IF( ( is_fractive == 0 ) && EQ_16( st->prev_fractive, 1 ) ) + { + L_tmp1 = L_shl( Mult_32_16( GainFrame_fx, 3277 ), 13 ); /* 31 */ + L_tmp = L_sub( 2147483647, L_tmp1 ); /* 31 */ + GainFrame_fx = L_add( Mult_32_32( GainFrame_fx, L_tmp ), Mult_32_32( GainFrame_prevfrm_fx, L_tmp1 ) ); /* 18 */ + } + ELSE + { + GainFrame_fx = L_add( L_shr( GainFrame_fx, 1 ), L_shr( L_min( GainFrame_prevfrm_fx, GainFrame_fx ), 1 ) ); /* 18 */ + } + } + } + + GainFrame_fx = Mult_32_16( GainFrame_fx, i_mult( sub( N_WS2N_FRAMES, st->bws_cnt ), 819 ) ); /*Q18*/ + } + ELSE + { + IF( st->bws_cnt1 > 0 ) + { + GainFrame_fx = Mult_32_16( GainFrame_fx, i_mult( st->bws_cnt1, 819 ) ); /*Q18*/ + } + IF( GE_16( st->nbLostCmpt, 1 ) ) + { + ener_fx = s_max( 1, ener_fx ); + exp_ener = norm_s( ener_fx ); + tmp = shl( ener_fx, exp_ener ); /*Q(2+exp)*/ + inv_ener = div_s( 16384, tmp ); /*Q(15+14-2-exp)*/ + prev_ener_ratio_fx = L_shr( L_mult0( st->prev_ener_shb_fx, inv_ener ), add( sub( 9, exp_ener ), 1 ) ); /*Q: 1+27-exp-9+exp-1 = 18 */ + } + + IF( EQ_16( st->nbLostCmpt, 1 ) ) + { + test(); + test(); + test(); + test(); + test(); + test(); + test(); + test(); + test(); + test(); + IF( ( st->clas_dec != UNVOICED_CLAS ) && NE_16( st->clas_dec, UNVOICED_TRANSITION ) && LT_16( hBWE_TD->tilt_swb_fec_fx, 16384 ) && + ( ( GT_32( st->enerLL_fx, L_shr( st->prev_enerLL_fx, 1 ) ) && LT_32( L_shr( st->enerLL_fx, 1 ), st->prev_enerLL_fx ) ) || ( GT_32( st->enerLH_fx, L_shr( st->prev_enerLH_fx, 1 ) ) && LT_32( L_shr( st->enerLH_fx, 1 ), st->prev_enerLH_fx ) ) ) ) + { + IF( GT_32( L_shr( prev_ener_ratio_fx, 2 ), GainFrame_fx ) ) /*18*/ + { + GainFrame_fx = L_add( Mult_32_16( prev_ener_ratio_fx, 13107 ), Mult_32_16( GainFrame_fx, 19661 ) ); /*18*/ + } + ELSE IF( GT_32( L_shr( prev_ener_ratio_fx, 1 ), GainFrame_fx ) ) + { + GainFrame_fx = L_add( Mult_32_16( prev_ener_ratio_fx, 26214 ), Mult_32_16( GainFrame_fx, 6554 ) ); + } + ELSE + { + GainFrame_fx = L_add( Mult_32_16( prev_ener_ratio_fx, 6554 ), Mult_32_16( GainFrame_fx, 26214 ) ); + } + + test(); + IF( GT_16( tilt_swb_fec_fx, hBWE_TD->tilt_swb_fec_fx ) && ( hBWE_TD->tilt_swb_fec_fx > 0 ) ) + { + exp = norm_s( hBWE_TD->tilt_swb_fec_fx ); + tmp = shl( hBWE_TD->tilt_swb_fec_fx, exp ); /*Q(11+exp)*/ + tmp = div_s( 16384, tmp ); /*Q(15+14-11-exp)*/ + tmp = extract_h( L_shl( L_mult0( tmp, st->tilt_wb_fx ), sub( exp, 1 ) ) ); /*18 -exp +11 + exp -1 -16 =12; */ + GainFrame_fx = L_shl( Mult_32_16( GainFrame_fx, s_min( tmp, 20480 ) ), 3 ); /*Q18 = 18 +12 -15 +3 */ + } + } + ELSE IF( ( ( st->clas_dec != UNVOICED_CLAS ) || GT_16( hBWE_TD->tilt_swb_fec_fx, 4096 ) ) && GT_32( L_shr( prev_ener_ratio_fx, 2 ), GainFrame_fx ) && + ( GT_32( st->enerLL_fx, L_shr( st->prev_enerLL_fx, 1 ) ) || GT_32( st->enerLH_fx, L_shr( st->prev_enerLH_fx, 1 ) ) ) ) + { + GainFrame_fx = L_add( Mult_32_16( prev_ener_ratio_fx, 6554 ), Mult_32_16( GainFrame_fx, 26214 ) ); + } + } + ELSE IF( GT_16( st->nbLostCmpt, 1 ) ) + { + test(); + test(); + test(); + test(); + test(); + test(); + test(); + test(); + IF( GT_32( L_shr( prev_ener_ratio_fx, 2 ), GainFrame_fx ) && ( ( EQ_16( st->codec_mode, MODE1 ) && GT_32( st->enerLL_fx, st->prev_enerLL_fx ) && GT_32( st->enerLH_fx, st->prev_enerLH_fx ) ) || EQ_16( st->codec_mode, MODE2 ) ) ) + { + test(); + IF( GT_16( tilt_swb_fec_fx, 20480 /*10.0f in Q11*/ ) && GT_16( hBWE_TD->tilt_swb_fec_fx, 20480 /*10.0f in Q11*/ ) ) + { + GainFrame_fx = L_min( L_add( Mult_32_16( prev_ener_ratio_fx, 26214 /*0.8f in Q15*/ ), Mult_32_16( GainFrame_fx, 6554 /*0.2f in Q15*/ ) ), L_shl( Mult_32_16( GainFrame_fx, 16384 /*4.0f in Q12*/ ), 3 ) ); /*Q18*/ + } + ELSE + { + GainFrame_fx = L_min( L_add( Mult_32_16( prev_ener_ratio_fx, 16384 ), Mult_32_16( GainFrame_fx, 16384 ) ), L_shl( Mult_32_16( GainFrame_fx, 16384 ), 3 ) ); /*Q18*/ + } + } + ELSE IF( GT_32( prev_ener_ratio_fx, GainFrame_fx ) && ( ( EQ_16( st->codec_mode, MODE1 ) && GT_32( st->enerLL_fx, st->prev_enerLL_fx ) && GT_32( st->enerLH_fx, st->prev_enerLH_fx ) ) || EQ_16( st->codec_mode, MODE2 ) ) ) + { + test(); + IF( GT_16( tilt_swb_fec_fx, 20480 ) && GT_16( hBWE_TD->tilt_swb_fec_fx, 20480 ) ) + { + GainFrame_fx = L_add( Mult_32_16( prev_ener_ratio_fx, 16384 /*0.5f in Q15*/ ), Mult_32_16( GainFrame_fx, 16384 /*0.5f in Q15*/ ) ); /* Q18 */ + } + ELSE + { + GainFrame_fx = L_add( Mult_32_16( prev_ener_ratio_fx, 6554 /*0.2f in Q15*/ ), Mult_32_16( GainFrame_fx, 26214 /*0.8f in Q15*/ ) ); /* Q18 */ + } + } + } + } + + st->prev_fractive = is_fractive; + move16(); + + /* Adjust the subframe and frame gain of the synthesized shb signal */ + /* Scale the shaped excitation */ + IF( EQ_16( st->L_frame, L_FRAME ) ) + { + L_tmp = L_mult( pitch_buf_fx[0], 8192 ); + FOR( i = 1; i < NB_SUBFR; i++ ) + { + L_tmp = L_mac( L_tmp, pitch_buf_fx[i], 8192 ); /* pitch_buf in Q6 x 0.25 in Q15 */ + } + pitch_fx = round_fx( L_tmp ); /* Q6 */ + } + ELSE + { + L_tmp = L_mult( pitch_buf_fx[0], 6554 ); + FOR( i = 1; i < NB_SUBFR16k; i++ ) + { + L_tmp = L_mac( L_tmp, pitch_buf_fx[i], 6554 ); /* pitch_buf in Q6 x 0.2 in Q15 */ + } + pitch_fx = round_fx( L_tmp ); /* Q6 */ + } + + test(); + test(); + test(); + test(); + test(); + test(); + test(); + test(); + test(); + test(); + test(); + test(); + IF( ( ( GE_32( st->extl_brate, SWB_TBE_2k8 ) && EQ_16( st->prev_coder_type, st->coder_type ) && NE_16( st->coder_type, UNVOICED ) ) || ( LT_32( st->extl_brate, SWB_TBE_2k8 ) && ( EQ_16( st->prev_coder_type, st->coder_type ) || ( EQ_16( st->prev_coder_type, VOICED ) && EQ_16( st->coder_type, GENERIC ) ) || ( EQ_16( st->prev_coder_type, GENERIC ) && EQ_16( st->coder_type, VOICED ) ) ) ) ) && GT_16( pitch_fx, 4480 /*70 in Q6*/ ) && LT_16( st->extl, FB_TBE ) && NE_32( st->extl_brate, SWB_TBE_1k10 ) && NE_32( st->extl_brate, SWB_TBE_1k75 ) ) + { + FOR( i = 0; i < NUM_SHB_SUBGAINS; i++ ) + { + GainShape_tmp_fx[i] = GainShape_fx[i * 4]; /* Q15 */ + move16(); + } + + FOR( i = 0; i < NUM_SHB_SUBGAINS; i++ ) + { + L_tmp1 = Mult_32_16( ener_tmp_fx[i], GainShape_tmp_fx[i] ); /* (2*Q_bwe_exc) */ + L_tmp2 = Mult_32_16( hBWE_TD->prev_ener_fx, hBWE_TD->prev_GainShape_fx ); /* (2*st->prev_ener_fx_Q) */ + tmp = sub( shl( Q_bwe_exc, 1 ), shl( hBWE_TD->prev_ener_fx_Q, 1 ) ); + L_tmp2 = L_shl_sat( L_tmp2, tmp ); /* new Q = (2*Q_bwe_exc) */ + IF( GT_32( L_tmp1, L_tmp2 ) ) + { + L_tmp = L_tmp2; + move32(); + if ( L_tmp2 < 0 ) + { + L_tmp = L_negate( L_tmp2 ); + } + + expb = norm_l( L_tmp ); + fracb = round_fx_sat( L_shl_sat( L_tmp, expb ) ); + expb = sub( 30, expb ); /* - (2*Q_bwe_exc_ext); */ + + expa = norm_l( ener_tmp_fx[i] ); + fraca = extract_h( L_shl( ener_tmp_fx[i], expa ) ); + expa = sub( 30, expa ); + + scale_fx = shr( sub( fraca, fracb ), 15 ); + fracb = shl( fracb, scale_fx ); + expb = sub( expb, scale_fx ); + + tmp = div_s( fracb, fraca ); + exp = sub( sub( expb, expa ), 1 ); + tmp = shl( tmp, exp ); + GainShape_tmp_fx[i] = add( tmp, shr( GainShape_tmp_fx[i], 1 ) ); /* Q15 */ + move16(); + } + + hBWE_TD->prev_ener_fx = ener_tmp_fx[i]; + move32(); + hBWE_TD->prev_GainShape_fx = GainShape_tmp_fx[i]; + move16(); + hBWE_TD->prev_ener_fx_Q = Q_bwe_exc; + move16(); + } + + FOR( i = 0; i < NUM_SHB_SUBFR; i++ ) + { + Word16 idx = 0; + move16(); + IF( i != 0 ) + { + idx = idiv1616( i_mult( i, NUM_SHB_SUBGAINS ), NUM_SHB_SUBFR ); + } + GainShape_fx[i] = GainShape_tmp_fx[idx]; + move16(); + } + } + ELSE + { + hBWE_TD->prev_ener_fx_Q = Q_bwe_exc; + move16(); + } + hBWE_TD->prev_Q_bwe_syn = Q_bwe_exc; + move16(); + + + /* Gain shape smoothing after quantization */ + test(); + IF( EQ_32( st->extl_brate, SWB_TBE_1k10 ) || EQ_32( st->extl_brate, SWB_TBE_1k75 ) ) + { + FOR( i = 0; i < NUM_SHB_SUBGAINS; i++ ) + { + GainShape_tmp_fx[i] = GainShape_fx[i * NUM_SHB_SUBGAINS]; + move16(); + } + + lls_interp_n_fx( GainShape_tmp_fx, NUM_SHB_SUBGAINS, &GainShape_tilt_fx, &temp_fx, 1 ); + + test(); + IF( GE_16( vind, 6 ) && LT_16( abs_s( GainShape_tilt_fx ), 3932 ) ) + { + feedback_fx = 9830; + move16(); + FOR( i = 0; i < NUM_SHB_SUBGAINS; i++ ) + { + GainShape_fx[i] = add_sat( mult( sub( 32767, feedback_fx ), GainShape_fx[i * NUM_SHB_SUBGAINS] ), mult( feedback_fx, GainShape_tmp_fx[i] ) ); + move16(); + } + + FOR( i = NUM_SHB_SUBFR - 1; i > 0; i-- ) + { + Word16 idx = 0; + move16(); + IF( i != 0 ) + { + idx = idiv1616( i_mult( i, NUM_SHB_SUBGAINS ), NUM_SHB_SUBFR ); + } + GainShape_fx[i] = GainShape_fx[idx]; + move16(); + } + } + } + + /* fil-in missing memory */ + test(); + test(); + IF( ( EQ_16( st->element_mode, IVAS_CPE_TD ) || EQ_16( st->element_mode, IVAS_CPE_DFT ) ) && LE_32( st->last_core_brate, SID_2k40 ) ) + { + FOR( i = 0; i < L_SHB_LAHEAD; i++ ) + { + Word16 intermediate = mult( shaped_shb_excitation_fx[i], subwin_shb_fx[L_SHB_LAHEAD - i] ); + Word32 intermediate_32 = Mpy_32_16_1( Mpy_32_16_1( GainFrame_fx, window_shb_fx[L_SHB_LAHEAD - 1 - i] ), intermediate ); + hBWE_TD->syn_overlap_fx[i] = round_fx( L_shl_sat( intermediate_32, sub( 16, ( add( Q_bwe_exc, 18 - 15 ) ) ) ) ); + move16(); + } + } + + Word16 n_mem3_new = 0; + move16(); + find_max_mem_dec_m3( st, &n_mem3_new ); + + ScaleShapedSHB_fx( SHB_OVERLAP_LEN, + shaped_shb_excitation_fx, /* i/o: Q_bwe_exc */ + hBWE_TD->syn_overlap_fx, + GainShape_fx, /* Q15 */ + GainFrame_fx, /* Q18 */ + window_shb_fx, + subwin_shb_fx, + &Q_bwe_exc, &Qx, n_mem3_new, hBWE_TD->prev_Q_bwe_syn2 ); + + IF( hStereoICBWE != NULL ) + { + Copy_Scale_sig_16_32_DEPREC( lpc_shb_fx, hStereoICBWE->lpSHBRef_fx, LPC_SHB_ORDER + 1, 0 ); + Copy( GainShape_fx, hStereoICBWE->gshapeRef_fx, NUM_SHB_SUBFR ); + hStereoICBWE->gFrameRef_fx = GainFrame_fx; + move32(); + + Copy( shaped_shb_excitation_fx, hStereoICBWE->shbSynthRef_fx, L_FRAME16k ); + } + + max_val = 0; + move16(); + FOR( i = 0; i < L_FRAME16k; i++ ) + { + max_val = s_max( max_val, abs_s( shaped_shb_excitation_fx[i] ) ); /* Q0 */ + } + IF( max_val == 0 ) + { + curr_frame_pow_fx = 0; + move32(); + n = 0; + move16(); + } + ELSE + { + n = norm_s( max_val ); + max_val = 0; + move16(); + FOR( i = 0; i < L_FRAME16k; i++ ) + { + shaped_shb_excitation_frac[i] = shl_sat( shaped_shb_excitation_fx[i], n ); /*Q_bwe_exc+n*/ + move16(); + } + + curr_frame_pow_fx = 0; + move32(); + FOR( i = 0; i < L_FRAME16k; i++ ) + { + L_tmp = L_mult0( shaped_shb_excitation_frac[i], shaped_shb_excitation_frac[i] ); /*2*(Q_bwe_exc+n)*/ + curr_frame_pow_fx = L_add( curr_frame_pow_fx, L_shr( L_tmp, 9 ) ); /*2*(Q_bwe_exc+n)-9*/ + } + } + curr_frame_pow_exp = sub( shl( add( Q_bwe_exc, n ), 1 ), 9 ); + tmp = sub( hBWE_TD->prev_frame_pow_exp, curr_frame_pow_exp ); + IF( tmp > 0 ) /* shifting prev */ + { + IF( GT_16( tmp, 32 ) ) + { + hBWE_TD->prev_frame_pow_exp = add( curr_frame_pow_exp, 32 ); + move16(); + tmp = 32; + move16(); + } + hBWE_TD->prev_swb_bwe_frame_pow_fx = L_shr( hBWE_TD->prev_swb_bwe_frame_pow_fx, tmp ); + move32(); + hBWE_TD->prev_frame_pow_exp = curr_frame_pow_exp; + move16(); + } + ELSE /* shifting curr */ + { + IF( LT_16( tmp, -32 ) ) + { + curr_frame_pow_exp = sub( hBWE_TD->prev_frame_pow_exp, 32 ); + tmp = -32; + move16(); + } + curr_frame_pow_fx = L_shr( curr_frame_pow_fx, -tmp ); + curr_frame_pow_exp = hBWE_TD->prev_frame_pow_exp; + move16(); + } + test(); + test(); + IF( !st->bfi && ( st->prev_bfi || st->prev_use_partial_copy ) ) + { + test(); + test(); + IF( ( GT_32( L_shr( curr_frame_pow_fx, 1 ), hBWE_TD->prev_swb_bwe_frame_pow_fx ) ) && + ( GT_32( hBWE_TD->prev_swb_bwe_frame_pow_fx, L_tmp ) ) && EQ_16( st->prev_coder_type, UNVOICED ) ) + { + L_tmp = root_a_over_b_fx( hBWE_TD->prev_swb_bwe_frame_pow_fx, curr_frame_pow_exp, curr_frame_pow_fx, curr_frame_pow_exp, &exp ); + scale_fx = round_fx( L_shl( L_tmp, exp ) ); /*Q15*/ + + L_tmp = root_a_fx( L_tmp, sub( 31, exp ), &exp ); + L_tmp = root_a_fx( L_tmp, sub( 31, exp ), &exp ); + L_tmp = root_a_fx( L_tmp, sub( 31, exp ), &exp ); + temp_fx = round_fx( L_shl( L_tmp, exp ) ); /*Q15*/ + } + ELSE + { + scale_fx = temp_fx = 32767; + move16(); /*Q15*/ + move16(); /*Q15*/ + } + + FOR( j = 0; j < 8; j++ ) + { + GainShape_fx[2 * j] = mult_r( GainShape_fx[2 * j], scale_fx ); + move16(); + GainShape_fx[2 * j + 1] = mult_r( GainShape_fx[2 * j + 1], scale_fx ); + move16(); + FOR( i = 0; i < L_FRAME16k / 8; i++ ) + { + shaped_shb_excitation_fx[add( i, j * ( L_FRAME16k / 8 ) )] = mult_r( shaped_shb_excitation_fx[add( i, j * ( L_FRAME16k / 8 ) )], scale_fx ); + move16(); + } + + IF( temp_fx > 0 ) + { + /* scale_fx <= temp_fx, due to scale_fx = sqrt( st->prev_swb_bwe_frame_pow_fx/curr_frame_pow_fx ), temp_fx = sqrt( scale_fx, 1.f/8.f ) + and curr_frame_pow_fx > st->prev_swb_bwe_frame_pow_fx -> scale_fx <= 1.0, sqrt(scale_fx, 1.f/8.f) >= scale_fx */ + IF( LT_16( scale_fx, temp_fx ) ) + { + scale_fx = div_s( scale_fx, temp_fx ); + } + ELSE + { + scale_fx = 32767; + move16(); + } + } + ELSE + { + scale_fx = 0; + move16(); + } + } + } + + /* adjust the FEC frame energy */ + IF( st->bfi ) + { + scale_fx = temp_fx = 4096; + move16(); /*Q12*/ + move16(); + IF( EQ_16( st->nbLostCmpt, 1 ) ) + { + test(); + test(); + test(); + test(); + test(); + test(); + test(); + test(); + IF( GT_32( curr_frame_pow_fx, hBWE_TD->prev_swb_bwe_frame_pow_fx ) && + NE_16( st->prev_coder_type, UNVOICED ) && + ( st->last_good != UNVOICED_CLAS ) ) + { + L_tmp = root_a_over_b_fx( hBWE_TD->prev_swb_bwe_frame_pow_fx, curr_frame_pow_exp, curr_frame_pow_fx, curr_frame_pow_exp, &exp ); /*31 - exp*/ + scale_fx = round_fx( L_shl( L_tmp, sub( exp, 3 ) ) ); /*Q12*/ + L_tmp = root_a_fx( L_tmp, sub( 31, exp ), &exp ); + L_tmp = root_a_fx( L_tmp, sub( 31, exp ), &exp ); + L_tmp = root_a_fx( L_tmp, sub( 31, exp ), &exp ); + temp_fx = round_fx( L_shl( L_tmp, sub( exp, 3 ) ) ); /*Q12*/ + } + ELSE IF( LT_32( curr_frame_pow_fx, L_shr( hBWE_TD->prev_swb_bwe_frame_pow_fx, 1 ) ) && EQ_16( st->nbLostCmpt, 1 ) && + ( GT_32( st->enerLL_fx, L_shr( st->prev_enerLL_fx, 1 ) ) || GT_32( st->enerLH_fx, L_shr( st->prev_enerLH_fx, 1 ) ) ) && + ( EQ_16( st->prev_coder_type, UNVOICED ) || ( st->last_good == UNVOICED_CLAS ) || GT_16( hBWE_TD->tilt_swb_fec_fx, 10240 ) ) ) + { + L_tmp = root_a_over_b_fx( hBWE_TD->prev_swb_bwe_frame_pow_fx, curr_frame_pow_exp, curr_frame_pow_fx, curr_frame_pow_exp, &exp ); + scale_fx = round_fx_sat( L_shl_sat( L_tmp, sub( exp, 3 ) ) ); /*Q12*/ + L_tmp = root_a_fx( L_tmp, sub( 31, exp ), &exp ); + L_tmp = root_a_fx( L_tmp, sub( 31, exp ), &exp ); + L_tmp = root_a_fx( L_tmp, sub( 31, exp ), &exp ); + temp_fx = round_fx( L_shl( L_tmp, sub( exp, 3 ) ) ); /*Q12*/ + } + } + ELSE IF( GT_16( st->nbLostCmpt, 1 ) ) + { + test(); + test(); + test(); + test(); + test(); + IF( GT_32( curr_frame_pow_fx, hBWE_TD->prev_swb_bwe_frame_pow_fx ) ) + { + L_tmp = root_a_over_b_fx( hBWE_TD->prev_swb_bwe_frame_pow_fx, curr_frame_pow_exp, curr_frame_pow_fx, curr_frame_pow_exp, &exp ); + scale_fx = round_fx( L_shl( L_tmp, sub( exp, 3 ) ) ); /*Q12*/ + L_tmp = root_a_fx( L_tmp, sub( 31, exp ), &exp ); + L_tmp = root_a_fx( L_tmp, sub( 31, exp ), &exp ); + L_tmp = root_a_fx( L_tmp, sub( 31, exp ), &exp ); + temp_fx = round_fx_sat( L_shl_sat( L_tmp, sub( exp, 3 ) ) ); /*Q12*/ + } + ELSE IF( LT_32( curr_frame_pow_fx, L_shr( hBWE_TD->prev_swb_bwe_frame_pow_fx, 1 ) ) && + ( GT_32( st->enerLL_fx, L_shr( st->prev_enerLL_fx, 1 ) ) || GT_32( st->enerLH_fx, L_shr( st->prev_enerLH_fx, 1 ) ) ) && + ( EQ_16( st->prev_coder_type, UNVOICED ) || ( st->last_good == UNVOICED_CLAS ) || GT_16( hBWE_TD->tilt_swb_fec_fx, 10240 ) ) ) + { + L_tmp = root_a_over_b_fx( hBWE_TD->prev_swb_bwe_frame_pow_fx, curr_frame_pow_exp, curr_frame_pow_fx, curr_frame_pow_exp, &exp ); + L_tmp = L_min( L_tmp, L_shl_sat( 2, sub( 31, exp ) ) ); /*31 - exp*/ + scale_fx = round_fx( L_shl( L_tmp, sub( exp, 3 ) ) ); /*Q12*/ + L_tmp = root_a_fx( L_tmp, sub( 31, exp ), &exp ); + L_tmp = root_a_fx( L_tmp, sub( 31, exp ), &exp ); + L_tmp = root_a_fx( L_tmp, sub( 31, exp ), &exp ); + temp_fx = round_fx( L_shl( L_tmp, sub( exp, 3 ) ) ); /*Q12*/ + } + } + + FOR( j = 0; j < 8; j++ ) + { + GainShape_fx[2 * j] = shl_sat( mult_r( GainShape_fx[2 * j], scale_fx ), 3 ); + move16(); /* 15 +12 +3-15 =15*/ + GainShape_fx[add( 2 * j, 1 )] = shl_sat( mult_r( GainShape_fx[add( 2 * j, 1 )], scale_fx ), 3 ); + move16(); + FOR( i = 0; i < 40; i++ ) + { + shaped_shb_excitation_fx[i + j * L_FRAME16k / 8] = shl( mult_r( shaped_shb_excitation_fx[i + j * L_FRAME16k / 8], scale_fx ), 3 ); + move16(); /* Q_bwe_exc +12+3 -15 =Q_bwe_exc*/ + } + + IF( temp_fx > 0 ) + { + IF( LT_16( scale_fx, temp_fx ) ) + { + scale_fx = shr( div_s( scale_fx, temp_fx ), 3 ); + } + ELSE + { + tmp1 = sub( norm_s( scale_fx ), 1 ); + tmp2 = norm_s( temp_fx ); + scale_fx = div_s( shl( scale_fx, tmp1 ), shl( temp_fx, tmp2 ) ); + scale_fx = shr( scale_fx, add( sub( tmp1, tmp2 ), 3 ) ); + } + } + ELSE + { + scale_fx = 0; + move16(); + } + } + } + + hBWE_TD->prev_swb_bwe_frame_pow_fx = curr_frame_pow_fx; + move32(); + hBWE_TD->prev_frame_pow_exp = curr_frame_pow_exp; + move16(); + + Word64 prev_ener_shb64 = 0; + move64(); + FOR( i = 0; i < L_FRAME16k; i++ ) + { + prev_ener_shb64 = W_mac0_16_16( prev_ener_shb64, shaped_shb_excitation_fx[i], shaped_shb_excitation_fx[i] ); /* Q0 */ + } + L_prev_ener_shb = W_sat_l( prev_ener_shb64 ); + + L_prev_ener_shb = Mult_32_16( L_prev_ener_shb, 26214 ); /* 2*Q_bwe_exc_mod+8; 26214=(1/L_FRAME16k) in Q23 */ + st->prev_ener_shb_fx = 0; + move16(); + IF( L_prev_ener_shb != 0 ) + { + exp = norm_l( L_prev_ener_shb ); + tmp = extract_h( L_shl( L_prev_ener_shb, exp ) ); + exp = sub( exp, sub( 30, ( add( i_mult( 2, Q_bwe_exc ), 8 ) ) ) ); + + tmp = div_s( 16384, tmp ); + L_tmp = L_deposit_h( tmp ); + L_tmp = Isqrt_lc( L_tmp, &exp ); + st->prev_ener_shb_fx = round_fx_sat( L_shl_sat( L_tmp, sub( exp, 14 ) ) ); /* Q1 */ + move16(); + } + + IF( st->hBWE_FD != NULL ) + { + L_tmp = Mult_32_16( curr_frame_pow_fx, 26214 ); /* curr_frame_pow_exp+8; 26214=(1/L_FRAME16k) in Q23 */ + tmp = 0; + move16(); + IF( L_tmp != 0 ) + { + exp = norm_l( L_tmp ); + tmp = extract_h( L_shl( L_tmp, exp ) ); + exp = sub( exp, sub( 30, add( curr_frame_pow_exp, 8 ) ) ); + + tmp = div_s( 16384, tmp ); + L_tmp = L_deposit_h( tmp ); + L_tmp = Isqrt_lc( L_tmp, &exp ); + tmp = round_fx_sat( L_shl_sat( L_tmp, sub( exp, 14 ) ) ); /* Q1 */ + } + set16_fx( st->hBWE_FD->prev_SWB_fenv_fx, tmp, SWB_FENV ); /* Q1 */ + } + + FOR( i = 0; i < L_FRAME16k; i++ ) + { + shaped_shb_excitation_fx_32[i] = L_shl( shaped_shb_excitation_fx[i], sub( Q11, Q_bwe_exc ) ); + move32(); + } + + /* generate 32kHz SHB synthesis from 12.8(16)kHz signal */ + GenSHBSynth_fx32( shaped_shb_excitation_fx_32, error_fx, hBWE_TD->genSHBsynth_Hilbert_Mem_fx, hBWE_TD->genSHBsynth_state_lsyn_filt_shb_local_fx_32, st->L_frame, &( hBWE_TD->syn_dm_phase ) ); + Copy_Scale_sig_32_16( st->hBWE_TD->genSHBsynth_state_lsyn_filt_shb_local_fx_32, st->hBWE_TD->genSHBsynth_state_lsyn_filt_shb_local_fx, 2 * ALLPASSSECTIONS_STEEP, -( Q11 - Q_bwe_exc ) ); + Copy32( error_fx + L_FRAME32k - L_SHB_TRANSITION_LENGTH, hBWE_TD->old_tbe_synth_fx_32, L_SHB_TRANSITION_LENGTH ); + + /* resample SHB synthesis (if needed) and scale down */ + synth_scale_fx = 32767; + move16(); /* 1.0 in Q15 */ + if ( EQ_16( st->codec_mode, MODE1 ) ) + { + synth_scale_fx = 29491; + move16(); /* 0.9 in Q15 */ + } + + IF( EQ_32( st->output_Fs, 48000 ) ) + { + IF( EQ_16( st->extl, FB_TBE ) ) + { + tmp = norm_l( GainFrame_fx ); + if ( GainFrame_fx == 0 ) + { + tmp = 31; + move16(); + } + L_tmp = L_shl( GainFrame_fx, tmp ); /* 18 + tmp */ + + tmp1 = 0; + move16(); + FOR( i = 0; i < L_FRAME16k; i++ ) + { + Word16 idx = 0; + move16(); + IF( i != 0 ) + { + idx = idiv1616( i_mult( NUM_SHB_SUBFR, i ), L_FRAME16k ); + } + L_tmp1 = Mult_32_16( L_tmp, GainShape_fx[idx] ); /* Q : 18 + tmp +15 -15*/ + White_exc16k_fx[i] = round_fx( Mult_32_16( L_tmp1, White_exc16k_fx[i] ) ); /* 18 + tmp +*Q_white_exc -15 -16 */ + move16(); + tmp1 = s_max( tmp1, abs_s( White_exc16k_fx[i] ) ); + } + + *Q_white_exc = sub( add( *Q_white_exc, tmp ), 13 ); /* *Q_white_exc + 18 + tmp -15 -16 */ + move16(); + tmp = norm_s( tmp1 ); + if ( tmp1 == 0 ) + { + tmp = 15; + move16(); + } + + FOR( i = 0; i < L_FRAME16k; i++ ) + { + White_exc16k_fx[i] = shl( White_exc16k_fx[i], sub( tmp, 1 ) ); + move16(); + } + *Q_white_exc = sub( add( *Q_white_exc, tmp ), 1 ); + move16(); + } + + IF( NE_16( synth_scale_fx, 32767 ) ) /* 1.0 in Q15 */ + { + FOR( i = 0; i < L_FRAME32k; i++ ) + { + error_fx[i] = Mpy_32_16_1( error_fx[i], synth_scale_fx ); + move32(); + } + } + interpolate_3_over_2_allpass_fx32( error_fx, L_FRAME32k, synth_fx, hBWE_TD->int_3_over_2_tbemem_dec_fx_32 ); + } + ELSE IF( EQ_32( st->output_Fs, 32000 ) ) + { + IF( NE_16( synth_scale_fx, 32767 ) ) /* 1.0 in Q15 */ + { + FOR( i = 0; i < L_FRAME32k; i++ ) + { + synth_fx[i] = Mpy_32_16_1( error_fx[i], synth_scale_fx ); + move32(); /*Qx*/ + } + } + ELSE + { + Copy32( error_fx, synth_fx, L_FRAME32k ); + } + } + ELSE IF( EQ_32( st->output_Fs, 16000 ) ) + { + IF( NE_16( synth_scale_fx, 32767 ) ) /* 1.0 in Q15 */ + { + FOR( i = 0; i < L_FRAME32k; i++ ) + { + error_fx[i] = Mpy_32_16_1( error_fx[i], synth_scale_fx ); + move32(); + } + } + + Decimate_allpass_steep_fx32( error_fx, hBWE_TD->mem_resamp_HB_32k_fx_32, L_FRAME32k, synth_fx ); + } + + /* Update previous frame parameters for FEC */ + Copy( lsf_shb_fx, hBWE_TD->lsp_prevfrm_fx, LPC_SHB_ORDER ); + IF( EQ_16( st->codec_mode, MODE1 ) ) + { + hBWE_TD->GainFrame_prevfrm_fx = GainFrame_fx; + move32(); /*Q18*/ + hBWE_TD->tilt_swb_fec_fx = tilt_swb_fec_fx; + move16(); + + if ( !st->bfi ) + { + hBWE_TD->GainAttn_fx = 32767; /*1.0f in Q15*/ + move16(); + } + } + ELSE + { + IF( !st->bfi ) + { + hBWE_TD->GainFrame_prevfrm_fx = GainFrame_fx; + move32(); /*Q18*/ + hBWE_TD->tilt_swb_fec_fx = tilt_swb_fec_fx; + move16(); + hBWE_TD->GainAttn_fx = 32767; /*1.0f in Q15*/ + move16(); + } + } + + hBWE_TD->prev_ener_fx = ener_tmp_fx[NUM_SHB_SUBGAINS - 1]; + move32(); + hBWE_TD->prev_GainShape_fx = GainShape_fx[NUM_SHB_SUBFR - 1]; + move16(); + hBWE_TD->prev_Q_bwe_syn2 = Q_bwe_exc; + move16(); + hBWE_TD->prev_Qx = Q_bwe_exc; + move16(); return; } diff --git a/lib_dec/tonalMDCTconcealment.c b/lib_dec/tonalMDCTconcealment.c deleted file mode 100644 index 6a74d3b8731bba95b0058ef635784abee6ed6311..0000000000000000000000000000000000000000 --- a/lib_dec/tonalMDCTconcealment.c +++ /dev/null @@ -1,436 +0,0 @@ -/****************************************************************************************************** - - (C) 2022-2025 IVAS codec Public Collaboration with portions copyright Dolby International AB, Ericsson AB, - Fraunhofer-Gesellschaft zur Foerderung der angewandten Forschung e.V., Huawei Technologies Co. LTD., - Koninklijke Philips N.V., Nippon Telegraph and Telephone Corporation, Nokia Technologies Oy, Orange, - Panasonic Holdings Corporation, Qualcomm Technologies, Inc., VoiceAge Corporation, and other - contributors to this repository. All Rights Reserved. - - This software is protected by copyright law and by international treaties. - The IVAS codec Public Collaboration consisting of Dolby International AB, Ericsson AB, - Fraunhofer-Gesellschaft zur Foerderung der angewandten Forschung e.V., Huawei Technologies Co. LTD., - Koninklijke Philips N.V., Nippon Telegraph and Telephone Corporation, Nokia Technologies Oy, Orange, - Panasonic Holdings Corporation, Qualcomm Technologies, Inc., VoiceAge Corporation, and other - contributors to this repository retain full ownership rights in their respective contributions in - the software. This notice grants no license of any kind, including but not limited to patent - license, nor is any license granted by implication, estoppel or otherwise. - - Contributors are required to enter into the IVAS codec Public Collaboration agreement before making - contributions. - - This software is provided "AS IS", without any express or implied warranties. The software is in the - development stage. It is intended exclusively for experts who have experience with such software and - solely for the purpose of inspection. All implied warranties of non-infringement, merchantability - and fitness for a particular purpose are hereby disclaimed and excluded. - - Any dispute, controversy or claim arising under or in relation to providing this software shall be - submitted to and settled by the final, binding jurisdiction of the courts of Munich, Germany in - accordance with the laws of the Federal Republic of Germany excluding its conflict of law rules and - the United Nations Convention on Contracts on the International Sales of Goods. - -*******************************************************************************************************/ - -/*==================================================================================== - EVS Codec 3GPP TS26.443 Nov 04, 2021. Version 12.14.0 / 13.10.0 / 14.6.0 / 15.4.0 / 16.3.0 - ====================================================================================*/ - -#define _USE_MATH_DEFINES - -#include -#include -#include "options.h" -#include -#include "prot.h" -#include "ivas_prot.h" -#include "wmc_auto.h" -#include "ivas_prot_fx.h" -#include "prot_fx.h" - - -/*******************************************************/ -/*-------------- public functions -------------------- */ -/*******************************************************/ - -void TonalMdctConceal_create_concealment_noise_ivas_fx( - Word32 concealment_noise[L_FRAME48k], // Q31-concealment_noise_exp - Word16 *concealment_noise_exp, - CPE_DEC_HANDLE hCPE, - const Word16 L_frameTCX, // Q0 - const Word16 L_frame, // Q0 - const Word16 idchan, // Q0 - const Word16 subframe_idx, // Q0 - const Word16 core, // Q0 - const Word16 crossfade_gain, // Q15 - const TONALMDCTCONC_NOISE_GEN_MODE noise_gen_mode ) -{ - STEREO_MDCT_DEC_DATA_HANDLE hStereoMdct; - TonalMDCTConcealPtr hTonalMDCTConc; - Decoder_State *st; - HANDLE_FD_CNG_COM hFdCngCom; - Word16 *rnd_c, *rnd; - Word16 crossOverFreq, i, save_rnd_c, max_noise_line; - Word16 c, c_inv, inc; - Word32 noise_shape_buffer[L_FRAME48k]; - Word16 noise_shape_buffer_e[L_FRAME48k]; - Word16 start_idx, stop_idx, noise_shape_buffer_common_exp = MIN16B_FLT_FX, last_scf_e, temp_e; - move16(); - Word32 *cngNoiseLevelPtr; - Word32 last_scf; - - Word16 c_e, c_inv_e; - - push_wmops( "create_conc_noise" ); - - hStereoMdct = hCPE->hStereoMdct; - st = hCPE->hCoreCoder[idchan]; - hTonalMDCTConc = st->hTonalMDCTConc; - hFdCngCom = st->hFdCngDec->hFdCngCom; - rnd = &hStereoMdct->noise_seeds_channels[idchan]; - rnd_c = &hStereoMdct->noise_seed_common; - - /* determine start bin for IGF */ - IF( st->igf == 0 ) - { - IF( st->narrowBand == 0 ) - { - /* minimum needed for output with sampling rates lower then the - nominal sampling rate */ - crossOverFreq = s_min( L_frameTCX, L_frame ); - } - ELSE - { - crossOverFreq = L_frameTCX; - move16(); - } - } - ELSE - { - crossOverFreq = s_min( st->hIGFDec->infoIGFStartLine, L_frameTCX ); - } - - /* for tonal mdct concealment with tonal components above the crossover frequency, conditionally raise the frequency index until which noise is generated */ - max_noise_line = crossOverFreq; - move16(); - IF( st->tonal_mdct_plc_active ) - { - max_noise_line = s_max( max_noise_line, extract_l( L_add( hTonalMDCTConc->pTCI->upperIndex[hTonalMDCTConc->pTCI->numIndexes - 1], 1 ) ) ); - } - - /* first lost frame is handled separately */ - IF( !hTonalMDCTConc->lastBlockData.blockIsConcealed ) - { - *rnd = add( 1977, idchan ); // Q0 - move16(); - /* will be set twice when looping over two channels, but does not matter */ - *rnd_c = 1979; // Q0 - move16(); - } - - IF( GT_16( crossfade_gain, 32734 ) ) - /* Due to precision loss */ /* 0.999 in Q15*/ - { - /* In first frame, noise is weighted with zero anyway, we only need the random numbers for the sign scrambling */ - FOR( i = 0; i < max_noise_line; i++ ) - { - *rnd = own_random( rnd ); - move16(); - concealment_noise[i] = *rnd; // Q31-concealment_noise_exp - move32(); - } - *concealment_noise_exp = 31; - move16(); - pop_wmops(); - - return; - } - - save_rnd_c = *rnd_c; // Q0 - move16(); - - c_e = 1; - move16(); - c_inv_e = 1; - move16(); - - c = Sqrt16( hStereoMdct->lastCoh_fx, &c_e ); // Q1 = 15 - c_e - c_inv = Sqrt16( sub( ONE_IN_Q14, hStereoMdct->lastCoh_fx ), &c_inv_e ); // Q2 = 15 - c_inv_e - - IF( NE_16( c_e, c_inv_e ) ) - { - IF( LT_16( c_e, c_inv_e ) ) - { - c = shr( c, sub( c_inv_e, c_e ) ); // Q0 - c_e = c_inv_e; - move16(); - } - ELSE - { - c_inv = shr( c_inv, sub( c_e, c_inv_e ) ); // Q0 - } - } - - /* pre-compute the noise shape for later weighting of the noise spectra */ - cngNoiseLevelPtr = &hFdCngCom->cngNoiseLevel[0]; - last_scf_e = hFdCngCom->cngNoiseLevelExp; - move16(); - - IF( GT_16( st->core, TCX_20_CORE ) ) - { - inc = 2; - } - ELSE - { - inc = 1; - } - move16(); - start_idx = idiv1616( hFdCngCom->startBand, inc ); - stop_idx = idiv1616( hFdCngCom->stopFFTbin, inc ); - - FOR( i = 0; i < start_idx; i++ ) - { - noise_shape_buffer[i] = 0; - move32(); - noise_shape_buffer_e[i] = 0; - move16(); - } - FOR( ; i < stop_idx; ( i++, cngNoiseLevelPtr += inc ) ) - { - noise_shape_buffer_e[i] = hFdCngCom->cngNoiseLevelExp; - move16(); - noise_shape_buffer[i] = Sqrt32( *( cngNoiseLevelPtr ), &noise_shape_buffer_e[i] ); // Q31-noise_shape_buffer_e[i] - move32(); - noise_shape_buffer_common_exp = s_max( noise_shape_buffer_e[i], noise_shape_buffer_common_exp ); - } - - FOR( i = 0; i < stop_idx; i++ ) - { - IF( NE_16( noise_shape_buffer_common_exp, noise_shape_buffer_e[i] ) ) - { - - noise_shape_buffer[i] = L_shr( noise_shape_buffer[i], sub( noise_shape_buffer_common_exp, noise_shape_buffer_e[i] ) ); // Q31- (noise_shape_buffer_common_exp-noise_shape_buffer_e[i]) - move32(); - } - } - - last_scf = Sqrt32( *( cngNoiseLevelPtr - inc ), &last_scf_e ); // Q31-last_scf_e - - IF( LT_16( noise_shape_buffer_common_exp, last_scf_e ) ) - { - Scale_sig32( noise_shape_buffer, stop_idx, sub( noise_shape_buffer_common_exp, last_scf_e ) ); // Q31- (noise_shape_buffer_common_exp-last_scf_e) - - noise_shape_buffer_common_exp = last_scf_e; - move16(); - } - ELSE - { - last_scf = L_shl( last_scf, sub( last_scf_e, noise_shape_buffer_common_exp ) ); // Q31-(last_scf_e-noise_shape_buffer_common_exp) - } - - FOR( ; i < max_noise_line; i++ ) - { - noise_shape_buffer[i] = last_scf; // Q31 - noise_shape_buffer_common_exp - move32(); - } - - /* fill the noise vector */ - hTonalMDCTConc->curr_noise_nrg = MDCT_ST_PLC_FADEOUT_MIN_NOISE_NRG_Q31; // Q31 - move32(); - hTonalMDCTConc->curr_noise_nrg_exp = 0; - move16(); - *concealment_noise_exp = add( 16, add( noise_shape_buffer_common_exp, c_e ) ); - move16(); - temp_e = hTonalMDCTConc->curr_noise_nrg_exp; - move16(); - - test(); - test(); - test(); - test(); - IF( EQ_16( noise_gen_mode, EQUAL_CORES ) || ( ( EQ_16( noise_gen_mode, TCX20_IN_0_TCX10_IN_1 ) && EQ_16( idchan, 0 ) ) || ( EQ_16( noise_gen_mode, TCX10_IN_0_TCX20_IN_1 ) && EQ_16( idchan, 1 ) ) ) ) - { - /* current channel is TCX20 -> generate noise for "full-length" spectrum */ - - FOR( i = 0; i < max_noise_line; i++ ) - { - *rnd = own_random( rnd ); // Q0 - *rnd_c = own_random( rnd_c ); - - move16(); - move16(); - - concealment_noise[i] = Mpy_32_32( L_add( L_shr( L_mult( c_inv, *rnd ), 1 ), L_shr( L_mult( c, *rnd_c ), 1 ) ), noise_shape_buffer[i] ); // Q31 - *concealment_noise_exp - move32(); - IF( concealment_noise[i] != 0 ) - { - hTonalMDCTConc->curr_noise_nrg = BASOP_Util_Add_Mant32Exp( hTonalMDCTConc->curr_noise_nrg, hTonalMDCTConc->curr_noise_nrg_exp, Mpy_32_32( concealment_noise[i], concealment_noise[i] ), shl( *concealment_noise_exp, 1 ), &temp_e ); // Q31-temp_e - } - hTonalMDCTConc->curr_noise_nrg_exp = temp_e; - move16(); - } - } - ELSE /* ( ( noise_gen_mode == TCX10_IN_0_TCX20_IN_1 && idchan == 0 ) || ( noise_gen_mode == TCX20_IN_0_TCX10_IN_1 && idchan == 1 ) ) */ - { - /* current channel is TCX10 and the other is TCX20 -> generate noise for "half-length" spectrum, but "increment" mid seed twice, to have the same seed in mid as the other (TCX20) channel for next frame */ - FOR( i = 0; i < max_noise_line; i++ ) - { - *rnd = own_random( rnd ); // Q0 - *rnd_c = own_random( rnd_c ); // Q0 - move16(); - move16(); - - concealment_noise[i] = Mpy_32_32( L_add( L_shr( L_mult( c_inv, *rnd ), 1 ), L_shr( L_mult( c, *rnd_c ), 1 ) ), noise_shape_buffer[i] ); - move32(); - IF( concealment_noise[i] != 0 ) - { - hTonalMDCTConc->curr_noise_nrg = BASOP_Util_Add_Mant32Exp( hTonalMDCTConc->curr_noise_nrg, hTonalMDCTConc->curr_noise_nrg_exp, Mpy_32_32( concealment_noise[i], concealment_noise[i] ), shl( *concealment_noise_exp, 1 ), &temp_e ); // Q31-temp_e - } - hTonalMDCTConc->curr_noise_nrg_exp = temp_e; - move16(); - - *rnd_c = own_random( rnd_c ); - move16(); - } - } - - IF( st->tonal_mdct_plc_active ) - { - FOR( i = crossOverFreq; i < s_max( crossOverFreq, hTonalMDCTConc->pTCI->lowerIndex[hTonalMDCTConc->pTCI->numIndexes - 1] ); ++i ) - { - concealment_noise[i] = 0; - move32(); - } - } - - /* restore common seed - - after finishing the first channel - - after a first subframe if the current channel is TCX10 */ - - test(); - test(); - test(); - test(); - test(); - IF( ( EQ_16( idchan, 0 ) && ( EQ_16( core, TCX_20 ) || ( EQ_16( core, TCX_10 ) && EQ_16( subframe_idx, 1 ) ) ) ) || ( EQ_16( core, TCX_10 ) && EQ_16( subframe_idx, 0 ) ) ) - { - *rnd_c = save_rnd_c; - move16(); - } - - st->seed_tcx_plc = *rnd; - move16(); - - pop_wmops(); - - return; -} - - -void TonalMdctConceal_whiten_noise_shape_ivas_fx( - Decoder_State *st, - const Word16 L_frame, - const TONALMDCTCONC_NOISE_SHAPE_WHITENING_MODE whitening_mode ) -{ - Word16 inc, start_idx, stop_idx, i; - Word32 *noiseLevelPtr, *scfs_bg, *scfs_for_shaping; - Word16 noiseLevelPtr_exp; - HANDLE_FD_CNG_COM hFdCngCom; - Word32 whitenend_noise_shape[L_FRAME16k]; - Word16 q_wns; - Word32 scfs_int[FDNS_NPTS]; - const PsychoacousticParameters *psychParams; - - push_wmops( "apply_sns_on_noise_shape" ); - - scfs_bg = &st->hTonalMDCTConc->scaleFactorsBackground_fx[0]; - psychParams = st->hTonalMDCTConc->psychParams; - hFdCngCom = st->hFdCngDec->hFdCngCom; - -#ifdef MSAN_FIX - set32_fx( whitenend_noise_shape, 0, L_FRAME16k ); -#endif - - IF( EQ_32( whitening_mode, ON_FIRST_LOST_FRAME ) ) - { - IF( GT_16( st->core, TCX_20_CORE ) ) - { - inc = 2; - move16(); - } - ELSE - { - inc = 1; - move16(); - } - } - ELSE - { - IF( GT_16( st->last_core, TCX_20_CORE ) ) - { - inc = 2; - move16(); - } - ELSE - { - inc = 1; - move16(); - } - } - start_idx = shr( hFdCngCom->startBand, sub( inc, 1 ) ); - stop_idx = shr( L_frame, sub( inc, 1 ) ); - noiseLevelPtr = hFdCngCom->cngNoiseLevel; - noiseLevelPtr_exp = hFdCngCom->cngNoiseLevelExp; - move16(); - - FOR( Word16 j = start_idx; j < stop_idx; j++ ) - { - whitenend_noise_shape[j] = L_shr( *noiseLevelPtr, 3 ); - move32(); - noiseLevelPtr += inc; - } - - IF( EQ_32( whitening_mode, ON_FIRST_LOST_FRAME ) ) - { - Word32 scf[SNS_NPTS]; - - sns_compute_scf_fx( whitenend_noise_shape, psychParams, L_frame, scf, sub( sub( 31, noiseLevelPtr_exp ), 3 ) ); - - sns_interpolate_scalefactors_fx( scfs_int, scf, ENC ); - sns_interpolate_scalefactors_fx( scfs_bg, scf, DEC ); - - scfs_for_shaping = &scfs_int[0]; // Q16 - } - ELSE /* whitening_mode == ON_FIRST_GOOD_FRAME */ - { - scfs_for_shaping = &scfs_bg[0]; // Q16 - } - - IF( sum32_sat( scfs_for_shaping, FDNS_NPTS ) > 0 ) - { - q_wns = sub( sub( 31, noiseLevelPtr_exp ), 3 ); - sns_shape_spectrum_fx( whitenend_noise_shape, &q_wns, psychParams, scfs_for_shaping, Q16, L_frame, NULL ); - - IF( GT_16( add( q_wns, 1 ), sub( 31, hFdCngCom->cngNoiseLevelExp ) ) ) - { - FOR( i = 0; i < sub( stop_idx, start_idx ); i++ ) - { - hFdCngCom->cngNoiseLevel[i] = L_shr( whitenend_noise_shape[start_idx + i], sub( add( q_wns, hFdCngCom->cngNoiseLevelExp ), 30 ) ); //(q_wns + 1) - move32(); - } - } - ELSE - { - Copy32( whitenend_noise_shape + start_idx, hFdCngCom->cngNoiseLevel, sub( stop_idx, start_idx ) ); - - scale_sig32( hFdCngCom->cngNoiseLevel + sub( stop_idx, start_idx ), sub( FFTCLDFBLEN, sub( stop_idx, start_idx ) ), sub( add( q_wns, hFdCngCom->cngNoiseLevelExp ), 30 ) ); - - hFdCngCom->cngNoiseLevelExp = sub( Q30, q_wns ); // Exponent = 31 - (q_wns + 1) - move16(); - } - } - ELSE - { - set32_fx( hFdCngCom->cngNoiseLevel, 0, sub( stop_idx, start_idx ) ); - } - - pop_wmops(); -} diff --git a/lib_dec/tonalMDCTconcealment_fx.c b/lib_dec/tonalMDCTconcealment_fx.c index a4aa23e7fbf69a6ca9283e8be81993209c0c8edb..bc7e1d536257616343132f5dc3090351c994cc12 100644 --- a/lib_dec/tonalMDCTconcealment_fx.c +++ b/lib_dec/tonalMDCTconcealment_fx.c @@ -14,7 +14,6 @@ #include "cnst.h" #include "prot_fx.h" #include "stat_com.h" -#include "prot.h" #include "ivas_prot_fx.h" #define CROSSFADE_THRESHOLD ( 32762 ) // close to 1.0f in Q15 such that (x == 1.0f) is true @@ -147,28 +146,20 @@ ivas_error TonalMDCTConceal_Init_ivas_fx( hTonalMDCTConc->tcx_cfg = hTcxCfg; hTonalMDCTConc->lastBlockData.spectralData = hTonalMDCTConc->spectralDataBuffers[0]; -#ifdef MSAN_FIX set16_fx( hTonalMDCTConc->lastBlockData.spectralData, 0, L_FRAME_MAX ); -#endif move16(); hTonalMDCTConc->secondLastBlockData.spectralData = hTonalMDCTConc->spectralDataBuffers[1]; -#ifdef MSAN_FIX set16_fx( hTonalMDCTConc->secondLastBlockData.spectralData, 0, L_FRAME_MAX ); -#endif move16(); hTonalMDCTConc->secondLastPowerSpectrum = hTonalMDCTConc->secondLastBlockData.spectralData; move16(); hTonalMDCTConc->secondLastPowerSpectrum_exp = hTonalMDCTConc->secondLastBlockData.spectralData_exp; move16(); hTonalMDCTConc->lastBlockData.scaleFactors = hTonalMDCTConc->scaleFactorsBuffers[0]; -#ifdef MSAN_FIX set16_fx( hTonalMDCTConc->lastBlockData.scaleFactors, 0, FDNS_NPTS ); -#endif move16(); hTonalMDCTConc->secondLastBlockData.scaleFactors = hTonalMDCTConc->scaleFactorsBuffers[1]; -#ifdef MSAN_FIX set16_fx( hTonalMDCTConc->secondLastBlockData.scaleFactors, 0, FDNS_NPTS ); -#endif move16(); hTonalMDCTConc->lastBlockData.scaleFactors_exp = hTonalMDCTConc->scaleFactorsBuffers_exp[0]; move16(); @@ -235,9 +226,7 @@ ivas_error TonalMDCTConceal_Init_ivas_fx( move16(); /* just the second half of the second last pcm output is needed */ -#ifdef MSAN_FIX set16_fx( hTonalMDCTConc->timeDataBuffer, 0, ( 3 * L_FRAME_MAX ) / 2 ); -#endif hTonalMDCTConc->secondLastPcmOut = &hTonalMDCTConc->timeDataBuffer[( 3 * L_FRAME_MAX ) / 2 - ( 3 * min( L_FRAME_MAX, nSamples ) / 2 )]; hTonalMDCTConc->lastPcmOut = &hTonalMDCTConc->timeDataBuffer[( 3 * L_FRAME_MAX ) / 2 - min( L_FRAME_MAX, nSamples )]; /* If the second last frame was lost, we reuse saved TonalComponentsInfo and don't update pcm buffers */ @@ -555,11 +544,12 @@ void TonalMDCTConceal_SaveFreqSignal_ivas_fx( } -TONALMDCTCONCEAL_ERROR TonalMDCTConceal_UpdateState( TonalMDCTConcealPtr hTonalMDCTConc, - Word16 nNewSamples, // Q0 - Word32 pitchLag, // Qx - Word16 badBlock, // Q0 - Word8 tonalConcealmentActive ) +void TonalMDCTConceal_UpdateState( + TonalMDCTConcealPtr hTonalMDCTConc, + Word16 nNewSamples, // Q0 + Word32 pitchLag, // Qx + Word16 badBlock, // Q0 + Word8 tonalConcealmentActive ) { Word8 newBlockIsValid; @@ -599,13 +589,16 @@ TONALMDCTCONCEAL_ERROR TonalMDCTConceal_UpdateState( TonalMDCTConcealPtr hTonalM hTonalMDCTConc->lastPitchLag = pitchLag; move32(); - return TONALMDCTCONCEAL_OK; + return; } -static void FindPhases( /* o: currenc phase [-pi;pi] 2Q13 */ - TonalMDCTConcealPtr const hTonalMDCTConc, /* i: pointer to internal structure */ - Word32 secondLastMDCT[], /* i: MDST spectrum data Qx +31 -diff_exp */ - Word32 secondLastMDST[], /* i: MDCT spectrum data Qx */ - Word16 diff_exp ) /* i: exp_MDST - exp_MDCT */ + + +/* o: currenc phase [-pi;pi] 2Q13 */ +static void FindPhases( + TonalMDCTConcealPtr const hTonalMDCTConc, /* i: pointer to internal structure */ + Word32 secondLastMDCT[], /* i: MDST spectrum data Qx +31 -diff_exp */ + Word32 secondLastMDST[], /* i: MDCT spectrum data Qx */ + Word16 diff_exp ) /* i: exp_MDST - exp_MDCT */ { Word16 i; Word16 l; @@ -625,6 +618,8 @@ static void FindPhases( /* o: currenc move16(); } } + + return; } #define BANDWIDTH 7.0f @@ -635,9 +630,10 @@ static void FindPhases( /* o: currenc #define N 931758243 /* FL2WORD32(sin(EVS_PI/BANDWIDTH)); */ #define J 31946 /* FL2WORD16(sin((3*EVS_PI)/BANDWIDTH)); */ -static void FindPhaseDifferences( /* o: Phase difference [-pi;pi] 2Q13*/ - TonalMDCTConcealPtr const hTonalMDCTConc, /* i: Pointer to internal structure */ - Word32 powerSpectrum[] ) /* i: Power spectrum data Qx */ +/* o: Phase difference [-pi;pi] 2Q13*/ +static void FindPhaseDifferences( + TonalMDCTConcealPtr const hTonalMDCTConc, /* i: Pointer to internal structure */ + Word32 powerSpectrum[] ) /* i: Power spectrum data Qx */ { Word16 i, k; Word16 *phaseDiff; @@ -815,6 +811,7 @@ static void ivas_CalcPowerSpecAndDetectTonalComponents_fx( hTonalMDCTConc->lastBlockData.scaleFactors_exp, hTonalMDCTConc->lastBlockData.scaleFactors_max_e, powerSpectrum, + powerSpectrum_exp, nSamples, hTonalMDCTConc->nSamplesCore, floorPowerSpectrum, psychParamsCurrent, element_mode ); @@ -1219,9 +1216,7 @@ void TonalMDCTConceal_Detect_ivas_fx( Word16 element_mode ) { Word32 secondLastMDST[L_FRAME_MAX]; -#ifdef MSAN_FIX set32_fx( secondLastMDST, 0, L_FRAME_MAX ); -#endif Word32 secondLastMDCT[L_FRAME_MAX]; Word16 secondLastMDCT_exp; Word32 *powerSpectrum = secondLastMDST; @@ -1229,9 +1224,7 @@ void TonalMDCTConceal_Detect_ivas_fx( Word16 nSamples; // Word16 nBands; Word32 sns_int_scf_fx[FDNS_NPTS]; -#ifdef MSAN_FIX set32_fx( sns_int_scf_fx, 0, FDNS_NPTS ); -#endif nSamples = hTonalMDCTConc->nSamples; move16(); @@ -1295,11 +1288,7 @@ void TonalMDCTConceal_Detect_ivas_fx( { /* If the second last frame was also lost, it is expected that pastTimeSignal could hold a bit different signal (e.g. including fade-out) from the one stored in TonalMDCTConceal_SaveTimeSignal. */ /* That is why we reuse the already stored information about the concealed spectrum in the second last frame */ -#ifdef MSAN_FIX Word16 temp_power_spectrum_q = 0; -#else - Word16 power_spectrum_q; -#endif nSamples = hTonalMDCTConc->nNonZeroSamples; move16(); Copy_Scale_sig_16_32_DEPREC( hTonalMDCTConc->secondLastPowerSpectrum, powerSpectrum, nSamples, Q15 ); @@ -1320,6 +1309,8 @@ void TonalMDCTConceal_Detect_ivas_fx( powerSpectrum[i] = Mpy_32_32( t, t ); // Q(31-secondLastMDST_exp+powerSpectrum_exp) move32(); } + powerSpectrum_exp = 0; + move16(); } ELSE { @@ -1337,6 +1328,7 @@ void TonalMDCTConceal_Detect_ivas_fx( powerSpectrum[i] = Mpy_32_32( t, t ); // 2*(Q31 - powerSpectrum_exp -3)-31 move32(); } + powerSpectrum_exp = sub( 31, sub( shl( sub( Q31 - 3, powerSpectrum_exp ), 1 ), 31 ) ); } ivas_RefineTonalComponents_fx( (Word16 *) hTonalMDCTConc->pTCI->indexOfTonalPeak, @@ -1353,6 +1345,7 @@ void TonalMDCTConceal_Detect_ivas_fx( hTonalMDCTConc->lastBlockData.scaleFactors_exp, hTonalMDCTConc->lastBlockData.scaleFactors_max_e, powerSpectrum, + powerSpectrum_exp, nSamples, hTonalMDCTConc->nSamplesCore, extract_l( Mpy_32_16_1( L_mult0( hTonalMDCTConc->nSamples, hTonalMDCTConc->nSamples ), 82 ) ), element_mode, psychParamsCurrent ); /* floorPowerSpectrum */ @@ -1390,12 +1383,15 @@ void TonalMDCTConceal_InsertNoise_ivas_fx( Word16 rnd; Word16 tmp, g, tilt, exp_last, exp_noise, tiltFactor, crossfadeGain, e_crossfadeGain; - Word32 L_tmp, L_tmp2, nrgNoiseInLastFrame, nrgWhiteNoise; + Word32 L_tmp, L_tmp1, L_tmp2, nrgNoiseInLastFrame, nrgWhiteNoise; Word16 inv_exp, inv_samples, exp; Word32 last_block_nrg_correct; Word16 last_block_nrg_correct_e; Word32 max_concealment_value; Word16 max_spectral_value; + Word64 sum1, sum2; + Word16 num16, den16, exp1, exp2; + Word16 shift1, shift2; crossfadeGain = crossfadeGain_const; move16(); @@ -1858,28 +1854,36 @@ void TonalMDCTConceal_InsertNoise_ivas_fx( } } ELSE{ - IF( !tonalConcealmentActive ){ - ld = sub( 14, norm_s( hTonalMDCTConc->lastBlockData.nSamples ) ); - fac = shr( -32768, ld ); - + IF( tonalConcealmentActive == 0 ){ + sum1 = 0; + sum2 = 0; + move64(); + move64(); FOR( i = 0; i < crossOverFreq; i++ ) { - Word16 x = hTonalMDCTConc->lastBlockData.spectralData[i]; - Word32 y; - rnd = extract_l( L_mac0( 13849, rnd, 31821 ) ); /* Q0 */ - y = L_mult( tilt, rnd ); /* 15Q16 */ + Word16 x; + /*x = hTonalMDCTConc->lastBlockData.spectralData[i]; + nrgNoiseInLastFrame += x * x;*/ + sum1 = W_mac0_16_16( sum1, hTonalMDCTConc->lastBlockData.spectralData[i], hTonalMDCTConc->lastBlockData.spectralData[i] ); // Q: 2*(15-hTonalMDCTConc->lastBlockData.spectralData_exp) - nrgNoiseInLastFrame = L_add( nrgNoiseInLastFrame, Mpy_32_16_1( L_msu( 0, x, fac ), x ) ); // Q(31 - x_exp - ld) + Q(15 - x_exp) - 15 = Q(31 - x_exp * 2 - ld) - x = round_fx( y ); /* 15Q16 -> 15Q0 */ - nrgWhiteNoise = L_add( nrgWhiteNoise, Mpy_32_16_1( L_msu( 0, x, fac ), x ) ); // Q(31 - (15 - 0) - ld) + Q(0) - 15 = Q(1 - ld) + /* rnd = own_random(&rnd); */ + rnd = extract_l( L_mac0( 13849, rnd, 31821 ) ); /* Q0 */ - mdctSpectrum[i] = y; /* 15Q16 */ + /* mdctSpectrum[i] = tilt * rnd; */ + mdctSpectrum[i] = L_mult( tilt, rnd ); // Q16 move32(); + /* tilt *= tiltFactor; */ tilt = mult_r( tilt, tiltFactor ); /* Q15 */ + + /* nrgWhiteNoise += mdctSpectrum[i] * mdctSpectrum[i]; */ + x = round_fx( mdctSpectrum[i] ); // Q0 + sum2 = W_mac0_16_16( sum2, x, x ); // Q0 } + *mdctSpectrum_exp = 15; + move16(); - IF( nrgNoiseInLastFrame == 0 ) + IF( sum1 /* nrgNoiseInLastFrame */ == 0 ) { set32_fx( mdctSpectrum, 0, crossOverFreq ); *mdctSpectrum_exp = SPEC_EXP_DEC; @@ -1887,85 +1891,70 @@ void TonalMDCTConceal_InsertNoise_ivas_fx( } ELSE { - exp_last = add( ld, shl( hTonalMDCTConc->lastBlockData.spectralData_exp, 1 ) ); - exp_noise = add( ld, 30 ); - - IF( nrgWhiteNoise > 0 ) + IF( g == 0 ) { - ld = norm_l( nrgNoiseInLastFrame ); - nrgNoiseInLastFrame = L_shl( nrgNoiseInLastFrame, ld ); // Q31- exp_last + ld - exp_last = sub( exp_last, ld ); - ld = norm_l( nrgWhiteNoise ); - nrgWhiteNoise = L_shl( nrgWhiteNoise, ld ); // Q31 - exp_noise + ld - exp_noise = sub( exp_noise, ld ); - - exp = sub( exp_last, exp_noise ); - - IF( GT_32( nrgNoiseInLastFrame, nrgWhiteNoise ) ) - { - nrgNoiseInLastFrame = L_shr( nrgNoiseInLastFrame, 1 ); // Q31-exp -1 - exp = add( exp, 1 ); - } - tmp = div_l( nrgNoiseInLastFrame, round_fx( nrgWhiteNoise ) ); // Q15 - tmp = Sqrt16( tmp, &exp ); - g = mult_r( g, tmp ); // exponent of g = exp - - L_tmp = L_deposit_h( 0 ); - ld = sub( hTonalMDCTConc->lastBlockData.spectralData_exp, 15 ); - exp = sub( ld, exp ); - - IF( exp > 0 ) - { - g = shr( g, exp ); // Q15 - exp - *mdctSpectrum_exp = hTonalMDCTConc->lastBlockData.spectralData_exp; - move16(); - } - ELSE - { - crossfadeGain = shl( crossfadeGain, exp ); // Q15-e_crossfadeGain+ exp - e_crossfadeGain = sub( e_crossfadeGain, exp ); - *mdctSpectrum_exp = add( e_crossfadeGain, hTonalMDCTConc->lastBlockData.spectralData_exp ); - move16(); - } - /*make a headroom for mdct_shaping*/ - exp = sub( *mdctSpectrum_exp, SPEC_EXP_DEC ); - /* assert(exp < 0);*/ - IF( exp < 0 ) - { - *mdctSpectrum_exp = SPEC_EXP_DEC; - move16(); - } - ELSE + *mdctSpectrum_exp = add( add( hTonalMDCTConc->lastBlockData.spectralData_exp, e_crossfadeGain ), 31 - SPEC_EXP_DEC ); + move16(); + FOR( i = 0; i < crossOverFreq; i++ ) { - exp = 0; - move16(); + /* mdctSpectrum[i] = g * mdctSpectrum[i] + crossfadeGain * hTonalMDCTConc->lastBlockData.spectralData[i]; */ + L_tmp = L_mult( crossfadeGain, hTonalMDCTConc->lastBlockData.spectralData[i] ); // exp: hTonalMDCTConc->lastBlockData.spectralData_exp+e_crossfadeGain + if ( mdctSpectrum[i] <= 0 ) + { + /* mdctSpectrum[i] = g * mdctSpectrum[i] - crossfadeGain * hTonalMDCTConc->lastBlockData.spectralData[i]; */ + L_tmp = L_negate( L_tmp ); // exp: hTonalMDCTConc->lastBlockData.spectralData_exp+e_crossfadeGain + } + /* headroom for mdct_shaping */ + mdctSpectrum[i] = L_shr( L_tmp, 31 - SPEC_EXP_DEC ); // *mdctSpectrum_exp + move32(); } } - FOR( i = 0; i < crossOverFreq; i++ ) + ELSE { - Word16 const x = hTonalMDCTConc->lastBlockData.spectralData[i]; // Q15 - spectralData_exp - move16(); - Word32 const y = mdctSpectrum[i]; // Q31-mdctSpectrum_exp - move32(); - - IF( g > 0 ) + IF( sum2 /* nrgWhiteNoise */ > 0 ) { - L_tmp = Mpy_32_16_1( y, g ); // Q31-mdctSpectrum_exp- spectralData_exp + exp1 = sub( W_norm( sum1 ), 1 ); + num16 = extract_h( W_extract_h( W_shl( sum1, exp1 ) ) ); // nrgNoiseInLastFrame -> Q: 2*(15-hTonalMDCTConc->lastBlockData.spectralData_exp)+exp1-48 + exp2 = W_norm( sum2 ); + den16 = extract_h( W_extract_h( W_shl( sum2, exp2 ) ) ); // nrgWhiteNoise -> Q: exp2-48 + + /* sqrt( nrgNoiseInLastFrame / nrgWhiteNoise ) */ + tmp = div_s( num16, den16 ); // Q: 15+(2*(15-hTonalMDCTConc->lastBlockData.spectralData_exp)+exp1-48)-(exp2-48) + exp = sub( sub( shl( hTonalMDCTConc->lastBlockData.spectralData_exp, 1 ), 30 ), sub( exp1, exp2 ) ); // exp of tmp + tmp = Sqrt16( tmp, &exp ); + g = mult_r( g, tmp ); // exponent of g = exp } - L_tmp2 = L_msu( L_tmp, crossfadeGain, x ); // Q15 - e_crossfadeGain + Q15 - spectralData_exp - IF( GT_32( y, 0 ) ) + exp1 = add( *mdctSpectrum_exp, exp ); + exp2 = add( hTonalMDCTConc->lastBlockData.spectralData_exp, e_crossfadeGain ); + exp = add( s_max( exp1, exp2 ), 1 ); + shift1 = sub( exp1, exp ); + shift2 = sub( exp2, exp ); + + FOR( i = 0; i < crossOverFreq; i++ ) { - L_tmp2 = L_mac( L_tmp, crossfadeGain, x ); // Q15 - e_crossfadeGain + Q15 - spectralData_exp + L_tmp1 = L_shl( Mpy_32_16_1( mdctSpectrum[i], g ), shift1 ); // g * mdctSpectrum[i] + L_tmp2 = L_shl( L_mult( crossfadeGain, hTonalMDCTConc->lastBlockData.spectralData[i] ), shift2 ); // exp + + /* mdctSpectrum[i] = g * mdctSpectrum[i] - crossfadeGain * hTonalMDCTConc->lastBlockData.spectralData[i]; */ + L_tmp = L_sub( L_tmp1, L_tmp2 ); // exp + if ( mdctSpectrum[i] > 0 ) + { + /* mdctSpectrum[i] = g * mdctSpectrum[i] + crossfadeGain * hTonalMDCTConc->lastBlockData.spectralData[i]; */ + L_tmp = L_add( L_tmp1, L_tmp2 ); // exp + } + mdctSpectrum[i] = L_shr( L_tmp, 31 - SPEC_EXP_DEC ); // exp+31-SPEC_EXP_DEC + move32(); } - mdctSpectrum[i] = L_shl( L_tmp2, exp ); // Q15 - e_crossfadeGain + Q15 - spectralData_exp + exp - move32(); + /* headroom for mdct_shaping */ + *mdctSpectrum_exp = add( exp, 31 - SPEC_EXP_DEC ); + move16(); } } - exp = sub( hTonalMDCTConc->lastBlockData.spectralData_exp, sub( *mdctSpectrum_exp, 16 ) ); + exp = sub( hTonalMDCTConc->lastBlockData.spectralData_exp, *mdctSpectrum_exp ); FOR( i = crossOverFreq; i < hTonalMDCTConc->lastBlockData.nSamples; i++ ) { - mdctSpectrum[i] = L_shl( L_deposit_l( hTonalMDCTConc->lastBlockData.spectralData[i] ), exp ); // Q15 - spectralData_exp + exp + mdctSpectrum[i] = L_shl( L_deposit_h( hTonalMDCTConc->lastBlockData.spectralData[i] ), exp ); // mdctSpectrum_exp move32(); } } @@ -3200,6 +3189,395 @@ static void CalcPowerSpec( powerSpec[nSamples - 1] = L_shr( powerSpec[nSamples - 2], 1 ); move32(); } + + +/*******************************************************/ +/*-------------- public functions -------------------- */ +/*******************************************************/ + +void TonalMdctConceal_create_concealment_noise_ivas_fx( + Word32 concealment_noise[L_FRAME48k], // Q31-concealment_noise_exp + Word16 *concealment_noise_exp, + CPE_DEC_HANDLE hCPE, + const Word16 L_frameTCX, // Q0 + const Word16 L_frame, // Q0 + const Word16 idchan, // Q0 + const Word16 subframe_idx, // Q0 + const Word16 core, // Q0 + const Word16 crossfade_gain, // Q15 + const TONALMDCTCONC_NOISE_GEN_MODE noise_gen_mode ) +{ + STEREO_MDCT_DEC_DATA_HANDLE hStereoMdct; + TonalMDCTConcealPtr hTonalMDCTConc; + Decoder_State *st; + HANDLE_FD_CNG_COM hFdCngCom; + Word16 *rnd_c, *rnd; + Word16 crossOverFreq, i, save_rnd_c, max_noise_line; + Word16 c, c_inv, inc; + Word32 noise_shape_buffer[L_FRAME48k]; + Word16 noise_shape_buffer_e[L_FRAME48k]; + Word16 start_idx, stop_idx, noise_shape_buffer_common_exp = MIN16B_FLT_FX, last_scf_e, temp_e; + move16(); + Word32 *cngNoiseLevelPtr; + Word32 last_scf; + + Word16 c_e, c_inv_e; + + push_wmops( "create_conc_noise" ); + + hStereoMdct = hCPE->hStereoMdct; + st = hCPE->hCoreCoder[idchan]; + hTonalMDCTConc = st->hTonalMDCTConc; + hFdCngCom = st->hFdCngDec->hFdCngCom; + rnd = &hStereoMdct->noise_seeds_channels[idchan]; + rnd_c = &hStereoMdct->noise_seed_common; + + /* determine start bin for IGF */ + IF( st->igf == 0 ) + { + IF( st->narrowBand == 0 ) + { + /* minimum needed for output with sampling rates lower then the + nominal sampling rate */ + crossOverFreq = s_min( L_frameTCX, L_frame ); + } + ELSE + { + crossOverFreq = L_frameTCX; + move16(); + } + } + ELSE + { + crossOverFreq = s_min( st->hIGFDec->infoIGFStartLine, L_frameTCX ); + } + + /* for tonal mdct concealment with tonal components above the crossover frequency, conditionally raise the frequency index until which noise is generated */ + max_noise_line = crossOverFreq; + move16(); + IF( st->tonal_mdct_plc_active ) + { + max_noise_line = s_max( max_noise_line, extract_l( L_add( hTonalMDCTConc->pTCI->upperIndex[hTonalMDCTConc->pTCI->numIndexes - 1], 1 ) ) ); + } + + /* first lost frame is handled separately */ + IF( !hTonalMDCTConc->lastBlockData.blockIsConcealed ) + { + *rnd = add( 1977, idchan ); // Q0 + move16(); + /* will be set twice when looping over two channels, but does not matter */ + *rnd_c = 1979; // Q0 + move16(); + } + + IF( GT_16( crossfade_gain, 32734 ) ) + /* Due to precision loss */ /* 0.999 in Q15*/ + { + /* In first frame, noise is weighted with zero anyway, we only need the random numbers for the sign scrambling */ + FOR( i = 0; i < max_noise_line; i++ ) + { + *rnd = own_random( rnd ); + move16(); + concealment_noise[i] = *rnd; // Q31-concealment_noise_exp + move32(); + } + *concealment_noise_exp = 31; + move16(); + pop_wmops(); + + return; + } + + save_rnd_c = *rnd_c; // Q0 + move16(); + + c_e = 1; + move16(); + c_inv_e = 1; + move16(); + + c = Sqrt16( hStereoMdct->lastCoh_fx, &c_e ); // Q1 = 15 - c_e + c_inv = Sqrt16( sub( ONE_IN_Q14, hStereoMdct->lastCoh_fx ), &c_inv_e ); // Q2 = 15 - c_inv_e + + IF( NE_16( c_e, c_inv_e ) ) + { + IF( LT_16( c_e, c_inv_e ) ) + { + c = shr( c, sub( c_inv_e, c_e ) ); // Q0 + c_e = c_inv_e; + move16(); + } + ELSE + { + c_inv = shr( c_inv, sub( c_e, c_inv_e ) ); // Q0 + } + } + + /* pre-compute the noise shape for later weighting of the noise spectra */ + cngNoiseLevelPtr = &hFdCngCom->cngNoiseLevel[0]; + last_scf_e = hFdCngCom->cngNoiseLevelExp; + move16(); + + IF( GT_16( st->core, TCX_20_CORE ) ) + { + inc = 2; + } + ELSE + { + inc = 1; + } + move16(); + start_idx = idiv1616( hFdCngCom->startBand, inc ); + stop_idx = idiv1616( hFdCngCom->stopFFTbin, inc ); + + FOR( i = 0; i < start_idx; i++ ) + { + noise_shape_buffer[i] = 0; + move32(); + noise_shape_buffer_e[i] = 0; + move16(); + } + FOR( ; i < stop_idx; ( i++, cngNoiseLevelPtr += inc ) ) + { + noise_shape_buffer_e[i] = hFdCngCom->cngNoiseLevelExp; + move16(); + noise_shape_buffer[i] = Sqrt32( *( cngNoiseLevelPtr ), &noise_shape_buffer_e[i] ); // Q31-noise_shape_buffer_e[i] + move32(); + noise_shape_buffer_common_exp = s_max( noise_shape_buffer_e[i], noise_shape_buffer_common_exp ); + } + + FOR( i = 0; i < stop_idx; i++ ) + { + IF( NE_16( noise_shape_buffer_common_exp, noise_shape_buffer_e[i] ) ) + { + + noise_shape_buffer[i] = L_shr( noise_shape_buffer[i], sub( noise_shape_buffer_common_exp, noise_shape_buffer_e[i] ) ); // Q31- (noise_shape_buffer_common_exp-noise_shape_buffer_e[i]) + move32(); + } + } + + last_scf = Sqrt32( *( cngNoiseLevelPtr - inc ), &last_scf_e ); // Q31-last_scf_e + + IF( LT_16( noise_shape_buffer_common_exp, last_scf_e ) ) + { + Scale_sig32( noise_shape_buffer, stop_idx, sub( noise_shape_buffer_common_exp, last_scf_e ) ); // Q31- (noise_shape_buffer_common_exp-last_scf_e) + + noise_shape_buffer_common_exp = last_scf_e; + move16(); + } + ELSE + { + last_scf = L_shl( last_scf, sub( last_scf_e, noise_shape_buffer_common_exp ) ); // Q31-(last_scf_e-noise_shape_buffer_common_exp) + } + + FOR( ; i < max_noise_line; i++ ) + { + noise_shape_buffer[i] = last_scf; // Q31 - noise_shape_buffer_common_exp + move32(); + } + + /* fill the noise vector */ + hTonalMDCTConc->curr_noise_nrg = MDCT_ST_PLC_FADEOUT_MIN_NOISE_NRG_Q31; // Q31 + move32(); + hTonalMDCTConc->curr_noise_nrg_exp = 0; + move16(); + *concealment_noise_exp = add( 16, add( noise_shape_buffer_common_exp, c_e ) ); + move16(); + temp_e = hTonalMDCTConc->curr_noise_nrg_exp; + move16(); + + test(); + test(); + test(); + test(); + IF( EQ_16( noise_gen_mode, EQUAL_CORES ) || ( ( EQ_16( noise_gen_mode, TCX20_IN_0_TCX10_IN_1 ) && EQ_16( idchan, 0 ) ) || ( EQ_16( noise_gen_mode, TCX10_IN_0_TCX20_IN_1 ) && EQ_16( idchan, 1 ) ) ) ) + { + /* current channel is TCX20 -> generate noise for "full-length" spectrum */ + + FOR( i = 0; i < max_noise_line; i++ ) + { + *rnd = own_random( rnd ); // Q0 + *rnd_c = own_random( rnd_c ); + + move16(); + move16(); + + concealment_noise[i] = Mpy_32_32( L_add( L_shr( L_mult( c_inv, *rnd ), 1 ), L_shr( L_mult( c, *rnd_c ), 1 ) ), noise_shape_buffer[i] ); // Q31 - *concealment_noise_exp + move32(); + IF( concealment_noise[i] != 0 ) + { + hTonalMDCTConc->curr_noise_nrg = BASOP_Util_Add_Mant32Exp( hTonalMDCTConc->curr_noise_nrg, hTonalMDCTConc->curr_noise_nrg_exp, Mpy_32_32( concealment_noise[i], concealment_noise[i] ), shl( *concealment_noise_exp, 1 ), &temp_e ); // Q31-temp_e + } + hTonalMDCTConc->curr_noise_nrg_exp = temp_e; + move16(); + } + } + ELSE /* ( ( noise_gen_mode == TCX10_IN_0_TCX20_IN_1 && idchan == 0 ) || ( noise_gen_mode == TCX20_IN_0_TCX10_IN_1 && idchan == 1 ) ) */ + { + /* current channel is TCX10 and the other is TCX20 -> generate noise for "half-length" spectrum, but "increment" mid seed twice, to have the same seed in mid as the other (TCX20) channel for next frame */ + FOR( i = 0; i < max_noise_line; i++ ) + { + *rnd = own_random( rnd ); // Q0 + *rnd_c = own_random( rnd_c ); // Q0 + move16(); + move16(); + + concealment_noise[i] = Mpy_32_32( L_add( L_shr( L_mult( c_inv, *rnd ), 1 ), L_shr( L_mult( c, *rnd_c ), 1 ) ), noise_shape_buffer[i] ); + move32(); + IF( concealment_noise[i] != 0 ) + { + hTonalMDCTConc->curr_noise_nrg = BASOP_Util_Add_Mant32Exp( hTonalMDCTConc->curr_noise_nrg, hTonalMDCTConc->curr_noise_nrg_exp, Mpy_32_32( concealment_noise[i], concealment_noise[i] ), shl( *concealment_noise_exp, 1 ), &temp_e ); // Q31-temp_e + } + hTonalMDCTConc->curr_noise_nrg_exp = temp_e; + move16(); + + *rnd_c = own_random( rnd_c ); + move16(); + } + } + + IF( st->tonal_mdct_plc_active ) + { + FOR( i = crossOverFreq; i < s_max( crossOverFreq, hTonalMDCTConc->pTCI->lowerIndex[hTonalMDCTConc->pTCI->numIndexes - 1] ); ++i ) + { + concealment_noise[i] = 0; + move32(); + } + } + + /* restore common seed + - after finishing the first channel + - after a first subframe if the current channel is TCX10 */ + + test(); + test(); + test(); + test(); + test(); + IF( ( EQ_16( idchan, 0 ) && ( EQ_16( core, TCX_20 ) || ( EQ_16( core, TCX_10 ) && EQ_16( subframe_idx, 1 ) ) ) ) || ( EQ_16( core, TCX_10 ) && EQ_16( subframe_idx, 0 ) ) ) + { + *rnd_c = save_rnd_c; + move16(); + } + + st->seed_tcx_plc = *rnd; + move16(); + + pop_wmops(); + + return; +} + + +void TonalMdctConceal_whiten_noise_shape_ivas_fx( + Decoder_State *st, + const Word16 L_frame, + const TONALMDCTCONC_NOISE_SHAPE_WHITENING_MODE whitening_mode ) +{ + Word16 inc, start_idx, stop_idx, i; + Word32 *noiseLevelPtr, *scfs_bg, *scfs_for_shaping; + Word16 noiseLevelPtr_exp; + HANDLE_FD_CNG_COM hFdCngCom; + Word32 whitenend_noise_shape[L_FRAME16k]; + Word16 q_wns; + Word32 scfs_int[FDNS_NPTS]; + const PsychoacousticParameters *psychParams; + + push_wmops( "apply_sns_on_noise_shape" ); + + scfs_bg = &st->hTonalMDCTConc->scaleFactorsBackground_fx[0]; + psychParams = st->hTonalMDCTConc->psychParams; + hFdCngCom = st->hFdCngDec->hFdCngCom; + + set32_fx( whitenend_noise_shape, 0, L_FRAME16k ); + + IF( EQ_32( whitening_mode, ON_FIRST_LOST_FRAME ) ) + { + IF( GT_16( st->core, TCX_20_CORE ) ) + { + inc = 2; + move16(); + } + ELSE + { + inc = 1; + move16(); + } + } + ELSE + { + IF( GT_16( st->last_core, TCX_20_CORE ) ) + { + inc = 2; + move16(); + } + ELSE + { + inc = 1; + move16(); + } + } + start_idx = shr( hFdCngCom->startBand, sub( inc, 1 ) ); + stop_idx = shr( L_frame, sub( inc, 1 ) ); + noiseLevelPtr = hFdCngCom->cngNoiseLevel; + noiseLevelPtr_exp = hFdCngCom->cngNoiseLevelExp; + move16(); + + FOR( Word16 j = start_idx; j < stop_idx; j++ ) + { + whitenend_noise_shape[j] = L_shr( *noiseLevelPtr, 3 ); + move32(); + noiseLevelPtr += inc; + } + + IF( EQ_32( whitening_mode, ON_FIRST_LOST_FRAME ) ) + { + Word32 scf[SNS_NPTS]; + + sns_compute_scf_fx( whitenend_noise_shape, psychParams, L_frame, scf, sub( sub( 31, noiseLevelPtr_exp ), 3 ) ); + + sns_interpolate_scalefactors_fx( scfs_int, scf, ENC ); + sns_interpolate_scalefactors_fx( scfs_bg, scf, DEC ); + + scfs_for_shaping = &scfs_int[0]; // Q16 + } + ELSE /* whitening_mode == ON_FIRST_GOOD_FRAME */ + { + scfs_for_shaping = &scfs_bg[0]; // Q16 + } + + IF( sum32_sat( scfs_for_shaping, FDNS_NPTS ) > 0 ) + { + q_wns = sub( sub( 31, noiseLevelPtr_exp ), 3 ); + sns_shape_spectrum_fx( whitenend_noise_shape, &q_wns, psychParams, scfs_for_shaping, Q16, L_frame, NULL ); + + IF( GT_16( add( q_wns, 1 ), sub( 31, hFdCngCom->cngNoiseLevelExp ) ) ) + { + FOR( i = 0; i < sub( stop_idx, start_idx ); i++ ) + { + hFdCngCom->cngNoiseLevel[i] = L_shr( whitenend_noise_shape[start_idx + i], sub( add( q_wns, hFdCngCom->cngNoiseLevelExp ), 30 ) ); //(q_wns + 1) + move32(); + } + } + ELSE + { + Copy32( whitenend_noise_shape + start_idx, hFdCngCom->cngNoiseLevel, sub( stop_idx, start_idx ) ); + + scale_sig32( hFdCngCom->cngNoiseLevel + sub( stop_idx, start_idx ), sub( FFTCLDFBLEN, sub( stop_idx, start_idx ) ), sub( add( q_wns, hFdCngCom->cngNoiseLevelExp ), 30 ) ); + + hFdCngCom->cngNoiseLevelExp = sub( Q30, q_wns ); // Exponent = 31 - (q_wns + 1) + move16(); + } + } + ELSE + { + set32_fx( hFdCngCom->cngNoiseLevel, 0, sub( stop_idx, start_idx ) ); + } + + pop_wmops(); +} + + #ifdef IVAS_CODE_CNG_FIX185_PLC_FADEOUT void TonalMdctConceal_create_concealment_noise( float concealment_noise[L_FRAME48k], diff --git a/lib_dec/transition_dec_fx.c b/lib_dec/transition_dec_fx.c index b82378198604518d2b6ea4a15a4417d0a306a15e..b9ad17fcfedb094ff24ca64463b55580d1315305 100644 --- a/lib_dec/transition_dec_fx.c +++ b/lib_dec/transition_dec_fx.c @@ -56,9 +56,7 @@ void transition_dec_fx( Word16 i, offset, temp, tmp; Word16 limit_flag; Word16 i_subfridx; -#ifdef REMOVE_IVAS_UNUSED_PARAMETERS_WARNING (void) ( Opt_AMR_WB ); -#endif i_subfridx = i_subfr / L_SUBFR; /*i_subfr / L_SUBFR*/ /* Set limit_flag to 0 for restrained limits, and 1 for extended limits */ @@ -830,9 +828,7 @@ Word16 tc_classif_fx( /*o: Q0*/ ) { Word16 tc_subfr, indice; -#ifdef REMOVE_IVAS_UNUSED_PARAMETERS_WARNING (void) ( L_frame ); -#endif IF( EQ_16( st_fx->L_frame, L_FRAME ) ) { IF( get_next_indice_fx( st_fx, 1 ) ) diff --git a/lib_dec/updt_dec_fx.c b/lib_dec/updt_dec_fx.c index 67621c442f24536792690208ac8915c5649d0846..0e1b951bb4afc1e1b5e636f067099700fba78b32 100644 --- a/lib_dec/updt_dec_fx.c +++ b/lib_dec/updt_dec_fx.c @@ -249,17 +249,17 @@ void updt_IO_switch_dec_fx( { swb_tbe_reset_fx( hBWE_TD->mem_csfilt_fx, hBWE_TD->mem_genSHBexc_filt_down_shb_fx, hBWE_TD->state_lpc_syn_fx, hBWE_TD->syn_overlap_fx, hBWE_TD->state_syn_shbexc_fx, &hBWE_TD->tbe_demph_fx, &hBWE_TD->tbe_premph_fx, hBWE_TD->mem_stp_swb_fx, &( hBWE_TD->gain_prec_swb_fx ) ); - set16_fx( st_fx->GainShape_Delay, 0, NUM_SHB_SUBFR / 2 ); + set16_fx( hBWE_TD->GainShape_Delay_fx, 0, NUM_SHB_SUBFR / 2 ); hBWE_TD->prev_pow_exc16kWhtnd_fx32 = 1; /*Q0 1.f*/ move32(); hBWE_TD->prev_mix_factor_fx = 32767; /*Q15 1.f*/ move16(); - swb_tbe_reset_synth_fx( hBWE_TD->genSHBsynth_Hilbert_Mem_fx, hBWE_TD->genSHBsynth_state_lsyn_filt_shb_local_fx ); + swb_tbe_reset_synth_fx( hBWE_TD->genSHBsynth_Hilbert_Mem_fx, hBWE_TD->genSHBsynth_state_lsyn_filt_shb_local_fx, hBWE_TD->genSHBsynth_state_lsyn_filt_shb_local_fx_32 ); } IF( EQ_16( output_frame, L_FRAME48k ) ) { - st_fx->prev_fb_ener_adjust_fx = 0; + hBWE_FD->prev_fb_ener_adjust_fx = 0; move16(); set16_fx( hBWE_TD->fb_state_lpc_syn_fx, 0, LPC_SHB_ORDER ); hBWE_TD->fb_tbe_demph_fx = 0; @@ -740,7 +740,7 @@ void updt_dec_common_fx( IF( st_fx->hTcxDec != NULL && st_fx->enablePlcWaveadjust && !concealWholeFrameTmp && NE_16( st_fx->core, AMR_WB_CORE ) ) { /* update the parameters used in waveform adjustment */ - concealment_update2_x( (const Word16 *) synth, &st_fx->plcInfo, hTcxDec->L_frameTCX ); + concealment_update2_x( (const Word16 *) synth, st_fx->hPlcInfo, hTcxDec->L_frameTCX ); } st_fx->last_total_brate_ber = st_fx->total_brate; @@ -1163,7 +1163,7 @@ void ivas_updt_dec_common_fx( IF( st_fx->hTcxDec != NULL && st_fx->enablePlcWaveadjust && !concealWholeFrameTmp && NE_16( st_fx->core, AMR_WB_CORE ) ) { /* update the parameters used in waveform adjustment */ - concealment_update2_x( (const Word16 *) synth, &st_fx->plcInfo, hTcxDec->L_frameTCX ); + concealment_update2_x( (const Word16 *) synth, st_fx->hPlcInfo, hTcxDec->L_frameTCX ); } st_fx->last_total_brate_ber = st_fx->total_brate; diff --git a/lib_dec/waveadjust_fec_dec_fx.c b/lib_dec/waveadjust_fec_dec_fx.c index 80241a24c9f79d528f9c4e7004e9ab7a54348e6a..75a514cc21c2fb99f546ae3ff75358544c97b3bc 100644 --- a/lib_dec/waveadjust_fec_dec_fx.c +++ b/lib_dec/waveadjust_fec_dec_fx.c @@ -35,28 +35,36 @@ void set_state( Word16 *state, Word16 num, Word16 N ) /*i/o: Qx */ } state[tmp] = num; move16(); + + return; } -void concealment_update_x( Word16 bfi, Word16 curr_mode, Word16 tonality, Word32 *invkoef /*Qinvkoef_scale*/, Word16 *invkoef_scale, void *_plcInfo ) +void concealment_update_x( + const Word16 bfi, + const Word16 core, + const Word16 tonality, + Word32 *invkoef /*Qinvkoef_scale*/, + Word16 *invkoef_scale, + T_PLCInfo_HANDLE hPlcInfo ) { - T_PLCInfo *plcInfo = (T_PLCInfo *) _plcInfo; - Word32 *data_reci2 = plcInfo->data_reci2_fx; - Word16 *tcx_tonality = plcInfo->TCX_Tonality; - Word16 FrameSize = plcInfo->FrameSize; - Word16 subframe = plcInfo->subframe_fx; + Word32 *data_reci2 = hPlcInfo->data_reci2_fx; + Word16 *tcx_tonality = hPlcInfo->TCX_Tonality; + Word16 L_frameTCX = hPlcInfo->L_frameTCX; + Word16 subframe = hPlcInfo->subframe_fx; Word16 i; move16(); move16(); - IF( EQ_16( curr_mode, 1 ) ) + + IF( EQ_16( core, TCX_20_CORE ) ) { - set_state( plcInfo->Transient, curr_mode, MAX_POST_LEN ); + set_state( hPlcInfo->Transient, core, MAX_POST_LEN ); - FOR( i = 0; i < FrameSize; i++ ) + FOR( i = 0; i < L_frameTCX; i++ ) { data_reci2[i] = invkoef[i]; move32(); } - plcInfo->data_reci2_scale = *invkoef_scale; + hPlcInfo->data_reci2_scale = *invkoef_scale; move16(); IF( !bfi ) { @@ -68,7 +76,7 @@ void concealment_update_x( Word16 bfi, Word16 curr_mode, Word16 tonality, Word32 IF( subframe == 0 ) { - set_state( plcInfo->Transient, curr_mode, MAX_POST_LEN ); + set_state( hPlcInfo->Transient, core, MAX_POST_LEN ); IF( !bfi ) { @@ -83,7 +91,7 @@ void concealment_update_x( Word16 bfi, Word16 curr_mode, Word16 tonality, Word32 { Word32 *ptr = data_reci2 + subframe; - Word16 FrameSize2 = shr( FrameSize, 1 ); + Word16 FrameSize2 = shr( L_frameTCX, 1 ); FOR( i = 0; i < FrameSize2; i++ ) { @@ -91,13 +99,15 @@ void concealment_update_x( Word16 bfi, Word16 curr_mode, Word16 tonality, Word32 move32(); } - plcInfo->data_reci2_scale = *invkoef_scale; + hPlcInfo->data_reci2_scale = *invkoef_scale; move16(); } } + return; } + static Word16 zero_pass_w32_x( const Word16 *s, const Word16 N ) /* i: Qx*/ /* o: 2*Qx-31*/ { Word16 i; @@ -601,15 +611,17 @@ Word16 get_conv_relation_x( Word16 *s_LP /*Qx*/, Word16 shIFt, Word16 N ) /*o :Q return tmp; } -static Word16 pitch_search_fx( Word16 *s /*Qs*/, /* lastPcmOut */ - Word16 *outx_new /*Qoutx_new*/, - Word16 Framesize, - Word16 *voicing /*Q15*/, - Word16 zp, /*Q0*/ - Word32 ener /*Q8*/, - Word32 ener_mean /*Q8*/, - Word32 *mdct_data /*Qmdct*/, - Word16 curr_mode ) + +static Word16 pitch_search_fx( + Word16 *s /*Qs*/, /* lastPcmOut */ + Word16 *outx_new /*Qoutx_new*/, + Word16 Framesize, + Word16 *voicing /*Q15*/, + Word16 zp, /*Q0*/ + Word32 ener /*Q8*/, + Word32 ener_mean /*Q8*/, + Word32 *mdct_data /*Qmdct*/, + Word16 curr_mode ) { Word16 pitch = 0; Word32 cov_max = L_deposit_l( 0 ), tilt_enr1, tilt_enr2; @@ -767,78 +779,77 @@ static Word16 pitch_search_fx( Word16 *s /*Qs*/, /* lastPcmOut */ return pitch; } -void concealment_init_x( Word16 N, void *_plcInfo ) +void concealment_init_x( + const Word16 L_frameTCX, + T_PLCInfo_HANDLE hPlcInfo ) { - T_PLCInfo *plcInfo = (T_PLCInfo *) _plcInfo; Word16 i; - plcInfo->FrameSize = N; + hPlcInfo->L_frameTCX = L_frameTCX; move16(); - plcInfo->Pitch_fx = 0; + hPlcInfo->Pitch_fx = 0; move16(); - plcInfo->T_bfi_fx = 0; + hPlcInfo->T_bfi_fx = 0; move16(); - plcInfo->outx_new_n1_fx = 0; + hPlcInfo->outx_new_n1_fx = 0; move16(); - plcInfo->nsapp_gain_fx = 0; + hPlcInfo->nsapp_gain_fx = 0; move16(); - plcInfo->nsapp_gain_n_fx = 0; + hPlcInfo->nsapp_gain_n_fx = 0; move16(); - plcInfo->ener_mean_fx = L_deposit_l( 15213 ); /*Q8 59.4260f*256*/ - plcInfo->ener_fx = L_deposit_l( 0 ); - plcInfo->zp_fx = N; + hPlcInfo->ener_mean_fx = L_deposit_l( 15213 ); /*Q8 59.4260f*256*/ + hPlcInfo->ener_fx = L_deposit_l( 0 ); + hPlcInfo->zp_fx = L_frameTCX; move16(); - plcInfo->recovery_gain = 0; + hPlcInfo->recovery_gain = 0; move16(); - plcInfo->step_concealgain_fx = 0; + hPlcInfo->step_concealgain_fx = 0; move16(); - plcInfo->concealment_method = TCX_NONTONAL; + hPlcInfo->concealment_method = TCX_NONTONAL; move16(); - plcInfo->subframe_fx = 0; + hPlcInfo->subframe_fx = 0; move16(); - plcInfo->nbLostCmpt = (Word16) L_deposit_l( 0 ); + hPlcInfo->nbLostCmpt = (Word16) L_deposit_l( 0 ); move16(); - plcInfo->seed = 21845; + hPlcInfo->seed = 21845; move16(); FOR( i = 0; i < TCX_TONALITY_INIT_CNT; i++ ) { - plcInfo->TCX_Tonality[i] = 1; + hPlcInfo->TCX_Tonality[i] = 1; move16(); } FOR( i = TCX_TONALITY_INIT_CNT; i < DEC_STATE_LEN; i++ ) { - plcInfo->TCX_Tonality[i] = 0; + hPlcInfo->TCX_Tonality[i] = 0; move16(); } FOR( i = 0; i < MAX_POST_LEN; i++ ) { - plcInfo->Transient[i] = 1; + hPlcInfo->Transient[i] = 1; move16(); } FOR( i = 0; i < L_FRAME_MAX; i++ ) { - plcInfo->data_reci2_fx[i] = L_deposit_l( 0 ); + hPlcInfo->data_reci2_fx[i] = L_deposit_l( 0 ); } + return; } + + void concealment_init_ivas_fx( const Word16 L_frameTCX, T_PLCInfo_HANDLE hPlcInfo ) { Word16 i; + hPlcInfo->L_frameTCX = L_frameTCX; move16(); - hPlcInfo->FrameSize = L_frameTCX; - move16(); - hPlcInfo->Pitch = 0; - move16(); hPlcInfo->Pitch_fx = 0; move16(); - hPlcInfo->T_bfi = 0; - move16(); hPlcInfo->T_bfi_fx = 0; move16(); hPlcInfo->outx_new_n1_fx = 0; @@ -849,8 +860,6 @@ void concealment_init_ivas_fx( move16(); hPlcInfo->ener_mean_fx = L_deposit_l( 15213 ); hPlcInfo->ener_fx = L_deposit_l( 0 ); - hPlcInfo->zp = L_frameTCX; - move16(); hPlcInfo->zp_fx = L_frameTCX; move16(); hPlcInfo->recovery_gain = 0; @@ -859,8 +868,6 @@ void concealment_init_ivas_fx( move16(); hPlcInfo->concealment_method = TCX_NONTONAL; move16(); - hPlcInfo->subframe = 0; - move16(); hPlcInfo->subframe_fx = 0; move16(); hPlcInfo->nbLostCmpt = (Word16) L_deposit_l( 0 ); @@ -900,21 +907,25 @@ static Word16 own_random_fix( /* o : output random value */ return ( *seed ); } -void concealment_decode_fix( Word16 curr_mode, Word32 *invkoef /*Qinvkoef_scale*/, Word16 *invkoef_scale, void *_plcInfo ) +void concealment_decode_fix( + Word16 curr_mode, + Word32 *invkoef /*Qinvkoef_scale*/, + Word16 *invkoef_scale, + T_PLCInfo_HANDLE hPlcInfo ) { - T_PLCInfo *plcInfo = (T_PLCInfo *) _plcInfo; Word16 i; - Word16 N = plcInfo->FrameSize; - Word16 *seed = &( plcInfo->seed ); + Word16 N = hPlcInfo->L_frameTCX; + Word16 *seed = &( hPlcInfo->seed ); Word16 sign; move16(); - IF( plcInfo->concealment_method == TCX_NONTONAL ) /* #define TCX_NONTONAL 0 */ + + IF( hPlcInfo->concealment_method == TCX_NONTONAL ) /* #define TCX_NONTONAL 0 */ { IF( EQ_16( curr_mode, 1 ) ) { /* copy the data of the last frame */ - MVR2R_WORD32( plcInfo->data_reci2_fx, invkoef, N ); - *invkoef_scale = plcInfo->data_reci2_scale; + MVR2R_WORD32( hPlcInfo->data_reci2_fx, invkoef, N ); + *invkoef_scale = hPlcInfo->data_reci2_scale; move16(); /* sign randomization */ FOR( i = 0; i < N; i++ ) @@ -928,6 +939,7 @@ void concealment_decode_fix( Word16 curr_mode, Word32 *invkoef /*Qinvkoef_scale* } } } + return; } @@ -1103,25 +1115,29 @@ Word32 con_Log10( Word32 i_s32Val /*Qi_s32Val*/, Word16 i_s16Q /*Q0*/ ) /*o; Q26 return s32Out; } -void concealment_update2_x( const Word16 *outx_new /*Qoutx_new*/, void *_plcInfo, const Word16 FrameSize ) +void concealment_update2_x( + const Word16 *outx_new /*Qoutx_new*/, + T_PLCInfo_HANDLE hPlcInfo, + const Word16 FrameSize ) { - T_PLCInfo *plcInfo = (T_PLCInfo *) _plcInfo; - - plcInfo->zp_fx = zero_pass_w32_x( outx_new, FrameSize ); + hPlcInfo->zp_fx = zero_pass_w32_x( outx_new, FrameSize ); move16(); - Log10OfEnergy_x( outx_new, &plcInfo->ener_fx, FrameSize ); /* Q8 */ + Log10OfEnergy_x( outx_new, &hPlcInfo->ener_fx, FrameSize ); /* Q8 */ test(); - IF( LT_16( plcInfo->zp_fx, 100 ) && GT_32( plcInfo->ener_fx, L_shl( 50, 8 ) ) ) + IF( LT_16( hPlcInfo->zp_fx, 100 ) && GT_32( hPlcInfo->ener_fx, L_shl( 50, 8 ) ) ) { - plcInfo->ener_mean_fx = L_add( Mpy_32_16_1( plcInfo->ener_mean_fx, 32112 /* 0.98 Q15 */ ), - Mpy_32_16_1( plcInfo->ener_fx, 655 /* 0.02 Q15 */ ) ); + hPlcInfo->ener_mean_fx = L_add( Mpy_32_16_1( hPlcInfo->ener_mean_fx, 32112 /* 0.98 Q15 */ ), + Mpy_32_16_1( hPlcInfo->ener_fx, 655 /* 0.02 Q15 */ ) ); move32(); } + return; } -static Word16 array_max_indx_fx( Word16 *s /*Qs*/, Word16 N ) +static Word16 array_max_indx_fx( + Word16 *s /*Qs*/, + Word16 N ) { Word16 i, indx = 0; move16(); @@ -1261,20 +1277,16 @@ static void add_noise( Word16 *const sbuf, /*Qsbuf*/ return; } -static Word16 waveform_adj_fix( Word16 *overlapbuf, /*Qoverlapbuf*/ - Word16 *outdata2, /*Qoutdata2*/ - Word16 *outx_new, /*Qoutx_new*/ - Word16 *data_noise, /*Qoutx_new*/ - Word16 *outx_new_n1, /*Q0*/ - Word16 *nsapp_gain, /*Q15*/ - Word16 *nsapp_gain_n, /*Q15*/ - Word16 Framesize, - Word8 T_bfi, - Word16 voicing, /*Q15*/ - Word16 curr_mode, - Word16 pitch /*Q0*/ ) +static Word16 waveform_adj_fix( + T_PLCInfo_HANDLE hPlcInfo, + Word16 *overlapbuf, /*Qoverlapbuf*/ + Word16 *outdata2, /*Qoutdata2*/ + Word16 *outx_new, /*Qoutx_new*/ + const Word16 Framesize, + const Word16 voicing, /*Q15*/ + const Word16 core ) { - Word16 i, zp1, zp2, Framesizediv2, s16MaxCoefNorm; + Word16 i, zp1, zp2, Framesizediv2, s16MaxCoefNorm, pitch; Word16 sbuf[L_FRAME_MAX]; Word16 tmp; @@ -1282,6 +1294,8 @@ static Word16 waveform_adj_fix( Word16 *overlapbuf, /*Qoverlapbuf*/ zp1 = zero_pass_w32_x( outdata2, Framesizediv2 ); zp2 = zero_pass_w32_x( outdata2 + Framesizediv2, Framesizediv2 ); + pitch = hPlcInfo->Pitch_fx; + /* judge if the pitch is usable */ tmp = 1; move16(); @@ -1300,7 +1314,7 @@ static Word16 waveform_adj_fix( Word16 *overlapbuf, /*Qoverlapbuf*/ test(); test(); test(); - IF( T_bfi && ( LE_16( pitch, Framesizediv2 ) ) && ( GT_16( Framesize, 256 ) ) && ( EQ_16( curr_mode, 1 ) ) ) + IF( hPlcInfo->T_bfi_fx && ( LE_16( pitch, Framesizediv2 ) ) && ( GT_16( Framesize, 256 ) ) && ( EQ_16( core, 1 ) ) ) { Word16 i1 = 0, i2 = 0; Word16 pos1, pos2, pos3; @@ -1383,15 +1397,18 @@ static Word16 waveform_adj_fix( Word16 *overlapbuf, /*Qoverlapbuf*/ last good frame) is still needed and overlapbuf overlaps outdata2 */ Copy( &sbuf[Framesize / 4], pitch125_data, shr( imult1616( 3, Framesize ), 2 ) ); - *nsapp_gain = 0; + hPlcInfo->nsapp_gain_fx = 0; move16(); - *nsapp_gain_n = sub( 32767, shr( voicing, 1 ) ); /* q15 */ + hPlcInfo->nsapp_gain_n_fx = sub( 32767, shr( voicing, 1 ) ); /* q15 */ tmp = Framesize; move16(); + /* use last good signal for noise generation */ - add_noise( sbuf, outx_new_n1, outdata2, tmp, nsapp_gain, nsapp_gain_n, 1 ); + add_noise( sbuf, &( hPlcInfo->outx_new_n1_fx ), outdata2, tmp, &( hPlcInfo->nsapp_gain_fx ), &( hPlcInfo->nsapp_gain_n_fx ), 1 ); + /* save current (noisy) output from IMDCT */ - MVR2R_WORD16( outx_new, data_noise, tmp ); + MVR2R_WORD16( outx_new, hPlcInfo->data_noise, tmp ); + /* overlapbuf can now be filled with sbuf, needed for subsequently lost frames */ Copy( pitch125_data, &overlapbuf[Framesize / 4], shr( imult1616( 3, Framesize ), 2 ) ); } @@ -1400,31 +1417,31 @@ static Word16 waveform_adj_fix( Word16 *overlapbuf, /*Qoverlapbuf*/ outx_new[i] = sbuf[i]; move16(); } + return pitch; } -void waveform_adj2_fix( Word16 *overlapbuf, /*Qoverlapbuf*/ - Word16 *outx_new, /*Qoutx_new*/ - Word16 *data_noise, /*Qoutx_new*/ - Word16 *outx_new_n1, /*Q0*/ - Word16 *nsapp_gain, /*Q15*/ - Word16 *nsapp_gain_n, /*Q15*/ - Word16 *recovery_gain, /*Q14*/ - Word16 step_concealgain, /*Q15*/ - Word16 pitch, /*Q0*/ - Word16 Framesize, - Word16 delay, - Word16 bfi_cnt, - Word16 bfi ) + +void waveform_adj2_fix( + T_PLCInfo_HANDLE hPlcInfo, + Word16 *overlapbuf, /*Qoverlapbuf*/ + Word16 *outx_new, /*Qoutx_new*/ + const Word16 delay, + const Word16 bfi_cnt, + const Word16 bfi ) { - Word16 i, n, tablescale, ratio, - dat, Framesizesubn, Framesizesubp, tmp16, s, ptable, temp_OUT, s16MaxCoefNorm, s16MaxCoefNorm2; + Word16 i, n, tablescale, ratio, dat, Framesizesubn, Framesizesubp, tmp16, s, ptable, temp_OUT, s16MaxCoefNorm, s16MaxCoefNorm2; Word16 sbuf[L_FRAME_MAX]; + Word16 pitch, L_frameTCX; + pitch = hPlcInfo->Pitch_fx; + move16(); + L_frameTCX = hPlcInfo->L_frameTCX; + move16(); n = 0; move16(); - Framesizesubn = sub( Framesize, n ); - Framesizesubp = sub( Framesize, pitch ); + Framesizesubn = sub( L_frameTCX, n ); + Framesizesubp = sub( L_frameTCX, pitch ); IF( pitch > 0 ) { WHILE( Framesizesubn > 0 ) @@ -1437,21 +1454,21 @@ void waveform_adj2_fix( Word16 *overlapbuf, /*Qoverlapbuf*/ move16(); } n = add( n, pitch ); - Framesizesubn = sub( Framesize, n ); + Framesizesubn = sub( L_frameTCX, n ); } - FOR( i = 0; i < Framesize; i++ ) + FOR( i = 0; i < L_frameTCX; i++ ) { overlapbuf[i] = sbuf[i]; move16(); } { - Word16 size = Framesize; - Word16 *noise_ptr = data_noise; + Word16 size = L_frameTCX; + Word16 *noise_ptr = hPlcInfo->data_noise; move16(); /* use last (noisy) output from IMDCT for noise generation */ - add_noise( sbuf, outx_new_n1, noise_ptr, size, nsapp_gain, nsapp_gain_n, 0 ); + add_noise( sbuf, &( hPlcInfo->outx_new_n1_fx ), noise_ptr, size, &( hPlcInfo->nsapp_gain_fx ), &( hPlcInfo->nsapp_gain_n_fx ), 0 ); /* save current (noisy) output from IMDCT */ IF( bfi ) @@ -1462,7 +1479,7 @@ void waveform_adj2_fix( Word16 *overlapbuf, /*Qoverlapbuf*/ test(); IF( EQ_16( bfi_cnt, 4 ) || bfi == 0 ) { - SWITCH( Framesize ) + SWITCH( L_frameTCX ) { case 160: { @@ -1510,40 +1527,40 @@ void waveform_adj2_fix( Word16 *overlapbuf, /*Qoverlapbuf*/ Word16 gain_zero_start = 10000; move16(); - IF( step_concealgain > 0 ) + IF( hPlcInfo->step_concealgain_fx > 0 ) { - gain_zero_start = BASOP_Util_Divide1616_Scale( *recovery_gain, step_concealgain, &s ); + gain_zero_start = BASOP_Util_Divide1616_Scale( hPlcInfo->recovery_gain, hPlcInfo->step_concealgain_fx, &s ); gain_zero_start = shl( gain_zero_start, sub( s, 14 ) ); /* q0 */ gain_zero_start = add( gain_zero_start, 1 ); } if ( delay > 0 ) { - Framesize = sub( Framesize, delay ); + L_frameTCX = sub( L_frameTCX, delay ); } - s16MaxCoefNorm = sub( ffr_getSfWord16( sbuf, Framesize ), 1 ); - s16MaxCoefNorm2 = ffr_getSfWord16( outx_new, Framesize ); - tmp16 = vadmin( gain_zero_start, Framesize ); + s16MaxCoefNorm = sub( ffr_getSfWord16( sbuf, L_frameTCX ), 1 ); + s16MaxCoefNorm2 = ffr_getSfWord16( outx_new, L_frameTCX ); + tmp16 = vadmin( gain_zero_start, L_frameTCX ); FOR( i = 0; i < tmp16; i++ ) { ratio = extract_l( L_shr( L_mult( i, ptable ), tablescale ) ); dat = shl( sbuf[i], s16MaxCoefNorm ); - temp_OUT = mult( *recovery_gain, sub( 32767, ratio ) ); + temp_OUT = mult( hPlcInfo->recovery_gain, sub( 32767, ratio ) ); outx_new[i] = round_fx_sat( L_add_sat( L_shr_sat( L_mult( temp_OUT, dat ), sub( s16MaxCoefNorm, 1 ) ), L_shr_sat( L_mult( shl( outx_new[i], s16MaxCoefNorm2 ), ratio ), s16MaxCoefNorm2 ) ) ); move16(); - *recovery_gain = sub_sat( *recovery_gain, shr_r( step_concealgain, 1 ) ); /* q14 */ + hPlcInfo->recovery_gain = sub_sat( hPlcInfo->recovery_gain, shr_r( hPlcInfo->step_concealgain_fx, 1 ) ); /* q14 */ } - FOR( i = gain_zero_start; i < Framesize; i++ ) + FOR( i = gain_zero_start; i < L_frameTCX; i++ ) { ratio = extract_l( L_shr( L_mult( i, ptable ), tablescale ) ); outx_new[i] = round_fx_sat( L_shr_sat( L_mult( shl( outx_new[i], s16MaxCoefNorm2 ), ratio ), s16MaxCoefNorm2 ) ); move16(); } - if ( *recovery_gain < 0 ) + if ( hPlcInfo->recovery_gain < 0 ) { - *recovery_gain = 0; + hPlcInfo->recovery_gain = 0; move16(); } } @@ -1551,9 +1568,9 @@ void waveform_adj2_fix( Word16 *overlapbuf, /*Qoverlapbuf*/ { /* overlap-and-add */ Word16 tmp; - s16MaxCoefNorm = sub( ffr_getSfWord16( sbuf, Framesize ), 1 ); - s16MaxCoefNorm2 = ffr_getSfWord16( outx_new, Framesize ); - FOR( i = 0; i < Framesize; i++ ) + s16MaxCoefNorm = sub( ffr_getSfWord16( sbuf, L_frameTCX ), 1 ); + s16MaxCoefNorm2 = ffr_getSfWord16( outx_new, L_frameTCX ); + FOR( i = 0; i < L_frameTCX; i++ ) { dat = shl( sbuf[i], s16MaxCoefNorm ); tmp = extract_l( L_shr( L_mult( i, ptable ), tablescale ) ); @@ -1564,7 +1581,7 @@ void waveform_adj2_fix( Word16 *overlapbuf, /*Qoverlapbuf*/ } ELSE { - FOR( i = 0; i < Framesize; i++ ) + FOR( i = 0; i < L_frameTCX; i++ ) { outx_new[i] = sbuf[i]; move16(); @@ -1574,71 +1591,44 @@ void waveform_adj2_fix( Word16 *overlapbuf, /*Qoverlapbuf*/ return; } -void concealment_signal_tuning_fx( Word16 bfi, Word16 curr_mode, Word16 *outx_new_fx /*Qoutx_new_fx*/, void *_plcInfo, Word16 nbLostCmpt, Word16 pre_bfi, Word16 *OverlapBuf_fx /*QOverlapBuf_fx*/, Word16 past_core_mode, Word16 *outdata2_fx /*Qoutdata2_fx*/, Decoder_State *st ) +void concealment_signal_tuning_fx( + Decoder_State *st, + const Word16 bfi, + Word16 *outx_new_fx /*Qoutx_new_fx*/, + const Word16 past_core ) { - T_PLCInfo *plcInfo = (T_PLCInfo *) _plcInfo; - Word16 FrameSize = plcInfo->FrameSize; - Word16 Pitch = plcInfo->Pitch_fx; + T_PLCInfo_HANDLE hPlcInfo = st->hPlcInfo; + Word16 L_frameTCX = hPlcInfo->L_frameTCX; Word16 voicing_fx = 0; + Word16 *OverlapBuf_fx = st->hTonalMDCTConc->secondLastPcmOut; + Word16 *outdata2_fx = st->hTonalMDCTConc->lastPcmOut; move16(); move16(); move16(); move16(); + IF( bfi ) { - test(); - IF( st->enablePlcWaveadjust && plcInfo->concealment_method == TCX_NONTONAL ) /* #define TCX_NONTONAL 0 */ + IF( st->enablePlcWaveadjust && hPlcInfo->concealment_method == TCX_NONTONAL ) /* #define TCX_NONTONAL 0 */ { - - IF( EQ_16( nbLostCmpt, 1 ) ) + IF( EQ_16( st->nbLostCmpt, 1 ) ) { - plcInfo->Pitch_fx = pitch_search_fx( outdata2_fx, - outx_new_fx, - FrameSize, - &voicing_fx, - plcInfo->zp_fx, - ( plcInfo->ener_fx ), - ( plcInfo->ener_mean_fx ), - plcInfo->data_reci2_fx, - curr_mode ); + hPlcInfo->Pitch_fx = pitch_search_fx( outdata2_fx, outx_new_fx, L_frameTCX, &voicing_fx, hPlcInfo->zp_fx, ( hPlcInfo->ener_fx ), ( hPlcInfo->ener_mean_fx ), hPlcInfo->data_reci2_fx, st->core ); move16(); - IF( plcInfo->Pitch_fx ) /* waveform adjustment for the first lost frame */ + IF( hPlcInfo->Pitch_fx ) /* waveform adjustment for the first lost frame */ { - plcInfo->Pitch_fx = waveform_adj_fix( OverlapBuf_fx, - outdata2_fx, - outx_new_fx, - plcInfo->data_noise, - &plcInfo->outx_new_n1_fx, - &plcInfo->nsapp_gain_fx, - &plcInfo->nsapp_gain_n_fx, - FrameSize, - plcInfo->T_bfi_fx, - voicing_fx, - curr_mode, - plcInfo->Pitch_fx ); + hPlcInfo->Pitch_fx = waveform_adj_fix( hPlcInfo, OverlapBuf_fx, outdata2_fx, outx_new_fx, L_frameTCX, voicing_fx, st->core ); move16(); } } - ELSE IF( LT_16( nbLostCmpt, 5 ) ) /* waveform adjustment for the 2nd~4th lost frame */ + ELSE IF( LT_16( st->nbLostCmpt, 5 ) ) /* waveform adjustment for the 2nd~4th lost frame */ { - waveform_adj2_fix( OverlapBuf_fx, - outx_new_fx, - plcInfo->data_noise, - &plcInfo->outx_new_n1_fx, - &plcInfo->nsapp_gain_fx, - &plcInfo->nsapp_gain_n_fx, - &plcInfo->recovery_gain, - plcInfo->step_concealgain_fx, - Pitch, - FrameSize, - 0, - nbLostCmpt, - bfi ); + waveform_adj2_fix( hPlcInfo, OverlapBuf_fx, outx_new_fx, 0, st->nbLostCmpt, bfi ); } } - plcInfo->T_bfi_fx = 1; + hPlcInfo->T_bfi_fx = 1; move16(); } ELSE @@ -1646,34 +1636,22 @@ void concealment_signal_tuning_fx( Word16 bfi, Word16 curr_mode, Word16 *outx_ne test(); test(); test(); - IF( pre_bfi && - past_core_mode != 0 && + IF( st->prev_bfi && + past_core != ACELP_CORE && GE_32( st->last_total_brate, 48000 ) && EQ_16( st->last_codec_mode, MODE2 ) ) { - IF( plcInfo->concealment_method == TCX_NONTONAL ) /* #define TCX_NONTONAL 0 */ + IF( hPlcInfo->concealment_method == TCX_NONTONAL ) /* #define TCX_NONTONAL 0 */ { - IF( LT_32( plcInfo->nbLostCmpt, 4 ) ) /* smoothing of the concealed signal with the good signal */ + IF( LT_32( hPlcInfo->nbLostCmpt, 4 ) ) /* smoothing of the concealed signal with the good signal */ { - waveform_adj2_fix( OverlapBuf_fx, - outx_new_fx, - plcInfo->data_noise, - &plcInfo->outx_new_n1_fx, - &plcInfo->nsapp_gain_fx, - &plcInfo->nsapp_gain_n_fx, - &plcInfo->recovery_gain, - plcInfo->step_concealgain_fx, - Pitch, - FrameSize, - 0, - add( extract_l( plcInfo->nbLostCmpt ), 1 ), - bfi ); + waveform_adj2_fix( hPlcInfo, OverlapBuf_fx, outx_new_fx, 0, add( extract_l( hPlcInfo->nbLostCmpt ), 1 ), bfi ); } } } ELSE { - plcInfo->T_bfi_fx = 0; + hPlcInfo->T_bfi_fx = 0; move16(); } } diff --git a/lib_enc/ACcontextMapping_enc_fx.c b/lib_enc/ACcontextMapping_enc_fx.c index 203f39707841de02331ada3f1c518abda24cf86e..43bd30fd4a5a3d9514160fc45397991ee27fbfb9 100644 --- a/lib_enc/ACcontextMapping_enc_fx.c +++ b/lib_enc/ACcontextMapping_enc_fx.c @@ -7,14 +7,12 @@ #include "options.h" #include "basop_util.h" #include "cnst.h" -#include "prot.h" #include "prot_fx.h" #include "ivas_prot_fx.h" #include "rom_com.h" #include "ivas_rom_com.h" #include "ivas_rom_enc.h" #include "prot_fx_enc.h" -#include "ivas_prot.h" /* Range coder header file */ #define MAKE_NUMBER_QX( number, QX ) ( ( number ) << ( QX ) ) /* evaulated at compile time */ #define MAKE_VARIABLE_QX( variable, QX ) W_shl( W_deposit32_l( L_deposit_l( ( variable ) ) ), ( QX ) ) /* evaluated at run time */ @@ -345,13 +343,13 @@ void ACcontextMapping_encode2_no_mem_s17_LC_fx( /* Push number of encoded tuples */ value = sub( shr( lastnz, 1 ), 1 ); /* Q0 */ - push_next_indice_fx( hBstr, value, nbbits_ntuples ); + push_next_indice( hBstr, value, nbbits_ntuples ); /* Push arithmetic coded bits */ - push_next_bits_fx( hBstr, &ptr[nbbits_ntuples], sub( bp, nbbits_ntuples ) ); + push_next_bits( hBstr, (UWord16 *) &ptr[nbbits_ntuples], sub( bp, nbbits_ntuples ) ); /* Push sign bits */ - push_next_bits_fx( hBstr, signs, nbbits_signs ); + push_next_bits( hBstr, (UWord16 *) signs, nbbits_signs ); bp = add( bp, nbbits_signs ); /* Q0 */ /*write residual Quantization bits*/ @@ -374,7 +372,7 @@ void ACcontextMapping_encode2_no_mem_s17_LC_fx( assert( bp + k <= nbbits ); /* Push the rest of the buffer */ - push_next_bits_fx( hBstr, &ptr[bp], sub( nbbits, bp ) ); + push_next_bits( hBstr, (UWord16 *) &ptr[bp], sub( nbbits, bp ) ); return /*(bp+nbbits_lsbs)*/; /*return only for debug plot*/ } @@ -1342,8 +1340,8 @@ Word16 RCcontextMapping_encode2_estimate_no_mem_s17_LCS_fx( } /* Init current 2-tuple encoding */ - a1 = (Word16) abs( x[a1_i] ); - b1 = (Word16) abs( x[b1_i] ); + a1 = abs_s( x[a1_i] ); + b1 = abs_s( x[b1_i] ); lev1 = -( 1 << ( NBITS_CONTEXT + NBITS_RATEQ ) ); bit_estimate_fx = W_add( bit_estimate_fx, MAKE_VARIABLE_QX( s_min( a1, 1 ), Q23 ) ); @@ -1732,7 +1730,8 @@ Word16 RCcontextMapping_encode2_estimate_bandWise_fx( /* Main Loop through the 2-tuples */ /*hContextMem->nt_half = end_line >> 1;*/ - FOR( k = start_line; k < min( hContextMem->lastnz, end_line ); k += 2 ) + Word16 len = s_min( hContextMem->lastnz, end_line ); + FOR( k = start_line; k < len; k += 2 ) { a1_i = k; /* Q0 */ move16(); diff --git a/lib_enc/FEC_enc_fx.c b/lib_enc/FEC_enc_fx.c index 9106e23e70eeb8e67b6eaa8cd1be674973598811..69b14eb9b65dcbc5422bd658464249a3967b882b 100644 --- a/lib_enc/FEC_enc_fx.c +++ b/lib_enc/FEC_enc_fx.c @@ -9,7 +9,6 @@ #include "rom_com.h" /* Static table prototypes */ #include "prot_fx.h" /* Function prototypes */ #include "prot_fx_enc.h" /* Function prototypes */ -#include "prot.h" /* Function prototypes */ #include "ivas_prot_fx.h" /* Function prototypes */ @@ -95,7 +94,7 @@ void FEC_encode_fx( index = 3; move16(); } - push_indice_fx( hBstr, IND_FEC_CLAS, index, FEC_BITS_CLS ); + push_indice( hBstr, IND_FEC_CLAS, index, FEC_BITS_CLS ); } /*-----------------------------------------------------------------* @@ -118,7 +117,7 @@ void FEC_encode_fx( tmpS = s_min( tmpS, 31 ); tmpS = s_max( tmpS, 0 ); - push_indice_fx( hBstr, IND_FEC_ENR, tmpS, FEC_BITS_ENR ); + push_indice( hBstr, IND_FEC_ENR, tmpS, FEC_BITS_ENR ); } /*-----------------------------------------------------------------* * Encode last glottal pulse position (8 bits) @@ -158,7 +157,7 @@ void FEC_encode_fx( maxi = add( maxi, 128 ); /* use 8 bits (MSB represent the sign of the pulse) Q0*/ } - push_indice_fx( hBstr, IND_FEC_POS, maxi, FEC_BITS_POS ); + push_indice( hBstr, IND_FEC_POS, maxi, FEC_BITS_POS ); } maxi = 0; move16(); diff --git a/lib_enc/SNR_calc_fx.c b/lib_enc/SNR_calc_fx.c index f44530c849cf8108fea348eef9dc8eb888cf2795..09acfd5dca1bb7bde7ab0896faee5ba2148c79d1 100644 --- a/lib_enc/SNR_calc_fx.c +++ b/lib_enc/SNR_calc_fx.c @@ -10,7 +10,6 @@ #include "prot_fx_enc.h" /* Function prototypes */ #include "rom_enc.h" #include "rom_com.h" -#include "prot.h" /*-------------------------------------------------------------------* diff --git a/lib_enc/acelp_core_enc_fx.c b/lib_enc/acelp_core_enc_fx.c index a294d12da8764c3177b6097a5d046fa52f84734c..795f03403e1355a49da0ffba61995e412aa6ad98 100644 --- a/lib_enc/acelp_core_enc_fx.c +++ b/lib_enc/acelp_core_enc_fx.c @@ -6,7 +6,6 @@ #include #include "options.h" /* Compilation switches */ #include "cnst.h" -#include "prot.h" #include "prot_fx.h" #include "stat_enc.h" #include "rom_com.h" @@ -14,7 +13,6 @@ #include "rom_com_fx.h" /* Static table prototypes */ #include "prot_fx_enc.h" /* Function prototypes */ #include "ivas_cnst.h" -#include "ivas_prot.h" #include "ivas_prot_fx.h" /*-------------------------------------------------------------------* @@ -39,14 +37,10 @@ ivas_error acelp_core_enc_fx( Word16 old_syn_12k8_16k_fx[], /* o : intermediate ACELP synthesis at 12.8kHz or 16kHz to be used by SWB BWE q_old_syn*/ Word16 pitch_buf_fx[NB_SUBFR16k], /* o : floating pitch for each subframe Q6*/ Word16 *unbits_fx, /* o : number of unused bits Q0*/ + STEREO_TD_ENC_DATA_HANDLE hStereoTD, /* i/o: TD stereo encoder handle */ + const float tdm_lsfQ_PCh[M], /* i : Q LSFs for primary channel */ const Word16 Q_new, - const Word16 shift -#ifdef ADD_LRTD - , - STEREO_TD_ENC_DATA_HANDLE hStereoTD, /* i/o: TD stereo encoder handle */ - const float tdm_lsfQ_PCh[M] /* i : Q LSFs for primary channel */ -#endif -) + const Word16 shift ) { Word16 nBits; /* reserved bits */ Word16 i; @@ -113,6 +107,8 @@ ivas_error acelp_core_enc_fx( * Initialization *------------------------------------------------------------------*/ + (void) tdm_lsfQ_PCh; + Es_pred_fx = 0; move16(); @@ -206,16 +202,14 @@ ivas_error acelp_core_enc_fx( /* TD stereo */ test(); -#ifdef ADD_LRTD IF( EQ_16( st_fx->element_mode, IVAS_CPE_TD ) && EQ_16( st_fx->idchan, 1 ) ) { tdm_lp_reuse_flag = hStereoTD->tdm_lp_reuse_flag; tdm_low_rate_mode = hStereoTD->tdm_low_rate_mode; tdm_Pitch_reuse_flag = hStereoTD->tdm_Pitch_reuse_flag; - tdm_Pri_pitch_buf = hStereoTD->tdm_Pri_pitch_buf; + tdm_Pri_pitch_buf = hStereoTD->tdm_Pri_pitch_buf_fx; } ELSE -#endif { tdm_lp_reuse_flag = 0; tdm_low_rate_mode = 0; @@ -333,7 +327,6 @@ ivas_error acelp_core_enc_fx( { IF( hTdCngEnc != NULL ) { - /*IVAS_CODE CNG_att is missing */ enr = cng_energy_fx( st_fx->element_mode, st_fx->bwidth, hDtxEnc->CNG_mode, /*st_fx->hTdCngEnc->CNG_att*/ 0, exc_fx, st_fx->L_frame, Q_new ); // Q8 /* calculate the energy quantization index */ @@ -402,11 +395,7 @@ ivas_error acelp_core_enc_fx( IF( !nelp_mode && !ppp_mode ) { config_acelp1( ENC, st_fx->total_brate, st_fx->core_brate, st_fx->core, st_fx->extl, st_fx->extl_brate, -#ifdef NONBE_FIX_GSC_BSTR st_fx->L_frame, st_fx->GSC_noisy_speech, &( st_fx->acelp_cfg ), hBstr->nb_bits_tot, st_fx->coder_type, st_fx->inactive_coder_type_flag, -#else - st_fx->L_frame, st_fx->GSC_noisy_speech, &( st_fx->acelp_cfg ), hBstr->nb_bits_tot, st_fx->coder_type, -#endif tc_subfr_fx, 0, &nb_bits, unbits_fx, st_fx->element_mode, &uc_two_stage_flag, tdm_lp_reuse_flag, tdm_low_rate_mode, st_fx->idchan, st_fx->active_fr_cnt_fx, tdm_Pitch_reuse_flag, st_fx->tdm_LRTD_flag, st_fx->GSC_IVAS_mode ); } @@ -453,78 +442,8 @@ ivas_error acelp_core_enc_fx( if ( !tdm_lp_reuse_flag ) { -#ifdef LSF_RE_USE_SECONDARY_CHANNEL - lsf_enc_fx( st_fx, lsf_new_fx, lsp_new_fx, lsp_mid_fx, Aq_fx, st_fx->Nb_ACELP_frames, tdm_low_rate_mode, st_fx->GSC_IVAS_mode, tdm_lsfQ_PCh, Q_new ); -#else lsf_enc_fx( st_fx, lsf_new_fx, lsp_new_fx, lsp_mid_fx, Aq_fx, st_fx->Nb_ACELP_frames, tdm_low_rate_mode, st_fx->GSC_IVAS_mode, Q_new ); -#endif - } -#ifdef ADD_LRTD - else - { - const float *pt_interp_2; -#ifdef LSF_RE_USE_SECONDARY_CHANNEL - if ( st->active_cnt != 1 ) - { - int16_t beta_index; - float lsf_wgts[M]; - - /* intra_frame prediction for the LSFs */ - lsp2lsf( lsp_new, lsf_new, M, 12800 ); - - Unified_weighting( &st->Bin_E[L_FFT / 2], lsf_new, lsf_wgts, st->bwidth == NB, st->coder_type == UNVOICED, st->sr_core, M ); - - tdm_SCh_lsf_reuse( ENC, st->element_brate, lsf_new, lsp_new, tdm_lsfQ_PCh, lsf_wgts, &beta_index ); - - push_indice( hBstr, IND_IC_LSF_PRED, beta_index, TDM_IC_LSF_PRED_BITS ); - } -#endif - pt_interp_2 = interpol_frac_12k8; - if ( tdm_low_rate_mode == 1 && st->coder_type > UNVOICED ) - { - pt_interp_2 = interpol_frac2; - } -#ifndef LSF_RE_USE_SECONDARY_CHANNEL - if ( st->active_cnt == 1 ) - { - mvr2r( lsp_new, st->lsp_old, M ); - lsp2lsf( lsp_new, st->lsf_old, M, st->sr_core ); - lsp2lsf( lsp_new, lsf_new, M, st->sr_core ); - } -#endif - /* LSP interpolation and conversion of LSPs to A(z) */ - int_lsp( st->L_frame, st->lsp_old, lsp_new, Aq, M, pt_interp_2, 0 ); - - /* Check LSF stability (distance between old LSFs and current LSFs) */ - st->stab_fac = lsf_stab( lsf_new, st->lsf_old, 0, st->L_frame ); - } - if ( st->last_core == HQ_CORE && st->element_mode > EVS_MONO ) - { - /* Prepare ACB memory from last HQ frame */ - tmpF = hLPDmem->old_exc[0]; - preemph( hLPDmem->old_exc, st->preemph_fac, st->L_frame, &tmpF ); - mvr2r( hLPDmem->old_exc + st->L_frame - M, hLPDmem->mem_syn, M ); - residu( Aq, M, hLPDmem->old_exc, old_exc, st->L_frame ); - } - - if ( st->last_core != ACELP_CORE && st->element_mode > EVS_MONO ) - { - /* Prepare ACB memory of old_bwe_exc */ -#ifdef CR_FIX_639_HQ_ACELP_TRANSITION - if ( st->L_frame == L_FRAME ) - { - lerp( old_exc, old_bwe_exc, L_EXC_MEM_DEC * HIBND_ACB_L_FAC, L_EXC_MEM_DEC ); - } - else - { - lerp( old_exc, old_bwe_exc, L_EXC_MEM_DEC * 2, L_EXC_MEM_DEC ); - } -#else - lerp( old_exc, old_bwe_exc, L_EXC_MEM_DEC * HIBND_ACB_L_FAC, L_EXC_MEM_DEC ); -#endif } -#endif - /*---------------------------------------------------------------* * Calculation of LP residual (filtering through A[z] filter) @@ -542,11 +461,7 @@ ivas_error acelp_core_enc_fx( tc_classif_enc_fx( Q_new, st_fx->L_frame, &tc_subfr_fx, &position, attack_flag, st_fx->pitch[0], res_fx ); config_acelp1( ENC, st_fx->total_brate, st_fx->core_brate, st_fx->core, st_fx->extl, st_fx->extl_brate, st_fx->L_frame, -#ifdef NONBE_FIX_GSC_BSTR -1, &( st_fx->acelp_cfg ), hBstr->nb_bits_tot, TRANSITION, -1, tc_subfr_fx, 1, NULL, unbits_fx, st_fx->element_mode, &uc_two_stage_flag, -#else - -1, &( st_fx->acelp_cfg ), hBstr->nb_bits_tot, st_fx->coder_type, tc_subfr_fx, 1, NULL, unbits_fx, st_fx->element_mode, &uc_two_stage_flag, -#endif tdm_lp_reuse_flag, tdm_low_rate_mode, st_fx->idchan, st_fx->active_fr_cnt_fx, tdm_Pitch_reuse_flag, st_fx->tdm_LRTD_flag, st_fx->GSC_IVAS_mode ); } @@ -557,7 +472,7 @@ ivas_error acelp_core_enc_fx( IF( nb_bits > 0 ) { Es_pred_enc_fx( &Es_pred_fx, &indice, st_fx->L_frame, res_fx, st_fx->voicing_fx, nb_bits, 0, Q_new ); - push_indice_fx( st_fx->hBstr, IND_ES_PRED, indice, nb_bits ); + push_indice( st_fx->hBstr, IND_ES_PRED, indice, nb_bits ); } @@ -566,26 +481,12 @@ ivas_error acelp_core_enc_fx( *------------------------------------------------------------*/ test(); test(); -#ifdef ADD_LRTD - if ( tdm_low_rate_mode ) /* tdm stereo low rate mode */ + IF( hSC_VBR->nelp_mode ) { - if ( st->coder_type <= UNVOICED ) - { - tdm_low_rate_enc( st, Aq, res, syn, exc, pitch_buf, voice_factors, bwe_exc, 0 /*attack_flag*/, lsf_new, &tmp_noise ); - } - else /* GENERIC */ - { - encod_gen_2sbfr( st, inp, Aw, Aq, res, syn, exc, exc2, pitch_buf, voice_factors, bwe_exc, tdm_Pitch_reuse_flag, tdm_Pri_pitch_buf ); - } + /* SC-VBR - NELP frames */ + encod_nelp_fx( st_fx, inp_fx, Aw_fx, Aq_fx, res_fx, syn_fx, &tmp_noise_fx, exc_fx, exc2_fx, pitch_buf_fx, + voice_factors_fx, bwe_exc_fx, Q_new, shift ); } - else -#endif - IF( hSC_VBR->nelp_mode ) - { - /* SC-VBR - NELP frames */ - encod_nelp_fx( st_fx, inp_fx, Aw_fx, Aq_fx, res_fx, syn_fx, &tmp_noise_fx, exc_fx, exc2_fx, pitch_buf_fx, - voice_factors_fx, bwe_exc_fx, Q_new, shift ); - } ELSE IF( EQ_16( coder_type, UNVOICED ) ) { /* UNVOICED frames (Gauss. excitation) */ @@ -613,19 +514,12 @@ ivas_error acelp_core_enc_fx( /* Configure ACELP bit allocation */ config_acelp1( ENC, st_fx->total_brate, st_fx->core_brate, st_fx->core, st_fx->extl, st_fx->extl_brate, st_fx->L_frame, -#ifdef NONBE_FIX_GSC_BSTR -1, &( st_fx->acelp_cfg ), hBstr->nb_bits_tot, st_fx->coder_type, st_fx->inactive_coder_type_flag, tc_subfr_fx, 0, &nb_bits, unbits_fx, 0, &uc_two_stage_flag, 0, 0, -#else - -1, &( st_fx->acelp_cfg ), hBstr->nb_bits_tot, st_fx->coder_type, tc_subfr_fx, 0, &nb_bits, unbits_fx, 0, &uc_two_stage_flag, 0, 0, -#endif st_fx->idchan, st_fx->active_fr_cnt_fx, tdm_Pitch_reuse_flag, st_fx->tdm_LRTD_flag, st_fx->GSC_IVAS_mode ); /* redo LSF quantization */ -#ifdef LSF_RE_USE_SECONDARY_CHANNEL - lsf_enc_fx( st_fx, lsf_new_fx, lsp_new_fx, lsp_mid_fx, Aq_fx, st_fx->Nb_ACELP_frames, tdm_low_rate_mode, st_fx->GSC_IVAS_mode, tdm_lsfQ_PCh, Q_new ); -#else lsf_enc_fx( st_fx, lsf_new_fx, lsp_new_fx, lsp_mid_fx, Aq_fx, st_fx->Nb_ACELP_frames, tdm_low_rate_mode, st_fx->GSC_IVAS_mode, Q_new ); -#endif + /* recalculation of LP residual (filtering through A[z] filter) */ calc_residu_fx( st_fx, inp_fx, res_fx, Aq_fx ); @@ -725,7 +619,7 @@ ivas_error acelp_core_enc_fx( WHILE( nBits > 0 ) { i = s_min( nBits, 16 ); // Q0 - push_indice_fx( st_fx->hBstr, IND_UNUSED, 0, i ); + push_indice( st_fx->hBstr, IND_UNUSED, 0, i ); nBits = sub( nBits, i ); // Q0 } } @@ -866,21 +760,17 @@ ivas_error acelp_core_enc_ivas_fx( Word32 Bin_E_fx[L_FFT], Bin_E_old_fx[L_FFT / 2]; Word16 clip_var_fx, mem_w0_bck_fx, streaklimit_fx; -#ifdef MSAN_FIX set16_fx( old_bwe_exc_fx, 0, ( PIT16k_MAX + ( L_FRAME16k + 1 ) + L_SUBFR16k ) * 2 ); set16_fx( old_exc_fx, 0, L_EXC ); set16_fx( Aq, 0, NB_SUBFR16k * ( M + 1 ) ); set16_fx( syn_fx, 0, L_FRAME16k ); -#endif Word16 tilt_code_bck_fx; Word32 gc_threshold_bck_fx; Word16 clip_var_bck_fx[6]; Word32 q_env_fx[NUM_ENV_CNG]; -#ifdef MSAN_FIX set32_fx( q_env_fx, 0, NUM_ENV_CNG ); set16_fx( exc2_fx, 0, L_FRAME16k ); -#endif Word16 exc3_fx[L_FRAME16k]; Word16 syn1_fx[L_FRAME16k]; Word16 *tdm_Pri_pitch_buf_fx; @@ -1217,7 +1107,11 @@ ivas_error acelp_core_enc_ivas_fx( move16(); st->hLPDmem->q_mem_syn = st->Q_syn; move16(); - + // Scaling Aq to Q12 + FOR( Word16 k = 0; k < NB_SUBFR16k; k++ ) + { + Scale_sig( &Aq[( M + 1 ) * k], M + 1, sub( norm_s( Aq[( M + 1 ) * k] ), 2 ) ); + } /* synthesis at 12.8kHz sampling rate */ syn_12k8_fx( st->L_frame, Aq, exc3_fx, syn1_fx, hLPDmem->mem_syn3, 1, sub( Q_new, 1 ), st->Q_syn ); @@ -1279,11 +1173,7 @@ ivas_error acelp_core_enc_ivas_fx( test(); IF( !nelp_mode && !ppp_mode ) { -#ifdef NONBE_FIX_GSC_BSTR config_acelp1_IVAS( ENC, st->total_brate, st->core_brate, st->core, st->extl, st->extl_brate, st->L_frame, st->GSC_noisy_speech, &( st->acelp_cfg ), hBstr->nb_bits_tot, st->coder_type, st->inactive_coder_type_flag, tc_subfr, 0, &nb_bits, unbits, st->element_mode, &uc_two_stage_flag, tdm_lp_reuse_flag, tdm_low_rate_mode, st->idchan, st->active_cnt, tdm_Pitch_reuse_flag, st->tdm_LRTD_flag, st->GSC_IVAS_mode ); -#else - config_acelp1_IVAS( ENC, st->total_brate, st->core_brate, st->core, st->extl, st->extl_brate, st->L_frame, st->GSC_noisy_speech, &( st->acelp_cfg ), hBstr->nb_bits_tot, st->coder_type, tc_subfr, 0, &nb_bits, unbits, st->element_mode, &uc_two_stage_flag, tdm_lp_reuse_flag, tdm_low_rate_mode, st->idchan, st->active_cnt, tdm_Pitch_reuse_flag, st->tdm_LRTD_flag, st->GSC_IVAS_mode ); -#endif } /*-----------------------------------------------------------------* @@ -1369,6 +1259,11 @@ ivas_error acelp_core_enc_ivas_fx( st->stab_fac_fx = lsf_stab_fx( lsf_new_fx, st->lsf_old_fx, 0, st->L_frame ); // Q15 move16(); } + // Scaling Aq to Q12 + FOR( Word16 k = 0; k < NB_SUBFR16k; k++ ) + { + Scale_sig( &Aq[( M + 1 ) * k], M + 1, sub( norm_s( Aq[( M + 1 ) * k] ), 2 ) ); + } test(); IF( EQ_16( st->last_core, HQ_CORE ) && st->element_mode > EVS_MONO ) { @@ -1407,12 +1302,6 @@ ivas_error acelp_core_enc_ivas_fx( v_multc_fixed_16_16( res_fx, att_fx, res_fx, st->L_frame ); } - // Scaling Aq and Aw to Q12 - FOR( Word16 k = 0; k < NB_SUBFR16k; k++ ) - { - Scale_sig( &Aq[( M + 1 ) * k], M + 1, sub( norm_s( Aq[( M + 1 ) * k] ), 2 ) ); - Scale_sig( &Aw[( M + 1 ) * k], M + 1, sub( norm_s( Aw[( M + 1 ) * k] ), 2 ) ); - } /*-----------------------------------------------------------------* * Determine TC subframe classification *-----------------------------------------------------------------*/ @@ -1421,11 +1310,7 @@ ivas_error acelp_core_enc_ivas_fx( { tc_classif_enc_fx( Q_new, st->L_frame, &tc_subfr, &position, attack_flag, st->pitch[0], res_fx ); -#ifdef NONBE_FIX_GSC_BSTR config_acelp1_IVAS( ENC, st->total_brate, st->core_brate, st->core, st->extl, st->extl_brate, st->L_frame, -1, &( st->acelp_cfg ), hBstr->nb_bits_tot, TRANSITION, -1, tc_subfr, 1, NULL, unbits, st->element_mode, &uc_two_stage_flag, tdm_lp_reuse_flag, tdm_low_rate_mode, st->idchan, st->active_cnt, tdm_Pitch_reuse_flag, st->tdm_LRTD_flag, st->GSC_IVAS_mode ); -#else - config_acelp1_IVAS( ENC, st->total_brate, st->core_brate, st->core, st->extl, st->extl_brate, st->L_frame, -1, &( st->acelp_cfg ), hBstr->nb_bits_tot, st->coder_type, tc_subfr, 1, NULL, unbits, st->element_mode, &uc_two_stage_flag, tdm_lp_reuse_flag, tdm_low_rate_mode, st->idchan, st->active_cnt, tdm_Pitch_reuse_flag, st->tdm_LRTD_flag, st->GSC_IVAS_mode ); -#endif } /*---------------------------------------------------------------* @@ -1484,11 +1369,7 @@ ivas_error acelp_core_enc_ivas_fx( lsf_syn_mem_restore_ivas_fx( st, tilt_code_bck_fx, gc_threshold_bck_fx, clip_var_bck_fx, next_force_sf_bck, lsp_new, lsp_mid, clip_var_fx, mem_AR_fx, mem_MA_fx, lsp_new_bck_fx, lsp_mid_bck_fx, Bin_E_fx, Bin_E_old_fx, mem_syn_bck_fx, mem_w0_bck_fx, streaklimit_fx, pstreaklen ); /* Configure ACELP bit allocation */ -#ifdef NONBE_FIX_GSC_BSTR config_acelp1_IVAS( ENC, st->total_brate, st->core_brate, st->core, st->extl, st->extl_brate, st->L_frame, -1, &( st->acelp_cfg ), hBstr->nb_bits_tot, st->coder_type, st->inactive_coder_type_flag, tc_subfr, 0, &nb_bits, unbits, 0, &uc_two_stage_flag, 0, 0, st->idchan, st->active_cnt, tdm_Pitch_reuse_flag, st->tdm_LRTD_flag, st->GSC_IVAS_mode ); -#else - config_acelp1_IVAS( ENC, st->total_brate, st->core_brate, st->core, st->extl, st->extl_brate, st->L_frame, -1, &( st->acelp_cfg ), hBstr->nb_bits_tot, st->coder_type, tc_subfr, 0, &nb_bits, unbits, 0, &uc_two_stage_flag, 0, 0, st->idchan, st->active_cnt, tdm_Pitch_reuse_flag, st->tdm_LRTD_flag, st->GSC_IVAS_mode ); -#endif /* redo LSF quantization */ lsf_enc_ivas_fx( st, lsf_new_fx, lsp_new, lsp_mid, Aq, tdm_low_rate_mode, 0, NULL, Q_new ); @@ -1512,17 +1393,12 @@ ivas_error acelp_core_enc_ivas_fx( encod_gen_voic_ivas_fx( st, inp, Aw, Aq, Es_pred_fx, res_fx, syn_fx, exc_fx, exc2_fx, pitch_buf, voice_factors_fx, bwe_exc_fx, unbits, tdm_Pitch_reuse_flag, tdm_Pri_pitch_buf_fx, 0, Q_new ); } - FOR( i = 0; i < NB_SUBFR16k; i++ ) - { - Scale_sig( &Aq[i * ( M + 1 )], ( M + 1 ), sub( Q12, sub( Q14, norm_s( Aq[i * ( M + 1 )] ) ) ) ); // Q12 - } - /* update mem_syn1_flt for ACELP core switching */ Copy( hLPDmem->mem_syn, hLPDmem->mem_syn1_fx, M ); // Q_syn /* update old synthesis buffer - needed for ACELP internal sampling rate switching */ - Copy( syn_fx + sub( st->L_frame, L_SYN_MEM ), hLPDmem->mem_syn_r, L_SYN_MEM ); // st->Q_syn - + Copy( syn_fx + sub( st->L_frame, L_SYN_MEM ), hLPDmem->mem_syn_r, L_SYN_MEM ); // hLPDmem->q_mem_syn + // st->Q_syn = Q_new - 1; Scale_sig( syn_fx, L_FRAME16k, sub( st->Q_syn, Q_new - 1 ) ); // Q_syn /* save and delay synthesis to be used by SWB BWE */ IF( st->hBWE_FD != NULL ) @@ -1554,12 +1430,8 @@ ivas_error acelp_core_enc_ivas_fx( test(); IF( st->element_mode > EVS_MONO && st->hTcxEnc != NULL ) { - Copy( syn1_fx + shr( st->L_frame, 1 ), st->hTcxEnc->Txnq, shr( st->L_frame, 1 ) ); // st->Q_syn -#ifdef MSAN_FIX + Copy( syn1_fx + shr( st->L_frame, 1 ), st->hTcxEnc->Txnq, shr( st->L_frame, 1 ) ); // st->Q_syn Scale_sig( st->hTcxEnc->Txnq + shr( st->L_frame, 1 ), sub( L_FRAME32k / 2 + 64, shr( st->L_frame, 1 ) ), sub( st->Q_syn, st->hTcxEnc->q_Txnq ) ); // st->Q_syn -#else - Scale_sig( st->hTcxEnc->Txnq + shr( st->L_frame, 1 ), sub( L_FRAME32k / 2 + 64, shr( st->L_frame, 2 ) ), sub( st->Q_syn, st->hTcxEnc->q_Txnq ) ); -#endif st->hTcxEnc->q_Txnq = st->Q_syn; move16(); } @@ -1584,11 +1456,7 @@ ivas_error acelp_core_enc_ivas_fx( *-----------------------------------------------------------------*/ Scale_sig( syn_fx, L_FRAME, sub( s_min( st->Q_syn, Q_new ), st->Q_syn ) ); // min( st->Q_syn, Q_new ) -#ifdef MSAN_FIX Scale_sig( res_fx, st->L_frame, sub( s_min( st->Q_syn, Q_new ), Q_new ) ); // min( st->Q_syn, Q_new ) -#else - Scale_sig( res_fx, L_FRAME16k, sub( s_min( st->Q_syn, Q_new ), Q_new ) ); -#endif FEC_encode_ivas_fx( hBstr, st->acelp_cfg, syn_fx, st->coder_type, st->clas, pitch_buf, res_fx, &st->Last_pulse_pos, st->L_frame, st->total_brate, s_min( st->Q_syn, Q_new ) ); IF( st->hBWE_TD != NULL ) { @@ -1653,11 +1521,7 @@ ivas_error acelp_core_enc_ivas_fx( IF( !st->Opt_SC_VBR && ( st->idchan == 0 || NE_16( st->element_mode, IVAS_CPE_TD ) || ( EQ_16( st->idchan, 1 ) && EQ_16( st->element_mode, IVAS_CPE_TD ) && st->tdm_LRTD_flag ) ) ) { /* Apply a non linearity to the SHB excitation */ -#ifdef FIX_ISSUE_1237 Copy_Scale_sig_16_32_no_sat( st->hBWE_TD->old_bwe_exc_extended_fx, bwe_exc_extended_fx, NL_BUFF_OFFSET, ( sub( shl( Q_new, 1 ), sub( st->prev_Q_bwe_exc, 16 ) ) ) ); // prev_Q_bwe_exc -#else - Copy_Scale_sig_16_32_DEPREC( st->hBWE_TD->old_bwe_exc_extended_fx, bwe_exc_extended_fx, NL_BUFF_OFFSET, ( sub( shl( Q_new, 1 ), sub( st->prev_Q_bwe_exc, 16 ) ) ) ); // prev_Q_bwe_exc -#endif non_linearity_ivas_fx( bwe_exc_fx, bwe_exc_extended_fx + NL_BUFF_OFFSET, L_FRAME32k, &st->hBWE_TD->bwe_non_lin_prev_scale_fx, Q_new, st->coder_type, voice_factors_fx, st->L_frame ); Copy_Scale_sig_32_16( bwe_exc_extended_fx + L_FRAME32k, st->hBWE_TD->old_bwe_exc_extended_fx, NL_BUFF_OFFSET, negate( sub( shl( Q_new, 1 ), sub( st->prev_Q_bwe_exc, 16 ) ) ) ); // prev_Q_bwe_exc } diff --git a/lib_enc/acelp_core_switch_enc_fx.c b/lib_enc/acelp_core_switch_enc_fx.c index 8268d48b142cb20ff33b821714ed20b4100168ee..8226748f745c1e5aa4ad7ce41b2a5e027a55b106 100644 --- a/lib_enc/acelp_core_switch_enc_fx.c +++ b/lib_enc/acelp_core_switch_enc_fx.c @@ -11,7 +11,6 @@ #include "prot_fx.h" /* Function prototypes */ #include "prot_fx_enc.h" /* Function prototypes */ #include "basop_util.h" /* Function prototypes */ -#include "prot.h" /*---------------------------------------------------------------------* * Local function prototypes *---------------------------------------------------------------------*/ @@ -63,7 +62,10 @@ void acelp_core_switch_enc_fx( Word16 Aq[2 * ( M + 1 )]; LPD_state_HANDLE hLPDmem; /* ACELP LPDmem memories */ BSTR_ENC_HANDLE hBstr = st_fx->hBstr; - +#ifdef HARM_PUSH_BIT + UWord16 value; + Word16 nb_bits; +#endif hLPDmem = st_fx->hLPDmem; /* initializations */ @@ -150,18 +152,11 @@ void acelp_core_switch_enc_fx( *----------------------------------------------------------------*/ config_acelp1( ENC, st_fx->total_brate, cbrate, st_fx->core, -1, -1, st_fx->last_L_frame, -1, &( st_fx->acelp_cfg ), hBstr->nb_bits_tot, -#ifdef NONBE_FIX_GSC_BSTR GENERIC, st_fx->inactive_coder_type_flag, -1, -1, &j, &i, st_fx->element_mode, &i /*dummy*/, 0 /*tdm_lp_reuse_flag*/, 0 /*tdm_low_rate_mode*/, st_fx->idchan, st_fx->active_fr_cnt_fx, 0 /*tdm_Pitch_reuse_flag*/, 0, 0 /*GSC_IVAS_mode*/ ); -#else - GENERIC, -1, -1, &j, &i, st_fx->element_mode, &i /*dummy*/, 0 /*tdm_lp_reuse_flag*/, 0 /*tdm_low_rate_mode*/, st_fx->idchan, st_fx->active_fr_cnt_fx, 0 /*tdm_Pitch_reuse_flag*/, 0, 0 /*GSC_IVAS_mode*/ ); -#endif encod_gen_voic_core_switch_fx( st_fx, st_fx->last_L_frame, inp, Aq, A, T_op, exc, cbrate, shift, Q_new ); - /*----------------------------------------------------------------* - * bit-stream: modify the layer of sub frame CELP - *----------------------------------------------------------------*/ -#ifdef IVAS_CODE_BITSTREAM +#ifdef HARM_PUSH_BIT i = find_indice( hBstr, TAG_ACELP_SUBFR_LOOP_START, &value, &nb_bits ); #ifdef DEBUGGING assert( i >= 0 && "Internal error in ACELP core switching - unable to find ACELP subframe indices!" ); @@ -173,6 +168,9 @@ void acelp_core_switch_enc_fx( } delete_indice( hBstr, TAG_ACELP_SUBFR_LOOP_START ); #else + /*----------------------------------------------------------------* + * bit-stream: modify the layer of sub frame CELP + *----------------------------------------------------------------*/ FOR( i = 0; i < 20; i++ ) { hBstr->ind_list[IND_CORE_SWITCHING_CELP_SUBFRAME + i].value = hBstr->ind_list[TAG_ACELP_SUBFR_LOOP_START + i].value; /* Q0 */ @@ -278,11 +276,7 @@ void acelp_core_switch_enc_ivas_fx( *----------------------------------------------------------------*/ config_acelp1_IVAS( ENC, st_fx->total_brate, cbrate, st_fx->core, -1, -1, st_fx->last_L_frame, -1, &( st_fx->acelp_cfg ), hBstr->nb_bits_tot, -#ifdef NONBE_FIX_GSC_BSTR GENERIC, st_fx->inactive_coder_type_flag, -1, -1, &j, &i, st_fx->element_mode, &i /*dummy*/, 0 /*tdm_lp_reuse_flag*/, 0 /*tdm_low_rate_mode*/, st_fx->idchan, st_fx->active_fr_cnt_fx, 0 /*tdm_Pitch_reuse_flag*/, 0, 0 /*GSC_IVAS_mode*/ ); -#else - GENERIC, -1, -1, &j, &i, st_fx->element_mode, &i /*dummy*/, 0 /*tdm_lp_reuse_flag*/, 0 /*tdm_low_rate_mode*/, st_fx->idchan, st_fx->active_fr_cnt_fx, 0 /*tdm_Pitch_reuse_flag*/, 0, 0 /*GSC_IVAS_mode*/ ); -#endif encod_gen_voic_core_switch_ivas_fx( st_fx, st_fx->last_L_frame, inp, Aq, A, T_op, exc, cbrate, shift, Q_new ); @@ -463,7 +457,7 @@ static void encod_gen_voic_core_switch_fx( IF( EQ_16( lp_flag, NORMAL_OPERATION ) ) { - push_indice_fx( hBstr, IND_LP_FILT_SELECT, lp_select, 1 ); + push_indice( hBstr, IND_LP_FILT_SELECT, lp_select, 1 ); } /*-----------------------------------------------------------------* @@ -511,7 +505,7 @@ static void encod_gen_voic_core_switch_fx( /* write reserved bits */ IF( unbits ) { - push_indice_fx( hBstr, IND_UNUSED, 0, unbits ); + push_indice( hBstr, IND_UNUSED, 0, unbits ); } /*-----------------------------------------------------------------* @@ -860,7 +854,7 @@ static void bwe_switch_enc_fx( } } - push_indice_fx( hBstr, IND_CORE_SWITCHING_AUDIO_DELAY, d1m_fx, AUDIODELAYBITS ); + push_indice( hBstr, IND_CORE_SWITCHING_AUDIO_DELAY, d1m_fx, AUDIODELAYBITS ); tmp = add( i_mult2( d1m_fx, delta_fx ), fdelay_fx ); /* Q0 */ ptmp = &hb_synth_tmp_fx[tmp]; /* Q0 */ @@ -889,7 +883,7 @@ static void bwe_switch_enc_fx( L_tmp1 = L_shl( L_tmp1, sub( q_tmp2, 24 ) ); gain_fx = round_fx_o( Isqrt( L_tmp1 ), &Overflow ); /*Q12 */ ind1_fx = usquant_fx( gain_fx, &gain_fx, shr( MINVALUEOFFIRSTGAIN_FX, 1 ), shr( DELTAOFFIRSTGAIN_FX, 4 ), ( 1 << NOOFGAINBITS1 ) ); /* Q0 */ - push_indice_fx( hBstr, IND_CORE_SWITCHING_AUDIO_GAIN, ind1_fx, NOOFGAINBITS1 ); + push_indice( hBstr, IND_CORE_SWITCHING_AUDIO_GAIN, ind1_fx, NOOFGAINBITS1 ); return; } diff --git a/lib_enc/amr_wb_enc_fx.c b/lib_enc/amr_wb_enc_fx.c index d5bbfab29888b70eed940eb118b5ec21c260fc27..1580a78186f071f46a99e4bdb4e5154f1d1f9fa3 100644 --- a/lib_enc/amr_wb_enc_fx.c +++ b/lib_enc/amr_wb_enc_fx.c @@ -262,8 +262,7 @@ void amr_wb_enc_fx( /*----------------------------------------------------------------* * Change the sampling frequency to 12.8 kHz *----------------------------------------------------------------*/ - Word16 Q_new_inp, mem_decim_size; // TO be removed - modify_Fs_fx( st->input_fx, input_frame, st->input_Fs, new_inp, 12800, st->mem_decim_fx, 0, &Q_new_inp, &mem_decim_size ); + modify_Fs_fx( st->input_fx, input_frame, st->input_Fs, new_inp, 12800, st->mem_decim_fx, 0 ); /* update signal buffer */ Copy( new_inp, st->buf_speech_enc + L_FRAME, L_FRAME ); /* Q0 */ @@ -292,11 +291,7 @@ void amr_wb_enc_fx( * Detect NB spectrum in a 16kHz-sampled input *----------------------------------------------------------------*/ - analy_sp_fx( st->element_mode, -#ifdef IVAS_CODE_CPE - hCPE, -#endif - st->input_Fs, inp, Q_new, fr_bands, lf_E, &Etot, st->min_band, st->max_band, Le_min_scaled, Scale_fac, st->Bin_E_fx, + analy_sp_fx( st->element_mode, inp, Q_new, fr_bands, lf_E, &Etot, st->min_band, st->max_band, Le_min_scaled, Scale_fac, st->Bin_E_fx, st->Bin_E_old_fx, PS, st->lgBin_E_fx, st->band_energies, fft_buff ); noise_est_pre_fx( Etot, st->ini_frame, hNoiseEst, 0, EVS_MONO, EVS_MONO ); @@ -351,12 +346,7 @@ void amr_wb_enc_fx( high_lpn_flag = 0; move16(); /* Q0 flag */ - long_enr_fx( st, Etot, localVAD_HE_SAD, high_lpn_flag -#ifdef IVAS_CODE - , - NULL, 1, NULL, NULL -#endif - ); + long_enr_fx( st, Etot, localVAD_HE_SAD, high_lpn_flag ); relE = sub( Etot, st->lp_speech_fx ); /* Q8 */ IF( NE_16( st->bwidth, NB ) ) @@ -382,7 +372,7 @@ void amr_wb_enc_fx( * WB, SWB and FB bandwidth detector *----------------------------------------------------------------*/ - bw_detect_fx( st, st->input_fx, NULL, NULL, NULL, MONO_FORMAT, 0 ); + bw_detect_fx( st, st->input_fx, NULL, NULL, NULL, MONO_FORMAT, 0, 0 ); /* in AMR_WB IO, limit the maximum band-width to WB */ if ( GT_16( st->bwidth, WB ) ) @@ -441,9 +431,6 @@ void amr_wb_enc_fx( noise_est_fx( st, old_pitch1, tmpN, epsP_h, epsP_l, Etot, relE, corr_shift, tmpE, fr_bands, &cor_map_sum, NULL, &sp_div, &Q_sp_div, &non_staX, &harm_flag, lf_E, &hNoiseEst->harm_cor_cnt, hNoiseEst->Etot_l_lp_fx, hNoiseEst->Etot_v_h2_fx, &hNoiseEst->bg_cnt, st->lgBin_E_fx, Q_new, Le_min_scaled, &sp_floor, NULL, -#ifdef IVAS_CODE - NULL, NULL, -#endif st->ini_frame ); /*----------------------------------------------------------------* @@ -455,14 +442,14 @@ void amr_wb_enc_fx( IF( EQ_32( st->input_Fs, 16000 ) ) { /* no resampling needed, only delay adjustement to account for the FIR resampling delay */ - tmps = NS2SA_FX2( 16000, DELAY_FIR_RESAMPL_NS ); + tmps = NS2SA( 16000, DELAY_FIR_RESAMPL_NS ); Copy_Scale_sig( &st->mem_decim16k_fx[tmps], new_inp_16k, tmps, -1 ); /* Input in Q0 -> Output in Q-1 to mimic the resampling filter */ Copy_Scale_sig( st->input_fx, new_inp_16k + tmps, sub( input_frame, tmps ), -1 ); /* Input in Q0 -> Output in Q-1 to mimic the resampling filter */ Copy( st->input_fx + input_frame - shl( tmps, 1 ), st->mem_decim16k_fx, shl( tmps, 1 ) ); /* memory still in Q0 */ } ELSE IF( EQ_32( st->input_Fs, 32000 ) || EQ_32( st->input_Fs, 48000 ) ) { - modify_Fs_fx( st->input_fx, input_frame, st->input_Fs, new_inp_16k, 16000, st->mem_decim16k_fx, 0, &Q_new_inp, &mem_decim_size ); + modify_Fs_fx( st->input_fx, input_frame, st->input_Fs, new_inp_16k, 16000, st->mem_decim16k_fx, 0 ); } /*----------------------------------------------------------------* @@ -561,7 +548,7 @@ void amr_wb_enc_fx( * Write VAD information into the bitstream in AMR-WB IO mode *--------------------------------------------------------------------------------------*/ - push_indice_fx( st->hBstr, IND_VAD_FLAG, st->vad_flag, 1 ); + push_indice( st->hBstr, IND_VAD_FLAG, st->vad_flag, 1 ); } /*-----------------------------------------------------------------* @@ -624,7 +611,7 @@ void amr_wb_enc_init_fx( AMRWB_IO_ENC_HANDLE hAmrwb_IO /* i/o: AMR-WB IO encoder handle */ ) { - int16_t i; + Word16 i; /* HF (6-7kHz) BWE */ hAmrwb_IO->seed2_enc = RANDOM_INITSEED; diff --git a/lib_enc/analy_sp_fx.c b/lib_enc/analy_sp_fx.c index d5333ae130e4cbdfb0ed45613db7c7d9f56761d6..4f96ea2d4872231719e0fdf89912fbdbfec04b0c 100644 --- a/lib_enc/analy_sp_fx.c +++ b/lib_enc/analy_sp_fx.c @@ -19,9 +19,7 @@ static void find_enr( Word16 data[], Word32 band[], Word32 *ptE, Word32 *LEtot, const Word16 min_band, const Word16 max_band, const Word16 Q_new2, const Word32 e_min, Word32 *Bin_E, Word16 BIN_FREQ_FX, Word32 *band_energies ); static void ivas_find_enr( Word16 *data, Word16 q_data, Word32 *band, Word16 *q_band, Word32 *ptE, Word16 *q_ptE, Word64 *LEtot, const Word16 min_band, const Word16 max_band, Word32 *Bin_E, Word16 BIN_FREQ_FX, Word32 *band_energies ); -#ifdef IVAS_CODE_CPE -static void find_enr_dft( CPE_ENC_HANDLE hCPE, const int32_t input_Fs, float DFT_past_DMX[], float band[], float *ptE, float *Etot, const int16_t min_band, const int16_t max_band, float *Bin_E, float *band_ener ); -#endif + /*-------------------------------------------------------------------* * analy_sp_fx() @@ -31,10 +29,6 @@ static void find_enr_dft( CPE_ENC_HANDLE hCPE, const int32_t input_Fs, float DFT void analy_sp_fx( const Word16 element_mode, /* i : element mode */ -#ifdef IVAS_CODE_CPE - CPE_ENC_HANDLE hCPE, /* i/o: CPE encoder structure */ -#endif - const Word32 input_Fs, /* i : input sampling rate */ Word16 *speech, /* i : speech buffer Q_new - preemph_bits */ const Word16 Q_new, /* i : current scaling exp Q0 */ Word32 *fr_bands, /* o : energy in critical frequency bands Q_new + QSCALE */ @@ -60,9 +54,7 @@ void analy_sp_fx( Word16 Min_val, Max_val; Word16 Scale_fac2; Word16 fft_temp[L_FFT]; -#ifndef IVAS_CODE_CPE - (void) input_Fs; -#endif + /*-----------------------------------------------------------------* * Compute spectrum * find energy per critical frequency band and total energy in dB @@ -134,18 +126,6 @@ void analy_sp_fx( pt_fft += L_FFT; } } -#ifdef IVAS_CODE_CPE - ELSE - { - /* find energy per critical band */ - find_enr_dft( hCPE, input_Fs, hCPE->hStereoDft->DFT[0], pt_bands, lf_E, Etot, min_band, max_band, Bin_E, band_ener ); - mvr2r( lf_E, lf_E + VOIC_BINS, VOIC_BINS ); - mvr2r( Bin_E, Bin_E + ( L_FFT / 2 ), L_FFT / 2 ); - mvr2r( band_ener, band_ener + NB_BANDS, NB_BANDS ); - mvr2r( pt_bands, pt_bands + NB_BANDS, NB_BANDS ); - *Etot *= 2.f; - } -#endif /* Average total log energy over both half-frames */ frac_etot = 0; @@ -419,6 +399,10 @@ static void find_enr_dft_ivas_fx( BinE_fx[STEREO_DFT_N_12k8_ENC / 2 - 1] = BinE_fx[STEREO_DFT_N_12k8_ENC / 2 - 2]; // // *q_Bin_E move32(); + Word16 norm = getScaleFactor32( BinE_fx, L_FFT ); + scale_sig32( BinE_fx, L_FFT, norm ); + *q_Bin_E = add( *q_Bin_E, norm ); + move16(); L_lerp_fx( BinE_fx, Bin_E_fx, L_FFT / 2, STEREO_DFT_N_12k8_ENC / 2, q_Bin_E ); MVR2R_WORD32( Bin_E_fx, ptE_fx, VOIC_BINS ); // *q_Bin_E @@ -510,9 +494,9 @@ void ivas_analy_sp_fx( } ELSE { - Word16 scale = 0; + Word16 scale = 0, shift; move16(); - + shift = s_min( norm_arr( speech + 3 * ( L_SUBFR / 2 ) - L_FFT / 2, L_FFT ), norm_arr( speech + 7 * ( L_SUBFR / 2 ) - L_FFT / 2, L_FFT ) ); FOR( i_subfr = 0; i_subfr <= 1; i_subfr++ ) { /* set pointer to the beginning of the signal for spectral analysis */ @@ -523,27 +507,26 @@ void ivas_analy_sp_fx( /* set the pointer for second analysis window */ pt = speech + 7 * ( L_SUBFR / 2 ) - L_FFT / 2; } - /* Clear 1st value of 1st part, copy 1st value of 2nd part */ pt_fft[0] = 0; move16(); - pt_fft[L_FFT / 2] = pt[L_FFT / 2]; // Q_new - preemph_bits + pt_fft[L_FFT / 2] = shl( pt[L_FFT / 2], shift ); // (Q_new + shift) - preemph_bits move16(); FOR( i = 1; i < L_FFT / 2; i++ ) { /* 1st windowed part */ - pt_fft[i] = mult_r( pt[i], sqrt_han_window_fx[i] ); // Q_new - preemph_bits + pt_fft[i] = mult_r( shl( pt[i], shift ), sqrt_han_window_fx[i] ); // (Q_new + shift) - preemph_bits move16(); /* 2nd windowed part */ - pt_fft[L_FFT - i] = mult_r( pt[L_FFT - i], sqrt_han_window_fx[i] ); // Q_new - preemph_bits + pt_fft[L_FFT - i] = mult_r( shl( pt[L_FFT - i], shift ), sqrt_han_window_fx[i] ); // (Q_new + shift) - preemph_bits move16(); } /* compute the spectrum */ fft_rel_16_32fx( pt_fft, &scale, i_subfr, L_FFT, LOG2_L_FFT ); - *q_fft_buff = add( Q_new, scale ); // resultant q for fft_buff + *q_fft_buff = add( add( Q_new, shift ), scale ); // resultant q for fft_buff move16(); IF( EQ_16( i_subfr, 1 ) ) { diff --git a/lib_enc/ari_enc.c b/lib_enc/ari_enc.c deleted file mode 100644 index da4d1486b8ab2c36bed04809489df3765d72cc14..0000000000000000000000000000000000000000 --- a/lib_enc/ari_enc.c +++ /dev/null @@ -1,316 +0,0 @@ -/****************************************************************************************************** - - (C) 2022-2025 IVAS codec Public Collaboration with portions copyright Dolby International AB, Ericsson AB, - Fraunhofer-Gesellschaft zur Foerderung der angewandten Forschung e.V., Huawei Technologies Co. LTD., - Koninklijke Philips N.V., Nippon Telegraph and Telephone Corporation, Nokia Technologies Oy, Orange, - Panasonic Holdings Corporation, Qualcomm Technologies, Inc., VoiceAge Corporation, and other - contributors to this repository. All Rights Reserved. - - This software is protected by copyright law and by international treaties. - The IVAS codec Public Collaboration consisting of Dolby International AB, Ericsson AB, - Fraunhofer-Gesellschaft zur Foerderung der angewandten Forschung e.V., Huawei Technologies Co. LTD., - Koninklijke Philips N.V., Nippon Telegraph and Telephone Corporation, Nokia Technologies Oy, Orange, - Panasonic Holdings Corporation, Qualcomm Technologies, Inc., VoiceAge Corporation, and other - contributors to this repository retain full ownership rights in their respective contributions in - the software. This notice grants no license of any kind, including but not limited to patent - license, nor is any license granted by implication, estoppel or otherwise. - - Contributors are required to enter into the IVAS codec Public Collaboration agreement before making - contributions. - - This software is provided "AS IS", without any express or implied warranties. The software is in the - development stage. It is intended exclusively for experts who have experience with such software and - solely for the purpose of inspection. All implied warranties of non-infringement, merchantability - and fitness for a particular purpose are hereby disclaimed and excluded. - - Any dispute, controversy or claim arising under or in relation to providing this software shall be - submitted to and settled by the final, binding jurisdiction of the courts of Munich, Germany in - accordance with the laws of the Federal Republic of Germany excluding its conflict of law rules and - the United Nations Convention on Contracts on the International Sales of Goods. - -*******************************************************************************************************/ - -/*==================================================================================== - EVS Codec 3GPP TS26.443 Nov 04, 2021. Version 12.14.0 / 13.10.0 / 14.6.0 / 15.4.0 / 16.3.0 - ====================================================================================*/ - -#include -#include -#include "options.h" -#include "cnst.h" -#include "prot.h" -#include "prot_fx.h" -#include "stat_com.h" -#include "basop_util.h" -#include "wmc_auto.h" -#include "prot_fx_enc.h" - - -/*--------------------------------------------------------------- - * ari_copy_states() - * - * Copy state - *-------------------------------------------------------------*/ - -void ari_copy_states( - Tastat *source, - Tastat *dest ) -{ - dest->low = source->low; - dest->high = source->high; - dest->bits_to_follow = source->bits_to_follow; - - return; -} - -/*--------------------------------------------------------------- - Ari encoder 14 bits routines - -------------------------------------------------------------*/ - -/*--------------------------------------------------------------- - * ari_start_encoding_14bits() - * - * Start ArCo encoding - *-------------------------------------------------------------*/ - -void ari_start_encoding_14bits( - Tastat *s ) -{ - /* : addressing is made with walking pointer s */ - s->low = 0; - s->high = ari_q4new; - s->bits_to_follow = 0; - move32(); - move32(); - move32(); - - return; -} -void ari_start_encoding_14bits_ivas_fx( - Tastat *s ) -{ - /* : addressing is made with walking pointer s */ - s->low = 0; - s->high = ari_q4new; - s->bits_to_follow = 0; - move32(); - move32(); - move32(); - - return; -} - -/*--------------------------------------------------------------- - * ari_done_encoding_14bits_ivas_fx() - * - * Finish ArCo encoding - *-------------------------------------------------------------*/ - -Word16 ari_done_encoding_14bits_ivas_fx( - Word16 *ptr, /* Q0 */ - Word16 bp, /* Q0 */ - Tastat *s ) -{ - Word16 bit; - - bit = 0; - move16(); - IF( GE_32( s->low, ari_q1new ) ) - { - bit = s_xor( bit, 1 ); - } - return ari_put_bit_plus_follow( ptr, bp, add( extract_l( s->bits_to_follow ), 1 ), bit ); -} - - -/*--------------------------------------------------------------- - * ari_encode_14bits_ext_ivas_fx() - * - * encode function for extended proba tables: less branches needed for coding - * - *-------------------------------------------------------------*/ -Word16 ari_encode_14bits_ext_ivas_fx( - Word16 *ptr, /* Q0 */ - Word16 bp, /* Q0 */ - Tastat *s, - Word32 symbol, /* Q0 */ - UWord16 const *cum_freq /* Q0 */ -) -{ - Word32 low; - Word32 high; - Word32 range; - Word16 bits_to_follow; - Word16 i; - UWord16 temp; - Word32 L_temp1, L_temp2; - - high = L_add( s->high, 0 ); - low = L_add( s->low, 0 ); - range = L_add( L_sub( high, low ), 1 ); /* Q0 */ - - L_temp1 = L_shl( range, 15 - stat_bitsnew /*both are constants*/ ); - Mpy_32_16_ss( L_temp1, cum_freq[symbol + 1], &L_temp2, &temp ); - IF( symbol != 0 ) /* when symbol is 0, range remains unchanged */ - { - Mpy_32_16_ss( L_temp1, cum_freq[symbol], &range, &temp ); - } - high = L_sub( L_add( low, range ), 1 ); /* Q0 */ - low = L_add( low, L_temp2 ); /* Q0 */ - - assert( s->bits_to_follow <= MAX_16 ); - bits_to_follow = extract_l( s->bits_to_follow ); /* Q0 */ - - FOR( i = 0; i < 0x7FFF; i++ ) - { - IF( LT_32( high, ari_q2new ) ) - { - bp = ari_put_bit_plus_follow( ptr, bp, bits_to_follow, 0 ); /* Q0 */ - bits_to_follow = 0; - move16(); - } - ELSE IF( GE_32( low, ari_q2new ) ) - { - bp = ari_put_bit_plus_follow( ptr, bp, bits_to_follow, 1 ); /* Q0 */ - bits_to_follow = 0; - move16(); - low = L_sub( low, ari_q2new ); - high = L_sub( high, ari_q2new ); /* Subtract offset to top. */ - } - ELSE - { - test(); - IF( GE_32( low, ari_q1new ) && LT_32( high, ari_q3new ) ) - { - /* Output an opposite bit */ - /* later if in middle half. */ - bits_to_follow = add( bits_to_follow, 1 ); /* Q0 */ - low = L_sub( low, ari_q1new ); /* Subtract offset to middle*/ - high = L_sub( high, ari_q1new ); - } - ELSE - { - BREAK; /* Otherwise exit loop. */ - } - } - low = L_add( low, low ); /* Q0 */ - high = L_add( L_add( high, high ), 1 ); /* Scale up code range. Q0*/ - } - - s->low = low; /* Q0 */ - move32(); - s->high = high; /* Q0 */ - move32(); - s->bits_to_follow = bits_to_follow; /* Q0 */ - move32(); - - return bp; -} - - -/*------------------------------------------------------------------------ - * Function: ari_encode_14bits_high_low_fx() - * - *-------------------------------------------------------------------------*/ - -static Word16 ari_encode_14bits_high_low_fx( - Word16 *ptr, /* Q0 */ - Word16 bp, /* Q0 */ - Word16 bits, /* Q0 */ - Tastat *s, - Word32 high, /* Q0 */ - Word32 low /* Q0 */ -) -{ - Word16 bits_to_follow, tmp; - - bits_to_follow = extract_l( s->bits_to_follow ); /* Q0 */ - move16(); - - /* while there are more than 16 bits left */ - tmp = sub( 16, bits ); /* Q0 */ - WHILE( add( add( bp, bits_to_follow ), tmp ) < 0 ) - { - IF( LE_32( high, ari_q2new ) ) - { - bp = ari_put_bit_plus_follow( ptr, bp, bits_to_follow, 0 ); /* Q0 */ - bits_to_follow = 0; - move16(); - } - ELSE IF( GE_32( low, ari_q2new ) ) - { - bp = ari_put_bit_plus_follow( ptr, bp, bits_to_follow, 1 ); /* Q0 */ - bits_to_follow = 0; - move16(); - low = L_sub( low, ari_q2new ); /* Q0 */ - high = L_sub( high, ari_q2new ); /* Subtract offset to top. Q0*/ - } - ELSE - { - test(); - IF( GE_32( low, ari_q1new ) && LE_32( high, ari_q3new ) ) - { - /* Output an opposite bit */ - /* later if in middle half. */ - bits_to_follow = add( bits_to_follow, 1 ); /* Q0 */ - low = L_sub( low, ari_q1new ); /* Subtract offset to middle Q0*/ - high = L_sub( high, ari_q1new ); /* Q0 */ - } - ELSE - { - BREAK; /* Otherwise exit loop. */ - } - } - - low = L_add( low, low ); - high = L_add( high, high ); /* Scale up code range. */ - } - - s->low = low; /* Q0 */ - move32(); - s->high = L_sub( high, 1 ); /* Q0 */ - move32(); - s->bits_to_follow = bits_to_follow; /* Q0 */ - move16(); - - return bp; -} - -/*------------------------------------------------------------------------ - * Function: ari_encode_14bits_sign_ivas_fx() - * - * Encode a sign with equal probabilities. - *-------------------------------------------------------------------------*/ -Word16 ari_encode_14bits_sign_ivas_fx( - Word16 *ptr, /* Q0 */ - Word16 bp, /* Q0 */ - Word32 bits, /* Q0 */ - Tastat *s, - Word16 sign /* Q0 */ -) -{ - Word32 low, high, range; - Word32 L_tmp; - - high = L_add( s->high, 1 ); - low = L_add( s->low, 0 ); - range = L_sub( high, low ); /* Q0 */ - - L_tmp = L_shr( range, 1 ); - if ( sign != 0 ) - { - high = L_add( low, L_tmp ); /* Q0 */ - } - if ( sign == 0 ) - { - low = L_add( low, L_tmp ); /* Q0 */ - } - - return ari_encode_14bits_high_low_fx( ptr, bp, extract_l( bits ), s, high, low ); -} - -/*------------------------------------------------------------------------ - * Function: ari_done_cbr_encoding_14bits() - * - * Finish up encoding in CBR mode. - *-------------------------------------------------------------------------*/ diff --git a/lib_enc/ari_enc_fx.c b/lib_enc/ari_enc_fx.c index 0ef053edd75ef58434abdc6fab944cb0851964de..29ddd838c69cfb2be54ccfd8d304168190e848bf 100644 --- a/lib_enc/ari_enc_fx.c +++ b/lib_enc/ari_enc_fx.c @@ -364,3 +364,226 @@ Word16 ari_done_cbr_encoding_14bits_fx( return bp; } + +void ari_start_encoding_14bits_ivas_fx( + Tastat *s ) +{ + /* : addressing is made with walking pointer s */ + s->low = 0; + s->high = ari_q4new; + s->bits_to_follow = 0; + move32(); + move32(); + move32(); + + return; +} + +/*--------------------------------------------------------------- + * ari_done_encoding_14bits_ivas_fx() + * + * Finish ArCo encoding + *-------------------------------------------------------------*/ + +Word16 ari_done_encoding_14bits_ivas_fx( + Word16 *ptr, /* Q0 */ + Word16 bp, /* Q0 */ + Tastat *s ) +{ + Word16 bit; + + bit = 0; + move16(); + IF( GE_32( s->low, ari_q1new ) ) + { + bit = s_xor( bit, 1 ); + } + return ari_put_bit_plus_follow( ptr, bp, add( extract_l( s->bits_to_follow ), 1 ), bit ); +} + + +/*--------------------------------------------------------------- + * ari_encode_14bits_ext_ivas_fx() + * + * encode function for extended proba tables: less branches needed for coding + * + *-------------------------------------------------------------*/ +Word16 ari_encode_14bits_ext_ivas_fx( + Word16 *ptr, /* Q0 */ + Word16 bp, /* Q0 */ + Tastat *s, + Word32 symbol, /* Q0 */ + UWord16 const *cum_freq /* Q0 */ +) +{ + Word32 low; + Word32 high; + Word32 range; + Word16 bits_to_follow; + Word16 i; + UWord16 temp; + Word32 L_temp1, L_temp2; + + high = L_add( s->high, 0 ); + low = L_add( s->low, 0 ); + range = L_add( L_sub( high, low ), 1 ); /* Q0 */ + + L_temp1 = L_shl( range, 15 - stat_bitsnew /*both are constants*/ ); + Mpy_32_16_ss( L_temp1, cum_freq[symbol + 1], &L_temp2, &temp ); + IF( symbol != 0 ) /* when symbol is 0, range remains unchanged */ + { + Mpy_32_16_ss( L_temp1, cum_freq[symbol], &range, &temp ); + } + high = L_sub( L_add( low, range ), 1 ); /* Q0 */ + low = L_add( low, L_temp2 ); /* Q0 */ + + assert( s->bits_to_follow <= MAX_16 ); + bits_to_follow = extract_l( s->bits_to_follow ); /* Q0 */ + + FOR( i = 0; i < 0x7FFF; i++ ) + { + IF( LT_32( high, ari_q2new ) ) + { + bp = ari_put_bit_plus_follow( ptr, bp, bits_to_follow, 0 ); /* Q0 */ + bits_to_follow = 0; + move16(); + } + ELSE IF( GE_32( low, ari_q2new ) ) + { + bp = ari_put_bit_plus_follow( ptr, bp, bits_to_follow, 1 ); /* Q0 */ + bits_to_follow = 0; + move16(); + low = L_sub( low, ari_q2new ); + high = L_sub( high, ari_q2new ); /* Subtract offset to top. */ + } + ELSE + { + test(); + IF( GE_32( low, ari_q1new ) && LT_32( high, ari_q3new ) ) + { + /* Output an opposite bit */ + /* later if in middle half. */ + bits_to_follow = add( bits_to_follow, 1 ); /* Q0 */ + low = L_sub( low, ari_q1new ); /* Subtract offset to middle*/ + high = L_sub( high, ari_q1new ); + } + ELSE + { + BREAK; /* Otherwise exit loop. */ + } + } + low = L_add( low, low ); /* Q0 */ + high = L_add( L_add( high, high ), 1 ); /* Scale up code range. Q0*/ + } + + s->low = low; /* Q0 */ + move32(); + s->high = high; /* Q0 */ + move32(); + s->bits_to_follow = bits_to_follow; /* Q0 */ + move32(); + + return bp; +} + + +/*------------------------------------------------------------------------ + * Function: ari_encode_14bits_high_low_fx() + * + *-------------------------------------------------------------------------*/ + +static Word16 ari_encode_14bits_high_low_ivas_fx( + Word16 *ptr, /* Q0 */ + Word16 bp, /* Q0 */ + Word16 bits, /* Q0 */ + Tastat *s, + Word32 high, /* Q0 */ + Word32 low /* Q0 */ +) +{ + Word16 bits_to_follow, tmp; + + bits_to_follow = extract_l( s->bits_to_follow ); /* Q0 */ + move16(); + + /* while there are more than 16 bits left */ + tmp = sub( 16, bits ); /* Q0 */ + WHILE( add( add( bp, bits_to_follow ), tmp ) < 0 ) + { + IF( LE_32( high, ari_q2new ) ) + { + bp = ari_put_bit_plus_follow( ptr, bp, bits_to_follow, 0 ); /* Q0 */ + bits_to_follow = 0; + move16(); + } + ELSE IF( GE_32( low, ari_q2new ) ) + { + bp = ari_put_bit_plus_follow( ptr, bp, bits_to_follow, 1 ); /* Q0 */ + bits_to_follow = 0; + move16(); + low = L_sub( low, ari_q2new ); /* Q0 */ + high = L_sub( high, ari_q2new ); /* Subtract offset to top. Q0*/ + } + ELSE + { + test(); + IF( GE_32( low, ari_q1new ) && LE_32( high, ari_q3new ) ) + { + /* Output an opposite bit */ + /* later if in middle half. */ + bits_to_follow = add( bits_to_follow, 1 ); /* Q0 */ + low = L_sub( low, ari_q1new ); /* Subtract offset to middle Q0*/ + high = L_sub( high, ari_q1new ); /* Q0 */ + } + ELSE + { + BREAK; /* Otherwise exit loop. */ + } + } + + low = L_add( low, low ); + high = L_add( high, high ); /* Scale up code range. */ + } + + s->low = low; /* Q0 */ + move32(); + s->high = L_sub( high, 1 ); /* Q0 */ + move32(); + s->bits_to_follow = bits_to_follow; /* Q0 */ + move16(); + + return bp; +} + +/*------------------------------------------------------------------------ + * Function: ari_encode_14bits_sign_ivas_fx() + * + * Encode a sign with equal probabilities. + *-------------------------------------------------------------------------*/ +Word16 ari_encode_14bits_sign_ivas_fx( + Word16 *ptr, /* Q0 */ + Word16 bp, /* Q0 */ + Word32 bits, /* Q0 */ + Tastat *s, + Word16 sign /* Q0 */ +) +{ + Word32 low, high, range; + Word32 L_tmp; + + high = L_add( s->high, 1 ); + low = L_add( s->low, 0 ); + range = L_sub( high, low ); /* Q0 */ + + L_tmp = L_shr( range, 1 ); + if ( sign != 0 ) + { + high = L_add( low, L_tmp ); /* Q0 */ + } + if ( sign == 0 ) + { + low = L_add( low, L_tmp ); /* Q0 */ + } + + return ari_encode_14bits_high_low_ivas_fx( ptr, bp, extract_l( bits ), s, high, low ); +} diff --git a/lib_enc/ari_hm_enc.c b/lib_enc/ari_hm_enc.c deleted file mode 100644 index c6e11a3f0db760424be54b7fd697d375b5b070d4..0000000000000000000000000000000000000000 --- a/lib_enc/ari_hm_enc.c +++ /dev/null @@ -1,53 +0,0 @@ -/****************************************************************************************************** - - (C) 2022-2025 IVAS codec Public Collaboration with portions copyright Dolby International AB, Ericsson AB, - Fraunhofer-Gesellschaft zur Foerderung der angewandten Forschung e.V., Huawei Technologies Co. LTD., - Koninklijke Philips N.V., Nippon Telegraph and Telephone Corporation, Nokia Technologies Oy, Orange, - Panasonic Holdings Corporation, Qualcomm Technologies, Inc., VoiceAge Corporation, and other - contributors to this repository. All Rights Reserved. - - This software is protected by copyright law and by international treaties. - The IVAS codec Public Collaboration consisting of Dolby International AB, Ericsson AB, - Fraunhofer-Gesellschaft zur Foerderung der angewandten Forschung e.V., Huawei Technologies Co. LTD., - Koninklijke Philips N.V., Nippon Telegraph and Telephone Corporation, Nokia Technologies Oy, Orange, - Panasonic Holdings Corporation, Qualcomm Technologies, Inc., VoiceAge Corporation, and other - contributors to this repository retain full ownership rights in their respective contributions in - the software. This notice grants no license of any kind, including but not limited to patent - license, nor is any license granted by implication, estoppel or otherwise. - - Contributors are required to enter into the IVAS codec Public Collaboration agreement before making - contributions. - - This software is provided "AS IS", without any express or implied warranties. The software is in the - development stage. It is intended exclusively for experts who have experience with such software and - solely for the purpose of inspection. All implied warranties of non-infringement, merchantability - and fitness for a particular purpose are hereby disclaimed and excluded. - - Any dispute, controversy or claim arising under or in relation to providing this software shall be - submitted to and settled by the final, binding jurisdiction of the courts of Munich, Germany in - accordance with the laws of the Federal Republic of Germany excluding its conflict of law rules and - the United Nations Convention on Contracts on the International Sales of Goods. - -*******************************************************************************************************/ - -/*==================================================================================== - EVS Codec 3GPP TS26.443 Nov 04, 2021. Version 12.14.0 / 13.10.0 / 14.6.0 / 15.4.0 / 16.3.0 - ====================================================================================*/ - -#include -#include -#include "options.h" -#include -#include "cnst.h" -#include "rom_enc.h" -#include "stl.h" -#include "basop_util.h" -#include "prot.h" -#include "rom_com.h" -#include "wmc_auto.h" - -/*-------------------------------------------------------------------* - * EncodeIndex() - * - * - *-------------------------------------------------------------------*/ diff --git a/lib_enc/ari_hm_enc_fx.c b/lib_enc/ari_hm_enc_fx.c index a94f45528ec7e3d57470eb6e72b2aace5aa198ff..343f1890fd01b79e821a02184d77e8383bc8d3fd 100644 --- a/lib_enc/ari_hm_enc_fx.c +++ b/lib_enc/ari_hm_enc_fx.c @@ -10,9 +10,7 @@ #include "basop_util.h" #include "rom_com.h" #include "rom_enc.h" -#include "prot.h" -//#include "prot_fx.h" -#include "prot_fx.h" /* Function prototypes */ +#include "prot_fx.h" #include "prot_fx_enc.h" /* Function prototypes */ /*-------------------------------------------------------------------* @@ -44,12 +42,12 @@ Word16 EncodeIndex_fx( NumRatioBitsBwLtpIndx = NumRatioBits[Bandwidth][LtpPitchIndex]; move16(); - push_next_indice_fx( hBst, s_and( PeriodicityIndex, 0xff ), NumRatioBitsBwLtpIndx ); + push_next_indice( hBst, s_and( PeriodicityIndex, 0xff ), NumRatioBitsBwLtpIndx ); return NumRatioBitsBwLtpIndx; } ELSE { - push_next_indice_fx( hBst, PeriodicityIndex, 8 ); + push_next_indice( hBst, PeriodicityIndex, 8 ); return 8; } } diff --git a/lib_enc/arith_coder_enc.c b/lib_enc/arith_coder_enc.c deleted file mode 100644 index 5625b6cf4f0b75eadea8ae2cf8bac61a4b75db4c..0000000000000000000000000000000000000000 --- a/lib_enc/arith_coder_enc.c +++ /dev/null @@ -1,51 +0,0 @@ -/****************************************************************************************************** - - (C) 2022-2025 IVAS codec Public Collaboration with portions copyright Dolby International AB, Ericsson AB, - Fraunhofer-Gesellschaft zur Foerderung der angewandten Forschung e.V., Huawei Technologies Co. LTD., - Koninklijke Philips N.V., Nippon Telegraph and Telephone Corporation, Nokia Technologies Oy, Orange, - Panasonic Holdings Corporation, Qualcomm Technologies, Inc., VoiceAge Corporation, and other - contributors to this repository. All Rights Reserved. - - This software is protected by copyright law and by international treaties. - The IVAS codec Public Collaboration consisting of Dolby International AB, Ericsson AB, - Fraunhofer-Gesellschaft zur Foerderung der angewandten Forschung e.V., Huawei Technologies Co. LTD., - Koninklijke Philips N.V., Nippon Telegraph and Telephone Corporation, Nokia Technologies Oy, Orange, - Panasonic Holdings Corporation, Qualcomm Technologies, Inc., VoiceAge Corporation, and other - contributors to this repository retain full ownership rights in their respective contributions in - the software. This notice grants no license of any kind, including but not limited to patent - license, nor is any license granted by implication, estoppel or otherwise. - - Contributors are required to enter into the IVAS codec Public Collaboration agreement before making - contributions. - - This software is provided "AS IS", without any express or implied warranties. The software is in the - development stage. It is intended exclusively for experts who have experience with such software and - solely for the purpose of inspection. All implied warranties of non-infringement, merchantability - and fitness for a particular purpose are hereby disclaimed and excluded. - - Any dispute, controversy or claim arising under or in relation to providing this software shall be - submitted to and settled by the final, binding jurisdiction of the courts of Munich, Germany in - accordance with the laws of the Federal Republic of Germany excluding its conflict of law rules and - the United Nations Convention on Contracts on the International Sales of Goods. - -*******************************************************************************************************/ - -/*==================================================================================== - EVS Codec 3GPP TS26.443 Nov 04, 2021. Version 12.14.0 / 13.10.0 / 14.6.0 / 15.4.0 / 16.3.0 - ====================================================================================*/ - -#include -#include -#include "options.h" -#include -#include "cnst.h" -#include "prot.h" -#include "rom_com.h" -#include "basop_util.h" -#include "basop_proto_func.h" -#include "wmc_auto.h" -#include "prot_fx.h" - -/*-------------------------------------------------------------------* - * Local constants - *-------------------------------------------------------------------*/ diff --git a/lib_enc/avq_cod.c b/lib_enc/avq_cod.c deleted file mode 100644 index 9228e2f5d74225dead52c212c28881aa61812ea6..0000000000000000000000000000000000000000 --- a/lib_enc/avq_cod.c +++ /dev/null @@ -1,42 +0,0 @@ -/****************************************************************************************************** - - (C) 2022-2025 IVAS codec Public Collaboration with portions copyright Dolby International AB, Ericsson AB, - Fraunhofer-Gesellschaft zur Foerderung der angewandten Forschung e.V., Huawei Technologies Co. LTD., - Koninklijke Philips N.V., Nippon Telegraph and Telephone Corporation, Nokia Technologies Oy, Orange, - Panasonic Holdings Corporation, Qualcomm Technologies, Inc., VoiceAge Corporation, and other - contributors to this repository. All Rights Reserved. - - This software is protected by copyright law and by international treaties. - The IVAS codec Public Collaboration consisting of Dolby International AB, Ericsson AB, - Fraunhofer-Gesellschaft zur Foerderung der angewandten Forschung e.V., Huawei Technologies Co. LTD., - Koninklijke Philips N.V., Nippon Telegraph and Telephone Corporation, Nokia Technologies Oy, Orange, - Panasonic Holdings Corporation, Qualcomm Technologies, Inc., VoiceAge Corporation, and other - contributors to this repository retain full ownership rights in their respective contributions in - the software. This notice grants no license of any kind, including but not limited to patent - license, nor is any license granted by implication, estoppel or otherwise. - - Contributors are required to enter into the IVAS codec Public Collaboration agreement before making - contributions. - - This software is provided "AS IS", without any express or implied warranties. The software is in the - development stage. It is intended exclusively for experts who have experience with such software and - solely for the purpose of inspection. All implied warranties of non-infringement, merchantability - and fitness for a particular purpose are hereby disclaimed and excluded. - - Any dispute, controversy or claim arising under or in relation to providing this software shall be - submitted to and settled by the final, binding jurisdiction of the courts of Munich, Germany in - accordance with the laws of the Federal Republic of Germany excluding its conflict of law rules and - the United Nations Convention on Contracts on the International Sales of Goods. - -*******************************************************************************************************/ - -/*==================================================================================== - EVS Codec 3GPP TS26.443 Nov 04, 2021. Version 12.14.0 / 13.10.0 / 14.6.0 / 15.4.0 / 16.3.0 - ====================================================================================*/ - -#include -#include "options.h" -#include -#include "prot.h" -#include "rom_com.h" -#include "wmc_auto.h" diff --git a/lib_enc/avq_cod_fx.c b/lib_enc/avq_cod_fx.c index 202d60e51dd8e9c72ef431928b3ad14fefafaef8..b3a49c59ef44f47907cd76b13c71eb34b8156521 100644 --- a/lib_enc/avq_cod_fx.c +++ b/lib_enc/avq_cod_fx.c @@ -5,9 +5,7 @@ #include #include "options.h" /* Compilation switches */ #include "cnst.h" -#include /* Compilation switches */ -#include "prot.h" /* Function prototypes */ -//#include "prot_fx.h" /* Function prototypes */ +#include /* Compilation switches */ #include "prot_fx.h" /* Function prototypes */ #include "prot_fx_enc.h" /* Function prototypes */ #include "rom_com.h" /* Static table prototypes */ @@ -386,20 +384,20 @@ void AVQ_encmux_fx( /* write the unary code */ FOR( ; j > 16; j -= 16 ) { - push_indice_fx( hBstr, nq_ind, 65535, 16 ); + push_indice( hBstr, nq_ind, 65535, 16 ); bits = sub( bits, 16 ); } IF( j > 0 ) { - push_indice_fx( hBstr, nq_ind, extract_l( L_sub( L_shl( 1L, j ), 1L ) ), j ); + push_indice( hBstr, nq_ind, extract_l( L_sub( L_shl( 1L, j ), 1L ) ), j ); bits = sub( bits, j ); } } IF( !overflow ) { /* write the stop bit */ - push_indice_fx( hBstr, nq_ind, 0, 1 ); + push_indice( hBstr, nq_ind, 0, 1 ); bits = sub( bits, 1 ); } @@ -508,20 +506,20 @@ void AVQ_encmux_fx( IF( j > 0 ) { /* write the unary code */ - push_indice_fx( hBstr, nq_ind, sub( shl( 1, j ), 1 ), j ); + push_indice( hBstr, nq_ind, sub( shl( 1, j ), 1 ), j ); } IF( nq[i] != 0 ) { /* write the stop bit */ - push_indice_fx( hBstr, nq_ind, 0, 1 ); + push_indice( hBstr, nq_ind, 0, 1 ); } /*Compute AVQ code book number from unused Bits */ bit_tmp = add( unusedbitsFlag, unused_bits_idx ); /*nq_est = (int16_t)ceil(0.2f * (bits - 5 * (unusedbitsFlag + unused_bits_idx)));*/ nq_est = mult( 6554, sub( bits, add( shl( bit_tmp, 2 ), bit_tmp ) ) ); - assert( (int16_t) ceil( 0.2f * ( bits - 5 * ( unusedbitsFlag + unused_bits_idx ) ) ) == nq_est ); + assert( (Word16) ceil( 0.2f * ( bits - 5 * ( unusedbitsFlag + unused_bits_idx ) ) ) == nq_est ); if ( EQ_16( nq_est, 1 ) ) { @@ -948,7 +946,7 @@ void AVQ_encmux_ivas_fx( bit_tmp = add( unusedbitsFlag, unused_bits_idx ); /*nq_est = (int16_t)ceil(0.2f * (bits - 5 * (unusedbitsFlag + unused_bits_idx)));*/ nq_est = mult( 6554 /*.2 in Q15*/, sub( bits, add( shl( bit_tmp, 2 ), bit_tmp ) ) ); - assert( (int16_t) ceil( 0.2f * ( bits - 5 * ( unusedbitsFlag + unused_bits_idx ) ) ) == nq_est ); + assert( (Word16) ceil( 0.2f * ( bits - 5 * ( unusedbitsFlag + unused_bits_idx ) ) ) == nq_est ); if ( EQ_16( nq_est, 1 ) ) { @@ -1087,8 +1085,8 @@ static void wrte_cv( Word16 *nbits /* i/o: bits */ ) { - int16_t pos, j; - int16_t bits, nq4; + Word16 pos, j; + Word16 bits, nq4; bits = *nbits; move16(); @@ -1101,32 +1099,32 @@ static void wrte_cv( ELSE IF( LT_16( nq, 5 ) ) /* Q2, Q3, Q4 */ { nq4 = shl( nq, 2 ); - push_indice_fx( hBstr, i_ind, I, nq4 ); + push_indice( hBstr, i_ind, I, nq4 ); bits = sub( bits, nq4 ); } ELSE IF( EQ_16( s_and( nq, 1 ), 0 ) ) /* Q4 + Voronoi extensions r=1,2,3,... */ { - push_indice_fx( hBstr, i_ind, I, 4 * 4 ); + push_indice( hBstr, i_ind, I, 4 * 4 ); bits = sub( bits, 4 * 4 ); /*pos = (int16_t)(nq / 2 - 2);*/ /* Voronoi order determination */ pos = sub( shr( nq, 1 ), 2 ); FOR( j = 0; j < 8; j++ ) { - push_indice_fx( hBstr, kv_ind, kv[j], pos ); + push_indice( hBstr, kv_ind, kv[j], pos ); } bits = sub( bits, shl( pos, 3 ) ); } ELSE /* Q3 + Voronoi extensions r=1,2,3,... */ { - push_indice_fx( hBstr, i_ind, I, 4 * 3 ); + push_indice( hBstr, i_ind, I, 4 * 3 ); bits = sub( bits, 4 * 3 ); /*pos = (int16_t)(nq / 2 - 1);*/ /* Voronoi order determination */ pos = sub( shr( nq, 1 ), 1 ); FOR( j = 0; j < 8; j++ ) { - push_indice_fx( hBstr, kv_ind, kv[j], pos ); + push_indice( hBstr, kv_ind, kv[j], pos ); } bits = sub( bits, shl( pos, 3 ) ); @@ -1147,8 +1145,8 @@ static void wrte_cv_ivas_fx( Word16 *nbits /* i/o: bits */ ) { - int16_t pos, j; - int16_t bits, nq4; + Word16 pos, j; + Word16 bits, nq4; bits = *nbits; move16(); diff --git a/lib_enc/bass_psfilter_enc.c b/lib_enc/bass_psfilter_enc.c deleted file mode 100644 index 9228e2f5d74225dead52c212c28881aa61812ea6..0000000000000000000000000000000000000000 --- a/lib_enc/bass_psfilter_enc.c +++ /dev/null @@ -1,42 +0,0 @@ -/****************************************************************************************************** - - (C) 2022-2025 IVAS codec Public Collaboration with portions copyright Dolby International AB, Ericsson AB, - Fraunhofer-Gesellschaft zur Foerderung der angewandten Forschung e.V., Huawei Technologies Co. LTD., - Koninklijke Philips N.V., Nippon Telegraph and Telephone Corporation, Nokia Technologies Oy, Orange, - Panasonic Holdings Corporation, Qualcomm Technologies, Inc., VoiceAge Corporation, and other - contributors to this repository. All Rights Reserved. - - This software is protected by copyright law and by international treaties. - The IVAS codec Public Collaboration consisting of Dolby International AB, Ericsson AB, - Fraunhofer-Gesellschaft zur Foerderung der angewandten Forschung e.V., Huawei Technologies Co. LTD., - Koninklijke Philips N.V., Nippon Telegraph and Telephone Corporation, Nokia Technologies Oy, Orange, - Panasonic Holdings Corporation, Qualcomm Technologies, Inc., VoiceAge Corporation, and other - contributors to this repository retain full ownership rights in their respective contributions in - the software. This notice grants no license of any kind, including but not limited to patent - license, nor is any license granted by implication, estoppel or otherwise. - - Contributors are required to enter into the IVAS codec Public Collaboration agreement before making - contributions. - - This software is provided "AS IS", without any express or implied warranties. The software is in the - development stage. It is intended exclusively for experts who have experience with such software and - solely for the purpose of inspection. All implied warranties of non-infringement, merchantability - and fitness for a particular purpose are hereby disclaimed and excluded. - - Any dispute, controversy or claim arising under or in relation to providing this software shall be - submitted to and settled by the final, binding jurisdiction of the courts of Munich, Germany in - accordance with the laws of the Federal Republic of Germany excluding its conflict of law rules and - the United Nations Convention on Contracts on the International Sales of Goods. - -*******************************************************************************************************/ - -/*==================================================================================== - EVS Codec 3GPP TS26.443 Nov 04, 2021. Version 12.14.0 / 13.10.0 / 14.6.0 / 15.4.0 / 16.3.0 - ====================================================================================*/ - -#include -#include "options.h" -#include -#include "prot.h" -#include "rom_com.h" -#include "wmc_auto.h" diff --git a/lib_enc/bass_psfilter_enc_fx.c b/lib_enc/bass_psfilter_enc_fx.c index a1d672fe0059f3a6971fa0fb7f6bb6800745d88a..a241101ba1f9b869a6b22df58d3b7aea1461e7c5 100644 --- a/lib_enc/bass_psfilter_enc_fx.c +++ b/lib_enc/bass_psfilter_enc_fx.c @@ -269,11 +269,7 @@ Word16 bass_pf_enc_fx( st = sub( s2, s2_old ); FOR( i = 0; i < tmp16; i++ ) { -#ifdef FIX_ISSUE_1187 noise_buf[i] = shl_sat( mem_bpf->noise_buf[i], st ); -#else - noise_buf[i] = shl( mem_bpf->noise_buf[i], st ); -#endif move16(); } Copy( noise_buf + l_subfr, mem_bpf->noise_buf, tmp16 ); diff --git a/lib_enc/bw_detect.c b/lib_enc/bw_detect.c deleted file mode 100644 index d86351ae8053e5deb265beef6dceb16d1cc13e22..0000000000000000000000000000000000000000 --- a/lib_enc/bw_detect.c +++ /dev/null @@ -1,64 +0,0 @@ -/****************************************************************************************************** - - (C) 2022-2025 IVAS codec Public Collaboration with portions copyright Dolby International AB, Ericsson AB, - Fraunhofer-Gesellschaft zur Foerderung der angewandten Forschung e.V., Huawei Technologies Co. LTD., - Koninklijke Philips N.V., Nippon Telegraph and Telephone Corporation, Nokia Technologies Oy, Orange, - Panasonic Holdings Corporation, Qualcomm Technologies, Inc., VoiceAge Corporation, and other - contributors to this repository. All Rights Reserved. - - This software is protected by copyright law and by international treaties. - The IVAS codec Public Collaboration consisting of Dolby International AB, Ericsson AB, - Fraunhofer-Gesellschaft zur Foerderung der angewandten Forschung e.V., Huawei Technologies Co. LTD., - Koninklijke Philips N.V., Nippon Telegraph and Telephone Corporation, Nokia Technologies Oy, Orange, - Panasonic Holdings Corporation, Qualcomm Technologies, Inc., VoiceAge Corporation, and other - contributors to this repository retain full ownership rights in their respective contributions in - the software. This notice grants no license of any kind, including but not limited to patent - license, nor is any license granted by implication, estoppel or otherwise. - - Contributors are required to enter into the IVAS codec Public Collaboration agreement before making - contributions. - - This software is provided "AS IS", without any express or implied warranties. The software is in the - development stage. It is intended exclusively for experts who have experience with such software and - solely for the purpose of inspection. All implied warranties of non-infringement, merchantability - and fitness for a particular purpose are hereby disclaimed and excluded. - - Any dispute, controversy or claim arising under or in relation to providing this software shall be - submitted to and settled by the final, binding jurisdiction of the courts of Munich, Germany in - accordance with the laws of the Federal Republic of Germany excluding its conflict of law rules and - the United Nations Convention on Contracts on the International Sales of Goods. - -*******************************************************************************************************/ - -/*==================================================================================== - EVS Codec 3GPP TS26.443 Nov 04, 2021. Version 12.14.0 / 13.10.0 / 14.6.0 / 15.4.0 / 16.3.0 - ====================================================================================*/ - -#include -#include -#include "options.h" -#include -#include "cnst.h" -#include "rom_enc.h" -#include "rom_com.h" -#include "prot.h" -#include "ivas_prot.h" -#include "wmc_auto.h" - -/*-------------------------------------------------------------------* - * Local constants - *-------------------------------------------------------------------*/ - -#define BWD_MIN_BRATE_WIDER_BW_MDCT IVAS_48k -#define BWD_MIN_BRATE_WIDER_BW_ISM IVAS_32k -#define BWD_MAX_BRATE_WIDER_BW_MDCT IVAS_80k -#define BWD_MAX_BRATE_WIDER_BW_ISM IVAS_64k - -#define ALPHA_BWD 0.75f -#define BWD_LT_THRESH 0.6f - -#define BWD_COUNT_MAX 100 -#define BWD_COUNT_WIDER_BW 10 -#define BWD_COUNT_WIDER_BW_MDCT 0 - -#define CLDFB_ENER_OFFSET 1.6f diff --git a/lib_enc/bw_detect_fx.c b/lib_enc/bw_detect_fx.c index 931b175ffcbcb81b781ceca892d01c8d71a9c16c..8a150d514caea3fc700b04b8921fc25dd0ddef92 100644 --- a/lib_enc/bw_detect_fx.c +++ b/lib_enc/bw_detect_fx.c @@ -41,12 +41,12 @@ void bw_detect_fx( Encoder_State *st, /* i/o: Encoder State */ const Word16 signal_in[], /* i : input signal */ - Word16 *spectrum, /* i : MDCT spectrum */ + Word16 *spectrum, /* i : MDCT spectrum Q_spec */ const Word32 *enerBuffer, /* i : CLDFB Energy Q31 */ const Word16 *cldfbBuf_Ener_Exp, /* i : CLDFB Energy Exponent */ const IVAS_FORMAT ivas_format, /* i : IVAS format */ - const Word16 mct_on /* i : flag MCT mode */ -) + const Word16 mct_on, /* i : flag MCT mode */ + const Word16 Q_spec ) { Word16 Q_dct; Word16 i, j, k, bw_max, bin_width, n_bins; @@ -67,12 +67,6 @@ void bw_detect_fx( const Word32 *pt32; Word32 max_NB32, max_WB32, max_SWB32, max_FB32, mean_NB32, mean_WB32, mean_SWB32, mean_FB32; /* Q11*/ /* we need Word32 for the new cldfb energy vectors */ Word16 bwd_count_wider_bw; -#ifdef IVAS_CODE_DFT - Word16 l_frame; -#endif -#ifndef IVAS_CODE_BWD - (void) spectrum; -#endif #ifdef BASOP_NOGLOB_DECLARE_LOCAL Flag Overflow = 0; move32(); @@ -318,6 +312,11 @@ void bw_detect_fx( bin_width = i_mult( bin_width, l_frame / BWD_TOTAL_WIDTH ); Copy( spectrum, spect, l_frame ); + if ( st->element_mode != EVS_MONO ) + { + Q_dct = Q_spec; + move16(); + } } /*---------------------------------------------------------------------* * compute energy per spectral bins @@ -909,6 +908,7 @@ void bw_detect_fx( return; } + /*-------------------------------------------------------------------* * set_bw_fx() * @@ -1046,7 +1046,7 @@ void set_bw_fx( move16(); } } -//#ifdef IVAS_CODE_BWD + /*-------------------------------------------------------------------* * set_bw_stereo() @@ -1093,7 +1093,8 @@ void set_bw_stereo_fx( return; } -//#endif + + /*-------------------------------------------------------------------* * set_bw_mct() * diff --git a/lib_enc/cng_enc.c b/lib_enc/cng_enc.c deleted file mode 100644 index 192a71f92588c5dd802efa7755d73918a0321b2c..0000000000000000000000000000000000000000 --- a/lib_enc/cng_enc.c +++ /dev/null @@ -1,429 +0,0 @@ -/****************************************************************************************************** - - (C) 2022-2025 IVAS codec Public Collaboration with portions copyright Dolby International AB, Ericsson AB, - Fraunhofer-Gesellschaft zur Foerderung der angewandten Forschung e.V., Huawei Technologies Co. LTD., - Koninklijke Philips N.V., Nippon Telegraph and Telephone Corporation, Nokia Technologies Oy, Orange, - Panasonic Holdings Corporation, Qualcomm Technologies, Inc., VoiceAge Corporation, and other - contributors to this repository. All Rights Reserved. - - This software is protected by copyright law and by international treaties. - The IVAS codec Public Collaboration consisting of Dolby International AB, Ericsson AB, - Fraunhofer-Gesellschaft zur Foerderung der angewandten Forschung e.V., Huawei Technologies Co. LTD., - Koninklijke Philips N.V., Nippon Telegraph and Telephone Corporation, Nokia Technologies Oy, Orange, - Panasonic Holdings Corporation, Qualcomm Technologies, Inc., VoiceAge Corporation, and other - contributors to this repository retain full ownership rights in their respective contributions in - the software. This notice grants no license of any kind, including but not limited to patent - license, nor is any license granted by implication, estoppel or otherwise. - - Contributors are required to enter into the IVAS codec Public Collaboration agreement before making - contributions. - - This software is provided "AS IS", without any express or implied warranties. The software is in the - development stage. It is intended exclusively for experts who have experience with such software and - solely for the purpose of inspection. All implied warranties of non-infringement, merchantability - and fitness for a particular purpose are hereby disclaimed and excluded. - - Any dispute, controversy or claim arising under or in relation to providing this software shall be - submitted to and settled by the final, binding jurisdiction of the courts of Munich, Germany in - accordance with the laws of the Federal Republic of Germany excluding its conflict of law rules and - the United Nations Convention on Contracts on the International Sales of Goods. - -*******************************************************************************************************/ - -/*==================================================================================== - EVS Codec 3GPP TS26.443 Nov 04, 2021. Version 12.14.0 / 13.10.0 / 14.6.0 / 15.4.0 / 16.3.0 - ====================================================================================*/ - -#include -#include "options.h" -#include -#include "cnst.h" -#include "rom_enc.h" -#include "rom_com.h" -#include "prot.h" -#include "wmc_auto.h" - -#include "prot_fx_enc.h" -#include "prot_fx.h" -#include "ivas_rom_com_fx.h" - -/*---------------------------------------------------------------------* - * Local function prototypes - *---------------------------------------------------------------------*/ - -static Word16 shb_DTX_ivas_fx( Encoder_State *st, const Word16 *shb_speech_fx, const Word16 *syn_12k8_16k_fx ); - -static void shb_CNG_encod_ivas_fx( Encoder_State *st, const Word16 update ); - - -void swb_CNG_enc_ivas_fx( - Encoder_State *st, /* i/o: State structure */ - const Word16 *shb_speech_fx, /* i : SHB target signal (6-14kHz) at 16kHz Q0 */ - const Word16 *syn_12k8_16k_fx /* i : ACELP core synthesis at 12.8kHz or 16kHz Q0 */ -) -{ - Word16 shb_SID_updt; - - test(); - IF( EQ_32( st->core_brate, SID_2k40 ) || st->core_brate == FRAME_NO_DATA ) - { - IF( st->cng_type == LP_CNG ) - { - test(); - IF( GE_32( st->input_Fs, L_FRAME32k * FRAMES_PER_SEC ) ) - { - /* decide if SHB SID encoding or not */ - shb_SID_updt = shb_DTX_ivas_fx( st, shb_speech_fx, syn_12k8_16k_fx ); - - /* SHB CNG encoding */ - shb_CNG_encod_ivas_fx( st, shb_SID_updt ); - } - ELSE IF( EQ_16( st->element_mode, IVAS_CPE_DFT ) && EQ_32( st->core_brate, SID_2k40 ) ) - { - /* LF-boost not used in DFT-stereo, instead the bandwidth is transmitted */ - delete_indice( st->hBstr, IND_CNG_ENV1 ); - push_indice( st->hBstr, IND_BWIDTH, st->bwidth, 2 ); - push_indice( st->hBstr, IND_UNUSED, 0, 4 ); - push_indice( st->hBstr, IND_SID_BW, 1, 1 ); - } - } - st->hTdCngEnc->last_vad = 0; - move16(); - } - ELSE - { - st->hTdCngEnc->last_vad = 1; - move16(); - } - - return; -} - - -/*---------------------------------------------------------------------* - * shb_CNG_encod() - * - * SID parameters encoding for SHB signal - *---------------------------------------------------------------------*/ - -static void shb_CNG_encod_ivas_fx( - Encoder_State *st, /* i/o: State structure */ - const Word16 update /* i : SID update flag */ -) -{ - Word16 idx_ener = 0; - move16(); - BSTR_ENC_HANDLE hBstr = st->hBstr; - - Word16 ener_mid_dec_thr_fx; - - IF( EQ_16( update, 1 ) ) - { - IF( st->element_mode == EVS_MONO ) - { - /* 6.0 in Q8 -> 1510 */ - /* 0.9 in Q15 29491 */ - /* ( 1 / log10(2.0) ) * 0.1 in Q15 ->10886 */ - idx_ener = shr( mult( add( mult( st->hTdCngEnc->mov_shb_cng_ener_fx, 10886 ), 1510 ), 29491 ), 8 ); /* Q0 */ - } - ELSE - { - /*idx_ener = (int16_t)(0.7f * (0.1f * st->hTdCngEnc->mov_shb_cng_ener / (float)log10(2.0f) + 6.0f) + 0.5f);*/ - // PMT("shb_CNG_encod_fx quantization in missing") - /* 6.0 in Q8 -> 1510 */ - /* 0.7 in Q15 22938 */ - /* ( 1 / log10(2.0) ) * 0.1 in Q15 -> 10886 */ - idx_ener = shr( mult( add( mult( st->hTdCngEnc->mov_shb_cng_ener_fx, 10886 ), 1510 ), 22938 ), 8 ); /* Q0 */ - } - - - if ( LT_16( st->bwidth, SWB ) ) - { - idx_ener = 0; - move16(); - } - - IF( GT_16( idx_ener, 15 ) ) - { - idx_ener = 15; - move16(); - } - ELSE IF( idx_ener < 0 ) - { - idx_ener = 0; - move16(); - } - - /* prevent toggling of idx_ener by adding small dead-zone interval around decision thresholds */ - IF( st->element_mode != EVS_MONO ) - { - IF( EQ_16( abs_s( sub( idx_ener, st->hTdCngEnc->last_idx_ener ) ), 1 ) ) - { - - Word16 tmp, tmp1, tmp2, scale, exp1, exp2, ener_mid_dec_thr_e; - tmp = BASOP_Util_Divide1616_Scale( st->hTdCngEnc->last_idx_ener, 22938, &scale ); // 0.7 in Q15 ->exp 0 - scale = add( scale, ( 15 - 0 ) ); - tmp = sub( tmp, shl( 6, sub( Q15, scale ) ) ); - tmp1 = BASOP_Util_Divide1616_Scale( tmp, 3277, &exp1 ); - exp1 = add( exp1, ( scale - 0 ) ); - - ener_mid_dec_thr_fx = shr( mult( tmp1, 9864 ), 1 ); // exp = exp - - tmp = BASOP_Util_Divide1616_Scale( idx_ener, 22938, &scale ); // 0.7 in Q15 ->exp 0 - scale = add( scale, ( 15 - 0 ) ); - tmp = sub( tmp, shl( 6, sub( Q15, scale ) ) ); - tmp1 = BASOP_Util_Divide1616_Scale( tmp, 3277, &exp2 ); - exp2 = add( exp2, ( scale - 0 ) ); - - tmp2 = shr( mult( tmp1, 9864 ), 1 ); // exp = exp - - ener_mid_dec_thr_e = BASOP_Util_Add_MantExp( tmp2, exp2, ener_mid_dec_thr_fx, exp1, &ener_mid_dec_thr_fx ); - - - scale = BASOP_Util_Add_MantExp( st->hTdCngEnc->mov_shb_cng_ener_fx, 7, negate( ener_mid_dec_thr_fx ), ener_mid_dec_thr_e, &tmp ); - tmp1 = BASOP_Util_Divide1616_Scale( tmp, ener_mid_dec_thr_fx, &exp1 ); - exp1 = add( exp1, sub( scale, ener_mid_dec_thr_e ) ); - IF( LT_16( abs_s( tmp1 ), shr( 328, sub( 15, exp1 ) ) ) ) - { - idx_ener = st->hTdCngEnc->last_idx_ener; - move16(); - } - } - } - - st->hTdCngEnc->last_idx_ener = idx_ener; - move16(); - - push_indice( hBstr, IND_SHB_CNG_GAIN, idx_ener, 4 ); - push_indice( hBstr, IND_SID_BW, 1, 1 ); - delete_indice( hBstr, IND_CNG_ENV1 ); - IF( EQ_16( st->element_mode, IVAS_CPE_DFT ) ) - { - push_indice( st->hBstr, IND_BWIDTH, st->bwidth, 2 ); - } - ELSE - { - push_indice( hBstr, IND_UNUSED, 0, 2 ); - } - st->hTdCngEnc->ho_sid_bw = L_shl( L_and( st->hTdCngEnc->ho_sid_bw, (Word32) 0x3fffffffL ), 1 ); - st->hTdCngEnc->ho_sid_bw = L_or( st->hTdCngEnc->ho_sid_bw, 0x1L ); - move32(); - move32(); - } - ELSE IF( EQ_32( st->core_brate, SID_2k40 ) ) - { - st->hTdCngEnc->ho_sid_bw = L_shl( L_and( st->hTdCngEnc->ho_sid_bw, (Word32) 0x3fffffffL ), 1 ); - move32(); - push_indice( hBstr, IND_SID_BW, 0, 1 ); - } - - return; -} - -/*---------------------------------------------------------------------* - * shb_DTX() - * - * Decide if encoding SHB SID or not - *---------------------------------------------------------------------*/ - -static Word16 shb_DTX_ivas_fx( - Encoder_State *st, /* i/o: State structure */ - const Word16 *shb_speech_fx, /* i : SHB target signal (6-14kHz) at 16kHz Q0 */ - const Word16 *syn_12k8_16k_fx /* i : ACELP core synthesis at 12.8kHz or 16kHz Q0 */ -) -{ - Word16 i; - Word16 update; - - Word16 allow_cn_step = 0; - move16(); - Word16 shb_old_speech_fx[( ACELP_LOOK_12k8 + L_SUBFR + L_FRAME ) * 5 / 4]; - Word16 *shb_new_speech_fx; - Word32 wb_ener_fx; - Word32 shb_ener_fx; - Word16 log_wb_ener_fx; - Word16 log_shb_ener_fx; - Word16 tmp; - Word16 exp; - Word16 fra; - Word16 att_fx; /*Q8*/ - - TD_CNG_ENC_HANDLE hTdCngEnc = st->hTdCngEnc; - TD_BWE_ENC_HANDLE hBWE_TD = st->hBWE_TD; - - -#ifdef BASOP_NOGLOB_DECLARE_LOCAL - Flag Overflow = 0; - move16(); -#endif - - shb_new_speech_fx = shb_old_speech_fx + ( ACELP_LOOK_12k8 + L_SUBFR ) * 5 / 4; - Copy( hBWE_TD->old_speech_shb_fx, shb_old_speech_fx, ( ACELP_LOOK_12k8 + L_SUBFR ) * 5 / 4 ); // old_speech_shb_fx -> Q0 - Copy( shb_speech_fx, shb_new_speech_fx, L_FRAME16k ); // Q0 - Copy( shb_old_speech_fx + L_FRAME16k, hBWE_TD->old_speech_shb_fx, ( ACELP_LOOK_12k8 + L_SUBFR ) * 5 / 4 ); // Q0 - - shb_ener_fx = L_deposit_l( 0 ); - FOR( i = 0; i < L_FRAME16k; i++ ) - { - shb_ener_fx = L_mac_sat( shb_ener_fx, shb_old_speech_fx[i], shb_old_speech_fx[i] ); // ( Q0 + Q0 + Q1 ) --> Q1 due to left shift in L_mac - } - - shb_ener_fx = L_add( Mpy_32_16_1( shb_ener_fx, 102 ), 1 ); /* ( 1 / L_FRAME16K ) -> 102 in Q15, shb_ener_fx in Q1 */ - - wb_ener_fx = L_deposit_l( 0 ); - FOR( i = 0; i < st->L_frame; i++ ) - { - wb_ener_fx = L_mac_o( wb_ener_fx, syn_12k8_16k_fx[i], syn_12k8_16k_fx[i], &Overflow ); // ( Q0 + Q0 + Q1 ) --> Q1 due to left shift in L_mac - } - - wb_ener_fx = L_add( Mpy_32_16_1( wb_ener_fx, 128 ), 1 ); /* 128 in Q15, wb_ener_fx in Q1 */ - - exp = norm_l( wb_ener_fx ); - fra = Log2_norm_lc( L_shl( wb_ener_fx, exp ) ); - exp = sub( 30 - 1, exp ); - wb_ener_fx = Mpy_32_16( exp, fra, LG10 ); - - log_wb_ener_fx = round_fx_o( L_shl_o( wb_ener_fx, 10, &Overflow ), &Overflow ); /* log_wb_ener_fx in Q8 */ - exp = norm_l( shb_ener_fx ); - fra = Log2_norm_lc( L_shl( shb_ener_fx, exp ) ); - exp = sub( 30 - 1, exp ); - shb_ener_fx = Mpy_32_16( exp, fra, LG10 ); - - - test(); - IF( EQ_16( st->element_mode, IVAS_SCE ) || EQ_16( st->element_mode, IVAS_CPE_DFT ) ) - { - Word32 att_fx32 = 0; - move32(); - Word16 index; - - apply_scale_ivas_fx( &att_fx32, st->hFdCngEnc->hFdCngCom->CngBandwidth, st->hFdCngEnc->hFdCngCom->CngBitrate, scaleTableStereo, SIZE_SCALE_TABLE_STEREO, &index ); // Q23; - - att_fx = extract_l( L_shr( att_fx32, 15 ) ); // Q8 - } - ELSE - { - att_fx = -1664; // Q8 - move16(); - } - - - log_shb_ener_fx = sub_o( round_fx_o( L_shl_o( shb_ener_fx, 10, &Overflow ), &Overflow ), att_fx, &Overflow ); /* log_shb_ener_fx in Q8 */ - - IF( st->hDtxEnc->first_CNG == 0 ) - { - - - hTdCngEnc->mov_wb_cng_ener_fx = log_wb_ener_fx; // Q8 - hTdCngEnc->mov_shb_cng_ener_fx = log_shb_ener_fx; // Q8 - hTdCngEnc->last_wb_cng_ener_fx = log_wb_ener_fx; // Q8 - hTdCngEnc->last_shb_cng_ener_fx = log_shb_ener_fx; // Q8 - move16(); - move16(); - move16(); - move16(); - } - IF( GT_16( abs_s( sub( log_wb_ener_fx, hTdCngEnc->mov_wb_cng_ener_fx ) ), 3072 /*12 in Q8*/ ) ) - { - allow_cn_step = 1; - move16(); - } - - /* Also allow step if shb energy has dropped 12 dB */ - test(); - test(); - IF( ( EQ_16( st->element_mode, IVAS_CPE_DFT ) || EQ_16( st->element_mode, IVAS_CPE_TD ) ) && GT_16( sub( hTdCngEnc->mov_shb_cng_ener_fx, log_shb_ener_fx ), 3072 /*12 in Q8*/ ) ) - { - allow_cn_step = 1; - move16(); - } - - IF( EQ_16( allow_cn_step, 1 ) ) - { - hTdCngEnc->mov_wb_cng_ener_fx = log_wb_ener_fx; - hTdCngEnc->mov_shb_cng_ener_fx = log_shb_ener_fx; - move16(); - move16(); - } - ELSE - { - tmp = sub( log_wb_ener_fx, hTdCngEnc->mov_wb_cng_ener_fx ); /* Q8 */ - tmp = mult( tmp, 29491 /* .9f in Q15*/ ); /* Q8 */ - hTdCngEnc->mov_wb_cng_ener_fx = add( hTdCngEnc->mov_wb_cng_ener_fx, tmp ); /* Q8 */ - move16(); - - tmp = sub( log_shb_ener_fx, hTdCngEnc->mov_shb_cng_ener_fx ); - tmp = mult( tmp, 8192 /* .25f in Q15*/ ); /* Q8 */ - hTdCngEnc->mov_shb_cng_ener_fx = add( hTdCngEnc->mov_shb_cng_ener_fx, tmp ); /* Q8 */ - move16(); - } - - hTdCngEnc->shb_NO_DATA_cnt = add( hTdCngEnc->shb_NO_DATA_cnt, 1 ); - update = 0; - - move16(); - move16(); - - IF( EQ_32( st->core_brate, SID_2k40 ) ) - { - test(); - test(); - test(); - IF( st->hDtxEnc->first_CNG == 0 ) - { - update = 1; - move16(); - } - ELSE IF( hTdCngEnc->shb_cng_ini_cnt > 0 ) - { - hTdCngEnc->shb_cng_ini_cnt = sub( hTdCngEnc->shb_cng_ini_cnt, 1 ); - update = 1; - move16(); - move16(); - } - ELSE IF( EQ_16( hTdCngEnc->last_vad, 1 ) ) - { - update = 1; - move16(); - } - ELSE IF( GE_16( hTdCngEnc->shb_NO_DATA_cnt, 100 ) ) - { - update = 1; - move16(); - } - ELSE IF( GT_16( abs_s( sub( sub( hTdCngEnc->mov_wb_cng_ener_fx, hTdCngEnc->mov_shb_cng_ener_fx ), sub( hTdCngEnc->last_wb_cng_ener_fx, hTdCngEnc->last_shb_cng_ener_fx ) ) ), 768 ) ) - { - update = 1; - move16(); - } - ELSE IF( ( GE_16( st->bwidth, SWB ) && LT_16( hTdCngEnc->last_SID_bwidth, SWB ) ) || ( LT_16( st->bwidth, SWB ) && GE_16( hTdCngEnc->last_SID_bwidth, SWB ) ) ) - { - update = 1; - move16(); - } - - hTdCngEnc->last_SID_bwidth = st->bwidth; - move16(); - } - - /* LF-boost not yet implemented in decoder which means that the specific wb_sid information is not used */ - test(); - test(); - if ( ( EQ_16( st->element_mode, IVAS_CPE_DFT ) || EQ_16( st->element_mode, IVAS_CPE_TD ) ) && EQ_32( st->core_brate, SID_2k40 ) ) - { - update = 1; - move16(); - } - - IF( EQ_16( update, 1 ) ) - { - hTdCngEnc->last_wb_cng_ener_fx = hTdCngEnc->mov_wb_cng_ener_fx; - hTdCngEnc->last_shb_cng_ener_fx = hTdCngEnc->mov_shb_cng_ener_fx; - hTdCngEnc->shb_NO_DATA_cnt = 0; - move16(); - move16(); - move16(); - } - - return ( update ); -} diff --git a/lib_enc/cng_enc_fx.c b/lib_enc/cng_enc_fx.c index 4cfc193ecc5785ac74d5b4e0bc75405f86d11176..b031ca5286e5688abb3280298481d225d47d5300 100644 --- a/lib_enc/cng_enc_fx.c +++ b/lib_enc/cng_enc_fx.c @@ -2,12 +2,10 @@ EVS Codec 3GPP TS26.452 Aug 12, 2021. Version 16.3.0 ====================================================================================*/ #include -#include "options.h" /* Compilation switches */ -#include "cnst.h" /* Common constants */ -#include "rom_enc.h" /* Encoder static table prototypes */ -#include "rom_com.h" /* Static table prototypes */ -//#include "prot_fx.h" /* Function prototypes */ -#include "prot.h" /* Function prototypes */ +#include "options.h" /* Compilation switches */ +#include "cnst.h" /* Common constants */ +#include "rom_enc.h" /* Encoder static table prototypes */ +#include "rom_com.h" /* Static table prototypes */ #include "prot_fx.h" /* Function prototypes */ #include "prot_fx_enc.h" /* Function prototypes */ //#include "basop_mpy.h" @@ -27,6 +25,8 @@ *---------------------------------------------------------------------*/ static void shb_CNG_encod_fx( Encoder_State *st_fx, const Word16 update_fx ); static Word16 shb_DTX_fx( Encoder_State *st_fx, const Word16 *shb_speech_fx, const Word16 *syn_12k8_16k ); +static Word16 shb_DTX_ivas_fx( Encoder_State *st, const Word16 *shb_speech_fx, const Word16 *syn_12k8_16k_fx ); +static void shb_CNG_encod_ivas_fx( Encoder_State *st, const Word16 update ); /*---------------------------------------------------------------------* * CNG_enc() * @@ -336,11 +336,7 @@ void CNG_enc_fx( } ELSE { -#ifdef LSF_RE_USE_SECONDARY_CHANNEL - lsf_enc_fx( st_fx, lsf_new, lsp_new, NULL, NULL, 100, 0, 0, NULL, Q_new ); -#else lsf_enc_fx( st_fx, lsf_new, lsp_new, NULL, NULL, 100, 0, 0, Q_new ); -#endif } /* Reset CNG history if CNG frame length is changed */ test(); @@ -729,11 +725,6 @@ void CNG_enc_fx( test(); IF( EQ_16( st_fx->element_mode, IVAS_CPE_DFT ) || EQ_16( st_fx->element_mode, IVAS_CPE_TD ) ) { - // PMT("Code to be completed") -#ifdef IVAS_CODE - att = powf( 10.0f, hTdCngEnc->CNG_att / 20.0f ); - v_multc( res1, att, res1, st->L_frame ); -#endif } ELSE IF( NE_16( st_fx->bwidth, NB ) ) { @@ -770,8 +761,7 @@ void CNG_enc_fx( IF( EQ_16( st_fx->L_frame, L_FRAME16k ) ) { - Word16 Q_new_inp, mem_decim_size; // TO be removed - modify_Fs_fx( fft_io, L_FRAME16k, 16000, fft_io, 12800, hTdCngEnc->exc_mem2_fx, 0, &Q_new_inp, &mem_decim_size ); + modify_Fs_fx( fft_io, L_FRAME16k, 16000, fft_io, 12800, hTdCngEnc->exc_mem2_fx, 0 ); } fft_rel_fx( fft_io, L_FFT, LOG2_L_FFT ); @@ -911,9 +901,6 @@ void CNG_enc_fx( test(); IF( EQ_16( st_fx->element_mode, IVAS_SCE ) || EQ_16( st_fx->element_mode, IVAS_CPE_DFT ) ) { - // PMT("CNG IVAS_SCE and IVAS_CPE_DFT code missing") - // IVAS_CODE - // enr += hTdCngEnc->CNG_att * FAC_LOG2 / 10.0f; } ELSE IF( NE_16( st_fx->bwidth, NB ) ) { @@ -988,7 +975,7 @@ void CNG_enc_fx( hTdCngEnc->old_enr_index = enr_index; move16(); - push_indice_fx( hBstr, IND_ENERGY, enr_index, num_bits ); + push_indice( hBstr, IND_ENERGY, enr_index, num_bits ); if ( enr_index == 0 ) { enr_index = -5; @@ -1076,7 +1063,7 @@ void CNG_enc_fx( move16(); } } - push_indice_fx( hBstr, IND_CNG_ENV1, min1_idx, 6 ); + push_indice( hBstr, IND_CNG_ENV1, min1_idx, 6 ); /* get quantized res_env_details */ FOR( i = 0; i < NUM_ENV_CNG; i++ ) { @@ -1135,28 +1122,28 @@ void CNG_enc_fx( /* dithering bit for AMR-WB IO mode is always set to 0 */ IF( EQ_32( st_fx->core_brate, SID_1k75 ) ) { - push_indice_fx( hBstr, IND_DITHERING, 0, 1 ); + push_indice( hBstr, IND_DITHERING, 0, 1 ); } IF( EQ_32( st_fx->core_brate, SID_2k40 ) ) { IF( EQ_16( st_fx->L_frame, L_FRAME16k ) ) { - push_indice_fx( hBstr, IND_ACELP_16KHZ, 1, 1 ); + push_indice( hBstr, IND_ACELP_16KHZ, 1, 1 ); } ELSE { - push_indice_fx( hBstr, IND_ACELP_16KHZ, 0, 1 ); + push_indice( hBstr, IND_ACELP_16KHZ, 0, 1 ); } - push_indice_fx( hBstr, IND_CNG_HO, s_min( hTdCngEnc->burst_ho_cnt, 7 ), 3 ); + push_indice( hBstr, IND_CNG_HO, s_min( hTdCngEnc->burst_ho_cnt, 7 ), 3 ); hTdCngEnc->num_ho = m; move16(); - push_indice_fx( hBstr, IND_SID_TYPE, 0, 1 ); + push_indice( hBstr, IND_SID_TYPE, 0, 1 ); test(); IF( LT_32( st_fx->input_Fs, 32000 ) && NE_16( st_fx->element_mode, IVAS_CPE_DFT ) ) { - push_indice_fx( hBstr, IND_SID_BW, 0, 1 ); + push_indice( hBstr, IND_SID_BW, 0, 1 ); *sid_bw = 0; move16(); } @@ -1318,19 +1305,19 @@ void CNG_enc_ivas_fx( move16(); BREAK; case L_FRAME32k: - inv_frame_len = ONE_BY_L_FRAME48k_Q31; + inv_frame_len = ONE_BY_L_FRAME32k_Q31; move16(); BREAK; case L_FRAME16k: - inv_frame_len = ONE_BY_L_FRAME48k_Q31; + inv_frame_len = ONE_BY_L_FRAME16k_Q31; move16(); BREAK; case L_FRAME8k: - inv_frame_len = ONE_BY_L_FRAME48k_Q31; + inv_frame_len = ONE_BY_L_FRAME8k_Q31; move16(); BREAK; case L_FRAME4k: - inv_frame_len = ONE_BY_L_FRAME48k_Q31; + inv_frame_len = ONE_BY_L_FRAME4k_Q31; move16(); BREAK; default: @@ -1889,7 +1876,7 @@ void CNG_enc_ivas_fx( { E_LPC_f_lsp_a_conversion( hDtxEnc->lspCNG_fx, Aq, M ); exp = sub( Q14, norm_s( Aq[0] ) ); - Scale_sig( Aq, M, sub( Q12, exp ) ); // Q12 + Scale_sig( Aq, M + 1, sub( Q12, exp ) ); // Q12 } tmp_loop = shr( st_fx->L_frame, 6 ); @@ -1948,8 +1935,7 @@ void CNG_enc_ivas_fx( IF( EQ_16( st_fx->L_frame, L_FRAME16k ) ) { - Word16 Q_new_inp, mem_decim_size; // TO be removed - modify_Fs_fx( fft_io, L_FRAME16k, 16000, fft_io, 12800, hTdCngEnc->exc_mem2_fx, 0, &Q_new_inp, &mem_decim_size ); + modify_Fs_fx( fft_io, L_FRAME16k, 16000, fft_io, 12800, hTdCngEnc->exc_mem2_fx, 0 ); } fft_rel_fx( fft_io, L_FFT, LOG2_L_FFT ); @@ -2000,19 +1986,19 @@ void CNG_enc_ivas_fx( move16(); BREAK; case L_FRAME32k: - inv_frame_len = ONE_BY_L_FRAME48k_Q31; + inv_frame_len = ONE_BY_L_FRAME32k_Q31; move16(); BREAK; case L_FRAME16k: - inv_frame_len = ONE_BY_L_FRAME48k_Q31; + inv_frame_len = ONE_BY_L_FRAME16k_Q31; move16(); BREAK; case L_FRAME8k: - inv_frame_len = ONE_BY_L_FRAME48k_Q31; + inv_frame_len = ONE_BY_L_FRAME8k_Q31; move16(); BREAK; case L_FRAME4k: - inv_frame_len = ONE_BY_L_FRAME48k_Q31; + inv_frame_len = ONE_BY_L_FRAME4k_Q31; move16(); BREAK; default: @@ -2025,14 +2011,12 @@ void CNG_enc_ivas_fx( /* convert log2 of residual signal energy */ /*enr = (float)log10( enr + 0.1f ) / (float)log10( 2.0f ); */ -#ifdef FIX_ISSUE_1245 IF( L_ener == 0 ) { enr = -850; /*log(0.1) base 2 in Q8*/ move16(); } ELSE -#endif { hi = norm_l( L_ener ); lo = Log2_norm_lc( L_shl( L_ener, hi ) ); @@ -2417,14 +2401,6 @@ void swb_CNG_enc_fx( } ELSE IF( EQ_16( st_fx->element_mode, IVAS_CPE_DFT ) && EQ_32( st_fx->core_brate, SID_2k40 ) ) { - // PMT("CNG IVAS_CPE_DFT code not implemented") -#ifdef IVAS_CODE - /* LF-boost not used in DFT-stereo, instead the bandwidth is transmitted */ - delete_indice( st->hBstr, IND_CNG_ENV1 ); - push_indice( st->hBstr, IND_BWIDTH, st->bwidth, 2 ); - push_indice( st->hBstr, IND_UNUSED, 0, 4 ); - push_indice( st->hBstr, IND_SID_BW, 1, 1 ); -#endif } } hTdCngEnc->last_vad = 0; @@ -2452,9 +2428,6 @@ static void shb_CNG_encod_fx( Word16 idx_ener_fx; TD_CNG_ENC_HANDLE hTdCngEnc = st_fx->hTdCngEnc; BSTR_ENC_HANDLE hBstr = st_fx->hBstr; -#ifdef IVAS_CODE - Word16 ener_mid_dec_thr; -#endif idx_ener_fx = 0; move16(); @@ -2467,8 +2440,6 @@ static void shb_CNG_encod_fx( } ELSE { - /*idx_ener = (int16_t)(0.7f * (0.1f * st->hTdCngEnc->mov_shb_cng_ener / (float)log10(2.0f) + 6.0f) + 0.5f);*/ - // PMT("shb_CNG_encod_fx quantization in missing") } if ( LT_16( st_fx->bwidth, SWB ) ) @@ -2486,43 +2457,24 @@ static void shb_CNG_encod_fx( { idx_ener_fx = s_max( idx_ener_fx, 0 ); } -#ifdef IVAS_CODE - /* prevent toggling of idx_ener by adding small dead-zone interval around decision thresholds */ - if ( st->element_mode != EVS_MONO ) - { - if ( abs( idx_ener - st->hTdCngEnc->last_idx_ener ) == 1 ) - { - ener_mid_dec_thr = 0.5f * ( ( st->hTdCngEnc->last_idx_ener / 0.7f - 6.0f ) / 0.1f ) * (float) log10( 2.0f ); - ener_mid_dec_thr += 0.5f * ( ( idx_ener / 0.7f - 6.0f ) / 0.1f ) * (float) log10( 2.0f ); - if ( fabs( st->hTdCngEnc->mov_shb_cng_ener - ener_mid_dec_thr ) / ener_mid_dec_thr < ENER_MID_DEAD_ZONE ) - { - idx_ener = st->hTdCngEnc->last_idx_ener; - } - } - } - - st->hTdCngEnc->last_idx_ener = idx_ener; -#endif - push_indice_fx( hBstr, IND_SHB_CNG_GAIN, idx_ener_fx, 4 ); - push_indice_fx( hBstr, IND_SID_BW, 1, 1 ); -#ifndef IVAS_CODE + push_indice( hBstr, IND_SHB_CNG_GAIN, idx_ener_fx, 4 ); + push_indice( hBstr, IND_SID_BW, 1, 1 ); +#ifdef HARM_PUSH_BIT + delete_indice( hBstr, IND_CNG_ENV1 ); +#else hBstr->nb_bits_tot = sub( hBstr->nb_bits_tot, hBstr->ind_list[IND_CNG_ENV1].nb_bits ); hBstr->ind_list[IND_CNG_ENV1].nb_bits = -1; +#endif move16(); move16(); -#else - delete_indice( hBstr, IND_CNG_ENV1 ); -#endif -#ifdef IVAS_CODE - if ( st->element_mode == IVAS_CPE_DFT ) + + if ( st_fx->element_mode == IVAS_CPE_DFT ) { - push_indice( st->hBstr, IND_BWIDTH, st->bwidth, 2 ); } else -#endif { - push_indice_fx( hBstr, IND_UNUSED, 0, 2 ); + push_indice( hBstr, IND_UNUSED, 0, 2 ); } hTdCngEnc->ho_sid_bw = L_shl( L_and( hTdCngEnc->ho_sid_bw, (Word32) 0x3fffffffL ), 1 ); hTdCngEnc->ho_sid_bw = L_or( hTdCngEnc->ho_sid_bw, 0x1L ); @@ -2534,7 +2486,7 @@ static void shb_CNG_encod_fx( IF( EQ_32( st_fx->core_brate, SID_2k40 ) ) { hTdCngEnc->ho_sid_bw = L_shl( L_and( hTdCngEnc->ho_sid_bw, (Word32) 0x3fffffffL ), 1 ); - push_indice_fx( hBstr, IND_SID_BW, 0, 1 ); + push_indice( hBstr, IND_SID_BW, 0, 1 ); } } @@ -2635,13 +2587,7 @@ static Word16 shb_DTX_fx( allow_cn_step_fx = 1; move16(); } -#ifdef IVAS_CODE - /* Also allow step if shb energy has dropped 12 dB */ - if ( ( st->element_mode == IVAS_CPE_DFT || st->element_mode == IVAS_CPE_TD ) && ( ( hTdCngEnc->mov_shb_cng_ener - log_shb_ener ) > 12.0f ) ) - { - allow_cn_step = 1; - } -#endif + IF( EQ_16( allow_cn_step_fx, 1 ) ) { hTdCngEnc->mov_wb_cng_ener_fx = log_wb_ener_fx; @@ -2761,13 +2707,10 @@ void calculate_hangover_attenuation_gain_fx( test(); IF( hTdCngEnc->burst_ho_cnt > 0 && ( vad_hover_flag != 0 ) && ( NE_16( st->bwidth, NB ) || st->element_mode > EVS_MONO ) ) /* corresponds to line 504 in FLT acelp_core_enc.c */ { -#ifdef IVAS_CODE if ( st->element_mode == IVAS_CPE_DFT || st->element_mode == IVAS_CPE_TD ) { - *att = powf( 10.0f, ( st->hTdCngEnc->CNG_att / 160.0f ) * st->hTdCngEnc->burst_ho_cnt ); } else -#endif { offset = 5; move16(); @@ -2839,3 +2782,375 @@ void calculate_hangover_attenuation_gain_ivas_fx( return; } + +void swb_CNG_enc_ivas_fx( + Encoder_State *st, /* i/o: State structure */ + const Word16 *shb_speech_fx, /* i : SHB target signal (6-14kHz) at 16kHz Q0 */ + const Word16 *syn_12k8_16k_fx /* i : ACELP core synthesis at 12.8kHz or 16kHz Q0 */ +) +{ + Word16 shb_SID_updt; + + test(); + IF( EQ_32( st->core_brate, SID_2k40 ) || st->core_brate == FRAME_NO_DATA ) + { + IF( st->cng_type == LP_CNG ) + { + test(); + IF( GE_32( st->input_Fs, L_FRAME32k * FRAMES_PER_SEC ) ) + { + /* decide if SHB SID encoding or not */ + shb_SID_updt = shb_DTX_ivas_fx( st, shb_speech_fx, syn_12k8_16k_fx ); + + /* SHB CNG encoding */ + shb_CNG_encod_ivas_fx( st, shb_SID_updt ); + } + ELSE IF( EQ_16( st->element_mode, IVAS_CPE_DFT ) && EQ_32( st->core_brate, SID_2k40 ) ) + { + /* LF-boost not used in DFT-stereo, instead the bandwidth is transmitted */ + delete_indice( st->hBstr, IND_CNG_ENV1 ); + push_indice( st->hBstr, IND_BWIDTH, st->bwidth, 2 ); + push_indice( st->hBstr, IND_UNUSED, 0, 4 ); + push_indice( st->hBstr, IND_SID_BW, 1, 1 ); + } + } + st->hTdCngEnc->last_vad = 0; + move16(); + } + ELSE + { + st->hTdCngEnc->last_vad = 1; + move16(); + } + + return; +} + + +/*---------------------------------------------------------------------* + * shb_CNG_encod() + * + * SID parameters encoding for SHB signal + *---------------------------------------------------------------------*/ + +static void shb_CNG_encod_ivas_fx( + Encoder_State *st, /* i/o: State structure */ + const Word16 update /* i : SID update flag */ +) +{ + Word16 idx_ener = 0; + move16(); + BSTR_ENC_HANDLE hBstr = st->hBstr; + + Word16 ener_mid_dec_thr_fx; + + IF( EQ_16( update, 1 ) ) + { + IF( st->element_mode == EVS_MONO ) + { + /* 6.0 in Q8 -> 1510 */ + /* 0.9 in Q15 29491 */ + /* ( 1 / log10(2.0) ) * 0.1 in Q15 ->10886 */ + idx_ener = shr( mult( add( mult( st->hTdCngEnc->mov_shb_cng_ener_fx, 10886 ), 1510 ), 29491 ), 8 ); /* Q0 */ + } + ELSE + { + /*idx_ener = (int16_t)(0.7f * (0.1f * st->hTdCngEnc->mov_shb_cng_ener / (float)log10(2.0f) + 6.0f) + 0.5f);*/ + // PMT("shb_CNG_encod_fx quantization in missing") + /* 6.0 in Q8 -> 1510 */ + /* 0.7 in Q15 22938 */ + /* ( 1 / log10(2.0) ) * 0.1 in Q15 -> 10886 */ + idx_ener = shr( mult( add( mult( st->hTdCngEnc->mov_shb_cng_ener_fx, 10886 ), 1510 ), 22938 ), 8 ); /* Q0 */ + } + + + if ( LT_16( st->bwidth, SWB ) ) + { + idx_ener = 0; + move16(); + } + + IF( GT_16( idx_ener, 15 ) ) + { + idx_ener = 15; + move16(); + } + ELSE IF( idx_ener < 0 ) + { + idx_ener = 0; + move16(); + } + + /* prevent toggling of idx_ener by adding small dead-zone interval around decision thresholds */ + IF( st->element_mode != EVS_MONO ) + { + IF( EQ_16( abs_s( sub( idx_ener, st->hTdCngEnc->last_idx_ener ) ), 1 ) ) + { + + Word16 tmp, tmp1, tmp2, scale, exp1, exp2, ener_mid_dec_thr_e; + tmp = BASOP_Util_Divide1616_Scale( st->hTdCngEnc->last_idx_ener, 22938, &scale ); // 0.7 in Q15 ->exp 0 + scale = add( scale, ( 15 - 0 ) ); + tmp = sub( tmp, shl( 6, sub( Q15, scale ) ) ); + tmp1 = BASOP_Util_Divide1616_Scale( tmp, 3277, &exp1 ); + exp1 = add( exp1, ( scale - 0 ) ); + + ener_mid_dec_thr_fx = shr( mult( tmp1, 9864 ), 1 ); // exp = exp + + tmp = BASOP_Util_Divide1616_Scale( idx_ener, 22938, &scale ); // 0.7 in Q15 ->exp 0 + scale = add( scale, ( 15 - 0 ) ); + tmp = sub( tmp, shl( 6, sub( Q15, scale ) ) ); + tmp1 = BASOP_Util_Divide1616_Scale( tmp, 3277, &exp2 ); + exp2 = add( exp2, ( scale - 0 ) ); + + tmp2 = shr( mult( tmp1, 9864 ), 1 ); // exp = exp + + ener_mid_dec_thr_e = BASOP_Util_Add_MantExp( tmp2, exp2, ener_mid_dec_thr_fx, exp1, &ener_mid_dec_thr_fx ); + + + scale = BASOP_Util_Add_MantExp( st->hTdCngEnc->mov_shb_cng_ener_fx, 7, negate( ener_mid_dec_thr_fx ), ener_mid_dec_thr_e, &tmp ); + tmp1 = BASOP_Util_Divide1616_Scale( tmp, ener_mid_dec_thr_fx, &exp1 ); + exp1 = add( exp1, sub( scale, ener_mid_dec_thr_e ) ); + IF( LT_16( abs_s( tmp1 ), shr( 328, sub( 15, exp1 ) ) ) ) + { + idx_ener = st->hTdCngEnc->last_idx_ener; + move16(); + } + } + } + + st->hTdCngEnc->last_idx_ener = idx_ener; + move16(); + + push_indice( hBstr, IND_SHB_CNG_GAIN, idx_ener, 4 ); + push_indice( hBstr, IND_SID_BW, 1, 1 ); + delete_indice( hBstr, IND_CNG_ENV1 ); + IF( EQ_16( st->element_mode, IVAS_CPE_DFT ) ) + { + push_indice( st->hBstr, IND_BWIDTH, st->bwidth, 2 ); + } + ELSE + { + push_indice( hBstr, IND_UNUSED, 0, 2 ); + } + st->hTdCngEnc->ho_sid_bw = L_shl( L_and( st->hTdCngEnc->ho_sid_bw, (Word32) 0x3fffffffL ), 1 ); + st->hTdCngEnc->ho_sid_bw = L_or( st->hTdCngEnc->ho_sid_bw, 0x1L ); + move32(); + move32(); + } + ELSE IF( EQ_32( st->core_brate, SID_2k40 ) ) + { + st->hTdCngEnc->ho_sid_bw = L_shl( L_and( st->hTdCngEnc->ho_sid_bw, (Word32) 0x3fffffffL ), 1 ); + move32(); + push_indice( hBstr, IND_SID_BW, 0, 1 ); + } + + return; +} + +/*---------------------------------------------------------------------* + * shb_DTX() + * + * Decide if encoding SHB SID or not + *---------------------------------------------------------------------*/ + +static Word16 shb_DTX_ivas_fx( + Encoder_State *st, /* i/o: State structure */ + const Word16 *shb_speech_fx, /* i : SHB target signal (6-14kHz) at 16kHz Q0 */ + const Word16 *syn_12k8_16k_fx /* i : ACELP core synthesis at 12.8kHz or 16kHz Q0 */ +) +{ + Word16 i; + Word16 update; + + Word16 allow_cn_step = 0; + move16(); + Word16 shb_old_speech_fx[( ACELP_LOOK_12k8 + L_SUBFR + L_FRAME ) * 5 / 4]; + Word16 *shb_new_speech_fx; + Word32 wb_ener_fx; + Word32 shb_ener_fx; + Word16 log_wb_ener_fx; + Word16 log_shb_ener_fx; + Word16 tmp; + Word16 exp; + Word16 fra; + Word16 att_fx; /*Q8*/ + + TD_CNG_ENC_HANDLE hTdCngEnc = st->hTdCngEnc; + TD_BWE_ENC_HANDLE hBWE_TD = st->hBWE_TD; + + +#ifdef BASOP_NOGLOB_DECLARE_LOCAL + Flag Overflow = 0; + move16(); +#endif + + shb_new_speech_fx = shb_old_speech_fx + ( ACELP_LOOK_12k8 + L_SUBFR ) * 5 / 4; + Copy( hBWE_TD->old_speech_shb_fx, shb_old_speech_fx, ( ACELP_LOOK_12k8 + L_SUBFR ) * 5 / 4 ); // old_speech_shb_fx -> Q0 + Copy( shb_speech_fx, shb_new_speech_fx, L_FRAME16k ); // Q0 + Copy( shb_old_speech_fx + L_FRAME16k, hBWE_TD->old_speech_shb_fx, ( ACELP_LOOK_12k8 + L_SUBFR ) * 5 / 4 ); // Q0 + + shb_ener_fx = L_deposit_l( 0 ); + FOR( i = 0; i < L_FRAME16k; i++ ) + { + shb_ener_fx = L_mac_sat( shb_ener_fx, shb_old_speech_fx[i], shb_old_speech_fx[i] ); // ( Q0 + Q0 + Q1 ) --> Q1 due to left shift in L_mac + } + + shb_ener_fx = L_add( Mpy_32_16_1( shb_ener_fx, 102 ), 1 ); /* ( 1 / L_FRAME16K ) -> 102 in Q15, shb_ener_fx in Q1 */ + + wb_ener_fx = L_deposit_l( 0 ); + FOR( i = 0; i < st->L_frame; i++ ) + { + wb_ener_fx = L_mac_o( wb_ener_fx, syn_12k8_16k_fx[i], syn_12k8_16k_fx[i], &Overflow ); // ( Q0 + Q0 + Q1 ) --> Q1 due to left shift in L_mac + } + + wb_ener_fx = L_add( Mpy_32_16_1( wb_ener_fx, 128 ), 1 ); /* 128 in Q15, wb_ener_fx in Q1 */ + + exp = norm_l( wb_ener_fx ); + fra = Log2_norm_lc( L_shl( wb_ener_fx, exp ) ); + exp = sub( 30 - 1, exp ); + wb_ener_fx = Mpy_32_16( exp, fra, LG10 ); + + log_wb_ener_fx = round_fx_o( L_shl_o( wb_ener_fx, 10, &Overflow ), &Overflow ); /* log_wb_ener_fx in Q8 */ + exp = norm_l( shb_ener_fx ); + fra = Log2_norm_lc( L_shl( shb_ener_fx, exp ) ); + exp = sub( 30 - 1, exp ); + shb_ener_fx = Mpy_32_16( exp, fra, LG10 ); + + + test(); + IF( EQ_16( st->element_mode, IVAS_SCE ) || EQ_16( st->element_mode, IVAS_CPE_DFT ) ) + { + Word32 att_fx32 = 0; + move32(); + Word16 index; + + apply_scale_ivas_fx( &att_fx32, st->hFdCngEnc->hFdCngCom->CngBandwidth, st->hFdCngEnc->hFdCngCom->CngBitrate, scaleTableStereo, SIZE_SCALE_TABLE_STEREO, &index ); // Q23; + + att_fx = extract_l( L_shr( att_fx32, 15 ) ); // Q8 + } + ELSE + { + att_fx = -1664; // Q8 + move16(); + } + + + log_shb_ener_fx = sub_o( round_fx_o( L_shl_o( shb_ener_fx, 10, &Overflow ), &Overflow ), att_fx, &Overflow ); /* log_shb_ener_fx in Q8 */ + + IF( st->hDtxEnc->first_CNG == 0 ) + { + + + hTdCngEnc->mov_wb_cng_ener_fx = log_wb_ener_fx; // Q8 + hTdCngEnc->mov_shb_cng_ener_fx = log_shb_ener_fx; // Q8 + hTdCngEnc->last_wb_cng_ener_fx = log_wb_ener_fx; // Q8 + hTdCngEnc->last_shb_cng_ener_fx = log_shb_ener_fx; // Q8 + move16(); + move16(); + move16(); + move16(); + } + IF( GT_16( abs_s( sub( log_wb_ener_fx, hTdCngEnc->mov_wb_cng_ener_fx ) ), 3072 /*12 in Q8*/ ) ) + { + allow_cn_step = 1; + move16(); + } + + /* Also allow step if shb energy has dropped 12 dB */ + test(); + test(); + IF( ( EQ_16( st->element_mode, IVAS_CPE_DFT ) || EQ_16( st->element_mode, IVAS_CPE_TD ) ) && GT_16( sub( hTdCngEnc->mov_shb_cng_ener_fx, log_shb_ener_fx ), 3072 /*12 in Q8*/ ) ) + { + allow_cn_step = 1; + move16(); + } + + IF( EQ_16( allow_cn_step, 1 ) ) + { + hTdCngEnc->mov_wb_cng_ener_fx = log_wb_ener_fx; + hTdCngEnc->mov_shb_cng_ener_fx = log_shb_ener_fx; + move16(); + move16(); + } + ELSE + { + tmp = sub( log_wb_ener_fx, hTdCngEnc->mov_wb_cng_ener_fx ); /* Q8 */ + tmp = mult( tmp, 29491 /* .9f in Q15*/ ); /* Q8 */ + hTdCngEnc->mov_wb_cng_ener_fx = add( hTdCngEnc->mov_wb_cng_ener_fx, tmp ); /* Q8 */ + move16(); + + tmp = sub( log_shb_ener_fx, hTdCngEnc->mov_shb_cng_ener_fx ); + tmp = mult( tmp, 8192 /* .25f in Q15*/ ); /* Q8 */ + hTdCngEnc->mov_shb_cng_ener_fx = add( hTdCngEnc->mov_shb_cng_ener_fx, tmp ); /* Q8 */ + move16(); + } + + hTdCngEnc->shb_NO_DATA_cnt = add( hTdCngEnc->shb_NO_DATA_cnt, 1 ); + update = 0; + + move16(); + move16(); + + IF( EQ_32( st->core_brate, SID_2k40 ) ) + { + test(); + test(); + test(); + IF( st->hDtxEnc->first_CNG == 0 ) + { + update = 1; + move16(); + } + ELSE IF( hTdCngEnc->shb_cng_ini_cnt > 0 ) + { + hTdCngEnc->shb_cng_ini_cnt = sub( hTdCngEnc->shb_cng_ini_cnt, 1 ); + update = 1; + move16(); + move16(); + } + ELSE IF( EQ_16( hTdCngEnc->last_vad, 1 ) ) + { + update = 1; + move16(); + } + ELSE IF( GE_16( hTdCngEnc->shb_NO_DATA_cnt, 100 ) ) + { + update = 1; + move16(); + } + ELSE IF( GT_16( abs_s( sub( sub( hTdCngEnc->mov_wb_cng_ener_fx, hTdCngEnc->mov_shb_cng_ener_fx ), sub( hTdCngEnc->last_wb_cng_ener_fx, hTdCngEnc->last_shb_cng_ener_fx ) ) ), 768 ) ) + { + update = 1; + move16(); + } + ELSE IF( ( GE_16( st->bwidth, SWB ) && LT_16( hTdCngEnc->last_SID_bwidth, SWB ) ) || ( LT_16( st->bwidth, SWB ) && GE_16( hTdCngEnc->last_SID_bwidth, SWB ) ) ) + { + update = 1; + move16(); + } + + hTdCngEnc->last_SID_bwidth = st->bwidth; + move16(); + } + + /* LF-boost not yet implemented in decoder which means that the specific wb_sid information is not used */ + test(); + test(); + if ( ( EQ_16( st->element_mode, IVAS_CPE_DFT ) || EQ_16( st->element_mode, IVAS_CPE_TD ) ) && EQ_32( st->core_brate, SID_2k40 ) ) + { + update = 1; + move16(); + } + + IF( EQ_16( update, 1 ) ) + { + hTdCngEnc->last_wb_cng_ener_fx = hTdCngEnc->mov_wb_cng_ener_fx; + hTdCngEnc->last_shb_cng_ener_fx = hTdCngEnc->mov_shb_cng_ener_fx; + hTdCngEnc->shb_NO_DATA_cnt = 0; + move16(); + move16(); + move16(); + } + + return ( update ); +} diff --git a/lib_enc/cod2t32.c b/lib_enc/cod2t32.c deleted file mode 100644 index 167c70dbfb92ffa66483e8fa575c5d73c71c6b0a..0000000000000000000000000000000000000000 --- a/lib_enc/cod2t32.c +++ /dev/null @@ -1,41 +0,0 @@ -/****************************************************************************************************** - - (C) 2022-2025 IVAS codec Public Collaboration with portions copyright Dolby International AB, Ericsson AB, - Fraunhofer-Gesellschaft zur Foerderung der angewandten Forschung e.V., Huawei Technologies Co. LTD., - Koninklijke Philips N.V., Nippon Telegraph and Telephone Corporation, Nokia Technologies Oy, Orange, - Panasonic Holdings Corporation, Qualcomm Technologies, Inc., VoiceAge Corporation, and other - contributors to this repository. All Rights Reserved. - - This software is protected by copyright law and by international treaties. - The IVAS codec Public Collaboration consisting of Dolby International AB, Ericsson AB, - Fraunhofer-Gesellschaft zur Foerderung der angewandten Forschung e.V., Huawei Technologies Co. LTD., - Koninklijke Philips N.V., Nippon Telegraph and Telephone Corporation, Nokia Technologies Oy, Orange, - Panasonic Holdings Corporation, Qualcomm Technologies, Inc., VoiceAge Corporation, and other - contributors to this repository retain full ownership rights in their respective contributions in - the software. This notice grants no license of any kind, including but not limited to patent - license, nor is any license granted by implication, estoppel or otherwise. - - Contributors are required to enter into the IVAS codec Public Collaboration agreement before making - contributions. - - This software is provided "AS IS", without any express or implied warranties. The software is in the - development stage. It is intended exclusively for experts who have experience with such software and - solely for the purpose of inspection. All implied warranties of non-infringement, merchantability - and fitness for a particular purpose are hereby disclaimed and excluded. - - Any dispute, controversy or claim arising under or in relation to providing this software shall be - submitted to and settled by the final, binding jurisdiction of the courts of Munich, Germany in - accordance with the laws of the Federal Republic of Germany excluding its conflict of law rules and - the United Nations Convention on Contracts on the International Sales of Goods. - -*******************************************************************************************************/ - -/*==================================================================================== - EVS Codec 3GPP TS26.443 Nov 04, 2021. Version 12.14.0 / 13.10.0 / 14.6.0 / 15.4.0 / 16.3.0 - ====================================================================================*/ - -#include -#include "options.h" -#include "cnst.h" -#include "prot.h" -#include "wmc_auto.h" diff --git a/lib_enc/cod2t32_fx.c b/lib_enc/cod2t32_fx.c index c9bbe5f30954307fb392712240508edeca860d56..dc967e656015c19b31d029321709cc01eef3608d 100644 --- a/lib_enc/cod2t32_fx.c +++ b/lib_enc/cod2t32_fx.c @@ -5,7 +5,6 @@ #include "options.h" /* Compilation switches */ #include "cnst.h" /* Common constants */ #include "rom_com.h" /* Common constants */ -#include "prot.h" /* Function prototypes */ #include "prot_fx.h" /* Function prototypes */ #include "prot_fx_enc.h" /* Function prototypes */ @@ -293,7 +292,7 @@ void acelp_2t32_fx( } { /* write index to array of indices */ - push_indice_fx( hBstr, IND_ALG_CDBK_2T32, index, 12 ); + push_indice( hBstr, IND_ALG_CDBK_2T32, index, 12 ); } return; } @@ -637,11 +636,11 @@ void acelp_1t64_fx( } IF( EQ_16( L_subfr, L_SUBFR ) ) { - push_indice_fx( hBstr, IND_ALG_CDBK_1T64, index, 7 ); + push_indice( hBstr, IND_ALG_CDBK_1T64, index, 7 ); } ELSE /* L_subfr == 2*L_SUBFR */ { - push_indice_fx( hBstr, IND_ALG_CDBK_1T64, index, 8 ); + push_indice( hBstr, IND_ALG_CDBK_1T64, index, 8 ); } return; diff --git a/lib_enc/cod4t64.c b/lib_enc/cod4t64.c deleted file mode 100644 index 9be976783240248ee1507bfbb571520cf1680bbf..0000000000000000000000000000000000000000 --- a/lib_enc/cod4t64.c +++ /dev/null @@ -1,48 +0,0 @@ -/****************************************************************************************************** - - (C) 2022-2025 IVAS codec Public Collaboration with portions copyright Dolby International AB, Ericsson AB, - Fraunhofer-Gesellschaft zur Foerderung der angewandten Forschung e.V., Huawei Technologies Co. LTD., - Koninklijke Philips N.V., Nippon Telegraph and Telephone Corporation, Nokia Technologies Oy, Orange, - Panasonic Holdings Corporation, Qualcomm Technologies, Inc., VoiceAge Corporation, and other - contributors to this repository. All Rights Reserved. - - This software is protected by copyright law and by international treaties. - The IVAS codec Public Collaboration consisting of Dolby International AB, Ericsson AB, - Fraunhofer-Gesellschaft zur Foerderung der angewandten Forschung e.V., Huawei Technologies Co. LTD., - Koninklijke Philips N.V., Nippon Telegraph and Telephone Corporation, Nokia Technologies Oy, Orange, - Panasonic Holdings Corporation, Qualcomm Technologies, Inc., VoiceAge Corporation, and other - contributors to this repository retain full ownership rights in their respective contributions in - the software. This notice grants no license of any kind, including but not limited to patent - license, nor is any license granted by implication, estoppel or otherwise. - - Contributors are required to enter into the IVAS codec Public Collaboration agreement before making - contributions. - - This software is provided "AS IS", without any express or implied warranties. The software is in the - development stage. It is intended exclusively for experts who have experience with such software and - solely for the purpose of inspection. All implied warranties of non-infringement, merchantability - and fitness for a particular purpose are hereby disclaimed and excluded. - - Any dispute, controversy or claim arising under or in relation to providing this software shall be - submitted to and settled by the final, binding jurisdiction of the courts of Munich, Germany in - accordance with the laws of the Federal Republic of Germany excluding its conflict of law rules and - the United Nations Convention on Contracts on the International Sales of Goods. - -*******************************************************************************************************/ - -/*==================================================================================== - EVS Codec 3GPP TS26.443 Nov 04, 2021. Version 12.14.0 / 13.10.0 / 14.6.0 / 15.4.0 / 16.3.0 - ====================================================================================*/ - -#include -#include "options.h" -#include -#include "cnst.h" -#include "rom_enc.h" -#include "prot.h" -#include "rom_com.h" -#include "wmc_auto.h" - -/*---------------------------------------------------------------------* - * Local function prototypes - *---------------------------------------------------------------------*/ diff --git a/lib_enc/cod4t64_fast.c b/lib_enc/cod4t64_fast.c index 16651b8f29df60631c2da1e9ff9f3b3e2e633526..e24f3b678add290844dd03df2a523248c5a3d169 100644 --- a/lib_enc/cod4t64_fast.c +++ b/lib_enc/cod4t64_fast.c @@ -34,9 +34,7 @@ #include "options.h" #include #include "cnst.h" -#include "prot.h" #include "prot_fx.h" -#include "ivas_prot.h" #include "ivas_prot_fx.h" #include "rom_com.h" #include "wmc_auto.h" @@ -125,10 +123,11 @@ void acelp_fast_fx( BSTR_ENC_HANDLE hBstr, /* i/o: encoder bitstream handle */ const Word16 cdk_index, /* i : codebook index */ const Word16 dn_orig[L_SUBFR], - /* i : corr. between target and h[]. */ // Q_new + 1 + /* i : corr. between target and h[]. */ // Q_dn Word16 Q_dn, const Word16 cn[L_SUBFR], - /* i : residual after long term prediction */ // Q_new + 1 + /* i : residual after long term prediction */ // q_cn + const Word16 q_cn, const Word16 H[L_SUBFR], /* i : impulse response of weighted synthesis filter */ // e(norm_s(H[0])+1) Word16 code[L_SUBFR], @@ -163,7 +162,9 @@ void acelp_fast_fx( Word64 s64; Word16 flag = 0; move16(); - + Word32 temp1, temp2, temp3, temp4, temp5, temp6; + Word16 q_temp1, q_temp2; + Word16 scale_temp1, scale_temp2; /*-----------------------------------------------------------------* * Initialization *-----------------------------------------------------------------*/ @@ -296,16 +297,23 @@ void acelp_fast_fx( exp = sub( Q31, shl( Q_dn, 1 ) ); + s64 = 0; + move64(); + FOR( i = 0; i < L_subfr; i++ ) + { + s64 = W_mac_16_16( s64, dn_orig[i], dn_orig[i] ); // 2 * Q_dn + 1 + } dndn_fx = 21474836 /*0.01f in Q31 */; move32(); dndn_e = 0; move16(); - FOR( i = 0; i < L_subfr; i++ ) + IF( s64 ) { - dndn_fx = BASOP_Util_Add_Mant32Exp( dndn_fx, dndn_e, L_mult0( dn_orig[i], dn_orig[i] ), exp, &dndn_e ); // Q(dndn_e) + Word16 new_exp1 = W_norm( s64 ); + dndn_fx = W_extract_h( W_shl( s64, new_exp1 ) ); // 2 * Q_dyn + exp1 - 31 + dndn_e = sub( 31, sub( add( add( shl( Q_dn, 1 ), 1 ), new_exp1 ), 32 ) ); } - exp1 = sub( Q31, shl( sub( Q_dn, 1 ), 1 ) ); cncn_fx = 214748365 /* 0.1f in Q31 */; move32(); @@ -314,31 +322,42 @@ void acelp_fast_fx( FOR( q = 0; q < nb_tracks; q++ ) { + s64 = 0; + move64(); + FOR( i = 0; i < L_subfr; i += nb_tracks ) + { + s64 = W_mac_16_16( s64, cn[i + q], cn[i + q] ); // 2 * q_cn + 1 + } + cncn_track[q] = 214748365 /* 0.1f in Q31 */; move32(); cncn_track_e[q] = 0; move16(); - - FOR( i = 0; i < L_subfr; i += nb_tracks ) + IF( s64 ) { - Word32 L_tmp = L_mult0( cn[i + q], cn[i + q] ); - shift = norm_l( L_tmp ); - L_tmp = L_shl( L_tmp, shift ); - cncn_track[q] = BASOP_Util_Add_Mant32Exp( cncn_track[q], cncn_track_e[q], L_tmp, sub( exp1, shift ), &cncn_track_e[q] ); // Q(cncn_track_e[q]) - move32(); + Word16 new_exp1 = W_norm( s64 ); + cncn_track[q] = W_extract_h( W_shl( s64, new_exp1 ) ); // 2 * Q_dyn + exp1 - 31 + cncn_track_e[q] = sub( 31, sub( add( add( shl( q_cn, 1 ), 1 ), new_exp1 ), 32 ) ); } cncn_fx = BASOP_Util_Add_Mant32Exp( cncn_fx, cncn_e, cncn_track[q], cncn_track_e[q], &cncn_e ); // Q(cncn_e) } - Word16 tmp; + Word16 tmp = 0; + move16(); s_coef_fx = BASOP_Util_Divide3232_Scale( dndn_fx, cncn_fx, &tmp ); tmp = add( tmp, sub( dndn_e, cncn_e ) ); s_coef_fx = Sqrt16( s_coef_fx, &tmp ); // Q(15 - tmp) - + q_temp1 = add( add( sub( Q15, tmp ), q_cn ), Q1 ); + scale_temp1 = sub( q_temp1, Q_dn ); FOR( i = 0; i < L_subfr; i++ ) { - bn_orig_fx[i] = L_mac0( L_shr( L_mult( s_coef_fx, cn[i] ), sub( 15, tmp ) ), beta1_fx, dn_orig[i] ); // Q_dn + temp1 = L_mult( s_coef_fx, cn[i] ); // Q(15 - tmp)+q_cn+1 + temp2 = L_mult( beta1_fx, dn_orig[i] ); // 1+Q_dn+1 + /* bn_orig_fx[i] is being used in Q_dn */ + temp2 = L_shr( temp2, 1 ); + temp1 = L_shr( temp1, scale_temp1 ); + bn_orig_fx[i] = L_add( temp1, temp2 ); // Q_dn move32(); IF( bn_orig_fx[i] >= 0 ) @@ -578,12 +597,12 @@ void acelp_fast_fx( } ELSE { - Gn = i_mult( s[0], shr( dn_orig[m[0]], 1 ) ); // Q_dn - 1 - Gd = alp[0]; // Q6 + Gn = i_mult( s[0], dn_orig[m[0]] ); // Q_dn + Gd = alp[0]; // Q6 move16(); - G = Gn; // Q_dn - 1 + G = Gn; // Q_dn move16(); - G = i_mult( G, s[0] ); // Q_dn - 1 + G = i_mult( G, s[0] ); // Q_dn track = track_order[q * nb_tracks + 1]; // Q0 move16(); @@ -598,14 +617,17 @@ void acelp_fast_fx( move64(); FOR( i = track; i < L_subfr; i += nb_tracks ) { - dn[i] = L_shr( L_msu( L_mult0( Gd, dn_orig[i] ), G, *alp_pos0 ), 6 ); // Q_dn + temp1 = L_mult0( Gd, dn_orig[i] ); + temp2 = L_mult0( G, *alp_pos0 ); + temp3 = L_sub( temp1, temp2 ); + dn[i] = L_shr( temp3, 6 ); move32(); alp_pos0 += nb_tracks; s64 = W_mac_32_32( s64, dn[i], dn[i] ); // 2 * Q_dn + 1 } exp1 = W_norm( s64 ); dndn_fx = W_extract_h( W_shl( s64, exp1 ) ); // 2 * Q_dyn + exp1 - 31 - dndn_e = sub( 31, sub( add( shl( Q_dn, 1 ), exp ), 31 ) ); + dndn_e = sub( 31, sub( add( add( shl( Q_dn, 1 ), 1 ), exp1 ), 32 ) ); IF( dndn_fx == 0 ) { @@ -614,17 +636,28 @@ void acelp_fast_fx( dndn_e = 0; move16(); } + exp1 = 0; + move16(); s_coef_fx = BASOP_Util_Divide3232_Scale( dndn_fx, cncn_track[track], &exp1 ); exp1 = add( exp1, sub( dndn_e, cncn_track_e[track] ) ); s_coef_fx = Sqrt16( s_coef_fx, &exp1 ); - exp1 = sub( exp1, shift ); max_val_fx = EPSILLON_FX; move16(); m[1] = track; // Q0 move16(); + q_temp1 = add( add( sub( Q15, exp1 ), q_cn ), 1 ); + q_temp2 = add( Q_dn, Q2 ); + scale_temp1 = sub( q_temp1, Q_dn ); + scale_temp2 = sub( q_temp2, Q_dn ); FOR( i = track; i < L_subfr; i += nb_tracks ) { - dn[i] = L_add( L_shr( L_mult( s_coef_fx, cn[i] ), sub( 15, exp1 ) ), L_shr( imult3216( dn[i], beta2_fx ), 2 ) ); // Q_dn + temp1 = L_mult( s_coef_fx, cn[i] ); // Q(15 - tmp)+q_cn+1 + temp2 = imult3216( dn[i], beta2_fx ); // Q_dn + 2 + + /* bn_orig_fx[i] is being used in Q_dn */ + temp2 = L_shr( temp2, scale_temp2 ); + temp1 = L_shr( temp1, scale_temp1 ); + dn[i] = L_add( temp1, temp2 ); // Q_dn move32(); temp_fx = imult3216( dn[i], sign_fx[i] ); // Q_dn @@ -647,14 +680,14 @@ void acelp_fast_fx( IF( GE_16( nb_pulse, 3 ) ) { - Gn = add( Gn, i_mult( s[1], shr( dn_orig[m[1]], 1 ) ) ); // Q_dn -1 + Gn = add( Gn, i_mult( s[1], dn_orig[m[1]] ) ); // Q_dn Gd32 = Gd; move16(); Gd32 = L_add( Gd32, L_add( alp[0], L_mult0( i_mult( shl( s[0], 1 ), s[1] ), alp[m[0] - m[1]] ) ) ); // Q6 - G = Gn; // Q_dn - 1 + G = Gn; // Q_dn move16(); - G1 = i_mult( G, s[1] ); // Q_dn-1 - G = i_mult( G, s[0] ); // Q_dn-1 + G1 = i_mult( G, s[1] ); // Q_dn + G = i_mult( G, s[0] ); // Q_dn track = track_order[q * nb_tracks + 2]; // Q0 move16(); @@ -663,7 +696,12 @@ void acelp_fast_fx( FOR( i = track; i < L_subfr; i += nb_tracks ) { - dn[i] = L_shr( L_msu( L_msu0( imult3216( Gd32, dn_orig[i] ), G, *alp_pos0 ), G1, *alp_pos1 ), 6 ); // Q_dn + temp1 = imult3216( Gd32, dn_orig[i] ); + temp2 = L_mult0( G, *alp_pos0 ); + temp3 = L_mult0( G1, *alp_pos1 ); + temp4 = L_sub( temp1, temp2 ); + temp4 = L_sub( temp4, temp3 ); + dn[i] = L_shr( temp4, 6 ); move32(); alp_pos0 += nb_tracks; alp_pos1 += nb_tracks; @@ -679,15 +717,19 @@ void acelp_fast_fx( IF( GE_16( nb_pulse, 4 ) ) { - Gn = add( Gn, i_mult( s[2], shr( dn_orig[m[2]], 1 ) ) ); // Q_dn-1 + Gn = add( Gn, i_mult( s[2], dn_orig[m[2]] ) ); // Q_dn Gd32 = Gd; move16(); - Gd32 = L_add( Gd32, L_add( L_add( alp[0], L_mult0( i_mult( shl( s[0], 1 ), s[2] ), alp[m[0] - m[2]] ) ), L_mult0( i_mult( shl( s[1], 1 ), s[2] ), alp[m[1] - m[2]] ) ) ); // Q6 - G = Gn; // Q_dn-1 + temp1 = alp[0]; + move32(); + temp2 = L_mult0( i_mult( shl( s[0], 1 ), s[2] ), alp[m[0] - m[2]] ); + temp3 = L_mult0( i_mult( shl( s[1], 1 ), s[2] ), alp[m[1] - m[2]] ); + Gd32 = L_add( Gd32, L_add( L_add( temp1, temp2 ), temp3 ) ); // Q6 + G = Gn; // Q_dn move16(); - G1 = i_mult( G, s[1] ); // Q_dn-1 - G2 = i_mult( G, s[2] ); // Q_dn-1 - G = i_mult( G, s[0] ); // Q_dn-1 + G1 = i_mult( G, s[1] ); // Q_dn + G2 = i_mult( G, s[2] ); // Q_dn + G = i_mult( G, s[0] ); // Q_dn track = track_order[q * nb_tracks + 3]; move16(); @@ -697,7 +739,15 @@ void acelp_fast_fx( FOR( i = track; i < L_subfr; i += nb_tracks ) { - dn[i] = L_shr( L_msu( L_msu( L_msu( imult3216( Gd32, dn_orig[i] ), G, *alp_pos0 ), G1, *alp_pos1 ), G2, *alp_pos2 ), 6 ); // Q_dn + + temp1 = imult3216( Gd32, dn_orig[i] ); + temp2 = L_mult0( G, *alp_pos0 ); + temp3 = L_mult0( G1, *alp_pos1 ); + temp4 = L_mult0( G2, *alp_pos2 ); + temp5 = L_sub( temp1, temp2 ); + temp5 = L_sub( temp5, temp3 ); + temp5 = L_sub( temp5, temp4 ); + dn[i] = L_shr( temp5, 6 ); move32(); alp_pos0 += nb_tracks; alp_pos1 += nb_tracks; @@ -719,16 +769,22 @@ void acelp_fast_fx( IF( GE_16( nb_pulse, 5 ) ) { - Gn = add( Gn, i_mult( s[3], shr( dn_orig[m[3]], 1 ) ) ); // Q_dn-1 + Gn = add( Gn, i_mult( s[3], dn_orig[m[3]] ) ); // Q_dn Gd32 = Gd; move16(); - Gd32 = L_add( Gd32, L_add( L_add( L_add( alp[0], L_mult0( i_mult( shl( s[0], 1 ), s[3] ), alp[m[0] - m[3]] ) ), L_mult0( i_mult( shl( s[1], 1 ), s[3] ), alp[m[1] - m[3]] ) ), L_mult0( i_mult( shl( s[2], 1 ), s[3] ), alp[m[2] - m[3]] ) ) ); // Q6 + temp1 = alp[0]; + move32(); + temp2 = L_mult0( i_mult( shl( s[0], 1 ), s[3] ), alp[m[0] - m[3]] ); + temp3 = L_mult0( i_mult( shl( s[1], 1 ), s[3] ), alp[m[1] - m[3]] ); + temp4 = L_mult0( i_mult( shl( s[2], 1 ), s[3] ), alp[m[2] - m[3]] ); + + Gd32 = L_add( Gd32, L_add( L_add( L_add( temp1, temp2 ), temp3 ), temp4 ) ); // Q6 G = Gn; - move16(); // Q_dn-1 - G1 = i_mult( G, s[1] ); // Q_dn-1 - G2 = i_mult( G, s[2] ); // Q_dn-1 - G3 = i_mult( G, s[3] ); // Q_dn-1 - G = i_mult( G, s[0] ); // Q_dn-1 + move16(); // Q_dn + G1 = i_mult( G, s[1] ); // Q_dn + G2 = i_mult( G, s[2] ); // Q_dn + G3 = i_mult( G, s[3] ); // Q_dn + G = i_mult( G, s[0] ); // Q_dn IF( EQ_16( cdk_index, 6 ) ) { @@ -742,7 +798,16 @@ void acelp_fast_fx( FOR( i = track; i < L_subfr; i += nb_tracks ) { - dn[i] = L_shr( L_msu( L_msu( L_msu( L_msu( imult3216( Gd32, dn_orig[i] ), G, *alp_pos0 ), G1, *alp_pos1 ), G2, *alp_pos2 ), G3, *alp_pos3 ), 6 ); // Q_dn + temp1 = imult3216( Gd32, dn_orig[i] ); + temp2 = L_mult0( G, *alp_pos0 ); + temp3 = L_mult0( G1, *alp_pos1 ); + temp4 = L_mult0( G2, *alp_pos2 ); + temp5 = L_mult0( G3, *alp_pos3 ); + temp6 = L_sub( temp1, temp2 ); + temp6 = L_sub( temp6, temp3 ); + temp6 = L_sub( temp6, temp4 ); + temp6 = L_sub( temp6, temp5 ); + dn[i] = L_shr( temp6, 6 ); move32(); alp_pos0 += nb_tracks; alp_pos1 += nb_tracks; @@ -762,7 +827,16 @@ void acelp_fast_fx( FOR( i = 0; i < L_subfr; i++ ) { - dn[i] = L_shr( L_msu( L_msu( L_msu( L_msu( imult3216( Gd32, dn_orig[i] ), G, *alp_pos0 ), G1, *alp_pos1 ), G2, *alp_pos2 ), G3, *alp_pos3 ), 6 ); /*Q_dn*/ + temp1 = imult3216( Gd32, dn_orig[i] ); + temp2 = L_mult0( G, *alp_pos0 ); + temp3 = L_mult0( G1, *alp_pos1 ); + temp4 = L_mult0( G2, *alp_pos2 ); + temp5 = L_mult0( G3, *alp_pos3 ); + temp6 = L_sub( temp1, temp2 ); + temp6 = L_sub( temp6, temp3 ); + temp6 = L_sub( temp6, temp4 ); + temp6 = L_sub( temp6, temp5 ); + dn[i] = L_shr( temp6, 6 ); move16(); alp_pos0++; alp_pos1++; diff --git a/lib_enc/cod4t64_fx.c b/lib_enc/cod4t64_fx.c index 44cde6f27d8488be31521c55cd81eb875d3a196d..457a129b839cc96400674fb882c3fd05b6e07616 100644 --- a/lib_enc/cod4t64_fx.c +++ b/lib_enc/cod4t64_fx.c @@ -5,10 +5,9 @@ #include "options.h" /* VMR-WB compilation switches */ #include "cnst.h" /* Common constants */ #include "rom_enc.h" /* Encoder static table prototypes */ -#include "prot.h" /* Function prototypes */ +#include "prot_fx.h" /* Function prototypes */ #include "rom_com_fx.h" /* Static table prototypes */ #include "rom_com.h" /* Static table prototypes */ -#include "prot_fx.h" /* Function prototypes */ #include "prot_fx_enc.h" /* Function prototypes */ @@ -331,11 +330,11 @@ Word16 acelp_4t64_fx( bitcnt = s_and( nbbits, 15 ); FOR( i = 0; i < wordcnt; i++ ) { - push_indice_fx( hBstr, IND_ALG_CDBK_4T64, indexing_indices[i], 16 ); + push_indice( hBstr, IND_ALG_CDBK_4T64, indexing_indices[i], 16 ); } IF( bitcnt ) { - push_indice_fx( hBstr, IND_ALG_CDBK_4T64, indexing_indices[i], bitcnt ); + push_indice( hBstr, IND_ALG_CDBK_4T64, indexing_indices[i], bitcnt ); } } ELSE @@ -348,7 +347,7 @@ Word16 acelp_4t64_fx( { k = i_mult2( track, NPMAXPT ); index = quant_1p_N1_fx( ind[k], 4 ); - push_indice_fx( hBstr, IND_ALG_CDBK_4T64, index, 5 ); + push_indice( hBstr, IND_ALG_CDBK_4T64, index, 5 ); } } ELSE IF( EQ_16( nbbits, 36 ) ) @@ -358,7 +357,7 @@ Word16 acelp_4t64_fx( k = i_mult2( track, NPMAXPT ); /* k = track * NPMAXPT;*/ index = quant_2p_2N1_fx( ind[k], ind[k + 1], 4 ); - push_indice_fx( hBstr, IND_ALG_CDBK_4T64, index, 9 ); + push_indice( hBstr, IND_ALG_CDBK_4T64, index, 9 ); } } ELSE IF( EQ_16( nbbits, 44 ) ) /* AMR-WB pulse indexing */ @@ -367,14 +366,14 @@ Word16 acelp_4t64_fx( { k = i_mult2( track, NPMAXPT ); index = quant_3p_3N1_fx( ind[k], ind[k + 1], ind[k + 2], 4 ); - push_indice_fx( hBstr, IND_ALG_CDBK_4T64, index, 13 ); + push_indice( hBstr, IND_ALG_CDBK_4T64, index, 13 ); } FOR( track = 2; track < NB_TRACK_FCB_4T; track++ ) { k = i_mult2( track, NPMAXPT ); index = quant_2p_2N1_fx( ind[k], ind[k + 1], 4 ); - push_indice_fx( hBstr, IND_ALG_CDBK_4T64, index, 9 ); + push_indice( hBstr, IND_ALG_CDBK_4T64, index, 9 ); } } ELSE IF( EQ_16( nbbits, 52 ) ) /* AMR-WB pulse indexing */ @@ -383,7 +382,7 @@ Word16 acelp_4t64_fx( { k = i_mult2( track, NPMAXPT ); index = quant_3p_3N1_fx( ind[k], ind[k + 1], ind[k + 2], 4 ); - push_indice_fx( hBstr, IND_ALG_CDBK_4T64, index, 13 ); + push_indice( hBstr, IND_ALG_CDBK_4T64, index, 13 ); } } ELSE IF( EQ_16( nbbits, 64 ) ) /* AMR-WB pulse indexing */ @@ -394,7 +393,7 @@ Word16 acelp_4t64_fx( L_index = quant_4p_4N_fx( &ind[k], 4 ); index = extract_l( L_shr( L_index, 14 ) & 3 ); logic16(); - push_indice_fx( hBstr, IND_ALG_CDBK_4T64_1, index, 2 ); + push_indice( hBstr, IND_ALG_CDBK_4T64_1, index, 2 ); } FOR( track = 0; track < NB_TRACK_FCB_4T; track++ ) @@ -403,7 +402,7 @@ Word16 acelp_4t64_fx( L_index = quant_4p_4N_fx( &ind[k], 4 ); index = extract_l( L_index & 0x3FFF ); logic16(); - push_indice_fx( hBstr, IND_ALG_CDBK_4T64_2, index, 14 ); + push_indice( hBstr, IND_ALG_CDBK_4T64_2, index, 14 ); } } ELSE IF( EQ_16( nbbits, 72 ) ) @@ -414,7 +413,7 @@ Word16 acelp_4t64_fx( L_index = quant_5p_5N_fx( &ind[k], 4 ); index = extract_l( L_shr( L_index, 10 ) & 0x03FF ); logic16(); - push_indice_fx( hBstr, IND_ALG_CDBK_4T64_1, index, 10 ); + push_indice( hBstr, IND_ALG_CDBK_4T64_1, index, 10 ); } FOR( track = 2; track < NB_TRACK_FCB_4T; track++ ) @@ -423,7 +422,7 @@ Word16 acelp_4t64_fx( L_index = quant_4p_4N_fx( &ind[k], 4 ); index = extract_l( L_shr( L_index, 14 ) & 3 ); logic16(); - push_indice_fx( hBstr, IND_ALG_CDBK_4T64_1, index, 2 ); + push_indice( hBstr, IND_ALG_CDBK_4T64_1, index, 2 ); } FOR( track = 0; track < ( NB_TRACK_FCB_4T - 2 ); track++ ) @@ -432,7 +431,7 @@ Word16 acelp_4t64_fx( L_index = quant_5p_5N_fx( &ind[k], 4 ); index = extract_l( L_index & 0x03FF ); logic16(); - push_indice_fx( hBstr, IND_ALG_CDBK_4T64_2, index, 10 ); + push_indice( hBstr, IND_ALG_CDBK_4T64_2, index, 10 ); } FOR( track = 2; track < NB_TRACK_FCB_4T; track++ ) @@ -441,7 +440,7 @@ Word16 acelp_4t64_fx( L_index = quant_4p_4N_fx( &ind[k], 4 ); index = extract_l( L_index & 0x3FFF ); logic16(); - push_indice_fx( hBstr, IND_ALG_CDBK_4T64_2, index, 14 ); + push_indice( hBstr, IND_ALG_CDBK_4T64_2, index, 14 ); } } ELSE IF( EQ_16( nbbits, 88 ) ) @@ -452,7 +451,7 @@ Word16 acelp_4t64_fx( L_index = quant_6p_6N_2_fx( &ind[k], 4 ); index = extract_l( L_shr( L_index, 11 ) & 0x07FF ); logic16(); - push_indice_fx( hBstr, IND_ALG_CDBK_4T64_1, index, 11 ); + push_indice( hBstr, IND_ALG_CDBK_4T64_1, index, 11 ); } FOR( track = 0; track < NB_TRACK_FCB_4T; track++ ) @@ -461,7 +460,7 @@ Word16 acelp_4t64_fx( L_index = quant_6p_6N_2_fx( &ind[k], 4 ); index = extract_l( L_index & 0x07FF ); logic16(); - push_indice_fx( hBstr, IND_ALG_CDBK_4T64_2, index, 11 ); + push_indice( hBstr, IND_ALG_CDBK_4T64_2, index, 11 ); } } } diff --git a/lib_enc/cod_ace.c b/lib_enc/cod_ace.c deleted file mode 100644 index 46d7a42d1a3fb4c72e12459513eb9fc9d3207c5d..0000000000000000000000000000000000000000 --- a/lib_enc/cod_ace.c +++ /dev/null @@ -1,42 +0,0 @@ -/****************************************************************************************************** - - (C) 2022-2025 IVAS codec Public Collaboration with portions copyright Dolby International AB, Ericsson AB, - Fraunhofer-Gesellschaft zur Foerderung der angewandten Forschung e.V., Huawei Technologies Co. LTD., - Koninklijke Philips N.V., Nippon Telegraph and Telephone Corporation, Nokia Technologies Oy, Orange, - Panasonic Holdings Corporation, Qualcomm Technologies, Inc., VoiceAge Corporation, and other - contributors to this repository. All Rights Reserved. - - This software is protected by copyright law and by international treaties. - The IVAS codec Public Collaboration consisting of Dolby International AB, Ericsson AB, - Fraunhofer-Gesellschaft zur Foerderung der angewandten Forschung e.V., Huawei Technologies Co. LTD., - Koninklijke Philips N.V., Nippon Telegraph and Telephone Corporation, Nokia Technologies Oy, Orange, - Panasonic Holdings Corporation, Qualcomm Technologies, Inc., VoiceAge Corporation, and other - contributors to this repository retain full ownership rights in their respective contributions in - the software. This notice grants no license of any kind, including but not limited to patent - license, nor is any license granted by implication, estoppel or otherwise. - - Contributors are required to enter into the IVAS codec Public Collaboration agreement before making - contributions. - - This software is provided "AS IS", without any express or implied warranties. The software is in the - development stage. It is intended exclusively for experts who have experience with such software and - solely for the purpose of inspection. All implied warranties of non-infringement, merchantability - and fitness for a particular purpose are hereby disclaimed and excluded. - - Any dispute, controversy or claim arising under or in relation to providing this software shall be - submitted to and settled by the final, binding jurisdiction of the courts of Munich, Germany in - accordance with the laws of the Federal Republic of Germany excluding its conflict of law rules and - the United Nations Convention on Contracts on the International Sales of Goods. - -*******************************************************************************************************/ - -/*==================================================================================== - EVS Codec 3GPP TS26.443 Nov 04, 2021. Version 12.14.0 / 13.10.0 / 14.6.0 / 15.4.0 / 16.3.0 - ====================================================================================*/ - -#include -#include "prot.h" -#include -#include "options.h" -#include "rom_com.h" -#include "wmc_auto.h" diff --git a/lib_enc/cod_ace_fx.c b/lib_enc/cod_ace_fx.c index e701b8e466b946d9c4c6cbc739f4a77476e558ca..d3725dcba73c1b1a10380ea33ca42f9abc403a74 100644 --- a/lib_enc/cod_ace_fx.c +++ b/lib_enc/cod_ace_fx.c @@ -37,14 +37,8 @@ Word16 coder_acelp_fx( /* o : SEGSNR for CL decision * Word16 *bwe_exc /* o : excitation for SWB TBE Qx */ ) { -#ifndef SIMPLIFY_CODE_BE - Word16 i, j, i_subfr, j_subfr; - Word16 tmp, tmp2, Es_pred; - Word32 gain_code_vect[2]; -#else Word16 i, i_subfr, j_subfr; Word16 tmp, Es_pred; -#endif Word16 T0, T0_min, T0_min_frac, T0_max, T0_max_frac, T0_res; Word16 T0_frac; Word16 gain_pit, voice_fac; @@ -103,11 +97,7 @@ Word16 coder_acelp_fx( /* o : SEGSNR for CL decision * /* Configure ACELP */ -#ifndef MSAN_FIX - hLPDmem->nbits = BITS_ALLOC_config_acelp( target_bits, st->coder_type, acelp_cfg, st->narrowBand, st->nb_subfr ); -#else BITS_ALLOC_config_acelp( target_bits, st->coder_type, acelp_cfg, st->narrowBand, st->nb_subfr ); -#endif /* Init Framing parameters */ move16(); @@ -324,12 +314,6 @@ Word16 coder_acelp_fx( /* o : SEGSNR for CL decision * gp_clip_test_gain_pit_fx( st->element_mode, st->core_brate, gain_pit, st->clip_var_fx ); -#ifndef SIMPLIFY_CODE_BE - gain_code_vect[0] = gain_code; - move32(); - gain_code_vect[1] = gain_code; - move32(); -#endif /*----------------------------------------------------------* * - voice factor (for pitch enhancement) * *----------------------------------------------------------*/ @@ -361,32 +345,6 @@ Word16 coder_acelp_fx( /* o : SEGSNR for CL decision * /*-------------------------------------------------------* * - Find the total excitation. * *-------------------------------------------------------*/ -#ifndef SIMPLIFY_CODE_BE - tmp2 = shr( L_SUBFR, 1 ); - FOR( j = 0; j < 2; j++ ) - { - FOR( i = sub( tmp2, shr( L_SUBFR, 1 ) ); i < tmp2; i++ ) - { - /* code in Q9, gain_pit in Q14; exc Q_new */ - Ltmp = Mpy_32_16_1( gain_code2, code2[i] ); - Ltmp = L_shl( Ltmp, Q_new_p5 ); - Ltmp = L_mac( Ltmp, gain_pit, exc[i + i_subfr] ); - BASOP_SATURATE_WARNING_OFF_EVS - exc2[i] = round_fx( L_shl( Ltmp, 1 ) ); - BASOP_SATURATE_WARNING_ON_EVS - - Ltmp2 = Mpy_32_16_1( gain_code_vect[j], code[i] ); - Ltmp2 = L_shl( Ltmp2, Q_new_p5 ); - Ltmp = L_add( Ltmp, Ltmp2 ); - BASOP_SATURATE_WARNING_OFF_EVS - Ltmp = L_shl( Ltmp, 1 ); /* saturation can occur here */ - BASOP_SATURATE_WARNING_ON_EVS - exc[i + i_subfr] = round_fx( Ltmp ); - } - tmp2 = L_SUBFR; - move16(); - } -#else FOR( i = 0; i < L_SUBFR; i++ ) { /* code in Q9, gain_pit in Q14; exc Q_new */ @@ -402,7 +360,6 @@ Word16 coder_acelp_fx( /* o : SEGSNR for CL decision * exc[i + i_subfr] = round_fx_o( Ltmp, &Overflow ); move16(); } -#endif /*-----------------------------------------------------------------* * Prepare TBE excitation *-----------------------------------------------------------------*/ diff --git a/lib_enc/cod_tcx.c b/lib_enc/cod_tcx.c deleted file mode 100644 index 88e028c86fa04d0555b66be0234c707a7c643107..0000000000000000000000000000000000000000 --- a/lib_enc/cod_tcx.c +++ /dev/null @@ -1,869 +0,0 @@ -/****************************************************************************************************** - - (C) 2022-2025 IVAS codec Public Collaboration with portions copyright Dolby International AB, Ericsson AB, - Fraunhofer-Gesellschaft zur Foerderung der angewandten Forschung e.V., Huawei Technologies Co. LTD., - Koninklijke Philips N.V., Nippon Telegraph and Telephone Corporation, Nokia Technologies Oy, Orange, - Panasonic Holdings Corporation, Qualcomm Technologies, Inc., VoiceAge Corporation, and other - contributors to this repository. All Rights Reserved. - - This software is protected by copyright law and by international treaties. - The IVAS codec Public Collaboration consisting of Dolby International AB, Ericsson AB, - Fraunhofer-Gesellschaft zur Foerderung der angewandten Forschung e.V., Huawei Technologies Co. LTD., - Koninklijke Philips N.V., Nippon Telegraph and Telephone Corporation, Nokia Technologies Oy, Orange, - Panasonic Holdings Corporation, Qualcomm Technologies, Inc., VoiceAge Corporation, and other - contributors to this repository retain full ownership rights in their respective contributions in - the software. This notice grants no license of any kind, including but not limited to patent - license, nor is any license granted by implication, estoppel or otherwise. - - Contributors are required to enter into the IVAS codec Public Collaboration agreement before making - contributions. - - This software is provided "AS IS", without any express or implied warranties. The software is in the - development stage. It is intended exclusively for experts who have experience with such software and - solely for the purpose of inspection. All implied warranties of non-infringement, merchantability - and fitness for a particular purpose are hereby disclaimed and excluded. - - Any dispute, controversy or claim arising under or in relation to providing this software shall be - submitted to and settled by the final, binding jurisdiction of the courts of Munich, Germany in - accordance with the laws of the Federal Republic of Germany excluding its conflict of law rules and - the United Nations Convention on Contracts on the International Sales of Goods. - -*******************************************************************************************************/ - -/*==================================================================================== - EVS Codec 3GPP TS26.443 Nov 04, 2021. Version 12.14.0 / 13.10.0 / 14.6.0 / 15.4.0 / 16.3.0 - ====================================================================================*/ - -#include -#include -#include "options.h" -#include -#include "cnst.h" -#include "prot.h" -#include "wmc_auto.h" -#include "ivas_prot.h" -#include "ivas_rom_com.h" -#include "ivas_rom_com_fx.h" -#include "prot_fx_enc.h" -#include "prot_fx.h" -#include "ivas_prot_fx.h" - - -/*-------------------------------------------------------------------* - * TNSAnalysisStereo() - * - * - *-------------------------------------------------------------------*/ - -#define SIMILAR_TNS_THRESHOLD_FX_IN_Q15 ( 1311 ) -#define TNS_GAIN_THRESHOLD_FOR_WHITE_FX_IN_Q7 ( 384 ) -#define TNS_GAIN_THRESHOLD_FOR_WHITE_FX_IN_Q23 ( 25165824 ) -void TNSAnalysisStereo_fx( - Encoder_State **sts, /* i : encoder state handle */ - Word32 *mdst_spectrum_fx[CPE_CHANNELS][NB_DIV], /* o : MDST spectrum Qx*/ - const Word16 bWhitenedDomain, /* i : whitened domain flag Q0*/ - Word16 tnsSize[CPE_CHANNELS][NB_DIV], /* i : number of tns parameters put into prm Q0*/ - Word16 tnsBits[CPE_CHANNELS][NB_DIV], /* i : number of tns bits in the frame Q0*/ - Word16 param_core[][NB_DIV * NPRM_DIV], /* o : TNS parameters Q0*/ - const Word16 mct_on /* i : flag mct block (1) or stereo (0) Q0*/ -) -{ - Word16 ch, k, L_spec, L_frame, nSubframes, iFilter; - Word32 *spectrum_fx; - Encoder_State *st = NULL; - TCX_ENC_HANDLE hTcxEnc = NULL; - Word16 individual_decision[NB_DIV]; - Word32 maxPredictionGain_fx = 0, meanPredictionGain_fx; - move32(); - Word16 maxPredictionGain_e = Q31, meanPredictionGain_e; - move16(); - Word16 sum_e = 0; - move16(); - individual_decision[0] = 0; - move16(); - individual_decision[1] = 0; - move16(); - L_spec = -1; - move16(); - L_frame = -1; - move16(); - - /* TNS filter analysis, loop over channels */ - FOR( ch = 0; ch < CPE_CHANNELS; ch++ ) - { - st = sts[ch]; - IF( EQ_16( st->mct_chan_mode, MCT_CHAN_MODE_IGNORE ) ) - { - continue; - } - - hTcxEnc = st->hTcxEnc; - - IF( EQ_16( hTcxEnc->tcxMode, TCX_20 ) ) - { - nSubframes = 1; - } - ELSE - { - nSubframes = NB_DIV; - } - move16(); - - FOR( k = 0; k < nSubframes; k++ ) - { - /* reset tns on whitened domain flag */ - IF( !bWhitenedDomain ) - { - hTcxEnc->bTnsOnWhithenedSpectra[k] = 0; - move16(); - hTcxEnc->fUseTns[k] = 0; - move16(); - } - test(); - test(); - IF( st->hTcxCfg->fIsTNSAllowed && ( !bWhitenedDomain || hTcxEnc->bTnsOnWhithenedSpectra[k] ) ) - { - spectrum_fx = hTcxEnc->spectrum_fx[k]; - - L_frame = hTcxEnc->L_frameTCX; - move16(); - st->hTcxCfg->pCurrentTnsConfig = &st->hTcxCfg->tnsConfig[hTcxEnc->transform_type[k] == TCX_20][( k == 0 ) && ( st->last_core == ACELP_CORE )]; - L_spec = st->hTcxCfg->pCurrentTnsConfig->iFilterBorders[0]; - move16(); - /*-----------------------------------------------------------* - * Temporal Noise Shaping analysis * - *-----------------------------------------------------------*/ - - IF( EQ_16( hTcxEnc->transform_type[k], TCX_5 ) ) - { - /* rearrange LF sub-window lines prior to TNS analysis & filtering */ - tcx5TnsGrouping_fx( shr( L_frame, 2 ), shr( L_spec, 1 ), spectrum_fx ); - } - - /* WMOPS: All initializations are either for safety or static (tables) and thus not to be counted */ - - ResetTnsData( &hTcxEnc->tnsData[k] ); - IF( st->hTcxCfg->pCurrentTnsConfig->maxOrder <= 0 ) - { - BREAK; - } - - CalculateTnsFilt_fx( st->hTcxCfg->pCurrentTnsConfig, spectrum_fx, hTcxEnc->spectrum_e[k], &hTcxEnc->tnsData[k] ); - } - } - } - - IF( !mct_on ) - { - /* TNS decision */ - /* if framing differs between channels, keep the filter decision per channel */ - test(); - test(); - IF( ( NE_16( sts[0]->hTcxEnc->transform_type[0], sts[1]->hTcxEnc->transform_type[0] ) && - NE_16( sts[0]->hTcxEnc->transform_type[1], sts[1]->hTcxEnc->transform_type[1] ) ) || - NE_16( sts[0]->hTcxCfg->fIsTNSAllowed, sts[1]->hTcxCfg->fIsTNSAllowed ) ) - { - individual_decision[0] = individual_decision[1] = 1; - move16(); - move16(); - } - ELSE IF( bWhitenedDomain ) - { - IF( EQ_16( sts[0]->hTcxEnc->tcxMode, TCX_20 ) ) - { - nSubframes = 1; - } - ELSE - { - nSubframes = NB_DIV; - } - move16(); - FOR( k = 0; k < nSubframes; k++ ) - { - IF( NE_16( sts[0]->hTcxEnc->bTnsOnWhithenedSpectra[k], sts[1]->hTcxEnc->bTnsOnWhithenedSpectra[k] ) ) - { - individual_decision[k] = 1; - move16(); - } - } - } - - /* framing equal, check for similar filters, if very similar (also indicator for and M signal), - * use at least the same decision, maybe use the same filter - */ - { - Word8 isTCX10; - - IF( EQ_16( sts[0]->hTcxEnc->tcxMode, TCX_20 ) ) - { - nSubframes = 1; - isTCX10 = 0; - } - ELSE - { - nSubframes = NB_DIV; - isTCX10 = 1; - } - move16(); - move16(); - FOR( k = 0; k < nSubframes; k++ ) - { - test(); - test(); - test(); - IF( sts[0]->hTcxCfg->fIsTNSAllowed && NE_16( individual_decision[k], 1 ) && ( !bWhitenedDomain || sts[0]->hTcxEnc->bTnsOnWhithenedSpectra[k] ) ) - { - Word32 maxPredGain_fx = -ONE_IN_Q31; - move32(); - Word16 maxPredGain_e = 0; - move16(); - sts[0]->hTcxCfg->pCurrentTnsConfig = &sts[0]->hTcxCfg->tnsConfig[sts[0]->hTcxEnc->transform_type[k] == TCX_20][( k == 0 ) && ( sts[0]->last_core == ACELP_CORE )]; - sts[1]->hTcxCfg->pCurrentTnsConfig = &sts[1]->hTcxCfg->tnsConfig[sts[1]->hTcxEnc->transform_type[k] == TCX_20][( k == 0 ) && ( sts[1]->last_core == ACELP_CORE )]; - - FOR( iFilter = sts[0]->hTcxCfg->pCurrentTnsConfig->nMaxFilters - 1; iFilter >= 0; iFilter-- ) - { - STnsFilter *pFilter[2]; - struct TnsParameters const *pTnsParameters[2]; - pFilter[0] = sts[0]->hTcxEnc->tnsData[k].filter + iFilter; - pTnsParameters[0] = sts[0]->hTcxCfg->pCurrentTnsConfig->pTnsParameters + iFilter; - pFilter[1] = sts[1]->hTcxEnc->tnsData[k].filter + iFilter; - pTnsParameters[1] = sts[1]->hTcxCfg->pCurrentTnsConfig->pTnsParameters + iFilter; - - /* if prediction gain and avgSqrCoef are both close we are pretty sure the filters are quite similar, use the avg of - * both filters for the decision - */ - - meanPredictionGain_fx = BASOP_Util_Add_Mant32Exp( Mpy_32_16_1( pFilter[0]->predictionGain32, 16384 /*0.5f Q15*/ ), pFilter[0]->predictionGain_e, Mpy_32_16_1( pFilter[1]->predictionGain32, 16384 /*0.5f Q15*/ ), pFilter[1]->predictionGain_e, &meanPredictionGain_e ); // meanPredictionGain_e - Word16 flag = BASOP_Util_Cmp_Mant32Exp( maxPredictionGain_fx, maxPredictionGain_e, meanPredictionGain_fx, meanPredictionGain_e ); - IF( flag < 0 ) - { - maxPredictionGain_fx = meanPredictionGain_fx; - maxPredictionGain_e = meanPredictionGain_e; - move32(); - move16(); - } - flag = BASOP_Util_Cmp_Mant32Exp( pFilter[0]->predictionGain32, pFilter[0]->predictionGain_e, L_deposit_h( pTnsParameters[0]->minPredictionGain ), PRED_GAIN_E ); - if ( flag < 0 ) - { - flag = 0; - move16(); - } - Word16 flag_1 = BASOP_Util_Cmp_Mant32Exp( pFilter[1]->predictionGain32, pFilter[1]->predictionGain_e, L_deposit_h( pTnsParameters[1]->minPredictionGain ), PRED_GAIN_E ); - if ( flag_1 < 0 ) - { - flag_1 = 0; - move16(); - } - test(); - test(); - test(); - IF( flag && LT_32( sts[0]->element_brate, IVAS_80k ) && - flag_1 && EQ_16( sts[0]->hTcxEnc->tnsData[k].nFilters, sts[1]->hTcxEnc->tnsData[k].nFilters ) ) - { - pFilter[0]->predictionGain32 = pFilter[1]->predictionGain32 = meanPredictionGain_fx; /* more TNS filter sync at 48kbps */ - move32(); - move32(); - pFilter[0]->predictionGain_e = pFilter[1]->predictionGain_e = meanPredictionGain_e; /* more TNS filter sync at 48kbps */ - move16(); - move16(); - pFilter[0]->predictionGain = pFilter[1]->predictionGain = shl_sat( extract_h( meanPredictionGain_fx ), sub( meanPredictionGain_e, PRED_GAIN_E ) ); /* Q7 */ - move16(); - move16(); - } - flag = BASOP_Util_Cmp_Mant32Exp( Mpy_32_16_1( meanPredictionGain_fx, SIMILAR_TNS_THRESHOLD_FX_IN_Q15 ), meanPredictionGain_e, L_abs( BASOP_Util_Add_Mant32Exp( pFilter[0]->predictionGain32, pFilter[0]->predictionGain_e, L_negate( pFilter[1]->predictionGain32 ), pFilter[1]->predictionGain_e, &sum_e ) ), sum_e ); - if ( flag < 0 ) - { - flag = 0; - move16(); - } - test(); - IF( flag && - ( EQ_16( sts[0]->hTcxEnc->tnsData[k].nFilters, sts[1]->hTcxEnc->tnsData[k].nFilters ) ) ) - { - - Word16 maxAvgSqrCoef_fx = s_max( pFilter[0]->avgSqrCoef, pFilter[1]->avgSqrCoef ); // Q15 - Word16 meanLtpGain_fx = add( shr( sts[0]->hTcxEnc->tcxltp_gain, 1 ), shr( sts[1]->hTcxEnc->tcxltp_gain, 1 ) ); - // maxPredGain_fx = L_max( maxPredGain_fx, meanPredictionGain_fx ); - flag = BASOP_Util_Cmp_Mant32Exp( maxPredGain_fx, maxPredGain_e, meanPredictionGain_fx, meanPredictionGain_e ); - IF( flag < 0 ) - { - maxPredGain_fx = meanPredictionGain_fx; - maxPredGain_e = meanPredictionGain_e; - move32(); - move16(); - } - flag = BASOP_Util_Cmp_Mant32Exp( meanPredictionGain_fx, meanPredictionGain_e, L_deposit_h( pTnsParameters[0]->minPredictionGain ), PRED_GAIN_E ); - if ( flag < 0 ) - { - flag = 0; - move16(); - } - test(); - test(); - IF( flag || GT_16( maxAvgSqrCoef_fx, pTnsParameters[0]->minAvgSqrCoef ) ) - { - test(); - test(); - test(); - IF( sts[0]->hTcxEnc->tnsData[k].nFilters > 0 || sts[1]->hTcxEnc->tnsData[k].nFilters > 0 || isTCX10 || LT_16( meanLtpGain_fx, 19660 /* 0.6 in Q15*/ ) ) - { - - sts[0]->hTcxEnc->tnsData[k].nFilters = add( sts[0]->hTcxEnc->tnsData[k].nFilters, 1 ); - move16(); - /* When order parameter is evaluated as 0 and change in precision causes the flow to reach here, - this may result in crash later. Changing the filter type here so the order is taken here in further section */ - IF( pFilter[0]->order != 0 ) - { - pFilter[0]->filterType = TNS_FILTER_ON; - move16(); - } - ELSE - { - pFilter[0]->filterType = TNS_FILTER_ON_ZERO; - move16(); - } - sts[1]->hTcxEnc->tnsData[k].nFilters = add( sts[1]->hTcxEnc->tnsData[k].nFilters, 1 ); - move16(); - IF( pFilter[1]->order != 0 ) - { - pFilter[1]->filterType = TNS_FILTER_ON; - move16(); - } - ELSE - { - pFilter[1]->filterType = TNS_FILTER_ON_ZERO; - move16(); - } - } - ELSE - { - Word16 maxEnergyChange_fx; - maxEnergyChange_fx = mac_r( L_mult( GetTCXMaxenergyChange_ivas_fx( sts[0]->hTranDet, isTCX10, NSUBBLOCKS, 3 ), 16384 ), GetTCXMaxenergyChange_ivas_fx( sts[1]->hTranDet, isTCX10, NSUBBLOCKS, 3 ), 16384 ); - - IF( GE_16( maxEnergyChange_fx, shl( pTnsParameters[0]->minEnergyChange, Q3 - Q7 ) ) ) - { - sts[0]->hTcxEnc->tnsData[k].nFilters = add( sts[0]->hTcxEnc->tnsData[k].nFilters, 1 ); - move16(); - /* When order parameter is evaluated as 0 and change in precision causes the flow to reach here, - this may result in crash later. Changing the filter type here so the order is taken here in further section */ - IF( pFilter[0]->order != 0 ) - { - pFilter[0]->filterType = TNS_FILTER_ON; - move16(); - } - ELSE - { - pFilter[0]->filterType = TNS_FILTER_ON_ZERO; - move16(); - } - sts[1]->hTcxEnc->tnsData[k].nFilters = add( sts[1]->hTcxEnc->tnsData[k].nFilters, 1 ); - move16(); - IF( pFilter[1]->order != 0 ) - { - pFilter[1]->filterType = TNS_FILTER_ON; - move16(); - } - ELSE - { - pFilter[1]->filterType = TNS_FILTER_ON_ZERO; - move16(); - } - } - ELSE - { - pFilter[0]->filterType = TNS_FILTER_OFF; - move16(); - pFilter[1]->filterType = TNS_FILTER_OFF; - move16(); - } - } - } - ELSE IF( sts[0]->hTcxEnc->tnsData[k].nFilters > 0 && sts[1]->hTcxEnc->tnsData[k].nFilters > 0 ) /* If a previous filter is turned on */ - { - pFilter[0]->filterType = TNS_FILTER_ON_ZERO; - pFilter[1]->filterType = TNS_FILTER_ON_ZERO; - move16(); - move16(); - sts[0]->hTcxEnc->tnsData[k].nFilters = add( sts[0]->hTcxEnc->tnsData[k].nFilters, 1 ); - move16(); - sts[1]->hTcxEnc->tnsData[k].nFilters = add( sts[1]->hTcxEnc->tnsData[k].nFilters, 1 ); - move16(); - } - ELSE IF( NE_16( sts[0]->hTcxEnc->tnsData[k].nFilters, sts[1]->hTcxEnc->tnsData[k].nFilters ) ) /* sanity check */ - { - assert( 0 ); - } - ELSE - { - pFilter[0]->filterType = TNS_FILTER_OFF; - move16(); - pFilter[1]->filterType = TNS_FILTER_OFF; - move16(); - } - - test(); - test(); - IF( EQ_16( pFilter[0]->filterType, TNS_FILTER_ON ) && EQ_16( pFilter[1]->filterType, TNS_FILTER_ON ) && LT_32( sts[0]->element_brate, IVAS_80k ) ) - { - Word16 tmpIntValue = 0; - move16(); - Word16 tmpCoeff[TNS_MAX_FILTER_ORDER]; - Word16 i, maxOrder = s_max( pFilter[0]->order, pFilter[1]->order ); - - set16_fx( tmpCoeff, 0, TNS_MAX_FILTER_ORDER ); - FOR( i = 0; i < maxOrder; i++ ) - { - tmpIntValue = s_max( tmpIntValue, abs_s( sub( pFilter[0]->coefIndex[i], pFilter[1]->coefIndex[i] ) ) ); - } - - IF( EQ_16( tmpIntValue, 1 ) ) /* the TNS coefficients are sufficiently similar to equalize the two filters */ - { - FOR( i = maxOrder - 1; i >= 0; i-- ) - { - IF( LT_16( abs_s( pFilter[0]->coefIndex[i] ), abs_s( pFilter[1]->coefIndex[i] ) ) ) - { - tmpCoeff[i] = pFilter[0]->coefIndex[i]; - } - ELSE - { - tmpCoeff[i] = pFilter[1]->coefIndex[i]; - } - move16(); - IF( ( tmpIntValue > 0 ) && ( tmpCoeff[i] == 0 ) ) - { - maxOrder = sub( maxOrder, 1 ); - } - ELSE - { - tmpIntValue = 0; - move16(); - } - } - /* make sure that maxOrder is non zero and not all coefficients are zero (could happen in rare cases) */ - IF( maxOrder > 0 ) - { - FOR( i = TNS_MAX_FILTER_ORDER - 1; i >= 0; i-- ) - { - pFilter[0]->coefIndex[i] = pFilter[1]->coefIndex[i] = tmpCoeff[i]; - move16(); - move16(); - } - - pFilter[0]->order = pFilter[1]->order = maxOrder; - move16(); - move16(); - } - } - } - } - ELSE - { - individual_decision[k] = 1; - move16(); - } - } - - IF( individual_decision[k] == 0 ) - { - IF( ( sts[0]->hTcxEnc->tnsData[k].nFilters > 0 ) ) - { - sts[0]->hTcxEnc->fUseTns[k] = 1; - } - ELSE - { - sts[0]->hTcxEnc->fUseTns[k] = 0; - } - move16(); - - IF( ( sts[1]->hTcxEnc->tnsData[k].nFilters > 0 ) ) - { - sts[1]->hTcxEnc->fUseTns[k] = 1; - } - ELSE - { - sts[1]->hTcxEnc->fUseTns[k] = 0; - } - move16(); - } - ELSE - { - sts[0]->hTcxEnc->tnsData[k].nFilters = 0; - move16(); - sts[1]->hTcxEnc->tnsData[k].nFilters = 0; - move16(); - sts[0]->hTcxEnc->fUseTns[k] = 0; - move16(); - sts[1]->hTcxEnc->fUseTns[k] = 0; - move16(); - FOR( iFilter = sts[0]->hTcxCfg->pCurrentTnsConfig->nMaxFilters - 1; iFilter >= 0; iFilter-- ) - { - sts[0]->hTcxEnc->tnsData[k].filter[iFilter].filterType = TNS_FILTER_OFF; - move16(); - sts[1]->hTcxEnc->tnsData[k].filter[iFilter].filterType = TNS_FILTER_OFF; - move16(); - } - } - Word16 flag = BASOP_Util_Cmp_Mant32Exp( TNS_GAIN_THRESHOLD_FOR_WHITE_FX_IN_Q23, PRED_GAIN_E, maxPredGain_fx, maxPredGain_e ); - if ( flag < 0 ) - { - flag = 0; - move16(); - } - test(); - test(); - test(); - IF( !bWhitenedDomain && individual_decision[k] == 0 && flag && NE_16( sts[0]->hTcxEnc->transform_type[k], TCX_5 ) ) - { - sts[0]->hTcxEnc->bTnsOnWhithenedSpectra[k] = 1; - move16(); - sts[1]->hTcxEnc->bTnsOnWhithenedSpectra[k] = 1; - move16(); - sts[0]->hTcxEnc->tnsData[k].nFilters = 0; - move16(); - sts[1]->hTcxEnc->tnsData[k].nFilters = 0; - move16(); - sts[0]->hTcxEnc->fUseTns[k] = 0; - move16(); - sts[1]->hTcxEnc->fUseTns[k] = 0; - move16(); - FOR( iFilter = sts[0]->hTcxCfg->pCurrentTnsConfig->nMaxFilters - 1; iFilter >= 0; iFilter-- ) - { - ClearTnsFilterCoefficients( sts[0]->hTcxEnc->tnsData[k].filter + iFilter ); - ClearTnsFilterCoefficients( sts[1]->hTcxEnc->tnsData[k].filter + iFilter ); - } - } - // maxPredictionGain_fx = L_max( maxPredictionGain_fx, maxPredGain_fx ); - flag = BASOP_Util_Cmp_Mant32Exp( maxPredictionGain_fx, maxPredictionGain_e, maxPredGain_fx, maxPredGain_e ); - IF( flag < 0 ) - { - maxPredictionGain_fx = maxPredGain_fx; - maxPredictionGain_e = maxPredGain_e; - move32(); - move16(); - } - } - } - } - } - - /* individual decision for each channel */ - FOR( ch = 0; ch < CPE_CHANNELS; ch++ ) - { - IF( EQ_32( sts[ch]->mct_chan_mode, MCT_CHAN_MODE_IGNORE ) ) - { - CONTINUE; - } - - Word8 isTCX10; - - IF( EQ_16( sts[ch]->hTcxEnc->tcxMode, TCX_20 ) ) - { - nSubframes = 1; - isTCX10 = 0; - } - ELSE - { - nSubframes = NB_DIV; - isTCX10 = 1; - } - move16(); - move16(); - - FOR( k = 0; k < nSubframes; k++ ) - { - test(); - test(); - test(); - test(); - IF( sts[ch]->hTcxCfg->fIsTNSAllowed && ( individual_decision[k] || mct_on ) && - ( !bWhitenedDomain || sts[ch]->hTcxEnc->bTnsOnWhithenedSpectra[k] ) ) - { - Word32 maxPredGain_fx = -ONE_IN_Q31; // Q31 - move32(); - Word16 maxPredGain_e = 0; - move16(); - sts[ch]->hTcxCfg->pCurrentTnsConfig = &sts[ch]->hTcxCfg->tnsConfig[sts[ch]->hTcxEnc->transform_type[k] == TCX_20][( k == 0 ) && ( sts[ch]->last_core == ACELP_CORE )]; - - FOR( iFilter = sts[ch]->hTcxCfg->pCurrentTnsConfig->nMaxFilters - 1; iFilter >= 0; iFilter-- ) - { - STnsFilter *pFilter; - struct TnsParameters const *pTnsParameters; - pFilter = sts[ch]->hTcxEnc->tnsData[k].filter + iFilter; - pTnsParameters = sts[ch]->hTcxCfg->pCurrentTnsConfig->pTnsParameters + iFilter; - - // maxPredGain_fx = L_max( maxPredGain_fx, pFilter->predictionGain32 ); - Word16 flag = BASOP_Util_Cmp_Mant32Exp( maxPredGain_fx, maxPredGain_e, pFilter->predictionGain32, pFilter->predictionGain_e ); - IF( flag < 0 ) - { - maxPredGain_fx = pFilter->predictionGain32; - move32(); - maxPredGain_e = pFilter->predictionGain_e; - move16(); - } - flag = BASOP_Util_Cmp_Mant32Exp( pFilter->predictionGain32, pFilter->predictionGain_e, L_deposit_h( pTnsParameters->minPredictionGain ), PRED_GAIN_E ); - if ( flag < 0 ) - { - flag = 0; - move16(); - } - test(); - IF( flag || GT_16( pFilter->avgSqrCoef, pTnsParameters->minAvgSqrCoef ) ) - { - test(); - test(); - IF( sts[ch]->hTcxEnc->tnsData[k].nFilters > 0 || isTCX10 || LT_16( sts[ch]->hTcxEnc->tcxltp_gain, 19660 /*.6f in Q15*/ ) ) - { - sts[ch]->hTcxEnc->tnsData[k].nFilters = add( sts[ch]->hTcxEnc->tnsData[k].nFilters, 1 ); - move16(); - /* When order parameter is evaluated as 0 and change in precision causes the flow to reach here, - this may result in crash later. Changing the filter type here so the order is taken here in further section */ - IF( pFilter->order != 0 ) - { - pFilter->filterType = TNS_FILTER_ON; - move16(); - } - ELSE - { - pFilter->filterType = TNS_FILTER_ON_ZERO; - move16(); - } - } - ELSE - { - Word16 maxEnergyChange_fx = GetTCXMaxenergyChange_ivas_fx( sts[ch]->hTranDet, isTCX10, NSUBBLOCKS, 3 ); - - IF( GE_16( maxEnergyChange_fx, shl( pTnsParameters->minEnergyChange, Q3 - Q7 ) ) ) - { - sts[ch]->hTcxEnc->tnsData[k].nFilters = add( sts[ch]->hTcxEnc->tnsData[k].nFilters, 1 ); - move16(); - /* When order parameter is evaluated as 0 and change in precision causes the flow to reach here, - this may result in crash later. Changing the filter type here so the order is taken here in further section */ - IF( pFilter->order != 0 ) - { - pFilter->filterType = TNS_FILTER_ON; - move16(); - } - ELSE - { - pFilter->filterType = TNS_FILTER_ON_ZERO; - move16(); - } - } - ELSE - { - pFilter->filterType = TNS_FILTER_OFF; - move16(); - } - } - } - ELSE IF( sts[ch]->hTcxEnc->tnsData[k].nFilters > 0 ) /* If a previous filter is turned on */ - { - pFilter->filterType = TNS_FILTER_ON_ZERO; - move16(); - sts[ch]->hTcxEnc->tnsData[k].nFilters = add( sts[ch]->hTcxEnc->tnsData[k].nFilters, 1 ); - move16(); - } - ELSE - { - pFilter->filterType = TNS_FILTER_OFF; - move16(); - } - } - - IF( ( sts[ch]->hTcxEnc->tnsData[k].nFilters > 0 ) ) - { - sts[ch]->hTcxEnc->fUseTns[k] = 1; - } - ELSE - { - sts[ch]->hTcxEnc->fUseTns[k] = 0; - } - move16(); - Word16 flag = BASOP_Util_Cmp_Mant32Exp( TNS_GAIN_THRESHOLD_FOR_WHITE_FX_IN_Q23, PRED_GAIN_E, maxPredGain_fx, maxPredGain_e ); - if ( flag < 0 ) - { - flag = 0; - move16(); - } - test(); - test(); - IF( !bWhitenedDomain && flag && NE_16( sts[ch]->hTcxEnc->transform_type[k], TCX_5 ) ) - { - sts[ch]->hTcxEnc->fUseTns[k] = 0; - move16(); - sts[ch]->hTcxEnc->bTnsOnWhithenedSpectra[k] = 1; - move16(); - sts[ch]->hTcxEnc->tnsData[k].nFilters = 0; - move16(); - FOR( iFilter = sts[ch]->hTcxCfg->pCurrentTnsConfig->nMaxFilters - 1; iFilter >= 0; iFilter-- ) - { - ClearTnsFilterCoefficients( sts[ch]->hTcxEnc->tnsData[k].filter + iFilter ); - sts[ch]->hTcxEnc->tnsData[k].filter[iFilter].filterType = TNS_FILTER_OFF; - move16(); - } - } - // maxPredictionGain_fx = L_max( maxPredictionGain_fx, maxPredGain_fx ); - flag = BASOP_Util_Cmp_Mant32Exp( maxPredictionGain_fx, maxPredictionGain_e, maxPredGain_fx, maxPredGain_e ); - IF( flag < 0 ) - { - maxPredictionGain_fx = maxPredGain_fx; - maxPredictionGain_e = maxPredGain_e; - move32(); - move16(); - } - } - } - } - - - /* we have the decision, set filter data accordingly */ - FOR( ch = 0; ch < CPE_CHANNELS; ch++ ) - { - IF( EQ_16( sts[ch]->mct_chan_mode, MCT_CHAN_MODE_IGNORE ) ) - { - CONTINUE; - } - - IF( EQ_16( sts[ch]->hTcxEnc->tcxMode, TCX_20 ) ) - { - nSubframes = 1; - } - ELSE - { - nSubframes = NB_DIV; - } - move16(); - FOR( k = 0; k < nSubframes; k++ ) - { - test(); - test(); - IF( sts[ch]->hTcxCfg->fIsTNSAllowed && ( !bWhitenedDomain || sts[ch]->hTcxEnc->bTnsOnWhithenedSpectra[k] ) ) - { - sts[ch]->hTcxCfg->pCurrentTnsConfig = &sts[ch]->hTcxCfg->tnsConfig[sts[ch]->hTcxEnc->transform_type[k] == TCX_20][( k == 0 ) && ( sts[ch]->last_core == ACELP_CORE )]; - - FOR( iFilter = sts[ch]->hTcxCfg->pCurrentTnsConfig->nMaxFilters - 1; iFilter >= 0; iFilter-- ) - { - STnsFilter *pFilter; - pFilter = sts[ch]->hTcxEnc->tnsData[k].filter + iFilter; - SWITCH( pFilter->filterType ) - { - case TNS_FILTER_OFF: - ClearTnsFilterCoefficients( sts[ch]->hTcxEnc->tnsData[k].filter + iFilter ); - BREAK; - case TNS_FILTER_ON_ZERO: - /* Since TNS filter of order 0 is not allowed we have to signal in the stream filter of order 1 with the 0th coefficient equal to 0 */ - ClearTnsFilterCoefficients( pFilter ); - pFilter->order = 1; - move16(); - BREAK; - } - } - } - } - } - - /* Apply filters, loop over channels */ - FOR( ch = 0; ch < CPE_CHANNELS; ch++ ) - { - st = sts[ch]; - IF( EQ_32( st->mct_chan_mode, MCT_CHAN_MODE_IGNORE ) ) - { - CONTINUE; - } - - IF( EQ_16( st->hTcxEnc->tcxMode, TCX_20 ) ) - { - nSubframes = 1; - } - ELSE - { - nSubframes = NB_DIV; - } - move16(); - - FOR( k = 0; k < nSubframes; k++ ) - { - test(); - test(); - test(); - test(); - test(); - IF( bWhitenedDomain && ( ch > 0 ) && /* test for identical TNS filter data in both channels */ - sts[0]->hTcxCfg->fIsTNSAllowed && sts[0]->hTcxEnc->fUseTns[k] && - sts[1]->hTcxCfg->fIsTNSAllowed && sts[1]->hTcxEnc->fUseTns[k] ) - { - Word16 equalFilterData = 0; - move16(); - test(); - test(); - if ( EQ_16( sts[0]->hTcxCfg->pCurrentTnsConfig->nMaxFilters, sts[1]->hTcxCfg->pCurrentTnsConfig->nMaxFilters ) && - EQ_16( sts[0]->hTcxEnc->bTnsOnWhithenedSpectra[k], sts[1]->hTcxEnc->bTnsOnWhithenedSpectra[k] ) && - EQ_16( sts[0]->hTcxEnc->tnsData[k].nFilters, sts[1]->hTcxEnc->tnsData[k].nFilters ) ) - { - equalFilterData = 1; - move16(); - } - - IF( equalFilterData ) - { - FOR( iFilter = st->hTcxCfg->pCurrentTnsConfig->nMaxFilters - 1; iFilter >= 0; iFilter-- ) - { - const Word16 *pDataCh0 = (const Word16 *) &sts[0]->hTcxEnc->tnsData[k].filter[iFilter]; - const Word16 *pDataCh1 = (const Word16 *) &sts[1]->hTcxEnc->tnsData[k].filter[iFilter]; - Word16 i = 2 + TNS_MAX_FILTER_ORDER; /* excl. informative float data. Portable? */ - - move16(); - test(); - WHILE( ( i >= 0 ) && EQ_16( pDataCh0[i], pDataCh1[i] ) ) - { - test(); - i = sub( i, 1 ); - } - IF( i >= 0 ) - { - equalFilterData = 0; - move16(); - BREAK; - } - } - IF( equalFilterData ) - { - st->hTcxEnc->tnsData[k].nFilters = i_mult( st->hTcxEnc->tnsData[k].nFilters, -1 ); /* signals common TNS */ - move16(); - } - } - } - test(); - test(); - IF( st->hTcxCfg->fIsTNSAllowed && ( !bWhitenedDomain || st->hTcxEnc->bTnsOnWhithenedSpectra[k] ) ) - { - L_spec = st->hTcxCfg->pCurrentTnsConfig->iFilterBorders[0]; - move16(); - spectrum_fx = st->hTcxEnc->spectrum_fx[k]; - /* If TNS should be used then get the residual after applying it inplace in the spectrum */ - IF( st->hTcxEnc->fUseTns[k] ) - { - st->hTcxCfg->pCurrentTnsConfig = &st->hTcxCfg->tnsConfig[st->hTcxEnc->transform_type[k] == TCX_20][( k == 0 ) && ( st->last_core == ACELP_CORE )]; - - ApplyTnsFilter( st->hTcxCfg->pCurrentTnsConfig, &st->hTcxEnc->tnsData[k], spectrum_fx, 1 ); - } - - IF( EQ_16( st->hTcxEnc->transform_type[k], TCX_5 ) ) - { - tcx5TnsUngrouping_fx( shr( L_frame, 2 ), shr( L_spec, 1 ), st->hTcxEnc->spectrum_fx[k], ENC ); - } - - st->hTcxEnc->tnsData[k].tnsOnWhitenedSpectra = st->hTcxEnc->bTnsOnWhithenedSpectra[k]; - move16(); - EncodeTnsData_ivas_fx( st->hTcxCfg->pCurrentTnsConfig, &st->hTcxEnc->tnsData[k], param_core[ch] + k * NPRM_DIV + 1 + NOISE_FILL_RANGES + LTPSIZE, tnsSize[ch] + k, tnsBits[ch] + k ); - } - - IF( EQ_16( st->hTcxEnc->transform_type[k], TCX_5 ) ) - { - tcx5SpectrumInterleaving_fx( st->hTcxCfg->tcx5SizeFB, st->hTcxEnc->spectrum_fx[k] ); - tcx5SpectrumInterleaving_fx( st->hTcxCfg->tcx5SizeFB, mdst_spectrum_fx[ch][k] ); - } - } - } - return; -} diff --git a/lib_enc/cod_tcx_fx.c b/lib_enc/cod_tcx_fx.c index b2fe04ce13f5fcb65f8a7abd6a47bba15f06a1c1..4bb44eae27961630ea3f98bab5030ebce5fce018 100644 --- a/lib_enc/cod_tcx_fx.c +++ b/lib_enc/cod_tcx_fx.c @@ -14,18 +14,16 @@ #include "stl.h" // #include "basop_mpy.h" #include "prot_fx_enc.h" -#ifdef IVAS_FLOAT_FIXED_CONVERSIONS #include -#include "prot.h" -#include "ivas_prot.h" #include "ivas_prot_fx.h" #include "ivas_rom_com_fx.h" -#include "prot.h" -#endif #ifdef DEBUGGING #include "debug.h" #endif +#define SIMILAR_TNS_THRESHOLD_FX_IN_Q15 ( 1311 ) +#define TNS_GAIN_THRESHOLD_FOR_WHITE_FX_IN_Q7 ( 384 ) +#define TNS_GAIN_THRESHOLD_FOR_WHITE_FX_IN_Q23 ( 25165824 ) /* Up to the Autocorrelation it is the same code as in GetMDCT, with the difference in the parameters in the call to tcx_windowing_analysis */ void HBAutocorrelation_fx( @@ -1717,9 +1715,7 @@ void EstimateStereoTCXNoiseLevel_fx( Word16 *fac_ns_q; Word32 total_brate; -#ifdef MSAN_FIX set32_fx( combined_q_spectrum, 0, N_MAX ); -#endif FOR( ch = 0; ch < CPE_CHANNELS; ch++ ) { @@ -3747,7 +3743,7 @@ void QuantizeTCXSpectrum_fx( } /* Quantize original spectrum */ - sqGain_fx = SQ_gain_ivas_fx( spectrum_fx, *spectrum_e, shl( mult( hTcxEnc->tcx_target_bits_fac, sqTargetBits ), 1 ), L_spec, &sqGain_e ); + sqGain_fx = SQ_gain_ivas_fx( spectrum_fx, *spectrum_e, ( mult( hTcxEnc->tcx_target_bits_fac, shl( sqTargetBits, 1 ) ) ), L_spec, &sqGain_e ); tcx_scalar_quantization_ivas_fx( spectrum_fx, *spectrum_e, sqQ, L_spec, sqGain_fx, sqGain_e, st->hTcxCfg->sq_rounding, hTcxEnc->memQuantZeros, st->tcxonly ); @@ -4365,9 +4361,6 @@ void coder_tcx_fx( Word16 winMDST[N_MAX + L_MDCT_OVLP_MAX]; Word16 *pWinMDST; Word16 left_overlap_mode, right_overlap_mode; -#ifndef MSAN_FIX - LPD_state_HANDLE hLPDmem = st->hLPDmem; -#endif TCX_ENC_HANDLE hTcxEnc = st->hTcxEnc; left_overlap = right_overlap = -1; @@ -4532,11 +4525,6 @@ void coder_tcx_fx( n, st, hm_cfg ); - -#ifndef MSAN_FIX - hLPDmem->nbits = add( hLPDmem->nbits, add( tnsBits, ltpBits ) ); - move16(); -#endif } @@ -4742,7 +4730,7 @@ void InternalTCXDecoder_fx( } ELSE { - mdct_shaping( spectrum_fx, L_frame, gainlpc_fx, gainlpc_e ); + mdct_noiseShaping_ivas_fx( spectrum_fx, spectrum_e, L_frame, gainlpc_fx, gainlpc_e ); } /*-----------------------------------------------------------* * Apply gain * @@ -5363,3 +5351,778 @@ void InternalTCXDecoder_fx( return; } + + +void TNSAnalysisStereo_fx( + Encoder_State **sts, /* i : encoder state handle */ + Word32 *mdst_spectrum_fx[CPE_CHANNELS][NB_DIV], /* o : MDST spectrum Qx*/ + const Word16 bWhitenedDomain, /* i : whitened domain flag Q0*/ + Word16 tnsSize[CPE_CHANNELS][NB_DIV], /* i : number of tns parameters put into prm Q0*/ + Word16 tnsBits[CPE_CHANNELS][NB_DIV], /* i : number of tns bits in the frame Q0*/ + Word16 param_core[][NB_DIV * NPRM_DIV], /* o : TNS parameters Q0*/ + const Word16 mct_on /* i : flag mct block (1) or stereo (0) Q0*/ +) +{ + Word16 ch, k, L_spec, L_frame, nSubframes, iFilter; + Word32 *spectrum_fx, sum; + Encoder_State *st = NULL; + TCX_ENC_HANDLE hTcxEnc = NULL; + Word16 individual_decision[NB_DIV]; + Word32 maxPredictionGain_fx = 0, meanPredictionGain_fx; + move32(); + Word16 maxPredictionGain_e = 0, meanPredictionGain_e; + move16(); + Word16 sum_e = 0; + move16(); + individual_decision[0] = 0; + move16(); + individual_decision[1] = 0; + move16(); + L_spec = -1; + move16(); + L_frame = -1; + move16(); + + /* TNS filter analysis, loop over channels */ + FOR( ch = 0; ch < CPE_CHANNELS; ch++ ) + { + st = sts[ch]; + IF( EQ_16( st->mct_chan_mode, MCT_CHAN_MODE_IGNORE ) ) + { + CONTINUE; + } + + hTcxEnc = st->hTcxEnc; + + IF( EQ_16( hTcxEnc->tcxMode, TCX_20 ) ) + { + nSubframes = 1; + } + ELSE + { + nSubframes = NB_DIV; + } + move16(); + + FOR( k = 0; k < nSubframes; k++ ) + { + /* reset tns on whitened domain flag */ + IF( !bWhitenedDomain ) + { + hTcxEnc->bTnsOnWhithenedSpectra[k] = 0; + move16(); + hTcxEnc->fUseTns[k] = 0; + move16(); + } + test(); + test(); + IF( st->hTcxCfg->fIsTNSAllowed && ( !bWhitenedDomain || hTcxEnc->bTnsOnWhithenedSpectra[k] ) ) + { + spectrum_fx = hTcxEnc->spectrum_fx[k]; + + L_frame = hTcxEnc->L_frameTCX; + move16(); + st->hTcxCfg->pCurrentTnsConfig = &st->hTcxCfg->tnsConfig[hTcxEnc->transform_type[k] == TCX_20][( k == 0 ) && ( st->last_core == ACELP_CORE )]; + L_spec = st->hTcxCfg->pCurrentTnsConfig->iFilterBorders[0]; + move16(); + /*-----------------------------------------------------------* + * Temporal Noise Shaping analysis * + *-----------------------------------------------------------*/ + + IF( EQ_16( hTcxEnc->transform_type[k], TCX_5 ) ) + { + /* rearrange LF sub-window lines prior to TNS analysis & filtering */ + tcx5TnsGrouping_fx( shr( L_frame, 2 ), shr( L_spec, 1 ), spectrum_fx ); + } + + /* WMOPS: All initializations are either for safety or static (tables) and thus not to be counted */ + + ResetTnsData( &hTcxEnc->tnsData[k] ); + IF( st->hTcxCfg->pCurrentTnsConfig->maxOrder <= 0 ) + { + BREAK; + } + + CalculateTnsFilt_fx( st->hTcxCfg->pCurrentTnsConfig, spectrum_fx, hTcxEnc->spectrum_e[k], &hTcxEnc->tnsData[k] ); + } + } + } + + IF( !mct_on ) + { + /* TNS decision */ + /* if framing differs between channels, keep the filter decision per channel */ + test(); + test(); + IF( ( NE_16( sts[0]->hTcxEnc->transform_type[0], sts[1]->hTcxEnc->transform_type[0] ) && + NE_16( sts[0]->hTcxEnc->transform_type[1], sts[1]->hTcxEnc->transform_type[1] ) ) || + NE_16( sts[0]->hTcxCfg->fIsTNSAllowed, sts[1]->hTcxCfg->fIsTNSAllowed ) ) + { + individual_decision[0] = individual_decision[1] = 1; + move16(); + move16(); + } + ELSE IF( bWhitenedDomain ) + { + IF( EQ_16( sts[0]->hTcxEnc->tcxMode, TCX_20 ) ) + { + nSubframes = 1; + } + ELSE + { + nSubframes = NB_DIV; + } + move16(); + FOR( k = 0; k < nSubframes; k++ ) + { + IF( NE_16( sts[0]->hTcxEnc->bTnsOnWhithenedSpectra[k], sts[1]->hTcxEnc->bTnsOnWhithenedSpectra[k] ) ) + { + individual_decision[k] = 1; + move16(); + } + } + } + + /* framing equal, check for similar filters, if very similar (also indicator for and M signal), + * use at least the same decision, maybe use the same filter + */ + { + Word8 isTCX10; + + IF( EQ_16( sts[0]->hTcxEnc->tcxMode, TCX_20 ) ) + { + nSubframes = 1; + isTCX10 = 0; + } + ELSE + { + nSubframes = NB_DIV; + isTCX10 = 1; + } + move16(); + move16(); + FOR( k = 0; k < nSubframes; k++ ) + { + test(); + test(); + test(); + IF( sts[0]->hTcxCfg->fIsTNSAllowed && NE_16( individual_decision[k], 1 ) && ( !bWhitenedDomain || sts[0]->hTcxEnc->bTnsOnWhithenedSpectra[k] ) ) + { + Word32 maxPredGain_fx = -ONE_IN_Q31; + move32(); + Word16 maxPredGain_e = 0; + move16(); + sts[0]->hTcxCfg->pCurrentTnsConfig = &sts[0]->hTcxCfg->tnsConfig[sts[0]->hTcxEnc->transform_type[k] == TCX_20][( k == 0 ) && ( sts[0]->last_core == ACELP_CORE )]; + sts[1]->hTcxCfg->pCurrentTnsConfig = &sts[1]->hTcxCfg->tnsConfig[sts[1]->hTcxEnc->transform_type[k] == TCX_20][( k == 0 ) && ( sts[1]->last_core == ACELP_CORE )]; + + FOR( iFilter = sts[0]->hTcxCfg->pCurrentTnsConfig->nMaxFilters - 1; iFilter >= 0; iFilter-- ) + { + STnsFilter *pFilter[2]; + struct TnsParameters const *pTnsParameters[2]; + pFilter[0] = sts[0]->hTcxEnc->tnsData[k].filter + iFilter; + pTnsParameters[0] = sts[0]->hTcxCfg->pCurrentTnsConfig->pTnsParameters + iFilter; + pFilter[1] = sts[1]->hTcxEnc->tnsData[k].filter + iFilter; + pTnsParameters[1] = sts[1]->hTcxCfg->pCurrentTnsConfig->pTnsParameters + iFilter; + + /* if prediction gain and avgSqrCoef are both close we are pretty sure the filters are quite similar, use the avg of + * both filters for the decision + */ + + meanPredictionGain_fx = BASOP_Util_Add_Mant32Exp( Mpy_32_16_1( pFilter[0]->predictionGain32, 16384 /*0.5f Q15*/ ), pFilter[0]->predictionGain_e, Mpy_32_16_1( pFilter[1]->predictionGain32, 16384 /*0.5f Q15*/ ), pFilter[1]->predictionGain_e, &meanPredictionGain_e ); // meanPredictionGain_e + + /* maxPredictionGain = max( maxPredictionGain, meanPredictionGain );*/ + IF( GT_32( meanPredictionGain_fx, L_shl_sat( maxPredictionGain_fx, sub( maxPredictionGain_e, meanPredictionGain_e ) ) ) ) /* exp: meanPredictionGain_e */ + { + maxPredictionGain_fx = meanPredictionGain_fx; + maxPredictionGain_e = meanPredictionGain_e; + move32(); + move16(); + } + + test(); + test(); + test(); + IF( GT_32( pFilter[0]->predictionGain32, L_shl_sat( L_deposit_h( pTnsParameters[0]->minPredictionGain ), sub( PRED_GAIN_E, pFilter[0]->predictionGain_e ) ) ) && LT_32( sts[0]->element_brate, IVAS_80k ) && + GT_32( pFilter[1]->predictionGain32, L_shl_sat( L_deposit_h( pTnsParameters[1]->minPredictionGain ), sub( PRED_GAIN_E, pFilter[1]->predictionGain_e ) ) ) && EQ_16( sts[0]->hTcxEnc->tnsData[k].nFilters, sts[1]->hTcxEnc->tnsData[k].nFilters ) ) + { + pFilter[0]->predictionGain32 = pFilter[1]->predictionGain32 = meanPredictionGain_fx; /* more TNS filter sync at 48kbps */ + move32(); + move32(); + pFilter[0]->predictionGain_e = pFilter[1]->predictionGain_e = meanPredictionGain_e; /* more TNS filter sync at 48kbps */ + move16(); + move16(); + pFilter[0]->predictionGain = pFilter[1]->predictionGain = shl_sat( extract_h( meanPredictionGain_fx ), sub( meanPredictionGain_e, PRED_GAIN_E ) ); /* Q7 */ + move16(); + } + sum_e = s_max( pFilter[0]->predictionGain_e, pFilter[1]->predictionGain_e ); + sum = L_abs( L_sub_sat( L_shl( pFilter[0]->predictionGain32, sub( pFilter[0]->predictionGain_e, sum_e ) ), L_shl( pFilter[1]->predictionGain32, sub( pFilter[1]->predictionGain_e, sum_e ) ) ) ); // sum_e + + IF( LT_32( L_shl_sat( sum, sub( sum_e, meanPredictionGain_e ) ), Mpy_32_16_1( meanPredictionGain_fx, SIMILAR_TNS_THRESHOLD_FX_IN_Q15 ) ) && + ( EQ_16( sts[0]->hTcxEnc->tnsData[k].nFilters, sts[1]->hTcxEnc->tnsData[k].nFilters ) ) ) + { + + Word16 maxAvgSqrCoef_fx = s_max( pFilter[0]->avgSqrCoef, pFilter[1]->avgSqrCoef ); // Q15 + Word16 meanLtpGain_fx = add( shr( sts[0]->hTcxEnc->tcxltp_gain, 1 ), shr( sts[1]->hTcxEnc->tcxltp_gain, 1 ) ); + + /* maxPredGain_fx = L_max( maxPredGain_fx, meanPredictionGain_fx ); */ + IF( GT_32( meanPredictionGain_fx, L_shl_sat( maxPredGain_fx, sub( maxPredGain_e, maxPredictionGain_e ) ) ) ) /* exp: meanPredictionGain_e */ + { + maxPredGain_fx = meanPredictionGain_fx; + maxPredGain_e = meanPredictionGain_e; + move32(); + move16(); + } + + test(); + test(); + IF( GT_32( meanPredictionGain_fx, L_shl_sat( L_deposit_h( pTnsParameters[0]->minPredictionGain ), sub( PRED_GAIN_E, meanPredictionGain_e ) ) ) || GT_16( maxAvgSqrCoef_fx, pTnsParameters[0]->minAvgSqrCoef ) ) + { + test(); + test(); + test(); + IF( sts[0]->hTcxEnc->tnsData[k].nFilters > 0 || sts[1]->hTcxEnc->tnsData[k].nFilters > 0 || isTCX10 || LT_16( meanLtpGain_fx, 19660 /* 0.6 in Q15*/ ) ) + { + + sts[0]->hTcxEnc->tnsData[k].nFilters = add( sts[0]->hTcxEnc->tnsData[k].nFilters, 1 ); + move16(); + /* When order parameter is evaluated as 0 and change in precision causes the flow to reach here, + this may result in crash later. Changing the filter type here so the order is taken here in further section */ + IF( pFilter[0]->order != 0 ) + { + pFilter[0]->filterType = TNS_FILTER_ON; + move16(); + } + ELSE + { + pFilter[0]->filterType = TNS_FILTER_ON_ZERO; + move16(); + } + sts[1]->hTcxEnc->tnsData[k].nFilters = add( sts[1]->hTcxEnc->tnsData[k].nFilters, 1 ); + move16(); + IF( pFilter[1]->order != 0 ) + { + pFilter[1]->filterType = TNS_FILTER_ON; + move16(); + } + ELSE + { + pFilter[1]->filterType = TNS_FILTER_ON_ZERO; + move16(); + } + } + ELSE + { + Word16 maxEnergyChange_fx; + maxEnergyChange_fx = mac_r( L_mult( GetTCXMaxenergyChange_ivas_fx( sts[0]->hTranDet, isTCX10, NSUBBLOCKS, 3 ), 16384 ), GetTCXMaxenergyChange_ivas_fx( sts[1]->hTranDet, isTCX10, NSUBBLOCKS, 3 ), 16384 ); + + IF( GE_16( maxEnergyChange_fx, shl( pTnsParameters[0]->minEnergyChange, Q3 - Q7 ) ) ) + { + sts[0]->hTcxEnc->tnsData[k].nFilters = add( sts[0]->hTcxEnc->tnsData[k].nFilters, 1 ); + move16(); + /* When order parameter is evaluated as 0 and change in precision causes the flow to reach here, + this may result in crash later. Changing the filter type here so the order is taken here in further section */ + IF( pFilter[0]->order != 0 ) + { + pFilter[0]->filterType = TNS_FILTER_ON; + move16(); + } + ELSE + { + pFilter[0]->filterType = TNS_FILTER_ON_ZERO; + move16(); + } + sts[1]->hTcxEnc->tnsData[k].nFilters = add( sts[1]->hTcxEnc->tnsData[k].nFilters, 1 ); + move16(); + IF( pFilter[1]->order != 0 ) + { + pFilter[1]->filterType = TNS_FILTER_ON; + move16(); + } + ELSE + { + pFilter[1]->filterType = TNS_FILTER_ON_ZERO; + move16(); + } + } + ELSE + { + pFilter[0]->filterType = TNS_FILTER_OFF; + move16(); + pFilter[1]->filterType = TNS_FILTER_OFF; + move16(); + } + } + } + ELSE IF( sts[0]->hTcxEnc->tnsData[k].nFilters > 0 && sts[1]->hTcxEnc->tnsData[k].nFilters > 0 ) /* If a previous filter is turned on */ + { + pFilter[0]->filterType = TNS_FILTER_ON_ZERO; + pFilter[1]->filterType = TNS_FILTER_ON_ZERO; + move16(); + move16(); + sts[0]->hTcxEnc->tnsData[k].nFilters = add( sts[0]->hTcxEnc->tnsData[k].nFilters, 1 ); + move16(); + sts[1]->hTcxEnc->tnsData[k].nFilters = add( sts[1]->hTcxEnc->tnsData[k].nFilters, 1 ); + move16(); + } + ELSE IF( NE_16( sts[0]->hTcxEnc->tnsData[k].nFilters, sts[1]->hTcxEnc->tnsData[k].nFilters ) ) /* sanity check */ + { + assert( 0 ); + } + ELSE + { + pFilter[0]->filterType = TNS_FILTER_OFF; + move16(); + pFilter[1]->filterType = TNS_FILTER_OFF; + move16(); + } + + test(); + test(); + IF( EQ_16( pFilter[0]->filterType, TNS_FILTER_ON ) && EQ_16( pFilter[1]->filterType, TNS_FILTER_ON ) && LT_32( sts[0]->element_brate, IVAS_80k ) ) + { + Word16 tmpIntValue = 0; + move16(); + Word16 tmpCoeff[TNS_MAX_FILTER_ORDER]; + Word16 i, maxOrder = s_max( pFilter[0]->order, pFilter[1]->order ); + + set16_fx( tmpCoeff, 0, TNS_MAX_FILTER_ORDER ); + FOR( i = 0; i < maxOrder; i++ ) + { + tmpIntValue = s_max( tmpIntValue, abs_s( sub( pFilter[0]->coefIndex[i], pFilter[1]->coefIndex[i] ) ) ); + } + + IF( EQ_16( tmpIntValue, 1 ) ) /* the TNS coefficients are sufficiently similar to equalize the two filters */ + { + FOR( i = maxOrder - 1; i >= 0; i-- ) + { + IF( LT_16( abs_s( pFilter[0]->coefIndex[i] ), abs_s( pFilter[1]->coefIndex[i] ) ) ) + { + tmpCoeff[i] = pFilter[0]->coefIndex[i]; + } + ELSE + { + tmpCoeff[i] = pFilter[1]->coefIndex[i]; + } + move16(); + IF( ( tmpIntValue > 0 ) && ( tmpCoeff[i] == 0 ) ) + { + maxOrder = sub( maxOrder, 1 ); + } + ELSE + { + tmpIntValue = 0; + move16(); + } + } + /* make sure that maxOrder is non zero and not all coefficients are zero (could happen in rare cases) */ + IF( maxOrder > 0 ) + { + FOR( i = TNS_MAX_FILTER_ORDER - 1; i >= 0; i-- ) + { + pFilter[0]->coefIndex[i] = pFilter[1]->coefIndex[i] = tmpCoeff[i]; + move16(); + move16(); + } + + pFilter[0]->order = pFilter[1]->order = maxOrder; + move16(); + move16(); + } + } + } + } + ELSE + { + individual_decision[k] = 1; + move16(); + } + } + + IF( individual_decision[k] == 0 ) + { + IF( ( sts[0]->hTcxEnc->tnsData[k].nFilters > 0 ) ) + { + sts[0]->hTcxEnc->fUseTns[k] = 1; + } + ELSE + { + sts[0]->hTcxEnc->fUseTns[k] = 0; + } + move16(); + + IF( ( sts[1]->hTcxEnc->tnsData[k].nFilters > 0 ) ) + { + sts[1]->hTcxEnc->fUseTns[k] = 1; + } + ELSE + { + sts[1]->hTcxEnc->fUseTns[k] = 0; + } + move16(); + } + ELSE + { + sts[0]->hTcxEnc->tnsData[k].nFilters = 0; + move16(); + sts[1]->hTcxEnc->tnsData[k].nFilters = 0; + move16(); + sts[0]->hTcxEnc->fUseTns[k] = 0; + move16(); + sts[1]->hTcxEnc->fUseTns[k] = 0; + move16(); + FOR( iFilter = sts[0]->hTcxCfg->pCurrentTnsConfig->nMaxFilters - 1; iFilter >= 0; iFilter-- ) + { + sts[0]->hTcxEnc->tnsData[k].filter[iFilter].filterType = TNS_FILTER_OFF; + move16(); + sts[1]->hTcxEnc->tnsData[k].filter[iFilter].filterType = TNS_FILTER_OFF; + move16(); + } + } + + test(); + test(); + test(); + IF( !bWhitenedDomain && individual_decision[k] == 0 && + LT_32( L_shl_sat( maxPredGain_fx, sub( maxPredGain_e, PRED_GAIN_E ) ), TNS_GAIN_THRESHOLD_FOR_WHITE_FX_IN_Q23 ) && + NE_16( sts[0]->hTcxEnc->transform_type[k], TCX_5 ) ) + { + sts[0]->hTcxEnc->bTnsOnWhithenedSpectra[k] = 1; + move16(); + sts[1]->hTcxEnc->bTnsOnWhithenedSpectra[k] = 1; + move16(); + sts[0]->hTcxEnc->tnsData[k].nFilters = 0; + move16(); + sts[1]->hTcxEnc->tnsData[k].nFilters = 0; + move16(); + sts[0]->hTcxEnc->fUseTns[k] = 0; + move16(); + sts[1]->hTcxEnc->fUseTns[k] = 0; + move16(); + FOR( iFilter = sts[0]->hTcxCfg->pCurrentTnsConfig->nMaxFilters - 1; iFilter >= 0; iFilter-- ) + { + ClearTnsFilterCoefficients( sts[0]->hTcxEnc->tnsData[k].filter + iFilter ); + ClearTnsFilterCoefficients( sts[1]->hTcxEnc->tnsData[k].filter + iFilter ); + } + } + + /* maxPredictionGain_fx = L_max( maxPredictionGain_fx, maxPredGain_fx ); */ + IF( GT_32( maxPredGain_fx, L_shl_sat( maxPredictionGain_fx, sub( maxPredictionGain_e, maxPredGain_e ) ) ) ) /* exp: maxPredGain_e */ + { + maxPredictionGain_fx = maxPredGain_fx; + maxPredictionGain_e = maxPredGain_e; + move32(); + move16(); + } + } + } + } + } + + /* individual decision for each channel */ + FOR( ch = 0; ch < CPE_CHANNELS; ch++ ) + { + IF( EQ_32( sts[ch]->mct_chan_mode, MCT_CHAN_MODE_IGNORE ) ) + { + CONTINUE; + } + + Word8 isTCX10; + + IF( EQ_16( sts[ch]->hTcxEnc->tcxMode, TCX_20 ) ) + { + nSubframes = 1; + isTCX10 = 0; + } + ELSE + { + nSubframes = NB_DIV; + isTCX10 = 1; + } + move16(); + move16(); + + FOR( k = 0; k < nSubframes; k++ ) + { + test(); + test(); + test(); + test(); + IF( sts[ch]->hTcxCfg->fIsTNSAllowed && ( individual_decision[k] || mct_on ) && + ( !bWhitenedDomain || sts[ch]->hTcxEnc->bTnsOnWhithenedSpectra[k] ) ) + { + Word32 maxPredGain_fx = -ONE_IN_Q31; // Q31 + move32(); + Word16 maxPredGain_e = 0; + move16(); + sts[ch]->hTcxCfg->pCurrentTnsConfig = &sts[ch]->hTcxCfg->tnsConfig[sts[ch]->hTcxEnc->transform_type[k] == TCX_20][( k == 0 ) && ( sts[ch]->last_core == ACELP_CORE )]; + + FOR( iFilter = sts[ch]->hTcxCfg->pCurrentTnsConfig->nMaxFilters - 1; iFilter >= 0; iFilter-- ) + { + STnsFilter *pFilter; + struct TnsParameters const *pTnsParameters; + pFilter = sts[ch]->hTcxEnc->tnsData[k].filter + iFilter; + pTnsParameters = sts[ch]->hTcxCfg->pCurrentTnsConfig->pTnsParameters + iFilter; + + // maxPredGain_fx = L_max( maxPredGain_fx, pFilter->predictionGain32 ); + IF( GT_32( pFilter->predictionGain32, L_shl_sat( maxPredGain_fx, sub( maxPredGain_e, pFilter->predictionGain_e ) ) ) ) /* pFilter->predictionGain_e */ + { + maxPredGain_fx = pFilter->predictionGain32; + maxPredGain_e = pFilter->predictionGain_e; + move32(); + move16(); + } + + test(); + IF( GT_32( pFilter->predictionGain32, L_shl_sat( L_deposit_h( pTnsParameters->minPredictionGain ), sub( PRED_GAIN_E, pFilter->predictionGain_e ) ) ) || GT_16( pFilter->avgSqrCoef, pTnsParameters->minAvgSqrCoef ) ) + { + test(); + test(); + IF( sts[ch]->hTcxEnc->tnsData[k].nFilters > 0 || isTCX10 || LT_16( sts[ch]->hTcxEnc->tcxltp_gain, 19660 /*.6f in Q15*/ ) ) + { + sts[ch]->hTcxEnc->tnsData[k].nFilters = add( sts[ch]->hTcxEnc->tnsData[k].nFilters, 1 ); + move16(); + /* When order parameter is evaluated as 0 and change in precision causes the flow to reach here, + this may result in crash later. Changing the filter type here so the order is taken here in further section */ + IF( pFilter->order != 0 ) + { + pFilter->filterType = TNS_FILTER_ON; + move16(); + } + ELSE + { + pFilter->filterType = TNS_FILTER_ON_ZERO; + move16(); + } + } + ELSE + { + Word16 maxEnergyChange_fx = GetTCXMaxenergyChange_ivas_fx( sts[ch]->hTranDet, isTCX10, NSUBBLOCKS, 3 ); + + IF( GE_16( maxEnergyChange_fx, shl( pTnsParameters->minEnergyChange, Q3 - Q7 ) ) ) + { + sts[ch]->hTcxEnc->tnsData[k].nFilters = add( sts[ch]->hTcxEnc->tnsData[k].nFilters, 1 ); + move16(); + /* When order parameter is evaluated as 0 and change in precision causes the flow to reach here, + this may result in crash later. Changing the filter type here so the order is taken here in further section */ + IF( pFilter->order != 0 ) + { + pFilter->filterType = TNS_FILTER_ON; + move16(); + } + ELSE + { + pFilter->filterType = TNS_FILTER_ON_ZERO; + move16(); + } + } + ELSE + { + pFilter->filterType = TNS_FILTER_OFF; + move16(); + } + } + } + ELSE IF( sts[ch]->hTcxEnc->tnsData[k].nFilters > 0 ) /* If a previous filter is turned on */ + { + pFilter->filterType = TNS_FILTER_ON_ZERO; + move16(); + sts[ch]->hTcxEnc->tnsData[k].nFilters = add( sts[ch]->hTcxEnc->tnsData[k].nFilters, 1 ); + move16(); + } + ELSE + { + pFilter->filterType = TNS_FILTER_OFF; + move16(); + } + } + + sts[ch]->hTcxEnc->fUseTns[k] = 0; + move16(); + if ( sts[ch]->hTcxEnc->tnsData[k].nFilters > 0 ) + { + sts[ch]->hTcxEnc->fUseTns[k] = 1; + move16(); + } + + test(); + test(); + IF( !bWhitenedDomain && LT_32( L_shl_sat( maxPredGain_fx, sub( maxPredGain_e, PRED_GAIN_E ) ), TNS_GAIN_THRESHOLD_FOR_WHITE_FX_IN_Q23 ) && NE_16( sts[ch]->hTcxEnc->transform_type[k], TCX_5 ) ) + { + sts[ch]->hTcxEnc->fUseTns[k] = 0; + move16(); + sts[ch]->hTcxEnc->bTnsOnWhithenedSpectra[k] = 1; + move16(); + sts[ch]->hTcxEnc->tnsData[k].nFilters = 0; + move16(); + FOR( iFilter = sts[ch]->hTcxCfg->pCurrentTnsConfig->nMaxFilters - 1; iFilter >= 0; iFilter-- ) + { + ClearTnsFilterCoefficients( sts[ch]->hTcxEnc->tnsData[k].filter + iFilter ); + sts[ch]->hTcxEnc->tnsData[k].filter[iFilter].filterType = TNS_FILTER_OFF; + move16(); + } + } + + // maxPredictionGain_fx = L_max( maxPredictionGain_fx, maxPredGain_fx ); + IF( GT_32( maxPredGain_fx, L_shl_sat( maxPredictionGain_fx, sub( maxPredictionGain_e, maxPredGain_e ) ) ) ) /* maxPredGain_e */ + { + maxPredictionGain_fx = maxPredGain_fx; + maxPredictionGain_e = maxPredGain_e; + move32(); + move16(); + } + } + } + } + + + /* we have the decision, set filter data accordingly */ + FOR( ch = 0; ch < CPE_CHANNELS; ch++ ) + { + IF( EQ_16( sts[ch]->mct_chan_mode, MCT_CHAN_MODE_IGNORE ) ) + { + CONTINUE; + } + + IF( EQ_16( sts[ch]->hTcxEnc->tcxMode, TCX_20 ) ) + { + nSubframes = 1; + } + ELSE + { + nSubframes = NB_DIV; + } + move16(); + FOR( k = 0; k < nSubframes; k++ ) + { + test(); + test(); + IF( sts[ch]->hTcxCfg->fIsTNSAllowed && ( !bWhitenedDomain || sts[ch]->hTcxEnc->bTnsOnWhithenedSpectra[k] ) ) + { + sts[ch]->hTcxCfg->pCurrentTnsConfig = &sts[ch]->hTcxCfg->tnsConfig[sts[ch]->hTcxEnc->transform_type[k] == TCX_20][( k == 0 ) && ( sts[ch]->last_core == ACELP_CORE )]; + + FOR( iFilter = sts[ch]->hTcxCfg->pCurrentTnsConfig->nMaxFilters - 1; iFilter >= 0; iFilter-- ) + { + STnsFilter *pFilter; + pFilter = sts[ch]->hTcxEnc->tnsData[k].filter + iFilter; + SWITCH( pFilter->filterType ) + { + case TNS_FILTER_OFF: + ClearTnsFilterCoefficients( sts[ch]->hTcxEnc->tnsData[k].filter + iFilter ); + BREAK; + case TNS_FILTER_ON_ZERO: + /* Since TNS filter of order 0 is not allowed we have to signal in the stream filter of order 1 with the 0th coefficient equal to 0 */ + ClearTnsFilterCoefficients( pFilter ); + pFilter->order = 1; + move16(); + BREAK; + } + } + } + } + } + + /* Apply filters, loop over channels */ + FOR( ch = 0; ch < CPE_CHANNELS; ch++ ) + { + st = sts[ch]; + IF( EQ_32( st->mct_chan_mode, MCT_CHAN_MODE_IGNORE ) ) + { + CONTINUE; + } + + IF( EQ_16( st->hTcxEnc->tcxMode, TCX_20 ) ) + { + nSubframes = 1; + } + ELSE + { + nSubframes = NB_DIV; + } + move16(); + + FOR( k = 0; k < nSubframes; k++ ) + { + test(); + test(); + test(); + test(); + test(); + IF( bWhitenedDomain && ( ch > 0 ) && /* test for identical TNS filter data in both channels */ + sts[0]->hTcxCfg->fIsTNSAllowed && sts[0]->hTcxEnc->fUseTns[k] && + sts[1]->hTcxCfg->fIsTNSAllowed && sts[1]->hTcxEnc->fUseTns[k] ) + { + Word16 equalFilterData = 0; + move16(); + test(); + test(); + if ( EQ_16( sts[0]->hTcxCfg->pCurrentTnsConfig->nMaxFilters, sts[1]->hTcxCfg->pCurrentTnsConfig->nMaxFilters ) && + EQ_16( sts[0]->hTcxEnc->bTnsOnWhithenedSpectra[k], sts[1]->hTcxEnc->bTnsOnWhithenedSpectra[k] ) && + EQ_16( sts[0]->hTcxEnc->tnsData[k].nFilters, sts[1]->hTcxEnc->tnsData[k].nFilters ) ) + { + equalFilterData = 1; + move16(); + } + + IF( equalFilterData ) + { + FOR( iFilter = st->hTcxCfg->pCurrentTnsConfig->nMaxFilters - 1; iFilter >= 0; iFilter-- ) + { + const Word16 *pDataCh0 = (const Word16 *) &sts[0]->hTcxEnc->tnsData[k].filter[iFilter]; + const Word16 *pDataCh1 = (const Word16 *) &sts[1]->hTcxEnc->tnsData[k].filter[iFilter]; + Word16 i = 2 + TNS_MAX_FILTER_ORDER; /* excl. informative float data. Portable? */ + + move16(); + test(); + WHILE( ( i >= 0 ) && EQ_16( pDataCh0[i], pDataCh1[i] ) ) + { + test(); + i = sub( i, 1 ); + } + IF( i >= 0 ) + { + equalFilterData = 0; + move16(); + BREAK; + } + } + IF( equalFilterData ) + { + st->hTcxEnc->tnsData[k].nFilters = i_mult( st->hTcxEnc->tnsData[k].nFilters, -1 ); /* signals common TNS */ + move16(); + } + } + } + test(); + test(); + IF( st->hTcxCfg->fIsTNSAllowed && ( !bWhitenedDomain || st->hTcxEnc->bTnsOnWhithenedSpectra[k] ) ) + { + L_spec = st->hTcxCfg->pCurrentTnsConfig->iFilterBorders[0]; + move16(); + spectrum_fx = st->hTcxEnc->spectrum_fx[k]; + /* If TNS should be used then get the residual after applying it inplace in the spectrum */ + IF( st->hTcxEnc->fUseTns[k] ) + { + st->hTcxCfg->pCurrentTnsConfig = &st->hTcxCfg->tnsConfig[st->hTcxEnc->transform_type[k] == TCX_20][( k == 0 ) && ( st->last_core == ACELP_CORE )]; + + ApplyTnsFilter( st->hTcxCfg->pCurrentTnsConfig, &st->hTcxEnc->tnsData[k], spectrum_fx, 1 ); + } + + IF( EQ_16( st->hTcxEnc->transform_type[k], TCX_5 ) ) + { + tcx5TnsUngrouping_fx( shr( L_frame, 2 ), shr( L_spec, 1 ), st->hTcxEnc->spectrum_fx[k], ENC ); + } + + st->hTcxEnc->tnsData[k].tnsOnWhitenedSpectra = st->hTcxEnc->bTnsOnWhithenedSpectra[k]; + move16(); + EncodeTnsData_ivas_fx( st->hTcxCfg->pCurrentTnsConfig, &st->hTcxEnc->tnsData[k], param_core[ch] + k * NPRM_DIV + 1 + NOISE_FILL_RANGES + LTPSIZE, tnsSize[ch] + k, tnsBits[ch] + k ); + } + + IF( EQ_16( st->hTcxEnc->transform_type[k], TCX_5 ) ) + { + tcx5SpectrumInterleaving_fx( st->hTcxCfg->tcx5SizeFB, st->hTcxEnc->spectrum_fx[k] ); + tcx5SpectrumInterleaving_fx( st->hTcxCfg->tcx5SizeFB, mdst_spectrum_fx[ch][k] ); + } + } + } + return; +} diff --git a/lib_enc/cod_uv.c b/lib_enc/cod_uv.c deleted file mode 100644 index 9e7ce955844554794434881de1f04317bb321cd3..0000000000000000000000000000000000000000 --- a/lib_enc/cod_uv.c +++ /dev/null @@ -1,40 +0,0 @@ -/****************************************************************************************************** - - (C) 2022-2025 IVAS codec Public Collaboration with portions copyright Dolby International AB, Ericsson AB, - Fraunhofer-Gesellschaft zur Foerderung der angewandten Forschung e.V., Huawei Technologies Co. LTD., - Koninklijke Philips N.V., Nippon Telegraph and Telephone Corporation, Nokia Technologies Oy, Orange, - Panasonic Holdings Corporation, Qualcomm Technologies, Inc., VoiceAge Corporation, and other - contributors to this repository. All Rights Reserved. - - This software is protected by copyright law and by international treaties. - The IVAS codec Public Collaboration consisting of Dolby International AB, Ericsson AB, - Fraunhofer-Gesellschaft zur Foerderung der angewandten Forschung e.V., Huawei Technologies Co. LTD., - Koninklijke Philips N.V., Nippon Telegraph and Telephone Corporation, Nokia Technologies Oy, Orange, - Panasonic Holdings Corporation, Qualcomm Technologies, Inc., VoiceAge Corporation, and other - contributors to this repository retain full ownership rights in their respective contributions in - the software. This notice grants no license of any kind, including but not limited to patent - license, nor is any license granted by implication, estoppel or otherwise. - - Contributors are required to enter into the IVAS codec Public Collaboration agreement before making - contributions. - - This software is provided "AS IS", without any express or implied warranties. The software is in the - development stage. It is intended exclusively for experts who have experience with such software and - solely for the purpose of inspection. All implied warranties of non-infringement, merchantability - and fitness for a particular purpose are hereby disclaimed and excluded. - - Any dispute, controversy or claim arising under or in relation to providing this software shall be - submitted to and settled by the final, binding jurisdiction of the courts of Munich, Germany in - accordance with the laws of the Federal Republic of Germany excluding its conflict of law rules and - the United Nations Convention on Contracts on the International Sales of Goods. - -*******************************************************************************************************/ - -/*==================================================================================== - EVS Codec 3GPP TS26.443 Nov 04, 2021. Version 12.14.0 / 13.10.0 / 14.6.0 / 15.4.0 / 16.3.0 - ====================================================================================*/ - -#include -#include "options.h" -#include "prot.h" -#include "wmc_auto.h" diff --git a/lib_enc/cod_uv_fx.c b/lib_enc/cod_uv_fx.c index 8eccddc0b822eb5eaba77b68f5eba4f6f1cc3411..8b1e8a1446925ded36467c3c76af609ce3066edf 100644 --- a/lib_enc/cod_uv_fx.c +++ b/lib_enc/cod_uv_fx.c @@ -135,7 +135,6 @@ void gauss_L2_ivas_fx( *gain = L_deposit_l( 0 ); move32(); /*Update correlations for gains coding */ -#ifdef FIX_ISSUE_1167 tmp32 = L_shr( 21474836l /*0.01f Q31*/, 31 - 16 ); /* Q16 */ tmp32_2 = L_shr( 21474836l /*0.01f Q31*/, 31 - 16 ); /* Q16 */ FOR( i = 0; i < L_SUBFR; i++ ) @@ -144,34 +143,17 @@ void gauss_L2_ivas_fx( tmp32 = L_mac0( tmp32, tmp16, tmp16 ); /* Q16 */ tmp32_2 = L_mac0( tmp32_2, tmp16, shr( y2[i], 1 ) ); /* Q16 */ } -#else - tmp32 = L_shr( 21474836l /*0.01f Q31*/, 31 - 18 ); /* Q18 */ - tmp32_2 = L_shr( 21474836l /*0.01f Q31*/, 31 - 18 ); /* Q18 */ - FOR( i = 0; i < L_SUBFR; i++ ) - { - tmp32 = L_mac0( tmp32, y11[i], y11[i] ); /* Q18 */ - tmp32_2 = L_mac0( tmp32_2, y11[i], y2[i] ); /* Q18 */ - } -#endif tmp16 = norm_l( tmp32 ); // To be checked g_corr->y1y1 = round_fx_sat( L_shl( tmp32, tmp16 ) ); -#ifdef FIX_ISSUE_1167 g_corr->y1y1_e = sub( 31 - 16, tmp16 ); -#else - g_corr->y1y1_e = sub( 31 - 18, tmp16 ); -#endif move16(); move16(); tmp16 = norm_l( tmp32_2 ); g_corr->y1y2 = round_fx_sat( L_shl( tmp32_2, tmp16 ) ); -#ifdef FIX_ISSUE_1167 g_corr->y1y2_e = sub( 31 - 16, tmp16 ); -#else - g_corr->y1y2_e = sub( 31 - 18, tmp16 ); -#endif move16(); move16(); } diff --git a/lib_enc/comvad_decision.c b/lib_enc/comvad_decision.c deleted file mode 100644 index efb9c1d789381c50f813704f56c5b207b055d790..0000000000000000000000000000000000000000 --- a/lib_enc/comvad_decision.c +++ /dev/null @@ -1,41 +0,0 @@ -/****************************************************************************************************** - - (C) 2022-2025 IVAS codec Public Collaboration with portions copyright Dolby International AB, Ericsson AB, - Fraunhofer-Gesellschaft zur Foerderung der angewandten Forschung e.V., Huawei Technologies Co. LTD., - Koninklijke Philips N.V., Nippon Telegraph and Telephone Corporation, Nokia Technologies Oy, Orange, - Panasonic Holdings Corporation, Qualcomm Technologies, Inc., VoiceAge Corporation, and other - contributors to this repository. All Rights Reserved. - - This software is protected by copyright law and by international treaties. - The IVAS codec Public Collaboration consisting of Dolby International AB, Ericsson AB, - Fraunhofer-Gesellschaft zur Foerderung der angewandten Forschung e.V., Huawei Technologies Co. LTD., - Koninklijke Philips N.V., Nippon Telegraph and Telephone Corporation, Nokia Technologies Oy, Orange, - Panasonic Holdings Corporation, Qualcomm Technologies, Inc., VoiceAge Corporation, and other - contributors to this repository retain full ownership rights in their respective contributions in - the software. This notice grants no license of any kind, including but not limited to patent - license, nor is any license granted by implication, estoppel or otherwise. - - Contributors are required to enter into the IVAS codec Public Collaboration agreement before making - contributions. - - This software is provided "AS IS", without any express or implied warranties. The software is in the - development stage. It is intended exclusively for experts who have experience with such software and - solely for the purpose of inspection. All implied warranties of non-infringement, merchantability - and fitness for a particular purpose are hereby disclaimed and excluded. - - Any dispute, controversy or claim arising under or in relation to providing this software shall be - submitted to and settled by the final, binding jurisdiction of the courts of Munich, Germany in - accordance with the laws of the Federal Republic of Germany excluding its conflict of law rules and - the United Nations Convention on Contracts on the International Sales of Goods. - -*******************************************************************************************************/ - -/*==================================================================================== - EVS Codec 3GPP TS26.443 Nov 04, 2021. Version 12.14.0 / 13.10.0 / 14.6.0 / 15.4.0 / 16.3.0 - ====================================================================================*/ - -#include -#include "options.h" -#include "prot.h" -#include "rom_enc.h" -#include "wmc_auto.h" diff --git a/lib_enc/cor_shif.c b/lib_enc/cor_shif.c deleted file mode 100644 index 0e2004abf2b74fc291df1fafb1f856b731c8e611..0000000000000000000000000000000000000000 --- a/lib_enc/cor_shif.c +++ /dev/null @@ -1,41 +0,0 @@ -/****************************************************************************************************** - - (C) 2022-2025 IVAS codec Public Collaboration with portions copyright Dolby International AB, Ericsson AB, - Fraunhofer-Gesellschaft zur Foerderung der angewandten Forschung e.V., Huawei Technologies Co. LTD., - Koninklijke Philips N.V., Nippon Telegraph and Telephone Corporation, Nokia Technologies Oy, Orange, - Panasonic Holdings Corporation, Qualcomm Technologies, Inc., VoiceAge Corporation, and other - contributors to this repository. All Rights Reserved. - - This software is protected by copyright law and by international treaties. - The IVAS codec Public Collaboration consisting of Dolby International AB, Ericsson AB, - Fraunhofer-Gesellschaft zur Foerderung der angewandten Forschung e.V., Huawei Technologies Co. LTD., - Koninklijke Philips N.V., Nippon Telegraph and Telephone Corporation, Nokia Technologies Oy, Orange, - Panasonic Holdings Corporation, Qualcomm Technologies, Inc., VoiceAge Corporation, and other - contributors to this repository retain full ownership rights in their respective contributions in - the software. This notice grants no license of any kind, including but not limited to patent - license, nor is any license granted by implication, estoppel or otherwise. - - Contributors are required to enter into the IVAS codec Public Collaboration agreement before making - contributions. - - This software is provided "AS IS", without any express or implied warranties. The software is in the - development stage. It is intended exclusively for experts who have experience with such software and - solely for the purpose of inspection. All implied warranties of non-infringement, merchantability - and fitness for a particular purpose are hereby disclaimed and excluded. - - Any dispute, controversy or claim arising under or in relation to providing this software shall be - submitted to and settled by the final, binding jurisdiction of the courts of Munich, Germany in - accordance with the laws of the Federal Republic of Germany excluding its conflict of law rules and - the United Nations Convention on Contracts on the International Sales of Goods. - -*******************************************************************************************************/ - -/*==================================================================================== - EVS Codec 3GPP TS26.443 Nov 04, 2021. Version 12.14.0 / 13.10.0 / 14.6.0 / 15.4.0 / 16.3.0 - ====================================================================================*/ - -#include -#include "options.h" -#include -#include "prot.h" -#include "wmc_auto.h" diff --git a/lib_enc/core_enc_2div.c b/lib_enc/core_enc_2div.c deleted file mode 100644 index c899b52ff72d3d5658f135f34e7730d22f0987de..0000000000000000000000000000000000000000 --- a/lib_enc/core_enc_2div.c +++ /dev/null @@ -1,42 +0,0 @@ -/****************************************************************************************************** - - (C) 2022-2025 IVAS codec Public Collaboration with portions copyright Dolby International AB, Ericsson AB, - Fraunhofer-Gesellschaft zur Foerderung der angewandten Forschung e.V., Huawei Technologies Co. LTD., - Koninklijke Philips N.V., Nippon Telegraph and Telephone Corporation, Nokia Technologies Oy, Orange, - Panasonic Holdings Corporation, Qualcomm Technologies, Inc., VoiceAge Corporation, and other - contributors to this repository. All Rights Reserved. - - This software is protected by copyright law and by international treaties. - The IVAS codec Public Collaboration consisting of Dolby International AB, Ericsson AB, - Fraunhofer-Gesellschaft zur Foerderung der angewandten Forschung e.V., Huawei Technologies Co. LTD., - Koninklijke Philips N.V., Nippon Telegraph and Telephone Corporation, Nokia Technologies Oy, Orange, - Panasonic Holdings Corporation, Qualcomm Technologies, Inc., VoiceAge Corporation, and other - contributors to this repository retain full ownership rights in their respective contributions in - the software. This notice grants no license of any kind, including but not limited to patent - license, nor is any license granted by implication, estoppel or otherwise. - - Contributors are required to enter into the IVAS codec Public Collaboration agreement before making - contributions. - - This software is provided "AS IS", without any express or implied warranties. The software is in the - development stage. It is intended exclusively for experts who have experience with such software and - solely for the purpose of inspection. All implied warranties of non-infringement, merchantability - and fitness for a particular purpose are hereby disclaimed and excluded. - - Any dispute, controversy or claim arising under or in relation to providing this software shall be - submitted to and settled by the final, binding jurisdiction of the courts of Munich, Germany in - accordance with the laws of the Federal Republic of Germany excluding its conflict of law rules and - the United Nations Convention on Contracts on the International Sales of Goods. - -*******************************************************************************************************/ - -/*==================================================================================== - EVS Codec 3GPP TS26.443 Nov 04, 2021. Version 12.14.0 / 13.10.0 / 14.6.0 / 15.4.0 / 16.3.0 - ====================================================================================*/ - -#include -#include "options.h" -#include "cnst.h" -#include "prot.h" -#include "rom_com.h" -#include "wmc_auto.h" diff --git a/lib_enc/core_enc_init.c b/lib_enc/core_enc_init.c deleted file mode 100644 index b0a1c880eec8cc1dd81c9ce0619c9712f124db62..0000000000000000000000000000000000000000 --- a/lib_enc/core_enc_init.c +++ /dev/null @@ -1,1055 +0,0 @@ -/****************************************************************************************************** - - (C) 2022-2025 IVAS codec Public Collaboration with portions copyright Dolby International AB, Ericsson AB, - Fraunhofer-Gesellschaft zur Foerderung der angewandten Forschung e.V., Huawei Technologies Co. LTD., - Koninklijke Philips N.V., Nippon Telegraph and Telephone Corporation, Nokia Technologies Oy, Orange, - Panasonic Holdings Corporation, Qualcomm Technologies, Inc., VoiceAge Corporation, and other - contributors to this repository. All Rights Reserved. - - This software is protected by copyright law and by international treaties. - The IVAS codec Public Collaboration consisting of Dolby International AB, Ericsson AB, - Fraunhofer-Gesellschaft zur Foerderung der angewandten Forschung e.V., Huawei Technologies Co. LTD., - Koninklijke Philips N.V., Nippon Telegraph and Telephone Corporation, Nokia Technologies Oy, Orange, - Panasonic Holdings Corporation, Qualcomm Technologies, Inc., VoiceAge Corporation, and other - contributors to this repository retain full ownership rights in their respective contributions in - the software. This notice grants no license of any kind, including but not limited to patent - license, nor is any license granted by implication, estoppel or otherwise. - - Contributors are required to enter into the IVAS codec Public Collaboration agreement before making - contributions. - - This software is provided "AS IS", without any express or implied warranties. The software is in the - development stage. It is intended exclusively for experts who have experience with such software and - solely for the purpose of inspection. All implied warranties of non-infringement, merchantability - and fitness for a particular purpose are hereby disclaimed and excluded. - - Any dispute, controversy or claim arising under or in relation to providing this software shall be - submitted to and settled by the final, binding jurisdiction of the courts of Munich, Germany in - accordance with the laws of the Federal Republic of Germany excluding its conflict of law rules and - the United Nations Convention on Contracts on the International Sales of Goods. - -*******************************************************************************************************/ - -/*==================================================================================== - EVS Codec 3GPP TS26.443 Nov 04, 2021. Version 12.14.0 / 13.10.0 / 14.6.0 / 15.4.0 / 16.3.0 - ====================================================================================*/ - -#include -#include "options.h" -#include "options_warnings.h" -#include "cnst.h" -#include "prot.h" -#include "ivas_prot.h" -#include "rom_com.h" -#include "wmc_auto.h" -#include "prot_fx.h" -#include "prot_fx_enc.h" - -#include "prot_fx.h" - -/*-----------------------------------------------------------------------* - * Local function prototypes - *-----------------------------------------------------------------------*/ -static void init_tcx_ivas_fx( Encoder_State *st, const Word16 L_frame_old, const Word32 total_brate, const Word32 last_total_brate, const Word16 MCT_flag ); -static void init_core_sig_ana_ivas_fx( Encoder_State *st ); -static void init_modes_ivas_fx( Encoder_State *st, const Word32 last_total_brate ); -static void init_sig_buffers_ivas_fx( Encoder_State *st, const Word16 L_frame_old, const Word16 L_subfr, const int32_t last_total_brate ); -static void init_acelp_ivas_fx( Encoder_State *st, Word16 L_frame_old, Word16 shift, const int32_t last_total_brate ); -/*-----------------------------------------------------------------------* - * init_coder_ace_plus() - * - * Initialization of state variables - *-----------------------------------------------------------------------*/ -void init_coder_ace_plus_ivas_fx( - Encoder_State *st, /* i : Encoder state */ - const Word32 last_total_brate, /* i : last total bitrate */ -#ifdef FIX_920_IGF_INIT_ERROR - const Word32 igf_brate, /* i : IGF configuration bitrate */ -#endif - const Word16 MCT_flag /* i : hMCT handle allocated (1) or not (0) */ -) -{ - TCX_ENC_HANDLE hTcxEnc = st->hTcxEnc; - Word16 L_frame_old; /*keep old frame size for switching */ - Word16 L_subfr; - - /* Bitrate */ - st->tcxonly = getTcxonly_ivas_fx( st->element_mode, st->total_brate, MCT_flag, st->is_ism_format ); - move16(); - - /* Core Sampling Rate */ - st->sr_core = getCoreSamplerateMode2( st->element_mode, st->total_brate, st->bwidth, st->flag_ACELP16k, st->rf_mode, st->is_ism_format ); - st->fscale = sr2fscale_fx( st->sr_core ); - move32(); - move16(); - - /* Narrowband? */ - IF( EQ_16( st->bwidth, NB ) ) - { - st->narrowBand = 1; - move16(); - } - ELSE - { - st->narrowBand = 0; - move16(); - } - - /* Core Framing */ - L_frame_old = st->last_L_frame; - move16(); - st->L_frame = extract_l( Mult_32_16( st->sr_core, 0x0290 ) ); /* 0x0290 is 1/FRAMES_PER_SEC in Q15*/ - move16(); - st->L_frame_past = -1; - move16(); - - IF( hTcxEnc != NULL ) - { - hTcxEnc->L_frameTCX = extract_l( Mult_32_16( st->input_Fs, 0x0290 ) ); /* 0x0290 is 1/FRAMES_PER_SEC in Q15*/ - move16(); - - IF( st->ini_frame == 0 ) - { - set16_fx( hTcxEnc->Txnq, 0, L_FRAME32k / 2 + 64 ); - hTcxEnc->acelp_zir = hTcxEnc->Txnq + L_FRAME / 2; - hTcxEnc->q_Txnq = Q15; - move16(); - hTcxEnc->tcx_target_bits_fac = ONE_IN_Q14; - move16(); - } - } - - test(); - test(); - test(); - test(); - test(); - IF( ( st->element_mode == EVS_MONO && EQ_32( st->L_frame, L_FRAME16k ) && LE_32( st->total_brate, ACELP_32k ) ) || ( st->element_mode > EVS_MONO && EQ_32( st->L_frame, L_FRAME16k ) && LE_32( st->total_brate, MAX_ACELP_BRATE ) ) ) - { - st->nb_subfr = NB_SUBFR16k; - move16(); - } - ELSE - { - st->nb_subfr = NB_SUBFR; - move16(); - } - L_subfr = idiv1616( st->L_frame, st->nb_subfr ); - - /* Core Lookahead */ - st->encoderLookahead_enc = NS2SA_FX2( st->sr_core, ACELP_LOOK_NS ); - st->encoderLookahead_FB = NS2SA_FX2( st->input_Fs, ACELP_LOOK_NS ); - move16(); - move16(); - - IF( st->ini_frame == 0 ) - { - st->acelpFramesCount = 0; - move16(); - st->prevTempFlatness_fx = 128 /*1.0f Q7*/; - move16(); - } - - /* Initialize TBE */ - IF( st->hBWE_TD != NULL ) - { - st->hBWE_TD->prev_coder_type = GENERIC; - move16(); - set16_fx( st->hBWE_TD->prev_lsf_diff_fx, 16384, LPC_SHB_ORDER - 2 ); - st->hBWE_TD->prev_tilt_para_fx = 0; - move16(); - set16_fx( st->hBWE_TD->cur_sub_Aq_fx, 0, M + 1 ); - } - - st->currEnergyHF_fx = 0; - move32(); - st->currEnergyHF_e_fx = 0; - move16(); - test(); - /* Initialize LPC analysis/quantization */ - IF( LE_32( st->sr_core, INT_FS_16k ) && st->tcxonly == 0 ) - { - st->lpcQuantization = 1; - move16(); - } - ELSE - { - st->lpcQuantization = 0; - move16(); - } - - st->next_force_safety_net = 0; - move16(); - test(); - test(); - IF( ( NE_16( st->last_L_frame, st->L_frame ) ) || ( EQ_16( st->last_core, AMR_WB_CORE ) ) || ( EQ_16( st->last_core, HQ_CORE ) ) ) - { - set16_fx( st->mem_MA_fx, 0, M ); - Copy( GEWB_Ave_fx, st->mem_AR_fx, M ); - } - - /* Initialize IGF */ - if ( st->hIGFEnc != NULL ) - { - st->hIGFEnc->infoStopFrequency = -1; - move16(); - } - - test(); - IF( st->igf && st->hIGFEnc != NULL ) - { -#ifdef FIX_920_IGF_INIT_ERROR - IGFEncSetMode_ivas_fx( st->hIGFEnc, igf_brate, st->bwidth, st->element_mode, st->rf_mode ); -#else - IGFEncSetMode_ivas_fx( st->hIGFEnc, st->total_brate, st->bwidth, st->element_mode, st->rf_mode ); -#endif - } - ELSE IF( st->hIGFEnc != NULL ) - { - st->hIGFEnc->infoTotalBitsWritten = 0; - move16(); - st->hIGFEnc->infoTotalBitsPerFrameWritten = 0; - move16(); - } - - /* Initialize Core Signal Analysis Module */ - init_core_sig_ana_ivas_fx( st ); - - - /* Initialize TCX */ - IF( hTcxEnc != NULL ) - { - init_tcx_ivas_fx( st, L_frame_old, st->total_brate, last_total_brate, MCT_flag ); - } - - /* Initialize Signal Buffers */ - init_sig_buffers_ivas_fx( st, L_frame_old, L_subfr, last_total_brate ); - - /* Initialize ACELP */ - - init_acelp_ivas_fx( st, L_frame_old, 0, last_total_brate ); - - if ( st->ini_frame == 0 ) - { - st->tec_tfa = 0; - move16(); - } - - IF( st->hTECEnc != NULL ) - { - resetTecEnc_Fx( st->hTECEnc, st->tec_tfa ); - } - - test(); - test(); - test(); - IF( EQ_16( st->bwidth, SWB ) && ( EQ_32( st->total_brate, ACELP_16k40 ) || EQ_32( st->total_brate, ACELP_24k40 ) ) && st->element_mode == EVS_MONO ) - { - st->tec_tfa = 1; - move16(); - } - ELSE - { - st->tec_tfa = 0; - move16(); - } - - st->tec_flag = 0; - move16(); - st->tfa_flag = 0; - move16(); - - test(); - test(); - test(); - IF( ( EQ_32( st->total_brate, ACELP_9k60 ) || EQ_32( st->total_brate, ACELP_16k40 ) || EQ_32( st->total_brate, ACELP_24k40 ) ) && st->element_mode == EVS_MONO ) - { - st->glr = 1; - move16(); - } - ELSE - { - st->glr = 0; - move16(); - } - - st->glr_reset = 0; - move16(); - - /* Initialize ACELP/TCX Modes */ - init_modes_ivas_fx( st, last_total_brate ); - - /* Adaptive BPF */ - set32_fx( st->mem_bpf_fx1, 0, 2 * L_FILT16k ); - set32_fx( st->mem_error_bpf_fx, 0, 2 * L_FILT16k ); - - IF( st->ini_frame == 0 ) - { - st->Q_max_enc[0] = 15; - move16(); - st->Q_max_enc[1] = 15; - move16(); - } - - IF( GE_32( st->total_brate, HQ_48k ) ) - { - st->enablePlcWaveadjust = 1; - move16(); - } - ELSE - { - st->enablePlcWaveadjust = 0; - move16(); - } - - IF( st->hPlcExt ) - { - init_PLC_enc_fx( st->hPlcExt, st->sr_core ); - } - - st->glr_idx[0] = 0; - move16(); - st->glr_idx[1] = 0; - move16(); - st->mean_gc[0] = 0; - move16(); - st->mean_gc[1] = 0; - move16(); - st->prev_lsf4_mean = 0; - move16(); - st->last_stab_fac = 0; - move16(); - - return; -} - -/*-----------------------------------------------------------------------* - * init_tcx() - * - * Initialization of TCX - *-----------------------------------------------------------------------*/ - - -static void init_tcx_ivas_fx( - Encoder_State *st, - const Word16 L_frame_old, - const Word32 total_brate, - const Word32 last_total_brate, - const Word16 MCT_flag ) -{ - TCX_ENC_HANDLE hTcxEnc = st->hTcxEnc; - - /* Share the memories for 2xTCX10/4xTCX5 and for TCX20 */ - hTcxEnc->spectrum_fx[0] = hTcxEnc->spectrum_long_fx; - hTcxEnc->spectrum_fx[1] = hTcxEnc->spectrum_long_fx + N_TCX10_MAX; - st->hTcxEnc->spectrum_e[0] = st->hTcxEnc->spectrum_e[1] = 0; - move16(); - move16(); - - init_tcx_cfg_ivas_fx( st->hTcxCfg, total_brate, st->sr_core, st->input_Fs, st->L_frame, st->bwidth, hTcxEnc->L_frameTCX, - st->fscale, st->preemph_fac, st->tcxonly, st->rf_mode, st->igf, - st->hIGFEnc != NULL ? st->hIGFEnc->infoStopFrequency : 0, st->element_mode, st->ini_frame, MCT_flag ); - - /* Init TCX target bits correction factor */ - hTcxEnc->tcx_target_bits_fac = 0x4000; /*1.0f in 1Q14*/ - move16(); - hTcxEnc->measuredBwRatio = 0x4000; /*1.0f in 1Q14*/ - move16(); - hTcxEnc->noiseTiltFactor = 9216; /*0.5625f in 1Q14*/ - move16(); - hTcxEnc->noiseLevelMemory_cnt = 0; - move16(); - - set16_fx( hTcxEnc->ltpGainMemory_fx, 0, N_LTP_GAIN_MEMS ); - set8_fx( hTcxEnc->memQuantZeros, 0, L_FRAME_PLUS ); - - /* TCX-LTP */ - hTcxEnc->tcxltp = getTcxLtp( st->sr_core ); - move16(); - - test(); - test(); - test(); - test(); - IF( st->ini_frame == 0 ) - { - hTcxEnc->tcxltp_pitch_int_past = st->L_frame; - hTcxEnc->tcxltp_pitch_fr_past = 0; - hTcxEnc->tcxltp_gain_past = 0; - hTcxEnc->tcxltp_norm_corr_past = 0; - hTcxEnc->tcxltp_norm_corr_mem = 0; - hTcxEnc->kernel_switch_corr_past = 0; - hTcxEnc->kernel_symmetry_past = 0; /* MDCT_IV & 1 */ - hTcxEnc->enc_ste_pre_corr_past = 0; - hTcxEnc->tfm_mem_fx = 1610612736; /* 0.75 in Q31 */ - hTcxEnc->tcxltp_on_mem = 0; - move16(); - move16(); - move16(); - move16(); - move16(); - move16(); - move16(); - move16(); - move16(); - move16(); - } - ELSE IF( NE_16( st->L_frame, L_frame_old ) && !( ( GE_32( total_brate, ACELP_16k40 ) && LE_32( total_brate, ACELP_24k40 ) ) && - ( EQ_32( total_brate, last_total_brate ) ) && ( EQ_16( st->last_bwidth, st->bwidth ) ) ) ) - { - Word16 pitres, pitres_old; - Word16 pit, pit_old; - - pitres_old = 4; - move16(); - if ( EQ_16( 160, shr( L_frame_old, sub( 7, norm_s( L_frame_old ) ) ) ) ) /*if ( L_frame_old%160==0 )*/ - { - pitres_old = 6; - move16(); - } - - /*pit_old = (float)st->tcxltp_pitch_int_past + (float)st->tcxltp_pitch_fr_past/(float)pitres_old;*/ - pit_old = add( hTcxEnc->tcxltp_pitch_int_past, mult_r( hTcxEnc->tcxltp_pitch_fr_past, div_s( 1, pitres_old ) ) ); - - pitres = 4; - move16(); - if ( EQ_16( 160, shr( st->L_frame, sub( 7, norm_s( st->L_frame ) ) ) ) ) /*if ( st->L_frame%160==0 )*/ - { - pitres = 6; - move16(); - } - - /*pit = pit_old * (float)st->L_frame/(float)L_frame_old;*/ - pit = shl_sat( mult_r( pit_old, div_s( st->L_frame, shl( L_frame_old, 2 ) ) ), 2 ); - /* Note : the saturation here that can happens when FS == 32kHz*/ - /* assert(pit <= st->L_frame);*/ - - hTcxEnc->tcxltp_pitch_int_past = pit; - move16(); - hTcxEnc->tcxltp_pitch_fr_past = i_mult2( sub( pit, hTcxEnc->tcxltp_pitch_int_past ), pitres ); - move16(); - } - - hTcxEnc->tcx_lpc_shaped_ari = getTcxLpcShapedAri( st->total_brate, st->rf_mode, st->element_mode ); - move16(); - - return; -} - -/*-----------------------------------------------------------------------* - * init_sig_buffers() - * - * Initialization of signal buffers - *-----------------------------------------------------------------------*/ -/*copy of evs function since it was static */ -static void init_sig_buffers_ivas_fx( Encoder_State *st, const Word16 L_frame_old, const Word16 L_subfr, const int32_t last_total_brate ) -{ - - LPD_state_HANDLE hLPDmem = st->hLPDmem; - TCX_ENC_HANDLE hTcxEnc = st->hTcxEnc; - - /* Encoder Past Samples at encoder-sampling-rate */ - st->encoderPastSamples_enc = shr( imult1616( st->L_frame, 9 ), 4 ); - move16(); - - /* Initialize Signal Buffers and Pointers at encoder-sampling-rate */ - IF( st->ini_frame == 0 ) - { - set16_fx( st->buf_speech_enc, 0, L_PAST_MAX_32k + L_FRAME32k + L_NEXT_MAX_32k ); - st->exp_buf_speech_enc = 0; - move16(); - set16_fx( st->buf_speech_enc_pe, 0, L_PAST_MAX_32k + L_FRAME32k + L_NEXT_MAX_32k ); - st->exp_buf_speech_enc_pe = 0; - move16(); - if ( hTcxEnc != NULL ) - { - set16_fx( hTcxEnc->buf_speech_ltp, 0, L_PAST_MAX_32k + L_FRAME32k + L_NEXT_MAX_32k ); - hTcxEnc->exp_buf_speech_ltp = 0; - move16(); - } - set16_fx( st->buf_wspeech_enc, 0, L_FRAME16k + L_SUBFR + L_FRAME16k + L_NEXT_MAX_16k + 320 ); /* increased by 320 to avoid memory overlap in ivas_find_wsp_fx() and also to accomodate for the wspeech_enc */ - st->exp_buf_wspeech_enc = 0; - move16(); - } - ELSE - { - test(); - test(); - test(); - test(); - test(); - IF( NE_16( st->L_frame, L_frame_old ) && !( ( EQ_32( st->total_brate, ACELP_16k40 ) || EQ_32( st->total_brate, ACELP_24k40 ) ) && ( EQ_32( st->total_brate, last_total_brate ) ) && ( EQ_16( st->last_bwidth, st->bwidth ) ) ) ) - { - lerp( st->buf_speech_enc, st->buf_speech_enc, st->L_frame, L_frame_old ); - test(); - IF( NE_16( st->last_core, TCX_20_CORE ) && NE_16( st->last_core, TCX_10_CORE ) ) /* condition should be checked again */ - { - Copy( st->buf_speech_enc, hTcxEnc->buf_speech_ltp, st->L_frame ); - Scale_sig( hTcxEnc->buf_speech_ltp, st->L_frame, sub( st->exp_buf_speech_enc, s_max( st->exp_buf_speech_enc, hTcxEnc->exp_buf_speech_ltp ) ) ); // Q(15-max(st->exp_buf_speech_enc, hTcxEnc->exp_buf_speech_ltp)) - Scale_sig( hTcxEnc->buf_speech_ltp + st->L_frame, sub( L_PAST_MAX_32k + L_FRAME32k + L_NEXT_MAX_32k, st->L_frame ), sub( hTcxEnc->exp_buf_speech_ltp, s_max( st->exp_buf_speech_enc, hTcxEnc->exp_buf_speech_ltp ) ) ); // Q(15-max(st->exp_buf_speech_enc, hTcxEnc->exp_buf_speech_ltp)) - hTcxEnc->exp_buf_speech_ltp = s_max( hTcxEnc->exp_buf_speech_ltp, st->exp_buf_speech_enc ); - move16(); - } - - // Copy_Scale_sig( st->old_wsp_fx, st->buf_wspeech_enc + st->L_frame + L_SUBFR - L_WSP_MEM, L_WSP_MEM, sub( st->prev_Q_new, st->prev_Q_old ) ); - Copy( st->old_wsp_fx, st->buf_wspeech_enc + st->L_frame + L_SUBFR - L_WSP_MEM, L_WSP_MEM ); - st->exp_buf_wspeech_enc = st->exp_old_wsp; - move16(); - - /*Resamp buffers needed only for ACELP*/ - test(); - test(); - IF( EQ_16( st->L_frame, L_FRAME ) && !st->tcxonly ) - { - // Copy_Scale_sig( st->old_inp_12k8_fx, st->buf_speech_enc_pe + st->L_frame - L_INP_MEM, L_INP_MEM, sub( st->prev_Q_new, st->prev_Q_old ) ); - Copy( st->old_inp_12k8_fx, st->buf_speech_enc_pe + st->L_frame - L_INP_MEM, L_INP_MEM ); - /* SCaling to common exponent*/ - Scale_sig( st->buf_speech_enc_pe + sub( st->L_frame, L_INP_MEM ), L_INP_MEM, sub( st->exp_old_inp_12k8, s_max( st->exp_old_inp_12k8, st->exp_buf_speech_enc_pe ) ) ); // Q(15-max( st->exp_old_inp_12k8, st->exp_buf_speech_enc_pe )) - Scale_sig( st->buf_speech_enc_pe, sub( st->L_frame, L_INP_MEM ), sub( st->exp_buf_speech_enc_pe, s_max( st->exp_old_inp_12k8, st->exp_buf_speech_enc_pe ) ) ); // Q(15-max( st->exp_old_inp_12k8, st->exp_buf_speech_enc_pe )) - Scale_sig( st->buf_speech_enc_pe + st->L_frame, sub( L_PAST_MAX_32k + L_FRAME32k + L_NEXT_MAX_32k, st->L_frame ), sub( st->exp_buf_speech_enc_pe, s_max( st->exp_old_inp_12k8, st->exp_buf_speech_enc_pe ) ) ); // Q(15-max( st->exp_old_inp_12k8, st->exp_buf_speech_enc_pe )) - st->exp_buf_speech_enc_pe = s_max( st->exp_old_inp_12k8, st->exp_buf_speech_enc_pe ); - move16(); - } - ELSE IF( EQ_16( st->L_frame, L_FRAME16k ) && !st->tcxonly ) - { - lerp( st->buf_wspeech_enc + st->L_frame + L_SUBFR - L_WSP_MEM, st->buf_wspeech_enc + st->L_frame + L_SUBFR - 310, 310, L_WSP_MEM ); - Copy( st->old_inp_16k_fx, st->buf_speech_enc_pe + st->L_frame - L_INP_MEM, L_INP_MEM ); - /* SCaling to common exponent*/ - Scale_sig( st->buf_speech_enc_pe + sub( st->L_frame, L_INP_MEM ), L_INP_MEM, sub( st->exp_old_inp_16k, s_max( st->exp_old_inp_16k, st->exp_buf_speech_enc_pe ) ) ); - Scale_sig( st->buf_speech_enc_pe, sub( st->L_frame, L_INP_MEM ), sub( st->exp_buf_speech_enc_pe, s_max( st->exp_old_inp_16k, st->exp_buf_speech_enc_pe ) ) ); - Scale_sig( st->buf_speech_enc_pe + st->L_frame, sub( L_PAST_MAX_32k + L_FRAME32k + L_NEXT_MAX_32k, st->L_frame ), sub( st->exp_buf_speech_enc_pe, s_max( st->exp_old_inp_16k, st->exp_buf_speech_enc_pe ) ) ); - st->exp_buf_speech_enc_pe = s_max( st->exp_old_inp_16k, st->exp_buf_speech_enc_pe ); - move16(); - } - - st->mem_preemph_enc = st->buf_speech_enc[st->encoderPastSamples_enc + st->encoderLookahead_enc - 1]; - move16(); - st->exp_mem_preemph_enc = st->exp_buf_speech_enc; - move16(); - st->mem_wsp_enc = shr( st->buf_wspeech_enc[st->L_frame + L_SUBFR - 1], sub( Q16, st->exp_buf_wspeech_enc ) ); // Q-1 - move16(); - } - /*coming from TCXonly modes*/ - ELSE IF( !st->tcxonly && GE_32( last_total_brate, ACELP_32k ) ) - { - - Copy( st->old_wsp_fx, st->buf_wspeech_enc + st->L_frame + L_SUBFR - L_WSP_MEM, L_WSP_MEM ); - // Copy_Scale_sig( st->old_wsp_fx, st->buf_wspeech_enc + st->L_frame + L_SUBFR - L_WSP_MEM, L_WSP_MEM, sub( st->prev_Q_new, st->prev_Q_old ) ); - st->exp_buf_wspeech_enc = st->exp_old_wsp; - move16(); /*Resamp buffers needed only for ACELP*/ - IF( EQ_16( st->L_frame, L_FRAME16k ) ) - { - lerp( st->buf_wspeech_enc + st->L_frame + L_SUBFR - L_WSP_MEM, st->buf_wspeech_enc + st->L_frame + L_SUBFR - 310, 310, L_WSP_MEM ); - } - hLPDmem->mem_w0 = 0; - move16(); - st->mem_wsp_enc = shr( st->buf_wspeech_enc[st->L_frame + L_SUBFR - 1], sub( Q16, st->exp_buf_wspeech_enc ) ); // Q-1 - move16(); - } - } - - st->new_speech_enc = st->buf_speech_enc + st->encoderPastSamples_enc + st->encoderLookahead_enc; - st->new_speech_enc_pe = st->buf_speech_enc_pe + st->encoderPastSamples_enc + st->encoderLookahead_enc; - if ( hTcxEnc != NULL ) - { - hTcxEnc->new_speech_ltp = hTcxEnc->buf_speech_ltp + st->encoderPastSamples_enc + st->encoderLookahead_enc; - } - - IF( st->hTcxEnc != NULL ) - { - st->hTcxEnc->new_speech_TCX = st->input_buff_fx + Mpy_32_32( st->input_Fs, ONE_BY_FRAMES_PER_SEC_Q31 ); - st->hTcxEnc->speech_TCX = st->hTcxEnc->new_speech_TCX - st->encoderLookahead_FB; - } - st->speech_enc = st->buf_speech_enc + st->encoderPastSamples_enc; - st->speech_enc_pe = st->buf_speech_enc_pe + st->encoderPastSamples_enc; - - if ( hTcxEnc != NULL ) - { - hTcxEnc->speech_ltp = hTcxEnc->buf_speech_ltp + st->encoderPastSamples_enc; - } - - IF( st->element_mode > EVS_MONO ) - { - st->wspeech_enc = st->buf_wspeech_enc + st->L_frame + L_SUBFR; - } - ELSE - { - st->wspeech_enc = st->buf_wspeech_enc + st->L_frame + L_subfr; - } - - test(); - test(); - IF( st->ini_frame == 0 || NE_16( st->L_frame, L_frame_old ) || EQ_16( st->last_codec_mode, MODE1 ) ) - { - set16_fx( st->buf_synth, 0, OLD_SYNTH_SIZE_ENC + L_FRAME32k ); - } - - st->synth = st->buf_synth + st->L_frame + L_subfr; - - - return; -} - -/*-----------------------------------------------------------------------* - * init_core_sig_ana() - * - * - *-----------------------------------------------------------------------*/ -static void init_core_sig_ana_ivas_fx( Encoder_State *st ) -{ - - /* Pre-emphasis factor and memory */ - - st->preemph_fac = PREEMPH_FAC_SWB; /*SWB*/ - move16(); - IF( LT_16( st->fscale, ( 16000 * FSCALE_DENOM ) / 12800 ) ) - { - st->preemph_fac = PREEMPH_FAC; /*WB*/ - move16(); - } - ELSE IF( LT_16( st->fscale, ( 24000 * FSCALE_DENOM ) / 12800 ) ) - { - st->preemph_fac = PREEMPH_FAC_16k; /*WB*/ - move16(); - } - - st->gamma = GAMMA1; - move16(); - st->inv_gamma = GAMMA1_INV; - move16(); - IF( EQ_32( st->sr_core, 16000 ) ) - { - st->gamma = GAMMA16k; - move16(); - st->inv_gamma = GAMMA16k_INV; - move16(); - } - - - st->min_band = 1; - move16(); - st->max_band = 16; - move16(); - - IF( st->narrowBand == 0 ) - { - st->min_band = 0; - move16(); - st->max_band = 19; - move16(); - } - - - return; -} -/*-----------------------------------------------------------------------* - * init_acelp() - * - * - *-----------------------------------------------------------------------*/ -static void init_acelp_ivas_fx( Encoder_State *st, Word16 L_frame_old, Word16 shift, const int32_t last_total_brate ) -{ - Word16 mem_syn_r_size_old; - Word16 mem_syn_r_size_new; - LPD_state_HANDLE hLPDmem = st->hLPDmem; - TCX_ENC_HANDLE hTcxEnc = st->hTcxEnc; - - /* Init pitch lag */ - IF( EQ_16( st->element_mode, IVAS_CPE_MDCT ) ) - { - /* TCX LTP ana always runs @12.8kHz */ - st->pit_res_max = initPitchLagParameters( 12800, &st->pit_min, &st->pit_fr1, &st->pit_fr1b, &st->pit_fr2, &st->pit_max ); - move16(); - } - ELSE - { - st->pit_res_max = initPitchLagParameters( st->sr_core, &st->pit_min, &st->pit_fr1, &st->pit_fr1b, &st->pit_fr2, &st->pit_max ); - move16(); - } - - /* Init LPDmem */ - IF( st->ini_frame == 0 ) - { - IF( hLPDmem != NULL ) - { - set16_fx( hLPDmem->syn, 0, 1 + M ); - set16_fx( hLPDmem->mem_syn_r, 0, L_SYN_MEM ); - } - - IF( st->hTcxEnc != NULL ) - { - set16_fx( st->hTcxEnc->Txnq, 0, L_FRAME32k / 2 + 64 ); - st->hTcxEnc->q_Txnq = Q15; - move16(); - st->hTcxEnc->acelp_zir = st->hTcxEnc->Txnq + shr( st->L_frame, 1 ); - } - } - ELSE /*Rate switching*/ - { - IF( st->last_core == ACELP_CORE ) - { - lerp( hTcxEnc->Txnq, hTcxEnc->Txnq, shr( st->L_frame, 1 ), shr( L_frame_old, 1 ) ); - } - ELSE - { - lerp( hTcxEnc->Txnq, hTcxEnc->Txnq, st->hTcxCfg->tcx_mdct_window_length, st->hTcxCfg->tcx_mdct_window_length_old ); - } - hTcxEnc->acelp_zir = hTcxEnc->Txnq + shr( st->L_frame, 1 ); - - /* Rate switching */ - IF( EQ_16( st->last_codec_mode, MODE1 ) && st->element_mode == EVS_MONO ) - { - IF( hLPDmem != NULL ) - { - Copy( hLPDmem->mem_syn1_fx, hLPDmem->mem_syn2, M ); - set16_fx( hLPDmem->syn, 0, M ); - hLPDmem->q_lpd_syn = Q15; - move16(); - } - IF( st->hTcxEnc != NULL ) - { - set16_fx( hTcxEnc->Txnq, 0, L_FRAME32k / 2 + 64 ); - st->hTcxEnc->q_Txnq = Q15; - move16(); - } - } - - /*AMR-WBIO->MODE2*/ - IF( EQ_16( st->last_core, AMR_WB_CORE ) ) - { - st->next_force_safety_net = 1; - move16(); - st->last_core = ACELP_CORE; - move16(); - } - /*HQ-CORE->MODE2*/ - test(); - IF( EQ_16( st->last_codec_mode, MODE1 ) && EQ_16( st->last_core, HQ_CORE ) ) - { - /*Reset of ACELP memories*/ - st->next_force_safety_net = 1; - move16(); - st->rate_switching_reset = 1; - move16(); - IF( hLPDmem != NULL ) - { - hLPDmem->tilt_code = TILT_CODE; - move16(); - set16_fx( hLPDmem->old_exc, 0, L_EXC_MEM ); - set16_fx( hLPDmem->syn, 0, 1 + M ); - hLPDmem->q_lpd_syn = Q15; - move16(); - hLPDmem->q_lpd_old_exc = Q15; - move16(); - hLPDmem->mem_w0 = 0; - move16(); - set16_fx( hLPDmem->mem_syn, 0, M ); - set16_fx( hLPDmem->mem_syn2, 0, M ); - hLPDmem->q_mem_syn = Q15; - move16(); - } - - /* unquantized LPC*/ - test(); - test(); - test(); - IF( !( ( GE_32( st->total_brate, ACELP_16k40 ) && LE_32( st->total_brate, ACELP_24k40 ) ) && ( EQ_32( st->total_brate, last_total_brate ) ) && ( EQ_16( st->last_bwidth, st->bwidth ) ) ) ) - { - Copy( st->lsp_old1_fx, st->lspold_enc_fx, M ); /*lsp old @12.8kHz*/ - IF( EQ_16( st->L_frame, L_FRAME16k ) ) - { - lsp_convert_poly_fx( st->lspold_enc_fx, st->L_frame, 0 ); - } - } - Copy( st->lspold_enc_fx, st->lsp_old_fx, M ); /*used unquantized values for mid-LSF Q*/ - IF( st->tcxonly == 0 ) - { - lsp2lsf_fx( st->lsp_old_fx, st->lsf_old_fx, M, st->sr_core ); - } - ELSE - { - E_LPC_lsp_lsf_conversion( st->lsp_old_fx, st->lsf_old_fx, M ); - } - st->last_core = TCX_20_CORE; - move16(); - - st->hTcxCfg->last_aldo = 1; /*It was previously ALDO*/ - st->hTcxCfg->tcx_curr_overlap_mode = ALDO_WINDOW; - move16(); - move16(); - /*ALDO overlap windowed past: also used in MODE1 but for other MDCT-FB*/ - set16_fx( hTcxEnc->old_out_fx, 0, st->L_frame ); - } - ELSE - { - test(); - test(); - test(); - test(); - IF( ( NE_16( st->L_frame, L_frame_old ) ) && ( LE_16( st->L_frame, L_FRAME16k ) ) && ( LE_16( L_frame_old, L_FRAME16k ) ) ) - { - /* convert quantized LSP vector */ - st->rate_switching_reset = lsp_convert_poly_fx( st->lsp_old_fx, st->L_frame, 0 ); - move16(); - IF( st->tcxonly == 0 ) - { - lsp2lsf_fx( st->lsp_old_fx, st->lsf_old_fx, M, st->sr_core ); - } - ELSE - { - E_LPC_lsp_lsf_conversion( st->lsp_old_fx, st->lsf_old_fx, M ); - } - IF( EQ_16( st->L_frame, L_FRAME16k ) ) - { - Copy( st->lsp_old_fx, st->lspold_enc_fx, M ); - } - ELSE - { - Copy( st->lsp_old1_fx, st->lspold_enc_fx, M ); - } - - - /*Mem of deemphasis stay unchanged : hLPDmem->syn*/ - IF( hLPDmem != NULL ) - { - synth_mem_updt2( st->L_frame, st->last_L_frame, hLPDmem->old_exc, hLPDmem->mem_syn_r, hLPDmem->mem_syn2, hLPDmem->mem_syn, ENC ); - Word16 tmp, A[M + 1], Ap[M + 1], tmp_buf[M + 1]; - /* Update wsyn */ - /* lsp2a_stab( st->lsp_old, A, M ); */ - E_LPC_f_lsp_a_conversion( st->lsp_old_fx, A, M ); - weight_a_fx( A, Ap, GAMMA1, M ); - tmp = 0; - move16(); - tmp_buf[0] = 0; - move16(); - Copy( hLPDmem->mem_syn2, tmp_buf + 1, M ); - deemph_fx( tmp_buf + 1, st->preemph_fac, M, &tmp ); - Residu3_fx( Ap, tmp_buf + M, &tmp, 1, 1 ); - hLPDmem->mem_w0 = sub_sat( shr_sat( st->wspeech_enc[-1], shift ), tmp ); - move16(); - } - } - ELSE IF( ( NE_16( st->L_frame, L_frame_old ) ) ) - { - /*Partial reset of ACELP memories*/ - st->next_force_safety_net = 1; - move16(); - st->rate_switching_reset = 1; - move16(); - - /*reset partly some memories*/ - IF( hLPDmem != NULL ) - { - hLPDmem->tilt_code = TILT_CODE; - move16(); - set16_fx( hLPDmem->old_exc, 0, L_EXC_MEM ); - move16(); - hLPDmem->q_lpd_old_exc = Q15; - move16(); - /*Resamp others memories*/ - /*Size of LPC syn memory*/ - /* 1.25/20.0 = 1.0/16.0 -> shift 4 to the right. */ - mem_syn_r_size_old = shr( L_frame_old, 4 ); - mem_syn_r_size_new = shr( st->L_frame, 4 ); - - lerp( hLPDmem->mem_syn_r + L_SYN_MEM - mem_syn_r_size_old, hLPDmem->mem_syn_r + L_SYN_MEM - mem_syn_r_size_new, mem_syn_r_size_new, mem_syn_r_size_old ); - Copy( hLPDmem->mem_syn_r + L_SYN_MEM - M, hLPDmem->mem_syn, M ); - Copy( hLPDmem->mem_syn, hLPDmem->mem_syn2, M ); - - /*Untouched memories : hLPDmem->syn & hLPDmem->mem_w0*/ - hLPDmem->mem_w0 = 0; - move16(); - } - /* unquantized LPC*/ - Copy( st->lsp_old1_fx, st->lspold_enc_fx, M ); /*lsp old @12.8kHz*/ - IF( EQ_16( st->L_frame, L_FRAME16k ) ) - { - lsp_convert_poly_fx( st->lspold_enc_fx, st->L_frame, 0 ); - } - Copy( st->lspold_enc_fx, st->lsp_old_fx, M ); /*used unquantized values for mid-LSF Q*/ - IF( st->tcxonly == 0 ) - { - lsp2lsf_fx( st->lsp_old_fx, st->lsf_old_fx, M, st->sr_core ); - } - ELSE - { - E_LPC_lsp_lsf_conversion( st->lsp_old_fx, st->lsf_old_fx, M ); - } - } - ELSE IF( !st->tcxonly && EQ_16( st->L_frame, L_FRAME16k ) && GT_32( st->last_total_brate, ACELP_32k ) ) - { - lsp2lsf_fx( st->lsp_old_fx, st->lsf_old_fx, M, st->sr_core ); - } - } - } - - test(); - test(); - if ( EQ_16( st->last_bwidth, NB ) && NE_16( st->bwidth, NB ) && st->ini_frame != 0 ) - { - st->rate_switching_reset = 1; - move16(); - } - - /* Post-processing */ - /*EVS specific*/ - /* hLPDmem->dm_fx.prev_gain_code = L_deposit_l( 0 ); - set16_fx( hLPDmem->dm_fx.prev_gain_pit, 0, 6 ); - hLPDmem->dm_fx.prev_state = 0;*/ - /*------------*/ - - if ( hLPDmem != NULL ) - { - hLPDmem->dm_fx.prev_state = 0; - move16(); /* This corresponds to st_fx->dispMem in FLP */ - hLPDmem->dm_fx.prev_gain_code = 0; - move32(); - - FOR( Word16 i = 2; i < 8; i++ ) - { - hLPDmem->dm_fx.prev_gain_pit[i - 2] = 0; - move16(); - } - hLPDmem->gc_threshold = 0; - move16(); - } - - /* Pulse Search configuration */ - st->acelp_autocorr = 1; - move16(); - - /*Use for 12.8 kHz sampling rate and low bitrates, the conventional pulse search->better SNR*/ - test(); - test(); - if ( ( LE_32( st->total_brate, ACELP_9k60 ) || EQ_16( st->rf_mode, 1 ) ) && ( EQ_32( st->sr_core, 12800 ) ) ) - { - st->acelp_autocorr = 0; - move16(); - } - - - /*BPF parameters for adjusting gain in function of background noise*/ - IF( EQ_16( st->codec_mode, MODE2 ) ) - { - st->mem_bpf_fx.lp_error_ener = L_deposit_l( 0 ); - move32(); - st->pst_lp_ener_fx = 0; - move16(); - IF( EQ_16( st->last_codec_mode, MODE1 ) ) - { - st->mem_bpf_fx.lp_error = 0; - move32(); - st->pst_mem_deemp_err_fx = 0; - move16(); - } - } - - return; -} -/*-----------------------------------------------------------------------* - * init_modes() - * - * - *-----------------------------------------------------------------------*/ - -static void init_modes_ivas_fx( - Encoder_State *st, - const Word32 last_total_brate ) -{ - Word8 n; - Word32 tmp32; - TCX_ENC_HANDLE hTcxEnc = st->hTcxEnc; - - /* Restrict ACE/TCX20/TCX10 mode */ - move16(); - st->restrictedMode = getRestrictedMode( st->element_mode, st->total_brate, st->Opt_AMR_WB ); - move16(); - st->acelpEnabled = 0; - move16(); - st->tcx20Enabled = 0; - move16(); - st->tcx10Enabled = 0; - - if ( EQ_16( s_and( st->restrictedMode, 1 ), 1 ) ) - { - st->acelpEnabled = 1; - move16(); - } - if ( EQ_16( s_and( st->restrictedMode, 2 ), 2 ) ) - { - st->tcx20Enabled = 1; - move16(); - } - if ( EQ_16( s_and( st->restrictedMode, 4 ), 4 ) ) - { - st->tcx10Enabled = 1; - move16(); - } - - /* TCX mode (TCX20 TCX10_10 or NO_TCX) */ - if ( st->hTcxEnc != NULL ) - { - hTcxEnc->tcxMode = NO_TCX; - move16(); - } - - /* Bits Budget */ - /*st->bits_frame_nominal = (int)( (float)st->L_frame * (float)FSCALE_DENOM * (float)st->bitrate / ( (float)st->fscale * 12800.0f ) );*/ - /*st->bits_frame_nominal = (int)( (float)st->L_frame/(float)st->fscale * (float)FSCALE_DENOM/128.0f * (float)st->bitrate/100.0f + 0.49f );*/ - /*328 = 0.010009765625 in 0Q15*/ - /* st->bits_frame_nominal = extract_h(L_add(L_mult(div_l(L_mult(shl(st->L_frame,2),st->bitrate),st->fscale),328),16056)); */ - - /* st->bits_frame_nominal = (int)( (float)st->L_frame/(float)st->fscale * (float)FSCALE_DENOM/128.0f * (float)st->bitrate/100.0f + 0.49f ); */ - tmp32 = L_shl( st->total_brate, 1 ); /* (float)st->L_frame/(float)st->fscale * (float)FSCALE_DENOM/128.0f * (float)st->bitrate */ - st->bits_frame_nominal = extract_l( L_shr( Mpy_32_16_1( tmp32, 20972 ), 6 ) ); /* 20972 = 0.01 * 64 * 32768 */ - move16(); - - IF( st->Opt_AMR_WB ) - { - st->bits_frame = st->bits_frame_nominal; - move16(); - st->bits_frame_core = st->bits_frame_nominal; - move16(); - st->frame_size_index = 0; - move16(); - } - ELSE - { - FOR( n = 0; n < FRAME_SIZE_NB; n++ ) - { - IF( LT_32( n, FRAME_SIZE_NB - 1 ) ) - { - test(); - IF( LE_32( FrameSizeConfig[n].frame_bits, st->bits_frame_nominal ) && GT_32( FrameSizeConfig[n + 1].frame_bits, st->bits_frame_nominal ) ) - { - st->frame_size_index = n; - move16(); - st->bits_frame = st->bits_frame_nominal; - move16(); - st->bits_frame_core = sub( sub( sub( st->bits_frame_nominal, FrameSizeConfig[n].transmission_bits ), FrameSizeConfig[n].bandwidth_bits ), FrameSizeConfig[n].reserved_bits ); - move16(); - BREAK; - } - } - ELSE - { - IF( LE_32( FrameSizeConfig[n].frame_bits, st->bits_frame_nominal ) ) - { - st->frame_size_index = n; - move16(); - st->bits_frame = st->bits_frame_nominal; - move16(); - st->bits_frame_core = sub( sub( sub( st->bits_frame_nominal, FrameSizeConfig[n].transmission_bits ), FrameSizeConfig[n].bandwidth_bits ), FrameSizeConfig[n].reserved_bits ); - move16(); - BREAK; - } - } - } - } - - /* Reconfigure core */ - core_coder_reconfig_ivas_fx( st, last_total_brate ); - - - return; -} diff --git a/lib_enc/core_enc_init_fx.c b/lib_enc/core_enc_init_fx.c index f6b5b5984d61e51db4559eaf62c1f4ec2a63b8ae..05f838a3a9011ad9f854add5bc806c8f02fb962a 100644 --- a/lib_enc/core_enc_init_fx.c +++ b/lib_enc/core_enc_init_fx.c @@ -3,8 +3,8 @@ ====================================================================================*/ #include -//#include "prot_fx.h" -//#include "basop_mpy.h" +// #include "prot_fx.h" +// #include "basop_mpy.h" #include "options.h" #include "cnst.h" #include "stl.h" @@ -13,7 +13,6 @@ #include "ivas_cnst.h" #include #include "rom_com.h" /* Common constants */ -#include "prot.h" /* Function prototypes */ #include "prot_fx.h" /* Function prototypes */ #include "prot_fx_enc.h" /* Function prototypes */ #include "basop_util.h" /* Function prototypes */ @@ -28,6 +27,11 @@ static void init_core_sig_ana_fx( Encoder_State *st ); static void init_acelp_fx( Encoder_State *st, Word16 L_frame_old, const Word16 shift ); static void init_modes_fx( Encoder_State *st, const Word32 Last_total_brate ); static void init_sig_buffers_fx( Encoder_State *st, const Word16 L_frame_old, const Word16 L_subfr ); +static void init_tcx_ivas_fx( Encoder_State *st, const Word16 L_frame_old, const Word32 total_brate, const Word32 last_total_brate, const Word16 MCT_flag ); +static void init_core_sig_ana_ivas_fx( Encoder_State *st ); +static void init_modes_ivas_fx( Encoder_State *st, const Word32 last_total_brate ); +static void init_sig_buffers_ivas_fx( Encoder_State *st, const Word16 L_frame_old, const Word16 L_subfr, const Word32 last_total_brate ); +static void init_acelp_ivas_fx( Encoder_State *st, Word16 L_frame_old, Word16 shift, const Word32 last_total_brate ); /*-----------------------------------------------------------------------* * init_coder_ace_plus_fx() @@ -295,11 +299,9 @@ static void init_tcx_fx( Word16 i; Word16 fscaleFB; TCX_ENC_HANDLE hTcxEnc = st->hTcxEnc; -#ifdef REMOVE_IVAS_UNUSED_PARAMETERS_WARNING (void) MCT_flag; (void) total_brate; (void) last_total_brate; -#endif // PMT("init_tcx_fx needs an entire review to adapt to IVAS") fscaleFB = div_l( L_shl( st->input_Fs, LD_FSCALE_DENOM + 1 ), 12800 ); @@ -526,7 +528,7 @@ void init_sig_buffers_fx( Encoder_State *st, const Word16 L_frame_old, const Wor st->new_speech_enc = st->buf_speech_enc + st->encoderPastSamples_enc + st->encoderLookahead_enc; st->new_speech_enc_pe = st->buf_speech_enc_pe + st->encoderPastSamples_enc + st->encoderLookahead_enc; hTcxEnc->new_speech_ltp = hTcxEnc->buf_speech_ltp + st->encoderPastSamples_enc + st->encoderLookahead_enc; - hTcxEnc->new_speech_TCX = st->input_buff_fx + L_FRAME48k + NS2SA( 48000, DELAY_FIR_RESAMPL_NS ) - NS2SA( st->input_Fs, DELAY_FIR_RESAMPL_NS ); + hTcxEnc->new_speech_TCX = st->input_buff_fx + L_FRAME48k + NS2SA( 48000, DELAY_FIR_RESAMPL_NS ) - NS2SA_FX2( st->input_Fs, DELAY_FIR_RESAMPL_NS ); st->speech_enc = st->buf_speech_enc + st->encoderPastSamples_enc; st->speech_enc_pe = st->buf_speech_enc_pe + st->encoderPastSamples_enc; @@ -930,5 +932,1017 @@ static void init_modes_fx( core_coder_reconfig_fx( st, last_total_brate ); + return; +} + +/*-----------------------------------------------------------------------* + * init_coder_ace_plus() + * + * Initialization of state variables + *-----------------------------------------------------------------------*/ +void init_coder_ace_plus_ivas_fx( + Encoder_State *st, /* i : Encoder state */ + const Word32 last_total_brate, /* i : last total bitrate */ + const Word32 igf_brate, /* i : IGF configuration bitrate */ + const Word16 MCT_flag /* i : hMCT handle allocated (1) or not (0) */ +) +{ + TCX_ENC_HANDLE hTcxEnc = st->hTcxEnc; + Word16 L_frame_old; /*keep old frame size for switching */ + Word16 L_subfr; + + /* Bitrate */ + st->tcxonly = getTcxonly_ivas_fx( st->element_mode, st->total_brate, MCT_flag, st->is_ism_format ); + move16(); + + /* Core Sampling Rate */ + st->sr_core = getCoreSamplerateMode2( st->element_mode, st->total_brate, st->bwidth, st->flag_ACELP16k, st->rf_mode, st->is_ism_format ); + st->fscale = sr2fscale_fx( st->sr_core ); + move32(); + move16(); + + /* Narrowband? */ + IF( EQ_16( st->bwidth, NB ) ) + { + st->narrowBand = 1; + move16(); + } + ELSE + { + st->narrowBand = 0; + move16(); + } + + /* Core Framing */ + L_frame_old = st->last_L_frame; + move16(); + st->L_frame = extract_l( Mult_32_16( st->sr_core, 0x0290 ) ); /* 0x0290 is 1/FRAMES_PER_SEC in Q15*/ + move16(); + st->L_frame_past = -1; + move16(); + + IF( hTcxEnc != NULL ) + { + hTcxEnc->L_frameTCX = extract_l( Mult_32_16( st->input_Fs, 0x0290 ) ); /* 0x0290 is 1/FRAMES_PER_SEC in Q15*/ + move16(); + + IF( st->ini_frame == 0 ) + { + set16_fx( hTcxEnc->Txnq, 0, L_FRAME32k / 2 + 64 ); + hTcxEnc->acelp_zir = hTcxEnc->Txnq + L_FRAME / 2; + hTcxEnc->q_Txnq = Q15; + move16(); + hTcxEnc->tcx_target_bits_fac = ONE_IN_Q14; + move16(); + } + } + + test(); + test(); + test(); + test(); + test(); + IF( ( st->element_mode == EVS_MONO && EQ_32( st->L_frame, L_FRAME16k ) && LE_32( st->total_brate, ACELP_32k ) ) || ( st->element_mode > EVS_MONO && EQ_32( st->L_frame, L_FRAME16k ) && LE_32( st->total_brate, MAX_ACELP_BRATE ) ) ) + { + st->nb_subfr = NB_SUBFR16k; + move16(); + } + ELSE + { + st->nb_subfr = NB_SUBFR; + move16(); + } + L_subfr = idiv1616( st->L_frame, st->nb_subfr ); + + /* Core Lookahead */ + st->encoderLookahead_enc = NS2SA_FX2( st->sr_core, ACELP_LOOK_NS ); + st->encoderLookahead_FB = NS2SA_FX2( st->input_Fs, ACELP_LOOK_NS ); + move16(); + move16(); + + IF( st->ini_frame == 0 ) + { + st->acelpFramesCount = 0; + move16(); + st->prevTempFlatness_32fx = ONE_IN_Q21 /*1.0f Q21*/; + move32(); + } + + /* Initialize TBE */ + IF( st->hBWE_TD != NULL ) + { + st->hBWE_TD->prev_coder_type = GENERIC; + move16(); + set16_fx( st->hBWE_TD->prev_lsf_diff_fx, 16384, LPC_SHB_ORDER - 2 ); + st->hBWE_TD->prev_tilt_para_fx = 0; + move16(); + set16_fx( st->hBWE_TD->cur_sub_Aq_fx, 0, M + 1 ); + } + + st->currEnergyHF_fx = 0; + move32(); + st->currEnergyHF_e_fx = 0; + move16(); + test(); + /* Initialize LPC analysis/quantization */ + IF( LE_32( st->sr_core, INT_FS_16k ) && st->tcxonly == 0 ) + { + st->lpcQuantization = 1; + move16(); + } + ELSE + { + st->lpcQuantization = 0; + move16(); + } + + st->next_force_safety_net = 0; + move16(); + test(); + test(); + IF( ( NE_16( st->last_L_frame, st->L_frame ) ) || ( EQ_16( st->last_core, AMR_WB_CORE ) ) || ( EQ_16( st->last_core, HQ_CORE ) ) ) + { + set16_fx( st->mem_MA_fx, 0, M ); + Copy( GEWB_Ave_fx, st->mem_AR_fx, M ); + } + + /* Initialize IGF */ + if ( st->hIGFEnc != NULL ) + { + st->hIGFEnc->infoStopFrequency = -1; + move16(); + } + + test(); + IF( st->igf && st->hIGFEnc != NULL ) + { + IGFEncSetMode_ivas_fx( st->hIGFEnc, igf_brate, st->bwidth, st->element_mode, st->rf_mode ); + } + ELSE IF( st->hIGFEnc != NULL ) + { + st->hIGFEnc->infoTotalBitsWritten = 0; + move16(); + st->hIGFEnc->infoTotalBitsPerFrameWritten = 0; + move16(); + } + + /* Initialize Core Signal Analysis Module */ + init_core_sig_ana_ivas_fx( st ); + + + /* Initialize TCX */ + IF( hTcxEnc != NULL ) + { + init_tcx_ivas_fx( st, L_frame_old, st->total_brate, last_total_brate, MCT_flag ); + } + + /* Initialize Signal Buffers */ + init_sig_buffers_ivas_fx( st, L_frame_old, L_subfr, last_total_brate ); + + /* Initialize ACELP */ + + init_acelp_ivas_fx( st, L_frame_old, 0, last_total_brate ); + + if ( st->ini_frame == 0 ) + { + st->tec_tfa = 0; + move16(); + } + + IF( st->hTECEnc != NULL ) + { + resetTecEnc_Fx( st->hTECEnc, st->tec_tfa ); + } + + test(); + test(); + test(); + IF( EQ_16( st->bwidth, SWB ) && ( EQ_32( st->total_brate, ACELP_16k40 ) || EQ_32( st->total_brate, ACELP_24k40 ) ) && st->element_mode == EVS_MONO ) + { + st->tec_tfa = 1; + move16(); + } + ELSE + { + st->tec_tfa = 0; + move16(); + } + + st->tec_flag = 0; + move16(); + st->tfa_flag = 0; + move16(); + + test(); + test(); + test(); + IF( ( EQ_32( st->total_brate, ACELP_9k60 ) || EQ_32( st->total_brate, ACELP_16k40 ) || EQ_32( st->total_brate, ACELP_24k40 ) ) && st->element_mode == EVS_MONO ) + { + st->glr = 1; + move16(); + } + ELSE + { + st->glr = 0; + move16(); + } + + st->glr_reset = 0; + move16(); + + /* Initialize ACELP/TCX Modes */ + init_modes_ivas_fx( st, last_total_brate ); + + /* Adaptive BPF */ + set32_fx( st->mem_bpf_fx1, 0, 2 * L_FILT16k ); + set32_fx( st->mem_error_bpf_fx, 0, 2 * L_FILT16k ); + + IF( st->ini_frame == 0 ) + { + st->Q_max_enc[0] = 15; + move16(); + st->Q_max_enc[1] = 15; + move16(); + } + + IF( GE_32( st->total_brate, HQ_48k ) ) + { + st->enablePlcWaveadjust = 1; + move16(); + } + ELSE + { + st->enablePlcWaveadjust = 0; + move16(); + } + + IF( st->hPlcExt ) + { + init_PLC_enc_fx( st->hPlcExt, st->sr_core ); + } + + st->glr_idx[0] = 0; + move16(); + st->glr_idx[1] = 0; + move16(); + st->mean_gc[0] = 0; + move16(); + st->mean_gc[1] = 0; + move16(); + st->prev_lsf4_mean = 0; + move16(); + st->last_stab_fac = 0; + move16(); + + return; +} + +/*-----------------------------------------------------------------------* + * init_tcx() + * + * Initialization of TCX + *-----------------------------------------------------------------------*/ + + +static void init_tcx_ivas_fx( + Encoder_State *st, + const Word16 L_frame_old, + const Word32 total_brate, + const Word32 last_total_brate, + const Word16 MCT_flag ) +{ + TCX_ENC_HANDLE hTcxEnc = st->hTcxEnc; + + /* Share the memories for 2xTCX10/4xTCX5 and for TCX20 */ + hTcxEnc->spectrum_fx[0] = hTcxEnc->spectrum_long_fx; + hTcxEnc->spectrum_fx[1] = hTcxEnc->spectrum_long_fx + N_TCX10_MAX; + st->hTcxEnc->spectrum_e[0] = st->hTcxEnc->spectrum_e[1] = 0; + move16(); + move16(); + + init_tcx_cfg_ivas_fx( st->hTcxCfg, total_brate, st->sr_core, st->input_Fs, st->L_frame, st->bwidth, hTcxEnc->L_frameTCX, + st->fscale, st->preemph_fac, st->tcxonly, st->rf_mode, st->igf, + st->hIGFEnc != NULL ? st->hIGFEnc->infoStopFrequency : 0, st->element_mode, st->ini_frame, MCT_flag ); + + /* Init TCX target bits correction factor */ + hTcxEnc->tcx_target_bits_fac = 0x4000; /*1.0f in 1Q14*/ + move16(); + hTcxEnc->measuredBwRatio = 0x4000; /*1.0f in 1Q14*/ + move16(); + hTcxEnc->noiseTiltFactor = 9216; /*0.5625f in 1Q14*/ + move16(); + hTcxEnc->noiseLevelMemory_cnt = 0; + move16(); + + set16_fx( hTcxEnc->ltpGainMemory_fx, 0, N_LTP_GAIN_MEMS ); + set8_fx( hTcxEnc->memQuantZeros, 0, L_FRAME_PLUS ); + + /* TCX-LTP */ + hTcxEnc->tcxltp = getTcxLtp( st->sr_core ); + move16(); + + test(); + test(); + test(); + test(); + IF( st->ini_frame == 0 ) + { + hTcxEnc->tcxltp_pitch_int_past = st->L_frame; + hTcxEnc->tcxltp_pitch_fr_past = 0; + hTcxEnc->tcxltp_gain_past = 0; + hTcxEnc->tcxltp_norm_corr_past = 0; + hTcxEnc->tcxltp_norm_corr_mem = 0; + hTcxEnc->kernel_switch_corr_past = 0; + hTcxEnc->kernel_symmetry_past = 0; /* MDCT_IV & 1 */ + hTcxEnc->enc_ste_pre_corr_past = 0; + hTcxEnc->tfm_mem_fx = 1610612736; /* 0.75 in Q31 */ + hTcxEnc->tcxltp_on_mem = 0; + move16(); + move16(); + move16(); + move16(); + move16(); + move16(); + move16(); + move16(); + move16(); + move16(); + } + ELSE IF( NE_16( st->L_frame, L_frame_old ) && !( ( GE_32( total_brate, ACELP_16k40 ) && LE_32( total_brate, ACELP_24k40 ) ) && + ( EQ_32( total_brate, last_total_brate ) ) && ( EQ_16( st->last_bwidth, st->bwidth ) ) ) ) + { + Word16 pitres, pitres_old; + Word16 pit, pit_old; + + pitres_old = 4; + move16(); + if ( EQ_16( 160, shr( L_frame_old, sub( 7, norm_s( L_frame_old ) ) ) ) ) /*if ( L_frame_old%160==0 )*/ + { + pitres_old = 6; + move16(); + } + + /*pit_old = (float)st->tcxltp_pitch_int_past + (float)st->tcxltp_pitch_fr_past/(float)pitres_old;*/ + pit_old = add( hTcxEnc->tcxltp_pitch_int_past, mult_r( hTcxEnc->tcxltp_pitch_fr_past, div_s( 1, pitres_old ) ) ); + + pitres = 4; + move16(); + if ( EQ_16( 160, shr( st->L_frame, sub( 7, norm_s( st->L_frame ) ) ) ) ) /*if ( st->L_frame%160==0 )*/ + { + pitres = 6; + move16(); + } + + /*pit = pit_old * (float)st->L_frame/(float)L_frame_old;*/ + pit = shl_sat( mult_r( pit_old, div_s( st->L_frame, shl( L_frame_old, 2 ) ) ), 2 ); + /* Note : the saturation here that can happens when FS == 32kHz*/ + /* assert(pit <= st->L_frame);*/ + + hTcxEnc->tcxltp_pitch_int_past = pit; + move16(); + hTcxEnc->tcxltp_pitch_fr_past = i_mult2( sub( pit, hTcxEnc->tcxltp_pitch_int_past ), pitres ); + move16(); + } + + hTcxEnc->tcx_lpc_shaped_ari = getTcxLpcShapedAri( st->total_brate, st->rf_mode, st->element_mode ); + move16(); + + return; +} + +/*-----------------------------------------------------------------------* + * init_sig_buffers() + * + * Initialization of signal buffers + *-----------------------------------------------------------------------*/ +/*copy of evs function since it was static */ +static void init_sig_buffers_ivas_fx( Encoder_State *st, const Word16 L_frame_old, const Word16 L_subfr, const Word32 last_total_brate ) +{ + + LPD_state_HANDLE hLPDmem = st->hLPDmem; + TCX_ENC_HANDLE hTcxEnc = st->hTcxEnc; + + /* Encoder Past Samples at encoder-sampling-rate */ + st->encoderPastSamples_enc = shr( imult1616( st->L_frame, 9 ), 4 ); + move16(); + + /* Initialize Signal Buffers and Pointers at encoder-sampling-rate */ + IF( st->ini_frame == 0 ) + { + set16_fx( st->buf_speech_enc, 0, L_PAST_MAX_32k + L_FRAME32k + L_NEXT_MAX_32k ); + st->exp_buf_speech_enc = 0; + move16(); + set16_fx( st->buf_speech_enc_pe, 0, L_PAST_MAX_32k + L_FRAME32k + L_NEXT_MAX_32k ); + st->exp_buf_speech_enc_pe = 0; + move16(); + if ( hTcxEnc != NULL ) + { + set16_fx( hTcxEnc->buf_speech_ltp, 0, L_PAST_MAX_32k + L_FRAME32k + L_NEXT_MAX_32k ); + hTcxEnc->exp_buf_speech_ltp = 0; + move16(); + } + set16_fx( st->buf_wspeech_enc, 0, L_FRAME16k + L_SUBFR + L_FRAME16k + L_NEXT_MAX_16k + 320 ); /* increased by 320 to avoid memory overlap in ivas_find_wsp_fx() and also to accomodate for the wspeech_enc */ + st->exp_buf_wspeech_enc = 0; + move16(); + } + ELSE + { + test(); + test(); + test(); + test(); + test(); + IF( NE_16( st->L_frame, L_frame_old ) && !( ( EQ_32( st->total_brate, ACELP_16k40 ) || EQ_32( st->total_brate, ACELP_24k40 ) ) && ( EQ_32( st->total_brate, last_total_brate ) ) && ( EQ_16( st->last_bwidth, st->bwidth ) ) ) ) + { + lerp( st->buf_speech_enc, st->buf_speech_enc, st->L_frame, L_frame_old ); + test(); + IF( NE_16( st->last_core, TCX_20_CORE ) && NE_16( st->last_core, TCX_10_CORE ) ) /* condition should be checked again */ + { + Copy( st->buf_speech_enc, hTcxEnc->buf_speech_ltp, st->L_frame ); + Scale_sig( hTcxEnc->buf_speech_ltp, st->L_frame, sub( st->exp_buf_speech_enc, s_max( st->exp_buf_speech_enc, hTcxEnc->exp_buf_speech_ltp ) ) ); // Q(15-max(st->exp_buf_speech_enc, hTcxEnc->exp_buf_speech_ltp)) + Scale_sig( hTcxEnc->buf_speech_ltp + st->L_frame, sub( L_PAST_MAX_32k + L_FRAME32k + L_NEXT_MAX_32k, st->L_frame ), sub( hTcxEnc->exp_buf_speech_ltp, s_max( st->exp_buf_speech_enc, hTcxEnc->exp_buf_speech_ltp ) ) ); // Q(15-max(st->exp_buf_speech_enc, hTcxEnc->exp_buf_speech_ltp)) + hTcxEnc->exp_buf_speech_ltp = s_max( hTcxEnc->exp_buf_speech_ltp, st->exp_buf_speech_enc ); + move16(); + } + + // Copy_Scale_sig( st->old_wsp_fx, st->buf_wspeech_enc + st->L_frame + L_SUBFR - L_WSP_MEM, L_WSP_MEM, sub( st->prev_Q_new, st->prev_Q_old ) ); + Scale_sig( st->buf_wspeech_enc, L_FRAME16k + L_SUBFR + L_FRAME16k + L_NEXT_MAX_16k + 320, sub( 0, sub( st->exp_old_wsp, st->exp_buf_wspeech_enc ) ) ); + Copy( st->old_wsp_fx, st->buf_wspeech_enc + st->L_frame + L_SUBFR - L_WSP_MEM, L_WSP_MEM ); + st->exp_buf_wspeech_enc = st->exp_old_wsp; + move16(); + + /*Resamp buffers needed only for ACELP*/ + test(); + test(); + IF( EQ_16( st->L_frame, L_FRAME ) && !st->tcxonly ) + { + if ( st->exp_buf_speech_enc_pe >= st->exp_old_inp_12k8 ) + { + Copy_Scale_sig( st->old_inp_12k8_fx, st->buf_speech_enc_pe + st->L_frame - L_INP_MEM, L_INP_MEM, sub( st->exp_old_inp_12k8, st->exp_buf_speech_enc_pe ) ); // Scaling to common Q + // st->buf_speech_enc_pe is in st->exp_buf_speech_enc_pe + } + else + { + Scale_sig( st->buf_speech_enc_pe, L_PAST_MAX_32k + L_FRAME32k + L_NEXT_MAX_32k, sub( st->exp_buf_speech_enc_pe, st->exp_old_inp_12k8 ) ); // Scaling to common Q + Copy( st->old_inp_12k8_fx, st->buf_speech_enc_pe + st->L_frame - L_INP_MEM, L_INP_MEM ); + st->exp_buf_speech_enc_pe = st->exp_old_inp_12k8; + // st->buf_speech_enc_pe is in st->exp_buf_speech_enc_pe + move16(); + } + } + ELSE IF( EQ_16( st->L_frame, L_FRAME16k ) && !st->tcxonly ) + { + lerp( st->buf_wspeech_enc + st->L_frame + L_SUBFR - L_WSP_MEM, st->buf_wspeech_enc + st->L_frame + L_SUBFR - 310, 310, L_WSP_MEM ); + if ( st->exp_buf_speech_enc_pe >= st->exp_old_inp_16k ) + { + Copy_Scale_sig( st->old_inp_16k_fx, st->buf_speech_enc_pe + st->L_frame - L_INP_MEM, L_INP_MEM, sub( st->exp_old_inp_16k, st->exp_buf_speech_enc_pe ) ); // Scaling to common Q + // st->buf_speech_enc_pe is in st->exp_buf_speech_enc_pe + } + else + { + Scale_sig( st->buf_speech_enc_pe, L_PAST_MAX_32k + L_FRAME32k + L_NEXT_MAX_32k, sub( st->exp_buf_speech_enc_pe, st->exp_old_inp_16k ) ); // Scaling to common Q + Copy( st->old_inp_16k_fx, st->buf_speech_enc_pe + st->L_frame - L_INP_MEM, L_INP_MEM ); + st->exp_buf_speech_enc_pe = st->exp_old_inp_16k; + // st->buf_speech_enc_pe is in st->exp_buf_speech_enc_pe + move16(); + } + } + + st->mem_preemph_enc = st->buf_speech_enc[st->encoderPastSamples_enc + st->encoderLookahead_enc - 1]; + move16(); + st->exp_mem_preemph_enc = st->exp_buf_speech_enc; + move16(); + st->mem_wsp_enc = shr( st->buf_wspeech_enc[st->L_frame + L_SUBFR - 1], sub( Q16, st->exp_buf_wspeech_enc ) ); // Q-1 + move16(); + } + /*coming from TCXonly modes*/ + ELSE IF( !st->tcxonly && GE_32( last_total_brate, ACELP_32k ) ) + { + + Scale_sig( st->buf_wspeech_enc, L_FRAME16k + L_SUBFR + L_FRAME16k + L_NEXT_MAX_16k + 320, sub( 0, sub( st->exp_old_wsp, st->exp_buf_wspeech_enc ) ) ); + Copy( st->old_wsp_fx, st->buf_wspeech_enc + st->L_frame + L_SUBFR - L_WSP_MEM, L_WSP_MEM ); + // Copy_Scale_sig( st->old_wsp_fx, st->buf_wspeech_enc + st->L_frame + L_SUBFR - L_WSP_MEM, L_WSP_MEM, sub( st->prev_Q_new, st->prev_Q_old ) ); + st->exp_buf_wspeech_enc = st->exp_old_wsp; + move16(); /*Resamp buffers needed only for ACELP*/ + IF( EQ_16( st->L_frame, L_FRAME16k ) ) + { + lerp( st->buf_wspeech_enc + st->L_frame + L_SUBFR - L_WSP_MEM, st->buf_wspeech_enc + st->L_frame + L_SUBFR - 310, 310, L_WSP_MEM ); + } + hLPDmem->mem_w0 = 0; + move16(); + st->mem_wsp_enc = shr( st->buf_wspeech_enc[st->L_frame + L_SUBFR - 1], sub( Q16, st->exp_buf_wspeech_enc ) ); // Q-1 + move16(); + } + } + + st->new_speech_enc = st->buf_speech_enc + st->encoderPastSamples_enc + st->encoderLookahead_enc; + st->new_speech_enc_pe = st->buf_speech_enc_pe + st->encoderPastSamples_enc + st->encoderLookahead_enc; + if ( hTcxEnc != NULL ) + { + hTcxEnc->new_speech_ltp = hTcxEnc->buf_speech_ltp + st->encoderPastSamples_enc + st->encoderLookahead_enc; + } + + IF( st->hTcxEnc != NULL ) + { + st->hTcxEnc->new_speech_TCX = st->input_buff_fx + Mpy_32_32( st->input_Fs, ONE_BY_FRAMES_PER_SEC_Q31 ); + st->hTcxEnc->speech_TCX = st->hTcxEnc->new_speech_TCX - st->encoderLookahead_FB; + } + st->speech_enc = st->buf_speech_enc + st->encoderPastSamples_enc; + st->speech_enc_pe = st->buf_speech_enc_pe + st->encoderPastSamples_enc; + + if ( hTcxEnc != NULL ) + { + hTcxEnc->speech_ltp = hTcxEnc->buf_speech_ltp + st->encoderPastSamples_enc; + } + + IF( st->element_mode > EVS_MONO ) + { + st->wspeech_enc = st->buf_wspeech_enc + st->L_frame + L_SUBFR; + } + ELSE + { + st->wspeech_enc = st->buf_wspeech_enc + st->L_frame + L_subfr; + } + + test(); + test(); + IF( st->ini_frame == 0 || NE_16( st->L_frame, L_frame_old ) || EQ_16( st->last_codec_mode, MODE1 ) ) + { + set16_fx( st->buf_synth, 0, OLD_SYNTH_SIZE_ENC + L_FRAME32k ); + } + + st->synth = st->buf_synth + st->L_frame + L_subfr; + + + return; +} + +/*-----------------------------------------------------------------------* + * init_core_sig_ana() + * + * + *-----------------------------------------------------------------------*/ +static void init_core_sig_ana_ivas_fx( Encoder_State *st ) +{ + + /* Pre-emphasis factor and memory */ + + st->preemph_fac = PREEMPH_FAC_SWB; /*SWB*/ + move16(); + IF( LT_16( st->fscale, ( 16000 * FSCALE_DENOM ) / 12800 ) ) + { + st->preemph_fac = PREEMPH_FAC; /*WB*/ + move16(); + } + ELSE IF( LT_16( st->fscale, ( 24000 * FSCALE_DENOM ) / 12800 ) ) + { + st->preemph_fac = PREEMPH_FAC_16k; /*WB*/ + move16(); + } + + st->gamma = GAMMA1; + move16(); + st->inv_gamma = GAMMA1_INV; + move16(); + IF( EQ_32( st->sr_core, 16000 ) ) + { + st->gamma = GAMMA16k; + move16(); + st->inv_gamma = GAMMA16k_INV; + move16(); + } + + + st->min_band = 1; + move16(); + st->max_band = 16; + move16(); + + IF( st->narrowBand == 0 ) + { + st->min_band = 0; + move16(); + st->max_band = 19; + move16(); + } + + + return; +} +/*-----------------------------------------------------------------------* + * init_acelp() + * + * + *-----------------------------------------------------------------------*/ +static void init_acelp_ivas_fx( Encoder_State *st, Word16 L_frame_old, Word16 shift, const Word32 last_total_brate ) +{ + Word16 mem_syn_r_size_old; + Word16 mem_syn_r_size_new; + LPD_state_HANDLE hLPDmem = st->hLPDmem; + TCX_ENC_HANDLE hTcxEnc = st->hTcxEnc; + + /* Init pitch lag */ + IF( EQ_16( st->element_mode, IVAS_CPE_MDCT ) ) + { + /* TCX LTP ana always runs @12.8kHz */ + st->pit_res_max = initPitchLagParameters( 12800, &st->pit_min, &st->pit_fr1, &st->pit_fr1b, &st->pit_fr2, &st->pit_max ); + move16(); + } + ELSE + { + st->pit_res_max = initPitchLagParameters( st->sr_core, &st->pit_min, &st->pit_fr1, &st->pit_fr1b, &st->pit_fr2, &st->pit_max ); + move16(); + } + + /* Init LPDmem */ + IF( st->ini_frame == 0 ) + { + IF( hLPDmem != NULL ) + { + set16_fx( hLPDmem->syn, 0, 1 + M ); + set16_fx( hLPDmem->mem_syn_r, 0, L_SYN_MEM ); + hLPDmem->q_lpd_syn = Q15; + hLPDmem->q_mem_syn = Q15; + move16(); + move16(); + } + + IF( st->hTcxEnc != NULL ) + { + set16_fx( st->hTcxEnc->Txnq, 0, L_FRAME32k / 2 + 64 ); + st->hTcxEnc->q_Txnq = Q15; + move16(); + st->hTcxEnc->acelp_zir = st->hTcxEnc->Txnq + shr( st->L_frame, 1 ); + } + } + ELSE /*Rate switching*/ + { + IF( st->last_core == ACELP_CORE ) + { + lerp( hTcxEnc->Txnq, hTcxEnc->Txnq, shr( st->L_frame, 1 ), shr( L_frame_old, 1 ) ); + } + ELSE + { + lerp( hTcxEnc->Txnq, hTcxEnc->Txnq, st->hTcxCfg->tcx_mdct_window_length, st->hTcxCfg->tcx_mdct_window_length_old ); + } + hTcxEnc->acelp_zir = hTcxEnc->Txnq + shr( st->L_frame, 1 ); + + /* Rate switching */ + IF( EQ_16( st->last_codec_mode, MODE1 ) && st->element_mode == EVS_MONO ) + { + IF( hLPDmem != NULL ) + { + Copy( hLPDmem->mem_syn1_fx, hLPDmem->mem_syn2, M ); + set16_fx( hLPDmem->syn, 0, M ); + hLPDmem->q_lpd_syn = Q15; + hLPDmem->q_mem_syn = Q15; + move16(); + move16(); + } + IF( st->hTcxEnc != NULL ) + { + set16_fx( hTcxEnc->Txnq, 0, L_FRAME32k / 2 + 64 ); + st->hTcxEnc->q_Txnq = Q15; + move16(); + } + } + + /*AMR-WBIO->MODE2*/ + IF( EQ_16( st->last_core, AMR_WB_CORE ) ) + { + st->next_force_safety_net = 1; + move16(); + st->last_core = ACELP_CORE; + move16(); + } + /*HQ-CORE->MODE2*/ + test(); + IF( EQ_16( st->last_codec_mode, MODE1 ) && EQ_16( st->last_core, HQ_CORE ) ) + { + /*Reset of ACELP memories*/ + st->next_force_safety_net = 1; + move16(); + st->rate_switching_reset = 1; + move16(); + IF( hLPDmem != NULL ) + { + hLPDmem->tilt_code = TILT_CODE; + move16(); + set16_fx( hLPDmem->old_exc, 0, L_EXC_MEM ); + set16_fx( hLPDmem->syn, 0, 1 + M ); + hLPDmem->q_lpd_syn = Q15; + move16(); + hLPDmem->q_lpd_old_exc = Q15; + move16(); + hLPDmem->mem_w0 = 0; + move16(); + set16_fx( hLPDmem->mem_syn, 0, M ); + set16_fx( hLPDmem->mem_syn2, 0, M ); + hLPDmem->q_mem_syn = Q15; + move16(); + } + + /* unquantized LPC*/ + test(); + test(); + test(); + IF( !( ( GE_32( st->total_brate, ACELP_16k40 ) && LE_32( st->total_brate, ACELP_24k40 ) ) && ( EQ_32( st->total_brate, last_total_brate ) ) && ( EQ_16( st->last_bwidth, st->bwidth ) ) ) ) + { + Copy( st->lsp_old1_fx, st->lspold_enc_fx, M ); /*lsp old @12.8kHz*/ + IF( EQ_16( st->L_frame, L_FRAME16k ) ) + { + lsp_convert_poly_fx( st->lspold_enc_fx, st->L_frame, 0 ); + } + } + Copy( st->lspold_enc_fx, st->lsp_old_fx, M ); /*used unquantized values for mid-LSF Q*/ + IF( st->tcxonly == 0 ) + { + lsp2lsf_fx( st->lsp_old_fx, st->lsf_old_fx, M, st->sr_core ); + } + ELSE + { + E_LPC_lsp_lsf_conversion( st->lsp_old_fx, st->lsf_old_fx, M ); + } + st->last_core = TCX_20_CORE; + move16(); + + st->hTcxCfg->last_aldo = 1; /*It was previously ALDO*/ + st->hTcxCfg->tcx_curr_overlap_mode = ALDO_WINDOW; + move16(); + move16(); + /*ALDO overlap windowed past: also used in MODE1 but for other MDCT-FB*/ + set16_fx( hTcxEnc->old_out_fx, 0, st->L_frame ); + } + ELSE + { + test(); + test(); + test(); + test(); + IF( ( NE_16( st->L_frame, L_frame_old ) ) && ( LE_16( st->L_frame, L_FRAME16k ) ) && ( LE_16( L_frame_old, L_FRAME16k ) ) ) + { + /* convert quantized LSP vector */ + st->rate_switching_reset = lsp_convert_poly_fx( st->lsp_old_fx, st->L_frame, 0 ); + move16(); + IF( st->tcxonly == 0 ) + { + lsp2lsf_fx( st->lsp_old_fx, st->lsf_old_fx, M, st->sr_core ); + } + ELSE + { + E_LPC_lsp_lsf_conversion( st->lsp_old_fx, st->lsf_old_fx, M ); + } + IF( EQ_16( st->L_frame, L_FRAME16k ) ) + { + Copy( st->lsp_old_fx, st->lspold_enc_fx, M ); + } + ELSE + { + Copy( st->lsp_old1_fx, st->lspold_enc_fx, M ); + } + + + /*Mem of deemphasis stay unchanged : hLPDmem->syn*/ + IF( hLPDmem != NULL ) + { + synth_mem_updt2( st->L_frame, st->last_L_frame, hLPDmem->old_exc, hLPDmem->mem_syn_r, hLPDmem->mem_syn2, hLPDmem->mem_syn, ENC ); + Word16 tmp, A[M + 1], Ap[M + 1], tmp_buf[M + 1]; + /* Update wsyn */ + /* lsp2a_stab( st->lsp_old, A, M ); */ + E_LPC_f_lsp_a_conversion( st->lsp_old_fx, A, M ); + weight_a_fx( A, Ap, GAMMA1, M ); + tmp = 0; + move16(); + tmp_buf[0] = 0; + move16(); + Copy( hLPDmem->mem_syn2, tmp_buf + 1, M ); + deemph_fx( tmp_buf + 1, st->preemph_fac, M, &tmp ); + Residu3_fx( Ap, tmp_buf + M, &tmp, 1, 1 ); + hLPDmem->mem_w0 = sub_sat( shr_sat( st->wspeech_enc[-1], shift ), tmp ); + move16(); + } + } + ELSE IF( ( NE_16( st->L_frame, L_frame_old ) ) ) + { + /*Partial reset of ACELP memories*/ + st->next_force_safety_net = 1; + move16(); + st->rate_switching_reset = 1; + move16(); + + /*reset partly some memories*/ + IF( hLPDmem != NULL ) + { + hLPDmem->tilt_code = TILT_CODE; + move16(); + set16_fx( hLPDmem->old_exc, 0, L_EXC_MEM ); + move16(); + hLPDmem->q_lpd_old_exc = Q15; + move16(); + /*Resamp others memories*/ + /*Size of LPC syn memory*/ + /* 1.25/20.0 = 1.0/16.0 -> shift 4 to the right. */ + mem_syn_r_size_old = shr( L_frame_old, 4 ); + mem_syn_r_size_new = shr( st->L_frame, 4 ); + + lerp( hLPDmem->mem_syn_r + L_SYN_MEM - mem_syn_r_size_old, hLPDmem->mem_syn_r + L_SYN_MEM - mem_syn_r_size_new, mem_syn_r_size_new, mem_syn_r_size_old ); + Copy( hLPDmem->mem_syn_r + L_SYN_MEM - M, hLPDmem->mem_syn, M ); + Copy( hLPDmem->mem_syn, hLPDmem->mem_syn2, M ); + + /*Untouched memories : hLPDmem->syn & hLPDmem->mem_w0*/ + hLPDmem->mem_w0 = 0; + move16(); + } + /* unquantized LPC*/ + Copy( st->lsp_old1_fx, st->lspold_enc_fx, M ); /*lsp old @12.8kHz*/ + IF( EQ_16( st->L_frame, L_FRAME16k ) ) + { + lsp_convert_poly_fx( st->lspold_enc_fx, st->L_frame, 0 ); + } + Copy( st->lspold_enc_fx, st->lsp_old_fx, M ); /*used unquantized values for mid-LSF Q*/ + IF( st->tcxonly == 0 ) + { + lsp2lsf_fx( st->lsp_old_fx, st->lsf_old_fx, M, st->sr_core ); + } + ELSE + { + E_LPC_lsp_lsf_conversion( st->lsp_old_fx, st->lsf_old_fx, M ); + } + } + ELSE IF( !st->tcxonly && EQ_16( st->L_frame, L_FRAME16k ) && GT_32( st->last_total_brate, ACELP_32k ) ) + { + lsp2lsf_fx( st->lsp_old_fx, st->lsf_old_fx, M, st->sr_core ); + } + } + } + + test(); + test(); + if ( EQ_16( st->last_bwidth, NB ) && NE_16( st->bwidth, NB ) && st->ini_frame != 0 ) + { + st->rate_switching_reset = 1; + move16(); + } + + /* Post-processing */ + /*EVS specific*/ + /* hLPDmem->dm_fx.prev_gain_code = L_deposit_l( 0 ); + set16_fx( hLPDmem->dm_fx.prev_gain_pit, 0, 6 ); + hLPDmem->dm_fx.prev_state = 0;*/ + /*------------*/ + + if ( hLPDmem != NULL ) + { + hLPDmem->dm_fx.prev_state = 0; + move16(); /* This corresponds to st_fx->dispMem in FLP */ + hLPDmem->dm_fx.prev_gain_code = 0; + move32(); + + FOR( Word16 i = 2; i < 8; i++ ) + { + hLPDmem->dm_fx.prev_gain_pit[i - 2] = 0; + move16(); + } + hLPDmem->gc_threshold = 0; + move16(); + } + + /* Pulse Search configuration */ + st->acelp_autocorr = 1; + move16(); + + /*Use for 12.8 kHz sampling rate and low bitrates, the conventional pulse search->better SNR*/ + test(); + test(); + if ( ( LE_32( st->total_brate, ACELP_9k60 ) || EQ_16( st->rf_mode, 1 ) ) && ( EQ_32( st->sr_core, 12800 ) ) ) + { + st->acelp_autocorr = 0; + move16(); + } + + + /*BPF parameters for adjusting gain in function of background noise*/ + IF( EQ_16( st->codec_mode, MODE2 ) ) + { + st->mem_bpf_fx.lp_error_ener = L_deposit_l( 0 ); + move32(); + st->pst_lp_ener_fx = 0; + move16(); + IF( EQ_16( st->last_codec_mode, MODE1 ) ) + { + st->mem_bpf_fx.lp_error = 0; + move32(); + st->pst_mem_deemp_err_fx = 0; + move16(); + } + } + + return; +} +/*-----------------------------------------------------------------------* + * init_modes() + * + * + *-----------------------------------------------------------------------*/ + +static void init_modes_ivas_fx( + Encoder_State *st, + const Word32 last_total_brate ) +{ + Word8 n; + Word32 tmp32; + TCX_ENC_HANDLE hTcxEnc = st->hTcxEnc; + + /* Restrict ACE/TCX20/TCX10 mode */ + move16(); + st->restrictedMode = getRestrictedMode( st->element_mode, st->total_brate, st->Opt_AMR_WB ); + move16(); + st->acelpEnabled = 0; + move16(); + st->tcx20Enabled = 0; + move16(); + st->tcx10Enabled = 0; + + if ( EQ_16( s_and( st->restrictedMode, 1 ), 1 ) ) + { + st->acelpEnabled = 1; + move16(); + } + if ( EQ_16( s_and( st->restrictedMode, 2 ), 2 ) ) + { + st->tcx20Enabled = 1; + move16(); + } + if ( EQ_16( s_and( st->restrictedMode, 4 ), 4 ) ) + { + st->tcx10Enabled = 1; + move16(); + } + + /* TCX mode (TCX20 TCX10_10 or NO_TCX) */ + if ( st->hTcxEnc != NULL ) + { + hTcxEnc->tcxMode = NO_TCX; + move16(); + } + + /* Bits Budget */ + /*st->bits_frame_nominal = (int)( (float)st->L_frame * (float)FSCALE_DENOM * (float)st->bitrate / ( (float)st->fscale * 12800.0f ) );*/ + /*st->bits_frame_nominal = (int)( (float)st->L_frame/(float)st->fscale * (float)FSCALE_DENOM/128.0f * (float)st->bitrate/100.0f + 0.49f );*/ + /*328 = 0.010009765625 in 0Q15*/ + /* st->bits_frame_nominal = extract_h(L_add(L_mult(div_l(L_mult(shl(st->L_frame,2),st->bitrate),st->fscale),328),16056)); */ + + /* st->bits_frame_nominal = (int)( (float)st->L_frame/(float)st->fscale * (float)FSCALE_DENOM/128.0f * (float)st->bitrate/100.0f + 0.49f ); */ + tmp32 = L_shl( st->total_brate, 1 ); /* (float)st->L_frame/(float)st->fscale * (float)FSCALE_DENOM/128.0f * (float)st->bitrate */ + st->bits_frame_nominal = extract_l( L_shr( Mpy_32_16_1( tmp32, 20972 ), 6 ) ); /* 20972 = 0.01 * 64 * 32768 */ + move16(); + + IF( st->Opt_AMR_WB ) + { + st->bits_frame = st->bits_frame_nominal; + move16(); + st->bits_frame_core = st->bits_frame_nominal; + move16(); + st->frame_size_index = 0; + move16(); + } + ELSE + { + FOR( n = 0; n < FRAME_SIZE_NB; n++ ) + { + IF( LT_32( n, FRAME_SIZE_NB - 1 ) ) + { + test(); + IF( LE_32( FrameSizeConfig[n].frame_bits, st->bits_frame_nominal ) && GT_32( FrameSizeConfig[n + 1].frame_bits, st->bits_frame_nominal ) ) + { + st->frame_size_index = n; + move16(); + st->bits_frame = st->bits_frame_nominal; + move16(); + st->bits_frame_core = sub( sub( sub( st->bits_frame_nominal, FrameSizeConfig[n].transmission_bits ), FrameSizeConfig[n].bandwidth_bits ), FrameSizeConfig[n].reserved_bits ); + move16(); + BREAK; + } + } + ELSE + { + IF( LE_32( FrameSizeConfig[n].frame_bits, st->bits_frame_nominal ) ) + { + st->frame_size_index = n; + move16(); + st->bits_frame = st->bits_frame_nominal; + move16(); + st->bits_frame_core = sub( sub( sub( st->bits_frame_nominal, FrameSizeConfig[n].transmission_bits ), FrameSizeConfig[n].bandwidth_bits ), FrameSizeConfig[n].reserved_bits ); + move16(); + BREAK; + } + } + } + } + + /* Reconfigure core */ + core_coder_reconfig_ivas_fx( st, last_total_brate ); + + return; } diff --git a/lib_enc/core_enc_ol.c b/lib_enc/core_enc_ol.c deleted file mode 100644 index c282f76495f73769d1f47f562ef810313573154f..0000000000000000000000000000000000000000 --- a/lib_enc/core_enc_ol.c +++ /dev/null @@ -1,46 +0,0 @@ -/****************************************************************************************************** - - (C) 2022-2025 IVAS codec Public Collaboration with portions copyright Dolby International AB, Ericsson AB, - Fraunhofer-Gesellschaft zur Foerderung der angewandten Forschung e.V., Huawei Technologies Co. LTD., - Koninklijke Philips N.V., Nippon Telegraph and Telephone Corporation, Nokia Technologies Oy, Orange, - Panasonic Holdings Corporation, Qualcomm Technologies, Inc., VoiceAge Corporation, and other - contributors to this repository. All Rights Reserved. - - This software is protected by copyright law and by international treaties. - The IVAS codec Public Collaboration consisting of Dolby International AB, Ericsson AB, - Fraunhofer-Gesellschaft zur Foerderung der angewandten Forschung e.V., Huawei Technologies Co. LTD., - Koninklijke Philips N.V., Nippon Telegraph and Telephone Corporation, Nokia Technologies Oy, Orange, - Panasonic Holdings Corporation, Qualcomm Technologies, Inc., VoiceAge Corporation, and other - contributors to this repository retain full ownership rights in their respective contributions in - the software. This notice grants no license of any kind, including but not limited to patent - license, nor is any license granted by implication, estoppel or otherwise. - - Contributors are required to enter into the IVAS codec Public Collaboration agreement before making - contributions. - - This software is provided "AS IS", without any express or implied warranties. The software is in the - development stage. It is intended exclusively for experts who have experience with such software and - solely for the purpose of inspection. All implied warranties of non-infringement, merchantability - and fitness for a particular purpose are hereby disclaimed and excluded. - - Any dispute, controversy or claim arising under or in relation to providing this software shall be - submitted to and settled by the final, binding jurisdiction of the courts of Munich, Germany in - accordance with the laws of the Federal Republic of Germany excluding its conflict of law rules and - the United Nations Convention on Contracts on the International Sales of Goods. - -*******************************************************************************************************/ - -/*==================================================================================== - EVS Codec 3GPP TS26.443 Nov 04, 2021. Version 12.14.0 / 13.10.0 / 14.6.0 / 15.4.0 / 16.3.0 - ====================================================================================*/ - -#include -#include -#include "options.h" -#include -#include "prot.h" -#include "rom_com.h" -#include "basop_proto_func.h" -#include "wmc_auto.h" -#include "prot_fx.h" -#include "prot_fx_enc.h" diff --git a/lib_enc/core_enc_ol_fx.c b/lib_enc/core_enc_ol_fx.c index 04857c334d7130aa8b298baaa0bdb78f8cd5e82e..18f48e904671c41127b9f6d0c7d3bf801dcd555e 100644 --- a/lib_enc/core_enc_ol_fx.c +++ b/lib_enc/core_enc_ol_fx.c @@ -80,10 +80,8 @@ void core_encode_openloop_fx( Word16 w_rf[M + 1], lsf_uq_rf[M + 1]; Word16 lsf_q_1st_rf[M + 1], lsf_q_d_rf[M + 1], lsf_q_rf[M + 1]; Word16 lsp_old_q_rf[M + 1], lsf_old_q_rf[M + 1]; -#ifdef REMOVE_IVAS_UNUSED_PARAMETERS_WARNING (void) vad_hover_flag; (void) vad_flag_dtx; -#endif #ifdef BASOP_NOGLOB_DECLARE_LOCAL Flag Overflow = 0; move32(); diff --git a/lib_enc/core_enc_reconf.c b/lib_enc/core_enc_reconf.c deleted file mode 100644 index 2bffd1728894a7f0899c79889d5f0b99bc024d1c..0000000000000000000000000000000000000000 --- a/lib_enc/core_enc_reconf.c +++ /dev/null @@ -1,346 +0,0 @@ -/****************************************************************************************************** - - (C) 2022-2025 IVAS codec Public Collaboration with portions copyright Dolby International AB, Ericsson AB, - Fraunhofer-Gesellschaft zur Foerderung der angewandten Forschung e.V., Huawei Technologies Co. LTD., - Koninklijke Philips N.V., Nippon Telegraph and Telephone Corporation, Nokia Technologies Oy, Orange, - Panasonic Holdings Corporation, Qualcomm Technologies, Inc., VoiceAge Corporation, and other - contributors to this repository. All Rights Reserved. - - This software is protected by copyright law and by international treaties. - The IVAS codec Public Collaboration consisting of Dolby International AB, Ericsson AB, - Fraunhofer-Gesellschaft zur Foerderung der angewandten Forschung e.V., Huawei Technologies Co. LTD., - Koninklijke Philips N.V., Nippon Telegraph and Telephone Corporation, Nokia Technologies Oy, Orange, - Panasonic Holdings Corporation, Qualcomm Technologies, Inc., VoiceAge Corporation, and other - contributors to this repository retain full ownership rights in their respective contributions in - the software. This notice grants no license of any kind, including but not limited to patent - license, nor is any license granted by implication, estoppel or otherwise. - - Contributors are required to enter into the IVAS codec Public Collaboration agreement before making - contributions. - - This software is provided "AS IS", without any express or implied warranties. The software is in the - development stage. It is intended exclusively for experts who have experience with such software and - solely for the purpose of inspection. All implied warranties of non-infringement, merchantability - and fitness for a particular purpose are hereby disclaimed and excluded. - - Any dispute, controversy or claim arising under or in relation to providing this software shall be - submitted to and settled by the final, binding jurisdiction of the courts of Munich, Germany in - accordance with the laws of the Federal Republic of Germany excluding its conflict of law rules and - the United Nations Convention on Contracts on the International Sales of Goods. - -*******************************************************************************************************/ - -/*==================================================================================== - EVS Codec 3GPP TS26.443 Nov 04, 2021. Version 12.14.0 / 13.10.0 / 14.6.0 / 15.4.0 / 16.3.0 - ====================================================================================*/ - -#include -#include "options.h" -#include "prot.h" -#include "rom_com.h" -#include "rom_enc.h" -#include "wmc_auto.h" -#include "prot_fx.h" - -/*-----------------------------------------------------------------* - * Funtion core_coder_reconfig * - * ~~~~~~~~~~~~~~~~~~~ * - * - reconfig core coder when switching to another frame type * - *-----------------------------------------------------------------*/ - -void core_coder_reconfig_ivas_fx( - Encoder_State *st, - const int32_t last_total_brate ) -{ - Word16 i, bwidth, index; - TCX_ENC_HANDLE hTcxEnc = st->hTcxEnc; - /*Configuration of ACELP*/ - BITS_ALLOC_init_config_acelp( st->total_brate, st->narrowBand, st->nb_subfr, &( st->acelp_cfg ) ); - - /*Configuration of partial copy*/ - IF( st->Opt_RF_ON ) - { - st->hRF->acelp_cfg_rf.mode_index = 1; - st->hRF->acelp_cfg_rf.midLpc = 0; - st->hRF->acelp_cfg_rf.midLpc_enable = 0; - st->hRF->acelp_cfg_rf.pre_emphasis = 0; - st->hRF->acelp_cfg_rf.formant_enh = 1; - st->hRF->acelp_cfg_rf.formant_tilt = 1; - st->hRF->acelp_cfg_rf.voice_tilt = 1; - st->hRF->acelp_cfg_rf.formant_enh_num = FORMANT_SHARPENING_G1; - st->hRF->acelp_cfg_rf.formant_enh_den = FORMANT_SHARPENING_G2; - move16(); - move16(); - move16(); - move16(); - move16(); - move16(); - move16(); - move16(); - move16(); - } - - IF( EQ_16( st->element_mode, IVAS_CPE_MDCT ) ) - { - st->nb_bits_header_tcx = 2; /* signal class */ - move16(); - } - ELSE IF( st->tcxonly ) - { - st->nb_bits_header_tcx = 1 + 1; /*TCX20/TCX10 + last_core*/ - st->nb_bits_header_tcx = add( st->nb_bits_header_tcx, 2 ); /* Siganl class*/ - move16(); - move16(); - } - ELSE - { - st->nb_bits_header_ace = 1 + 2 + 1; /*TCX/ACELP+coder_type + last_core*/ - st->nb_bits_header_tcx = st->nb_bits_header_ace; - move16(); - move16(); - - IF( st->hTcxCfg != NULL ) - { - IF( st->hTcxCfg->lfacNext <= 0 ) - { - st->nb_bits_header_ace = sub( st->nb_bits_header_ace, 1 ); /*No last_core*/ - move16(); - } - } - } - - - /*Switch off TCX or ACELP?*/ - IF( EQ_32( st->sr_core, INT_FS_12k8 ) ) - { - st->acelpEnabled = extract_l( EQ_16( ( s_and( st->restrictedMode, 1 ) ), 1 ) ); - st->tcx20Enabled = extract_l( EQ_16( ( s_and( st->restrictedMode, 2 ) ), 2 ) ); - move16(); - move16(); - } - st->prevEnergyHF_fx = st->currEnergyHF_fx = 1073725440l /*65535.0f Q14*/; /* prevent block switch */ - st->currEnergyHF_e_fx = 17; - move32(); - move16(); - - /*Sanity check : don't need to be instrumented*/ - IF( st->tcxonly == 0 ) - { - assert( st->acelpEnabled || st->tcx20Enabled || st->frame_size_index == 0 ); - } - ELSE - { - assert( st->tcx10Enabled || st->tcx20Enabled || st->frame_size_index == 0 ); - } - - /* TCX-LTP */ - IF( st->hTcxEnc != NULL ) - { - hTcxEnc->tcxltp = getTcxLtp( st->sr_core ); - move16(); - } - - /*Use for 12.8 kHz sampling rate and low bitrates, the conventional pulse search->better SNR*/ - - st->acelp_autocorr = 1; - move16(); - - test(); - if ( ( LE_32( st->total_brate, ACELP_9k60 ) ) && ( EQ_32( st->sr_core, INT_FS_12k8 ) ) ) - { - st->acelp_autocorr = 0; - move16(); - } - - /*Get bandwidth mode*/ - IF( st->narrowBand ) - { - move16(); - bwidth = NB; - } - ELSE IF( LE_32( st->sr_core, INT_FS_16k ) ) - { - move16(); - bwidth = WB; - } - ELSE - { - move16(); - bwidth = SWB; - } - - /*Scale TCX for non-active frames to adjust loudness with ACELP*/ - IF( st->hTcxCfg != NULL ) - { - st->hTcxCfg->na_scale = 32767 /*1.0f Q15*/; - move16(); - - test(); - IF( LT_16( bwidth, 2 ) && ( st->tcxonly == 0 ) ) - { - /*const Word16 scaleTableSize = sizeof(scaleTcxTable) / sizeof(scaleTcxTable[0]);*/ - - FOR( i = 0; i < SIZE_SCALE_TABLE_TCX; i++ ) - { - - test(); - test(); - IF( EQ_16( bwidth, scaleTcxTable[i].bwmode ) && - GE_32( st->total_brate, scaleTcxTable[i].bitrateFrom ) && - LT_32( st->total_brate, scaleTcxTable[i].bitrateTo ) ) - { - if ( st->rf_mode ) - { - i = sub( i, 1 ); - } - move16(); - st->hTcxCfg->na_scale = scaleTcxTable[i].scale; - BREAK; - } - } - } - } - st->enableTcxLpc = 0; - move16(); - IF( GT_16( st->element_mode, IVAS_SCE ) ) - { - test(); - test(); - st->enableTcxLpc = ( EQ_16( st->lpcQuantization, 1 ) && ( LE_32( st->total_brate, LOWRATE_TCXLPC_MAX_BR_CPE ) || st->rf_mode ) ); - move16(); - } - ELSE - { - test(); - test(); - if ( EQ_16( st->lpcQuantization, 1 ) && ( LE_32( st->total_brate, LOWRATE_TCXLPC_MAX_BR ) || st->rf_mode != 0 ) ) - { - st->enableTcxLpc = 1; - move16(); - } - } - test(); - IF( st->ini_frame == 0 || EQ_16( st->last_codec_mode, MODE1 ) ) - { - st->envWeighted = 0; - move16(); - } - - test(); - test(); - test(); - IF( EQ_16( st->bwidth, SWB ) && - ( EQ_32( st->total_brate, ACELP_16k40 ) || EQ_32( st->total_brate, ACELP_24k40 ) ) && st->element_mode == EVS_MONO ) - { - IF( st->tec_tfa == 0 ) - { - FOR( i = 0; i < MAX_TEC_SMOOTHING_DEG; i++ ) - { - st->hTECEnc->loBuffer[i] = 0; - move16(); - } - } - st->tec_tfa = 1; - move16(); - } - ELSE - { - st->tec_tfa = 0; - move16(); - } - - st->enablePlcWaveadjust = 0; - move16(); - if ( GE_32( st->total_brate, HQ_48k ) ) - { - st->enablePlcWaveadjust = 1; - move16(); - } - - - move16(); - st->glr = 0; - test(); - test(); - test(); - if ( ( EQ_32( st->total_brate, ACELP_9k60 ) || EQ_32( st->total_brate, ACELP_16k40 ) || EQ_32( st->total_brate, ACELP_24k40 ) ) && ( st->element_mode == EVS_MONO ) ) - { - move16(); - st->glr = 1; - } - - IF( st->glr ) - { - move16(); - st->nb_bits_header_ace = add( st->nb_bits_header_ace, G_LPC_RECOVERY_BITS ); - } - IF( hTcxEnc != NULL ) - { - test(); - IF( EQ_16( st->bwidth, NB ) || EQ_16( st->bwidth, WB ) ) - { - IF( st->rf_mode == 0 ) - { - index = s_min( N_TCX_STARTLINE_NOISE_WB - 1, s_max( 3, st->frame_size_index ) ); - } - ELSE - { - index = s_min( N_TCX_STARTLINE_NOISE_WB - 1, s_max( 3, st->frame_size_index - 1 ) ); - } - hTcxEnc->nmStartLine = startLineWB[index]; - move16(); - } - ELSE /* (st->bwidth == SWB || st->bwidth == FB) */ - { - IF( st->rf_mode == 0 ) - { - index = s_min( N_TCX_STARTLINE_NOISE_SWB - 1, sub( s_max( 3, st->frame_size_index ), 3 ) ); - } - ELSE - { - index = s_min( N_TCX_STARTLINE_NOISE_SWB - 1, sub( s_max( 3, st->frame_size_index - 1 ), 3 ) ); - } - test(); - test(); - if ( GE_32( st->total_brate, IVAS_96k ) && LE_32( st->total_brate, IVAS_192k ) && GT_16( st->element_mode, IVAS_SCE ) ) - { - index = sub( index, 1 ); - } - hTcxEnc->nmStartLine = startLineSWB[index]; - move16(); - test(); - test(); - IF( EQ_32( st->total_brate, IVAS_48k ) && EQ_16( st->element_mode, IVAS_CPE_MDCT ) && LT_16( add( hTcxEnc->nmStartLine, shl( hTcxEnc->nmStartLine, 2 ) ), shl( st->L_frame, 2 ) ) ) - { - hTcxEnc->nmStartLine = shr( add( hTcxEnc->nmStartLine, shl( hTcxEnc->nmStartLine, 2 ) ), 2 ); /* low-rate stereo is more efficient than dual-mono due to stereo processing */ - move16(); - } - } - } - - IF( hTcxEnc != NULL ) - { - test(); - test(); - test(); - test(); - test(); - IF( ( LT_32( st->total_brate, ACELP_24k40 ) ) && ( ( GT_32( st->total_brate, last_total_brate ) ) || ( EQ_16( st->last_codec_mode, MODE1 ) ) ) ) - { - /* low-freq memQuantZeros_fx must be reset partially if bitrate increased */ - FOR( i = 0; i < hTcxEnc->nmStartLine; i++ ) - { - hTcxEnc->memQuantZeros[i] = 0; - move16(); - } - } - ELSE IF( ( GE_32( st->total_brate, ACELP_24k40 ) ) && ( LE_32( st->total_brate, ACELP_32k ) ) && ( GE_32( last_total_brate, ACELP_13k20 ) ) && ( LT_32( last_total_brate, ACELP_24k40 ) ) ) - { - FOR( i = 0; i < st->L_frame; i++ ) /* memQuantZeros_fx won't be updated */ - { - hTcxEnc->memQuantZeros[i] = 0; - move16(); - } - } - } -} diff --git a/lib_enc/core_enc_reconf_fx.c b/lib_enc/core_enc_reconf_fx.c index 3140422be5d88531fba60b90693049aa84388a8b..9e7380aaa8329662fb6ef5546e90a51b6a0f2c7b 100644 --- a/lib_enc/core_enc_reconf_fx.c +++ b/lib_enc/core_enc_reconf_fx.c @@ -24,9 +24,7 @@ void core_coder_reconfig_fx( { Word16 i, bwidth, index; TCX_ENC_HANDLE hTcxEnc = st->hTcxEnc; -#ifdef REMOVE_IVAS_UNUSED_PARAMETERS_WARNING (void) last_total_brate; -#endif /*Configuration of ACELP*/ BITS_ALLOC_init_config_acelp( st->total_brate, st->narrowBand, st->nb_subfr, &( st->acelp_cfg ) ); @@ -334,3 +332,307 @@ void core_coder_reconfig_fx( } } } + + +/*-----------------------------------------------------------------* + * Funtion core_coder_reconfig * + * ~~~~~~~~~~~~~~~~~~~ * + * - reconfig core coder when switching to another frame type * + *-----------------------------------------------------------------*/ + +void core_coder_reconfig_ivas_fx( + Encoder_State *st, + const Word32 last_total_brate ) +{ + Word16 i, bwidth, index; + TCX_ENC_HANDLE hTcxEnc = st->hTcxEnc; + /*Configuration of ACELP*/ + BITS_ALLOC_init_config_acelp( st->total_brate, st->narrowBand, st->nb_subfr, &( st->acelp_cfg ) ); + + /*Configuration of partial copy*/ + IF( st->Opt_RF_ON ) + { + st->hRF->acelp_cfg_rf.mode_index = 1; + st->hRF->acelp_cfg_rf.midLpc = 0; + st->hRF->acelp_cfg_rf.midLpc_enable = 0; + st->hRF->acelp_cfg_rf.pre_emphasis = 0; + st->hRF->acelp_cfg_rf.formant_enh = 1; + st->hRF->acelp_cfg_rf.formant_tilt = 1; + st->hRF->acelp_cfg_rf.voice_tilt = 1; + st->hRF->acelp_cfg_rf.formant_enh_num = FORMANT_SHARPENING_G1; + st->hRF->acelp_cfg_rf.formant_enh_den = FORMANT_SHARPENING_G2; + move16(); + move16(); + move16(); + move16(); + move16(); + move16(); + move16(); + move16(); + move16(); + } + + IF( EQ_16( st->element_mode, IVAS_CPE_MDCT ) ) + { + st->nb_bits_header_tcx = 2; /* signal class */ + move16(); + } + ELSE IF( st->tcxonly ) + { + st->nb_bits_header_tcx = 1 + 1; /*TCX20/TCX10 + last_core*/ + st->nb_bits_header_tcx = add( st->nb_bits_header_tcx, 2 ); /* Siganl class*/ + move16(); + move16(); + } + ELSE + { + st->nb_bits_header_ace = 1 + 2 + 1; /*TCX/ACELP+coder_type + last_core*/ + st->nb_bits_header_tcx = st->nb_bits_header_ace; + move16(); + move16(); + + IF( st->hTcxCfg != NULL ) + { + IF( st->hTcxCfg->lfacNext <= 0 ) + { + st->nb_bits_header_ace = sub( st->nb_bits_header_ace, 1 ); /*No last_core*/ + move16(); + } + } + } + + + /*Switch off TCX or ACELP?*/ + IF( EQ_32( st->sr_core, INT_FS_12k8 ) ) + { + st->acelpEnabled = extract_l( EQ_16( ( s_and( st->restrictedMode, 1 ) ), 1 ) ); + st->tcx20Enabled = extract_l( EQ_16( ( s_and( st->restrictedMode, 2 ) ), 2 ) ); + move16(); + move16(); + } + st->prevEnergyHF_fx = st->currEnergyHF_fx = 1073725440l /*65535.0f Q14*/; /* prevent block switch */ + st->currEnergyHF_e_fx = 17; + move32(); + move16(); + + /*Sanity check : don't need to be instrumented*/ + IF( st->tcxonly == 0 ) + { + assert( st->acelpEnabled || st->tcx20Enabled || st->frame_size_index == 0 ); + } + ELSE + { + assert( st->tcx10Enabled || st->tcx20Enabled || st->frame_size_index == 0 ); + } + + /* TCX-LTP */ + IF( st->hTcxEnc != NULL ) + { + hTcxEnc->tcxltp = getTcxLtp( st->sr_core ); + move16(); + } + + /*Use for 12.8 kHz sampling rate and low bitrates, the conventional pulse search->better SNR*/ + + st->acelp_autocorr = 1; + move16(); + + test(); + if ( ( LE_32( st->total_brate, ACELP_9k60 ) ) && ( EQ_32( st->sr_core, INT_FS_12k8 ) ) ) + { + st->acelp_autocorr = 0; + move16(); + } + + /*Get bandwidth mode*/ + IF( st->narrowBand ) + { + move16(); + bwidth = NB; + } + ELSE IF( LE_32( st->sr_core, INT_FS_16k ) ) + { + move16(); + bwidth = WB; + } + ELSE + { + move16(); + bwidth = SWB; + } + + /*Scale TCX for non-active frames to adjust loudness with ACELP*/ + IF( st->hTcxCfg != NULL ) + { + st->hTcxCfg->na_scale = 32767 /*1.0f Q15*/; + move16(); + + test(); + IF( LT_16( bwidth, 2 ) && ( st->tcxonly == 0 ) ) + { + /*const Word16 scaleTableSize = sizeof(scaleTcxTable) / sizeof(scaleTcxTable[0]);*/ + + FOR( i = 0; i < SIZE_SCALE_TABLE_TCX; i++ ) + { + + test(); + test(); + IF( EQ_16( bwidth, scaleTcxTable[i].bwmode ) && + GE_32( st->total_brate, scaleTcxTable[i].bitrateFrom ) && + LT_32( st->total_brate, scaleTcxTable[i].bitrateTo ) ) + { + if ( st->rf_mode ) + { + i = sub( i, 1 ); + } + move16(); + st->hTcxCfg->na_scale = scaleTcxTable[i].scale; + BREAK; + } + } + } + } + st->enableTcxLpc = 0; + move16(); + IF( GT_16( st->element_mode, IVAS_SCE ) ) + { + test(); + test(); + st->enableTcxLpc = ( EQ_16( st->lpcQuantization, 1 ) && ( LE_32( st->total_brate, LOWRATE_TCXLPC_MAX_BR_CPE ) || st->rf_mode ) ); + move16(); + } + ELSE + { + test(); + test(); + if ( EQ_16( st->lpcQuantization, 1 ) && ( LE_32( st->total_brate, LOWRATE_TCXLPC_MAX_BR ) || st->rf_mode != 0 ) ) + { + st->enableTcxLpc = 1; + move16(); + } + } + test(); + IF( st->ini_frame == 0 || EQ_16( st->last_codec_mode, MODE1 ) ) + { + st->envWeighted = 0; + move16(); + } + + test(); + test(); + test(); + IF( EQ_16( st->bwidth, SWB ) && + ( EQ_32( st->total_brate, ACELP_16k40 ) || EQ_32( st->total_brate, ACELP_24k40 ) ) && st->element_mode == EVS_MONO ) + { + IF( st->tec_tfa == 0 ) + { + FOR( i = 0; i < MAX_TEC_SMOOTHING_DEG; i++ ) + { + st->hTECEnc->loBuffer[i] = 0; + move16(); + } + } + st->tec_tfa = 1; + move16(); + } + ELSE + { + st->tec_tfa = 0; + move16(); + } + + st->enablePlcWaveadjust = 0; + move16(); + if ( GE_32( st->total_brate, HQ_48k ) ) + { + st->enablePlcWaveadjust = 1; + move16(); + } + + + move16(); + st->glr = 0; + test(); + test(); + test(); + if ( ( EQ_32( st->total_brate, ACELP_9k60 ) || EQ_32( st->total_brate, ACELP_16k40 ) || EQ_32( st->total_brate, ACELP_24k40 ) ) && ( st->element_mode == EVS_MONO ) ) + { + move16(); + st->glr = 1; + } + + IF( st->glr ) + { + move16(); + st->nb_bits_header_ace = add( st->nb_bits_header_ace, G_LPC_RECOVERY_BITS ); + } + IF( hTcxEnc != NULL ) + { + test(); + IF( EQ_16( st->bwidth, NB ) || EQ_16( st->bwidth, WB ) ) + { + IF( st->rf_mode == 0 ) + { + index = s_min( N_TCX_STARTLINE_NOISE_WB - 1, s_max( 3, st->frame_size_index ) ); + } + ELSE + { + index = s_min( N_TCX_STARTLINE_NOISE_WB - 1, s_max( 3, st->frame_size_index - 1 ) ); + } + hTcxEnc->nmStartLine = startLineWB[index]; + move16(); + } + ELSE /* (st->bwidth == SWB || st->bwidth == FB) */ + { + IF( st->rf_mode == 0 ) + { + index = s_min( N_TCX_STARTLINE_NOISE_SWB - 1, sub( s_max( 3, st->frame_size_index ), 3 ) ); + } + ELSE + { + index = s_min( N_TCX_STARTLINE_NOISE_SWB - 1, sub( s_max( 3, st->frame_size_index - 1 ), 3 ) ); + } + test(); + test(); + if ( GE_32( st->total_brate, IVAS_96k ) && LE_32( st->total_brate, IVAS_192k ) && GT_16( st->element_mode, IVAS_SCE ) ) + { + index = sub( index, 1 ); + } + hTcxEnc->nmStartLine = startLineSWB[index]; + move16(); + test(); + test(); + IF( EQ_32( st->total_brate, IVAS_48k ) && EQ_16( st->element_mode, IVAS_CPE_MDCT ) && LT_16( add( hTcxEnc->nmStartLine, shl( hTcxEnc->nmStartLine, 2 ) ), shl( st->L_frame, 2 ) ) ) + { + hTcxEnc->nmStartLine = shr( add( hTcxEnc->nmStartLine, shl( hTcxEnc->nmStartLine, 2 ) ), 2 ); /* low-rate stereo is more efficient than dual-mono due to stereo processing */ + move16(); + } + } + } + + IF( hTcxEnc != NULL ) + { + test(); + test(); + test(); + test(); + test(); + IF( ( LT_32( st->total_brate, ACELP_24k40 ) ) && ( ( GT_32( st->total_brate, last_total_brate ) ) || ( EQ_16( st->last_codec_mode, MODE1 ) ) ) ) + { + /* low-freq memQuantZeros_fx must be reset partially if bitrate increased */ + FOR( i = 0; i < hTcxEnc->nmStartLine; i++ ) + { + hTcxEnc->memQuantZeros[i] = 0; + move16(); + } + } + ELSE IF( ( GE_32( st->total_brate, ACELP_24k40 ) ) && ( LE_32( st->total_brate, ACELP_32k ) ) && ( GE_32( last_total_brate, ACELP_13k20 ) ) && ( LT_32( last_total_brate, ACELP_24k40 ) ) ) + { + FOR( i = 0; i < st->L_frame; i++ ) /* memQuantZeros_fx won't be updated */ + { + hTcxEnc->memQuantZeros[i] = 0; + move16(); + } + } + } +} diff --git a/lib_enc/core_enc_switch.c b/lib_enc/core_enc_switch.c deleted file mode 100644 index f2375fb506cb7b0aa0ec05a5bbfedc99f0796991..0000000000000000000000000000000000000000 --- a/lib_enc/core_enc_switch.c +++ /dev/null @@ -1,302 +0,0 @@ -/****************************************************************************************************** - - (C) 2022-2025 IVAS codec Public Collaboration with portions copyright Dolby International AB, Ericsson AB, - Fraunhofer-Gesellschaft zur Foerderung der angewandten Forschung e.V., Huawei Technologies Co. LTD., - Koninklijke Philips N.V., Nippon Telegraph and Telephone Corporation, Nokia Technologies Oy, Orange, - Panasonic Holdings Corporation, Qualcomm Technologies, Inc., VoiceAge Corporation, and other - contributors to this repository. All Rights Reserved. - - This software is protected by copyright law and by international treaties. - The IVAS codec Public Collaboration consisting of Dolby International AB, Ericsson AB, - Fraunhofer-Gesellschaft zur Foerderung der angewandten Forschung e.V., Huawei Technologies Co. LTD., - Koninklijke Philips N.V., Nippon Telegraph and Telephone Corporation, Nokia Technologies Oy, Orange, - Panasonic Holdings Corporation, Qualcomm Technologies, Inc., VoiceAge Corporation, and other - contributors to this repository retain full ownership rights in their respective contributions in - the software. This notice grants no license of any kind, including but not limited to patent - license, nor is any license granted by implication, estoppel or otherwise. - - Contributors are required to enter into the IVAS codec Public Collaboration agreement before making - contributions. - - This software is provided "AS IS", without any express or implied warranties. The software is in the - development stage. It is intended exclusively for experts who have experience with such software and - solely for the purpose of inspection. All implied warranties of non-infringement, merchantability - and fitness for a particular purpose are hereby disclaimed and excluded. - - Any dispute, controversy or claim arising under or in relation to providing this software shall be - submitted to and settled by the final, binding jurisdiction of the courts of Munich, Germany in - accordance with the laws of the Federal Republic of Germany excluding its conflict of law rules and - the United Nations Convention on Contracts on the International Sales of Goods. - -*******************************************************************************************************/ - -/*==================================================================================== - EVS Codec 3GPP TS26.443 Nov 04, 2021. Version 12.14.0 / 13.10.0 / 14.6.0 / 15.4.0 / 16.3.0 - ====================================================================================*/ - -#include -#include "options.h" -#include "prot.h" -#include "rom_com.h" -#include "wmc_auto.h" -#include "prot_fx.h" -#include "prot_fx_enc.h" - - -/*-------------------------------------------------------------------* - * core_coder_mode_switch() - * - * - *-------------------------------------------------------------------*/ -void core_coder_mode_switch_ivas_fx( - Encoder_State *st, /* i/o: encoder state structure */ - const Word32 last_total_brate, /* i : last bitrate */ - const Word16 MCT_flag /* i : hMCT handle allocated (1) or not (0)*/ -) -{ - TCX_ENC_HANDLE hTcxEnc = st->hTcxEnc; - Word16 i, fscale, switchWB; - Word32 sr_core; - Word16 bSwitchFromAmrwbIO; - Word16 tcxonly_tmp, exp_res; - - switchWB = 0; - move16(); - bSwitchFromAmrwbIO = 0; - move16(); - exp_res = 0; - move16(); - - - if ( EQ_16( st->last_core, AMR_WB_CORE ) ) - { - bSwitchFromAmrwbIO = 1; - move16(); - } - - /* force active frame for the first frame when switching from high bitrates when DTX is enabled*/ - sr_core = getCoreSamplerateMode2( st->element_mode, st->total_brate, st->bwidth, st->flag_ACELP16k, st->rf_mode, st->is_ism_format ); - - fscale = sr2fscale_fx( sr_core ); - if ( EQ_16( st->last_codec_mode, MODE1 ) ) - { - switchWB = 1; /*force init when coming from MODE1*/ - move16(); - } - - tcxonly_tmp = getTcxonly_fx( st->element_mode, st->total_brate, MCT_flag, st->is_ism_format ); - - if ( NE_32( tcxonly_tmp, st->tcxonly ) ) - { - switchWB = 1; /*force init when coming from MODE1*/ - move16(); - } - - test(); - test(); - IF( EQ_32( fscale, st->fscale ) && !bSwitchFromAmrwbIO && !switchWB ) - { - st->sr_core = sr_core; - move16(); - Word16 tmp = BASOP_Util_Divide3232_Scale( sr_core, FRAMES_PER_SEC, &exp_res ); - st->L_frame = shr( tmp, sub( 15, exp_res ) ); // Q0 - move16(); - - st->tcxonly = getTcxonly_fx( st->element_mode, st->total_brate, MCT_flag, st->is_ism_format ); - move16(); - - Word16 exp_tmp1 = 0; - move16(); - Word16 tmp1 = BASOP_Util_Divide1616_Scale( ONE_IN_Q9, 128, &exp_tmp1 ); - - Word16 exp_tmp2 = 0; - move16(); - Word16 tmp2 = BASOP_Util_Divide3232_Scale( st->total_brate, 100, &exp_tmp2 ); - - Word16 exp_tmp3 = 0; - move16(); - Word16 tmp3 = BASOP_Util_Divide3232_Scale( st->L_frame, st->fscale, &exp_tmp3 ); - - Word32 tmp4 = L_mult0( tmp1, tmp2 ); // exp_tmp1 + exp_tmp2 - Word32 tmp5 = L_shl( Mpy_32_16_1( tmp4, tmp3 ), 1 ); // exp_tmp1 + exp_tmp2 + exp_tmp3 - st->bits_frame_nominal = extract_l( L_shr( tmp5, sub( 31, ( add( add( exp_tmp1, exp_tmp2 ), exp_tmp3 ) ) ) ) ); - move16(); - st->igf = getIgfPresent_fx( st->element_mode, st->total_brate, st->bwidth, st->rf_mode ); - move16(); - /* switch IGF configuration */ - IF( st->igf ) - { - IGFEncSetMode_fx( st->hIGFEnc, st->total_brate, st->bwidth, st->element_mode, st->rf_mode ); - } - st->hTcxCfg->tcx_coded_lines = getNumTcxCodedLines( st->bwidth ); - move16(); - - st->hTcxCfg->bandwidth = getTcxBandwidth( st->bwidth ); - move16(); - if ( st->tcxonly ) - { - st->hTcxCfg->tcxRateLoopOpt = 2; - move16(); - } - else - { - st->hTcxCfg->tcxRateLoopOpt = 0; - move16(); - } - if ( EQ_16( st->element_mode, IVAS_CPE_MDCT ) ) - { - st->hTcxCfg->tcxRateLoopOpt = 3; - move16(); - } - st->hTcxCfg->ctx_hm = getCtxHm( st->element_mode, st->total_brate, st->rf_mode ); - st->hTcxCfg->resq = getResq( st->total_brate ); - hTcxEnc->tcx_lpc_shaped_ari = getTcxLpcShapedAri( st->total_brate, st->rf_mode, st->element_mode ); - test(); - if ( st->hTcxCfg->resq && !st->tcxonly ) - { - st->hTcxCfg->tcxRateLoopOpt = 1; - move16(); - } - st->hTcxCfg->fIsTNSAllowed = getTnsAllowed( st->total_brate, st->igf, st->element_mode ); - move16(); - move16(); - move16(); - move16(); - move16(); - move16(); - move16(); - - IF( st->hTcxCfg->fIsTNSAllowed ) - { - InitTnsConfigs_ivas_fx( st->bwidth, st->hTcxCfg->tcx_coded_lines, st->hTcxCfg->tnsConfig, st->hIGFEnc->infoStopFrequency, st->total_brate, st->element_mode, MCT_flag ); - - SetAllowTnsOnWhite( st->hTcxCfg->tnsConfig, st->element_mode == IVAS_CPE_MDCT ); - } - - IF( EQ_16( st->bwidth, NB ) ) - { - st->narrowBand = 1; - st->min_band = 1; - st->max_band = 16; - } - ELSE - { - st->narrowBand = 0; - st->min_band = 0; - st->max_band = 19; - } - - move16(); - move16(); - move16(); - - FOR( i = 0; i < FRAME_SIZE_NB; i++ ) - { - IF( EQ_32( FrameSizeConfig[i].frame_bits, st->bits_frame_nominal ) ) - { - st->frame_size_index = i; - st->bits_frame = FrameSizeConfig[i].frame_bits; - st->bits_frame_core = FrameSizeConfig[i].frame_net_bits; - move16(); - move16(); - move16(); - BREAK; - } - } - - st->restrictedMode = getRestrictedMode( st->element_mode, st->total_brate, 0 ); - move16(); - core_coder_reconfig_ivas_fx( st, last_total_brate ); - } - ELSE - { - st->igf = getIgfPresent_fx( st->element_mode, st->total_brate, st->bwidth, st->rf_mode ); - move16(); - IF( hTcxEnc != NULL ) - { - hTcxEnc->L_frameTCX = extract_l( Mult_32_16( st->input_Fs, 0x0290 ) ); /* 0x0290 is 1/FRAMES_PER_SEC in Q15*/ - move16(); - } - st->currEnergyHF_fx = 0; - move32(); - st->currEnergyHF_e_fx = 0; - move16(); - Word16 shift = getScaleFactor16( st->old_inp_16k_fx, L_INP_MEM ); - Scale_sig( st->old_inp_16k_fx, L_INP_MEM, shift ); - st->exp_old_inp_16k = sub( st->exp_old_inp_16k, shift ); - move16(); - shift = getScaleFactor16( st->old_inp_12k8_fx, L_INP_MEM ); - Scale_sig( st->old_inp_12k8_fx, L_INP_MEM, shift ); - st->exp_old_inp_12k8 = sub( st->exp_old_inp_12k8, shift ); - move16(); -#ifdef FIX_920_IGF_INIT_ERROR - init_coder_ace_plus_ivas_fx( st, last_total_brate, st->total_brate, MCT_flag ); -#else - init_coder_ace_plus_ivas_fx( st, last_total_brate, MCT_flag ); -#endif - if ( st->hLPDmem != NULL ) - { - st->hLPDmem->q_lpd_old_exc = st->prev_Q_new; - move16(); - } - } - - test(); - IF( st->igf && st->hBWE_TD != NULL ) - { - /* reset TBE */ - test(); - test(); - test(); - test(); - test(); - IF( ( EQ_16( st->bwidth, WB ) && NE_16( st->last_extl, WB_TBE ) ) || - ( EQ_16( st->bwidth, SWB ) && NE_16( st->last_extl, SWB_TBE ) ) || - ( EQ_16( st->bwidth, FB ) && NE_16( st->last_extl, FB_TBE ) ) ) - { - TBEreset_enc_fx( st, st->bwidth ); - } - ELSE - { - set16_fx( st->hBWE_TD->state_lpc_syn_fx, 0, LPC_SHB_ORDER ); - set16_fx( st->hBWE_TD->state_syn_shbexc_fx, 0, L_SHB_LAHEAD ); - set16_fx( st->hBWE_TD->mem_stp_swb_fx, 0, LPC_SHB_ORDER ); - set16_fx( st->hBWE_TD->mem_zero_swb_fx, 0, LPC_SHB_ORDER ); - st->hBWE_TD->gain_prec_swb_fx = ONE_IN_Q14; - move16(); - } - } - test(); - IF( st->envWeighted && !st->enableTcxLpc ) - { - /* Unweight the envelope */ - st->inv_gamma = BASOP_Util_Divide1616_Scale( MAX16B, st->gamma, &exp_res ); - move16(); - st->inv_gamma = shr( st->inv_gamma, sub( Q1, exp_res ) ); /* Q14 */ - move16(); - E_LPC_lsp_unweight( st->lsp_old_fx, st->lsp_old_fx, st->lsf_old_fx, st->inv_gamma, M ); - st->envWeighted = 0; - move16(); - } - - IF( GE_32( st->total_brate, HQ_48k ) ) - { - st->enablePlcWaveadjust = 1; - move16(); - } - ELSE - { - st->enablePlcWaveadjust = 0; - move16(); - } - - test(); - test(); - if ( ( GT_32( last_total_brate, HQ_32k ) || EQ_16( st->last_codec_mode, MODE1 ) ) && ( st->element_mode == EVS_MONO ) ) - { - st->glr_reset = 1; - move16(); - } - - return; -} diff --git a/lib_enc/core_enc_switch_fx.c b/lib_enc/core_enc_switch_fx.c index 1096cfb492cb75edc8ad6ba65069ae4690ec5ef6..2f21f1015672d3762613434dc5f43bfbb5482074 100644 --- a/lib_enc/core_enc_switch_fx.c +++ b/lib_enc/core_enc_switch_fx.c @@ -4,14 +4,11 @@ #include #include #include "options.h" -#include "prot.h" -//#include "prot_fx.h" -//#include "basop_mpy.h" +#include "prot_fx.h" #include "cnst.h" /* Common constants */ #include "ivas_cnst.h" #include "rom_com_fx.h" #include "rom_com.h" /* Common constants */ -#include "prot_fx.h" /* Function prototypes */ #include "prot_fx_enc.h" /* Function prototypes */ #include "basop_util.h" /* Function prototypes */ @@ -223,3 +220,258 @@ void core_coder_mode_switch_fx( st->glr_reset = 1; } } + + +/*-------------------------------------------------------------------* + * core_coder_mode_switch() + * + * + *-------------------------------------------------------------------*/ +void core_coder_mode_switch_ivas_fx( + Encoder_State *st, /* i/o: encoder state structure */ + const Word32 last_total_brate, /* i : last bitrate */ + const Word16 MCT_flag /* i : hMCT handle allocated (1) or not (0)*/ +) +{ + TCX_ENC_HANDLE hTcxEnc = st->hTcxEnc; + Word16 i, fscale, switchWB; + Word32 sr_core; + Word16 bSwitchFromAmrwbIO; + Word16 tcxonly_tmp, exp_res; + + switchWB = 0; + move16(); + bSwitchFromAmrwbIO = 0; + move16(); + exp_res = 0; + move16(); + + + if ( EQ_16( st->last_core, AMR_WB_CORE ) ) + { + bSwitchFromAmrwbIO = 1; + move16(); + } + + /* force active frame for the first frame when switching from high bitrates when DTX is enabled*/ + sr_core = getCoreSamplerateMode2( st->element_mode, st->total_brate, st->bwidth, st->flag_ACELP16k, st->rf_mode, st->is_ism_format ); + + fscale = sr2fscale_fx( sr_core ); + if ( EQ_16( st->last_codec_mode, MODE1 ) ) + { + switchWB = 1; /*force init when coming from MODE1*/ + move16(); + } + + tcxonly_tmp = getTcxonly_fx( st->element_mode, st->total_brate, MCT_flag, st->is_ism_format ); + + if ( NE_32( tcxonly_tmp, st->tcxonly ) ) + { + switchWB = 1; /*force init when coming from MODE1*/ + move16(); + } + + test(); + test(); + IF( EQ_32( fscale, st->fscale ) && !bSwitchFromAmrwbIO && !switchWB ) + { + st->sr_core = sr_core; + move16(); + Word16 tmp = BASOP_Util_Divide3232_Scale( sr_core, FRAMES_PER_SEC, &exp_res ); + st->L_frame = shr( tmp, sub( 15, exp_res ) ); // Q0 + move16(); + + st->tcxonly = getTcxonly_fx( st->element_mode, st->total_brate, MCT_flag, st->is_ism_format ); + move16(); + + Word16 exp_tmp1 = 0; + move16(); + Word16 tmp1 = BASOP_Util_Divide1616_Scale( ONE_IN_Q9, 128, &exp_tmp1 ); + + Word16 exp_tmp2 = 0; + move16(); + Word16 tmp2 = BASOP_Util_Divide3232_Scale( st->total_brate, 100, &exp_tmp2 ); + + Word16 exp_tmp3 = 0; + move16(); + Word16 tmp3 = BASOP_Util_Divide3232_Scale( st->L_frame, st->fscale, &exp_tmp3 ); + + Word32 tmp4 = L_mult0( tmp1, tmp2 ); // exp_tmp1 + exp_tmp2 + Word32 tmp5 = L_shl( Mpy_32_16_1( tmp4, tmp3 ), 1 ); // exp_tmp1 + exp_tmp2 + exp_tmp3 + st->bits_frame_nominal = extract_l( L_shr( tmp5, sub( 31, ( add( add( exp_tmp1, exp_tmp2 ), exp_tmp3 ) ) ) ) ); + move16(); + st->igf = getIgfPresent_fx( st->element_mode, st->total_brate, st->bwidth, st->rf_mode ); + move16(); + /* switch IGF configuration */ + IF( st->igf ) + { + IGFEncSetMode_fx( st->hIGFEnc, st->total_brate, st->bwidth, st->element_mode, st->rf_mode ); + } + st->hTcxCfg->tcx_coded_lines = getNumTcxCodedLines( st->bwidth ); + move16(); + + st->hTcxCfg->bandwidth = getTcxBandwidth( st->bwidth ); + move16(); + if ( st->tcxonly ) + { + st->hTcxCfg->tcxRateLoopOpt = 2; + move16(); + } + else + { + st->hTcxCfg->tcxRateLoopOpt = 0; + move16(); + } + if ( EQ_16( st->element_mode, IVAS_CPE_MDCT ) ) + { + st->hTcxCfg->tcxRateLoopOpt = 3; + move16(); + } + st->hTcxCfg->ctx_hm = getCtxHm( st->element_mode, st->total_brate, st->rf_mode ); + st->hTcxCfg->resq = getResq( st->total_brate ); + hTcxEnc->tcx_lpc_shaped_ari = getTcxLpcShapedAri( st->total_brate, st->rf_mode, st->element_mode ); + test(); + if ( st->hTcxCfg->resq && !st->tcxonly ) + { + st->hTcxCfg->tcxRateLoopOpt = 1; + move16(); + } + st->hTcxCfg->fIsTNSAllowed = getTnsAllowed( st->total_brate, st->igf, st->element_mode ); + move16(); + move16(); + move16(); + move16(); + move16(); + move16(); + move16(); + + IF( st->hTcxCfg->fIsTNSAllowed ) + { + InitTnsConfigs_ivas_fx( st->bwidth, st->hTcxCfg->tcx_coded_lines, st->hTcxCfg->tnsConfig, st->hIGFEnc->infoStopFrequency, st->total_brate, st->element_mode, MCT_flag ); + + SetAllowTnsOnWhite( st->hTcxCfg->tnsConfig, st->element_mode == IVAS_CPE_MDCT ); + } + + IF( EQ_16( st->bwidth, NB ) ) + { + st->narrowBand = 1; + st->min_band = 1; + st->max_band = 16; + } + ELSE + { + st->narrowBand = 0; + st->min_band = 0; + st->max_band = 19; + } + + move16(); + move16(); + move16(); + + FOR( i = 0; i < FRAME_SIZE_NB; i++ ) + { + IF( EQ_32( FrameSizeConfig[i].frame_bits, st->bits_frame_nominal ) ) + { + st->frame_size_index = i; + st->bits_frame = FrameSizeConfig[i].frame_bits; + st->bits_frame_core = FrameSizeConfig[i].frame_net_bits; + move16(); + move16(); + move16(); + BREAK; + } + } + + st->restrictedMode = getRestrictedMode( st->element_mode, st->total_brate, 0 ); + move16(); + core_coder_reconfig_ivas_fx( st, last_total_brate ); + } + ELSE + { + st->igf = getIgfPresent_fx( st->element_mode, st->total_brate, st->bwidth, st->rf_mode ); + move16(); + IF( hTcxEnc != NULL ) + { + hTcxEnc->L_frameTCX = extract_l( Mult_32_16( st->input_Fs, 0x0290 ) ); /* 0x0290 is 1/FRAMES_PER_SEC in Q15*/ + move16(); + } + st->currEnergyHF_fx = 0; + move32(); + st->currEnergyHF_e_fx = 0; + move16(); + Word16 shift = getScaleFactor16( st->old_inp_16k_fx, L_INP_MEM ); + Scale_sig( st->old_inp_16k_fx, L_INP_MEM, shift ); + st->exp_old_inp_16k = sub( st->exp_old_inp_16k, shift ); + move16(); + shift = getScaleFactor16( st->old_inp_12k8_fx, L_INP_MEM ); + Scale_sig( st->old_inp_12k8_fx, L_INP_MEM, shift ); + st->exp_old_inp_12k8 = sub( st->exp_old_inp_12k8, shift ); + move16(); + init_coder_ace_plus_ivas_fx( st, last_total_brate, st->total_brate, MCT_flag ); + if ( st->hLPDmem != NULL ) + { + st->hLPDmem->q_lpd_old_exc = st->prev_Q_new; + move16(); + } + } + + test(); + IF( st->igf && st->hBWE_TD != NULL ) + { + /* reset TBE */ + test(); + test(); + test(); + test(); + test(); + IF( ( EQ_16( st->bwidth, WB ) && NE_16( st->last_extl, WB_TBE ) ) || + ( EQ_16( st->bwidth, SWB ) && NE_16( st->last_extl, SWB_TBE ) ) || + ( EQ_16( st->bwidth, FB ) && NE_16( st->last_extl, FB_TBE ) ) ) + { + TBEreset_enc_fx( st, st->bwidth ); + } + ELSE + { + set16_fx( st->hBWE_TD->state_lpc_syn_fx, 0, LPC_SHB_ORDER ); + set16_fx( st->hBWE_TD->state_syn_shbexc_fx, 0, L_SHB_LAHEAD ); + set16_fx( st->hBWE_TD->mem_stp_swb_fx, 0, LPC_SHB_ORDER ); + set16_fx( st->hBWE_TD->mem_zero_swb_fx, 0, LPC_SHB_ORDER ); + st->hBWE_TD->gain_prec_swb_fx = ONE_IN_Q14; + move16(); + } + } + test(); + IF( st->envWeighted && !st->enableTcxLpc ) + { + /* Unweight the envelope */ + st->inv_gamma = BASOP_Util_Divide1616_Scale( MAX16B, st->gamma, &exp_res ); + move16(); + st->inv_gamma = shr( st->inv_gamma, sub( Q1, exp_res ) ); /* Q14 */ + move16(); + E_LPC_lsp_unweight( st->lsp_old_fx, st->lsp_old_fx, st->lsf_old_fx, st->inv_gamma, M ); + st->envWeighted = 0; + move16(); + } + + IF( GE_32( st->total_brate, HQ_48k ) ) + { + st->enablePlcWaveadjust = 1; + move16(); + } + ELSE + { + st->enablePlcWaveadjust = 0; + move16(); + } + + test(); + test(); + if ( ( GT_32( last_total_brate, HQ_32k ) || EQ_16( st->last_codec_mode, MODE1 ) ) && ( st->element_mode == EVS_MONO ) ) + { + st->glr_reset = 1; + move16(); + } + + return; +} diff --git a/lib_enc/core_enc_updt.c b/lib_enc/core_enc_updt.c deleted file mode 100644 index 4533af002e1ec4f813811a081998aba6335782e3..0000000000000000000000000000000000000000 --- a/lib_enc/core_enc_updt.c +++ /dev/null @@ -1,117 +0,0 @@ -/****************************************************************************************************** - - (C) 2022-2025 IVAS codec Public Collaboration with portions copyright Dolby International AB, Ericsson AB, - Fraunhofer-Gesellschaft zur Foerderung der angewandten Forschung e.V., Huawei Technologies Co. LTD., - Koninklijke Philips N.V., Nippon Telegraph and Telephone Corporation, Nokia Technologies Oy, Orange, - Panasonic Holdings Corporation, Qualcomm Technologies, Inc., VoiceAge Corporation, and other - contributors to this repository. All Rights Reserved. - - This software is protected by copyright law and by international treaties. - The IVAS codec Public Collaboration consisting of Dolby International AB, Ericsson AB, - Fraunhofer-Gesellschaft zur Foerderung der angewandten Forschung e.V., Huawei Technologies Co. LTD., - Koninklijke Philips N.V., Nippon Telegraph and Telephone Corporation, Nokia Technologies Oy, Orange, - Panasonic Holdings Corporation, Qualcomm Technologies, Inc., VoiceAge Corporation, and other - contributors to this repository retain full ownership rights in their respective contributions in - the software. This notice grants no license of any kind, including but not limited to patent - license, nor is any license granted by implication, estoppel or otherwise. - - Contributors are required to enter into the IVAS codec Public Collaboration agreement before making - contributions. - - This software is provided "AS IS", without any express or implied warranties. The software is in the - development stage. It is intended exclusively for experts who have experience with such software and - solely for the purpose of inspection. All implied warranties of non-infringement, merchantability - and fitness for a particular purpose are hereby disclaimed and excluded. - - Any dispute, controversy or claim arising under or in relation to providing this software shall be - submitted to and settled by the final, binding jurisdiction of the courts of Munich, Germany in - accordance with the laws of the Federal Republic of Germany excluding its conflict of law rules and - the United Nations Convention on Contracts on the International Sales of Goods. - -*******************************************************************************************************/ - -/*==================================================================================== - EVS Codec 3GPP TS26.443 Nov 04, 2021. Version 12.14.0 / 13.10.0 / 14.6.0 / 15.4.0 / 16.3.0 - ====================================================================================*/ - -#include -#include "options.h" -#include "prot.h" -#include "rom_com.h" -#include "cnst.h" -#include "wmc_auto.h" -#include "prot_fx.h" - -/*-------------------------------------------------------------------* - * core_encode_update() - * - * Common updates of buffers - *-------------------------------------------------------------------*/ - -void core_encode_update_ivas_fx( - Encoder_State *st /* i/o: Encoder state structure */ -) -{ - TCX_ENC_HANDLE hTcxEnc = st->hTcxEnc; - Word16 n; - - /* Update Input Signal Buffers */ - n = add( st->encoderPastSamples_enc, st->encoderLookahead_enc ); - - Copy( st->buf_speech_enc_pe + st->L_frame, st->buf_speech_enc_pe, n ); - Copy( st->buf_speech_enc + st->L_frame, st->buf_speech_enc, n ); - - IF( !st->tcxonly ) - { - n = add( st->L_frame, shr( st->L_frame, 2 ) ); - Copy( st->buf_wspeech_enc + st->L_frame, st->buf_wspeech_enc, n ); - } - - IF( hTcxEnc != NULL ) - { - test(); - test(); - test(); - IF( ( st->core == ACELP_CORE ) || EQ_16( st->core, AMR_WB_CORE ) || EQ_32( st->core_brate, SID_2k40 ) || ( st->core_brate == FRAME_NO_DATA ) ) - { - Word16 max_e = s_max( st->hTcxEnc->exp_buf_speech_ltp, st->exp_buf_speech_enc ); - Scale_sig( hTcxEnc->buf_speech_ltp, L_PAST_MAX_32k + L_FRAME32k + L_NEXT_MAX_32k, negate( sub( max_e, st->hTcxEnc->exp_buf_speech_ltp ) ) ); // Q(31-max_e) - Copy_Scale_sig( st->buf_speech_enc + st->L_frame, hTcxEnc->buf_speech_ltp + st->L_frame, st->L_frame, negate( sub( max_e, st->exp_buf_speech_enc ) ) ); // Q(31-max_e) - st->hTcxEnc->exp_buf_speech_ltp = max_e; - move16(); - } - } - - n = add( st->encoderPastSamples_enc, st->encoderLookahead_enc ); - Copy( st->buf_synth + st->L_frame, st->buf_synth, add( st->L_frame, L_SUBFR ) ); - IF( hTcxEnc != NULL ) - { - Copy( hTcxEnc->buf_speech_ltp + st->L_frame, hTcxEnc->buf_speech_ltp, n ); - - IF( NE_16( st->element_mode, IVAS_CPE_MDCT ) ) - { - st->hTcxEnc->kernel_switch_corr_past = 0; - st->hTcxEnc->kernel_type[0] = MDCT_IV; - st->hTcxEnc->kernel_symmetry_past = 0; - st->hTcxEnc->enc_ste_pre_corr_past = 0; - - move16(); - move16(); - move16(); - move16(); - } - } - - test(); - test(); - test(); - test(); - test(); - IF( ( st->Opt_DTX_ON && LE_32( st->core_brate, SID_2k40 ) && EQ_16( st->cng_type, FD_CNG ) ) || ( st->tcxonly && ( EQ_16( st->codec_mode, MODE2 ) || ( st->element_mode > EVS_MONO ) ) ) ) - { - /* reset LP memories */ - set16_fx( st->mem_MA_fx, 0, M ); - Copy( GEWB_Ave_fx, st->mem_AR_fx, M ); // 2.56 scaling - } - return; -} diff --git a/lib_enc/core_enc_updt_fx.c b/lib_enc/core_enc_updt_fx.c index 125f0cd524c024eacb7ba95c1e8df1394853be01..ce2681e75e3efa460b226285a570115043c4752a 100644 --- a/lib_enc/core_enc_updt_fx.c +++ b/lib_enc/core_enc_updt_fx.c @@ -171,8 +171,8 @@ void core_encode_update_cng_fx( tmp = sub( st->wspeech_enc[-1], shl( hLPDmem->mem_w0, shift ) ); E_UTIL_deemph2( negate( shift ), wsyn, st->preemph_fac, st->L_frame, &tmp ); - hLPDmem->mem_w0 = sub( st->wspeech_enc[st->L_frame - 1], tmp ); - hLPDmem->mem_w0 = shr( hLPDmem->mem_w0, shift ); + hLPDmem->mem_w0 = sub_sat( st->wspeech_enc[st->L_frame - 1], tmp ); + hLPDmem->mem_w0 = shr_sat( hLPDmem->mem_w0, shift ); move16(); move16(); /* Update LPC-related memories */ @@ -211,3 +211,77 @@ void core_encode_update_cng_fx( return; } + +/*-------------------------------------------------------------------* + * core_encode_update() + * + * Common updates of buffers + *-------------------------------------------------------------------*/ + +void core_encode_update_ivas_fx( + Encoder_State *st /* i/o: Encoder state structure */ +) +{ + TCX_ENC_HANDLE hTcxEnc = st->hTcxEnc; + Word16 n; + + /* Update Input Signal Buffers */ + n = add( st->encoderPastSamples_enc, st->encoderLookahead_enc ); + + Copy( st->buf_speech_enc_pe + st->L_frame, st->buf_speech_enc_pe, n ); + Copy( st->buf_speech_enc + st->L_frame, st->buf_speech_enc, n ); + + IF( !st->tcxonly ) + { + n = add( st->L_frame, shr( st->L_frame, 2 ) ); + Copy( st->buf_wspeech_enc + st->L_frame, st->buf_wspeech_enc, n ); + } + + IF( hTcxEnc != NULL ) + { + test(); + test(); + test(); + IF( ( st->core == ACELP_CORE ) || EQ_16( st->core, AMR_WB_CORE ) || EQ_32( st->core_brate, SID_2k40 ) || ( st->core_brate == FRAME_NO_DATA ) ) + { + Word16 max_e = s_max( st->hTcxEnc->exp_buf_speech_ltp, st->exp_buf_speech_enc ); + Scale_sig( hTcxEnc->buf_speech_ltp, L_PAST_MAX_32k + L_FRAME32k + L_NEXT_MAX_32k, negate( sub( max_e, st->hTcxEnc->exp_buf_speech_ltp ) ) ); // Q(31-max_e) + Copy_Scale_sig( st->buf_speech_enc + st->L_frame, hTcxEnc->buf_speech_ltp + st->L_frame, st->L_frame, negate( sub( max_e, st->exp_buf_speech_enc ) ) ); // Q(31-max_e) + st->hTcxEnc->exp_buf_speech_ltp = max_e; + move16(); + } + } + + n = add( st->encoderPastSamples_enc, st->encoderLookahead_enc ); + Copy( st->buf_synth + st->L_frame, st->buf_synth, add( st->L_frame, L_SUBFR ) ); + IF( hTcxEnc != NULL ) + { + Copy( hTcxEnc->buf_speech_ltp + st->L_frame, hTcxEnc->buf_speech_ltp, n ); + + IF( NE_16( st->element_mode, IVAS_CPE_MDCT ) ) + { + st->hTcxEnc->kernel_switch_corr_past = 0; + st->hTcxEnc->kernel_type[0] = MDCT_IV; + st->hTcxEnc->kernel_symmetry_past = 0; + st->hTcxEnc->enc_ste_pre_corr_past = 0; + + move16(); + move16(); + move16(); + move16(); + } + } + + test(); + test(); + test(); + test(); + test(); + IF( ( st->Opt_DTX_ON && LE_32( st->core_brate, SID_2k40 ) && EQ_16( st->cng_type, FD_CNG ) ) || ( st->tcxonly && ( EQ_16( st->codec_mode, MODE2 ) || ( st->element_mode > EVS_MONO ) ) ) ) + { + /* reset LP memories */ + set16_fx( st->mem_MA_fx, 0, M ); + Copy( GEWB_Ave_fx, st->mem_AR_fx, M ); // 2.56 scaling + } + return; +} diff --git a/lib_enc/core_switching_enc.c b/lib_enc/core_switching_enc.c deleted file mode 100644 index 08789dbded001c3254c5ae38a0ae1dc0261d1f13..0000000000000000000000000000000000000000 --- a/lib_enc/core_switching_enc.c +++ /dev/null @@ -1,603 +0,0 @@ -/****************************************************************************************************** - - (C) 2022-2025 IVAS codec Public Collaboration with portions copyright Dolby International AB, Ericsson AB, - Fraunhofer-Gesellschaft zur Foerderung der angewandten Forschung e.V., Huawei Technologies Co. LTD., - Koninklijke Philips N.V., Nippon Telegraph and Telephone Corporation, Nokia Technologies Oy, Orange, - Panasonic Holdings Corporation, Qualcomm Technologies, Inc., VoiceAge Corporation, and other - contributors to this repository. All Rights Reserved. - - This software is protected by copyright law and by international treaties. - The IVAS codec Public Collaboration consisting of Dolby International AB, Ericsson AB, - Fraunhofer-Gesellschaft zur Foerderung der angewandten Forschung e.V., Huawei Technologies Co. LTD., - Koninklijke Philips N.V., Nippon Telegraph and Telephone Corporation, Nokia Technologies Oy, Orange, - Panasonic Holdings Corporation, Qualcomm Technologies, Inc., VoiceAge Corporation, and other - contributors to this repository retain full ownership rights in their respective contributions in - the software. This notice grants no license of any kind, including but not limited to patent - license, nor is any license granted by implication, estoppel or otherwise. - - Contributors are required to enter into the IVAS codec Public Collaboration agreement before making - contributions. - - This software is provided "AS IS", without any express or implied warranties. The software is in the - development stage. It is intended exclusively for experts who have experience with such software and - solely for the purpose of inspection. All implied warranties of non-infringement, merchantability - and fitness for a particular purpose are hereby disclaimed and excluded. - - Any dispute, controversy or claim arising under or in relation to providing this software shall be - submitted to and settled by the final, binding jurisdiction of the courts of Munich, Germany in - accordance with the laws of the Federal Republic of Germany excluding its conflict of law rules and - the United Nations Convention on Contracts on the International Sales of Goods. - -*******************************************************************************************************/ - -/*==================================================================================== - EVS Codec 3GPP TS26.443 Nov 04, 2021. Version 12.14.0 / 13.10.0 / 14.6.0 / 15.4.0 / 16.3.0 - ====================================================================================*/ - -#include -#include "options.h" -#include -#include "cnst.h" -#include "rom_enc.h" -#include "rom_com.h" -#include "prot.h" -#include "wmc_auto.h" -#include "prot_fx.h" -#include "prot_fx_enc.h" -#include "ivas_prot_fx.h" - -void core_switching_pre_enc_ivas_fx( - Encoder_State *st_fx, /* i/o: encoder state structure */ - const Word16 *old_inp_12k8, /* i : old input signal @12.8kHz q_old_inp_12k8 */ - const Word16 q_old_inp_12k8, /* i : Q old input signal @12.8kHz */ - const Word16 *old_inp_16k, /* i : old input signal @16kHz q_old_inp_16k */ - const Word16 q_old_inp_16k, /* i : Q old input signal @16kHz */ - const Word16 active_cnt, /* i : active frame counter */ - const Word16 last_element_mode /* i : last_element_mode */ -) -{ - Word16 Sample_Delay_HP, Sample_Delay_LP; - Word16 tmp16; - Word16 tmp; - SC_VBR_ENC_HANDLE hSC_VBR = st_fx->hSC_VBR; - LPD_state_HANDLE hLPDmem = st_fx->hLPDmem; - HQ_ENC_HANDLE hHQ_core = st_fx->hHQ_core; - TD_BWE_ENC_HANDLE hBWE_TD = st_fx->hBWE_TD; - TCX_ENC_HANDLE hTcxEnc = st_fx->hTcxEnc; - FD_BWE_ENC_HANDLE hBWE_FD = st_fx->hBWE_FD; - - /* Mode switching */ - test(); - test(); - test(); - IF( EQ_16( st_fx->last_codec_mode, MODE2 ) || ( ( ( EQ_16( st_fx->last_core, TCX_20_CORE ) || EQ_16( st_fx->last_core, TCX_10_CORE ) ) && ( st_fx->element_mode > EVS_MONO ) ) ) ) - { - IF( hLPDmem != NULL ) - { - st_fx->mem_deemph_fx = hLPDmem->syn[M]; - move16(); - Copy( hLPDmem->mem_syn2, hLPDmem->mem_syn1_fx, M ); - } - - if ( NE_16( st_fx->element_mode, IVAS_CPE_MDCT ) ) - { - st_fx->igf = 0; - move16(); - } - - IF( hBWE_TD != NULL ) - { - IF( st_fx->last_core != ACELP_CORE ) - { - /* reset BWE memories */ - set16_fx( hBWE_TD->old_bwe_exc_fx, 0, PIT16k_MAX * 2 ); - hBWE_TD->bwe_non_lin_prev_scale_fx = L_deposit_l( 0 ); - move32(); - } - - set16_fx( hBWE_FD->old_syn_12k8_16k_fx, 0, NS2SA( 16000, DELAY_FD_BWE_ENC_NS ) ); - } - test(); - IF( EQ_16( st_fx->last_core, TCX_20_CORE ) || EQ_16( st_fx->last_core, TCX_10_CORE ) ) - { - if ( st_fx->element_mode == EVS_MONO ) - { - st_fx->last_core = HQ_CORE; - move16(); - } - IF( hHQ_core != NULL ) - { - set32_fx( hHQ_core->last_ni_gain_fx, 0, BANDS_MAX ); - set16_fx( hHQ_core->last_env_fx, 0, BANDS_MAX ); - hHQ_core->last_max_pos_pulse = 0; - move16(); - - hHQ_core->mode_count = 0; - move16(); - hHQ_core->mode_count1 = 0; - move16(); - - set16_fx( hHQ_core->prev_SWB_peak_pos, 0, SPT_SHORTEN_SBNUM ); - hHQ_core->prev_frm_hfe2 = 0; - move16(); - hHQ_core->prev_stab_hfe2 = 0; - move16(); - } - test(); - /*ALDO overlap windowed past: also used in MODE2 but for other MDCT-LB*/ - IF( ( st_fx->element_mode == EVS_MONO ) && hTcxEnc != NULL ) - { - set16_fx( hTcxEnc->old_out_fx, 0, L_FRAME32k ); - } - } - - test(); - IF( ( EQ_16( st_fx->L_frame, L_FRAME16k ) ) && ( EQ_16( st_fx->last_L_frame, L_FRAME ) ) ) - { - Copy( st_fx->lsp_old_fx, st_fx->lsp_old16k_fx, M ); - - st_fx->rate_switching_reset_16kHz = lsp_convert_poly_fx( st_fx->lsp_old16k_fx, st_fx->L_frame, 0 ); - move16(); - } - - st_fx->use_acelp_preq = 0; - move16(); - } - - test(); - test(); - test(); - if ( EQ_16( st_fx->last_core, -1 ) && ( EQ_16( st_fx->core, HQ_CORE ) || EQ_16( st_fx->core, TCX_20_CORE ) || EQ_16( st_fx->core, TCX_10_CORE ) ) ) - { - /* very first frame is HQ_CORE */ - st_fx->last_core = HQ_CORE; - move16(); - } - - test(); - test(); - IF( EQ_16( st_fx->core, HQ_CORE ) && ( ( st_fx->last_core == ACELP_CORE ) || EQ_16( st_fx->last_core, AMR_WB_CORE ) ) ) /* HQ init */ - { - set32_fx( hHQ_core->last_ni_gain_fx, 0, BANDS_MAX ); - set16_fx( hHQ_core->last_env_fx, 0, BANDS_MAX ); - hHQ_core->last_max_pos_pulse = 0; - move16(); - - hHQ_core->mode_count = 0; - move16(); - hHQ_core->mode_count1 = 0; - move16(); - - set16_fx( hHQ_core->prev_SWB_peak_pos, 0, SPT_SHORTEN_SBNUM ); - hHQ_core->prev_frm_hfe2 = 0; - move16(); - hHQ_core->prev_stab_hfe2 = 0; - move16(); - - IF( hTcxEnc != NULL ) - { - set16_fx( hTcxEnc->old_out_fx, 0, L_FRAME32k ); - } - } - - /* Here we only handle cases where last_ppp and last_nelp not updated when coming from CodecB or other cores - within ACELP_CORE if switching from another bitarate to vbr, last_ppp and last_nelp is always updated in the previous frame */ - test(); - test(); - IF( ( st_fx->core == ACELP_CORE ) && ( ( st_fx->last_core != ACELP_CORE ) || EQ_16( st_fx->last_codec_mode, MODE2 ) ) ) - { - IF( hSC_VBR != NULL ) - { - hSC_VBR->last_last_ppp_mode = 0; - move16(); - hSC_VBR->last_ppp_mode = 0; - move16(); - hSC_VBR->last_nelp_mode = 0; - move16(); - } - } - - test(); - test(); - test(); - IF( ( st_fx->core == ACELP_CORE ) && ( ( st_fx->last_core != ACELP_CORE ) || EQ_16( st_fx->last_codec_mode, MODE2 ) || LE_32( st_fx->last_total_brate, PPP_NELP_2k80 ) ) ) - { - st_fx->act_count = 3; - move16(); - st_fx->uv_count = 0; - move16(); - } - - test(); - test(); - test(); - test(); - test(); - test(); - test(); - IF( ( ( ( st_fx->core == ACELP_CORE ) || EQ_16( st_fx->core, AMR_WB_CORE ) ) && EQ_16( st_fx->last_core, HQ_CORE ) ) || - ( ( EQ_16( st_fx->element_mode, IVAS_CPE_DFT ) || EQ_16( st_fx->element_mode, IVAS_CPE_TD ) || ( EQ_16( st_fx->element_mode, IVAS_CPE_MDCT ) && EQ_16( last_element_mode, IVAS_CPE_DFT ) ) ) && EQ_16( active_cnt, 1 ) ) ) - { - IF( EQ_16( st_fx->L_frame, L_FRAME16k ) ) - { - Copy( TRWB2_Ave_fx, st_fx->lsf_old_fx, M ); /* init of LSP */ - lsf2lsp_fx( st_fx->lsf_old_fx, st_fx->lsp_old_fx, M, INT_FS_16k ); - } - ELSE - { - Copy( TRWB_Ave_fx, st_fx->lsf_old_fx, M ); /* init of LSP */ - lsf2lsp_fx( st_fx->lsf_old_fx, st_fx->lsp_old_fx, M, INT_FS_FX ); - } - - st_fx->mem_deemph_fx = 0; - move16(); - /* Reset ACELP parameters */ - IF( hLPDmem != NULL ) - { - move16(); - hLPDmem->syn[M] = 0; - move16(); - set16_fx( hLPDmem->mem_syn2, 0, M ); - set16_fx( hLPDmem->mem_syn, 0, M ); - set16_fx( hLPDmem->mem_syn1_fx, 0, M ); - hLPDmem->q_mem_syn = Q15; - move16(); - hLPDmem->mem_w0 = 0; - move16(); - hLPDmem->tilt_code = 0; - move16(); - hLPDmem->gc_threshold = 0; - move32(); - /* set16_fx( st_fx->dispMem, 0, 8 ); */ - set16_fx( hLPDmem->dm_fx.prev_gain_pit, 0, 6 ); - hLPDmem->dm_fx.prev_state = 0; - move16(); - hLPDmem->dm_fx.prev_gain_code = L_deposit_l( 0 ); - } - st_fx->Nb_ACELP_frames = 0; - move16(); - - set16_fx( st_fx->mem_MA_fx, 0, M ); - Copy( GEWB_Ave_fx, st_fx->mem_AR_fx, M ); - init_gp_clip_fx( st_fx->clip_var_fx ); - st_fx->last_coder_type = GENERIC; - move16(); - - tmp16 = add( NB_SUBFR, 1 ); - - if ( EQ_16( st_fx->L_frame, L_FRAME ) ) - { - tmp16 = NB_SUBFR; - move16(); - } - - Copy( st_fx->old_pitch_buf_fx + tmp16, st_fx->old_pitch_buf_fx, tmp16 ); - set16_fx( st_fx->old_pitch_buf_fx + tmp16, L_SUBFR, tmp16 ); - - /* Reset old ACELP buffers */ - test(); - IF( ( st_fx->element_mode == EVS_MONO ) && hLPDmem != NULL ) - { - set16_fx( hLPDmem->old_exc, 0, L_EXC_MEM ); - } - IF( hBWE_TD != NULL ) - { - set16_fx( hBWE_TD->old_bwe_exc_fx, 0, PIT16k_MAX * 2 ); - - /* reset BWE memories */ - hBWE_TD->bwe_non_lin_prev_scale_fx = 0; - move32(); - } - IF( hBWE_FD != NULL ) - { - set16_fx( hBWE_FD->old_syn_12k8_16k_fx, 0, NS2SA( 16000, DELAY_FD_BWE_ENC_NS ) ); - } - } - test(); - test(); - test(); - IF( ( ( st_fx->core == ACELP_CORE ) || EQ_16( st_fx->core, AMR_WB_CORE ) ) && ( EQ_16( st_fx->last_core, TCX_20_CORE ) || EQ_16( st_fx->last_core, TCX_10_CORE ) ) ) - { - /* Reset the ACELP core in case of TCX->ACELP core switching */ - st_fx->Nb_ACELP_frames = 0; - move16(); - - IF( hLPDmem != NULL ) - { - hLPDmem->mem_w0 = 0; - move16(); - hLPDmem->tilt_code = 0; - move16(); - hLPDmem->gc_threshold = 0; - move32(); - init_gp_clip_fx( st_fx->clip_var_fx ); - set16_fx( hLPDmem->dm_fx.prev_gain_pit, 0, 6 ); - hLPDmem->dm_fx.prev_state = 0; - move16(); - hLPDmem->dm_fx.prev_gain_code = 0; - move32(); - } - - st_fx->last_coder_type = GENERIC; - move16(); - - tmp16 = shr( st_fx->L_frame, 6 ); - Copy( st_fx->old_pitch_buf_fx + tmp16, st_fx->old_pitch_buf_fx, tmp16 ); - set16_fx( st_fx->old_pitch_buf_fx + tmp16, L_SUBFR, tmp16 ); - - /* Reset old TD BWE buffers */ - IF( hBWE_TD != NULL ) - { - set16_fx( hBWE_TD->old_bwe_exc_fx, 0, PIT16k_MAX * 2 ); - hBWE_TD->bwe_non_lin_prev_scale_fx = 0; - move32(); - } - - /* reset BWE memories */ - IF( hBWE_FD != NULL ) - { - set16_fx( hBWE_FD->old_syn_12k8_16k_fx, 0, NS2SA( 16000, DELAY_FD_BWE_ENC_NS ) ); /* TODO : this might not be needed */ - } - } - test(); - test(); - test(); - IF( GE_32( st_fx->input_Fs, 16000 ) && NE_16( st_fx->last_extl, WB_BWE ) && EQ_16( st_fx->extl, WB_BWE ) && hBWE_FD != NULL ) - { - test(); - IF( NE_16( st_fx->last_extl, SWB_BWE ) && NE_16( st_fx->last_extl, FB_BWE ) ) - { - hBWE_FD->prev_mode = NORMAL; - move16(); - hBWE_FD->modeCount = 0; - move16(); - } - - hBWE_FD->prev_L_swb_norm1 = 8; - move16(); - } - - test(); - test(); - test(); - test(); - test(); - IF( ( GE_32( st_fx->input_Fs, 32000 ) && NE_16( st_fx->last_extl, SWB_BWE ) && EQ_16( st_fx->extl, SWB_BWE ) ) || - ( GE_32( st_fx->input_Fs, 48000 ) && NE_16( st_fx->last_extl, FB_BWE ) && EQ_16( st_fx->extl, FB_BWE ) ) ) - { - /* we are switching to SWB BWE - reset SWB BWE buffers */ - - IF( EQ_16( st_fx->L_frame, L_FRAME ) ) - { - Sample_Delay_HP = NS2SA( 16000, ACELP_LOOK_NS + DELAY_FD_BWE_ENC_12k8_NS + DELAY_FIR_RESAMPL_NS - DELAY_CLDFB_NS ); - Sample_Delay_LP = NS2SA( 12800, ACELP_LOOK_NS + DELAY_FD_BWE_ENC_12k8_NS ); - IF( ( st_fx->element_mode > EVS_MONO ) ) - { - IF( EQ_16( st_fx->element_mode, IVAS_CPE_TD ) ) - { - Sample_Delay_HP = NS2SA( 16000, ACELP_LOOK_NS + DELAY_FD_BWE_ENC_12k8_NS + DELAY_FIR_RESAMPL_NS - DELAY_CLDFB_NS - L_MEM_RECALC_TBE_NS ); - } - Sample_Delay_HP = sub( Sample_Delay_HP, NS2SA( 16000, DELAY_FIR_RESAMPL_NS ) ); - } - IF( GT_16( q_old_inp_12k8, hBWE_FD->prev_Q_input_lp ) ) - { - Copy_Scale_sig( old_inp_12k8 + sub( L_INP_MEM + L_FRAME, Sample_Delay_LP ), hBWE_FD->old_input_lp_fx, Sample_Delay_LP, sub( hBWE_FD->prev_Q_input_lp, q_old_inp_12k8 ) ); // prev_Q_input_lp - } - ELSE - { - Scale_sig( hBWE_FD->old_input_lp_fx, NS2SA( 16000, ACELP_LOOK_NS + DELAY_FD_BWE_ENC_NS ), sub( q_old_inp_12k8, hBWE_FD->prev_Q_input_lp ) ); // q_old_inp_12k8 - hBWE_FD->prev_Q_input_lp = q_old_inp_12k8; - move16(); - Copy( old_inp_12k8 + sub( L_INP_MEM + L_FRAME, Sample_Delay_LP ), hBWE_FD->old_input_lp_fx, Sample_Delay_LP ); - } - } - ELSE - { - Sample_Delay_HP = NS2SA( 16000, ACELP_LOOK_NS + DELAY_FD_BWE_ENC_16k_NS + DELAY_FIR_RESAMPL_NS - DELAY_CLDFB_NS ); - Sample_Delay_LP = NS2SA( 16000, ACELP_LOOK_NS + DELAY_FD_BWE_ENC_16k_NS ); - IF( GT_16( st_fx->element_mode, EVS_MONO ) ) - { - IF( EQ_16( st_fx->element_mode, IVAS_CPE_TD ) ) - { - Sample_Delay_HP = NS2SA( 16000, ACELP_LOOK_NS + DELAY_FD_BWE_ENC_16k_NS + DELAY_FIR_RESAMPL_NS - DELAY_CLDFB_NS - L_MEM_RECALC_TBE_NS ); - } - Sample_Delay_HP = sub( Sample_Delay_HP, NS2SA( 16000, DELAY_FIR_RESAMPL_NS ) ); - } - IF( GT_16( q_old_inp_16k, hBWE_FD->prev_Q_input_lp ) ) - { - Copy_Scale_sig( old_inp_16k + sub( L_INP_MEM + L_FRAME, Sample_Delay_LP ), hBWE_FD->old_input_lp_fx, Sample_Delay_LP, sub( hBWE_FD->prev_Q_input_lp, q_old_inp_16k ) ); // prev_Q_input_lp - } - ELSE - { - Scale_sig( hBWE_FD->old_input_lp_fx, NS2SA( 16000, ACELP_LOOK_NS + DELAY_FD_BWE_ENC_NS ), sub( q_old_inp_16k, hBWE_FD->prev_Q_input_lp ) ); // q_old_inp_16k - hBWE_FD->prev_Q_input_lp = q_old_inp_16k; - move16(); - Copy( old_inp_16k + sub( L_INP_MEM + L_FRAME, Sample_Delay_LP ), hBWE_FD->old_input_lp_fx, Sample_Delay_LP ); - } - } - - tmp = sub( L_LOOK_16k + L_SUBFR16k, Sample_Delay_HP ); - Copy( &hBWE_TD->old_speech_shb_fx[tmp], hBWE_FD->new_input_hp_fx, Sample_Delay_HP ); -#ifdef FIX_ISSUE_1230 - hBWE_FD->Q_new_input_hp = 0; - move16(); -#endif - - IF( NE_16( st_fx->last_extl, WB_BWE ) ) - { - hBWE_FD->prev_mode = NORMAL; - move16(); - hBWE_FD->modeCount = 0; - move16(); - } - hBWE_FD->EnergyLF_fx = 0; - hBWE_FD->EnergyLF_exp = 0; - move32(); - move16(); - hBWE_FD->prev_L_swb_norm1 = 8; - move16(); /*8.0 in Q0 */ - st_fx->EnergyLT_fx_exp = 30; - move16(); /* Set to a High Exponent so it is 1^-30 */ - } - /*---------------------------------------------------------------------* - * band-width switching from WB -> SWB/FB - *---------------------------------------------------------------------*/ - IF( st_fx->element_mode > EVS_MONO ) - { - IF( st_fx->bwidth_sw_cnt == 0 ) - { - test(); - IF( GE_16( st_fx->bwidth, SWB ) && EQ_16( st_fx->last_bwidth, WB ) ) - { - st_fx->bwidth_sw_cnt = add( st_fx->bwidth_sw_cnt, 1 ); - move16(); - } - } - ELSE - { - st_fx->bwidth_sw_cnt = add( st_fx->bwidth_sw_cnt, 1 ); - move16(); - IF( EQ_16( st_fx->bwidth_sw_cnt, BWS_TRAN_PERIOD ) ) - { - st_fx->bwidth_sw_cnt = 0; - move16(); - } - } - } - - return; -} - -/*---------------------------------------------------------------------* - * core_switching_post_enc() - * - * Postprocessing for ACELP/HQ core switching - *---------------------------------------------------------------------*/ - -void core_switching_post_enc_ivas_fx( - Encoder_State *st, /* i/o: encoder state structure */ - Word16 *old_inp_12k8_fx, /* i : old input signal @12.8kHz Q_new-1 */ - Word16 *old_inp_16k_fx, /* i : old input signal @16kHz Q_new-1 */ - Word16 A_fx[], /* i : unquant. LP filter coefs. Q12 */ - Word16 Q_new ) -{ - IF( EQ_16( st->core, HQ_CORE ) ) - { - st->use_acelp_preq = 0; - move16(); - test(); - test(); - IF( ( st->last_core == ACELP_CORE || EQ_16( st->last_core, AMR_WB_CORE ) ) && st->element_mode == EVS_MONO ) /* core switching ==> ACELP subframe encoding */ - { - /* Memory scaling to keep everything in common q */ - Scale_sig( st->hLPDmem->mem_syn, M, sub( sub( Q_new, 1 ), st->hLPDmem->q_mem_syn ) ); /* Q_new-1 */ - Scale_sig( st->hLPDmem->mem_syn1_fx, M, sub( sub( Q_new, 1 ), st->hLPDmem->q_mem_syn ) ); /* Q_new-1 */ - Scale_sig( st->hLPDmem->mem_syn2, M, sub( sub( Q_new, 1 ), st->hLPDmem->q_mem_syn ) ); /* Q_new-1 */ - Scale_sig( st->hLPDmem->mem_syn3, M, sub( sub( Q_new, 1 ), st->hLPDmem->q_mem_syn ) ); /* Q_new-1 */ - Scale_sig( st->hLPDmem->mem_syn_r, L_SYN_MEM, sub( sub( Q_new, 1 ), st->hLPDmem->q_mem_syn ) ); /* Q_new-1 */ - st->hLPDmem->mem_w0 = shl( st->hLPDmem->mem_w0, sub( sub( Q_new, 1 ), st->hLPDmem->q_mem_syn ) ); /* Q_new-1 */ - move16(); - st->hLPDmem->q_mem_syn = sub( Q_new, 1 ); - move16(); - - acelp_core_switch_enc_ivas_fx( st, old_inp_12k8_fx + L_INP_MEM - NS2SA( INT_FS_12k8, ACELP_LOOK_NS ), old_inp_16k_fx + L_INP_MEM - NS2SA( INT_FS_16k, ACELP_LOOK_NS ), A_fx, 0, sub( Q_new, 1 ) ); - } - - st->hBWE_TD->bwe_non_lin_prev_scale_fx = 0; - move32(); - st->hBWE_FD->mem_deemph_old_syn_fx = 0; - move16(); - st->hBWE_FD->q_mem_deemph_old_syn = 0; - move16(); - } - ELSE - { - IF( st->hBWE_TD == NULL ) - { - return; - } - - test(); - /* reset SWB TBE buffers */ - IF( EQ_16( st->extl, WB_TBE ) && NE_16( st->last_extl, WB_TBE ) ) - { - wb_tbe_extras_reset_fx( st->hBWE_TD->mem_genSHBexc_filt_down_wb2_fx, st->hBWE_TD->mem_genSHBexc_filt_down_wb3_fx ); - - IF( NE_16( st->last_extl, WB_BWE ) ) - { - set16_fx( st->hBWE_TD->decim_state1_fx, 0, ( 2 * ALLPASSSECTIONS_STEEP + 1 ) ); - set16_fx( st->hBWE_TD->decim_state2_fx, 0, ( 2 * ALLPASSSECTIONS_STEEP + 1 ) ); - } - - set16_fx( st->hBWE_TD->state_syn_shbexc_fx, 0, L_SHB_LAHEAD / 4 ); - set16_fx( st->hBWE_TD->syn_overlap_fx, 0, L_SHB_LAHEAD ); - set32_fx( st->hBWE_TD->mem_csfilt_fx, 0, 2 ); - } - - test(); - test(); - test(); - test(); - test(); - test(); - test(); - test(); - test(); - test(); - test(); - test(); - test(); - test(); - test(); - test(); - test(); - - IF( ( EQ_16( st->extl, SWB_TBE ) || EQ_16( st->extl, FB_TBE ) ) && - ( EQ_16( st->last_core, HQ_CORE ) || NE_16( st->L_frame, st->last_L_frame ) || ( NE_16( st->last_extl, SWB_TBE ) && NE_16( st->last_extl, FB_TBE ) && NE_16( st->last_core, TCX_20_CORE ) && NE_16( st->last_core, TCX_10_CORE ) ) ) ) - { - set16_fx( st->hBWE_TD->state_ana_filt_shb_fx, 0, ( 2 * ALLPASSSECTIONS_STEEP + 1 ) ); - - InitSWBencBufferStates_fx( st->hBWE_TD, NULL ); - swb_tbe_reset_fx( st->hBWE_TD->mem_csfilt_fx, st->hBWE_TD->mem_genSHBexc_filt_down_shb_fx, st->hBWE_TD->state_lpc_syn_fx, st->hBWE_TD->syn_overlap_fx, st->hBWE_TD->state_syn_shbexc_fx, &( st->hBWE_TD->tbe_demph_fx ), &( st->hBWE_TD->tbe_premph_fx ), st->hBWE_TD->mem_stp_swb_fx, &( st->hBWE_TD->gain_prec_swb_fx ) ); - - set16_fx( st->hBWE_TD->dec_2_over_3_mem_fx, 0, L_FILT_2OVER3 ); - set16_fx( st->hBWE_TD->dec_2_over_3_mem_lp_fx, 0, L_FILT_2OVER3_LP ); - } - ELSE IF( ( EQ_16( st->extl, SWB_TBE ) || EQ_16( st->extl, FB_TBE ) ) && ( ( EQ_16( st->element_mode, IVAS_CPE_TD ) && NE_16( st->last_extl, SWB_TBE ) && NE_16( st->last_extl, FB_TBE ) ) || ( NE_16( st->element_mode, IVAS_CPE_TD ) && NE_32( st->last_total_brate, st->total_brate ) ) || ( NE_16( st->last_bwidth, st->bwidth ) ) || ( NE_16( st->last_codec_mode, MODE1 ) ) || ( NE_16( st->rf_mode_last, st->rf_mode ) ) ) ) - { - set16_fx( st->hBWE_TD->state_lpc_syn_fx, 0, LPC_SHB_ORDER ); - set16_fx( st->hBWE_TD->state_syn_shbexc_fx, 0, L_SHB_LAHEAD ); - set16_fx( st->hBWE_TD->mem_stp_swb_fx, 0, LPC_SHB_ORDER ); - set16_fx( st->hBWE_TD->mem_zero_swb_fx, 0, LPC_SHB_ORDER ); - st->hBWE_TD->gain_prec_swb_fx = ONE_IN_Q14; - move16(); - } - ELSE IF( EQ_16( st->last_core, TCX_20_CORE ) || EQ_16( st->last_core, TCX_10_CORE ) ) - { - TBEreset_enc_fx( st, st->bwidth ); - } - - test(); - test(); - test(); - test(); - /* Interp_3_2 CNG buffers reset */ - IF( EQ_16( st->extl, FB_TBE ) && ( ( NE_16( st->last_extl, FB_TBE ) && NE_16( st->last_core, TCX_20_CORE ) && NE_16( st->last_core, TCX_10_CORE ) ) || NE_16( st->L_frame, st->last_L_frame ) ) ) - { - set16_fx( st->hBWE_TD->fb_state_lpc_syn_fx, 0, LPC_SHB_ORDER ); - st->hBWE_TD->fb_tbe_demph_fx = 0; - move16(); - fb_tbe_reset_enc_fx( st->hBWE_TD->elliptic_bpf_2_48k_mem_fx, &st->hBWE_TD->prev_fb_energy_fx, st->hBWE_TD->elliptic_bpf_2_48k_mem_fx_Q, &st->hBWE_TD->prev_fb_energy_fx_Q ); - } - /* Fade towards init value for non HQ_CORE */ - IF( st->hHQ_core != NULL ) - { - st->hHQ_core->crest_lp_fx = L_add( Mpy_32_32( HQ_CREST_FAC_SM_FX, st->hHQ_core->crest_lp_fx ), Mpy_32_32( L_sub( ONE_IN_Q31, HQ_CREST_FAC_SM_FX ), L_shr( HQ_CREST_THRESHOLD_FX, sub( Q28, st->hHQ_core->crest_lp_q ) ) ) ); /*crest_lp_q*/ - move32(); - st->hHQ_core->crest_mod_lp_fx = L_add( Mpy_32_32( HQ_CREST_FAC_SM_FX, st->hHQ_core->crest_mod_lp_fx ), Mpy_32_32( L_sub( ONE_IN_Q31, HQ_CREST_FAC_SM_FX ), L_shr( HQ_CREST_MOD_THRESHOLD_FX, sub( Q29, st->hHQ_core->crest_mod_lp_q ) ) ) ); /*crest_mod_lp_q*/ - move32(); - } - } - - return; -} diff --git a/lib_enc/core_switching_enc_fx.c b/lib_enc/core_switching_enc_fx.c index 07468363f7f5f2e537499e8ebf549bbd6d09fef8..5290509cd32d8a7909d6c9af75ee51fabda55fdd 100644 --- a/lib_enc/core_switching_enc_fx.c +++ b/lib_enc/core_switching_enc_fx.c @@ -8,8 +8,9 @@ #include "rom_com_fx.h" /* Static table prototypes */ #include "rom_com.h" /* Static table prototypes */ //#include "prot_fx.h" /* Function prototypes */ -#include "prot_fx.h" /* Function prototypes */ -#include "prot_fx_enc.h" /* Function prototypes */ +#include "prot_fx.h" /* Function prototypes */ +#include "ivas_prot_fx.h" /* Function prototypes */ +#include "prot_fx_enc.h" /* Function prototypes */ /*---------------------------------------------------------------------* @@ -372,31 +373,6 @@ void core_switching_pre_enc_fx( st_fx->EnergyLT_fx_exp = 30; move16(); /* Set to a High Exponent so it is 1^-30 */ } - /*---------------------------------------------------------------------* - * band-width switching from WB -> SWB/FB - *---------------------------------------------------------------------*/ -#ifdef IVAS_CODE - IF( GT_16( st_fx->element_mode, EVS_MONO ) ) - { - IF( st_fx->bwidth_sw_cnt_fx == 0 ) - { - IF( GE_16( st_fx->bwidth, SWB ) && EQ_16( st_fx->last_bwidth, WB ) ) - { - st_fx->bwidth_sw_cnt_fx = add( st_fx->bwidth_sw_cnt_fx, 1 ); - } - } - ELSE - { - st_fx->bwidth_sw_cnt_fx = add( st_fx->bwidth_sw_cnt_fx, 1 ); - - IF( EQ_16( st_fx->bwidth_sw_cnt_fx, BWS_TRAN_PERIOD ) ) - { - st_fx->bwidth_sw_cnt_fx = 0; - move16(); - } - } - } -#endif return; } @@ -430,8 +406,8 @@ void core_switching_post_enc_fx( test(); IF( ( ( st_fx->last_core == ACELP_CORE ) || EQ_16( st_fx->last_core, AMR_WB_CORE ) ) && EQ_16( st_fx->element_mode, EVS_MONO ) ) /* core switching ==> CELP subframe encoding */ { - acelp_core_switch_enc_fx( st_fx, old_inp_12k8 + L_INP_MEM - NS2SA_FX2( INT_FS_FX, ACELP_LOOK_NS ), - old_inp_16k + L_INP_MEM - NS2SA_FX2( INT_FS_16k, ACELP_LOOK_NS ), A, Qshift, Q_new ); + acelp_core_switch_enc_fx( st_fx, old_inp_12k8 + L_INP_MEM - NS2SA( INT_FS_FX, ACELP_LOOK_NS ), + old_inp_16k + L_INP_MEM - NS2SA( INT_FS_16k, ACELP_LOOK_NS ), A, Qshift, Q_new ); } hBWE_TD->bwe_non_lin_prev_scale_fx = L_deposit_l( 0 ); @@ -482,22 +458,6 @@ void core_switching_post_enc_fx( set16_fx( hBWE_TD->state_ana_filt_shb_fx, 0, ( 2 * ALLPASSSECTIONS_STEEP + 1 ) ); set16_fx( hBWE_TD->old_speech_shb_fx, 0, L_LOOK_16k + L_SUBFR16k ); -#ifdef IVAS_CODE - set16_fx( hBWE_TD->mem_shb_res_fx, 0, MAX_LEN_MA_FILTER ); - set16_fx( hBWE_TD->old_EnvSHBres_fx, 0, L_FRAME4k ); - hBWE_TD->old_mean_EnvSHBres_fx = 0; - hBWE_TD->prev_enr_EnvSHBres_fx = 32767; /*Q15 ??? */ - hBWE_TD->prev_shb_env_tilt_fx = 0; - hBWE_TD->prev_pow_exc16kWhtnd_fx = 32767; /*Q15 ??? */ - hBWE_TD->prev_mix_factor_fx = 32767; /*Q15 ??? */ - hBWE_TD->prev_Env_error_fx = 0; - move16(); - move16(); - move16(); - move16(); - move16(); - move16(); -#endif swb_tbe_reset_fx( hBWE_TD->mem_csfilt_fx, hBWE_TD->mem_genSHBexc_filt_down_shb_fx, hBWE_TD->state_lpc_syn_fx, hBWE_TD->syn_overlap_fx, hBWE_TD->state_syn_shbexc_fx, &( hBWE_TD->tbe_demph_fx ), &( hBWE_TD->tbe_premph_fx ), hBWE_TD->mem_stp_swb_fx, &( hBWE_TD->gain_prec_swb_fx ) ); @@ -530,14 +490,6 @@ void core_switching_post_enc_fx( hBWE_TD->fb_tbe_demph_fx = 0; fb_tbe_reset_enc_fx( hBWE_TD->elliptic_bpf_2_48k_mem_fx, &hBWE_TD->prev_fb_energy_fx, hBWE_TD->elliptic_bpf_2_48k_mem_fx_Q, &hBWE_TD->prev_fb_energy_fx_Q ); } - /* Fade towards init value for non HQ_CORE */ - IF( st_fx->hHQ_core != NULL ) - { -#ifdef IVAS_CODE - st_fx->hHQ_core->crest_lp = HQ_CREST_FAC_SM * ( st_fx->hHQ_core->crest_lp ) + ( 1.0f - HQ_CREST_FAC_SM ) * HQ_CREST_THRESHOLD; - st_fx->hHQ_core->crest_mod_lp = HQ_CREST_FAC_SM * ( st_fx->hHQ_core->crest_mod_lp ) + ( 1.0f - HQ_CREST_FAC_SM ) * HQ_CREST_MOD_THRESHOLD; -#endif - } } return; @@ -672,3 +624,557 @@ void core_switching_hq_prepare_enc_fx( } return; } + +void core_switching_pre_enc_ivas_fx( + Encoder_State *st_fx, /* i/o: encoder state structure */ + const Word16 *old_inp_12k8, /* i : old input signal @12.8kHz q_old_inp_12k8 */ + const Word16 q_old_inp_12k8, /* i : Q old input signal @12.8kHz */ + const Word16 *old_inp_16k, /* i : old input signal @16kHz q_old_inp_16k */ + const Word16 q_old_inp_16k, /* i : Q old input signal @16kHz */ + const Word16 active_cnt, /* i : active frame counter */ + const Word16 last_element_mode /* i : last_element_mode */ +) +{ + Word16 Sample_Delay_HP, Sample_Delay_LP; + Word16 tmp16; + Word16 tmp; + SC_VBR_ENC_HANDLE hSC_VBR = st_fx->hSC_VBR; + LPD_state_HANDLE hLPDmem = st_fx->hLPDmem; + HQ_ENC_HANDLE hHQ_core = st_fx->hHQ_core; + TD_BWE_ENC_HANDLE hBWE_TD = st_fx->hBWE_TD; + TCX_ENC_HANDLE hTcxEnc = st_fx->hTcxEnc; + FD_BWE_ENC_HANDLE hBWE_FD = st_fx->hBWE_FD; + + /* Mode switching */ + test(); + test(); + test(); + IF( EQ_16( st_fx->last_codec_mode, MODE2 ) || ( ( ( EQ_16( st_fx->last_core, TCX_20_CORE ) || EQ_16( st_fx->last_core, TCX_10_CORE ) ) && ( st_fx->element_mode > EVS_MONO ) ) ) ) + { + IF( hLPDmem != NULL ) + { + st_fx->mem_deemph_fx = hLPDmem->syn[M]; + move16(); + Copy( hLPDmem->mem_syn2, hLPDmem->mem_syn1_fx, M ); + } + + if ( NE_16( st_fx->element_mode, IVAS_CPE_MDCT ) ) + { + st_fx->igf = 0; + move16(); + } + + IF( hBWE_TD != NULL ) + { + IF( st_fx->last_core != ACELP_CORE ) + { + /* reset BWE memories */ + set16_fx( hBWE_TD->old_bwe_exc_fx, 0, PIT16k_MAX * 2 ); + hBWE_TD->bwe_non_lin_prev_scale_fx = L_deposit_l( 0 ); + move32(); + } + + set16_fx( hBWE_FD->old_syn_12k8_16k_fx, 0, NS2SA( 16000, DELAY_FD_BWE_ENC_NS ) ); + } + test(); + IF( EQ_16( st_fx->last_core, TCX_20_CORE ) || EQ_16( st_fx->last_core, TCX_10_CORE ) ) + { + if ( st_fx->element_mode == EVS_MONO ) + { + st_fx->last_core = HQ_CORE; + move16(); + } + IF( hHQ_core != NULL ) + { + set32_fx( hHQ_core->last_ni_gain_fx, 0, BANDS_MAX ); + set16_fx( hHQ_core->last_env_fx, 0, BANDS_MAX ); + hHQ_core->last_max_pos_pulse = 0; + move16(); + + hHQ_core->mode_count = 0; + move16(); + hHQ_core->mode_count1 = 0; + move16(); + + set16_fx( hHQ_core->prev_SWB_peak_pos, 0, SPT_SHORTEN_SBNUM ); + hHQ_core->prev_frm_hfe2 = 0; + move16(); + hHQ_core->prev_stab_hfe2 = 0; + move16(); + } + test(); + /*ALDO overlap windowed past: also used in MODE2 but for other MDCT-LB*/ + IF( ( st_fx->element_mode == EVS_MONO ) && hTcxEnc != NULL ) + { + set16_fx( hTcxEnc->old_out_fx, 0, L_FRAME32k ); + } + } + + test(); + IF( ( EQ_16( st_fx->L_frame, L_FRAME16k ) ) && ( EQ_16( st_fx->last_L_frame, L_FRAME ) ) ) + { + Copy( st_fx->lsp_old_fx, st_fx->lsp_old16k_fx, M ); + + st_fx->rate_switching_reset_16kHz = lsp_convert_poly_fx( st_fx->lsp_old16k_fx, st_fx->L_frame, 0 ); + move16(); + } + + st_fx->use_acelp_preq = 0; + move16(); + } + + test(); + test(); + test(); + if ( EQ_16( st_fx->last_core, -1 ) && ( EQ_16( st_fx->core, HQ_CORE ) || EQ_16( st_fx->core, TCX_20_CORE ) || EQ_16( st_fx->core, TCX_10_CORE ) ) ) + { + /* very first frame is HQ_CORE */ + st_fx->last_core = HQ_CORE; + move16(); + } + + test(); + test(); + IF( EQ_16( st_fx->core, HQ_CORE ) && ( ( st_fx->last_core == ACELP_CORE ) || EQ_16( st_fx->last_core, AMR_WB_CORE ) ) ) /* HQ init */ + { + set32_fx( hHQ_core->last_ni_gain_fx, 0, BANDS_MAX ); + set16_fx( hHQ_core->last_env_fx, 0, BANDS_MAX ); + hHQ_core->last_max_pos_pulse = 0; + move16(); + + hHQ_core->mode_count = 0; + move16(); + hHQ_core->mode_count1 = 0; + move16(); + + set16_fx( hHQ_core->prev_SWB_peak_pos, 0, SPT_SHORTEN_SBNUM ); + hHQ_core->prev_frm_hfe2 = 0; + move16(); + hHQ_core->prev_stab_hfe2 = 0; + move16(); + + IF( hTcxEnc != NULL ) + { + set16_fx( hTcxEnc->old_out_fx, 0, L_FRAME32k ); + } + } + + /* Here we only handle cases where last_ppp and last_nelp not updated when coming from CodecB or other cores + within ACELP_CORE if switching from another bitarate to vbr, last_ppp and last_nelp is always updated in the previous frame */ + test(); + test(); + IF( ( st_fx->core == ACELP_CORE ) && ( ( st_fx->last_core != ACELP_CORE ) || EQ_16( st_fx->last_codec_mode, MODE2 ) ) ) + { + IF( hSC_VBR != NULL ) + { + hSC_VBR->last_last_ppp_mode = 0; + move16(); + hSC_VBR->last_ppp_mode = 0; + move16(); + hSC_VBR->last_nelp_mode = 0; + move16(); + } + } + + test(); + test(); + test(); + IF( ( st_fx->core == ACELP_CORE ) && ( ( st_fx->last_core != ACELP_CORE ) || EQ_16( st_fx->last_codec_mode, MODE2 ) || LE_32( st_fx->last_total_brate, PPP_NELP_2k80 ) ) ) + { + st_fx->act_count = 3; + move16(); + st_fx->uv_count = 0; + move16(); + } + + test(); + test(); + test(); + test(); + test(); + test(); + test(); + IF( ( ( ( st_fx->core == ACELP_CORE ) || EQ_16( st_fx->core, AMR_WB_CORE ) ) && EQ_16( st_fx->last_core, HQ_CORE ) ) || + ( ( EQ_16( st_fx->element_mode, IVAS_CPE_DFT ) || EQ_16( st_fx->element_mode, IVAS_CPE_TD ) || ( EQ_16( st_fx->element_mode, IVAS_CPE_MDCT ) && EQ_16( last_element_mode, IVAS_CPE_DFT ) ) ) && EQ_16( active_cnt, 1 ) ) ) + { + IF( EQ_16( st_fx->L_frame, L_FRAME16k ) ) + { + Copy( TRWB2_Ave_fx, st_fx->lsf_old_fx, M ); /* init of LSP */ + lsf2lsp_fx( st_fx->lsf_old_fx, st_fx->lsp_old_fx, M, INT_FS_16k ); + } + ELSE + { + Copy( TRWB_Ave_fx, st_fx->lsf_old_fx, M ); /* init of LSP */ + lsf2lsp_fx( st_fx->lsf_old_fx, st_fx->lsp_old_fx, M, INT_FS_FX ); + } + + st_fx->mem_deemph_fx = 0; + move16(); + /* Reset ACELP parameters */ + IF( hLPDmem != NULL ) + { + move16(); + hLPDmem->syn[M] = 0; + move16(); + set16_fx( hLPDmem->mem_syn2, 0, M ); + set16_fx( hLPDmem->mem_syn, 0, M ); + set16_fx( hLPDmem->mem_syn1_fx, 0, M ); + hLPDmem->q_mem_syn = Q15; + move16(); + hLPDmem->mem_w0 = 0; + move16(); + hLPDmem->tilt_code = 0; + move16(); + hLPDmem->gc_threshold = 0; + move32(); + /* set16_fx( st_fx->dispMem, 0, 8 ); */ + set16_fx( hLPDmem->dm_fx.prev_gain_pit, 0, 6 ); + hLPDmem->dm_fx.prev_state = 0; + move16(); + hLPDmem->dm_fx.prev_gain_code = L_deposit_l( 0 ); + } + st_fx->Nb_ACELP_frames = 0; + move16(); + + set16_fx( st_fx->mem_MA_fx, 0, M ); + Copy( GEWB_Ave_fx, st_fx->mem_AR_fx, M ); + init_gp_clip_fx( st_fx->clip_var_fx ); + st_fx->last_coder_type = GENERIC; + move16(); + + tmp16 = add( NB_SUBFR, 1 ); + + if ( EQ_16( st_fx->L_frame, L_FRAME ) ) + { + tmp16 = NB_SUBFR; + move16(); + } + + Copy( st_fx->old_pitch_buf_fx + tmp16, st_fx->old_pitch_buf_fx, tmp16 ); + set16_fx( st_fx->old_pitch_buf_fx + tmp16, L_SUBFR, tmp16 ); + + /* Reset old ACELP buffers */ + test(); + IF( ( st_fx->element_mode == EVS_MONO ) && hLPDmem != NULL ) + { + set16_fx( hLPDmem->old_exc, 0, L_EXC_MEM ); + } + IF( hBWE_TD != NULL ) + { + set16_fx( hBWE_TD->old_bwe_exc_fx, 0, PIT16k_MAX * 2 ); + + /* reset BWE memories */ + hBWE_TD->bwe_non_lin_prev_scale_fx = 0; + move32(); + } + IF( hBWE_FD != NULL ) + { + set16_fx( hBWE_FD->old_syn_12k8_16k_fx, 0, NS2SA( 16000, DELAY_FD_BWE_ENC_NS ) ); + } + } + test(); + test(); + test(); + IF( ( ( st_fx->core == ACELP_CORE ) || EQ_16( st_fx->core, AMR_WB_CORE ) ) && ( EQ_16( st_fx->last_core, TCX_20_CORE ) || EQ_16( st_fx->last_core, TCX_10_CORE ) ) ) + { + /* Reset the ACELP core in case of TCX->ACELP core switching */ + st_fx->Nb_ACELP_frames = 0; + move16(); + + IF( hLPDmem != NULL ) + { + hLPDmem->mem_w0 = 0; + move16(); + hLPDmem->tilt_code = 0; + move16(); + hLPDmem->gc_threshold = 0; + move32(); + init_gp_clip_fx( st_fx->clip_var_fx ); + set16_fx( hLPDmem->dm_fx.prev_gain_pit, 0, 6 ); + hLPDmem->dm_fx.prev_state = 0; + move16(); + hLPDmem->dm_fx.prev_gain_code = 0; + move32(); + } + + st_fx->last_coder_type = GENERIC; + move16(); + + tmp16 = shr( st_fx->L_frame, 6 ); + Copy( st_fx->old_pitch_buf_fx + tmp16, st_fx->old_pitch_buf_fx, tmp16 ); + set16_fx( st_fx->old_pitch_buf_fx + tmp16, L_SUBFR, tmp16 ); + + /* Reset old TD BWE buffers */ + IF( hBWE_TD != NULL ) + { + set16_fx( hBWE_TD->old_bwe_exc_fx, 0, PIT16k_MAX * 2 ); + hBWE_TD->bwe_non_lin_prev_scale_fx = 0; + move32(); + } + + /* reset BWE memories */ + IF( hBWE_FD != NULL ) + { + set16_fx( hBWE_FD->old_syn_12k8_16k_fx, 0, NS2SA( 16000, DELAY_FD_BWE_ENC_NS ) ); /* TODO : this might not be needed */ + } + } + test(); + test(); + test(); + IF( GE_32( st_fx->input_Fs, 16000 ) && NE_16( st_fx->last_extl, WB_BWE ) && EQ_16( st_fx->extl, WB_BWE ) && hBWE_FD != NULL ) + { + test(); + IF( NE_16( st_fx->last_extl, SWB_BWE ) && NE_16( st_fx->last_extl, FB_BWE ) ) + { + hBWE_FD->prev_mode = NORMAL; + move16(); + hBWE_FD->modeCount = 0; + move16(); + } + + hBWE_FD->prev_L_swb_norm1 = 8; + move16(); + } + + test(); + test(); + test(); + test(); + test(); + IF( ( GE_32( st_fx->input_Fs, 32000 ) && NE_16( st_fx->last_extl, SWB_BWE ) && EQ_16( st_fx->extl, SWB_BWE ) ) || + ( GE_32( st_fx->input_Fs, 48000 ) && NE_16( st_fx->last_extl, FB_BWE ) && EQ_16( st_fx->extl, FB_BWE ) ) ) + { + /* we are switching to SWB BWE - reset SWB BWE buffers */ + + IF( EQ_16( st_fx->L_frame, L_FRAME ) ) + { + Sample_Delay_HP = NS2SA( 16000, ACELP_LOOK_NS + DELAY_FD_BWE_ENC_12k8_NS + DELAY_FIR_RESAMPL_NS - DELAY_CLDFB_NS ); + Sample_Delay_LP = NS2SA( 12800, ACELP_LOOK_NS + DELAY_FD_BWE_ENC_12k8_NS ); + IF( ( st_fx->element_mode > EVS_MONO ) ) + { + IF( EQ_16( st_fx->element_mode, IVAS_CPE_TD ) ) + { + Sample_Delay_HP = NS2SA( 16000, ACELP_LOOK_NS + DELAY_FD_BWE_ENC_12k8_NS + DELAY_FIR_RESAMPL_NS - DELAY_CLDFB_NS - L_MEM_RECALC_TBE_NS ); + } + Sample_Delay_HP = sub( Sample_Delay_HP, NS2SA( 16000, DELAY_FIR_RESAMPL_NS ) ); + } + IF( GT_16( q_old_inp_12k8, hBWE_FD->prev_Q_input_lp ) ) + { + Copy_Scale_sig( old_inp_12k8 + sub( L_INP_MEM + L_FRAME, Sample_Delay_LP ), hBWE_FD->old_input_lp_fx, Sample_Delay_LP, sub( hBWE_FD->prev_Q_input_lp, q_old_inp_12k8 ) ); // prev_Q_input_lp + } + ELSE + { + Scale_sig( hBWE_FD->old_input_lp_fx, NS2SA( 16000, ACELP_LOOK_NS + DELAY_FD_BWE_ENC_NS ), sub( q_old_inp_12k8, hBWE_FD->prev_Q_input_lp ) ); // q_old_inp_12k8 + hBWE_FD->prev_Q_input_lp = q_old_inp_12k8; + move16(); + Copy( old_inp_12k8 + sub( L_INP_MEM + L_FRAME, Sample_Delay_LP ), hBWE_FD->old_input_lp_fx, Sample_Delay_LP ); + } + } + ELSE + { + Sample_Delay_HP = NS2SA( 16000, ACELP_LOOK_NS + DELAY_FD_BWE_ENC_16k_NS + DELAY_FIR_RESAMPL_NS - DELAY_CLDFB_NS ); + Sample_Delay_LP = NS2SA( 16000, ACELP_LOOK_NS + DELAY_FD_BWE_ENC_16k_NS ); + IF( GT_16( st_fx->element_mode, EVS_MONO ) ) + { + IF( EQ_16( st_fx->element_mode, IVAS_CPE_TD ) ) + { + Sample_Delay_HP = NS2SA( 16000, ACELP_LOOK_NS + DELAY_FD_BWE_ENC_16k_NS + DELAY_FIR_RESAMPL_NS - DELAY_CLDFB_NS - L_MEM_RECALC_TBE_NS ); + } + Sample_Delay_HP = sub( Sample_Delay_HP, NS2SA( 16000, DELAY_FIR_RESAMPL_NS ) ); + } + IF( GT_16( q_old_inp_16k, hBWE_FD->prev_Q_input_lp ) ) + { + Copy_Scale_sig( old_inp_16k + sub( L_INP_MEM + L_FRAME, Sample_Delay_LP ), hBWE_FD->old_input_lp_fx, Sample_Delay_LP, sub( hBWE_FD->prev_Q_input_lp, q_old_inp_16k ) ); // prev_Q_input_lp + } + ELSE + { + Scale_sig( hBWE_FD->old_input_lp_fx, NS2SA( 16000, ACELP_LOOK_NS + DELAY_FD_BWE_ENC_NS ), sub( q_old_inp_16k, hBWE_FD->prev_Q_input_lp ) ); // q_old_inp_16k + hBWE_FD->prev_Q_input_lp = q_old_inp_16k; + move16(); + Copy( old_inp_16k + sub( L_INP_MEM + L_FRAME, Sample_Delay_LP ), hBWE_FD->old_input_lp_fx, Sample_Delay_LP ); + } + } + + tmp = sub( L_LOOK_16k + L_SUBFR16k, Sample_Delay_HP ); + Copy( &hBWE_TD->old_speech_shb_fx[tmp], hBWE_FD->new_input_hp_fx, Sample_Delay_HP ); + hBWE_FD->Q_new_input_hp = 0; + move16(); + + IF( NE_16( st_fx->last_extl, WB_BWE ) ) + { + hBWE_FD->prev_mode = NORMAL; + move16(); + hBWE_FD->modeCount = 0; + move16(); + } + hBWE_FD->EnergyLF_fx = 0; + hBWE_FD->EnergyLF_exp = 0; + move32(); + move16(); + hBWE_FD->prev_L_swb_norm1 = 8; + move16(); /*8.0 in Q0 */ + st_fx->EnergyLT_fx_exp = 30; + move16(); /* Set to a High Exponent so it is 1^-30 */ + } + /*---------------------------------------------------------------------* + * band-width switching from WB -> SWB/FB + *---------------------------------------------------------------------*/ + IF( st_fx->element_mode > EVS_MONO ) + { + IF( st_fx->bwidth_sw_cnt == 0 ) + { + test(); + IF( GE_16( st_fx->bwidth, SWB ) && EQ_16( st_fx->last_bwidth, WB ) ) + { + st_fx->bwidth_sw_cnt = add( st_fx->bwidth_sw_cnt, 1 ); + move16(); + } + } + ELSE + { + st_fx->bwidth_sw_cnt = add( st_fx->bwidth_sw_cnt, 1 ); + move16(); + IF( EQ_16( st_fx->bwidth_sw_cnt, BWS_TRAN_PERIOD ) ) + { + st_fx->bwidth_sw_cnt = 0; + move16(); + } + } + } + + return; +} + +/*---------------------------------------------------------------------* + * core_switching_post_enc() + * + * Postprocessing for ACELP/HQ core switching + *---------------------------------------------------------------------*/ + +void core_switching_post_enc_ivas_fx( + Encoder_State *st, /* i/o: encoder state structure */ + Word16 *old_inp_12k8_fx, /* i : old input signal @12.8kHz Q_new-1 */ + Word16 *old_inp_16k_fx, /* i : old input signal @16kHz Q_new-1 */ + Word16 A_fx[], /* i : unquant. LP filter coefs. Q12 */ + Word16 Q_new ) +{ + IF( EQ_16( st->core, HQ_CORE ) ) + { + st->use_acelp_preq = 0; + move16(); + test(); + test(); + IF( ( st->last_core == ACELP_CORE || EQ_16( st->last_core, AMR_WB_CORE ) ) && st->element_mode == EVS_MONO ) /* core switching ==> ACELP subframe encoding */ + { + /* Memory scaling to keep everything in common q */ + Scale_sig( st->hLPDmem->mem_syn, M, sub( sub( Q_new, 1 ), st->hLPDmem->q_mem_syn ) ); /* Q_new-1 */ + Scale_sig( st->hLPDmem->mem_syn1_fx, M, sub( sub( Q_new, 1 ), st->hLPDmem->q_mem_syn ) ); /* Q_new-1 */ + Scale_sig( st->hLPDmem->mem_syn2, M, sub( sub( Q_new, 1 ), st->hLPDmem->q_mem_syn ) ); /* Q_new-1 */ + Scale_sig( st->hLPDmem->mem_syn3, M, sub( sub( Q_new, 1 ), st->hLPDmem->q_mem_syn ) ); /* Q_new-1 */ + Scale_sig( st->hLPDmem->mem_syn_r, L_SYN_MEM, sub( sub( Q_new, 1 ), st->hLPDmem->q_mem_syn ) ); /* Q_new-1 */ + st->hLPDmem->mem_w0 = shl( st->hLPDmem->mem_w0, sub( sub( Q_new, 1 ), st->hLPDmem->q_mem_syn ) ); /* Q_new-1 */ + move16(); + st->hLPDmem->q_mem_syn = sub( Q_new, 1 ); + move16(); + + acelp_core_switch_enc_ivas_fx( st, old_inp_12k8_fx + L_INP_MEM - NS2SA( INT_FS_12k8, ACELP_LOOK_NS ), old_inp_16k_fx + L_INP_MEM - NS2SA( INT_FS_16k, ACELP_LOOK_NS ), A_fx, 0, sub( Q_new, 1 ) ); + } + + st->hBWE_TD->bwe_non_lin_prev_scale_fx = 0; + move32(); + st->hBWE_FD->mem_deemph_old_syn_fx = 0; + move16(); + st->hBWE_FD->q_mem_deemph_old_syn = 0; + move16(); + } + ELSE + { + IF( st->hBWE_TD == NULL ) + { + return; + } + + test(); + /* reset SWB TBE buffers */ + IF( EQ_16( st->extl, WB_TBE ) && NE_16( st->last_extl, WB_TBE ) ) + { + wb_tbe_extras_reset_fx( st->hBWE_TD->mem_genSHBexc_filt_down_wb2_fx, st->hBWE_TD->mem_genSHBexc_filt_down_wb3_fx ); + + IF( NE_16( st->last_extl, WB_BWE ) ) + { + set16_fx( st->hBWE_TD->decim_state1_fx, 0, ( 2 * ALLPASSSECTIONS_STEEP + 1 ) ); + set16_fx( st->hBWE_TD->decim_state2_fx, 0, ( 2 * ALLPASSSECTIONS_STEEP + 1 ) ); + } + + set16_fx( st->hBWE_TD->state_syn_shbexc_fx, 0, L_SHB_LAHEAD / 4 ); + set16_fx( st->hBWE_TD->syn_overlap_fx, 0, L_SHB_LAHEAD ); + set32_fx( st->hBWE_TD->mem_csfilt_fx, 0, 2 ); + } + + test(); + test(); + test(); + test(); + test(); + test(); + test(); + test(); + test(); + test(); + test(); + test(); + test(); + test(); + test(); + test(); + test(); + + IF( ( EQ_16( st->extl, SWB_TBE ) || EQ_16( st->extl, FB_TBE ) ) && + ( EQ_16( st->last_core, HQ_CORE ) || NE_16( st->L_frame, st->last_L_frame ) || ( NE_16( st->last_extl, SWB_TBE ) && NE_16( st->last_extl, FB_TBE ) && NE_16( st->last_core, TCX_20_CORE ) && NE_16( st->last_core, TCX_10_CORE ) ) ) ) + { + set16_fx( st->hBWE_TD->state_ana_filt_shb_fx, 0, ( 2 * ALLPASSSECTIONS_STEEP + 1 ) ); + + InitSWBencBufferStates_fx( st->hBWE_TD, NULL ); + swb_tbe_reset_fx( st->hBWE_TD->mem_csfilt_fx, st->hBWE_TD->mem_genSHBexc_filt_down_shb_fx, st->hBWE_TD->state_lpc_syn_fx, st->hBWE_TD->syn_overlap_fx, st->hBWE_TD->state_syn_shbexc_fx, &( st->hBWE_TD->tbe_demph_fx ), &( st->hBWE_TD->tbe_premph_fx ), st->hBWE_TD->mem_stp_swb_fx, &( st->hBWE_TD->gain_prec_swb_fx ) ); + + set16_fx( st->hBWE_TD->dec_2_over_3_mem_fx, 0, L_FILT_2OVER3 ); + set16_fx( st->hBWE_TD->dec_2_over_3_mem_lp_fx, 0, L_FILT_2OVER3_LP ); + } + ELSE IF( ( EQ_16( st->extl, SWB_TBE ) || EQ_16( st->extl, FB_TBE ) ) && ( ( EQ_16( st->element_mode, IVAS_CPE_TD ) && NE_16( st->last_extl, SWB_TBE ) && NE_16( st->last_extl, FB_TBE ) ) || ( NE_16( st->element_mode, IVAS_CPE_TD ) && NE_32( st->last_total_brate, st->total_brate ) ) || ( NE_16( st->last_bwidth, st->bwidth ) ) || ( NE_16( st->last_codec_mode, MODE1 ) ) || ( NE_16( st->rf_mode_last, st->rf_mode ) ) ) ) + { + set16_fx( st->hBWE_TD->state_lpc_syn_fx, 0, LPC_SHB_ORDER ); + set16_fx( st->hBWE_TD->state_syn_shbexc_fx, 0, L_SHB_LAHEAD ); + set16_fx( st->hBWE_TD->mem_stp_swb_fx, 0, LPC_SHB_ORDER ); + set16_fx( st->hBWE_TD->mem_zero_swb_fx, 0, LPC_SHB_ORDER ); + st->hBWE_TD->gain_prec_swb_fx = ONE_IN_Q14; + move16(); + } + ELSE IF( EQ_16( st->last_core, TCX_20_CORE ) || EQ_16( st->last_core, TCX_10_CORE ) ) + { + TBEreset_enc_fx( st, st->bwidth ); + } + + test(); + test(); + test(); + test(); + /* Interp_3_2 CNG buffers reset */ + IF( EQ_16( st->extl, FB_TBE ) && ( ( NE_16( st->last_extl, FB_TBE ) && NE_16( st->last_core, TCX_20_CORE ) && NE_16( st->last_core, TCX_10_CORE ) ) || NE_16( st->L_frame, st->last_L_frame ) ) ) + { + set16_fx( st->hBWE_TD->fb_state_lpc_syn_fx, 0, LPC_SHB_ORDER ); + st->hBWE_TD->fb_tbe_demph_fx = 0; + move16(); + fb_tbe_reset_enc_fx( st->hBWE_TD->elliptic_bpf_2_48k_mem_fx, &st->hBWE_TD->prev_fb_energy_fx, st->hBWE_TD->elliptic_bpf_2_48k_mem_fx_Q, &st->hBWE_TD->prev_fb_energy_fx_Q ); + } + /* Fade towards init value for non HQ_CORE */ + IF( st->hHQ_core != NULL ) + { + st->hHQ_core->crest_lp_fx = L_add( Mpy_32_32( HQ_CREST_FAC_SM_FX, st->hHQ_core->crest_lp_fx ), Mpy_32_32( L_sub( ONE_IN_Q31, HQ_CREST_FAC_SM_FX ), L_shr( HQ_CREST_THRESHOLD_FX, sub( Q28, st->hHQ_core->crest_lp_q ) ) ) ); /*crest_lp_q*/ + move32(); + st->hHQ_core->crest_mod_lp_fx = L_add( Mpy_32_32( HQ_CREST_FAC_SM_FX, st->hHQ_core->crest_mod_lp_fx ), Mpy_32_32( L_sub( ONE_IN_Q31, HQ_CREST_FAC_SM_FX ), L_shr( HQ_CREST_MOD_THRESHOLD_FX, sub( Q29, st->hHQ_core->crest_mod_lp_q ) ) ) ); /*crest_mod_lp_q*/ + move32(); + } + } + + return; +} diff --git a/lib_enc/corr_xh.c b/lib_enc/corr_xh.c deleted file mode 100644 index 9fd3cb8a2110dd67de347543d80c98cc92ab9c43..0000000000000000000000000000000000000000 --- a/lib_enc/corr_xh.c +++ /dev/null @@ -1,41 +0,0 @@ -/****************************************************************************************************** - - (C) 2022-2025 IVAS codec Public Collaboration with portions copyright Dolby International AB, Ericsson AB, - Fraunhofer-Gesellschaft zur Foerderung der angewandten Forschung e.V., Huawei Technologies Co. LTD., - Koninklijke Philips N.V., Nippon Telegraph and Telephone Corporation, Nokia Technologies Oy, Orange, - Panasonic Holdings Corporation, Qualcomm Technologies, Inc., VoiceAge Corporation, and other - contributors to this repository. All Rights Reserved. - - This software is protected by copyright law and by international treaties. - The IVAS codec Public Collaboration consisting of Dolby International AB, Ericsson AB, - Fraunhofer-Gesellschaft zur Foerderung der angewandten Forschung e.V., Huawei Technologies Co. LTD., - Koninklijke Philips N.V., Nippon Telegraph and Telephone Corporation, Nokia Technologies Oy, Orange, - Panasonic Holdings Corporation, Qualcomm Technologies, Inc., VoiceAge Corporation, and other - contributors to this repository retain full ownership rights in their respective contributions in - the software. This notice grants no license of any kind, including but not limited to patent - license, nor is any license granted by implication, estoppel or otherwise. - - Contributors are required to enter into the IVAS codec Public Collaboration agreement before making - contributions. - - This software is provided "AS IS", without any express or implied warranties. The software is in the - development stage. It is intended exclusively for experts who have experience with such software and - solely for the purpose of inspection. All implied warranties of non-infringement, merchantability - and fitness for a particular purpose are hereby disclaimed and excluded. - - Any dispute, controversy or claim arising under or in relation to providing this software shall be - submitted to and settled by the final, binding jurisdiction of the courts of Munich, Germany in - accordance with the laws of the Federal Republic of Germany excluding its conflict of law rules and - the United Nations Convention on Contracts on the International Sales of Goods. - -*******************************************************************************************************/ - -/*==================================================================================== - EVS Codec 3GPP TS26.443 Nov 04, 2021. Version 12.14.0 / 13.10.0 / 14.6.0 / 15.4.0 / 16.3.0 - ====================================================================================*/ - -#include -#include "options.h" -#include "prot.h" -#include "cnst.h" -#include "wmc_auto.h" diff --git a/lib_enc/decision_matrix_enc.c b/lib_enc/decision_matrix_enc.c deleted file mode 100644 index 5e0c266ca74776a96e206ea77826e8a721633d1d..0000000000000000000000000000000000000000 --- a/lib_enc/decision_matrix_enc.c +++ /dev/null @@ -1,45 +0,0 @@ -/****************************************************************************************************** - - (C) 2022-2025 IVAS codec Public Collaboration with portions copyright Dolby International AB, Ericsson AB, - Fraunhofer-Gesellschaft zur Foerderung der angewandten Forschung e.V., Huawei Technologies Co. LTD., - Koninklijke Philips N.V., Nippon Telegraph and Telephone Corporation, Nokia Technologies Oy, Orange, - Panasonic Holdings Corporation, Qualcomm Technologies, Inc., VoiceAge Corporation, and other - contributors to this repository. All Rights Reserved. - - This software is protected by copyright law and by international treaties. - The IVAS codec Public Collaboration consisting of Dolby International AB, Ericsson AB, - Fraunhofer-Gesellschaft zur Foerderung der angewandten Forschung e.V., Huawei Technologies Co. LTD., - Koninklijke Philips N.V., Nippon Telegraph and Telephone Corporation, Nokia Technologies Oy, Orange, - Panasonic Holdings Corporation, Qualcomm Technologies, Inc., VoiceAge Corporation, and other - contributors to this repository retain full ownership rights in their respective contributions in - the software. This notice grants no license of any kind, including but not limited to patent - license, nor is any license granted by implication, estoppel or otherwise. - - Contributors are required to enter into the IVAS codec Public Collaboration agreement before making - contributions. - - This software is provided "AS IS", without any express or implied warranties. The software is in the - development stage. It is intended exclusively for experts who have experience with such software and - solely for the purpose of inspection. All implied warranties of non-infringement, merchantability - and fitness for a particular purpose are hereby disclaimed and excluded. - - Any dispute, controversy or claim arising under or in relation to providing this software shall be - submitted to and settled by the final, binding jurisdiction of the courts of Munich, Germany in - accordance with the laws of the Federal Republic of Germany excluding its conflict of law rules and - the United Nations Convention on Contracts on the International Sales of Goods. - -*******************************************************************************************************/ - -/*==================================================================================== - EVS Codec 3GPP TS26.443 Nov 04, 2021. Version 12.14.0 / 13.10.0 / 14.6.0 / 15.4.0 / 16.3.0 - ====================================================================================*/ - -#include -#include -#include "options.h" -#include "prot.h" -#include "prot_fx_enc.h" -#include "stat_enc.h" -#include "stat_dec.h" -#include "rom_com.h" -#include "wmc_auto.h" diff --git a/lib_enc/decision_matrix_enc_fx.c b/lib_enc/decision_matrix_enc_fx.c index 3624cf37463b4f56b24b40fb5660b567a406ced2..bc5feeb6be1d1e6855a7758070709130ae0d6f7b 100644 --- a/lib_enc/decision_matrix_enc_fx.c +++ b/lib_enc/decision_matrix_enc_fx.c @@ -386,7 +386,6 @@ void decision_matrix_enc_fx( move16(); } -#ifdef NONBE_FIX_GSC_BSTR /*-----------------------------------------------------------------* * set inactive coder_type flag in ACELP core *-----------------------------------------------------------------*/ @@ -400,7 +399,6 @@ void decision_matrix_enc_fx( move16(); } -#endif return; } @@ -451,14 +449,14 @@ Word16 signalling_mode1_tcx20_enc_fx( num_bits = add( num_bits, nBits ); IF( push != 0 ) { - push_indice_fx( hBstr, IND_ACELP_SIGNALLING, sub( idx, start_idx ), nBits ); + push_indice( hBstr, IND_ACELP_SIGNALLING, sub( idx, start_idx ), nBits ); } /* HQ/TCX core switching flag */ num_bits = add( num_bits, 1 ); IF( push != 0 ) { - push_indice_fx( hBstr, IND_MDCT_CORE, 1, 1 ); + push_indice( hBstr, IND_MDCT_CORE, 1, 1 ); } } ELSE @@ -469,7 +467,7 @@ Word16 signalling_mode1_tcx20_enc_fx( num_bits = add( num_bits, 1 ); IF( push != 0 ) { - push_indice_fx( hBstr, IND_CORE, 1, 1 ); + push_indice( hBstr, IND_CORE, 1, 1 ); } } @@ -477,7 +475,7 @@ Word16 signalling_mode1_tcx20_enc_fx( num_bits = add( num_bits, 1 ); IF( push != 0 ) { - push_indice_fx( hBstr, IND_MDCT_CORE, 1, 1 ); + push_indice( hBstr, IND_MDCT_CORE, 1, 1 ); } num_bits = add( num_bits, 2 ); @@ -486,19 +484,19 @@ Word16 signalling_mode1_tcx20_enc_fx( /* write band-width (needed for different I/O sampling rate support) */ IF( EQ_16( st->bwidth, NB ) ) { - push_indice_fx( hBstr, IND_HQ_BWIDTH, 0, 2 ); + push_indice( hBstr, IND_HQ_BWIDTH, 0, 2 ); } ELSE IF( EQ_16( st->bwidth, WB ) ) { - push_indice_fx( hBstr, IND_HQ_BWIDTH, 1, 2 ); + push_indice( hBstr, IND_HQ_BWIDTH, 1, 2 ); } ELSE IF( EQ_16( st->bwidth, SWB ) ) { - push_indice_fx( hBstr, IND_HQ_BWIDTH, 2, 2 ); + push_indice( hBstr, IND_HQ_BWIDTH, 2, 2 ); } ELSE /* st->bwidth == FB */ { - push_indice_fx( hBstr, IND_HQ_BWIDTH, 3, 2 ); + push_indice( hBstr, IND_HQ_BWIDTH, 3, 2 ); } } } @@ -529,28 +527,28 @@ void signalling_enc_fx( assert( !st_fx->tcxonly ); assert( st_fx->core == HQ_CORE ); - push_next_indice_fx( hBstr, 1, 1 ); /* TCX */ - push_next_indice_fx( hBstr, 1, 1 ); /* HQ_CORE */ + push_next_indice( hBstr, 1, 1 ); /* TCX */ + push_next_indice( hBstr, 1, 1 ); /* HQ_CORE */ /* write ACELP->HQ core switching flag */ test(); IF( ( st_fx->last_core == ACELP_CORE ) || EQ_16( st_fx->last_core, AMR_WB_CORE ) ) { - push_indice_fx( hBstr, IND_HQ_SWITCHING_FLG, 1, 1 ); + push_indice( hBstr, IND_HQ_SWITCHING_FLG, 1, 1 ); /* write ACELP L_frame info */ IF( EQ_16( st_fx->last_L_frame, L_FRAME ) ) { - push_indice_fx( hBstr, IND_LAST_L_FRAME, 0, 1 ); + push_indice( hBstr, IND_LAST_L_FRAME, 0, 1 ); } ELSE { - push_indice_fx( hBstr, IND_LAST_L_FRAME, 1, 1 ); + push_indice( hBstr, IND_LAST_L_FRAME, 1, 1 ); } } ELSE { - push_indice_fx( hBstr, IND_HQ_SWITCHING_FLG, 0, 1 ); + push_indice( hBstr, IND_HQ_SWITCHING_FLG, 0, 1 ); } return; @@ -576,7 +574,7 @@ void signalling_enc_fx( IF( EQ_16( ppp_mode, 1 ) || EQ_16( nelp_mode, 1 ) ) { /* 1 bit to distinguish between 2.8kbps PPP/NELP frame and SID frame */ - push_indice_fx( hBstr, IND_CORE, 0, 1 ); + push_indice( hBstr, IND_CORE, 0, 1 ); /* SC-VBR: 0 - PPP_NB, 1 - PPP_WB, 2 - NELP_NB, 3 - NELP_WB */ test(); test(); @@ -588,19 +586,19 @@ void signalling_enc_fx( test(); IF( EQ_16( st_fx->coder_type, VOICED ) && EQ_16( st_fx->bwidth, NB ) && EQ_16( ppp_mode, 1 ) ) { - push_indice_fx( hBstr, IND_PPP_NELP_MODE, 0, 2 ); + push_indice( hBstr, IND_PPP_NELP_MODE, 0, 2 ); } ELSE IF( EQ_16( st_fx->coder_type, VOICED ) && NE_16( st_fx->bwidth, NB ) && EQ_16( ppp_mode, 1 ) ) { - push_indice_fx( hBstr, IND_PPP_NELP_MODE, 1, 2 ); + push_indice( hBstr, IND_PPP_NELP_MODE, 1, 2 ); } ELSE IF( EQ_16( st_fx->coder_type, UNVOICED ) && EQ_16( st_fx->bwidth, NB ) && EQ_16( nelp_mode, 1 ) ) { - push_indice_fx( hBstr, IND_PPP_NELP_MODE, 2, 2 ); + push_indice( hBstr, IND_PPP_NELP_MODE, 2, 2 ); } ELSE IF( EQ_16( st_fx->coder_type, UNVOICED ) && NE_16( st_fx->bwidth, NB ) && EQ_16( nelp_mode, 1 ) ) { - push_indice_fx( hBstr, IND_PPP_NELP_MODE, 3, 2 ); + push_indice( hBstr, IND_PPP_NELP_MODE, 3, 2 ); } } ELSE IF( NE_32( st_fx->core_brate, SID_2k40 ) && ( st_fx->core_brate != FRAME_NO_DATA ) ) @@ -608,7 +606,7 @@ void signalling_enc_fx( /* write the ACELP/HQ core selection bit */ IF( GE_32( st_fx->total_brate, ACELP_24k40 ) ) { - push_indice_fx( hBstr, IND_CORE, 0, 1 ); + push_indice( hBstr, IND_CORE, 0, 1 ); } /* find the section in the ACELP signalling table corresponding to bitrate */ @@ -654,7 +652,7 @@ void signalling_enc_fx( idx++; } - push_indice_fx( hBstr, IND_ACELP_SIGNALLING, idx - start_idx, nBits ); + push_indice( hBstr, IND_ACELP_SIGNALLING, idx - start_idx, nBits ); } /* write extension layer flag to distinguish between TBE (0) and BWE (1) */ @@ -666,11 +664,11 @@ void signalling_enc_fx( test(); IF( EQ_16( st_fx->extl, WB_TBE ) || EQ_16( st_fx->extl, SWB_TBE ) || EQ_16( st_fx->extl, FB_TBE ) ) { - push_indice_fx( hBstr, IND_BWE_FLAG, 0, 1 ); + push_indice( hBstr, IND_BWE_FLAG, 0, 1 ); } ELSE IF( EQ_16( st_fx->extl, WB_BWE ) || EQ_16( st_fx->extl, SWB_BWE ) || EQ_16( st_fx->extl, FB_BWE ) ) { - push_indice_fx( hBstr, IND_BWE_FLAG, 1, 1 ); + push_indice( hBstr, IND_BWE_FLAG, 1, 1 ); } } } @@ -680,24 +678,24 @@ void signalling_enc_fx( test(); IF( ( st_fx->last_core == ACELP_CORE ) || EQ_16( st_fx->last_core, AMR_WB_CORE ) ) { - push_indice_fx( hBstr, IND_HQ_SWITCHING_FLG, 1, 1 ); + push_indice( hBstr, IND_HQ_SWITCHING_FLG, 1, 1 ); /* write ACELP L_frame info */ IF( EQ_16( st_fx->last_L_frame, L_FRAME ) ) { - push_indice_fx( hBstr, IND_LAST_L_FRAME, 0, 1 ); + push_indice( hBstr, IND_LAST_L_FRAME, 0, 1 ); } ELSE { - push_indice_fx( hBstr, IND_LAST_L_FRAME, 1, 1 ); + push_indice( hBstr, IND_LAST_L_FRAME, 1, 1 ); } } ELSE { - push_indice_fx( hBstr, IND_HQ_SWITCHING_FLG, 0, 1 ); + push_indice( hBstr, IND_HQ_SWITCHING_FLG, 0, 1 ); } /* HQ/TCX core switching flag */ - push_indice_fx( hBstr, IND_MDCT_CORE, 0, 1 ); + push_indice( hBstr, IND_MDCT_CORE, 0, 1 ); /* Use ACELP signaling for LR MDCT */ IF( LE_32( st_fx->total_brate, ACELP_16k40 ) ) @@ -721,7 +719,7 @@ void signalling_enc_fx( idx++; } - push_indice_fx( hBstr, IND_ACELP_SIGNALLING, idx - start_idx, nBits ); + push_indice( hBstr, IND_ACELP_SIGNALLING, idx - start_idx, nBits ); } ELSE { @@ -729,25 +727,25 @@ void signalling_enc_fx( IF( LE_32( st_fx->core_brate, ACELP_64k ) ) { /* write ACELP/HQ core indication flag */ - push_indice_fx( hBstr, IND_CORE, 1, 1 ); + push_indice( hBstr, IND_CORE, 1, 1 ); } /* write band-width (needed for different I/O sampling rate support) */ IF( EQ_16( st_fx->bwidth, NB ) ) { - push_indice_fx( hBstr, IND_HQ_BWIDTH, 0, 2 ); + push_indice( hBstr, IND_HQ_BWIDTH, 0, 2 ); } ELSE IF( EQ_16( st_fx->bwidth, WB ) ) { - push_indice_fx( hBstr, IND_HQ_BWIDTH, 1, 2 ); + push_indice( hBstr, IND_HQ_BWIDTH, 1, 2 ); } ELSE IF( EQ_16( st_fx->bwidth, SWB ) ) { - push_indice_fx( hBstr, IND_HQ_BWIDTH, 2, 2 ); + push_indice( hBstr, IND_HQ_BWIDTH, 2, 2 ); } ELSE /* st_fx->bwidth == FB */ { - push_indice_fx( hBstr, IND_HQ_BWIDTH, 3, 2 ); + push_indice( hBstr, IND_HQ_BWIDTH, 3, 2 ); } } } diff --git a/lib_enc/detect_transient.c b/lib_enc/detect_transient.c deleted file mode 100644 index c2bbde08041bfeed5a556826eb2e257a72870485..0000000000000000000000000000000000000000 --- a/lib_enc/detect_transient.c +++ /dev/null @@ -1,42 +0,0 @@ -/****************************************************************************************************** - - (C) 2022-2025 IVAS codec Public Collaboration with portions copyright Dolby International AB, Ericsson AB, - Fraunhofer-Gesellschaft zur Foerderung der angewandten Forschung e.V., Huawei Technologies Co. LTD., - Koninklijke Philips N.V., Nippon Telegraph and Telephone Corporation, Nokia Technologies Oy, Orange, - Panasonic Holdings Corporation, Qualcomm Technologies, Inc., VoiceAge Corporation, and other - contributors to this repository. All Rights Reserved. - - This software is protected by copyright law and by international treaties. - The IVAS codec Public Collaboration consisting of Dolby International AB, Ericsson AB, - Fraunhofer-Gesellschaft zur Foerderung der angewandten Forschung e.V., Huawei Technologies Co. LTD., - Koninklijke Philips N.V., Nippon Telegraph and Telephone Corporation, Nokia Technologies Oy, Orange, - Panasonic Holdings Corporation, Qualcomm Technologies, Inc., VoiceAge Corporation, and other - contributors to this repository retain full ownership rights in their respective contributions in - the software. This notice grants no license of any kind, including but not limited to patent - license, nor is any license granted by implication, estoppel or otherwise. - - Contributors are required to enter into the IVAS codec Public Collaboration agreement before making - contributions. - - This software is provided "AS IS", without any express or implied warranties. The software is in the - development stage. It is intended exclusively for experts who have experience with such software and - solely for the purpose of inspection. All implied warranties of non-infringement, merchantability - and fitness for a particular purpose are hereby disclaimed and excluded. - - Any dispute, controversy or claim arising under or in relation to providing this software shall be - submitted to and settled by the final, binding jurisdiction of the courts of Munich, Germany in - accordance with the laws of the Federal Republic of Germany excluding its conflict of law rules and - the United Nations Convention on Contracts on the International Sales of Goods. - -*******************************************************************************************************/ - -/*==================================================================================== - EVS Codec 3GPP TS26.443 Nov 04, 2021. Version 12.14.0 / 13.10.0 / 14.6.0 / 15.4.0 / 16.3.0 - ====================================================================================*/ - -#include -#include "options.h" -#include "prot.h" -#include "cnst.h" -#include "rom_com.h" -#include "wmc_auto.h" diff --git a/lib_enc/diffcod.c b/lib_enc/diffcod.c deleted file mode 100644 index 9f6bb42839bf471e7549869bde2f5ca8aaea65b9..0000000000000000000000000000000000000000 --- a/lib_enc/diffcod.c +++ /dev/null @@ -1,149 +0,0 @@ -/****************************************************************************************************** - - (C) 2022-2025 IVAS codec Public Collaboration with portions copyright Dolby International AB, Ericsson AB, - Fraunhofer-Gesellschaft zur Foerderung der angewandten Forschung e.V., Huawei Technologies Co. LTD., - Koninklijke Philips N.V., Nippon Telegraph and Telephone Corporation, Nokia Technologies Oy, Orange, - Panasonic Holdings Corporation, Qualcomm Technologies, Inc., VoiceAge Corporation, and other - contributors to this repository. All Rights Reserved. - - This software is protected by copyright law and by international treaties. - The IVAS codec Public Collaboration consisting of Dolby International AB, Ericsson AB, - Fraunhofer-Gesellschaft zur Foerderung der angewandten Forschung e.V., Huawei Technologies Co. LTD., - Koninklijke Philips N.V., Nippon Telegraph and Telephone Corporation, Nokia Technologies Oy, Orange, - Panasonic Holdings Corporation, Qualcomm Technologies, Inc., VoiceAge Corporation, and other - contributors to this repository retain full ownership rights in their respective contributions in - the software. This notice grants no license of any kind, including but not limited to patent - license, nor is any license granted by implication, estoppel or otherwise. - - Contributors are required to enter into the IVAS codec Public Collaboration agreement before making - contributions. - - This software is provided "AS IS", without any express or implied warranties. The software is in the - development stage. It is intended exclusively for experts who have experience with such software and - solely for the purpose of inspection. All implied warranties of non-infringement, merchantability - and fitness for a particular purpose are hereby disclaimed and excluded. - - Any dispute, controversy or claim arising under or in relation to providing this software shall be - submitted to and settled by the final, binding jurisdiction of the courts of Munich, Germany in - accordance with the laws of the Federal Republic of Germany excluding its conflict of law rules and - the United Nations Convention on Contracts on the International Sales of Goods. - -*******************************************************************************************************/ - -/*==================================================================================== - EVS Codec 3GPP TS26.443 Nov 04, 2021. Version 12.14.0 / 13.10.0 / 14.6.0 / 15.4.0 / 16.3.0 - ====================================================================================*/ - -#include -#include "options.h" -#include "prot.h" -#include "rom_com.h" -#include "wmc_auto.h" - -/*--------------------------------------------------------------------------*/ -/* Function diffcod() */ -/* */ -/* Differential coding for indices of quantized norms */ -/*--------------------------------------------------------------------------*/ - -void diffcod( - const int16_t N, /* i : number of sub-vectors */ - int16_t *y, /* i/o: indices of quantized norms */ - int16_t *difidx /* o : differential code */ -) -{ - int16_t i, k, r; - - for ( i = N - 1; i > 0; i-- ) - { - r = i - 1; - k = y[i] - y[r]; - if ( k < ( -15 ) ) - { - y[r] = y[i] + 15; - } - } - - for ( i = 1; i < N; i++ ) - { - r = i - 1; - k = y[i] - y[r]; - if ( k > 16 ) - { - k = 16; - y[i] = y[r] + 16; - } - difidx[r] = k + 15; - } - - return; -} - - -/*-------------------------------------------------------------------------- - * diffcod_lrmdct() - * - * Differential coding for indices of quantized norms - *--------------------------------------------------------------------------*/ - -void diffcod_lrmdct( - const int16_t N, /* i : number of sub-vectors */ - const int16_t be_ref, /* i : band energy reference */ - int16_t *y, /* i/o: indices of quantized norms */ - int16_t *difidx, /* o : differential code */ - const int16_t is_transient /* i : transient flag */ -) -{ - int16_t i, m, r; - int16_t k; - int16_t thr_l, thr_h; - - if ( is_transient ) - { - thr_l = -15; - thr_h = 16; - } - else - { - thr_l = -32; - thr_h = 31; - } - - difidx[0] = y[0] - be_ref; - if ( difidx[0] > thr_h ) - { - difidx[0] = thr_h; - y[0] = be_ref + thr_h; - } - - if ( difidx[0] < thr_l ) - { - difidx[0] = thr_l; - y[0] = be_ref + thr_l; - } - - m = N - 1; - for ( i = m; i > 0; i-- ) - { - r = i - 1; - k = y[i] - y[r]; - if ( k < thr_l ) - { - y[r] = y[i] - thr_l; - } - } - - for ( i = 1; i < N; i++ ) - { - r = i - 1; - k = y[i] - y[r]; - if ( k > thr_h ) - { - k = thr_h; - y[i] = y[r] + thr_h; - } - difidx[i] = k; - } - - return; -} diff --git a/lib_enc/dtx.c b/lib_enc/dtx.c deleted file mode 100644 index 726508b0c292e420b5277b184e8860556dd047ad..0000000000000000000000000000000000000000 --- a/lib_enc/dtx.c +++ /dev/null @@ -1,45 +0,0 @@ -/****************************************************************************************************** - - (C) 2022-2025 IVAS codec Public Collaboration with portions copyright Dolby International AB, Ericsson AB, - Fraunhofer-Gesellschaft zur Foerderung der angewandten Forschung e.V., Huawei Technologies Co. LTD., - Koninklijke Philips N.V., Nippon Telegraph and Telephone Corporation, Nokia Technologies Oy, Orange, - Panasonic Holdings Corporation, Qualcomm Technologies, Inc., VoiceAge Corporation, and other - contributors to this repository. All Rights Reserved. - - This software is protected by copyright law and by international treaties. - The IVAS codec Public Collaboration consisting of Dolby International AB, Ericsson AB, - Fraunhofer-Gesellschaft zur Foerderung der angewandten Forschung e.V., Huawei Technologies Co. LTD., - Koninklijke Philips N.V., Nippon Telegraph and Telephone Corporation, Nokia Technologies Oy, Orange, - Panasonic Holdings Corporation, Qualcomm Technologies, Inc., VoiceAge Corporation, and other - contributors to this repository retain full ownership rights in their respective contributions in - the software. This notice grants no license of any kind, including but not limited to patent - license, nor is any license granted by implication, estoppel or otherwise. - - Contributors are required to enter into the IVAS codec Public Collaboration agreement before making - contributions. - - This software is provided "AS IS", without any express or implied warranties. The software is in the - development stage. It is intended exclusively for experts who have experience with such software and - solely for the purpose of inspection. All implied warranties of non-infringement, merchantability - and fitness for a particular purpose are hereby disclaimed and excluded. - - Any dispute, controversy or claim arising under or in relation to providing this software shall be - submitted to and settled by the final, binding jurisdiction of the courts of Munich, Germany in - accordance with the laws of the Federal Republic of Germany excluding its conflict of law rules and - the United Nations Convention on Contracts on the International Sales of Goods. - -*******************************************************************************************************/ - -/*==================================================================================== - EVS Codec 3GPP TS26.443 Nov 04, 2021. Version 12.14.0 / 13.10.0 / 14.6.0 / 15.4.0 / 16.3.0 - ====================================================================================*/ - -#include -#include -#include "options.h" -#include -#include "cnst.h" -#include "prot.h" -#include "ivas_prot.h" -#include "rom_com.h" -#include "wmc_auto.h" diff --git a/lib_enc/dtx_fx.c b/lib_enc/dtx_fx.c index a1478d3f80eb6772f6934c5a9fd753b7866db1de..6d8a297958fd614b8e44672ef8f64317dfb8ee45 100644 --- a/lib_enc/dtx_fx.c +++ b/lib_enc/dtx_fx.c @@ -10,7 +10,6 @@ #include #include "prot_fx.h" /* Function prototypes */ #include "prot_fx_enc.h" /* Function prototypes */ -#include "prot.h" /*-------------------------------------------------------------------* * Local constants @@ -30,12 +29,9 @@ #define CNG_TYPE_HO 20 /* hangover for switching between CNG types */ -#ifndef NONBE_FIX_1277_EVS_DTX_HIGH_RATE_THRESHOLD -#define DTX_THR 5 /* LP_NOISE level */ -#endif #define MAX_BRATE_DTX_EVS ACELP_24k40 /* maximum bitrate to which the default DTX is applied in EVS; otherwise DTX is applied only in silence */ -#define MAX_BRATE_DTX_IVAS IVAS_64k /* maximum bitrate to which the default DTX is applied in IVAS; otherwise DTX is applied only in silence */ +#define MAX_BRATE_DTX_IVAS IVAS_80k /* maximum bitrate to which the default DTX is applied in IVAS; otherwise DTX is applied only in silence */ /*-------------------------------------------------------------------* * Local function prototypes @@ -64,14 +60,12 @@ static void update_SID_cnt_fx( DTX_ENC_HANDLE hDtxEnc, const Word32 core_brate, /* _ None */ /*==================================================================================*/ void dtx_ivas_fx( - Encoder_State *st_fx, /* i/o: encoder state structure */ -#ifdef NONBE_1211_DTX_BR_SWITCHING + Encoder_State *st_fx, /* i/o: encoder state structure */ const Word32 last_ivas_total_brate, /* i : last IVAS total bitrate Q0*/ -#endif - const Word32 ivas_total_brate, /* i : IVAS total bitrate Q0*/ - const Word16 vad, /* i : vad flag for DTX Q0*/ - const Word16 speech[], /* i : Pointer to the speech frame Q_speech*/ - Word16 Q_speech /* i : Q factor for speech */ + const Word32 ivas_total_brate, /* i : IVAS total bitrate Q0*/ + const Word16 vad, /* i : vad flag for DTX Q0*/ + const Word16 speech[], /* i : Pointer to the speech frame Q_speech*/ + Word16 Q_speech /* i : Q factor for speech */ ) { Word16 alpha, i, j, Q_speech2; @@ -84,21 +78,15 @@ void dtx_ivas_fx( Flag Overflow = 0; move32(); #endif -#ifdef NONBE_1211_DTX_BR_SWITCHING Word32 total_brate_ref; total_brate_ref = st_fx->total_brate; move32(); -#endif IF( st_fx->dtx_sce_sba != 0 ) { last_br_cng_flag = 1; last_br_flag = 1; -#ifndef NONBE_1211_DTX_BR_SWITCHING - br_dtx_flag = 1; - move16(); -#endif move16(); move16(); } @@ -107,21 +95,15 @@ void dtx_ivas_fx( test(); test(); test(); - last_br_cng_flag = LE_32( st_fx->last_total_brate_cng, ACELP_24k40 ) || LT_16( st_fx->lp_noise_fx, DTX_THR * 256 ) || ( EQ_16( st_fx->element_mode, IVAS_SCE ) && LE_32( st_fx->last_total_brate_cng, ACELP_32k ) ); + last_br_cng_flag = LE_32( st_fx->last_total_brate_cng, MAX_BRATE_DTX_EVS ) || LT_16( st_fx->lp_noise_fx, DTX_THR * 256 ) || ( EQ_16( st_fx->element_mode, IVAS_SCE ) && LE_32( st_fx->last_total_brate_cng, MAX_BRATE_DTX_IVAS ) ); test(); test(); test(); -#ifdef NONBE_1211_DTX_BR_SWITCHING last_br_flag = ( st_fx->element_mode == EVS_MONO && LE_32( st_fx->last_total_brate, MAX_BRATE_DTX_EVS ) ) || ( st_fx->element_mode != EVS_MONO && LE_32( last_ivas_total_brate, MAX_BRATE_DTX_IVAS ) ) || LT_16( st_fx->lp_noise_fx, DTX_THR * 256 ); -#else - last_br_flag = LE_32( st_fx->last_total_brate, ACELP_24k40 ) || LT_16( st_fx->lp_noise_fx, DTX_THR * 256 ) || ( EQ_16( st_fx->element_mode, IVAS_SCE ) && LE_32( st_fx->last_total_brate, ACELP_32k ) ); - br_dtx_flag = 0; - move16(); -#endif } /* Initialization */ @@ -135,7 +117,7 @@ void dtx_ivas_fx( test(); test(); test(); - if ( ( EQ_16( st_fx->codec_mode, MODE1 ) || st_fx->Opt_AMR_WB ) && EQ_16( st_fx->element_mode, IVAS_SCE ) && EQ_16( st_fx->element_mode, IVAS_CPE_MDCT ) ) + if ( ( EQ_16( st_fx->codec_mode, MODE1 ) || st_fx->Opt_AMR_WB ) && NE_16( st_fx->element_mode, IVAS_SCE ) && NE_16( st_fx->element_mode, IVAS_CPE_MDCT ) ) { st_fx->cng_type = LP_CNG; move16(); @@ -218,10 +200,8 @@ void dtx_ivas_fx( * Select SID or FRAME_NO_DATA frame if DTX is enabled *------------------------------------------------------------------------*/ -#ifdef NONBE_1211_DTX_BR_SWITCHING br_dtx_flag = 1; move16(); -#endif IF( st_fx->dtx_sce_sba == 0 ) { @@ -231,11 +211,7 @@ void dtx_ivas_fx( test(); br_dtx_flag = ( ( st_fx->element_mode == EVS_MONO ) && LE_32( st_fx->total_brate, MAX_BRATE_DTX_EVS ) ) || ( ( st_fx->element_mode != EVS_MONO ) && LE_32( ivas_total_brate, MAX_BRATE_DTX_IVAS ) ) || -#ifdef NONBE_FIX_1277_EVS_DTX_HIGH_RATE_THRESHOLD LT_16( st_fx->lp_noise_fx, DTX_THR * 256 ); -#else - LT_16( st_fx->lp_noise_fx, 3840 /*15 in Q8*/ ); -#endif } test(); test(); @@ -254,8 +230,6 @@ void dtx_ivas_fx( { st_fx->last_total_brate_cng = -1; move16(); - st_fx->last_rf_mode_cng = st_fx->rf_mode; - move16(); } ELSE { @@ -265,6 +239,8 @@ void dtx_ivas_fx( move16(); st_fx->last_codec_mode_cng = st_fx->codec_mode; move16(); + st_fx->last_rf_mode_cng = st_fx->rf_mode; + move16(); } IF( hDtxEnc->cnt_SID == 0 ) @@ -321,7 +297,7 @@ void dtx_ivas_fx( test(); test(); test(); - IF( ( EQ_16( st_fx->cng_type, FD_CNG ) && ( LE_32( st_fx->total_brate, ACELP_24k40 ) || ( ( st_fx->element_mode != EVS_MONO ) && LE_32( st_fx->total_brate, ACELP_32k ) ) ) ) || ( EQ_16( st_fx->element_mode, IVAS_CPE_MDCT ) ) ) /* at highest bitrates, use exclusively LP_CNG */ + IF( ( EQ_16( st_fx->cng_type, FD_CNG ) && ( LE_32( st_fx->total_brate, MAX_BRATE_DTX_EVS ) || ( ( st_fx->element_mode != EVS_MONO ) && LE_32( ivas_total_brate, MAX_BRATE_DTX_IVAS ) ) ) ) || ( EQ_16( st_fx->element_mode, IVAS_CPE_MDCT ) ) ) /* at highest bitrates, use exclusively LP_CNG */ { test(); test(); @@ -350,16 +326,14 @@ void dtx_ivas_fx( IF( NE_16( st_fx->element_mode, IVAS_CPE_MDCT ) && st_fx->hBstr != NULL ) { - reset_indices_enc( st_fx->hBstr, st_fx->hBstr->nb_ind_tot ); + reset_indices_enc_fx( st_fx->hBstr, st_fx->hBstr->nb_ind_tot ); } } -#ifdef NONBE_1211_DTX_BR_SWITCHING ELSE IF( st_fx->element_mode != EVS_MONO ) { st_fx->total_brate = total_brate_ref; move32(); } -#endif /*------------------------------------------------------------------------* * Reset counters when in active frame (not in SID or FRAME_NO_DATA frame) @@ -662,11 +636,7 @@ void dtx_fx( move32(); #endif -#ifdef IVAS_CODE IF( st_fx->dtx_sce_sba != 0 ) -#else - if ( 0 ) -#endif { last_br_cng_flag = 1; last_br_flag = 1; @@ -770,9 +740,8 @@ void dtx_fx( /*------------------------------------------------------------------------* * Select SID or FRAME_NO_DATA frame if DTX is enabled *------------------------------------------------------------------------*/ -#ifdef IVAS_CODE + if ( st_fx->dtx_sce_sba == 0 ) -#endif { br_dtx_flag = LE_32( st_fx->total_brate, ACELP_24k40 ) || LT_16( st_fx->lp_noise_fx, DTX_THR * 256 ) || ( EQ_16( st_fx->element_mode, IVAS_SCE ) && LE_32( st_fx->total_brate, ACELP_32k ) ) || EQ_16( st_fx->element_mode, IVAS_CPE_DFT ) || ( EQ_16( st_fx->element_mode, IVAS_CPE_MDCT ) && ( LE_32( st_fx->element_brate, IVAS_64k ) || LT_16( st_fx->lp_noise_fx, DTX_THR * 256 ) ) ); @@ -836,20 +805,7 @@ void dtx_fx( st_fx->core_brate = SID_2k40; move32(); } - // PMT("dtx_sce_sba code is missing") -#ifdef IVAS_CODE - IF( ( NE_16( st_fx->last_core, ACELP_CORE ) || EQ_16( st_fx->cng_type, FD_CNG ) ) && EQ_16( st_fx->dtx_sce_sba, 1 ) ) - { - st_fx->cng_type = FD_CNG; - move16(); - if ( EQ_16( st_fx->element_mode, EVS_MONO ) && ( EQ_32( st_fx->total_brate, ACELP_9k60 ) || EQ_32( st_fx->total_brate, ACELP_16k40 ) || EQ_32( st_fx->total_brate, ACELP_24k40 ) || EQ_32( st_fx->total_brate, ACELP_48k ) || EQ_32( st_fx->total_brate, HQ_96k ) || EQ_32( st_fx->total_brate, HQ_128k ) ) ) - { - st_fx->codec_mode = MODE2; - move16(); - } - } - ELSE -#endif + { test(); test(); @@ -879,17 +835,15 @@ void dtx_fx( } } -#if 1 // def IVAS_CODE /* reset the bitstream (IVAS format signalling was already written) */ IF( NE_16( st_fx->element_mode, IVAS_CPE_MDCT ) && st_fx->hBstr != NULL ) { -#ifndef IVAS_CODE_BITSTREAM - reset_indices_enc_fx( st_fx->hBstr ); +#ifdef HARM_PUSH_BIT + reset_indices_enc_fx( st_fx->hBstr, st_fx->hBstr->nb_ind_tot ); #else - reset_indices_enc( st_fx->hBstr, st_fx->hBstr->nb_ind_tot ); + reset_indices_enc_fx( st_fx->hBstr, MAX_NUM_INDICES ); #endif } -#endif } /*------------------------------------------------------------------------* @@ -932,32 +886,6 @@ void dtx_fx( { IF( EQ_16( st_fx->element_mode, IVAS_SCE ) ) { -#ifdef IVAS_CODE - Word16 lp_thresh, fd_thresh; - PMT( "lp_thresh scaling is to be found" ) - test(); - IF( st_fx->Opt_DTX_ON && EQ_16( st_fx->dtx_sce_sba, 1 ) ) - { - lp_thresh = 5.f; - fd_thresh = 2.f; - } - ELSE - - { - lp_thresh = 10.f; - fd_thresh = 5.f; - } - - /*More conservative selection of LP-CNG for SCE*/ - if ( st->cng_type == LP_CNG && ( st->bckr_tilt_lt > lp_thresh ) ) - { - st->cng_type = FD_CNG; - } - else if ( st->cng_type == FD_CNG && ( st->bckr_tilt_lt < fd_thresh ) && ( st->lp_noise > 2.f ) ) - { - st->cng_type = LP_CNG; - } -#endif } ELSE { @@ -1630,11 +1558,6 @@ void td_cng_enc_init_fx( move16(); move16(); -#ifdef IVAS_CODE - hTdCngEnc->CNG_att_fx = 0; - hTdCngEnc->last_idx_ener_fx = 0; -#endif - hTdCngEnc->cng_buf_cnt = 0; diff --git a/lib_enc/enc_acelp.c b/lib_enc/enc_acelp.c deleted file mode 100644 index bf5688ef1a77cfe2bebe279516cd43cc88c16ff6..0000000000000000000000000000000000000000 --- a/lib_enc/enc_acelp.c +++ /dev/null @@ -1,91 +0,0 @@ -/****************************************************************************************************** - - (C) 2022-2025 IVAS codec Public Collaboration with portions copyright Dolby International AB, Ericsson AB, - Fraunhofer-Gesellschaft zur Foerderung der angewandten Forschung e.V., Huawei Technologies Co. LTD., - Koninklijke Philips N.V., Nippon Telegraph and Telephone Corporation, Nokia Technologies Oy, Orange, - Panasonic Holdings Corporation, Qualcomm Technologies, Inc., VoiceAge Corporation, and other - contributors to this repository. All Rights Reserved. - - This software is protected by copyright law and by international treaties. - The IVAS codec Public Collaboration consisting of Dolby International AB, Ericsson AB, - Fraunhofer-Gesellschaft zur Foerderung der angewandten Forschung e.V., Huawei Technologies Co. LTD., - Koninklijke Philips N.V., Nippon Telegraph and Telephone Corporation, Nokia Technologies Oy, Orange, - Panasonic Holdings Corporation, Qualcomm Technologies, Inc., VoiceAge Corporation, and other - contributors to this repository retain full ownership rights in their respective contributions in - the software. This notice grants no license of any kind, including but not limited to patent - license, nor is any license granted by implication, estoppel or otherwise. - - Contributors are required to enter into the IVAS codec Public Collaboration agreement before making - contributions. - - This software is provided "AS IS", without any express or implied warranties. The software is in the - development stage. It is intended exclusively for experts who have experience with such software and - solely for the purpose of inspection. All implied warranties of non-infringement, merchantability - and fitness for a particular purpose are hereby disclaimed and excluded. - - Any dispute, controversy or claim arising under or in relation to providing this software shall be - submitted to and settled by the final, binding jurisdiction of the courts of Munich, Germany in - accordance with the laws of the Federal Republic of Germany excluding its conflict of law rules and - the United Nations Convention on Contracts on the International Sales of Goods. - -*******************************************************************************************************/ - -/*==================================================================================== - EVS Codec 3GPP TS26.443 Nov 04, 2021. Version 12.14.0 / 13.10.0 / 14.6.0 / 15.4.0 / 16.3.0 - ====================================================================================*/ - - -#include -#include -#include "options.h" -#include -#include "prot.h" -#include "rom_com.h" -#include "rom_enc.h" -#include "wmc_auto.h" - - -/* - * acelp_2pulse_search - * - * Parameters: - * nb_pos_ix I: nb of pos for pulse 1 (1..8) - * track_x I: track of pulse 1 - * track_y I: track of pulse 2 - * ps I/O: correlation of all fixed pulses - * alp I/O: energy of all fixed pulses - * ix O: position of pulse 1 - * iy O: position of pulse 2 - * dn I: corr. between target and h[] - * dn2 I: vector of selected positions - * cor_x I: corr. of pulse 1 with fixed pulses - * cor_y I: corr. of pulse 2 with fixed pulses - * rrixiy I: corr. of pulse 1 with pulse 2 - * - * Function: - * Find the best positions of 2 pulses in a subframe - * - * Returns: - * void - */ - - -/* - * E_ACELP_1pulse_search - * - * Parameters: - * track_x I: track of pulse 1 - * track_y I: track of pulse 2 - * ps I/O: correlation of all fixed pulses - * alp I/O: energy of all fixed pulses - * ix O: position of pulse 1 - * dn I: corr. between target and h[] - * cor_x I: corr. of pulse 1 with fixed pulses - * cor_y I: corr. of pulse 2 with fixed pulses - * - * Function: - * Find the best positions of 1 pulse in a subframe - * - * Returns: - * void - */ diff --git a/lib_enc/enc_acelp_fx.c b/lib_enc/enc_acelp_fx.c index 7dd342318b37a54d1208764c72b0d19dfe36d390..4317bdbb339419e21de8d9d597255c2083a32b4c 100644 --- a/lib_enc/enc_acelp_fx.c +++ b/lib_enc/enc_acelp_fx.c @@ -1387,7 +1387,6 @@ void E_ACELP_4tsearch_fx( Word16 dn[] /*Qdn*/, const Word16 cn[] /*Q_xn*/, const return; } -#ifdef FIX_ISSUE_1165 void E_ACELP_4tsearch_ivas_fx( Word16 dn[] /*Qdn*/, const Word16 cn[] /*Q_xn*/, const Word16 H[] /*Q12*/, Word16 code[] /*Q9*/, const PulseConfig *config, Word16 ind[] /*Q0*/, Word16 y[] /*Qy*/ ) { Word16 sign[L_SUBFR], vec[L_SUBFR]; @@ -1712,7 +1711,6 @@ void E_ACELP_4tsearch_ivas_fx( Word16 dn[] /*Qdn*/, const Word16 cn[] /*Q_xn*/, } return; } -#endif /* * E_ACELP_4t_fx @@ -1761,7 +1759,7 @@ void E_ACELP_4t_fx( const Word16 last_L_frame, /*Q0*/ const Word32 total_brate, /*Q0*/ const Word16 i_subfr, /*Q0*/ - const int16_t cmpl_flag /*Q0*/ ) + const Word16 cmpl_flag /*Q0*/ ) { PulseConfig config; Word16 ind[NPMAXPT * 4]; @@ -1824,7 +1822,7 @@ void E_ACELP_4t_ivas_fx( const Word16 last_L_frame, /*Q0*/ const Word32 total_brate, /*Q0*/ const Word16 i_subfr, /*Q0*/ - const int16_t cmpl_flag, /*Q0*/ + const Word16 cmpl_flag, /*Q0*/ Word16 element_mode /*Q0*/ ) { PulseConfig config; @@ -1869,11 +1867,7 @@ void E_ACELP_4t_ivas_fx( } ELSE { -#ifdef FIX_ISSUE_1165 E_ACELP_4tsearch_ivas_fx( dn, cn, H, code, &config, ind, y ); -#else - E_ACELP_4tsearch_fx( dn, cn, H, code, &config, ind, y ); -#endif } E_ACELP_indexing_fx( code, &config, NB_TRACK_FCB_4T, _index ); return; diff --git a/lib_enc/enc_acelp_tcx_main.c b/lib_enc/enc_acelp_tcx_main.c deleted file mode 100644 index d029c2fa8ff7ca387884c05ac7f0cdc99d30c61d..0000000000000000000000000000000000000000 --- a/lib_enc/enc_acelp_tcx_main.c +++ /dev/null @@ -1,41 +0,0 @@ -/****************************************************************************************************** - - (C) 2022-2025 IVAS codec Public Collaboration with portions copyright Dolby International AB, Ericsson AB, - Fraunhofer-Gesellschaft zur Foerderung der angewandten Forschung e.V., Huawei Technologies Co. LTD., - Koninklijke Philips N.V., Nippon Telegraph and Telephone Corporation, Nokia Technologies Oy, Orange, - Panasonic Holdings Corporation, Qualcomm Technologies, Inc., VoiceAge Corporation, and other - contributors to this repository. All Rights Reserved. - - This software is protected by copyright law and by international treaties. - The IVAS codec Public Collaboration consisting of Dolby International AB, Ericsson AB, - Fraunhofer-Gesellschaft zur Foerderung der angewandten Forschung e.V., Huawei Technologies Co. LTD., - Koninklijke Philips N.V., Nippon Telegraph and Telephone Corporation, Nokia Technologies Oy, Orange, - Panasonic Holdings Corporation, Qualcomm Technologies, Inc., VoiceAge Corporation, and other - contributors to this repository retain full ownership rights in their respective contributions in - the software. This notice grants no license of any kind, including but not limited to patent - license, nor is any license granted by implication, estoppel or otherwise. - - Contributors are required to enter into the IVAS codec Public Collaboration agreement before making - contributions. - - This software is provided "AS IS", without any express or implied warranties. The software is in the - development stage. It is intended exclusively for experts who have experience with such software and - solely for the purpose of inspection. All implied warranties of non-infringement, merchantability - and fitness for a particular purpose are hereby disclaimed and excluded. - - Any dispute, controversy or claim arising under or in relation to providing this software shall be - submitted to and settled by the final, binding jurisdiction of the courts of Munich, Germany in - accordance with the laws of the Federal Republic of Germany excluding its conflict of law rules and - the United Nations Convention on Contracts on the International Sales of Goods. - -*******************************************************************************************************/ - -/*==================================================================================== - EVS Codec 3GPP TS26.443 Nov 04, 2021. Version 12.14.0 / 13.10.0 / 14.6.0 / 15.4.0 / 16.3.0 - ====================================================================================*/ - -#include -#include "options.h" -#include "prot.h" -#include "rom_com.h" -#include "wmc_auto.h" diff --git a/lib_enc/enc_acelpx.c b/lib_enc/enc_acelpx.c deleted file mode 100644 index f6e2b03799e472a70aafb03c4871a40ca99ad910..0000000000000000000000000000000000000000 --- a/lib_enc/enc_acelpx.c +++ /dev/null @@ -1,42 +0,0 @@ -/****************************************************************************************************** - - (C) 2022-2025 IVAS codec Public Collaboration with portions copyright Dolby International AB, Ericsson AB, - Fraunhofer-Gesellschaft zur Foerderung der angewandten Forschung e.V., Huawei Technologies Co. LTD., - Koninklijke Philips N.V., Nippon Telegraph and Telephone Corporation, Nokia Technologies Oy, Orange, - Panasonic Holdings Corporation, Qualcomm Technologies, Inc., VoiceAge Corporation, and other - contributors to this repository. All Rights Reserved. - - This software is protected by copyright law and by international treaties. - The IVAS codec Public Collaboration consisting of Dolby International AB, Ericsson AB, - Fraunhofer-Gesellschaft zur Foerderung der angewandten Forschung e.V., Huawei Technologies Co. LTD., - Koninklijke Philips N.V., Nippon Telegraph and Telephone Corporation, Nokia Technologies Oy, Orange, - Panasonic Holdings Corporation, Qualcomm Technologies, Inc., VoiceAge Corporation, and other - contributors to this repository retain full ownership rights in their respective contributions in - the software. This notice grants no license of any kind, including but not limited to patent - license, nor is any license granted by implication, estoppel or otherwise. - - Contributors are required to enter into the IVAS codec Public Collaboration agreement before making - contributions. - - This software is provided "AS IS", without any express or implied warranties. The software is in the - development stage. It is intended exclusively for experts who have experience with such software and - solely for the purpose of inspection. All implied warranties of non-infringement, merchantability - and fitness for a particular purpose are hereby disclaimed and excluded. - - Any dispute, controversy or claim arising under or in relation to providing this software shall be - submitted to and settled by the final, binding jurisdiction of the courts of Munich, Germany in - accordance with the laws of the Federal Republic of Germany excluding its conflict of law rules and - the United Nations Convention on Contracts on the International Sales of Goods. - -*******************************************************************************************************/ - -/*==================================================================================== - EVS Codec 3GPP TS26.443 Nov 04, 2021. Version 12.14.0 / 13.10.0 / 14.6.0 / 15.4.0 / 16.3.0 - ====================================================================================*/ - -#include -#include -#include "options.h" -#include "prot.h" -#include "rom_enc.h" -#include "wmc_auto.h" diff --git a/lib_enc/enc_acelpx_fx.c b/lib_enc/enc_acelpx_fx.c index f18da2ef27024789870875f55f2b3f04c1b01b1c..240f9859c84f2748e544432bf47a9ff619bfae59 100644 --- a/lib_enc/enc_acelpx_fx.c +++ b/lib_enc/enc_acelpx_fx.c @@ -781,11 +781,7 @@ void E_ACELP_4tsearchx_ivas_fx( alp = shr( alp, 1 ); Scale_sig( cor, L_SUBFR, -1 ); /*Q8*/ Scale_sig( R_buf, 2 * L_SUBFR - 1, -1 ); /*Q8+scale*/ -#ifndef MSAN_FIX - Scale_sig( dn, 2 * L_SUBFR, -1 ); -#else - Scale_sig( dn, L_SUBFR, -1 ); /*Qdn-1*/ -#endif + Scale_sig( dn, L_SUBFR, -1 ); /*Qdn-1*/ } diff --git a/lib_enc/enc_amr_wb.c b/lib_enc/enc_amr_wb.c deleted file mode 100644 index c899b52ff72d3d5658f135f34e7730d22f0987de..0000000000000000000000000000000000000000 --- a/lib_enc/enc_amr_wb.c +++ /dev/null @@ -1,42 +0,0 @@ -/****************************************************************************************************** - - (C) 2022-2025 IVAS codec Public Collaboration with portions copyright Dolby International AB, Ericsson AB, - Fraunhofer-Gesellschaft zur Foerderung der angewandten Forschung e.V., Huawei Technologies Co. LTD., - Koninklijke Philips N.V., Nippon Telegraph and Telephone Corporation, Nokia Technologies Oy, Orange, - Panasonic Holdings Corporation, Qualcomm Technologies, Inc., VoiceAge Corporation, and other - contributors to this repository. All Rights Reserved. - - This software is protected by copyright law and by international treaties. - The IVAS codec Public Collaboration consisting of Dolby International AB, Ericsson AB, - Fraunhofer-Gesellschaft zur Foerderung der angewandten Forschung e.V., Huawei Technologies Co. LTD., - Koninklijke Philips N.V., Nippon Telegraph and Telephone Corporation, Nokia Technologies Oy, Orange, - Panasonic Holdings Corporation, Qualcomm Technologies, Inc., VoiceAge Corporation, and other - contributors to this repository retain full ownership rights in their respective contributions in - the software. This notice grants no license of any kind, including but not limited to patent - license, nor is any license granted by implication, estoppel or otherwise. - - Contributors are required to enter into the IVAS codec Public Collaboration agreement before making - contributions. - - This software is provided "AS IS", without any express or implied warranties. The software is in the - development stage. It is intended exclusively for experts who have experience with such software and - solely for the purpose of inspection. All implied warranties of non-infringement, merchantability - and fitness for a particular purpose are hereby disclaimed and excluded. - - Any dispute, controversy or claim arising under or in relation to providing this software shall be - submitted to and settled by the final, binding jurisdiction of the courts of Munich, Germany in - accordance with the laws of the Federal Republic of Germany excluding its conflict of law rules and - the United Nations Convention on Contracts on the International Sales of Goods. - -*******************************************************************************************************/ - -/*==================================================================================== - EVS Codec 3GPP TS26.443 Nov 04, 2021. Version 12.14.0 / 13.10.0 / 14.6.0 / 15.4.0 / 16.3.0 - ====================================================================================*/ - -#include -#include "options.h" -#include "cnst.h" -#include "prot.h" -#include "rom_com.h" -#include "wmc_auto.h" diff --git a/lib_enc/enc_amr_wb_fx.c b/lib_enc/enc_amr_wb_fx.c index 08a20bbb9b8effbccc2227ae263e1c7a0d32ba4d..4c5268017f3c99d751c86272f368064d3209adc2 100644 --- a/lib_enc/enc_amr_wb_fx.c +++ b/lib_enc/enc_amr_wb_fx.c @@ -170,7 +170,7 @@ void encod_amr_wb_fx( IF( EQ_16( lp_flag, NORMAL_OPERATION ) ) { - push_indice_fx( hBstr, IND_LP_FILT_SELECT, lp_select, 1 ); + push_indice( hBstr, IND_LP_FILT_SELECT, lp_select, 1 ); } /*-----------------------------------------------------------------* @@ -243,7 +243,7 @@ void encod_amr_wb_fx( hVAD->hangover_cnt, &hAmrwb_IO->gain_alpha_fx, &hf_gain_fx[i_subfr / L_SUBFR], add( Q_new, 1 ), st->Q_syn ); } - push_indice_fx( hBstr, IND_HF_GAIN_MODIFICATION, hf_gain_fx[i_subfr / L_SUBFR], 4 ); + push_indice( hBstr, IND_HF_GAIN_MODIFICATION, hf_gain_fx[i_subfr / L_SUBFR], 4 ); } p_Aw += ( M + 1 ); diff --git a/lib_enc/enc_gain.c b/lib_enc/enc_gain.c deleted file mode 100644 index 491d5d2f37f03f1729ca24b8b36a4bf2cf4009bc..0000000000000000000000000000000000000000 --- a/lib_enc/enc_gain.c +++ /dev/null @@ -1,43 +0,0 @@ -/****************************************************************************************************** - - (C) 2022-2025 IVAS codec Public Collaboration with portions copyright Dolby International AB, Ericsson AB, - Fraunhofer-Gesellschaft zur Foerderung der angewandten Forschung e.V., Huawei Technologies Co. LTD., - Koninklijke Philips N.V., Nippon Telegraph and Telephone Corporation, Nokia Technologies Oy, Orange, - Panasonic Holdings Corporation, Qualcomm Technologies, Inc., VoiceAge Corporation, and other - contributors to this repository. All Rights Reserved. - - This software is protected by copyright law and by international treaties. - The IVAS codec Public Collaboration consisting of Dolby International AB, Ericsson AB, - Fraunhofer-Gesellschaft zur Foerderung der angewandten Forschung e.V., Huawei Technologies Co. LTD., - Koninklijke Philips N.V., Nippon Telegraph and Telephone Corporation, Nokia Technologies Oy, Orange, - Panasonic Holdings Corporation, Qualcomm Technologies, Inc., VoiceAge Corporation, and other - contributors to this repository retain full ownership rights in their respective contributions in - the software. This notice grants no license of any kind, including but not limited to patent - license, nor is any license granted by implication, estoppel or otherwise. - - Contributors are required to enter into the IVAS codec Public Collaboration agreement before making - contributions. - - This software is provided "AS IS", without any express or implied warranties. The software is in the - development stage. It is intended exclusively for experts who have experience with such software and - solely for the purpose of inspection. All implied warranties of non-infringement, merchantability - and fitness for a particular purpose are hereby disclaimed and excluded. - - Any dispute, controversy or claim arising under or in relation to providing this software shall be - submitted to and settled by the final, binding jurisdiction of the courts of Munich, Germany in - accordance with the laws of the Federal Republic of Germany excluding its conflict of law rules and - the United Nations Convention on Contracts on the International Sales of Goods. - -*******************************************************************************************************/ - -/*==================================================================================== - EVS Codec 3GPP TS26.443 Nov 04, 2021. Version 12.14.0 / 13.10.0 / 14.6.0 / 15.4.0 / 16.3.0 - ====================================================================================*/ - -#include -#include -#include "options.h" -#include "prot.h" -#include "rom_enc.h" -#include "rom_com.h" -#include "wmc_auto.h" diff --git a/lib_enc/enc_gen_voic.c b/lib_enc/enc_gen_voic.c deleted file mode 100644 index c899b52ff72d3d5658f135f34e7730d22f0987de..0000000000000000000000000000000000000000 --- a/lib_enc/enc_gen_voic.c +++ /dev/null @@ -1,42 +0,0 @@ -/****************************************************************************************************** - - (C) 2022-2025 IVAS codec Public Collaboration with portions copyright Dolby International AB, Ericsson AB, - Fraunhofer-Gesellschaft zur Foerderung der angewandten Forschung e.V., Huawei Technologies Co. LTD., - Koninklijke Philips N.V., Nippon Telegraph and Telephone Corporation, Nokia Technologies Oy, Orange, - Panasonic Holdings Corporation, Qualcomm Technologies, Inc., VoiceAge Corporation, and other - contributors to this repository. All Rights Reserved. - - This software is protected by copyright law and by international treaties. - The IVAS codec Public Collaboration consisting of Dolby International AB, Ericsson AB, - Fraunhofer-Gesellschaft zur Foerderung der angewandten Forschung e.V., Huawei Technologies Co. LTD., - Koninklijke Philips N.V., Nippon Telegraph and Telephone Corporation, Nokia Technologies Oy, Orange, - Panasonic Holdings Corporation, Qualcomm Technologies, Inc., VoiceAge Corporation, and other - contributors to this repository retain full ownership rights in their respective contributions in - the software. This notice grants no license of any kind, including but not limited to patent - license, nor is any license granted by implication, estoppel or otherwise. - - Contributors are required to enter into the IVAS codec Public Collaboration agreement before making - contributions. - - This software is provided "AS IS", without any express or implied warranties. The software is in the - development stage. It is intended exclusively for experts who have experience with such software and - solely for the purpose of inspection. All implied warranties of non-infringement, merchantability - and fitness for a particular purpose are hereby disclaimed and excluded. - - Any dispute, controversy or claim arising under or in relation to providing this software shall be - submitted to and settled by the final, binding jurisdiction of the courts of Munich, Germany in - accordance with the laws of the Federal Republic of Germany excluding its conflict of law rules and - the United Nations Convention on Contracts on the International Sales of Goods. - -*******************************************************************************************************/ - -/*==================================================================================== - EVS Codec 3GPP TS26.443 Nov 04, 2021. Version 12.14.0 / 13.10.0 / 14.6.0 / 15.4.0 / 16.3.0 - ====================================================================================*/ - -#include -#include "options.h" -#include "cnst.h" -#include "prot.h" -#include "rom_com.h" -#include "wmc_auto.h" diff --git a/lib_enc/enc_gen_voic_fx.c b/lib_enc/enc_gen_voic_fx.c index 1053f8b003bcdebd8a9cef8afc6d0230bd4dc1f2..22af9097ddb2a538140f180f0c87660a2b0d6971 100644 --- a/lib_enc/enc_gen_voic_fx.c +++ b/lib_enc/enc_gen_voic_fx.c @@ -4,10 +4,9 @@ #include #include "options.h" /* Compilation switches */ #include "cnst.h" /* Common constants */ -#include "prot.h" /* Function prototypes */ +#include "prot_fx.h" /* Function prototypes */ #include "rom_com_fx.h" /* Static table prototypes */ #include "rom_com.h" /* Static table prototypes */ -#include "prot_fx.h" /* Function prototypes */ #include "prot_fx_enc.h" /* Function prototypes */ /*======================================================================*/ @@ -180,7 +179,7 @@ void encod_gen_voic_fx( move16(); } - push_indice_fx( hBstr, IND_HARM_FLAG_ACELP, harm_flag_acelp, 1 ); + push_indice( hBstr, IND_HARM_FLAG_ACELP, harm_flag_acelp, 1 ); } /*------------------------------------------------------------------* @@ -240,7 +239,7 @@ void encod_gen_voic_fx( IF( EQ_16( lp_flag, NORMAL_OPERATION ) ) { - push_indice_fx( hBstr, IND_LP_FILT_SELECT, lp_select, 1 ); + push_indice( hBstr, IND_LP_FILT_SELECT, lp_select, 1 ); } /*st_fx->lowrate_pitchGain = 0.9f * st_fx->lowrate_pitchGain + 0.1f * gain_pit_fx;*/ @@ -388,7 +387,7 @@ void encod_gen_voic_fx( WHILE( unbits_PI_fx > 0 ) { i = s_min( unbits_PI_fx, 16 ); - push_indice_fx( hBstr, IND_UNUSED, 0, i ); + push_indice( hBstr, IND_UNUSED, 0, i ); unbits_PI_fx -= i; } IF( st_fx->Opt_SC_VBR ) @@ -404,14 +403,14 @@ void encod_gen_voic_fx( void encod_gen_voic_ivas_fx( Encoder_State *st_fx, /* i/o: state structure */ - const Word16 speech_fx[], /* i : input speech Q0*/ + const Word16 speech_fx[], /* i : input speech Qnew -1 */ const Word16 Aw_fx[], /* i : weighted A(z) unquantized for subframes Q12*/ const Word16 Aq_fx[], /* i : 12k8 Lp coefficient Q12*/ const Word16 Es_pred_fx, /* i : predicted scaled innov. energy Q8*/ const Word16 *res_fx, /* i : residual signal Q_new*/ - Word16 *syn_fx, /* i/o: core synthesis Q_new*/ - Word16 *exc_fx, /* i/o: current non-enhanced excitation Q0*/ - Word16 *exc2_fx, /* i/o: current enhanced excitation Q0*/ + Word16 *syn_fx, /* i/o: core synthesis Q_new - 1*/ + Word16 *exc_fx, /* i/o: current non-enhanced excitation Q_new*/ + Word16 *exc2_fx, /* i/o: current enhanced excitation Q_new*/ Word16 *pitch_buf_fx, /* i/o: floating pitch values for each subframe Q6*/ Word16 *voice_factors_fx, /* o : voicing factors Q15*/ Word16 *bwe_exc_fx, /* o : excitation for SWB TBE Q0*/ @@ -551,12 +550,12 @@ void encod_gen_voic_ivas_fx( Copy( &res_fx[i_subfr_fx], &exc_fx[i_subfr_fx], L_SUBFR ); /*Q_new*/ - find_targets_ivas_fx( speech_fx, hLPDmem->mem_syn, i_subfr_fx, &hLPDmem->mem_w0, p_Aq_fx, - res_fx, L_SUBFR, p_Aw_fx, st_fx->preemph_fac, xn_fx, cn_fx, h1_fx ); + find_targets_ivas_new_fx( speech_fx, hLPDmem->mem_syn, i_subfr_fx, &hLPDmem->mem_w0, p_Aq_fx, + res_fx, L_SUBFR, p_Aw_fx, st_fx->preemph_fac, xn_fx, cn_fx, h1_fx ); q_h1 = sub( 14, norm_s( h1_fx[0] ) ); Copy_Scale_sig( h1_fx, h2_fx, L_SUBFR, sub( 11, q_h1 ) ); /*Q11*/ - + Scale_sig( h1_fx, L_SUBFR, sub( 14, q_h1 ) ); /* set h1[] in Q14 with scaling for convolution Q14*/ /* scaling of xn[] to limit dynamic at 12 bits */ Scale_sig( xn_fx, L_SUBFR, shift ); @@ -588,7 +587,7 @@ void encod_gen_voic_ivas_fx( /*-----------------------------------------------------------------* * LP filtering of the adaptive excitation, codebook target computation *-----------------------------------------------------------------*/ - Scale_sig( h1_fx, L_SUBFR, sub( 14, q_h1 ) ); /* set h1[] in Q14 with scaling for convolution Q14*/ + lp_select = lp_filt_exc_enc_ivas_fx( MODE1, st_fx->coder_type, i_subfr_fx, exc_fx, h1_fx, xn_fx, y1_fx, xn2_fx, L_SUBFR, L_frame, g_corr_fx, clip_gain_fx, &gain_pit_fx, &lp_flag ); @@ -647,7 +646,7 @@ void encod_gen_voic_ivas_fx( gp_clip_test_gain_pit_fx( st_fx->element_mode, st_fx->core_brate, gain_pit_fx, st_fx->clip_var_fx ); Lgcode = L_shl_o( gain_code_fx, Q_new, &Overflow ); /* scaled gain_code with Qnew -> Q16*/ - gcode16 = round_fx_o( Lgcode, &Overflow ); /* Q0 */ + gcode16 = round_fx_o( Lgcode, &Overflow ); hLPDmem->tilt_code = est_tilt_ivas_fx( &exc_fx[i_subfr_fx], gain_pit_fx, code_fx, gain_code_fx, &voice_fac_fx, Q_new, L_SUBFR, 0 ); /* Q15 */ move16(); @@ -657,11 +656,7 @@ void encod_gen_voic_ivas_fx( *-----------------------------------------------------------------*/ test(); -#ifdef NONBE_FIX_GSC_BSTR IF( !st_fx->inactive_coder_type_flag && EQ_16( st_fx->coder_type, INACTIVE ) ) -#else - IF( GE_32( st_fx->total_brate, MAX_GSC_INACTIVE_BRATE ) && EQ_16( st_fx->coder_type, INACTIVE ) ) -#endif { transf_cdbk_enc_ivas_fx( st_fx, 0, i_subfr_fx, cn_fx, exc_fx, p_Aq_fx, p_Aw_fx, h1_fx, xn_fx, xn2_fx, y1_fx, y2_fx, Es_pred_fx, &gain_pit_fx, gain_code_fx, g_corr_fx, clip_gain_fx, &gain_preQ_fx, code_preQ_fx, unbits_fx, Q_new, shift ); @@ -671,14 +666,30 @@ void encod_gen_voic_ivas_fx( * Update memory of the weighting filter *-----------------------------------------------------------------*/ + + /*At this point + xn has to be in Qnew + yn has to be in Qnew + y2_fx has to be in Q9 + gcode16 in Q_new + gain_pit_fx in Q14 + */ + Scale_sig( xn_fx, L_SUBFR, 1 ); + Scale_sig( y1_fx, L_SUBFR, 1 ); /* st_fx->mem_w0 = xn[L_SUBFR-1] - (gain_pit*y1[L_SUBFR-1]) - (gain_code*y2[L_SUBFR-1]); */ - Ltmp = L_mult0( gcode16, y2_fx[L_SUBFR - 1] ); /* Q9 */ - Ltmp = L_shl( Ltmp, add( 5, shift ) ); // Q_new+14+shift + Ltmp = L_mult0( gcode16, y2_fx[L_SUBFR - 1] ); + Ltmp = L_shl( Ltmp, add( 5, shift ) ); Ltmp = L_negate( Ltmp ); - Ltmp = L_mac( Ltmp, xn_fx[L_SUBFR - 1], 16384 /*Q14*/ ); // Q_new-1+15+shift - Ltmp = L_msu( Ltmp, y1_fx[L_SUBFR - 1], gain_pit_fx /*Q14*/ ); // Q_new-1+15+shift - Ltmp = L_shl_sat( Ltmp, sub( 1, shift ) ); // Q_new+15 - hLPDmem->mem_w0 = round_fx_sat( Ltmp ); /*Q_new-1 */ + Word32 Ltmp2 = L_mult0( xn_fx[L_SUBFR - 1], 16384 ); + Ltmp = L_add( Ltmp, Ltmp2 ); + Word32 Ltmp3 = L_mult0( y1_fx[L_SUBFR - 1], gain_pit_fx ); + Ltmp = L_sub( Ltmp, Ltmp3 ); + + /*Ltmp is in Q14 + Qnew here + We need memWo in Qnew -1 */ + + Ltmp = L_shl( Ltmp, sub( 1, shift ) ); // Q14 + Qnew + 1 + hLPDmem->mem_w0 = round_fx_sat( Ltmp ); /*Q_new-1 */ move16(); IF( gain_preQ_fx != 0 ) { @@ -687,20 +698,20 @@ void encod_gen_voic_ivas_fx( FOR( i = 0; i < L_SUBFR; i++ ) { /* Contribution from AVQ layer */ - Ltmp1 = L_mult_o( gain_preQ_fx, code_preQ_fx[i], &Overflow ); /* Q2 + Q6 -> Q9*/ - Ltmp1 = L_shl_o( Ltmp1, tmp1_fx, &Overflow ); /* Q16 + Q_exc */ + Ltmp1 = L_mult_o( gain_preQ_fx, code_preQ_fx[i], &Overflow ); + Ltmp1 = L_shl_o( Ltmp1, tmp1_fx, &Overflow ); /* Compute exc2 */ - Ltmp = L_shl_o( L_mult( gain_pit_fx, exc_fx[i + i_subfr_fx] ), 1, &Overflow ); /* Q0 */ - exc2_fx[i + i_subfr_fx] = round_fx_o( L_add_o( Ltmp, Ltmp1, &Overflow ), &Overflow ); /* Q0 */ + Ltmp = L_shl_o( L_mult( gain_pit_fx, exc_fx[i + i_subfr_fx] ), 1, &Overflow ); + exc2_fx[i + i_subfr_fx] = round_fx_o( L_add_o( Ltmp, Ltmp1, &Overflow ), &Overflow ); move16(); /* code in Q9, gain_pit in Q14 */ - Ltmp = L_mult( gcode16, code_fx[i] ); /* Q10 */ - Ltmp = L_shl( Ltmp, 5 ); /* Q15 */ - Ltmp = L_mac( Ltmp, exc_fx[i + i_subfr_fx], gain_pit_fx ); /* Q15 */ - Ltmp = L_shl_o( Ltmp, 1, &Overflow ); /* saturation can occur here Q16*/ - exc_fx[i + i_subfr_fx] = round_fx_o( L_add_o( Ltmp, Ltmp1, &Overflow ), &Overflow ); /* Q0 */ + Ltmp = L_mult( gcode16, code_fx[i] ); /*Qnew + 9 + 1 */ + Ltmp = L_shl( Ltmp, 5 ); /*Qnew + 9+ 1+5 */ + Ltmp = L_mac( Ltmp, exc_fx[i + i_subfr_fx], gain_pit_fx ); /*Qnew + 14 + 1*/ + Ltmp = L_shl_o( Ltmp, 1, &Overflow ); /*Qnew + 14 + 1 +1 */ /* saturation can occur here Q16*/ + exc_fx[i + i_subfr_fx] = round_fx_o( L_add_o( Ltmp, Ltmp1, &Overflow ), &Overflow ); move16(); } } @@ -713,11 +724,12 @@ void encod_gen_voic_ivas_fx( FOR( i = 0; i < L_SUBFR; i++ ) { /* code in Q9, gain_pit in Q14 */ - Ltmp = L_mult( gcode16, code_fx[i] ); /* Q10 */ - Ltmp = L_shl_o( Ltmp, 5, &Overflow ); /* Q15 */ - Ltmp = L_mac_o( Ltmp, exc_fx[i + i_subfr_fx], gain_pit_fx, &Overflow ); /* Q15 */ - Ltmp = L_shl_o( Ltmp, 1, &Overflow ); /* saturation can occur here Q16*/ - exc_fx[i + i_subfr_fx] = round_fx_o( Ltmp, &Overflow ); /* Q0 */ + /*gcode16 in Qnew*/ + Ltmp = L_mult( gcode16, code_fx[i] ); /*Qnew + 9 + 1 */ + Ltmp = L_shl_o( Ltmp, 5, &Overflow ); /*Qnew + 9+ 1+5 */ + Ltmp = L_mac_o( Ltmp, exc_fx[i + i_subfr_fx], gain_pit_fx, &Overflow ); /*Qnew + 14 + 1*/ + Ltmp = L_shl_o( Ltmp, 1, &Overflow ); /*Qnew + 14 + 1 +1 */ + exc_fx[i + i_subfr_fx] = round_fx_o( Ltmp, &Overflow ); } } /*-----------------------------------------------------------------* @@ -734,7 +746,7 @@ void encod_gen_voic_ivas_fx( * Update A(z) filters *-----------------------------------------------------------------*/ - Syn_filt_s( 1, p_Aq_fx, M, &exc_fx[i_subfr_fx], &syn_fx[i_subfr_fx], L_SUBFR, hLPDmem->mem_syn, 1 ); + syn_filt_fx( 1, p_Aq_fx, M, &exc_fx[i_subfr_fx], &syn_fx[i_subfr_fx], L_SUBFR, hLPDmem->mem_syn, 1 ); p_Aw_fx += ( M + 1 ); p_Aq_fx += ( M + 1 ); diff --git a/lib_enc/enc_higher_acelp_fx.c b/lib_enc/enc_higher_acelp_fx.c index c4c5444696d0efcd6603c75867f336f1d0973426..5edc6229ff9c80372ec10db06f94a2805c2e5504 100644 --- a/lib_enc/enc_higher_acelp_fx.c +++ b/lib_enc/enc_higher_acelp_fx.c @@ -4,10 +4,9 @@ #include #include "options.h" /* Compilation switches */ #include "cnst.h" /* Common constants */ -#include "prot.h" /* Function prototypes */ +#include "prot_fx.h" /* Function prototypes */ #include "rom_com_fx.h" /* Static table prototypes */ #include "rom_com.h" /* Static table prototypes */ -#include "prot_fx.h" #include "prot_fx_enc.h" /*---------------------------------------------------------------------* @@ -243,7 +242,7 @@ void transf_cdbk_enc_fx( Ltmp = L_shl( Ltmp, add( e_den, 9 ) ); /* Q18*/ *gain_preQ = round_fx( Ltmp ); /* Q2*/ } - push_indice_fx( st_fx->hBstr, IND_AVQ_GAIN, index, G_AVQ_BITS ); + push_indice( st_fx->hBstr, IND_AVQ_GAIN, index, G_AVQ_BITS ); /*--------------------------------------------------------------* * Encode and multiplex subvectors into bit-stream @@ -277,7 +276,7 @@ void transf_cdbk_enc_fx( WHILE( *unbits > 0 ) { i = s_min( *unbits, 16 ); - push_indice_fx( st_fx->hBstr, IND_UNUSED, 0, i ); + push_indice( st_fx->hBstr, IND_UNUSED, 0, i ); *unbits -= i; } } @@ -291,7 +290,6 @@ void transf_cdbk_enc_fx( x_tran[i] = shl_o( x_norm[i], Q_AVQ_OUT_DEC, &Overflow ); move16(); } - set16_fx( x_tran + Nsv * WIDTH_BAND, 0, sub( L_SUBFR, i_mult2( WIDTH_BAND, Nsv ) ) ); test(); test(); @@ -324,22 +322,7 @@ void transf_cdbk_enc_fx( } st_fx->last_nq_preQ = nq[7]; move16(); -#ifdef IVAS_CODE - /* TD pre-quantizer: in extreme cases at subframe boundaries, lower the preemphasis memory to avoid a saturation */ - if ( st->element_mode > EVS_MONO && st->coder_type != INACTIVE && st->core_brate >= MIN_BRATE_AVQ_EXC && st->core_brate <= MAX_BRATE_AVQ_EXC_TD && !harm_flag_acelp && code_preQ[0] != 0 ) - { - if ( (float) abs( st->last_code_preq ) > 16.0f * (float) fabs( code_preQ[0] ) ) - { - st->mem_preemp_preQ /= 16; - } - else if ( (float) abs( st->last_code_preq ) > 8.0f * (float) fabs( code_preQ[0] ) ) - { - st->mem_preemp_preQ /= 8; - } - } - st->last_code_preq = (int16_t) code_preQ[L_SUBFR - 1]; -#endif PREEMPH_FX( code_preQ, FAC_PRE_AVQ_FX, L_SUBFR, &( st_fx->mem_preemp_preQ_fx ) ); /*--------------------------------------------------------------* @@ -659,7 +642,6 @@ void transf_cdbk_enc_ivas_fx( x_tran[i] = shl_o( x_norm[i], Q_AVQ_OUT_DEC, &Overflow ); move16(); } - set16_fx( x_tran + Nsv * WIDTH_BAND, 0, sub( L_SUBFR, i_mult2( WIDTH_BAND, Nsv ) ) ); test(); test(); diff --git a/lib_enc/enc_pit_exc_fx.c b/lib_enc/enc_pit_exc_fx.c index e03db0c473ea76aebf895f37914705d2476441a3..9180d73b823d3c0096b9548874617676c56baace 100644 --- a/lib_enc/enc_pit_exc_fx.c +++ b/lib_enc/enc_pit_exc_fx.c @@ -6,7 +6,6 @@ #include "cnst.h" /* Common constants */ #include "rom_com_fx.h" /* Static table prototypes */ #include "rom_com.h" /* Static table prototypes */ -#include "prot.h" /* Function prototypes */ #include "prot_fx.h" /* Function prototypes */ #include "prot_fx_enc.h" /* Function prototypes */ @@ -292,7 +291,7 @@ void enc_pit_exc_fx( IF( EQ_16( lp_flag, NORMAL_OPERATION ) ) { - push_indice_fx( hBstr, IND_LP_FILT_SELECT, lp_select, 1 ); + push_indice( hBstr, IND_LP_FILT_SELECT, lp_select, 1 ); } /*st_fx->lowrate_pitchGain = 0.9f * st_fx->lowrate_pitchGain + 0.1f * gain_pit;*/ @@ -313,12 +312,12 @@ void enc_pit_exc_fx( IF( GE_32( st_fx->core_brate, MIN_RATE_FCB ) ) { pit_idx = vquant_fx( &gain_pit, mean_gp_fx, &gain_pit, dic_gp_fx, 1, 32 ); /* Q0 */ - push_indice_fx( hBstr, IND_PIT_IDX, pit_idx, 5 ); + push_indice( hBstr, IND_PIT_IDX, pit_idx, 5 ); } ELSE { pit_idx = vquant_fx( &gain_pit, mean_gp_fx, &gain_pit, dic_gp_fx, 1, 16 ); /* Q0 */ - push_indice_fx( hBstr, IND_PIT_IDX, pit_idx, 4 ); + push_indice( hBstr, IND_PIT_IDX, pit_idx, 4 ); } } else if ( use_fcb == 2 ) @@ -329,7 +328,7 @@ void enc_pit_exc_fx( inov_encode_fx( st_fx, st_fx->core_brate, 0, st_fx->L_frame, st_fx->last_L_frame, GENERIC, st_fx->bwidth, 0, i_subfr, -1, p_Aq, gain_pit, cn, exc, h2, st_fx->hLPDmem->tilt_code, *pt_pitch, xn2, code, y2, &unbits_PI, 2 * L_SUBFR, shift ); - // PMT("code to be validated") + /*-----------------------------------------------------------------* * Gain encoding *-----------------------------------------------------------------*/ @@ -550,20 +549,20 @@ void enc_pit_exc_ivas_fx( Word16 xn[PIT_EXC_L_SUBFR]; /* Target vector for pitch search */ Word16 xn2[PIT_EXC_L_SUBFR]; /* Target vector for codebook search */ Word16 h1[PIT_EXC_L_SUBFR + ( M + 1 )]; /* Impulse response vector */ - Word16 y1[PIT_EXC_L_SUBFR]; /* Filtered adaptive excitation */ - Word16 code[2 * L_SUBFR]; /* Fixed codebook excitation */ - Word16 y2[2 * L_SUBFR]; /* Filtered algebraic excitation */ - Word16 voice_fac; /* Voicing factor */ - Word32 gain_code; /* Gain of code */ - Word16 gain_inov; /* inovation gain */ - Word16 gain_pit; /* Pitch gain */ - Word16 pit_idx, i_subfr; /* tmp variables */ - Word16 T0_min, T0_max; /* pitch variables */ - Word16 g_corr[10]; /* ACELP correlation values + gain pitch */ - Word16 clip_gain, i; /* LSF clip gain and LP flag */ - const Word16 *p_Aw, *p_Aq; /* pointer to LP filter coefficient vector */ - Word16 cn1[PIT_EXC_L_SUBFR], *cn; /* (Used only when L_subfr == L_SUBFR) Target vector in residual domain */ - Word16 *pt_pitch; /* pointer to floating pitch */ + Word16 cn[PIT_EXC_L_SUBFR]; + Word16 y1[PIT_EXC_L_SUBFR]; /* Filtered adaptive excitation */ + Word16 code[2 * L_SUBFR]; /* Fixed codebook excitation */ + Word16 y2[2 * L_SUBFR]; /* Filtered algebraic excitation */ + Word16 voice_fac; /* Voicing factor */ + Word32 gain_code; /* Gain of code */ + Word16 gain_inov; /* inovation gain */ + Word16 gain_pit; /* Pitch gain */ + Word16 pit_idx, i_subfr; /* tmp variables */ + Word16 T0_min, T0_max; /* pitch variables */ + Word16 g_corr[10]; /* ACELP correlation values + gain pitch */ + Word16 clip_gain, i; /* LSF clip gain and LP flag */ + const Word16 *p_Aw, *p_Aq; /* pointer to LP filter coefficient vector */ + Word16 *pt_pitch; /* pointer to floating pitch */ Word16 L_subfr; Word16 cum_gpit, gpit_tmp; Word32 Local_BR, Pitch_BR; @@ -579,7 +578,6 @@ void enc_pit_exc_ivas_fx( Word16 use_fcb; Word32 gc_mem[NB_SUBFR - 1]; /* gain_code from previous subframes */ Word16 gp_mem[NB_SUBFR - 1]; /* gain_pitch from previous subframes*/ - Word16 h1_q15[PIT_EXC_L_SUBFR + ( M + 1 )]; Word16 q_h1; BSTR_ENC_HANDLE hBstr = st_fx->hBstr; GSC_ENC_HANDLE hGSCEnc = st_fx->hGSCEnc; @@ -601,9 +599,7 @@ void enc_pit_exc_ivas_fx( move16(); Pitch_CT = GENERIC; move16(); -#ifdef MSAN_FIX - set16_fx( cn1, 0, PIT_EXC_L_SUBFR ); -#endif + set16_fx( cn, 0, PIT_EXC_L_SUBFR ); test(); test(); IF( st_fx->GSC_IVAS_mode > 0 && ( st_fx->GSC_noisy_speech || GT_32( st_fx->core_brate, GSC_H_RATE_STG ) ) ) @@ -713,13 +709,6 @@ void enc_pit_exc_ivas_fx( /*------------------------------------------------------------------* * ACELP subframe loop *------------------------------------------------------------------*/ - cn = NULL; - test(); - if ( EQ_16( L_subfr, L_SUBFR ) || EQ_16( L_subfr, L_SUBFR * 2 ) ) - { - cn = cn1; - move16(); - } p_Aw = Aw; p_Aq = Aq; @@ -737,8 +726,8 @@ void enc_pit_exc_ivas_fx( Copy( &res[i_subfr], &exc[i_subfr], L_subfr ); /* Q_new */ /* condition on target (compared to float) has been put outside the loop */ - find_targets_ivas_fx( speech, hGSCEnc->mem_syn_tmp_fx, i_subfr, &hGSCEnc->mem_w0_tmp_fx, p_Aq, - res, L_subfr, p_Aw, st_fx->preemph_fac, xn, cn, h1 ); + find_targets_ivas_new_fx( speech, hGSCEnc->mem_syn_tmp_fx, i_subfr, &hGSCEnc->mem_w0_tmp_fx, p_Aq, + res, L_subfr, p_Aw, st_fx->preemph_fac, xn, cn, h1 ); q_h1 = sub( 14, norm_s( h1[0] ) ); Copy_Scale_sig( h1, h2, L_subfr, sub( 11, q_h1 ) ); /*Q11*/ @@ -772,16 +761,15 @@ void enc_pit_exc_ivas_fx( * Codebook target computation * (No LP filtering of the adaptive excitation) *-----------------------------------------------------------------*/ - Copy_Scale_sig( h1, h1_q15, L_subfr, 1 ); // Q14 -> Q15 - - lp_select = lp_filt_exc_enc_ivas_fx( MODE1, AUDIO, i_subfr, exc, h1_q15, + lp_select = lp_filt_exc_enc_ivas_fx( MODE1, AUDIO, i_subfr, exc, h1, xn, y1, xn2, L_subfr, st_fx->L_frame, g_corr, clip_gain, &gain_pit, &lp_flag ); /* Q0 */ - IF( EQ_16( lp_flag, NORMAL_OPERATION ) ) { push_indice( hBstr, IND_LP_FILT_SELECT, lp_select, 1 ); } + st_fx->hSpMusClas->lowrate_pitchGain = mac_r( L_mult( 29491 /* 0.9 in Q15 */, st_fx->hSpMusClas->lowrate_pitchGain ), 3277 /* 0.1 in Q15 */, gain_pit ); /* Q14 */ + gpit_tmp = gain_pit; move16(); /*Q14*/ test(); @@ -811,10 +799,9 @@ void enc_pit_exc_ivas_fx( * Innovation encoding *-----------------------------------------------------------------*/ - inov_encode_ivas_fx( st_fx, st_fx->core_brate, 0, st_fx->L_frame, st_fx->last_L_frame, GENERIC, st_fx->bwidth, 0, i_subfr, -1, p_Aq, gain_pit, cn, exc, h2, st_fx->hLPDmem->tilt_code, *pt_pitch, xn2, code, y2, &unbits_PI, 2 * L_SUBFR, shift, Q_new ); - // PMT("code to be validated") + /*-----------------------------------------------------------------* * Gain encoding *-----------------------------------------------------------------*/ diff --git a/lib_enc/enc_ppp_fx.c b/lib_enc/enc_ppp_fx.c index f1a87d2d296ec128e7aa823519ec942206c2f42e..9d1ffad606de1ad414a8a6249fef35c5763a38b1 100644 --- a/lib_enc/enc_ppp_fx.c +++ b/lib_enc/enc_ppp_fx.c @@ -189,12 +189,11 @@ ivas_error encod_ppp_fx( /* We write signalling indices again only in case of bump_up */ /* delete previous indices */ -#ifndef IVAS_CODE_BITSTREAM - reset_indices_enc_fx( hBstr ); -#else +#ifdef HARM_PUSH_BIT reset_indices_enc_fx( hBstr, hBstr->nb_ind_tot ); +#else + reset_indices_enc_fx( hBstr, MAX_NUM_INDICES ); #endif - /* signalling matrix (writing of signalling bits) */ signalling_enc_fx( st_fx ); } @@ -377,12 +376,11 @@ ivas_error encod_ppp_ivas_fx( /* We write signalling indices again only in case of bump_up */ /* delete previous indices */ -#ifndef IVAS_CODE_BITSTREAM - reset_indices_enc_fx( hBstr ); -#else +#ifdef HARM_PUSH_BIT reset_indices_enc_fx( hBstr, hBstr->nb_ind_tot ); +#else + reset_indices_enc_fx( hBstr, MAX_NUM_INDICES ); #endif - /* signalling matrix (writing of signalling bits) */ signalling_enc_fx( st_fx ); } diff --git a/lib_enc/enc_prm.c b/lib_enc/enc_prm.c deleted file mode 100644 index 554521732b68510afd58032de4e51612f5c33c7d..0000000000000000000000000000000000000000 --- a/lib_enc/enc_prm.c +++ /dev/null @@ -1,231 +0,0 @@ -/****************************************************************************************************** - - (C) 2022-2025 IVAS codec Public Collaboration with portions copyright Dolby International AB, Ericsson AB, - Fraunhofer-Gesellschaft zur Foerderung der angewandten Forschung e.V., Huawei Technologies Co. LTD., - Koninklijke Philips N.V., Nippon Telegraph and Telephone Corporation, Nokia Technologies Oy, Orange, - Panasonic Holdings Corporation, Qualcomm Technologies, Inc., VoiceAge Corporation, and other - contributors to this repository. All Rights Reserved. - - This software is protected by copyright law and by international treaties. - The IVAS codec Public Collaboration consisting of Dolby International AB, Ericsson AB, - Fraunhofer-Gesellschaft zur Foerderung der angewandten Forschung e.V., Huawei Technologies Co. LTD., - Koninklijke Philips N.V., Nippon Telegraph and Telephone Corporation, Nokia Technologies Oy, Orange, - Panasonic Holdings Corporation, Qualcomm Technologies, Inc., VoiceAge Corporation, and other - contributors to this repository retain full ownership rights in their respective contributions in - the software. This notice grants no license of any kind, including but not limited to patent - license, nor is any license granted by implication, estoppel or otherwise. - - Contributors are required to enter into the IVAS codec Public Collaboration agreement before making - contributions. - - This software is provided "AS IS", without any express or implied warranties. The software is in the - development stage. It is intended exclusively for experts who have experience with such software and - solely for the purpose of inspection. All implied warranties of non-infringement, merchantability - and fitness for a particular purpose are hereby disclaimed and excluded. - - Any dispute, controversy or claim arising under or in relation to providing this software shall be - submitted to and settled by the final, binding jurisdiction of the courts of Munich, Germany in - accordance with the laws of the Federal Republic of Germany excluding its conflict of law rules and - the United Nations Convention on Contracts on the International Sales of Goods. - -*******************************************************************************************************/ - -/*==================================================================================== - EVS Codec 3GPP TS26.443 Nov 04, 2021. Version 12.14.0 / 13.10.0 / 14.6.0 / 15.4.0 / 16.3.0 - ====================================================================================*/ - -#include -#include -#include "options.h" -#include "cnst.h" -#include "rom_com.h" -#include "prot.h" -#include "wmc_auto.h" - - -/*-------------------------------------------------------------------* - * writeTCXMode_fx() - * - * write TCX mode - *--------------------------------------------------------------------*/ - -void writeTCXMode_fx( - Encoder_State *st, /* i/o: encoder state structure */ - BSTR_ENC_HANDLE hBstr, /* i/o: bitstream handle */ - const Word16 MCT_flag, /* i : hMCT handle allocated (1) or not (0) Q0*/ - Word16 *nbits_start /* o : nbits start Q0*/ -) -{ - UWord16 index; - Word16 idx, start_idx; - Word16 nBits; - - IF( st->tcxonly ) - { - push_next_indice( hBstr, (UWord16) EQ_16( st->core, TCX_10_CORE ), 1 ); - - test(); - IF( EQ_16( st->clas, UNVOICED_CLAS ) ) - { - index = 0; - move16(); - } - ELSE IF( EQ_16( st->clas, VOICED_TRANSITION ) || EQ_16( st->clas, UNVOICED_TRANSITION ) ) - { - index = 1; - move16(); - } - ELSE IF( EQ_16( st->clas, VOICED_CLAS ) ) - { - index = 2; - move16(); - } - ELSE - { - index = 3; - move16(); - } - - push_next_indice( hBstr, index, 2 ); - - test(); - IF( EQ_16( st->element_mode, IVAS_CPE_MDCT ) && !MCT_flag ) - { - push_next_indice( hBstr, st->vad_flag, 1 ); - } - } - ELSE - { - IF( EQ_16( st->core, ACELP_CORE ) ) - { - /* write the RF signaling information */ - IF( EQ_16( st->rf_mode, 1 ) ) - { - /* find the section in the ACELP signaling table corresponding to bitrate */ - idx = 0; - move16(); - WHILE( NE_32( acelp_sig_tbl[idx], st->total_brate ) ) /* total bitrate is kept at 13.2kbps */ - { - idx = add( idx, 1 ); - } - - /* retrieve the number of bits for signaling */ - idx = add( idx, 1 ); /* Q0 */ - nBits = extract_l( acelp_sig_tbl[idx] ); /* Q0 */ - - /* retrieve the signaling index */ - idx = add( idx, 1 ); - start_idx = idx; - move16(); - WHILE( NE_32( acelp_sig_tbl[idx], SIG2IND( st->coder_type, st->bwidth, st->sharpFlag, st->rf_mode ) ) ) - { - idx = add( idx, 1 ); - } - push_next_indice( hBstr, sub( idx, start_idx ), nBits ); - push_next_indice( hBstr, 0, 1 ); /* Indicate to the decoder that the core is ACELP*/ - *nbits_start = 3; - move16(); - } - ELSE - { - push_next_indice( hBstr, st->coder_type, 3 ); - } - } - ELSE - { - IF( EQ_16( st->mdct_sw, MODE1 ) ) - { - /* 2 bits instead of 3 as TCX is already signaled */ - push_next_indice( hBstr, st->hTcxCfg->coder_type, 2 ); - } - ELSE - { - IF( EQ_16( st->mdct_sw_enable, MODE2 ) ) - { - push_next_indice( hBstr, 1, 1 ); /* TCX */ - push_next_indice( hBstr, 0, 1 ); /* not HQ_CORE */ - push_next_indice( hBstr, st->hTcxCfg->coder_type, 2 ); - } - ELSE - { - /*write the RF signaling information*/ - IF( EQ_16( st->rf_mode, 1 ) ) - { - /* find the section in the ACELP signaling table corresponding to bitrate */ - idx = 0; - move16(); - WHILE( NE_32( acelp_sig_tbl[idx], st->total_brate ) ) - { - idx = add( idx, 1 ); - } - - /* retrieve the number of bits for signaling */ - idx = add( idx, 1 ); - nBits = extract_l( acelp_sig_tbl[idx] ); - - test(); - test(); - IF( EQ_16( st->hTcxCfg->coder_type, VOICED ) || EQ_16( st->hTcxCfg->coder_type, GENERIC ) || EQ_16( st->hTcxCfg->coder_type, TRANSITION ) ) - { - st->sharpFlag = 1; - move16(); - } - ELSE - { - st->sharpFlag = 0; - move16(); - } - - /* retrieve the signaling index */ - idx = add( idx, 1 ); - start_idx = idx; - move16(); - WHILE( NE_32( acelp_sig_tbl[idx], SIG2IND( st->hTcxCfg->coder_type, st->bwidth, st->sharpFlag, st->rf_mode ) ) ) - { - idx = add( idx, 1 ); - } - push_next_indice( hBstr, sub( idx, start_idx ), nBits ); - push_next_indice( hBstr, 1, 1 ); /* Indicate to the decoder that the core is TCX*/ - *nbits_start = 3; - move16(); - } - ELSE - { - push_next_indice( hBstr, add( ACELP_MODE_MAX, st->hTcxCfg->coder_type ), 3 ); - } - } - } - } - } - - return; -} - - -/*-------------------------------------------------------------------* - * writeTCXWindowing_fx() - * - * write TCX transform type - *-------------------------------------------------------------------*/ - -void writeTCXWindowing_fx( - BSTR_ENC_HANDLE hBstr, /* i/o: bitstream handle */ - const Word16 overlap_mode /* i : overlap mode Q0*/ -) -{ - - IF( EQ_16( overlap_mode, MIN_OVERLAP ) ) - { - push_next_indice( hBstr, 2, 2 ); - } - ELSE IF( EQ_16( overlap_mode, HALF_OVERLAP ) ) - { - push_next_indice( hBstr, 3, 2 ); - } - ELSE - { - push_next_indice( hBstr, 0, 1 ); - } - - return; -} diff --git a/lib_enc/enc_prm_fx.c b/lib_enc/enc_prm_fx.c index d394fa2d3acbf5703f33934fcbf011e214f0b7a7..6d6a2d575ac9f262d0817f60ef4cfa4232a5b9d4 100644 --- a/lib_enc/enc_prm_fx.c +++ b/lib_enc/enc_prm_fx.c @@ -11,8 +11,7 @@ #include "rom_com_fx.h" #include "rom_com.h" #include "stl.h" -//#include "prot_fx.h" -#include "prot_fx.h" /* Function prototypes */ +#include "prot_fx.h" #include "prot_fx_enc.h" /* Function prototypes */ @@ -34,7 +33,7 @@ static void enc_prm_hm( } /* Flag */ - push_next_indice_fx( hBstr, prm_hm[0], 1 ); + push_next_indice( hBstr, prm_hm[0], 1 ); IF( prm_hm[0] ) { @@ -51,7 +50,7 @@ static void enc_prm_hm( IF( EQ_16( st->hTcxCfg->coder_type, VOICED ) ) { /* Gain index */ - push_next_indice_fx( hBstr, prm_hm[2], kTcxHmNumGainBits ); + push_next_indice( hBstr, prm_hm[2], kTcxHmNumGainBits ); } } } @@ -153,7 +152,7 @@ void enc_prm_rf_ivas_fx( index = 3; move16(); } - push_next_indice_fx( hBstr, index, 2 ); + push_next_indice( hBstr, index, 2 ); IF( EQ_16( rf_frame_type, RF_TCXFD ) ) { @@ -297,9 +296,9 @@ void enc_prm_rf_fx( /* LSF indices */ IF( EQ_16( rf_frame_type, RF_TCXFD ) ) { - push_next_indice_fx( hBstr, hRF->rf_indx_lsf[fec_offset][0], lsf_numbits[0] ); /* VQ 1 */ - push_next_indice_fx( hBstr, hRF->rf_indx_lsf[fec_offset][1], lsf_numbits[1] ); /* VQ 2 */ - push_next_indice_fx( hBstr, hRF->rf_indx_lsf[fec_offset][2], lsf_numbits[2] ); /* VQ 3 */ + push_next_indice( hBstr, hRF->rf_indx_lsf[fec_offset][0], lsf_numbits[0] ); /* VQ 1 */ + push_next_indice( hBstr, hRF->rf_indx_lsf[fec_offset][1], lsf_numbits[1] ); /* VQ 2 */ + push_next_indice( hBstr, hRF->rf_indx_lsf[fec_offset][2], lsf_numbits[2] ); /* VQ 3 */ } /* classification */ @@ -325,12 +324,12 @@ void enc_prm_rf_fx( index = 3; move16(); } - push_next_indice_fx( hBstr, index, 2 ); + push_next_indice( hBstr, index, 2 ); IF( EQ_16( rf_frame_type, RF_TCXFD ) ) { /* TCX global gain = 7 bits */ - push_next_indice_fx( hBstr, hRF->rf_gain_tcx[fec_offset], 7 ); + push_next_indice( hBstr, hRF->rf_gain_tcx[fec_offset], 7 ); /*window info 1 bit for long overlap 2 if minimum or half overlap*/ @@ -346,35 +345,35 @@ void enc_prm_rf_fx( test(); IF( ( EQ_16( rf_frame_type, RF_TCXTD1 ) || EQ_16( rf_frame_type, RF_TCXTD2 ) ) && hTcxEnc->tcxltp != 0 ) { - push_next_indice_fx( hBstr, hRF->rf_tcxltp_param[fec_offset], 9 ); + push_next_indice( hBstr, hRF->rf_tcxltp_param[fec_offset], 9 ); } } } ELSE IF( EQ_16( rf_frame_type, 7 ) ) /* NELP bitstream writing */ { /* LSF indices */ - push_next_indice_fx( hBstr, hRF->rf_indx_lsf[fec_offset][0], 8 ); /* VQ 1 */ - push_next_indice_fx( hBstr, hRF->rf_indx_lsf[fec_offset][1], 8 ); /* VQ 2 */ + push_next_indice( hBstr, hRF->rf_indx_lsf[fec_offset][0], 8 ); /* VQ 1 */ + push_next_indice( hBstr, hRF->rf_indx_lsf[fec_offset][1], 8 ); /* VQ 2 */ /* NELP gain indices */ - push_next_indice_fx( hBstr, hRF->rf_indx_nelp_iG1[fec_offset], 5 ); - push_next_indice_fx( hBstr, hRF->rf_indx_nelp_iG2[fec_offset][0], 6 ); - push_next_indice_fx( hBstr, hRF->rf_indx_nelp_iG2[fec_offset][1], 6 ); + push_next_indice( hBstr, hRF->rf_indx_nelp_iG1[fec_offset], 5 ); + push_next_indice( hBstr, hRF->rf_indx_nelp_iG2[fec_offset][0], 6 ); + push_next_indice( hBstr, hRF->rf_indx_nelp_iG2[fec_offset][1], 6 ); /* NELP filter selection index */ - push_next_indice_fx( hBstr, hRF->rf_indx_nelp_fid[fec_offset], 2 ); + push_next_indice( hBstr, hRF->rf_indx_nelp_fid[fec_offset], 2 ); /* tbe gainFr */ - push_next_indice_fx( hBstr, hRF->rf_indx_tbeGainFr[fec_offset], 5 ); + push_next_indice( hBstr, hRF->rf_indx_tbeGainFr[fec_offset], 5 ); } ELSE IF( GE_16( rf_frame_type, 4 ) ) /* rf_frame_type ALL_PRED: 4, NO_PRED: 5, GEN_PRED: 6 */ { /* LSF indices */ - push_next_indice_fx( hBstr, hRF->rf_indx_lsf[fec_offset][0], 8 ); /* VQ 1 */ - push_next_indice_fx( hBstr, hRF->rf_indx_lsf[fec_offset][1], 8 ); /* VQ 2 */ + push_next_indice( hBstr, hRF->rf_indx_lsf[fec_offset][0], 8 ); /* VQ 1 */ + push_next_indice( hBstr, hRF->rf_indx_lsf[fec_offset][1], 8 ); /* VQ 2 */ /* ES pred */ - push_next_indice_fx( hBstr, hRF->rf_indx_EsPred[fec_offset], 3 ); + push_next_indice( hBstr, hRF->rf_indx_EsPred[fec_offset], 3 ); ltp_mode = ACELP_LTP_MODE[1][1][rf_frame_type]; /* Q0 */ ltf_mode = ACELP_LTF_MODE[1][1][rf_frame_type]; /* Q0 */ @@ -387,13 +386,13 @@ void enc_prm_rf_fx( n = ACELP_LTP_BITS_SFR[ltp_mode][sfr]; IF( n != 0 ) { - push_next_indice_fx( hBstr, hRF->rf_indx_pitch[fec_offset][sfr], n ); + push_next_indice( hBstr, hRF->rf_indx_pitch[fec_offset][sfr], n ); } /* Adaptive codebook filtering (1 bit) */ IF( EQ_16( ltf_mode, 2 ) ) { - push_next_indice_fx( hBstr, hRF->rf_indx_ltfMode[fec_offset][sfr], 1 ); + push_next_indice( hBstr, hRF->rf_indx_ltfMode[fec_offset][sfr], 1 ); } /*Innovative codebook*/ @@ -404,7 +403,7 @@ void enc_prm_rf_fx( ( EQ_16( rf_frame_type, RF_GENPRED ) && ( sfr == 0 || EQ_16( sfr, 2 ) ) ) ) { - push_next_indice_fx( hBstr, hRF->rf_indx_fcb[fec_offset][sfr], 7 ); + push_next_indice( hBstr, hRF->rf_indx_fcb[fec_offset][sfr], 7 ); } /* Gains (5b, 6b or 7b / subfr) */ @@ -412,11 +411,11 @@ void enc_prm_rf_fx( IF( sfr == 0 || EQ_16( sfr, 2 ) ) { n = ACELP_GAINS_BITS[gains_mode]; - push_next_indice_fx( hBstr, hRF->rf_indx_gain[fec_offset][sfr], n ); + push_next_indice( hBstr, hRF->rf_indx_gain[fec_offset][sfr], n ); } } /* tbe gainFr */ - push_next_indice_fx( hBstr, hRF->rf_indx_tbeGainFr[fec_offset], 2 ); + push_next_indice( hBstr, hRF->rf_indx_tbeGainFr[fec_offset], 2 ); } /***************/ @@ -430,15 +429,15 @@ void enc_prm_rf_fx( test(); IF( EQ_16( fec_offset, 2 ) ) { - push_next_indice_fx( hBstr, 0, 2 ); + push_next_indice( hBstr, 0, 2 ); } ELSE IF( EQ_16( fec_offset, 3 ) || EQ_16( fec_offset, 5 ) || EQ_16( fec_offset, 7 ) ) { - push_next_indice_fx( hBstr, ( fec_offset - 1 ) / 2, 2 ); + push_next_indice( hBstr, ( fec_offset - 1 ) / 2, 2 ); } /* write RF frame type last in the bitstream */ - push_next_indice_fx( hBstr, rf_frame_type, 3 ); + push_next_indice( hBstr, rf_frame_type, 3 ); } @@ -534,7 +533,7 @@ void enc_prm_fx( IF( st->tcxonly ) { - push_next_indice_fx( hBstr, core == TCX_10_CORE, 1 ); + push_next_indice( hBstr, core == TCX_10_CORE, 1 ); { index = 3; move16(); @@ -554,7 +553,7 @@ void enc_prm_fx( index = 2; move16(); } - push_next_indice_fx( hBstr, index, 2 ); + push_next_indice( hBstr, index, 2 ); } } ELSE @@ -582,13 +581,13 @@ void enc_prm_fx( { idx = add( idx, 1 ); /* Q0 */ } - push_next_indice_fx( hBstr, idx - start_idx, nBits ); - push_next_indice_fx( hBstr, 0, 1 ); /* Indicate to the decoder that the core is ACELP*/ - nbits_start = 3; /* Q0 */ + push_next_indice( hBstr, idx - start_idx, nBits ); + push_next_indice( hBstr, 0, 1 ); /* Indicate to the decoder that the core is ACELP*/ + nbits_start = 3; /* Q0 */ } ELSE { - push_next_indice_fx( hBstr, coder_type, 3 ); + push_next_indice( hBstr, coder_type, 3 ); } } ELSE @@ -596,15 +595,15 @@ void enc_prm_fx( IF( EQ_16( st->mdct_sw, MODE1 ) ) { /* 2 bits instead of 3 as TCX is already signaled */ - push_next_indice_fx( hBstr, st->hTcxCfg->coder_type, 2 ); + push_next_indice( hBstr, st->hTcxCfg->coder_type, 2 ); } ELSE { IF( EQ_16( st->mdct_sw_enable, MODE2 ) ) { - push_next_indice_fx( hBstr, 1, 1 ); /* TCX */ - push_next_indice_fx( hBstr, 0, 1 ); /* not HQ_CORE */ - push_next_indice_fx( hBstr, st->hTcxCfg->coder_type, 2 ); + push_next_indice( hBstr, 1, 1 ); /* TCX */ + push_next_indice( hBstr, 0, 1 ); /* not HQ_CORE */ + push_next_indice( hBstr, st->hTcxCfg->coder_type, 2 ); } ELSE { @@ -642,13 +641,13 @@ void enc_prm_fx( { idx = add( idx, 1 ); } - push_next_indice_fx( hBstr, idx - start_idx, nBits ); - push_next_indice_fx( hBstr, 1, 1 ); /* Indicate to the decoder that the core is TCX*/ + push_next_indice( hBstr, idx - start_idx, nBits ); + push_next_indice( hBstr, 1, 1 ); /* Indicate to the decoder that the core is TCX*/ nbits_start = 3; } ELSE { - push_next_indice_fx( hBstr, 4 + st->hTcxCfg->coder_type, 3 ); + push_next_indice( hBstr, 4 + st->hTcxCfg->coder_type, 3 ); } } } @@ -668,7 +667,7 @@ void enc_prm_fx( tmp = TCX_20_CORE; move16(); } - push_next_indice_fx( hBstr, tmp, 1 ); + push_next_indice( hBstr, tmp, 1 ); } /* write TCX overlap mode (1 bit: full, 2 bits: half or no overlap) */ @@ -697,7 +696,7 @@ void enc_prm_fx( overlap_code = 0; move16(); } - push_next_indice_fx( hBstr, overlap_code, nbits_tcx ); + push_next_indice( hBstr, overlap_code, nbits_tcx ); } IF( st->hPlcExt->enableGplc ) @@ -720,7 +719,7 @@ void enc_prm_fx( IF( EQ_16( core, ACELP_CORE ) ) { - push_next_indice_fx( hBstr, st->glr_idx[0], G_LPC_RECOVERY_BITS ); + push_next_indice( hBstr, st->glr_idx[0], G_LPC_RECOVERY_BITS ); } } @@ -790,7 +789,7 @@ void enc_prm_fx( IF( n != 0 ) { - push_next_indice_fx( hBstr, st->bpf_gain_param, n ); + push_next_indice( hBstr, st->bpf_gain_param, n ); } /* Mean energy (2 or 3 bits) */ @@ -798,7 +797,7 @@ void enc_prm_fx( IF( n != 0 ) { - push_next_indice_fx( hBstr, prm[j++], n ); + push_next_indice( hBstr, prm[j++], n ); } /* Subframe parameters */ @@ -811,14 +810,14 @@ void enc_prm_fx( IF( n != 0 ) { - push_next_indice_fx( hBstr, prm[j++], n ); + push_next_indice( hBstr, prm[j++], n ); } /* Adaptive codebook filtering (1 bit) */ IF( EQ_16( st->acelp_cfg.ltf_mode, 2 ) ) { - push_next_indice_fx( hBstr, prm[j++], 1 ); + push_next_indice( hBstr, prm[j++], 1 ); } /*Innovative codebook*/ @@ -840,12 +839,12 @@ void enc_prm_fx( FOR( ix = 0; ix < wordcnt; ix++ ) { - push_next_indice_fx( hBstr, prm[j++], 16 ); + push_next_indice( hBstr, prm[j++], 16 ); } IF( bitcnt ) { - push_next_indice_fx( hBstr, prm[j++], bitcnt ); + push_next_indice( hBstr, prm[j++], bitcnt ); } j = add( j_old, 8 ); /* Q0 */ @@ -853,7 +852,7 @@ void enc_prm_fx( /* Gains (5b, 6b or 7b / subfr) */ n = ACELP_GAINS_BITS[st->acelp_cfg.gains_mode[sfr]]; - push_next_indice_fx( hBstr, prm[j++], n ); + push_next_indice( hBstr, prm[j++], n ); } /*end of for(sfr)*/ } /*end of mode[0]==0*/ @@ -867,14 +866,14 @@ void enc_prm_fx( move16(); IF( st->enablePlcWaveadjust ) { - push_next_indice_fx( hBstr, st->Tonal_SideInfo, 1 ); + push_next_indice( hBstr, st->Tonal_SideInfo, 1 ); } /* TCX Gain = 7 bits */ - push_next_indice_fx( hBstr, prm[j++], 7 ); + push_next_indice( hBstr, prm[j++], 7 ); /* TCX Noise Filling = NBITS_NOISE_FILL_LEVEL bits */ - push_next_indice_fx( hBstr, prm[j++], NBITS_NOISE_FILL_LEVEL ); + push_next_indice( hBstr, prm[j++], NBITS_NOISE_FILL_LEVEL ); /* LTP data */ test(); @@ -882,13 +881,13 @@ void enc_prm_fx( { IF( prm[j] ) { - push_next_indice_fx( hBstr, 1, 1 ); - push_next_indice_fx( hBstr, prm[j + 1], 9 ); - push_next_indice_fx( hBstr, prm[j + 2], 2 ); + push_next_indice( hBstr, 1, 1 ); + push_next_indice( hBstr, prm[j + 1], 9 ); + push_next_indice( hBstr, prm[j + 2], 2 ); } ELSE { - push_next_indice_fx( hBstr, 0, 1 ); + push_next_indice( hBstr, 0, 1 ); } } j = add( j, 3 ); @@ -933,7 +932,7 @@ void enc_prm_fx( test(); IF( st->hTcxCfg->ctx_hm && NE_16( last_core, ACELP_CORE ) ) { - push_next_indice_fx( hBstr, prm[j], 1 ); + push_next_indice( hBstr, prm[j], 1 ); IF( prm[j] ) { @@ -966,7 +965,7 @@ void enc_prm_fx( IF( hTcxEnc->tcx_lpc_shaped_ari != 0 ) { - push_next_bits_fx( hBstr, &prm[++j], nbits_tcx ); + push_next_bits( hBstr, (UWord16 *) &prm[++j], nbits_tcx ); j = add( j, nbits_tcx ); /* Q0 */ } ELSE @@ -1016,14 +1015,14 @@ void enc_prm_fx( test(); IF( st->enablePlcWaveadjust && k ) { - push_next_indice_fx( hBstr, st->Tonal_SideInfo, 1 ); + push_next_indice( hBstr, st->Tonal_SideInfo, 1 ); } /* TCX Gain = 7 bits */ - push_next_indice_fx( hBstr, prm[j++], 7 ); + push_next_indice( hBstr, prm[j++], 7 ); /* TCX Noise Filling = NBITS_NOISE_FILL_LEVEL bits */ - push_next_indice_fx( hBstr, prm[j++], NBITS_NOISE_FILL_LEVEL ); + push_next_indice( hBstr, prm[j++], NBITS_NOISE_FILL_LEVEL ); /* LTP data */ test(); @@ -1032,13 +1031,13 @@ void enc_prm_fx( { IF( prm[j] ) { - push_next_indice_fx( hBstr, 1, 1 ); - push_next_indice_fx( hBstr, prm[j + 1], 9 ); - push_next_indice_fx( hBstr, prm[j + 2], 2 ); + push_next_indice( hBstr, 1, 1 ); + push_next_indice( hBstr, prm[j + 1], 9 ); + push_next_indice( hBstr, prm[j + 2], 2 ); } ELSE { - push_next_indice_fx( hBstr, 0, 1 ); + push_next_indice( hBstr, 0, 1 ); } } j = add( j, 3 ); @@ -1080,7 +1079,7 @@ void enc_prm_fx( test(); IF( st->hTcxCfg->ctx_hm && !( last_core == ACELP_CORE && k == 0 ) ) { - push_next_indice_fx( hBstr, prm[j], 1 ); + push_next_indice( hBstr, prm[j], 1 ); IF( prm[j] ) { @@ -1512,3 +1511,190 @@ void writeTCXparam_fx( return; } + +/*-------------------------------------------------------------------* + * writeTCXMode_fx() + * + * write TCX mode + *--------------------------------------------------------------------*/ + +void writeTCXMode_fx( + Encoder_State *st, /* i/o: encoder state structure */ + BSTR_ENC_HANDLE hBstr, /* i/o: bitstream handle */ + const Word16 MCT_flag, /* i : hMCT handle allocated (1) or not (0) Q0*/ + Word16 *nbits_start /* o : nbits start Q0*/ +) +{ + UWord16 index; + Word16 idx, start_idx; + Word16 nBits; + + IF( st->tcxonly ) + { + push_next_indice( hBstr, (UWord16) EQ_16( st->core, TCX_10_CORE ), 1 ); + + test(); + IF( EQ_16( st->clas, UNVOICED_CLAS ) ) + { + index = 0; + move16(); + } + ELSE IF( EQ_16( st->clas, VOICED_TRANSITION ) || EQ_16( st->clas, UNVOICED_TRANSITION ) ) + { + index = 1; + move16(); + } + ELSE IF( EQ_16( st->clas, VOICED_CLAS ) ) + { + index = 2; + move16(); + } + ELSE + { + index = 3; + move16(); + } + + push_next_indice( hBstr, index, 2 ); + + test(); + IF( EQ_16( st->element_mode, IVAS_CPE_MDCT ) && !MCT_flag ) + { + push_next_indice( hBstr, st->vad_flag, 1 ); + } + } + ELSE + { + IF( EQ_16( st->core, ACELP_CORE ) ) + { + /* write the RF signaling information */ + IF( EQ_16( st->rf_mode, 1 ) ) + { + /* find the section in the ACELP signaling table corresponding to bitrate */ + idx = 0; + move16(); + WHILE( NE_32( acelp_sig_tbl[idx], st->total_brate ) ) /* total bitrate is kept at 13.2kbps */ + { + idx = add( idx, 1 ); + } + + /* retrieve the number of bits for signaling */ + idx = add( idx, 1 ); /* Q0 */ + nBits = extract_l( acelp_sig_tbl[idx] ); /* Q0 */ + + /* retrieve the signaling index */ + idx = add( idx, 1 ); + start_idx = idx; + move16(); + WHILE( NE_32( acelp_sig_tbl[idx], SIG2IND( st->coder_type, st->bwidth, st->sharpFlag, st->rf_mode ) ) ) + { + idx = add( idx, 1 ); + } + push_next_indice( hBstr, sub( idx, start_idx ), nBits ); + push_next_indice( hBstr, 0, 1 ); /* Indicate to the decoder that the core is ACELP*/ + *nbits_start = 3; + move16(); + } + ELSE + { + push_next_indice( hBstr, st->coder_type, 3 ); + } + } + ELSE + { + IF( EQ_16( st->mdct_sw, MODE1 ) ) + { + /* 2 bits instead of 3 as TCX is already signaled */ + push_next_indice( hBstr, st->hTcxCfg->coder_type, 2 ); + } + ELSE + { + IF( EQ_16( st->mdct_sw_enable, MODE2 ) ) + { + push_next_indice( hBstr, 1, 1 ); /* TCX */ + push_next_indice( hBstr, 0, 1 ); /* not HQ_CORE */ + push_next_indice( hBstr, st->hTcxCfg->coder_type, 2 ); + } + ELSE + { + /*write the RF signaling information*/ + IF( EQ_16( st->rf_mode, 1 ) ) + { + /* find the section in the ACELP signaling table corresponding to bitrate */ + idx = 0; + move16(); + WHILE( NE_32( acelp_sig_tbl[idx], st->total_brate ) ) + { + idx = add( idx, 1 ); + } + + /* retrieve the number of bits for signaling */ + idx = add( idx, 1 ); + nBits = extract_l( acelp_sig_tbl[idx] ); + + test(); + test(); + IF( EQ_16( st->hTcxCfg->coder_type, VOICED ) || EQ_16( st->hTcxCfg->coder_type, GENERIC ) || EQ_16( st->hTcxCfg->coder_type, TRANSITION ) ) + { + st->sharpFlag = 1; + move16(); + } + ELSE + { + st->sharpFlag = 0; + move16(); + } + + /* retrieve the signaling index */ + idx = add( idx, 1 ); + start_idx = idx; + move16(); + WHILE( NE_32( acelp_sig_tbl[idx], SIG2IND( st->hTcxCfg->coder_type, st->bwidth, st->sharpFlag, st->rf_mode ) ) ) + { + idx = add( idx, 1 ); + } + push_next_indice( hBstr, sub( idx, start_idx ), nBits ); + push_next_indice( hBstr, 1, 1 ); /* Indicate to the decoder that the core is TCX*/ + *nbits_start = 3; + move16(); + } + ELSE + { + push_next_indice( hBstr, add( ACELP_MODE_MAX, st->hTcxCfg->coder_type ), 3 ); + } + } + } + } + } + + return; +} + + +/*-------------------------------------------------------------------* + * writeTCXWindowing_fx() + * + * write TCX transform type + *-------------------------------------------------------------------*/ + +void writeTCXWindowing_fx( + BSTR_ENC_HANDLE hBstr, /* i/o: bitstream handle */ + const Word16 overlap_mode /* i : overlap mode Q0*/ +) +{ + + IF( EQ_16( overlap_mode, MIN_OVERLAP ) ) + { + push_next_indice( hBstr, 2, 2 ); + } + ELSE IF( EQ_16( overlap_mode, HALF_OVERLAP ) ) + { + push_next_indice( hBstr, 3, 2 ); + } + ELSE + { + push_next_indice( hBstr, 0, 1 ); + } + + return; +} diff --git a/lib_enc/enc_tran_fx.c b/lib_enc/enc_tran_fx.c index bf04daff523b91988c8b79f61e2415f0b36cc5a3..d6935dd0ce0cbbf841fc6f7917dba300dfd34f33 100644 --- a/lib_enc/enc_tran_fx.c +++ b/lib_enc/enc_tran_fx.c @@ -7,7 +7,6 @@ // #include "prot_fx.h" /* Function prototypes */ #include "rom_com_fx.h" /* Static table prototypes */ #include "rom_com.h" /* Static table prototypes */ -#include "prot.h" /* Function prototypes */ #include "prot_fx.h" /* Function prototypes */ #include "prot_fx_enc.h" /* Function prototypes */ @@ -328,7 +327,7 @@ Word16 encod_tran_fx( WHILE( unbits_PI > 0 ) { i = s_min( unbits_PI, 16 ); - push_indice_fx( hBstr, IND_UNUSED, 0, i ); + push_indice( hBstr, IND_UNUSED, 0, i ); unbits_PI -= i; } @@ -337,72 +336,72 @@ Word16 encod_tran_fx( { IF( EQ_16( tc_subfr, TC_0_0 ) ) { - push_indice_fx( hBstr, IND_TC_SUBFR, 1, 1 ); + push_indice( hBstr, IND_TC_SUBFR, 1, 1 ); } ELSE IF( EQ_16( tc_subfr, TC_0_64 ) ) { - push_indice_fx( hBstr, IND_TC_SUBFR, 0, 1 ); - push_indice_fx( hBstr, IND_TC_SUBFR, 1, 1 ); - push_indice_fx( hBstr, IND_TC_SUBFR, 0, 1 ); - push_indice_fx( hBstr, IND_TC_SUBFR, 1, 1 ); + push_indice( hBstr, IND_TC_SUBFR, 0, 1 ); + push_indice( hBstr, IND_TC_SUBFR, 1, 1 ); + push_indice( hBstr, IND_TC_SUBFR, 0, 1 ); + push_indice( hBstr, IND_TC_SUBFR, 1, 1 ); } ELSE IF( EQ_16( tc_subfr, TC_0_128 ) ) { - push_indice_fx( hBstr, IND_TC_SUBFR, 0, 1 ); - push_indice_fx( hBstr, IND_TC_SUBFR, 1, 1 ); - push_indice_fx( hBstr, IND_TC_SUBFR, 0, 1 ); - push_indice_fx( hBstr, IND_TC_SUBFR, 0, 1 ); + push_indice( hBstr, IND_TC_SUBFR, 0, 1 ); + push_indice( hBstr, IND_TC_SUBFR, 1, 1 ); + push_indice( hBstr, IND_TC_SUBFR, 0, 1 ); + push_indice( hBstr, IND_TC_SUBFR, 0, 1 ); } ELSE IF( EQ_16( tc_subfr, TC_0_192 ) ) { - push_indice_fx( hBstr, IND_TC_SUBFR, 0, 1 ); - push_indice_fx( hBstr, IND_TC_SUBFR, 1, 1 ); - push_indice_fx( hBstr, IND_TC_SUBFR, 1, 1 ); + push_indice( hBstr, IND_TC_SUBFR, 0, 1 ); + push_indice( hBstr, IND_TC_SUBFR, 1, 1 ); + push_indice( hBstr, IND_TC_SUBFR, 1, 1 ); } ELSE IF( EQ_16( tc_subfr, L_SUBFR ) ) { - push_indice_fx( hBstr, IND_TC_SUBFR, 0, 1 ); - push_indice_fx( hBstr, IND_TC_SUBFR, 0, 1 ); - push_indice_fx( hBstr, IND_TC_SUBFR, 1, 1 ); + push_indice( hBstr, IND_TC_SUBFR, 0, 1 ); + push_indice( hBstr, IND_TC_SUBFR, 0, 1 ); + push_indice( hBstr, IND_TC_SUBFR, 1, 1 ); } ELSE IF( EQ_16( tc_subfr, 2 * L_SUBFR ) ) { - push_indice_fx( hBstr, IND_TC_SUBFR, 0, 1 ); - push_indice_fx( hBstr, IND_TC_SUBFR, 0, 1 ); - push_indice_fx( hBstr, IND_TC_SUBFR, 0, 1 ); - push_indice_fx( hBstr, IND_TC_SUBFR, 1, 1 ); + push_indice( hBstr, IND_TC_SUBFR, 0, 1 ); + push_indice( hBstr, IND_TC_SUBFR, 0, 1 ); + push_indice( hBstr, IND_TC_SUBFR, 0, 1 ); + push_indice( hBstr, IND_TC_SUBFR, 1, 1 ); } ELSE IF( EQ_16( tc_subfr, 3 * L_SUBFR ) ) { - push_indice_fx( hBstr, IND_TC_SUBFR, 0, 1 ); - push_indice_fx( hBstr, IND_TC_SUBFR, 0, 1 ); - push_indice_fx( hBstr, IND_TC_SUBFR, 0, 1 ); - push_indice_fx( hBstr, IND_TC_SUBFR, 0, 1 ); + push_indice( hBstr, IND_TC_SUBFR, 0, 1 ); + push_indice( hBstr, IND_TC_SUBFR, 0, 1 ); + push_indice( hBstr, IND_TC_SUBFR, 0, 1 ); + push_indice( hBstr, IND_TC_SUBFR, 0, 1 ); } } ELSE /* L_frame == L_FRAME16k */ { IF( tc_subfr == 0 ) { - push_indice_fx( hBstr, IND_TC_SUBFR, 0, 2 ); + push_indice( hBstr, IND_TC_SUBFR, 0, 2 ); } ELSE IF( EQ_16( tc_subfr, L_SUBFR ) ) { - push_indice_fx( hBstr, IND_TC_SUBFR, 1, 2 ); + push_indice( hBstr, IND_TC_SUBFR, 1, 2 ); } ELSE IF( EQ_16( tc_subfr, 2 * L_SUBFR ) ) { - push_indice_fx( hBstr, IND_TC_SUBFR, 2, 2 ); + push_indice( hBstr, IND_TC_SUBFR, 2, 2 ); } ELSE IF( EQ_16( tc_subfr, 3 * L_SUBFR ) ) { - push_indice_fx( hBstr, IND_TC_SUBFR, 3, 2 ); - push_indice_fx( hBstr, IND_TC_SUBFR, 0, 1 ); + push_indice( hBstr, IND_TC_SUBFR, 3, 2 ); + push_indice( hBstr, IND_TC_SUBFR, 0, 1 ); } ELSE IF( EQ_16( tc_subfr, 4 * L_SUBFR ) ) { - push_indice_fx( hBstr, IND_TC_SUBFR, 3, 2 ); - push_indice_fx( hBstr, IND_TC_SUBFR, 1, 1 ); + push_indice( hBstr, IND_TC_SUBFR, 3, 2 ); + push_indice( hBstr, IND_TC_SUBFR, 1, 1 ); } } @@ -479,9 +478,7 @@ Word16 encod_tran_ivas_fx( L_frame_fx = st_fx->L_frame; move16(); -#ifdef MSAN_FIX set16_fx( h1, 0, L_SUBFR + ( M + 1 ) ); -#endif /*------------------------------------------------------------------* * Initializations diff --git a/lib_enc/enc_uv_fx.c b/lib_enc/enc_uv_fx.c index 0be344d723879f1bfc15110688036d53aaa4f60c..a8612725b3a71575342f9197aeda467f235b75ad 100644 --- a/lib_enc/enc_uv_fx.c +++ b/lib_enc/enc_uv_fx.c @@ -5,9 +5,8 @@ #include #include "options.h" /* Compilation switches */ #include "cnst.h" /* Common constants */ -#include "prot.h" /* Function prototypes */ +#include "prot_fx.h" /* Function prototypes */ #include "rom_com.h" -#include "prot_fx.h" /* Function prototypes */ #include "prot_fx_enc.h" /* Function prototypes */ /*-------------------------------------------------------------------* @@ -24,7 +23,7 @@ void encod_unvoiced_fx( const Word16 Es_pred, /* i : predicted scaled innov. energy Q8*/ const Word16 uc_two_stage_flag, /* i : flag indicating two-stage UC Q0*/ const Word16 *res_fx, /* i : residual signal Q_new*/ - Word16 *syn_fx, /* o : core synthesis Q_new*/ + Word16 *syn_fx, /* o : core synthesis Q_new -1 */ Word16 *tmp_noise_fx, /* o : long-term noise energy Q0*/ Word16 *exc_fx, /* i/o: current non-enhanced excitation Q_new*/ Word16 *pitch_buf_fx, /* o : floating pitch values for each subframe Q6*/ @@ -115,10 +114,11 @@ void encod_unvoiced_fx( /*----------------------------------------------------------------* * Unvoiced subframe processing in two stages *----------------------------------------------------------------*/ - // PMT("The code below needs validation, never been tested") + /* No adaptive codebook (UC) */ set16_fx( y1, 0, L_SUBFR ); set16_fx( exc_fx + i_subfr, 0, L_SUBFR ); + /*-----------------------------------------------------------------* * Gain clipping test to avoid unstable synthesis on frame erasure * or in case of floating point encoder & fixed p. decoder @@ -153,7 +153,7 @@ void encod_unvoiced_fx( #ifdef DEBUGGING assert( st_fx->acelp_cfg.gains_mode[i_subfr_idx] == 7 && "Error: UC two-stage, only 5+2 gain Q is supported" ); #endif - push_indice_fx( st_fx->hBstr, IND_GAIN, index, st_fx->acelp_cfg.gains_mode[i_subfr_idx] ); + push_indice( st_fx->hBstr, IND_GAIN, index, st_fx->acelp_cfg.gains_mode[i_subfr_idx] ); gp_clip_test_gain_pit_fx( st_fx->element_mode, st_fx->core_brate, gain_pit_fx, st_fx->clip_var_fx ); @@ -453,14 +453,10 @@ void encod_unvoiced_ivas_fx( voice_factors_fx[i_subfr / L_SUBFR] = 0; move16(); -#ifdef FIX_ISSUE_1148 if ( st_fx->hBWE_TD != NULL ) { interp_code_5over2_fx( &exc_fx[i_subfr], &bwe_exc_fx[i_subfr * HIBND_ACB_L_FAC], L_SUBFR ); } -#else - interp_code_5over2_fx( &exc_fx[i_subfr], &bwe_exc_fx[i_subfr * HIBND_ACB_L_FAC], L_SUBFR ); -#endif /*-----------------------------------------------------------------* * Synthesize speech to update mem_syn[]. diff --git a/lib_enc/energy_fx.c b/lib_enc/energy_fx.c index 7dc96a4e31a73fa401bb5170f05035510b58de02..0168e52b11bbbd0c077eeb15366ba2ea3059130b 100644 --- a/lib_enc/energy_fx.c +++ b/lib_enc/energy_fx.c @@ -451,11 +451,7 @@ void background_update_fx( tmp = L_shr( 2147 /* 0.000001 Q31 */, sub( 31, scale_sb_energy ) ); /* scale_sb_energy */ FOR( i = 0; i < SNR_sb_num; i++ ) { -#ifdef FIX_ISSUE_1209 sb_bg_energy[i] = L_add_sat( MUL_F( sb_bg_energy[i], 32112 /* 0.98 Q15 */ ), tmp ); /* scale_sb_energy */ -#else - sb_bg_energy[i] = L_add( MUL_F( sb_bg_energy[i], 32112 /* 0.98 Q15 */ ), tmp ); /* scale_sb_energy */ -#endif move32(); } } diff --git a/lib_enc/eval_pit_contr_fx.c b/lib_enc/eval_pit_contr_fx.c index e49463a5cf1a9eccf19b817a54d636bf68ca46c3..5e1c8dfe32dffa97ff711e152ddc3b37b3c89478 100644 --- a/lib_enc/eval_pit_contr_fx.c +++ b/lib_enc/eval_pit_contr_fx.c @@ -6,7 +6,6 @@ #include "cnst.h" /* Common constants */ #include "rom_com_fx.h" /* Static table prototypes */ #include "rom_com.h" /* Static table prototypes */ -#include "prot.h" /* Function prototypes */ #include "prot_fx.h" /* Function prototypes */ #include "prot_fx_enc.h" /* Function prototypes */ @@ -183,7 +182,7 @@ Word16 Pit_exc_contribution_len_fx( /* o : bin where pit test(); if ( GE_16( st_fx->GSC_IVAS_mode, 1 ) || LT_32( st_fx->core_brate, ACELP_9k60 ) ) { - av_corr = shl( av_corr, 1 ); /*Q2 Correlation really poor at low rate, time domain still valide*/ + av_corr = shl_sat( av_corr, 1 ); /*Q2 Correlation really poor at low rate, time domain still valide*/ } min_corr = abs_s( sub( mfreq_loc_Q2fx[0], av_corr ) ); /*Q2*/ @@ -379,22 +378,27 @@ Word16 Pit_exc_contribution_len_fx( /* o : bin where pit move16(); set16_fx( pitch_buf, shl( L_SUBFR, 6 ), NB_SUBFR16k ); + +#ifdef HARM_PUSH_BIT + /* pitch contribution useless - delete all previously written indices belonging to pitch contribution */ + for ( i = TAG_ACELP_SUBFR_LOOP_START; i < TAG_ACELP_SUBFR_LOOP_END; i++ ) + { + delete_indice( hBstr, i ); + } + + delete_indice( hBstr, IND_ES_PRED ); +#else /* pitch contribution useless - delete all previously written indices belonging to pitch contribution */ FOR( i = TAG_ACELP_SUBFR_LOOP_START; i < TAG_ACELP_SUBFR_LOOP_END; i++ ) { -#ifndef IVAS_CODE_BITSTREAM IF( hBstr->ind_list[i].nb_bits != -1 ) { hBstr->nb_bits_tot = sub( hBstr->nb_bits_tot, hBstr->ind_list[i].nb_bits ); /* Q0 */ hBstr->ind_list[i].nb_bits = -1; move16(); } -#else - delete_indice( hBstr, i ); -#endif } -#ifndef IVAS_CODE_BITSTREAM IF( hBstr->ind_list[IND_ES_PRED].nb_bits != -1 ) { hBstr->nb_bits_tot = sub( hBstr->nb_bits_tot, hBstr->ind_list[IND_ES_PRED].nb_bits ); /* Q0 */ @@ -402,8 +406,6 @@ Word16 Pit_exc_contribution_len_fx( /* o : bin where pit hBstr->ind_list[IND_ES_PRED].nb_bits = -1; move16(); } -#else - delete_indice( hBstr, i ); #endif } IF( LT_32( st_fx->core_brate, CFREQ_BITRATE ) ) @@ -418,17 +420,17 @@ Word16 Pit_exc_contribution_len_fx( /* o : bin where pit IF( EQ_16( st_fx->coder_type, INACTIVE ) ) { - push_indice_fx( hBstr, IND_PIT_CONTR_IDX, pit_contr_idx, 1 ); + push_indice( hBstr, IND_PIT_CONTR_IDX, pit_contr_idx, 1 ); } } ELSE { - push_indice_fx( hBstr, IND_PIT_CONTR_IDX, pit_contr_idx, 3 ); + push_indice( hBstr, IND_PIT_CONTR_IDX, pit_contr_idx, 3 ); } } ELSE { - push_indice_fx( hBstr, IND_PIT_CONTR_IDX, pit_contr_idx, 4 ); + push_indice( hBstr, IND_PIT_CONTR_IDX, pit_contr_idx, 4 ); } return last_pit_bin; diff --git a/lib_enc/evs_enc_fx.c b/lib_enc/evs_enc_fx.c index 3005edd6e61cd9f11d47b5f0a858a4a02377daad..396e97c6fa5adf5d01e3b2bd3b6ebcd39dd0fbfc 100644 --- a/lib_enc/evs_enc_fx.c +++ b/lib_enc/evs_enc_fx.c @@ -5,10 +5,9 @@ #include #include #include "options.h" /* Compilation switches */ -#include "prot.h" +#include "prot_fx.h" #include "cnst.h" /* Common constants */ #include "rom_com.h" /* Common constants */ -#include "prot_fx.h" /* Function prototypes */ #include "basop_util.h" /* Function prototypes */ #include "prot_fx_enc.h" #ifdef DEBUGGING @@ -282,12 +281,7 @@ ivas_error evs_enc_fx( IF( EQ_16( st->core, ACELP_CORE ) ) { acelp_core_enc_fx( st, inp, ener, A, Aw, epsP_h, epsP_l, lsp_new, lsp_mid, vad_hover_flag, - attack_flag, bwe_exc_extended, voice_factors, old_syn_12k8_16k, pitch_buf, &unbits, Q_new, shift -#ifdef ADD_LRTD - , - NULL, NULL -#endif - ); + attack_flag, bwe_exc_extended, voice_factors, old_syn_12k8_16k, pitch_buf, &unbits, NULL, NULL, Q_new, shift ); } /*---------------------------------------------------------------------* * HQ core encoding @@ -425,7 +419,7 @@ ivas_error evs_enc_fx( FOR( i = 0; i < padBits; i++ ) { - push_next_indice_fx( hBstr, 0, 1 ); + push_next_indice( hBstr, 0, 1 ); } } @@ -684,19 +678,19 @@ static void writeFrameHeader_loc( Encoder_State *st ) IF( EQ_16( st->cng_type, FD_CNG ) ) { /* write SID/CNG type flag */ - push_next_indice_fx( hBstr, 1, 1 ); + push_next_indice( hBstr, 1, 1 ); /* write bandwidth mode */ - push_next_indice_fx( hBstr, st->bwidth, 2 ); + push_next_indice( hBstr, st->bwidth, 2 ); /* write L_frame */ IF( EQ_16( st->L_frame, L_FRAME ) ) { - push_next_indice_fx( hBstr, 0, 1 ); + push_next_indice( hBstr, 0, 1 ); } ELSE { - push_next_indice_fx( hBstr, 1, 1 ); + push_next_indice( hBstr, 1, 1 ); } } } @@ -704,7 +698,7 @@ static void writeFrameHeader_loc( Encoder_State *st ) { IF( st->rf_mode == 0 ) { - push_next_indice_fx( hBstr, sub( st->bwidth, FrameSizeConfig[st->frame_size_index].bandwidth_min ), FrameSizeConfig[st->frame_size_index].bandwidth_bits ); + push_next_indice( hBstr, sub( st->bwidth, FrameSizeConfig[st->frame_size_index].bandwidth_min ), FrameSizeConfig[st->frame_size_index].bandwidth_bits ); } } @@ -712,7 +706,7 @@ static void writeFrameHeader_loc( Encoder_State *st ) test(); IF( FrameSizeConfig[st->frame_size_index].reserved_bits && st->rf_mode == 0 ) { - push_next_indice_fx( hBstr, 0, FrameSizeConfig[st->frame_size_index].reserved_bits ); + push_next_indice( hBstr, 0, FrameSizeConfig[st->frame_size_index].reserved_bits ); } } diff --git a/lib_enc/ext_sig_ana_fx.c b/lib_enc/ext_sig_ana_fx.c index c437be5be81b5d63d047425258711efb2c8676ec..200e7e8edc410168b73ffd26a52f84ac35c5bfe4 100644 --- a/lib_enc/ext_sig_ana_fx.c +++ b/lib_enc/ext_sig_ana_fx.c @@ -675,6 +675,7 @@ void core_signal_analysis_high_bitrate_ivas_fx( Word16 alw_voicing[2], alw_voicing_wc = -1; Word16 disable_ltp = 0; Word16 tmp, *tmpP16; + Word16 q_mdstWin = st->q_inp, q_tcx20Win = st->q_inp; Word32 *tmpP32; Word16 Q_exp; Word32 L_tmpbuf[N_MAX + L_MDCT_OVLP_MAX]; @@ -684,15 +685,18 @@ void core_signal_analysis_high_bitrate_ivas_fx( move16(); move16(); move16(); + move16(); + move16(); (void) vad_hover_flag; Word16 Q_win_temp[2]; Word16 *speech_ltp_fx = NULL; Word16 *wspeech_fx = NULL; Word16 *speech_fx = NULL; - Word16 q_out_wtda = 0; + Word16 q_out_wtda = st->q_inp; move16(); Word16 win_len[2]; move16(); + Word16 shift; set32_fx( buf_powerSPec, 0, N_MAX + L_MDCT_OVLP_MAX ); set16_fx( buf_powerSPec_exp, 0, N_MAX + L_MDCT_OVLP_MAX ); @@ -710,8 +714,9 @@ void core_signal_analysis_high_bitrate_ivas_fx( test(); IF( st->tcxonly && NE_16( st->element_mode, IVAS_CPE_MDCT ) ) { - Copy( new_samples, st->new_speech_enc, L_frame ); /* Q0 */ - Scale_sig( st->new_speech_enc, L_frame, 1 ); // Q1 + Copy_Scale_sig( new_samples, st->new_speech_enc, L_frame, sub( 15, st->exp_buf_speech_enc ) ); + /* st->new_speech_enc copied from new_samples in Q st->exp_buf_speech_enc + This is considering new_samples is in q 0 in current code*/ } /*--------------------------------------------------------------* @@ -747,10 +752,9 @@ void core_signal_analysis_high_bitrate_ivas_fx( test(); IF( st->tcxonly && NE_16( st->element_mode, IVAS_CPE_MDCT ) ) { - Copy( st->speech_enc + st->encoderLookahead_enc, st->new_speech_enc_pe, L_frame ); + Copy( st->speech_enc + st->encoderLookahead_enc, st->new_speech_enc_pe, L_frame ); // Assuming both exp_buf_speech_enc_pe and exp_buf_speech_enc are same - Preemph_scaled( st->new_speech_enc_pe, Q_new, &( st->mem_preemph_enc ), - st->Q_max_enc, st->preemph_fac, 1, 0, 2, L_frame, st->coder_type_raw, 1 ); + PREEMPH_FX( st->new_speech_enc_pe, st->preemph_fac, L_frame, &( st->mem_preemph_enc ) ); // using this to keep values alligned in Q-1 } /* Rescale Memory */ @@ -961,16 +965,14 @@ void core_signal_analysis_high_bitrate_ivas_fx( move32(); windowed_samples[frameno * L_FRAME_MAX + 1] = L_deposit_l( overlap_mode[frameno + 1] ); // Q0 move32(); - Copy_Scale_sig_16_32_DEPREC( tcx20Win, windowed_samples + add( imult1616( frameno, L_FRAME_MAX ), 2 ), add( L_subframe, shr( add( left_overlap, right_overlap ), 1 ) ), 0 ); + Copy_Scale_sig_16_32_DEPREC( tcx20Win, windowed_samples + add( imult1616( frameno, L_FRAME_MAX ), 2 ), add( L_subframe, shr( add( left_overlap, right_overlap ), 1 ) ), negate( q_tcx20Win ) ); *q_win = s_min( *q_win, sub( L_norm_arr( windowed_samples + add( imult1616( frameno, L_FRAME_MAX ), 2 ), add( L_subframe, shr( add( left_overlap, right_overlap ), 1 ) ) ), 1 ) ); move16(); Q_win_temp[frameno] = *q_win; move16(); -#ifdef MSAN_FIX Scale_sig32( windowed_samples + frameno * L_FRAME_MAX + 2, win_len[frameno], *q_win ); // q_win -#endif IF( EQ_16( frameno, 1 ) ) { Scale_sig32( windowed_samples + 2, win_len[0], sub( *q_win, Q_win_temp[0] ) ); // q_win @@ -985,7 +987,7 @@ void core_signal_analysis_high_bitrate_ivas_fx( /* Outter left folding */ FOR( i = 0; i < folding_offset; i++ ) { - tcx20Win[folding_offset + i] = sub_sat( tcx20Win[folding_offset + i], tcx20Win[folding_offset - 1 - i] ); // Q0 + tcx20Win[folding_offset + i] = sub_sat( tcx20Win[folding_offset + i], tcx20Win[folding_offset - 1 - i] ); // q_tcx20Win move16(); } @@ -998,18 +1000,16 @@ void core_signal_analysis_high_bitrate_ivas_fx( Word32 L_tmp; FOR( i = minWindowLen; i >= tmp; i-- ) /* outer left folding of shortened long ALDO slope */ { - L_tmp = L_mult( hTcxEnc->speech_TCX[-1 - i], st->hTcxCfg->tcx_aldo_window_1_FB[left_overlap / 2 + minWindowLen - i] ); // (Q0, Q15) -> Q16 - L_tmp = Mpy_32_16_1( L_tmp, st->hTcxCfg->tcx_mdct_window_minimumFB[minWindowLen - i].v.im ); // (Q16, Q15) -> Q16 - L_tmp = L_shl( L_tmp, sub( 0, Q16 ) ); // Q0 - tcx20Win[left_overlap + i] = sub_sat( tcx20Win[left_overlap + i], extract_l( L_tmp ) ); // Q0 + L_tmp = L_mult( hTcxEnc->speech_TCX[-1 - i], st->hTcxCfg->tcx_aldo_window_1_FB[left_overlap / 2 + minWindowLen - i] ); // (q_tcx20Win, Q15) -> Q16 + q_tcx20Win + L_tmp = Mpy_32_16_1( L_tmp, st->hTcxCfg->tcx_mdct_window_minimumFB[minWindowLen - i].v.im ); // (Q16 + q_tcx20Win, Q15) -> Q16 + q_tcx20Win + tcx20Win[left_overlap + i] = sub_sat( tcx20Win[left_overlap + i], extract_h( L_tmp ) ); // q_tcx20Win move32(); } FOR( i = tmp - 1; i >= 0; i-- ) /* outer left folding of shortened long ALDO slope */ { - L_tmp = L_mult( hTcxEnc->speech_TCX[-1 - i], st->hTcxCfg->tcx_aldo_window_1_FB[left_overlap / 2 + minWindowLen - i] ); // (Q0, Q15) -> Q16 - L_tmp = Mpy_32_16_1( L_tmp, st->hTcxCfg->tcx_mdct_window_minimumFB[i].v.re ); // (Q16, Q15) -> Q16 - L_tmp = L_shl( L_tmp, sub( 0, Q16 ) ); // Q0 - tcx20Win[left_overlap + i] = sub_sat( tcx20Win[left_overlap + i], extract_l( L_tmp ) ); // Q0 + L_tmp = L_mult( hTcxEnc->speech_TCX[-1 - i], st->hTcxCfg->tcx_aldo_window_1_FB[left_overlap / 2 + minWindowLen - i] ); // (q_tcx20Win, Q15) -> Q16 + q_tcx20Win + L_tmp = Mpy_32_16_1( L_tmp, st->hTcxCfg->tcx_mdct_window_minimumFB[i].v.re ); // (Q16 + q_tcx20Win, Q15) -> Q16 + q_tcx20Win + tcx20Win[left_overlap + i] = sub_sat( tcx20Win[left_overlap + i], extract_h( L_tmp ) ); // q_tcx20Win move32(); } } @@ -1018,7 +1018,7 @@ void core_signal_analysis_high_bitrate_ivas_fx( tmp = shr( right_overlap, 1 ); FOR( i = 0; i < tmp; i++ ) { - tcx20Win[L_subframe + folding_offset - 1 - i] = add_sat( tcx20Win[L_subframe + folding_offset - 1 - i], tcx20Win[L_subframe + folding_offset + i] ); // Q0 + tcx20Win[L_subframe + folding_offset - 1 - i] = add_sat( tcx20Win[L_subframe + folding_offset - 1 - i], tcx20Win[L_subframe + folding_offset + i] ); // q_tcx20Win move16(); } @@ -1029,6 +1029,12 @@ void core_signal_analysis_high_bitrate_ivas_fx( tmpP16 = tcx20Win; tmpP32 = hTcxEnc->spectrum_fx[frameno]; assert( st->mct_chan_mode != MCT_CHAN_MODE_LFE ); + Word16 len[2], exp[2]; + hTcxEnc->spectrum_e[frameno] = sub( 16, q_tcx20Win ); + exp[0] = exp[1] = hTcxEnc->spectrum_e[frameno]; + move16(); + move16(); + move16(); FOR( i = 0; i < 2; i++ ) { test(); @@ -1039,17 +1045,17 @@ void core_signal_analysis_high_bitrate_ivas_fx( mac_r( 2 << 16, -( 3 << 8 ), shl( i, 7 ) ), /* equivalent to: sub(i, 1) == 0 ? RECTANGULAR_OVERLAP : MIN_OVERLAP */ &left_overlap, &right_overlap, tmpP16, &L_subframe, tcx5Win, st->element_mode != IVAS_CPE_MDCT, 1 ); - hTcxEnc->spectrum_e[frameno] = 16; - move16(); TCX_MDCT( tcx5Win, tmpP32, - &hTcxEnc->spectrum_e[frameno], + &exp[i], left_overlap, sub( L_subframe, shr( add( left_overlap, right_overlap ), 1 ) ), right_overlap, st->element_mode ); tmpP16 += tcx5SizeFB; tmpP32 += tcx5SizeFB; + len[i] = L_subframe; + move16(); /* high-band gain control in case of BWS */ IF( st->bwidth_sw_cnt > 0 ) @@ -1066,6 +1072,13 @@ void core_signal_analysis_high_bitrate_ivas_fx( L_subframe - L_FRAME16k / ( 2 * nSubframes ) ); } } + hTcxEnc->spectrum_e[frameno] = s_max( exp[0], exp[1] ); + move16(); + + FOR( i = 0; i < 2; i++ ) + { + scale_sig32( hTcxEnc->spectrum_fx[frameno] + i * L_subframe, len[i], sub( exp[i], hTcxEnc->spectrum_e[frameno] ) ); + } } ELSE /* transform_type[frameno] != TCX_5 */ { @@ -1107,23 +1120,23 @@ void core_signal_analysis_high_bitrate_ivas_fx( Word32 L_tmp; FOR( i = minWindowLen; i >= tmp; i-- ) /* outer left folding of shortened long ALDO slope */ { - L_tmp = L_mult( hTcxEnc->speech_TCX[-1 - i], st->hTcxCfg->tcx_aldo_window_1_FB[left_overlap / 2 + minWindowLen - i] ); // (Q0, Q15) -> Q16 - L_tmp = Mpy_32_16_1( L_tmp, st->hTcxCfg->tcx_mdct_window_minimumFB[minWindowLen - i].v.im ); // (Q16, Q15) -> Q16 - L_tmp = L_shl( L_tmp, sub( 0, Q16 ) ); // Q0 - tcx20Win[left_overlap + i] = sub_sat( tcx20Win[left_overlap + i], extract_l( L_tmp ) ); // Q0 + L_tmp = L_mult( hTcxEnc->speech_TCX[-1 - i], st->hTcxCfg->tcx_aldo_window_1_FB[left_overlap / 2 + minWindowLen - i] ); // (q_tcx20Win, Q15) -> Q16 + q_tcx20Win + L_tmp = Mpy_32_16_1( L_tmp, st->hTcxCfg->tcx_mdct_window_minimumFB[minWindowLen - i].v.im ); // (Q16, Q15) -> Q16 + q_tcx20Win + tcx20Win[left_overlap + i] = sub_sat( tcx20Win[left_overlap + i], extract_h( L_tmp ) ); // q_tcx20Win move32(); } FOR( i = tmp - 1; i >= 0; i-- ) /* outer left folding of shortened long ALDO slope */ { - L_tmp = L_mult( hTcxEnc->speech_TCX[-1 - i], st->hTcxCfg->tcx_aldo_window_1_FB[left_overlap / 2 + minWindowLen - i] ); // (Q0, Q15) -> Q16 - L_tmp = Mpy_32_16_1( L_tmp, st->hTcxCfg->tcx_mdct_window_minimumFB[i].v.re ); // (Q16, Q15) -> Q16 - L_tmp = L_shl( L_tmp, sub( 0, Q16 ) ); // Q0 - tcx20Win[left_overlap + i] = sub_sat( tcx20Win[left_overlap + i], extract_l( L_tmp ) ); // Q0 + L_tmp = L_mult( hTcxEnc->speech_TCX[-1 - i], st->hTcxCfg->tcx_aldo_window_1_FB[left_overlap / 2 + minWindowLen - i] ); // (q_tcx20Win, Q15) -> Q16 + q_tcx20Win + L_tmp = Mpy_32_16_1( L_tmp, st->hTcxCfg->tcx_mdct_window_minimumFB[i].v.re ); // (Q16 + q_tcx20Win, Q15) -> Q16 + q_tcx20Win + tcx20Win[left_overlap + i] = sub_sat( tcx20Win[left_overlap + i], extract_h( L_tmp ) ); // q_tcx20Win move32(); } } TCX_MDCT( tcx20Win, hTcxEnc->spectrum_fx[frameno], &hTcxEnc->spectrum_e[frameno], left_overlap, sub( L_subframe, shr( add( left_overlap, right_overlap ), 1 ) ), right_overlap, st->element_mode ); + hTcxEnc->spectrum_e[frameno] = sub( hTcxEnc->spectrum_e[frameno], q_tcx20Win ); + move16(); } /* high-band gain control in case of BWS */ @@ -1149,34 +1162,48 @@ void core_signal_analysis_high_bitrate_ivas_fx( IF( EQ_16( hTcxEnc->tcxMode, TCX_20 ) && ( ( LT_32( st->total_brate, HQ_96k ) ) || st->igf ) ) { pMdstWin = tcx20Win; + Word16 q_pmdstWin = q_tcx20Win; + move16(); test(); if ( ( ( EQ_16( hTcxEnc->tcxMode, TCX_20 ) ) && ( NE_16( st->hTcxCfg->tcx_last_overlap_mode, TRANSITION_OVERLAP ) ) ) ) { pMdstWin = mdstWin; + q_pmdstWin = q_mdstWin; + move16(); } /* Compute noise-measure flags for spectrum filling and quantization */ AnalyzePowerSpectrum_ivas_fx( st, div_l( L_mult( L_subframe, st->L_frame ), hTcxEnc->L_frameTCX ), L_subframe, left_overlap, right_overlap, hTcxEnc->spectrum_fx[frameno], hTcxEnc->spectrum_e[frameno], - pMdstWin, powerSpec, powerSpec_e ); + pMdstWin, q_pmdstWin, powerSpec, powerSpec_e ); } } } IF( EQ_16( st->element_mode, IVAS_CPE_MDCT ) ) { + Word16 scale; L_subframe = idiv1616( L_frameTCX, nSubframes ); /* Q0 */ test(); IF( EQ_16( transform_type[frameno], TCX_20 ) && NE_16( st->hTcxCfg->tcx_last_overlap_mode, TRANSITION_OVERLAP ) ) { wtda_ext_fx( hTcxEnc->new_speech_TCX, mdstWin, overlap_mode[frameno], overlap_mode[frameno + 1], L_frameTCX, 3 ); - Scale_sig( mdstWin, L_frameTCX, 1 ); + scale = sub( norm_arr( mdstWin, L_frameTCX ), 1 ); + scale = s_min( 1, scale ); // restricting the Q to zero or less + scale_sig( mdstWin, L_frameTCX, scale ); + q_mdstWin = add( add( st->q_inp, -1 ), scale ); } ELSE { + Word16 sig_len; /* Windowing for the MDST */ WindowSignal( st->hTcxCfg, st->hTcxCfg->tcx_offsetFB, overlap_mode[frameno] == ALDO_WINDOW ? FULL_OVERLAP : overlap_mode[frameno], overlap_mode[frameno + 1] == ALDO_WINDOW ? FULL_OVERLAP : overlap_mode[frameno + 1], &left_overlap, &right_overlap, &hTcxEnc->speech_TCX[frameno * tcx10SizeFB], &L_subframe, mdstWin, 0, 1 ); + sig_len = add( L_subframe, shr( add( left_overlap, right_overlap ), 1 ) ); + scale = sub( norm_arr( mdstWin, sig_len ), 1 ); + scale = s_min( 0, scale ); // restricting the Q to zero or less + scale_sig( mdstWin, sig_len, scale ); + q_mdstWin = add( scale, st->q_inp ); } IF( EQ_16( transform_type[frameno], TCX_5 ) ) @@ -1184,7 +1211,7 @@ void core_signal_analysis_high_bitrate_ivas_fx( /* Outer left folding */ FOR( i = 0; i < left_overlap / 2; i++ ) { - mdstWin[left_overlap / 2 + i] = add_sat( mdstWin[left_overlap / 2 + i], mdstWin[left_overlap / 2 - 1 - i] ); // Q0 + mdstWin[left_overlap / 2 + i] = add( mdstWin[left_overlap / 2 + i], mdstWin[left_overlap / 2 - 1 - i] ); // q_mdstWin } test(); @@ -1192,21 +1219,22 @@ void core_signal_analysis_high_bitrate_ivas_fx( IF( frameno == 0 && overlap_mode[0] == FULL_OVERLAP && GT_16( sub( L_subframe, left_overlap ), minWindowLen ) ) { tmp = shr( st->hTcxCfg->tcx_mdct_window_min_lengthFB, 1 ); + shift = sub( q_mdstWin, add( Q16, st->q_inp ) ); Word32 L_tmp; FOR( i = minWindowLen; i >= tmp; i-- ) /* outer left folding of shortened long ALDO slope */ { - L_tmp = L_mult( hTcxEnc->speech_TCX[-1 - i], st->hTcxCfg->tcx_aldo_window_1_FB[left_overlap / 2 + minWindowLen - i] ); // (Q0, Q15) -> Q16 - L_tmp = Mpy_32_16_1( L_tmp, st->hTcxCfg->tcx_mdct_window_minimumFB[minWindowLen - i].v.im ); // (Q16, Q15) -> Q16 - L_tmp = L_shl( L_tmp, sub( 0, Q16 ) ); // Q0 - mdstWin[left_overlap + i] = add_sat( mdstWin[left_overlap + i], extract_l( L_tmp ) ); // Q0 + L_tmp = L_mult( hTcxEnc->speech_TCX[-1 - i], st->hTcxCfg->tcx_aldo_window_1_FB[left_overlap / 2 + minWindowLen - i] ); // (q_inp, Q15) -> Q16 + q_inp + L_tmp = Mpy_32_16_1( L_tmp, st->hTcxCfg->tcx_mdct_window_minimumFB[minWindowLen - i].v.im ); // (Q16 + q_inp, Q15) -> Q16 + q_inp + L_tmp = L_shl( L_tmp, shift ); // q_mdstWin + mdstWin[left_overlap + i] = add( mdstWin[left_overlap + i], extract_l( L_tmp ) ); // q_mdstWin move32(); } FOR( i = tmp - 1; i >= 0; i-- ) /* outer left folding of shortened long ALDO slope */ { - L_tmp = L_mult( hTcxEnc->speech_TCX[-1 - i], st->hTcxCfg->tcx_aldo_window_1_FB[left_overlap / 2 + minWindowLen - i] ); // (Q0, Q15) -> Q16 - L_tmp = Mpy_32_16_1( L_tmp, st->hTcxCfg->tcx_mdct_window_minimumFB[i].v.re ); // (Q16, Q15) -> Q16 - L_tmp = L_shl( L_tmp, sub( 0, Q16 ) ); // Q0 - mdstWin[left_overlap + i] = add_sat( mdstWin[left_overlap + i], extract_l( L_tmp ) ); // Q0 + L_tmp = L_mult( hTcxEnc->speech_TCX[-1 - i], st->hTcxCfg->tcx_aldo_window_1_FB[left_overlap / 2 + minWindowLen - i] ); // (q_inp, Q15) -> Q16 + q_inp + L_tmp = Mpy_32_16_1( L_tmp, st->hTcxCfg->tcx_mdct_window_minimumFB[i].v.re ); // (Q16 + q_inp, Q15) -> Q16 + q_inp + L_tmp = L_shl( L_tmp, shift ); // q_mdstWin + mdstWin[left_overlap + i] = add( mdstWin[left_overlap + i], extract_l( L_tmp ) ); // q_mdstWin move32(); } } @@ -1214,7 +1242,7 @@ void core_signal_analysis_high_bitrate_ivas_fx( /* Outer right folding */ FOR( i = 0; i < right_overlap / 2; i++ ) { - mdstWin[L_subframe + left_overlap / 2 - 1 - i] = sub_sat( mdstWin[L_subframe + left_overlap / 2 - 1 - i], mdstWin[L_subframe + left_overlap / 2 + i] ); // Q0 + mdstWin[L_subframe + left_overlap / 2 - 1 - i] = sub( mdstWin[L_subframe + left_overlap / 2 - 1 - i], mdstWin[L_subframe + left_overlap / 2 + i] ); // q_mdstWin move16(); } @@ -1229,7 +1257,7 @@ void core_signal_analysis_high_bitrate_ivas_fx( assert( st->mct_chan_mode != MCT_CHAN_MODE_LFE ); WindowSignal( st->hTcxCfg, folding_offset, i == 0 ? RECTANGULAR_OVERLAP : MIN_OVERLAP, i == 1 ? RECTANGULAR_OVERLAP : MIN_OVERLAP, &left_overlap, &right_overlap, mdstWin + i * tcx5SizeFB, &L_subframe, tcx5Win, 0, 1 ); - spectrum_e[frameno] = 16; + spectrum_e[frameno] = sub( 16, q_mdstWin ); move16(); TCX_MDST( tcx5Win, spectrum[frameno] + i * tcx5SizeFB, &spectrum_e[frameno], left_overlap, L_subframe - ( left_overlap + right_overlap ) / 2, right_overlap, st->element_mode ); /* high-band gain control in case of BWS */ @@ -1250,14 +1278,14 @@ void core_signal_analysis_high_bitrate_ivas_fx( } ELSE /* transform_type[frameno] != TCX_5 */ { - spectrum_e[frameno] = 16; + spectrum_e[frameno] = sub( 16, q_mdstWin ); test(); IF( EQ_16( transform_type[frameno], TCX_20 ) && NE_16( st->hTcxCfg->tcx_last_overlap_mode, TRANSITION_OVERLAP ) ) { Word16 Q; Copy_Scale_sig_16_32_no_sat( mdstWin, L_tmpbuf, N_MAX + L_MDCT_OVLP_MAX, 16 ); - Q = 16; + Q = add( q_mdstWin, 16 ); move16(); edst_fx( L_tmpbuf, spectrum[frameno], L_subframe, &Q ); spectrum_e[frameno] = 31 - Q; @@ -1280,20 +1308,21 @@ void core_signal_analysis_high_bitrate_ivas_fx( { tmp = shr( st->hTcxCfg->tcx_mdct_window_min_lengthFB, 1 ); Word32 L_tmp; + shift = sub( q_mdstWin, add( Q16, st->q_inp ) ); FOR( i = minWindowLen; i >= tmp; i-- ) /* outer left folding of shortened long ALDO slope */ { - L_tmp = L_mult( hTcxEnc->speech_TCX[-1 - i], st->hTcxCfg->tcx_aldo_window_1_FB[left_overlap / 2 + minWindowLen - i] ); // (Q0, Q15) -> Q16 - L_tmp = Mpy_32_16_1( L_tmp, st->hTcxCfg->tcx_mdct_window_minimumFB[minWindowLen - i].v.im ); // (Q16, Q15) -> Q16 - L_tmp = L_shl( L_tmp, sub( 0, Q16 ) ); // Q0 - mdstWin[left_overlap + i] = add_sat( mdstWin[left_overlap + i], extract_l( L_tmp ) ); // Q0 + L_tmp = L_mult( hTcxEnc->speech_TCX[-1 - i], st->hTcxCfg->tcx_aldo_window_1_FB[left_overlap / 2 + minWindowLen - i] ); // (q_inp, Q15) -> Q16 + q_inp + L_tmp = Mpy_32_16_1( L_tmp, st->hTcxCfg->tcx_mdct_window_minimumFB[minWindowLen - i].v.im ); // (Q16 + q_inp, Q15) -> Q16 + q_inp + L_tmp = L_shl( L_tmp, shift ); // q_mdstWin + mdstWin[left_overlap + i] = add( mdstWin[left_overlap + i], extract_l( L_tmp ) ); // q_mdstWin move32(); } FOR( i = tmp - 1; i >= 0; i-- ) /* outer left folding of shortened long ALDO slope */ { - L_tmp = L_mult( hTcxEnc->speech_TCX[-1 - i], st->hTcxCfg->tcx_aldo_window_1_FB[left_overlap / 2 + minWindowLen - i] ); // (Q0, Q15) -> Q16 - L_tmp = Mpy_32_16_1( L_tmp, st->hTcxCfg->tcx_mdct_window_minimumFB[i].v.re ); // (Q16, Q15) -> Q16 - L_tmp = L_shl( L_tmp, sub( 0, Q16 ) ); // Q0 - mdstWin[left_overlap + i] = add_sat( mdstWin[left_overlap + i], extract_l( L_tmp ) ); // Q0 + L_tmp = L_mult( hTcxEnc->speech_TCX[-1 - i], st->hTcxCfg->tcx_aldo_window_1_FB[left_overlap / 2 + minWindowLen - i] ); // (q_inp, Q15) -> Q16 + q_inp + L_tmp = Mpy_32_16_1( L_tmp, st->hTcxCfg->tcx_mdct_window_minimumFB[i].v.re ); // (Q16 + q_inp, Q15) -> Q16 + q_inp + L_tmp = L_shl( L_tmp, shift ); // q_mdstWin + mdstWin[left_overlap + i] = add( mdstWin[left_overlap + i], extract_l( L_tmp ) ); // q_mdstWin move32(); } } @@ -1372,27 +1401,11 @@ void core_signal_analysis_high_bitrate_ivas_fx( IF( st->igf ) { Word16 q_spectrum = sub( Q31, hTcxEnc->spectrum_e[frameno] ); -#ifndef MSAN_FIX - ProcessIGF_ivas_fx( st, hTcxEnc->spectrum_fx[frameno], hTcxEnc->spectrum_fx[frameno], &q_spectrum, powerSpec, powerSpec_e, transform_type[frameno] == TCX_20, frameno, 0, vad_hover_flag ); -#else ProcessIGF_ivas_fx( st, N_MAX + L_MDCT_OVLP_MAX, hTcxEnc->spectrum_fx[frameno], hTcxEnc->spectrum_fx[frameno], &q_spectrum, powerSpec, powerSpec_e, transform_type[frameno] == TCX_20, frameno, 0, vad_hover_flag ); -#endif } } } -#ifndef MSAN_FIX - IF( windowed_samples != NULL ) - { - FOR( frameno = 0; frameno < nSubframes; frameno++ ) - { - IF( !( ( EQ_16( transform_type[frameno], TCX_20 ) ) && ( NE_16( st->hTcxCfg->tcx_last_overlap_mode, TRANSITION_OVERLAP ) ) ) ) - { - Scale_sig32( windowed_samples + frameno * L_FRAME_MAX + 2, win_len, *q_win ); - } - } - } -#endif IF( NE_16( st->element_mode, IVAS_CPE_MDCT ) ) { diff --git a/lib_enc/fd_cng_enc.c b/lib_enc/fd_cng_enc.c deleted file mode 100644 index 3b1b81730b109a3a01bbdd1b2a774f2f7df37720..0000000000000000000000000000000000000000 --- a/lib_enc/fd_cng_enc.c +++ /dev/null @@ -1,1172 +0,0 @@ -/****************************************************************************************************** - - (C) 2022-2025 IVAS codec Public Collaboration with portions copyright Dolby International AB, Ericsson AB, - Fraunhofer-Gesellschaft zur Foerderung der angewandten Forschung e.V., Huawei Technologies Co. LTD., - Koninklijke Philips N.V., Nippon Telegraph and Telephone Corporation, Nokia Technologies Oy, Orange, - Panasonic Holdings Corporation, Qualcomm Technologies, Inc., VoiceAge Corporation, and other - contributors to this repository. All Rights Reserved. - - This software is protected by copyright law and by international treaties. - The IVAS codec Public Collaboration consisting of Dolby International AB, Ericsson AB, - Fraunhofer-Gesellschaft zur Foerderung der angewandten Forschung e.V., Huawei Technologies Co. LTD., - Koninklijke Philips N.V., Nippon Telegraph and Telephone Corporation, Nokia Technologies Oy, Orange, - Panasonic Holdings Corporation, Qualcomm Technologies, Inc., VoiceAge Corporation, and other - contributors to this repository retain full ownership rights in their respective contributions in - the software. This notice grants no license of any kind, including but not limited to patent - license, nor is any license granted by implication, estoppel or otherwise. - - Contributors are required to enter into the IVAS codec Public Collaboration agreement before making - contributions. - - This software is provided "AS IS", without any express or implied warranties. The software is in the - development stage. It is intended exclusively for experts who have experience with such software and - solely for the purpose of inspection. All implied warranties of non-infringement, merchantability - and fitness for a particular purpose are hereby disclaimed and excluded. - - Any dispute, controversy or claim arising under or in relation to providing this software shall be - submitted to and settled by the final, binding jurisdiction of the courts of Munich, Germany in - accordance with the laws of the Federal Republic of Germany excluding its conflict of law rules and - the United Nations Convention on Contracts on the International Sales of Goods. - -*******************************************************************************************************/ - -/*==================================================================================== - EVS Codec 3GPP TS26.443 Nov 04, 2021. Version 12.14.0 / 13.10.0 / 14.6.0 / 15.4.0 / 16.3.0 - ====================================================================================*/ - -#include -#include -#include "options.h" -#include -#include "rom_enc.h" -#include "rom_com.h" -#include "prot.h" -#include "prot_fx.h" -#include "prot_fx_enc.h" -#include "ivas_prot.h" -#include "ivas_prot_fx.h" -#include "stat_enc.h" -#include "wmc_auto.h" - -#include "prot_fx.h" - -/*-------------------------------------------------------------------* - * initFdCngEnc() - * - * Initialize FD_CNG - *-------------------------------------------------------------------*/ - -/*-------------------------------------------------------------------* - * deleteFdCngEnc() - * - * Delete the instance of type FD_CNG - *-------------------------------------------------------------------*/ - -/*-------------------------------------------------------------------* - * resetFdCngEnc() - * - * Reset the instance of type FD_CNG - *-------------------------------------------------------------------*/ -/*-------------------------------------------------------------------* - * perform_noise_estimation_enc() - * - * Perform noise estimation - *-------------------------------------------------------------------*/ -void perform_noise_estimation_enc_ivas_fx( - Word32 *band_energies, /* i: energy in critical bands without minimum noise floor MODE2_E_MIN band_energies_exp*/ - Word16 band_energies_exp, - Word32 *enerBuffer, /* enerBuffer_exp */ - Word16 enerBuffer_exp, - HANDLE_FD_CNG_ENC hFdCngEnc, /* i/o: CNG structure containing all buffers and variables */ - const Word32 input_Fs, /* i : input sampling rate Q0*/ - CPE_ENC_HANDLE hCPE /* i : CPE encoder structure */ -) -{ - Word16 i, j, s, s1, s2; - Word16 numBands; - Word16 numCoreBands = hFdCngEnc->hFdCngCom->numCoreBands; /* Q0 */ - move16(); - Word16 regularStopBand = hFdCngEnc->hFdCngCom->regularStopBand; /* Q0 */ - move16(); - Word16 numSlots = hFdCngEnc->hFdCngCom->numSlots; /* Q0 */ - move16(); - assert( numSlots == 16 ); - - Word32 numSlots_inv_fx = 1073741824; // Q34 of .0625 - move32(); - Word32 *periodog = hFdCngEnc->hFdCngCom->periodog; /* exp(peridog_exp) */ - Word32 *ptr_per_fx = periodog; - Word64 periodog_64; - Word16 periodog_exp[PERIODOGLEN]; - Word16 npart = hFdCngEnc->hFdCngCom->npart; /* Q0 */ - move16(); - Word16 nFFTpart = hFdCngEnc->hFdCngCom->nFFTpart; /* Q0 */ - move16(); - Word16 nCLDFBpart = hFdCngEnc->hFdCngCom->nCLDFBpart; /* Q0 */ - move16(); - - Word16 *psize = hFdCngEnc->hFdCngCom->psize; // 6Q9 - Word32 *msPeriodog_fx = hFdCngEnc->msPeriodog_fx; - Word32 *msNoiseEst_fx = hFdCngEnc->msNoiseEst_fx; /* exp(msNoiseEst_fx_exp) */ - - Word16 *msLogPeriodog_fx = hFdCngEnc->msLogPeriodog_fx; - Word16 *msLogNoiseEst_fx = hFdCngEnc->msLogNoiseEst_fx; - - Word32 scaleEB_fx = 0; - move32(); - Word32 tmp; - - test(); - IF( hCPE != NULL && hCPE->hStereoDft != NULL ) - { - // band_res_dft = ( (float) input_Fs ) / hCPE->hStereoDft->NFFT; - // chan_width_f = 24000.f / CLDFB_NO_CHANNELS_MAX; - // chan_width_bins = chan_width_f / band_res_dft; - - ///* Scaling of Energy buffer to get energy per sample, same scaling as for band_energies, 3 is to compensate for the 1/3 scaling in calculate_energy_buffer */ - // scaleEB = 3 * 4.0f / ( hCPE->hStereoDft->NFFT * hCPE->hStereoDft->NFFT ); - - ///* Scale with number of bins in one band */ - // scaleEB = scaleEB / chan_width_bins; - - SWITCH( input_Fs ) - { - case 8000: - scaleEB_fx = 251648; // Q35 - move32(); - BREAK; - case 16000: - scaleEB_fx = 62912; // Q35 - move32(); - BREAK; - case 32000: - scaleEB_fx = 15728; // Q35 - move32(); - BREAK; - case 48000: - scaleEB_fx = 6991; // Q35 - move32(); - BREAK; - default: - assert( 0 && "invalid sample rate" ); - } - } - ELSE - { - scaleEB_fx = Mpy_32_32( numSlots_inv_fx, L_deposit_l( hFdCngEnc->hFdCngCom->scalingFactor ) ); // Q34 + Q30 - Q31 = Q33 - scaleEB_fx = L_shl( scaleEB_fx, 2 ); // Q35 - } - - /* preemphasis compensation and grouping of per bin energies into msPeriodog */ - FOR( i = 0; i < nFFTpart; i++ ) - { - tmp = L_add( L_shr( band_energies[i], 1 ), L_shr( band_energies[i + NB_BANDS], 1 ) ); - msPeriodog_fx[i] = Mpy_32_16_1( tmp, preemphCompensation_fx[i] ); - move32(); - } - - /* exponent for fft part of msPeriodog */ - hFdCngEnc->msPeriodog_fx_exp_fft = add( band_energies_exp, PREEMPH_COMPENSATION_EXP ); - move16(); - - Word16 max_exp = -31; - move16(); - i = 0; - move16(); - /* Adjust to the desired time resolution by averaging the periodograms over the time slots */ - FOR( j = numCoreBands; j < regularStopBand; j++ ) - { - periodog_64 = W_mult_32_32( enerBuffer[j], scaleEB_fx ); - Word16 scale = W_norm( periodog_64 ); - *ptr_per_fx = W_extract_h( W_shl( periodog_64, scale ) ); - move32(); - periodog_exp[i] = sub( Q31, add( add( sub( Q31, enerBuffer_exp ), 35 - 31 ), scale ) ); - move16(); - max_exp = s_max( max_exp, periodog_exp[i] ); - - ptr_per_fx++; - i++; - } - /* exponent for cldfb part of msPeriodog */ - // hFdCngEnc->hFdCngCom->exp_cldfb_periodog = add( sub( enerBuffer_exp, 4 ), CLDFBscalingFactor_EXP ); - // move16(); - - numBands = sub( regularStopBand, numCoreBands ); /* Q0 */ - FOR( i = 0; i < numBands; i++ ) - { - - periodog[i] = L_shr( periodog[i], sub( max_exp, periodog_exp[i] ) ); - - move16(); - } - hFdCngEnc->hFdCngCom->exp_cldfb_periodog = max_exp; - move16(); - IF( numBands > 0 ) - { - ///* Adjust CLDFB filterbank to the desired frequency resolution by averaging over spectral partitions for SID transmission */ - bandcombinepow( - periodog, - hFdCngEnc->hFdCngCom->exp_cldfb_periodog, - numBands, - hFdCngEnc->hFdCngCom->CLDFBpart, - nCLDFBpart, - hFdCngEnc->hFdCngCom->CLDFBpsize_inv, - &msPeriodog_fx[nFFTpart], - &hFdCngEnc->msPeriodog_fx_exp_cldfb ); - - ///* find common exponent for fft part and cldfb part of msperiodog */ - s1 = getScaleFactor32( msPeriodog_fx, nFFTpart ); - s2 = getScaleFactor32( &msPeriodog_fx[nFFTpart], nCLDFBpart ); - - s = s_max( sub( hFdCngEnc->msPeriodog_fx_exp_fft, s1 ), sub( hFdCngEnc->msPeriodog_fx_exp_cldfb, s2 ) ); - s1 = sub( s, hFdCngEnc->msPeriodog_fx_exp_fft ); - s2 = sub( s, hFdCngEnc->msPeriodog_fx_exp_cldfb ); - - hFdCngEnc->msPeriodog_fx_exp_fft = s; - move16(); - hFdCngEnc->msPeriodog_fx_exp_cldfb = s; - move16(); - - FOR( i = 0; i < nFFTpart; i++ ) - { - msPeriodog_fx[i] = L_shr( msPeriodog_fx[i], s1 ); /* hFdCngEnc->msPeriodog_fx_exp_fft */ - move32(); - } - - FOR( i = 0; i < nCLDFBpart; i++ ) - { - msPeriodog_fx[nFFTpart + i] = L_shr( msPeriodog_fx[nFFTpart + i], s_min( 31, s2 ) ); /* hFdCngEnc->msPeriodog_fx_exp_fft */ - move32(); - } - } - /* exponent for entire msPeriodog vector */ - hFdCngEnc->msPeriodog_fx_exp = hFdCngEnc->msPeriodog_fx_exp_fft; - move16(); - - /* Compress MS inputs */ - // compress_range_flt( msPeriodog, msLogPeriodog, npart ); - compress_range( msPeriodog_fx, hFdCngEnc->msPeriodog_fx_exp, msLogPeriodog_fx, npart ); - - - /* Call the minimum statistics routine for noise estimation */ - - minimum_statistics_fx( npart, nFFTpart, psize, msLogPeriodog_fx, hFdCngEnc->msNoiseFloor_fx, msLogNoiseEst_fx, hFdCngEnc->msAlpha_fx, hFdCngEnc->msPsd_fx, hFdCngEnc->msPsdFirstMoment_fx, - hFdCngEnc->msPsdSecondMoment_fx, hFdCngEnc->msMinBuf_fx, hFdCngEnc->msBminWin_fx, hFdCngEnc->msBminSubWin_fx, hFdCngEnc->msCurrentMin_fx, hFdCngEnc->msCurrentMinOut_fx, hFdCngEnc->msCurrentMinSubWindow_fx, hFdCngEnc->msLocalMinFlag, hFdCngEnc->msNewMinFlag, hFdCngEnc->msPeriodogBuf_fx, &( hFdCngEnc->msPeriodogBufPtr ), hFdCngEnc->hFdCngCom, - ENC, ( hCPE == NULL ) ? 0 : hCPE->element_mode ); - - /* Expand MS outputs */ - expand_range( msLogNoiseEst_fx, msNoiseEst_fx, &hFdCngEnc->msNoiseEst_fx_exp, hFdCngEnc->hFdCngCom->npart ); - - return; -} - - -/*-------------------------------------------------------------------* - * FdCng_encodeSID() - * - * Generate a bitstream out of the partition levels - *-------------------------------------------------------------------*/ -void FdCng_encodeSID_ivas_fx( - Encoder_State *st /* i/o: encoder state structure */ -) -{ - Word16 N; - HANDLE_FD_CNG_ENC hFdCngEnc = st->hFdCngEnc; - HANDLE_FD_CNG_COM hFdCngCom = hFdCngEnc->hFdCngCom; - BSTR_ENC_HANDLE hBstr = st->hBstr; - - Word32 *invTrfMatrix_fx, *E_fx; - Word32 tmpRAM_fx[FDCNG_VQ_MAX_LEN][FDCNG_VQ_DCT_MAXTRUNC]; - Word32 v_fx[32], gain_fx, e_fx, temp; - Word16 w_fx[32], indices[32], exp[32]; - Word32 dct_target_fx[FDCNG_VQ_DCT_MAXTRUNC]; - Word32 tot_sig_ext_fx[FDCNG_VQ_MAX_LEN]; - Word16 v_e, gain_q_offset, preemph_fac; - Word16 i, index; - - gain_q_offset = GAIN_Q_OFFSET_IVAS_FX_Q0; - move16(); - - if ( st->element_mode == EVS_MONO ) - { - gain_q_offset = GAIN_Q_OFFSET_EVS_FX_Q0; - move16(); - } - - preemph_fac = st->preemph_fac; // Q15 - move16(); - - /* Init */ - N = hFdCngEnc->npartDec; - move16(); - - E_fx = hFdCngEnc->msNoiseEst_fx; - - invTrfMatrix_fx = (Word32 *) tmpRAM_fx; /* dynamically filled */ - - set_zero_fx( v_fx, FDCNG_VQ_MAX_LEN ); - - /* Convert to LOG */ - e_fx = 0; - move32(); - FOR( i = 0; i < N; i++ ) - { - IF( E_fx[i] == 0 ) - { - /* 10 * log(1e-4) = 10 * (-4) = -40 */ - v_fx[i] = -41943040; // -40.0 in Q20 - move32(); - } - ELSE - { - v_fx[i] = Mpy_32_32( 671088640 /*10 in Q26*/, BASOP_Util_Log10( E_fx[i], hFdCngEnc->msNoiseEst_fx_exp ) ); // Q20 = 26+25-31 - move32(); - } - e_fx = L_add( e_fx, v_fx[i] ); // Q20 - } - - /* Normalize MSVQ input */ - gain_fx = 0; - move32(); - FOR( i = N_GAIN_MIN; i < N_GAIN_MAX; i++ ) - { - gain_fx = L_add( gain_fx, v_fx[i] ); // Q20 - } - - /*gain /= (float) ( N_GAIN_MAX - N_GAIN_MIN );*/ - gain_fx = Mpy_32_32( gain_fx, 165191050 /* 1/13 in Q31*/ ); // Q20 - - FOR( i = 0; i < N; i++ ) - { - v_fx[i] = L_sub( v_fx[i], gain_fx ); // Q20 - move32(); - } - - v_e = 11; // Q20 - move16(); - - /* MSVQ encoder */ - set_val_Word16( w_fx, ONE_IN_Q8, N ); - - IF( st->element_mode != EVS_MONO ) - { - /* DCT domain compressed/truncated indices used for first stage */ - /* quantization with stage1 stored in DCT24 domain, stages 2 through 6 directly dearched - in FDCNG band domain - */ - IF( EQ_16( N, FDCNG_VQ_MAX_LEN_WB ) ) - { - /* truncated DCT21 analysis */ - create_IDCT_N_Matrix_fx( invTrfMatrix_fx, N, FDCNG_VQ_DCT_MAXTRUNC, sizeof( tmpRAM_fx ) / ( sizeof( Word32 ) ) ); // Q31 - - dctT2_N_apply_matrix_fx( v_fx /*Q20*/, dct_target_fx, FDCNG_VQ_DCT_MAXTRUNC, N, invTrfMatrix_fx, FDCNG_VQ_DCT_MAXTRUNC, DCT_T2_21_XX ); // Q20 - - /* truncated IDCT21 extension to 24 bands */ - extend_dctN_input_fx( v_fx, dct_target_fx, N, tot_sig_ext_fx, FDCNG_VQ_MAX_LEN, invTrfMatrix_fx, FDCNG_VQ_DCT_MAXTRUNC, IDCT_T2_XX_21 ); // Q20 - - Copy32( tot_sig_ext_fx, v_fx, FDCNG_VQ_MAX_LEN ); /* write extended result as input to VQ stage #1 */ // Q20 - } - - create_IDCT_N_Matrix_fx( invTrfMatrix_fx, FDCNG_VQ_MAX_LEN, FDCNG_VQ_DCT_MAXTRUNC, sizeof( tmpRAM_fx ) / ( sizeof( Word32 ) ) ); // Q31 - - msvq_enc_ivas_fx( ivas_cdk_37bits_fx, Q7, NULL, NULL, v_fx, v_e, levels_37bits, FD_CNG_maxC_37bits, FD_CNG_stages_37bits, w_fx, N, FD_CNG_maxN_37bits, 1, invTrfMatrix_fx, indices ); - - msvq_dec_fx( ivas_cdk_37bits_fx, NULL, NULL, FD_CNG_stages_37bits, N, FD_CNG_maxN_37bits, indices, 1, invTrfMatrix_fx, v_fx, NULL, 7 ); - - v_e = sub( 31, sub( 20, find_guarded_bits_fx( N ) ) ); - } - ELSE - { /* EVS_MONO tables */ - msvq_enc_ivas_fx( ivas_cdk_37bits_fx, Q7, NULL, NULL, v_fx, v_e, levels_37bits, FD_CNG_maxC_37bits, FD_CNG_stages_37bits, w_fx, N, FD_CNG_maxN_37bits, 0, NULL, indices ); - - msvq_dec_fx( ivas_cdk_37bits_fx, NULL, NULL, FD_CNG_stages_37bits, N, FD_CNG_maxN_37bits, indices, 0, NULL, v_fx, NULL, 7 ); - - v_e = sub( 31, sub( 20, find_guarded_bits_fx( N ) ) ); - } - - /* Compute gain */ - gain_fx = 0; - move32(); - FOR( i = 0; i < N; i++ ) - { - gain_fx = L_add( gain_fx, v_fx[i] ); // Q = 31 - v_e - } - - e_fx = L_shl( e_fx, sub( 11, v_e ) ); // Q = 31 - v_e - gain_fx = Mpy_32_16_1( L_sub( e_fx, gain_fx ), div_s( 1, N ) ); // Q = 31 - v_e - gain_fx = L_shl( gain_fx, sub( v_e, 8 ) ); // Q23 - - /* Apply bitrate-dependant scale */ - IF( st->element_mode > EVS_MONO ) - { - apply_scale( &gain_fx, hFdCngCom->CngBandwidth, hFdCngCom->CngBitrate, scaleTableStereo, SIZE_SCALE_TABLE_STEREO ); - } - ELSE - { - apply_scale( &gain_fx, hFdCngCom->CngBandwidth, hFdCngCom->CngBitrate, scaleTableMono, SIZE_SCALE_TABLE_MONO ); - } - - /* Quantize gain */ - temp = Madd_32_32( L_shl( gain_q_offset, 22 ), gain_fx, 1610612736 /*1.5 in Q30*/ ); // Q22 - index = extract_l( L_shr( L_add( temp, ONE_IN_Q21 ), 22 ) ); // Q0 - - if ( index < 0 ) - { - index = 0; - move16(); - } - - if ( GT_16( index, 127 ) ) - { - index = 127; - move16(); - } - - gain_fx = L_shl( L_mult0( sub( index, gain_q_offset ), 21845 /*1.5 in Q15*/ ), sub( 16, v_e ) ); // Q = 31-v_e - - /* Apply gain and undo log */ - FOR( i = 0; i < N; i++ ) - { - temp = Mpy_32_32( L_add( v_fx[i], gain_fx ), 214748365 /* 0.1 in Q31*/ ); // Q = 31-v_e - hFdCngCom->sidNoiseEst[i] = BASOP_Util_fPow( 10, 31, temp, v_e, &exp[i] ); - move32(); - } - - maximum_s( exp, N, &hFdCngCom->sidNoiseEstExp ); - - FOR( i = 0; i < N; i++ ) - { - hFdCngCom->sidNoiseEst[i] = L_shr( hFdCngCom->sidNoiseEst[i], sub( hFdCngCom->sidNoiseEstExp, exp[i] ) ); // exp = hFdCngCom->sidNoiseEstExp - move32(); - } - - /* NB last band energy compensation */ - IF( hFdCngCom->CngBandwidth == NB ) - { - hFdCngCom->sidNoiseEst[N - 1] = Mpy_32_16_1( hFdCngCom->sidNoiseEst[N - 1], NB_LAST_BAND_SCALE ); // exp(hFdCngCom->sidNoiseEstExp) - move32(); - } - - test(); - IF( EQ_16( hFdCngCom->CngBandwidth, SWB ) && LE_32( hFdCngCom->CngBitrate, ACELP_13k20 ) ) - { - hFdCngCom->sidNoiseEst[N - 1] = Mpy_32_16_1( hFdCngCom->sidNoiseEst[N - 1], SWB_13k2_LAST_BAND_SCALE ); // exp(hFdCngCom->sidNoiseEstExp) - move32(); - } - - /* Write bitstream */ - IF( EQ_16( st->codec_mode, MODE2 ) ) - { - FOR( i = 0; i < FD_CNG_stages_37bits; i++ ) - { - push_next_indice( hBstr, indices[i], bits_37bits[i] ); - } - - push_next_indice( hBstr, index, 7 ); - } - ELSE - { - Word16 is_frame_len_16k = 0; - move16(); - if ( EQ_16( st->L_frame, L_FRAME16k ) ) - { - is_frame_len_16k = 1; - move16(); - } - push_indice( hBstr, IND_SID_TYPE, 1, 1 ); - push_indice( hBstr, IND_BWIDTH, st->bwidth, 2 ); - push_indice( hBstr, IND_ACELP_16KHZ, is_frame_len_16k, 1 ); - - FOR( i = 0; i < FD_CNG_stages_37bits; i++ ) - { - push_indice( hBstr, IND_LSF, indices[i], bits_37bits[i] ); - } - - push_indice( hBstr, IND_ENERGY, index, 7 ); - } - - /* Interpolate the bin/band-wise levels from the partition levels */ - scalebands( hFdCngCom->sidNoiseEst, hFdCngEnc->partDec, hFdCngEnc->npartDec, hFdCngEnc->midbandDec, hFdCngEnc->nFFTpartDec, sub( hFdCngEnc->stopBandDec, hFdCngEnc->startBandDec ), hFdCngCom->cngNoiseLevel, 1 ); - hFdCngCom->cngNoiseLevelExp = hFdCngCom->sidNoiseEstExp; - move16(); - - lpc_from_spectrum( hFdCngCom, hFdCngEnc->startBandDec, hFdCngEnc->stopFFTbinDec, preemph_fac ); - - return; -} - - -/*-------------------------------------------------------------------* - * stereoFdCngCoherence() - * - * compute coherence of channels for use in FD-CNG - *-------------------------------------------------------------------*/ -void stereoFdCngCoherence_fx( - Encoder_State **sts, /* i/o: core encoder structures */ - const Word16 last_element_mode, /* i : last element mode Q0*/ - Word16 fft_buf_fx[CPE_CHANNELS][2 * L_FFT], /* i : fft buffers for L and R channels fft_exp*/ - Word16 fft_exp ) -{ - const Word16 *pt_fftL, *pt_fftR; - Word16 i_subfr, i; - Word32 cr, ci, eL, eR; - Word16 cr_exp, ci_exp, eL_exp, eR_exp; - Word32 *mem; - Word16 *mem_exp; - - IF( NE_16( last_element_mode, IVAS_CPE_MDCT ) ) - { - set32_fx( sts[0]->hFdCngEnc->mem_coherence_fx, EPSILON_FX, 4 ); - set16_fx( sts[0]->hFdCngEnc->mem_coherence_exp, 0, 4 ); - } - test(); - test(); - IF( EQ_32( sts[0]->core_brate, -1 ) || EQ_32( sts[1]->core_brate, -1 ) ) - { - /* case: at least one channel has triggered VAD -> ACTIVE FRAME */ - IF( EQ_32( sts[0]->core_brate, -1 ) ) - { - sts[1]->total_brate = sts[0]->total_brate; /* Q0 */ - move32(); - sts[1]->active_cnt = sts[0]->active_cnt; /* Q0 */ - move16(); - if ( GE_32( sts[1]->active_cnt, CNG_TYPE_HO ) ) - { - sts[1]->last_total_brate_cng = -1; - move16(); - } - } - IF( EQ_32( sts[1]->core_brate, -1 ) ) - { - sts[0]->total_brate = sts[1]->total_brate; /* Q0 */ - move32(); - sts[0]->active_cnt = sts[1]->active_cnt; /* Q0 */ - move16(); - if ( GE_16( sts[0]->active_cnt, CNG_TYPE_HO ) ) - { - sts[0]->last_total_brate_cng = -1; - move16(); - } - } - sts[0]->core_brate = -1; - move32(); - sts[1]->core_brate = -1; - move32(); - sts[0]->hDtxEnc->cnt_SID = 0; - move16(); - sts[1]->hDtxEnc->cnt_SID = 0; - move16(); - } - ELSE IF( LE_32( sts[0]->core_brate, SID_2k40 ) && LE_32( sts[1]->core_brate, SID_2k40 ) ) - { - /* case: no VAD for both channels -> INACTIVE FRAME */ - reset_indices_enc( sts[0]->hBstr, sts[0]->hBstr->nb_ind_tot ); - - reset_indices_enc( sts[1]->hBstr, sts[1]->hBstr->nb_ind_tot ); - - /* synchronize SID sending for variable SID rate */ - IF( EQ_32( sts[0]->core_brate, sts[1]->core_brate ) ) - { - sts[0]->core_brate = SID_2k40; - move32(); - sts[1]->core_brate = SID_2k40; - move32(); - } - - /* synchronize SID counters */ - sts[0]->hDtxEnc->cnt_SID = s_min( sts[0]->hDtxEnc->cnt_SID, sts[1]->hDtxEnc->cnt_SID ); /* Q0 */ - sts[1]->hDtxEnc->cnt_SID = sts[0]->hDtxEnc->cnt_SID; /* Q0 */ - move16(); - move16(); - } - - pt_fftL = fft_buf_fx[0]; - pt_fftR = fft_buf_fx[1]; - mem = sts[0]->hFdCngEnc->mem_coherence_fx; /* exp(sts[0]->hFdCngEnc->mem_coherence_exp) */ - mem_exp = sts[0]->hFdCngEnc->mem_coherence_exp; - FOR( i_subfr = 0; i_subfr < 2; i_subfr++ ) - { - cr = ci = eL = eR = EPSILON_FX; - move32(); - move32(); - move32(); - move32(); - cr_exp = ci_exp = eL_exp = eR_exp = 0; - move16(); - move16(); - move16(); - move16(); - - cr = BASOP_Util_Add_Mant32Exp( cr, cr_exp, L_add( L_mult( pt_fftL[0], pt_fftR[0] ), L_mult( pt_fftL[L_FFT / 2], pt_fftR[L_FFT / 2] ) ), shl( fft_exp, 1 ), &cr_exp ); /* exp(cr_exp) */ - eL = BASOP_Util_Add_Mant32Exp( eL, eL_exp, L_add( L_mult( pt_fftL[0], pt_fftL[0] ), L_mult( pt_fftL[L_FFT / 2], pt_fftL[L_FFT / 2] ) ), shl( fft_exp, 1 ), &eL_exp ); /* exp(eL_exp) */ - eR = BASOP_Util_Add_Mant32Exp( eR, eR_exp, L_add( L_mult( pt_fftR[0], pt_fftR[0] ), L_mult( pt_fftR[L_FFT / 2], pt_fftR[L_FFT / 2] ) ), shl( fft_exp, 1 ), &eR_exp ); /* exp(eR_exp) */ - - FOR( i = 1; i < L_FFT / 2; i++ ) - { - cr = BASOP_Util_Add_Mant32Exp( cr, cr_exp, L_add( L_mult( pt_fftL[i], pt_fftR[i] ), L_mult( pt_fftL[L_FFT - i], pt_fftR[L_FFT - i] ) ), shl( fft_exp, 1 ), &cr_exp ); /* exp(cr_exp) */ - ci = BASOP_Util_Add_Mant32Exp( ci, ci_exp, L_add( L_mult( -pt_fftL[i], pt_fftR[L_FFT - i] ), L_mult( pt_fftL[L_FFT - i], pt_fftR[i] ) ), shl( fft_exp, 1 ), &ci_exp ); /* exp(ci_exp) */ - eL = BASOP_Util_Add_Mant32Exp( eL, eL_exp, L_add( L_mult( pt_fftL[i], pt_fftL[i] ), L_mult( pt_fftL[L_FFT - i], pt_fftL[L_FFT - i] ) ), shl( fft_exp, 1 ), &eL_exp ); /* exp(eL_exp) */ - eR = BASOP_Util_Add_Mant32Exp( eR, eR_exp, L_add( L_mult( pt_fftR[i], pt_fftR[i] ), L_mult( pt_fftR[L_FFT - i], pt_fftR[L_FFT - i] ) ), shl( fft_exp, 1 ), &eR_exp ); /* exp(eR_exp) */ - } - test(); - test(); - IF( LE_32( sts[0]->ini_frame, 50 ) || ( sts[0]->vad_flag == 0 && sts[1]->vad_flag == 0 ) ) - { - mem[0] = BASOP_Util_Add_Mant32Exp( Mpy_32_16_1( mem[0], 31129 /*0.95f*/ ), mem_exp[0], Mpy_32_16_1( cr, 1638 /*0.05f*/ ), cr_exp, &mem_exp[0] ); /* exp(mem_exp[0]) */ - move32(); - mem[1] = BASOP_Util_Add_Mant32Exp( Mpy_32_16_1( mem[1], 31129 /*0.95f*/ ), mem_exp[1], Mpy_32_16_1( ci, 1638 /*0.05f*/ ), ci_exp, &mem_exp[1] ); /* exp(mem_exp[1]) */ - move32(); - mem[2] = BASOP_Util_Add_Mant32Exp( Mpy_32_16_1( mem[2], 31129 /*0.95f*/ ), mem_exp[2], Mpy_32_16_1( eL, 1638 /*0.05f*/ ), eL_exp, &mem_exp[2] ); /* exp(mem_exp[2]) */ - move32(); - mem[3] = BASOP_Util_Add_Mant32Exp( Mpy_32_16_1( mem[3], 31129 /*0.95f*/ ), mem_exp[3], Mpy_32_16_1( eR, 1638 /*0.05f*/ ), eR_exp, &mem_exp[3] ); /* exp(mem_exp[3]) */ - move32(); - } - - pt_fftL += L_FFT; - pt_fftR += L_FFT; - } - - Word16 sqr_inp, temp, sqr_out, sqr_inp_exp; - Word32 sqr_inp32 = BASOP_Util_Add_Mant32Exp( Mpy_32_32( mem[0], mem[0] ), shl( mem_exp[0], 1 ), Mpy_32_32( mem[1], mem[1] ), shl( mem_exp[1], 1 ), &sqr_inp_exp ); /* exp(sqr_inp_exp) */ - sqr_inp = BASOP_Util_Divide3232_Scale( sqr_inp32, Mpy_32_32( mem[2], mem[3] ), &temp ); - sqr_inp_exp = add( temp, sub( sqr_inp_exp, add( mem_exp[2], mem_exp[3] ) ) ); - sqr_out = Sqrt16( sqr_inp, &sqr_inp_exp ); - sts[0]->hFdCngEnc->hFdCngCom->coherence_fx = shl_sat( sqr_out, sqr_inp_exp ); // Q15 expected. - move16(); - return; -} - -/*-------------------------------------------------------------------* - * FdCngEncodeMDCTStereoSID() - * - * Encode DTX parameters and noise shapes into SID for MDCT-Stereo DTX - *-------------------------------------------------------------------*/ - -void FdCngEncodeMDCTStereoSID_fx( - CPE_ENC_HANDLE hCPE /* i/o: CPE encoder state structure */ -) -{ - ENC_CORE_HANDLE sts[CPE_CHANNELS]; - Word16 indices[CPE_CHANNELS][FD_CNG_stages_37bits]; - Word16 gain_idx[CPE_CHANNELS]; - Word16 N, stages, ch, p, coh_idx; - Word32 *lr_in_ptr_fx[CPE_CHANNELS]; - Word16 lr_in_ptr_e[CPE_CHANNELS]; - Word32 *ms_ptr_fx[CPE_CHANNELS]; - Word16 ms_ptr_e; - Word32 *lr_out_ptr_fx[CPE_CHANNELS]; - Word16 lr_out_ptr_e[CPE_CHANNELS]; - Word32 logNoiseEst_fx[CPE_CHANNELS][NPART]; - Word32 E_fx[CPE_CHANNELS]; - Word32 gain_fx[CPE_CHANNELS]; - Word16 weights_fx[NPART]; - Word32 side_energy_fx; - Word16 Qside_energy; - Word32 *invTrfMatrix_fx; - Word32 tmpRAM_fx[FDCNG_VQ_MAX_LEN][FDCNG_VQ_DCT_MAXTRUNC]; /*24*18*/ - invTrfMatrix_fx = (Word32 *) tmpRAM_fx; /* dynamically filled */ - Word32 tot_sig_ext_fx[FDCNG_VQ_MAX_LEN], dct_target_fx[CPE_CHANNELS][FDCNG_VQ_DCT_MAXTRUNC]; /* 24 +2*18*/ - Word16 tmp, tmp_e; - Word16 no_side_flag; - Word16 is_inp_ms; - Word16 size_value, temp_e, gb, shift; - Word32 tmp32, t1, t2; - - is_inp_ms = 0; - move16(); - IF( EQ_16( hCPE->hCoreCoder[0]->cng_sba_flag, 1 ) ) - { - is_inp_ms = 1; - move16(); - } - - /* set pointers and initialize */ - FOR( ch = 0; ch < CPE_CHANNELS; ch++ ) - { - sts[ch] = hCPE->hCoreCoder[ch]; - lr_in_ptr_fx[ch] = &sts[ch]->hFdCngEnc->msNoiseEst_fx[0]; /* exp(sts[ch]->hFdCngEnc->msNoiseEst_fx_exp) */ - lr_in_ptr_e[ch] = sts[ch]->hFdCngEnc->msNoiseEst_fx_exp; - ms_ptr_fx[ch] = &logNoiseEst_fx[ch][0]; - lr_out_ptr_fx[ch] = &sts[ch]->hFdCngEnc->hFdCngCom->sidNoiseEst[0]; /* exp(sts[ch]->hFdCngEnc->hFdCngCom->sidNoiseEstExp) */ - lr_out_ptr_e[ch] = sts[ch]->hFdCngEnc->hFdCngCom->sidNoiseEstExp; - } - N = sts[0]->hFdCngEnc->npartDec; /* Q0 */ - move16(); - set16_fx( weights_fx, ONE_IN_Q8, NPART ); - - /* apply log and save energy of original left and right channels */ - FOR( ch = 0; ch < CPE_CHANNELS; ch++ ) - { - // E[ch] = 0.0f; - E_fx[ch] = 0; - move32(); - FOR( p = 0; p < N; p++ ) - { - IF( lr_in_ptr_fx[ch][p] ) - { - t1 = BASOP_Util_Log2( lr_in_ptr_fx[ch][p] ); // Q25 - t2 = L_add( t1, L_shl( lr_in_ptr_e[ch], Q25 ) ); // Q25 - } - ELSE - { - t2 = 0; - move32(); - } - ms_ptr_fx[ch][p] = Mpy_32_32( t2, TEN_MULT_LOG10_2_IN_Q29 ); // Q23 - move32(); - E_fx[ch] = L_add( E_fx[ch], L_shr( ms_ptr_fx[ch][p], 4 ) ); // Q19 - move32(); - } - } - ms_ptr_e = Q31 - Q23; - move16(); - - /* M/S transform on log envelopes */ - IF( is_inp_ms == 0 ) - { - convertToMS_fx( N, ms_ptr_fx[0], ms_ptr_fx[1], ONE_IN_Q30 ); // ms_ptr_e = Q23; - } - - gb = find_guarded_bits_fx( N ); - side_energy_fx = sum2_f_32_fx( ms_ptr_fx[1], N, gb ); - Qside_energy = sub( sub( shl( sub( 31, ms_ptr_e ), 1 ), 31 ), gb ); - - /* do not transmit side shape if initial noise shapes are very similar */ - IF( LE_32( side_energy_fx, L_shl( 214748365, sub( Qside_energy, Q31 ) ) ) ) - { - no_side_flag = 1; - move16(); - } - ELSE - { - no_side_flag = 0; - move16(); - } - - /* Quantize noise shapes */ - FOR( ch = 0; ch < CPE_CHANNELS; ch++ ) - { - /* Normalize MSVQ input */ - gain_fx[ch] = 0; - move32(); - FOR( p = N_GAIN_MIN; p < N_GAIN_MAX; p++ ) - { - tmp32 = Mpy_32_32( ms_ptr_fx[ch][p], 165191050 /* 0.07 in Q31*/ ); // Q23 - gain_fx[ch] = L_add( gain_fx[ch], tmp32 ); // Q23 - move32(); - } - - FOR( p = 0; p < N; p++ ) - { - ms_ptr_fx[ch][p] = L_sub( ms_ptr_fx[ch][p], gain_fx[ch] ); // Q23 - move32(); - } - } - - /* always split channel targetloop */ - - /* extend fdcng envelope from length 21 to a 24 length fdncg domain envelope signal */ - /* High quality cosine smooth basis extension used to not introduce noise in stage#1 DCT24 analysis and subsequent VQ-steps */ - IF( EQ_16( N, FDCNG_VQ_MAX_LEN_WB ) ) - { - size_value = BASOP_Util_Divide1616_Scale( sizeof( tmpRAM_fx ), ( sizeof( Word32 ) ), &temp_e ); /*Q15*/ - size_value = shr( size_value, sub( 15, temp_e ) ); - create_IDCT_N_Matrix_fx( invTrfMatrix_fx, N, FDCNG_VQ_DCT_MAXTRUNC, size_value ); // Q31 /*WB: create truncated IDCT21 matrix */ - for ( ch = 0; ch < CPE_CHANNELS; ch++ ) - { - /* run DCT_N N==21 , truncated at 18/21 ~= 86% , i.e use a bit better better quality in extrapolation , than subsequent DCT24 analysis which is truncated at 75%*/ - /* truncated DCT 21 analysis */ - dctT2_N_apply_matrix_fx( (const Word32 *) ms_ptr_fx[ch], dct_target_fx[ch], FDCNG_VQ_DCT_MAXTRUNC, N, invTrfMatrix_fx, FDCNG_VQ_DCT_MAXTRUNC, DCT_T2_21_XX ); - /* extrapolate extend fdcng envelope signal in the fdncg ienvelope/"time" domain using DCT21 basis vectors, - estimated DCT21 coeffs scaling extended basis vectors are used to create extrapolated length 24 input target envelope signal */ - /* this DCT21 extension does not introduce DCT24 coefficient noise for the subsequent dct24 target analysis, and later in IDCT24 synthesis */ - - /* truncated IDCT 21 extension synthesis */ - extend_dctN_input_fx( ms_ptr_fx[ch], dct_target_fx[ch], N, tot_sig_ext_fx, FDCNG_VQ_MAX_LEN, invTrfMatrix_fx /* DCT_N basis vectors */, FDCNG_VQ_DCT_MAXTRUNC, IDCT_T2_XX_21 ); /* use 18 basis vectors*/ - - Copy32( tot_sig_ext_fx, ms_ptr_fx[ch], FDCNG_VQ_MAX_LEN ); /* write extended result as input to VQ */ - } - } - - size_value = BASOP_Util_Divide1616_Scale( sizeof( tmpRAM_fx ), ( sizeof( Word32 ) ), &temp_e ); /*Q15*/ - size_value = shr( size_value, sub( 15, temp_e ) ); - create_IDCT_N_Matrix_fx( invTrfMatrix_fx, FDCNG_VQ_MAX_LEN, FDCNG_VQ_DCT_MAXTRUNC, size_value ); /*always create/set up IDCT24 matrix in RAM */ - - /* end split */ - FOR( ch = 0; ch < CPE_CHANNELS; ch++ ) - { - /* MSVQ */ - IF( ch ) - { - stages = FD_CNG_JOINT_stages_25bits; - move16(); - } - ELSE - { - stages = FD_CNG_stages_37bits; - move16(); - } - - /* DCT24 domain compressed/truncated indices used for first stage */ - /* mid channel quantization using stages 1 through 6 */ - /* & side channel quantization using stages 1 through 4 */ - - { - msvq_enc_ivas_fx( ivas_cdk_37bits_fx, Q7, NULL, NULL, ms_ptr_fx[ch], ms_ptr_e, levels_37bits, FD_CNG_maxC_37bits, stages, weights_fx, N, FD_CNG_maxN_37bits, 1, invTrfMatrix_fx, indices[ch] ); - msvq_dec_fx( ivas_cdk_37bits_fx, NULL, NULL, stages, N, FD_CNG_maxN_37bits, indices[ch], 1, invTrfMatrix_fx, ms_ptr_fx[ch], NULL, 7 ); - } - } - shift = find_guarded_bits_fx( N ); - ms_ptr_e = sub( 31, sub( 20, shift ) ); - - IF( no_side_flag ) - { - set32_fx( ms_ptr_fx[1], 0, N ); - } - - /* undo M/S */ - IF( is_inp_ms == 0 ) - { - convertToMS_fx( N, ms_ptr_fx[0], ms_ptr_fx[1], ONE_IN_Q31 ); - } - - /* Compute gain against original left and right channels */ - FOR( ch = 0; ch < CPE_CHANNELS; ch++ ) - { - gain_fx[ch] = 0; - move32(); - - tmp_e = 15; - move16(); - tmp = Inv16( N, &tmp_e ); - FOR( p = 0; p < N; p++ ) - { - gain_fx[ch] = L_add( gain_fx[ch], Mpy_32_16_1( ms_ptr_fx[ch][p], shl( tmp, tmp_e ) ) ); // Q23 - move32(); - } - gain_fx[ch] = L_sub( L_shl( Mpy_32_16_1( E_fx[ch], shl( tmp, tmp_e ) ), Q23 - Q19 ), L_shl( gain_fx[ch], sub( ms_ptr_e, 8 ) ) ); // Q23 - move32(); - - apply_scale( &gain_fx[ch], sts[ch]->hFdCngEnc->hFdCngCom->CngBandwidth, sts[ch]->element_brate, scaleTableStereo, SIZE_SCALE_TABLE_STEREO ); - - /* quantize gain */ - gain_idx[ch] = (Word16) Mpy_32_32_r( L_add( gain_fx[ch], 251658240 ), 384 ); // Q23 - move16(); - gain_idx[ch] = s_max( 0, s_min( 127, gain_idx[ch] ) ); - move16(); - - gain_fx[ch] = Mpy_32_16_1( L_shl( sub( gain_idx[ch], GAIN_Q_OFFSET_IVAS_FX_Q0 ), 23 ), 21845 ); // Q23 - move32(); - } - - /* restore channel noise envelopes */ - FOR( ch = 0; ch < CPE_CHANNELS; ch++ ) - { - HANDLE_FD_CNG_ENC hFdCngEnc = sts[ch]->hFdCngEnc; - HANDLE_FD_CNG_COM hFdCngCom = hFdCngEnc->hFdCngCom; - - tmp_e = 0; - move16(); - Word32 pow; - - Word16 e_lr_out[NPART]; - - FOR( p = 0; p < N; p++ ) - { - pow = L_shl( gain_fx[ch], 8 - ms_ptr_e ); - pow = L_add( ms_ptr_fx[ch][p], pow ); - pow = Mpy_32_32( pow, 214748365 ); /*pow = 0.1*/ - lr_out_ptr_fx[ch][p] = BASOP_Util_fPow( 10, 31, pow, ms_ptr_e, &e_lr_out[p] ); - move32(); - tmp_e = s_max( tmp_e, e_lr_out[p] ); - } - - FOR( p = 0; p < N; p++ ) - { - lr_out_ptr_fx[ch][p] = L_shl( lr_out_ptr_fx[ch][p], e_lr_out[p] - tmp_e ); - move32(); - } - lr_out_ptr_e[ch] = tmp_e; - move32(); - - sts[ch]->hFdCngEnc->hFdCngCom->sidNoiseEstExp = tmp_e; - move16(); - - /* scale bands and get scalefactors */ - scalebands( lr_out_ptr_fx[ch], hFdCngEnc->partDec, N, hFdCngEnc->midbandDec, hFdCngEnc->nFFTpartDec, sub( hFdCngEnc->stopBandDec, hFdCngEnc->startBandDec ), hFdCngCom->cngNoiseLevel, 1 ); - hFdCngCom->cngNoiseLevelExp = lr_out_ptr_e[ch]; - move16(); - - lpc_from_spectrum( hFdCngCom, hFdCngEnc->startBandDec, hFdCngEnc->stopFFTbinDec, sts[ch]->preemph_fac ); - - sts[ch]->hDtxEnc->last_CNG_L_frame = sts[ch]->L_frame; - } - - /* quantize channel coherence */ - coh_idx = mult_r( sts[0]->hFdCngEnc->hFdCngCom->coherence_fx, 15 ); - coh_idx = max( 0, min( coh_idx, 15 ) ); - - /* ---- Write SID bitstream ---- */ - - - /* noise shapes and channel gains */ - FOR( ch = 0; ch < CPE_CHANNELS; ch++ ) - { - IF( ch ) - { - stages = FD_CNG_JOINT_stages_25bits; - sts[ch]->hBstr->ind_list = sts[0]->hBstr->ind_list + sts[0]->hBstr->nb_ind_tot; - - /* side info */ - push_indice( sts[ch]->hBstr, IND_SID_TYPE, coh_idx, 4 ); - push_indice( sts[ch]->hBstr, IND_SID_TYPE, no_side_flag, 1 ); - } - ELSE - { - stages = FD_CNG_stages_37bits; - /* side info */ - push_indice( sts[ch]->hBstr, IND_SID_TYPE, 1, 1 ); - push_indice( sts[ch]->hBstr, IND_BWIDTH, sts[0]->bwidth, 2 ); - push_indice( sts[ch]->hBstr, IND_ACELP_16KHZ, sts[0]->L_frame == L_FRAME16k ? 1 : 0, 1 ); - } - - FOR( Word16 i = 0; i < stages; i++ ) - { - push_indice( sts[ch]->hBstr, IND_LSF, indices[ch][i], bits_37bits[i] ); - } - push_indice( sts[ch]->hBstr, IND_ENERGY, gain_idx[ch], 7 ); - } - - /* pad with zeros to reach common SID frame size */ - push_indice( sts[1]->hBstr, IND_ENERGY, 0, ( IVAS_SID_5k2 - 4400 ) / FRAMES_PER_SEC ); - - return; -} - -/*-------------------------------------------------------------------* - * FdCngEncodeDiracMDCTStereoSID() - * - * Encode DTX parameters and noise shapes into SID for MDCT-Stereo DTX - * together with Dirac - *-------------------------------------------------------------------*/ - -void FdCngEncodeDiracMDCTStereoSID_fx( - CPE_ENC_HANDLE hCPE /* i/o: CPE encoder state structure */ -) -{ - ENC_CORE_HANDLE sts[CPE_CHANNELS]; - Word32 *lr_in_ptr_fx[CPE_CHANNELS]; - Word16 lr_in_ptr_e[CPE_CHANNELS]; - Word32 *ms_ptr_fx[CPE_CHANNELS]; - Word16 ms_ptr_e; - Word32 *lr_out_ptr_fx[CPE_CHANNELS]; - Word16 lr_out_ptr_e[CPE_CHANNELS]; - Word32 logNoiseEst_fx[CPE_CHANNELS][NPART]; - Word32 E_fx[CPE_CHANNELS]; - Word32 gain_fx[CPE_CHANNELS]; - Word16 weights_fx[NPART]; - Word16 N[CPE_CHANNELS]; - Word16 indices[CPE_CHANNELS][FD_CNG_stages_37bits]; - Word16 gain_idx[CPE_CHANNELS]; - Word16 ch, p; - Word16 tmp, tmp_e, shift; - Word32 *invTrfMatrix_fx; - Word32 tmpRAM_fx[FDCNG_VQ_MAX_LEN][FDCNG_VQ_DCT_MAXTRUNC]; - Word32 dct_target_fx[FDCNG_VQ_DCT_MAXTRUNC]; - Word32 tot_sig_ext_fx[FDCNG_VQ_MAX_LEN]; - invTrfMatrix_fx = (Word32 *) tmpRAM_fx; /* dynamically filled */ - Word32 t1, t2, tmp32; - /* set pointers and initialize */ - - FOR( ch = 0; ch < CPE_CHANNELS; ch++ ) - { - sts[ch] = hCPE->hCoreCoder[ch]; - N[ch] = sts[ch]->hFdCngEnc->npartDec; - lr_in_ptr_fx[ch] = &sts[ch]->hFdCngEnc->msNoiseEst_fx[0]; - lr_in_ptr_e[ch] = sts[ch]->hFdCngEnc->msNoiseEst_fx_exp; - ms_ptr_fx[ch] = &logNoiseEst_fx[ch][0]; - lr_out_ptr_fx[ch] = &sts[ch]->hFdCngEnc->hFdCngCom->sidNoiseEst[0]; - lr_out_ptr_e[ch] = sts[ch]->hFdCngEnc->hFdCngCom->sidNoiseEstExp; - move16(); - } - set16_fx( weights_fx, ONE_IN_Q8, NPART ); - - /* apply log and save energy of original left and right channels */ - FOR( ch = 0; ch < CPE_CHANNELS; ch++ ) - { - // E[ch] = 0.0f; - E_fx[ch] = 0; - move32(); - FOR( p = 0; p < N[ch]; p++ ) - { - t1 = BASOP_Util_Log2( lr_in_ptr_fx[ch][p] + EPSILLON_FX ); // Q25 - t2 = L_add( t1, L_shl( lr_in_ptr_e[ch], Q25 ) ); // Q25 - ms_ptr_fx[ch][p] = Mpy_32_32( t2, TEN_MULT_LOG10_2_IN_Q29 ); // Q23 - move32(); - E_fx[ch] = L_add( E_fx[ch], L_shr( ms_ptr_fx[ch][p], 5 ) ); // Q18 - move32(); - } - } - ms_ptr_e = Q31 - Q23; - move16(); - - /* M/S transform on log envelopes */ - convertToMS_fx( N[0], ms_ptr_fx[0], ms_ptr_fx[1], ONE_IN_Q30 ); - E_fx[0] = 0; - move32(); - FOR( p = 0; p < N[0]; p++ ) - { - E_fx[0] = L_add( E_fx[0], L_shr( ms_ptr_fx[0][p], 5 ) ); // Q18 - move32(); - } - - /* Quantize M noise shape */ - /* Normalize MSVQ input */ - gain_fx[0] = 0; - move16(); - FOR( p = N_GAIN_MIN; p < N_GAIN_MAX; p++ ) - { - tmp32 = Mpy_32_32( ms_ptr_fx[0][p], 165191050 /* 0.07 in Q31 */ ); // Q23 - gain_fx[0] = L_add( gain_fx[0], tmp32 ); // Q23 - move32(); - } - - FOR( p = 0; p < N[0]; p++ ) - { - ms_ptr_fx[0][p] = L_sub( ms_ptr_fx[0][p], gain_fx[0] ); // Q23 - move32(); - } - - - /* MSVQ */ - /* DCT domain compressed/truncated indices used for first stage */ - /* mid quantization using stages #1 through 6 */ - scale_sig32( ms_ptr_fx[0], N[0], -6 ); - ms_ptr_e = add( ms_ptr_e, 6 ); - move16(); - IF( EQ_16( N[0], FDCNG_VQ_MAX_LEN_WB ) ) - { - create_IDCT_N_Matrix_fx( invTrfMatrix_fx, N[0], FDCNG_VQ_DCT_MAXTRUNC, sizeof( tmpRAM_fx ) / ( sizeof( Word32 ) ) ); - /* truncated DCT 21 analysis */ - dctT2_N_apply_matrix_fx( (const Word32 *) ms_ptr_fx[0], dct_target_fx, FDCNG_VQ_DCT_MAXTRUNC, N[0], invTrfMatrix_fx, FDCNG_VQ_DCT_MAXTRUNC, DCT_T2_21_XX ); - /* truncated IDCT21 extension to 24 synthesis */ - - extend_dctN_input_fx( ms_ptr_fx[0], dct_target_fx, N[0], tot_sig_ext_fx, FDCNG_VQ_MAX_LEN, invTrfMatrix_fx, FDCNG_VQ_DCT_MAXTRUNC, IDCT_T2_XX_21 ); /* use 18 basis vectors*/ - - Copy32( tot_sig_ext_fx, ms_ptr_fx[0], FDCNG_VQ_MAX_LEN ); /* write extended result as input to VQ stage #1 Q23*/ - } - create_IDCT_N_Matrix_fx( invTrfMatrix_fx, FDCNG_VQ_MAX_LEN, FDCNG_VQ_DCT_MAXTRUNC, sizeof( tmpRAM_fx ) / ( sizeof( Word32 ) ) ); - - msvq_enc_ivas_fx( ivas_cdk_37bits_fx, Q7, NULL, NULL, ms_ptr_fx[0], ms_ptr_e, levels_37bits, FD_CNG_maxC_37bits, FD_CNG_stages_37bits, weights_fx, N[0], FD_CNG_maxN_37bits, 1, invTrfMatrix_fx, indices[0] ); - msvq_dec_fx( ivas_cdk_37bits_fx, NULL, NULL, FD_CNG_stages_37bits, N[0], FD_CNG_maxN_37bits, indices[0], 1, invTrfMatrix_fx, ms_ptr_fx[0], NULL, 7 ); - shift = find_guarded_bits_fx( N[0] ); - ms_ptr_e = sub( 31, sub( 20, shift ) ); - scale_sig32( ms_ptr_fx[1], N[1], sub( 8, ms_ptr_e ) ); /* Q31 - ms_ptr_e */ - - /* set S to zero */ - set32_fx( ms_ptr_fx[1], 0, NPART ); - - /* compute M gain */ - gain_fx[0] = 0; - move32(); - tmp_e = 15; - move16(); - tmp = Inv16( N[0], &tmp_e ); - FOR( p = 0; p < N[0]; p++ ) - { - gain_fx[0] = L_add( gain_fx[0], Mpy_32_16_1( ms_ptr_fx[0][p], shl( tmp, tmp_e ) ) ); // Q23 - move32(); - } - gain_fx[0] = L_sub( L_shl( Mpy_32_16_1( E_fx[0], shl( tmp, tmp_e ) ), Q23 - Q18 ), L_shl( gain_fx[0], ms_ptr_e - 8 ) ); // Q23 - move32(); - - apply_scale( &gain_fx[0], sts[0]->hFdCngEnc->hFdCngCom->CngBandwidth, sts[0]->hDtxEnc->last_active_brate, scaleTableStereo, SIZE_SCALE_TABLE_STEREO ); - - /* quantize gain */ - gain_idx[0] = extract_l( Mpy_32_32_r( L_add( gain_fx[0], 251658240 ), 384 ) ); - move16(); - gain_idx[0] = s_max( 0, s_min( 127, gain_idx[0] ) ); - move16(); - - gain_fx[0] = Mpy_32_16_1( L_shl( sub( gain_idx[0], GAIN_Q_OFFSET_IVAS_FX_Q0 ), 23 ), 21845 /* 0.66 in Q15 */ ); // Q23 - move32(); - gain_fx[1] = gain_fx[0]; // Q23 - move32(); - - /* undo M/S */ - convertToMS_fx( NPART, ms_ptr_fx[0], ms_ptr_fx[1], ONE_IN_Q31 ); - - /* restore channel noise envelopes */ - FOR( ch = 0; ch < CPE_CHANNELS; ch++ ) - { - HANDLE_FD_CNG_ENC hFdCngEnc = sts[ch]->hFdCngEnc; - HANDLE_FD_CNG_COM hFdCngCom = hFdCngEnc->hFdCngCom; - - Word32 pow; - Word16 e_lr_out[NPART]; - tmp_e = -MAX_16; - FOR( p = 0; p < N[ch]; p++ ) - { - pow = L_shl( gain_fx[ch], sub( 8, ms_ptr_e ) ); /* Q31 - ms_ptr_e */ - pow = L_add( ms_ptr_fx[ch][p], pow ); /* Q31 - ms_ptr_e */ - pow = Mpy_32_32( pow, 214748365 /* 0.1 in Q31 */ ); /*pow = 0.1 Q31 - ms_ptr_e*/ - lr_out_ptr_fx[ch][p] = BASOP_Util_fPow( 10, 31, pow, ms_ptr_e, &e_lr_out[p] ); - tmp_e = s_max( tmp_e, e_lr_out[p] ); - } - - FOR( p = 0; p < N[ch]; p++ ) - { - lr_out_ptr_fx[ch][p] = L_shl( lr_out_ptr_fx[ch][p], sub( e_lr_out[p], tmp_e ) ); // Q(31 - tmp_e) - } - - sts[ch]->hFdCngEnc->hFdCngCom->sidNoiseEstExp = tmp_e; - move16(); - lr_out_ptr_e[ch] = tmp_e; - move16(); - - /* NB last band energy compensation */ - IF( hFdCngCom->CngBandwidth == NB ) - { - lr_out_ptr_fx[ch][N[ch] - 1] = Mpy_32_16_1( lr_out_ptr_fx[ch][N[ch] - 1], NB_LAST_BAND_SCALE ); // Q(31 - tmp_e) - move32(); - } - ELSE IF( hFdCngCom->CngBandwidth == SWB && LE_32( hFdCngCom->CngBitrate, ACELP_13k20 ) ) - { - lr_out_ptr_fx[ch][N[ch] - 1] = Mpy_32_16_1( lr_out_ptr_fx[ch][N[ch] - 1], SWB_13k2_LAST_BAND_SCALE ); // Q(31 - tmp_e) - move32(); - } - /* scale bands and get scalefactors */ - scalebands( lr_out_ptr_fx[ch], hFdCngEnc->partDec, N[ch], hFdCngEnc->midbandDec, hFdCngEnc->nFFTpartDec, sub( hFdCngEnc->stopBandDec, hFdCngEnc->startBandDec ), hFdCngCom->cngNoiseLevel, 1 ); - hFdCngCom->cngNoiseLevelExp = lr_out_ptr_e[ch]; - move16(); - lpc_from_spectrum( hFdCngCom, hFdCngEnc->startBandDec, hFdCngEnc->stopFFTbinDec, sts[ch]->preemph_fac ); - sts[ch]->hDtxEnc->last_CNG_L_frame = sts[ch]->L_frame; - } - sts[0]->hFdCngEnc->hFdCngCom->coherence_fx = 0; - move16(); - sts[1]->hFdCngEnc->hFdCngCom->coherence_fx = 0; - move16(); - - /* ---- Write SID bitstream ---- */ - - /* side info */ - push_indice( sts[0]->hBstr, IND_SID_TYPE, 1, 1 ); - push_indice( sts[0]->hBstr, IND_BWIDTH, sts[0]->bwidth, 2 ); - IF( EQ_16( sts[0]->L_frame, L_FRAME16k ) ) - { - push_indice( sts[0]->hBstr, IND_ACELP_16KHZ, 1, 1 ); - } - ELSE - { - push_indice( sts[0]->hBstr, IND_ACELP_16KHZ, 0, 1 ); - } - - /* noise shapes and channel gains */ - FOR( Word16 i = 0; i < FD_CNG_stages_37bits; i++ ) - { - push_indice( sts[0]->hBstr, IND_LSF, indices[0][i], bits_37bits[i] ); - } - push_indice( sts[0]->hBstr, IND_ENERGY, gain_idx[0], 7 ); - - return; -} diff --git a/lib_enc/fd_cng_enc_fx.c b/lib_enc/fd_cng_enc_fx.c index d5be64f77daaf026dd2c967b1a30830764634c6f..a7339e65334a0964eaeecdfd2a4fa1c3c9a35a9a 100644 --- a/lib_enc/fd_cng_enc_fx.c +++ b/lib_enc/fd_cng_enc_fx.c @@ -11,9 +11,9 @@ #include "rom_com_fx.h" #include "rom_com.h" #include "rom_enc.h" -#include "prot.h" #include "prot_fx.h" #include "prot_fx_enc.h" +#include "ivas_prot_fx.h" #include "basop_util.h" #include "rom_basop_util.h" @@ -1057,19 +1057,6 @@ void FdCng_encodeSID_fx( HANDLE_FD_CNG_ENC stenc, /* i/o: pointer to FD_CNG stru BSTR_ENC_HANDLE hBstr = corest->hBstr; HANDLE_FD_CNG_COM st; Word16 maxC_37bits = FD_CNG_maxC_37bits, stages_37bits = FD_CNG_stages_37bits, maxN_37bits = FD_CNG_maxN_37bits; -#ifdef IVAS_CODE_CNG - float *invTrfMatrix; - float tmpRAM[FDCNG_VQ_MAX_LEN][FDCNG_VQ_DCT_MAXTRUNC]; - float dct_target[FDCNG_VQ_DCT_MAXTRUNC]; - float tot_sig_ext[FDCNG_VQ_MAX_LEN]; - const float gain_q_offset = ( st->element_mode == EVS_MONO ) ? GAIN_Q_OFFSET_EVS : GAIN_Q_OFFSET_IVAS; - /* Init */ - N = hFdCngEnc->npartDec; - - invTrfMatrix = (float *) tmpRAM; /* dynamically filled */ - set_zero( v, FDCNG_VQ_MAX_LEN ); -#endif - /* Init */ st = stenc->hFdCngCom; @@ -1119,29 +1106,6 @@ void FdCng_encodeSID_fx( HANDLE_FD_CNG_ENC stenc, /* i/o: pointer to FD_CNG stru v16[i] = extract_h( L_sub( v[i], gain ) ); } -#ifdef IVAS_CODE_CNG - IF( st->element_mode != EVS_MONO ) - { - /* DCT domain compressed/truncated indices used for first stage */ - /* quantization with stage1 stored in DCT24 domain, stages 2 through 6 directly dearched - in FDCNG band domain - */ - if ( N == FDCNG_VQ_MAX_LEN_WB ) - { - create_IDCT_N_Matrix( invTrfMatrix, N, FDCNG_VQ_DCT_MAXTRUNC, sizeof( tmpRAM ) / ( sizeof( float ) ) ); - /* truncated DCT21 analysis */ - dctT2_N_apply_matrix( (const float *) v, dct_target, FDCNG_VQ_DCT_MAXTRUNC, N, invTrfMatrix, FDCNG_VQ_DCT_MAXTRUNC, DCT_T2_21_XX ); - /* truncated IDCT21 extension to 24 bands */ - extend_dctN_input( v, dct_target, N, tot_sig_ext, FDCNG_VQ_MAX_LEN, invTrfMatrix, FDCNG_VQ_DCT_MAXTRUNC, IDCT_T2_XX_21 ); - - mvr2r( tot_sig_ext, v, FDCNG_VQ_MAX_LEN ); /* write extended result as input to VQ stage #1 */ - } - create_IDCT_N_Matrix( invTrfMatrix, FDCNG_VQ_MAX_LEN, FDCNG_VQ_DCT_MAXTRUNC, sizeof( tmpRAM ) / ( sizeof( float ) ) ); - msvq_enc_fx( cdk_37bits_ivas, NULL, NULL, v, levels_37bits, FD_CNG_maxC_37bits, FD_CNG_stages_37bits, w, N, FD_CNG_maxN_37bits, 1, invTrfMatrix, indices ); - msvq_dec( cdk_37bits_ivas, NULL, NULL, FD_CNG_stages_37bits, N, FD_CNG_maxN_37bits, indices, 1, invTrfMatrix, v, NULL ); - } - ELSE -#endif { /* MSVQ encoder */ msvq_encoder( cdk_37bits, v16, levels_37bits, maxC_37bits, stages_37bits, N, maxN_37bits, indices ); @@ -1165,28 +1129,14 @@ void FdCng_encodeSID_fx( HANDLE_FD_CNG_ENC stenc, /* i/o: pointer to FD_CNG stru /* Apply bitrate-dependant scale */ -#ifdef IVAS_CODE_CNG - if ( st->element_mode > EVS_MONO ) - { - apply_scale( &gain, hFdCngCom->CngBandwidth, hFdCngCom->CngBitrate, scaleTableStereo, SIZE_SCALE_TABLE_STEREO ); - } - else -#endif { apply_scale( &gain, st->CngBandwidth, st->CngBitrate, scaleTableMono, SIZE_SCALE_TABLE_MONO ); } -#ifdef IVAS_CODE_CNG - /* Quantize gain, Q14.23 format */ - gain = L_add( gain, L_shr( gain, 1 ) ); - gain = L_add( gain, gain_q_offset /*gain_q_offset+.5 Q23*/ ); - index = extract_l( L_shr( gain, WORD32_BITS - 1 - 8 ) ); -#else /* Quantize gain, Q14.23 format */ gain = L_add( gain, L_shr( gain, 1 ) ); gain = L_add( gain, 507510784l /*60.5 Q23*/ ); index = extract_l( L_shr( gain, WORD32_BITS - 1 - 8 ) ); -#endif if ( index < 0 ) { @@ -1199,17 +1149,11 @@ void FdCng_encodeSID_fx( HANDLE_FD_CNG_ENC stenc, /* i/o: pointer to FD_CNG stru index = 127; move16(); } -#ifndef IVAS_CODE_CNG + /* gain Q14.23 format */ gain = L_shl( L_deposit_l( index ), WORD32_BITS - 1 - 8 ); gain = L_sub( gain, 503316480l /*60.0 Q23*/ ); gain = Mpy_32_16_1( gain, 21845 /*2.0f/3.0f Q15*/ ); -#else - /* gain Q14.23 format */ - gain = L_shl( L_deposit_l( index ), WORD32_BITS - 1 - 8 ); - gain = L_sub( gain, gain_q_offset /*60.0 Q23*/ ); - gain = Mpy_32_16_1( gain, 21845 /*2.0f/3.0f Q15*/ ); -#endif /* Apply gain and undo log */ @@ -1267,27 +1211,27 @@ void FdCng_encodeSID_fx( HANDLE_FD_CNG_ENC stenc, /* i/o: pointer to FD_CNG stru { FOR( i = 0; i < stages_37bits; i++ ) { - push_next_indice_fx( hBstr, indices[i], bits_37bits[i] ); + push_next_indice( hBstr, indices[i], bits_37bits[i] ); } - push_next_indice_fx( hBstr, index, 7 ); + push_next_indice( hBstr, index, 7 ); } ELSE { - push_indice_fx( hBstr, IND_SID_TYPE, 1, 1 ); - push_indice_fx( hBstr, IND_ACELP_16KHZ, corest->bwidth, 2 ); + push_indice( hBstr, IND_SID_TYPE, 1, 1 ); + push_indice( hBstr, IND_ACELP_16KHZ, corest->bwidth, 2 ); IF( EQ_16( corest->L_frame, L_FRAME16k ) ) { - push_indice_fx( hBstr, IND_ACELP_16KHZ, 1, 1 ); + push_indice( hBstr, IND_ACELP_16KHZ, 1, 1 ); } ELSE { - push_indice_fx( hBstr, IND_ACELP_16KHZ, 0, 1 ); + push_indice( hBstr, IND_ACELP_16KHZ, 0, 1 ); } FOR( i = 0; i < stages_37bits; i++ ) { - push_indice_fx( hBstr, IND_LSF, indices[i], bits_37bits[i] ); + push_indice( hBstr, IND_LSF, indices[i], bits_37bits[i] ); } - push_indice_fx( hBstr, IND_ENERGY, index, 7 ); + push_indice( hBstr, IND_ENERGY, index, 7 ); } /* Interpolate the bin/band-wise levels from the partition levels */ @@ -1531,7 +1475,7 @@ void generate_comfort_noise_enc_fx( Encoder_State *stcod, { FOR( i = 0; i < st->frameSize; i++ ) { - timeDomainOutput[i] = add( timeDomainOutput[i], shr_r( hTcxEnc->old_out_fx[i + NS2SA( stcod->sr_core, N_ZERO_MDCT_NS )], hTcxEnc->Q_old_out ) ); + timeDomainOutput[i] = add( timeDomainOutput[i], shr_r( hTcxEnc->old_out_fx[i + NS2SA_FX2( stcod->sr_core, N_ZERO_MDCT_NS )], hTcxEnc->Q_old_out ) ); move16(); } } @@ -1917,7 +1861,7 @@ void generate_comfort_noise_enc_ivas_fx( Encoder_State *stcod, { FOR( i = 0; i < st->frameSize; i++ ) { - timeDomainOutput[i] = add( timeDomainOutput[i], shr_r( hTcxEnc->old_out_fx[i + NS2SA( stcod->sr_core, N_ZERO_MDCT_NS )], hTcxEnc->Q_old_out ) ); + timeDomainOutput[i] = add( timeDomainOutput[i], shr_r( hTcxEnc->old_out_fx[i + NS2SA_FX2( stcod->sr_core, N_ZERO_MDCT_NS )], hTcxEnc->Q_old_out ) ); move16(); } } @@ -2122,7 +2066,7 @@ Word16 cng_energy_fx( L_tmp = L_mult0( tmp16, tmp16 ); pt_res++; tmp16 = shl( *pt_res, scale ); - L_tmp = L_mac0( L_tmp, tmp16, tmp16 ); /* 2*(Q_new+scale) */ + L_tmp = L_mac0_sat( L_tmp, tmp16, tmp16 ); /* 2*(Q_new+scale) */ pt_res++; L_ener = L_add( L_ener, L_shr( Mult_32_16( L_tmp, 26214 /* 256/320, Q15 */ ), 7 ) ); /* 2*(Q_new+scale)+15+1-16+1, divide by L_frame done here */ } @@ -2138,12 +2082,7 @@ Word16 cng_energy_fx( test(); IF( EQ_16( element_mode, IVAS_CPE_DFT ) || EQ_16( element_mode, IVAS_CPE_TD ) ) { - // PMT(" IVAS CNG ener computing is missing") -#ifdef IVAS_CODE - enr += CNG_att * FAC_LOG2 / 10.0f; -#else (void) CNG_att; -#endif } ELSE IF( NE_16( bwidth, NB ) ) { @@ -2267,3 +2206,1107 @@ Word16 cng_energy_ivas_fx( } return enr; } + +void perform_noise_estimation_enc_ivas_fx( + Word32 *band_energies, /* i: energy in critical bands without minimum noise floor MODE2_E_MIN band_energies_exp*/ + Word16 band_energies_exp, + Word32 *enerBuffer, /* enerBuffer_exp */ + Word16 enerBuffer_exp, + HANDLE_FD_CNG_ENC hFdCngEnc, /* i/o: CNG structure containing all buffers and variables */ + const Word32 input_Fs, /* i : input sampling rate Q0*/ + CPE_ENC_HANDLE hCPE /* i : CPE encoder structure */ +) +{ + Word16 i, j, s, s1, s2; + Word16 numBands; + Word16 numCoreBands = hFdCngEnc->hFdCngCom->numCoreBands; /* Q0 */ + move16(); + Word16 regularStopBand = hFdCngEnc->hFdCngCom->regularStopBand; /* Q0 */ + move16(); + Word16 numSlots = hFdCngEnc->hFdCngCom->numSlots; /* Q0 */ + move16(); + assert( numSlots == 16 ); + + Word32 numSlots_inv_fx = 1073741824; // Q34 of .0625 + move32(); + Word32 *periodog = hFdCngEnc->hFdCngCom->periodog; /* exp(peridog_exp) */ + Word32 *ptr_per_fx = periodog; + Word64 periodog_64; + Word16 periodog_exp[PERIODOGLEN]; + Word16 npart = hFdCngEnc->hFdCngCom->npart; /* Q0 */ + move16(); + Word16 nFFTpart = hFdCngEnc->hFdCngCom->nFFTpart; /* Q0 */ + move16(); + Word16 nCLDFBpart = hFdCngEnc->hFdCngCom->nCLDFBpart; /* Q0 */ + move16(); + + Word16 *psize = hFdCngEnc->hFdCngCom->psize; // 6Q9 + Word32 *msPeriodog_fx = hFdCngEnc->msPeriodog_fx; + Word32 *msNoiseEst_fx = hFdCngEnc->msNoiseEst_fx; /* exp(msNoiseEst_fx_exp) */ + + Word16 *msLogPeriodog_fx = hFdCngEnc->msLogPeriodog_fx; + Word16 *msLogNoiseEst_fx = hFdCngEnc->msLogNoiseEst_fx; + + Word32 scaleEB_fx = 0; + move32(); + Word32 tmp; + + test(); + IF( hCPE != NULL && hCPE->hStereoDft != NULL ) + { + // band_res_dft = ( (float) input_Fs ) / hCPE->hStereoDft->NFFT; + // chan_width_f = 24000.f / CLDFB_NO_CHANNELS_MAX; + // chan_width_bins = chan_width_f / band_res_dft; + + ///* Scaling of Energy buffer to get energy per sample, same scaling as for band_energies, 3 is to compensate for the 1/3 scaling in calculate_energy_buffer */ + // scaleEB = 3 * 4.0f / ( hCPE->hStereoDft->NFFT * hCPE->hStereoDft->NFFT ); + + ///* Scale with number of bins in one band */ + // scaleEB = scaleEB / chan_width_bins; + + SWITCH( input_Fs ) + { + case 8000: + scaleEB_fx = 251648; // Q35 + move32(); + BREAK; + case 16000: + scaleEB_fx = 62912; // Q35 + move32(); + BREAK; + case 32000: + scaleEB_fx = 15728; // Q35 + move32(); + BREAK; + case 48000: + scaleEB_fx = 6991; // Q35 + move32(); + BREAK; + default: + assert( 0 && "invalid sample rate" ); + } + } + ELSE + { + scaleEB_fx = Mpy_32_32( numSlots_inv_fx, L_deposit_l( hFdCngEnc->hFdCngCom->scalingFactor ) ); // Q34 + Q30 - Q31 = Q33 + scaleEB_fx = L_shl( scaleEB_fx, 2 ); // Q35 + } + + /* preemphasis compensation and grouping of per bin energies into msPeriodog */ + FOR( i = 0; i < nFFTpart; i++ ) + { + tmp = L_add( L_shr( band_energies[i], 1 ), L_shr( band_energies[i + NB_BANDS], 1 ) ); + msPeriodog_fx[i] = Mpy_32_16_1( tmp, preemphCompensation_fx[i] ); + move32(); + } + + /* exponent for fft part of msPeriodog */ + hFdCngEnc->msPeriodog_fx_exp_fft = add( band_energies_exp, PREEMPH_COMPENSATION_EXP ); + move16(); + + Word16 max_exp = -31; + move16(); + i = 0; + move16(); + /* Adjust to the desired time resolution by averaging the periodograms over the time slots */ + FOR( j = numCoreBands; j < regularStopBand; j++ ) + { + periodog_64 = W_mult_32_32( enerBuffer[j], scaleEB_fx ); + Word16 scale = W_norm( periodog_64 ); + *ptr_per_fx = W_extract_h( W_shl( periodog_64, scale ) ); + move32(); + periodog_exp[i] = sub( Q31, add( add( sub( Q31, enerBuffer_exp ), 35 - 31 ), scale ) ); + move16(); + if ( *ptr_per_fx ) + { + max_exp = s_max( max_exp, periodog_exp[i] ); + } + ptr_per_fx++; + i++; + } + /* exponent for cldfb part of msPeriodog */ + // hFdCngEnc->hFdCngCom->exp_cldfb_periodog = add( sub( enerBuffer_exp, 4 ), CLDFBscalingFactor_EXP ); + // move16(); + + numBands = sub( regularStopBand, numCoreBands ); /* Q0 */ + FOR( i = 0; i < numBands; i++ ) + { + + periodog[i] = L_shr( periodog[i], sub( max_exp, periodog_exp[i] ) ); + + move16(); + } + hFdCngEnc->hFdCngCom->exp_cldfb_periodog = max_exp; + move16(); + IF( numBands > 0 ) + { + ///* Adjust CLDFB filterbank to the desired frequency resolution by averaging over spectral partitions for SID transmission */ + bandcombinepow( + periodog, + hFdCngEnc->hFdCngCom->exp_cldfb_periodog, + numBands, + hFdCngEnc->hFdCngCom->CLDFBpart, + nCLDFBpart, + hFdCngEnc->hFdCngCom->CLDFBpsize_inv, + &msPeriodog_fx[nFFTpart], + &hFdCngEnc->msPeriodog_fx_exp_cldfb ); + + ///* find common exponent for fft part and cldfb part of msperiodog */ + s1 = L_norm_arr( msPeriodog_fx, nFFTpart ); + s2 = L_norm_arr( &msPeriodog_fx[nFFTpart], nCLDFBpart ); + + s = s_max( sub( hFdCngEnc->msPeriodog_fx_exp_fft, s1 ), sub( hFdCngEnc->msPeriodog_fx_exp_cldfb, s2 ) ); + s1 = sub( s, hFdCngEnc->msPeriodog_fx_exp_fft ); + s2 = sub( s, hFdCngEnc->msPeriodog_fx_exp_cldfb ); + + hFdCngEnc->msPeriodog_fx_exp_fft = s; + move16(); + hFdCngEnc->msPeriodog_fx_exp_cldfb = s; + move16(); + + FOR( i = 0; i < nFFTpart; i++ ) + { + msPeriodog_fx[i] = L_shr( msPeriodog_fx[i], s1 ); /* hFdCngEnc->msPeriodog_fx_exp_fft */ + move32(); + } + + FOR( i = 0; i < nCLDFBpart; i++ ) + { + msPeriodog_fx[nFFTpart + i] = L_shr( msPeriodog_fx[nFFTpart + i], s2 ); /* hFdCngEnc->msPeriodog_fx_exp_fft */ + move32(); + } + } + /* exponent for entire msPeriodog vector */ + hFdCngEnc->msPeriodog_fx_exp = hFdCngEnc->msPeriodog_fx_exp_fft; + move16(); + + /* Compress MS inputs */ + // compress_range_flt( msPeriodog, msLogPeriodog, npart ); + compress_range( msPeriodog_fx, hFdCngEnc->msPeriodog_fx_exp, msLogPeriodog_fx, npart ); + + + /* Call the minimum statistics routine for noise estimation */ + + minimum_statistics_fx( npart, nFFTpart, psize, msLogPeriodog_fx, hFdCngEnc->msNoiseFloor_fx, msLogNoiseEst_fx, hFdCngEnc->msAlpha_fx, hFdCngEnc->msPsd_fx, hFdCngEnc->msPsdFirstMoment_fx, + hFdCngEnc->msPsdSecondMoment_fx, hFdCngEnc->msMinBuf_fx, hFdCngEnc->msBminWin_fx, hFdCngEnc->msBminSubWin_fx, hFdCngEnc->msCurrentMin_fx, hFdCngEnc->msCurrentMinOut_fx, hFdCngEnc->msCurrentMinSubWindow_fx, hFdCngEnc->msLocalMinFlag, hFdCngEnc->msNewMinFlag, hFdCngEnc->msPeriodogBuf_fx, &( hFdCngEnc->msPeriodogBufPtr ), hFdCngEnc->hFdCngCom, + ENC, ( hCPE == NULL ) ? 0 : hCPE->element_mode ); + + /* Expand MS outputs */ + expand_range( msLogNoiseEst_fx, msNoiseEst_fx, &hFdCngEnc->msNoiseEst_fx_exp, hFdCngEnc->hFdCngCom->npart ); + + return; +} + + +/*-------------------------------------------------------------------* + * FdCng_encodeSID() + * + * Generate a bitstream out of the partition levels + *-------------------------------------------------------------------*/ +void FdCng_encodeSID_ivas_fx( + Encoder_State *st /* i/o: encoder state structure */ +) +{ + Word16 N; + HANDLE_FD_CNG_ENC hFdCngEnc = st->hFdCngEnc; + HANDLE_FD_CNG_COM hFdCngCom = hFdCngEnc->hFdCngCom; + BSTR_ENC_HANDLE hBstr = st->hBstr; + + Word32 *invTrfMatrix_fx, *E_fx; + Word32 tmpRAM_fx[FDCNG_VQ_MAX_LEN][FDCNG_VQ_DCT_MAXTRUNC]; + Word32 v_fx[32], gain_fx, e_fx, temp; + Word16 w_fx[32], indices[32], exp[32]; + Word32 dct_target_fx[FDCNG_VQ_DCT_MAXTRUNC]; + Word32 tot_sig_ext_fx[FDCNG_VQ_MAX_LEN]; + Word16 v_e, gain_q_offset, preemph_fac; + Word16 i, index; + + gain_q_offset = GAIN_Q_OFFSET_IVAS_FX_Q0; + move16(); + + if ( st->element_mode == EVS_MONO ) + { + gain_q_offset = GAIN_Q_OFFSET_EVS_FX_Q0; + move16(); + } + + preemph_fac = st->preemph_fac; // Q15 + move16(); + + /* Init */ + N = hFdCngEnc->npartDec; + move16(); + + E_fx = hFdCngEnc->msNoiseEst_fx; + + invTrfMatrix_fx = (Word32 *) tmpRAM_fx; /* dynamically filled */ + + set_zero_fx( v_fx, FDCNG_VQ_MAX_LEN ); + + /* Convert to LOG */ + e_fx = 0; + move32(); + FOR( i = 0; i < N; i++ ) + { + IF( E_fx[i] == 0 ) + { + /* 10 * log(1e-4) = 10 * (-4) = -40 */ + v_fx[i] = -41943040; // -40.0 in Q20 + move32(); + } + ELSE + { + v_fx[i] = Mpy_32_32( 671088640 /*10 in Q26*/, BASOP_Util_Log10( E_fx[i], hFdCngEnc->msNoiseEst_fx_exp ) ); // Q20 = 26+25-31 + move32(); + } + e_fx = L_add( e_fx, v_fx[i] ); // Q20 + } + + /* Normalize MSVQ input */ + gain_fx = 0; + move32(); + FOR( i = N_GAIN_MIN; i < N_GAIN_MAX; i++ ) + { + gain_fx = L_add( gain_fx, v_fx[i] ); // Q20 + } + + /*gain /= (float) ( N_GAIN_MAX - N_GAIN_MIN );*/ + gain_fx = Mpy_32_32( gain_fx, 165191050 /* 1/13 in Q31*/ ); // Q20 + + FOR( i = 0; i < N; i++ ) + { + v_fx[i] = L_sub( v_fx[i], gain_fx ); // Q20 + move32(); + } + + v_e = 11; // Q20 + move16(); + + /* MSVQ encoder */ + set_val_Word16( w_fx, ONE_IN_Q8, N ); + + IF( st->element_mode != EVS_MONO ) + { + /* DCT domain compressed/truncated indices used for first stage */ + /* quantization with stage1 stored in DCT24 domain, stages 2 through 6 directly dearched + in FDCNG band domain + */ + IF( EQ_16( N, FDCNG_VQ_MAX_LEN_WB ) ) + { + /* truncated DCT21 analysis */ + create_IDCT_N_Matrix_fx( invTrfMatrix_fx, N, FDCNG_VQ_DCT_MAXTRUNC, sizeof( tmpRAM_fx ) / ( sizeof( Word32 ) ) ); // Q31 + + dctT2_N_apply_matrix_fx( v_fx /*Q20*/, dct_target_fx, FDCNG_VQ_DCT_MAXTRUNC, N, invTrfMatrix_fx, FDCNG_VQ_DCT_MAXTRUNC, DCT_T2_21_XX ); // Q20 + + /* truncated IDCT21 extension to 24 bands */ + extend_dctN_input_fx( v_fx, dct_target_fx, N, tot_sig_ext_fx, FDCNG_VQ_MAX_LEN, invTrfMatrix_fx, FDCNG_VQ_DCT_MAXTRUNC, IDCT_T2_XX_21 ); // Q20 + + Copy32( tot_sig_ext_fx, v_fx, FDCNG_VQ_MAX_LEN ); /* write extended result as input to VQ stage #1 */ // Q20 + } + + create_IDCT_N_Matrix_fx( invTrfMatrix_fx, FDCNG_VQ_MAX_LEN, FDCNG_VQ_DCT_MAXTRUNC, sizeof( tmpRAM_fx ) / ( sizeof( Word32 ) ) ); // Q31 + + msvq_enc_ivas_fx( ivas_cdk_37bits_fx, Q7, NULL, NULL, v_fx, v_e, levels_37bits, FD_CNG_maxC_37bits, FD_CNG_stages_37bits, w_fx, N, FD_CNG_maxN_37bits, 1, invTrfMatrix_fx, indices ); + + msvq_dec_fx( ivas_cdk_37bits_fx, NULL, NULL, FD_CNG_stages_37bits, N, FD_CNG_maxN_37bits, indices, 1, invTrfMatrix_fx, v_fx, NULL, 7 ); + + v_e = sub( 31, sub( 20, find_guarded_bits_fx( N ) ) ); + } + ELSE + { /* EVS_MONO tables */ + msvq_enc_ivas_fx( ivas_cdk_37bits_fx, Q7, NULL, NULL, v_fx, v_e, levels_37bits, FD_CNG_maxC_37bits, FD_CNG_stages_37bits, w_fx, N, FD_CNG_maxN_37bits, 0, NULL, indices ); + + msvq_dec_fx( ivas_cdk_37bits_fx, NULL, NULL, FD_CNG_stages_37bits, N, FD_CNG_maxN_37bits, indices, 0, NULL, v_fx, NULL, 7 ); + + v_e = sub( 31, sub( 20, find_guarded_bits_fx( N ) ) ); + } + + /* Compute gain */ + gain_fx = 0; + move32(); + FOR( i = 0; i < N; i++ ) + { + gain_fx = L_add( gain_fx, v_fx[i] ); // Q = 31 - v_e + } + + e_fx = L_shl( e_fx, sub( 11, v_e ) ); // Q = 31 - v_e + gain_fx = Mpy_32_16_1( L_sub( e_fx, gain_fx ), div_s( 1, N ) ); // Q = 31 - v_e + gain_fx = L_shl( gain_fx, sub( v_e, 8 ) ); // Q23 + + /* Apply bitrate-dependant scale */ + IF( st->element_mode > EVS_MONO ) + { + apply_scale( &gain_fx, hFdCngCom->CngBandwidth, hFdCngCom->CngBitrate, scaleTableStereo, SIZE_SCALE_TABLE_STEREO ); + } + ELSE + { + apply_scale( &gain_fx, hFdCngCom->CngBandwidth, hFdCngCom->CngBitrate, scaleTableMono, SIZE_SCALE_TABLE_MONO ); + } + + /* Quantize gain */ + temp = Madd_32_32( L_shl( gain_q_offset, 22 ), gain_fx, 1610612736 /*1.5 in Q30*/ ); // Q22 + index = extract_l( L_shr( L_add( temp, ONE_IN_Q21 ), 22 ) ); // Q0 + + if ( index < 0 ) + { + index = 0; + move16(); + } + + if ( GT_16( index, 127 ) ) + { + index = 127; + move16(); + } + + gain_fx = L_shl( L_mult0( sub( index, gain_q_offset ), 21845 /*1.5 in Q15*/ ), sub( 16, v_e ) ); // Q = 31-v_e + + /* Apply gain and undo log */ + FOR( i = 0; i < N; i++ ) + { + temp = Mpy_32_32( L_add( v_fx[i], gain_fx ), 214748365 /* 0.1 in Q31*/ ); // Q = 31-v_e + hFdCngCom->sidNoiseEst[i] = BASOP_Util_fPow( 10, 31, temp, v_e, &exp[i] ); + move32(); + } + + maximum_s( exp, N, &hFdCngCom->sidNoiseEstExp ); + + FOR( i = 0; i < N; i++ ) + { + hFdCngCom->sidNoiseEst[i] = L_shr( hFdCngCom->sidNoiseEst[i], sub( hFdCngCom->sidNoiseEstExp, exp[i] ) ); // exp = hFdCngCom->sidNoiseEstExp + move32(); + } + + /* NB last band energy compensation */ + IF( hFdCngCom->CngBandwidth == NB ) + { + hFdCngCom->sidNoiseEst[N - 1] = Mpy_32_16_1( hFdCngCom->sidNoiseEst[N - 1], NB_LAST_BAND_SCALE ); // exp(hFdCngCom->sidNoiseEstExp) + move32(); + } + + test(); + IF( EQ_16( hFdCngCom->CngBandwidth, SWB ) && LE_32( hFdCngCom->CngBitrate, ACELP_13k20 ) ) + { + hFdCngCom->sidNoiseEst[N - 1] = Mpy_32_16_1( hFdCngCom->sidNoiseEst[N - 1], SWB_13k2_LAST_BAND_SCALE ); // exp(hFdCngCom->sidNoiseEstExp) + move32(); + } + + /* Write bitstream */ + IF( EQ_16( st->codec_mode, MODE2 ) ) + { + FOR( i = 0; i < FD_CNG_stages_37bits; i++ ) + { + push_next_indice( hBstr, indices[i], bits_37bits[i] ); + } + + push_next_indice( hBstr, index, 7 ); + } + ELSE + { + Word16 is_frame_len_16k = 0; + move16(); + if ( EQ_16( st->L_frame, L_FRAME16k ) ) + { + is_frame_len_16k = 1; + move16(); + } + push_indice( hBstr, IND_SID_TYPE, 1, 1 ); + push_indice( hBstr, IND_BWIDTH, st->bwidth, 2 ); + push_indice( hBstr, IND_ACELP_16KHZ, is_frame_len_16k, 1 ); + + FOR( i = 0; i < FD_CNG_stages_37bits; i++ ) + { + push_indice( hBstr, IND_LSF, indices[i], bits_37bits[i] ); + } + + push_indice( hBstr, IND_ENERGY, index, 7 ); + } + + /* Interpolate the bin/band-wise levels from the partition levels */ + scalebands( hFdCngCom->sidNoiseEst, hFdCngEnc->partDec, hFdCngEnc->npartDec, hFdCngEnc->midbandDec, hFdCngEnc->nFFTpartDec, sub( hFdCngEnc->stopBandDec, hFdCngEnc->startBandDec ), hFdCngCom->cngNoiseLevel, 1 ); + hFdCngCom->cngNoiseLevelExp = hFdCngCom->sidNoiseEstExp; + move16(); + + lpc_from_spectrum( hFdCngCom, hFdCngEnc->startBandDec, hFdCngEnc->stopFFTbinDec, preemph_fac ); + + return; +} + + +/*-------------------------------------------------------------------* + * stereoFdCngCoherence() + * + * compute coherence of channels for use in FD-CNG + *-------------------------------------------------------------------*/ +void stereoFdCngCoherence_fx( + Encoder_State **sts, /* i/o: core encoder structures */ + const Word16 last_element_mode, /* i : last element mode Q0*/ + Word16 fft_buf_fx[CPE_CHANNELS][2 * L_FFT], /* i : fft buffers for L and R channels fft_exp*/ + Word16 fft_exp ) +{ + const Word16 *pt_fftL, *pt_fftR; + Word16 i_subfr, i; + Word32 cr, ci, eL, eR; + Word16 cr_exp, ci_exp, eL_exp, eR_exp; + Word32 *mem; + Word16 *mem_exp; + + IF( NE_16( last_element_mode, IVAS_CPE_MDCT ) ) + { + set32_fx( sts[0]->hFdCngEnc->mem_coherence_fx, EPSILON_FX, 4 ); + set16_fx( sts[0]->hFdCngEnc->mem_coherence_exp, 0, 4 ); + } + test(); + test(); + IF( EQ_32( sts[0]->core_brate, -1 ) || EQ_32( sts[1]->core_brate, -1 ) ) + { + /* case: at least one channel has triggered VAD -> ACTIVE FRAME */ + IF( EQ_32( sts[0]->core_brate, -1 ) ) + { + sts[1]->total_brate = sts[0]->total_brate; /* Q0 */ + move32(); + sts[1]->active_cnt = sts[0]->active_cnt; /* Q0 */ + move16(); + if ( GE_32( sts[1]->active_cnt, CNG_TYPE_HO ) ) + { + sts[1]->last_total_brate_cng = -1; + move16(); + } + } + IF( EQ_32( sts[1]->core_brate, -1 ) ) + { + sts[0]->total_brate = sts[1]->total_brate; /* Q0 */ + move32(); + sts[0]->active_cnt = sts[1]->active_cnt; /* Q0 */ + move16(); + if ( GE_16( sts[0]->active_cnt, CNG_TYPE_HO ) ) + { + sts[0]->last_total_brate_cng = -1; + move16(); + } + } + sts[0]->core_brate = -1; + move32(); + sts[1]->core_brate = -1; + move32(); + sts[0]->hDtxEnc->cnt_SID = 0; + move16(); + sts[1]->hDtxEnc->cnt_SID = 0; + move16(); + } + ELSE IF( LE_32( sts[0]->core_brate, SID_2k40 ) && LE_32( sts[1]->core_brate, SID_2k40 ) ) + { + /* case: no VAD for both channels -> INACTIVE FRAME */ + reset_indices_enc_fx( sts[0]->hBstr, sts[0]->hBstr->nb_ind_tot ); + + reset_indices_enc_fx( sts[1]->hBstr, sts[1]->hBstr->nb_ind_tot ); + + /* synchronize SID sending for variable SID rate */ + IF( NE_32( sts[0]->core_brate, sts[1]->core_brate ) ) + { + sts[0]->core_brate = SID_2k40; + move32(); + sts[1]->core_brate = SID_2k40; + move32(); + } + + /* synchronize SID counters */ + sts[0]->hDtxEnc->cnt_SID = s_min( sts[0]->hDtxEnc->cnt_SID, sts[1]->hDtxEnc->cnt_SID ); /* Q0 */ + sts[1]->hDtxEnc->cnt_SID = sts[0]->hDtxEnc->cnt_SID; /* Q0 */ + move16(); + move16(); + } + + pt_fftL = fft_buf_fx[0]; + pt_fftR = fft_buf_fx[1]; + mem = sts[0]->hFdCngEnc->mem_coherence_fx; /* exp(sts[0]->hFdCngEnc->mem_coherence_exp) */ + mem_exp = sts[0]->hFdCngEnc->mem_coherence_exp; + FOR( i_subfr = 0; i_subfr < 2; i_subfr++ ) + { + cr = ci = eL = eR = EPSILON_FX; + move32(); + move32(); + move32(); + move32(); + cr_exp = ci_exp = eL_exp = eR_exp = 0; + move16(); + move16(); + move16(); + move16(); + + cr = BASOP_Util_Add_Mant32Exp( cr, cr_exp, L_add( L_mult( pt_fftL[0], pt_fftR[0] ), L_mult( pt_fftL[L_FFT / 2], pt_fftR[L_FFT / 2] ) ), shl( fft_exp, 1 ), &cr_exp ); /* exp(cr_exp) */ + eL = BASOP_Util_Add_Mant32Exp( eL, eL_exp, L_add( L_mult( pt_fftL[0], pt_fftL[0] ), L_mult( pt_fftL[L_FFT / 2], pt_fftL[L_FFT / 2] ) ), shl( fft_exp, 1 ), &eL_exp ); /* exp(eL_exp) */ + eR = BASOP_Util_Add_Mant32Exp( eR, eR_exp, L_add( L_mult( pt_fftR[0], pt_fftR[0] ), L_mult( pt_fftR[L_FFT / 2], pt_fftR[L_FFT / 2] ) ), shl( fft_exp, 1 ), &eR_exp ); /* exp(eR_exp) */ + + FOR( i = 1; i < L_FFT / 2; i++ ) + { + cr = BASOP_Util_Add_Mant32Exp( cr, cr_exp, L_add( L_mult( pt_fftL[i], pt_fftR[i] ), L_mult( pt_fftL[L_FFT - i], pt_fftR[L_FFT - i] ) ), shl( fft_exp, 1 ), &cr_exp ); /* exp(cr_exp) */ + ci = BASOP_Util_Add_Mant32Exp( ci, ci_exp, L_add( L_mult( -pt_fftL[i], pt_fftR[L_FFT - i] ), L_mult( pt_fftL[L_FFT - i], pt_fftR[i] ) ), shl( fft_exp, 1 ), &ci_exp ); /* exp(ci_exp) */ + eL = BASOP_Util_Add_Mant32Exp( eL, eL_exp, L_add( L_mult( pt_fftL[i], pt_fftL[i] ), L_mult( pt_fftL[L_FFT - i], pt_fftL[L_FFT - i] ) ), shl( fft_exp, 1 ), &eL_exp ); /* exp(eL_exp) */ + eR = BASOP_Util_Add_Mant32Exp( eR, eR_exp, L_add( L_mult( pt_fftR[i], pt_fftR[i] ), L_mult( pt_fftR[L_FFT - i], pt_fftR[L_FFT - i] ) ), shl( fft_exp, 1 ), &eR_exp ); /* exp(eR_exp) */ + } + test(); + test(); + IF( LE_32( sts[0]->ini_frame, 50 ) || ( sts[0]->vad_flag == 0 && sts[1]->vad_flag == 0 ) ) + { + mem[0] = BASOP_Util_Add_Mant32Exp( Mpy_32_16_1( mem[0], 31129 /*0.95f*/ ), mem_exp[0], Mpy_32_16_1( cr, 1638 /*0.05f*/ ), cr_exp, &mem_exp[0] ); /* exp(mem_exp[0]) */ + move32(); + mem[1] = BASOP_Util_Add_Mant32Exp( Mpy_32_16_1( mem[1], 31129 /*0.95f*/ ), mem_exp[1], Mpy_32_16_1( ci, 1638 /*0.05f*/ ), ci_exp, &mem_exp[1] ); /* exp(mem_exp[1]) */ + move32(); + mem[2] = BASOP_Util_Add_Mant32Exp( Mpy_32_16_1( mem[2], 31129 /*0.95f*/ ), mem_exp[2], Mpy_32_16_1( eL, 1638 /*0.05f*/ ), eL_exp, &mem_exp[2] ); /* exp(mem_exp[2]) */ + move32(); + mem[3] = BASOP_Util_Add_Mant32Exp( Mpy_32_16_1( mem[3], 31129 /*0.95f*/ ), mem_exp[3], Mpy_32_16_1( eR, 1638 /*0.05f*/ ), eR_exp, &mem_exp[3] ); /* exp(mem_exp[3]) */ + move32(); + } + + pt_fftL += L_FFT; + pt_fftR += L_FFT; + } + + Word16 sqr_inp, temp, sqr_out, sqr_inp_exp; + Word32 sqr_inp32 = BASOP_Util_Add_Mant32Exp( Mpy_32_32( mem[0], mem[0] ), shl( mem_exp[0], 1 ), Mpy_32_32( mem[1], mem[1] ), shl( mem_exp[1], 1 ), &sqr_inp_exp ); /* exp(sqr_inp_exp) */ + sqr_inp = BASOP_Util_Divide3232_Scale( sqr_inp32, Mpy_32_32( mem[2], mem[3] ), &temp ); + sqr_inp_exp = add( temp, sub( sqr_inp_exp, add( mem_exp[2], mem_exp[3] ) ) ); + sqr_out = Sqrt16( sqr_inp, &sqr_inp_exp ); + sts[0]->hFdCngEnc->hFdCngCom->coherence_fx = shl_sat( sqr_out, sqr_inp_exp ); // Q15 expected. + move16(); + return; +} + +/*-------------------------------------------------------------------* + * FdCngEncodeMDCTStereoSID() + * + * Encode DTX parameters and noise shapes into SID for MDCT-Stereo DTX + *-------------------------------------------------------------------*/ + +void FdCngEncodeMDCTStereoSID_fx( + CPE_ENC_HANDLE hCPE /* i/o: CPE encoder state structure */ +) +{ + ENC_CORE_HANDLE sts[CPE_CHANNELS]; + Word16 indices[CPE_CHANNELS][FD_CNG_stages_37bits]; + Word16 gain_idx[CPE_CHANNELS]; + Word16 N, stages, ch, p, coh_idx; + Word32 *lr_in_ptr_fx[CPE_CHANNELS]; + Word16 lr_in_ptr_e[CPE_CHANNELS]; + Word32 *ms_ptr_fx[CPE_CHANNELS]; + Word16 ms_ptr_e; + Word32 *lr_out_ptr_fx[CPE_CHANNELS]; + Word16 lr_out_ptr_e[CPE_CHANNELS]; + Word32 logNoiseEst_fx[CPE_CHANNELS][NPART]; + Word32 E_fx[CPE_CHANNELS]; + Word32 gain_fx[CPE_CHANNELS]; + Word16 weights_fx[NPART]; + Word32 side_energy_fx; + Word16 Qside_energy; + Word32 *invTrfMatrix_fx; + Word32 tmpRAM_fx[FDCNG_VQ_MAX_LEN][FDCNG_VQ_DCT_MAXTRUNC]; /*24*18*/ + invTrfMatrix_fx = (Word32 *) tmpRAM_fx; /* dynamically filled */ + Word32 tot_sig_ext_fx[FDCNG_VQ_MAX_LEN], dct_target_fx[CPE_CHANNELS][FDCNG_VQ_DCT_MAXTRUNC]; /* 24 +2*18*/ + Word16 tmp, tmp_e; + Word16 no_side_flag; + Word16 is_inp_ms; + Word16 size_value, temp_e, gb, shift; + Word32 tmp32, t1, t2; + + is_inp_ms = 0; + move16(); + IF( EQ_16( hCPE->hCoreCoder[0]->cng_sba_flag, 1 ) ) + { + is_inp_ms = 1; + move16(); + } + + /* set pointers and initialize */ + FOR( ch = 0; ch < CPE_CHANNELS; ch++ ) + { + sts[ch] = hCPE->hCoreCoder[ch]; + lr_in_ptr_fx[ch] = &sts[ch]->hFdCngEnc->msNoiseEst_fx[0]; /* exp(sts[ch]->hFdCngEnc->msNoiseEst_fx_exp) */ + lr_in_ptr_e[ch] = sts[ch]->hFdCngEnc->msNoiseEst_fx_exp; + ms_ptr_fx[ch] = &logNoiseEst_fx[ch][0]; + lr_out_ptr_fx[ch] = &sts[ch]->hFdCngEnc->hFdCngCom->sidNoiseEst[0]; /* exp(sts[ch]->hFdCngEnc->hFdCngCom->sidNoiseEstExp) */ + lr_out_ptr_e[ch] = sts[ch]->hFdCngEnc->hFdCngCom->sidNoiseEstExp; + } + N = sts[0]->hFdCngEnc->npartDec; /* Q0 */ + move16(); + set16_fx( weights_fx, ONE_IN_Q8, NPART ); + + /* apply log and save energy of original left and right channels */ + FOR( ch = 0; ch < CPE_CHANNELS; ch++ ) + { + // E[ch] = 0.0f; + E_fx[ch] = 0; + move32(); + FOR( p = 0; p < N; p++ ) + { + IF( lr_in_ptr_fx[ch][p] ) + { + t1 = BASOP_Util_Log2( lr_in_ptr_fx[ch][p] ); // Q25 + t2 = L_add( t1, L_shl( lr_in_ptr_e[ch], Q25 ) ); // Q25 + ms_ptr_fx[ch][p] = Mpy_32_32( t2, TEN_MULT_LOG10_2_IN_Q29 ); // Q23 + move32(); + } + ELSE + { + // 10.f * log10f( EPSILON ) --> -150.0f + // Subsequent additions / subtractions happen on these numbers, so to avoid saturations + // this value is set to -128.0f in Q23 + ms_ptr_fx[ch][p] = -ONE_IN_Q30; // Q23 + move32(); + } + E_fx[ch] = L_add( E_fx[ch], L_shr( ms_ptr_fx[ch][p], 4 ) ); // Q19 + move32(); + } + } + ms_ptr_e = Q31 - Q23; + move16(); + + /* M/S transform on log envelopes */ + IF( is_inp_ms == 0 ) + { + convertToMS_fx( N, ms_ptr_fx[0], ms_ptr_fx[1], ONE_IN_Q30 ); // ms_ptr_e = Q23; + } + + gb = find_guarded_bits_fx( N ); + side_energy_fx = sum2_f_32_fx( ms_ptr_fx[1], N, gb ); + Qside_energy = sub( sub( shl( sub( 31, ms_ptr_e ), 1 ), 31 ), gb ); + + /* do not transmit side shape if initial noise shapes are very similar */ + IF( LE_32( side_energy_fx, L_shl( 214748365, sub( Qside_energy, Q31 ) ) ) ) + { + no_side_flag = 1; + move16(); + } + ELSE + { + no_side_flag = 0; + move16(); + } + + /* Quantize noise shapes */ + FOR( ch = 0; ch < CPE_CHANNELS; ch++ ) + { + /* Normalize MSVQ input */ + gain_fx[ch] = 0; + move32(); + FOR( p = N_GAIN_MIN; p < N_GAIN_MAX; p++ ) + { + tmp32 = Mpy_32_32( ms_ptr_fx[ch][p], 165191050 /* 0.07 in Q31*/ ); // Q23 + gain_fx[ch] = L_add( gain_fx[ch], tmp32 ); // Q23 + move32(); + } + + FOR( p = 0; p < N; p++ ) + { + ms_ptr_fx[ch][p] = L_sub( ms_ptr_fx[ch][p], gain_fx[ch] ); // Q23 + move32(); + } + } + + /* always split channel targetloop */ + + /* extend fdcng envelope from length 21 to a 24 length fdncg domain envelope signal */ + /* High quality cosine smooth basis extension used to not introduce noise in stage#1 DCT24 analysis and subsequent VQ-steps */ + IF( EQ_16( N, FDCNG_VQ_MAX_LEN_WB ) ) + { + size_value = BASOP_Util_Divide1616_Scale( sizeof( tmpRAM_fx ), ( sizeof( Word32 ) ), &temp_e ); /*Q15*/ + size_value = shr( size_value, sub( 15, temp_e ) ); + create_IDCT_N_Matrix_fx( invTrfMatrix_fx, N, FDCNG_VQ_DCT_MAXTRUNC, size_value ); // Q31 /*WB: create truncated IDCT21 matrix */ + for ( ch = 0; ch < CPE_CHANNELS; ch++ ) + { + /* run DCT_N N==21 , truncated at 18/21 ~= 86% , i.e use a bit better better quality in extrapolation , than subsequent DCT24 analysis which is truncated at 75%*/ + /* truncated DCT 21 analysis */ + dctT2_N_apply_matrix_fx( (const Word32 *) ms_ptr_fx[ch], dct_target_fx[ch], FDCNG_VQ_DCT_MAXTRUNC, N, invTrfMatrix_fx, FDCNG_VQ_DCT_MAXTRUNC, DCT_T2_21_XX ); + /* extrapolate extend fdcng envelope signal in the fdncg ienvelope/"time" domain using DCT21 basis vectors, + estimated DCT21 coeffs scaling extended basis vectors are used to create extrapolated length 24 input target envelope signal */ + /* this DCT21 extension does not introduce DCT24 coefficient noise for the subsequent dct24 target analysis, and later in IDCT24 synthesis */ + + /* truncated IDCT 21 extension synthesis */ + extend_dctN_input_fx( ms_ptr_fx[ch], dct_target_fx[ch], N, tot_sig_ext_fx, FDCNG_VQ_MAX_LEN, invTrfMatrix_fx /* DCT_N basis vectors */, FDCNG_VQ_DCT_MAXTRUNC, IDCT_T2_XX_21 ); /* use 18 basis vectors*/ + + Copy32( tot_sig_ext_fx, ms_ptr_fx[ch], FDCNG_VQ_MAX_LEN ); /* write extended result as input to VQ */ + } + } + + size_value = BASOP_Util_Divide1616_Scale( sizeof( tmpRAM_fx ), ( sizeof( Word32 ) ), &temp_e ); /*Q15*/ + size_value = shr( size_value, sub( 15, temp_e ) ); + create_IDCT_N_Matrix_fx( invTrfMatrix_fx, FDCNG_VQ_MAX_LEN, FDCNG_VQ_DCT_MAXTRUNC, size_value ); /*always create/set up IDCT24 matrix in RAM */ + + /* end split */ + FOR( ch = 0; ch < CPE_CHANNELS; ch++ ) + { + /* MSVQ */ + IF( ch ) + { + stages = FD_CNG_JOINT_stages_25bits; + move16(); + } + ELSE + { + stages = FD_CNG_stages_37bits; + move16(); + } + + /* DCT24 domain compressed/truncated indices used for first stage */ + /* mid channel quantization using stages 1 through 6 */ + /* & side channel quantization using stages 1 through 4 */ + + { + msvq_enc_ivas_fx( ivas_cdk_37bits_fx, Q7, NULL, NULL, ms_ptr_fx[ch], ms_ptr_e, levels_37bits, FD_CNG_maxC_37bits, stages, weights_fx, N, FD_CNG_maxN_37bits, 1, invTrfMatrix_fx, indices[ch] ); + msvq_dec_fx( ivas_cdk_37bits_fx, NULL, NULL, stages, N, FD_CNG_maxN_37bits, indices[ch], 1, invTrfMatrix_fx, ms_ptr_fx[ch], NULL, 7 ); + } + } + shift = find_guarded_bits_fx( N ); + ms_ptr_e = sub( 31, sub( 20, shift ) ); + + IF( no_side_flag ) + { + set32_fx( ms_ptr_fx[1], 0, N ); + } + + /* undo M/S */ + IF( is_inp_ms == 0 ) + { + convertToMS_fx( N, ms_ptr_fx[0], ms_ptr_fx[1], ONE_IN_Q31 ); + } + + /* Compute gain against original left and right channels */ + FOR( ch = 0; ch < CPE_CHANNELS; ch++ ) + { + gain_fx[ch] = 0; + move32(); + + tmp_e = 15; + move16(); + tmp = Inv16( N, &tmp_e ); + FOR( p = 0; p < N; p++ ) + { + gain_fx[ch] = L_add( gain_fx[ch], Mpy_32_16_1( ms_ptr_fx[ch][p], shl( tmp, tmp_e ) ) ); // Q23 + move32(); + } + gain_fx[ch] = L_sub( L_shl( Mpy_32_16_1( E_fx[ch], shl( tmp, tmp_e ) ), Q23 - Q19 ), L_shl( gain_fx[ch], sub( ms_ptr_e, 8 ) ) ); // Q23 + move32(); + + apply_scale( &gain_fx[ch], sts[ch]->hFdCngEnc->hFdCngCom->CngBandwidth, sts[ch]->element_brate, scaleTableStereo, SIZE_SCALE_TABLE_STEREO ); + + /* quantize gain */ + gain_idx[ch] = (Word16) Mpy_32_32_r( L_add( gain_fx[ch], 251658240 ), 384 ); // Q23 + move16(); + gain_idx[ch] = s_max( 0, s_min( 127, gain_idx[ch] ) ); + move16(); + + gain_fx[ch] = Mpy_32_16_1( L_shl( sub( gain_idx[ch], GAIN_Q_OFFSET_IVAS_FX_Q0 ), 23 ), 21845 ); // Q23 + move32(); + } + + /* restore channel noise envelopes */ + FOR( ch = 0; ch < CPE_CHANNELS; ch++ ) + { + HANDLE_FD_CNG_ENC hFdCngEnc = sts[ch]->hFdCngEnc; + HANDLE_FD_CNG_COM hFdCngCom = hFdCngEnc->hFdCngCom; + + tmp_e = 0; + move16(); + Word32 pow; + + Word16 e_lr_out[NPART]; + + FOR( p = 0; p < N; p++ ) + { + pow = L_shl( gain_fx[ch], 8 - ms_ptr_e ); + pow = L_add( ms_ptr_fx[ch][p], pow ); + pow = Mpy_32_32( pow, 214748365 ); /*pow = 0.1*/ + lr_out_ptr_fx[ch][p] = BASOP_Util_fPow( 10, 31, pow, ms_ptr_e, &e_lr_out[p] ); + move32(); + tmp_e = s_max( tmp_e, e_lr_out[p] ); + } + + FOR( p = 0; p < N; p++ ) + { + lr_out_ptr_fx[ch][p] = L_shl( lr_out_ptr_fx[ch][p], e_lr_out[p] - tmp_e ); + move32(); + } + lr_out_ptr_e[ch] = tmp_e; + move32(); + + sts[ch]->hFdCngEnc->hFdCngCom->sidNoiseEstExp = tmp_e; + move16(); + + /* scale bands and get scalefactors */ + scalebands( lr_out_ptr_fx[ch], hFdCngEnc->partDec, N, hFdCngEnc->midbandDec, hFdCngEnc->nFFTpartDec, sub( hFdCngEnc->stopBandDec, hFdCngEnc->startBandDec ), hFdCngCom->cngNoiseLevel, 1 ); + hFdCngCom->cngNoiseLevelExp = lr_out_ptr_e[ch]; + move16(); + + lpc_from_spectrum( hFdCngCom, hFdCngEnc->startBandDec, hFdCngEnc->stopFFTbinDec, sts[ch]->preemph_fac ); + + sts[ch]->hDtxEnc->last_CNG_L_frame = sts[ch]->L_frame; + } + + /* quantize channel coherence */ + coh_idx = mult_r( sts[0]->hFdCngEnc->hFdCngCom->coherence_fx, 15 ); + coh_idx = s_max( 0, s_min( coh_idx, 15 ) ); + + /* ---- Write SID bitstream ---- */ + + + /* noise shapes and channel gains */ + FOR( ch = 0; ch < CPE_CHANNELS; ch++ ) + { + IF( ch ) + { + stages = FD_CNG_JOINT_stages_25bits; + sts[ch]->hBstr->ind_list = sts[0]->hBstr->ind_list + sts[0]->hBstr->nb_ind_tot; + + /* side info */ + push_indice( sts[ch]->hBstr, IND_SID_TYPE, coh_idx, 4 ); + push_indice( sts[ch]->hBstr, IND_SID_TYPE, no_side_flag, 1 ); + } + ELSE + { + stages = FD_CNG_stages_37bits; + /* side info */ + push_indice( sts[ch]->hBstr, IND_SID_TYPE, 1, 1 ); + push_indice( sts[ch]->hBstr, IND_BWIDTH, sts[0]->bwidth, 2 ); + push_indice( sts[ch]->hBstr, IND_ACELP_16KHZ, sts[0]->L_frame == L_FRAME16k ? 1 : 0, 1 ); + } + + FOR( Word16 i = 0; i < stages; i++ ) + { + push_indice( sts[ch]->hBstr, IND_LSF, indices[ch][i], bits_37bits[i] ); + } + push_indice( sts[ch]->hBstr, IND_ENERGY, gain_idx[ch], 7 ); + } + + /* pad with zeros to reach common SID frame size */ + push_indice( sts[1]->hBstr, IND_ENERGY, 0, ( IVAS_SID_5k2 - 4400 ) / FRAMES_PER_SEC ); + + return; +} + +/*-------------------------------------------------------------------* + * FdCngEncodeDiracMDCTStereoSID() + * + * Encode DTX parameters and noise shapes into SID for MDCT-Stereo DTX + * together with Dirac + *-------------------------------------------------------------------*/ + +void FdCngEncodeDiracMDCTStereoSID_fx( + CPE_ENC_HANDLE hCPE /* i/o: CPE encoder state structure */ +) +{ + ENC_CORE_HANDLE sts[CPE_CHANNELS]; + Word32 *lr_in_ptr_fx[CPE_CHANNELS]; + Word16 lr_in_ptr_e[CPE_CHANNELS]; + Word32 *ms_ptr_fx[CPE_CHANNELS]; + Word16 ms_ptr_e; + Word32 *lr_out_ptr_fx[CPE_CHANNELS]; + Word16 lr_out_ptr_e[CPE_CHANNELS]; + Word32 logNoiseEst_fx[CPE_CHANNELS][NPART]; + Word32 E_fx[CPE_CHANNELS]; + Word32 gain_fx[CPE_CHANNELS]; + Word16 weights_fx[NPART]; + Word16 N[CPE_CHANNELS]; + Word16 indices[CPE_CHANNELS][FD_CNG_stages_37bits]; + Word16 gain_idx[CPE_CHANNELS]; + Word16 ch, p; + Word16 tmp, tmp_e, shift; + Word32 *invTrfMatrix_fx; + Word32 tmpRAM_fx[FDCNG_VQ_MAX_LEN][FDCNG_VQ_DCT_MAXTRUNC]; + Word32 dct_target_fx[FDCNG_VQ_DCT_MAXTRUNC]; + Word32 tot_sig_ext_fx[FDCNG_VQ_MAX_LEN]; + invTrfMatrix_fx = (Word32 *) tmpRAM_fx; /* dynamically filled */ + Word32 t1, t2, tmp32; + /* set pointers and initialize */ + + FOR( ch = 0; ch < CPE_CHANNELS; ch++ ) + { + sts[ch] = hCPE->hCoreCoder[ch]; + N[ch] = sts[ch]->hFdCngEnc->npartDec; + lr_in_ptr_fx[ch] = &sts[ch]->hFdCngEnc->msNoiseEst_fx[0]; + lr_in_ptr_e[ch] = sts[ch]->hFdCngEnc->msNoiseEst_fx_exp; + ms_ptr_fx[ch] = &logNoiseEst_fx[ch][0]; + lr_out_ptr_fx[ch] = &sts[ch]->hFdCngEnc->hFdCngCom->sidNoiseEst[0]; + lr_out_ptr_e[ch] = sts[ch]->hFdCngEnc->hFdCngCom->sidNoiseEstExp; + move16(); + } + set16_fx( weights_fx, ONE_IN_Q8, NPART ); + + /* apply log and save energy of original left and right channels */ + FOR( ch = 0; ch < CPE_CHANNELS; ch++ ) + { + // E[ch] = 0.0f; + E_fx[ch] = 0; + move32(); + FOR( p = 0; p < N[ch]; p++ ) + { + t1 = BASOP_Util_Log2( lr_in_ptr_fx[ch][p] + EPSILLON_FX ); // Q25 + t2 = L_add( t1, L_shl( lr_in_ptr_e[ch], Q25 ) ); // Q25 + ms_ptr_fx[ch][p] = Mpy_32_32( t2, TEN_MULT_LOG10_2_IN_Q29 ); // Q23 + move32(); + E_fx[ch] = L_add( E_fx[ch], L_shr( ms_ptr_fx[ch][p], 5 ) ); // Q18 + move32(); + } + } + ms_ptr_e = Q31 - Q23; + move16(); + + /* M/S transform on log envelopes */ + convertToMS_fx( N[0], ms_ptr_fx[0], ms_ptr_fx[1], ONE_IN_Q30 ); + E_fx[0] = 0; + move32(); + FOR( p = 0; p < N[0]; p++ ) + { + E_fx[0] = L_add( E_fx[0], L_shr( ms_ptr_fx[0][p], 5 ) ); // Q18 + move32(); + } + + /* Quantize M noise shape */ + /* Normalize MSVQ input */ + gain_fx[0] = 0; + move16(); + FOR( p = N_GAIN_MIN; p < N_GAIN_MAX; p++ ) + { + tmp32 = Mpy_32_32( ms_ptr_fx[0][p], 165191050 /* 0.07 in Q31 */ ); // Q23 + gain_fx[0] = L_add( gain_fx[0], tmp32 ); // Q23 + move32(); + } + + FOR( p = 0; p < N[0]; p++ ) + { + ms_ptr_fx[0][p] = L_sub( ms_ptr_fx[0][p], gain_fx[0] ); // Q23 + move32(); + } + + + /* MSVQ */ + /* DCT domain compressed/truncated indices used for first stage */ + /* mid quantization using stages #1 through 6 */ + scale_sig32( ms_ptr_fx[0], N[0], -6 ); + ms_ptr_e = add( ms_ptr_e, 6 ); + move16(); + IF( EQ_16( N[0], FDCNG_VQ_MAX_LEN_WB ) ) + { + create_IDCT_N_Matrix_fx( invTrfMatrix_fx, N[0], FDCNG_VQ_DCT_MAXTRUNC, sizeof( tmpRAM_fx ) / ( sizeof( Word32 ) ) ); + /* truncated DCT 21 analysis */ + dctT2_N_apply_matrix_fx( (const Word32 *) ms_ptr_fx[0], dct_target_fx, FDCNG_VQ_DCT_MAXTRUNC, N[0], invTrfMatrix_fx, FDCNG_VQ_DCT_MAXTRUNC, DCT_T2_21_XX ); + /* truncated IDCT21 extension to 24 synthesis */ + + extend_dctN_input_fx( ms_ptr_fx[0], dct_target_fx, N[0], tot_sig_ext_fx, FDCNG_VQ_MAX_LEN, invTrfMatrix_fx, FDCNG_VQ_DCT_MAXTRUNC, IDCT_T2_XX_21 ); /* use 18 basis vectors*/ + + Copy32( tot_sig_ext_fx, ms_ptr_fx[0], FDCNG_VQ_MAX_LEN ); /* write extended result as input to VQ stage #1 Q23*/ + } + create_IDCT_N_Matrix_fx( invTrfMatrix_fx, FDCNG_VQ_MAX_LEN, FDCNG_VQ_DCT_MAXTRUNC, sizeof( tmpRAM_fx ) / ( sizeof( Word32 ) ) ); + + msvq_enc_ivas_fx( ivas_cdk_37bits_fx, Q7, NULL, NULL, ms_ptr_fx[0], ms_ptr_e, levels_37bits, FD_CNG_maxC_37bits, FD_CNG_stages_37bits, weights_fx, N[0], FD_CNG_maxN_37bits, 1, invTrfMatrix_fx, indices[0] ); + msvq_dec_fx( ivas_cdk_37bits_fx, NULL, NULL, FD_CNG_stages_37bits, N[0], FD_CNG_maxN_37bits, indices[0], 1, invTrfMatrix_fx, ms_ptr_fx[0], NULL, 7 ); + shift = find_guarded_bits_fx( N[0] ); + ms_ptr_e = sub( 31, sub( 20, shift ) ); + scale_sig32( ms_ptr_fx[1], N[1], sub( 8, ms_ptr_e ) ); /* Q31 - ms_ptr_e */ + + /* set S to zero */ + set32_fx( ms_ptr_fx[1], 0, NPART ); + + /* compute M gain */ + gain_fx[0] = 0; + move32(); + tmp_e = 15; + move16(); + tmp = Inv16( N[0], &tmp_e ); + FOR( p = 0; p < N[0]; p++ ) + { + gain_fx[0] = L_add( gain_fx[0], Mpy_32_16_1( ms_ptr_fx[0][p], shl( tmp, tmp_e ) ) ); // Q23 + move32(); + } + gain_fx[0] = L_sub( L_shl( Mpy_32_16_1( E_fx[0], shl( tmp, tmp_e ) ), Q23 - Q18 ), L_shl( gain_fx[0], ms_ptr_e - 8 ) ); // Q23 + move32(); + + apply_scale( &gain_fx[0], sts[0]->hFdCngEnc->hFdCngCom->CngBandwidth, sts[0]->hDtxEnc->last_active_brate, scaleTableStereo, SIZE_SCALE_TABLE_STEREO ); + + /* quantize gain */ + gain_idx[0] = extract_l( Mpy_32_32_r( L_add( gain_fx[0], 251658240 ), 384 ) ); + move16(); + gain_idx[0] = s_max( 0, s_min( 127, gain_idx[0] ) ); + move16(); + + gain_fx[0] = Mpy_32_16_1( L_shl( sub( gain_idx[0], GAIN_Q_OFFSET_IVAS_FX_Q0 ), 23 ), 21845 /* 0.66 in Q15 */ ); // Q23 + move32(); + gain_fx[1] = gain_fx[0]; // Q23 + move32(); + + /* undo M/S */ + convertToMS_fx( NPART, ms_ptr_fx[0], ms_ptr_fx[1], ONE_IN_Q31 ); + + /* restore channel noise envelopes */ + FOR( ch = 0; ch < CPE_CHANNELS; ch++ ) + { + HANDLE_FD_CNG_ENC hFdCngEnc = sts[ch]->hFdCngEnc; + HANDLE_FD_CNG_COM hFdCngCom = hFdCngEnc->hFdCngCom; + + Word32 pow; + Word16 e_lr_out[NPART]; + tmp_e = -MAX_16; + FOR( p = 0; p < N[ch]; p++ ) + { + pow = L_shl( gain_fx[ch], sub( 8, ms_ptr_e ) ); /* Q31 - ms_ptr_e */ + pow = L_add( ms_ptr_fx[ch][p], pow ); /* Q31 - ms_ptr_e */ + pow = Mpy_32_32( pow, 214748365 /* 0.1 in Q31 */ ); /*pow = 0.1 Q31 - ms_ptr_e*/ + lr_out_ptr_fx[ch][p] = BASOP_Util_fPow( 10, 31, pow, ms_ptr_e, &e_lr_out[p] ); + tmp_e = s_max( tmp_e, e_lr_out[p] ); + } + + FOR( p = 0; p < N[ch]; p++ ) + { + lr_out_ptr_fx[ch][p] = L_shl( lr_out_ptr_fx[ch][p], sub( e_lr_out[p], tmp_e ) ); // Q(31 - tmp_e) + } + + sts[ch]->hFdCngEnc->hFdCngCom->sidNoiseEstExp = tmp_e; + move16(); + lr_out_ptr_e[ch] = tmp_e; + move16(); + + /* NB last band energy compensation */ + IF( hFdCngCom->CngBandwidth == NB ) + { + lr_out_ptr_fx[ch][N[ch] - 1] = Mpy_32_16_1( lr_out_ptr_fx[ch][N[ch] - 1], NB_LAST_BAND_SCALE ); // Q(31 - tmp_e) + move32(); + } + ELSE IF( hFdCngCom->CngBandwidth == SWB && LE_32( hFdCngCom->CngBitrate, ACELP_13k20 ) ) + { + lr_out_ptr_fx[ch][N[ch] - 1] = Mpy_32_16_1( lr_out_ptr_fx[ch][N[ch] - 1], SWB_13k2_LAST_BAND_SCALE ); // Q(31 - tmp_e) + move32(); + } + /* scale bands and get scalefactors */ + scalebands( lr_out_ptr_fx[ch], hFdCngEnc->partDec, N[ch], hFdCngEnc->midbandDec, hFdCngEnc->nFFTpartDec, sub( hFdCngEnc->stopBandDec, hFdCngEnc->startBandDec ), hFdCngCom->cngNoiseLevel, 1 ); + hFdCngCom->cngNoiseLevelExp = lr_out_ptr_e[ch]; + move16(); + lpc_from_spectrum( hFdCngCom, hFdCngEnc->startBandDec, hFdCngEnc->stopFFTbinDec, sts[ch]->preemph_fac ); + sts[ch]->hDtxEnc->last_CNG_L_frame = sts[ch]->L_frame; + } + sts[0]->hFdCngEnc->hFdCngCom->coherence_fx = 0; + move16(); + sts[1]->hFdCngEnc->hFdCngCom->coherence_fx = 0; + move16(); + + /* ---- Write SID bitstream ---- */ + + /* side info */ + push_indice( sts[0]->hBstr, IND_SID_TYPE, 1, 1 ); + push_indice( sts[0]->hBstr, IND_BWIDTH, sts[0]->bwidth, 2 ); + IF( EQ_16( sts[0]->L_frame, L_FRAME16k ) ) + { + push_indice( sts[0]->hBstr, IND_ACELP_16KHZ, 1, 1 ); + } + ELSE + { + push_indice( sts[0]->hBstr, IND_ACELP_16KHZ, 0, 1 ); + } + + /* noise shapes and channel gains */ + FOR( Word16 i = 0; i < FD_CNG_stages_37bits; i++ ) + { + push_indice( sts[0]->hBstr, IND_LSF, indices[0][i], bits_37bits[i] ); + } + push_indice( sts[0]->hBstr, IND_ENERGY, gain_idx[0], 7 ); + + return; +} diff --git a/lib_enc/find_tar_fx.c b/lib_enc/find_tar_fx.c index 4e15bc82820dbe3f6de8055ff78d911f814b63e9..4f24ec39f89d0468e5fead4014926f6e8497bf5f 100644 --- a/lib_enc/find_tar_fx.c +++ b/lib_enc/find_tar_fx.c @@ -3,7 +3,7 @@ ====================================================================================*/ #include #include "options.h" /* Compilation switches */ -//#include "prot_fx.h" /* Function prototypes */ +// #include "prot_fx.h" /* Function prototypes */ #include "prot_fx.h" /* Function prototypes */ #include "prot_fx_enc.h" /* Function prototypes */ #include "cnst.h" /* Common constants */ @@ -203,6 +203,7 @@ void find_targets_ivas_fx( temp[i] = sub_sat( speech[i + i_subfr - M], mem_syn[i] ); /* Q_new - 1 */ move16(); } + Scale_sig( temp, M, 1 ); // scaling to make belong function output alligned //Qnew syn_filt_fx( 0, p_Aq, M, &res[i_subfr], temp + M, L_subfr, temp, 0 ); @@ -292,3 +293,136 @@ void find_targets_ivas_fx( return; } + +void find_targets_ivas_new_fx( + const Word16 *speech, /* i : pointer to the speech frame Q_new-1*/ + const Word16 *mem_syn, /* i : memory of the synthesis filter Q_new-1*/ + const Word16 i_subfr, /* i : subframe index Q0*/ + Word16 *mem_w0, /* i/o: weighting filter denominator memory Q_new-1*/ + const Word16 *p_Aq, /* i : interpolated quantized A(z) filter Q12*/ + const Word16 *res, /* i : residual signal Q_new*/ + const Word16 L_subfr, /* i : length of vectors for gain quantization Q0*/ + const Word16 *Ap, /* i : unquantized A(z) filter with bandwidth expansion Q12*/ + Word16 tilt_fac, /* i : tilt factor Q15*/ + Word16 *xn, /* o : Close-loop Pitch search target vector Q_new-1*/ + Word16 *cn, /* o : target vector in residual domain Q_new*/ + Word16 *h1 /* o : impulse response of weighted synthesis filter Q(14 - norm_s(h1[0]))*/ +) +{ + Word16 i; + Word16 temp[M + 6 * L_SUBFR]; /* error of quantization */ + Word16 scale, scaleq, j, d, s, s2, tmp; + Word16 Aqs[M + 1]; + Word32 h1_32[6 * L_SUBFR]; + Word16 sf; + Word64 Ltmp64; +#ifdef BASOP_NOGLOB_DECLARE_LOCAL + Flag Overflow = 0; + move16(); +#endif + /*------------------------------------------------------------------------* + * Find the target vector for excitation search: + * + * |------| res[n] + * speech[n]---| A(z) |-------- + * |------| | |--------| error[n] |------| + * zero -- (-)--| 1/A(z) |-----------| W(z) |-- target + * exc |--------| |------| + * + * Instead of subtracting the zero-input response of filters from + * the weighted input speech, the above configuration is used to + * compute the target vector. + *-----------------------------------------------------------------------*/ + FOR( i = 0; i < M; i++ ) + { + temp[i] = sub_sat( speech[i + i_subfr - M], mem_syn[i] ); /* Q_new - 1 */ + move16(); + } + + syn_filt_fx( 1, p_Aq, M, &res[i_subfr], temp + M, L_subfr, temp, 0 ); + + Residu3_fx( Ap, temp + M, xn, L_subfr, 0 ); /* xn in Q_new - 1 */ + + deemph_fx( xn, tilt_fac, L_subfr, mem_w0 ); /* xn in Q_new - 1 */ + + + /*-----------------------------------------------------------------* + * Find target in residual domain (cn[]) for innovation search + *--------------------------------------------------------------*/ + IF( cn != NULL ) + { + /* first half: xn[] --> cn[] */ + temp[0] = 0; + move16(); + preemph_copy_fx( xn, cn, tilt_fac, L_SUBFR / 2, temp ); + syn_filt_s_lc_fx( 1, Ap, cn, temp, L_SUBFR / 2 ); /* Q-1 -> Q-2 */ + Residu3_lc_fx( p_Aq, M, temp, cn, L_SUBFR / 2, 1 ); /* Q-2 -> Q-1 */ + Scale_sig( cn, L_SUBFR / 2, 1 ); + + /* second half: res[] --> cn[] (approximated and faster) */ + Copy( &res[i_subfr + ( L_SUBFR / 2 )], cn + ( L_SUBFR / 2 ), L_SUBFR / 2 ); + } + + /*---------------------------------------------------------------* + * Compute impulse response, h1[], of weighted synthesis filter * + *---------------------------------------------------------------*/ + + scale = norm_s( Ap[0] ); + scaleq = norm_s( p_Aq[0] ); + d = sub( scaleq, scale ); + IF( d >= 0 ) + { + Copy( p_Aq, Aqs, M + 1 ); /* Q12 */ + s = add( scaleq, 1 ); + s2 = shr( 16384, d ); + } + ELSE + { + Copy_Scale_sig( p_Aq, Aqs, M + 1, d ); /* Q12 */ + s = add( scale, 1 ); + s2 = 16384; + move16(); + } + + set32_fx( h1_32, 0, L_subfr ); + Overflow = 0; + move16(); + FOR( i = 0; i < M; i++ ) + { + Ltmp64 = W_mult_16_16( Ap[i], s2 ); /* Q27 */ + FOR( j = 1; j <= i; j++ ) + { + Ltmp64 = W_msu_16_16( Ltmp64, Aqs[j], extract_h( L_shl_o( h1_32[i - j], s, &Overflow ) ) ); /* Q27 */ + } + h1_32[i] = W_extract_l( Ltmp64 ); /* Q27 */ + move32(); + } + + Ltmp64 = W_mult_16_16( Ap[i], s2 ); /* Q27 */ + FOR( j = 1; j <= M; j++ ) + { + Ltmp64 = W_msu_16_16( Ltmp64, Aqs[j], extract_h( L_shl_o( h1_32[i - j], s, &Overflow ) ) ); /* Q27 */ + } + h1_32[M] = W_extract_l( Ltmp64 ); /* Q27 */ + move32(); + + FOR( i = M + 1; i < L_subfr; i++ ) + { + Ltmp64 = W_msu_16_16( 0, Aqs[1], extract_h( L_shl_o( h1_32[i - 1], s, &Overflow ) ) ); /* Q27 */ + FOR( j = 2; j <= M; j++ ) + { + Ltmp64 = W_msu_16_16( Ltmp64, Aqs[j], extract_h( L_shl_o( h1_32[i - j], s, &Overflow ) ) ); /* Q27 */ + } + h1_32[i] = W_extract_l( Ltmp64 ); /* Q27 */ + move32(); + } + + sf = sub( L_norm_arr( h1_32, L_subfr ), 1 ); + Copy_Scale_sig32_16( h1_32, h1, L_subfr, sf ); // Q11 + sf + + tmp = 0; + move16(); + Deemph2( h1, tilt_fac, L_subfr, &tmp ); // Q11 + sf - 1 + + return; +} diff --git a/lib_enc/find_tilt.c b/lib_enc/find_tilt.c deleted file mode 100644 index efd1b44d24f231e0f64b16cdcc5d79c7daf4d77b..0000000000000000000000000000000000000000 --- a/lib_enc/find_tilt.c +++ /dev/null @@ -1,303 +0,0 @@ -/****************************************************************************************************** - - (C) 2022-2025 IVAS codec Public Collaboration with portions copyright Dolby International AB, Ericsson AB, - Fraunhofer-Gesellschaft zur Foerderung der angewandten Forschung e.V., Huawei Technologies Co. LTD., - Koninklijke Philips N.V., Nippon Telegraph and Telephone Corporation, Nokia Technologies Oy, Orange, - Panasonic Holdings Corporation, Qualcomm Technologies, Inc., VoiceAge Corporation, and other - contributors to this repository. All Rights Reserved. - - This software is protected by copyright law and by international treaties. - The IVAS codec Public Collaboration consisting of Dolby International AB, Ericsson AB, - Fraunhofer-Gesellschaft zur Foerderung der angewandten Forschung e.V., Huawei Technologies Co. LTD., - Koninklijke Philips N.V., Nippon Telegraph and Telephone Corporation, Nokia Technologies Oy, Orange, - Panasonic Holdings Corporation, Qualcomm Technologies, Inc., VoiceAge Corporation, and other - contributors to this repository retain full ownership rights in their respective contributions in - the software. This notice grants no license of any kind, including but not limited to patent - license, nor is any license granted by implication, estoppel or otherwise. - - Contributors are required to enter into the IVAS codec Public Collaboration agreement before making - contributions. - - This software is provided "AS IS", without any express or implied warranties. The software is in the - development stage. It is intended exclusively for experts who have experience with such software and - solely for the purpose of inspection. All implied warranties of non-infringement, merchantability - and fitness for a particular purpose are hereby disclaimed and excluded. - - Any dispute, controversy or claim arising under or in relation to providing this software shall be - submitted to and settled by the final, binding jurisdiction of the courts of Munich, Germany in - accordance with the laws of the Federal Republic of Germany excluding its conflict of law rules and - the United Nations Convention on Contracts on the International Sales of Goods. - -*******************************************************************************************************/ - -/*==================================================================================== - EVS Codec 3GPP TS26.443 Nov 04, 2021. Version 12.14.0 / 13.10.0 / 14.6.0 / 15.4.0 / 16.3.0 - ====================================================================================*/ - -#include -#include "options.h" -#include -#include "cnst.h" -#include "prot.h" -#include "wmc_auto.h" - -#include "prot_fx.h" /* Function prototypes */ -#include "prot_fx_enc.h" /* Function prototypes */ - - -/*---------------------------------------------------------------------* - * Local constants - *---------------------------------------------------------------------*/ - - -/*-------------------------------------------------------------------* - * find_tilt() - * - * Find LF/HF energy ratio - *-------------------------------------------------------------------*/ -void find_tilt_ivas_fx( - const Word32 fr_bands[], /* i : energy in frequency bands q_fr_bands*/ - const Word16 q_fr_bands, /* i : Q of fr_bands Q0*/ - const Word32 bckr[], /* i : per band background noise energy estimate q_bckr*/ - const Word16 q_bckr, /* i : Q of bckr Q0*/ - Word32 ee[2], /* o : lf/hf E ration for present frame Q6*/ - const Word16 pitch[3], /* i : open loop pitch values for 3 half-frames Q0*/ - const Word16 voicing[3], /* i : normalized correlation for 3 half-frames Q15*/ - const Word32 *lf_E, /* i : per bin energy for low frequencies q_lf_E*/ - const Word16 q_lf_E, /* i : Q of lf_E */ - const Word16 corr_shift, /* i : normalized correlation correction Q15*/ - const Word16 bwidth, /* i : input signal bandwidth */ - const Word16 max_band, /* i : maximum critical band */ - Word32 hp_E[], /* o : energy in HF Q_new*/ - const Word16 codec_mode, /* i : MODE1 or MODE2 */ - Word32 *bckr_tilt_lt, /* i/o: lf/hf E ratio of background noise Q16 */ - Word16 Opt_vbr_mode ) -{ - Word32 lp_bckr = 0, hp_bckr = 0, lp_E, Ltmp; - const Word32 *pt_E, *pt_bands, *pt_bckr, *hf_bands, *tmp_E; - Word16 tmp, freq, f0, f1, f2, mean_voi, bin; - Word16 i, nb_bands; - Word16 e_tmp, m_tmp; - Word16 m_Fs, e_Fs; - Word16 m_cnt, e_cnt; - Word16 m_hpE, e_hpE; - Word64 sum; - Word16 inv_bands, q_lp_E; - Word32 Le_min_scaled, Ltmp2; -#ifdef BASOP_NOGLOB_DECLARE_LOCAL - Flag Overflow = 0; - move32(); -#endif - move32(); - move32(); - /*-----------------------------------------------------------------* - * Initializations - *-----------------------------------------------------------------*/ - - IF( ( bwidth != NB ) ) - { - /* WB processing */ - bin = BIN4_FX; - move16(); /* First useful frequency bin ~ 50 Hz */ - pt_bands = fr_bands; /* Q_new */ - tmp_E = lf_E; /* Q_new - 2 */ - pt_bckr = bckr; /* Q_new */ - nb_bands = 10; - inv_bands = 3277 /* 1/10 in Q15 */; - move16(); - move16(); - } - ELSE - { - /* NB processing */ - bin = 3 * BIN4_FX; /* First useful frequency bin ~ 150 Hz */ - pt_bands = fr_bands + 1; /* Exlcude 1st critical band */ - tmp_E = lf_E + 2; /* Start at the 3rd bin (150 Hz) */ - pt_bckr = bckr + 1; /* Exlcude 1st critical band */ - nb_bands = 9; - inv_bands = 3641; /* 1/9 in Q15 */ - move16(); - move16(); /* Nb. of "low" frequency bands taken into account in NB processing */ - } - - /*-----------------------------------------------------------------* - * Find spectrum tilt - *-----------------------------------------------------------------*/ - - pt_E = tmp_E; /* Point at the 1st useful element of the per-bin energy vector */ - hf_bands = fr_bands; - - /* bckr + voicing */ - /*lp_bckr = mean( pt_bckr, nb_bands );*/ /* estimated noise E in first critical bands, up to 1270 Hz */ - sum = 0; - move64(); - FOR( i = 0; i < nb_bands; i++ ) - { - sum = W_mac_32_16( sum, pt_bckr[i], inv_bands ); // q_bckr+16 - } - lp_bckr = W_shl_sat_l( sum, -16 ); // q_bckr - /*hp_bckr = 0.5f * (bckr[max_band-1] + bckr[max_band]);*/ /* estimated noise E in last 2 critical bands */ - hp_bckr = W_extract_h( W_mac_32_32( W_mult_32_32( bckr[max_band - 1], ONE_IN_Q30 ), bckr[max_band], ONE_IN_Q30 ) ); // q_bckr - if ( hp_bckr == 0 ) /* Avoid division by zero. */ - { - hp_bckr = L_deposit_l( 1 ); - } - Ltmp = BASOP_Util_Divide3232_Scale_cadence( lp_bckr, hp_bckr, &e_tmp ); - Ltmp = Mpy_32_16_r( Ltmp, 3277 /* 0.1f in Q15 */ ); - Ltmp = L_shr_sat( Ltmp, sub( 15, e_tmp ) ); - *bckr_tilt_lt = L_add_sat( Mpy_32_16_r( *bckr_tilt_lt, 29491 /* 0.9f in Q15 */ ), Ltmp ); // Q16 - move32(); - - test(); - IF( EQ_16( codec_mode, MODE2 ) || EQ_16( Opt_vbr_mode, 1 ) ) - { - /*lp_bckr *= FACT;*/ - /*hp_bckr *= FACT;*/ - lp_bckr = L_add_sat( L_shl_sat( lp_bckr, 1 ), lp_bckr ); /* Q_new */ - hp_bckr = L_add_sat( L_shl_sat( hp_bckr, 1 ), hp_bckr ); /* Q_new */ - } - /*mean_voi = 0.5f * (voicing[1] + voicing[2]) + corr_shift;*/ - Ltmp = L_mult( voicing[1], 16384 /* 0.5 in Q15 */ ); // Q31 - Ltmp = L_mac( Ltmp, voicing[2], 16384 /* 0.5 in Q15 */ ); // Q31 - Ltmp = L_mac_o( Ltmp, corr_shift, 32767 /* 1.0f in Q15 */, &Overflow ); // Q31 - mean_voi = round_fx_o( Ltmp, &Overflow ); // Q15 - - /*f0 = INT_FS_FX / pitch[2];*/ - e_tmp = norm_s( pitch[2] ); - m_tmp = shl( pitch[2], e_tmp ); - - m_Fs = div_s( INT_FS_FX, m_tmp ); /* exp(e_tmp) */ - e_Fs = sub( 15, e_tmp ); - f0 = shr( m_Fs, sub( e_Fs, 4 ) ); /* Q4 */ - - Le_min_scaled = L_shl( E_MIN_FXQ31, sub( q_fr_bands, Q31 ) ); // q_fr_bands=q_bckr - - FOR( i = 0; i < 2; i++ ) - { - /*hp_E[i] = 0.5f * (hf_bands[max_band-1] + hf_bands[max_band]) - hp_bckr; */ /* averaged E in last 2 critical bands */ - Ltmp = W_extract_h( W_mac_32_32( W_mult_32_32( hf_bands[max_band - 1], ONE_IN_Q30 ), hf_bands[max_band], ONE_IN_Q30 ) ); // q_fr_bands - Ltmp = L_sub( Ltmp, hp_bckr ); // q_fr_bands - - Ltmp2 = L_max( Ltmp, L_shl_sat( 1, q_fr_bands ) ); // q_fr_bands, saturation is added because q_fr_bands is limited to 31 - if ( Opt_vbr_mode == 0 ) - { - Ltmp2 = L_max( Ltmp, Le_min_scaled ); // q_fr_bands - } - hp_E[i] = L_max( Ltmp2, 1 ); // to prevent division by zero - move32(); - - test(); - IF( GT_16( mean_voi, TH_COR_FX ) && LT_16( pitch[2], TH_PIT_FX ) ) /* High-pitched voiced frames */ - { - freq = bin; // Q4 - move16(); /* 1st useful frequency bin */ - m_cnt = 0; - move16(); - sum = 0; - move64(); - - f1 = add( shr( f0, 1 ), f0 ); /* Middle between 2 harmonics */ - f2 = f0; - move16(); - WHILE( LE_16( freq, 20320 /* 1270.0f in Q4 */ ) ) /* End frequency of 10th critical band */ - { - FOR( ; freq <= f1; freq += BIN4_FX ) - { - /* include only bins sufficiently close to harmonics */ - tmp = sub( freq, f2 ); - IF( L_mac0( -TH_D_FX * TH_D_FX, tmp, tmp ) < 0 ) - { - sum = W_mac_32_16( sum, *pt_E, 1 ); // q_lf_E+1 - m_cnt = add( m_cnt, 1 ); - } - pt_E++; - } - f1 = add_o( f1, f0, &Overflow ); - f2 = add_o( f2, f0, &Overflow ); - } - /*lp_E = lp_E / (float)cnt - lp_bckr;*/ - e_tmp = sub( W_norm( sum ), 1 ); - m_tmp = extract_h( W_extract_h( W_shl( sum, e_tmp ) ) ); // q_lf_E+1+e_tmp-32-16 - e_tmp = sub( add( q_lf_E, e_tmp ), 47 ); - - e_cnt = norm_s( m_cnt ); - m_cnt = shl( m_cnt, e_cnt ); // e_cnt - - m_tmp = div_s( m_tmp, m_cnt ); // Q15+e_tmp-e_cnt - e_tmp = add( Q15, sub( e_tmp, e_cnt ) ); - sum = W_shl( m_tmp, sub( add( q_bckr, 1 ), e_tmp ) ); // q_bckr+1 - sum = W_msu_32_16( sum, lp_bckr, 1 ); // q_bckr+1 - q_lp_E = W_norm( sum ); - lp_E = W_extract_h( W_shl( sum, q_lp_E ) ); // q_bckr+1+q_lp_E-32 - q_lp_E = sub( add( q_lp_E, q_bckr ), Q31 ); - - pt_E = tmp_E + VOIC_BINS; /* Update for next half-frame Q_new - 1 */ - } - ELSE /* Other than high-pitched voiced frames */ - { - /*lp_E = mean( pt_bands, nb_bands ) - lp_bckr;*/ /* averaged E in first critical bands, up to 1270 Hz */ - sum = 0; - move64(); - FOR( Word16 j = 0; j < nb_bands; j++ ) - { - sum = W_mac_32_16( sum, pt_bands[j], inv_bands ); // q_fr_bands+16 - } - sum = W_mac_32_16( sum, lp_bckr, -ONE_IN_Q15 ); // q_fr_bands+16 - lp_E = W_round48_L( sum ); // q_fr_bands=q_bckr - q_lp_E = q_bckr; // q_fr_bands=q_bckr - move16(); - } - test(); - IF( Opt_vbr_mode == 0 && GT_32( L_shl_sat( Le_min_scaled, sub( q_lp_E, q_bckr ) ), lp_E ) ) - { - lp_E = E_MIN_FXQ31; - q_lp_E = Q31; - move32(); - move16(); - } - if ( Opt_vbr_mode != 0 ) - { - lp_E = L_max( lp_E, 0 ); // q_lp_E - } - /*ee[i] = lp_E / hp_E[i];*/ /* LF/HF ratio */ - - if ( lp_E == 0 ) - { - ee[i] = 0; - move32(); - } - test(); - IF( lp_E != 0 ) - { - e_tmp = sub( norm_l( lp_E ), 1 ); - m_tmp = extract_h( L_shl( lp_E, e_tmp ) ); // e_tmp+q_lp_E-16 - e_hpE = norm_l( hp_E[i] ); - m_hpE = extract_h( L_shl( hp_E[i], e_hpE ) ); // e_hpE+q_bckr-16 - m_tmp = div_s( m_tmp, m_hpE ); // Q15+(e_tmp+q_lp_E)-(e_hpE+q_bckr) - e_tmp = sub( add( e_tmp, q_lp_E ), add( e_hpE, q_bckr ) ); - ee[i] = L_shr_o( m_tmp, add( e_tmp, 15 - 6 ), &Overflow ); /* ee in Q6 */ - move32(); - } - - IF( bwidth == NB ) /* For NB input, compensate for the missing bands */ - { - Ltmp = L_shl_o( ee[i], 3, &Overflow ); /* Q6 */ - IF( EQ_32( Ltmp, MAX_32 ) ) /* if Overflow: Compute with less precision */ - { - Ltmp = Mult_32_16( ee[i], 24576 /* 0.75 in Q15 */ ); /* 6/8 Q6*/ - ee[i] = L_shl_sat( Ltmp, 3 ); /* Q6 */ - move32(); /* x8 */ - } - ELSE - { - ee[i] = Mult_32_16( Ltmp, 24576 /* 0.75 in Q15 */ ); - move32(); /* 6/8 */ - } - } - - pt_bands += NB_BANDS; /* Update for next half-frame */ - hf_bands += NB_BANDS; - } - - return; -} diff --git a/lib_enc/find_tilt_fx.c b/lib_enc/find_tilt_fx.c index 44ad404e379b1ba6cc234b1b013d9d6e7e2942c2..ed8ff425efa6840f334b4f8ad70a35ac646f95a9 100644 --- a/lib_enc/find_tilt_fx.c +++ b/lib_enc/find_tilt_fx.c @@ -93,11 +93,7 @@ void find_tilt_fx( } tmp = BASOP_Util_Divide3232_Scale( lp_bckr, hp_bckr, &e_tmp ); -#ifdef FIX_ISSUE_1152 Ltmp = L_shr_r_sat( L_deposit_h( tmp ), sub( 15, e_tmp ) ); -#else - Ltmp = L_shr_r( L_deposit_h( tmp ), sub( 15, e_tmp ) ); -#endif *bckr_tilt_lt = L_add( Mpy_32_16_r( *bckr_tilt_lt, 29491 ), Mpy_32_16_r( Ltmp, 3277 ) ); /* Q16 */ @@ -240,3 +236,255 @@ void find_tilt_fx( return; } + +/*-------------------------------------------------------------------* + * find_tilt() + * + * Find LF/HF energy ratio + *-------------------------------------------------------------------*/ +void find_tilt_ivas_fx( + const Word32 fr_bands[], /* i : energy in frequency bands q_fr_bands*/ + const Word16 q_fr_bands, /* i : Q of fr_bands Q0*/ + const Word32 bckr[], /* i : per band background noise energy estimate q_bckr*/ + const Word16 q_bckr, /* i : Q of bckr Q0*/ + Word32 ee[2], /* o : lf/hf E ration for present frame Q6*/ + const Word16 pitch[3], /* i : open loop pitch values for 3 half-frames Q0*/ + const Word16 voicing[3], /* i : normalized correlation for 3 half-frames Q15*/ + const Word32 *lf_E, /* i : per bin energy for low frequencies q_lf_E*/ + const Word16 q_lf_E, /* i : Q of lf_E */ + const Word16 corr_shift, /* i : normalized correlation correction Q15*/ + const Word16 bwidth, /* i : input signal bandwidth */ + const Word16 max_band, /* i : maximum critical band */ + Word32 hp_E[], /* o : energy in HF Q_new*/ + const Word16 codec_mode, /* i : MODE1 or MODE2 */ + Word32 *bckr_tilt_lt, /* i/o: lf/hf E ratio of background noise Q16 */ + Word16 Opt_vbr_mode ) +{ + Word32 lp_bckr = 0, hp_bckr = 0, lp_E, Ltmp; + const Word32 *pt_E, *pt_bands, *pt_bckr, *hf_bands, *tmp_E; + Word16 tmp, freq, f0, f1, f2, mean_voi, bin; + Word16 i, nb_bands; + Word16 e_tmp, m_tmp; + Word16 m_Fs, e_Fs; + Word16 m_cnt, e_cnt; + Word16 m_hpE, e_hpE; + Word64 sum; + Word16 inv_bands, q_lp_E; + Word32 Le_min_scaled, Ltmp2; +#ifdef BASOP_NOGLOB_DECLARE_LOCAL + Flag Overflow = 0; + move32(); +#endif + move32(); + move32(); + /*-----------------------------------------------------------------* + * Initializations + *-----------------------------------------------------------------*/ + + IF( ( bwidth != NB ) ) + { + /* WB processing */ + bin = BIN4_FX; + move16(); /* First useful frequency bin ~ 50 Hz */ + pt_bands = fr_bands; /* Q_new */ + tmp_E = lf_E; /* Q_new - 2 */ + pt_bckr = bckr; /* Q_new */ + nb_bands = 10; + inv_bands = 3277 /* 1/10 in Q15 */; + move16(); + move16(); + } + ELSE + { + /* NB processing */ + bin = 3 * BIN4_FX; /* First useful frequency bin ~ 150 Hz */ + pt_bands = fr_bands + 1; /* Exlcude 1st critical band */ + tmp_E = lf_E + 2; /* Start at the 3rd bin (150 Hz) */ + pt_bckr = bckr + 1; /* Exlcude 1st critical band */ + nb_bands = 9; + inv_bands = 3641; /* 1/9 in Q15 */ + move16(); + move16(); /* Nb. of "low" frequency bands taken into account in NB processing */ + } + + /*-----------------------------------------------------------------* + * Find spectrum tilt + *-----------------------------------------------------------------*/ + + pt_E = tmp_E; /* Point at the 1st useful element of the per-bin energy vector */ + hf_bands = fr_bands; + + /* bckr + voicing */ + /*lp_bckr = mean( pt_bckr, nb_bands );*/ /* estimated noise E in first critical bands, up to 1270 Hz */ + sum = 0; + move64(); + FOR( i = 0; i < nb_bands; i++ ) + { + sum = W_mac_32_16( sum, pt_bckr[i], inv_bands ); // q_bckr+16 + } + lp_bckr = W_shl_sat_l( sum, -16 ); // q_bckr + /*hp_bckr = 0.5f * (bckr[max_band-1] + bckr[max_band]);*/ /* estimated noise E in last 2 critical bands */ + hp_bckr = W_extract_h( W_mac_32_32( W_mult_32_32( bckr[max_band - 1], ONE_IN_Q30 ), bckr[max_band], ONE_IN_Q30 ) ); // q_bckr + if ( hp_bckr == 0 ) /* Avoid division by zero. */ + { + hp_bckr = L_deposit_l( 1 ); + } + Ltmp = BASOP_Util_Divide3232_Scale_cadence( lp_bckr, hp_bckr, &e_tmp ); + Ltmp = Mpy_32_16_r( Ltmp, 3277 /* 0.1f in Q15 */ ); + Ltmp = L_shr_sat( Ltmp, sub( 15, e_tmp ) ); + *bckr_tilt_lt = L_add_sat( Mpy_32_16_r( *bckr_tilt_lt, 29491 /* 0.9f in Q15 */ ), Ltmp ); // Q16 + move32(); + + test(); + IF( EQ_16( codec_mode, MODE2 ) || EQ_16( Opt_vbr_mode, 1 ) ) + { + /*lp_bckr *= FACT;*/ + /*hp_bckr *= FACT;*/ + lp_bckr = L_add_sat( L_shl_sat( lp_bckr, 1 ), lp_bckr ); /* Q_new */ + hp_bckr = L_add_sat( L_shl_sat( hp_bckr, 1 ), hp_bckr ); /* Q_new */ + } + /*mean_voi = 0.5f * (voicing[1] + voicing[2]) + corr_shift;*/ + Ltmp = L_mult( voicing[1], 16384 /* 0.5 in Q15 */ ); // Q31 + Ltmp = L_mac( Ltmp, voicing[2], 16384 /* 0.5 in Q15 */ ); // Q31 + Ltmp = L_mac_o( Ltmp, corr_shift, 32767 /* 1.0f in Q15 */, &Overflow ); // Q31 + mean_voi = round_fx_o( Ltmp, &Overflow ); // Q15 + + /*f0 = INT_FS_FX / pitch[2];*/ + e_tmp = norm_s( pitch[2] ); + m_tmp = shl( pitch[2], e_tmp ); + + m_Fs = div_s( INT_FS_FX, m_tmp ); /* exp(e_tmp) */ + e_Fs = sub( 15, e_tmp ); + f0 = shr( m_Fs, sub( e_Fs, 4 ) ); /* Q4 */ + + Le_min_scaled = L_shl( E_MIN_FXQ31, sub( q_fr_bands, Q31 ) ); // q_fr_bands=q_bckr + + FOR( i = 0; i < 2; i++ ) + { + /*hp_E[i] = 0.5f * (hf_bands[max_band-1] + hf_bands[max_band]) - hp_bckr; */ /* averaged E in last 2 critical bands */ + Ltmp = W_extract_h( W_mac_32_32( W_mult_32_32( hf_bands[max_band - 1], ONE_IN_Q30 ), hf_bands[max_band], ONE_IN_Q30 ) ); // q_fr_bands + Ltmp = L_sub( Ltmp, hp_bckr ); // q_fr_bands + + Ltmp2 = L_max( Ltmp, L_shl_sat( 1, q_fr_bands ) ); // q_fr_bands, saturation is added because q_fr_bands is limited to 31 + if ( Opt_vbr_mode == 0 ) + { + Ltmp2 = L_max( Ltmp, Le_min_scaled ); // q_fr_bands + } + hp_E[i] = L_max( Ltmp2, 1 ); // to prevent division by zero + move32(); + + test(); + IF( GT_16( mean_voi, TH_COR_FX ) && LT_16( pitch[2], TH_PIT_FX ) ) /* High-pitched voiced frames */ + { + freq = bin; // Q4 + move16(); /* 1st useful frequency bin */ + m_cnt = 0; + move16(); + sum = 0; + move64(); + + f1 = add( shr( f0, 1 ), f0 ); /* Middle between 2 harmonics */ + f2 = f0; + move16(); + WHILE( LE_16( freq, 20320 /* 1270.0f in Q4 */ ) ) /* End frequency of 10th critical band */ + { + FOR( ; freq <= f1; freq += BIN4_FX ) + { + /* include only bins sufficiently close to harmonics */ + tmp = sub( freq, f2 ); + IF( L_mac0( -TH_D_FX * TH_D_FX, tmp, tmp ) < 0 ) + { + sum = W_mac_32_16( sum, *pt_E, 1 ); // q_lf_E+1 + m_cnt = add( m_cnt, 1 ); + } + pt_E++; + } + f1 = add_o( f1, f0, &Overflow ); + f2 = add_o( f2, f0, &Overflow ); + } + /*lp_E = lp_E / (float)cnt - lp_bckr;*/ + e_tmp = sub( W_norm( sum ), 1 ); + m_tmp = extract_h( W_extract_h( W_shl( sum, e_tmp ) ) ); // q_lf_E+1+e_tmp-32-16 + e_tmp = sub( add( q_lf_E, e_tmp ), 47 ); + + e_cnt = norm_s( m_cnt ); + m_cnt = shl( m_cnt, e_cnt ); // e_cnt + + m_tmp = div_s( m_tmp, m_cnt ); // Q15+e_tmp-e_cnt + e_tmp = add( Q15, sub( e_tmp, e_cnt ) ); + sum = W_shl( m_tmp, sub( add( q_bckr, 1 ), e_tmp ) ); // q_bckr+1 + sum = W_msu_32_16( sum, lp_bckr, 1 ); // q_bckr+1 + q_lp_E = W_norm( sum ); + lp_E = W_extract_h( W_shl( sum, q_lp_E ) ); // q_bckr+1+q_lp_E-32 + q_lp_E = sub( add( q_lp_E, q_bckr ), Q31 ); + + pt_E = tmp_E + VOIC_BINS; /* Update for next half-frame Q_new - 1 */ + } + ELSE /* Other than high-pitched voiced frames */ + { + /*lp_E = mean( pt_bands, nb_bands ) - lp_bckr;*/ /* averaged E in first critical bands, up to 1270 Hz */ + sum = 0; + move64(); + FOR( Word16 j = 0; j < nb_bands; j++ ) + { + sum = W_mac_32_16( sum, pt_bands[j], inv_bands ); // q_fr_bands+16 + } + sum = W_mac_32_16( sum, lp_bckr, -ONE_IN_Q15 ); // q_fr_bands+16 + lp_E = W_round48_L( sum ); // q_fr_bands=q_bckr + q_lp_E = q_bckr; // q_fr_bands=q_bckr + move16(); + } + test(); + IF( Opt_vbr_mode == 0 && GT_32( L_shl_sat( Le_min_scaled, sub( q_lp_E, q_bckr ) ), lp_E ) ) + { + lp_E = E_MIN_FXQ31; + q_lp_E = Q31; + move32(); + move16(); + } + if ( Opt_vbr_mode != 0 ) + { + lp_E = L_max( lp_E, 0 ); // q_lp_E + } + /*ee[i] = lp_E / hp_E[i];*/ /* LF/HF ratio */ + + if ( lp_E == 0 ) + { + ee[i] = 0; + move32(); + } + test(); + IF( lp_E != 0 ) + { + e_tmp = sub( norm_l( lp_E ), 1 ); + m_tmp = extract_h( L_shl( lp_E, e_tmp ) ); // e_tmp+q_lp_E-16 + e_hpE = norm_l( hp_E[i] ); + m_hpE = extract_h( L_shl( hp_E[i], e_hpE ) ); // e_hpE+q_bckr-16 + m_tmp = div_s( m_tmp, m_hpE ); // Q15+(e_tmp+q_lp_E)-(e_hpE+q_bckr) + e_tmp = sub( add( e_tmp, q_lp_E ), add( e_hpE, q_bckr ) ); + ee[i] = L_shr_o( m_tmp, add( e_tmp, 15 - 6 ), &Overflow ); /* ee in Q6 */ + move32(); + } + + IF( bwidth == NB ) /* For NB input, compensate for the missing bands */ + { + Ltmp = L_shl_o( ee[i], 3, &Overflow ); /* Q6 */ + IF( EQ_32( Ltmp, MAX_32 ) ) /* if Overflow: Compute with less precision */ + { + Ltmp = Mult_32_16( ee[i], 24576 /* 0.75 in Q15 */ ); /* 6/8 Q6*/ + ee[i] = L_shl_sat( Ltmp, 3 ); /* Q6 */ + move32(); /* x8 */ + } + ELSE + { + ee[i] = Mult_32_16( Ltmp, 24576 /* 0.75 in Q15 */ ); + move32(); /* 6/8 */ + } + } + + pt_bands += NB_BANDS; /* Update for next half-frame */ + hf_bands += NB_BANDS; + } + + return; +} diff --git a/lib_enc/find_uv.c b/lib_enc/find_uv.c deleted file mode 100644 index c6ae02a76934bb14b64ac4a5d08615d15b4f6754..0000000000000000000000000000000000000000 --- a/lib_enc/find_uv.c +++ /dev/null @@ -1,660 +0,0 @@ -/****************************************************************************************************** - - (C) 2022-2025 IVAS codec Public Collaboration with portions copyright Dolby International AB, Ericsson AB, - Fraunhofer-Gesellschaft zur Foerderung der angewandten Forschung e.V., Huawei Technologies Co. LTD., - Koninklijke Philips N.V., Nippon Telegraph and Telephone Corporation, Nokia Technologies Oy, Orange, - Panasonic Holdings Corporation, Qualcomm Technologies, Inc., VoiceAge Corporation, and other - contributors to this repository. All Rights Reserved. - - This software is protected by copyright law and by international treaties. - The IVAS codec Public Collaboration consisting of Dolby International AB, Ericsson AB, - Fraunhofer-Gesellschaft zur Foerderung der angewandten Forschung e.V., Huawei Technologies Co. LTD., - Koninklijke Philips N.V., Nippon Telegraph and Telephone Corporation, Nokia Technologies Oy, Orange, - Panasonic Holdings Corporation, Qualcomm Technologies, Inc., VoiceAge Corporation, and other - contributors to this repository retain full ownership rights in their respective contributions in - the software. This notice grants no license of any kind, including but not limited to patent - license, nor is any license granted by implication, estoppel or otherwise. - - Contributors are required to enter into the IVAS codec Public Collaboration agreement before making - contributions. - - This software is provided "AS IS", without any express or implied warranties. The software is in the - development stage. It is intended exclusively for experts who have experience with such software and - solely for the purpose of inspection. All implied warranties of non-infringement, merchantability - and fitness for a particular purpose are hereby disclaimed and excluded. - - Any dispute, controversy or claim arising under or in relation to providing this software shall be - submitted to and settled by the final, binding jurisdiction of the courts of Munich, Germany in - accordance with the laws of the Federal Republic of Germany excluding its conflict of law rules and - the United Nations Convention on Contracts on the International Sales of Goods. - -*******************************************************************************************************/ - -/*==================================================================================== - EVS Codec 3GPP TS26.443 Nov 04, 2021. Version 12.14.0 / 13.10.0 / 14.6.0 / 15.4.0 / 16.3.0 - ====================================================================================*/ - -#include -#include "options.h" -#include -#include "cnst.h" -#include "prot.h" -#include "wmc_auto.h" - -#include "prot_fx.h" /* Function prototypes */ -#include "prot_fx_enc.h" /* Function prototypes */ - -/*-------------------------------------------------------------------* - * Local constants - *-------------------------------------------------------------------*/ - -#define L_ENR ( NB_SSF + 2 ) - -/*-------------------------------------------------------------------* - * find_ener_decrease() - * - * Find maximum energy ratio between short sub-subframes in case - * energy is trailing off after a spike - *-------------------------------------------------------------------*/ - -/*! r: maximum energy ratio */ -static Word16 find_ener_decrease_fx( /* o : maximum energy ratio Q10*/ - const Word16 ind_deltaMax, /* i : index of the beginning of maximum energy search Q0*/ - const Word32 *pt_enr_ssf /* i : Pointer to the energy buffer Qx*/ -) -{ - Word16 i, j, end, flag; - Word16 wtmp0, wtmp1; - Word32 maxEnr, minEnr; - Word16 dE2, exp0, exp1; -#ifdef BASOP_NOGLOB_DECLARE_LOCAL - Flag Overflow = 0; - move32(); -#endif - dE2 = 0; - move16(); - - j = add( ind_deltaMax, 2 ); /* Q0 */ - move16(); - end = add( j, L_ENR ); - move16(); - maxEnr = L_add( pt_enr_ssf[j], 0 ); - j = add( j, 1 ); - flag = 0; - move16(); - FOR( i = j; i < end; i++ ) - { - test(); - IF( ( GT_32( pt_enr_ssf[i], maxEnr ) ) && ( flag == 0 ) ) - { - maxEnr = pt_enr_ssf[i]; /* Qx */ - j = add( j, 1 ); - } - ELSE - { - flag = 1; - move16(); - } - } - - minEnr = L_add( maxEnr, 0 ); - FOR( i = j; i < end; i++ ) - { - minEnr = L_min( minEnr, pt_enr_ssf[i] ); /* Qx */ - } - - - minEnr = L_add_sat( minEnr, 100000 ); - exp0 = norm_l( minEnr ); - wtmp0 = extract_h( L_shl( minEnr, exp0 ) ); - exp1 = sub( norm_l( maxEnr ), 1 ); - wtmp1 = extract_h( L_shl( maxEnr, exp1 ) ); - wtmp1 = div_s( wtmp1, wtmp0 ); - dE2 = shr_ro( wtmp1, add( sub( exp1, exp0 ), 15 - 10 ), &Overflow ); /*Q10*/ - - return dE2; -} - -/*-------------------------------------------------------------------* - * find_uv() - * - * Decision about coder type - *-------------------------------------------------------------------*/ -Word16 find_uv_ivas_fx( /* o : coding type */ - Encoder_State *st_fx, /* i/o: encoder state structure */ - const Word16 *T_op_fr, /* i : pointer to adjusted fractional pitch (4 val.) Q6*/ - const Word16 *voicing_fr, /* i : refined correlation for each subframes Q15*/ - const Word16 *speech, /* i : pointer to speech signal for E computation Q_new*/ - const Word32 *ee, /* i : lf/hf Energy ratio for present frame Q6*/ - Word32 *dE1X, /* o : sudden energy increase for S/M classifier Q13*/ - const Word16 corr_shift, /* i : normalized correlation correction in noise Q15*/ - const Word16 relE, /* i : relative frame energy Q8*/ - const Word16 Etot, /* i : total energy Q8*/ - const Word32 hp_E[], /* i : energy in HF q_hp_E*/ - Word16 *flag_spitch, /* i/o: flag to indicate very short stable pitch and high correlation Q0*/ - const Word16 last_core_orig, /* i : original last core Q0*/ - STEREO_CLASSIF_HANDLE hStereoClassif, /* i/o: stereo classifier structure */ - const Word16 Q_new, - const Word16 q_hp_E ) -{ - Word16 coder_type, i; - Word32 mean_ee, dE1, fac_32; - const Word16 *pt_speech; - Word32 L_tmp, enr_ssf[2 * NB_SSF + 2 * NB_SSF + 2], E_min_th; - Word16 dE2; - Word16 ind_deltaMax, tmp_offset_flag; - Word32 Ltmp0, *pt_enr_ssf, *pt_enr_ssf1, dE2_th; - Word16 exp0, exp1; - Word16 wtmp0, wtmp1; - Word16 fac, mean_voi3, dE3; - Word16 relE_thres; - Word16 mean_voi3_offset; - Word16 voicing_m, dpit1, dpit2, dpit3; - Word16 ee0_th, ee1_th, voi_th, nb_cond, flag_low_relE; - NOISE_EST_HANDLE hNoiseEst = st_fx->hNoiseEst; - SC_VBR_ENC_HANDLE hSC_VBR = st_fx->hSC_VBR; -#ifdef BASOP_NOGLOB_DECLARE_LOCAL - Flag Overflow = 0; - move32(); -#endif - Word16 Last_Resort; - Word16 vadnoise; - - IF( hSC_VBR != NULL ) - { - Last_Resort = hSC_VBR->Last_Resort; /* Q0 */ - move16(); - vadnoise = hSC_VBR->vadnoise_fx; /* Q8 */ - move16(); - } - ELSE - { - Last_Resort = 0; - move16(); - vadnoise = 0; - move16(); - } - - /*-----------------------------------------------------------------* - * Detect sudden energy increases to catch voice and music - * temporal events (dE1) - * - * - Find maximum energy per short subblocks. - * Two subblock sets are used shifted by half the subblock length - * - Find maximum energy ratio between adjacent subblocks - *-----------------------------------------------------------------*/ - - /* Find maximum energy per short subblocks */ - pt_speech = speech - SSF; - pt_enr_ssf = enr_ssf + 2 * NB_SSF; - FOR( i = 0; i < 2 * ( NB_SSF + 1 ); i++ ) - { - emaximum_fx( Q_new, pt_speech, SSF, pt_enr_ssf ); - pt_speech += ( SSF / 2 ); - pt_enr_ssf++; - } - - dE1 = 0; - move16(); - ind_deltaMax = 0; - move16(); - pt_enr_ssf = enr_ssf + 2 * NB_SSF; - pt_enr_ssf1 = pt_enr_ssf + 2; - - /* Test on energy increase between adjacent sub-subframes */ - exp1 = 0; - move16(); - FOR( i = 0; i < 2 * NB_SSF; i++ ) - { - /*fac = *pt_enr_ssf1 / (*pt_enr_ssf + 1);*/ - Ltmp0 = L_max( *pt_enr_ssf, 1 ); - exp0 = norm_l( Ltmp0 ); - wtmp0 = extract_h( L_shl( Ltmp0, exp0 ) ); - exp1 = sub( norm_l( *pt_enr_ssf1 ), 1 ); - wtmp1 = extract_h( L_shl( *pt_enr_ssf1, exp1 ) ); - fac = div_s( wtmp1, wtmp0 ); - fac_32 = L_shr_o( L_deposit_l( fac ), add( sub( exp1, exp0 ), 15 - 13 ), &Overflow ); /* fac32 in Q13*/ - - if ( GT_32( fac_32, dE1 ) ) - { - ind_deltaMax = i; - move16(); - } - - dE1 = L_max( dE1, fac_32 ); /* Q13 */ - - pt_enr_ssf++; - pt_enr_ssf1++; - } - - IF( hStereoClassif != NULL ) - { - IF( st_fx->idchan == 0 ) - { - hStereoClassif->dE1_ch1_fx = dE1; /* Q13 */ - move32(); - hStereoClassif->dE1_ch1_e = 31 - Q13; - move16(); - } - ELSE - { - hStereoClassif->dE1_ch2_fx = dE1; /* Q13 */ - move32(); - hStereoClassif->dE1_ch2_e = 31 - Q13; - move16(); - } - } - - if ( dE1X != NULL ) - { - *dE1X = dE1; /* Q13 */ - move32(); - } - - /*-----------------------------------------------------------------* - * Average spectral tilt - * Average voicing (normalized correlation) - *-----------------------------------------------------------------*/ - - /*mean_ee = 1.0f/3.0f * (st->ee_old + ee[0] + ee[1]); */ /* coefficients take into account the position of the window */ - mean_ee = L_add_o( L_add_o( st_fx->ee_old_fx, ee[0], &Overflow ), ee[1], &Overflow ); /* Q6 */ - mean_ee = Mult_32_16( mean_ee, 10923 ); /*Q6*/ - - /* mean_voi3 = 1.0f/3.0f * (voicing[0] + voicing[1] + voicing[2]);*/ - Ltmp0 = L_mult( st_fx->voicing_fx[0], 10923 /* 1/3 in Q15 */ ); /* Q31 */ - Ltmp0 = L_mac( Ltmp0, st_fx->voicing_fx[1], 10923 /* 1/3 in Q15 */ ); /* Q31 */ - mean_voi3 = mac_r_sat( Ltmp0, st_fx->voicing_fx[2], 10923 /* 1/3 in Q15 */ ); /*Q15*/ - /*-----------------------------------------------------------------* - * Total frame energy difference (dE3) - *-----------------------------------------------------------------*/ - - dE3 = sub( Etot, hNoiseEst->Etot_last_fx ); /*Q8*/ - - /*-----------------------------------------------------------------* - * Energy decrease after spike (dE2) - *-----------------------------------------------------------------*/ - - /* set different thresholds and conditions for NB and WB input */ - dE2_th = 30 << 10; - move32(); - nb_cond = 1; - move16(); /* no additional condition for WB input */ - IF( st_fx->input_bwidth == NB ) - { - dE2_th = 21 << 10; - move32(); - if ( GE_16( add_o( mean_voi3, corr_shift, &Overflow ), 22282 ) ) /*( mean_voi3 + corr_shift ) >= 0.68f*/ - { - nb_cond = 0; - move16(); - } - } - - /* calcualte maximum energy decrease */ - dE2 = 0; - move16(); /* Test on energy decrease after an energy spike */ - pt_enr_ssf = enr_ssf + 2 * NB_SSF; - - test(); - IF( GT_32( dE1, 30 << 13 ) && nb_cond ) /*>30 Q13*/ - { - IF( LT_16( sub( shl( NB_SSF, 1 ), ind_deltaMax ), L_ENR ) ) - { - st_fx->old_ind_deltaMax = ind_deltaMax; /* Q0 */ - move16(); - Copy32( pt_enr_ssf, st_fx->old_enr_ssf_fx, 2 * NB_SSF ); /* Qx */ - } - ELSE - { - st_fx->old_ind_deltaMax = -1; - move16(); - dE2 = find_ener_decrease_fx( ind_deltaMax, pt_enr_ssf ); /*Q10*/ - - if ( GT_32( dE2, dE2_th ) ) - { - st_fx->spike_hyst = 0; - move16(); - } - } - } - ELSE - { - IF( st_fx->old_ind_deltaMax >= 0 ) - { - Copy32( st_fx->old_enr_ssf_fx, enr_ssf, 2 * NB_SSF ); /* Qx */ - dE2 = find_ener_decrease_fx( st_fx->old_ind_deltaMax, enr_ssf ); /* Q10 */ - - if ( GT_32( dE2, dE2_th ) ) - { - st_fx->spike_hyst = 1; - move16(); - } - } - - st_fx->old_ind_deltaMax = -1; - move16(); - } - - /*-----------------------------------------------------------------* - * Detection of voiced offsets (tmp_offset_flag) - *-----------------------------------------------------------------*/ - - tmp_offset_flag = 1; - move16(); - - IF( st_fx->input_bwidth != NB ) - { - ee0_th = 154; /*2.4 in Q6 */ - move16(); - voi_th = 24248; /*0.74f Q15 */ - move16(); - } - ELSE - { - ee0_th = 627; /*9.8f Q6 */ - move16(); - voi_th = 24904; /*0.76f Q15*/ - move16(); - } - - E_min_th = L_shl( E_MIN_IVAS_FX_Q31, sub( q_hp_E, Q31 ) ); - - test(); - test(); - test(); - IF( ( EQ_16( st_fx->last_coder_type_raw, UNVOICED ) ) || /* previous frame was unvoiced */ - ( ( LT_32( ee[0], ee0_th ) ) && ( GT_32( hp_E[0], E_min_th ) ) && /* energy is concentrated in high frequencies provided that some energy is present in HF */ - ( LT_16( add_o( st_fx->voicing_fx[0], corr_shift, &Overflow ), voi_th ) ) ) ) /* normalized correlation is low */ - { - tmp_offset_flag = 0; - move16(); - } - - /*-----------------------------------------------------------------* - * Decision about UC - *-----------------------------------------------------------------*/ - - /* SC-VBR - set additional parameters and thresholds for SC-VBR */ - mean_voi3_offset = 0; - move16(); - flag_low_relE = 0; - move16(); - ee1_th = 608; /*9.5 Q6*/ - move16(); - test(); - test(); - IF( st_fx->Opt_SC_VBR || ( EQ_16( st_fx->idchan, 1 ) && EQ_16( st_fx->element_mode, IVAS_CPE_TD ) ) ) /* Allow the low energy flag for the secondary channel */ - { - ee1_th = 544; /*8.5f Q6*/ - move16(); - - /* SC-VBR - determine the threshold on relative energy as a function of lp_noise */ - IF( st_fx->input_bwidth != NB ) - { - /*relE_thres = 0.700f * st->lp_noise - 33.5f; (lp_noise in Q8, constant Q8<<16) */ - L_tmp = L_mac( -562036736 /* 33.5f in Q24 */, 22938 /* 0.7 in Q15 */, st_fx->lp_noise_fx ); // Q24 - IF( Last_Resort == 0 ) - { - /*relE_thres = 0.650f * st->lp_noise - 33.5f; (lp_noise in Q8, constant Q8<<16)*/ - L_tmp = L_mac( -562036736 /* 33.5f in Q24 */, 21299 /* 0.650f in Q15 */, st_fx->lp_noise_fx ); // Q24 - } - relE_thres = round_fx( L_tmp ); - } - ELSE - { - - /*relE_thres = 0.60f * st->lp_noise - 28.2f; (lp_noise in Q8, constant Q8<<16)*/ - L_tmp = L_mac( -473117491 /* 28.2f in Q24 */, 19661 /* 0.6f in Q15 */, st_fx->lp_noise_fx ); // Q24 - relE_thres = round_fx( L_tmp ); - } - relE_thres = s_max( relE_thres, -6400 /* -25.0f in Q8 */ ); /* Q8 */ - - /* SC-VBR = set flag on low relative energy */ - if ( LT_16( relE, relE_thres ) ) - { - flag_low_relE = 1; - move16(); - } - - /* SC-VBR - correction of voicing threshold for NB inputs (important only in noisy conditions) */ - test(); - if ( st_fx->input_bwidth == NB && LT_16( vadnoise, 20 << 8 ) ) /* vadnoise in Q8, constant Q0<<8 */ - { - mean_voi3_offset = 1638; /*0.05f Q15*/ - move16(); - } - } - - /* make decision whether frame is unvoiced */ - coder_type = GENERIC; - move16(); - IF( st_fx->input_bwidth == NB ) - { - test(); - test(); - test(); - test(); - test(); - test(); - test(); - test(); - test(); - test(); - IF( ( ( LT_16( add_o( mean_voi3, corr_shift, &Overflow ), add( 22282 /* 0.68 in Q15 */, mean_voi3_offset ) ) ) && /* normalized correlation low */ - ( LT_16( add_o( st_fx->voicing_fx[2], corr_shift, &Overflow ), 25887 /* 0.79 in Q15 */ ) ) && /* normalized correlation low on look-ahead - onset detection */ - ( LT_32( ee[0], 640 /* 10.0f in Q6 */ ) ) && ( GT_32( hp_E[0], E_min_th ) ) && /* energy concentrated in high frequencies provided that some energy is present in HF... */ - ( LT_32( ee[1], ee1_th ) ) && ( GT_32( hp_E[1], E_min_th ) ) && /* ... biased towards look-ahead to detect onsets */ - ( tmp_offset_flag == 0 ) && /* Take care of voiced offsets */ - /*( st_fx->music_hysteresis_fx == 0 ) &&*/ /* ... and in segment after AUDIO frames */ - ( LE_32( dE1, 237568 /* 29.0f in Q13 */ ) ) && /* Avoid on sharp energy spikes */ - ( LE_32( st_fx->old_dE1_fx, 237568 /* 29.0f in Q13 */ ) ) && /* + one frame hysteresis */ - ( st_fx->spike_hyst < 0 ) ) || /* Avoid after sharp energy spikes followed by decay (e.g. castanets) */ - flag_low_relE ) /* low relative frame energy (only for SC-VBR) */ - { - coder_type = UNVOICED; - move16(); - } - } - ELSE - { - test(); - test(); - test(); - test(); - test(); - test(); - test(); - test(); - test(); - if ( ( ( LT_16( add_o( mean_voi3, corr_shift, &Overflow ), add( 22774 /* 0.695f in Q15 */, mean_voi3_offset ) ) ) && /* normalized correlation low */ - /*( LT_16( add_o( st_fx->voicing_fx[2], corr_shift, &Overflow ), 25887 ) ) && */ /* normalized correlation low on look-ahead - onset detection */ - ( LT_32( ee[0], 397 /* 6.2f in Q6 */ ) ) && ( GT_32( hp_E[0], E_min_th ) ) && /* energy concentrated in high frequencies provided that some energy is present in HF... */ - ( LT_32( ee[1], 397 /* 6.2f in Q16 */ ) ) && ( GT_32( hp_E[1], E_min_th ) ) && /* ... biased towards look-ahead to detect onsets */ - ( tmp_offset_flag == 0 ) && /* Take care of voiced offsets */ - /*( st_fx->music_hysteresis_fx == 0 ) && */ /* ... and in segment after AUDIO frames */ - ( LE_32( dE1, 245760 /* 30.0f in Q13 */ ) ) && /* Avoid on sharp energy spikes */ - ( LE_32( st_fx->old_dE1_fx, 245760 /* 30.0f in Q13 */ ) ) && /* + one frame hysteresis */ - ( st_fx->spike_hyst < 0 ) ) /* Avoid after sharp energy spikes followed by decay (e.g. castanets) */ - || ( flag_low_relE && ( LE_32( st_fx->old_dE1_fx, 245760 /* 30.0f in Q13 */ ) ) ) ) /* low relative frame energy (only for SC-VBR) */ - { - coder_type = UNVOICED; - move16(); - } - } - - /*-----------------------------------------------------------------* - * Decision about VC - *-----------------------------------------------------------------*/ - if ( st_fx->Opt_SC_VBR ) - { - hSC_VBR->set_ppp_generic = 0; - } - move16(); - - test(); - test(); - IF( EQ_16( st_fx->localVAD, 1 ) && EQ_16( coder_type, GENERIC ) && NE_16( last_core_orig, AMR_WB_CORE ) ) - { - dpit1 = abs_s( sub( T_op_fr[1], T_op_fr[0] ) ); /* Q6 */ - dpit2 = abs_s( sub( T_op_fr[2], T_op_fr[1] ) ); /* Q6 */ - dpit3 = abs_s( sub( T_op_fr[3], T_op_fr[2] ) ); /* Q6 */ - - test(); - test(); - test(); - test(); - test(); - test(); - test(); - test(); - test(); - IF( ( GT_16( voicing_fr[0], 19825 /* 0.605 in Q15 */ ) ) && /* normalized correlation high in 1st sf. */ - ( GT_16( voicing_fr[1], 19825 /* 0.605 in Q15 */ ) ) && /* normalized correlation high in 2st sf. */ - ( GT_16( voicing_fr[2], 19825 /* 0.605 in Q15 */ ) ) && /* normalized correlation high in 3st sf. */ - ( GT_16( voicing_fr[3], 19825 /* 0.605 in Q15 */ ) ) && /* normalized correlation high in 4st sf. */ - ( GT_32( mean_ee, 256 /* 4.0f in Q6 */ ) ) && /* energy concentrated in low frequencies */ - ( LT_16( dpit1, 3 << 6 ) ) && - ( LT_16( dpit2, 3 << 6 ) ) && - ( LT_16( dpit3, 3 << 6 ) ) ) - { - coder_type = VOICED; - move16(); - } - ELSE IF( st_fx->Opt_SC_VBR && st_fx->input_bwidth == NB && LT_16( vadnoise, 20 << 8 ) ) - { - test(); - test(); - test(); - test(); - test(); - test(); - test(); - IF( GT_16( voicing_fr[0], 8192 /* 0.25 in Q15 */ ) && /* normalized correlation high in 1st sf. */ - ( GT_16( voicing_fr[1], 8192 /* 0.25 in Q15 */ ) ) && /* normalized correlation high in 2st sf. */ - ( GT_16( voicing_fr[2], 8192 /* 0.25 in Q15 */ ) ) && /* normalized correlation high in 3st sf. */ - ( GT_16( voicing_fr[3], 8192 /* 0.25 in Q15 */ ) ) && /* normalized correlation high in 4st sf. */ - ( GT_32( mean_ee, 64 /* 1.0f in Q6 */ ) ) && /* energy concentrated in low frequencies */ - ( LT_16( dpit1, 5 << 6 ) ) && - ( LT_16( dpit2, 5 << 6 ) ) && - ( LT_16( dpit3, 5 << 6 ) ) ) - { - hSC_VBR->set_ppp_generic = 1; - move16(); - coder_type = VOICED; - move16(); - } - } - - /* set VOICED mode for frames with very stable pitch and high correlation - and avoid to switch to AUDIO/MUSIC later */ - voicing_m = mac_r( L_mac( L_mac( L_mult( voicing_fr[3], 8192 /* 0.25 in Q15 */ ), voicing_fr[2], 8192 /* 0.25 in Q15 */ ), voicing_fr[1], 8192 /* 0.25 in Q15 */ ), voicing_fr[0], 8192 /* 0.25 in Q15 */ ); /* Q15 */ - test(); - test(); - test(); - test(); - test(); - IF( *flag_spitch || ( LE_16( dpit1, 3 << 6 ) && LE_16( dpit2, 3 << 6 ) && LE_16( dpit3, 3 << 6 ) && - GT_16( voicing_m, 31130 /* 0.95f in Q15 */ ) && GT_16( st_fx->voicing_sm_fx, 31785 /* 0.97f in Q15 */ ) ) ) - { - coder_type = VOICED; - move16(); - *flag_spitch = 1; - move16(); /*to avoid switch to AUDIO/MUSIC later*/ - } - } - - /*-----------------------------------------------------------------* - * Channel-aware mode - set RF mode and total bitrate - *-----------------------------------------------------------------*/ - - st_fx->rf_mode = st_fx->Opt_RF_ON; /* Q0 */ - move16(); - - IF( EQ_16( coder_type, GENERIC ) ) - { - test(); - test(); - test(); - test(); - IF( ( LT_16( voicing_fr[0], 6554 /* 0.2f in Q15 */ ) ) && /* normalized correlation high in 2st sf. */ - ( LT_16( voicing_fr[1], 6554 /* 0.2f in Q15 */ ) ) && /* normalized correlation high in 2st sf. */ - ( LT_16( voicing_fr[2], 6554 /* 0.2f in Q15 */ ) ) && /* normalized correlation high in 3rd sf. */ - ( LT_16( voicing_fr[3], 6554 /* 0.2f in Q15 */ ) ) && /* normalized correlation high in 4th sf. */ - ( GT_16( vadnoise, 25 << 8 ) ) ) /* when speech is clean */ - - { - st_fx->rf_mode = 0; - move16(); - /* Current frame cannot be compressed to pack the partial redundancy;*/ - - IF( NE_16( st_fx->rf_mode, st_fx->Opt_RF_ON ) ) - { - core_coder_mode_switch_ivas_fx( st_fx, st_fx->last_total_brate, 0 ); - } - } - } - - /*-----------------------------------------------------------------* - * UNCLR classifier - *-----------------------------------------------------------------*/ - - IF( hStereoClassif != NULL ) - { - test(); - test(); - test(); - test(); - test(); - IF( st_fx->element_mode > EVS_MONO && ( EQ_16( coder_type, GENERIC ) || EQ_16( coder_type, UNVOICED ) || coder_type == INACTIVE || st_fx->localVAD == 0 ) && LT_16( hStereoClassif->unclr_sw_enable_cnt[st_fx->idchan], MAX_UV_CNT ) ) - { - hStereoClassif->unclr_sw_enable_cnt[st_fx->idchan] = add( hStereoClassif->unclr_sw_enable_cnt[st_fx->idchan], 1 ); - move16(); - } - ELSE - { - hStereoClassif->unclr_sw_enable_cnt[st_fx->idchan] = 0; - move16(); - } - } - - /*-----------------------------------------------------------------* - * Updates - *-----------------------------------------------------------------*/ - - /* update spike hysteresis parameters */ - test(); - if ( st_fx->spike_hyst >= 0 && LT_16( st_fx->spike_hyst, 2 ) ) - { - st_fx->spike_hyst = add( st_fx->spike_hyst, 1 ); /* Q0 */ - move16(); - } - - /* reset spike hysteresis */ - test(); - test(); - test(); - if ( ( GT_16( st_fx->spike_hyst, 1 ) ) && - ( GT_16( dE3, 5 << 8 ) || /* energy increases */ - ( GT_16( relE, -3328 /* 13 in Q8 */ ) && ( GT_16( add_sat( mean_voi3, corr_shift ), 22774 /* 0.695 in Q15 */ ) ) ) ) ) /* normalized correlation is high */ - { - st_fx->spike_hyst = -1; - move16(); - } - - /* update tilt parameters */ - st_fx->ee_old_fx = ee[1]; - move32(); /*Q6*/ - st_fx->old_dE1_fx = dE1; - move32(); /*Q13*/ - - /* save the raw coder_type for various modules later in the codec (the reason is that e.g. UNVOICED is lost at higher rates) */ - st_fx->coder_type_raw = coder_type; /* Q0 */ - move16(); - - return coder_type; -} -/*-------------------------------------------------------------------* - * find_uv() - * - * Decision about coder type - *-------------------------------------------------------------------*/ diff --git a/lib_enc/find_uv_fx.c b/lib_enc/find_uv_fx.c index 3f4c8abc7103221d0b9558cfe49d893e531b23ce..79dc78c6d31dc23cf4e86ffa62c9fbd78f63a9e2 100644 --- a/lib_enc/find_uv_fx.c +++ b/lib_enc/find_uv_fx.c @@ -93,21 +93,14 @@ Word16 find_uv_fx( /* o : coding type */ const Word16 *voicing_fr, /* i : refined correlation for each subframes Q15*/ const Word16 *speech, /* i : pointer to speech signal for E computation Q_new*/ const Word32 *ee, /* i : lf/hf Energy ratio for present frame Q6*/ -#ifdef IVAS_CODE - Word32 *dE1X, /* o : sudden energy increase for S/M classifier */ -#endif - const Word16 corr_shift, /* i : normalized correlation correction in noise Q15*/ - const Word16 relE, /* i : relative frame energy Q8*/ - const Word16 Etot, /* i : total energy Q8*/ - const Word32 hp_E[], /* i : energy in HF Q_new + Q_SCALE*/ + const Word16 corr_shift, /* i : normalized correlation correction in noise Q15*/ + const Word16 relE, /* i : relative frame energy Q8*/ + const Word16 Etot, /* i : total energy Q8*/ + const Word32 hp_E[], /* i : energy in HF Q_new + Q_SCALE*/ const Word16 Q_new, Word16 *flag_spitch, /* i/o: flag to indicate very short stable pitch and high correlation Q0*/ const Word16 shift, const Word16 last_core_orig /* i : original last core Q0*/ -#ifdef IVAS_CODE - , - STEREO_CLASSIF_HANDLE hStereoClassif /* i/o: stereo classifier structure */ -#endif ) { Word16 coder_type, i; @@ -202,25 +195,7 @@ Word16 find_uv_fx( /* o : coding type */ pt_enr_ssf++; pt_enr_ssf1++; } -#ifdef IVAS_CODE - IF( hStereoClassif != NULL ) - { - IF( st_fx->idchan == 0 ) - { - hStereoClassif->dE1_ch1 = dE1; - } - ELSE - { - hStereoClassif->dE1_ch2 = dE1; - } - } - if ( dE1X != NULL ) - { - *dE1X = dE1; - move32(); - } -#endif /*-----------------------------------------------------------------* * Average spectral tilt * Average voicing (normalized correlation) @@ -564,24 +539,544 @@ Word16 find_uv_fx( /* o : coding type */ } } } -#ifdef IVAS_CODE + /*-----------------------------------------------------------------* - * UNCLR classifier + * Updates + *-----------------------------------------------------------------*/ + + /* update spike hysteresis parameters */ + test(); + if ( st_fx->spike_hyst >= 0 && LT_16( st_fx->spike_hyst, 2 ) ) + { + st_fx->spike_hyst = add( st_fx->spike_hyst, 1 ); /* Q0 */ + } + + /* reset spike hysteresis */ + test(); + test(); + test(); + if ( ( GT_16( st_fx->spike_hyst, 1 ) ) && + ( GT_16( dE3, 5 << 8 ) || /* energy increases */ + ( GT_16( relE, -3328 ) && ( GT_16( add_sat( mean_voi3, corr_shift ), 22774 ) ) ) ) ) /* normalized correlation is high */ + { + st_fx->spike_hyst = -1; + move16(); + } + + /* update tilt parameters */ + st_fx->ee_old_fx = ee[1]; + move32(); /*Q6*/ + st_fx->old_dE1_fx = dE1; + move32(); /*Q13*/ + + /* save the raw coder_type for various modules later in the codec (the reason is that e.g. UNVOICED is lost at higher rates) */ + st_fx->coder_type_raw = coder_type; + move16(); + + return coder_type; +} + +/*-------------------------------------------------------------------* + * find_uv() + * + * Decision about coder type + *-------------------------------------------------------------------*/ +Word16 find_uv_ivas_fx( /* o : coding type */ + Encoder_State *st_fx, /* i/o: encoder state structure */ + const Word16 *T_op_fr, /* i : pointer to adjusted fractional pitch (4 val.) Q6*/ + const Word16 *voicing_fr, /* i : refined correlation for each subframes Q15*/ + const Word16 *speech, /* i : pointer to speech signal for E computation Q_new*/ + const Word32 *ee, /* i : lf/hf Energy ratio for present frame Q6*/ + Word32 *dE1X, /* o : sudden energy increase for S/M classifier Q13*/ + const Word16 corr_shift, /* i : normalized correlation correction in noise Q15*/ + const Word16 relE, /* i : relative frame energy Q8*/ + const Word16 Etot, /* i : total energy Q8*/ + const Word32 hp_E[], /* i : energy in HF q_hp_E*/ + Word16 *flag_spitch, /* i/o: flag to indicate very short stable pitch and high correlation Q0*/ + const Word16 last_core_orig, /* i : original last core Q0*/ + STEREO_CLASSIF_HANDLE hStereoClassif, /* i/o: stereo classifier structure */ + const Word16 Q_new, + const Word16 q_hp_E ) +{ + Word16 coder_type, i; + Word32 mean_ee, dE1, fac_32; + const Word16 *pt_speech; + Word32 L_tmp, enr_ssf[2 * NB_SSF + 2 * NB_SSF + 2], E_min_th; + Word16 dE2; + Word16 ind_deltaMax, tmp_offset_flag; + Word32 Ltmp0, *pt_enr_ssf, *pt_enr_ssf1, dE2_th; + Word16 exp0, exp1; + Word16 wtmp0, wtmp1; + Word16 fac, mean_voi3, dE3; + Word16 relE_thres; + Word16 mean_voi3_offset; + Word16 voicing_m, dpit1, dpit2, dpit3; + Word16 ee0_th, ee1_th, voi_th, nb_cond, flag_low_relE; + NOISE_EST_HANDLE hNoiseEst = st_fx->hNoiseEst; + SC_VBR_ENC_HANDLE hSC_VBR = st_fx->hSC_VBR; +#ifdef BASOP_NOGLOB_DECLARE_LOCAL + Flag Overflow = 0; + move32(); +#endif + Word16 Last_Resort; + Word16 vadnoise; + + IF( hSC_VBR != NULL ) + { + Last_Resort = hSC_VBR->Last_Resort; /* Q0 */ + move16(); + vadnoise = hSC_VBR->vadnoise_fx; /* Q8 */ + move16(); + } + ELSE + { + Last_Resort = 0; + move16(); + vadnoise = 0; + move16(); + } + + /*-----------------------------------------------------------------* + * Detect sudden energy increases to catch voice and music + * temporal events (dE1) + * + * - Find maximum energy per short subblocks. + * Two subblock sets are used shifted by half the subblock length + * - Find maximum energy ratio between adjacent subblocks + *-----------------------------------------------------------------*/ + + /* Find maximum energy per short subblocks */ + pt_speech = speech - SSF; + pt_enr_ssf = enr_ssf + 2 * NB_SSF; + FOR( i = 0; i < 2 * ( NB_SSF + 1 ); i++ ) + { + emaximum_fx( Q_new, pt_speech, SSF, pt_enr_ssf ); + pt_speech += ( SSF / 2 ); + pt_enr_ssf++; + } + + dE1 = 0; + move16(); + ind_deltaMax = 0; + move16(); + pt_enr_ssf = enr_ssf + 2 * NB_SSF; + pt_enr_ssf1 = pt_enr_ssf + 2; + + /* Test on energy increase between adjacent sub-subframes */ + exp1 = 0; + move16(); + FOR( i = 0; i < 2 * NB_SSF; i++ ) + { + /*fac = *pt_enr_ssf1 / (*pt_enr_ssf + 1);*/ + Ltmp0 = L_max( *pt_enr_ssf, 1 ); + exp0 = norm_l( Ltmp0 ); + wtmp0 = extract_h( L_shl( Ltmp0, exp0 ) ); + exp1 = sub( norm_l( *pt_enr_ssf1 ), 1 ); + wtmp1 = extract_h( L_shl( *pt_enr_ssf1, exp1 ) ); + fac = div_s( wtmp1, wtmp0 ); + fac_32 = L_shr_o( L_deposit_l( fac ), add( sub( exp1, exp0 ), 15 - 13 ), &Overflow ); /* fac32 in Q13*/ + + if ( GT_32( fac_32, dE1 ) ) + { + ind_deltaMax = i; + move16(); + } + + dE1 = L_max( dE1, fac_32 ); /* Q13 */ + + pt_enr_ssf++; + pt_enr_ssf1++; + } + + IF( hStereoClassif != NULL ) + { + IF( st_fx->idchan == 0 ) + { + hStereoClassif->dE1_ch1_fx = dE1; /* Q13 */ + move32(); + hStereoClassif->dE1_ch1_e = 31 - Q13; + move16(); + } + ELSE + { + hStereoClassif->dE1_ch2_fx = dE1; /* Q13 */ + move32(); + hStereoClassif->dE1_ch2_e = 31 - Q13; + move16(); + } + } + + if ( dE1X != NULL ) + { + *dE1X = dE1; /* Q13 */ + move32(); + } + + /*-----------------------------------------------------------------* + * Average spectral tilt + * Average voicing (normalized correlation) + *-----------------------------------------------------------------*/ + + /*mean_ee = 1.0f/3.0f * (st->ee_old + ee[0] + ee[1]); */ /* coefficients take into account the position of the window */ + mean_ee = L_add_o( L_add_o( st_fx->ee_old_fx, ee[0], &Overflow ), ee[1], &Overflow ); /* Q6 */ + mean_ee = Mult_32_16( mean_ee, 10923 ); /*Q6*/ + + /* mean_voi3 = 1.0f/3.0f * (voicing[0] + voicing[1] + voicing[2]);*/ + Ltmp0 = L_mult( st_fx->voicing_fx[0], 10923 /* 1/3 in Q15 */ ); /* Q31 */ + Ltmp0 = L_mac( Ltmp0, st_fx->voicing_fx[1], 10923 /* 1/3 in Q15 */ ); /* Q31 */ + mean_voi3 = mac_r_sat( Ltmp0, st_fx->voicing_fx[2], 10923 /* 1/3 in Q15 */ ); /*Q15*/ + /*-----------------------------------------------------------------* + * Total frame energy difference (dE3) *-----------------------------------------------------------------*/ - if ( hStereoClassif != NULL ) + dE3 = sub( Etot, hNoiseEst->Etot_last_fx ); /*Q8*/ + + /*-----------------------------------------------------------------* + * Energy decrease after spike (dE2) + *-----------------------------------------------------------------*/ + + /* set different thresholds and conditions for NB and WB input */ + dE2_th = 30 << 10; + move32(); + nb_cond = 1; + move16(); /* no additional condition for WB input */ + IF( st_fx->input_bwidth == NB ) + { + dE2_th = 21 << 10; + move32(); + if ( GE_16( add_o( mean_voi3, corr_shift, &Overflow ), 22282 ) ) /*( mean_voi3 + corr_shift ) >= 0.68f*/ + { + nb_cond = 0; + move16(); + } + } + + /* calcualte maximum energy decrease */ + dE2 = 0; + move16(); /* Test on energy decrease after an energy spike */ + pt_enr_ssf = enr_ssf + 2 * NB_SSF; + + test(); + IF( GT_32( dE1, 30 << 13 ) && nb_cond ) /*>30 Q13*/ { - if ( st->element_mode > EVS_MONO && ( coder_type == GENERIC || coder_type == UNVOICED || coder_type == INACTIVE || st->localVAD == 0 ) && hStereoClassif->unclr_sw_enable_cnt[st->idchan] < MAX_UV_CNT ) + IF( LT_16( sub( shl( NB_SSF, 1 ), ind_deltaMax ), L_ENR ) ) { - hStereoClassif->unclr_sw_enable_cnt[st->idchan]++; + st_fx->old_ind_deltaMax = ind_deltaMax; /* Q0 */ + move16(); + Copy32( pt_enr_ssf, st_fx->old_enr_ssf_fx, 2 * NB_SSF ); /* Qx */ } - else + ELSE { - hStereoClassif->unclr_sw_enable_cnt[st->idchan] = 0; + st_fx->old_ind_deltaMax = -1; + move16(); + dE2 = find_ener_decrease_fx( ind_deltaMax, pt_enr_ssf ); /*Q10*/ + + if ( GT_32( dE2, dE2_th ) ) + { + st_fx->spike_hyst = 0; + move16(); + } } } -#endif + ELSE + { + IF( st_fx->old_ind_deltaMax >= 0 ) + { + Copy32( st_fx->old_enr_ssf_fx, enr_ssf, 2 * NB_SSF ); /* Qx */ + dE2 = find_ener_decrease_fx( st_fx->old_ind_deltaMax, enr_ssf ); /* Q10 */ + + if ( GT_32( dE2, dE2_th ) ) + { + st_fx->spike_hyst = 1; + move16(); + } + } + st_fx->old_ind_deltaMax = -1; + move16(); + } + + /*-----------------------------------------------------------------* + * Detection of voiced offsets (tmp_offset_flag) + *-----------------------------------------------------------------*/ + + tmp_offset_flag = 1; + move16(); + + IF( st_fx->input_bwidth != NB ) + { + ee0_th = 154; /*2.4 in Q6 */ + move16(); + voi_th = 24248; /*0.74f Q15 */ + move16(); + } + ELSE + { + ee0_th = 627; /*9.8f Q6 */ + move16(); + voi_th = 24904; /*0.76f Q15*/ + move16(); + } + + E_min_th = L_shl( E_MIN_IVAS_FX_Q31, sub( q_hp_E, Q31 ) ); + + test(); + test(); + test(); + IF( ( EQ_16( st_fx->last_coder_type_raw, UNVOICED ) ) || /* previous frame was unvoiced */ + ( ( LT_32( ee[0], ee0_th ) ) && ( GT_32( hp_E[0], E_min_th ) ) && /* energy is concentrated in high frequencies provided that some energy is present in HF */ + ( LT_16( add_o( st_fx->voicing_fx[0], corr_shift, &Overflow ), voi_th ) ) ) ) /* normalized correlation is low */ + { + tmp_offset_flag = 0; + move16(); + } + + /*-----------------------------------------------------------------* + * Decision about UC + *-----------------------------------------------------------------*/ + + /* SC-VBR - set additional parameters and thresholds for SC-VBR */ + mean_voi3_offset = 0; + move16(); + flag_low_relE = 0; + move16(); + ee1_th = 608; /*9.5 Q6*/ + move16(); + test(); + test(); + IF( st_fx->Opt_SC_VBR || ( EQ_16( st_fx->idchan, 1 ) && EQ_16( st_fx->element_mode, IVAS_CPE_TD ) ) ) /* Allow the low energy flag for the secondary channel */ + { + ee1_th = 544; /*8.5f Q6*/ + move16(); + + /* SC-VBR - determine the threshold on relative energy as a function of lp_noise */ + IF( st_fx->input_bwidth != NB ) + { + /*relE_thres = 0.700f * st->lp_noise - 33.5f; (lp_noise in Q8, constant Q8<<16) */ + L_tmp = L_mac( -562036736 /* 33.5f in Q24 */, 22938 /* 0.7 in Q15 */, st_fx->lp_noise_fx ); // Q24 + IF( Last_Resort == 0 ) + { + /*relE_thres = 0.650f * st->lp_noise - 33.5f; (lp_noise in Q8, constant Q8<<16)*/ + L_tmp = L_mac( -562036736 /* 33.5f in Q24 */, 21299 /* 0.650f in Q15 */, st_fx->lp_noise_fx ); // Q24 + } + relE_thres = round_fx( L_tmp ); + } + ELSE + { + + /*relE_thres = 0.60f * st->lp_noise - 28.2f; (lp_noise in Q8, constant Q8<<16)*/ + L_tmp = L_mac( -473117491 /* 28.2f in Q24 */, 19661 /* 0.6f in Q15 */, st_fx->lp_noise_fx ); // Q24 + relE_thres = round_fx( L_tmp ); + } + relE_thres = s_max( relE_thres, -6400 /* -25.0f in Q8 */ ); /* Q8 */ + + /* SC-VBR = set flag on low relative energy */ + if ( LT_16( relE, relE_thres ) ) + { + flag_low_relE = 1; + move16(); + } + + /* SC-VBR - correction of voicing threshold for NB inputs (important only in noisy conditions) */ + test(); + if ( st_fx->input_bwidth == NB && LT_16( vadnoise, 20 << 8 ) ) /* vadnoise in Q8, constant Q0<<8 */ + { + mean_voi3_offset = 1638; /*0.05f Q15*/ + move16(); + } + } + + /* make decision whether frame is unvoiced */ + coder_type = GENERIC; + move16(); + IF( st_fx->input_bwidth == NB ) + { + test(); + test(); + test(); + test(); + test(); + test(); + test(); + test(); + test(); + test(); + IF( ( ( LT_16( add_o( mean_voi3, corr_shift, &Overflow ), add( 22282 /* 0.68 in Q15 */, mean_voi3_offset ) ) ) && /* normalized correlation low */ + ( LT_16( add_o( st_fx->voicing_fx[2], corr_shift, &Overflow ), 25887 /* 0.79 in Q15 */ ) ) && /* normalized correlation low on look-ahead - onset detection */ + ( LT_32( ee[0], 640 /* 10.0f in Q6 */ ) ) && ( GT_32( hp_E[0], E_min_th ) ) && /* energy concentrated in high frequencies provided that some energy is present in HF... */ + ( LT_32( ee[1], ee1_th ) ) && ( GT_32( hp_E[1], E_min_th ) ) && /* ... biased towards look-ahead to detect onsets */ + ( tmp_offset_flag == 0 ) && /* Take care of voiced offsets */ + /*( st_fx->music_hysteresis_fx == 0 ) &&*/ /* ... and in segment after AUDIO frames */ + ( LE_32( dE1, 237568 /* 29.0f in Q13 */ ) ) && /* Avoid on sharp energy spikes */ + ( LE_32( st_fx->old_dE1_fx, 237568 /* 29.0f in Q13 */ ) ) && /* + one frame hysteresis */ + ( st_fx->spike_hyst < 0 ) ) || /* Avoid after sharp energy spikes followed by decay (e.g. castanets) */ + flag_low_relE ) /* low relative frame energy (only for SC-VBR) */ + { + coder_type = UNVOICED; + move16(); + } + } + ELSE + { + test(); + test(); + test(); + test(); + test(); + test(); + test(); + test(); + test(); + if ( ( ( LT_16( add_o( mean_voi3, corr_shift, &Overflow ), add( 22774 /* 0.695f in Q15 */, mean_voi3_offset ) ) ) && /* normalized correlation low */ + /*( LT_16( add_o( st_fx->voicing_fx[2], corr_shift, &Overflow ), 25887 ) ) && */ /* normalized correlation low on look-ahead - onset detection */ + ( LT_32( ee[0], 397 /* 6.2f in Q6 */ ) ) && ( GT_32( hp_E[0], E_min_th ) ) && /* energy concentrated in high frequencies provided that some energy is present in HF... */ + ( LT_32( ee[1], 397 /* 6.2f in Q16 */ ) ) && ( GT_32( hp_E[1], E_min_th ) ) && /* ... biased towards look-ahead to detect onsets */ + ( tmp_offset_flag == 0 ) && /* Take care of voiced offsets */ + /*( st_fx->music_hysteresis_fx == 0 ) && */ /* ... and in segment after AUDIO frames */ + ( LE_32( dE1, 245760 /* 30.0f in Q13 */ ) ) && /* Avoid on sharp energy spikes */ + ( LE_32( st_fx->old_dE1_fx, 245760 /* 30.0f in Q13 */ ) ) && /* + one frame hysteresis */ + ( st_fx->spike_hyst < 0 ) ) /* Avoid after sharp energy spikes followed by decay (e.g. castanets) */ + || ( flag_low_relE && ( LE_32( st_fx->old_dE1_fx, 245760 /* 30.0f in Q13 */ ) ) ) ) /* low relative frame energy (only for SC-VBR) */ + { + coder_type = UNVOICED; + move16(); + } + } + + /*-----------------------------------------------------------------* + * Decision about VC + *-----------------------------------------------------------------*/ + if ( st_fx->Opt_SC_VBR ) + { + hSC_VBR->set_ppp_generic = 0; + } + move16(); + + test(); + test(); + IF( EQ_16( st_fx->localVAD, 1 ) && EQ_16( coder_type, GENERIC ) && NE_16( last_core_orig, AMR_WB_CORE ) ) + { + dpit1 = abs_s( sub( T_op_fr[1], T_op_fr[0] ) ); /* Q6 */ + dpit2 = abs_s( sub( T_op_fr[2], T_op_fr[1] ) ); /* Q6 */ + dpit3 = abs_s( sub( T_op_fr[3], T_op_fr[2] ) ); /* Q6 */ + + test(); + test(); + test(); + test(); + test(); + test(); + test(); + test(); + test(); + IF( ( GT_16( voicing_fr[0], 19825 /* 0.605 in Q15 */ ) ) && /* normalized correlation high in 1st sf. */ + ( GT_16( voicing_fr[1], 19825 /* 0.605 in Q15 */ ) ) && /* normalized correlation high in 2st sf. */ + ( GT_16( voicing_fr[2], 19825 /* 0.605 in Q15 */ ) ) && /* normalized correlation high in 3st sf. */ + ( GT_16( voicing_fr[3], 19825 /* 0.605 in Q15 */ ) ) && /* normalized correlation high in 4st sf. */ + ( GT_32( mean_ee, 256 /* 4.0f in Q6 */ ) ) && /* energy concentrated in low frequencies */ + ( LT_16( dpit1, 3 << 6 ) ) && + ( LT_16( dpit2, 3 << 6 ) ) && + ( LT_16( dpit3, 3 << 6 ) ) ) + { + coder_type = VOICED; + move16(); + } + ELSE IF( st_fx->Opt_SC_VBR && st_fx->input_bwidth == NB && LT_16( vadnoise, 20 << 8 ) ) + { + test(); + test(); + test(); + test(); + test(); + test(); + test(); + IF( GT_16( voicing_fr[0], 8192 /* 0.25 in Q15 */ ) && /* normalized correlation high in 1st sf. */ + ( GT_16( voicing_fr[1], 8192 /* 0.25 in Q15 */ ) ) && /* normalized correlation high in 2st sf. */ + ( GT_16( voicing_fr[2], 8192 /* 0.25 in Q15 */ ) ) && /* normalized correlation high in 3st sf. */ + ( GT_16( voicing_fr[3], 8192 /* 0.25 in Q15 */ ) ) && /* normalized correlation high in 4st sf. */ + ( GT_32( mean_ee, 64 /* 1.0f in Q6 */ ) ) && /* energy concentrated in low frequencies */ + ( LT_16( dpit1, 5 << 6 ) ) && + ( LT_16( dpit2, 5 << 6 ) ) && + ( LT_16( dpit3, 5 << 6 ) ) ) + { + hSC_VBR->set_ppp_generic = 1; + move16(); + coder_type = VOICED; + move16(); + } + } + + /* set VOICED mode for frames with very stable pitch and high correlation + and avoid to switch to AUDIO/MUSIC later */ + voicing_m = mac_r( L_mac( L_mac( L_mult( voicing_fr[3], 8192 /* 0.25 in Q15 */ ), voicing_fr[2], 8192 /* 0.25 in Q15 */ ), voicing_fr[1], 8192 /* 0.25 in Q15 */ ), voicing_fr[0], 8192 /* 0.25 in Q15 */ ); /* Q15 */ + test(); + test(); + test(); + test(); + test(); + IF( *flag_spitch || ( LE_16( dpit1, 3 << 6 ) && LE_16( dpit2, 3 << 6 ) && LE_16( dpit3, 3 << 6 ) && + GT_16( voicing_m, 31130 /* 0.95f in Q15 */ ) && GT_16( st_fx->voicing_sm_fx, 31785 /* 0.97f in Q15 */ ) ) ) + { + coder_type = VOICED; + move16(); + *flag_spitch = 1; + move16(); /*to avoid switch to AUDIO/MUSIC later*/ + } + } + + /*-----------------------------------------------------------------* + * Channel-aware mode - set RF mode and total bitrate + *-----------------------------------------------------------------*/ + + st_fx->rf_mode = st_fx->Opt_RF_ON; /* Q0 */ + move16(); + + IF( EQ_16( coder_type, GENERIC ) ) + { + test(); + test(); + test(); + test(); + IF( ( LT_16( voicing_fr[0], 6554 /* 0.2f in Q15 */ ) ) && /* normalized correlation high in 2st sf. */ + ( LT_16( voicing_fr[1], 6554 /* 0.2f in Q15 */ ) ) && /* normalized correlation high in 2st sf. */ + ( LT_16( voicing_fr[2], 6554 /* 0.2f in Q15 */ ) ) && /* normalized correlation high in 3rd sf. */ + ( LT_16( voicing_fr[3], 6554 /* 0.2f in Q15 */ ) ) && /* normalized correlation high in 4th sf. */ + ( GT_16( vadnoise, 25 << 8 ) ) ) /* when speech is clean */ + + { + st_fx->rf_mode = 0; + move16(); + /* Current frame cannot be compressed to pack the partial redundancy;*/ + + IF( NE_16( st_fx->rf_mode, st_fx->Opt_RF_ON ) ) + { + core_coder_mode_switch_ivas_fx( st_fx, st_fx->last_total_brate, 0 ); + } + } + } + + /*-----------------------------------------------------------------* + * UNCLR classifier + *-----------------------------------------------------------------*/ + + IF( hStereoClassif != NULL ) + { + test(); + test(); + test(); + test(); + test(); + IF( st_fx->element_mode > EVS_MONO && ( EQ_16( coder_type, GENERIC ) || EQ_16( coder_type, UNVOICED ) || coder_type == INACTIVE || st_fx->localVAD == 0 ) && LT_16( hStereoClassif->unclr_sw_enable_cnt[st_fx->idchan], MAX_UV_CNT ) ) + { + hStereoClassif->unclr_sw_enable_cnt[st_fx->idchan] = add( hStereoClassif->unclr_sw_enable_cnt[st_fx->idchan], 1 ); + move16(); + } + ELSE + { + hStereoClassif->unclr_sw_enable_cnt[st_fx->idchan] = 0; + move16(); + } + } /*-----------------------------------------------------------------* * Updates @@ -592,6 +1087,7 @@ Word16 find_uv_fx( /* o : coding type */ if ( st_fx->spike_hyst >= 0 && LT_16( st_fx->spike_hyst, 2 ) ) { st_fx->spike_hyst = add( st_fx->spike_hyst, 1 ); /* Q0 */ + move16(); } /* reset spike hysteresis */ @@ -599,8 +1095,8 @@ Word16 find_uv_fx( /* o : coding type */ test(); test(); if ( ( GT_16( st_fx->spike_hyst, 1 ) ) && - ( GT_16( dE3, 5 << 8 ) || /* energy increases */ - ( GT_16( relE, -3328 ) && ( GT_16( add_sat( mean_voi3, corr_shift ), 22774 ) ) ) ) ) /* normalized correlation is high */ + ( GT_16( dE3, 5 << 8 ) || /* energy increases */ + ( GT_16( relE, -3328 /* 13 in Q8 */ ) && ( GT_16( add_sat( mean_voi3, corr_shift ), 22774 /* 0.695 in Q15 */ ) ) ) ) ) /* normalized correlation is high */ { st_fx->spike_hyst = -1; move16(); @@ -613,7 +1109,7 @@ Word16 find_uv_fx( /* o : coding type */ move32(); /*Q13*/ /* save the raw coder_type for various modules later in the codec (the reason is that e.g. UNVOICED is lost at higher rates) */ - st_fx->coder_type_raw = coder_type; + st_fx->coder_type_raw = coder_type; /* Q0 */ move16(); return coder_type; diff --git a/lib_enc/find_wsp.c b/lib_enc/find_wsp.c deleted file mode 100644 index 89b77d351c6cf8467fdc846030411d69ecec9f82..0000000000000000000000000000000000000000 --- a/lib_enc/find_wsp.c +++ /dev/null @@ -1,98 +0,0 @@ -/****************************************************************************************************** - - (C) 2022-2025 IVAS codec Public Collaboration with portions copyright Dolby International AB, Ericsson AB, - Fraunhofer-Gesellschaft zur Foerderung der angewandten Forschung e.V., Huawei Technologies Co. LTD., - Koninklijke Philips N.V., Nippon Telegraph and Telephone Corporation, Nokia Technologies Oy, Orange, - Panasonic Holdings Corporation, Qualcomm Technologies, Inc., VoiceAge Corporation, and other - contributors to this repository. All Rights Reserved. - - This software is protected by copyright law and by international treaties. - The IVAS codec Public Collaboration consisting of Dolby International AB, Ericsson AB, - Fraunhofer-Gesellschaft zur Foerderung der angewandten Forschung e.V., Huawei Technologies Co. LTD., - Koninklijke Philips N.V., Nippon Telegraph and Telephone Corporation, Nokia Technologies Oy, Orange, - Panasonic Holdings Corporation, Qualcomm Technologies, Inc., VoiceAge Corporation, and other - contributors to this repository retain full ownership rights in their respective contributions in - the software. This notice grants no license of any kind, including but not limited to patent - license, nor is any license granted by implication, estoppel or otherwise. - - Contributors are required to enter into the IVAS codec Public Collaboration agreement before making - contributions. - - This software is provided "AS IS", without any express or implied warranties. The software is in the - development stage. It is intended exclusively for experts who have experience with such software and - solely for the purpose of inspection. All implied warranties of non-infringement, merchantability - and fitness for a particular purpose are hereby disclaimed and excluded. - - Any dispute, controversy or claim arising under or in relation to providing this software shall be - submitted to and settled by the final, binding jurisdiction of the courts of Munich, Germany in - accordance with the laws of the Federal Republic of Germany excluding its conflict of law rules and - the United Nations Convention on Contracts on the International Sales of Goods. - -*******************************************************************************************************/ - -/*==================================================================================== - EVS Codec 3GPP TS26.443 Nov 04, 2021. Version 12.14.0 / 13.10.0 / 14.6.0 / 15.4.0 / 16.3.0 - ====================================================================================*/ - -#include -#include "options.h" -#include "cnst.h" -#include "prot.h" -#include "wmc_auto.h" -#include "prot_fx.h" -/*-------------------------------------------------------------------* - * ivas_find_wsp_fx() - * - * Compute weighted speech used in open-loop pitch search - *-------------------------------------------------------------------*/ -void ivas_find_wsp_fx( - const Word16 L_frame, /* i : length of the frame Q0*/ - const Word16 L_subfr, /* i : length of subframe Q0*/ - const Word16 nb_subfr, /* i : number of subframes Q0*/ - const Word16 *A_fx, - /* i : A(z) filter coefficients */ // Q12 - Word16 *Aw_fx, - /* o : weighted A(z) filter coefficients */ // Q12 - const Word16 *speech_fx, - /* i : pointer to the denoised speech frame */ // Q_new - const Word16 tilt_fact, - /* i : tilt factor */ // Q15 - Word16 *wsp_fx, - /* o : poitnter to the weighted speech frame */ // Q_new - Word16 *mem_wsp_fx, - /* i/o: W(Z) denominator memory */ // Q_new - const Word16 gamma, - /* i : weighting factor */ // Q15 - const Word16 L_look /* i : look-ahead Q0*/ -) -{ - Word16 *p_Aw_fx, tmp_fx; - Word16 i_subfr; - - - /*-----------------------------------------------------------------* - * Compute weighted A(z) unquantized for subframes - *-----------------------------------------------------------------*/ - weight_a_subfr_fx( nb_subfr, A_fx, Aw_fx, gamma, M ); - - /*-----------------------------------------------------------------* - * Compute weighted speech for all subframes - *-----------------------------------------------------------------*/ - p_Aw_fx = Aw_fx; - FOR( i_subfr = 0; i_subfr < L_frame; i_subfr += L_subfr ) - { - Residu3_fx( p_Aw_fx, &speech_fx[i_subfr], &wsp_fx[i_subfr], L_subfr, 0 ); - p_Aw_fx += ( M + 1 ); - } - p_Aw_fx -= ( M + 1 ); - - /*-----------------------------------------------------------------* - * Weighted speech computation is extended on look-ahead - *-----------------------------------------------------------------*/ - - deemph_fx( wsp_fx, tilt_fact, L_frame, mem_wsp_fx ); - Residu3_fx( p_Aw_fx, &speech_fx[L_frame], &wsp_fx[L_frame], L_look, 0 ); - tmp_fx = *mem_wsp_fx; - deemph_fx( &wsp_fx[L_frame], tilt_fact, L_look, &tmp_fx ); - return; -} diff --git a/lib_enc/find_wsp_fx.c b/lib_enc/find_wsp_fx.c index 7468c3dc77c5fd6064b8665f05a46dbb5e6c806b..155e499046dd1ead55fbc5fc7bf4f87eb4edd434 100644 --- a/lib_enc/find_wsp_fx.c +++ b/lib_enc/find_wsp_fx.c @@ -6,8 +6,7 @@ #include #include "options.h" #include "cnst.h" -//#include "prot_fx.h" -#include "prot_fx.h" /* Function prototypes */ +#include "prot_fx.h" #include "prot_fx_enc.h" /* Function prototypes */ @@ -78,3 +77,60 @@ void find_wsp_fx( deemph_fx( &wsp[L_frame], preemph_fac, lookahead, &wtmp ); } } + +/*-------------------------------------------------------------------* + * ivas_find_wsp_fx() + * + * Compute weighted speech used in open-loop pitch search + *-------------------------------------------------------------------*/ +void ivas_find_wsp_fx( + const Word16 L_frame, /* i : length of the frame Q0*/ + const Word16 L_subfr, /* i : length of subframe Q0*/ + const Word16 nb_subfr, /* i : number of subframes Q0*/ + const Word16 *A_fx, + /* i : A(z) filter coefficients */ // Q12 + Word16 *Aw_fx, + /* o : weighted A(z) filter coefficients */ // Q12 + const Word16 *speech_fx, + /* i : pointer to the denoised speech frame */ // Q_new + const Word16 tilt_fact, + /* i : tilt factor */ // Q15 + Word16 *wsp_fx, + /* o : poitnter to the weighted speech frame */ // Q_new + Word16 *mem_wsp_fx, + /* i/o: W(Z) denominator memory */ // Q_new + const Word16 gamma, + /* i : weighting factor */ // Q15 + const Word16 L_look /* i : look-ahead Q0*/ +) +{ + Word16 *p_Aw_fx, tmp_fx; + Word16 i_subfr; + + + /*-----------------------------------------------------------------* + * Compute weighted A(z) unquantized for subframes + *-----------------------------------------------------------------*/ + weight_a_subfr_fx( nb_subfr, A_fx, Aw_fx, gamma, M ); + + /*-----------------------------------------------------------------* + * Compute weighted speech for all subframes + *-----------------------------------------------------------------*/ + p_Aw_fx = Aw_fx; + FOR( i_subfr = 0; i_subfr < L_frame; i_subfr += L_subfr ) + { + Residu3_fx( p_Aw_fx, &speech_fx[i_subfr], &wsp_fx[i_subfr], L_subfr, 0 ); + p_Aw_fx += ( M + 1 ); + } + p_Aw_fx -= ( M + 1 ); + + /*-----------------------------------------------------------------* + * Weighted speech computation is extended on look-ahead + *-----------------------------------------------------------------*/ + + deemph_fx( wsp_fx, tilt_fact, L_frame, mem_wsp_fx ); + Residu3_fx( p_Aw_fx, &speech_fx[L_frame], &wsp_fx[L_frame], L_look, 0 ); + tmp_fx = *mem_wsp_fx; + deemph_fx( &wsp_fx[L_frame], tilt_fact, L_look, &tmp_fx ); + return; +} diff --git a/lib_enc/frame_spec_dif_cor_rate.c b/lib_enc/frame_spec_dif_cor_rate.c deleted file mode 100644 index 9185f37bd8e368b71eb77f97de5cd1044afc3320..0000000000000000000000000000000000000000 --- a/lib_enc/frame_spec_dif_cor_rate.c +++ /dev/null @@ -1,47 +0,0 @@ -/****************************************************************************************************** - - (C) 2022-2025 IVAS codec Public Collaboration with portions copyright Dolby International AB, Ericsson AB, - Fraunhofer-Gesellschaft zur Foerderung der angewandten Forschung e.V., Huawei Technologies Co. LTD., - Koninklijke Philips N.V., Nippon Telegraph and Telephone Corporation, Nokia Technologies Oy, Orange, - Panasonic Holdings Corporation, Qualcomm Technologies, Inc., VoiceAge Corporation, and other - contributors to this repository. All Rights Reserved. - - This software is protected by copyright law and by international treaties. - The IVAS codec Public Collaboration consisting of Dolby International AB, Ericsson AB, - Fraunhofer-Gesellschaft zur Foerderung der angewandten Forschung e.V., Huawei Technologies Co. LTD., - Koninklijke Philips N.V., Nippon Telegraph and Telephone Corporation, Nokia Technologies Oy, Orange, - Panasonic Holdings Corporation, Qualcomm Technologies, Inc., VoiceAge Corporation, and other - contributors to this repository retain full ownership rights in their respective contributions in - the software. This notice grants no license of any kind, including but not limited to patent - license, nor is any license granted by implication, estoppel or otherwise. - - Contributors are required to enter into the IVAS codec Public Collaboration agreement before making - contributions. - - This software is provided "AS IS", without any express or implied warranties. The software is in the - development stage. It is intended exclusively for experts who have experience with such software and - solely for the purpose of inspection. All implied warranties of non-infringement, merchantability - and fitness for a particular purpose are hereby disclaimed and excluded. - - Any dispute, controversy or claim arising under or in relation to providing this software shall be - submitted to and settled by the final, binding jurisdiction of the courts of Munich, Germany in - accordance with the laws of the Federal Republic of Germany excluding its conflict of law rules and - the United Nations Convention on Contracts on the International Sales of Goods. - -*******************************************************************************************************/ - -/*==================================================================================== - EVS Codec 3GPP TS26.443 Nov 04, 2021. Version 12.14.0 / 13.10.0 / 14.6.0 / 15.4.0 / 16.3.0 - ====================================================================================*/ - -#include -#include "options.h" -#include -#include "prot.h" -#include "wmc_auto.h" - -/*-------------------------------------------------------------------* - * frame_spec_dif_cor_rate() - * - * - *-------------------------------------------------------------------*/ diff --git a/lib_enc/gain_enc.c b/lib_enc/gain_enc.c deleted file mode 100644 index 276e2073828ba5e96768d35da3c89e2d4b36ca34..0000000000000000000000000000000000000000 --- a/lib_enc/gain_enc.c +++ /dev/null @@ -1,55 +0,0 @@ -/****************************************************************************************************** - - (C) 2022-2025 IVAS codec Public Collaboration with portions copyright Dolby International AB, Ericsson AB, - Fraunhofer-Gesellschaft zur Foerderung der angewandten Forschung e.V., Huawei Technologies Co. LTD., - Koninklijke Philips N.V., Nippon Telegraph and Telephone Corporation, Nokia Technologies Oy, Orange, - Panasonic Holdings Corporation, Qualcomm Technologies, Inc., VoiceAge Corporation, and other - contributors to this repository. All Rights Reserved. - - This software is protected by copyright law and by international treaties. - The IVAS codec Public Collaboration consisting of Dolby International AB, Ericsson AB, - Fraunhofer-Gesellschaft zur Foerderung der angewandten Forschung e.V., Huawei Technologies Co. LTD., - Koninklijke Philips N.V., Nippon Telegraph and Telephone Corporation, Nokia Technologies Oy, Orange, - Panasonic Holdings Corporation, Qualcomm Technologies, Inc., VoiceAge Corporation, and other - contributors to this repository retain full ownership rights in their respective contributions in - the software. This notice grants no license of any kind, including but not limited to patent - license, nor is any license granted by implication, estoppel or otherwise. - - Contributors are required to enter into the IVAS codec Public Collaboration agreement before making - contributions. - - This software is provided "AS IS", without any express or implied warranties. The software is in the - development stage. It is intended exclusively for experts who have experience with such software and - solely for the purpose of inspection. All implied warranties of non-infringement, merchantability - and fitness for a particular purpose are hereby disclaimed and excluded. - - Any dispute, controversy or claim arising under or in relation to providing this software shall be - submitted to and settled by the final, binding jurisdiction of the courts of Munich, Germany in - accordance with the laws of the Federal Republic of Germany excluding its conflict of law rules and - the United Nations Convention on Contracts on the International Sales of Goods. - -*******************************************************************************************************/ - -/*==================================================================================== - EVS Codec 3GPP TS26.443 Nov 04, 2021. Version 12.14.0 / 13.10.0 / 14.6.0 / 15.4.0 / 16.3.0 - ====================================================================================*/ - -#include -#include "options.h" -#include -#include "cnst.h" -#include "rom_com.h" -#include "prot.h" -#include "wmc_auto.h" - -/*-------------------------------------------------------------------* - * Local constants - *-------------------------------------------------------------------*/ - -#define RANGE 64 - -/*---------------------------------------------------------------------* - * Es_pred_enc() - * - * Calculation and quantization of average predicted innovation energy to be - *---------------------------------------------------------------------*/ diff --git a/lib_enc/gain_enc_fx.c b/lib_enc/gain_enc_fx.c index 162fc41fa62738ea3379513ff32d59279984efc9..0ccb31ccfcf7e1eeb00cecab9149fa111b45bc8b 100644 --- a/lib_enc/gain_enc_fx.c +++ b/lib_enc/gain_enc_fx.c @@ -7,7 +7,6 @@ #include "rom_com_fx.h" /* Static table prototypes */ #include "rom_com.h" /* Static table prototypes */ //#include "prot_fx.h" /* Function prototypes */ -#include "prot.h" /* Function prototypes */ #include "prot_fx.h" /* Function prototypes */ #include "prot_fx_enc.h" /* Function prototypes */ @@ -429,7 +428,7 @@ void gain_enc_mless_fx( tmp1 = mult_r( G_PITCH_MAX_MINUS_MIN_TC192_Q13, div_s( 1, sub( shl( 1, nBits ), 1 ) ) ); /*Q13*/ /* set quantization step */ index = usquant_fx( *gain_pit, gain_pit, G_PITCH_MIN_TC192_Q14, tmp1, shl( 1, nBits ) ); move16(); - push_indice_fx( hBstr, IND_GAIN_PIT, index, nBits ); + push_indice( hBstr, IND_GAIN_PIT, index, nBits ); /* gain_code Q */ /**gain_code /= gcode0;*/ @@ -442,7 +441,7 @@ void gain_enc_mless_fx( } index = gain_quant_fx( gain_code, &gain_code16, LG10_G_CODE_MIN_TC192_Q14, LG10_G_CODE_MAX_TC192_Q13, nBits2, &expg ); - push_indice_fx( hBstr, IND_GAIN_CODE, index, nBits2 ); + push_indice( hBstr, IND_GAIN_CODE, index, nBits2 ); L_tmp = L_mult( gain_code16, gcode0 ); /*Q0*Q0 -> Q1*/ *gain_code = L_shl_o( L_tmp, add( add( expg, exp_gcode0 ), 15 ), &Overflow ); /*Q16*/ } @@ -467,11 +466,6 @@ void gain_enc_mless_fx( qua_table = gain_qua_mless_6b_fx; if ( element_mode > EVS_MONO ) { -#ifdef IVAS_CODE - qua_table = gain_qua_mless_6b_stereo; -#else - // PMTE() -#endif } move16(); if ( EQ_16( clip_gain, 1 ) ) @@ -514,7 +508,7 @@ void gain_enc_mless_fx( * search for the best quantizer *-----------------------------------------------------------------*/ index = Find_Opt_gainQ_fx( coeff, exp_coeff, gain_pit, gain_code, gcode0, exp_gcode0, qua_table, size ); // Q0 - push_indice_fx( hBstr, IND_GAIN, index, nBits ); + push_indice( hBstr, IND_GAIN, index, nBits ); } /* *norm_gain_code = *gain_code / *gain_inov; */ @@ -1114,7 +1108,7 @@ void gain_enc_SQ_fx( tmp1 = mult_r( G_PITCH_MAX_Q13, div_s( 1, sub( shl( 1, nBits_pitch ), 1 ) ) ); /*Q13*/ /* set quantization step */ index = usquant_fx( *gain_pit, gain_pit, G_PITCH_MIN_Q14, tmp1, shl( 1, nBits_pitch ) ); // Q0 - push_indice_fx( hBstr, IND_GAIN_PIT, index, nBits_pitch ); + push_indice( hBstr, IND_GAIN_PIT, index, nBits_pitch ); /* gain_code Q */ /* *gain_code /= gcode0; */ @@ -1127,7 +1121,7 @@ void gain_enc_SQ_fx( } index = gain_quant_fx( gain_code, &gain_code16, LG10_G_CODE_MIN_Q14, LG10_G_CODE_MAX_Q13, nBits_code, &expg ); - push_indice_fx( hBstr, IND_GAIN_CODE, index, nBits_code ); + push_indice( hBstr, IND_GAIN_CODE, index, nBits_code ); L_tmp = L_mult( gain_code16, gcode0 ); /*Q0*Q0 -> Q1*/ *gain_code = L_shl_sat( L_tmp, add( add( expg, exp_gcode0 ), 15 ) ); move32(); /*Q16*/ @@ -1607,7 +1601,7 @@ void gain_enc_tc_fx( *gain_code_fx = L_shl( L_tmp, add( add( expg, exp_gcode0 ), 15 ) ); /*Q16*/ move32(); - push_indice_fx( hBstr, IND_GAIN_CODE, index, nBits ); + push_indice( hBstr, IND_GAIN_CODE, index, nBits ); } ELSE { @@ -1638,7 +1632,7 @@ void gain_enc_tc_fx( L_tmp = L_mult( wgain_code, gcode0_fx ); /* Q13*Q0 -> Q14 */ *gain_code_fx = L_shl( L_tmp, add( exp_gcode0, 2 ) ); move32(); /* Q14 -> Q16 */ - push_indice_fx( hBstr, IND_GAIN_CODE, index, nBits ); + push_indice( hBstr, IND_GAIN_CODE, index, nBits ); } ELSE /* nBits == 3 */ { @@ -1648,7 +1642,7 @@ void gain_enc_tc_fx( L_tmp = L_mult( wgain_code, gcode0_fx ); /* Q13*Q0 -> Q14 */ *gain_code_fx = L_shl_sat( L_tmp, add( exp_gcode0, 2 ) ); move32(); /* Q14 -> Q16 */ - push_indice_fx( hBstr, IND_GAIN_CODE, index, nBits ); + push_indice( hBstr, IND_GAIN_CODE, index, nBits ); } } @@ -2059,12 +2053,6 @@ void gain_enc_lbr_fx( move16(); /* Compute scalar product */ -#ifdef DEBUG - if ( L_subfr != L_SUBFR ) - { - PMT( "Entire function needs review to accommode for L_subfr > L_SUBFR" ); - } -#endif coeff[2] = extract_h( Dot_product12( y2, y2, L_subfr, &exp ) ); move16(); exp_coeff[2] = add( sub( exp, 18 ), shl( Q_xn, 1 ) ); /* -18 (y2 Q9) */ @@ -2272,15 +2260,11 @@ void gain_enc_lbr_fx( move16(); IF( EQ_16( nBits, 7 ) ) { -#ifdef IVAS_CODE cdbk = gp_gamma_3sfr_7b_fx; if ( clip_gain == 1 ) { size -= 28; } -#else - // PMT("gp_gamma_3sfr_7b_fx is missing") -#endif } ELSE { @@ -2375,15 +2359,11 @@ void gain_enc_lbr_fx( move16(); IF( EQ_16( nBits, 7 ) ) { -#ifdef IVAS_CODE cdbk = gp_gamma_4sfr_7b_fx; if ( clip_gain == 1 ) { size -= 25; } -#else - // PMT("gp_gamma_4sfr_7b_fx is missing") -#endif } ELSE { @@ -2458,7 +2438,7 @@ void gain_enc_lbr_fx( *norm_gain_code = L_shr( Mult_32_16( *gain_code, tmp ), sub( 1, exp ) ); // Q16 move32(); { - push_indice_fx( hBstr, IND_GAIN, index, nBits ); + push_indice( hBstr, IND_GAIN, index, nBits ); } return; } @@ -3243,7 +3223,7 @@ void gain_enc_amr_wb_fx( *norm_gain_code = L_shr( Mult_32_16( *gain_code, tmp ), sub( 1, exp ) ); // Q16 move32(); - push_indice_fx( hBstr, IND_GAIN, index, nBits ); + push_indice( hBstr, IND_GAIN, index, nBits ); return; } diff --git a/lib_enc/gaus_enc_fx.c b/lib_enc/gaus_enc_fx.c index a7d60642bb0d6c56b7772c47e85b77b2a6138b9f..2aa9a5dfff887f9e1fd502971505046bb588201e 100644 --- a/lib_enc/gaus_enc_fx.c +++ b/lib_enc/gaus_enc_fx.c @@ -7,7 +7,6 @@ #include "rom_com_fx.h" /* Static table prototypes */ #include "rom_com.h" /* Static table prototypes */ #include "rom_enc.h" /* Static table prototypes */ -#include "prot.h" /* Function prototypes */ #include "prot_fx.h" /* Function prototypes */ #include "prot_fx_enc.h" /* Function prototypes */ //#include "basop_mpy.h" @@ -91,13 +90,13 @@ Word16 gaus_encode_fx( exp_code = sub( exp_code, 18 + 6 ); /* exp: -18 (code in Q9), -6 (L_subfr = 64) */ Ltmp = Isqrt_lc( Ltmp, &exp_code ); - *gain_inov = extract_h( L_shl( Ltmp, sub( exp_code, 3 ) ) ); /* g_code_inov in Q12 */ + *gain_inov = extract_h( L_shl_sat( Ltmp, sub( exp_code, 3 ) ) ); /* g_code_inov in Q12 */ nb_bits = st_fx->acelp_cfg.gains_mode[tmp_idx]; /* Q0 */ move16(); /* low bound = -30; stepSize = 1.71875; inv_stepSize = 0.5818181 */ idx = gain_enc_gaus_fx( gain_code, nb_bits, -7680, 28160, 19065 ); /* Q0 */ - push_indice_fx( st_fx->hBstr, IND_GAIN, idx, nb_bits ); + push_indice( st_fx->hBstr, IND_GAIN, idx, nb_bits ); /*----------------------------------------------------------------* * Total excitation for Unvoiced coders @@ -639,8 +638,8 @@ void gauss2v_fx( idx = cod_2pos_fx( i, j, sign1, sign2, nvec ); /* Q0 */ move16(); - push_indice_fx( hBstr, IND_GAUS_CDBK_INDEX, idx, 2 * nb_bits + 1 ); - push_indice_fx( hBstr, IND_TILT_FACTOR, index_delta, 3 ); + push_indice( hBstr, IND_GAUS_CDBK_INDEX, idx, 2 * nb_bits + 1 ); + push_indice( hBstr, IND_TILT_FACTOR, index_delta, 3 ); /*----------------------------------------------------------------* * Find quantized gain @@ -980,13 +979,8 @@ void gauss2v_ivas_fx( /* eneri = round_fx(ener[i]) + round_fx(ener[j]) + 2*round_fx(dotprod) */ /* Use ScalingShift to stay aligned with ener[] */ eneri = L_shl( dotprod, 1 ); /* One left shift added for factor of 2 */ -#ifndef FIX_1298 - eneri = L_add( ener[i], eneri ); - eneri = L_add( ener[j], eneri ); /* Q31 */ -#else eneri = L_add_sat( ener[i], eneri ); eneri = L_add_sat( ener[j], eneri ); /* Q31 */ -#endif lo1 = L_Extract_lc( cor32, &hi1 ); cor2 = Sad_32( 0, hi1, lo1 ); /* Square + Add */ diff --git a/lib_enc/gs_enc.c b/lib_enc/gs_enc.c deleted file mode 100644 index 900c381bf2fb9fa9e3f0de002b2dccc0293feba0..0000000000000000000000000000000000000000 --- a/lib_enc/gs_enc.c +++ /dev/null @@ -1,56 +0,0 @@ -/****************************************************************************************************** - - (C) 2022-2025 IVAS codec Public Collaboration with portions copyright Dolby International AB, Ericsson AB, - Fraunhofer-Gesellschaft zur Foerderung der angewandten Forschung e.V., Huawei Technologies Co. LTD., - Koninklijke Philips N.V., Nippon Telegraph and Telephone Corporation, Nokia Technologies Oy, Orange, - Panasonic Holdings Corporation, Qualcomm Technologies, Inc., VoiceAge Corporation, and other - contributors to this repository. All Rights Reserved. - - This software is protected by copyright law and by international treaties. - The IVAS codec Public Collaboration consisting of Dolby International AB, Ericsson AB, - Fraunhofer-Gesellschaft zur Foerderung der angewandten Forschung e.V., Huawei Technologies Co. LTD., - Koninklijke Philips N.V., Nippon Telegraph and Telephone Corporation, Nokia Technologies Oy, Orange, - Panasonic Holdings Corporation, Qualcomm Technologies, Inc., VoiceAge Corporation, and other - contributors to this repository retain full ownership rights in their respective contributions in - the software. This notice grants no license of any kind, including but not limited to patent - license, nor is any license granted by implication, estoppel or otherwise. - - Contributors are required to enter into the IVAS codec Public Collaboration agreement before making - contributions. - - This software is provided "AS IS", without any express or implied warranties. The software is in the - development stage. It is intended exclusively for experts who have experience with such software and - solely for the purpose of inspection. All implied warranties of non-infringement, merchantability - and fitness for a particular purpose are hereby disclaimed and excluded. - - Any dispute, controversy or claim arising under or in relation to providing this software shall be - submitted to and settled by the final, binding jurisdiction of the courts of Munich, Germany in - accordance with the laws of the Federal Republic of Germany excluding its conflict of law rules and - the United Nations Convention on Contracts on the International Sales of Goods. - -*******************************************************************************************************/ - -/*==================================================================================== - EVS Codec 3GPP TS26.443 Nov 04, 2021. Version 12.14.0 / 13.10.0 / 14.6.0 / 15.4.0 / 16.3.0 - ====================================================================================*/ - -#include -#include "options.h" -#include -#include "cnst.h" -#include "rom_com.h" -#include "prot.h" -#include "ivas_prot.h" -#include "wmc_auto.h" -#include "prot_fx.h" - -/*-------------------------------------------------------------------* - * Local function prototypes - *-------------------------------------------------------------------*/ - - -/*-------------------------------------------------------------------* - * GSC_enc_init() - * - * Initialize GSC encoder state structure - *-------------------------------------------------------------------*/ diff --git a/lib_enc/gs_enc_fx.c b/lib_enc/gs_enc_fx.c index 7ae8fb42ed40965aee263bf0ba201cfe444f8181..77470c25546c948f20e5b3acb3de766be38742b8 100644 --- a/lib_enc/gs_enc_fx.c +++ b/lib_enc/gs_enc_fx.c @@ -6,8 +6,6 @@ #include "cnst.h" #include "rom_com_fx.h" #include "rom_com.h" -//#include "prot_fx.h" -#include "prot.h" /* Function prototypes */ #include "prot_fx.h" /* Function prototypes */ #include "prot_fx_enc.h" /* Function prototypes */ @@ -25,8 +23,8 @@ static Word16 edyn_fx( const Word16 *vec, const Word16 lvec, Word16 Qnew ); void encod_audio_fx( Encoder_State *st_fx, /* i/o: State structure */ const Word16 speech[], /* i : input speech Q_new */ - const Word16 Aw[], /* i : weighted A(z) unquantized for subframes */ - const Word16 Aq[], /* i : 12k8 Lp coefficient */ + const Word16 Aw[], /* i : weighted A(z) unquantized for subframes Q12 */ + const Word16 Aq[], /* i : 12k8 Lp coefficient Q12 */ const Word16 *res, /* i : residual signal Q_new */ Word16 *synth, /* i/o: core synthesis Q-1 */ Word16 *exc, /* i/o: current non-enhanced excitation Q_new */ @@ -34,10 +32,10 @@ void encod_audio_fx( Word16 *voice_factors, /* o : voicing factors Q15 */ Word16 *bwe_exc, /* o : excitation for SWB TBE Q0 */ const Word16 attack_flag, /* i : Flag that point to an attack coded with AC mode (GSC) */ - Word16 *lsf_new, /* i : current frame ISF vector */ - Word16 *tmp_noise, /* o : noise energy */ - const Word16 tdm_Pitch_reuse_flag, /* i : primary channel pitch reuse flag */ - const Word16 tdm_Pri_pitch_buf[], /* i : primary channel pitch buffer */ + Word16 *lsf_new, /* i : current frame ISF vector Qx2.56 */ + Word16 *tmp_noise, /* o : noise energy Q2*/ + const Word16 tdm_Pitch_reuse_flag, /* i : primary channel pitch reuse flag Q0*/ + const Word16 tdm_Pri_pitch_buf[], /* i : primary channel pitch buffer Q6*/ Word16 Q_new, Word16 shift ) { @@ -45,9 +43,11 @@ void encod_audio_fx( Word16 i, i_subfr, nb_subfr, last_pit_bin; Word16 T0_tmp, T0_frac_tmp, nb_subfr_flag; Word16 tmp_nb_bits_tot = 0; + move16(); Word16 Es_pred; Word16 dct_res[L_FRAME16k], dct_epit[L_FRAME16k]; Word16 m_mean = 0; + move16(); Word16 saved_bit_pos; Word16 exc_wo_nf[L_FRAME16k]; Word32 Lm_mean; @@ -67,7 +67,7 @@ void encod_audio_fx( move16(); T0_frac_tmp = 0; move16(); - Copy( hLPDmem->mem_syn, hGSCEnc->mem_syn_tmp_fx, M ); + Copy( hLPDmem->mem_syn, hGSCEnc->mem_syn_tmp_fx, M ); /* hLPDmem->q_mem_syn */ hGSCEnc->mem_w0_tmp_fx = hLPDmem->mem_w0; move16(); Es_pred = 0; @@ -80,18 +80,18 @@ void encod_audio_fx( *---------------------------------------------------------------*/ #ifdef GSC_IVAS // TVB -->>>>>> test(); - if ( GT_16( st_fx->element_mode, EVS_MONO ) && st_fx->idchan == 0 ) + IF( ( st_fx->element_mode > EVS_MONO ) && st_fx->idchan == 0 ) { - push_indice_fx( hBstr, IND_GSC_IVAS_SP, st_fx->GSC_IVAS_mode, 2 ); + push_indice( hBstr, IND_GSC_IVAS_SP, st_fx->GSC_IVAS_mode, 2 ); } #endif IF( attack_flag > 0 ) { - push_indice_fx( hBstr, IND_GSC_ATTACK, 1, 1 ); + push_indice( hBstr, IND_GSC_ATTACK, 1, 1 ); } ELSE { - push_indice_fx( hBstr, IND_GSC_ATTACK, 0, 1 ); + push_indice( hBstr, IND_GSC_ATTACK, 0, 1 ); } @@ -101,10 +101,11 @@ void encod_audio_fx( test(); test(); test(); + test(); IF( GE_16( st_fx->GSC_IVAS_mode, 1 ) || ( NE_16( st_fx->coder_type, INACTIVE ) && ( ( EQ_16( st_fx->element_mode, EVS_MONO ) && GE_32( st_fx->total_brate, ACELP_13k20 ) ) || ( GT_16( st_fx->element_mode, EVS_MONO ) && GT_32( st_fx->total_brate, MIN_BRATE_GSC_NOISY_FLAG ) && GE_16( st_fx->bwidth, SWB ) && !st_fx->flag_ACELP16k ) ) ) ) { - push_indice_fx( hBstr, IND_GSC_SWB_SPEECH, st_fx->GSC_noisy_speech, 1 ); + push_indice( hBstr, IND_GSC_SWB_SPEECH, st_fx->GSC_noisy_speech, 1 ); } /*---------------------------------------------------------------* * Find and encode the number of subframes @@ -115,7 +116,7 @@ void encod_audio_fx( FOR( i = 0; i < 5; i++ ) { test(); - if ( GT_16( abs_s( hSpMusClas->gsc_lt_diff_etot_fx[MAX_LT - i - 1] ), 1536 ) && EQ_16( hGSCEnc->cor_strong_limit, 1 ) ) + if ( GT_16( abs_s( hSpMusClas->gsc_lt_diff_etot_fx[MAX_LT - i - 1] ), 1536 /*6.0 in Q8*/ ) && EQ_16( hGSCEnc->cor_strong_limit, 1 ) ) { hGSCEnc->cor_strong_limit = 0; move16(); @@ -123,6 +124,9 @@ void encod_audio_fx( } } test(); + test(); + test(); + test(); IF( GE_16( st_fx->GSC_IVAS_mode, 1 ) || ( st_fx->GSC_noisy_speech && st_fx->GSC_IVAS_mode == 0 ) ) { nb_subfr = NB_SUBFR; @@ -168,21 +172,25 @@ void encod_audio_fx( nb_subfr_flag = 1; move16(); } + + test(); + test(); + test(); IF( EQ_16( st_fx->L_frame, L_FRAME16k ) && ( GT_16( hSpMusClas->mold_corr_fx, 26214 ) && GE_32( st_fx->core_brate, MIN_RATE_4SBFR ) && NE_16( st_fx->coder_type, INACTIVE ) ) ) { nb_subfr = shl( nb_subfr, 1 ); - nb_subfr_flag |= 0x2; + nb_subfr_flag = s_or( nb_subfr_flag, 0x2 ); logic16(); } IF( EQ_16( st_fx->L_frame, L_FRAME16k ) && GE_32( st_fx->core_brate, MIN_RATE_4SBFR ) ) { - push_indice_fx( hBstr, IND_HF_NOISE, nb_subfr_flag, 2 ); + push_indice( hBstr, IND_HF_NOISE, nb_subfr_flag, 2 ); } ELSE IF( GE_32( st_fx->core_brate, ACELP_9k60 ) ) { /* nb_subfr_flag can only have the value 0 or 1 */ - push_indice_fx( hBstr, IND_HF_NOISE, nb_subfr_flag, 1 ); + push_indice( hBstr, IND_HF_NOISE, nb_subfr_flag, 1 ); } } test(); @@ -196,14 +204,22 @@ void encod_audio_fx( * Compute adaptive (pitch) excitation contribution *---------------------------------------------------------------*/ + test(); + test(); + test(); + test(); + test(); + test(); + test(); test(); IF( !( st_fx->GSC_IVAS_mode > 0 && EQ_16( st_fx->L_frame, i_mult( nb_subfr, 2 * L_SUBFR ) ) && LT_16( st_fx->GSC_IVAS_mode, 3 ) ) && ( ( GE_32( st_fx->core_brate, MIN_RATE_FCB ) || st_fx->GSC_noisy_speech ) && ( ( EQ_16( nb_subfr, NB_SUBFR ) && EQ_16( st_fx->L_frame, L_FRAME ) ) || ( EQ_16( nb_subfr, NB_SUBFR16k ) && EQ_16( st_fx->L_frame, L_FRAME16k ) ) ) ) ) { - IF( GT_16( st_fx->element_mode, EVS_MONO ) ) + IF( ( st_fx->element_mode > EVS_MONO ) ) { nb_bits = 5; + move16(); } ELSE { @@ -211,7 +227,7 @@ void encod_audio_fx( move16(); } Es_pred_enc_fx( &Es_pred, &indice, st_fx->L_frame, res, st_fx->voicing_fx, nb_bits, 0, Q_new ); - push_indice_fx( hBstr, IND_ES_PRED, indice, nb_bits ); + push_indice( hBstr, IND_ES_PRED, indice, nb_bits ); } enc_pit_exc_fx( st_fx, speech, Aw, Aq, Es_pred, res, synth, exc, &T0_tmp, @@ -237,17 +253,20 @@ void encod_audio_fx( { /*st_fx->mid_dyn_fx = 0.2f * st_fx->mid_dyn_fx + 0.8f * m_mean;*/ hGSCEnc->mid_dyn_fx = round_fx( L_mac( L_mult( 26214, m_mean ), 6554, hGSCEnc->mid_dyn_fx ) ); /*Q7*/ + move16(); } ELSE { /*st_fx->mid_dyn_fx = 0.6f * st_fx->mid_dyn_fx + 0.4f * m_mean;*/ hGSCEnc->mid_dyn_fx = round_fx( L_mac( L_mult( 13107, m_mean ), 19661, hGSCEnc->mid_dyn_fx ) ); /*Q7*/ + move16(); } IF( NE_16( st_fx->coder_type, INACTIVE ) ) { hGSCEnc->noise_lev = sub( ( NOISE_LEVEL_SP3 + 1 ), usquant_fx( hGSCEnc->mid_dyn_fx, &m_mean, MIN_DYNAMIC_FX, shr( GSF_NF_DELTA_FX, 1 ), GSC_NF_STEPS ) ); - + move16(); hGSCEnc->noise_lev = s_min( hGSCEnc->noise_lev, NOISE_LEVEL_SP3 ); + move16(); } hGSCEnc->past_dyn_dec = hGSCEnc->noise_lev; @@ -255,6 +274,7 @@ void encod_audio_fx( IF( GE_16( st_fx->GSC_IVAS_mode, 1 ) ) { hGSCEnc->noise_lev = NOISE_LEVEL_SP2; + move16(); IF( EQ_16( st_fx->GSC_IVAS_mode, 3 ) ) /* Music like */ { hGSCEnc->noise_lev = NOISE_LEVEL_SP0; @@ -269,16 +289,18 @@ void encod_audio_fx( ELSE IF( LE_32( st_fx->core_brate, ACELP_8k00 ) ) { hGSCEnc->noise_lev = s_max( hGSCEnc->noise_lev, NOISE_LEVEL_SP2 ); - push_indice_fx( hBstr, IND_NOISE_LEVEL, sub( hGSCEnc->noise_lev, NOISE_LEVEL_SP2 ), 2 ); + move16(); + push_indice( hBstr, IND_NOISE_LEVEL, sub( hGSCEnc->noise_lev, NOISE_LEVEL_SP2 ), 2 ); } ELSE IF( st_fx->GSC_noisy_speech ) { hGSCEnc->noise_lev = NOISE_LEVEL_SP3; move16(); + move16(); } ELSE { - push_indice_fx( hBstr, IND_NOISE_LEVEL, sub( hGSCEnc->noise_lev, NOISE_LEVEL_SP0 ), 3 ); + push_indice( hBstr, IND_NOISE_LEVEL, sub( hGSCEnc->noise_lev, NOISE_LEVEL_SP0 ), 3 ); } /*---------------------------------------------------------------* @@ -375,8 +397,8 @@ void encod_audio_fx( void encod_audio_ivas_fx( Encoder_State *st_fx, /* i/o: State structure */ const Word16 speech[], /* i : input speech Q_new */ - const Word16 Aw[], /* i : weighted A(z) unquantized for subframes */ - const Word16 Aq[], /* i : 12k8 Lp coefficient */ + const Word16 Aw[], /* i : weighted A(z) unquantized for subframes Q12 */ + const Word16 Aq[], /* i : 12k8 Lp coefficient Q12 */ const Word16 *res, /* i : residual signal Q_new */ Word16 *synth, /* i/o: core synthesis Q-1 */ Word16 *exc, /* i/o: current non-enhanced excitation Q_new */ @@ -384,8 +406,8 @@ void encod_audio_ivas_fx( Word16 *voice_factors, /* o : voicing factors Q15 */ Word16 *bwe_exc, /* o : excitation for SWB TBE Q0 */ const Word16 attack_flag, /* i : Flag that point to an attack coded with AC mode (GSC) */ - Word16 *lsf_new, /* i : current frame ISF vector */ - Word16 *tmp_noise, /* o : noise energy */ + Word16 *lsf_new, /* i : current frame ISF vector Qx2.56 */ + Word16 *tmp_noise, /* o : noise energy Q8*/ const Word16 tdm_Pitch_reuse_flag, /* i : primary channel pitch reuse flag */ const Word16 tdm_Pri_pitch_buf[], /* i : primary channel pitch buffer */ Word16 Q_new, @@ -417,8 +439,8 @@ void encod_audio_ivas_fx( move16(); T0_frac_tmp = 0; move16(); - Copy( hLPDmem->mem_syn, hGSCEnc->mem_syn_tmp_fx, M ); - hGSCEnc->mem_w0_tmp_fx = hLPDmem->mem_w0; + Copy_Scale_sig( hLPDmem->mem_syn, hGSCEnc->mem_syn_tmp_fx, M, sub( sub( Q_new, 1 ), hLPDmem->q_mem_syn ) ); + Copy_Scale_sig( &hLPDmem->mem_w0, &hGSCEnc->mem_w0_tmp_fx, 1, sub( sub( Q_new, 1 ), hLPDmem->q_mem_syn ) ); move16(); Es_pred = 0; move16(); @@ -430,7 +452,7 @@ void encod_audio_ivas_fx( *---------------------------------------------------------------*/ test(); - if ( GT_16( st_fx->element_mode, EVS_MONO ) && st_fx->idchan == 0 ) + if ( ( st_fx->element_mode > EVS_MONO ) && st_fx->idchan == 0 ) { push_indice( hBstr, IND_GSC_IVAS_SP, st_fx->GSC_IVAS_mode, 2 ); } @@ -451,6 +473,7 @@ void encod_audio_ivas_fx( test(); test(); test(); + test(); IF( GE_16( st_fx->GSC_IVAS_mode, 1 ) || ( NE_16( st_fx->coder_type, INACTIVE ) && ( ( EQ_16( st_fx->element_mode, EVS_MONO ) && GE_32( st_fx->total_brate, ACELP_13k20 ) ) || ( GT_16( st_fx->element_mode, EVS_MONO ) && GT_32( st_fx->total_brate, MIN_BRATE_GSC_NOISY_FLAG ) && GE_16( st_fx->bwidth, SWB ) && !st_fx->flag_ACELP16k ) ) ) ) { @@ -473,6 +496,9 @@ void encod_audio_ivas_fx( } } test(); + test(); + test(); + test(); IF( GE_16( st_fx->GSC_IVAS_mode, 1 ) || ( st_fx->GSC_noisy_speech && st_fx->GSC_IVAS_mode == 0 ) ) { nb_subfr = NB_SUBFR; @@ -518,6 +544,10 @@ void encod_audio_ivas_fx( nb_subfr_flag = 1; move16(); } + + test(); + test(); + test(); IF( EQ_16( st_fx->L_frame, L_FRAME16k ) && ( GT_16( hSpMusClas->mold_corr_fx, 26214 ) && GE_32( st_fx->core_brate, MIN_RATE_4SBFR ) && NE_16( st_fx->coder_type, INACTIVE ) ) ) { nb_subfr = shl( nb_subfr, 1 ); @@ -525,6 +555,7 @@ void encod_audio_ivas_fx( logic16(); } + test(); IF( EQ_16( st_fx->L_frame, L_FRAME16k ) && GE_32( st_fx->core_brate, MIN_RATE_4SBFR ) ) { push_indice( hBstr, IND_HF_NOISE, nb_subfr_flag, 2 ); @@ -546,14 +577,22 @@ void encod_audio_ivas_fx( * Compute adaptive (pitch) excitation contribution *---------------------------------------------------------------*/ + test(); + test(); + test(); + test(); + test(); + test(); + test(); test(); IF( !( st_fx->GSC_IVAS_mode > 0 && EQ_16( st_fx->L_frame, i_mult( nb_subfr, 2 * L_SUBFR ) ) && LT_16( st_fx->GSC_IVAS_mode, 3 ) ) && ( ( GE_32( st_fx->core_brate, MIN_RATE_FCB ) || st_fx->GSC_noisy_speech ) && ( ( EQ_16( nb_subfr, NB_SUBFR ) && EQ_16( st_fx->L_frame, L_FRAME ) ) || ( EQ_16( nb_subfr, NB_SUBFR16k ) && EQ_16( st_fx->L_frame, L_FRAME16k ) ) ) ) ) { - IF( GT_16( st_fx->element_mode, EVS_MONO ) ) + IF( ( st_fx->element_mode > EVS_MONO ) ) { nb_bits = 5; + move16(); } ELSE { @@ -587,17 +626,20 @@ void encod_audio_ivas_fx( { /*st_fx->mid_dyn_fx = 0.2f * st_fx->mid_dyn_fx + 0.8f * m_mean;*/ hGSCEnc->mid_dyn_fx = round_fx( L_mac( L_mult( 26214, m_mean ), 6554, hGSCEnc->mid_dyn_fx ) ); /*Q7*/ + move16(); } ELSE { /*st_fx->mid_dyn_fx = 0.6f * st_fx->mid_dyn_fx + 0.4f * m_mean;*/ hGSCEnc->mid_dyn_fx = round_fx( L_mac( L_mult( 13107, m_mean ), 19661, hGSCEnc->mid_dyn_fx ) ); /*Q7*/ + move16(); } IF( NE_16( st_fx->coder_type, INACTIVE ) ) { hGSCEnc->noise_lev = sub( ( NOISE_LEVEL_SP3 + 1 ), usquant_fx( hGSCEnc->mid_dyn_fx, &m_mean, MIN_DYNAMIC_FX, shr( GSF_NF_DELTA_FX, 1 ), GSC_NF_STEPS ) ); - + move16(); hGSCEnc->noise_lev = s_min( hGSCEnc->noise_lev, NOISE_LEVEL_SP3 ); + move16(); } hGSCEnc->past_dyn_dec = hGSCEnc->noise_lev; @@ -605,6 +647,7 @@ void encod_audio_ivas_fx( IF( GE_16( st_fx->GSC_IVAS_mode, 1 ) ) { hGSCEnc->noise_lev = NOISE_LEVEL_SP2; + move16(); IF( EQ_16( st_fx->GSC_IVAS_mode, 3 ) ) /* Music like */ { hGSCEnc->noise_lev = NOISE_LEVEL_SP0; @@ -679,9 +722,9 @@ void encod_audio_ivas_fx( *--------------------------------------------------------------------------------------*/ edct_16fx( dct_epit, exc, st_fx->L_frame, 7, st_fx->element_mode ); - scale_sig( exc, st_fx->L_frame, sub( Q_new, Q_exc ) ); + Scale_sig( exc, st_fx->L_frame, sub( Q_new, Q_exc ) ); edct_16fx( exc_wo_nf, exc_wo_nf, st_fx->L_frame, 7, st_fx->element_mode ); - scale_sig( exc_wo_nf, st_fx->L_frame, sub( Q_new, Q_exc ) ); + Scale_sig( exc_wo_nf, st_fx->L_frame, sub( Q_new, Q_exc ) ); Q_exc = Q_new; move16(); /*--------------------------------------------------------------------------------------* @@ -710,7 +753,7 @@ void encod_audio_ivas_fx( * Synthesis *--------------------------------------------------------------------------------------*/ - p_Aq = Aq; + p_Aq = Aq; /* Q12 */ FOR( i_subfr = 0; i_subfr < st_fx->L_frame; i_subfr += L_SUBFR ) { Syn_filt_s( 1, p_Aq, M, &exc_wo_nf[i_subfr], &synth[i_subfr], L_SUBFR, hLPDmem->mem_syn, 1 ); @@ -720,10 +763,10 @@ void encod_audio_ivas_fx( /*--------------------------------------------------------------------------------------* * Updates *--------------------------------------------------------------------------------------*/ - - hLPDmem->mem_w0 = hGSCEnc->mem_w0_tmp_fx; /*_DIFF_FLOAT_FIX_ The way it is written in the original fix point is that at this point mem_w0 falls back to its original value (before enc_pit_exc, seems not the case in float */ + Copy_Scale_sig( &hGSCEnc->mem_w0_tmp_fx, &hLPDmem->mem_w0, 1, sub( hLPDmem->q_mem_syn, sub( Q_new, 1 ) ) ); + /*_DIFF_FLOAT_FIX_ The way it is written in the original fix point is that at this point mem_w0 falls back to its original value (before enc_pit_exc, seems not the case in float */ move16(); - Copy( exc_wo_nf, exc, st_fx->L_frame ); + Copy( exc_wo_nf, exc, st_fx->L_frame ); /* Q_new */ return; } @@ -755,14 +798,14 @@ void encod_audio_ivas_fx( void gsc_enc_fx( Encoder_State *st_fx, /* i/o: State structure */ - Word16 res_dct_in[], /* i : dct of residual signal */ - Word16 exc_dct_in[], /* i/o: dct of pitch-only excitation / total excitation */ + Word16 res_dct_in[], /* i : dct of residual signal Q_exc*/ + Word16 exc_dct_in[], /* i/o: dct of pitch-only excitation / total excitation Q_exc*/ const Word16 Diff_len, const Word16 bits_used, const Word16 nb_subfr, - Word16 *lsf_new, /* i : ISFs at the end of the frame */ - Word16 *exc_wo_nf, /* o : excitation (in f domain) without noisefill */ - Word16 *tmp_noise, /* o : noise energy */ + Word16 *lsf_new, /* i : ISFs at the end of the frame Qx2.56*/ + Word16 *exc_wo_nf, /* o : excitation (in f domain) without noisefill Q_exc*/ + Word16 *tmp_noise, /* o : noise energy Q2*/ Word16 Q_exc ) { Word16 y2_filt[L_FRAME16k]; @@ -785,10 +828,6 @@ void gsc_enc_fx( Word16 imaxpulse_fx[NB_SFM]; Word16 Q_tmp; Word16 seed_init; -#ifdef ADD_LRTD - Word16 max_eq_val; - Word32 max_eq; -#endif GSC_ENC_HANDLE hGSCEnc = st_fx->hGSCEnc; BSTR_ENC_HANDLE hBstr = st_fx->hBstr; @@ -800,6 +839,7 @@ void gsc_enc_fx( *--------------------------------------------------------------------------------------*/ bit = bits_used; + move16(); test(); test(); test(); @@ -847,10 +887,14 @@ void gsc_enc_fx( { IF( LE_32( st_fx->core_brate, brate_intermed_tbl[i] ) ) { - break; + BREAK; } i++; } + + test(); + test(); + test(); if ( GT_16( st_fx->element_mode, EVS_MONO ) && EQ_16( st_fx->coder_type, AUDIO ) && LE_32( st_fx->core_brate, STEREO_GSC_BIT_RATE_ALLOC ) && EQ_32( brate_intermed_tbl[i], ACELP_9k60 ) ) /* Bit allocation should be mapped to 8 kb/s instead of 9.6 kb/s in this case */ { @@ -860,6 +904,7 @@ void gsc_enc_fx( mean_gain = gsc_gainQ_fx( hBstr, /*st_fX->element_mode, st_fx->idchan,IVAS_CODE*/ Ener_per_bd_iQ, Ener_per_bd_iQ, brate_intermed_tbl[i], st_fx->coder_type, st_fx->bwidth /*, st_fx->L_frame, st_fx->tdm_LRTD_flag, st_fx->core_brate*/ ); *tmp_noise = mult_r( 320, mean_gain ); /*10 in Q5 lp_gainc in Q3 */ + move16(); /*--------------------------------------------------------------------------------------* * Frequency encoder @@ -879,14 +924,14 @@ void gsc_enc_fx( { tmp = pvq_core_enc_fx( hBstr, concat_in, concat_out, &Q_tmp, bit, nb_subbands, gsc_sfm_start, gsc_sfm_end, gsc_sfm_size, bits_per_bands, NULL, inpulses_fx, imaxpulse_fx, ACELP_CORE ); - Scale_sig( concat_out, gsc_sfm_end[nb_subbands - 1], sub( Q_PVQ_OUT, Q_tmp ) ); + Scale_sig( concat_out, gsc_sfm_end[nb_subbands - 1], sub( Q_PVQ_OUT, Q_tmp ) ); /* Q_PVQ_OUT */ bit = sub( bit, tmp ); } /* write unused bits */ WHILE( bit > 0 ) { i = s_min( bit, 16 ); - push_indice_fx( hBstr, IND_UNUSED, 0, i ); + push_indice( hBstr, IND_UNUSED, 0, i ); bit = sub( bit, i ); } /* Reorder Q bands */ @@ -896,18 +941,6 @@ void gsc_enc_fx( move16(); set16_fx( bitallocation_band, 0, MBANDS_GN_BITALLOC16k ); -#ifdef ADD_LRTD - max_eq = 0; - max_eq_val = 1.0f; - - IF( ( ( ( LT_32( st_fx->core_brate, ACELP_7k20 ) && EQ_16( st_fx->GSC_noisy_speech, 1 ) ) || LT_32( st_fx->core_brate, 6000 ) ) && LE_16( st_fx->coder_type, UNVOICED ) ) || GE_16( st_fx->GSC_IVAS_mode, 1 ) ) - { - j = emaximum( concat_out, nb_subbands * 16, &max_eq ); - max_eq = max_eq_val / ( fabsf( concat_out[j] ) + 0.01f ); - max_eq = min( max_eq_val, max_eq ); - } -#endif - FOR( j = 0; j < nb_subbands; j++ ) { Copy( concat_out + j * 16, exc_diffQ + max_ener_band[j] * 16, 16 ); /*Q12*/ @@ -963,26 +996,7 @@ void gsc_enc_fx( * Find x pulses between 1.6-3.2kHz to code in the spectrum of the residual signal * Gain is based on the inter-correlation gain between the pulses found and residual signal *--------------------------------------------------------------------------------------*/ -#ifdef ADD_LRTD - test(); - test(); - test(); - IF( GE_16( st_fx->GSC_IVAS_mode, 1 ) && EQ_16( st_fx->GSC_noisy_speech, 1 ) ) - { - FOR( i = 64; i < st->L_frame; i++ ) - { - exc_diffQ[i] *= max_eq; - } - } - ELSE IF( LT_32( st_fx->core_brate, ACELP_7k20 ) && EQ_16( st_fx->GSC_noisy_speech, 1 ) && LE_16( st_fx->coder_type, UNVOICED ) ) - { - FOR( i = 0; i < L_FRAME; i++ ) - { - exc_diffQ[i] *= max_eq; - } - } - else -#endif + { freq_dnw_scaling_fx( hGSCEnc->cor_strong_limit, st_fx->coder_type, hGSCEnc->noise_lev, st_fx->core_brate, exc_diffQ, Q_PVQ_OUT, st_fx->L_frame ); } @@ -1011,11 +1025,11 @@ void gsc_enc_ivas_fx( const Word16 Diff_len, /* i : Lenght of the difference signal (before pure spectral)*/ const Word16 bits_used, /* i : Number of bit used before frequency Q */ const Word16 nb_subfr, /* i : Number of subframe considered */ - const Word16 *lsf_new_fx, + const Word16 *lsf_new_fx, /* Qx2.56 */ /* i : ISFs at the end of the frame */ // Q15 Word16 *exc_wo_nf_fx, /* o : excitation (in f domain) without noisefill */ // Q_exc - Word16 *tmp_noise_fx, /* o : long-term noise energy */ + Word16 *tmp_noise_fx, /* o : long-term noise energy Q8*/ Word16 *Q_exc ) { Word16 i; @@ -1068,7 +1082,7 @@ void gsc_enc_ivas_fx( * (non valuable temporal content present in exc_dct_in is already zeroed) *--------------------------------------------------------------------------------------*/ - v_sub_16( res_dct_in_fx, exc_dct_in_fx, exc_diff_fx, st->L_frame ); + v_sub_16( res_dct_in_fx, exc_dct_in_fx, exc_diff_fx, st->L_frame ); /* Q_exc */ exc_diff_fx[0] = 0; move16(); @@ -1101,18 +1115,18 @@ void gsc_enc_ivas_fx( { IF( LE_32( st->core_brate, brate_intermed_tbl[i] ) ) { - break; + BREAK; } - i = add( i, 1 ); + i++; } test(); test(); test(); - IF( st->element_mode > EVS_MONO && EQ_16( st->coder_type, AUDIO ) && - LE_32( st->core_brate, STEREO_GSC_BIT_RATE_ALLOC ) && EQ_32( brate_intermed_tbl[i], ACELP_9k60 ) ) /* Bit allocation should be mapped to 8 kb/s instead of 9.6 kb/s in this case */ + if ( st->element_mode > EVS_MONO && EQ_16( st->coder_type, AUDIO ) && + LE_32( st->core_brate, STEREO_GSC_BIT_RATE_ALLOC ) && EQ_32( brate_intermed_tbl[i], ACELP_9k60 ) ) /* Bit allocation should be mapped to 8 kb/s instead of 9.6 kb/s in this case */ { - i = sub( i, 1 ); + i--; } mean_gain_fx = gsc_gainQ_ivas_fx( hBstr, st->element_mode, st->idchan, Ener_per_bd_iQ_fx, Ener_per_bd_iQ_fx, brate_intermed_tbl[i], st->coder_type, st->bwidth, st->L_frame, st->tdm_LRTD_flag, st->core_brate ); @@ -1166,18 +1180,18 @@ void gsc_enc_ivas_fx( j = emaximum_fx( Q12, concat_out_fx, shl( nb_subbands, 4 ), &L_tmp ); IF( LE_16( add( abs_s( concat_out_fx[j] ), 41 /* 0.01f in Q12 */ ), ONE_IN_Q12 ) ) { - max_eq = 32767; + max_eq = 32767; /* Q15 */ move16(); } ELSE { - max_eq = div_s( ONE_IN_Q12, add( abs_s( concat_out_fx[j] ), 41 /* 0.01f in Q12 */ ) ); + max_eq = div_s( ONE_IN_Q12, add( abs_s( concat_out_fx[j] ), 41 /* 0.01f in Q12 */ ) ); /* Q15 */ } } FOR( j = 0; j < nb_subbands; j++ ) { - Copy( concat_out_fx + i_mult( j, 16 ), exc_diffQ_fx + i_mult( max_ener_band[j], 16 ), 16 ); + Copy( concat_out_fx + i_mult( j, 16 ), exc_diffQ_fx + i_mult( max_ener_band[j], 16 ), 16 ); /* Q12 */ IF( GT_16( max_ener_band[j], last_bin ) ) { @@ -1246,7 +1260,7 @@ void gsc_enc_ivas_fx( { FOR( i = 64; i < st->L_frame; i++ ) { - exc_diffQ_fx[i] = mult( exc_diffQ_fx[i], max_eq ); + exc_diffQ_fx[i] = mult( exc_diffQ_fx[i], max_eq ); /* Q12 */ move16(); } } @@ -1254,7 +1268,7 @@ void gsc_enc_ivas_fx( { FOR( i = 0; i < L_FRAME; i++ ) { - exc_diffQ_fx[i] = mult( exc_diffQ_fx[i], max_eq ); + exc_diffQ_fx[i] = mult( exc_diffQ_fx[i], max_eq ); /* Q12 */ move16(); } } @@ -1266,13 +1280,13 @@ void gsc_enc_ivas_fx( Word16 Q_exc_new = s_min( *Q_exc, hGSCEnc->Q_last_exc_dct_in ); IF( NE_16( Q_exc_new, hGSCEnc->Q_last_exc_dct_in ) ) { - Scale_sig( hGSCEnc->last_exc_dct_in_fx, st->L_frame, sub( Q_exc_new, hGSCEnc->Q_last_exc_dct_in ) ); + Scale_sig( hGSCEnc->last_exc_dct_in_fx, st->L_frame, sub( Q_exc_new, hGSCEnc->Q_last_exc_dct_in ) ); /* Q_exc_new */ hGSCEnc->Q_last_exc_dct_in = Q_exc_new; move16(); } ELSE { - Scale_sig( exc_dct_in_fx, st->L_frame, sub( Q_exc_new, *Q_exc ) ); + Scale_sig( exc_dct_in_fx, st->L_frame, sub( Q_exc_new, *Q_exc ) ); /* Q_exc_new */ *Q_exc = Q_exc_new; move16(); } @@ -1312,7 +1326,7 @@ void gsc_enc_ivas_fx( /*=======================================================================*/ static Word16 edyn_fx( /* o : ratio of max to mean */ - const Word16 *vec, /* i : input vector */ + const Word16 *vec, /* i : input vector Qnew*/ const Word16 lvec, /* i : length of input vector */ Word16 Qnew ) { @@ -1323,6 +1337,7 @@ static Word16 edyn_fx( /* o : ratio of max to mean */ Word16 scale; #ifdef BASOP_NOGLOB_DECLARE_LOCAL Flag Overflow = 0; + move32(); #endif ener_mean = L_shl( 1, shl( Qnew, 1 ) ); /*2*Qnew*/ @@ -1360,10 +1375,10 @@ static Word16 edyn_fx( /* o : ratio of max to mean */ } ELSE { - dyn = 1280; + dyn = 1280; /* 10.0f in Q7 */ move16(); } - return dyn; + return dyn; /* Q7 */ } @@ -1378,7 +1393,7 @@ void GSC_enc_init_fx( ) { /* AC mode */ - hGSCEnc->seed_tcx = 15687; + hGSCEnc->seed_tcx = 15687; /* Q0 */ move16(); hGSCEnc->cor_strong_limit = 1; move16(); @@ -1388,6 +1403,7 @@ void GSC_enc_init_fx( set16_fx( hGSCEnc->last_bitallocation_band, 0, 6 ); hGSCEnc->mem_last_pit_band = BAND1k2 + 1; + move16(); hGSCEnc->Last_frame_ener_fx = MAX_32; move32(); hGSCEnc->lt_gpitch_fx = 0; @@ -1400,8 +1416,8 @@ void GSC_enc_init_fx( move16(); set16_fx( hGSCEnc->mem_syn_tmp_fx, 0, M ); - hGSCEnc->mid_dyn_fx = 5120; - move16(); /*40 -> Q7 */ + hGSCEnc->mid_dyn_fx = 5120; /*40 -> Q7 */ + move16(); hGSCEnc->noise_lev = NOISE_LEVEL_SP0; move16(); hGSCEnc->past_dyn_dec = 0; diff --git a/lib_enc/guided_plc_enc.c b/lib_enc/guided_plc_enc.c deleted file mode 100644 index 6c0e9022d866ca0b8b7d9804a9f735d41694353f..0000000000000000000000000000000000000000 --- a/lib_enc/guided_plc_enc.c +++ /dev/null @@ -1,42 +0,0 @@ -/****************************************************************************************************** - - (C) 2022-2025 IVAS codec Public Collaboration with portions copyright Dolby International AB, Ericsson AB, - Fraunhofer-Gesellschaft zur Foerderung der angewandten Forschung e.V., Huawei Technologies Co. LTD., - Koninklijke Philips N.V., Nippon Telegraph and Telephone Corporation, Nokia Technologies Oy, Orange, - Panasonic Holdings Corporation, Qualcomm Technologies, Inc., VoiceAge Corporation, and other - contributors to this repository. All Rights Reserved. - - This software is protected by copyright law and by international treaties. - The IVAS codec Public Collaboration consisting of Dolby International AB, Ericsson AB, - Fraunhofer-Gesellschaft zur Foerderung der angewandten Forschung e.V., Huawei Technologies Co. LTD., - Koninklijke Philips N.V., Nippon Telegraph and Telephone Corporation, Nokia Technologies Oy, Orange, - Panasonic Holdings Corporation, Qualcomm Technologies, Inc., VoiceAge Corporation, and other - contributors to this repository retain full ownership rights in their respective contributions in - the software. This notice grants no license of any kind, including but not limited to patent - license, nor is any license granted by implication, estoppel or otherwise. - - Contributors are required to enter into the IVAS codec Public Collaboration agreement before making - contributions. - - This software is provided "AS IS", without any express or implied warranties. The software is in the - development stage. It is intended exclusively for experts who have experience with such software and - solely for the purpose of inspection. All implied warranties of non-infringement, merchantability - and fitness for a particular purpose are hereby disclaimed and excluded. - - Any dispute, controversy or claim arising under or in relation to providing this software shall be - submitted to and settled by the final, binding jurisdiction of the courts of Munich, Germany in - accordance with the laws of the Federal Republic of Germany excluding its conflict of law rules and - the United Nations Convention on Contracts on the International Sales of Goods. - -*******************************************************************************************************/ - -/*==================================================================================== - EVS Codec 3GPP TS26.443 Nov 04, 2021. Version 12.14.0 / 13.10.0 / 14.6.0 / 15.4.0 / 16.3.0 - ====================================================================================*/ - -#include -#include "options.h" -#include -#include "prot.h" -#include "stat_enc.h" -#include "wmc_auto.h" diff --git a/lib_enc/guided_plc_enc_fx.c b/lib_enc/guided_plc_enc_fx.c index 9aa2ecb65550f4be98ba9615395e56d73888cd2b..81e50d099bc1149557b3ae1395749726e41d0ea5 100644 --- a/lib_enc/guided_plc_enc_fx.c +++ b/lib_enc/guided_plc_enc_fx.c @@ -6,7 +6,6 @@ #include #include "options.h" #include "cnst.h" -//#include "prot_fx.h" #include "prot_fx.h" /* Function prototypes */ #include "prot_fx_enc.h" /* Function prototypes */ #include "stat_enc.h" @@ -19,8 +18,8 @@ * *-------------------------------------------------------------------*/ static void coderLookAheadInnovation( - Word16 A_3Q12[], /* input: coefficients NxAz[M+1] */ - Word16 *pT, /* out: pitch */ + Word16 A_3Q12[], /* input: coefficients NxAz[M+1] Q12*/ + Word16 *pT, /* out: pitch Q0*/ PLC_ENC_EVS_HANDLE st, /* i/o: coder memory state */ Word16 *speechLookAhead_Qx, /* i: input speech in Q(st->Qold) */ Word16 *old_exc, /* i: input excitation in Q(st->Qold) */ @@ -41,13 +40,18 @@ static void coderLookAheadInnovation( Word32 max_ps, max_ps_tmp; Word16 max_ps_e; Word16 tmp_loop; + move32(); + move16(); + move16(); #ifdef BASOP_NOGLOB_DECLARE_LOCAL Flag Overflow = 0; + move32(); #endif /* Debug init (not instrumented) */ T0_fx = -3000; + move16(); subfr_len = shl( L_SUBFR, 1 ); /* 2*L_SUBFR */ if ( GT_16( L_FRAME16k, L_frame ) ) { @@ -59,10 +63,10 @@ static void coderLookAheadInnovation( * - BASOP specific initialization. * *------------------------------------------------------------------------*/ /* initialization */ - exc_Qx = exc_buf_Qx + L_EXC_MEM + 8; + exc_Qx = exc_buf_Qx + L_EXC_MEM + 8; /* Q(st->Qold) */ FOR( i = 0; i < L_EXC_MEM + 8; i++ ) { - exc_buf_Qx[i] = old_exc[i]; + exc_buf_Qx[i] = old_exc[i]; /* Q(st->Qold) */ move16(); } @@ -72,17 +76,17 @@ static void coderLookAheadInnovation( *------------------------------------------------------------------------*/ /* find LP residual signal for look-ahead part */ getLookAheadResSig( speechLookAhead_Qx, A_3Q12, exc_Qx, L_frame, 2 ); - Scale_sig( exc_Qx, subfr_len, 1 ); + Scale_sig( exc_Qx, subfr_len, 1 ); /* Q(st->Qold) + 1 */ /* find target signals */ - prev_pitch = st->T0_4th; + prev_pitch = st->T0_4th; /* Q0 */ move16(); /* find best candidate of pitch lag */ - T0_fx = st->T0_4th; + T0_fx = st->T0_4th; /* Q0 */ move16(); - mantissa_max = -0x7fffffffL; + mantissa_max = -0x7fffffffL; /* Q15 */ move32(); - max_ps = -0x7fffffffL; + max_ps = -0x7fffffffL; /* Q15 */ move32(); max_ps_e = 16; move16(); @@ -90,14 +94,14 @@ static void coderLookAheadInnovation( /*find maximum*/ exc_max = 0; move16(); - tmp_loop = s_min( -prev_pitch + search_range + subfr_len, 0 ); + tmp_loop = s_min( -prev_pitch + search_range + subfr_len, 0 ); /* Q0 */ FOR( i = -prev_pitch - search_range; i < tmp_loop; i++ ) { - exc_max = s_max( exc_Qx[i], exc_max ); + exc_max = s_max( exc_Qx[i], exc_max ); /* Q(st->Qold) + 1 */ } FOR( i = 0; i < subfr_len; i++ ) { - exc_max = s_max( exc_max, exc_Qx[i] ); + exc_max = s_max( exc_max, exc_Qx[i] ); /* Q(st->Qold) + 1 */ } /*calculate scaling factor for optimal precision and assure no overflow in dotproduct*/ exc_sh = sub( 15, norm_s( sub( subfr_len, 1 ) ) ); /*ceil(ld(subfr_len))*/ @@ -105,15 +109,15 @@ static void coderLookAheadInnovation( exc_sh = shr( add( exc_sh, 1 ), 1 ); /*scale buffer only where its needed*/ - tmp_loop = s_min( -prev_pitch + search_range + subfr_len, 0 ); + tmp_loop = s_min( -prev_pitch + search_range + subfr_len, 0 ); /* Q0 */ FOR( i = -prev_pitch - search_range; i < tmp_loop; i++ ) { - exc_Qx[i] = shr( exc_Qx[i], exc_sh ); + exc_Qx[i] = shr( exc_Qx[i], exc_sh ); /* Q(st->Qold) + 1 */ move16(); } FOR( i = 0; i < subfr_len; i++ ) { - exc_Qx[i] = shr( exc_Qx[i], exc_sh ); + exc_Qx[i] = shr( exc_Qx[i], exc_sh ); /* Q(st->Qold) + 1 */ move16(); } @@ -122,7 +126,7 @@ static void coderLookAheadInnovation( move16(); FOR( i = -prev_pitch - search_range; i < -prev_pitch + search_range + subfr_len; i++ ) { - alp_ini = L_mac( alp_ini, exc_Qx[i], exc_Qx[i] ); + alp_ini = L_mac( alp_ini, exc_Qx[i], exc_Qx[i] ); /* 2*(Q(st->Qold) + 1) + 1 */ } FOR( i = -search_range; i < search_range; i++ ) @@ -138,24 +142,24 @@ static void coderLookAheadInnovation( FOR( k = 0; k < subfr_len; k++ ) { - ps = L_mac( ps, exc_Qx[k], exc_Qx[k - prev_pitch - i] ); + ps = L_mac( ps, exc_Qx[k], exc_Qx[k - prev_pitch - i] ); /* 2*(Q(st->Qold) + 1) + 1 */ } /*calculate "small" dotproducts in order to subtract them from the "bigger" one*/ - FOR( k = negate( add( prev_pitch, search_range ) ); k < -prev_pitch - i; k++ ) + FOR( k = -( ( prev_pitch + search_range ) ); k < -prev_pitch - i; k++ ) { - alp_s1 = L_mac( alp_s1, exc_Qx[k], exc_Qx[k] ); + alp_s1 = L_mac( alp_s1, exc_Qx[k], exc_Qx[k] ); /* 2*(Q(st->Qold) + 1) + 1 */ } tmp_loop = sub( add( search_range, subfr_len ), prev_pitch ); FOR( k = +subfr_len - i - prev_pitch; k < tmp_loop; k++ ) { - alp_s2 = L_mac( alp_s2, exc_Qx[k], exc_Qx[k] ); + alp_s2 = L_mac( alp_s2, exc_Qx[k], exc_Qx[k] ); /* 2*(Q(st->Qold) + 1) + 1 */ } alp = L_sub( alp_ini, L_add( alp_s1, alp_s2 ) ); alp = L_max( alp, 1 ); /* alp must not be 0 */ alp_e = shl( exc_sh, 1 ); ps_e = shl( exc_sh, 1 ); - alp = ISqrt32( alp, &alp_e ); + alp = ISqrt32( alp, &alp_e ); /* Q31-alp_e */ ps = Mpy_32_16_1( ps, round_fx( alp ) ); /*alp_e+ps_e*/ ps_e = add( alp_e, ps_e ); @@ -173,7 +177,7 @@ static void coderLookAheadInnovation( T0_fx = add( prev_pitch, i ); } } - mantissa_max = max_ps; + mantissa_max = max_ps; /* Q31-ps_e */ move32(); if ( mantissa_max < 0 ) { @@ -211,7 +215,7 @@ void enc_prm_side_Info_fx( IF( GT_16( hPlc_Ext->nBits, 1 ) ) { - push_next_indice_fx( st->hBstr, 1, 1 ); + push_next_indice( st->hBstr, 1, 1 ); diff_pitch = sub( hPlc_Ext->T0, hPlc_Ext->T0_4th ); test(); @@ -221,11 +225,11 @@ void enc_prm_side_Info_fx( move16(); } - push_next_indice_fx( st->hBstr, add( diff_pitch, search_range ), bits_per_subfr ); + push_next_indice( st->hBstr, add( diff_pitch, search_range ), bits_per_subfr ); } ELSE { - push_next_indice_fx( st->hBstr, 0, 1 ); + push_next_indice( st->hBstr, 0, 1 ); } return; @@ -239,9 +243,9 @@ void enc_prm_side_Info_fx( void encoderSideLossSimulation_fx( Encoder_State *st, PLC_ENC_EVS_HANDLE hPlc_Ext, - Word16 *lsf_q, /* Q1*1.28 */ - const Word16 stab_fac, /* Q15 */ - const Word16 calcOnlyISF, + Word16 *lsf_q, /* Qx2.56 */ + const Word16 stab_fac, /* Q15 */ + const Word16 calcOnlyISF, /* Q0 */ const Word16 L_frame ) { Word16 lspLocal_Q15[M]; @@ -251,11 +255,11 @@ void encoderSideLossSimulation_fx( /* Decoder State Update */ IF( EQ_16( L_frame, L_FRAME_16k ) ) { - lsf2lsp_fx( lsf_q, lspLocal_Q15, M, INT_FS_16k_FX ); + lsf2lsp_fx( lsf_q, lspLocal_Q15, M, INT_FS_16k_FX ); /* Q15 */ } ELSE { - lsf2lsp_fx( lsf_q, lspLocal_Q15, M, INT_FS_FX ); + lsf2lsp_fx( lsf_q, lspLocal_Q15, M, INT_FS_FX ); /* Q15 */ } @@ -263,8 +267,8 @@ void encoderSideLossSimulation_fx( st->narrowBand, st->sr_core ); - Copy( st->mem_MA_fx, hPlc_Ext->mem_MA_14Q1, M ); - Copy( st->mem_AR_fx, hPlc_Ext->mem_AR, M ); + Copy( st->mem_MA_fx, hPlc_Ext->mem_MA_14Q1, M ); /* Qx2.56 */ + Copy( st->mem_AR_fx, hPlc_Ext->mem_AR, M ); /* Qx2.56 */ /* ISF parameter processing for concealment */ @@ -272,15 +276,15 @@ void encoderSideLossSimulation_fx( hPlc_Ext->stab_fac_Q15 = stab_fac; move16(); - Copy( lsf_q, hPlc_Ext->lsfold_14Q1, M ); - Copy( lspLocal_Q15, hPlc_Ext->lspold_Q15, M ); + Copy( lsf_q, hPlc_Ext->lsfold_14Q1, M ); /* Qx2.56 */ + Copy( lspLocal_Q15, hPlc_Ext->lspold_Q15, M ); /* Q15 */ IF( calcOnlyISF != 0 ) { /* ISF concealment simulation */ getConcealedLSF( hPlc_Ext, xsfBase, st->clas, L_frame ); - hPlc_Ext->T0 = hPlc_Ext->T0_4th; + hPlc_Ext->T0 = hPlc_Ext->T0_4th; /* Q0 */ move16(); } ELSE @@ -300,9 +304,9 @@ void encoderSideLossSimulation_fx( getConcealedLP( hPlc_Ext, A_3Q12, xsfBase, st->clas, L_frame ); /* apply encoder side PLC simulation */ - hPlc_Ext->pit_min = st->pit_min; + hPlc_Ext->pit_min = st->pit_min; /* Q0 */ move16(); - hPlc_Ext->pit_max = st->pit_max; + hPlc_Ext->pit_max = st->pit_max; /* Q0 */ move16(); coderLookAheadInnovation( A_3Q12, &( hPlc_Ext->T0 ), hPlc_Ext, speechLookAhead_Qx, old_exc_Qx, L_frame ); } @@ -336,11 +340,11 @@ void GplcTcxEncSetup_fx( * *-------------------------------------------------------------------*/ Word16 encSideSpecPowDiffuseDetector_fx( - Word16 *lsf_ref, - Word16 *lsf_con, - const Word32 sr_core, - Word16 *prev_lsf4_mean, - const Word8 sw, + Word16 *lsf_ref, /* Qx2.56 */ + Word16 *lsf_con, /* Qx2.56 */ + const Word32 sr_core, /* Q0 */ + Word16 *prev_lsf4_mean, /* Qx2.56 */ + const Word8 sw, /* Q0 */ const Word16 coder_type ) { Word16 tmp; @@ -355,14 +359,14 @@ Word16 encSideSpecPowDiffuseDetector_fx( /* calculate the mean of the lowest 4 LSFs */ - L_tmp = L_mult( lsf_ref[0], 8192 /*1.0/4.0 Q15*/ ); - L_tmp = L_mac( L_tmp, lsf_ref[1], 8192 /*1.0/4.0 Q15*/ ); - L_tmp = L_mac( L_tmp, lsf_ref[2], 8192 /*1.0/4.0 Q15*/ ); - lsf4_mean = mac_r( L_tmp, lsf_ref[3], 8192 /*1.0/4.0 Q15*/ ); + L_tmp = L_mult( lsf_ref[0], 8192 /*1.0/4.0 Q15*/ ); /* Qx2.56 */ + L_tmp = L_mac( L_tmp, lsf_ref[1], 8192 /*1.0/4.0 Q15*/ ); /* Qx2.56 */ + L_tmp = L_mac( L_tmp, lsf_ref[2], 8192 /*1.0/4.0 Q15*/ ); /* Qx2.56 */ + lsf4_mean = mac_r( L_tmp, lsf_ref[3], 8192 /*1.0/4.0 Q15*/ ); /* Qx2.56 */ IF( sw ) { - Copy( lsf_con, lsf_mod, M ); + Copy( lsf_con, lsf_mod, M ); /* Qx2.56 */ modify_lsf( lsf_mod, M, sr_core, 1 ); @@ -372,28 +376,29 @@ Word16 encSideSpecPowDiffuseDetector_fx( cum_dist2 = 0; cnt_imprv = 0; + move16(); IF( EQ_32( sr_core, INT_FS_16k ) ) { - th = 2560; - move16(); /* LSF */ - th_dif = 288; - move16(); /* LSF */ + th = 2560; /* Qx2.56 */ + move16(); /* LSF */ + th_dif = 288; /* Qx2.56 */ + move16(); /* LSF */ } ELSE { - th = 2048; - move16(); /* LSF */ - th_dif = 230; - move16(); /* LSF */ + th = 2048; /* Qx2.56 */ + move16(); /* LSF */ + th_dif = 230; /* Qx2.56 */ + move16(); /* LSF */ } FOR( i = 0; i < M; i++ ) { tmp = sub( lsf_con[i], lsf_ref[i] ); - dist1 = L_mult( tmp, tmp ); + dist1 = L_mult( tmp, tmp ); /* 2*(Qx2.56)+1 */ tmp = sub( lsf_mod[i], lsf_ref[i] ); - dist2 = L_mult( tmp, tmp ); + dist2 = L_mult( tmp, tmp ); /* 2*(Qx2.56)+1 */ if ( GT_32( dist1, dist2 ) ) { @@ -409,6 +414,7 @@ Word16 encSideSpecPowDiffuseDetector_fx( test(); test(); test(); + test(); if ( GT_32( cum_dist1, L_add( cum_dist2, Mpy_32_16_1( cum_dist2, 4915 ) ) ) && GT_16( sub( lsf4_mean, *prev_lsf4_mean ), th_dif ) && LT_16( *prev_lsf4_mean, th ) && GT_16( cnt_imprv, 2 ) && EQ_16( coder_type, GENERIC ) ) { idx = 1; @@ -438,17 +444,19 @@ void updateSpecPowDiffuseIdx_fx( Word16 k; #ifdef BASOP_NOGLOB_DECLARE_LOCAL Flag Overflow = 0; + move32(); #endif move32(); move16(); - st->mean_gc[1] = st->gain_code[0]; - min_gp = st->bpf_gainT[0]; + st->mean_gc[1] = st->gain_code[0]; /* Q15 */ + min_gp = st->bpf_gainT[0]; /* Q15 */ FOR( k = 1; k < 4; k++ ) { st->mean_gc[1] = L_add_o( st->mean_gc[1], st->gain_code[k], &Overflow ); + move32(); min_gp = s_min( min_gp, st->bpf_gainT[k] ); } @@ -460,5 +468,5 @@ void updateSpecPowDiffuseIdx_fx( st->glr_idx[0] = 0; } move16(); - st->mean_gc[0] = st->mean_gc[1]; + st->mean_gc[0] = st->mean_gc[1]; /* Q15 */ } diff --git a/lib_enc/hf_cod_amrwb.c b/lib_enc/hf_cod_amrwb.c deleted file mode 100644 index 7ea6e47a56c1a7f087419f3073eeecbdeb81478f..0000000000000000000000000000000000000000 --- a/lib_enc/hf_cod_amrwb.c +++ /dev/null @@ -1,43 +0,0 @@ -/****************************************************************************************************** - - (C) 2022-2025 IVAS codec Public Collaboration with portions copyright Dolby International AB, Ericsson AB, - Fraunhofer-Gesellschaft zur Foerderung der angewandten Forschung e.V., Huawei Technologies Co. LTD., - Koninklijke Philips N.V., Nippon Telegraph and Telephone Corporation, Nokia Technologies Oy, Orange, - Panasonic Holdings Corporation, Qualcomm Technologies, Inc., VoiceAge Corporation, and other - contributors to this repository. All Rights Reserved. - - This software is protected by copyright law and by international treaties. - The IVAS codec Public Collaboration consisting of Dolby International AB, Ericsson AB, - Fraunhofer-Gesellschaft zur Foerderung der angewandten Forschung e.V., Huawei Technologies Co. LTD., - Koninklijke Philips N.V., Nippon Telegraph and Telephone Corporation, Nokia Technologies Oy, Orange, - Panasonic Holdings Corporation, Qualcomm Technologies, Inc., VoiceAge Corporation, and other - contributors to this repository retain full ownership rights in their respective contributions in - the software. This notice grants no license of any kind, including but not limited to patent - license, nor is any license granted by implication, estoppel or otherwise. - - Contributors are required to enter into the IVAS codec Public Collaboration agreement before making - contributions. - - This software is provided "AS IS", without any express or implied warranties. The software is in the - development stage. It is intended exclusively for experts who have experience with such software and - solely for the purpose of inspection. All implied warranties of non-infringement, merchantability - and fitness for a particular purpose are hereby disclaimed and excluded. - - Any dispute, controversy or claim arising under or in relation to providing this software shall be - submitted to and settled by the final, binding jurisdiction of the courts of Munich, Germany in - accordance with the laws of the Federal Republic of Germany excluding its conflict of law rules and - the United Nations Convention on Contracts on the International Sales of Goods. - -*******************************************************************************************************/ - -/*==================================================================================== - EVS Codec 3GPP TS26.443 Nov 04, 2021. Version 12.14.0 / 13.10.0 / 14.6.0 / 15.4.0 / 16.3.0 - ====================================================================================*/ - -#include -#include "options.h" -#include -#include "cnst.h" -#include "prot.h" -#include "rom_com.h" -#include "wmc_auto.h" diff --git a/lib_enc/hq_classifier_enc.c b/lib_enc/hq_classifier_enc.c deleted file mode 100644 index 634f4297184d4375f7d0aabd7a68fd7f6840212b..0000000000000000000000000000000000000000 --- a/lib_enc/hq_classifier_enc.c +++ /dev/null @@ -1,52 +0,0 @@ -/****************************************************************************************************** - - (C) 2022-2025 IVAS codec Public Collaboration with portions copyright Dolby International AB, Ericsson AB, - Fraunhofer-Gesellschaft zur Foerderung der angewandten Forschung e.V., Huawei Technologies Co. LTD., - Koninklijke Philips N.V., Nippon Telegraph and Telephone Corporation, Nokia Technologies Oy, Orange, - Panasonic Holdings Corporation, Qualcomm Technologies, Inc., VoiceAge Corporation, and other - contributors to this repository. All Rights Reserved. - - This software is protected by copyright law and by international treaties. - The IVAS codec Public Collaboration consisting of Dolby International AB, Ericsson AB, - Fraunhofer-Gesellschaft zur Foerderung der angewandten Forschung e.V., Huawei Technologies Co. LTD., - Koninklijke Philips N.V., Nippon Telegraph and Telephone Corporation, Nokia Technologies Oy, Orange, - Panasonic Holdings Corporation, Qualcomm Technologies, Inc., VoiceAge Corporation, and other - contributors to this repository retain full ownership rights in their respective contributions in - the software. This notice grants no license of any kind, including but not limited to patent - license, nor is any license granted by implication, estoppel or otherwise. - - Contributors are required to enter into the IVAS codec Public Collaboration agreement before making - contributions. - - This software is provided "AS IS", without any express or implied warranties. The software is in the - development stage. It is intended exclusively for experts who have experience with such software and - solely for the purpose of inspection. All implied warranties of non-infringement, merchantability - and fitness for a particular purpose are hereby disclaimed and excluded. - - Any dispute, controversy or claim arising under or in relation to providing this software shall be - submitted to and settled by the final, binding jurisdiction of the courts of Munich, Germany in - accordance with the laws of the Federal Republic of Germany excluding its conflict of law rules and - the United Nations Convention on Contracts on the International Sales of Goods. - -*******************************************************************************************************/ - -/*==================================================================================== - EVS Codec 3GPP TS26.443 Nov 04, 2021. Version 12.14.0 / 13.10.0 / 14.6.0 / 15.4.0 / 16.3.0 - ====================================================================================*/ - -#include -#include "options.h" -#include -#include "cnst.h" -#include "prot.h" -#include "rom_com.h" -#include "wmc_auto.h" -#include "prot_fx.h" -#include "prot_fx_enc.h" -/*-----------------------------------------------------------------* - * Local constants - *-----------------------------------------------------------------*/ - -/*-----------------------------------------------------------------* - * Local function prototypes - *-----------------------------------------------------------------*/ diff --git a/lib_enc/hq_classifier_enc_fx.c b/lib_enc/hq_classifier_enc_fx.c index 53ad3dbb20a352a0240f4cdeb6957c30dea10d1c..300e31e8e10c5c4c8183e5a0a31dabc01275a88f 100644 --- a/lib_enc/hq_classifier_enc_fx.c +++ b/lib_enc/hq_classifier_enc_fx.c @@ -8,7 +8,6 @@ #include "rom_com_fx.h" /* Static table prototypes */ #include "rom_com.h" /* Static table prototypes */ #include "prot_fx.h" /* Function prototypes */ -#include "prot.h" /* Function prototypes */ #include "prot_fx_enc.h" /* Function prototypes */ /*-----------------------------------------------------------------* @@ -84,7 +83,6 @@ static Word16 hf_spectrum_sparseness_fx( crest_mod_fx = 0; move32(); maximum_l( A_fx, L_SPEC_HB, &Amax_fx ); -#ifdef NONBE_1233_HQ_CLASSIFIER_DIV_BY_ZERO IF( Amax_fx == 0 ) { /* For all-zero input the crest is 1.0 */ @@ -95,7 +93,6 @@ static Word16 hf_spectrum_sparseness_fx( } ELSE { -#endif thr_fx = Mpy_32_32( Amax_fx, PEAK_THRESHOLD_FX ); /* Q12 */ movmean_fx = 0; /* avoid uninitialized warning */ move32(); @@ -161,9 +158,7 @@ static Word16 hf_spectrum_sparseness_fx( move32(); st->hHQ_core->crest_mod_lp_q = sub( Q12, inv_rms32_e ); move16(); -#ifdef NONBE_1233_HQ_CLASSIFIER_DIV_BY_ZERO } -#endif *crest_lp_fx = L_add( Mpy_32_32( HQ_CREST_FAC_SM_FX, ( *crest_lp_fx ) ), Mpy_32_32( ONE_IN_Q31 - HQ_CREST_FAC_SM_FX, crest_fx ) ); /* Q(st->hHQ_core->crest_lp_q) */ move32(); *crest_mod_lp_fx = L_add( Mpy_32_32( HQ_CREST_FAC_SM_FX, ( *crest_mod_lp_fx ) ), Mpy_32_32( L_sub( ONE_IN_Q31, HQ_CREST_FAC_SM_FX ), crest_mod_fx ) ); /* Q(st->hHQ_core->crest_mod_lp_q) */ @@ -263,16 +258,16 @@ Word16 hq_classifier_enc_fx( /* o : Consumed bits { IF( GE_16( *hqswb_clas, HQ_GEN_SWB ) ) { - push_indice_fx( st_fx->hBstr, IND_HQ_SWB_CLAS, *hqswb_clas - 5, bits ); + push_indice( st_fx->hBstr, IND_HQ_SWB_CLAS, *hqswb_clas - 5, bits ); } ELSE { - push_indice_fx( st_fx->hBstr, IND_HQ_SWB_CLAS, *hqswb_clas, bits ); + push_indice( st_fx->hBstr, IND_HQ_SWB_CLAS, *hqswb_clas, bits ); } } ELSE { - push_indice_fx( st_fx->hBstr, IND_HQ_SWB_CLAS, *hqswb_clas, bits ); + push_indice( st_fx->hBstr, IND_HQ_SWB_CLAS, *hqswb_clas, bits ); } test(); @@ -348,7 +343,7 @@ Word16 hq_classifier_enc_fx( /* o : Consumed bits move16(); } /* write signalling info to the bitstream */ - push_indice_fx( st_fx->hBstr, IND_HQ_SWB_CLAS, *hqswb_clas, bits ); + push_indice( st_fx->hBstr, IND_HQ_SWB_CLAS, *hqswb_clas, bits ); IF( LE_32( st_fx->core_brate, HQ_32k ) && EQ_16( *hqswb_clas, HQ_NORMAL ) ) { diff --git a/lib_enc/hq_core_enc.c b/lib_enc/hq_core_enc.c deleted file mode 100644 index a3a75cc955f05c9a85256ca648c734c94045a0db..0000000000000000000000000000000000000000 --- a/lib_enc/hq_core_enc.c +++ /dev/null @@ -1,410 +0,0 @@ -/****************************************************************************************************** - - (C) 2022-2025 IVAS codec Public Collaboration with portions copyright Dolby International AB, Ericsson AB, - Fraunhofer-Gesellschaft zur Foerderung der angewandten Forschung e.V., Huawei Technologies Co. LTD., - Koninklijke Philips N.V., Nippon Telegraph and Telephone Corporation, Nokia Technologies Oy, Orange, - Panasonic Holdings Corporation, Qualcomm Technologies, Inc., VoiceAge Corporation, and other - contributors to this repository. All Rights Reserved. - - This software is protected by copyright law and by international treaties. - The IVAS codec Public Collaboration consisting of Dolby International AB, Ericsson AB, - Fraunhofer-Gesellschaft zur Foerderung der angewandten Forschung e.V., Huawei Technologies Co. LTD., - Koninklijke Philips N.V., Nippon Telegraph and Telephone Corporation, Nokia Technologies Oy, Orange, - Panasonic Holdings Corporation, Qualcomm Technologies, Inc., VoiceAge Corporation, and other - contributors to this repository retain full ownership rights in their respective contributions in - the software. This notice grants no license of any kind, including but not limited to patent - license, nor is any license granted by implication, estoppel or otherwise. - - Contributors are required to enter into the IVAS codec Public Collaboration agreement before making - contributions. - - This software is provided "AS IS", without any express or implied warranties. The software is in the - development stage. It is intended exclusively for experts who have experience with such software and - solely for the purpose of inspection. All implied warranties of non-infringement, merchantability - and fitness for a particular purpose are hereby disclaimed and excluded. - - Any dispute, controversy or claim arising under or in relation to providing this software shall be - submitted to and settled by the final, binding jurisdiction of the courts of Munich, Germany in - accordance with the laws of the Federal Republic of Germany excluding its conflict of law rules and - the United Nations Convention on Contracts on the International Sales of Goods. - -*******************************************************************************************************/ - -/*==================================================================================== - EVS Codec 3GPP TS26.443 Nov 04, 2021. Version 12.14.0 / 13.10.0 / 14.6.0 / 15.4.0 / 16.3.0 - ====================================================================================*/ - -#include -#include "options.h" -#include -#include "cnst.h" -#include "prot.h" -#include "rom_com.h" -#include "wmc_auto.h" - -#include "prot_fx.h" -#include "prot_fx_enc.h" - -/*-------------------------------------------------------------------------- - * hq_core_enc() - * - * HQ core encoder - *--------------------------------------------------------------------------*/ - -void hq_core_enc_ivas_fx( - Encoder_State *st, /* i/o: encoder state structure */ - const Word16 *audio_fx, /* i : input audio signal Q0 */ - const Word16 input_frame_orig, /* i : frame length Q0*/ - const Word16 hq_core_type, /* i : HQ core type Q0*/ - const Word16 Voicing_flag, /* i : Voicing flag for FER method selection Q0*/ - const Word16 vad_hover_flag /* i : VAD hangover flag Q0*/ -) -{ - Word16 i, is_transient, num_bits, extra_unused; - - Word32 t_audio_fx[L_FRAME48k_EXT]; - Word16 wtda_audio_fx16[2 * L_FRAME48k]; - Word32 wtda_audio_fx32[2 * L_FRAME48k]; - Word16 two_frames_buffer[2 * L_FRAME48k]; - Word16 tmp; - Word16 Aq_old_fx[M + 1]; - Word16 output_fx[L_FRAME48k]; - Word16 Q_audio; - Word16 out_q = 0, old_q = 0; - move16(); - move16(); - Word16 inner_frame, input_frame, L_frame; - Word16 L_spec, overlap, nz, tcx_offset; - Word16 left_overlap, right_overlap; - BSTR_ENC_HANDLE hBstr = st->hBstr; - Word16 q = 0; - Word16 exp; - move16(); - - push_wmops( "hq_core_enc" ); - - set16_fx( wtda_audio_fx16, 0, 2 * L_FRAME48k ); - set32_fx( wtda_audio_fx32, 0, 2 * L_FRAME48k ); - st->Nb_ACELP_frames = 0; - move16(); - set_zero_fx( t_audio_fx, L_FRAME48k_EXT ); - /* set input_frame length */ - input_frame = input_frame_orig; /* Q0 */ - - /* Sanity check, it should never happen at the encoder side (no BFI) */ - IF( st->hTcxCfg->tcx_curr_overlap_mode == FULL_OVERLAP ) - { - st->hTcxCfg->tcx_last_overlap_mode = ALDO_WINDOW; - move16(); - } - ELSE - { - st->hTcxCfg->tcx_last_overlap_mode = st->hTcxCfg->tcx_curr_overlap_mode; - move16(); - } - st->hTcxCfg->tcx_curr_overlap_mode = ALDO_WINDOW; - move16(); - - /*-------------------------------------------------------------------------- - * Preprocessing in the first HQ frame after ACELP frame - * Find the number of bits for PVQ coding - * Write signaling information - *--------------------------------------------------------------------------*/ - - num_bits = BASOP_Util_Divide3232_Scale( st->total_brate, FRAMES_PER_SEC, &exp ); /* Q15-exp */ - num_bits = shr( num_bits, sub( 15, exp ) ); /* Q0 */ - extra_unused = 0; - move16(); - - /*-------------------------------------------------------------------------- - * Detect signal transition - *--------------------------------------------------------------------------*/ - - is_transient = detect_transient_fx( audio_fx, input_frame, 0, st ); /* Q0 */ - move16(); - - test(); - test(); - IF( st->element_mode > EVS_MONO && ( st->last_core == ACELP_CORE || EQ_16( st->last_core, AMR_WB_CORE ) ) ) - { - /*-------------------------------------------------------------------------- - * IVAS switching frame - *--------------------------------------------------------------------------*/ - - L_spec = input_frame; - left_overlap = -1; - right_overlap = -1; - move16(); - move16(); - move16(); - - WindowSignal( st->hTcxCfg, st->hTcxCfg->tcx_offsetFB, TRANSITION_OVERLAP, FULL_OVERLAP, &left_overlap, &right_overlap, st->hTcxEnc->speech_TCX, &L_spec, wtda_audio_fx16, 1, 1 ); - - q = 0; - move16(); - Q_audio = sub( Q16, q ); - TCX_MDCT( wtda_audio_fx16, t_audio_fx, &Q_audio, left_overlap, sub( L_spec, shr( add( left_overlap, right_overlap ), 1 ) ), right_overlap, st->element_mode ); - Q_audio = sub( Q31, Q_audio ); -#ifdef FIX_ISSUE_1237 - Copy_Scale_sig_16_32_no_sat( wtda_audio_fx16, wtda_audio_fx32, 2 * L_FRAME48k, sub( Q_audio, q ) ); /* Q_audio */ -#else - Copy_Scale_sig_16_32_DEPREC( wtda_audio_fx16, wtda_audio_fx32, 2 * L_FRAME48k, sub( Q_audio, q ) ); /* Q_audio */ -#endif - inner_frame = inner_frame_tbl[st->bwidth]; /* Q0 */ - L_spec = l_spec_ext_tbl[st->bwidth]; /* Q0 */ - is_transient = 0; - move16(); - move16(); - move16(); - } - ELSE - { - /*-------------------------------------------------------------------------- - * Windowing and time-domain aliasing - * DCT transform - *--------------------------------------------------------------------------*/ - Q_audio = 0; - move16(); - Scale_sig( st->old_input_signal_fx, input_frame, negate( st->q_old_inp ) ); /* Q0 */ - Scale_sig( st->input_fx, add( input_frame, NS2SA( 48000, DELAY_FIR_RESAMPL_NS ) ), negate( st->q_inp ) ); /* Q0 */ - st->q_old_inp = 0; - move16(); - st->q_inp = 0; - move16(); - Copy( st->old_input_signal_fx, two_frames_buffer, input_frame ); /* Q0 */ - Copy( audio_fx, two_frames_buffer + input_frame, input_frame ); /* Q0 */ - - wtda_fx( two_frames_buffer + input_frame, &Q_audio, wtda_audio_fx32, NULL, 0, - st->hTcxCfg->tcx_last_overlap_mode, st->hTcxCfg->tcx_curr_overlap_mode, input_frame ); - - test(); - IF( st->last_core == ACELP_CORE || EQ_16( st->last_core, AMR_WB_CORE ) ) - { - /* Preprocessing in the first HQ frame after ACELP frame */ - core_switching_hq_prepare_enc_fx( st, &num_bits, input_frame, wtda_audio_fx32, two_frames_buffer + input_frame ); - - /* During ACELP->HQ core switching, limit the HQ core bitrate to 48kbps */ - IF( GT_16( num_bits, ACELP_48k_BITS ) ) - { - extra_unused = sub( num_bits, ACELP_48k_BITS ); - num_bits = ACELP_48k_BITS; - move16(); - } - } - - Word16 tmp_q = Q_audio; - move16(); - direct_transform_fx( wtda_audio_fx32, t_audio_fx, is_transient, input_frame, &Q_audio, st->element_mode ); - scale_sig32( wtda_audio_fx32, L_FRAME48k_EXT, sub( Q_audio, tmp_q ) ); /* Q_audio */ - - /* scale coefficients to their nominal level (8kHz) */ - IF( NE_16( input_frame, NORM_MDCT_FACTOR ) ) - { - UWord16 lsb; - tmp = mult_r( input_frame, 410 / 2 ); /* 1/8000 in Q15 */ - Word16 ener_match_fx = hq_nominal_scaling[tmp]; - move16(); - FOR( i = 0; i < input_frame; i++ ) - { - /*t_audio_q[i] *= ener_match; */ - Mpy_32_16_ss( t_audio_fx[i], ener_match_fx, &t_audio_fx[i], &lsb ); /* Q12 */ - move16(); - } - } - - /* limit encoded band-width according to the command-line OR BWD limitation */ - inner_frame = inner_frame_tbl[st->bwidth]; /* Q0 */ - L_spec = l_spec_tbl[st->bwidth]; /* Q0 */ - - move16(); - move16(); - - - IF( GT_16( input_frame, inner_frame ) ) - { - IF( EQ_16( is_transient, 1 ) ) - { - FOR( i = 1; i < NUM_TIME_SWITCHING_BLOCKS; i++ ) - { - tmp = shr( inner_frame, 2 ); - Copy32( t_audio_fx + i_mult2( i, shr( input_frame, 2 ) ), t_audio_fx + i_mult2( i, tmp ), tmp ); /* Q_audio */ - } - } - - set32_fx( t_audio_fx + inner_frame, 0, sub( input_frame, inner_frame ) ); - } - } - - - /* subtract signaling bits */ - num_bits = sub( num_bits, hBstr->nb_bits_tot ); /* Q0 */ - - /*-------------------------------------------------------------------------- - * High-band gain control in case of BWS - *--------------------------------------------------------------------------*/ - - IF( st->bwidth_sw_cnt > 0 ) - { - Word32 L_tmp; - tmp = BASOP_Util_Divide1616_Scale( 3, BWS_TRAN_PERIOD, &exp ); /* Q15-exp */ - shr( tmp, exp ); - L_tmp = L_deposit_h( tmp ); /* Q31-exp */ - IF( is_transient ) - { - FOR( i = 0; i < NUM_TIME_SWITCHING_BLOCKS; i++ ) - { - v_multc_fixed( t_audio_fx + add( i_mult2( i, shr( inner_frame, 2 ) ), L_FRAME16k / NUM_TIME_SWITCHING_BLOCKS ), L_tmp, t_audio_fx + add( i_mult2( i, shr( inner_frame, 2 ) ), L_FRAME16k / NUM_TIME_SWITCHING_BLOCKS ), sub( shr( inner_frame, 2 ), L_FRAME16k / NUM_TIME_SWITCHING_BLOCKS ) ); // Q_audio + Q31 - Q31 -> Q_audio - } - } - ELSE - { - v_multc_fixed( t_audio_fx + L_FRAME16k, L_tmp, t_audio_fx + L_FRAME16k, L_spec - L_FRAME16k ); // Q_audio + Q31 - Q31 -> Q_audio - } - } - - /*-------------------------------------------------------------------------- - * Classify whether to put extra bits for FER mitigation - *--------------------------------------------------------------------------*/ - - test(); - test(); - test(); - IF( ( EQ_16( st->last_core, TCX_20_CORE ) || EQ_16( st->last_core, TCX_10_CORE ) || EQ_16( st->last_core, HQ_CORE ) ) && GT_32( st->core_brate, MINIMUM_RATE_TO_ENCODE_VOICING_FLAG ) ) - { - IF( Voicing_flag > 0 ) - { - push_indice( hBstr, IND_HQ_VOICING_FLAG, 1, 1 ); - num_bits = sub( num_bits, 1 ); - } - ELSE - { - push_indice( hBstr, IND_HQ_VOICING_FLAG, 0, 1 ); - num_bits = sub( num_bits, 1 ); - } - } - - /*-------------------------------------------------------------------------- - * Transform-domain encoding - *--------------------------------------------------------------------------*/ - - scale_sig32( t_audio_fx, L_FRAME48k_EXT, sub( Q12, Q_audio ) ); - scale_sig32( wtda_audio_fx32, 2 * L_FRAME48k, sub( Q12, Q_audio ) ); - Q_audio = 12; - move16(); - IF( EQ_16( hq_core_type, LOW_RATE_HQ_CORE ) ) - { - - hq_lr_enc_ivas_fx( st, t_audio_fx, inner_frame, &num_bits, is_transient ); - } - ELSE - { - /* HQ high rate encoder */ - hq_hr_enc_ivas_fx( st, t_audio_fx, L_spec, &num_bits, is_transient, vad_hover_flag ); - } - - /* write all unused bits to the bitstream */ - num_bits = add( num_bits, extra_unused ); - - WHILE( GT_16( num_bits, 16 ) ) - { - push_indice( hBstr, IND_UNUSED, 0, 16 ); - num_bits = sub( num_bits, 16 ); - } - - IF( num_bits != 0 ) - { - push_indice( hBstr, IND_UNUSED, 0, num_bits ); - } - - test(); - test(); - IF( st->element_mode > EVS_MONO && ( st->last_core == ACELP_CORE || EQ_16( st->last_core, AMR_WB_CORE ) ) ) - { - overlap = st->hTcxCfg->tcx_mdct_window_length; /* Q0 */ - move16(); - - nz = NS2SA( st->sr_core, N_ZERO_MDCT_NS ); - move16(); - L_frame = sub( st->L_frame + st->hTcxCfg->tcx_offset, st->hTcxCfg->lfacNext ); - tcx_offset = st->hTcxCfg->lfacNext; - move16(); - - set16_fx( Aq_old_fx, 0, M + 1 ); /* Dummy filter */ - Aq_old_fx[0] = 1; - move16(); - - /* Code taken from InternalTCXDecoder() */ - Copy_Scale_sig_32_16( wtda_audio_fx32, wtda_audio_fx16, 2 * L_FRAME48k, negate( Q_audio ) ); // Q0 - TCX_MDCT_Inverse( t_audio_fx, sub( sub( 31, Q_audio ), 15 ), wtda_audio_fx16, overlap, sub( L_frame, overlap ), overlap, st->element_mode ); - - - /* Window current frame */ - Word16 tcx_offset_tmp; - - IF( tcx_offset < 0 ) - { - tcx_offset_tmp = negate( tcx_offset ); - } - ELSE - { - tcx_offset_tmp = 0; - move16(); - } - tcx_windowing_synthesis_current_frame( wtda_audio_fx16, st->hTcxCfg->tcx_aldo_window_2, st->hTcxCfg->tcx_mdct_window_half, st->hTcxCfg->tcx_mdct_window_minimum, overlap, /*st->hTcxCfg->tcx_mdct_window_length*/ st->hTcxCfg->tcx_mdct_window_half_length, st->hTcxCfg->tcx_mdct_window_min_length, st->last_core == ACELP_CORE, st->hTcxCfg->tcx_last_overlap_mode, /*left mode*/ st->hTcxEnc->acelp_zir, st->hTcxEnc->Txnq, NULL, Aq_old_fx, st->hTcxCfg->tcx_mdct_window_trans, shr( st->L_frame, 1 ), tcx_offset_tmp, st->last_core, 0, 0 ); - - - /*Compute windowed synthesis in case of switching to ALDO windows in next frame*/ - Copy( wtda_audio_fx16 + sub( L_frame, nz ), st->hTcxEnc->old_out_fx, nz + overlap ); /* Q0 */ - set16_fx( st->hTcxEnc->old_out_fx + add( nz, overlap ), 0, nz ); - - tcx_windowing_synthesis_past_frame( st->hTcxEnc->old_out_fx + nz, st->hTcxCfg->tcx_aldo_window_1_trunc, st->hTcxCfg->tcx_mdct_window_half, st->hTcxCfg->tcx_mdct_window_minimum, overlap, st->hTcxCfg->tcx_mdct_window_half_length, st->hTcxCfg->tcx_mdct_window_min_length, FULL_OVERLAP ); - - FOR( i = 0; i < nz / 2; i++ ) - { - // This implementation is diffrent in float code need to revisit to check its correctness. - st->hTcxEnc->old_out_fx[nz + overlap + i] = mult( wtda_audio_fx16[L_frame - 1 - i], st->hTcxCfg->tcx_aldo_window_1_trunc[i].v.re ); // Q0 + Q15 - Q15 -> Q0; - st->hTcxEnc->old_out_fx[nz / 2 + ( nz + overlap + i )] = mult( wtda_audio_fx16[nz / 2 + ( L_frame - 1 - i )], st->hTcxCfg->tcx_aldo_window_1_trunc[nz / 2 - 1 - i].v.im ); // Q0 + Q15 - Q15 -> Q0; - move16(); - move16(); - } - - Copy( wtda_audio_fx16 + sub( shr( overlap, 1 ), tcx_offset ), output_fx, st->L_frame ); /* Q0 */ - } - ELSE - { - Word16 tmp_q = Q_audio; - move16(); - Word32 ener_match_fx = SQRT2_FIXED; - move32(); - FOR( i = 0; i < input_frame; i++ ) - { - t_audio_fx[i] = Mpy_32_32( t_audio_fx[i], ener_match_fx ); /* Q12 - 1 -> Q11 */ - move32(); - } - - Q_audio = sub( Q_audio, 1 ); - scale_sig32( wtda_audio_fx32, 2 * L_FRAME48k, sub( Q_audio, tmp_q ) ); /* Q_audio */ - Inverse_Transform( t_audio_fx, &Q_audio, wtda_audio_fx32, is_transient, L_FRAME16k, inner_frame, st->element_mode ); - - - out_q = Q_audio; - move16(); - window_ola_fx( wtda_audio_fx32, output_fx, &out_q, st->hTcxEnc->old_out_fx, &old_q, L_FRAME16k, st->hTcxCfg->tcx_last_overlap_mode, st->hTcxCfg->tcx_curr_overlap_mode, 0, 0, NULL ); - - Scale_sig( output_fx, L_FRAME16k, negate( out_q ) ); /* Q0 */ - Scale_sig( st->hTcxEnc->old_out_fx, L_FRAME32k, negate( old_q ) ); /* Q0 */ - st->hTcxEnc->Q_old_out = 0; - move16(); - } - - IF( st->element_mode > EVS_MONO ) - { - /* Store LB synthesis in case of switch to ACELP */ - Copy( output_fx, st->hLPDmem->old_exc, L_FRAME16k ); - st->hLPDmem->q_lpd_old_exc = 0; - move16(); - } - pop_wmops(); - - return; -} diff --git a/lib_enc/hq_core_enc_fx.c b/lib_enc/hq_core_enc_fx.c index 6dc7bb5b95f981002a28f310591ca9e2393384cb..66430cb8e9d0c29403f7711e854942050f46b78a 100644 --- a/lib_enc/hq_core_enc_fx.c +++ b/lib_enc/hq_core_enc_fx.c @@ -2,11 +2,10 @@ EVS Codec 3GPP TS26.452 Aug 12, 2021. Version 16.3.0 ====================================================================================*/ #include -#include "options.h" /* Compilation switches */ -#include "cnst.h" /* Common constants */ -#include "rom_com_fx.h" /* Static table prototypes */ -#include "rom_com.h" /* Static table prototypes */ -//#include "prot_fx.h" /* Function prototypes */ +#include "options.h" /* Compilation switches */ +#include "cnst.h" /* Common constants */ +#include "rom_com_fx.h" /* Static table prototypes */ +#include "rom_com.h" /* Static table prototypes */ #include "prot_fx.h" /* Function prototypes */ #include "prot_fx_enc.h" /* Function prototypes */ @@ -230,12 +229,12 @@ void hq_core_enc_fx( { IF( Voicing_flag > 0 ) { - push_indice_fx( hBstr, IND_HQ_VOICING_FLAG, 1, 1 ); + push_indice( hBstr, IND_HQ_VOICING_FLAG, 1, 1 ); num_bits = sub( num_bits, 1 ); } ELSE { - push_indice_fx( hBstr, IND_HQ_VOICING_FLAG, 0, 1 ); + push_indice( hBstr, IND_HQ_VOICING_FLAG, 0, 1 ); num_bits = sub( num_bits, 1 ); } } @@ -279,13 +278,13 @@ void hq_core_enc_fx( WHILE( num_bits >= 16 ) { - push_indice_fx( hBstr, IND_UNUSED, 0, 16 ); + push_indice( hBstr, IND_UNUSED, 0, 16 ); num_bits = sub( num_bits, 16 ); } IF( num_bits != 0 ) { - push_indice_fx( hBstr, IND_UNUSED, 0, num_bits ); + push_indice( hBstr, IND_UNUSED, 0, num_bits ); } #ifdef ADD_IVAS_HQ_CODE if ( st->element_mode > EVS_MONO && ( st->last_core == ACELP_CORE || st->last_core == AMR_WB_CORE ) ) @@ -375,7 +374,6 @@ void HQ_core_enc_init_fx( hHQ_core->last_max_pos_pulse = 0; move16(); -#ifdef MSAN_FIX hHQ_core->crest_lp_fx = HQ_CREST_THRESHOLD_FX; /* Q28 */ move32(); hHQ_core->crest_lp_q = Q28; @@ -384,7 +382,360 @@ void HQ_core_enc_init_fx( move32(); hHQ_core->crest_mod_lp_q = Q29; move16(); -#endif + + return; +} + +void hq_core_enc_ivas_fx( + Encoder_State *st, /* i/o: encoder state structure */ + const Word16 *audio_fx, /* i : input audio signal Q0 */ + const Word16 input_frame_orig, /* i : frame length Q0*/ + const Word16 hq_core_type, /* i : HQ core type Q0*/ + const Word16 Voicing_flag, /* i : Voicing flag for FER method selection Q0*/ + const Word16 vad_hover_flag /* i : VAD hangover flag Q0*/ +) +{ + Word16 i, is_transient, num_bits, extra_unused; + + Word32 t_audio_fx[L_FRAME48k_EXT]; + Word16 wtda_audio_fx16[2 * L_FRAME48k]; + Word32 wtda_audio_fx32[2 * L_FRAME48k]; + Word16 two_frames_buffer[2 * L_FRAME48k]; + Word16 tmp; + Word16 Aq_old_fx[M + 1]; + Word16 output_fx[L_FRAME48k]; + Word16 Q_audio; + Word16 out_q = 0, old_q = 0; + move16(); + move16(); + Word16 inner_frame, input_frame, L_frame; + Word16 L_spec, overlap, nz, tcx_offset; + Word16 left_overlap, right_overlap; + BSTR_ENC_HANDLE hBstr = st->hBstr; + Word16 q = 0; + Word16 exp; + move16(); + + push_wmops( "hq_core_enc" ); + + set16_fx( wtda_audio_fx16, 0, 2 * L_FRAME48k ); + set32_fx( wtda_audio_fx32, 0, 2 * L_FRAME48k ); + st->Nb_ACELP_frames = 0; + move16(); + set_zero_fx( t_audio_fx, L_FRAME48k_EXT ); + /* set input_frame length */ + input_frame = input_frame_orig; /* Q0 */ + + /* Sanity check, it should never happen at the encoder side (no BFI) */ + IF( st->hTcxCfg->tcx_curr_overlap_mode == FULL_OVERLAP ) + { + st->hTcxCfg->tcx_last_overlap_mode = ALDO_WINDOW; + move16(); + } + ELSE + { + st->hTcxCfg->tcx_last_overlap_mode = st->hTcxCfg->tcx_curr_overlap_mode; + move16(); + } + st->hTcxCfg->tcx_curr_overlap_mode = ALDO_WINDOW; + move16(); + + /*-------------------------------------------------------------------------- + * Preprocessing in the first HQ frame after ACELP frame + * Find the number of bits for PVQ coding + * Write signaling information + *--------------------------------------------------------------------------*/ + + num_bits = BASOP_Util_Divide3232_Scale( st->total_brate, FRAMES_PER_SEC, &exp ); /* Q15-exp */ + num_bits = shr( num_bits, sub( 15, exp ) ); /* Q0 */ + extra_unused = 0; + move16(); + + /*-------------------------------------------------------------------------- + * Detect signal transition + *--------------------------------------------------------------------------*/ + + is_transient = detect_transient_fx( audio_fx, input_frame, 0, st ); /* Q0 */ + move16(); + + test(); + test(); + IF( st->element_mode > EVS_MONO && ( st->last_core == ACELP_CORE || EQ_16( st->last_core, AMR_WB_CORE ) ) ) + { + /*-------------------------------------------------------------------------- + * IVAS switching frame + *--------------------------------------------------------------------------*/ + + L_spec = input_frame; + left_overlap = -1; + right_overlap = -1; + move16(); + move16(); + move16(); + + WindowSignal( st->hTcxCfg, st->hTcxCfg->tcx_offsetFB, TRANSITION_OVERLAP, FULL_OVERLAP, &left_overlap, &right_overlap, st->hTcxEnc->speech_TCX, &L_spec, wtda_audio_fx16, 1, 1 ); + + q = 0; + move16(); + Q_audio = sub( Q16, q ); + TCX_MDCT( wtda_audio_fx16, t_audio_fx, &Q_audio, left_overlap, sub( L_spec, shr( add( left_overlap, right_overlap ), 1 ) ), right_overlap, st->element_mode ); + Q_audio = sub( Q31, Q_audio ); + Copy_Scale_sig_16_32_no_sat( wtda_audio_fx16, wtda_audio_fx32, 2 * L_FRAME48k, sub( Q_audio, q ) ); /* Q_audio */ + inner_frame = inner_frame_tbl[st->bwidth]; /* Q0 */ + L_spec = l_spec_ext_tbl[st->bwidth]; /* Q0 */ + is_transient = 0; + move16(); + move16(); + move16(); + } + ELSE + { + /*-------------------------------------------------------------------------- + * Windowing and time-domain aliasing + * DCT transform + *--------------------------------------------------------------------------*/ + Q_audio = 0; + move16(); + Scale_sig( st->old_input_signal_fx, input_frame, negate( st->q_old_inp ) ); /* Q0 */ + Scale_sig( st->input_fx, add( input_frame, NS2SA( 48000, DELAY_FIR_RESAMPL_NS ) ), negate( st->q_inp ) ); /* Q0 */ + st->q_old_inp = 0; + move16(); + st->q_inp = 0; + move16(); + Copy( st->old_input_signal_fx, two_frames_buffer, input_frame ); /* Q0 */ + Copy( audio_fx, two_frames_buffer + input_frame, input_frame ); /* Q0 */ + + wtda_fx( two_frames_buffer + input_frame, &Q_audio, wtda_audio_fx32, NULL, 0, + st->hTcxCfg->tcx_last_overlap_mode, st->hTcxCfg->tcx_curr_overlap_mode, input_frame ); + + test(); + IF( st->last_core == ACELP_CORE || EQ_16( st->last_core, AMR_WB_CORE ) ) + { + /* Preprocessing in the first HQ frame after ACELP frame */ + core_switching_hq_prepare_enc_fx( st, &num_bits, input_frame, wtda_audio_fx32, two_frames_buffer + input_frame ); + + /* During ACELP->HQ core switching, limit the HQ core bitrate to 48kbps */ + IF( GT_16( num_bits, ACELP_48k_BITS ) ) + { + extra_unused = sub( num_bits, ACELP_48k_BITS ); + num_bits = ACELP_48k_BITS; + move16(); + } + } + + Word16 tmp_q = Q_audio; + move16(); + direct_transform_fx( wtda_audio_fx32, t_audio_fx, is_transient, input_frame, &Q_audio, st->element_mode ); + scale_sig32( wtda_audio_fx32, L_FRAME48k_EXT, sub( Q_audio, tmp_q ) ); /* Q_audio */ + + /* scale coefficients to their nominal level (8kHz) */ + IF( NE_16( input_frame, NORM_MDCT_FACTOR ) ) + { + UWord16 lsb; + tmp = mult_r( input_frame, 410 / 2 ); /* 1/8000 in Q15 */ + Word16 ener_match_fx = hq_nominal_scaling[tmp]; + move16(); + FOR( i = 0; i < input_frame; i++ ) + { + /*t_audio_q[i] *= ener_match; */ + Mpy_32_16_ss( t_audio_fx[i], ener_match_fx, &t_audio_fx[i], &lsb ); /* Q12 */ + move16(); + } + } + + /* limit encoded band-width according to the command-line OR BWD limitation */ + inner_frame = inner_frame_tbl[st->bwidth]; /* Q0 */ + L_spec = l_spec_tbl[st->bwidth]; /* Q0 */ + + move16(); + move16(); + + + IF( GT_16( input_frame, inner_frame ) ) + { + IF( EQ_16( is_transient, 1 ) ) + { + FOR( i = 1; i < NUM_TIME_SWITCHING_BLOCKS; i++ ) + { + tmp = shr( inner_frame, 2 ); + Copy32( t_audio_fx + i_mult2( i, shr( input_frame, 2 ) ), t_audio_fx + i_mult2( i, tmp ), tmp ); /* Q_audio */ + } + } + + set32_fx( t_audio_fx + inner_frame, 0, sub( input_frame, inner_frame ) ); + } + } + + + /* subtract signaling bits */ + num_bits = sub( num_bits, hBstr->nb_bits_tot ); /* Q0 */ + + /*-------------------------------------------------------------------------- + * High-band gain control in case of BWS + *--------------------------------------------------------------------------*/ + + IF( st->bwidth_sw_cnt > 0 ) + { + Word32 L_tmp; + tmp = BASOP_Util_Divide1616_Scale( 3, BWS_TRAN_PERIOD, &exp ); /* Q15-exp */ + shr( tmp, exp ); + L_tmp = L_deposit_h( tmp ); /* Q31-exp */ + IF( is_transient ) + { + FOR( i = 0; i < NUM_TIME_SWITCHING_BLOCKS; i++ ) + { + v_multc_fixed( t_audio_fx + add( i_mult2( i, shr( inner_frame, 2 ) ), L_FRAME16k / NUM_TIME_SWITCHING_BLOCKS ), L_tmp, t_audio_fx + add( i_mult2( i, shr( inner_frame, 2 ) ), L_FRAME16k / NUM_TIME_SWITCHING_BLOCKS ), sub( shr( inner_frame, 2 ), L_FRAME16k / NUM_TIME_SWITCHING_BLOCKS ) ); // Q_audio + Q31 - Q31 -> Q_audio + } + } + ELSE + { + v_multc_fixed( t_audio_fx + L_FRAME16k, L_tmp, t_audio_fx + L_FRAME16k, L_spec - L_FRAME16k ); // Q_audio + Q31 - Q31 -> Q_audio + } + } + + /*-------------------------------------------------------------------------- + * Classify whether to put extra bits for FER mitigation + *--------------------------------------------------------------------------*/ + + test(); + test(); + test(); + IF( ( EQ_16( st->last_core, TCX_20_CORE ) || EQ_16( st->last_core, TCX_10_CORE ) || EQ_16( st->last_core, HQ_CORE ) ) && GT_32( st->core_brate, MINIMUM_RATE_TO_ENCODE_VOICING_FLAG ) ) + { + IF( Voicing_flag > 0 ) + { + push_indice( hBstr, IND_HQ_VOICING_FLAG, 1, 1 ); + num_bits = sub( num_bits, 1 ); + } + ELSE + { + push_indice( hBstr, IND_HQ_VOICING_FLAG, 0, 1 ); + num_bits = sub( num_bits, 1 ); + } + } + + /*-------------------------------------------------------------------------- + * Transform-domain encoding + *--------------------------------------------------------------------------*/ + + scale_sig32( t_audio_fx, L_FRAME48k_EXT, sub( Q12, Q_audio ) ); + scale_sig32( wtda_audio_fx32, 2 * L_FRAME48k, sub( Q12, Q_audio ) ); + Q_audio = 12; + move16(); + IF( EQ_16( hq_core_type, LOW_RATE_HQ_CORE ) ) + { + + hq_lr_enc_ivas_fx( st, t_audio_fx, inner_frame, &num_bits, is_transient ); + } + ELSE + { + /* HQ high rate encoder */ + hq_hr_enc_ivas_fx( st, t_audio_fx, L_spec, &num_bits, is_transient, vad_hover_flag ); + } + + /* write all unused bits to the bitstream */ + num_bits = add( num_bits, extra_unused ); + + WHILE( GT_16( num_bits, 16 ) ) + { + push_indice( hBstr, IND_UNUSED, 0, 16 ); + num_bits = sub( num_bits, 16 ); + } + + IF( num_bits != 0 ) + { + push_indice( hBstr, IND_UNUSED, 0, num_bits ); + } + + test(); + test(); + IF( st->element_mode > EVS_MONO && ( st->last_core == ACELP_CORE || EQ_16( st->last_core, AMR_WB_CORE ) ) ) + { + overlap = st->hTcxCfg->tcx_mdct_window_length; /* Q0 */ + move16(); + + nz = NS2SA( st->sr_core, N_ZERO_MDCT_NS ); + move16(); + L_frame = sub( st->L_frame + st->hTcxCfg->tcx_offset, st->hTcxCfg->lfacNext ); + tcx_offset = st->hTcxCfg->lfacNext; + move16(); + + set16_fx( Aq_old_fx, 0, M + 1 ); /* Dummy filter */ + Aq_old_fx[0] = 1; + move16(); + + /* Code taken from InternalTCXDecoder() */ + Copy_Scale_sig_32_16( wtda_audio_fx32, wtda_audio_fx16, 2 * L_FRAME48k, negate( Q_audio ) ); // Q0 + TCX_MDCT_Inverse( t_audio_fx, sub( sub( 31, Q_audio ), 15 ), wtda_audio_fx16, overlap, sub( L_frame, overlap ), overlap, st->element_mode ); + + + /* Window current frame */ + Word16 tcx_offset_tmp; + + IF( tcx_offset < 0 ) + { + tcx_offset_tmp = negate( tcx_offset ); + } + ELSE + { + tcx_offset_tmp = 0; + move16(); + } + tcx_windowing_synthesis_current_frame( wtda_audio_fx16, st->hTcxCfg->tcx_aldo_window_2, st->hTcxCfg->tcx_mdct_window_half, st->hTcxCfg->tcx_mdct_window_minimum, overlap, /*st->hTcxCfg->tcx_mdct_window_length*/ st->hTcxCfg->tcx_mdct_window_half_length, st->hTcxCfg->tcx_mdct_window_min_length, st->last_core == ACELP_CORE, st->hTcxCfg->tcx_last_overlap_mode, /*left mode*/ st->hTcxEnc->acelp_zir, st->hTcxEnc->Txnq, NULL, Aq_old_fx, st->hTcxCfg->tcx_mdct_window_trans, shr( st->L_frame, 1 ), tcx_offset_tmp, st->last_core, 0, 0 ); + + + /*Compute windowed synthesis in case of switching to ALDO windows in next frame*/ + Copy( wtda_audio_fx16 + sub( L_frame, nz ), st->hTcxEnc->old_out_fx, nz + overlap ); /* Q0 */ + set16_fx( st->hTcxEnc->old_out_fx + add( nz, overlap ), 0, nz ); + + tcx_windowing_synthesis_past_frame( st->hTcxEnc->old_out_fx + nz, st->hTcxCfg->tcx_aldo_window_1_trunc, st->hTcxCfg->tcx_mdct_window_half, st->hTcxCfg->tcx_mdct_window_minimum, overlap, st->hTcxCfg->tcx_mdct_window_half_length, st->hTcxCfg->tcx_mdct_window_min_length, FULL_OVERLAP ); + + FOR( i = 0; i < nz / 2; i++ ) + { + // This implementation is diffrent in float code need to revisit to check its correctness. + st->hTcxEnc->old_out_fx[nz + overlap + i] = mult( wtda_audio_fx16[L_frame - 1 - i], st->hTcxCfg->tcx_aldo_window_1_trunc[i].v.re ); // Q0 + Q15 - Q15 -> Q0; + st->hTcxEnc->old_out_fx[nz / 2 + ( nz + overlap + i )] = mult( wtda_audio_fx16[nz / 2 + ( L_frame - 1 - i )], st->hTcxCfg->tcx_aldo_window_1_trunc[nz / 2 - 1 - i].v.im ); // Q0 + Q15 - Q15 -> Q0; + move16(); + move16(); + } + + Copy( wtda_audio_fx16 + sub( shr( overlap, 1 ), tcx_offset ), output_fx, st->L_frame ); /* Q0 */ + } + ELSE + { + Word16 tmp_q = Q_audio; + move16(); + Word32 ener_match_fx = SQRT2_FIXED; + move32(); + FOR( i = 0; i < input_frame; i++ ) + { + t_audio_fx[i] = Mpy_32_32( t_audio_fx[i], ener_match_fx ); /* Q12 - 1 -> Q11 */ + move32(); + } + + Q_audio = sub( Q_audio, 1 ); + scale_sig32( wtda_audio_fx32, 2 * L_FRAME48k, sub( Q_audio, tmp_q ) ); /* Q_audio */ + Inverse_Transform( t_audio_fx, &Q_audio, wtda_audio_fx32, is_transient, L_FRAME16k, inner_frame, st->element_mode ); + + + out_q = Q_audio; + move16(); + window_ola_fx( wtda_audio_fx32, output_fx, &out_q, st->hTcxEnc->old_out_fx, &old_q, L_FRAME16k, st->hTcxCfg->tcx_last_overlap_mode, st->hTcxCfg->tcx_curr_overlap_mode, 0, 0, NULL ); + + Scale_sig( output_fx, L_FRAME16k, negate( out_q ) ); /* Q0 */ + Scale_sig( st->hTcxEnc->old_out_fx, L_FRAME32k, negate( old_q ) ); /* Q0 */ + st->hTcxEnc->Q_old_out = 0; + move16(); + } + + IF( st->element_mode > EVS_MONO ) + { + /* Store LB synthesis in case of switch to ACELP */ + Copy( output_fx, st->hLPDmem->old_exc, L_FRAME16k ); + st->hLPDmem->q_lpd_old_exc = 0; + move16(); + } + pop_wmops(); return; } diff --git a/lib_enc/hq_env_enc.c b/lib_enc/hq_env_enc.c deleted file mode 100644 index e8859676cedf5e4a5fd56b3a2bd2e0c0846d4d36..0000000000000000000000000000000000000000 --- a/lib_enc/hq_env_enc.c +++ /dev/null @@ -1,42 +0,0 @@ -/****************************************************************************************************** - - (C) 2022-2025 IVAS codec Public Collaboration with portions copyright Dolby International AB, Ericsson AB, - Fraunhofer-Gesellschaft zur Foerderung der angewandten Forschung e.V., Huawei Technologies Co. LTD., - Koninklijke Philips N.V., Nippon Telegraph and Telephone Corporation, Nokia Technologies Oy, Orange, - Panasonic Holdings Corporation, Qualcomm Technologies, Inc., VoiceAge Corporation, and other - contributors to this repository. All Rights Reserved. - - This software is protected by copyright law and by international treaties. - The IVAS codec Public Collaboration consisting of Dolby International AB, Ericsson AB, - Fraunhofer-Gesellschaft zur Foerderung der angewandten Forschung e.V., Huawei Technologies Co. LTD., - Koninklijke Philips N.V., Nippon Telegraph and Telephone Corporation, Nokia Technologies Oy, Orange, - Panasonic Holdings Corporation, Qualcomm Technologies, Inc., VoiceAge Corporation, and other - contributors to this repository retain full ownership rights in their respective contributions in - the software. This notice grants no license of any kind, including but not limited to patent - license, nor is any license granted by implication, estoppel or otherwise. - - Contributors are required to enter into the IVAS codec Public Collaboration agreement before making - contributions. - - This software is provided "AS IS", without any express or implied warranties. The software is in the - development stage. It is intended exclusively for experts who have experience with such software and - solely for the purpose of inspection. All implied warranties of non-infringement, merchantability - and fitness for a particular purpose are hereby disclaimed and excluded. - - Any dispute, controversy or claim arising under or in relation to providing this software shall be - submitted to and settled by the final, binding jurisdiction of the courts of Munich, Germany in - accordance with the laws of the Federal Republic of Germany excluding its conflict of law rules and - the United Nations Convention on Contracts on the International Sales of Goods. - -*******************************************************************************************************/ - -/*==================================================================================== - EVS Codec 3GPP TS26.443 Nov 04, 2021. Version 12.14.0 / 13.10.0 / 14.6.0 / 15.4.0 / 16.3.0 - ====================================================================================*/ - -#include -#include "options.h" -#include "prot.h" -#include "rom_com.h" -#include "rom_enc.h" -#include "wmc_auto.h" diff --git a/lib_enc/hq_env_enc_fx.c b/lib_enc/hq_env_enc_fx.c index b0875968e2c2ede803105d6d7fae94bea062f55e..f033bd685b8e5c1c48bd3485a23bf2b82b560411 100644 --- a/lib_enc/hq_env_enc_fx.c +++ b/lib_enc/hq_env_enc_fx.c @@ -10,7 +10,6 @@ #include "stl.h" #include "prot_fx.h" /* Function prototypes */ #include "prot_fx_enc.h" /* Function prototypes */ -#include "prot.h" /* Function prototypes */ /*--------------------------------------------------------------------------------------* * encode_envelope_indices_fx() @@ -296,13 +295,13 @@ Word16 encode_envelope_indices_fx( /* o : Number of b test(); IF( EQ_16( flag_HQ2, LOW_RATE_HQ_CORE_TRAN ) || EQ_16( flag_HQ2, LOW_RATE_HQ_CORE ) ) { - push_indice_fx( hBstr, IND_HQ2_DENG_HMODE, *LCmode, BITS_DE_HMODE ); - push_indice_fx( hBstr, IND_HQ2_DIFF_ENERGY, difidx[0], BITS_DE_FCOMP ); + push_indice( hBstr, IND_HQ2_DENG_HMODE, *LCmode, BITS_DE_HMODE ); + push_indice( hBstr, IND_HQ2_DIFF_ENERGY, difidx[0], BITS_DE_FCOMP ); } ELSE { - push_indice_fx( hBstr, IND_LC_MODE, *LCmode, 2 ); - push_indice_fx( hBstr, IND_YNRM, difidx[0], NORM0_BITS ); + push_indice( hBstr, IND_LC_MODE, *LCmode, 2 ); + push_indice( hBstr, IND_YNRM, difidx[0], NORM0_BITS ); } test(); @@ -332,7 +331,7 @@ Word16 encode_envelope_indices_fx( /* o : Number of b m = lshr( m, 1 ); /* Q0 */ } - push_indice_fx( hBstr, IND_HQ2_DIFF_ENERGY, v, r ); + push_indice( hBstr, IND_HQ2_DIFF_ENERGY, v, r ); } } ELSE @@ -371,7 +370,7 @@ Word16 encode_envelope_indices_fx( /* o : Number of b move16(); } } - push_indice_fx( hBstr, IND_HQ2_DIFF_ENERGY, m, r ); + push_indice( hBstr, IND_HQ2_DIFF_ENERGY, m, r ); prevj = j; move16(); } @@ -420,11 +419,11 @@ Word16 encode_envelope_indices_fx( /* o : Number of b IF( EQ_16( flag_HQ2, LOW_RATE_HQ_CORE ) ) { - push_indice_fx( hBstr, IND_HQ2_DIFF_ENERGY, m, r ); + push_indice( hBstr, IND_HQ2_DIFF_ENERGY, m, r ); } ELSE { - push_indice_fx( hBstr, IND_YNRM, m, r ); + push_indice( hBstr, IND_YNRM, m, r ); } prevj = j; @@ -516,11 +515,11 @@ Word16 encode_envelope_indices_fx( /* o : Number of b IF( flag_HQ2 == 0 ) { - push_indice_fx( hBstr, IND_YNRM, v, r ); + push_indice( hBstr, IND_YNRM, v, r ); } ELSE { - push_indice_fx( hBstr, IND_HQ2_DIFF_ENERGY, v, r ); + push_indice( hBstr, IND_HQ2_DIFF_ENERGY, v, r ); } } } @@ -537,14 +536,14 @@ Word16 encode_envelope_indices_fx( /* o : Number of b r = huffsizn[j]; /* Q0 */ move16(); - push_indice_fx( hBstr, IND_YNRM, m, r ); + push_indice( hBstr, IND_YNRM, m, r ); } } ELSE { FOR( i = 1; i < num_sfm; i++ ) { - push_indice_fx( hBstr, IND_YNRM, difidx[i], NORMI_BITS ); + push_indice( hBstr, IND_YNRM, difidx[i], NORMI_BITS ); } } } diff --git a/lib_enc/hq_hr_enc.c b/lib_enc/hq_hr_enc.c deleted file mode 100644 index 42f661f6e43b62aeab28d104ac985e1657671549..0000000000000000000000000000000000000000 --- a/lib_enc/hq_hr_enc.c +++ /dev/null @@ -1,280 +0,0 @@ -/****************************************************************************************************** - - (C) 2022-2025 IVAS codec Public Collaboration with portions copyright Dolby International AB, Ericsson AB, - Fraunhofer-Gesellschaft zur Foerderung der angewandten Forschung e.V., Huawei Technologies Co. LTD., - Koninklijke Philips N.V., Nippon Telegraph and Telephone Corporation, Nokia Technologies Oy, Orange, - Panasonic Holdings Corporation, Qualcomm Technologies, Inc., VoiceAge Corporation, and other - contributors to this repository. All Rights Reserved. - - This software is protected by copyright law and by international treaties. - The IVAS codec Public Collaboration consisting of Dolby International AB, Ericsson AB, - Fraunhofer-Gesellschaft zur Foerderung der angewandten Forschung e.V., Huawei Technologies Co. LTD., - Koninklijke Philips N.V., Nippon Telegraph and Telephone Corporation, Nokia Technologies Oy, Orange, - Panasonic Holdings Corporation, Qualcomm Technologies, Inc., VoiceAge Corporation, and other - contributors to this repository retain full ownership rights in their respective contributions in - the software. This notice grants no license of any kind, including but not limited to patent - license, nor is any license granted by implication, estoppel or otherwise. - - Contributors are required to enter into the IVAS codec Public Collaboration agreement before making - contributions. - - This software is provided "AS IS", without any express or implied warranties. The software is in the - development stage. It is intended exclusively for experts who have experience with such software and - solely for the purpose of inspection. All implied warranties of non-infringement, merchantability - and fitness for a particular purpose are hereby disclaimed and excluded. - - Any dispute, controversy or claim arising under or in relation to providing this software shall be - submitted to and settled by the final, binding jurisdiction of the courts of Munich, Germany in - accordance with the laws of the Federal Republic of Germany excluding its conflict of law rules and - the United Nations Convention on Contracts on the International Sales of Goods. - -*******************************************************************************************************/ - -/*==================================================================================== - EVS Codec 3GPP TS26.443 Nov 04, 2021. Version 12.14.0 / 13.10.0 / 14.6.0 / 15.4.0 / 16.3.0 - ====================================================================================*/ - -#include -#include "options.h" -#include "cnst.h" -#include "prot.h" -#include "prot_fx.h" -#include "ivas_prot_fx.h" -#include "prot_fx_enc.h" -#include "rom_enc.h" -#include "rom_com.h" -#include "wmc_auto.h" - -/*--------------------------------------------------------------------------* - * hq_hr_enc() - * - * HQ high rate encoding routine - *--------------------------------------------------------------------------*/ - -void hq_hr_enc_ivas_fx( - Encoder_State *st, /* i/o: encoder state structure */ - Word32 *t_audio_fx, /* i/o: transform-domain coefficients Q12*/ - const Word16 length, /* i : length of spectrum Q0*/ - Word16 *num_bits, /* i/o: number of available bits Q0*/ - const Word16 is_transient, /* i : transient flag Q0*/ - const Word16 vad_hover_flag /* i : VAD hangover flag Q0*/ -) -{ - Word16 nb_sfm; - Word16 sum, hcode_l; - Word16 difidx[NB_SFM]; - Word16 normqlg2[NB_SFM], ynrm[NB_SFM]; - Word16 nf_idx; - Word16 bits; - Word16 LCmode; - Word16 shape_bits, num_sfm, numnrmibits; - Word16 hqswb_clas; - Word16 num_env_bands; - Word16 Npeaks, start_norm; - Word16 difidx_org[NB_SFM]; - Word16 R[NB_SFM]; - Word16 peaks[HVQ_MAX_PEAKS]; - Word16 sfmsize[NB_SFM], sfm_start[NB_SFM], sfm_end[NB_SFM]; - Word16 npulses[NB_SFM], maxpulse[NB_SFM]; - Word16 Rsubband[NB_SFM]; /* Q3 */ - Word32 t_audio_q_fx[L_SPEC48k_EXT]; - Word16 noise_level_fx[HVQ_BWE_NOISE_BANDS]; - Word16 hq_generic_offset; - Word16 hq_generic_exc_clas = 0; - move16(); - Word16 core_sfm; - Word16 har_freq_est1 = 0, har_freq_est2 = 0; - move16(); - move16(); - Word16 flag_dis = 1; - move16(); - const Word16 *subband_search_offset; - Word16 wBands[2]; - Word16 b_delta_env; - HQ_ENC_HANDLE hHQ_core = st->hHQ_core; - BSTR_ENC_HANDLE hBstr = st->hBstr; - Word16 att_fx; - Word16 t_audio_norm[L_FRAME48k_EXT]; - Word16 t_audio_q_norm[L_FRAME48k_EXT]; - Word32 nf_gains_fx[HVQ_NF_GROUPS], pe_gains_fx[HVQ_NF_GROUPS]; - Word16 hq_generic_fenv_fx[HQ_FB_FENV]; - /*------------------------------------------------------------------* - * Initializations - *------------------------------------------------------------------*/ - - Npeaks = 0; - move16(); - set16_fx( npulses, 0, NB_SFM ); - set16_fx( maxpulse, 0, NB_SFM ); - set16_fx( difidx_org, 0, NB_SFM ); - set32_fx( t_audio_q_fx, 0, L_FRAME48k ); - set32_fx( nf_gains_fx, 0, HVQ_NF_GROUPS ); - set32_fx( pe_gains_fx, 0, HVQ_NF_GROUPS ); - /*------------------------------------------------------------------* - * Classification - *------------------------------------------------------------------*/ - bits = hq_classifier_enc_ivas_fx( st, length, t_audio_fx, is_transient, &Npeaks, peaks, pe_gains_fx, nf_gains_fx, &hqswb_clas ); /* Q0 */ - *num_bits = sub( *num_bits, bits ); - move16(); - - /*------------------------------------------------------------------* - * Set quantization parameters - *------------------------------------------------------------------*/ - - hq_configure_fx( length, hqswb_clas, st->core_brate, &num_sfm, &nb_sfm, &start_norm, &num_env_bands, &numnrmibits, &hq_generic_offset, sfmsize, sfm_start, sfm_end ); - - /*------------------------------------------------------------------* - * Transient frame handling - *------------------------------------------------------------------*/ - /* Interleave MLT coefficients of 4 sub-vectors in case of transient frame */ - IF( is_transient ) - { - interleave_spectrum_ivas_fx( t_audio_fx, length ); - } - test(); - IF( EQ_16( st->element_mode, IVAS_CPE_DFT ) || EQ_16( st->element_mode, IVAS_CPE_TD ) ) - { - calculate_hangover_attenuation_gain_ivas_fx( st, &att_fx, vad_hover_flag ); - v_multc_att32( t_audio_fx, att_fx, t_audio_fx, sfm_end[( num_sfm - 1 )] ); /* Q12 */ - } - - /*------------------------------------------------------------------* - * Scalar quantization of norms - * Encode norm indices - *------------------------------------------------------------------*/ - - /* calculate and quantize norms */ - calc_norm_ivas_fx( t_audio_fx, ynrm, normqlg2, start_norm, num_env_bands, sfmsize, sfm_start ); - /* create differential code of quantized norm indices */ - diff_envelope_coding_fx( is_transient, num_env_bands, start_norm, ynrm, normqlg2, difidx ); - - /* Find norm coding mode and calculate number of bits */ - hcode_l = encode_envelope_indices_ivas_fx( hBstr, num_env_bands, numnrmibits, difidx, &LCmode, 0, NORMAL_HQ_CORE, is_transient ); /* Q0 */ - - *num_bits = sub( *num_bits, add( hcode_l, NORM0_BITS + FLAGS_BITS ) ); - move16(); - /* Encode norm indices */ - encode_envelope_indices_ivas_fx( hBstr, num_env_bands, numnrmibits, difidx, &LCmode, 1, NORMAL_HQ_CORE, is_transient ); - - /*------------------------------------------------------------------* - * HQ GENERIC BWE encoding - *------------------------------------------------------------------*/ - - test(); - IF( EQ_16( hqswb_clas, HQ_GEN_SWB ) || EQ_16( hqswb_clas, HQ_GEN_FB ) ) - { - hq_generic_hf_encoding_fx( t_audio_fx, hq_generic_fenv_fx, hq_generic_offset, st, &hq_generic_exc_clas, length ); - - IF( EQ_16( hq_generic_exc_clas, HQ_GENERIC_SP_EXC ) ) - { - *num_bits = add( *num_bits, 1 ); /* conditional 1 bit saving for representing FD3 BWE excitation class */ - move16(); - } - map_hq_generic_fenv_norm_fx( hqswb_clas, hq_generic_fenv_fx, ynrm, normqlg2, num_env_bands, nb_sfm, hq_generic_offset ); - } - - /*------------------------------------------------------------------* - * Bit allocation - *------------------------------------------------------------------*/ - - ivas_hq_bit_allocation_fx( st->core_brate, length, hqswb_clas, num_bits, normqlg2, nb_sfm, sfmsize, noise_level_fx, R, Rsubband, &sum, &core_sfm, num_env_bands ); - - /*------------------------------------------------------------------* - * Normalize coefficients with quantized norms - *------------------------------------------------------------------*/ - IF( NE_16( hqswb_clas, HQ_HVQ ) ) - { - test(); - IF( EQ_16( hqswb_clas, HQ_GEN_SWB ) || EQ_16( hqswb_clas, HQ_GEN_FB ) ) - { - b_delta_env = calc_nor_delta_hf_ivas_fx( hBstr, t_audio_fx, ynrm, Rsubband, num_env_bands, nb_sfm, sfmsize, sfm_start, core_sfm ); /* Q0 */ - sum = sub( sum, b_delta_env ); - } - normalizecoefs_fx( t_audio_fx, ynrm, nb_sfm, sfm_start, sfm_end, t_audio_norm ); - } - Word16 Q_audio = 12, Q_shift; - move16(); - /*------------------------------------------------------------------* - * Quantize/code spectral fine structure using PVQ or HVQ - *------------------------------------------------------------------*/ - IF( EQ_16( hqswb_clas, HQ_HVQ ) ) - { - sum = hvq_enc_ivas_fx( st, st->core_brate, *num_bits, Npeaks, ynrm, R, peaks, nf_gains_fx, noise_level_fx, pe_gains_fx, t_audio_fx, t_audio_q_fx ); - *num_bits = sub( *num_bits, sum ); - move16(); - } - ELSE - { - shape_bits = pvq_core_enc_ivas_fx( hBstr, t_audio_norm, t_audio_q_norm, &Q_audio, sum, nb_sfm, sfm_start, sfm_end, sfmsize, Rsubband, R, npulses, maxpulse, HQ_CORE ); /* Q0 */ - *num_bits = add( *num_bits, sub( sum, shape_bits ) ); - move16(); - } - - test(); - IF( EQ_16( hqswb_clas, HQ_HVQ ) || EQ_16( hqswb_clas, HQ_HARMONIC ) ) - { - subband_search_offset = subband_search_offsets_13p2kbps_Har; /* Q0 */ - wBands[0] = SWB_SB_BW_LEN0_16KBPS_HAR; /* Q0 */ - wBands[1] = SWB_SB_BW_LEN1_16KBPS_HAR; /* Q0 */ - move16(); - move16(); - IF( EQ_16( hqswb_clas, HQ_HARMONIC ) ) - { - Q_shift = sub( SWB_BWE_LR_Qs, Q_audio ); - FOR( Word16 i = 0; i < 300; i++ ) - { - t_audio_q_fx[i] = L_shl( L_deposit_l( t_audio_q_norm[i] ), Q_shift ); /* Q12 */ - move32(); - } - } - har_est_fx( t_audio_q_fx, 300, &har_freq_est1, &har_freq_est2, &flag_dis, &hHQ_core->prev_frm_hfe2, subband_search_offset, wBands, &hHQ_core->prev_stab_hfe2 ); - - hHQ_core->prev_frm_hfe2 = har_freq_est2; - move16(); - } - - /* reset LR-HQ memories */ - hHQ_core->prev_frm_hfe2 = 0; /*reset*/ - hHQ_core->prev_stab_hfe2 = 0; - move16(); - move16(); - nf_idx = 0; - move16(); - test(); - test(); - test(); - IF( NE_16( is_transient, 1 ) && NE_16( hqswb_clas, HQ_HVQ ) && !( EQ_16( length, L_FRAME16k ) && LE_32( st->core_brate, HQ_32k ) ) ) - { - test(); - IF( EQ_16( hqswb_clas, HQ_GEN_SWB ) || EQ_16( hqswb_clas, HQ_GEN_FB ) ) - { - nf_idx = noise_adjust_fx( t_audio_norm, 12, R, sfm_start, sfm_end, s_max( core_sfm, sub( num_env_bands, 1 ) ) ); /* Q0 */ - push_indice( hBstr, IND_NF_IDX, nf_idx, 2 ); - } - ELSE - { - nf_idx = noise_adjust_fx( t_audio_norm, 12, R, sfm_start, sfm_end, core_sfm ); /* Q0 */ - push_indice( hBstr, IND_NF_IDX, nf_idx, 2 ); - } - } - - - /* updates */ - hHQ_core->prev_hqswb_clas = hqswb_clas; /* Q0 */ - move16(); - /* Prepare synthesis for LB generation in case of switch to ACELP */ - IF( NE_16( hqswb_clas, HQ_HVQ ) ) - { - apply_envelope_enc_ivas_fx( t_audio_q_norm, ynrm, num_sfm, sfm_start, sfm_end, t_audio_q_fx ); - scale_sig32( t_audio_q_fx, length, sub( Q12, Q_audio ) ); // Q12 - } - - IF( is_transient ) - { - ivas_de_interleave_spectrum_fx( t_audio_q_fx, length ); - } - - MVR2R_WORD32( t_audio_q_fx, t_audio_fx, length ); - - return; -} diff --git a/lib_enc/hq_hr_enc_fx.c b/lib_enc/hq_hr_enc_fx.c index f73a926dc5177ed57cbbcfaeeec3c93b77eb3512..705db9ecdf46b08c5bf6ce41e323890bffd7d01d 100644 --- a/lib_enc/hq_hr_enc_fx.c +++ b/lib_enc/hq_hr_enc_fx.c @@ -5,9 +5,10 @@ #include "options.h" /* Compilation switches */ #include "cnst.h" /* Common constants */ //#include "prot_fx.h" /* Function prototypes */ -#include "rom_com_fx.h" /* Static table prototypes */ -#include "rom_com.h" /* Static table prototypes */ -#include "prot_fx.h" /* Function prototypes */ +#include "rom_com_fx.h" /* Static table prototypes */ +#include "rom_com.h" /* Static table prototypes */ +#include "prot_fx.h" /* Function prototypes */ +#include "ivas_prot_fx.h" #include "prot_fx_enc.h" /* Function prototypes */ /*--------------------------------------------------------------------------* * hq_hr_enc_fx() @@ -235,12 +236,12 @@ void hq_hr_enc_fx( IF( EQ_16( hqswb_clas, HQ_GEN_SWB ) || EQ_16( hqswb_clas, HQ_GEN_FB ) ) { nf_idx = noise_adjust_fx( t_audio_norm, 12, R, sfm_start, sfm_end, s_max( core_sfm, sub( num_env_bands, 1 ) ) ); /* Q0 */ - push_indice_fx( st_fx->hBstr, IND_NF_IDX, nf_idx, 2 ); + push_indice( st_fx->hBstr, IND_NF_IDX, nf_idx, 2 ); } ELSE { nf_idx = noise_adjust_fx( t_audio_norm, 12, R, sfm_start, sfm_end, core_sfm ); /* Q0 */ - push_indice_fx( st_fx->hBstr, IND_NF_IDX, nf_idx, 2 ); + push_indice( st_fx->hBstr, IND_NF_IDX, nf_idx, 2 ); } } /* updates */ @@ -264,3 +265,231 @@ void hq_hr_enc_fx( return; } + +void hq_hr_enc_ivas_fx( + Encoder_State *st, /* i/o: encoder state structure */ + Word32 *t_audio_fx, /* i/o: transform-domain coefficients Q12*/ + const Word16 length, /* i : length of spectrum Q0*/ + Word16 *num_bits, /* i/o: number of available bits Q0*/ + const Word16 is_transient, /* i : transient flag Q0*/ + const Word16 vad_hover_flag /* i : VAD hangover flag Q0*/ +) +{ + Word16 nb_sfm; + Word16 sum, hcode_l; + Word16 difidx[NB_SFM]; + Word16 normqlg2[NB_SFM], ynrm[NB_SFM]; + Word16 nf_idx; + Word16 bits; + Word16 LCmode; + Word16 shape_bits, num_sfm, numnrmibits; + Word16 hqswb_clas; + Word16 num_env_bands; + Word16 Npeaks, start_norm; + Word16 difidx_org[NB_SFM]; + Word16 R[NB_SFM]; + Word16 peaks[HVQ_MAX_PEAKS]; + Word16 sfmsize[NB_SFM], sfm_start[NB_SFM], sfm_end[NB_SFM]; + Word16 npulses[NB_SFM], maxpulse[NB_SFM]; + Word16 Rsubband[NB_SFM]; /* Q3 */ + Word32 t_audio_q_fx[L_SPEC48k_EXT]; + Word16 noise_level_fx[HVQ_BWE_NOISE_BANDS]; + Word16 hq_generic_offset; + Word16 hq_generic_exc_clas = 0; + move16(); + Word16 core_sfm; + Word16 har_freq_est1 = 0, har_freq_est2 = 0; + move16(); + move16(); + Word16 flag_dis = 1; + move16(); + const Word16 *subband_search_offset; + Word16 wBands[2]; + Word16 b_delta_env; + HQ_ENC_HANDLE hHQ_core = st->hHQ_core; + BSTR_ENC_HANDLE hBstr = st->hBstr; + Word16 att_fx; + Word16 t_audio_norm[L_FRAME48k_EXT]; + Word16 t_audio_q_norm[L_FRAME48k_EXT]; + Word32 nf_gains_fx[HVQ_NF_GROUPS], pe_gains_fx[HVQ_NF_GROUPS]; + Word16 hq_generic_fenv_fx[HQ_FB_FENV]; + /*------------------------------------------------------------------* + * Initializations + *------------------------------------------------------------------*/ + + Npeaks = 0; + move16(); + set16_fx( npulses, 0, NB_SFM ); + set16_fx( maxpulse, 0, NB_SFM ); + set16_fx( difidx_org, 0, NB_SFM ); + set32_fx( t_audio_q_fx, 0, L_FRAME48k ); + set32_fx( nf_gains_fx, 0, HVQ_NF_GROUPS ); + set32_fx( pe_gains_fx, 0, HVQ_NF_GROUPS ); + /*------------------------------------------------------------------* + * Classification + *------------------------------------------------------------------*/ + bits = hq_classifier_enc_ivas_fx( st, length, t_audio_fx, is_transient, &Npeaks, peaks, pe_gains_fx, nf_gains_fx, &hqswb_clas ); /* Q0 */ + *num_bits = sub( *num_bits, bits ); + move16(); + + /*------------------------------------------------------------------* + * Set quantization parameters + *------------------------------------------------------------------*/ + + hq_configure_fx( length, hqswb_clas, st->core_brate, &num_sfm, &nb_sfm, &start_norm, &num_env_bands, &numnrmibits, &hq_generic_offset, sfmsize, sfm_start, sfm_end ); + + /*------------------------------------------------------------------* + * Transient frame handling + *------------------------------------------------------------------*/ + /* Interleave MLT coefficients of 4 sub-vectors in case of transient frame */ + IF( is_transient ) + { + interleave_spectrum_ivas_fx( t_audio_fx, length ); + } + test(); + IF( EQ_16( st->element_mode, IVAS_CPE_DFT ) || EQ_16( st->element_mode, IVAS_CPE_TD ) ) + { + calculate_hangover_attenuation_gain_ivas_fx( st, &att_fx, vad_hover_flag ); + v_multc_att32( t_audio_fx, att_fx, t_audio_fx, sfm_end[( num_sfm - 1 )] ); /* Q12 */ + } + + /*------------------------------------------------------------------* + * Scalar quantization of norms + * Encode norm indices + *------------------------------------------------------------------*/ + + /* calculate and quantize norms */ + calc_norm_ivas_fx( t_audio_fx, ynrm, normqlg2, start_norm, num_env_bands, sfmsize, sfm_start ); + /* create differential code of quantized norm indices */ + diff_envelope_coding_fx( is_transient, num_env_bands, start_norm, ynrm, normqlg2, difidx ); + + /* Find norm coding mode and calculate number of bits */ + hcode_l = encode_envelope_indices_ivas_fx( hBstr, num_env_bands, numnrmibits, difidx, &LCmode, 0, NORMAL_HQ_CORE, is_transient ); /* Q0 */ + + *num_bits = sub( *num_bits, add( hcode_l, NORM0_BITS + FLAGS_BITS ) ); + move16(); + /* Encode norm indices */ + encode_envelope_indices_ivas_fx( hBstr, num_env_bands, numnrmibits, difidx, &LCmode, 1, NORMAL_HQ_CORE, is_transient ); + + /*------------------------------------------------------------------* + * HQ GENERIC BWE encoding + *------------------------------------------------------------------*/ + + test(); + IF( EQ_16( hqswb_clas, HQ_GEN_SWB ) || EQ_16( hqswb_clas, HQ_GEN_FB ) ) + { + hq_generic_hf_encoding_fx( t_audio_fx, hq_generic_fenv_fx, hq_generic_offset, st, &hq_generic_exc_clas, length ); + + IF( EQ_16( hq_generic_exc_clas, HQ_GENERIC_SP_EXC ) ) + { + *num_bits = add( *num_bits, 1 ); /* conditional 1 bit saving for representing FD3 BWE excitation class */ + move16(); + } + map_hq_generic_fenv_norm_fx( hqswb_clas, hq_generic_fenv_fx, ynrm, normqlg2, num_env_bands, nb_sfm, hq_generic_offset ); + } + + /*------------------------------------------------------------------* + * Bit allocation + *------------------------------------------------------------------*/ + + ivas_hq_bit_allocation_fx( st->core_brate, length, hqswb_clas, num_bits, normqlg2, nb_sfm, sfmsize, noise_level_fx, R, Rsubband, &sum, &core_sfm, num_env_bands ); + + /*------------------------------------------------------------------* + * Normalize coefficients with quantized norms + *------------------------------------------------------------------*/ + IF( NE_16( hqswb_clas, HQ_HVQ ) ) + { + test(); + IF( EQ_16( hqswb_clas, HQ_GEN_SWB ) || EQ_16( hqswb_clas, HQ_GEN_FB ) ) + { + b_delta_env = calc_nor_delta_hf_ivas_fx( hBstr, t_audio_fx, ynrm, Rsubband, num_env_bands, nb_sfm, sfmsize, sfm_start, core_sfm ); /* Q0 */ + sum = sub( sum, b_delta_env ); + } + normalizecoefs_fx( t_audio_fx, ynrm, nb_sfm, sfm_start, sfm_end, t_audio_norm ); + } + Word16 Q_audio = 12, Q_shift; + move16(); + /*------------------------------------------------------------------* + * Quantize/code spectral fine structure using PVQ or HVQ + *------------------------------------------------------------------*/ + IF( EQ_16( hqswb_clas, HQ_HVQ ) ) + { + sum = hvq_enc_ivas_fx( st, st->core_brate, *num_bits, Npeaks, ynrm, R, peaks, nf_gains_fx, noise_level_fx, pe_gains_fx, t_audio_fx, t_audio_q_fx ); + *num_bits = sub( *num_bits, sum ); + move16(); + } + ELSE + { + shape_bits = pvq_core_enc_ivas_fx( hBstr, t_audio_norm, t_audio_q_norm, &Q_audio, sum, nb_sfm, sfm_start, sfm_end, sfmsize, Rsubband, R, npulses, maxpulse, HQ_CORE ); /* Q0 */ + *num_bits = add( *num_bits, sub( sum, shape_bits ) ); + move16(); + } + + test(); + IF( EQ_16( hqswb_clas, HQ_HVQ ) || EQ_16( hqswb_clas, HQ_HARMONIC ) ) + { + subband_search_offset = subband_search_offsets_13p2kbps_Har; /* Q0 */ + wBands[0] = SWB_SB_BW_LEN0_16KBPS_HAR; /* Q0 */ + wBands[1] = SWB_SB_BW_LEN1_16KBPS_HAR; /* Q0 */ + move16(); + move16(); + IF( EQ_16( hqswb_clas, HQ_HARMONIC ) ) + { + Q_shift = sub( SWB_BWE_LR_Qs, Q_audio ); + FOR( Word16 i = 0; i < 300; i++ ) + { + t_audio_q_fx[i] = L_shl( L_deposit_l( t_audio_q_norm[i] ), Q_shift ); /* Q12 */ + move32(); + } + } + har_est_fx( t_audio_q_fx, 300, &har_freq_est1, &har_freq_est2, &flag_dis, &hHQ_core->prev_frm_hfe2, subband_search_offset, wBands, &hHQ_core->prev_stab_hfe2 ); + + hHQ_core->prev_frm_hfe2 = har_freq_est2; + move16(); + } + + /* reset LR-HQ memories */ + hHQ_core->prev_frm_hfe2 = 0; /*reset*/ + hHQ_core->prev_stab_hfe2 = 0; + move16(); + move16(); + nf_idx = 0; + move16(); + test(); + test(); + test(); + IF( NE_16( is_transient, 1 ) && NE_16( hqswb_clas, HQ_HVQ ) && !( EQ_16( length, L_FRAME16k ) && LE_32( st->core_brate, HQ_32k ) ) ) + { + test(); + IF( EQ_16( hqswb_clas, HQ_GEN_SWB ) || EQ_16( hqswb_clas, HQ_GEN_FB ) ) + { + nf_idx = noise_adjust_fx( t_audio_norm, 12, R, sfm_start, sfm_end, s_max( core_sfm, sub( num_env_bands, 1 ) ) ); /* Q0 */ + push_indice( hBstr, IND_NF_IDX, nf_idx, 2 ); + } + ELSE + { + nf_idx = noise_adjust_fx( t_audio_norm, 12, R, sfm_start, sfm_end, core_sfm ); /* Q0 */ + push_indice( hBstr, IND_NF_IDX, nf_idx, 2 ); + } + } + + + /* updates */ + hHQ_core->prev_hqswb_clas = hqswb_clas; /* Q0 */ + move16(); + /* Prepare synthesis for LB generation in case of switch to ACELP */ + IF( NE_16( hqswb_clas, HQ_HVQ ) ) + { + apply_envelope_enc_ivas_fx( t_audio_q_norm, ynrm, num_sfm, sfm_start, sfm_end, t_audio_q_fx ); + scale_sig32( t_audio_q_fx, length, sub( Q12, Q_audio ) ); // Q12 + } + + IF( is_transient ) + { + ivas_de_interleave_spectrum_fx( t_audio_q_fx, length ); + } + + MVR2R_WORD32( t_audio_q_fx, t_audio_fx, length ); + + return; +} diff --git a/lib_enc/hq_lr_enc.c b/lib_enc/hq_lr_enc.c deleted file mode 100644 index d0941db74b9b897cf7a495cf2ff6be93cfe03b9a..0000000000000000000000000000000000000000 --- a/lib_enc/hq_lr_enc.c +++ /dev/null @@ -1,46 +0,0 @@ -/****************************************************************************************************** - - (C) 2022-2025 IVAS codec Public Collaboration with portions copyright Dolby International AB, Ericsson AB, - Fraunhofer-Gesellschaft zur Foerderung der angewandten Forschung e.V., Huawei Technologies Co. LTD., - Koninklijke Philips N.V., Nippon Telegraph and Telephone Corporation, Nokia Technologies Oy, Orange, - Panasonic Holdings Corporation, Qualcomm Technologies, Inc., VoiceAge Corporation, and other - contributors to this repository. All Rights Reserved. - - This software is protected by copyright law and by international treaties. - The IVAS codec Public Collaboration consisting of Dolby International AB, Ericsson AB, - Fraunhofer-Gesellschaft zur Foerderung der angewandten Forschung e.V., Huawei Technologies Co. LTD., - Koninklijke Philips N.V., Nippon Telegraph and Telephone Corporation, Nokia Technologies Oy, Orange, - Panasonic Holdings Corporation, Qualcomm Technologies, Inc., VoiceAge Corporation, and other - contributors to this repository retain full ownership rights in their respective contributions in - the software. This notice grants no license of any kind, including but not limited to patent - license, nor is any license granted by implication, estoppel or otherwise. - - Contributors are required to enter into the IVAS codec Public Collaboration agreement before making - contributions. - - This software is provided "AS IS", without any express or implied warranties. The software is in the - development stage. It is intended exclusively for experts who have experience with such software and - solely for the purpose of inspection. All implied warranties of non-infringement, merchantability - and fitness for a particular purpose are hereby disclaimed and excluded. - - Any dispute, controversy or claim arising under or in relation to providing this software shall be - submitted to and settled by the final, binding jurisdiction of the courts of Munich, Germany in - accordance with the laws of the Federal Republic of Germany excluding its conflict of law rules and - the United Nations Convention on Contracts on the International Sales of Goods. - -*******************************************************************************************************/ - -/*==================================================================================== - EVS Codec 3GPP TS26.443 Nov 04, 2021. Version 12.14.0 / 13.10.0 / 14.6.0 / 15.4.0 / 16.3.0 - ====================================================================================*/ - -#include -#include "options.h" -#include -#include "cnst.h" -#include "rom_enc.h" -#include "rom_com.h" -#include "prot.h" -#include "stl.h" -#include "basop_util.h" -#include "wmc_auto.h" diff --git a/lib_enc/hq_lr_enc_fx.c b/lib_enc/hq_lr_enc_fx.c index 424689804d665f7b3bd8325169cf647bc4627d9b..af27806820f6ba1cf295ffb130523b8cbaa3a377 100644 --- a/lib_enc/hq_lr_enc_fx.c +++ b/lib_enc/hq_lr_enc_fx.c @@ -12,7 +12,6 @@ #include "prot_fx.h" /* Function prototypes */ #include "prot_fx_enc.h" /* Function prototypes */ #include "basop_util.h" /* Function prototypes */ -#include "prot.h" /*--------------------------------------------------------------------------* * Local function prototypes @@ -116,7 +115,7 @@ static void spt_shorten_domain_set_fx( move16(); } } - push_indice_fx( st_fx->hBstr, IND_HQ2_SPT_SHORTEN, spt_shorten_flag[j], 1 ); + push_indice( st_fx->hBstr, IND_HQ2_SPT_SHORTEN, spt_shorten_flag[j], 1 ); *bit_budget = sub( *bit_budget, 1 ); /* Q0 */ move16(); } @@ -314,7 +313,7 @@ void hq_lr_enc_fx( } /* write the classification information into the bitstream */ - push_indice_fx( hBstr, IND_HQ2_SWB_CLAS, hqswb_clas_fx, 2 ); + push_indice( hBstr, IND_HQ2_SWB_CLAS, hqswb_clas_fx, 2 ); ( *num_bits_fx ) = sub( *num_bits_fx, 2 ); move16(); IF( EQ_16( hqswb_clas_fx, HQ_NORMAL ) ) @@ -326,7 +325,7 @@ void hq_lr_enc_fx( ELSE { /* write the transient bit into the bitstream */ - push_indice_fx( st_fx->hBstr, IND_HQ2_SWB_CLAS, is_transient_fx, 1 ); + push_indice( st_fx->hBstr, IND_HQ2_SWB_CLAS, is_transient_fx, 1 ); /* subtract one bit for the transient flag */ ( *num_bits_fx ) = sub( ( *num_bits_fx ), 1 ); @@ -742,7 +741,7 @@ void hq_lr_enc_fx( /* encode the last p2a_bands-1 subbands bit-allocation index of the previous frame */ FOR( i = 0; i < 2; i++ ) { - push_indice_fx( st_fx->hBstr, IND_HQ2_LAST_BA_MAX_BAND, hHQ_core->last_bitalloc_max_band[i], 1 ); + push_indice( st_fx->hBstr, IND_HQ2_LAST_BA_MAX_BAND, hHQ_core->last_bitalloc_max_band[i], 1 ); } } ELSE IF( is_transient_fx == 0 && EQ_16( inner_frame_fx, L_FRAME16k ) ) @@ -971,7 +970,7 @@ void hq_lr_enc_fx( /* encode the last p2a_bands-1 subbands bit-allocation index of the previous frame */ FOR( i = 0; i < 2; i++ ) { - push_indice_fx( st_fx->hBstr, IND_HQ2_LAST_BA_MAX_BAND, hHQ_core->last_bitalloc_max_band[i], 1 ); + push_indice( st_fx->hBstr, IND_HQ2_LAST_BA_MAX_BAND, hHQ_core->last_bitalloc_max_band[i], 1 ); } } ELSE IF( EQ_16( st_fx->bwidth, SWB ) && EQ_16( hqswb_clas_fx, HQ_HARMONIC ) && ( EQ_32( L_bwe_br, HQ_16k40 ) || EQ_32( L_bwe_br, HQ_13k20 ) ) ) @@ -2214,7 +2213,7 @@ static Word16 small_symbol_enc_fx( /* o : bits /* Encoding LSB bit packing */ FOR( i = 0; i < BANDS; ++i ) { - push_indice_fx( hBstr, IND_HQ2_DIFF_ENERGY, LSB[i], BITS_DE_LSB ); + push_indice( hBstr, IND_HQ2_DIFF_ENERGY, LSB[i], BITS_DE_LSB ); } } @@ -2527,74 +2526,74 @@ static Word16 large_symbol_enc_fx( /* o : bits /* Encoding MSB bits */ IF( *hLCmode0 == 0 ) { - push_indice_fx( hBstr, IND_HQ2_DENG_8SMODE, 0, BITS_DE_8SMODE ); + push_indice( hBstr, IND_HQ2_DENG_8SMODE, 0, BITS_DE_8SMODE ); bits = BITS_DE_8SMODE; move16(); IF( cnt_outlyer0 == 0 ) { - push_indice_fx( hBstr, IND_HQ2_DENG_8SMODE_N0, 0, BITS_DE_8SMODE_N0 ); + push_indice( hBstr, IND_HQ2_DENG_8SMODE_N0, 0, BITS_DE_8SMODE_N0 ); bits = add( bits, BITS_DE_8SMODE_N0 ); IF( EQ_16( cnt_outlyer, 1 ) ) { /* 01 */ - push_indice_fx( hBstr, IND_HQ2_DENG_8SMODE_N1, 1, BITS_DE_8SMODE_N1 ); + push_indice( hBstr, IND_HQ2_DENG_8SMODE_N1, 1, BITS_DE_8SMODE_N1 ); bits = add( bits, BITS_DE_8SMODE_N1 ); /* Q0 */ - push_indice_fx( hBstr, IND_HQ2_DENG_8SPOS, pos_outlyer, BITS_DE_8SPOS ); + push_indice( hBstr, IND_HQ2_DENG_8SPOS, pos_outlyer, BITS_DE_8SPOS ); bits = add( bits, BITS_DE_8SPOS ); - push_indice_fx( hBstr, IND_HQ2_DIFF_ENERGY, qbidx[pos_outlyer] + ABS_ENG_OFFSET, BITS_ABS_ENG ); + push_indice( hBstr, IND_HQ2_DIFF_ENERGY, qbidx[pos_outlyer] + ABS_ENG_OFFSET, BITS_ABS_ENG ); bits = add( bits, BITS_ABS_ENG ); } ELSE { /* 00 */ - push_indice_fx( hBstr, IND_HQ2_DENG_8SMODE_N1, 0, BITS_DE_8SMODE_N1 ); + push_indice( hBstr, IND_HQ2_DENG_8SMODE_N1, 0, BITS_DE_8SMODE_N1 ); bits = add( bits, BITS_DE_8SMODE_N1 ); /* Q0 */ } FOR( i = 0; i < pos_outlyer; ++i ) { - push_indice_fx( hBstr, IND_HQ2_DIFF_ENERGY, hescode[tdifidx0[i] + 4], hessize[tdifidx0[i] + 4] ); + push_indice( hBstr, IND_HQ2_DIFF_ENERGY, hescode[tdifidx0[i] + 4], hessize[tdifidx0[i] + 4] ); bitsmode0 = add( bitsmode0, hessize[tdifidx0[i] + 4] ); /* Q0 */ } FOR( i = ( pos_outlyer + 1 ); i < BANDS; ++i ) { - push_indice_fx( hBstr, IND_HQ2_DIFF_ENERGY, hescode[tdifidx0[i] + 4], hessize[tdifidx0[i] + 4] ); + push_indice( hBstr, IND_HQ2_DIFF_ENERGY, hescode[tdifidx0[i] + 4], hessize[tdifidx0[i] + 4] ); bitsmode0 = add( bitsmode0, hessize[tdifidx0[i] + 4] ); /* Q0 */ } } ELSE IF( EQ_16( cnt_outlyer0, 1 ) ) { - push_indice_fx( hBstr, IND_HQ2_DENG_8SMODE_N0, 1, BITS_DE_8SMODE_N0 ); + push_indice( hBstr, IND_HQ2_DENG_8SMODE_N0, 1, BITS_DE_8SMODE_N0 ); bits = add( bits, BITS_DE_8SMODE_N0 ); IF( EQ_16( cnt_outlyer, 1 ) ) { - push_indice_fx( hBstr, IND_HQ2_DENG_8SMODE_N1, 1, BITS_DE_8SMODE_N1 ); + push_indice( hBstr, IND_HQ2_DENG_8SMODE_N1, 1, BITS_DE_8SMODE_N1 ); bits = add( bits, BITS_DE_8SMODE_N1 ); /* Q0 */ - push_indice_fx( hBstr, IND_HQ2_DENG_8SPOS, pos_outlyer, BITS_DE_8SPOS ); + push_indice( hBstr, IND_HQ2_DENG_8SPOS, pos_outlyer, BITS_DE_8SPOS ); bits = add( bits, BITS_DE_8SPOS ); - push_indice_fx( hBstr, IND_HQ2_DIFF_ENERGY, qbidx[0] + ABS_ENG_OFFSET, BITS_ABS_ENG ); + push_indice( hBstr, IND_HQ2_DIFF_ENERGY, qbidx[0] + ABS_ENG_OFFSET, BITS_ABS_ENG ); bits = add( bits, BITS_ABS_ENG ); - push_indice_fx( hBstr, IND_HQ2_DIFF_ENERGY, qbidx[pos_outlyer] + ABS_ENG_OFFSET, BITS_ABS_ENG ); + push_indice( hBstr, IND_HQ2_DIFF_ENERGY, qbidx[pos_outlyer] + ABS_ENG_OFFSET, BITS_ABS_ENG ); bits = add( bits, BITS_ABS_ENG ); } ELSE { - push_indice_fx( hBstr, IND_HQ2_DENG_8SMODE_N1, 0, BITS_DE_8SMODE_N1 ); + push_indice( hBstr, IND_HQ2_DENG_8SMODE_N1, 0, BITS_DE_8SMODE_N1 ); bits = add( bits, BITS_DE_8SMODE_N1 ); /* Q0 */ - push_indice_fx( hBstr, IND_HQ2_DIFF_ENERGY, qbidx[0] + ABS_ENG_OFFSET, BITS_ABS_ENG ); + push_indice( hBstr, IND_HQ2_DIFF_ENERGY, qbidx[0] + ABS_ENG_OFFSET, BITS_ABS_ENG ); bits = add( bits, BITS_ABS_ENG ); /* Q0 */ } FOR( i = 1; i < pos_outlyer; ++i ) { - push_indice_fx( hBstr, IND_HQ2_DIFF_ENERGY, hescode[tdifidx0[i] + 4], hessize[tdifidx0[i] + 4] ); + push_indice( hBstr, IND_HQ2_DIFF_ENERGY, hescode[tdifidx0[i] + 4], hessize[tdifidx0[i] + 4] ); bits = add( bits, hessize[tdifidx0[i] + 4] ); /* Q0 */ } FOR( i = pos_outlyer + 1; i < BANDS; ++i ) { - push_indice_fx( hBstr, IND_HQ2_DIFF_ENERGY, hescode[tdifidx0[i] + 4], hessize[tdifidx0[i] + 4] ); + push_indice( hBstr, IND_HQ2_DIFF_ENERGY, hescode[tdifidx0[i] + 4], hessize[tdifidx0[i] + 4] ); bits = add( bits, hessize[tdifidx0[i] + 4] ); /* Q0 */ } } @@ -2602,12 +2601,12 @@ static Word16 large_symbol_enc_fx( /* o : bits ELSE { bits = add( BITS_DE_8SMODE, BITS_MAX_DEPTH ); /* Q0 */ - push_indice_fx( hBstr, IND_HQ2_DENG_8SMODE, 1, BITS_DE_8SMODE ); - push_indice_fx( hBstr, IND_HQ2_DENG_8SDEPTH, lsbdepth1, BITS_MAX_DEPTH ); + push_indice( hBstr, IND_HQ2_DENG_8SMODE, 1, BITS_DE_8SMODE ); + push_indice( hBstr, IND_HQ2_DENG_8SDEPTH, lsbdepth1, BITS_MAX_DEPTH ); FOR( i = 0; i < BANDS; ++i ) { - push_indice_fx( hBstr, IND_HQ2_DIFF_ENERGY, hescode[tdifidx1[i] + 4], hessize[tdifidx1[i] + 4] ); + push_indice( hBstr, IND_HQ2_DIFF_ENERGY, hescode[tdifidx1[i] + 4], hessize[tdifidx1[i] + 4] ); bits = add( bits, hessize[tdifidx1[i] + 4] ); /* Q0 */ } @@ -2615,7 +2614,7 @@ static Word16 large_symbol_enc_fx( /* o : bits { FOR( i = 0; i < BANDS; ++i ) { - push_indice_fx( hBstr, IND_HQ2_DIFF_ENERGY, LSB1[i], lsbdepth1 ); + push_indice( hBstr, IND_HQ2_DIFF_ENERGY, LSB1[i], lsbdepth1 ); } /*bits += BANDS * lsbdepth1; */ bits = add( bits, extract_h( L_shl( L_mult( BANDS, lsbdepth1 ), 15 ) ) ); /* Q0 */ @@ -3116,7 +3115,7 @@ static Word16 band_energy_quant_fx( { deng_cmode = 0; move16(); - push_indice_fx( hBstr, IND_HQ2_DENG_MODE, deng_cmode, BITS_DE_CMODE ); + push_indice( hBstr, IND_HQ2_DENG_MODE, deng_cmode, BITS_DE_CMODE ); large_symbol_enc_fx( hBstr, bq2_fx, bands_fx, &hLCmode0, 1 ); deng_bits = add( ebits, BITS_DE_CMODE ); /* Q0 */ } @@ -3125,7 +3124,7 @@ static Word16 band_energy_quant_fx( /* setting energy difference coding mode and storing it */ deng_cmode = 1; move16(); - push_indice_fx( hBstr, IND_HQ2_DENG_MODE, deng_cmode, BITS_DE_CMODE ); + push_indice( hBstr, IND_HQ2_DENG_MODE, deng_cmode, BITS_DE_CMODE ); deng_bits = add( hbits, BITS_DE_CMODE ); /* Q0 */ @@ -3480,7 +3479,7 @@ static Word16 p2a_threshold_quant_fx( move16(); } - push_indice_fx( hBstr, IND_HQ2_P2A_FLAGS, p2a_flags_fx[k], 1 ); + push_indice( hBstr, IND_HQ2_P2A_FLAGS, p2a_flags_fx[k], 1 ); j = add( j, 1 ); } @@ -3769,7 +3768,7 @@ static void mdct_spectrum_fine_gain_enc_fx( move16(); } - push_indice_fx( st_fx->hBstr, IND_HQ2_SUBBAND_GAIN, imin_fx, gqbits ); + push_indice( st_fx->hBstr, IND_HQ2_SUBBAND_GAIN, imin_fx, gqbits ); } return; diff --git a/lib_enc/hvq_enc.c b/lib_enc/hvq_enc.c deleted file mode 100644 index adf7751a1b5347c65c7374476238c351033e19bd..0000000000000000000000000000000000000000 --- a/lib_enc/hvq_enc.c +++ /dev/null @@ -1,44 +0,0 @@ -/****************************************************************************************************** - - (C) 2022-2025 IVAS codec Public Collaboration with portions copyright Dolby International AB, Ericsson AB, - Fraunhofer-Gesellschaft zur Foerderung der angewandten Forschung e.V., Huawei Technologies Co. LTD., - Koninklijke Philips N.V., Nippon Telegraph and Telephone Corporation, Nokia Technologies Oy, Orange, - Panasonic Holdings Corporation, Qualcomm Technologies, Inc., VoiceAge Corporation, and other - contributors to this repository. All Rights Reserved. - - This software is protected by copyright law and by international treaties. - The IVAS codec Public Collaboration consisting of Dolby International AB, Ericsson AB, - Fraunhofer-Gesellschaft zur Foerderung der angewandten Forschung e.V., Huawei Technologies Co. LTD., - Koninklijke Philips N.V., Nippon Telegraph and Telephone Corporation, Nokia Technologies Oy, Orange, - Panasonic Holdings Corporation, Qualcomm Technologies, Inc., VoiceAge Corporation, and other - contributors to this repository retain full ownership rights in their respective contributions in - the software. This notice grants no license of any kind, including but not limited to patent - license, nor is any license granted by implication, estoppel or otherwise. - - Contributors are required to enter into the IVAS codec Public Collaboration agreement before making - contributions. - - This software is provided "AS IS", without any express or implied warranties. The software is in the - development stage. It is intended exclusively for experts who have experience with such software and - solely for the purpose of inspection. All implied warranties of non-infringement, merchantability - and fitness for a particular purpose are hereby disclaimed and excluded. - - Any dispute, controversy or claim arising under or in relation to providing this software shall be - submitted to and settled by the final, binding jurisdiction of the courts of Munich, Germany in - accordance with the laws of the Federal Republic of Germany excluding its conflict of law rules and - the United Nations Convention on Contracts on the International Sales of Goods. - -*******************************************************************************************************/ - -/*==================================================================================== - EVS Codec 3GPP TS26.443 Nov 04, 2021. Version 12.14.0 / 13.10.0 / 14.6.0 / 15.4.0 / 16.3.0 - ====================================================================================*/ - -#include -#include "options.h" -#include -#include "cnst.h" -#include "prot.h" -#include "rom_enc.h" -#include "rom_com.h" -#include "wmc_auto.h" diff --git a/lib_enc/hvq_enc_fx.c b/lib_enc/hvq_enc_fx.c index 54bc4fb5822896ff14f9e077477c4dd20dbb0f25..a0acd0bfd63e5b6c69141b353503c9ee3a8f162f 100644 --- a/lib_enc/hvq_enc_fx.c +++ b/lib_enc/hvq_enc_fx.c @@ -8,7 +8,6 @@ //#include "prot_fx.h" #include "rom_com.h" #include "prot_fx.h" /* Function prototypes */ -#include "prot.h" /* Function prototypes */ #include "prot_fx_enc.h" /* Function prototypes */ #define HVQ_ENC_NOISE_DELTA ( (Word16) 3277 ) /* 0.1 in Q15 */ @@ -336,7 +335,7 @@ Word16 hvq_enc_fx( /*o : Consumed bits q_noise_level[i] = 0; move16(); } - push_indice_fx( st_fx->hBstr, IND_HVQ_BWE_NL, q_noise_level_idx[i], 2 ); + push_indice( st_fx->hBstr, IND_HVQ_BWE_NL, q_noise_level_idx[i], 2 ); bits_used = add( bits_used, 2 ); noise_level[i] = q_noise_level[i]; /* in Q15 */ diff --git a/lib_enc/igf_enc.c b/lib_enc/igf_enc.c index 6ac6e6811deae2f655bc98fbbd6b9748b19c774f..bfb4a7423ed63994a1b9dc655feb3880858bd88f 100644 --- a/lib_enc/igf_enc.c +++ b/lib_enc/igf_enc.c @@ -38,13 +38,11 @@ #include #include "options.h" #include -#include "prot.h" -#include "ivas_prot.h" +#include "prot_fx.h" #include "cnst.h" #include "stat_enc.h" #include "wmc_auto.h" #include "prot_fx_enc.h" -#include "prot_fx.h" #define INV_Log2_10_Q15 9864 /*1/log2(10) in Q15*/ @@ -718,13 +716,8 @@ static void IGF_CalculateEnvelope_ivas_fx( Word32 mean_y_fx_tmp = 0; move32(); mean_xy_fx = mean_x2_fx = 0; -#ifdef FIX_ISSUE_1214 mean_x_e = 15; mean_xy_e = mean_y_e = mean_x2_e = 31; -#else - mean_x_e = mean_y_e = 15; - mean_xy_e = mean_x2_e = 31; -#endif move16(); move16(); move16(); @@ -740,21 +733,12 @@ static void IGF_CalculateEnvelope_ivas_fx( mean_x_fx = add( mean_x_fx, x ); /*Q0*/ mean_x2_fx = L_add( mean_x2_fx, L_mult0( x, x ) ); /*Q0*/ -#ifdef FIX_ISSUE_1214 /*y = 20.f * log10f( max( 1.f, powerSpectrum[i] ) );*/ IF( LE_64( W_deposit32_l( pPowerSpectrum_fx[sb] ), W_shl( 1, ( sub( 31, e_ps[sb] ) ) ) ) ) { y = 0; move16(); } -#else - - /*y = 20 * (int16_t) log10f( max( 1e-018f, pPowerSpectrum[sb] ) );*/ - IF( LT_32( pPowerSpectrum_fx[sb], 1 ) ) - { - y = imult1616( 20, ( -18 /* log10f(1e-018f) */ ) ); - } -#endif ELSE { y = imult1616( 20, extract_l( L_shr( Mult_32_16( ( L_add( BASOP_Util_Log2( pPowerSpectrum_fx[sb] ), L_shl( e_ps[sb], Q25 ) ) ), INV_Log2_10_Q15 ), Q25 ) ) ); /*Q0*/ @@ -1260,21 +1244,12 @@ static void IGF_CalculateStereoEnvelope_fx( move16(); } } -#ifdef FIX_ISSUE_1214 tmp_tb_fx = shr_sat( tmp_tb_fx, sub( 2, tmp_tb_e ) ); /* Since we're limiting max value to 2.7f we can saturate to Q13 */ tmp_sb_fx = shr_sat( tmp_sb_fx, sub( 2, tmp_sb_e ) ); /* Since we're limiting max value to 2.7f we can saturate to Q13 */ hPrivateData->SFM_tb_fx[sfb] = add_sat( tmp_tb_fx, add_sat( shr( hPrivateData->prevSFM_FIR_SFB_TB_fx[sfb], sub( 2, hPrivateData->prevSFB_FIR_TB_e[sfb] ) ), shr( hPrivateData->prevSFM_IIR_SFB_TB_fx[sfb], sub( 3, hPrivateData->prevSFB_IIR_TB_e[sfb] ) ) ) ); /* Since we're limiting max value to 2.7f we can saturate to Q13 */ hPrivateData->SFM_tb_fx[sfb] = s_min( 22118 /*2.7f Q13*/, hPrivateData->SFM_tb_fx[sfb] ); /* resultant exponent stored in hPrivateData->sfb_sb_e[sfb]*/ hPrivateData->SFM_sb_fx[sfb] = add_sat( tmp_sb_fx, add_sat( shr( hPrivateData->prevSFM_FIR_SFB_SB_fx[sfb], sub( 2, hPrivateData->prevSFB_FIR_SB_e[sfb] ) ), shr( hPrivateData->prevSFM_IIR_SFB_SB_fx[sfb], sub( 3, hPrivateData->prevSFB_IIR_SB_e[sfb] ) ) ) ); /* Since we're limiting max value to 2.7f we can saturate to Q13 */ hPrivateData->SFM_sb_fx[sfb] = s_min( 22118 /*2.7f Q13*/, hPrivateData->SFM_sb_fx[sfb] ); /*resultant exponent stores in hPrivateData->sfb_tb_e[sfb]*/ -#else - tmp_tb_fx = shl_sat( tmp_tb_fx, sub( 2, tmp_tb_e ) ); /* Since we're limiting max value to 2.7f we can saturate to Q13 */ - tmp_sb_fx = shl_sat( tmp_sb_fx, sub( 2, tmp_sb_e ) ); /* Since we're limiting max value to 2.7f we can saturate to Q13 */ - hPrivateData->SFM_tb_fx[sfb] = add_sat( tmp_tb_fx, add_sat( shr( hPrivateData->prevSFM_FIR_SFB_TB_fx[sfb], sub( 2, tmp_tb_e ) ), shr( hPrivateData->prevSFM_IIR_SFB_TB_fx[sfb], sub( 3, tmp_tb_e ) ) ) ); /* Since we're limiting max value to 2.7f we can saturate to Q13 */ - hPrivateData->SFM_tb_fx[sfb] = s_min( 22118 /*2.7f Q13*/, hPrivateData->SFM_tb_fx[sfb] ); /* resultant exponent stored in hPrivateData->sfb_sb_e[sfb]*/ - hPrivateData->SFM_sb_fx[sfb] = add_sat( tmp_sb_fx, add_sat( shr( hPrivateData->prevSFM_FIR_SFB_SB_fx[sfb], sub( 2, tmp_sb_e ) ), shr( hPrivateData->prevSFM_IIR_SFB_SB_fx[sfb], sub( 3, tmp_sb_e ) ) ) ); /* Since we're limiting max value to 2.7f we can saturate to Q13 */ - hPrivateData->SFM_sb_fx[sfb] = s_min( 22118 /*2.7f Q13*/, hPrivateData->SFM_sb_fx[sfb] ); /*resultant exponent stores in hPrivateData->sfb_tb_e[sfb]*/ -#endif move16(); move16(); move16(); @@ -2454,7 +2429,7 @@ void IGFEncSetMode_ivas_fx( * * IGF bitstream concatenation for TCX10 modes *-------------------------------------------------------------------*/ - +#ifndef HARM_PUSH_BIT /* Float code */ void IGFEncConcatenateBitstream( const IGF_ENC_INSTANCE_HANDLE hIGFEnc, /* i : instance handle of IGF Encoder */ const Word16 bsBits, /* i : number of IGF bits written to list of indices */ @@ -2512,7 +2487,7 @@ move16(); return; } - +#endif /*-------------------------------------------------------------------* * IGFEncResetTCX10BitCounter_ivas_fx() @@ -2535,41 +2510,6 @@ void IGFEncResetTCX10BitCounter_ivas_fx( } -/*-------------------------------------------------------------------* - * IGFEncWriteConcatenatedBitstream() - * - * - *-------------------------------------------------------------------*/ - -/*! r: total number of bits written */ -Word16 IGFEncWriteConcatenatedBitstream( - const IGF_ENC_INSTANCE_HANDLE hIGFEnc, /* i : instance handle of IGF Encoder */ - BSTR_ENC_HANDLE hBstr /* i/o: encoder bitstream handle */ -) -{ - IGF_ENC_PRIVATE_DATA_HANDLE hPrivateData; - Word16 i; - Word16 bitsLeft; - UWord8 *pBitstream; - - hPrivateData = &hIGFEnc->igfData; - pBitstream = hPrivateData->igfBitstream; - - for ( i = 0; i < ( hPrivateData->igfBitstreamBits >> 3 ); i++ ) - { - push_next_indice( hBstr, pBitstream[i], 8 ); - } - - bitsLeft = hPrivateData->igfBitstreamBits & 0x7; - if ( bitsLeft > 0 ) - { - push_next_indice( hBstr, shr( pBitstream[i], sub( 8, bitsLeft ) ), bitsLeft ); - } - - return hIGFEnc->infoTotalBitsWritten; -} - - /*-------------------------------------------------------------------* * IGFEncApplyMono() * @@ -2577,10 +2517,8 @@ Word16 IGFEncWriteConcatenatedBitstream( *-------------------------------------------------------------------*/ void IGFEncApplyMono_ivas_fx( - Encoder_State *st, /* i : Encoder state */ -#ifdef MSAN_FIX - Word16 powerSpectrum_len, /* i: length of pPowerSpectrum_fx buffer */ -#endif + Encoder_State *st, /* i : Encoder state */ + Word16 powerSpectrum_len, /* i: length of pPowerSpectrum_fx buffer */ const Word16 igfGridIdx, /* i : IGF grid index */ Word32 *pMDCTSpectrum_fx, /* i/o: MDCT spectrum */ Word16 e_mdct, /* i : exponent of pMDCTspectrum */ @@ -2600,9 +2538,7 @@ void IGFEncApplyMono_ivas_fx( Word32 common_pPowerSpectrum_fx[N_MAX + L_MDCT_OVLP_MAX]; -#ifdef MSAN_FIX set32_fx( common_pPowerSpectrum_fx, 0, N_MAX + L_MDCT_OVLP_MAX ); -#endif Word16 common_pPowerSpectrum_exp = MIN16B; move16(); @@ -2661,20 +2597,12 @@ void IGFEncApplyMono_ivas_fx( IF( pPowerSpectrumParameter_fx ) { -#ifndef MSAN_FIX - FOR( Word16 i = 0; i < N_MAX + L_MDCT_OVLP_MAX; i++ ) -#else FOR( Word16 i = 0; i < powerSpectrum_len; i++ ) -#endif { common_pPowerSpectrum_exp = s_max( common_pPowerSpectrum_exp, pPowerSpectrumParameter_exp[i] ); } -#ifndef MSAN_FIX - FOR( Word16 i = 0; i < N_MAX + L_MDCT_OVLP_MAX; i++ ) -#else FOR( Word16 i = 0; i < powerSpectrum_len; i++ ) -#endif { common_pPowerSpectrum_fx[i] = L_shl( pPowerSpectrumParameter_fx[i], sub( pPowerSpectrumParameter_exp[i], common_pPowerSpectrum_exp ) ); move16(); @@ -2698,8 +2626,11 @@ void IGFEncApplyStereo_fx( const Word16 igfGridIdx, /* i : IGF grid index */ Encoder_State *sts[CPE_CHANNELS], /* i : Encoder state */ Word32 *pPowerSpectrum_fx[CPE_CHANNELS], /* i/o: MDCT^2 + MDST^2 spectrum, or estimate */ + Word16 exp_pPowerSpectrum_fx[CPE_CHANNELS], /* i/o: exp of pPowerSpectrum_fx */ Word32 *pPowerSpectrumMsInv_fx[CPE_CHANNELS][NB_DIV], /* i/o: inverse power spectrum */ + Word16 exp_pPowerSpectrumMsInv_fx[CPE_CHANNELS], /* i/o: exp of pPowerSpectrumMsInv_fx */ Word32 *inv_spectrum_fx[CPE_CHANNELS][NB_DIV], /* i : inverse spectrum */ + Word16 exp_inv_spectrum_fx[CPE_CHANNELS], /* i : exp of inverse spectrum */ const Word16 frameno, /* i : flag indicating index of current subfr. */ const Word16 sp_aud_decision0, /* i : sp_aud_decision0 */ const Word32 element_brate, /* i : element bitrate */ @@ -2763,7 +2694,9 @@ void IGFEncApplyStereo_fx( last_core_acelp = extract_l( EQ_16( sts[ch]->last_core, ACELP_CORE ) ); IGF_UpdateInfo( hIGFEnc[ch], igfGridIdx ); - IGF_CalculateStereoEnvelope_fx( hIGFEnc[ch], sts[ch]->hTcxEnc->spectrum_fx[frameno], sts[ch]->hTcxEnc->spectrum_e[frameno], inv_spectrum_fx[ch][frameno], sts[ch]->hTcxEnc->spectrum_e[frameno], pPowerSpectrumParameter_fx[ch], sts[ch]->hTcxEnc->spectrum_e[frameno], pPowerSpectrumParameterMsInv_fx[ch], sts[ch]->hTcxEnc->spectrum_e[frameno], igfGridIdx, coreMsMask, sts[ch]->hTranDet->transientDetector.bIsAttackPresent, last_core_acelp ); + IGF_CalculateStereoEnvelope_fx( hIGFEnc[ch], sts[ch]->hTcxEnc->spectrum_fx[frameno], sts[ch]->hTcxEnc->spectrum_e[frameno], inv_spectrum_fx[ch][frameno], + exp_inv_spectrum_fx[ch], pPowerSpectrumParameter_fx[ch], exp_pPowerSpectrum_fx[ch], pPowerSpectrumParameterMsInv_fx[ch], + exp_pPowerSpectrumMsInv_fx[ch], igfGridIdx, coreMsMask, sts[ch]->hTranDet->transientDetector.bIsAttackPresent, last_core_acelp ); IF( EQ_16( sts[ch]->core, TCX_20_CORE ) ) { @@ -2774,11 +2707,11 @@ void IGFEncApplyStereo_fx( pPowerSpectrumParameter_fx[ch] = NULL; } - set16_fx( exp_pPowerSpectrum, sts[ch]->hTcxEnc->spectrum_e[frameno], L_FRAME48k ); + set16_fx( exp_pPowerSpectrum, exp_pPowerSpectrum_fx[ch], L_FRAME48k ); IGF_Whitening_ivas_fx( hIGFEnc[ch], pPowerSpectrumParameter_fx[ch], &exp_pPowerSpectrum[0], igfGridIdx, sts[ch]->hTranDet->transientDetector.bIsAttackPresent, last_core_acelp, ( sts[0]->hTcxEnc->fUseTns[frameno] || sts[1]->hTcxEnc->fUseTns[frameno] ), sp_aud_decision0, element_brate, sts[ch]->element_mode ); - IGF_ErodeSpectrum_ivas_fx( hIGFEnc[ch], sts[ch]->hTcxEnc->spectrum_fx[frameno], pPowerSpectrumParameter_fx[ch], sts[ch]->hTcxEnc->spectrum_e[frameno], igfGridIdx, mct_on ); + IGF_ErodeSpectrum_ivas_fx( hIGFEnc[ch], sts[ch]->hTcxEnc->spectrum_fx[frameno], pPowerSpectrumParameter_fx[ch], exp_pPowerSpectrum_fx[ch], igfGridIdx, mct_on ); } return; } diff --git a/lib_enc/igf_enc_fx.c b/lib_enc/igf_enc_fx.c index ca1759c89aa6215136f84a024d11028930f4fd0e..f508b313f61988d03b1f5682a0b01de6d276c3ad 100644 --- a/lib_enc/igf_enc_fx.c +++ b/lib_enc/igf_enc_fx.c @@ -8,8 +8,7 @@ #include "options.h" #include "cnst.h" #include "stl.h" -#include "prot.h" -#include "prot_fx.h" /* Function prototypes */ +#include "prot_fx.h" #include "prot_fx_enc.h" /* Function prototypes */ #include "stat_enc.h" #include "basop_util.h" @@ -1450,7 +1449,7 @@ hBstr->nb_bits_tot = sub( hBstr->nb_bits_tot, nb_bits_written ); return; } - +#ifndef HARM_PUSH_BIT /* old bitstream */ /**********************************************************************/ /* IGF bitsream concatenation for TCX10 modes **************************************************************************/ @@ -1476,7 +1475,7 @@ void IGFEncConcatenateBitstream_fx( const IGF_ENC_INSTANCE_HANDLE hInstance, /** move16(); return; } - +#endif /**********************************************************************/ /* IGF reset bitsream bit counter for TCX10 modes **************************************************************************/ @@ -1514,13 +1513,13 @@ Word16 IGFEncWriteConcatenatedBitstream_fx( tmp = shr( hPrivateData->igfBitstreamBits, 3 ); FOR( i = 0; i < tmp; i++ ) { - push_next_indice_fx( hBstr, pBitstream[i], 8 ); + push_next_indice( hBstr, pBitstream[i], 8 ); } bitsLeft = s_and( hPrivateData->igfBitstreamBits, 0x7 ); IF( bitsLeft > 0 ) { - push_next_indice_fx( hBstr, shr( pBitstream[i], sub( 8, bitsLeft ) ), bitsLeft ); + push_next_indice( hBstr, shr( pBitstream[i], sub( 8, bitsLeft ) ), bitsLeft ); } return hInstance->infoTotalBitsWritten; diff --git a/lib_enc/igf_scf_enc.c b/lib_enc/igf_scf_enc.c index 192d7e5974001d4c56872bcdd6620c6e499a7599..2921b58866c86fab78dcf3af0061fa68559cd4ec 100644 --- a/lib_enc/igf_scf_enc.c +++ b/lib_enc/igf_scf_enc.c @@ -36,12 +36,11 @@ #include #include "options.h" -#include "prot.h" +#include "prot_fx.h" #include "stat_enc.h" #include "stat_com.h" #include "cnst.h" #include "wmc_auto.h" -#include "prot_fx.h" #include "prot_fx_enc.h" diff --git a/lib_enc/igf_scf_enc_fx.c b/lib_enc/igf_scf_enc_fx.c index 8659d53a166cb2a6f155bb85c4f3025c780424a7..ed52349dc034d32523fcd2cc412d5f27b2da50aa 100644 --- a/lib_enc/igf_scf_enc_fx.c +++ b/lib_enc/igf_scf_enc_fx.c @@ -358,7 +358,7 @@ Word16 IGFSCFEncoderEncode_fx( { FOR( i = 0; i < hPublicData->ptrBitIndex; ++i ) { - push_next_indice_fx( hBstr, ptr[i], 1 ); + push_next_indice( hBstr, ptr[i], 1 ); } } diff --git a/lib_enc/init_enc.c b/lib_enc/init_enc.c deleted file mode 100644 index 8448843dca4f5edefa325abc65c93e5c1885a86b..0000000000000000000000000000000000000000 --- a/lib_enc/init_enc.c +++ /dev/null @@ -1,1215 +0,0 @@ -/****************************************************************************************************** - - (C) 2022-2025 IVAS codec Public Collaboration with portions copyright Dolby International AB, Ericsson AB, - Fraunhofer-Gesellschaft zur Foerderung der angewandten Forschung e.V., Huawei Technologies Co. LTD., - Koninklijke Philips N.V., Nippon Telegraph and Telephone Corporation, Nokia Technologies Oy, Orange, - Panasonic Holdings Corporation, Qualcomm Technologies, Inc., VoiceAge Corporation, and other - contributors to this repository. All Rights Reserved. - - This software is protected by copyright law and by international treaties. - The IVAS codec Public Collaboration consisting of Dolby International AB, Ericsson AB, - Fraunhofer-Gesellschaft zur Foerderung der angewandten Forschung e.V., Huawei Technologies Co. LTD., - Koninklijke Philips N.V., Nippon Telegraph and Telephone Corporation, Nokia Technologies Oy, Orange, - Panasonic Holdings Corporation, Qualcomm Technologies, Inc., VoiceAge Corporation, and other - contributors to this repository retain full ownership rights in their respective contributions in - the software. This notice grants no license of any kind, including but not limited to patent - license, nor is any license granted by implication, estoppel or otherwise. - - Contributors are required to enter into the IVAS codec Public Collaboration agreement before making - contributions. - - This software is provided "AS IS", without any express or implied warranties. The software is in the - development stage. It is intended exclusively for experts who have experience with such software and - solely for the purpose of inspection. All implied warranties of non-infringement, merchantability - and fitness for a particular purpose are hereby disclaimed and excluded. - - Any dispute, controversy or claim arising under or in relation to providing this software shall be - submitted to and settled by the final, binding jurisdiction of the courts of Munich, Germany in - accordance with the laws of the Federal Republic of Germany excluding its conflict of law rules and - the United Nations Convention on Contracts on the International Sales of Goods. - -*******************************************************************************************************/ - -/*==================================================================================== - EVS Codec 3GPP TS26.443 Nov 04, 2021. Version 12.14.0 / 13.10.0 / 14.6.0 / 15.4.0 / 16.3.0 - ====================================================================================*/ - -#include -#include "options.h" -#include "cnst.h" -#include "rom_com.h" -#include "rom_enc.h" -#include "prot.h" -#include "ivas_prot.h" -#include "prot_fx.h" -#include "ivas_cnst.h" -#include "wmc_auto.h" -#include "ivas_prot_fx.h" -#include "prot_fx_enc.h" -ivas_error init_encoder_ivas_fx( - Encoder_State *st, /* i/o: state structure */ - Encoder_Struct *st_ivas, /* i/o: encoder state structure */ - const Word16 idchan, /* i : channel ID */ - const Word16 var_SID_rate_flag, /* i : flag for variable SID update rate */ - const Word16 interval_SID, /* i : interval for SID update */ - const Word16 vad_only_flag, /* i : flag to indicate front-VAD structure */ - const ISM_MODE ism_mode, /* i : ISM mode */ - const Word32 element_brate /* i : element bitrate */ -) -{ - Word16 i; - ivas_error error; - Word32 igf_brate; - - error = IVAS_ERR_OK; - move32(); - - /*-----------------------------------------------------------------* - * General parameters - *-----------------------------------------------------------------*/ - - IF( st->Opt_AMR_WB ) - { - st->last_core = AMR_WB_CORE; - } - ELSE - { - st->last_core = -1; - } - move16(); - - st->L_frame = L_FRAME; - move16(); - st->last_coder_type = GENERIC; - move16(); - st->coder_type = GENERIC; - move16(); - st->last_total_brate = st->total_brate; - move32(); - st->last_bits_frame_nominal = -1; - move16(); - st->last_total_brate_cng = -1; - move16(); - st->last_core_brate = st->total_brate; - move32(); - st->dtx_sce_sba = 0; - move16(); - st->extl = -1; - move16(); - st->last_extl = -1; - move16(); - st->last_L_frame = L_FRAME; - move16(); - st->rate_switching_reset = 0; - move16(); - st->rate_switching_reset_16kHz = 0; - move16(); - st->clas = UNVOICED_CLAS; - move16(); - st->low_rate_mode = 0; - move16(); - st->ini_frame = 0; - move16(); - st->inactive_coder_type_flag = 0; - move16(); - st->sba_br_sw_while_no_data = 0; - move16(); - - st->coder_type_raw = VOICED; - move16(); - st->last_coder_type_raw = st->coder_type_raw; - move16(); - - st->flag_ACELP16k = set_ACELP_flag_IVAS( st->element_mode, st->total_brate, st->total_brate, idchan, 0, -1, -1 ); - move16(); - - st->is_ism_format = 0; - move16(); - - IF( NE_16( ism_mode, ISM_MODE_NONE ) ) - { - st->is_ism_format = 1; - move16(); - } - - /*-----------------------------------------------------------------* - * Bitstream - *-----------------------------------------------------------------*/ - - IF( !vad_only_flag ) - { - IF( ( st->hBstr = (BSTR_ENC_HANDLE) malloc( sizeof( BSTR_ENC_DATA ) ) ) == NULL ) - { - return ( IVAS_ERROR( IVAS_ERR_FAILED_ALLOC, "Can not allocate memory for Bitstream structure\n" ) ); - } - - /* set pointer to the buffer of indices */ - st->hBstr->ind_list = st_ivas->ind_list; - st->hBstr->ivas_ind_list_zero = &st_ivas->ind_list; - st->hBstr->ivas_max_num_indices = &st_ivas->ivas_max_num_indices; - st->hBstr->nb_ind_tot = 0; - move16(); - st->hBstr->nb_bits_tot = 0; - move16(); - st->hBstr->st_ivas = st_ivas; - } - ELSE - { - st->hBstr = NULL; - } - - /*-----------------------------------------------------------------* - * Pre-processing and ACELP core parameters - *-----------------------------------------------------------------*/ - - Copy( GEWB_Ave_fx, st->mem_AR_fx, M ); - Copy( GEWB_Ave_fx, st->lsfoldbfi0_fx, M ); - Copy( GEWB_Ave_fx, st->lsfoldbfi1_fx, M ); - Copy( GEWB_Ave_fx, st->lsf_adaptive_mean_fx, M ); - - st->next_force_safety_net = 0; - move16(); - - st->pstreaklen = 0; - move16(); - st->streaklimit_fx = MAX_WORD16; - move16(); - set16_fx( st->mem_MA_fx, 0, M ); - - init_gp_clip_fx( st->clip_var_fx ); - pitch_ol_init_fx( &st->old_thres_fx, &st->old_pitch, &st->delta_pit, &st->old_corr_fx ); - set16_fx( st->old_wsp_fx, 0, L_WSP_MEM ); - st->exp_old_wsp = 0; - move16(); - set16_fx( st->old_wsp2_fx, 0, ( L_WSP_MEM - L_INTERPOL ) / OPL_DECIM ); // Needs to change depending on usage. - st->Q_old_wsp2 = 0; - move16(); - - st->mem_preemph_fx = 0; - move16(); - st->mem_preemph16k_fx = 0; - move16(); - st->mem_preemph_enc = 0; - move16(); - st->exp_mem_preemph_enc = 0; - move16(); - -#if 1 // TODO: Float Initializations. To be removed later - st->active_cnt = 0; - move16(); -#endif - - st->pst_mem_deemp_err_fx = 0; - move16(); - st->pst_lp_ener_fx = 0; - move16(); - - /* AVQ pre-quantizer memory */ - st->mem_preemp_preQ_fx = 0; - move16(); - st->mem_deemp_preQ_fx = 0; - move16(); - st->last_nq_preQ = 0; - move16(); - st->last_code_preq = 0; - move16(); - st->use_acelp_preq = 0; - move16(); - st->last_harm_flag_acelp = 0; - move16(); - - /* (Decimated) Weighted Speech Memory */ - st->mem_wsp_enc = 0; - move16(); - st->mem_wsp_fx = 0; - move16(); - st->mem_wsp_q = 0; - move16(); - set16_fx( st->mem_decim2_fx, 0, 3 ); - set32_fx( st->Bin_E_fx, 0, L_FFT ); - st->q_Bin_E = Q31; - move16(); - st->ee_old_fx = 640; /* 10.0f in Q6 */ - move16(); - st->Nb_ACELP_frames = 0; - move16(); - st->audio_frame_cnt = AUDIO_COUNTER_INI; /* Initialization of the audio frame counter mildly into the audio mode */ - move16(); - - /* adaptive lag window memory */ - st->old_pitch_la = 0; - move16(); - - st->prev_Q_new = 0; - move16(); - - IF( EQ_32( st->input_Fs, 8000 ) ) - { - st->min_band = 1; - move16(); - st->max_band = 16; - move16(); - } - ELSE - { - st->min_band = 0; - move16(); - st->max_band = 19; - move16(); - } - - IF( st->Opt_AMR_WB ) - { - Copy( mean_isf_amr_wb_fx, st->lsf_old_fx, M ); - E_LPC_isf_isp_conversion( st->lsf_old_fx, st->lsp_old1_fx, M ); - } - ELSE - { - Copy( GEWB_Ave_fx, st->lsf_old_fx, M ); - lsf2lsp_fx( st->lsf_old_fx, st->lsp_old1_fx, M, INT_FS_12k8 ); - } - - Copy( st->lsf_old_fx, st->lsf_old1_fx, M ); - Copy( st->lsp_old1_fx, st->lsp_old_fx, M ); - Copy( st->lsp_old_fx, st->lsp_old16k_fx, M ); - Copy( st->lsp_old_fx, st->lspold_enc_fx, M ); - - st->stab_fac_fx = 0; - move16(); - - /* Bass post-filter memories - encoder side of MODE2 */ - st->bpf_off = 0; - move16(); - st->pst_mem_deemp_err_fx = 0; - move16(); - st->pst_lp_ener_fx = 0; - move16(); - - /* TC coder type */ - st->tc_cnt = 0; - move16(); - - /* find_uv() parameters */ - st->old_dE1_fx = 0; - move16(); - st->old_ind_deltaMax = 0; - move16(); - set32_fx( st->old_enr_ssf_fx, 0, shl( NB_SSF, 1 ) ); - st->spike_hyst = -1; - move16(); - - /* stereo switching memories */ - st->mem_preemph_DFT_fx = 0; - move16(); - set16_fx( st->inp_12k8_mem_stereo_sw_fx, 0, sub( sub( STEREO_DFT_OVL_12k8, L_MEM_RECALC_12K8 ), L_FILT ) ); - st->mem_preemph16k_DFT_fx = 0; - move16(); - set16_fx( st->inp_16k_mem_stereo_sw_fx, 0, sub( sub( STEREO_DFT_OVL_16k, L_MEM_RECALC_16K ), L_FILT16k ) ); - - st->sharpFlag = 0; - move16(); - - /* Stationary noise UV modification */ - st->ge_sm_fx = L_deposit_l( 640 ); /*Q(GE_SHIFT)*/ - move16(); - st->uv_count = 0; - move16(); - st->act_count = 3; - move16(); - Copy( st->lsp_old_fx, st->lspold_s_fx, M ); - st->noimix_seed = RANDOM_INITSEED; - move16(); - st->min_alpha_fx = 32767; - move16(); - st->exc_pe_fx = 0; - move16(); - st->Q_stat_noise = 15; - move16(); - /* FEC */ - st->last_clas = UNVOICED_CLAS; - move16(); - st->prev_fmerit = 0; - move16(); - st->fmerit_dt = 0; - move16(); - st->Last_pulse_pos = 0; - move16(); - - FOR( i = 0; i < shl( NB_SUBFR16k, 1 ); i++ ) - { - st->old_pitch_buf_fx[i] = L_SUBFR_Q6; - move16(); - } - - /* mode1 core switching */ - st->old_Es_pred_fx = 0; - move16(); - set16_fx( st->old_Aq_12_8_fx + 1, 0, M ); - st->old_Aq_12_8_fx[0] = ONE_IN_Q12; - move16(); - - /* stable short pitch detection */ - st->voicing0_sm_fx = 0; - move16(); - st->voicing_sm_fx = 0; - move16(); - st->LF_EnergyRatio_sm_fx = 1; - move16(); - st->predecision_flag = 0; - move16(); - st->diff_sm_fx = 0; - move32(); - st->energy_sm_fx = 0; - move32(); - - set16_fx( st->pitch, L_SUBFR, 3 ); - set16_fx( st->voicing_fx, 0, 3 ); - - /*-----------------------------------------------------------------* - * General signal buffers - *-----------------------------------------------------------------*/ - - IF( !vad_only_flag ) - { - IF( ( st->hSignalBuf = (SIGNAL_BUFFERS_ENC_HANDLE) malloc( sizeof( SIGNAL_BUFFERS_ENC_DATA ) ) ) == NULL ) - { - return ( IVAS_ERROR( IVAS_ERR_FAILED_ALLOC, "Can not allocate memory for Signal buffers\n" ) ); - } - - st->Bin_E_old_fx = st->hSignalBuf->Bin_E_old_fx; - st->mem_decim_fx = st->hSignalBuf->mem_decim_fx; - st->mem_decim16k_fx = st->hSignalBuf->mem_decim16k_fx; - st->old_inp_12k8_fx = st->hSignalBuf->old_inp_12k8_fx; - st->old_inp_16k_fx = st->hSignalBuf->old_inp_16k_fx; - st->buf_speech_enc_pe = st->hSignalBuf->buf_speech_enc_pe; - st->buf_synth = st->hSignalBuf->buf_synth; - st->buf_speech_enc = st->hSignalBuf->buf_speech_enc; - st->buf_wspeech_enc = st->hSignalBuf->buf_wspeech_enc; - - set32_fx( st->Bin_E_old_fx, 0, L_FFT / 2 ); - st->q_Bin_E_old = Q31; - move16(); - set16_fx( st->hSignalBuf->buf_speech_enc, 0, L_PAST_MAX_32k + L_FRAME32k + L_NEXT_MAX_32k ); - st->exp_buf_speech_enc = 0; - move16(); - set16_fx( st->hSignalBuf->buf_wspeech_enc, 0, L_FRAME16k + L_SUBFR + L_FRAME16k + L_NEXT_MAX_16k + 320 ); - st->exp_buf_wspeech_enc = 0; - move16(); - /* initializations */ -#ifndef MSAN_FIX - set32_fx( st->Bin_E_old_fx, 0, shr( L_FFT, 2 ) ); -#else - set32_fx( st->Bin_E_old_fx, 0, L_FFT / 2 ); -#endif - st->q_Bin_E_old = Q31; - move16(); - set16_fx( st->mem_decim_fx, 0, shl( L_FILT_MAX, 1 ) ); - set16_fx( st->mem_decim16k_fx, 0, shl( L_FILT_MAX, 1 ) ); - set16_fx( st->old_inp_12k8_fx, 0, L_INP_MEM ); - set16_fx( st->old_inp_16k_fx, 0, L_INP_MEM ); - st->exp_old_inp_16k = 0; - st->exp_old_inp_12k8 = 0; - move16(); - move16(); - - st->input_buff_fx = st->hSignalBuf->input_buff; - st->input_buff32_fx = st->hSignalBuf->input_buff32; - set16_fx( st->input_buff_fx, 0, add( L_FRAME48k, add( L_FRAME48k, NS2SA( 48000, DELAY_FIR_RESAMPL_NS ) ) ) ); - st->q_inp = Q15; - move16(); - st->q_old_inp = Q15; - move16(); - set32_fx( st->input_buff32_fx, 0, add( L_FRAME48k, add( L_FRAME48k, NS2SA( 48000, DELAY_FIR_RESAMPL_NS ) ) ) ); - st->q_inp32 = Q31; - move16(); - st->old_input_signal_fx = st->input_buff_fx; - /* st->input_Fs / FRAMES_PER_SEC */ - Word16 frame_length = extract_l( Mpy_32_32( st->input_Fs, ONE_BY_FRAMES_PER_SEC_Q31 ) ); - - IF( st->element_mode == EVS_MONO ) - { - st->input32_fx = st->input_buff32_fx + st->input_Fs / FRAMES_PER_SEC + NS2SA_FX2( st->input_Fs, DELAY_FIR_RESAMPL_NS ); - st->input_fx = st->input_buff_fx + add( frame_length, (Word16) NS2SA( st->input_Fs, DELAY_FIR_RESAMPL_NS ) ); - } - ELSE - { - st->input32_fx = st->input_buff32_fx + Mpy_32_32( st->input_Fs, 42949673 ) /* 1/50 in Q31*/; // st->input_Fs / FRAMES_PER_SEC - st->input_fx = st->input_buff_fx + frame_length; - } -#if 1 // TODO: To be removed later -#endif - } - ELSE - { - st->hSignalBuf = NULL; - st->Bin_E_old_fx = NULL; - st->mem_decim_fx = NULL; - st->mem_decim16k_fx = NULL; - st->old_inp_12k8_fx = NULL; - st->old_inp_16k_fx = NULL; - st->buf_speech_enc_pe = NULL; - st->buf_synth = NULL; - st->buf_speech_enc = NULL; - st->buf_wspeech_enc = NULL; - st->input_buff_fx = NULL; -#if 1 -#endif - } - - /*-----------------------------------------------------------------* - * Noise estimator - *-----------------------------------------------------------------*/ - - test(); - test(); - test(); - IF( idchan == 0 || EQ_16( st->element_mode, IVAS_CPE_TD ) || EQ_16( st->element_mode, IVAS_CPE_MDCT ) || st->element_mode == EVS_MONO ) - { - IF( ( st->hNoiseEst = (NOISE_EST_HANDLE) malloc( sizeof( NOISE_EST_DATA ) ) ) == NULL ) - { - return IVAS_ERROR( IVAS_ERR_FAILED_ALLOC, "Can not allocate memory for Noise estimation\n" ); - } - - noise_est_init_ivas_fx( st->hNoiseEst ); - } - ELSE - { - st->hNoiseEst = NULL; - } - - /*-----------------------------------------------------------------* - * VAD - *-----------------------------------------------------------------*/ - - st->vad_flag = 1; - move16(); - st->localVAD = 0; - move16(); - - IF( ( idchan == 0 || EQ_16( st->element_mode, IVAS_CPE_TD ) || EQ_16( st->element_mode, IVAS_CPE_MDCT ) || st->element_mode == EVS_MONO ) && ( !vad_only_flag ) ) - { - IF( ( st->hVAD = (VAD_HANDLE) malloc( sizeof( VAD_DATA ) ) ) == NULL ) - { - return ( IVAS_ERROR( IVAS_ERR_FAILED_ALLOC, "Can not allocate memory for VAD\n" ) ); - } - - wb_vad_init_ivas_fx( st->hVAD ); - } - ELSE - { - st->hVAD = NULL; - } - st->Pos_relE_cnt = 20; - move16(); - - /* CLDFB-based VAD */ - IF( st->element_mode == EVS_MONO ) - { - /* This is done to as in EVS T_CldfbVadState structure is present in Encoder State */ - /* - if ( ( st->hVAD_CLDFB = (VAD_CLDFB_HANDLE) malloc( sizeof( T_CldfbVadState ) ) ) == NULL ) - { - return ( IVAS_ERROR( IVAS_ERR_FAILED_ALLOC, "Can not allocate memory for CLDFB VAD\n" ) ); - } - */ - st->hVAD_CLDFB = &st->vad_st; - - vad_init_fx( st->hVAD_CLDFB ); - } - ELSE - { - st->hVAD_CLDFB = NULL; - } - - /*-----------------------------------------------------------------* - * Speech/music classifier - *-----------------------------------------------------------------*/ - - IF( idchan == 0 || EQ_16( st->element_mode, IVAS_CPE_TD ) || EQ_16( st->element_mode, IVAS_CPE_MDCT ) || st->element_mode == EVS_MONO ) - { - IF( ( st->hSpMusClas = (SP_MUS_CLAS_HANDLE) malloc( sizeof( SP_MUS_CLAS_DATA ) ) ) == NULL ) - { - return ( IVAS_ERROR( IVAS_ERR_FAILED_ALLOC, "Can not allocate memory for Speech/music classifier\n" ) ); - } - - speech_music_clas_init_ivas_fx( st->hSpMusClas ); - st->sp_aud_decision0 = 0; - move16(); - st->sp_aud_decision1 = 0; - move16(); - st->sp_aud_decision2 = 0; - move16(); - } - ELSE - { - st->hSpMusClas = NULL; - } - - - /*-----------------------------------------------------------------* - * WB, SWB and FB bandwidth detector - *-----------------------------------------------------------------*/ - - st->lt_mean_NB_fx = 0; - move16(); - st->lt_mean_WB_fx = 0; - move16(); - st->lt_mean_SWB_fx = 0; - move16(); - st->count_WB = BWD_COUNT_MAX; - move16(); - st->count_SWB = BWD_COUNT_MAX; - move16(); - st->count_FB = BWD_COUNT_MAX; - move16(); - st->bwidth = st->max_bwidth; - move16(); - st->last_input_bwidth = st->bwidth; - move16(); - st->last_bwidth = st->bwidth; - move16(); - st->last_bwidth_cng = st->bwidth; - move16(); - st->bwidth_sw_cnt = 0; - move16(); - - - /*-----------------------------------------------------------------* - * DTX - *-----------------------------------------------------------------*/ - - st->lp_speech_fx = 11520; /*Q8 (45.0) */ /* Initialize the long-term active speech level in dB */ - move16(); - st->lp_noise_fx = 0; - move16(); - st->flag_noisy_speech_snr = 0; - move16(); - st->fd_cng_reset_flag = 0; - move16(); - st->cng_type = -1; - move16(); - st->bckr_tilt_lt = 0; - move16(); - st->active_cnt = 0; - move16(); - - test(); - test(); - test(); - test(); - IF( ( ( idchan == 0 && st->Opt_DTX_ON ) || st->element_mode == EVS_MONO ) || ( EQ_16( st->element_mode, IVAS_CPE_MDCT ) && st->Opt_DTX_ON ) ) - { - IF( ( st->hDtxEnc = (DTX_ENC_HANDLE) malloc( sizeof( DTX_ENC_DATA ) ) ) == NULL ) - { - return ( IVAS_ERROR( IVAS_ERR_FAILED_ALLOC, "Can not allocate memory for DTX variables\n" ) ); - } - dtx_enc_init_fx( st, var_SID_rate_flag, interval_SID ); - } - ELSE - { - st->hDtxEnc = NULL; - } - - /*-----------------------------------------------------------------* - * No other handles needed to be allocated for front-VAD structure - *-----------------------------------------------------------------*/ - - IF( vad_only_flag ) - { - st->hTdCngEnc = NULL; - st->cldfbAnaEnc = NULL; - st->hFdCngEnc = NULL; - st->hSC_VBR = NULL; - st->hAmrwb_IO = NULL; - st->hLPDmem = NULL; - st->hGSCEnc = NULL; - st->hBWE_TD = NULL; - st->cldfbSynTd = NULL; - st->hBWE_FD = NULL; - st->hHQ_core = NULL; - st->hRF = NULL; - st->hTECEnc = NULL; - st->hTcxEnc = NULL; - st->hTcxCfg = NULL; - st->hIGFEnc = NULL; - st->hPlcExt = NULL; - st->hTranDet = NULL; - - st->element_mode = IVAS_SCE; - move16(); - st->idchan = 100; /* indicates hCoreCoderVAD */ - move16(); - st->core = -1; - move16(); - st->rf_mode = 0; - move16(); - - return error; - } - - /*-----------------------------------------------------------------* - * LP-CNG - *-----------------------------------------------------------------*/ - - test(); - test(); - test(); - test(); - test(); - IF( ( ( idchan == 0 && st->Opt_DTX_ON && NE_16( st->element_mode, IVAS_CPE_MDCT ) ) || st->element_mode == EVS_MONO ) && !( EQ_16( ism_mode, ISM_MODE_PARAM ) || EQ_16( ism_mode, ISM_MODE_DISC ) ) ) - { - IF( ( st->hTdCngEnc = (TD_CNG_ENC_HANDLE) malloc( sizeof( TD_CNG_ENC_DATA ) ) ) == NULL ) - { - return ( IVAS_ERROR( IVAS_ERR_FAILED_ALLOC, "Can not allocate memory for DTX/TD CNG\n" ) ); - } - - td_cng_enc_init_ivas_fx( st->hTdCngEnc, st->Opt_DTX_ON, st->max_bwidth ); - } - ELSE - { - st->hTdCngEnc = NULL; - } - - /*-----------------------------------------------------------------* - * CLDFB & resampling tools parameters - *-----------------------------------------------------------------*/ - test(); - test(); - test(); - IF( ( NE_16( st->element_mode, IVAS_CPE_MDCT ) && idchan == 0 ) || ( EQ_16( st->element_mode, IVAS_CPE_MDCT ) && st->Opt_DTX_ON ) ) - { - IF( ( error = openCldfb_ivas_enc( &st->cldfbAnaEnc, CLDFB_ANALYSIS, st->input_Fs, CLDFB_PROTOTYPE_1_25MS ) ) != IVAS_ERR_OK ) - { - return error; - } - } - ELSE - { - st->cldfbAnaEnc = NULL; - } - - st->energyCoreLookahead_Fx = 2; /* 6.1e-5f in Q15 */ - move32(); - st->sf_energyCoreLookahead_Fx = 2; /* 6.1e-5f in Q15 */ - move16(); - - /*-----------------------------------------------------------------* - * SC-VBR parameters - *-----------------------------------------------------------------*/ - - test(); - IF( st->Opt_SC_VBR || st->element_mode == EVS_MONO ) - { - IF( ( st->hSC_VBR = (SC_VBR_ENC_HANDLE) malloc( sizeof( SC_VBR_ENC_DATA ) ) ) == NULL ) - { - return ( IVAS_ERROR( IVAS_ERR_FAILED_ALLOC, "Can not allocate memory for SC-VBR\n" ) ); - } - - sc_vbr_enc_init_fx( st->hSC_VBR ); - } - ELSE - { - st->hSC_VBR = NULL; - } - - st->last_Opt_SC_VBR = 0; - move16(); - - - /*-----------------------------------------------------------------* - * AMR-WB IO initialization - *-----------------------------------------------------------------*/ - - test(); - IF( st->Opt_AMR_WB || st->element_mode == EVS_MONO ) - { - IF( ( st->hAmrwb_IO = (AMRWB_IO_ENC_HANDLE) malloc( sizeof( AMRWB_IO_ENC_DATA ) ) ) == NULL ) - { - return ( IVAS_ERROR( IVAS_ERR_FAILED_ALLOC, "Can not allocate memory for AMR-WB IO\n" ) ); - } - - amr_wb_enc_init_fx( st->hAmrwb_IO ); - } - ELSE - { - st->hAmrwb_IO = NULL; - } - - /*-----------------------------------------------------------------* - * ACELP LPDmem - *-----------------------------------------------------------------*/ - - test(); - test(); - IF( ( idchan == 0 && NE_16( st->element_mode, IVAS_CPE_MDCT ) ) || EQ_16( st->element_mode, IVAS_CPE_TD ) ) - { - IF( ( st->hLPDmem = (LPD_state_HANDLE) malloc( sizeof( LPD_state ) ) ) == NULL ) - { - return ( IVAS_ERROR( IVAS_ERR_FAILED_ALLOC, "Can not allocate memory for LPDmem\n" ) ); - } - - LPDmem_enc_init_ivas_fx( st->hLPDmem ); - } - ELSE - { - st->hLPDmem = NULL; - } - - /*-----------------------------------------------------------------* - * parameters for AC coder type (GSC) - *-----------------------------------------------------------------*/ - - st->GSC_noisy_speech = 0; - move16(); - st->GSC_IVAS_mode = 0; - move16(); - - test(); - test(); - IF( ( idchan == 0 && NE_16( st->element_mode, IVAS_CPE_MDCT ) ) || EQ_16( st->element_mode, IVAS_CPE_TD ) ) - { - IF( ( st->hGSCEnc = (GSC_ENC_HANDLE) malloc( sizeof( GSC_ENC_DATA ) ) ) == NULL ) - { - return ( IVAS_ERROR( IVAS_ERR_FAILED_ALLOC, "Can not allocate memory for GSC\n" ) ); - } - - GSC_enc_init_fx( st->hGSCEnc ); - } - ELSE - { - st->hGSCEnc = NULL; - } - - /*-----------------------------------------------------------------* - * TBE parameters - *-----------------------------------------------------------------*/ - - test(); - IF( idchan == 0 && NE_16( st->element_mode, IVAS_CPE_MDCT ) ) - { - IF( ( st->hBWE_TD = (TD_BWE_ENC_HANDLE) malloc( sizeof( TD_BWE_ENC_DATA ) ) ) == NULL ) - { - return ( IVAS_ERROR( IVAS_ERR_FAILED_ALLOC, "Can not allocate memory for TD BWE\n" ) ); - } - - IF( ( error = openCldfb_ivas_enc( &st->cldfbSynTd, CLDFB_SYNTHESIS, 16000, CLDFB_PROTOTYPE_1_25MS ) ) != IVAS_ERR_OK ) - { - return error; - } - - InitSWBencBuffer_ivas_fx( st ); - ResetSHBbuffer_Enc_fx( st ); - } - ELSE - { - st->hBWE_TD = NULL; - st->cldfbSynTd = NULL; - } - - /*-----------------------------------------------------------------* - * SWB BWE parameters - *-----------------------------------------------------------------*/ - - test(); - IF( idchan == 0 && NE_16( st->element_mode, IVAS_CPE_MDCT ) ) - { - IF( ( st->hBWE_FD = (FD_BWE_ENC_HANDLE) malloc( sizeof( FD_BWE_ENC_DATA ) ) ) == NULL ) - { - return ( IVAS_ERROR( IVAS_ERR_FAILED_ALLOC, "Can not allocate memory for FD BWE\n" ) ); - } - - fd_bwe_enc_init_fx( st->hBWE_FD ); -#ifdef MSAN_FIX - st->Q_old_wtda = 0; - move16(); -#endif - } - ELSE - { - st->hBWE_FD = NULL; - } - - /*-----------------------------------------------------------------* - * HQ core parameters - *-----------------------------------------------------------------*/ - - IF( NE_16( st->element_mode, IVAS_CPE_TD ) && NE_16( st->element_mode, IVAS_CPE_MDCT ) && idchan == 0 ) - { - IF( ( st->hHQ_core = (HQ_ENC_HANDLE) malloc( sizeof( HQ_ENC_DATA ) ) ) == NULL ) - { - return ( IVAS_ERROR( IVAS_ERR_FAILED_ALLOC, "Can not allocate memory for HQ core\n" ) ); - } - - HQ_core_enc_init_fx( st->hHQ_core ); - } - ELSE - { - st->hHQ_core = NULL; - } - - /* init memory for detect_transient(), used by HQ core and swb_bwe_enc */ - st->old_hpfilt_in_fx = 0; - move16(); - st->old_hpfilt_out_fx = 0; - move16(); - st->EnergyLT_fx = 0; - move32(); - st->Energy_Old_fx = 0; - move32(); - st->TransientHangOver = 0; - move16(); - st->EnergyLT_fx_exp = 30; - move16(); - st->last_enerBuffer_exp = 0; - move16(); - - /*-----------------------------------------------------------------* - * Channel-aware mode - *-----------------------------------------------------------------*/ - - test(); - test(); - test(); - IF( !st->Opt_RF_ON || ( NE_16( st->bwidth, WB ) && NE_16( st->bwidth, SWB ) ) || NE_32( st->total_brate, ACELP_13k20 ) ) - { - st->rf_mode = 0; - move16(); - } - ELSE - { - st->rf_mode = st->Opt_RF_ON; - move16(); - } - - st->rf_mode_last = st->rf_mode; - move16(); - - test(); - IF( st->Opt_RF_ON || st->element_mode == EVS_MONO ) - { - IF( ( st->hRF = (RF_ENC_HANDLE) malloc( sizeof( RF_ENC_DATA ) ) ) == NULL ) - { - return ( IVAS_ERROR( IVAS_ERR_FAILED_ALLOC, "Can not allocate memory for RF\n" ) ); - } - - /* initialize RF indice buffers */ - reset_rf_indices_fx( st ); - } - ELSE - { - st->hRF = NULL; - } - - /*-----------------------------------------------------------------* - * Temporal Envelope Coding - *-----------------------------------------------------------------*/ - - IF( st->element_mode == EVS_MONO ) - { - IF( ( st->hTECEnc = (TEC_ENC_HANDLE) malloc( sizeof( TEC_ENC_DATA ) ) ) == NULL ) - { - return ( IVAS_ERROR( IVAS_ERR_FAILED_ALLOC, "Can not allocate memory for TEC\n" ) ); - } - } - ELSE - { - st->hTECEnc = NULL; - } - /* note: initialization done later in init_coder_ace_plus() */ - - /*-----------------------------------------------------------------* - * TCX core - *-----------------------------------------------------------------*/ - - // ToDo: reduction possible for MCT_CHAN_MODE_LFE channel - test(); - IF( idchan == 0 || EQ_16( st->element_mode, IVAS_CPE_MDCT ) ) - { - IF( ( st->hTcxEnc = (TCX_ENC_HANDLE) malloc( sizeof( TCX_ENC_DATA ) ) ) == NULL ) - { - return ( IVAS_ERROR( IVAS_ERR_FAILED_ALLOC, "Can not allocate memory for hTcxEnc\n" ) ); - } - set32_fx( st->hTcxEnc->spectrum_long_fx, 0, N_MAX ); - st->hTcxEnc->spectrum_long_e = 0; - move16(); - /* Share the memories for 2xTCX10/4xTCX5 and for TCX20 */ - st->hTcxEnc->spectrum_fx[0] = st->hTcxEnc->spectrum_long_fx; - st->hTcxEnc->spectrum_fx[1] = st->hTcxEnc->spectrum_long_fx + N_TCX10_MAX; - move32(); - move32(); - st->hTcxEnc->spectrum_e[0] = st->hTcxEnc->spectrum_e[1] = 0; - move16(); - move16(); -#if 1 - // set_f( st->hTcxEnc->spectrum_long, 0, N_MAX ); - // st->hTcxEnc->spectrum[0] = st->hTcxEnc->spectrum_long; - // st->hTcxEnc->spectrum[1] = st->hTcxEnc->spectrum_long + N_TCX10_MAX; - // set_f( st->hTcxEnc->old_out, 0, L_FRAME32k ); -#endif - - set16_fx( st->hTcxEnc->old_out_fx, 0, L_FRAME32k ); - st->hTcxEnc->Q_old_out = 0; - move16(); - - /* MDCT selector */ - MDCT_selector_reset_fx( st->hTcxEnc ); - - /* MDCT classifier */ - MDCT_classifier_reset_fx( st->hTcxEnc ); - - IF( ( st->hTcxCfg = (TCX_CONFIG_HANDLE) malloc( sizeof( TCX_config ) ) ) == NULL ) - { - return ( IVAS_ERROR( IVAS_ERR_FAILED_ALLOC, "Can not allocate memory for hTcxCfg\n" ) ); - } - } - ELSE - { - st->hTcxEnc = NULL; - st->hTcxCfg = NULL; - } - - /*-----------------------------------------------------------------* - * IGF - *-----------------------------------------------------------------*/ - - igf_brate = st->total_brate; - move32(); - - test(); - test(); - test(); - test(); - test(); - test(); - test(); - IF( EQ_16( st->element_mode, IVAS_SCE ) && ( EQ_16( st_ivas->hEncoderConfig->ivas_format, ISM_FORMAT ) || EQ_16( st_ivas->hEncoderConfig->ivas_format, MASA_ISM_FORMAT ) ) ) - { - igf_brate = L_sub( st->total_brate, i_mult( ISM_NB_BITS_METADATA_NOMINAL, FRAMES_PER_SEC ) ); - } - ELSE IF( EQ_16( st->element_mode, IVAS_CPE_DFT ) || ( EQ_16( st->element_mode, IVAS_SCE ) && ( EQ_16( st_ivas->hEncoderConfig->ivas_format, SBA_FORMAT ) || - EQ_16( st_ivas->hEncoderConfig->ivas_format, SBA_ISM_FORMAT ) || - EQ_16( st_ivas->hEncoderConfig->ivas_format, MC_FORMAT ) || - EQ_16( st_ivas->hEncoderConfig->ivas_format, MASA_FORMAT ) ) ) ) - { - /* use nominal bitrates for DFT Stereo and (O)SBA, same as in stereo_dft_config()/ivas_spar_config() */ - IF( EQ_32( element_brate, IVAS_13k2 ) ) - { - igf_brate = ACELP_9k60; - } - ELSE IF( EQ_32( element_brate, IVAS_16k4 ) ) - { - igf_brate = ACELP_13k20; - } - ELSE IF( EQ_32( element_brate, IVAS_24k4 ) ) - { - igf_brate = ACELP_16k40; - } - ELSE IF( EQ_32( element_brate, IVAS_32k ) ) - { - igf_brate = ACELP_24k40; - } - } - ELSE IF( EQ_16( st->element_mode, IVAS_CPE_MDCT ) ) - { - igf_brate = element_brate; - } - move32(); - test(); - IF( EQ_16( st->codec_mode, MODE2 ) || GT_16( st->element_mode, EVS_MONO ) ) - { - st->igf = getIgfPresent_fx( st->element_mode, igf_brate, st->max_bwidth, st->rf_mode ); - } - ELSE - { - st->igf = 0; - } - move16(); - - test(); - test(); - test(); - IF( ( idchan == 0 || EQ_16( st->element_mode, IVAS_CPE_MDCT ) ) && ( st->igf || st->element_mode == EVS_MONO ) ) - { - IF( ( st->hIGFEnc = (IGF_ENC_INSTANCE_HANDLE) malloc( sizeof( IGF_ENC_INSTANCE ) ) ) == NULL ) - { - return ( IVAS_ERROR( IVAS_ERR_FAILED_ALLOC, "Can not allocate memory for hIGFEnc\n" ) ); - } - } - ELSE - { - st->hIGFEnc = NULL; - } - - /*-----------------------------------------------------------------* - * Mode 2 initialization - *-----------------------------------------------------------------*/ - - st->last_sr_core = L_mult0( st->last_L_frame, FRAMES_PER_SEC ); - move32(); - - - /* PLC encoder */ - IF( st->element_mode == EVS_MONO ) - { - IF( ( st->hPlcExt = (PLC_ENC_EVS_HANDLE) malloc( sizeof( PLC_ENC_EVS ) ) ) == NULL ) - { - return ( IVAS_ERROR( IVAS_ERR_FAILED_ALLOC, "Can not allocate memory for hPlcExt\n" ) ); - } - } - ELSE - { - st->hPlcExt = NULL; - } - - /* Init Mode 2 core coder */ - st->last_totalNoise_fx = 0; - move16(); - set16_fx( st->totalNoise_increase_hist_fx, 0, TOTALNOISE_HIST_SIZE ); - st->totalNoise_increase_len = 0; - move16(); -#ifdef IVAS_FLOAT_FIXED_CONVERSIONS - TCX_ENC_HANDLE hTcxEnc = st->hTcxEnc; - IF( hTcxEnc != NULL ) - { - hTcxEnc->L_frameTCX = extract_l( Mult_32_16( st->input_Fs, 0x0290 ) ); /* 0x0290 is 1/FRAMES_PER_SEC in Q15*/ - move16(); - } - st->currEnergyHF_fx = 0; - move32(); - st->currEnergyHF_e_fx = 0; - move16(); -#ifdef MSAN_FIX - st->prevEnergyHF_fx = 0; - move32(); -#endif - - /* Initialize TCX */ - - /* Initialize Signal Buffers */ - Word16 shift = getScaleFactor16( st->old_inp_16k_fx, L_INP_MEM ); - Scale_sig( st->old_inp_16k_fx, L_INP_MEM, shift ); - st->exp_old_inp_16k = sub( st->exp_old_inp_16k, shift ); - move16(); - shift = getScaleFactor16( st->old_inp_12k8_fx, L_INP_MEM ); - Scale_sig( st->old_inp_12k8_fx, L_INP_MEM, shift ); - st->exp_old_inp_12k8 = sub( st->exp_old_inp_12k8, shift ); - move16(); - /* Initialize ACELP */ -#endif -#ifdef FIX_920_IGF_INIT_ERROR - init_coder_ace_plus_ivas_fx( st, st->last_total_brate, igf_brate, 0 ); -#else - init_coder_ace_plus_ivas_fx( st, st->last_total_brate, 0 ); -#endif - - IF( st->hLPDmem != NULL ) - { - st->hLPDmem->q_lpd_old_exc = st->prev_Q_new; - move16(); - } - /*-----------------------------------------------------------------* - * FD-CNG encoder - *-----------------------------------------------------------------*/ - - test(); - test(); - test(); - test(); - IF( ( idchan == 0 && st->Opt_DTX_ON ) || st->element_mode == EVS_MONO || ( EQ_16( st->element_mode, IVAS_CPE_MDCT ) && st->Opt_DTX_ON ) ) - { - createFdCngEnc_fx( &st->hFdCngEnc ); - initFdCngEnc_fx( st->hFdCngEnc, st->input_Fs, st->cldfbAnaEnc->scale ); - /* initialization for IVAS modes happens in first frame pre-processing */ - IF( st->element_mode == EVS_MONO ) - { - Word32 total_brate; - - test(); - IF( st->rf_mode && EQ_32( st->total_brate, ACELP_13k20 ) ) - { - total_brate = ACELP_9k60; - move32(); - } - ELSE - { - total_brate = st->total_brate; - move32(); - } - - configureFdCngEnc_ivas_fx( st->hFdCngEnc, st->bwidth, total_brate ); - } - } - ELSE - { - st->hFdCngEnc = NULL; - } - - /*-----------------------------------------------------------------* - * Transient detector - *-----------------------------------------------------------------*/ - - IF( ( st->hTranDet = (TRAN_DET_HANDLE) malloc( sizeof( TRAN_DET_DATA ) ) ) == NULL ) - { - return ( IVAS_ERROR( IVAS_ERR_FAILED_ALLOC, "Can not allocate memory for Transient Detection\n" ) ); - } - Word16 temp; - Word16 frame_length = BASOP_Util_Divide3232_Scale( st->input_Fs, FRAMES_PER_SEC, &temp ); - frame_length = shr( frame_length, sub( 15, temp ) ); - - IF( GT_16( st->element_mode, EVS_MONO ) ) - { - InitTransientDetection_ivas_fx( frame_length, 0, st->hTranDet, 1 ); - } - ELSE - { - InitTransientDetection_ivas_fx( frame_length, NS2SA_FX2( st->input_Fs, DELAY_FIR_RESAMPL_NS ), st->hTranDet, 0 ); - } - - /*-----------------------------------------------------------------* - * IVAS parameters - *-----------------------------------------------------------------*/ - - st->tdm_LRTD_flag = 0; - move16(); - st->cng_sba_flag = 0; - move16(); - st->bits_frame_channel = 0; - move16(); - st->side_bits_frame_channel = 0; - move16(); - st->Q_syn2 = 0; - move16(); - st->Q_syn = 0; - move16(); - set16_fx( st->Q_max, Q_MAX, L_Q_MEM ); - set16_fx( st->Q_max_16k, Q_MAX, L_Q_MEM ); - st->Q_old = 15; - move16(); - st->old_wsp_max = 0; - move16(); - st->old_wsp_shift = 0; - move16(); - st->sharpFlag = 0; - move16(); - - return error; -} - - -/*-----------------------------------------------------------------------* - * destroy_cldfb_encoder() - * - * Free memory which was allocated in init_encoder() - *-----------------------------------------------------------------------*/ - -void destroy_cldfb_encoder_fx( - Encoder_State *st /* i/o: Encoder static variables structure */ -) -{ - deleteCldfb_ivas_fx( &st->cldfbSynTd ); - deleteCldfb_ivas_fx( &st->cldfbAnaEnc ); - - deleteFdCngEnc_fx( &st->hFdCngEnc ); - - return; -} diff --git a/lib_enc/init_enc_fx.c b/lib_enc/init_enc_fx.c index 89bbdc898e3e7a666aba90721a645f5f557d1d57..21a99add798b804e4456ac8834e30ba70f93d65e 100644 --- a/lib_enc/init_enc_fx.c +++ b/lib_enc/init_enc_fx.c @@ -6,12 +6,13 @@ #include "cnst.h" /* Common constants */ #include "rom_com_fx.h" /* Static table prototypes */ #include "rom_com.h" /* Static table prototypes */ -//#include "prot_fx.h" /* Function prototypes */ +// #include "prot_fx.h" /* Function prototypes */ #include "stl.h" #include "ivas_cnst.h" #include "ivas_error.h" #include "prot_fx.h" /* Function prototypes */ #include "prot_fx_enc.h" /* Function prototypes */ +#include "ivas_prot_fx.h" /*-----------------------------------------------------------------------* @@ -19,6 +20,7 @@ * * Initialization of state variables *-----------------------------------------------------------------------*/ +#if 1 ivas_error init_encoder_fx( Encoder_State *st_fx /* i/o: Encoder static variables structure */ ) @@ -33,9 +35,8 @@ ivas_error init_encoder_fx( move16(); ISM_MODE ism_mode = ISM_MODE_NONE; ivas_error error; - // PMT("ism_mode, idchan, vad_only_flag to be move to function header") - error = IVAS_ERR_OK; + error = IVAS_ERR_OK; /*-----------------------------------------------------------------* * General signal buffers @@ -71,7 +72,7 @@ ivas_error init_encoder_fx( st_fx->old_input_signal_fx = st_fx->input_buff_fx; IF( EQ_16( st_fx->element_mode, EVS_MONO ) ) { - st_fx->input_fx = st_fx->input_buff_fx + st_fx->input_Fs / FRAMES_PER_SEC + NS2SA( st_fx->input_Fs, DELAY_FIR_RESAMPL_NS ); + st_fx->input_fx = st_fx->input_buff_fx + st_fx->input_Fs / FRAMES_PER_SEC + NS2SA_FX2( st_fx->input_Fs, DELAY_FIR_RESAMPL_NS ); } ELSE { @@ -136,18 +137,6 @@ ivas_error init_encoder_fx( { return ( IVAS_ERROR( IVAS_ERR_FAILED_ALLOC, "Can not allocate memory for Bitstream structure\n" ) ); } -#ifdef IVAS_CODE_BITSTREAM - - /* set pointer to the buffer of indices */ - st->hBstr->ind_list = st_ivas->ind_list; - st->hBstr->ivas_ind_list_zero = &st_ivas->ind_list; - st->hBstr->ivas_max_num_indices = &st_ivas->ivas_max_num_indices; - st->hBstr->nb_ind_tot = 0; - move16(); - st->hBstr->nb_bits_tot = 0; - move16(); - st->hBstr->st_ivas = st_ivas; -#endif } ELSE { @@ -407,7 +396,7 @@ ivas_error init_encoder_fx( /*-----------------------------------------------------------------* * Noise estimator *-----------------------------------------------------------------*/ - // PMT("deal with idchan ") + test(); test(); IF( /*idchan == 0 ||*/ EQ_16( st_fx->element_mode, IVAS_CPE_TD ) || EQ_16( st_fx->element_mode, IVAS_CPE_MDCT ) || st_fx->element_mode == EVS_MONO ) @@ -910,9 +899,6 @@ ivas_error init_encoder_fx( NS2SA_FX2( st_fx->input_Fs, DELAY_FIR_RESAMPL_NS ), &st_fx->transientDetection ); - // reset_indices_enc_fx( st_fx->hBstr); - - st_fx->Q_syn2 = 0; move16(); st_fx->Q_syn = 0; @@ -961,6 +947,7 @@ ivas_error init_encoder_fx( move32(); return error; } +#endif /*-----------------------------------------------------------------------* * LPDmem_enc_init_fx() * @@ -1013,16 +1000,18 @@ void LPDmem_enc_init_ivas_fx( set16_fx( hLPDmem->mem_syn2, 0, M ); set16_fx( hLPDmem->mem_syn_r, 0, L_SYN_MEM ); set16_fx( hLPDmem->mem_syn3, 0, M ); + hLPDmem->q_lpd_old_exc = Q15; + move16(); hLPDmem->q_lpd_syn = Q15; move16(); + hLPDmem->q_mem_syn = Q15; + move16(); hLPDmem->mem_w0 = 0; move16(); hLPDmem->tilt_code = 0; move16(); hLPDmem->gc_threshold = 0; move32(); - hLPDmem->q_mem_syn = Q15; - move16(); hLPDmem->dm_fx.prev_state = 0; move16(); /* This corresponds to st_fx->dispMem in FLP */ hLPDmem->dm_fx.prev_gain_code = 0; @@ -1034,14 +1023,6 @@ void LPDmem_enc_init_ivas_fx( move16(); } - hLPDmem->q_lpd_syn = Q15; - move16(); - hLPDmem->q_lpd_old_exc = Q15; - move16(); - hLPDmem->q_mem_syn = Q15; - move16(); - - return; } @@ -1062,3 +1043,1179 @@ void destroy_encoder_fx( return; } + +ivas_error init_encoder_ivas_fx( + Encoder_State *st, /* i/o: state structure */ + Encoder_Struct *st_ivas, /* i/o: encoder state structure */ + const Word16 idchan, /* i : channel ID */ + const Word16 var_SID_rate_flag, /* i : flag for variable SID update rate */ + const Word16 interval_SID, /* i : interval for SID update */ + const Word16 vad_only_flag, /* i : flag to indicate front-VAD structure */ + const ISM_MODE ism_mode, /* i : ISM mode */ + const Word32 element_brate /* i : element bitrate */ +) +{ + Word16 i; + ivas_error error; + Word32 igf_brate; + + error = IVAS_ERR_OK; + move32(); + + /*-----------------------------------------------------------------* + * General parameters + *-----------------------------------------------------------------*/ + + IF( st->Opt_AMR_WB ) + { + st->last_core = AMR_WB_CORE; + } + ELSE + { + st->last_core = -1; + } + move16(); + + st->L_frame = L_FRAME; + move16(); + st->last_coder_type = GENERIC; + move16(); + st->coder_type = GENERIC; + move16(); + st->last_total_brate = st->total_brate; + move32(); + st->last_bits_frame_nominal = -1; + move16(); + st->last_total_brate_cng = -1; + move16(); + st->last_core_brate = st->total_brate; + move32(); + st->dtx_sce_sba = 0; + move16(); + st->extl = -1; + move16(); + st->last_extl = -1; + move16(); + st->last_L_frame = L_FRAME; + move16(); + st->rate_switching_reset = 0; + move16(); + st->rate_switching_reset_16kHz = 0; + move16(); + st->clas = UNVOICED_CLAS; + move16(); + st->low_rate_mode = 0; + move16(); + st->ini_frame = 0; + move16(); + st->inactive_coder_type_flag = 0; + move16(); + st->sba_br_sw_while_no_data = 0; + move16(); + + st->coder_type_raw = VOICED; + move16(); + st->last_coder_type_raw = st->coder_type_raw; + move16(); + + st->flag_ACELP16k = set_ACELP_flag_IVAS( st->element_mode, st->total_brate, st->total_brate, idchan, 0, -1, -1 ); + move16(); + + st->is_ism_format = 0; + move16(); + + IF( NE_16( ism_mode, ISM_MODE_NONE ) ) + { + st->is_ism_format = 1; + move16(); + } + + /*-----------------------------------------------------------------* + * Bitstream + *-----------------------------------------------------------------*/ + + IF( !vad_only_flag ) + { + IF( ( st->hBstr = (BSTR_ENC_HANDLE) malloc( sizeof( BSTR_ENC_DATA ) ) ) == NULL ) + { + return ( IVAS_ERROR( IVAS_ERR_FAILED_ALLOC, "Can not allocate memory for Bitstream structure\n" ) ); + } + + /* set pointer to the buffer of indices */ + st->hBstr->ind_list = st_ivas->ind_list; + st->hBstr->ivas_ind_list_zero = &st_ivas->ind_list; + st->hBstr->ivas_max_num_indices = &st_ivas->ivas_max_num_indices; + st->hBstr->nb_ind_tot = 0; + move16(); + st->hBstr->nb_bits_tot = 0; + move16(); + st->hBstr->st_ivas = st_ivas; + } + ELSE + { + st->hBstr = NULL; + } + + /*-----------------------------------------------------------------* + * Pre-processing and ACELP core parameters + *-----------------------------------------------------------------*/ + + Copy( GEWB_Ave_fx, st->mem_AR_fx, M ); + Copy( GEWB_Ave_fx, st->lsfoldbfi0_fx, M ); + Copy( GEWB_Ave_fx, st->lsfoldbfi1_fx, M ); + Copy( GEWB_Ave_fx, st->lsf_adaptive_mean_fx, M ); + + st->next_force_safety_net = 0; + move16(); + + st->pstreaklen = 0; + move16(); + st->streaklimit_fx = MAX_WORD16; + move16(); + set16_fx( st->mem_MA_fx, 0, M ); + + init_gp_clip_fx( st->clip_var_fx ); + pitch_ol_init_fx( &st->old_thres_fx, &st->old_pitch, &st->delta_pit, &st->old_corr_fx ); + set16_fx( st->old_wsp_fx, 0, L_WSP_MEM ); + st->exp_old_wsp = 0; + move16(); + set16_fx( st->old_wsp2_fx, 0, ( L_WSP_MEM - L_INTERPOL ) / OPL_DECIM ); // Needs to change depending on usage. + st->Q_old_wsp2 = 0; + move16(); + + st->mem_preemph_fx = 0; + move16(); + st->mem_preemph16k_fx = 0; + move16(); + st->mem_preemph_enc = 0; + move16(); + st->exp_mem_preemph_enc = 0; + move16(); + +#if 1 // TODO: Float Initializations. To be removed later + st->active_cnt = 0; + move16(); +#endif + + st->pst_mem_deemp_err_fx = 0; + move16(); + st->pst_lp_ener_fx = 0; + move16(); + + /* AVQ pre-quantizer memory */ + st->mem_preemp_preQ_fx = 0; + move16(); + st->mem_deemp_preQ_fx = 0; + move16(); + st->last_nq_preQ = 0; + move16(); + st->last_code_preq = 0; + move16(); + st->use_acelp_preq = 0; + move16(); + st->last_harm_flag_acelp = 0; + move16(); + + /* (Decimated) Weighted Speech Memory */ + st->mem_wsp_enc = 0; + move16(); + st->mem_wsp_fx = 0; + move16(); + st->mem_wsp_q = 0; + move16(); + set16_fx( st->mem_decim2_fx, 0, 3 ); + set32_fx( st->Bin_E_fx, 0, L_FFT ); + st->q_Bin_E = Q31; + move16(); + st->ee_old_fx = 640; /* 10.0f in Q6 */ + move16(); + st->Nb_ACELP_frames = 0; + move16(); + st->audio_frame_cnt = AUDIO_COUNTER_INI; /* Initialization of the audio frame counter mildly into the audio mode */ + move16(); + + /* adaptive lag window memory */ + st->old_pitch_la = 0; + move16(); + + st->prev_Q_new = 0; + move16(); + + IF( EQ_32( st->input_Fs, 8000 ) ) + { + st->min_band = 1; + move16(); + st->max_band = 16; + move16(); + } + ELSE + { + st->min_band = 0; + move16(); + st->max_band = 19; + move16(); + } + + IF( st->Opt_AMR_WB ) + { + Copy( mean_isf_amr_wb_fx, st->lsf_old_fx, M ); + E_LPC_isf_isp_conversion( st->lsf_old_fx, st->lsp_old1_fx, M ); + } + ELSE + { + Copy( GEWB_Ave_fx, st->lsf_old_fx, M ); + lsf2lsp_fx( st->lsf_old_fx, st->lsp_old1_fx, M, INT_FS_12k8 ); + } + + Copy( st->lsf_old_fx, st->lsf_old1_fx, M ); + Copy( st->lsp_old1_fx, st->lsp_old_fx, M ); + Copy( st->lsp_old_fx, st->lsp_old16k_fx, M ); + Copy( st->lsp_old_fx, st->lspold_enc_fx, M ); + + st->stab_fac_fx = 0; + move16(); + + /* Bass post-filter memories - encoder side of MODE2 */ + st->bpf_off = 0; + move16(); + st->pst_mem_deemp_err_fx = 0; + move16(); + st->pst_lp_ener_fx = 0; + move16(); + + /* TC coder type */ + st->tc_cnt = 0; + move16(); + + /* find_uv() parameters */ + st->old_dE1_fx = 0; + move16(); + st->old_ind_deltaMax = 0; + move16(); + set32_fx( st->old_enr_ssf_fx, 0, shl( NB_SSF, 1 ) ); + st->spike_hyst = -1; + move16(); + + /* stereo switching memories */ + st->mem_preemph_DFT_fx = 0; + move16(); + set16_fx( st->inp_12k8_mem_stereo_sw_fx, 0, sub( sub( STEREO_DFT_OVL_12k8, L_MEM_RECALC_12K8 ), L_FILT ) ); + st->mem_preemph16k_DFT_fx = 0; + move16(); + set16_fx( st->inp_16k_mem_stereo_sw_fx, 0, sub( sub( STEREO_DFT_OVL_16k, L_MEM_RECALC_16K ), L_FILT16k ) ); + + st->sharpFlag = 0; + move16(); + + /* Stationary noise UV modification */ + st->ge_sm_fx = L_deposit_l( 640 ); /*Q(GE_SHIFT)*/ + move16(); + st->uv_count = 0; + move16(); + st->act_count = 3; + move16(); + Copy( st->lsp_old_fx, st->lspold_s_fx, M ); + st->noimix_seed = RANDOM_INITSEED; + move16(); + st->min_alpha_fx = 32767; + move16(); + st->exc_pe_fx = 0; + move16(); + st->Q_stat_noise = 15; + move16(); + /* FEC */ + st->last_clas = UNVOICED_CLAS; + move16(); + st->prev_fmerit = 0; + move16(); + st->fmerit_dt = 0; + move16(); + st->Last_pulse_pos = 0; + move16(); + + FOR( i = 0; i < shl( NB_SUBFR16k, 1 ); i++ ) + { + st->old_pitch_buf_fx[i] = L_SUBFR_Q6; + move16(); + } + + /* mode1 core switching */ + st->old_Es_pred_fx = 0; + move16(); + set16_fx( st->old_Aq_12_8_fx + 1, 0, M ); + st->old_Aq_12_8_fx[0] = ONE_IN_Q12; + move16(); + + /* stable short pitch detection */ + st->voicing0_sm_fx = 0; + move16(); + st->voicing_sm_fx = 0; + move16(); + st->LF_EnergyRatio_sm_fx = 1; + move16(); + st->predecision_flag = 0; + move16(); + st->diff_sm_fx = 0; + move32(); + st->energy_sm_fx = 0; + move32(); + + set16_fx( st->pitch, L_SUBFR, 3 ); + set16_fx( st->voicing_fx, 0, 3 ); + + /*-----------------------------------------------------------------* + * General signal buffers + *-----------------------------------------------------------------*/ + + IF( !vad_only_flag ) + { + IF( ( st->hSignalBuf = (SIGNAL_BUFFERS_ENC_HANDLE) malloc( sizeof( SIGNAL_BUFFERS_ENC_DATA ) ) ) == NULL ) + { + return ( IVAS_ERROR( IVAS_ERR_FAILED_ALLOC, "Can not allocate memory for Signal buffers\n" ) ); + } + + st->Bin_E_old_fx = st->hSignalBuf->Bin_E_old_fx; + st->mem_decim_fx = st->hSignalBuf->mem_decim_fx; + st->mem_decim16k_fx = st->hSignalBuf->mem_decim16k_fx; + st->old_inp_12k8_fx = st->hSignalBuf->old_inp_12k8_fx; + st->old_inp_16k_fx = st->hSignalBuf->old_inp_16k_fx; + st->buf_speech_enc_pe = st->hSignalBuf->buf_speech_enc_pe; + st->buf_synth = st->hSignalBuf->buf_synth; + st->buf_speech_enc = st->hSignalBuf->buf_speech_enc; + st->buf_wspeech_enc = st->hSignalBuf->buf_wspeech_enc; + + set32_fx( st->Bin_E_old_fx, 0, L_FFT / 2 ); + st->q_Bin_E_old = Q31; + move16(); + set16_fx( st->hSignalBuf->buf_speech_enc, 0, L_PAST_MAX_32k + L_FRAME32k + L_NEXT_MAX_32k ); + st->exp_buf_speech_enc = 0; + move16(); + set16_fx( st->hSignalBuf->buf_wspeech_enc, 0, L_FRAME16k + L_SUBFR + L_FRAME16k + L_NEXT_MAX_16k + 320 ); + st->exp_buf_wspeech_enc = 0; + move16(); + /* initializations */ + set32_fx( st->Bin_E_old_fx, 0, L_FFT / 2 ); + st->q_Bin_E_old = Q31; + move16(); + set16_fx( st->mem_decim_fx, 0, shl( L_FILT_MAX, 1 ) ); + set16_fx( st->mem_decim16k_fx, 0, shl( L_FILT_MAX, 1 ) ); + set16_fx( st->old_inp_12k8_fx, 0, L_INP_MEM ); + set16_fx( st->old_inp_16k_fx, 0, L_INP_MEM ); + st->exp_old_inp_16k = 0; + st->exp_old_inp_12k8 = 0; + move16(); + move16(); + + st->input_buff_fx = st->hSignalBuf->input_buff; + st->input_buff32_fx = st->hSignalBuf->input_buff32; + set16_fx( st->input_buff_fx, 0, add( L_FRAME48k, add( L_FRAME48k, NS2SA( 48000, DELAY_FIR_RESAMPL_NS ) ) ) ); + st->q_inp = Q15; + move16(); + st->q_old_inp = Q15; + move16(); + set32_fx( st->input_buff32_fx, 0, add( L_FRAME48k, add( L_FRAME48k, NS2SA( 48000, DELAY_FIR_RESAMPL_NS ) ) ) ); + st->q_inp32 = Q31; + move16(); + st->old_input_signal_fx = st->input_buff_fx; + /* st->input_Fs / FRAMES_PER_SEC */ + Word16 frame_length = extract_l( Mpy_32_32( st->input_Fs, ONE_BY_FRAMES_PER_SEC_Q31 ) ); + + IF( st->element_mode == EVS_MONO ) + { + st->input32_fx = st->input_buff32_fx + st->input_Fs / FRAMES_PER_SEC + NS2SA_FX2( st->input_Fs, DELAY_FIR_RESAMPL_NS ); + st->input_fx = st->input_buff_fx + add( frame_length, (Word16) NS2SA( st->input_Fs, DELAY_FIR_RESAMPL_NS ) ); + } + ELSE + { + st->input32_fx = st->input_buff32_fx + Mpy_32_32( st->input_Fs, 42949673 ) /* 1/50 in Q31*/; // st->input_Fs / FRAMES_PER_SEC + st->input_fx = st->input_buff_fx + frame_length; + } +#if 1 // TODO: To be removed later +#endif + } + ELSE + { + st->hSignalBuf = NULL; + st->Bin_E_old_fx = NULL; + st->mem_decim_fx = NULL; + st->mem_decim16k_fx = NULL; + st->old_inp_12k8_fx = NULL; + st->old_inp_16k_fx = NULL; + st->buf_speech_enc_pe = NULL; + st->buf_synth = NULL; + st->buf_speech_enc = NULL; + st->buf_wspeech_enc = NULL; + st->input_buff_fx = NULL; +#if 1 +#endif + } + + /*-----------------------------------------------------------------* + * Noise estimator + *-----------------------------------------------------------------*/ + + test(); + test(); + test(); + IF( idchan == 0 || EQ_16( st->element_mode, IVAS_CPE_TD ) || EQ_16( st->element_mode, IVAS_CPE_MDCT ) || st->element_mode == EVS_MONO ) + { + IF( ( st->hNoiseEst = (NOISE_EST_HANDLE) malloc( sizeof( NOISE_EST_DATA ) ) ) == NULL ) + { + return IVAS_ERROR( IVAS_ERR_FAILED_ALLOC, "Can not allocate memory for Noise estimation\n" ); + } + + noise_est_init_ivas_fx( st->hNoiseEst ); + } + ELSE + { + st->hNoiseEst = NULL; + } + + /*-----------------------------------------------------------------* + * VAD + *-----------------------------------------------------------------*/ + + st->vad_flag = 1; + move16(); + st->localVAD = 0; + move16(); + + IF( ( idchan == 0 || EQ_16( st->element_mode, IVAS_CPE_TD ) || EQ_16( st->element_mode, IVAS_CPE_MDCT ) || st->element_mode == EVS_MONO ) && ( !vad_only_flag ) ) + { + IF( ( st->hVAD = (VAD_HANDLE) malloc( sizeof( VAD_DATA ) ) ) == NULL ) + { + return ( IVAS_ERROR( IVAS_ERR_FAILED_ALLOC, "Can not allocate memory for VAD\n" ) ); + } + + wb_vad_init_ivas_fx( st->hVAD ); + } + ELSE + { + st->hVAD = NULL; + } + st->Pos_relE_cnt = 20; + move16(); + + /* CLDFB-based VAD */ + IF( st->element_mode == EVS_MONO ) + { + /* This is done to as in EVS T_CldfbVadState structure is present in Encoder State */ + st->hVAD_CLDFB = &st->vad_st; + vad_init_fx( st->hVAD_CLDFB ); + } + ELSE + { + st->hVAD_CLDFB = NULL; + } + + /*-----------------------------------------------------------------* + * Speech/music classifier + *-----------------------------------------------------------------*/ + + IF( idchan == 0 || EQ_16( st->element_mode, IVAS_CPE_TD ) || EQ_16( st->element_mode, IVAS_CPE_MDCT ) || st->element_mode == EVS_MONO ) + { + IF( ( st->hSpMusClas = (SP_MUS_CLAS_HANDLE) malloc( sizeof( SP_MUS_CLAS_DATA ) ) ) == NULL ) + { + return ( IVAS_ERROR( IVAS_ERR_FAILED_ALLOC, "Can not allocate memory for Speech/music classifier\n" ) ); + } + + speech_music_clas_init_ivas_fx( st->hSpMusClas ); + st->sp_aud_decision0 = 0; + move16(); + st->sp_aud_decision1 = 0; + move16(); + st->sp_aud_decision2 = 0; + move16(); + } + ELSE + { + st->hSpMusClas = NULL; + } + + + /*-----------------------------------------------------------------* + * WB, SWB and FB bandwidth detector + *-----------------------------------------------------------------*/ + + st->lt_mean_NB_fx = 0; + move16(); + st->lt_mean_WB_fx = 0; + move16(); + st->lt_mean_SWB_fx = 0; + move16(); + st->count_WB = BWD_COUNT_MAX; + move16(); + st->count_SWB = BWD_COUNT_MAX; + move16(); + st->count_FB = BWD_COUNT_MAX; + move16(); + st->bwidth = st->max_bwidth; + move16(); + st->last_input_bwidth = st->bwidth; + move16(); + st->last_bwidth = st->bwidth; + move16(); + st->last_bwidth_cng = st->bwidth; + move16(); + st->bwidth_sw_cnt = 0; + move16(); + + + /*-----------------------------------------------------------------* + * DTX + *-----------------------------------------------------------------*/ + + st->lp_speech_fx = 11520; /*Q8 (45.0) */ /* Initialize the long-term active speech level in dB */ + move16(); + st->lp_noise_fx = 0; + move16(); + st->flag_noisy_speech_snr = 0; + move16(); + st->fd_cng_reset_flag = 0; + move16(); + st->cng_type = -1; + move16(); + st->bckr_tilt_lt = 0; + move16(); + st->active_cnt = 0; + move16(); + + test(); + test(); + test(); + test(); + IF( ( ( idchan == 0 && st->Opt_DTX_ON ) || st->element_mode == EVS_MONO ) || ( EQ_16( st->element_mode, IVAS_CPE_MDCT ) && st->Opt_DTX_ON ) ) + { + IF( ( st->hDtxEnc = (DTX_ENC_HANDLE) malloc( sizeof( DTX_ENC_DATA ) ) ) == NULL ) + { + return ( IVAS_ERROR( IVAS_ERR_FAILED_ALLOC, "Can not allocate memory for DTX variables\n" ) ); + } + dtx_enc_init_fx( st, var_SID_rate_flag, interval_SID ); + } + ELSE + { + st->hDtxEnc = NULL; + } + + /*-----------------------------------------------------------------* + * No other handles needed to be allocated for front-VAD structure + *-----------------------------------------------------------------*/ + + IF( vad_only_flag ) + { + st->hTdCngEnc = NULL; + st->cldfbAnaEnc = NULL; + st->hFdCngEnc = NULL; + st->hSC_VBR = NULL; + st->hAmrwb_IO = NULL; + st->hLPDmem = NULL; + st->hGSCEnc = NULL; + st->hBWE_TD = NULL; + st->cldfbSynTd = NULL; + st->hBWE_FD = NULL; + st->hHQ_core = NULL; + st->hRF = NULL; + st->hTECEnc = NULL; + st->hTcxEnc = NULL; + st->hTcxCfg = NULL; + st->hIGFEnc = NULL; + st->hPlcExt = NULL; + st->hTranDet = NULL; + + st->element_mode = IVAS_SCE; + move16(); + st->idchan = 100; /* indicates hCoreCoderVAD */ + move16(); + st->core = -1; + move16(); + st->rf_mode = 0; + move16(); + + return error; + } + + /*-----------------------------------------------------------------* + * LP-CNG + *-----------------------------------------------------------------*/ + + test(); + test(); + test(); + test(); + test(); + IF( ( ( idchan == 0 && st->Opt_DTX_ON && NE_16( st->element_mode, IVAS_CPE_MDCT ) ) || st->element_mode == EVS_MONO ) && !( EQ_16( ism_mode, ISM_MODE_PARAM ) || EQ_16( ism_mode, ISM_MODE_DISC ) ) ) + { + IF( ( st->hTdCngEnc = (TD_CNG_ENC_HANDLE) malloc( sizeof( TD_CNG_ENC_DATA ) ) ) == NULL ) + { + return ( IVAS_ERROR( IVAS_ERR_FAILED_ALLOC, "Can not allocate memory for DTX/TD CNG\n" ) ); + } + + td_cng_enc_init_ivas_fx( st->hTdCngEnc, st->Opt_DTX_ON, st->max_bwidth ); + } + ELSE + { + st->hTdCngEnc = NULL; + } + + /*-----------------------------------------------------------------* + * CLDFB & resampling tools parameters + *-----------------------------------------------------------------*/ + test(); + test(); + test(); + IF( ( NE_16( st->element_mode, IVAS_CPE_MDCT ) && idchan == 0 ) || ( EQ_16( st->element_mode, IVAS_CPE_MDCT ) && st->Opt_DTX_ON ) ) + { + IF( EQ_16( st->element_mode, EVS_MONO ) ) + { + /* open analysis for input SR */ + st->input_frame_fx = extract_l( Mult_32_16( st->input_Fs, 0x0290 ) ); + + if ( ( error = openCldfb( &st->cldfbAnaEnc, CLDFB_ANALYSIS, CLDFB_getNumChannels( st->input_Fs ), st->input_frame_fx ) ) != IVAS_ERR_OK ) + { + return error; + } + } + ELSE + { + + IF( ( error = openCldfb_ivas_fx( &st->cldfbAnaEnc, CLDFB_ANALYSIS, st->input_Fs, CLDFB_PROTOTYPE_1_25MS, ENC ) ) != IVAS_ERR_OK ) + { + return error; + } + } + } + ELSE + { + st->cldfbAnaEnc = NULL; + } + + st->energyCoreLookahead_Fx = 2; /* 6.1e-5f in Q15 */ + move32(); + st->sf_energyCoreLookahead_Fx = 2; /* 6.1e-5f in Q15 */ + move16(); + + /*-----------------------------------------------------------------* + * SC-VBR parameters + *-----------------------------------------------------------------*/ + + test(); + IF( st->Opt_SC_VBR || st->element_mode == EVS_MONO ) + { + IF( ( st->hSC_VBR = (SC_VBR_ENC_HANDLE) malloc( sizeof( SC_VBR_ENC_DATA ) ) ) == NULL ) + { + return ( IVAS_ERROR( IVAS_ERR_FAILED_ALLOC, "Can not allocate memory for SC-VBR\n" ) ); + } + + sc_vbr_enc_init_fx( st->hSC_VBR ); + } + ELSE + { + st->hSC_VBR = NULL; + } + + st->last_Opt_SC_VBR = 0; + move16(); + + + /*-----------------------------------------------------------------* + * AMR-WB IO initialization + *-----------------------------------------------------------------*/ + + test(); + IF( st->Opt_AMR_WB || st->element_mode == EVS_MONO ) + { + IF( ( st->hAmrwb_IO = (AMRWB_IO_ENC_HANDLE) malloc( sizeof( AMRWB_IO_ENC_DATA ) ) ) == NULL ) + { + return ( IVAS_ERROR( IVAS_ERR_FAILED_ALLOC, "Can not allocate memory for AMR-WB IO\n" ) ); + } + + amr_wb_enc_init_fx( st->hAmrwb_IO ); + } + ELSE + { + st->hAmrwb_IO = NULL; + } + + /*-----------------------------------------------------------------* + * ACELP LPDmem + *-----------------------------------------------------------------*/ + + test(); + test(); + IF( ( idchan == 0 && NE_16( st->element_mode, IVAS_CPE_MDCT ) ) || EQ_16( st->element_mode, IVAS_CPE_TD ) ) + { + IF( ( st->hLPDmem = (LPD_state_HANDLE) malloc( sizeof( LPD_state ) ) ) == NULL ) + { + return ( IVAS_ERROR( IVAS_ERR_FAILED_ALLOC, "Can not allocate memory for LPDmem\n" ) ); + } + + LPDmem_enc_init_ivas_fx( st->hLPDmem ); + } + ELSE + { + st->hLPDmem = NULL; + } + + /*-----------------------------------------------------------------* + * parameters for AC coder type (GSC) + *-----------------------------------------------------------------*/ + + st->GSC_noisy_speech = 0; + move16(); + st->GSC_IVAS_mode = 0; + move16(); + + test(); + test(); + IF( ( idchan == 0 && NE_16( st->element_mode, IVAS_CPE_MDCT ) ) || EQ_16( st->element_mode, IVAS_CPE_TD ) ) + { + IF( ( st->hGSCEnc = (GSC_ENC_HANDLE) malloc( sizeof( GSC_ENC_DATA ) ) ) == NULL ) + { + return ( IVAS_ERROR( IVAS_ERR_FAILED_ALLOC, "Can not allocate memory for GSC\n" ) ); + } + + GSC_enc_init_fx( st->hGSCEnc ); + } + ELSE + { + st->hGSCEnc = NULL; + } + + /*-----------------------------------------------------------------* + * TBE parameters + *-----------------------------------------------------------------*/ + + test(); + IF( idchan == 0 && NE_16( st->element_mode, IVAS_CPE_MDCT ) ) + { + IF( ( st->hBWE_TD = (TD_BWE_ENC_HANDLE) malloc( sizeof( TD_BWE_ENC_DATA ) ) ) == NULL ) + { + return ( IVAS_ERROR( IVAS_ERR_FAILED_ALLOC, "Can not allocate memory for TD BWE\n" ) ); + } + + IF( st->element_mode == EVS_MONO ) + { + if ( ( error = openCldfb( &st->cldfbSynTd, CLDFB_SYNTHESIS, CLDFB_getNumChannels( 16000 ), L_FRAME16k ) ) != IVAS_ERR_OK ) + { + return error; + } + } + ELSE + { + IF( ( error = openCldfb_ivas_fx( &st->cldfbSynTd, CLDFB_SYNTHESIS, 16000, CLDFB_PROTOTYPE_1_25MS, ENC ) ) != IVAS_ERR_OK ) + { + return error; + } + } + InitSWBencBuffer_ivas_fx( st ); + ResetSHBbuffer_Enc_fx( st ); + } + ELSE + { + st->hBWE_TD = NULL; + st->cldfbSynTd = NULL; + } + + /*-----------------------------------------------------------------* + * SWB BWE parameters + *-----------------------------------------------------------------*/ + + test(); + IF( idchan == 0 && NE_16( st->element_mode, IVAS_CPE_MDCT ) ) + { + IF( ( st->hBWE_FD = (FD_BWE_ENC_HANDLE) malloc( sizeof( FD_BWE_ENC_DATA ) ) ) == NULL ) + { + return ( IVAS_ERROR( IVAS_ERR_FAILED_ALLOC, "Can not allocate memory for FD BWE\n" ) ); + } + + fd_bwe_enc_init_fx( st->hBWE_FD ); + st->Q_old_wtda = 0; + move16(); + } + ELSE + { + st->hBWE_FD = NULL; + } + + /*-----------------------------------------------------------------* + * HQ core parameters + *-----------------------------------------------------------------*/ + + IF( NE_16( st->element_mode, IVAS_CPE_TD ) && NE_16( st->element_mode, IVAS_CPE_MDCT ) && idchan == 0 ) + { + IF( ( st->hHQ_core = (HQ_ENC_HANDLE) malloc( sizeof( HQ_ENC_DATA ) ) ) == NULL ) + { + return ( IVAS_ERROR( IVAS_ERR_FAILED_ALLOC, "Can not allocate memory for HQ core\n" ) ); + } + + HQ_core_enc_init_fx( st->hHQ_core ); + } + ELSE + { + st->hHQ_core = NULL; + } + + /* init memory for detect_transient(), used by HQ core and swb_bwe_enc */ + st->old_hpfilt_in_fx = 0; + move16(); + st->old_hpfilt_out_fx = 0; + move16(); + st->EnergyLT_fx = 0; + move32(); + st->Energy_Old_fx = 0; + move32(); + st->TransientHangOver = 0; + move16(); + st->EnergyLT_fx_exp = 30; + move16(); + st->last_enerBuffer_exp = 0; + move16(); + + /*-----------------------------------------------------------------* + * Channel-aware mode + *-----------------------------------------------------------------*/ + + test(); + test(); + test(); + IF( !st->Opt_RF_ON || ( NE_16( st->bwidth, WB ) && NE_16( st->bwidth, SWB ) ) || NE_32( st->total_brate, ACELP_13k20 ) ) + { + st->rf_mode = 0; + move16(); + } + ELSE + { + st->rf_mode = st->Opt_RF_ON; + move16(); + } + + st->rf_mode_last = st->rf_mode; + move16(); + + test(); + IF( st->Opt_RF_ON || st->element_mode == EVS_MONO ) + { + IF( ( st->hRF = (RF_ENC_HANDLE) malloc( sizeof( RF_ENC_DATA ) ) ) == NULL ) + { + return ( IVAS_ERROR( IVAS_ERR_FAILED_ALLOC, "Can not allocate memory for RF\n" ) ); + } + + /* initialize RF indice buffers */ + reset_rf_indices_fx( st ); + } + ELSE + { + st->hRF = NULL; + } + + /*-----------------------------------------------------------------* + * Temporal Envelope Coding + *-----------------------------------------------------------------*/ + + IF( st->element_mode == EVS_MONO ) + { + IF( ( st->hTECEnc = (TEC_ENC_HANDLE) malloc( sizeof( TEC_ENC_DATA ) ) ) == NULL ) + { + return ( IVAS_ERROR( IVAS_ERR_FAILED_ALLOC, "Can not allocate memory for TEC\n" ) ); + } + } + ELSE + { + st->hTECEnc = NULL; + } + /* note: initialization done later in init_coder_ace_plus() */ + + /*-----------------------------------------------------------------* + * TCX core + *-----------------------------------------------------------------*/ + + // ToDo: reduction possible for MCT_CHAN_MODE_LFE channel + test(); + IF( idchan == 0 || EQ_16( st->element_mode, IVAS_CPE_MDCT ) ) + { + IF( ( st->hTcxEnc = (TCX_ENC_HANDLE) malloc( sizeof( TCX_ENC_DATA ) ) ) == NULL ) + { + return ( IVAS_ERROR( IVAS_ERR_FAILED_ALLOC, "Can not allocate memory for hTcxEnc\n" ) ); + } + set32_fx( st->hTcxEnc->spectrum_long_fx, 0, N_MAX ); + st->hTcxEnc->spectrum_long_e = 0; + move16(); + /* Share the memories for 2xTCX10/4xTCX5 and for TCX20 */ + st->hTcxEnc->spectrum_fx[0] = st->hTcxEnc->spectrum_long_fx; + st->hTcxEnc->spectrum_fx[1] = st->hTcxEnc->spectrum_long_fx + N_TCX10_MAX; + move32(); + move32(); + st->hTcxEnc->spectrum_e[0] = st->hTcxEnc->spectrum_e[1] = 0; + move16(); + move16(); +#if 1 + // set_f( st->hTcxEnc->spectrum_long, 0, N_MAX ); + // st->hTcxEnc->spectrum[0] = st->hTcxEnc->spectrum_long; + // st->hTcxEnc->spectrum[1] = st->hTcxEnc->spectrum_long + N_TCX10_MAX; + // set_f( st->hTcxEnc->old_out, 0, L_FRAME32k ); +#endif + + set16_fx( st->hTcxEnc->old_out_fx, 0, L_FRAME32k ); + st->hTcxEnc->Q_old_out = 0; + move16(); + + /* MDCT selector */ + MDCT_selector_reset_fx( st->hTcxEnc ); + + /* MDCT classifier */ + MDCT_classifier_reset_fx( st->hTcxEnc ); + + IF( ( st->hTcxCfg = (TCX_CONFIG_HANDLE) malloc( sizeof( TCX_config ) ) ) == NULL ) + { + return ( IVAS_ERROR( IVAS_ERR_FAILED_ALLOC, "Can not allocate memory for hTcxCfg\n" ) ); + } + } + ELSE + { + st->hTcxEnc = NULL; + st->hTcxCfg = NULL; + } + + /*-----------------------------------------------------------------* + * IGF + *-----------------------------------------------------------------*/ + + igf_brate = st->total_brate; + move32(); + + test(); + test(); + test(); + test(); + test(); + test(); + test(); + IF( EQ_16( st->element_mode, IVAS_SCE ) && ( EQ_16( st_ivas->hEncoderConfig->ivas_format, ISM_FORMAT ) || EQ_16( st_ivas->hEncoderConfig->ivas_format, MASA_ISM_FORMAT ) ) ) + { + igf_brate = L_sub( st->total_brate, i_mult( ISM_NB_BITS_METADATA_NOMINAL, FRAMES_PER_SEC ) ); + } + ELSE IF( EQ_16( st->element_mode, IVAS_CPE_DFT ) || ( EQ_16( st->element_mode, IVAS_SCE ) && ( EQ_16( st_ivas->hEncoderConfig->ivas_format, SBA_FORMAT ) || + EQ_16( st_ivas->hEncoderConfig->ivas_format, SBA_ISM_FORMAT ) || + EQ_16( st_ivas->hEncoderConfig->ivas_format, MC_FORMAT ) || + EQ_16( st_ivas->hEncoderConfig->ivas_format, MASA_FORMAT ) ) ) ) + { + /* use nominal bitrates for DFT Stereo and (O)SBA, same as in stereo_dft_config()/ivas_spar_config() */ + IF( EQ_32( element_brate, IVAS_13k2 ) ) + { + igf_brate = ACELP_9k60; + } + ELSE IF( EQ_32( element_brate, IVAS_16k4 ) ) + { + igf_brate = ACELP_13k20; + } + ELSE IF( EQ_32( element_brate, IVAS_24k4 ) ) + { + igf_brate = ACELP_16k40; + } + ELSE IF( EQ_32( element_brate, IVAS_32k ) ) + { + igf_brate = ACELP_24k40; + } + } + ELSE IF( EQ_16( st->element_mode, IVAS_CPE_MDCT ) ) + { + igf_brate = element_brate; + } + move32(); + test(); + IF( EQ_16( st->codec_mode, MODE2 ) || GT_16( st->element_mode, EVS_MONO ) ) + { + st->igf = getIgfPresent_fx( st->element_mode, igf_brate, st->max_bwidth, st->rf_mode ); + } + ELSE + { + st->igf = 0; + } + move16(); + + test(); + test(); + test(); + IF( ( idchan == 0 || EQ_16( st->element_mode, IVAS_CPE_MDCT ) ) && ( st->igf || st->element_mode == EVS_MONO ) ) + { + IF( ( st->hIGFEnc = (IGF_ENC_INSTANCE_HANDLE) malloc( sizeof( IGF_ENC_INSTANCE ) ) ) == NULL ) + { + return ( IVAS_ERROR( IVAS_ERR_FAILED_ALLOC, "Can not allocate memory for hIGFEnc\n" ) ); + } + } + ELSE + { + st->hIGFEnc = NULL; + } + + /*-----------------------------------------------------------------* + * Mode 2 initialization + *-----------------------------------------------------------------*/ + + st->last_sr_core = L_mult0( st->last_L_frame, FRAMES_PER_SEC ); + move32(); + + + /* PLC encoder */ + IF( st->element_mode == EVS_MONO ) + { + IF( ( st->hPlcExt = (PLC_ENC_EVS_HANDLE) malloc( sizeof( PLC_ENC_EVS ) ) ) == NULL ) + { + return ( IVAS_ERROR( IVAS_ERR_FAILED_ALLOC, "Can not allocate memory for hPlcExt\n" ) ); + } + } + ELSE + { + st->hPlcExt = NULL; + } + + /* Init Mode 2 core coder */ + st->last_totalNoise_fx = 0; + move16(); + set16_fx( st->totalNoise_increase_hist_fx, 0, TOTALNOISE_HIST_SIZE ); + st->totalNoise_increase_len = 0; + move16(); + TCX_ENC_HANDLE hTcxEnc = st->hTcxEnc; + IF( hTcxEnc != NULL ) + { + hTcxEnc->L_frameTCX = extract_l( Mult_32_16( st->input_Fs, 0x0290 ) ); /* 0x0290 is 1/FRAMES_PER_SEC in Q15*/ + move16(); + } + st->currEnergyHF_fx = 0; + move32(); + st->currEnergyHF_e_fx = 0; + move16(); + st->prevEnergyHF_fx = 0; + move32(); + + /* Initialize TCX */ + + /* Initialize Signal Buffers */ + Word16 shift = getScaleFactor16( st->old_inp_16k_fx, L_INP_MEM ); + Scale_sig( st->old_inp_16k_fx, L_INP_MEM, shift ); + st->exp_old_inp_16k = sub( st->exp_old_inp_16k, shift ); + move16(); + shift = getScaleFactor16( st->old_inp_12k8_fx, L_INP_MEM ); + Scale_sig( st->old_inp_12k8_fx, L_INP_MEM, shift ); + st->exp_old_inp_12k8 = sub( st->exp_old_inp_12k8, shift ); + move16(); + /* Initialize ACELP */ + init_coder_ace_plus_ivas_fx( st, st->last_total_brate, igf_brate, 0 ); + + IF( st->hLPDmem != NULL ) + { + st->hLPDmem->q_lpd_old_exc = st->prev_Q_new; + move16(); + } + /*-----------------------------------------------------------------* + * FD-CNG encoder + *-----------------------------------------------------------------*/ + + test(); + test(); + test(); + test(); + IF( ( idchan == 0 && st->Opt_DTX_ON ) || st->element_mode == EVS_MONO || ( EQ_16( st->element_mode, IVAS_CPE_MDCT ) && st->Opt_DTX_ON ) ) + { + createFdCngEnc_fx( &st->hFdCngEnc ); + initFdCngEnc_fx( st->hFdCngEnc, st->input_Fs, st->cldfbAnaEnc->scale ); + /* initialization for IVAS modes happens in first frame pre-processing */ + IF( st->element_mode == EVS_MONO ) + { + Word32 total_brate; + + test(); + IF( st->rf_mode && EQ_32( st->total_brate, ACELP_13k20 ) ) + { + total_brate = ACELP_9k60; + move32(); + } + ELSE + { + total_brate = st->total_brate; + move32(); + } + + configureFdCngEnc_ivas_fx( st->hFdCngEnc, st->bwidth, total_brate ); + } + } + ELSE + { + st->hFdCngEnc = NULL; + } + + /*-----------------------------------------------------------------* + * Transient detector + *-----------------------------------------------------------------*/ + + IF( ( st->hTranDet = (TRAN_DET_HANDLE) malloc( sizeof( TRAN_DET_DATA ) ) ) == NULL ) + { + return ( IVAS_ERROR( IVAS_ERR_FAILED_ALLOC, "Can not allocate memory for Transient Detection\n" ) ); + } + Word16 temp; + Word16 frame_length = BASOP_Util_Divide3232_Scale( st->input_Fs, FRAMES_PER_SEC, &temp ); + frame_length = shr( frame_length, sub( 15, temp ) ); + + IF( GT_16( st->element_mode, EVS_MONO ) ) + { + InitTransientDetection_ivas_fx( frame_length, 0, st->hTranDet, 1 ); + } + ELSE + { +#ifndef HARM_ENC_INIT + InitTransientDetection_ivas_fx( frame_length, NS2SA_FX2( st->input_Fs, DELAY_FIR_RESAMPL_NS ), st->hTranDet, 0 ); +#else + InitTransientDetection_fx( extract_l( Mult_32_16( st->input_Fs, 0x0290 ) ), + NS2SA_FX2( st->input_Fs, DELAY_FIR_RESAMPL_NS ), + &st->transientDetection ); +#endif + } + + /*-----------------------------------------------------------------* + * IVAS parameters + *-----------------------------------------------------------------*/ + + st->tdm_LRTD_flag = 0; + move16(); + st->cng_sba_flag = 0; + move16(); + st->bits_frame_channel = 0; + move16(); + st->side_bits_frame_channel = 0; + move16(); + st->Q_syn2 = 0; + move16(); + st->Q_syn = 0; + move16(); + set16_fx( st->Q_max, Q_MAX, L_Q_MEM ); + set16_fx( st->Q_max_16k, Q_MAX, L_Q_MEM ); + st->Q_old = 15; + move16(); + st->old_wsp_max = 0; + move16(); + st->old_wsp_shift = 0; + move16(); + st->sharpFlag = 0; + move16(); + + return error; +} + + +/*-----------------------------------------------------------------------* + * destroy_cldfb_encoder() + * + * Free memory which was allocated in init_encoder() + *-----------------------------------------------------------------------*/ + +void destroy_cldfb_encoder_fx( + Encoder_State *st /* i/o: Encoder static variables structure */ +) +{ + deleteCldfb_ivas_fx( &st->cldfbSynTd ); + deleteCldfb_ivas_fx( &st->cldfbAnaEnc ); + + deleteFdCngEnc_fx( &st->hFdCngEnc ); + + return; +} diff --git a/lib_enc/inov_enc.c b/lib_enc/inov_enc.c deleted file mode 100644 index 08f1e768fd1b91f4ee491e9fb12b1c9883f5b2cf..0000000000000000000000000000000000000000 --- a/lib_enc/inov_enc.c +++ /dev/null @@ -1,49 +0,0 @@ -/****************************************************************************************************** - - (C) 2022-2025 IVAS codec Public Collaboration with portions copyright Dolby International AB, Ericsson AB, - Fraunhofer-Gesellschaft zur Foerderung der angewandten Forschung e.V., Huawei Technologies Co. LTD., - Koninklijke Philips N.V., Nippon Telegraph and Telephone Corporation, Nokia Technologies Oy, Orange, - Panasonic Holdings Corporation, Qualcomm Technologies, Inc., VoiceAge Corporation, and other - contributors to this repository. All Rights Reserved. - - This software is protected by copyright law and by international treaties. - The IVAS codec Public Collaboration consisting of Dolby International AB, Ericsson AB, - Fraunhofer-Gesellschaft zur Foerderung der angewandten Forschung e.V., Huawei Technologies Co. LTD., - Koninklijke Philips N.V., Nippon Telegraph and Telephone Corporation, Nokia Technologies Oy, Orange, - Panasonic Holdings Corporation, Qualcomm Technologies, Inc., VoiceAge Corporation, and other - contributors to this repository retain full ownership rights in their respective contributions in - the software. This notice grants no license of any kind, including but not limited to patent - license, nor is any license granted by implication, estoppel or otherwise. - - Contributors are required to enter into the IVAS codec Public Collaboration agreement before making - contributions. - - This software is provided "AS IS", without any express or implied warranties. The software is in the - development stage. It is intended exclusively for experts who have experience with such software and - solely for the purpose of inspection. All implied warranties of non-infringement, merchantability - and fitness for a particular purpose are hereby disclaimed and excluded. - - Any dispute, controversy or claim arising under or in relation to providing this software shall be - submitted to and settled by the final, binding jurisdiction of the courts of Munich, Germany in - accordance with the laws of the Federal Republic of Germany excluding its conflict of law rules and - the United Nations Convention on Contracts on the International Sales of Goods. - -*******************************************************************************************************/ - -/*==================================================================================== - EVS Codec 3GPP TS26.443 Nov 04, 2021. Version 12.14.0 / 13.10.0 / 14.6.0 / 15.4.0 / 16.3.0 - ====================================================================================*/ - -#include -#include "options.h" -#include "cnst.h" -#include "prot.h" -#include "ivas_prot.h" -#include "rom_com.h" -#include "wmc_auto.h" - -/*---------------------------------------------------------------------* - * inov_encode() - * - * Encode the algebraic innovation - *---------------------------------------------------------------------*/ diff --git a/lib_enc/inov_enc_fx.c b/lib_enc/inov_enc_fx.c index 7964df4a8a55a1260460dfece8705614ceae8a2c..fe22ee398de7c7a3e1652e2229cdcd756af00fca 100644 --- a/lib_enc/inov_enc_fx.c +++ b/lib_enc/inov_enc_fx.c @@ -10,7 +10,6 @@ #include "rom_com.h" /* Static table prototypes */ #include "prot_fx.h" /* Function prototypes */ #include "ivas_prot_fx.h" /* Function prototypes */ -#include "prot.h" /* Function prototypes */ #include "prot_fx_enc.h" /* Function prototypes */ @@ -90,9 +89,7 @@ Word16 inov_encode_fx( Word16 Rw[L_SUBFR]; Word16 acelpautoc; BSTR_ENC_HANDLE hBstr = st_fx->hBstr; -#ifdef REMOVE_IVAS_UNUSED_PARAMETERS_WARNING (void) last_L_frame; -#endif stack_pulses = 0; move16(); @@ -274,83 +271,7 @@ Word16 inov_encode_fx( IF( !Opt_AMR_WB ) { IF( st_fx->acelp_cfg.fcb_mode ) - { // PMTE() -#ifdef IVAS_CODE - if ( st->acelp_cfg.fixed_cdk_index[i_subfr / L_subfr] < ACELP_FIXED_CDK_NB ) - { - int16_t wordcnt, bitcnt; - int16_t prm[8]; - - if ( st->acelp_cfg.fixed_cdk_index[i_subfr / L_subfr] >= 0 ) - { - if ( L_subfr == 2 * L_SUBFR ) - { - nBits = st->acelp_cfg.fixed_cdk_index[i_subfr / L_subfr]; - - if ( nBits == 8 ) - { - acelp_1t64( hBstr, dn, h1, code, y2, L_subfr ); - } - else - { - acelp_fast( hBstr, nBits, dn, cn, h1, code, y2, L_subfr ); - } - } - else if ( ( st->idchan == 1 && st->acelp_cfg.fixed_cdk_index[i_subfr / L_SUBFR] <= 7 ) || ( st->idchan == 0 && st->acelp_cfg.fixed_cdk_index[i_subfr / L_SUBFR] <= 3 ) ) - { - if ( st->acelp_cfg.fixed_cdk_index[i_subfr / L_SUBFR] == 0 ) - { - acelp_1t64( hBstr, dn, h1, code, y2, L_subfr ); - } - else - { - acelp_fast( hBstr, st->acelp_cfg.fixed_cdk_index[i_subfr / L_SUBFR], dn, cn, h1, code, y2, L_SUBFR ); - } - } - else - { - E_ACELP_4t( dn, cn, h1, Rw, acelpautoc, code, st->acelp_cfg.fixed_cdk_index[i_subfr / L_SUBFR], prm, L_frame, last_L_frame, st->total_brate, i_subfr, cmpl_flag ); - - wordcnt = ACELP_FIXED_CDK_BITS( st->acelp_cfg.fixed_cdk_index[i_subfr / L_SUBFR] ) >> 4; - bitcnt = ACELP_FIXED_CDK_BITS( st->acelp_cfg.fixed_cdk_index[i_subfr / L_SUBFR] ) & 15; - - for ( i = 0; i < wordcnt; i++ ) - { - push_indice( hBstr, IND_ALG_CDBK_4T64, prm[i], 16 ); - } - if ( bitcnt ) - { - push_indice( hBstr, IND_ALG_CDBK_4T64, prm[i], bitcnt ); - } - - /* Generate weighted code */ - set_f( y2, 0.0f, L_SUBFR ); - for ( i = 0; i < L_SUBFR; i++ ) - { - /* Code is sparse, so check which samples are non-zero */ - if ( code[i] != 0 ) - { - for ( k = 0; k < L_SUBFR - i; k++ ) - { - y2[i + k] += code[i] * h1[k]; - } - } - } - } - } - else - { - set_f( code, 0.0f, L_SUBFR ); - set_f( y2, 0.0f, L_SUBFR ); - } - } -#ifdef DEBUGGING - else - { - IVAS_ERROR( IVAS_ERR_INTERNAL_FATAL, "invalid mode for acelp frame!\n" ); - } -#endif -#endif + { } ELSE { @@ -499,19 +420,16 @@ Word16 inov_encode_ivas_fx( { acelpautoc = 1; move16(); - + Word16 q_h1 = sub( 14, norm_s( h2[0] ) ); + Scale_sig( h2, L_SUBFR, sub( 11, q_h1 ) ); /* set h2[] in Q11*/ cb_shape_fx( 1, 1, 0, sharpFlag, 0, g1, g2, p_Aq, h2, tilt_code, shr( add( pt_pitch, 26 ), 6 ), 0, L_SUBFR ); /* h2: Q11, Rw: (Rw_e)Q */ - // Word16 Rw_e = E_ACELP_hh_corr( h2, Rw, L_SUBFR, 3 ); corr_hh_ivas_fx( h2, Rw, &Rw_q, L_subfr ); // Q(Rw) = Q11-2 - - E_ACELP_conv_ivas_fx( xn2, h2, cn ); // Qcn = Qxn2 + E_ACELP_conv_ivas_fx( xn2, h2, cn ); // Qcn = Qxn2 /* dn_e -> Rw_e*Q_xn */ - // Scale_sig(Rw, L_SUBFR, sub(5, Rw_e)); //Q9 j = E_ACELP_toeplitz_mul_fx( Rw, cn, dn, L_SUBFR, 1 ); Qdn = add( add( Qxn, Rw_q ), add( j, 1 ) ); - // Scale_sig(Rw, L_subfr, -3); //Q9->Q6 } ELSE { @@ -520,7 +438,8 @@ Word16 inov_encode_ivas_fx( updt_tar_fx( cn, cn, &exc[i_subfr], gain_pit, L_subfr ); /* scaling of cn[] to limit dynamic at 12 bits */ Scale_sig( cn, L_subfr, shift ); - + Word16 q_h1 = sub( 14, norm_s( h2[0] ) ); + Scale_sig( h2, L_SUBFR, sub( 11, q_h1 ) ); /* set h2[] in Q11*/ cb_shape_fx( 1, 1, 0, sharpFlag, 0, g1, g2, p_Aq, h2, tilt_code, shr( add( pt_pitch, 26 ), 6 ), 0, L_subfr ); corr_xh_ivas_fx( xn2, Qxn, dn, &Qdn, h2, L_subfr ); // Q(dn) = Q_new+1 } @@ -656,9 +575,7 @@ Word16 inov_encode_ivas_fx( IF( !Opt_AMR_WB ) { IF( st_fx->acelp_cfg.fcb_mode ) - { // PMTE() -#if 1 - //#ifdef IVAS_CODE + { Word16 idx = 0, idx2 = 0; move16(); move16(); @@ -690,7 +607,7 @@ Word16 inov_encode_ivas_fx( } ELSE { - acelp_fast_fx( hBstr, nBits, dn, Qdn, cn, h2, code, y2, L_subfr ); + acelp_fast_fx( hBstr, nBits, dn, Qdn, cn, Q_new, h2, code, y2, L_subfr ); } } ELSE IF( ( EQ_16( st_fx->idchan, 1 ) && LE_16( st_fx->acelp_cfg.fixed_cdk_index[idx2], 7 ) ) || ( st_fx->idchan == 0 && LE_16( st_fx->acelp_cfg.fixed_cdk_index[idx2], 3 ) ) ) @@ -701,7 +618,7 @@ Word16 inov_encode_ivas_fx( } ELSE { - acelp_fast_fx( hBstr, st_fx->acelp_cfg.fixed_cdk_index[idx2], dn, Qdn, cn, h2, code, y2, L_SUBFR ); + acelp_fast_fx( hBstr, st_fx->acelp_cfg.fixed_cdk_index[idx2], dn, Qdn, cn, Q_new, h2, code, y2, L_SUBFR ); } } ELSE @@ -748,7 +665,6 @@ Word16 inov_encode_ivas_fx( { IVAS_ERROR( IVAS_ERR_INTERNAL_FATAL, "invalid mode for acelp frame!\n" ); } -#endif #endif } ELSE diff --git a/lib_enc/isf_enc_amr_wb.c b/lib_enc/isf_enc_amr_wb.c deleted file mode 100644 index 7bb7c56fef7c52986fa854abb5a3d93eb18bcd1c..0000000000000000000000000000000000000000 --- a/lib_enc/isf_enc_amr_wb.c +++ /dev/null @@ -1,43 +0,0 @@ -/****************************************************************************************************** - - (C) 2022-2025 IVAS codec Public Collaboration with portions copyright Dolby International AB, Ericsson AB, - Fraunhofer-Gesellschaft zur Foerderung der angewandten Forschung e.V., Huawei Technologies Co. LTD., - Koninklijke Philips N.V., Nippon Telegraph and Telephone Corporation, Nokia Technologies Oy, Orange, - Panasonic Holdings Corporation, Qualcomm Technologies, Inc., VoiceAge Corporation, and other - contributors to this repository. All Rights Reserved. - - This software is protected by copyright law and by international treaties. - The IVAS codec Public Collaboration consisting of Dolby International AB, Ericsson AB, - Fraunhofer-Gesellschaft zur Foerderung der angewandten Forschung e.V., Huawei Technologies Co. LTD., - Koninklijke Philips N.V., Nippon Telegraph and Telephone Corporation, Nokia Technologies Oy, Orange, - Panasonic Holdings Corporation, Qualcomm Technologies, Inc., VoiceAge Corporation, and other - contributors to this repository retain full ownership rights in their respective contributions in - the software. This notice grants no license of any kind, including but not limited to patent - license, nor is any license granted by implication, estoppel or otherwise. - - Contributors are required to enter into the IVAS codec Public Collaboration agreement before making - contributions. - - This software is provided "AS IS", without any express or implied warranties. The software is in the - development stage. It is intended exclusively for experts who have experience with such software and - solely for the purpose of inspection. All implied warranties of non-infringement, merchantability - and fitness for a particular purpose are hereby disclaimed and excluded. - - Any dispute, controversy or claim arising under or in relation to providing this software shall be - submitted to and settled by the final, binding jurisdiction of the courts of Munich, Germany in - accordance with the laws of the Federal Republic of Germany excluding its conflict of law rules and - the United Nations Convention on Contracts on the International Sales of Goods. - -*******************************************************************************************************/ - -/*==================================================================================== - EVS Codec 3GPP TS26.443 Nov 04, 2021. Version 12.14.0 / 13.10.0 / 14.6.0 / 15.4.0 / 16.3.0 - ====================================================================================*/ - -#include -#include "options.h" -#include "cnst.h" -#include "rom_enc.h" -#include "rom_com.h" -#include "prot.h" -#include "wmc_auto.h" diff --git a/lib_enc/isf_enc_amr_wb_fx.c b/lib_enc/isf_enc_amr_wb_fx.c index 4851ed15552285743d2dcc88e6dda9ba61a7a2be..d58998565bdb404e232a6b7b8c5e0318eae1c3a4 100644 --- a/lib_enc/isf_enc_amr_wb_fx.c +++ b/lib_enc/isf_enc_amr_wb_fx.c @@ -173,11 +173,11 @@ static void qisf_ns_28b_fx( indice[4] = add( sub_VQ_fx( &isf[12], dico5_ns_28b_fx + 4, 4, DICO5_NS_28b - 1, &tmp ), 1 ); /* First vector has a problem -> do not allow */ move16(); /* write indices to array */ - push_indice_fx( hBstr, IND_ISF_0_0, indice[0], 6 ); - push_indice_fx( hBstr, IND_ISF_0_1, indice[1], 6 ); - push_indice_fx( hBstr, IND_ISF_0_2, indice[2], 6 ); - push_indice_fx( hBstr, IND_ISF_0_3, indice[3], 5 ); - push_indice_fx( hBstr, IND_ISF_0_4, indice[4], 5 ); + push_indice( hBstr, IND_ISF_0_0, indice[0], 6 ); + push_indice( hBstr, IND_ISF_0_1, indice[1], 6 ); + push_indice( hBstr, IND_ISF_0_2, indice[2], 6 ); + push_indice( hBstr, IND_ISF_0_3, indice[3], 5 ); + push_indice( hBstr, IND_ISF_0_4, indice[4], 5 ); /* decoding the ISFs */ disf_ns_28b_fx( indice, isf ); @@ -305,11 +305,11 @@ static void qisf_2s_36b_fx( indice[0] = Indirect_dico1[indice[0]]; move16(); /* Make interoperable with G722.2 */ - push_indice_fx( hBstr, IND_ISF_0_0, indice[0], 8 ); - push_indice_fx( hBstr, IND_ISF_0_1, indice[1], 8 ); - push_indice_fx( hBstr, IND_ISF_1_0, indice[2], 7 ); - push_indice_fx( hBstr, IND_ISF_1_1, indice[3], 7 ); - push_indice_fx( hBstr, IND_ISF_1_2, indice[4], 6 ); + push_indice( hBstr, IND_ISF_0_0, indice[0], 8 ); + push_indice( hBstr, IND_ISF_0_1, indice[1], 8 ); + push_indice( hBstr, IND_ISF_1_0, indice[2], 7 ); + push_indice( hBstr, IND_ISF_1_1, indice[3], 7 ); + push_indice( hBstr, IND_ISF_1_2, indice[4], 6 ); return; } @@ -442,13 +442,13 @@ static void qisf_2s_46b_fx( indice[0] = Indirect_dico1[indice[0]]; move16(); /* Make interoperable with G722.2 */ - push_indice_fx( hBstr, IND_ISF_0_0, indice[0], 8 ); - push_indice_fx( hBstr, IND_ISF_0_1, indice[1], 8 ); - push_indice_fx( hBstr, IND_ISF_1_0, indice[2], 6 ); - push_indice_fx( hBstr, IND_ISF_1_1, indice[3], 7 ); - push_indice_fx( hBstr, IND_ISF_1_2, indice[4], 7 ); - push_indice_fx( hBstr, IND_ISF_1_3, indice[5], 5 ); - push_indice_fx( hBstr, IND_ISF_1_4, indice[6], 5 ); + push_indice( hBstr, IND_ISF_0_0, indice[0], 8 ); + push_indice( hBstr, IND_ISF_0_1, indice[1], 8 ); + push_indice( hBstr, IND_ISF_1_0, indice[2], 6 ); + push_indice( hBstr, IND_ISF_1_1, indice[3], 7 ); + push_indice( hBstr, IND_ISF_1_2, indice[4], 7 ); + push_indice( hBstr, IND_ISF_1_3, indice[5], 5 ); + push_indice( hBstr, IND_ISF_1_4, indice[6], 5 ); return; } diff --git a/lib_enc/ivas_agc_enc.c b/lib_enc/ivas_agc_enc_fx.c similarity index 99% rename from lib_enc/ivas_agc_enc.c rename to lib_enc/ivas_agc_enc_fx.c index 649c5bae5857283233e82f7f014d6832c6d5d11c..d74e10bdaf25ea124ae9326ad807ac835e6e6e97 100644 --- a/lib_enc/ivas_agc_enc.c +++ b/lib_enc/ivas_agc_enc_fx.c @@ -35,11 +35,9 @@ #include #include #include "options.h" -#include "ivas_prot.h" -#include "prot.h" +#include "prot_fx.h" #include "rom_com.h" #include "wmc_auto.h" -#include "prot_fx.h" #include "ivas_prot_fx.h" #include "basop_util.h" @@ -624,7 +622,7 @@ void ivas_agc_enc_process_fx( temp_16 = BASOP_Util_Divide3232_Scale( temp1, temp2, &div_e ); /* exp(div_e) */ IF( div_e < 0 ) { - temp_16 = shr( temp_16, (Word16) abs( div_e ) ); + temp_16 = shr( temp_16, abs_s( div_e ) ); div_e = 0; move16(); } diff --git a/lib_enc/ivas_core_enc.c b/lib_enc/ivas_core_enc_fx.c similarity index 96% rename from lib_enc/ivas_core_enc.c rename to lib_enc/ivas_core_enc_fx.c index 6dc3d10ec62f7d33216d86d006ba843ca838b6d4..3c62a0d184820697ae3019b943faf66aba8da570 100644 --- a/lib_enc/ivas_core_enc.c +++ b/lib_enc/ivas_core_enc_fx.c @@ -34,12 +34,10 @@ #include "options.h" #include "cnst.h" #include "rom_com.h" -#include "prot.h" +#include "prot_fx.h" #include "ivas_cnst.h" -#include "ivas_prot.h" #include "wmc_auto.h" #include -#include "prot_fx.h" #include "prot_fx_enc.h" #include "ivas_prot_fx.h" #include "prot_fx_enc.h" @@ -120,14 +118,12 @@ ivas_error ivas_core_enc_fx( set32_fx( new_swb_speech_buffer_fx, 0, L_FRAME48k + STEREO_DFT_OVL_MAX ); set16_fx( new_swb_speech_buffer_fx_16, 0, L_FRAME48k + STEREO_DFT_OVL_MAX ); -#ifdef MSAN_FIX FOR( i = 0; i < CPE_CHANNELS; i++ ) { set_zero_fx( bwe_exc_extended_fx[i], L_FRAME32k + NL_BUFF_OFFSET ); set16_fx( old_syn_12k8_16k_fx[i], 0, L_FRAME16k ); } set16_fx( shb_speech_fx, 0, L_FRAME16k ); -#endif push_wmops( "ivas_core_enc" ); @@ -217,7 +213,6 @@ ivas_error ivas_core_enc_fx( /*---------------------------------------------------------------------* * Pre-processing, incl. Decision matrix *---------------------------------------------------------------------*/ -#ifdef MSAN_FIX IF( st->cldfbAnaEnc ) { Word16 tmp_shift = L_norm_arr( enerBuffer_fx[n], st->cldfbAnaEnc->no_channels ); @@ -229,16 +224,6 @@ ivas_error ivas_core_enc_fx( move16(); } } -#else - Word16 tmp_shift = getScaleFactor32( enerBuffer_fx[n], CLDFB_NO_CHANNELS_MAX ); - tmp_shift = sub( tmp_shift, 5 ); - IF( tmp_shift < 0 ) - { - scale_sig32( enerBuffer_fx[n], CLDFB_NO_CHANNELS_MAX, tmp_shift ); - enerBuffer_fx_exp[n] = sub( enerBuffer_fx_exp[n], tmp_shift ); - move16(); - } -#endif Scale_sig( fft_buff_fx[n], ( 2 * L_FFT ), -1 ); // To create 1 headroom for addition of magnitude square spectrum // fft_buff_fx_exp = add(fft_buff_fx_exp,1); @@ -311,7 +296,7 @@ ivas_error ivas_core_enc_fx( st->hBstr->nb_ind_tot = add( st->hBstr->nb_ind_tot, hStereoTD->tdm_hBstr_tmp.nb_ind_tot ); /* Q0 */ st->hBstr->nb_bits_tot = add( st->hBstr->nb_bits_tot, hStereoTD->tdm_hBstr_tmp.nb_bits_tot ); /* Q0 */ - reset_indices_enc( &hStereoTD->tdm_hBstr_tmp, MAX_IND_TDM_TMP ); + reset_indices_enc_fx( &hStereoTD->tdm_hBstr_tmp, MAX_IND_TDM_TMP ); } /*---------------------------------------------------------------------* @@ -459,13 +444,6 @@ ivas_error ivas_core_enc_fx( st->hTcxEnc->exp_buf_speech_ltp = st->exp_buf_speech_enc; move16(); } - - Scale_sig( st->input_fx, input_frame, negate( st->q_inp ) ); // Q0 - Scale_sig( st->old_input_signal_fx, input_frame, negate( st->q_old_inp ) ); // Q0 - st->q_old_inp = 0; - move16(); - st->q_inp = 0; - move16(); } Word16 Q_spec_old[2], L_spec; Q_spec_old[0] = hCPE->hCoreCoder[0]->hTcxEnc->spectrum_long_e; @@ -638,11 +616,6 @@ ivas_error ivas_core_enc_fx( { st = sts[n]; - Scale_sig( st->old_input_signal_fx, input_frame, negate( st->q_old_inp ) ); // Q0 - Scale_sig( st->input_fx, add( input_frame, NS2SA( 48000, DELAY_FIR_RESAMPL_NS ) ), negate( st->q_inp ) ); // Q0 - st->q_old_inp = st->q_inp = 0; - move16(); - move16(); IF( st->hBWE_FD != NULL ) { Scale_sig( st->hBWE_FD->L_old_wtda_swb_fx, L_FRAME48k, sub( negate( 1 ), st->Q_old_wtda ) ); // Q(-1) @@ -734,8 +707,8 @@ ivas_error ivas_core_enc_fx( Scale_sig( st->hBWE_FD->L_old_wtda_swb_fx, L_FRAME48k, shift ); // st->Q_old_wtda } - Word16 q_new_swb_speech_buffer = getScaleFactor16( new_swb_speech_buffer_fx_16, input_frame ); - Scale_sig( new_swb_speech_buffer_fx_16, input_frame, q_new_swb_speech_buffer ); // Q0->q_new_swb_speech_buffer + Word16 q_new_swb_speech_buffer = getScaleFactor16( new_swb_speech_buffer_fx_16, L_FRAME48k + STEREO_DFT_OVL_MAX ); + Scale_sig( new_swb_speech_buffer_fx_16, L_FRAME48k + STEREO_DFT_OVL_MAX, q_new_swb_speech_buffer ); // Q0->q_new_swb_speech_buffer /* SWB TBE encoder */ test(); @@ -759,11 +732,11 @@ ivas_error ivas_core_enc_fx( } ELSE IF( EQ_16( st->extl, SWB_BWE ) || EQ_16( st->extl, FB_BWE ) ) { - Copy_Scale_sig_32_16( shb_speech_fx32, shb_speech_fx, L_FRAME16k, -Q16 ); // Q_shb_spch - 16 - Scale_sig( new_swb_speech_fx_16, input_frame, negate( q_new_swb_speech_buffer ) ); // Q0 + Copy_Scale_sig_32_16( shb_speech_fx32, shb_speech_fx, L_FRAME16k, -Q16 ); // Q_shb_spch - 16 + Scale_sig( new_swb_speech_buffer_fx_16, L_FRAME48k + STEREO_DFT_OVL_MAX, negate( q_new_swb_speech_buffer ) ); // q_new_swb_speech_buffer -> Q0 /* SWB(FB) BWE encoder */ swb_bwe_enc_ivas_fx( st, last_element_mode, old_inp_12k8_fx[n], old_inp_16k_fx[n], old_syn_12k8_16k_fx[n], new_swb_speech_fx_16, shb_speech_fx, sub( Q_shb_spch, Q16 ), sub( Q_new[n], 1 ) ); - Scale_sig( new_swb_speech_fx_16, input_frame, q_new_swb_speech_buffer ); // q_new_swb_speech_buffer + Scale_sig( new_swb_speech_buffer_fx_16, L_FRAME48k + STEREO_DFT_OVL_MAX, q_new_swb_speech_buffer ); // Q0 -> q_new_swb_speech_buffer } Scale_sig( old_syn_12k8_16k_fx[n], L_FRAME16k, sub( Q1, Q_new[n] ) ); // Q0 @@ -793,8 +766,8 @@ ivas_error ivas_core_enc_fx( stereo_icBWE_preproc_fx( hCPE, input_frame, new_swb_speech_buffer_fx_16 /*tmp buffer*/, q_new_swb_speech_buffer ); q_new_swb_speech_buffer = add( q_new_swb_speech_buffer, 16 ); - Copy_Scale_sig_16_32_no_sat( new_swb_speech_buffer_fx_16, new_swb_speech_buffer_fx, input_frame, Q16 ); // q_new_swb_speech_buffer - Copy_Scale_sig_16_32_no_sat( voice_factors_fx[0], voice_factors_fx32[0], NB_SUBFR16k, Q16 ); // Q31 + Copy_Scale_sig_16_32_no_sat( new_swb_speech_buffer_fx_16, new_swb_speech_buffer_fx, L_FRAME48k + STEREO_DFT_OVL_MAX, Q16 ); // q_new_swb_speech_buffer - 16 - > q_new_swb_speech_buffer + Copy_Scale_sig_16_32_no_sat( voice_factors_fx[0], voice_factors_fx32[0], NB_SUBFR16k, Q16 ); // Q31 stereo_icBWE_enc_ivas_fx( hCPE, shb_speech_fx32, sub( Q31, Q_shb_spch ), new_swb_speech_buffer_fx, sub( Q31, q_new_swb_speech_buffer ), voice_factors_fx32[0] ); diff --git a/lib_enc/ivas_core_pre_proc_front.c b/lib_enc/ivas_core_pre_proc_front_fx.c similarity index 84% rename from lib_enc/ivas_core_pre_proc_front.c rename to lib_enc/ivas_core_pre_proc_front_fx.c index b7a10a4f342def8a5cc5c1b5d984d3686a5180aa..0d6a5901a1f81f12be0f48ff345d024303d55ca7 100644 --- a/lib_enc/ivas_core_pre_proc_front.c +++ b/lib_enc/ivas_core_pre_proc_front_fx.c @@ -36,10 +36,8 @@ #include "ivas_cnst.h" #include "rom_enc.h" #include "rom_com.h" -#include "prot.h" #include "prot_fx.h" #include "prot_fx_enc.h" -#include "ivas_prot.h" #include "ivas_prot_fx.h" #include "wmc_auto.h" #include @@ -50,7 +48,6 @@ #include "prot_fx_enc.h" #include "ivas_prot_fx.h" -#include "prot_fx.h" /*---------------------------------------------------------------* * Local constants @@ -59,7 +56,7 @@ #define SCE_SMC_THR 16000 -static void calculate_energy_buffer_ivas_fx( CPE_ENC_HANDLE hCPE, Word32 enerBuffer_dft[], const Word16 no_channels, const Word32 input_Fs, Word16 *enerBuffer_dft_e ); +static void calculate_energy_buffer_ivas_fx( CPE_ENC_HANDLE hCPE, Word32 enerBuffer_dft[], const Word16 no_channels, const Word32 input_Fs, Word16 enerBuffer_dft_e[] ); #ifdef IVAS_FIXED_ENC static void calculate_energy_buffer_fx( CPE_ENC_HANDLE hCPE, Word64 enerBuffer_dft_fx[], Word16 *enerBuffer_dft_q_fx, const Word16 no_channels, const Word32 input_Fs ); @@ -90,7 +87,7 @@ ivas_error pre_proc_front_ivas_fx( const Word16 nb_bits_metadata, /* i : number of metadata bits Q0*/ const Word16 input_frame, /* i : frame length Q0*/ const Word16 n, /* i : channel number Q0*/ - Word16 old_inp_12k8_fx[], /* o : buffer of old input signal Q_new-1*/ + Word16 old_inp_12k8_fx[], /* o : buffer of old input signal (st->Q_inp until preemph, then Q_new, then Q_new-1 towards the end)*/ Word16 old_inp_16k_fx[], /* o : buffer of old input signal @16kHz Q_new-1*/ Word32 *ener_fx, /* o : residual energy from Levinson-Durbin epsP_fx_q*/ Word16 *relE_fx, /* o : frame relative energy Q8*/ @@ -118,7 +115,7 @@ ivas_error pre_proc_front_ivas_fx( Word16 *fft_buff_fx_q, /* o : FFT buffer */ const Word16 tdm_A_PCh_fx[M + 1], /* i : unq. LP coeff. of primary channel Q12*/ const Word16 tdm_lsp_new_PCh_fx[M], /* i : unq. LSPs of primary channel Q15*/ - const Word16 currFlatness_fx, /* i : flatness parameter Q7*/ + const Word32 currFlatness_fx, /* i : flatness parameter Q21*/ const Word16 tdm_ratio_idx, /* i : Current Ratio_L index Q0*/ Word32 fr_bands_LR_fx[][2 * NB_BANDS], /* i : energy in frequency bands (fr_bands_LR_fx_q) fr_bands_LR_fx_q*/ Word16 fr_bands_LR_fx_q[CPE_CHANNELS], @@ -128,16 +125,14 @@ ivas_error pre_proc_front_ivas_fx( const Word16 localVAD_HE_SAD_LR[], /* i : HE-SAD flag without hangover, LR channels Q0*/ Word32 band_energies_LR_fx[2 * NB_BANDS], /* o : energy in critical bands without minimum noise floor E_MIN (band_energies_LR_fx_q)*/ Word16 band_energies_LR_fx_q, - const Word16 flag_16k_smc, /* i : flag to indicate if the OL SMC is run at 16 kHz Q0*/ - const Word16 front_vad_flag, /* i : front-VAD flag to overwrite VAD decision Q0*/ - const Word16 force_front_vad, /* i : flag to force VAD decision Q0*/ - const Word16 front_vad_dtx_flag, /* i : front-VAD DTX flag to overwrite VAD decision Q0*/ - const IVAS_FORMAT ivas_format, /* i : IVAS format */ - const Word16 MCT_flag, /* i : hMCT handle allocated (1) or not (0) Q0*/ -#ifdef NONBE_1211_DTX_BR_SWITCHING + const Word16 flag_16k_smc, /* i : flag to indicate if the OL SMC is run at 16 kHz Q0*/ + const Word16 front_vad_flag, /* i : front-VAD flag to overwrite VAD decision Q0*/ + const Word16 force_front_vad, /* i : flag to force VAD decision Q0*/ + const Word16 front_vad_dtx_flag, /* i : front-VAD DTX flag to overwrite VAD decision Q0*/ + const IVAS_FORMAT ivas_format, /* i : IVAS format */ + const Word16 MCT_flag, /* i : hMCT handle allocated (1) or not (0) Q0*/ const Word32 last_ivas_total_brate, /* i : last IVAS total bitrate Q0*/ -#endif - const Word32 ivas_total_brate, /* i : IVAS total bitrate - for setting the DTX Q0*/ + const Word32 ivas_total_brate, /* i : IVAS total bitrate - for setting the DTX Q0*/ Word16 *Q_new #ifdef DEBUG_MODE_INFO , @@ -154,26 +149,6 @@ ivas_error pre_proc_front_ivas_fx( { st = hCPE->hCoreCoder[n]; } - Word16 old_inp_12k8_e; - Word16 shift = getScaleFactor16( st->old_inp_12k8_fx, 240 ); - Scale_sig( st->old_inp_12k8_fx, 240, shift ); /* exp(st->exp_old_inp_12k8 - shift) */ - st->exp_old_inp_12k8 = sub( st->exp_old_inp_12k8, shift ); - move16(); - shift = getScaleFactor16( old_inp_12k8_fx, 496 ); - Scale_sig( old_inp_12k8_fx, 496, shift ); /* exp(16 - shift) */ - old_inp_12k8_e = sub( Q16, shift ); - IF( GT_16( old_inp_12k8_e, st->exp_old_inp_12k8 ) ) - { - Scale_sig( st->old_inp_12k8_fx, 240, sub( st->exp_old_inp_12k8, old_inp_12k8_e ) ); /* exp(old_inp_12k8_e) */ - st->exp_old_inp_12k8 = old_inp_12k8_e; - move16(); - } - ELSE - { - Scale_sig( old_inp_12k8_fx, 496, sub( old_inp_12k8_e, st->exp_old_inp_12k8 ) ); /* exp(st->exp_old_inp_12k8) */ - old_inp_12k8_e = st->exp_old_inp_12k8; - move16(); - } Word16 q_tmpN_LR[CPE_CHANNELS]; Word16 q_tmpE_LR[CPE_CHANNELS]; @@ -215,10 +190,6 @@ ivas_error pre_proc_front_ivas_fx( Word16 new_inp_out_size; Word16 Q_new_inp; Word16 mem_decim_size; -#ifndef REMOVE_IVAS_UNUSED_PARAMETERS_WARNING - Word16 Q_new; - Word16 corr_shift_fx; -#endif Word16 dummy_fx; Word16 ncharX_fx; @@ -251,6 +222,7 @@ ivas_error pre_proc_front_ivas_fx( Word16 imagBuffer16[CLDFB_NO_COL_MAX][CLDFB_NO_CHANNELS_MAX]; Word16 res_cod_SNR_M_fx_e[STEREO_DFT_BAND_MAX]; Word16 Qfact_PS, q_lf_E_fx; + Word16 enerBuffer_fx_exp_buf[CLDFB_NO_CHANNELS_MAX]; #ifdef DEBUG_MODE_INFO Word32 *in_buff_temp; Word16 in_q_temp; @@ -260,51 +232,29 @@ ivas_error pre_proc_front_ivas_fx( temp1F_icatdmResampBuf_fx = (Word16 *) malloc( 45 * sizeof( Word16 * ) ); set16_fx( fft_buff_fx, 0, 512 ); - IF( hSCE != NULL ) - { -#ifdef FIX_ISSUE_1237 - Copy_Scale_sig_16_32_no_sat( hSCE->hCoreCoder[n]->input_fx, hSCE->hCoreCoder[n]->input32_fx, input_frame, sub( Q11, hSCE->hCoreCoder[n]->q_inp ) ); /* Q11 */ - Copy_Scale_sig_16_32_no_sat( hSCE->hCoreCoder[n]->input_fx - input_frame, hSCE->hCoreCoder[n]->input32_fx - input_frame, input_frame, sub( Q11, hSCE->hCoreCoder[n]->q_old_inp ) ); /* Q11 */ -#else - Copy_Scale_sig_16_32_DEPREC( hSCE->hCoreCoder[n]->input_fx, hSCE->hCoreCoder[n]->input32_fx, input_frame, sub( Q11, hSCE->hCoreCoder[n]->q_inp ) ); /* Q11 */ - Copy_Scale_sig_16_32_DEPREC( hSCE->hCoreCoder[n]->input_fx - input_frame, hSCE->hCoreCoder[n]->input32_fx - input_frame, input_frame, sub( Q11, hSCE->hCoreCoder[n]->q_old_inp ) ); /* Q11 */ -#endif - hSCE->hCoreCoder[n]->q_inp32 = Q11; - move16(); - Scale_sig( hSCE->hCoreCoder[n]->input_fx, input_frame, sub( -1, hSCE->hCoreCoder[n]->q_inp ) ); /* Q(-1) */ - hSCE->hCoreCoder[n]->q_inp = -1; - move16(); - Scale_sig( hSCE->hCoreCoder[n]->old_input_signal_fx, input_frame, sub( -1, hSCE->hCoreCoder[n]->q_old_inp ) ); /* Q(-1) */ - hSCE->hCoreCoder[n]->q_old_inp = -1; - move16(); + Word16 Q_min = add( sub( 15, st->exp_old_inp_12k8 ), norm_arr( st->old_inp_12k8_fx, L_INP_MEM ) ); + Word16 input_frame_full = shl( input_frame, 1 ); //(old frame input length + new frame input length) + Q_min = s_min( Q_min, sub( add( getScaleFactor32( st->input32_fx - input_frame, input_frame_full ), st->q_inp32 ), 16 ) ); + Q_min = s_max( -1, Q_min ); + Copy_Scale_sig_32_16( st->input32_fx - input_frame, st->input_fx - input_frame, input_frame_full, sub( Q_min, st->q_inp32 ) ); // Q_min + st->q_inp = Q_min; + move16(); + st->q_old_inp = Q_min; + move16(); #ifdef DEBUG_MODE_INFO + IF( hSCE != NULL ) + { in_buff_temp = hSCE->hCoreCoder[n]->input32_fx; in_q_temp = hSCE->hCoreCoder[n]->q_inp32; -#endif } ELSE { -#ifdef FIX_ISSUE_1237 - Copy_Scale_sig_16_32_no_sat( hCPE->hCoreCoder[n]->input_fx, hCPE->hCoreCoder[n]->input32_fx, input_frame, sub( Q11, hCPE->hCoreCoder[n]->q_inp ) ); /* Q11 */ - Copy_Scale_sig_16_32_no_sat( hCPE->hCoreCoder[n]->input_fx - input_frame, hCPE->hCoreCoder[n]->input32_fx - input_frame, input_frame, sub( Q11, hCPE->hCoreCoder[n]->q_old_inp ) ); /* Q11 */ -#else - Copy_Scale_sig_16_32_DEPREC( hCPE->hCoreCoder[n]->input_fx, hCPE->hCoreCoder[n]->input32_fx, input_frame, sub( Q11, hCPE->hCoreCoder[n]->q_inp ) ); /* Q11 */ - Copy_Scale_sig_16_32_DEPREC( hCPE->hCoreCoder[n]->input_fx - input_frame, hCPE->hCoreCoder[n]->input32_fx - input_frame, input_frame, sub( Q11, hCPE->hCoreCoder[n]->q_old_inp ) ); /* Q11 */ -#endif - hCPE->hCoreCoder[n]->q_inp32 = Q11; - move16(); - Scale_sig( hCPE->hCoreCoder[n]->input_fx, input_frame, sub( -1, hCPE->hCoreCoder[n]->q_inp ) ); /* Q(-1) */ - hCPE->hCoreCoder[n]->q_inp = -1; - move16(); - Scale_sig( hCPE->hCoreCoder[n]->old_input_signal_fx, input_frame, sub( -1, hCPE->hCoreCoder[n]->q_old_inp ) ); /* Q(-1) */ - hCPE->hCoreCoder[n]->q_old_inp = -1; - move16(); -#ifdef DEBUG_MODE_INFO in_buff_temp = hCPE->hCoreCoder[n]->input32_fx; in_q_temp = hCPE->hCoreCoder[n]->q_inp32; -#endif } +#endif + #ifdef DEBUG_MODE_INFO if ( !( hCPE != NULL && hCPE->hStereoTD != NULL && ch_idx > 0 ) ) @@ -319,16 +269,14 @@ ivas_error pre_proc_front_ivas_fx( } #endif -#ifdef MSAN_FIX FOR( Word16 k = 0; k < CLDFB_NO_COL_MAX; k++ ) { set32_fx( realBuffer_fx[k], 0, CLDFB_NO_CHANNELS_MAX ); set32_fx( imagBuffer_fx[k], 0, CLDFB_NO_CHANNELS_MAX ); } -#endif Word16 sf_energySum[CLDFB_NO_CHANNELS_MAX]; - Word16 Q_to_be_looked_into = -1; + Word16 Q_inp_const = -1; move16(); Word16 headroom = 0, preemp_len = 0, inp_max = 0; move16(); @@ -368,9 +316,6 @@ ivas_error pre_proc_front_ivas_fx( IF( hSCE != NULL ) { st = hSCE->hCoreCoder[n]; -#ifndef REMOVE_IVAS_UNUSED_PARAMETERS_WARNING - signal_in = hSCE->hCoreCoder[n]->input; -#endif signal_in_fx = hSCE->hCoreCoder[n]->input_fx; /* hSCE->hCoreCoder[n]->q_inp */ signal32_in_fx = hSCE->hCoreCoder[n]->input32_fx; /* hSCE->hCoreCoder[n]->q_inp32 */ element_mode = IVAS_SCE; @@ -384,9 +329,6 @@ ivas_error pre_proc_front_ivas_fx( ELSE /* CPE */ { st = hCPE->hCoreCoder[n]; -#ifndef REMOVE_IVAS_UNUSED_PARAMETERS_WARNING - signal_in = hCPE->hCoreCoder[n]->input; -#endif signal_in_fx = hCPE->hCoreCoder[n]->input_fx; /* hSCE->hCoreCoder[n]->q_inp */ signal32_in_fx = hCPE->hCoreCoder[n]->input32_fx; /* hSCE->hCoreCoder[n]->q_inp32 */ element_mode = hCPE->element_mode; @@ -432,7 +374,7 @@ ivas_error pre_proc_front_ivas_fx( IF( EQ_16( element_mode, IVAS_CPE_TD ) || EQ_16( element_mode, IVAS_CPE_MDCT ) ) { lMemRecalc = NS2SA_FX2( st->input_Fs, L_MEM_RECALC_NS ); - lMemRecalc_12k8 = NS2SA_FX2( INT_FS_12k8, L_MEM_RECALC_NS ); + lMemRecalc_12k8 = NS2SA( INT_FS_12k8, L_MEM_RECALC_NS ); } input_Fs = st->input_Fs; /* Q0 */ @@ -483,11 +425,6 @@ ivas_error pre_proc_front_ivas_fx( L_look = L_LOOK_12k8; /* lookahead at 12.8kHz */ move16(); - Scale_sig( old_inp_12k8_fx, L_INP_12k8, sub( Q_to_be_looked_into, sub( Q15, old_inp_12k8_e ) ) ); /* Q_to_be_looked_into*/ - old_inp_12k8_e = sub( Q15, Q_to_be_looked_into ); - Scale_sig( st->old_inp_12k8_fx, 240, sub( Q_to_be_looked_into, sub( Q15, st->exp_old_inp_12k8 ) ) ); /* Q_to_be_looked_into */ - st->exp_old_inp_12k8 = sub( Q15, Q_to_be_looked_into ); - move16(); new_inp_12k8_fx = old_inp_12k8_fx + L_INP_MEM; /* pointer to new samples of the input signal in 12.8kHz core */ inp_12k8_fx = new_inp_12k8_fx - L_look; /* pointer to the current frame of input signal in 12.8kHz core */ @@ -498,15 +435,15 @@ ivas_error pre_proc_front_ivas_fx( IF( EQ_16( element_mode, IVAS_CPE_DFT ) ) { - Copy( st->old_inp_12k8_fx, old_inp_12k8_fx, L_INP_MEM - STEREO_DFT_OVL_12k8 ); /* exp(st->exp_old_inp_12k8) */ + Copy_Scale_sig( st->old_inp_12k8_fx, old_inp_12k8_fx, L_INP_MEM - STEREO_DFT_OVL_12k8, sub( st->q_inp, sub( Q15, st->exp_old_inp_12k8 ) ) ); /* st->q_inp */ } ELSE IF( EQ_16( element_mode, IVAS_CPE_TD ) ) { - Copy( st->old_inp_12k8_fx, old_inp_12k8_fx, sub( L_INP_MEM - L_FILT, lMemRecalc_12k8 ) ); /* exp(st->exp_old_inp_12k8) */ + Copy_Scale_sig( st->old_inp_12k8_fx, old_inp_12k8_fx, sub( L_INP_MEM - L_FILT, lMemRecalc_12k8 ), sub( st->q_inp, sub( Q15, st->exp_old_inp_12k8 ) ) ); /* st->q_inp */ } ELSE { - Copy( st->old_inp_12k8_fx, old_inp_12k8_fx, L_INP_MEM - L_FILT ); /* exp(st->exp_old_inp_12k8) */ + Copy_Scale_sig( st->old_inp_12k8_fx, old_inp_12k8_fx, L_INP_MEM - L_FILT, sub( st->q_inp, sub( Q15, st->exp_old_inp_12k8 ) ) ); /* st->q_inp */ } Copy( st->old_wsp_fx, old_wsp_fx, L_WSP_MEM ); /* exp(st->exp_old_wsp) */ @@ -531,16 +468,22 @@ ivas_error pre_proc_front_ivas_fx( test(); IF( EQ_16( element_mode, IVAS_SCE ) || ( EQ_16( element_mode, IVAS_CPE_MDCT ) && st->Opt_DTX_ON ) ) { - analysisCldfbEncoder_ivas_fx( st, signal32_in_fx, 11, input_frame, realBuffer_fx, imagBuffer_fx, realBuffer16, imagBuffer16, enerBuffer_fx, enerBuffer_fx_exp, &cldfbScale ); + scale_sig32( signal32_in_fx - input_frame, input_frame_full, sub( 11, st->q_inp32 ) ); // Q11 + st->q_inp32 = 11; + move16(); + analysisCldfbEncoder_ivas_fx( st, signal32_in_fx, st->q_inp32, input_frame, realBuffer_fx, imagBuffer_fx, realBuffer16, imagBuffer16, enerBuffer_fx, enerBuffer_fx_exp, &cldfbScale ); } ELSE IF( ( EQ_16( element_mode, IVAS_CPE_TD ) && st->idchan == 0 ) || ( EQ_16( st->idchan, 1 ) && st->tdm_LRTD_flag ) ) { /* cldfb analysis only for pri. channel */ - analysisCldfbEncoder_ivas_fx( st, signal32_in_fx - NS2SA_FX2( input_Fs, L_MEM_RECALC_TBE_NS ), 11, input_frame, realBuffer_fx, imagBuffer_fx, realBuffer16, imagBuffer16, enerBuffer_fx, enerBuffer_fx_exp, &cldfbScale ); + scale_sig32( signal32_in_fx - input_frame, input_frame_full, sub( 11, st->q_inp32 ) ); // Q11 + st->q_inp32 = 11; + move16(); + analysisCldfbEncoder_ivas_fx( st, signal32_in_fx - NS2SA_FX2( input_Fs, L_MEM_RECALC_TBE_NS ), st->q_inp32, input_frame, realBuffer_fx, imagBuffer_fx, realBuffer16, imagBuffer16, enerBuffer_fx, enerBuffer_fx_exp, &cldfbScale ); } ELSE IF( EQ_16( element_mode, IVAS_CPE_DFT ) ) { - calculate_energy_buffer_ivas_fx( hCPE, enerBuffer_fx, st->cldfbAnaEnc->no_channels, input_Fs, enerBuffer_fx_exp ); + calculate_energy_buffer_ivas_fx( hCPE, enerBuffer_fx, st->cldfbAnaEnc->no_channels, input_Fs, enerBuffer_fx_exp_buf ); } ELSE { @@ -557,16 +500,17 @@ ivas_error pre_proc_front_ivas_fx( * (if not available from downsampled DMX) *----------------------------------------------------------------*/ + Scale_sig( st->mem_decim_fx, 2 * L_FILT_MAX, sub( st->q_inp, Q_inp_const ) ); /* st->q_inp */ test(); IF( EQ_16( element_mode, IVAS_SCE ) ) { - new_inp_out_size = modify_Fs_ivas_fx( signal_in_fx, input_frame, input_Fs, new_inp_12k8_fx, INT_FS_12k8, st->mem_decim_fx, ( st->max_bwidth == NB ), &Q_new_inp, &mem_decim_size ); /* Q0 */ - Scale_sig( new_inp_12k8_fx, new_inp_out_size, negate( Q_new_inp ) ); /* scaling back to Q_to_be_looked_into*/ + new_inp_out_size = modify_Fs_ivas_fx( signal_in_fx, input_frame, input_Fs, new_inp_12k8_fx, INT_FS_12k8, st->mem_decim_fx, ( st->max_bwidth == NB ), &Q_new_inp, &mem_decim_size ); /* st->q_inp */ + Scale_sig( new_inp_12k8_fx, new_inp_out_size, negate( Q_new_inp ) ); /* scaling back to st->q_inp*/ Copy( st->mem_decim_fx, mem_decim_dummy_fx, 2 * L_FILT_MAX ); /* Q(-1) */ set16_fx( temp1F_icatdmResampBuf_fx, 0, L_FILT_MAX ); - new_inp_out_size = modify_Fs_ivas_fx( temp1F_icatdmResampBuf_fx, NS2SA_FX2( st->input_Fs, DELAY_FIR_RESAMPL_NS ), input_Fs, new_inp_12k8_fx + L_FRAME, INT_FS_12k8, mem_decim_dummy_fx, 0, &Q_new_inp, &mem_decim_size ); /* Q0 */ - Scale_sig( new_inp_12k8_fx + L_FRAME, new_inp_out_size, negate( Q_new_inp ) ); /* scaling back to Q_to_be_looked_into*/ + new_inp_out_size = modify_Fs_ivas_fx( temp1F_icatdmResampBuf_fx, NS2SA_FX2( st->input_Fs, DELAY_FIR_RESAMPL_NS ), input_Fs, new_inp_12k8_fx + L_FRAME, INT_FS_12k8, mem_decim_dummy_fx, 0, &Q_new_inp, &mem_decim_size ); /* st->q_inp */ + Scale_sig( new_inp_12k8_fx + L_FRAME, new_inp_out_size, negate( Q_new_inp ) ); /* scaling back to st->q_inp*/ } ELSE IF( EQ_16( element_mode, IVAS_CPE_TD ) || EQ_16( element_mode, IVAS_CPE_MDCT ) ) { @@ -575,29 +519,40 @@ ivas_error pre_proc_front_ivas_fx( IF( EQ_16( hCPE->last_element_mode, IVAS_CPE_DFT ) && EQ_16( st->idchan, 1 ) ) { Word16 length_inp = NS2SA_FX2( input_Fs, L_MEM_RECALC_SCH_NS ); - Word16 length_12k8 = NS2SA_FX2( INT_FS_12k8, L_MEM_RECALC_SCH_NS ); + Word16 length_12k8 = NS2SA( INT_FS_12k8, L_MEM_RECALC_SCH_NS ); - new_inp_out_size = modify_Fs_ivas_fx( signal_in_fx - lMemRecalc - length_inp, length_inp, input_Fs, new_inp_12k8_fx - lMemRecalc_12k8 - length_12k8, INT_FS_12k8, st->mem_decim_fx, 0, &Q_new_inp, &mem_decim_size ); /* Q0 */ - Scale_sig( new_inp_12k8_fx - lMemRecalc_12k8 - length_12k8, new_inp_out_size, negate( Q_new_inp ) ); /* scaling back to Q_to_be_looked_into*/ + new_inp_out_size = modify_Fs_ivas_fx( signal_in_fx - lMemRecalc - length_inp, length_inp, input_Fs, new_inp_12k8_fx - lMemRecalc_12k8 - length_12k8, INT_FS_12k8, st->mem_decim_fx, 0, &Q_new_inp, &mem_decim_size ); /* st->q_inp */ + Scale_sig( new_inp_12k8_fx - lMemRecalc_12k8 - length_12k8, new_inp_out_size, negate( Q_new_inp ) ); /* scaling back to st->q_inp*/ } - new_inp_out_size = modify_Fs_ivas_fx( signal_in_fx - lMemRecalc, input_frame, input_Fs, new_inp_12k8_fx - lMemRecalc_12k8, INT_FS_12k8, st->mem_decim_fx, ( st->max_bwidth == NB ), &Q_new_inp, &mem_decim_size ); /* Q0 */ - Copy( st->mem_decim_fx, mem_decim_dummy_fx, 2 * L_FILT_MAX ); /* Q(-1) */ - Scale_sig( new_inp_12k8_fx - lMemRecalc_12k8, new_inp_out_size, negate( Q_new_inp ) ); /* scaling back to Q_to_be_looked_into*/ + new_inp_out_size = modify_Fs_ivas_fx( signal_in_fx - lMemRecalc, input_frame, input_Fs, new_inp_12k8_fx - lMemRecalc_12k8, INT_FS_12k8, st->mem_decim_fx, ( st->max_bwidth == NB ), &Q_new_inp, &mem_decim_size ); /* st->q_inp */ + Copy( st->mem_decim_fx, mem_decim_dummy_fx, 2 * L_FILT_MAX ); /* st->q_inp */ + Scale_sig( new_inp_12k8_fx - lMemRecalc_12k8, new_inp_out_size, negate( Q_new_inp ) ); /* scaling back to st->q_inp*/ IF( lMemRecalc > 0 ) { - new_inp_out_size = modify_Fs_ivas_fx( signal_in_fx + sub( input_frame, lMemRecalc ), lMemRecalc, input_Fs, new_inp_12k8_fx + sub( L_FRAME, lMemRecalc_12k8 ), INT_FS_12k8, mem_decim_dummy_fx, ( st->max_bwidth == NB ), &Q_new_inp, &mem_decim_size ); /* Q0 */ - Scale_sig( new_inp_12k8_fx + L_FRAME - lMemRecalc_12k8, new_inp_out_size, negate( Q_new_inp ) ); /* scaling back to Q_to_be_looked_into*/ + new_inp_out_size = modify_Fs_ivas_fx( signal_in_fx + sub( input_frame, lMemRecalc ), lMemRecalc, input_Fs, new_inp_12k8_fx + sub( L_FRAME, lMemRecalc_12k8 ), INT_FS_12k8, mem_decim_dummy_fx, ( st->max_bwidth == NB ), &Q_new_inp, &mem_decim_size ); /* st->q_inp */ + Scale_sig( new_inp_12k8_fx + L_FRAME - lMemRecalc_12k8, new_inp_out_size, negate( Q_new_inp ) ); /* scaling back to st->q_inp*/ } set16_fx( temp1F_icatdmResampBuf_fx, 0, L_FILT_MAX ); - new_inp_out_size = modify_Fs_ivas_fx( temp1F_icatdmResampBuf_fx, NS2SA_FX2( input_Fs, DELAY_FIR_RESAMPL_NS ), input_Fs, new_inp_12k8_fx + L_FRAME, INT_FS_12k8, mem_decim_dummy_fx, 0, &Q_new_inp, &mem_decim_size ); /* Q0 */ - Scale_sig( new_inp_12k8_fx + L_FRAME, new_inp_out_size, negate( Q_new_inp ) ); /* scaling back to Q_to_be_looked_into*/ + new_inp_out_size = modify_Fs_ivas_fx( temp1F_icatdmResampBuf_fx, NS2SA_FX2( input_Fs, DELAY_FIR_RESAMPL_NS ), input_Fs, new_inp_12k8_fx + L_FRAME, INT_FS_12k8, mem_decim_dummy_fx, 0, &Q_new_inp, &mem_decim_size ); /* st->q_inp */ + Scale_sig( new_inp_12k8_fx + L_FRAME, new_inp_out_size, negate( Q_new_inp ) ); /* scaling back to st->q_inp*/ } ELSE /* DFT stereo */ { /* update the FIR resampling filter memory, needed for switching to time-domain (FIR) resampling */ - Copy( signal_in_fx + sub( input_frame, add( NS2SA_FX2( input_Fs, L_MEM_RECALC_NS ), 2 * NS2SA( input_Fs, DELAY_FIR_RESAMPL_NS ) ) ), st->mem_decim_fx, 2 * NS2SA_FX2( input_Fs, DELAY_FIR_RESAMPL_NS ) ); /* hSCE->hCoreCoder[n]->q_inp */ + Copy( signal_in_fx + sub( input_frame, add( NS2SA_FX2( input_Fs, L_MEM_RECALC_NS ), 2 * NS2SA_FX2( input_Fs, DELAY_FIR_RESAMPL_NS ) ) ), st->mem_decim_fx, 2 * NS2SA_FX2( input_Fs, DELAY_FIR_RESAMPL_NS ) ); /* st->q_inp */ + scale_sig( old_inp_12k8_fx, L_INP_MEM - STEREO_DFT_OVL_12k8, sub( Q_inp_const, st->q_inp ) ); + scale_sig( st->input_fx - input_frame, input_frame_full, sub( Q_inp_const, st->q_inp ) ); + Scale_sig( st->mem_decim_fx, 2 * L_FILT_MAX, sub( Q_inp_const, st->q_inp ) ); /* Q(-1) */ + st->q_inp = Q_inp_const; + move16(); + st->q_old_inp = Q_inp_const; + move16(); + } + IF( NE_16( Q_inp_const, st->q_inp ) ) + { + Scale_sig( st->mem_decim_fx, 2 * L_FILT_MAX, sub( Q_inp_const, st->q_inp ) ); /* Q(-1) */ } Scale_sig( st->buf_speech_enc, L_PAST_MAX_32k + L_FRAME32k + L_NEXT_MAX_32k, sub( -1, sub( 15, st->exp_buf_speech_enc ) ) ); /* Q(-1) */ @@ -608,15 +563,15 @@ ivas_error pre_proc_front_ivas_fx( test(); IF( EQ_16( element_mode, IVAS_CPE_DFT ) ) { - Copy( new_inp_12k8_fx - STEREO_DFT_OVL_12k8, st->buf_speech_enc + L_FRAME32k - STEREO_DFT_OVL_12k8, L_FRAME + STEREO_DFT_OVL_12k8 ); /* Q_to_be_looked_into */ + Copy_Scale_sig( new_inp_12k8_fx - STEREO_DFT_OVL_12k8, st->buf_speech_enc + L_FRAME32k - STEREO_DFT_OVL_12k8, L_FRAME + STEREO_DFT_OVL_12k8, sub( Q_inp_const, st->q_inp ) ); /* Q_inp_const */ } ELSE IF( EQ_16( element_mode, IVAS_CPE_TD ) || EQ_16( element_mode, IVAS_CPE_MDCT ) ) { - Copy( new_inp_12k8_fx - lMemRecalc_12k8, st->buf_speech_enc + L_FRAME32k - lMemRecalc_12k8 - L_FILT, add( L_FRAME + L_FILT, lMemRecalc_12k8 ) ); /* Q_to_be_looked_into */ + Copy_Scale_sig( new_inp_12k8_fx - lMemRecalc_12k8, st->buf_speech_enc + L_FRAME32k - lMemRecalc_12k8 - L_FILT, add( L_FRAME + L_FILT, lMemRecalc_12k8 ), sub( Q_inp_const, st->q_inp ) ); /* Q_inp_const */ } ELSE { - Copy( new_inp_12k8_fx, st->buf_speech_enc + L_FRAME32k, L_FRAME ); /* Q_to_be_looked_into */ + Copy_Scale_sig( new_inp_12k8_fx, st->buf_speech_enc + L_FRAME32k, L_FRAME, sub( Q_inp_const, st->q_inp ) ); /* Q_inp_const */ } /*------------------------------------------------------------------* @@ -631,14 +586,18 @@ ivas_error pre_proc_front_ivas_fx( move16(); + st->mem_preemph_fx = shl_sat( st->mem_preemph_fx, sub( st->q_inp, -1 ) ); /*st->q_inp*/ + move16(); + st->mem_preemph_DFT_fx = shl_sat( st->mem_preemph_DFT_fx, sub( st->q_inp, -1 ) ); /*st->q_inp*/ + move16(); test(); IF( EQ_16( element_mode, IVAS_CPE_DFT ) ) { - Copy( new_inp_12k8_fx - STEREO_DFT_OVL_12k8 + L_FRAME, st->inp_12k8_mem_stereo_sw_fx, STEREO_DFT_OVL_12k8 - L_MEM_RECALC_12K8 - L_FILT ); /* memory for TD/DFT stereo switching Q_to_be_looked_into*/ + Copy_Scale_sig( new_inp_12k8_fx - STEREO_DFT_OVL_12k8 + L_FRAME, st->inp_12k8_mem_stereo_sw_fx, STEREO_DFT_OVL_12k8 - L_MEM_RECALC_12K8 - L_FILT, sub( Q_inp_const, st->q_inp ) ); /* memory for TD/DFT stereo switching Q_inp_const*/ - st->mem_preemph_fx = st->mem_preemph_DFT_fx; /* Q(-1) */ + st->mem_preemph_fx = st->mem_preemph_DFT_fx; /* st->q_inp */ move16(); - st->mem_preemph_DFT_fx = old_inp_12k8_fx[L_INP_MEM - STEREO_DFT_OVL_12k8 + L_FRAME - 1]; /* Q_new - 1 */ + st->mem_preemph_DFT_fx = old_inp_12k8_fx[L_INP_MEM - STEREO_DFT_OVL_12k8 + L_FRAME - 1]; /* st->q_inp */ move16(); // PREEMPH_FX( new_inp_12k8_fx - STEREO_DFT_OVL_12k8, PREEMPH_FAC, L_FRAME, &st->mem_preemph_fx ); @@ -659,9 +618,9 @@ ivas_error pre_proc_front_ivas_fx( { IF( EQ_16( hCPE->last_element_mode, IVAS_CPE_DFT ) ) { - st->mem_preemph_fx = st->mem_preemph_DFT_fx; + st->mem_preemph_fx = st->mem_preemph_DFT_fx; /* st->q_inp */ move16(); - Copy( st->inp_12k8_mem_stereo_sw_fx, new_inp_12k8_fx - L_MEM_RECALC_12K8 - ( STEREO_DFT_OVL_12k8 - L_MEM_RECALC_12K8 - L_FILT ), STEREO_DFT_OVL_12k8 - L_MEM_RECALC_12K8 - L_FILT ); /* Q(-1) */ + Copy_Scale_sig( st->inp_12k8_mem_stereo_sw_fx, new_inp_12k8_fx - L_MEM_RECALC_12K8 - ( STEREO_DFT_OVL_12k8 - L_MEM_RECALC_12K8 - L_FILT ), STEREO_DFT_OVL_12k8 - L_MEM_RECALC_12K8 - L_FILT, sub( st->q_inp, Q_inp_const ) ); /* st->q_inp */ // PREEMPH_FX( new_inp_12k8_fx - L_MEM_RECALC_12K8 - ( STEREO_DFT_OVL_12k8 - L_MEM_RECALC_12K8 - L_FILT ), PREEMPH_FAC, STEREO_DFT_OVL_12k8 - L_MEM_RECALC_12K8 - L_FILT, &st->mem_preemph_fx ); PREEMPH_32FX( new_inp_12k8_fx - L_MEM_RECALC_12K8 - ( STEREO_DFT_OVL_12k8 - L_MEM_RECALC_12K8 - L_FILT ), sig_out, PREEMPH_FAC, STEREO_DFT_OVL_12k8 - L_MEM_RECALC_12K8 - L_FILT, &st->mem_preemph_fx ); preemp_start_idx = new_inp_12k8_fx - L_MEM_RECALC_12K8 - ( STEREO_DFT_OVL_12k8 - L_MEM_RECALC_12K8 - L_FILT ); @@ -670,7 +629,7 @@ ivas_error pre_proc_front_ivas_fx( move16(); } - st->mem_preemph_DFT_fx = old_inp_12k8_fx[L_INP_MEM - STEREO_DFT_OVL_12k8 + L_FRAME - 1]; /* == inp_12k8[L_FRAME-1] Q_new - 1 */ + st->mem_preemph_DFT_fx = old_inp_12k8_fx[L_INP_MEM - STEREO_DFT_OVL_12k8 + L_FRAME - 1]; /* st->q_inp */ move16(); } @@ -678,7 +637,7 @@ ivas_error pre_proc_front_ivas_fx( test(); IF( EQ_16( hCPE->last_element_mode, IVAS_CPE_DFT ) && EQ_16( st->idchan, 1 ) ) { - Word16 length_12k8 = NS2SA_FX2( INT_FS_12k8, L_MEM_RECALC_SCH_NS ); + Word16 length_12k8 = NS2SA( INT_FS_12k8, L_MEM_RECALC_SCH_NS ); move16(); // PREEMPH_FX( new_inp_12k8_fx - lMemRecalc_12k8 - length_12k8, PREEMPH_FAC, length_12k8, &st->mem_preemph_fx ); PREEMPH_32FX( new_inp_12k8_fx - lMemRecalc_12k8 - length_12k8, sig_out, PREEMPH_FAC, length_12k8, &st->mem_preemph_fx ); @@ -689,7 +648,7 @@ ivas_error pre_proc_front_ivas_fx( // PREEMPH_FX( new_inp_12k8_fx - lMemRecalc_12k8, PREEMPH_FAC, L_FRAME, &st->mem_preemph_fx ); PREEMPH_32FX( new_inp_12k8_fx - lMemRecalc_12k8, sig_out + preemp_len, PREEMPH_FAC, L_FRAME, &st->mem_preemph_fx ); - dummy_fx = st->mem_preemph_fx; /* Q(-1) */ + dummy_fx = st->mem_preemph_fx; /* st->q_inp */ move16(); // PREEMPH_FX( new_inp_12k8_fx - lMemRecalc_12k8 + L_FRAME, PREEMPH_FAC, lMemRecalc_12k8 + L_FILT, &dummy_fx ); PREEMPH_32FX( new_inp_12k8_fx - lMemRecalc_12k8 + L_FRAME, sig_out + preemp_len + L_FRAME, PREEMPH_FAC, lMemRecalc_12k8 + L_FILT, &dummy_fx ); @@ -719,13 +678,16 @@ ivas_error pre_proc_front_ivas_fx( preemp_len = L_FRAME + L_FILT; move16(); } + st->mem_preemph_fx = shl_sat( st->mem_preemph_fx, sub( -1, st->q_inp ) ); /*Q(-1) saturation added as float value goes above 65536 for +10 dB test (ltv48_MC512.wav and ltv48_MC51.wav) */ + move16(); + st->mem_preemph_DFT_fx = shl( st->mem_preemph_DFT_fx, sub( -1, st->q_inp ) ); /*Q(-1)*/ + move16(); maximum_abs_32_fx( sig_out, preemp_len, &max_32 ); inp_max = s_max( extract_h( max_32 ), 1 ); - shift = sub( norm_s( inp_max ), headroom ); - Word16 Q_min; - shift = s_max( shift, -1 ); + Word16 shift = add( sub( norm_s( inp_max ), headroom ), st->q_inp ); + shift = s_max( shift, 0 ); shift = s_min( shift, Q_MAX ); minimum_fx( st->Q_max, L_Q_MEM, &Q_min ); *Q_new = s_min( shift, Q_min ); @@ -747,12 +709,12 @@ ivas_error pre_proc_front_ivas_fx( st->Q_max[i] = shift; move16(); - Copy_Scale_sig32_16( sig_out, preemp_start_idx, preemp_len, *Q_new ); /* Q_to_be_looked_into + Q_new */ + *Q_new = add( *Q_new, Q_inp_const ); + move16(); - Scale_sig( old_inp_12k8_fx, (Word16) ( preemp_start_idx - old_inp_12k8_fx ), *Q_new ); /* Q(-1) */ + Copy_Scale_sig32_16( sig_out, preemp_start_idx, preemp_len, sub( *Q_new, st->q_inp ) ); /* Q_new */ - *Q_new = add( *Q_new, Q_to_be_looked_into ); - move16(); + Scale_sig( old_inp_12k8_fx, (Word16) ( preemp_start_idx - old_inp_12k8_fx ), sub( *Q_new, st->q_inp ) ); /* Q_new */ cldfbScale.hb_scale = cldfbScale.lb_scale; move16(); @@ -813,14 +775,9 @@ ivas_error pre_proc_front_ivas_fx( move16(); } - Word16 scale = add( L_norm_arr( st->hNoiseEst->bckr_fx, NB_BANDS ), st->hNoiseEst->q_bckr ); - scale = s_min( scale, add( L_norm_arr( st->hNoiseEst->enrO_fx, NB_BANDS ), st->hNoiseEst->q_enrO ) ); + Word16 scale = add( L_norm_arr( st->hNoiseEst->enrO_fx, NB_BANDS ), st->hNoiseEst->q_enrO ); scale = s_min( scale, fr_bands_fx_q ); - scale_sig32( st->hNoiseEst->bckr_fx, NB_BANDS, sub( scale, st->hNoiseEst->q_bckr ) ); - st->hNoiseEst->q_bckr = scale; - move16(); - scale_sig32( st->hNoiseEst->enrO_fx, NB_BANDS, sub( scale, st->hNoiseEst->q_enrO ) ); st->hNoiseEst->q_enrO = scale; move16(); @@ -888,22 +845,38 @@ ivas_error pre_proc_front_ivas_fx( /*----------------------------------------------------------------* * NB/WB/SWB/FB bandwidth detector *----------------------------------------------------------------*/ - FOR( i = 0; i < CLDFB_NO_CHANNELS_MAX; i++ ) + + IF( EQ_16( element_mode, IVAS_CPE_DFT ) ) { - sf_energySum[i] = *enerBuffer_fx_exp; - move16(); + FOR( i = 0; i < CLDFB_NO_CHANNELS_MAX; i++ ) + { + sf_energySum[i] = enerBuffer_fx_exp_buf[i]; + move16(); + } + } + ELSE + { + set16_fx( sf_energySum, *enerBuffer_fx_exp, CLDFB_NO_CHANNELS_MAX ); } test(); IF( st->idchan == 0 && NE_16( element_mode, IVAS_CPE_MDCT ) ) { - Scale_sig( st->input_fx, 480, negate( Q_to_be_looked_into ) ); /*scaling from Q_to_be_looked_into to q0*/ - - bw_detect_fx( st, st->input_fx, NULL, enerBuffer_fx, sf_energySum, ivas_format, 0 ); + Word16 input_fx_tmp[480]; + Copy_Scale_sig( st->input_fx, input_fx_tmp, shr( input_frame, 1 ), negate( st->q_inp ) ); /*scaling from Q_inp_const to q0*/ - Scale_sig( st->input_fx, 480, Q_to_be_looked_into ); /*scaling back to Q_to_be_looked_into*/ + bw_detect_fx( st, input_fx_tmp, NULL, enerBuffer_fx, sf_energySum, ivas_format, 0, 0 ); } + IF( EQ_16( element_mode, IVAS_CPE_DFT ) ) + { + maximum_fx( sf_energySum, CLDFB_NO_CHANNELS_MAX, enerBuffer_fx_exp ); + FOR( i = 0; i < CLDFB_NO_CHANNELS_MAX; i++ ) + { + enerBuffer_fx[i] = L_shl( enerBuffer_fx[i], sub( sf_energySum[i], *enerBuffer_fx_exp ) ); + move32(); + } + } IF( NE_16( element_mode, IVAS_CPE_MDCT ) ) /* in MDCT stereo, set_bw_stereo() is used instead */ { @@ -939,44 +912,14 @@ ivas_error pre_proc_front_ivas_fx( * Correlation correction as a function of total noise level *----------------------------------------------------------------*/ - noise_est_down_ivas_fx( fr_bands_fx, fr_bands_fx_q, st->hNoiseEst->bckr_fx, tmpN_fx, tmpE_fx, st->min_band, st->max_band, + noise_est_down_ivas_fx( fr_bands_fx, fr_bands_fx_q, st->hNoiseEst->bckr_fx, &st->hNoiseEst->q_bckr, tmpN_fx, &q_tmpN, tmpE_fx, &q_tmpE, st->min_band, st->max_band, &st->hNoiseEst->totalNoise_fx, Etot_fx, &st->hNoiseEst->Etot_last_fx, &st->hNoiseEst->Etot_v_h2_fx ); - q_tmpN = fr_bands_fx_q; - q_tmpE = fr_bands_fx_q; - move16(); - move16(); test(); IF( lr_vad_enabled && st->idchan == 0 ) { - scale = add( L_norm_arr( hCPE->hFrontVad[0]->hNoiseEst->bckr_fx, NB_BANDS ), hCPE->hFrontVad[0]->hNoiseEst->q_bckr ); - scale = s_min( scale, add( L_norm_arr( hCPE->hFrontVad[1]->hNoiseEst->bckr_fx, NB_BANDS ), hCPE->hFrontVad[1]->hNoiseEst->q_bckr ) ); - scale = s_min( scale, add( L_norm_arr( fr_bands_LR_fx[0], 2 * NB_BANDS ), fr_bands_LR_fx_q[0] ) ); - scale = s_min( scale, add( L_norm_arr( fr_bands_LR_fx[1], 2 * NB_BANDS ), fr_bands_LR_fx_q[1] ) ); - - scale_sig32( fr_bands_LR_fx[0], 2 * NB_BANDS, sub( scale, fr_bands_LR_fx_q[0] ) ); - fr_bands_LR_fx_q[0] = scale; - move16(); - scale_sig32( fr_bands_LR_fx[1], 2 * NB_BANDS, sub( scale, fr_bands_LR_fx_q[1] ) ); - fr_bands_LR_fx_q[1] = scale; - move16(); - - scale_sig32( hCPE->hFrontVad[0]->hNoiseEst->bckr_fx, NB_BANDS, sub( scale, hCPE->hFrontVad[0]->hNoiseEst->q_bckr ) ); - hCPE->hFrontVad[0]->hNoiseEst->q_bckr = scale; - move16(); - scale_sig32( hCPE->hFrontVad[1]->hNoiseEst->bckr_fx, NB_BANDS, sub( scale, hCPE->hFrontVad[1]->hNoiseEst->q_bckr ) ); - hCPE->hFrontVad[1]->hNoiseEst->q_bckr = scale; - move16(); - - noise_est_down_ivas_fx( fr_bands_LR_fx[0], fr_bands_LR_fx_q[0], hCPE->hFrontVad[0]->hNoiseEst->bckr_fx, tmpN_LR_fx[0], tmpE_LR_fx[0], st->min_band, st->max_band, &hCPE->hFrontVad[0]->hNoiseEst->totalNoise_fx, Etot_LR_fx[0], &hCPE->hFrontVad[0]->hNoiseEst->Etot_last_fx, &hCPE->hFrontVad[0]->hNoiseEst->Etot_v_h2_fx ); - noise_est_down_ivas_fx( fr_bands_LR_fx[1], fr_bands_LR_fx_q[1], hCPE->hFrontVad[1]->hNoiseEst->bckr_fx, tmpN_LR_fx[1], tmpE_LR_fx[1], st->min_band, st->max_band, &hCPE->hFrontVad[1]->hNoiseEst->totalNoise_fx, Etot_LR_fx[1], &hCPE->hFrontVad[1]->hNoiseEst->Etot_last_fx, &hCPE->hFrontVad[1]->hNoiseEst->Etot_v_h2_fx ); - - q_tmpN_LR[0] = q_tmpE_LR[0] = scale; - move16(); - move16(); - q_tmpN_LR[1] = q_tmpE_LR[1] = scale; - move16(); - move16(); + noise_est_down_ivas_fx( fr_bands_LR_fx[0], fr_bands_LR_fx_q[0], hCPE->hFrontVad[0]->hNoiseEst->bckr_fx, &hCPE->hFrontVad[0]->hNoiseEst->q_bckr, tmpN_LR_fx[0], &q_tmpN_LR[0], tmpE_LR_fx[0], &q_tmpE_LR[0], st->min_band, st->max_band, &hCPE->hFrontVad[0]->hNoiseEst->totalNoise_fx, Etot_LR_fx[0], &hCPE->hFrontVad[0]->hNoiseEst->Etot_last_fx, &hCPE->hFrontVad[0]->hNoiseEst->Etot_v_h2_fx ); + noise_est_down_ivas_fx( fr_bands_LR_fx[1], fr_bands_LR_fx_q[1], hCPE->hFrontVad[1]->hNoiseEst->bckr_fx, &hCPE->hFrontVad[1]->hNoiseEst->q_bckr, tmpN_LR_fx[1], &q_tmpN_LR[1], tmpE_LR_fx[1], &q_tmpE_LR[1], st->min_band, st->max_band, &hCPE->hFrontVad[1]->hNoiseEst->totalNoise_fx, Etot_LR_fx[1], &hCPE->hFrontVad[1]->hNoiseEst->Etot_last_fx, &hCPE->hFrontVad[1]->hNoiseEst->Etot_v_h2_fx ); corr_shiftL_fx = correlation_shift_fx( hCPE->hFrontVad[0]->hNoiseEst->totalNoise_fx ); // Q15 corr_shiftR_fx = correlation_shift_fx( hCPE->hFrontVad[1]->hNoiseEst->totalNoise_fx ); // Q15 @@ -1018,14 +961,14 @@ ivas_error pre_proc_front_ivas_fx( Word16 msNoiseEst_Q = Q31; move16(); move16(); - zero_flag = get_zero_flag( st->hFdCngEnc->msNoiseEst_fx, NPART ); + zero_flag = get_zero_flag( st->hFdCngEnc->msNoiseEst_old_fx, NPART ); IF( zero_flag ) { - msNoiseEst_Q = getScaleFactor32( st->hFdCngEnc->msNoiseEst_fx, NPART ); + msNoiseEst_Q = getScaleFactor32( st->hFdCngEnc->msNoiseEst_old_fx, NPART ); + scale_sig32( st->hFdCngEnc->msNoiseEst_old_fx, NPART, msNoiseEst_Q ); /* exp(st->hFdCngEnc->msNoiseEst_old_fx_exp - msNoiseEst_Q) */ + st->hFdCngEnc->msNoiseEst_old_fx_exp = sub( st->hFdCngEnc->msNoiseEst_old_fx_exp, msNoiseEst_Q ); + move16(); } - Scale_sig32( st->hFdCngEnc->msNoiseEst_old_fx, NPART, msNoiseEst_Q ); /* exp(st->hFdCngEnc->msNoiseEst_old_fx_exp - msNoiseEst_Q) */ - st->hFdCngEnc->msNoiseEst_fx_exp = sub( st->hFdCngEnc->msNoiseEst_old_fx_exp, msNoiseEst_Q ); - move16(); perform_noise_estimation_enc_ivas_fx( band_energies_LR_fx, sub( Q31, band_energies_LR_fx_q ), enerBuffer_fx, *enerBuffer_fx_exp, st->hFdCngEnc, input_Fs, hCPE ); } ELSE @@ -1051,14 +994,14 @@ ivas_error pre_proc_front_ivas_fx( move16(); Word16 msNoiseEst_Q = Q31; move16(); - zero_flag = get_zero_flag( st->hFdCngEnc->msNoiseEst_fx, NPART ); /* Q0 */ + zero_flag = get_zero_flag( st->hFdCngEnc->msNoiseEst_old_fx, NPART ); /* Q0 */ IF( zero_flag ) { - msNoiseEst_Q = getScaleFactor32( st->hFdCngEnc->msNoiseEst_fx, NPART ); + msNoiseEst_Q = getScaleFactor32( st->hFdCngEnc->msNoiseEst_old_fx, NPART ); + scale_sig32( st->hFdCngEnc->msNoiseEst_old_fx, NPART, msNoiseEst_Q ); /* exp(st->hFdCngEnc->msNoiseEst_old_fx_exp - msNoiseEst_Q) */ + st->hFdCngEnc->msNoiseEst_old_fx_exp = sub( st->hFdCngEnc->msNoiseEst_old_fx_exp, msNoiseEst_Q ); + move16(); } - Scale_sig32( st->hFdCngEnc->msNoiseEst_old_fx, NPART, msNoiseEst_Q ); /* exp(st->hFdCngEnc->msNoiseEst_old_fx_exp - msNoiseEst_Q) */ - st->hFdCngEnc->msNoiseEst_fx_exp = sub( st->hFdCngEnc->msNoiseEst_old_fx_exp, msNoiseEst_Q ); - move16(); zero_flag = get_zero_flag( st->hFdCngEnc->hFdCngCom->periodog, PERIODOGLEN ); /* Q0 */ Word16 normmsperiodog = 31; move16(); @@ -1095,11 +1038,7 @@ ivas_error pre_proc_front_ivas_fx( move16(); } -#ifdef NONBE_1211_DTX_BR_SWITCHING dtx_ivas_fx( st, last_ivas_total_brate, ivas_total_brate, *vad_flag_dtx, inp_12k8_fx, *Q_new ); -#else - dtx_ivas_fx( st, ivas_total_brate, *vad_flag_dtx, inp_12k8_fx, *Q_new ); -#endif test(); test(); @@ -1187,10 +1126,8 @@ ivas_error pre_proc_front_ivas_fx( * LP analysis *----------------------------------------------------------------*/ Word16 stab_fac_fx; - Word16 Q_new_loc; Word16 Q_r[2]; set16_fx( Q_r, 0, 2 ); - Q_new_loc = *Q_new; move16(); alw_pitch_lag_12k8[0] = st->old_pitch_la; /* Q0 */ @@ -1214,7 +1151,7 @@ ivas_error pre_proc_front_ivas_fx( } analy_lp_ivas_fx( inp_12k8_fx, L_FRAME, L_look, ener_fx, A_fx, epsP_h, epsP_l, lsp_new_fx, lsp_mid_fx, st->lsp_old1_fx, alw_pitch_lag_12k8, alw_voicing_fx, - INT_FS_12k8, i, Q_new_loc, Q_r ); + INT_FS_12k8, i, *Q_new, Q_r ); FOR( Word16 idx = 0; idx < M + 1; idx++ ) { @@ -1269,21 +1206,10 @@ ivas_error pre_proc_front_ivas_fx( Word16 shift1 = norm_arr( old_wsp_fx, L_WSP_MEM ); Word16 shift2 = norm_arr( wsp_fx, L_WSP - L_WSP_MEM ); - maximum_abs_16_fx( old_wsp_fx, L_WSP_MEM, &shift ); - if ( !shift ) - { - shift1 = Q15; - move16(); - } - maximum_abs_16_fx( wsp_fx, L_WSP - L_WSP_MEM, &shift ); - if ( !shift ) - { - shift2 = Q15; - move16(); - } shift = s_min( add( *q_old_wsp, shift1 ), add( Q_wsp, shift2 ) ); shift = s_min( shift, add( norm_arr( st->mem_decim2_fx, 3 ), st->Q_old_wsp2 ) ); shift = s_min( shift, add( norm_arr( st->old_wsp2_fx, ( L_WSP_MEM - L_INTERPOL ) / OPL_DECIM ), st->Q_old_wsp2 ) ); + shift = s_min( shift, 15 ); scale_sig( old_wsp_fx, L_WSP_MEM, sub( shift, *q_old_wsp ) ); scale_sig( wsp_fx, L_WSP - L_WSP_MEM, sub( shift, Q_wsp ) ); @@ -1349,14 +1275,6 @@ ivas_error pre_proc_front_ivas_fx( /*------------------------------------------------------------------* * Update estimated noise energy and voicing cut-off frequency *-----------------------------------------------------------------*/ - { - // TODO: this scalings to be checked - scale = s_min( Q30, add( st->hNoiseEst->q_bckr, L_norm_arr( st->hNoiseEst->bckr_fx, NB_BANDS ) ) ); - scale = s_min( scale, sub( add( fr_bands_fx_q, L_norm_arr( fr_bands_fx, 2 * NB_BANDS ) ), 4 ) ); - scale_sig32( st->hNoiseEst->bckr_fx, NB_BANDS, sub( scale, st->hNoiseEst->q_bckr ) ); - scale_sig32( fr_bands_fx, 2 * NB_BANDS, sub( scale, fr_bands_fx_q ) ); - st->hNoiseEst->q_bckr = fr_bands_fx_q = scale; - } scale = s_min( Q31, s_min( add( q_tmpN, L_norm_arr( tmpN_fx, NB_BANDS ) ), add( st->hNoiseEst->q_bckr, L_norm_arr( st->hNoiseEst->bckr_fx, NB_BANDS ) ) ) ); scale = sub( scale, 1 ); // guard bits @@ -1467,11 +1385,7 @@ ivas_error pre_proc_front_ivas_fx( st->coder_type = find_uv_ivas_fx( st, pitch_fr_fx, voicing_fr_fx, inp_12k8_fx, ee_fx, &dE1X_fx, corr_shift_fx, *relE_fx, Etot_fx, hp_E_fx, &flag_spitch, last_core_orig, hStereoClassif, *Q_new /*q_inp_12k8*/, fr_bands_fx_q ); // Q0 -#ifdef FIX_ISSUE_1237 Copy_Scale_sig_16_32_no_sat( st->lgBin_E_fx, st->Bin_E_fx, L_FFT / 2, sub( st->q_Bin_E, Q7 ) ); -#else - Copy_Scale_sig_16_32_DEPREC( st->lgBin_E_fx, st->Bin_E_fx, L_FFT / 2, sub( st->q_Bin_E, Q7 ) ); -#endif #ifdef DEBUG_FORCE_DIR if ( st->force_dir[0] != '\0' ) @@ -1651,12 +1565,6 @@ ivas_error pre_proc_front_ivas_fx( move16(); } - IF( flag_16k_smc ) - { - Scale_sig( st->input_fx, input_frame, sub( -1, st->q_inp ) ); /* Q(-1) */ - st->q_inp = -1; - move16(); - } /* these are for ivas_acelp_tcx20_switching_fx */ Scale_sig32( st->hTcxEnc->spectrum_long_fx, N_MAX, sub( st->hTcxEnc->spectrum_long_e, 16 ) ); /* Q(-1) */ st->hTcxEnc->spectrum_long_e = 16; @@ -1667,6 +1575,12 @@ ivas_error pre_proc_front_ivas_fx( move16(); IF( flag_16k_smc ) { + Scale_sig( st->input_fx - input_frame, input_frame_full, sub( -1, st->q_inp ) ); /* Q(-1) */ + st->q_inp = -1; + move16(); + st->q_old_inp = -1; + move16(); + Word16 Q_old_inp_16k = -1; move16(); @@ -1702,7 +1616,7 @@ ivas_error pre_proc_front_ivas_fx( error = ivas_compute_core_buffers_fx( st, NULL, old_inp_16k_fx, NULL, input_frame, IVAS_SCE /*last_element_mode*/, INT_FS_16k /*sr_core_tmp*/, ener_fx, A_fx, Aw_fx, epsP_fx, - lsp_new_fx, lsp_mid_fx, Q_old_inp_16k, Q_r, Q_new, 1 ); + lsp_new_fx, lsp_mid_fx, Q_old_inp_16k, Q_r, Q_new ); IF( NE_32( error, IVAS_ERR_OK ) ) { return error; @@ -1713,7 +1627,7 @@ ivas_error pre_proc_front_ivas_fx( st->mem_wsp_enc = shl( st->mem_wsp_enc, sub( 0, sub( Q15, st->exp_buf_wspeech_enc ) ) ); // Q0 move16(); - *Q_new = add( *Q_new, Q_to_be_looked_into ); // actual Q_new + *Q_new = add( *Q_new, Q_inp_const ); // actual Q_new move16(); Scale_sig( old_inp_12k8_fx, L_INP_12k8, sub( *Q_new, Q_old_inp_12k8 ) ); /* Q_new */ @@ -1804,9 +1718,15 @@ ivas_error pre_proc_front_ivas_fx( st->exp_old_inp_12k8 = sub( Q15, add( *Q_new, shift ) ); move16(); + Scale_sig( st->input_fx - input_frame, input_frame_full, sub( -1, st->q_inp ) ); + st->q_inp = -1; + move16(); + st->q_old_inp = -1; + move16(); + // Scale_sig( old_inp_12k8_fx, L_INP_12k8, negate( add( *Q_new, 1 ) ) ); - *Q_new = sub( *Q_new, Q_to_be_looked_into ); // ivas_core_enc will assume inp signal (12k8 and 16k) in Q_new - 1 + *Q_new = sub( *Q_new, Q_inp_const ); // ivas_core_enc will assume inp signal (12k8 and 16k) in Q_new - 1 move16(); free( mem_decim_dummy_fx ); @@ -1888,21 +1808,16 @@ static void calculate_energy_buffer_ivas_fx( Word32 enerBuffer_dft_fx[], /* o : energy buffer() exp(enerBuffer_dft_e)*/ const Word16 no_channels, /* i : no. of used CLDFB channels Q0*/ const Word32 input_Fs, /* i : input sampling rate Q0*/ - Word16 *enerBuffer_dft_e ) + Word16 enerBuffer_dft_e[] ) { - Word16 i, j; + Word16 i, j, guard_bits; Word64 nrg_DMX_fx[CLDFB_NO_CHANNELS_MAX]; Word64 *p_nrg_DMX_fx; Word32 *pDFT_DMX_fx; /*q_DFT_DMX_fx*/ Word32 chan_width_bins_fx; Word16 band_res_dft_fx, chan_width_f_fx, start, stop; - Word16 norm_nrg_DMX_fx; - Word64 max_abs_nrg_DMX_fx; - Flag overflow = 0; - move32(); + Word16 norm_nrg_DMX_fx[CLDFB_NO_CHANNELS_MAX]; - max_abs_nrg_DMX_fx = 0; - move64(); Word16 temp_q1 = sub( norm_l( input_Fs ), 1 ); Word16 temp_q2 = norm_s( hCPE->hStereoDft->NFFT ); @@ -1916,47 +1831,46 @@ static void calculate_energy_buffer_ivas_fx( start = 1; move16(); - pDFT_DMX_fx = hCPE->hStereoDft->DFT_fx[0]; /*q_DFT_DMX_fx = 31-hCPE->hStereoDft->DFT_fx_e[0]*/ + guard_bits = add( find_guarded_bits_fx( extract_h( chan_width_bins_fx ) ), 1 ); /* Q0 */ + + pDFT_DMX_fx = hCPE->hStereoDft->DFT_fx[0]; /* q_DFT_DMX_fx = 31 - hCPE->hStereoDft->DFT_fx_e[0] */ p_nrg_DMX_fx = nrg_DMX_fx; - *p_nrg_DMX_fx = Mpy_32_32( pDFT_DMX_fx[0], pDFT_DMX_fx[0] ); /*2 * q_DFT_DMX_fx -31 */ + *p_nrg_DMX_fx = W_shr( W_mult_32_32( pDFT_DMX_fx[0], pDFT_DMX_fx[0] ), guard_bits ); /* 2 * q_DFT_DMX_fx + 1 - guard_bits */ move64(); FOR( i = 0; i < no_channels; i++ ) { - stop = extract_l( L_shr( L_add( Mpy_32_16_1( chan_width_bins_fx, add( i, 1 ) ), 1 ), 1 ) ); + stop = extract_l( L_shr( L_add( Mpy_32_16_1( chan_width_bins_fx, add( i, 1 ) ), 1 ), 1 ) ); /* Q0 */ FOR( j = start; j < stop; j++ ) { - *p_nrg_DMX_fx = W_add( *p_nrg_DMX_fx, Mpy_32_32( pDFT_DMX_fx[2 * j], pDFT_DMX_fx[2 * j] ) ); /*2 * q_DFT_DMX_fx -31 */ + *p_nrg_DMX_fx = W_add( *p_nrg_DMX_fx, W_shr( W_mult_32_32( pDFT_DMX_fx[2 * j], pDFT_DMX_fx[2 * j] ), guard_bits ) ); /* 2 * q_DFT_DMX_fx + 1 - guard_bits */ move64(); - *p_nrg_DMX_fx = W_add( *p_nrg_DMX_fx, Mpy_32_32( pDFT_DMX_fx[2 * j + 1], pDFT_DMX_fx[2 * j + 1] ) ); + *p_nrg_DMX_fx = W_add( *p_nrg_DMX_fx, W_shr( W_mult_32_32( pDFT_DMX_fx[2 * j + 1], pDFT_DMX_fx[2 * j + 1] ), guard_bits ) ); /* 2 * q_DFT_DMX_fx + 1 - guard_bits */ move64(); - // 2 * DFT_fx_e - } - IF( GT_64( W_abs( *p_nrg_DMX_fx ), max_abs_nrg_DMX_fx ) ) - { - max_abs_nrg_DMX_fx = W_abs( *p_nrg_DMX_fx ); } + norm_nrg_DMX_fx[i] = W_norm( W_abs( *p_nrg_DMX_fx ) ); + move16(); start = stop; move16(); p_nrg_DMX_fx++; } - norm_nrg_DMX_fx = W_norm( max_abs_nrg_DMX_fx ); FOR( i = 0; i < no_channels; i++ ) /* Consider only used channels, dependent on Fs */ { - enerBuffer_dft_fx[i] = W_extract_h( W_shl_o( nrg_DMX_fx[i], norm_nrg_DMX_fx, &overflow ) ) / 3; /*q_enerBuffer_dft_fx=2 * q_DFT_DMX_fx -31+ norm_nrg_DMX_fx -32*/ + enerBuffer_dft_fx[i] = Mpy_32_16_1( W_extract_h( W_shl( nrg_DMX_fx[i], norm_nrg_DMX_fx[i] ) ), 10923 /* 1/3 in Q15 */ ); /* 2 * q_DFT_DMX_fx + 1 - guard_bits + norm_nrg_DMX_fx[i] - 32 */ move32(); + enerBuffer_dft_e[i] = sub( add( shl( hCPE->hStereoDft->DFT_fx_e[0], 1 ), guard_bits ), norm_nrg_DMX_fx[i] ); + move16(); } - *enerBuffer_dft_e = sub( add( 32, shl( hCPE->hStereoDft->DFT_fx_e[0], 1 ) ), norm_nrg_DMX_fx ); /*31-q_enerBuffer_dft_fx*/ - move16(); - /* Set remaining entries of enerBuffer to zero */ FOR( ; i < CLDFB_NO_CHANNELS_MAX; i++ ) { enerBuffer_dft_fx[i] = 0; move32(); + enerBuffer_dft_e[i] = 0; + move16(); } return; } diff --git a/lib_enc/ivas_core_pre_proc.c b/lib_enc/ivas_core_pre_proc_fx.c similarity index 94% rename from lib_enc/ivas_core_pre_proc.c rename to lib_enc/ivas_core_pre_proc_fx.c index 96a3e110f28f5be2887867b4b1d13f6a714cfe65..781d290aca75f4549ce757d98faad2c652464777 100644 --- a/lib_enc/ivas_core_pre_proc.c +++ b/lib_enc/ivas_core_pre_proc_fx.c @@ -34,12 +34,10 @@ #include "options.h" #include "cnst.h" #include "ivas_cnst.h" -#include "ivas_prot.h" #include "rom_enc.h" #include "rom_com.h" -#include "prot.h" -#include "wmc_auto.h" #include "prot_fx.h" +#include "wmc_auto.h" #include "ivas_prot_fx.h" #include "prot_fx_enc.h" #include "basop_util.h" @@ -185,7 +183,7 @@ ivas_error pre_proc_ivas_fx( } IF( st->hFdCngEnc != NULL && NE_16( st->element_mode, IVAS_CPE_MDCT ) && ( ( NE_16( st->hFdCngEnc->hFdCngCom->frameSize, st->L_frame ) ) || ( NE_16( st->hFdCngEnc->hFdCngCom->CngBandwidth, st->input_bwidth ) ) ) ) { - configureFdCngEnc_ivas_fx( st->hFdCngEnc, max( st->input_bwidth, WB ), flag_1 ); + configureFdCngEnc_ivas_fx( st->hFdCngEnc, s_max( st->input_bwidth, WB ), flag_1 ); } if ( st->ini_frame == 0 ) @@ -284,11 +282,7 @@ ivas_error pre_proc_ivas_fx( } ELSE IF( GT_32( st->total_brate, MAX_GSC_INACTIVE_BRATE ) && ( ( st->vad_flag == 0 && GE_16( st->bwidth, SWB ) && GE_16( st->max_bwidth, SWB ) ) || ( st->localVAD == 0 && ( LE_16( st->bwidth, WB ) || LE_16( st->max_bwidth, WB ) ) ) ) ) { -#ifdef NONBE_FIX_GSC_BSTR /* inactive frames will be coded by AVQ technology (exceptionally it can be later rewritten to GSC technology in ivas_combined_format_brate_sanity()) */ -#else - /* inactive frames will be coded by AVQ technology */ -#endif st->coder_type = INACTIVE; move16(); } @@ -533,7 +527,7 @@ ivas_error pre_proc_ivas_fx( sr_core_tmp = L_max( INT_FS_16k, st->sr_core ); } - L_look = NS2SA( sr_core_tmp, ACELP_LOOK_NS ); /* lookahead at other sampling rate (16kHz, 25.6kHz, 32kHz) Q0*/ + L_look = NS2SA_FX2( sr_core_tmp, ACELP_LOOK_NS ); /* lookahead at other sampling rate (16kHz, 25.6kHz, 32kHz) Q0*/ move16(); inp_16k_fx = old_inp_16k_fx + L_INP_MEM - L_look; @@ -579,14 +573,28 @@ ivas_error pre_proc_ivas_fx( move16(); st->exp_buf_wspeech_enc = sub( Q15, Q_old_inp_16k ); move16(); - Word16 Q_old_inp_128k = *Q_new; + Word16 Q_inp_12k8 = *Q_new; + move16(); + Word16 Q_inp_16k = *Q_new; move16(); IF( !flag_16k_smc ) { error = ivas_compute_core_buffers_fx( st, &inp_16k_fx, old_inp_16k_fx, new_inp_resamp16k_fx, input_frame, last_element_mode, sr_core_tmp, ener_fx, A_fx, Aw_fx, epsP_fx, - lsp_new_fx, lsp_mid_fx, Q_old_inp_16k, Q_r, Q_new, 0 ); + lsp_new_fx, lsp_mid_fx, Q_old_inp_16k, Q_r, &Q_inp_16k ); + IF( GT_16( Q_inp_16k, Q_inp_12k8 ) ) + { + Scale_sig( old_inp_16k_fx, L_INP, sub( Q_inp_12k8, Q_inp_16k ) ); + *Q_new = Q_inp_12k8; + } + ELSE + { + Scale_sig( old_inp_12k8_fx, L_INP_12k8, sub( Q_inp_16k, Q_inp_12k8 ) ); + *Q_new = Q_inp_16k; + } + move16(); + IF( error != IVAS_ERR_OK ) { return error; @@ -628,7 +636,7 @@ ivas_error pre_proc_ivas_fx( IF( flag_16k_smc ) { - Copy( st->buf_speech_enc + L_FRAME16k, new_inp_resamp16k_fx, L_FRAME16k ); /* Q_new - 1 */ + Copy( st->buf_speech_enc + L_FRAME16k, new_inp_resamp16k_fx, L_FRAME16k ); /* Q_old_inp_16k */ } /*-----------------------------------------------------------------* @@ -643,14 +651,11 @@ ivas_error pre_proc_ivas_fx( /* set the pointer of the current frame for the ACELP core */ IF( EQ_16( st->L_frame, L_FRAME ) ) { - *inp_fx = inp_12k8_fx; /* Q_old_inp_128k */ - *Q_new = Q_old_inp_128k; - move16(); + *inp_fx = inp_12k8_fx; /* Q_old_inp_12k8 */ } ELSE { *inp_fx = inp_16k_fx; - Scale_sig( old_inp_12k8_fx, L_INP_12k8, sub( *Q_new, Q_old_inp_128k ) ); } /* Update VAD hangover frame counter in active frames */ @@ -703,9 +708,7 @@ ivas_error ivas_compute_core_buffers_fx( Word16 lsp_mid_fx[M], /* i/o: LSPs in the middle of the frame Q15*/ Word16 Q_old_inp_16k, Word16 Q_r[2], - Word16 *Q_new, - Word16 downscale_buf_speech_enc_pe /* Q0 */ -) + Word16 *Q_new ) { Word16 *inp_16k_fx, *new_inp_16k_fx; Word16 delay, element_mode; @@ -727,9 +730,7 @@ ivas_error ivas_compute_core_buffers_fx( Word16 *preemp_start_idx = NULL; Word32 sig_out[960], max_32; /*Word16 Q_exp, Q_wsp_exp*/; -#ifdef MSAN_FIX set16_fx( new_inp_resamp16k_fx, 0, L_FRAME16k ); -#endif set16_fx( epsP_h, 0, M + 1 ); set16_fx( epsP_l, 0, M + 1 ); signal_in_fx = st->input_fx; /* st->q_inp */ @@ -747,7 +748,7 @@ ivas_error ivas_compute_core_buffers_fx( { lMemRecalc_16k = NS2SA( INT_FS_16k, L_MEM_RECALC_NS ); move16(); - lMemRecalc = NS2SA( input_Fs, L_MEM_RECALC_NS ); + lMemRecalc = NS2SA_FX2( input_Fs, L_MEM_RECALC_NS ); move16(); } @@ -765,7 +766,7 @@ ivas_error ivas_compute_core_buffers_fx( L_frame_tmp = s_max( L_FRAME16k, st->L_frame ); } - L_look = NS2SA( sr_core, ACELP_LOOK_NS ); /* lookahead at other sampling rate (16kHz, 25.6kHz, 32kHz) */ + L_look = NS2SA_FX2( sr_core, ACELP_LOOK_NS ); /* lookahead at other sampling rate (16kHz, 25.6kHz, 32kHz) */ move16(); new_inp_16k_fx = old_inp_16k_fx + L_INP_MEM; /* pointer to new samples of the input signal in 16kHz core */ @@ -775,7 +776,7 @@ ivas_error ivas_compute_core_buffers_fx( test(); IF( EQ_16( element_mode, IVAS_CPE_TD ) || EQ_16( element_mode, IVAS_SCE ) ) { - new_inp_16k_fx -= NS2SA( sr_core, DELAY_FIR_RESAMPL_NS ); + new_inp_16k_fx -= NS2SA_FX2( sr_core, DELAY_FIR_RESAMPL_NS ); } IF( EQ_16( element_mode, IVAS_CPE_DFT ) ) @@ -814,8 +815,8 @@ ivas_error ivas_compute_core_buffers_fx( Copy( st->mem_decim16k_fx, mem_decim16k_dummy_fx, 2 * L_FILT_MAX ); /* Q(-1) */ set16_fx( temp1F_icatdmResampBuf_fx, 0, L_FILT_MAX ); - size_modified = modify_Fs_ivas_fx( temp1F_icatdmResampBuf_fx, NS2SA( input_Fs, DELAY_FIR_RESAMPL_NS ), input_Fs, new_inp_16k_fx + NS2SA( sr_core, FRAME_SIZE_NS ), sr_core, mem_decim16k_dummy_fx, 0, &Q_tmp, &mem_decim16k_size ); /* Q0 */ - Scale_sig( new_inp_16k_fx + NS2SA( sr_core, FRAME_SIZE_NS ), size_modified, negate( Q_tmp ) ); /* scaling back to Q_old_inp_16k */ + size_modified = modify_Fs_ivas_fx( temp1F_icatdmResampBuf_fx, NS2SA_FX2( input_Fs, DELAY_FIR_RESAMPL_NS ), input_Fs, new_inp_16k_fx + NS2SA_FX2( sr_core, FRAME_SIZE_NS ), sr_core, mem_decim16k_dummy_fx, 0, &Q_tmp, &mem_decim16k_size ); /* Q0 */ + Scale_sig( new_inp_16k_fx + NS2SA_FX2( sr_core, FRAME_SIZE_NS ), size_modified, negate( Q_tmp ) ); /* scaling back to Q_old_inp_16k */ } } ELSE IF( EQ_16( element_mode, IVAS_CPE_TD ) ) @@ -826,8 +827,8 @@ ivas_error ivas_compute_core_buffers_fx( /* no resampling needed, only delay adjustment to account for the FIR resampling delay */ delay = NS2SA_FX2( input_Fs, DELAY_FIR_RESAMPL_NS ); move16(); - Copy( st->mem_decim16k_fx + delay, new_inp_16k_fx - sub( lMemRecalc, add( delay, L_FILT16k ) ), delay ); /* Q(-1) */ - Copy( signal_in_fx - lMemRecalc, new_inp_16k_fx - add( lMemRecalc, L_FILT16k ), add( input_frame, lMemRecalc ) ); /* st->q_inp */ + Copy( st->mem_decim16k_fx + delay, new_inp_16k_fx - add( lMemRecalc, sub( delay, L_FILT16k ) ), delay ); /* Q(-1) */ + Copy( signal_in_fx - lMemRecalc, new_inp_16k_fx - sub( lMemRecalc, L_FILT16k ), add( input_frame, lMemRecalc ) ); /* st->q_inp */ Copy( signal_in_fx + sub( sub( input_frame, lMemRecalc ), shl( delay, 1 ) ), st->mem_decim16k_fx, shl( delay, 1 ) ); /* st->q_inp */ } ELSE IF( EQ_32( input_Fs, 32000 ) || EQ_32( input_Fs, 48000 ) ) @@ -840,7 +841,7 @@ ivas_error ivas_compute_core_buffers_fx( Word16 length_16k = NS2SA_FX2( INT_FS_16k, L_MEM_RECALC_SCH_NS - DELAY_FIR_RESAMPL_NS ); move16(); - Copy( signal_in_fx - lMemRecalc - length_inp - 2 * NS2SA( input_Fs, DELAY_FIR_RESAMPL_NS ), st->mem_decim16k_fx, 2 * NS2SA( input_Fs, DELAY_FIR_RESAMPL_NS ) ); /* st->q_inp */ + Copy( signal_in_fx - lMemRecalc - length_inp - 2 * NS2SA_FX2( input_Fs, DELAY_FIR_RESAMPL_NS ), st->mem_decim16k_fx, 2 * NS2SA_FX2( input_Fs, DELAY_FIR_RESAMPL_NS ) ); /* st->q_inp */ size_modified = modify_Fs_ivas_fx( signal_in_fx - lMemRecalc - length_inp, length_inp, input_Fs, new_inp_16k_fx - lMemRecalc_16k - length_16k, sr_core, st->mem_decim16k_fx, 0, &Q_tmp, &mem_decim16k_size ); /* Q0 */ Scale_sig( new_inp_16k_fx - lMemRecalc_16k - length_16k, size_modified, negate( Q_tmp ) ); /* scaling back to Q_old_inp_16k */ } @@ -851,19 +852,19 @@ ivas_error ivas_compute_core_buffers_fx( IF( lMemRecalc > 0 ) { - size_modified = modify_Fs_ivas_fx( signal_in_fx - lMemRecalc + input_frame, lMemRecalc, input_Fs, new_inp_16k_fx + NS2SA( sr_core, FRAME_SIZE_NS ) - ( lMemRecalc * sr_core ) / st->input_Fs, sr_core, mem_decim16k_dummy_fx, 0, &Q_tmp, &mem_decim16k_size ); /* Q0 */ - Scale_sig( new_inp_16k_fx + NS2SA( sr_core, FRAME_SIZE_NS ) - ( lMemRecalc * sr_core ) / st->input_Fs, size_modified, negate( Q_tmp ) ); /* scaling back to Q_old_inp_16k */ + size_modified = modify_Fs_ivas_fx( signal_in_fx - lMemRecalc + input_frame, lMemRecalc, input_Fs, new_inp_16k_fx + NS2SA_FX2( sr_core, FRAME_SIZE_NS ) - ( lMemRecalc * sr_core ) / st->input_Fs, sr_core, mem_decim16k_dummy_fx, 0, &Q_tmp, &mem_decim16k_size ); /* Q0 */ + Scale_sig( new_inp_16k_fx + NS2SA_FX2( sr_core, FRAME_SIZE_NS ) - ( lMemRecalc * sr_core ) / st->input_Fs, size_modified, negate( Q_tmp ) ); /* scaling back to Q_old_inp_16k */ } set16_fx( temp1F_icatdmResampBuf_fx, 0, L_FILT_MAX ); - size_modified = modify_Fs_ivas_fx( temp1F_icatdmResampBuf_fx, NS2SA( input_Fs, DELAY_FIR_RESAMPL_NS ), input_Fs, new_inp_16k_fx + NS2SA( sr_core, FRAME_SIZE_NS ), sr_core, mem_decim16k_dummy_fx, 0, &Q_tmp, &mem_decim16k_size ); /* Q0 */ - Scale_sig( new_inp_16k_fx + NS2SA( sr_core, FRAME_SIZE_NS ), size_modified, negate( Q_tmp ) ); /* scaling back to Q_old_inp_16k */ + size_modified = modify_Fs_ivas_fx( temp1F_icatdmResampBuf_fx, NS2SA_FX2( input_Fs, DELAY_FIR_RESAMPL_NS ), input_Fs, new_inp_16k_fx + NS2SA_FX2( sr_core, FRAME_SIZE_NS ), sr_core, mem_decim16k_dummy_fx, 0, &Q_tmp, &mem_decim16k_size ); /* Q0 */ + Scale_sig( new_inp_16k_fx + NS2SA_FX2( sr_core, FRAME_SIZE_NS ), size_modified, negate( Q_tmp ) ); /* scaling back to Q_old_inp_16k */ } } ELSE IF( st->idchan == 0 ) { /* update the FIR resampling filter memory, needed for switching to time-domain (FIR) resampling */ - Copy( signal_in_fx + input_frame - NS2SA( input_Fs, L_MEM_RECALC_NS ) - 2 * NS2SA( input_Fs, DELAY_FIR_RESAMPL_NS ), st->mem_decim16k_fx, 2 * NS2SA( input_Fs, DELAY_FIR_RESAMPL_NS ) ); /* st->q_inp */ + Copy( signal_in_fx + input_frame - NS2SA_FX2( input_Fs, L_MEM_RECALC_NS ) - 2 * NS2SA_FX2( input_Fs, DELAY_FIR_RESAMPL_NS ), st->mem_decim16k_fx, 2 * NS2SA_FX2( input_Fs, DELAY_FIR_RESAMPL_NS ) ); /* st->q_inp */ } /*------------------------------------------------* @@ -1103,14 +1104,7 @@ ivas_error ivas_compute_core_buffers_fx( { /* update signal buffers */ Word16 shift; - IF( downscale_buf_speech_enc_pe ) - { - shift = negate( *Q_new ); - } - ELSE - { - shift = 0; - } + shift = negate( *Q_new ); move16(); IF( EQ_16( element_mode, IVAS_CPE_DFT ) ) { diff --git a/lib_enc/ivas_corecoder_enc_reconfig.c b/lib_enc/ivas_corecoder_enc_reconfig_fx.c similarity index 96% rename from lib_enc/ivas_corecoder_enc_reconfig.c rename to lib_enc/ivas_corecoder_enc_reconfig_fx.c index b1d819f5c1ba812d9d24b36aed2f3e7753af3b20..2e09c42ed88a3f672723a0f9465157a031f56563 100644 --- a/lib_enc/ivas_corecoder_enc_reconfig.c +++ b/lib_enc/ivas_corecoder_enc_reconfig_fx.c @@ -33,10 +33,8 @@ #include #include "options.h" #include "ivas_cnst.h" -#include "prot.h" #include "prot_fx.h" #include "prot_fx_enc.h" -#include "ivas_prot.h" #include "wmc_auto.h" #include "ivas_prot_fx.h" #include "math.h" @@ -86,7 +84,7 @@ ivas_error ivas_corecoder_enc_reconfig_fx( move16(); IF( EQ_16( hEncoderConfig->ivas_format, SBA_FORMAT ) ) { - len_inp_memory = add( len_inp_memory, NS2SA( hEncoderConfig->input_Fs, IVAS_FB_ENC_DELAY_NS ) ); /* Q0 */ + len_inp_memory = add( len_inp_memory, NS2SA_FX2( hEncoderConfig->input_Fs, IVAS_FB_ENC_DELAY_NS ) ); /* Q0 */ } nchan_transport_old_real = nchan_transport_old; /* Q0 */ @@ -223,12 +221,12 @@ ivas_error ivas_corecoder_enc_reconfig_fx( { FOR( k = 0; k < nSCE_old; k++ ) { - shift = getScaleFactor16( st_ivas->hSCE[k]->hCoreCoder[0]->old_input_signal_fx, input_frame ); + shift = sub( getScaleFactor16( st_ivas->hSCE[k]->hCoreCoder[0]->old_input_signal_fx, input_frame ), Q1 ); Scale_sig( st_ivas->hSCE[k]->hCoreCoder[0]->old_input_signal_fx, input_frame, shift ); /* st_ivas->hSCE[k]->hCoreCoder[0]->q_old_inp + shift */ st_ivas->hSCE[k]->hCoreCoder[0]->q_old_inp = add( st_ivas->hSCE[k]->hCoreCoder[0]->q_old_inp, shift ); move16(); q_com_sce = s_min( q_com_sce, st_ivas->hSCE[k]->hCoreCoder[0]->q_old_inp ); - shift = getScaleFactor16( st_ivas->hSCE[k]->hCoreCoder[0]->input_fx, sub( L_FRAME48k + L_FRAME48k + NS2SA( 48000, DELAY_FIR_RESAMPL_NS ), input_frame ) ); + shift = sub( getScaleFactor16( st_ivas->hSCE[k]->hCoreCoder[0]->input_fx, sub( L_FRAME48k + L_FRAME48k + NS2SA( 48000, DELAY_FIR_RESAMPL_NS ), input_frame ) ), Q1 ); Scale_sig( st_ivas->hSCE[k]->hCoreCoder[0]->input_fx, sub( L_FRAME48k + L_FRAME48k + NS2SA( 48000, DELAY_FIR_RESAMPL_NS ), input_frame ), shift ); /* st_ivas->hSCE[k]->hCoreCoder[0]->q_inp + shift */ st_ivas->hSCE[k]->hCoreCoder[0]->q_inp = add( st_ivas->hSCE[k]->hCoreCoder[0]->q_inp, shift ); move16(); @@ -243,12 +241,12 @@ ivas_error ivas_corecoder_enc_reconfig_fx( { FOR( n = 0; n < CPE_CHANNELS; n++ ) { - shift = getScaleFactor16( st_ivas->hCPE[cpe_id]->hCoreCoder[n]->old_input_signal_fx, input_frame ); + shift = sub( getScaleFactor16( st_ivas->hCPE[cpe_id]->hCoreCoder[n]->old_input_signal_fx, input_frame ), Q1 ); Scale_sig( st_ivas->hCPE[cpe_id]->hCoreCoder[n]->old_input_signal_fx, input_frame, shift ); /* st_ivas->hCPE[cpe_id]->hCoreCoder[n]->q_old_inp + shift */ st_ivas->hCPE[cpe_id]->hCoreCoder[n]->q_old_inp = add( st_ivas->hCPE[cpe_id]->hCoreCoder[n]->q_old_inp, shift ); move16(); q_com_cpe = s_min( q_com_cpe, st_ivas->hCPE[cpe_id]->hCoreCoder[n]->q_old_inp ); - shift = getScaleFactor16( st_ivas->hCPE[cpe_id]->hCoreCoder[n]->input_fx, sub( L_FRAME48k + L_FRAME48k + NS2SA( 48000, DELAY_FIR_RESAMPL_NS ), input_frame ) ); + shift = sub( getScaleFactor16( st_ivas->hCPE[cpe_id]->hCoreCoder[n]->input_fx, sub( L_FRAME48k + L_FRAME48k + NS2SA( 48000, DELAY_FIR_RESAMPL_NS ), input_frame ) ), Q1 ); Scale_sig( st_ivas->hCPE[cpe_id]->hCoreCoder[n]->input_fx, sub( L_FRAME48k + L_FRAME48k + NS2SA( 48000, DELAY_FIR_RESAMPL_NS ), input_frame ), shift ); /* st_ivas->hCPE[cpe_id]->hCoreCoder[n]->q_inp + shift */ st_ivas->hCPE[cpe_id]->hCoreCoder[n]->q_inp = add( st_ivas->hCPE[cpe_id]->hCoreCoder[n]->q_inp, shift ); move16(); @@ -407,7 +405,7 @@ ivas_error ivas_corecoder_enc_reconfig_fx( /* only reset indices if it is not the first index list, this already contains the IVAS format bits */ IF( sce_id > 0 || EQ_16( hEncoderConfig->ivas_format, MASA_ISM_FORMAT ) ) { - reset_indices_enc( st_ivas->hSCE[sce_id]->hCoreCoder[0]->hBstr, st_ivas->hSCE[sce_id]->hCoreCoder[0]->hBstr->nb_ind_tot ); + reset_indices_enc_fx( st_ivas->hSCE[sce_id]->hCoreCoder[0]->hBstr, st_ivas->hSCE[sce_id]->hCoreCoder[0]->hBstr->nb_ind_tot ); } } @@ -451,7 +449,7 @@ ivas_error ivas_corecoder_enc_reconfig_fx( ( EQ_16( st_ivas->mc_mode, MC_MODE_MCMASA ) && st_ivas->nSCE > 0 ) || ( EQ_16( hEncoderConfig->ivas_format, MASA_ISM_FORMAT ) && st_ivas->nSCE > 0 ) ) { - reset_indices_enc( st_ivas->hCPE[cpe_id]->hCoreCoder[n]->hBstr, st_ivas->hCPE[cpe_id]->hCoreCoder[n]->hBstr->nb_ind_tot ); + reset_indices_enc_fx( st_ivas->hCPE[cpe_id]->hCoreCoder[n]->hBstr, st_ivas->hCPE[cpe_id]->hCoreCoder[n]->hBstr->nb_ind_tot ); } } } @@ -489,7 +487,7 @@ ivas_error ivas_corecoder_enc_reconfig_fx( test(); IF( add( i_mult( cpe_id, CPE_CHANNELS ), n ) > 0 || ( EQ_16( st_ivas->mc_mode, MC_MODE_MCMASA ) && st_ivas->nSCE > 0 ) ) { - reset_indices_enc( st_ivas->hCPE[cpe_id]->hCoreCoder[n]->hBstr, st_ivas->hCPE[cpe_id]->hCoreCoder[n]->hBstr->nb_ind_tot ); + reset_indices_enc_fx( st_ivas->hCPE[cpe_id]->hCoreCoder[n]->hBstr, st_ivas->hCPE[cpe_id]->hCoreCoder[n]->hBstr->nb_ind_tot ); } IF( hEncoderConfig->Opt_DTX_ON ) @@ -669,7 +667,7 @@ ivas_error ivas_corecoder_enc_reconfig_fx( } } - reset_indices_enc( st_ivas->hCPE[st_ivas->nCPE - 1]->hMetaData, st_ivas->hCPE[st_ivas->nCPE - 1]->hMetaData->nb_ind_tot ); + reset_indices_enc_fx( st_ivas->hCPE[st_ivas->nCPE - 1]->hMetaData, st_ivas->hCPE[st_ivas->nCPE - 1]->hMetaData->nb_ind_tot ); FOR( cpe_id = 0; cpe_id < st_ivas->nCPE - 1; cpe_id++ ) { diff --git a/lib_enc/ivas_cpe_enc.c b/lib_enc/ivas_cpe_enc_fx.c similarity index 92% rename from lib_enc/ivas_cpe_enc.c rename to lib_enc/ivas_cpe_enc_fx.c index 3635ab04a22575472fac1316f5fedfea42b82b67..826c23fdd969aa958511a3aa7cae5e5c18e97a88 100644 --- a/lib_enc/ivas_cpe_enc.c +++ b/lib_enc/ivas_cpe_enc_fx.c @@ -36,8 +36,7 @@ #include "cnst.h" #include "ivas_cnst.h" #include "rom_com.h" -#include "prot.h" -#include "ivas_prot.h" +#include "prot_fx.h" #include "prot_fx_enc.h" #include "ivas_rom_com.h" #ifdef DEBUGGING @@ -45,7 +44,6 @@ #endif #include "wmc_auto.h" #include "ivas_prot_fx.h" -#include "prot_fx.h" #include "ivas_rom_enc.h" #include "prot_fx_enc.h" @@ -80,9 +78,7 @@ ivas_error ivas_cpe_enc_fx( Word16 Q_new[CPE_CHANNELS] = { 0 }; Word16 fft_buff_fx[CPE_CHANNELS][2 * L_FFT]; /* FFT buffer */ Word16 fft_buff_fx_q[CPE_CHANNELS]; /* FFT buffer */ -#ifdef MSAN_FIX set16_fx( fft_buff_fx_q, 0, CPE_CHANNELS ); -#endif Word16 fft_buff_fx_final_q = MAX_16; move16(); Word32 ener_fx[CPE_CHANNELS]; /* residual energy from Levinson-Durbin Q6 */ @@ -105,7 +101,7 @@ ivas_error ivas_cpe_enc_fx( Word16 vad_flag_dtx[CPE_CHANNELS]; /* HE-SAD flag with additional DTX HO */ Word32 enerBuffer_fx[CPE_CHANNELS][CLDFB_NO_CHANNELS_MAX]; /* energy buffer */ Word16 enerBuffer_fx_exp[CPE_CHANNELS]; /* energy buffer */ - Word16 currFlatness_fx[CPE_CHANNELS]; /* flatness parameter Q7 */ + Word32 currFlatness_fx[CPE_CHANNELS]; /* flatness parameter Q21 */ Word16 tdm_ratio_idx, tdm_ratio_idx_SM; /* temp. TD stereo parameters */ Word16 tdm_SM_or_LRTD_Pri; /* temp. TD stereo parameters */ @@ -131,6 +127,7 @@ ivas_error ivas_cpe_enc_fx( Word16 e_old_wsp[CPE_CHANNELS], q_old_wsp; move16(); // Q_new move16(); // Q_new + Word16 q_com; error = IVAS_ERR_OK; move32(); @@ -178,7 +175,6 @@ ivas_error ivas_cpe_enc_fx( set16_fx( voicing_fr_fx[0], 0, NB_SUBFR ); set16_fx( voicing_fr_fx[1], 0, NB_SUBFR ); -#ifdef MSAN_FIX FOR( Word16 i = 0; i < CPE_CHANNELS; i++ ) { set16_zero_fx( fft_buff_fx[i], 2 * L_FFT ); @@ -187,7 +183,6 @@ ivas_error ivas_cpe_enc_fx( set16_zero_fx( old_inp_12k8_16fx[i], L_INP_12k8 ); set_zero_fx( old_inp_12k8_fx[i], L_INP_12k8 ); } -#endif /*------------------------------------------------------------------* * CPE initialization - core coder *-----------------------------------------------------------------*/ @@ -222,30 +217,29 @@ ivas_error ivas_cpe_enc_fx( #endif } - Copy32( data_fx_ch0, sts[0]->input32_fx, input_frame ); // Q(q_data_fx) - sts[0]->q_inp32 = q_data_fx; + Word16 Q_min = s_min( q_data_fx, add( sts[0]->q_inp32, L_norm_arr( sts[0]->input32_fx - input_frame, input_frame ) ) ); + scale_sig32( sts[0]->input32_fx - input_frame, input_frame, sub( Q_min, sts[0]->q_inp32 ) ); + Copy_Scale_sig32( data_fx_ch0, sts[0]->input32_fx, input_frame, sub( Q_min, q_data_fx ) ); // Q(Q_min) + sts[0]->q_inp32 = Q_min; move16(); + Word16 norm = L_norm_arr( sts[0]->input32_fx, input_frame ); - scale_sig32( sts[0]->input32_fx, input_frame, norm ); - sts[0]->q_inp32 = add( sts[0]->q_inp32, norm ); - move16(); - Copy_Scale_sig32_16( sts[0]->input32_fx, sts[0]->input_fx, input_frame, 0 ); - sts[0]->q_inp = sub( sts[0]->q_inp32, Q16 ); + Copy_Scale_sig32_16( sts[0]->input32_fx, sts[0]->input_fx, input_frame, norm ); + sts[0]->q_inp = add( sub( sts[0]->q_inp32, Q16 ), norm ); move16(); IF( data_fx_ch1 != NULL ) /*this may happen for cases with odd number of channels*/ { - Copy32( data_fx_ch1, sts[1]->input32_fx, input_frame ); // Q(q_data_fx) - sts[1]->q_inp32 = q_data_fx; + Q_min = s_min( q_data_fx, add( sts[1]->q_inp32, L_norm_arr( sts[1]->input32_fx - input_frame, input_frame ) ) ); + scale_sig32( sts[1]->input32_fx - input_frame, input_frame, sub( Q_min, sts[1]->q_inp32 ) ); + Copy_Scale_sig32( data_fx_ch1, sts[1]->input32_fx, input_frame, sub( Q_min, q_data_fx ) ); // Q(Q_min) + sts[1]->q_inp32 = Q_min; move16(); norm = L_norm_arr( sts[1]->input32_fx, input_frame ); - scale_sig32( sts[1]->input32_fx, input_frame, norm ); - sts[1]->q_inp32 = add( sts[1]->q_inp32, norm ); - move16(); - Copy_Scale_sig32_16( sts[1]->input32_fx, sts[1]->input_fx, input_frame, 0 ); - sts[1]->q_inp = sub( sts[1]->q_inp32, Q16 ); + Copy_Scale_sig32_16( sts[1]->input32_fx, sts[1]->input_fx, input_frame, norm ); + sts[1]->q_inp = add( sub( sts[1]->q_inp32, Q16 ), norm ); move16(); } @@ -290,9 +284,7 @@ ivas_error ivas_cpe_enc_fx( move16(); Word16 front_create_flag = 0; move16(); -#ifdef MSAN_FIX set32_fx( band_energies_LR_fx, 0, 2 * NB_BANDS ); -#endif IF( hCPE->hFrontVad[0] != NULL && NE_16( hCPE->element_mode, IVAS_CPE_MDCT ) ) { @@ -377,31 +369,8 @@ ivas_error ivas_cpe_enc_fx( /*----------------------------------------------------------------* * Set TD stereo parameters *----------------------------------------------------------------*/ -#ifdef FIX_ISSUE_1237 - Copy_Scale_sig_16_32_no_sat( sts[1]->input_fx, sts[1]->input32_fx, input_frame, sub( Q11, sts[1]->q_inp ) ); /* Q11 */ - Copy_Scale_sig_16_32_no_sat( sts[0]->input_fx, sts[0]->input32_fx, input_frame, sub( Q11, sts[0]->q_inp ) ); /* Q11 */ -#else - Copy_Scale_sig_16_32_DEPREC( sts[1]->input_fx, sts[1]->input32_fx, input_frame, sub( Q11, sts[1]->q_inp ) ); /* Q11 */ - Copy_Scale_sig_16_32_DEPREC( sts[0]->input_fx, sts[0]->input32_fx, input_frame, sub( Q11, sts[0]->q_inp ) ); /* Q11 */ -#endif - Word16 shift = getScaleFactor32( sts[1]->input32_fx, input_frame ); - scale_sig32( sts[1]->input32_fx, input_frame, shift ); /* Q11 + shift */ - sts[1]->q_inp32 = add( Q11, shift ); - move16(); - shift = getScaleFactor32( sts[0]->input32_fx, input_frame ); - scale_sig32( sts[0]->input32_fx, input_frame, shift ); /* Q11 + shift */ - sts[0]->q_inp32 = add( Q11, shift ); - move16(); - - Q_inp = s_min( Q_inp, s_min( sts[0]->q_inp32, sts[1]->q_inp32 ) ); - scale_sig32( sts[0]->input32_fx, input_frame, sub( Q_inp, sts[0]->q_inp32 ) ); /* Q_inp */ - scale_sig32( sts[1]->input32_fx, input_frame, sub( Q_inp, sts[1]->q_inp32 ) ); /* Q_inp */ - sts[1]->q_inp32 = sts[0]->q_inp32 = Q_inp; - move16(); - move16(); - - IF( ( error = stereo_set_tdm_fx( hCPE, input_frame, Q_inp ) ) != IVAS_ERR_OK ) + IF( ( error = stereo_set_tdm_fx( hCPE, input_frame, sts[1]->q_inp32 ) ) != IVAS_ERR_OK ) { return error; } @@ -410,8 +379,7 @@ ivas_error ivas_cpe_enc_fx( /*----------------------------------------------------------------* * Resets/updates in case of stereo switching *----------------------------------------------------------------*/ -#ifdef FIX_ISSUE_1247 - shift = norm_arr( sts[1]->old_input_signal_fx, input_frame ); + Word16 shift = norm_arr( sts[1]->old_input_signal_fx, input_frame ); Scale_sig( sts[1]->old_input_signal_fx, input_frame, shift ); /* sts[1]->q_old_inp + shift */ sts[1]->q_old_inp = add( sts[1]->q_old_inp, shift ); move16(); @@ -428,25 +396,6 @@ ivas_error ivas_cpe_enc_fx( Scale_sig( sts[0]->input_fx, input_frame, shift ); /* sts[1]->q_inp, shift */ sts[0]->q_inp = add( sts[0]->q_inp, shift ); move16(); -#else - shift = getScaleFactor16( sts[1]->old_input_signal_fx, input_frame ); - Scale_sig( sts[1]->old_input_signal_fx, input_frame, shift ); /* sts[1]->q_old_inp + shift */ - sts[1]->q_old_inp = add( sts[1]->q_old_inp, shift ); - move16(); - shift = getScaleFactor16( sts[1]->input_fx, input_frame ); - Scale_sig( sts[1]->input_fx, input_frame, shift ); /* sts[1]->q_inp + shift */ - sts[1]->q_inp = add( sts[1]->q_inp, shift ); - move16(); - - shift = getScaleFactor16( sts[0]->old_input_signal_fx, input_frame ); - Scale_sig( sts[0]->old_input_signal_fx, input_frame, shift ); /* sts[1]->q_old_inp + shift */ - sts[0]->q_old_inp = add( sts[0]->q_old_inp, shift ); - move16(); - shift = getScaleFactor16( sts[0]->input_fx, input_frame ); - Scale_sig( sts[0]->input_fx, input_frame, shift ); /* sts[1]->q_inp, shift */ - sts[0]->q_inp = add( sts[0]->q_inp, shift ); - move16(); -#endif Word16 q_inp = s_min( s_min( sts[0]->q_inp, sts[0]->q_old_inp ), s_min( sts[1]->q_inp, sts[1]->q_old_inp ) ); @@ -519,7 +468,7 @@ ivas_error ivas_cpe_enc_fx( IF( sts[n]->hTranDet == NULL ) { currFlatness_fx[n] = 0; - move16(); + move32(); CONTINUE; } @@ -529,8 +478,8 @@ ivas_error ivas_cpe_enc_fx( RunTransientDetection_ivas_fx( sts[n]->input_fx, input_frame, sts[n]->hTranDet, sts[n]->q_inp ); // Note q of sts[n]->input_fx changes inside function } - currFlatness_fx[n] = GetTCXAvgTemporalFlatnessMeasure_ivas_fx( (const TransientDetection *) sts[n]->hTranDet, NSUBBLOCKS, 0 ); // Q7 - move16(); + currFlatness_fx[n] = GetTCXAvgTemporalFlatnessMeasure_ivas_fx( (const TransientDetection *) sts[n]->hTranDet, NSUBBLOCKS, 0 ); // Q21 + move32(); } /* Synchonize detection for downmix-based stereo */ @@ -684,9 +633,6 @@ ivas_error ivas_cpe_enc_fx( // printf("\n%f %f ", hCPE->hStereoClassif->is_speech, hCPE->hCoreCoder[0]->hSpMusClas->past_dlp[0]); IF( EQ_16( hCPE->element_mode, IVAS_CPE_DFT ) ) { -#ifndef MSAN_FIX - hCPE->hStereoClassif->xtalk_score_fx = floatToFixed( hCPE->hStereoClassif->xtalk_score, 31 ); -#endif // !MSAN_FIX /*flt2fix: dft_synthesize*/ test(); if ( EQ_16( hCPE->element_mode, IVAS_CPE_DFT ) && hCPE->hStereoDft->res_cod_mode[STEREO_DFT_OFFSET] ) @@ -704,35 +650,31 @@ ivas_error ivas_cpe_enc_fx( hCPE->hStereoDft->Spd_R_smooth_fx_e = sub( hCPE->hStereoDft->Spd_R_smooth_fx_e, temp ); move16(); - shift = getScaleFactor16( sts[1]->old_input_signal_fx, input_frame ); - Scale_sig( sts[1]->old_input_signal_fx, input_frame, shift ); /* sts[1]->q_old_inp + shift */ - sts[1]->q_old_inp = add( sts[1]->q_old_inp, shift ); - move16(); - shift = getScaleFactor16( sts[1]->input_fx, input_frame ); - Scale_sig( sts[1]->input_fx, input_frame, shift ); /* sts[1]->q_inp + shift */ - sts[1]->q_inp = add( sts[1]->q_inp, shift ); - move16(); - Scale_sig( sts[1]->input_fx, input_frame, sub( s_min( sts[1]->q_inp, sts[1]->q_old_inp ), sts[1]->q_inp ) ); /* min( sts[1]->q_inp, sts[1]->q_old_inp) */ - Scale_sig( sts[1]->old_input_signal_fx, input_frame, sub( s_min( sts[1]->q_old_inp, sts[1]->q_inp ), sts[1]->q_old_inp ) ); /* min( sts[1]->q_old_inp, sts[1]->q_inp) */ - sts[1]->q_inp = s_min( sts[1]->q_inp, sts[1]->q_old_inp ); - move16(); - sts[1]->q_old_inp = sts[1]->q_inp; - move16(); - shift = getScaleFactor16( sts[0]->old_input_signal_fx, input_frame ); - Scale_sig( sts[0]->old_input_signal_fx, input_frame, shift ); /* sts[0]->q_old_inp + shift */ - sts[0]->q_old_inp = add( sts[0]->q_old_inp, shift ); - move16(); - shift = getScaleFactor16( sts[0]->input_fx, input_frame ); - Scale_sig( sts[0]->input_fx, input_frame, shift ); /* sts[0]->q_inp + shift */ - sts[0]->q_inp = add( sts[0]->q_inp, shift ); - move16(); - Scale_sig( sts[0]->input_fx, input_frame, sub( s_min( sts[0]->q_inp, sts[0]->q_old_inp ), sts[0]->q_inp ) ); /* min( sts[1]->q_inp, sts[1]->q_old_inp) */ - Scale_sig( sts[0]->old_input_signal_fx, input_frame, sub( s_min( sts[0]->q_old_inp, sts[0]->q_inp ), sts[0]->q_old_inp ) ); /* min( sts[1]->q_old_inp, sts[1]->q_inp) */ - sts[0]->q_inp = s_min( sts[0]->q_inp, sts[0]->q_old_inp ); - move16(); - sts[0]->q_old_inp = sts[0]->q_inp; - move16(); + FOR( n = 0; n < CPE_CHANNELS; n++ ) + { + q_com = sub( add( L_norm_arr( sts[n]->input32_fx, input_frame ), sts[n]->q_inp32 ), 16 ); + q_com = s_min( q_com, add( norm_arr( sts[n]->old_input_signal_fx, input_frame ), sts[n]->q_old_inp ) ); + q_com = s_min( q_com, add( norm_arr( hCPE->input_mem_fx[n], hCPE->hStereoDft->dft_ovl ), hCPE->q_input_mem[n] ) ); + + if ( EQ_16( q_com, Q15 ) ) + { + q_com = 0; + move16(); + } + + Copy_Scale_sig_32_16( sts[n]->input32_fx, sts[n]->input_fx, input_frame, sub( q_com, sts[n]->q_inp32 ) ); + sts[n]->q_inp = q_com; + move16(); + + scale_sig( sts[n]->old_input_signal_fx, input_frame, sub( q_com, sts[n]->q_old_inp ) ); + sts[n]->q_old_inp = q_com; + move16(); + + scale_sig( hCPE->input_mem_fx[n], hCPE->hStereoDft->dft_ovl, sub( q_com, hCPE->q_input_mem[n] ) ); + hCPE->q_input_mem[n] = q_com; + move16(); + } stereo_dft_hybrid_ITD_flag_fx( hCPE->hStereoDft->hConfig, input_Fs, hCPE->hStereoDft->hItd->hybrid_itd_max ); @@ -777,6 +719,8 @@ ivas_error ivas_cpe_enc_fx( move16(); } stereo_tdm_downmix_ivas_fx( hCPE->hStereoTD, sts[0]->input_fx, sts[1]->input_fx, input_frame, tdm_ratio_idx, tdm_SM_flag, tdm_ratio_idx_SM ); + Copy_Scale_sig_16_32_no_sat( sts[0]->input_fx, sts[0]->input32_fx, input_frame, sub( sts[0]->q_inp32, sts[0]->q_inp ) ); + Copy_Scale_sig_16_32_no_sat( sts[1]->input_fx, sts[1]->input32_fx, input_frame, sub( sts[1]->q_inp32, sts[1]->q_inp ) ); /* signal the bitrate for BW selection in the SCh */ sts[0]->bits_frame_channel = 0; @@ -841,6 +785,9 @@ ivas_error ivas_cpe_enc_fx( } stereo_td_itd_mdct_stereo_fx( hCPE, vad_flag_dtx, vad_hover_flag, input_frame ); + + Copy_Scale_sig_16_32_no_sat( sts[0]->input_fx - input_frame, sts[0]->input32_fx - input_frame, shl( input_frame, 1 ), sub( sts[0]->q_inp32, sts[0]->q_inp ) ); + Copy_Scale_sig_16_32_no_sat( sts[1]->input_fx - input_frame, sts[1]->input32_fx - input_frame, shl( input_frame, 1 ), sub( sts[1]->q_inp32, sts[1]->q_inp ) ); } /*----------------------------------------------------------------* @@ -857,7 +804,7 @@ ivas_error ivas_cpe_enc_fx( } ELSE { - internal_Fs = max( INT_FS_16k, sts[0]->sr_core ); + internal_Fs = L_max( INT_FS_16k, sts[0]->sr_core ); } /* iDFT at input sampling rate */ @@ -867,13 +814,15 @@ ivas_error ivas_cpe_enc_fx( move16(); move16(); stereo_dft_enc_synthesize_fx( hCPE->hStereoDft, sts[0]->input32_fx, &out_start_ind, &out_end_ind, 0, input_Fs, input_Fs, 0, NULL ); + Scale_sig32( sts[0]->input32_fx - input_frame, add( out_start_ind, input_frame ), sub( Q15, sts[0]->q_inp32 ) ); // scaling initial part of the input buffer + sts[0]->q_inp32 = Q15; + move16(); -#ifdef FIX_ISSUE_1135 // Normalise the input buffer from Q15 Word16 input_norm, q_inp32, common_q, fir_delay_len; input_norm = L_norm_arr( sts[0]->input32_fx + out_start_ind, sub( out_end_ind, out_start_ind ) ); q_inp32 = add( Q15, input_norm ); - fir_delay_len = NS2SA( sts[0]->input_Fs, DELAY_FIR_RESAMPL_NS ); + fir_delay_len = NS2SA_FX2( sts[0]->input_Fs, DELAY_FIR_RESAMPL_NS ); move16(); // Find common Q-factor between { q_inp, q_old_inp and q_inp32-16 } @@ -889,9 +838,6 @@ ivas_error ivas_cpe_enc_fx( move16(); sts[0]->q_old_inp = common_q; move16(); -#else - Copy_Scale_sig32_16( sts[0]->input32_fx + out_start_ind, sts[0]->input_fx + out_start_ind, sub( out_end_ind, out_start_ind ), sub( add( Q16, sts[0]->q_inp ), Q15 ) ); // Q15 -#endif /* iDFT & resampling to 12.8kHz internal sampling rate */ stereo_dft_enc_synthesize_fx( hCPE->hStereoDft, old_inp_12k8_fx[0] + L_INP_MEM, &out_12k8_start_ind[0], &out_12k8_end_ind[0], 0, input_Fs, INT_FS_12k8, 0, NULL ); @@ -930,6 +876,9 @@ ivas_error ivas_cpe_enc_fx( set16_fx( sts[1]->input_fx, 0, input_frame ); sts[1]->q_inp = Q15; move16(); + set32_fx( sts[1]->input32_fx, 0, input_frame ); + sts[1]->q_inp32 = Q31; + move16(); } #ifdef DEBUG_MODE_INFO @@ -958,11 +907,7 @@ ivas_error ivas_cpe_enc_fx( &ener_fx[n], &relE_fx[n], A_fx[n], Aw_fx[n], epsP_fx[n], &epsP_fx_q[n], lsp_new_fx[n], lsp_mid_fx[n], &vad_hover_flag[n], &attack_flag[n], realBuffer_fx[n], imagBuffer_fx[n], &q_re_im_buf[n], old_wsp_fx[n], &q_old_wsp, pitch_fr_fx[n], voicing_fr_fx[n], &loc_harm[n], &cor_map_sum_fx[n], &vad_flag_dtx[n], enerBuffer_fx[n], &enerBuffer_fx_exp[n], fft_buff_fx[n], &fft_buff_fx_q[n], A_fx[0], lsp_new_fx[0], currFlatness_fx[n], tdm_ratio_idx, fr_bands_fx, q_fr_bands, Etot_LR_fx, lf_E_fx, q_lf_E[n], localVAD_HE_SAD, -#ifdef NONBE_1211_DTX_BR_SWITCHING band_energies_LR_fx, q_band_energies_LR, 0, front_vad_flag, 0, 0, ivas_format, st_ivas->hMCT != NULL, st_ivas->hEncoderConfig->last_ivas_total_brate, ivas_total_brate, &Q_new[n] -#else - band_energies_LR_fx, q_band_energies_LR, 0, front_vad_flag, 0, 0, ivas_format, st_ivas->hMCT != NULL, ivas_total_brate, &Q_new[n] -#endif #ifdef DEBUG_MODE_INFO , ( st_ivas->nSCE + ( cpe_id * CPE_CHANNELS ) + n ) @@ -1031,25 +976,7 @@ ivas_error ivas_cpe_enc_fx( /*----------------------------------------------------------------* * Core codec configuration *----------------------------------------------------------------*/ - /* IGF reconfiguration */ - FOR( n = 0; n < n_CoreChannels; n++ ) - { - test(); - test(); - test(); - test(); - test(); - test(); - IF( ( NE_32( hCPE->last_element_brate, hCPE->element_brate ) || NE_16( hCPE->element_mode, hCPE->last_element_mode ) || ( EQ_16( hCPE->element_mode, IVAS_CPE_TD ) && NE_16( sts[0]->bits_frame_nominal, last_bits_frame_nominal ) ) || NE_16( sts[n]->last_bwidth, sts[n]->bwidth ) ) && ( n == 0 || EQ_16( hCPE->element_mode, IVAS_CPE_MDCT ) ) ) - { - Word16 igf; - igf = getIgfPresent_fx( sts[n]->element_mode, L_mult0( sts[n]->bits_frame_nominal, FRAMES_PER_SEC ), sts[n]->max_bwidth, sts[n]->rf_mode ); /* Q0 */ - IF( ( error = IGF_Reconfig_fx( &sts[n]->hIGFEnc, igf, 0, L_mult0( sts[n]->bits_frame_nominal, FRAMES_PER_SEC ), sts[n]->max_bwidth, sts[n]->element_mode, sts[n]->rf_mode ) ) != IVAS_ERR_OK ) - { - return error; - } - } - } + test(); IF( EQ_16( hCPE->element_mode, IVAS_CPE_MDCT ) && st_ivas->hMCT == NULL ) { @@ -1080,6 +1007,26 @@ ivas_error ivas_cpe_enc_fx( } } + /* IGF reconfiguration */ + FOR( n = 0; n < n_CoreChannels; n++ ) + { + test(); + test(); + test(); + test(); + test(); + test(); + IF( ( NE_32( hCPE->last_element_brate, hCPE->element_brate ) || NE_16( hCPE->element_mode, hCPE->last_element_mode ) || ( EQ_16( hCPE->element_mode, IVAS_CPE_TD ) && NE_16( sts[0]->bits_frame_nominal, last_bits_frame_nominal ) ) || NE_16( sts[n]->last_bwidth, sts[n]->bwidth ) ) && ( n == 0 || EQ_16( hCPE->element_mode, IVAS_CPE_MDCT ) ) ) + { + Word16 igf; + igf = getIgfPresent_fx( sts[n]->element_mode, L_mult0( sts[n]->bits_frame_nominal, FRAMES_PER_SEC ), sts[n]->max_bwidth, sts[n]->rf_mode ); /* Q0 */ + IF( ( error = IGF_Reconfig_fx( &sts[n]->hIGFEnc, igf, 0, L_mult0( sts[n]->bits_frame_nominal, FRAMES_PER_SEC ), sts[n]->max_bwidth, sts[n]->element_mode, sts[n]->rf_mode ) ) != IVAS_ERR_OK ) + { + return error; + } + } + } + /* set ACELP@12k8 / ACELP@16k flag for flexible ACELP core */ FOR( n = 0; n < n_CoreChannels; n++ ) { @@ -1207,7 +1154,7 @@ ivas_error ivas_cpe_enc_fx( FOR( Word16 i = 0; i < CPE_CHANNELS; i++ ) { - Copy_Scale_sig_16_32_no_sat( old_inp_12k8_16fx[i], old_inp_12k8_fx[i], L_INP_12k8, Q16 + Q1 ); + Copy_Scale_sig_16_32_no_sat( old_inp_12k8_16fx[i], old_inp_12k8_fx[i], L_INP_12k8, Q16 ); // Q(-1) -> Q15 } stereo_dft_enc_res_fx( hCPE->hStereoDft, old_inp_12k8_fx[1] + L_INP_MEM - STEREO_DFT_OVL_8k, hCPE->hMetaData, &nb_bits, max_bits ); } @@ -1276,6 +1223,9 @@ ivas_error ivas_cpe_enc_fx( Copy( orig_input_fx[n], sts[n]->old_input_signal_fx, input_frame ); /* Q_orig_inp */ sts[n]->q_old_inp = Q_orig_inp[n]; move16(); + Copy_Scale_sig_16_32_no_sat( sts[n]->input_fx - input_frame, sts[n]->input32_fx - input_frame, input_frame, 16 ); // duplicating the data for input32_fx + sts[n]->q_inp32 = add( Q_orig_inp[n], 16 ); + move16(); } } ELSE IF( EQ_16( hCPE->element_mode, IVAS_CPE_DFT ) ) @@ -1283,6 +1233,7 @@ ivas_error ivas_cpe_enc_fx( Copy( sts[0]->input_fx, sts[0]->old_input_signal_fx, input_frame ); /* sts[n]->q_inp */ sts[0]->q_old_inp = sts[0]->q_inp; move16(); + Copy32( sts[0]->input32_fx, sts[0]->input32_fx - input_frame, input_frame ); /* st->q_inp32 */ } ELSE IF( st_ivas->hMCT == NULL ) /* note: in MCT, input buffers are updated later in ivas_mct_enc() */ { @@ -1292,6 +1243,7 @@ ivas_error ivas_cpe_enc_fx( Copy( sts[n]->input_fx, sts[n]->old_input_signal_fx, input_frame ); /* sts[n]->q_inp */ sts[n]->q_old_inp = sts[n]->q_inp; move16(); + Copy32( sts[n]->input32_fx, sts[n]->input32_fx - input_frame, input_frame ); /* st->q_inp32 */ } } @@ -1408,21 +1360,19 @@ ivas_error create_cpe_enc_fx( test(); IF( EQ_16( ivas_format, STEREO_FORMAT ) || EQ_16( ivas_format, MASA_FORMAT ) || ( EQ_16( ivas_format, MC_FORMAT ) && EQ_16( st_ivas->mc_mode, MC_MODE_MCMASA ) ) || EQ_16( ivas_format, MASA_ISM_FORMAT ) ) { - IF( ( hCPE->input_mem_fx[n] = (Word16 *) malloc( sizeof( Word16 ) * NS2SA( input_Fs, STEREO_DFT_OVL_NS ) ) ) == NULL ) + IF( ( hCPE->input_mem_fx[n] = (Word16 *) malloc( sizeof( Word16 ) * NS2SA_FX2( input_Fs, STEREO_DFT_OVL_NS ) ) ) == NULL ) { return ( IVAS_ERROR( IVAS_ERR_FAILED_ALLOC, "Can not allocate memory for DFT stereo memory\n" ) ); } - set16_zero_fx( hCPE->input_mem_fx[n], NS2SA( input_Fs, STEREO_DFT_OVL_NS ) ); + set16_zero_fx( hCPE->input_mem_fx[n], NS2SA_FX2( input_Fs, STEREO_DFT_OVL_NS ) ); } ELSE { hCPE->input_mem_fx[n] = NULL; } } -#ifdef MSAN_FIX set16_fx( hCPE->q_input_mem, Q15, CPE_CHANNELS ); -#endif /*-----------------------------------------------------------------* * stereo classifier: allocate and initialize diff --git a/lib_enc/ivas_decision_matrix_enc.c b/lib_enc/ivas_decision_matrix_enc_fx.c similarity index 99% rename from lib_enc/ivas_decision_matrix_enc.c rename to lib_enc/ivas_decision_matrix_enc_fx.c index a3194a9d01defc8af0fc9842afd054b7bf58b8b5..bd63553bd70f502ee2ad342de594d6ade28caf07 100644 --- a/lib_enc/ivas_decision_matrix_enc.c +++ b/lib_enc/ivas_decision_matrix_enc_fx.c @@ -35,11 +35,9 @@ #include "cnst.h" #include "ivas_cnst.h" #include "rom_com.h" -#include "prot.h" -#include "ivas_prot.h" +#include "prot_fx.h" #include "ivas_rom_com.h" #include "wmc_auto.h" -#include "prot_fx.h" /* Function prototypes */ #include "ivas_prot_fx.h" /* Function prototypes */ #include "ivas_prot_fx.h" /* Function prototypes */ #include "prot_fx_enc.h" /* Function prototypes */ diff --git a/lib_enc/ivas_dirac_enc.c b/lib_enc/ivas_dirac_enc_fx.c similarity index 95% rename from lib_enc/ivas_dirac_enc.c rename to lib_enc/ivas_dirac_enc_fx.c index ec55850fd0f5c5171c84f97b38135022ae91d6ca..615a6f4b630124866a0aa9acc77837511514d3e6 100644 --- a/lib_enc/ivas_dirac_enc.c +++ b/lib_enc/ivas_dirac_enc_fx.c @@ -35,9 +35,7 @@ #include "options.h" #include #include "cnst.h" -#include "prot.h" #include "prot_fx.h" -#include "ivas_prot.h" #include "ivas_prot_fx.h" #include "ivas_cnst.h" #include "ivas_rom_com.h" @@ -53,13 +51,9 @@ static void computeIntensityVector_enc_fx( Word32 Cldfb_ImagBuffer[DIRAC_MAX_ANA_CHANS][DIRAC_NO_FB_BANDS_MAX], const Word16 enc_param_start_band, /* i : first band to process */ const Word16 num_frequency_bands, - Word32 intensity_real[DIRAC_NUM_DIMS][DIRAC_MAX_NBANDS] -#ifdef NONBE_IMPROVE_DIRAC_INTENSITY_PREC - , + Word32 intensity_real[DIRAC_NUM_DIMS][DIRAC_MAX_NBANDS], Word16 q_cldfb, - Word16 q_intensity_real[DIRAC_MAX_NBANDS] -#endif -); + Word16 q_intensity_real[DIRAC_MAX_NBANDS] ); /*------------------------------------------------------------------------- * ivas_dirac_enc_open() @@ -763,7 +757,6 @@ void computeReferencePower_enc_fx_dirac( *dirac_mono_flag = ivas_dirac_get_mono_flag_fx( band_grouping, Cldfb_RealBuffer, Cldfb_ImagBuffer, e_Cldfb, nchan_ana, mono_frame_count ); /* Q0 */ move16(); } -#ifdef FIX_1127_IMPROVE_SBA_MLD Word16 gb = 0; move16(); FOR( i = 0; i < num_freq_bands; i++ ) @@ -776,7 +769,6 @@ void computeReferencePower_enc_fx_dirac( } e_reference_W = sub( 31, sub( add( shl( sub( 31, e_Cldfb ), 1 ), 1 ), gb ) ); e_reference_temp = e_reference_W; -#endif move16(); FOR( i = 0; i < num_freq_bands; i++ ) { @@ -793,14 +785,8 @@ void computeReferencePower_enc_fx_dirac( FOR( j = brange[0]; j < brange[1]; j++ ) { -#ifdef FIX_1127_IMPROVE_SBA_MLD reference_power_W[i] = W_add( reference_power_W[i], W_shr( W_mult_32_32( Cldfb_RealBuffer[0][j], Cldfb_RealBuffer[0][j] ), gb ) ); /* exp(2 * e_Cldfb) */ reference_power_W[i] = W_add( reference_power_W[i], W_shr( W_mult_32_32( Cldfb_ImagBuffer[0][j], Cldfb_ImagBuffer[0][j] ), gb ) ); /* exp(2 * e_Cldfb) */ -#else - reference_power_W[i] = W_mac_32_32( reference_power_W[i], Cldfb_RealBuffer[0][j], Cldfb_RealBuffer[0][j] ); - reference_power_W[i] = W_mac_32_32( reference_power_W[i], Cldfb_ImagBuffer[0][j], Cldfb_ImagBuffer[0][j] ); - e_reference_W = imult1616( (Word16) 2, e_Cldfb ); -#endif move64(); move64(); } @@ -812,14 +798,8 @@ void computeReferencePower_enc_fx_dirac( /* abs()^2 */ FOR( j = brange[0]; j < brange[1]; j++ ) { -#ifdef FIX_1127_IMPROVE_SBA_MLD reference_power_temp[i] = W_add( reference_power_temp[i], W_shr( W_mult_32_32( Cldfb_RealBuffer[ch_idx][j], Cldfb_RealBuffer[ch_idx][j] ), gb ) ); /* exp(2 * e_Cldfb) */ reference_power_temp[i] = W_add( reference_power_temp[i], W_shr( W_mult_32_32( Cldfb_ImagBuffer[ch_idx][j], Cldfb_ImagBuffer[ch_idx][j] ), gb ) ); /* exp(2 * e_Cldfb) */ -#else - reference_power_temp[i] = W_mac_32_32( reference_power_temp[i], Cldfb_RealBuffer[ch_idx][j], Cldfb_RealBuffer[ch_idx][j] ); - reference_power_temp[i] = W_mac_32_32( reference_power_temp[i], Cldfb_ImagBuffer[ch_idx][j], Cldfb_ImagBuffer[ch_idx][j] ); - e_reference_temp = imult1616( (Word16) 2, e_Cldfb ); -#endif move64(); move64(); } @@ -976,11 +956,7 @@ void ivas_dirac_param_est_enc_fx( Word32 *p_Cldfb_ImagBuffer_fx[DIRAC_MAX_ANA_CHANS]; Word16 cldfb_q; Word32 intensity_real_fx[DIRAC_NUM_DIMS][DIRAC_MAX_NBANDS]; -#ifdef NONBE_IMPROVE_DIRAC_INTENSITY_PREC Word16 intensity_real_q[DIRAC_MAX_NBANDS]; -#else - Word16 intensity_real_q; -#endif Word32 direction_vector_fx[DIRAC_NUM_DIMS][DIRAC_MAX_NBANDS]; Word16 direction_vector_q; Word32 diffuseness_vector_fx[DIRAC_MAX_NBANDS]; @@ -1010,10 +986,6 @@ void ivas_dirac_param_est_enc_fx( cldfb_q = 0; move16(); -#ifndef NONBE_IMPROVE_DIRAC_INTENSITY_PREC - intensity_real_q = 0; - move16(); -#endif direction_vector_q = 0; move16(); @@ -1149,16 +1121,9 @@ void ivas_dirac_param_est_enc_fx( Cldfb_ImagBuffer_fx, hDirAC->hConfig->enc_param_start_band, num_freq_bands, - intensity_real_fx -#ifdef NONBE_IMPROVE_DIRAC_INTENSITY_PREC - , + intensity_real_fx, cldfb_q, - intensity_real_q -#endif - ); -#ifndef NONBE_IMPROVE_DIRAC_INTENSITY_PREC - intensity_real_q = sub( shl( cldfb_q, 1 ), 31 ); // 2 * Q_Cldfb + 1 - 32; -#endif + intensity_real_q ); IF( !hodirac_flag ) { computeDirectionVectors_fixed( @@ -1169,15 +1134,8 @@ void ivas_dirac_param_est_enc_fx( num_freq_bands, direction_vector_fx[0], direction_vector_fx[1], - direction_vector_fx[2] -#ifdef NONBE_IMPROVE_DIRAC_INTENSITY_PREC - , - 31, intensity_real_q -#else - , - sub( 31, intensity_real_q ) -#endif - ); + direction_vector_fx[2], + 31, intensity_real_q ); direction_vector_q = Q30; move16(); @@ -1192,11 +1150,7 @@ void ivas_dirac_param_est_enc_fx( { /* only real part needed */ Copy32( intensity_real_fx[i], &( hDirAC->buffer_intensity_real_fx[i][index - 1][0] ), num_freq_bands ); /* intensity_real_q */ -#ifdef NONBE_IMPROVE_DIRAC_INTENSITY_PREC Copy( intensity_real_q, &hDirAC->buffer_intensity_real_q[i][index - 1][0], num_freq_bands ); -#else - set16_fx( &hDirAC->buffer_intensity_real_q[i][index - 1][0], intensity_real_q, num_freq_bands ); -#endif } Copy32( reference_power_fx[ts], &( hDirAC->buffer_energy_fx[( index - 1 ) * num_freq_bands] ), num_freq_bands ); /* exp(reference_power_exp) */ FOR( i = 0; i < num_freq_bands; i++ ) @@ -1205,19 +1159,22 @@ void ivas_dirac_param_est_enc_fx( move16(); } - Word16 buffer_intensity_real_single_q; + Word16 buffer_intensity_real_single_q, min_shift = MAX_16; + move16(); buffer_intensity_real_single_q = hDirAC->buffer_intensity_real_q[0][0][0]; move16(); FOR( i = 0; i < DIRAC_NUM_DIMS; i++ ) { FOR( j = 0; j < hDirAC->no_col_avg_diff; j++ ) { + min_shift = s_min( min_shift, L_norm_arr( hDirAC->buffer_intensity_real_fx[i][j], num_freq_bands ) ); FOR( k = 0; k < num_freq_bands; k++ ) { buffer_intensity_real_single_q = s_min( buffer_intensity_real_single_q, hDirAC->buffer_intensity_real_q[i][j][k] ); } } } + buffer_intensity_real_single_q = add( buffer_intensity_real_single_q, min_shift ); FOR( i = 0; i < DIRAC_NUM_DIMS; i++ ) { FOR( j = 0; j < hDirAC->no_col_avg_diff; j++ ) @@ -1405,12 +1362,7 @@ void ivas_dirac_param_est_enc_fx( Scale_sig32( dir_v_fx, 3, -1 ); ivas_qmetadata_direction_vector_to_azimuth_elevation_fx( dir_v_fx, -#ifdef NONBE_IMPROVE_DIRAC_INTENSITY_PREC Q29, -#else - - Q30, -#endif &q_direction->band_data[band_m_idx].azimuth_fx[block_m_idx], &q_direction->band_data[band_m_idx].elevation_fx[block_m_idx] ); } @@ -1505,12 +1457,9 @@ static void computeIntensityVector_enc_fx( const Word16 enc_param_start_band, /* i : first band to process Q0*/ const Word16 num_frequency_bands, /* Q0 */ Word32 intensity_real[DIRAC_NUM_DIMS][DIRAC_MAX_NBANDS] /* q_intensity_real */ -#ifdef NONBE_IMPROVE_DIRAC_INTENSITY_PREC , Word16 q_cldfb, - Word16 q_intensity_real[DIRAC_MAX_NBANDS] -#endif -) + Word16 q_intensity_real[DIRAC_MAX_NBANDS] ) { /* Reminder * X = a + ib; Y = c + id @@ -1519,20 +1468,16 @@ static void computeIntensityVector_enc_fx( Word16 i, j; Word32 real, img; Word16 brange[2]; -#ifdef NONBE_IMPROVE_DIRAC_INTENSITY_PREC Word16 shift_value = sub( shl( q_cldfb, 1 ), 31 ); -#endif FOR( i = 0; i < num_frequency_bands; i++ ) { brange[0] = hDirAC->band_grouping[i + enc_param_start_band]; /* Q0 */ move16(); brange[1] = hDirAC->band_grouping[i + enc_param_start_band + 1]; /* Q0 */ move16(); -#ifdef NONBE_IMPROVE_DIRAC_INTENSITY_PREC Word16 num_bins = sub( brange[1], brange[0] ); Word16 gb = find_guarded_bits_fx( num_bins ); Word16 norm; -#endif intensity_real[0][i] = 0; move32(); intensity_real[1][i] = 0; @@ -1551,7 +1496,6 @@ static void computeIntensityVector_enc_fx( move32(); img = Cldfb_ImagBuffer[0][j]; move32(); -#ifdef NONBE_IMPROVE_DIRAC_INTENSITY_PREC Word64 t1, t2, t3; t1 = W_mac_32_32( W_mult_32_32( Cldfb_RealBuffer[3][j], real ), Cldfb_ImagBuffer[3][j], img ); /* 2 * q_cldfb + 1 */ t2 = W_mac_32_32( W_mult_32_32( Cldfb_RealBuffer[1][j], real ), Cldfb_ImagBuffer[1][j], img ); /* 2 * q_cldfb + 1 */ @@ -1563,16 +1507,21 @@ static void computeIntensityVector_enc_fx( tmp_1 = W_add( tmp_1, t1 ); /* 2 * q_cldfb + 1 */ tmp_2 = W_add( tmp_2, t2 ); /* 2 * q_cldfb + 1 */ tmp_3 = W_add( tmp_3, t3 ); /* 2 * q_cldfb + 1 */ -#else - /* Intensity is XYZ order, audio is WYZX order. */ - tmp_1 = W_add( tmp_1, W_add( W_mult_32_32( Cldfb_RealBuffer[3][j], real ), W_mult_32_32( Cldfb_ImagBuffer[3][j], img ) ) ); - tmp_2 = W_add( tmp_2, W_add( W_mult_32_32( Cldfb_RealBuffer[1][j], real ), W_mult_32_32( Cldfb_ImagBuffer[1][j], img ) ) ); - tmp_3 = W_add( tmp_3, W_add( W_mult_32_32( Cldfb_RealBuffer[2][j], real ), W_mult_32_32( Cldfb_ImagBuffer[2][j], img ) ) ); -#endif } -#ifdef NONBE_IMPROVE_DIRAC_INTENSITY_PREC - norm = s_min( W_norm( tmp_1 ), W_norm( tmp_2 ) ); - norm = s_min( norm, W_norm( tmp_3 ) ); + norm = 63; + move16(); + IF( tmp_1 != 0 ) + { + norm = s_min( norm, W_norm( tmp_1 ) ); + } + IF( tmp_2 != 0 ) + { + norm = s_min( norm, W_norm( tmp_2 ) ); + } + IF( tmp_3 != 0 ) + { + norm = s_min( norm, W_norm( tmp_3 ) ); + } intensity_real[0][i] = W_extract_h( W_shl( tmp_1, norm ) ); // shift_value - (gb - norm) move32(); intensity_real[1][i] = W_extract_h( W_shl( tmp_2, norm ) ); // shift_value - (gb - norm) @@ -1580,15 +1529,6 @@ static void computeIntensityVector_enc_fx( intensity_real[2][i] = W_extract_h( W_shl( tmp_3, norm ) ); // shift_value - (gb - norm) q_intensity_real[i] = sub( shift_value, sub( gb, norm ) ); move16(); -#else - - intensity_real[0][i] = W_extract_h( tmp_1 ); // output Q= 2* input_q + 1 - 32 - move32(); - intensity_real[1][i] = W_extract_h( tmp_2 ); // output Q= 2* input_q + 1 - 32 - move32(); - intensity_real[2][i] = W_extract_h( tmp_3 ); // output Q= 2* input_q + 1 - 32 - move32(); -#endif } return; diff --git a/lib_enc/ivas_enc_cov_handler.c b/lib_enc/ivas_enc_cov_handler_fx.c similarity index 99% rename from lib_enc/ivas_enc_cov_handler.c rename to lib_enc/ivas_enc_cov_handler_fx.c index 95a114b679efbaf8465e3aea25a447eb5a481206..c05d59b9086289658e59e23ebab2248e3d9118f0 100644 --- a/lib_enc/ivas_enc_cov_handler.c +++ b/lib_enc/ivas_enc_cov_handler_fx.c @@ -32,11 +32,9 @@ #include #include "options.h" -#include "prot.h" -#include "ivas_prot.h" +#include "prot_fx.h" #include "ivas_rom_com.h" #include "wmc_auto.h" -#include "prot_fx.h" #include "ivas_prot_fx.h" /*------------------------------------------------------------------------------------------* diff --git a/lib_enc/ivas_enc.c b/lib_enc/ivas_enc_fx.c similarity index 97% rename from lib_enc/ivas_enc.c rename to lib_enc/ivas_enc_fx.c index 2bab65c428c7e9e4998c71fe41051ee06ffa8fbf..ff5f65b32ac739159f0f5d74d2df5026a3d48a34 100644 --- a/lib_enc/ivas_enc.c +++ b/lib_enc/ivas_enc_fx.c @@ -36,14 +36,12 @@ #include "cnst.h" #include "ivas_cnst.h" #include "rom_com.h" -#include "prot.h" -#include "ivas_prot.h" +#include "prot_fx.h" #include "ivas_rom_com.h" #ifdef DEBUGGING #include "debug.h" #endif #include "wmc_auto.h" -#include "prot_fx.h" #include "ivas_prot_fx.h" /*-------------------------------------------------------------------* @@ -346,13 +344,22 @@ ivas_error ivas_enc_fx( { norm_data_in = s_min( norm_data_in, L_norm_arr( data_fx[i], input_frame ) ); } - norm_data_in = sub( norm_data_in, 7 ); /*guard bit is 4->to handle overflow in cldfbAnalysis*/ - FOR( i = 0; i < hEncoderConfig->nchan_ism + st_ivas->nchan_transport; i++ ) + IF( LT_16( norm_data_in, 31 ) ) + { + norm_data_in = sub( norm_data_in, 7 ); /*guard bit is 4->to handle overflow in cldfbAnalysis*/ + norm_data_in = s_min( norm_data_in, 20 ); // limit Q to 31 (11 + norm) + FOR( i = 0; i < hEncoderConfig->nchan_ism + st_ivas->nchan_transport; i++ ) + { + scale_sig32( data_fx[i], input_frame, norm_data_in ); /* st_ivas->q_data_fx + norm_data_in */ + } + st_ivas->q_data_fx = add( st_ivas->q_data_fx, norm_data_in ); + move16(); + } + ELSE { - scale_sig32( data_fx[i], input_frame, norm_data_in ); /* st_ivas->q_data_fx + norm_data_in */ + st_ivas->q_data_fx = 31; + move16(); } - st_ivas->q_data_fx = add( st_ivas->q_data_fx, norm_data_in ); - move16(); } /* Estimate MASA parameters for the objects */ diff --git a/lib_enc/ivas_entropy_coder.c b/lib_enc/ivas_entropy_coder_fx.c similarity index 99% rename from lib_enc/ivas_entropy_coder.c rename to lib_enc/ivas_entropy_coder_fx.c index 0dd0f5aa1e4c86f492163a04675fe7e4060f9090..3c8cf92e2f2ef39cf45042599aa58217fad99328 100644 --- a/lib_enc/ivas_entropy_coder.c +++ b/lib_enc/ivas_entropy_coder_fx.c @@ -34,8 +34,7 @@ #include #include "options.h" #include "ivas_cnst.h" -#include "prot.h" -#include "ivas_prot.h" +#include "prot_fx.h" #include "ivas_rom_com.h" #include "math.h" #include "wmc_auto.h" @@ -174,7 +173,7 @@ static Word16 ivas_arith_encode_array_fx( pCum_freq = pArith->cum_freq[0]; /* Q0 */ } - ari_start_encoding_14bits( &as ); + ari_start_encoding_14bits_ivas_fx( &as ); FOR( i = 0; i < in_len; i++ ) { diff --git a/lib_enc/ivas_front_vad.c b/lib_enc/ivas_front_vad_fx.c similarity index 92% rename from lib_enc/ivas_front_vad.c rename to lib_enc/ivas_front_vad_fx.c index 5460ccb12e84acc3d410c3008822f52bcaca8643..b21a669528e03c94edff804b63e61db3c529f835 100644 --- a/lib_enc/ivas_front_vad.c +++ b/lib_enc/ivas_front_vad_fx.c @@ -36,14 +36,12 @@ #include "ivas_cnst.h" #include "rom_enc.h" #include "rom_com.h" -#include "prot.h" -#include "ivas_prot.h" +#include "prot_fx.h" #include "prot_fx_enc.h" #include #include "wmc_auto.h" #include #include "prot_fx_enc.h" -#include "prot_fx.h" #include "ivas_prot_fx.h" /*-----------------------------------------------------------------------------------------* @@ -232,7 +230,7 @@ ivas_error front_vad_fx( MVR2R_WORD16( hFrontVad->buffer_12k8_fx + L_FFT, hFrontVad->buffer_12k8_fx, L_FFT / 2 ); /* Resample to 12k8 */ - modify_Fs_fx( sts[n]->input_fx, input_frame, sts[0]->input_Fs, hFrontVad->buffer_12k8_fx + L_FFT / 2, INT_FS_12k8, hFrontVad->mem_decim_fx, ( sts[0]->max_bwidth == NB ), &Qband, &mem_decim_size ); + modify_Fs_ivas_fx( sts[n]->input_fx, input_frame, sts[0]->input_Fs, hFrontVad->buffer_12k8_fx + L_FFT / 2, INT_FS_12k8, hFrontVad->mem_decim_fx, ( sts[0]->max_bwidth == NB ), &Qband, &mem_decim_size ); /* Preemphasis */ hFrontVad->mem_preemph_fx = shl( hFrontVad->mem_preemph_fx, sub( add( Q_inp, Qband ), hFrontVad->q_mem_preemph_fx ) ); /* Q_inp + Qband */ @@ -417,7 +415,7 @@ ivas_error front_vad_create_fx( move16(); /* allocate delay buffer to compensate for filterbank delay */ - hFrontVad->delay_samples = NS2SA( hEncoderConfig->input_Fs, IVAS_FB_ENC_DELAY_NS ); + hFrontVad->delay_samples = NS2SA_FX2( hEncoderConfig->input_Fs, IVAS_FB_ENC_DELAY_NS ); move16(); hFrontVad->delay_buf_fx = NULL; IF( GT_16( hFrontVad->delay_samples, 0 ) ) @@ -434,30 +432,6 @@ ivas_error front_vad_create_fx( return IVAS_ERR_OK; } -/*-----------------------------------------------------------------------------------------* - * Function front_vad_destroy() - * - * Deallocate Standalone front-VAD module - *-----------------------------------------------------------------------------------------*/ - -void front_vad_destroy( - FRONT_VAD_ENC_HANDLE *hFrontVad /* i/o: front-VAD handle */ -) -{ - IF( *hFrontVad != NULL ) - { - free( ( *hFrontVad )->hNoiseEst ); - ( *hFrontVad )->hNoiseEst = NULL; - - free( ( *hFrontVad )->hVAD ); - ( *hFrontVad )->hVAD = NULL; - - free( *hFrontVad ); - *hFrontVad = NULL; - } - - return; -} void front_vad_destroy_fx( FRONT_VAD_ENC_HANDLE *hFrontVad /* i/o: front-VAD handle */ ) @@ -583,7 +557,7 @@ ivas_error front_vad_spar_fx( st->input_fx = input_fx; Copy_Scale_sig32_16( omni_in, st->input_fx, input_frame, Q16 - Q11 ); /* Q16 */ - delay_signal( st->input_fx, input_frame, hFrontVad->delay_buf_fx, hFrontVad->delay_samples ); + delay_signal_fx( st->input_fx, input_frame, hFrontVad->delay_buf_fx, hFrontVad->delay_samples ); /* Scaling only if the omni_in buffer contains non-zero values */ maximum_abs_16_fx( st->input_fx, input_frame, &tmp ); @@ -635,23 +609,13 @@ ivas_error front_vad_spar_fx( Q_inp_12k8 = hFrontVad->q_buffer_12k8; move16(); - scale = s_min( add( q_fr_bands[0], L_norm_arr( fr_bands_fx[0], 2 * NB_BANDS ) ), add( hFrontVad->hNoiseEst->q_bckr, L_norm_arr( hFrontVad->hNoiseEst->bckr_fx, NB_BANDS ) ) ); - scale_sig32( fr_bands_fx[0], 40, sub( scale, q_fr_bands[0] ) ); // scale - scale_sig32( hFrontVad->hNoiseEst->bckr_fx, NB_BANDS, sub( scale, hFrontVad->hNoiseEst->q_bckr ) ); // scale - hFrontVad->hNoiseEst->q_bckr = q_fr_bands[0] = scale; - move16(); - move16(); - - noise_est_down_ivas_fx( fr_bands_fx[0], q_fr_bands[0], hFrontVad->hNoiseEst->bckr_fx, tmpN_fx, tmpE_fx, st->min_band, st->max_band, + Word16 q_tmpN, q_tmpE; + noise_est_down_ivas_fx( fr_bands_fx[0], q_fr_bands[0], hFrontVad->hNoiseEst->bckr_fx, &hFrontVad->hNoiseEst->q_bckr, tmpN_fx, &q_tmpN, tmpE_fx, &q_tmpE, st->min_band, st->max_band, &hFrontVad->hNoiseEst->totalNoise_fx, Etot_fx[0], &hFrontVad->hNoiseEst->Etot_last_fx, &hFrontVad->hNoiseEst->Etot_v_h2_fx ); corr_shift_fx = correlation_shift_fx( hFrontVad->hNoiseEst->totalNoise_fx ); /* Q15 */ -#ifdef NONBE_1211_DTX_BR_SWITCHING dtx_ivas_fx( st, hEncoderConfig->last_ivas_total_brate, hEncoderConfig->ivas_total_brate, vad_flag_dtx[0], inp_12k8_fx, Q_inp_12k8 ); -#else - dtx_ivas_fx( st, hEncoderConfig->ivas_total_brate, vad_flag_dtx[0], inp_12k8_fx, Q_inp_12k8 ); -#endif /* linear prediction analysis */ alw_pitch_lag_12k8[0] = st->old_pitch_la; /* Q0 */ @@ -696,14 +660,45 @@ ivas_error front_vad_spar_fx( old_pitch = st->pitch[1]; move16(); - Scale_sig( wsp_fx, 368, sub( Q8, Q_inp_12k8 ) ); // Q8 - pitch_ol_ivas_fx( st->pitch, st->voicing_fx, &st->old_pitch, &st->old_corr_fx, corr_shift_fx, &st->old_thres_fx, &st->delta_pit, st->old_wsp2_fx, wsp_fx, st->mem_decim2_fx, relE_fx, st->clas, st->input_bwidth, st->Opt_SC_VBR, Q8 ); + Word16 shift, Q_wsp; + Word16 shift1 = norm_arr( old_wsp_fx, L_WSP_MEM ); + Word16 shift2 = norm_arr( wsp_fx, L_WSP - L_WSP_MEM ); + maximum_abs_16_fx( old_wsp_fx, L_WSP_MEM, &shift ); + if ( !shift ) + { + shift1 = Q15; + move16(); + } + maximum_abs_16_fx( wsp_fx, L_WSP - L_WSP_MEM, &shift ); + if ( !shift ) + { + shift2 = Q15; + move16(); + } + + shift = s_min( Q15, s_min( add( Q_inp_12k8, shift1 ), add( Q_inp_12k8, shift2 ) ) ); + shift = s_min( shift, add( norm_arr( st->mem_decim2_fx, 3 ), st->Q_old_wsp2 ) ); + shift = s_min( shift, add( norm_arr( st->old_wsp2_fx, ( L_WSP_MEM - L_INTERPOL ) / OPL_DECIM ), st->Q_old_wsp2 ) ); + + scale_sig( old_wsp_fx, L_WSP_MEM, sub( shift, Q_inp_12k8 ) ); + scale_sig( wsp_fx, L_WSP - L_WSP_MEM, sub( shift, Q_inp_12k8 ) ); + + Q_wsp = shift; + move16(); + + scale_sig( st->mem_decim2_fx, 3, sub( Q_wsp, st->Q_old_wsp2 ) ); // Q( mem_decim ) = Q( old_wsp2 ) + scale_sig( st->old_wsp2_fx, ( L_WSP_MEM - L_INTERPOL ) / OPL_DECIM, sub( Q_wsp, st->Q_old_wsp2 ) ); // Q_wsp + + st->Q_old_wsp2 = Q_wsp; + move16(); + + pitch_ol_ivas_fx( st->pitch, st->voicing_fx, &st->old_pitch, &st->old_corr_fx, corr_shift_fx, &st->old_thres_fx, &st->delta_pit, st->old_wsp2_fx, wsp_fx, st->mem_decim2_fx, relE_fx, st->clas, st->input_bwidth, st->Opt_SC_VBR, Q_wsp ); /* Updates for adaptive lag window memory */ st->old_pitch_la = st->pitch[2]; /* Q0 */ move16(); - Scale_sig( wsp_fx, 368, Q9 - Q8 ); /* Q9 */ - StableHighPitchDetect_ivas_fx( &flag_spitch, st->pitch, st->voicing_fx, wsp_fx, st->localVAD, &st->voicing_sm_fx, &st->voicing0_sm_fx, &st->LF_EnergyRatio_sm_fx, &st->predecision_flag, &st->diff_sm_fx, &st->energy_sm_fx, Q12, st->lgBin_E_fx ); + + StableHighPitchDetect_ivas_fx( &flag_spitch, st->pitch, st->voicing_fx, wsp_fx, st->localVAD, &st->voicing_sm_fx, &st->voicing0_sm_fx, &st->LF_EnergyRatio_sm_fx, &st->predecision_flag, &st->diff_sm_fx, &st->energy_sm_fx, Q_wsp, st->lgBin_E_fx ); IF( st->hSpMusClas != NULL ) { Word16 dummy_int; @@ -726,18 +721,18 @@ ivas_error front_vad_spar_fx( Scale_sig32( epsP_fx, M + 1, scale ); // Q_esp scale = add( hFrontVad->hNoiseEst->ave_enr_q, s_min( L_norm_arr( hFrontVad->hNoiseEst->ave_enr_fx, NB_BANDS ), L_norm_arr( hFrontVad->hNoiseEst->ave_enr2_fx, NB_BANDS ) ) ); - scale = s_min( scale, add( hFrontVad->hNoiseEst->q_bckr, L_norm_arr( tmpE_fx, NB_BANDS ) ) ); + scale = s_min( scale, add( q_tmpE, L_norm_arr( tmpE_fx, NB_BANDS ) ) ); scale = sub( s_min( scale, Q31 ), 1 ); scale_sig32( hFrontVad->hNoiseEst->ave_enr_fx, NB_BANDS, sub( scale, hFrontVad->hNoiseEst->ave_enr_q ) ); scale_sig32( hFrontVad->hNoiseEst->ave_enr2_fx, NB_BANDS, sub( scale, hFrontVad->hNoiseEst->ave_enr_q ) ); - scale_sig32( tmpE_fx, NB_BANDS, sub( scale, hFrontVad->hNoiseEst->q_bckr ) ); + scale_sig32( tmpE_fx, NB_BANDS, sub( scale, q_tmpE ) ); hFrontVad->hNoiseEst->ave_enr_q = scale; move16(); - scale = add( hFrontVad->hNoiseEst->q_bckr, s_min( L_norm_arr( hFrontVad->hNoiseEst->bckr_fx, NB_BANDS ), L_norm_arr( tmpN_fx, NB_BANDS ) ) ); + scale = s_min( add( hFrontVad->hNoiseEst->q_bckr, L_norm_arr( hFrontVad->hNoiseEst->bckr_fx, NB_BANDS ) ), add( q_tmpN, L_norm_arr( tmpN_fx, NB_BANDS ) ) ); scale = sub( s_min( Q31, scale ), 1 ); // guard bits scale_sig32( hFrontVad->hNoiseEst->bckr_fx, NB_BANDS, sub( scale, hFrontVad->hNoiseEst->q_bckr ) ); - scale_sig32( tmpN_fx, NB_BANDS, sub( scale, hFrontVad->hNoiseEst->q_bckr ) ); + scale_sig32( tmpN_fx, NB_BANDS, sub( scale, q_tmpN ) ); hFrontVad->hNoiseEst->q_bckr = scale; move16(); diff --git a/lib_enc/ivas_init_enc.c b/lib_enc/ivas_init_enc_fx.c similarity index 98% rename from lib_enc/ivas_init_enc.c rename to lib_enc/ivas_init_enc_fx.c index 9d31297bdc8770a6c392c37f194c380a72df1c61..04b99f039019bb15a831a85c5ef8fe516d11b782 100644 --- a/lib_enc/ivas_init_enc.c +++ b/lib_enc/ivas_init_enc_fx.c @@ -34,15 +34,13 @@ #include #include "options.h" #include "ivas_cnst.h" -#include "prot.h" -#include "ivas_prot.h" +#include "prot_fx.h" #include "ivas_prot_fx.h" #include "ivas_stat_enc.h" #include "ivas_rom_com.h" #include "wmc_auto.h" #include "ivas_prot_fx.h" #include "prot_fx_enc.h" -#include "prot_fx.h" /*-------------------------------------------------------------------* @@ -271,7 +269,7 @@ Word16 getNumChanAnalysis_fx( return n; } - +#ifndef HARM_ENC_INIT /*-------------------------------------------------------------------* * copy_encoder_config_ivas_fx() * @@ -323,6 +321,7 @@ void copy_encoder_config_ivas_fx( return; } +#endif /*-------------------------------------------------------------------* * copy_encoder_config_fx() * @@ -465,7 +464,7 @@ void ivas_initialize_handles_enc_fx( * * Initialize IVAS encoder state structure *-------------------------------------------------------------------*/ - +#ifndef HARM_ENC_INIT ivas_error ivas_init_encoder( Encoder_Struct *st_ivas /* i/o: IVAS encoder structure */ ) @@ -494,7 +493,7 @@ ivas_error ivas_init_encoder( if ( NE_32( ivas_format, MONO_FORMAT ) ) { /* In IVAS, ensure that minimum coded bandwidth is WB */ - hEncoderConfig->max_bwidth = max( hEncoderConfig->max_bwidth, WB ); /* Q0 */ + hEncoderConfig->max_bwidth = s_max( hEncoderConfig->max_bwidth, WB ); /* Q0 */ move16(); } st_ivas->ism_mode = ISM_MODE_NONE; @@ -1075,6 +1074,7 @@ ivas_error ivas_init_encoder( } return error; } +#endif ivas_error ivas_init_encoder_fx( Encoder_Struct *st_ivas /* i/o: IVAS encoder structure */ ) @@ -1102,10 +1102,10 @@ ivas_error ivas_init_encoder_fx( hEncoderConfig->last_ivas_total_brate = ivas_total_brate; /* Q0 */ move32(); - IF( NE_16( ivas_format, MONO_FORMAT ) ) + if ( NE_16( ivas_format, MONO_FORMAT ) ) { /* In IVAS, ensure that minimum coded bandwidth is WB */ - hEncoderConfig->max_bwidth = extract_l( L_max( hEncoderConfig->max_bwidth, WB ) ); /* Q0 */ + hEncoderConfig->max_bwidth = s_max( hEncoderConfig->max_bwidth, WB ); /* Q0 */ move16(); } st_ivas->ism_mode = ISM_MODE_NONE; @@ -1144,7 +1144,10 @@ ivas_error ivas_init_encoder_fx( { return ( IVAS_ERROR( IVAS_ERR_FAILED_ALLOC, "Can not allocate memory for floating-point input audio buffer!\n" ) ); } + set32_fx( st_ivas->p_data_fx[n], 0, extract_l( Mpy_32_16_1( input_Fs, INV_FRAME_PER_SEC_Q15 ) ) ); } + st_ivas->q_data_fx = Q11; + move16(); FOR( ; n < MAX_INPUT_CHANNELS + MAX_NUM_OBJECTS; n++ ) { st_ivas->p_data_fx[n] = NULL; @@ -1198,7 +1201,7 @@ ivas_error ivas_init_encoder_fx( /*-----------------------------------------------------------------* * Allocate and initialize SCE/CPE and other handles *-----------------------------------------------------------------*/ - test(); + IF( EQ_32( ivas_format, MONO_FORMAT ) ) { st_ivas->nSCE = 1; /* in mono, there is always only one SCE */ @@ -1209,23 +1212,19 @@ ivas_error ivas_init_encoder_fx( move16(); sce_id = 0; move16(); - +#ifndef HARM_SCE_INIT test(); - IF( st_ivas->hEncoderConfig->element_mode_init == EVS_MONO ) + IF( NE_32( ( error = create_evs_sce_enc_fx( st_ivas, sce_id, ivas_total_brate ) ), IVAS_ERR_OK ) ) { - IF( NE_32( ( error = create_evs_sce_enc_fx( st_ivas, sce_id, ivas_total_brate ) ), IVAS_ERR_OK ) ) - { - return error; - } + return error; } - ELSE +#else + test(); + IF( NE_32( ( error = create_sce_enc_fx( st_ivas, sce_id, ivas_total_brate ) ), IVAS_ERR_OK ) ) { - IF( ( error = create_sce_enc_fx( st_ivas, sce_id, ivas_total_brate ) ) != IVAS_ERR_OK ) - { - return error; - } + return error; } - +#endif /* prepare stereo downmix for EVS */ IF( EQ_16( hEncoderConfig->stereo_dmx_evs, 1 ) ) { @@ -1344,7 +1343,7 @@ ivas_error ivas_init_encoder_fx( FOR( n = 0; n < CPE_CHANNELS; n++ ) { - IF( hEncoderConfig->Opt_DTX_ON ) + if ( hEncoderConfig->Opt_DTX_ON ) { st_ivas->hCPE[cpe_id]->hCoreCoder[n]->cng_sba_flag = 1; move16(); @@ -1352,7 +1351,7 @@ ivas_error ivas_init_encoder_fx( } } - IF( st_ivas->nCPE > 1 ) + IF( GT_16( st_ivas->nCPE, 1 ) ) { IF( ( error = create_mct_enc_fx( st_ivas ) ) != IVAS_ERR_OK ) { @@ -1360,7 +1359,7 @@ ivas_error ivas_init_encoder_fx( } } } - ELSE IF( EQ_32( ivas_format, MASA_ISM_FORMAT ) ) + ELSE IF( EQ_16( ivas_format, MASA_ISM_FORMAT ) ) { Word32 ism_total_brate; Word16 k; @@ -1430,12 +1429,12 @@ ivas_error ivas_init_encoder_fx( ELSE IF( EQ_32( ivas_format, SBA_ISM_FORMAT ) ) { st_ivas->ism_mode = ISM_MODE_NONE; - move32(); + move16(); IF( GE_32( ivas_total_brate, IVAS_256k ) ) { st_ivas->ism_mode = ISM_SBA_MODE_DISC; - move32(); + move16(); } IF( ( error = ivas_ism_metadata_enc_create_fx( st_ivas, hEncoderConfig->nchan_ism, element_brate_tmp ) ) != IVAS_ERR_OK ) @@ -1525,7 +1524,7 @@ ivas_error ivas_init_encoder_fx( return error; } - IF( NE_32( st_ivas->mc_mode, MC_MODE_MCT ) ) + IF( EQ_32( st_ivas->mc_mode, MC_MODE_MCT ) ) { st_ivas->nSCE = 0; move16(); @@ -1598,7 +1597,9 @@ ivas_error ivas_init_encoder_fx( FOR( cpe_id = 0; cpe_id < st_ivas->nCPE; cpe_id++ ) { - IF( ( error = create_cpe_enc_fx( st_ivas, cpe_id, ivas_total_brate / ( st_ivas->nCPE + st_ivas->nSCE ) ) ) != IVAS_ERR_OK ) + Word32 res_dec, res_frac; + iDiv_and_mod_32( ivas_total_brate, add( st_ivas->nCPE, st_ivas->nSCE ), &res_dec, &res_frac, 0 ); + IF( ( error = create_cpe_enc_fx( st_ivas, cpe_id, res_dec ) ) != IVAS_ERR_OK ) { return error; } @@ -1660,7 +1661,9 @@ ivas_error ivas_init_encoder_fx( *-----------------------------------------------------------------*/ /* set number of input channels used for analysis/coding */ - n = getNumChanAnalysis_fx( st_ivas ); + n = getNumChanAnalysis_fx( st_ivas ); /* Q0 */ + move16(); + IF( n > 0 ) { IF( ( st_ivas->mem_hp20_in_fx = (Word32 **) malloc( n * sizeof( Word32 * ) ) ) == NULL ) @@ -2153,7 +2156,7 @@ ivas_error ivas_initialize_MD_bstr_enc_fx( hMetaData->ivas_max_num_indices = &st_ivas->ivas_max_num_indices_metadata; /* Q0 */ hMetaData->st_ivas = st_ivas; - reset_indices_enc( hMetaData, st_ivas->ivas_max_num_indices_metadata ); + reset_indices_enc_fx( hMetaData, st_ivas->ivas_max_num_indices_metadata ); *hMetaData_out = hMetaData; diff --git a/lib_enc/ivas_ism_dtx_enc.c b/lib_enc/ivas_ism_dtx_enc_fx.c similarity index 96% rename from lib_enc/ivas_ism_dtx_enc.c rename to lib_enc/ivas_ism_dtx_enc_fx.c index 3439baff1f412272a2d2968a5fbe0ffde6c6a961..b06acfbac9d82312451262648f8cc39526dd1b19 100644 --- a/lib_enc/ivas_ism_dtx_enc.c +++ b/lib_enc/ivas_ism_dtx_enc_fx.c @@ -34,13 +34,10 @@ #include #include "options.h" #include "ivas_cnst.h" -#include "prot.h" -#include "ivas_prot.h" -#include "wmc_auto.h" #include "prot_fx.h" +#include "wmc_auto.h" #include "ivas_prot_fx.h" #include "prot_fx_enc.h" -#define IVAS_FLOAT_FIXED_TO_BE_REMOVED /*-----------------------------------------------------------------------* @@ -177,11 +174,7 @@ Word16 ivas_ism_dtx_enc_fx( ( EQ_16( nchan_ism, 2 ) && LE_32( ivas_total_brate, IVAS_48k ) ) || ( EQ_16( nchan_ism, 3 ) && LE_32( ivas_total_brate, IVAS_80k ) ) || ( EQ_16( nchan_ism, 4 ) && LE_32( ivas_total_brate, IVAS_96k ) ) || -#ifdef NONBE_FIX_1277_EVS_DTX_HIGH_RATE_THRESHOLD LT_16( lp_noise_max_fx, ( DTX_THR << 8 ) ) ) ) -#else - LT_16( lp_noise_max_fx, ( 15 << 8 ) ) ) ) -#endif { dtx_flag = 0; move16(); @@ -194,7 +187,7 @@ Word16 ivas_ism_dtx_enc_fx( IF( dtx_flag ) { /* reset the bitstream (IVAS format signaling was already written) */ - reset_indices_enc( hSCE[0]->hCoreCoder[0]->hBstr, hSCE[0]->hCoreCoder[0]->hBstr->nb_ind_tot ); + reset_indices_enc_fx( hSCE[0]->hCoreCoder[0]->hBstr, hSCE[0]->hCoreCoder[0]->hBstr->nb_ind_tot ); } /*------------------------------------------------------------------* @@ -447,9 +440,9 @@ void ivas_ism_coh_estim_dtx_enc_fx( Word16 sce_id, i; Word32 acorr_ene_fx[MAX_NUM_OBJECTS], xcorr_ene_fx; Word16 acorr_ene_e[MAX_NUM_OBJECTS], xcorr_ene_e; - Word16 norm_inp; - Word16 tot_exp; - Word32 scaled_inp; + Word16 norm_inp, norm_inp0; + Word16 tot_exp, tot_exp2; + Word32 scaled_inp, scaled_inp0; set16_fx( acorr_ene_e, 0, MAX_NUM_OBJECTS ); IF( EQ_16( nchan_transport, 1 ) ) @@ -479,7 +472,7 @@ void ivas_ism_coh_estim_dtx_enc_fx( { hISMDTX->coh_fx[sce_id] = 32767; /* 1 in Q15 */ move16(); - continue; + CONTINUE; } st = hSCE[sce_id]->hCoreCoder[0]; @@ -495,10 +488,13 @@ void ivas_ism_coh_estim_dtx_enc_fx( { norm_inp = norm_l( st->input32_fx[i] ); scaled_inp = L_shl( st->input32_fx[i], norm_inp ); - tot_exp = shl( sub( 20, norm_inp ), 1 ); + tot_exp = shl( sub( sub( 31, st->q_inp32 ), norm_inp ), 1 ); acorr_ene_fx[sce_id] = BASOP_Util_Add_Mant32Exp( acorr_ene_fx[sce_id], acorr_ene_e[sce_id], Mult_32_32( scaled_inp, scaled_inp ), tot_exp, &acorr_ene_e[sce_id] ); /* exp(acorr_ene_e) */ move32(); - xcorr_ene_fx = BASOP_Util_Add_Mant32Exp( xcorr_ene_fx, xcorr_ene_e, Mult_32_32( scaled_inp, scaled_inp ), tot_exp, &xcorr_ene_e ); /* exp(xcorr_ene_e) */ + norm_inp0 = norm_l( st_id0->input32_fx[i] ); + scaled_inp0 = L_shl( st_id0->input32_fx[i], norm_inp0 ); + tot_exp2 = add( sub( sub( 31, st_id0->q_inp32 ), norm_inp0 ), sub( sub( 31, st->q_inp32 ), norm_inp ) ); + xcorr_ene_fx = BASOP_Util_Add_Mant32Exp( xcorr_ene_fx, xcorr_ene_e, Mult_32_32( scaled_inp, scaled_inp0 ), tot_exp2, &xcorr_ene_e ); /* exp(xcorr_ene_e) */ } Word16 coh_e; Word16 temp_e = acorr_ene_e[hISMDTX->sce_id_dtx] + acorr_ene_e[sce_id]; diff --git a/lib_enc/ivas_ism_enc.c b/lib_enc/ivas_ism_enc_fx.c similarity index 94% rename from lib_enc/ivas_ism_enc.c rename to lib_enc/ivas_ism_enc_fx.c index 51af4e5a9195930fa734144f93851480c709af73..81c9e01ef8818e5f3d1976b93dd791b99b9966a1 100644 --- a/lib_enc/ivas_ism_enc.c +++ b/lib_enc/ivas_ism_enc_fx.c @@ -33,12 +33,10 @@ #include #include "options.h" #include "ivas_cnst.h" -#include "prot.h" -#include "ivas_prot.h" +#include "prot_fx.h" #include "ivas_stat_enc.h" #include "wmc_auto.h" #include "ivas_prot_fx.h" -#include "prot_fx.h" #include "prot_fx_enc.h" #ifdef DEBUGGING #include "debug.h" @@ -90,7 +88,7 @@ ivas_error ivas_ism_enc_fx( Word16 vad_flag_dtx[MAX_NUM_OBJECTS][1]; /* HE-SAD flag with additional DTX HO */ Word32 enerBuffer_fx[MAX_NUM_OBJECTS][1][CLDFB_NO_CHANNELS_MAX]; /* energy buffer */ Word16 enerBuffer_fx_exp[MAX_NUM_OBJECTS][1]; /* energy buffer */ - Word16 currFlatness_fx[1]; /* flatness parameter */ + Word32 currFlatness_fx[1]; /* flatness parameter */ Word16 fft_buff_fx[MAX_NUM_OBJECTS][1][2 * L_FFT]; /* FFT buffer */ Word16 fft_buff_fx_q[MAX_NUM_OBJECTS][1]; /* FFT buffer */ Word32 fr_bands_fx[1][2 * NB_BANDS]; /* energy in frequency bands */ @@ -118,12 +116,10 @@ ivas_error ivas_ism_enc_fx( error = IVAS_ERR_OK; move32(); -#ifdef MSAN_FIX FOR( i = 0; i < MAX_NUM_OBJECTS; i++ ) { set16_zero_fx( old_inp_12k8_fx[i][0], L_INP_12k8 ); } -#endif set16_fx( q_re_im_buf, 0, MAX_NUM_OBJECTS ); @@ -169,10 +165,14 @@ ivas_error ivas_ism_enc_fx( /*------------------------------------------------------------------* * Initialization - general *-----------------------------------------------------------------*/ - Copy32( data[sce_id], st->input32_fx, input_frame ); // Q(q_data) - q_st_inp_16 = sub( L_norm_arr( st->input32_fx, input_frame ), 16 ); - Copy_Scale_sig_32_16( st->input32_fx, st->input_fx, input_frame, q_st_inp_16 ); // q_data -> Q(q_inp + q_data) - st->q_inp = add( q_st_inp_16, q_data ); + Word16 Q_min = s_min( q_data, add( st->q_inp32, L_norm_arr( st->input32_fx - input_frame, input_frame ) ) ); + scale_sig32( st->input32_fx - input_frame, input_frame, sub( Q_min, st->q_inp32 ) ); + Copy_Scale_sig32( data[sce_id], st->input32_fx, input_frame, sub( Q_min, q_data ) ); // Q(Q_min) + st->q_inp32 = Q_min; + move16(); + q_st_inp_16 = sub( getScaleFactor32( st->input32_fx, input_frame ), 16 ); + Copy_Scale_sig_32_16( st->input32_fx, st->input_fx, input_frame, q_st_inp_16 ); // Q_min -> Q(q_inp + Q_min) + st->q_inp = add( q_st_inp_16, Q_min ); move16(); st->element_mode = IVAS_SCE; @@ -215,7 +215,7 @@ ivas_error ivas_ism_enc_fx( RunTransientDetection_ivas_fx( st->input_fx, input_frame, st->hTranDet, st->q_inp ); - currFlatness_fx[0] = GetTCXAvgTemporalFlatnessMeasure_ivas_fx( (const TransientDetection *) st->hTranDet, NSUBBLOCKS, 0 ); // Q7 + currFlatness_fx[0] = GetTCXAvgTemporalFlatnessMeasure_ivas_fx( (const TransientDetection *) st->hTranDet, NSUBBLOCKS, 0 ); // Q21 move16(); /*----------------------------------------------------------------* @@ -249,11 +249,7 @@ ivas_error ivas_ism_enc_fx( error = pre_proc_front_ivas_fx( hSCE, NULL, hSCE->element_brate, nb_bits_metadata[sce_id], input_frame, 0, old_inp_12k8_fx[sce_id][0], old_inp_16k_fx[sce_id][0], &ener_fx[sce_id][0], &relE_fx[sce_id][0], A_fx[sce_id][0], Aw_fx[sce_id][0], epsP_fx[sce_id][0], &epsP_fx_q[sce_id][0], lsp_new_fx[sce_id][0], lsp_mid_fx[sce_id][0], &vad_hover_flag[sce_id][0], &attack_flag[sce_id][0], realBuffer_fx[sce_id][0], imagBuffer_fx[sce_id][0], &q_re_im_buf[sce_id], old_wsp_fx[sce_id][0], &q_old_wsp, pitch_fr_fx[sce_id][0], voicing_fr_fx[sce_id][0], &loc_harm[sce_id][0], &cor_map_sum_fx[sce_id][0], &vad_flag_dtx[sce_id][0], enerBuffer_fx[sce_id][0], &enerBuffer_fx_exp[sce_id][0], -#ifdef NONBE_1211_DTX_BR_SWITCHING fft_buff_fx[sce_id][0], &fft_buff_fx_q[sce_id][0], A_fx[sce_id][0], lsp_new_fx[sce_id][0], currFlatness_fx[0], 0, fr_bands_fx, q_fr_bands, Etot_LR_fx, lf_E_fx, 31, localVAD_HE_SAD, NULL, 31, 0, 0, 0, 0, ISM_FORMAT, 0, st_ivas->hEncoderConfig->last_ivas_total_brate, st_ivas->hEncoderConfig->ivas_total_brate, &Q_new[sce_id][0] -#else - fft_buff_fx[sce_id][0], &fft_buff_fx_q[sce_id][0], A_fx[sce_id][0], lsp_new_fx[sce_id][0], currFlatness_fx[0], 0, fr_bands_fx, q_fr_bands, Etot_LR_fx, lf_E_fx, 31, localVAD_HE_SAD, NULL, 31, 0, 0, 0, 0, ISM_FORMAT, 0, st_ivas->hEncoderConfig->ivas_total_brate, &Q_new[sce_id][0] -#endif #ifdef DEBUG_MODE_INFO , st->id_element @@ -283,20 +279,6 @@ ivas_error ivas_ism_enc_fx( *-----------------------------------------------------------------*/ /* compute the dominant sce_id using long term energy */ - FOR( Word16 j = 0; j < st_ivas->nchan_transport; j++ ) - { - test(); - IF( st_ivas->hSCE[j] && st_ivas->hSCE[j]->hCoreCoder[0] ) - { -#ifdef FIX_ISSUE_1237 - Copy_Scale_sig_16_32_no_sat( st_ivas->hSCE[j]->hCoreCoder[0]->input_fx, st_ivas->hSCE[j]->hCoreCoder[0]->input32_fx, input_frame, sub( Q11, st_ivas->hSCE[j]->hCoreCoder[0]->q_inp ) ); /* Q11 */ -#else - Copy_Scale_sig_16_32_DEPREC( st_ivas->hSCE[j]->hCoreCoder[0]->input_fx, st_ivas->hSCE[j]->hCoreCoder[0]->input32_fx, input_frame, sub( Q11, st_ivas->hSCE[j]->hCoreCoder[0]->q_inp ) ); /* Q11 */ -#endif - st_ivas->hSCE[j]->hCoreCoder[0]->q_inp32 = Q11; - move16(); - } - } IF( st_ivas->hEncoderConfig->Opt_DTX_ON ) { @@ -492,6 +474,7 @@ ivas_error ivas_ism_enc_fx( Copy( st->input_fx, st->old_input_signal_fx, input_frame ); /* st->q_inp */ st->q_old_inp = st->q_inp; move16(); + Copy32( st->input32_fx, st->input32_fx - input_frame, input_frame ); /* st->q_inp32 */ hSCE->last_element_brate = hSCE->element_brate; /* Q0 */ move32(); diff --git a/lib_enc/ivas_ism_metadata_enc.c b/lib_enc/ivas_ism_metadata_enc_fx.c similarity index 99% rename from lib_enc/ivas_ism_metadata_enc.c rename to lib_enc/ivas_ism_metadata_enc_fx.c index d78281ff419eb48b5858200de5008658c5183187..0cd43530689b3c77a53f0d74e90812ebc8dae45a 100644 --- a/lib_enc/ivas_ism_metadata_enc.c +++ b/lib_enc/ivas_ism_metadata_enc_fx.c @@ -35,17 +35,14 @@ #include #include "options.h" #include "ivas_cnst.h" -#include "ivas_prot.h" #include "ivas_prot_fx.h" #include "ivas_rom_com.h" -#include "prot.h" +#include "prot_fx.h" #include #include "wmc_auto.h" -#include "prot_fx.h" #include "ivas_prot_fx.h" #include "ivas_rom_com_fx.h" -#define IVAS_FLOAT_FIXED_TO_BE_REMOVED -#include "ivas_rom_com_fx.h" + /*-----------------------------------------------------------------------* * Local constants @@ -57,7 +54,6 @@ #define ISM_MAX_ELEVATION_DIFF_IDX ( ISM_ELEVATION_NBITS - 1 /*zero*/ - 1 /*sign*/ ) #define ISM_MAX_RADIUS_DIFF_IDX ( ISM_RADIUS_NBITS - 1 /*zero*/ - 1 /*sign*/ ) -#define ISM_FEC_MAX 10 #define ISM_MD_FEC_DIFF 10 #define ISM_MD_FEC_DIFF_Q22 41943040 #define ISM_MD_INC_DIFF_CNT_MAX 6 @@ -218,7 +214,7 @@ ivas_error ivas_ism_metadata_enc_fx( move16(); Word32 valQ_fx; ISM_METADATA_HANDLE hIsmMetaData; - int32_t element_brate[MAX_NUM_OBJECTS], total_brate[MAX_NUM_OBJECTS]; + Word32 element_brate[MAX_NUM_OBJECTS], total_brate[MAX_NUM_OBJECTS]; Word16 ism_metadata_flag_global; Word16 non_diegetic_flag_global; Word16 ism_imp[MAX_NUM_OBJECTS]; @@ -317,10 +313,8 @@ ivas_error ivas_ism_metadata_enc_fx( } ELSE IF( EQ_16( hIsmMeta[ch]->ism_md_fec_cnt_enc, ISM_MD_FEC_CNT_MAX ) ) { -#ifdef NONBE_1273_ISM_METADATA_COUNTER hIsmMeta[ch]->ism_md_fec_cnt_enc = 0; move16(); -#endif lowrate_metadata_flag[ch] = 1; move16(); hIsmMeta[ch]->position_angle.angle1_diff_cnt = ISM_FEC_MAX; @@ -653,10 +647,8 @@ ivas_error ivas_ism_metadata_enc_fx( { hIsmMeta[ch]->ism_md_fec_cnt_enc = add( hIsmMeta[ch]->ism_md_fec_cnt_enc, 1 ); move16(); -#ifdef NONBE_1273_ISM_METADATA_COUNTER hIsmMeta[ch]->ism_md_fec_cnt_enc = s_min( hIsmMeta[ch]->ism_md_fec_cnt_enc, ISM_MD_FEC_CNT_MAX ); move16(); -#endif } ELSE { @@ -824,10 +816,8 @@ ivas_error ivas_ism_metadata_enc_fx( { hIsmMeta[ch]->ism_md_fec_cnt_enc = add( hIsmMeta[ch]->ism_md_fec_cnt_enc, 1 ); move16(); -#ifdef NONBE_1273_ISM_METADATA_COUNTER hIsmMeta[ch]->ism_md_fec_cnt_enc = s_min( hIsmMeta[ch]->ism_md_fec_cnt_enc, ISM_MD_FEC_CNT_MAX ); move16(); -#endif } ELSE { @@ -876,7 +866,7 @@ ivas_error ivas_ism_metadata_enc_fx( /* write metadata only in active frames */ IF( GT_32( hSCE[0]->hCoreCoder[0]->core_brate, SID_2k40 ) ) { - reset_indices_enc( hSCE[ch]->hMetaData, hSCE[ch]->hMetaData->nb_ind_tot ); + reset_indices_enc_fx( hSCE[ch]->hMetaData, hSCE[ch]->hMetaData->nb_ind_tot ); } } diff --git a/lib_enc/ivas_ism_param_enc.c b/lib_enc/ivas_ism_param_enc_fx.c similarity index 99% rename from lib_enc/ivas_ism_param_enc.c rename to lib_enc/ivas_ism_param_enc_fx.c index bef6912bd58d286b096aa6cd8eebbc35cf7403f8..cda8cffd674b477b98ea0d5bc665a92cd1198792 100644 --- a/lib_enc/ivas_ism_param_enc.c +++ b/lib_enc/ivas_ism_param_enc_fx.c @@ -34,9 +34,7 @@ #include #include #include "options.h" -#include "ivas_prot.h" #include "ivas_prot_fx.h" -#include "prot.h" #include "prot_fx.h" #include "cnst.h" #include "ivas_cnst.h" diff --git a/lib_enc/ivas_lfe_enc.c b/lib_enc/ivas_lfe_enc_fx.c similarity index 96% rename from lib_enc/ivas_lfe_enc.c rename to lib_enc/ivas_lfe_enc_fx.c index 8ccb59c9c73f3119f39c83bc66c4b440861d9606..96959c9dd46fe0d60f391fcbb4c5da5f0e2d3f50 100644 --- a/lib_enc/ivas_lfe_enc.c +++ b/lib_enc/ivas_lfe_enc_fx.c @@ -33,12 +33,10 @@ #include #include "options.h" #include "math.h" -#include "prot.h" -#include "ivas_prot.h" +#include "prot_fx.h" #include "ivas_cnst.h" #include "ivas_rom_com.h" #include "wmc_auto.h" -#include "prot_fx.h" #include "ivas_prot_fx.h" @@ -171,17 +169,17 @@ static void ivas_lfe_enc_quant_fx( { temp_lfe_dct[4 * i] = pLfe_dct[2 * i]; move32(); - lfe_abs_sum = W_add( lfe_abs_sum, abs( temp_lfe_dct[4 * i] ) ); + lfe_abs_sum = W_add( lfe_abs_sum, L_abs( temp_lfe_dct[4 * i] ) ); temp_lfe_dct[4 * i + 1] = pLfe_dct[2 * i + 1]; move32(); - lfe_abs_sum = W_add( lfe_abs_sum, abs( temp_lfe_dct[4 * i + 1] ) ); + lfe_abs_sum = W_add( lfe_abs_sum, L_abs( temp_lfe_dct[4 * i + 1] ) ); temp_lfe_dct[4 * i + 2] = pLfe_dct[2 * i + num_dct_pass_bins]; move32(); - lfe_abs_sum = W_add( lfe_abs_sum, abs( temp_lfe_dct[4 * i + 2] ) ); + lfe_abs_sum = W_add( lfe_abs_sum, L_abs( temp_lfe_dct[4 * i + 2] ) ); temp_lfe_dct[4 * i + 3] = pLfe_dct[2 * i + num_dct_pass_bins + 1]; move32(); - lfe_abs_sum = W_add( lfe_abs_sum, abs( temp_lfe_dct[4 * i + 3] ) ); + lfe_abs_sum = W_add( lfe_abs_sum, L_abs( temp_lfe_dct[4 * i + 3] ) ); } IF( LE_64( lfe_abs_sum, W_shr( IVAS_LFE_ABS_SUM_FLT_THR_Q42, sub( 42, q_pLfe_dct ) ) ) ) @@ -251,9 +249,9 @@ static void ivas_lfe_enc_quant_fx( move16(); } - IF( LT_32( max_of_vals, abs( values[i] ) ) ) + IF( LT_32( max_of_vals, abs_s( values[i] ) ) ) { - max_of_vals = (Word16) abs( values[i] ); + max_of_vals = abs_s( values[i] ); move16(); } } @@ -476,8 +474,8 @@ void ivas_lfe_enc_fx( IF( GT_16( q_out1, q_out2 ) ) { - Scale_sig32( lfe_dct_fx + num_dct_pass_bins, num_dct_pass_bins, min( q_tmp2, sub( q_out1, q_out2 ) ) ); - q_out2 = add( q_out2, min( q_tmp2, sub( q_out1, q_out2 ) ) ); + Scale_sig32( lfe_dct_fx + num_dct_pass_bins, num_dct_pass_bins, s_min( q_tmp2, sub( q_out1, q_out2 ) ) ); + q_out2 = add( q_out2, s_min( q_tmp2, sub( q_out1, q_out2 ) ) ); IF( GT_16( q_out1, q_out2 ) ) { Scale_sig32( lfe_dct_fx, num_dct_pass_bins, sub( q_out2, q_out1 ) ); // q_out2 @@ -487,8 +485,8 @@ void ivas_lfe_enc_fx( } ELSE IF( LT_16( q_out1, q_out2 ) ) { - Scale_sig32( lfe_dct_fx, num_dct_pass_bins, min( q_tmp1, sub( q_out2, q_out1 ) ) ); - q_out1 = add( q_out1, min( q_tmp1, sub( q_out2, q_out1 ) ) ); + Scale_sig32( lfe_dct_fx, num_dct_pass_bins, s_min( q_tmp1, sub( q_out2, q_out1 ) ) ); + q_out1 = add( q_out1, s_min( q_tmp1, sub( q_out2, q_out1 ) ) ); IF( LT_16( q_out1, q_out2 ) ) { Scale_sig32( lfe_dct_fx + num_dct_pass_bins, num_dct_pass_bins, sub( q_out1, q_out2 ) ); // q_out1 @@ -538,12 +536,12 @@ ivas_error ivas_create_lfe_enc_fx( * Input memory buffer: allocate and initialize *-----------------------------------------------------------------*/ - IF( ( hLFE->old_wtda_audio_fx = (Word32 *) malloc( sizeof( hLFE->old_wtda_audio_fx[0] ) * NS2SA( input_Fs, IVAS_LFE_FADE_NS ) ) ) == NULL ) + IF( ( hLFE->old_wtda_audio_fx = (Word32 *) malloc( sizeof( hLFE->old_wtda_audio_fx[0] ) * NS2SA_FX2( input_Fs, IVAS_LFE_FADE_NS ) ) ) == NULL ) { return ( IVAS_ERROR( IVAS_ERR_FAILED_ALLOC, "Can not allocate memory for LFE memory\n" ) ); } - set32_fx( hLFE->old_wtda_audio_fx, 0, NS2SA( input_Fs, IVAS_LFE_FADE_NS ) ); + set32_fx( hLFE->old_wtda_audio_fx, 0, NS2SA_FX2( input_Fs, IVAS_LFE_FADE_NS ) ); hLFE->q_old_wtda_audio = 31; move16(); diff --git a/lib_enc/ivas_masa_enc.c b/lib_enc/ivas_masa_enc_fx.c similarity index 98% rename from lib_enc/ivas_masa_enc.c rename to lib_enc/ivas_masa_enc_fx.c index f4fe68c59e8c6aac66b343bfdc3b68afd621ad2d..2b9ffef15f53806e0f56f6d3bbf06b0ea710c928 100644 --- a/lib_enc/ivas_masa_enc.c +++ b/lib_enc/ivas_masa_enc_fx.c @@ -34,11 +34,9 @@ #include #include "options.h" #include "ivas_cnst.h" -#include "ivas_prot.h" #include "ivas_rom_com.h" #include "ivas_stat_enc.h" #include "wmc_auto.h" -#include "prot.h" #include "prot_fx.h" #include "prot_fx_enc.h" #include "ivas_prot_fx.h" @@ -154,7 +152,7 @@ ivas_error ivas_masa_enc_open_fx( FOR( i = 0; i < hMasa->data.num_Cldfb_instances; i++ ) { - IF( NE_32( ( error = openCldfb_ivas_enc( &( hMasa->data.cldfbAnaEnc[i] ), CLDFB_ANALYSIS, hEncoderConfig->input_Fs, CLDFB_PROTOTYPE_5_00MS ) ), IVAS_ERR_OK ) ) + IF( NE_32( ( error = openCldfb_ivas_fx( &( hMasa->data.cldfbAnaEnc[i] ), CLDFB_ANALYSIS, hEncoderConfig->input_Fs, CLDFB_PROTOTYPE_5_00MS, ENC ) ), IVAS_ERR_OK ) ) { return error; } @@ -262,7 +260,7 @@ void ivas_masa_enc_close_fx( FOR( i = 0; i < ( *hMasa )->data.num_Cldfb_instances; i++ ) { - deleteCldfb_ivas( &( ( *hMasa )->data.cldfbAnaEnc[i] ) ); + deleteCldfb_ivas_fx( &( ( *hMasa )->data.cldfbAnaEnc[i] ) ); } IF( ( *hMasa )->data.hOmasaData != NULL ) @@ -989,11 +987,7 @@ ivas_error ivas_masa_enc_config_fx( /* Setup importance weights for two-direction band selection. */ IF( EQ_16( hMasa->config.numberOfDirections, 2 ) ) { -#ifdef MSAN_FIX set32_fx( hMasa->data.importanceWeight_fx, ONE_IN_Q30 /*1.0f Q30*/, MASA_FREQUENCY_BANDS ); -#else - set32_fx( hMasa->data.importanceWeight_fx, ONE_IN_Q30 /*1.0f Q30*/, hMasa->config.numCodingBands ); -#endif IF( EQ_16( hMasa->config.numCodingBands, 5 ) ) @@ -2303,7 +2297,9 @@ static void reduce_metadata_further_fx( UWord8 computeCoherence; Word32 onset_filter; Word16 onset_filter_e, exp; - Word32 bandEnergy; + Word64 bandEnergy; + Word32 bandEnergy32; + Word16 bandEnergy_exp, shift; UWord8 mergeOverFreqBands; Word32 meanRatio; Word16 tmp, tmp2; @@ -2443,13 +2439,16 @@ static void reduce_metadata_further_fx( move32(); bandEnergy = 0; - move32(); + move64(); FOR( sf = 0; sf < MAX_PARAM_SPATIAL_SUBFRAMES; sf++ ) { - bandEnergy = L_add( bandEnergy, energy[sf][band] ); + bandEnergy = W_mac_32_32( bandEnergy, energy[sf][band], 1 ); } + shift = W_norm( bandEnergy ); + bandEnergy32 = W_extract_h( W_shl( bandEnergy, shift ) ); + bandEnergy_exp = sub( 63, add( add( hMasa->data.q_energy, 1 ), shift ) ); - IF( BASOP_Util_Cmp_Mant32Exp( Mpy_32_32( L_shr( bandEnergy, 2 ), bandRatio ), sub( 31 + 1, hMasa->data.q_energy ), threshold, exp ) > 0 ) + IF( BASOP_Util_Cmp_Mant32Exp( Mpy_32_32( L_shr( bandEnergy32, 2 ), bandRatio ), add( 1, bandEnergy_exp ), threshold, exp ) > 0 ) { selectedBand = band; move16(); @@ -3985,9 +3984,7 @@ static void quantize_ratio_ism_vector_ivas_fx( FOR( i = 0; i < no_ism_loc; i++ ) { - idx[i] = mult( ratio_ism_loc[i], max_sum_idx ); // exponent : ratio_ism_e + 15 - move16(); - idx[i] = shl( idx[i], sub( add( ratio_ism_e, 15 ), 15 ) ); // Q0 + idx[i] = extract_l( L_shr( L_mult0( ratio_ism_loc[i], max_sum_idx ), sub( 15, ratio_ism_e ) ) ); // Q0 move16(); part_idx_sum = add( part_idx_sum, idx[i] ); @@ -4648,7 +4645,9 @@ static void ivas_encode_masaism_metadata_fx( UWord8 numCodingBands; UWord8 numSf; Word16 brange[2]; - Word32 eneBand; + Word64 eneBand; + Word32 eneBand32; + Word16 eneBand_exp, shift; Word16 bin; Word16 obj; Word16 bits_ism[MAX_NUM_OBJECTS]; @@ -4697,11 +4696,14 @@ static void ivas_encode_masaism_metadata_fx( eneBand = 0; move16(); move16(); - move32(); + move64(); FOR( bin = brange[0]; bin < brange[1]; bin++ ) { - eneBand = L_add( eneBand, hMasa->data.energy_fx[sf][bin] ); // hMasa->data.q_energy + eneBand = W_mac_32_32( eneBand, hMasa->data.energy_fx[sf][bin], 1 ); // hMasa->data.q_energy + 1 } + shift = W_norm( eneBand ); + eneBand32 = W_extract_h( W_shl( eneBand, shift ) ); + eneBand_exp = sub( 63, add( add( hMasa->data.q_energy, 1 ), shift ) ); energy_ism = 0; energy_ism_e = 0; @@ -4735,12 +4737,12 @@ static void ivas_encode_masaism_metadata_fx( hOmasaData->energy_ratio_ism_fx[sf][0][obj] = L_shl( hOmasaData->energy_ratio_ism_fx[sf][0][obj], sub( L_tmp_e, 1 ) ); // Q30 move32(); } - L_tmp = BASOP_Util_Add_Mant32Exp( eneBand, sub( 31, hMasa->data.q_energy ), energy_ism, energy_ism_e, &L_tmp_e ); + L_tmp = BASOP_Util_Add_Mant32Exp( eneBand32, eneBand_exp, energy_ism, energy_ism_e, &L_tmp_e ); IF( L_tmp != 0 ) { - hOmasaData->masa_to_total_energy_ratio_fx[sf][0] = BASOP_Util_Divide3232_Scale_cadence( eneBand, L_tmp, &tmp ); + hOmasaData->masa_to_total_energy_ratio_fx[sf][0] = BASOP_Util_Divide3232_Scale_cadence( eneBand32, L_tmp, &tmp ); move32(); - tmp = add( tmp, sub( sub( 31, hMasa->data.q_energy ), L_tmp_e ) ); + tmp = add( tmp, sub( eneBand_exp, L_tmp_e ) ); /* Scaling to Q30 */ hOmasaData->masa_to_total_energy_ratio_fx[sf][0] = L_shl( hOmasaData->masa_to_total_energy_ratio_fx[sf][0], sub( tmp, 1 ) ); // Q30 move32(); @@ -4802,21 +4804,24 @@ static void ivas_encode_masaism_metadata_fx( move16(); eneBand = 0; - move32(); + move64(); FOR( sf = 0; sf < omasa_nblocks; sf++ ) { FOR( bin = brange[0]; bin < brange[1]; bin++ ) { - eneBand = L_add( eneBand, hMasa->data.energy_fx[sf][bin] ); // hMasa->data.q_energy + eneBand = W_mac_32_32( eneBand, hMasa->data.energy_fx[sf][bin], 1 ); // hMasa->data.q_energy + 1 } } + shift = W_norm( eneBand ); + eneBand32 = W_extract_h( W_shl( eneBand, shift ) ); + eneBand_exp = sub( 63, add( add( hMasa->data.q_energy, 1 ), shift ) ); - L_tmp = BASOP_Util_Add_Mant32Exp( eneBand, sub( 31, hMasa->data.q_energy ), energy_ism, energy_ism_e, &L_tmp_e ); + L_tmp = BASOP_Util_Add_Mant32Exp( eneBand32, eneBand_exp, energy_ism, energy_ism_e, &L_tmp_e ); IF( L_tmp != 0 ) { - hOmasaData->masa_to_total_energy_ratio_fx[0][band] = BASOP_Util_Divide3232_Scale_cadence( eneBand, L_tmp, &tmp ); + hOmasaData->masa_to_total_energy_ratio_fx[0][band] = BASOP_Util_Divide3232_Scale_cadence( eneBand32, L_tmp, &tmp ); move32(); - tmp = add( tmp, sub( sub( 31, hMasa->data.q_energy ), L_tmp_e ) ); + tmp = add( tmp, sub( eneBand_exp, L_tmp_e ) ); /* Scaling to Q30 */ hOmasaData->masa_to_total_energy_ratio_fx[0][band] = L_shl( hOmasaData->masa_to_total_energy_ratio_fx[0][band], sub( tmp, 1 ) ); // Q30 move32(); @@ -4859,18 +4864,21 @@ static void ivas_encode_masaism_metadata_fx( move16(); eneBand = 0; - move32(); + move64(); FOR( bin = brange[0]; bin < brange[1]; bin++ ) { - eneBand = L_add( eneBand, hMasa->data.energy_fx[sf][bin] ); // hMasa->data.q_energy + eneBand = W_mac_32_32( eneBand, hMasa->data.energy_fx[sf][bin], 1 ); // hMasa->data.q_energy + 1 } + shift = W_norm( eneBand ); + eneBand32 = W_extract_h( W_shl( eneBand, shift ) ); + eneBand_exp = sub( 63, add( add( hMasa->data.q_energy, 1 ), shift ) ); - L_tmp = BASOP_Util_Add_Mant32Exp( eneBand, sub( 31, hMasa->data.q_energy ), hOmasaData->energy_ism_fx[sf][band], hOmasaData->energy_ism_fx_e[sf][band], &L_tmp_e ); + L_tmp = BASOP_Util_Add_Mant32Exp( eneBand32, eneBand_exp, hOmasaData->energy_ism_fx[sf][band], hOmasaData->energy_ism_fx_e[sf][band], &L_tmp_e ); IF( L_tmp != 0 ) { - hOmasaData->masa_to_total_energy_ratio_fx[sf][band] = BASOP_Util_Divide3232_Scale_cadence( eneBand, L_tmp, &tmp ); + hOmasaData->masa_to_total_energy_ratio_fx[sf][band] = BASOP_Util_Divide3232_Scale_cadence( eneBand32, L_tmp, &tmp ); move32(); - tmp = add( tmp, sub( sub( 31, hMasa->data.q_energy ), L_tmp_e ) ); + tmp = add( tmp, sub( eneBand_exp, L_tmp_e ) ); /* Scaling to Q30 */ hOmasaData->masa_to_total_energy_ratio_fx[sf][band] = L_shl( hOmasaData->masa_to_total_energy_ratio_fx[sf][band], sub( tmp, 1 ) ); // Q30 move32(); diff --git a/lib_enc/ivas_mc_param_enc.c b/lib_enc/ivas_mc_param_enc_fx.c similarity index 84% rename from lib_enc/ivas_mc_param_enc.c rename to lib_enc/ivas_mc_param_enc_fx.c index 859ce3a9b8215258fde6a17045c7a51d2f20588b..d0316be0ff0de173e84415dc2bfe26286c531749 100644 --- a/lib_enc/ivas_mc_param_enc.c +++ b/lib_enc/ivas_mc_param_enc_fx.c @@ -37,16 +37,13 @@ #include "rom_enc.h" #include "ivas_rom_enc.h" #include "rom_com.h" -#include "prot.h" #include "prot_fx.h" -#include "ivas_prot.h" #include "ivas_prot_fx.h" #include "ivas_cnst.h" #include "ivas_rom_com.h" #include "wmc_auto.h" #include "prot_fx_enc.h" -#include "prot_fx.h" /*------------------------------------------------------------------------- * Local function prototypes @@ -62,7 +59,7 @@ static void ivas_param_mc_range_encoder_fx( const Word16 *seq_in, const Word16 n #define ATTACKTHRESHOLD_E 4 -static void ivas_param_mc_quantize_ilds_fx( PARAM_MC_ENC_HANDLE hParamMC, Word32 Cy_fx[MAX_CICP_CHANNELS][MAX_CICP_CHANNELS], Word16 Cy_e[MAX_CICP_CHANNELS][MAX_CICP_CHANNELS], Word32 Cx[PARAM_MC_MAX_TRANSPORT_CHANS][PARAM_MC_MAX_TRANSPORT_CHANS], Word16 Cx_fx[PARAM_MC_MAX_TRANSPORT_CHANS][PARAM_MC_MAX_TRANSPORT_CHANS], const Word16 freq_idx, const Word16 nchan_input, const Word16 nchan_transport, Word16 *ILD_idx_out, Word16 ILD_q[PARAM_MC_SZ_ILD_MAP] ); +static void ivas_param_mc_quantize_ilds_fx( PARAM_MC_ENC_HANDLE hParamMC, Word32 Cy_fx[MAX_CICP_CHANNELS][MAX_CICP_CHANNELS], Word16 Cy_e[MAX_CICP_CHANNELS][MAX_CICP_CHANNELS], Word32 Cx_fx[PARAM_MC_MAX_TRANSPORT_CHANS][PARAM_MC_MAX_TRANSPORT_CHANS], Word16 Cx_e[PARAM_MC_MAX_TRANSPORT_CHANS][PARAM_MC_MAX_TRANSPORT_CHANS], const Word16 freq_idx, const Word16 nchan_input, const Word16 nchan_transport, Word16 *ILD_idx_out, Word16 ILD_q[PARAM_MC_SZ_ILD_MAP] ); static void ivas_param_mc_parameter_quantizer_fx( const Word32 *x, const Word16 *x_e, const Word16 L, const Word16 sz_quantizer, const Word16 *quantizer_fx, const Word16 Q_quant, Word16 *quant_idx, Word16 *y ); @@ -658,8 +655,13 @@ static void ivas_param_mc_param_est_enc_fx( Word16 dmx_imag_e[PARAM_MC_MAX_TRANSPORT_CHANS]; /* Downmix channel - Imag Part */ Word32 a_fx, b_fx, c_fx, d_fx; /* Tmp complex values */ Word16 a_e, b_e, c_e, d_e; /* Tmp complex values */ +#ifdef MERGE_REQUEST_1378_SPEEDUP_ivas_mc_param_enc_fx_NONBE + Word64 Cy_sum_real_64[PARAM_MC_MAX_PARAMETER_BANDS][MAX_CICP_CHANNELS][MAX_CICP_CHANNELS]; + Word64 Cy_sum_imag_64[PARAM_MC_MAX_PARAM_BAND_ABS_COV_ENC][MAX_CICP_CHANNELS][MAX_CICP_CHANNELS]; +#else Word32 Cy_sum_imag_fx[PARAM_MC_MAX_PARAM_BAND_ABS_COV_ENC][MAX_CICP_CHANNELS][MAX_CICP_CHANNELS]; Word16 Cy_sum_imag_e[PARAM_MC_MAX_PARAM_BAND_ABS_COV_ENC][MAX_CICP_CHANNELS][MAX_CICP_CHANNELS]; +#endif Word32 Cx_sum_imag_fx[PARAM_MC_MAX_PARAM_BAND_ABS_COV_ENC][PARAM_MC_MAX_TRANSPORT_CHANS][PARAM_MC_MAX_TRANSPORT_CHANS]; Word16 Cx_sum_imag_e[PARAM_MC_MAX_PARAM_BAND_ABS_COV_ENC][PARAM_MC_MAX_TRANSPORT_CHANS][PARAM_MC_MAX_TRANSPORT_CHANS]; Word32 real_part_fx, imag_part_fx; @@ -688,13 +690,26 @@ static void ivas_param_mc_param_est_enc_fx( move16(); band_step = 1; move16(); +#ifdef MERGE_REQUEST_1378_SPEEDUP_ivas_mc_param_enc_fx_NONBE + FOR( cur_param_band = 0; cur_param_band < PARAM_MC_MAX_PARAMETER_BANDS; cur_param_band++ ) + { + FOR( ch_idx1 = 0; ch_idx1 < MAX_CICP_CHANNELS; ch_idx1++ ) + { + set64_fx( Cy_sum_real_64[cur_param_band][ch_idx1], 0, MAX_CICP_CHANNELS ); + } + } +#endif FOR( cur_param_band = 0; cur_param_band < PARAM_MC_MAX_PARAM_BAND_ABS_COV_ENC; cur_param_band++ ) { FOR( ch_idx1 = 0; ch_idx1 < MAX_CICP_CHANNELS; ch_idx1++ ) { - set32_fx( Cy_sum_imag_fx[cur_param_band][ch_idx1], 0, MAX_CICP_CHANNELS ); - set16_fx( Cy_sum_imag_e[cur_param_band][ch_idx1], 0, MAX_CICP_CHANNELS ); +#ifdef MERGE_REQUEST_1378_SPEEDUP_ivas_mc_param_enc_fx_NONBE + set64_fx( Cy_sum_imag_64[cur_param_band][ch_idx1], 0, MAX_CICP_CHANNELS ); +#else + set32_fx( Cy_sum_fx[cur_param_band][ch_idx1], 0, MAX_CICP_CHANNELS ); + set16_fx( Cy_sum_e[cur_param_band][ch_idx1], 0, MAX_CICP_CHANNELS ); +#endif } FOR( ch_idx1 = 0; ch_idx1 < PARAM_MC_MAX_TRANSPORT_CHANS; ch_idx1++ ) @@ -723,9 +738,16 @@ static void ivas_param_mc_param_est_enc_fx( } } +#if defined( IMPROVE_HIGH_COMPLEXITY_PARAM_MC_PRM_EST_BE ) || defined( IMPROVE_HIGH_COMPLEXITY_PARAM_MC_PRM_EST_NONBE ) + Word16 gb = find_guarded_bits_fx( l_ts ); + Word16 add20gb = add( 20, gb ); +#endif + FOR( ts = start_ts; ts < num_time_slots; ts++ ) { +#if !defined( IMPROVE_HIGH_COMPLEXITY_PARAM_MC_PRM_EST_BE ) && !defined( IMPROVE_HIGH_COMPLEXITY_PARAM_MC_PRM_EST_NONBE ) Word16 gb = find_guarded_bits_fx( l_ts ); +#endif ivas_fb_mixer_get_windowed_fr_fx( hParamMC->hFbMixer, pcm_in_fx, p_slot_frame_f_real_fx, p_slot_frame_f_imag_fx, l_ts, l_ts, hParamMC->hFbMixer->fb_cfg->num_in_chans, gb ); ivas_fb_mixer_update_prior_input_fx( hParamMC->hFbMixer, pcm_in_fx, l_ts, hParamMC->hFbMixer->fb_cfg->num_in_chans ); @@ -734,6 +756,7 @@ static void ivas_param_mc_param_est_enc_fx( FOR( i = 0; i < nchan_input; i++ ) { pcm_in_fx[i] += l_ts; + move32(); } /* Computing the downmix */ FOR( cur_param_band = 0; cur_param_band < hParamMC->max_param_band_abs_cov; cur_param_band++ ) @@ -751,6 +774,7 @@ static void ivas_param_mc_param_est_enc_fx( FOR( ch_idx1 = 0; ch_idx1 < nchan_transport; ++ch_idx1 ) { +#ifndef IMPROVE_HIGH_COMPLEXITY_PARAM_MC_PRM_EST_BE dmx_real_fx[ch_idx1] = 0; move32(); dmx_real_e[ch_idx1] = 0; @@ -769,6 +793,28 @@ static void ivas_param_mc_param_est_enc_fx( move32(); p_dmx_fac_fx++; } +#else + Word32 real_fx = L_add( 0, 0 ); + Word16 real_e = add( 0, 0 ); + Word32 imag_fx = L_add( 0, 0 ); + Word16 imag_e = add( 0, 0 ); + FOR( inp_ch = 0; inp_ch < nchan_input; inp_ch++ ) + { + L_tmp = Mpy_32_32( slot_frame_f_real_fx[inp_ch][cur_cldfb_band], ( *p_dmx_fac_fx ) ); + real_fx = BASOP_Util_Add_Mant32Exp( real_fx, real_e, L_tmp, add20gb, &real_e ); + L_tmp = Mpy_32_32( slot_frame_f_imag_fx[inp_ch][cur_cldfb_band], ( *p_dmx_fac_fx ) ); + imag_fx = BASOP_Util_Add_Mant32Exp( imag_fx, imag_e, L_tmp, add20gb, &imag_e ); + p_dmx_fac_fx++; + } + dmx_real_fx[ch_idx1] = real_fx; + dmx_real_e[ch_idx1] = real_e; + dmx_imag_fx[ch_idx1] = imag_fx; + dmx_imag_e[ch_idx1] = imag_e; + move32(); + move16(); + move32(); + move16(); +#endif } /* Cx for transport channels */ @@ -804,17 +850,79 @@ static void ivas_param_mc_param_est_enc_fx( move32(); } } - +#ifdef MERGE_REQUEST_1378_SPEEDUP_ivas_mc_param_enc_fx_NONBE + FOR( ch_idx1 = 0; ch_idx1 < nchan_input; ++ch_idx1 ) + { + a_fx = slot_frame_f_real_fx[ch_idx1][cur_cldfb_band]; + b_fx = slot_frame_f_imag_fx[ch_idx1][cur_cldfb_band]; + move32(); + FOR( ch_idx2 = ch_idx1; ch_idx2 < nchan_input; ++ch_idx2 ) + { + Word16 norm; + c_fx = slot_frame_f_real_fx[ch_idx2][cur_cldfb_band]; + d_fx = slot_frame_f_imag_fx[ch_idx2][cur_cldfb_band]; + move32(); + // Conjugated complex multiplication (a-ib)(c+id) = ac+bd + i(ad-bc) + Cy_sum_real_64[cur_param_band][ch_idx1][ch_idx2] = W_add( Cy_sum_real_64[cur_param_band][ch_idx1][ch_idx2], + W_add( W_mult0_32_32( a_fx, c_fx ), W_mult0_32_32( b_fx, d_fx ) ) ); + move64(); + Cy_sum_imag_64[cur_param_band][ch_idx1][ch_idx2] = W_add( Cy_sum_imag_64[cur_param_band][ch_idx1][ch_idx2], + W_sub( W_mult0_32_32( a_fx, d_fx ), W_mult0_32_32( b_fx, c_fx ) ) ); + move64(); + + // convert the 64 bit fixpoint back into the 48 bit float format + norm = W_norm( Cy_sum_real_64[cur_param_band][ch_idx1][ch_idx2] ); + Cy_sum_fx[cur_param_band][ch_idx1][ch_idx2] = W_extract_h( W_shl( Cy_sum_real_64[cur_param_band][ch_idx1][ch_idx2], norm ) ); + Cy_sum_e[cur_param_band][ch_idx1][ch_idx2] = sub( sub( 62, gb ), norm ); + } + } +#else /* Cy for input channels */ FOR( ch_idx1 = 0; ch_idx1 < nchan_input; ++ch_idx1 ) { +#ifdef IMPROVE_HIGH_COMPLEXITY_PARAM_MC_PRM_EST_NONBE + a_e = norm_l( slot_frame_f_real_fx[ch_idx1][cur_cldfb_band] ); + a_fx = L_shl( slot_frame_f_real_fx[ch_idx1][cur_cldfb_band], a_e ); + a_e = sub( add20gb, a_e ); + if ( a_fx == 0 ) + { + a_e = 0; + move16(); + } + b_e = norm_l( slot_frame_f_imag_fx[ch_idx1][cur_cldfb_band] ); + b_fx = L_shl( slot_frame_f_imag_fx[ch_idx1][cur_cldfb_band], b_e ); + b_e = sub( add20gb, b_e ); + if ( b_fx == 0 ) + { + b_e = 0; + move16(); + } +#endif FOR( ch_idx2 = ch_idx1; ch_idx2 < nchan_input; ++ch_idx2 ) { +#ifndef IMPROVE_HIGH_COMPLEXITY_PARAM_MC_PRM_EST_NONBE a_fx = BASOP_Util_Add_Mant32Exp( slot_frame_f_real_fx[ch_idx1][cur_cldfb_band], add( 20, gb ), 0, 0, &a_e ); b_fx = BASOP_Util_Add_Mant32Exp( slot_frame_f_imag_fx[ch_idx1][cur_cldfb_band], add( 20, gb ), 0, 0, &b_e ); c_fx = BASOP_Util_Add_Mant32Exp( slot_frame_f_real_fx[ch_idx2][cur_cldfb_band], add( 20, gb ), 0, 0, &c_e ); d_fx = BASOP_Util_Add_Mant32Exp( slot_frame_f_imag_fx[ch_idx2][cur_cldfb_band], add( 20, gb ), 0, 0, &d_e ); - +#else + c_e = norm_l( slot_frame_f_real_fx[ch_idx2][cur_cldfb_band] ); + c_fx = L_shl( slot_frame_f_real_fx[ch_idx2][cur_cldfb_band], c_e ); + c_e = sub( add20gb, c_e ); + if ( c_fx == 0 ) + { + c_e = 0; + move16(); + } + d_e = norm_l( slot_frame_f_imag_fx[ch_idx2][cur_cldfb_band] ); + d_fx = L_shl( slot_frame_f_imag_fx[ch_idx2][cur_cldfb_band], d_e ); + d_e = sub( add20gb, d_e ); + if ( d_fx == 0 ) + { + d_e = 0; + move16(); + } +#endif /* (a-ib)(c+id) = ac + bd + i(ad-bc) */ L_tmp = BASOP_Util_Add_Mant32Exp( Mpy_32_32( a_fx, c_fx ), add( a_e, c_e ), Mpy_32_32( b_fx, d_fx ), add( b_e, d_e ), &tmp_e ); Cy_sum_fx[cur_param_band][ch_idx1][ch_idx2] = BASOP_Util_Add_Mant32Exp( Cy_sum_fx[cur_param_band][ch_idx1][ch_idx2], Cy_sum_e[cur_param_band][ch_idx1][ch_idx2], @@ -826,6 +934,7 @@ static void ivas_param_mc_param_est_enc_fx( move32(); } } +#endif } } @@ -844,6 +953,7 @@ static void ivas_param_mc_param_est_enc_fx( FOR( ch_idx1 = 0; ch_idx1 < nchan_transport; ++ch_idx1 ) { +#ifndef IMPROVE_HIGH_COMPLEXITY_PARAM_MC_PRM_EST_BE dmx_real_fx[ch_idx1] = 0; move32(); dmx_real_e[ch_idx1] = 0; @@ -863,13 +973,49 @@ static void ivas_param_mc_param_est_enc_fx( move32(); p_dmx_fac_fx++; } +#else + Word32 real_fx = L_add( 0, 0 ); + Word16 real_e = 0; + move16(); + Word32 imag_fx = L_add( 0, 0 ); + Word16 imag_e = 0; + move16(); + + FOR( inp_ch = 0; inp_ch < nchan_input; inp_ch++ ) + { + L_tmp = Mpy_32_32( slot_frame_f_real_fx[inp_ch][cur_cldfb_band], ( *p_dmx_fac_fx ) ); + real_fx = BASOP_Util_Add_Mant32Exp( real_fx, real_e, L_tmp, add20gb, &real_e ); + L_tmp = Mpy_32_32( slot_frame_f_imag_fx[inp_ch][cur_cldfb_band], ( *p_dmx_fac_fx ) ); + imag_fx = BASOP_Util_Add_Mant32Exp( imag_fx, imag_e, L_tmp, add20gb, &imag_e ); + p_dmx_fac_fx++; + } + dmx_real_fx[ch_idx1] = real_fx; + move32(); + dmx_real_e[ch_idx1] = real_e; + move16(); + dmx_imag_fx[ch_idx1] = imag_fx; + move32(); + dmx_imag_e[ch_idx1] = imag_e; + move16(); +#endif } /* Cx for transport channels */ FOR( ch_idx1 = 0; ch_idx1 < nchan_transport; ++ch_idx1 ) { +#ifdef IMPROVE_HIGH_COMPLEXITY_PARAM_MC_PRM_EST_BE + a_fx = dmx_real_fx[ch_idx1]; + move32(); + a_e = dmx_real_e[ch_idx1]; + move16(); + b_fx = dmx_imag_fx[ch_idx1]; + move32(); + b_e = dmx_imag_e[ch_idx1]; + move16(); +#endif FOR( ch_idx2 = 0; ch_idx2 < nchan_transport; ++ch_idx2 ) { +#ifndef IMPROVE_HIGH_COMPLEXITY_PARAM_MC_PRM_EST_BE a_fx = dmx_real_fx[ch_idx1]; move32(); a_e = dmx_real_e[ch_idx1]; @@ -891,6 +1037,12 @@ static void ivas_param_mc_param_est_enc_fx( L_tmp = BASOP_Util_Add_Mant32Exp( Mpy_32_32( a_fx, c_fx ), add( a_e, c_e ), Mpy_32_32( b_fx, d_fx ), add( b_e, d_e ), &tmp_e ); Cx_sum_fx[cur_param_band][ch_idx1][ch_idx2] = BASOP_Util_Add_Mant32Exp( Cx_sum_fx[cur_param_band][ch_idx1][ch_idx2], Cx_sum_e[cur_param_band][ch_idx1][ch_idx2], L_tmp, tmp_e, &Cx_sum_e[cur_param_band][ch_idx1][ch_idx2] ); +#else + /* (a-ib)(c+id) = ac + bd + i(ad-bc) */ + L_tmp = BASOP_Util_Add_Mant32Exp( Mpy_32_32( a_fx, dmx_real_fx[ch_idx2] ), add( a_e, dmx_real_e[ch_idx2] ), Mpy_32_32( b_fx, dmx_imag_fx[ch_idx2] ), add( b_e, dmx_imag_e[ch_idx2] ), &tmp_e ); + Cx_sum_fx[cur_param_band][ch_idx1][ch_idx2] = BASOP_Util_Add_Mant32Exp( Cx_sum_fx[cur_param_band][ch_idx1][ch_idx2], Cx_sum_e[cur_param_band][ch_idx1][ch_idx2], L_tmp, tmp_e, + &Cx_sum_e[cur_param_band][ch_idx1][ch_idx2] ); +#endif move32(); } } @@ -898,19 +1050,78 @@ static void ivas_param_mc_param_est_enc_fx( /* Cy for input channels */ FOR( ch_idx1 = 0; ch_idx1 < nchan_input; ++ch_idx1 ) { +#ifdef IMPROVE_HIGH_COMPLEXITY_PARAM_MC_PRM_EST_NONBE + a_e = norm_l( slot_frame_f_real_fx[ch_idx1][cur_cldfb_band] ); + a_fx = L_shl( slot_frame_f_real_fx[ch_idx1][cur_cldfb_band], a_e ); + a_e = sub( add20gb, a_e ); + if ( a_fx == 0 ) + { + a_e = 0; + move16(); + } + b_e = norm_l( slot_frame_f_imag_fx[ch_idx1][cur_cldfb_band] ); + b_fx = L_shl( slot_frame_f_imag_fx[ch_idx1][cur_cldfb_band], b_e ); + b_e = sub( add20gb, b_e ); + if ( b_fx == 0 ) + { + b_e = 0; + move16(); + } +#endif +#ifdef MERGE_REQUEST_1378_SPEEDUP_ivas_mc_param_enc_fx_NONBE + a_fx = slot_frame_f_real_fx[ch_idx1][cur_cldfb_band]; + b_fx = slot_frame_f_imag_fx[ch_idx1][cur_cldfb_band]; + move32(); + move32(); FOR( ch_idx2 = ch_idx1; ch_idx2 < nchan_input; ++ch_idx2 ) { + Word16 norm; + c_fx = slot_frame_f_real_fx[ch_idx2][cur_cldfb_band]; + d_fx = slot_frame_f_imag_fx[ch_idx2][cur_cldfb_band]; + move32(); + move32(); + // Conjugated complex multiplication (a-ib)(c+id) = ac+bd + i(ad-bc) + Cy_sum_real_64[cur_param_band][ch_idx1][ch_idx2] = W_add( Cy_sum_real_64[cur_param_band][ch_idx1][ch_idx2], + W_add( W_mult0_32_32( a_fx, c_fx ), W_mult0_32_32( b_fx, d_fx ) ) ); + move64(); + // convert the 64 bit fixpoint back into the 48 bit float format + norm = W_norm( Cy_sum_real_64[cur_param_band][ch_idx1][ch_idx2] ); + Cy_sum_fx[cur_param_band][ch_idx1][ch_idx2] = W_extract_h( W_shl( Cy_sum_real_64[cur_param_band][ch_idx1][ch_idx2], norm ) ); + Cy_sum_e[cur_param_band][ch_idx1][ch_idx2] = sub( sub( 62, gb ), norm ); + } +#else + FOR( ch_idx2 = ch_idx1; ch_idx2 < nchan_input; ++ch_idx2 ) + { +#ifndef IMPROVE_HIGH_COMPLEXITY_PARAM_MC_PRM_EST_NONBE a_fx = BASOP_Util_Add_Mant32Exp( slot_frame_f_real_fx[ch_idx1][cur_cldfb_band], add( 20, gb ), 0, 0, &a_e ); b_fx = BASOP_Util_Add_Mant32Exp( slot_frame_f_imag_fx[ch_idx1][cur_cldfb_band], add( 20, gb ), 0, 0, &b_e ); c_fx = BASOP_Util_Add_Mant32Exp( slot_frame_f_real_fx[ch_idx2][cur_cldfb_band], add( 20, gb ), 0, 0, &c_e ); d_fx = BASOP_Util_Add_Mant32Exp( slot_frame_f_imag_fx[ch_idx2][cur_cldfb_band], add( 20, gb ), 0, 0, &d_e ); - +#else + c_e = norm_l( slot_frame_f_real_fx[ch_idx2][cur_cldfb_band] ); + c_fx = L_shl( slot_frame_f_real_fx[ch_idx2][cur_cldfb_band], c_e ); + c_e = sub( add20gb, c_e ); + if ( c_fx == 0 ) + { + c_e = 0; + move16(); + } + d_e = norm_l( slot_frame_f_imag_fx[ch_idx2][cur_cldfb_band] ); + d_fx = L_shl( slot_frame_f_imag_fx[ch_idx2][cur_cldfb_band], d_e ); + d_e = sub( add20gb, d_e ); + if ( d_fx == 0 ) + { + d_e = 0; + move16(); + } +#endif /* (a-ib)(c+id) = ac + bd + i(ad-bc) */ L_tmp = BASOP_Util_Add_Mant32Exp( Mpy_32_32( a_fx, c_fx ), add( a_e, c_e ), Mpy_32_32( b_fx, d_fx ), add( b_e, d_e ), &tmp_e ); Cy_sum_fx[cur_param_band][ch_idx1][ch_idx2] = BASOP_Util_Add_Mant32Exp( Cy_sum_fx[cur_param_band][ch_idx1][ch_idx2], Cy_sum_e[cur_param_band][ch_idx1][ch_idx2], L_tmp, tmp_e, &Cy_sum_e[cur_param_band][ch_idx1][ch_idx2] ); move32(); } +#endif } } } @@ -932,6 +1143,16 @@ static void ivas_param_mc_param_est_enc_fx( move32(); Cy_sum_e[cur_param_band][ch_idx1][hParamMC->lfe_index] = 0; move16(); +#ifdef MERGE_REQUEST_1378_SPEEDUP_ivas_mc_param_enc_fx_NONBE + Cy_sum_real_64[cur_param_band][hParamMC->lfe_index][ch_idx1] = 0; + move64(); + Cy_sum_real_64[cur_param_band][ch_idx1][hParamMC->lfe_index] = 0; + move64(); + Cy_sum_imag_64[cur_param_band][hParamMC->lfe_index][ch_idx1] = 0; + move64(); + Cy_sum_imag_64[cur_param_band][ch_idx1][hParamMC->lfe_index] = 0; + move64(); +#else Cy_sum_imag_fx[cur_param_band][hParamMC->lfe_index][ch_idx1] = 0; move32(); Cy_sum_imag_e[cur_param_band][hParamMC->lfe_index][ch_idx1] = 0; @@ -940,6 +1161,7 @@ static void ivas_param_mc_param_est_enc_fx( move32(); Cy_sum_imag_e[cur_param_band][ch_idx1][hParamMC->lfe_index] = 0; move16(); +#endif } } @@ -947,6 +1169,12 @@ static void ivas_param_mc_param_est_enc_fx( { FOR( ch_idx1 = 0; ch_idx1 < nchan_input; ++ch_idx1 ) { +#ifdef MERGE_REQUEST_1378_SPEEDUP_ivas_mc_param_enc_fx_NONBE + Cy_sum_real_64[cur_param_band][hParamMC->lfe_index][ch_idx1] = 0; + move64(); + Cy_sum_real_64[cur_param_band][ch_idx1][hParamMC->lfe_index] = 0; + move64(); +#endif Cy_sum_fx[cur_param_band][hParamMC->lfe_index][ch_idx1] = 0; move32(); Cy_sum_e[cur_param_band][hParamMC->lfe_index][ch_idx1] = 0; @@ -991,10 +1219,18 @@ static void ivas_param_mc_param_est_enc_fx( /* get ICLDs */ FOR( k = 0; k < nchan_input; ++k ) { +#ifdef MERGE_REQUEST_1378_SPEEDUP_ivas_mc_param_enc_fx_NONBE + Word16 norm; + // convert the 64 bit fixpoint back into the 48 bit float format + norm = W_norm( Cy_sum_real_64[cur_param_band][k][k] ); + Nrg_fx[k] = W_extract_h( W_shl( Cy_sum_real_64[cur_param_band][k][k], norm ) ); + Nrg_e[k] = sub( sub( 62, gb ), norm ); +#else Nrg_fx[k] = Cy_sum_fx[cur_param_band][k][k]; move32(); Nrg_e[k] = Cy_sum_e[cur_param_band][k][k]; move16(); +#endif } FOR( k = 0; k < num_ilds_to_code; ++k ) { @@ -1013,11 +1249,7 @@ static void ivas_param_mc_param_est_enc_fx( Cx_sum_e[cur_param_band][ref_channel_idx][ref_channel_idx], &ref_ener_e ); } L_tmp = Mpy_32_16_1( ref_ener_fx, hParamMC->hMetadataPMC.ild_factors_fx[k] ); -#ifdef FIX_ISSUE_1154 L_tmp = L_deposit_h( BASOP_Util_Divide3232_Scale( Nrg_fx[h_ild_mapping->ild_index[k]], L_add( L_tmp, EPSILLON_FX ), &tmp_e ) ); -#else - L_tmp = L_deposit_h( BASOP_Util_Divide3232_Scale( Nrg_fx[h_ild_mapping->ild_index[k]], L_tmp, &tmp_e ) ); -#endif tmp_e = add( sub( Nrg_e[h_ild_mapping->ild_index[k]], ref_ener_e ), tmp_e ); @@ -1065,6 +1297,13 @@ static void ivas_param_mc_param_est_enc_fx( { FOR( ch_idx2 = ch_idx1; ch_idx2 < nchan_input; ++ch_idx2 ) { +#ifdef MERGE_REQUEST_1378_SPEEDUP_ivas_mc_param_enc_fx_NONBE + Cy_sum_real_64[cur_param_band - 1][ch_idx1][ch_idx2] = W_add( Cy_sum_real_64[cur_param_band - 1][ch_idx1][ch_idx2], Cy_sum_real_64[cur_param_band][ch_idx1][ch_idx2] ); + move64(); + Cy_sum_imag_64[cur_param_band - 1][ch_idx1][ch_idx2] = W_add( Cy_sum_imag_64[cur_param_band - 1][ch_idx1][ch_idx2], Cy_sum_imag_64[cur_param_band][ch_idx1][ch_idx2] ); + move64(); + +#else Cy_sum_fx[cur_param_band - 1][ch_idx1][ch_idx2] = BASOP_Util_Add_Mant32Exp( Cy_sum_fx[cur_param_band - 1][ch_idx1][ch_idx2], Cy_sum_e[cur_param_band - 1][ch_idx1][ch_idx2], Cy_sum_fx[cur_param_band][ch_idx1][ch_idx2], Cy_sum_e[cur_param_band][ch_idx1][ch_idx2], &Cy_sum_e[cur_param_band - 1][ch_idx1][ch_idx2] ); @@ -1073,6 +1312,7 @@ static void ivas_param_mc_param_est_enc_fx( Cy_sum_imag_fx[cur_param_band][ch_idx1][ch_idx2], Cy_sum_imag_e[cur_param_band][ch_idx1][ch_idx2], &Cy_sum_imag_e[cur_param_band - 1][ch_idx1][ch_idx2] ); move32(); +#endif } } } @@ -1096,10 +1336,14 @@ static void ivas_param_mc_param_est_enc_fx( { FOR( ch_idx2 = ch_idx1; ch_idx2 < nchan_input; ++ch_idx2 ) { +#ifdef MERGE_REQUEST_1378_SPEEDUP_ivas_mc_param_enc_fx_NONBE + Cy_sum_real_64[cur_param_band - 1][ch_idx1][ch_idx2] = W_add( Cy_sum_real_64[cur_param_band - 1][ch_idx1][ch_idx2], Cy_sum_real_64[cur_param_band][ch_idx1][ch_idx2] ); +#else Cy_sum_fx[cur_param_band - 1][ch_idx1][ch_idx2] = BASOP_Util_Add_Mant32Exp( Cy_sum_fx[cur_param_band - 1][ch_idx1][ch_idx2], Cy_sum_e[cur_param_band - 1][ch_idx1][ch_idx2], Cy_sum_fx[cur_param_band][ch_idx1][ch_idx2], Cy_sum_e[cur_param_band][ch_idx1][ch_idx2], &Cy_sum_e[cur_param_band - 1][ch_idx1][ch_idx2] ); move32(); +#endif } } } @@ -1108,7 +1352,24 @@ static void ivas_param_mc_param_est_enc_fx( band_step = 2; move16(); } - +#ifdef MERGE_REQUEST_1378_SPEEDUP_ivas_mc_param_enc_fx_NONBE + { + // convert the 64 bit fixpoint back into the 48 bit float format + FOR( cur_param_band = 0; cur_param_band < PARAM_MC_MAX_PARAMETER_BANDS; cur_param_band++ ) + { + FOR( ch_idx1 = 0; ch_idx1 < MAX_CICP_CHANNELS; ch_idx1++ ) + { + FOR( ch_idx2 = 0; ch_idx2 < MAX_CICP_CHANNELS; ch_idx2++ ) + { + Word16 norm; + norm = W_norm( Cy_sum_real_64[cur_param_band][ch_idx1][ch_idx2] ); + Cy_sum_fx[cur_param_band][ch_idx1][ch_idx2] = W_extract_h( W_shl( Cy_sum_real_64[cur_param_band][ch_idx1][ch_idx2], norm ) ); + Cy_sum_e[cur_param_band][ch_idx1][ch_idx2] = sub( sub( 62, gb ), norm ); + } + } + } + } +#endif /* map complex covariances to real values */ FOR( cur_param_band = 0; cur_param_band < hParamMC->max_param_band_abs_cov; cur_param_band += band_step ) @@ -1145,15 +1406,22 @@ static void ivas_param_mc_param_est_enc_fx( { FOR( ch_idx2 = ch_idx1; ch_idx2 < nchan_input; ch_idx2++ ) { - real_part_fx = Cy_sum_fx[cur_param_band][ch_idx1][ch_idx2]; - move32(); - real_part_e = Cy_sum_e[cur_param_band][ch_idx1][ch_idx2]; - move16(); +#ifdef MERGE_REQUEST_1378_SPEEDUP_ivas_mc_param_enc_fx_NONBE + Word16 norm; + // convert the 64 bit fixpoint back into the 48 bit float format + norm = W_norm( Cy_sum_imag_64[cur_param_band][ch_idx1][ch_idx2] ); + imag_part_fx = W_extract_h( W_shl( Cy_sum_imag_64[cur_param_band][ch_idx1][ch_idx2], norm ) ); + imag_part_e = sub( sub( 62, gb ), norm ); +#else imag_part_fx = Cy_sum_imag_fx[cur_param_band][ch_idx1][ch_idx2]; move32(); imag_part_e = Cy_sum_imag_e[cur_param_band][ch_idx1][ch_idx2]; move16(); - +#endif + real_part_fx = Cy_sum_fx[cur_param_band][ch_idx1][ch_idx2]; + move32(); + real_part_e = Cy_sum_e[cur_param_band][ch_idx1][ch_idx2]; + move16(); real_part_fx = Mpy_32_32( real_part_fx, real_part_fx ); imag_part_fx = Mpy_32_32( imag_part_fx, imag_part_fx ); @@ -1283,8 +1551,21 @@ static void ivas_param_mc_quantize_ilds_fx( dmx_ener_fx = BASOP_Util_Add_Mant32Exp( dmx_ener_fx, dmx_ener_e, Cx_fx[k][k], Cx_e[k][k], &dmx_ener_e ); } /*ener_fac = 10.0f * log10f( ( tot_ener + EPSILON ) / ( dmx_ener + EPSILON ) )*/ - tot_ener_fx = BASOP_Util_Add_Mant32Exp( tot_ener_fx, tot_ener_e, EPSILON_FX, 0, &tot_ener_e ); - dmx_ener_fx = BASOP_Util_Add_Mant32Exp( dmx_ener_fx, dmx_ener_e, EPSILON_FX, 0, &dmx_ener_e ); + IF( tot_ener_fx == 0 ) + { + tot_ener_fx = 9223; // 1e-15(EPSILON) in Q63 + tot_ener_e = -32; + move32(); + move16(); + } + IF( dmx_ener_fx == 0 ) + { + dmx_ener_fx = 9223; // 1e-15(EPSILON) in Q63 + dmx_ener_e = -32; + move32(); + move16(); + } + L_tmp = L_deposit_h( BASOP_Util_Divide3232_Scale( tot_ener_fx, dmx_ener_fx, &tmp_e ) ); tmp_e = add( sub( tot_ener_e, dmx_ener_e ), tmp_e ); ener_fac_fx = BASOP_Util_Log10( L_tmp, tmp_e ); // Q25 @@ -1395,11 +1676,7 @@ static void ivas_param_mc_quantize_ilds_fx( ref_ener_fx = BASOP_Util_Add_Mant32Exp( ref_ener_fx, ref_ener_e, Cx_fx[ref_channel_idx][ref_channel_idx], Cx_e[ref_channel_idx][ref_channel_idx], &ref_ener_e ); } ref_ener_fx = Mpy_32_16_1( ref_ener_fx, hParamMC->hMetadataPMC.ild_factors_fx[k] ); -#ifdef FIX_ISSUE_1154 L_tmp = L_deposit_h( BASOP_Util_Divide3232_Scale( Nrg_fx[h_ild_mapping->ild_index[k]], L_add( ref_ener_fx, EPSILLON_FX ), &tmp_e ) ); -#else - L_tmp = L_deposit_h( BASOP_Util_Divide3232_Scale( Nrg_fx[h_ild_mapping->ild_index[k]], ref_ener_fx, &tmp_e ) ); -#endif tmp_e = add( sub( Nrg_e[h_ild_mapping->ild_index[k]], ref_ener_e ), tmp_e ); /*10 in Q21 = 1342177280*/ ILD_fx[k] = Mpy_32_32( 1342177280, BASOP_Util_Log10( L_tmp, tmp_e ) ); // Q21 @@ -1639,8 +1916,8 @@ static void ivas_param_mc_transient_detection_fx( push_wmops( "param_mc_trn_det" ); attackRatioThreshold_fx = hTranDet->transientDetector.attackRatioThreshold; - pSubblockNrg_fx = &hTranDet->subblockEnergies.subblockNrg[hParamMC->transient_detector_delay]; // Q0 - pAccSubblockNrg_fx = &hTranDet->subblockEnergies.accSubblockNrg[hParamMC->transient_detector_delay]; // Q0 + pSubblockNrg_fx = &hTranDet->subblockEnergies.subblockNrg[hParamMC->transient_detector_delay]; // Q(-1) + pAccSubblockNrg_fx = &hTranDet->subblockEnergies.accSubblockNrg[hParamMC->transient_detector_delay]; // Q(-1) bIsAttackPresent = FALSE; move16(); @@ -1651,8 +1928,8 @@ static void ivas_param_mc_transient_detection_fx( * if we had an attack very late in the last frame, * make the current frame also a transient one... */ test(); - IF( EQ_16( BASOP_Util_Cmp_Mant32Exp( pSubblockNrg_fx[-1], 31, Mpy_32_16_1( pAccSubblockNrg_fx[-1], attackRatioThreshold_fx ), ( 31 + ATTACKTHRESHOLD_E ) ), 1 ) || - EQ_16( BASOP_Util_Cmp_Mant32Exp( pSubblockNrg_fx[-2], 31, Mpy_32_16_1( pAccSubblockNrg_fx[-2], attackRatioThreshold_fx ), ( 31 + ATTACKTHRESHOLD_E ) ), 1 ) ) + IF( EQ_16( BASOP_Util_Cmp_Mant32Exp( pSubblockNrg_fx[-1], 32, Mpy_32_16_1( pAccSubblockNrg_fx[-1], attackRatioThreshold_fx ), ( 32 + ATTACKTHRESHOLD_E ) ), 1 ) || + EQ_16( BASOP_Util_Cmp_Mant32Exp( pSubblockNrg_fx[-2], 32, Mpy_32_16_1( pAccSubblockNrg_fx[-2], attackRatioThreshold_fx ), ( 32 + ATTACKTHRESHOLD_E ) ), 1 ) ) { bIsAttackPresent = TRUE; move16(); @@ -1661,7 +1938,7 @@ static void ivas_param_mc_transient_detection_fx( } FOR( i = 0; i < NSUBBLOCKS; i++ ){ - IF( EQ_16( BASOP_Util_Cmp_Mant32Exp( pSubblockNrg_fx[i], 31, Mpy_32_16_1( pAccSubblockNrg_fx[i], attackRatioThreshold_fx ), ( 31 + ATTACKTHRESHOLD_E ) ), 1 ) ){ + IF( EQ_16( BASOP_Util_Cmp_Mant32Exp( pSubblockNrg_fx[i], 32, Mpy_32_16_1( pAccSubblockNrg_fx[i], attackRatioThreshold_fx ), ( 32 + ATTACKTHRESHOLD_E ) ), 1 ) ){ bIsAttackPresent = TRUE; move16(); attackIndex = i; diff --git a/lib_enc/ivas_mc_paramupmix_enc.c b/lib_enc/ivas_mc_paramupmix_enc_fx.c similarity index 98% rename from lib_enc/ivas_mc_paramupmix_enc.c rename to lib_enc/ivas_mc_paramupmix_enc_fx.c index c94946b2ddee9eca444ffe8aefeb5de957feeff5..cad29b1461033258b0bc71d37f575a2d8552c7e1 100644 --- a/lib_enc/ivas_mc_paramupmix_enc.c +++ b/lib_enc/ivas_mc_paramupmix_enc_fx.c @@ -36,10 +36,8 @@ #include "cnst.h" #include "rom_enc.h" #include "rom_com.h" -#include "prot.h" -#include "ivas_prot.h" -#include "ivas_prot_fx.h" #include "prot_fx.h" +#include "ivas_prot_fx.h" #include "basop_util.h" #include "ivas_rom_com_fx.h" #include "ivas_cnst.h" @@ -201,8 +199,8 @@ ivas_error ivas_mc_paramupmix_enc_open_fx( /* assuming parameters are calculated at end of frame, compensate for MCT delay and half of decoder fb */ /* still 1.5ms off, since MCT delay is not large enough */ /* param at end of frame */ - fb_cfg->prior_input_length = (int16_t) ( NS2SA( input_Fs, 12000000L ) + NS2SA( input_Fs, DELAY_FB_4_NS / 2 ) - input_frame / 2 - NS2SA( input_Fs, DELAY_FB_1_NS / 2 ) ); - fb_cfg->prior_input_length = (int16_t) max( fb_cfg->prior_input_length, input_frame / MAX_PARAM_SPATIAL_SUBFRAMES ); + fb_cfg->prior_input_length = (Word16) ( NS2SA_FX2( input_Fs, 12000000L ) + NS2SA_FX2( input_Fs, DELAY_FB_4_NS / 2 ) - input_frame / 2 - NS2SA_FX2( input_Fs, DELAY_FB_1_NS / 2 ) ); + fb_cfg->prior_input_length = s_max( fb_cfg->prior_input_length, (Word16) input_frame / MAX_PARAM_SPATIAL_SUBFRAMES ); /* Allocate and initialize FB mixer handle */ IF( NE_32( ( error = ivas_FB_mixer_open_fx( &( hMCParamUpmix->hFbMixer ), input_Fs, fb_cfg, 0 ) ), IVAS_ERR_OK ) ) @@ -497,12 +495,12 @@ static void quantize_pars_fx( Word16 exp_var1 = 0; move16(); Word32 var1 = BASOP_Util_Add_Mant32Exp( v_fx[iv], exp_v, L_negate( data_fx[iq0] ), 31 - Q28, &exp_var1 ); - var1 = abs( var1 ); + var1 = L_abs( var1 ); Word16 exp_var2 = 0; move16(); Word32 var2 = BASOP_Util_Add_Mant32Exp( v_fx[iv], exp_v, L_negate( data_fx[iq1] ), 31 - Q28, &exp_var2 ); - var2 = abs( var2 ); + var2 = L_abs( var2 ); Word16 cmp_2 = BASOP_Util_Cmp_Mant32Exp( var1, exp_var1, var2, exp_var2 ); @@ -592,12 +590,12 @@ static void quantize_beta_fx( Word16 exp_var1 = 0; move16(); Word32 var1 = BASOP_Util_Add_Mant32Exp( beta_fx[iv], exp_beta, L_negate( quant_table_fx.data[iq0] ), 31 - Q28, &exp_var1 ); - var1 = abs( var1 ); + var1 = L_abs( var1 ); Word16 exp_var2 = 0; move16(); Word32 var2 = BASOP_Util_Add_Mant32Exp( beta_fx[iv], exp_beta, L_negate( quant_table_fx.data[iq1] ), 31 - Q28, &exp_var2 ); - var2 = abs( var2 ); + var2 = L_abs( var2 ); Word16 cmp_2 = BASOP_Util_Cmp_Mant32Exp( var1, exp_var1, var2, exp_var2 ); @@ -1042,12 +1040,6 @@ static ivas_error ivas_mc_paramupmix_param_est_enc_fx( IF( LT_16( maxbands, IVAS_MAX_NUM_BANDS ) ) { -#ifndef FIX_1133_IMPROVE_MC_MLD - *exp_alphas = 0; - move16(); - *exp_betas = 0; - move16(); -#endif FOR( b = 0; b < MC_PARAMUPMIX_COMBINATIONS; b++ ) { FOR( bnd = maxbands; bnd < IVAS_MAX_NUM_BANDS; bnd++ ) diff --git a/lib_enc/ivas_mcmasa_enc.c b/lib_enc/ivas_mcmasa_enc_fx.c similarity index 99% rename from lib_enc/ivas_mcmasa_enc.c rename to lib_enc/ivas_mcmasa_enc_fx.c index 3687df381f2cc5d6b9c9efa231f0547ea2c46531..7a5718e9958d3eb7989f4168b4c8876fcc84f3c5 100644 --- a/lib_enc/ivas_mcmasa_enc.c +++ b/lib_enc/ivas_mcmasa_enc_fx.c @@ -35,10 +35,8 @@ #include #include #include "ivas_cnst.h" -#include "ivas_prot.h" #include "ivas_prot_fx.h" #include "options.h" -#include "prot.h" #include "prot_fx.h" #include "ivas_rom_com.h" #include "ivas_rom_com_fx.h" @@ -200,22 +198,22 @@ ivas_error ivas_mcmasa_enc_open_fx( } /* initialize delay compensation */ - hMcMasa->num_samples_delay_comp = NS2SA( input_Fs, DELAY_DIRAC_ENC_CMP_NS ); + hMcMasa->num_samples_delay_comp = NS2SA_FX2( input_Fs, DELAY_DIRAC_ENC_CMP_NS ); move16(); #ifdef DISABLE_DIRAC_DELAY_COMP hMcMasa->num_samples_delay_comp = 0; /* disable delay compensation by setting to 0 */ #endif - tmp_f = idiv1616( hMcMasa->num_samples_delay_comp, ( NS2SA( input_Fs, DIRAC_SLOT_ENC_NS ) ) ); + tmp_f = idiv1616( hMcMasa->num_samples_delay_comp, ( NS2SA_FX2( input_Fs, DIRAC_SLOT_ENC_NS ) ) ); hMcMasa->num_slots_delay_comp = tmp_f; move16(); - IF( GT_16( hMcMasa->num_samples_delay_comp, ( NS2SA( input_Fs, DIRAC_SLOT_ENC_NS ) ) ) ) + IF( GT_16( hMcMasa->num_samples_delay_comp, ( NS2SA_FX2( input_Fs, DIRAC_SLOT_ENC_NS ) ) ) ) { hMcMasa->num_slots_delay_comp = add( hMcMasa->num_slots_delay_comp, 1 ); move16(); hMcMasa->offset_comp = negate( hMcMasa->num_samples_delay_comp ); move16(); - hMcMasa->num_samples_delay_comp = i_mult( hMcMasa->num_slots_delay_comp, NS2SA( input_Fs, DIRAC_SLOT_ENC_NS ) ); + hMcMasa->num_samples_delay_comp = i_mult( hMcMasa->num_slots_delay_comp, NS2SA_FX2( input_Fs, DIRAC_SLOT_ENC_NS ) ); move16(); hMcMasa->offset_comp = add( hMcMasa->offset_comp, hMcMasa->num_samples_delay_comp ); move16(); @@ -241,17 +239,17 @@ ivas_error ivas_mcmasa_enc_open_fx( IF( hMcMasa->separateChannelEnabled ) { /* TD Energy calculation with LP */ - IF( ( hMcMasa->delay_buffer_lfe[0] = (Word32 *) malloc( NS2SA( input_Fs, DELAY_DIRAC_ENC_CMP_NS + DIRAC_SLOT_ENC_NS ) * sizeof( Word32 ) ) ) == NULL ) + IF( ( hMcMasa->delay_buffer_lfe[0] = (Word32 *) malloc( NS2SA_FX2( input_Fs, DELAY_DIRAC_ENC_CMP_NS + DIRAC_SLOT_ENC_NS ) * sizeof( Word32 ) ) ) == NULL ) { return ( IVAS_ERROR( IVAS_ERR_FAILED_ALLOC, "Can not allocate memory for McMasa\n" ) ); } - set_zero_fx( hMcMasa->delay_buffer_lfe[0], NS2SA( input_Fs, DELAY_DIRAC_ENC_CMP_NS + DIRAC_SLOT_ENC_NS ) ); + set_zero_fx( hMcMasa->delay_buffer_lfe[0], NS2SA_FX2( input_Fs, DELAY_DIRAC_ENC_CMP_NS + DIRAC_SLOT_ENC_NS ) ); - IF( ( hMcMasa->delay_buffer_lfe[1] = (Word32 *) malloc( NS2SA( input_Fs, DELAY_DIRAC_ENC_CMP_NS + DIRAC_SLOT_ENC_NS ) * sizeof( Word32 ) ) ) == NULL ) + IF( ( hMcMasa->delay_buffer_lfe[1] = (Word32 *) malloc( NS2SA_FX2( input_Fs, DELAY_DIRAC_ENC_CMP_NS + DIRAC_SLOT_ENC_NS ) * sizeof( Word32 ) ) ) == NULL ) { return ( IVAS_ERROR( IVAS_ERR_FAILED_ALLOC, "Can not allocate memory for McMasa\n" ) ); } - set_zero_fx( hMcMasa->delay_buffer_lfe[1], NS2SA( input_Fs, DELAY_DIRAC_ENC_CMP_NS + DIRAC_SLOT_ENC_NS ) ); + set_zero_fx( hMcMasa->delay_buffer_lfe[1], NS2SA_FX2( input_Fs, DELAY_DIRAC_ENC_CMP_NS + DIRAC_SLOT_ENC_NS ) ); hMcMasa->hFbMixerLfe = NULL; } ELSE @@ -575,7 +573,7 @@ ivas_error ivas_mcmasa_enc_reconfig_fx( void ivas_mcmasa_enc_close_fx( MCMASA_ENC_HANDLE *hMcMasa, /* i/o: encoder McMASA handle */ - const int32_t input_Fs /* i : input sampling rate */ + const Word32 input_Fs /* i : input sampling rate */ ) { Word16 i, j; @@ -942,13 +940,11 @@ void ivas_mcmasa_param_est_enc_fx( Word16 surroundingCoherence_e[MAX_PARAM_SPATIAL_SUBFRAMES][MASA_FREQUENCY_BANDS]; Word16 numAnalysisChannels; -#ifdef MSAN_FIX FOR( i = 0; i < MCMASA_MAX_ANA_CHANS; i++ ) { set_zero_fx( Chnl_RealBuffer_fx[i], DIRAC_NO_FB_BANDS_MAX ); set_zero_fx( Chnl_ImagBuffer_fx[i], DIRAC_NO_FB_BANDS_MAX ); } -#endif num_freq_bins = idiv1616( input_frame, MDFT_NO_COL_MAX ); num_freq_bands = hMcMasa->nbands; @@ -1182,12 +1178,8 @@ void ivas_mcmasa_param_est_enc_fx( num_freq_bands, direction_vector_fx[0], direction_vector_fx[1], - direction_vector_fx[2], c_e -#ifdef NONBE_IMPROVE_DIRAC_INTENSITY_PREC - , - NULL -#endif - ); + direction_vector_fx[2], c_e, + NULL ); /* Power and intensity estimation for diffuseness */ computeIntensityVector_enc_fx( diff --git a/lib_enc/ivas_mct_core_enc.c b/lib_enc/ivas_mct_core_enc_fx.c similarity index 97% rename from lib_enc/ivas_mct_core_enc.c rename to lib_enc/ivas_mct_core_enc_fx.c index d11447c033070efac83d437161389004fba6d35c..548a5671741574d9d44a77d61906e8c9e8c8e2e9 100644 --- a/lib_enc/ivas_mct_core_enc.c +++ b/lib_enc/ivas_mct_core_enc_fx.c @@ -34,14 +34,11 @@ #include #include "options.h" #include "cnst.h" -#include "prot.h" -#include "ivas_prot.h" +#include "prot_fx.h" #include "rom_com.h" #include "wmc_auto.h" -#include "prot_fx.h" #include "prot_fx_enc.h" #include "ivas_prot_fx.h" -#include "prot_fx.h" #include @@ -273,7 +270,6 @@ void ivas_mct_core_enc_fx( nCPE = add( nCPE, 1 ); } -#ifdef MSAN_FIX FOR( ch = 0; ch < MCT_MAX_CHANNELS; ch++ ) { set32_fx( powerSpecMsInv_long_fx[ch], 0, L_FRAME48k ); @@ -281,7 +277,6 @@ void ivas_mct_core_enc_fx( move16(); set16_fx( exp_powerSpec[ch], 0, N_MAX + L_MDCT_OVLP_MAX ); } -#endif // MSAN_FIX FOR( ch = 0; ch < nChannels; ch++ ) { set32_fx( inv_spectrum_long_fx[ch], 0, L_FRAME48k ); @@ -337,7 +332,6 @@ void ivas_mct_core_enc_fx( IF( switch_bw ) { -#ifdef FIX_USAN_ISSUES IF( sts[ch_core]->hIGFEnc == NULL ) { initMdctStereoEncData_fx( hMCT->hBlockData[ch]->hStereoMdct, ivas_format, sts[ch_core]->element_mode, sts[ch_core]->element_brate, sts[ch_core]->bwidth, @@ -348,10 +342,6 @@ void ivas_mct_core_enc_fx( initMdctStereoEncData_fx( hMCT->hBlockData[ch]->hStereoMdct, ivas_format, sts[ch_core]->element_mode, sts[ch_core]->element_brate, sts[ch_core]->bwidth, sts[ch_core]->igf, sts[ch_core]->hIGFEnc->igfData.igfInfo.grid, 0 ); } -#else - initMdctStereoEncData_fx( hMCT->hBlockData[ch]->hStereoMdct, ivas_format, sts[ch_core]->element_mode, sts[ch_core]->element_brate, sts[ch_core]->bwidth, - sts[ch_core]->igf, sts[ch_core]->hIGFEnc->igfData.igfInfo.grid, 0 ); -#endif } IF( sts[ch_core]->igf ) @@ -656,11 +646,7 @@ void ivas_mct_core_enc_fx( q_spectrum = sub( 31, st->hTcxEnc->spectrum_e[n] ); set16_fx( exp_powerSpec[ch], sub( Q31, q_powSpec[ch] ), N_MAX + L_MDCT_OVLP_MAX ); -#ifndef MSAN_FIX - ProcessIGF_ivas_fx( st, st->hTcxEnc->spectrum_fx[n], orig_spectrum_fx[ch][n], &q_spectrum, &powerSpec_fx[ch][n * L_subframeTCX], &exp_powerSpec[ch][n * L_subframeTCX], st->core == TCX_20_CORE, n, sp_aud_decision0[ch], 0 ); -#else ProcessIGF_ivas_fx( st, L_FRAME48k, st->hTcxEnc->spectrum_fx[n], orig_spectrum_fx[ch][n], &q_spectrum, &powerSpec_fx[ch][n * L_subframeTCX], &exp_powerSpec[ch][n * L_subframeTCX], st->core == TCX_20_CORE, n, sp_aud_decision0[ch], 0 ); -#endif st->hIGFEnc->spec_be_igf_e = sub( 31, q_origSpec ); st->hTcxEnc->spectrum_e[n] = sub( 31, q_spectrum ); diff --git a/lib_enc/ivas_mct_enc.c b/lib_enc/ivas_mct_enc_fx.c similarity index 99% rename from lib_enc/ivas_mct_enc.c rename to lib_enc/ivas_mct_enc_fx.c index dbced19fdf4aa9418cf1d7b5c765a105bda974be..56f5e44db890533036f9f12cb5adae4d75c8d495 100644 --- a/lib_enc/ivas_mct_enc.c +++ b/lib_enc/ivas_mct_enc_fx.c @@ -36,10 +36,8 @@ #include #include "cnst.h" #include "ivas_cnst.h" -#include "prot.h" -#include "ivas_prot.h" -#include "wmc_auto.h" #include "prot_fx.h" +#include "wmc_auto.h" #include "ivas_prot_fx.h" #include "prot_fx_enc.h" #include "rom_com.h" @@ -422,7 +420,7 @@ ivas_error ivas_mct_enc_fx( } /* joint MCT encoding */ - ivas_mct_core_enc_fx( ivas_format, hMCT, st_ivas->hCPE, hMCT->nchan_out_woLFE, ivas_total_brate, switch_bw, ( ivas_format == MC_FORMAT && ( st_ivas->mc_mode == MC_MODE_MCT || st_ivas->mc_mode == MC_MODE_PARAMUPMIX ) ) ? (int16_t) st_ivas->hLFE->lfe_bits : 0, st_ivas->hEncoderConfig->sba_order ); + ivas_mct_core_enc_fx( ivas_format, hMCT, st_ivas->hCPE, hMCT->nchan_out_woLFE, ivas_total_brate, switch_bw, ( ivas_format == MC_FORMAT && ( st_ivas->mc_mode == MC_MODE_MCT || st_ivas->mc_mode == MC_MODE_PARAMUPMIX ) ) ? (Word16) st_ivas->hLFE->lfe_bits : 0, st_ivas->hEncoderConfig->sba_order ); FOR( cpe_id = 0; cpe_id < nCPE; cpe_id++ ) { diff --git a/lib_enc/ivas_mct_enc_mct.c b/lib_enc/ivas_mct_enc_mct_fx.c similarity index 98% rename from lib_enc/ivas_mct_enc_mct.c rename to lib_enc/ivas_mct_enc_mct_fx.c index 7e8547841780c4143b23e9224f5bf8b857824b1e..66bdb1235b492cfd383cd176295a6c5afbc656ee 100644 --- a/lib_enc/ivas_mct_enc_mct.c +++ b/lib_enc/ivas_mct_enc_mct_fx.c @@ -34,9 +34,7 @@ #include "options.h" #include #include "ivas_cnst.h" -#include "ivas_prot.h" #include "ivas_prot_fx.h" -#include "prot.h" #include "prot_fx.h" #include "prot_fx_enc.h" #include "wmc_auto.h" @@ -1074,7 +1072,7 @@ void mctStereoIGF_enc_fx( IF( NE_16( hMCT->hBlockData[b]->hStereoMdct->mdct_stereo_mode[n], hMCT->hBlockData[b]->hStereoMdct->IGFStereoMode[n] ) || EQ_16( hMCT->hBlockData[b]->hStereoMdct->mdct_stereo_mode[n], SMDCT_BW_MS ) ) { - + Word16 exp_powerSpec_tmp[CPE_CHANNELS]; FOR( ch = 0; ch < CPE_CHANNELS; ch++ ) { s = s_min( s, sub( 31, p_st[ch]->hTcxEnc->spectrum_e[n] ) ); @@ -1097,10 +1095,12 @@ void mctStereoIGF_enc_fx( move16(); move16(); } - - ProcessStereoIGF_fx( hMCT->hBlockData[b]->hStereoMdct, p_st, hMCT->hBlockData[b]->mask, - p_orig_spectrum_fx, q_origSpec, q_origSpec, - p_powerSpec_fx, p_powerSpecMsInv_fx, p_inv_spectrum_fx, n, sp_aud_decision0[ch1], p_st[0]->total_brate, 1 ); + exp_powerSpec_tmp[0] = p_st[0]->hTcxEnc->spectrum_e[0]; + exp_powerSpec_tmp[1] = p_st[1]->hTcxEnc->spectrum_e[0]; + move16(); + move16(); + ProcessStereoIGF_fx( hMCT->hBlockData[b]->hStereoMdct, p_st, hMCT->hBlockData[b]->mask, p_orig_spectrum_fx, q_origSpec, q_origSpec, p_powerSpec_fx, exp_powerSpec_tmp, + p_powerSpecMsInv_fx, exp_powerSpec_tmp, p_inv_spectrum_fx, exp_powerSpec_tmp, n, sp_aud_decision0[ch1], p_st[0]->total_brate, 1 ); } ELSE { @@ -1118,11 +1118,7 @@ void mctStereoIGF_enc_fx( q_spectrum = sub( 31, st->hTcxEnc->spectrum_e[n] ); set16_fx( exp_powerSpec[p_ch[ch]], sub( Q31, q_powerSpec[p_ch[ch]] ), N_MAX + L_MDCT_OVLP_MAX ); -#ifndef MSAN_FIX - ProcessIGF_ivas_fx( st, st->hTcxEnc->spectrum_fx[n], orig_spectrum_fx[p_ch[ch]][n], &q_spectrum, &powerSpec_fx[p_ch[ch]][n * L_subframeTCX], &exp_powerSpec[p_ch[ch]][n * L_subframeTCX], st->core == TCX_20_CORE, n, sp_aud_decision0[ch], 0 ); -#else ProcessIGF_ivas_fx( st, L_FRAME48k, st->hTcxEnc->spectrum_fx[n], orig_spectrum_fx[p_ch[ch]][n], &q_spectrum, &powerSpec_fx[p_ch[ch]][n * L_subframeTCX], &exp_powerSpec[p_ch[ch]][n * L_subframeTCX], st->core == TCX_20_CORE, n, sp_aud_decision0[ch], 0 ); -#endif st->hTcxEnc->spectrum_e[n] = sub( 31, q_spectrum ); move16(); @@ -1163,11 +1159,7 @@ void mctStereoIGF_enc_fx( q_spectrum = sub( 31, st->hTcxEnc->spectrum_e[n] ); set16_fx( exp_powerSpec[ch], sub( Q31, q_powerSpec[ch] ), N_MAX + L_MDCT_OVLP_MAX ); -#ifndef MSAN_FIX - ProcessIGF_ivas_fx( st, st->hTcxEnc->spectrum_fx[n], orig_spectrum_fx[ch][n], &q_spectrum, &powerSpec_fx[ch][n * L_subframeTCX], &exp_powerSpec[ch][n * L_subframeTCX], st->core == TCX_20_CORE, n, sp_aud_decision0[ch], 0 ); -#else ProcessIGF_ivas_fx( st, L_FRAME48k, st->hTcxEnc->spectrum_fx[n], orig_spectrum_fx[ch][n], &q_spectrum, &powerSpec_fx[ch][n * L_subframeTCX], &exp_powerSpec[ch][n * L_subframeTCX], st->core == TCX_20_CORE, n, sp_aud_decision0[ch], 0 ); -#endif st->hTcxEnc->spectrum_e[n] = sub( 31, q_spectrum ); move16(); diff --git a/lib_enc/ivas_mdct_core_enc.c b/lib_enc/ivas_mdct_core_enc_fx.c similarity index 90% rename from lib_enc/ivas_mdct_core_enc.c rename to lib_enc/ivas_mdct_core_enc_fx.c index 6f1d4117df1a72a340dfbdf7ecdbcde88395ddb8..e744c7f47379813ea4e9b180f2e91de1c8b0e821 100644 --- a/lib_enc/ivas_mdct_core_enc.c +++ b/lib_enc/ivas_mdct_core_enc_fx.c @@ -36,13 +36,11 @@ #include "options.h" #include #include "cnst.h" -#include "prot.h" -#include "ivas_prot.h" +#include "prot_fx.h" #include "rom_com.h" #include "ivas_rom_com.h" #include "wmc_auto.h" #include "prot_fx_enc.h" -#include "prot_fx.h" #include "ivas_prot_fx.h" @@ -372,15 +370,16 @@ static void kernel_switch_trafo_fx( static void kernel_switch_update_transforms_fx( - Word32 *sigR, /* i/o: MDCT samples of the given channel (*q_sig) */ - Word32 *sigI, /* i/o: MDST samples of the given channel (*q_sig) */ - Word16 *q_sig, /* i/o: Common Q of MDCT and MDST samples of the given channel */ - const Word16 tcxTransType, /* i : TCX transform type, cf also above */ - TCX_CONFIG_HANDLE hTcxCfg, /* i : TCX configuration handle, pointer */ - const Word16 bwidthSwCnt, /* i : bandwidth switching counter in st */ - const UWord16 kernelType, /* i : TCX transform kernel type (0 - 3) */ - Word16 *tcxTimeSignal, /* i : hTcxEnc->new_speech_TCX buf in st */ - const Word16 *speech_TCX, /* i : hTcxEnc->speech_TCX buffer in st */ + Word32 *sigR, /* i/o: MDCT samples of the given channel (*q_sig) */ + Word32 *sigI, /* i/o: MDST samples of the given channel (*q_sig) */ + Word16 *q_sig, /* i/o: Common Q of MDCT and MDST samples of the given channel */ + const Word16 tcxTransType, /* i : TCX transform type, cf also above */ + TCX_CONFIG_HANDLE hTcxCfg, /* i : TCX configuration handle, pointer */ + const Word16 bwidthSwCnt, /* i : bandwidth switching counter in st */ + const UWord16 kernelType, /* i : TCX transform kernel type (0 - 3) */ + Word16 *tcxTimeSignal, /* i : hTcxEnc->new_speech_TCX buf in st */ + const Word16 *speech_TCX, /* i : hTcxEnc->speech_TCX buffer in st */ + const Word16 q_speech, Word32 *windowedTimeSignal, /* i/o: windowed input and scratch buffer (*q_windowedTimeSignal) */ Word16 *q_windowedTimeSignal, /* i/o: Q of windowed input and scratch buffer */ const Word16 L_subframe /* i : transform length (number of bins) */ @@ -431,19 +430,11 @@ static void kernel_switch_update_transforms_fx( Word32 factor; n = extract_l( Mpy_32_32( s, 603979776 /* N_ZERO_MDCT_NS / FRAME_SIZE_NS in Q31 */ ) ); -#ifdef MSAN_FIX - Scale_sig( &tcxTimeSignal[n - s], add( sub( shl( s, 1 ), n ), 1 ), -Q1 ); // Q0 -> Q-1 -#else - Scale_sig( &tcxTimeSignal[n - s], shl( s, 1 ), -Q1 ); // Q0 -> Q-1 -#endif + Scale_sig( &tcxTimeSignal[n - s], add( sub( shl( s, 1 ), n ), 1 ), sub( -Q1, q_speech ) ); // q_speech -> Q-1 wtda_ext_fx( tcxTimeSignal, windowedTimeSignal_16, extract_l( windowedTimeSignal[0] ), extract_l( windowedTimeSignal[1] ), s, kernelType ); // Q-2 -#ifdef MSAN_FIX - Scale_sig( &tcxTimeSignal[n - s], add( sub( shl( s, 1 ), n ), 1 ), Q1 ); // Q-1 -> Q0 -#else - Scale_sig( &tcxTimeSignal[n - s], shl( s, 1 ), Q1 ); // Q-1 -> Q0 -#endif - Copy_Scale_sig_16_32_no_sat( windowedTimeSignal_16 /* Q(-2) */, windowedTimeSignal, s, Q16 ); // Q14 - scale_sig32( windowedTimeSignal, s, -Q8 /* guard bits */ ); // Q6 + Scale_sig( &tcxTimeSignal[n - s], add( sub( shl( s, 1 ), n ), 1 ), sub( q_speech, -Q1 ) ); // Q-1 -> q_speech + Copy_Scale_sig_16_32_no_sat( windowedTimeSignal_16 /* Q(-2) */, windowedTimeSignal, s, Q16 ); // Q14 + scale_sig32( windowedTimeSignal, s, -Q8 /* guard bits */ ); // Q6 edxt_fx( windowedTimeSignal, sigR, s, kernelType, FALSE ); tmp = BASOP_Util_Divide1616_Scale( NORM_MDCT_FACTOR, s, &exp_tmp ); @@ -475,21 +466,22 @@ static void kernel_switch_update_transforms_fx( { Word16 tmp = shr( hTcxCfg->tcx_mdct_window_min_lengthFB, 1 ); Word32 L_tmp; + Word16 shift = sub( *q_windowedTimeSignal, add( Q16, q_speech ) ); IF( GE_32( kernelType, MDCT_II ) ) { FOR( i = minWindowLen; i >= tmp; i-- ) /* outer left folding of shortened long ALDO slope */ { - L_tmp = L_mult( speech_TCX[-1 - i], hTcxCfg->tcx_aldo_window_1_FB[leftOverlap / 2 + minWindowLen - i] ); // (Q0, Q15) -> Q16 - L_tmp = Mpy_32_16_1( L_tmp, hTcxCfg->tcx_mdct_window_minimumFB[minWindowLen - i].v.im ); // (Q16, Q15) -> Q16 - L_tmp = L_shl( L_tmp, sub( *q_windowedTimeSignal, Q16 ) ); // *q_windowedTimeSignal + L_tmp = L_mult( speech_TCX[-1 - i], hTcxCfg->tcx_aldo_window_1_FB[leftOverlap / 2 + minWindowLen - i] ); // (q_speech, Q15) -> Q16 + q_speech + L_tmp = Mpy_32_16_1( L_tmp, hTcxCfg->tcx_mdct_window_minimumFB[minWindowLen - i].v.im ); // (Q16 + q_speech, Q15) -> Q16 + q_speech + L_tmp = L_shl( L_tmp, shift ); // *q_windowedTimeSignal windowedTimeSignal[2 + leftOverlap + i] = L_add( windowedTimeSignal[2 + leftOverlap + i], L_tmp ); // *q_windowedTimeSignal move32(); } FOR( i = tmp - 1; i >= 0; i-- ) /* outer left folding of shortened long ALDO slope */ { - L_tmp = L_mult( speech_TCX[-1 - i], hTcxCfg->tcx_aldo_window_1_FB[leftOverlap / 2 + minWindowLen - i] ); // (Q0, Q15) -> Q16 - L_tmp = Mpy_32_16_1( L_tmp, hTcxCfg->tcx_mdct_window_minimumFB[i].v.re ); // (Q16, Q15) -> Q16 - L_tmp = L_shl( L_tmp, sub( *q_windowedTimeSignal, Q16 ) ); // *q_windowedTimeSignal + L_tmp = L_mult( speech_TCX[-1 - i], hTcxCfg->tcx_aldo_window_1_FB[leftOverlap / 2 + minWindowLen - i] ); // (q_speech, Q15) -> Q16 + q_speech + L_tmp = Mpy_32_16_1( L_tmp, hTcxCfg->tcx_mdct_window_minimumFB[i].v.re ); // (Q16 + q_speech, Q15) -> Q16 + q_speech + L_tmp = L_shl( L_tmp, shift ); // *q_windowedTimeSignal windowedTimeSignal[2 + leftOverlap + i] = L_add( windowedTimeSignal[2 + leftOverlap + i], L_tmp ); // *q_windowedTimeSignal move32(); } @@ -498,17 +490,17 @@ static void kernel_switch_update_transforms_fx( { FOR( i = minWindowLen; i >= tmp; i-- ) /* outer left folding of shortened long ALDO slope */ { - L_tmp = L_mult( negate( speech_TCX[-1 - i] ), hTcxCfg->tcx_aldo_window_1_FB[leftOverlap / 2 + minWindowLen - i] ); // (Q0, Q15) -> Q16 - L_tmp = Mpy_32_16_1( L_tmp, hTcxCfg->tcx_mdct_window_minimumFB[minWindowLen - i].v.im ); // (Q16, Q15) -> Q16 - L_tmp = L_shl( L_tmp, sub( *q_windowedTimeSignal, Q16 ) ); // *q_windowedTimeSignal + L_tmp = L_mult( negate( speech_TCX[-1 - i] ), hTcxCfg->tcx_aldo_window_1_FB[leftOverlap / 2 + minWindowLen - i] ); // (q_speech, Q15) -> Q16 + q_speech + L_tmp = Mpy_32_16_1( L_tmp, hTcxCfg->tcx_mdct_window_minimumFB[minWindowLen - i].v.im ); // (Q16 + q_speech, Q15) -> Q16 + q_speech + L_tmp = L_shl( L_tmp, shift ); // *q_windowedTimeSignal windowedTimeSignal[2 + leftOverlap + i] = L_add( windowedTimeSignal[2 + leftOverlap + i], L_tmp ); // *q_windowedTimeSignal move32(); } FOR( i = tmp - 1; i >= 0; i-- ) /* outer left folding of shortened long ALDO slope */ { - L_tmp = L_mult( negate( speech_TCX[-1 - i] ), hTcxCfg->tcx_aldo_window_1_FB[leftOverlap / 2 + minWindowLen - i] ); // (Q0, Q15) -> Q16 - L_tmp = Mpy_32_16_1( L_tmp, hTcxCfg->tcx_mdct_window_minimumFB[i].v.re ); // (Q16, Q15) -> Q16 - L_tmp = L_shl( L_tmp, sub( *q_windowedTimeSignal, Q16 ) ); // *q_windowedTimeSignal + L_tmp = L_mult( negate( speech_TCX[-1 - i] ), hTcxCfg->tcx_aldo_window_1_FB[leftOverlap / 2 + minWindowLen - i] ); // (q_speech, Q15) -> Q16 + q_speech + L_tmp = Mpy_32_16_1( L_tmp, hTcxCfg->tcx_mdct_window_minimumFB[i].v.re ); // (Q16 + q_speech, Q15) -> Q16 + q_speech + L_tmp = L_shl( L_tmp, shift ); // *q_windowedTimeSignal windowedTimeSignal[2 + leftOverlap + i] = L_add( windowedTimeSignal[2 + leftOverlap + i], L_tmp ); // *q_windowedTimeSignal move32(); } @@ -547,11 +539,7 @@ static void kernel_switch_update_transforms_fx( Copy_Scale_sig_32_16( windowedTimeSignal + 2, windowedTimeSignal_16 + 2, add( s, shr( add( leftOverlap, rightOverlap ), 1 ) ), -Q16 ); // *q_windowedTimeSignal - Q16 WindowSignal( hTcxCfg, shr( leftOverlap, 1 ), RECTANGULAR_OVERLAP, MIN_OVERLAP, &leftOverlap, &rightOverlap, windowedTimeSignal_16 + 2, &s, tcx5Win, 0, 1 ); // *q_windowedTimeSignal - Q16 Copy_Scale_sig_16_32_no_sat( tcx5Win, tcx5Win_32, add( s, shr( add( leftOverlap, rightOverlap ), 1 ) ), Q16 ); // *q_windowedTimeSignal -#ifdef FIX_ISSUE_1157 q_shift = -Q8; -#else - q_shift = -Q7; -#endif move16(); scale_sig32( tcx5Win_32, add( s /* L_subfr. */, shr( add( leftOverlap, rightOverlap ), 1 ) ), q_shift ); // *q_windowedTimeSignal + q_shift kernel_switch_trafo_fx( tcx5Win_32, sigR, leftOverlap, sub( s /* L_subfr. */, shr( add( leftOverlap, rightOverlap ), 1 ) ), rightOverlap, kernelType ); // *q_windowedTimeSignal + q_shift @@ -581,11 +569,7 @@ static void kernel_switch_update_transforms_fx( ELSE /* tcxTransType != TCX_5 */ { Word16 q_shift, q_com, q_temp; -#ifdef FIX_ISSUE_1157 q_shift = -Q8; -#else - q_shift = -Q7; -#endif move16(); scale_sig32( windowedTimeSignal + 2, add( s /* L_subfr. */, shr( add( leftOverlap, rightOverlap ), 1 ) ), q_shift ); // *q_windowedTimeSignal + q_shift kernel_switch_trafo_fx( windowedTimeSignal + 2, sigR, leftOverlap, sub( s /* L_subfr. */, shr( add( leftOverlap, rightOverlap ), 1 ) ), rightOverlap, kernelType ); // *q_windowedTimeSignal + q_shift @@ -706,8 +690,8 @@ static void applyStereoPreProcessingCplx( } ELSE { - dmxR2_fx = L_sub( Mpy_32_32( valR1_fx, factIn_fx ), Mpy_32_32( valR2_fx, factDe_fx ) ); // Q = q_com + Q22 - 31 - dmxI2_fx = L_sub( Mpy_32_32( valI1_fx, factIn_fx ), Mpy_32_32( valI2_fx, factDe_fx ) ); // Q = q_com + Q22 - 31 + dmxR2_fx = L_sub( Mpy_32_32( valR2_fx, factDe_fx ), Mpy_32_32( valR1_fx, factIn_fx ) ); // Q = q_com + Q22 - 31 + dmxI2_fx = L_sub( Mpy_32_32( valI2_fx, factDe_fx ), Mpy_32_32( valI1_fx, factIn_fx ) ); // Q = q_com + Q22 - 31 } } ELSE @@ -800,7 +784,7 @@ static void applyStereoPreProcessingCplx( * * encoder-side complex-valued stereo pre-processing (crosstalk) *---------------------------------------------------------------*/ -static uint16_t enc_ste_pre_mdct( +static UWord16 enc_ste_pre_mdct( Word32 *sigR0_fx, /* i/o: MDCT samples of the 1st (left) channel q_com*/ Word32 *sigR1_fx, /* i/o: MDCT samples of the 2nd (right) channel q_com*/ Word32 *sigI0_fx, /* i/o: MDST samples of the 1st (left) channel q_com*/ @@ -914,13 +898,8 @@ static uint16_t enc_ste_pre_mdct( absMagnR_fx = Sqrt32( L_add( Mpy_32_32( sigR1_fx[s], sigR1_fx[s] ), Mpy_32_32( sigI1_fx[s], sigI1_fx[s] ) ), &absMagnR_e ); corr_fx = L_add( corr_fx, L_add( Mpy_32_32( sigR0_fx[s], sigR1_fx[s] ), Mpy_32_32( sigI0_fx[s], sigI1_fx[s] ) ) ); // q_com*2 - 31 -#ifdef FIX_ISSUE_1092 - sumL_fx = L_add( sumL_fx, L_add( L_shr( sigR0_fx[s], 1 ), L_shr( sigI0_fx[s], 1 ) ) ); // q_com -1 - sumR_fx = L_add( sumR_fx, L_add( L_shr( sigR1_fx[s], 1 ), L_shr( sigI1_fx[s], 1 ) ) ); // q_com - 1 -#else - sumL_fx = L_add( sumL_fx, L_add( sigR0_fx[s], sigI0_fx[s] ) ); // q_com - sumR_fx = L_add( sumR_fx, L_add( sigR1_fx[s], sigI1_fx[s] ) ); // q_com -#endif + sumL_fx = L_add( sumL_fx, L_add( L_shr( sigR0_fx[s], 1 ), L_shr( sigI0_fx[s], 1 ) ) ); // q_com -1 + sumR_fx = L_add( sumR_fx, L_add( L_shr( sigR1_fx[s], 1 ), L_shr( sigI1_fx[s], 1 ) ) ); // q_com - 1 sumMagnL_fx = BASOP_Util_Add_Mant32Exp( sumMagnL_fx, sumMagnL_e, absMagnL_fx, absMagnL_e, &sumMagnL_e ); sumMagnR_fx = BASOP_Util_Add_Mant32Exp( sumMagnR_fx, sumMagnR_e, absMagnR_fx, absMagnR_e, &sumMagnR_e ); sumPrdLR_fx = BASOP_Util_Add_Mant32Exp( sumPrdLR_fx, sumPrdLR_e, Mpy_32_32( absMagnL_fx, absMagnR_fx ), add( absMagnL_e, absMagnR_e ), &sumPrdLR_e ); @@ -932,11 +911,7 @@ static uint16_t enc_ste_pre_mdct( temp1 = L_shl( preproLen, x1 ); corr_fx = Mpy_32_32( corr_fx, temp1 ); x1 = sub( 62, add( shl( *q_com, 1 ), x1 ) ); -#ifdef FIX_ISSUE_1092 corr_fx = BASOP_Util_Add_Mant32Exp( corr_fx, x1, Mpy_32_32( sumL_fx, sumR_fx ), sub( 62, shl( sub( *q_com, 1 ), 1 ) ), &x1 ); -#else - corr_fx = BASOP_Util_Add_Mant32Exp( corr_fx, x1, Mpy_32_32( sumL_fx, sumR_fx ), sub( 62, shl( *q_com, 1 ) ), &x1 ); -#endif IF( EQ_16( BASOP_Util_Cmp_Mant32Exp( corr_fx, x1, -maxSqrValue_fx, 52 ), -1 ) ) { @@ -1168,6 +1143,7 @@ void ivas_mdct_core_whitening_enc_fx( Word32 scf_fx[CPE_CHANNELS][NB_DIV][M]; Word32 scf_q_fx[CPE_CHANNELS][NB_DIV][M]; Word64 chE_fx[2], chE_tot_fx; + Word16 chE_q[2]; Word8 sns_low_br_mode; Word16 nbits_start_sns; Word16 num_sns; @@ -1182,7 +1158,6 @@ void ivas_mdct_core_whitening_enc_fx( push_wmops( "mdct_core_whitening" ); -#ifdef MSAN_FIX FOR( ch = 0; ch < CPE_CHANNELS; ch++ ) { FOR( i = 0; i < NB_DIV; i++ ) @@ -1196,7 +1171,6 @@ void ivas_mdct_core_whitening_enc_fx( set16_fx( orig_spectrum_e[ch], 0, NB_DIV ); } set16_fx( q_windowedSignal, Q31, CPE_CHANNELS ); -#endif q_com = Q31; q_min = 0; move16(); @@ -1236,9 +1210,7 @@ void ivas_mdct_core_whitening_enc_fx( orig_spectrum[ch][1] = orig_spectrum_long[ch] + N_TCX10_MAX; mdst_spectrum_fx[ch][0] = mdst_spectrum_long_fx[ch]; mdst_spectrum_fx[ch][1] = mdst_spectrum_long_fx[ch] + N_TCX10_MAX; -#ifdef MSAN_FIX set32_fx( temp_buffer, 0, 15 * L_FRAME48k / 8 ); -#endif } windowedSignal_fx[0] = orig_spectrum_long[0]; /* NOTE temporarily available */ @@ -1281,6 +1253,9 @@ void ivas_mdct_core_whitening_enc_fx( FOR( ch = 0; ch < CPE_CHANNELS; ch++ ) { st = sts[ch]; + init_tcx_enc_info_fx( st, &L_subframe, &L_subframeTCX, &tcx_subframe_coded_lines ); + st->hTcxEnc->spectrum_length = L_subframeTCX; + IF( GE_16( add( imult1616( hCPE->cpe_id, CPE_CHANNELS ), ch ), nChannels ) ) { CONTINUE; @@ -1310,16 +1285,17 @@ void ivas_mdct_core_whitening_enc_fx( FOR( n = 0; n < nSubframes; n++ ) { Word16 spect_fx[L_FRAME48k]; - Word16 q_spectrum, l_frame; + Word16 q_spectrum, lshift, l_frame; /*l_frame = (int16_t)(st->input_Fs / FRAMES_PER_SEC); 1 / FRAMES_PER_SEC = 0.2f */ l_frame = extract_l( Mpy_32_32( st->input_Fs, 42949673 /* 0.2f in Q31 */ ) ); if ( EQ_16( st->core, TCX_10_CORE ) ) { l_frame = shr( l_frame, 1 ); } - q_spectrum = L_norm_arr( st->hTcxEnc->spectrum_fx[n], l_frame ); - Copy_Scale_sig32_16( st->hTcxEnc->spectrum_fx[n], spect_fx, l_frame, q_spectrum ); - bw_detect_fx( st, NULL, spect_fx, NULL, NULL, MC_FORMAT /*just cannot be ISM_FORMAT*/, mct_on ); + lshift = L_norm_arr( st->hTcxEnc->spectrum_fx[n], l_frame ); + Copy_Scale_sig32_16( st->hTcxEnc->spectrum_fx[n], spect_fx, l_frame, lshift ); + q_spectrum = sub( add( sub( Q31, st->hTcxEnc->spectrum_e[n] ), lshift ), 16 ); + bw_detect_fx( st, NULL, spect_fx, NULL, NULL, MC_FORMAT /*just cannot be ISM_FORMAT*/, mct_on, q_spectrum ); test(); if ( EQ_16( nSubframes, NB_DIV ) && n == 0 ) @@ -1403,16 +1379,16 @@ void ivas_mdct_core_whitening_enc_fx( q_min = sub( Q31, q_min ); - q_com = s_min( L_norm_arr( hTcxEnc1->spectrum_fx[n], shr( hTcxEnc1->L_frameTCX, shift ) /*hTcxEnc1->L_frameTCX / nSubframes*/ ), L_norm_arr( hTcxEnc0->spectrum_fx[n], shr( hTcxEnc0->L_frameTCX, shift ) /*hTcxEnc0->L_frameTCX / nSubframes*/ ) ); - q_com = s_min( q_com, L_norm_arr( mdst_spectrum_fx[0][n], shr( hTcxEnc0->L_frameTCX, shift ) /*hTcxEnc0->L_frameTCX / nSubframes*/ ) ); - q_com = s_min( q_com, L_norm_arr( mdst_spectrum_fx[1][n], shr( hTcxEnc1->L_frameTCX, shift ) /*hTcxEnc1->L_frameTCX / nSubframes*/ ) ); + q_com = s_min( L_norm_arr( hTcxEnc1->spectrum_fx[n], shr( hTcxEnc1->spectrum_length, shift ) /*hTcxEnc1->L_frameTCX / nSubframes*/ ), L_norm_arr( hTcxEnc0->spectrum_fx[n], shr( hTcxEnc0->spectrum_length, shift ) /*hTcxEnc0->L_frameTCX / nSubframes*/ ) ); + q_com = s_min( q_com, L_norm_arr( mdst_spectrum_fx[0][n], shr( hTcxEnc0->spectrum_length, shift ) /*hTcxEnc0->L_frameTCX / nSubframes*/ ) ); + q_com = s_min( q_com, L_norm_arr( mdst_spectrum_fx[1][n], shr( hTcxEnc1->spectrum_length, shift ) /*hTcxEnc1->L_frameTCX / nSubframes*/ ) ); q_com = s_min( Q31, add( q_min, q_com ) ); - Scale_sig32( hTcxEnc0->spectrum_fx[n], shr( hTcxEnc0->L_frameTCX, shift ) /*hTcxEnc0->L_frameTCX / nSubframes*/, sub( q_com, sub( Q31, hTcxEnc0->spectrum_e[n] ) ) ); // q_com - Scale_sig32( hTcxEnc1->spectrum_fx[n], shr( hTcxEnc1->L_frameTCX, shift ) /*hTcxEnc1->L_frameTCX / nSubframes*/, sub( q_com, sub( Q31, hTcxEnc1->spectrum_e[n] ) ) ); // q_com - Scale_sig32( mdst_spectrum_fx[0][n], shr( hTcxEnc0->L_frameTCX, shift ) /*hTcxEnc0->L_frameTCX / nSubframes*/, sub( q_com, sub( Q31, mdst_spectrum_e[0][n] ) ) ); // q_com - Scale_sig32( mdst_spectrum_fx[1][n], shr( hTcxEnc1->L_frameTCX, shift ) /*hTcxEnc1->L_frameTCX / nSubframes*/, sub( q_com, sub( Q31, mdst_spectrum_e[1][n] ) ) ); // q_com + Scale_sig32( hTcxEnc0->spectrum_fx[n], shr( hTcxEnc0->spectrum_length, shift ) /*hTcxEnc0->L_frameTCX / nSubframes*/, sub( q_com, sub( Q31, hTcxEnc0->spectrum_e[n] ) ) ); // q_com + Scale_sig32( hTcxEnc1->spectrum_fx[n], shr( hTcxEnc1->spectrum_length, shift ) /*hTcxEnc1->L_frameTCX / nSubframes*/, sub( q_com, sub( Q31, hTcxEnc1->spectrum_e[n] ) ) ); // q_com + Scale_sig32( mdst_spectrum_fx[0][n], shr( hTcxEnc0->spectrum_length, shift ) /*hTcxEnc0->L_frameTCX / nSubframes*/, sub( q_com, sub( Q31, mdst_spectrum_e[0][n] ) ) ); // q_com + Scale_sig32( mdst_spectrum_fx[1][n], shr( hTcxEnc1->spectrum_length, shift ) /*hTcxEnc1->L_frameTCX / nSubframes*/, sub( q_com, sub( Q31, mdst_spectrum_e[1][n] ) ) ); // q_com const Word16 switchKernel = /* these 4 transform types can be applied: 0 = MDCT-IV, 1 = MDST-II, 2 = MDCT-II, 3 = MDST-IV */ kernel_switch_detect_fx( hTcxEnc0->spectrum_fx[n], hTcxEnc1->spectrum_fx[n], mdst_spectrum_fx[0][n], mdst_spectrum_fx[1][n], q_com, nSampCore / nSubframes, @@ -1500,11 +1476,11 @@ void ivas_mdct_core_whitening_enc_fx( q_min = s_max( mdst_spectrum_e[0][n], hTcxEnc0->spectrum_e[n] ); q_min = sub( Q31, q_min ); - q_com = s_min( L_norm_arr( hTcxEnc0->spectrum_fx[n], shr( hTcxEnc0->L_frameTCX, shift ) /*hTcxEnc0->L_frameTCX / nSubframes*/ ), L_norm_arr( mdst_spectrum_fx[0][n], shr( hTcxEnc0->L_frameTCX, shift ) /*hTcxEnc0->L_frameTCX / nSubframes*/ ) ); + q_com = s_min( L_norm_arr( hTcxEnc0->spectrum_fx[n], shr( hTcxEnc0->spectrum_length, shift ) /*hTcxEnc0->L_frameTCX / nSubframes*/ ), L_norm_arr( mdst_spectrum_fx[0][n], shr( hTcxEnc0->spectrum_length, shift ) /*hTcxEnc0->L_frameTCX / nSubframes*/ ) ); q_com = s_min( Q31, add( q_min, q_com ) ); - Scale_sig32( hTcxEnc0->spectrum_fx[n], shr( hTcxEnc0->L_frameTCX, shift ) /*hTcxEnc0->L_frameTCX / nSubframes*/, sub( q_com, sub( Q31, hTcxEnc0->spectrum_e[n] ) ) ); // q_com - Scale_sig32( mdst_spectrum_fx[0][n], shr( hTcxEnc0->L_frameTCX, shift ) /*hTcxEnc0->L_frameTCX / nSubframes*/, sub( q_com, sub( Q31, mdst_spectrum_e[0][n] ) ) ); // q_com + Scale_sig32( hTcxEnc0->spectrum_fx[n], shr( hTcxEnc0->spectrum_length, shift ) /*hTcxEnc0->L_frameTCX / nSubframes*/, sub( q_com, sub( Q31, hTcxEnc0->spectrum_e[n] ) ) ); // q_com + Scale_sig32( mdst_spectrum_fx[0][n], shr( hTcxEnc0->spectrum_length, shift ) /*hTcxEnc0->L_frameTCX / nSubframes*/, sub( q_com, sub( Q31, mdst_spectrum_e[0][n] ) ) ); // q_com speech = NULL; if ( NE_16( n, 1 ) ) @@ -1512,7 +1488,7 @@ void ivas_mdct_core_whitening_enc_fx( speech = hTcxEnc0->speech_TCX; } kernel_switch_update_transforms_fx( hTcxEnc0->spectrum_fx[n], mdst_spectrum_fx[0][n], &q_com, hTcxEnc0->transform_type[n], sts[0]->hTcxCfg, sts[0]->bwidth_sw_cnt, hTcxEnc0->kernel_type[n], - hTcxEnc0->new_speech_TCX, speech, windowedSignal_fx[0] + i_mult( n, L_FRAME48k ), &q_windowedSignal[0], shr( L_subframeTCX, shift ) /*L_subframeTCX / nSubframes*/ ); + hTcxEnc0->new_speech_TCX, speech, sts[0]->q_inp, windowedSignal_fx[0] + i_mult( n, L_FRAME48k ), &q_windowedSignal[0], shr( L_subframeTCX, shift ) /*L_subframeTCX / nSubframes*/ ); mdst_spectrum_e[0][n] = sub( Q31, q_com ); hTcxEnc0->spectrum_e[n] = sub( Q31, q_com ); move16(); @@ -1521,11 +1497,11 @@ void ivas_mdct_core_whitening_enc_fx( q_min = s_max( mdst_spectrum_e[1][n], hTcxEnc1->spectrum_e[n] ); q_min = sub( Q31, q_min ); - q_com = s_min( L_norm_arr( hTcxEnc1->spectrum_fx[n], shr( hTcxEnc1->L_frameTCX, shift ) /*hTcxEnc1->L_frameTCX / nSubframes*/ ), L_norm_arr( mdst_spectrum_fx[1][n], shr( hTcxEnc1->L_frameTCX, shift ) /*hTcxEnc1->L_frameTCX / nSubframes*/ ) ); + q_com = s_min( L_norm_arr( hTcxEnc1->spectrum_fx[n], shr( hTcxEnc1->spectrum_length, shift ) /*hTcxEnc1->L_frameTCX / nSubframes*/ ), L_norm_arr( mdst_spectrum_fx[1][n], shr( hTcxEnc1->spectrum_length, shift ) /*hTcxEnc1->L_frameTCX / nSubframes*/ ) ); q_com = s_min( Q31, add( q_min, q_com ) ); - Scale_sig32( hTcxEnc1->spectrum_fx[n], shr( hTcxEnc1->L_frameTCX, shift ) /*hTcxEnc1->L_frameTCX / nSubframes*/, sub( q_com, sub( Q31, hTcxEnc1->spectrum_e[n] ) ) ); // q_com - Scale_sig32( mdst_spectrum_fx[1][n], shr( hTcxEnc1->L_frameTCX, shift ) /*hTcxEnc1->L_frameTCX / nSubframes*/, sub( q_com, sub( Q31, mdst_spectrum_e[1][n] ) ) ); // q_com + Scale_sig32( hTcxEnc1->spectrum_fx[n], shr( hTcxEnc1->spectrum_length, shift ) /*hTcxEnc1->L_frameTCX / nSubframes*/, sub( q_com, sub( Q31, hTcxEnc1->spectrum_e[n] ) ) ); // q_com + Scale_sig32( mdst_spectrum_fx[1][n], shr( hTcxEnc1->spectrum_length, shift ) /*hTcxEnc1->L_frameTCX / nSubframes*/, sub( q_com, sub( Q31, mdst_spectrum_e[1][n] ) ) ); // q_com speech = NULL; if ( NE_16( n, 1 ) ) @@ -1533,7 +1509,7 @@ void ivas_mdct_core_whitening_enc_fx( speech = hTcxEnc1->speech_TCX; } kernel_switch_update_transforms_fx( hTcxEnc1->spectrum_fx[n], mdst_spectrum_fx[1][n], &q_com, hTcxEnc1->transform_type[n], sts[1]->hTcxCfg, sts[1]->bwidth_sw_cnt, hTcxEnc1->kernel_type[n], - hTcxEnc1->new_speech_TCX, speech, windowedSignal_fx[1] + i_mult( n, L_FRAME48k ), &q_windowedSignal[1], shr( L_subframeTCX, shift ) /*L_subframeTCX / nSubframes*/ ); + hTcxEnc1->new_speech_TCX, speech, sts[1]->q_inp, windowedSignal_fx[1] + i_mult( n, L_FRAME48k ), &q_windowedSignal[1], shr( L_subframeTCX, shift ) /*L_subframeTCX / nSubframes*/ ); mdst_spectrum_e[1][n] = sub( Q31, q_com ); hTcxEnc1->spectrum_e[n] = sub( Q31, q_com ); move16(); @@ -1557,27 +1533,30 @@ void ivas_mdct_core_whitening_enc_fx( } IF( EQ_16( hTcxEnc0->transform_type[n], TCX_5 ) ) { - Word16 length; + Word16 length, len_sbfr; const Word16 tcx5SizeFB = sts[1]->hTcxCfg->tcx5SizeFB; move16(); /* length = max(nSampCore / (2 * NB_DIV), L_subframeTCX / (2 * NB_DIV), NB_DIV = 2 */ length = shr( s_max( nSampCore, L_subframeTCX ), 2 ); + len_sbfr = shr( hTcxEnc0->spectrum_length, shift ); + assert( hTcxEnc0->L_frameTCX == hTcxEnc1->L_frameTCX ); exp_max = s_max( hTcxEnc0->spectrum_e[n], hTcxEnc1->spectrum_e[n] ); exp_max = s_max( exp_max, mdst_spectrum_e[0][n] ); exp_max = s_max( exp_max, mdst_spectrum_e[1][n] ); // calculate the headroom available - exp_com = s_min( L_norm_arr( hTcxEnc1->spectrum_fx[n], length ), L_norm_arr( hTcxEnc0->spectrum_fx[n], length ) ); - exp_com = s_min( exp_com, L_norm_arr( mdst_spectrum_fx[0][n], length ) ); - exp_com = s_min( exp_com, L_norm_arr( mdst_spectrum_fx[1][n], length ) ); + exp_com = s_min( L_norm_arr( hTcxEnc1->spectrum_fx[n], len_sbfr ), L_norm_arr( hTcxEnc0->spectrum_fx[n], len_sbfr ) ); + exp_com = s_min( exp_com, L_norm_arr( mdst_spectrum_fx[0][n], len_sbfr ) ); + exp_com = s_min( exp_com, L_norm_arr( mdst_spectrum_fx[1][n], len_sbfr ) ); q_com = sub( s_min( Q31, add( sub( Q31, exp_max ), exp_com ) ), 6 ); // 6 guarded bits + q_com = s_max( q_com, 9 ); // Keep the Q-factor at least 9 to avoid precision loss inside enc_ste_pre_mdct. exp_com = sub( Q31, q_com ); - Scale_sig32( hTcxEnc0->spectrum_fx[n], shr( hTcxEnc0->L_frameTCX, shift ) /* hTcxEnc0->L_frameTCX/nSubframes */, sub( hTcxEnc0->spectrum_e[n], exp_com ) ); // hTcxEnc0->spectrum_e - Scale_sig32( hTcxEnc1->spectrum_fx[n], shr( hTcxEnc1->L_frameTCX, shift ) /* hTcxEnc1->L_frameTCX/nSubframes */, sub( hTcxEnc1->spectrum_e[n], exp_com ) ); // hTcxEnc1->spectrum_e - Scale_sig32( mdst_spectrum_fx[0][n], shr( hTcxEnc0->L_frameTCX, shift ) /* hTcxEnc0->L_frameTCX/nSubframes */, sub( mdst_spectrum_e[0][n], exp_com ) ); // mdst_spectrum_e - Scale_sig32( mdst_spectrum_fx[1][n], shr( hTcxEnc1->L_frameTCX, shift ) /* hTcxEnc1->L_frameTCX/nSubframes */, sub( mdst_spectrum_e[1][n], exp_com ) ); // mdst_spectrum_e + scale_sig32( hTcxEnc0->spectrum_fx[n], len_sbfr /* hTcxEnc0->L_frameTCX/nSubframes */, sub( hTcxEnc0->spectrum_e[n], exp_com ) ); // hTcxEnc0->spectrum_e + scale_sig32( hTcxEnc1->spectrum_fx[n], len_sbfr /* hTcxEnc1->L_frameTCX/nSubframes */, sub( hTcxEnc1->spectrum_e[n], exp_com ) ); // hTcxEnc1->spectrum_e + scale_sig32( mdst_spectrum_fx[0][n], len_sbfr /* hTcxEnc0->L_frameTCX/nSubframes */, sub( mdst_spectrum_e[0][n], exp_com ) ); // mdst_spectrum_e + scale_sig32( mdst_spectrum_fx[1][n], len_sbfr /* hTcxEnc1->L_frameTCX/nSubframes */, sub( mdst_spectrum_e[1][n], exp_com ) ); // mdst_spectrum_e Word16 q_com_orig = q_com; move16(); @@ -1601,17 +1580,18 @@ void ivas_mdct_core_whitening_enc_fx( exp_max = sub( Q31, q_com ); move16(); - exp_com = s_min( L_norm_arr( hTcxEnc1->spectrum_fx[n], shr( hTcxEnc1->L_frameTCX, shift ) /* hTcxEnc1->L_frameTCX/nSubframes */ ), L_norm_arr( hTcxEnc0->spectrum_fx[n], shr( hTcxEnc0->L_frameTCX, shift ) /* hTcxEnc0->L_frameTCX/nSubframes */ ) ); - exp_com = s_min( exp_com, L_norm_arr( mdst_spectrum_fx[0][n], shr( hTcxEnc0->L_frameTCX, shift ) /* hTcxEnc0->L_frameTCX/nSubframes */ ) ); - exp_com = s_min( exp_com, L_norm_arr( mdst_spectrum_fx[1][n], shr( hTcxEnc1->L_frameTCX, shift ) /* hTcxEnc1->L_frameTCX/nSubframes */ ) ); + exp_com = s_min( L_norm_arr( hTcxEnc1->spectrum_fx[n], len_sbfr /* hTcxEnc1->L_frameTCX/nSubframes */ ), L_norm_arr( hTcxEnc0->spectrum_fx[n], len_sbfr /* hTcxEnc0->L_frameTCX/nSubframes */ ) ); + exp_com = s_min( exp_com, L_norm_arr( mdst_spectrum_fx[0][n], len_sbfr /* hTcxEnc0->L_frameTCX/nSubframes */ ) ); + exp_com = s_min( exp_com, L_norm_arr( mdst_spectrum_fx[1][n], len_sbfr /* hTcxEnc1->L_frameTCX/nSubframes */ ) ); q_com = sub( s_min( Q31, add( q_com, exp_com ) ), 6 ); + q_com = s_max( q_com, 9 ); // Keep the Q-factor at least 9 to avoid precision loss inside enc_ste_pre_mdct. exp_com = sub( Q31, q_com ); - Scale_sig32( hTcxEnc0->spectrum_fx[n], shr( hTcxEnc0->L_frameTCX, shift ) /* hTcxEnc0->L_frameTCX/nSubframes */, sub( exp_max, exp_com ) ); // exp_max - Scale_sig32( hTcxEnc1->spectrum_fx[n], shr( hTcxEnc1->L_frameTCX, shift ) /* hTcxEnc1->L_frameTCX/nSubframes */, sub( exp_max, exp_com ) ); // exp_max - Scale_sig32( mdst_spectrum_fx[0][n], shr( hTcxEnc0->L_frameTCX, shift ) /* hTcxEnc0->L_frameTCX/nSubframes */, sub( exp_max, exp_com ) ); // exp_max - Scale_sig32( mdst_spectrum_fx[1][n], shr( hTcxEnc1->L_frameTCX, shift ) /* hTcxEnc1->L_frameTCX/nSubframes */, sub( exp_max, exp_com ) ); // exp_max + scale_sig32( hTcxEnc0->spectrum_fx[n], len_sbfr /* hTcxEnc0->L_frameTCX/nSubframes */, sub( exp_max, exp_com ) ); // exp_max + scale_sig32( hTcxEnc1->spectrum_fx[n], len_sbfr /* hTcxEnc1->L_frameTCX/nSubframes */, sub( exp_max, exp_com ) ); // exp_max + scale_sig32( mdst_spectrum_fx[0][n], len_sbfr /* hTcxEnc0->L_frameTCX/nSubframes */, sub( exp_max, exp_com ) ); // exp_max + scale_sig32( mdst_spectrum_fx[1][n], len_sbfr /* hTcxEnc1->L_frameTCX/nSubframes */, sub( exp_max, exp_com ) ); // exp_max q_com_orig = q_com; move16(); @@ -1650,22 +1630,22 @@ void ivas_mdct_core_whitening_enc_fx( { Word16 length; length = shr( s_max( nSampCore, L_subframeTCX ), shift ); // max(/* nSampCore/nSubframes, L_subframeTCX/nSubframes) */ - Word16 offset2 = sub( shr( hTcxEnc0->L_frameTCX, shift ) /* hTcxEnc0->L_frameTCX/nSubframes */, length ); + Word16 offset2 = sub( shr( hTcxEnc0->spectrum_length, shift ) /* hTcxEnc0->L_frameTCX/nSubframes */, length ); exp_max = s_max( hTcxEnc0->spectrum_e[n], hTcxEnc1->spectrum_e[n] ); exp_max = s_max( exp_max, mdst_spectrum_e[0][n] ); exp_max = s_max( exp_max, mdst_spectrum_e[1][n] ); - exp_com = s_min( L_norm_arr( hTcxEnc1->spectrum_fx[n], shr( hTcxEnc1->L_frameTCX, shift ) /* hTcxEnc1->L_frameTCX/nSubframes */ ), L_norm_arr( hTcxEnc0->spectrum_fx[n], shr( hTcxEnc0->L_frameTCX, shift ) /* hTcxEnc0->L_frameTCX/nSubframes */ ) ); - exp_com = s_min( exp_com, L_norm_arr( mdst_spectrum_fx[0][n], shr( hTcxEnc0->L_frameTCX, shift ) /* hTcxEnc0->L_frameTCX/nSubframes */ ) ); - exp_com = s_min( exp_com, L_norm_arr( mdst_spectrum_fx[1][n], shr( hTcxEnc1->L_frameTCX, shift ) /* hTcxEnc1->L_frameTCX/nSubframes */ ) ); + exp_com = s_min( L_norm_arr( hTcxEnc1->spectrum_fx[n], shr( hTcxEnc1->spectrum_length, shift ) /* hTcxEnc1->L_frameTCX/nSubframes */ ), L_norm_arr( hTcxEnc0->spectrum_fx[n], shr( hTcxEnc0->spectrum_length, shift ) /* hTcxEnc0->L_frameTCX/nSubframes */ ) ); + exp_com = s_min( exp_com, L_norm_arr( mdst_spectrum_fx[0][n], shr( hTcxEnc0->spectrum_length, shift ) /* hTcxEnc0->L_frameTCX/nSubframes */ ) ); + exp_com = s_min( exp_com, L_norm_arr( mdst_spectrum_fx[1][n], shr( hTcxEnc1->spectrum_length, shift ) /* hTcxEnc1->L_frameTCX/nSubframes */ ) ); q_com = sub( s_min( Q31, add( sub( Q31, exp_max ), exp_com ) ), 6 ); exp_com = sub( Q31, q_com ); - Scale_sig32( hTcxEnc0->spectrum_fx[n], shr( hTcxEnc0->L_frameTCX, shift ) /* hTcxEnc0->L_frameTCX/nSubframes */, sub( hTcxEnc0->spectrum_e[n], exp_com ) ); // hTcxEnc0->spectrum_e - Scale_sig32( hTcxEnc1->spectrum_fx[n], shr( hTcxEnc1->L_frameTCX, shift ) /* hTcxEnc1->L_frameTCX/nSubframes */, sub( hTcxEnc1->spectrum_e[n], exp_com ) ); // hTcxEnc0->spectrum_e - Scale_sig32( mdst_spectrum_fx[0][n], shr( hTcxEnc0->L_frameTCX, shift ) /* hTcxEnc0->L_frameTCX/nSubframes */, sub( mdst_spectrum_e[0][n], exp_com ) ); // mdst_spectrum_e - Scale_sig32( mdst_spectrum_fx[1][n], shr( hTcxEnc1->L_frameTCX, shift ) /* hTcxEnc1->L_frameTCX/nSubframes */, sub( mdst_spectrum_e[1][n], exp_com ) ); // mdst_spectrum_e + Scale_sig32( hTcxEnc0->spectrum_fx[n], shr( hTcxEnc0->spectrum_length, shift ) /* hTcxEnc0->L_frameTCX/nSubframes */, sub( hTcxEnc0->spectrum_e[n], exp_com ) ); // hTcxEnc0->spectrum_e + Scale_sig32( hTcxEnc1->spectrum_fx[n], shr( hTcxEnc1->spectrum_length, shift ) /* hTcxEnc1->L_frameTCX/nSubframes */, sub( hTcxEnc1->spectrum_e[n], exp_com ) ); // hTcxEnc0->spectrum_e + Scale_sig32( mdst_spectrum_fx[0][n], shr( hTcxEnc0->spectrum_length, shift ) /* hTcxEnc0->L_frameTCX/nSubframes */, sub( mdst_spectrum_e[0][n], exp_com ) ); // mdst_spectrum_e + Scale_sig32( mdst_spectrum_fx[1][n], shr( hTcxEnc1->spectrum_length, shift ) /* hTcxEnc1->L_frameTCX/nSubframes */, sub( mdst_spectrum_e[1][n], exp_com ) ); // mdst_spectrum_e Word16 q_com_orig = q_com; move16(); @@ -1750,12 +1730,12 @@ void ivas_mdct_core_whitening_enc_fx( q_min = s_max( mdst_spectrum_e[ch][n], hTcxEncCh->spectrum_e[n] ); q_min = sub( Q31, q_min ); - q_com = s_min( L_norm_arr( mdst_spectrum_fx[ch][n], shr( hTcxEncCh->L_frameTCX, shift ) /*hTcxEncCh->L_frameTCX / nSubframes*/ ), L_norm_arr( hTcxEncCh->spectrum_fx[n], shr( hTcxEncCh->L_frameTCX, shift ) /*hTcxEncCh->L_frameTCX / nSubframes*/ ) ); + q_com = s_min( L_norm_arr( mdst_spectrum_fx[ch][n], shr( hTcxEncCh->spectrum_length, shift ) /*hTcxEncCh->L_frameTCX / nSubframes*/ ), L_norm_arr( hTcxEncCh->spectrum_fx[n], shr( hTcxEncCh->spectrum_length, shift ) /*hTcxEncCh->L_frameTCX / nSubframes*/ ) ); q_com = s_min( Q31, add( q_min, q_com ) ); - Scale_sig32( hTcxEncCh->spectrum_fx[n], shr( hTcxEncCh->L_frameTCX, shift ) /*hTcxEncCh->L_frameTCX / nSubframes*/, sub( q_com, sub( Q31, hTcxEncCh->spectrum_e[n] ) ) ); // q_com - Scale_sig32( mdst_spectrum_fx[ch][n], shr( hTcxEncCh->L_frameTCX, shift ) /*hTcxEncCh->L_frameTCX / nSubframes*/, sub( q_com, sub( Q31, mdst_spectrum_e[ch][n] ) ) ); // q_com + Scale_sig32( hTcxEncCh->spectrum_fx[n], shr( hTcxEncCh->spectrum_length, shift ) /*hTcxEncCh->L_frameTCX / nSubframes*/, sub( q_com, sub( Q31, hTcxEncCh->spectrum_e[n] ) ) ); // q_com + Scale_sig32( mdst_spectrum_fx[ch][n], shr( hTcxEncCh->spectrum_length, shift ) /*hTcxEncCh->L_frameTCX / nSubframes*/, sub( q_com, sub( Q31, mdst_spectrum_e[ch][n] ) ) ); // q_com speech = hTcxEncCh->speech_TCX; if ( n != 0 ) @@ -1763,7 +1743,7 @@ void ivas_mdct_core_whitening_enc_fx( speech = NULL; } kernel_switch_update_transforms_fx( hTcxEncCh->spectrum_fx[n], mdst_spectrum_fx[ch][n], &q_com, hTcxEncCh->transform_type[n], sts[ch]->hTcxCfg, sts[ch]->bwidth_sw_cnt, hTcxEncCh->kernel_type[n], - hTcxEncCh->new_speech_TCX, speech, windowedSignal_fx[ch] + i_mult( n, L_FRAME48k ), &q_windowedSignal[ch], shr( L_subframeTCX, shift ) /*L_subframeTCX / nSubframes*/ ); + hTcxEncCh->new_speech_TCX, speech, sts[ch]->q_inp, windowedSignal_fx[ch] + i_mult( n, L_FRAME48k ), &q_windowedSignal[ch], shr( L_subframeTCX, shift ) /*L_subframeTCX / nSubframes*/ ); mdst_spectrum_e[ch][n] = sub( Q31, q_com ); move16(); hTcxEncCh->spectrum_e[n] = sub( Q31, q_com ); @@ -1795,7 +1775,7 @@ void ivas_mdct_core_whitening_enc_fx( FOR( n = 0; n < nSubframes; n++ ) { q_min = s_max( q_min, hTcxEnc->spectrum_e[n] ); - q_com = s_min( q_com, L_norm_arr( hTcxEnc->spectrum_fx[n], shr( hTcxEnc->L_frameTCX, shift ) /*hTcxEnc->L_frameTCX / nSubframes*/ ) ); + q_com = s_min( q_com, L_norm_arr( hTcxEnc->spectrum_fx[n], shr( hTcxEnc->spectrum_length, shift ) /*hTcxEnc->L_frameTCX / nSubframes*/ ) ); } } q_min = sub( Q31, q_min ); @@ -1817,7 +1797,7 @@ void ivas_mdct_core_whitening_enc_fx( } FOR( n = 0; n < nSubframes; n++ ) { - Scale_sig32( hTcxEnc->spectrum_fx[n], shr( hTcxEnc->L_frameTCX, shift ) /*hTcxEnc->L_frameTCX / nSubframes*/, sub( q_com, sub( Q31, hTcxEnc->spectrum_e[n] ) ) ); // q_com + Scale_sig32( hTcxEnc->spectrum_fx[n], shr( hTcxEnc->spectrum_length, shift ) /*hTcxEnc->L_frameTCX / nSubframes*/, sub( q_com, sub( Q31, hTcxEnc->spectrum_e[n] ) ) ); // q_com hTcxEnc->spectrum_e[n] = sub( Q31, q_com ); move16(); } @@ -1851,8 +1831,8 @@ void ivas_mdct_core_whitening_enc_fx( q_min = s_max( q_min, hTcxEnc->spectrum_e[n] ); q_min = s_max( q_min, mdst_spectrum_e[ch][n] ); - q_com = s_min( q_com, L_norm_arr( mdst_spectrum_fx[ch][n], shr( hTcxEnc->L_frameTCX, shift ) /*hTcxEnc->L_frameTCX / nSubframes*/ ) ); - q_com = s_min( q_com, L_norm_arr( hTcxEnc->spectrum_fx[n], shr( hTcxEnc->L_frameTCX, shift ) /*hTcxEnc->L_frameTCX / nSubframes*/ ) ); + q_com = s_min( q_com, L_norm_arr( mdst_spectrum_fx[ch][n], shr( hTcxEnc->spectrum_length, shift ) /*hTcxEnc->L_frameTCX / nSubframes*/ ) ); + q_com = s_min( q_com, L_norm_arr( hTcxEnc->spectrum_fx[n], shr( hTcxEnc->spectrum_length, shift ) /*hTcxEnc->L_frameTCX / nSubframes*/ ) ); } } q_min = sub( Q31, q_min ); @@ -1875,8 +1855,8 @@ void ivas_mdct_core_whitening_enc_fx( } FOR( n = 0; n < nSubframes; n++ ) { - Scale_sig32( hTcxEnc->spectrum_fx[n], shr( hTcxEnc->L_frameTCX, shift ) /*hTcxEnc->L_frameTCX / nSubframes*/, sub( q_com, sub( Q31, hTcxEnc->spectrum_e[n] ) ) ); // q_com - Scale_sig32( mdst_spectrum_fx[ch][n], shr( hTcxEnc->L_frameTCX, shift ) /*hTcxEnc->L_frameTCX / nSubframes*/, sub( q_com, sub( Q31, mdst_spectrum_e[ch][n] ) ) ); // q_com + Scale_sig32( hTcxEnc->spectrum_fx[n], shr( hTcxEnc->spectrum_length, shift ) /*hTcxEnc->L_frameTCX / nSubframes*/, sub( q_com, sub( Q31, hTcxEnc->spectrum_e[n] ) ) ); // q_com + Scale_sig32( mdst_spectrum_fx[ch][n], shr( hTcxEnc->spectrum_length, shift ) /*hTcxEnc->L_frameTCX / nSubframes*/, sub( q_com, sub( Q31, mdst_spectrum_e[ch][n] ) ) ); // q_com hTcxEnc->spectrum_e[n] = sub( Q31, q_com ); move16(); mdst_spectrum_e[ch][n] = sub( Q31, q_com ); @@ -1905,6 +1885,7 @@ void ivas_mdct_core_whitening_enc_fx( IF( mct_on ) { set64_fx( chE_fx, 0, NB_DIV ); + set16_fx( chE_q, 0, NB_DIV ); } init_tcx_enc_info_fx( st, &L_subframe, &L_subframeTCX, &tcx_subframe_coded_lines ); @@ -1922,7 +1903,6 @@ void ivas_mdct_core_whitening_enc_fx( tcx_subframe_coded_lines = shr( tcx_subframe_coded_lines, shift ); /*tcx_subframe_coded_lines / nSubframes*/ Word16 q_pow = 62, q_pow_tmp = sub( 63, shl( mdst_spectrum_e[0][0], 1 ) ); // add( shl( sub( Q31, mdst_spectrum_e[0][0] ), 1 ), 1 ); move16(); - FOR( n = 0; n < nSubframes; n++ ) { IF( st->hTcxEnc->fUseTns[n] ) @@ -1931,34 +1911,19 @@ void ivas_mdct_core_whitening_enc_fx( { powerSpec_fx64[i] = W_mult_32_32( st->hTcxEnc->spectrum_fx[n][i], st->hTcxEnc->spectrum_fx[n][i] ); move64(); - IF( powerSpec_fx64[i] == 0 ) - { - q_pow = s_min( q_pow, 62 ); - } - ELSE - - { - q_pow = s_min( q_pow, W_norm( powerSpec_fx64[i] ) ); - } } + q_pow = W_norm_arr( powerSpec_fx64, L_subframeTCX ); } ELSE { FOR( i = 0; i < L_subframeTCX; i++ ) { - powerSpec_fx64[i] = W_add( W_mult_32_32( mdst_spectrum_fx[ch][n][i], mdst_spectrum_fx[ch][n][i] ), W_mult_32_32( st->hTcxEnc->spectrum_fx[n][i], st->hTcxEnc->spectrum_fx[n][i] ) ); + powerSpec_fx64[i] = W_mac_32_32( W_mult_32_32( mdst_spectrum_fx[ch][n][i], mdst_spectrum_fx[ch][n][i] ), st->hTcxEnc->spectrum_fx[n][i], st->hTcxEnc->spectrum_fx[n][i] ); move64(); - IF( powerSpec_fx64[i] == 0 ) - { - q_pow = s_min( q_pow, 62 ); - } - ELSE - - { - q_pow = s_min( q_pow, W_norm( powerSpec_fx64[i] ) ); - } } + q_pow = W_norm_arr( powerSpec_fx64, L_subframeTCX ); } + FOR( i = 0; i < L_subframeTCX; i++ ) { powerSpec_fx64[i] = W_shl( powerSpec_fx64[i], q_pow ); @@ -1973,6 +1938,8 @@ void ivas_mdct_core_whitening_enc_fx( chE_fx[n] = W_add( W_deposit32_l( powerSpec_fx[i] ), chE_fx[n] ); move64(); } + chE_q[n] = sub( add( q_pow_tmp, q_pow ), 32 ); + move16(); } sns_compute_scf_fx( powerSpec_fx, st->hTcxCfg->psychParamsCurrent, st->L_frame, scf_fx[ch][n], sub( add( q_pow_tmp, q_pow ), 32 ) ); } @@ -1980,14 +1947,14 @@ void ivas_mdct_core_whitening_enc_fx( /* MCT: detect whether there are silent channels and set mct_chan_mode accordingly */ IF( mct_on ) { - Word16 q = sub( add( q_pow_tmp, q_pow ), 32 ); + Word16 q = s_min( chE_q[0], chE_q[1] ); Word64 silent_thr = SILENT_CHANNEL_THRES_FX; move64(); chE_tot_fx = 0; move64(); FOR( i = 0; i < NB_DIV; i++ ) { - chE_tot_fx = W_add( chE_fx[i], chE_tot_fx ); + chE_tot_fx = W_add( W_shr( chE_fx[i], sub( chE_q[i], q ) ), chE_tot_fx ); } IF( GT_16( q, Q24 ) ) { @@ -2176,7 +2143,7 @@ void ivas_mdct_core_whitening_enc_fx( { q_min = s_max( q_min, hTcxEnc->spectrum_e[n] ); - q_com = s_min( q_com, L_norm_arr( hTcxEnc->spectrum_fx[n], shr( hTcxEnc->L_frameTCX, shift ) /*hTcxEnc->L_frameTCX / nSubframes*/ ) ); + q_com = s_min( q_com, L_norm_arr( hTcxEnc->spectrum_fx[n], shr( hTcxEnc->spectrum_length, shift ) /*hTcxEnc->L_frameTCX / nSubframes*/ ) ); } } q_min = sub( Q31, q_min ); @@ -2200,7 +2167,7 @@ void ivas_mdct_core_whitening_enc_fx( FOR( n = 0; n < nSubframes; n++ ) { - Scale_sig32( hTcxEnc->spectrum_fx[n], shr( hTcxEnc->L_frameTCX, shift ) /*hTcxEnc->L_frameTCX / nSubframes*/, sub( q_com, sub( 31, hTcxEnc->spectrum_e[n] ) ) ); // q_com + Scale_sig32( hTcxEnc->spectrum_fx[n], shr( hTcxEnc->spectrum_length, shift ) /*hTcxEnc->L_frameTCX / nSubframes*/, sub( q_com, sub( 31, hTcxEnc->spectrum_e[n] ) ) ); // q_com hTcxEnc->spectrum_e[n] = sub( 31, q_com ); move16(); } @@ -2557,7 +2524,7 @@ void ivas_mdct_quant_coder_fx( { ignore_chan[ch] = 1; move16(); - continue; + CONTINUE; } IF( EQ_16( st->hTcxEnc->tcxMode, TCX_20 ) ) @@ -2629,7 +2596,7 @@ void ivas_mdct_quant_coder_fx( IF( EQ_16( st->mct_chan_mode, MCT_CHAN_MODE_IGNORE ) ) { - continue; + CONTINUE; } FOR( n = 0; n < nSubframes; n++ ) @@ -2660,7 +2627,7 @@ void ivas_mdct_quant_coder_fx( IF( EQ_16( st->mct_chan_mode, MCT_CHAN_MODE_IGNORE ) ) { - continue; + CONTINUE; } FOR( n = 0; n < nSubframes; n++ ) @@ -2744,9 +2711,9 @@ void ivas_mdct_quant_coder_fx( * Generate Bitstream *---------------------------------------------------------------*/ - if ( EQ_16( st->mct_chan_mode, MCT_CHAN_MODE_IGNORE ) ) + IF( EQ_16( st->mct_chan_mode, MCT_CHAN_MODE_IGNORE ) ) { - continue; + CONTINUE; } nbits_start = st->hBstr->nb_bits_tot; move16(); diff --git a/lib_enc/ivas_omasa_enc.c b/lib_enc/ivas_omasa_enc_fx.c similarity index 97% rename from lib_enc/ivas_omasa_enc.c rename to lib_enc/ivas_omasa_enc_fx.c index f09d4513d6cda30c00684a368f66665523e381c1..265f2b601b4afc4af9c89895016542541f995fae 100644 --- a/lib_enc/ivas_omasa_enc.c +++ b/lib_enc/ivas_omasa_enc_fx.c @@ -35,9 +35,7 @@ #include #include #include "ivas_cnst.h" -#include "ivas_prot.h" #include "ivas_prot_fx.h" -#include "prot.h" #include "prot_fx.h" #include "ivas_rom_com.h" #include "ivas_rom_enc.h" @@ -47,6 +45,12 @@ #endif +/*------------------------------------------------------------------------- + * Local constants + *------------------------------------------------------------------------*/ + +#define OMASA_FEC_MAX 5 + /*------------------------------------------------------------------------- * Local function prototypes *------------------------------------------------------------------------*/ @@ -126,7 +130,7 @@ ivas_error ivas_omasa_enc_open_fx( move16(); FOR( i = 0; i < hOMasa->num_Cldfb_instances; i++ ) { - IF( ( error = openCldfb_ivas_enc( &( hOMasa->cldfbAnaEnc[i] ), CLDFB_ANALYSIS, st_ivas->hEncoderConfig->input_Fs, CLDFB_PROTOTYPE_5_00MS ) ) != IVAS_ERR_OK ) + IF( ( error = openCldfb_ivas_fx( &( hOMasa->cldfbAnaEnc[i] ), CLDFB_ANALYSIS, st_ivas->hEncoderConfig->input_Fs, CLDFB_PROTOTYPE_5_00MS, ENC ) ) != IVAS_ERR_OK ) { return error; } @@ -186,6 +190,8 @@ ivas_error ivas_omasa_enc_open_fx( hOMasa->prev_selected_object = 0; hOMasa->changing_object = 0; + hOMasa->since_obj_change_cnt = 0; + move16(); move16(); move16(); @@ -229,7 +235,7 @@ void ivas_omasa_enc_close_fx( FOR( i = 0; i < ( *hOMasa )->num_Cldfb_instances; i++ ) { - deleteCldfb_ivas( &( ( *hOMasa )->cldfbAnaEnc[i] ) ); + deleteCldfb_ivas_fx( &( ( *hOMasa )->cldfbAnaEnc[i] ) ); } FOR( i = 0; i < DIRAC_NUM_DIMS; i++ ) @@ -338,11 +344,11 @@ ivas_error ivas_omasa_enc_config_fx( /* re-write IVAS format signalling - actual 'ism_mode' was not known before */ IF( st_ivas->nSCE > 0 ) { - reset_indices_enc( st_ivas->hSCE[0]->hCoreCoder[0]->hBstr, st_ivas->hSCE[0]->hCoreCoder[0]->hBstr->nb_bits_tot ); + reset_indices_enc_fx( st_ivas->hSCE[0]->hCoreCoder[0]->hBstr, st_ivas->hSCE[0]->hCoreCoder[0]->hBstr->nb_bits_tot ); } ELSE { - reset_indices_enc( st_ivas->hCPE[0]->hCoreCoder[0]->hBstr, st_ivas->hCPE[0]->hCoreCoder[0]->hBstr->nb_bits_tot ); + reset_indices_enc_fx( st_ivas->hCPE[0]->hCoreCoder[0]->hBstr, st_ivas->hCPE[0]->hCoreCoder[0]->hBstr->nb_bits_tot ); } ivas_write_format_fx( st_ivas ); @@ -650,6 +656,25 @@ void ivas_omasa_enc_fx( move32(); move16(); } + + /* force absolute MD coding in case of change of separated object */ + IF( NE_16( hOMasa->prev_selected_object, selected_object ) ) + { + hOMasa->since_obj_change_cnt = 0; + hIsmMeta[0]->position_angle.angle1_diff_cnt = ISM_FEC_MAX; + move16(); + move16(); + } + ELSE + { + hOMasa->since_obj_change_cnt = add( hOMasa->since_obj_change_cnt, 1 ); + hOMasa->since_obj_change_cnt = s_min( OMASA_FEC_MAX, hOMasa->since_obj_change_cnt ); + IF( LT_16( hOMasa->since_obj_change_cnt, OMASA_FEC_MAX ) ) + { + hIsmMeta[0]->position_angle.angle1_diff_cnt = ISM_FEC_MAX; + move16(); + } + } hOMasa->prev_selected_object = selected_object; move16(); @@ -1052,10 +1077,8 @@ static void ivas_omasa_param_est_enc_fx( move16(); /* Need to initialize renormalization_factors, and variables to be normalized */ -#ifdef MSAN_FIX set_zero_fx( &Foa_RealBuffer_fx[0][0], FOA_CHANNELS * CLDFB_NO_CHANNELS_MAX ); set_zero_fx( &Foa_ImagBuffer_fx[0][0], FOA_CHANNELS * CLDFB_NO_CHANNELS_MAX ); -#endif set_zero_fx( renormalization_factor_diff_fx, hOMasa->nbands ); set_zero_fx( diffuseness_m_fx, hOMasa->nbands ); @@ -1203,12 +1226,8 @@ static void ivas_omasa_param_est_enc_fx( computeIntensityVector_enc_fx( hOMasa->band_grouping, Foa_RealBuffer_fx, Foa_ImagBuffer_fx, num_freq_bands, intensity_real_fx, guard_bits ); intensity_real_e = sub( add( 62, guard_bits ), shl( q, 1 ) ); - computeDirectionVectors_fixed( intensity_real_fx[0], intensity_real_fx[1], intensity_real_fx[2], 0, num_freq_bands, direction_vector_fx[0], direction_vector_fx[1], direction_vector_fx[2], intensity_real_e -#ifdef NONBE_IMPROVE_DIRAC_INTENSITY_PREC - , - NULL -#endif - ); + computeDirectionVectors_fixed( intensity_real_fx[0], intensity_real_fx[1], intensity_real_fx[2], 0, num_freq_bands, direction_vector_fx[0], direction_vector_fx[1], direction_vector_fx[2], intensity_real_e, + NULL ); /* Power estimation for diffuseness */ diff --git a/lib_enc/ivas_osba_enc.c b/lib_enc/ivas_osba_enc_fx.c similarity index 94% rename from lib_enc/ivas_osba_enc.c rename to lib_enc/ivas_osba_enc_fx.c index ab8252854b01445839a2f18a168c21df3151ff67..dbff29d68514b1e32c846e9963c1c03c3386dc38 100644 --- a/lib_enc/ivas_osba_enc.c +++ b/lib_enc/ivas_osba_enc_fx.c @@ -35,13 +35,11 @@ #include #include #include "ivas_cnst.h" -#include "ivas_prot.h" -#include "prot.h" +#include "prot_fx.h" #include "ivas_rom_com.h" #include "ivas_rom_enc.h" #include "wmc_auto.h" #include "ivas_prot_fx.h" -#include "prot_fx.h" /*------------------------------------------------------------------------- @@ -79,11 +77,7 @@ static void ivas_merge_sba_transports_fx( { FOR( j = 0; j < input_frame; j++ ) { -#ifdef NONE_BE_FIX_BASOP_1044_OSBA_PRERENDER_MIX_GAINS data_out_f[i][j] = L_shr( L_add( L_shr( data_in_f1[i][j], 1 ), L_shr( data_in_f2[i][j], sub( Q_f2, sub( Q_f1, 1 ) ) ) ), Q1 ); -#else - data_out_f[i][j] = L_add( L_shr( data_in_f1[i][j], 1 ), L_shr( data_in_f2[i][j], sub( Q_f2, sub( Q_f1, 1 ) ) ) ); -#endif move32(); } } @@ -114,7 +108,7 @@ ivas_error ivas_osba_enc_open_fx( { set_val_Word32( hOSba->prev_object_dm_gains_fx[i], INV_SQRT_2_Q30, MAX_INPUT_CHANNELS ); } - len = NS2SA( st_ivas->hEncoderConfig->input_Fs, IVAS_FB_ENC_DELAY_NS ); + len = NS2SA_FX2( st_ivas->hEncoderConfig->input_Fs, IVAS_FB_ENC_DELAY_NS ); move16(); FOR( i = 0; i < st_ivas->hEncoderConfig->nchan_ism; i++ ) { @@ -301,7 +295,7 @@ ivas_error ivas_osba_enc_reconfig( } } - ivas_spar_config_fx( ivas_total_brate, min( st_ivas->sba_analysis_order, IVAS_MAX_SBA_ORDER ), &st_ivas->nchan_transport, &st_ivas->nSCE, &st_ivas->nCPE, &st_ivas->hSpar->core_nominal_brate, -1 ); + ivas_spar_config_fx( ivas_total_brate, s_min( st_ivas->sba_analysis_order, IVAS_MAX_SBA_ORDER ), &st_ivas->nchan_transport, &st_ivas->nSCE, &st_ivas->nCPE, &st_ivas->hSpar->core_nominal_brate, -1 ); hSpar = st_ivas->hSpar; @@ -421,7 +415,7 @@ void ivas_osba_enc_fx( Word16 Q_out = *q_data; move16(); Word16 n, delay_s; - delay_s = NS2SA( input_Fs, IVAS_FB_ENC_DELAY_NS ); + delay_s = NS2SA_FX2( input_Fs, IVAS_FB_ENC_DELAY_NS ); IF( ism_mode == ISM_MODE_NONE ) { /*keep the delay buffer up to date*/ @@ -448,7 +442,7 @@ void ivas_osba_enc_fx( /* delay ISM input channels to match the SBA encoder delay */ FOR( n = 0; n < nchan_ism; n++ ) { - delay_signal_fx( data_in_fx[n], input_frame, hOSba->input_data_mem_fx[n], delay_s ); + delay_signal32_fx( data_in_fx[n], input_frame, hOSba->input_data_mem_fx[n], delay_s ); azimuth_fx = extract_l( L_shr( L_add( hIsmMeta[n]->azimuth_fx, 2097152 /*0.5.Q22*/ ), Q22 ) ); // Q0 elevation_fx = extract_l( L_shr( L_add( hIsmMeta[n]->elevation_fx, 2097152 /*0.5.Q22*/ ), Q22 ) ); // Q0 @@ -481,9 +475,6 @@ static void ivas_osba_render_ism_to_sba_fx( Word16 azimuth_fx, elevation_fx; Word32 gains_fx[MAX_INPUT_CHANNELS]; Word32 g1_fx, g2_fx; -#ifndef NONE_BE_FIX_BASOP_1044_OSBA_PRERENDER_MIX_GAINS - Word32 output_gain_fx; -#endif Word16 nchan_sba; nchan_sba = imult1616( add( sba_analysis_order, 1 ), add( sba_analysis_order, 1 ) ); @@ -526,21 +517,6 @@ static void ivas_osba_render_ism_to_sba_fx( } *Q_data = sub( *Q_data, 2 ); -#ifndef NONE_BE_FIX_BASOP_1044_OSBA_PRERENDER_MIX_GAINS - /* Gain with loudness-matching gains */ - // output_gain = 0.7499f; - output_gain_fx = 1610397988; // 0.7499f in Q31 - move32(); - FOR( j = 0; j < nchan_sba; j++ ) - { - FOR( k = 0; k < input_frame; k++ ) - { - // data_out_f[j][k] *= output_gain; - data_out_fx[j][k] = Mpy_32_32( data_out_fx[j][k], output_gain_fx ); - move32(); - } - } -#endif return; } diff --git a/lib_enc/ivas_pca_enc.c b/lib_enc/ivas_pca_enc_fx.c similarity index 99% rename from lib_enc/ivas_pca_enc.c rename to lib_enc/ivas_pca_enc_fx.c index 8b61cb6c8f5529c9f5a9fe6c67b3e6d767a6da48..2cb347a026794ad3e32d70cad242c81d02731e86 100644 --- a/lib_enc/ivas_pca_enc.c +++ b/lib_enc/ivas_pca_enc_fx.c @@ -32,14 +32,12 @@ #include #include "options.h" -#include "prot.h" -#include "ivas_prot.h" +#include "prot_fx.h" #include "ivas_cnst.h" #include #include #include "wmc_auto.h" -#include "prot_fx.h" #include "ivas_prot_fx.h" diff --git a/lib_enc/ivas_qmetadata_enc.c b/lib_enc/ivas_qmetadata_enc_fx.c similarity index 99% rename from lib_enc/ivas_qmetadata_enc.c rename to lib_enc/ivas_qmetadata_enc_fx.c index 3f0218e97acd16b0cfae719e80c7b63f73310752..10380f422357db94d0dd102c7e8b2dfc80a8faae 100644 --- a/lib_enc/ivas_qmetadata_enc.c +++ b/lib_enc/ivas_qmetadata_enc_fx.c @@ -35,15 +35,12 @@ #include "options.h" #include #include "ivas_cnst.h" -#include "prot.h" -#include "ivas_prot.h" +#include "prot_fx.h" #include "ivas_prot_fx.h" #include "ivas_rom_com.h" #include "ivas_stat_enc.h" #include "wmc_auto.h" -#include "prot.h" -#include "prot_fx.h" #include "basop_util.h" #include "ivas_rom_com_fx.h" @@ -162,7 +159,7 @@ static Word16 encode_coherence_indexesDCT1_fx( BSTR_ENC_HANDLE hMetaData /* i : metadata handle */ ); -static UWord64 create_combined_index_fx( uint16_t *idx_dct, const Word16 len, const Word16 *no_cb_vec ); +static UWord64 create_combined_index_fx( UWord16 *idx_dct, const Word16 len, const Word16 *no_cb_vec ); static Word16 encode_surround_coherence_fx( IVAS_QMETADATA *hQMetaData, /* i : quantized metadata */ @@ -186,7 +183,7 @@ static void ivas_diffuseness_huff_ec_prepare_fx( UWord16 *avr_idx, Word16 *diffuseness_bits_huff ); -static Word16 coherence_coding_length( const uint16_t *idx_sur_coh_shift, const UWord8 idx_shift_len, const Word16 coding_subbands, const Word16 *no_cv, uint16_t *mr_idx, Word16 *no_cv_shift, Word16 *p_min_idx, Word16 *GR_ord, Word16 *nbits_fr, Word16 *nbits_fr1 ); +static Word16 coherence_coding_length( const UWord16 *idx_sur_coh_shift, const UWord8 idx_shift_len, const Word16 coding_subbands, const Word16 *no_cv, UWord16 *mr_idx, Word16 *no_cv_shift, Word16 *p_min_idx, Word16 *GR_ord, Word16 *nbits_fr, Word16 *nbits_fr1 ); static Word16 write_2dir_info( BSTR_ENC_HANDLE hMetaData, UWord8 *twoDirBands, const Word16 n, const Word16 k ); @@ -1212,7 +1209,7 @@ void reset_metadata_spatial_fx( ELSE { /*Reset metadata*/ - reset_indices_enc( hMetaData, hMetaData->nb_ind_tot ); + reset_indices_enc_fx( hMetaData, hMetaData->nb_ind_tot ); } *total_brate = element_brate; @@ -2328,7 +2325,7 @@ static Word16 ivas_qmetadata_entropy_encode_dir_fx( move16(); UWord16 dist_elevation_indexes_best[MAX_PARAM_SPATIAL_SUBFRAMES * MASA_MAXIMUM_CODING_SUBBANDS]; Word16 gr_param_azimuth_best, avg_azimuth_index_best; - uint16_t dist_azimuth_indexes_best[MAX_PARAM_SPATIAL_SUBFRAMES * MASA_MAXIMUM_CODING_SUBBANDS]; + UWord16 dist_azimuth_indexes_best[MAX_PARAM_SPATIAL_SUBFRAMES * MASA_MAXIMUM_CODING_SUBBANDS]; UWord16 idx, dist_count; Word16 direction_bits_ec; @@ -2503,11 +2500,7 @@ static Word16 ivas_qmetadata_entropy_encode_dir_fx( } ELSE { -#ifdef FIX_USAN_ISSUES avg_elevation_index = (UWord16) L_add( avg_elevation_index_initial, ivas_qmetadata_dereorder_generic_fx( avg_elevation_offset ) ); -#else - avg_elevation_index = u_extract_l( UL_addNsD( avg_elevation_index_initial, ivas_qmetadata_dereorder_generic_fx( avg_elevation_offset ) ) ); -#endif } // avg_elevation_index = (uint16_t) ( ( avg_elevation_index + avg_elevation_alphabet ) % avg_elevation_alphabet ); avg_elevation_index = u_extract_l( UL_addNsD( avg_elevation_index, avg_elevation_alphabet ) % avg_elevation_alphabet ); @@ -2642,13 +2635,8 @@ static Word16 ivas_qmetadata_entropy_encode_dir_fx( FOR( avg_azimuth_offset = 0; avg_azimuth_offset < q_direction->cfg.search_effort; avg_azimuth_offset++ ) { set_zero_fx( avg_direction_vector, 3 ); -#ifdef FIX_USAN_ISSUES avg_azimuth_index = (UWord16) L_add( avg_azimuth_index_initial, ivas_qmetadata_dereorder_generic_fx( avg_azimuth_offset ) ); avg_azimuth_index = (UWord16) ( L_add( avg_azimuth_index, avg_azimuth_alphabet ) % avg_azimuth_alphabet ); -#else - avg_azimuth_index = (UWord16) add( avg_azimuth_index_initial, ivas_qmetadata_dereorder_generic_fx( avg_azimuth_offset ) ); - avg_azimuth_index = (UWord16) ( add( avg_azimuth_index, avg_azimuth_alphabet ) % avg_azimuth_alphabet ); -#endif all_zero_dist_azimuth_indexes = 1; move16(); azimuth_bits_ec = ivas_qmetadata_encode_quasi_uniform_length_fx( ivas_qmetadata_reorder_generic_fx( sub( avg_azimuth_index, shr( avg_azimuth_alphabet, 1 ) ) ), avg_azimuth_alphabet ); @@ -4091,7 +4079,8 @@ static ivas_error requantize_direction_EC_3_fx( IF( LE_16( allowed_bits, add( no_subframes, 1 ) ) ) { - FOR( k = 0; k < min( no_subframes, allowed_bits ); k++ ) + Word16 len = s_min( no_subframes, allowed_bits ); + FOR( k = 0; k < len; k++ ) { push_next_indice( hMetaData, q_direction->band_data[j].azimuth_index[k], 1 ); } @@ -5454,11 +5443,7 @@ static Word16 encode_surround_coherence_hr_fx( } ELSE { -#ifdef FIX_USAN_ISSUES no_idx16 = add( shr( nbits_fr, 4 ), 1 ); -#else - no_idx16 = shr_r( nbits_fr, 4 ); -#endif } /* write combined index */ @@ -5480,11 +5465,7 @@ static Word16 encode_surround_coherence_hr_fx( } ELSE { -#ifdef FIX_USAN_ISSUES no_idx16 = add( shr( nbits_fr1, 4 ), 1 ); -#else - no_idx16 = shr_r( nbits_fr1, 4 ); -#endif } assert( no_idx16 <= 4 ); diff --git a/lib_enc/ivas_qspherical_enc.c b/lib_enc/ivas_qspherical_enc_fx.c similarity index 99% rename from lib_enc/ivas_qspherical_enc.c rename to lib_enc/ivas_qspherical_enc_fx.c index eb60d4849278144fb3c867e65d38e6b0895573cf..2e7a289f9d38d51dbe634700f0ff7dd66ee23b17 100644 --- a/lib_enc/ivas_qspherical_enc.c +++ b/lib_enc/ivas_qspherical_enc_fx.c @@ -35,11 +35,9 @@ #include "options.h" #include #include "ivas_cnst.h" -#include "ivas_prot.h" #include "ivas_rom_com.h" #include "ivas_stat_enc.h" #include "wmc_auto.h" -#include "prot.h" #include "prot_fx.h" #include "ivas_prot_fx.h" #include "ivas_rom_com_fx.h" diff --git a/lib_enc/ivas_range_uni_enc.c b/lib_enc/ivas_range_uni_enc_fx.c similarity index 99% rename from lib_enc/ivas_range_uni_enc.c rename to lib_enc/ivas_range_uni_enc_fx.c index 35ecad69c26cb343870c227c99162f47b55a1ec5..6c322a3d953bfa19abc3df4d0196203117d76867 100644 --- a/lib_enc/ivas_range_uni_enc.c +++ b/lib_enc/ivas_range_uni_enc_fx.c @@ -31,7 +31,6 @@ *******************************************************************************************************/ #include -#include "ivas_prot.h" #include "ivas_prot_fx.h" #include "ivas_cnst.h" #include "ivas_stat_enc.h" @@ -39,7 +38,7 @@ #include "rom_com.h" #include #include "options.h" -#include "prot.h" +#include "prot_fx.h" #include "wmc_auto.h" diff --git a/lib_enc/ivas_sba_enc.c b/lib_enc/ivas_sba_enc_fx.c similarity index 97% rename from lib_enc/ivas_sba_enc.c rename to lib_enc/ivas_sba_enc_fx.c index b247900a0c4dd932aadf498f9f3b1e0dd9a3c372..e630a70d954f4e5764dba5b446df8b125884a346 100644 --- a/lib_enc/ivas_sba_enc.c +++ b/lib_enc/ivas_sba_enc_fx.c @@ -37,13 +37,11 @@ #include "cnst.h" #include "ivas_cnst.h" #include "rom_com.h" -#include "prot.h" +#include "prot_fx.h" #include "ivas_prot_fx.h" -#include "ivas_prot.h" #include "ivas_rom_com.h" #include "wmc_auto.h" #include "ivas_prot_fx.h" -#include "prot_fx.h" /*-------------------------------------------------------------------* @@ -200,7 +198,7 @@ ivas_error ivas_sba_enc_reconfigure_fx( } } - ivas_spar_config_fx( ivas_total_brate, min( st_ivas->sba_analysis_order, IVAS_MAX_SBA_ORDER ), &st_ivas->nchan_transport, &st_ivas->nSCE, &st_ivas->nCPE, &st_ivas->hSpar->core_nominal_brate, -1 ); + ivas_spar_config_fx( ivas_total_brate, s_min( st_ivas->sba_analysis_order, IVAS_MAX_SBA_ORDER ), &st_ivas->nchan_transport, &st_ivas->nSCE, &st_ivas->nCPE, &st_ivas->hSpar->core_nominal_brate, -1 ); hSpar = st_ivas->hSpar; diff --git a/lib_enc/ivas_sce_enc.c b/lib_enc/ivas_sce_enc_fx.c similarity index 94% rename from lib_enc/ivas_sce_enc.c rename to lib_enc/ivas_sce_enc_fx.c index 9f63c4fc7c93aa3559700bbf5c9e30c757411e68..a578a3cfaeacc1fa9b70066613cf8549931cf6e8 100644 --- a/lib_enc/ivas_sce_enc.c +++ b/lib_enc/ivas_sce_enc_fx.c @@ -36,10 +36,8 @@ #include "cnst.h" #include "ivas_cnst.h" #include "rom_com.h" -#include "prot.h" #include "prot_fx.h" #include "prot_fx_enc.h" -#include "ivas_prot.h" #include "ivas_rom_com.h" #ifdef DEBUGGING #include "debug.h" @@ -80,7 +78,7 @@ ivas_error ivas_sce_enc_fx( Word16 pitch_fr_fx[1][NB_SUBFR]; /* fractional pitch values */ Word16 voicing_fr_fx[1][NB_SUBFR]; /* fractional pitch gains */ Word16 relE_fx[1]; /* frame relative energy Q8 */ - Word16 currFlatness_fx[1]; /* flatness parameter Q7 */ + Word32 currFlatness_fx[1]; /* flatness parameter Q7 */ Word16 Etot_LR_fx[1]; /* total energy Q8 */ Word32 realBuffer_fx[1][CLDFB_NO_COL_MAX][CLDFB_NO_CHANNELS_MAX]; /* real buffer */ Word32 imagBuffer_fx[1][CLDFB_NO_COL_MAX][CLDFB_NO_CHANNELS_MAX]; /* imag buffer */ @@ -122,14 +120,16 @@ ivas_error ivas_sce_enc_fx( * Initialization - general *-----------------------------------------------------------------*/ -#ifdef MSAN_FIX set16_zero_fx( old_inp_12k8_fx[0], L_INP_12k8 ); -#endif - Copy32( data_fx, st->input32_fx, input_frame ); // Q(q_data_fx) - q_input = sub( add( L_norm_arr( st->input32_fx, input_frame ), q_data_fx ), 16 ); + Word16 Q_min = s_min( q_data_fx, add( st->q_inp32, L_norm_arr( st->input32_fx - input_frame, input_frame ) ) ); + scale_sig32( st->input32_fx - input_frame, input_frame, sub( Q_min, st->q_inp32 ) ); + Copy_Scale_sig32( data_fx, st->input32_fx, input_frame, sub( Q_min, q_data_fx ) ); // Q(Q_min) + st->q_inp32 = Q_min; + move16(); + q_input = sub( add( L_norm_arr( st->input32_fx, input_frame ), Q_min ), 16 ); - Copy_Scale_sig32_16( st->input32_fx, st->input_fx, input_frame, sub( add( Q16, q_input ), q_data_fx ) ); // Q(q_data_fx) -> Q(q_input) + Copy_Scale_sig32_16( st->input32_fx, st->input_fx, input_frame, sub( add( Q16, q_input ), Q_min ) ); // Q(Q_min) -> Q(q_input) st->q_inp = q_input; move16(); @@ -182,8 +182,8 @@ ivas_error ivas_sce_enc_fx( RunTransientDetection_ivas_fx( st->input_fx, input_frame, st->hTranDet, q_input ); } - currFlatness_fx[0] = GetTCXAvgTemporalFlatnessMeasure_ivas_fx( (const TransientDetection *) st->hTranDet, NSUBBLOCKS, 0 ); // Q7 - move16(); + currFlatness_fx[0] = GetTCXAvgTemporalFlatnessMeasure_ivas_fx( (const TransientDetection *) st->hTranDet, NSUBBLOCKS, 0 ); // Q21 + move32(); /*----------------------------------------------------------------* * Configuration of core encoder @@ -255,11 +255,7 @@ ivas_error ivas_sce_enc_fx( &ener_fx[0], &relE_fx[0], A_fx[0], Aw_fx[0], epsP_fx[0], &epsP_fx_q[0], lsp_new_fx[0], lsp_mid_fx[0], &vad_hover_flag[0], &attack_flag[0], realBuffer_fx[0], imagBuffer_fx[0], &q_re_im_buf, old_wsp_fx[0], &q_old_wsp, pitch_fr_fx[0], voicing_fr_fx[0], &loc_harm[0], &cor_map_sum_fx[0], &vad_flag_dtx[0], enerBuffer_fx[0], &enerBuffer_fx_exp[0], fft_buff_fx[0], &fft_buff_fx_q[0], A_fx[0], lsp_new_fx[0], currFlatness_fx[0], 0, fr_bands_fx, q_fr_bands, Etot_LR_fx, lf_E_fx, 31, localVAD_HE_SAD, NULL, 31, flag_16k_smc, -#ifdef NONBE_1211_DTX_BR_SWITCHING st_ivas->hSpar != NULL ? st_ivas->hSpar->front_vad_flag : 0, st_ivas->hSpar != NULL ? st_ivas->hSpar->force_front_vad : 0, st_ivas->hSpar != NULL ? st_ivas->hSpar->front_vad_dtx_flag : 0, ivas_format, 0, st_ivas->hEncoderConfig->last_ivas_total_brate, st_ivas->hEncoderConfig->ivas_total_brate, &Q_new[0] -#else - st_ivas->hSpar != NULL ? st_ivas->hSpar->front_vad_flag : 0, st_ivas->hSpar != NULL ? st_ivas->hSpar->force_front_vad : 0, st_ivas->hSpar != NULL ? st_ivas->hSpar->front_vad_dtx_flag : 0, ivas_format, 0, st_ivas->hEncoderConfig->ivas_total_brate, &Q_new[0] -#endif #ifdef DEBUG_MODE_INFO , st->id_element @@ -370,6 +366,7 @@ ivas_error ivas_sce_enc_fx( Copy( st->input_fx, st->old_input_signal_fx, input_frame ); st->q_old_inp = st->q_inp; move16(); + Copy32( st->input32_fx, st->input32_fx - input_frame, input_frame ); /* st->q_inp32 */ hSCE->last_element_brate = hSCE->element_brate; move32(); @@ -469,6 +466,9 @@ ivas_error create_sce_enc_fx( st->mct_chan_mode = MCT_CHAN_MODE_REGULAR; move32(); move32(); + st->max_bwidth = st_ivas->hEncoderConfig->max_bwidth; + st->input_Fs = st_ivas->hEncoderConfig->input_Fs; + st->input_frame_fx = extract_l( Mult_32_16( st->input_Fs, 0x0290 ) ); IF( NE_32( ( error = init_encoder_ivas_fx( st, st_ivas, 0, st_ivas->hEncoderConfig->var_SID_rate_flag, st_ivas->hEncoderConfig->interval_SID, 0, st_ivas->ism_mode, hSCE->element_brate ) ), IVAS_ERR_OK ) ) { @@ -486,7 +486,7 @@ ivas_error create_sce_enc_fx( * * Create, allocate and initialize EVS encoder SCE handle *-------------------------------------------------------------------------*/ - +#ifndef HARM_SCE_INIT ivas_error create_evs_sce_enc_fx( Encoder_Struct *st_ivas, /* i/o: IVAS encoder structure */ const Word16 sce_id, /* i : SCE # identifier */ @@ -608,16 +608,33 @@ ivas_error create_evs_sce_enc_fx( { return error; } +#ifdef HARM_PUSH_BIT + /*-----------------------------------------------------------------* + * Bitstream + *-----------------------------------------------------------------*/ + + /* set pointer to the buffer of indices */ + st_fx->hBstr->ind_list = st_ivas->ind_list; + st_fx->hBstr->ivas_ind_list_zero = &st_ivas->ind_list; + st_fx->hBstr->ivas_max_num_indices = &st_ivas->ivas_max_num_indices; + st_fx->hBstr->nb_ind_tot = 0; + move16(); + st_fx->hBstr->nb_bits_tot = 0; + move16(); + st_fx->hBstr->st_ivas = st_ivas; +#else st_fx->hBstr->ind_list = ind_list; // st_fx->hBstr->ind_list_fx = st->hBstr->ind_list; - reset_indices_enc_fx( st_fx->hBstr ); + reset_indices_enc_fx( st_fx->hBstr, MAX_NUM_INDICES ); +#endif + hSCE->hCoreCoder[0] = st_fx; st_ivas->hSCE[sce_id] = hSCE; return error; } - +#endif /*------------------------------------------------------------------------- * destroy_sce_enc_fx() * diff --git a/lib_enc/ivas_sns_enc.c b/lib_enc/ivas_sns_enc_fx.c similarity index 74% rename from lib_enc/ivas_sns_enc.c rename to lib_enc/ivas_sns_enc_fx.c index 8f93c4d766bbfcaad23888fee95a081cc6ade0de..b7de878a12a6e567f1b868deb3d55472a407d51f 100644 --- a/lib_enc/ivas_sns_enc.c +++ b/lib_enc/ivas_sns_enc_fx.c @@ -35,10 +35,8 @@ #include "options.h" #include #include "cnst.h" -#include "prot.h" -#include "ivas_prot.h" -#include "ivas_prot_fx.h" #include "prot_fx.h" +#include "ivas_prot_fx.h" #include "rom_com.h" #include "ivas_rom_com.h" #include "ivas_rom_com_fx.h" @@ -61,115 +59,215 @@ static Word16 sns_1st_cod_fx( Word32 *snsq_fx /* o : quantized sns Q16 */ ) { - Word16 index; - const Word16 split_len = M / 2; - move16(); - const Word16 *means; - const Word16 means_fix = 2; // Q15 - move16(); - /* remove means */ - means = NULL; - SWITCH( L_frame ) - { - case L_FRAME16k: - means = &sns_1st_means_16k[core - 1][0]; - break; - case L_FRAME25_6k: - means = &sns_1st_means_25k6[core - 1][0]; - break; - case L_FRAME32k: - means = &sns_1st_means_32k[core - 1][0]; - break; - default: - assert( !"illegal frame length in sns_1st_cod" ); - } - Word16 exp_snsq_buffer[M] = { 0 }, exp_snsq = 0; - move16(); - move16(); - FOR( Word16 i = 0; i < M; ++i ) + IF( exp_sns == Q15 ) { - Word32 tmp = L_mult( means[i], means_fix ); // Q16 - exp_snsq_buffer[i] = 0; + Word16 index; + const Word16 split_len = M / 2; move16(); - snsq_fx[i] = BASOP_Util_Add_Mant32Exp( sns_fx[i], exp_sns, L_negate( tmp ), 15, &exp_snsq_buffer[i] ); - move32(); - } - FOR( int i = 0; i < M; i++ ) - { - exp_snsq = s_max( exp_snsq_buffer[i], exp_snsq ); - } - FOR( int i = 0; i < M; i++ ) - { - snsq_fx[i] = L_shr( snsq_fx[i], exp_snsq - exp_snsq_buffer[i] ); - move32(); - } + const Word16 *means; + const Word16 means_fix = 2; // Q15 + move16(); + /* remove means */ + means = NULL; + SWITCH( L_frame ) + { + case L_FRAME16k: + means = &sns_1st_means_16k[core - 1][0]; // Q14 + break; + case L_FRAME25_6k: + means = &sns_1st_means_25k6[core - 1][0]; // Q14 + break; + case L_FRAME32k: + means = &sns_1st_means_32k[core - 1][0]; // Q14 + break; + default: + assert( !"illegal frame length in sns_1st_cod" ); + } + FOR( Word16 i = 0; i < M; ++i ) + { + Word32 tmp = L_mult( means[i], means_fix ); // Q14->Q16 + snsq_fx[i] = L_sub( sns_fx[i], tmp ); // Q16 + move32(); + } - index = 0; - move16(); - FOR( Word16 split = 0; split < 2; ++split ) - { - const Word16 *cdbk_ptr; - Word16 j0, j1, index_split; - Word32 dist_min_fx; - const Word16 cdbk_fix = 8; // 1.f / powf( 2, SNS_CDBKS_BITS_4_FRAC ) in Q15 + index = 0; move16(); - const Word16 *const cdbk = &sns_1st_cdbk[split][core - 1][0]; + FOR( Word16 split = 0; split < 2; ++split ) + { + const Word16 *cdbk_ptr; + Word16 j0, j1; + Word16 index_split; + Word32 dist_min_fx; + const Word16 cdbk_fix = 8; // 1.f / powf( 2, SNS_CDBKS_BITS_4_FRAC ) in Q15 + move16(); + const Word16 *const cdbk = &sns_1st_cdbk[split][core - 1][0]; // Q12 - j0 = imult1616( split, split_len ); - j1 = add( j0, split_len ); + j0 = imult1616( split, split_len ); + j1 = add( j0, split_len ); - cdbk_ptr = cdbk; - dist_min_fx = MAXVAL_WORD32; - Word16 exp_dist_min = 31; - index_split = 0; - FOR( Word16 i = 0; i < 32; ++i ) - { - Word32 dist_fx = 0; + cdbk_ptr = cdbk; + dist_min_fx = MAXVAL_WORD32; + index_split = 0; move32(); - Word16 exp_dist = 0; move16(); - FOR( Word16 j = j0; j < j1; ++j ) + FOR( Word16 i = 0; i < 32; ++i ) { - Word32 tmp_fx; - Word16 exp_tmp = 0; - move16(); - Word32 tmp_1 = L_mult( ( *cdbk_ptr++ ), cdbk_fix ); // Q16 - tmp_fx = BASOP_Util_Add_Mant32Exp( snsq_fx[j], exp_snsq, L_negate( tmp_1 ), 15, &exp_tmp ); - Word32 tmp_2 = Mpy_32_32( tmp_fx, tmp_fx ); // exp_tmp*2 - dist_fx = BASOP_Util_Add_Mant32Exp( dist_fx, exp_dist, tmp_2, exp_tmp * 2, &exp_dist ); // exp_tmp*2 + Word32 dist_fx = 0; + move32(); + FOR( Word16 j = j0; j < j1; ++j ) // j1-j0=split_len. split_len=M/2. M=16 + { + Word32 tmp; + Word32 dist; + + tmp = L_mult( *cdbk_ptr++, cdbk_fix ); // Q12->Q16 + dist = L_sub( snsq_fx[j], tmp ); // Q16 + dist = L_shl( dist, 11 ); // cdbk_ptr is a 16 bit LUT with 3.12 values, used as 3.16. assumption: snsq_fx has the same representation. thus, the subtraction results are in 4.16, which leaves 11 bit headroom. + dist = Mpy_32_32( dist, dist ); + dist = L_shr( dist, 3 ); // make sure that the sum of 8 values does not overflow + dist_fx = L_add( dist_fx, dist ); + } + + IF( LT_32( dist_fx, dist_min_fx ) ) + { + dist_min_fx = dist_fx; + move32(); + index_split = i; + move16(); + } } - IF( EQ_16( BASOP_Util_Cmp_Mant32Exp( dist_fx, exp_dist, dist_min_fx, exp_dist_min ), -1 ) ) + /* set quantized vector */ + cdbk_ptr = &cdbk[imult1616( index_split, split_len )]; + FOR( Word16 j = j0; j < j1; ++j ) { - dist_min_fx = dist_fx; + Word32 tmp_3 = L_mult( means[j], means_fix ); // Q16 + Word32 tmp_4 = L_mult( *cdbk_ptr++, cdbk_fix ); // Q16 + snsq_fx[j] = L_add( tmp_4, tmp_3 ); // Q16 move32(); - exp_dist_min = exp_dist; - move16(); - index_split = i; - move16(); } - } - /* set quantized vector */ - cdbk_ptr = &cdbk[imult1616( index_split, split_len )]; - FOR( Word16 j = j0; j < j1; ++j ) + /* for second split shift by five bits to store both indices as one 10 bit value */ + if ( EQ_16( split, 1 ) ) + { + index_split = shl( index_split, 5 ); + } + + index = add( index, index_split ); + } + return index; + } + ELSE + { + Word16 index, i; + const Word16 split_len = M / 2; + move16(); + const Word16 *means; + const Word16 means_fix = 2; // Q15 + move16(); + /* remove means */ + means = NULL; + SWITCH( L_frame ) + { + case L_FRAME16k: + means = &sns_1st_means_16k[core - 1][0]; + break; + case L_FRAME25_6k: + means = &sns_1st_means_25k6[core - 1][0]; + break; + case L_FRAME32k: + means = &sns_1st_means_32k[core - 1][0]; + break; + default: + assert( !"illegal frame length in sns_1st_cod" ); + } + Word16 exp_snsq_buffer[M] = { 0 }, exp_snsq = 0; + move16(); + move16(); + FOR( i = 0; i < M; ++i ) { - Word32 tmp_3 = L_mult( means[j], means_fix ); // Q16 - Word32 tmp_4 = L_mult( ( *cdbk_ptr++ ), cdbk_fix ); // Q16 - snsq_fx[j] = L_add( tmp_4, tmp_3 ); // Q16 + Word32 tmp = L_mult( means[i], means_fix ); // Q16 + exp_snsq_buffer[i] = 0; + move16(); + snsq_fx[i] = BASOP_Util_Add_Mant32Exp( sns_fx[i], exp_sns, L_negate( tmp ), 15, &exp_snsq_buffer[i] ); + move32(); + } + FOR( i = 0; i < M; i++ ) + { + exp_snsq = s_max( exp_snsq_buffer[i], exp_snsq ); + } + FOR( i = 0; i < M; i++ ) + { + snsq_fx[i] = L_shr( snsq_fx[i], exp_snsq - exp_snsq_buffer[i] ); move32(); } - /* for second split shift by five bits to store both indices as one 10 bit value */ - IF( EQ_16( split, 1 ) ) + index = 0; + move16(); + FOR( Word16 split = 0; split < 2; ++split ) { - index_split = shl( index_split, 5 ); + const Word16 *cdbk_ptr; + Word16 j0, j1, index_split; + Word32 dist_min_fx; + const Word16 cdbk_fix = 8; // 1.f / powf( 2, SNS_CDBKS_BITS_4_FRAC ) in Q15 + move16(); + const Word16 *const cdbk = &sns_1st_cdbk[split][core - 1][0]; + + j0 = imult1616( split, split_len ); + j1 = add( j0, split_len ); + + cdbk_ptr = cdbk; + dist_min_fx = MAXVAL_WORD32; + Word16 exp_dist_min = 31; + index_split = 0; + FOR( i = 0; i < 32; ++i ) + { + Word32 dist_fx = 0; + move32(); + Word16 exp_dist = 0; + move16(); + FOR( Word16 j = j0; j < j1; ++j ) + { + Word32 tmp_fx; + Word16 exp_tmp = 0; + move16(); + Word32 tmp_1 = L_mult( ( *cdbk_ptr++ ), cdbk_fix ); // Q16 + tmp_fx = BASOP_Util_Add_Mant32Exp( snsq_fx[j], exp_snsq, L_negate( tmp_1 ), 15, &exp_tmp ); + Word32 tmp_2 = Mpy_32_32( tmp_fx, tmp_fx ); // exp_tmp*2 + dist_fx = BASOP_Util_Add_Mant32Exp( dist_fx, exp_dist, tmp_2, exp_tmp * 2, &exp_dist ); // exp_tmp*2 + } + + IF( EQ_16( BASOP_Util_Cmp_Mant32Exp( dist_fx, exp_dist, dist_min_fx, exp_dist_min ), -1 ) ) + { + dist_min_fx = dist_fx; + move32(); + exp_dist_min = exp_dist; + move16(); + index_split = i; + move16(); + } + } + + /* set quantized vector */ + cdbk_ptr = &cdbk[imult1616( index_split, split_len )]; + FOR( Word16 j = j0; j < j1; ++j ) + { + Word32 tmp_3 = L_mult( means[j], means_fix ); // Q16 + Word32 tmp_4 = L_mult( ( *cdbk_ptr++ ), cdbk_fix ); // Q16 + snsq_fx[j] = L_add( tmp_4, tmp_3 ); // Q16 + move32(); + } + + /* for second split shift by five bits to store both indices as one 10 bit value */ + IF( EQ_16( split, 1 ) ) + { + index_split = shl( index_split, 5 ); + } + + index = add( index, index_split ); } - index = add( index, index_split ); + return index; } - - return index; } /*------------------------------------------------------------------- @@ -682,7 +780,7 @@ Word16 quantize_sns_fx( IF( zero_side_flag[k] ) { set32_fx( snsQ_fx, 0, M ); - continue; + CONTINUE; } nStages = SNS_MSVQ_NSTAGES_SIDE; @@ -719,15 +817,10 @@ Word16 quantize_sns_fx( FOR( ch = 0; ch < CPE_CHANNELS; ch++ ) { -#ifdef MSAN_FIX FOR( k = 0; k < nSubframes; k++ ) { scale_sig32( snsQ_out_fx[ch][k], M, sub( sns_e_tmp[ch][k], sns_e ) ); // Q(31-sns_e_tmp[ch][k]) } -#else - scale_sig32( snsQ_out_fx[ch][0], M, sub( sns_e_tmp[ch][0], *sns_e ) ); - scale_sig32( snsQ_out_fx[ch][1], M, sub( sns_e_tmp[ch][1], *sns_e ) ); -#endif } /* get back to L/F representation */ test(); diff --git a/lib_enc/ivas_spar_encoder.c b/lib_enc/ivas_spar_encoder_fx.c similarity index 99% rename from lib_enc/ivas_spar_encoder.c rename to lib_enc/ivas_spar_encoder_fx.c index a0c5be84208a1a7e9b28efaba07a3c62c60b6ffb..3b380f2ebacda088f27ceaa010823af2bd6199b3 100644 --- a/lib_enc/ivas_spar_encoder.c +++ b/lib_enc/ivas_spar_encoder_fx.c @@ -33,12 +33,10 @@ #include #include #include "options.h" -#include "ivas_prot.h" #include "ivas_prot_fx.h" #include "prot_fx.h" #include "ivas_rom_com.h" #include "ivas_stat_com.h" -#include "prot.h" #include "math.h" #include "wmc_auto.h" #include "prot_fx_enc.h" diff --git a/lib_enc/ivas_spar_md_enc.c b/lib_enc/ivas_spar_md_enc_fx.c similarity index 97% rename from lib_enc/ivas_spar_md_enc.c rename to lib_enc/ivas_spar_md_enc_fx.c index 8b23eca5f378023e2999eff145b0c8f809e64d61..63f1f344550d85dd552142c675b3b5c769fd4e0a 100644 --- a/lib_enc/ivas_spar_md_enc.c +++ b/lib_enc/ivas_spar_md_enc_fx.c @@ -33,16 +33,13 @@ #include #include #include "options.h" -#include "prot.h" #include "prot_fx.h" -#include "ivas_prot.h" #include "ivas_prot_fx.h" #include "math.h" #include "ivas_rom_com.h" #include "ivas_rom_com_fx.h" #include #include "wmc_auto.h" -#include "prot_fx.h" /*------------------------------------------------------------------------------------------* * PreProcessor @@ -489,6 +486,8 @@ ivas_error ivas_spar_md_enc_process_fx( Word16 max_num_indices_tmp; Word32 Wscale_fx[IVAS_MAX_NUM_BANDS]; Word16 q_Wscale[IVAS_MAX_NUM_BANDS]; + Word32 P_quant_re_prior[SPAR_DIRAC_SPLIT_START_BAND][FOA_CHANNELS - 1]; + Word16 Q_P_quant_re_prior[SPAR_DIRAC_SPLIT_START_BAND]; /*extra 16 bits for arithmetic coder as overshoot check is after a symbol is written*/ md_indices_allocated = add( hMdEnc->spar_md_cfg.max_bits_per_blk, IVAS_SPAR_ARITH_OVERSHOOT_BITS ); @@ -603,6 +602,7 @@ ivas_error ivas_spar_md_enc_process_fx( bands_bw = 1; move16(); } + test(); IF( hMdEnc->spar_hoa_md_flag && hMdEnc->spar_hoa_dirac2spar_md_flag ) { @@ -615,6 +615,16 @@ ivas_error ivas_spar_md_enc_process_fx( } } } + + IF( LT_32( hEncoderConfig->ivas_total_brate, IVAS_24k4 ) ) + { + FOR( b = 0; b < i_mult( num_bands, bands_bw ); b++ ) + { + Copy32( hMdEnc->spar_md.band_coeffs[b].P_quant_re_fx, P_quant_re_prior[b], sub( FOA_CHANNELS, 1 ) ); + Q_P_quant_re_prior[b] = hMdEnc->spar_md.band_coeffs[b].q_P_re_fx; + } + } + ivas_compute_spar_params_enc_fx( cov_real_fx, cov_real_q, dm_fv_re_fx, &q_dm_fv_re, 0, hMdEnc->mixer_mat_fx, &hMdEnc->q_mixer_mat_fx, 0, nB, dtx_vad, num_ch, bands_bw, active_w, active_w_vlbr, &hMdEnc->spar_md_cfg, &hMdEnc->spar_md, Wscale_fx, q_Wscale, 0, dyn_active_w_flag ); IF( dirac_mono_flag ) @@ -852,7 +862,7 @@ ivas_error ivas_spar_md_enc_process_fx( move16(); IF( NE_16( strat, NO_STRAT ) ) { - reset_indices_enc( &hMetaData_tmp, md_indices_allocated ); + reset_indices_enc_fx( &hMetaData_tmp, md_indices_allocated ); ivas_write_spar_md_bitstream_fx( hMdEnc, num_bands, bands_bw, &hMetaData_tmp, hEncoderConfig->ivas_total_brate, strat, qsi ); @@ -948,7 +958,21 @@ ivas_error ivas_spar_md_enc_process_fx( *q_prior_mixer = hMdEnc->q_mixer_mat_fx; move16(); } + /* Reuse mixer matrix values for unsent bands */ + IF( LT_32( hEncoderConfig->ivas_total_brate, IVAS_24k4 ) ) + { + FOR( k = num_bands - 1; k >= 0; k-- ) + { + FOR( b = bands_bw - 1; b >= 0; b-- ) + { + Copy32( hMdEnc->spar_md.band_coeffs[k].P_quant_re_fx, hMdEnc->spar_md.band_coeffs[add( i_mult( bands_bw, k ), b )].P_quant_re_fx, sub( FOA_CHANNELS, 1 ) ); + hMdEnc->spar_md.band_coeffs[add( i_mult( bands_bw, k ), b )].q_P_re_fx = hMdEnc->spar_md.band_coeffs[k].q_P_re_fx; + move16(); + } + } + } + test(); IF( ( LT_32( hEncoderConfig->ivas_total_brate, IVAS_24k4 ) ) && GT_16( code_strat, 3 ) ) { @@ -959,6 +983,7 @@ ivas_error ivas_spar_md_enc_process_fx( { b = add( b, 2 ); } + FOR( i = 0; i < 1; i++ ) { FOR( j = 0; j < 4; j++ ) @@ -969,6 +994,13 @@ ivas_error ivas_spar_md_enc_process_fx( move32(); } } + + Copy32( P_quant_re_prior[b], hMdEnc->spar_md.band_coeffs[b].P_quant_re_fx, sub( FOA_CHANNELS, 1 ) ); + Copy32( P_quant_re_prior[b + 1], hMdEnc->spar_md.band_coeffs[b + 1].P_quant_re_fx, sub( FOA_CHANNELS, 1 ) ); + hMdEnc->spar_md.band_coeffs[b].q_P_re_fx = Q_P_quant_re_prior[b]; + hMdEnc->spar_md.band_coeffs[b + 1].q_P_re_fx = Q_P_quant_re_prior[b + 1]; + move16(); + move16(); } } @@ -983,6 +1015,8 @@ ivas_error ivas_spar_md_enc_process_fx( return IVAS_ERR_OK; } + + /*-----------------------------------------------------------------------------------------* * Function ivas_band_mixer() * @@ -1667,7 +1701,7 @@ static void ivas_write_parameter_bitstream_dtx_fx( Word16 *num_dec, const Word16 num_bands ) { - int16_t i, j; + Word16 i, j; Word32 val; Word16 idx; Word32 pr_min_max[2]; diff --git a/lib_enc/ivas_stat_enc.h b/lib_enc/ivas_stat_enc.h index ac258cfc1b9a428df1bdb1466943095d24577d5d..a2247c7a4138f22d981ae9cfcce98e0287e65f88 100644 --- a/lib_enc/ivas_stat_enc.h +++ b/lib_enc/ivas_stat_enc.h @@ -66,7 +66,7 @@ typedef struct stereo_itd_data_struct Word16 prev_index; Word32 prev_avg_max_fx; Word16 prev_avg_max_fx_e; - Word16 currFlatness_fx; + Word32 currFlatness_fx; /* Xtalk classifier */ Word32 prev_m1_fx; // Q31 @@ -88,12 +88,8 @@ typedef struct stereo_itd_data_struct Word16 prev_sum_nrg_L_lb_fx_e; Word32 prev_xcorr_lb_fx[STEREO_DFT_XCORR_LB_MAX]; Word16 prev_xcorr_lb_fx_e; -#ifdef FIX_ISSUE_1092 Word32 E_band_n_fx[STEREO_DFT_ITD_VAD_BAND_NUM]; /*E_band_n_exp*/ Word16 E_band_n_exp[STEREO_DFT_ITD_VAD_BAND_NUM]; -#else - Word32 E_band_n_fx[STEREO_DFT_ITD_VAD_BAND_NUM]; /*Q0*/ -#endif Word32 xcorr_smooth_fx[STEREO_DFT_N_32k_ENC]; Word16 xcorr_smooth_fx_e[STEREO_DFT_N_32k_ENC]; Word32 lp_phat_peak_fx; /* low-pass GCC PHAT peak value */ // Q31 @@ -877,6 +873,7 @@ typedef struct ivas_omasa_enc_state_structure Word16 prev_selected_object; UWord8 changing_object; + Word16 since_obj_change_cnt; } OMASA_ENC_STATE, *OMASA_ENC_HANDLE; @@ -1183,7 +1180,7 @@ typedef struct stereo_dmx_evs_correlation_filter_structure { Word16 init_frmCntr; - Word16 isd_rate_s_fx; // Q15 + Word32 isd_rate_s_fx; // Q31 Word32 iccr_s_fx; // Q31 Word32 ipd_ff_fx[STEREO_DMX_EVS_NB_SUBBAND_MAX]; // Q31 Word32 Pr_fx[STEREO_DMX_EVS_NB_SUBBAND_MAX]; // Q31 @@ -1224,8 +1221,7 @@ typedef struct stereo_dmx_evs_enc_data_structure STEREO_DMX_EVS_POC_HANDLE hPOC; STEREO_DMX_EVS_PHA_HANDLE hPHA; - - Word32 itd_fx; // Q16 + Word16 itd_fx; // Q0 Word32 pre_dmx_energy_fx[1]; Word16 pre_dmx_energy_fx_e[1]; diff --git a/lib_enc/ivas_stereo_adapt_GR_enc.c b/lib_enc/ivas_stereo_adapt_GR_enc_fx.c similarity index 99% rename from lib_enc/ivas_stereo_adapt_GR_enc.c rename to lib_enc/ivas_stereo_adapt_GR_enc_fx.c index 62fed34f707f912a00b87575e4f4cb3691715ec9..8e79b228875469ea0b56b50d505f7e59771346eb 100644 --- a/lib_enc/ivas_stereo_adapt_GR_enc.c +++ b/lib_enc/ivas_stereo_adapt_GR_enc_fx.c @@ -33,8 +33,7 @@ #include #include "options.h" #include "cnst.h" -#include "ivas_prot.h" -#include "prot.h" +#include "prot_fx.h" #include "stat_enc.h" #include "wmc_auto.h" #include "ivas_rom_com.h" diff --git a/lib_enc/ivas_stereo_classifier.c b/lib_enc/ivas_stereo_classifier_fx.c similarity index 99% rename from lib_enc/ivas_stereo_classifier.c rename to lib_enc/ivas_stereo_classifier_fx.c index 0c90d5fdc3f77779550cb2f102ff4eb3ad45fd50..3e69a0ca660fbc73ad7cf1ca250e59d02d8a0997 100644 --- a/lib_enc/ivas_stereo_classifier.c +++ b/lib_enc/ivas_stereo_classifier_fx.c @@ -38,13 +38,11 @@ #endif #include "cnst.h" #include "rom_com.h" -#include "prot.h" -#include "ivas_prot.h" +#include "prot_fx.h" #include "ivas_rom_com.h" #include "ivas_rom_enc.h" #include "ivas_cnst.h" #include "wmc_auto.h" -#include "prot_fx.h" #include "ivas_prot_fx.h" /*-------------------------------------------------------------------* @@ -1699,11 +1697,7 @@ static void edge_detect_fx( } } -#ifndef FIX_1297_OVERFLOW - *edge_str = extract_l( L_shr( edge_min, 10 ) ); // Q15 -#else *edge_str = extract_h( L_shl_sat( edge_min, 16 - 10 ) ); // Q15 -#endif move16(); *edge_type = et; // Q0 move16(); diff --git a/lib_enc/ivas_stereo_cng_enc.c b/lib_enc/ivas_stereo_cng_enc_fx.c similarity index 99% rename from lib_enc/ivas_stereo_cng_enc.c rename to lib_enc/ivas_stereo_cng_enc_fx.c index 4727cd188eb9124b74d69ebe53498d928b81f210..aa7c2d0aa6d1211a5724d95e60d69deaacbfac59 100644 --- a/lib_enc/ivas_stereo_cng_enc.c +++ b/lib_enc/ivas_stereo_cng_enc_fx.c @@ -36,12 +36,10 @@ #include "cnst.h" #include "rom_enc.h" #include "rom_com.h" -#include "prot.h" -#include "ivas_prot.h" +#include "prot_fx.h" #include "ivas_cnst.h" #include "ivas_rom_com.h" #include "wmc_auto.h" -#include "prot_fx.h" #include "ivas_prot_fx.h" diff --git a/lib_enc/ivas_stereo_dft_enc.c b/lib_enc/ivas_stereo_dft_enc_fx.c similarity index 99% rename from lib_enc/ivas_stereo_dft_enc.c rename to lib_enc/ivas_stereo_dft_enc_fx.c index cf246368fa4f111ab3c0cf6bc7f34f34a4c4a9be..01318af28c5aca29760bd9db19eba5c4905e1055 100644 --- a/lib_enc/ivas_stereo_dft_enc.c +++ b/lib_enc/ivas_stereo_dft_enc_fx.c @@ -37,10 +37,8 @@ #include "cnst.h" #include "rom_enc.h" #include "rom_com.h" -#include "prot.h" -#include "ivas_prot.h" -#include "ivas_prot_fx.h" #include "prot_fx.h" +#include "ivas_prot_fx.h" #include "ivas_cnst.h" #include "ivas_rom_com.h" #include "ivas_rom_com_fx.h" @@ -595,10 +593,8 @@ void stereo_dft_enc_reset_fx( move16(); hStereoDft->dmx_res_all_prev_fx = 1; move32(); -#ifdef MSAN_FIX hStereoDft->dmx_res_all_prev_fx_e = 31; move16(); -#endif hStereoDft->last_res_cod_mode_modify_flag = 0; move16(); hStereoDft->res_cod_sw_flag = 0; @@ -752,9 +748,7 @@ void stereo_enc_itd_init_fx( hItd->prev_xcorr_lb_fx_e = 0; move16(); set32_fx( hItd->E_band_n_fx, ITD_VAD_E_BAND_N_INIT, STEREO_DFT_ITD_VAD_BAND_NUM ); -#ifdef FIX_ISSUE_1092 set16_fx( hItd->E_band_n_exp, Q31, STEREO_DFT_ITD_VAD_BAND_NUM ); -#endif hItd->vad_frm_cnt = 0; move16(); hItd->pre_vad = 0; @@ -1070,23 +1064,14 @@ void stereo_dft_enc_analyze_fx( Word16 q_shift, guarded_bits; guarded_bits = find_guarded_bits_fx( NFFT ); - q_shift = sub( getScaleFactor32( pDFT_L, NFFT ), guarded_bits ); - q_shift = s_min( q_shift, sub( getScaleFactor32( pDFT_R, NFFT ), guarded_bits ) ); - FOR( Word16 j = 0; j < NFFT; j++ ) - { - pDFT_L[j] = L_shl( pDFT_L[j], q_shift ); - move32(); - } + q_shift = sub( L_norm_arr( pDFT_L, NFFT ), guarded_bits ); + scale_sig32( pDFT_L, NFFT, q_shift ); DFT_e[0] = sub( DFT_e[0], q_shift ); move16(); - FOR( Word16 j = 0; j < NFFT; j++ ) - { - pDFT_R[j] = L_shl( pDFT_R[j], q_shift ); - move32(); - } - + q_shift = sub( L_norm_arr( pDFT_R, NFFT ), guarded_bits ); + scale_sig32( pDFT_R, NFFT, q_shift ); DFT_e[1] = sub( DFT_e[1], q_shift ); move16(); @@ -1104,11 +1089,7 @@ void stereo_dft_enc_analyze_fx( { FOR( n = 0; n < n_channels; n++ ) { -#ifdef MSAN_FIX Scale_sig( hStereoDft->input_mem_itd_fx[n], dft_ovl, sub( sts[n]->q_inp, hStereoDft->q_input_mem_itd[n] ) ); // Q(sts[n]->q_inp) -#else - Scale_sig( hStereoDft->input_mem_itd_fx[n], STEREO_DFT_OVL_MAX, sts[n]->q_inp - hStereoDft->q_input_mem_itd[n] ); -#endif // MSAN_FIX hStereoDft->q_input_mem_itd[n] = sts[n]->q_inp; move16(); Copy( hStereoDft->input_mem_itd_fx[n], input_mem[n], dft_ovl ); @@ -1659,11 +1640,7 @@ void stereo_dft_enc_process_fx( pDFT_L_fx = hStereoDft->DFT_fx[0]; pDFT_R_fx = hStereoDft->DFT_fx[1]; -#ifdef MSAN_FIX FOR( i = 0; i < hStereoDft->NFFT; i++ ) -#else - FOR( i = 0; i < STEREO_DFT_N_MAX_ENC; i++ ) -#endif // MSAN_FIX { tmp_e = norm_l( hStereoDft->DFT_fx[0][i] ); pDFT_L_fx[i] = L_shl( hStereoDft->DFT_fx[0][i], tmp_e ); @@ -2700,7 +2677,7 @@ static void stereo_dft_enc_get_res_cod_mode_flag_fx( void stereo_dft_enc_res_fx( STEREO_DFT_ENC_DATA_HANDLE hStereoDft, /* i/o: encoder stereo handle */ - const Word32 *input_8k, /* i : input buffer sampled at 8kHz Q16 */ + const Word32 *input_8k, /* i : input buffer sampled at 8kHz Q15 */ BSTR_ENC_HANDLE hBstr, /* i/o: bitstream handle */ Word16 *nb_bits, /* o : number of bits written */ const Word16 max_bits ) @@ -2745,7 +2722,7 @@ void stereo_dft_enc_res_fx( /* MDCT analysis */ // TCX_MDCT_flt( win, MDCT_RES, STEREO_DFT_OVL_8k, L_FRAME8k - STEREO_DFT_OVL_8k, STEREO_DFT_OVL_8k, IVAS_CPE_DFT ); - MDCT_RES_e = 16; + MDCT_RES_e = 17; move16(); TCX_MDCT( win, MDCT_RES, &MDCT_RES_e, STEREO_DFT_OVL_8k, L_FRAME8k - STEREO_DFT_OVL_8k, STEREO_DFT_OVL_8k, IVAS_CPE_DFT ); @@ -3303,8 +3280,8 @@ static void stereo_dft_enc_compute_prm_fx( Word32 *dot_prod_nrg_ratio_fx, // Q(31-dot_prod_nrg_ratio_fx_e[]) Word16 *dot_prod_nrg_ratio_fx_e ) { - int16_t b, i; - int16_t b2; + Word16 b, i; + Word16 b2; Word32 *pDFT_L, *pDFT_R; // Word16 DFT_L_e, DFT_R_e; Word32 sum_nrg_L, sum_nrg_R; @@ -3353,7 +3330,7 @@ static void stereo_dft_enc_compute_prm_fx( Word16 sum_past_dot_prod_abs_e, sum_past_dot_prod_abs2_e = 0; Word32 sum_past_nrg_dmx; Word16 sum_past_nrg_dmx_e; - int16_t pos; + Word16 pos; Word32 pIpd[STEREO_DFT_BAND_MAX]; // Q13 Word32 ipd_smooth[STEREO_DFT_BAND_MAX]; // Q13 Word32 ipd_mean_change; // Q13 diff --git a/lib_enc/ivas_stereo_dft_enc_itd.c b/lib_enc/ivas_stereo_dft_enc_itd_fx.c similarity index 98% rename from lib_enc/ivas_stereo_dft_enc_itd.c rename to lib_enc/ivas_stereo_dft_enc_itd_fx.c index 70a4672323104b77a80acd077af82932ededa34f..b7429e2e796656a838a89b3a0f99a4f7b2a28175 100644 --- a/lib_enc/ivas_stereo_dft_enc_itd.c +++ b/lib_enc/ivas_stereo_dft_enc_itd_fx.c @@ -37,9 +37,7 @@ #include "cnst.h" #include "rom_enc.h" #include "rom_com.h" -#include "prot.h" #include "prot_fx.h" -#include "ivas_prot.h" #include "ivas_prot_fx.h" #include "ivas_cnst.h" #include "ivas_rom_com.h" @@ -205,12 +203,8 @@ static void stereo_dft_quantize_itd_fx( *-------------------------------------------------------------------------*/ static Word32 itd_vad_ms_snr_calc_fx( -#ifdef FIX_ISSUE_1092 Word32 E_band_n[STEREO_DFT_ITD_VAD_BAND_NUM], // E_band_n_exp Word16 E_band_n_exp[STEREO_DFT_ITD_VAD_BAND_NUM], -#else - Word32 E_band_n[STEREO_DFT_ITD_VAD_BAND_NUM], // Q0 -#endif Word32 *Spd, // Q(31-Spd_e) Word16 *Spd_e, Word32 *E_band, // Q(31-E_band_e) @@ -253,11 +247,7 @@ static Word32 itd_vad_ms_snr_calc_fx( // snr[i] = E_band[i] / E_band_n[i]; snr[i] = BASOP_Util_Divide3232_Scale_cadence( E_band[i], E_band_n[i], &snr_e[i] ); move32(); -#ifdef FIX_ISSUE_1092 snr_e[i] = add( snr_e[i], sub( E_band_e[i], E_band_n_exp[i] ) ); -#else - snr_e[i] = add( snr_e[i], sub( E_band_e[i], 31 ) ); -#endif move16(); // if ( snr[i] < 1 ) IF( BASOP_Util_Cmp_Mant32Exp( snr[i], snr_e[i], 1, 31 ) < 0 ) @@ -293,12 +283,8 @@ static Word32 itd_vad_ms_snr_calc_fx( * *-------------------------------------------------------------------------*/ static void itd_vad_background_update_fx( -#ifdef FIX_ISSUE_1092 Word32 E_band_n[STEREO_DFT_ITD_VAD_BAND_NUM], // E_band_n_exp Word16 E_band_n_exp[STEREO_DFT_ITD_VAD_BAND_NUM], -#else - Word32 E_band_n[STEREO_DFT_ITD_VAD_BAND_NUM], // Q0 -#endif Word16 *vad_frm_cnt, const Word32 ms_snr, // Q(31-ms_snr_e) const Word16 ms_snr_e, @@ -340,19 +326,10 @@ static void itd_vad_background_update_fx( Word16 q_temp = norm_l( *vad_frm_cnt ); L_temp = L_shl( *vad_frm_cnt, q_temp ); L_temp_e = sub( 31, q_temp ); -#ifdef FIX_ISSUE_1092 L_temp = BASOP_Util_Add_Mant32Exp( Mpy_32_32( E_band_n[i], L_temp ), add( E_band_n_exp[i], L_temp_e ), E_band[i], E_band_e[i], &L_temp_e ); -#else - L_temp = BASOP_Util_Add_Mant32Exp( Mpy_32_32( E_band_n[i], L_temp ), add( 31, L_temp_e ), E_band[i], E_band_e[i], &L_temp_e ); -#endif E_band_n[i] = BASOP_Util_Divide3232_Scale_cadence( L_temp, L_add( *vad_frm_cnt, 1 ), &E_band_n_e_tmp ); move32(); -#ifdef FIX_ISSUE_1092 E_band_n_exp[i] = add( E_band_n_e_tmp, sub( L_temp_e, 31 ) ); -#else - E_band_n_e_tmp = add( E_band_n_e_tmp, sub( L_temp_e, 31 ) ); - E_band_n[i] = L_shr_r( E_band_n[i], sub( 31, E_band_n_e_tmp ) ); // Q31 -#endif move16(); } } @@ -364,7 +341,6 @@ static void itd_vad_background_update_fx( FOR( i = 0; i < STEREO_DFT_ITD_VAD_BAND_NUM; i++ ) { // E_band_n[i] = 0.96f * E_band_n[i] + 0.04f * E_band[i]; -#ifdef FIX_ISSUE_1092 E_band_n[i] = BASOP_Util_Add_Mant32Exp( Mpy_32_32( 2061584302 /*0.96 in Q31*/, E_band_n[i] ), E_band_n_exp[i], Mpy_32_32( 85899346 /*0.04 in Q31*/, E_band[i] ), E_band_e[i], &E_band_n_e_tmp ); move32(); E_band_n_exp[i] = E_band_n_e_tmp; @@ -377,20 +353,6 @@ static void itd_vad_background_update_fx( E_band_n_exp[i] = 0; move16(); } -#else - E_band_n[i] = BASOP_Util_Add_Mant32Exp( Mpy_32_32( 2061584302, E_band_n[i] ), 31, Mpy_32_32( 85899346, E_band[i] ), E_band_e[i], &E_band_n_e_tmp ); - move32(); - // if ( E_band_n[i] < 1.0f ) - IF( BASOP_Util_Cmp_Mant32Exp( E_band_n[i], E_band_n_e_tmp, MAX_32, 0 ) < 0 ) - { - E_band_n[i] = MAX_32; - move32(); - E_band_n_e_tmp = 0; - move16(); - } - E_band_n[i] = L_shr_r( E_band_n[i], sub( 31, E_band_n_e_tmp ) ); // Q31 - move32(); -#endif } } } @@ -404,12 +366,8 @@ static void itd_vad_background_update_fx( *-------------------------------------------------------------------------*/ static Word16 stereo_dft_enc_itd_vad_fx( -#ifdef FIX_ISSUE_1092 Word32 E_band_n[STEREO_DFT_ITD_VAD_BAND_NUM], // E_band_n_exp Word16 E_band_n_exp[STEREO_DFT_ITD_VAD_BAND_NUM], -#else - Word32 E_band_n[STEREO_DFT_ITD_VAD_BAND_NUM], // Q0 -#endif Word16 *vad_frm_cnt, Word32 *Spd_L, // Q(31-Spd_L_e) Word16 *Spd_L_e, @@ -436,17 +394,10 @@ static Word16 stereo_dft_enc_itd_vad_fx( Spd_e[i] = sub( Spd_e[i], 1 ); move16(); } -#ifdef FIX_ISSUE_1092 *mssnr = itd_vad_ms_snr_calc_fx( E_band_n, E_band_n_exp, Spd, Spd_e, E_band, E_band_e, mssnr_e ); move32(); itd_vad_background_update_fx( E_band_n, E_band_n_exp, vad_frm_cnt, *mssnr, *mssnr_e, E_band, E_band_e ); -#else - *mssnr = itd_vad_ms_snr_calc_fx( E_band_n, Spd, Spd_e, E_band, E_band_e, mssnr_e ); - move32(); - - itd_vad_background_update_fx( E_band_n, vad_frm_cnt, *mssnr, *mssnr_e, E_band, E_band_e ); -#endif // if ( *mssnr < ITD_VAD_THRSHOLD ) IF( BASOP_Util_Cmp_Mant32Exp( *mssnr, *mssnr_e, ITD_VAD_THRSHOLD_Q31, 0 ) < 0 ) { @@ -548,7 +499,8 @@ static Word32 calc_mean_E_ratio_fx( sum_nrg_R_e = 0; move16(); - FOR( i = band_limits[b]; i < min( band_limits[b + 1], STEREO_DFT_N_32k_ENC / 2 ); i++ ) + Word16 len = s_min( band_limits[b + 1], STEREO_DFT_N_32k_ENC >> 1 ); + FOR( i = band_limits[b]; i < len; i++ ) { // sum_xcorr[0] += hItd->xcorr_smooth[2 * i]; sum_xcorr[0] = BASOP_Util_Add_Mant32Exp( sum_xcorr[0], sum_xcorr_e[0], hItd->xcorr_smooth_fx[2 * i], hItd->xcorr_smooth_fx_e[2 * i], &sum_xcorr_e[0] ); @@ -1477,11 +1429,7 @@ void stereo_dft_enc_compute_itd_fx( } // L_temp = sum2_32_fx( &Spd_L[1], 11, &L_temp_e ); sum_nrg_L_lb = BASOP_Util_Add_Mant32Exp( sum_nrg_L_lb, sum_nrg_L_lb_e, L_temp, L_temp_e, &sum_nrg_L_lb_e ); -#ifdef FIX_ISSUE_1092 vad_flag_itd = stereo_dft_enc_itd_vad_fx( hItd->E_band_n_fx, hItd->E_band_n_exp, &( hItd->vad_frm_cnt ), Spd_L, Spd_L_e, Spd_R, Spd_R_e, &mssnr, &mssnr_e ); -#else - vad_flag_itd = stereo_dft_enc_itd_vad_fx( hItd->E_band_n_fx, &( hItd->vad_frm_cnt ), Spd_L, Spd_L_e, Spd_R, Spd_R_e, &mssnr, &mssnr_e ); -#endif vad_flag_itd = vad_flag_itd && vad_flag_dtx[0]; // if ( sum_nrg_L < EPSILON ) @@ -2234,7 +2182,7 @@ void stereo_dft_enc_compute_itd_fx( test(); test(); test(); - IF( flag_noisy_speech_snr == 0 && EQ_16( hCPE->hCoreCoder[0]->vad_flag, 1 ) && hItd->detected_itd_flag == 0 && ( LT_16( hItd->currFlatness_fx, 192 ) /* 1.5 in Q7*/ || EQ_16( hCPE->hCoreCoder[0]->sp_aud_decision0, 1 ) ) ) + IF( flag_noisy_speech_snr == 0 && EQ_16( hCPE->hCoreCoder[0]->vad_flag, 1 ) && hItd->detected_itd_flag == 0 && ( LT_32( hItd->currFlatness_fx, 3145728 ) /* 1.5 in Q21*/ || EQ_16( hCPE->hCoreCoder[0]->sp_aud_decision0, 1 ) ) ) { // hItd->itd_thres *= 1.5f; hItd->itd_thres_fx = L_shl_sat( Mpy_32_32( hItd->itd_thres_fx, 1610612736 ), 1 ); /* Saturation added to avoid assertions (this needs to be investigated) */ @@ -2569,7 +2517,11 @@ void stereo_dft_enc_compute_itd_fx( prev_itd_max = hItd->hybrid_itd_max; move16(); /* enable hybrid ITD handling for very large ITDs*/ - hItd->hybrid_itd_max = ( abs( itd ) > STEREO_DFT_ITD_MAX && abs( itd ) < STEREO_DFT_ITD_MAX_ANA && !hCPE->hCoreCoder[0]->sp_aud_decision0 && hCPE->element_brate < IVAS_32k ); + // hItd->hybrid_itd_max = ( abs_s( itd ) > STEREO_DFT_ITD_MAX && abs_s( itd ) < STEREO_DFT_ITD_MAX_ANA && !hCPE->hCoreCoder[0]->sp_aud_decision0 && hCPE->element_brate < IVAS_32k ); + test(); + test(); + test(); + hItd->hybrid_itd_max = ( GT_16( abs_s( itd ), STEREO_DFT_ITD_MAX ) && LT_16( abs_s( itd ), STEREO_DFT_ITD_MAX_ANA ) && !hCPE->hCoreCoder[0]->sp_aud_decision0 && LT_32( hCPE->element_brate, IVAS_32k ) ); move16(); /* Update memory */ hItd->prev_itd = itd; diff --git a/lib_enc/ivas_stereo_dft_td_itd.c b/lib_enc/ivas_stereo_dft_td_itd_fx.c similarity index 94% rename from lib_enc/ivas_stereo_dft_td_itd.c rename to lib_enc/ivas_stereo_dft_td_itd_fx.c index dd7f575b728c3461dda86150e211f96eb9ee6dd8..c457faa4f97bd09da06ee2738486bdab5e8aff4c 100644 --- a/lib_enc/ivas_stereo_dft_td_itd.c +++ b/lib_enc/ivas_stereo_dft_td_itd_fx.c @@ -35,15 +35,13 @@ #include "options.h" #include #include "cnst.h" -#include "prot.h" +#include "prot_fx.h" #include "rom_com.h" -#include "ivas_prot.h" #include "ivas_rom_com.h" #include "ivas_stat_enc.h" #include "ivas_cnst.h" #include "wmc_auto.h" #include "ivas_prot_fx.h" -#include "prot_fx.h" /*-------------------------------------------------------------------* @@ -382,15 +380,6 @@ void stereo_td_itd_fx( move16(); set16_fx( shift_input, 0, input_frame ); - FOR( n = 0; n < CPE_CHANNELS; n++ ) - { - - Scale_sig( &input_mem[n][0], dft_ovl, sts[n]->q_inp - q_input_mem[n] ); // Q(sts[n]->q_inp) - // Scale_sig(&sts[n]->old_input_signal_fx, 1965, sts[n]->q_inp - sts[n]->q_old_inp); - // sts[n]->q_old_inp = sts[n]->q_inp; - q_input_mem[n] = sts[n]->q_inp; - move16(); - } IF( EQ_16( sts[0]->element_mode, IVAS_CPE_MDCT ) ) { FOR( n = 0; n < CPE_CHANNELS; n++ ) @@ -542,7 +531,7 @@ void stereo_td_itd_mdct_stereo_fx( const Word16 input_frame /* i : frame length */ ) { - Word16 i; + Word16 i, n, q_com; Word32 bin_nrgL_fx[STEREO_DFT_N_32k_ENC]; Word16 bin_nrgL_e[STEREO_DFT_N_32k_ENC]; Word32 bin_nrgR_fx[STEREO_DFT_N_32k_ENC]; @@ -586,6 +575,37 @@ void stereo_td_itd_mdct_stereo_fx( /*call ITD function*/ stereo_dft_enc_compute_itd_fx( hCPE, DFT_fx[0], DFT_tmp_e[0], DFT_fx[1], DFT_tmp_e[1], STEREO_DFT_OFFSET, input_frame, vad_flag_dtx, vad_hover_flag, bin_nrgL_fx, bin_nrgL_e, bin_nrgR_fx, bin_nrgR_e ); + q_com = MAX_16; + move16(); + + FOR( n = 0; n < CPE_CHANNELS; n++ ) + { + q_com = s_min( q_com, add( norm_arr( hCPE->hCoreCoder[n]->input_fx, input_frame ), hCPE->hCoreCoder[n]->q_inp ) ); + q_com = s_min( q_com, add( norm_arr( hCPE->hCoreCoder[n]->old_input_signal_fx, input_frame ), hCPE->hCoreCoder[n]->q_old_inp ) ); + q_com = s_min( q_com, add( norm_arr( hCPE->input_mem_fx[n], hStereoMdct->hDft_ana->dft_ovl ), hCPE->q_input_mem[n] ) ); + + if ( EQ_16( q_com, Q15 ) ) + { + q_com = 0; + move16(); + } + } + + FOR( n = 0; n < CPE_CHANNELS; n++ ) + { + scale_sig( hCPE->hCoreCoder[n]->input_fx, input_frame, sub( q_com, hCPE->hCoreCoder[n]->q_inp ) ); + hCPE->hCoreCoder[n]->q_inp = q_com; + move16(); + + scale_sig( hCPE->hCoreCoder[n]->old_input_signal_fx, input_frame, sub( q_com, hCPE->hCoreCoder[n]->q_old_inp ) ); + hCPE->hCoreCoder[n]->q_old_inp = q_com; + move16(); + + scale_sig( hCPE->input_mem_fx[n], hStereoMdct->hDft_ana->dft_ovl, sub( q_com, hCPE->q_input_mem[n] ) ); + hCPE->q_input_mem[n] = q_com; + move16(); + } + /* Time Domain ITD compensation using extrapolation */ stereo_td_itd_fx( hStereoMdct->hItd, NULL, NULL, 1, hStereoMdct->hDft_ana->dft_ovl, hCPE->hCoreCoder, input_frame, hCPE->input_mem_fx, hCPE->q_input_mem ); } diff --git a/lib_enc/ivas_stereo_dmx_evs.c b/lib_enc/ivas_stereo_dmx_evs_fx.c similarity index 94% rename from lib_enc/ivas_stereo_dmx_evs.c rename to lib_enc/ivas_stereo_dmx_evs_fx.c index 7b0e7df625775b02cdb2cbb122c60ebffa3d8b38..625ff8ee90fc1f2eeeb5dc932c1312b3b861106f 100644 --- a/lib_enc/ivas_stereo_dmx_evs.c +++ b/lib_enc/ivas_stereo_dmx_evs_fx.c @@ -36,16 +36,13 @@ #include "cnst.h" #include "ivas_cnst.h" #include "rom_com.h" -#include "prot.h" #include "prot_fx.h" -#include "ivas_prot.h" #include "ivas_prot_fx.h" #include "ivas_rom_com.h" #include "ivas_rom_com_fx.h" #include "ivas_rom_enc.h" #include "wmc_auto.h" #include "ivas_prot_fx.h" -#include "prot_fx.h" /*-----------------------------------------------------------------------* @@ -68,12 +65,14 @@ #define Q_BAND_FX 536870912 /*Q31*/ -#define STEREO_DMX_EVS_ISD_FORGETTING_Q15 31129 #define STEREO_DMX_EVS_ISD_THRES_L_Q31 1932735283 #define STEREO_DMX_EVS_ISD_DIST_THRES_IPD_Q15 ONE_IN_Q14 -#define STEREO_DMX_EVS_ISD_DIST_HYST_L_Q15 11796 -#define STEREO_DMX_EVS_ISD_DIST_HYST_H_Q15 14090 +#define STEREO_DMX_EVS_ISD_FORGETTING_Q31 2040109465 +#define STEREO_DMX_EVS_ISD_1MFORGETTING_Q15 1638 +#define STEREO_DMX_EVS_ISD_DIST_HYST_L_Q31 773094113 +#define STEREO_DMX_EVS_ISD_DIST_HYST_H_Q31 923417968 +#define STEREO_DMX_EVS_ISD_INVTHRES_H 1270700383 #define STEREO_DMX_EVS_ICCR_FORGETTING_Q31 1503238554 #define STEREO_DMX_EVS_ICCR_HYST_L_Q31 1610612736 @@ -156,7 +155,7 @@ static ivas_error estimate_itd_fx( STEREO_DMX_EVS_PHA_HANDLE hPHA, /* i/o: correlation filter structure */ const Word32 srcL[], /* i : Lch input signal Q16 */ const Word32 srcR[], /* i : Rch input signal Q16 */ - Word32 itd[], /* o : estimated itd Q16 */ + Word16 itd[], /* o : estimated itd Q0 */ const Word16 input_frame /* i : input frame length per channel */ ); static void adapt_gain_fx( @@ -199,7 +198,7 @@ static void create_M_signal_fx( ); static Word32 find_poc_peak_fx( STEREO_DMX_EVS_POC_HANDLE hPOC, /* i/o: phase only correlation structure */ - Word32 itd_fx[], /* o : estimated itd */ + Word16 itd_fx[], /* o : estimated itd */ const Word16 input_frame, /* i : input frame length per channel */ const Word32 ratio_fixed /* i : adapting ratio */ ); @@ -607,12 +606,13 @@ static void calc_poc_fx( Ni = L_sub( specLi[i], specRi[i] ); // spec_e Dr = L_add( specLr[i], specRr[i] ); // spec_e Di = L_add( specLi[i], specRi[i] ); // spec_e - // if ( ( Nr * Nr + Ni * Ni ) > STEREO_DMX_EVS_ISD_THRES_H * ( Dr * Dr + Di * Di ) ) - IF( GT_32( Mpy_32_32_r( L_add( Mpy_32_32_r( Nr, Nr ), Mpy_32_32_r( Ni, Ni ) ), 1270700383 /*1/STEREO_DMX_EVS_ISD_THRES_H in Q31*/ ), L_add( Mpy_32_32_r( Dr, Dr ), Mpy_32_32_r( Di, Di ) ) ) ) + // if ( ( Nr * Nr + Ni * Ni ) > STEREO_DMX_EVS_ISD_THRES_H * ( Dr * Dr + Di * Di ) ) + IF( GT_32( Mpy_32_32_r( L_add( Mpy_32_32_r( Nr, Nr ), Mpy_32_32_r( Ni, Ni ) ), STEREO_DMX_EVS_ISD_INVTHRES_H ), L_add( Mpy_32_32_r( Dr, Dr ), Mpy_32_32_r( Di, Di ) ) ) ) { isd_cnt_h = add( isd_cnt_h, 1 ); } - IF( LT_32( L_add( Mpy_32_32_r( Nr, Nr ), Mpy_32_32_r( Ni, Ni ) ), Mpy_32_32_r( STEREO_DMX_EVS_ISD_THRES_L_Q31, L_add( Mpy_32_32_r( Dr, Dr ), Mpy_32_32_r( Di, Di ) ) ) ) ) + W_tmp = W_add( W_mult0_32_32( Mpy_32_32_r( Dr, STEREO_DMX_EVS_ISD_THRES_L_Q31 ), Dr ), W_mult0_32_32( Mpy_32_32_r( Di, STEREO_DMX_EVS_ISD_THRES_L_Q31 ), Di ) ); // Q62 + IF( LT_64( W_add( W_mult0_32_32( Nr, Nr ), W_mult0_32_32( Ni, Ni ) ), W_tmp ) ) // Q62 { isd_cnt_l = add( isd_cnt_l, 1 ); } @@ -621,10 +621,10 @@ static void calc_poc_fx( isd_rate = BASOP_Util_Divide1616_Scale( isd_cnt_h, freq_8k, &isd_rate_e ); // Saturation to handle values close to 1.0f isd_rate = shl_sat( isd_rate, isd_rate_e ); // Q15 - hPHA->isd_rate_s_fx = add( mult_r( STEREO_DMX_EVS_ISD_FORGETTING_Q15, hPHA->isd_rate_s_fx ), mult_r( MAX_16 - STEREO_DMX_EVS_ISD_FORGETTING_Q15, isd_rate ) ); - move16(); + hPHA->isd_rate_s_fx = L_add( Mpy_32_32_r( STEREO_DMX_EVS_ISD_FORGETTING_Q31, hPHA->isd_rate_s_fx ), L_mult( STEREO_DMX_EVS_ISD_1MFORGETTING_Q15, isd_rate ) ); + move32(); - IF( GT_16( hPHA->isd_rate_s_fx, STEREO_DMX_EVS_ISD_DIST_HYST_H_Q15 ) ) + IF( GT_32( hPHA->isd_rate_s_fx, STEREO_DMX_EVS_ISD_DIST_HYST_H_Q31 ) ) { IF( NE_32( hPHA->curr_pha, STEREO_DMX_EVS_PHA_IPD ) ) { @@ -649,7 +649,7 @@ static void calc_poc_fx( hPHA->prev_pha = STEREO_DMX_EVS_PHA_IPD; move32(); } - ELSE IF( LT_16( hPHA->isd_rate_s_fx, STEREO_DMX_EVS_ISD_DIST_HYST_L_Q15 ) ) + ELSE IF( LT_32( hPHA->isd_rate_s_fx, STEREO_DMX_EVS_ISD_DIST_HYST_L_Q31 ) ) { IF( NE_32( hPHA->curr_pha, STEREO_DMX_EVS_PHA_IPD2 ) ) { @@ -714,10 +714,28 @@ static void calc_poc_fx( FOR( j = 0; j < STEREO_DMX_EVS_SUBBAND_SIZE; ( j++, i++ ) ) { + /* Energy */ - tEl[n] = BASOP_Util_Add_Mant32Exp( tEl[n], tEl_e[n], L_add( Mpy_32_32_r( specLr[i], specLr[i] ), Mpy_32_32_r( specLi[i], specLi[i] ) ), shl( spec_e, 1 ), &tEl_e[n] ); + + + // Left + W_tmp = W_add( W_mult0_32_32( specLr[i], specLr[i] ), W_mult0_32_32( specLi[i], specLi[i] ) ); // Q(62-(2*specL_e)) -> Q(63 - ((2*specL_e) +1)) + L_tmp_e = W_norm( W_tmp ); + IF( L_tmp_e != 0 ) + { + W_tmp = W_shl( W_tmp, L_tmp_e ); // Q(63 - ((2*spec_e) - (L_tmp_e - 1)) + } + tEl[n] = BASOP_Util_Add_Mant32Exp( tEl[n], tEl_e[n], W_round64_L( W_tmp ), sub( shl( spec_e, 1 ), sub( L_tmp_e, 1 ) ), &tEl_e[n] ); move32(); - tEr[n] = BASOP_Util_Add_Mant32Exp( tEr[n], tEr_e[n], L_add( Mpy_32_32_r( specRr[i], specRr[i] ), Mpy_32_32_r( specRi[i], specRi[i] ) ), shl( spec_e, 1 ), &tEr_e[n] ); + + // Right + W_tmp = W_add( W_mult0_32_32( specRr[i], specRr[i] ), W_mult0_32_32( specRi[i], specRi[i] ) ); // Q(62-(2*specR_e)) -> Q(63 - ((2*specR_e) +1)) + L_tmp_e = W_norm( W_tmp ); + IF( L_tmp_e != 0 ) + { + W_tmp = W_shl( W_tmp, L_tmp_e ); // Q(63 - ((2*spec_e) - (L_tmp_e - 1)) + } + tEr[n] = BASOP_Util_Add_Mant32Exp( tEr[n], tEr_e[n], W_round64_L( W_tmp ), sub( shl( spec_e, 1 ), sub( L_tmp_e, 1 ) ), &tEr_e[n] ); move32(); /* IPD */ @@ -749,11 +767,27 @@ static void calc_poc_fx( tIPDr = L_sub( Mpy_32_32_r( specRr[i], IPDr ), Mpy_32_32_r( specRi[i], IPDi ) ); // spec_e tIPDi = L_add( Mpy_32_32_r( specRr[i], IPDi ), Mpy_32_32_r( specRi[i], IPDr ) ); // spec_e - Nr = BASOP_Util_Add_Mant32Exp( Nr, Nr_e, L_add( Mpy_32_32_r( specLr[i], tIPDr ), Mpy_32_32_r( specLi[i], tIPDi ) ), shl( spec_e, 1 ), &Nr_e ); - Ni = BASOP_Util_Add_Mant32Exp( Ni, Ni_e, L_sub( Mpy_32_32_r( specLi[i], tIPDr ), Mpy_32_32_r( specLr[i], tIPDi ) ), shl( spec_e, 1 ), &Ni_e ); - eneL = BASOP_Util_Add_Mant32Exp( eneL, eneL_e, L_add( Mpy_32_32_r( specLr[i], specLr[i] ), Mpy_32_32_r( specLi[i], specLi[i] ) ), shl( spec_e, 1 ), &eneL_e ); - eneR = BASOP_Util_Add_Mant32Exp( eneR, eneR_e, L_add( Mpy_32_32_r( specRr[i], specRr[i] ), Mpy_32_32_r( specRi[i], specRi[i] ) ), shl( spec_e, 1 ), &eneR_e ); + Nr = BASOP_Util_Add_Mant32Exp( Nr, Nr_e, L_add( Mpy_32_32_r( specLr[i], tIPDr ), Mpy_32_32_r( specLi[i], tIPDi ) ), 0, &Nr_e ); + Ni = BASOP_Util_Add_Mant32Exp( Ni, Ni_e, L_sub( Mpy_32_32_r( specLi[i], tIPDr ), Mpy_32_32_r( specLr[i], tIPDi ) ), 0, &Ni_e ); + + // eneL = BASOP_Util_Add_Mant32Exp( eneL, eneL_e, L_add( Mpy_32_32_r( specLr[i], specLr[i] ), Mpy_32_32_r( specLi[i], specLi[i] ) ), 0, &eneL_e ); + W_tmp = W_add( W_mult0_32_32( specLr[i], specLr[i] ), W_mult0_32_32( specLi[i], specLi[i] ) ); + L_tmp_e = W_norm( W_tmp ); + IF( L_tmp_e != 0 ) + { + W_tmp = W_shl( W_tmp, L_tmp_e ); + } + eneL = BASOP_Util_Add_Mant32Exp( eneL, eneL_e, W_round64_L( W_tmp ), sub( 1, L_tmp_e ), &eneL_e ); + + // eneR = BASOP_Util_Add_Mant32Exp( eneR, eneR_e, L_add( Mpy_32_32_r( specRr[i], specRr[i] ), Mpy_32_32_r( specRi[i], specRi[i] ) ), 0, &eneR_e ); + W_tmp = W_add( W_mult0_32_32( specRr[i], specRr[i] ), W_mult0_32_32( specRi[i], specRi[i] ) ); + L_tmp_e = W_norm( W_tmp ); + IF( L_tmp_e != 0 ) + { + W_tmp = W_shl( W_tmp, L_tmp_e ); + } + eneR = BASOP_Util_Add_Mant32Exp( eneR, eneR_e, W_round64_L( W_tmp ), sub( 1, L_tmp_e ), &eneR_e ); } // Pn = (float) inv_sqrt( ( tPr * tPr + tPi * tPi ) + EPSILON ); @@ -771,14 +805,12 @@ static void calc_poc_fx( move32(); Pi[n] = L_add( Mpy_32_32_r( ipd_ff[n], Pi[n] ), Mpy_32_32_r( L_sub( MAX_32, ipd_ff[n] ), tPi ) ); move32(); + // Pn = (float) inv_sqrt( ( Pr[n] * Pr[n] + Pi[n] * Pi[n] ) + EPSILON ); - L_tmp = L_add( L_shr( Mpy_32_32_r( Pr[n], Pr[n] ), 1 ), L_shr( Mpy_32_32_r( Pi[n], Pi[n] ), 1 ) ); - L_tmp_e = 1; - move16(); - L_tmp = BASOP_Util_Add_Mant32Exp( L_tmp, L_tmp_e, EPSILON_FX_M, EPSILON_FX_E, &L_tmp_e ); - Pn_e = L_tmp_e; - move16(); - Pn = ISqrt32( L_tmp, &Pn_e ); + Pn = L_add( L_shr( Mpy_32_32_r( Pr[n], Pr[n] ), 1 ), L_shr( Mpy_32_32_r( Pi[n], Pi[n] ), 1 ) ); + Pn = BASOP_Util_Add_Mant32Exp( Pn, 1, EPSILON_FX_M, EPSILON_FX_E, &Pn_e ); + Pn = Isqrt_lc( Pn, &Pn_e ); + Pr[n] = L_shl_sat( Mpy_32_32_r( Pr[n], Pn ), Pn_e ); // Q31 move32(); Pi[n] = L_shl_sat( Mpy_32_32_r( Pi[n], Pn ), Pn_e ); // Q31 @@ -984,11 +1016,7 @@ static void calc_poc_fx( FOR( i = 0; i < hPHA->pha_len; i++ ) { // hPHA->p_curr_taps[n][i] *= hPHA->win[i]; -#ifdef FIX_ISSUE_1153 hPHA->p_curr_taps_fx[n][i] = Mpy_32_16_1( hPHA->p_curr_taps_fx[n][i], hPHA->win_fx[i] ); // Q30 -#else - hPHA->p_curr_taps_fx[n][i] = L_shl( Mpy_32_16_1( hPHA->p_curr_taps_fx[n][i], hPHA->win_fx[i] ), 1 ); // Q31 -#endif move32(); } @@ -996,29 +1024,16 @@ static void calc_poc_fx( move32(); energy_e = 0; move16(); -#ifdef FIX_ISSUE_1153 - Word16 shift = L_norm_arr( hPHA->p_curr_taps_fx[n], hPHA->pha_len ); - IF( shift ) - { - scale_sig32( hPHA->p_curr_taps_fx[n], hPHA->pha_len, 1 ); - shift = 1; - move16(); - } -#endif FOR( i = 0; i < hPHA->pha_len; i++ ) { -#ifdef FIX_ISSUE_1153 - energy = BASOP_Util_Add_Mant32Exp( energy, energy_e, Mpy_32_32_r( hPHA->p_curr_taps_fx[n][i], hPHA->p_curr_taps_fx[n][i] ), shl( sub( 1, shift ), 1 ), &energy_e ); -#else energy = BASOP_Util_Add_Mant32Exp( energy, energy_e, Mpy_32_32_r( hPHA->p_curr_taps_fx[n][i], hPHA->p_curr_taps_fx[n][i] ), 0, &energy_e ); -#endif } // energy = (float) inv_sqrt( energy + EPSILON ); energy = BASOP_Util_Add_Mant32Exp( energy, energy_e, EPSILON_FX_M, EPSILON_FX_E, &energy_e ); energy = ISqrt32( energy, &energy_e ); FOR( i = 0; i < hPHA->pha_len; i++ ) { - hPHA->p_curr_taps_fx[n][i] = L_shl_r( Mpy_32_32_r( hPHA->p_curr_taps_fx[n][i], energy ), energy_e ); // Q31 + hPHA->p_curr_taps_fx[n][i] = L_shl_r( Mpy_32_32_r( hPHA->p_curr_taps_fx[n][i], energy ), sub( energy_e, 1 ) ); // Q30 move32(); } } @@ -1121,7 +1136,7 @@ static void calc_poc_fx( *-------------------------------------------------------------------*/ static Word32 find_poc_peak_fx( STEREO_DMX_EVS_POC_HANDLE hPOC, /* i/o: phase only correlation structure */ - Word32 itd_fx[], /* o : estimated itd Q16 */ + Word16 itd_fx[], /* o : estimated itd Q0 */ const Word16 input_frame, /* i : input frame length per channel */ const Word32 ratio_fixed /* i : adapting ratio Q31 */ ) @@ -1205,7 +1220,7 @@ static Word32 find_poc_peak_fx( /*compute peak_range*/ tmp1 = idiv1616( hPOC->shift_limit, STEREO_DMX_EVS_FIND_POC_PEAK_TAU ); - peak_range = idiv1616( add( extract_l( abs( itd_cand[n] ) ), tmp1 ), STEREO_DMX_EVS_FIND_POC_PEAK_TAU2 ); // Q0 + peak_range = idiv1616( add( extract_l( abs_s( itd_cand[n] ) ), tmp1 ), STEREO_DMX_EVS_FIND_POC_PEAK_TAU2 ); // Q0 FOR( i = 1; i <= peak_range; i++ ) { @@ -1252,7 +1267,7 @@ static Word32 find_poc_peak_fx( IF( on[n] ) /*if channel n was active (likely to be preceding) in the previous frame*/ { tmp13_e = 0, tmp15_e = 0; - tmp13 = BASOP_Util_Divide1616_Scale( (Word16) abs( itd_cand[n] ), hPOC->shift_limit, &tmp13_e ); + tmp13 = BASOP_Util_Divide1616_Scale( abs_s( itd_cand[n] ), hPOC->shift_limit, &tmp13_e ); tmp14 = L_mult( 6554 /*0.2f Q15*/, tmp13 ); // tmp13_e tmp15 = BASOP_Util_Add_Mant32Exp( 644245120 /*0.75f in Q31*/, 0, L_negate( tmp14 ), tmp13_e, &tmp15_e ); tmp15 = Mpy_32_32( tmp15, peakQ_fx[n] ); // tmp15_e + peakQ_e[n] @@ -1301,7 +1316,7 @@ static Word32 find_poc_peak_fx( tmp13_e = 0, tmp15_e = 0; move16(); move16(); - tmp13 = BASOP_Util_Divide1616_Scale( (Word16) abs( itd_cand[n] ), hPOC->shift_limit, &tmp13_e ); + tmp13 = BASOP_Util_Divide1616_Scale( abs_s( itd_cand[n] ), hPOC->shift_limit, &tmp13_e ); tmp14 = L_mult( 6554 /*0.2f Q15*/, tmp13 ); // tmp13_e tmp15 = BASOP_Util_Add_Mant32Exp( 1610612736 /*0.75f in Q31*/, 0, L_negate( tmp14 ), tmp13_e, &tmp15_e ); @@ -1433,7 +1448,7 @@ static ivas_error estimate_itd_fx( STEREO_DMX_EVS_PHA_HANDLE hPHA, /* i/o: correlation filter structure */ const Word32 srcL[], /* i : Lch input signal Q16 */ const Word32 srcR[], /* i : Rch input signal Q16 */ - Word32 itd[], /* o : estimated itd Q16 */ + Word16 itd[], /* o : estimated itd Q0 */ const Word16 input_frame /* i : input frame length per channel */ ) { @@ -1941,9 +1956,9 @@ void stereo_dmx_evs_enc_fx( hStereoDmxEVS->dmx_weight_fx, hStereoDmxEVS->pre_dmx_energy_fx, hStereoDmxEVS->pre_dmx_energy_fx_e, hStereoDmxEVS->aux_dmx_energy_fx, hStereoDmxEVS->aux_dmx_energy_fx_e ); // Downscaling signals to avoid accumulation overflows - scale_sig32( data_fx[0], input_frame, -5 ); // Q16->Q11 - scale_sig32( data_fx[1], input_frame, -5 ); // Q16->Q11 - scale_sig32( dmx_poc_data, input_frame, -5 ); // Q16->Q11 + scale_sig32( data_fx[0], input_frame, -5 ); // Q31->Q26 + scale_sig32( data_fx[1], input_frame, -5 ); // Q31->Q26 + scale_sig32( dmx_poc_data, input_frame, -5 ); // Q31->Q26 /* pha */ @@ -1972,9 +1987,9 @@ void stereo_dmx_evs_enc_fx( FOR( ( fx_tmp = 0, m = 0 ); m < pha_len; m++ ) { // ftmp += p_data_mem[n - m] * p_prev_taps[m]; - // fx_tmp = BASOP_Util_Add_Mant32Exp(fx_tmp, fx_tmp_e, Mpy_32_32(p_data_mem[n - m], p_prev_taps[m]),15,&fx_tmp_e); - fx_tmp = L_add( fx_tmp, Mpy_32_32( p_data_mem[n - m], p_prev_taps[m] ) ); // Q11 + fx_tmp = L_add( fx_tmp, Mpy_32_32( p_data_mem[n - m], p_prev_taps[m] ) ); // Q25 } + fx_tmp = L_shl( fx_tmp, 1 ); // Q26 mem_prev[n] = L_add( mem_prev[n], Mpy_32_32( fx_tmp, INV_SQRT_2_Q31 ) ); move32(); } @@ -1984,7 +1999,7 @@ void stereo_dmx_evs_enc_fx( FOR( n = 0; n < fad_len; n++ ) { // mem_prev[n] += p_data[n] * INV_SQRT_2; - mem_prev[n] = L_add( mem_prev[n], Mpy_32_32( p_data[n], INV_SQRT_2_Q31 ) ); // Q11 + mem_prev[n] = L_add( mem_prev[n], Mpy_32_32( p_data[n], INV_SQRT_2_Q31 ) ); // Q26 move32(); } } @@ -1997,10 +2012,11 @@ void stereo_dmx_evs_enc_fx( FOR( ( fx_tmp = 0, m = 0 ); m < pha_len; m++ ) { // ftmp += p_data_mem[n - m] * p_curr_taps[m]; - fx_tmp = L_add( fx_tmp, Mpy_32_32( p_data_mem[n - m], p_curr_taps[m] ) ); // Q11 + fx_tmp = L_add( fx_tmp, Mpy_32_32( p_data_mem[n - m], p_curr_taps[m] ) ); // Q25 } + fx_tmp = L_shl( fx_tmp, 1 ); // Q26 // dmx_pha_data[n] += ftmp * INV_SQRT_2; - dmx_pha_data[n] = L_add( dmx_pha_data[n], Mpy_32_32( fx_tmp, INV_SQRT_2_Q31 ) ); // Q11 + dmx_pha_data[n] = L_add( dmx_pha_data[n], Mpy_32_32( fx_tmp, INV_SQRT_2_Q31 ) ); // Q26 move32(); } } @@ -2009,7 +2025,7 @@ void stereo_dmx_evs_enc_fx( FOR( n = 0; n < n_samples; n++ ) { // dmx_pha_data[n] += p_data[n] * INV_SQRT_2; - dmx_pha_data[n] = L_add( dmx_pha_data[n], Mpy_32_32( p_data[n], INV_SQRT_2_Q31 ) ); // Q11 + dmx_pha_data[n] = L_add( dmx_pha_data[n], Mpy_32_32( p_data[n], INV_SQRT_2_Q31 ) ); // Q26 move32(); } } @@ -2019,7 +2035,7 @@ void stereo_dmx_evs_enc_fx( { dmx_pha_data[n] = Mpy_32_32( dmx_pha_data[n], fad_g[n] ); move32(); - dmx_pha_data[n] = L_add( dmx_pha_data[n], Mpy_32_32( mem_prev[n], fad_g[m] ) ); // Q11 + dmx_pha_data[n] = L_add( dmx_pha_data[n], Mpy_32_32( mem_prev[n], fad_g[m] ) ); // Q26 move32(); } @@ -2028,7 +2044,7 @@ void stereo_dmx_evs_enc_fx( curr_prc = hStereoDmxEVS->hPHA->curr_prc; move32(); // if ( abs( (int16_t) hStereoDmxEVS->itd ) > hStereoDmxEVS->hPHA->prc_thres ) - IF( GT_16( abs_s( round_fx( hStereoDmxEVS->itd_fx ) ), hStereoDmxEVS->hPHA->prc_thres ) ) + IF( GT_16( abs_s( hStereoDmxEVS->itd_fx ), hStereoDmxEVS->hPHA->prc_thres ) ) { IF( NE_32( hStereoDmxEVS->hPHA->curr_prc, STEREO_DMX_EVS_PRC_POC ) ) { @@ -2105,9 +2121,9 @@ void stereo_dmx_evs_enc_fx( FOR( ( n = 0, m = ( fad_len - 1 ) ); n < fad_len; ( n++, m-- ) ) { - p_dmx_data[n] = Mpy_32_32( p_dmx_data[n], fad_g[n] ); // Q11 + p_dmx_data[n] = Mpy_32_32( p_dmx_data[n], fad_g[n] ); // Q26 move32(); - p_dmx_data[n] = L_add( p_dmx_data[n], Mpy_32_32( fad_g[m], dmx_pha_data[n] ) ); // Q11 + p_dmx_data[n] = L_add( p_dmx_data[n], Mpy_32_32( fad_g[m], dmx_pha_data[n] ) ); // Q26 move32(); } } @@ -2124,16 +2140,15 @@ void stereo_dmx_evs_enc_fx( FOR( ( n = 0, m = ( fad_len - 1 ) ); n < fad_len; ( n++, m-- ) ) { - p_dmx_data[n] = Mpy_32_32( p_dmx_data[n], fad_g[n] ); // Q11 + p_dmx_data[n] = Mpy_32_32( p_dmx_data[n], fad_g[n] ); // Q26 move32(); - p_dmx_data[n] = L_add( p_dmx_data[n], Mpy_32_32( fad_g[m], dmx_poc_data[n] ) ); // Q11 + p_dmx_data[n] = L_add( p_dmx_data[n], Mpy_32_32( fad_g[m], dmx_poc_data[n] ) ); // Q26 move32(); } } } - Copy_Scale_sig32_16( p_dmx_data, data, n_samples, 5 ); // Q11->Q0 - + Copy_Scale_sig32_16( p_dmx_data, data, n_samples, 5 ); // Q26->Q15 return; } @@ -2152,9 +2167,9 @@ ivas_error stereo_dmx_evs_init_encoder_fx( STEREO_DMX_EVS_ENC_HANDLE hStereoDmxEVS; Word16 n, input_frame; - Word16 m, len, pha_len, fad_len, fad_len2, trans_len /*, itrh*/, rfft_ipd_coef_step, n0, input_frame_pha; - Word32 *fad_g, fad_r /*, a_min, a_max, a_step*/, *ipd_ff; - Word16 *win, tmp_r; + Word16 m, len, pha_len, fad_len, fad_len2, rfft_ipd_coef_step, n0, input_frame_pha; + Word32 *fad_g, fad_r, *ipd_ff; + Word16 *win; const Word16 *p_ipd_w; Word16 tmp_e; @@ -2386,17 +2401,19 @@ ivas_error stereo_dmx_evs_init_encoder_fx( fad_len = hStereoDmxEVS->hPHA->fad_len; move16(); - trans_len = idiv1616( pha_len, 20 ); - set16_fx( hStereoDmxEVS->hPHA->win_fx, 29491 /*1.8f in Q15*/, sub( pha_len, trans_len ) ); + set16_fx( hStereoDmxEVS->hPHA->win_fx, 29491 /*1.8f in Q14*/, pha_len ); hStereoDmxEVS->hPHA->win_fx[0] = ONE_IN_Q14; move16(); - // tmp_r = 1.0f / ( ( trans_len * 2 ) + 1 ); - tmp_r = div_s( 1, add( shl( trans_len, 1 ), 1 ) ); - win = &( hStereoDmxEVS->hPHA->win_fx[pha_len - trans_len] ); - FOR( n = 0; n < trans_len; n++ ) + IF( EQ_32( input_Fs, 16000 ) ) { - // win[n] = ( 0.5f * ( 1.0f + cosf( ( PI2 * ( n + 1 ) ) * tmp_r ) ) ) * 1.8f; - win[n] = mult_r( add( ONE_IN_Q14, getCosWord16R2( imult1616( add( n, 1 ), tmp_r ) ) ), 29491 /*1.8/2 in Q15*/ ); + hStereoDmxEVS->hPHA->win_fx[pha_len - 1] = 7373; /*0.45f in Q14*/ + move16(); + } + ELSE IF( EQ_32( input_Fs, 32000 ) || EQ_32( input_Fs, 48000 ) ) + { + hStereoDmxEVS->hPHA->win_fx[sub( pha_len, 2 )] = 19302; /*1.1781f in Q14*/ + move16(); + hStereoDmxEVS->hPHA->win_fx[sub( pha_len, 1 )] = 2816; /*0.1718f in Q14*/ move16(); } diff --git a/lib_enc/ivas_stereo_eclvq_enc.c b/lib_enc/ivas_stereo_eclvq_enc_fx.c similarity index 99% rename from lib_enc/ivas_stereo_eclvq_enc.c rename to lib_enc/ivas_stereo_eclvq_enc_fx.c index cd0e6fe2df30b2d37735a4b42fd2766a6bd23ae1..3abc07811450ec80c6e98e508eef739e2d647f27 100644 --- a/lib_enc/ivas_stereo_eclvq_enc.c +++ b/lib_enc/ivas_stereo_eclvq_enc_fx.c @@ -33,13 +33,11 @@ #include #include "options.h" #include -#include "ivas_prot.h" #include "ivas_prot_fx.h" #include "ivas_cnst.h" #include "ivas_rom_com.h" #include "ivas_rom_enc.h" #include -#include "prot.h" #include "prot_fx.h" #include "wmc_auto.h" /* used only for norm_s in the code_length_from_count function */ diff --git a/lib_enc/ivas_stereo_ica_enc.c b/lib_enc/ivas_stereo_ica_enc_fx.c similarity index 97% rename from lib_enc/ivas_stereo_ica_enc.c rename to lib_enc/ivas_stereo_ica_enc_fx.c index 72876ae352160986da39f19a0c5a4b6185c4e0cd..a8a088f209906e8817948a6de6915e0926e82a27 100644 --- a/lib_enc/ivas_stereo_ica_enc.c +++ b/lib_enc/ivas_stereo_ica_enc_fx.c @@ -36,12 +36,10 @@ #include #include "cnst.h" #include "ivas_cnst.h" -#include "prot.h" -#include "ivas_prot.h" +#include "prot_fx.h" #include "wmc_auto.h" #include "rom_com.h" #include "ivas_rom_com.h" -#include "prot_fx.h" #include "ivas_prot_fx.h" #include "ivas_rom_com_fx.h" @@ -112,7 +110,7 @@ static void tcaTargetCh_LA_fx( target = ptrChanL; } - tempS = NS2SA( L_mult0( input_frame, FRAMES_PER_SEC ), L_SAMPLES_LA_NS ); + tempS = NS2SA_FX2( L_mult0( input_frame, FRAMES_PER_SEC ), L_SAMPLES_LA_NS ); tempF1 = 0; move32(); tempF1_exp = 0; @@ -410,8 +408,8 @@ static void deEmphResample_fx( /* De-emphasis, 1/(1-mu z^-1), and resample, stage 1 */ - deemph_fx_32( 0, buf1_fx, PREEMPH_FAC_16k, input_frame, &hStereoTCA->memdecim_fx[0] ); - deemph_fx_32( 0, buf2_fx, PREEMPH_FAC_16k, input_frame, &hStereoTCA->memdecim_fx[1] ); + deemph_fx_32( buf1_fx, PREEMPH_FAC_16k, input_frame, &hStereoTCA->memdecim_fx[0] ); + deemph_fx_32( buf2_fx, PREEMPH_FAC_16k, input_frame, &hStereoTCA->memdecim_fx[1] ); FOR( i = 0; i < ( input_frame / dsFac1 ); i++ ) { @@ -422,8 +420,8 @@ static void deEmphResample_fx( } /* De-emphasis, 1/(1-mu z^-1), and resample, stage 2 */ - deemph_fx_32( 0, tempBuf1_fx, PREEMPH_FAC_16k, idiv1616( input_frame, dsFac1 ), &hStereoTCA->memdecim_fx[2] ); - deemph_fx_32( 0, tempBuf2_fx, PREEMPH_FAC_16k, idiv1616( input_frame, dsFac1 ), &hStereoTCA->memdecim_fx[3] ); + deemph_fx_32( tempBuf1_fx, PREEMPH_FAC_16k, idiv1616( input_frame, dsFac1 ), &hStereoTCA->memdecim_fx[2] ); + deemph_fx_32( tempBuf2_fx, PREEMPH_FAC_16k, idiv1616( input_frame, dsFac1 ), &hStereoTCA->memdecim_fx[3] ); FOR( i = 0; i < ( input_frame / dsFactor ); i++ ) { @@ -1096,13 +1094,9 @@ static void corrStatsEst_fx( hStereoTCA->delay_0_mem_fx[MAX_DELAYREGLEN - 1] = BASOP_Util_Add_Mant32Exp( Mpy_32_32( hStereoTCA->delay_0_mem_fx[MAX_DELAYREGLEN - 1], 429496730 /* 0.2 in Q31*/ ), hStereoTCA->delay_0_mem_exp, L_mult0( 26214 /* 0.8 in Q15*/, corrLagStats[0] ), Q16, &temp ); /* Q31-temp */ move32(); -#ifdef FIX_USAN_ISSUES Word32 inpp = L_abs( BASOP_Util_Add_Mant32Exp( reg_prv_corr_fx, reg_prv_corr_exp, L_negate( hStereoTCA->delay_0_mem_fx[0] ), hStereoTCA->delay_0_mem_exp, &exp ) ); /* Q31-exp */ -#else - Word32 inpp = L_abs( BASOP_Util_Add_Mant32Exp( reg_prv_corr_fx, reg_prv_corr_exp, -hStereoTCA->delay_0_mem_fx[0], hStereoTCA->delay_0_mem_exp, &exp ) ); /* Q31-exp */ -#endif - inpp = L_shl_sat( inpp, sub( exp, 5 ) ); /* Q26 */ - IF( GT_32( inpp, 1677721600 ) ) // 25 in Q26 + inpp = L_shl_sat( inpp, sub( exp, 5 ) ); /* Q26 */ + IF( GT_32( inpp, 1677721600 ) ) // 25 in Q26 { set32_fx( &( hStereoTCA->delay_0_mem_fx[0] ), hStereoTCA->delay_0_mem_fx[MAX_DELAYREGLEN - 1], MAX_DELAYREGLEN - 1 ); hStereoTCA->delay_0_mem_exp = temp; @@ -1512,7 +1506,7 @@ static void icaMemUpdate_fx( IF( hCPE->hStereoICBWE != NULL ) { assert( L_MEM_RECALC_TBE_NS <= L_MEM_RECALC_NS ); - i = NS2SA( sts[0]->input_Fs, L_MEM_RECALC_TBE_NS ); + i = NS2SA_FX2( sts[0]->input_Fs, L_MEM_RECALC_TBE_NS ); Copy_Scale_sig_32_16( bufChanL + sub( add( lMemRecalc, lMemRecalc_SCh ), i ), hCPE->hStereoICBWE->icbwe_inp_mem_fx[0], i, -Q16 ); /* q_com-16 */ Copy_Scale_sig_32_16( bufChanR + sub( add( lMemRecalc, lMemRecalc_SCh ), i ), hCPE->hStereoICBWE->icbwe_inp_mem_fx[1], i, -Q16 ); /* q_com-16 */ hCPE->hStereoICBWE->q_dataChan_fx = sub( q_com, Q16 ); @@ -1580,9 +1574,9 @@ void stereo_tca_enc_fx( q_com = sts[0]->q_inp32; move16(); - lMemRecalc = NS2SA( input_Fs, L_MEM_RECALC_NS ); + lMemRecalc = NS2SA_FX2( input_Fs, L_MEM_RECALC_NS ); move16(); - lMemRecalc_SCh = NS2SA( input_Fs, L_MEM_RECALC_SCH_NS ); + lMemRecalc_SCh = NS2SA_FX2( input_Fs, L_MEM_RECALC_SCH_NS ); move16(); IF( EQ_16( hCPE->element_mode, IVAS_CPE_MDCT ) ) @@ -1738,7 +1732,7 @@ void stereo_tca_enc_fx( prev_ICA_flag = 0; move16(); test(); - if ( hCPE->hStereoTD->prev_fr_LRTD_TD_dec && abs( hStereoTCA->prevCorrLagStats[2] ) != 0 ) + if ( hCPE->hStereoTD->prev_fr_LRTD_TD_dec && abs_s( hStereoTCA->prevCorrLagStats[2] ) != 0 ) { prev_ICA_flag = 1; move16(); @@ -1925,7 +1919,7 @@ void stereo_tca_enc_fx( /* Note!! : Always keep the assert (prevNCShift>>1) below according to the equation used here to get tempS */ tempS = shr( currentNCShift, 1 ); /* Q0 */ - IF( LE_32( abs( sub( currentNCShift, prevNCShift ) ), L_min( N_MAX_SHIFT_CHANGE, Mpy_32_32( imult3216( input_Fs, N_MAX_SHIFT_CHANGE ), 67109 /* 1/32000.0f in Q31*/ ) ) ) ) + IF( LE_32( abs_s( sub( currentNCShift, prevNCShift ) ), L_min( N_MAX_SHIFT_CHANGE, Mpy_32_32( imult3216( input_Fs, N_MAX_SHIFT_CHANGE ), 67109 /* 1/32000.0f in Q31*/ ) ) ) ) { adjustTargetSignal_fx( ( target_fx - tempS ), prevNCShift, currentNCShift, L_shift_adapt, 0 ); } @@ -1970,22 +1964,8 @@ void stereo_tca_enc_fx( Word16 temp_exp, tempF_16fx; Word16 scalar_value = BASOP_Util_Divide1616_Scale( currentNCShift, dsFactor, &temp_exp ); /* Q15-temp_exp */ -#ifndef FIX_1300_ICA_SHIFT_QUANT_IMPROV - IF( temp_exp < 0 ) - { - scalar_value = shl( scalar_value, sub( temp_exp, Q3 ) ); // Q12 - hStereoTCA->indx_ica_NCShift = usquant_fx( scalar_value, &tempF_16fx, 0, ONE_IN_Q11, ( 1 << STEREO_BITS_TCA_CORRSTATS ) ); /* Q0 */ - move16(); - } - ELSE - { - hStereoTCA->indx_ica_NCShift = usquant_fx( scalar_value, &tempF_16fx, 0, shl( 1, sub( 14, temp_exp ) ), ( 1 << STEREO_BITS_TCA_CORRSTATS ) ); /* Q0 */ - move16(); - } -#else - scalar_value = shl_sat( scalar_value, sub( temp_exp, 5 ) ); /*Q10*/ - hStereoTCA->indx_ica_NCShift = usquant_fx( scalar_value, &tempF_16fx, 0, 512 /* 0.5 in Q10 */, ( 1 << STEREO_BITS_TCA_CORRSTATS ) ); /* Q0 */ -#endif + scalar_value = shl_sat( scalar_value, sub( temp_exp, 5 ) ); /*Q10*/ + hStereoTCA->indx_ica_NCShift = usquant_fx( scalar_value, &tempF_16fx, 0, 512 /* 0.5 in Q10 */, ( 1 << STEREO_BITS_TCA_CORRSTATS ) ); /* Q0 */ tempF_fx = tempF_16fx; move32(); @@ -2081,7 +2061,7 @@ void stereo_tca_enc_fx( { /* Scale the Right channel with the gain */ Word16 j; - Word16 l_ica_ovl = NS2SA( input_Fs, STEREO_L_TCA_OVLP_NS ); + Word16 l_ica_ovl = NS2SA_FX2( input_Fs, STEREO_L_TCA_OVLP_NS ); Word16 winSlope = div_s( 1, l_ica_ovl ); // Q15 @@ -2265,7 +2245,6 @@ static void unclr_calc_corr_features_fx( side_i = BASOP_Util_Add_Mant32Exp( L_shr( buf1[i], 1 ), sub( 31, q_com ), L_negate( L_shr( buf2[i], 1 ) ), sub( 31, q_com ), &exp ); /* Q31-exp */ ener_side = BASOP_Util_Add_Mant32Exp( ener_side, ener_side_exp, Mpy_32_32( side_i, side_i ), shl( exp, 1 ), &ener_side_exp ); /* Q31-ener_side_exp */ -#ifdef FIX_ISSUE_1125 Word16 n1, n2, prod_i_exp; Word32 x, y, prod_i; n1 = norm_l( buf1[i] ); @@ -2275,9 +2254,6 @@ static void unclr_calc_corr_features_fx( prod_i = Mpy_32_32( x, y ); // q: q_com * 2 + n1 + n2 - 31 prod_i_exp = sub( 62, add( shl( q_com, 1 ), add( n1, n2 ) ) ); sum_prod = BASOP_Util_Add_Mant32Exp( sum_prod, sum_prod_exp, prod_i, prod_i_exp, &sum_prod_exp ); /* Q31-sum_prod_exp */ -#else - sum_prod = BASOP_Util_Add_Mant32Exp( sum_prod, sum_prod_exp, Mpy_32_32( buf1[i], buf2[i] ), sub( 62, shl( q_com, 1 ) ), &sum_prod_exp ); /* Q31-sum_prod_exp */ -#endif } /* average energy of L and R channels */ diff --git a/lib_enc/ivas_stereo_icbwe_enc.c b/lib_enc/ivas_stereo_icbwe_enc_fx.c similarity index 94% rename from lib_enc/ivas_stereo_icbwe_enc.c rename to lib_enc/ivas_stereo_icbwe_enc_fx.c index 8c2d136b7be92d3898083fecb3a7e7dca1744346..eba30f7621eb97cad131d197a949d7d98704f5ee 100644 --- a/lib_enc/ivas_stereo_icbwe_enc.c +++ b/lib_enc/ivas_stereo_icbwe_enc_fx.c @@ -35,12 +35,10 @@ #include #include "cnst.h" #include "ivas_cnst.h" -#include "prot.h" -#include "ivas_prot.h" +#include "prot_fx.h" #include "wmc_auto.h" #include "rom_com.h" #include "ivas_rom_com.h" -#include "prot_fx.h" #include "ivas_prot_fx.h" #include "ivas_rom_com_fx.h" @@ -104,14 +102,15 @@ static Word16 ic_bwe_enc_specMapping_ivas_fx( const Word32 *shb_frame_target_fx, /* i : target shb Q31-shb_frame_target_e*/ Word16 shb_frame_target_e, Word32 *shb_synth_nonref_fx, /* o : non-ref shb synth Q31-shb_synth_nonref_e*/ - Word16 shb_synth_nonref_e, + Word16 *shb_synth_nonref_e, Word32 *specMapping_fx, /* i/o: current frame's mapping Qx*/ - Word32 *memShbSpecMapping_fx, /* i/o: current frame's mapping Qx*/ - Word32 *memShbSpecXcorr_fx, /* i/o: ic bwe spec mapping scorr memory Q31-memShbSpecXcorr_e*/ + Word32 *memShbSpecMapping_fx, /* i/o: current frame's mapping Q31-memShbSpecMapping_e*/ + Word16 *memShbSpecMapping_e, + Word32 *memShbSpecXcorr_fx, /* i/o: ic bwe spec mapping scorr memory Q31-memShbSpecXcorr_e*/ Word16 *memShbSpecXcorr_e ) { Word16 idx; - + Word16 max_exp; Word16 Txx1_fx = 0, Txx2_fx = 0, Txx3_fx = 0, T_desired_fx = 0; Word16 Txx1_e = 0, Txx2_e = 0, Txx3_e = 0, T_desired_e = 0; Word16 T_nonref_target_fx, temp_fx; @@ -138,10 +137,10 @@ static Word16 ic_bwe_enc_specMapping_ivas_fx( temp11_fx = dotp_fixed_ivas_fx( shb_frame_target_fx, shb_frame_target_e, shb_frame_target_fx + 1, shb_frame_target_e, L_FRAME16k - 1, &temp11_exp ); /* Q31-temp1_exp */ /* Calculate rxx(1)/rxx(0) of the non ref synth */ - temp0_fx = dotp_fixed_ivas_fx( shb_synth_nonref_fx, shb_synth_nonref_e, shb_synth_nonref_fx, shb_synth_nonref_e, L_FRAME16k - 3, &temp0_exp ); /* Q31-temp0_exp */ - temp1_fx = dotp_fixed_ivas_fx( shb_synth_nonref_fx, shb_synth_nonref_e, shb_synth_nonref_fx + 1, shb_synth_nonref_e, L_FRAME16k - 3, &temp1_exp ); /* Q31-temp1_exp */ - temp2_fx = dotp_fixed_ivas_fx( shb_synth_nonref_fx, shb_synth_nonref_e, shb_synth_nonref_fx + 2, shb_synth_nonref_e, L_FRAME16k - 3, &temp2_exp ); /* Q31-temp2_exp */ - temp3_fx = dotp_fixed_ivas_fx( shb_synth_nonref_fx, shb_synth_nonref_e, shb_synth_nonref_fx + 3, shb_synth_nonref_e, L_FRAME16k - 3, &temp3_exp ); /* Q31-temp3_exp */ + temp0_fx = dotp_fixed_ivas_fx( shb_synth_nonref_fx, *shb_synth_nonref_e, shb_synth_nonref_fx, *shb_synth_nonref_e, L_FRAME16k - 3, &temp0_exp ); /* Q31-temp0_exp */ + temp1_fx = dotp_fixed_ivas_fx( shb_synth_nonref_fx, *shb_synth_nonref_e, shb_synth_nonref_fx + 1, *shb_synth_nonref_e, L_FRAME16k - 3, &temp1_exp ); /* Q31-temp1_exp */ + temp2_fx = dotp_fixed_ivas_fx( shb_synth_nonref_fx, *shb_synth_nonref_e, shb_synth_nonref_fx + 2, *shb_synth_nonref_e, L_FRAME16k - 3, &temp2_exp ); /* Q31-temp2_exp */ + temp3_fx = dotp_fixed_ivas_fx( shb_synth_nonref_fx, *shb_synth_nonref_e, shb_synth_nonref_fx + 3, *shb_synth_nonref_e, L_FRAME16k - 3, &temp3_exp ); /* Q31-temp3_exp */ exp = s_max( *memShbSpecXcorr_e, s_max( s_max( s_max( temp00_exp, temp11_exp ), s_max( temp0_exp, temp1_exp ) ), s_max( temp2_exp, temp3_exp ) ) ); @@ -293,8 +292,19 @@ static Word16 ic_bwe_enc_specMapping_ivas_fx( *specMapping_fx = L_deposit_h( specMapping16 ); move32(); + max_exp = s_max( sub( *memShbSpecMapping_e, norm_l( *memShbSpecMapping_fx ) ), *shb_synth_nonref_e ); + + *memShbSpecMapping_fx = L_shl( *memShbSpecMapping_fx, sub( *memShbSpecMapping_e, max_exp ) ); // max_exp + move32(); + *memShbSpecMapping_e = max_exp; + move16(); + + scale_sig32( shb_synth_nonref_fx, L_FRAME16k, sub( *shb_synth_nonref_e, max_exp ) ); // max_exp + *shb_synth_nonref_e = max_exp; + move16(); + /* IC-BWE spec mapping */ - deemph_fx_32( 0, shb_synth_nonref_fx, extract_h( *specMapping_fx ), L_FRAME16k, memShbSpecMapping_fx ); + deemph_fx_32( shb_synth_nonref_fx, specMapping16, L_FRAME16k, memShbSpecMapping_fx ); // shb_synth_nonref_e return idx; } @@ -431,7 +441,7 @@ static void icbwe_dft_stereo_param_ivas_fx( STEREO_DFT_ENC_DATA_HANDLE hStereoDft, /* i : */ Encoder_State *st, /* i/o: */ Word32 *shb_synth_nonref_fx, /* i/o: Q31-shb_synth_nonref_e*/ - Word16 shb_synth_nonref_e /* i/o: */ + Word16 *shb_synth_nonref_e /* i/o: */ ) { Word16 slopeILD_fx; @@ -441,7 +451,7 @@ static void icbwe_dft_stereo_param_ivas_fx( Word32 *nrg_L_fx, *nrg_R_fx, *nrg_DMX_fx; Word32 sum_nrg_L_fx, sum_nrg_R_fx, sum_nrg_DMX_fx; const Word32 spec_table_fx[4] = { -1288490189, -858993459, -429496730, 0 }; // Q31 - const Word16 slope_table_fx16[4] = { -17788, -10577, -4822, 0 }; // Q13 + const Word16 slope_table_fx16[4] = { -278, -165, -75, 0 }; // Q7 BSTR_ENC_HANDLE hBstr = st->hBstr; normFac_fx = 1342177280; /* 1000 * (10/((14400+10400)/2 - (6400+10400)/2)) */ // Q29 @@ -507,6 +517,7 @@ static void icbwe_dft_stereo_param_ivas_fx( IF( ( EQ_16( st->extl, SWB_TBE ) || EQ_16( st->extl, WB_TBE ) || EQ_16( st->extl, FB_TBE ) ) && EQ_16( st->flag_ACELP16k, 1 ) ) { /* Spec Mapping Estimate */ + Word16 max_exp; Word16 tmp1, exp1; Word32 L_tmp, L_tmp1; L_tmp = Mpy_32_32( hStereoICBWE->mem_nrg_L_fx[1], hStereoICBWE->mem_nrg_R_fx[0] ); // hStereoICBWE->mem_nrg_L_fx_e[1] + hStereoICBWE->mem_nrg_R_fx_e[1] @@ -529,10 +540,20 @@ static void icbwe_dft_stereo_param_ivas_fx( } hStereoICBWE->prevSpecMapping_fx = spec_table_fx[spIndx]; // q31 - /* ic bwe spec mapping application */ - deemph_fx_32( 0, shb_synth_nonref_fx, extract_l( L_shr( hStereoICBWE->prevSpecMapping_fx, 16 ) ), L_FRAME16k, &hStereoICBWE->memShbSpecMapping_fx ); // shb_synth_nonref_e - hStereoICBWE->memShbSpecMapping_e = shb_synth_nonref_e; + + max_exp = s_max( *shb_synth_nonref_e, sub( hStereoICBWE->memShbSpecMapping_e, norm_l( hStereoICBWE->memShbSpecMapping_fx ) ) ); + + hStereoICBWE->memShbSpecMapping_fx = L_shl( hStereoICBWE->memShbSpecMapping_fx, sub( hStereoICBWE->memShbSpecMapping_e, max_exp ) ); // max_exp + move32(); + hStereoICBWE->memShbSpecMapping_e = max_exp; + move16(); + + scale_sig32( shb_synth_nonref_fx, L_FRAME16k, sub( *shb_synth_nonref_e, max_exp ) ); + *shb_synth_nonref_e = max_exp; move16(); + + /* ic bwe spec mapping application */ + deemph_fx_32( shb_synth_nonref_fx, extract_h( hStereoICBWE->prevSpecMapping_fx ), L_FRAME16k, &hStereoICBWE->memShbSpecMapping_fx ); // shb_synth_nonref_e } ELSE { @@ -574,7 +595,7 @@ static void icbwe_dft_stereo_param_ivas_fx( move32(); move16(); - gsIndx = ic_bwe_enc_gsMapping_ivas_fx( hStereoICBWE->gDes_pastFrame_fx, hStereoICBWE->gDes_pastFrame_e, hStereoICBWE->shbSynthRef_fx, hStereoICBWE->shbSynthRef_e, shb_synth_nonref_fx, &shb_synth_nonref_e, &( hStereoICBWE->prevgsMapping_fx ), &( hStereoICBWE->prevgsMapping_e ), hStereoICBWE->memGsEnerMap_fx, &hStereoICBWE->memGsEnerMap_e, st->element_mode ); /* Q0 */ + gsIndx = ic_bwe_enc_gsMapping_ivas_fx( hStereoICBWE->gDes_pastFrame_fx, hStereoICBWE->gDes_pastFrame_e, hStereoICBWE->shbSynthRef_fx, hStereoICBWE->shbSynthRef_e, shb_synth_nonref_fx, shb_synth_nonref_e, &( hStereoICBWE->prevgsMapping_fx ), &( hStereoICBWE->prevgsMapping_e ), hStereoICBWE->memGsEnerMap_fx, &hStereoICBWE->memGsEnerMap_e, st->element_mode ); /* Q0 */ hStereoICBWE->gDes_pastFrame_fx = L_deposit_h( gDes_fx ); /* Q31-exp */ hStereoICBWE->gDes_pastFrame_e = exp; @@ -802,7 +823,7 @@ void stereo_icBWE_enc_ivas_fx( move16(); } - icbwe_dft_stereo_param_ivas_fx( hStereoICBWE, hStereoDft, st, shb_synth_nonref_fx, shb_synth_nonref_e ); + icbwe_dft_stereo_param_ivas_fx( hStereoICBWE, hStereoDft, st, shb_synth_nonref_fx, &shb_synth_nonref_e ); } ELSE { @@ -811,11 +832,7 @@ void stereo_icBWE_enc_ivas_fx( Copy_Scale_sig( hStereoICBWE->mem_shb_speech_ref_fx, hStereoICBWE->mem_shb_speech_ref_fx, L_LOOK_16k, negate( sub( max_e, hStereoICBWE->mem_shb_speech_ref_e ) ) ); // mem_shb_speech_ref_e set32_fx( shb_frame_ref_fx, 0, L_LOOK_16k + L_FRAME16k ); -#ifdef FIX_ISSUE_1237 Copy_Scale_sig_16_32_no_sat( hStereoICBWE->mem_shb_speech_ref_fx, shb_frame_ref_fx, L_LOOK_16k, add( negate( sub( max_e, hStereoICBWE->mem_shb_speech_ref_e ) ), Q16 ) ); // mem_shb_speech_ref_e -#else - Copy_Scale_sig_16_32_DEPREC( hStereoICBWE->mem_shb_speech_ref_fx, shb_frame_ref_fx, L_LOOK_16k, add( negate( sub( max_e, hStereoICBWE->mem_shb_speech_ref_e ) ), Q16 ) ); // mem_shb_speech_ref_e -#endif hStereoICBWE->mem_shb_speech_ref_e = max_e; shb_frame_ref_e = max_e; move16(); @@ -828,12 +845,8 @@ void stereo_icBWE_enc_ivas_fx( set32_fx( shb_frame_nonref_fx, 0, L_LOOK_16k + L_FRAME16k ); max_e = s_max( hStereoICBWE->mem_shb_speech_nonref_e, shb_speech_nonref_e ); - Copy_Scale_sig( hStereoICBWE->mem_shb_speech_nonref_fx, hStereoICBWE->mem_shb_speech_nonref_fx, L_LOOK_16k, negate( sub( max_e, hStereoICBWE->mem_shb_speech_nonref_e ) ) ); // mem_shb_speech_ref_e -#ifdef FIX_ISSUE_1237 + Copy_Scale_sig( hStereoICBWE->mem_shb_speech_nonref_fx, hStereoICBWE->mem_shb_speech_nonref_fx, L_LOOK_16k, negate( sub( max_e, hStereoICBWE->mem_shb_speech_nonref_e ) ) ); // mem_shb_speech_ref_e Copy_Scale_sig_16_32_no_sat( hStereoICBWE->mem_shb_speech_nonref_fx, shb_frame_nonref_fx, L_LOOK_16k, add( negate( sub( max_e, hStereoICBWE->mem_shb_speech_nonref_e ) ), Q16 ) ); // mem_shb_speech_ref_e -#else - Copy_Scale_sig_16_32_DEPREC( hStereoICBWE->mem_shb_speech_nonref_fx, shb_frame_nonref_fx, L_LOOK_16k, add( negate( sub( max_e, hStereoICBWE->mem_shb_speech_nonref_e ) ), Q16 ) ); // mem_shb_speech_ref_e -#endif hStereoICBWE->mem_shb_speech_nonref_e = max_e; shb_frame_nonref_e = max_e; move16(); @@ -1030,14 +1043,7 @@ void stereo_icBWE_enc_ivas_fx( IF( ( EQ_16( st->extl, SWB_TBE ) || EQ_16( st->extl, WB_TBE ) || EQ_16( st->extl, FB_TBE ) ) && EQ_16( st->flag_ACELP16k, 1 ) ) { /* IC BWE spectral mapping */ - Word32 max_abs_val; - maximum_abs_32_fx( shb_synth_nonref_fx, L_FRAME16k, &max_abs_val ); - IF( max_abs_val > 0 ) - { - scale_sig32( shb_synth_nonref_fx, L_FRAME16k, -1 ); - shb_synth_nonref_e = sub( shb_synth_nonref_e, -1 ); - } - spIndx = ic_bwe_enc_specMapping_ivas_fx( shb_frame_nonref_fx, shb_frame_nonref_e, shb_synth_nonref_fx, shb_synth_nonref_e, &( hStereoICBWE->prevSpecMapping_fx ), &( hStereoICBWE->memShbSpecMapping_fx ), hStereoICBWE->memShbSpecXcorr_fx, &( hStereoICBWE->memShbSpecXcorr_e ) ); /* Q0 */ + spIndx = ic_bwe_enc_specMapping_ivas_fx( shb_frame_nonref_fx, shb_frame_nonref_e, shb_synth_nonref_fx, &shb_synth_nonref_e, &( hStereoICBWE->prevSpecMapping_fx ), &( hStereoICBWE->memShbSpecMapping_fx ), &( hStereoICBWE->memShbSpecMapping_e ), hStereoICBWE->memShbSpecXcorr_fx, &( hStereoICBWE->memShbSpecXcorr_e ) ); /* Q0 */ } ELSE { @@ -1235,9 +1241,7 @@ void stereo_icBWE_preproc_fx( Word32 gD_fx; Word32 input_Fs; -#ifdef MSAN_FIX set16_fx( temp_inp_fx, 0, L_FRAME48k ); -#endif /* initialization */ hStereoTCA = hCPE->hStereoTCA; /* Stereo TCA encoder handle */ @@ -1397,7 +1401,7 @@ void stereo_icBWE_preproc_fx( Scale_sig( temp_inp_fx, L_FRAME48k, sub( 0, hStereoICBWE->q_dataChan_fx ) ); /* q_dataChan_fx */ /* IVAS-219: Re-wire the shb nonref estimation through a lite CLDFB */ - modify_Fs_fx( temp_inp_fx, L_FRAME32k, 32000, tempSHB_fx, 16000, hStereoICBWE->mem_decim_shb_ch0_fx, 0, &Q_new_inp, &mem_decim_size ); + modify_Fs_ivas_fx( temp_inp_fx, L_FRAME32k, 32000, tempSHB_fx, 16000, hStereoICBWE->mem_decim_shb_ch0_fx, 0, &Q_new_inp, &mem_decim_size ); Copy_Scale_sig( tempSHB_fx, shb_speech_nonref_fx, L_FRAME16k, sub( q_shb_speech_nonref_fx, Q_new_inp ) ); /* q_shb_speech_nonref_fx */ diff --git a/lib_enc/ivas_stereo_mdct_core_enc.c b/lib_enc/ivas_stereo_mdct_core_enc_fx.c similarity index 73% rename from lib_enc/ivas_stereo_mdct_core_enc.c rename to lib_enc/ivas_stereo_mdct_core_enc_fx.c index b43c8dfdb63edfd26f06c206672f6b2d0dfd3773..46134a27003ae2e970766643382ee84a84056feb 100644 --- a/lib_enc/ivas_stereo_mdct_core_enc.c +++ b/lib_enc/ivas_stereo_mdct_core_enc_fx.c @@ -35,9 +35,7 @@ #include "options.h" #include #include "cnst.h" -#include "prot.h" #include "prot_fx.h" -#include "ivas_prot.h" #include "rom_com.h" #include "wmc_auto.h" #include "ivas_prot_fx.h" @@ -53,13 +51,13 @@ static void sync_tcx_mode_fx( Encoder_State **st /* i/o: Encoder state */ ) { - const Word32 prevAccNrg0 = st[0]->hTranDet->subblockEnergies.accSubblockNrg[st[0]->hTranDet->subblockEnergies.nDelay]; /* Q0 */ + const Word32 prevAccNrg0 = st[0]->hTranDet->subblockEnergies.accSubblockNrg[st[0]->hTranDet->subblockEnergies.nDelay]; /* Q(-1) */ move32(); - const Word32 prevAccNrg1 = st[1]->hTranDet->subblockEnergies.accSubblockNrg[st[1]->hTranDet->subblockEnergies.nDelay]; /* Q0 */ + const Word32 prevAccNrg1 = st[1]->hTranDet->subblockEnergies.accSubblockNrg[st[1]->hTranDet->subblockEnergies.nDelay]; /* Q(-1) */ move32(); - const Word32 lastAccNrg0 = st[0]->hTranDet->subblockEnergies.accSubblockNrg[( st[0]->hTranDet->subblockEnergies.nDelay + st[0]->hTranDet->transientDetector.nSubblocksToCheck )]; /* Q0 */ + const Word32 lastAccNrg0 = st[0]->hTranDet->subblockEnergies.accSubblockNrg[( st[0]->hTranDet->subblockEnergies.nDelay + st[0]->hTranDet->transientDetector.nSubblocksToCheck )]; /* Q(-1) */ move32(); - const Word32 lastAccNrg1 = st[1]->hTranDet->subblockEnergies.accSubblockNrg[( st[1]->hTranDet->subblockEnergies.nDelay + st[1]->hTranDet->transientDetector.nSubblocksToCheck )]; /* Q0 */ + const Word32 lastAccNrg1 = st[1]->hTranDet->subblockEnergies.accSubblockNrg[( st[1]->hTranDet->subblockEnergies.nDelay + st[1]->hTranDet->transientDetector.nSubblocksToCheck )]; /* Q(-1) */ move32(); test(); @@ -137,16 +135,15 @@ void stereo_mdct_core_enc_fx( { Word32 orig_spectrum_long_fx[CPE_CHANNELS][N_MAX]; /* MDCT output (L/R). */ Word32 *orig_spectrum_fx[CPE_CHANNELS][NB_DIV]; /* Pointers to MDCT output for a short block (L/R) */ - Word32 powerSpec_fx[CPE_CHANNELS][N_MAX]; - Word32 powerSpec_fx_tmp[CPE_CHANNELS][N_MAX]; /* This 32 bit buffer is created to preserve the precision for original separate Q calculation of powerSpec_fx buffer ( Related to 3gpp issue #1192 ) */ - Word32 *p_powerSpec_fx[CPE_CHANNELS]; - Word16 exp_powerSpec[CPE_CHANNELS][N_MAX + L_MDCT_OVLP_MAX]; + Word64 powerSpec64[CPE_CHANNELS][N_MAX]; + Word16 exp_powerSpec64[CPE_CHANNELS][NB_DIV]; Word32 powerSpecMsInv_long_fx[CPE_CHANNELS][N_MAX]; /* MS inv power spectrum, also inverse MDST spectrum */ Word32 *powerSpecMsInv_fx[CPE_CHANNELS][NB_DIV]; Word32 quantized_spectrum_long_fx[CPE_CHANNELS][N_MAX]; /* quantized MDCT spectrum, inv ms mask mdst spectrum, scratch for MS spectra in the MS decision */ Word32 *quantized_spectrum_fx[CPE_CHANNELS][NB_DIV]; Word32 *inv_mdst_spectrum_fx[CPE_CHANNELS][NB_DIV]; Word32 *inv_spectrum_fx[CPE_CHANNELS][NB_DIV]; + Word16 exp_inv_spectrum[CPE_CHANNELS]; Word16 i, ch, nSubframes, L_subframeTCX; Word16 n, nAvailBits; Word16 tnsSize[CPE_CHANNELS][NB_DIV]; /* number of tns parameters put into prm */ @@ -155,8 +152,8 @@ void stereo_mdct_core_enc_fx( Word32 *p_mdst_spectrum_long_fx[CPE_CHANNELS]; Word32 mdst_spectrum_long_fx[CPE_CHANNELS][N_MAX]; Word32 *mdst_spectrum_fx[CPE_CHANNELS][NB_DIV]; - Word16 q_powSpec[MCT_MAX_CHANNELS], q_powSpecMsInv[MCT_MAX_CHANNELS], q_spec, tmp_s; - Word16 tmp_q_powSpec[N_MAX], tmp_q_powSpecInv[N_MAX], *tmp_q_psi[2]; + Word16 exp_powSpecMsInv[MCT_MAX_CHANNELS], q_spec, tmp_s; + Word16 tmp_q_powSpecInv[N_MAX], *tmp_q_psi[2]; Word64 W_tmp; Encoder_State *st, **sts; STEREO_MDCT_ENC_DATA_HANDLE hStereoMdct; @@ -180,21 +177,16 @@ void stereo_mdct_core_enc_fx( FOR( ch = 0; ch < CPE_CHANNELS; ch++ ) { -#ifdef MSAN_FIX set32_fx( mdst_spectrum_long_fx[ch], 0, N_MAX ); set32_fx( orig_spectrum_long_fx[ch], 0, N_MAX ); -#endif p_mdst_spectrum_long_fx[ch] = mdst_spectrum_long_fx[ch]; p_orig_spectrum_long_fx[ch] = orig_spectrum_long_fx[ch]; orig_spectrum_fx[ch][0] = orig_spectrum_long_fx[ch]; orig_spectrum_fx[ch][1] = orig_spectrum_long_fx[ch] + N_TCX10_MAX; - set16_fx( exp_powerSpec[ch], 0, N_MAX + L_MDCT_OVLP_MAX ); + set16_fx( exp_powerSpec64[ch], 0, NB_DIV ); } set16_fx( tmp_q_powSpecInv, 63, N_MAX ); - set16_fx( tmp_q_powSpec, 63, N_MAX ); - set16_fx( q_powSpec, 31, MCT_MAX_CHANNELS ); - set16_fx( q_powSpecMsInv, 31, MCT_MAX_CHANNELS ); tmp_q_psi[0] = tmp_q_powSpecInv; tmp_q_psi[1] = &tmp_q_powSpecInv[N_TCX10_MAX]; @@ -254,7 +246,10 @@ void stereo_mdct_core_enc_fx( hCPE->hStereoMdct->stbParamsTCX20.nBandsStereoCore = hCPE->hStereoMdct->stbParamsTCX20.sfbCnt; move16(); } - + Word16 len = extract_l( Mpy_32_32( sts[0]->input_Fs, ONE_BY_FRAMES_PER_SEC_Q31 ) ); + Word16 q_com = s_min( s_min( add( sts[0]->q_inp, getScaleFactor16( sts[0]->input_fx, add( len, NS2SA( 48000, DELAY_FIR_RESAMPL_NS ) ) ) ), add( sts[0]->q_old_inp, getScaleFactor16( sts[0]->old_input_signal_fx, len ) ) ), + s_min( add( sts[1]->q_inp, getScaleFactor16( sts[1]->input_fx, add( len, NS2SA( 48000, DELAY_FIR_RESAMPL_NS ) ) ) ), add( sts[1]->q_old_inp, getScaleFactor16( sts[1]->old_input_signal_fx, len ) ) ) ); + q_com = sub( q_com, Q1 ); FOR( ch = 0; ch < CPE_CHANNELS; ch++ ) { inv_mdst_spectrum_fx[ch][0] = powerSpecMsInv_fx[ch][0] = powerSpecMsInv_long_fx[ch]; @@ -265,22 +260,21 @@ void stereo_mdct_core_enc_fx( inv_spectrum_fx[ch][1] = quantized_spectrum_fx[ch][1]; mdst_spectrum_fx[ch][0] = mdst_spectrum_long_fx[ch]; mdst_spectrum_fx[ch][1] = mdst_spectrum_long_fx[ch] + N_TCX10_MAX; + set64_fx( powerSpec64[ch], 0, N_MAX ); set32_fx( powerSpecMsInv_long_fx[ch], 0, N_MAX ); set32_fx( quantized_spectrum_long_fx[ch], 0, N_MAX ); set32_fx( mdst_spectrum_long_fx[ch], 0, N_MAX ); - set32_fx( powerSpec_fx[ch], 0, N_MAX ); - set32_fx( powerSpec_fx_tmp[ch], 0, N_MAX ); set32_fx( powerSpecMsInv_long_fx[ch], 0, N_MAX ); sts[ch]->hTcxEnc->tns_ms_flag[0] = 0; move16(); sts[ch]->hTcxEnc->tns_ms_flag[1] = 0; move16(); - Scale_sig( sts[ch]->input_fx, add( extract_l( Mpy_32_32( sts[ch]->input_Fs, ONE_BY_FRAMES_PER_SEC_Q31 ) ), NS2SA( 48000, DELAY_FIR_RESAMPL_NS ) ), negate( sts[ch]->q_inp ) ); /* Q0 */ - Scale_sig( sts[ch]->old_input_signal_fx, extract_l( Mpy_32_32( sts[ch]->input_Fs, ONE_BY_FRAMES_PER_SEC_Q31 ) ), negate( sts[ch]->q_old_inp ) ); /* Q0 */ - sts[ch]->q_old_inp = 0; + scale_sig( sts[ch]->input_fx, add( extract_l( Mpy_32_32( sts[ch]->input_Fs, ONE_BY_FRAMES_PER_SEC_Q31 ) ), NS2SA( 48000, DELAY_FIR_RESAMPL_NS ) ), sub( q_com, sts[ch]->q_inp ) ); /* q_com */ + scale_sig( sts[ch]->old_input_signal_fx, extract_l( Mpy_32_32( sts[ch]->input_Fs, ONE_BY_FRAMES_PER_SEC_Q31 ) ), sub( q_com, sts[ch]->q_old_inp ) ); /* q_com */ + sts[ch]->q_old_inp = q_com; move16(); - sts[ch]->q_inp = 0; + sts[ch]->q_inp = q_com; move16(); } @@ -362,17 +356,38 @@ void stereo_mdct_core_enc_fx( } q_spec = sub( Q31, q_spec ); + /*find headroom to increase precision*/ + Word16 hdrm_min = MAX_16; + move16(); FOR( ch = 0; ch < CPE_CHANNELS; ch++ ) { - Word16 n_sb = NB_DIV; + length = sts[ch]->hTcxEnc->spectrum_length; move16(); - if ( EQ_16( sts[ch]->hTcxEnc->tcxMode, TCX_20 ) ) + IF( NE_16( sts[ch]->hTcxEnc->tcxMode, TCX_20 ) ) { - n_sb = 1; - move16(); + length = shr( length, 1 ); + } + + hdrm_min = s_min( hdrm_min, L_norm_arr( sts[ch]->hTcxEnc->spectrum_fx[0], length ) ); + hdrm_min = s_min( hdrm_min, L_norm_arr( mdst_spectrum_fx[ch][0], length ) ); + + IF( NE_16( sts[ch]->hTcxEnc->tcxMode, TCX_20 ) ) + { + hdrm_min = s_min( hdrm_min, L_norm_arr( sts[ch]->hTcxEnc->spectrum_fx[1], length ) ); + hdrm_min = s_min( hdrm_min, L_norm_arr( mdst_spectrum_fx[ch][1], length ) ); } - length = idiv1616( sts[ch]->hTcxEnc->L_frameTCX, n_sb ); /* Q0 */ + } + q_spec = sub( add( hdrm_min, q_spec ), 1 ); /* 1 guard bit to avoid over-flows in stereo_coder_tcx_fx */ + + FOR( ch = 0; ch < CPE_CHANNELS; ch++ ) + { + length = sts[ch]->hTcxEnc->spectrum_length; + move16(); + IF( NE_16( sts[ch]->hTcxEnc->tcxMode, TCX_20 ) ) + { + length = shr( length, 1 ); + } FOR( k = 0; k <= ( ( sts[ch]->core == TCX_20_CORE ) ? 1 : NB_DIV ) - 1; k++ ) { Scale_sig32( sts[ch]->hTcxEnc->spectrum_fx[k], length, sub( q_spec, sub( Q31, sts[ch]->hTcxEnc->spectrum_e[k] ) ) ); /* q_spec */ @@ -382,12 +397,16 @@ void stereo_mdct_core_enc_fx( } } stereo_coder_tcx_fx( hStereoMdct, sts, ms_mask, mdst_spectrum_fx, inv_spectrum_fx, inv_mdst_spectrum_fx, 0, q_spec ); + exp_inv_spectrum[0] = exp_inv_spectrum[1] = sub( Q31, q_spec ); + move16(); + move16(); } /*--------------------------------------------------------------* * Power spectrum calculation *---------------------------------------------------------------*/ - Word16 length; + Word16 length, exp, shift1, shift2, norm; + Word32 mdct, mdst; FOR( ch = 0; ch < CPE_CHANNELS; ch++ ) { @@ -417,17 +436,13 @@ void stereo_mdct_core_enc_fx( IF( sts[ch]->hTcxEnc->tns_ms_flag[n] ) { + exp = add( s_max( mdst_spectrum_e[ch][n], sts[ch]->hTcxEnc->spectrum_e[n] ), 1 ); + shift1 = sub( mdst_spectrum_e[ch][n], exp ); + shift2 = sub( sts[ch]->hTcxEnc->spectrum_e[n], exp ); + /* power spectrum: MDCT^2 + MDST^2 */ FOR( i = 0; i < L_subframeTCX; i++ ) { - W_tmp = W_mac_32_32( W_mult_32_32( mdst_spectrum_fx[ch][n][i], mdst_spectrum_fx[ch][n][i] ), sts[ch]->hTcxEnc->spectrum_fx[n][i], sts[ch]->hTcxEnc->spectrum_fx[n][i] ); /* 2*q_spec+1 */ - tmp_s = W_norm( W_tmp ); - W_tmp = W_shl( W_tmp, tmp_s ); /* 2*q_spec+1+tmp_s */ - powerSpec_fx[ch][( i + ( n * L_subframeTCX ) )] = W_extract_h( W_tmp ); /* 2*q_spec+1+tmp_s-32 */ - tmp_q_powSpec[( i + ( n * L_subframeTCX ) )] = sub( add( imult1616( q_spec, 2 ), tmp_s ), 31 ); // Q = 2 * q_spec + 1 + tmp_s - 32 - move32(); - move16(); - W_tmp = W_mac_32_32( W_mult_32_32( inv_mdst_spectrum_fx[ch][n][i], inv_mdst_spectrum_fx[ch][n][i] ), inv_spectrum_fx[ch][n][i], inv_spectrum_fx[ch][n][i] ); /* 2*q_spec+1 */ tmp_s = W_norm( W_tmp ); W_tmp = W_shl( W_tmp, tmp_s ); /* 2*q_spec+1+tmp_s */ @@ -435,7 +450,14 @@ void stereo_mdct_core_enc_fx( tmp_q_psi[n][i] = sub( add( imult1616( q_spec, 2 ), tmp_s ), 31 ); // Q = 2 * q_spec + 1 + tmp_s - 32 move32(); move16(); + + mdst = L_shl( mdst_spectrum_fx[ch][n][i], shift1 ); // exp: exp + mdct = L_shl( sts[ch]->hTcxEnc->spectrum_fx[n][i], shift2 ); // exp: exp + powerSpec64[ch][i + n * L_subframeTCX] = W_mac_32_32( W_mult_32_32( mdct, mdct ), mdst, mdst ); // exp: 2*exp + move64(); } + exp_powerSpec64[ch][n] = shl( exp, 1 ); + move16(); } ELSE { @@ -473,77 +495,51 @@ void stereo_mdct_core_enc_fx( } /* power spectrum: MDCT^2 + MDST^2 */ - W_tmp = W_mult_32_32( sts[ch]->hTcxEnc->spectrum_fx[n][0], sts[ch]->hTcxEnc->spectrum_fx[n][0] ); /* 2*q_spec+1 */ - tmp_s = W_norm( W_tmp ); - W_tmp = W_shl( W_tmp, tmp_s ); /* 2*q_spec+1+tmp_s */ - powerSpec_fx[ch][n * L_subframeTCX] = W_extract_h( W_tmp ); /* 2*q_spec+1+tmp_s-32 */ - tmp_q_powSpec[n * L_subframeTCX] = sub( add( imult1616( q_spec, 2 ), tmp_s ), 31 ); // Q = 2 * q_spec + 1 + tmp_s - 32 - move32(); - move16(); + mdct = L_shr( sts[ch]->hTcxEnc->spectrum_fx[n][0], 1 ); // exp: sts[ch]->hTcxEnc->spectrum_e[n]+1 + powerSpec64[ch][n * L_subframeTCX] = W_mult_32_32( mdct, mdct ); // exp: 2(sts[ch]->hTcxEnc->spectrum_e[n]+1) + move64(); FOR( i = 1; i < L_subframeTCX - 1; i++ ) { - Word32 mdst_fx = L_sub( sts[ch]->hTcxEnc->spectrum_fx[n][i + 1], sts[ch]->hTcxEnc->spectrum_fx[n][i - 1] ); /* An MDST estimate q_spec*/ - - W_tmp = W_mac_32_32( W_mult_32_32( mdst_fx, mdst_fx ), sts[ch]->hTcxEnc->spectrum_fx[n][i], sts[ch]->hTcxEnc->spectrum_fx[n][i] ); /* 2*q_spec+1 */ - tmp_s = W_norm( W_tmp ); - W_tmp = W_shl( W_tmp, tmp_s ); /* 2*q_spec+1+tmp_s */ - powerSpec_fx[ch][( i + ( n * L_subframeTCX ) )] = W_extract_h( W_tmp ); /* 2*q_spec+1+tmp_s-32 */ - tmp_q_powSpec[( i + ( n * L_subframeTCX ) )] = sub( add( imult1616( q_spec, 2 ), tmp_s ), 31 ); // Q = 2 * q_spec + 1 + tmp_s - 32 - move32(); - move16(); + mdct = L_shr( sts[ch]->hTcxEnc->spectrum_fx[n][i], 1 ); // exp: sts[ch]->hTcxEnc->spectrum_e[n]+1 + mdst = L_sub( L_shr( sts[ch]->hTcxEnc->spectrum_fx[n][i + 1], 1 ), L_shr( sts[ch]->hTcxEnc->spectrum_fx[n][i - 1], 1 ) ); // exp: sts[ch]->hTcxEnc->spectrum_e[n]+1 + powerSpec64[ch][i + n * L_subframeTCX] = W_mac_32_32( W_mult_32_32( mdct, mdct ), mdst, mdst ); // exp: 2(sts[ch]->hTcxEnc->spectrum_e[n]+1) + move64(); } - W_tmp = W_mult_32_32( sts[ch]->hTcxEnc->spectrum_fx[n][L_subframeTCX - 1], sts[ch]->hTcxEnc->spectrum_fx[n][L_subframeTCX - 1] ); /* 2*q_spec+1 */ - tmp_s = W_norm( W_tmp ); - W_tmp = W_shl( W_tmp, tmp_s ); /* 2*q_spec+1+tmp_s */ - powerSpec_fx[ch][( ( L_subframeTCX - 1 ) + ( n * L_subframeTCX ) )] = W_extract_h( W_tmp ); /* 2*q_spec+1+tmp_s-32 */ - tmp_q_powSpec[( ( L_subframeTCX - 1 ) + ( n * L_subframeTCX ) )] = sub( add( imult1616( q_spec, 2 ), tmp_s ), 31 ); // Q = 2 * q_spec + 1 + tmp_s - 32 - move32(); + mdct = L_shr( sts[ch]->hTcxEnc->spectrum_fx[n][L_subframeTCX - 1], 1 ); // exp: sts[ch]->hTcxEnc->spectrum_e[n]+1 + powerSpec64[ch][L_subframeTCX - 1 + n * L_subframeTCX] = W_mult_32_32( mdct, mdct ); // exp: 2(sts[ch]->hTcxEnc->spectrum_e[n]+1) + move64(); + + exp_powerSpec64[ch][n] = shl( add( sts[ch]->hTcxEnc->spectrum_e[n], 1 ), 1 ); move16(); } } /* Aligning the Q-factors */ { - q_powSpec[ch] = Q31; - q_powSpecMsInv[ch] = Q31; - move16(); + Word16 q_temp = Q31; move16(); - FOR( i = 0; i < N_MAX; i++ ) - { - IF( powerSpec_fx[ch][i] != 0 ) - { - q_powSpec[ch] = s_min( q_powSpec[ch], tmp_q_powSpec[i] ); - move16(); - exp_powerSpec[ch][i] = sub( Q31, tmp_q_powSpec[i] ); - move16(); - } - } FOR( n = 0; n < nSubframes; n++ ) { FOR( i = 0; i < L_subframeTCX; i++ ) { - IF( powerSpecMsInv_fx[ch][n][i] != 0 ) + if ( powerSpecMsInv_fx[ch][n][i] != 0 ) { - q_powSpecMsInv[ch] = s_min( q_powSpecMsInv[ch], tmp_q_psi[n][i] ); - move16(); + q_temp = s_min( q_temp, tmp_q_psi[n][i] ); } } } - FOR( n = 0; n < nSubframes; n++ ) { FOR( i = 0; i < L_subframeTCX; i++ ) { - powerSpecMsInv_fx[ch][n][i] = L_shr_sat( powerSpecMsInv_fx[ch][n][i], sub( tmp_q_psi[n][i], q_powSpecMsInv[ch] ) ); - /* Here precision is preserved for powerSpec_fx buffer by storing the fixed Q copy of same buffer in powerSpec_fx_tmp buffer */ - /* powerSpec_fx implementation has separate Q for each index, powerSpec_fx_tmp has all indices in same Q beyond this point */ - powerSpec_fx_tmp[ch][( i + ( n * L_subframeTCX ) )] = L_shr( powerSpec_fx[ch][( i + ( n * L_subframeTCX ) )], sub( tmp_q_powSpec[i + ( n * L_subframeTCX )], q_powSpec[ch] ) ); /* q_powSpec */ - move32(); + powerSpecMsInv_fx[ch][n][i] = L_shr_sat( powerSpecMsInv_fx[ch][n][i], sub( tmp_q_psi[n][i], q_temp ) ); move32(); } } + exp_powSpecMsInv[ch] = sub( Q31, q_temp ); + move16(); } } @@ -576,8 +572,9 @@ void stereo_mdct_core_enc_fx( * and quantization (0: tonal, 1: noise-like). * * Detect low pass if present. * *-----------------------------------------------------------*/ - ComputeSpectrumNoiseMeasure_fx( powerSpec_fx_tmp[ch], L_subframeTCX, i_mult( st->hTcxEnc->nmStartLine, idiv1616( L_subframeTCX, st->hTcxEnc->L_frameTCX ) ), - NE_32( imult3216( st->last_sr_core, st->L_frame ), imult3216( st->sr_core, st->L_frame_past ) ) || NE_16( st->last_core, TCX_20_CORE ), st->hTcxEnc->memQuantZeros, L_subframeTCX ); + ComputeSpectrumNoiseMeasure_ivas_fx( powerSpec64[ch], L_subframeTCX, i_mult( st->hTcxEnc->nmStartLine, idiv1616( L_subframeTCX, st->hTcxEnc->L_frameTCX ) ), + NE_32( imult3216( st->last_sr_core, st->L_frame ), imult3216( st->sr_core, st->L_frame_past ) ) || NE_16( st->last_core, TCX_20_CORE ), + st->hTcxEnc->memQuantZeros, L_subframeTCX ); } st->hTcxEnc->measuredBwRatio = ONE_IN_Q14; /* No bandwidth limit for the noise filling Q14*/ @@ -610,53 +607,98 @@ void stereo_mdct_core_enc_fx( IF( ( NE_16( hStereoMdct->mdct_stereo_mode[n], hStereoMdct->IGFStereoMode[n] ) || EQ_16( hStereoMdct->mdct_stereo_mode[n], SMDCT_BW_MS ) ) && !hStereoMdct->isSBAStereoMode ) { IGF_ENC_INSTANCE_HANDLE hIGFEnc[CPE_CHANNELS]; - p_powerSpec_fx[0] = powerSpec_fx_tmp[0]; - p_powerSpec_fx[1] = powerSpec_fx_tmp[1]; - hIGFEnc[0] = sts[0]->hIGFEnc; - hIGFEnc[1] = sts[1]->hIGFEnc; - - FOR( ch = 0; ch < CPE_CHANNELS; ch++ ) + Word32 powerSpec_fx[CPE_CHANNELS][N_MAX], *p_powerSpec_fx[CPE_CHANNELS]; + Word16 exp_powSpec[CPE_CHANNELS]; + p_powerSpec_fx[0] = powerSpec_fx[0]; + p_powerSpec_fx[1] = powerSpec_fx[1]; { - q_spec = sub( Q31, sts[ch]->hTcxEnc->spectrum_e[n] ); - Word16 q_comm = s_min( sub( Q31, sts[ch]->hTcxEnc->spectrum_e[n] ), s_min( q_powSpec[ch], q_powSpecMsInv[ch] ) ); - Word16 n_sb = NB_DIV; - move16(); - if ( EQ_16( sts[ch]->hTcxEnc->tcxMode, TCX_20 ) ) + /* Copy powerSpec values from 64 bit buffer to 32 bit buffer */ + FOR( ch = 0; ch < CPE_CHANNELS; ch++ ) { - n_sb = 1; + Word16 n1, nsub = 1; + length = sts[ch]->hTcxEnc->L_frameTCX; move16(); - } - length = idiv1616( sts[ch]->hTcxEnc->L_frameTCX, n_sb ); /* Q0 */ - IF( NE_16( q_spec, q_comm ) ) - { - Scale_sig32( sts[ch]->hTcxEnc->spectrum_fx[n], length, sub( q_comm, q_spec ) ); /* q_powSpec */ - Scale_sig32( inv_spectrum_fx[ch][n], length, sub( q_comm, q_spec ) ); /* q_powSpec */ - sts[ch]->hTcxEnc->spectrum_e[n] = sub( Q31, q_comm ); - move16(); - } - IF( NE_16( q_powSpec[ch], q_comm ) ) - { - Scale_sig32( &p_powerSpec_fx[ch][0], L_subframeTCX, sub( q_comm, q_powSpec[ch] ) ); /* q_spec */ - q_powSpec[ch] = q_comm; move16(); - } - IF( NE_16( q_powSpecMsInv[ch], q_comm ) ) - { - Scale_sig32( powerSpecMsInv_fx[ch][0], L_subframeTCX, sub( q_comm, q_powSpecMsInv[ch] ) ); /* q_spec */ - q_powSpecMsInv[ch] = q_comm; + IF( NE_16( sts[ch]->hTcxEnc->tcxMode, TCX_20 ) ) + { + length = shr( sts[ch]->hTcxEnc->L_frameTCX, 1 ); + nsub = NB_DIV; + move16(); + } + IF( EQ_16( sts[ch]->last_core, ACELP_CORE ) ) + { + length = add( length, shr( length, 2 ) ); + } + exp = sub( exp_powerSpec64[ch][0], W_norm_arr( powerSpec64[ch], length ) ); + IF( EQ_16( nsub, 2 ) ) + { + exp = s_max( exp, sub( exp_powerSpec64[ch][1], W_norm_arr( powerSpec64[ch] + length, length ) ) ); + } + FOR( n1 = 0; n1 < nsub; n1++ ) + { + shift1 = sub( sub( exp_powerSpec64[ch][n1], exp ), 32 ); + FOR( i = 0; i < length; i++ ) + { + /* This doesn't result in saturation */ + powerSpec_fx[ch][i + n1 * length] = W_shl_sat_l( powerSpec64[ch][i + n1 * length], shift1 ); // exp: exp + move32(); + } + } + set32_fx( powerSpec_fx[ch] + length, 0, sub( N_MAX, length ) ); + exp_powSpec[ch] = exp; // exp: exp move16(); } } + + hIGFEnc[0] = sts[0]->hIGFEnc; + hIGFEnc[1] = sts[1]->hIGFEnc; hIGFEnc[0]->spec_be_igf_e = p_orig_spectrum_e[0]; - move16(); hIGFEnc[1]->spec_be_igf_e = p_orig_spectrum_e[1]; move16(); - ProcessStereoIGF_fx( hStereoMdct, sts, ms_mask, - orig_spectrum_fx, sub( Q31, p_orig_spectrum_e[0] ), sub( Q31, p_orig_spectrum_e[1] ), - p_powerSpec_fx, powerSpecMsInv_fx, inv_spectrum_fx, n, hCPE->hCoreCoder[0]->sp_aud_decision0, hCPE->hCoreCoder[0]->element_brate, 0 ); + move16(); + + ProcessStereoIGF_fx( hStereoMdct, sts, ms_mask, orig_spectrum_fx, sub( Q31, p_orig_spectrum_e[0] ), sub( Q31, p_orig_spectrum_e[1] ), + p_powerSpec_fx, exp_powSpec, powerSpecMsInv_fx, exp_powSpecMsInv, inv_spectrum_fx, exp_inv_spectrum, + n, hCPE->hCoreCoder[0]->sp_aud_decision0, hCPE->hCoreCoder[0]->element_brate, 0 ); } ELSE { + Word32 powerSpec_fx[CPE_CHANNELS][N_MAX]; // each value has a different exponent + Word16 exp_powerSpec[CPE_CHANNELS][N_MAX + L_MDCT_OVLP_MAX]; + { + /* Copy powerSpec values from 64 bit buffer to 32 bit buffer */ + FOR( ch = 0; ch < CPE_CHANNELS; ch++ ) + { + Word16 n1, nsub; + nsub = 1; + length = sts[ch]->hTcxEnc->L_frameTCX; + move16(); + move16(); + IF( NE_16( sts[ch]->hTcxEnc->tcxMode, TCX_20 ) ) + { + length = shr( sts[ch]->hTcxEnc->L_frameTCX, 1 ); + nsub = NB_DIV; + move16(); + } + IF( EQ_16( sts[ch]->last_core, ACELP_CORE ) ) + { + length = add( length, shr( length, 2 ) ); + } + FOR( n1 = 0; n1 < nsub; n1++ ) + { + FOR( i = 0; i < length; i++ ) + { + norm = W_norm( powerSpec64[ch][i + n1 * length] ); + powerSpec_fx[ch][i + n1 * length] = W_extract_h( W_shl( powerSpec64[ch][i + n1 * length], norm ) ); // exp = exp_powerSpec64[ch][n1]-norm + exp_powerSpec[ch][i + n1 * length] = sub( exp_powerSpec64[ch][n1], norm ); + move32(); + move16(); + } + } + set32_fx( powerSpec_fx[ch] + length, 0, sub( N_MAX, length ) ); + set16_fx( exp_powerSpec[ch] + length, 0, sub( N_MAX + L_MDCT_OVLP_MAX, length ) ); + } + } FOR( ch = 0; ch < CPE_CHANNELS; ch++ ) { st = sts[ch]; @@ -676,17 +718,49 @@ void stereo_mdct_core_enc_fx( q_spectrum = sub( Q31, st->hTcxEnc->spectrum_e[n] ); Scale_sig32( orig_spectrum_fx[ch][n], st->hIGFEnc->infoStopLine, sub( q_spectrum, sub( Q31, p_orig_spectrum_e[ch] ) ) ); /* q_spectrum */ -#ifndef MSAN_FIX - ProcessIGF_ivas_fx( st, st->hTcxEnc->spectrum_fx[n], orig_spectrum_fx[ch][n], &q_spectrum, &powerSpec_fx[ch][n * L_subframeTCX], &exp_powerSpec[ch][n * L_subframeTCX], st->core == TCX_20_CORE, n, hCPE->hCoreCoder[0]->sp_aud_decision0, 0 ); -#else ProcessIGF_ivas_fx( st, N_MAX, st->hTcxEnc->spectrum_fx[n], orig_spectrum_fx[ch][n], &q_spectrum, &powerSpec_fx[ch][n * L_subframeTCX], &exp_powerSpec[ch][n * L_subframeTCX], st->core == TCX_20_CORE, n, hCPE->hCoreCoder[0]->sp_aud_decision0, 0 ); -#endif } } } } ELSE { + Word32 powerSpec_fx[CPE_CHANNELS][N_MAX]; // each value has a different exponent + Word16 exp_powerSpec[CPE_CHANNELS][N_MAX + L_MDCT_OVLP_MAX]; + { + /* Copy powerSpec values from 64 bit buffer to 32 bit buffer */ + FOR( ch = 0; ch < CPE_CHANNELS; ch++ ) + { + Word16 n1, nsub; + nsub = 1; + length = sts[ch]->hTcxEnc->L_frameTCX; + move16(); + move16(); + IF( NE_16( sts[ch]->hTcxEnc->tcxMode, TCX_20 ) ) + { + length = shr( sts[ch]->hTcxEnc->L_frameTCX, 1 ); + nsub = NB_DIV; + move16(); + } + IF( EQ_16( sts[ch]->last_core, ACELP_CORE ) ) + { + length = add( length, shr( length, 2 ) ); + } + FOR( n1 = 0; n1 < nsub; n1++ ) + { + FOR( i = 0; i < length; i++ ) + { + norm = W_norm( powerSpec64[ch][i + n1 * length] ); + powerSpec_fx[ch][i + n1 * length] = W_extract_h( W_shl( powerSpec64[ch][i + n1 * length], norm ) ); // exp = exp_powerSpec64[ch][n1]-norm + exp_powerSpec[ch][i + n1 * length] = sub( exp_powerSpec64[ch][n1], norm ); + move32(); + move16(); + } + } + set32_fx( powerSpec_fx[ch] + length, 0, sub( N_MAX, length ) ); + set16_fx( exp_powerSpec[ch] + length, 0, sub( N_MAX + L_MDCT_OVLP_MAX, length ) ); + } + } FOR( ch = 0; ch < CPE_CHANNELS; ch++ ) { st = sts[ch]; @@ -721,11 +795,7 @@ void stereo_mdct_core_enc_fx( Scale_sig32( orig_spectrum_fx[ch][n], st->hIGFEnc->infoStopLine, sub( q_spectrum, sub( Q31, p_orig_spectrum_e[ch] ) ) ); /* q_spectrum */ -#ifndef MSAN_FIX - ProcessIGF_ivas_fx( st, st->hTcxEnc->spectrum_fx[n], orig_spectrum_fx[ch][n], &q_spectrum, &powerSpec_fx[ch][n * L_subframeTCX], &exp_powerSpec[ch][n * L_subframeTCX], st->core == TCX_20_CORE, n, hCPE->hCoreCoder[0]->sp_aud_decision0, 0 ); -#else ProcessIGF_ivas_fx( st, N_MAX, st->hTcxEnc->spectrum_fx[n], orig_spectrum_fx[ch][n], &q_spectrum, &powerSpec_fx[ch][n * L_subframeTCX], &exp_powerSpec[ch][n * L_subframeTCX], st->core == TCX_20_CORE, n, hCPE->hCoreCoder[0]->sp_aud_decision0, 0 ); -#endif } } } @@ -756,7 +826,6 @@ void stereo_mdct_core_enc_fx( * Split available bits between channels *---------------------------------------------------------------*/ - Word16 q_com; FOR( ch = 0; ch < CPE_CHANNELS; ch++ ) { Word16 n_sb = NB_DIV; diff --git a/lib_enc/ivas_stereo_mdct_igf_enc.c b/lib_enc/ivas_stereo_mdct_igf_enc_fx.c similarity index 99% rename from lib_enc/ivas_stereo_mdct_igf_enc.c rename to lib_enc/ivas_stereo_mdct_igf_enc_fx.c index 38be1a6a48a933fd8c609a34d28b1b6bb9ba09aa..6c3588cabc6d7a93997e0937dfd86940f859dee8 100644 --- a/lib_enc/ivas_stereo_mdct_igf_enc.c +++ b/lib_enc/ivas_stereo_mdct_igf_enc_fx.c @@ -34,12 +34,10 @@ #include #include "options.h" #include -#include "prot.h" #include "prot_fx.h" #include "cnst.h" #include "stat_enc.h" #include "ivas_stat_enc.h" -#include "ivas_prot.h" #include "ivas_prot_fx.h" #include "wmc_auto.h" @@ -168,12 +166,10 @@ static void IGF_MsStereoDecision_fx( Word16 pc_target_e, pc_src_e; Word16 tmp1, tmp1_e, tmp2, tmp2_e; -#ifdef MSAN_FIX pc_target_e = 0; pc_src_e = 0; move16(); move16(); -#endif // MSAN_FIX Word16 coh_src = calcCoh_fx( &specL_fx[strt_cpy], &specR_fx[strt_cpy], q_spec, width, &cc_src_fx, &cc_src_e, &pc_src_fx, &pc_src_e ); Word16 coh_target = calcCoh_fx( &specL_fx[hGrid->swb_offset[sfb]], &specR_fx[hGrid->swb_offset[sfb]], q_spec, width, &cc_target_fx, &cc_target_e, &pc_target_fx, &pc_target_e ); diff --git a/lib_enc/ivas_stereo_mdct_stereo_enc.c b/lib_enc/ivas_stereo_mdct_stereo_enc_fx.c similarity index 95% rename from lib_enc/ivas_stereo_mdct_stereo_enc.c rename to lib_enc/ivas_stereo_mdct_stereo_enc_fx.c index 9c729709da128ea40813599bee45aea106916a22..9a1198e20608799d30d2c37da62da198d0eb75f0 100644 --- a/lib_enc/ivas_stereo_mdct_stereo_enc.c +++ b/lib_enc/ivas_stereo_mdct_stereo_enc_fx.c @@ -35,10 +35,8 @@ #include "options.h" #include #include "ivas_cnst.h" -#include "ivas_prot.h" #include "ivas_prot_fx.h" #include "prot_fx.h" -#include "prot.h" #include "prot_fx_enc.h" #include "ivas_rom_com.h" #include "ivas_rom_com_fx.h" @@ -838,52 +836,67 @@ void convertToMS_fx( /*! r: SQ gain */ static Word32 SQ_gain_estimate_stereo_fx( // e_res - Word32 xL_fx[], /* i : L vector to quantize Q31-e_xL*/ - Word16 e_xL, - Word32 xR_fx[], /* i : R vector to quantize Q31-e_xR*/ - Word16 e_xR, + const Word32 xL_fx[], /* i : L vector to quantize Q31-e_xL*/ + const Word16 e_xL, + const Word32 xR_fx[], /* i : R vector to quantize Q31-e_xR*/ + const Word16 e_xR, const Word16 nbitsSQ, /* i : number of bits targeted Q0*/ const Word16 lg, /* i : vector size (2048 max) Q0*/ Word16 *e_res ) { - Word16 i, q, iter, e_ener, e_tmp; + Word16 i, q, iter, e_ener, e_xL_2, e_xR_2, s; Word32 ener_fx, tmp_32, target_fx, fac_fx, offset_fx; - Word32 en_fx[N_MAX / 2]; // Q(26) + Word32 en_fx[N_MAX / 2]; // Q25 Word16 lg2, lg_4, lg2_4; + Word64 W_tmp, _0_01; lg_4 = shr( lg, 2 ); /* Q0 */ lg2_4 = shl( lg_4, 1 ); /* Q0 */ lg2 = shl( lg2_4, 2 ); /* Q0 */ i = 0; move16(); + e_xL_2 = shl( e_xL, 1 ); + e_xR_2 = shl( e_xR, 1 ); + _0_01 = W_shr( 21474836 /* 0.01 in Q31 */, sub( e_xL_2, 32 ) ); // 0.01 in 2*(Q of specL/R) + 1 - set32_fx( en_fx, 21474836 /* 0.01 in Q31 */, idiv1616( N_MAX, 2 ) ); + set32_fx( en_fx, 335544 /* 0.01 in Q25 */, ( N_MAX / 2 ) ); /* energy of quadruples with 9dB offset */ /* ignore that we may take no all lines into account, max. 3 lines at the upper end of the spectrum can be missed (if lg is not a multiple of 4, happens also in SQGain()*/ FOR( q = 0; q < lg_4; q++ ) { - ener_fx = BASOP_Util_Add_Mant32Exp( 21474836 /*0.01 in Q15*/, 0, Mpy_32_32( xL_fx[i], xL_fx[i] ), e_xL * 2, &e_ener ); /* Q31-e_ener */ - ener_fx = BASOP_Util_Add_Mant32Exp( ener_fx, e_ener, Mpy_32_32( xL_fx[i + 1], xL_fx[i + 1] ), e_xL * 2, &e_ener ); /* Q31-e_ener */ - ener_fx = BASOP_Util_Add_Mant32Exp( ener_fx, e_ener, Mpy_32_32( xL_fx[i + 2], xL_fx[i + 2] ), e_xL * 2, &e_ener ); /* Q31-e_ener */ - ener_fx = BASOP_Util_Add_Mant32Exp( ener_fx, e_ener, Mpy_32_32( xL_fx[i + 3], xL_fx[i + 3] ), e_xL * 2, &e_ener ); /* Q31-e_ener */ - en_fx[q] = BASOP_Util_Log2( ener_fx ); /* saves a MAC */ + W_tmp = W_mac_32_32( _0_01, xL_fx[i], xL_fx[i] ); // 2 * e_xL + W_tmp = W_mac_32_32( W_tmp, xL_fx[i + 1], xL_fx[i + 1] ); // 2 * e_xL + W_tmp = W_mac_32_32( W_tmp, xL_fx[i + 2], xL_fx[i + 2] ); // 2 * e_xL + W_tmp = W_mac_32_32( W_tmp, xL_fx[i + 3], xL_fx[i + 3] ); // 2 * e_xL + + s = W_norm( W_tmp ); + ener_fx = W_extract_h( W_shl( W_tmp, s ) ); + e_ener = sub( e_xL_2, s ); + + en_fx[q] = BASOP_Util_Log2( ener_fx ); /* saves a MAC */ move32(); - en_fx[q] = Mpy_32_16_1( L_add( e_ener * ONE_IN_Q25, en_fx[q] ), 9864 /* log10(2) in Q15 */ ); // Q(25) + en_fx[q] = Mpy_32_16_1( L_add( L_shl( e_ener, Q25 ), en_fx[q] ), 9864 /* log10(2) in Q15 */ ); // Q(25) move32(); i = add( i, 4 ); } i = 0; + move16(); FOR( ; q < lg2_4; q++ ) { - ener_fx = BASOP_Util_Add_Mant32Exp( 21474836 /*0.01 Q15*/, 0, Mpy_32_32( xR_fx[i], xR_fx[i] ), e_xR * 2, &e_ener ); /* Q31-e_ener */ - ener_fx = BASOP_Util_Add_Mant32Exp( ener_fx, e_ener, Mpy_32_32( xR_fx[i + 1], xR_fx[i + 1] ), e_xR * 2, &e_ener ); /* Q31-e_ener */ - ener_fx = BASOP_Util_Add_Mant32Exp( ener_fx, e_ener, Mpy_32_32( xR_fx[i + 2], xR_fx[i + 2] ), e_xR * 2, &e_ener ); /* Q31-e_ener */ - ener_fx = BASOP_Util_Add_Mant32Exp( ener_fx, e_ener, Mpy_32_32( xR_fx[i + 3], xR_fx[i + 3] ), e_xR * 2, &e_ener ); /* Q31-e_ener */ - en_fx[q] = BASOP_Util_Log2( ener_fx ); /* saves a MAC */ + W_tmp = W_mac_32_32( _0_01, xR_fx[i], xR_fx[i] ); // 2 * e_xR + W_tmp = W_mac_32_32( W_tmp, xR_fx[i + 1], xR_fx[i + 1] ); // 2 * e_xR + W_tmp = W_mac_32_32( W_tmp, xR_fx[i + 2], xR_fx[i + 2] ); // 2 * e_xR + W_tmp = W_mac_32_32( W_tmp, xR_fx[i + 3], xR_fx[i + 3] ); // 2 * e_xR + + s = W_norm( W_tmp ); + ener_fx = W_extract_h( W_shl( W_tmp, s ) ); + e_ener = sub( e_xR_2, s ); + + en_fx[q] = BASOP_Util_Log2( ener_fx ); /* saves a MAC */ move32(); - en_fx[q] = Mpy_32_16_1( L_add( e_ener * ONE_IN_Q25, en_fx[q] ), 9864 /* log10(2) in Q15 */ ); // Q(25) + en_fx[q] = Mpy_32_16_1( L_add( L_shl( e_ener, Q25 ), en_fx[q] ), 9864 /* log10(2) in Q15 */ ); // Q(25) move32(); i = add( i, 4 ); } @@ -900,24 +913,20 @@ static Word32 SQ_gain_estimate_stereo_fx( // e_res { fac_fx = L_shr( fac_fx, 1 ); /* Q25 */ offset_fx = L_sub( offset_fx, fac_fx ); /* Q25 */ - ener_fx = 0; - move32(); - e_ener = 0; - move16(); + W_tmp = 0; + move64(); FOR( i = 0; i < lg2_4; i++ ) { tmp_32 = L_sub( en_fx[i], offset_fx ); /* Q25 */ - e_tmp = 6; - move16(); /* avoid SV with 1 bin of amp < 0.5f */ IF( GT_32( tmp_32, 10066329 /*0.3 Q25*/ ) ) { - ener_fx = BASOP_Util_Add_Mant32Exp( ener_fx, e_ener, tmp_32, e_tmp, &e_ener ); /* Q31-e_ener */ + W_tmp = W_add( W_tmp, W_deposit32_l( tmp_32 ) ); /* Q25 */ /* if ener is above target -> break and increase offset */ - IF( L_shl_sat( ener_fx, sub( e_ener, Q13 ) ) > target_fx ) + IF( GT_64( W_tmp, W_shl( W_deposit32_l( target_fx ), 7 ) ) ) { offset_fx = L_add( offset_fx, fac_fx ); /* Q25 */ BREAK; diff --git a/lib_enc/ivas_stereo_switching_enc.c b/lib_enc/ivas_stereo_switching_enc_fx.c similarity index 96% rename from lib_enc/ivas_stereo_switching_enc.c rename to lib_enc/ivas_stereo_switching_enc_fx.c index 786c45cb31c2f8b272304efa3cd075c45ab1b969..5f1208ba794687db7eb81e76deb2b7cd32935510 100644 --- a/lib_enc/ivas_stereo_switching_enc.c +++ b/lib_enc/ivas_stereo_switching_enc_fx.c @@ -34,14 +34,12 @@ #include "options.h" #include "cnst.h" #include "rom_com.h" -#include "prot.h" -#include "ivas_prot.h" +#include "prot_fx.h" #include "ivas_rom_com_fx.h" #include "ivas_rom_com.h" #include "assert.h" #include "wmc_auto.h" #include "prot_fx_enc.h" -#include "prot_fx.h" #include "ivas_prot_fx.h" /*-------------------------------------------------------------------* @@ -241,16 +239,12 @@ ivas_error stereo_memory_enc_fx( test(); IF( hCPE->hStereoTCA != NULL && EQ_16( hCPE->last_element_mode, IVAS_CPE_DFT ) ) { -#ifdef FIX_1132_STACK_CORRUPTION - Word16 tmp = extract_h( abs( hCPE->hStereoDft->hItd->itd_fx[1] ) ); + Word16 tmp = extract_h( L_abs( hCPE->hStereoDft->hItd->itd_fx[1] ) ); if ( hCPE->hStereoDft->hItd->itd_fx[1] < 0 ) { tmp = negate( tmp ); } set16_fx( hCPE->hStereoTCA->prevCorrLagStats, tmp, 3 ); -#else - set16_fx( hCPE->hStereoTCA->prevCorrLagStats, extract_h( hCPE->hStereoDft->hItd->itd_fx[1] ), 3 ); -#endif IF( hCPE->hStereoDft->hItd->itd_fx[1] >= 0 ) { hCPE->hStereoTCA->prevRefChanIndx = L_CH_INDX; @@ -368,8 +362,8 @@ ivas_error stereo_memory_enc_fx( IF( EQ_16( hCPE->last_element_mode, IVAS_CPE_MDCT ) && ( EQ_16( hCPE->element_mode, IVAS_CPE_DFT ) || EQ_16( hCPE->element_mode, IVAS_CPE_TD ) ) ) { /* Deallocate MDCT CNG structures */ - deleteCldfb_ivas( &hCPE->hCoreCoder[0]->cldfbAnaEnc ); - deleteCldfb_ivas( &hCPE->hCoreCoder[1]->cldfbAnaEnc ); + deleteCldfb_ivas_fx( &hCPE->hCoreCoder[0]->cldfbAnaEnc ); + deleteCldfb_ivas_fx( &hCPE->hCoreCoder[1]->cldfbAnaEnc ); IF( EQ_16( hCPE->element_mode, IVAS_CPE_DFT ) ) { @@ -419,7 +413,7 @@ ivas_error stereo_memory_enc_fx( /* allocate CLDFB for primary channel */ IF( st->cldfbAnaEnc == NULL ) { - IF( NE_32( ( error = openCldfb_ivas_enc( &st->cldfbAnaEnc, CLDFB_ANALYSIS, input_Fs, CLDFB_PROTOTYPE_1_25MS ) ), IVAS_ERR_OK ) ) + IF( NE_32( ( error = openCldfb_ivas_fx( &st->cldfbAnaEnc, CLDFB_ANALYSIS, input_Fs, CLDFB_PROTOTYPE_1_25MS, ENC ) ), IVAS_ERR_OK ) ) { return error; } @@ -435,7 +429,7 @@ ivas_error stereo_memory_enc_fx( IF( st->cldfbSynTd == NULL ) { - IF( NE_32( ( error = openCldfb_ivas_enc( &st->cldfbSynTd, CLDFB_SYNTHESIS, 16000, CLDFB_PROTOTYPE_1_25MS ) ), IVAS_ERR_OK ) ) + IF( NE_32( ( error = openCldfb_ivas_fx( &st->cldfbSynTd, CLDFB_SYNTHESIS, 16000, CLDFB_PROTOTYPE_1_25MS, ENC ) ), IVAS_ERR_OK ) ) { return error; } @@ -450,10 +444,8 @@ ivas_error stereo_memory_enc_fx( } fd_bwe_enc_init_fx( st->hBWE_FD ); -#ifdef MSAN_FIX st->Q_old_wtda = 0; move16(); -#endif } /* allocate stereo CNG structure */ @@ -589,7 +581,7 @@ ivas_error stereo_memory_enc_fx( FOR( i = 0; i < CPE_CHANNELS; i++ ) { st = hCPE->hCoreCoder[i]; - IF( NE_32( ( error = openCldfb_ivas_enc( &st->cldfbAnaEnc, CLDFB_ANALYSIS, st->input_Fs, CLDFB_PROTOTYPE_1_25MS ) ), IVAS_ERR_OK ) ) + IF( NE_32( ( error = openCldfb_ivas_fx( &st->cldfbAnaEnc, CLDFB_ANALYSIS, st->input_Fs, CLDFB_PROTOTYPE_1_25MS, ENC ) ), IVAS_ERR_OK ) ) { return error; } @@ -681,6 +673,8 @@ void stereo_switching_enc_fx( FOR( n = 0; n < CPE_CHANNELS; n++ ) { Copy( sts[n]->input_fx + input_frame - dft_ovl, hCPE->input_mem_fx[n], dft_ovl ); /* sts[n]->q_inp */ + hCPE->q_input_mem[n] = sts[n]->q_inp; + move16(); } } @@ -822,7 +816,7 @@ void stereo_switching_enc_fx( offset = sub( sts[0]->cldfbAnaEnc->p_filter_length, sts[0]->cldfbAnaEnc->no_channels ); /* Q0 */ FOR( i = 0; i < offset; i++ ) { - sts[0]->cldfbAnaEnc->cldfb_state_fx[i] = L_deposit_h( old_input_signal_pri[input_frame - offset - NS2SA( input_frame * FRAMES_PER_SEC, L_MEM_RECALC_TBE_NS ) + i] ); /* Q16+q_inp */ + sts[0]->cldfbAnaEnc->cldfb_state_fx[i] = L_deposit_h( old_input_signal_pri[input_frame - offset - NS2SA_FX2( L_mult0( input_frame, FRAMES_PER_SEC ), L_MEM_RECALC_TBE_NS ) + i] ); /* Q16+q_inp */ move32(); } sts[0]->cldfbAnaEnc->Q_cldfb_state = add( Q16, q_inp ); @@ -844,7 +838,7 @@ void stereo_switching_enc_fx( test(); IF( hCPE->hStereoTD != NULL && EQ_16( hCPE->hStereoTD->tdm_last_ratio_idx, LRTD_STEREO_LEFT_IS_PRIM ) ) { - v_multc_fixed_32_16( hCPE->hCoreCoder[1]->old_input_signal_fx + sub( input_frame, add( offset, NS2SA( input_frame * FRAMES_PER_SEC, L_MEM_RECALC_TBE_NS ) ) ), -MAX_32, sts[1]->cldfbAnaEnc->cldfb_state_fx, offset ); /* Q16+q_inp */ + v_multc_fixed_32_16( hCPE->hCoreCoder[1]->old_input_signal_fx + sub( input_frame, add( offset, NS2SA_FX2( L_mult0( input_frame, FRAMES_PER_SEC ), L_MEM_RECALC_TBE_NS ) ) ), -MAX_32, sts[1]->cldfbAnaEnc->cldfb_state_fx, offset ); /* Q16+q_inp */ sts[1]->cldfbAnaEnc->Q_cldfb_state = add( Q16, q_inp ); move16(); } @@ -852,7 +846,7 @@ void stereo_switching_enc_fx( { FOR( i = 0; i < offset; i++ ) { - sts[1]->cldfbAnaEnc->cldfb_state_fx[i] = L_shr( L_deposit_h( hCPE->hCoreCoder[1]->old_input_signal_fx[input_frame - offset - NS2SA( input_frame * FRAMES_PER_SEC, L_MEM_RECALC_TBE_NS ) + i] ), 5 ); /* Q11+q_inp */ + sts[1]->cldfbAnaEnc->cldfb_state_fx[i] = L_shr( L_deposit_h( hCPE->hCoreCoder[1]->old_input_signal_fx[input_frame - offset - NS2SA_FX2( L_mult0( input_frame, FRAMES_PER_SEC ), L_MEM_RECALC_TBE_NS ) + i] ), 5 ); /* Q11+q_inp */ move32(); } sts[1]->cldfbAnaEnc->Q_cldfb_state = add( Q16 - 5, q_inp ); diff --git a/lib_enc/ivas_stereo_td_analysis.c b/lib_enc/ivas_stereo_td_analysis_fx.c similarity index 98% rename from lib_enc/ivas_stereo_td_analysis.c rename to lib_enc/ivas_stereo_td_analysis_fx.c index 79e05bf0921d481dada4ef76942fbab82c49cab9..6ffd05c0c488dcfb4e56c7a582c7f79c21ed4628 100644 --- a/lib_enc/ivas_stereo_td_analysis.c +++ b/lib_enc/ivas_stereo_td_analysis_fx.c @@ -35,14 +35,12 @@ #include #include "cnst.h" #include "rom_com.h" -#include "prot.h" -#include "ivas_prot.h" +#include "prot_fx.h" #include "ivas_rom_com.h" #include "ivas_cnst.h" #include "rom_enc.h" #include "wmc_auto.h" #include "ivas_prot_fx.h" -#include "prot_fx.h" #include "ivas_rom_com_fx.h" @@ -73,18 +71,13 @@ #define RATIO_MAX 1.5f /* Maximum correlation ratio */ -#define RATIO_MAX_FX_Q30 ( 1610612736 ) /* 1.5f in Q30 */ /* Maximum correlation ratio */ -#ifdef FIX_1301_CORRECT_TD_CNST -#define RATIO_MAX_FX_Q24 ( 25165824 ) /* 1.5f in Q24 */ /* Maximum correlation ratio */ -#define RATIO_MAX_FX_Q23 ( 12582912 ) /* 1.5f in Q23 */ /* Maximum correlation ratio */ -#else -#define RATIO_MAX_FX_Q24 ( 2516582 ) /* 1.5f in Q24 */ /* Maximum correlation ratio */ -#define RATIO_MAX_FX_Q23 ( 1258291 ) /* 1.5f in Q23 */ /* Maximum correlation ratio */ -#endif -#define LIMIT_ADAP_FAC_FX_Q16 ( 9830 ) /* 0.15f in Q16 */ -#define MIN_ADAP_FAC_FX_Q16 ( 6554 ) /*0.1f in Q16*/ -#define M_ADAP_FX_Q31 ( 1932735 ) /* 0.0009f in Q31 */ -#define B_ADAP_FX_Q16 ( 10486 ) /* 0.16f in Q16 */ +#define RATIO_MAX_FX_Q30 ( 1610612736 ) /* 1.5f in Q30 */ /* Maximum correlation ratio */ +#define RATIO_MAX_FX_Q24 ( 25165824 ) /* 1.5f in Q24 */ /* Maximum correlation ratio */ +#define RATIO_MAX_FX_Q23 ( 12582912 ) /* 1.5f in Q23 */ /* Maximum correlation ratio */ +#define LIMIT_ADAP_FAC_FX_Q16 ( 9830 ) /* 0.15f in Q16 */ +#define MIN_ADAP_FAC_FX_Q16 ( 6554 ) /*0.1f in Q16*/ +#define M_ADAP_FX_Q31 ( 1932735 ) /* 0.0009f in Q31 */ +#define B_ADAP_FX_Q16 ( 10486 ) /* 0.16f in Q16 */ #define PC_LIMIT 64 #define RATIO_PG_HR 0.94f @@ -262,11 +255,7 @@ Word16 stereo_tdm_ener_analysis_fx( rms_thd_fx = L_shr( rms_thd_fx, 2 ); /*Q16*/ /*rms_thd_fx *= 0.25f*/ test(); test(); -#ifdef FIX_1301_CORRECT_TD_CNST IF( LE_32( hStereoTD->tdm_lt_rms_L_fx, 4915200 /* 75 in Q16*/ ) || LE_32( hStereoTD->tdm_lt_rms_R_fx, 4915200 /* 75 in Q16*/ ) /*|| sts[0]->last_coder_type == TRANSITION */ ) -#else - IF( LE_32( hStereoTD->tdm_lt_rms_L_fx, 4915200 /* 75 in Q16*/ ) || LE_32( hStereoTD->tdm_lt_rms_R_fx, 75 /* 75 in Q16*/ ) /*|| sts[0]->last_coder_type == TRANSITION */ ) -#endif { rms_thd_fx = L_shr( rms_thd_fx, 5 ); /* Q16*/ /*rms_thd_fx *= 0.03125f*/ } @@ -340,10 +329,8 @@ Word16 stereo_tdm_ener_analysis_fx( move16(); } -#ifdef FIX_1301_CORRECT_TD_CNST rms_L_fx = L_shl( rms_L_fx, sub( Q16, q_rms_L ) ); /* All the following energy comparison are done in Q16 */ rms_R_fx = L_shl( rms_R_fx, sub( Q16, q_rms_R ) ); -#endif test(); IF( EQ_16( hStereoTD->prev_fr_LRTD_TD_dec, 1 ) && side_can_change == 0 ) { @@ -442,11 +429,7 @@ Word16 stereo_tdm_ener_analysis_fx( ELSE { /*ratio_L = ( 1.0f - cosf( EVS_PI * ratio_L / 2.0f ) ) / 2.0f;*/ -#ifdef FIX_1301_CORRECT_TD_CNST ratio_L_fx = L_deposit_h( sub_sat( ONE_IN_Q14, getCosWord16( extract_l( Mpy_32_32( 1647099 /* EVS_PI/2 in Q20 */, ratio_L_fx ) ) ) ) ); // Q31 (Q14 + Q1(division by 2.0f) + Q16) -#else - ratio_L_fx = L_deposit_h( sub( ONE_IN_Q14, getCosWord16( extract_l( Mpy_32_32( 1647099 /* EVS_PI/2 in Q20 */, ratio_L_fx ) ) ) ) ); // Q31 (Q14 + Q1(division by 2.0f) + Q16) -#endif } test(); @@ -652,22 +635,14 @@ Word16 stereo_tdm_ener_analysis_fx( move16(); } -#ifdef FIX_ISSUE_1125 ratio_L_fx = tdm_ratio_tabl_fx_Q30[idx]; // Q30 -#else - ratio_L_fx = tdm_ratio_tabl_fx[idx]; // Q31 -#endif move32(); test(); IF( EQ_16( hStereoTD->tdm_SM_modi_flag, 1 ) && hStereoTD->tdm_LRTD_flag == 0 ) { idx = shr( add( hStereoTD->tdm_last_ratio_idx, add( LRTD_STEREO_MID_IS_PRIM, 1 ) ), 1 ); -#ifdef FIX_ISSUE_1125 ratio_L_fx = tdm_ratio_tabl_fx_Q30[idx]; // Q30 -#else - ratio_L_fx = tdm_ratio_tabl_fx[idx]; // Q31 -#endif move32(); } @@ -758,10 +733,8 @@ Word16 stereo_tdm_ener_analysis_fx( hCPE->hStereoClassif->ratio_L_fx = ratio_L_fx; /* 31 - ratio_L_e */ move32(); -#ifdef FIX_ISSUE_1125 hCPE->hStereoClassif->ratio_L_e = 1; move16(); -#endif return idx; } @@ -1075,11 +1048,7 @@ static void NOOP_decision_fx( } ELSE { -#ifdef FIX_1301_CORRECT_TD_CNST if ( LT_32( sts[0]->ee_old_fx, 320000 /* 5000.f in Q6 */ ) && LT_32( sts[1]->ee_old_fx, 320000 /* 5000.f in Q6 */ ) ) -#else - if ( LT_32( sts[0]->ee_old_fx, 160000 /* 5000.f in Q6 */ ) && LT_32( sts[1]->ee_old_fx, 160000 /* 5000.f in Q6 */ ) ) -#endif { tdm_NOOP_switch_flag = 1; move16(); diff --git a/lib_enc/ivas_stereo_td_enc.c b/lib_enc/ivas_stereo_td_enc_fx.c similarity index 98% rename from lib_enc/ivas_stereo_td_enc.c rename to lib_enc/ivas_stereo_td_enc_fx.c index 304754fc34f0c4193cc3ac50b1111b1e499f8fc4..8f1d2d9c9c46d088fd8d6375b55d48e2028fd660 100644 --- a/lib_enc/ivas_stereo_td_enc.c +++ b/lib_enc/ivas_stereo_td_enc_fx.c @@ -35,8 +35,7 @@ #include "options.h" #include "cnst.h" #include "rom_com.h" -#include "prot.h" -#include "ivas_prot.h" +#include "prot_fx.h" #include "ivas_rom_com.h" #include "wmc_auto.h" #ifdef DEBUGGING @@ -44,7 +43,6 @@ #endif #include "prot_fx_enc.h" #include "ivas_prot_fx.h" -#include "prot_fx.h" #include "ivas_rom_com_fx.h" @@ -197,7 +195,7 @@ void stereo_td_init_enc_fx( move32(); hStereoTD->tdm_hBstr_tmp.ivas_max_num_indices = &hStereoTD->max_ind_tdm_tmp; hStereoTD->tdm_hBstr_tmp.st_ivas = NULL; - reset_indices_enc( &hStereoTD->tdm_hBstr_tmp, MAX_IND_TDM_TMP ); + reset_indices_enc_fx( &hStereoTD->tdm_hBstr_tmp, MAX_IND_TDM_TMP ); return; } @@ -265,7 +263,7 @@ ivas_error stereo_set_tdm_fx( /* deallocate CLDFB ana for secondary channel */ IF( st->cldfbAnaEnc != NULL ) { - deleteCldfb_ivas( &st->cldfbAnaEnc ); + deleteCldfb_ivas_fx( &st->cldfbAnaEnc ); } /* deallocate BWEs for secondary channel */ @@ -277,7 +275,7 @@ ivas_error stereo_set_tdm_fx( st->hBWE_TD = NULL; } - deleteCldfb_ivas( &st->cldfbSynTd ); + deleteCldfb_ivas_fx( &st->cldfbSynTd ); IF( st->hBWE_FD != NULL ) { @@ -311,7 +309,7 @@ ivas_error stereo_set_tdm_fx( /* allocate CLDFB ana for secondary channel */ IF( st->cldfbAnaEnc == NULL ) { - IF( NE_32( ( error = openCldfb_ivas_enc( &st->cldfbAnaEnc, CLDFB_ANALYSIS, st->input_Fs, CLDFB_PROTOTYPE_1_25MS ) ), IVAS_ERR_OK ) ) + IF( NE_32( ( error = openCldfb_ivas_fx( &st->cldfbAnaEnc, CLDFB_ANALYSIS, st->input_Fs, CLDFB_PROTOTYPE_1_25MS, ENC ) ), IVAS_ERR_OK ) ) { return error; } @@ -324,7 +322,7 @@ ivas_error stereo_set_tdm_fx( { return ( IVAS_ERROR( IVAS_ERR_FAILED_ALLOC, "Can not allocate memory for TD BWE\n" ) ); } - IF( NE_32( ( error = openCldfb_ivas_enc( &st->cldfbSynTd, CLDFB_SYNTHESIS, 16000, CLDFB_PROTOTYPE_1_25MS ) ), IVAS_ERR_OK ) ) + IF( NE_32( ( error = openCldfb_ivas_fx( &st->cldfbSynTd, CLDFB_SYNTHESIS, 16000, CLDFB_PROTOTYPE_1_25MS, ENC ) ), IVAS_ERR_OK ) ) { return error; } @@ -338,10 +336,8 @@ ivas_error stereo_set_tdm_fx( } fd_bwe_enc_init_fx( st->hBWE_FD ); -#ifdef MSAN_FIX st->Q_old_wtda = 0; move16(); -#endif } } @@ -1007,9 +1003,8 @@ void stereo_tdm_prep_dwnmx_fx( const Word16 input_q /* i : frame lenght */ ) { -#define USER_ENER Word32 mener; - int16_t i, sw_pos, enr_len; + Word16 i, sw_pos, enr_len; Encoder_State **sts; Word16 mener_e; sts = hCPE->hCoreCoder; diff --git a/lib_enc/ivas_tcx_core_enc.c b/lib_enc/ivas_tcx_core_enc_fx.c similarity index 84% rename from lib_enc/ivas_tcx_core_enc.c rename to lib_enc/ivas_tcx_core_enc_fx.c index cecc1bf80b5726694247159f6aeaf7b470b266ea..fd84d2f214607c54aa281af61db11af3acfc41d6 100644 --- a/lib_enc/ivas_tcx_core_enc.c +++ b/lib_enc/ivas_tcx_core_enc_fx.c @@ -35,13 +35,11 @@ #include "options.h" #include #include "cnst.h" -#include "prot.h" +#include "prot_fx.h" #include "rom_com.h" #include "basop_proto_func.h" #include "wmc_auto.h" -#include "ivas_prot.h" #include "ivas_prot_fx.h" -#include "prot_fx.h" #include "prot_fx_enc.h" #include "rom_com_fx.h" #include "ivas_prot_fx.h" @@ -80,27 +78,27 @@ void stereo_tcx_init_enc_fx( move16(); } - st->hTcxCfg->coder_type = st->coder_type; + st->hTcxCfg->coder_type = st->coder_type; /* Q0 */ move16(); test(); test(); - IF( !st->tcxonly && !st->localVAD && EQ_16( st->hTcxCfg->coder_type, GENERIC ) ) + if ( !st->tcxonly && !st->localVAD && EQ_16( st->hTcxCfg->coder_type, GENERIC ) ) { st->hTcxCfg->coder_type = UNVOICED; move16(); } /*sampling rate*/ - total_brate = L_mult0( st->bits_frame_nominal, FRAMES_PER_SEC ); + total_brate = L_mult0( st->bits_frame_nominal, FRAMES_PER_SEC ); /* Q0 */ st->sr_core = getCoreSamplerateMode2( st->element_mode, total_brate, st->bwidth, st->flag_ACELP16k, st->rf_mode, st->is_ism_format ); move32(); st->fscale = sr2fscale_fx( st->sr_core ); move16(); /*frame size*/ - st->L_frame = extract_l( Mpy_32_32( st->sr_core, ONE_BY_FRAMES_PER_SEC_Q31 ) ); + st->L_frame = extract_l( Mpy_32_32( st->sr_core, ONE_BY_FRAMES_PER_SEC_Q31 ) ); /* Q0 */ move16(); - st->hTcxEnc->L_frameTCX = extract_l( Mpy_32_32( st->input_Fs, ONE_BY_FRAMES_PER_SEC_Q31 ) ); + st->hTcxEnc->L_frameTCX = extract_l( Mpy_32_32( st->input_Fs, ONE_BY_FRAMES_PER_SEC_Q31 ) ); /* Q0 */ move16(); test(); @@ -119,17 +117,17 @@ void stereo_tcx_init_enc_fx( } /*TCX tools*/ - st->hTcxCfg->ctx_hm = getCtxHm( st->element_mode, total_brate, st->rf_mode ); + st->hTcxCfg->ctx_hm = getCtxHm( st->element_mode, total_brate, st->rf_mode ); /* Q0 */ move16(); - st->hTcxCfg->resq = getResq( total_brate ); + st->hTcxCfg->resq = getResq( total_brate ); /* Q0 */ move16(); - st->hTcxEnc->tcx_lpc_shaped_ari = getTcxLpcShapedAri( total_brate, st->rf_mode, st->element_mode ); + st->hTcxEnc->tcx_lpc_shaped_ari = getTcxLpcShapedAri( total_brate, st->rf_mode, st->element_mode ); /* Q0 */ move16(); - st->igf = getIgfPresent_fx( st->element_mode, total_brate, st->bwidth, st->rf_mode ); + st->igf = getIgfPresent_fx( st->element_mode, total_brate, st->bwidth, st->rf_mode ); /* Q0 */ move16(); prev_IsTNSAllowed = st->hTcxCfg->fIsTNSAllowed; move16(); - IF( NE_16( st->element_mode, EVS_MONO ) ) + if ( ( st->element_mode != EVS_MONO ) ) { st->hTcxCfg->fIsTNSAllowed = getTnsAllowed( total_brate, st->igf, st->element_mode ); move16(); @@ -156,8 +154,8 @@ void stereo_tcx_init_enc_fx( void stereo_tcx_core_enc( Encoder_State *st, /* i/o: encoder state structure */ - const Word16 new_samples_12k8[], /* i : buffer of input signal @12.8 kHz */ - const Word16 new_samples_16k[], /* i : buffer of input signal @16 kHz */ + const Word16 new_samples_12k8[], /* i : buffer of input signal @12.8 kHz Q_new*/ + const Word16 new_samples_16k[], /* i : buffer of input signal @16 kHz Q_new*/ const Word16 Aw_fx[], /* i : weighted A(z) unquant. for subframes, Q12 */ Word16 lsp_new_fx[], /* i : LSPs at the end of the frame, Q15 */ Word16 lsp_mid_fx[], /* i : LSPs in the middle of the frame, Q15 */ @@ -207,7 +205,7 @@ void stereo_tcx_core_enc( /*HM*/ Word16 indexBuffer[2 * ( ( N_MAX / 2 ) + 1 )]; - Word16 s, input_frame; + Word16 s; CONTEXT_HM_CONFIG hm_cfg[2]; @@ -244,14 +242,14 @@ void stereo_tcx_core_enc( *---------------------------------------------------------------*/ /* Subtract the bits of common header */ - st->bits_frame_core = extract_l( L_sub( Mpy_32_32( st->total_brate, ONE_BY_FRAMES_PER_SEC_Q31 ), hBstr->nb_bits_tot ) ); + st->bits_frame_core = extract_l( L_sub( Mpy_32_32( st->total_brate, ONE_BY_FRAMES_PER_SEC_Q31 ), hBstr->nb_bits_tot ) ); /* Q0 */ move16(); /*Get Bits of TCX header*/ nbits_header = 3; /* Coder types (2) + last_core for bfi (1) */ move16(); - IF( st->tcxonly ) + if ( st->tcxonly ) { /* TCX20/10 flag */ nbits_header = add( nbits_header, 1 ); @@ -283,7 +281,7 @@ void stereo_tcx_core_enc( move16(); /* check minimum pitch for quantization */ - IF( LT_16( T_op[i], PIT_MIN_SHORTER ) ) + if ( LT_16( T_op[i], PIT_MIN_SHORTER ) ) { T_op[i] = shl( T_op[i], 1 ); move16(); @@ -304,11 +302,11 @@ void stereo_tcx_core_enc( IF( EQ_16( st->L_frame, L_FRAME ) ) { - p_new_samples = new_samples_12k8; + p_new_samples = new_samples_12k8; /* Q_new */ } ELSE { - p_new_samples = new_samples_16k; + p_new_samples = new_samples_16k; /* Q_new */ } /*--------------------------------------------------------------* @@ -353,7 +351,7 @@ void stereo_tcx_core_enc( q_ind_val = 0; move16(); test(); - IF( NE_16( st->last_core, ACELP_CORE ) || EQ_16( st->core, TCX_10_CORE ) ) + if ( ( st->last_core != ACELP_CORE ) || EQ_16( st->core, TCX_10_CORE ) ) { q_ind_val = 1; move16(); @@ -374,49 +372,40 @@ void stereo_tcx_core_enc( *---------------------------------------------------------------*/ /* TODO: integrate this. */ -#ifdef IVAS_FLOAT_FIXED_CONVERSIONS st->prev_Q_new = 0; st->Q_old = 0; -#endif + Q_new = 0; move16(); - input_frame = idiv1616U( extract_l( L_shr( st->input_Fs, 1 ) ), FRAMES_PER_SEC / 2 ); - Scale_sig( st->input_fx, add( input_frame, NS2SA( 48000, DELAY_FIR_RESAMPL_NS ) ), negate( st->q_inp ) ); - Scale_sig( st->old_input_signal_fx, input_frame, negate( st->q_old_inp ) ); - st->q_old_inp = 0; - move16(); - st->q_inp = 0; - move16(); core_signal_analysis_high_bitrate_ivas_fx( p_new_samples, T_op, lsp_new_fx, lsp_mid_fx, st, tnsSize, tnsBits, param_core, <pBits, NULL, st->L_frame, hTcxEnc->L_frameTCX, last_element_mode, vad_hover_flag, NULL, NULL, &Q_new, NULL ); bitsAvailable = sub( st->bits_frame_core, nbits_header ); - IF( st->igf ) + if ( st->igf ) { bitsAvailable = sub( bitsAvailable, st->hIGFEnc->infoTotalBitsWritten ); } - const Word16 Q_ener = Q_new + Q_SCALE - 2; // Q_new + Q_SCALE -2 + const Word16 Q_ener = add( Q_new, sub( Q_SCALE, 2 ) ); // Q_new + Q_SCALE -2 Q_exc = Q_new; st->prev_Q_new = Q_exc; + move16(); + move16(); + move16(); - Scale_sig( st->synth, st->L_frame, st->Q_syn ); - IF( st->tcxonly == 0 ) - { - st->wspeech_enc[st->L_frame - 1] = shl( st->wspeech_enc[st->L_frame - 1], st->Q_syn ); - } IF( st->hTdCngEnc ) { FOR( Word16 ii = 0; ii < HO_HIST_SIZE; ii++ ) { - Scale_sig( st->hTdCngEnc->cng_exc2_buf + ii * L_FFT, L_FFT, sub( Q_exc, st->hTdCngEnc->cng_Qexc_buf[ii] ) ); + Scale_sig( st->hTdCngEnc->cng_exc2_buf + ii * L_FFT, L_FFT, sub( Q_exc, st->hTdCngEnc->cng_Qexc_buf[ii] ) ); /* Q_exc */ st->hTdCngEnc->cng_Qexc_buf[ii] = Q_exc; + move16(); } } - Scale_sig( st->hLPDmem->old_exc, L_EXC_MEM, sub( Q_new, st->hLPDmem->q_lpd_old_exc ) ); + Scale_sig( st->hLPDmem->old_exc, L_EXC_MEM, sub( Q_new, st->hLPDmem->q_lpd_old_exc ) ); /* Q_exc */ st->hLPDmem->q_lpd_old_exc = Q_new; move16(); - Scale_sig( st->hLPDmem->syn, M + 1, sub( st->Q_syn, st->hLPDmem->q_lpd_syn ) ); + Scale_sig( st->hLPDmem->syn, M + 1, sub( st->Q_syn, st->hLPDmem->q_lpd_syn ) ); /* st->Q_syn */ st->hLPDmem->q_lpd_syn = st->Q_syn; move16(); @@ -439,8 +428,8 @@ void stereo_tcx_core_enc( IF( st->rate_switching_reset ) { - Copy( lsp_q_fx, st->lsp_old_fx, M ); - Copy( lsf_q_fx, st->lsf_old_fx, M ); + Copy( lsp_q_fx, st->lsp_old_fx, M ); /* Q15 */ + Copy( lsf_q_fx, st->lsf_old_fx, M ); /* Qx2.56 */ } } @@ -522,12 +511,12 @@ void stereo_tcx_core_enc( * Run TCX10/20 Core *---------------------------------------------------------------*/ - hTcxEnc->measuredBwRatio = ONE_IN_Q14; + hTcxEnc->measuredBwRatio = ONE_IN_Q14; /* Q14 */ move16(); FOR( n = 0; n < n_subframes; n++ ) { - target_bits[n] = sub( idiv1616( add( bitsAvailable, sub( sub( n_subframes, 1 ), n ) ), n_subframes ), tnsBits[n] ); + target_bits[n] = sub( idiv1616( add( bitsAvailable, sub( sub( n_subframes, 1 ), n ) ), n_subframes ), tnsBits[n] ); /* Q0 */ move16(); test(); @@ -548,7 +537,7 @@ void stereo_tcx_core_enc( { tmp1 = idiv1616( tmp1, n_subframes ); } - tmp2 = imult1616( n, NPRM_DIV ); + tmp2 = imult1616( n, NPRM_DIV ); /* Q0 */ QuantizeSpectrum_ivas_fx( st, A_q_fx, A_q_ind, gainlpc_fx[n], gainlpc_e[n], st->synth + tmp1, target_bits[n], tnsSize[n], param_core + tmp2, n, &hm_cfg[n], vad_hover_flag ); } @@ -564,29 +553,15 @@ void stereo_tcx_core_enc( s = s_min( s, norm_s( st->wspeech_enc[st->L_frame - 1] ) ); st->wspeech_enc[st->L_frame - 1] = shl( st->wspeech_enc[st->L_frame - 1], s ); } - Scale_sig( st->synth, st->L_frame, s ); - Scale_sig( st->hLPDmem->syn, M + 1, s ); + Scale_sig( st->synth, st->L_frame, s ); /* st->Q_syn + s */ + Scale_sig( st->hLPDmem->syn, M + 1, s ); /* st->Q_syn + s */ + st->hLPDmem->q_lpd_syn = add( st->hLPDmem->q_lpd_syn, s ); Q_new = add( Q_new, s ); move16(); - move16(); - - /* Scaling old_exc buffer to Q_new */ - IF( NE_16( Q_new, Q_exc ) ) - { - Scale_sig( st->hLPDmem->old_exc, L_EXC_MEM, sub( Q_new, Q_exc ) ); - } coder_tcx_post_ivas_fx( st, st->hLPDmem, st->hTcxCfg, st->synth, A_q_fx, Aw_fx, st->wspeech_enc, Q_new ); - /* Upscaling old_exc buffer */ - s = norm_arr( st->hLPDmem->old_exc, L_EXC_MEM ) - 1; - Scale_sig( st->hLPDmem->old_exc, L_EXC_MEM, s ); - IF( st->hTdCngEnc != NULL ) - { - Scale_sig( st->hTdCngEnc->cng_exc2_buf, HO_HIST_SIZE * L_FFT, sub( add( shl( Q_new, 1 ), s ), Q_exc ) ); - } - Q_exc = add( shl( Q_new, 1 ), s ); // 2 * Q_new + s - st->hLPDmem->q_lpd_old_exc = Q_exc; + Q_exc = Q_new; // Q_new move16(); IF( st->enableTcxLpc ) @@ -599,8 +574,8 @@ void stereo_tcx_core_enc( IF( st->enableTcxLpc && st->core != ACELP_CORE ) { /* Update lsf / lsp memory */ - Copy( lsf_tcx_q_fx, st->lsf_old_fx, M ); - Copy( lsp_tcx_q_fx, st->lsp_old_fx, M ); + Copy( lsf_tcx_q_fx, st->lsf_old_fx, M ); /* Qx2.56 */ + Copy( lsp_tcx_q_fx, st->lsp_old_fx, M ); /* Q15 */ st->envWeighted = 1; move16(); @@ -613,12 +588,12 @@ void stereo_tcx_core_enc( /* check resonance for pitch clipping algorithm */ gp_clip_test_lsf_ivas_fx( st->element_mode, st->core_brate, st->lsf_old_fx, st->clip_var_fx, 0 ); - Copy( st->lsf_old_fx, st->mem_AR_fx, M ); + Copy( st->lsf_old_fx, st->mem_AR_fx, M ); /* Qx2.56 */ } ELSE { - Copy( lsf_q_fx, st->lsf_old_fx, M ); - Copy( lsp_q_fx, st->lsp_old_fx, M ); + Copy( lsf_q_fx, st->lsf_old_fx, M ); /* Qx2.56 */ + Copy( lsp_q_fx, st->lsp_old_fx, M ); /* Q15 */ } test(); @@ -628,7 +603,7 @@ void stereo_tcx_core_enc( /* update CNG parameters in active frames */ test(); test(); - IF( EQ_16( st->bwidth, NB ) && st->enableTcxLpc && NE_16( st->core, ACELP_CORE ) ) + IF( EQ_16( st->bwidth, NB ) && st->enableTcxLpc && ( st->core != ACELP_CORE ) ) { Word16 buf_fx[L_LP], res_fx[L_FRAME], A_fx[M + 1], tmp_fx, lsptmp_fx[M]; Word32 A_fx32[M + 1], r_fx[M + 1]; @@ -636,7 +611,7 @@ void stereo_tcx_core_enc( assert( st->L_frame == L_FRAME ); - Copy( st->synth + L_FRAME - L_LP, buf_fx, L_LP ); + Copy( st->synth + L_FRAME - L_LP, buf_fx, L_LP ); /* st->Q_syn */ tmp_fx = st->synth[L_FRAME - L_LP - 1]; move16(); preemph_copy_fx( buf_fx, buf_fx, st->preemph_fac, L_LP, &tmp_fx ); @@ -645,7 +620,8 @@ void stereo_tcx_core_enc( lev_dur_fx( A_fx32, r_fx, M, NULL, Q12, Q_r ); FOR( Word16 j = 0; j < M; j++ ) { - A_fx[j] = extract_l( A_fx32[j] ); + A_fx[j] = extract_l( A_fx32[j] ); /* Q12 */ + move16(); } E_LPC_a_lsp_conversion( A_fx, lsptmp_fx, lsp_new_fx, M ); Residu3_fx( A_fx, buf_fx + L_LP - L_FRAME, res_fx, L_FRAME, 0 ); @@ -659,14 +635,14 @@ void stereo_tcx_core_enc( ELSE { cng_params_upd_ivas_fx( lsp_new_fx, st->hLPDmem->old_exc + L_EXC_MEM - st->L_frame, st->L_frame, &st->hTdCngEnc->ho_circ_ptr, st->hTdCngEnc->ho_ener_circ_fx, &st->hTdCngEnc->ho_circ_size, - st->hTdCngEnc->ho_lsp_circ_fx, Q_exc, ENC, st->hTdCngEnc->ho_env_circ_fx, &st->hTdCngEnc->cng_buf_cnt, st->hTdCngEnc->cng_exc2_buf, st->hTdCngEnc->cng_Qexc_buf, st->hTdCngEnc->cng_brate_buf, st->hDtxEnc->last_active_brate, st->element_mode, + st->hTdCngEnc->ho_lsp_circ_fx, st->hLPDmem->q_lpd_old_exc, ENC, st->hTdCngEnc->ho_env_circ_fx, &st->hTdCngEnc->cng_buf_cnt, st->hTdCngEnc->cng_exc2_buf, st->hTdCngEnc->cng_Qexc_buf, st->hTdCngEnc->cng_brate_buf, st->hDtxEnc->last_active_brate, st->element_mode, st->hFdCngEnc->hFdCngCom->CngBandwidth ); } IF( EQ_16( st->L_frame, L_FRAME ) ) { /* store LSPs@16k, potentially to be used in CNG@16k */ - Copy( st->lsp_old16k_fx, &( st->hTdCngEnc->ho_lsp_circ2_fx[( st->hTdCngEnc->ho_circ_ptr ) * M] ), M ); + Copy( st->lsp_old16k_fx, &( st->hTdCngEnc->ho_lsp_circ2_fx[( st->hTdCngEnc->ho_circ_ptr ) * M] ), M ); /* Q15 */ } /* Set 16k LSP flag for CNG buffer */ @@ -695,34 +671,22 @@ void stereo_tcx_core_enc( total_nbbits = sub( hBstr->nb_bits_tot, nbits_start ); - IF( NE_16( param_core[1 + NOISE_FILL_RANGES], 0 ) ) + IF( ( param_core[1 + NOISE_FILL_RANGES] != 0 ) ) { Word32 tcxltp_pitch_tmp = L_add( L_deposit_h( hTcxEnc->tcxltp_pitch_int ), L_shl( L_deposit_l( div_s( hTcxEnc->tcxltp_pitch_fr, st->pit_res_max ) ), 1 ) ); /* 15Q16 */ tcxltp_pitch_tmp = L_shr( tcxltp_pitch_tmp, 10 ); // Q6 - set16_fx( pitch_buf_fx, extract_l( tcxltp_pitch_tmp ), NB_SUBFR16k ); + set16_fx( pitch_buf_fx, extract_l( tcxltp_pitch_tmp ), NB_SUBFR16k ); /* Q6 */ } ELSE { - set16_fx( pitch_buf_fx, L_SUBFR * ONE_IN_Q6, NB_SUBFR16k ); + set16_fx( pitch_buf_fx, L_SUBFR * ONE_IN_Q6, NB_SUBFR16k ); /* Q6 */ } - /* Memory scaling to keep everything in common q */ - Word16 curr_q_syn = sub( shl( Q_new, 1 ), 1 ); - Scale_sig( st->hLPDmem->mem_syn_r, L_SYN_MEM, sub( s_min( curr_q_syn, st->hLPDmem->q_mem_syn ), curr_q_syn ) ); - Scale_sig( st->hLPDmem->mem_syn, M, sub( s_min( curr_q_syn, st->hLPDmem->q_mem_syn ), curr_q_syn ) ); - Scale_sig( st->hLPDmem->mem_syn2, M, sub( s_min( curr_q_syn, st->hLPDmem->q_mem_syn ), curr_q_syn ) ); - st->hLPDmem->mem_w0 = shl_sat( st->hLPDmem->mem_w0, sub( s_min( Q_new, st->hLPDmem->q_mem_syn ), Q_new ) ); - move16(); - Scale_sig( st->hLPDmem->mem_syn1_fx, M, sub( s_min( curr_q_syn, st->hLPDmem->q_mem_syn ), st->hLPDmem->q_mem_syn ) ); - Scale_sig( st->hLPDmem->mem_syn3, M, sub( s_min( curr_q_syn, st->hLPDmem->q_mem_syn ), st->hLPDmem->q_mem_syn ) ); - st->hLPDmem->q_mem_syn = s_min( curr_q_syn, st->hLPDmem->q_mem_syn ); - move16(); - st->hLPDmem->q_lpd_syn = Q_new; - move16(); + IF( st->hTdCngEnc != NULL ) { FOR( Word16 ii = 0; ii < HO_HIST_SIZE; ii++ ) { - Scale_sig( st->hTdCngEnc->cng_exc2_buf + ii * L_FFT, L_FFT, sub( Q_exc, st->hTdCngEnc->cng_Qexc_buf[ii] ) ); + Scale_sig( st->hTdCngEnc->cng_exc2_buf + ii * L_FFT, L_FFT, sub( Q_exc, st->hTdCngEnc->cng_Qexc_buf[ii] ) ); /* Q_exc */ st->hTdCngEnc->cng_Qexc_buf[ii] = Q_exc; move16(); } @@ -731,6 +695,7 @@ void stereo_tcx_core_enc( IF( st->tcxonly == 0 ) { st->wspeech_enc[st->L_frame - 1] = shl( st->wspeech_enc[st->L_frame - 1], -st->Q_syn ); + move16(); } pop_wmops(); @@ -753,12 +718,12 @@ Word16 ivas_acelp_tcx20_switching_fx( Word16 non_staX, /*Q8 i : unbound non-stationarity for sp/mu clas*/ Word16 *pitch_fr, /*Q6 i : fraction pitch values */ Word16 *voicing_fr, /*Q15 i : fractional voicing values */ - Word16 currFlatness, /*Q7 i : flatness */ + Word32 currFlatness, /*Q21 i : flatness */ Word16 lsp_mid[M], /*Q15 i : LSPs at the middle of the frame */ - Word16 stab_fac, /* i : LP filter stability */ + Word16 stab_fac, /* i : LP filter stability Q15*/ Word32 *res_cod_SNR_M, Word16 *res_cod_SNR_M_e, - const Word16 flag_16k_smc /* i : flag to compute parameters with 16kHz core */ + const Word16 flag_16k_smc /* i : flag to compute parameters with 16kHz core Q0*/ ) { TCX_ENC_HANDLE hTcxEnc = st->hTcxEnc; @@ -790,6 +755,8 @@ Word16 ivas_acelp_tcx20_switching_fx( Word32 tcx_snr; Flag Overflow; Word32 gain, noise; + Word16 noise_e = 0; + move16(); Word32 *pt_ener_sfr, ener_sfr[NB_SUBFR16k]; /* Initialization */ @@ -803,7 +770,6 @@ Word16 ivas_acelp_tcx20_switching_fx( L_frame = L_FRAME; move16(); } -#ifdef MSAN_FIX set16_fx( window_fx, 0, L_LOOK_16k ); set16_fx( xn_buf_fx, 0, L_MDCT_OVLP_MAX + L_FRAME_PLUS + L_MDCT_OVLP_MAX ); FOR( i = 0; i < L_LOOK_16k; i++ ) @@ -813,12 +779,11 @@ Word16 ivas_acelp_tcx20_switching_fx( window_p_fx[i].v.im = 0; move16(); } -#endif L_frame_tmp = L_frame; move16(); - x_fx = hTcxEnc->spectrum_long_fx; + x_fx = hTcxEnc->spectrum_long_fx; /* Q15 */ move32(); e_x = 31 - 15; move16(); @@ -827,16 +792,16 @@ Word16 ivas_acelp_tcx20_switching_fx( /* Check minimum pitch for quantization */ FOR( i = 0; i < 4; i++ ) { - pitch_fr_local[i] = pitch_fr[i]; + pitch_fr_local[i] = pitch_fr[i]; /* Q6 */ move16(); - voicing_fr_local[i] = voicing_fr[i]; + voicing_fr_local[i] = voicing_fr[i]; /* Q15 */ move16(); } E_LPC_f_lsp_a_conversion( lsp_mid, A_q_tcx_fx, M ); Q_A_q_tcx = sub( 14, norm_s( A_q_tcx_fx[0] ) ); scale_A = sub( Q12, Q_A_q_tcx ); - Copy_Scale_sig( A_q_tcx_fx, A_q_tcx_fx, M + 1, scale_A ); + Copy_Scale_sig( A_q_tcx_fx, A_q_tcx_fx, M + 1, scale_A ); /* Q12 */ /*--------------------------------------------------------------* * Estimate TCX SNR @@ -845,7 +810,7 @@ Word16 ivas_acelp_tcx20_switching_fx( target = L_add( 0x11A5D28, 0 ); /* 0x11A5D28 -> 850.f * log2(10)/10 (Q16) */ IF( flag_16k_smc ) { - tcx_offset = st->hTcxCfg->tcx_offset; + tcx_offset = st->hTcxCfg->tcx_offset; /* Q0 */ move16(); IF( st->last_core == ACELP_CORE ) @@ -868,7 +833,6 @@ Word16 ivas_acelp_tcx20_switching_fx( overlap = st->hTcxCfg->tcx_mdct_window_delay; move16(); -#ifdef MSAN_FIX FOR( i = 0; i < st->hTcxCfg->tcx_mdct_window_length / 2; i++ ) { window_fx[st->hTcxCfg->tcx_mdct_window_length - 1 - i] = st->hTcxCfg->tcx_mdct_window[i].v.re; // Q15 @@ -876,15 +840,6 @@ Word16 ivas_acelp_tcx20_switching_fx( window_fx[i] = st->hTcxCfg->tcx_mdct_window[i].v.im; // Q15 move16(); } -#else - FOR( i = 0; i < L_LOOK_16k / 2; i++ ) - { - window_fx[L_LOOK_16k / 2 - 1 - i] = st->hTcxCfg->tcx_mdct_window[i].v.re; // Q15 - move16(); - window_fx[i] = st->hTcxCfg->tcx_mdct_window[i].v.im; // Q15 - move16(); - } -#endif } ELSE { @@ -909,9 +864,9 @@ Word16 ivas_acelp_tcx20_switching_fx( } } - Copy( inp_fx + sub( tcx_offset, shr( overlap, 1 ) ), xn_buf_fx, add( L_frame, overlap ) ); + Copy( inp_fx + sub( tcx_offset, shr( overlap, 1 ) ), xn_buf_fx, add( L_frame, overlap ) ); /* q_inp */ - L_frame_4 = shr( L_frame, 2 ); + L_frame_4 = shr( L_frame, 2 ); /* q0 */ IF( st->last_core == ACELP_CORE ) { test(); @@ -925,21 +880,21 @@ Word16 ivas_acelp_tcx20_switching_fx( { FOR( i = 0; i < overlap; i++ ) { - xn_buf_fx[i] = mult( xn_buf_fx[i], window_fx[i] ); + xn_buf_fx[i] = mult( xn_buf_fx[i], window_fx[i] ); /* q_inp */ move16(); } } FOR( i = 0; i < overlap; i++ ) { - xn_buf_fx[L_frame + i] = mult( xn_buf_fx[L_frame + i], window_fx[overlap - 1 - i] ); + xn_buf_fx[L_frame + i] = mult( xn_buf_fx[L_frame + i], window_fx[overlap - 1 - i] ); /* q_inp */ move16(); } e_x = sub( 16, q_inp ); /*exponent for xn_buf_fx*/ move16(); TCX_MDCT( xn_buf_fx, x_fx, &e_x, overlap, sub( L_frame, overlap ), overlap, st->element_mode ); scale_A = getScaleFactor32( x_fx, L_frame ); - Copy_Scale_sig32( x_fx, x_fx, L_frame, scale_A ); + Copy_Scale_sig32( x_fx, x_fx, L_frame, scale_A ); /* Q31-e_x+scale_A */ e_x = sub( e_x, scale_A ); tmp16 = mult_r( shl( L_frame, 5 ), 29309 /*16*0.0559017 Q15*/ ); /* L_frame / sqrt(2*NORM_MDCT_FACTOR); Q9 */ @@ -960,7 +915,7 @@ Word16 ivas_acelp_tcx20_switching_fx( { com_gainlpc_e = s_max( com_gainlpc_e, gainlpc_e[i] ); } - Copy_Scale_sig32( x_fx, x_fx, L_frame, -com_gainlpc_e ); + Copy_Scale_sig32( x_fx, x_fx, L_frame, -com_gainlpc_e ); /* Q31-e_x-com_gainlpc_e */ e_x = add( e_x, com_gainlpc_e ); mdct_shaping( x_fx, L_frame, gainlpc_fx, gainlpc_e ); @@ -991,17 +946,17 @@ Word16 ivas_acelp_tcx20_switching_fx( /* calc quadruple energy */ ener = L_deposit_l( 1 ); - tmp16 = extract_h( L_shl( x_fx[0], s ) ); - ener = L_mac( ener, tmp16, tmp16 ); + tmp16 = extract_h( L_shl( x_fx[0], s ) ); /* Q15-e_x+s */ + ener = L_mac( ener, tmp16, tmp16 ); /* 2*(Q15-e_x+s)+1 */ - tmp16 = extract_h( L_shl( x_fx[1], s ) ); - ener = L_mac( ener, tmp16, tmp16 ); + tmp16 = extract_h( L_shl( x_fx[1], s ) ); /* Q15-e_x+s */ + ener = L_mac( ener, tmp16, tmp16 ); /* 2*(Q15-e_x+s)+1 */ - tmp16 = extract_h( L_shl( x_fx[2], s ) ); - ener = L_mac( ener, tmp16, tmp16 ); + tmp16 = extract_h( L_shl( x_fx[2], s ) ); /* Q15-e_x+s */ + ener = L_mac( ener, tmp16, tmp16 ); /* 2*(Q15-e_x+s)+1 */ - tmp16 = extract_h( L_shl( x_fx[3], s ) ); - ener = L_mac( ener, tmp16, tmp16 ); + tmp16 = extract_h( L_shl( x_fx[3], s ) ); /* Q15-e_x+s */ + ener = L_mac( ener, tmp16, tmp16 ); /* 2*(Q15-e_x+s)+1 */ s = shl( sub( e_x, s ), 1 ); @@ -1017,7 +972,7 @@ Word16 ivas_acelp_tcx20_switching_fx( FOR( iter = 0; iter < 10; iter++ ) { - fac = L_shr( fac, 1 ); + fac = L_shr( fac, 1 ); /* q0 */ offset = L_sub( offset, fac ); ener = L_deposit_l( 0 ); @@ -1025,33 +980,33 @@ Word16 ivas_acelp_tcx20_switching_fx( { tmp32 = L_sub( en[i], offset ); - IF( GT_32( tmp32, 0xFF20 ) ) /* 0xFF20 -> 3.f * log2(10)/10 */ + if ( GT_32( tmp32, 0xFF20 ) ) /* 0xFF20 -> 3.f * log2(10)/10 */ { ener = L_add( ener, tmp32 ); } tmp32 = L_sub( en[i + 1], offset ); - IF( GT_32( tmp32, 0xFF20 ) ) /* 0xFF20 -> 3.f * log2(10)/10 */ + if ( GT_32( tmp32, 0xFF20 ) ) /* 0xFF20 -> 3.f * log2(10)/10 */ { ener = L_add( ener, tmp32 ); } tmp32 = L_sub( en[i + 2], offset ); - IF( GT_32( tmp32, 0xFF20 ) ) /* 0xFF20 -> 3.f * log2(10)/10 */ + if ( GT_32( tmp32, 0xFF20 ) ) /* 0xFF20 -> 3.f * log2(10)/10 */ { ener = L_add( ener, tmp32 ); } tmp32 = L_sub( en[i + 3], offset ); - IF( GT_32( tmp32, 0xFF20 ) ) /* 0xFF20 -> 3.f * log2(10)/10 */ + if ( GT_32( tmp32, 0xFF20 ) ) /* 0xFF20 -> 3.f * log2(10)/10 */ { ener = L_add( ener, tmp32 ); } - IF( GT_32( ener, target ) ) + if ( GT_32( ener, target ) ) { offset = L_add( offset, fac ); BREAK; @@ -1061,12 +1016,8 @@ Word16 ivas_acelp_tcx20_switching_fx( IF( LE_32( offset, 0xAA153 ) ) /* 0xAA153 -> 32.f * log2(10)/10 */ { -#ifdef FIX_USAN_ISSUES offset = (Word32) 0xFFD57AB5; /* 0xFFD57AB5 -> -128.f * log2(10)/10; */ move32(); -#else - offset = L_add( 0xFFD57AB5, 0 ); /* 0xFFD57AB5 -> -128.f * log2(10)/10; */ -#endif } offset_tcx = offset; move32(); @@ -1105,7 +1056,7 @@ Word16 ivas_acelp_tcx20_switching_fx( Word16 temp_e, e_num, e_den, temp_ene_e; temp_ene_e = ener_e; move16(); - tmp32 = Sqrt32( ener, &temp_ene_e ); + tmp32 = Sqrt32( ener, &temp_ene_e ); /* Q31-temp_ene_e */ /*Approximate SNR of TCX*/ set32_fx( x_fx, tmp32, L_frame ); /* ener_e */ mdct_noiseShaping_ivas_fx( x_fx, &temp_ene_e, L_frame, gainlpc_noinv, gainlpc_noinv_e ); @@ -1132,10 +1083,10 @@ Word16 ivas_acelp_tcx20_switching_fx( FOR( i = bands[iter]; i < bands[iter + 1]; i++ ) { - nrg_s = BASOP_Util_Add_Mant32Exp( nrg_s, e_num, Mpy_32_32( y_fx[i], y_fx[i] ), shl( e_x, 1 ), &e_num ); - nrg_n = BASOP_Util_Add_Mant32Exp( nrg_n, e_den, Mpy_32_32( x_fx[i], x_fx[i] ), shl( temp_ene_e, 1 ), &e_den ); + nrg_s = BASOP_Util_Add_Mant32Exp( nrg_s, e_num, Mpy_32_32( y_fx[i], y_fx[i] ), shl( e_x, 1 ), &e_num ); /* Q31-e_num */ + nrg_n = BASOP_Util_Add_Mant32Exp( nrg_n, e_den, Mpy_32_32( x_fx[i], x_fx[i] ), shl( temp_ene_e, 1 ), &e_den ); /* Q31-e_den */ } - res_cod_SNR_M[iter] = BASOP_Util_Divide3232_Scale_cadence( nrg_s, nrg_n, &temp_e ); + res_cod_SNR_M[iter] = BASOP_Util_Divide3232_Scale_cadence( nrg_s, nrg_n, &temp_e ); /* Q31-res_cod_SNR_M_e[iter] */ move32(); res_cod_SNR_M_e[iter] = add( temp_e, sub( e_num, e_den ) ); move16(); @@ -1145,7 +1096,7 @@ Word16 ivas_acelp_tcx20_switching_fx( pt_ener_sfr = ener_sfr; tcx_snr = L_deposit_l( 0 ); - L_loop = L_frame; + L_loop = L_frame; /* Q0 */ move16(); if ( flag_16k_smc ) { @@ -1154,41 +1105,37 @@ Word16 ivas_acelp_tcx20_switching_fx( } Word16 temp32_e = 0; move16(); - Word32 temp_energy = L_add( BASOP_Util_Log2( ener ), L_shl( L_deposit_l( ener_e ), 25 ) ); - temp_energy = L_add( temp_energy, 201326592 /* 6 in Q25*/ ); - temp_energy = L_shr( temp_energy, 9 ); /*temp_energy is log(( ener * L_SUBFR ))*/ + Word32 temp_energy = L_add( BASOP_Util_Log2( ener ), L_shl( L_deposit_l( ener_e ), 25 ) ); /* Q25 */ + temp_energy = L_add( temp_energy, 201326592 /* 6 in Q25*/ ); /* Q25 */ + temp_energy = L_shr( temp_energy, 9 ); /*temp_energy is log(( ener * L_SUBFR ))*/ FOR( i = 0; i < L_loop; i += L_SUBFR ) { tmp32 = L_deposit_l( 0 ); FOR( j = 0; j < L_SUBFR; j++ ) { - tmp32 = BASOP_Util_Add_Mant32Exp( tmp32, temp32_e, L_mult0( wsp[i + j], wsp[i + j] ), sub( 31, add( q_inp, q_inp ) ), &temp32_e ); + tmp32 = BASOP_Util_Add_Mant32Exp( tmp32, temp32_e, L_mult0( wsp[i + j], wsp[i + j] ), sub( 31, add( q_inp, q_inp ) ), &temp32_e ); /* Q31-temp32_e */ } IF( tmp32 == 0 ) { *pt_ener_sfr = -668739840; /* 0xFFEC1185 -> log2(1e-6) in 6Q25 */ move32(); -#ifdef FIX_USAN_ISSUES tmp32 = (Word32) 0xFFEC1185; /* 0xFFEC1185 -> log2(1e-6) in 15Q16 */ -#else - tmp32 = 0xFFEC1185; /* 0xFFEC1185 -> log2(1e-6) in 15Q16 */ -#endif move32(); } ELSE { - tmp32 = L_add( BASOP_Util_Log2( tmp32 ), L_shl( L_deposit_l( temp32_e ), 25 ) ); - *pt_ener_sfr = tmp32; + tmp32 = L_add( BASOP_Util_Log2( tmp32 ), L_shl( L_deposit_l( temp32_e ), 25 ) ); /* Q25 */ + *pt_ener_sfr = tmp32; /* Q25 */ move32(); tmp32 = L_shr( tmp32, 9 ); /* 15Q16 */ } tcx_snr = L_sub( L_add( tcx_snr, tmp32 ), temp_energy ); /*15Q16*/ pt_ener_sfr++; } - tmp16 = BASOP_Util_Divide1616_Scale( L_SUBFR, L_loop, &temp32_e ); - tmp16 = shl( tmp16, temp32_e ); - tcx_snr = Mpy_32_16_1( tcx_snr, tmp16 ); + tmp16 = BASOP_Util_Divide1616_Scale( L_SUBFR, L_loop, &temp32_e ); /* Q15-temp32_e */ + tmp16 = shl( tmp16, temp32_e ); /* Q15 */ + tcx_snr = Mpy_32_16_1( tcx_snr, tmp16 ); /* Q16 */ tcx_snr = L_shl( Mpy_32_16_1( tcx_snr, 0x6054 /* 0x6054 -> 10/log2(10) (2Q13) */ ), 2 ); /* Q16*/ /*--------------------------------------------------------------* @@ -1232,15 +1179,18 @@ Word16 ivas_acelp_tcx20_switching_fx( T0 = shr( add( pitch_fr_local[i2], ( 1 << 5 ) ), 6 ); } - gain = get_gain2( wsp + i, wsp + sub( i, T0 ), L_SUBFR ); + gain = get_gain2( wsp + i, wsp + sub( i, T0 ), L_SUBFR ); /*Q16*/ noise = L_deposit_l( 1 ); - + noise_e = 0; + move16(); FOR( j = 0; j < L_SUBFR; j++ ) { - tmp16 = round_fx_o( L_shl_o( Mpy_32_16_r( gain, wsp[i + j - T0] ), 15, &Overflow ), &Overflow ); // q_in - tmp16 = sub_o( wsp[i + j], tmp16, &Overflow ); // q_in - noise = L_mac0_o( noise, tmp16, tmp16, &Overflow ); // 2*q_in// + tmp32 = Mpy_32_16_1( gain, wsp[i + j - T0] ); // Q16 + q_inp - 15 + tmp32 = L_sub( wsp[i + j], L_shr( tmp32, 1 ) ); // q_inp + tmp16 = norm_l( tmp32 ); + tmp32 = L_shl( tmp32, tmp16 ); // q_inp +tmp16 + noise = BASOP_Util_Add_Mant32Exp( noise, noise_e, Mpy_32_32( tmp32, tmp32 ), shl( sub( 31, add( q_inp, tmp16 ) ), 1 ), &noise_e ); // noise_e } test(); IF( noise == 0 || EQ_32( noise, 1 ) ) @@ -1259,7 +1209,7 @@ Word16 ivas_acelp_tcx20_switching_fx( ELSE { noise = Mpy_32_16_1( noise, scale ); - tmp32 = L_add( BASOP_Util_Log2( noise ), L_shl( sub( 31, add( q_inp, q_inp ) ), 25 ) ); // Q25 + tmp32 = L_add( BASOP_Util_Log2( noise ), L_shl( noise_e, 25 ) ); // Q25 } tmp32 = L_sub( *pt_ener_sfr, tmp32 ); // Q25 temp_energy = BASOP_Util_Add_Mant32Exp( tmp32, 6, temp_energy, ener_e, &ener_e ); @@ -1291,8 +1241,8 @@ Word16 ivas_acelp_tcx20_switching_fx( test(); if ( ( GT_32( snr_acelp, tcx_snr ) ) && ( LT_32( snr_acelp, L_add( tcx_snr, 131072 /*2.0f Q16*/ ) ) ) && - ( LT_16( add_o( st->prevTempFlatness_fx, currFlatness, &Overflow ), 416 /*3.25f Q7*/ ) || EQ_16( stab_fac, 0x7fff ) || - ( !flag_16k_smc && ( st->sp_aud_decision0 > 0 ) && LT_16( add_sat( st->prevTempFlatness_fx, currFlatness ), 2560 /*20.f Q7*/ ) ) ) && + ( LT_32( L_add_o( st->prevTempFlatness_32fx, currFlatness, &Overflow ), 6815744 /*3.25f Q21*/ ) || EQ_16( stab_fac, 0x7fff ) || + ( !flag_16k_smc && ( st->sp_aud_decision0 > 0 ) && LT_32( L_add_sat( st->prevTempFlatness_32fx, currFlatness ), 41943040 /*20.f Q21*/ ) ) ) && ( LE_16( st->Nb_ACELP_frames, 6 ) ) ) { dsnr = -131072 /*-2.0f Q16*/; @@ -1304,7 +1254,7 @@ Word16 ivas_acelp_tcx20_switching_fx( test(); if ( ( LT_32( snr_acelp, tcx_snr ) ) && ( GT_32( snr_acelp, L_sub( tcx_snr, 131072 /*2.0f Q16*/ ) ) ) && - ( GT_16( add_sat( st->prevTempFlatness_fx, currFlatness ), 416 /*3.25f Q7*/ ) ) && + ( GT_32( L_add_sat( st->prevTempFlatness_32fx, currFlatness ), 6815744 /*3.25f Q21*/ ) ) && ( GE_16( st->Nb_ACELP_frames, 6 ) ) ) { dsnr = 131072 /*2.0f Q16*/; @@ -1350,7 +1300,7 @@ Word16 ivas_acelp_tcx20_switching_fx( /* Select ACELP or TCX */ test(); test(); - IF( GT_32( L_add( snr_acelp, dsnr ), tcx_snr ) && ( st->sp_aud_decision0 == 0 || GT_16( add_sat( st->prevTempFlatness_fx, currFlatness ), 416 /*3.25f Q7*/ ) ) ) + IF( GT_32( L_add( snr_acelp, dsnr ), tcx_snr ) && ( st->sp_aud_decision0 == 0 || GT_32( L_add_sat( st->prevTempFlatness_32fx, currFlatness ), 6815744 /*3.25f Q21*/ ) ) ) { smc_dec_ol = 0; move16(); @@ -1374,7 +1324,7 @@ Word16 ivas_acelp_tcx20_switching_fx( } #endif - st->prevTempFlatness_fx = currFlatness; + st->prevTempFlatness_32fx = currFlatness; move16(); return smc_dec_ol; } diff --git a/lib_enc/ivas_td_low_rate_enc.c b/lib_enc/ivas_td_low_rate_enc_fx.c similarity index 87% rename from lib_enc/ivas_td_low_rate_enc.c rename to lib_enc/ivas_td_low_rate_enc_fx.c index 4d6a908b3f8ad26c27e4729443f40882460c5b85..77ddb35aaf38b39ea89084727e9e325ef7dccb92 100644 --- a/lib_enc/ivas_td_low_rate_enc.c +++ b/lib_enc/ivas_td_low_rate_enc_fx.c @@ -37,10 +37,8 @@ #include "rom_com.h" #include "ivas_rom_com.h" #include "ivas_cnst.h" -#include "prot.h" #include "prot_fx.h" #include "prot_fx_enc.h" -#include "ivas_prot.h" #include "ivas_prot_fx.h" #include "wmc_auto.h" @@ -53,17 +51,17 @@ void tdm_low_rate_enc( Encoder_State *st, /* i/o: State structure */ - const Word16 Aq[], /* i : 12k8 Lp coefficient */ - const Word16 *res, /* i : residual signal */ - Word16 *synth, /* i/o: core synthesis */ - Word16 *exc_fx, /* i/o: current non-enhanced excitation */ + const Word16 Aq[], /* i : 12k8 Lp coefficient Q12*/ + const Word16 *res, /* i : residual signal Q_new*/ + Word16 *synth, /* i/o: core synthesis Q_new*/ + Word16 *exc_fx, /* i/o: current non-enhanced excitation Q_new*/ Word16 *pitch_buf, /* i/o: floating pitch values for each subframe */ // Q6 - Word16 *voice_factors, /* o : voicing factors */ - Word16 *bwe_exc_fx, /* o : excitation for SWB TBE */ - const Word16 attack_flag, /* i : GSC attack flag */ - const Word16 *lsf_new, /* i : current frame ISF vector */ - Word16 *tmp_noise, /* o : long-term noise energy */ + Word16 *voice_factors, /* o : voicing factors Q15*/ + Word16 *bwe_exc_fx, /* o : excitation for SWB TBE Q_new*/ + const Word16 attack_flag, /* i : GSC attack flag Q0*/ + const Word16 *lsf_new, /* i : current frame ISF vector Qx2.56*/ + Word16 *tmp_noise, /* o : long-term noise energy Q11*/ Word16 Q_new ) { const Word16 *p_Aq; @@ -90,7 +88,7 @@ void tdm_low_rate_enc( hLPDmem->tilt_code = 0; move16(); set16_fx( dct_epit_fx, 0, L_FRAME ); - set16_fx( pitch_buf, L_SUBFR_Q6, NB_SUBFR ); + set16_fx( pitch_buf, L_SUBFR_Q6, NB_SUBFR ); /* Q6 */ last_pit_bin = L_FRAME / 2; move16(); @@ -105,7 +103,7 @@ void tdm_low_rate_enc( *--------------------------------------------------------------------------------------*/ /* Find the current total number of bits used */ - tmp_nb_bits_tot = st->hBstr->nb_bits_tot; + tmp_nb_bits_tot = st->hBstr->nb_bits_tot; /* Q0 */ move16(); if ( st->extl_brate > 0 ) @@ -154,17 +152,18 @@ void tdm_low_rate_enc( * Synthesis *--------------------------------------------------------------------------------------*/ - p_Aq = Aq; + p_Aq = Aq; /* Q12 */ FOR( i_subfr = 0; i_subfr < L_FRAME; i_subfr += L_SUBFR ) { - E_UTIL_synthesis( 0, p_Aq, &exc_wo_nf_fx[i_subfr], &synth[i_subfr], L_SUBFR, hLPDmem->mem_syn, 1, M ); + E_UTIL_synthesis( 0, p_Aq, &exc_wo_nf_fx[i_subfr], &synth[i_subfr], L_SUBFR, hLPDmem->mem_syn, 1, M ); /* Q_new */ p_Aq += ( M + 1 ); + scale_sig( hLPDmem->mem_syn, M, sub( hLPDmem->q_mem_syn, Q_new ) ); // Q_new -> hLPDmem->q_mem_syn } /*--------------------------------------------------------------------------------------* * Updates *--------------------------------------------------------------------------------------*/ - Copy( exc_wo_nf_fx, exc_fx, L_FRAME ); + Copy( exc_wo_nf_fx, exc_fx, L_FRAME ); /* Q_new */ return; } @@ -223,13 +222,9 @@ void encod_gen_2sbfr( LPD_state_HANDLE hLPDmem = st->hLPDmem; -#ifdef FIX_1320_LOWRATE_ACELP Word16 gcode16; Word32 Lgcode, Ltmp; -#endif -#ifdef MSAN_FIX set16_fx( cn, 0, 2 * L_SUBFR ); /* Target vector in residual domain */ -#endif /*------------------------------------------------------------------* * Initializations @@ -252,9 +247,9 @@ void encod_gen_2sbfr( coder_type = GENERIC; move16(); - p_Aw = Aw; - p_Aq = Aq; - pt_pitch = pitch_buf; + p_Aw = Aw; /* e(norm_s(Aw[0]+1) */ + p_Aq = Aq; /* e(norm_s(Aw[0]+1) */ + pt_pitch = pitch_buf; /*Q6*/ /*------------------------------------------------------------------* * ACELP subframe loop @@ -270,11 +265,7 @@ void encod_gen_2sbfr( Copy( &res[i_subfr], &exc[i_subfr], 2 * L_SUBFR ); // Q_new -#ifndef FIX_1320_LOWRATE_ACELP - find_targets_fx( speech, hLPDmem->mem_syn, i_subfr, &hLPDmem->mem_w0, p_Aq, res, 2 * L_SUBFR, p_Aw, st->preemph_fac, xn, cn, h1 ); -#else find_targets_ivas_fx( speech, hLPDmem->mem_syn, i_subfr, &hLPDmem->mem_w0, p_Aq, res, 2 * L_SUBFR, p_Aw, st->preemph_fac, xn, cn, h1 ); -#endif q_h1 = sub( 14, norm_s( h1[0] ) ); Copy_Scale_sig( h1, h2, 2 * L_SUBFR, sub( 11, q_h1 ) ); @@ -300,23 +291,15 @@ void encod_gen_2sbfr( * Gain clipping test to avoid unstable synthesis on frame erasure *-----------------------------------------------------------------*/ -#ifndef FIX_1320_LOWRATE_ACELP - clip_gain = gp_clip_fx( st->element_mode, st->core_brate, st->voicing_fx, i_subfr, coder_type, xn, st->clip_var_fx, Q_new ); // Q0 -#else clip_gain = gp_clip_fx( st->element_mode, st->core_brate, st->voicing_fx, i_subfr, coder_type, xn, st->clip_var_fx, sub( Q_new, 1 ) ); // Q0 -#endif /*-----------------------------------------------------------------* * LP filtering of the adaptive excitation, codebook target computation *-----------------------------------------------------------------*/ Scale_sig( h1, 2 * L_SUBFR, add( 1, shift ) ); /* set h1[] in Q14 with scaling for convolution */ -#ifndef FIX_1320_LOWRATE_ACELP - lp_filt_exc_enc_fx( MODE1, coder_type, i_subfr, exc, h1, xn, y1, xn2, 2 * L_SUBFR, L_frame, g_corr, clip_gain, &gain_pit, &st->acelp_cfg.ltf_mode ); -#else lp_filt_exc_enc_ivas_fx( MODE1, coder_type, i_subfr, exc, h1, xn, y1, xn2, 2 * L_SUBFR, L_frame, g_corr, clip_gain, &gain_pit, &st->acelp_cfg.ltf_mode ); -#endif /* update long-term pitch gain for speech/music classifier */ - st->hSpMusClas->lowrate_pitchGain = add( mult( 29491, st->hSpMusClas->lowrate_pitchGain ), mult( 3277, gain_pit ) ); // Q14 + st->hSpMusClas->lowrate_pitchGain = add( mult( 29491, st->hSpMusClas->lowrate_pitchGain ), mult( 3277 /*Q15*/, gain_pit ) ); // Q14 move16(); /*-----------------------------------------------------------------* @@ -333,7 +316,7 @@ void encod_gen_2sbfr( IF( st->Opt_SC_VBR ) { - IF( EQ_16( st->hSC_VBR->last_ppp_mode, 1 ) ) + if ( EQ_16( st->hSC_VBR->last_ppp_mode, 1 ) ) { /* SC-VBR - all other st->clip_var values will be updated even in a PPP frame */ st->clip_var_fx[1] = gain_pit; @@ -347,22 +330,15 @@ void encod_gen_2sbfr( gp_clip_test_gain_pit_fx( st->element_mode, st->core_brate, gain_pit, st->clip_var_fx ); -#ifndef FIX_1320_LOWRATE_ACELP - hLPDmem->tilt_code = est_tilt_ivas_fx( exc + i_subfr, gain_pit, code, gain_code, &voice_fac, Q_new, 2 * L_SUBFR, 0 ); -#else - Lgcode = L_shl_sat( gain_code, Q_new ); /* scaled gain_code with Qnew -> Q16*/ - gcode16 = round_fx_sat( Lgcode ); /*Q0*/ - hLPDmem->tilt_code = est_tilt_ivas_fx( exc + i_subfr, gain_pit, code, Lgcode, &voice_fac, Q_new, 2 * L_SUBFR, 0 ); -#endif + Lgcode = L_shl_sat( gain_code, Q_new ); /* scaled gain_code with Qnew -> Q16*/ + gcode16 = round_fx_sat( Lgcode ); /*Q0*/ + hLPDmem->tilt_code = est_tilt_ivas_fx( exc + i_subfr, gain_pit, code, Lgcode, &voice_fac, Q_new, 2 * L_SUBFR, 0 ); /* Q15 */ move16(); /*-----------------------------------------------------------------* * Update memory of the weighting filter *-----------------------------------------------------------------*/ -#ifndef FIX_1320_LOWRATE_ACELP - hLPDmem->mem_w0 = sub( sub( xn[2 * L_SUBFR - 1], mult_r( gain_pit, y1[2 * L_SUBFR - 1] ) ), mult_r( extract_h( gain_code ), y2[2 * L_SUBFR - 1] ) ); -#else Ltmp = L_mult0( gcode16, y2[2 * L_SUBFR - 1] ); /*Q10*/ Ltmp = L_shl( Ltmp, add( 5, shift ) ); /*Q15+shift*/ Ltmp = L_negate( Ltmp ); @@ -370,7 +346,6 @@ void encod_gen_2sbfr( Ltmp = L_msu( Ltmp, y1[2 * L_SUBFR - 1], gain_pit /*Q14*/ ); /* Q_new-1+shift+14+1 */ Ltmp = L_shl_sat( Ltmp, sub( 1, shift ) ); /* 15 + Q_new */ hLPDmem->mem_w0 = round_fx_sat( Ltmp ); /*Q_new-1 */ -#endif move16(); /*-----------------------------------------------------------------* @@ -378,46 +353,32 @@ void encod_gen_2sbfr( * Save the non-enhanced excitation for FEC_exc *-----------------------------------------------------------------*/ -#ifndef FIX_1320_LOWRATE_ACELP - FOR( i = 0; i < 2 * L_SUBFR; i++ ) - { - exc2[i + i_subfr] = mult( gain_pit, exc[i + i_subfr] ); - move16(); - exc[i + i_subfr] = add( exc2[i + i_subfr], mult( extract_h( gain_code ), code[i] ) ); - move16(); - } -#else FOR( i = 0; i < 2 * L_SUBFR; i++ ) { /* code in Q9, gain_pit in Q14 */ - exc2[i + i_subfr] = shl_sat( mult( gain_pit, exc[i + i_subfr] ), 1 ); - Ltmp = L_mult( gcode16, code[i] ); /* Q10 */ - Ltmp = L_shl_sat( Ltmp, 5 ); /* Q15 */ - Ltmp = L_mac_sat( Ltmp, exc[i + i_subfr], gain_pit ); /* Q15 */ - Ltmp = L_shl_sat( Ltmp, 1 ); /* saturation can occur here Q16*/ + exc2[i + i_subfr] = shl_sat( mult( gain_pit, exc[i + i_subfr] ), 1 ); /* Q_new-1 */ + Ltmp = L_mult( gcode16, code[i] ); /* Q10 */ + Ltmp = L_shl_sat( Ltmp, 5 ); /* Q15 */ + Ltmp = L_mac_sat( Ltmp, exc[i + i_subfr], gain_pit ); /* Q15 */ + Ltmp = L_shl_sat( Ltmp, 1 ); /* saturation can occur here Q16*/ exc[i + i_subfr] = round_fx_sat( Ltmp ); move16(); move16(); } -#endif /*-----------------------------------------------------------------* * Prepare TBE excitation *-----------------------------------------------------------------*/ prep_tbe_exc_ivas_fx( L_frame, L_SUBFR, i_subfr, gain_pit, gain_code, code, voice_fac, &voice_factors[i_subfr / L_SUBFR], bwe_exc, 0, NULL, Q_new, T0, T0_frac, coder_type, st->core_brate, st->element_mode, st->idchan, st->hBWE_TD != NULL, st->tdm_LRTD_flag ); - voice_factors[i_subfr / L_SUBFR + 1] = voice_factors[i_subfr / L_SUBFR]; + voice_factors[i_subfr / L_SUBFR + 1] = voice_factors[i_subfr / L_SUBFR]; /* Q15 */ move16(); /*-----------------------------------------------------------------* * Synthesize speech to update mem_syn_flt[]. * Update A(z) filters *-----------------------------------------------------------------*/ -#ifndef FIX_1320_LOWRATE_ACELP - E_UTIL_synthesis( 0, p_Aq, &exc[i_subfr], &syn[i_subfr], 2 * L_SUBFR, hLPDmem->mem_syn, 1, M ); -#else Syn_filt_s( 1, p_Aq, M, &exc[i_subfr], &syn[i_subfr], 2 * L_SUBFR, hLPDmem->mem_syn, 1 ); -#endif p_Aw += 2 * ( M + 1 ); p_Aq += 2 * ( M + 1 ); @@ -430,8 +391,8 @@ void encod_gen_2sbfr( /* SC-VBR */ IF( st->Opt_SC_VBR ) { - st->hSC_VBR->prev_ppp_gain_pit_fx = gain_pit; - st->hSC_VBR->prev_tilt_code_fx = hLPDmem->tilt_code; + st->hSC_VBR->prev_ppp_gain_pit_fx = gain_pit; /* Q14 */ + st->hSC_VBR->prev_tilt_code_fx = hLPDmem->tilt_code; /* Q15 */ move16(); move16(); } diff --git a/lib_enc/lead_indexing.c b/lib_enc/lead_indexing.c deleted file mode 100644 index 3a6a477b9966906fbba99ec77ad972026bca9f86..0000000000000000000000000000000000000000 --- a/lib_enc/lead_indexing.c +++ /dev/null @@ -1,208 +0,0 @@ -/****************************************************************************************************** - - (C) 2022-2025 IVAS codec Public Collaboration with portions copyright Dolby International AB, Ericsson AB, - Fraunhofer-Gesellschaft zur Foerderung der angewandten Forschung e.V., Huawei Technologies Co. LTD., - Koninklijke Philips N.V., Nippon Telegraph and Telephone Corporation, Nokia Technologies Oy, Orange, - Panasonic Holdings Corporation, Qualcomm Technologies, Inc., VoiceAge Corporation, and other - contributors to this repository. All Rights Reserved. - - This software is protected by copyright law and by international treaties. - The IVAS codec Public Collaboration consisting of Dolby International AB, Ericsson AB, - Fraunhofer-Gesellschaft zur Foerderung der angewandten Forschung e.V., Huawei Technologies Co. LTD., - Koninklijke Philips N.V., Nippon Telegraph and Telephone Corporation, Nokia Technologies Oy, Orange, - Panasonic Holdings Corporation, Qualcomm Technologies, Inc., VoiceAge Corporation, and other - contributors to this repository retain full ownership rights in their respective contributions in - the software. This notice grants no license of any kind, including but not limited to patent - license, nor is any license granted by implication, estoppel or otherwise. - - Contributors are required to enter into the IVAS codec Public Collaboration agreement before making - contributions. - - This software is provided "AS IS", without any express or implied warranties. The software is in the - development stage. It is intended exclusively for experts who have experience with such software and - solely for the purpose of inspection. All implied warranties of non-infringement, merchantability - and fitness for a particular purpose are hereby disclaimed and excluded. - - Any dispute, controversy or claim arising under or in relation to providing this software shall be - submitted to and settled by the final, binding jurisdiction of the courts of Munich, Germany in - accordance with the laws of the Federal Republic of Germany excluding its conflict of law rules and - the United Nations Convention on Contracts on the International Sales of Goods. - -*******************************************************************************************************/ - -/*==================================================================================== - EVS Codec 3GPP TS26.443 Nov 04, 2021. Version 12.14.0 / 13.10.0 / 14.6.0 / 15.4.0 / 16.3.0 - ====================================================================================*/ - -#include -#include "options.h" -#include "rom_com.h" -#include "prot.h" -#include "wmc_auto.h" - -/*-------------------------------------------------------------------* - * Local function prototypes - *-------------------------------------------------------------------*/ - -static int16_t fcb_encode_pos( const int16_t pos_vector[], const int16_t pulse_num, const int16_t pos_num ); - - -/*-------------------------------------------------------------------* - * re8_compute_base_index: - * - * Compute base index for RE8 - *-------------------------------------------------------------------*/ - -void re8_compute_base_index( - const int16_t *x, /* i : Elemen of Q2, Q3 or Q4 */ - const int16_t ka, /* i : Identifier of the absolute leader related to x */ - uint16_t *I /* o : index */ -) -{ - int16_t i, j, k1, m; - int16_t setor_8p[8], setor_8p_temp[8]; - int16_t sign_8p; - int16_t code_index, code_level, code_area; - uint16_t offset; - const int16_t *a1, *a2; - - a1 = vals_a[ka]; - a2 = vals_q[ka]; - - /* the sign process */ - - sign_8p = 0; - m = 0; - code_index = 0; - k1 = a2[0]; - - if ( ( a2[1] == 2 ) && ( a1[0] ^ 1 ) && ( ka != 5 ) ) - { - for ( i = 0; i < 8; i++ ) - { - if ( x[i] != 0 ) - { - sign_8p = sign_8p * 2; - setor_8p_temp[m] = i; - m++; - } - if ( x[i] < 0 ) - { - sign_8p += 1; - } - } - - code_index = fcb_encode_pos( setor_8p_temp, 8, m ); - code_index = ( code_index << k1 ) + sign_8p; - - offset = Is[ka]; - - - *I = offset + code_index; - } - else - { - for ( i = 0; i < 8; i++ ) - { - setor_8p[i] = (int16_t) abs( x[i] ); - - if ( x[i] < 0 ) - { - sign_8p = sign_8p * 2 + 1; - m++; - } - if ( x[i] > 0 ) - { - sign_8p = sign_8p * 2; - m++; - } - } - - if ( k1 != m ) - { - sign_8p = sign_8p >> 1; - } - - /* code level by level */ - - code_level = a2[1]; - code_area = 8; - - if ( a2[2] != 1 ) - { - for ( j = 0; j < code_level - 1; j++ ) - { - m = 0; - - for ( i = 0; i < code_area; i++ ) - { - if ( setor_8p[i] != a1[j] ) - { - setor_8p_temp[m] = i; - setor_8p[m] = setor_8p[i]; - m++; - } - } - code_index *= select_table22[m][code_area]; - - code_index += fcb_encode_pos( setor_8p_temp, code_area, m ); - - code_area = m; - } - } - else - { - for ( i = 0; i < code_area; i++ ) - { - if ( setor_8p[i] == a1[1] ) - { - code_index += i; - } - } - } - - code_index = ( code_index << k1 ) + sign_8p; - - offset = Is[ka]; - - *I = offset + code_index; - } - - return; -} - -/*-------------------------------------------------------------------* - * fcb_encode_pos: - * - * Base function to compute base index for RE8 - *-------------------------------------------------------------------*/ - -/*! r: Code index */ -static int16_t fcb_encode_pos( - const int16_t pos_vector[], /* i : Position vectort */ - const int16_t pulse_num, /* i : Pulse number */ - const int16_t pos_num /* i : Position number */ -) -{ - int16_t i, j; - int16_t code_index; - int16_t temp, temp1; - const int16_t *select_table23; - - temp = pulse_num - 1; - - select_table23 = select_table22[pos_num]; - - code_index = select_table23[pulse_num] - select_table23[pulse_num - pos_vector[0]]; - - for ( i = 0, j = 1; i < pos_num - 1; i++, j++ ) - { - temp1 = pos_num - j; - - select_table23 = select_table22[temp1]; - - code_index += select_table23[temp - pos_vector[i]] - select_table23[pulse_num - pos_vector[j]]; - } - - return code_index; -} diff --git a/lib_enc/lead_indexing_fx.c b/lib_enc/lead_indexing_fx.c index ff29330140ca4071d8d975ac14ce545a57050c97..70e0c4796ac2a53ea93ea8b1e7368999f4726e5c 100644 --- a/lib_enc/lead_indexing_fx.c +++ b/lib_enc/lead_indexing_fx.c @@ -22,8 +22,8 @@ static Word16 fcb_encode_pos_fx( const Word16 pos_vector[], const Word16 pulse_n *-------------------------------------------------------------------*/ void re8_compute_base_index_fx( const Word16 *x, /* i : Elemen of Q2, Q3 or Q4 */ - const Word16 ka, /* i : Identifier of the absolute leader related to x */ - UWord16 *I /* o : index */ + const Word16 ka, /* i : Identifier of the absolute leader related to x Q0*/ + UWord16 *I /* o : index Q0*/ ) { Word16 i, j, k1, m; @@ -35,9 +35,9 @@ void re8_compute_base_index_fx( Word16 code_index; UWord16 offset; - a1 = vals_a[ka]; + a1 = vals_a[ka]; /* Q0 */ move16(); - a2 = vals_q[ka]; + a2 = vals_q[ka]; /* Q0 */ move16(); /* the sign process */ @@ -48,7 +48,7 @@ void re8_compute_base_index_fx( move16(); code_index = 0; move16(); - k1 = a2[0]; + k1 = a2[0]; /* Q0 */ move16(); test(); @@ -59,15 +59,15 @@ void re8_compute_base_index_fx( { IF( x[i] != 0 ) { - sign_8p = shl( sign_8p, 1 ); + sign_8p = shl( sign_8p, 1 ); /* Q0 */ setor_8p_temp[m] = i; move16(); - m = add( m, 1 ); + m++; } - IF( x[i] < 0 ) + if ( x[i] < 0 ) { - sign_8p = add( sign_8p, 1 ); + sign_8p = add( sign_8p, 1 ); /* Q0 */ } } @@ -78,33 +78,35 @@ void re8_compute_base_index_fx( move16(); *I = extract_l( L_add( offset, (Word32) code_index ) ); + move16(); } ELSE { FOR( i = 0; i < 8; i++ ) { - setor_8p[i] = abs_s( x[i] ); + setor_8p[i] = abs_s( x[i] ); /* Q0 */ + move16(); IF( x[i] != 0 ) { - sign_8p = shl( sign_8p, 1 ); - m = add( m, 1 ); + sign_8p = shl( sign_8p, 1 ); /* Q0 */ + m++; } - IF( x[i] < 0 ) + if ( x[i] < 0 ) { - sign_8p = add( sign_8p, 1 ); + sign_8p = add( sign_8p, 1 ); /* Q0 */ } } - IF( NE_16( k1, m ) ) + if ( NE_16( k1, m ) ) { - sign_8p = shr( sign_8p, 1 ); + sign_8p = shr( sign_8p, 1 ); /* Q0 */ } /* code level by level */ - code_level = sub( a2[1], 1 ); + code_level = sub( a2[1], 1 ); /* Q0 */ code_area = 8; move16(); @@ -119,15 +121,15 @@ void re8_compute_base_index_fx( { IF( NE_16( setor_8p[i], a1[j] ) ) { - setor_8p_temp[m] = i; + setor_8p_temp[m] = i; /* Q0 */ move16(); - setor_8p[m] = setor_8p[i]; + setor_8p[m] = setor_8p[i]; /* Q0 */ move16(); - m = add( m, 1 ); + m++; } } - code_index = extract_l( L_mult0( code_index, select_table22[m][code_area] ) ); - code_index = add( code_index, fcb_encode_pos_fx( setor_8p_temp, code_area, m ) ); + code_index = extract_l( L_mult0( code_index, select_table22[m][code_area] ) ); /* Q0 */ + code_index = add( code_index, fcb_encode_pos_fx( setor_8p_temp, code_area, m ) ); /* Q0 */ code_area = m; move16(); } @@ -136,18 +138,19 @@ void re8_compute_base_index_fx( { FOR( i = 0; i < code_area; i++ ) { - IF( EQ_16( setor_8p[i], a1[1] ) ) + if ( EQ_16( setor_8p[i], a1[1] ) ) { - code_index = add( code_index, i ); + code_index = add( code_index, i ); /* Q0 */ } } } code_index = add( shl( code_index, k1 ), sign_8p ); - offset = Is[ka]; + offset = Is[ka]; /* Q0 */ move16(); - *I = extract_l( L_add( offset, (Word32) code_index ) ); + *I = extract_l( L_add( offset, (Word32) code_index ) ); /* Q0 */ + move16(); } } @@ -156,10 +159,10 @@ void re8_compute_base_index_fx( * * Base function to compute base index for RE8 *-------------------------------------------------------------------*/ -static Word16 fcb_encode_pos_fx( /* o : Code index */ - const Word16 pos_vector[], /* i : Position vectort */ - const Word16 pulse_num, /* i : Pulse number */ - const Word16 pos_num /* i : Position number */ +static Word16 fcb_encode_pos_fx( /* o : Code index Q0*/ + const Word16 pos_vector[], /* i : Position vectort Q0*/ + const Word16 pulse_num, /* i : Pulse number Q0*/ + const Word16 pos_num /* i : Position number Q0*/ ) { Word16 i, j; @@ -171,10 +174,10 @@ static Word16 fcb_encode_pos_fx( /* o : Code index temp = sub( pulse_num, 1 ); - select_table23 = select_table22[pos_num]; + select_table23 = select_table22[pos_num]; /* Q0 */ move16(); - code_index = sub( select_table23[pulse_num], select_table23[sub( pulse_num, pos_vector[0] )] ); + code_index = sub( select_table23[pulse_num], select_table23[( pulse_num - pos_vector[0] )] ); /* Q0 */ j = 1; move16(); @@ -184,12 +187,12 @@ static Word16 fcb_encode_pos_fx( /* o : Code index { temp1 = sub( pos_num, j ); - select_table23 = select_table22[temp1]; + select_table23 = select_table22[temp1]; /* Q0 */ move16(); - code_index = add( code_index, sub( select_table23[sub( temp, pos_vector[i] )], select_table23[sub( pulse_num, pos_vector[j] )] ) ); + code_index = add( code_index, sub( select_table23[( temp - pos_vector[i] )], select_table23[( pulse_num - pos_vector[j] )] ) ); /* Q0 */ - j = add( j, 1 ); + j++; } return code_index; diff --git a/lib_enc/lib_enc.c b/lib_enc/lib_enc.c index 3301047ff87a7172ad83e6717e41a54fb0b69ea1..79b799c3887536503b820965373674f5d62ae5f9 100644 --- a/lib_enc/lib_enc.c +++ b/lib_enc/lib_enc.c @@ -39,9 +39,7 @@ #include "debug.h" #endif #include "lib_enc.h" -#include "ivas_prot.h" #include "ivas_prot_fx.h" -#include "prot.h" #include "prot_fx.h" #include "prot_fx_enc.h" #include "wmc_auto.h" @@ -60,8 +58,8 @@ struct IVAS_ENC bool cmd_stereo; #endif bool switchingActive; /* flag for configuration changes during encoding - currently only used with mono */ - int16_t Opt_RF_ON_loc; - int16_t rf_fec_offset_loc; + Word16 Opt_RF_ON_loc; + Word16 rf_fec_offset_loc; bool ismMetadataProvided[MAX_NUM_OBJECTS]; bool maxBandwidthUser; /* Was a specific max bandwith selected by the user? */ IVAS_ENC_BANDWIDTH newBandwidthApi; /* maximum encoded bandwidth, as set on API level */ @@ -72,20 +70,20 @@ struct IVAS_ENC * Local functions *---------------------------------------------------------------------*/ -static ivas_error configureEncoder_fx( IVAS_ENC_HANDLE hIvasEnc, const Word32 inputFs, const Word32 initBitrate, const IVAS_ENC_BANDWIDTH initBandwidth, const IVAS_ENC_DTX_CONFIG dtxConfig, const IVAS_ENC_CHANNEL_AWARE_CONFIG caConfig ); +// static ivas_error configureEncoder_fx( IVAS_ENC_HANDLE hIvasEnc, const Word32 inputFs, const Word32 initBitrate, const IVAS_ENC_BANDWIDTH initBandwidth, const IVAS_ENC_DTX_CONFIG dtxConfig, const IVAS_ENC_CHANNEL_AWARE_CONFIG caConfig ); static ivas_error setBandwidth_fx( IVAS_ENC_HANDLE hIvasEnc, const IVAS_ENC_BANDWIDTH maxBandwidth ); static ivas_error setChannelAwareConfig_fx( IVAS_ENC_HANDLE hIvasEnc, const IVAS_ENC_CHANNEL_AWARE_CONFIG caConfig ); static ivas_error sanitizeBandwidth_fx( const IVAS_ENC_HANDLE hIvasEnc ); static ivas_error sanitizeBitrateISM_fx( const ENCODER_CONFIG_HANDLE hEncoderConfig, const bool extMetadataApi ); static Word16 getInputBufferSize_fx( const Encoder_Struct *st_ivas ); -static ivas_error configureEncoder( IVAS_ENC_HANDLE hIvasEnc, const int32_t inputFs, const int32_t initBitrate, const IVAS_ENC_BANDWIDTH initBandwidth, const IVAS_ENC_DTX_CONFIG dtxConfig, const IVAS_ENC_CHANNEL_AWARE_CONFIG caConfig ); -static ivas_error setBitrate( IVAS_ENC_HANDLE hIvasEnc, const int32_t totalBitrate ); +static ivas_error configureEncoder( IVAS_ENC_HANDLE hIvasEnc, const Word32 inputFs, const Word32 initBitrate, const IVAS_ENC_BANDWIDTH initBandwidth, const IVAS_ENC_DTX_CONFIG dtxConfig, const IVAS_ENC_CHANNEL_AWARE_CONFIG caConfig ); +static ivas_error setBitrate( IVAS_ENC_HANDLE hIvasEnc, const Word32 totalBitrate ); static ivas_error doCommonConfigureChecks( IVAS_ENC_HANDLE hIvasEnc ); static ivas_error doCommonSetterChecks( IVAS_ENC_HANDLE hIvasEnc ); static void init_encoder_config( ENCODER_CONFIG_HANDLE hEncoderConfig ); static void resetIsmMetadataProvidedFlags( IVAS_ENC_HANDLE hIvasEnc ); -static ivas_error bandwidthApiToInternal( const IVAS_ENC_BANDWIDTH maxBandwidth, int16_t *internalMaxBandwidth ); -static ivas_error fecIndicatorApiToInternal( const IVAS_ENC_FEC_INDICATOR fecIndicator, int16_t *fecIndicatorInternal ); +static ivas_error bandwidthApiToInternal( const IVAS_ENC_BANDWIDTH maxBandwidth, Word16 *internalMaxBandwidth ); +static ivas_error fecIndicatorApiToInternal( const IVAS_ENC_FEC_INDICATOR fecIndicator, Word16 *fecIndicatorInternal ); #ifdef DEBUGGING static ivas_error forcedModeApiToInternal( IVAS_ENC_FORCED_MODE forcedMode, int16_t *forcedModeInternal ); #endif @@ -159,6 +157,7 @@ ivas_error IVAS_ENC_Open( st_ivas->mc_mode = MC_MODE_NONE; st_ivas->ism_mode = ISM_MODE_NONE; st_ivas->sba_analysis_order = 0; + move16(); return IVAS_ERR_OK; } @@ -225,6 +224,7 @@ ivas_error IVAS_ENC_Open_fx( st_ivas->mc_mode = MC_MODE_NONE; st_ivas->ism_mode = ISM_MODE_NONE; st_ivas->sba_analysis_order = 0; + move16(); return IVAS_ERR_OK; } @@ -239,18 +239,19 @@ void IVAS_ENC_Close( ) { /* Free all memory */ - if ( phIvasEnc == NULL || *phIvasEnc == NULL ) + test(); + IF( phIvasEnc == NULL || *phIvasEnc == NULL ) { return; } - if ( ( *phIvasEnc )->isConfigured ) + IF( ( *phIvasEnc )->isConfigured ) { ivas_destroy_enc_fx( ( *phIvasEnc )->st_ivas ); } - else + ELSE { - if ( ( *phIvasEnc )->st_ivas->hEncoderConfig ) + IF( ( *phIvasEnc )->st_ivas->hEncoderConfig ) { free( ( *phIvasEnc )->st_ivas->hEncoderConfig ); ( *phIvasEnc )->st_ivas->hEncoderConfig = NULL; @@ -277,8 +278,8 @@ void IVAS_ENC_Close( ivas_error IVAS_ENC_ConfigureForMono( IVAS_ENC_HANDLE hIvasEnc, /* i/o: IVAS encoder handle */ - const int32_t inputFs, /* i : input sampling frequency */ - const int32_t bitrate, /* i : requested bitrate of the output bitstream */ + const Word32 inputFs, /* i : input sampling frequency */ + const Word32 bitrate, /* i : requested bitrate of the output bitstream */ const bool max_bwidth_user, /* i : shows if bandwidth limitation was set by the user (true) or if default bandwidth was used (false) */ const IVAS_ENC_BANDWIDTH maxBandwidth, /* i : bandwidth limitation */ const IVAS_ENC_DTX_CONFIG dtxConfig, /* i : configuration of DTX, can by set to default by using IVAS_ENC_GetDefaultDtxConfig() */ @@ -291,17 +292,20 @@ ivas_error IVAS_ENC_ConfigureForMono( error = IVAS_ERR_OK; - if ( ( error = doCommonConfigureChecks( hIvasEnc ) ) != IVAS_ERR_OK ) + IF( ( error = doCommonConfigureChecks( hIvasEnc ) ) != IVAS_ERR_OK ) { return error; } hIvasEnc->st_ivas->hEncoderConfig->ivas_format = MONO_FORMAT; - hIvasEnc->st_ivas->hEncoderConfig->is_binaural = (int16_t) is_binaural; + hIvasEnc->st_ivas->hEncoderConfig->is_binaural = (Word16) is_binaural; + move16(); + move16(); if ( downmixFromStereo ) { hIvasEnc->st_ivas->hEncoderConfig->stereo_dmx_evs = 1; + move16(); } hIvasEnc->maxBandwidthUser = max_bwidth_user; @@ -319,8 +323,8 @@ ivas_error IVAS_ENC_ConfigureForMono( ivas_error IVAS_ENC_ConfigureForStereo( IVAS_ENC_HANDLE hIvasEnc, /* i/o: IVAS encoder handle */ - const int32_t inputFs, /* i : input sampling frequency */ - const int32_t bitrate, /* i : requested bitrate of the output bitstream */ + const Word32 inputFs, /* i : input sampling frequency */ + const Word32 bitrate, /* i : requested bitrate of the output bitstream */ const bool max_bwidth_user, /* i : shows if bandwidth limitation was set by the user (true) or if default bandwidth was used (false) */ const IVAS_ENC_BANDWIDTH maxBandwidth, /* i : bandwidth limitation */ const IVAS_ENC_DTX_CONFIG dtxConfig, /* i : configuration of DTX, can by set to default by using IVAS_ENC_GetDefaultDtxConfig() */ @@ -336,7 +340,7 @@ ivas_error IVAS_ENC_ConfigureForStereo( ivas_error error; - if ( ( error = doCommonConfigureChecks( hIvasEnc ) ) != IVAS_ERR_OK ) + IF( ( error = doCommonConfigureChecks( hIvasEnc ) ) != IVAS_ERR_OK ) { return error; } @@ -344,8 +348,11 @@ ivas_error IVAS_ENC_ConfigureForStereo( st_ivas = hIvasEnc->st_ivas; hEncoderConfig = st_ivas->hEncoderConfig; hEncoderConfig->nchan_inp = 2; + move16(); hEncoderConfig->ivas_format = STEREO_FORMAT; - hEncoderConfig->is_binaural = (int16_t) is_binaural; + move16(); + hEncoderConfig->is_binaural = (Word16) is_binaural; + move16(); #ifdef DEBUGGING switch ( stereoMode ) @@ -414,7 +421,7 @@ ivas_error IVAS_ENC_ConfigureForMASAObjects( return error; } - IF( GT_16( numObjects, MAX_NUM_OBJECTS ) ) + IF( GT_32( numObjects, MAX_NUM_OBJECTS ) ) { return IVAS_ERR_TOO_MANY_INPUTS; } @@ -459,34 +466,39 @@ ivas_error IVAS_ENC_ConfigureForMASAObjects( ivas_error IVAS_ENC_ConfigureForObjects( IVAS_ENC_HANDLE hIvasEnc, /* i/o: IVAS encoder handle */ - const int32_t inputFs, /* i : input sampling frequency */ - const int32_t bitrate, /* i : requested bitrate of the output bitstream */ + const Word32 inputFs, /* i : input sampling frequency */ + const Word32 bitrate, /* i : requested bitrate of the output bitstream */ const bool max_bwidth_user, /* i : shows if bandwidth limitation was set by the user (true) or if default bandwidth was used (false) */ const IVAS_ENC_BANDWIDTH maxBandwidth, /* i : bandwidth limitation */ const IVAS_ENC_DTX_CONFIG dtxConfig, /* i : configuration of DTX, can by set to default by using IVAS_ENC_GetDefaultDtxConfig() */ - const uint16_t numObjects, /* i : number of objects to be encoded */ + const UWord16 numObjects, /* i : number of objects to be encoded */ const bool ism_extended_metadata /* i : Extended metadata used (true/false), where extended metadata includes radius and orientation */ ) { Encoder_Struct *st_ivas; ivas_error error; - if ( ( error = doCommonConfigureChecks( hIvasEnc ) ) != IVAS_ERR_OK ) + IF( ( error = doCommonConfigureChecks( hIvasEnc ) ) != IVAS_ERR_OK ) { return error; } - if ( numObjects > MAX_NUM_OBJECTS ) + IF( GT_32( numObjects, MAX_NUM_OBJECTS ) ) { return IVAS_ERR_TOO_MANY_INPUTS; } st_ivas = hIvasEnc->st_ivas; st_ivas->hEncoderConfig->ivas_format = ISM_FORMAT; + move16(); st_ivas->hEncoderConfig->element_mode_init = IVAS_SCE; + move16(); st_ivas->hEncoderConfig->nchan_inp = numObjects; + move16(); st_ivas->hEncoderConfig->nchan_ism = numObjects; + move16(); st_ivas->hEncoderConfig->ism_extended_metadata_flag = ism_extended_metadata; + move16(); hIvasEnc->extMetadataApi = ( ism_extended_metadata == 1 ); hIvasEnc->maxBandwidthUser = max_bwidth_user; @@ -504,7 +516,7 @@ ivas_error IVAS_ENC_ConfigureForObjects( ivas_error IVAS_ENC_FeedObjectMetadata( IVAS_ENC_HANDLE hIvasEnc, /* i/o: IVAS encoder handle */ - const uint16_t ismIndex, /* i : object index */ + const UWord16 ismIndex, /* i : object index */ const IVAS_ISM_METADATA metadata /* i : object metadata handle for current frame */ ) { @@ -512,17 +524,19 @@ ivas_error IVAS_ENC_FeedObjectMetadata( error = IVAS_ERR_OK; - if ( !hIvasEnc->isConfigured ) + IF( !hIvasEnc->isConfigured ) { return IVAS_ERR_NOT_CONFIGURED; } - if ( hIvasEnc->st_ivas->hEncoderConfig->ivas_format != ISM_FORMAT && hIvasEnc->st_ivas->hEncoderConfig->ivas_format != MASA_ISM_FORMAT && hIvasEnc->st_ivas->hEncoderConfig->ivas_format != SBA_ISM_FORMAT ) + test(); + test(); + IF( NE_16( hIvasEnc->st_ivas->hEncoderConfig->ivas_format, ISM_FORMAT ) && NE_16( hIvasEnc->st_ivas->hEncoderConfig->ivas_format, MASA_ISM_FORMAT ) && NE_16( hIvasEnc->st_ivas->hEncoderConfig->ivas_format, SBA_ISM_FORMAT ) ) { return IVAS_ERR_METADATA_NOT_EXPECTED; } - if ( ismIndex > hIvasEnc->st_ivas->hEncoderConfig->nchan_inp ) + IF( GT_32( ismIndex, hIvasEnc->st_ivas->hEncoderConfig->nchan_inp ) ) { return IVAS_ERR_INVALID_INDEX; } @@ -533,7 +547,7 @@ ivas_error IVAS_ENC_FeedObjectMetadata( Word32 pitch_fx = float_to_fix( metadata.pitch, Q22 ); /* Q22 */ error = ivas_set_ism_metadata_fx( hIvasEnc->st_ivas->hIsmMetaData[ismIndex], azimuth_fx, elevation_fx, radius_fx, yaw_fx, pitch_fx, metadata.non_diegetic_flag ); - if ( error != IVAS_ERR_OK ) + IF( error != IVAS_ERR_OK ) { return error; } @@ -552,8 +566,8 @@ ivas_error IVAS_ENC_FeedObjectMetadata( ivas_error IVAS_ENC_ConfigureForAmbisonics( IVAS_ENC_HANDLE hIvasEnc, /* i/o: IVAS encoder handle */ - const int32_t inputFs, /* i : input sampling frequency */ - const int32_t bitrate, /* i : requested bitrate of the output bitstream */ + const Word32 inputFs, /* i : input sampling frequency */ + const Word32 bitrate, /* i : requested bitrate of the output bitstream */ const bool max_bwidth_user, /* i : shows if bandwidth limitation was set by the user (true) or if default bandwidth was used (false) */ const IVAS_ENC_BANDWIDTH maxBandwidth, /* i : bandwidth limitation */ const IVAS_ENC_DTX_CONFIG dtxConfig, /* i : configuration of DTX, can by set to default by using IVAS_ENC_GetDefaultDtxConfig() */ @@ -565,7 +579,7 @@ ivas_error IVAS_ENC_ConfigureForAmbisonics( ENCODER_CONFIG_HANDLE hEncoderConfig; ivas_error error; - if ( ( error = doCommonConfigureChecks( hIvasEnc ) ) != IVAS_ERR_OK ) + IF( ( error = doCommonConfigureChecks( hIvasEnc ) ) != IVAS_ERR_OK ) { return error; } @@ -576,12 +590,17 @@ ivas_error IVAS_ENC_ConfigureForAmbisonics( hEncoderConfig->element_mode_init = IVAS_SCE; /* Just needs to be something not mono, will be set later */ hEncoderConfig->sba_planar = isPlanar; hEncoderConfig->sba_order = order; + move16(); + move16(); + move16(); /* Input in ACN/SN3D in all cases (3D and planar): get number of channels */ hEncoderConfig->nchan_inp = ivas_sba_get_nchan_fx( hEncoderConfig->sba_order, 0 ); /*planar input arg. deliberately set to zero since input always in ACN/SN3D*/ + move16(); - hEncoderConfig->Opt_PCA_ON = (int16_t) Opt_PCA_ON; + hEncoderConfig->Opt_PCA_ON = (Word16) Opt_PCA_ON; + move16(); hIvasEnc->maxBandwidthUser = max_bwidth_user; @@ -590,6 +609,7 @@ ivas_error IVAS_ENC_ConfigureForAmbisonics( return error; } +#ifndef HARM_ENC_INIT ivas_error IVAS_ENC_ConfigureForAmbisonics_fx( IVAS_ENC_HANDLE hIvasEnc, /* i/o: IVAS encoder handle */ const Word32 inputFs, /* i : input sampling frequency */ @@ -616,20 +636,26 @@ ivas_error IVAS_ENC_ConfigureForAmbisonics_fx( hEncoderConfig->element_mode_init = IVAS_SCE; /* Just needs to be something not mono, will be set later */ hEncoderConfig->sba_planar = isPlanar; hEncoderConfig->sba_order = order; + move16(); + move16(); + move16(); /* Input in ACN/SN3D in all cases (3D and planar): get number of channels */ hEncoderConfig->nchan_inp = ivas_sba_get_nchan_fx( hEncoderConfig->sba_order, 0 ); /*planar input arg. deliberately set to zero since input always in ACN/SN3D*/ + move16(); hEncoderConfig->Opt_PCA_ON = (Word16) Opt_PCA_ON; + move16(); hIvasEnc->maxBandwidthUser = max_bwidth_user; - error = configureEncoder_fx( hIvasEnc, inputFs, bitrate, maxBandwidth, dtxConfig, IVAS_ENC_GetDefaultChannelAwareConfig() ); + error = configureEncoder( hIvasEnc, inputFs, bitrate, maxBandwidth, dtxConfig, IVAS_ENC_GetDefaultChannelAwareConfig() ); return error; } +#endif /*---------------------------------------------------------------------* * IVAS_ENC_ConfigureForSBAObjects() * @@ -781,8 +807,8 @@ ivas_error IVAS_ENC_FeedMasaMetadata( ivas_error IVAS_ENC_ConfigureForMultichannel( IVAS_ENC_HANDLE hIvasEnc, /* i/o: IVAS encoder handle */ - const int32_t inputFs, /* i : input sampling frequency */ - const int32_t bitrate, /* i : requested bitrate of the output bitstream */ + const Word32 inputFs, /* i : input sampling frequency */ + const Word32 bitrate, /* i : requested bitrate of the output bitstream */ const bool max_bwidth_user, /* i : shows if bandwidth limitation was set by the user (true) or if default bandwidth was used (false) */ const IVAS_ENC_BANDWIDTH maxBandwidth, /* i : bandwidth limitation */ const IVAS_ENC_DTX_CONFIG dtxConfig, /* i : configuration of DTX, can by set to default by using IVAS_ENC_GetDefaultDtxConfig() */ @@ -792,7 +818,7 @@ ivas_error IVAS_ENC_ConfigureForMultichannel( ENCODER_CONFIG_HANDLE hEncoderConfig; ivas_error error; - if ( ( error = doCommonConfigureChecks( hIvasEnc ) ) != IVAS_ERR_OK ) + IF( ( error = doCommonConfigureChecks( hIvasEnc ) ) != IVAS_ERR_OK ) { return error; } @@ -800,31 +826,34 @@ ivas_error IVAS_ENC_ConfigureForMultichannel( hEncoderConfig = hIvasEnc->st_ivas->hEncoderConfig; hEncoderConfig->ivas_format = MC_FORMAT; + move16(); hEncoderConfig->element_mode_init = IVAS_CPE_MDCT; /*just for initialization*/ + move16(); - switch ( mcLayout ) + SWITCH( mcLayout ) { case IVAS_ENC_MC_5_1: hEncoderConfig->mc_input_setup = MC_LS_SETUP_5_1; - break; + BREAK; case IVAS_ENC_MC_7_1: hEncoderConfig->mc_input_setup = MC_LS_SETUP_7_1; - break; + BREAK; case IVAS_ENC_MC_5_1_2: hEncoderConfig->mc_input_setup = MC_LS_SETUP_5_1_2; - break; + BREAK; case IVAS_ENC_MC_5_1_4: hEncoderConfig->mc_input_setup = MC_LS_SETUP_5_1_4; - break; + BREAK; case IVAS_ENC_MC_7_1_4: hEncoderConfig->mc_input_setup = MC_LS_SETUP_7_1_4; - break; + BREAK; default: return IVAS_ERR_INVALID_MC_LAYOUT; - break; + BREAK; } hEncoderConfig->nchan_inp = ivas_mc_ls_setup_get_num_channels_fx( hEncoderConfig->mc_input_setup ); + move16(); hIvasEnc->maxBandwidthUser = max_bwidth_user; @@ -842,8 +871,8 @@ ivas_error IVAS_ENC_ConfigureForMultichannel( static ivas_error configureEncoder( IVAS_ENC_HANDLE hIvasEnc, - const int32_t inputFs, - const int32_t initBitrate, + const Word32 inputFs, + const Word32 initBitrate, const IVAS_ENC_BANDWIDTH initBandwidth, const IVAS_ENC_DTX_CONFIG dtxConfig, const IVAS_ENC_CHANNEL_AWARE_CONFIG caConfig ) @@ -851,7 +880,7 @@ static ivas_error configureEncoder( Encoder_Struct *st_ivas; ENCODER_CONFIG_HANDLE hEncoderConfig; ivas_error error; - int32_t cpe_brate; + Word32 cpe_brate; error = IVAS_ERR_OK; @@ -862,7 +891,7 @@ static ivas_error configureEncoder( * Bandwidth limitation *-----------------------------------------------------------------*/ - if ( ( error = setBandwidth_fx( hIvasEnc, initBandwidth ) ) != IVAS_ERR_OK ) + IF( ( error = setBandwidth_fx( hIvasEnc, initBandwidth ) ) != IVAS_ERR_OK ) { return error; } @@ -871,32 +900,39 @@ static ivas_error configureEncoder( * DTX/CNG *-----------------------------------------------------------------*/ - if ( dtxConfig.enabled ) + IF( dtxConfig.enabled ) { hEncoderConfig->Opt_DTX_ON = 1; + move16(); - if ( dtxConfig.variable_SID_rate ) + IF( dtxConfig.variable_SID_rate ) { hEncoderConfig->var_SID_rate_flag = 1; hEncoderConfig->interval_SID = 0; + move16(); + move16(); } - else + ELSE { hEncoderConfig->var_SID_rate_flag = 0; + move16(); - if ( dtxConfig.SID_interval >= 3 && dtxConfig.SID_interval <= 100 ) + test(); + IF( GE_16( dtxConfig.SID_interval, 3 ) && LE_16( dtxConfig.SID_interval, 100 ) ) { hEncoderConfig->interval_SID = dtxConfig.SID_interval; + move16(); } - else + ELSE { return IVAS_ERR_INVALID_DTX_UPDATE_RATE; } } } - else + ELSE { hEncoderConfig->Opt_DTX_ON = 0; + move16(); } /*-----------------------------------------------------------------* @@ -904,36 +940,42 @@ static ivas_error configureEncoder( *-----------------------------------------------------------------*/ hEncoderConfig->ivas_total_brate = initBitrate; + move32(); /* SC-VBR at 5.90 kbps */ - if ( hEncoderConfig->ivas_total_brate == ACELP_5k90 ) + IF( EQ_32( hEncoderConfig->ivas_total_brate, ACELP_5k90 ) ) { hEncoderConfig->ivas_total_brate = ACELP_7k20; hEncoderConfig->Opt_SC_VBR = 1; hEncoderConfig->last_Opt_SC_VBR = hEncoderConfig->Opt_SC_VBR; + move32(); + move16(); + move16(); - if ( hEncoderConfig->max_bwidth != NB ) + if ( ( hEncoderConfig->max_bwidth != NB ) ) { hEncoderConfig->max_bwidth = WB; + move16(); } } /* check if the entered bitrate is supported */ - if ( hEncoderConfig->ivas_format != UNDEFINED_FORMAT && hEncoderConfig->ivas_format != MONO_FORMAT ) /* IVAS */ + test(); + IF( NE_16( hEncoderConfig->ivas_format, UNDEFINED_FORMAT ) && NE_16( hEncoderConfig->ivas_format, MONO_FORMAT ) ) /* IVAS */ { - if ( !is_IVAS_bitrate_fx( hEncoderConfig->ivas_total_brate ) ) + IF( !is_IVAS_bitrate_fx( hEncoderConfig->ivas_total_brate ) ) { - if ( hEncoderConfig->Opt_SC_VBR ) + IF( hEncoderConfig->Opt_SC_VBR ) { return IVAS_ERROR( IVAS_ERR_INVALID_BITRATE, "Incorrect bitrate specification in IVAS [bps]: %d", ACELP_5k90 ); } - else + ELSE { return IVAS_ERROR( IVAS_ERR_INVALID_BITRATE, "Incorrect bitrate specification in IVAS [bps]: %d", hEncoderConfig->ivas_total_brate ); } } - if ( hEncoderConfig->ivas_format == STEREO_FORMAT ) + IF( EQ_16( hEncoderConfig->ivas_format, STEREO_FORMAT ) ) { #ifdef DEBUGGING if ( hIvasEnc->cmd_stereo ) @@ -944,57 +986,64 @@ static ivas_error configureEncoder( hEncoderConfig->stereo_mode_cmdl = 1; #endif - if ( hEncoderConfig->ivas_total_brate >= MIN_BRATE_MDCT_STEREO ) + if ( GE_32( hEncoderConfig->ivas_total_brate, MIN_BRATE_MDCT_STEREO ) ) { hEncoderConfig->element_mode_init = IVAS_CPE_MDCT; + move16(); #ifdef DEBUGGING hEncoderConfig->stereo_mode_cmdl = 0; #endif } } - if ( ( hEncoderConfig->element_mode_init == IVAS_CPE_TD || hEncoderConfig->element_mode_init == IVAS_CPE_DFT ) && hEncoderConfig->ivas_total_brate > IVAS_48k ) + test(); + test(); + IF( ( EQ_16( hEncoderConfig->element_mode_init, IVAS_CPE_TD ) || EQ_16( hEncoderConfig->element_mode_init, IVAS_CPE_DFT ) ) && GT_32( hEncoderConfig->ivas_total_brate, IVAS_48k ) ) { return IVAS_ERROR( IVAS_ERR_INVALID_BITRATE, "Too high bitrate for TD/DFT Stereo specified in IVAS: %d", hEncoderConfig->ivas_total_brate ); } - if ( hEncoderConfig->element_mode_init == IVAS_CPE_MDCT && hEncoderConfig->ivas_total_brate < IVAS_48k ) + test(); + IF( EQ_16( hEncoderConfig->element_mode_init, IVAS_CPE_MDCT ) && LT_32( hEncoderConfig->ivas_total_brate, IVAS_48k ) ) { return IVAS_ERROR( IVAS_ERR_INVALID_BITRATE, "Too low bitrate for MDCT Stereo specified in IVAS: %d", hEncoderConfig->ivas_total_brate ); } - if ( hEncoderConfig->ivas_total_brate > IVAS_256k ) + IF( GT_32( hEncoderConfig->ivas_total_brate, IVAS_256k ) ) { return IVAS_ERROR( IVAS_ERR_INVALID_BITRATE, "Too high bitrate for Stereo specified in IVAS: %d", hEncoderConfig->ivas_total_brate ); } } - else if ( hEncoderConfig->ivas_format == ISM_FORMAT ) + ELSE IF( EQ_16( hEncoderConfig->ivas_format, ISM_FORMAT ) ) { - if ( ( error = sanitizeBitrateISM_fx( hEncoderConfig, hIvasEnc->extMetadataApi ) ) != IVAS_ERR_OK ) + IF( ( error = sanitizeBitrateISM_fx( hEncoderConfig, hIvasEnc->extMetadataApi ) ) != IVAS_ERR_OK ) { return error; } } - else if ( hEncoderConfig->ivas_format == SBA_FORMAT ) + ELSE IF( EQ_16( hEncoderConfig->ivas_format, SBA_FORMAT ) ) { /* nothing */ } - else if ( hEncoderConfig->ivas_format == MASA_FORMAT ) + ELSE IF( EQ_16( hEncoderConfig->ivas_format, MASA_FORMAT ) ) { /* adapt element_mode according to the bitrate */ - if ( hEncoderConfig->nchan_inp == 2 && hEncoderConfig->element_mode_init != IVAS_SCE ) + test(); + IF( EQ_16( hEncoderConfig->nchan_inp, 2 ) && NE_16( hEncoderConfig->element_mode_init, IVAS_SCE ) ) { - if ( hEncoderConfig->ivas_total_brate >= IVAS_48k ) + IF( GE_32( hEncoderConfig->ivas_total_brate, IVAS_48k ) ) { hEncoderConfig->element_mode_init = IVAS_CPE_MDCT; + move16(); } - else if ( hEncoderConfig->ivas_total_brate < MASA_STEREO_MIN_BITRATE ) + ELSE IF( LT_32( hEncoderConfig->ivas_total_brate, MASA_STEREO_MIN_BITRATE ) ) { hEncoderConfig->element_mode_init = IVAS_CPE_DFT; + move16(); } } } - else if ( hEncoderConfig->ivas_format == MASA_ISM_FORMAT ) + ELSE IF( EQ_16( hEncoderConfig->ivas_format, MASA_ISM_FORMAT ) ) { st_ivas->ism_mode = ivas_omasa_ism_mode_select_fx( st_ivas->hEncoderConfig->ivas_total_brate, hEncoderConfig->nchan_ism ); move32(); @@ -1002,51 +1051,59 @@ static ivas_error configureEncoder( cpe_brate = calculate_cpe_brate_MASA_ISM_fx( st_ivas->ism_mode, st_ivas->hEncoderConfig->ivas_total_brate, hEncoderConfig->nchan_ism ); /*adapt element_mode according to the bit-rate*/ - if ( hEncoderConfig->element_mode_init != IVAS_SCE ) + IF( NE_16( hEncoderConfig->element_mode_init, IVAS_SCE ) ) { - if ( cpe_brate >= IVAS_48k ) + if ( GE_32( cpe_brate, IVAS_48k ) ) { hEncoderConfig->element_mode_init = IVAS_CPE_MDCT; + move16(); } } } - else if ( hEncoderConfig->ivas_format == SBA_ISM_FORMAT ) + ELSE IF( EQ_16( hEncoderConfig->ivas_format, SBA_ISM_FORMAT ) ) { st_ivas->ism_mode = ISM_MODE_NONE; + move16(); } } - else /* EVS mono */ + ELSE /* EVS mono */ { hEncoderConfig->ivas_format = MONO_FORMAT; + move16(); hEncoderConfig->element_mode_init = EVS_MONO; + move16(); - if ( !is_EVS_bitrate( hEncoderConfig->ivas_total_brate, &hEncoderConfig->Opt_AMR_WB ) ) + IF( !is_EVS_bitrate( hEncoderConfig->ivas_total_brate, &hEncoderConfig->Opt_AMR_WB ) ) { return IVAS_ERROR( IVAS_ERR_INVALID_BITRATE, "Incorrect bitrate specification in EVS mono: %d", hEncoderConfig->ivas_total_brate ); } - if ( hEncoderConfig->stereo_dmx_evs == 1 ) + IF( EQ_16( hEncoderConfig->stereo_dmx_evs, 1 ) ) { hEncoderConfig->nchan_inp = 2; + move16(); } } /*-----------------------------------------------------------------* * Input sampling frequency *-----------------------------------------------------------------*/ - - if ( inputFs != 8000 && inputFs != 16000 && inputFs != 32000 && inputFs != 48000 ) + test(); + test(); + test(); + IF( NE_32( inputFs, 8000 ) && NE_32( inputFs, 16000 ) && NE_32( inputFs, 32000 ) && NE_32( inputFs, 48000 ) ) { return IVAS_ERR_INVALID_SAMPLING_RATE; } hEncoderConfig->input_Fs = inputFs; + move32(); /*-----------------------------------------------------------------* * Channel-aware mode *-----------------------------------------------------------------*/ - if ( ( error = setChannelAwareConfig_fx( hIvasEnc, caConfig ) ) != IVAS_ERR_OK ) + IF( ( error = setChannelAwareConfig_fx( hIvasEnc, caConfig ) ) != IVAS_ERR_OK ) { return error; } @@ -1056,25 +1113,31 @@ static ivas_error configureEncoder( *-----------------------------------------------------------------*/ st_ivas->codec_mode = MODE1; /* Note: in IVAS, set MODE1 */ + move16(); - if ( hEncoderConfig->ivas_format == MONO_FORMAT ) + IF( EQ_16( hEncoderConfig->ivas_format, MONO_FORMAT ) ) { - if ( hEncoderConfig->Opt_AMR_WB ) + IF( hEncoderConfig->Opt_AMR_WB ) { st_ivas->codec_mode = MODE1; + move16(); } - else + ELSE { st_ivas->codec_mode = get_codec_mode( hEncoderConfig->ivas_total_brate ); + move16(); } } - if ( hEncoderConfig->ivas_total_brate == IVAS_13k2 && hEncoderConfig->Opt_RF_ON == 1 ) + test(); + IF( EQ_32( hEncoderConfig->ivas_total_brate, IVAS_13k2 ) && EQ_16( hEncoderConfig->Opt_RF_ON, 1 ) ) { st_ivas->codec_mode = MODE2; + move16(); } st_ivas->last_codec_mode = st_ivas->codec_mode; + move16(); /*-----------------------------------------------------------------* * Sanity checks @@ -1082,34 +1145,43 @@ static ivas_error configureEncoder( assert( hEncoderConfig->ivas_format != UNDEFINED_FORMAT && "\n IVAS format undefined" ); - if ( ( hEncoderConfig->ivas_format != MONO_FORMAT || hEncoderConfig->stereo_dmx_evs ) && hEncoderConfig->input_Fs == 8000 ) + test(); + test(); + IF( ( NE_16( hEncoderConfig->ivas_format, MONO_FORMAT ) || hEncoderConfig->stereo_dmx_evs ) && EQ_32( hEncoderConfig->input_Fs, 8000 ) ) { return IVAS_ERROR( IVAS_ERR_INVALID_SAMPLING_RATE, "8kHz input sampling rate is not supported in IVAS." ); } - if ( hEncoderConfig->Opt_DTX_ON && hEncoderConfig->ivas_format != MONO_FORMAT && - ( ( hEncoderConfig->ivas_format == SBA_FORMAT && ivas_get_sba_num_TCs_fx( hEncoderConfig->ivas_total_brate, 1 ) > 2 ) || - hEncoderConfig->ivas_format == MC_FORMAT || hEncoderConfig->ivas_format == MASA_ISM_FORMAT || hEncoderConfig->ivas_format == SBA_ISM_FORMAT ) ) + test(); + test(); + test(); + test(); + test(); + test(); + IF( hEncoderConfig->Opt_DTX_ON && NE_16( hEncoderConfig->ivas_format, MONO_FORMAT ) && + ( ( EQ_16( hEncoderConfig->ivas_format, SBA_FORMAT ) && GT_16( ivas_get_sba_num_TCs_fx( hEncoderConfig->ivas_total_brate, 1 ), 2 ) ) || + EQ_16( hEncoderConfig->ivas_format, MC_FORMAT ) || EQ_16( hEncoderConfig->ivas_format, MASA_ISM_FORMAT ) || EQ_16( hEncoderConfig->ivas_format, SBA_ISM_FORMAT ) ) ) { return IVAS_ERROR( IVAS_ERR_DTX_NOT_SUPPORTED, "DTX is not supported in this IVAS format and element mode." ); } - -#ifdef NONBE_FIX_708_OSBA_BR_SWITCHING_CRASH - if ( hEncoderConfig->Opt_PCA_ON && !( ( hEncoderConfig->ivas_format == SBA_FORMAT || hEncoderConfig->ivas_format == SBA_ISM_FORMAT ) && hEncoderConfig->ivas_total_brate == PCA_BRATE && hEncoderConfig->sba_order == SBA_FOA_ORDER ) ) -#else - if ( hEncoderConfig->Opt_PCA_ON && !( hEncoderConfig->ivas_format == SBA_FORMAT && hEncoderConfig->ivas_total_brate == PCA_BRATE && hEncoderConfig->sba_order == SBA_FOA_ORDER ) ) -#endif + test(); + test(); + test(); + IF( hEncoderConfig->Opt_PCA_ON && !( ( EQ_16( hEncoderConfig->ivas_format, SBA_FORMAT ) || EQ_16( hEncoderConfig->ivas_format, SBA_ISM_FORMAT ) ) && EQ_32( hEncoderConfig->ivas_total_brate, PCA_BRATE ) && EQ_16( hEncoderConfig->sba_order, SBA_FOA_ORDER ) ) ) { return IVAS_ERROR( IVAS_ERR_NOT_SUPPORTED_OPTION, "PCA supported at SBA FOA 256 kbps only." ); } - if ( ( error = sanitizeBandwidth_fx( hIvasEnc ) ) != IVAS_ERR_OK ) + IF( ( error = sanitizeBandwidth_fx( hIvasEnc ) ) != IVAS_ERR_OK ) { return error; } - if ( hEncoderConfig->is_binaural && !( ( hEncoderConfig->ivas_format == MONO_FORMAT && hEncoderConfig->stereo_dmx_evs ) || hEncoderConfig->ivas_format == STEREO_FORMAT ) ) + test(); + test(); + test(); + IF( hEncoderConfig->is_binaural && !( ( EQ_16( hEncoderConfig->ivas_format, MONO_FORMAT ) && hEncoderConfig->stereo_dmx_evs ) || EQ_16( hEncoderConfig->ivas_format, STEREO_FORMAT ) ) ) { return IVAS_ERROR( IVAS_ERR_NOT_SUPPORTED_OPTION, "'-binaural' option is supported only with '-stereo' or '-stereo_dmx_evs'" ); } @@ -1118,27 +1190,30 @@ static ivas_error configureEncoder( * Finalize initialization *-----------------------------------------------------------------*/ - if ( ( error = ivas_init_encoder( st_ivas ) ) != IVAS_ERR_OK ) + IF( ( error = ivas_init_encoder_fx( st_ivas ) ) != IVAS_ERR_OK ) { return error; } - if ( hEncoderConfig->ivas_format == MONO_FORMAT ) + IF( EQ_16( hEncoderConfig->ivas_format, MONO_FORMAT ) ) { hIvasEnc->hCoreCoder = st_ivas->hSCE[0]->hCoreCoder[0]; /* Note: this is needed for switching in EVS mono */ } - else + ELSE { hIvasEnc->hCoreCoder = NULL; } hIvasEnc->Opt_RF_ON_loc = hEncoderConfig->Opt_RF_ON; hIvasEnc->rf_fec_offset_loc = hEncoderConfig->rf_fec_offset; + move16(); + move16(); hIvasEnc->isConfigured = true; return error; } +#ifndef HARM_ENC_INIT static ivas_error configureEncoder_fx( IVAS_ENC_HANDLE hIvasEnc, const Word32 inputFs, @@ -1173,19 +1248,24 @@ static ivas_error configureEncoder_fx( IF( dtxConfig.enabled ) { hEncoderConfig->Opt_DTX_ON = 1; + move16(); IF( dtxConfig.variable_SID_rate ) { hEncoderConfig->var_SID_rate_flag = 1; hEncoderConfig->interval_SID = 0; + move16(); + move16(); } ELSE { hEncoderConfig->var_SID_rate_flag = 0; - + move16(); + test(); IF( GE_16( dtxConfig.SID_interval, 3 ) && LE_16( dtxConfig.SID_interval, 100 ) ) { hEncoderConfig->interval_SID = dtxConfig.SID_interval; + move16(); } ELSE { @@ -1196,6 +1276,7 @@ static ivas_error configureEncoder_fx( ELSE { hEncoderConfig->Opt_DTX_ON = 0; + move16(); } /*-----------------------------------------------------------------* @@ -1203,21 +1284,27 @@ static ivas_error configureEncoder_fx( *-----------------------------------------------------------------*/ hEncoderConfig->ivas_total_brate = initBitrate; + move16(); /* SC-VBR at 5.90 kbps */ - IF( hEncoderConfig->ivas_total_brate == ACELP_5k90 ) + IF( EQ_32( hEncoderConfig->ivas_total_brate, ACELP_5k90 ) ) { hEncoderConfig->ivas_total_brate = ACELP_7k20; hEncoderConfig->Opt_SC_VBR = 1; hEncoderConfig->last_Opt_SC_VBR = hEncoderConfig->Opt_SC_VBR; + move32(); + move16(); + move16(); - IF( NE_16( hEncoderConfig->max_bwidth, NB ) ) + IF( ( hEncoderConfig->max_bwidth != NB ) ) { hEncoderConfig->max_bwidth = WB; + move16(); } } /* check if the entered bitrate is supported */ + test(); IF( NE_16( hEncoderConfig->ivas_format, UNDEFINED_FORMAT ) && NE_16( hEncoderConfig->ivas_format, MONO_FORMAT ) ) /* IVAS */ { IF( !is_IVAS_bitrate_fx( hEncoderConfig->ivas_total_brate ) ) @@ -1232,26 +1319,32 @@ static ivas_error configureEncoder_fx( } } - IF( hEncoderConfig->ivas_format == STEREO_FORMAT ) + IF( EQ_16( hEncoderConfig->ivas_format, STEREO_FORMAT ) ) { { hEncoderConfig->element_mode_init = IVAS_CPE_DFT; - IF( hEncoderConfig->ivas_total_brate >= MIN_BRATE_MDCT_STEREO ) + move16(); + IF( GE_32( hEncoderConfig->ivas_total_brate, MIN_BRATE_MDCT_STEREO ) ) { hEncoderConfig->element_mode_init = IVAS_CPE_MDCT; + move16(); } } + test(); + test(); IF( ( EQ_16( hEncoderConfig->element_mode_init, IVAS_CPE_TD ) || EQ_32( hEncoderConfig->element_mode_init, IVAS_CPE_DFT ) ) && GT_32( hEncoderConfig->ivas_total_brate, IVAS_48k ) ) { return IVAS_ERROR( IVAS_ERR_INVALID_BITRATE, "Too high bitrate for TD/DFT Stereo specified in IVAS: %d", hEncoderConfig->ivas_total_brate ); } + test(); IF( EQ_16( hEncoderConfig->element_mode_init, IVAS_CPE_MDCT ) && LT_32( hEncoderConfig->ivas_total_brate, IVAS_48k ) ) { return IVAS_ERROR( IVAS_ERR_INVALID_BITRATE, "Too low bitrate for MDCT Stereo specified in IVAS: %d", hEncoderConfig->ivas_total_brate ); } + test(); IF( LT_32( hEncoderConfig->ivas_total_brate, IVAS_256k ) ) { return IVAS_ERROR( IVAS_ERR_INVALID_BITRATE, "Too high bitrate for Stereo specified in IVAS: %d", hEncoderConfig->ivas_total_brate ); @@ -1271,15 +1364,18 @@ static ivas_error configureEncoder_fx( ELSE IF( EQ_16( hEncoderConfig->ivas_format, MASA_FORMAT ) ) { /* adapt element_mode according to the bitrate */ + test(); IF( EQ_16( hEncoderConfig->nchan_inp, 2 ) && NE_16( hEncoderConfig->element_mode_init, IVAS_SCE ) ) { IF( GE_32( hEncoderConfig->ivas_total_brate, IVAS_48k ) ) { hEncoderConfig->element_mode_init = IVAS_CPE_MDCT; + move16(); } ELSE IF( LT_32( hEncoderConfig->ivas_total_brate, MASA_STEREO_MIN_BITRATE ) ) { hEncoderConfig->element_mode_init = IVAS_CPE_DFT; + move16(); } } } @@ -1295,6 +1391,7 @@ static ivas_error configureEncoder_fx( IF( GE_32( cpe_brate, IVAS_48k ) ) { hEncoderConfig->element_mode_init = IVAS_CPE_MDCT; + move16(); } } } @@ -1307,6 +1404,7 @@ static ivas_error configureEncoder_fx( { hEncoderConfig->ivas_format = MONO_FORMAT; hEncoderConfig->element_mode_init = EVS_MONO; + move16(); IF( !is_EVS_bitrate( hEncoderConfig->ivas_total_brate, &hEncoderConfig->Opt_AMR_WB ) ) { @@ -1316,19 +1414,23 @@ static ivas_error configureEncoder_fx( IF( EQ_16( hEncoderConfig->stereo_dmx_evs, 1 ) ) { hEncoderConfig->nchan_inp = 2; + move16(); } } /*-----------------------------------------------------------------* * Input sampling frequency *-----------------------------------------------------------------*/ - + test(); + test(); + test(); IF( NE_32( inputFs, 8000 ) && NE_32( inputFs, 16000 ) && NE_32( inputFs, 32000 ) && NE_32( inputFs, 48000 ) ) { return IVAS_ERR_INVALID_SAMPLING_RATE; } hEncoderConfig->input_Fs = inputFs; + move32(); /*-----------------------------------------------------------------* * Channel-aware mode @@ -1344,25 +1446,31 @@ static ivas_error configureEncoder_fx( *-----------------------------------------------------------------*/ st_ivas->codec_mode = MODE1; /* Note: in IVAS, set MODE1 */ + move16(); IF( EQ_16( hEncoderConfig->ivas_format, MONO_FORMAT ) ) { IF( hEncoderConfig->Opt_AMR_WB ) { st_ivas->codec_mode = MODE1; + move16(); } ELSE { st_ivas->codec_mode = get_codec_mode( hEncoderConfig->ivas_total_brate ); + move16(); } } - IF( hEncoderConfig->ivas_total_brate == IVAS_13k2 && hEncoderConfig->Opt_RF_ON == 1 ) + test(); + IF( EQ_32( hEncoderConfig->ivas_total_brate, IVAS_13k2 ) && EQ_16( hEncoderConfig->Opt_RF_ON, 1 ) ) { st_ivas->codec_mode = MODE2; + move16(); } st_ivas->last_codec_mode = st_ivas->codec_mode; + move16(); /*-----------------------------------------------------------------* * Sanity checks @@ -1370,11 +1478,19 @@ static ivas_error configureEncoder_fx( assert( hEncoderConfig->ivas_format != UNDEFINED_FORMAT && "\n IVAS format undefined" ); + test(); + test(); IF( ( NE_16( hEncoderConfig->ivas_format, MONO_FORMAT ) || hEncoderConfig->stereo_dmx_evs ) && EQ_32( hEncoderConfig->input_Fs, 8000 ) ) { return IVAS_ERROR( IVAS_ERR_INVALID_SAMPLING_RATE, "8kHz input sampling rate is not supported in IVAS." ); } + test(); + test(); + test(); + test(); + test(); + test(); IF( hEncoderConfig->Opt_DTX_ON && NE_16( hEncoderConfig->ivas_format, MONO_FORMAT ) && ( ( EQ_16( hEncoderConfig->ivas_format, SBA_FORMAT ) && GT_32( ivas_get_sba_num_TCs_fx( hEncoderConfig->ivas_total_brate, 1 ), 2 ) ) || EQ_16( hEncoderConfig->ivas_format, MC_FORMAT ) || EQ_16( hEncoderConfig->ivas_format, MASA_ISM_FORMAT ) || EQ_16( hEncoderConfig->ivas_format, SBA_ISM_FORMAT ) ) ) @@ -1382,7 +1498,9 @@ static ivas_error configureEncoder_fx( return IVAS_ERROR( IVAS_ERR_DTX_NOT_SUPPORTED, "DTX is not supported in this IVAS format and element mode." ); } - + test(); + test(); + test(); IF( hEncoderConfig->Opt_PCA_ON && !( EQ_16( hEncoderConfig->ivas_format, SBA_FORMAT ) && EQ_32( hEncoderConfig->ivas_total_brate, PCA_BRATE ) && EQ_16( hEncoderConfig->sba_order, SBA_FOA_ORDER ) ) ) { return IVAS_ERROR( IVAS_ERR_NOT_SUPPORTED_OPTION, "PCA supported at SBA FOA 256 kbps only." ); @@ -1393,6 +1511,9 @@ static ivas_error configureEncoder_fx( return error; } + test(); + test(); + test(); IF( hEncoderConfig->is_binaural && !( ( EQ_16( hEncoderConfig->ivas_format, MONO_FORMAT ) && hEncoderConfig->stereo_dmx_evs ) || EQ_16( hEncoderConfig->ivas_format, STEREO_FORMAT ) ) ) { return IVAS_ERROR( IVAS_ERR_NOT_SUPPORTED_OPTION, "'-binaural' option is supported only with '-stereo' or '-stereo_dmx_evs'" ); @@ -1410,9 +1531,6 @@ static ivas_error configureEncoder_fx( IF( EQ_16( hEncoderConfig->ivas_format, MONO_FORMAT ) ) { hIvasEnc->hCoreCoder = st_ivas->hSCE[0]->hCoreCoder[0]; /* Note: this is needed for switching in EVS mono */ - //#ifndef EVS_FLOAT_ENC - // hIvasEnc->hCoreCoder_fx = st_ivas->hSCE[0]->hCoreCoder_fx[0]; - //#endif } ELSE { @@ -1421,11 +1539,14 @@ static ivas_error configureEncoder_fx( hIvasEnc->Opt_RF_ON_loc = hEncoderConfig->Opt_RF_ON; hIvasEnc->rf_fec_offset_loc = hEncoderConfig->rf_fec_offset; + move16(); + move16(); hIvasEnc->isConfigured = true; return error; } +#endif /*---------------------------------------------------------------------* * IVAS_ENC_GetDelay() * @@ -1434,7 +1555,7 @@ static ivas_error configureEncoder_fx( ivas_error IVAS_ENC_GetDelay( const IVAS_ENC_HANDLE hIvasEnc, /* i : IVAS encoder handle */ - Word16 *delay /* o : encoder delay */ + Word16 *delay /* o : encoder delay Q0*/ ) { ENCODER_CONFIG_HANDLE hEncoderConfig; @@ -1452,14 +1573,14 @@ ivas_error IVAS_ENC_GetDelay( } #ifdef SPLIT_REND_WITH_HEAD_ROT - *delay = NS2SA( hEncoderConfig->input_Fs, get_delay_fx( ENC, hEncoderConfig->input_Fs, hEncoderConfig->ivas_format, NULL, IVAS_AUDIO_CONFIG_INVALID ) ); + *delay = NS2SA_FX2( hEncoderConfig->input_Fs, get_delay_fx( ENC, hEncoderConfig->input_Fs, hEncoderConfig->ivas_format, NULL, IVAS_AUDIO_CONFIG_INVALID ) ); move16(); #else - *delay = NS2SA( hEncoderConfig->input_Fs, get_delay_fx( ENC, hEncoderConfig->input_Fs, hEncoderConfig->ivas_format, NULL ) ); + *delay = NS2SA_FX2( hEncoderConfig->input_Fs, get_delay_fx( ENC, hEncoderConfig->input_Fs, hEncoderConfig->ivas_format, NULL ) ); /*Q0*/ move16(); #endif - *delay = imult1616( *delay, hEncoderConfig->nchan_inp ); + *delay = imult1616( *delay, hEncoderConfig->nchan_inp ); /*Q0*/ move16(); return IVAS_ERR_OK; @@ -1485,20 +1606,22 @@ static Word16 getInputBufferSize_fx( *---------------------------------------------------------------------*/ ivas_error IVAS_ENC_GetNumInChannels( const IVAS_ENC_HANDLE hIvasEnc, /* i/o: IVAS encoder handle */ - int16_t *numInChannels /* o : total number of samples expected in the input buffer for current encoder configuration */ + Word16 *numInChannels /* o : total number of samples expected in the input buffer for current encoder configuration */ ) { - if ( hIvasEnc == NULL || numInChannels == NULL ) + test(); + IF( hIvasEnc == NULL || numInChannels == NULL ) { return IVAS_ERR_UNEXPECTED_NULL_POINTER; } - if ( !hIvasEnc->isConfigured ) + IF( !hIvasEnc->isConfigured ) { return IVAS_ERR_NOT_CONFIGURED; } *numInChannels = hIvasEnc->st_ivas->hEncoderConfig->nchan_inp; + move16(); return IVAS_ERR_OK; } @@ -1538,10 +1661,10 @@ ivas_error IVAS_ENC_GetInputBufferSize( *---------------------------------------------------------------------*/ ivas_error IVAS_ENC_EncodeFrameToSerial( IVAS_ENC_HANDLE hIvasEnc, /* i/o: IVAS encoder handle */ - Word16 *inputBuffer, /* i : PCM input, Q0 */ - Word16 inputBufferSize, /* i : total number of samples in the input buffer. Related function: IVAS_ENC_GetInputBufferSize() */ - UWord16 *outputBitStream, /* o : pointer to serial output bitstream. The array must already be allocated and be of size at least IVAS_MAX_BITS_PER_FRAME */ - UWord16 *numOutBits /* o : number of bits written to output bitstream. Each bit is stored as a single uint16_t value */ + Word16 *inputBuffer, /* i : PCM input, Q0 Q0*/ + Word16 inputBufferSize, /* i : total number of samples in the input buffer. Related function: IVAS_ENC_GetInputBufferSize() Q0*/ + UWord16 *outputBitStream, /* o : pointer to serial output bitstream. The array must already be allocated and be of size at least IVAS_MAX_BITS_PER_FRAME Q0*/ + UWord16 *numOutBits /* o : number of bits written to output bitstream. Each bit is stored as a single uint16_t value Q0*/ ) { Encoder_Struct *st_ivas; @@ -1699,6 +1822,16 @@ ivas_error IVAS_ENC_EncodeFrameToSerial( /* set pointers to the new buffers of indices in each element */ FOR( n = 0; n < st_ivas->nSCE; n++ ) { +#ifdef HARM_PUSH_BIT + st_ivas->hSCE[n]->hCoreCoder[0]->hBstr->ind_list = st_ivas->ind_list; + st_ivas->hSCE[n]->hCoreCoder[0]->hBstr->ivas_ind_list_zero = &st_ivas->ind_list; + + if ( st_ivas->hSCE[n]->hMetaData != NULL ) + { + st_ivas->hSCE[n]->hMetaData->ind_list = st_ivas->ind_list_metadata; + st_ivas->hSCE[n]->hMetaData->ivas_ind_list_zero = &st_ivas->ind_list_metadata; + } +#else test(); IF( !( hIvasEnc->hCoreCoder == NULL && EQ_32( hEncoderConfig->ivas_format, MONO_FORMAT ) ) ) { @@ -1714,6 +1847,7 @@ ivas_error IVAS_ENC_EncodeFrameToSerial( st_ivas->hSCE[n]->hMetaData->ind_list = st_ivas->ind_list_metadata; st_ivas->hSCE[n]->hMetaData->ivas_ind_list_zero = &st_ivas->ind_list_metadata; } +#endif } FOR( n = 0; n < st_ivas->nCPE; n++ ) @@ -1778,7 +1912,8 @@ ivas_error IVAS_ENC_EncodeFrameToSerial( } /* write indices into bitstream buffer */ - IF( EQ_16( hEncoderConfig->element_mode_init, EVS_MONO ) ) +#ifndef HARM_PUSH_BIT + IF( hEncoderConfig->element_mode_init == EVS_MONO ) { test(); IF( EQ_16( hEncoderConfig->ivas_format, MONO_FORMAT ) && ( hCoreCoder->element_mode == EVS_MONO ) ) @@ -1791,6 +1926,7 @@ ivas_error IVAS_ENC_EncodeFrameToSerial( } } ELSE +#endif { write_indices_ivas_fx( st_ivas, outputBitStream, numOutBits ); } @@ -1816,7 +1952,7 @@ ivas_error IVAS_ENC_SetBandwidth( ivas_error error; /* Do additional checks for user-facing function */ - if ( ( error = doCommonSetterChecks( hIvasEnc ) ) != IVAS_ERR_OK ) + IF( ( error = doCommonSetterChecks( hIvasEnc ) ) != IVAS_ERR_OK ) { return error; } @@ -1833,14 +1969,14 @@ ivas_error IVAS_ENC_SetBandwidth( *---------------------------------------------------------------------*/ ivas_error IVAS_ENC_SetBitrate( - IVAS_ENC_HANDLE hIvasEnc, /* i/o: IVAS encoder handle */ - const int32_t totalBitrate /* i : requested bitrate of the output bitstream */ + IVAS_ENC_HANDLE hIvasEnc, /* i/o: IVAS encoder handle */ + const Word32 totalBitrate /* i : requested bitrate of the output bitstream */ ) { ivas_error error; /* Do additional checks for user-facing function */ - if ( ( error = doCommonSetterChecks( hIvasEnc ) ) != IVAS_ERR_OK ) + IF( ( error = doCommonSetterChecks( hIvasEnc ) ) != IVAS_ERR_OK ) { return error; } @@ -1865,7 +2001,7 @@ ivas_error IVAS_ENC_SetChannelAwareConfig( ivas_error error; /* Do additional checks for user-facing function */ - if ( ( error = doCommonSetterChecks( hIvasEnc ) ) != IVAS_ERR_OK ) + IF( ( error = doCommonSetterChecks( hIvasEnc ) ) != IVAS_ERR_OK ) { return error; } @@ -1966,6 +2102,7 @@ IVAS_ENC_DTX_CONFIG IVAS_ENC_GetDefaultDtxConfig( void ) IVAS_ENC_DTX_CONFIG defaultDtxConfig; defaultDtxConfig.enabled = false; defaultDtxConfig.SID_interval = 0; + move16(); defaultDtxConfig.variable_SID_rate = false; return defaultDtxConfig; @@ -2012,11 +2149,11 @@ const char *IVAS_ENC_GetErrorMessage( static ivas_error printConfigInfo_enc( IVAS_ENC_HANDLE hIvasEnc, - const int16_t channelAwareModeEnabled ) + const Word16 channelAwareModeEnabled ) { Encoder_Struct *st_ivas; ENCODER_CONFIG_HANDLE hEncoderConfig; - int16_t newBandwidthApi; + Word16 newBandwidthApi; ivas_error error; st_ivas = hIvasEnc->st_ivas; @@ -2032,11 +2169,11 @@ static ivas_error printConfigInfo_enc( * Print bitrate *-----------------------------------------------------------------*/ - if ( st_ivas->hEncoderConfig->Opt_SC_VBR ) + IF( st_ivas->hEncoderConfig->Opt_SC_VBR ) { fprintf( stdout, "Average bitrate: %.2f kbps\n", (float) ACELP_5k90 / 1000 ); } - else + ELSE { fprintf( stdout, "Bitrate: %.2f kbps\n", (float) hEncoderConfig->ivas_total_brate / 1000 ); } @@ -2045,18 +2182,18 @@ static ivas_error printConfigInfo_enc( * Print IVAS format *-----------------------------------------------------------------*/ - if ( hEncoderConfig->ivas_format == MONO_FORMAT ) + IF( EQ_16( hEncoderConfig->ivas_format, MONO_FORMAT ) ) { - if ( hEncoderConfig->stereo_dmx_evs ) + IF( hEncoderConfig->stereo_dmx_evs ) { fprintf( stdout, "IVAS format: stereo downmix to bit-exact EVS mono\n" ); } - else + ELSE { fprintf( stdout, "IVAS format: bit-exact EVS mono\n" ); } } - else if ( hEncoderConfig->ivas_format == STEREO_FORMAT ) + ELSE IF( hEncoderConfig->ivas_format == STEREO_FORMAT ) { #ifdef DEBUGGING if ( hEncoderConfig->stereo_mode_cmdl == 1 ) @@ -2086,64 +2223,65 @@ static ivas_error printConfigInfo_enc( } #endif } - else if ( hEncoderConfig->ivas_format == ISM_FORMAT ) + ELSE IF( EQ_16( hEncoderConfig->ivas_format, ISM_FORMAT ) ) { - if ( hEncoderConfig->ivas_total_brate <= ACELP_32k && hEncoderConfig->nchan_inp > 2 ) + test(); + IF( LE_32( hEncoderConfig->ivas_total_brate, ACELP_32k ) && GT_16( hEncoderConfig->nchan_inp, 2 ) ) { fprintf( stdout, "IVAS format: Param-ISM (%i streams)\n", hEncoderConfig->nchan_inp ); } - else + ELSE { fprintf( stdout, "IVAS format: ISM (%i streams)\n", hEncoderConfig->nchan_inp ); } } - else if ( hEncoderConfig->ivas_format == SBA_FORMAT ) + ELSE IF( EQ_16( hEncoderConfig->ivas_format, SBA_FORMAT ) ) { fprintf( stdout, "IVAS format: Scene Based Audio, Ambisonic order %i %s ", hEncoderConfig->sba_order, hEncoderConfig->sba_planar ? "(Planar)" : "" ); - if ( hEncoderConfig->Opt_PCA_ON ) + IF( hEncoderConfig->Opt_PCA_ON ) { fprintf( stdout, "- PCA configured with signal adaptive decision " ); } fprintf( stdout, "\n" ); } - else if ( hEncoderConfig->ivas_format == MASA_FORMAT ) + ELSE IF( EQ_16( hEncoderConfig->ivas_format, MASA_FORMAT ) ) { fprintf( stdout, "IVAS format: MASA format\n" ); } - else if ( hEncoderConfig->ivas_format == MC_FORMAT ) + ELSE IF( EQ_16( hEncoderConfig->ivas_format, MC_FORMAT ) ) { - if ( hEncoderConfig->mc_input_setup == MC_LS_SETUP_5_1 ) + IF( hEncoderConfig->mc_input_setup == MC_LS_SETUP_5_1 ) { fprintf( stdout, "IVAS mode: Multi-Channel 5.1 \n" ); } - else if ( hEncoderConfig->mc_input_setup == MC_LS_SETUP_7_1 ) + ELSE IF( hEncoderConfig->mc_input_setup == MC_LS_SETUP_7_1 ) { fprintf( stdout, "IVAS mode: Multi-Channel 7.1 \n" ); } - else if ( hEncoderConfig->mc_input_setup == MC_LS_SETUP_5_1_2 ) + ELSE IF( hEncoderConfig->mc_input_setup == MC_LS_SETUP_5_1_2 ) { fprintf( stdout, "IVAS mode: Multi-Channel 5.1+2 \n" ); } - else if ( hEncoderConfig->mc_input_setup == MC_LS_SETUP_5_1_4 ) + ELSE IF( hEncoderConfig->mc_input_setup == MC_LS_SETUP_5_1_4 ) { fprintf( stdout, "IVAS mode: Multi-Channel 5.1+4\n" ); } - else if ( hEncoderConfig->mc_input_setup == MC_LS_SETUP_7_1_4 ) + ELSE IF( hEncoderConfig->mc_input_setup == MC_LS_SETUP_7_1_4 ) { fprintf( stdout, "IVAS mode: Multi-Channel 7.1+4\n" ); } } - else if ( hEncoderConfig->ivas_format == SBA_ISM_FORMAT ) + ELSE IF( EQ_16( hEncoderConfig->ivas_format, SBA_ISM_FORMAT ) ) { fprintf( stdout, "IVAS format: combined ISM and SBA (%i ISM stream(s))\n", hEncoderConfig->nchan_ism ); } - else if ( hEncoderConfig->ivas_format == MASA_ISM_FORMAT ) + ELSE IF( EQ_16( hEncoderConfig->ivas_format, MASA_ISM_FORMAT ) ) { fprintf( stdout, "IVAS format: combined ISM and MASA (%i ISM stream(s))\n", hEncoderConfig->nchan_ism ); } - if ( hEncoderConfig->is_binaural ) + IF( hEncoderConfig->is_binaural ) { fprintf( stdout, "Optional indication: binaural audio\n" ); } @@ -2152,13 +2290,13 @@ static ivas_error printConfigInfo_enc( * Print CNG update interval, if DTX is activated *-----------------------------------------------------------------*/ - if ( hEncoderConfig->Opt_DTX_ON ) + IF( hEncoderConfig->Opt_DTX_ON ) { - if ( hEncoderConfig->var_SID_rate_flag ) + IF( hEncoderConfig->var_SID_rate_flag ) { fprintf( stdout, "DTX: ON, variable CNG update interval\n" ); } - else + ELSE { fprintf( stdout, "DTX: ON, CNG update interval = %d frames\n", hEncoderConfig->interval_SID ); } @@ -2168,54 +2306,57 @@ static ivas_error printConfigInfo_enc( * Print potential limitation of audio bandwidth *-----------------------------------------------------------------*/ - if ( ( error = bandwidthApiToInternal( hIvasEnc->newBandwidthApi, &newBandwidthApi ) ) != IVAS_ERR_OK ) + IF( ( error = bandwidthApiToInternal( hIvasEnc->newBandwidthApi, &newBandwidthApi ) ) != IVAS_ERR_OK ) { return error; } - if ( st_ivas->hEncoderConfig->Opt_SC_VBR && !hEncoderConfig->Opt_DTX_ON ) + test(); + IF( st_ivas->hEncoderConfig->Opt_SC_VBR && !hEncoderConfig->Opt_DTX_ON ) { return IVAS_ERROR( IVAS_ERR_WRONG_PARAMS, "\nError: SC-VBR 5900 bps not supported without DTX\n\n" ); } - if ( hEncoderConfig->ivas_format == MONO_FORMAT ) + IF( EQ_16( hEncoderConfig->ivas_format, MONO_FORMAT ) ) { - if ( newBandwidthApi != hEncoderConfig->max_bwidth ) + IF( NE_16( newBandwidthApi, hEncoderConfig->max_bwidth ) ) { - if ( newBandwidthApi == FB ) + IF( EQ_16( newBandwidthApi, FB ) ) { fprintf( stdout, "\nFB coding not supported below %.2f kbps. ", ACELP_16k40 / 1000.f ); - if ( hEncoderConfig->max_bwidth == WB ) + IF( EQ_16( hEncoderConfig->max_bwidth, WB ) ) { fprintf( stdout, "Switching to WB.\n" ); } - else + ELSE { fprintf( stdout, "Switching to SWB.\n" ); } } - else if ( newBandwidthApi == SWB ) + ELSE IF( EQ_16( newBandwidthApi, SWB ) ) { fprintf( stdout, "\nSWB coding not supported below %.2f kbps. Switching to WB.\n", ACELP_9k60 / 1000.f ); } } /* in case of 8kHz input sampling or "-max_band NB", require the total bitrate to be below 24.40 kbps */ - if ( ( newBandwidthApi == NB || hEncoderConfig->input_Fs == 8000 ) && hEncoderConfig->ivas_total_brate > ACELP_24k40 ) + test(); + test(); + IF( ( ( newBandwidthApi == NB ) || EQ_32( hEncoderConfig->input_Fs, 8000 ) ) && GT_32( hEncoderConfig->ivas_total_brate, ACELP_24k40 ) ) { fprintf( stdout, "\nError: Unsupported mode NB %d bps, NB mode supports rates 5900-24400 bps\n\n", hEncoderConfig->ivas_total_brate ); return IVAS_ERR_INVALID_BITRATE; } } - else + ELSE { - if ( newBandwidthApi != hEncoderConfig->max_bwidth ) + IF( NE_16( newBandwidthApi, hEncoderConfig->max_bwidth ) ) { - if ( hEncoderConfig->ivas_format == ISM_FORMAT ) + IF( EQ_16( hEncoderConfig->ivas_format, ISM_FORMAT ) ) { fprintf( stdout, "\nFB coding not supported below %.2f kbps for %i objects. Switching to SWB.\n", hEncoderConfig->nchan_ism * MIN_BRATE_FB_ISM / 1000.f, hEncoderConfig->nchan_ism ); } - else + ELSE { fprintf( stdout, "\nFB coding not supported below %.2f kbps. Switching to SWB.\n", MIN_BRATE_FB_STEREO / 1000.f ); } @@ -2226,9 +2367,9 @@ static ivas_error printConfigInfo_enc( * Print Channel-aware limitation *-----------------------------------------------------------------*/ - if ( channelAwareModeEnabled ) + IF( channelAwareModeEnabled ) { - if ( hEncoderConfig->Opt_RF_ON == 0 ) + IF( hEncoderConfig->Opt_RF_ON == 0 ) { fprintf( stdout, "\nChannel-aware mode is supported at 13.2 kbps 32/48 kHz only. Switching to normal mode.\n" ); } @@ -2246,7 +2387,7 @@ static ivas_error printConfigInfo_enc( static ivas_error setBitrate( IVAS_ENC_HANDLE hIvasEnc, - const int32_t totalBitrate ) + const Word32 totalBitrate ) { Encoder_Struct *st_ivas; ENCODER_CONFIG_HANDLE hEncoderConfig; @@ -2257,65 +2398,76 @@ static ivas_error setBitrate( hEncoderConfig->ivas_total_brate = totalBitrate; hIvasEnc->switchingActive = true; + move32(); /* channel-aware mode is supported only at 13.20 kbps */ - if ( hEncoderConfig->Opt_RF_ON && hEncoderConfig->ivas_total_brate != ACELP_13k20 ) + test(); + IF( hEncoderConfig->Opt_RF_ON && NE_32( hEncoderConfig->ivas_total_brate, ACELP_13k20 ) ) { assert( 0 && "\nChannel-aware mode is supported only at 13.20 kbps\n" ); hEncoderConfig->Opt_RF_ON = 0; + move16(); } - if ( hEncoderConfig->ivas_total_brate == ACELP_5k90 ) + IF( EQ_32( hEncoderConfig->ivas_total_brate, ACELP_5k90 ) ) { st_ivas->hEncoderConfig->Opt_SC_VBR = 1; hEncoderConfig->ivas_total_brate = ACELP_7k20; + move16(); + move32(); } - else + ELSE { st_ivas->hEncoderConfig->Opt_SC_VBR = 0; + move16(); } /* check if the entered bitrate is supported */ - if ( hEncoderConfig->element_mode_init > EVS_MONO ) + IF( hEncoderConfig->element_mode_init > EVS_MONO ) { - if ( !is_IVAS_bitrate_fx( hEncoderConfig->ivas_total_brate ) ) + IF( !is_IVAS_bitrate_fx( hEncoderConfig->ivas_total_brate ) ) { return IVAS_ERROR( IVAS_ERR_INVALID_BITRATE, "Incorrect bitrate specification in IVAS: %d", hEncoderConfig->ivas_total_brate ); } } - else + ELSE { - if ( !is_EVS_bitrate( hEncoderConfig->ivas_total_brate, &hEncoderConfig->Opt_AMR_WB ) ) + IF( !is_EVS_bitrate( hEncoderConfig->ivas_total_brate, &hEncoderConfig->Opt_AMR_WB ) ) { return IVAS_ERROR( IVAS_ERR_INVALID_BITRATE, "Incorrect bitrate specification in EVS mono: %d", hEncoderConfig->ivas_total_brate ); } /* in case of 8kHz signal, limit the total bitrate to 24.40 kbps */ - if ( hEncoderConfig->input_Fs == 8000 && hEncoderConfig->ivas_total_brate > ACELP_24k40 ) + test(); + IF( EQ_32( hEncoderConfig->input_Fs, 8000 ) && GT_32( hEncoderConfig->ivas_total_brate, ACELP_24k40 ) ) { hEncoderConfig->ivas_total_brate = ACELP_24k40; + move32(); } } - if ( hEncoderConfig->ivas_format == ISM_FORMAT ) + IF( EQ_16( hEncoderConfig->ivas_format, ISM_FORMAT ) ) { - if ( ( error = sanitizeBitrateISM_fx( hEncoderConfig, hIvasEnc->extMetadataApi ) ) != IVAS_ERR_OK ) + IF( ( error = sanitizeBitrateISM_fx( hEncoderConfig, hIvasEnc->extMetadataApi ) ) != IVAS_ERR_OK ) { return error; } } st_ivas->codec_mode = MODE1; + move16(); - if ( hEncoderConfig->element_mode_init == EVS_MONO ) + IF( hEncoderConfig->element_mode_init == EVS_MONO ) { - if ( hEncoderConfig->Opt_AMR_WB ) + IF( hEncoderConfig->Opt_AMR_WB ) { st_ivas->codec_mode = MODE1; + move16(); } - else + ELSE { st_ivas->codec_mode = get_codec_mode( hEncoderConfig->ivas_total_brate ); + move16(); } } @@ -2342,16 +2494,22 @@ static ivas_error setChannelAwareConfig_fx( hEncoderConfig = st_ivas->hEncoderConfig; /* channel-aware mode is supported only at 13.20 kbps and with WB or SWB bandwidth */ + test(); + test(); + test(); IF( ( caConfig.channelAwareModeEnabled && NE_32( st_ivas->hEncoderConfig->ivas_total_brate, ACELP_13k20 ) ) || ( hEncoderConfig->Opt_RF_ON && EQ_32( hEncoderConfig->input_Fs, 8000 ) ) ) { hEncoderConfig->Opt_RF_ON = 0; + move16(); hEncoderConfig->rf_fec_offset = 0; + move16(); return IVAS_ERR_OK; } IF( caConfig.channelAwareModeEnabled ) { hEncoderConfig->Opt_RF_ON = 1; + move16(); /* Convert FEC indicator from API type */ IF( ( error = fecIndicatorApiToInternal( caConfig.fec_indicator, &newFecIndicator ) ) != IVAS_ERR_OK ) @@ -2360,14 +2518,21 @@ static ivas_error setChannelAwareConfig_fx( } /* Set new values only if they differ from current values */ + test(); IF( ( NE_16( newFecIndicator, hEncoderConfig->rf_fec_indicator ) || NE_16( caConfig.fec_offset, hEncoderConfig->rf_fec_offset ) ) ) { hEncoderConfig->rf_fec_indicator = newFecIndicator; + move16(); /* Check if new FEC offset has a valid value */ + test(); + test(); + test(); + test(); IF( EQ_16( caConfig.fec_offset, 0 ) || EQ_16( caConfig.fec_offset, 2 ) || EQ_16( caConfig.fec_offset, 3 ) || EQ_16( caConfig.fec_offset, 5 ) || EQ_16( caConfig.fec_offset, 7 ) ) { hEncoderConfig->rf_fec_offset = caConfig.fec_offset; + move16(); } ELSE { @@ -2379,10 +2544,12 @@ static ivas_error setChannelAwareConfig_fx( /* Save a copy of FEC offset value - needed during encoding */ hIvasEnc->rf_fec_offset_loc = hEncoderConfig->rf_fec_offset; + move16(); } ELSE { hEncoderConfig->Opt_RF_ON = 0; + move16(); } return IVAS_ERR_OK; @@ -2420,13 +2587,14 @@ static ivas_error doCommonConfigureChecks( static ivas_error doCommonSetterChecks( IVAS_ENC_HANDLE hIvasEnc ) { - if ( hIvasEnc == NULL || hIvasEnc->st_ivas == NULL ) + test(); + IF( hIvasEnc == NULL || hIvasEnc->st_ivas == NULL ) { return IVAS_ERR_UNEXPECTED_NULL_POINTER; } /* Currently settings can be changed only after configuration step */ - if ( !hIvasEnc->isConfigured ) + IF( !hIvasEnc->isConfigured ) { return IVAS_ERR_NOT_CONFIGURED; } @@ -2452,25 +2620,34 @@ static ivas_error sanitizeBandwidth_fx( max_bwidth_tmp = hIvasEnc->newBandwidthApi; /* Prevent st_ivas->max_bwidth from being higher than Fs/2 */ - IF( EQ_32( hEncoderConfig->input_Fs, 8000 ) && GT_16( max_bwidth_tmp, NB ) ) + test(); + test(); + test(); + IF( EQ_32( hEncoderConfig->input_Fs, 8000 ) && ( max_bwidth_tmp > NB ) ) { max_bwidth_tmp = NB; + move16(); } ELSE IF( EQ_32( hEncoderConfig->input_Fs, 16000 ) && GT_16( max_bwidth_tmp, WB ) ) { max_bwidth_tmp = WB; + move16(); } ELSE IF( EQ_32( hEncoderConfig->input_Fs, 32000 ) && GT_16( max_bwidth_tmp, SWB ) ) { max_bwidth_tmp = SWB; + move16(); } /* NB coding not supported in IVAS. Switching to WB. */ - IF( EQ_16( max_bwidth_tmp, NB ) && NE_16( hEncoderConfig->ivas_format, UNDEFINED_FORMAT ) && NE_16( hEncoderConfig->ivas_format, MONO_FORMAT ) ) + test(); + test(); + IF( ( max_bwidth_tmp == NB ) && NE_16( hEncoderConfig->ivas_format, UNDEFINED_FORMAT ) && NE_16( hEncoderConfig->ivas_format, MONO_FORMAT ) ) { IF( GE_32( hEncoderConfig->input_Fs, 16000 ) ) { max_bwidth_tmp = WB; + move16(); } ELSE { @@ -2520,16 +2697,23 @@ static ivas_error sanitizeBandwidth_fx( { iDiv_and_mod_32( hEncoderConfig->ivas_total_brate, hEncoderConfig->nchan_ism, &quo, &rem, 0 ); } + + test(); + test(); + test(); + test(); IF( EQ_16( max_bwidth_tmp, FB ) && ( ( NE_16( hEncoderConfig->ivas_format, ISM_FORMAT ) && LT_32( hEncoderConfig->ivas_total_brate, MIN_BRATE_FB_STEREO ) ) || ( EQ_16( hEncoderConfig->ivas_format, ISM_FORMAT ) && LT_32( quo, MIN_BRATE_FB_ISM ) ) ) ) { max_bwidth_tmp = SWB; + move16(); } } IF( NE_16( hEncoderConfig->max_bwidth, max_bwidth_tmp ) ) { hEncoderConfig->max_bwidth = max_bwidth_tmp; + move16(); hIvasEnc->switchingActive = true; } @@ -2545,31 +2729,37 @@ static ivas_error sanitizeBitrateISM_fx( const ENCODER_CONFIG_HANDLE hEncoderConfig, const bool extMetadataApi ) { + test(); IF( GT_32( hEncoderConfig->ivas_total_brate, IVAS_128k ) && EQ_16( hEncoderConfig->nchan_inp, 1 ) ) { return IVAS_ERROR( IVAS_ERR_INVALID_BITRATE, "Too high bitrate for 1 ISM specified in IVAS: %d", hEncoderConfig->ivas_total_brate ); } + test(); IF( GT_32( hEncoderConfig->ivas_total_brate, IVAS_256k ) && EQ_16( hEncoderConfig->nchan_inp, 2 ) ) { return IVAS_ERROR( IVAS_ERR_INVALID_BITRATE, "Too high bitrate for 2 ISM specified in IVAS: %d", hEncoderConfig->ivas_total_brate ); } + test(); IF( GT_32( hEncoderConfig->ivas_total_brate, IVAS_384k ) && EQ_16( hEncoderConfig->nchan_inp, 3 ) ) { return IVAS_ERROR( IVAS_ERR_INVALID_BITRATE, "Too high bitrate for 3 ISM specified in IVAS: %d", hEncoderConfig->ivas_total_brate ); } + test(); IF( LT_32( hEncoderConfig->ivas_total_brate, IVAS_16k4 ) && EQ_16( hEncoderConfig->nchan_inp, 2 ) ) { return IVAS_ERROR( IVAS_ERR_INVALID_BITRATE, "Too low bitrate for 2 ISM specified in IVAS: %d", hEncoderConfig->ivas_total_brate ); } + test(); IF( LT_32( hEncoderConfig->ivas_total_brate, IVAS_24k4 ) && EQ_16( hEncoderConfig->nchan_inp, 3 ) ) { return IVAS_ERROR( IVAS_ERR_INVALID_BITRATE, "Too low bitrate for 3 ISM specified in IVAS: %d", hEncoderConfig->ivas_total_brate ); } + test(); IF( LT_32( hEncoderConfig->ivas_total_brate, IVAS_24k4 ) && EQ_16( hEncoderConfig->nchan_inp, 4 ) ) { return IVAS_ERROR( IVAS_ERR_INVALID_BITRATE, "Too low bitrate for 4 ISM specified in IVAS: %d", hEncoderConfig->ivas_total_brate ); @@ -2578,10 +2768,12 @@ static ivas_error sanitizeBitrateISM_fx( IF( extMetadataApi ) { hEncoderConfig->ism_extended_metadata_flag = (Word16) GE_32( hEncoderConfig->ivas_total_brate, ISM_EXTENDED_METADATA_BRATE ); + move16(); } ELSE { hEncoderConfig->ism_extended_metadata_flag = 0; + move16(); } return IVAS_ERR_OK; @@ -2611,15 +2803,19 @@ static ivas_error setBandwidth_fx( hIvasEnc->newBandwidthApi = newBandwidth; /* NB coding not supported in IVAS. Switching to WB. */ - IF( newBandwidth == NB && hEncoderConfig->ivas_format != UNDEFINED_FORMAT && hEncoderConfig->ivas_format != MONO_FORMAT ) + test(); + test(); + IF( ( newBandwidth == NB ) && NE_16( hEncoderConfig->ivas_format, UNDEFINED_FORMAT ) && NE_16( hEncoderConfig->ivas_format, MONO_FORMAT ) ) { newBandwidth = WB; + move16(); } IF( hEncoderConfig->max_bwidth != newBandwidth ) { hEncoderConfig->max_bwidth = newBandwidth; hIvasEnc->switchingActive = true; + move16(); } return IVAS_ERR_OK; @@ -2762,8 +2958,8 @@ static ivas_error forcedModeApiToInternal( *---------------------------------------------------------------------*/ ivas_error IVAS_ENC_PrintConfig( - const IVAS_ENC_HANDLE hIvasEnc, /* i : IVAS encoder handle */ - const int16_t channelAwareModeEnabled /* i : channel-aware mode enabled flag */ + const IVAS_ENC_HANDLE hIvasEnc, /* i : IVAS encoder handle */ + const Word16 channelAwareModeEnabled /* i : channel-aware mode enabled flag */ ) { return printConfigInfo_enc( hIvasEnc, channelAwareModeEnabled ); @@ -2795,33 +2991,56 @@ static void init_encoder_config( ) { hEncoderConfig->ivas_total_brate = ACELP_12k65; + move32(); hEncoderConfig->max_bwidth = SWB; + move16(); hEncoderConfig->input_Fs = 16000; + move32(); hEncoderConfig->nchan_inp = 1; + move16(); hEncoderConfig->element_mode_init = EVS_MONO; + move16(); hEncoderConfig->ivas_format = UNDEFINED_FORMAT; + move16(); hEncoderConfig->is_binaural = 0; + move16(); hEncoderConfig->Opt_SC_VBR = 0; + move16(); hEncoderConfig->last_Opt_SC_VBR = 0; + move16(); hEncoderConfig->Opt_AMR_WB = 0; + move16(); hEncoderConfig->Opt_DTX_ON = 0; + move16(); hEncoderConfig->Opt_RF_ON = 0; + move16(); hEncoderConfig->rf_fec_offset = 0; + move16(); hEncoderConfig->rf_fec_indicator = 1; + move16(); hEncoderConfig->interval_SID = FIXED_SID_RATE; + move16(); hEncoderConfig->var_SID_rate_flag = 1; + move16(); hEncoderConfig->mc_input_setup = MC_LS_SETUP_INVALID; + move16(); hEncoderConfig->stereo_dmx_evs = 0; + move16(); hEncoderConfig->nchan_ism = 0; + move16(); hEncoderConfig->sba_order = 0; + move16(); hEncoderConfig->sba_planar = 0; + move16(); hEncoderConfig->ism_extended_metadata_flag = 0; + move16(); #ifdef DEBUGGING hEncoderConfig->stereo_mode_cmdl = 0; hEncoderConfig->force = -1; hEncoderConfig->mdct_stereo_mode_cmdl = SMDCT_MS_DECISION; #endif hEncoderConfig->Opt_PCA_ON = 0; + move16(); return; } diff --git a/lib_enc/lib_enc.h b/lib_enc/lib_enc.h index 4911711d7e9592a0291f573209b87b0791d78a98..8cf6be1cd0e6ca1385d5c7ec3588583ea115ac20 100644 --- a/lib_enc/lib_enc.h +++ b/lib_enc/lib_enc.h @@ -68,7 +68,7 @@ typedef struct _IVAS_ENC_DTX_CONFIG { bool enabled; bool variable_SID_rate; - int16_t SID_interval; + Word16 SID_interval; } IVAS_ENC_DTX_CONFIG; typedef enum _IVAS_ENC_SBA_ORDER @@ -169,8 +169,8 @@ ivas_error IVAS_ENC_Open_fx( /*! r: error code */ ivas_error IVAS_ENC_ConfigureForMono( IVAS_ENC_HANDLE hIvasEnc, /* i/o: IVAS encoder handle */ - const int32_t inputFs, /* i : input sampling frequency */ - const int32_t bitrate, /* i : requested bitrate of the output bitstream */ + const Word32 inputFs, /* i : input sampling frequency */ + const Word32 bitrate, /* i : requested bitrate of the output bitstream */ const bool max_bwidth_user, /* i : shows if bandwidth limitation was set by the user (true) or if default bandwidth was used (false) */ const IVAS_ENC_BANDWIDTH maxBandwidth, /* i : bandwidth limitation */ const IVAS_ENC_DTX_CONFIG dtxConfig, /* i : configuration of DTX, can by set to default by using IVAS_ENC_GetDefaultDtxConfig() */ @@ -182,8 +182,8 @@ ivas_error IVAS_ENC_ConfigureForMono( /*! r: error code */ ivas_error IVAS_ENC_ConfigureForStereo( IVAS_ENC_HANDLE hIvasEnc, /* i/o: IVAS encoder handle */ - const int32_t inputFs, /* i : input sampling frequency */ - const int32_t bitrate, /* i : requested bitrate of the output bitstream */ + const Word32 inputFs, /* i : input sampling frequency */ + const Word32 bitrate, /* i : requested bitrate of the output bitstream */ const bool max_bwidth_user, /* i : shows if bandwidth limitation was set by the user (true) or if default bandwidth was used (false) */ const IVAS_ENC_BANDWIDTH maxBandwidth, /* i : bandwidth limitation */ const IVAS_ENC_DTX_CONFIG dtxConfig, /* i : configuration of DTX, can by set to default by using IVAS_ENC_GetDefaultDtxConfig() */ @@ -197,34 +197,34 @@ ivas_error IVAS_ENC_ConfigureForStereo( /*! r: error code */ ivas_error IVAS_ENC_ConfigureForObjects( IVAS_ENC_HANDLE hIvasEnc, /* i/o: IVAS encoder handle */ - const int32_t inputFs, /* i : input sampling frequency */ - const int32_t bitrate, /* i : requested bitrate of the output bitstream */ + const Word32 inputFs, /* i : input sampling frequency */ + const Word32 bitrate, /* i : requested bitrate of the output bitstream */ const bool max_bwidth_user, /* i : shows if bandwidth limitation was set by the user (true) or if default bandwidth was used (false) */ const IVAS_ENC_BANDWIDTH maxBandwidth, /* i : bandwidth limitation */ const IVAS_ENC_DTX_CONFIG dtxConfig, /* i : configuration of DTX, can by set to default by using IVAS_ENC_GetDefaultDtxConfig() */ - const uint16_t numObjects, /* i : number of objects to be encoded */ + const UWord16 numObjects, /* i : number of objects to be encoded */ const bool ism_extended_metadata /* i : Extended metadata used (true/false), where extended metadata includes radius and orientation */ ); /*! r: encoder error code */ ivas_error IVAS_ENC_ConfigureForMASAObjects( IVAS_ENC_HANDLE hIvasEnc, /* i/o: IVAS encoder handle */ - const int32_t inputFs, /* i : input sampling frequency */ - const int32_t bitrate, /* i : requested bitrate of the ouput bitstream */ + const Word32 inputFs, /* i : input sampling frequency */ + const Word32 bitrate, /* i : requested bitrate of the ouput bitstream */ const IVAS_ENC_BANDWIDTH maxBandwidth, /* i : bandwidth limitation */ const IVAS_ENC_DTX_CONFIG dtxConfig, /* i : configuration of DTX, can by set to default by using IVAS_ENC_GetDefaultDtxConfig() */ - const uint16_t numObjects, /* i : number of objects to be encoded */ - const int16_t masaVariant /* i : index specifying the number of MASA transport channels */ + const UWord16 numObjects, /* i : number of objects to be encoded */ + const Word16 masaVariant /* i : index specifying the number of MASA transport channels */ ); /*! r: encoder error code */ ivas_error IVAS_ENC_ConfigureForSBAObjects( IVAS_ENC_HANDLE hIvasEnc, /* i/o: IVAS encoder handle */ - const int32_t inputFs, /* i : input sampling frequency */ - const int32_t bitrate, /* i : requested bitrate of the ouput bitstream */ + const Word32 inputFs, /* i : input sampling frequency */ + const Word32 bitrate, /* i : requested bitrate of the ouput bitstream */ const IVAS_ENC_BANDWIDTH maxBandwidth, /* i : bandwidth limitation */ const IVAS_ENC_DTX_CONFIG dtxConfig, /* i : configuration of DTX, can by set to default by using IVAS_ENC_GetDefaultDtxConfig() */ - const uint16_t numObjects, /* i : number of objects to be encoded */ + const UWord16 numObjects, /* i : number of objects to be encoded */ const IVAS_ENC_SBA_ORDER order, /* i : order of the Ambisonics input */ const bool isPlanar, /* i : if true, input is treated as planar Ambisonics */ const bool Opt_PCA_ON /* i : PCA option flag */ @@ -233,8 +233,8 @@ ivas_error IVAS_ENC_ConfigureForSBAObjects( /*! r: error code */ ivas_error IVAS_ENC_ConfigureForAmbisonics( IVAS_ENC_HANDLE hIvasEnc, /* i/o: IVAS encoder handle */ - const int32_t inputFs, /* i : input sampling frequency */ - const int32_t bitrate, /* i : requested bitrate of the output bitstream */ + const Word32 inputFs, /* i : input sampling frequency */ + const Word32 bitrate, /* i : requested bitrate of the output bitstream */ const bool max_bwidth_user, /* i : shows if bandwidth limitation was set by the user (true) or if default bandwidth was used (false) */ const IVAS_ENC_BANDWIDTH maxBandwidth, /* i : bandwidth limitation */ const IVAS_ENC_DTX_CONFIG dtxConfig, /* i : configuration of DTX, can by set to default by using IVAS_ENC_GetDefaultDtxConfig() */ @@ -245,8 +245,8 @@ ivas_error IVAS_ENC_ConfigureForAmbisonics( ivas_error IVAS_ENC_ConfigureForAmbisonics_fx( IVAS_ENC_HANDLE hIvasEnc, /* i/o: IVAS encoder handle */ - const int32_t inputFs, /* i : input sampling frequency */ - const int32_t bitrate, /* i : requested bitrate of the output bitstream */ + const Word32 inputFs, /* i : input sampling frequency */ + const Word32 bitrate, /* i : requested bitrate of the output bitstream */ const bool max_bwidth_user, /* i : shows if bandwidth limitation was set by the user (true) or if default bandwidth was used (false) */ const IVAS_ENC_BANDWIDTH maxBandwidth, /* i : bandwidth limitation */ const IVAS_ENC_DTX_CONFIG dtxConfig, /* i : configuration of DTX, can by set to default by using IVAS_ENC_GetDefaultDtxConfig() */ @@ -257,8 +257,8 @@ ivas_error IVAS_ENC_ConfigureForAmbisonics_fx( /*! r: error code */ ivas_error IVAS_ENC_ConfigureForMasa( IVAS_ENC_HANDLE hIvasEnc, /* i/o: IVAS encoder handle */ - const int32_t inputFs, /* i : input sampling frequency */ - const int32_t bitrate, /* i : requested bitrate of the output bitstream */ + const Word32 inputFs, /* i : input sampling frequency */ + const Word32 bitrate, /* i : requested bitrate of the output bitstream */ const bool max_bwidth_user, /* i : shows if bandwidth limitation was set by the user (true) or if default bandwidth was used (false) */ const IVAS_ENC_BANDWIDTH maxBandwidth, /* i : bandwidth limitation */ const IVAS_ENC_DTX_CONFIG dtxConfig, /* i : configuration of DTX, can by set to default by using IVAS_ENC_GetDefaultDtxConfig() */ @@ -268,8 +268,8 @@ ivas_error IVAS_ENC_ConfigureForMasa( /*! r: encoder error code */ ivas_error IVAS_ENC_ConfigureForMultichannel( IVAS_ENC_HANDLE hIvasEnc, /* i/o: IVAS encoder handle */ - const int32_t inputFs, /* i : input sampling frequency */ - const int32_t bitrate, /* i : requested bitrate of the output bitstream */ + const Word32 inputFs, /* i : input sampling frequency */ + const Word32 bitrate, /* i : requested bitrate of the output bitstream */ const bool max_bwidth_user, /* i : shows if bandwidth limitation was set by the user (true) or if default bandwidth was used (false) */ const IVAS_ENC_BANDWIDTH maxBandwidth, /* i : bandwidth limitation */ const IVAS_ENC_DTX_CONFIG dtxConfig, /* i : configuration of DTX, can by set to default by using IVAS_ENC_GetDefaultDtxConfig() */ @@ -285,7 +285,7 @@ void IVAS_ENC_Close( /*! r: error code */ ivas_error IVAS_ENC_FeedObjectMetadata( IVAS_ENC_HANDLE hIvasEnc, /* i/o: IVAS encoder handle */ - const uint16_t ismIndex, /* i : object index */ + const UWord16 ismIndex, /* i : object index */ const IVAS_ISM_METADATA metadata /* i : object metadata handle for current frame */ ); @@ -307,10 +307,10 @@ ivas_error IVAS_ENC_EncodeFrameToSerial( /*! r: error code */ ivas_error IVAS_ENC_EncodeFrameToCompact( IVAS_ENC_HANDLE hIvasEnc, /* i/o: IVAS encoder handle */ - int16_t *inputBuffer, /* i : PCM input */ - const int16_t inputBufferSize, /* i : total number of samples in the input buffer. Related function: IVAS_ENC_GetInputBufferSize() */ - uint8_t *outputBitStream, /* o : pointer to compact output bitstream. The array must already be allocated. */ - uint16_t *numOutBits /* o : number of bits written to output bitstream */ + Word16 *inputBuffer, /* i : PCM input */ + const Word16 inputBufferSize, /* i : total number of samples in the input buffer. Related function: IVAS_ENC_GetInputBufferSize() */ + UWord8 *outputBitStream, /* o : pointer to compact output bitstream. The array must already be allocated. */ + UWord16 *numOutBits /* o : number of bits written to output bitstream */ ); /* Setter functions - apply changes to encoder configuration */ @@ -324,7 +324,7 @@ ivas_error IVAS_ENC_SetBandwidth( /*! r: error code */ ivas_error IVAS_ENC_SetBitrate( IVAS_ENC_HANDLE hIvasEnc, /* i/o: IVAS encoder handle */ - const int32_t totalBitrate /* i : requested bitrate of the output bitstream */ + const Word32 totalBitrate /* i : requested bitrate of the output bitstream */ ); /*! r: error code */ @@ -355,13 +355,13 @@ ivas_error IVAS_ENC_GetDelay( /*! r: encoder error code */ ivas_error IVAS_ENC_GetNumInChannels( const IVAS_ENC_HANDLE hIvasEnc, /* i/o: IVAS encoder handle */ - int16_t *numInChannels /* o : total number of samples expected in the input buffer for current encoder configuration */ + Word16 *numInChannels /* o : total number of samples expected in the input buffer for current encoder configuration */ ); /*! r: encoder error code */ ivas_error IVAS_ENC_GetInputBufferSize( const IVAS_ENC_HANDLE hIvasEnc, /* i/o: IVAS encoder handle */ - int16_t *inputBufferSize /* o : total number of samples expected in the input buffer for current encoder configuration */ + Word16 *inputBufferSize /* o : total number of samples expected in the input buffer for current encoder configuration */ ); /* Utility functions */ @@ -388,7 +388,7 @@ const char *IVAS_ENC_GetErrorMessage( ivas_error IVAS_ENC_PrintConfig( const IVAS_ENC_HANDLE hIvasEnc, /* i : IVAS encoder handle */ - const int16_t channelAwareModeEnabled /* i : channel-aware mode enabled flag */ + const Word16 channelAwareModeEnabled /* i : channel-aware mode enabled flag */ ); void IVAS_ENC_PrintDisclaimer( diff --git a/lib_enc/long_enr.c b/lib_enc/long_enr.c deleted file mode 100644 index 31ab8f0198feb70a1b66b00aee7f81040f085bf8..0000000000000000000000000000000000000000 --- a/lib_enc/long_enr.c +++ /dev/null @@ -1,47 +0,0 @@ -/****************************************************************************************************** - - (C) 2022-2025 IVAS codec Public Collaboration with portions copyright Dolby International AB, Ericsson AB, - Fraunhofer-Gesellschaft zur Foerderung der angewandten Forschung e.V., Huawei Technologies Co. LTD., - Koninklijke Philips N.V., Nippon Telegraph and Telephone Corporation, Nokia Technologies Oy, Orange, - Panasonic Holdings Corporation, Qualcomm Technologies, Inc., VoiceAge Corporation, and other - contributors to this repository. All Rights Reserved. - - This software is protected by copyright law and by international treaties. - The IVAS codec Public Collaboration consisting of Dolby International AB, Ericsson AB, - Fraunhofer-Gesellschaft zur Foerderung der angewandten Forschung e.V., Huawei Technologies Co. LTD., - Koninklijke Philips N.V., Nippon Telegraph and Telephone Corporation, Nokia Technologies Oy, Orange, - Panasonic Holdings Corporation, Qualcomm Technologies, Inc., VoiceAge Corporation, and other - contributors to this repository retain full ownership rights in their respective contributions in - the software. This notice grants no license of any kind, including but not limited to patent - license, nor is any license granted by implication, estoppel or otherwise. - - Contributors are required to enter into the IVAS codec Public Collaboration agreement before making - contributions. - - This software is provided "AS IS", without any express or implied warranties. The software is in the - development stage. It is intended exclusively for experts who have experience with such software and - solely for the purpose of inspection. All implied warranties of non-infringement, merchantability - and fitness for a particular purpose are hereby disclaimed and excluded. - - Any dispute, controversy or claim arising under or in relation to providing this software shall be - submitted to and settled by the final, binding jurisdiction of the courts of Munich, Germany in - accordance with the laws of the Federal Republic of Germany excluding its conflict of law rules and - the United Nations Convention on Contracts on the International Sales of Goods. - -*******************************************************************************************************/ - -/*==================================================================================== - EVS Codec 3GPP TS26.443 Nov 04, 2021. Version 12.14.0 / 13.10.0 / 14.6.0 / 15.4.0 / 16.3.0 - ====================================================================================*/ - -#include -#include "options.h" -#include "cnst.h" -#include "prot.h" -#include "wmc_auto.h" - -/*-------------------------------------------------------------------* - * long_enr() - * - * Compute relative energy, long-term average total noise energy and total active speech energy - *-------------------------------------------------------------------*/ diff --git a/lib_enc/long_enr_fx.c b/lib_enc/long_enr_fx.c index 0916b2b09c9e59e65e5c00d4012d29f0c220f90a..af57edd3bd4629ef64c1c16842bc91d572fd67c7 100644 --- a/lib_enc/long_enr_fx.c +++ b/lib_enc/long_enr_fx.c @@ -18,11 +18,11 @@ void ivas_long_enr_fx( Encoder_State *st_fx, /* i/o: state structure */ const Word16 Etot, /* i : total channel E (see lib_enc\analy_sp.c) Q8 */ - const Word16 localVAD_HE_SAD, /* i : HE-SAD flag without hangover */ - Word16 high_lpn_flag, /* i : sp/mus LPN flag */ + const Word16 localVAD_HE_SAD, /* i : HE-SAD flag without hangover Q0*/ + Word16 high_lpn_flag, /* i : sp/mus LPN flag Q0*/ FRONT_VAD_ENC_HANDLE hFrontVad[], /* i/o: front-VAD handles */ - const Word16 n_chan, /* i : number of channels */ - const Word16 localVAD_HE_SAD_LR[], /* i : HE-SAD flag without hangover LR channels */ + const Word16 n_chan, /* i : number of channels Q0*/ + const Word16 localVAD_HE_SAD_LR[], /* i : HE-SAD flag without hangover LR channels Q0*/ const Word16 Etot_LR[] /* i : total channel energy LR channels Q8 */ ) @@ -42,13 +42,13 @@ void ivas_long_enr_fx( { FOR( n = 0; n < n_chan; n++ ) { - hFrontVad[n]->lp_noise_fx = hFrontVad[n]->hNoiseEst->totalNoise_fx; + hFrontVad[n]->lp_noise_fx = hFrontVad[n]->hNoiseEst->totalNoise_fx; /* Q8 */ move16(); - tmp = add( hFrontVad[n]->lp_noise_fx, 2560 ); + tmp = add( hFrontVad[n]->lp_noise_fx, 2560 ); /* Q8 */ - IF( LT_16( hFrontVad[n]->lp_speech_fx, tmp ) ) + if ( LT_16( hFrontVad[n]->lp_speech_fx, tmp ) ) { - hFrontVad[n]->lp_speech_fx = tmp; + hFrontVad[n]->lp_speech_fx = tmp; /* Q8 */ move16(); } } @@ -59,34 +59,34 @@ void ivas_long_enr_fx( IF( LT_16( hFrontVad[0]->ini_frame, 150 ) ) { - smooth_prev = 31130; - smooth_curr = 1638; + smooth_prev = 31130; /* 0.95f in Q15 */ + smooth_curr = 1638; /* 0.05f in Q15 */ move16(); move16(); } ELSE { - smooth_prev = 32113; - smooth_curr = 655; + smooth_prev = 32113; /* 0.98f in Q15 */ + smooth_curr = 655; /* 0.02f in Q15 */ move16(); move16(); } FOR( n = 0; n < n_chan; n++ ) { - hFrontVad[n]->lp_noise_fx = add( mult_r( smooth_prev, hFrontVad[n]->lp_noise_fx ), mult_r( smooth_curr, hFrontVad[n]->hNoiseEst->totalNoise_fx ) ); + hFrontVad[n]->lp_noise_fx = add( mult_r( smooth_prev, hFrontVad[n]->lp_noise_fx ), mult_r( smooth_curr, hFrontVad[n]->hNoiseEst->totalNoise_fx ) ); /* Q8 */ move16(); test(); IF( localVAD_HE_SAD_LR[n] && !high_lpn_flag ) { - IF( LT_16( sub( hFrontVad[n]->lp_speech_fx, Etot_LR[n] ), 2560 ) ) + IF( LT_16( sub( hFrontVad[n]->lp_speech_fx, Etot_LR[n] ), 2560 /*10.0f in Q8*/ ) ) { - hFrontVad[n]->lp_speech_fx = add( mult_r( 32113, hFrontVad[n]->lp_speech_fx ), mult_r( 655, Etot_LR[n] ) ); + hFrontVad[n]->lp_speech_fx = add( mult_r( 32113 /*0.98f in Q15*/, hFrontVad[n]->lp_speech_fx ), mult_r( 655 /*0.02f in Q15*/, Etot_LR[n] ) ); /* Q8 */ move16(); } ELSE { - hFrontVad[n]->lp_speech_fx = sub( hFrontVad[n]->lp_speech_fx, 13 ); + hFrontVad[n]->lp_speech_fx = sub( hFrontVad[n]->lp_speech_fx, 13 /*0.05f in Q8*/ ); /* Q8 */ move16(); } } @@ -94,7 +94,7 @@ void ivas_long_enr_fx( } FOR( n = 0; n < n_chan; n++ ) { - hFrontVad[n]->hNoiseEst->Etot_last_fx = Etot_LR[n]; + hFrontVad[n]->hNoiseEst->Etot_last_fx = Etot_LR[n]; /* Q8 */ move16(); } } @@ -102,7 +102,7 @@ void ivas_long_enr_fx( { IF( LT_16( st_fx->ini_frame, 4 ) ) { - st_fx->lp_noise_fx = hNoiseEst->totalNoise_fx; + st_fx->lp_noise_fx = hNoiseEst->totalNoise_fx; /* Q8 */ move16(); tmp = add( st_fx->lp_noise_fx, 2560 ); /*10.0 in Q8*/ st_fx->lp_speech_fx = s_max( st_fx->lp_speech_fx, tmp ); @@ -115,8 +115,8 @@ void ivas_long_enr_fx( } else { st->lp_noise = 0.98f * st->lp_noise + 0.02f * st->totalNoise; } */ - alpha = 655; - move16(); /* 0.02 Q15 */ + alpha = 655; /* 0.02 Q15 */ + move16(); if ( LT_16( st_fx->ini_frame, 150 ) ) /* should match HE_LT_CNT_INIT_FX */ { alpha = 1638; @@ -141,7 +141,7 @@ void ivas_long_enr_fx( } } /* Update */ - st_fx->hNoiseEst->Etot_last_fx = Etot; + st_fx->hNoiseEst->Etot_last_fx = Etot; /* Q8 */ move16(); } @@ -150,18 +150,13 @@ void ivas_long_enr_fx( *-----------------------------------------------------------------*/ return; } + + void long_enr_fx( Encoder_State *st_fx, /* i/o: state structure */ - const Word16 Etot, /* i : total channel E (see lib_enc\analy_sp.c) */ - const Word16 localVAD_HE_SAD, /* i : HE-SAD flag without hangover */ - Word16 high_lpn_flag /* i : sp/mus LPN flag */ -#ifdef IVAS_CODE - , - FRONT_VAD_ENC_HANDLE hFrontVad[CPE_CHANNELS], /* i/o: front-VAD handles */ - const int16_t n_chan, /* i : number of channels */ - const int16_t localVAD_HE_SAD_LR[CPE_CHANNELS], /* i : HE-SAD flag without hangover LR channels */ - const float Etot_LR[CPE_CHANNELS] /* i : total channel energy LR channels */ -#endif + const Word16 Etot, /* i : total channel E (see lib_enc\analy_sp.c) Q8*/ + const Word16 localVAD_HE_SAD, /* i : HE-SAD flag without hangover Q0*/ + Word16 high_lpn_flag /* i : sp/mus LPN flag Q0*/ ) { Word16 tmp; @@ -172,65 +167,15 @@ void long_enr_fx( * Compute long term estimate of total noise energy * and total active speech energy *-----------------------------------------------------------------*/ -#ifdef IVAS_CODE - Word16 n; - if ( hFrontVad != NULL ) - { - if ( hFrontVad[0]->ini_frame < 4 ) - { - for ( n = 0; n < n_chan; n++ ) - { - hFrontVad[n]->lp_noise = hFrontVad[n]->hNoiseEst->totalNoise; - tmp = hFrontVad[n]->lp_noise + 10.0f; - - if ( hFrontVad[n]->lp_speech < tmp ) - { - hFrontVad[n]->lp_speech = tmp; - } - } - } - else - { - float smooth_prev, smooth_curr; - - if ( hFrontVad[0]->ini_frame < 150 ) - { - smooth_prev = 0.95f; - smooth_curr = 0.05f; - } - else - { - smooth_prev = 0.98f; - smooth_curr = 0.02f; - } - - for ( n = 0; n < n_chan; n++ ) - { - hFrontVad[n]->lp_noise = smooth_prev * hFrontVad[n]->lp_noise + smooth_curr * hFrontVad[n]->hNoiseEst->totalNoise; - if ( localVAD_HE_SAD_LR[n] && !high_lpn_flag ) - { - if ( ( hFrontVad[n]->lp_speech - Etot_LR[n] ) < 10.0f ) - { - hFrontVad[n]->lp_speech = 0.98f * hFrontVad[n]->lp_speech + 0.02f * Etot_LR[n]; - } - else - { - hFrontVad[n]->lp_speech = hFrontVad[n]->lp_speech - 0.05f; - } - } - } - } - } - else -#endif { IF( LT_16( st_fx->ini_frame, 4 ) ) { - st_fx->lp_noise_fx = hNoiseEst->totalNoise_fx; + st_fx->lp_noise_fx = hNoiseEst->totalNoise_fx; /* Q8 */ + move16(); + tmp = add( st_fx->lp_noise_fx, 2560 ); /*10.0 in Q8*/ + st_fx->lp_speech_fx = s_max( st_fx->lp_speech_fx, tmp ); /* Q8 */ move16(); - tmp = add( st_fx->lp_noise_fx, 2560 ); /*10.0 in Q8*/ - st_fx->lp_speech_fx = s_max( st_fx->lp_speech_fx, tmp ); } ELSE { @@ -239,14 +184,15 @@ void long_enr_fx( } else { st->lp_noise = 0.98f * st->lp_noise + 0.02f * st->totalNoise; } */ - alpha = 655; - move16(); /* 0.02 Q15 */ + alpha = 655; /* 0.02 Q15 */ + move16(); if ( LT_16( st_fx->ini_frame, 150 ) ) /* should match HE_LT_CNT_INIT_FX */ { - alpha = 1638; - move16(); /* 0.05 Q15 */ + alpha = 1638; /* 0.05 Q15 */ + move16(); } st_fx->lp_noise_fx = noise_est_AR1_Qx( hNoiseEst->totalNoise_fx, st_fx->lp_noise_fx, alpha ); /* Q8 state, alpha in Q15 */ + move16(); test(); IF( ( localVAD_HE_SAD != 0 ) && ( high_lpn_flag == 0 ) ) @@ -255,10 +201,12 @@ void long_enr_fx( { /* st->lp_speech = 0.98f * st->lp_speech + 0.02f * Etot; */ st_fx->lp_speech_fx = noise_est_AR1_Qx( Etot, st_fx->lp_speech_fx, 655 ); /* Q8 state, 0.02 in Q15 */ + move16(); } ELSE { st_fx->lp_speech_fx = sub( st_fx->lp_speech_fx, 13 ); /* st->lp_speech = st->lp_speech - 0.05f; linear decay*/ + move16(); } } } diff --git a/lib_enc/lp_exc_e.c b/lib_enc/lp_exc_e.c deleted file mode 100644 index 5c3581f4f1c4bf43ac4c588aedcfcb74046e0acb..0000000000000000000000000000000000000000 --- a/lib_enc/lp_exc_e.c +++ /dev/null @@ -1,42 +0,0 @@ -/****************************************************************************************************** - - (C) 2022-2025 IVAS codec Public Collaboration with portions copyright Dolby International AB, Ericsson AB, - Fraunhofer-Gesellschaft zur Foerderung der angewandten Forschung e.V., Huawei Technologies Co. LTD., - Koninklijke Philips N.V., Nippon Telegraph and Telephone Corporation, Nokia Technologies Oy, Orange, - Panasonic Holdings Corporation, Qualcomm Technologies, Inc., VoiceAge Corporation, and other - contributors to this repository. All Rights Reserved. - - This software is protected by copyright law and by international treaties. - The IVAS codec Public Collaboration consisting of Dolby International AB, Ericsson AB, - Fraunhofer-Gesellschaft zur Foerderung der angewandten Forschung e.V., Huawei Technologies Co. LTD., - Koninklijke Philips N.V., Nippon Telegraph and Telephone Corporation, Nokia Technologies Oy, Orange, - Panasonic Holdings Corporation, Qualcomm Technologies, Inc., VoiceAge Corporation, and other - contributors to this repository retain full ownership rights in their respective contributions in - the software. This notice grants no license of any kind, including but not limited to patent - license, nor is any license granted by implication, estoppel or otherwise. - - Contributors are required to enter into the IVAS codec Public Collaboration agreement before making - contributions. - - This software is provided "AS IS", without any express or implied warranties. The software is in the - development stage. It is intended exclusively for experts who have experience with such software and - solely for the purpose of inspection. All implied warranties of non-infringement, merchantability - and fitness for a particular purpose are hereby disclaimed and excluded. - - Any dispute, controversy or claim arising under or in relation to providing this software shall be - submitted to and settled by the final, binding jurisdiction of the courts of Munich, Germany in - accordance with the laws of the Federal Republic of Germany excluding its conflict of law rules and - the United Nations Convention on Contracts on the International Sales of Goods. - -*******************************************************************************************************/ - -/*==================================================================================== - EVS Codec 3GPP TS26.443 Nov 04, 2021. Version 12.14.0 / 13.10.0 / 14.6.0 / 15.4.0 / 16.3.0 - ====================================================================================*/ - -#include -#include "options.h" -#include -#include "cnst.h" -#include "prot.h" -#include "wmc_auto.h" diff --git a/lib_enc/lp_exc_e_fx.c b/lib_enc/lp_exc_e_fx.c index 0887698f78c49dc6579835076bfe83d5af9a5aac..01005f6419fac1fdfb8a1c1dad6f30bdb96f60e1 100644 --- a/lib_enc/lp_exc_e_fx.c +++ b/lib_enc/lp_exc_e_fx.c @@ -53,7 +53,8 @@ Word16 lp_filt_exc_enc_fx( Word16 wtmp, wtmp1; Word32 Ltmp; - Word16 use_prev_sf_pit_gain = 0; + Word16 use_prev_sf_pit_gain = 0; // Q0 + move16(); gain1 = 0; move16(); @@ -66,7 +67,8 @@ Word16 lp_filt_exc_enc_fx( test(); IF( EQ_16( codec_mode, MODE2 ) && EQ_16( coder_type, 100 ) ) { - use_prev_sf_pit_gain = 1; + use_prev_sf_pit_gain = 1; // Q0 + move16(); } exp_ener = 0; move16(); @@ -75,7 +77,7 @@ Word16 lp_filt_exc_enc_fx( test(); IF( EQ_16( *lp_flag, FULL_BAND ) || EQ_16( *lp_flag, NORMAL_OPERATION ) ) { - wtmp = adpt_enr_fx( codec_mode, &exc[i_subfr], h1, y1, L_subfr, &gain1, g_corr, clip_gain, xn, xn2, &exp_ener, use_prev_sf_pit_gain ); + wtmp = adpt_enr_fx( codec_mode, &exc[i_subfr], h1, y1, L_subfr, &gain1, g_corr, clip_gain, xn, xn2, &exp_ener, use_prev_sf_pit_gain ); // exp_ener move16(); } @@ -89,7 +91,7 @@ Word16 lp_filt_exc_enc_fx( wtmp1 = 0; move16(); test(); - IF( ( EQ_16( *lp_flag, LOW_PASS ) ) || ( EQ_16( *lp_flag, NORMAL_OPERATION ) ) ) + IF( ( ( *lp_flag == LOW_PASS ) ) || ( EQ_16( *lp_flag, NORMAL_OPERATION ) ) ) { test(); IF( EQ_16( codec_mode, MODE2 ) && EQ_16( L_frame, L_FRAME16k ) ) @@ -100,6 +102,7 @@ Word16 lp_filt_exc_enc_fx( Ltmp = L_mac( Ltmp, 19005, exc[i + i_subfr] ); Ltmp = L_mac( Ltmp, 6881, exc[i + 1 + i_subfr] ); exc_tmp[i] = round_fx( Ltmp ); + move16(); } } ELSE @@ -110,20 +113,21 @@ Word16 lp_filt_exc_enc_fx( Ltmp = L_mac( Ltmp, 20972, exc[i + i_subfr] ); Ltmp = L_mac( Ltmp, 5898, exc[i + 1 + i_subfr] ); exc_tmp[i] = round_fx( Ltmp ); + move16(); } } - wtmp1 = adpt_enr_fx( codec_mode, exc_tmp, h1, y1_tmp, L_subfr, &gain2, g_corr2, clip_gain, xn, xn2_tmp, &exp_ener1, use_prev_sf_pit_gain ); + wtmp1 = adpt_enr_fx( codec_mode, exc_tmp, h1, y1_tmp, L_subfr, &gain2, g_corr2, clip_gain, xn, xn2_tmp, &exp_ener1, use_prev_sf_pit_gain ); // exp_ener1 } if ( LT_16( exp_ener, exp_ener1 ) ) { - wtmp = shr( wtmp, 1 ); + wtmp = shr( wtmp, 1 ); // exp_ener + 1 } if ( GT_16( exp_ener, exp_ener1 ) ) { - wtmp1 = shr( wtmp1, 1 ); + wtmp1 = shr( wtmp1, 1 ); // exp_ener1 + 1 } /*-----------------------------------------------------------------* @@ -132,18 +136,18 @@ Word16 lp_filt_exc_enc_fx( test(); test(); - IF( ( ( LT_16( wtmp1, wtmp ) ) && ( EQ_16( *lp_flag, NORMAL_OPERATION ) ) ) || ( EQ_16( *lp_flag, LOW_PASS ) ) ) + IF( ( ( LT_16( wtmp1, wtmp ) ) && ( EQ_16( *lp_flag, NORMAL_OPERATION ) ) ) || ( ( *lp_flag == LOW_PASS ) ) ) { /* use the LP filter for pitch excitation prediction */ select = LOW_PASS; move16(); - Copy( exc_tmp, &exc[i_subfr], L_subfr ); - Copy( y1_tmp, y1, L_subfr ); - Copy( xn2_tmp, xn2, L_subfr ); + Copy( exc_tmp, &exc[i_subfr], L_subfr ); // Q_new + Copy( y1_tmp, y1, L_subfr ); // Q_new-1+shift + Copy( xn2_tmp, xn2, L_subfr ); // Q_new-1+shift IF( use_prev_sf_pit_gain == 0 ) { - *gain_pit = gain2; + *gain_pit = gain2; // Q14 move16(); g_corr[0] = g_corr2[0]; move16(); @@ -162,7 +166,7 @@ Word16 lp_filt_exc_enc_fx( move16(); IF( use_prev_sf_pit_gain == 0 ) { - *gain_pit = gain1; + *gain_pit = gain1; // Q14 move16(); } } @@ -193,7 +197,8 @@ Word16 lp_filt_exc_enc_ivas_fx( Word16 wtmp, wtmp1; Word32 Ltmp; - Word16 use_prev_sf_pit_gain = 0; + Word16 use_prev_sf_pit_gain = 0; // Q0 + move16(); gain1 = 0; move16(); @@ -206,7 +211,8 @@ Word16 lp_filt_exc_enc_ivas_fx( test(); IF( EQ_16( codec_mode, MODE2 ) && EQ_16( coder_type, 100 ) ) { - use_prev_sf_pit_gain = 1; + use_prev_sf_pit_gain = 1; // Q0 + move16(); } exp_ener = 0; move16(); @@ -215,13 +221,13 @@ Word16 lp_filt_exc_enc_ivas_fx( test(); IF( EQ_16( *lp_flag, FULL_BAND ) || EQ_16( *lp_flag, NORMAL_OPERATION ) ) { - IF( use_prev_sf_pit_gain == 1 ) + IF( EQ_16( use_prev_sf_pit_gain, 1 ) ) { - wtmp = adpt_enr_fx( codec_mode, &exc[i_subfr], h1, y1, L_subfr, gain_pit, g_corr, clip_gain, xn, xn2, &exp_ener, use_prev_sf_pit_gain ); + wtmp = adpt_enr_fx( codec_mode, &exc[i_subfr], h1, y1, L_subfr, gain_pit, g_corr, clip_gain, xn, xn2, &exp_ener, use_prev_sf_pit_gain ); // exp_ener } - else + ELSE { - wtmp = adpt_enr_fx( codec_mode, &exc[i_subfr], h1, y1, L_subfr, &gain1, g_corr, clip_gain, xn, xn2, &exp_ener, use_prev_sf_pit_gain ); + wtmp = adpt_enr_fx( codec_mode, &exc[i_subfr], h1, y1, L_subfr, &gain1, g_corr, clip_gain, xn, xn2, &exp_ener, use_prev_sf_pit_gain ); // exp_ener } } @@ -235,7 +241,7 @@ Word16 lp_filt_exc_enc_ivas_fx( wtmp1 = 0; move16(); test(); - IF( ( EQ_16( *lp_flag, LOW_PASS ) ) || ( EQ_16( *lp_flag, NORMAL_OPERATION ) ) ) + IF( ( ( *lp_flag == LOW_PASS ) ) || ( EQ_16( *lp_flag, NORMAL_OPERATION ) ) ) { test(); IF( EQ_16( codec_mode, MODE2 ) && EQ_16( L_frame, L_FRAME16k ) ) @@ -246,6 +252,7 @@ Word16 lp_filt_exc_enc_ivas_fx( Ltmp = L_mac( Ltmp, 19005, exc[i + i_subfr] ); Ltmp = L_mac( Ltmp, 6881, exc[i + 1 + i_subfr] ); exc_tmp[i] = round_fx( Ltmp ); + move16(); } } ELSE @@ -256,15 +263,16 @@ Word16 lp_filt_exc_enc_ivas_fx( Ltmp = L_mac( Ltmp, 20972, exc[i + i_subfr] ); Ltmp = L_mac( Ltmp, 5898, exc[i + 1 + i_subfr] ); exc_tmp[i] = round_fx( Ltmp ); + move16(); } } - IF( use_prev_sf_pit_gain == 1 ) + IF( EQ_16( use_prev_sf_pit_gain, 1 ) ) { - wtmp1 = adpt_enr_fx( codec_mode, exc_tmp, h1, y1_tmp, L_subfr, gain_pit, g_corr2, clip_gain, xn, xn2_tmp, &exp_ener1, use_prev_sf_pit_gain ); + wtmp1 = adpt_enr_fx( codec_mode, exc_tmp, h1, y1_tmp, L_subfr, gain_pit, g_corr2, clip_gain, xn, xn2_tmp, &exp_ener1, use_prev_sf_pit_gain ); // exp_ener1 } ELSE { - wtmp1 = adpt_enr_fx( codec_mode, exc_tmp, h1, y1_tmp, L_subfr, &gain2, g_corr2, clip_gain, xn, xn2_tmp, &exp_ener1, use_prev_sf_pit_gain ); + wtmp1 = adpt_enr_fx( codec_mode, exc_tmp, h1, y1_tmp, L_subfr, &gain2, g_corr2, clip_gain, xn, xn2_tmp, &exp_ener1, use_prev_sf_pit_gain ); // exp_ener1 } } @@ -284,18 +292,18 @@ Word16 lp_filt_exc_enc_ivas_fx( test(); test(); - IF( ( ( LT_16( wtmp1, wtmp ) ) && ( EQ_16( *lp_flag, NORMAL_OPERATION ) ) ) || ( EQ_16( *lp_flag, LOW_PASS ) ) ) + IF( ( ( LT_16( wtmp1, wtmp ) ) && ( EQ_16( *lp_flag, NORMAL_OPERATION ) ) ) || ( ( *lp_flag == LOW_PASS ) ) ) { /* use the LP filter for pitch excitation prediction */ select = LOW_PASS; move16(); - Copy( exc_tmp, &exc[i_subfr], L_subfr ); - Copy( y1_tmp, y1, L_subfr ); - Copy( xn2_tmp, xn2, L_subfr ); + Copy( exc_tmp, &exc[i_subfr], L_subfr ); // Q_new + Copy( y1_tmp, y1, L_subfr ); // Q_new-1+shift + Copy( xn2_tmp, xn2, L_subfr ); // Q_new-1+shift IF( use_prev_sf_pit_gain == 0 ) { - *gain_pit = gain2; + *gain_pit = gain2; // Q14 move16(); g_corr[0] = g_corr2[0]; move16(); @@ -314,7 +322,7 @@ Word16 lp_filt_exc_enc_ivas_fx( move16(); IF( use_prev_sf_pit_gain == 0 ) { - *gain_pit = gain1; + *gain_pit = gain1; // Q14 move16(); } } @@ -367,9 +375,9 @@ static Word16 adpt_enr_fx( /* o : adaptive excitation { FOR( i = 0; i < L_subfr; i++ ) { - exc_tmp[i] = mult( exc[i], 8192 ); + exc_tmp[i] = mult( exc[i], 8192 /*0.25.Q15*/ ); // Q_new move16(); - xn_tmp[i] = mult( xn[i], 8192 ); + xn_tmp[i] = mult( xn[i], 8192 /*0.25.Q15*/ ); // Q_new move16(); } Overflow = 0; @@ -383,14 +391,14 @@ static Word16 adpt_enr_fx( /* o : adaptive excitation test(); if ( EQ_16( clip_gain, 1 ) && GT_16( *gain, 15565 ) ) /* constant in Q14 */ { - *gain = 15565; + *gain = 15565; // 0.95.Q14 move16(); } test(); - if ( EQ_16( clip_gain, 2 ) && GT_16( *gain, 10650 ) ) + IF( EQ_16( clip_gain, 2 ) && GT_16( *gain, 10650 ) ) // 0.65.Q14 { - *gain = 10650; + *gain = 10650; // 0.65.Q14 move16(); } } @@ -403,14 +411,14 @@ static Word16 adpt_enr_fx( /* o : adaptive excitation /* could possibly happen in GSC */ Ltmp = Calc_Energy_Autoscaled( xn2, 0, L_subfr, exp_ener ); i = norm_l( Ltmp ); - ener = extract_h( L_shl( Ltmp, i ) ); + ener = extract_h( L_shl( Ltmp, i ) ); // exp_ener i = sub( 31, i ); *exp_ener = sub( i, *exp_ener ); move16(); } ELSE { - ener = extract_h( Dot_product12( xn2, xn2, L_SUBFR, exp_ener ) ); + ener = extract_h( Dot_product12( xn2, xn2, L_SUBFR, exp_ener ) ); // Q15 } return ener; @@ -424,9 +432,9 @@ static Word16 adpt_enr_fx( /* o : adaptive excitation *-------------------------------------------------------------------*/ Word16 corr_xy1_fx( /* o : pitch gain (0..GAIN_PIT_MAX) */ - const Word16 xn_1[], /* i : target signal */ - const Word16 y1_1[], /* i : filtered adaptive codebook excitation */ - Word16 g_corr[], /* o : correlations and -2 */ + const Word16 xn_1[], /* i : target signal Q_new*/ + const Word16 y1_1[], /* i : filtered adaptive codebook excitation 12 bits*/ + Word16 g_corr[], /* o : correlations and -2 mant/exp*/ const Word16 L_subfr, /* i : vector length */ const Word16 norm_flag /* i : flag for constraining pitch contribution */ , @@ -446,7 +454,7 @@ Word16 corr_xy1_fx( /* o : pitch gain (0..GAIN_PIT_MAX) *----------------------------------------------------------------*/ /* Compute scalar product */ - Copy( xn_1, xn, L_subfr ); + Copy( xn_1, xn, L_subfr ); // Q_new Copy( y1_1, y1, L_subfr ); Overflow = 0; move16(); @@ -457,9 +465,9 @@ Word16 corr_xy1_fx( /* o : pitch gain (0..GAIN_PIT_MAX) { FOR( i = 0; i < L_subfr; i++ ) { - xn[i] = mult_r( xn_1[i], 4096 ); + xn[i] = mult_r( xn_1[i], 4096 /*0.125.Q15*/ ); // Q-new move16(); - y1[i] = mult_r( y1_1[i], 4096 ); + y1[i] = mult_r( y1_1[i], 4096 /*0.125.Q15*/ ); move16(); } @@ -484,7 +492,7 @@ Word16 corr_xy1_fx( /* o : pitch gain (0..GAIN_PIT_MAX) } ELSE { - yy = extract_h( Ltmp1 ); + yy = extract_h( Ltmp1 ); // exp_yy /* Ltmp1 = L_shr(Ltmp1, sub(30, exp_yy));*/ /* Compute scalar product */ @@ -499,7 +507,7 @@ Word16 corr_xy1_fx( /* o : pitch gain (0..GAIN_PIT_MAX) g_corr[1] = exp_yy; move16(); /* -2.0*temp1 + 0.01 is done in Gain_enc_2 function*/ - g_corr[2] = xy; + g_corr[2] = xy; // exp_xy move16(); g_corr[3] = exp_xy; move16(); @@ -510,8 +518,8 @@ Word16 corr_xy1_fx( /* o : pitch gain (0..GAIN_PIT_MAX) IF( xy >= 0 && NE_16( s_or( yy, xy ), 16384 ) ) { /* compute gain = xy/yy */ - xy = shr( xy, 1 ); /* be sure that xy < yy */ - gain = div_s( xy, yy ); + xy = shr( xy, 1 ); /* be sure that xy < yy */ + gain = div_s( xy, yy ); // Q15 i = sub( exp_xy, exp_yy ); gain = shl_o( gain, i, &Overflow ); /* saturation can occur here */ *Overflow_out |= Overflow; @@ -536,7 +544,7 @@ Word16 corr_xy1_fx( /* o : pitch gain (0..GAIN_PIT_MAX) /* gain_p_snr = sqrt(/) */ tmp = BASOP_Util_Divide1616_Scale( xx, yy, &exp_div ); exp_xx = add( sub( exp_xx, exp_yy ), exp_div ); - tmp = Sqrt16( tmp, &exp_xx ); + tmp = Sqrt16( tmp, &exp_xx ); // exp_xx /* Note: shl works as shl or shr. */ exp_xx = sub( exp_xx, 1 ); @@ -544,8 +552,8 @@ Word16 corr_xy1_fx( /* o : pitch gain (0..GAIN_PIT_MAX) gain_p_snr = round_fx_sat( L_shl_sat( Mpy_32_16_1( 1717986944l /*ACELP_GAINS_CONST Q31*/, tmp ), exp_xx ) ); BASOP_SATURATE_WARNING_ON_EVS - gain = s_min( gain, gain_p_snr ); + gain = s_min( gain, gain_p_snr ); // Q14 } - return gain; + return gain; // Q14 } diff --git a/lib_enc/lsf_enc.c b/lib_enc/lsf_enc.c deleted file mode 100644 index 3ac84b28ece9055d9f0ba0895ac2151e540ebe62..0000000000000000000000000000000000000000 --- a/lib_enc/lsf_enc.c +++ /dev/null @@ -1,49 +0,0 @@ -/****************************************************************************************************** - - (C) 2022-2025 IVAS codec Public Collaboration with portions copyright Dolby International AB, Ericsson AB, - Fraunhofer-Gesellschaft zur Foerderung der angewandten Forschung e.V., Huawei Technologies Co. LTD., - Koninklijke Philips N.V., Nippon Telegraph and Telephone Corporation, Nokia Technologies Oy, Orange, - Panasonic Holdings Corporation, Qualcomm Technologies, Inc., VoiceAge Corporation, and other - contributors to this repository. All Rights Reserved. - - This software is protected by copyright law and by international treaties. - The IVAS codec Public Collaboration consisting of Dolby International AB, Ericsson AB, - Fraunhofer-Gesellschaft zur Foerderung der angewandten Forschung e.V., Huawei Technologies Co. LTD., - Koninklijke Philips N.V., Nippon Telegraph and Telephone Corporation, Nokia Technologies Oy, Orange, - Panasonic Holdings Corporation, Qualcomm Technologies, Inc., VoiceAge Corporation, and other - contributors to this repository retain full ownership rights in their respective contributions in - the software. This notice grants no license of any kind, including but not limited to patent - license, nor is any license granted by implication, estoppel or otherwise. - - Contributors are required to enter into the IVAS codec Public Collaboration agreement before making - contributions. - - This software is provided "AS IS", without any express or implied warranties. The software is in the - development stage. It is intended exclusively for experts who have experience with such software and - solely for the purpose of inspection. All implied warranties of non-infringement, merchantability - and fitness for a particular purpose are hereby disclaimed and excluded. - - Any dispute, controversy or claim arising under or in relation to providing this software shall be - submitted to and settled by the final, binding jurisdiction of the courts of Munich, Germany in - accordance with the laws of the Federal Republic of Germany excluding its conflict of law rules and - the United Nations Convention on Contracts on the International Sales of Goods. - -*******************************************************************************************************/ - -/*==================================================================================== - EVS Codec 3GPP TS26.443 Nov 04, 2021. Version 12.14.0 / 13.10.0 / 14.6.0 / 15.4.0 / 16.3.0 - ====================================================================================*/ - -#include -#include "options.h" -#include "cnst.h" -#include "rom_enc.h" -#include "rom_com.h" -#include "prot.h" -#include "prot_fx.h" -#include "prot_fx_enc.h" -#include "basop_proto_func.h" -#include "ivas_prot.h" -#include "ivas_prot_fx.h" -#include "ivas_rom_com.h" -#include "wmc_auto.h" diff --git a/lib_enc/lsf_enc_fx.c b/lib_enc/lsf_enc_fx.c index 45a4e014a07a056411042a2bfbbd300931b2e509..8fe425d740baaa1f32abe09edb9ca45d3b1c7a9e 100644 --- a/lib_enc/lsf_enc_fx.c +++ b/lib_enc/lsf_enc_fx.c @@ -8,7 +8,6 @@ #include "rom_com_fx.h" /* Static table prototypes */ #include "rom_com.h" /* Static table prototypes */ //#include "prot_fx.h" /* Function prototypes */ -#include "prot.h" /* Function prototypes */ #include "prot_fx.h" /* Function prototypes */ #include "prot_fx_enc.h" /* Function prototypes */ #include "ivas_prot_fx.h" /* Function prototypes */ @@ -32,9 +31,9 @@ static Word32 vq_lvq_lsf_enc( Word16 pred_flag, Word16 mode, Word16 u[], Word16 static Word32 vq_lvq_lsf_enc_ivas_fx( Word16 pred_flag, Word16 mode, Word16 u[], Word16 *levels, Word16 stages, Word16 w[], Word16 Idx[], const Word16 *lsf, const Word16 *pred, Word16 *resq, Word16 *lsfq ); -static void lsf_mid_enc_fx( BSTR_ENC_HANDLE hBstr, int16_t nb_bits, const Word16 int_fs, const Word16 qlsp0[], const Word16 qlsp1[], Word16 lsp[], const Word16 coder_type, const Word16 bwidth, Word32 Bin_Ener_old[], Word32 Bin_Ener[], Word16 Q_ener, Word16 ppp_mode, Word16 nelp_mode ); +static void lsf_mid_enc_fx( BSTR_ENC_HANDLE hBstr, Word16 nb_bits, const Word16 int_fs, const Word16 qlsp0[], const Word16 qlsp1[], Word16 lsp[], const Word16 coder_type, const Word16 bwidth, Word32 Bin_Ener_old[], Word32 Bin_Ener[], Word16 Q_ener, Word16 ppp_mode, Word16 nelp_mode ); -static void lsf_mid_enc_ivas_fx( BSTR_ENC_HANDLE hBstr, int16_t nb_bits, const Word32 int_fs, const Word16 qlsp0[], const Word16 qlsp1[], Word16 lsp[], const Word16 coder_type, const Word16 bwidth, Word32 Bin_Ener_old[], Word16 Q_ener, Word16 ppp_mode, Word16 nelp_mode ); +static void lsf_mid_enc_ivas_fx( BSTR_ENC_HANDLE hBstr, Word16 nb_bits, const Word32 int_fs, const Word16 qlsp0[], const Word16 qlsp1[], Word16 lsp[], const Word16 coder_type, const Word16 bwidth, Word32 Bin_Ener_old[], Word16 Q_ener, Word16 ppp_mode, Word16 nelp_mode ); /*===========================================================================*/ /* FUNCTION : lsf_enc_fx() */ @@ -72,21 +71,14 @@ void lsf_enc_fx( const Word16 Nb_ACELP_frames, const Word16 tdm_low_rate_mode, /* i : secondary channel low rate mode flag */ const Word16 GSC_IVAS_mode, /* i : GSC IVAS mode */ -#ifdef LSF_RE_USE_SECONDARY_CHANNEL - const float tdm_lsfQ_PCh[M], /* i : Q LSFs for primary channel */ -#endif const Word16 Q_new ) { Word16 nBits = 0; + move16(); Word16 int_fs; Word16 force_sf = 0; + move16(); Word16 fec_lsf[M], stab, i; -#ifdef REMOVE_IVAS_UNUSED_PARAMETERS_WARNING - (void) tdm_low_rate_mode; -#endif -#ifdef IVAS_CODE - Word16 param_lpc[NPRM_LPC_NEW]; -#endif Word32 L_tmp; Word16 coder_type, ppp_mode, nelp_mode; @@ -191,36 +183,20 @@ void lsf_enc_fx( /*-------------------------------------------------------------------------------------* * Frame end LSF quantization *-------------------------------------------------------------------------------------*/ -#ifdef LSF_RE_USE_SECONDARY_CHANNEL - lsf_end_enc_fx( st_fx, lsf_new, lsf_new, nBits, coder_type, Q_new + QSCALE - 2, - force_sf, NULL, NULL, NULL, st_fx->coder_type_raw_fxtdm_lsfQ_PCh ); -#else + lsf_end_enc_fx( st_fx, lsf_new, lsf_new, nBits, coder_type, Q_new + QSCALE - 2, force_sf, NULL, NULL, NULL, st_fx->coder_type_raw ); -#endif + /* convert quantized LSFs back to LSPs */ lsf2lsp_fx( lsf_new, lsp_new, M, int_fs ); test(); - IF( EQ_16( st_fx->last_core, HQ_CORE ) && EQ_16( st_fx->core, ACELP_CORE ) ) + IF( EQ_16( st_fx->last_core, HQ_CORE ) && ( st_fx->core == ACELP_CORE ) ) { /* don't use old LSF values if this is the first ACELP frame after HQ frames */ Copy( lsf_new, st_fx->lsf_old_fx, M ); } /* set seed_acelp used in UC mode */ -#ifdef IVAS_CODE - test(); - IF( EQ_16( coder_type, UNVOICED ) && GT_16( st_fx->element_mode, EVS_MONO ) ) - { - st_fx->seed_acelp = 0; - move16(); - FOR( i = no_param_lpc - 1; i >= 0; i-- ) - { - /* rightshift before *seed_acelp+param_lpc[i] to avoid overflows*/ - st->seed_acelp = (int16_t) ( ( ( ( st->seed_acelp ) >> 1 ) + param_lpc[i] ) * 31821L + 13849L ); - } - } -#endif IF( EQ_32( st_fx->core_brate, SID_2k40 ) ) { /* return if SID frame (conversion to A(z) done in the calling function) */ @@ -242,7 +218,7 @@ void lsf_enc_fx( FEC_lsf_estim_enc_fx( st_fx, fec_lsf ); /* in case of FEC in decoder - calculate LSF stability */ - stab = lsf_stab_fx( lsf_new, fec_lsf, 0, st_fx->L_frame ); + stab = lsf_stab_fx( lsf_new, fec_lsf, 0, st_fx->L_frame ); // Q15 test(); test(); @@ -281,8 +257,8 @@ void lsf_enc_fx( if ( st_fx->rate_switching_reset ) { /*extrapolation in case of unstable LSF convert*/ - Copy( lsp_new, st_fx->lsp_old_fx, M ); - Copy( lsf_new, st_fx->lsf_old_fx, M ); + Copy( lsp_new, st_fx->lsp_old_fx, M ); // Q15 + Copy( lsf_new, st_fx->lsf_old_fx, M ); // Q15 } /* Mid-frame LSF encoding */ lsf_mid_enc_fx( st_fx->hBstr, st_fx->acelp_cfg.mid_lsf_bits, int_fs, st_fx->lsp_old_fx, lsp_new, lsp_mid, coder_type, st_fx->bwidth, st_fx->Bin_E_old_fx, st_fx->Bin_E_fx, Q_new + QSCALE - 2, ppp_mode, nelp_mode ); @@ -291,16 +267,15 @@ void lsf_enc_fx( IF( EQ_16( st_fx->last_core, HQ_CORE ) && EQ_16( st_fx->core, ACELP_CORE ) ) { /* don't use old LSP/LSF values if this is the first ACELP frame after HQ frames */ - Copy( lsp_mid, st_fx->lsp_old_fx, M ); + Copy( lsp_mid, st_fx->lsp_old_fx, M ); // Q15 lsp2lsf_fx( lsp_mid, st_fx->lsf_old_fx, M, int_fs ); } /* LSP interpolation and conversion of LSPs to A(z) */ -#ifdef ADD_LRTD test(); IF( EQ_16( tdm_low_rate_mode, 1 ) && GT_16( coder_type, UNVOICED ) ) { - IF( EQ_16( st_fx->active_cnt_fx, 1 ) ) + IF( EQ_16( st_fx->active_cnt, 1 ) ) { Copy( lsp_mid, st_fx->lsp_old_fx, M ); lsp2lsf_fx( lsp_mid, st_fx->lsf_old_fx, M, int_fs ); @@ -311,7 +286,6 @@ void lsf_enc_fx( int_lsp4_fx( st_fx->L_frame, st_fx->lsp_old_fx, lsp_mid, lsp_new, Aq, M, -2 ); } ELSE -#endif { int_lsp4_fx( st_fx->L_frame, st_fx->lsp_old_fx, lsp_mid, lsp_new, Aq, M, 0 ); } @@ -327,10 +301,10 @@ void lsf_enc_fx( void lsf_enc_ivas_fx( Encoder_State *st, /* i/o: state structure */ - Word16 *lsf_new, /* o : quantized LSF vector */ - Word16 *lsp_new, /* i/o: LSP vector to quantize/quantized */ - Word16 *lsp_mid, /* i/o : mid-frame LSP vector */ - Word16 *Aq, /* o : quantized A(z) for 4 subframes */ + Word16 *lsf_new, /* o : quantized LSF vector Q(x2.56)*/ + Word16 *lsp_new, /* i/o: LSP vector to quantize/quantized Q15*/ + Word16 *lsp_mid, /* i/o : mid-frame LSP vector Q15*/ + Word16 *Aq, /* o : quantized A(z) for 4 subframes Q12*/ const Word16 tdm_low_rate_mode, /* i : secondary channel low rate mode flag */ const Word16 GSC_IVAS_mode, /* i : GSC IVAS mode */ const Word16 tdm_lsfQ_PCh[M], /* i : Q LSFs for primary channel */ @@ -490,15 +464,15 @@ void lsf_enc_ivas_fx( IF( NE_16( st->last_L_frame, st->L_frame ) ) { /* FEC - in case of core switching, use old LSFs */ - Copy( st->lsf_old_fx, st->lsfoldbfi1_fx, M ); - Copy( st->lsf_old_fx, st->lsfoldbfi0_fx, M ); - Copy( st->lsf_old_fx, st->lsf_adaptive_mean_fx, M ); + Copy( st->lsf_old_fx, st->lsfoldbfi1_fx, M ); // Q15 + Copy( st->lsf_old_fx, st->lsfoldbfi0_fx, M ); // Q15 + Copy( st->lsf_old_fx, st->lsf_adaptive_mean_fx, M ); // Q15 } FEC_lsf_estim_enc_fx( st, fec_lsf ); /* in case of FEC in decoder - calculate LSF stability */ - stab = lsf_stab_ivas_fx( lsf_new, fec_lsf, 0, st->L_frame ); + stab = lsf_stab_ivas_fx( lsf_new, fec_lsf, 0, st->L_frame ); // Q15 test(); test(); @@ -537,8 +511,8 @@ void lsf_enc_ivas_fx( IF( st->rate_switching_reset ) { /*extrapolation in case of unstable LSF convert*/ - Copy( lsp_new, st->lsp_old_fx, M ); - Copy( lsf_new, st->lsf_old_fx, M ); + Copy( lsp_new, st->lsp_old_fx, M ); // Q15 + Copy( lsf_new, st->lsf_old_fx, M ); // Q15 } /* Mid-frame LSF encoding */ lsf_mid_enc_ivas_fx( st->hBstr, st->acelp_cfg.mid_lsf_bits, st->sr_core, st->lsp_old_fx, lsp_new, lsp_mid, coder_type, st->bwidth, st->Bin_E_old_fx, Q_new + QSCALE - 2, ppp_mode, nelp_mode ); @@ -557,9 +531,9 @@ void lsf_enc_ivas_fx( { IF( EQ_16( st->active_cnt, 1 ) ) { - Copy( lsp_mid, st->lsp_old_fx, M ); + Copy( lsp_mid, st->lsp_old_fx, M ); // Q15 lsp2lsf_fx( lsp_mid, st->lsf_old_fx, M, st->sr_core ); - Copy( lsp_new, lsp_mid, M ); + Copy( lsp_new, lsp_mid, M ); // Q15 } /* LSP interpolation and conversion of LSPs to A(z) - two-subframe mode */ @@ -574,7 +548,7 @@ void lsf_enc_ivas_fx( *------------------------------------------------------------------*/ IF( NE_32( st->core_brate, SID_2k40 ) ) { - st->stab_fac_fx = lsf_stab_ivas_fx( lsf_new, st->lsf_old_fx, 0, st->L_frame ); + st->stab_fac_fx = lsf_stab_ivas_fx( lsf_new, st->lsf_old_fx, 0, st->L_frame ); // Q15 } return; } @@ -673,11 +647,11 @@ static void lsfq_CNG_fx( Vr_add( qlsf, &CNG_SN1_fx[idx_cv * M], qlsf, M ); /* write the VQ index to the bitstream */ - push_indice_fx( hBstr, IND_ISF_0_0, idx_cv, 4 ); + push_indice( hBstr, IND_ISF_0_0, idx_cv, 4 ); /* write the LVQ index to the bitstream */ - push_indice_fx( hBstr, IND_ISF_0_1, idx_lvq[0], LEN_INDICE ); - push_indice_fx( hBstr, IND_ISF_0_1, idx_lvq[1], LSF_BITS_CNG - 4 - LEN_INDICE ); + push_indice( hBstr, IND_ISF_0_1, idx_lvq[0], LEN_INDICE ); + push_indice( hBstr, IND_ISF_0_1, idx_lvq[1], LSF_BITS_CNG - 4 - LEN_INDICE ); return; } @@ -759,7 +733,7 @@ static void lsfq_CNG_ivas_fx( /* MSVQ_ROM to be updated */ mslvq_cng_ivas_fx( idx_cv, dd, qlsf, ddq, idx_lead_cng, idx_scale_cng, wghts ); - index_lvq_ivas_fx( ddq, idx_lead_cng, idx_scale_cng, START_CNG + idx_cv, idx_lvq, 0 ); + index_lvq_ivas_fx( ddq, idx_lead_cng, idx_scale_cng, START_CNG_IVAS + idx_cv, idx_lvq, 0 ); Vr_add( qlsf, &CNG_SN1_fx[idx_cv * M], qlsf, M ); /* write the VQ index to the bitstream */ @@ -875,8 +849,8 @@ static Word16 qlsf_Mode_Select_fx( /*========================================================================*/ void lsf_end_enc_fx( Encoder_State *st, /* i/o: encoder state structure */ - const Word16 *lsf, /* i : LSF in the frequency domain (0..6400) */ - Word16 *qlsf, /* o : quantized LSF */ + const Word16 *lsf, /* i : LSF in the frequency domain (0..6400) x2.56*/ + Word16 *qlsf, /* o : quantized LSF x2.56*/ const Word16 nBits_in, /* i : number of bits to spend on ISF quantization */ const Word16 coder_type_org, /* i : coding type */ Word16 Q_ener, /* i : Q valuen for Bin_Ener */ @@ -885,10 +859,6 @@ void lsf_end_enc_fx( Word16 *no_indices, Word16 *bits_param_lpc, Word16 coder_type_raw /* i : Coder type (LSF coder_type have some special cases)*/ -#ifdef LSF_RE_USE_SECONDARY_CHANNEL - , - const Word16 tdm_lsfQ_PCh[M] /* i : Q LSFs for primary channel */ -#endif ) { Word16 i; @@ -922,10 +892,6 @@ void lsf_end_enc_fx( Word16 tmp; Word16 flag_1bit_gran; BSTR_ENC_HANDLE hBstr = st->hBstr; -#ifdef LSF_RE_USE_SECONDARY_CHANNEL - Word16 pred3[M]; - Word16 dummy, dummy_v[5]; -#endif flag_1bit_gran = (Word16) GT_16( st->element_mode, EVS_MONO ); @@ -935,11 +901,7 @@ void lsf_end_enc_fx( test(); test(); test(); -#ifdef LSF_RE_USE_SECONDARY_CHANNEL - IF( EQ_16( coder_type_org, GENERIC ) && EQ_32( st->sr_core, INT_FS_16k ) && EQ_16( st->codec_mode, MODE1 ) && ( st->idchan == 0 ) ) /* this bit is used only for primary channel or mono */ -#else IF( EQ_16( coder_type_org, GENERIC ) && EQ_32( st->sr_core, INT_FS_16k ) && EQ_16( st->codec_mode, MODE1 ) ) -#endif { IF( EQ_16( coder_type_raw, VOICED ) ) { @@ -1014,16 +976,7 @@ void lsf_end_enc_fx( pred1[i] = add( ModeMeans_fx[mode_lvq][i], mult_r( MU_MA_FX, st->mem_MA_fx[i] ) ); move16(); } -#ifdef LSF_RE_USE_SECONDARY_CHANNEL - /* TD stereo SCh: perform intra-frame prediction with pulling-to-mean */ - if ( st->tdm_LRTD_flag == 0 && st->idchan == 1 && tdm_lsfQ_PCh != NULL ) - { - /* if secondary channel predmode is set to be > 2 */ - predmode += 3; - tdm_SCh_LSF_intra_pred( st->element_brate, tdm_lsfQ_PCh, pred3 ); - } -#endif IF( predmode == 0 ) { /* Subtract only mean */ @@ -1048,208 +1001,129 @@ void lsf_end_enc_fx( move16(); } ELSE -#ifdef LSF_RE_USE_SECONDARY_CHANNEL - PMT( "LSF_RE_USE_SECONDARY_CHANNEL CODE IS MISSING " ) { - if ( predmode == 2 ) -#endif - { - /* Adaptive scaling factor (multiplier) is updated in order to reduce the amount of consecutive predictive frames in + /* Adaptive scaling factor (multiplier) is updated in order to reduce the amount of consecutive predictive frames in case of possible frame erasure. AR-predictive usage for VOICED mode is allowed to be higher than other modes. */ - test(); - test(); - test(); - IF( ( ( GT_16( st->pstreaklen, ( STREAKLEN + 3 ) ) ) && ( EQ_16( coder_type, VOICED ) ) ) || ( ( GT_16( st->pstreaklen, ( STREAKLEN ) ) ) && ( NE_16( coder_type, VOICED ) ) ) ) + test(); + test(); + test(); + IF( ( ( GT_16( st->pstreaklen, ( STREAKLEN + 3 ) ) ) && ( EQ_16( coder_type, VOICED ) ) ) || ( ( GT_16( st->pstreaklen, ( STREAKLEN ) ) ) && ( NE_16( coder_type, VOICED ) ) ) ) + { + /* update the adaptive scaling factor to become smaller with increasing number of concecutive predictive frames. */ + st->streaklimit_fx = mult( st->streaklimit_fx, STREAKMULT_FX ); // Q15 + move16(); + } + + IF( st->pstreaklen == 0 ) + { + /* reset the consecutive AR-predictor multiplier */ + st->streaklimit_fx = 32767; /*1.0 in Q15 */ + move16(); + } + + /* VOICED_WB@16kHz */ + test(); + IF( EQ_32( st->sr_core, INT_FS_16k ) && EQ_16( coder_type, VOICED ) && flag_1bit_gran == 0 ) + { + /* Subtract mean and AR prediction */ + Copy( ModeMeans_fx[mode_lvq], pred0, M ); + /* subtract only mean */ + Vr_subt( lsf, pred0, Tmp, M ); + + FOR( i = 0; i < M; i++ ) { - /* update the adaptive scaling factor to become smaller with increasing number of concecutive predictive frames. */ - st->streaklimit_fx = mult( st->streaklimit_fx, STREAKMULT_FX ); - move16(); + /* subtract mean and AR prediction */ + pred2[i] = mult( Predictors_fx[mode_lvq_p][i], sub( st->mem_AR_fx[i], pred0[i] ) ); + Tmp2[i] = sub( Tmp[i], pred2[i] ); + pred2[i] = add( pred2[i], pred0[i] ); } - IF( st->pstreaklen == 0 ) + /* select safety_net or predictive */ + safety_net = qlsf_Mode_Select_fx( wghts, Tmp2, st->streaklimit_fx, OP_LOOP_THR_HVO ); + IF( EQ_16( force_sf, 1 ) ) { - /* reset the consecutive AR-predictor multiplier */ - st->streaklimit_fx = 32767; /*1.0 in Q15 */ + safety_net = 1; move16(); } - /* VOICED_WB@16kHz */ - test(); - IF( EQ_32( st->sr_core, INT_FS_16k ) && EQ_16( coder_type, VOICED ) && flag_1bit_gran == 0 ) + IF( safety_net ) { - /* Subtract mean and AR prediction */ - Copy( ModeMeans_fx[mode_lvq], pred0, M ); - /* subtract only mean */ - Vr_subt( lsf, pred0, Tmp, M ); - - FOR( i = 0; i < M; i++ ) - { - /* subtract mean and AR prediction */ - pred2[i] = mult( Predictors_fx[mode_lvq_p][i], sub( st->mem_AR_fx[i], pred0[i] ) ); - Tmp2[i] = sub( Tmp[i], pred2[i] ); - pred2[i] = add( pred2[i], pred0[i] ); - } - - /* select safety_net or predictive */ - safety_net = qlsf_Mode_Select_fx( wghts, Tmp2, st->streaklimit_fx, OP_LOOP_THR_HVO ); - IF( EQ_16( force_sf, 1 ) ) - { - safety_net = 1; - move16(); - } - - IF( safety_net ) - { - /* Safety-net - BC-TCQ quantization : SN */ - Err[0] = qlsf_ARSN_tcvq_Enc_16k_fx( Tmp, lsfq, TCQIdx0, wghts, sub( nBits, 1 ), safety_net ); - st->pstreaklen = 0; - move16(); - } - ELSE - { - /* predictive - BC-TCQ quantization : AR */ - Err[1] = qlsf_ARSN_tcvq_Enc_16k_fx( Tmp2, lsfq, TCQIdx0, wghts, sub( nBits, 1 ), safety_net ); - st->pstreaklen = add( st->pstreaklen, 1 ); - } + /* Safety-net - BC-TCQ quantization : SN */ + Err[0] = qlsf_ARSN_tcvq_Enc_16k_fx( Tmp, lsfq, TCQIdx0, wghts, sub( nBits, 1 ), safety_net ); + st->pstreaklen = 0; + move16(); } - /* all other frames (not VOICED@16kHz) */ ELSE { - /* Subtract mean and AR prediction */ - Copy( ModeMeans_fx[mode_lvq], pred0, M ); - /* subtract only mean */ - Vr_subt( lsf, pred0, Tmp, M ); - - FOR( i = 0; i < M; i++ ) - { - /* subtract mean and AR prediction */ - pred2[i] = add( pred0[i], mult( Predictors_fx[mode_lvq_p][i], sub( st->mem_AR_fx[i], pred0[i] ) ) ); - Tmp2[i] = sub( lsf[i], pred2[i] ); - } - - /* safety-net */ - Err[0] = vq_lvq_lsf_enc( 0, mode_lvq, Tmp, levels0, stages0, wghts, Idx0, lsf, pred0, st->offset_scale1_fx, st->offset_scale2_fx, st->no_scales_fx, resq, lsfq ); - /* Predictive quantizer is calculated only if it can be selected */ - test(); - IF( !force_sf || GT_32( Err[0], abs_threshold ) ) - { - Err[1] = vq_lvq_lsf_enc( 2, mode_lvq_p, Tmp2, levels1, stages1, wghts, Idx1, lsf, pred2, - st->offset_scale1_p_fx, st->offset_scale2_p_fx, st->no_scales_p_fx, &resq[M], &lsfq[M] ); - } - test(); - test(); - /* Select whether to use safety-net (non-predictive) or predictive LSF quantizer. The decision is based on following: - if the non-predictive (safety-net) quantization error (Err[0]) is low enough (spectral distortion is low) it is selected - or if the predictively quantized error (Err[1]) is by at least adaptive margin smaller than non-predictive quantizer. - or if the in case of frame erasure the resulting concealed predictive LSF would be unstable safety-net is selected */ - IF( force_sf || LT_32( Mult_32_16( Err[0], ( st->streaklimit_fx ) ), L_add( Err[1], Mult_32_16( Err[1], PREFERSFNET_FX ) ) ) || LT_32( Err[0], abs_threshold ) ) - { - safety_net = 1; - move16(); - st->pstreaklen = 0; - move16(); /* Reset the consecutive predictive frame counter */ - } - ELSE - { - safety_net = 0; - move16(); /* Increase the consecutive predictive frame counter by one */ - st->pstreaklen = add( st->pstreaklen, 1 ); - } + /* predictive - BC-TCQ quantization : AR */ + Err[1] = qlsf_ARSN_tcvq_Enc_16k_fx( Tmp2, lsfq, TCQIdx0, wghts, sub( nBits, 1 ), safety_net ); + st->pstreaklen = add( st->pstreaklen, 1 ); } } -#ifdef LSF_RE_USE_SECONDARY_CHANNEL - PMT( "LSF_RE_USE_SECONDARY_CHANNEL CODE IS MISSING " ) - else /* of "if (predmode==2)" */ + /* all other frames (not VOICED@16kHz) */ + ELSE { - mvr2r( ModeMeans[mode_lvq], pred0, M ); - - if ( predmode == 4 ) - { - mode_lvq_p = 9; /* force to Generic WB with AR*/ - } + /* Subtract mean and AR prediction */ + Copy( ModeMeans_fx[mode_lvq], pred0, M ); + /* subtract only mean */ + Vr_subt( lsf, pred0, Tmp, M ); - for ( i = 0; i < M; i++ ) + FOR( i = 0; i < M; i++ ) { /* subtract mean and AR prediction */ - pred2[i] = pred0[i] + Predictors[mode_lvq_p][i] * ( st->mem_AR[i] - pred0[i] ); - Tmp[i] = lsf[i] - pred2[i]; - Tmp2[i] = lsf[i] - pred3[i]; + pred2[i] = add( pred0[i], mult( Predictors_fx[mode_lvq_p][i], sub( st->mem_AR_fx[i], pred0[i] ) ) ); + Tmp2[i] = sub( lsf[i], pred2[i] ); } - /* Adaptive scaling factor (multiplier) is updated in order to reduce the amount of consecutive predictive frames in - case of possible frame erasure. AR-predictive usage for VOICED mode is allowed to be higher than other modes. */ - if ( st->pstreaklen > ( STREAKLEN ) ) + /* safety-net */ + Err[0] = vq_lvq_lsf_enc( 0, mode_lvq, Tmp, levels0, stages0, wghts, Idx0, lsf, pred0, st->offset_scale1_fx, st->offset_scale2_fx, st->no_scales_fx, resq, lsfq ); + /* Predictive quantizer is calculated only if it can be selected */ + test(); + IF( !force_sf || GT_32( Err[0], abs_threshold ) ) { - /* update the adaptive scaling factor to become smaller with increasing number of concecutive predictive frames. */ - st->streaklimit *= STREAKMULT; + Err[1] = vq_lvq_lsf_enc( 2, mode_lvq_p, Tmp2, levels1, stages1, wghts, Idx1, lsf, pred2, + st->offset_scale1_p_fx, st->offset_scale2_p_fx, st->no_scales_p_fx, &resq[M], &lsfq[M] ); } - - if ( st->pstreaklen == 0 ) + test(); + test(); + /* Select whether to use safety-net (non-predictive) or predictive LSF quantizer. The decision is based on following: + if the non-predictive (safety-net) quantization error (Err[0]) is low enough (spectral distortion is low) it is selected + or if the predictively quantized error (Err[1]) is by at least adaptive margin smaller than non-predictive quantizer. + or if the in case of frame erasure the resulting concealed predictive LSF would be unstable safety-net is selected */ + IF( force_sf || LT_32( Mult_32_16( Err[0], ( st->streaklimit_fx ) ), L_add( Err[1], Mult_32_16( Err[1], PREFERSFNET_FX ) ) ) || LT_32( Err[0], abs_threshold ) ) { - /* reset the adaptive scaling factor */ - st->streaklimit = 1.0f; + safety_net = 1; + move16(); + st->pstreaklen = 0; + move16(); /* Reset the consecutive predictive frame counter */ } - - /* intra pred */ - /* use G AR pred for the intra mode (as a safety mode, this is why the indexes 0/1 are interchanged)*/ - - lsf_allocate( nBits - 1, mode_lvq, 9, &stages1, &stages0, levels1, levels0, bits1, bits0 ); - - Err[0] = vq_lvq_lsf_enc( 2, 9, Tmp2, levels0, stages0, wghts, Idx0, lsf, pred3, &resq[M], &lsfq[M] ); - - if ( force_sf ) + ELSE { - safety_net = 1; /* intra-frame prediction */ - st->pstreaklen = 0; /* Reset the consecutive predictive frame counter */ - } - else - { /* try also the inter frame prediction */ - - /* AR inter-frame prediction */ - lsf_allocate( nBits - 1, mode_lvq, mode_lvq_p, &dummy, &stages1, dummy_v, levels1, dummy_v, bits1 ); - - - Err[1] = vq_lvq_lsf_enc( 2, mode_lvq_p, Tmp, levels1, stages1, wghts, Idx1, lsf, pred2, resq, lsfq ); - - if ( Err[0] * ( st->streaklimit ) < PREFERSFNET * Err[1] ) - { - safety_net = 1; - st->pstreaklen = 0; /* Reset the consecutive predictive frame counter */ - } - else - { - safety_net = 0; - ( st->pstreaklen )++; /* Increase the consecutive predictive frame counter by one */ - } + safety_net = 0; + move16(); /* Increase the consecutive predictive frame counter by one */ + st->pstreaklen = add( st->pstreaklen, 1 ); } } } -#endif /*--------------------------------------------------------------------------* \ - * Write indices to array \ - *--------------------------------------------------------------------------*/ + + /*--------------------------------------------------------------------------* \ + * Write indices to array \ + *--------------------------------------------------------------------------*/ IF( EQ_16( st->codec_mode, MODE1 ) && EQ_16( st->core, ACELP_CORE ) ) { /* write coder_type bit for VOICED@16kHz or GENERIC@16kHz */ test(); -#ifdef LSF_RE_USE_SECONDARY_CHANNEL - IF( EQ_16( coder_type_org, GENERIC ) && EQ_32( st->sr_core, INT_FS_16k ) && ( st->idchan == 0 ) ) -#else IF( EQ_16( coder_type_org, GENERIC ) && EQ_32( st->sr_core, INT_FS_16k ) ) -#endif { /* VOICED =2 and GENERIC=3, so "coder_type-2" means VOICED =0 and GENERIC=1*/ - push_indice_fx( hBstr, IND_LSF_PREDICTOR_SELECT_BIT, sub( coder_type, 2 ), 1 ); + push_indice( hBstr, IND_LSF_PREDICTOR_SELECT_BIT, sub( coder_type, 2 ), 1 ); } /* write predictor selection bit */ -#ifdef LSF_RE_USE_SECONDARY_CHANNEL - IF( GE( predmode, 2 ) ) -#else IF( EQ_16( predmode, 2 ) ) -#endif { - push_indice_fx( st->hBstr, IND_LSF_PREDICTOR_SELECT_BIT, safety_net, 1 ); + push_indice( st->hBstr, IND_LSF_PREDICTOR_SELECT_BIT, safety_net, 1 ); } test(); @@ -1260,18 +1134,14 @@ void lsf_end_enc_fx( Bit_alloc1 = &BC_TCVQ_BIT_ALLOC_40B[1]; FOR( i = 0; i < ( M / 2 ) + 3; i++ ) { - push_indice_fx( hBstr, IND_LSF, TCQIdx[i], Bit_alloc1[i] ); + push_indice( hBstr, IND_LSF, TCQIdx[i], Bit_alloc1[i] ); } } ELSE { cumleft = nBits; move16(); -#ifdef LSF_RE_USE_SECONDARY_CHANNEL - IF( GE( predmode, 2 ) ) -#else IF( EQ_16( predmode, 2 ) ) -#endif { /* subtract predictor selection bit */ cumleft = sub( nBits, 1 ); @@ -1305,7 +1175,7 @@ void lsf_end_enc_fx( move16(); cumleft -= num_bits; move16(); - push_indice_fx( hBstr, IND_LSF, indice[i], num_bits ); + push_indice( hBstr, IND_LSF, indice[i], num_bits ); } WHILE( cumleft > 0 ) @@ -1325,7 +1195,7 @@ void lsf_end_enc_fx( } cumleft = sub( cumleft, num_bits ); - push_indice_fx( hBstr, IND_LSF, indice[i], num_bits ); + push_indice( hBstr, IND_LSF, indice[i], num_bits ); i = add( i, 1 ); } } @@ -1343,7 +1213,7 @@ void lsf_end_enc_fx( { lpc_param[i] = TCQIdx0[i]; move16(); - bits_param_lpc[i] = BC_TCVQ_BIT_ALLOC_40B[i]; + bits_param_lpc[i] = BC_TCVQ_BIT_ALLOC_40B[i]; // Q0 move16(); } } @@ -1434,16 +1304,6 @@ void lsf_end_enc_fx( } ELSE { -#ifdef LSF_RE_USE_SECONDARY_CHANNEL - if ( st->tdm_LRTD_flag == 0 && st->idchan == 1 && tdm_lsfQ_PCh != NULL ) - { - /* intra mode*/ - vq_dec_lvq( 0, qlsf, &indice[0], stages0, M, 9, /*mode_lvq_p,*/ levels0[stages0 - 1] ); - v_add( qlsf, pred3, qlsf, M ); - v_sub( qlsf, pred1, st->mem_MA, M ); - } - else -#endif { vq_dec_lvq_fx( 1, qlsf, &indice[0], stages0, M, mode_lvq, levels0[stages0 - 1], &st->offset_scale1_fx[0][0], &st->offset_scale2_fx[0][0], &st->offset_scale1_p_fx[0][0], &st->offset_scale2_p_fx[0][0], @@ -1494,8 +1354,8 @@ void lsf_end_enc_fx( void lsf_end_enc_ivas_fx( Encoder_State *st, /* i/o: encoder state structure */ - const Word16 *lsf, /* i : LSF in the frequency domain (0..6400) */ - Word16 *qlsf, /* o : quantized LSF */ + const Word16 *lsf, /* i : LSF in the frequency domain (0..6400) x2.56*/ + Word16 *qlsf, /* o : quantized LSF x2.56*/ const Word16 nBits_in, /* i : number of bits to spend on ISF quantization */ const Word16 coder_type_org, /* i : coding type */ Word16 Q_ener, /* i : Q valuen for Bin_Ener */ @@ -2086,10 +1946,10 @@ void lsf_end_enc_ivas_fx( static void first_VQstages( const Word16 *const *cb, - Word16 u[], /* i : vector to be encoded (prediction and mean removed) */ + Word16 u[], /* i : vector to be encoded (prediction and mean removed) x2.56*/ Word16 *levels, /* i : number of levels in each stage */ Word16 stagesVQ, /* i : number of stages */ - Word16 w[], /* i : weights */ + Word16 w[], /* i : weights Q8*/ Word16 N, /* i : vector dimension */ Word16 max_inner, /* i : maximum number of swaps in inner loop */ Word16 indices_VQstage[] ) @@ -2480,10 +2340,10 @@ static void first_VQstages_ivas_fx( static Word32 vq_lvq_lsf_enc( Word16 pred_flag, Word16 mode, - Word16 u[], + Word16 u[], // x2.56 Word16 *levels, Word16 stages, - Word16 w[], + Word16 w[], // Q8 Word16 Idx[], const Word16 *lsf, const Word16 *pred, @@ -2512,13 +2372,13 @@ static Word32 vq_lvq_lsf_enc( { cb = &Quantizers_fx[CB_lsf[mode]]; move16(); - mode_glb = add( offset_lvq_modes_SN_fx[mode], offset_in_lvq_mode_SN_fx[mode][sub( levels[stagesVQ], min_lat_bits_SN_fx[mode] )] ); + mode_glb = add( offset_lvq_modes_SN_fx[mode], offset_in_lvq_mode_SN_fx[mode][( levels[stagesVQ] - min_lat_bits_SN_fx[mode] )] ); // Q0 } ELSE /* predictive */ { cb = &Quantizers_p_fx[CB_p_lsf[mode]]; move16(); - mode_glb = add( offset_lvq_modes_pred_fx[mode], offset_in_lvq_mode_pred_fx[mode][sub( levels[stagesVQ], min_lat_bits_pred_fx[mode] )] ); + mode_glb = add( offset_lvq_modes_pred_fx[mode], offset_in_lvq_mode_pred_fx[mode][( levels[stagesVQ] - min_lat_bits_pred_fx[mode] )] ); // Q0 } IF( stagesVQ > 0 ) { @@ -2563,7 +2423,7 @@ static Word32 vq_lvq_lsf_enc( { L_tmp = L_mac( L_tmp, mult( diff[j], shl_o( w[j], 1, &Overflow ) ), diff[j] ); /*(2.56+Q5+ Q10 -Q15) + 2.56+ Q5 + Q1 = 2.56 + 2.56 + Q6 */ } - e[i] = L_tmp; + e[i] = L_tmp; /*(2.56+Q5+ Q10 -Q15) + 2.56+ Q5 + Q1 = 2.56 + 2.56 + Q6 */ move32(); } @@ -2589,10 +2449,10 @@ static Word32 vq_lvq_lsf_enc( static Word32 vq_lvq_lsf_enc_ivas_fx( Word16 pred_flag, Word16 mode, - Word16 u[], + Word16 u[], // x2.56 Word16 *levels, Word16 stages, - Word16 w[], + Word16 w[], // Q8 Word16 Idx[], const Word16 *lsf, const Word16 *pred, @@ -2620,7 +2480,7 @@ static Word32 vq_lvq_lsf_enc_ivas_fx( IF( LT_16( mode, 6 ) ) { move16(); - mode_glb = add( offset_lvq_modes_SN[mode], offset_in_lvq_mode_SN[mode][sub( levels[stagesVQ], min_lat_bits_SN[mode] )] ); + mode_glb = add( offset_lvq_modes_SN[mode], offset_in_lvq_mode_SN[mode][( levels[stagesVQ] - min_lat_bits_SN[mode] )] ); } ELSE { @@ -2634,7 +2494,7 @@ static Word32 vq_lvq_lsf_enc_ivas_fx( IF( LT_16( mode, 6 ) || EQ_16( mode, 12 ) ) { move16(); - mode_glb = add( offset_lvq_modes_pred[mode], offset_in_lvq_mode_pred[mode][sub( levels[stagesVQ], min_lat_bits_pred_fx[mode] )] ); + mode_glb = add( offset_lvq_modes_pred[mode], offset_in_lvq_mode_pred[mode][( levels[stagesVQ] - min_lat_bits_pred_fx[mode] )] ); } ELSE { @@ -2714,7 +2574,7 @@ static void BcTcvq_1st_fx( Word16 c[][16], Word32 cDist_fx[][16], /*2.56*2.56*Q(-5 - 2)*/ Word16 Q_fx[][16][2], - Word16 W_fx[][2] /*Q10*/ + Word16 W_fx[][2] /*Q8*/ ) { Word16 state, prev_state; @@ -2775,7 +2635,7 @@ static void BcTcvq_2nd_fx( Word16 c[][16], Word32 cDist_fx[][16], /*2.56*2.56*Q(-5 - 2) */ Word16 Q_fx[][16][2], /*x2.56*/ - Word16 W_fx[][2], /*Q10*/ + Word16 W_fx[][2], /*Q8*/ const Word16 itc_fx[][2][2] /*Q15*/ ) { @@ -3063,12 +2923,12 @@ static Word32 BcTcvq_FixSearch_fx( Q_fx[stage][*prev_state][1] = add( CB_fx[stage4][bestCode][1], pred_fx[1] ); move16(); - minDist_fx = L_shr( minDist_fx, 2 ); + minDist_fx = L_shr( minDist_fx, 2 ); /*2.56*2.56*Q(-5 - 2)*/ return minDist_fx; } static Word16 optimalPath_fx( - Word32 cDist_fx[][16], - Word32 blockDist_fx[], + Word32 cDist_fx[][16], /*2.56*2.56*Q(-5 - 2)*/ + Word32 blockDist_fx[], /*2.56*2.56*Q(-5 - 2)*/ Word16 blockCodeword[][4], Word16 bestCodeword[], Word16 codeWord[][16], @@ -3127,10 +2987,11 @@ static Word16 optimalPath_fx( static void quantEnc_fx( Word16 *y_fx, Word16 c[], - const Word16 CB_SUB1_fx[][128][2], - const Word16 CB_SUB2_fx[][64][2], - const Word16 CB_SUB3_fx[][32][2], - const Word16 itc_fx[][2][2] ) + const Word16 CB_SUB1_fx[][128][2], /*x2.56*/ + const Word16 CB_SUB2_fx[][64][2], /*x2.56*/ + const Word16 CB_SUB3_fx[][32][2], /*x2.56*/ + const Word16 itc_fx[][2][2] // Q15 +) { Word16 i, j; Word16 stage; @@ -3245,9 +3106,9 @@ static void buildCode_fx( } static void BcTcvq_fx( Word16 snFlag, - const Word16 *x_fx, - Word16 *y_fx, - const Word16 *weight_fx, + const Word16 *x_fx, // x2.65 + Word16 *y_fx, // x2.65 + const Word16 *weight_fx, // Q8 Word16 *ind ) { Word16 X_fx[N_STAGE_VQ][N_DIM], W_fx[N_STAGE_VQ][N_DIM]; @@ -3304,9 +3165,9 @@ static void BcTcvq_fx( { FOR( j = 0; j < N_DIM; j++ ) { - X_fx[i][j] = x_fx[( N_DIM * i ) + j]; + X_fx[i][j] = x_fx[( N_DIM * i ) + j]; // x2.65 move16(); - W_fx[i][j] = weight_fx[( N_DIM * i ) + j]; + W_fx[i][j] = weight_fx[( N_DIM * i ) + j]; // x2.56 move16(); } } @@ -3401,10 +3262,10 @@ static void BcTcvq_fx( } static Word16 SVQ_2d_fx( - Word16 *x_fx, - Word16 *y_fx, - const Word16 *W_fx, - const Word16 CB_fx[][8], + Word16 *x_fx, // x2.65 + Word16 *y_fx, // x2.65 + const Word16 *W_fx, // Q8 + const Word16 CB_fx[][8], // x2.65 Word16 Size ) { Word16 i, j; @@ -3422,7 +3283,7 @@ static Word16 SVQ_2d_fx( { temp16_fx = sub( x_fx[j], CB_fx[i][j] ); distortion_fx = L_add( distortion_fx, - L_shr( Mult_32_16( L_mult( temp16_fx, temp16_fx ), W_fx[j] ), 1 ) ); + L_shr( Mult_32_16( L_mult( temp16_fx, temp16_fx ), W_fx[j] ), 1 ) ); // (2*x2.65 + Q1 + Q8) - Q15 - Q1 } IF( LT_32( distortion_fx, temp_fx ) ) @@ -3545,9 +3406,9 @@ Word32 qlsf_ARSN_tcvq_Enc_16k_fx( } static void FFT_Mid_Interpol_16k_fx( - Word32 Bin_Ener_old[], /* i/o: Old 2nd FFT Bin energy (128) */ - Word32 Bin_Ener[], /* i : Current 2nd FFT Bin energy (128) */ - Word32 Bin_Ener_mid[] /* o : LP weighting filter (numerator) */ + Word32 Bin_Ener_old[], /* i/o: Old 2nd FFT Bin energy (128) Q_ener*/ + Word32 Bin_Ener[], /* i : Current 2nd FFT Bin energy (128) Q_ener*/ + Word32 Bin_Ener_mid[] /* o : LP weighting filter (numerator) Q_ener*/ ) { Word16 i; @@ -3659,14 +3520,6 @@ static void lsf_mid_enc_fx( move16(); BREAK; } -#ifdef IVAS_CODE - case 1: - { - ratio = tbl_mid_voi_wb_1b_fx; - move16(); - BREAK; - } -#endif } } ELSE IF( EQ_16( coder_type, UNVOICED ) ) @@ -3684,14 +3537,6 @@ static void lsf_mid_enc_fx( move16(); BREAK; } -#ifdef IVAS_CODE - case 4: - { - ratio = tbl_mid_gen_wb_4b_fx; - move16(); - BREAK; - } -#endif case 2: { ratio = tbl_mid_gen_wb_2b_fx; @@ -3791,7 +3636,7 @@ static void lsf_mid_enc_fx( /* convert LSFs back to LSPs */ lsf2lsp_fx( qlsf, lsp, M, int_fs ); - push_indice_fx( hBstr, IND_MID_FRAME_LSF_INDEX, idx, nb_bits ); + push_indice( hBstr, IND_MID_FRAME_LSF_INDEX, idx, nb_bits ); return; } @@ -3800,12 +3645,12 @@ static void lsf_mid_enc_ivas_fx( BSTR_ENC_HANDLE hBstr, /* i/o: encoder bitstream handle */ Word16 nb_bits, /* i : number of bits */ const Word32 int_fs, /* i : internal (ACELP) sampling frequency*/ - const Word16 qlsp0[], /* i : quantized LSPs from frame beginning*/ - const Word16 qlsp1[], /* i : quantized LSPs from frame end */ - Word16 lsp[], /* i/o: mid-frame LSP */ + const Word16 qlsp0[], /* i : quantized LSPs from frame beginning Q15*/ + const Word16 qlsp1[], /* i : quantized LSPs from frame end Q15*/ + Word16 lsp[], /* i/o: mid-frame LSP Q15*/ const Word16 coder_type, /* i : coding type */ const Word16 bwidth, /* i : input signal bandwidth */ - Word32 Bin_Ener[], /* i : per bin log energy spectrum */ + Word32 Bin_Ener[], /* i : per bin log energy spectrum Q_ener*/ Word16 Q_ener, /* i : Q value of Bin_ener */ Word16 ppp_mode, Word16 nelp_mode ) @@ -3839,19 +3684,19 @@ static void lsf_mid_enc_ivas_fx( { case 5: { - ratio = tbl_mid_voi_wb_5b_fx; + ratio = tbl_mid_voi_wb_5b_fx; // Q13 move16(); BREAK; } case 4: { - ratio = tbl_mid_voi_wb_4b_fx; + ratio = tbl_mid_voi_wb_4b_fx; // Q13 move16(); BREAK; } case 1: { - ratio = tbl_mid_voi_wb_1b_fx; + ratio = tbl_mid_voi_wb_1b_fx; // Q13 move16(); BREAK; } @@ -3859,7 +3704,7 @@ static void lsf_mid_enc_ivas_fx( } ELSE IF( EQ_16( coder_type, UNVOICED ) ) { - ratio = tbl_mid_unv_wb_5b_fx; + ratio = tbl_mid_unv_wb_5b_fx; // Q13 } ELSE { @@ -3868,19 +3713,19 @@ static void lsf_mid_enc_ivas_fx( { case 5: { - ratio = tbl_mid_gen_wb_5b_fx; + ratio = tbl_mid_gen_wb_5b_fx; // Q13 move16(); BREAK; } case 4: { - ratio = tbl_mid_gen_wb_4b_fx; + ratio = tbl_mid_gen_wb_4b_fx; // Q13 move16(); BREAK; } case 2: { - ratio = tbl_mid_gen_wb_2b_fx; + ratio = tbl_mid_gen_wb_2b_fx; // Q13 move16(); BREAK; } @@ -3892,7 +3737,7 @@ static void lsf_mid_enc_ivas_fx( } ELSE IF( EQ_16( ppp_mode, 1 ) ) { - ratio = tbl_mid_voi_wb_1b_fx; + ratio = tbl_mid_voi_wb_1b_fx; // Q13 move16(); nb_bits = 1; move16(); @@ -3901,7 +3746,7 @@ static void lsf_mid_enc_ivas_fx( } ELSE IF( EQ_16( nelp_mode, 1 ) ) { - ratio = tbl_mid_unv_wb_4b_fx; + ratio = tbl_mid_unv_wb_4b_fx; // Q13 move16(); nb_bits = 4; move16(); @@ -3923,7 +3768,7 @@ static void lsf_mid_enc_ivas_fx( FOR( j = 0; j < M; j++ ) { /* qlsf[j] = (1.0f - ratio[k*M+j]) * qlsf0[j] + ratio[k*M+j] * qlsf1[j]; */ - L_tmp = L_mult( sub( 0x2000, ratio[k1 + j] ), qlsf0[j] ); + L_tmp = L_mult( sub( 0x2000 /*1.Q13*/, ratio[k1 + j] ), qlsf0[j] ); L_tmp = L_mac( L_tmp, ratio[k1 + j], qlsf1[j] ); qlsf[j] = round_fx( L_shl( L_tmp, 2 ) ); @@ -3960,7 +3805,7 @@ static void lsf_mid_enc_ivas_fx( FOR( j = 0; j < M; j++ ) { /* qlsf[j] = (1.0f - ratio[idx*M+j]) * qlsf0[j] + ratio[idx*M+j] * qlsf1[j]; */ - L_tmp = L_mult( sub( 0x2000, ratio[idx * M + j] ), qlsf0[j] ); + L_tmp = L_mult( sub( 0x2000 /*1.Q13*/, ratio[idx * M + j] ), qlsf0[j] ); L_tmp = L_mac( L_tmp, ratio[idx * M + j], qlsf1[j] ); qlsf[j] = round_fx( L_shl( L_tmp, 2 ) ); diff --git a/lib_enc/lsf_msvq_ma_enc.c b/lib_enc/lsf_msvq_ma_enc.c index 830f1ecd61c290088d9d1d93dced1e1608a48dba..60375ddcce113a6c5ac6236fdbd3afd55aec93e9 100644 --- a/lib_enc/lsf_msvq_ma_enc.c +++ b/lib_enc/lsf_msvq_ma_enc.c @@ -37,8 +37,6 @@ #include #include "options.h" #include "cnst.h" -#include "ivas_prot.h" -#include "prot.h" #include "prot_fx.h" #include "rom_com.h" #include "rom_enc.h" @@ -94,7 +92,7 @@ Word16 msvq_stage1_dct_search_fx( Word32 *dist1_ptr_fx, /* o : resulting stage 1 MSEs in DCT-N domain */ Word16 *dist1_ptr_e ) { - Word32 dct_target_fx[FDCNG_VQ_DCT_MAXTRUNC]; + Word32 dct_target_fx[FDCNG_VQ_DCT_MAXTRUNC]; // Q20 Word32 u_mr_fx[FDCNG_VQ_MAX_LEN]; Word16 dist1_ptr_e_buf[2 * LSFMBEST_MAX]; Word64 mse_trunc_segm_fx[FDCNG_VQ_DCT_NSEGM]; @@ -128,7 +126,7 @@ Word16 msvq_stage1_dct_search_fx( tmp_e = s_max( 12, u_e ); FOR( i = 0; i < n_ana; i++ ) { - u_mr_fx[i] = L_sub( L_shl( u_fx[i], sub( u_e, tmp_e ) ), L_shl( midQ_truncQ_fx[i], sub( Q31 - Q10, tmp_e ) ) ); + u_mr_fx[i] = L_sub( L_shl( u_fx[i], sub( u_e, tmp_e ) ), L_shl( midQ_truncQ_fx[i], sub( Q31 - Q10, tmp_e ) ) ); // tmp_e move32(); } @@ -137,9 +135,9 @@ Word16 msvq_stage1_dct_search_fx( /* init search state ptr's at the top */ set32_fx( dist1_ptr_fx, MAX_32, maxC_st1 ); set16_fx( dist1_ptr_e_buf, 32, maxC_st1 ); - st1_mse_pair_fx = &( dist1_ptr_fx[0] ); /* req. ptr post upd +=2 */ - st1_mse_pair_e = &( dist1_ptr_e_buf[0] ); /* req. ptr post upd +=2 */ - st1_idx_pair = &( indices_st1_local[0] ); /* req. ptr post upd +=2 */ + st1_mse_pair_fx = &( dist1_ptr_fx[0] ); /* req. ptr post upd +=2 */ // st1_mse_pair_e + st1_mse_pair_e = &( dist1_ptr_e_buf[0] ); /* req. ptr post upd +=2 */ + st1_idx_pair = &( indices_st1_local[0] ); /* req. ptr post upd +=2 */ set64_fx( mse_trunc_segm_fx, 0, n_segm ); // set16_fx( mse_trunc_segm_e, u_e, FDCNG_VQ_DCT_NSEGM ); @@ -153,7 +151,7 @@ Word16 msvq_stage1_dct_search_fx( FOR( i = 0; i < trunc_dct_cols_per_segment[segm]; i++ ) { - mse_trunc_segm_fx[segm] = W_mac_32_32( mse_trunc_segm_fx[segm], dct_target_fx[cols_per_segment[segm] + i], dct_target_fx[cols_per_segment[segm] + i] ); + mse_trunc_segm_fx[segm] = W_mac_32_32( mse_trunc_segm_fx[segm], dct_target_fx[cols_per_segment[segm] + i], dct_target_fx[cols_per_segment[segm] + i] ); // Q41 move64(); } @@ -164,7 +162,7 @@ Word16 msvq_stage1_dct_search_fx( /* unweighted segmented search DCT domain loop */ j_full = add( j, cum_entries_per_segment[segm] ); /* or simply use j_full++ */ - mse_fx = mse_trunc_segm_fx[segm]; /* init mse with with common mse truncation part, in BASOP a move32() */ + mse_fx = mse_trunc_segm_fx[segm]; /* init mse with with common mse truncation part, in BASOP a move32() */ // Q41 move64(); dct_col_shift_tab = col_syn_shift[segm]; /* ptr init */ @@ -177,10 +175,10 @@ Word16 msvq_stage1_dct_search_fx( SHIFT( 1 ); ADD( 1 ); /* in BASOP: s_and(for W8->W16), shl(), sub()*/ #undef WMC_TOOL_SKIP - mse_fx = W_mac_32_32( mse_fx, tmp_fx, tmp_fx ); /* L_mac or L_mac0() square Word16 -> Word32*/ + mse_fx = W_mac_32_32( mse_fx, tmp_fx, tmp_fx ); /* L_mac or L_mac0() square Word16 -> Word32*/ // Q41 } Word16 L_tmp = W_norm( mse_fx ); - st1_mse_ptr_fx[j_full] = W_extract_h( W_lshl( mse_fx, L_tmp ) ); /* save MSE in shared dynamic RAM, move32() in BASOP */ + st1_mse_ptr_fx[j_full] = W_extract_h( W_lshl( mse_fx, L_tmp ) ); /* save MSE in shared dynamic RAM, move32() in BASOP */ // st1_mse_ptr_e move32(); st1_mse_ptr_e[j_full] = sub( shl( tmp_e, 1 ), L_tmp ); move16(); @@ -363,11 +361,11 @@ Word16 msvq_stage1_dct_search_fx( /*! r: (updated p_max) */ Word16 msvq_stage1_dct_recalc_candidates_fdcng_wb_fx( - const Word32 *st1_syn_vec_ptr_fx, /* i : IDCT24 synthesis vectors */ + const Word32 *st1_syn_vec_ptr_fx, /* i : IDCT24 synthesis vectors st1_syn_vec_e*/ const Word16 st1_syn_vec_e, /* i : exp for IDCT24 synthesis vectors */ - const Word32 *u_fx, /* i : target signal */ + const Word32 *u_fx, /* i : target signal u_e*/ const Word16 u_e, /* i : exp for target signal */ - const int16_t maxC_st1, /* i : number of candidates in stage1 */ + const Word16 maxC_st1, /* i : number of candidates in stage1 */ Word32 *dist_ptr_fx, /* i/o: updated MSE vector for stage1 */ Word16 *dist_ptr_e /* i/o: exp for updated MSE vector for stage1 */ ) @@ -391,7 +389,7 @@ Word16 msvq_stage1_dct_recalc_candidates_fdcng_wb_fx( /* for stage#1 use "u" instead of the shortened resid[0], to access the extended/extrapolated input target */ FOR( i = 0; i < FDCNG_VQ_MAX_LEN - FDCNG_VQ_MAX_LEN_WB; i++ ) { - high_diff_fx[i] = L_sub( L_shr( p2_fx[i], sub( tmp_e, st1_syn_vec_e ) ), L_shr( u_fx[FDCNG_VQ_MAX_LEN_WB + i], sub( tmp_e, u_e ) ) ); + high_diff_fx[i] = L_sub( L_shr( p2_fx[i], sub( tmp_e, st1_syn_vec_e ) ), L_shr( u_fx[FDCNG_VQ_MAX_LEN_WB + i], sub( tmp_e, u_e ) ) ); // tmp_e move32(); } acc = 0; @@ -458,7 +456,7 @@ void msvq_enc_ivas_fx( Word16 j; const Word16 *cbp, *cb_stage; Word32 resid_buf_fx[2 * LSFMBEST_MAX * M_MAX], *resid_fx[2]; - Word32 *pTmp, *p1, *p2; + Word32 *pTmp, *p1, *p2; // pTmp_e Word16 pTmp_e; Word16 *indices[2], m, s, c, c2, p_max, i; Word16 idx_buf[2 * LSFMBEST_MAX * MAX_VQ_STAGES_USED], parents[LSFMBEST_MAX]; diff --git a/lib_enc/lsf_msvq_ma_enc_fx.c b/lib_enc/lsf_msvq_ma_enc_fx.c index b81cc18e8486f5abdacdad2104ae288f8a0e08a4..8f6a21d038271fa7643120e170965978c88fbeec 100644 --- a/lib_enc/lsf_msvq_ma_enc_fx.c +++ b/lib_enc/lsf_msvq_ma_enc_fx.c @@ -36,10 +36,10 @@ val2 = shr( ( cbp )[2], 4 ); \ val3 = add( add( shr( lshl( ( cbp )[2], 12 ), 4 ), lshr( lshl( ( cbp )[1], 12 ), 8 ) ), s_and( ( cbp )[0], 0xF ) ); /*--------------------------------------------------------------------------* - * depack_mul_values() + * depack_mul_values_fx() * *--------------------------------------------------------------------------*/ -static Word32 depack_mul_values( Word16 *Tmp, const Word16 *w, const Word16 *cbp, const Word16 N ) +static Word32 depack_mul_values_fx( Word16 *Tmp, const Word16 *w, const Word16 *cbp, const Word16 N ) { Word16 i, val0, val1, val2, val3; Word32 en; @@ -69,7 +69,7 @@ static Word32 depack_mul_values( Word16 *Tmp, const Word16 *w, const Word16 *cbp * depack_sub_values() * *--------------------------------------------------------------------------*/ -static void depack_sub_values( Word16 *pTmp, const Word16 *p1, const Word16 *cbp, const Word16 N ) +static void depack_sub_values_fx( Word16 *pTmp, const Word16 *p1, const Word16 *cbp, const Word16 N ) { Word16 j, val0, val1, val2, val3; @@ -93,7 +93,7 @@ static void depack_sub_values( Word16 *pTmp, const Word16 *p1, const Word16 *cbp * * Unroll of inner search loop for maxC == 8 *--------------------------------------------------------------------------*/ -static Word16 msvq_enc_find_p_max_8( Word32 dist[] ) +static Word16 msvq_enc_find_p_max_8_fx( Word32 dist[] ) { Word16 p_max; @@ -144,7 +144,7 @@ static Word16 msvq_enc_find_p_max_8( Word32 dist[] ) * * Unroll of inner search loop for maxC == 6 *--------------------------------------------------------------------------*/ -static Word16 msvq_enc_find_p_max_6( Word32 dist[] ) +static Word16 msvq_enc_find_p_max_6_fx( Word32 dist[] ) { Word16 p_max; @@ -194,7 +194,7 @@ void msvq_enc_fx( const Word16 maxC, /* i : Tree search size (number of candidates kept from */ /* one stage to the next == M-best) */ const Word16 stages, /* i : Number of stages */ - const Word16 w[], /* i : Weights */ + const Word16 w[], /* i : Weights Q8*/ const Word16 N, /* i : Vector dimension */ const Word16 maxN, /* i : Codebook dimension */ Word16 Idx[] /* o : Indices */ @@ -231,11 +231,11 @@ void msvq_enc_fx( set16_fx( parents, 0, maxC ); - func_ptr = msvq_enc_find_p_max_6; + func_ptr = msvq_enc_find_p_max_6_fx; move16(); if ( EQ_16( maxC, 8 ) ) { - func_ptr = msvq_enc_find_p_max_8; + func_ptr = msvq_enc_find_p_max_8_fx; move16(); } @@ -326,7 +326,7 @@ void msvq_enc_fx( FOR( j = 0; j < levels[s]; j++ ) { /* Compute weighted codebook element and its energy */ - en = depack_mul_values( Tmp + start, w + start, cbp, n ); + en = depack_mul_values_fx( Tmp + start, w + start, cbp, n ); cbp += N34; /* pointer is incremented */ @@ -378,7 +378,7 @@ void msvq_enc_fx( move16(); Copy( p1, pTmp, start ); - depack_sub_values( pTmp + start, p1 + start, &cb[s][p2i * N34], n ); + depack_sub_values_fx( pTmp + start, p1 + start, &cb[s][p2i * N34], n ); Copy( p1 + start + n, pTmp + start + n, sub( N, add( start, n ) ) ); pTmp += N; @@ -407,12 +407,12 @@ void msvq_enc_fx( *--------------------------------------------------------------------------*/ void midlsf_enc_fx( - const Word16 qlsf0[], /* i: quantized lsf coefficients (3Q12) */ - const Word16 qlsf1[], /* i: quantized lsf coefficients (3Q12) */ - const Word16 lsf[], /* i: lsf coefficients (3Q12) */ - Word16 *idx, /* o: codebook index */ - const Word16 lpcorder, /* i: order of the lpc */ - const Word32 *Bin_Ener_128_fx, + const Word16 qlsf0[], /* i: quantized lsf coefficients (3Q12) */ + const Word16 qlsf1[], /* i: quantized lsf coefficients (3Q12) */ + const Word16 lsf[], /* i: lsf coefficients (3Q12) */ + Word16 *idx, /* o: codebook index */ + const Word16 lpcorder, /* i: order of the lpc */ + const Word32 *Bin_Ener_128_fx, // Q_ener const Word16 Q_ener, const Word8 narrowBand, const Word32 sr_core, @@ -502,8 +502,8 @@ void midlsf_enc_fx( * Returns: number of indices *--------------------------------------------------------------------------*/ Word16 Q_lsf_tcxlpc_fx( - /* const */ Word16 lsf[], /* i : original lsf */ - Word16 lsf_q[], /* o : quantized lsf */ + /* const */ Word16 lsf[], /* i : original lsf 14Q1 * 1.28 */ + Word16 lsf_q[], /* o : quantized lsf (14Q1*1.28)*/ Word16 lsp_q_ind[], /* o : quantized lsp (w/o MA prediction) */ Word16 indices[], /* o : VQ indices */ const Word16 lpcorder, /* i : LPC order */ @@ -511,7 +511,7 @@ Word16 Q_lsf_tcxlpc_fx( const Word16 cdk, /* i : codebook selector */ const Word16 mem_MA[], /* i : MA memory */ const Word16 coder_type, - const Word32 *Bin_Ener, + const Word32 *Bin_Ener, // Q_ener const Word16 Q_ener ) { Word16 weights[M + 1]; @@ -578,7 +578,7 @@ Word16 Q_lsf_tcxlpc_fx( FOR( i = 0; i < lpcorder; ++i ) { - lsf_q_ind[i] = lsf_q[i]; + lsf_q_ind[i] = lsf_q[i]; /*(14Q1*1.28)*/ move16(); } @@ -834,7 +834,7 @@ Word16 enc_lsf_tcxlpc_fx( move16(); FOR( i = 0; i < TCXLPC_NUMSTAGES; ++i ) { - push_next_indice_fx( hBstr, **indices, lsf_numbits[i] ); + push_next_indice( hBstr, **indices, lsf_numbits[i] ); ++*indices; } @@ -843,7 +843,7 @@ Word16 enc_lsf_tcxlpc_fx( NumBits = add( NumBits, TCXLPC_IND_NUMBITS ); FOR( i = 0; i < TCXLPC_IND_NUMSTAGES; ++i ) { - push_next_indice_fx( hBstr, **indices, lsf_ind_numbits[i] ); + push_next_indice( hBstr, **indices, lsf_ind_numbits[i] ); ++*indices; } } @@ -891,7 +891,7 @@ Word16 enc_lsf_tcxlpc_ivas_fx( Word16 lsf_msvq_ma_encprm_fx( BSTR_ENC_HANDLE hBstr, - Word16 *param_lpc, + Word16 *param_lpc, // Q0 Word16 core, Word16 acelp_mode, Word16 acelp_midLpc, @@ -909,17 +909,17 @@ Word16 lsf_msvq_ma_encprm_fx( FOR( i = 0; i < no_indices; i++ ) { - push_next_indice_fx( hBstr, *param_lpc, bits_param_lpc[i] ); + push_next_indice( hBstr, *param_lpc, bits_param_lpc[i] ); param_lpc++; nbits_lpc = add( nbits_lpc, bits_param_lpc[i] ); } IF( NE_16( acelp_mode, VOICED ) ) { test(); - IF( EQ_16( core, ACELP_CORE ) && acelp_midLpc ) + IF( ( core == ACELP_CORE ) && acelp_midLpc ) { - push_next_indice_fx( hBstr, *param_lpc, bits_midlpc ); + push_next_indice( hBstr, *param_lpc, bits_midlpc ); nbits_lpc = add( nbits_lpc, bits_midlpc ); } } @@ -928,7 +928,7 @@ Word16 lsf_msvq_ma_encprm_fx( } Word16 lsf_msvq_ma_encprm_ivas_fx( BSTR_ENC_HANDLE hBstr, - const Word16 *param_lpc, + const Word16 *param_lpc, // Q0 const Word16 core, const Word16 acelp_mode, const Word16 acelp_midLpc, @@ -953,7 +953,7 @@ Word16 lsf_msvq_ma_encprm_ivas_fx( IF( NE_16( acelp_mode, VOICED ) ) { test(); - IF( EQ_16( core, ACELP_CORE ) && acelp_midLpc ) + IF( ( core == ACELP_CORE ) && acelp_midLpc ) { push_next_indice( hBstr, *param_lpc, bits_midlpc ); @@ -971,7 +971,7 @@ Word16 lsf_msvq_ma_encprm_ivas_fx( *--------------------------------------------------------------------------*/ Word16 lsf_bctcvq_encprm_fx( BSTR_ENC_HANDLE hBstr, - Word16 *param_lpc, + Word16 *param_lpc, // Q0 Word16 *bits_param_lpc, Word16 no_indices ) { @@ -981,7 +981,7 @@ Word16 lsf_bctcvq_encprm_fx( FOR( i = 0; i < no_indices; i++ ) { - push_next_indice_fx( hBstr, *param_lpc, bits_param_lpc[i] ); + push_next_indice( hBstr, *param_lpc, bits_param_lpc[i] ); param_lpc++; nbits_lpc = add( nbits_lpc, bits_param_lpc[i] ); } @@ -990,7 +990,7 @@ Word16 lsf_bctcvq_encprm_fx( } Word16 lsf_bctcvq_encprm_ivas_fx( BSTR_ENC_HANDLE hBstr, - const Word16 *param_lpc, + const Word16 *param_lpc, // Q0 const Word16 *bits_param_lpc, const Word16 no_indices ) { diff --git a/lib_enc/ltd_stable.c b/lib_enc/ltd_stable.c deleted file mode 100644 index 0e2004abf2b74fc291df1fafb1f856b731c8e611..0000000000000000000000000000000000000000 --- a/lib_enc/ltd_stable.c +++ /dev/null @@ -1,41 +0,0 @@ -/****************************************************************************************************** - - (C) 2022-2025 IVAS codec Public Collaboration with portions copyright Dolby International AB, Ericsson AB, - Fraunhofer-Gesellschaft zur Foerderung der angewandten Forschung e.V., Huawei Technologies Co. LTD., - Koninklijke Philips N.V., Nippon Telegraph and Telephone Corporation, Nokia Technologies Oy, Orange, - Panasonic Holdings Corporation, Qualcomm Technologies, Inc., VoiceAge Corporation, and other - contributors to this repository. All Rights Reserved. - - This software is protected by copyright law and by international treaties. - The IVAS codec Public Collaboration consisting of Dolby International AB, Ericsson AB, - Fraunhofer-Gesellschaft zur Foerderung der angewandten Forschung e.V., Huawei Technologies Co. LTD., - Koninklijke Philips N.V., Nippon Telegraph and Telephone Corporation, Nokia Technologies Oy, Orange, - Panasonic Holdings Corporation, Qualcomm Technologies, Inc., VoiceAge Corporation, and other - contributors to this repository retain full ownership rights in their respective contributions in - the software. This notice grants no license of any kind, including but not limited to patent - license, nor is any license granted by implication, estoppel or otherwise. - - Contributors are required to enter into the IVAS codec Public Collaboration agreement before making - contributions. - - This software is provided "AS IS", without any express or implied warranties. The software is in the - development stage. It is intended exclusively for experts who have experience with such software and - solely for the purpose of inspection. All implied warranties of non-infringement, merchantability - and fitness for a particular purpose are hereby disclaimed and excluded. - - Any dispute, controversy or claim arising under or in relation to providing this software shall be - submitted to and settled by the final, binding jurisdiction of the courts of Munich, Germany in - accordance with the laws of the Federal Republic of Germany excluding its conflict of law rules and - the United Nations Convention on Contracts on the International Sales of Goods. - -*******************************************************************************************************/ - -/*==================================================================================== - EVS Codec 3GPP TS26.443 Nov 04, 2021. Version 12.14.0 / 13.10.0 / 14.6.0 / 15.4.0 / 16.3.0 - ====================================================================================*/ - -#include -#include "options.h" -#include -#include "prot.h" -#include "wmc_auto.h" diff --git a/lib_enc/ltd_stable_fx.c b/lib_enc/ltd_stable_fx.c index a6e3ae1cc0909cffc40469b308b5d13e95580573..036fe2a7e82b382fd7e8a48723a567799aa62e39 100644 --- a/lib_enc/ltd_stable_fx.c +++ b/lib_enc/ltd_stable_fx.c @@ -21,7 +21,7 @@ void ltd_stable_fx( VAD_CLDFB_HANDLE hVAD_CLDFB, /* i/o: CLDFB VAD state */ Word16 *ltd_stable_rate, /* o : time-domain stable rate*/ - const Word32 frame_energy, /* i : current frame energy*/ + const Word32 frame_energy, /* i : current frame energy Q_frames_power*/ const Word16 frameloop, /* i : amount of frames*/ const Word16 Q_frames_power /* i : the Scaling of frames_power*/ ) @@ -57,7 +57,7 @@ void ltd_stable_fx( move16(); Q_apow = 0; move16(); - frames_power_32 = hVAD_CLDFB->frames_power_32; + frames_power_32 = hVAD_CLDFB->frames_power_32; // Q_frames_power_last_32 Q_frames_power_last_32 = hVAD_CLDFB->Q_frames_power_32; move16(); leadingzero_midamp = 31; @@ -76,7 +76,7 @@ void ltd_stable_fx( IF( GE_16( Q_frames_power32, 40 ) ) { zerop001 = L_shr( CNT0P001, 1 ); - frame_energy_Sqr32 = L_shr( frame_energy_Sqr32, sub( Q_frames_power32, 39 ) ); + frame_energy_Sqr32 = L_shr( frame_energy_Sqr32, sub( Q_frames_power32, 39 ) ); // Q_frames_power32 Q_frames_power32 = 39; move16(); } @@ -86,14 +86,14 @@ void ltd_stable_fx( frame_energy_Sqr32 = L_shr( frame_energy_Sqr32, 1 ); zerop001 = L_shr( CNT0P001, sub( 40, Q_frames_power32 ) ); } - frames_power_32[0] = L_add( frame_energy_Sqr32, zerop001 ); + frames_power_32[0] = L_add( frame_energy_Sqr32, zerop001 ); // Q_frames_power32 move32(); IF( LT_16( frameloop, 3 ) ) { FOR( i = 1; i < 40; i++ ) { - frames_power_32[i] = frames_power_32[0]; + frames_power_32[i] = frames_power_32[0]; // Q_frames_power32 move32(); } } @@ -104,7 +104,7 @@ void ltd_stable_fx( move32(); FOR( i = 1; i < 40; i++ ) { - maxVal = L_max( maxVal, frames_power_32[i] ); + maxVal = L_max( maxVal, frames_power_32[i] ); // Q_frames_power32 } leadingzero = 31; move16(); @@ -119,7 +119,7 @@ void ltd_stable_fx( scale1 = sub( scale1, leadingzero ); FOR( i = 1; i < 40; i++ ) { - frames_power_32[i] = L_shr( frames_power_32[i], scale1 ); + frames_power_32[i] = L_shr( frames_power_32[i], scale1 ); // Q_frames_power32 move32(); } } @@ -140,7 +140,7 @@ void ltd_stable_fx( FOR( i = 0; i < 20; i++ ) { - mid_frame_ampadd32[i] = L_add( L_shr( frames_power_32[2 * i], 1 ), L_shr( frames_power_32[2 * i + 1], 1 ) ); + mid_frame_ampadd32[i] = L_add( L_shr( frames_power_32[2 * i], 1 ), L_shr( frames_power_32[2 * i + 1], 1 ) ); // Q_frames_power32 move32(); } @@ -148,16 +148,18 @@ void ltd_stable_fx( move32(); FOR( i = 0; i < 20; i++ ) { - maxVal = L_max( maxVal, mid_frame_ampadd32[i] ); + maxVal = L_max( maxVal, mid_frame_ampadd32[i] ); // Q_frames_power32 } leadingzero_midamp = 31; move16(); if ( maxVal ) + { leadingzero_midamp = norm_l( maxVal ); + } FOR( i = 0; i < 20; i++ ) { - mid_frame_amp32[i] = L_shl( mid_frame_ampadd32[i], leadingzero_midamp ); + mid_frame_amp32[i] = L_shl( mid_frame_ampadd32[i], leadingzero_midamp ); // Q_frames_power32 + leadingzero_midamp move32(); } @@ -165,19 +167,19 @@ void ltd_stable_fx( move32(); FOR( i = 0; i < 20; i++ ) { - seg_amp32 = L_add( seg_amp32, L_shr( mid_frame_amp32[i], 5 ) ); + seg_amp32 = L_add( seg_amp32, L_shr( mid_frame_amp32[i], 5 ) ); // Q_frames_power32 + leadingzero_midamp - 5 } - seg_amp32 = MUL_F( seg_amp32, 0x0666 ); + seg_amp32 = MUL_F( seg_amp32, 0x0666 /*(1/20).Q15*/ ); dif32 = 0; move32(); apow32 = 0; move32(); - seg_amp32tmp = L_shl( seg_amp32, 5 ); + seg_amp32tmp = L_shl( seg_amp32, 5 ); // Q_frames_power32 + leadingzero_midamp FOR( i = 0; i < 20; i++ ) { - tmp32[i] = L_sub( mid_frame_amp32[i], seg_amp32tmp ); + tmp32[i] = L_sub( mid_frame_amp32[i], seg_amp32tmp ); // Q_frames_power32 + leadingzero_midamp move32(); } @@ -185,22 +187,24 @@ void ltd_stable_fx( move32(); FOR( i = 0; i < 20; i++ ) { - maxVal = L_max( maxVal, L_abs( tmp32[i] ) ); + maxVal = L_max( maxVal, L_abs( tmp32[i] ) ); // Q_frames_power32 + leadingzero_midamp - 5 } leadingzero_tmp32 = 31; move16(); if ( maxVal ) + { leadingzero_tmp32 = norm_l( maxVal ); + } FOR( i = 0; i < 20; i++ ) { - tmp16[i] = extract_h( L_shl( tmp32[i], leadingzero_tmp32 ) ); + tmp16[i] = extract_h( L_shl( tmp32[i], leadingzero_tmp32 ) ); //// Q_frames_power32 + leadingzero_midamp + leadingzero_tmp32 - 16 } FOR( i = 0; i < 20; i++ ) { - tmp_mul = L_mult_sat( tmp16[i], tmp16[i] ); - tmp_mul = L_shr( tmp_mul, 5 ); + tmp_mul = L_mult_sat( tmp16[i], tmp16[i] ); // 2 * (Q_frames_power32 + leadingzero_midamp + leadingzero_tmp32 - 16) + 1 + tmp_mul = L_shr( tmp_mul, 5 ); // 2 * (Q_frames_power32 + leadingzero_midamp + leadingzero_tmp32 - 16) - 4 dif32 = L_add( dif32, tmp_mul ); tmp = extract_h( mid_frame_amp32[i] ); @@ -244,7 +248,9 @@ void ltd_stable_fx( leadingzero_midamp = 31; move16(); if ( maxVal ) + { leadingzero_midamp = norm_l( maxVal ); + } FOR( i = 0; i < 14; i++ ) { @@ -256,15 +262,15 @@ void ltd_stable_fx( move32(); FOR( i = 0; i < 14; i++ ) { - seg_amp32 = L_add( seg_amp32, L_shr( mid_frame_amp32[i], 4 ) ); + seg_amp32 = L_add( seg_amp32, L_shr( mid_frame_amp32[i], 4 ) ); // Q_frames_power32 - 4 } - seg_amp32 = MUL_F( seg_amp32, 0x0924 ); + seg_amp32 = MUL_F( seg_amp32, 0x0924 /*(1/14).Q15*/ ); dif32 = 0; move32(); apow32 = 0; move32(); - seg_amp32tmp = L_shl( seg_amp32, 4 ); + seg_amp32tmp = L_shl( seg_amp32, 4 ); // Q_frames_power32 FOR( i = 0; i < 14; i++ ) { tmp32[i] = L_sub( mid_frame_amp32[i], seg_amp32tmp ); @@ -280,7 +286,9 @@ void ltd_stable_fx( leadingzero_tmp32 = 31; move16(); if ( maxVal ) + { leadingzero_tmp32 = norm_l( maxVal ); + } FOR( i = 0; i < 14; i++ ) { @@ -367,8 +375,10 @@ void ltd_stable_fx( } leadingzero_midamp = 31; move16(); - if ( maxVal ) + IF( maxVal ) + { leadingzero_midamp = norm_l( maxVal ); + } FOR( i = 0; i < 8; i++ ) { @@ -382,7 +392,7 @@ void ltd_stable_fx( { seg_amp32 = L_add( seg_amp32, L_shr( mid_frame_amp32[i], 3 ) ); } - seg_amp32 = MUL_F( seg_amp32, 0x1000 ); + seg_amp32 = MUL_F( seg_amp32, 0x1000 /*(1/8).Q15*/ ); dif32 = 0; move32(); @@ -403,9 +413,10 @@ void ltd_stable_fx( } leadingzero_tmp32 = 31; move16(); - if ( maxVal ) + IF( maxVal ) + { leadingzero_tmp32 = norm_l( maxVal ); - + } FOR( i = 0; i < 8; i++ ) { tmp32[i] = L_shl( tmp32[i], leadingzero_tmp32 ); @@ -482,7 +493,7 @@ void ltd_stable_fx( ltd_stable_rate[2] = shr( ltd_stable_rate[2], ltd_stable_rate_Qtmp ); move16(); - ltd_stable_rate[3] = add( mult( ltd_stable_rate[3], 0x7333 ), mult( ltd_stable_rate[2], 0x0ccc ) ); + ltd_stable_rate[3] = add( mult( ltd_stable_rate[3], 0x7333 /*0.9.Q15*/ ), mult( ltd_stable_rate[2], 0x0ccc /*0.1.Q15*/ ) ); move16(); FOR( i = 55; i > 0; i-- ) diff --git a/lib_enc/mdct_classifier.c b/lib_enc/mdct_classifier.c deleted file mode 100644 index 047f023553e6d1c96b01303ed005550893a112a8..0000000000000000000000000000000000000000 --- a/lib_enc/mdct_classifier.c +++ /dev/null @@ -1,43 +0,0 @@ -/****************************************************************************************************** - - (C) 2022-2025 IVAS codec Public Collaboration with portions copyright Dolby International AB, Ericsson AB, - Fraunhofer-Gesellschaft zur Foerderung der angewandten Forschung e.V., Huawei Technologies Co. LTD., - Koninklijke Philips N.V., Nippon Telegraph and Telephone Corporation, Nokia Technologies Oy, Orange, - Panasonic Holdings Corporation, Qualcomm Technologies, Inc., VoiceAge Corporation, and other - contributors to this repository. All Rights Reserved. - - This software is protected by copyright law and by international treaties. - The IVAS codec Public Collaboration consisting of Dolby International AB, Ericsson AB, - Fraunhofer-Gesellschaft zur Foerderung der angewandten Forschung e.V., Huawei Technologies Co. LTD., - Koninklijke Philips N.V., Nippon Telegraph and Telephone Corporation, Nokia Technologies Oy, Orange, - Panasonic Holdings Corporation, Qualcomm Technologies, Inc., VoiceAge Corporation, and other - contributors to this repository retain full ownership rights in their respective contributions in - the software. This notice grants no license of any kind, including but not limited to patent - license, nor is any license granted by implication, estoppel or otherwise. - - Contributors are required to enter into the IVAS codec Public Collaboration agreement before making - contributions. - - This software is provided "AS IS", without any express or implied warranties. The software is in the - development stage. It is intended exclusively for experts who have experience with such software and - solely for the purpose of inspection. All implied warranties of non-infringement, merchantability - and fitness for a particular purpose are hereby disclaimed and excluded. - - Any dispute, controversy or claim arising under or in relation to providing this software shall be - submitted to and settled by the final, binding jurisdiction of the courts of Munich, Germany in - accordance with the laws of the Federal Republic of Germany excluding its conflict of law rules and - the United Nations Convention on Contracts on the International Sales of Goods. - -*******************************************************************************************************/ - -/*==================================================================================== - EVS Codec 3GPP TS26.443 Nov 04, 2021. Version 12.14.0 / 13.10.0 / 14.6.0 / 15.4.0 / 16.3.0 - ====================================================================================*/ - -#include -#include "options.h" -#include "cnst.h" -#include "prot.h" -#include "wmc_auto.h" -#include -#include "ivas_prot_fx.h" diff --git a/lib_enc/mdct_classifier_fx.c b/lib_enc/mdct_classifier_fx.c index 265fce7f2362eac89d7fa7a1cf033cb433b2f059..a4e19e0400c7da71ab98c14c25a732eecc3a692f 100644 --- a/lib_enc/mdct_classifier_fx.c +++ b/lib_enc/mdct_classifier_fx.c @@ -9,7 +9,6 @@ #include "rom_com.h" #include "prot_fx.h" /* Function prototypes */ #include "prot_fx_enc.h" /* Function prototypes */ -#include "prot_fx.h" /* Function prototypes */ #include "prot_fx_enc.h" /* Function prototypes */ #include "ivas_prot_fx.h" /* Function prototypes */ @@ -47,7 +46,7 @@ * Square magnitude of fft spectrum *----------------------------------------------------------------------------*/ static void dft_mag_square_fx( - const Word16 x[], /* i : Input vector: re[0], re[1], ..., re[n/2], im[n/2 - 1], im[n/2 - 2], ..., im[1] */ + const Word16 x[], /* i : Input vector: re[0], re[1], ..., re[n/2], im[n/2 - 1], im[n/2 - 2], ..., im[1] Qx*/ Word32 magSq[], /* o : Magnitude square spectrum */ const Word16 n /* i : Input vector length */ ) @@ -58,7 +57,7 @@ static void dft_mag_square_fx( /* Magnitude square at 0. */ pMagSq = &magSq[0]; - pRe = &x[0]; + pRe = &x[0]; // Qx *pMagSq++ = L_mult0( *pRe, *pRe ); pRe++; move32(); @@ -71,13 +70,13 @@ static void dft_mag_square_fx( { acc = L_mult0( *pRe, *pRe ); pRe++; - *pMagSq++ = L_mac0( acc, *pIm, *pIm ); + *pMagSq++ = L_mac0( acc, *pIm, *pIm ); // 2*Qx pIm--; move32(); } /* The magnitude square at N/2 */ - *pMagSq = L_mult0( *pRe, *pRe ); + *pMagSq = L_mult0( *pRe, *pRe ); // 2*Qx move32(); return; } @@ -90,7 +89,7 @@ static void dft_mag_square_fx( Word16 mdct_classifier_fx( /* o: MDCT A/B decision */ const Word16 *fft_buff, /* i: re[0], re[1], ..., re[n/2], im[n/2 - 1], im[n/2 - 2], ..., im[1] */ Encoder_State *st_fx, /* i/o: Encoder state variable */ - Word32 *cldfbBuf_Ener, + Word32 *cldfbBuf_Ener, // enerBuffer_exp Word16 enerBuffer_exp, const Word32 brate /* i : current brate, IVAS: nominal bitrate, EVS: st->total_brate */ ) @@ -261,7 +260,7 @@ Word16 mdct_classifier_fx( /* o: MDCT A/B decision { IF( max_i > 0 ) { - IF( GT_16( np, 0 ) ) + IF( ( np > 0 ) ) { d_acc = sub( add( d_acc, max_i ), pos_last ); } @@ -278,7 +277,7 @@ Word16 mdct_classifier_fx( /* o: MDCT A/B decision IF( pe != 0 ) { expo = norm_l( pe ); - man = L_shl( pe, expo ); + man = L_shl( pe, expo ); // expo Mpy_32_32_ss( man, man, &man, &lsb32 ); /* pe square */ expo = shl( expo, 1 ); /* Multiply by 2 due to squaring. */ floating_point_add( &p_energy_man, &p_energy_exp, man, expo ); @@ -310,35 +309,35 @@ Word16 mdct_classifier_fx( /* o: MDCT A/B decision /* gain11 = 8*(gain1 - cldfbBuf_Ener[0]/8)/7; */ acc = L_shr( cldfbBuf_Ener[0], 3 ); acc = L_sub( gain1, acc ); - acc = Mult_32_16( acc, 4681 ); + acc = Mult_32_16( acc, 4681 /*(1/7).Q15*/ ); gain11 = L_shl( acc, 3 ); gain4 = L_deposit_l( 0 ); FOR( k = 0; k < 12; k++ ) { - gain4 = L_add( gain4, Mult_32_16( cldfbBuf_Ener[k + 12], 2731 ) ); + gain4 = L_add( gain4, Mult_32_16( cldfbBuf_Ener[k + 12], 2731 /*(1/12).Q15*/ ) ); } peak_H1 = L_add( cldfbBuf_Ener[25], 0 ); - Mpy_32_16_ss( cldfbBuf_Ener[25], 6554, &avrg_H1, &lsb16 ); + Mpy_32_16_ss( cldfbBuf_Ener[25], 6554 /*0.4.Q15*/, &avrg_H1, &lsb16 ); FOR( k = 1; k < 5; k++ ) { IF( GT_32( cldfbBuf_Ener[k + 25], peak_H1 ) ) { peak_H1 = L_add( cldfbBuf_Ener[k + 25], 0 ); } - avrg_H1 = L_add( avrg_H1, Mult_32_16( cldfbBuf_Ener[k + 25], 6554 ) ); + avrg_H1 = L_add( avrg_H1, Mult_32_16( cldfbBuf_Ener[k + 25], 6554 /*0.4.Q15*/ ) ); } peak_H2 = L_add( cldfbBuf_Ener[20], 0 ); - Mpy_32_16_ss( cldfbBuf_Ener[20], 6554, &avrg_H2, &lsb16 ); + Mpy_32_16_ss( cldfbBuf_Ener[20], 6554 /*0.4.Q15*/, &avrg_H2, &lsb16 ); FOR( k = 1; k < 5; k++ ) { IF( GT_32( cldfbBuf_Ener[k + 20], peak_H2 ) ) { peak_H2 = L_add( cldfbBuf_Ener[k + 20], 0 ); } - avrg_H2 = L_add( avrg_H2, Mult_32_16( cldfbBuf_Ener[k + 20], 6554 ) ); + avrg_H2 = L_add( avrg_H2, Mult_32_16( cldfbBuf_Ener[k + 20], 6554 /*0.4.Q15*/ ) ); } // End peak_l = L_deposit_l( 0 ); @@ -401,7 +400,7 @@ Word16 mdct_classifier_fx( /* o: MDCT A/B decision condition4 = 0; move16(); - L_tmp = Mult_32_16( peak_h, 12603 ); + L_tmp = Mult_32_16( peak_h, 12603 /*1/2.56.Q15*/ ); IF( GT_32( peak_l, L_tmp ) ) { exp = norm_l( peak_l ); @@ -419,7 +418,7 @@ Word16 mdct_classifier_fx( /* o: MDCT A/B decision exp1 = norm_l( avrg_l ); } - L_tmp1 = Mult_32_16( peak_l, 12603 ); + L_tmp1 = Mult_32_16( peak_l, 12603 /*1/2.56.Q15*/ ); IF( GT_32( peak_h, L_tmp1 ) ) { exp2 = norm_l( peak_h ); @@ -439,7 +438,7 @@ Word16 mdct_classifier_fx( /* o: MDCT A/B decision move16(); } - L_tmp = Mult_32_16( peak_h, 12800 ); + L_tmp = Mult_32_16( peak_h, 12800 /*(1/2.56).Q15*/ ); IF( GT_32( peak_l, L_tmp ) ) { exp = norm_l( peak_l ); @@ -449,7 +448,7 @@ Word16 mdct_classifier_fx( /* o: MDCT A/B decision exp = norm_l( L_tmp ); } - L_tmp1 = Mult_32_16( peak_l, 6400 ); + L_tmp1 = Mult_32_16( peak_l, 6400 /*(1/5.12).Q15*/ ); IF( GT_32( peak_h, L_tmp1 ) ) { exp2 = norm_l( peak_h ); @@ -477,7 +476,7 @@ Word16 mdct_classifier_fx( /* o: MDCT A/B decision test(); test(); test(); - IF( ( GT_32( gain4, Mult_32_16( gain11, 26214 ) ) && GT_32( Mult_32_32( L_shl( peak_l, exp ), L_shl( avrg_h, exp1 ) ), Mult_32_32( L_shl( Mult_32_16( peak_h, 12800 ), exp ), L_shl( avrg_l, exp1 ) ) ) && LT_32( Mult_32_32( L_shl( Mult_32_16( peak_l, 6400 ), exp2 ), L_shl( avrg_h, exp1 ) ), Mult_32_32( L_shl( peak_h, exp2 ), L_shl( avrg_l, exp1 ) ) ) ) || ( GT_32( gain4, Mult_32_16( gain11, 9830 ) ) && LT_32( Mult_32_16( peak_h, 21845 ), avrg_h ) && LT_32( Mult_32_16( peak_H2, 21845 ), avrg_H2 ) ) || ( LT_32( Mult_32_32( L_shl( peak_l, exp ), L_shl( avrg_h, exp1 ) ), Mult_32_32( L_shl( Mult_32_16( peak_h, 12800 ), exp ), L_shl( avrg_l, exp1 ) ) ) && GT_32( Mult_32_16( peak_h, 21845 ), avrg_h ) ) || ( GT_32( Mult_32_32( L_shl( Mult_32_16( peak_l, 12800 ), exp3 ), L_shl( avrg_h, exp1 ) ), Mult_32_32( L_shl( peak_h, exp3 ), L_shl( avrg_l, exp1 ) ) ) > 0 && LT_32( Mult_32_16( peak_h, 21845 ), avrg_h ) ) ) + IF( ( GT_32( gain4, Mult_32_16( gain11, 26214 /*0.8.Q15*/ ) ) && GT_32( Mult_32_32( L_shl( peak_l, exp ), L_shl( avrg_h, exp1 ) ), Mult_32_32( L_shl( Mult_32_16( peak_h, 12800 /*(1/2.56).Q15*/ ), exp ), L_shl( avrg_l, exp1 ) ) ) && LT_32( Mult_32_32( L_shl( Mult_32_16( peak_l, 6400 /*(1/5.12).Q15*/ ), exp2 ), L_shl( avrg_h, exp1 ) ), Mult_32_32( L_shl( peak_h, exp2 ), L_shl( avrg_l, exp1 ) ) ) ) || ( GT_32( gain4, Mult_32_16( gain11, 9830 /*0.3.Q15*/ ) ) && LT_32( Mult_32_16( peak_h, 21845 /*(1/1.5).Q15*/ ), avrg_h ) && LT_32( Mult_32_16( peak_H2, 21845 /*(1/1.5).Q15*/ ), avrg_H2 ) ) || ( LT_32( Mult_32_32( L_shl( peak_l, exp ), L_shl( avrg_h, exp1 ) ), Mult_32_32( L_shl( Mult_32_16( peak_h, 12800 /*(1/2.56).Q15*/ ), exp ), L_shl( avrg_l, exp1 ) ) ) && GT_32( Mult_32_16( peak_h, 21845 /*(1/1.5).Q15*/ ), avrg_h ) ) || ( GT_32( Mult_32_32( L_shl( Mult_32_16( peak_l, 12800 /*(1/2.56).Q15*/ ), exp3 ), L_shl( avrg_h, exp1 ) ), Mult_32_32( L_shl( peak_h, exp3 ), L_shl( avrg_l, exp1 ) ) ) > 0 && LT_32( Mult_32_16( peak_h, 21845 /*(1/1.5).Q15*/ ), avrg_h ) ) ) { condition4 = 1; move16(); @@ -499,21 +498,21 @@ Word16 mdct_classifier_fx( /* o: MDCT A/B decision } /* Smooth decision from instantaneous decision*/ - acc = L_mult( hTcxEnc->clas_sec_old_fx, MDCT_CLASSIFER_SMOOTH_FILT_COEFF ); /* st_fx->clas_sec_old_fx in Q13 */ - clas_sec = mac_r( acc, c, 0x7fff - MDCT_CLASSIFER_SMOOTH_FILT_COEFF ); /* clas_sec and c are in Q13 */ + acc = L_mult( hTcxEnc->clas_sec_old_fx, MDCT_CLASSIFER_SMOOTH_FILT_COEFF ); /* st_fx->clas_sec_old_fx in Q13 */ + clas_sec = mac_r( acc, c, 0x7fff /*1.Q15*/ - MDCT_CLASSIFER_SMOOTH_FILT_COEFF ); /* clas_sec and c are in Q13 */ /* Do thresholding with hysteresis */ IF( GT_16( st_fx->last_enerBuffer_exp, enerBuffer_exp ) ) { - gain1_tmp = L_shr( gain1, sub( st_fx->last_enerBuffer_exp, enerBuffer_exp ) ); + gain1_tmp = L_shr( gain1, sub( st_fx->last_enerBuffer_exp, enerBuffer_exp ) ); // st_fx->last_enerBuffer_exp move32(); - gain2_tmp = L_shr( gain2, sub( st_fx->last_enerBuffer_exp, enerBuffer_exp ) ); + gain2_tmp = L_shr( gain2, sub( st_fx->last_enerBuffer_exp, enerBuffer_exp ) ); // st_fx->last_enerBuffer_exp move32(); } ELSE { - hTcxEnc->last_gain1 = L_shr( hTcxEnc->last_gain1, sub( enerBuffer_exp, st_fx->last_enerBuffer_exp ) ); + hTcxEnc->last_gain1 = L_shr( hTcxEnc->last_gain1, sub( enerBuffer_exp, st_fx->last_enerBuffer_exp ) ); // enerBuffer_exp move32(); - hTcxEnc->last_gain2 = L_shr( hTcxEnc->last_gain2, sub( enerBuffer_exp, st_fx->last_enerBuffer_exp ) ); + hTcxEnc->last_gain2 = L_shr( hTcxEnc->last_gain2, sub( enerBuffer_exp, st_fx->last_enerBuffer_exp ) ); // enerBuffer_exp move32(); gain1_tmp = gain1; move32(); @@ -583,10 +582,11 @@ Word16 mdct_classifier_fx( /* o: MDCT A/B decision return clas_final; /* Q0 */ } + Word16 mdct_classifier_ivas_fx( Encoder_State *st, /* i/o: Encoder state variable */ const Word16 *fft_buff, /* i : FFT spectrum from fft_rel */ - const Word32 enerBuffer[], /* i : energy buffer */ + const Word32 enerBuffer[], /* i : energy buffer enerBuffer_exp*/ Word16 enerBuffer_exp, const Word32 brate /* i : current brate, IVAS: nominal bitrate, EVS: st->total_brate */ ) @@ -773,7 +773,7 @@ Word16 mdct_classifier_ivas_fx( IF( pe != 0 ) { expo = norm_l( pe ); - man = L_shl( pe, expo ); + man = L_shl( pe, expo ); // expo Mpy_32_32_ss( man, man, &man, &lsb32 ); /* pe square */ expo = shl( expo, 1 ); /* Multiply by 2 due to squaring. */ floating_point_add( &p_energy_man, &p_energy_exp, man, expo ); @@ -796,32 +796,32 @@ Word16 mdct_classifier_ivas_fx( { IF( EQ_16( gain2_start, GAIN2_START_SWB ) ) { - gain1 = L_add( gain1, L_shr( enerBuffer[i], 3 ) ); - gain2 = L_add( gain2, L_shr( enerBuffer[gain2_start + i], 3 ) ); - gain3 = L_add( gain3, L_shr( enerBuffer[gain3_start + i], 3 ) ); + gain1 = L_add( gain1, L_shr( enerBuffer[i], 3 ) ); // enerBuffer_exp - 3 + gain2 = L_add( gain2, L_shr( enerBuffer[gain2_start + i], 3 ) ); // enerBuffer_exp - 3 + gain3 = L_add( gain3, L_shr( enerBuffer[gain3_start + i], 3 ) ); // enerBuffer_exp - 3 } ELSE { - gain1 = L_add( gain1, Mult_32_16( enerBuffer[i], 5461 ) ); - gain2 = L_add( gain2, Mult_32_16( enerBuffer[gain2_start + i], 5461 ) ); - gain3 = L_add( gain3, Mult_32_16( enerBuffer[gain3_start + i], 5461 ) ); + gain1 = L_add( gain1, Mult_32_16( enerBuffer[i], 5461 ) ); // enerBuffer_exp + gain2 = L_add( gain2, Mult_32_16( enerBuffer[gain2_start + i], 5461 /*0.16.Q15*/ ) ); // enerBuffer_exp + gain3 = L_add( gain3, Mult_32_16( enerBuffer[gain3_start + i], 5461 /*0.16.Q15*/ ) ); // enerBuffer_exp } } IF( EQ_16( gain2_start, GAIN2_START_SWB ) ) { - acc = L_shr( enerBuffer[0], 3 ); - acc = L_sub( gain1, acc ); - acc = Mult_32_16( acc, 4681 ); - gain11 = L_shl( acc, 3 ); + acc = L_shr( enerBuffer[0], 3 ); // enerBuffer_exp - 3 + acc = L_sub( gain1, acc ); // enerBuffer_exp - 3 + acc = Mult_32_16( acc, 4681 /*(1/7).Q15*/ ); // enerBuffer_exp - 3 + gain11 = L_shl( acc, 3 ); // enerBuffer_exp gain4 = L_deposit_l( 0 ); } ELSE { - acc = Mult_32_16( enerBuffer[0], 5461 ); - acc = L_sub( gain1, acc ); - acc = Mult_32_16( acc, 6553 ); + acc = Mult_32_16( enerBuffer[0], 5461 /*0.16.Q15*/ ); // enerBuffer_exp + acc = L_sub( gain1, acc ); // enerBuffer_exp + acc = Mult_32_16( acc, 6553 /*0.4.Q15*/ ); // enerBuffer_exp gain11 = (Word32) W_mult_32_16( acc, 6 ); gain4 = L_deposit_l( 0 ); } @@ -831,28 +831,28 @@ Word16 mdct_classifier_ivas_fx( { IF( EQ_16( gain4_start, GAIN4_START_SWB ) ) { - gain4 = L_add( gain4, Mult_32_16( enerBuffer[gain4_start + i], 2731 ) ); + gain4 = L_add( gain4, Mult_32_16( enerBuffer[gain4_start + i], 2731 /*(1/12).Q15*/ ) ); } ELSE { - gain4 = L_add( gain4, Mult_32_16( enerBuffer[gain4_start + i], 3641 ) ); + gain4 = L_add( gain4, Mult_32_16( enerBuffer[gain4_start + i], 3641 /*(1/9).Q1.15*/ ) ); } } - peak_H1 = enerBuffer[H1_start]; + peak_H1 = enerBuffer[H1_start]; // enerBuffer_exp move32(); - avrg_H1 = enerBuffer[H1_start]; + avrg_H1 = enerBuffer[H1_start]; // enerBuffer_exp move32(); FOR( i = 1; i < H_length; i++ ) { IF( GT_32( enerBuffer[H1_start + i], peak_H1 ) ) { - peak_H1 = enerBuffer[H1_start + i]; + peak_H1 = enerBuffer[H1_start + i]; // enerBuffer_exp move32(); } - avrg_H1 = L_add( avrg_H1, enerBuffer[H1_start + i] ); + avrg_H1 = L_add( avrg_H1, enerBuffer[H1_start + i] ); // enerBuffer_exp } peak_H2 = enerBuffer[H2_start]; @@ -970,7 +970,7 @@ Word16 mdct_classifier_ivas_fx( move16(); } - L_tmp = Mult_32_16( peak_h, 12800 ); + L_tmp = Mult_32_16( peak_h, 12800 /*(1/2.56).Q15*/ ); IF( GT_32( peak_l, L_tmp ) ) { exp = norm_l( peak_l ); @@ -980,7 +980,7 @@ Word16 mdct_classifier_ivas_fx( exp = norm_l( L_tmp ); } - L_tmp1 = Mult_32_16( peak_l, 6400 ); + L_tmp1 = Mult_32_16( peak_l, 6400 /*(1/5.12).Q15*/ ); IF( GT_32( peak_h, L_tmp1 ) ) { exp2 = norm_l( peak_h ); @@ -1008,8 +1008,8 @@ Word16 mdct_classifier_ivas_fx( test(); test(); test(); - IF( ( GT_32( gain4, Mult_32_16( gain11, 26214 ) ) && GT_32( Mult_32_32( L_shl( peak_l, exp ), L_shl( avrg_h, exp1 ) ), Mult_32_32( L_shl( Mult_32_16( peak_h, 12800 ), exp ), L_shl( avrg_l, exp1 ) ) ) && LT_32( Mult_32_32( L_shl( Mult_32_16( peak_l, 6400 ), exp2 ), L_shl( avrg_h, exp1 ) ), Mult_32_32( L_shl( peak_h, exp2 ), L_shl( avrg_l, exp1 ) ) ) ) || ( GT_32( gain4, Mult_32_16( gain11, 9830 ) ) && LT_32( Mult_32_16( peak_h, 21845 ), avrg_h ) && LT_32( Mult_32_16( peak_H2, 21845 ), avrg_H2 ) ) || - ( LT_32( Mult_32_32( L_shl( peak_l, exp ), L_shl( avrg_h, exp1 ) ), Mult_32_32( L_shl( Mult_32_16( peak_h, 12800 ), exp ), L_shl( avrg_l, exp1 ) ) ) && GT_32( Mult_32_16( peak_h, 21845 ), avrg_h ) ) || ( GT_32( Mult_32_32( L_shl( Mult_32_16( peak_l, 12800 ), exp3 ), L_shl( avrg_h, exp1 ) ), Mult_32_32( L_shl( peak_h, exp3 ), L_shl( avrg_l, exp1 ) ) ) > 0 && LT_32( Mult_32_16( peak_h, 21845 ), avrg_h ) ) ) + IF( ( GT_32( gain4, Mult_32_16( gain11, 26214 /*0.8.Q15*/ ) ) && GT_32( Mult_32_32( L_shl( peak_l, exp ), L_shl( avrg_h, exp1 ) ), Mult_32_32( L_shl( Mult_32_16( peak_h, 12800 /*(1/2.56).Q15*/ ), exp ), L_shl( avrg_l, exp1 ) ) ) && LT_32( Mult_32_32( L_shl( Mult_32_16( peak_l, 6400 /*(1/5.12).Q15*/ ), exp2 ), L_shl( avrg_h, exp1 ) ), Mult_32_32( L_shl( peak_h, exp2 ), L_shl( avrg_l, exp1 ) ) ) ) || ( GT_32( gain4, Mult_32_16( gain11, 9830 /*0.3.Q15*/ ) ) && LT_32( Mult_32_16( peak_h, 21845 /*(1/1.5).Q15*/ ), avrg_h ) && LT_32( Mult_32_16( peak_H2, 21845 /*(1/1.5).Q15*/ ), avrg_H2 ) ) || + ( LT_32( Mult_32_32( L_shl( peak_l, exp ), L_shl( avrg_h, exp1 ) ), Mult_32_32( L_shl( Mult_32_16( peak_h, 12800 /*(1/2.56).Q15*/ ), exp ), L_shl( avrg_l, exp1 ) ) ) && GT_32( Mult_32_16( peak_h, 21845 /*(1/1.5).Q15*/ ), avrg_h ) ) || ( GT_32( Mult_32_32( L_shl( Mult_32_16( peak_l, 12800 /*(1/2.56).Q15*/ ), exp3 ), L_shl( avrg_h, exp1 ) ), Mult_32_32( L_shl( peak_h, exp3 ), L_shl( avrg_l, exp1 ) ) ) > 0 && LT_32( Mult_32_16( peak_h, 21845 /*(1/1.5).Q15*/ ), avrg_h ) ) ) { condition4 = 1; move16(); diff --git a/lib_enc/mdct_selector.c b/lib_enc/mdct_selector.c deleted file mode 100644 index 952043e3aa0d31a41f84cf2a71d2fcf967ed9f46..0000000000000000000000000000000000000000 --- a/lib_enc/mdct_selector.c +++ /dev/null @@ -1,44 +0,0 @@ -/****************************************************************************************************** - - (C) 2022-2025 IVAS codec Public Collaboration with portions copyright Dolby International AB, Ericsson AB, - Fraunhofer-Gesellschaft zur Foerderung der angewandten Forschung e.V., Huawei Technologies Co. LTD., - Koninklijke Philips N.V., Nippon Telegraph and Telephone Corporation, Nokia Technologies Oy, Orange, - Panasonic Holdings Corporation, Qualcomm Technologies, Inc., VoiceAge Corporation, and other - contributors to this repository. All Rights Reserved. - - This software is protected by copyright law and by international treaties. - The IVAS codec Public Collaboration consisting of Dolby International AB, Ericsson AB, - Fraunhofer-Gesellschaft zur Foerderung der angewandten Forschung e.V., Huawei Technologies Co. LTD., - Koninklijke Philips N.V., Nippon Telegraph and Telephone Corporation, Nokia Technologies Oy, Orange, - Panasonic Holdings Corporation, Qualcomm Technologies, Inc., VoiceAge Corporation, and other - contributors to this repository retain full ownership rights in their respective contributions in - the software. This notice grants no license of any kind, including but not limited to patent - license, nor is any license granted by implication, estoppel or otherwise. - - Contributors are required to enter into the IVAS codec Public Collaboration agreement before making - contributions. - - This software is provided "AS IS", without any express or implied warranties. The software is in the - development stage. It is intended exclusively for experts who have experience with such software and - solely for the purpose of inspection. All implied warranties of non-infringement, merchantability - and fitness for a particular purpose are hereby disclaimed and excluded. - - Any dispute, controversy or claim arising under or in relation to providing this software shall be - submitted to and settled by the final, binding jurisdiction of the courts of Munich, Germany in - accordance with the laws of the Federal Republic of Germany excluding its conflict of law rules and - the United Nations Convention on Contracts on the International Sales of Goods. - -*******************************************************************************************************/ - -/*==================================================================================== - EVS Codec 3GPP TS26.443 Nov 04, 2021. Version 12.14.0 / 13.10.0 / 14.6.0 / 15.4.0 / 16.3.0 - ====================================================================================*/ - -#include -#include "options.h" -#include -#include "cnst.h" -#include "rom_enc.h" -#include "rom_com.h" -#include "prot.h" -#include "wmc_auto.h" diff --git a/lib_enc/mdct_selector_fx.c b/lib_enc/mdct_selector_fx.c index 52c30f7ef6be8666370f19d2f3d0cfeb545a2f25..c4cc7d0db8bcca97c26af11090363cbb12dfc166 100644 --- a/lib_enc/mdct_selector_fx.c +++ b/lib_enc/mdct_selector_fx.c @@ -62,14 +62,14 @@ static Word16 get_sparseness( /* Returns sparseness measur FOR( i = 1; i < n - 1; ++i ) { - if ( GT_16( Bin_E[i], s_max( s_max( Bin_E[i - 1], Bin_E[i + 1] ), thr ) ) ) + IF( GT_16( Bin_E[i], s_max( s_max( Bin_E[i - 1], Bin_E[i + 1] ), thr ) ) ) { num_max = add( num_max, 1 ); } } n = shr( sub( n, 2 ), 1 ); - return div_s( sub( n, num_max ), n ); + return div_s( sub( n, num_max ), n ); // Q15 } /*--------------------------------------------------------------------------* * get_mean_ener() @@ -78,7 +78,7 @@ static Word16 get_sparseness( /* Returns sparseness measur *--------------------------------------------------------------------------*/ static Word16 get_mean_ener( /* Returns mean energy in dB (Q8) */ - const Word32 enerBuffer[], /* i : CLDFB buffers */ + const Word32 enerBuffer[], /* i : CLDFB buffers enerBuffer_exp*/ Word16 enerBuffer_exp, /* i : exponent of enerBuffer */ Word16 n /* i : number of bins */ ) @@ -87,8 +87,10 @@ static Word16 get_mean_ener( /* Returns mean energy i Word16 i, shift, frac_nrg, exp_nrg; shift = sub( 14, norm_s( n ) ); - if ( LT_16( shl( 1, shift ), n ) ) + IF( LT_16( shl( 1, shift ), n ) ) + { shift = add( shift, 1 ); + } L_tmp = L_deposit_l( 0 ); FOR( i = 0; i < n; ++i ) @@ -104,7 +106,7 @@ static Word16 get_mean_ener( /* Returns mean energy i exp_nrg = sub( add( exp_nrg, shift ), sub( 31, enerBuffer_exp ) ); L_tmp = Mpy_32_16( exp_nrg, frac_nrg, 9864 ); /* log10(2) in Q15 */ - return round_fx( L_shl( L_tmp, 8 ) ); + return round_fx( L_shl( L_tmp, 8 ) ); // Q8 } /*--------------------------------------------------------------------------* * MDCT_selector_fx() @@ -117,7 +119,7 @@ void MDCT_selector_fx( Word16 sp_floor, /* i : Noise floor estimate Q7 */ const Word16 Etot, /* i : Total energy Q8 */ const Word16 cor_map_sum, /* i : harmonicity factor Q8 */ - const Word32 enerBuffer[], /* i : CLDFB buffers */ + const Word32 enerBuffer[], /* i : CLDFB buffers enerBuffer_exp*/ const Word16 enerBuffer_exp /* i : exponent of enerBuffer */ ) { @@ -135,7 +137,7 @@ void MDCT_selector_fx( sp_floor = shl( sp_floor, 1 ); /* convert to Q8 */ - IF( EQ_16( st->bwidth, NB ) ) + IF( ( st->bwidth == NB ) ) { lob_cldfb = 3200 / 400; move16(); @@ -188,7 +190,7 @@ void MDCT_selector_fx( frame_voicing = add( shr( st->voicing_fx[0], 1 ), shr( st->voicing_fx[1], 1 ) ); /* Spectral sparseness */ - sparseness = get_sparseness( st->lgBin_E_fx, lob_fft, sub( Etot, MDCT_SW_SIG_PEAK_THR ) ); + sparseness = get_sparseness( st->lgBin_E_fx, lob_fft, sub( Etot, MDCT_SW_SIG_PEAK_THR ) ); // Q15 /* Hi band energy */ hi_ener = get_mean_ener( &enerBuffer[lob_cldfb], enerBuffer_exp, sub( hib_cldfb, lob_cldfb ) ); @@ -255,23 +257,23 @@ void MDCT_selector_fx( IF( EQ_16( st->mdct_sw_enable, MODE1 ) ) { - sig_lo_level_thr = MDCT_SW_1_SIG_LO_LEVEL_THR; + sig_lo_level_thr = MDCT_SW_1_SIG_LO_LEVEL_THR; // Q8 move16(); - sig_hi_level_thr = MDCT_SW_1_SIG_HI_LEVEL_THR; + sig_hi_level_thr = MDCT_SW_1_SIG_HI_LEVEL_THR; // Q8 move16(); - cor_thr = MDCT_SW_1_COR_THR; + cor_thr = MDCT_SW_1_COR_THR; // Q8 move16(); - cor_thr2 = MDCT_SW_1_COR_THR2; + cor_thr2 = MDCT_SW_1_COR_THR2; // Q8 move16(); - voicing_thr = MDCT_SW_1_VOICING_THR; + voicing_thr = MDCT_SW_1_VOICING_THR; // Q15 move16(); - voicing_thr2 = MDCT_SW_1_VOICING_THR2; + voicing_thr2 = MDCT_SW_1_VOICING_THR2; // Q15 move16(); - sparseness_thr = MDCT_SW_1_SPARSENESS_THR; + sparseness_thr = MDCT_SW_1_SPARSENESS_THR; // Q15 move16(); - sparseness_thr2 = MDCT_SW_1_SPARSENESS_THR2; + sparseness_thr2 = MDCT_SW_1_SPARSENESS_THR2; // Q15 move16(); - hi_ener_lo_thr = MDCT_SW_1_HI_ENER_LO_THR; + hi_ener_lo_thr = MDCT_SW_1_HI_ENER_LO_THR; // Q8 move16(); } ELSE /* st->mdct_sw_enable == MODE2 */ diff --git a/lib_enc/mslvq_enc.c b/lib_enc/mslvq_enc.c deleted file mode 100644 index a49d435c35bdad42f98067b91db5a115f334ec92..0000000000000000000000000000000000000000 --- a/lib_enc/mslvq_enc.c +++ /dev/null @@ -1,308 +0,0 @@ -/****************************************************************************************************** - - (C) 2022-2025 IVAS codec Public Collaboration with portions copyright Dolby International AB, Ericsson AB, - Fraunhofer-Gesellschaft zur Foerderung der angewandten Forschung e.V., Huawei Technologies Co. LTD., - Koninklijke Philips N.V., Nippon Telegraph and Telephone Corporation, Nokia Technologies Oy, Orange, - Panasonic Holdings Corporation, Qualcomm Technologies, Inc., VoiceAge Corporation, and other - contributors to this repository. All Rights Reserved. - - This software is protected by copyright law and by international treaties. - The IVAS codec Public Collaboration consisting of Dolby International AB, Ericsson AB, - Fraunhofer-Gesellschaft zur Foerderung der angewandten Forschung e.V., Huawei Technologies Co. LTD., - Koninklijke Philips N.V., Nippon Telegraph and Telephone Corporation, Nokia Technologies Oy, Orange, - Panasonic Holdings Corporation, Qualcomm Technologies, Inc., VoiceAge Corporation, and other - contributors to this repository retain full ownership rights in their respective contributions in - the software. This notice grants no license of any kind, including but not limited to patent - license, nor is any license granted by implication, estoppel or otherwise. - - Contributors are required to enter into the IVAS codec Public Collaboration agreement before making - contributions. - - This software is provided "AS IS", without any express or implied warranties. The software is in the - development stage. It is intended exclusively for experts who have experience with such software and - solely for the purpose of inspection. All implied warranties of non-infringement, merchantability - and fitness for a particular purpose are hereby disclaimed and excluded. - - Any dispute, controversy or claim arising under or in relation to providing this software shall be - submitted to and settled by the final, binding jurisdiction of the courts of Munich, Germany in - accordance with the laws of the Federal Republic of Germany excluding its conflict of law rules and - the United Nations Convention on Contracts on the International Sales of Goods. - -*******************************************************************************************************/ - -/*==================================================================================== - EVS Codec 3GPP TS26.443 Nov 04, 2021. Version 12.14.0 / 13.10.0 / 14.6.0 / 15.4.0 / 16.3.0 - ====================================================================================*/ - -#include -#include "options.h" -#include -#include "prot.h" -#include "prot_fx.h" -#include "rom_com.h" -#include "cnst.h" -#include "wmc_auto.h" -#include "ivas_prot.h" - -/*-----------------------------------------------------------------* - * Local function prototypes - *-----------------------------------------------------------------*/ - -Word32 quantize_data_ivas_fx( Word16 *data, const Word16 *w_in, Word16 *qin, Word16 *cv_out, Word16 *idx_lead, Word16 *idx_scale, const Word16 *sigma, const Word16 *inv_sigma, const Word16 *scales, const Word16 *no_lead ); - -/*-----------------------------------------------------------------* - * mslvq() - * - * Encodes the LSF residual - *-----------------------------------------------------------------*/ - -Word32 mslvq_ivas_16( - Word16 *pTmp, /* i : M-dimensional input vector */ - Word16 *quant, /* o : quantized vector */ - Word16 *cv_out, /* o : corresponding 8-dim lattice codevectors (without the scaling) */ - Word16 *idx_lead, /* o : leader index for each 8-dim subvector */ - Word16 *idx_scale, /* o : scale index for each subvector */ - const Word16 *w, /* i : weights for LSF quantization */ - const Word16 mode, /* i : number indicating the coding type (V/UV/G...)*/ - const Word16 mode_glb, /* i : LVQ coding mode */ - const Word16 pred_flag /* i : prediction flag (0: safety net, 1,2 - predictive )*/ - /*Retunr dist in q 22*/ -) -{ - Word32 dist, L_tmp; - const Word16 *p_scales, *p_sigma, *p_inv_sigma; - Word16 i, tmp, tmp1; - Word16 p_no_lead[MAX_NO_SCALES * 2]; - dist = L_deposit_l( 0 ); - IF( pred_flag == 0 ) - { - p_sigma = sigma_MSLVQ_fx[mode]; - /* inverse sigma is precomputed to save complexity */ - p_inv_sigma = inv_sigma_MSLVQ_fx[mode]; - p_scales = scales_ivas_fx[mode_glb]; - - tmp = no_lead_idx[mode_glb][0]; - move16(); - tmp1 = no_lead_idx[mode_glb][1]; - move16(); - test(); - if ( LE_16( tmp, LIMIT_LEADER ) && LT_16( tmp, sub( tmp1, 2 ) ) ) - { - tmp = add( tmp, DELTA_LEADER ); - } - FOR( i = 0; i < MAX_NO_SCALES; i++ ) - { - p_no_lead[i] = (Word16) leaders_short[tmp][i]; - move16(); - p_no_lead[i + MAX_NO_SCALES] = (Word16) leaders_short[tmp1][i]; - move16(); - } - } - ELSE - { - IF( GE_16( pred_flag, 5 ) ) - { - /* assert( pred_flag >= 12 && pred_flag <= 15 ); */ - /* pred_flag is here the number of bits for MSLVQ */ - - p_sigma = &modified_sigma_BWE_fx[mode_glb * LATTICE_DIM]; - - /* inverse sigma is precomputed to save complexity */ - p_inv_sigma = &inv_modified_sigma_BWE_fx[mode_glb * LATTICE_DIM]; - IF( mode_glb == 0 ) - { - p_scales = &scales_BWE_fx_new[i_mult( sub( pred_flag, mslvq_SHB_min_bits[mode_glb] ), 3 )]; - - FOR( i = 0; i < MAX_NO_SCALES; i++ ) - { - p_no_lead[i] = (Word16) no_lead_BWE[i + ( pred_flag - mslvq_SHB_min_bits[mode_glb] ) * 3]; - move16(); - } - } - ELSE - { - p_scales = &scales_BWE_3b_fx_new[i_mult( sub( pred_flag, mslvq_SHB_min_bits[mode_glb] ), 3 )]; - FOR( i = 0; i < MAX_NO_SCALES; i++ ) - { - p_no_lead[i] = (Word16) no_lead_BWE_3b[i + ( pred_flag - mslvq_SHB_min_bits[mode_glb] ) * 3]; - move16(); - } - } - } - ELSE - { - p_sigma = sigma_p_fx[mode]; - - /* inverse sigma is precomputed to save complexity */ - p_inv_sigma = inv_sigma_p_fx[mode]; - - p_scales = scales_p_ivas_fx[mode_glb]; - - tmp = no_lead_p_idx[mode_glb][0]; - move16(); - tmp1 = no_lead_p_idx[mode_glb][1]; - move16(); - - test(); - IF( LE_16( tmp, LIMIT_LEADER ) && LT_16( tmp, sub( tmp1, 2 ) ) ) - { - tmp = add( tmp, DELTA_LEADER ); - } - - test(); - IF( EQ_16( tmp, LIMIT_LEADER ) && ( tmp1 == 0 ) ) - { - tmp = add( tmp, DELTA_LEADER ); - tmp1 = add( tmp1, DELTA_LEADER ); - } - - FOR( i = 0; i < MAX_NO_SCALES; i++ ) - { - p_no_lead[i] = (Word16) leaders_short[tmp][i]; - move16(); - p_no_lead[i + MAX_NO_SCALES] = (Word16) leaders_short[tmp1][i]; - move16(); - } - } - } - - /* first subvector */ - dist = quantize_data_ivas_fx( pTmp, w, quant, cv_out, idx_lead, idx_scale, - p_sigma, p_inv_sigma, p_scales, p_no_lead ); - - IF( LT_16( pred_flag, 5 ) ) - { - /* second subvector */ - L_tmp = quantize_data_ivas_fx( pTmp + LATTICE_DIM, w + LATTICE_DIM, quant + LATTICE_DIM, cv_out + LATTICE_DIM, &idx_lead[1], &idx_scale[1], p_sigma + LATTICE_DIM, p_inv_sigma + LATTICE_DIM, p_scales + MAX_NO_SCALES, p_no_lead + MAX_NO_SCALES ); - - dist = L_add( dist, L_tmp ); - } - - return dist; -} - -/*-----------------------------------------------------------------* - * mslvq_cng() - * - * Encodes the LSF residual in SID frames - *-----------------------------------------------------------------*/ - -/*-----------------------------------------------------------------* - * prepare_data() - * - *-----------------------------------------------------------------*/ - - -/*-----------------------------------------------------------------* - * calculate_min_dist() - * - *-----------------------------------------------------------------*/ - - -/*-----------------------------------------------------------------* - * quantize_data() - * - *-----------------------------------------------------------------*/ - - -/*-----------------------------------------------------------------* - * index_lvq() - * - * sorts in descending order and computes indices in the sorted vector - *-----------------------------------------------------------------*/ - - -/*-----------------------------------------------------------------* - * encode_comb() - * - * creates an index for the lattice codevector - *-----------------------------------------------------------------*/ - - -/*-----------------------------------------------------------------* - * index_leaders() - * - * gives the index in a class of leaders without considering the sign yet - *-----------------------------------------------------------------*/ - - -/*-----------------------------------------------------------------* - * find_pos() - * - * Finds the positions in vector c for which the vector components are equal to 'arg'. - * It returns the number of such positions and their values in the array 'p'. - *-----------------------------------------------------------------*/ - - -/*-----------------------------------------------------------------* - * encode_sign_pc1() - * - * Creates an index for signs of the significant codevector components - * Gives the index of the signs - binary representation where negative sign stands for 1 - * and positive sign stands for 1. - *-----------------------------------------------------------------*/ - - -/*-----------------------------------------------------------------* - * take_out_val() - * - * removes the value val from the vector v - *-----------------------------------------------------------------*/ - - -/*-----------------------------------------------------------------* - * c2idx() - * - *-----------------------------------------------------------------*/ - - -/*-----------------------------------------------------------------* - * index_lvq_SHB() - * - *-----------------------------------------------------------------*/ - - -UWord32 index_lvq_SHB_fx( - const Word16 idx_lead, - const Word16 idx_scale, - const Word16 nbits, - Word16 *lat_cv, - const Word16 mode ) -{ - UWord16 i; - const Word8 *p_no_lead; - UWord32 index; - - IF( mode == 0 ) - { - p_no_lead = &no_lead_BWE[( nbits - mslvq_SHB_min_bits[0] ) * 3]; - } - ELSE - { - p_no_lead = &no_lead_BWE_3b[( nbits - mslvq_SHB_min_bits[1] ) * 3]; - } - - index = 0; - move32(); - IF( GT_16( idx_lead, -1 ) ) - { - index = 1; - move32(); - FOR( i = 0; i < idx_scale; i++ ) - { - index = index + table_no_cv[p_no_lead[i]]; - move32(); - } - - IF( idx_lead > 0 ) - { - index = index + table_no_cv[idx_lead]; - move32(); - } - - index = index + encode_comb_fx( lat_cv, idx_lead ); - move32(); - } - - return index; -} diff --git a/lib_enc/mslvq_enc_fx.c b/lib_enc/mslvq_enc_fx.c index b6445443bdf549b9e0775e347e3554317373a111..8f8dd4537e60c9085f7237e3bee200ad9c7b7d3b 100644 --- a/lib_enc/mslvq_enc_fx.c +++ b/lib_enc/mslvq_enc_fx.c @@ -6,9 +6,8 @@ #include "rom_com_fx.h" #include "rom_com.h" #include "stl.h" -#include "prot.h" /* Function prototypes */ -#include "basop32.h" /* Function prototypes */ #include "prot_fx.h" /* Function prototypes */ +#include "basop32.h" /* Function prototypes */ #include "prot_fx_enc.h" /* Function prototypes */ @@ -59,19 +58,19 @@ Word32 mslvq_fx( IF( pred_flag == 0 ) { - p_sigma = sigma_MSLVQ_fx[mode]; + p_sigma = sigma_MSLVQ_fx[mode]; // Qlog2(2.56) /* inverse sigma is precomputed to save complexity */ - p_inv_sigma = inv_sigma_MSLVQ_fx[mode]; - p_scales = scales_fx[mode_glb]; - p_no_lead = no_lead_fx[mode_glb]; + p_inv_sigma = inv_sigma_MSLVQ_fx[mode]; // Q15 + p_scales = scales_fx[mode_glb]; // Q11 + p_no_lead = no_lead_fx[mode_glb]; // Q0 } ELSE { - p_sigma = sigma_p_fx[mode]; + p_sigma = sigma_p_fx[mode]; // Qlog2(2.56) /* inverse sigma is precomputed to save complexity */ - p_inv_sigma = inv_sigma_p_fx[mode]; - p_scales = scales_p_fx[mode_glb]; - p_no_lead = no_lead_p_fx[mode_glb]; + p_inv_sigma = inv_sigma_p_fx[mode]; // Q15 + p_scales = scales_p_fx[mode_glb]; // Q11 + p_no_lead = no_lead_p_fx[mode_glb]; // Q0 } /* first subvector */ @@ -185,15 +184,15 @@ Word32 mslvq_cng_fx( mode_glb = add( START_CNG, idx_cv ); move16(); - p_sigma = sigma_MSLVQ_fx[mode]; + p_sigma = sigma_MSLVQ_fx[mode]; // x2.56 move16(); - p_inv_sigma = inv_sigma_MSLVQ_fx[mode]; + p_inv_sigma = inv_sigma_MSLVQ_fx[mode]; // Q15 move16(); - p_scales = scales_fx[mode_glb]; + p_scales = scales_fx[mode_glb]; // Q11 move16(); - p_no_lead = no_lead_fx[mode_glb]; + p_no_lead = no_lead_fx[mode_glb]; // Q0 move16(); - p_no_scales = &no_scales[shl( mode_glb, 1 )]; + p_no_scales = &no_scales[( mode_glb << 1 )]; move16(); /* check if LSF component permutation is needed or not */ @@ -245,14 +244,14 @@ Word32 mslvq_cng_ivas_fx( /* for CNG there is only one bitrate but several lattice quantizer structures, depending on the previous VQ stage */ - mode_glb = add( START_CNG, idx_cv ); + mode_glb = add( START_CNG_IVAS, idx_cv ); move16(); - p_sigma = sigma_MSLVQ_fx[mode]; + p_sigma = sigma_MSLVQ_fx[mode]; // x2.56 move16(); - p_inv_sigma = inv_sigma_MSLVQ_fx[mode]; + p_inv_sigma = inv_sigma_MSLVQ_fx[mode]; // Q15 move16(); - p_scales = scales_fx[mode_glb]; + p_scales = scales_ivas_fx[mode_glb]; // Q11 move16(); no_scales[0] = 0; @@ -774,7 +773,7 @@ static void sort_desc_ind_fx( move16(); } sorted = 0; - FOR( k = sub( len, 1 ); k > 0; k-- ) + FOR( k = ( len - 1 ); k > 0; k-- ) { IF( sorted ) { @@ -838,7 +837,7 @@ void index_lvq_fx( /* for first subvector */ IF( GT_16( idx_scale[0], -1 ) ) { - index1 = L_add( encode_comb_fx( quant, idx_lead[0] ), L_add( table_no_cv_fx[idx_lead[0]], p_offset_scale1[i_mult2( mode, len_offset ) + idx_scale[0]] ) ); + index1 = L_add( encode_comb_fx( quant, idx_lead[0] ), L_add( table_no_cv_fx[idx_lead[0]], p_offset_scale1[( mode * len_offset ) + idx_scale[0]] ) ); } /* for second subvector */ @@ -846,7 +845,7 @@ void index_lvq_fx( IF( GT_16( idx_scale[1], -1 ) ) { - index2 = L_add( encode_comb_fx( &quant[LATTICE_DIM], idx_lead[1] ), L_add( table_no_cv_fx[idx_lead[1]], p_offset_scale2[i_mult2( mode, len_offset ) + idx_scale[1]] ) ); + index2 = L_add( encode_comb_fx( &quant[LATTICE_DIM], idx_lead[1] ), L_add( table_no_cv_fx[idx_lead[1]], p_offset_scale2[( mode * len_offset ) + idx_scale[1]] ) ); } idx64 = W_mult0_32_32( index1, p_offset_scale2[mode * len_offset + p_no_scales[mode * 2 + 1]] ); index2_64 = W_deposit32_l( index2 ); @@ -855,9 +854,9 @@ void index_lvq_fx( /* convert to 3 short */ index[0] = ( ( idx64 ) & ( 0x7fff ) ); move16(); - index[1] = ( idx64 >> 15 ) & ( 0x7fff ); + index[1] = ( W_shr( idx64, 15 ) ) & ( 0x7fff ); move16(); - index[2] = ( idx64 >> 30 ) & ( 0x7fff ); + index[2] = ( W_shr( idx64, 30 ) ) & ( 0x7fff ); move16(); return; } @@ -901,9 +900,9 @@ void index_lvq_ivas_fx( /* convert to 3 short */ index[0] = ( ( idx64 ) & ( 0x7fff ) ); move16(); - index[1] = ( idx64 >> 15 ) & ( 0x7fff ); + index[1] = ( W_shr( idx64, 15 ) ) & ( 0x7fff ); move16(); - index[2] = ( idx64 >> 30 ) & ( 0x7fff ); + index[2] = ( W_shr( idx64, 30 ) ) & ( 0x7fff ); move16(); return; @@ -1060,7 +1059,7 @@ static Word16 encode_sign_pc1_fx( /* o : index of signs IF( cv[i] < 0 ) { idx_sign = add( idx_sign, ( shl( 1, cnt ) ) ); - cnt++; + cnt = add( cnt, 1 ); } if ( cv[i] > 0 ) @@ -1092,7 +1091,7 @@ static void take_out_val_fx( FOR( i = 0; i < len; i++ ) { - IF( NE_16( v[i], val ) ) + if ( NE_16( v[i], val ) ) { v_out[cnt++] = v[i]; move16(); @@ -1126,7 +1125,7 @@ Word16 c2idx_fx( /* o: index */ move16(); FOR( i = 1; i <= p[0]; i++ ) { - skip = add( skip, C_VQ[sub( n, i )][sub( k, 1 )] ); + skip = add( skip, C_VQ[( n - i )][( k - 1 )] ); // Q0 } p0 = p[0]; @@ -1140,3 +1139,180 @@ Word16 c2idx_fx( /* o: index */ return tmp; } } + +/*-----------------------------------------------------------------* + * mslvq() + * + * Encodes the LSF residual + *-----------------------------------------------------------------*/ + +Word32 mslvq_ivas_16( + Word16 *pTmp, /* i : M-dimensional input vector */ + Word16 *quant, /* o : quantized vector */ + Word16 *cv_out, /* o : corresponding 8-dim lattice codevectors (without the scaling) */ + Word16 *idx_lead, /* o : leader index for each 8-dim subvector */ + Word16 *idx_scale, /* o : scale index for each subvector */ + const Word16 *w, /* i : weights for LSF quantization */ + const Word16 mode, /* i : number indicating the coding type (V/UV/G...)*/ + const Word16 mode_glb, /* i : LVQ coding mode */ + const Word16 pred_flag /* i : prediction flag (0: safety net, 1,2 - predictive )*/ + /*Retunr dist in q 22*/ +) +{ + Word32 dist, L_tmp; + const Word16 *p_scales, *p_sigma, *p_inv_sigma; + Word16 i, tmp, tmp1; + Word16 p_no_lead[MAX_NO_SCALES * 2]; + dist = L_deposit_l( 0 ); + IF( pred_flag == 0 ) + { + p_sigma = sigma_MSLVQ_fx[mode]; + /* inverse sigma is precomputed to save complexity */ + p_inv_sigma = inv_sigma_MSLVQ_fx[mode]; + p_scales = scales_ivas_fx[mode_glb]; + + tmp = no_lead_idx[mode_glb][0]; + move16(); + tmp1 = no_lead_idx[mode_glb][1]; + move16(); + test(); + if ( LE_16( tmp, LIMIT_LEADER ) && LT_16( tmp, sub( tmp1, 2 ) ) ) + { + tmp = add( tmp, DELTA_LEADER ); + } + FOR( i = 0; i < MAX_NO_SCALES; i++ ) + { + p_no_lead[i] = (Word16) leaders_short[tmp][i]; + move16(); + p_no_lead[i + MAX_NO_SCALES] = (Word16) leaders_short[tmp1][i]; + move16(); + } + } + ELSE + { + IF( GE_16( pred_flag, 5 ) ) + { + /* assert( pred_flag >= 12 && pred_flag <= 15 ); */ + /* pred_flag is here the number of bits for MSLVQ */ + + p_sigma = &modified_sigma_BWE_fx[mode_glb * LATTICE_DIM]; + + /* inverse sigma is precomputed to save complexity */ + p_inv_sigma = &inv_modified_sigma_BWE_fx[mode_glb * LATTICE_DIM]; + IF( mode_glb == 0 ) + { + p_scales = &scales_BWE_fx_new[i_mult( sub( pred_flag, mslvq_SHB_min_bits[mode_glb] ), 3 )]; + + FOR( i = 0; i < MAX_NO_SCALES; i++ ) + { + p_no_lead[i] = (Word16) no_lead_BWE[i + ( pred_flag - mslvq_SHB_min_bits[mode_glb] ) * 3]; + move16(); + } + } + ELSE + { + p_scales = &scales_BWE_3b_fx_new[i_mult( sub( pred_flag, mslvq_SHB_min_bits[mode_glb] ), 3 )]; + FOR( i = 0; i < MAX_NO_SCALES; i++ ) + { + p_no_lead[i] = (Word16) no_lead_BWE_3b[i + ( pred_flag - mslvq_SHB_min_bits[mode_glb] ) * 3]; + move16(); + } + } + } + ELSE + { + p_sigma = sigma_p_fx[mode]; + + /* inverse sigma is precomputed to save complexity */ + p_inv_sigma = inv_sigma_p_fx[mode]; + + p_scales = scales_p_ivas_fx[mode_glb]; + + tmp = no_lead_p_idx[mode_glb][0]; + move16(); + tmp1 = no_lead_p_idx[mode_glb][1]; + move16(); + + test(); + IF( LE_16( tmp, LIMIT_LEADER ) && LT_16( tmp, sub( tmp1, 2 ) ) ) + { + tmp = add( tmp, DELTA_LEADER ); + } + + test(); + IF( EQ_16( tmp, LIMIT_LEADER ) && ( tmp1 == 0 ) ) + { + tmp = add( tmp, DELTA_LEADER ); + tmp1 = add( tmp1, DELTA_LEADER ); + } + + FOR( i = 0; i < MAX_NO_SCALES; i++ ) + { + p_no_lead[i] = (Word16) leaders_short[tmp][i]; + move16(); + p_no_lead[i + MAX_NO_SCALES] = (Word16) leaders_short[tmp1][i]; + move16(); + } + } + } + + /* first subvector */ + dist = quantize_data_ivas_fx( pTmp, w, quant, cv_out, idx_lead, idx_scale, + p_sigma, p_inv_sigma, p_scales, p_no_lead ); + + IF( LT_16( pred_flag, 5 ) ) + { + /* second subvector */ + L_tmp = quantize_data_ivas_fx( pTmp + LATTICE_DIM, w + LATTICE_DIM, quant + LATTICE_DIM, cv_out + LATTICE_DIM, &idx_lead[1], &idx_scale[1], p_sigma + LATTICE_DIM, p_inv_sigma + LATTICE_DIM, p_scales + MAX_NO_SCALES, p_no_lead + MAX_NO_SCALES ); + + dist = L_add( dist, L_tmp ); + } + + return dist; +} + + +UWord32 index_lvq_SHB_fx( + const Word16 idx_lead, + const Word16 idx_scale, + const Word16 nbits, + Word16 *lat_cv, + const Word16 mode ) +{ + UWord16 i; + const Word8 *p_no_lead; + UWord32 index; + + IF( mode == 0 ) + { + p_no_lead = &no_lead_BWE[( nbits - mslvq_SHB_min_bits[0] ) * 3]; + } + ELSE + { + p_no_lead = &no_lead_BWE_3b[( nbits - mslvq_SHB_min_bits[1] ) * 3]; + } + + index = 0; + move32(); + IF( GT_16( idx_lead, -1 ) ) + { + index = 1; + move32(); + FOR( i = 0; i < idx_scale; i++ ) + { + index = index + table_no_cv[p_no_lead[i]]; + move32(); + } + + IF( idx_lead > 0 ) + { + index = index + table_no_cv[idx_lead]; + move32(); + } + + index = index + encode_comb_fx( lat_cv, idx_lead ); + move32(); + } + + return index; +} diff --git a/lib_enc/multi_harm.c b/lib_enc/multi_harm.c deleted file mode 100644 index 5c3581f4f1c4bf43ac4c588aedcfcb74046e0acb..0000000000000000000000000000000000000000 --- a/lib_enc/multi_harm.c +++ /dev/null @@ -1,42 +0,0 @@ -/****************************************************************************************************** - - (C) 2022-2025 IVAS codec Public Collaboration with portions copyright Dolby International AB, Ericsson AB, - Fraunhofer-Gesellschaft zur Foerderung der angewandten Forschung e.V., Huawei Technologies Co. LTD., - Koninklijke Philips N.V., Nippon Telegraph and Telephone Corporation, Nokia Technologies Oy, Orange, - Panasonic Holdings Corporation, Qualcomm Technologies, Inc., VoiceAge Corporation, and other - contributors to this repository. All Rights Reserved. - - This software is protected by copyright law and by international treaties. - The IVAS codec Public Collaboration consisting of Dolby International AB, Ericsson AB, - Fraunhofer-Gesellschaft zur Foerderung der angewandten Forschung e.V., Huawei Technologies Co. LTD., - Koninklijke Philips N.V., Nippon Telegraph and Telephone Corporation, Nokia Technologies Oy, Orange, - Panasonic Holdings Corporation, Qualcomm Technologies, Inc., VoiceAge Corporation, and other - contributors to this repository retain full ownership rights in their respective contributions in - the software. This notice grants no license of any kind, including but not limited to patent - license, nor is any license granted by implication, estoppel or otherwise. - - Contributors are required to enter into the IVAS codec Public Collaboration agreement before making - contributions. - - This software is provided "AS IS", without any express or implied warranties. The software is in the - development stage. It is intended exclusively for experts who have experience with such software and - solely for the purpose of inspection. All implied warranties of non-infringement, merchantability - and fitness for a particular purpose are hereby disclaimed and excluded. - - Any dispute, controversy or claim arising under or in relation to providing this software shall be - submitted to and settled by the final, binding jurisdiction of the courts of Munich, Germany in - accordance with the laws of the Federal Republic of Germany excluding its conflict of law rules and - the United Nations Convention on Contracts on the International Sales of Goods. - -*******************************************************************************************************/ - -/*==================================================================================== - EVS Codec 3GPP TS26.443 Nov 04, 2021. Version 12.14.0 / 13.10.0 / 14.6.0 / 15.4.0 / 16.3.0 - ====================================================================================*/ - -#include -#include "options.h" -#include -#include "cnst.h" -#include "prot.h" -#include "wmc_auto.h" diff --git a/lib_enc/multi_harm_fx.c b/lib_enc/multi_harm_fx.c index 78ef81c601612b81aad7208f971033e2c8321a00..1bae597b6892428a06b6c83e1b0de38121329432 100644 --- a/lib_enc/multi_harm_fx.c +++ b/lib_enc/multi_harm_fx.c @@ -53,7 +53,7 @@ Word16 multi_harm_fx( /* o : frame multi-harmonicity /* length of the useful part of the spectrum (up to 6.4kHz) */ L = L_FFT / 2; move16(); - if ( EQ_16( bwidth, NB ) ) + if ( ( bwidth == NB ) ) { /* length of the useful part of the spectrum (up to 3.6kHz) */ L = 76; @@ -170,14 +170,14 @@ Word16 multi_harm_fx( /* o : frame multi-harmonicity mean_dyn = round_fx( L_acc ); /*Q7*/ test(); - IF( LT_16( mean_dyn, 1229 ) /*9.6f*/ && *cor_strong_limit != 0 ) + IF( LT_16( mean_dyn, 1229 ) /*9.6f.Q7*/ && *cor_strong_limit != 0 ) { *cor_strong_limit = 0; move16(); *st_last_sw_dyn = mean_dyn; move16(); } - ELSE IF( GT_16( sub( mean_dyn, *st_last_sw_dyn ), 576 ) /*4.5f*/ ) + ELSE IF( GT_16( sub( mean_dyn, *st_last_sw_dyn ), 576 ) /*4.5f.Q7*/ ) { *cor_strong_limit = 1; move16(); @@ -290,7 +290,7 @@ Word16 multi_harm_fx( /* o : frame multi-harmonicity cor_strong = 0; move16(); - pt1 = cor_map_LT; + pt1 = cor_map_LT; // Q15 move16(); pt2 = cor_map; move16(); @@ -306,7 +306,7 @@ Word16 multi_harm_fx( /* o : frame multi-harmonicity /* cor_map_LT_sum += *pt1 */ Lcor_map_LT_sum = L_add( Lcor_map_LT_sum, *pt1 ); /* cor_map_LT_sum in Q15; max value is 128) */ - if ( GT_16( *pt1, 31130 ) /*0.95f*/ ) + if ( GT_16( *pt1, 31130 ) /*0.95f.Q15*/ ) { cor_strong = 1; move16(); @@ -316,7 +316,7 @@ Word16 multi_harm_fx( /* o : frame multi-harmonicity pt2++; } - IF( EQ_16( bwidth, NB ) ) + IF( ( bwidth == NB ) ) { /* cor_map_LT_sum *= 1.53f; */ /* tmp2 *= 1.53f; */ @@ -396,7 +396,7 @@ Word16 multi_harm_ivas_fx( /* o : frame multi-harmoni /* length of the useful part of the spectrum (up to 6.4kHz) */ L = L_FFT / 2; move16(); - if ( EQ_16( bwidth, NB ) ) + if ( ( bwidth == NB ) ) { /* length of the useful part of the spectrum (up to 3.6kHz) */ L = 76; @@ -654,7 +654,7 @@ Word16 multi_harm_ivas_fx( /* o : frame multi-harmoni } tmp2 = extract_l( L_shr_sat( tmp2_32, 7 ) ); // q15-> q8 - IF( EQ_16( bwidth, NB ) ) + IF( ( bwidth == NB ) ) { /* cor_map_LT_sum *= 1.53f; */ /* tmp2 *= 1.53f; */ diff --git a/lib_enc/nelp_enc.c b/lib_enc/nelp_enc.c deleted file mode 100644 index 7ea6e47a56c1a7f087419f3073eeecbdeb81478f..0000000000000000000000000000000000000000 --- a/lib_enc/nelp_enc.c +++ /dev/null @@ -1,43 +0,0 @@ -/****************************************************************************************************** - - (C) 2022-2025 IVAS codec Public Collaboration with portions copyright Dolby International AB, Ericsson AB, - Fraunhofer-Gesellschaft zur Foerderung der angewandten Forschung e.V., Huawei Technologies Co. LTD., - Koninklijke Philips N.V., Nippon Telegraph and Telephone Corporation, Nokia Technologies Oy, Orange, - Panasonic Holdings Corporation, Qualcomm Technologies, Inc., VoiceAge Corporation, and other - contributors to this repository. All Rights Reserved. - - This software is protected by copyright law and by international treaties. - The IVAS codec Public Collaboration consisting of Dolby International AB, Ericsson AB, - Fraunhofer-Gesellschaft zur Foerderung der angewandten Forschung e.V., Huawei Technologies Co. LTD., - Koninklijke Philips N.V., Nippon Telegraph and Telephone Corporation, Nokia Technologies Oy, Orange, - Panasonic Holdings Corporation, Qualcomm Technologies, Inc., VoiceAge Corporation, and other - contributors to this repository retain full ownership rights in their respective contributions in - the software. This notice grants no license of any kind, including but not limited to patent - license, nor is any license granted by implication, estoppel or otherwise. - - Contributors are required to enter into the IVAS codec Public Collaboration agreement before making - contributions. - - This software is provided "AS IS", without any express or implied warranties. The software is in the - development stage. It is intended exclusively for experts who have experience with such software and - solely for the purpose of inspection. All implied warranties of non-infringement, merchantability - and fitness for a particular purpose are hereby disclaimed and excluded. - - Any dispute, controversy or claim arising under or in relation to providing this software shall be - submitted to and settled by the final, binding jurisdiction of the courts of Munich, Germany in - accordance with the laws of the Federal Republic of Germany excluding its conflict of law rules and - the United Nations Convention on Contracts on the International Sales of Goods. - -*******************************************************************************************************/ - -/*==================================================================================== - EVS Codec 3GPP TS26.443 Nov 04, 2021. Version 12.14.0 / 13.10.0 / 14.6.0 / 15.4.0 / 16.3.0 - ====================================================================================*/ - -#include -#include "options.h" -#include -#include "cnst.h" -#include "prot.h" -#include "rom_com.h" -#include "wmc_auto.h" diff --git a/lib_enc/nelp_enc_fx.c b/lib_enc/nelp_enc_fx.c index 3bd8e340d96df40deb5b4fff33a9954ca9dbee1a..39119117598387b0be7081d46dd47b4c72c5a87a 100644 --- a/lib_enc/nelp_enc_fx.c +++ b/lib_enc/nelp_enc_fx.c @@ -33,7 +33,6 @@ #include #include "options.h" /* Compilation switches */ #include "cnst.h" /* Common constants */ -#include "prot.h" /* Function prototypes */ #include "prot_fx.h" /* Function prototypes */ #include "prot_fx_enc.h" /* Function prototypes */ #include "rom_com.h" @@ -699,9 +698,9 @@ void nelp_encoder_fx( } ELSE { - push_indice_fx( hBstr, IND_IG1, iG1_fx, 5 ); - push_indice_fx( hBstr, IND_IG2A, iG2_fx[0], 6 ); - push_indice_fx( hBstr, IND_IG2B, iG2_fx[1], 6 ); + push_indice( hBstr, IND_IG1, iG1_fx, 5 ); + push_indice( hBstr, IND_IG2A, iG2_fx[0], 6 ); + push_indice( hBstr, IND_IG2B, iG2_fx[1], 6 ); } test(); @@ -1020,7 +1019,7 @@ void nelp_encoder_fx( } ELSE { - push_indice_fx( hBstr, IND_NELP_FID, fid, 2 ); + push_indice( hBstr, IND_NELP_FID, fid, 2 ); } } diff --git a/lib_enc/nois_est_fx.c b/lib_enc/nois_est_fx.c index 27a48652a07dcd277d616cfc00505ccc8f88bbbf..c8f698da907bbefd41bbee045fe960fe0ab9a892 100644 --- a/lib_enc/nois_est_fx.c +++ b/lib_enc/nois_est_fx.c @@ -192,11 +192,11 @@ void noise_est_init_fx( hNoiseEst->totalNoise_fx = 0; move16(); hNoiseEst->first_noise_updt = 0; - // hNoiseEst->first_noise_updt_cnt_fx = 0; IVAS_CODE ?? move16(); hNoiseEst->aEn = 6; - // hNoiseEst->aEn_inac_cnt = 0; IVAS_CODE + move16(); + hNoiseEst->aEn_inac_cnt = 0; move16(); hNoiseEst->harm_cor_cnt = 0; @@ -269,21 +269,7 @@ void noise_est_init_ivas_fx( ) { Word16 i; -#ifdef IVAS_FLOAT_FIXED_CONVERSIONS - hNoiseEst->first_noise_updt = 0; - hNoiseEst->first_noise_updt_cnt = 0; - move16(); - move16(); - hNoiseEst->aEn = 6; - hNoiseEst->aEn_inac_cnt = 0; - hNoiseEst->harm_cor_cnt = 0; - hNoiseEst->bg_cnt = 0; - hNoiseEst->low_tn_track_cnt = 0; - move16(); - move16(); - move16(); - move16(); -#endif + FOR( i = 0; i < NB_BANDS; i++ ) { hNoiseEst->fr_bands1_fx[i] = 1; @@ -312,13 +298,14 @@ void noise_est_init_ivas_fx( hNoiseEst->totalNoise_fx = 0; move16(); hNoiseEst->first_noise_updt = 0; - // hNoiseEst->first_noise_updt_cnt_fx = 0; IVAS_CODE ?? + move16(); + hNoiseEst->first_noise_updt_cnt = 0; move16(); hNoiseEst->aEn = 6; - // hNoiseEst->aEn_inac_cnt = 0; IVAS_CODE move16(); - + hNoiseEst->aEn_inac_cnt = 0; + move16(); hNoiseEst->harm_cor_cnt = 0; move16(); hNoiseEst->bg_cnt = 0; @@ -339,6 +326,10 @@ void noise_est_init_ivas_fx( hNoiseEst->Etot_sq_st_est_fx = 1600; /* 400 in Q2 */ move16(); move16(); + hNoiseEst->L_Etot_st_est_fx = 167772160; /* 20.0f in Q23 */ + hNoiseEst->L_Etot_sq_st_est_fx = 26214400; /* 400 in Q16 */ + move32(); + move32(); hNoiseEst->epsP_0_2_lp_fx = 4096; /*1.0 Q12*/ move16(); hNoiseEst->epsP_0_2_ad_lp_fx = 0; @@ -749,14 +740,17 @@ void noise_est_down_ivas_fx( const Word32 fr_bands[], /* i : per band input energy (contains 2 vectors) q_fr_bands */ const Word16 q_fr_bands, /* i : Q of fr_bands */ Word32 bckr[], /* i/o: per band background noise energy estimate q_fr_bands */ - Word32 tmpN[], /* o : temporary noise update q_fr_bands */ - Word32 enr[], /* o : averaged energy over both subframes */ - const Word16 min_band, /* i : minimum critical band */ - const Word16 max_band, /* i : maximum critical band */ - Word16 *totalNoise, /* o : noise estimate over all critical bands */ - Word16 Etot, /* i : Energy of current frame */ - Word16 *Etot_last, /* i/o: Energy of last frame Q8 */ - Word16 *Etot_v_h2 /* i/o: Energy variations of noise frames Q8 */ + Word16 *q_bckr, + Word32 tmpN[], /* o : temporary noise update q_fr_bands */ + Word16 *q_tmpN, + Word32 enr[], /* o : averaged energy over both subframes */ + Word16 *q_enr, + const Word16 min_band, /* i : minimum critical band */ + const Word16 max_band, /* i : maximum critical band */ + Word16 *totalNoise, /* o : noise estimate over all critical bands */ + Word16 Etot, /* i : Energy of current frame */ + Word16 *Etot_last, /* i/o: Energy of last frame Q8 */ + Word16 *Etot_v_h2 /* i/o: Energy variations of noise frames Q8 */ ) { @@ -764,13 +758,17 @@ void noise_est_down_ivas_fx( const Word32 *pt1, *pt2; Word16 i; Word16 e_Noise, f_Noise; - Word32 e_min; Word32 totalNoise_temp; Word32 L_Etot, L_Etot_last, L_Etot_v_h2, L_Etot_v; Word64 sum; Word16 q_sum; + Word32 enr32[NB_BANDS], bckr32[NB_BANDS], tmpN32[NB_BANDS]; + Word16 enr_q[NB_BANDS], bckr_q[NB_BANDS], tmpN_q[NB_BANDS]; + Word16 shift, shift1, shift2, shift3; + Word64 tmpN64, tmp, enr64; - e_min = L_shl( E_MIN_FXQ31, sub( q_fr_bands, Q31 ) ); // q_fr_bands + Copy32( bckr, bckr32, NB_BANDS ); + set16_fx( bckr_q, *q_bckr, NB_BANDS ); L_Etot = L_shl( Etot, 16 ); /*Q24 for later AR1 computations*/ L_Etot_last = L_shl( *Etot_last, 16 ); @@ -787,7 +785,7 @@ void noise_est_down_ivas_fx( { sum = W_mac_32_16( sum, bckr[i], 1 ); // q_fr_bands+1 } - q_sum = add( q_fr_bands, 1 ); + q_sum = add( *q_bckr, 1 ); IF( sum == 0 ) { sum = W_mult0_32_32( E_MIN_FXQ31, add( sub( max_band, min_band ), 1 ) ); // Q31 @@ -817,8 +815,12 @@ void noise_est_down_ivas_fx( FOR( i = 0; i < NB_BANDS; i++ ) { /* enr[i] = 0.5f * ( *pt1++ + *pt2++ ); */ - enr[i] = W_extract_h( W_mac_32_32( W_mult_32_32( *pt1, ONE_IN_Q30 ), *pt2, ONE_IN_Q30 ) ); // q_fr_bands+30+1-32+1 = q_fr_bands + enr64 = W_mac_32_32( W_mult_32_32( *pt1, ONE_IN_Q29 ), *pt2, ONE_IN_Q29 ); // q_fr_bands + 1 + Q29 + 1 (0.5 handle here) + shift = W_norm( enr64 ); + enr32[i] = W_extract_h( W_shl( enr64, shift ) ); move32(); + enr_q[i] = sub( add( q_fr_bands, shift ), 1 ); + move16(); pt1++; pt2++; } @@ -826,20 +828,66 @@ void noise_est_down_ivas_fx( /*-----------------------------------------------------------------* * Background noise energy update *-----------------------------------------------------------------*/ - FOR( i = 0; i < NB_BANDS; i++ ) { /* tmpN[i] = (1-ALPHA) * bckr[i] + ALPHA * enr[i]; */ /* handle div by zero in find_tilt_fx */ - tmpN[i] = L_max( Madd_32_16( Mpy_32_16_1( bckr[i], ALPHAM1_FX ), enr[i], ALPHA_FX ), e_min ); // q_fr_bands - move32(); - /* if( tmpN[i] < bckr[i] ) { bckr[i] = tmpN[i]; }*/ - /* Defend to increase noise estimate: keep as it is or decrease */ - bckr[i] = L_max( L_min( bckr[i], tmpN[i] ), e_min ); // q_fr_bands + tmpN64 = W_mult_32_16( bckr32[i], ALPHAM1_FX ); + tmp = W_mult_32_16( enr32[i], ALPHA_FX ); + + shift = s_min( bckr_q[i], enr_q[i] ); + tmpN64 = W_add( W_shl( tmpN64, sub( shift, bckr_q[i] ) ), W_shl( tmp, sub( shift, enr_q[i] ) ) ); // shift + q16 + shift1 = W_norm( tmpN64 ); + tmpN32[i] = W_extract_h( W_shl( tmpN64, shift1 ) ); // shift + q16 + shift1 - 32 move32(); + tmpN_q[i] = sub( add( add( Q16, shift ), shift1 ), 32 ); + move16(); + + IF( GT_32( E_MIN_FXQ31, L_shl_sat( tmpN32[i], sub( 31, tmpN_q[i] ) ) ) ) + { + tmpN32[i] = E_MIN_FXQ31; + tmpN_q[i] = 31; + move32(); + move16(); + } + + IF( GT_32( bckr32[i], L_shl_sat( tmpN32[i], sub( bckr_q[i], tmpN_q[i] ) ) ) ) + { + bckr32[i] = tmpN32[i]; /* Defend to increase noise estimate: keep as it is or decrease */ + bckr_q[i] = tmpN_q[i]; + move32(); + move16(); + } } + /* Scaling to common Q*/ + shift1 = bckr_q[0], shift2 = enr_q[0], shift3 = tmpN_q[0]; + move16(); + move16(); + move16(); + + FOR( i = 1; i < NB_BANDS; i++ ) + { + shift1 = s_min( shift1, bckr_q[i] ); + shift2 = s_min( shift2, enr_q[i] ); + shift3 = s_min( shift3, tmpN_q[i] ); + } + FOR( i = 0; i < NB_BANDS; i++ ) + { + bckr[i] = L_shl( bckr32[i], sub( shift1, bckr_q[i] ) ); + enr[i] = L_shl( enr32[i], sub( shift2, enr_q[i] ) ); + tmpN[i] = L_shl( tmpN32[i], sub( shift3, tmpN_q[i] ) ); + move32(); + move32(); + move32(); + } + *q_bckr = shift1; + *q_enr = shift2; + *q_tmpN = shift3; + move16(); + move16(); + move16(); /*------------------------------------------------------------------* * Energy variation update *------------------------------------------------------------------*/ @@ -890,11 +938,7 @@ void noise_est_fx( const Word32 Le_min_scaled, /*i : Minimum energy value in Q_new + Q_SCALE */ Word16 *sp_floor, /* o : noise floor estimate Q7 */ Word16 S_map[], /* o : short-term correlation map Q7 */ -#ifdef IVAS_CODE - STEREO_CLASSIF_HANDLE hStereoClassif, /* i/o: stereo classifier structure */ - FRONT_VAD_ENC_HANDLE hFrontVad, /* i/o: front-VAD handle */ -#endif - const Word16 ini_frame /* i : Frame number (init) */ + const Word16 ini_frame /* i : Frame number (init) */ ) { Word16 alpha, alpha2, alpha2m1, alpham1; @@ -936,17 +980,9 @@ void noise_est_fx( NOISE_EST_HANDLE hNoiseEst; SP_MUS_CLAS_HANDLE hSpMusClas; hSpMusClas = st_fx->hSpMusClas; -#ifdef REMOVE_IVAS_UNUSED_PARAMETERS_WARNING (void) ( ncharX ); -#endif + /* Check if LR-VAD */ -#ifdef IVAS_CODE - IF( hFrontVad != NULL ) - { - hNoiseEst = hFrontVad->hNoiseEst; - } - ELSE -#endif { hNoiseEst = st_fx->hNoiseEst; } @@ -964,9 +1000,6 @@ void noise_est_fx( move16(); /*st_fx->ener_RAT = 10.0f * (float)log10( mean(lf_E, 8));*/ -#ifdef IVAS_CODE - IF( hFrontVad == NULL ) -#endif { IF( hSpMusClas != NULL ) { @@ -1069,9 +1102,7 @@ void noise_est_fx( /*-----------------------------------------------------------------* * Multi-harmonic analysis *-----------------------------------------------------------------*/ -#ifdef IVAS_CODE - IF( hFrontVad == NULL ) -#endif + { IF( st_fx->hSpMusClas != NULL ) { @@ -1166,12 +1197,7 @@ void noise_est_fx( Ltmp2 = sum32_fx( &fr_bands[10], sub( st_fx->max_band, 9 ) ); wtmp = shl_o( 1, sub( add( Q_new, QSCALE ), 1 ), &Overflow ); -#ifdef IVAS_CODE - IF( ncharX != NULL ) - { - *ncharX = ftemp2 / ( ftemp + 1e-5f ); - } -#endif + test(); IF( L_msu( Ltmp, 100, wtmp ) < 0 || L_msu( Ltmp2, 100, wtmp ) < 0 ) { @@ -1332,9 +1358,6 @@ void noise_est_fx( move32(); /* calculation of non-stationarity measure for speech/music classification */ -#ifdef IVAS_CODE - IF( hFrontVad == NULL ) -#endif { test(); test(); @@ -1707,39 +1730,6 @@ void noise_est_fx( hNoiseEst->aEn = s_min( hNoiseEst->aEn, 6 ); hNoiseEst->aEn = s_max( hNoiseEst->aEn, 0 ); -#ifdef IVAS_CODE - /*-----------------------------------------------------------------* - * Stereo classifier - save raw aEn - *-----------------------------------------------------------------*/ - - if ( hStereoClassif != NULL ) - { - if ( ( non_sta > th_sta ) || - ( tmp_pc < TH_PC ) || - ( 0.5f * ( st->voicing[0] + st->voicing[1] ) > cor_max ) || - ( epsP[2] / epsP[16] > th_eps ) || - ( ( hNoiseEst->act_pred > 0.8f ) && ( non_sta2 > th_sta ) ) ) - { - /* active signal present - increment counter */ - hStereoClassif->aEn_raw[st->idchan] = add( hStereoClassif->aEn_raw[st->idchan], 2 ); - } - else - { - /* background noise present - decrement counter */ - hStereoClassif->aEn_raw[st->idchan] = sub( hStereoClassif->aEn_raw[st->idchan], 1 ); - } - - if ( GT_16( hStereoClassif->aEn_raw[st->idchan], 6 ) ) - { - hStereoClassif->aEn_raw[st->idchan] = 6; - } - else if ( hStereoClassif->aEn_raw[st->idchan] < 0 ) - { - hStereoClassif->aEn_raw[st->idchan] = 0; - } - } -#endif - /* Additional NNE detectors */ @@ -2192,18 +2182,6 @@ void noise_est_fx( move16(); } -#ifdef IVAS_CODE - IF( st_fx->element_mode > EVS_MONO ) - { - test(); - IF( hNoiseEst->first_noise_updt_cnt_fx > 0 && LT_16( hNoiseEst->first_noise_updt_cnt_fx, 100 ) ) - { - hNoiseEst->first_noise_updt_cnt_fx = add( hNoiseEst->first_noise_updt_cnt_fx, 1 ); - move16(); - } - } -#endif - return; } @@ -2276,9 +2254,9 @@ void noise_est_ivas_fx( Word16 vad_bwidth_fx; /* vad ns control variabel for input bwidth from teh BWD */ /* for DTX operation */ - Word16 lim_Etot_fx; /* Q8 */ - Word16 lim_Etot_sq_fx; /* Q2 */ - Word16 st_E_var_est_fx; /* Q2 */ + Word16 lim_Etot_fx; /* Q8 */ + Word32 lim_Etot_sq_fx; /* Q16 */ + Word32 st_E_var_est_fx; NOISE_EST_HANDLE hNoiseEst; SP_MUS_CLAS_HANDLE hSpMusClas; Word32 Le_min_scaled; @@ -2801,32 +2779,31 @@ void noise_est_ivas_fx( Lnon_sta2 = L_deposit_l( 1024 ); /* 1.0 in Q10 */ } - lim_Etot_fx = s_max( 5120, Etot ); /* 20.0f Q8 */ - lim_Etot_sq_fx = extract_h( L_shl_r( L_mult( lim_Etot_fx, lim_Etot_fx ), 1 ) ); /* Q2 */ + lim_Etot_fx = s_max( 5120, Etot ); /* 20.0f Q8 */ + lim_Etot_sq_fx = L_mult0( lim_Etot_fx, lim_Etot_fx ); /* Q16 */ IF( LT_16( ini_frame, 150 ) ) { /* Allow use of quicker filter during init - if needed */ /* st->Etot_st_est = 0.25f * lim_Etot + (1.0f-0.25F) * st->Etot_st_est; */ - hNoiseEst->Etot_st_est_fx = mac_r( L_mult( 8192, lim_Etot_fx ), 24576, hNoiseEst->Etot_st_est_fx ); // Q8 - move16(); + hNoiseEst->L_Etot_st_est_fx = Madd_32_16_r( L_mult0( 8192, lim_Etot_fx ), hNoiseEst->L_Etot_st_est_fx, 24576 ); // Q23 + move32(); /* st->Etot_sq_st_est = 0.25f * lim_Etot * lim_Etot + (1.0f-0.25f) * st->Etot_sq_st_est; */ - hNoiseEst->Etot_sq_st_est_fx = mac_r( L_mult( 8192, lim_Etot_sq_fx ), 24576, hNoiseEst->Etot_sq_st_est_fx ); // Q2 - move16(); + hNoiseEst->L_Etot_sq_st_est_fx = Madd_32_16_r( Mult_32_16( lim_Etot_sq_fx, 8192 ), hNoiseEst->L_Etot_sq_st_est_fx, 24576 ); // Q16 + move32(); } ELSE { /* st->Etot_st_est = 0.25f * lim_Etot + (1.0f-0.25F) * st->Etot_st_est; */ - hNoiseEst->Etot_st_est_fx = mac_r( L_mult( 8192, lim_Etot_fx ), 24576, hNoiseEst->Etot_st_est_fx ); // Q8 - move16(); + hNoiseEst->L_Etot_st_est_fx = Madd_32_16_r( L_mult0( 8192, lim_Etot_fx ), hNoiseEst->L_Etot_st_est_fx, 24576 ); // Q23 + move32(); /* st->Etot_sq_st_est = 0.25f * lim_Etot * lim_Etot + (1.0f-0.25f) * st->Etot_sq_st_est; */ - hNoiseEst->Etot_sq_st_est_fx = mac_r( L_mult( 8192, lim_Etot_sq_fx ), 24576, hNoiseEst->Etot_sq_st_est_fx ); // Q2 - move16(); + hNoiseEst->L_Etot_sq_st_est_fx = Madd_32_16_r( Mult_32_16( lim_Etot_sq_fx, 8192 ), hNoiseEst->L_Etot_sq_st_est_fx, 24576 ); // Q16 + move32(); } - st_E_var_est_fx = sub( hNoiseEst->Etot_sq_st_est_fx, extract_h( L_shl_r( L_mult( hNoiseEst->Etot_st_est_fx, hNoiseEst->Etot_st_est_fx ), 1 ) ) ); // Q2 - - + Word16 exp_tmp; + st_E_var_est_fx = BASOP_Util_Add_Mant32Exp( hNoiseEst->L_Etot_sq_st_est_fx, Q15, L_negate( Mpy_32_32( hNoiseEst->L_Etot_st_est_fx, hNoiseEst->L_Etot_st_est_fx ) ), Q16, &exp_tmp ); // exp(exp_tmp) /*-----------------------------------------------------------------* * Count frames since last correlation or harmonic event *-----------------------------------------------------------------*/ @@ -2856,7 +2833,7 @@ void noise_est_ivas_fx( } test(); test(); - IF( GT_16( *st_harm_cor_cnt, 1 ) && GT_16( Etot, 7680 /* 30.0f in Q8 */ ) && GT_16( st_E_var_est_fx, 32 /* 8.0f in Q2 */ ) ) + IF( GT_16( *st_harm_cor_cnt, 1 ) && GT_16( Etot, 7680 /* 30.0f in Q8 */ ) && EQ_16( BASOP_Util_Cmp_Mant32Exp( st_E_var_est_fx, exp_tmp, 524288 /* 8.0f in Q16 */, Q15 ), 1 ) ) { /* st->harm_cor_cnt = max(1, (short) round_f( (float) st->harm_cor_cnt / 4.0f )) ; */ *st_harm_cor_cnt = s_max( 1, shr( add( *st_harm_cor_cnt, 2 ), 2 ) ); diff --git a/lib_enc/peak_vq_enc_fx.c b/lib_enc/peak_vq_enc_fx.c index 9ea1af949121921157f3952fb153362c7ddb243a..dffab490016b224c5abeea742c81d24cf7d79e0b 100644 --- a/lib_enc/peak_vq_enc_fx.c +++ b/lib_enc/peak_vq_enc_fx.c @@ -11,7 +11,6 @@ #include "rom_com_fx.h" #include "rom_com.h" #include "prot_fx.h" /* Function prototypes */ -#include "prot.h" /* Function prototypes */ #include "prot_fx_enc.h" /* Function prototypes */ /*-------------------------------------------------------------------------- @@ -560,13 +559,13 @@ Word16 peak_vq_enc_fx( move32(); nf_gains[i] = L_shr( acc, 1 + 2 ); /* nf_gains in Q12. dicn_fx is in Q14. Need extra shift +2. */ move32(); - push_indice_fx( hBstr, IND_HVQ_NF_GAIN, indx, 5 ); + push_indice( hBstr, IND_HVQ_NF_GAIN, indx, 5 ); bits = add( bits, 5 ); } /* Signal number of peaks */ i = sub( max_peaks, vq_peaks ); - push_indice_fx( hBstr, IND_NUM_PEAKS, i, 5 ); + push_indice( hBstr, IND_NUM_PEAKS, i, 5 ); bits = add( bits, 5 ); /* Identify position of first peak and arrange peak gains by position */ @@ -678,8 +677,8 @@ Word16 peak_vq_enc_fx( move16(); } - push_indice_fx( hBstr, IND_FLAGN, FlagN, 1 ); - push_indice_fx( hBstr, IND_PG_IDX, pgain_difidx[0], GAIN0_BITS ); + push_indice( hBstr, IND_FLAGN, FlagN, 1 ); + push_indice( hBstr, IND_PG_IDX, pgain_difidx[0], GAIN0_BITS ); IF( FlagN ) { @@ -693,7 +692,7 @@ Word16 peak_vq_enc_fx( r = pgain_huffsizn[j]; move16(); - push_indice_fx( hBstr, IND_PG_IDX, m, r ); + push_indice( hBstr, IND_PG_IDX, m, r ); } } ELSE @@ -701,7 +700,7 @@ Word16 peak_vq_enc_fx( pPgainDifIdx = &pgain_difidx[1]; FOR( i = 0; i < vqPeaksMinus1; i++ ) { - push_indice_fx( hBstr, IND_PG_IDX, ( *pPgainDifIdx++ ), GAINI_BITS ); + push_indice( hBstr, IND_PG_IDX, ( *pPgainDifIdx++ ), GAINI_BITS ); } } @@ -728,13 +727,13 @@ Word16 peak_vq_enc_fx( num_overlap_bins = sub( 5, sub( vq_peak_idx[i + 1], vq_peak_idx[i] ) ); indx = sub( vq_peak_idx[i], 2 ); quant_peaks_fx( hBstr, &coefs[indx], &coefs_out[indx], &peak_gains[i], &vq_cb_idx, num_overlap_bins, core_brate, vq_peaks ); - push_indice_fx( hBstr, IND_HVQ_PEAKS, vq_cb_idx, 8 ); + push_indice( hBstr, IND_HVQ_PEAKS, vq_cb_idx, 8 ); bits = add( bits, 9 ); } indx = sub( vq_peak_idx[i], 2 ); quant_peaks_fx( hBstr, &coefs[indx], &coefs_out[indx], &peak_gains[i], &vq_cb_idx, 0, core_brate, vq_peaks ); - push_indice_fx( hBstr, IND_HVQ_PEAKS, vq_cb_idx, 8 ); + push_indice( hBstr, IND_HVQ_PEAKS, vq_cb_idx, 8 ); bits = add( bits, 9 ); /* Quantize peak positions and sign with HVQ */ @@ -827,7 +826,7 @@ Word16 peak_vq_enc_fx( move16(); } - push_indice_fx( hBstr, IND_HVQ_PVQ_GAIN, pvq_norm[k], HVQ_PVQ_GAIN_BITS ); + push_indice( hBstr, IND_HVQ_PVQ_GAIN, pvq_norm[k], HVQ_PVQ_GAIN_BITS ); pvq_bits = add( pvq_bits, HVQ_PVQ_GAIN_BITS ); pvq_norm[k] = add( pvq_norm[k], 8 ); @@ -1149,7 +1148,7 @@ static void quant_peaks_fx( { *vq_idx = w_vquant_fx( x, Qx, weights, xq, hvq_peak_cb_fx, cbSize, 0 ); move16(); - push_indice_fx( hBstr, IND_HVQ_PEAKS, 0, 1 ); + push_indice( hBstr, IND_HVQ_PEAKS, 0, 1 ); } ELSE IF( EQ_16( cb_class, 1 ) ) { @@ -1158,7 +1157,7 @@ static void quant_peaks_fx( move16(); *vq_idx = add( *vq_idx, sub( HVQ_CB_SIZE / 2, search_overlap ) ); move16(); - push_indice_fx( hBstr, IND_HVQ_PEAKS, 0, 1 ); + push_indice( hBstr, IND_HVQ_PEAKS, 0, 1 ); } ELSE IF( EQ_16( cb_class, 2 ) ) { @@ -1167,13 +1166,13 @@ static void quant_peaks_fx( move16(); *vq_idx = add( *vq_idx, sub( HVQ_CB_SIZE / 2, search_overlap ) ); move16(); - push_indice_fx( hBstr, IND_HVQ_PEAKS, 1, 1 ); + push_indice( hBstr, IND_HVQ_PEAKS, 1, 1 ); } ELSE { *vq_idx = w_vquant_fx( x, Qx, weights, xq, hvq_peak_cb_fx, cbSize, 1 ); move16(); - push_indice_fx( hBstr, IND_HVQ_PEAKS, 1, 1 ); + push_indice( hBstr, IND_HVQ_PEAKS, 1, 1 ); } FOR( i = 0; i < 4; i++ ) @@ -1459,23 +1458,23 @@ static Word16 hvq_code_pos_fx( test(); IF( GT_16( delta_bits, sparse_bits ) || delta_bits < 0 ) { - push_indice_fx( hBstr, IND_POS_IDX, HVQ_CP_SPARSE, 1 ); + push_indice( hBstr, IND_POS_IDX, HVQ_CP_SPARSE, 1 ); FOR( i = 0; i < sparse_bits; i++ ) { - push_indice_fx( hBstr, IND_POS_IDX, sparse_result[i], 1 ); + push_indice( hBstr, IND_POS_IDX, sparse_result[i], 1 ); } bits = add( add( bits, sparse_bits ), 1 ); } ELSE { - push_indice_fx( hBstr, IND_POS_IDX, HVQ_CP_DELTA, 1 ); + push_indice( hBstr, IND_POS_IDX, HVQ_CP_DELTA, 1 ); FOR( i = 0; i < num_peaks; i++ ) { j = delta[i]; move16(); - push_indice_fx( hBstr, IND_POS_IDX, hvq_cp_huff_val[j], hvq_cp_huff_len[j] ); + push_indice( hBstr, IND_POS_IDX, hvq_cp_huff_val[j], hvq_cp_huff_len[j] ); } bits = add( add( bits, delta_bits ), 1 ); } @@ -1490,7 +1489,7 @@ static Word16 hvq_code_pos_fx( tmp = 0; move16(); } - push_indice_fx( hBstr, IND_POS_IDX, tmp, 1 ); + push_indice( hBstr, IND_POS_IDX, tmp, 1 ); } bits = add( bits, num_peaks ); diff --git a/lib_enc/pit_enc.c b/lib_enc/pit_enc.c deleted file mode 100644 index 5bde0f4503d545d15fb515fb0bc947ee2facc8cb..0000000000000000000000000000000000000000 --- a/lib_enc/pit_enc.c +++ /dev/null @@ -1,45 +0,0 @@ -/****************************************************************************************************** - - (C) 2022-2025 IVAS codec Public Collaboration with portions copyright Dolby International AB, Ericsson AB, - Fraunhofer-Gesellschaft zur Foerderung der angewandten Forschung e.V., Huawei Technologies Co. LTD., - Koninklijke Philips N.V., Nippon Telegraph and Telephone Corporation, Nokia Technologies Oy, Orange, - Panasonic Holdings Corporation, Qualcomm Technologies, Inc., VoiceAge Corporation, and other - contributors to this repository. All Rights Reserved. - - This software is protected by copyright law and by international treaties. - The IVAS codec Public Collaboration consisting of Dolby International AB, Ericsson AB, - Fraunhofer-Gesellschaft zur Foerderung der angewandten Forschung e.V., Huawei Technologies Co. LTD., - Koninklijke Philips N.V., Nippon Telegraph and Telephone Corporation, Nokia Technologies Oy, Orange, - Panasonic Holdings Corporation, Qualcomm Technologies, Inc., VoiceAge Corporation, and other - contributors to this repository retain full ownership rights in their respective contributions in - the software. This notice grants no license of any kind, including but not limited to patent - license, nor is any license granted by implication, estoppel or otherwise. - - Contributors are required to enter into the IVAS codec Public Collaboration agreement before making - contributions. - - This software is provided "AS IS", without any express or implied warranties. The software is in the - development stage. It is intended exclusively for experts who have experience with such software and - solely for the purpose of inspection. All implied warranties of non-infringement, merchantability - and fitness for a particular purpose are hereby disclaimed and excluded. - - Any dispute, controversy or claim arising under or in relation to providing this software shall be - submitted to and settled by the final, binding jurisdiction of the courts of Munich, Germany in - accordance with the laws of the Federal Republic of Germany excluding its conflict of law rules and - the United Nations Convention on Contracts on the International Sales of Goods. - -*******************************************************************************************************/ - -/*==================================================================================== - EVS Codec 3GPP TS26.443 Nov 04, 2021. Version 12.14.0 / 13.10.0 / 14.6.0 / 15.4.0 / 16.3.0 - ====================================================================================*/ - -#include -#include -#include "options.h" -#include -#include "cnst.h" -#include "prot.h" -#include "rom_enc.h" -#include "rom_com.h" -#include "wmc_auto.h" diff --git a/lib_enc/pit_enc_fx.c b/lib_enc/pit_enc_fx.c index 80e144743d41936fb8657f3eedc14a65ad356fca..8eea1b3d52b398655e3a8b03fc5a76262f006ed9 100644 --- a/lib_enc/pit_enc_fx.c +++ b/lib_enc/pit_enc_fx.c @@ -10,7 +10,6 @@ #include "rom_com.h" /* Static table prototypes */ //#include "prot_fx.h" /* Function prototypes */ #include "rom_basop_util.h" -#include "prot.h" /* Function prototypes */ #include "prot_fx.h" /* Function prototypes */ #include "prot_fx_enc.h" /* Function prototypes */ #include "prot_fx_enc.h" /* Function prototypes */ @@ -81,9 +80,7 @@ Word16 pit_encode_fx( /* o : Fractional pitc Word16 pit_flag, delta, mult_Top, nBits; Word16 L_sufr_sft; Word16 T_op[2]; /* values for two half-frames */ -#ifdef REMOVE_IVAS_UNUSED_PARAMETERS_WARNING (void) tdm_Pitch_reuse_flag; -#endif L_sufr_sft = 6; move16(); @@ -268,48 +265,6 @@ Word16 pit_encode_fx( /* o : Fractional pitc pit_Q_enc_fx( hBstr, 0, nBits, delta, pit_flag, *limit_flag, *T0, *T0_frac, T0_min, T0_max ); } -#ifdef ADD_LRTD - else if ( tdm_Pitch_reuse_flag == 1 || nBits == 4 ) - { - /*-------------------------------------------------------* - * Pitch encoding with reusing primary channel information - *-------------------------------------------------------*/ - int16_t loc_T0, loc_frac; - - delta = 4; - - pit_flag = L_SUBFR; - - if ( L_subfr == 2 * L_SUBFR ) - { - loc_T0 = (int16_t) ( 0.5f * tdm_Pri_pitch_buf[i_subfr / L_SUBFR] + 0.5f * tdm_Pri_pitch_buf[( i_subfr + L_SUBFR ) / L_SUBFR] ); - loc_frac = (int16_t) ( ( ( 0.5f * tdm_Pri_pitch_buf[i_subfr / L_SUBFR] + 0.5f * tdm_Pri_pitch_buf[( i_subfr + L_SUBFR ) / L_SUBFR] ) - loc_T0 ) * 4.0f ); - } - else - { - loc_T0 = (int16_t) tdm_Pri_pitch_buf[i_subfr / L_SUBFR]; - loc_frac = (int16_t) ( ( tdm_Pri_pitch_buf[i_subfr / L_SUBFR] - loc_T0 ) * 4.0f ); - } - - /* pitch lag search limitation */ - limit_T0( L_FRAME, delta, pit_flag, *limit_flag, loc_T0, loc_frac, T0_min, T0_max ); - if ( nBits > 0 ) - { - /* search and encode the closed loop pitch period */ - *T0 = pitch_fr4( &exc[i_subfr], xn, h1, *T0_min, *T0_max, T0_frac, pit_flag, *limit_flag, PIT_MIN, PIT_FR1_8b, L_FRAME, L_SUBFR ); - if ( delta == 8 ) - { - *T0_frac = 0; - } - pit_Q_enc( hBstr, 0, nBits, delta, pit_flag, *limit_flag, *T0, *T0_frac, T0_min, T0_max ); - } - else - { - *T0 = loc_T0; - *T0_frac = loc_frac; - } - } -#endif ELSE { /*-------------------------------------------------------* @@ -1832,7 +1787,7 @@ void pit_Q_enc_fx( } { - push_indice_fx( hBstr, IND_PITCH, pitch_index, nBits ); + push_indice( hBstr, IND_PITCH, pitch_index, nBits ); } return; @@ -1964,7 +1919,7 @@ void pit16k_Q_enc_fx( } } - push_indice_fx( hBstr, IND_PITCH, pitch_index, nBits ); + push_indice( hBstr, IND_PITCH, pitch_index, nBits ); } ELSE IF( EQ_16( nBits, 9 ) ) /* absolute encoding with 9 bits */ { @@ -1994,14 +1949,14 @@ void pit16k_Q_enc_fx( } } - push_indice_fx( hBstr, IND_PITCH, pitch_index, 9 ); + push_indice( hBstr, IND_PITCH, pitch_index, 9 ); } ELSE /* nBits == 6 */ /* relative encoding with 6 bits */ { /*pitch_index = (T0 - *T0_min) * 4 + T0_frac;*/ pitch_index = add( shl( sub( T0, *T0_min ), 2 ), T0_frac ); - push_indice_fx( hBstr, IND_PITCH, pitch_index, nBits ); + push_indice( hBstr, IND_PITCH, pitch_index, nBits ); } limit_T0_fx( L_FRAME16k, 8, L_SUBFR, limit_flag, T0, T0_frac, T0_min, T0_max ); diff --git a/lib_enc/pitch_ol.c b/lib_enc/pitch_ol.c deleted file mode 100644 index 0853fd9fd0e6e923fc8273f4d49ce38608b3526e..0000000000000000000000000000000000000000 --- a/lib_enc/pitch_ol.c +++ /dev/null @@ -1,48 +0,0 @@ -/****************************************************************************************************** - - (C) 2022-2025 IVAS codec Public Collaboration with portions copyright Dolby International AB, Ericsson AB, - Fraunhofer-Gesellschaft zur Foerderung der angewandten Forschung e.V., Huawei Technologies Co. LTD., - Koninklijke Philips N.V., Nippon Telegraph and Telephone Corporation, Nokia Technologies Oy, Orange, - Panasonic Holdings Corporation, Qualcomm Technologies, Inc., VoiceAge Corporation, and other - contributors to this repository. All Rights Reserved. - - This software is protected by copyright law and by international treaties. - The IVAS codec Public Collaboration consisting of Dolby International AB, Ericsson AB, - Fraunhofer-Gesellschaft zur Foerderung der angewandten Forschung e.V., Huawei Technologies Co. LTD., - Koninklijke Philips N.V., Nippon Telegraph and Telephone Corporation, Nokia Technologies Oy, Orange, - Panasonic Holdings Corporation, Qualcomm Technologies, Inc., VoiceAge Corporation, and other - contributors to this repository retain full ownership rights in their respective contributions in - the software. This notice grants no license of any kind, including but not limited to patent - license, nor is any license granted by implication, estoppel or otherwise. - - Contributors are required to enter into the IVAS codec Public Collaboration agreement before making - contributions. - - This software is provided "AS IS", without any express or implied warranties. The software is in the - development stage. It is intended exclusively for experts who have experience with such software and - solely for the purpose of inspection. All implied warranties of non-infringement, merchantability - and fitness for a particular purpose are hereby disclaimed and excluded. - - Any dispute, controversy or claim arising under or in relation to providing this software shall be - submitted to and settled by the final, binding jurisdiction of the courts of Munich, Germany in - accordance with the laws of the Federal Republic of Germany excluding its conflict of law rules and - the United Nations Convention on Contracts on the International Sales of Goods. - -*******************************************************************************************************/ - -/*==================================================================================== - EVS Codec 3GPP TS26.443 Nov 04, 2021. Version 12.14.0 / 13.10.0 / 14.6.0 / 15.4.0 / 16.3.0 - ====================================================================================*/ - -#include -#include "options.h" -#include -#include "prot.h" -#include "cnst.h" -#include "rom_com.h" -#include "rom_enc.h" -#include "wmc_auto.h" - -/*---------------------------------------------------------------------* - * Local constants - *---------------------------------------------------------------------*/ diff --git a/lib_enc/pitch_ol2.c b/lib_enc/pitch_ol2.c deleted file mode 100644 index dc77e0dfa8c9a7dea75feea530732e532626ca70..0000000000000000000000000000000000000000 --- a/lib_enc/pitch_ol2.c +++ /dev/null @@ -1,274 +0,0 @@ -/****************************************************************************************************** - - (C) 2022-2025 IVAS codec Public Collaboration with portions copyright Dolby International AB, Ericsson AB, - Fraunhofer-Gesellschaft zur Foerderung der angewandten Forschung e.V., Huawei Technologies Co. LTD., - Koninklijke Philips N.V., Nippon Telegraph and Telephone Corporation, Nokia Technologies Oy, Orange, - Panasonic Holdings Corporation, Qualcomm Technologies, Inc., VoiceAge Corporation, and other - contributors to this repository. All Rights Reserved. - - This software is protected by copyright law and by international treaties. - The IVAS codec Public Collaboration consisting of Dolby International AB, Ericsson AB, - Fraunhofer-Gesellschaft zur Foerderung der angewandten Forschung e.V., Huawei Technologies Co. LTD., - Koninklijke Philips N.V., Nippon Telegraph and Telephone Corporation, Nokia Technologies Oy, Orange, - Panasonic Holdings Corporation, Qualcomm Technologies, Inc., VoiceAge Corporation, and other - contributors to this repository retain full ownership rights in their respective contributions in - the software. This notice grants no license of any kind, including but not limited to patent - license, nor is any license granted by implication, estoppel or otherwise. - - Contributors are required to enter into the IVAS codec Public Collaboration agreement before making - contributions. - - This software is provided "AS IS", without any express or implied warranties. The software is in the - development stage. It is intended exclusively for experts who have experience with such software and - solely for the purpose of inspection. All implied warranties of non-infringement, merchantability - and fitness for a particular purpose are hereby disclaimed and excluded. - - Any dispute, controversy or claim arising under or in relation to providing this software shall be - submitted to and settled by the final, binding jurisdiction of the courts of Munich, Germany in - accordance with the laws of the Federal Republic of Germany excluding its conflict of law rules and - the United Nations Convention on Contracts on the International Sales of Goods. - -*******************************************************************************************************/ - -/*==================================================================================== - EVS Codec 3GPP TS26.443 Nov 04, 2021. Version 12.14.0 / 13.10.0 / 14.6.0 / 15.4.0 / 16.3.0 - ====================================================================================*/ - -#include -#include "options.h" -#include "cnst.h" -#include "rom_enc.h" -#include "prot.h" -#include "wmc_auto.h" - -#include "prot_fx.h" /* Function prototypes */ -#include "prot_fx_enc.h" /* Function prototypes */ - -/*-------------------------------------------------------------------* - * Local constants - *-------------------------------------------------------------------*/ - -#define MAX_DELTA 16 /* half-length of the delta search */ -#define COR_BUF_LEN ( L_INTERPOL1 * 2 + MAX_DELTA * 2 + 1 ) -/*-------------------------------------------------------------------* - * pitch_ol2() - * - * Open-loop pitch precision improvement with 1/4 resolution - * The pitch is searched in the interval 0 ) - { - ratio = 0; - move16(); - } - ELSE - { - ratio = s_max( sub( energy1_16, energy0_16 ), 0 ); /*Q7 */ - } - /*ratio *= max(voicing,0);*/ - tmp = s_max( voicing_m, 0 ); - ratio = mult_r( ratio, tmp ); /*Q7*/ - /**LF_EnergyRatio_sm = (15*(*LF_EnergyRatio_sm) + ratio)/16;*/ - L_tmp = L_mult( ratio, 2048 ); - L_tmp = L_mac( L_tmp, *LF_EnergyRatio_sm, 30720 ); - *LF_EnergyRatio_sm = round_fx( L_tmp ); - move16(); - test(); - if ( GT_16( *LF_EnergyRatio_sm, 4480 /*35.0f Q7*/ ) || GT_16( ratio, 6400 /*50.0f Q7*/ ) ) - { - *predecision_flag = 1; - move16(); - } - - if ( LT_16( *LF_EnergyRatio_sm, 2048 /*16.0f Q7*/ ) ) - { - *predecision_flag = 0; - move16(); - } - - /* short pitch candidate detection */ - Tp = pitch[1]; - move16(); - cor_max = 0; - move16(); - pt_wsp = wsp + 3 * L_SUBFR; - pit_min = PIT_MIN_DOUBLEEXTEND; - move16(); - pit_min_up = PIT_MIN; - move16(); - FOR( T = pit_min; T <= pit_min_up; T++ ) - { - energy1 = Dot_product( pt_wsp, pt_wsp - T, L_SUBFR ); - test(); - IF( ( GT_32( energy1, cor_max ) ) || ( EQ_16( T, pit_min ) ) ) - { - cor_max = L_add( energy1, 0 ); - Tp = T; - move16(); - } - } - energy0 = Dot_product12( pt_wsp, pt_wsp, L_SUBFR, &exp1 ); - exp1 = sub( exp1, shl( Q_new, 1 ) ); - energy1 = Dot_product12( pt_wsp - Tp, pt_wsp - Tp, L_SUBFR, &exp2 ); - exp2 = sub( exp2, shl( Q_new, 1 ) ); - /* cor_max *= inv_sqrt( energy0*energy1 );*/ - L_tmp = Mult_32_32( energy0, energy1 ); - exp = norm_l( L_tmp ); - L_tmp1 = L_shl( L_tmp, exp ); - - exp = sub( sub( 31, exp ), ( sub( sub( 31, exp1 ), exp2 ) ) ); - move16(); - L_tmp1 = Isqrt_lc( L_tmp1, &exp ); /*Q(31-exp)*/ - cor_max = Mult_32_32( cor_max, L_tmp1 ); - exp = add( sub( sub( 31, add( shl( Q_new, 1 ), 1 ) ), sub( 31, exp ) ), 31 ); - cor_max16 = round_fx_o( L_shl_o( cor_max, exp, &Overflow ), &Overflow ); /*Q15*/ - /**voicing0_sm = add(mult_r(24576 ,(*voicing0_sm)) , mult_r(8192 , cor_max16));*/ - *voicing0_sm = round_fx( L_mac( L_mult( 24576 /*.75f Q15*/, *voicing0_sm ), 8192 /*.25f Q15*/, cor_max16 ) ); - move16(); - - /* final short pitch detection */ - test(); - test(); - test(); - *flag_spitch = 0; - move16(); - IF( ( EQ_16( localVAD, 1 ) ) && ( EQ_16( *predecision_flag, 1 ) ) && - ( GT_16( *voicing0_sm, 21299 /*.65f in Q15*/ ) ) && ( GT_16( *voicing0_sm, mult_r( *voicing_sm, 22938 /*.7f in Q15*/ ) ) ) ) - { - *flag_spitch = 1; - move16(); - pitch[0] = Tp; - move16(); - pitch[1] = Tp; - move16(); - pitch[2] = Tp; - move16(); - } - - return; -} diff --git a/lib_enc/pitch_ol2_fx.c b/lib_enc/pitch_ol2_fx.c index 5d68216c934793aa5e0cc6c1d9835d10358e0ec3..7ca13171ea309caea5710891b929962bcc6914b9 100644 --- a/lib_enc/pitch_ol2_fx.c +++ b/lib_enc/pitch_ol2_fx.c @@ -404,3 +404,227 @@ void StableHighPitchDetect_fx( return; } + + +/*-------------------------------------------------------------------* + * pitch_ol2() + * + * Open-loop pitch precision improvement with 1/4 resolution + * The pitch is searched in the interval 0 ) + { + ratio = 0; + move16(); + } + ELSE + { + ratio = s_max( sub( energy1_16, energy0_16 ), 0 ); /*Q7 */ + } + /*ratio *= max(voicing,0);*/ + tmp = s_max( voicing_m, 0 ); + ratio = mult_r( ratio, tmp ); /*Q7*/ + /**LF_EnergyRatio_sm = (15*(*LF_EnergyRatio_sm) + ratio)/16;*/ + L_tmp = L_mult( ratio, 2048 ); + L_tmp = L_mac( L_tmp, *LF_EnergyRatio_sm, 30720 ); + *LF_EnergyRatio_sm = round_fx( L_tmp ); + move16(); + test(); + if ( GT_16( *LF_EnergyRatio_sm, 4480 /*35.0f Q7*/ ) || GT_16( ratio, 6400 /*50.0f Q7*/ ) ) + { + *predecision_flag = 1; + move16(); + } + + if ( LT_16( *LF_EnergyRatio_sm, 2048 /*16.0f Q7*/ ) ) + { + *predecision_flag = 0; + move16(); + } + + /* short pitch candidate detection */ + Tp = pitch[1]; + move16(); + cor_max = 0; + move16(); + pt_wsp = wsp + 3 * L_SUBFR; + pit_min = PIT_MIN_DOUBLEEXTEND; + move16(); + pit_min_up = PIT_MIN; + move16(); + FOR( T = pit_min; T <= pit_min_up; T++ ) + { + energy1 = Dot_product( pt_wsp, pt_wsp - T, L_SUBFR ); + test(); + IF( ( GT_32( energy1, cor_max ) ) || ( EQ_16( T, pit_min ) ) ) + { + cor_max = L_add( energy1, 0 ); + Tp = T; + move16(); + } + } + energy0 = Dot_product12( pt_wsp, pt_wsp, L_SUBFR, &exp1 ); + exp1 = sub( exp1, shl( Q_new, 1 ) ); + energy1 = Dot_product12( pt_wsp - Tp, pt_wsp - Tp, L_SUBFR, &exp2 ); + exp2 = sub( exp2, shl( Q_new, 1 ) ); + /* cor_max *= inv_sqrt( energy0*energy1 );*/ + L_tmp = Mult_32_32( energy0, energy1 ); + exp = norm_l( L_tmp ); + L_tmp1 = L_shl( L_tmp, exp ); + + exp = sub( sub( 31, exp ), ( sub( sub( 31, exp1 ), exp2 ) ) ); + move16(); + L_tmp1 = Isqrt_lc( L_tmp1, &exp ); /*Q(31-exp)*/ + cor_max = Mult_32_32( cor_max, L_tmp1 ); + exp = add( sub( sub( 31, add( shl( Q_new, 1 ), 1 ) ), sub( 31, exp ) ), 31 ); + cor_max16 = round_fx_o( L_shl_o( cor_max, exp, &Overflow ), &Overflow ); /*Q15*/ + /**voicing0_sm = add(mult_r(24576 ,(*voicing0_sm)) , mult_r(8192 , cor_max16));*/ + *voicing0_sm = round_fx( L_mac( L_mult( 24576 /*.75f Q15*/, *voicing0_sm ), 8192 /*.25f Q15*/, cor_max16 ) ); + move16(); + + /* final short pitch detection */ + test(); + test(); + test(); + *flag_spitch = 0; + move16(); + IF( ( EQ_16( localVAD, 1 ) ) && ( EQ_16( *predecision_flag, 1 ) ) && + ( GT_16( *voicing0_sm, 21299 /*.65f in Q15*/ ) ) && ( GT_16( *voicing0_sm, mult_r( *voicing_sm, 22938 /*.7f in Q15*/ ) ) ) ) + { + *flag_spitch = 1; + move16(); + pitch[0] = Tp; + move16(); + pitch[1] = Tp; + move16(); + pitch[2] = Tp; + move16(); + } + + return; +} diff --git a/lib_enc/plc_enc_ext.c b/lib_enc/plc_enc_ext.c deleted file mode 100644 index 17c76dee67fc489632e6e0b9e4fbe376f10bb4a6..0000000000000000000000000000000000000000 --- a/lib_enc/plc_enc_ext.c +++ /dev/null @@ -1,43 +0,0 @@ -/****************************************************************************************************** - - (C) 2022-2025 IVAS codec Public Collaboration with portions copyright Dolby International AB, Ericsson AB, - Fraunhofer-Gesellschaft zur Foerderung der angewandten Forschung e.V., Huawei Technologies Co. LTD., - Koninklijke Philips N.V., Nippon Telegraph and Telephone Corporation, Nokia Technologies Oy, Orange, - Panasonic Holdings Corporation, Qualcomm Technologies, Inc., VoiceAge Corporation, and other - contributors to this repository. All Rights Reserved. - - This software is protected by copyright law and by international treaties. - The IVAS codec Public Collaboration consisting of Dolby International AB, Ericsson AB, - Fraunhofer-Gesellschaft zur Foerderung der angewandten Forschung e.V., Huawei Technologies Co. LTD., - Koninklijke Philips N.V., Nippon Telegraph and Telephone Corporation, Nokia Technologies Oy, Orange, - Panasonic Holdings Corporation, Qualcomm Technologies, Inc., VoiceAge Corporation, and other - contributors to this repository retain full ownership rights in their respective contributions in - the software. This notice grants no license of any kind, including but not limited to patent - license, nor is any license granted by implication, estoppel or otherwise. - - Contributors are required to enter into the IVAS codec Public Collaboration agreement before making - contributions. - - This software is provided "AS IS", without any express or implied warranties. The software is in the - development stage. It is intended exclusively for experts who have experience with such software and - solely for the purpose of inspection. All implied warranties of non-infringement, merchantability - and fitness for a particular purpose are hereby disclaimed and excluded. - - Any dispute, controversy or claim arising under or in relation to providing this software shall be - submitted to and settled by the final, binding jurisdiction of the courts of Munich, Germany in - accordance with the laws of the Federal Republic of Germany excluding its conflict of law rules and - the United Nations Convention on Contracts on the International Sales of Goods. - -*******************************************************************************************************/ - -/*==================================================================================== - EVS Codec 3GPP TS26.443 Nov 04, 2021. Version 12.14.0 / 13.10.0 / 14.6.0 / 15.4.0 / 16.3.0 - ====================================================================================*/ - -#include -#include "options.h" -#include "prot.h" -#include "stat_enc.h" -#include "cnst.h" -#include "rom_com.h" -#include "wmc_auto.h" diff --git a/lib_enc/ppp_enc_fx.c b/lib_enc/ppp_enc_fx.c index 9afb27065559b4746745352c09b11dace1f3ed88..d6dc8b6d68adcec9c2466e1069b658ce85791c7e 100644 --- a/lib_enc/ppp_enc_fx.c +++ b/lib_enc/ppp_enc_fx.c @@ -171,9 +171,9 @@ ivas_error ppp_quarter_encoder_fx( CURRCW_Q_FX->upper_cut_off_freq_of_interest_fx = (Word16) find_remd( Ltempn, 20971, &Ltempd ); move16(); - push_indice_fx( hBstr, IND_AMP0, AMP_IDX_fx[0], 6 ); - push_indice_fx( hBstr, IND_AMP1, AMP_IDX_fx[1], 6 ); - push_indice_fx( hBstr, IND_POWER, POWER_IDX_FX, 6 ); + push_indice( hBstr, IND_AMP0, AMP_IDX_fx[0], 6 ); + push_indice( hBstr, IND_AMP1, AMP_IDX_fx[1], 6 ); + push_indice( hBstr, IND_POWER, POWER_IDX_FX, 6 ); /*Phase copying is done through copy_phase instead of car2pol and pol2car */ copy_phase_fx( TARGETCW_FX, *CURRCW_Q_FX, TARGETCW_FX ); @@ -199,7 +199,7 @@ ivas_error ppp_quarter_encoder_fx( /*DTFS_phaseShift( CURRCW_Q,(float)(PI2*tmp/CURRCW_Q->lag) ); */ Q2phaseShift_fx( CURRCW_Q_FX, tmp_fx, CURRCW_Q_FX->lag_fx, S_fx, C_fx ); - push_indice_fx( hBstr, IND_GLOBAL_ALIGNMENT, shr( add( tmp_fx, 12 ), 2 ), 3 ); + push_indice( hBstr, IND_GLOBAL_ALIGNMENT, shr( add( tmp_fx, 12 ), 2 ), 3 ); free( PREVDTFS_FX ); return error; @@ -830,7 +830,7 @@ static void LPCPowSpect_fx( Lacc = L_add( Lacc, L_shr( L_mult( dh, dh ), 1 ) ); /* Lacc=Re^2+Im^2, Q22 */ exp = norm_l( Lacc ); - tmp = round_fx( L_shl( Lacc, exp ) ); + tmp = round_fx_sat( L_shl( Lacc, exp ) ); exp = sub( sub( 30, exp ), 22 ); /* tmp may potentially become negative, when Lacc is a very large value */ diff --git a/lib_enc/pre_proc_fx.c b/lib_enc/pre_proc_fx.c index bd3d4cb340b9f3d6f00f5fa4f182c7a9de9702fe..cbb2cf421564b73d0e51c62baef7b4988667fe3e 100644 --- a/lib_enc/pre_proc_fx.c +++ b/lib_enc/pre_proc_fx.c @@ -213,8 +213,7 @@ void pre_proc_fx( /*----------------------------------------------------------------* * Change the sampling frequency to 12.8 kHz *----------------------------------------------------------------*/ - Word16 Q_new_inp, mem_decim_size; // TO be removed - modify_Fs_fx( signal_in, input_frame, st->input_Fs, new_inp_12k8, INT_FS_12k8, st->mem_decim_fx, ( const Word16 )( EQ_16( st->max_bwidth, NB ) ), &Q_new_inp, &mem_decim_size ); + modify_Fs_fx( signal_in, input_frame, st->input_Fs, new_inp_12k8, INT_FS_12k8, st->mem_decim_fx, ( const Word16 )( EQ_16( st->max_bwidth, NB ) ) ); Copy( new_inp_12k8, st->buf_speech_enc + L_FRAME32k, L_FRAME ); Scale_sig( st->buf_speech_enc + L_FRAME32k, L_FRAME, 1 ); /*------------------------------------------------------------------* @@ -254,11 +253,7 @@ void pre_proc_fx( * Spectral analysis *--------------------------------------------------------------------------*/ - analy_sp_fx( -1, -#ifdef IVAS_CODE_CPE - NULL, -#endif - st->input_Fs, inp_12k8, *Q_new, fr_bands, lf_E, Etot, st->min_band, st->max_band, Le_min_scaled, Scale_fac, st->Bin_E_fx, st->Bin_E_old_fx, + analy_sp_fx( -1, inp_12k8, *Q_new, fr_bands, lf_E, Etot, st->min_band, st->max_band, Le_min_scaled, Scale_fac, st->Bin_E_fx, st->Bin_E_old_fx, PS, st->lgBin_E_fx, st->band_energies, fft_buff ); st->band_energies_exp = sub( sub( WORD32_BITS - 1, *Q_new ), QSCALE ); @@ -303,7 +298,7 @@ void pre_proc_fx( move16(); } - bw_detect_fx( st, signal_in, NULL, enerBuffer, sf_energySum, MONO_FORMAT, 0 ); + bw_detect_fx( st, signal_in, NULL, enerBuffer, sf_energySum, MONO_FORMAT, 0, 0 ); /*----------------------------------------------------------------* * Noise energy down-ward update and total noise energy estimation @@ -497,9 +492,6 @@ void pre_proc_fx( noise_est_fx( st, old_pitch1, tmpN, epsP_h, epsP_l, *Etot, relE, corr_shift, tmpE, fr_bands, &cor_map_sum, NULL, &sp_div, &Q_sp_div, &non_staX, &loc_harm, lf_E, &hNoiseEst->harm_cor_cnt, hNoiseEst->Etot_l_lp_fx, hNoiseEst->Etot_v_h2_fx, &hNoiseEst->bg_cnt, st->lgBin_E_fx, *Q_new, Le_min_scaled, &sp_floor, NULL, -#ifdef IVAS_CODE - NULL, NULL, -#endif st->ini_frame ); /*------------------------------------------------------------------* @@ -516,15 +508,7 @@ void pre_proc_fx( st->max_band, hp_E, st->codec_mode, *Q_new, &( st->bckr_tilt_lt ), st->Opt_SC_VBR ); st->coder_type = find_uv_fx( st, pitch_fr, voicing_fr, inp_12k8, ee, -#ifdef IVAS_CODE - NULL, -#endif - corr_shift, relE, *Etot, hp_E, *Q_new, &flag_spitch, *shift, last_core_orig -#ifdef IVAS_CODE - , - NULL -#endif - ); + corr_shift, relE, *Etot, hp_E, *Q_new, &flag_spitch, *shift, last_core_orig ); /*----------------------------------------------------------------* * channel aware mode configuration * @@ -598,12 +582,7 @@ void pre_proc_fx( speech_music_classif_fx( st, new_inp_12k8, inp_12k8, localVAD_HE_SAD, lsp_new, cor_map_sum, epsP, PS, *Etot, old_cor, attack_flag, non_staX, relE, Q_esp, *Q_new, &high_lpn_flag, flag_spitch ); - long_enr_fx( st, *Etot, localVAD_HE_SAD, high_lpn_flag -#ifdef IVAS_CODE - , - NULL, 1, NULL, NULL -#endif - ); /* has to be after after sp_music classfier */ + long_enr_fx( st, *Etot, localVAD_HE_SAD, high_lpn_flag ); /* has to be after after sp_music classfier */ /*----------------------------------------------------------------* * Rewrite the VAD flag by VAD flag with DTX hangover for further processing) @@ -1037,7 +1016,7 @@ void pre_proc_fx( } ELSE IF( EQ_32( st->input_Fs, 32000 ) || EQ_32( st->input_Fs, 48000 ) ) { - modify_Fs_fx( signal_in, input_frame, st->input_Fs, new_inp_16k, sr_core_tmp, st->mem_decim16k_fx, 0, &Q_new_inp, &mem_decim_size ); + modify_Fs_fx( signal_in, input_frame, st->input_Fs, new_inp_16k, sr_core_tmp, st->mem_decim16k_fx, 0 ); } ELSE /* keep memories up-to-date in case of bitrate switching */ { @@ -1125,11 +1104,7 @@ void pre_proc_fx( test(); test(); test(); -#ifndef CR_2109_to_2112_cd0_ce0 - IF( ( ( ( st->tcxonly == 0 ) || !( st->core_brate != FRAME_NO_DATA || NE_32( st->core_brate, SID_2k40 ) ) ) && EQ_16( st->L_frame, L_FRAME16k ) && EQ_16( st->codec_mode, MODE2 ) ) || ( EQ_16( st->L_frame, L_FRAME16k ) && EQ_16( st->codec_mode, MODE1 ) ) ) -#else IF( ( ( ( st->tcxonly == 0 ) || !( st->core_brate != FRAME_NO_DATA && NE_32( st->core_brate, SID_2k40 ) ) ) && EQ_16( st->L_frame, L_FRAME16k ) && EQ_16( st->codec_mode, MODE2 ) ) || ( EQ_16( st->L_frame, L_FRAME16k ) && EQ_16( st->codec_mode, MODE1 ) ) ) -#endif { /* update signal buffers */ Copy( new_inp_resamp16k, st->buf_speech_enc + L_FRAME16k, L_FRAME16k ); diff --git a/lib_enc/prot_fx_enc.h b/lib_enc/prot_fx_enc.h index 2e151df8fec6eaa4744821a7db386395e7551583..d6532b207ae1558aa79c20ed75f88e56466df7d5 100644 --- a/lib_enc/prot_fx_enc.h +++ b/lib_enc/prot_fx_enc.h @@ -61,14 +61,13 @@ ivas_error acelp_core_enc_fx( Word16 old_syn_12k8_16k_fx[], /* o : intermediate ACELP synthesis at 12.8kHz or 16kHz to be used by SWB BWE q_old_syn*/ Word16 pitch_buf_fx[NB_SUBFR16k], /* o : floating pitch for each subframe Q6*/ Word16 *unbits_fx, /* o : number of unused bits Q0*/ + STEREO_TD_ENC_DATA_HANDLE hStereoTD, /* i/o: TD stereo encoder handle */ + const float tdm_lsfQ_PCh[M], /* i : Q LSFs for primary channel */ const Word16 Q_new, const Word16 shift -#ifdef ADD_LRTD - , - STEREO_TD_ENC_DATA_HANDLE hStereoTD, /* i/o: TD stereo encoder handle */ - const float tdm_lsfQ_PCh[M] /* i : Q LSFs for primary channel */ -#endif + ); + void analy_lp_ivas_fx( const Word16 speech[], /* i :(Q_new) pointer to the speech frame */ const Word16 L_frame, /* i :(q0) length of the frame */ @@ -139,13 +138,13 @@ void AVQ_encmux_ivas_fx( void bw_detect_fx( Encoder_State *st, /* i/o: Encoder State */ - const Word16 signal_in[], /* i : i signal */ - Word16 *spectrum, /* i : MDCT spectrum */ - const Word32 *enerBuffer, /* i : CLDFB Energy Q31 */ - const Word16 *cldfbBuf_Ener_Exp, /* i : CLDFB Energy Exponent */ - const IVAS_FORMAT ivas_format, /* i : IVAS format */ - const int16_t mct_on /* i : flag MCT mode */ -); + const Word16 signal_in[], /* i : input signal */ + Word16 *spectrum, /* i : MDCT spectrum Q_spec */ + const Word32 *enerBuffer, /* i : CLDFB Energy Q31 */ + const Word16 *cldfbBuf_Ener_Exp, /* i : CLDFB Energy Exponent */ + const IVAS_FORMAT ivas_format, /* i : IVAS format */ + const Word16 mct_on, /* i : flag MCT mode */ + const Word16 Q_spec ); void core_switching_post_enc_fx( /*done */ Encoder_State *st_fx, /* i/o: encoder state structure */ @@ -178,14 +177,12 @@ void dtx_fx( ); void dtx_ivas_fx( - Encoder_State *st_fx, /* i/o: encoder state structure */ -#ifdef NONBE_1211_DTX_BR_SWITCHING + Encoder_State *st_fx, /* i/o: encoder state structure */ const Word32 last_ivas_total_brate, /* i : last IVAS total bitrate Q0*/ -#endif - const Word32 ivas_total_brate, /* i : IVAS total bitrate Q0*/ - const Word16 vad, /* i : vad flag for DTX Q0*/ - const Word16 speech[], /* i : Pointer to the speech frame Q_speech*/ - Word16 Q_speech /* i : Q factor for speech */ + const Word32 ivas_total_brate, /* i : IVAS total bitrate Q0*/ + const Word16 vad, /* i : vad flag for DTX Q0*/ + const Word16 speech[], /* i : Pointer to the speech frame Q_speech*/ + Word16 Q_speech /* i : Q factor for speech */ ); Word16 dtx_hangover_addition_fx( @@ -287,21 +284,14 @@ Word16 find_uv_fx( /* o : coding type const Word16 *voicing_fr, /* i : refined correlation for each subframes Q15*/ const Word16 *speech, /* i : pointer to speech signal for E computation Q_new*/ const Word32 *ee, /* i : lf/hf Energy ratio for present frame Q6*/ -#ifdef IVAS_CODE - Word32 *dE1X, /* o : sudden energy increase for S/M classifier */ -#endif - const Word16 corr_shift, /* i : normalized correlation correction in noise Q15*/ - const Word16 relE, /* i : relative frame energy Q8*/ - const Word16 Etot, /* i : total energy Q8*/ - const Word32 hp_E[], /* i : energy in HF Q_new + Q_SCALE*/ + const Word16 corr_shift, /* i : normalized correlation correction in noise Q15*/ + const Word16 relE, /* i : relative frame energy Q8*/ + const Word16 Etot, /* i : total energy Q8*/ + const Word32 hp_E[], /* i : energy in HF Q_new + Q_SCALE*/ const Word16 Q_new, Word16 *flag_spitch, /* i/o: flag to indicate very short stable pitch and high correlation Q0*/ const Word16 shift, const Word16 last_core_orig /* i : original last core Q0*/ -#ifdef IVAS_CODE - , - STEREO_CLASSIF_HANDLE hStereoClassif /* i/o: stereo classifier structure */ -#endif ); void fine_gain_quant_fx( @@ -365,14 +355,17 @@ void noise_est_down_ivas_fx( const Word32 fr_bands[], /* i : per band i energy (contains 2 vectors) */ const Word16 q_fr_bands, /* i : Q of fr_bands */ Word32 bckr[], /* i/o: per band background noise energy estimate */ - Word32 tmpN[], /* o : temporary noise update */ - Word32 enr[], /* o : averaged energy over both subframes */ - const Word16 min_band, /* i : minimum critical band */ - const Word16 max_band, /* i : maximum critical band */ - Word16 *totalNoise, /* o : noise estimate over all critical bands */ - Word16 Etot, /* i : Energy of current frame */ - Word16 *Etot_last, /* i/o: Energy of last frame Q8 */ - Word16 *Etot_v_h2 /* i/o: Energy variations of noise frames Q8 */ + Word16 *q_bckr, + Word32 tmpN[], /* o : temporary noise update */ + Word16 *q_tmpN, + Word32 enr[], /* o : averaged energy over both subframes */ + Word16 *q_enr, + const Word16 min_band, /* i : minimum critical band */ + const Word16 max_band, /* i : maximum critical band */ + Word16 *totalNoise, /* o : noise estimate over all critical bands */ + Word16 Etot, /* i : Energy of current frame */ + Word16 *Etot_last, /* i/o: Energy of last frame Q8 */ + Word16 *Etot_v_h2 /* i/o: Energy variations of noise frames Q8 */ ); void noise_est_fx( @@ -402,11 +395,7 @@ void noise_est_fx( const Word32 Le_min_scaled, /*i : Minimum energy value in Q_new + Q_SCALE */ Word16 *sp_floor, /* o : noise floor estimate Q7 */ Word16 S_map[], /* o : short-term correlation map Q7 */ -#ifdef IVAS_CODE - STEREO_CLASSIF_HANDLE hStereoClassif, /* i/o: stereo classifier structure */ - FRONT_VAD_ENC_HANDLE hFrontVad, /* i/o: front-VAD handle */ -#endif - const Word16 ini_frame /* i : Frame number (init) */ + const Word16 ini_frame /* i : Frame number (init) */ ); void noise_est_ivas_fx( Encoder_State *st_fx, /* i/o: state structure */ @@ -639,7 +628,7 @@ void swb_bwe_enc_fx( void swb_bwe_enc_ivas_fx( Encoder_State *st_fx, /* i/o: encoder state structure */ - const int16_t last_element_mode, /* i : last element mode */ + const Word16 last_element_mode, /* i : last element mode */ Word16 *old_input_12k8_fx, /* i : input signal @12.8kHz for SWB BWE */ Word16 *old_input_16k_fx, /* i : input signal @16kHz for SWB BWE */ const Word16 *old_syn_12k8_16k_fx, /* i : ACELP core synthesis at 12.8kHz or 16kHz */ @@ -906,10 +895,6 @@ void lsf_end_enc_fx( Word16 *no_indices, Word16 *bits_param_lpc, Word16 coder_type_raw /* i : Coder type (LSF coder_type have some special cases)*/ -#ifdef LSF_RE_USE_SECONDARY_CHANNEL - , - const Word16 tdm_lsfQ_PCh[M] /* i : Q LSFs for primary channel */ -#endif ); void lsf_end_enc_ivas_fx( @@ -923,10 +908,10 @@ void lsf_end_enc_ivas_fx( Word16 *lpc_param, Word16 *no_indices, Word16 *bits_param_lpc, - Word16 coder_type_raw /* i : Coder type (LSF coder_type have some special cases)*/ - , + Word16 coder_type_raw, /* i : Coder type (LSF coder_type have some special cases)*/ const Word16 tdm_lsfQ_PCh[M] /* i : Q LSFs for primary channel */ ); + void Mode2_abs_pit_enc_fx( Word16 T0, /* i : integer pitch lag */ Word16 T0_frac, /* i : pitch fraction */ @@ -1094,7 +1079,7 @@ Word16 WB_BWE_encoding_fx( /* o : classification of wb Word16 WB_BWE_encoding_ivas_fx( /* o : classification of wb signal */ Encoder_State *st_fx, /* i/o: Encoder structure */ - const Word16 *yos_fx, /* i : MDCT coefficients of weighted original */ + const Word32 *yos_fx, /* i : MDCT coefficients of weighted original */ Word16 *WB_fenv_fx, /* i/o: energy of WB envelope */ Word16 Q_synth, Word16 Q_synth_lf ); @@ -1147,7 +1132,7 @@ void RunTransientDetection_ivas_fx( * @return average temporal flatness measure with exponent AVG_FLAT_E */ Word16 GetTCXAvgTemporalFlatnessMeasure_fx( struct TransientDetection const *pTransientDetection, Word16 nCurrentSubblocks, Word16 nPrevSubblocks ); -Word16 GetTCXAvgTemporalFlatnessMeasure_ivas_fx( struct TransientDetection const *pTransientDetection, Word16 nCurrentSubblocks, Word16 nPrevSubblocks ); +Word32 GetTCXAvgTemporalFlatnessMeasure_ivas_fx( struct TransientDetection const *pTransientDetection, Word16 nCurrentSubblocks, Word16 nPrevSubblocks ); /** Get the maximum energy change using subblock energies aligned with the TCX. * @param pTransientDetection Structure that contains transient detectors to be run. @@ -1250,10 +1235,8 @@ void AVQ_cod_lpc_fx( ); void ProcessIGF_ivas_fx( - Encoder_State *st, /* i : Encoder state */ -#ifdef MSAN_FIX - Word16 powerSpec_len, /* i : length of pPowerSpectrum buffer */ -#endif + Encoder_State *st, /* i : Encoder state */ + Word16 powerSpec_len, /* i : length of pPowerSpectrum buffer */ Word32 *pMDCTSpectrum, /* i : MDCT spectrum */ const Word32 *pITFMDCTSpectrum, /* i : MDCT spectrum fir ITF */ Word16 *q_spectrum, /* i/o: Q of spectrum */ @@ -1298,7 +1281,8 @@ void AnalyzePowerSpectrum_ivas_fx( Word32 const mdctSpectrum[], /* i : MDCT spectrum */ Word16 mdctSpectrum_e, Word16 const signal[], /* i : windowed signal corresponding to mdctSpectrum */ - Word32 powerSpec[], /* o : Power spectrum. Can point to signal */ + const Word16 q_signal, + Word32 powerSpec[], /* o : Power spectrum. Can point to signal */ Word16 powerSpec_e[] ); void AdaptLowFreqEmph_fx( Word32 x[], @@ -1514,6 +1498,14 @@ void ComputeSpectrumNoiseMeasure_fx( const Word32 *powerSpec, Word8 *noiseFlags, Word16 lowpassLine ); +void ComputeSpectrumNoiseMeasure_ivas_fx( Word64 *powerSpec, /* Qx */ + Word16 L_frame, /* Q0 */ + Word16 startLine, /* Q0 */ + Word8 resetMemory, /* Q0 */ + Word8 *noiseFlags, /* Q0 */ + Word16 lowpassLine /* Q0 */ +); + void lpc_quantization_fx( Encoder_State *st, const Word16 lsp[], /* Q15 */ @@ -1569,9 +1561,7 @@ void Mode2_pit_encode_fx( Word16 pit_res_max ); void E_ACELP_4tsearch_fx( Word16 dn[] /*Qdn*/, const Word16 cn[] /*Q_xn*/, const Word16 H[] /*Q12*/, Word16 code[] /*Q9*/, const PulseConfig *config, Word16 ind[] /*Q0*/, Word16 y[] /*Qy*/ ); -#ifdef FIX_ISSUE_1165 void E_ACELP_4tsearch_ivas_fx( Word16 dn[] /*Qdn*/, const Word16 cn[] /*Q_xn*/, const Word16 H[] /*Q12*/, Word16 code[] /*Q9*/, const PulseConfig *config, Word16 ind[] /*Q0*/, Word16 y[] /*Qy*/ ); -#endif void E_ACELP_4t_fx( Word16 dn[], /* Qdn */ @@ -1601,7 +1591,7 @@ void E_ACELP_4t_ivas_fx( const Word16 last_L_frame, const Word32 total_brate, const Word16 i_subfr, - const int16_t cmpl_flag, + const Word16 cmpl_flag, Word16 element_mode ); void E_ACELP_innovative_codebook_fx( @@ -1853,9 +1843,6 @@ void lsf_enc_fx( const Word16 Nb_ACELP_frames, const Word16 tdm_low_rate_mode, /* i : secondary channel low rate mode flag */ const Word16 GSC_IVAS_mode, /* i : GSC IVAS mode */ -#ifdef LSF_RE_USE_SECONDARY_CHANNEL - const float tdm_lsfQ_PCh[M], /* i : Q LSFs for primary channel */ -#endif const Word16 Q_new ); void lsf_enc_ivas_fx( @@ -1868,6 +1855,7 @@ void lsf_enc_ivas_fx( const Word16 GSC_IVAS_mode, /* i : GSC IVAS mode */ const Word16 tdm_lsfQ_PCh[M], /* i : Q LSFs for primary channel */ const Word16 Q_new ); + void Es_pred_enc_fx( Word16 *Es_pred, /* o : predicited scaled innovation energy Q8*/ Word16 *indice, /* o : indice of quantization Q0*/ @@ -2061,7 +2049,7 @@ void encod_unvoiced_ivas_fx( const Word16 Es_pred, /* i : predicted scaled innov. energy Q8*/ const Word16 uc_two_stage_flag, /* i : flag indicating two-stage UC Q0*/ const Word16 *res_fx, /* i : residual signal Q_new*/ - Word16 *syn_fx, /* o : core synthesis Q_new*/ + Word16 *syn_fx, /* o : core synthesis Q_new - 1*/ Word16 *tmp_noise_fx, /* o : long-term noise energy Q0*/ Word16 *exc_fx, /* i/o: current non-enhanced excitation Q_new*/ Word16 *pitch_buf_fx, /* o : floating pitch values for each subframe Q6*/ @@ -2208,10 +2196,6 @@ void stat_noise_uv_enc_ivas_fx( void analy_sp_fx( const Word16 element_mode, /* i : element mode */ -#ifdef IVAS_CODE_CPE - CPE_ENC_HANDLE hCPE, /* i/o: CPE encoder structure */ -#endif - const Word32 input_Fs, /* i : i sampling rate */ Word16 *speech, /* i : speech buffer Q_new - preemph_bits */ const Word16 Q_new, /* i : current scaling exp Q0 */ Word32 *fr_bands, /* o : energy in critical frequency bands Q_new + QSCALE */ @@ -2348,6 +2332,21 @@ void find_targets_ivas_fx( Word16 *h1 /* o : impulse response of weighted synthesis filter Q(14 - norm_s(h1[0]))*/ ); +void find_targets_ivas_new_fx( + const Word16 *speech, /* i : pointer to the speech frame Q_new-1*/ + const Word16 *mem_syn, /* i : memory of the synthesis filter Q_new-1*/ + const Word16 i_subfr, /* i : subframe index Q0*/ + Word16 *mem_w0, /* i/o: weighting filter denominator memory Q_new-1*/ + const Word16 *p_Aq, /* i : interpolated quantized A(z) filter Q12*/ + const Word16 *res, /* i : residual signal Q_new*/ + const Word16 L_subfr, /* i : length of vectors for gain quantization Q0*/ + const Word16 *Ap, /* i : unquantized A(z) filter with bandwidth expansion Q12*/ + Word16 tilt_fac, /* i : tilt factor Q15*/ + Word16 *xn, /* o : Close-loop Pitch search target vector Q_new-1*/ + Word16 *cn, /* o : target vector in residual domain Q_new*/ + Word16 *h1 /* o : impulse response of weighted synthesis filter Q(14 - norm_s(h1[0]))*/ +); + void E_ACELP_adaptive_codebook( Word16 *exc, /* i : pointer to the excitation frame Q_new */ Word16 T0, /* i : integer pitch lag Q0 */ @@ -3095,19 +3094,17 @@ void IGFEncApplyMono_fx( const IGF_ENC_INSTANCE_HANDLE hInstance, /**< in: | Word16 last_core_acelp /**< in: Q0 | indictaor if last frame was acelp coded */ ); -void IGFEncApplyMono_ivas_fx( Encoder_State *st, /* i : Encoder state */ -#ifdef MSAN_FIX - Word16 powerSpectrum_len, /* i: length of pPowerSpectrum_fx*/ -#endif - const int16_t igfGridIdx, /* i : IGF grid index */ - Word32 *pMDCTSpectrum_fx, /* i/o: MDCT spectrum */ - Word16 e_mdct, /* i : exponent of pMDCTspectrum */ - Word32 *pPowerSpectrum_fx, /* i/o: MDCT^2 + MDST^2 spectrum, or estimate */ - Word16 *e_ps, /* i : exponent of pPowerSpectrum */ - const int16_t isTCX20, /* i : flag indicating if the input is TCX20 or TCX10/2xTCX5 */ - const int8_t isTNSActive, /* i : flag indicating if the TNS is active */ - const int16_t sp_aud_decision0, /* i : first stage switching decision */ - const int16_t vad_hover_flag /* i : VAD hangover flag */ +void IGFEncApplyMono_ivas_fx( Encoder_State *st, /* i : Encoder state */ + Word16 powerSpectrum_len, /* i: length of pPowerSpectrum_fx*/ + const Word16 igfGridIdx, /* i : IGF grid index */ + Word32 *pMDCTSpectrum_fx, /* i/o: MDCT spectrum */ + Word16 e_mdct, /* i : exponent of pMDCTspectrum */ + Word32 *pPowerSpectrum_fx, /* i/o: MDCT^2 + MDST^2 spectrum, or estimate */ + Word16 *e_ps, /* i : exponent of pPowerSpectrum */ + const Word16 isTCX20, /* i : flag indicating if the input is TCX20 or TCX10/2xTCX5 */ + const Word8 isTNSActive, /* i : flag indicating if the TNS is active */ + const Word16 sp_aud_decision0, /* i : first stage switching decision */ + const Word16 vad_hover_flag /* i : VAD hangover flag */ ); void IGFEncConcatenateBitstream_ivas_fx( const IGF_ENC_INSTANCE_HANDLE hIGFEnc, /* i : instance handle of IGF Encoder */ diff --git a/lib_enc/pvq_core_enc_fx.c b/lib_enc/pvq_core_enc_fx.c index 214522126120348426c0f9a7d5bc2569f584a903..e2d5fb264df53fc69c0fed15ffac3d9a28f98984 100644 --- a/lib_enc/pvq_core_enc_fx.c +++ b/lib_enc/pvq_core_enc_fx.c @@ -553,10 +553,10 @@ Word16 pvq_core_enc_ivas_fx( ivas_fine_gain_pred_fx( sfm_start, sfm_end, sfmsize, ord, npulses, maxpulse, R, nb_sfm, coefs_quant, pulse_vector, fg_pred, core ); - fine_gain_quant_ivas_fx( hBstr, ord, nb_sfm, gain_bits_array, fg_pred, gopt ); + fine_gain_quant_fx( hBstr, ord, nb_sfm, gain_bits_array, fg_pred, gopt ); apply_gain_fx( ord, sfm_start, sfm_end, nb_sfm, fg_pred, coefs_quant ); - *Q_coefs = 11; + *Q_coefs = 12; move16(); return add( pvq_bits, gain_bits_tot ); } diff --git a/lib_enc/qlpc_avq_fx.c b/lib_enc/qlpc_avq_fx.c index 13e0a3cf7e196cb86b31882c04a719a52bd8d1f0..288612e43c16582526989a2cc89db455fa19aed6 100644 --- a/lib_enc/qlpc_avq_fx.c +++ b/lib_enc/qlpc_avq_fx.c @@ -143,12 +143,12 @@ static Word16 unary_code( FOR( ; ind > 0; ind-- ) { - push_next_indice_fx( hBstr, 1, 1 ); + push_next_indice( hBstr, 1, 1 ); nb_bits = add( nb_bits, 1 ); // Q0 } /* Stop bit */ - push_next_indice_fx( hBstr, 0, 1 ); + push_next_indice( hBstr, 0, 1 ); return ( nb_bits ); } @@ -195,7 +195,7 @@ static Word16 unpack4bits( IF( nbits == 0 ) { - push_next_indice_fx( hBstr, 0, 0 ); + push_next_indice( hBstr, 0, 0 ); i = 1; move16(); } @@ -206,10 +206,10 @@ static Word16 unpack4bits( FOR( ; nbits > 4; nbits -= 4 ) { - push_next_indice_fx( hBstr, prm[i], 4 ); + push_next_indice( hBstr, prm[i], 4 ); i = add( i, 1 ); } - push_next_indice_fx( hBstr, prm[i], nbits ); + push_next_indice( hBstr, prm[i], nbits ); i = add( i, 1 ); } @@ -330,7 +330,7 @@ Word16 encode_lpc_avq_fx( { nb = 1; move16(); - push_next_indice_fx( hBstr, q_type, nb ); + push_next_indice( hBstr, q_type, nb ); } nb_bits = add( nb_bits, nb ); // Q0 @@ -342,7 +342,7 @@ Word16 encode_lpc_avq_fx( IF( ( ( q_type == 0 ) && NE_16( element_mode, IVAS_CPE_MDCT ) ) || ( ( q_type == 0 ) && ( GE_16( st1, 0 ) ) && EQ_16( element_mode, IVAS_CPE_MDCT ) ) ) { /* Absolute quantizer with 1st stage stochastic codebook */ - push_next_indice_fx( hBstr, st1, bits_for_abs_quant ); + push_next_indice( hBstr, st1, bits_for_abs_quant ); nb_bits = add( nb_bits, bits_for_abs_quant ); // Q0 } @@ -350,7 +350,7 @@ Word16 encode_lpc_avq_fx( test(); IF( EQ_16( element_mode, IVAS_CPE_MDCT ) && EQ_16( stereo_mode, 3 ) && st1 < 0 ) { - push_next_indice_fx( hBstr, add( st1, 2 ), 1 ); + push_next_indice( hBstr, add( st1, 2 ), 1 ); nb_bits = add( nb_bits, 1 ); // Q0 } @@ -368,7 +368,7 @@ Word16 encode_lpc_avq_fx( move16(); i = 3; } - push_next_indice_fx( hBstr, i, 2 ); + push_next_indice( hBstr, i, 2 ); i = sub( qn2, 2 ); @@ -377,7 +377,7 @@ Word16 encode_lpc_avq_fx( move16(); i = 3; } - push_next_indice_fx( hBstr, i, 2 ); + push_next_indice( hBstr, i, 2 ); /* Unary code for abs and rel LPC0/LPC2 */ /* Q5 = 0, Q6=10, Q0=110, Q7=1110, ... */ diff --git a/lib_enc/range_enc_fx.c b/lib_enc/range_enc_fx.c index 05916e8013e76d05abec274e198c039c9e23c48e..767b2ecb5a98bc692e6a0bbcecf7e9ba3213e7b9 100644 --- a/lib_enc/range_enc_fx.c +++ b/lib_enc/range_enc_fx.c @@ -10,7 +10,6 @@ #include "rom_com.h" /* Static table prototypes */ //#include "prot_fx.h" /* Function prototypes */ #include "prot_fx.h" /* Function prototypes */ -#include "prot.h" /* Function prototypes */ #include "prot_fx_enc.h" /* Function prototypes */ @@ -424,14 +423,14 @@ void rc_enc_bits_fx( IF( GT_16( bits, 16 ) ) { - push_indice_fx( hBstr, sub( IND_RC_END, hPVQ->rc_offset ), u_extract_l( UL_lshr( value, 16 ) ), sub( bits, 16 ) ); + push_indice( hBstr, sub( IND_RC_END, hPVQ->rc_offset ), u_extract_l( UL_lshr( value, 16 ) ), sub( bits, 16 ) ); hPVQ->rc_offset = add( hPVQ->rc_offset, 1 ); // Q0 - push_indice_fx( hBstr, sub( IND_RC_END, hPVQ->rc_offset ), u_extract_l( UL_and( value, 0x0000ffff ) ), 16 ); + push_indice( hBstr, sub( IND_RC_END, hPVQ->rc_offset ), u_extract_l( UL_and( value, 0x0000ffff ) ), 16 ); hPVQ->rc_offset = add( hPVQ->rc_offset, 1 ); // Q0 } ELSE { - push_indice_fx( hBstr, sub( IND_RC_END, hPVQ->rc_offset ), u_extract_l( value ), bits ); + push_indice( hBstr, sub( IND_RC_END, hPVQ->rc_offset ), u_extract_l( value ), bits ); hPVQ->rc_offset = add( hPVQ->rc_offset, 1 ); // Q0 } } @@ -517,7 +516,7 @@ static void rc_enc_write_fx( Word16 bits /* i : Number of bits Q0*/ ) { - push_indice_fx( hBstr, IND_RC_START, byte, bits ); + push_indice( hBstr, IND_RC_START, byte, bits ); return; } diff --git a/lib_enc/setmodeindex.c b/lib_enc/setmodeindex.c deleted file mode 100644 index b7ff1d2b6e0168346e72a3b932262e7de13286c1..0000000000000000000000000000000000000000 --- a/lib_enc/setmodeindex.c +++ /dev/null @@ -1,97 +0,0 @@ -/****************************************************************************************************** - - (C) 2022-2025 IVAS codec Public Collaboration with portions copyright Dolby International AB, Ericsson AB, - Fraunhofer-Gesellschaft zur Foerderung der angewandten Forschung e.V., Huawei Technologies Co. LTD., - Koninklijke Philips N.V., Nippon Telegraph and Telephone Corporation, Nokia Technologies Oy, Orange, - Panasonic Holdings Corporation, Qualcomm Technologies, Inc., VoiceAge Corporation, and other - contributors to this repository. All Rights Reserved. - - This software is protected by copyright law and by international treaties. - The IVAS codec Public Collaboration consisting of Dolby International AB, Ericsson AB, - Fraunhofer-Gesellschaft zur Foerderung der angewandten Forschung e.V., Huawei Technologies Co. LTD., - Koninklijke Philips N.V., Nippon Telegraph and Telephone Corporation, Nokia Technologies Oy, Orange, - Panasonic Holdings Corporation, Qualcomm Technologies, Inc., VoiceAge Corporation, and other - contributors to this repository retain full ownership rights in their respective contributions in - the software. This notice grants no license of any kind, including but not limited to patent - license, nor is any license granted by implication, estoppel or otherwise. - - Contributors are required to enter into the IVAS codec Public Collaboration agreement before making - contributions. - - This software is provided "AS IS", without any express or implied warranties. The software is in the - development stage. It is intended exclusively for experts who have experience with such software and - solely for the purpose of inspection. All implied warranties of non-infringement, merchantability - and fitness for a particular purpose are hereby disclaimed and excluded. - - Any dispute, controversy or claim arising under or in relation to providing this software shall be - submitted to and settled by the final, binding jurisdiction of the courts of Munich, Germany in - accordance with the laws of the Federal Republic of Germany excluding its conflict of law rules and - the United Nations Convention on Contracts on the International Sales of Goods. - -*******************************************************************************************************/ - -/*==================================================================================== - EVS Codec 3GPP TS26.443 Nov 04, 2021. Version 12.14.0 / 13.10.0 / 14.6.0 / 15.4.0 / 16.3.0 - ====================================================================================*/ - -#include -#include "options.h" -#include "prot.h" -#include "cnst.h" -#include "ivas_cnst.h" -#include "wmc_auto.h" -#include "prot_fx.h" - -/*--------------------------------------------------------------------------- - - function name: SetModeIndex - description: function for configuring the codec between frames - currently bitrate and bandwidth only - must not be called while a frame is encoded - hence mutexes must be used in MT environments - - format: BANDWIDTH*16 + BITRATE (mode index) - - ---------------------------------------------------------------------------*/ - -void SetModeIndex_ivas_fx( - Encoder_State *st, /* i : Encoder state */ - const Word32 last_total_brate, /* i : last total bitrate Q0*/ - const Word16 last_element_mode, /* i : last IVAS element mode Q0*/ - const Word16 MCT_flag /* i : hMCT handle allocated (1) or not (0) Q0*/ -) -{ - Word16 ini_frame_loc = st->ini_frame; // Q0 - move16(); - - test(); - test(); - IF( EQ_16( st->element_mode, IVAS_CPE_MDCT ) && NE_16( last_element_mode, IVAS_CPE_MDCT ) && EQ_16( st->idchan, 1 ) ) - { - st->ini_frame = 0; - move16(); - } - - test(); - test(); - test(); - test(); - test(); - test(); - test(); - test(); - test(); - /* Reconfigure the core coder */ - IF( ( NE_32( last_total_brate, st->total_brate ) ) || - ( NE_16( st->last_bwidth, st->bwidth ) ) || - ( EQ_16( st->last_codec_mode, MODE1 ) && EQ_16( st->element_mode, EVS_MONO ) ) || - ( ( NE_16( st->last_core, TCX_20_CORE ) && NE_16( st->last_core, TCX_10_CORE ) ) && GT_16( st->element_mode, EVS_MONO ) ) || - ( NE_16( st->rf_mode_last, st->rf_mode ) ) || - ( st->element_mode > EVS_MONO && st->ini_frame == 0 ) ) - { - core_coder_mode_switch_ivas_fx( st, last_total_brate, MCT_flag ); - } - - st->ini_frame = ini_frame_loc; // Q0 - move16(); - - return; -} diff --git a/lib_enc/setmodeindex_fx.c b/lib_enc/setmodeindex_fx.c index fc3025f5132805d4827637794a00375fb9202f2d..012c5757f2b9ea041c5bb4541e580f11fd27e656 100644 --- a/lib_enc/setmodeindex_fx.c +++ b/lib_enc/setmodeindex_fx.c @@ -55,3 +55,48 @@ void SetModeIndex_fx( return; } + + +void SetModeIndex_ivas_fx( + Encoder_State *st, /* i : Encoder state */ + const Word32 last_total_brate, /* i : last total bitrate Q0*/ + const Word16 last_element_mode, /* i : last IVAS element mode Q0*/ + const Word16 MCT_flag /* i : hMCT handle allocated (1) or not (0) Q0*/ +) +{ + Word16 ini_frame_loc = st->ini_frame; // Q0 + move16(); + + test(); + test(); + IF( EQ_16( st->element_mode, IVAS_CPE_MDCT ) && NE_16( last_element_mode, IVAS_CPE_MDCT ) && EQ_16( st->idchan, 1 ) ) + { + st->ini_frame = 0; + move16(); + } + + test(); + test(); + test(); + test(); + test(); + test(); + test(); + test(); + test(); + /* Reconfigure the core coder */ + IF( ( NE_32( last_total_brate, st->total_brate ) ) || + ( NE_16( st->last_bwidth, st->bwidth ) ) || + ( EQ_16( st->last_codec_mode, MODE1 ) && EQ_16( st->element_mode, EVS_MONO ) ) || + ( ( NE_16( st->last_core, TCX_20_CORE ) && NE_16( st->last_core, TCX_10_CORE ) ) && GT_16( st->element_mode, EVS_MONO ) ) || + ( NE_16( st->rf_mode_last, st->rf_mode ) ) || + ( st->element_mode > EVS_MONO && st->ini_frame == 0 ) ) + { + core_coder_mode_switch_ivas_fx( st, last_total_brate, MCT_flag ); + } + + st->ini_frame = ini_frame_loc; // Q0 + move16(); + + return; +} diff --git a/lib_enc/spec_flatness_fx.c b/lib_enc/spec_flatness_fx.c index c2451886dac977208e677dc5ca833459b53afa5e..d7bd9a6e9f2da301d4b1ffbb3c19e4c3b1248e9a 100644 --- a/lib_enc/spec_flatness_fx.c +++ b/lib_enc/spec_flatness_fx.c @@ -221,11 +221,7 @@ void spec_flatness_fx( SFM_Qtmp = sub( SFM_Qtmp, SPEC_AMP_Q ); SFM_Qtmp = sub( SFM_Qtmp, SFM_Q ); -#ifdef FIX_ISSUE_1209 sSFM[1] = add_sat( mult( sSFM[1], 0x6ccc ), shr( mult( SFM, 0x1333 ), SFM_Qtmp ) ); -#else - sSFM[1] = add( mult( sSFM[1], 0x6ccc ), shr( mult( SFM, 0x1333 ), SFM_Qtmp ) ); -#endif move16(); /*sSFM3*/ diff --git a/lib_enc/speech_music_classif_fx.c b/lib_enc/speech_music_classif_fx.c index 295cff8a1a889597baf9340d513c08348b248002..3f6449a0c833664e90dec64c1e959ea729483a92 100644 --- a/lib_enc/speech_music_classif_fx.c +++ b/lib_enc/speech_music_classif_fx.c @@ -17,9 +17,7 @@ #include "debug.h" #endif #include -#include "ivas_prot.h" #include "ivas_prot_fx.h" -#include "prot.h" /*---------------------------------------------------------------------* @@ -55,16 +53,7 @@ static void tonal_context_improv_fx( Encoder_State *st_fx, const Word32 PS[], co static void var_cor_calc_fx( const Word16 old_corr, Word16 *mold_corr, Word16 var_cor_t[], Word16 *high_stable_cor ); -static Word16 attack_det_fx( const Word16 *inp, const Word16 Qx, const Word16 last_clas, const Word16 localVAD, const Word16 coder_type, const Word32 total_brate -#ifdef IVAS_CODE - , - const Word16 element_mode, - const Word16 clas, - Word32 finc_prev[], - Word32 *lt_finc, - Word16 *last_strong_attack -#endif -); +static Word16 attack_det_fx( const Word16 *inp, const Word16 Qx, const Word16 last_clas, const Word16 localVAD, const Word16 coder_type, const Word32 total_brate ); static void order_spectrum_fx( Word16 *vec, Word16 len ); @@ -867,16 +856,7 @@ static Word16 sp_mus_classif_gmm_fx( /* o : decis FOR( i = LOWEST_FBIN; i < HIGHEST_FBIN; i++ ) { /*mx = PS_norm[i] > st->past_PS[i] ? PS_norm[i] : st->past_PS[i];*/ - IF( GT_32( PS_norm[i], hSpMusClas->past_PS_fx[i - LOWEST_FBIN] ) ) - { - mx = PS_norm[i]; - move16(); /*Q25 */ - } - ELSE - { - mx = hSpMusClas->past_PS_fx[i - LOWEST_FBIN]; - move16(); /*Q25 */ - } + mx = L_max( PS_norm[i], hSpMusClas->past_PS_fx[i - LOWEST_FBIN] ); /*Q25 */ /*ps_sta += mx / (dPS[i] + 1e-5f);*/ IF( !dPS[i] ) @@ -901,20 +881,12 @@ static Word16 sp_mus_classif_gmm_fx( /* o : decis tmp = div_s( tmp2, tmp1 ); /*Q(15+exp3) */ L_tmp = L_shl( tmp, sub( 1, exp3 ) ); /*Q16 */ -#ifdef FIX_ISSUE_1151 - ps_sta = L_add_sat( ps_sta, L_tmp ); /*Q16 */ -#else - ps_sta = L_add( ps_sta, L_tmp ); /*Q16 */ -#endif + ps_sta = L_add_sat( ps_sta, L_tmp ); /*Q16 */ } } /**pFV++ = (float)log(ps_sta + 1e-5f);*/ -#ifdef FIX_ISSUE_1151 ps_sta = L_add_sat( ps_sta, 336 ); -#else - ps_sta = L_add( ps_sta, 336 ); -#endif e_tmp = norm_l( ps_sta ); f_tmp = Log2_norm_lc( L_shl( ps_sta, e_tmp ) ); e_tmp = sub( 30 - 16, e_tmp ); @@ -1336,12 +1308,7 @@ static void sp_mus_classif_2nd_fx( var_cor_calc_fx( st->old_corr_fx, &hSpMusClas->mold_corr_fx, hSpMusClas->var_cor_t_fx, &hSpMusClas->high_stable_cor ); /* attack detection */ - attack = attack_det_fx( inp, Qx, st->clas, st->localVAD, st->coder_type, st->total_brate -#ifdef IVAS_CODE - , - EVS_MONO, st->clas, hSpMusClas->finc_prev, &hSpMusClas->lt_finc, &hSpMusClas->last_strong_attack -#endif - ); + attack = attack_det_fx( inp, Qx, st->clas, st->localVAD, st->coder_type, st->total_brate ); test(); test(); @@ -1487,22 +1454,11 @@ static Word16 attack_det_fx( /* o : attack flag const Word16 localVAD, /* i : local VAD flag */ const Word16 coder_type, /* i : coder type */ const Word32 total_brate /* i : total bitrate */ -#ifdef IVAS_CODE - , - const Word16 element_mode, /* i : IVAS element mode */ - const Word16 clas, /* i : signal class */ - Word32 finc_prev[], /* i/o: previous finc */ - Word32 *lt_finc, /* i/o: long-term mean finc */ - Word16 *last_strong_attack /* i/o: last strong attack flag */ -#endif ) { Word16 i, j, tmp, tmp1, attack, exp1; Word32 L_tmp, etmp, etmp2, finc[ATT_NSEG]; Word16 att_3lsub_pos; -#ifdef IVAS_CODE - Word16 attack1; -#endif #ifdef BASOP_NOGLOB_DECLARE_LOCAL Flag Overflow = 0; move16(); @@ -1531,10 +1487,6 @@ static Word16 attack_det_fx( /* o : attack flag } attack = maximum_32_fx( finc, ATT_NSEG, &etmp ); -#ifdef IVAS_CODE - attack1 = attack; - move16(); -#endif move16(); test(); IF( EQ_16( localVAD, 1 ) && EQ_16( coder_type, GENERIC ) ) @@ -1600,37 +1552,6 @@ static Word16 attack_det_fx( /* o : attack flag } } } -#ifdef IVAS_CODE - test(); - test(); - test(); - IF( attack == 0 && GT_16( element_mode, EVS_MONO ) && ( LT_16( clas, VOICED_TRANSITION ) || EQ_16( clas, ONSET ) ) ) - { - Copy32( finc, finc_prev, attack1 ); - - /* compute mean energy before the attack */ - etmp = L_shr( sum32_fx( finc_prev, ATT_NSEG ), 5 ); /*ATT_NSEG == 32*/ - - etmp2 = finc[attack1]; - move32(); - test(); - test(); - if ( ( LT_32( L_shl( etmp, 4 ), etmp2 ) ) || ( LT_32( L_mult0( etmp, 12 ), etmp2 ) && EQ_16( last_clas, UNVOICED_CLAS ) ) ) - { - attack = attack1; - move16(); - } - PMT( "Size of lf_finc not verified yet" ) - test(); - if ( GT_32( L_mult0( 20, *lt_finc ), etmp2 ) || *last_strong_attack ) /*lt_finc assumes same Q as etmp2, TBV!!!! */ - { - attack = 0; - move16(); - } - } - *last_strong_attack = attack; - move16(); -#endif } ELSE IF( attack > 0 ) { @@ -1647,10 +1568,6 @@ static Word16 attack_det_fx( /* o : attack flag BREAK; } } -#ifdef IVAS_CODE - *last_strong_attack = 0; - move16(); -#endif } return attack; @@ -1683,11 +1600,9 @@ Word16 ivas_smc_gmm_fx( Word16 flag_odv; Word32 lps_fx, lpm_fx, lpn_fx; Word32 ps_fx[N_SMC_MIXTURES], pm_fx[N_SMC_MIXTURES], pn_fx[N_SMC_MIXTURES]; - Word32 lprob_fx; - Word16 lprob_exp = 0; + Word64 wprob_fx; Word32 fvm_fx[N_PCA_COEF]; - Word16 fvm_exp = 0; - Word32 sum_PS_fx, ps_diff_fx, ps_sta_fx; + Word32 sum_PS_fx, ps_diff_fx; Word32 dlp_fx, wrelE_fx, wdrop_fx, wght_fx; Word32 wrise_fx; Word16 dlp_mean2var_fx; @@ -2065,27 +1980,21 @@ Word16 ivas_smc_gmm_fx( move32(); /* [14] ps_sta (spectral stationarity) */ - ps_sta_fx = 0; + Word32 ps_sta_fx = 0; move32(); Word16 ps_sta_exp = 0; move16(); + Word32 avoid_divide_by_zero; + avoid_divide_by_zero = L_shr( 21475, sub( 31, Qfact_PS_past ) ); // 21475 = 1e-5 in Q31 + FOR( i = LOWEST_FBIN; i < HIGHEST_FBIN; i++ ) { - IF( GT_32( PS_norm_fx[i], hSpMusClas->past_PS_fx[i - LOWEST_FBIN] ) ) - { - temp32 = BASOP_Util_Divide3232_Scale_cadence( PS_norm_fx[i], ( L_add( dPS_fx[i], L_shr( 21475, sub( 31, Qfact_PS_past ) ) ) ), &temp_exp ); // 31-temp_exp - move32(); - ps_sta_fx = BASOP_Util_Add_Mant32Exp( temp32, temp_exp, ps_sta_fx, ps_sta_exp, &ps_sta_exp ); - move32(); - } - ELSE - { - // ps_sta += hSpMusClas->past_PS[i - LOWEST_FBIN] / ( dPS[i] + 1e-5f ); - temp32 = BASOP_Util_Divide3232_Scale_cadence( hSpMusClas->past_PS_fx[i - LOWEST_FBIN], ( L_add( dPS_fx[i], L_shr( 21475, sub( 31, Qfact_PS_past ) ) ) ), &temp_exp ); // 31-temp_exp - ps_sta_fx = BASOP_Util_Add_Mant32Exp( temp32, temp_exp, ps_sta_fx, ps_sta_exp, &ps_sta_exp ); - } + Word32 tmp_max; + tmp_max = L_max( PS_norm_fx[i], hSpMusClas->past_PS_fx[i - LOWEST_FBIN] ); + + temp32 = BASOP_Util_Divide3232_Scale_cadence( tmp_max, L_add( dPS_fx[i], avoid_divide_by_zero ), &temp_exp ); // 31-temp_exp + ps_sta_fx = BASOP_Util_Add_Mant32Exp( temp32, temp_exp, ps_sta_fx, ps_sta_exp, &ps_sta_exp ); } - // temp32_log = L_add( BASOP_Util_Log2( L_add( ps_sta_fx, L_shr( 21475, ps_sta_exp ) ) ), L_shl( ps_sta_exp, Q25 ) ); temp32_log = L_add( BASOP_Util_Log2( L_add_sat( ps_sta_fx, L_shr( 21475, ps_sta_exp ) ) ), L_shl( ps_sta_exp, Q25 ) ); temp32_log = Mpy_32_32( temp32_log, 1488522239 ); /*logf(x) = log2(x)*logf(2)*/ *pFV_fx++ = L_shr( temp32_log, Q5 ); // logf( ps_sta + 1e-5f ); @@ -2273,23 +2182,16 @@ Word16 ivas_smc_gmm_fx( FOR( m = 0; m < N_SMC_MIXTURES; m++ ) { v_sub32_fx( FV_fx, &means_speech_fx[m * N_PCA_COEF], fvm_fx, N_PCA_COEF ); - fvm_exp = sub( 31, Qfact_FV ); - lprob_exp = 0; - move16(); - lprob_fx = dot_product_cholesky_fixed( fvm_fx, &prec_chol_speech_fx[m * ( N_PCA_COEF * N_PCA_COEF + N_PCA_COEF ) / 2], N_PCA_COEF, fvm_exp, 31 - 28, &lprob_exp ); - ps_fx[m] = L_sub( L_sub( L_add( log_weights_speech_compute[m], log_det_chol_speech_fx[m] ), L_shl( lprob_fx, sub( Q18 - 1, sub( Q31, lprob_exp ) ) ) ), HALF_N_PCA_COEF_LOG_P12_Q18 ); // Q18 + wprob_fx = dot_product_cholesky_fixed( fvm_fx, &prec_chol_speech_fx[m * ( N_PCA_COEF * N_PCA_COEF + N_PCA_COEF ) / 2], N_PCA_COEF ); // Q10 + ps_fx[m] = L_sub( L_sub( L_add( log_weights_speech_compute[m], log_det_chol_speech_fx[m] ), W_extract_l( W_shr( wprob_fx, Q10 ) ) ), HALF_N_PCA_COEF_LOG_P12_Q18 ); // Q18 move32(); v_sub32_fx( FV_fx, &means_music_fx[m * N_PCA_COEF], fvm_fx, N_PCA_COEF ); - lprob_exp = 0; - move16(); - lprob_fx = dot_product_cholesky_fixed( fvm_fx, &prec_chol_music_fx[m * ( N_PCA_COEF * N_PCA_COEF + N_PCA_COEF ) / 2], N_PCA_COEF, fvm_exp, 31 - 28, &lprob_exp ); - pm_fx[m] = L_sub( L_sub( L_add( log_weights_music_compute[m], log_det_chol_music_fx[m] ), L_shl( lprob_fx, sub( Q18 - 1, sub( Q31, lprob_exp ) ) ) ), HALF_N_PCA_COEF_LOG_P12_Q18 ); // Q18 + wprob_fx = dot_product_cholesky_fixed( fvm_fx, &prec_chol_music_fx[m * ( N_PCA_COEF * N_PCA_COEF + N_PCA_COEF ) / 2], N_PCA_COEF ); // Q10 + pm_fx[m] = L_sub( L_sub( L_add( log_weights_music_compute[m], log_det_chol_music_fx[m] ), W_extract_l( W_shr( wprob_fx, Q10 ) ) ), HALF_N_PCA_COEF_LOG_P12_Q18 ); // Q18 move32(); v_sub32_fx( FV_fx, &means_noise_fx[m * N_PCA_COEF], fvm_fx, N_PCA_COEF ); - lprob_exp = 0; - move16(); - lprob_fx = dot_product_cholesky_fixed( fvm_fx, &prec_chol_noise_fx[m * ( N_PCA_COEF * N_PCA_COEF + N_PCA_COEF ) / 2], N_PCA_COEF, fvm_exp, 31 - 28, &lprob_exp ); - pn_fx[m] = L_sub( L_sub( L_add( log_weights_noise_compute[m], log_det_chol_noise_fx[m] ), L_shl( lprob_fx, sub( Q18 - 1, sub( Q31, lprob_exp ) ) ) ), HALF_N_PCA_COEF_LOG_P12_Q18 ); // Q18 + wprob_fx = dot_product_cholesky_fixed( fvm_fx, &prec_chol_noise_fx[m * ( N_PCA_COEF * N_PCA_COEF + N_PCA_COEF ) / 2], N_PCA_COEF ); // Q10 + pn_fx[m] = L_sub( L_sub( L_add( log_weights_noise_compute[m], log_det_chol_noise_fx[m] ), W_extract_l( W_shr( wprob_fx, Q10 ) ) ), HALF_N_PCA_COEF_LOG_P12_Q18 ); // Q18 move32(); } @@ -2303,21 +2205,12 @@ Word16 ivas_smc_gmm_fx( *high_lpn_flag = 1; move32(); } -#ifndef FIX_1297_OVERFLOW - hSpMusClas->lpm_fx = extract_l( L_shr( lpm_fx, 11 ) ); // Q7 - move16(); - hSpMusClas->lps_fx = extract_l( L_shr( lps_fx, 11 ) ); // Q7 - move16(); - hSpMusClas->lpn_fx = extract_l( L_shr( lpn_fx, 11 ) ); // Q7 - move16(); -#else hSpMusClas->lpm_fx = extract_h( L_shl_sat( lpm_fx, 16 - 11 ) ); // Q7 move16(); hSpMusClas->lps_fx = extract_h( L_shl_sat( lps_fx, 16 - 11 ) ); // Q7 move16(); hSpMusClas->lpn_fx = extract_h( L_shl_sat( lpn_fx, 16 - 11 ) ); // Q7 move16(); -#endif /* determine HQ Generic speech class */ IF( st->hHQ_core != NULL ) { @@ -3040,11 +2933,11 @@ void ivas_smc_mode_selection_fx( ton = tonal_det_fx( S_map, st->vad_flag, hSpMusClas->tod_S_map_lt_fx, &hSpMusClas->tod_thr_lt_fx, &hSpMusClas->tod_weight_fx, &hSpMusClas->tod_S_mass_prev_fx, &hSpMusClas->tod_S_mass_lt_fx ); // Q22 /* calculate spectral peak-to-average ratio */ - Word16 shift = sub( add( Q_new, Q_SCALE - 2 ), st->hSpMusClas->Q_tod_lt_Bin_E ); + Word16 shift = sub( st->q_Bin_E, st->hSpMusClas->Q_tod_lt_Bin_E ); FOR( i = 0; i < TOD_NSPEC; i++ ) { // st->hSpMusClas->tod_lt_Bin_E[i] = P2A_FACT * st->hSpMusClas->tod_lt_Bin_E[i] + ( 1 - P2A_FACT ) * st->Bin_E[i]; - st->hSpMusClas->tod_lt_Bin_E_fx[i] = Madd_32_16( L_shl( Mpy_32_16_1( st->hSpMusClas->tod_lt_Bin_E_fx[i], P2A_FACT_FX_Q15 ), shift ), st->Bin_E_fx[i], ( 32767 - P2A_FACT_FX_Q15 ) ); // Q = Q_new + Q_SCALE - 2 + st->hSpMusClas->tod_lt_Bin_E_fx[i] = Madd_32_16( L_shl( Mpy_32_16_1( st->hSpMusClas->tod_lt_Bin_E_fx[i], P2A_FACT_FX_Q15 ), shift ), st->Bin_E_fx[i], ( 32767 - P2A_FACT_FX_Q15 ) ); // Q = st->q_Bin_E + Q_SCALE - 2 move32(); } st->hSpMusClas->Q_tod_lt_Bin_E = add( st->hSpMusClas->Q_tod_lt_Bin_E, shift ); @@ -3061,11 +2954,11 @@ void ivas_smc_mode_selection_fx( IF( LE_32( element_brate, IVAS_16k4 ) ) { - thr_sp2a = L_shl( THR_P2A_HIGH_FX, add( Q_new, Q_SCALE - 2 ) ); // Q = Q_new + Q_SCALE - 2 + thr_sp2a = L_shl( THR_P2A_HIGH_FX, st->q_Bin_E ); // Q = st->q_Bin_E } ELSE { - thr_sp2a = L_shl( THR_P2A_FX, add( Q_new, Q_SCALE - 2 ) ); // Q = Q_new + Q_SCALE - 2 + thr_sp2a = L_shl( THR_P2A_FX, st->q_Bin_E ); // Q = st->q_Bin_E } /* initial 3-way selection of coding modes (ACELP/GSC/TCX) */ diff --git a/lib_enc/stat_enc.h b/lib_enc/stat_enc.h index 5067cb410b70121196cdd1e48947b0eaf1c0af8d..c6176709b2f4733d215c207e15f0a3b502358d4b 100644 --- a/lib_enc/stat_enc.h +++ b/lib_enc/stat_enc.h @@ -51,9 +51,9 @@ typedef struct { - int16_t id; /* id of the indice */ - uint16_t value; /* value of the quantized indice */ - int16_t nb_bits; /* number of bits used for the quantization of the indice */ + Word16 id; /* id of the indice */ + UWord16 value; /* value of the quantized indice */ + Word16 nb_bits; /* number of bits used for the quantization of the indice */ } Indice, *INDICE_HANDLE; typedef struct @@ -84,17 +84,18 @@ typedef struct typedef struct bitstream_enc_data_structure { - int16_t nb_ind_tot; /* total number of indices already written */ - int16_t nb_bits_tot; /* total number of bits already written */ - Indice *ind_list; /* list of indices */ - int16_t *ivas_max_num_indices; /* maximum total number of indices in the list */ - Indice **ivas_ind_list_zero; /* beginning of the buffer of indices */ - void *st_ivas; /* IVAS encoder structure */ + Word16 nb_ind_tot; /* total number of indices already written */ + Word16 nb_bits_tot; /* total number of bits already written */ + Indice *ind_list; /* list of indices */ + Word16 *ivas_max_num_indices; /* maximum total number of indices in the list */ + Indice **ivas_ind_list_zero; /* beginning of the buffer of indices */ + void *st_ivas; /* IVAS encoder structure */ // Word16 nb_bits_tot_fx; /* total number of bits already written */ // Indice *ind_list_fx; /* list of indices */ +#ifndef HARM_PUSH_BIT Word16 next_ind_fx; /* pointer to the next empty slot in the list of indices */ Word16 last_ind_fx; /* last written indice */ - +#endif } BSTR_ENC_DATA, *BSTR_ENC_HANDLE; /*----------------------------------------------------------------------------------* @@ -113,9 +114,9 @@ typedef struct signal_buffers_enc_data_structure Word16 old_inp_12k8_fx[L_INP_MEM]; /* memory of input signal at 12.8kHz */ Word16 old_inp_16k_fx[L_INP_MEM]; /* ACELP@16kHz - memory of input signal @16 kHz */ - Word16 buf_speech_enc_pe[L_PAST_MAX_32k + L_FRAME32k + L_NEXT_MAX_32k]; + Word16 buf_speech_enc_pe[L_PAST_MAX_32k + L_FRAME32k + L_NEXT_MAX_32k]; // exp_buf_speech_enc_pe Word16 buf_synth[OLD_SYNTH_SIZE_ENC + L_FRAME32k]; - Word16 buf_speech_enc[L_PAST_MAX_32k + L_FRAME32k + L_NEXT_MAX_32k]; + Word16 buf_speech_enc[L_PAST_MAX_32k + L_FRAME32k + L_NEXT_MAX_32k]; // exp_buf_speech_enc Word16 buf_wspeech_enc[L_FRAME16k + L_SUBFR + L_FRAME16k + L_NEXT_MAX_16k + 320]; /*normally there is a lookahead for 12k8 and 16k but L_FRAME_MAX=L_FRAME_16K+L_NEXT_16k*/ /* increased by 320 to avoid memory overlap in ivas_find_wsp() and also to accomodate for the wspeech_enc */ } SIGNAL_BUFFERS_ENC_DATA, *SIGNAL_BUFFERS_ENC_HANDLE; @@ -128,21 +129,23 @@ typedef struct signal_buffers_enc_data_structure /* Delay buffer: Used to buffer input samples and to define the subblock size of a transient detector. */ typedef struct { - int16_t nSubblockSize; /* Subblock size of a transient detector that uses this delay buffer. */ + Word16 nSubblockSize; /* Subblock size of a transient detector that uses this delay buffer. */ Word16 buffer[L_FRAME48k / NSUBBLOCKS]; - int16_t nDelay; /* Size of the delay buffer in use. Maximum delay from all users of this buffer. */ + Word16 nDelay; /* Size of the delay buffer in use. Maximum delay from all users of this buffer. */ } DelayBuffer; /* Subblock energies: Holds subblock energies and recursively accumulated energies. Also buffers the energies. */ typedef struct { - DelayBuffer *pDelayBuffer; /* Delay buffer. */ - Word32 subblockNrg[NSUBBLOCKS + MAX_TD_DELAY]; // IVAS Q0 - Word32 accSubblockNrg[NSUBBLOCKS + MAX_TD_DELAY + 1]; // IVAS Q0 - Word16 subblockNrgChange[NSUBBLOCKS + MAX_TD_DELAY]; /* EVS: Q7(15 - SUBBLOCK_NRG_CHANGE_E) */ /* IVAS: Q3 */ - int16_t nDelay; /* Size of the delay buffer in use, as number of subblocks. Maximum delay from all users of this buffer. */ - int16_t nPartialDelay; /* Delay of the input (modulo pDelayBuffer->nSubblockSize), nPartialDelay <= pDelayBuffer->nDelay. */ + DelayBuffer *pDelayBuffer; /* Delay buffer. */ + Word32 subblockNrg[NSUBBLOCKS + MAX_TD_DELAY]; // IVAS Q(-1) + Word32 accSubblockNrg[NSUBBLOCKS + MAX_TD_DELAY + 1]; // IVAS Q(-1) + Word16 subblockNrgChange[NSUBBLOCKS + MAX_TD_DELAY]; /* EVS: Q7(15 - SUBBLOCK_NRG_CHANGE_E) */ + Word32 subblockNrgChange_32fx[NSUBBLOCKS + MAX_TD_DELAY]; /* IVAS: subblockNrgChange_exp */ + Word16 subblockNrgChange_exp[NSUBBLOCKS + MAX_TD_DELAY]; + Word16 nDelay; /* Size of the delay buffer in use, as number of subblocks. Maximum delay from all users of this buffer. */ + Word16 nPartialDelay; /* Delay of the input (modulo pDelayBuffer->nSubblockSize), nPartialDelay <= pDelayBuffer->nDelay. */ /* Decay factor for the recursive accumulation */ Word16 facAccSubblockNrg; @@ -152,27 +155,25 @@ typedef struct Word16 firState2; Word16 q_firState; - uint16_t ramp_up_flag; /* bit map flags to indicate a ramp up in beginning of TCX frame */ + UWord16 ramp_up_flag; /* bit map flags to indicate a ramp up in beginning of TCX frame */ } SubblockEnergies; /* Attack detection function. */ -typedef void ( *TCheckSubblocksForAttack )( const float *pSubblockNrg, const float *pAccSubblockNrg, int16_t nSubblocks, int16_t nPastSubblocks, float attackRatioThreshold, int16_t *pbIsAttackPresent, int16_t *pAttackIndex ); typedef void ( *TCheckSubblocksForAttack_fx )( Word32 const *pSubblockNrg, Word32 const *pAccSubblockNrg, Word16 nSubblocks, Word16 nPastSubblocks, Word16 attackRatioThreshold, Word16 *pbIsAttackPresent, Word16 *pAttackIndex ); /* Transient detector. */ typedef struct TransientDetector { SubblockEnergies *pSubblockEnergies; /* Subblock energies used in this transient detector. */ - int16_t nDelay; /* Delay of the transient detector in number of subblocks, nDelay <= pSubblockEnergies->nDelay. */ - int16_t nSubblocksToCheck; /* Number of subblocks to check for transients. */ - TCheckSubblocksForAttack CheckSubblocksForAttack; /* Function for checking a presence of an attack. */ + Word16 nDelay; /* Delay of the transient detector in number of subblocks, nDelay <= pSubblockEnergies->nDelay. */ + Word16 nSubblocksToCheck; /* Number of subblocks to check for transients. */ TCheckSubblocksForAttack_fx CheckSubblocksForAttack_fx; /* Function for checking a presence of an attack. */ Word16 attackRatioThreshold; /* Attack ratio threshold Q11 */ - int16_t bIsAttackPresent; /* True when an attack was detected. */ - int16_t prev_bIsAttackPresent; /* True if an attack was detected in the previous frame. */ - int16_t attackIndex; /* The index of an attack. */ + Word16 bIsAttackPresent; /* True when an attack was detected. */ + Word16 prev_bIsAttackPresent; /* True if an attack was detected in the previous frame. */ + Word16 attackIndex; /* The index of an attack. */ } TransientDetector; /* Transient detection: Holds all transient detectors and buffers used by them. */ @@ -191,25 +192,25 @@ typedef struct TransientDetection_structure typedef struct vad_structure { - int16_t nb_active_frames; - int16_t hangover_cnt; - int16_t nb_active_frames_he; - int16_t hangover_cnt_he; - int32_t vad_flag_reg_H; - int32_t vad_flag_reg_L; - int32_t vad_prim_reg; - - int16_t vad_flag_cnt_50; - int16_t vad_prim_cnt_16; - - int16_t hangover_cnt_dtx; - int16_t hangover_cnt_music; + Word16 nb_active_frames; + Word16 hangover_cnt; + Word16 nb_active_frames_he; + Word16 hangover_cnt_he; + Word32 vad_flag_reg_H; + Word32 vad_flag_reg_L; + Word32 vad_prim_reg; + + Word16 vad_flag_cnt_50; + Word16 vad_prim_cnt_16; + + Word16 hangover_cnt_dtx; + Word16 hangover_cnt_music; Word16 bcg_flux_fx; // Q4 - int16_t soft_hangover; - int16_t voiced_burst; - int16_t bcg_flux_init; - int16_t nb_active_frames_he1; - int16_t hangover_cnt_he1; + Word16 soft_hangover; + Word16 voiced_burst; + Word16 bcg_flux_init; + Word16 nb_active_frames_he1; + Word16 hangover_cnt_he1; Word16 prim_act_quick_fx; /*Q15 */ /* Noise estimator - primary activity quick */ Word16 prim_act_slow_fx; /*Q15 */ /* Noise estimator - primary activity slow */ Word16 prim_act_fx; /*Q15 */ /* Noise estimator - primary activity slow rise quick fall */ @@ -217,22 +218,22 @@ typedef struct vad_structure Word16 prim_act_slow_he_fx; /*Q15 */ /* Noise estimator - primary activity slow */ Word16 prim_act_he_fx; /*Q15 */ /* Q15 Noise estimator - primary activity slow rise quick fall */ - int16_t spectral_tilt_reset; - int16_t consec_inactive; + Word16 spectral_tilt_reset; + Word16 consec_inactive; Word16 ra_deltasum_fx; - int16_t trigger_SID; + Word16 trigger_SID; Word16 snr_sum_vad_fx; /*Q15 */ Word16 running_avg_fx; /*Q15 */ Word32 L_snr_sum_vad_fx; /*Q4*/ - int16_t hangover_terminate_flag; /* CNG and DTX - flag indicating whether to early terminate DTX hangover */ - int16_t vad_flag; /* VAD flag */ + Word16 hangover_terminate_flag; /* CNG and DTX - flag indicating whether to early terminate DTX hangover */ + Word16 vad_flag; /* VAD flag */ } VAD_DATA, *VAD_HANDLE; typedef struct cldfb_vad_structure { - int16_t bw_index; /* index of band width */ + Word16 bw_index; /* index of band width */ /* feature */ Word16 sp_center[SP_CENTER_NUM]; /* spectral center*/ @@ -248,8 +249,8 @@ typedef struct cldfb_vad_structure Word32 t_bg_energy; /* time background energy of several frames*/ Word16 scale_t_bg_energy; /* the Scaling of t_bg_energy*/ T_VAD_EXP t_bg_energy_sum; /* number of time background energy*/ - int16_t tbg_energy_count; /* sum of time background energy of several frames*/ - int16_t bg_update_count; /* time of background update*/ + Word16 tbg_energy_count; /* sum of time background energy of several frames*/ + Word16 bg_update_count; /* time of background update*/ Word32 frame_energy_smooth; /* smoothed energy of several frames*/ Word16 frame_energy_smooth_scale; /* the Scaling of frame_energy_smooth*/ @@ -268,14 +269,14 @@ typedef struct cldfb_vad_structure Word16 fg_energy_scale; /* the Scaling of fg_energy*/ Word32 bg_energy; /* background energy sum */ Word16 bg_energy_scale; /* the Scaling of bg_energy*/ - int16_t fg_energy_count; /* number of the foreground energy frame */ - int16_t bg_energy_count; /* number of the background energy frame */ + Word16 fg_energy_count; /* number of the foreground energy frame */ + Word16 bg_energy_count; /* number of the background energy frame */ Word32 fg_energy_est_start; /* flag by that indicate whether if estimate energy*/ - int16_t speech_flag; /* residual number of hangover 1 */ - int16_t continuous_noise_num; /* time of continuous noise frames*/ - int16_t continuous_speech_num; /* time of continuous speech frames*/ - int16_t continuous_speech_num2; /* time 2 of continuous speech frames*/ - int16_t frameloop; /* number of frame*/ + Word16 speech_flag; /* residual number of hangover 1 */ + Word16 continuous_noise_num; /* time of continuous noise frames*/ + Word16 continuous_speech_num; /* time of continuous speech frames*/ + Word16 continuous_speech_num2; /* time 2 of continuous speech frames*/ + Word16 frameloop; /* number of frame*/ Word16 tonality_rate3; /* tonality rate*/ Word16 music_background_rate; /* music background rate*/ Word32 lt_noise_sp_center_diff_sum; /* different sum of long time noise sp_center*/ @@ -283,10 +284,10 @@ typedef struct cldfb_vad_structure Word16 lt_noise_sp_center0; /* long time noise sp_center0*/ Word16 lt_noise_sp_center3; /* long time noise sp_center3*/ Word32 lt_bg_highf_eng; /* average of long time high frequency energy*/ - int16_t update_num_with_snr; /* the number of the background update with SNR*/ - int16_t update_count; - int16_t warm_hang_num; /* the number of hangover for warm up*/ - int16_t vad_flag_for_bk_update; + Word16 update_num_with_snr; /* the number of the background update with SNR*/ + Word16 update_count; + Word16 warm_hang_num; /* the number of hangover for warm up*/ + Word16 vad_flag_for_bk_update; } T_CldfbVadState, *VAD_CLDFB_HANDLE; @@ -326,7 +327,7 @@ typedef struct td_cng_enc_structure Word16 cng_buf_cnt; /* CNG and DTX - Counter of buffered CNG parameters */ Word16 cng_exc2_buf[HO_HIST_SIZE * L_FFT]; /* CNG and DTX - exc2 buffer for storing */ Word16 cng_Qexc_buf[HO_HIST_SIZE]; /* CNG and DTX - Q_exc buffer for storing */ - int32_t cng_brate_buf[HO_HIST_SIZE]; /* CNG and DTX - buffer for storing last_active_brate */ + Word32 cng_brate_buf[HO_HIST_SIZE]; /* CNG and DTX - buffer for storing last_active_brate */ Word16 CNG_att_fx; /* CNG and DTX - attenuation factor for CNG, in dB Q7 */ Word16 ho_16k_lsp[HO_HIST_SIZE]; /* CNG and DTX - 16k LSPs flags */ Word16 act_cnt2; /* CNG and DTX - counter of active frames for CNG_mode switching */ @@ -432,23 +433,23 @@ typedef struct dtx_enc_structure typedef struct igfscfenc_public_data_struct { - int16_t ptrBitIndex; - int16_t bitCount; - int16_t prev[64]; /* no more than 64 SCFs for the IGF energy envelope of one block */ - int16_t prevSave[64]; - int16_t scfCountLongBlock[IGF_NOF_GRIDS]; - int16_t t; - int16_t Tsave; - int16_t contex_saved; - const uint16_t *cf_se00; - const uint16_t *cf_se01; - int16_t cf_off_se01; - const uint16_t *cf_se02; - const int16_t *cf_off_se02; - const uint16_t *cf_se10; - int16_t cf_off_se10; - const uint16_t *cf_se11; - const int16_t *cf_off_se11; + Word16 ptrBitIndex; + Word16 bitCount; + Word16 prev[64]; /* no more than 64 SCFs for the IGF energy envelope of one block */ + Word16 prevSave[64]; + Word16 scfCountLongBlock[IGF_NOF_GRIDS]; + Word16 t; + Word16 Tsave; + Word16 contex_saved; + const UWord16 *cf_se00; + const UWord16 *cf_se01; + Word16 cf_off_se01; + const UWord16 *cf_se02; + const Word16 *cf_off_se02; + const UWord16 *cf_se10; + Word16 cf_off_se10; + const UWord16 *cf_se11; + const Word16 *cf_off_se11; Tastat acState; TastatEnc acState_fx; @@ -566,6 +567,9 @@ typedef struct noise_estimation_structure Word16 Etot_st_est_fx; /* Q8 Noise estimation - short term estimate of E{ Etot } */ Word16 Etot_sq_st_est_fx; /* Q2 Noise estimation - short term estimate of E{ Etot^2 } */ + Word32 L_Etot_st_est_fx; /* Q23 Noise estimation - short term estimate of E{ Etot } */ + Word32 L_Etot_sq_st_est_fx; /* Q16 Noise estimation - short term estimate of E{ Etot^2 } */ + Word16 aEn_inac_cnt; } NOISE_EST_DATA, *NOISE_EST_HANDLE; @@ -698,9 +702,6 @@ typedef struct sp_mus_clas_structure typedef struct lpd_state_structure { -#ifndef MSAN_FIX - Word16 nbits; /* number of bits used by ACELP or TCX */ -#endif /* signal memory */ Word16 syn[1 + M]; /* Synthesis memory (non-pe) */ @@ -746,21 +747,21 @@ typedef struct acelp_cbkcorr_structure typedef struct gsc_enc_structure { - int16_t seed_tcx; /* AC mode (GSC) - seed for noise fill */ - int16_t cor_strong_limit; /* AC mode (GSC) - Indicator about high spectral correlation per band */ - int16_t mem_last_pit_band; /* AC mode (GSC) - memory of the last band where pitch contribution was significant */ + Word16 seed_tcx; /* AC mode (GSC) - seed for noise fill */ + Word16 cor_strong_limit; /* AC mode (GSC) - Indicator about high spectral correlation per band */ + Word16 mem_last_pit_band; /* AC mode (GSC) - memory of the last band where pitch contribution was significant */ Word16 mem_w0_tmp_fx; Word16 mem_syn_tmp_fx[M]; Word16 mid_dyn_fx; /* AC mode (GSC) - signal dynamic Q7 */ - int16_t noise_lev; /* AC mode (GSC) - noise level */ - int16_t past_dyn_dec; /* AC mode (GSC) - Past noise level decision */ + Word16 noise_lev; /* AC mode (GSC) - noise level */ + Word16 past_dyn_dec; /* AC mode (GSC) - Past noise level decision */ Word32 Last_frame_ener_fx; /* AC mode (GSC) - Last frame energy */ - int16_t pit_exc_hangover; /* AC mode (GSC) - Hangover for the time contribution switching */ + Word16 pit_exc_hangover; /* AC mode (GSC) - Hangover for the time contribution switching */ Word16 last_exc_dct_in_fx[L_FRAME16k]; /* AC mode (GSC) - previous exciation */ Word16 Q_last_exc_dct_in; - Word16 last_ener_fx; /* AC mode (GSC) - previous energy Q0 */ - int16_t last_bitallocation_band[6]; /* AC mode (GSC) - previous bit allocation of each band */ - Word16 lt_gpitch_fx; /* Q15 */ + Word16 last_ener_fx; /* AC mode (GSC) - previous energy Q0 */ + Word16 last_bitallocation_band[6]; /* AC mode (GSC) - previous bit allocation of each band */ + Word16 lt_gpitch_fx; /* Q15 */ } GSC_ENC_DATA, *GSC_ENC_HANDLE; @@ -801,14 +802,14 @@ typedef struct hq_enc_structure /* PVQ range coder state */ typedef struct pvq_enc_structure { - uint32_t rc_low; - uint32_t rc_range; - int16_t rc_cache; - int16_t rc_carry; - int16_t rc_carry_count; - int16_t rc_num_bits; - int16_t rc_tot_bits; - int16_t rc_offset; + UWord32 rc_low; + UWord32 rc_range; + Word16 rc_cache; + Word16 rc_carry; + Word16 rc_carry_count; + Word16 rc_num_bits; + Word16 rc_tot_bits; + Word16 rc_offset; } PVQ_ENC_DATA, *PVQ_ENC_HANDLE; @@ -835,33 +836,33 @@ typedef struct sc_vbr_enc_structure Word16 nelp_lp_fit_mem[NELP_LP_ORDER * 2]; /* Q(prev_Q_new) */ Word32 bp1_filt_mem_nb_fx[14]; /* Q(qprevGain_fx) */ - int16_t nelp_enc_seed; + Word16 nelp_enc_seed; Word16 nelp_gain_mem_fx; /* Q0 */ - int16_t last_nelp_mode; - int16_t nelp_mode; + Word16 last_nelp_mode; + Word16 nelp_mode; Word16 qprevIn_fx; Word16 qprevGain_fx; /* PPP variables */ - int16_t pppcountE; - int16_t bump_up; - int16_t last_ppp_mode; - int16_t last_last_ppp_mode; - int16_t ppp_mode; + Word16 pppcountE; + Word16 bump_up; + Word16 last_ppp_mode; + Word16 last_last_ppp_mode; + Word16 ppp_mode; Word16 prev_ppp_gain_pit_fx; /* Q14 */ Word16 prev_tilt_code_fx; /* Q15 */ /* voiced encoder variables */ - int16_t firstTime_voicedenc; + Word16 firstTime_voicedenc; /* DTFS variables */ Word16 dtfs_enc_a_fx[MAXLAG_WI]; /* Q(dtfs_enc_Q) */ Word16 dtfs_enc_b_fx[MAXLAG_WI]; /* Q(dtfs_enc_Q) */ - int16_t dtfs_enc_lag; - int16_t dtfs_enc_nH; - int16_t dtfs_enc_nH_4kHz; + Word16 dtfs_enc_lag; + Word16 dtfs_enc_nH; + Word16 dtfs_enc_nH_4kHz; Word16 dtfs_enc_upper_cut_off_freq_of_interest_fx; /* Q0 */ Word16 dtfs_enc_upper_cut_off_freq_fx; /* Q0 */ Word16 dtfs_enc_Q; @@ -873,23 +874,23 @@ typedef struct sc_vbr_enc_structure Word16 lasterbE_fx[NUM_ERB_WB]; /* Previous Amplitude spectrum (ERB) Q13 */ Word16 Q_prev_cw_en_fx; - int16_t mode_QQF; - int16_t rate_control; + Word16 mode_QQF; + Word16 rate_control; Word16 SNR_THLD_fx; /* Q8 */ - int16_t Q_to_F; - int16_t pattern_m; - int16_t patterncount; - int16_t Last_Resort; - int16_t numactive; /* keep the count of the frames inside current 600 frame block */ + Word16 Q_to_F; + Word16 pattern_m; + Word16 patterncount; + Word16 Last_Resort; + Word16 numactive; /* keep the count of the frames inside current 600 frame block */ Word32 sum_of_rates_fx; /*Q=13 sum of the rates of past 600 active frames*/ Word32 global_avr_rate_fx; /*Q=13 global rate upto current time. recorded a (rate in kbps) *6000*/ - int16_t global_frame_cnt; /* 600 active frame block count. Used to update the global rate */ - int16_t set_ppp_generic; - int16_t avoid_HQ_VBR_NB; + Word16 global_frame_cnt; /* 600 active frame block count. Used to update the global rate */ + Word16 set_ppp_generic; + Word16 avoid_HQ_VBR_NB; - int16_t vbr_generic_ho; - int16_t Local_VAD; - int16_t last_7k2_coder_type; + Word16 vbr_generic_ho; + Word16 Local_VAD; + Word16 last_7k2_coder_type; } SC_VBR_ENC_DATA, *SC_VBR_ENC_HANDLE; @@ -907,7 +908,7 @@ typedef struct amrwb_io_enc_structure Word16 mem_hp400_enc_fx[6]; Word16 mem_hf_enc_fx[L_FIR - 1]; Word16 mem_syn_hf_enc_fx[M]; - int16_t seed2_enc; + Word16 seed2_enc; } AMRWB_IO_ENC_DATA, *AMRWB_IO_ENC_HANDLE; @@ -941,7 +942,7 @@ typedef struct td_bwe_enc_structure Word16 state_syn_shbexc_fx[L_SHB_LAHEAD]; /* Q(prev_Q_bwe_exc - 16) */ Word16 state_lpc_syn_fx[LPC_SHB_ORDER]; /* Q(prev_Q_bwe_exc - 16) */ Word16 old_bwe_exc_fx[PIT16k_MAX * 2]; /*Q_exc*/ - int16_t bwe_seed[2]; + Word16 bwe_seed[2]; Word32 bwe_non_lin_prev_scale_fx; /* Q30 */ Word16 old_bwe_exc_extended_fx[NL_BUFF_OFFSET]; /* Q(prev_Q_bwe_exc - 16) */ Word16 syn_overlap_fx[L_SHB_LAHEAD]; /* overlap buffer used to Adjust SHB Frame Gain */ @@ -961,7 +962,7 @@ typedef struct td_bwe_enc_structure Word16 shb_inv_filt_mem_fx[LPC_SHB_ORDER]; /* Q(Q_shb_spch) */ Word16 lsp_shb_spacing_fx[3]; /* Q15 */ Word16 prev_swb_GainShape_fx; /* Q15 */ - int16_t prev_frGainAtten; + Word16 prev_frGainAtten; Word16 prev_wb_GainShape; /* Q15 */ Word16 swb_lsp_prev_interp_fx[LPC_SHB_ORDER]; /* Q15 */ @@ -970,25 +971,25 @@ typedef struct td_bwe_enc_structure Word16 fb_tbe_demph_fx; Word16 tilt_mem_fx; /* Q12 */ - int16_t prev_coder_type; + Word16 prev_coder_type; Word16 prev_lsf_diff_fx[LPC_SHB_ORDER - 2]; /* Q15 */ Word16 prev_tilt_para_fx; /* Q10 */ Word16 cur_sub_Aq_fx[M + 1]; /* Q12 */ /* quantized data */ - int16_t lsf_idx[NUM_Q_LSF]; - int16_t m_idx; - int16_t grid_idx; - int16_t idxSubGains; - int16_t idxFrameGain; - int16_t idx_shb_fr_gain; - int16_t idx_res_gs[NB_SUBFR16k]; - int16_t idx_mixFac; - - int16_t lsf_WB; - int16_t gFrame_WB; - - int16_t idxGain; + Word16 lsf_idx[NUM_Q_LSF]; + Word16 m_idx; + Word16 grid_idx; + Word16 idxSubGains; + Word16 idxFrameGain; + Word16 idx_shb_fr_gain; + Word16 idx_res_gs[NB_SUBFR16k]; + Word16 idx_mixFac; + + Word16 lsf_WB; + Word16 gFrame_WB; + + Word16 idxGain; Word16 dec_2_over_3_mem_fx[L_FILT_2OVER3]; Word16 dec_2_over_3_mem_lp_fx[6]; @@ -1009,9 +1010,7 @@ typedef struct td_bwe_enc_structure typedef struct fd_bwe_enc_structure { Word16 new_input_hp_fx[NS2SA( 16000, ACELP_LOOK_NS + DELAY_FD_BWE_ENC_NS + DELAY_FIR_RESAMPL_NS - DELAY_CLDFB_NS )]; // Q_new_input_hp -#ifdef FIX_ISSUE_1230 Word16 Q_new_input_hp; -#endif Word16 old_input_fx[NS2SA( 48000, DELAY_FD_BWE_ENC_NS + DELAY_FIR_RESAMPL_NS )]; // q0 Word16 old_input_wb_fx[NS2SA( 16000, DELAY_FD_BWE_ENC_NS )]; /* Q(-1) */ Word16 old_input_lp_fx[NS2SA( 16000, ACELP_LOOK_NS + DELAY_FD_BWE_ENC_NS )]; // st->hBWE_FD->prev_Q_input_lp @@ -1038,9 +1037,9 @@ typedef struct fd_bwe_enc_structure typedef struct rf_enc_structure { - int16_t rf_frame_type; - int16_t rf_targetbits_buff[MAX_RF_FEC_OFFSET]; - int16_t rf_indx_frametype[MAX_RF_FEC_OFFSET]; + Word16 rf_frame_type; + Word16 rf_targetbits_buff[MAX_RF_FEC_OFFSET]; + Word16 rf_indx_frametype[MAX_RF_FEC_OFFSET]; ACELP_config acelp_cfg_rf; /* configuration for RF frame */ @@ -1051,31 +1050,31 @@ typedef struct rf_enc_structure struct dispMem_fx rf_dm_fx; Word32 rf_gc_threshold; - int16_t rf_target_bits; + Word16 rf_target_bits; Word16 rf_tilt_buf[NB_SUBFR16k]; - int16_t rf_indx_lsf[MAX_RF_FEC_OFFSET][3]; - int16_t rf_indx_pitch[MAX_RF_FEC_OFFSET][NB_SUBFR16k]; - int16_t rf_indx_fcb[MAX_RF_FEC_OFFSET][NB_SUBFR16k]; - int16_t rf_indx_gain[MAX_RF_FEC_OFFSET][NB_SUBFR16k]; - int16_t rf_indx_EsPred[MAX_RF_FEC_OFFSET]; - int16_t rf_indx_ltfMode[MAX_RF_FEC_OFFSET][NB_SUBFR16k]; + Word16 rf_indx_lsf[MAX_RF_FEC_OFFSET][3]; + Word16 rf_indx_pitch[MAX_RF_FEC_OFFSET][NB_SUBFR16k]; + Word16 rf_indx_fcb[MAX_RF_FEC_OFFSET][NB_SUBFR16k]; + Word16 rf_indx_gain[MAX_RF_FEC_OFFSET][NB_SUBFR16k]; + Word16 rf_indx_EsPred[MAX_RF_FEC_OFFSET]; + Word16 rf_indx_ltfMode[MAX_RF_FEC_OFFSET][NB_SUBFR16k]; - int16_t rf_indx_nelp_fid[MAX_RF_FEC_OFFSET]; - int16_t rf_indx_nelp_iG1[MAX_RF_FEC_OFFSET]; - int16_t rf_indx_nelp_iG2[MAX_RF_FEC_OFFSET][2]; + Word16 rf_indx_nelp_fid[MAX_RF_FEC_OFFSET]; + Word16 rf_indx_nelp_iG1[MAX_RF_FEC_OFFSET]; + Word16 rf_indx_nelp_iG2[MAX_RF_FEC_OFFSET][2]; - int16_t rf_indx_tbeGainFr[MAX_RF_FEC_OFFSET]; + Word16 rf_indx_tbeGainFr[MAX_RF_FEC_OFFSET]; - int16_t rf_tcxltp_pitch_int_past; - int16_t rf_last_tns_active; - int16_t rf_second_last_tns_active; - int16_t rf_second_last_core; - int16_t rf_clas[MAX_RF_FEC_OFFSET]; - int16_t rf_gain_tcx[MAX_RF_FEC_OFFSET]; - int16_t rf_tcxltp_param[MAX_RF_FEC_OFFSET]; + Word16 rf_tcxltp_pitch_int_past; + Word16 rf_last_tns_active; + Word16 rf_second_last_tns_active; + Word16 rf_second_last_core; + Word16 rf_clas[MAX_RF_FEC_OFFSET]; + Word16 rf_gain_tcx[MAX_RF_FEC_OFFSET]; + Word16 rf_tcxltp_param[MAX_RF_FEC_OFFSET]; - int16_t RF_bwe_gainFr_ind; + Word16 RF_bwe_gainFr_ind; } RF_ENC_DATA, *RF_ENC_HANDLE; @@ -1085,17 +1084,17 @@ typedef struct rf_enc_structure typedef struct plc_enc_evs_structure { - int16_t nBits; /* number of bits */ + Word16 nBits; /* number of bits */ Word16 Q_new; Word16 Q_exp; - int16_t enableGplc; - int16_t T0_4th; - int16_t T0; - int16_t calcOnlylsf; - int16_t pit_min; - int16_t pit_max; + Word16 enableGplc; + Word16 T0_4th; + Word16 T0; + Word16 calcOnlylsf; + Word16 pit_min; + Word16 pit_max; Word16 mem_MA_14Q1[M]; Word16 mem_AR[M]; @@ -1128,8 +1127,8 @@ typedef struct tec_enc_structure Word16 loTempEnv[CLDFB_NO_COL_MAX]; /* Q7 */ Word16 loTempEnv_ns[CLDFB_NO_COL_MAX]; /* Q7 */ Word16 hiTempEnv[CLDFB_NO_COL_MAX + DELAY_TEMP_ENV_BUFF_TEC + EXT_DELAY_HI_TEMP_ENV]; /* Q7 */ - int16_t tranFlag; - int16_t corrFlag; + Word16 tranFlag; + Word16 corrFlag; } TEC_ENC_DATA, *TEC_ENC_HANDLE; @@ -1140,63 +1139,63 @@ typedef struct tec_enc_structure typedef struct tcx_enc_structure { - int16_t L_frameTCX; + Word16 L_frameTCX; - int16_t tcxMode; /* Chosen TCX mode for this frame */ - int16_t transform_type[2]; /* TCX20/10/5 mode in each subframe */ + Word16 tcxMode; /* Chosen TCX mode for this frame */ + Word16 transform_type[2]; /* TCX20/10/5 mode in each subframe */ /* Core Signal Analysis Outputs */ Word16 noiseTiltFactor; /* compensation for LPC tilt in noise filling Q15 */ - int16_t noiseLevelMemory_cnt; /* counter of consecutive low TCX noise levels */ + Word16 noiseLevelMemory_cnt; /* counter of consecutive low TCX noise levels */ Word16 ltpGainMemory_fx[N_LTP_GAIN_MEMS]; /* for smoothing noiseTransWidth Q15 */ STnsData tnsData[2]; - // int16_t fUseTns[2]; + // Word16 fUseTns[2]; Word8 fUseTns[2]; - int16_t bTnsOnWhithenedSpectra[2]; + Word16 bTnsOnWhithenedSpectra[2]; - // int16_t memQuantZeros[L_FRAME_PLUS]; /* Quantization deadzone flags */ + // Word16 memQuantZeros[L_FRAME_PLUS]; /* Quantization deadzone flags */ Word8 memQuantZeros[L_FRAME_PLUS]; /* Quantization deadzone flags */ Word16 *speech_TCX; Word16 *new_speech_TCX; // Word16 q_speech_TCX; - int16_t tcxltp; - int16_t tcxltp_pitch_int; - int16_t tcxltp_pitch_fr; + Word16 tcxltp; + Word16 tcxltp_pitch_int; + Word16 tcxltp_pitch_fr; Word16 tcxltp_gain; /* Q15 */ - int16_t tcxltp_pitch_int_past; - int16_t tcxltp_pitch_fr_past; + Word16 tcxltp_pitch_int_past; + Word16 tcxltp_pitch_fr_past; Word16 tcxltp_gain_past; /* Q15 */ Word16 tcxltp_norm_corr_past; /* Q15 */ Word16 tcxltp_norm_corr_mem; /* Q15 */ Word16 kernel_switch_corr_past; /* Q15 */ - uint16_t kernel_type[2]; /* transform kernel type in each subframe (MDCT or MDST) */ - uint16_t kernel_symmetry_past; /* last TDA symmetry (0 for MDCT, 1 for MDST type) */ - uint16_t enc_ste_pre_corr_past; + UWord16 kernel_type[2]; /* transform kernel type in each subframe (MDCT or MDST) */ + UWord16 kernel_symmetry_past; /* last TDA symmetry (0 for MDCT, 1 for MDST type) */ + UWord16 enc_ste_pre_corr_past; Word32 tfm_mem_fx; /* state of IIR filtered temporal flatness measure Q31 */ Word16 buf_speech_ltp[L_PAST_MAX_32k + L_FRAME32k + L_NEXT_MAX_32k]; Word16 exp_buf_speech_ltp; Word16 *speech_ltp; Word16 *new_speech_ltp; - int16_t tcxltp_filt_idx; - int16_t tcxltp_bits; - int16_t tcxltp_param[LTPSIZE]; - int16_t tcxltp_on_mem; + Word16 tcxltp_filt_idx; + Word16 tcxltp_bits; + Word16 tcxltp_param[LTPSIZE]; + Word16 tcxltp_on_mem; Word16 measuredBwRatio; /* measured bw; used for TCX noise-filling. 1Q14 */ - int16_t nmStartLine; /* Starting line for the noise measurement */ + Word16 nmStartLine; /* Starting line for the noise measurement */ - int16_t tcx_lpc_shaped_ari; + Word16 tcx_lpc_shaped_ari; Word16 old_out_fx[L_FRAME32k]; /* buffer for OLA; at the encoder, the maximum length is L_FRAME32k (corresponds to maximum internal L_frame length) */ Word16 Q_old_out; /* MDCT switching */ Word16 prev_hi_ener; /* Q8 */ - int16_t prev_hi_sparse; + Word16 prev_hi_sparse; Word16 clas_sec_old_fx; /* Q13 */ - int16_t clas_final_old; + Word16 clas_final_old; Word32 last_gain1; /* Q(31 - st->last_enerBuffer_exp) */ Word32 last_gain2; /* Q(31 - st->last_enerBuffer_exp) */ @@ -1206,12 +1205,13 @@ typedef struct tcx_enc_structure Word16 q_Txnq; Word16 tcx_target_bits_fac; /* Q14 */ - int16_t tns_ms_flag[2]; + Word16 tns_ms_flag[2]; Word32 *spectrum_fx[2]; /* MDCT output for a short block */ Word16 spectrum_e[2]; Word32 spectrum_long_fx[N_MAX]; /* MDCT output for a long block. Points to spectrum */ Word16 spectrum_long_e; /* MDCT output for a long block. Points to spectrum */ Word16 q_spectrum_long_fx; + Word16 spectrum_length; /* corresponds to L_frameTCX, used for scaling of MDCT/MDST buffers */ } TCX_ENC_DATA, *TCX_ENC_HANDLE; typedef struct TransientDetection @@ -1238,9 +1238,9 @@ typedef struct enc_core_structure Word16 idchan; /* channel ID (audio channel number) */ Word16 id_element; /* element ID */ - int16_t element_mode; /* element mode */ + Word16 element_mode; /* element mode */ Word16 last_element_mode; /* element mode */ - int32_t element_brate; /* element bitrate */ + Word32 element_brate; /* element bitrate */ Word16 extl_orig; /* extension layer */ Word32 extl_brate_orig; /* extension layer bitrate */ Word16 codec_mode; /* Mode1 or Mode2 */ @@ -1254,40 +1254,40 @@ typedef struct enc_core_structure BSTR_ENC_HANDLE hBstr; /* encoder bitstream handle */ Word16 last_enerBuffer_exp; - int16_t bitstreamformat; /* Bitstream format flag (G.192/MIME) */ - Word16 next_bit_pos_fx; /* position of the next bit to be written in the bitstream */ - - int32_t input_Fs; /* input signal sampling frequency in Hz */ - int32_t total_brate; /* total bitrate in kbps of the codec */ - int32_t last_total_brate; /* last frame's total bitrate in kbps of the codec */ - int32_t last_total_brate_cng; /* last inactive frame's total bitrate in kbps of the codec */ - int16_t core; /* core (ACELP_CORE, TCX_20_CORE, TCX_10_CORE, HQ_CORE, AMR_WB_CORE) */ - int16_t last_core; /* previous frame core */ - int16_t coder_type; /* core coder type */ - int16_t flag_ACELP16k; /* flag indicating use of ACELP core at 16kHz internal sampling rate */ - int32_t core_brate; /* core bitrate */ - int32_t last_core_brate; /* previous frame core bitrate */ - int16_t extl; /* extension layer */ - int16_t last_extl; /* previous extension layer */ - int32_t extl_brate; /* extension layer bitrate */ - int16_t input_bwidth; /* input signal bandwidth */ - int16_t bwidth; /* encoded bandwidth NB, WB, SWB or FB */ - int16_t max_bwidth; /* maximum encoded bandwidth */ - int16_t last_input_bwidth; /* input signal bandwidth in the previous frame */ - int16_t last_bwidth; /* coded bandwidth in the previous frame */ - int16_t last_bwidth_cng; /* coded bandwidth in the previous inactive frame */ - int16_t bwidth_sw_cnt; /* bandwidth switching counter */ - int16_t L_frame; /* ACELP core internal frame length */ - int16_t Opt_AMR_WB; /* flag indicating AMR-WB IO mode */ - int16_t Opt_DTX_ON; /* flag indicating DTX operation */ - int16_t cng_type; /* flag indicating LP or CLDFB based SID/CNG */ - int16_t cng_sba_flag; /* flag indicating CNG/SID for SBA 2TC */ - int16_t Opt_SC_VBR; /* flag indicating SC-VBR mode */ - int16_t last_Opt_SC_VBR; /* flag indicating prev frame's SC-VBR mode */ - int16_t low_rate_mode; /* low-rate mode flag */ - int16_t inactive_coder_type_flag; /* inactive coder type flag (0 = AVQ / 1 = GSC) */ + Word16 bitstreamformat; /* Bitstream format flag (G.192/MIME) */ + Word16 next_bit_pos_fx; /* position of the next bit to be written in the bitstream */ + + Word32 input_Fs; /* input signal sampling frequency in Hz */ + Word32 total_brate; /* total bitrate in kbps of the codec */ + Word32 last_total_brate; /* last frame's total bitrate in kbps of the codec */ + Word32 last_total_brate_cng; /* last inactive frame's total bitrate in kbps of the codec */ + Word16 core; /* core (ACELP_CORE, TCX_20_CORE, TCX_10_CORE, HQ_CORE, AMR_WB_CORE) */ + Word16 last_core; /* previous frame core */ + Word16 coder_type; /* core coder type */ + Word16 flag_ACELP16k; /* flag indicating use of ACELP core at 16kHz internal sampling rate */ + Word32 core_brate; /* core bitrate */ + Word32 last_core_brate; /* previous frame core bitrate */ + Word16 extl; /* extension layer */ + Word16 last_extl; /* previous extension layer */ + Word32 extl_brate; /* extension layer bitrate */ + Word16 input_bwidth; /* input signal bandwidth */ + Word16 bwidth; /* encoded bandwidth NB, WB, SWB or FB */ + Word16 max_bwidth; /* maximum encoded bandwidth */ + Word16 last_input_bwidth; /* input signal bandwidth in the previous frame */ + Word16 last_bwidth; /* coded bandwidth in the previous frame */ + Word16 last_bwidth_cng; /* coded bandwidth in the previous inactive frame */ + Word16 bwidth_sw_cnt; /* bandwidth switching counter */ + Word16 L_frame; /* ACELP core internal frame length */ + Word16 Opt_AMR_WB; /* flag indicating AMR-WB IO mode */ + Word16 Opt_DTX_ON; /* flag indicating DTX operation */ + Word16 cng_type; /* flag indicating LP or CLDFB based SID/CNG */ + Word16 cng_sba_flag; /* flag indicating CNG/SID for SBA 2TC */ + Word16 Opt_SC_VBR; /* flag indicating SC-VBR mode */ + Word16 last_Opt_SC_VBR; /* flag indicating prev frame's SC-VBR mode */ + Word16 low_rate_mode; /* low-rate mode flag */ + Word16 inactive_coder_type_flag; /* inactive coder type flag (0 = AVQ / 1 = GSC) */ #ifdef DEBUGGING - int16_t force; /* flag indicating specific signal type (0 = speech, 1 = music, -1 = N/A) */ + Word16 force; /* flag indicating specific signal type (0 = speech, 1 = music, -1 = N/A) */ #ifdef DEBUG_FORCE_DIR char *force_dir; /* directory containing external binary files for modes/parameters enforcement (empty string indicates no enforcement) */ #endif @@ -1325,13 +1325,13 @@ typedef struct enc_core_structure * ACELP core parameters *----------------------------------------------------------------------------------*/ - int16_t clas; /* current frame clas */ - int16_t last_clas; /* previous frame signal classification */ + Word16 clas; /* current frame clas */ + Word16 last_clas; /* previous frame signal classification */ Word16 prev_fmerit; /* previous signal classification score Q15 */ Word16 fmerit_dt; /* signal classification score difference Q15 */ - int16_t Nb_ACELP_frames; + Word16 Nb_ACELP_frames; - int16_t pitch[3]; /* open-loop pitch values @12.8 kHz for three half-frames */ + Word16 pitch[3]; /* open-loop pitch values @12.8 kHz for three half-frames */ // Word16 pitch_fx[3]; Word16 voicing_fx[3]; /* open-loop normalized correlation values for three half-frames Q15 */ @@ -1345,7 +1345,7 @@ typedef struct enc_core_structure Word16 lsf_old_fx[M]; /* old LSF vector at the end of the frame Qlog2(2.56) */ Word16 lsp_old16k_fx[M]; /* old LSP vector at the end of the frame @16kHz Q15 */ Word16 lspold_enc_fx[M]; /* old LSP vector at the end of the frame @16kHz Q15 */ - int16_t pstreaklen; /* LSF quantizer */ + Word16 pstreaklen; /* LSF quantizer */ Word16 streaklimit_fx; /* LSF quantizer Q15 */ Word16 stab_fac_fx; /* LSF stability factor Q15 */ Word16 clip_var_fx[6]; /* pitch gain clipping memory [2.56x,Q14,Q8,Q0,Q14,Q14] */ @@ -1372,42 +1372,42 @@ typedef struct enc_core_structure Word16 mem_deemph_fx; /* deemphasis filter memory */ Word32 mem_hp20_in_fx[5]; /* HP filter memory for AMR-WB IO */ Word16 mCb1_fx; /* LSF quantizer - counter of stationary frames after a transition frame */ - int16_t GSC_noisy_speech; /* AC mode (GSC) - flag to indicate GSC on SWB noisy speech */ - int16_t GSC_IVAS_mode; + Word16 GSC_noisy_speech; /* AC mode (GSC) - flag to indicate GSC on SWB noisy speech */ + Word16 GSC_IVAS_mode; GSC_ENC_HANDLE hGSCEnc; - int16_t Last_pulse_pos; /* FEC - last position of the first glottal pulse in the frame */ + Word16 Last_pulse_pos; /* FEC - last position of the first glottal pulse in the frame */ Word16 lsfoldbfi0_fx[M]; /* FEC - LSF vector of the previous frame Qlog2(2.56) */ Word16 lsfoldbfi1_fx[M]; /* FEC - LSF vector of the past previous frame Qlog2(2.56) */ Word16 lsf_adaptive_mean_fx[M]; /* FEC - adaptive mean LSF vector for FEC Qlog2(2.56) */ - int16_t next_force_safety_net; /* FEC - flag to force safety net in next frame */ + Word16 next_force_safety_net; /* FEC - flag to force safety net in next frame */ // Word16 next_force_safety_net_fx; /* FEC - flag to force safety net in next frame */ - int16_t uv_count; /* Stationary noise UV modification - unvoiced counter */ - int16_t act_count; /* Stationary noise UV modification - activation counter */ + Word16 uv_count; /* Stationary noise UV modification - unvoiced counter */ + Word16 act_count; /* Stationary noise UV modification - activation counter */ Word32 ge_sm_fx; /* Stationary noise UV modification - smoothed excitation gain Q(GE_SHIFT) */ Word16 lspold_s_fx[M]; /* Stationary noise UV modification - old LSP vector Q15 */ - int16_t noimix_seed; /* Stationary noise UV modification - mixture seed */ + Word16 noimix_seed; /* Stationary noise UV modification - mixture seed */ Word16 min_alpha_fx; /* Stationary noise UV modification - minimum alpha Q15 */ Word16 exc_pe_fx; /* Stationary noise UV modification - memory of the preemphasis filter */ - int16_t coder_type_raw; /* raw coder_type (before UNVOICED is lost) */ - int16_t last_coder_type_raw; /* raw last_coder_type (coming from the sigal classification) */ - int16_t last_coder_type; /* previous coding type */ + Word16 coder_type_raw; /* raw coder_type (before UNVOICED is lost) */ + Word16 last_coder_type_raw; /* raw last_coder_type (coming from the sigal classification) */ + Word16 last_coder_type; /* previous coding type */ Word16 old_thres_fx; /* normalized correlation weighting in open-loop pitch Q14 */ Word16 old_corr_fx; /* normalized correlation in previous frame (mean value) Q15 */ - int16_t old_pitch; /* previous pitch for open-loop pitch search */ - int16_t delta_pit; /* open-loop pitch extrapolation correction */ + Word16 old_pitch; /* previous pitch for open-loop pitch search */ + Word16 delta_pit; /* open-loop pitch extrapolation correction */ Word32 ee_old_fx; /* previous frame low/high frequency energy ratio Q6 */ - int16_t min_band; /* minimum critical band of useful bandwidth */ - int16_t max_band; /* maximum critical band of useful bandwidth */ - int16_t tc_cnt; /* TC frame counter */ - int16_t audio_frame_cnt; /* Counter of relative presence of audio frames */ + Word16 min_band; /* minimum critical band of useful bandwidth */ + Word16 max_band; /* maximum critical band of useful bandwidth */ + Word16 tc_cnt; /* TC frame counter */ + Word16 audio_frame_cnt; /* Counter of relative presence of audio frames */ Word32 old_dE1_fx; /* Maximum energy increase in previous frame Q13 */ - int16_t old_ind_deltaMax; /* Index of the sub-subframe of maximum energy in previous frame */ + Word16 old_ind_deltaMax; /* Index of the sub-subframe of maximum energy in previous frame */ Word32 old_enr_ssf_fx[2 * NB_SSF]; /* Maxima of energies per sub-subframes of previous frame */ - int16_t spike_hyst; /* Hysteresis to prevent UC after sharp energy spike */ - int16_t last_harm_flag_acelp; /* harmonicity flag for ACELP @32kbps rate */ + Word16 spike_hyst; /* Hysteresis to prevent UC after sharp energy spike */ + Word16 last_harm_flag_acelp; /* harmonicity flag for ACELP @32kbps rate */ Word16 old_Aq_12_8_fx[M + 1]; /* Q12 old Aq[] for core switching */ Word16 old_Es_pred_fx; /* old Es_pred for core switching Q8 */ Word16 music_hysteresis_fx; /* Counter of frames after AUDIO coding mode to prevent UC */ @@ -1430,7 +1430,7 @@ typedef struct enc_core_structure Word16 voicing0_sm_fx; Word16 voicing_sm_fx; Word16 LF_EnergyRatio_sm_fx; - int16_t predecision_flag; + Word16 predecision_flag; Word32 diff_sm_fx; /* Q7 */ Word32 energy_sm_fx; /* Q7 */ @@ -1463,10 +1463,10 @@ typedef struct enc_core_structure Word16 *old_inp_12k8_fx; /* memory of input signal at 12.8kHz */ Word16 *old_inp_16k_fx; /* ACELP@16kHz - memory of input signal @16 kHz */ - Word16 *buf_speech_enc_pe; - Word16 *buf_synth; /*can be reduced to PIT_MAX_MAX+L_FRAME_MAX if no rate switching*/ - Word16 *buf_speech_enc; - Word16 *buf_wspeech_enc; + Word16 *buf_speech_enc_pe; // exp_buf_speech_enc_pe + Word16 *buf_synth; /*can be reduced to PIT_MAX_MAX+L_FRAME_MAX if no rate switching*/ + Word16 *buf_speech_enc; // exp_buf_speech_enc + Word16 *buf_wspeech_enc; // exp_buf_wspeech_enc Word16 exp_buf_speech_enc_pe; Word16 exp_buf_speech_enc; @@ -1489,9 +1489,9 @@ typedef struct enc_core_structure Word16 lgBin_E_fx[L_FFT / 2]; /* Q8 per bin energy of two frames */ - int16_t sp_aud_decision0; /* 1st stage speech/music decision flag */ - int16_t sp_aud_decision1; /* 1st stage speech/music classification flag */ - int16_t sp_aud_decision2; /* 2nd stage speech/music classification flag */ + Word16 sp_aud_decision0; /* 1st stage speech/music decision flag */ + Word16 sp_aud_decision1; /* 1st stage speech/music classification flag */ + Word16 sp_aud_decision2; /* 2nd stage speech/music classification flag */ /*----------------------------------------------------------------------------------* * VAD/DTX/CNG @@ -1502,9 +1502,9 @@ typedef struct enc_core_structure VAD_CLDFB_HANDLE hVAD_CLDFB; T_CldfbVadState vad_st; - int16_t vad_flag; /* i : VAD flag */ - int16_t sharpFlag; - int16_t localVAD; /* i : local VAD flag */ + Word16 vad_flag; /* i : VAD flag */ + Word16 sharpFlag; + Word16 localVAD; /* i : local VAD flag */ Word32 bckr_tilt_lt; /* Q16 */ Word16 lp_speech_fx; /* Q8 */ @@ -1514,7 +1514,7 @@ typedef struct enc_core_structure Word16 voicing_old_fx; Word16 var_SID_rate_flag_fx; /* CNG and DTX - flag for variable SID rate */ Word16 interval_SID_fx; - int16_t active_cnt; /* counter of active frames */ + Word16 active_cnt; /* counter of active frames */ TD_CNG_ENC_HANDLE hTdCngEnc; @@ -1541,10 +1541,10 @@ typedef struct enc_core_structure *----------------------------------------------------------------------------------*/ HANDLE_FD_CNG_ENC hFdCngEnc; - int16_t fd_cng_reset_flag; + Word16 fd_cng_reset_flag; Word16 last_totalNoise_fx; /* Q8 */ Word16 totalNoise_increase_hist_fx[TOTALNOISE_HIST_SIZE]; /* Q8 */ - int16_t totalNoise_increase_len; + Word16 totalNoise_increase_len; /*----------------------------------------------------------------------------------* * SC-VBR parameters @@ -1561,7 +1561,7 @@ typedef struct enc_core_structure Word16 old_hpfilt_out_fx; Word32 EnergyLT_fx; /* Q(EnergyLT_fx_exp) */ Word32 Energy_Old_fx; - int16_t TransientHangOver; + Word16 TransientHangOver; HQ_ENC_HANDLE hHQ_core; /* HQ core encoder handle */ @@ -1585,21 +1585,21 @@ typedef struct enc_core_structure Word16 lt_mean_NB_fx; /* Q11 */ Word16 lt_mean_WB_fx; /* Q11 */ Word16 lt_mean_SWB_fx; /* Q11 */ - int16_t count_WB; - int16_t count_SWB; - int16_t count_FB; + Word16 count_WB; + Word16 count_SWB; + Word16 count_FB; /*----------------------------------------------------------------------------------* * Channel-aware mode *----------------------------------------------------------------------------------*/ - int16_t rf_mode; /* flag to signal the RF mode */ - int16_t rf_mode_last; - int16_t last_rf_mode_cng; - int16_t Opt_RF_ON; - int16_t rf_fec_offset; - int16_t rf_target_bits_write; - int16_t rf_fec_indicator; + Word16 rf_mode; /* flag to signal the RF mode */ + Word16 rf_mode_last; + Word16 last_rf_mode_cng; + Word16 Opt_RF_ON; + Word16 rf_fec_offset; + Word16 rf_target_bits_write; + Word16 rf_fec_indicator; RF_ENC_HANDLE hRF; /* RF encoder handle */ @@ -1640,24 +1640,24 @@ typedef struct enc_core_structure Word16 exp_mem_preemph_enc; /* speech preemph filter memory (at encoder-sampling-rate) */ /* Signal Buffers and Pointers at encoder-sampling-rate */ - Word16 *speech_enc; - Word16 *speech_enc_pe; - Word16 *new_speech_enc; - Word16 *new_speech_enc_pe; - Word16 *wspeech_enc; + Word16 *speech_enc; // exp_buf_speech_enc + Word16 *speech_enc_pe; // exp_buf_speech_enc_pe + Word16 *new_speech_enc; // exp_buf_speech_enc + Word16 *new_speech_enc_pe; // exp_buf_speech_enc_pe + Word16 *wspeech_enc; // exp_buf_wspeech_enc Word16 *synth; - int16_t enableTcxLpc; /* global toggle for the TCX LPC quantizer */ - int16_t envWeighted; /* are is{p,f}_old_q[] weighted or not? */ + Word16 enableTcxLpc; /* global toggle for the TCX LPC quantizer */ + Word16 envWeighted; /* are is{p,f}_old_q[] weighted or not? */ - int16_t acelpEnabled; /* Flag indicating if ACELP can be used */ - int16_t tcx10Enabled; /* Flag indicating if TCX 10 can be used */ - int16_t tcx20Enabled; /* Flag indicating if TCX 20 can be used */ + Word16 acelpEnabled; /* Flag indicating if ACELP can be used */ + Word16 tcx10Enabled; /* Flag indicating if TCX 10 can be used */ + Word16 tcx20Enabled; /* Flag indicating if TCX 20 can be used */ Word16 mem_wsp_enc; /* wsp vector memory */ - int16_t nb_bits_header_ace; /* number of bits for the header */ - int16_t nb_bits_header_tcx; /* number of bits for the header */ + Word16 nb_bits_header_ace; /* number of bits for the header */ + Word16 nb_bits_header_tcx; /* number of bits for the header */ Word16 preemph_fac; /*Preemphasis factor Q15*/ Word16 gamma; /* Q15 */ @@ -1666,8 +1666,9 @@ typedef struct enc_core_structure TRAN_DET_HANDLE hTranDet; TransientDetection transientDetection; Word16 transient_info[3]; - int16_t acelpFramesCount; + Word16 acelpFramesCount; Word16 prevTempFlatness_fx; /* exponent is AVG_FLAT_E Q7 in EVS */ /* Q4 in IVAS */ + Word32 prevTempFlatness_32fx; /* Q21 in IVAS */ // float currEnergyLookAhead; Word32 currEnergyLookAhead_fx; // Q31 @@ -1681,34 +1682,34 @@ typedef struct enc_core_structure Word16 parcorr[2]; Word16 parcorr_mid[2]; - int16_t lpcQuantization; + Word16 lpcQuantization; Word16 numlpc; - int16_t encoderLookahead_enc; - int16_t encoderPastSamples_enc; - int16_t encoderLookahead_FB; + Word16 encoderLookahead_enc; + Word16 encoderPastSamples_enc; + Word16 encoderLookahead_FB; /* pitch_ol for adaptive lag window */ - int16_t old_pitch_la; /* past open loop pitch lag from look-ahead before very short stable pitch detection */ + Word16 old_pitch_la; /* past open loop pitch lag from look-ahead before very short stable pitch detection */ Word16 old_voicing_la; /* past open loop pitch gain from look-ahead */ Word32 band_energies[2 * NB_BANDS]; /* energy in critical bands without minimum noise floor MODE2_E_MIN */ Word16 band_energies_exp; /* exponent for energy in critical bands without minimum noise floor MODE2_E_MIN */ - int16_t acelp_autocorr; /* Optimize acelp in 0 covariance or 1 correlation domain */ + Word16 acelp_autocorr; /* Optimize acelp in 0 covariance or 1 correlation domain */ - int16_t pit_min; - int16_t pit_fr1; - int16_t pit_fr1b; - int16_t pit_fr2; - int16_t pit_max; - int16_t pit_res_max; + Word16 pit_min; + Word16 pit_fr1; + Word16 pit_fr1b; + Word16 pit_fr2; + Word16 pit_max; + Word16 pit_res_max; /* for FAC */ - int16_t L_frame_past; + Word16 L_frame_past; /*Adaptive BPF*/ - int16_t bpf_gain_param; + Word16 bpf_gain_param; Word32 mem_bpf_fx1[2 * L_FILT16k]; Word32 mem_error_bpf_fx[2 * L_FILT16k]; Word16 bpf_T[NB_SUBFR16k]; @@ -1723,24 +1724,24 @@ typedef struct enc_core_structure Word16 noise_shift_old; } mem_bpf_fx; - int16_t glr; - int16_t glr_idx[2]; + Word16 glr; + Word16 glr_idx[2]; Word32 mean_gc[2]; /* Q15 */ Word16 prev_lsf4_mean; /* Qlog2(2.56) */ - int16_t glr_reset; - int32_t last_sr_core; + Word16 glr_reset; + Word32 last_sr_core; Word16 last_stab_fac; /* Q15 */ Word32 gain_code[NB_SUBFR16k]; /*for rate switching*/ - int16_t rate_switching_reset; /*Rate switching flag requiring a reset of memories at least partially */ - int16_t rate_switching_reset_16kHz; + Word16 rate_switching_reset; /*Rate switching flag requiring a reset of memories at least partially */ + Word16 rate_switching_reset_16kHz; - int16_t enablePlcWaveadjust; - int16_t Tonal_SideInfo; + Word16 enablePlcWaveadjust; + Word16 Tonal_SideInfo; - int16_t seed_acelp; + Word16 seed_acelp; PLC_ENC_EVS_HANDLE hPlcExt; @@ -1749,23 +1750,23 @@ typedef struct enc_core_structure *----------------------------------------------------------------------------------*/ IGF_ENC_INSTANCE_HANDLE hIGFEnc; /* IGF encoder handle */ - int16_t igf; + Word16 igf; /*----------------------------------------------------------------------------------* * TEC *----------------------------------------------------------------------------------*/ - int16_t tec_tfa; + Word16 tec_tfa; TEC_ENC_HANDLE hTECEnc; /* TEC encoder handle */ - int16_t tec_flag; - int16_t tfa_flag; + Word16 tec_flag; + Word16 tfa_flag; Word32 tfa_enr[N_TEC_TFA_SUBFR]; /*---------------------------------------------------------------* * IVAS parameters *---------------------------------------------------------------*/ - int16_t tdm_LRTD_flag; /* LRTD stereo mode flag */ + Word16 tdm_LRTD_flag; /* LRTD stereo mode flag */ Word16 cna_dirac_flag; /* CNA in DirAC flag */ /* stereo switching memories */ @@ -1780,9 +1781,10 @@ typedef struct enc_core_structure Word16 is_ism_format; /* Indication whether the codec operates in ISM format */ Word16 dtx_sce_sba; /* enable use of FD CNG with transform domain cores in SCE SBA */ - /*----------------------------------------------------------------------------------* - * Fixed point only variables - *----------------------------------------------------------------------------------*/ + + /*----------------------------------------------------------------------------------* + * Fixed point only variables + *----------------------------------------------------------------------------------*/ Word16 last_ener_fx; /* AC mode (GSC) - previous energy */ @@ -1809,552 +1811,24 @@ typedef struct enc_core_structure Word16 prev_lpc_wb_fx[LPC_SHB_ORDER_WB]; Word16 prev_lsp_wb_temp_fx[LPC_SHB_ORDER_WB]; - int16_t sba_br_sw_while_no_data; /* Indicator for SBA bitrate switch while in FRAME_NO_DATA mode */ + Word16 sba_br_sw_while_no_data; /* Indicator for SBA bitrate switch while in FRAME_NO_DATA mode */ } Encoder_State, *ENC_CORE_HANDLE; -// typedef struct Encoder_State_fx -//{ -// -// /*----------------------------------------------------------------------------------* -// * Common parameters - -// *----------------------------------------------------------------------------------*/ -// /*----------------------------------------------------------------------------------* -// * Stereo/IVAS parameters -// *----------------------------------------------------------------------------------*/ -// Word16 flag_ACELP16k; /* flag indicating use of ACELP core at 16kHz internal sampling rate */ -// -// Word16 tdm_LRTD_flag; /* LRTD stereo mode flag */ -// Word16 cna_dirac_flag; /* CNA in DirAC flag */ -// Word16 cng_sba_flag; /* CNG in SBA flag */ -// Word16 idchan; /* channel ID (audio channel number) */ -// Word16 element_mode; /* element mode */ -// Word16 last_element_mode; /* element mode */ -// Word16 low_rate_mode; /* low-rate mode flag */ -// MCT_CHAN_MODE mct_chan_mode; -// Word16 GSC_IVAS_mode; -// Word16 is_ism_format; /* Indication whether the codec operates in ISM format */ -// Word16 dtx_sce_sba; /* enable use of FD CNG with transform domain cores in SCE SBA */ -// -// -// //#ifdef IVAS_CODE -// -// #ifdef DEBUGGING -// Word16 id_element; /* element ID */ -// #endif -// Word32 element_brate; /* element bitrate */ -// Word16 extl_orig; /* extension layer */ -// Word32 extl_brate_orig; /* extension layer bitrate */ -// /*----------------------- End of IVAS specific--------------------------------------*/ -// -// -// Word16 codec_mode; /* MODE1 or MODE2 */ -// Word16 last_codec_mode; /* Previous Codec Mode*/ -// Word16 last_codec_mode_cng; /* Codec Mode of the last inactive frame*/ -// Word16 mdct_sw_enable; /* MDCT switching enable flag */ -// Word16 mdct_sw; /* MDCT switching indicator */ -// Word16 last_enerBuffer_exp; -// Word16 next_bit_pos_fx; /* position of the next bit to be written in the bitstream */ -// Word16 bitstreamformat; /* Bitstream format flag (G.192/MIME) */ -// -// BSTR_ENC_HANDLE hBstr; /* encoder bitstream handle */ -// -// -// LPD_state_HANDLE hLPDmem; /* ACELP LPDmem memories */ -// -// -// Word32 input_Fs_fx; /* input signal sampling frequency in Hz */ -// Word32 total_brate_fx; /* total bitrate in kbps of the codec */ -// Word32 last_total_brate_fx; /* total bitrate in kbps of the codec */ -// Word32 last_total_brate_cng_fx; /* total bitrate in kbps of the last inactive frame */ -// Word16 core_fx; /* core (ACELP_CORE, TCX_20_CORE, TCX_10_CORE, HQ_CORE, AMR_WB_CORE) */ -// Word32 core_brate_fx; /* core bitrate */ -// Word32 last_core_brate_fx; /* previous frame core bitrate */ -// Word16 input_frame_fx; /* Frame lenght (function of input_Fs) */ -// Word16 extl_fx; /* extension layer */ -// Word16 last_extl_fx; /* previous extension layer */ -// Word32 extl_brate_fx; /* extension layer bitrate */ -// Word16 input_bwidth_fx; /* input signal bandwidth */ -// Word16 last_input_bwidth_fx; /* input signal bandwidth in the previous frame */ -// Word16 bwidth_fx; /* encoded bandwidth NB, WB, SWB or FB */ -// Word16 max_bwidth_fx; /* maximum encoded bandwidth */ -// Word16 last_bwidth_fx; /* input signal bandwidth in the previous frame */ -// Word16 last_bwidth_cng_fx; /* input signal bandwidth in the previous inactive frame */ -// Word16 L_frame_fx; /* ACELP core internal frame length */ -// Word16 Opt_AMR_WB_fx; /* flag indicating AMR-WB IO mode */ -// Word16 Opt_DTX_ON_fx; /* flag indicating DTX operation */ -// Word16 cng_type_fx; /* flag indicating LP or CLDFB based SID/CNG */ -// Word16 active_fr_cnt_fx; /* counter of active frames */ -// Word16 Opt_SC_VBR_fx; /* flag indicating SC-VBR mode */ -// Word16 last_Opt_SC_VBR_fx; /* flag indicating SC-VBR mode in the last frame */ -// /*----------------------------------------------------------------------------------* -// * ACELP core parameters -// *----------------------------------------------------------------------------------*/ -// -// Word16 clas_fx; /* current frame clas */ -// Word16 last_clas_fx; /* previous frame signal classification */ -// Word32 Bin_E_fx[L_FFT]; /* Q_new + Q_SCALE -2 per bin energy of two frames */ -// -// /*----------------------------------------------------------------------------------* -// * General signal buffers -// *----------------------------------------------------------------------------------*/ -// Word16* input_buff; -// /*Word16* input; -// Word16* old_input_signal;*/ -// -// SIGNAL_BUFFERS_ENC_HANDLE hSignalBuf; -// -// Word32* Bin_E_old_fx; /* per bin energy of old 2nd frames */ -// Word16* mem_decim_fx; /* decimation filter memory */ -// Word16* mem_decim16k_fx; /* ACELP@16kHz - decimation filter memory @16kHz */ -// Word16* old_inp_12k8_fx; /* memory of input signal at 12.8kHz */ -// Word16* old_inp_16k_fx; /* ACELP@16kHz - memory of input signal @16 kHz */ -// -// Word16* buf_speech_enc_pe; -// Word16* buf_synth; /*can be reduced to PIT_MAX_MAX+L_FRAME_MAX if no rate switching*/ -// Word16* buf_speech_enc; -// Word16* buf_wspeech_enc; -// -// -// Word16 lsp_old1_fx[M]; /* old unquantized LSP vector at the end of the frame */ -// Word16 lsf_old1_fx[M]; /* old LSF vector at the end of the frame */ -// Word16 lsp_old_fx[M]; /* old LSP vector at the end of the frame */ -// Word16 lsf_old_fx[M]; /* old LSF vector at the end of the frame */ -// Word16 lsp_old16k_fx[M]; /* old LSP vector at the end of the frame @16kHz */ -// Word16 lspold_enc_fx[M]; /* old LSP vector at the end of the frame @16kHz */ -// Word16 pstreaklen_fx; /* LSF quantizer */ -// Word16 streaklimit_fx; /* LSF quantizer */ -// Word32 offset_scale1_fx[MAX_NO_MODES + 1][MAX_NO_SCALES + 1]; /* offsets for LSF LVQ structure 1st 8-dim subvector*/ -// Word32 offset_scale2_fx[MAX_NO_MODES + 1][MAX_NO_SCALES + 1]; /* offsets for LSF LVQ structure 2nd 8-dim subvector*/ -// Word32 offset_scale1_p_fx[MAX_NO_MODES_p + 1][MAX_NO_SCALES + 1]; /* offsets for LSF LVQ structure, pred. case, 1st 8-dim subvector*/ -// Word32 offset_scale2_p_fx[MAX_NO_MODES_p + 1][MAX_NO_SCALES + 1]; /* offsets for LSF LVQ structure, pred. case, 2nd 8-dim subvector*/ -// Word16 no_scales_fx[MAX_NO_MODES][2]; /* LSF LVQ structure Q0*/ -// Word16 no_scales_p_fx[MAX_NO_MODES_p][2]; /* LSF LVQ structure Q0*/ -// Word16 stab_fac_fx; /* LSF stability factor */ -// Word16 mem_deemph_fx; /* deemphasis filter memory */ -// Word16 mem_preemph_fx; /* preemphasis filter memory */ -// Word32 mem_hp20_in_fx[5]; /* HP filter memory for AMR-WB IO */ -// Word16 old_wsp_fx[L_WSP_MEM]; /* old weighted signal vector */ -// /*Word16 old_exc_fx[L_EXC_MEM];*/ /* old excitation vector */ -// Word16 old_wsp2_fx[(L_WSP_MEM - L_INTERPOL) / OPL_DECIM]; /* old decimated weighted signal vector qwsp */ -// -// /*----------------------------------------------------------------------------------* -// * Noise estimation -// *----------------------------------------------------------------------------------*/ -// -// NOISE_EST_HANDLE hNoiseEst; -// -// Word16 mem_wsp_fx; /* weighted signal vector memory */ -// Word16 mem_decim2_fx[3]; /* weighted signal decimation filter memory qwsp */ -// Word16 clip_var_fx[6]; -// Word16 mem_AR_fx[M]; /* AR memory of LSF quantizer (past quantized LSFs without mean) */ -// Word16 mem_MA_fx[M]; /* MA memory of LSF quantizer (past quantized residual) (used also in AMR-WB IO mode) */ -// Word16 mCb1_fx; /* LSF quantizer - counter of stationary frames after a transition frame */ -// Word16 coder_type_raw_fx; -// Word16 last_coder_type_raw_fx; /* raw last_coder_type (coming from the sigal classification) */ -// Word16 last_coder_type; /*Q0 previous coding type */ -// Word16 ini_frame_fx; /* initialization frames counter */ -// Word16 old_thres_fx; /* normalized correlation weighting in open-loop pitch Q15 */ -// Word16 old_corr_fx; /* normalized correlation in previous frame (mean value) Q15 */ -// Word16 old_pitch; /* previous pitch for open-loop pitch search Q0 */ -// Word16 delta_pit_fx; /* open-loop pitch extrapolation correction Q0 */ -// Word32 ee_old_fx; -// Word16 min_band_fx; /* Q0 minimum critical band of useful bandwidth */ -// Word16 max_band_fx; /* Q0 maximum critical band of useful bandwidth */ -// Word16 tc_cnt_fx; /* TC frame counter */ -// Word16 audio_frame_cnt_fx; /* Counter of relative presence of audio frames */ -// Word32 old_dE1_fx; /* Maximum energy increase in previous frame */ -// Word16 old_ind_deltaMax_fx; /* Index of the sub-subframe of maximum energy in previous frame */ -// Word32 old_enr_ssf_fx[2 * NB_SSF]; /* Maxima of energies per sub-subframes of previous frame */ -// Word16 spike_hyst_fx; /* Hysteresis to prevent UC after sharp energy spike */ -// Word16 music_hysteresis_fx; /* Counter of frames after AUDIO coding mode to prevent UC */ -// Word16 last_harm_flag_acelp_fx; /* harmonicity flag for ACELP @32kbps rate */ -// Word16 old_Aq_12_8_fx[M + 1]; /* Q12 old Aq[] for core switching */ -// Word16 old_Es_pred_fx; /* Q8 old Es_pred for core switching */ -// -// GSC_ENC_HANDLE hGSCEnc; -// -// -// Word16 GSC_noisy_speech; /* AC mode (GSC) - flag to indicate GSC on SWB noisy speech */ -// -// SP_MUS_CLAS_HANDLE hSpMusClas; -// -// Word16 lgBin_E_fx[L_FFT / 2]; /* Q8 per bin energy of two frames */ -// -// /* speech/music classifier improvement parameters */ -// Word16 last_vad_spa_fx; -// -// -// Word16 Last_pulse_pos_fx; /* FEC - last position of the first glotal pulse in the frame */ -// Word16 lsfoldbfi0_fx[M]; /* FEC - LSF vector of the previous frame */ -// Word16 lsfoldbfi1_fx[M]; /* FEC - LSF vector of the past previous frame */ -// Word16 lsf_adaptive_mean_fx[M]; /* FEC - adaptive mean LSF vector for FEC */ -// Word16 next_force_safety_net_fx; /* FEC - flag to force safety net in next frame */ -// -// -// /*----------------------------------------------------------------------------------* -// * VAD/DTX/CNG -// *----------------------------------------------------------------------------------*/ -// -// VAD_HANDLE hVAD; -// -// VAD_CLDFB_HANDLE hVAD_CLDFB; -// Word16 lp_speech_fx; -// Word16 Opt_HE_SAD_ON_fx; -// Word16 nb_active_frames_HE_SAD_fx; -// -// -// -// -// Word16 voicing_old_fx; -// -// -// Word32 bckr_tilt_lt; -// -// -// TD_CNG_ENC_HANDLE hTdCngEnc; -// -// DTX_ENC_HANDLE hDtxEnc; -// Word16 var_SID_rate_flag_fx; /* CNG and DTX - flag for variable SID rate */ -// Word16 interval_SID_fx; /* CNG and DTX - interval of SID update, default 8 */ -// -// Word16 lp_noise_fx; /* CNG and DTX - LP filtered total noise estimation */ -// -// Word16 uv_count; /*Q0*/ /* Stationary noise UV modification - unvoiced counter */ -// Word16 act_count; /*Q0*/ /* Stationary noise UV modification - activation counter */ -// Word32 ge_sm_fx; /* Stationary noise UV modification - smoothed excitation gain */ -// Word16 lspold_s_fx[M]; /*Q15*/ /* Stationary noise UV modification - old LSP vector */ -// Word16 noimix_seed; /*Q0*/ /* Stationary noise UV modification - mixture seed */ -// Word16 min_alpha_fx; /*Q15*/ /* Stationary noise UV modification - minimum alpha */ -// Word16 exc_pe_fx; /* Stationary noise UV modification - memory of the preemphasis filter */ -// -// Word16 last_L_frame_fx; /* ACELP@16kHz - last L_frame value */ -// Word16 mem_preemph16k_fx; /* ACELP@16kHz - preemphasis filter memory @16kHz */ -// Word16 mem_deemp_preQ_fx; /* ACELP@16kHz - prequantizer deemhasis memory */ -// Word16 mem_preemp_preQ_fx; /* ACELP@16kHz - prequantizer preemhasis memory */ -// Word16 last_nq_preQ; /* ACELP@16kHz - AVQ subquantizer number of the last sub-band of the last subframe */ -// Word16 use_acelp_preq; /* ACELP@16kHz - flag of prequantizer usage */ -// -// Word16 bpf_off_fx; -// Word16 old_pitch_buf_fx[2 * NB_SUBFR16k]; /*Q6 Bass post-filter - buffer of old subframe pitch values */ -// -// -// /* stable short pitch detection */ -// Word16 voicing0_sm_fx; -// Word16 voicing_sm_fx; -// Word16 LF_EnergyRatio_sm_fx; -// Word16 predecision_flag_fx; -// Word32 diff_sm_fx; -// Word32 energy_sm_fx; -// -// Word16 last_ener_fx; /* AC mode (GSC) - previous energy */ -// -// /*----------------------------------------------------------------------------------* -// * AMR-WB IO handle -// *----------------------------------------------------------------------------------*/ -// HANDLE_CLDFB_FILTER_BANK cldfbAna_Fx; -// -// AMRWB_IO_ENC_HANDLE hAmrwb_IO; /* AMR-WB IO encoder handle */ -// -// /*----------------------------------------------------------------------------------* -// * CLDFB analysis -// *----------------------------------------------------------------------------------*/ -// HANDLE_CLDFB_FILTER_BANK cldfbAna_Fx; -// -// HANDLE_CLDFB_FILTER_BANK cldfbSyn_Fx; -// -// /*----------------------------------------------------------------------------------* -// * FD CNG handle -// *----------------------------------------------------------------------------------*/ -// HANDLE_FD_CNG_ENC_FX hFdCngEnc_fx; -// Word16 fd_cng_reset_flag; -// Word16 last_totalNoise_fx; -// Word16 totalNoise_increase_hist_fx[TOTALNOISE_HIST_SIZE]; -// Word16 totalNoise_increase_len_fx; -// /*----------------------------------------------------------------------------------* -// * SC-VBR parameters -// *----------------------------------------------------------------------------------*/ -// -// /*----------------------------------------------------------------------------------* -// * SC-VBR parameters -// *----------------------------------------------------------------------------------*/ -// -// SC_VBR_ENC_HANDLE hSC_VBR; -// -// /*----------------------------------------------------------------------------------* -// * HQ core parameters -// *----------------------------------------------------------------------------------*/ -// Word16 * input; -// Word16 * old_input_signal_fx; -// Word16 Q_old_wtda; -// Word16 old_hpfilt_in_fx; -// Word16 old_hpfilt_out_fx; -// Word32 EnergyLT_fx; -// Word32 Energy_Old_fx; -// Word16 TransientHangOver_fx; -// Word16 last_core_fx; -// -// HQ_ENC_HANDLE hHQ_core; /* HQ core encoder handle */ -// -// Word16 Nb_ACELP_frames_fx; -// -// PVQ_ENC_HANDLE hPVQ; -// -// /*----------------------------------------------------------------------------------* -// * TD BWE parameters -// *----------------------------------------------------------------------------------*/ -// -// TD_BWE_ENC_HANDLE hBWE_TD; -// -// /*----------------------------------------------------------------------------------* -// * FD BWE parameters -// *----------------------------------------------------------------------------------*/ -// -// FD_BWE_ENC_HANDLE hBWE_FD; -// -// /*----------------------------------------------------------------------------------* -// * WB, SWB and FB bandwidth detector -// *----------------------------------------------------------------------------------*/ -// -// Word16 lt_mean_NB_fx; -// Word16 lt_mean_WB_fx; -// Word16 lt_mean_SWB_fx; -// Word16 count_WB_fx; -// Word16 count_SWB_fx; -// Word16 count_FB_fx; -// -// RF_ENC_HANDLE hRF; /* RF encoder handle */ -// -// Word16 rf_mode; -// Word16 rf_target_bits_write; -// Word16 rf_mode_last; -// Word16 last_rf_mode_cng; -// Word16 Opt_RF_ON; -// Word16 rf_fec_offset; -// Word16 rf_fec_indicator; -// -// /*----------------------------------------------------------------------------------* -// * Fixed point only variables -// *----------------------------------------------------------------------------------*/ -// -// Word16 prev_Q_bwe_exc; -// Word16 prev_Q_bwe_syn; -// Word16 Q_stat_noise_ge; -// Word16 Q_stat_noise; -// Word16 Q_syn2; -// Word16 Q_syn; -// Word16 Q_max[L_Q_MEM]; -// Word16 Q_max_16k[L_Q_MEM]; -// Word16 Q_old; -// Word16 prev_Q_old; -// Word16 old_wsp_max; /* Last weigthed speech maximal value */ -// Word16 old_wsp_shift; /* Last wsp scaling */ -// Word16 prev_Q_new; -// Word16 prev_Q_shb; -// -// /*----------------------------------------------------------------------------------* -// * -// *----------------------------------------------------------------------------------*/ -// -// Word16 EnergyLT_fx_exp; -// Word16 prev_lsp_wb_fx[LPC_SHB_ORDER_WB]; -// Word16 prev_lpc_wb_fx[LPC_SHB_ORDER_WB]; -// Word16 prev_lsp_wb_temp_fx[LPC_SHB_ORDER_WB]; -// -// Word16 frame_size_index; /* 0-FRAME_SIZE_NB-1: index determining the frame size */ -// Word16 bits_frame_nominal; /* avg bits per frame on active frame */ -// Word16 bits_frame; /* total bits per frame */ -// Word16 bits_frame_core; /* bits per frame for the core */ -// Word8 narrowBand; -// -// /*ACELP config*/ -// ACELP_config acelp_cfg; /* configuration set for each frame */ -// -// ACELP_config acelp_cfg_rf; /* configuration for RF frame */ -// -// Word16 mode_index; /* Mode Index for LPD core */ -// -// /*TCX config*/ -// TCX_CONFIG_HANDLE hTcxCfg; -// /*----------------------------------------------------------------------------------* -// * TCX core encoder handle -// *----------------------------------------------------------------------------------*/ -// -// TCX_ENC_HANDLE hTcxEnc; -// -// /* cod_main.c */ -// Word16 mem_preemph_enc; /* speech preemph filter memory (at encoder-sampling-rate) */ -// -// -// Word16 *speech_enc; -// Word16 *speech_enc_pe; -// Word16 *new_speech_enc; -// Word16 *new_speech_enc_pe; -// Word16 *wspeech_enc; -// Word16 *synth; -// /* Core Signal Analysis Outputs */ -// -// Word8 enableTcxLpc; /* global toggle for the TCX LPC quantizer */ -// Word16 envWeighted; /* are is{p,f}_old_q[] weighted or not? */ -// -// Word8 acelpEnabled; /* Flag indicating if ACELP can be used */ -// Word8 tcx10Enabled; /* Flag indicating if TCX 10 can be used */ -// Word8 tcx20Enabled; /* Flag indicating if TCX 20 can be used */ -// -// -// Word16 mem_wsp_enc; /* wsp vector memory */ -// -// Word16 nb_bits_header_ace; /* number of bits for the header */ -// Word16 nb_bits_header_tcx; /* number of bits for the header */ -// -// /*Added by fcs : restrict the possible in EVS: 0 base 10 = d.c.b.a base 2*/ -// /* a = 0/1 : ACELP on/off*/ -// /* b = 0/1 : TCX20 on/off*/ -// /* c = 0/1 : TCX40 on/off*/ -// /* d = 0/1 : TCX80 on/off*/ -// Word16 restrictedMode; -// -// /* Framing */ -// Word16 nb_subfr; -// -// Word16 preemph_fac; /*Preemphasis factor*/ -// -// Word16 gamma; -// Word16 inv_gamma; -// -// TransientDetection transientDetection; -// Word16 transient_info[3]; -// -// Word16 acelpFramesCount; /* Acelp frame counter. Counts upto 50 only !!! */ -// -// Word16 prevTempFlatness_fx; /* exponent is AVG_FLAT_E */ -// -// Word32 prevEnergyHF_fx; -// Word32 currEnergyHF_fx; -// Word16 currEnergyHF_e_fx; /* exponent of currEnergyHF and prevEnergyHF */ -// Word32 energyCoreLookahead_Fx; -// Word16 sf_energyCoreLookahead_Fx; -// -// /* lsf quantizer*/ -// Word16 parcorr[2]; -// Word16 parcorr_mid[2]; -// -// Word16 lpcQuantization; -// Word16 numlpc; -// Word16 encoderLookahead_enc; -// Word16 encoderPastSamples_enc; -// Word16 encoderLookahead_FB; -// -// /* pitch_ol for adaptive lag window */ -// Word16 old_pitch_la; /* past open loop pitch lag from look-ahead */ -// Word16 old_voicing_la; /* past open loop pitch gain from look-ahead */ -// -// Word32 band_energies[2 * NB_BANDS]; /* energy in critical bands without minimum noise floor MODE2_E_MIN */ -// Word16 band_energies_exp; /* exponent for energy in critical bands without minimum noise floor MODE2_E_MIN */ -// -// Word8 tcxonly; -// -// Word16 Q_max_enc[2]; -// -// Word16 finalVAD; -// Word8 flag_noisy_speech_snr; /*encoder detector for noisy speech*/ -// Word16 Pos_relE_cnt; /* Number of frames between positive relE */ -// -// Word16 fscale; -// Word32 sr_core; -// Word32 last_sr_core; -// Word8 acelp_autocorr; /* Optimize acelp in 0 covariance or 1 correlation domain */ -// -// Word16 pit_min; -// Word16 pit_fr1; -// Word16 pit_fr1b; -// Word16 pit_fr2; -// Word16 pit_max; -// Word16 pit_res_max; /* goes from 1 upto 6 (see core_enc_init.c: init_acelp()) */ -// -// /* for FAC */ -// Word16 L_frame_past; -// -// /*Adaptive BPF*/ -// Word16 bpf_gain_param; -// Word16 bpf_T[NB_SUBFR16k]; -// Word16 bpf_gainT[NB_SUBFR16k]; -// -// struct MEM_BPF -// { -// Word16 noise_buf[2 * L_FILT16k]; -// Word16 error_buf[L_FILT16k]; -// Word32 lp_error; -// Word32 lp_error_ener; -// Word16 noise_shift_old; -// } mem_bpf; -// -// -// -// Word8 glr; -// Word16 glr_idx[2]; -// Word32 gain_code[NB_SUBFR16k]; -// Word32 mean_gc[2]; -// Word16 prev_lsf4_mean; -// Word16 last_stab_fac; -// Word8 glr_reset; -// -// /*for rate switching*/ -// Word16 rate_switching_reset; /*Rate switching flag requiring a reset of memories at least partially */ -// Word16 rate_switching_reset_16kHz; -// -// Word16 enablePlcWaveadjust; -// Word16 Tonal_SideInfo; -// -// IGF_ENC_INSTANCE_HANDLE hIGFEnc; /* IGF encoder handle */ -// Word16 igf; -// -// Word16 seed_acelp; -// -// PLC_ENC_EVS_HANDLE hPlcExt; -// -// Word16 tec_tfa; -// TEC_ENC_HANDLE hTECEnc; /* TEC encoder handle */ -// Word16 tec_flag; -// Word16 tfa_flag; -// Word32 tfa_enr[N_TEC_TFA_SUBFR]; -// -// Word16 nTimeSlots; /* for CLDFB */ -// -// T_CldfbVadState_fx vad_st; -// -// -// Word16 pitch_fx[3]; -// Word16 voicing_fx[3]; -// Word16 sp_aud_decision0; /* 1st stage speech/music classification */ -// Word16 sp_aud_decision1; /* 1st stage speech/music classification */ -// Word16 sp_aud_decision2; /* 2nd stage speech/music classification */ -// Word16 coder_type; /* coder type */ -// Word16 vad_flag; -// Word16 sharpFlag; /* formant sharpening flag */ -// Word16 localVAD; -// -// Word16 tdm_pc; -// Word16 prev_fmerit; -// Word16 fmerit_dt; -// -// -// } Encoder_State, * ENC_CORE_HANDLE_FX; typedef struct GainItemStr { - int16_t gainIndex; + Word16 gainIndex; } GainItem; typedef struct context_rc_mem_struct { - int16_t nbits_old; - int16_t ctx; + Word16 nbits_old; + Word16 ctx; Word64 bit_estimate_fx; /* Q23 */ - int16_t rateFlag; - int16_t lastnz; - int16_t nt_half; + Word16 rateFlag; + Word16 lastnz; + Word16 nt_half; } RC_CONTEXT_MEM, *HANDLE_RC_CONTEXT_MEM; diff --git a/lib_enc/stat_noise_uv_enc_fx.c b/lib_enc/stat_noise_uv_enc_fx.c index 91dca8d63ff14510d6f3273d9e01b12f89321144..1445559a19b6d347f2d611d30167244ad4d0969f 100644 --- a/lib_enc/stat_noise_uv_enc_fx.c +++ b/lib_enc/stat_noise_uv_enc_fx.c @@ -11,7 +11,6 @@ #include "prot_fx.h" /* Function prototypes */ #include "prot_fx_enc.h" /* Function prototypes */ -#include "prot.h" /*======================================================================*/ /* FUNCTION : stat_noise_uv_enc_fx */ @@ -95,7 +94,7 @@ void stat_noise_uv_enc_fx( noisiness = s_max( noisiness, 0 ); noisiness = s_min( noisiness, 31 ); - push_indice_fx( st_fx->hBstr, IND_NOISINESS, noisiness, 5 ); + push_indice( st_fx->hBstr, IND_NOISINESS, noisiness, 5 ); } /*-----------------------------------------------------------------* diff --git a/lib_enc/swb_bwe_enc_fx.c b/lib_enc/swb_bwe_enc_fx.c index c7d99cc699ab43d0b8f5dbfacc96c3ea70c6b138..1ebef740457eef7370a81d919388c7d080210f3f 100644 --- a/lib_enc/swb_bwe_enc_fx.c +++ b/lib_enc/swb_bwe_enc_fx.c @@ -4,12 +4,11 @@ #include #include "options.h" -#include "prot.h" +#include "prot_fx.h" #include "cnst.h" #include "rom_com_fx.h" #include "rom_com.h" #include "stl.h" -#include "prot_fx.h" /* Function prototypes */ #include "prot_fx_enc.h" /* Function prototypes */ /*---------------------------------------------------------------------* @@ -187,7 +186,7 @@ void wb_bwe_enc_fx( Q_synth = sub( add( sub( new_input_fx_exp, 16 ), scl ), 1 ); mode = WB_BWE_encoding_fx( coder_type, yorig_fx, WB_fenv_fx, st_fx, Q_synth, Q_synth ); - push_indice_fx( st_fx->hBstr, IND_WB_CLASS, sub( mode, 2 ), 1 ); + push_indice( st_fx->hBstr, IND_WB_CLASS, sub( mode, 2 ), 1 ); } hBWE_FD->prev_mode = mode; @@ -212,11 +211,9 @@ void wb_bwe_enc_ivas_fx( Word16 Sample_Delay_WB_BWE; Word16 old_input_fx[NS2SA( 16000, DELAY_FD_BWE_ENC_NS + DELAY_FIR_RESAMPL_NS ) + L_FRAME16k]; Word32 yorig_32[L_FRAME16k]; - Word16 yorig_fx[L_FRAME16k]; Word32 L_wtda_synth_fx[2 * L_FRAME16k]; Word16 *new_input_fx; /* pointer to original input signal */ - Word16 scl, new_input_fx_exp; - Word16 Q_synth; + Word16 new_input_fx_exp; FD_BWE_ENC_HANDLE hBWE_FD = st_fx->hBWE_FD; Word16 WB_fenv_fx[SWB_FENV]; @@ -225,8 +222,8 @@ void wb_bwe_enc_ivas_fx( /*---------------------------------------------------------------------* * Delay the original input signal to be synchronized with ACELP core synthesis *---------------------------------------------------------------------*/ - set16_fx( old_input_fx, 0, NS2SA_FX2( 16000, DELAY_FD_BWE_ENC_12k8_NS + DELAY_FIR_RESAMPL_NS ) + L_FRAME16k ); - Sample_Delay_WB_BWE = NS2SA_FX2( 16000, DELAY_FD_BWE_ENC_12k8_NS ); + set16_fx( old_input_fx, 0, NS2SA( 16000, DELAY_FD_BWE_ENC_12k8_NS + DELAY_FIR_RESAMPL_NS ) + L_FRAME16k ); + Sample_Delay_WB_BWE = NS2SA( 16000, DELAY_FD_BWE_ENC_12k8_NS ); move16(); new_input_fx = old_input_fx + Sample_Delay_WB_BWE; @@ -240,7 +237,7 @@ void wb_bwe_enc_ivas_fx( /* MDCT of the core synthesis signal */ /*---------------------------------------------------------------------*/ - new_input_fx_exp = 0; + new_input_fx_exp = -1; move16(); wtda_fx( old_input_fx, &new_input_fx_exp, L_wtda_synth_fx, hBWE_FD->L_old_wtda_swb_fx, @@ -250,22 +247,7 @@ void wb_bwe_enc_ivas_fx( /* DCT of the ACELP core synthesis */ direct_transform_fx( L_wtda_synth_fx, yorig_32, 0, L_FRAME16k, &new_input_fx_exp, st_fx->element_mode ); - /* Convert to 16 Bits (Calc Shift Required to Stay within MAX_Q_NEW_INPUT) */ - scl = sub( 16 + 8 /*MAX_Q_NEW_INPUT*/, new_input_fx_exp ); - /* Possible to Upscale? */ - IF( scl > 0 ) - { - /* Yes */ - /* Calc Room to Upscale */ - Q_synth = Find_Max_Norm32( yorig_32, L_FRAME16k ); - - /* Stay within MAX_Q_NEW_INPUT */ - scl = s_min( Q_synth, scl ); - } - Copy_Scale_sig32_16( yorig_32, yorig_fx, L_FRAME16k, scl ); - Q_synth = sub( add( sub( new_input_fx_exp, 16 ), scl ), 1 ); - - mode = WB_BWE_encoding_ivas_fx( st_fx, yorig_fx, WB_fenv_fx, Q_synth, Q_synth ); + mode = WB_BWE_encoding_ivas_fx( st_fx, yorig_32, WB_fenv_fx, new_input_fx_exp, new_input_fx_exp ); move16(); push_indice( st_fx->hBstr, IND_WB_CLASS, sub( mode, 2 ), 1 ); } @@ -283,7 +265,7 @@ void wb_bwe_enc_ivas_fx( *-------------------------------------------------------------------*/ void swb_bwe_enc_ivas_fx( Encoder_State *st_fx, /* i/o: encoder state structure */ - const int16_t last_element_mode, /* i : last element mode */ + const Word16 last_element_mode, /* i : last element mode */ Word16 *old_input_12k8_fx, /* i : input signal @12.8kHz for SWB BWE */ Word16 *old_input_16k_fx, /* i : input signal @16kHz for SWB BWE */ const Word16 *old_syn_12k8_16k_fx, /* i : ACELP core synthesis at 12.8kHz or 16kHz */ @@ -325,9 +307,7 @@ void swb_bwe_enc_ivas_fx( move32(); #endif Word16 fb_band_begin; -#ifdef FIX_ISSUE_1230 Word16 q_new_input_hp; -#endif FD_BWE_ENC_HANDLE hBWE_FD = st_fx->hBWE_FD; TD_BWE_ENC_HANDLE hBWE_TD = st_fx->hBWE_TD; @@ -351,21 +331,21 @@ void swb_bwe_enc_ivas_fx( move32(); } - set16_fx( old_input_fx, 0, add( NS2SA( inner_Fs, DELAY_FD_BWE_ENC_12k8_NS + DELAY_FIR_RESAMPL_NS ), inner_frame ) ); + set16_fx( old_input_fx, 0, add( NS2SA_FX2( inner_Fs, DELAY_FD_BWE_ENC_12k8_NS + DELAY_FIR_RESAMPL_NS ), inner_frame ) ); IF( EQ_16( st_fx->L_frame, L_FRAME ) ) { Sample_Delay_SWB_BWE = NS2SA_FX2( inner_Fs, DELAY_FD_BWE_ENC_12k8_NS + DELAY_FIR_RESAMPL_NS ); - Sample_Delay_HP = NS2SA_FX2( 16000, ACELP_LOOK_NS + DELAY_FD_BWE_ENC_12k8_NS + DELAY_FIR_RESAMPL_NS - DELAY_CLDFB_NS ); + Sample_Delay_HP = NS2SA( 16000, ACELP_LOOK_NS + DELAY_FD_BWE_ENC_12k8_NS + DELAY_FIR_RESAMPL_NS - DELAY_CLDFB_NS ); IF( EQ_16( st_fx->element_mode, IVAS_CPE_TD ) ) { - Sample_Delay_HP = NS2SA_FX2( 16000, ACELP_LOOK_NS + DELAY_FD_BWE_ENC_12k8_NS + DELAY_FIR_RESAMPL_NS - DELAY_CLDFB_NS - L_MEM_RECALC_TBE_NS ); + Sample_Delay_HP = NS2SA( 16000, ACELP_LOOK_NS + DELAY_FD_BWE_ENC_12k8_NS + DELAY_FIR_RESAMPL_NS - DELAY_CLDFB_NS - L_MEM_RECALC_TBE_NS ); } - Sample_Delay_LP = NS2SA_FX2( 12800, ACELP_LOOK_NS + DELAY_FD_BWE_ENC_12k8_NS ); + Sample_Delay_LP = NS2SA( 12800, ACELP_LOOK_NS + DELAY_FD_BWE_ENC_12k8_NS ); IF( st_fx->element_mode > EVS_MONO ) { - Sample_Delay_SWB_BWE = sub( Sample_Delay_SWB_BWE, NS2SA( inner_Fs, DELAY_FIR_RESAMPL_NS ) ); + Sample_Delay_SWB_BWE = sub( Sample_Delay_SWB_BWE, NS2SA_FX2( inner_Fs, DELAY_FIR_RESAMPL_NS ) ); Sample_Delay_HP = sub( Sample_Delay_HP, NS2SA( 16000, DELAY_FIR_RESAMPL_NS ) ); IF( EQ_16( st_fx->element_mode, IVAS_CPE_DFT ) ) @@ -381,15 +361,15 @@ void swb_bwe_enc_ivas_fx( ELSE { Sample_Delay_SWB_BWE = NS2SA_FX2( inner_Fs, DELAY_FD_BWE_ENC_16k_NS + DELAY_FIR_RESAMPL_NS ); - Sample_Delay_HP = NS2SA_FX2( 16000, ACELP_LOOK_NS + DELAY_FD_BWE_ENC_16k_NS + DELAY_FIR_RESAMPL_NS - DELAY_CLDFB_NS ); + Sample_Delay_HP = NS2SA( 16000, ACELP_LOOK_NS + DELAY_FD_BWE_ENC_16k_NS + DELAY_FIR_RESAMPL_NS - DELAY_CLDFB_NS ); IF( EQ_16( st_fx->element_mode, IVAS_CPE_TD ) ) { - Sample_Delay_HP = NS2SA_FX2( 16000, ACELP_LOOK_NS + DELAY_FD_BWE_ENC_16k_NS + DELAY_FIR_RESAMPL_NS - DELAY_CLDFB_NS - L_MEM_RECALC_TBE_NS ); + Sample_Delay_HP = NS2SA( 16000, ACELP_LOOK_NS + DELAY_FD_BWE_ENC_16k_NS + DELAY_FIR_RESAMPL_NS - DELAY_CLDFB_NS - L_MEM_RECALC_TBE_NS ); } - Sample_Delay_LP = NS2SA_FX2( 16000, ACELP_LOOK_NS + DELAY_FD_BWE_ENC_16k_NS ); + Sample_Delay_LP = NS2SA( 16000, ACELP_LOOK_NS + DELAY_FD_BWE_ENC_16k_NS ); IF( st_fx->element_mode > EVS_MONO ) { - Sample_Delay_SWB_BWE = sub( Sample_Delay_SWB_BWE, NS2SA( inner_Fs, DELAY_FIR_RESAMPL_NS ) ); + Sample_Delay_SWB_BWE = sub( Sample_Delay_SWB_BWE, NS2SA_FX2( inner_Fs, DELAY_FIR_RESAMPL_NS ) ); Sample_Delay_HP = sub( Sample_Delay_HP, NS2SA( 16000, DELAY_FIR_RESAMPL_NS ) ); IF( EQ_16( st_fx->element_mode, IVAS_CPE_DFT ) ) @@ -403,7 +383,6 @@ void swb_bwe_enc_ivas_fx( Copy( old_input_16k_fx + L_INP_MEM + L_FRAME16k - Sample_Delay_LP, hBWE_FD->old_input_lp_fx, Sample_Delay_LP ); } -#ifdef FIX_ISSUE_1230 q_new_input_hp = s_min( Q_shb_speech, hBWE_FD->Q_new_input_hp ); IF( LT_16( Q_shb_speech, hBWE_FD->Q_new_input_hp ) ) { @@ -418,10 +397,6 @@ void swb_bwe_enc_ivas_fx( hBWE_FD->Q_new_input_hp = Q_shb_speech; move16(); -#else - Copy( hBWE_FD->new_input_hp_fx, new_input_hp_fx, Sample_Delay_HP ); - Copy( shb_speech_fx, &new_input_hp_fx[Sample_Delay_HP], L_FRAME16k - Sample_Delay_HP ); -#endif Copy( shb_speech_fx + L_FRAME16k - Sample_Delay_HP, hBWE_FD->new_input_hp_fx, Sample_Delay_HP ); new_input_fx = old_input_fx + Sample_Delay_SWB_BWE; Copy( hBWE_FD->old_input_fx, old_input_fx, Sample_Delay_SWB_BWE ); @@ -531,11 +506,7 @@ void swb_bwe_enc_ivas_fx( { Q_shb = sub( Q_synth_hf, 4 ); } -#ifdef FIX_ISSUE_1230 Copy_Scale_sig( new_input_hp_fx, new_input_hp_fx, L_FRAME16k, sub( Q_shb, q_new_input_hp ) ); -#else - Copy_Scale_sig( new_input_hp_fx, new_input_hp_fx, L_FRAME16k, sub( Q_shb, Q_shb_speech ) ); -#endif /* FB BWE encoding */ IF( EQ_16( st_fx->extl, FB_BWE ) ) @@ -587,12 +558,12 @@ void swb_bwe_enc_ivas_fx( IF( EQ_16( st_fx->L_frame, L_FRAME16k ) ) { SWB_BWE_encoding_ivas_fx( st_fx, old_input_fx, old_input_lp_fx, new_input_hp_fx, old_syn_12k8_16k_fx, yorig_32, - SWB_fenv_fx, tilt_nb_fx, 80, Q_slb_speech, Q_shb, new_input_fx_exp, Q_synth ); + SWB_fenv_fx, tilt_nb_fx, 80, Q_slb_speech, Q_shb, new_input_fx_exp, new_input_fx_exp ); } ELSE { SWB_BWE_encoding_ivas_fx( st_fx, old_input_fx, old_input_lp_fx, new_input_hp_fx, old_syn_12k8_16k_fx, yorig_32, - SWB_fenv_fx, tilt_nb_fx, 6, Q_slb_speech, Q_shb, new_input_fx_exp, Q_synth ); + SWB_fenv_fx, tilt_nb_fx, 6, Q_slb_speech, Q_shb, new_input_fx_exp, new_input_fx_exp ); } @@ -677,11 +648,11 @@ void swb_bwe_enc_fx( move32(); } - set16_fx( old_input_fx, 0, add( NS2SA( inner_Fs, DELAY_FD_BWE_ENC_12k8_NS + DELAY_FIR_RESAMPL_NS ), inner_frame ) ); + set16_fx( old_input_fx, 0, add( NS2SA_FX2( inner_Fs, DELAY_FD_BWE_ENC_12k8_NS + DELAY_FIR_RESAMPL_NS ), inner_frame ) ); IF( EQ_16( st_fx->L_frame, L_FRAME ) ) { - Sample_Delay_SWB_BWE = NS2SA( inner_Fs, DELAY_FD_BWE_ENC_12k8_NS + DELAY_FIR_RESAMPL_NS ); + Sample_Delay_SWB_BWE = NS2SA_FX2( inner_Fs, DELAY_FD_BWE_ENC_12k8_NS + DELAY_FIR_RESAMPL_NS ); Sample_Delay_HP = NS2SA( 16000, ACELP_LOOK_NS + DELAY_FD_BWE_ENC_12k8_NS + DELAY_FIR_RESAMPL_NS - DELAY_CLDFB_NS ); Sample_Delay_LP = NS2SA( 12800, ACELP_LOOK_NS + DELAY_FD_BWE_ENC_12k8_NS ); @@ -689,7 +660,7 @@ void swb_bwe_enc_fx( } ELSE { - Sample_Delay_SWB_BWE = NS2SA( inner_Fs, DELAY_FD_BWE_ENC_16k_NS + DELAY_FIR_RESAMPL_NS ); + Sample_Delay_SWB_BWE = NS2SA_FX2( inner_Fs, DELAY_FD_BWE_ENC_16k_NS + DELAY_FIR_RESAMPL_NS ); Sample_Delay_HP = NS2SA( 16000, ACELP_LOOK_NS + DELAY_FD_BWE_ENC_16k_NS + DELAY_FIR_RESAMPL_NS - DELAY_CLDFB_NS ); Sample_Delay_LP = NS2SA( 16000, ACELP_LOOK_NS + DELAY_FD_BWE_ENC_16k_NS ); @@ -849,7 +820,7 @@ void swb_bwe_enc_fx( /* write FB BWE frame gain to the bitstream */ IF( EQ_16( st_fx->extl, FB_BWE ) ) { - push_indice_fx( st_fx->hBstr, IND_FB_SLOPE, idxGain, NUM_BITS_FB_FRAMEGAIN ); + push_indice( st_fx->hBstr, IND_FB_SLOPE, idxGain, NUM_BITS_FB_FRAMEGAIN ); } return; @@ -2505,7 +2476,7 @@ Word16 WB_BWE_encoding_fx( /* o : classification of wb index = WB_BWE_fenv_q_fx( WB_fenv_fx, F_2_5_fx, 32, 2 ); - push_indice_fx( st_fx->hBstr, IND_WB_FENV, index, 5 ); + push_indice( st_fx->hBstr, IND_WB_FENV, index, 5 ); return ( mode ); } @@ -2518,7 +2489,7 @@ Word16 WB_BWE_encoding_fx( /* o : classification of wb Word16 WB_BWE_encoding_ivas_fx( /* o : classification of wb signal */ Encoder_State *st_fx, /* i/o: Encoder structure */ - const Word16 *yos_fx, /* i : MDCT coefficients of weighted original */ + const Word32 *yos_fx, /* i : MDCT coefficients of weighted original */ Word16 *WB_fenv_fx, /* i/o: energy of WB envelope */ Word16 Q_synth, Word16 Q_synth_lf ) @@ -2532,35 +2503,48 @@ Word16 WB_BWE_encoding_ivas_fx( /* o : classification of Word16 ener_40, exp; Word32 L_tmp; Word16 tmp; - + Word64 energy_fx_64; + Word16 q_shift, scale; + Word16 q_WB_fenv[2]; + Word16 yos_fx_16[L_FRAME16k]; n_band = 0; move16(); FOR( i = 0; i < 2; i++ ) { - energy_fx = L_deposit_l( 0 ); + energy_fx_64 = 0; + move64(); FOR( n_coeff = swb_bwe_subband[n_band]; n_coeff < swb_bwe_subband[n_band + 2]; n_coeff++ ) { - energy_fx = L_add( energy_fx, L_shr( L_mult0( yos_fx[n_coeff], yos_fx[n_coeff] ), 6 ) ); /*2*Q_synth-6 */ + energy_fx_64 = W_add( energy_fx_64, W_mult0_32_32( yos_fx[n_coeff], yos_fx[n_coeff] ) ); /*2*Q_synth*/ } + q_shift = W_norm( energy_fx_64 ); + energy_fx = W_extract_h( W_shl( energy_fx_64, q_shift ) ); /*2*Q_synth + q_shift - 32*/ + q_shift = sub( q_shift, 32 ); L_WB_fenv_fx[i] = energy_fx; - move32(); /*2*Q_synth-6 */ + move32(); + q_WB_fenv[i] = add( shl( Q_synth, 1 ), q_shift ); + move16(); n_band = add( n_band, 2 ); } - mode = FD_BWE_class_fx( yos_fx, 0, 0, Q_synth, 0, st_fx ); - energy_control_ivas_fx( st_fx, ACELP_CORE, mode, st_fx->coder_type, yos_fx, 0, energy_factor_fx, Q_synth_lf ); + scale = s_min( L_norm_arr( yos_fx, L_FRAME16k ), sub( Q27, Q_synth ) /* To accomodate 10 in Q_synth*/ ); + Copy_Scale_sig32_16( yos_fx, yos_fx_16, L_FRAME16k, scale ); + + mode = FD_BWE_class_fx( yos_fx_16, 0, 0, sub( add( Q_synth, scale ), Q16 ), 0, st_fx ); + + energy_control_ivas_fx( st_fx, ACELP_CORE, mode, st_fx->coder_type, yos_fx_16, 0, energy_factor_fx, sub( add( Q_synth_lf, scale ), Q16 ) ); FOR( i = 0; i < 2; i++ ) { ener_40 = mult_r( shr( energy_factor_fx[shl( i, 1 )], 1 ), 26214 ); /*Q19 */ - L_tmp = Mpy_32_16_1( L_WB_fenv_fx[i], ener_40 ); /*2*Q_synth-2 */ + L_tmp = Mpy_32_16_1( L_WB_fenv_fx[i], ener_40 ); /*q_WB_fenv[i]+4 */ IF( L_tmp ) { exp = norm_l( L_tmp ); tmp = Log2_norm_lc( L_shl( L_tmp, exp ) ); - /*exp = 30-exp-(2*Q_synth-2); */ - exp = sub( sub( 30, exp ), ( sub( shl( Q_synth, 1 ), 2 ) ) ); + /*exp = 30-exp-(q_WB_fenv[i]+4); */ + exp = sub( sub( 30, exp ), ( add( q_WB_fenv[i], 4 ) ) ); L_tmp = Mpy_32_16( exp, tmp, 32767 ); /* Q16 */ WB_fenv_fx[i] = round_fx( L_shl( L_tmp, 10 ) ); /*Q10 */ move16(); @@ -2681,7 +2665,7 @@ static Word16 SWB_BWE_encoding_fx( { mode = IsTransient; move16(); - push_indice_fx( hBstr, IND_SWB_CLASS, mode, 2 ); + push_indice( hBstr, IND_SWB_CLASS, mode, 2 ); /* Energy for the different bands and global energies */ global_gain_fx = L_deposit_l( 0 ); @@ -2940,13 +2924,13 @@ static Word16 SWB_BWE_encoding_fx( index = shr( add( SWB_tenv_tmp_fx[n_band], 1024 ), 11 ); } - push_indice_fx( hBstr, IND_SWB_TENV, index, 4 ); + push_indice( hBstr, IND_SWB_TENV, index, 4 ); } MSVQ_Interpol_Tran_fx( SWB_fenv_fx, indice ); - push_indice_fx( hBstr, IND_SWB_FENV, indice[0], 7 ); - push_indice_fx( hBstr, IND_SWB_FENV, indice[1], 6 ); + push_indice( hBstr, IND_SWB_FENV, indice[0], 7 ); + push_indice( hBstr, IND_SWB_FENV, indice[1], 6 ); } ELSE { @@ -2971,7 +2955,7 @@ static Word16 SWB_BWE_encoding_fx( global_gain_fx = L_shr( global_gain_fx, 1 ); /*2*Q_shb */ mode = FD_BWE_class_fx( yos_fx, global_gain_fx, tilt_nb_fx, Q_synth, Q_shb, st_fx ); - push_indice_fx( hBstr, IND_SWB_CLASS, mode, 2 ); + push_indice( hBstr, IND_SWB_CLASS, mode, 2 ); energy_control_fx( st_fx, ACELP_CORE, mode, -1, yos_fx, st_offset, energy_factor_fx, Q_synth_lf ); @@ -3006,11 +2990,11 @@ static Word16 SWB_BWE_encoding_fx( /* Energy VQ */ msvq_interpol_fx( SWB_fenv_fx, w_env_fx, indice ); - push_indice_fx( hBstr, IND_SWB_FENV, indice[0], 5 ); - push_indice_fx( hBstr, IND_SWB_FENV, indice[1], 7 ); - push_indice_fx( hBstr, IND_SWB_FENV, indice[2], 6 ); - push_indice_fx( hBstr, IND_SWB_FENV, indice[3], 5 ); - push_indice_fx( hBstr, IND_SWB_FENV, indice[4], 6 ); + push_indice( hBstr, IND_SWB_FENV, indice[0], 5 ); + push_indice( hBstr, IND_SWB_FENV, indice[1], 7 ); + push_indice( hBstr, IND_SWB_FENV, indice[2], 6 ); + push_indice( hBstr, IND_SWB_FENV, indice[3], 5 ); + push_indice( hBstr, IND_SWB_FENV, indice[4], 6 ); } hBWE_FD->prev_mode = mode; move16(); @@ -3205,7 +3189,7 @@ static Word16 SWB_BWE_encoding_ivas_fx( tmp = i_mult2( n_band, L ); FOR( i = 0; i < L; i++ ) { - WB_tenv_syn_fx = L_add( WB_tenv_syn_fx, L_shr( L_mult0( synth_fx[i + tmp], synth_fx[i + tmp] ), 7 ) ); /*2*st_fx->Q_syn2 - 7 */ + WB_tenv_syn_fx = L_add( WB_tenv_syn_fx, L_shr( L_mult0( synth_fx[i + tmp], synth_fx[i + tmp] ), 7 ) ); /*2*Q_insig_lp-7 */ WB_tenv_orig_fx = L_add( WB_tenv_orig_fx, L_shr( L_mult0( insig_lp_fx[i + tmp], insig_lp_fx[i + tmp] ), 7 ) ); /*2*Q_insig_lp - 7 */ } @@ -3234,12 +3218,8 @@ static Word16 SWB_BWE_encoding_ivas_fx( expn = sub( sub( 30, expn ), sub( shl( Q_insig_lp, 1 ), 7 ) ); expd = norm_l( WB_tenv_syn_fx ); -#ifdef FIX_ISSUE_1156 den = round_fx_o( L_shl( WB_tenv_syn_fx, expd ), &Overflow ); -#else - den = round_fx( L_shl( WB_tenv_syn_fx, expd ) ); -#endif - expd = sub( sub( 30, expd ), sub( shl( st_fx->Q_syn2, 1 ), 7 ) ); + expd = sub( sub( 30, expd ), sub( shl( Q_insig_lp, 1 ), 7 ) ); scale = shr( sub( den, num ), 15 ); num = shl( num, scale ); @@ -3457,11 +3437,12 @@ static Word16 SWB_BWE_encoding_ivas_fx( global_gain_fx = L_shr( global_gain_fx, 1 ); /*2*Q_shb */ - Copy_Scale_sig32_16( yos_fx, yos_fx_16, inner_frame, 0 ); - mode = FD_BWE_class_fx( yos_fx_16, global_gain_fx, tilt_nb_fx, sub( Q_synth, Q16 ), Q_shb, st_fx ); + scale = s_min( L_norm_arr( yos_fx, inner_frame ), sub( Q27, Q_synth ) /* To accomodate 10 in Q_synth*/ ); + Copy_Scale_sig32_16( yos_fx, yos_fx_16, inner_frame, scale ); + mode = FD_BWE_class_fx( yos_fx_16, global_gain_fx, tilt_nb_fx, sub( add( Q_synth, scale ), Q16 ), Q_shb, st_fx ); push_indice( hBstr, IND_SWB_CLASS, mode, 2 ); - energy_control_ivas_fx( st_fx, ACELP_CORE, mode, -1, yos_fx_16, st_offset, energy_factor_fx, sub( Q_synth_lf, Q16 ) ); + energy_control_ivas_fx( st_fx, ACELP_CORE, mode, -1, yos_fx_16, st_offset, energy_factor_fx, sub( add( Q_synth_lf, scale ), Q16 ) ); FOR( n_band = 0; n_band < SWB_FENV; n_band++ ) { @@ -3958,7 +3939,7 @@ void hq_generic_encoding_fx( IF( EQ_16( hHQ_core->hq_generic_speech_class, 1 ) ) { - push_indice_fx( hBstr, IND_HQ_SWB_EXC_SP_CLAS, 1, 1 ); + push_indice( hBstr, IND_HQ_SWB_EXC_SP_CLAS, 1, 1 ); *hq_generic_exc_clas = HQ_GENERIC_SP_EXC; move16(); } @@ -3966,8 +3947,8 @@ void hq_generic_encoding_fx( { *hq_generic_exc_clas = decision_hq_generic_class_fx_32( coefs_fx, hq_generic_offset ); move16(); - push_indice_fx( hBstr, IND_HQ_SWB_EXC_SP_CLAS, 0, 1 ); - push_indice_fx( hBstr, IND_HQ_SWB_EXC_CLAS, *hq_generic_exc_clas, 1 ); + push_indice( hBstr, IND_HQ_SWB_EXC_SP_CLAS, 0, 1 ); + push_indice( hBstr, IND_HQ_SWB_EXC_CLAS, *hq_generic_exc_clas, 1 ); } FOR( n_band = 0; n_band < nenv; n_band++ ) @@ -4088,23 +4069,23 @@ void hq_generic_encoding_fx( move16(); } - push_indice_fx( hBstr, IND_SWB_FENV_HQ, indice[0], 5 ); - push_indice_fx( hBstr, IND_SWB_FENV_HQ, indice[1], 7 ); - push_indice_fx( hBstr, IND_SWB_FENV_HQ, indice[2], 6 ); - push_indice_fx( hBstr, IND_SWB_FENV_HQ, indice[3], 5 ); + push_indice( hBstr, IND_SWB_FENV_HQ, indice[0], 5 ); + push_indice( hBstr, IND_SWB_FENV_HQ, indice[1], 7 ); + push_indice( hBstr, IND_SWB_FENV_HQ, indice[2], 6 ); + push_indice( hBstr, IND_SWB_FENV_HQ, indice[3], 5 ); IF( LE_16( hq_generic_offset, HQ_GENERIC_FOFFSET_24K4 ) ) { - push_indice_fx( hBstr, IND_SWB_FENV_HQ, indice[4], 6 ); + push_indice( hBstr, IND_SWB_FENV_HQ, indice[4], 6 ); } ELSE { - push_indice_fx( hBstr, IND_SWB_FENV_HQ, indice[4], 5 ); + push_indice( hBstr, IND_SWB_FENV_HQ, indice[4], 5 ); } IF( EQ_16( st_fx->bwidth, FB ) ) { - push_indice_fx( hBstr, IND_FB_FENV_HQ, indice[5], 5 ); + push_indice( hBstr, IND_FB_FENV_HQ, indice[5], 5 ); } FOR( n_band = 0; n_band < nenv; n_band++ ) @@ -4149,17 +4130,11 @@ void fd_bwe_enc_init_fx( ) { set16_fx( hBWE_FD->new_input_hp_fx, 0, NS2SA( 16000, ACELP_LOOK_NS + DELAY_FD_BWE_ENC_12k8_NS + DELAY_FIR_RESAMPL_NS - DELAY_CLDFB_NS ) ); -#ifdef FIX_ISSUE_1230 hBWE_FD->Q_new_input_hp = 0; move16(); -#endif set16_fx( hBWE_FD->old_input_fx, 0, NS2SA( 48000, DELAY_FD_BWE_ENC_12k8_NS + DELAY_FIR_RESAMPL_NS ) ); set16_fx( hBWE_FD->old_input_wb_fx, 0, NS2SA( 16000, DELAY_FD_BWE_ENC_12k8_NS ) ); -#ifndef MSAN_FIX - set16_fx( hBWE_FD->old_input_lp_fx, 0, NS2SA( 16000, ACELP_LOOK_NS + DELAY_SWB_TBE_16k_NS ) ); -#else set16_fx( hBWE_FD->old_input_lp_fx, 0, NS2SA( 16000, ACELP_LOOK_NS + DELAY_FD_BWE_ENC_NS ) ); -#endif set16_fx( hBWE_FD->old_syn_12k8_16k_fx, 0, NS2SA( 16000, DELAY_FD_BWE_ENC_NS ) ); hBWE_FD->prev_mode = NORMAL; move16(); diff --git a/lib_enc/swb_bwe_enc_hr_fx.c b/lib_enc/swb_bwe_enc_hr_fx.c index fd4a9f1259669e751e5164a7814c623739939c11..8b5a173533d53746f84d83b62e6844e0a290ae22 100644 --- a/lib_enc/swb_bwe_enc_hr_fx.c +++ b/lib_enc/swb_bwe_enc_hr_fx.c @@ -189,7 +189,7 @@ void swb_bwe_enc_hr_fx( st_fx->EnergyLT_fx_exp = exp1; move16(); - push_indice_fx( hBstr, IND_HR_IS_TRANSIENT, is_transient, 1 ); + push_indice( hBstr, IND_HR_IS_TRANSIENT, is_transient, 1 ); /*---------------------------------------------------------------------* * OLA and MDCT @@ -309,7 +309,7 @@ void swb_bwe_enc_hr_fx( ind1 = gain_quant_fx( &L_gain_fx, &gain1_fx, LG10_MIN_GLOB_GAIN_BWE_HR_Q14, LG10_MAX_GLOB_GAIN_BWE_HR_Q13, NBITS_GLOB_GAIN_BWE_HR, &exp1 ); - push_indice_fx( hBstr, IND_HR_GAIN, ind1, NBITS_GLOB_GAIN_BWE_HR ); + push_indice( hBstr, IND_HR_GAIN, ind1, NBITS_GLOB_GAIN_BWE_HR ); nBits = sub( nBits, NBITS_GLOB_GAIN_BWE_HR ); /* normalization with global gain */ @@ -353,7 +353,7 @@ void swb_bwe_enc_hr_fx( { ind1 = en_band_quant_fx( en_band_fx, swb_hr_env_code3_fx, NUM_ENVLOPE_CODE_HR_TR ); - push_indice_fx( hBstr, IND_HR_ENVELOPE, ind1, NBITS_ENVELOPE_BWE_HR_TR ); + push_indice( hBstr, IND_HR_ENVELOPE, ind1, NBITS_ENVELOPE_BWE_HR_TR ); nBits = sub( nBits, NBITS_ENVELOPE_BWE_HR_TR ); ind2 = ind1; move16(); @@ -369,7 +369,7 @@ void swb_bwe_enc_hr_fx( ind1 = en_band_quant_fx( en_band_fx, swb_hr_env_code3_fx + ( NUM_ENVLOPE_CODE_HR_TR2 * 2 ), NUM_ENVLOPE_CODE_HR_TR2 ); } - push_indice_fx( hBstr, IND_HR_ENVELOPE, ind1, NBITS_ENVELOPE_BWE_HR_TR - 1 ); + push_indice( hBstr, IND_HR_ENVELOPE, ind1, NBITS_ENVELOPE_BWE_HR_TR - 1 ); nBits = sub( nBits, NBITS_ENVELOPE_BWE_HR_TR - 1 ); } @@ -439,7 +439,7 @@ void swb_bwe_enc_hr_fx( L_en_noncoded_fx = L_deposit_h( en_band_fx[N_BANDS_TRANS_BWE_HR - 1] ); /* to Put in Q16+9 */ } - push_indice_fx( hBstr, IND_HR_HF_GAIN, ind1, NBITS_HF_GAIN_BWE_HR ); + push_indice( hBstr, IND_HR_HF_GAIN, ind1, NBITS_HF_GAIN_BWE_HR ); nBits = sub( nBits, NBITS_HF_GAIN_BWE_HR ); } ELSE @@ -507,7 +507,7 @@ void swb_bwe_enc_hr_fx( L_gain_fx = L_shr( L_tmp, sub( 31 - 16, exp2 ) ); /* 31: 'L_tmp' is already in Q31 */ ind1 = gain_quant_fx( &L_gain_fx, &gain1_fx, LG10_MIN_GLOB_GAIN_BWE_HR_Q14, LG10_MAX_GLOB_GAIN_BWE_HR_Q13, NBITS_GLOB_GAIN_BWE_HR, &exp1 ); - push_indice_fx( hBstr, IND_HR_GAIN, ind1, NBITS_GLOB_GAIN_BWE_HR ); + push_indice( hBstr, IND_HR_GAIN, ind1, NBITS_GLOB_GAIN_BWE_HR ); nBits = sub( nBits, NBITS_GLOB_GAIN_BWE_HR ); /* normalization with global gain */ @@ -547,8 +547,8 @@ void swb_bwe_enc_hr_fx( ind1 = en_band_quant_fx( en_band_fx, swb_hr_env_code1_fx, NUM_ENVLOPE_CODE_HR1 ); ind2 = en_band_quant_fx( en_band_fx + 2, swb_hr_env_code2_fx, NUM_ENVLOPE_CODE_HR2 ); - push_indice_fx( hBstr, IND_HR_ENVELOPE, ind1, NBITS_ENVELOPE_BWE_HR1 ); - push_indice_fx( hBstr, IND_HR_ENVELOPE, ind2, NBITS_ENVELOPE_BWE_HR2 ); + push_indice( hBstr, IND_HR_ENVELOPE, ind1, NBITS_ENVELOPE_BWE_HR1 ); + push_indice( hBstr, IND_HR_ENVELOPE, ind2, NBITS_ENVELOPE_BWE_HR2 ); nBits = sub( nBits, NBITS_ENVELOPE_BWE_HR1 + NBITS_ENVELOPE_BWE_HR2 ); @@ -673,7 +673,7 @@ void swb_bwe_enc_hr_fx( L_en_noncoded_fx = L_mult0( min_env_fx, 16384 ); } - push_indice_fx( hBstr, IND_HR_HF_GAIN, ind1, NBITS_HF_GAIN_BWE_HR ); + push_indice( hBstr, IND_HR_HF_GAIN, ind1, NBITS_HF_GAIN_BWE_HR ); nBits = sub( nBits, NBITS_HF_GAIN_BWE_HR ); } ELSE @@ -758,7 +758,7 @@ void swb_bwe_enc_hr_fx( /* Put in Q16 */ L_gain_fx = L_shr( L_temp, sub( 31 - 16, temp2 ) ); /* 31: 'L_temp' is already in Q31 */ ind1 = gain_quant_fx( &L_gain_fx, &gain2_fx, LG10_MIN_GLOB_GAIN_BWE_HR_Q14, LG10_MAX_GLOB_GAIN_BWE_HR_Q13, NBITS_GLOB_GAIN_BWE_HR, &exp2 ); - push_indice_fx( hBstr, IND_HR_GAIN, ind1, NBITS_GLOB_GAIN_BWE_HR ); + push_indice( hBstr, IND_HR_GAIN, ind1, NBITS_GLOB_GAIN_BWE_HR ); nBits = sub( nBits, NBITS_GLOB_GAIN_BWE_HR ); /* normalize with global gain */ @@ -784,7 +784,7 @@ void swb_bwe_enc_hr_fx( WHILE( nBits > 0 ) { i = s_min( nBits, 16 ); - push_indice_fx( hBstr, IND_UNUSED, 0, i ); + push_indice( hBstr, IND_UNUSED, 0, i ); nBits = sub( nBits, i ); } return; diff --git a/lib_enc/swb_bwe_enc_lr_fx.c b/lib_enc/swb_bwe_enc_lr_fx.c index acd9845092176b9348583edc494c6ee8c28bc723..938cdd971357f75642f58b731ebc3513729939cd 100644 --- a/lib_enc/swb_bwe_enc_lr_fx.c +++ b/lib_enc/swb_bwe_enc_lr_fx.c @@ -36,7 +36,6 @@ #include "prot_fx_enc.h" /* Function prototypes */ #include "rom_com.h" #include "stl.h" -#include "prot.h" /*--------------------------------------------------------------------------* * GetSubbandCorrIndex2_har() @@ -807,7 +806,7 @@ static void gethar_noisegn_fx( } } - push_indice_fx( hBstr, IND_NOISEG, imin_fx, 2 ); + push_indice( hBstr, IND_NOISEG, imin_fx, 2 ); /*g=(float) pow (10.0f,gain_table[imin]);*/ L_temp = L_mult( gain_table_SWB_BWE_fx[imin_fx], 27213 ); /* Q14+Q13+1=Q28 log(10)/log(2)=3.3219 27213.23(Q13) */ @@ -910,7 +909,7 @@ static void EncodeSWBSubbands_fx( /* Write the indices into the bitstream */ FOR( k = 0; k < nBands_search_fx; k++ ) { - push_indice_fx( st_fx->hBstr, IND_LAGINDICES, lagIndices_fx[k], bits_lagIndices_mode0_Har[k] ); + push_indice( st_fx->hBstr, IND_LAGINDICES, lagIndices_fx[k], bits_lagIndices_mode0_Har[k] ); } IF( flag_dis == 0 ) @@ -975,7 +974,7 @@ static void EncodeSWBSubbands_fx( } ELSE { - push_indice_fx( st_fx->hBstr, IND_LAGINDICES, lagIndices_fx[k], bits_lagIndices_modeNormal[k] ); + push_indice( st_fx->hBstr, IND_LAGINDICES, lagIndices_fx[k], bits_lagIndices_modeNormal[k] ); } } diff --git a/lib_enc/swb_pre_proc_fx.c b/lib_enc/swb_pre_proc_fx.c index 3e9c07c230458cf42dbe330b423f6d01167e3c44..ba165cba418cb68d6b0680bad403d394d7b64462 100644 --- a/lib_enc/swb_pre_proc_fx.c +++ b/lib_enc/swb_pre_proc_fx.c @@ -10,7 +10,6 @@ #include "rom_com.h" #include "stl.h" #include "prot_fx.h" /* Function prototypes */ -#include "ivas_prot.h" /* Function prototypes */ #include "ivas_prot_fx.h" /* Function prototypes */ #include "prot_fx_enc.h" /* Function prototypes */ #include "basop_util.h" @@ -81,7 +80,7 @@ void wb_pre_proc_fx( move16(); } - set16_fx( old_input, 0, NS2SA_FX2( 16000, DELAY_FD_BWE_ENC_12k8_NS + DELAY_FIR_RESAMPL_NS ) + L_FRAME16k ); + set16_fx( old_input, 0, NS2SA( 16000, DELAY_FD_BWE_ENC_12k8_NS + DELAY_FIR_RESAMPL_NS ) + L_FRAME16k ); max_wb = 1; move16(); @@ -161,7 +160,7 @@ void wb_pre_proc_fx( test(); IF( ( NE_16( st_fx->extl, WB_BWE ) || ( EQ_16( st_fx->extl, WB_BWE ) && LE_32( st_fx->total_brate, ACELP_8k00 ) ) ) && !hSC_VBR->ppp_mode ) { - Sample_Delay_WB_BWE = NS2SA_FX2( 16000, DELAY_FD_BWE_ENC_12k8_NS ); + Sample_Delay_WB_BWE = NS2SA( 16000, DELAY_FD_BWE_ENC_12k8_NS ); Copy( new_inp_resamp16k, &old_input[Sample_Delay_WB_BWE], L_FRAME16k ); Copy( hBWE_FD->old_input_wb_fx, old_input, Sample_Delay_WB_BWE ); @@ -257,7 +256,7 @@ void wb_pre_proc_ivas_fx( move16(); } - set16_fx( old_input, 0, NS2SA_FX2( 16000, DELAY_FD_BWE_ENC_12k8_NS + DELAY_FIR_RESAMPL_NS ) + STEREO_DFT_OVL_16k + L_FRAME16k ); + set16_fx( old_input, 0, NS2SA( 16000, DELAY_FD_BWE_ENC_12k8_NS + DELAY_FIR_RESAMPL_NS ) + STEREO_DFT_OVL_16k + L_FRAME16k ); max_wb = 1; move16(); @@ -311,7 +310,7 @@ void wb_pre_proc_ivas_fx( hb_speech and the two decimator memories are in Q_wb_sp */ IF( EQ_16( st_fx->element_mode, IVAS_CPE_DFT ) ) { - Sample_Delay_WB_BWE = NS2SA_FX2( 16000, DELAY_FD_BWE_ENC_12k8_NS ); + Sample_Delay_WB_BWE = NS2SA( 16000, DELAY_FD_BWE_ENC_12k8_NS ); IF( EQ_16( last_element_mode, IVAS_CPE_TD ) ) { @@ -347,7 +346,7 @@ void wb_pre_proc_ivas_fx( move16(); Word16 l_recalc_4k = ( L_MEM_RECALC_16K + L_FILT16k + 1 ) / 4; move16(); - Sample_Delay_WB_BWE = NS2SA_FX2( 16000, DELAY_FD_BWE_ENC_12k8_NS ); + Sample_Delay_WB_BWE = NS2SA( 16000, DELAY_FD_BWE_ENC_12k8_NS ); IF( EQ_16( last_element_mode, IVAS_CPE_DFT ) ) { @@ -391,7 +390,7 @@ void wb_pre_proc_ivas_fx( Word16 l_recalc_16k = L_FILT16k + 1; /* Note: "+1" is used because L_FILT16k is not divisible by 4 */ Word16 l_recalc_4k = ( L_FILT16k + 1 ) / 4; - Sample_Delay_WB_BWE = NS2SA_FX2( 16000, DELAY_FD_BWE_ENC_12k8_NS ); + Sample_Delay_WB_BWE = NS2SA( 16000, DELAY_FD_BWE_ENC_12k8_NS ); /*Get past signal*/ Copy_Scale_sig( hBWE_FD->L_old_wtda_swb_fx + L_FRAME16k - l_recalc_16k, old_input, l_recalc_16k, Q_wb_sp ); @@ -454,7 +453,7 @@ void wb_pre_proc_ivas_fx( test(); IF( ( NE_16( st_fx->extl, WB_BWE ) || ( EQ_16( st_fx->extl, WB_BWE ) && EQ_32( st_fx->total_brate, 0 ) ) ) && !ppp_mode ) { - Sample_Delay_WB_BWE = NS2SA_FX2( 16000, DELAY_FD_BWE_ENC_12k8_NS ); + Sample_Delay_WB_BWE = NS2SA( 16000, DELAY_FD_BWE_ENC_12k8_NS ); Copy( new_inp_resamp16k, &old_input[Sample_Delay_WB_BWE], L_FRAME16k ); Copy( hBWE_FD->old_input_wb_fx, old_input, Sample_Delay_WB_BWE ); @@ -540,7 +539,7 @@ void swb_pre_proc_fx( imagBufferFlipped[j] = imagBufferTmp[j]; } - set16_fx( old_input_fx, 0, NS2SA_FX2( 48000, DELAY_FD_BWE_ENC_12k8_NS + DELAY_FIR_RESAMPL_NS ) + L_FRAME48k ); + set16_fx( old_input_fx, 0, NS2SA( 48000, DELAY_FD_BWE_ENC_12k8_NS + DELAY_FIR_RESAMPL_NS ) + L_FRAME48k ); IF( EQ_32( st_fx->input_Fs, 32000 ) ) { @@ -549,7 +548,7 @@ void swb_pre_proc_fx( test(); IF( NE_16( st_fx->last_extl, SWB_BWE ) && NE_16( st_fx->last_extl, FB_BWE ) && NE_16( st_fx->extl, SWB_BWE_HIGHRATE ) ) { - Sample_Delay_SWB_BWE = NS2SA_FX2( 32000, DELAY_FD_BWE_ENC_12k8_NS + DELAY_FIR_RESAMPL_NS ); + Sample_Delay_SWB_BWE = NS2SA( 32000, DELAY_FD_BWE_ENC_12k8_NS + DELAY_FIR_RESAMPL_NS ); Copy( hBWE_FD->old_fdbwe_speech_fx, &old_input_fx[Sample_Delay_SWB_BWE], L_FRAME32k ); set16_fx( old_input_fx, 0, Sample_Delay_SWB_BWE ); Copy( hBWE_FD->old_fdbwe_speech_fx + L_FRAME32k - Sample_Delay_SWB_BWE, hBWE_FD->old_input_fx, Sample_Delay_SWB_BWE ); @@ -716,8 +715,7 @@ void swb_pre_proc_fx( CldfbHB_ener = L_mult( sub( Cldfbtemp1, 1741 /*3.401 Q9*/ ), 3495 ); /* 3495 = Q19 log10(2)*0.1/log10(32768), Q = 19+9+1 = 29 */ hBWE_TD->cldfbHBLT = mac_r( CldfbHB_ener, 29491 /*0.9 Q15*/, hBWE_TD->cldfbHBLT ); /* cldfbHBLT is in Q13 */ } - cldfbSynthesisFiltering( st_fx->cldfbSynTd, realBufferFlipped, imagBufferFlipped, - cldfbScale, shb_speech_fx, 0, CLDFB_NO_COL_MAX, cldfbWorkBuffer ); + cldfbSynthesis_fx( st_fx->cldfbSynTd, realBufferFlipped, imagBufferFlipped, cldfbScale, shb_speech_fx, 0, CLDFB_NO_COL_MAX, cldfbWorkBuffer ); *Q_shb_spch = 0; /*shb_speech_fx : Q0*/ move16(); @@ -756,9 +754,9 @@ void swb_pre_proc_fx( /* Reset CLDFB synthesis buffer */ set16_fx( st_fx->cldfbSynTd->FilterStates, 0, st_fx->cldfbSynTd->p_filter_length + st_fx->cldfbSynTd->no_channels * st_fx->cldfbSynTd->no_col ); } - IF( st_fx->last_extl == -1 ) + IF( EQ_16( st_fx->last_extl, -1 ) ) { - delay = NS2SA( st_fx->input_Fs, DELAY_FIR_RESAMPL_NS ); + delay = NS2SA_FX2( st_fx->input_Fs, DELAY_FIR_RESAMPL_NS ); FOR( i = 0; i < delay; i++ ) { shb_speech_fx[i] = mult_r( mult_r( i, 983 /*0.03f Q15*/ ), shb_speech_fx[2 * delay - 1 - i] ); @@ -813,7 +811,7 @@ void swb_pre_proc_ivas_fx( Word16 Sample_Delay_SWB_BWE32k, lMemRecalc32k, dft_ovl32k; Word32 one_by_50_Q31 = 42949673; - lMemRecalc32k = NS2SA_FX2( 32000, L_MEM_RECALC_NS ); + lMemRecalc32k = NS2SA( 32000, L_MEM_RECALC_NS ); move16(); // exp_lbEner move16(); // lMemRecalc32k move32(); // one_by_50_Q31 @@ -831,16 +829,16 @@ void swb_pre_proc_ivas_fx( imagBufferFlipped[j] = imagBufferTmp[j]; } - set16_fx( old_input_fx, 0, NS2SA_FX2( 48000, DELAY_FD_BWE_ENC_12k8_NS + DELAY_FIR_RESAMPL_NS ) + L_FRAME48k ); + set16_fx( old_input_fx, 0, NS2SA( 48000, DELAY_FD_BWE_ENC_12k8_NS + DELAY_FIR_RESAMPL_NS ) + L_FRAME48k ); IF( EQ_32( st->input_Fs, 32000 ) ) { IF( st->element_mode > EVS_MONO ) { - Sample_Delay_SWB_BWE = NS2SA_FX2( 32000, DELAY_FD_BWE_ENC_12k8_NS ); + Sample_Delay_SWB_BWE = NS2SA( 32000, DELAY_FD_BWE_ENC_12k8_NS ); IF( EQ_16( st->L_frame, L_FRAME16k ) ) { - Sample_Delay_SWB_BWE = NS2SA_FX2( 32000, DELAY_FD_BWE_ENC_16k_NS ); + Sample_Delay_SWB_BWE = NS2SA( 32000, DELAY_FD_BWE_ENC_16k_NS ); } Copy( st->input_fx - Sample_Delay_SWB_BWE, hBWE_FD->old_input_fx, Sample_Delay_SWB_BWE ); @@ -864,15 +862,15 @@ void swb_pre_proc_ivas_fx( test(); IF( NE_16( st->last_extl, SWB_BWE ) && NE_16( st->last_extl, FB_BWE ) && NE_16( st->extl, SWB_BWE_HIGHRATE ) ) { - Sample_Delay_SWB_BWE = NS2SA_FX2( 32000, DELAY_FD_BWE_ENC_12k8_NS + DELAY_FIR_RESAMPL_NS ); + Sample_Delay_SWB_BWE = NS2SA( 32000, DELAY_FD_BWE_ENC_12k8_NS + DELAY_FIR_RESAMPL_NS ); test(); IF( st->element_mode > EVS_MONO && EQ_16( st->L_frame, L_FRAME16k ) ) { - Sample_Delay_SWB_BWE = NS2SA_FX2( 32000, DELAY_FD_BWE_ENC_16k_NS + DELAY_FIR_RESAMPL_NS ); + Sample_Delay_SWB_BWE = NS2SA( 32000, DELAY_FD_BWE_ENC_16k_NS + DELAY_FIR_RESAMPL_NS ); } IF( st->element_mode > EVS_MONO ) { - Sample_Delay_SWB_BWE = sub( Sample_Delay_SWB_BWE, NS2SA_FX2( 32000, DELAY_FIR_RESAMPL_NS ) ); + Sample_Delay_SWB_BWE = sub( Sample_Delay_SWB_BWE, NS2SA( 32000, DELAY_FIR_RESAMPL_NS ) ); } Copy( hBWE_FD->old_fdbwe_speech_fx, &old_input_fx[Sample_Delay_SWB_BWE], L_FRAME32k ); @@ -894,15 +892,15 @@ void swb_pre_proc_ivas_fx( ELSE /* 48 kHz */ { - Sample_Delay_SWB_BWE32k = NS2SA_FX2( 32000, DELAY_FD_BWE_ENC_12k8_NS ); + Sample_Delay_SWB_BWE32k = NS2SA( 32000, DELAY_FD_BWE_ENC_12k8_NS ); move16(); - Sample_Delay_SWB_BWE = NS2SA_FX2( 48000, DELAY_FD_BWE_ENC_12k8_NS ); + Sample_Delay_SWB_BWE = NS2SA( 48000, DELAY_FD_BWE_ENC_12k8_NS ); move16(); IF( EQ_16( st->L_frame, L_FRAME16k ) ) { - Sample_Delay_SWB_BWE32k = NS2SA_FX2( 32000, DELAY_FD_BWE_ENC_16k_NS ); + Sample_Delay_SWB_BWE32k = NS2SA( 32000, DELAY_FD_BWE_ENC_16k_NS ); move16(); - Sample_Delay_SWB_BWE = NS2SA_FX2( 48000, DELAY_FD_BWE_ENC_16k_NS ); + Sample_Delay_SWB_BWE = NS2SA( 48000, DELAY_FD_BWE_ENC_16k_NS ); move16(); } @@ -1265,7 +1263,11 @@ void swb_pre_proc_ivas_fx( thr = icbwe_thr_TDM_fx; regV = icbwe_regressionValuesTDM_fx; - cldfbSynthesis_ivas_fx( realBufferFlipped, imagBufferFlipped, shb_speech_fx_32, -1, st->cldfbSynTd ); +#ifdef OPT_AVOID_STATE_BUF_RESCALE + cldfbSynthesis_ivas_fx( realBufferFlipped, imagBufferFlipped, shb_speech_fx_32, -1, 0, 0, st->cldfbSynTd ); +#else /* OPT_AVOID_STATE_BUF_RESCALE */ + cldfbSynthesis_ivas_fx( realBufferFlipped, imagBufferFlipped, shb_speech_fx_32, -1, 0, st->cldfbSynTd ); +#endif /* OPT_AVOID_STATE_BUF_RESCALE */ Copy_Scale_sig_32_16( shb_speech_fx_32, shb_speech, L_FRAME16k, negate( sub( q_reImBuffer, 1 ) ) ); *Q_shb_spch = 0; move16(); @@ -1390,7 +1392,7 @@ void swb_pre_proc_ivas_fx( } /* Dirty downsampling to match Nyquist to upper frequency limit of target */ - lerp( st->input_fx, new_swb_speech, L_resamp, (int16_t) Mpy_32_32( input_Fs, one_by_50_Q31 ) ); + lerp( st->input_fx, new_swb_speech, L_resamp, extract_l( Mpy_32_32( input_Fs, one_by_50_Q31 ) ) ); /* flip the spectrum */ Copy( new_swb_speech, spchTmp, L_resamp ); diff --git a/lib_enc/swb_tbe_enc.c b/lib_enc/swb_tbe_enc.c deleted file mode 100644 index db4e51127d5831a61d2a2a637d416d0e55831e22..0000000000000000000000000000000000000000 --- a/lib_enc/swb_tbe_enc.c +++ /dev/null @@ -1,46 +0,0 @@ -/****************************************************************************************************** - - (C) 2022-2025 IVAS codec Public Collaboration with portions copyright Dolby International AB, Ericsson AB, - Fraunhofer-Gesellschaft zur Foerderung der angewandten Forschung e.V., Huawei Technologies Co. LTD., - Koninklijke Philips N.V., Nippon Telegraph and Telephone Corporation, Nokia Technologies Oy, Orange, - Panasonic Holdings Corporation, Qualcomm Technologies, Inc., VoiceAge Corporation, and other - contributors to this repository. All Rights Reserved. - - This software is protected by copyright law and by international treaties. - The IVAS codec Public Collaboration consisting of Dolby International AB, Ericsson AB, - Fraunhofer-Gesellschaft zur Foerderung der angewandten Forschung e.V., Huawei Technologies Co. LTD., - Koninklijke Philips N.V., Nippon Telegraph and Telephone Corporation, Nokia Technologies Oy, Orange, - Panasonic Holdings Corporation, Qualcomm Technologies, Inc., VoiceAge Corporation, and other - contributors to this repository retain full ownership rights in their respective contributions in - the software. This notice grants no license of any kind, including but not limited to patent - license, nor is any license granted by implication, estoppel or otherwise. - - Contributors are required to enter into the IVAS codec Public Collaboration agreement before making - contributions. - - This software is provided "AS IS", without any express or implied warranties. The software is in the - development stage. It is intended exclusively for experts who have experience with such software and - solely for the purpose of inspection. All implied warranties of non-infringement, merchantability - and fitness for a particular purpose are hereby disclaimed and excluded. - - Any dispute, controversy or claim arising under or in relation to providing this software shall be - submitted to and settled by the final, binding jurisdiction of the courts of Munich, Germany in - accordance with the laws of the Federal Republic of Germany excluding its conflict of law rules and - the United Nations Convention on Contracts on the International Sales of Goods. - -*******************************************************************************************************/ - -/*==================================================================================== - EVS Codec 3GPP TS26.443 Nov 04, 2021. Version 12.14.0 / 13.10.0 / 14.6.0 / 15.4.0 / 16.3.0 - ====================================================================================*/ - -#include -#include "options.h" -#include -#include "cnst.h" -#include "prot.h" -#include "prot_fx.h" -#include "rom_com.h" -#include "rom_enc.h" -#include "wmc_auto.h" -#include "ivas_prot.h" diff --git a/lib_enc/swb_tbe_enc_fx.c b/lib_enc/swb_tbe_enc_fx.c index 7422a5a15dcc7b9f47d8c1498b4e886111b17489..316a5b5494e613ab5cf8ed39e651ca6c57ff478e 100644 --- a/lib_enc/swb_tbe_enc_fx.c +++ b/lib_enc/swb_tbe_enc_fx.c @@ -8,10 +8,8 @@ #include "cnst.h" #include "rom_com_fx.h" #include "rom_com.h" -#include "prot.h" /* Function prototypes */ #include "prot_fx.h" /* Function prototypes */ #include "prot_fx_enc.h" /* Function prototypes */ -#include "ivas_prot.h" /* Function prototypes */ #include "stl.h" #include "ivas_prot_fx.h" @@ -23,7 +21,6 @@ #define ENVSHBRES_ACORR_MIN 40 /* minimum lag for calculating autocorrelation function on SHB residual TD envelope */ #define ENVSHBRES_ACORR_MAX 80 /* maximum lag for calculating autocorrelation function on SHB residual TD envelope */ - /*-----------------------------------------------------------------* * Local functions *-----------------------------------------------------------------*/ @@ -553,7 +550,7 @@ void InitSWBencBuffer_ivas_fx( FOR( i = 0; i < LPC_SHB_ORDER; i++ ) { - hBWE_TD->prev_lsp_shb_fx[i] = lsp_shb_prev_tbl_fx[i]; + hBWE_TD->prev_lsp_shb_fx[i] = lsp_shb_prev_tbl_swb_tbe_enc_fx[i]; move16(); } @@ -869,7 +866,7 @@ void wb_tbe_enc_fx( } ELSE { - push_indice_fx( st_fx->hBstr, IND_SHB_LSF, i, NUM_BITS_LBR_WB_LSF ); + push_indice( st_fx->hBstr, IND_SHB_LSF, i, NUM_BITS_LBR_WB_LSF ); } Copy( lbr_wb_bwe_lsfvq_cbook_2bit_fx + i * LPC_SHB_ORDER_LBR_WB, lsp_wb, LPC_SHB_ORDER_LBR_WB ); @@ -931,7 +928,7 @@ void wb_tbe_enc_fx( } ELSE { - push_indice_fx( st_fx->hBstr, IND_SHB_LSF, i, NUM_BITS_WB_LSF ); + push_indice( st_fx->hBstr, IND_SHB_LSF, i, NUM_BITS_WB_LSF ); } Copy( wb_bwe_lsfvq_cbook_8bit_fx + i * LPC_SHB_ORDER_WB, lsp_wb, LPC_SHB_ORDER_WB ); @@ -1165,7 +1162,7 @@ void wb_tbe_enc_fx( } ELSE { - push_indice_fx( st_fx->hBstr, IND_UV_FLAG, uv_flag, 1 ); + push_indice( st_fx->hBstr, IND_UV_FLAG, uv_flag, 1 ); /* Quantization of the subframe gain parameter */ QuantizeSHBsubgains_fx( st_fx, GainShape, st_fx->extl ); @@ -1394,11 +1391,7 @@ void wb_tbe_enc_ivas_fx( move32(); } -#ifdef FIX_ISSUE_1165 lpc2lsp_ivas_fx( &lpc_wb_32_fx[1], lsp_wb_temp_fx, st_fx->prev_lsp_wb_temp_fx, LPC_SHB_ORDER_WB ); -#else - lpc2lsp_fx( &lpc_wb_32_fx[1], lsp_wb_temp_fx, st_fx->prev_lsp_wb_temp_fx, LPC_SHB_ORDER_WB ); -#endif FOR( i = 0; i < LPC_SHB_ORDER_WB; i++ ) { @@ -2489,7 +2482,7 @@ void swb_tbe_enc_fx( } ELSE { - push_indice_fx( st_fx->hBstr, IND_SHB_VF, vf_ind_fx, NUM_BITS_SHB_VF ); + push_indice( st_fx->hBstr, IND_SHB_VF, vf_ind_fx, NUM_BITS_SHB_VF ); } } @@ -3111,14 +3104,7 @@ void swb_tbe_enc_ivas_fx( } } - /* stab_check = a2lsp( lsf_shb, lpc_shb, LPC_SHB_ORDER ); - stab_check missing */ - /* LPC to LSP conversion */ - /* LPC: Q12, LSP: Q15 */ - E_LPC_a_lsp_conversion( lpc_shb_fx, lsp_shb_fx, hBWE_TD->prev_lsp_shb_fx, LPC_SHB_ORDER ); - - /* LSP to LSF conversion */ - /* LSP: Q15, LSF: Q15 */ - E_LPC_lsp_lsf_conversion( lsp_shb_fx, lsf_shb_fx, LPC_SHB_ORDER ); + /* stab_check = a2lsp( lsf_shb, lpc_shb, LPC_SHB_ORDER ); */ test(); test(); @@ -3126,8 +3112,8 @@ void swb_tbe_enc_ivas_fx( { FOR( i = 0; i < LPC_SHB_ORDER; i++ ) { - // hBWE_TD->prev_lsp_shb_fx[i] = i / 20.0f; - hBWE_TD->prev_lsp_shb_fx[i] = lsp_shb_prev_tbl_fx[i]; + // hBWE_TD->prev_lsp_shb_fx[i] = i / 20.0f; // This value in float enc is lsf. + hBWE_TD->prev_lsp_shb_fx[i] = lsp_shb_prev_tbl_swb_tbe_enc_fx[i]; // lsf converted to lsp as fixed enc stores lsp. move16(); } } @@ -3137,6 +3123,14 @@ void swb_tbe_enc_ivas_fx( // mvr2r( hBWE_TD->prev_lsp_shb, lsf_shb, LPC_SHB_ORDER ); // } + /* LPC to LSP conversion */ + /* LPC: Q12, LSP: Q15 */ + E_LPC_a_lsp_conversion( lpc_shb_fx, lsp_shb_fx, hBWE_TD->prev_lsp_shb_fx, LPC_SHB_ORDER ); + + /* LSP to LSF conversion */ + /* LSP: Q15, LSF: Q15 */ + E_LPC_lsp_lsf_conversion( lsp_shb_fx, lsf_shb_fx, LPC_SHB_ORDER ); + Copy( lsp_shb_fx, hBWE_TD->prev_lsp_shb_fx, LPC_SHB_ORDER ); Copy( lsf_shb_fx, lsf_shb_orig_fx, LPC_SHB_ORDER ); @@ -3841,8 +3835,8 @@ void swb_tbe_enc_ivas_fx( tmp = i_mult_o( sub( i, 19 ), 3277 /*0.1f Q15*/, &Overflow ); /* Q15 */ L_tmp1 = Mult_32_16( L_shl_o( 1, sub( 31, exp ), &Overflow ), tmp ); /* Q31-exp */ tmp = sub( 32767 /*1.0f Q15*/, tmp ); - Lscale = L_add( Mult_32_16( Lscale, tmp ), L_tmp1 ); - L_tmp = Mult_32_16( Lscale, shaped_shb_excitation_fx[i] ); /* Q_bwe_exc + (31-exp) - 15 */ + L_tmp = L_add( Mult_32_16( Lscale, tmp ), L_tmp1 ); + L_tmp = Mult_32_16( L_tmp, shaped_shb_excitation_fx[i] ); /* Q_bwe_exc + (31-exp) - 15 */ shaped_shb_excitation_fx[i] = round_fx_o( L_shl_o( L_tmp, exp, &Overflow ), &Overflow ); /* Q_bwe_exc */ move16(); } @@ -5336,7 +5330,7 @@ static void QuantizeSHBsubgains_fx( idxSubGain = closest_centroid_lc_fx( subgains + NUM_SHB_SUBFR / 4, HBCB_SubGain5bit_fx, 1 << NUM_BITS_SHB_SUBGAINS ); Copy( HBCB_SubGain5bit_fx + idxSubGain * NUM_SHB_SUBFR / 4, subgains, NUM_SHB_SUBFR / 4 ); - push_indice_fx( hBstr, IND_SHB_SUBGAIN, idxSubGain, NUM_BITS_SHB_SUBGAINS ); + push_indice( hBstr, IND_SHB_SUBGAIN, idxSubGain, NUM_BITS_SHB_SUBGAINS ); FOR( i = 0; i < NUM_SHB_SUBFR / 4; i++ ) { @@ -5407,7 +5401,7 @@ static void QuantizeSHBsubgains_fx( move16(); IF( NE_16( st_fx->codec_mode, MODE2 ) ) { - push_indice_fx( hBstr, IND_SHB_SUBGAIN, idxSubGain, NUM_BITS_SHB_SUBGAINS ); + push_indice( hBstr, IND_SHB_SUBGAIN, idxSubGain, NUM_BITS_SHB_SUBGAINS ); } } @@ -5602,7 +5596,7 @@ static void Quant_shb_ener_sf_fx( move16(); IF( NE_16( st_fx->codec_mode, MODE2 ) ) { - push_indice_fx( st_fx->hBstr, IND_SHB_ENER_SF, idxSubEner_fx, NUM_BITS_SHB_ENER_SF ); + push_indice( st_fx->hBstr, IND_SHB_ENER_SF, idxSubEner_fx, NUM_BITS_SHB_ENER_SF ); } return; } @@ -5689,7 +5683,7 @@ static void Quant_shb_res_gshape_fx( move16(); IF( NE_16( st_fx->codec_mode, MODE2 ) ) { - push_indice_fx( st_fx->hBstr, IND_SHB_RES_GS1 + i, idxSubGain_fx[i], NUM_BITS_SHB_RES_GS ); + push_indice( st_fx->hBstr, IND_SHB_RES_GS1 + i, idxSubGain_fx[i], NUM_BITS_SHB_RES_GS ); } } } @@ -5793,7 +5787,7 @@ static void QuantizeSHBframegain_fx( 1 << NUM_BITS_SHB_FrameGain, &idxFrameGain, &Q_GainFrame, SHBCB_FrameGain64_fx ); - push_indice_fx( st_fx->hBstr, IND_SHB_FRAMEGAIN, idxFrameGain, NUM_BITS_SHB_FrameGain ); + push_indice( st_fx->hBstr, IND_SHB_FRAMEGAIN, idxFrameGain, NUM_BITS_SHB_FrameGain ); *rf_gainFrame_ind = idxFrameGain; move16(); /* Q18 */ } @@ -5858,7 +5852,7 @@ static void QuantizeSHBframegain_fx( move16(); IF( NE_16( st_fx->codec_mode, MODE2 ) ) { - push_indice_fx( st_fx->hBstr, IND_SHB_FRAMEGAIN, idxFrameGain, NUM_BITS_SHB_FRAMEGAIN ); + push_indice( st_fx->hBstr, IND_SHB_FRAMEGAIN, idxFrameGain, NUM_BITS_SHB_FRAMEGAIN ); } *rf_gainFrame_ind = idxFrameGain; move16(); @@ -7182,7 +7176,7 @@ static void Quant_BWE_LSF_fx( move16(); IF( NE_16( st_fx->codec_mode, MODE2 ) ) { - push_indice_fx( hBstr, IND_SHB_LSF, lsf_idx[i], lsf_q_num_bits[i] ); + push_indice( hBstr, IND_SHB_LSF, lsf_idx[i], lsf_q_num_bits[i] ); } } @@ -7192,7 +7186,7 @@ static void Quant_BWE_LSF_fx( move16(); IF( NE_16( st_fx->codec_mode, MODE2 ) ) { - push_indice_fx( hBstr, IND_SHB_MIRROR, m_idx, MIRROR_POINT_BITS ); + push_indice( hBstr, IND_SHB_MIRROR, m_idx, MIRROR_POINT_BITS ); } grid_idx = Find_LSF_grid_fx( lsf, lsf_q, m ); @@ -7200,7 +7194,7 @@ static void Quant_BWE_LSF_fx( hBWE_TD->grid_idx = grid_idx; IF( NE_16( st_fx->codec_mode, MODE2 ) ) { - push_indice_fx( hBstr, IND_SHB_GRID, grid_idx, NUM_LSF_GRID_BITS ); + push_indice( hBstr, IND_SHB_GRID, grid_idx, NUM_LSF_GRID_BITS ); } FOR( i = 0; i < LPC_SHB_ORDER; i++ ) @@ -7332,7 +7326,7 @@ void fb_tbe_enc_fx( Copy_Scale_sig( new_input, input_fhb, L_FRAME48k, exp_temp ); elliptic_bpf_48k_generic_fx( input_fhb, &exp_temp, tmp_vec, hBWE_TD->elliptic_bpf_2_48k_mem_fx, hBWE_TD->elliptic_bpf_2_48k_mem_fx_Q, full_band_bpf_2_fx ); - Sample_Delay_HP = NS2SA_FX2( 48000, ACELP_LOOK_NS + DELAY_FD_BWE_ENC_12k8_NS + DELAY_FIR_RESAMPL_NS ) - L_FRAME48k / 2; + Sample_Delay_HP = NS2SA( 48000, ACELP_LOOK_NS + DELAY_FD_BWE_ENC_12k8_NS + DELAY_FIR_RESAMPL_NS ) - L_FRAME48k / 2; IF( NE_16( st->last_extl, FB_TBE ) ) { @@ -7413,7 +7407,7 @@ void fb_tbe_enc_fx( } ELSE { - push_indice_fx( st->hBstr, IND_FB_SLOPE, idxGain, 4 ); + push_indice( st->hBstr, IND_FB_SLOPE, idxGain, 4 ); } return; @@ -7468,16 +7462,16 @@ void fb_tbe_enc_ivas_fx( IF( EQ_16( st->L_frame, L_FRAME ) ) { - Sample_Delay_HP = NS2SA_FX2( 48000, ACELP_LOOK_NS + DELAY_FD_BWE_ENC_12k8_NS ) - L_FRAME48k / 2; + Sample_Delay_HP = NS2SA( 48000, ACELP_LOOK_NS + DELAY_FD_BWE_ENC_12k8_NS ) - L_FRAME48k / 2; } ELSE { - Sample_Delay_HP = NS2SA_FX2( 48000, ACELP_LOOK_NS + DELAY_FD_BWE_ENC_16k_NS ) - L_FRAME48k / 2; + Sample_Delay_HP = NS2SA( 48000, ACELP_LOOK_NS + DELAY_FD_BWE_ENC_16k_NS ) - L_FRAME48k / 2; } } ELSE { - Sample_Delay_HP = NS2SA_FX2( 48000, ACELP_LOOK_NS + DELAY_FD_BWE_ENC_12k8_NS + DELAY_FIR_RESAMPL_NS ) - L_FRAME48k / 2; + Sample_Delay_HP = NS2SA( 48000, ACELP_LOOK_NS + DELAY_FD_BWE_ENC_12k8_NS + DELAY_FIR_RESAMPL_NS ) - L_FRAME48k / 2; } IF( NE_16( st->last_extl, FB_TBE ) ) @@ -7585,10 +7579,10 @@ void tbe_write_bitstream_fx( IF( ( st_fx->rf_mode || EQ_32( st_fx->total_brate, ACELP_9k60 ) ) && ( EQ_16( st_fx->bwidth, WB ) ) ) { /* WB LSF */ - push_next_indice_fx( hBstr, hBWE_TD->lsf_WB, NUM_BITS_LBR_WB_LSF ); + push_next_indice( hBstr, hBWE_TD->lsf_WB, NUM_BITS_LBR_WB_LSF ); /* WB frame */ - push_next_indice_fx( hBstr, hBWE_TD->gFrame_WB, NUM_BITS_SHB_FrameGain_LBR_WB ); + push_next_indice( hBstr, hBWE_TD->gFrame_WB, NUM_BITS_SHB_FrameGain_LBR_WB ); } ELSE IF( ( GE_32( st_fx->total_brate, ACELP_9k60 ) ) && ( LE_32( st_fx->total_brate, ACELP_32k ) ) && ( ( EQ_16( st_fx->bwidth, SWB ) ) || ( EQ_16( st_fx->bwidth, FB ) ) ) ) @@ -7598,53 +7592,53 @@ void tbe_write_bitstream_fx( test(); IF( ( EQ_16( st_fx->rf_mode, 1 ) ) || EQ_32( st_fx->total_brate, ACELP_9k60 ) ) { - push_next_indice_fx( hBstr, hBWE_TD->lsf_idx[0], 8 ); + push_next_indice( hBstr, hBWE_TD->lsf_idx[0], 8 ); } ELSE { FOR( i = 0; i < NUM_Q_LSF; i++ ) { - push_next_indice_fx( hBstr, hBWE_TD->lsf_idx[i], lsf_q_num_bits[i] ); + push_next_indice( hBstr, hBWE_TD->lsf_idx[i], lsf_q_num_bits[i] ); } /* LSF mirror points */ - push_next_indice_fx( hBstr, hBWE_TD->m_idx, MIRROR_POINT_BITS ); + push_next_indice( hBstr, hBWE_TD->m_idx, MIRROR_POINT_BITS ); /* LSF grid points */ - push_next_indice_fx( hBstr, hBWE_TD->grid_idx, NUM_LSF_GRID_BITS ); + push_next_indice( hBstr, hBWE_TD->grid_idx, NUM_LSF_GRID_BITS ); } /* Gain shape */ - push_next_indice_fx( hBstr, hBWE_TD->idxSubGains, NUM_BITS_SHB_SUBGAINS ); + push_next_indice( hBstr, hBWE_TD->idxSubGains, NUM_BITS_SHB_SUBGAINS ); /* frame gain */ - push_next_indice_fx( hBstr, hBWE_TD->idxFrameGain, NUM_BITS_SHB_FRAMEGAIN ); + push_next_indice( hBstr, hBWE_TD->idxFrameGain, NUM_BITS_SHB_FRAMEGAIN ); IF( GE_32( st_fx->total_brate, ACELP_24k40 ) ) { /* sub frame energy*/ - push_next_indice_fx( hBstr, hBWE_TD->idx_shb_fr_gain, NUM_BITS_SHB_ENER_SF ); + push_next_indice( hBstr, hBWE_TD->idx_shb_fr_gain, NUM_BITS_SHB_ENER_SF ); /* gain shapes residual */ FOR( i = 0; i < NB_SUBFR16k; i++ ) { - push_next_indice_fx( hBstr, hBWE_TD->idx_res_gs[i], NUM_BITS_SHB_RES_GS ); + push_next_indice( hBstr, hBWE_TD->idx_res_gs[i], NUM_BITS_SHB_RES_GS ); } /* voicing factor */ - push_next_indice_fx( hBstr, hBWE_TD->idx_mixFac, NUM_BITS_SHB_VF ); + push_next_indice( hBstr, hBWE_TD->idx_mixFac, NUM_BITS_SHB_VF ); } IF( EQ_16( st_fx->tec_tfa, 1 ) ) { - push_next_indice_fx( hBstr, st_fx->tec_flag, BITS_TEC ); - push_next_indice_fx( hBstr, st_fx->tfa_flag, BITS_TFA ); + push_next_indice( hBstr, st_fx->tec_flag, BITS_TEC ); + push_next_indice( hBstr, st_fx->tfa_flag, BITS_TFA ); } } IF( EQ_16( st_fx->bwidth, FB ) ) { - push_next_indice_fx( hBstr, hBWE_TD->idxGain, 4 ); + push_next_indice( hBstr, hBWE_TD->idxGain, 4 ); } } diff --git a/lib_enc/tcq_core_enc_fx.c b/lib_enc/tcq_core_enc_fx.c index fbd9775c4e8a31aba8c0b02a9b8e91b786ca7c3d..d5841094fffca30c897bf4c791ad55ad703ffd56 100644 --- a/lib_enc/tcq_core_enc_fx.c +++ b/lib_enc/tcq_core_enc_fx.c @@ -10,7 +10,6 @@ #include "ivas_error.h" #include "prot_fx.h" /* Function prototypes */ #include "prot_fx_enc.h" /* Function prototypes */ -#include "prot.h" #define IVAS_FLOAT ivas_error tcq_core_LR_enc_fx( @@ -450,11 +449,11 @@ ivas_error tcq_core_LR_enc_fx( j = sub( bit_budget, shl( nb_bytes, 3 ) ); FOR( i = 0; i < nb_bytes; i++ ) { - push_indice_fx( hBstr, IND_HQ2_SUBBAND_TCQ, pbs_fx->buf[i], 8 ); + push_indice( hBstr, IND_HQ2_SUBBAND_TCQ, pbs_fx->buf[i], 8 ); } IF( j > 0 ) { - push_indice_fx( hBstr, IND_HQ2_SUBBAND_TCQ, shr( pbs_fx->buf[nb_bytes], ( 8 - j ) ), j ); + push_indice( hBstr, IND_HQ2_SUBBAND_TCQ, shr( pbs_fx->buf[nb_bytes], ( 8 - j ) ), j ); } /* Clear decoding buffer */ set32_fx( coefs_quant_fx, 0, sfm_end[BANDS - 1] + 1 ); diff --git a/lib_enc/tcx_ltp_enc_fx.c b/lib_enc/tcx_ltp_enc_fx.c index e1d478e954f3c24e06f61037b353e87727f1e15d..84f83a3119ec01dd953676844b2cf9c70dc19ef7 100644 --- a/lib_enc/tcx_ltp_enc_fx.c +++ b/lib_enc/tcx_ltp_enc_fx.c @@ -536,11 +536,7 @@ static void tcx_ltp_find_gain( Word16 *speech, Word16 *pred_speech, Word16 L_fra BASOP_SATURATE_WARNING_ON_EVS /* Quantize gain */ -#ifdef FIX_ISSUE_1150 g = shr( sub_o( g, 0x1000, &Overflow ), 13 ); -#else - g = shr( sub( g, 0x1000 ), 13 ); -#endif g = s_max( g, -1 ); *gain_index = g; @@ -935,9 +931,9 @@ void tcx_ltp_encode_ivas_fx( { hTcxEnc->tcxltp_pitch_int_past = L_frame; move16(); - hTcxEnc->tcxltp_pitch_int_past = 0; + hTcxEnc->tcxltp_pitch_fr_past = 0; move16(); - hTcxEnc->tcxltp_pitch_int_past = 0; + hTcxEnc->tcxltp_gain_past = 0; move16(); } @@ -1035,13 +1031,13 @@ void tcx_ltp_encode_ivas_fx( IF( EQ_16( st->element_mode, IVAS_CPE_DFT ) ) { - tempFlatness_fx = GetTCXAvgTemporalFlatnessMeasure_ivas_fx( (const TransientDetection *) st->hTranDet, NSUBBLOCKS - NSUBBLOCKS_SHIFT, add( nPrevSubblocks, NSUBBLOCKS_SHIFT ) ); // Q7 + tempFlatness_fx = extract_l( L_shr( GetTCXAvgTemporalFlatnessMeasure_ivas_fx( (const TransientDetection *) st->hTranDet, NSUBBLOCKS - NSUBBLOCKS_SHIFT, add( nPrevSubblocks, NSUBBLOCKS_SHIFT ) ), 14 ) ); // Q7 maxEnergyChange_fx = GetTCXMaxenergyChange_ivas_fx( st->hTranDet, (const Word8) isTCX10, NSUBBLOCKS - NSUBBLOCKS_SHIFT, add( nPrevSubblocks, NSUBBLOCKS_SHIFT ) ); // Q3 } ELSE { - tempFlatness_fx = GetTCXAvgTemporalFlatnessMeasure_ivas_fx( (const TransientDetection *) st->hTranDet, NSUBBLOCKS, nPrevSubblocks ); // Q7 + tempFlatness_fx = extract_l( L_shr( ( GetTCXAvgTemporalFlatnessMeasure_ivas_fx( (const TransientDetection *) st->hTranDet, NSUBBLOCKS, nPrevSubblocks ) ), 14 ) ); // Q7 maxEnergyChange_fx = GetTCXMaxenergyChange_ivas_fx( st->hTranDet, (const Word8) isTCX10, NSUBBLOCKS, nPrevSubblocks ); // Q3 } diff --git a/lib_enc/tcx_utils_enc_fx.c b/lib_enc/tcx_utils_enc_fx.c index 5e7ca7be87a6f186194a2b76247210c1efb58f59..2abe538e445a952f02ea71d5d0f20dbe69988d01 100644 --- a/lib_enc/tcx_utils_enc_fx.c +++ b/lib_enc/tcx_utils_enc_fx.c @@ -48,14 +48,12 @@ void ComputeSpectrumNoiseMeasure_fx( const Word32 *powerSpec, Word8 *noiseFlags, Word16 lowpassLine ) { - Word16 i, lastTone; + Word16 i, lastTone, j; Word32 s, c; Word16 tmp16; Word32 tmp1, tmp2 = 0; /* initialization only to avoid compiler warning, not counted */ move32(); - int j; - IF( resetMemory != 0 ) { FOR( i = 0; i < lowpassLine; i++ ) @@ -81,7 +79,7 @@ void ComputeSpectrumNoiseMeasure_fx( const Word32 *powerSpec, i = sub( startLine, 1 ); s = 0; move32(); - for ( j = -7; j < 8; j++ ) + FOR( j = -7; j < 8; j++ ) { s = L_add( s, L_shr( powerSpec[i + j], 4 ) ); } @@ -174,6 +172,117 @@ void ComputeSpectrumNoiseMeasure_fx( const Word32 *powerSpec, } } +void ComputeSpectrumNoiseMeasure_ivas_fx( Word64 *powerSpec, /* Qx */ + Word16 L_frame, /* Q0 */ + Word16 startLine, /* Q0 */ + Word8 resetMemory, /* Q0 */ + Word8 *noiseFlags, /* Q0 */ + Word16 lowpassLine /* Q0 */ +) +{ + Word16 i, lastTone, j, exp; + Word32 c; + Word64 s, temp; + + IF( resetMemory != 0 ) + { + FOR( i = 0; i < lowpassLine; i++ ) + { + noiseFlags[i] = 0; + move16(); + } + } + + FOR( i = lowpassLine; i < L_frame; i++ ) + { + noiseFlags[i] = 1; + move16(); + } + + test(); + IF( powerSpec != NULL && LT_16( add( startLine, 6 ), L_frame ) ) + { + lastTone = 0; + move16(); + + /* noise-measure flags for spectrum filling and quantization (0: tonal, 1: noise-like) */ + i = sub( startLine, 1 ); + /* s = powerSpec[i - 7] + powerSpec[i - 6] + powerSpec[i - 5] + + powerSpec[i - 4] + powerSpec[i - 3] + powerSpec[i - 2] + + powerSpec[i - 1] + powerSpec[i] + powerSpec[i + 1] + + powerSpec[i + 2] + powerSpec[i + 3] + powerSpec[i + 4] + + powerSpec[i + 5] + powerSpec[i + 6] + powerSpec[i + 7]; */ + + s = powerSpec[i - 7]; // Qx + move64(); + FOR( j = -6; j < 8; j++ ) + { + s = W_add( s, powerSpec[i + j] ); // Qx + } + + FOR( i = i + 1; i < lowpassLine - 7; i++ ) + { + /* c = powerSpec[i - 1] + powerSpec[i] + powerSpec[i + 1]; */ + temp = W_add( W_add( powerSpec[i - 1], powerSpec[i] ), powerSpec[i + 1] ); + exp = W_norm( temp ); + c = W_extract_h( W_shl( temp, exp ) ); // Qx+exp-32 + + /* s += powerSpec[i + 7] - powerSpec[i - 8]; */ + s = W_sub( s, powerSpec[i - 8] ); // Qx + s = W_add( s, powerSpec[i + 7] ); // Qx + + /* ( 1.75f - 0.5f * noiseFlags[i] ) * c */ + temp = W_mult_32_32( c, L_msu0( 28672 /* 1.75 in Q14*/, 8192 /* 0.5 in Q14 */, noiseFlags[i] ) ); // Qx+exp-32+14+1 = Qx+exp-17 + + IF( GE_64( W_shl( s, sub( exp, Q17 ) ), temp ) /* s >= ( 1.75f - 0.5f * noiseFlags[i] ) * c */ ) // Qx+exp-17 + { + noiseFlags[i] = 1; + move16(); + } + ELSE + { + noiseFlags[i] = 0; + lastTone = i; + move16(); + move16(); + } + } + + /* lower L_frame*startRatio lines are tonal (0), upper 7 lines are processed separately */ + FOR( ; i < lowpassLine - 1; i++ ) + { + /* c = powerSpec[i - 1] + powerSpec[i] + powerSpec[i + 1]; */ + temp = W_add( W_add( powerSpec[i - 1], powerSpec[i] ), powerSpec[i + 1] ); + exp = W_norm( temp ); + c = W_extract_h( W_shl( temp, exp ) ); // Qx+exp-32 + + /* ( 1.75f - 0.5f * noiseFlags[i] ) * c */ + temp = W_mult_32_32( c, L_msu0( 28672 /* 1.75 in Q14*/, 8192 /* 0.5 in Q14 */, noiseFlags[i] ) ); // Qx+exp-32+14+1 = Qx+exp-17 + + IF( GE_64( W_shl( s, sub( exp, Q17 ) ), temp ) /* s >= ( 1.75f - 0.5f * noiseFlags[i] ) * c */ ) // Qx+exp-17 + { + noiseFlags[i] = 1; + move16(); + } + ELSE + { + noiseFlags[i] = 0; + lastTone = i; + move16(); + move16(); + } + } + noiseFlags[i] = 1; /* uppermost line is defined as noise-like (1) */ + move16(); + + if ( lastTone > 0 ) /* spread uppermost tonal line one line upward */ + { + noiseFlags[lastTone + 1] = 0; + move16(); + } + } +} + static void detectLowpassFac( const Word32 *powerSpec, Word16 powerSpec_e, Word16 L_frame, Word8 rectWin, Word16 *pLpFac, Word16 lowpassLine ) { Word16 i, tmp; @@ -332,7 +441,8 @@ void AnalyzePowerSpectrum_ivas_fx( Word32 const mdctSpectrum[], /* input: MDCT spectrum */ Word16 mdctSpectrum_e, Word16 const signal[], /* input: windowed signal corresponding to mdctSpectrum */ - Word32 powerSpec[], /* output: Power spectrum. Can point to signal */ + const Word16 q_signal, + Word32 powerSpec[], /* output: Power spectrum. Can point to signal */ Word16 powerSpec_e[] ) { Word16 i, iStart, iEnd, lowpassLine; @@ -344,8 +454,7 @@ void AnalyzePowerSpectrum_ivas_fx( lowpassLine = L_frameTCX; move16(); - Word16 temp_powerSpec_e = 16; - move16(); + Word16 temp_powerSpec_e = sub( 16, q_signal ); TCX_MDST( signal, powerSpec, &temp_powerSpec_e, left_overlap, sub( L_frameTCX, shr( add( left_overlap, right_overlap ), 1 ) ), right_overlap, st->element_mode ); shift = L_norm_arr( powerSpec, N_MAX + L_MDCT_OVLP_MAX ); @@ -2801,12 +2910,14 @@ void tcx_encoder_memory_update_ivas_fx( Copy( xn_buf, synth, L_frame_glob ); Copy( synth + sub( L_frame_glob, M + 1 ), LPDmem->syn, M + 1 ); + LPDmem->q_lpd_syn = Q_new; + move16(); IF( st->tcxonly == 0 ) { /* Update weighted synthesis */ Residu3_fx( Ai + imult1616( sub( st->nb_subfr, 1 ), ( M + 1 ) ), synth + sub( L_frame_glob, 1 ), &tmp, 1, 0 ); - LPDmem->mem_w0 = sub_sat( wsig[sub( L_frame_glob, 1 )], tmp ); + LPDmem->mem_w0 = sub_sat( wsig[L_frame_glob - 1], tmp ); move16(); } @@ -2814,12 +2925,17 @@ void tcx_encoder_memory_update_ivas_fx( /* Emphasis of synth -> synth_pe */ tmp = synth[-( M + 1 )]; move16(); - E_UTIL_f_preemph2( Q_new - 1, synth - M, preemph, add( M, L_frame_glob ), &tmp ); + E_UTIL_f_preemph2( 0, synth - M, preemph, add( M, L_frame_glob ), &tmp ); // Q_new Copy( synth + sub( L_frame_glob, M ), LPDmem->mem_syn, M ); Copy( synth + sub( L_frame_glob, M ), LPDmem->mem_syn2, M ); Copy( synth + sub( L_frame_glob, L_SYN_MEM ), LPDmem->mem_syn_r, L_SYN_MEM ); - LPDmem->q_mem_syn = sub( shl( Q_new, 1 ), 1 ); // resultant q of synth after E_UTIL_f_preemph2 + + /* Aligning the Q-factor of the remaining synthesis memory buffers */ + Scale_sig( LPDmem->mem_syn1_fx, M, sub( Q_new, LPDmem->q_mem_syn ) ); + Scale_sig( LPDmem->mem_syn3, M, sub( Q_new, LPDmem->q_mem_syn ) ); + + LPDmem->q_mem_syn = Q_new; // resultant q of synth after E_UTIL_f_preemph2 move16(); test(); @@ -2828,13 +2944,27 @@ void tcx_encoder_memory_update_ivas_fx( /* Update excitation */ IF( LT_16( L_frame_glob, L_EXC_MEM ) ) { - Copy( LPDmem->old_exc + L_frame_glob, LPDmem->old_exc, sub( L_EXC_MEM, L_frame_glob ) ); - Scale_sig( LPDmem->old_exc, sub( L_EXC_MEM, L_frame_glob ), Q_new ); // Q_new->2*Q_new - Residu3_fx( A, synth, LPDmem->old_exc + sub( L_EXC_MEM, L_frame_glob ), L_frame_glob, 1 ); // 2*Q_new + Word16 shift = norm_arr( LPDmem->old_exc + L_frame_glob, sub( L_EXC_MEM, L_frame_glob ) ); + IF( LT_16( shift, sub( Q_new, LPDmem->q_lpd_old_exc ) ) ) + { + Copy_Scale_sig( LPDmem->old_exc + L_frame_glob, LPDmem->old_exc, sub( L_EXC_MEM, L_frame_glob ), shift ); + LPDmem->q_lpd_old_exc = add( LPDmem->q_lpd_old_exc, shift ); + move16(); + Residu3_fx( A, synth, LPDmem->old_exc + sub( L_EXC_MEM, L_frame_glob ), L_frame_glob, sub( LPDmem->q_lpd_old_exc, Q_new ) ); // LPDmem->q_lpd_old_exc + } + ELSE + { + Copy_Scale_sig( LPDmem->old_exc + L_frame_glob, LPDmem->old_exc, sub( L_EXC_MEM, L_frame_glob ), sub( Q_new, LPDmem->q_lpd_old_exc ) ); + Residu3_fx( A, synth, LPDmem->old_exc + sub( L_EXC_MEM, L_frame_glob ), L_frame_glob, 0 ); // Q_new + LPDmem->q_lpd_old_exc = Q_new; + move16(); + } } ELSE { - Residu3_fx( A, synth + sub( L_frame_glob, L_EXC_MEM ), LPDmem->old_exc, L_EXC_MEM, 1 ); // 2*Q_new + Residu3_fx( A, synth + sub( L_frame_glob, L_EXC_MEM ), LPDmem->old_exc, L_EXC_MEM, 0 ); // Q_new + LPDmem->q_lpd_old_exc = Q_new; + move16(); } } } @@ -3631,7 +3761,7 @@ Word16 tcx_res_Q_spec_ivas_fx( return bits; } - +#if 1 // TV void ProcessIGF_fx( IGF_ENC_INSTANCE_HANDLE const hInstance, /**< in: instance handle of IGF Encoder */ Encoder_State *st, /**< in: Encoder state */ @@ -3648,8 +3778,13 @@ void ProcessIGF_fx( Word16 igfGridIdx; Word16 isIndepFlag; Word16 bsBits; - Word16 bsStart; +#ifndef HARM_PUSH_BIT + Word16 bsStart, pBsStart; +#else + Word16 pBsStart; +#endif BSTR_ENC_HANDLE hBstr = st->hBstr; + IGF_ENC_INSTANCE_HANDLE hIGFEnc = st->hIGFEnc; isIndepFlag = 1; @@ -3702,6 +3837,8 @@ void ProcessIGF_fx( Word16 Q_A; Word16 predictionGain = 0; Word16 *flatteningTrigger = &( st->hIGFEnc->flatteningTrigger ); + + move32(); move16(); move16(); @@ -3722,9 +3859,9 @@ void ProcessIGF_fx( } } - // IVAS_CODE_BITSTREAM +#ifndef HARM_PUSH_BIT bsStart = hBstr->next_ind_fx; - +#endif move16(); hInstance->infoTotalBitsPerFrameWritten = 0; move16(); @@ -3732,28 +3869,31 @@ void ProcessIGF_fx( { IGFEncWriteBitstream_fx( hInstance, NULL, &hInstance->infoTotalBitsPerFrameWritten, igfGridIdx, isIndepFlag ); } +#ifndef HARM_PUSH_BIT ELSE { IGFEncWriteBitstream_fx( hInstance, st->hBstr, &hInstance->infoTotalBitsPerFrameWritten, igfGridIdx, isIndepFlag ); } -#ifndef IVAS_CODE_BITSTREAM bsBits = sub( hBstr->next_ind_fx, bsStart ); IF( !isTCX20 ) { IGFEncConcatenateBitstream_fx( hInstance, bsBits, &hBstr->next_ind_fx, &hBstr->nb_bits_tot, hBstr->ind_list ); } #else - PMT( "New bit stream implementation to be checked" ) - bsBits = sub( hBstr->next_ind_fx, bsStart ); - IF( !isTCX20 ) + ELSE { - IGFEncConcatenateBitstream_fx( hInstance, bsBits, &hBstr->next_ind_fx, &hBstr->nb_bits_tot_fx, hBstr->ind_list_fx ); - } + pBsStart = hBstr->nb_ind_tot; + move16(); + + IGFEncWriteBitstream_ivas_fx( hIGFEnc, hBstr, &hIGFEnc->infoTotalBitsPerFrameWritten, igfGridIdx, isIndepFlag ); + bsBits = sub( hBstr->nb_ind_tot, pBsStart ); + IGFEncConcatenateBitstream_ivas_fx( hIGFEnc, bsBits, hBstr ); + } #endif } - +#endif void attenuateNbSpectrum_fx( Word16 L_frame, Word32 *spectrum ) { Word16 i, length, att; @@ -3783,10 +3923,8 @@ void attenuateNbSpectrum_fx( Word16 L_frame, Word32 *spectrum ) * *---------------------------------------------------------------------*/ void ProcessIGF_ivas_fx( - Encoder_State *st, /* i : Encoder state */ -#ifdef MSAN_FIX - Word16 powerSpec_len, /* i : length of pPowerSpectrum buffer */ -#endif + Encoder_State *st, /* i : Encoder state */ + Word16 powerSpec_len, /* i : length of pPowerSpectrum buffer */ Word32 *pMDCTSpectrum, /* i : MDCT spectrum (*q_spectrum) */ const Word32 *pITFMDCTSpectrum, /* i : MDCT spectrum fir ITF */ Word16 *q_spectrum, /* i/o: Q of spectrum */ @@ -3833,11 +3971,7 @@ void ProcessIGF_ivas_fx( IGFSaveSpectrumForITF_ivas_fx( hIGFEnc, igfGridIdx, pITFMDCTSpectrum, sub( Q31, *q_spectrum ) ); -#ifndef MSAN_FIX - IGFEncApplyMono_ivas_fx( st, igfGridIdx, pMDCTSpectrum, sub( Q31, *q_spectrum ), pPowerSpectrum, exp_powerSpec, isTCX20, st->hTcxEnc->fUseTns[frameno], sp_aud_decision0, vad_hover_flag ); -#else IGFEncApplyMono_ivas_fx( st, powerSpec_len, igfGridIdx, pMDCTSpectrum, sub( Q31, *q_spectrum ), pPowerSpectrum, exp_powerSpec, isTCX20, st->hTcxEnc->fUseTns[frameno], sp_aud_decision0, vad_hover_flag ); -#endif curr_order = 0; move16(); @@ -3875,7 +4009,7 @@ void ProcessIGF_ivas_fx( IGFEncWriteBitstream_ivas_fx( hIGFEnc, hBstr, &hIGFEnc->infoTotalBitsPerFrameWritten, igfGridIdx, isIndepFlag ); bsBits = sub( hBstr->nb_ind_tot, pBsStart ); - IGFEncConcatenateBitstream( hIGFEnc, bsBits, hBstr ); + IGFEncConcatenateBitstream_ivas_fx( hIGFEnc, bsBits, hBstr ); } return; @@ -3895,8 +4029,11 @@ void ProcessStereoIGF_fx( Word16 q_pITFMDCTSpectrum_1, Word16 q_pITFMDCTSpectrum_2, Word32 *pPowerSpectrum_fx[CPE_CHANNELS], /* i/o: MDCT^2 + MDST^2 spectrum, or estimate */ + Word16 exp_pPowerSpectrum_fx[CPE_CHANNELS], /* i/o: exp of pPowerSpectrum_fx */ Word32 *pPowerSpectrumMsInv_fx[CPE_CHANNELS][NB_DIV], /* i : inverse power spectrum */ + Word16 exp_pPowerSpectrumMsInv_fx[CPE_CHANNELS], /* i/o: exp of pPowerSpectrumMsInv_fx */ Word32 *inv_spectrum_fx[CPE_CHANNELS][NB_DIV], /* i : inverse spectrum */ + Word16 exp_inv_spectrum_fx[CPE_CHANNELS], /* i/o: exp of inv_spectrum_fx */ const Word16 frameno, /* i : flag indicating index of current subfr. */ const Word16 sp_aud_decision0, /* i : sp_aud_decision0 */ const Word32 element_brate, /* i : element bitrate */ @@ -3940,7 +4077,8 @@ void ProcessStereoIGF_fx( IGFSaveSpectrumForITF_ivas_fx( hIGFEnc[1], igfGridIdx, pITFMDCTSpectrum_fx[1][frameno], sub( Q31, q_pITFMDCTSpectrum_2 ) ); - IGFEncApplyStereo_fx( hStereoMdct, ms_mask, hIGFEnc, igfGridIdx, sts, pPowerSpectrum_fx, pPowerSpectrumMsInv_fx, inv_spectrum_fx, frameno, sp_aud_decision0, element_brate, mct_on ); + IGFEncApplyStereo_fx( hStereoMdct, ms_mask, hIGFEnc, igfGridIdx, sts, pPowerSpectrum_fx, exp_pPowerSpectrum_fx, pPowerSpectrumMsInv_fx, exp_pPowerSpectrumMsInv_fx, + inv_spectrum_fx, exp_inv_spectrum_fx, frameno, sp_aud_decision0, element_brate, mct_on ); FOR( ch = 0; ch < CPE_CHANNELS; ch++ ) { @@ -3979,7 +4117,7 @@ void ProcessStereoIGF_fx( IGFEncWriteBitstream_ivas_fx( hIGFEnc[ch], hBstr, &hIGFEnc[ch]->infoTotalBitsPerFrameWritten, igfGridIdx, isIndepFlag ); bsBits = sub( hBstr->nb_ind_tot, pBsStart ); - IGFEncConcatenateBitstream( hIGFEnc[ch], bsBits, hBstr ); + IGFEncConcatenateBitstream_ivas_fx( hIGFEnc[ch], bsBits, hBstr ); } } return; diff --git a/lib_enc/tns_base_enc_fx.c b/lib_enc/tns_base_enc_fx.c index f1881a427816ebec64eec1284698d8d849c683c6..05b35813a5bb1efb1a2507cc5e2f7daa65a565cf 100644 --- a/lib_enc/tns_base_enc_fx.c +++ b/lib_enc/tns_base_enc_fx.c @@ -12,7 +12,6 @@ #include #include "rom_com_fx.h" #include "rom_com.h" -#include "prot.h" /* Function prototypes */ #include "prot_fx.h" /* Function prototypes */ #include "prot_fx_enc.h" /* Function prototypes */ @@ -230,11 +229,7 @@ Word16 DetectTnsFilt_fx( STnsConfig const *pTnsConfig, assert( n < (Word16) ( sizeof( tmpbuf ) / sizeof( Word16 ) ) ); FOR( i = 0; i < n; i++ ) { -#ifdef FIX_ISSUE_1147 tmpbuf[i] = round_fx_sat( L_shl( pSpectrum[iStartLine + i], shift ) ); -#else - tmpbuf[i] = round_fx( L_shl( pSpectrum[iStartLine + i], shift ) ); -#endif move16(); } diff --git a/lib_enc/transient_detection_fx.c b/lib_enc/transient_detection_fx.c index d9859a1a10ddc4685c86875295e168d118ee1ff8..60d661db444fe5413372f79525dec4dfc24e032d 100644 --- a/lib_enc/transient_detection_fx.c +++ b/lib_enc/transient_detection_fx.c @@ -419,16 +419,17 @@ Word16 GetTCXAvgTemporalFlatnessMeasure_fx( struct TransientDetection const *pTr return i; } -Word16 GetTCXAvgTemporalFlatnessMeasure_ivas_fx( struct TransientDetection const *pTransientDetection, Word16 nCurrentSubblocks, Word16 nPrevSubblocks ) +Word32 GetTCXAvgTemporalFlatnessMeasure_ivas_fx( struct TransientDetection const *pTransientDetection, Word16 nCurrentSubblocks, Word16 nPrevSubblocks ) { - Word16 i; + Word32 i; TransientDetector const *pTransientDetector; SubblockEnergies const *pSubblockEnergies; Word16 nDelay; Word16 nRelativeDelay; - Word16 const *pSubblockNrgChange; + Word32 const *pSubblockNrgChange; + Word16 const *pSubblockNrgChange_exp; Word32 sumTempFlatness; - Word16 nTotBlocks; + Word16 nTotBlocks, sumTempFlatness_exp, exp; /* Initialization */ pTransientDetector = &pTransientDetection->transientDetector; @@ -445,15 +446,21 @@ Word16 GetTCXAvgTemporalFlatnessMeasure_ivas_fx( struct TransientDetection const assert( ( nPrevSubblocks <= nRelativeDelay ) && ( nCurrentSubblocks <= NSUBBLOCKS + nDelay ) ); - pSubblockNrgChange = &pSubblockEnergies->subblockNrgChange[sub( nRelativeDelay, nPrevSubblocks )]; // subblockNrgChange Q3 + pSubblockNrgChange = &pSubblockEnergies->subblockNrgChange_32fx[( nRelativeDelay - nPrevSubblocks )]; + pSubblockNrgChange_exp = &pSubblockEnergies->subblockNrgChange_exp[( nRelativeDelay - nPrevSubblocks )]; + sumTempFlatness = 0; + move32(); + sumTempFlatness_exp = 0; + move16(); FOR( i = 0; i < nTotBlocks; i++ ) { - sumTempFlatness = L_add( sumTempFlatness, L_deposit_l( pSubblockNrgChange[i] ) ); + sumTempFlatness = BASOP_Util_Add_Mant32Exp( sumTempFlatness, sumTempFlatness_exp, pSubblockNrgChange[i], pSubblockNrgChange_exp[i], &sumTempFlatness_exp ); } /* exponent = AVG_FLAT_E */ - i = div_l( L_shl( sumTempFlatness, 5 ), nTotBlocks ); // Q7 - + i = BASOP_Util_Divide3232_Scale_cadence( sumTempFlatness, nTotBlocks, &exp ); + exp = add( exp, sub( sumTempFlatness_exp, 31 ) ); + i = L_shl_sat( i, sub( exp, 10 ) ); // Can be saturated, since it is used for comparision againt 3.25/20.0f, Q21 return i; } @@ -546,7 +553,8 @@ Word16 GetTCXMaxenergyChange_ivas_fx( TRAN_DET_HANDLE hTranDet, SubblockEnergies const *pSubblockEnergies; Word16 nDelay; Word16 nRelativeDelay; - Word16 const *pSubblockNrgChange; + Word32 const *pSubblockNrgChange; + Word16 const *pSubblockNrgChange_exp; Word16 maxEnergyChange; Word16 nTotBlocks; @@ -563,7 +571,8 @@ Word16 GetTCXMaxenergyChange_ivas_fx( TRAN_DET_HANDLE hTranDet, maxEnergyChange = 0 /*0.0f Q3*/; move16(); assert( ( nPrevSubblocks <= nRelativeDelay ) && ( nCurrentSubblocks <= NSUBBLOCKS + nDelay ) ); - pSubblockNrgChange = &pSubblockEnergies->subblockNrgChange[nRelativeDelay - nPrevSubblocks]; + pSubblockNrgChange = &pSubblockEnergies->subblockNrgChange_32fx[nRelativeDelay - nPrevSubblocks]; + pSubblockNrgChange_exp = &pSubblockEnergies->subblockNrgChange_exp[nRelativeDelay - nPrevSubblocks]; IF( s_or( pTransientDetector->bIsAttackPresent, isTCX10 ) ) /* frame is TCX-10 */ { @@ -602,7 +611,7 @@ Word16 GetTCXMaxenergyChange_ivas_fx( TRAN_DET_HANDLE hTranDet, FOR( i = 0; i < nTotBlocks; i++ ) { - maxEnergyChange = s_max( maxEnergyChange, pSubblockNrgChange[i] ); + maxEnergyChange = s_max( maxEnergyChange, extract_l( L_shl_sat( pSubblockNrgChange[i], sub( pSubblockNrgChange_exp[i], 28 ) ) ) ); // Q3 } move16(); @@ -669,18 +678,13 @@ void RunTransientDetection_ivas_fx( IF( GT_16( sub( q_input, pSubblockEnergies->q_firState ), shift ) ) { Scale_sig( input_fx, length, add( sub( pSubblockEnergies->q_firState, q_input ), shift ) ); // q_firState + shift -#ifdef FIX_ISSUE_1186 - q_input = add( pSubblockEnergies->q_firState, shift ); // q_firState + shift -#endif - pSubblockEnergies->firState1 = shl( pSubblockEnergies->firState1, shift ); // q_firState + shift + q_input = add( pSubblockEnergies->q_firState, shift ); // q_firState + shift + pSubblockEnergies->firState1 = shl( pSubblockEnergies->firState1, shift ); // q_firState + shift move16(); pSubblockEnergies->firState2 = shl( pSubblockEnergies->firState2, shift ); // q_firState + shift move16(); pSubblockEnergies->q_firState = add( pSubblockEnergies->q_firState, shift ); // q_firState + shift move16(); -#ifndef FIX_ISSUE_1186 - q_input = add( pSubblockEnergies->q_firState, shift ); // q_firState + shift -#endif } ELSE { @@ -706,11 +710,7 @@ void RunTransientDetection_ivas_fx( } /* Update subblock energies. */ -#ifdef MSAN_FIX Scale_sig( filteredInput_fx, length, sub( 0, q_input ) ); // q0 -#else - Scale_sig( filteredInput_fx, L_FRAME_MAX, 8 ); -#endif UpdateSubblockEnergies_ivas_fx( filteredInput_fx, length, pSubblockEnergies ); /* Run transient detectors. */ @@ -726,7 +726,7 @@ void RunTransientDetection_ivas_fx( e0_fx = dotp_fx( filteredInput_fx + /* length / 2 */ shr( length, 1 ), filteredInput_fx + /* length / 2 */ shr( length, 1 ), shr( pSubblockEnergies->pDelayBuffer->nSubblockSize, 1 ) /* pSubblockEnergies->pDelayBuffer->nSubblockSize / 2 */, &exp ); exp = sub( exp, 2 * 0 - 1 ); // Q = 2*0 + (30-exp), E = 31 - (2*0 + 30 - exp) = 1 + exp - 2*0 = exp - (2*0-1) e0_fx = BASOP_Util_Add_Mant32Exp( MIN_BLOCK_ENERGY_IVAS_FX_Q7 / 2, 31 - Q7, e0_fx, exp, &exp ); - e1_fx = BASOP_Util_Add_Mant32Exp( pSubblockEnergies->subblockNrg[pSubblockEnergies->nDelay + 4], 31 - 0, L_negate( e0_fx ), exp, &exp1 ); + e1_fx = BASOP_Util_Add_Mant32Exp( pSubblockEnergies->subblockNrg[pSubblockEnergies->nDelay + 4], 32, L_negate( e0_fx ), exp, &exp1 ); IF( BASOP_Util_Cmp_Mant32Exp( e1_fx, exp1, e0_fx, exp ) > 0 ) { pSubblockEnergies->ramp_up_flag = (UWord16) L_or( pSubblockEnergies->ramp_up_flag, 0x0001 ); @@ -875,7 +875,7 @@ void SetTCXModeInfo_ivas_fx( move16(); } } - tmp = BASOP_Util_Divide3216_Scale( ONE_IN_Q23, GetTCXAvgTemporalFlatnessMeasure_ivas_fx( (const TransientDetection *) hTranDet, NSUBBLOCKS, 0 ), &exp_diff ); + tmp = BASOP_Util_Divide3232_Scale( ONE_IN_Q21, GetTCXAvgTemporalFlatnessMeasure_ivas_fx( (const TransientDetection *) hTranDet, NSUBBLOCKS, 0 ), &exp_diff ); tmp = shl_sat( tmp, exp_diff ); // Q15 test(); IF( isLongTermTransient_fx( L_deposit_h( tmp ), &hTcxEnc->tfm_mem_fx ) && EQ_16( st->element_mode, IVAS_CPE_MDCT ) ) @@ -905,7 +905,7 @@ void SetTCXModeInfo_ivas_fx( *tcxModeOverlap = ALDO_WINDOW; move16(); } - tmp = BASOP_Util_Divide3216_Scale( ONE_IN_Q23, GetTCXAvgTemporalFlatnessMeasure_ivas_fx( (const TransientDetection *) hTranDet, NSUBBLOCKS, 0 ), &exp_diff ); + tmp = BASOP_Util_Divide3232_Scale( ONE_IN_Q21, GetTCXAvgTemporalFlatnessMeasure_ivas_fx( (const TransientDetection *) hTranDet, NSUBBLOCKS, 0 ), &exp_diff ); tmp = shl_sat( tmp, exp_diff ); // Q15 test(); IF( isLongTermTransient_fx( L_deposit_h( tmp ), &hTcxEnc->tfm_mem_fx ) && EQ_16( st->element_mode, IVAS_CPE_MDCT ) ) @@ -1122,9 +1122,10 @@ static void InitSubblockEnergies_ivas_fx( Word16 nFrameLength, Word16 nDelay, De assert( ( pDelayBuffer != NULL ) && ( pSubblockEnergies != NULL ) && ( pDelayBuffer->nSubblockSize * NSUBBLOCKS == nFrameLength ) && ( pDelayBuffer->nSubblockSize > 0 ) ); - set32_fx( pSubblockEnergies->subblockNrg, 107 /* 107.37 in Q0 */, nMaxBuffSize ); - set32_fx( pSubblockEnergies->accSubblockNrg, 107 /* 107.37 in Q0 */, nMaxBuffSize + 1 ); - set16_fx( pSubblockEnergies->subblockNrgChange, ONE_IN_Q3, nMaxBuffSize ); + set32_fx( pSubblockEnergies->subblockNrg, 54 /* 107.37 in Q(-1) */, nMaxBuffSize ); + set32_fx( pSubblockEnergies->accSubblockNrg, 54 /* 107.37 in Q(-1) */, nMaxBuffSize + 1 ); + set32_fx( pSubblockEnergies->subblockNrgChange_32fx, ONE_IN_Q15, nMaxBuffSize ); + set16_fx( pSubblockEnergies->subblockNrgChange_exp, 16, nMaxBuffSize ); IF( nDelay != 0 ) { pSubblockEnergies->nDelay = idiv1616( nDelay, pDelayBuffer->nSubblockSize ); @@ -1288,7 +1289,7 @@ static void UpdateDelayBuffer( Word16 const *input, Word16 nSamplesAvailable, De move16(); nDelay = pDelayBuffer->nDelay; - assert( ( nDelay >= 0 ) && ( nDelay <= (int) sizeof( pDelayBuffer->buffer ) / (int) sizeof( pDelayBuffer->buffer[0] ) ) ); + assert( ( nDelay >= 0 ) && ( nDelay <= (Word32) sizeof( pDelayBuffer->buffer ) / (Word32) sizeof( pDelayBuffer->buffer[0] ) ) ); assert( nSamplesAvailable <= NSUBBLOCKS * pDelayBuffer->nSubblockSize ); /* If this is not the last frame */ IF( EQ_16( nSamplesAvailable, imult1616( NSUBBLOCKS, pDelayBuffer->nSubblockSize ) ) ) @@ -1307,7 +1308,7 @@ static void UpdateSubblockEnergies( Word16 const *input, Word16 nSamplesAvailabl Word16 i; - assert( ( pSubblockEnergies->nDelay >= 0 ) && ( pSubblockEnergies->nDelay + NSUBBLOCKS <= (int) sizeof( pSubblockEnergies->subblockNrg ) / (int) sizeof( pSubblockEnergies->subblockNrg[0] ) ) ); + assert( ( pSubblockEnergies->nDelay >= 0 ) && ( pSubblockEnergies->nDelay + NSUBBLOCKS <= (Word32) sizeof( pSubblockEnergies->subblockNrg ) / (Word32) sizeof( pSubblockEnergies->subblockNrg[0] ) ) ); assert( pSubblockEnergies->nPartialDelay <= pSubblockEnergies->pDelayBuffer->nDelay ); /* At least one block delay is required when subblock energy change is required */ assert( pSubblockEnergies->nDelay >= 1 ); @@ -1332,7 +1333,7 @@ static void UpdateSubblockEnergies_ivas_fx( Word16 const *input, Word16 nSamples Word16 i; - assert( ( pSubblockEnergies->nDelay >= 0 ) && ( pSubblockEnergies->nDelay + NSUBBLOCKS <= (int) sizeof( pSubblockEnergies->subblockNrg ) / (int) sizeof( pSubblockEnergies->subblockNrg[0] ) ) ); + assert( ( pSubblockEnergies->nDelay >= 0 ) && ( pSubblockEnergies->nDelay + NSUBBLOCKS <= (Word32) sizeof( pSubblockEnergies->subblockNrg ) / (Word32) sizeof( pSubblockEnergies->subblockNrg[0] ) ) ); assert( pSubblockEnergies->nPartialDelay <= pSubblockEnergies->pDelayBuffer->nDelay ); /* At least one block delay is required when subblock energy change is required */ assert( pSubblockEnergies->nDelay >= 1 ); @@ -1340,12 +1341,14 @@ static void UpdateSubblockEnergies_ivas_fx( Word16 const *input, Word16 nSamples /* Shift old subblock energies */ FOR( i = 0; i < pSubblockEnergies->nDelay; i++ ) { + move32(); move32(); move32(); move16(); pSubblockEnergies->subblockNrg[i] = pSubblockEnergies->subblockNrg[i + NSUBBLOCKS]; pSubblockEnergies->accSubblockNrg[i] = pSubblockEnergies->accSubblockNrg[i + NSUBBLOCKS]; - pSubblockEnergies->subblockNrgChange[i] = pSubblockEnergies->subblockNrgChange[i + NSUBBLOCKS]; + pSubblockEnergies->subblockNrgChange_32fx[i] = pSubblockEnergies->subblockNrgChange_32fx[i + NSUBBLOCKS]; + pSubblockEnergies->subblockNrgChange_exp[i] = pSubblockEnergies->subblockNrgChange_exp[i + NSUBBLOCKS]; } /* Compute filtered subblock energies for the new samples */ @@ -1492,12 +1495,13 @@ static void CalculateSubblockEnergies_ivas_fx( Word16 const *input, Word16 nSamp Word16 facAccSubblockNrg; Word32 *pSubblockNrg; Word32 *pAccSubblockNrg; - Word16 *pSubblockNrgChange; + Word32 *pSubblockNrgChange; + Word16 *pSubblockNrgChange_exp; Word32 *pAccSubblockTmp; Word16 nWindows; - Word16 w, k, k2, tmp; + Word16 w, k, k2; Word32 w0, w1; - Word32 accu; + Word64 accu; move16(); pDelayBuffer = pSubblockEnergies->pDelayBuffer; @@ -1513,7 +1517,8 @@ static void CalculateSubblockEnergies_ivas_fx( Word16 const *input, Word16 nSamp delayBuffer = &pDelayBuffer->buffer[sub( pDelayBuffer->nDelay, nPartialDelay )]; pSubblockNrg = &pSubblockEnergies->subblockNrg[nDelay]; pAccSubblockNrg = &pSubblockEnergies->accSubblockNrg[nDelay]; - pSubblockNrgChange = &pSubblockEnergies->subblockNrgChange[nDelay]; + pSubblockNrgChange = &pSubblockEnergies->subblockNrgChange_32fx[nDelay]; + pSubblockNrgChange_exp = &pSubblockEnergies->subblockNrgChange_exp[nDelay]; /* nWindows = (nSamplesAvailable + nPartialDelay) / nSubblockSize */ nWindows = shr( div_s( add( nSamplesAvailable, nPartialDelay ), shl( nSubblockSize, 7 ) ), 8 ); @@ -1522,45 +1527,35 @@ static void CalculateSubblockEnergies_ivas_fx( Word16 const *input, Word16 nSamp IF( nWindows > 0 ) { /* Process left over samples from the previous frame. */ - accu = 107; // 107.37f in Q0 - move32(); - assert( ( SUBBLOCK_NRG_E & 1 ) == 0 ); + accu = 215; // 107.37f in Q1 + move64(); FOR( k = 0; k < nPartialDelay; k++ ) { - tmp = delayBuffer[k]; // Q0 - move16(); - accu = L_mac0( accu, tmp, tmp ); // Q0 + accu = W_mac_16_16( accu, delayBuffer[k], delayBuffer[k] ); // Q1 } /* Process new samples in the 0. subblock. */ - w = sub( nSubblockSize, nPartialDelay ); - assert( ( SUBBLOCK_NRG_E & 1 ) == 0 ); - FOR( k = 0; k < w; k++ ) + FOR( k = 0; k < ( nSubblockSize - nPartialDelay ); k++ ) { - tmp = input[k]; // Q0 - move16(); - accu = L_mac0_sat( accu, tmp, tmp ); // Q0 + accu = W_mac_16_16( accu, input[k], input[k] ); // Q1 } - pSubblockNrg[0] = accu; // Q0 + pSubblockNrg[0] = W_shl_sat_l( accu, -2 ); // Q(-1) move32(); /* Set accumulated subblock energy at this point. */ UpdatedAndStoreAccWindowNrg( pSubblockNrg[0], pAccSubblockTmp, facAccSubblockNrg, &pAccSubblockNrg[0] ); FOR( w = 1; w < nWindows; w++ ) { - accu = 107; // 107.37f in Q0 - move32(); + accu = 215; // 107.37f in Q1 + move64(); /* Process new samples in the w. subblock. */ k2 = add( k, nSubblockSize ); - assert( ( SUBBLOCK_NRG_E & 1 ) == 0 ); FOR( ; k < k2; k++ ) { - tmp = input[k]; // Q0 - move16(); - accu = L_mac0_sat( accu, tmp, tmp ); // Q0 + accu = W_mac_16_16( accu, input[k], input[k] ); // Q1 } - pSubblockNrg[w] = accu; // Q0 + pSubblockNrg[w] = W_shl_sat_l( accu, -2 ); // Q(-1) move32(); /* Set accumulated subblock energy at this point. */ UpdatedAndStoreAccWindowNrg( pSubblockNrg[w], pAccSubblockTmp, facAccSubblockNrg, &pAccSubblockNrg[w] ); @@ -1574,19 +1569,16 @@ static void CalculateSubblockEnergies_ivas_fx( Word16 const *input, Word16 nSamp IF( GT_32( w0, w1 ) ) { - k2 = BASOP_Util_Divide3232_uu_1616_Scale( w0, w1, &k ); + pSubblockNrgChange[w] = BASOP_Util_Divide3232_Scale_cadence( w0, w1, &k ); + pSubblockNrgChange_exp[w] = k; } ELSE { - k2 = BASOP_Util_Divide3232_uu_1616_Scale( w1, w0, &k ); + pSubblockNrgChange[w] = BASOP_Util_Divide3232_Scale_cadence( w1, w0, &k ); + pSubblockNrgChange_exp[w] = k; } + move32(); move16(); - pSubblockNrgChange[w] = MAX_16; - IF( LT_16( k, 12 ) ) - { - move16(); - pSubblockNrgChange[w] = shr_r( k2, sub( 12, k ) ); - } } } } @@ -1743,7 +1735,7 @@ Word16 transient_analysis_ivas_fx( /* Forward attack analysis */ FOR( i = -2; i < 7; i++ ) { - IF( BASOP_Util_Cmp_Mant32Exp( hTranDet->subblockEnergies.subblockNrg[nRelativeDelay + i], 31, Mpy_32_16_1( hTranDet->subblockEnergies.accSubblockNrg[nRelativeDelay + i], thr_fwd_fx ), ( 31 + 4 ) ) > 0 ) + IF( BASOP_Util_Cmp_Mant32Exp( hTranDet->subblockEnergies.subblockNrg[nRelativeDelay + i], 32, Mpy_32_16_1( hTranDet->subblockEnergies.accSubblockNrg[nRelativeDelay + i], thr_fwd_fx ), ( 32 + 4 ) ) > 0 ) { prel_force_td = s_or( prel_force_td, 0x0001 ); } @@ -1780,7 +1772,7 @@ Word16 transient_analysis_ivas_fx( /* -3 check */ test(); - IF( BASOP_Util_Cmp_Mant32Exp( pSubblockNrg[1 + offset], 31, Mpy_32_16_1( accSubblockNrgRev_fx[1], thr_rev_fx ), ( 31 + 4 ) ) > 0 ) + IF( BASOP_Util_Cmp_Mant32Exp( pSubblockNrg[1 + offset], 32, Mpy_32_16_1( accSubblockNrgRev_fx[1], thr_rev_fx ), ( 32 + 4 ) ) > 0 ) { prel_force_td = s_or( prel_force_td, 0x0002 ); move16(); @@ -1788,10 +1780,10 @@ Word16 transient_analysis_ivas_fx( /* -4 check */ test(); - IF( prel_force_td == 0 && BASOP_Util_Cmp_Mant32Exp( pSubblockNrg[offset], 31, Mpy_32_16_1( accSubblockNrgRev_fx[0], thr_rev_fx ), ( 31 + 4 ) ) > 0 ) + IF( prel_force_td == 0 && BASOP_Util_Cmp_Mant32Exp( pSubblockNrg[offset], 32, Mpy_32_16_1( accSubblockNrgRev_fx[0], thr_rev_fx ), ( 32 + 4 ) ) > 0 ) { - IF( BASOP_Util_Cmp_Mant32Exp( pSubblockNrg[offset], 31, Mpy_32_16_1( accSubblockNrgRev_fx[0], add( thr_rev_fx, THR_LOW_STEP_FX ) ), ( 31 + 4 ) ) > 0 ) + IF( BASOP_Util_Cmp_Mant32Exp( pSubblockNrg[offset], 32, Mpy_32_16_1( accSubblockNrgRev_fx[0], add( thr_rev_fx, THR_LOW_STEP_FX ) ), ( 32 + 4 ) ) > 0 ) { prel_force_td = s_or( prel_force_td, 0x0004 ); } @@ -1813,17 +1805,17 @@ Word16 transient_analysis_ivas_fx( *-------------------------------------------------------------------*/ void set_transient_stereo_fx( CPE_ENC_HANDLE hCPE, /* i : CPE structure */ - Word16 currFlatness[] /* i/o: current flatness */ + Word32 currFlatness[] /* i/o: current flatness */ ) { Word16 n, attackIsPresent; - Word16 currFlatnessMax; + Word32 currFlatnessMax; Encoder_State **sts; sts = hCPE->hCoreCoder; /* for DFT/TD based stereo ,map avg. flatness to individual stereo channels (M/S or X/Y) */ - maximum_fx( currFlatness, CPE_CHANNELS, &currFlatnessMax ); + maximum_32_fx( currFlatness, CPE_CHANNELS, &currFlatnessMax ); attackIsPresent = 0; move16(); @@ -1832,7 +1824,7 @@ void set_transient_stereo_fx( attackIsPresent = s_max( attackIsPresent, sts[n]->hTranDet->transientDetector.bIsAttackPresent ); } - set16_fx( currFlatness, currFlatnessMax, CPE_CHANNELS ); + set32_fx( currFlatness, currFlatnessMax, CPE_CHANNELS ); FOR( n = 0; n < CPE_CHANNELS; n++ ) { @@ -1860,8 +1852,8 @@ void set_transient_stereo_fx( move16(); FOR( n = 0; n < CPE_CHANNELS; n++ ) { - hCPE->hStereoDft->hItd->currFlatness_fx = s_max( hCPE->hStereoDft->hItd->currFlatness_fx, currFlatness[n] ); - move16(); + hCPE->hStereoDft->hItd->currFlatness_fx = L_max( hCPE->hStereoDft->hItd->currFlatness_fx, currFlatness[n] ); + move32(); } } @@ -1871,8 +1863,8 @@ void set_transient_stereo_fx( move16(); FOR( n = 0; n < CPE_CHANNELS; n++ ) { - hCPE->hStereoMdct->hItd->currFlatness_fx = s_max( hCPE->hStereoMdct->hItd->currFlatness_fx, currFlatness[n] ); - move16(); + hCPE->hStereoMdct->hItd->currFlatness_fx = L_max( hCPE->hStereoMdct->hItd->currFlatness_fx, currFlatness[n] ); + move32(); } } diff --git a/lib_enc/transition_enc_fx.c b/lib_enc/transition_enc_fx.c index 0089fc745e46d2fb7a92aac9126e0ed66083faff..6718552c50c293060c7af36aa7625249778aeb3b 100644 --- a/lib_enc/transition_enc_fx.c +++ b/lib_enc/transition_enc_fx.c @@ -7,7 +7,6 @@ #include "cnst.h" /* Common constants */ #include "rom_com_fx.h" /* Static table prototypes */ #include "rom_com.h" /* Static table prototypes */ -#include "prot.h" /* Function prototypes */ #include "prot_fx.h" /* Function prototypes */ #include "prot_fx_enc.h" /* Function prototypes */ @@ -214,11 +213,7 @@ void transition_enc_fx( { /* this is called only to compute unused bits */ config_acelp1( ENC, st_fx->total_brate, st_fx->core_brate, st_fx->core, st_fx->extl, st_fx->extl_brate, -#ifdef NONBE_FIX_GSC_BSTR L_FRAME, -1, &( st_fx->acelp_cfg ), hBstr->nb_bits_tot, TRANSITION, -1, TC_0_0, 3, NULL, unbits_ACELP, -#else - L_FRAME, -1, &( st_fx->acelp_cfg ), hBstr->nb_bits_tot, TRANSITION, TC_0_0, 3, NULL, unbits_ACELP, -#endif st_fx->element_mode, &i /*dummy*/, 0 /*tdm_lp_reuse_flag*/, 0 /*tdm_low_rate_mode*/, st_fx->idchan, st_fx->active_fr_cnt_fx, 0 /*tdm_Pitch_reuse_flag*/, st_fx->tdm_LRTD_flag, 0 /*GSC_IVAS_mode*/ ); } @@ -330,11 +325,7 @@ void transition_enc_fx( IF( LE_16( sub( i_subfr, *tc_subfr ), L_SUBFR ) ) { config_acelp1( ENC, st_fx->total_brate, st_fx->core_brate, st_fx->core, st_fx->extl, st_fx->extl_brate, -#ifdef NONBE_FIX_GSC_BSTR st_fx->L_frame, -1, &( st_fx->acelp_cfg ), hBstr->nb_bits_tot, TRANSITION, -1, *tc_subfr, 2, NULL, -#else - st_fx->L_frame, -1, &( st_fx->acelp_cfg ), hBstr->nb_bits_tot, TRANSITION, *tc_subfr, 2, NULL, -#endif unbits_ACELP, st_fx->element_mode, &i /*dummy*/, 0 /*tdm_lp_reuse_flag*/, 0 /*tdm_low_rate_mode*/, st_fx->idchan, st_fx->active_fr_cnt_fx, 0 /*tdm_Pitch_reuse_flag*/, st_fx->tdm_LRTD_flag, 0 /*GSC_IVAS_mode*/ ); } /*-----------------------------------------------------------------* @@ -398,7 +389,7 @@ void transition_enc_fx( /* 7bit ENCODER */ /* index = (*T0-pit_start)*2 + *T0_frac/2;*/ index = add( shl( sub( *T0, pit_start ), 1 ), shr( *T0_frac, 1 ) ); - push_indice_fx( hBstr, IND_PITCH, index, nBits ); + push_indice( hBstr, IND_PITCH, index, nBits ); /* Find the adaptive codebook vector - ACELP long-term prediction */ pred_lt4( &exc_fx[i_subfr], &exc_fx[i_subfr], *T0, *T0_frac, L_SUBFR + 1, pitch_inter4_2, L_INTERPOL2, PIT_UP_SAMP ); @@ -447,7 +438,7 @@ void transition_enc_fx( limit_T0_fx( L_FRAME, 8, pit_flag, limit_flag, *T0, 0, T0_min, T0_max ); /* find T0_min and T0_max for delta search */ index = add( shl( sub( *T0, pit_start ), 1 ), shr( *T0_frac, 1 ) ); - push_indice_fx( hBstr, IND_PITCH, index, nBits ); + push_indice( hBstr, IND_PITCH, index, nBits ); /* Find the adaptive codebook vector - ACELP long-term prediction */ pred_lt4( &exc_fx[i_subfr], &exc_fx[i_subfr], *T0, *T0_frac, L_SUBFR + 1, pitch_inter4_2, L_INTERPOL2, PIT_UP_SAMP ); @@ -511,7 +502,7 @@ void transition_enc_fx( *T0_frac = 0; move16(); } - push_indice_fx( hBstr, IND_PITCH, index, nBits ); + push_indice( hBstr, IND_PITCH, index, nBits ); /* Find the adaptive codebook vector - ACELP long-term prediction */ pred_lt4( &exc_fx[i_subfr], &exc_fx[i_subfr], *T0, *T0_frac, L_SUBFR + 1, pitch_inter4_2, L_INTERPOL2, PIT_UP_SAMP ); @@ -535,7 +526,7 @@ void transition_enc_fx( *T0 = pitch_fr4_fx( &exc_fx[i_subfr], xn_fx, h1_fx, *T0_min, *T0_max, T0_frac, pit_flag, limit_flag, PIT_MIN, PIT_FR1_8b, L_FRAME, L_SUBFR ); move16(); index = delta_pit_enc_fx( 2, *T0, *T0_frac, *T0_min ); - push_indice_fx( hBstr, IND_PITCH, index, nBits ); + push_indice( hBstr, IND_PITCH, index, nBits ); /* Find the adaptive codebook vector - ACELP long-term prediction */ pred_lt4( &exc_fx[i_subfr], &exc_fx[i_subfr], *T0, *T0_frac, L_SUBFR + 1, pitch_inter4_2, L_INTERPOL2, PIT_UP_SAMP ); @@ -616,7 +607,7 @@ void transition_enc_fx( IF( EQ_16( lp_flag, NORMAL_OPERATION ) ) { - push_indice_fx( hBstr, IND_LP_FILT_SELECT, lp_select, 1 ); + push_indice( hBstr, IND_LP_FILT_SELECT, lp_select, 1 ); } } @@ -777,7 +768,7 @@ void transition_enc_fx( /*index = (*T0)*2 + ((*T0_frac)>>1) - (PIT16k_FR2_TC0_2SUBFR*2) + ((PIT16k_FR2_TC0_2SUBFR-PIT16k_MIN)*4);*/ index = add( sub( add( shl( *T0, 1 ), shr( *T0_frac, 1 ) ), ( PIT16k_FR2_TC0_2SUBFR * 2 ) ), ( PIT16k_FR2_TC0_2SUBFR - PIT16k_MIN ) * 4 ); } - push_indice_fx( hBstr, IND_PITCH, index, nBits ); + push_indice( hBstr, IND_PITCH, index, nBits ); } ELSE IF( EQ_16( nBits, 6 ) ) { @@ -786,7 +777,7 @@ void transition_enc_fx( move16(); index = delta_pit_enc_fx( 4, *T0, *T0_frac, *T0_min ); - push_indice_fx( hBstr, IND_PITCH, index, nBits ); + push_indice( hBstr, IND_PITCH, index, nBits ); } IF( EQ_16( nBits, 6 ) ) { @@ -812,8 +803,8 @@ void transition_enc_fx( *Jopt_flag = 0; move16(); - set16_fx( &exc_fx[i_subfr], 0, L_SUBFR + 1 ); /* set excitation for current subrame to 0 */ - push_indice_fx( hBstr, IND_LP_FILT_SELECT, 0, 1 ); /* this bit is actually not needed */ + set16_fx( &exc_fx[i_subfr], 0, L_SUBFR + 1 ); /* set excitation for current subrame to 0 */ + push_indice( hBstr, IND_LP_FILT_SELECT, 0, 1 ); /* this bit is actually not needed */ Copy( xn_fx, xn2_fx, L_SUBFR ); /* target vector for codebook search */ set16_fx( y1_fx, 0, L_SUBFR ); /* set filtered adaptive excitation to 0 */ @@ -848,7 +839,7 @@ void transition_enc_fx( IF( EQ_16( lp_flag, NORMAL_OPERATION ) ) { - push_indice_fx( hBstr, IND_LP_FILT_SELECT, lp_select, 1 ); + push_indice( hBstr, IND_LP_FILT_SELECT, lp_select, 1 ); } *Jopt_flag = 1; @@ -1043,11 +1034,7 @@ void transition_enc_ivas_fx( { /* this is called only to compute unused bits */ config_acelp1( ENC, st_fx->total_brate, st_fx->core_brate, st_fx->core, st_fx->extl, st_fx->extl_brate, -#ifdef NONBE_FIX_GSC_BSTR L_FRAME, -1, &( st_fx->acelp_cfg ), hBstr->nb_bits_tot, TRANSITION, -1, TC_0_0, 3, NULL, unbits_ACELP, -#else - L_FRAME, -1, &( st_fx->acelp_cfg ), hBstr->nb_bits_tot, TRANSITION, TC_0_0, 3, NULL, unbits_ACELP, -#endif st_fx->element_mode, &i /*dummy*/, 0 /*tdm_lp_reuse_flag*/, 0 /*tdm_low_rate_mode*/, st_fx->idchan, st_fx->active_fr_cnt_fx, 0 /*tdm_Pitch_reuse_flag*/, st_fx->tdm_LRTD_flag, 0 /*GSC_IVAS_mode*/ ); } @@ -1159,11 +1146,7 @@ void transition_enc_ivas_fx( IF( LE_16( sub( i_subfr, *tc_subfr ), L_SUBFR ) ) { config_acelp1( ENC, st_fx->total_brate, st_fx->core_brate, st_fx->core, st_fx->extl, st_fx->extl_brate, -#ifdef NONBE_FIX_GSC_BSTR st_fx->L_frame, -1, &( st_fx->acelp_cfg ), hBstr->nb_bits_tot, TRANSITION, -1, *tc_subfr, 2, NULL, -#else - st_fx->L_frame, -1, &( st_fx->acelp_cfg ), hBstr->nb_bits_tot, TRANSITION, *tc_subfr, 2, NULL, -#endif unbits_ACELP, st_fx->element_mode, &i /*dummy*/, 0 /*tdm_lp_reuse_flag*/, 0 /*tdm_low_rate_mode*/, st_fx->idchan, st_fx->active_fr_cnt_fx, 0 /*tdm_Pitch_reuse_flag*/, st_fx->tdm_LRTD_flag, 0 /*GSC_IVAS_mode*/ ); } /*-----------------------------------------------------------------* @@ -1903,7 +1886,7 @@ static void tc_enc_fx( /* write pitch index */ IF( ( GE_16( *T0, L_SUBFR ) ) && ( NE_16( *tc_subfr, 3 * L_SUBFR ) ) ) { - push_indice_fx( hBstr, IND_PITCH, 0, nBits ); + push_indice( hBstr, IND_PITCH, 0, nBits ); } ELSE IF( EQ_16( *tc_subfr, 3 * L_SUBFR ) ) { @@ -1915,7 +1898,7 @@ static void tc_enc_fx( { index = abs_pit_enc_fx( 2, 0, *T0, *T0_frac ); } - push_indice_fx( hBstr, IND_PITCH, index, nBits ); + push_indice( hBstr, IND_PITCH, index, nBits ); limit_T0_fx( L_FRAME, 8, 0, 0, *T0, 0, T0_min, T0_max ); } @@ -1924,12 +1907,12 @@ static void tc_enc_fx( IF( EQ_16( nBits, 6 ) ) { index = delta_pit_enc_fx( 2, *T0, *T0_frac, PIT_MIN - 1 ); - push_indice_fx( hBstr, IND_PITCH, index, nBits ); + push_indice( hBstr, IND_PITCH, index, nBits ); } ELSE { index = delta_pit_enc_fx( 0, *T0, *T0_frac, PIT_MIN - 1 ); - push_indice_fx( hBstr, IND_PITCH, index, nBits ); + push_indice( hBstr, IND_PITCH, index, nBits ); } } } @@ -1943,13 +1926,13 @@ static void tc_enc_fx( ELSE IF( EQ_16( nBits, 6 ) ) { index = add( shl( sub( *T0, PIT16k_MIN ), 1 ), shr( *T0_frac, 1 ) ); - push_indice_fx( hBstr, IND_PITCH, index, nBits ); + push_indice( hBstr, IND_PITCH, index, nBits ); } } - push_indice_fx( hBstr, IND_TC_IMP_SHAPE, imp_shape, 3 ); - push_indice_fx( hBstr, IND_TC_IMP_POS, imp_pos, 6 ); - push_indice_fx( hBstr, IND_TC_IMP_SIGN, pitch_sign_fx, 1 ); - push_indice_fx( hBstr, IND_TC_IMP_GAIN, pitch_index, 3 ); + push_indice( hBstr, IND_TC_IMP_SHAPE, imp_shape, 3 ); + push_indice( hBstr, IND_TC_IMP_POS, imp_pos, 6 ); + push_indice( hBstr, IND_TC_IMP_SIGN, pitch_sign_fx, 1 ); + push_indice( hBstr, IND_TC_IMP_GAIN, pitch_index, 3 ); *position = add( imp_pos, i_subfr ); move16(); diff --git a/lib_enc/updt_enc_fx.c b/lib_enc/updt_enc_fx.c index 77d7f538ff3c5d97f9715eb80b15cd25ff363d5d..fb2a6215b4509732b14ab9dcada955c97c4b8e3d 100644 --- a/lib_enc/updt_enc_fx.c +++ b/lib_enc/updt_enc_fx.c @@ -332,7 +332,7 @@ void updt_IO_switch_enc_fx( * * Common updates for MODE1 and MODE2 *-------------------------------------------------------------------*/ -#if 1 + void updt_enc_common_fx( Encoder_State *st, /* i/o: encoder state structure */ const Word16 Etot, /* i : total energy */ @@ -343,27 +343,24 @@ void updt_enc_common_fx( * Updates - main main codec parameters *---------------------------------------------------------------------*/ - st->last_sr_core = st->sr_core; //## + st->last_sr_core = st->sr_core; move32(); st->last_codec_mode = st->codec_mode; move16(); - st->last_L_frame = st->L_frame; // + st->last_L_frame = st->L_frame; move16(); st->last_core = st->core; move16(); st->last_core_brate = st->core_brate; move32(); -#ifdef IVAS_CODE - st->last_bits_frame_nominal_fx = st->bits_frame_nominal; -#endif st->last_total_brate = st->total_brate; move32(); - st->last_extl = st->extl; // + st->last_extl = st->extl; move16(); - st->last_input_bwidth = st->input_bwidth; //## + st->last_input_bwidth = st->input_bwidth; move16(); - st->last_bwidth = st->bwidth; //## + st->last_bwidth = st->bwidth; move16(); st->hNoiseEst->Etot_last_fx = Etot; move16(); @@ -425,18 +422,12 @@ void updt_enc_common_fx( move16(); move16(); -#ifdef IVAS_CODE test(); test(); test(); IF( ( EQ_16( st->element_mode, IVAS_SCE ) || EQ_16( st->element_mode, IVAS_CPE_DFT ) || EQ_16( st->element_mode, IVAS_CPE_TD ) ) && GE_16( st->hTdCngEnc->act_cnt2, MIN_ACT_CNG_UPD ) ) { - st->hTdCngEnc->CNG_att_fx = 0; - move16(); - - apply_scale( &st->hTdCngEnc->CNG_att, st->hFdCngEnc->hFdCngCom->CngBandwidth, st->hFdCngEnc->hFdCngCom->CngBitrate, scaleTableStereo, SIZE_SCALE_TABLE_STEREO ); } -#endif } } @@ -550,17 +541,14 @@ void updt_enc_common_fx( /*---------------------------------------------------------------------* * Other updates *---------------------------------------------------------------------*/ -#ifdef IVAS_CODE + test(); IF( GT_16( st->element_mode, EVS_MONO ) && st->hTcxEnc != NULL ) { - st->hTcxEnc->tcxltp_norm_corr_mem = st->hTcxEnc->tcxltp_norm_corr_past; - move16(); } -#endif return; } -#endif + void updt_enc_common_ivas_fx( Encoder_State *st, /* i/o: encoder state structure */ diff --git a/lib_enc/vad_fx.c b/lib_enc/vad_fx.c index 12ec319331a96478406ffe166a5b2e7a1906b949..1fdcb94fac335e5852dc782acc3a47dd2c9705c3 100644 --- a/lib_enc/vad_fx.c +++ b/lib_enc/vad_fx.c @@ -1296,19 +1296,9 @@ Word16 wb_vad_fx( L_tmp = L_shl( L_mult( sub( hNoiseEst->Etot_v_h2_fx, nv_ofs ), nv ), 7 ); /* Q8+Q8+1 +7 --> Q24 */ L_tmp = L_mac( L_tmp, nc, (Word16) 32767 ); /* Q8+Q15+1 = Q24 */ thr1 = mac_r( L_tmp, lp_snr, nk ); /* Q8+Q15+1 - 16 --> Q8 */ -#ifdef IVAS_CODE - IF( st->element_mode > EVS_MONO && LT_16( hNoiseEst->first_noise_updt_cnt, 100 ) ) - { - /* lower threshold during warmup time */ - thr1 -= 10.0f; - vad_thr = 0.f; - } -#endif + IF( GT_16( lp_snr, (Word16) 20 * ( 1 << 8 ) ) ) /* if (lp_snr > 20.0f )*/ { -#ifdef IVAS_CODE - IF( st->element_mode == EVS_MONO || GT_16( hNoiseEst->first_noise_updt_cnt, 100 ) ) -#endif { /* thr1 = thr1 + 0.3f * (lp_snr - 20.0f); */ thr1 = add( thr1, mult( 9830, sub( lp_snr, (Word16) 20 * ( 1 << 8 ) ) ) ); /* Q15*Q8+1 -16 --> Q8 */ diff --git a/lib_enc/voiced_enc_fx.c b/lib_enc/voiced_enc_fx.c index b0dba61de4752b160164a6ad70f5612adcc6a100..8081b29097d39ced20004f5a95a6403c7e39e297 100644 --- a/lib_enc/voiced_enc_fx.c +++ b/lib_enc/voiced_enc_fx.c @@ -1156,7 +1156,7 @@ ivas_error ppp_voiced_encoder_fx( { Q_delta_lag = add( delta_lag_E, 11 ); /* to make it positive always */ - push_indice_fx( hBstr, IND_DELTALAG, Q_delta_lag, 5 ); + push_indice( hBstr, IND_DELTALAG, Q_delta_lag, 5 ); } WIsyn_fx( *dtfs_temp_fx, CURRP_Q_E_FX, lpc2_fx, &( hSC_VBR->ph_offset_E_fx ), out_fx, L_FRAME, 0, S_fx, C_fx, diff --git a/lib_isar/isar_NoiseGen.c b/lib_isar/isar_NoiseGen.c index b872e89c93ef6cc5858042ff310fb7b4de03bb60..7273b0e817dc4014bbd0e76cea9c127b4ec754c6 100644 --- a/lib_isar/isar_NoiseGen.c +++ b/lib_isar/isar_NoiseGen.c @@ -34,7 +34,7 @@ #include "options.h" #ifdef SPLIT_REND_WITH_HEAD_ROT #include -#include "prot.h" +#include "prot_fx.h" #include "isar_lcld_prot.h" #include "wmc_auto.h" diff --git a/lib_isar/isar_PerceptualModel.c b/lib_isar/isar_PerceptualModel.c index ad3329500674fcbac0b398dd9f8330e8d3c8e3ab..16558dd36f2532f3dd185d39e82492448dc9157c 100644 --- a/lib_isar/isar_PerceptualModel.c +++ b/lib_isar/isar_PerceptualModel.c @@ -34,7 +34,7 @@ #include "options.h" #ifdef SPLIT_REND_WITH_HEAD_ROT #include "isar_lcld_prot.h" -#include "prot.h" +#include "prot_fx.h" #include "isar_lcld_rom_tables.h" #include #include "wmc_auto.h" diff --git a/lib_isar/isar_PredDecoder.c b/lib_isar/isar_PredDecoder.c index c55a8801150351ee5bec1282fe4a9180ce3af154..b30a6e0a8c1fedd176a9cfd606d39e69357c43f3 100644 --- a/lib_isar/isar_PredDecoder.c +++ b/lib_isar/isar_PredDecoder.c @@ -34,7 +34,7 @@ #include "options.h" #ifdef SPLIT_REND_WITH_HEAD_ROT #include -#include "prot.h" +#include "prot_fx.h" #include "isar_prot.h" #include "isar_lcld_prot.h" #include "isar_lcld_rom_tables.h" diff --git a/lib_isar/isar_PredEncoder.c b/lib_isar/isar_PredEncoder.c index 85dc5f8f8d3e4fcf58e684c06f2bc10a8d2a08b2..0cd32b70cb625f7d6ea0e22b8a864cebf15c5d60 100644 --- a/lib_isar/isar_PredEncoder.c +++ b/lib_isar/isar_PredEncoder.c @@ -36,7 +36,7 @@ #include #include "isar_lcld_prot.h" #include "isar_lcld_rom_tables.h" -#include "prot.h" +#include "prot_fx.h" #include "isar_prot.h" #include "wmc_auto.h" #include "prot_fx.h" diff --git a/lib_isar/isar_RMSEnvGrouping.c b/lib_isar/isar_RMSEnvGrouping.c index 3c40cb0963503e34d455286301ca51ee823fd8d3..9b5de2574e70af2087769539a52211f7ceb26bdf 100644 --- a/lib_isar/isar_RMSEnvGrouping.c +++ b/lib_isar/isar_RMSEnvGrouping.c @@ -36,7 +36,7 @@ #include "options.h" #ifdef SPLIT_REND_WITH_HEAD_ROT #include -#include "prot.h" +#include "prot_fx.h" #include "isar_lcld_prot.h" #include "isar_lcld_rom_tables.h" #include "wmc_auto.h" diff --git a/lib_isar/isar_lc3plus_dec.c b/lib_isar/isar_lc3plus_dec.c index bad857764b17ed4445758655f5f32877caff06f6..fd1adb157297496d5ee95e28015732691cbcbd51 100644 --- a/lib_isar/isar_lc3plus_dec.c +++ b/lib_isar/isar_lc3plus_dec.c @@ -32,8 +32,8 @@ #include #include "options.h" -#include "prot.h" -#include "ivas_prot.h" +#include "prot_fx.h" +#include "ivas_prot_fx.h" #include "isar_lc3plus_dec.h" #include "isar_lc3plus_common.h" #include "lc3.h" diff --git a/lib_isar/isar_lc3plus_enc.c b/lib_isar/isar_lc3plus_enc.c index 2f9ab6f0173fc96152d2d6977b9284ca82ba244d..08ec7c0a8b120ac8ecf95918e806ad3b2012c2cb 100644 --- a/lib_isar/isar_lc3plus_enc.c +++ b/lib_isar/isar_lc3plus_enc.c @@ -34,7 +34,7 @@ #include "isar_lc3plus_common.h" #include "lc3.h" #include "ivas_error_utils.h" -#include "prot.h" +#include "prot_fx.h" #include "wmc_auto.h" #include "options.h" diff --git a/lib_isar/isar_lcld_decoder.c b/lib_isar/isar_lcld_decoder.c index 682176a91102a5fba37845a2887b6bf387446869..a64a12aead2cf63dcd1e648ce57fb1e6fd6cdfbf 100644 --- a/lib_isar/isar_lcld_decoder.c +++ b/lib_isar/isar_lcld_decoder.c @@ -35,7 +35,7 @@ #ifdef SPLIT_REND_WITH_HEAD_ROT #include "isar_lcld_prot.h" #include "isar_lcld_rom_tables.h" -#include "prot.h" +#include "prot_fx.h" #include #include "isar_prot.h" #include "wmc_auto.h" diff --git a/lib_isar/isar_lcld_encoder.c b/lib_isar/isar_lcld_encoder.c index b9c60b8d4440e573934cdfc841293233238d8079..48445d08024b8b01cefa578719ab31a79441988f 100644 --- a/lib_isar/isar_lcld_encoder.c +++ b/lib_isar/isar_lcld_encoder.c @@ -37,7 +37,7 @@ #include #include "isar_lcld_prot.h" #include "isar_lcld_rom_tables.h" -#include "prot.h" +#include "prot_fx.h" #include "prot_fx.h" #include "isar_prot.h" #include "wmc_auto.h" diff --git a/lib_isar/isar_lcld_prot.h b/lib_isar/isar_lcld_prot.h index fffeb6c5ccf92bfea57849a1e8329054dd02d453..49e03f5ef5fc1d31a475e63bcc787beef25bf58a 100644 --- a/lib_isar/isar_lcld_prot.h +++ b/lib_isar/isar_lcld_prot.h @@ -38,7 +38,6 @@ #include "typedef.h" #include "common_api_types.h" #include "isar_lcld_rom_tables.h" -// #include "prot.h" /* clang-format off */ typedef struct LCLD_ENCODER LCLDEncoder; diff --git a/lib_isar/isar_lcld_rom_tables.c b/lib_isar/isar_lcld_rom_tables.c index 3b35a32823ab4f10eeee5f2c072bece8b8545dec..8ecf743363a2a4de7584df44b28eb841e83809f0 100644 --- a/lib_isar/isar_lcld_rom_tables.c +++ b/lib_isar/isar_lcld_rom_tables.c @@ -34,7 +34,7 @@ #include "options.h" #ifdef SPLIT_REND_WITH_HEAD_ROT #include "wmc_auto.h" -#include "prot.h" +#include "prot_fx.h" #include "isar_lcld_prot.h" #include diff --git a/lib_isar/isar_prot.h b/lib_isar/isar_prot.h index 82fbe631dabf4912b3869ef148ca9ffe1639db49..618454f665a7c6026357381ecc54b11ad841d0da 100644 --- a/lib_isar/isar_prot.h +++ b/lib_isar/isar_prot.h @@ -118,12 +118,22 @@ void isar_log_cldfb2wav_data( const char *filename ); #endif +#ifndef FIX_1372_ISAR_POST_REND void isar_SplitRenderer_PostRenderer( ISAR_BIN_HR_SPLIT_POST_REND_HANDLE hBinPostRenderer, /* i/o: binaural renderer handle */ MULTI_BIN_REND_POSE_DATA *pMultiBinPoseData, Word32 Cldfb_RealBuffer_Ref_Binaural_fx[][CLDFB_NO_COL_MAX / MAX_PARAM_SPATIAL_SUBFRAMES][CLDFB_NO_CHANNELS_MAX], /* i/o : Reference/out Binaural signals */ Word32 Cldfb_ImagBuffer_Ref_Binaural_fx[][CLDFB_NO_COL_MAX / MAX_PARAM_SPATIAL_SUBFRAMES][CLDFB_NO_CHANNELS_MAX], /* i/o : Reference/out Binaural signals */ const IVAS_QUATERNION Quaternion_act ); +#else +void isar_SplitRenderer_PostRenderer( + ISAR_BIN_HR_SPLIT_POST_REND_HANDLE hBinPostRenderer, /* i/o: binaural renderer handle */ + MULTI_BIN_REND_POSE_DATA *pMultiBinPoseData, + Word32 Cldfb_RealBuffer_Ref_Binaural_fx[][CLDFB_NO_COL_MAX / MAX_PARAM_SPATIAL_SUBFRAMES][CLDFB_NO_CHANNELS_MAX], /* i/o : Reference/out Binaural signals */ + Word32 Cldfb_ImagBuffer_Ref_Binaural_fx[][CLDFB_NO_COL_MAX / MAX_PARAM_SPATIAL_SUBFRAMES][CLDFB_NO_CHANNELS_MAX], /* i/o : Reference/out Binaural signals */ + const IVAS_QUATERNION Quaternion_act, + Word16 *Q_in ); +#endif void isar_splitBinLCLDDecProcess( ISAR_BIN_HR_SPLIT_LCLD_DEC_HANDLE hSplitBinLCLDDec, @@ -445,6 +455,29 @@ void ivas_calculate_abs_fx( Word32 re_fx, Word16 exp_re, Word32 im_fx, Word16 ex void ivas_calculate_rabs_fx( Word32 re_fx, Word16 exp_re, Word32 *out_fx, Word16 *exp_out ); +#define IVAS_CMULT_FLOAT( in1_re, in1_im, in2_re, in2_im, out1_re, out1_im ) \ + out1_re = ( in1_re * in2_re ) - ( in1_im * in2_im ); \ + out1_im = ( in1_re * in2_im ) + ( in2_re * in1_im ); + +#define IVAS_CALCULATE_ABS( re, im, out ) \ + out = sqrtf( ( re * re ) + ( im * im ) ); + +#define IVAS_CALCULATE_RABS( re, out ) \ + out = sqrtf( re * re ); + +#define IVAS_CALCULATE_SQ_ABS( re, im, out ) \ + out = (float) ( ( re * re ) + ( im * im ) ); + +#define IVAS_RMULT_DOUBLE( in1_re, in2_re, out1_re ) \ + out1_re = ( in1_re * in2_re ); + +#define IVAS_CALCULATE_SQ_ABS_N( re, out ) \ + out = (float) ( re * re ); + +#define IVAS_RMULT_FLOAT( in1_re, in2_re, out1_re ) \ + out1_re = ( in1_re * in2_re ); + + /* clang-format on */ #endif /* IVAS_PROT_REND_H */ diff --git a/lib_isar/isar_splitRend_lcld_dec.c b/lib_isar/isar_splitRend_lcld_dec.c index d275a0affe58de1b1690b8735e46ea51164336b0..ddf9515b9d59e71dc4c762e748a0cf1c9572a42c 100644 --- a/lib_isar/isar_splitRend_lcld_dec.c +++ b/lib_isar/isar_splitRend_lcld_dec.c @@ -34,8 +34,8 @@ #include "options.h" #ifdef SPLIT_REND_WITH_HEAD_ROT #include "isar_prot.h" -#include "ivas_prot.h" -#include "prot.h" +#include "ivas_prot_fx.h" +#include "prot_fx.h" #include "prot_fx.h" //#include "control.h" #ifdef DEBUGGING diff --git a/lib_isar/isar_splitRend_lcld_enc.c b/lib_isar/isar_splitRend_lcld_enc.c index 15ed27dfd20bb4cb58e5f6ea775faa7cf215a15d..6804e97a408d1d52d0b65a80b8262c220b9a07b5 100644 --- a/lib_isar/isar_splitRend_lcld_enc.c +++ b/lib_isar/isar_splitRend_lcld_enc.c @@ -34,7 +34,7 @@ #include "options.h" #ifdef SPLIT_REND_WITH_HEAD_ROT #include "isar_prot.h" -#include "ivas_prot.h" +#include "ivas_prot_fx.h" #ifdef DEBUGGING #include "debug.h" #endif diff --git a/lib_isar/isar_splitRendererPLC.c b/lib_isar/isar_splitRendererPLC.c index 037c430484795092736e6fd7adebd20f2e1b9073..e3a0ce0e8b4bff86eafd047de36493b2893a57bb 100644 --- a/lib_isar/isar_splitRendererPLC.c +++ b/lib_isar/isar_splitRendererPLC.c @@ -34,8 +34,8 @@ #include "options.h" #ifdef SPLIT_REND_WITH_HEAD_ROT #include -#include "ivas_prot.h" -#include "prot.h" +#include "ivas_prot_fx.h" +#include "prot_fx.h" #include "isar_cnst.h" #include "isar_prot.h" #include "enh64.h" diff --git a/lib_isar/isar_splitRendererPost.c b/lib_isar/isar_splitRendererPost.c index 6f6af14846874ec054f31c31b896b661311c0c61..306b47d711df41e90977a2f288e069701d988dc6 100644 --- a/lib_isar/isar_splitRendererPost.c +++ b/lib_isar/isar_splitRendererPost.c @@ -37,9 +37,8 @@ #ifdef SPLIT_REND_WITH_HEAD_ROT_DEBUG #include #endif -#include "ivas_prot.h" #include "ivas_prot_fx.h" -#include "prot.h" +#include "prot_fx.h" #include "isar_rom_post_rend.h" #include "isar_prot.h" #ifdef DEBUGGING @@ -87,11 +86,11 @@ ivas_error isar_splitBinPostRendOpen( FOR( ch = 0; ch < BINAURAL_CHANNELS; ch++ ) { - IF( ( error = openCldfb_ivas_fx( &( hBinRend->cldfbSyn[ch] ), CLDFB_SYNTHESIS, output_Fs, CLDFB_PROTOTYPE_5_00MS ) ) != IVAS_ERR_OK ) + IF( ( error = openCldfb_ivas_fx( &( hBinRend->cldfbSyn[ch] ), CLDFB_SYNTHESIS, output_Fs, CLDFB_PROTOTYPE_5_00MS, DEC ) ) != IVAS_ERR_OK ) { return error; } - IF( ( error = openCldfb_ivas_fx( &( hBinRend->cldfbAna[ch] ), CLDFB_ANALYSIS, output_Fs, CLDFB_PROTOTYPE_5_00MS ) ) != IVAS_ERR_OK ) + IF( ( error = openCldfb_ivas_fx( &( hBinRend->cldfbAna[ch] ), CLDFB_ANALYSIS, output_Fs, CLDFB_PROTOTYPE_5_00MS, DEC ) ) != IVAS_ERR_OK ) { return error; } @@ -102,7 +101,7 @@ ivas_error isar_splitBinPostRendOpen( { for ( ch = 0; ch < BINAURAL_CHANNELS; ch++ ) { - if ( ( error = openCldfb( &( hBinRend->cldfbSynReconsBinDec[i][ch] ), CLDFB_SYNTHESIS, output_Fs, CLDFB_PROTOTYPE_5_00MS ) ) != IVAS_ERR_OK ) + if ( ( error = openCldfb_ivas_fx( &( hBinRend->cldfbSynReconsBinDec[i][ch] ), CLDFB_SYNTHESIS, output_Fs, CLDFB_PROTOTYPE_5_00MS, DEC ) ) != IVAS_ERR_OK ) { return error; } @@ -151,7 +150,7 @@ void isar_splitBinPostRendClose( { if ( ( *hBinHrSplitPostRend )->cldfbSynReconsBinDec[i][ch] != NULL ) { - deleteCldfb( &( ( *hBinHrSplitPostRend )->cldfbSynReconsBinDec[i][ch] ) ); + deleteCldfb_ivas_fx( &( ( *hBinHrSplitPostRend )->cldfbSynReconsBinDec[i][ch] ) ); ( *hBinHrSplitPostRend )->cldfbSynReconsBinDec[i][ch] = NULL; } } @@ -1738,30 +1737,41 @@ static void interpolate_rend_md_fx( * * *-----------------------------------------------------------------------------------------*/ +#ifndef FIX_1372_ISAR_POST_REND void isar_SplitRenderer_PostRenderer( ISAR_BIN_HR_SPLIT_POST_REND_HANDLE hBinPostRenderer, /* i/o: binaural renderer handle */ MULTI_BIN_REND_POSE_DATA *pMultiBinPoseData, Word32 Cldfb_RealBuffer_Ref_Binaural_fx[][CLDFB_NO_COL_MAX / MAX_PARAM_SPATIAL_SUBFRAMES][CLDFB_NO_CHANNELS_MAX], /* i/o : Reference/out Binaural signals */ Word32 Cldfb_ImagBuffer_Ref_Binaural_fx[][CLDFB_NO_COL_MAX / MAX_PARAM_SPATIAL_SUBFRAMES][CLDFB_NO_CHANNELS_MAX], /* i/o : Reference/out Binaural signals */ const IVAS_QUATERNION Quaternion_act ) +#else +void isar_SplitRenderer_PostRenderer( + ISAR_BIN_HR_SPLIT_POST_REND_HANDLE hBinPostRenderer, /* i/o: binaural renderer handle */ + MULTI_BIN_REND_POSE_DATA *pMultiBinPoseData, + Word32 Cldfb_RealBuffer_Ref_Binaural_fx[][CLDFB_NO_COL_MAX / MAX_PARAM_SPATIAL_SUBFRAMES][CLDFB_NO_CHANNELS_MAX], /* i/o : Reference/out Binaural signals */ + Word32 Cldfb_ImagBuffer_Ref_Binaural_fx[][CLDFB_NO_COL_MAX / MAX_PARAM_SPATIAL_SUBFRAMES][CLDFB_NO_CHANNELS_MAX], /* i/o : Reference/out Binaural signals */ + const IVAS_QUATERNION Quaternion_act, + Word16 *Q_in ) +#endif { int16_t pos_idx, b, brange[2], ch_idx1; int16_t num_md_bands, slot_idx, b2, index_slot, num_slots, sf_idx_md; - Word32 pred_out_re_fx[BINAURAL_CHANNELS], pred_out_im_fx[BINAURAL_CHANNELS], tmp_re_fx, tmp_im_fx, gd_int_fx; -#ifdef SPLIT_REND_WITH_HEAD_ROT_DEBUG - ISAR_BIN_HR_SPLIT_REND_MD rot_md_act[MAX_HEAD_ROT_POSES][MAX_SPLIT_REND_MD_BANDS]; + Word32 gd_int_fx; +#ifndef FIX_1372_ISAR_POST_REND + Word32 pred_out_re_fx[BINAURAL_CHANNELS], pred_out_im_fx[BINAURAL_CHANNELS]; + Word32 tmp_re_fx, tmp_im_fx; + Word16 exp_tmp1, exp_tmp2; #else - ISAR_BIN_HR_SPLIT_REND_MD rot_md_act[1][MAX_SPLIT_REND_MD_BANDS]; + Word64 pred_out_re_fx64[BINAURAL_CHANNELS][CLDFB_NO_COL_MAX / MAX_PARAM_SPATIAL_SUBFRAMES][CLDFB_NO_CHANNELS_MAX], pred_out_im_fx64[BINAURAL_CHANNELS][CLDFB_NO_COL_MAX / MAX_PARAM_SPATIAL_SUBFRAMES][CLDFB_NO_CHANNELS_MAX]; + Word64 tmp_re_fx64, tmp_im_fx64, out64_re, out64_im; + Word16 shift64 = 63; #endif + ISAR_BIN_HR_SPLIT_REND_MD rot_md_act[1][MAX_SPLIT_REND_MD_BANDS]; int16_t interp_yaw_pose_idx[2], interp_pitch_pose_idx[2], interp_roll_pose_idx[2]; Word32 interp_yaw_fact_fx, interp_pitch_fact_fx, interp_roll_fact_fx; Word16 Q_yaw = Q31, Q_pitch = Q31, Q_roll = Q31; Word32 mix_mat_re_fx[BINAURAL_CHANNELS][BINAURAL_CHANNELS]; Word32 mix_mat_im_fx[BINAURAL_CHANNELS][BINAURAL_CHANNELS]; -#ifdef SPLIT_REND_WITH_HEAD_ROT_DEBUG - float Cldfb_RealBuffer_Recons_Binaural[MAX_HEAD_ROT_POSES][BINAURAL_CHANNELS][CLDFB_NO_COL_MAX][CLDFB_NO_CHANNELS_MAX]; - float Cldfb_ImagBuffer_Recons_Binaural[MAX_HEAD_ROT_POSES][BINAURAL_CHANNELS][CLDFB_NO_COL_MAX][CLDFB_NO_CHANNELS_MAX]; -#endif Word16 fade_fx; Word32 *pMix_mat_re_prev_fx[BINAURAL_CHANNELS]; Word32 *pMix_mat_im_prev_fx[BINAURAL_CHANNELS]; @@ -1772,12 +1782,7 @@ void isar_SplitRenderer_PostRenderer( push_wmops( "isar_SplitRenderer_PostRenderer" ); num_slots = MAX_PARAM_SPATIAL_SUBFRAMES; -#ifdef SPLIT_REND_WITH_HEAD_ROT_DEBUG - pos_idx = MAX_HEAD_ROT_POSES - 1; -#else pos_idx = 0; -#endif - sf_idx_md = 0; get_interpolation_vars( pMultiBinPoseData, &hBinPostRenderer->QuaternionsPre[sf_idx_md], &Quaternion_act, interp_yaw_pose_idx, interp_pitch_pose_idx, interp_roll_pose_idx, &interp_yaw_fact_fx, &interp_pitch_fact_fx, &interp_roll_fact_fx, &Q_yaw, &Q_pitch, &Q_roll ); @@ -1809,50 +1814,7 @@ void isar_SplitRenderer_PostRenderer( } } - -#ifdef SPLIT_REND_WITH_HEAD_ROT_DEBUG - for ( pos_idx = 0; pos_idx < MAX_HEAD_ROT_POSES - 1; pos_idx++ ) - { - for ( b = 0; b < num_md_bands; b++ ) - { - if ( hBinPostRenderer->pose_type[pos_idx] == PITCH_ONLY ) - { - - for ( ch_idx1 = 0; ch_idx1 < BINAURAL_CHANNELS; ch_idx1++ ) - { - set_zero( hBinPostRenderer->rot_md[pos_idx][sf_idx][b].pred_mat_re[ch_idx1], BINAURAL_CHANNELS ); - set_zero( hBinPostRenderer->rot_md[pos_idx][sf_idx][b].pred_mat_im[ch_idx1], BINAURAL_CHANNELS ); - hBinPostRenderer->rot_md[pos_idx][sf_idx][b].pred_mat_re[ch_idx1][ch_idx1] = 1.0f; - } - hBinPostRenderer->rot_md[pos_idx][sf_idx][b].pred_mat_re[0][0] *= hBinPostRenderer->rot_md[pos_idx][sf_idx][b].gd; - hBinPostRenderer->rot_md[pos_idx][sf_idx][b].pred_mat_re[1][1] *= hBinPostRenderer->rot_md[pos_idx][sf_idx][b].gd2; - hBinPostRenderer->rot_md[pos_idx][sf_idx][b].gd = 0.0f; - } - else if ( hBinPostRenderer->pose_type[pos_idx] == ANY_ROLL ) - { - hBinPostRenderer->rot_md[pos_idx][sf_idx][b].gd = 0.0f; - } - - for ( ch_idx1 = 0; ch_idx1 < BINAURAL_CHANNELS; ch_idx1++ ) - { - - /*update the prediction matrix with interpolated matrix*/ - rot_md_act[pos_idx][b].pred_mat_re[ch_idx1][0] = hBinPostRenderer->rot_md[pos_idx][sf_idx][b].pred_mat_re[ch_idx1][0]; - rot_md_act[pos_idx][b].pred_mat_re[ch_idx1][1] = hBinPostRenderer->rot_md[pos_idx][sf_idx][b].pred_mat_re[ch_idx1][1]; - rot_md_act[pos_idx][b].pred_mat_im[ch_idx1][0] = hBinPostRenderer->rot_md[pos_idx][sf_idx][b].pred_mat_im[ch_idx1][0]; - rot_md_act[pos_idx][b].pred_mat_im[ch_idx1][1] = hBinPostRenderer->rot_md[pos_idx][sf_idx][b].pred_mat_im[ch_idx1][1]; - rot_md_act[pos_idx][b].gd = hBinPostRenderer->rot_md[pos_idx][sf_idx][b].gd; - } - } - } - -#endif - -#ifdef SPLIT_REND_WITH_HEAD_ROT_DEBUG - for ( pos_idx = 0; pos_idx < MAX_HEAD_ROT_POSES; pos_idx++ ) -#else pos_idx = 0; -#endif { FOR( slot_idx = 0; slot_idx < num_slots; slot_idx++ ) { @@ -1888,15 +1850,13 @@ void isar_SplitRenderer_PostRenderer( brange[0] = pBand_grouping[b]; brange[1] = pBand_grouping[b + 1]; - Word16 exp_tmp1, exp_tmp2; FOR( b2 = brange[0]; b2 < brange[1]; b2++ ) { FOR( ch_idx1 = 0; ch_idx1 < BINAURAL_CHANNELS; ch_idx1++ ) { /* Apply prediction matrix */ +#ifndef FIX_1372_ISAR_POST_REND ivas_cmult_fix( Cldfb_RealBuffer_Ref_Binaural_fx[0][index_slot][b2], 25, Cldfb_ImagBuffer_Ref_Binaural_fx[0][index_slot][b2], 25, mix_mat_re_fx[0][ch_idx1], 6, mix_mat_im_fx[0][ch_idx1], 6, &tmp_re_fx, &tmp_im_fx, &exp_tmp1, &exp_tmp2 ); - // tmp_re_fx = L_shl(tmp_re_fx, sub(exp_tmp1, 6)); //Q25 - // tmp_im_fx = L_shl(tmp_im_fx, sub(exp_tmp1, 6)); //Q25 pred_out_re_fx[ch_idx1] = tmp_re_fx; pred_out_im_fx[ch_idx1] = tmp_im_fx; @@ -1904,36 +1864,80 @@ void isar_SplitRenderer_PostRenderer( Word16 exp_im = exp_tmp2; ivas_cmult_fix( Cldfb_RealBuffer_Ref_Binaural_fx[1][index_slot][b2], 25, Cldfb_ImagBuffer_Ref_Binaural_fx[1][index_slot][b2], 25, mix_mat_re_fx[1][ch_idx1], 6, mix_mat_im_fx[1][ch_idx1], 6, &tmp_re_fx, &tmp_im_fx, &exp_tmp1, &exp_tmp2 ); - // tmp_re_fx = L_shl(tmp_re_fx, sub(exp_tmp1, 6)); //Q25 - // tmp_im_fx = L_shl(tmp_im_fx, sub(exp_tmp1, 6)); //Q25 pred_out_re_fx[ch_idx1] = BASOP_Util_Add_Mant32Exp( pred_out_re_fx[ch_idx1], exp_re, tmp_re_fx, exp_tmp1, &exp_re ); pred_out_re_fx[ch_idx1] = L_shl( pred_out_re_fx[ch_idx1], exp_re - 25 ); pred_out_im_fx[ch_idx1] = BASOP_Util_Add_Mant32Exp( pred_out_im_fx[ch_idx1], exp_im, tmp_im_fx, exp_tmp2, &exp_im ); pred_out_im_fx[ch_idx1] = L_shl( pred_out_im_fx[ch_idx1], exp_im - 25 ); +#else + tmp_re_fx64 = W_mult_32_32( Cldfb_RealBuffer_Ref_Binaural_fx[0][index_slot][b2], mix_mat_re_fx[0][ch_idx1] ); + tmp_im_fx64 = W_mult_32_32( Cldfb_ImagBuffer_Ref_Binaural_fx[0][index_slot][b2], mix_mat_im_fx[0][ch_idx1] ); + out64_re = W_sub( tmp_re_fx64, tmp_im_fx64 ); + tmp_re_fx64 = W_mult_32_32( Cldfb_RealBuffer_Ref_Binaural_fx[0][index_slot][b2], mix_mat_im_fx[0][ch_idx1] ); + tmp_im_fx64 = W_mult_32_32( Cldfb_ImagBuffer_Ref_Binaural_fx[0][index_slot][b2], mix_mat_re_fx[0][ch_idx1] ); + out64_im = W_add( tmp_re_fx64, tmp_im_fx64 ); + move64(); + move64(); + move64(); + move64(); + move64(); + move64(); + + + tmp_re_fx64 = W_mult_32_32( Cldfb_RealBuffer_Ref_Binaural_fx[1][index_slot][b2], mix_mat_re_fx[1][ch_idx1] ); + tmp_im_fx64 = W_mult_32_32( Cldfb_ImagBuffer_Ref_Binaural_fx[1][index_slot][b2], mix_mat_im_fx[1][ch_idx1] ); + out64_re = W_add( out64_re, W_sub( tmp_re_fx64, tmp_im_fx64 ) ); + tmp_re_fx64 = W_mult_32_32( Cldfb_RealBuffer_Ref_Binaural_fx[1][index_slot][b2], mix_mat_im_fx[1][ch_idx1] ); + tmp_im_fx64 = W_mult_32_32( Cldfb_ImagBuffer_Ref_Binaural_fx[1][index_slot][b2], mix_mat_re_fx[1][ch_idx1] ); + out64_im = W_add( out64_im, W_add( tmp_re_fx64, tmp_im_fx64 ) ); + move64(); + move64(); + move64(); + move64(); + move64(); + move64(); + + + shift64 = s_min( shift64, s_min( W_norm( out64_im ), W_norm( out64_re ) ) ); + pred_out_re_fx64[ch_idx1][index_slot][b2] = out64_re; + pred_out_im_fx64[ch_idx1][index_slot][b2] = out64_im; + move16(); + move64(); + move64(); +#endif } - +#ifndef FIX_1372_ISAR_POST_REND FOR( ch_idx1 = 0; ch_idx1 < BINAURAL_CHANNELS; ch_idx1++ ) { -#ifdef SPLIT_REND_WITH_HEAD_ROT_DEBUG - Cldfb_RealBuffer_Recons_Binaural[pos_idx][ch_idx1][index_slot][b2] = pred_out_re[ch_idx1]; - Cldfb_ImagBuffer_Recons_Binaural[pos_idx][ch_idx1][index_slot][b2] = pred_out_im[ch_idx1]; -#else Cldfb_RealBuffer_Ref_Binaural_fx[ch_idx1][index_slot][b2] = pred_out_re_fx[ch_idx1]; Cldfb_ImagBuffer_Ref_Binaural_fx[ch_idx1][index_slot][b2] = pred_out_im_fx[ch_idx1]; -#endif } +#endif + } + } + } + +#ifdef FIX_1372_ISAR_POST_REND + FOR( ch_idx1 = 0; ch_idx1 < BINAURAL_CHANNELS; ch_idx1++ ) + { + FOR( slot_idx = 0; slot_idx < num_slots; slot_idx++ ) + { + FOR( b2 = pBand_grouping[0]; b2 < pBand_grouping[num_md_bands]; b2++ ) + { + Cldfb_RealBuffer_Ref_Binaural_fx[ch_idx1][slot_idx][b2] = W_extract_h( W_shl( pred_out_re_fx64[ch_idx1][slot_idx][b2], shift64 ) ); + Cldfb_ImagBuffer_Ref_Binaural_fx[ch_idx1][slot_idx][b2] = W_extract_h( W_shl( pred_out_im_fx64[ch_idx1][slot_idx][b2], shift64 ) ); + move32(); + move32(); } } } + *Q_in = sub( add( *Q_in, shift64 ), Q6 ); + move16(); +#endif } -#ifdef SPLIT_REND_WITH_HEAD_ROT_DEBUG - for ( pos_idx = 0; pos_idx < MAX_HEAD_ROT_POSES; pos_idx++ ) -#else pos_idx = 0; -#endif { FOR( b = 0; b < num_md_bands; b++ ) { @@ -1948,43 +1952,6 @@ void isar_SplitRenderer_PostRenderer( } } hBinPostRenderer->cf_flag = 1; - -#ifdef SPLIT_REND_WITH_HEAD_ROT_DEBUG - { - int16_t num_cldfb_bands; - num_cldfb_bands = CLDFB_NO_CHANNELS_MAX; - for ( slot_idx = 0; slot_idx < num_slots; slot_idx++ ) - { - index_slot = sf_idx * num_slots + slot_idx; - for ( ch_idx1 = 0; ch_idx1 < BINAURAL_CHANNELS; ch_idx1++ ) - { - mvr2r( Cldfb_RealBuffer_Recons_Binaural[MAX_HEAD_ROT_POSES - 1][ch_idx1][index_slot], Cldfb_RealBuffer_Ref_Binaural[ch_idx1][index_slot], num_cldfb_bands ); - mvr2r( Cldfb_ImagBuffer_Recons_Binaural[MAX_HEAD_ROT_POSES - 1][ch_idx1][index_slot], Cldfb_ImagBuffer_Ref_Binaural[ch_idx1][index_slot], num_cldfb_bands ); - } - } - - for ( pos_idx = 0; pos_idx < MAX_HEAD_ROT_POSES; pos_idx++ ) - { - char fname[200] = "recons_out_pos"; - char tag[2]; - tag[0] = (char) ( '0' + pos_idx ); - tag[1] = '\0'; - strcat( fname, tag ); - strcat( fname, ".wav" ); - isar_log_cldfb2wav_data( - Cldfb_RealBuffer_Recons_Binaural[pos_idx], - Cldfb_ImagBuffer_Recons_Binaural[pos_idx], - hBinPostRenderer->cldfbSynReconsBinDec[pos_idx], - BINAURAL_CHANNELS, - num_cldfb_bands, - 48000, - num_slots, - sf_idx * num_slots, - fname ); - } - } -#endif - pop_wmops(); return; } @@ -2005,7 +1972,8 @@ static void isar_rend_CldfbSplitPostRendProcessTdIn( Word32 Cldfb_RealBuffer_Binaural_fx[BINAURAL_CHANNELS][CLDFB_NO_COL_MAX / MAX_PARAM_SPATIAL_SUBFRAMES][CLDFB_NO_CHANNELS_MAX] = { 0 }; Word32 Cldfb_ImagBuffer_Binaural_fx[BINAURAL_CHANNELS][CLDFB_NO_COL_MAX / MAX_PARAM_SPATIAL_SUBFRAMES][CLDFB_NO_CHANNELS_MAX] = { 0 }; num_cldfb_bands = hBinHrSplitPostRend->cldfbSyn[0]->no_channels; - Word16 Q_output = 11; + Word16 Q_output = Q11; + Word16 Q_in = Q6; /* Implement CLDFB analysis */ FOR( ch_idx = 0; ch_idx < BINAURAL_CHANNELS; ch_idx++ ) @@ -2023,7 +1991,11 @@ static void isar_rend_CldfbSplitPostRendProcessTdIn( } } +#ifndef FIX_1372_ISAR_POST_REND isar_SplitRenderer_PostRenderer( hBinHrSplitPostRend, pMultiBinPoseData, Cldfb_RealBuffer_Binaural_fx, Cldfb_ImagBuffer_Binaural_fx, QuaternionPost ); +#else + isar_SplitRenderer_PostRenderer( hBinHrSplitPostRend, pMultiBinPoseData, Cldfb_RealBuffer_Binaural_fx, Cldfb_ImagBuffer_Binaural_fx, QuaternionPost, &Q_in ); +#endif /* Implement CLDFB synthesis */ FOR( ch_idx = 0; ch_idx < BINAURAL_CHANNELS; ch_idx++ ) @@ -2045,9 +2017,17 @@ static void isar_rend_CldfbSplitPostRendProcessTdIn( Scale_sig32( RealBuffer_fx[slot_idx], CLDFB_NO_CHANNELS_MAX, scaleFactor ); Scale_sig32( ImagBuffer_fx[slot_idx], CLDFB_NO_CHANNELS_MAX, scaleFactor ); } +#ifndef FIX_1372_ISAR_POST_REND Q_cldfb = add( scaleFactor, sub( Q_output, Q5 ) ); +#else + Q_cldfb = add( scaleFactor, Q_in ); +#endif Scale_sig32( hBinHrSplitPostRend->cldfbSyn[ch_idx]->cldfb_state_fx, hBinHrSplitPostRend->cldfbSyn[ch_idx]->p_filter_length, sub( sub( Q_cldfb, 1 ), Q11 ) ); - cldfbSynthesis_ivas_fx( RealBuffer_fx, ImagBuffer_fx, &( output_fx[ch_idx][0] ), num_cldfb_bands * CLDFB_NO_COL_MAX / MAX_PARAM_SPATIAL_SUBFRAMES, hBinHrSplitPostRend->cldfbSyn[ch_idx] ); // Q_cldfb - 1 +#ifdef OPT_AVOID_STATE_BUF_RESCALE + cldfbSynthesis_ivas_fx( RealBuffer_fx, ImagBuffer_fx, &( output_fx[ch_idx][0] ), num_cldfb_bands * CLDFB_NO_COL_MAX / MAX_PARAM_SPATIAL_SUBFRAMES, 0, 0, hBinHrSplitPostRend->cldfbSyn[ch_idx] ); // Q_cldfb - 1 +#else + cldfbSynthesis_ivas_fx( RealBuffer_fx, ImagBuffer_fx, &( output_fx[ch_idx][0] ), num_cldfb_bands * CLDFB_NO_COL_MAX / MAX_PARAM_SPATIAL_SUBFRAMES, 0, hBinHrSplitPostRend->cldfbSyn[ch_idx] ); // Q_cldfb - 1 +#endif Scale_sig32( hBinHrSplitPostRend->cldfbSyn[ch_idx]->cldfb_state_fx, hBinHrSplitPostRend->cldfbSyn[ch_idx]->p_filter_length, sub( Q11, sub( Q_cldfb, 1 ) ) ); Q_out[ch_idx] = sub( Q_cldfb, 1 ); } @@ -2083,7 +2063,11 @@ void isar_rend_CldfbSplitPostRendProcess( return; } +#ifndef FIX_1372_ISAR_POST_REND isar_SplitRenderer_PostRenderer( hBinHrSplitPostRend, pMultiBinPoseData, Cldfb_RealBuffer_Binaural_fx, Cldfb_ImagBuffer_Binaural_fx, QuaternionPost ); +#else + isar_SplitRenderer_PostRenderer( hBinHrSplitPostRend, pMultiBinPoseData, Cldfb_RealBuffer_Binaural_fx, Cldfb_ImagBuffer_Binaural_fx, QuaternionPost, &Q_cldfb_in ); +#endif /* Implement CLDFB synthesis */ FOR( ch_idx = 0; ch_idx < BINAURAL_CHANNELS; ch_idx++ ) @@ -2107,7 +2091,11 @@ void isar_rend_CldfbSplitPostRendProcess( } Q_cldfb = scaleFactor + Q_cldfb_in; Scale_sig32( hBinHrSplitPostRend->cldfbSyn[ch_idx]->cldfb_state_fx, hBinHrSplitPostRend->cldfbSyn[ch_idx]->p_filter_length, sub( sub( Q_cldfb, 1 ), Q11 ) ); - cldfbSynthesis_ivas_fx( RealBuffer_fx, ImagBuffer_fx, &( output_fx[ch_idx][0] ), num_cldfb_bands * CLDFB_NO_COL_MAX / MAX_PARAM_SPATIAL_SUBFRAMES, hBinHrSplitPostRend->cldfbSyn[ch_idx] ); // Q_cldfb - 1 +#ifdef OPT_AVOID_STATE_BUF_RESCALE + cldfbSynthesis_ivas_fx( RealBuffer_fx, ImagBuffer_fx, &( output_fx[ch_idx][0] ), num_cldfb_bands * CLDFB_NO_COL_MAX / MAX_PARAM_SPATIAL_SUBFRAMES, 0, 0, hBinHrSplitPostRend->cldfbSyn[ch_idx] ); // Q_cldfb - 1 +#else + cldfbSynthesis_ivas_fx( RealBuffer_fx, ImagBuffer_fx, &( output_fx[ch_idx][0] ), num_cldfb_bands * CLDFB_NO_COL_MAX / MAX_PARAM_SPATIAL_SUBFRAMES, 0, hBinHrSplitPostRend->cldfbSyn[ch_idx] ); // Q_cldfb - 1 +#endif Scale_sig32( hBinHrSplitPostRend->cldfbSyn[ch_idx]->cldfb_state_fx, hBinHrSplitPostRend->cldfbSyn[ch_idx]->p_filter_length, sub( Q11, sub( Q_cldfb, 1 ) ) ); Q_out[ch_idx] = sub( Q_cldfb, 1 ); } diff --git a/lib_isar/isar_splitRendererPre.c b/lib_isar/isar_splitRendererPre.c index a766418d1ac936a5fd8c7e405f8c4083d9109790..8bdc824f87a5ed2fd3922f6ede336962c7820db2 100644 --- a/lib_isar/isar_splitRendererPre.c +++ b/lib_isar/isar_splitRendererPre.c @@ -37,9 +37,8 @@ #ifdef SPLIT_REND_WITH_HEAD_ROT_DEBUG #include #endif -#include "ivas_prot.h" #include "ivas_prot_fx.h" -#include "prot.h" +#include "prot_fx.h" #include "lib_isar_pre_rend.h" #include "isar_rom_post_rend.h" #include "isar_prot.h" @@ -2781,7 +2780,7 @@ ivas_error isar_splitBinPreRendOpen( { for ( ch = 0; ch < BINAURAL_CHANNELS; ch++ ) { - if ( ( error = openCldfb( &( hBinRend->cldfbSynRotBinDec[i][ch] ), CLDFB_SYNTHESIS, output_Fs, CLDFB_PROTOTYPE_5_00MS ) ) != IVAS_ERR_OK ) + if ( ( error = openCldfb_ivas_fx( &( hBinRend->cldfbSynRotBinDec[i][ch] ), CLDFB_SYNTHESIS, output_Fs, CLDFB_PROTOTYPE_5_00MS ) ) != IVAS_ERR_OK ) { return error; } @@ -2837,7 +2836,7 @@ void isar_splitBinPreRendClose( { IF( ( *hBinHrSplitPreRend )->cldfbSynRotBinDec[i][n] != NULL ) { - deleteCldfb( &( ( *hBinHrSplitPreRend )->cldfbSynRotBinDec[i][n] ) ); + deleteCldfb_ivas_fx( &( ( *hBinHrSplitPreRend )->cldfbSynRotBinDec[i][n] ) ); ( *hBinHrSplitPreRend )->cldfbSynRotBinDec[i][n] = NULL; } } diff --git a/lib_isar/isar_splitRenderer_utils.c b/lib_isar/isar_splitRenderer_utils.c index fa51d44ef4dc63147e66a1bec143f2567508e39b..7f21a40c7cdafc2f51b4c7cf8e7f4d0f1305d57c 100644 --- a/lib_isar/isar_splitRenderer_utils.c +++ b/lib_isar/isar_splitRenderer_utils.c @@ -34,8 +34,8 @@ #include "options.h" #ifdef SPLIT_REND_WITH_HEAD_ROT #include -#include "ivas_prot.h" -#include "prot.h" +#include "ivas_prot_fx.h" +#include "prot_fx.h" #include "cnst.h" #include "isar_cnst.h" #include "ivas_rom_rend.h" diff --git a/lib_isar/lib_isar_post_rend.c b/lib_isar/lib_isar_post_rend.c index dd28847312bc336db22afdfa7b714bf12da78fe4..82c01004e7a93cfd5679e0ca51a8d51931db873e 100644 --- a/lib_isar/lib_isar_post_rend.c +++ b/lib_isar/lib_isar_post_rend.c @@ -35,8 +35,7 @@ #include "lib_isar_post_rend.h" #include "isar_stat.h" #include "isar_prot.h" -#include "prot.h" -#include "ivas_prot.h" +#include "prot_fx.h" #include "ivas_prot_fx.h" #include "prot_fx.h" #ifndef SPLIT_REND_WITH_HEAD_ROT @@ -48,7 +47,7 @@ int32_t ISAR_POST_REND_void_func( void ) #else -#include "ivas_prot_rend.h" +#include "ivas_prot_rend_fx.h" #include #include #include "wmc_auto.h" @@ -1625,11 +1624,22 @@ static ivas_error renderSplitBinauralWithPostRot( } Q_cldfb = scaleFactor + Q_cldfb_final[sf_idx]; Scale_sig32( hSplitBin->hBinHrSplitPostRend->cldfbSyn[ch_idx]->cldfb_state_fx, hSplitBin->hBinHrSplitPostRend->cldfbSyn[ch_idx]->p_filter_length, sub( sub( Q_cldfb, 1 ), Q11 ) ); +#ifdef OPT_AVOID_STATE_BUF_RESCALE + cldfbSynthesis_ivas_fx( RealBuffer_fx, + ImagBuffer_fx, + &( tmpCrendBuffer_fx[ch_idx][sf_idx * outBufNumSamplesPerChannel] ), + hSplitBin->hBinHrSplitPostRend->cldfbSyn[0]->no_channels * CLDFB_NO_COL_MAX / MAX_PARAM_SPATIAL_SUBFRAMES, + 0, + 0, + hSplitBin->hBinHrSplitPostRend->cldfbSyn[ch_idx] ); // Q_cldfb - 1 +#else cldfbSynthesis_ivas_fx( RealBuffer_fx, ImagBuffer_fx, &( tmpCrendBuffer_fx[ch_idx][sf_idx * outBufNumSamplesPerChannel] ), hSplitBin->hBinHrSplitPostRend->cldfbSyn[0]->no_channels * CLDFB_NO_COL_MAX / MAX_PARAM_SPATIAL_SUBFRAMES, + 0, hSplitBin->hBinHrSplitPostRend->cldfbSyn[ch_idx] ); // Q_cldfb - 1 +#endif Scale_sig32( hSplitBin->hBinHrSplitPostRend->cldfbSyn[ch_idx]->cldfb_state_fx, hSplitBin->hBinHrSplitPostRend->cldfbSyn[ch_idx]->p_filter_length, sub( Q11, sub( Q_cldfb, 1 ) ) ); Q_out[sf_idx][ch_idx] = sub( Q_cldfb, 1 ); } diff --git a/lib_isar/lib_isar_pre_rend.c b/lib_isar/lib_isar_pre_rend.c index c447674043095343056dfe7c5bf6ccc91ec12405..fa3462fdc7a0f2ac8cb5003383f5938b244603ea 100644 --- a/lib_isar/lib_isar_pre_rend.c +++ b/lib_isar/lib_isar_pre_rend.c @@ -34,8 +34,8 @@ #include #include "options.h" #include -#include "ivas_prot.h" -#include "prot.h" +#include "ivas_prot_fx.h" +#include "prot_fx.h" #include "prot_fx.h" #include "isar_cnst.h" #include "isar_rom_post_rend.h" @@ -159,7 +159,7 @@ ivas_error ISAR_PRE_REND_open( { if ( ( error = openCldfb_ivas_fx( &( hSplitRendWrapper->hCldfbHandles->cldfbAna[ch] ), CLDFB_ANALYSIS, - OutSampleRate, CLDFB_PROTOTYPE_5_00MS ) ) != IVAS_ERR_OK ) + OutSampleRate, CLDFB_PROTOTYPE_5_00MS, DEC ) ) != IVAS_ERR_OK ) { return error; } @@ -167,7 +167,7 @@ ivas_error ISAR_PRE_REND_open( FOR( ch = 0; ch < BINAURAL_CHANNELS; ch++ ) { - IF( ( error = openCldfb_ivas_fx( &( hSplitRendWrapper->hCldfbHandles->cldfbSyn[ch] ), CLDFB_SYNTHESIS, OutSampleRate, CLDFB_PROTOTYPE_5_00MS ) ) != IVAS_ERR_OK ) + IF( ( error = openCldfb_ivas_fx( &( hSplitRendWrapper->hCldfbHandles->cldfbSyn[ch] ), CLDFB_SYNTHESIS, OutSampleRate, CLDFB_PROTOTYPE_5_00MS, DEC ) ) != IVAS_ERR_OK ) { return error; } @@ -247,7 +247,7 @@ void ISAR_PRE_REND_close( { IF( hSplitBinRend->hCldfbHandles->cldfbAna[ch] != NULL ) { - deleteCldfb( &hSplitBinRend->hCldfbHandles->cldfbAna[ch] ); + deleteCldfb_ivas_fx( &hSplitBinRend->hCldfbHandles->cldfbAna[ch] ); hSplitBinRend->hCldfbHandles->cldfbAna[ch] = NULL; } } @@ -257,7 +257,7 @@ void ISAR_PRE_REND_close( { IF( hSplitBinRend->hCldfbHandles->cldfbSyn[ch] != NULL ) { - deleteCldfb( &hSplitBinRend->hCldfbHandles->cldfbSyn[ch] ); + deleteCldfb_ivas_fx( &hSplitBinRend->hCldfbHandles->cldfbSyn[ch] ); hSplitBinRend->hCldfbHandles->cldfbSyn[ch] = NULL; } } @@ -520,7 +520,11 @@ ivas_error ISAR_PRE_REND_MultiBinToSplitBinaural( Q_cldfb = q_final; move16(); Scale_sig32( hSplitBin->hCldfbHandles->cldfbSyn[ch]->cldfb_state_fx, hSplitBin->hCldfbHandles->cldfbSyn[ch]->p_filter_length, sub( sub( Q_cldfb, 1 ), hSplitBin->hCldfbHandles->cldfbSyn[ch]->Q_cldfb_state ) ); - cldfbSynthesis_ivas_fx( Cldfb_In_BinReal_p_fx, Cldfb_In_BinImag_p_fx, pOutput_fx[ch], hSplitBin->hCldfbHandles->cldfbSyn[0]->no_channels * num_slots, hSplitBin->hCldfbHandles->cldfbSyn[ch] ); // Q_cldfb - 1 +#ifdef OPT_AVOID_STATE_BUF_RESCALE + cldfbSynthesis_ivas_fx( Cldfb_In_BinReal_p_fx, Cldfb_In_BinImag_p_fx, pOutput_fx[ch], hSplitBin->hCldfbHandles->cldfbSyn[0]->no_channels * num_slots, 0, 0, hSplitBin->hCldfbHandles->cldfbSyn[ch] ); // Q_cldfb - 1 +#else + cldfbSynthesis_ivas_fx( Cldfb_In_BinReal_p_fx, Cldfb_In_BinImag_p_fx, pOutput_fx[ch], hSplitBin->hCldfbHandles->cldfbSyn[0]->no_channels * num_slots, 0, hSplitBin->hCldfbHandles->cldfbSyn[ch] ); // Q_cldfb - 1 +#endif Q_out[ch] = sub( Q_cldfb, 1 ); move16(); hSplitBin->hCldfbHandles->cldfbSyn[ch]->Q_cldfb_state = Q_out[ch]; @@ -577,7 +581,11 @@ ivas_error ISAR_PRE_REND_MultiBinToSplitBinaural( Q_cldfb = q_final; move16(); Scale_sig32( hSplitBin->hCldfbHandles->cldfbSyn[ch]->cldfb_state_fx, hSplitBin->hCldfbHandles->cldfbSyn[ch]->p_filter_length, sub( sub( Q_cldfb, 1 ), hSplitBin->hCldfbHandles->cldfbSyn[ch]->Q_cldfb_state ) ); - cldfbSynthesis_ivas_fx( Cldfb_In_BinReal_p_fx, Cldfb_In_BinImag_p_fx, pOutput_fx[ch], hSplitBin->hCldfbHandles->cldfbSyn[0]->no_channels * CLDFB_NO_COL_MAX, hSplitBin->hCldfbHandles->cldfbSyn[ch] ); // Q_cldfb - 1 +#ifdef OPT_AVOID_STATE_BUF_RESCALE + cldfbSynthesis_ivas_fx( Cldfb_In_BinReal_p_fx, Cldfb_In_BinImag_p_fx, pOutput_fx[ch], hSplitBin->hCldfbHandles->cldfbSyn[0]->no_channels * CLDFB_NO_COL_MAX, 0, 0, hSplitBin->hCldfbHandles->cldfbSyn[ch] ); // Q_cldfb - 1 +#else + cldfbSynthesis_ivas_fx( Cldfb_In_BinReal_p_fx, Cldfb_In_BinImag_p_fx, pOutput_fx[ch], hSplitBin->hCldfbHandles->cldfbSyn[0]->no_channels * CLDFB_NO_COL_MAX, 0, hSplitBin->hCldfbHandles->cldfbSyn[ch] ); // Q_cldfb - 1 +#endif Q_out[ch] = sub( Q_cldfb, 1 ); move16(); hSplitBin->hCldfbHandles->cldfbSyn[ch]->Q_cldfb_state = Q_out[ch]; diff --git a/lib_rend/ivas_allrad_dec.c b/lib_rend/ivas_allrad_dec_fx.c similarity index 99% rename from lib_rend/ivas_allrad_dec.c rename to lib_rend/ivas_allrad_dec_fx.c index 4a4c1ff89e2c02a0cca0d47e6947567c1e025469..5023bee34db1aafdbf965096cbbc3722f62ec191 100644 --- a/lib_rend/ivas_allrad_dec.c +++ b/lib_rend/ivas_allrad_dec_fx.c @@ -35,9 +35,8 @@ #include "options.h" #include #include -#include "prot.h" -#include "ivas_prot.h" -#include "ivas_prot_rend.h" +#include "prot_fx.h" +#include "ivas_prot_rend_fx.h" #include "ivas_rom_rend.h" #include "wmc_auto.h" #include "ivas_prot_fx.h" diff --git a/lib_rend/ivas_crend.c b/lib_rend/ivas_crend_fx.c similarity index 92% rename from lib_rend/ivas_crend.c rename to lib_rend/ivas_crend_fx.c index 71001548897ca75e7adca92f070aedc5f89b6824..ef2c477a3c82d5e42fc9ec596f8d58660070a9e3 100644 --- a/lib_rend/ivas_crend.c +++ b/lib_rend/ivas_crend_fx.c @@ -33,15 +33,13 @@ #include #include #include "options.h" -#include "prot.h" -#include "ivas_prot.h" -#include "ivas_prot_rend.h" +#include "prot_fx.h" +#include "ivas_prot_rend_fx.h" #include "ivas_cnst.h" #include "ivas_rom_rend.h" #include "ivas_rom_binaural_crend_head.h" #include "ivas_stat_rend.h" #include "lib_rend.h" -#include "prot_fx.h" #include "ivas_prot_fx.h" #include "wmc_auto.h" #ifdef DEBUGGING @@ -1428,6 +1426,9 @@ ivas_error ivas_rend_initCrendWrapper( ( *pCrend )->binaural_latency_ns = 0; move32(); ( *pCrend )->hHrtfCrend = NULL; + ( *pCrend )->io_qfactor = 0; + move16(); + ( *pCrend )->p_io_qfactor = &( *pCrend )->io_qfactor; #ifdef SPLIT_REND_WITH_HEAD_ROT FOR( pos_idx = 0; pos_idx < num_poses; pos_idx++ ) @@ -1528,7 +1529,7 @@ ivas_error ivas_rend_openCrend( ) { Word16 i, subframe_length; - Word16 max_total_ir_len; + Word32 max_total_ir_len; HRTFS_HANDLE hHrtf; CREND_HANDLE hCrend; ivas_error error; @@ -1571,7 +1572,7 @@ ivas_error ivas_rend_openCrend( IF( hHrtf != NULL ) { - max_total_ir_len = imult1616( hHrtf->max_num_iterations, subframe_length ); + max_total_ir_len = L_mult0( hHrtf->max_num_iterations, subframe_length ); FOR( i = 0; i < hHrtf->max_num_ir; i++ ) { @@ -1579,12 +1580,13 @@ ivas_error ivas_rend_openCrend( { return IVAS_ERROR( IVAS_ERR_FAILED_ALLOC, "Can not allocate memory for Crend" ); } - set_zero_fx( hCrend->freq_buffer_re_fx[i], max_total_ir_len ); + set_zero2_fx( hCrend->freq_buffer_re_fx[i], max_total_ir_len ); + IF( ( hCrend->freq_buffer_im_fx[i] = (Word32 *) malloc( sizeof( Word32 ) * max_total_ir_len ) ) == NULL ) { return IVAS_ERROR( IVAS_ERR_FAILED_ALLOC, "Can not allocate memory for Crend" ); } - set_zero_fx( hCrend->freq_buffer_im_fx[i], max_total_ir_len ); + set_zero2_fx( hCrend->freq_buffer_im_fx[i], max_total_ir_len ); } FOR( i = 0; i < BINAURAL_CHANNELS; i++ ) @@ -1596,7 +1598,7 @@ ivas_error ivas_rend_openCrend( set_zero_fx( hCrend->prev_out_buffer_fx[i], subframe_length ); } - max_total_ir_len = imult1616( (Word16) hHrtf->num_iterations_diffuse[0], subframe_length ); + max_total_ir_len = L_mult0( (Word16) hHrtf->num_iterations_diffuse[0], subframe_length ); IF( max_total_ir_len > 0 ) { @@ -1604,12 +1606,13 @@ ivas_error ivas_rend_openCrend( { return IVAS_ERROR( IVAS_ERR_FAILED_ALLOC, "Can not allocate memory for Crend" ); } - set_zero_fx( hCrend->freq_buffer_re_diffuse_fx, max_total_ir_len ); + set_zero2_fx( hCrend->freq_buffer_re_diffuse_fx, max_total_ir_len ); + IF( ( hCrend->freq_buffer_im_diffuse_fx = (Word32 *) malloc( sizeof( Word32 ) * max_total_ir_len ) ) == NULL ) { return IVAS_ERROR( IVAS_ERR_FAILED_ALLOC, "Can not allocate memory for Crend" ); } - set_zero_fx( hCrend->freq_buffer_im_diffuse_fx, max_total_ir_len ); + set_zero2_fx( hCrend->freq_buffer_im_diffuse_fx, max_total_ir_len ); } ELSE { @@ -1624,7 +1627,7 @@ ivas_error ivas_rend_openCrend( { return IVAS_ERROR( IVAS_ERR_FAILED_ALLOC, "Can not allocate memory for Crend" ); } - set_zero_fx( hCrend->lfe_delay_line_fx, max_total_ir_len ); + set_zero2_fx( hCrend->lfe_delay_line_fx, max_total_ir_len ); } ELSE { @@ -1867,7 +1870,8 @@ static ivas_error ivas_rend_crendConvolver( Word16 i, j, k, m; Word16 subframe_length, idx_in; Word16 lfe_idx_in; - Word16 offset, offset_in, offset_diffuse; + Word32 offset, offset_in, offset_diffuse; + Word16 index_in; Word16 nchan_in, nchan_out; const Word32 *pIn; Word32 *pFreq_buf_re, *pFreq_buf_im; @@ -1878,7 +1882,6 @@ static ivas_error ivas_rend_crendConvolver( CREND_HANDLE hCrend; ivas_error error; - #ifdef SPLIT_REND_WITH_HEAD_ROT hCrend = pCrend->hCrend[pos_idx]; #else @@ -1913,8 +1916,8 @@ static ivas_error ivas_rend_crendConvolver( } } - offset = imult1616( hCrend->delay_line_rw_index, subframe_length ); /* subframe_length * ( pCrend->hHrtfCrend->max_num_iterations - 1 ); */ - offset_diffuse = imult1616( hCrend->diffuse_delay_line_rw_index, subframe_length ); /* subframe_length *( pCrend->hHrtfCrend->num_iterations_diffuse[0] - 1 ); */ + offset = L_mult0( hCrend->delay_line_rw_index, subframe_length ); /* subframe_length * ( pCrend->hHrtfCrend->max_num_iterations - 1 ); */ + offset_diffuse = L_mult0( hCrend->diffuse_delay_line_rw_index, subframe_length ); /* subframe_length *( pCrend->hHrtfCrend->num_iterations_diffuse[0] - 1 ); */ IF( pCrend->hHrtfCrend->num_iterations_diffuse[0] > 0 ) { @@ -1971,10 +1974,11 @@ static ivas_error ivas_rend_crendConvolver( move16(); FOR( m = 0; m < pCrend->hHrtfCrend->num_iterations[i][j]; m++ ) { - offset_in = add( add( hCrend->delay_line_rw_index, sub( pCrend->hHrtfCrend->max_num_iterations, pCrend->hHrtfCrend->num_iterations[i][j] ) ), add( m, 1 ) ); - offset_in = offset_in % ( pCrend->hHrtfCrend->max_num_iterations ); + index_in = add( add( hCrend->delay_line_rw_index, sub( pCrend->hHrtfCrend->max_num_iterations, pCrend->hHrtfCrend->num_iterations[i][j] ) ), add( m, 1 ) ); + index_in = index_in % ( pCrend->hHrtfCrend->max_num_iterations ); move16(); - offset_in = imult1616( offset_in, subframe_length ); + offset_in = L_mult0( index_in, subframe_length ); + pFreq_buf_re = &hCrend->freq_buffer_re_fx[i][offset_in]; // Qx pFreq_buf_im = &hCrend->freq_buffer_im_fx[i][offset_in]; // Qx pFreq_filt_re = &pCrend->hHrtfCrend->pOut_to_bin_re_fx[i][j][offset]; // Q29 @@ -1987,7 +1991,8 @@ static ivas_error ivas_rend_crendConvolver( move32(); move32(); } - offset = add( offset, k ); + + offset = L_add( offset, k ); } i = add( i, 1 ); } @@ -1997,10 +2002,11 @@ static ivas_error ivas_rend_crendConvolver( move16(); FOR( m = 0; m < pCrend->hHrtfCrend->num_iterations_diffuse[j]; m++ ) { - offset_diffuse = add( hCrend->diffuse_delay_line_rw_index, add( m, 1 ) ); - offset_diffuse = offset_diffuse % pCrend->hHrtfCrend->num_iterations_diffuse[0]; + index_in = add( hCrend->diffuse_delay_line_rw_index, add( m, 1 ) ); + index_in = index_in % pCrend->hHrtfCrend->num_iterations_diffuse[0]; move16(); - offset_diffuse = imult1616( offset_diffuse, subframe_length ); + offset_diffuse = L_mult0( index_in, subframe_length ); + pFreq_buf_re = &hCrend->freq_buffer_re_diffuse_fx[offset_diffuse]; // Qx pFreq_buf_im = &hCrend->freq_buffer_im_diffuse_fx[offset_diffuse]; // Qx pFreq_filt_re = &pCrend->hHrtfCrend->pOut_to_bin_diffuse_re_fx[j][offset]; // Q31 @@ -2012,7 +2018,8 @@ static ivas_error ivas_rend_crendConvolver( move32(); move32(); } - offset = add( offset, k ); + offset = L_add( offset, k ); + move32(); } ivas_imdft_fx( tmp_out_re, tmp_out_im, pOut, subframe_length ); @@ -2045,175 +2052,6 @@ static ivas_error ivas_rend_crendConvolver( return IVAS_ERR_OK; } -/*-----------------------------------------------------------------------------------------* - * Function ivas_rend_crend_Process() - * - * Process call for IVAS Crend renderer - *-----------------------------------------------------------------------------------------*/ - -ivas_error ivas_rend_crendProcess( - const CREND_WRAPPER *pCrend, - const AUDIO_CONFIG inConfig, - const AUDIO_CONFIG outConfig, - DECODER_CONFIG_HANDLE hDecoderConfig, - COMBINED_ORIENTATION_HANDLE hCombinedOrientationData, - IVAS_OUTPUT_SETUP_HANDLE hIntSetup, - EFAP_HANDLE hEFAPdata, - Word32 *output_fx[], /* i/o: input/output audio channels Qx */ - const Word32 output_Fs, -#ifdef SPLIT_REND_WITH_HEAD_ROT - const Word16 num_subframes /* i : number of subframes to render */, - const Word16 pos_idx -#else - const Word16 num_subframes /* i : number of subframes to render */ -#endif -) -{ - Word16 i, subframe_idx, subframe_len; - Word16 nchan_out; - Word32 pcm_tmp_fx[BINAURAL_CHANNELS][L_FRAME48k]; - Word32 *p_pcm_tmp_fx[BINAURAL_CHANNELS]; - IVAS_REND_AudioConfigType inConfigType; - Word8 combinedOrientationEnabled; - ivas_error error; - CREND_HANDLE hCrend; - -#ifdef SPLIT_REND_WITH_HEAD_ROT - hCrend = pCrend->hCrend[pos_idx]; -#else - hCrend = pCrend->hCrend; -#endif - - combinedOrientationEnabled = 0; - move16(); - IF( hCombinedOrientationData != NULL ) - { - FOR( subframe_idx = 0; subframe_idx < num_subframes; subframe_idx++ ) - { - IF( hCombinedOrientationData->enableCombinedOrientation[subframe_idx] != 0 ) - { - combinedOrientationEnabled = 1; - move16(); - BREAK; - } - } - } - - push_wmops( "ivas_rend_crendProcess" ); - inConfigType = getAudioConfigType( inConfig ); - - IF( NE_32( ( error = getAudioConfigNumChannels( outConfig, &nchan_out ) ), IVAS_ERR_OK ) ) - { - return error; - } - subframe_len = L_SUBFRAME_48k; - move16(); - SWITCH( output_Fs ) - { - case 48000: - subframe_len = L_SUBFRAME_48k; - move16(); - BREAK; - case 32000: - subframe_len = L_SUBFRAME_32k; - move16(); - BREAK; - case 16000: - subframe_len = L_SUBFRAME_16k; - move16(); - BREAK; - case 8000: - subframe_len = L_SUBFRAME_8k; - move16(); - BREAK; - default: - BREAK; - } - - FOR( i = 0; i < BINAURAL_CHANNELS; i++ ) - { - p_pcm_tmp_fx[i] = pcm_tmp_fx[i]; - move32(); - } - - FOR( subframe_idx = 0; subframe_idx < num_subframes; subframe_idx++ ) - { - /* Early Reflections */ - IF( hCrend->reflections != NULL ) - { - test(); - IF( EQ_16( hCrend->reflections->use_er, 1 ) && EQ_16( hCrend->reflections->is_ready, 1 ) ) - { - IF( NE_32( ( error = ivas_er_process( hCrend->reflections, subframe_len, subframe_idx, output_fx, inConfig ) ), IVAS_ERR_OK ) ) - { - return error; - } - } - } - - test(); - IF( hDecoderConfig && combinedOrientationEnabled ) - { - /* Orientation tracking */ - - /* Rotation in SHD for: - MC with elevation (5_1_2 / 5_1_4 / 7_1_4) -> BINAURAL - SBA SPAR -> BINAURAL or BINAURAL_ROOM - */ - test(); - test(); - test(); - IF( EQ_16( inConfig, IVAS_AUDIO_CONFIG_FOA ) || EQ_16( inConfig, IVAS_AUDIO_CONFIG_HOA2 ) || EQ_16( inConfig, IVAS_AUDIO_CONFIG_HOA3 ) ) - { - rotateFrame_shd( hCombinedOrientationData, output_fx, subframe_len, *hIntSetup, subframe_idx ); - } - /* Rotation in SD for MC -> BINAURAL_ROOM */ - ELSE IF( ( hIntSetup != NULL ) && hIntSetup->is_loudspeaker_setup ) - { - rotateFrame_sd( hCombinedOrientationData, output_fx, subframe_len, *hIntSetup, hEFAPdata, subframe_idx ); - } - } - test(); - IF( EQ_16( inConfigType, IVAS_REND_AUDIO_CONFIG_TYPE_CHANNEL_BASED ) || EQ_16( inConfigType, IVAS_REND_AUDIO_CONFIG_TYPE_AMBISONICS ) ) - { -#ifdef SPLIT_REND_WITH_HEAD_ROT - IF( NE_32( ( error = ivas_rend_crendConvolver( pCrend, inConfig, outConfig, output_fx, p_pcm_tmp_fx, output_Fs, subframe_idx, pos_idx ) ), IVAS_ERR_OK ) ) -#else - IF( NE_32( ( error = ivas_rend_crendConvolver( pCrend, inConfig, outConfig, output_fx, p_pcm_tmp_fx, output_Fs, subframe_idx ) ), IVAS_ERR_OK ) ) -#endif - { - return error; - } - - IF( hCrend->hReverb != NULL ) - { -#ifdef SPLIT_REND_WITH_HEAD_ROT - IF( NE_32( ( error = ivas_reverb_process_fx( pCrend->hCrend[pos_idx]->hReverb, inConfig, 1, output_fx, p_pcm_tmp_fx, subframe_idx ) ), IVAS_ERR_OK ) ) -#else - IF( NE_32( ( error = ivas_reverb_process_fx( pCrend->hCrend->hReverb, inConfig, 1, output_fx, p_pcm_tmp_fx, subframe_idx ) ), IVAS_ERR_OK ) ) -#endif - { - return error; - } - } - - /* update combined orientation access index */ - ivas_combined_orientation_update_index( hCombinedOrientationData, subframe_len ); - } - ELSE - { - return IVAS_ERR_INVALID_INPUT_FORMAT; - } - } - /* move to output */ - FOR( i = 0; i < nchan_out; i++ ) - { - MVR2R_WORD32( pcm_tmp_fx[i], output_fx[i], imult1616( num_subframes, subframe_len ) ); - } - - pop_wmops(); - return IVAS_ERR_OK; -} /*-----------------------------------------------------------------------------------------* * Function ivas_rend_crendProcessSubframe() @@ -2287,24 +2125,66 @@ ivas_error ivas_rend_crendProcessSubframe( { p_pcm_tmp_fx[ch] = pcm_tmp_fx[ch]; } - slot_size = hTcBuffer->n_samples_granularity; - move16(); - /* loop for synthesis, assume we always have to render in multiples of 5ms subframes with spills */ - slots_to_render = s_min( sub( hTcBuffer->num_slots, hTcBuffer->slots_rendered ), idiv1616( n_samples_to_render, slot_size ) ); - first_sf = hTcBuffer->subframes_rendered; - move16(); - last_sf = first_sf; - move16(); + IF( hTcBuffer != NULL ) + { + slot_size = hTcBuffer->n_samples_granularity; + move16(); + + /* loop for synthesis, assume we always have to render in multiples of 5ms subframes with spills */ + slots_to_render = s_min( sub( hTcBuffer->num_slots, hTcBuffer->slots_rendered ), idiv1616( n_samples_to_render, slot_size ) ); + first_sf = hTcBuffer->subframes_rendered; + move16(); + last_sf = first_sf; + move16(); + + WHILE( slots_to_render > 0 ) + { + slots_to_render = sub( slots_to_render, hTcBuffer->subframe_nbslots[last_sf] ); + last_sf = add( last_sf, 1 ); + } - WHILE( slots_to_render > 0 ) + subframe_len = -1; /* will be set later */ + move16(); + } + ELSE { - slots_to_render = sub( slots_to_render, hTcBuffer->subframe_nbslots[last_sf] ); - last_sf = add( last_sf, 1 ); + Word16 n_den, den, last_sf_tmp; + + SWITCH( output_Fs ) + { + case 48000: + subframe_len = L_SUBFRAME_48k; + move16(); + BREAK; + case 32000: + subframe_len = L_SUBFRAME_32k; + move16(); + BREAK; + case 16000: + default: + subframe_len = L_SUBFRAME_16k; + move16(); + BREAK; + } + + first_sf = 0; + move16(); + last_sf = idiv1616( n_samples_to_render, subframe_len ); + + n_den = norm_s( subframe_len ); + den = shl( subframe_len, n_den ); + last_sf_tmp = div_s( n_samples_to_render, den ); + last_sf = shr( last_sf_tmp, sub( 15, n_den ) ); } + FOR( subframe_idx = first_sf; subframe_idx < last_sf; subframe_idx++ ) { - subframe_len = imult1616( hTcBuffer->subframe_nbslots[subframe_idx], hTcBuffer->n_samples_granularity ); + if ( hTcBuffer != NULL ) + { + subframe_len = imult1616( hTcBuffer->subframe_nbslots[subframe_idx], hTcBuffer->n_samples_granularity ); + } + /* Early Reflections */ IF( hCrend->reflections != NULL ) { @@ -2368,6 +2248,7 @@ ivas_error ivas_rend_crendProcessSubframe( } } #endif + FOR( ch = 0; ch < nchan_in; ch++ ) { tc_local_fx[ch] += subframe_len; @@ -2376,13 +2257,18 @@ ivas_error ivas_rend_crendProcessSubframe( { p_pcm_tmp_fx[ch] += subframe_len; } - hTcBuffer->slots_rendered = add( hTcBuffer->subframe_nbslots[subframe_idx], hTcBuffer->slots_rendered ); - move16(); + + if ( hTcBuffer != NULL ) + { + hTcBuffer->slots_rendered = add( hTcBuffer->subframe_nbslots[subframe_idx], hTcBuffer->slots_rendered ); + move16(); + } } ELSE { return IVAS_ERR_INVALID_INPUT_FORMAT; } + /* update combined orientation access index */ ivas_combined_orientation_update_index( hCombinedOrientationData, subframe_len ); } @@ -2404,14 +2290,19 @@ ivas_error ivas_rend_crendProcessSubframe( } } } + /* move to output */ FOR( ch = 0; ch < nchan_out; ch++ ) { MVR2R_WORD32( pcm_tmp_fx[ch], output[ch], n_samples_to_render ); // Qx } - hTcBuffer->subframes_rendered = last_sf; - move16(); + if ( hTcBuffer != NULL ) + { + hTcBuffer->subframes_rendered = last_sf; + move16(); + } + pop_wmops(); return IVAS_ERR_OK; diff --git a/lib_rend/ivas_dirac_ana.c b/lib_rend/ivas_dirac_ana_fx.c similarity index 99% rename from lib_rend/ivas_dirac_ana.c rename to lib_rend/ivas_dirac_ana_fx.c index 06744dc6e3a5675cc2cb0734a71962e1425067fe..8124c4967cdeac890fdaf3c55d94f20489afe838 100644 --- a/lib_rend/ivas_dirac_ana.c +++ b/lib_rend/ivas_dirac_ana_fx.c @@ -33,13 +33,11 @@ #include "options.h" #include #include "ivas_cnst.h" -#include "ivas_prot_rend.h" -#include "ivas_prot.h" -#include "prot.h" +#include "ivas_prot_rend_fx.h" +#include "prot_fx.h" #include "ivas_stat_rend.h" #include "ivas_rom_com.h" #include "wmc_auto.h" -#include "prot_fx.h" #include "ivas_prot_fx.h" /*------------------------------------------------------------------------- @@ -109,7 +107,7 @@ ivas_error ivas_dirac_ana_open_fx( move16(); FOR( i = 0; i < hDirAC->num_Cldfb_instances; i++ ) { - IF( NE_32( ( error = openCldfb_ivas_fx( &( hDirAC->cldfbAnaEnc[i] ), CLDFB_ANALYSIS, input_Fs, CLDFB_PROTOTYPE_5_00MS ) ), IVAS_ERR_OK ) ) + IF( NE_32( ( error = openCldfb_ivas_fx( &( hDirAC->cldfbAnaEnc[i] ), CLDFB_ANALYSIS, input_Fs, CLDFB_PROTOTYPE_5_00MS, DEC ) ), IVAS_ERR_OK ) ) { return error; } diff --git a/lib_rend/ivas_dirac_dec_binaural_functions.c b/lib_rend/ivas_dirac_dec_binaural_functions_fx.c similarity index 94% rename from lib_rend/ivas_dirac_dec_binaural_functions.c rename to lib_rend/ivas_dirac_dec_binaural_functions_fx.c index d3e0d773551cc7505e5913f9b5bc77e0f0120afa..32bcb732e538ffec57d83efb36a1a19a8b5fa9d0 100644 --- a/lib_rend/ivas_dirac_dec_binaural_functions.c +++ b/lib_rend/ivas_dirac_dec_binaural_functions_fx.c @@ -34,10 +34,8 @@ #include "options.h" #include #include -#include "prot.h" #include "prot_fx.h" -#include "ivas_prot.h" -#include "ivas_prot_rend.h" +#include "ivas_prot_rend_fx.h" #include "ivas_cnst.h" #include "ivas_rom_binauralRenderer.h" #include "ivas_rom_binaural_crend_head.h" @@ -74,18 +72,16 @@ Word16 slot_fx[4] = { 32767, 16384, 10922, 8192 }; #define INV_TAN30_FX 28377 // Q14 #define EPSILON_MANT 1180591621 /* 1e-12 = 0.5497558*(2^-39) in Q70 */ #define EPSILON_EXP ( -39 ) -#ifdef FIX_1009_REPLACE_DIV_SQRT_BY_ISQRT_LC -#define ONE_DIV_EPSILON_MANT 1953125000 /* 1e+12 = 0.9094947*(2^40) */ -#define ONE_DIV_EPSILON_EXP ( 40 ) -#endif -#define ADAPT_HTPROTO_ROT_LIM_1 0.8f +#define ONE_DIV_EPSILON_MANT 1953125000 /* 1e+12 = 0.9094947*(2^40) */ +#define ONE_DIV_EPSILON_EXP ( 40 ) +#define ADAPT_HTPROTO_ROT_LIM_1 0.8f #define MAX_GAIN_CACHE_SIZE ( ( MASA_MAXIMUM_DIRECTIONS * 3 ) + MAX_NUM_OBJECTS ) /* == different calls to get gains */ typedef struct hrtfGainCache { - int16_t azi; - int16_t ele; + Word16 azi; + Word16 ele; Word32 shVec_fx[HRTF_SH_CHANNELS]; @@ -93,13 +89,13 @@ typedef struct hrtfGainCache typedef struct parambin_rend_config_data { - int16_t separateCenterChannelRendering; + Word16 separateCenterChannelRendering; IVAS_FORMAT ivas_format; MC_MODE mc_mode; - int32_t ivas_total_brate; - int16_t nchan_transport; + Word32 ivas_total_brate; + Word16 nchan_transport; Word32 qualityBasedSmFactor_fx; /* Q31 */ - int16_t processReverb; + Word16 processReverb; ISM_MODE ism_mode; } PARAMBIN_REND_CONFIG, *PARAMBIN_REND_CONFIG_HANDLE; @@ -120,7 +116,7 @@ static void ivas_dirac_dec_binaural_formulate_target_covariance_matrices_fx( DIR static void ivas_dirac_dec_binaural_formulate_input_and_target_covariance_matrices_fx( DIRAC_DEC_BIN_HANDLE hDiracDecBin, SPAT_PARAM_REND_COMMON_DATA_HANDLE hSpatParamRendCom, PARAMBIN_REND_CONFIG_HANDLE hConfig, Word32 inRe_fx[][CLDFB_SLOTS_PER_SUBFRAME][CLDFB_NO_CHANNELS_MAX] /*q*/, Word32 inIm_fx[][CLDFB_SLOTS_PER_SUBFRAME][CLDFB_NO_CHANNELS_MAX] /*q*/, Word32 Rmat_fx[3][3] /*Q30*/, const Word16 subframe, const Word16 isHeadtracked, const MASA_ISM_DATA_HANDLE hMasaIsmData, Word16 q ); #endif -static void ivas_dirac_dec_binaural_determine_processing_matrices_fx( DIRAC_DEC_BIN_HANDLE hDiracDecBin, SPAT_PARAM_REND_COMMON_DATA_HANDLE hSpatParamRendCom, PARAMBIN_REND_CONFIG_HANDLE hConfig, const int16_t max_band_decorr, Word32 Rmat[3][3] /*Q30*/, const Word16 subframe, const Word16 isHeadtracked, const Word16 nchanSeparateChannels, const MASA_ISM_DATA_HANDLE hMasaIsmData ); +static void ivas_dirac_dec_binaural_determine_processing_matrices_fx( DIRAC_DEC_BIN_HANDLE hDiracDecBin, SPAT_PARAM_REND_COMMON_DATA_HANDLE hSpatParamRendCom, PARAMBIN_REND_CONFIG_HANDLE hConfig, const Word16 max_band_decorr, Word32 Rmat[3][3] /*Q30*/, const Word16 subframe, const Word16 isHeadtracked, const Word16 nchanSeparateChannels, const MASA_ISM_DATA_HANDLE hMasaIsmData ); #ifdef SPLIT_REND_WITH_HEAD_ROT static void ivas_dirac_dec_binaural_process_output_fx( DIRAC_DEC_BIN_HANDLE hDiracDecBin, SPAT_PARAM_REND_COMMON_DATA_HANDLE hSpatParamRendCom, HANDLE_CLDFB_FILTER_BANK cldfbSynDec[MAX_OUTPUT_CHANNELS], Word32 *output_fx[] /*q_out*/, Word16 *q_out, Word32 inRe[][CLDFB_SLOTS_PER_SUBFRAME][CLDFB_NO_CHANNELS_MAX] /*q_inp*/, Word32 inIm[][CLDFB_SLOTS_PER_SUBFRAME][CLDFB_NO_CHANNELS_MAX] /*q_inp*/, const Word16 q_inp, const Word16 max_band_decorr, const Word16 numInChannels, const Word16 processReverb, const Word16 subframe, const Word16 q_mat, Word32 outRe[][CLDFB_SLOTS_PER_SUBFRAME][CLDFB_NO_CHANNELS_MAX], Word32 outIm[][CLDFB_SLOTS_PER_SUBFRAME][CLDFB_NO_CHANNELS_MAX], Word32 reverbRe[][CLDFB_SLOTS_PER_SUBFRAME][CLDFB_NO_CHANNELS_MAX], Word32 reverbIm[][CLDFB_SLOTS_PER_SUBFRAME][CLDFB_NO_CHANNELS_MAX], Word32 decorrRe[][CLDFB_SLOTS_PER_SUBFRAME][CLDFB_NO_CHANNELS_MAX], Word32 decorrIm[][CLDFB_SLOTS_PER_SUBFRAME][CLDFB_NO_CHANNELS_MAX], Word16 *Q_inp_mix, const Word8 recompute ); @@ -153,10 +149,8 @@ static void matrixTransp2Mul_fx( Word32 Bre[BINAURAL_CHANNELS][BINAURAL_CHANNELS] /*q_B*/, Word32 Bim[BINAURAL_CHANNELS][BINAURAL_CHANNELS] /*q_B*/, Word16 *q_B, -#ifdef FIX_1072_SPEEDUP_matrixTransp2Mul_fx - int Ascale, - int Bscale, -#endif + Word32 Ascale, + Word32 Bscale, Word32 outRe[BINAURAL_CHANNELS][BINAURAL_CHANNELS] /*q_out*/, Word32 outIm[BINAURAL_CHANNELS][BINAURAL_CHANNELS] /*q_out*/, Word16 *q_out ); @@ -911,12 +905,9 @@ static void ivas_dirac_dec_binaural_internal_fx( IF( hDiracDecBin->useTdDecorr ) { -#ifdef FIX_ISSUE_1185 Word32 tmp_arr[60]; -#endif FOR( ch = BINAURAL_CHANNELS; ch < ( 2 * BINAURAL_CHANNELS ); ch++ ) { -#ifdef FIX_ISSUE_1185 q_cldfb[ch][slot] = sub( q_input, 1 ); move16(); @@ -934,15 +925,6 @@ static void ivas_dirac_dec_binaural_internal_fx( scale_sig32( st_ivas->cldfbAnaDec[ch]->cldfb_state_fx, sub( st_ivas->cldfbAnaDec[ch]->p_filter_length, st_ivas->cldfbAnaDec[ch]->no_channels ), sub( q_input, st_ivas->cldfbAnaDec[ch]->Q_cldfb_state ) ); st_ivas->cldfbAnaDec[ch]->Q_cldfb_state = q_input; move16(); -#else - q_cldfb[ch][slot] = q_input; - move16(); - cldfbAnalysis_ts_fx_fixed_q( - &( st_ivas->hTcBuffer->tc_fx[ch][nBins * slot + offsetSamples] ), - Cldfb_RealBuffer_in_fx[ch][slot], - Cldfb_ImagBuffer_in_fx[ch][slot], - nBins, st_ivas->cldfbAnaDec[ch], &q_cldfb[ch][slot] ); -#endif /*FIX_ISSUE_1185*/ test(); test(); @@ -984,10 +966,8 @@ static void ivas_dirac_dec_binaural_internal_fx( { scale_sig32( Cldfb_RealBuffer_in_fx[cha][slot], 60, sub( q_inp, q_cldfb[cha][slot] ) ); // Q6 scale_sig32( Cldfb_ImagBuffer_in_fx[cha][slot], 60, sub( q_inp, q_cldfb[cha][slot] ) ); // Q6 -#ifdef FIX_ISSUE_1185 q_cldfb[cha][slot] = 6; move16(); -#endif } } @@ -3000,10 +2980,8 @@ static void ivas_dirac_dec_binaural_determine_processing_matrices_fx( matrixMul_fx( Mre_fx, Mim_fx, &q_M, CxRe_fx, CxIm_fx, &q_Cx, tmpMtxRe_fx, tmpMtxIm_fx, &q_tmp ); matrixTransp2Mul_fx( tmpMtxRe_fx, tmpMtxIm_fx, &q_tmp, Mre_fx, Mim_fx, &q_M, -#ifdef FIX_1072_SPEEDUP_matrixTransp2Mul_fx 1 /*int Ascale*/, 0 /*int Bscale*/, -#endif resultMtxRe_fx, resultMtxIm_fx, &q_res ); /* When below the frequency limit where decorrelation is applied, we inject the decorrelated @@ -3169,13 +3147,12 @@ static void ivas_dirac_dec_binaural_determine_processing_matrices_fx( tmp1 = BASOP_Util_Add_Mant32Exp( tmp2, sub( 31, q_tmp2 ), missingOutputEne_fx, sub( 31, q_missingOutputEne ), &exp1 ); { - Word16 exp_temp; - tmp2 = BASOP_Util_Add_Mant32Exp( tmp2, sub( 31, q_tmp2 ), EPSILON_MANT, EPSILON_EXP, &exp_temp ); - tmp2 = BASOP_Util_Divide3232_Scale_cadence( tmp1, tmp2, &exp ); - exp2 = add( exp, sub( exp1, exp_temp ) ); + tmp2 = BASOP_Util_Add_Mant32Exp( tmp2, sub( 31, q_tmp2 ), EPSILON_MANT, EPSILON_EXP, &exp2 ); + tmp2 = ISqrt32( tmp2, &exp2 ); + gain_fx = Mpy_32_32( tmp2, Sqrt32( tmp1, &exp1 ) ); + q_gain = sub( 31, add( exp2, exp1 ) ); } - gain_fx = Sqrt32( tmp2, &exp2 ); - q_gain = sub( 31, exp2 ); + // 1073741824 = 4 in Q28 IF( LT_16( q_gain, Q28 ) ) @@ -3691,15 +3668,23 @@ static void ivas_dirac_dec_binaural_process_output_fx( if ( recompute == 1 ) { /* Inverse filter bank */ - cldfbSynthesis_ivas_fx( &outSlotRePr_fx, &outSlotImPr_fx, &( output_fx[chA][nBins * slot + offsetSamples] ), nBins, cldfbSynDec[chA] ); +#ifdef OPT_AVOID_STATE_BUF_RESCALE + cldfbSynthesis_ivas_fx( &outSlotRePr_fx, &outSlotImPr_fx, &( output_fx[chA][nBins * slot + offsetSamples] ), nBins, 0, 0, cldfbSynDec[chA] ); +#else + cldfbSynthesis_ivas_fx( &outSlotRePr_fx, &outSlotImPr_fx, &( output_fx[chA][nBins * slot + offsetSamples] ), nBins, 0, cldfbSynDec[chA] ); +#endif cldfbSynDec[chA]->Q_cldfb_state = sub( q_result, 1 ); move16(); } #else - cldfbSynthesis_ivas_fx( &outSlotRePr_fx, &outSlotImPr_fx, &( output_fx[chA][nBins * slot + offsetSamples] ), nBins, cldfbSynDec[chA] ); +#ifdef OPT_AVOID_STATE_BUF_RESCALE + cldfbSynthesis_ivas_fx( &outSlotRePr_fx, &outSlotImPr_fx, &( output_fx[chA][nBins * slot + offsetSamples] ), nBins, 0, 0, cldfbSynDec[chA] ); +#else + cldfbSynthesis_ivas_fx( &outSlotRePr_fx, &outSlotImPr_fx, &( output_fx[chA][nBins * slot + offsetSamples] ), nBins, 0, cldfbSynDec[chA] ); +#endif cldfbSynDec[chA]->Q_cldfb_state = sub( q_result, 1 ); move16(); -#endif +#endif /* SPLIT_REND_WITH_HEAD_ROT */ } } #ifdef SPLIT_REND_WITH_HEAD_ROT @@ -4351,7 +4336,8 @@ static void eig2x2_fx( /* Numeric case, when input is practically zeros */ // IF( D_fx[0] < EPSILON_FX ) - IF( EQ_16( BASOP_Util_Cmp_Mant32Exp( D_fx[0], *q_D, EPSILON_MANT, EPSILON_EXP ), -1 ) ) + + IF( LT_32( L_shl_sat( D_fx[0], sub( sub( 31, *q_D ), EPSILON_EXP ) ), EPSILON_MANT ) ) { Ure_fx[0][0] = ONE_IN_Q31; move32(); @@ -4570,16 +4556,17 @@ static void eig2x2_fx( move16(); } } - - IF( q_U_1 != 0 ) + if ( q_U_1 != 0 ) { *q_U = q_U_1; + move16(); } - ELSE + + if ( q_U_1 == 0 ) { *q_U = q_U_2; + move16(); } - move16(); return; } @@ -4634,11 +4621,6 @@ static void matrixMul_fx( Word16 chA, chB; Word16 min_q_shift1, min_q_shift2; Word16 size = i_mult( BINAURAL_CHANNELS, BINAURAL_CHANNELS ); -#ifndef FIX_1113_OPT_DIRAC_BIN_REND -#ifndef IVAS_ENH64_CADENCE_CHANGES - Word32 tmp1, tmp2; -#endif -#endif min_q_shift1 = sub( s_min( L_norm_arr( Are_fx[0], size ), L_norm_arr( Aim_fx[0], size ) ), 1 ); min_q_shift2 = sub( s_min( L_norm_arr( Bre_fx[0], size ), L_norm_arr( Bim_fx[0], size ) ), 1 ); @@ -4667,7 +4649,6 @@ static void matrixMul_fx( outIm_fx[chA][chB] = L_add( outIm_fx[chA][chB], W_extract_h( W_mac_32_32( W_mult_32_32( Are_fx[chA][0], Bim_fx[0][chB] ), Are_fx[chA][1], Bim_fx[1][chB] ) ) ); move32(); #else -#ifdef FIX_1113_OPT_DIRAC_BIN_REND outRe_fx[chA][chB] = Msub_32_32( Msub_32_32( Madd_32_32( Mpy_32_32( Are_fx[chA][0], Bre_fx[0][chB] ), Are_fx[chA][1], Bre_fx[1][chB] ), Aim_fx[chA][0], Bim_fx[0][chB] ), @@ -4678,106 +4659,6 @@ static void matrixMul_fx( Are_fx[chA][0], Bim_fx[0][chB] ), Are_fx[chA][1], Bim_fx[1][chB] ); move32(); -#else - test(); - test(); - test(); - IF( ( Are_fx[chA][0] >= 0 && Bre_fx[0][chB] >= 0 ) || ( Are_fx[chA][0] < 0 && Bre_fx[0][chB] < 0 ) ) - { - tmp1 = Mpy_32_32( Are_fx[chA][0], Bre_fx[0][chB] ); - } - ELSE - { - tmp1 = L_negate( Mpy_32_32( L_abs( Are_fx[chA][0] ), L_abs( Bre_fx[0][chB] ) ) ); - } - test(); - test(); - test(); - IF( ( Are_fx[chA][1] >= 0 && Bre_fx[1][chB] >= 0 ) || ( Are_fx[chA][1] < 0 && Bre_fx[1][chB] < 0 ) ) - { - tmp2 = Mpy_32_32( Are_fx[chA][1], Bre_fx[1][chB] ); - } - ELSE - { - tmp2 = L_negate( Mpy_32_32( L_abs( Are_fx[chA][1] ), L_abs( Bre_fx[1][chB] ) ) ); - } - outRe_fx[chA][chB] = L_add( tmp1, tmp2 ); - move32(); - - test(); - test(); - test(); - IF( ( Aim_fx[chA][0] >= 0 && Bim_fx[0][chB] >= 0 ) || ( Aim_fx[chA][0] < 0 && Bim_fx[0][chB] < 0 ) ) - { - tmp1 = Mpy_32_32( Aim_fx[chA][0], Bim_fx[0][chB] ); - } - ELSE - { - tmp1 = L_negate( Mpy_32_32( L_abs( Aim_fx[chA][0] ), L_abs( Bim_fx[0][chB] ) ) ); - } - test(); - test(); - test(); - IF( ( Aim_fx[chA][1] >= 0 && Bim_fx[1][chB] >= 0 ) || ( Aim_fx[chA][1] < 0 && Bim_fx[1][chB] < 0 ) ) - { - tmp2 = Mpy_32_32( Aim_fx[chA][1], Bim_fx[1][chB] ); - } - ELSE - { - tmp2 = L_negate( Mpy_32_32( L_abs( Aim_fx[chA][1] ), L_abs( Bim_fx[1][chB] ) ) ); - } - outRe_fx[chA][chB] = L_sub( outRe_fx[chA][chB], L_add( tmp1, tmp2 ) ); - move32(); - test(); - test(); - test(); - IF( ( Aim_fx[chA][0] >= 0 && Bre_fx[0][chB] >= 0 ) || ( Aim_fx[chA][0] < 0 && Bre_fx[0][chB] < 0 ) ) - { - tmp1 = Mpy_32_32( Aim_fx[chA][0], Bre_fx[0][chB] ); - } - ELSE - { - tmp1 = L_negate( Mpy_32_32( L_abs( Aim_fx[chA][0] ), L_abs( Bre_fx[0][chB] ) ) ); - } - test(); - test(); - test(); - IF( ( Aim_fx[chA][1] >= 0 && Bre_fx[1][chB] >= 0 ) || ( Aim_fx[chA][1] < 0 && Bre_fx[1][chB] < 0 ) ) - { - tmp2 = Mpy_32_32( Aim_fx[chA][1], Bre_fx[1][chB] ); - } - ELSE - { - tmp2 = L_negate( Mpy_32_32( L_abs( Aim_fx[chA][1] ), L_abs( Bre_fx[1][chB] ) ) ); - } - outIm_fx[chA][chB] = L_add( tmp1, tmp2 ); - move32(); - - test(); - test(); - test(); - IF( ( Are_fx[chA][0] >= 0 && Bim_fx[0][chB] >= 0 ) || ( Are_fx[chA][0] < 0 && Bim_fx[0][chB] < 0 ) ) - { - tmp1 = Mpy_32_32( Are_fx[chA][0], Bim_fx[0][chB] ); - } - ELSE - { - tmp1 = L_negate( Mpy_32_32( L_abs( Are_fx[chA][0] ), L_abs( Bim_fx[0][chB] ) ) ); - } - test(); - test(); - test(); - IF( ( Are_fx[chA][1] >= 0 && Bim_fx[1][chB] >= 0 ) || ( Are_fx[chA][1] < 0 && Bim_fx[1][chB] < 0 ) ) - { - tmp2 = Mpy_32_32( Are_fx[chA][1], Bim_fx[1][chB] ); - } - ELSE - { - tmp2 = L_negate( Mpy_32_32( L_abs( Are_fx[chA][1] ), L_abs( Bim_fx[1][chB] ) ) ); - } - outIm_fx[chA][chB] = L_add( outIm_fx[chA][chB], L_add( tmp1, tmp2 ) ); - move32(); -#endif #endif /* #ifdef IVAS_ENH64_CADENCE_CHANGES */ } } @@ -4806,15 +4687,11 @@ static void matrixTransp1Mul_fx( { Word16 chA, chB; Word16 size = i_mult( BINAURAL_CHANNELS, BINAURAL_CHANNELS ); -#ifndef FIX_1113_OPT_DIRAC_BIN_REND - Word32 tmp1, tmp2; -#endif FOR( chA = 0; chA < BINAURAL_CHANNELS; chA++ ) { FOR( chB = 0; chB < BINAURAL_CHANNELS; chB++ ) { -#ifdef FIX_1113_OPT_DIRAC_BIN_REND outRe_fx[chA][chB] = Madd_32_32( Madd_32_32( Madd_32_32( Mpy_32_32( Are_fx[0][chA], Bre_fx[0][chB] ), Are_fx[1][chA], Bre_fx[1][chB] ), Aim_fx[0][chA], Bim_fx[0][chB] ), @@ -4825,74 +4702,6 @@ static void matrixTransp1Mul_fx( Aim_fx[0][chA], Bre_fx[0][chB] ), Aim_fx[1][chA], Bre_fx[1][chB] ); move32(); -#else - test(); - test(); - test(); - IF( ( ( ( Are_fx[0][chA] >= 0 ) && ( Bre_fx[0][chB] >= 0 ) ) || ( ( Are_fx[0][chA] < 0 ) && ( Bre_fx[0][chB] < 0 ) ) ) ) - tmp1 = Mpy_32_32( Are_fx[0][chA], Bre_fx[0][chB] ); - ELSE - tmp1 = L_negate( Mpy_32_32( L_abs( Are_fx[0][chA] ), L_abs( Bre_fx[0][chB] ) ) ); - test(); - test(); - test(); - IF( ( ( ( Are_fx[1][chA] >= 0 ) && ( Bre_fx[1][chB] >= 0 ) ) || ( ( Are_fx[1][chA] < 0 ) && ( Bre_fx[1][chB] < 0 ) ) ) ) - tmp2 = Mpy_32_32( Are_fx[1][chA], Bre_fx[1][chB] ); - ELSE - tmp2 = L_negate( Mpy_32_32( L_abs( Are_fx[1][chA] ), L_abs( Bre_fx[1][chB] ) ) ); - outRe_fx[chA][chB] = L_add( tmp1, tmp2 ); - move32(); - test(); - test(); - test(); - IF( ( ( ( L_negate( Aim_fx[0][chA] ) >= 0 ) && ( Bim_fx[0][chB] >= 0 ) ) || ( ( L_negate( Aim_fx[0][chA] ) < 0 ) && ( Bim_fx[0][chB] < 0 ) ) ) ) - tmp1 = Mpy_32_32( -Aim_fx[0][chA], Bim_fx[0][chB] ); - ELSE - tmp1 = L_negate( Mpy_32_32( L_abs( -Aim_fx[0][chA] ), L_abs( Bim_fx[0][chB] ) ) ); - test(); - test(); - test(); - IF( ( ( ( Aim_fx[1][chA] >= 0 ) && ( Bim_fx[1][chB] >= 0 ) ) || ( ( Aim_fx[1][chA] < 0 ) && ( Bim_fx[1][chB] < 0 ) ) ) ) - tmp2 = Mpy_32_32( Aim_fx[1][chA], Bim_fx[1][chB] ); - ELSE - tmp2 = L_negate( Mpy_32_32( L_abs( Aim_fx[1][chA] ), L_abs( Bim_fx[1][chB] ) ) ); - outRe_fx[chA][chB] = L_sub( outRe_fx[chA][chB], L_sub( tmp1, tmp2 ) ); - move32(); - - test(); - test(); - test(); - IF( ( ( ( L_negate( Aim_fx[0][chA] ) >= 0 ) && ( Bre_fx[0][chB] >= 0 ) ) || ( ( L_negate( Aim_fx[0][chA] ) < 0 ) && ( Bre_fx[0][chB] < 0 ) ) ) ) - tmp1 = Mpy_32_32( -Aim_fx[0][chA], Bre_fx[0][chB] ); - ELSE - tmp1 = L_negate( Mpy_32_32( L_abs( -Aim_fx[0][chA] ), L_abs( Bre_fx[0][chB] ) ) ); - test(); - test(); - test(); - IF( ( ( ( Aim_fx[1][chA] >= 0 ) && ( Bre_fx[1][chB] >= 0 ) ) || ( ( Aim_fx[1][chA] < 0 ) && ( Bre_fx[1][chB] < 0 ) ) ) ) - tmp2 = Mpy_32_32( Aim_fx[1][chA], Bre_fx[1][chB] ); - ELSE - tmp2 = L_negate( Mpy_32_32( L_abs( Aim_fx[1][chA] ), L_abs( Bre_fx[1][chB] ) ) ); - outIm_fx[chA][chB] = L_sub( tmp1, tmp2 ); - move32(); - - test(); - test(); - test(); - IF( ( ( ( Are_fx[0][chA] >= 0 ) && ( Bim_fx[0][chB] >= 0 ) ) || ( ( Are_fx[0][chA] < 0 ) && ( Bim_fx[0][chB] < 0 ) ) ) ) - tmp1 = Mpy_32_32( Are_fx[0][chA], Bim_fx[0][chB] ); - ELSE - tmp1 = L_negate( Mpy_32_32( L_abs( Are_fx[0][chA] ), L_abs( Bim_fx[0][chB] ) ) ); - test(); - test(); - test(); - IF( ( ( ( Are_fx[1][chA] >= 0 ) && ( Bim_fx[1][chB] >= 0 ) ) || ( ( Are_fx[1][chA] < 0 ) && ( Bim_fx[1][chB] < 0 ) ) ) ) - tmp2 = Mpy_32_32( Are_fx[1][chA], Bim_fx[1][chB] ); - ELSE - tmp2 = L_negate( Mpy_32_32( L_abs( Are_fx[1][chA] ), L_abs( Bim_fx[1][chB] ) ) ); - outIm_fx[chA][chB] = L_add( outIm_fx[chA][chB], L_add( tmp1, tmp2 ) ); - move32(); -#endif } } *q_out = sub( add( q_A, q_B ), 31 ); @@ -4914,10 +4723,8 @@ static void matrixTransp2Mul_fx( Word32 Bre_fx[BINAURAL_CHANNELS][BINAURAL_CHANNELS], /*q_B*/ Word32 Bim_fx[BINAURAL_CHANNELS][BINAURAL_CHANNELS], /*q_B*/ Word16 *q_B, -#ifdef FIX_1072_SPEEDUP_matrixTransp2Mul_fx - int Ascale, - int Bscale, -#endif + Word32 Ascale, + Word32 Bscale, Word32 outRe_fx[BINAURAL_CHANNELS][BINAURAL_CHANNELS], /*q_out*/ Word32 outIm_fx[BINAURAL_CHANNELS][BINAURAL_CHANNELS], /*q_out*/ Word16 *q_out ) @@ -4925,15 +4732,8 @@ static void matrixTransp2Mul_fx( Word16 chA, chB; Word16 min_q_shift; Word16 size = i_mult( BINAURAL_CHANNELS, BINAURAL_CHANNELS ); -#ifndef FIX_1113_OPT_DIRAC_BIN_REND -#ifndef IVAS_ENH64_CADENCE_CHANGES - Word32 tmp1, tmp2; -#endif -#endif -#ifdef FIX_1072_SPEEDUP_matrixTransp2Mul_fx IF( Ascale == 1 ) -#endif { min_q_shift = sub( s_min( L_norm_arr( Are_fx[0], size ), L_norm_arr( Aim_fx[0], size ) ), 1 ); scale_sig32( Are_fx[0], size, min_q_shift ); @@ -4942,9 +4742,7 @@ static void matrixTransp2Mul_fx( move16(); } -#ifdef FIX_1072_SPEEDUP_matrixTransp2Mul_fx IF( Bscale == 1 ) -#endif { min_q_shift = sub( s_min( L_norm_arr( Bre_fx[0], size ), L_norm_arr( Bim_fx[0], size ) ), 1 ); scale_sig32( Bre_fx[0], size, min_q_shift ); @@ -4967,7 +4765,6 @@ static void matrixTransp2Mul_fx( outIm_fx[chA][chB] = L_add( outIm_fx[chA][chB], W_extract_h( W_mac_32_32( W_mult_32_32( Are_fx[chA][0], L_negate( Bim_fx[chB][0] ) ), Are_fx[chA][1], L_negate( Bim_fx[chB][1] ) ) ) ); move32(); #else -#ifdef FIX_1113_OPT_DIRAC_BIN_REND outRe_fx[chA][chB] = Madd_32_32( Madd_32_32( Madd_32_32( Mpy_32_32( Are_fx[chA][0], Bre_fx[chB][0] ), Are_fx[chA][1], Bre_fx[chB][1] ), Aim_fx[chA][0], Bim_fx[chB][0] ), @@ -4978,75 +4775,6 @@ static void matrixTransp2Mul_fx( Are_fx[chA][0], Bim_fx[chB][0] ), Are_fx[chA][1], Bim_fx[chB][1] ); move32(); -#else - test(); - test(); - test(); - IF( ( Are_fx[chA][0] >= 0 && Bre_fx[chB][0] >= 0 ) || ( Are_fx[chA][0] < 0 && Bre_fx[chB][0] < 0 ) ) - tmp1 = Mpy_32_32( Are_fx[chA][0], Bre_fx[chB][0] ); - ELSE - tmp1 = L_negate( Mpy_32_32( L_abs( Are_fx[chA][0] ), L_abs( Bre_fx[chB][0] ) ) ); - test(); - test(); - test(); - IF( ( Are_fx[chA][1] >= 0 && Bre_fx[chB][1] >= 0 ) || ( Are_fx[chA][1] < 0 && Bre_fx[chB][1] < 0 ) ) - tmp2 = Mpy_32_32( Are_fx[chA][1], Bre_fx[chB][1] ); - ELSE - tmp2 = L_negate( Mpy_32_32( L_abs( Are_fx[chA][1] ), L_abs( Bre_fx[chB][1] ) ) ); - outRe_fx[chA][chB] = L_add( tmp1, tmp2 ); - move32(); - - test(); - test(); - test(); - IF( ( Aim_fx[chA][0] >= 0 && L_negate( Bim_fx[chB][0] ) >= 0 ) || ( Aim_fx[chA][0] < 0 && L_negate( Bim_fx[chB][0] ) < 0 ) ) - tmp1 = Mpy_32_32( Aim_fx[chA][0], -Bim_fx[chB][0] ); - ELSE - tmp1 = L_negate( Mpy_32_32( L_abs( Aim_fx[chA][0] ), L_abs( -Bim_fx[chB][0] ) ) ); - test(); - test(); - test(); - IF( ( Aim_fx[chA][1] >= 0 && L_negate( Bim_fx[chB][1] ) >= 0 ) || ( Aim_fx[chA][1] < 0 && L_negate( Bim_fx[chB][1] ) < 0 ) ) - tmp2 = Mpy_32_32( Aim_fx[chA][1], -Bim_fx[chB][1] ); - ELSE - tmp2 = L_negate( Mpy_32_32( L_abs( Aim_fx[chA][1] ), L_abs( -Bim_fx[chB][1] ) ) ); - outRe_fx[chA][chB] = L_sub( outRe_fx[chA][chB], L_add( tmp1, tmp2 ) ); - move32(); - - test(); - test(); - test(); - IF( ( Aim_fx[chA][0] >= 0 && Bre_fx[chB][0] >= 0 ) || ( Aim_fx[chA][0] < 0 && Bre_fx[chB][0] < 0 ) ) - tmp1 = Mpy_32_32( Aim_fx[chA][0], Bre_fx[chB][0] ); - ELSE - tmp1 = L_negate( Mpy_32_32( L_abs( Aim_fx[chA][0] ), L_abs( Bre_fx[chB][0] ) ) ); - test(); - test(); - test(); - IF( ( Aim_fx[chA][1] >= 0 && Bre_fx[chB][1] >= 0 ) || ( Aim_fx[chA][1] < 0 && Bre_fx[chB][1] < 0 ) ) - tmp2 = Mpy_32_32( Aim_fx[chA][1], Bre_fx[chB][1] ); - ELSE - tmp2 = L_negate( Mpy_32_32( L_abs( Aim_fx[chA][1] ), L_abs( Bre_fx[chB][1] ) ) ); - outIm_fx[chA][chB] = L_add( tmp1, tmp2 ); - move32(); - - test(); - test(); - test(); - IF( ( Are_fx[chA][0] >= 0 && L_negate( Bim_fx[chB][0] ) >= 0 ) || ( Are_fx[chA][0] < 0 && L_negate( Bim_fx[chB][0] ) < 0 ) ) - tmp1 = Mpy_32_32( Are_fx[chA][0], -Bim_fx[chB][0] ); - ELSE - tmp1 = L_negate( Mpy_32_32( L_abs( Are_fx[chA][0] ), L_abs( -Bim_fx[chB][0] ) ) ); - test(); - test(); - test(); - IF( ( Are_fx[chA][1] >= 0 && L_negate( Bim_fx[chB][1] ) >= 0 ) || ( Are_fx[chA][1] < 0 && L_negate( Bim_fx[chB][1] ) < 0 ) ) - tmp2 = Mpy_32_32( Are_fx[chA][1], -Bim_fx[chB][1] ); - ELSE - tmp2 = L_negate( Mpy_32_32( L_abs( Are_fx[chA][1] ), L_abs( -Bim_fx[chB][1] ) ) ); - outIm_fx[chA][chB] = L_add( outIm_fx[chA][chB], L_add( tmp1, tmp2 ) ); - move32(); -#endif #endif /* #ifdef IVAS_ENH64_CADENCE_CHANGES */ } } @@ -5121,15 +4849,6 @@ static void chol2x2_fx( } ELSE { -#ifndef FIX_1009_REPLACE_DIV_SQRT_BY_ISQRT_LC - outRe[1][0] = BASOP_Util_Divide3232_Scale_cadence( c_re, outRe[0][0], &exp ); - move32(); - q_re2 = add( sub( 31, exp ), sub( q_c, q_re1 ) ); - - outIm[1][0] = BASOP_Util_Divide3232_Scale_cadence( c_im, outRe[0][0], &exp ); - move32(); - q_im = add( sub( 31, exp ), sub( q_c, q_re1 ) ); -#else Word32 denom; Word16 den_exp; Word32 my_outRe, my_outIm; @@ -5155,7 +4874,6 @@ static void chol2x2_fx( outIm[1][0] = Mpy_32_32( denom, my_outIm ); move32(); q_im = sub( q_im, den_exp ); -#endif } if ( outRe[1][0] == 0 ) { @@ -5174,16 +4892,11 @@ static void chol2x2_fx( // 4611686 = Q62 IF( e1 == 0 ) { -#ifndef FIX_1009_REPLACE_DIV_SQRT_BY_ISQRT_LC - temp = BASOP_Util_Divide3232_Scale_cadence( temp, 4611686, &exp ); - q_tmp = add( sub( 31, exp ), sub( q_tmp, 62 ) ); -#else Word16 norm = norm_l( temp ); temp = L_shl( temp, norm ); q_tmp = add( q_tmp, norm ); temp = Mpy_32_32( temp, ONE_DIV_EPSILON_MANT ); q_tmp = sub( q_tmp, ONE_DIV_EPSILON_EXP ); -#endif } ELSE { @@ -5232,16 +4945,6 @@ static void chol2x2_fx( // 4611686 = Q62 IF( outRe[1][1] == 0 ) { -#if !defined( FIX_1072_REDUCE_DIVS ) - outRe[0][1] = BASOP_Util_Divide3232_Scale_cadence( c_re, 4611686, &exp ); - move32(); - q_re2 = add( sub( 31, exp ), sub( q_c, 62 ) ); - - outIm[0][1] = BASOP_Util_Divide3232_Scale_cadence( -c_im, 4611686, &exp ); - move32(); - q_im = add( sub( 31, exp ), sub( q_c, 62 ) ); - -#else // outRe[0][1] = BASOP_Util_Divide3232_Scale_cadence( c_re, 4611686, &exp ); Word32 tmp1 = 1953125005; /* 1/4611686 Q62 */ exp = 9; @@ -5254,19 +4957,9 @@ static void chol2x2_fx( outIm[0][1] = Mpy_32_32( tmp1, -c_im ); move32(); q_im = add( sub( 31, exp ), sub( q_c, 62 ) ); -#endif } ELSE { -#if !defined( FIX_1072_REDUCE_DIVS ) - outRe[0][1] = BASOP_Util_Divide3232_Scale_cadence( c_re, outRe[1][1], &exp ); - move32(); - q_re2 = add( sub( 31, exp ), sub( q_c, q_re1 ) ); - - outIm[0][1] = BASOP_Util_Divide3232_Scale_cadence( -c_im, outRe[1][1], &exp ); - move32(); - q_im = add( sub( 31, exp ), sub( q_c, q_re1 ) ); -#else { // outRe[0][1] = BASOP_Util_Divide3232_Scale_cadence( c_re, outRe[1][1], &exp ); Word32 tmp1 = BASOP_Util_Divide3232_Scale_cadence( 0x7FFFFFFF, outRe[1][1], &exp ); @@ -5279,7 +4972,6 @@ static void chol2x2_fx( move32(); q_im = add( sub( 31, exp ), sub( q_c, q_re1 ) ); } -#endif } if ( outRe[0][1] == 0 ) { @@ -5444,15 +5136,10 @@ static void formulate2x2MixingMatrix_fx( // 4611686 = Q62 IF( maxEne_fx == 0 ) { -#ifdef FIX_1009_REPLACE_DIV_SQRT_BY_ISQRT_LC maxEneDiv_fx = ONE_DIV_EPSILON_MANT; move32(); q_maxEneDiv = 31 - ONE_DIV_EPSILON_EXP; move16(); -#else - maxEneDiv_fx = BASOP_Util_Divide3232_Scale_cadence( ONE_IN_Q30, 4611686, &exp ); // 4611686 = 1e-12f in Q62 - q_maxEneDiv = add( sub( 31, exp ), sub( Q30, 62 ) ); -#endif } ELSE { @@ -5512,7 +5199,6 @@ static void formulate2x2MixingMatrix_fx( IF( temp == 0 ) { -#ifdef FIX_1009_REPLACE_DIV_SQRT_BY_ISQRT_LC IF( E_out1 == 0 ) { Ghat_fx[0] = 0; @@ -5526,10 +5212,6 @@ static void formulate2x2MixingMatrix_fx( exp = sub( exp, sub( q_eout, 62 ) ); Ghat_fx[0] = Sqrt32( temp, &exp ); // Q = 31 - exp } -#else - temp = BASOP_Util_Divide3232_Scale_cadence( E_out1, 4611686, &exp ); // 4611686 = Q62 - exp = sub( exp, sub( q_eout, 62 ) ); -#endif } ELSE { @@ -5537,20 +5219,14 @@ static void formulate2x2MixingMatrix_fx( temp = BASOP_Util_Divide3232_Scale_cadence( E_out1, temp, &exp ); exp = sub( exp, sub( q_eout, sub( 31, exp_temp ) ) ); -#ifdef FIX_1009_REPLACE_DIV_SQRT_BY_ISQRT_LC Ghat_fx[0] = Sqrt32( temp, &exp ); // Q = 31 - exp -#endif } -#ifndef FIX_1009_REPLACE_DIV_SQRT_BY_ISQRT_LC - Ghat_fx[0] = Sqrt32( temp, &exp ); // Q = 31 - exp -#endif move32(); temp = Mpy_32_32( E_in1, 2147484 ); // 2147484 = 0.001f in Q31 temp = L_max( temp, E_in2 ); // q_ein IF( temp == 0 ) { -#ifdef FIX_1009_REPLACE_DIV_SQRT_BY_ISQRT_LC IF( E_out2 == 0 ) { /* We can set hard-coded results */ Ghat_fx[1] = 0; @@ -5563,10 +5239,6 @@ static void formulate2x2MixingMatrix_fx( exp1 = sub( exp1, sub( q_eout, 62 ) ); Ghat_fx[1] = Sqrt32( temp, &exp1 ); // Q = 31 - exp1 } -#else - temp = BASOP_Util_Divide3232_Scale_cadence( E_out2, 4611686, &exp1 ); // 4611686 = Q62 - exp1 = sub( exp1, sub( q_eout, 62 ) ); -#endif } ELSE { @@ -5574,13 +5246,8 @@ static void formulate2x2MixingMatrix_fx( temp = BASOP_Util_Divide3232_Scale_cadence( E_out2, temp, &exp1 ); exp1 = sub( exp1, sub( q_eout, sub( 31, exp_temp ) ) ); -#ifdef FIX_1009_REPLACE_DIV_SQRT_BY_ISQRT_LC Ghat_fx[1] = Sqrt32( temp, &exp1 ); // Q = 31 - exp1 -#endif } -#ifndef FIX_1009_REPLACE_DIV_SQRT_BY_ISQRT_LC - Ghat_fx[1] = Sqrt32( temp, &exp1 ); // Q = 31 - exp1 -#endif move32(); q_Ghat = sub( 31, s_max( exp, exp1 ) ); @@ -5629,13 +5296,10 @@ static void formulate2x2MixingMatrix_fx( IF( D_fx[0] == 0 ) { -#ifndef FIX_1009_REPLACE_DIV_SQRT_BY_ISQRT_LC - temp = BASOP_Util_Divide3232_Scale_cadence( ONE_IN_Q30, 4611686, &exp ); // 4611686 = 1e-12 in Q62 - exp = sub( exp, sub( Q30, 62 ) ); -#else temp = ONE_DIV_EPSILON_MANT; /* Result of 1.0/eps with full precision */ + move32(); exp = ONE_DIV_EPSILON_EXP; -#endif + move16(); } ELSE { @@ -5645,24 +5309,16 @@ static void formulate2x2MixingMatrix_fx( div_fx[0] = Sqrt32( temp, &exp ); // Q = 31 - exp move32(); - IF( D_fx[1] == 0 ) - { -#ifndef FIX_1009_REPLACE_DIV_SQRT_BY_ISQRT_LC - temp = BASOP_Util_Divide3232_Scale_cadence( ONE_IN_Q30, 4611686, &exp1 ); // 4611686 = 1e-12 in Q62 - exp1 = sub( exp1, sub( Q30, 62 ) ); -#else - temp = ONE_DIV_EPSILON_MANT; /* Result of 1.0/eps with full precision */ - exp1 = ONE_DIV_EPSILON_EXP; -#endif - } - ELSE + // Sqrt(1) + div_fx[1] = L_add( 0, 2047986068 ); // Q = 31 - exp1 + exp1 = add( 0, 20 ); + + IF( D_fx[1] != 0 ) // This is the new code: replace div sqrt by isqrt { - temp = BASOP_Util_Divide3232_Scale_cadence( ONE_IN_Q30, D_fx[1], &exp1 ); - exp1 = sub( exp1, sub( Q30, q_D ) ); + exp1 = sub( 31, q_D ); + div_fx[1] = ISqrt32( D_fx[1], &exp1 ); + move32(); } - div_fx[1] = Sqrt32( temp, &exp1 ); // Q = 31 - exp1 - move32(); - q_div = sub( 31, s_max( exp, exp1 ) ); div_fx[0] = L_shr( div_fx[0], sub( sub( 31, exp ), q_div ) ); // q_div @@ -5754,10 +5410,8 @@ static void formulate2x2MixingMatrix_fx( } matrixTransp2Mul_fx( tmpRe_fx, tmpIm_fx, &q_temp, Ure_fx, Uim_fx, &q_U, -#ifdef FIX_1072_SPEEDUP_matrixTransp2Mul_fx 1 /*int Ascale*/, 0 /*int Bscale*/, -#endif Pre_fx, Pim_fx, &q_P ); /* Nearest orthonormal matrix P to matrix A formulated */ /* These are the final formulas of the JAES publication M = Ky P Kx^(-1) */ @@ -5768,7 +5422,6 @@ static void formulate2x2MixingMatrix_fx( { IF( Sx_fx[chB] == 0 ) { -#ifdef FIX_1009_REPLACE_DIV_SQRT_BY_ISQRT_LC Pre_fx[chA][chB] = Mpy_32_32( Pre_fx[chA][chB], ONE_DIV_EPSILON_MANT ); // q_Pre[chA][chB] = add(sub(31, q_P), 31 - ONE_DIV_EPSILON_EXP); q_Pre[chA][chB] = sub( 62 - ONE_DIV_EPSILON_EXP, q_P ); @@ -5777,26 +5430,12 @@ static void formulate2x2MixingMatrix_fx( Pim_fx[chA][chB] = Mpy_32_32( Pim_fx[chA][chB], ONE_DIV_EPSILON_MANT ); // q_Pim[chA][chB] = add(sub(31, q_P), 31 - ONE_DIV_EPSILON_EXP); q_Pim[chA][chB] = sub( 62 - ONE_DIV_EPSILON_EXP, q_P ); -#else - Pre_fx[chA][chB] = BASOP_Util_Divide3232_Scale_cadence( Pre_fx[chA][chB], 4611686, &exp ); // 4611686 = 1e-12 in Q62 - q_Pre[chA][chB] = add( sub( q_P, 62 ), sub( 31, exp ) ); - Pim_fx[chA][chB] = BASOP_Util_Divide3232_Scale_cadence( Pim_fx[chA][chB], 4611686, &exp ); // 4611686 = 1e-12 in Q62 - q_Pim[chA][chB] = add( sub( q_P, 62 ), sub( 31, exp ) ); -#endif } ELSE { -#ifdef FIX_1009_REPLACE_DIV_SQRT_BY_ISQRT_LC Word16 Pre_shift, Pim_shift; -#endif temp = BASOP_Util_Add_Mant32Exp( Sx_fx[chB], sub( 31, q_Sx ), EPSILON_MANT, EPSILON_EXP, &exp_temp ); -#ifndef FIX_1009_REPLACE_DIV_SQRT_BY_ISQRT_LC - Pre_fx[chA][chB] = BASOP_Util_Divide3232_Scale_cadence( Pre_fx[chA][chB], temp, &exp ); - q_Pre[chA][chB] = add( sub( q_P, sub( 31, exp_temp ) ), sub( 31, exp ) ); - Pim_fx[chA][chB] = BASOP_Util_Divide3232_Scale_cadence( Pim_fx[chA][chB], temp, &exp ); - q_Pim[chA][chB] = add( sub( q_P, sub( 31, exp_temp ) ), sub( 31, exp ) ); -#else temp = BASOP_Util_Divide3232_Scale_cadence( ONE_IN_Q30, temp, &exp ); Pre_shift = norm_l( Pre_fx[chA][chB] ); Pim_shift = norm_l( Pim_fx[chA][chB] ); @@ -5805,7 +5444,6 @@ static void formulate2x2MixingMatrix_fx( q_temp = add( sub( sub( q_P, exp ), sub( 31, Q30 ) ), exp_temp ); q_Pre[chA][chB] = add( q_temp, Pre_shift ); q_Pim[chA][chB] = add( q_temp, Pim_shift ); -#endif } if ( Pre_fx[chA][chB] == 0 ) { @@ -5908,10 +5546,8 @@ static void formulate2x2MixingMatrix_fx( matrixMul_fx( KyRe_fx, KyIm_fx, &q_ky, Pre_fx, Pim_fx, &q_P, tmpRe_fx, tmpIm_fx, &q_temp ); matrixTransp2Mul_fx( tmpRe_fx, tmpIm_fx, &q_temp, Uxre_fx, Uxim_fx, &q_Ux, -#ifdef FIX_1072_SPEEDUP_matrixTransp2Mul_fx 1 /*int Ascale*/, 0 /*int Bscale*/, -#endif Mre_fx, Mim_fx, q_M ); return; } diff --git a/lib_rend/ivas_dirac_decorr_dec.c b/lib_rend/ivas_dirac_decorr_dec_fx.c similarity index 87% rename from lib_rend/ivas_dirac_decorr_dec.c rename to lib_rend/ivas_dirac_decorr_dec_fx.c index 01fd1e610874a8bab038b853f3bbbf86883a5522..1afac99c4157d81f9bba3dcdb70fd94669950391 100644 --- a/lib_rend/ivas_dirac_decorr_dec.c +++ b/lib_rend/ivas_dirac_decorr_dec_fx.c @@ -35,13 +35,11 @@ #include "options.h" #include #include "cnst.h" -#include "prot.h" -#include "ivas_prot.h" -#include "ivas_prot_rend.h" +#include "prot_fx.h" +#include "ivas_prot_rend_fx.h" #include "ivas_cnst.h" #include "ivas_rom_rend.h" #include "wmc_auto.h" -#include "prot_fx.h" #include "ivas_prot_fx.h" /*------------------------------------------------------------------------- @@ -57,18 +55,16 @@ #define DIRAC_DUCK_ALPHA_FX 1717986944 /* Q31 */ #define ONE_M_DIRAC_DUCK_ALPHA 429496736 /* Q31 */ -#ifdef FIX_1110_OPTIM_DIRAC_DECORR_PROC /* Maximal useful q-format, represents range of 2^-126 (float min) */ #define MAX_Q_FX 157 -#endif /*------------------------------------------------------------------------- * Local function prototypes *------------------------------------------------------------------------*/ static void get_lattice_coeffs_fx( const Word16 band_index, const Word16 channel_index, Word16 *lattice_coeffs ); -static void lattice2allpass_fx( const int16_t filter_length, const Word16 *lattice_coeffs_fx, Word16 *filter_coeffs_num_real_fx, Word16 *filter_coeffs_den_real_fx ); +static void lattice2allpass_fx( const Word16 filter_length, const Word16 *lattice_coeffs_fx, Word16 *filter_coeffs_num_real_fx, Word16 *filter_coeffs_den_real_fx ); /*------------------------------------------------------------------------- * ivas_dirac_dec_decorr_open() @@ -592,18 +588,6 @@ void ivas_dirac_dec_decorr_process_fx( Word16 decorr_buff_tot_len = imult1616( imult1616( shl( decorr_buffer_len, 1 ), max_band_decorr ), num_channels ); guarded_bits = 0; -#ifndef FIX_1110_OPTIM_DIRAC_DECORR_PROC - FOR( Word16 i = 0; i < decorr_buff_tot_len; i++ ) - { - IF( h_freq_domain_decorr_ap_state->decorr_buffer_fx[i] != 0 ) - { - guarded_bits = s_max( find_guarded_bits_fx( 2 ), 3 ); - } - } - q_shift = sub( getScaleFactor32( h_freq_domain_decorr_ap_state->decorr_buffer_fx, decorr_buff_tot_len ), guarded_bits ); - Scale_sig32( h_freq_domain_decorr_ap_state->decorr_buffer_fx, decorr_buff_tot_len, q_shift ); - q_decorr_buf = add( q_decorr_buf, q_shift ); -#else Flag is_zero = is_zero_arr( h_freq_domain_decorr_ap_state->decorr_buffer_fx, decorr_buff_tot_len ); if ( is_zero == 0 ) { @@ -619,7 +603,6 @@ void ivas_dirac_dec_decorr_process_fx( q_decorr_buf = add( q_decorr_buf, q_shift ); } } -#endif q_shift = getScaleFactor32( aux_buffer_fx, imult1616( imult1616( 2, num_protos_dir ), max_band_decorr_temp ) ); Word16 buf_len = shl( imult1616( num_protos_dir, max_band_decorr_temp ), 1 ); @@ -683,15 +666,8 @@ void ivas_dirac_dec_decorr_process_fx( /* MA part of filter impulse response */ FOR( l = 0; l < filter_length; l++ ) { -#ifndef FIX_1110_OPTIM_DIRAC_DECORR_PROC - frame_ma_fx[2 * l] = Mpy_32_16_1( input_real_fx, filter_coeff_num_real_fx[l] ); // Q_qux -3 = q_deorr - // frame_ma_fx[2 * l] = L_shr(frame_ma_fx[2 * l],3); // scaling to q_decorr_buf - frame_ma_fx[add( shl( l, 1 ), 1 )] = Mpy_32_16_1( input_imag_fx, filter_coeff_num_real_fx[l] ); // Q_qux - 3 = q_deorr - // frame_ma_fx[2 * l + 1] = L_shr(frame_ma_fx[2 * l + 1], 3); // scaling to q_decorr_buf -#else frame_ma_fx[2 * l] = Mpy_32_16_1( input_real_fx, filter_coeff_num_real_fx[l] ); // Q_qux -3 = q_deorr frame_ma_fx[2 * l + 1] = Mpy_32_16_1( input_imag_fx, filter_coeff_num_real_fx[l] ); // Q_qux - 3 = q_deorr -#endif move32(); move32(); } @@ -707,32 +683,14 @@ void ivas_dirac_dec_decorr_process_fx( filter_frame_real_fx = decorr_buffer_ptr_fx[0]; // q_decorr filter_frame_imag_fx = decorr_buffer_ptr_fx[1]; // q_decorr -#ifndef FIX_1110_OPTIM_DIRAC_DECORR_PROC - decorr_buffer_ptr_fx += shl( decorr_buffer_step, 1 ); -#else Word16 decorr_buffer_step2x = shl( decorr_buffer_step, 1 ); decorr_buffer_ptr_fx += decorr_buffer_step2x; move16(); -#endif FOR( l = 1; l < filter_length; l++ ) { // q adjustment needed// -#ifndef FIX_1110_OPTIM_DIRAC_DECORR_PROC - decorr_buffer_ptr_fx[0] = L_add( decorr_buffer_ptr_fx[0], frame_ma_fx[2 * l] ); // q_decorr - Word32 temp_1 = Mpy_32_16_1( filter_frame_real_fx, filter_coeff_den_real_fx[l] ); // q_decorr - 3 - temp_1 = L_shl( temp_1, 3 ); // q_decorr - decorr_buffer_ptr_fx[0] = L_sub( decorr_buffer_ptr_fx[0], temp_1 ); // q_deocor - decorr_buffer_ptr_fx[1] = L_add( decorr_buffer_ptr_fx[1], frame_ma_fx[add( shl( l, 1 ), 1 )] ); // q_decorr - Word32 temp_2 = Mpy_32_16_1( filter_frame_imag_fx, filter_coeff_den_real_fx[l] ); // q_decorr - 3 - temp_2 = L_shl( temp_2, 3 ); // q_decorr - decorr_buffer_ptr_fx[1] = L_sub( decorr_buffer_ptr_fx[1], temp_2 ); // q_decorr - decorr_buffer_ptr_fx += imult1616( 2, decorr_buffer_step ); - move32(); - move32(); - move32(); -#else Word32 temp_1 = Mpy_32_16_1( filter_frame_real_fx, filter_coeff_den_real_fx[l] ); // q_decorr - 3 temp_1 = L_shl( temp_1, 3 ); // q_decorr decorr_buffer_ptr_fx[0] = L_sub( L_add( decorr_buffer_ptr_fx[0], frame_ma_fx[2 * l] ), temp_1 ); // q_deocor @@ -745,7 +703,6 @@ void ivas_dirac_dec_decorr_process_fx( decorr_buffer_ptr_fx += decorr_buffer_step2x; move16(); -#endif } } } @@ -766,7 +723,6 @@ void ivas_dirac_dec_decorr_process_fx( e_direct_energy_smooth = sub( 31, h_freq_domain_decorr_ap_state->q_direct_energy_smooth ); // scaling to get max precision for aux_buffer values// -#ifdef MSAN_FIX q_shift = Q31; move16(); offset = shl( max_band_decorr, 1 ); @@ -779,10 +735,6 @@ void ivas_dirac_dec_decorr_process_fx( { scale_sig32( &frame_dec_fx[2 * ch_idx * num_freq_bands], offset, q_shift ); } -#else - q_shift = L_norm_arr( frame_dec_fx, ( 2 * max_band_decorr + incr_aux ) * num_channels ); - Scale_sig32( frame_dec_fx, ( 2 * max_band_decorr + incr_aux ) * num_channels, q_shift ); -#endif q_frame_f = add( q_frame_f, q_shift ); @@ -804,24 +756,8 @@ void ivas_dirac_dec_decorr_process_fx( q_direct_energy = q_aux_buffer; move16(); -#ifdef FIX_1110_OPTIM_DIRAC_DECORR_PROC /* Attention: this loop reports norm=0, whenever any data is 0. */ /* Therefore, useful left-shifts are skipped, accuracy is lost. */ -#endif -#ifndef FIX_1110_OPTIM_DIRAC_DECORR_PROC - /* calculate the power of the decorrelated signal */ - FOR( ch_idx = 0; ch_idx < num_channels; ++ch_idx ) - { - offset1 = shl( imult1616( ch_idx, num_freq_bands ), 1 ); - offset2 = shl( imult1616( ch_idx, max_band_decorr ), 1 ); - FOR( Word16 i = 0; i < 2 * max_band_decorr; i++ ) - { - aux_64[add( offset2, i )] = W_mult0_32_32( frame_dec_fx[add( offset1, i )], frame_dec_fx[add( offset1, i )] ); - move64(); - norm = s_min( norm, W_norm( aux_64[add( offset2, i )] ) ); - } - } -#else /* calculate the power of the decorrelated signal */ Word64 *m64_aux = aux_64; move32(); @@ -851,7 +787,6 @@ void ivas_dirac_dec_decorr_process_fx( move32(); } norm = W_norm( min64 ); -#endif norm = sub( norm, 1 /*find_guarded_bits_fx( 2 )*/ ); FOR( Word16 i = 0; i < 2 * num_channels * max_band_decorr; i++ ) { @@ -868,34 +803,6 @@ void ivas_dirac_dec_decorr_process_fx( /* smooth energies */ -#ifndef FIX_1110_OPTIM_DIRAC_DECORR_PROC - v_multc_fixed( aux_buffer_fx, ONE_M_DIRAC_DUCK_ALPHA, aux_buffer_fx, imult1616( num_channels, max_band_decorr ) ); // q_aux_buffer - - v_multc_fixed( h_freq_domain_decorr_ap_state->reverb_energy_smooth_fx, DIRAC_DUCK_ALPHA_FX, h_freq_domain_decorr_ap_state->reverb_energy_smooth_fx, imult1616( num_channels, max_band_decorr ) ); // same-q - - v_add_fixed_me( aux_buffer_fx, sub( 31, q_aux_buffer ), h_freq_domain_decorr_ap_state->reverb_energy_smooth_fx, e_reverb_energy_smooth, h_freq_domain_decorr_ap_state->reverb_energy_smooth_fx, &e_reverb_energy_smooth, imult1616( num_channels, max_band_decorr ), 0 ); - h_freq_domain_decorr_ap_state->q_reverb_energy_smooth = sub( 31, e_reverb_energy_smooth ); - - v_multc_fixed( direct_energy_fx, ONE_M_DIRAC_DUCK_ALPHA, direct_energy_fx, imult1616( num_protos_dir, max_band_decorr ) ); // same q - - v_multc_fixed( h_freq_domain_decorr_ap_state->direct_energy_smooth_fx, DIRAC_DUCK_ALPHA_FX, h_freq_domain_decorr_ap_state->direct_energy_smooth_fx, imult1616( num_protos_dir, max_band_decorr ) ); // same q - - v_add_fixed_me( direct_energy_fx, sub( 31, q_direct_energy ), h_freq_domain_decorr_ap_state->direct_energy_smooth_fx, e_direct_energy_smooth, h_freq_domain_decorr_ap_state->direct_energy_smooth_fx, &e_direct_energy_smooth, imult1616( num_protos_dir, max_band_decorr ), 0 ); - h_freq_domain_decorr_ap_state->q_direct_energy_smooth = sub( 31, e_direct_energy_smooth ); - move16(); - - // scaling energy buffers for better precision for higher values// - q_shift = L_norm_arr( h_freq_domain_decorr_ap_state->direct_energy_smooth_fx, imult1616( num_protos_dir, max_band_decorr ) ); - Scale_sig32( h_freq_domain_decorr_ap_state->direct_energy_smooth_fx, imult1616( num_protos_dir, max_band_decorr ), q_shift ); - h_freq_domain_decorr_ap_state->q_direct_energy_smooth = add( h_freq_domain_decorr_ap_state->q_direct_energy_smooth, q_shift ); - move16(); - - - q_shift = L_norm_arr( h_freq_domain_decorr_ap_state->reverb_energy_smooth_fx, imult1616( num_channels, max_band_decorr ) ); - Scale_sig32( h_freq_domain_decorr_ap_state->reverb_energy_smooth_fx, imult1616( num_channels, max_band_decorr ), q_shift ); - h_freq_domain_decorr_ap_state->q_reverb_energy_smooth = add( h_freq_domain_decorr_ap_state->q_reverb_energy_smooth, q_shift ); - move16(); -#else Word16 len = imult1616( num_channels, max_band_decorr ); Word16 aux_e = sub( 31, q_aux_buffer ); Word16 max_e = s_max( aux_e, e_reverb_energy_smooth ); @@ -950,15 +857,13 @@ void ivas_dirac_dec_decorr_process_fx( h_freq_domain_decorr_ap_state->q_reverb_energy_smooth = add( h_freq_domain_decorr_ap_state->q_reverb_energy_smooth, q_shift ); move16(); } - h_freq_domain_decorr_ap_state->q_reverb_energy_smooth = min( MAX_Q_FX, h_freq_domain_decorr_ap_state->q_reverb_energy_smooth ); - h_freq_domain_decorr_ap_state->q_direct_energy_smooth = min( MAX_Q_FX, h_freq_domain_decorr_ap_state->q_direct_energy_smooth ); -#endif + h_freq_domain_decorr_ap_state->q_reverb_energy_smooth = s_min( MAX_Q_FX, h_freq_domain_decorr_ap_state->q_reverb_energy_smooth ); + h_freq_domain_decorr_ap_state->q_direct_energy_smooth = s_min( MAX_Q_FX, h_freq_domain_decorr_ap_state->q_direct_energy_smooth ); e_reverb_energy_smooth = sub( 31, h_freq_domain_decorr_ap_state->q_reverb_energy_smooth ); e_direct_energy_smooth = sub( 31, h_freq_domain_decorr_ap_state->q_direct_energy_smooth ); // this step is b/c we are left shifting frame_dec_fx at the end of below for loop/ -#ifdef MSAN_FIX q_shift = Q31; move16(); FOR( ch_idx = 0; ch_idx < num_channels; ++ch_idx ) @@ -971,10 +876,6 @@ void ivas_dirac_dec_decorr_process_fx( { Scale_sig32( &frame_dec_fx[shl( imult1616( ch_idx, num_freq_bands ), 1 )], shl( max_band_decorr, 1 ), q_shift ); } -#else - q_shift = sub( L_norm_arr( frame_dec_fx, ( 2 * max_band_decorr + incr_aux ) * num_channels ), 2 ); - Scale_sig32( frame_dec_fx, ( 2 * max_band_decorr + incr_aux ) * num_channels, q_shift ); -#endif q_frame_f = add( q_frame_f, q_shift ); FOR( ch_idx = 0; ch_idx < num_channels; ch_idx++ ) @@ -1008,13 +909,8 @@ void ivas_dirac_dec_decorr_process_fx( duck_gain = shl( duck_gain, sub( e_duck_gain, 1 ) ); // Q14 -#ifndef FIX_1110_OPTIM_DIRAC_DECORR_PROC - frame_dec_fx_ptr[2 * band_idx] = L_shl( Mpy_32_16_1( frame_dec_fx_ptr[2 * band_idx], duck_gain ), 1 ); // q_frame_f - frame_dec_fx_ptr[add( shl( band_idx, 1 ), 1 )] = L_shl( Mpy_32_16_1( frame_dec_fx_ptr[add( shl( band_idx, 1 ), 1 )], duck_gain ), 1 ); // q_frame_f -#else frame_dec_fx_ptr[2 * band_idx] = L_shl( Mpy_32_16_1( frame_dec_fx_ptr[2 * band_idx], duck_gain ), 1 ); // q_frame_f frame_dec_fx_ptr[2 * band_idx + 1] = L_shl( Mpy_32_16_1( frame_dec_fx_ptr[2 * band_idx + 1], duck_gain ), 1 ); // q_frame_f -#endif move32(); move32(); } @@ -1031,13 +927,8 @@ void ivas_dirac_dec_decorr_process_fx( } */ duck_gain = shl_sat( duck_gain, sub( e_duck_gain, 1 ) ); // Q14 -#ifndef FIX_1110_OPTIM_DIRAC_DECORR_PROC - frame_dec_fx_ptr[2 * band_idx] = L_shl( Mpy_32_16_1( frame_dec_fx_ptr[2 * band_idx], duck_gain ), 2 ); // q_frame_dec - frame_dec_fx_ptr[add( shl( band_idx, 1 ), 1 )] = L_shl( Mpy_32_16_1( frame_dec_fx_ptr[add( shl( band_idx, 1 ), 1 )], duck_gain ), 2 ); // q_frame_dec -#else frame_dec_fx_ptr[2 * band_idx] = L_shl( Mpy_32_16_1( frame_dec_fx_ptr[2 * band_idx], duck_gain ), 1 ); // q_frame_dec frame_dec_fx_ptr[2 * band_idx + 1] = L_shl( Mpy_32_16_1( frame_dec_fx_ptr[2 * band_idx + 1], duck_gain ), 1 ); // q_frame_dec -#endif move32(); move32(); } @@ -1063,27 +954,19 @@ void ivas_dirac_dec_decorr_process_fx( q_shift = sf; move16(); // scaling it to sf -#ifdef MSAN_FIX FOR( ch_idx = 0; ch_idx < num_channels; ++ch_idx ) { scale_sig32( &frame_dec_fx[2 * ch_idx * num_freq_bands], shl( max_band_decorr, 1 ), q_shift ); } -#else - Scale_sig32( frame_dec_fx, ( 2 * max_band_decorr + incr_aux ) * num_channels, q_shift ); // scaling it to input q -#endif q_frame_f = add( q_frame_f, sf ); } ELSE IF( q_shift < 0 ) { // scaling it to input q -#ifdef MSAN_FIX FOR( ch_idx = 0; ch_idx < num_channels; ++ch_idx ) { scale_sig32( &frame_dec_fx[2 * ch_idx * num_freq_bands], shl( max_band_decorr, 1 ), q_shift ); } -#else - Scale_sig32( frame_dec_fx, ( 2 * max_band_decorr + incr_aux ) * num_channels, q_shift ); // scaling it to input q -#endif q_frame_f = q_input_frame; q_if_local = 0; move16(); @@ -1281,7 +1164,7 @@ static void get_lattice_coeffs_fx( /* convert lattice filter coeffs to all pass transfer function coeffs */ static void lattice2allpass_fx( - const int16_t filter_length, // Q0 + const Word16 filter_length, // Q0 const Word16 *lattice_coeffs_fx, // Q15 Word16 *filter_coeffs_num_real_fx, // Q12 Word16 *filter_coeffs_den_real_fx ) // Q12 diff --git a/lib_rend/ivas_dirac_onsets_dec.c b/lib_rend/ivas_dirac_onsets_dec_fx.c similarity index 99% rename from lib_rend/ivas_dirac_onsets_dec.c rename to lib_rend/ivas_dirac_onsets_dec_fx.c index c6119cc342946fd4536aadb11862353cc345ce38..80adebfdd18661e0160e31f6c753bfd60cd6930a 100644 --- a/lib_rend/ivas_dirac_onsets_dec.c +++ b/lib_rend/ivas_dirac_onsets_dec_fx.c @@ -34,14 +34,12 @@ #include #include "options.h" #include "cnst.h" -#include "prot.h" -#include "ivas_prot.h" -#include "ivas_prot_rend.h" +#include "prot_fx.h" +#include "ivas_prot_rend_fx.h" #include "ivas_cnst.h" #include "ivas_rom_com.h" #include "ivas_rom_dec.h" #include "wmc_auto.h" -#include "prot_fx.h" /*------------------------------------------------------------------------- * ivas_dirac_dec_onset_detection_open() diff --git a/lib_rend/ivas_dirac_output_synthesis_dec.c b/lib_rend/ivas_dirac_output_synthesis_dec_fx.c similarity index 91% rename from lib_rend/ivas_dirac_output_synthesis_dec.c rename to lib_rend/ivas_dirac_output_synthesis_dec_fx.c index d6c999aa0becbd126f532f07fffd4a1741e3140c..7b446a80e77b5a241d8c5d5494857461f6d1f885 100644 --- a/lib_rend/ivas_dirac_output_synthesis_dec.c +++ b/lib_rend/ivas_dirac_output_synthesis_dec_fx.c @@ -35,15 +35,13 @@ #include "options.h" #include #include "cnst.h" -#include "prot.h" -#include "ivas_prot.h" -#include "ivas_prot_rend.h" +#include "prot_fx.h" +#include "ivas_prot_rend_fx.h" #include "ivas_stat_dec.h" #include "ivas_cnst.h" #include "ivas_rom_com.h" #include "ivas_rom_dec.h" #include "wmc_auto.h" -#include "prot_fx.h" /* Function prototypes */ #include "ivas_prot_fx.h" #include "ivas_rom_com_fx.h" @@ -307,8 +305,15 @@ ivas_error ivas_dirac_dec_output_synthesis_open_fx( return ( IVAS_ERROR( IVAS_ERR_FAILED_ALLOC, "Can not allocate memory for DirAC synthesis\n" ) ); } set32_fx( dirac_output_synthesis_state->reference_power_smooth_prev_fx, 0, hSpatParamRendCom->num_freq_bands ); +#ifdef FIX_867_CLDFB_NRG_SCALE + dirac_output_synthesis_state->reference_power_smooth_prev_q[0] = Q31; + dirac_output_synthesis_state->reference_power_smooth_prev_q[1] = Q31; + move16(); + move16(); +#else dirac_output_synthesis_state->reference_power_smooth_prev_q = Q31; move16(); +#endif IF( ( dirac_output_synthesis_state->direction_smoothness_prev_fx = (Word32 *) malloc( hSpatParamRendCom->num_freq_bands * sizeof( Word32 ) ) ) == NULL ) { @@ -489,8 +494,15 @@ void ivas_dirac_dec_output_synthesis_init_fx( IF( h_dirac_output_synthesis_state->proto_power_smooth_prev_fx != NULL ) { set32_fx( h_dirac_output_synthesis_state->proto_power_smooth_prev_fx, 0, imult1616( hSpatParamRendCom->num_freq_bands, hDirACRend->num_protos_dir ) ); +#ifdef FIX_867_CLDFB_NRG_SCALE + h_dirac_output_synthesis_state->proto_power_smooth_prev_q[0] = Q31; + h_dirac_output_synthesis_state->proto_power_smooth_prev_q[1] = Q31; + move16(); + move16(); +#else h_dirac_output_synthesis_state->proto_power_smooth_prev_q = Q31; move16(); +#endif } set32_fx( h_dirac_output_synthesis_state->gains_dir_prev_fx, 0, size ); h_dirac_output_synthesis_state->gains_dir_prev_q = 0; @@ -625,9 +637,13 @@ void ivas_dirac_dec_output_synthesis_close_fx( *------------------------------------------------------------------------*/ void ivas_dirac_dec_output_synthesis_process_slot_fx( - const Word32 *reference_power, /* i : Estimated power Q(q_reference_power)*/ + const Word32 *reference_power, /* i : Estimated power Q(q_reference_power)*/ +#ifdef FIX_867_CLDFB_NRG_SCALE + const Word16 *q_reference_power, /* i : Estimated power Q */ +#else const Word16 q_reference_power, /* i : Estimated power Q */ - const Word32 *onset, /* i : onset filter Q31*/ +#endif + const Word32 *onset, /* i : onset filter Q31*/ const Word16 *azimuth, const Word16 *elevation, const Word32 *diffuseness, /* Q(q_diffuseness)*/ @@ -906,6 +922,74 @@ void ivas_dirac_dec_output_synthesis_process_slot_fx( } } c = Madd_32_16( ONE_IN_Q27 /*1 Q27*/, L_sub( h_dirac_output_synthesis_params->diffuse_compensation_factor_fx, ONE_IN_Q27 /*1 Q27*/ ), 5461 ); /*Diffuseness modellling nrg compensation*/ /* 1.0 / 6.0 = 5461 in Q15*/ /*Q27*/ +#ifdef FIX_1310_SPEEDUP_ivas_dirac_dec_output_synthesis_process_slot + FOR( ; k < num_freq_bands; k++ ) + { + a = h_dirac_output_synthesis_state->direct_responses_fx[ch_idx * num_freq_bands + k]; // Q = h_dirac_output_synthesis_state->q_direct_responses + move32(); + IF( reference_power[k + num_freq_bands] == 0 ) + { + sqr_inp = Mpy_32_32( diffuseness[k], c ); + sqr_exp = sub( 31 + 4, q_diffuseness ); + } + ELSE + { + Word16 diff_c_exp; + Word16 diff_aab_exp; + IF( reference_power[k + ( ch_idx + 1 ) * num_freq_bands] == 0 ) + { + mpy_a_a_b = Mpy_32_32( a, a ); // Q = (h_dirac_output_synthesis_state->q_direct_responses + (15 - b_exp) - 15) + (h_dirac_output_synthesis_state->q_direct_responses) - 31 + mpy_diff_aab = Mpy_32_32( L_sub( L_shl( 1, q_diffuseness ), diffuseness[k] ), mpy_a_a_b ); // Q = 2*(h_dirac_output_synthesis_state->q_direct_responses) - b_exp - 31 + q_diffuseness -31 + mpy_diff_c = Mpy_32_32( diffuseness[k], c ); // Q = q_diffuseness - 4 + diff_aab_exp = sub( 31 + 62, add( h_dirac_output_synthesis_state->direct_responses_q, add( h_dirac_output_synthesis_state->direct_responses_q, q_diffuseness ) ) ); + diff_c_exp = sub( 31 + 4, q_diffuseness ); + + sqr_inp = BASOP_Util_Add_Mant32Exp( mpy_diff_c, diff_c_exp, mpy_diff_aab, diff_aab_exp, &sqr_exp ); /*q(31-sqr_exp)*/ + } + ELSE + { + b = BASOP_Util_Divide3232_Scale( reference_power[k + num_freq_bands], reference_power[k + ( ch_idx + 1 ) * num_freq_bands], &b_exp ); /*q(15-b_exp)*/ + + mpy_a_a_b = Mpy_32_32( a, Mpy_32_16_1( a, b ) ); // Q = (h_dirac_output_synthesis_state->q_direct_responses + (15 - b_exp) - 15) + (h_dirac_output_synthesis_state->q_direct_responses) - 31 + mpy_diff_aab = Mpy_32_32( L_sub( L_shl( 1, q_diffuseness ), diffuseness[k] ), mpy_a_a_b ); // Q = 2*(h_dirac_output_synthesis_state->q_direct_responses) - b_exp - 31 + q_diffuseness -31 + mpy_diff_c = Mpy_32_32( diffuseness[k], c ); // Q = q_diffuseness - 4 + diff_aab_exp = sub( sub( add( sub( 31 + 62, h_dirac_output_synthesis_state->direct_responses_q ), b_exp ), h_dirac_output_synthesis_state->direct_responses_q ), q_diffuseness ); + diff_c_exp = sub( 31 + 4, q_diffuseness ); + + sqr_inp = BASOP_Util_Add_Mant32Exp( mpy_diff_c, diff_c_exp, mpy_diff_aab, diff_aab_exp, &sqr_exp ); /*q(31-sqr_exp)*/ + } + } + sqr = Sqrt32( sqr_inp, &sqr_exp ); /*Q(31-sqr_exp)*/ + sqr = L_shr( sqr, 2 ); /*Q(31-sqr_exp)*/ + + + IF( h_dirac_output_synthesis_state->cy_cross_dir_smooth_fx[ch_idx * num_freq_bands + k] != 0 ) + { + IF( LT_16( sub( 31, sqr_exp ), h_dirac_output_synthesis_state->q_cy_cross_dir_smooth ) ) + { + h_dirac_output_synthesis_state->cy_cross_dir_smooth_fx[ch_idx * num_freq_bands + k] = L_shr( h_dirac_output_synthesis_state->cy_cross_dir_smooth_fx[ch_idx * num_freq_bands + k], sub( h_dirac_output_synthesis_state->q_cy_cross_dir_smooth, sub( 31, sqr_exp ) ) ); /*h_dirac_output_synthesis_state->q_cy_cross_dir_smooth->Q( 31- sqr_exp )*/ + move32(); + Q_temp_cy_cross_dir_smooth_fx[ch_idx * num_freq_bands + k] = sub( 31, sqr_exp ); + move16(); + } + ELSE + { + sqr = L_shr( sqr, sub( sub( 31, sqr_exp ), h_dirac_output_synthesis_state->q_cy_cross_dir_smooth ) ); /*Q(31- sqr_exp)->h_dirac_output_synthesis_state->q_cy_cross_dir_smooth*/ + Q_temp_cy_cross_dir_smooth_fx[ch_idx * num_freq_bands + k] = h_dirac_output_synthesis_state->q_cy_cross_dir_smooth; + move16(); + } + h_dirac_output_synthesis_state->cy_cross_dir_smooth_fx[ch_idx * num_freq_bands + k] = L_add( h_dirac_output_synthesis_state->cy_cross_dir_smooth_fx[ch_idx * num_freq_bands + k], sqr ); /*Q_temp_cy_cross_dir_smooth_fx[ch_idx * num_freq_bands + k]*/ + move32(); + } + ELSE + { + h_dirac_output_synthesis_state->cy_cross_dir_smooth_fx[ch_idx * num_freq_bands + k] = L_add( h_dirac_output_synthesis_state->cy_cross_dir_smooth_fx[ch_idx * num_freq_bands + k], sqr ); /*Q(31- sqr_exp)*/ + move32(); + Q_temp_cy_cross_dir_smooth_fx[ch_idx * num_freq_bands + k] = sub( 31, sqr_exp ); + move16(); + } + } +#else FOR( ; k < num_freq_bands; k++ ) { a = h_dirac_output_synthesis_state->direct_responses_fx[ch_idx * num_freq_bands + k]; // Q = h_dirac_output_synthesis_state->q_direct_responses @@ -936,7 +1020,7 @@ void ivas_dirac_dec_output_synthesis_process_slot_fx( mpy_diff_aab = Mpy_32_32( L_sub( L_shl( 1, q_diffuseness ), diffuseness[k] ), mpy_a_a_b ); // Q = 2*(h_dirac_output_synthesis_state->q_direct_responses) - b_exp - 31 + q_diffuseness -31 mpy_diff_c = Mpy_32_32( diffuseness[k], c ); // Q = q_diffuseness - 4 - q_diff_aab = add( h_dirac_output_synthesis_state->direct_responses_q + sub( sub( 15, b_exp ), 15 ), add( sub( h_dirac_output_synthesis_state->direct_responses_q, 31 ), sub( q_diffuseness, 31 ) ) ); + q_diff_aab = add( add( h_dirac_output_synthesis_state->direct_responses_q, sub( sub( 15, b_exp ), 15 ) ), add( sub( h_dirac_output_synthesis_state->direct_responses_q, 31 ), sub( q_diffuseness, 31 ) ) ); q_diff_c = sub( q_diffuseness, 4 ); test(); @@ -987,6 +1071,7 @@ void ivas_dirac_dec_output_synthesis_process_slot_fx( move16(); } } +#endif } ELSE { @@ -1081,7 +1166,6 @@ void ivas_dirac_dec_output_synthesis_process_slot_fx( Word16 temp_q = sub( add( h_dirac_output_synthesis_state->direct_power_factor_q, h_dirac_output_synthesis_state->direct_responses_q ), 31 ); IF( LT_16( temp_q, h_dirac_output_synthesis_state->q_cy_cross_dir_smooth ) ) { -#ifdef FIX_1072_SPEEDUP_gainpanning /*is there any difference in any bitstream?*/ Word16 temp_q1 = sub( temp_q, h_dirac_output_synthesis_state->q_cy_cross_dir_smooth ); FOR( Word16 kk = 0; kk < tmp16; kk++ ) { @@ -1090,17 +1174,7 @@ void ivas_dirac_dec_output_synthesis_process_slot_fx( } h_dirac_output_synthesis_state->q_cy_cross_dir_smooth = temp_q; move16(); -#else - FOR( Word16 kk = 0; kk < tmp16; kk++ ) - { - h_dirac_output_synthesis_state->cy_cross_dir_smooth_fx[kk] = L_shl( h_dirac_output_synthesis_state->cy_cross_dir_smooth_fx[kk], sub( temp_q, h_dirac_output_synthesis_state->q_cy_cross_dir_smooth ) ); /*h_dirac_output_synthesis_state->q_cy_cross_dir_smooth ->temp_q*/ - move32(); - } - h_dirac_output_synthesis_state->q_cy_cross_dir_smooth = temp_q; - move16(); -#endif } -#ifdef FIX_1072_SPEEDUP_gainpanning Word16 temp_q1 = sub( h_dirac_output_synthesis_state->q_cy_cross_dir_smooth, temp_q ); FOR( ch_idx = s_min( 4, nchan_transport ); ch_idx < num_channels_dir; ch_idx++ ) { @@ -1110,11 +1184,7 @@ void ivas_dirac_dec_output_synthesis_process_slot_fx( Word32 aux; IF( temp_q1 < 0 ) { -#ifdef FIX_USAN_ISSUES Word32 temp_q1_equiv = L_lshl( (Word32) 0x80000000, temp_q1 ); -#else - Word32 temp_q1_equiv = L_lshl( 0x80000000, temp_q1 ); -#endif FOR( i = 0; i < num_freq_bands; i++ ) { aux = Mpy_32_32( h_dirac_output_synthesis_state->direct_power_factor_fx[i], h_dirac_output_synthesis_state->direct_responses_fx[ch_idx * num_freq_bands + i] ); @@ -1144,25 +1214,6 @@ void ivas_dirac_dec_output_synthesis_process_slot_fx( } } -#else - FOR( ch_idx = s_min( 4, nchan_transport ); ch_idx < num_channels_dir; ch_idx++ ) - { - v_mult_fixed( h_dirac_output_synthesis_state->direct_power_factor_fx, - &h_dirac_output_synthesis_state->direct_responses_fx[ch_idx * num_freq_bands], - aux_buf, - num_freq_bands ); /*temp_q*/ - - IF( NE_16( temp_q, h_dirac_output_synthesis_state->q_cy_cross_dir_smooth ) ) - { - Scale_sig32( aux_buf, num_freq_bands, sub( h_dirac_output_synthesis_state->q_cy_cross_dir_smooth, temp_q ) ); /*temp_q->(h_dirac_output_synthesis_state->q_cy_cross_dir_smooth)*/ - } - - v_add_fixed( aux_buf, - &h_dirac_output_synthesis_state->cy_cross_dir_smooth_fx[ch_idx * num_freq_bands], - &h_dirac_output_synthesis_state->cy_cross_dir_smooth_fx[ch_idx * num_freq_bands], - num_freq_bands, 0 ); /*Q(h_dirac_output_synthesis_state->q_cy_cross_dir_smooth)*/ - } -#endif /*Diffuse gain*/ FOR( ch_idx = s_min( 4, nchan_transport ); ch_idx < num_channels_diff; ch_idx++ ) @@ -1211,7 +1262,11 @@ void ivas_dirac_dec_output_synthesis_process_slot_fx( hDirACRend->proto_index_diff, h_dirac_output_synthesis_state->diffuse_power_factor_fx, reference_power, +#ifdef FIX_867_CLDFB_NRG_SCALE + q_reference_power, +#else &q_reference_power, +#endif h_dirac_output_synthesis_state->diffuse_responses_square_fx, onset, h_dirac_output_synthesis_state->cy_auto_diff_smooth_fx, @@ -1224,9 +1279,15 @@ void ivas_dirac_dec_output_synthesis_process_slot_fx( /* process other PSDs only slot wise for 4 transport channels */ IF( EQ_16( dec_param_estim, TRUE ) ) { +#ifdef FIX_867_CLDFB_NRG_SCALE + computeTargetPSDs_direct_fx( num_channels_dir, num_freq_bands, h_dirac_output_synthesis_state->direct_power_factor_fx, reference_power, q_reference_power, h_dirac_output_synthesis_state->direct_responses_fx, h_dirac_output_synthesis_state->direct_responses_square_fx, h_dirac_output_synthesis_state->cy_auto_dir_smooth_fx, &h_dirac_output_synthesis_state->q_cy_auto_dir_smooth, h_dirac_output_synthesis_state->cy_cross_dir_smooth_fx, &h_dirac_output_synthesis_state->q_cy_cross_dir_smooth ); + + computeTargetPSDs_diffuse_fx( num_channels_dir, num_freq_bands, diff_start_band, h_dirac_output_synthesis_state->diffuse_power_factor_fx, reference_power, q_reference_power, h_dirac_output_synthesis_state->diffuse_responses_square_fx, h_dirac_output_synthesis_state->cy_auto_diff_smooth_fx, &h_dirac_output_synthesis_state->q_cy_auto_diff_smooth ); +#else computeTargetPSDs_direct_fx( num_channels_dir, num_freq_bands, h_dirac_output_synthesis_state->direct_power_factor_fx, reference_power, &q_reference_power, h_dirac_output_synthesis_state->direct_responses_fx, h_dirac_output_synthesis_state->direct_responses_square_fx, h_dirac_output_synthesis_state->cy_auto_dir_smooth_fx, &h_dirac_output_synthesis_state->q_cy_auto_dir_smooth, h_dirac_output_synthesis_state->cy_cross_dir_smooth_fx, &h_dirac_output_synthesis_state->q_cy_cross_dir_smooth ); computeTargetPSDs_diffuse_fx( num_channels_dir, num_freq_bands, diff_start_band, h_dirac_output_synthesis_state->diffuse_power_factor_fx, reference_power, &q_reference_power, h_dirac_output_synthesis_state->diffuse_responses_square_fx, h_dirac_output_synthesis_state->cy_auto_diff_smooth_fx, &h_dirac_output_synthesis_state->q_cy_auto_diff_smooth ); +#endif } return; @@ -1335,22 +1396,22 @@ void ivas_dirac_dec_output_synthesis_process_subframe_gain_shd_fx( sub( q_com, h_dirac_output_synthesis_state.q_cy_cross_dir_smooth_prev ) ); /*h_dirac_output_synthesis_state.q_cy_cross_dir_smooth_prev->q_com*/ } - /*Directional gain*/ - FOR( ch_idx = nchan_transport_foa; ch_idx < num_channels_dir; ch_idx++ ) + FOR( l = 0; l < num_freq_bands; l++ ) { - FOR( l = 0; l < num_freq_bands; l++ ) - { - aux_buf[l] = L_sub( ONE_IN_Q30, diffuseness[l] ); // Q30 - move32(); - ratio_float[l] = L_sub( ONE_IN_Q31, h_dirac_output_synthesis_state.direct_power_factor_fx[num_freq_bands + l] ); // Q31 - move32(); - ratio_float[l + num_freq_bands] = L_sub( ONE_IN_Q31, ratio_float[l] ); // Q31 - move32(); - } + aux_buf[l] = L_sub( ONE_IN_Q30, diffuseness[l] ); // Q30 + move32(); + ratio_float[l] = L_sub( ONE_IN_Q31, h_dirac_output_synthesis_state.direct_power_factor_fx[num_freq_bands + l] ); // Q31 + move32(); + ratio_float[l + num_freq_bands] = L_sub( ONE_IN_Q31, ratio_float[l] ); // Q31 + move32(); + } - v_mult_fixed( aux_buf, ratio_float, ratio_float, num_freq_bands ); //(Q30, Q31) -> Q30 - v_mult_fixed( aux_buf, &ratio_float[num_freq_bands], &ratio_float[num_freq_bands], num_freq_bands ); //(Q30, Q31) -> Q30 + v_mult_fixed( aux_buf, ratio_float, ratio_float, num_freq_bands ); //(Q30, Q31) -> Q30 + v_mult_fixed( aux_buf, &ratio_float[num_freq_bands], &ratio_float[num_freq_bands], num_freq_bands ); //(Q30, Q31) -> Q30 + /*Directional gain*/ + FOR( ch_idx = nchan_transport_foa; ch_idx < num_channels_dir; ch_idx++ ) + { v_mult_fixed( ratio_float, // Q30 &h_dirac_output_synthesis_state.direct_responses_fx[ch_idx * num_freq_bands], // Q31 &h_dirac_output_synthesis_state.cy_cross_dir_smooth_fx[ch_idx * num_freq_bands], //(Q30, Q31) -> Q30 @@ -1644,6 +1705,7 @@ void ivas_dirac_dec_output_synthesis_process_subframe_gain_shd_fx( } /*Directional stream*/ + Word16 offset = shl( i_mult( buf_idx, i_mult( num_freq_bands, num_protos_dir ) ), Q1 ); FOR( ch_idx = nchan_transport_foa; ch_idx < num_channels_dir; ch_idx++ ) { IF( hodirac_flag ) @@ -1711,7 +1773,7 @@ void ivas_dirac_dec_output_synthesis_process_subframe_gain_shd_fx( ELSE { p_proto = h_dirac_output_synthesis_state.proto_direct_buffer_f_fx + - shl( i_mult( buf_idx, i_mult( num_freq_bands, num_protos_dir ) ), Q1 ) + + offset + shl( i_mult( proto_direct_index[ch_idx], num_freq_bands ), Q1 ); IF( EQ_16( proto_direct_index[ch_idx], 0 ) ) { @@ -1783,11 +1845,8 @@ void ivas_dirac_dec_output_synthesis_process_subframe_gain_shd_fx( } ELSE { - FOR( l = 0; l < num_freq_bands_diff; l++ ) - { - p_gains_diff++; - p_gains_diff_prev++; - } + p_gains_diff += num_freq_bands_diff; + p_gains_diff_prev += num_freq_bands_diff; } } @@ -1991,6 +2050,7 @@ void ivas_dirac_dec_output_synthesis_process_subframe_psd_ls_fx( h_dirac_output_synthesis_state->cy_cross_dir_smooth_fx, &h_dirac_output_synthesis_state->q_cy_cross_dir_smooth ); +#ifndef FIX_867_CLDFB_NRG_SCALE // Scale cy_auto_diff_smooth_fx if required IF( diff_start_band != 0 ) { @@ -2008,6 +2068,7 @@ void ivas_dirac_dec_output_synthesis_process_subframe_psd_ls_fx( h_dirac_output_synthesis_state->q_cy_auto_diff_smooth = q_com; move16(); } +#endif computeTargetPSDs_diffuse_subframe_fx( nchan_target_psds, num_freq_bands, diff_start_band, h_dirac_output_synthesis_state->diffuse_power_factor_fx, @@ -2142,6 +2203,12 @@ void ivas_dirac_dec_output_synthesis_process_subframe_psd_ls_fx( prevWeight = Mpy_32_32( L_sub( ONE_IN_Q31, DIRECTION_SMOOTHNESS_ALPHA_Q31 ), h_dirac_output_synthesis_state->reference_power_smooth_prev_fx[l] ); //(Q31, q_reference_power_smooth) -> q_reference_power_smooth +#ifdef FIX_867_CLDFB_NRG_SCALE + assert( q_reference_power_smooth[0] == h_dirac_output_synthesis_state->reference_power_smooth_prev_q[0] ); + assert( q_reference_power_smooth[1] == h_dirac_output_synthesis_state->reference_power_smooth_prev_q[1] ); +#else + assert( *q_reference_power_smooth == h_dirac_output_synthesis_state->reference_power_smooth_prev_q ); +#endif weightedDirectionSmoothness = L_add( Mpy_32_32( currWeight, instDirectionSmoothness ), Mpy_32_32( prevWeight, h_dirac_output_synthesis_state->direction_smoothness_prev_fx[l] ) ); //(q_reference_power_smooth, Q31) -> q_reference_power_smooth @@ -2149,6 +2216,7 @@ void ivas_dirac_dec_output_synthesis_process_subframe_psd_ls_fx( exp = 0; move16(); + tmp = BASOP_Util_Divide3232_Scale( weightedDirectionSmoothness, L_add( sumWeight, EPSILON_FX ), &exp ); /*Q(15-exp)*/ smoothedDirectionSmoothness = L_shl_sat( L_deposit_l( tmp ), add( sub( Q31, Q15 ), exp ) ); // Q31 @@ -2191,6 +2259,12 @@ void ivas_dirac_dec_output_synthesis_process_subframe_psd_ls_fx( *( p_power_smooth_prev ) = L_add( *( p_power_smooth_prev ), Mpy_32_32( g1, ( *p_power_smooth ) ) ); //(Q31, q_proto_power_smooth) -> q_proto_power_smooth move32(); +#ifdef FIX_867_CLDFB_NRG_SCALE + assert( h_dirac_output_synthesis_state->proto_power_smooth_prev_q[0] == h_dirac_output_synthesis_state->proto_power_smooth_q[0] ); + assert( h_dirac_output_synthesis_state->proto_power_smooth_prev_q[1] == h_dirac_output_synthesis_state->proto_power_smooth_q[1] ); +#else + assert( h_dirac_output_synthesis_state->proto_power_smooth_prev_q == h_dirac_output_synthesis_state->proto_power_smooth_q ); +#endif IF( EQ_32( *( p_power_smooth_prev ), EPSILON_FX ) ) { p_power_smooth_prev++; @@ -2214,6 +2288,61 @@ void ivas_dirac_dec_output_synthesis_process_subframe_psd_ls_fx( } // Move proto_power_smooth_fx to common Q-factor + +#ifdef FIX_867_CLDFB_NRG_SCALE + Word16 min_exp2 = -64; + min_exp = MIN_16; + move16(); + move16(); + Word16 q_tmp2 = Q31; + q_tmp = Q31; + move16(); + move16(); + + FOR( k = 0; k < num_protos_dir; k++ ) + { + FOR( l = 0; l < s_min( num_freq_bands, CLDFB_NO_CHANNELS_HALF ); l++ ) + { + min_exp = s_max( min_exp, exp_arr[k * num_freq_bands + l] ); + } + FOR( l = CLDFB_NO_CHANNELS_HALF; l < num_freq_bands; l++ ) + { + min_exp2 = s_max( min_exp2, exp_arr[k * num_freq_bands + l] ); + } + } + + p_power_smooth = h_dirac_output_synthesis_state->proto_power_smooth_fx; + + FOR( k = 0; k < num_protos_dir; k++ ) + { + FOR( l = 0; l < s_min( num_freq_bands, CLDFB_NO_CHANNELS_HALF ); l++ ) + { + *p_power_smooth = L_shr( *p_power_smooth, sub( min_exp, exp_arr[k * num_freq_bands + l] ) ); /*(31-(exp-(31-q_proto_power_smooth)))->(31-(min_exp-(31-q_proto_power_smooth)))*/ + move32(); + p_power_smooth++; + } + FOR( l = CLDFB_NO_CHANNELS_HALF; l < num_freq_bands; l++ ) + { + *p_power_smooth = L_shr( *p_power_smooth, sub( min_exp2, exp_arr[k * num_freq_bands + l] ) ); /*(31-(exp-(31-q_proto_power_smooth)))->(31-(min_exp-(31-q_proto_power_smooth)))*/ + move32(); + p_power_smooth++; + } + } + + // Update the Q-factor + h_dirac_output_synthesis_state->proto_power_smooth_prev_q[0] = s_min( h_dirac_output_synthesis_state->proto_power_smooth_q[0], h_dirac_output_synthesis_state->proto_power_smooth_prev_q[0] ); + h_dirac_output_synthesis_state->proto_power_smooth_prev_q[1] = s_min( h_dirac_output_synthesis_state->proto_power_smooth_q[1], h_dirac_output_synthesis_state->proto_power_smooth_prev_q[1] ); + move16(); + move16(); + + q_tmp = add( sub( Q31, min_exp ), sub( Q31, h_dirac_output_synthesis_state->proto_power_smooth_prev_q[0] ) ); + q_tmp2 = add( sub( Q31, min_exp2 ), sub( Q31, h_dirac_output_synthesis_state->proto_power_smooth_prev_q[1] ) ); + + h_dirac_output_synthesis_state->proto_power_smooth_q[0] = q_tmp; + h_dirac_output_synthesis_state->proto_power_smooth_q[1] = q_tmp2; + move16(); + move16(); +#else min_exp = MIN_16; move16(); q_tmp = Q31; @@ -2250,6 +2379,7 @@ void ivas_dirac_dec_output_synthesis_process_subframe_psd_ls_fx( move16(); h_dirac_output_synthesis_state->proto_power_smooth_q = q_tmp; move16(); +#endif /*Direct gains and diffuse gains on number of output channels*/ p_power_diff_smooth_prev = h_dirac_output_synthesis_state->proto_power_diff_smooth_prev_fx; @@ -2297,6 +2427,9 @@ void ivas_dirac_dec_output_synthesis_process_subframe_psd_ls_fx( FOR( k = 0; k < nchan_out_woLFE; k++ ) { Word32 power_smooth_temp; +#ifdef FIX_867_CLDFB_NRG_SCALE + Word16 qidx; +#endif p_power_smooth = h_dirac_output_synthesis_state->proto_power_smooth_fx + i_mult( proto_direct_index[k], num_freq_bands ); // q_proto_power_smooth FOR( l = 0; l < h_dirac_output_synthesis_params->max_band_decorr; l++ ) { @@ -2304,18 +2437,28 @@ void ivas_dirac_dec_output_synthesis_process_subframe_psd_ls_fx( g1 = alpha[l]; // Q31 move32(); g2 = L_sub( ONE_IN_Q31, g1 ); // Q31 + assert( q_cy_auto_dir_smooth_local[k] == q_cy_auto_dir_smooth_prev_local[k] ); *( p_cy_auto_dir_smooth_prev ) = L_add( Mpy_32_32( g1, ( *( p_cy_auto_dir_smooth++ ) ) ), Mpy_32_32( g2, ( *( p_cy_auto_dir_smooth_prev ) ) ) ); // (Q31, q_cy_auto_dir_smooth_prev_local) -> q_cy_auto_dir_smooth_prev_local move32(); + assert( h_dirac_output_synthesis_state->q_cy_cross_dir_smooth == h_dirac_output_synthesis_state->q_cy_cross_dir_smooth_prev ); *( p_cy_cross_dir_smooth_prev ) = L_add( Mpy_32_32( g1, ( *( p_cy_cross_dir_smooth++ ) ) ), Mpy_32_32( g2, ( *( p_cy_cross_dir_smooth_prev ) ) ) ); // (Q31, q_cy_cross_dir_smooth_prev) -> q_cy_cross_dir_smooth_prev move32(); power_smooth_temp = L_shl( *p_power_smooth, norm_l( *p_power_smooth ) ); // proto_power_smooth_q + norm_l( *p_power_smooth ) L_tmp = Mpy_32_32( power_smooth_temp, ( *( p_cy_auto_dir_smooth_prev++ ) ) ); // proto_power_smooth_q + norm_l( *p_power_smooth ) ) + q_cy_auto_dir_smooth_prev_local - 31 +#ifdef FIX_867_CLDFB_NRG_SCALE + qidx = s_min( 1, s_max( 0, sub( l, CLDFB_NO_CHANNELS_HALF - 1 ) ) ); + exp = sub( Q31, sub( add( add( h_dirac_output_synthesis_state->proto_power_smooth_q[qidx], norm_l( *p_power_smooth ) ), + q_cy_auto_dir_smooth_prev_local[k] ), + Q31 ) ); + +#else exp = sub( Q31, sub( add( add( h_dirac_output_synthesis_state->proto_power_smooth_q, norm_l( *p_power_smooth ) ), q_cy_auto_dir_smooth_prev_local[k] ), Q31 ) ); +#endif p_power_smooth++; *( p_gains_dir ) = Sqrt32( L_tmp, &exp ); // (Q31 - exp) @@ -2399,9 +2542,16 @@ void ivas_dirac_dec_output_synthesis_process_subframe_psd_ls_fx( ( p_cy_cross_dir_smooth++ ); power_smooth_temp = L_shl( *p_power_smooth, norm_l( *p_power_smooth ) ); L_tmp = Mpy_32_32( power_smooth_temp, L_tmp ); // proto_power_smooth_q + norm_l( *p_power_smooth ) ) + q_cy_auto_dir_smooth_prev_local - 31 +#ifdef FIX_867_CLDFB_NRG_SCALE + qidx = s_min( 1, s_max( 0, sub( l, CLDFB_NO_CHANNELS_HALF - 1 ) ) ); + exp = sub( Q31, sub( add( add( h_dirac_output_synthesis_state->proto_power_smooth_q[qidx], norm_l( *p_power_smooth ) ), + add( q_cy_auto_dir_smooth_prev_local[k], q_tmp ) ), + Q31 ) ); +#else exp = sub( Q31, sub( add( add( h_dirac_output_synthesis_state->proto_power_smooth_q, norm_l( *p_power_smooth ) ), add( q_cy_auto_dir_smooth_prev_local[k], q_tmp ) ), Q31 ) ); +#endif *( p_gains_dir ) = Sqrt32( L_tmp, &exp ); // (Q31 - exp) move32(); @@ -2450,9 +2600,15 @@ void ivas_dirac_dec_output_synthesis_process_subframe_psd_ls_fx( move32(); } ( p_cy_auto_diff_smooth_prev++ ); +#ifdef FIX_867_CLDFB_NRG_SCALE + exp = sub( Q31, sub( add( add( h_dirac_output_synthesis_state->proto_power_smooth_q[qidx], norm_l( *p_power_smooth ) ), + h_dirac_output_synthesis_state->q_cy_auto_diff_smooth_prev ), + Q31 ) ); +#else exp = sub( Q31, sub( add( add( h_dirac_output_synthesis_state->proto_power_smooth_q, norm_l( *p_power_smooth ) ), h_dirac_output_synthesis_state->q_cy_auto_diff_smooth_prev ), Q31 ) ); +#endif p_power_smooth++; *( p_gains_diff ) = Sqrt32( L_tmp, &exp ); /*31-exp*/ @@ -3049,11 +3205,19 @@ void ivas_dirac_dec_compute_directional_responses_fx( } ELSE { +#ifdef FIX_1310_SPEEDUP_ivas_dirac_dec_get_response_fx + ivas_dirac_dec_get_response_fx_29( azimuth[k], elevation[k], direct_response_hoa_fx, hDirACRend->hOutSetup.ambisonics_order ); +#else ivas_dirac_dec_get_response_fx( azimuth[k], elevation[k], direct_response_hoa_fx, hDirACRend->hOutSetup.ambisonics_order, Q_direct_response_hoa ); +#endif IF( hodirac_flag ) { +#ifdef FIX_1310_SPEEDUP_ivas_dirac_dec_get_response_fx + ivas_dirac_dec_get_response_fx_29( azimuth2[k], elevation2[k], direct_response_dir2_fx, hDirACRend->hOutSetup.ambisonics_order ); +#else ivas_dirac_dec_get_response_fx( azimuth2[k], elevation2[k], direct_response_dir2_fx, hDirACRend->hOutSetup.ambisonics_order, Q_direct_response_dir2 ); +#endif } } @@ -3727,7 +3891,7 @@ void ivas_lfe_synth_with_filters_fx( /* Delay the separated channel to sync the LFE synthesis with the DirAC rendering */ delay = hMasaLfeSynth->delayBuffer_syncDirAC_size; move16(); - delay_signal_fx( data_fx[separateChannelIndex], output_frame, hMasaLfeSynth->delayBuffer_syncDirAC_fx, delay ); /*q11*/ + delay_signal32_fx( data_fx[separateChannelIndex], output_frame, hMasaLfeSynth->delayBuffer_syncDirAC_fx, delay ); /*q11*/ /* Filterbank for dividing the separated channel to LFE frequencies and higher frequencies */ lowpassCoef_fx_exp = 15; @@ -3886,7 +4050,7 @@ void ivas_lfe_synth_with_filters_fx( /* Delay the separated channel to match the delay of the lowpass filter */ delay = hMasaLfeSynth->delayBuffer_syncLp_size; move16(); - delay_signal_fx( data_fx[separateChannelIndex], output_frame, hMasaLfeSynth->delayBuffer_syncLp_fx, delay ); /*q11*/ + delay_signal32_fx( data_fx[separateChannelIndex], output_frame, hMasaLfeSynth->delayBuffer_syncLp_fx, delay ); /*q11*/ return; } @@ -3917,21 +4081,36 @@ static void computeTargetPSDs_direct_fx( /* estimate direct and diffuse power */ v_mult_fixed( direct_power_factor, reference_power, direct_power, num_freq_bands ); /* Q31 + Q(q_reference_power) - Q31 = Q(q_reference_power) */ +#ifdef FIX_867_CLDFB_NRG_SCALE + Word16 common1_q = s_min( *q_cy_auto_dir_smooth, s_min( q_reference_power[0], q_reference_power[1] ) ); + Word16 common2_q = s_min( *q_cy_cross_dir_smooth, s_min( q_reference_power[0], q_reference_power[1] ) ); +#else Word16 common1_q = s_min( *q_cy_auto_dir_smooth, *q_reference_power ); Word16 common2_q = s_min( *q_cy_cross_dir_smooth, *q_reference_power ); +#endif /* compute target auto and cross PSDs of current frame (smoothed) */ FOR( ch_idx = 0; ch_idx < num_channels; ++ch_idx ) { cur_idx = imult1616( ch_idx, num_freq_bands ); - v_mult_fixed( direct_power, &direct_responses_square[cur_idx], aux_buffer_res, num_freq_bands ); /* Q31 + Q(q_reference_power) - Q31 = Q(q_reference_power) */ - scale_sig32( aux_buffer_res, num_freq_bands, sub( common1_q, *q_reference_power ) ); /* Q(common1_q) */ + v_mult_fixed( direct_power, &direct_responses_square[cur_idx], aux_buffer_res, num_freq_bands ); /* Q31 + Q(q_reference_power) - Q31 = Q(q_reference_power) */ +#ifdef FIX_867_CLDFB_NRG_SCALE + scale_sig32( aux_buffer_res, s_min( num_freq_bands, CLDFB_NO_CHANNELS_HALF ), sub( common1_q, q_reference_power[0] ) ); /* Q(common1_q) */ + scale_sig32( aux_buffer_res + CLDFB_NO_CHANNELS_HALF, s_max( 0, sub( num_freq_bands, CLDFB_NO_CHANNELS_HALF ) ), sub( common1_q, q_reference_power[1] ) ); /* Q(common1_q) */ +#else + scale_sig32( aux_buffer_res, num_freq_bands, sub( common1_q, *q_reference_power ) ); /* Q(common1_q) */ +#endif scale_sig32( &cy_auto_dir_smooth[cur_idx], num_freq_bands, sub( common1_q, *q_cy_auto_dir_smooth ) ); /* Q(common1_q) */ v_add_fixed( &cy_auto_dir_smooth[cur_idx], aux_buffer_res, &cy_auto_dir_smooth[cur_idx], num_freq_bands, Q1 ); /* Q(common1_q) - Q1 */ - v_mult_fixed( direct_power, &direct_responses[cur_idx], aux_buffer_res, num_freq_bands ); /* Q31 + Q(q_reference_power) - Q31 = Q(q_reference_power) */ - scale_sig32( aux_buffer_res, num_freq_bands, sub( common2_q, *q_reference_power ) ); /* Q(common2_q) */ + v_mult_fixed( direct_power, &direct_responses[cur_idx], aux_buffer_res, num_freq_bands ); /* Q31 + Q(q_reference_power) - Q31 = Q(q_reference_power) */ +#ifdef FIX_867_CLDFB_NRG_SCALE + scale_sig32( aux_buffer_res, s_min( num_freq_bands, CLDFB_NO_CHANNELS_HALF ), sub( common2_q, q_reference_power[0] ) ); /* Q(common2_q) */ + scale_sig32( aux_buffer_res + CLDFB_NO_CHANNELS_HALF, s_max( 0, sub( num_freq_bands, CLDFB_NO_CHANNELS_HALF ) ), sub( common2_q, q_reference_power[1] ) ); /* Q(common2_q) */ +#else + scale_sig32( aux_buffer_res, num_freq_bands, sub( common2_q, *q_reference_power ) ); /* Q(common2_q) */ +#endif scale_sig32( &cy_cross_dir_smooth[cur_idx], num_freq_bands, sub( common2_q, *q_cy_cross_dir_smooth ) ); /* Q(common2_q) */ v_add_fixed( &cy_cross_dir_smooth[cur_idx], aux_buffer_res, &cy_cross_dir_smooth[cur_idx], num_freq_bands, Q1 ); /* Q(common2_q) - Q1 */ } @@ -3959,14 +4138,21 @@ static void computeTargetPSDs_direct_subframe_fx( Word32 *cy_cross_dir_smooth, /*q_cy_cross_dir_smooth*/ Word16 *q_cy_cross_dir_smooth ) { +#ifdef FIX_867_CLDFB_NRG_SCALE + Word16 ch_idx, cur_idx, q_tmp; + Word32 L_tmp[CLDFB_NO_CHANNELS_MAX]; + Word16 q_cy_auto_dir_smooth_local[2]; +#else Word16 ch_idx, cur_idx, i, q_tmp; Word64 W_tmp[CLDFB_NO_CHANNELS_MAX], W_max; set64_fx( W_tmp, 0, CLDFB_NO_CHANNELS_MAX ); +#endif /* segment auxiliary buffer */ Word32 direct_power[CLDFB_NO_CHANNELS_MAX]; /* size: num_freq_bands. */ /* estimate direct and diffuse power */ +#ifndef FIX_867_CLDFB_NRG_SCALE FOR( i = 0; i < num_freq_bands; i++ ) { direct_power[i] = Mpy_32_32( direct_power_factor[i], reference_power[i] ); @@ -3978,11 +4164,15 @@ static void computeTargetPSDs_direct_subframe_fx( move32(); } } +#else + v_mult_fixed( direct_power_factor, reference_power, direct_power, num_freq_bands ); +#endif /* compute target auto and cross PSDs of current frame (smoothed) */ FOR( ch_idx = 0; ch_idx < num_channels; ++ch_idx ) { cur_idx = imult1616( ch_idx, num_freq_bands ); +#ifndef FIX_867_CLDFB_NRG_SCALE W_max = 0; move64(); FOR( i = 0; i < num_freq_bands; i++ ) @@ -3995,6 +4185,21 @@ static void computeTargetPSDs_direct_subframe_fx( } } q_tmp = W_norm( W_max ); +#ifdef FIX_867_CLDFB_NRG_SCALE + FOR( i = 0; i < s_min( num_freq_bands, CLDFB_NO_CHANNELS_HALF ); i++ ) + { + cy_auto_dir_smooth[cur_idx + i] = W_extract_h( W_shl( W_tmp[i], q_tmp ) ); /*q_reference_power[0]+q_tmp*/ + move32(); + } + Word16 q_tmp2 = sub( q_tmp, sub( q_reference_power[1], q_reference_power[0] ) ); + FOR( i = CLDFB_NO_CHANNELS_HALF; i < num_freq_bands; i++ ) + { + cy_auto_dir_smooth[cur_idx + i] = W_extract_h( W_shl( W_tmp[i], q_tmp2 ) ); /*q_reference_power[1]+q_tmp*/ + move32(); + } + q_cy_auto_dir_smooth[ch_idx] = add( q_reference_power[0], q_tmp ); + move16(); +#else FOR( i = 0; i < num_freq_bands; i++ ) { cy_auto_dir_smooth[cur_idx + i] = W_extract_h( W_shl( W_tmp[i], q_tmp ) ); /*q_reference_power+q_tmp*/ @@ -4002,11 +4207,34 @@ static void computeTargetPSDs_direct_subframe_fx( } q_cy_auto_dir_smooth[ch_idx] = add( *q_reference_power, q_tmp ); move16(); +#endif +#else + q_tmp = L_norm_arr( &direct_responses_square[cur_idx], num_freq_bands ); + Copy_Scale_sig32( &direct_responses_square[cur_idx], L_tmp, num_freq_bands, q_tmp ); + v_mult_fixed( direct_power, L_tmp, &cy_auto_dir_smooth[cur_idx], num_freq_bands ); // (q_reference_power, q_tmp) -> q_reference_power + q_tmp + + q_cy_auto_dir_smooth_local[0] = add( add( q_reference_power[0], q_tmp ), L_norm_arr( cy_auto_dir_smooth + cur_idx, s_min( num_freq_bands, CLDFB_NO_CHANNELS_HALF ) ) ); + q_cy_auto_dir_smooth_local[1] = add( add( q_reference_power[1], q_tmp ), L_norm_arr( cy_auto_dir_smooth + cur_idx + CLDFB_NO_CHANNELS_HALF, s_max( sub( num_freq_bands, CLDFB_NO_CHANNELS_HALF ), 0 ) ) ); + q_cy_auto_dir_smooth[ch_idx] = s_min( q_cy_auto_dir_smooth_local[0], q_cy_auto_dir_smooth_local[1] ); + move16(); + + Scale_sig32( cy_auto_dir_smooth + cur_idx, s_min( num_freq_bands, CLDFB_NO_CHANNELS_HALF ), sub( q_cy_auto_dir_smooth[ch_idx], add( q_reference_power[0], q_tmp ) ) ); + Scale_sig32( cy_auto_dir_smooth + cur_idx + CLDFB_NO_CHANNELS_HALF, s_max( sub( num_freq_bands, CLDFB_NO_CHANNELS_HALF ), 0 ), sub( q_cy_auto_dir_smooth[ch_idx], add( q_reference_power[1], q_tmp ) ) ); + +#endif v_mult_fixed( direct_power, &direct_responses[cur_idx], &cy_cross_dir_smooth[cur_idx], num_freq_bands ); // (q_reference_power, Q31) -> q_reference_power +#ifdef FIX_867_CLDFB_NRG_SCALE + Scale_sig32( &cy_cross_dir_smooth[cur_idx] + CLDFB_NO_CHANNELS_HALF, s_max( sub( num_freq_bands, CLDFB_NO_CHANNELS_HALF ), 0 ), sub( q_reference_power[0], q_reference_power[1] ) ); +#endif } +#ifdef FIX_867_CLDFB_NRG_SCALE + *q_cy_cross_dir_smooth = q_reference_power[0]; + move16(); +#else *q_cy_cross_dir_smooth = *q_reference_power; move16(); +#endif return; } @@ -4032,15 +4260,24 @@ static void computeTargetPSDs_diffuse_fx( /* estimate direct and diffuse power */ v_mult_fixed( diffuse_power_factor, reference_power, diffuse_power, num_freq_bands ); /* Q31 + Q(q_reference_power) - Q31 = Q(q_reference_power) */ +#ifdef FIX_867_CLDFB_NRG_SCALE + Word16 common_q = s_min( *q_cy_auto_diff_smooth, s_min( q_reference_power[0], q_reference_power[1] ) ); +#else Word16 common_q = s_min( *q_cy_auto_diff_smooth, *q_reference_power ); +#endif /* compute target auto and cross PSDs of current frame (smoothed) */ FOR( ch_idx = 0; ch_idx < num_channels; ++ch_idx ) { cur_idx = imult1616( ch_idx, num_freq_bands ); - v_multc_fixed( &diffuse_power[start_band], diffuse_responses_square[ch_idx], aux_buffer_res, sub( num_freq_bands, start_band ) ); /* Q31 + Q(q_reference_power) - Q31 = Q(q_reference_power) */ - scale_sig32( aux_buffer_res, sub( num_freq_bands, start_band ), sub( common_q, *q_reference_power ) ); /* Q(common_q) */ + v_multc_fixed( &diffuse_power[start_band], diffuse_responses_square[ch_idx], aux_buffer_res, sub( num_freq_bands, start_band ) ); /* Q31 + Q(q_reference_power) - Q31 = Q(q_reference_power) */ +#ifdef FIX_867_CLDFB_NRG_SCALE + scale_sig32( aux_buffer_res, s_min( sub( num_freq_bands, start_band ), CLDFB_NO_CHANNELS_HALF ), sub( common_q, q_reference_power[0] ) ); /* Q(common_q) */ + scale_sig32( aux_buffer_res + CLDFB_NO_CHANNELS_HALF, s_max( 0, sub( sub( num_freq_bands, start_band ), CLDFB_NO_CHANNELS_HALF ) ), sub( common_q, q_reference_power[1] ) ); /* Q(common_q) */ +#else + scale_sig32( aux_buffer_res, sub( num_freq_bands, start_band ), sub( common_q, *q_reference_power ) ); /* Q(common_q) */ +#endif scale_sig32( &cy_auto_diff_smooth[cur_idx + start_band], sub( num_freq_bands, start_band ), sub( common_q, *q_cy_auto_diff_smooth ) ); /* Q(common_q) */ v_add_fixed( &cy_auto_diff_smooth[cur_idx + start_band], aux_buffer_res, &cy_auto_diff_smooth[cur_idx + start_band], sub( num_freq_bands, start_band ), Q1 ); /* Q(common_q) - Q1 */ } @@ -4066,20 +4303,46 @@ static void computeTargetPSDs_diffuse_subframe_fx( { Word16 ch_idx, cur_idx; Word32 diffuse_power[CLDFB_NO_CHANNELS_MAX]; /* segment auxiliary buffer; size: num_freq_bands. */ +#ifdef FIX_867_CLDFB_NRG_SCALE + Word16 q_cy_auto_diff_smooth_new, q_diffuse_power; +#endif /* estimate direct and diffuse power */ v_mult_fixed( diffuse_power_factor, reference_power, diffuse_power, num_freq_bands ); // (Q31, q_reference_power) -> q_reference_power +#ifdef FIX_867_CLDFB_NRG_SCALE + q_diffuse_power = s_min( q_reference_power[0], q_reference_power[1] ); + Scale_sig32( diffuse_power, s_min( num_freq_bands, CLDFB_NO_CHANNELS_HALF ), sub( q_diffuse_power, q_reference_power[0] ) ); + Scale_sig32( diffuse_power + CLDFB_NO_CHANNELS_HALF, s_max( 0, sub( num_freq_bands, CLDFB_NO_CHANNELS_HALF ) ), sub( q_diffuse_power, q_reference_power[1] ) ); + q_cy_auto_diff_smooth_new = q_diffuse_power; + IF( LT_16( *q_cy_auto_diff_smooth, q_diffuse_power ) ) + { + Scale_sig32( diffuse_power, num_freq_bands, sub( *q_cy_auto_diff_smooth, q_cy_auto_diff_smooth_new ) ); + q_cy_auto_diff_smooth_new = *q_cy_auto_diff_smooth; + move16(); + } +#endif /* compute target auto and cross PSDs of current frame (smoothed) */ FOR( ch_idx = 0; ch_idx < num_channels; ++ch_idx ) { cur_idx = imult1616( ch_idx, num_freq_bands ); +#ifdef FIX_867_CLDFB_NRG_SCALE + IF( GT_16( *q_cy_auto_diff_smooth, q_diffuse_power ) ) + { + Scale_sig32( &cy_auto_diff_smooth[cur_idx], start_band, sub( q_diffuse_power, *q_cy_auto_diff_smooth ) ); + } +#endif v_multc_fixed( &diffuse_power[start_band], diffuse_responses_square[ch_idx], &cy_auto_diff_smooth[cur_idx + start_band], sub( num_freq_bands, start_band ) ); // (q_reference_power, Q31) -> q_reference_power } +#ifdef FIX_867_CLDFB_NRG_SCALE + *q_cy_auto_diff_smooth = q_cy_auto_diff_smooth_new; + move16(); +#else *q_cy_auto_diff_smooth = *q_reference_power; move16(); +#endif return; } @@ -4103,14 +4366,23 @@ static void computeTargetPSDs_diffuse_with_onsets_fx( /* segment auxiliary buffer */ Word32 diffuse_power[CLDFB_NO_CHANNELS_MAX]; /* size: num_freq_bands. */ Word32 aux_buffer_res[CLDFB_NO_CHANNELS_MAX]; /* size: num_freq_bands. */ +#ifdef FIX_867_CLDFB_NRG_SCALE + Word16 q_common, q_reference_power_min_one[2]; + q_reference_power_min_one[0] = sub( q_reference_power[0], Q1 ); + q_reference_power_min_one[1] = sub( q_reference_power[1], Q1 ); +#else Word16 q_common, q_reference_power_min_one; q_reference_power_min_one = sub( *q_reference_power, Q1 ); +#endif /* estimate direct and diffuse power */ v_mult_fixed( diffuse_power_factor, reference_power, diffuse_power, num_decorr_freq_bands ); // (Q31, q_reference_power) -> q_reference_power +#ifdef FIX_867_CLDFB_NRG_SCALE + q_common = s_min( *q_cy_auto_diff_smooth, s_min( q_reference_power_min_one[0], q_reference_power_min_one[1] ) ); +#else IF( GT_16( *q_cy_auto_diff_smooth, q_reference_power_min_one ) ) { q_common = q_reference_power_min_one; @@ -4121,6 +4393,7 @@ static void computeTargetPSDs_diffuse_with_onsets_fx( q_common = *q_cy_auto_diff_smooth; move16(); } +#endif /* compute target auto and cross PSDs of current frame (smoothed) */ FOR( ch_idx = 0; ch_idx < num_channels; ++ch_idx ) @@ -4137,6 +4410,22 @@ static void computeTargetPSDs_diffuse_with_onsets_fx( v_add_fixed( aux_buffer_res1, aux_buffer_res, aux_buffer_res, num_decorr_freq_bands, Q1 ); // Q30 v_mult_fixed( aux_buffer_res, diffuse_power, aux_buffer_res, num_decorr_freq_bands ); // (Q30, q_reference_power) -> q_reference_power - Q1 +#ifdef FIX_867_CLDFB_NRG_SCALE + IF( NE_16( q_common, q_reference_power_min_one[0] ) ) + { + scale_sig32( aux_buffer_res, s_min( num_decorr_freq_bands, CLDFB_NO_CHANNELS_HALF ), sub( q_common, q_reference_power_min_one[0] ) ); // q_common + } + IF( NE_16( q_common, q_reference_power_min_one[1] ) ) + { + scale_sig32( aux_buffer_res + CLDFB_NO_CHANNELS_HALF, s_max( 0, sub( num_decorr_freq_bands, CLDFB_NO_CHANNELS_HALF ) ), sub( q_common, q_reference_power_min_one[1] ) ); // q_common + } + IF( NE_16( q_common, *q_cy_auto_diff_smooth ) ) + { + scale_sig32( &cy_auto_diff_smooth[cur_idx], num_decorr_freq_bands, sub( q_common, *q_cy_auto_diff_smooth ) ); // q_common + } + v_add_fixed( &cy_auto_diff_smooth[cur_idx], aux_buffer_res, &cy_auto_diff_smooth[cur_idx], num_decorr_freq_bands, Q1 ); // (q_common - Q1) + scale_sig32( &cy_auto_diff_smooth[cur_idx + num_decorr_freq_bands], sub( num_freq_bands, num_decorr_freq_bands ), sub( sub( q_common, Q1 ), *q_cy_auto_diff_smooth ) ); // (q_common - Q1) +#else IF( NE_16( q_common, q_reference_power_min_one ) ) { scale_sig32( aux_buffer_res, num_decorr_freq_bands, sub( q_common, q_reference_power_min_one ) ); // q_common @@ -4147,6 +4436,7 @@ static void computeTargetPSDs_diffuse_with_onsets_fx( } v_add_fixed( &cy_auto_diff_smooth[cur_idx], aux_buffer_res, &cy_auto_diff_smooth[cur_idx], num_decorr_freq_bands, Q1 ); // (q_common - Q1) scale_sig32( &cy_auto_diff_smooth[cur_idx + num_decorr_freq_bands], sub( num_freq_bands, num_decorr_freq_bands ), sub( sub( q_common, Q1 ), *q_cy_auto_diff_smooth ) ); // (q_common - Q1) +#endif } /* Q adjustment */ diff --git a/lib_rend/ivas_dirac_rend.c b/lib_rend/ivas_dirac_rend_fx.c similarity index 78% rename from lib_rend/ivas_dirac_rend.c rename to lib_rend/ivas_dirac_rend_fx.c index b563d43992395040d23b1ce2bf995e37f2f41c78..f67f3761bee66257e79a5fc22dce5e97b9af76c5 100644 --- a/lib_rend/ivas_dirac_rend.c +++ b/lib_rend/ivas_dirac_rend_fx.c @@ -35,13 +35,11 @@ #include "options.h" #include #include "cnst.h" -#include "prot.h" -#include "ivas_prot.h" -#include "ivas_prot_rend.h" +#include "prot_fx.h" +#include "ivas_prot_rend_fx.h" #include "ivas_cnst.h" #include "ivas_rom_rend.h" #include "wmc_auto.h" -#include "prot_fx.h" #include "ivas_prot_fx.h" #include "ivas_rom_binaural_crend_head.h" @@ -780,17 +778,26 @@ ivas_error ivas_dirac_alloc_mem_fx( { return ( IVAS_ERROR( IVAS_ERR_FAILED_ALLOC, "Can not allocate stack memory for DirAC\n" ) ); } -#ifdef MSAN_FIX set_zero_fx( hDirAC_mem->frame_dec_f_fx, 2 * num_outputs_diff * num_freq_bands ); -#endif hDirAC_mem->frame_dec_f_len = imult1616( imult1616( 2, num_outputs_diff ), num_freq_bands ); } } hDirACRend->h_output_synthesis_psd_state.proto_power_smooth_fx = hDirAC_mem->proto_power_smooth_fx; +#ifdef FIX_867_CLDFB_NRG_SCALE + hDirACRend->h_output_synthesis_psd_state.proto_power_smooth_q[0] = Q31; + hDirACRend->h_output_synthesis_psd_state.proto_power_smooth_q[1] = Q31; + move16(); + move16(); + hDirACRend->h_output_synthesis_psd_state.proto_power_smooth_prev_q[0] = Q31; + hDirACRend->h_output_synthesis_psd_state.proto_power_smooth_prev_q[1] = Q31; + move16(); + move16(); +#else hDirACRend->h_output_synthesis_psd_state.proto_power_smooth_q = Q31; move16(); hDirACRend->h_output_synthesis_psd_state.proto_power_smooth_prev_q = Q31; move16(); +#endif hDirACRend->h_output_synthesis_psd_state.proto_power_diff_smooth_fx = hDirAC_mem->proto_power_diff_smooth_fx; hDirACRend->h_output_synthesis_psd_state.proto_power_diff_smooth_q = hDirAC_mem->proto_power_diff_smooth_q; move16(); @@ -815,12 +822,7 @@ ivas_error ivas_dirac_alloc_mem_fx( } hDirACRend->h_output_synthesis_psd_state.cy_cross_dir_smooth_len = size_ho; move16(); -#ifdef MSAN_FIX set_zero_fx( hDirAC_mem->cy_cross_dir_smooth_fx, size_ho ); -#else - set_zero_fx( hDirAC_mem->cy_cross_dir_smooth_fx, size ); - hDirACRend->h_output_synthesis_psd_state.cy_cross_dir_smooth_len = size_ho; -#endif IF( NE_32( hDirACRend->synthesisConf, DIRAC_SYNTHESIS_GAIN_SHD ) ) { @@ -872,6 +874,9 @@ ivas_error ivas_dirac_alloc_mem_fx( return ( IVAS_ERROR( IVAS_ERR_FAILED_ALLOC, "Can not allocate stack memory for DirAC\n" ) ); } hDirACRend->h_output_synthesis_psd_state.proto_direct_buffer_f_len = imult1616( imult1616( 2 * MAX_PARAM_SPATIAL_SUBFRAMES, num_protos_dir ), num_freq_bands ); + set_zero_fx( hDirAC_mem->proto_direct_buffer_f_fx, hDirACRend->h_output_synthesis_psd_state.proto_direct_buffer_f_len ); + move16(); + hDirACRend->h_output_synthesis_psd_state.proto_direct_buffer_f_q = Q31; move16(); IF( hDirACRend->proto_signal_decorr_on ) @@ -893,9 +898,7 @@ ivas_error ivas_dirac_alloc_mem_fx( } hDirAC_mem->proto_diffuse_buffer_f_len = imult1616( imult1616( 2 * MAX_PARAM_SPATIAL_SUBFRAMES, num_outputs_diff ), num_freq_bands ); } -#ifdef MSAN_FIX set_zero_fx( hDirAC_mem->proto_diffuse_buffer_f_fx, hDirAC_mem->proto_diffuse_buffer_f_len ); -#endif } } hDirACRend->h_output_synthesis_psd_state.proto_direct_buffer_f_fx = hDirAC_mem->proto_direct_buffer_f_fx; @@ -948,19 +951,28 @@ ivas_error ivas_dirac_alloc_mem_fx( hDirAC_mem->reference_power_len = imult1616( 2, num_freq_bands ); move16(); +#ifdef FIX_867_CLDFB_NRG_SCALE + hDirAC_mem->reference_power_q[0] = Q31; + hDirAC_mem->reference_power_q[1] = Q31; + move16(); + move16(); + hDirAC_mem->reference_power_smooth_q[0] = Q31; + hDirAC_mem->reference_power_smooth_q[1] = Q31; + move16(); + move16(); +#else hDirAC_mem->reference_power_q = Q31; move16(); hDirAC_mem->reference_power_smooth_q = Q31; move16(); +#endif IF( hDirACRend->proto_signal_decorr_on ) { IF( ( hDirAC_mem->onset_filter_fx = (Word32 *) malloc( sizeof( Word32 ) * num_outputs_diff * num_freq_bands ) ) == NULL ) { return ( IVAS_ERROR( IVAS_ERR_FAILED_ALLOC, "Can not allocate stack memory for DirAC\n" ) ); } -#ifdef MSAN_FIX set_zero_fx( hDirAC_mem->onset_filter_fx, imult1616( num_outputs_diff, num_freq_bands ) ); -#endif } } } @@ -982,9 +994,7 @@ ivas_error ivas_dirac_alloc_mem_fx( { return ( IVAS_ERROR( IVAS_ERR_FAILED_ALLOC, "Can not allocate stack memory for DirAC\n" ) ); } -#ifdef MSAN_FIX set_zero_fx( hDirAC_mem->onset_filter_fx, imult1616( 2, num_freq_bands ) ); -#endif } } @@ -1478,8 +1488,14 @@ void protoSignalComputation_shd_fx( *proto_direct_buffer_f_q = add( q_cldfb, min_q_shift ); move16(); +#ifdef FIX_867_CLDFB_NRG_SCALE + Word16 qidx = s_min( 1, s_max( 0, sub( l, CLDFB_NO_CHANNELS_HALF - 1 ) ) ); + reference_power_q[qidx] = sub( add( *proto_direct_buffer_f_q, *proto_direct_buffer_f_q ), 31 ); + move16(); +#else *reference_power_q = sub( add( *proto_direct_buffer_f_q, *proto_direct_buffer_f_q ), 31 ); move16(); +#endif Word16 shift = sub( *proto_direct_buffer_f_q, q_cldfb ); FOR( k = 1; k < 4; k++ ) @@ -1514,8 +1530,15 @@ void protoSignalComputation_shd_fx( } *proto_direct_buffer_f_q = q_cldfb; move16(); +#ifdef FIX_867_CLDFB_NRG_SCALE + reference_power_q[0] = sub( add( add( q_cldfb, min_q_shift ), add( q_cldfb, min_q_shift ) ), 31 ); + reference_power_q[1] = reference_power_q[0]; + move16(); + move16(); +#else *reference_power_q = sub( add( add( q_cldfb, min_q_shift ), add( q_cldfb, min_q_shift ) ), 31 ); move16(); +#endif } /* Additional transport channels = planar SBA components of degree higher than 1*/ @@ -1577,7 +1600,11 @@ void protoSignalComputation1_fx( { Word16 l, k, idx; Word32 *p_proto_buffer_fx; +#ifdef FIX_867_CLDFB_NRG_SCALE + Word16 proto_power_smooth_fx_q[2], min_q_shift, q_shift; +#else Word16 proto_power_smooth_fx_q, min_q_shift, q_shift; +#endif Word32 re, im; min_q_shift = Q31; @@ -1600,17 +1627,48 @@ void protoSignalComputation1_fx( q_shift = sub( q_shift, find_guarded_bits_fx( 2 ) ); Scale_sig32( proto_power_smooth_fx, num_freq_bands, q_shift ); /*proto_power_smooth_q+q_shift*/ +#ifdef FIX_867_CLDFB_NRG_SCALE + proto_power_smooth_q[0] = add( proto_power_smooth_q[0], q_shift ); + proto_power_smooth_q[1] = add( proto_power_smooth_q[1], q_shift ); + proto_power_smooth_fx_q[0] = proto_power_smooth_q[0]; + proto_power_smooth_fx_q[1] = proto_power_smooth_q[1]; + move16(); + move16(); +#else *proto_power_smooth_q = add( *proto_power_smooth_q, q_shift ); proto_power_smooth_fx_q = *proto_power_smooth_q; move16(); +#endif FOR( l = 0; l < num_freq_bands; l++ ) { +#ifdef FIX_867_CLDFB_NRG_SCALE + Word16 qidx = s_min( 1, s_max( 0, sub( l, CLDFB_NO_CHANNELS_HALF - 1 ) ) ); +#endif re = L_shl( RealBuffer_fx[0][0][l], min_q_shift ); // q_cldfb+min_q_shift im = L_shl( ImagBuffer_fx[0][0][l], min_q_shift ); // q_cldfb+min_q_shift reference_power_fx[l] = Madd_32_32( Mpy_32_32( re, re ), im, im ); // 2*(q_cldfb+min_q_shift)-31 move32(); +#ifdef FIX_867_CLDFB_NRG_SCALE + reference_power_q[qidx] = sub( add( add( q_cldfb, min_q_shift ), add( q_cldfb, min_q_shift ) ), 31 ); + move16(); + + IF( LT_16( reference_power_q[qidx], proto_power_smooth_q[qidx] ) ) + { + proto_power_smooth_fx[l] = L_add( L_shr( proto_power_smooth_fx[l], sub( proto_power_smooth_q[qidx], reference_power_q[qidx] ) ), reference_power_fx[l] ); // reference_power_q + move32(); + proto_power_smooth_fx_q[qidx] = reference_power_q[qidx]; + move16(); + } + ELSE + { + proto_power_smooth_fx[l] = L_add( proto_power_smooth_fx[l], L_shr( reference_power_fx[l], sub( reference_power_q[qidx], proto_power_smooth_q[qidx] ) ) ); // proto_power_smooth_q + move32(); + proto_power_smooth_fx_q[qidx] = proto_power_smooth_q[qidx]; + move16(); + } +#else *reference_power_q = sub( add( add( q_cldfb, min_q_shift ), add( q_cldfb, min_q_shift ) ), 31 ); move16(); @@ -1628,6 +1686,7 @@ void protoSignalComputation1_fx( proto_power_smooth_fx_q = *proto_power_smooth_q; move16(); } +#endif idx = 2 * l; p_proto_buffer_fx[idx] = RealBuffer_fx[0][0][l]; // q_cldfb @@ -1649,8 +1708,15 @@ void protoSignalComputation1_fx( move16(); *proto_direct_buffer_f_q = q_cldfb; move16(); +#ifdef FIX_867_CLDFB_NRG_SCALE + proto_power_smooth_q[0] = proto_power_smooth_fx_q[0]; + proto_power_smooth_q[1] = proto_power_smooth_fx_q[1]; + move16(); + move16(); +#else *proto_power_smooth_q = proto_power_smooth_fx_q; move16(); +#endif return; } @@ -1693,17 +1759,32 @@ void protoSignalComputation2_fx( Word32 min_sum_total_ratio_fx, min_sum_total_ratio_db_fx; Word32 sum_total_ratio_fx[MASA_SUM_FREQ_RANGE_BINS]; Word16 q_sum_total_ratio; - Word32 a_fx, b_fx; + Word32 a_fx, b_fx, a2_fx, b2_fx; Word16 interpolatorSpaced_fx, interpolatorDmx_fx; Word32 tempSpaced_fx, tempDmx_fx; +#ifdef FIX_867_CLDFB_NRG_SCALE + Word16 q_shift, min_q_shift[2], exp, q_temp[2], temp_q_shift, q_temp2; +#else Word16 q_shift, min_q_shift, exp, q_temp, temp_q_shift, q_temp2; +#endif Word32 temp; Word64 W_tmp1, W_tmp2; Word64 reference_power_64fx[CLDFB_NO_CHANNELS_MAX]; Word16 q_reference_power_64fx; + Word16 head_room, q_Left_Right_power; +#ifdef FIX_867_CLDFB_NRG_SCALE + Word16 num_proto = 3; +#endif /* Calculate maximum possible shift for the buffers RealBuffer_fx and ImagBuffer_fx */ +#ifdef FIX_867_CLDFB_NRG_SCALE + min_q_shift[0] = Q31; + min_q_shift[1] = Q31; + move16(); + move16(); +#else min_q_shift = Q31; move16(); +#endif temp_q_shift = Q31; move16(); q_sum_total_ratio = Q31; @@ -1718,21 +1799,71 @@ void protoSignalComputation2_fx( /* Calculate the max shift possible for the buffers RealBuffer_fx and ImagBuffer_fx */ FOR( l = 0; l < 2; l++ ) { +#ifdef FIX_867_CLDFB_NRG_SCALE + q_shift = s_min( L_norm_arr( RealBuffer_fx[l][0], s_min( CLDFB_NO_CHANNELS_HALF, num_freq_bands ) ), L_norm_arr( ImagBuffer_fx[l][0], s_min( CLDFB_NO_CHANNELS_HALF, num_freq_bands ) ) ); + min_q_shift[0] = s_min( min_q_shift[0], q_shift ); + q_shift = s_min( L_norm_arr( RealBuffer_fx[l][0] + CLDFB_NO_CHANNELS_HALF, s_max( 0, sub( num_freq_bands, CLDFB_NO_CHANNELS_HALF ) ) ), L_norm_arr( ImagBuffer_fx[l][0] + CLDFB_NO_CHANNELS_HALF, s_max( 0, sub( num_freq_bands, CLDFB_NO_CHANNELS_HALF ) ) ) ); + min_q_shift[1] = s_min( min_q_shift[1], q_shift ); +#if ( MASA_SUM_FREQ_RANGE_BINS > CLDFB_NO_CHANNELS_HALF ) +#error MASA_SUM_FREQ_RANGE_BINS if greater than CLDFB_NO_CHANNELS_HALF, this does not work +#endif +#else q_shift = s_min( L_norm_arr( RealBuffer_fx[l][0], num_freq_bands ), L_norm_arr( ImagBuffer_fx[l][0], num_freq_bands ) ); min_q_shift = s_min( min_q_shift, q_shift ); - -#ifdef MSAN_FIX +#endif q_shift = s_min( L_norm_arr( RealBuffer_fx[l][0], s_min( num_freq_bands, MASA_SUM_FREQ_RANGE_BINS ) ), L_norm_arr( ImagBuffer_fx[l][0], s_min( num_freq_bands, MASA_SUM_FREQ_RANGE_BINS ) ) ); -#else - q_shift = s_min( L_norm_arr( RealBuffer_fx[l][0], MASA_SUM_FREQ_RANGE_BINS ), L_norm_arr( ImagBuffer_fx[l][0], MASA_SUM_FREQ_RANGE_BINS ) ); -#endif // MSAN_FIX temp_q_shift = s_min( temp_q_shift, q_shift ); } - min_q_shift = sub( min_q_shift, 2 ); // guard bits +#ifdef FIX_867_CLDFB_NRG_SCALE + min_q_shift[0] = sub( min_q_shift[0], 2 ); // guard bits + min_q_shift[1] = sub( min_q_shift[1], 2 ); // guard bits +#else + min_q_shift = sub( min_q_shift, 2 ); // guard bits +#endif temp_q_shift = sub( temp_q_shift, 2 ); // guard bits /* Upscaling of the buffer proto_power_smooth_fx */ +#ifdef FIX_867_CLDFB_NRG_SCALE + IF( isloudspeaker ) + { + num_proto = 3; + q_shift = L_norm_arr( proto_power_smooth_fx, s_min( num_freq_bands, CLDFB_NO_CHANNELS_HALF ) ); + q_shift = s_min( q_shift, L_norm_arr( proto_power_smooth_fx + num_freq_bands, s_min( num_freq_bands, CLDFB_NO_CHANNELS_HALF ) ) ); + q_shift = s_min( q_shift, L_norm_arr( proto_power_smooth_fx + num_freq_bands + num_freq_bands, s_min( num_freq_bands, CLDFB_NO_CHANNELS_HALF ) ) ); + scale_sig32( proto_power_smooth_fx, s_min( num_freq_bands, CLDFB_NO_CHANNELS_HALF ), sub( q_shift, 1 ) ); // q_proto_power_smooth+q_shift-1 + scale_sig32( proto_power_smooth_fx + num_freq_bands, s_min( num_freq_bands, CLDFB_NO_CHANNELS_HALF ), sub( q_shift, 1 ) ); // q_proto_power_smooth+q_shift-1 + scale_sig32( proto_power_smooth_fx + num_freq_bands + num_freq_bands, s_min( num_freq_bands, CLDFB_NO_CHANNELS_HALF ), sub( q_shift, 1 ) ); // q_proto_power_smooth+q_shift-1 + } + ELSE + { + num_proto = 2; + q_shift = L_norm_arr( proto_power_smooth_fx, s_min( num_freq_bands, CLDFB_NO_CHANNELS_HALF ) ); + q_shift = s_min( q_shift, L_norm_arr( proto_power_smooth_fx + num_freq_bands, s_min( num_freq_bands, CLDFB_NO_CHANNELS_HALF ) ) ); + scale_sig32( proto_power_smooth_fx, s_min( num_freq_bands, CLDFB_NO_CHANNELS_HALF ), sub( q_shift, 1 ) ); // q_proto_power_smooth+q_shift-1 + scale_sig32( proto_power_smooth_fx + num_freq_bands, s_min( num_freq_bands, CLDFB_NO_CHANNELS_HALF ), sub( q_shift, 1 ) ); // q_proto_power_smooth+q_shift-1 + } + q_proto_power_smooth[0] = add( q_proto_power_smooth[0], sub( q_shift, 1 ) ); + move16(); + IF( isloudspeaker ) + { + q_shift = L_norm_arr( proto_power_smooth_fx + CLDFB_NO_CHANNELS_HALF, s_max( 0, sub( num_freq_bands, CLDFB_NO_CHANNELS_HALF ) ) ); + q_shift = s_min( q_shift, L_norm_arr( proto_power_smooth_fx + CLDFB_NO_CHANNELS_HALF + num_freq_bands, s_max( 0, sub( num_freq_bands, CLDFB_NO_CHANNELS_HALF ) ) ) ); + q_shift = s_min( q_shift, L_norm_arr( proto_power_smooth_fx + CLDFB_NO_CHANNELS_HALF + num_freq_bands + num_freq_bands, s_max( 0, sub( num_freq_bands, CLDFB_NO_CHANNELS_HALF ) ) ) ); + scale_sig32( proto_power_smooth_fx + CLDFB_NO_CHANNELS_HALF, s_max( 0, sub( num_freq_bands, CLDFB_NO_CHANNELS_HALF ) ), sub( q_shift, 1 ) ); // q_proto_power_smooth+q_shift-1 + scale_sig32( proto_power_smooth_fx + CLDFB_NO_CHANNELS_HALF + num_freq_bands, s_max( 0, sub( num_freq_bands, CLDFB_NO_CHANNELS_HALF ) ), sub( q_shift, 1 ) ); // q_proto_power_smooth+q_shift-1 + scale_sig32( proto_power_smooth_fx + CLDFB_NO_CHANNELS_HALF + num_freq_bands + num_freq_bands, s_max( 0, sub( num_freq_bands, CLDFB_NO_CHANNELS_HALF ) ), sub( q_shift, 1 ) ); // q_proto_power_smooth+q_shift-1 + } + ELSE + { + q_shift = L_norm_arr( proto_power_smooth_fx + CLDFB_NO_CHANNELS_HALF, s_max( 0, sub( num_freq_bands, CLDFB_NO_CHANNELS_HALF ) ) ); + q_shift = s_min( q_shift, L_norm_arr( proto_power_smooth_fx + CLDFB_NO_CHANNELS_HALF + num_freq_bands, s_max( 0, sub( num_freq_bands, CLDFB_NO_CHANNELS_HALF ) ) ) ); + scale_sig32( proto_power_smooth_fx + CLDFB_NO_CHANNELS_HALF, s_max( 0, sub( num_freq_bands, CLDFB_NO_CHANNELS_HALF ) ), sub( q_shift, 1 ) ); // q_proto_power_smooth+q_shift-1 + scale_sig32( proto_power_smooth_fx + CLDFB_NO_CHANNELS_HALF + num_freq_bands, s_max( 0, sub( num_freq_bands, CLDFB_NO_CHANNELS_HALF ) ), sub( q_shift, 1 ) ); // q_proto_power_smooth+q_shift-1 + } + q_proto_power_smooth[1] = add( q_proto_power_smooth[1], sub( q_shift, 1 ) ); + move16(); +#else IF( isloudspeaker ) { q_shift = getScaleFactor32( proto_power_smooth_fx, i_mult( 3, num_freq_bands ) ); @@ -1745,20 +1876,35 @@ void protoSignalComputation2_fx( } *q_proto_power_smooth = add( *q_proto_power_smooth, sub( q_shift, 1 ) ); move16(); +#endif IF( isloudspeaker ) { p_proto_buffer_fx = proto_direct_buffer_f_fx + i_mult( i_mult( i_mult( slot_index, 2 ), num_freq_bands ), 3 ); // q_proto_direct_buffer_f +#ifdef FIX_867_CLDFB_NRG_SCALE + q_temp[0] = sub( add( add( q_cldfb, min_q_shift[0] ), add( q_cldfb, min_q_shift[0] ) ), 31 ); + q_temp[1] = sub( add( add( q_cldfb, min_q_shift[1] ), add( q_cldfb, min_q_shift[1] ) ), 31 ); +#else q_temp = sub( add( add( q_cldfb, min_q_shift ), add( q_cldfb, min_q_shift ) ), 31 ); move16(); +#endif FOR( l = 0; l < num_freq_bands; l++ ) { +#ifdef FIX_867_CLDFB_NRG_SCALE + Word16 qidx = s_min( 1, s_max( 0, sub( l, CLDFB_NO_CHANNELS_HALF - 1 ) ) ); + + re1 = L_shl( RealBuffer_fx[0][0][l], min_q_shift[qidx] ); // q_cldfb+min_q_shift + im1 = L_shl( ImagBuffer_fx[0][0][l], min_q_shift[qidx] ); // q_cldfb+min_q_shift + re2 = L_shl( RealBuffer_fx[1][0][l], min_q_shift[qidx] ); // q_cldfb+min_q_shift + im2 = L_shl( ImagBuffer_fx[1][0][l], min_q_shift[qidx] ); // q_cldfb+min_q_shift +#else re1 = L_shl( RealBuffer_fx[0][0][l], min_q_shift ); // q_cldfb+min_q_shift im1 = L_shl( ImagBuffer_fx[0][0][l], min_q_shift ); // q_cldfb+min_q_shift re2 = L_shl( RealBuffer_fx[1][0][l], min_q_shift ); // q_cldfb+min_q_shift im2 = L_shl( ImagBuffer_fx[1][0][l], min_q_shift ); // q_cldfb+min_q_shift +#endif Real_aux_fx = L_add( re1, re2 ); // q_cldfb+min_q_shift Imag_aux_fx = L_add( im1, im2 ); // q_cldfb+min_q_shift @@ -1775,14 +1921,26 @@ void protoSignalComputation2_fx( temp = Madd_32_32( Mpy_32_32( Real_aux_fx, Real_aux_fx ), Imag_aux_fx, Imag_aux_fx ); // 2*(q_cldfb+min_q_shift)-31 +#ifdef FIX_867_CLDFB_NRG_SCALE + IF( LT_16( q_temp[qidx], q_proto_power_smooth[qidx] ) ) +#else IF( LT_16( q_temp, *q_proto_power_smooth ) ) +#endif { +#ifdef FIX_867_CLDFB_NRG_SCALE + proto_power_smooth_fx[l] = L_add( L_shr( proto_power_smooth_fx[l], sub( q_proto_power_smooth[qidx], q_temp[qidx] ) ), temp ); // q_temp +#else proto_power_smooth_fx[l] = L_add( L_shr( proto_power_smooth_fx[l], sub( *q_proto_power_smooth, q_temp ) ), temp ); // q_temp +#endif move32(); } ELSE { +#ifdef FIX_867_CLDFB_NRG_SCALE + proto_power_smooth_fx[l] = L_add( proto_power_smooth_fx[l], L_shr( temp, sub( q_temp[qidx], q_proto_power_smooth[qidx] ) ) ); // q_proto_power_smooth +#else proto_power_smooth_fx[l] = L_add( proto_power_smooth_fx[l], L_shr( temp, sub( q_temp, *q_proto_power_smooth ) ) ); // q_proto_power_smooth +#endif move32(); } @@ -1793,14 +1951,26 @@ void protoSignalComputation2_fx( temp = Madd_32_32( Mpy_32_32( re1, re1 ), im1, im1 ); // 2*(q_cldfb+min_q_shift)-31 +#ifdef FIX_867_CLDFB_NRG_SCALE + IF( LT_16( q_temp[qidx], q_proto_power_smooth[qidx] ) ) +#else IF( LT_16( q_temp, *q_proto_power_smooth ) ) +#endif { +#ifdef FIX_867_CLDFB_NRG_SCALE + proto_power_smooth_fx[l + num_freq_bands] = L_add( L_shr( proto_power_smooth_fx[l + num_freq_bands], sub( q_proto_power_smooth[qidx], q_temp[qidx] ) ), temp ); // q_temp +#else proto_power_smooth_fx[l + num_freq_bands] = L_add( L_shr( proto_power_smooth_fx[l + num_freq_bands], sub( *q_proto_power_smooth, q_temp ) ), temp ); // q_temp +#endif move32(); } ELSE { +#ifdef FIX_867_CLDFB_NRG_SCALE + proto_power_smooth_fx[l + num_freq_bands] = L_add( proto_power_smooth_fx[l + num_freq_bands], L_shr( temp, sub( q_temp[qidx], q_proto_power_smooth[qidx] ) ) ); // q_proto_power_smooth +#else proto_power_smooth_fx[l + num_freq_bands] = L_add( proto_power_smooth_fx[l + num_freq_bands], L_shr( temp, sub( q_temp, *q_proto_power_smooth ) ) ); // q_proto_power_smooth +#endif move32(); } @@ -1810,14 +1980,26 @@ void protoSignalComputation2_fx( move32(); temp = Madd_32_32( Mpy_32_32( re2, re2 ), im2, im2 ); // 2*(q_cldfb+min_q_shift)-31 +#ifdef FIX_867_CLDFB_NRG_SCALE + IF( LT_16( q_temp[qidx], q_proto_power_smooth[qidx] ) ) +#else IF( LT_16( q_temp, *q_proto_power_smooth ) ) +#endif { +#ifdef FIX_867_CLDFB_NRG_SCALE + proto_power_smooth_fx[l + ( 2 * num_freq_bands )] = L_add( L_shr( proto_power_smooth_fx[l + ( 2 * num_freq_bands )], sub( q_proto_power_smooth[qidx], q_temp[qidx] ) ), temp ); // q_temp +#else proto_power_smooth_fx[l + ( 2 * num_freq_bands )] = L_add( L_shr( proto_power_smooth_fx[l + ( 2 * num_freq_bands )], sub( *q_proto_power_smooth, q_temp ) ), temp ); // q_temp +#endif move32(); } ELSE { +#ifdef FIX_867_CLDFB_NRG_SCALE + proto_power_smooth_fx[l + ( 2 * num_freq_bands )] = L_add( proto_power_smooth_fx[l + ( 2 * num_freq_bands )], L_shr( temp, sub( q_temp[qidx], q_proto_power_smooth[qidx] ) ) ); // q_proto_power_smooth +#else proto_power_smooth_fx[l + ( 2 * num_freq_bands )] = L_add( proto_power_smooth_fx[l + ( 2 * num_freq_bands )], L_shr( temp, sub( q_temp, *q_proto_power_smooth ) ) ); // q_proto_power_smooth +#endif move32(); } @@ -1867,8 +2049,10 @@ void protoSignalComputation2_fx( a_fx = 21474836; /*0.01 in Q31*/ /* Temporal smoothing coefficient */ move32(); b_fx = L_sub( ONE_IN_Q31, a_fx ); /* Temporal smoothing coefficient q31*/ - // a2_fx = 214748365; /*0.1 in Q31*/ /* Temporal smoothing coefficient */ - // b2_fx = L_sub( ONE_IN_Q31, a2_fx ); /* Temporal smoothing coefficient */ + move32(); + a2_fx = 214748365; /*0.1 in Q31*/ /* Temporal smoothing coefficient */ + move32(); + b2_fx = L_sub( ONE_IN_Q31, a2_fx ); /* Temporal smoothing coefficient */ IF( stereo_type_detect->interpolator > 0 ) { @@ -1886,17 +2070,70 @@ void protoSignalComputation2_fx( } } +#ifdef FIX_867_CLDFB_NRG_SCALE + Word16 total_shift[2], q_temp_total; + /* total_shift shift required to get common Q of sum power values */ + total_shift[0] = shl( s_max( 0, sub( min_q_shift[0], min_q_shift[1] ) ), 1 ); + total_shift[1] = shl( s_max( 0, sub( min_q_shift[1], min_q_shift[0] ) ), 1 ); + min_q_shift[0] = sub( min_q_shift[0], idiv1616( find_guarded_bits_fx( num_freq_bands ), 2 ) ); + min_q_shift[1] = sub( min_q_shift[1], idiv1616( find_guarded_bits_fx( num_freq_bands ), 2 ) ); + q_temp[0] = sub( add( add( q_cldfb, min_q_shift[0] ), add( q_cldfb, min_q_shift[0] ) ), 31 ); + q_temp[1] = sub( add( add( q_cldfb, min_q_shift[1] ), add( q_cldfb, min_q_shift[1] ) ), 31 ); + q_temp_total = s_min( q_temp[0], q_temp[1] ); +#else min_q_shift = sub( min_q_shift, idiv1616( find_guarded_bits_fx( num_freq_bands ), 2 ) ); q_temp = sub( add( add( q_cldfb, min_q_shift ), add( q_cldfb, min_q_shift ) ), 31 ); +#endif q_temp2 = sub( add( add( q_cldfb, temp_q_shift ), add( q_cldfb, temp_q_shift ) ), 31 ); + head_room = 63; + move16(); FOR( l = 0; l < num_freq_bands; l++ ) { +#ifdef FIX_867_CLDFB_NRG_SCALE + Word16 qidx = s_min( 1, s_max( 0, sub( l, CLDFB_NO_CHANNELS_HALF - 1 ) ) ); + re1 = L_shl( RealBuffer_fx[0][0][l], min_q_shift[qidx] ); // q_cldfb+min_q_shift + im1 = L_shl( ImagBuffer_fx[0][0][l], min_q_shift[qidx] ); // q_cldfb+min_q_shift + re2 = L_shl( RealBuffer_fx[1][0][l], min_q_shift[qidx] ); // q_cldfb+min_q_shift + im2 = L_shl( ImagBuffer_fx[1][0][l], min_q_shift[qidx] ); // q_cldfb+min_q_shift +#else re1 = L_shl( RealBuffer_fx[0][0][l], min_q_shift ); // q_cldfb+min_q_shift im1 = L_shl( ImagBuffer_fx[0][0][l], min_q_shift ); // q_cldfb+min_q_shift re2 = L_shl( RealBuffer_fx[1][0][l], min_q_shift ); // q_cldfb+min_q_shift im2 = L_shl( ImagBuffer_fx[1][0][l], min_q_shift ); // q_cldfb+min_q_shift +#endif + + W_tmp1 = W_add( W_mult0_32_32( re1, re1 ), W_mult0_32_32( im1, im1 ) ); + W_tmp2 = W_add( W_mult0_32_32( re2, re2 ), W_mult0_32_32( im2, im2 ) ); + + head_room = s_min( head_room, W_norm( W_add( W_tmp1, W_tmp2 ) ) ); + } + head_room = sub( head_room, find_guarded_bits_fx( num_freq_bands ) ); + +#ifdef FIX_867_CLDFB_NRG_SCALE +#if ( MASA_SUM_FREQ_RANGE_BINS > CLDFB_NO_CHANNELS_HALF ) +#error MASA_SUM_FREQ_RANGE_BINS must be less than CLDFB_NO_CHANNELS_HALF +#endif + q_Left_Right_power = add( shl( add( q_cldfb, min_q_shift[0] ), 1 ), sub( head_room, 32 ) ); +#else + q_Left_Right_power = add( shl( add( q_cldfb, min_q_shift ), 1 ), sub( head_room, 32 ) ); +#endif + + FOR( l = 0; l < num_freq_bands; l++ ) + { +#ifdef FIX_867_CLDFB_NRG_SCALE + Word16 qidx = s_min( 1, s_max( 0, sub( l, CLDFB_NO_CHANNELS_HALF - 1 ) ) ); + re1 = L_shl( RealBuffer_fx[0][0][l], min_q_shift[qidx] ); // q_cldfb+min_q_shift + im1 = L_shl( ImagBuffer_fx[0][0][l], min_q_shift[qidx] ); // q_cldfb+min_q_shift + re2 = L_shl( RealBuffer_fx[1][0][l], min_q_shift[qidx] ); // q_cldfb+min_q_shift + im2 = L_shl( ImagBuffer_fx[1][0][l], min_q_shift[qidx] ); // q_cldfb+min_q_shift +#else + re1 = L_shl( RealBuffer_fx[0][0][l], min_q_shift ); // q_cldfb+min_q_shift + im1 = L_shl( ImagBuffer_fx[0][0][l], min_q_shift ); // q_cldfb+min_q_shift + re2 = L_shl( RealBuffer_fx[1][0][l], min_q_shift ); // q_cldfb+min_q_shift + im2 = L_shl( ImagBuffer_fx[1][0][l], min_q_shift ); // q_cldfb+min_q_shift +#endif /* Compute sum signal */ Real_aux_fx = L_add( re1, re2 ); // q_cldfb+min_q_shift @@ -1905,32 +2142,51 @@ void protoSignalComputation2_fx( /* Compute reference power */ // Left_power_fx = Madd_32_32( Mpy_32_32( re1, re1 ), im1, im1 ); W_tmp1 = W_add( W_mult0_32_32( re1, re1 ), W_mult0_32_32( im1, im1 ) ); // 2*(q_cldfb+min_q_shift) - Left_power_fx = W_extract_l( W_shr( W_tmp1, 31 ) ); + Left_power_fx = W_extract_h( W_shl( W_tmp1, head_room ) ); // q_Left_Right_power + // Right_power_fx = Madd_32_32( Mpy_32_32( re2, re2 ), im2, im2 ); W_tmp2 = W_add( W_mult0_32_32( re2, re2 ), W_mult0_32_32( im2, im2 ) ); // 2*(q_cldfb+min_q_shift) - Right_power_fx = W_extract_l( W_shr( W_tmp2, 31 ) ); + Right_power_fx = W_extract_h( W_shl( W_tmp2, head_room ) ); // q_Left_Right_power // reference_power_fx[l] = L_add( Left_power_fx, Right_power_fx ); reference_power_64fx[l] = W_add( W_tmp1, W_tmp2 ); // 2*(q_cldfb+min_q_shift) move64(); - left_bb_power_fx = L_add( left_bb_power_fx, Left_power_fx ); // 2*(q_cldfb+min_q_shift) -31 - right_bb_power_fx = L_add( right_bb_power_fx, Right_power_fx ); // 2*(q_cldfb+min_q_shift) -31 +#ifdef FIX_867_CLDFB_NRG_SCALE + Left_power_fx = L_shr( Left_power_fx, total_shift[qidx] ); + Right_power_fx = L_shr( Right_power_fx, total_shift[qidx] ); + left_bb_power_fx = L_add( left_bb_power_fx, Left_power_fx ); // q_Left_Right_power + right_bb_power_fx = L_add( right_bb_power_fx, Right_power_fx ); // q_Left_Right_power // total_bb_power_fx = L_add( total_bb_power_fx, reference_power_fx[l] ); - total_bb_power_fx = L_add( total_bb_power_fx, W_extract_l( W_shr( reference_power_64fx[l], 31 ) ) ); // 2*(q_cldfb+min_q_shift) -31 + total_bb_power_fx = L_add( total_bb_power_fx, W_extract_h( W_shl( reference_power_64fx[l], sub( head_room, total_shift[qidx] ) ) ) ); // q_Left_Right_power +#else + left_bb_power_fx = L_add( left_bb_power_fx, Left_power_fx ); // q_Left_Right_power + right_bb_power_fx = L_add( right_bb_power_fx, Right_power_fx ); // q_Left_Right_power + // total_bb_power_fx = L_add( total_bb_power_fx, reference_power_fx[l] ); + total_bb_power_fx = L_add( total_bb_power_fx, W_extract_h( W_shl( reference_power_64fx[l], head_room ) ) ); // q_Left_Right_power +#endif IF( GT_16( l, MASA_HI_FREQ_START_BIN ) ) { - left_hi_power_fx = L_add( left_hi_power_fx, Left_power_fx ); // 2*(q_cldfb+min_q_shift) -31 - right_hi_power_fx = L_add( right_hi_power_fx, Right_power_fx ); // 2*(q_cldfb+min_q_shift) -31 - // total_hi_power_fx = L_add( total_hi_power_fx, reference_power_fx[l] ); - total_hi_power_fx = L_add( total_hi_power_fx, W_extract_l( W_shr( reference_power_64fx[l], 31 ) ) ); // 2*(q_cldfb+min_q_shift) -31 + left_hi_power_fx = L_add( left_hi_power_fx, Left_power_fx ); // q_Left_Right_power + right_hi_power_fx = L_add( right_hi_power_fx, Right_power_fx ); // q_Left_Right_power + // total_hi_power_fx = L_add( total_hi_power_fx, reference_power_fx[l] ); +#ifdef FIX_867_CLDFB_NRG_SCALE + total_hi_power_fx = L_add( total_hi_power_fx, W_extract_h( W_shl( reference_power_64fx[l], sub( head_room, total_shift[qidx] ) ) ) ); // q_Left_Right_power +#else + total_hi_power_fx = L_add( total_hi_power_fx, W_extract_h( W_shl( reference_power_64fx[l], head_room ) ) ); // q_Left_Right_power +#endif } IF( LT_16( l, s_min( num_freq_bands, MASA_SUM_FREQ_RANGE_BINS ) ) ) { - re_aux = L_shl( Real_aux_fx, sub( temp_q_shift, min_q_shift ) ); // q_cldfb+temp_q_shift - im_aux = L_shl( Imag_aux_fx, sub( temp_q_shift, min_q_shift ) ); // q_cldfb+temp_q_shift +#ifdef FIX_867_CLDFB_NRG_SCALE + re_aux = L_shl( Real_aux_fx, sub( temp_q_shift, min_q_shift[0] ) ); // q_cldfb+temp_q_shift + im_aux = L_shl( Imag_aux_fx, sub( temp_q_shift, min_q_shift[0] ) ); // q_cldfb+temp_q_shift +#else + re_aux = L_shl( Real_aux_fx, sub( temp_q_shift, min_q_shift ) ); // q_cldfb+temp_q_shift + im_aux = L_shl( Imag_aux_fx, sub( temp_q_shift, min_q_shift ) ); // q_cldfb+temp_q_shift +#endif sum_power_fx = Madd_32_32( Mpy_32_32( re_aux, re_aux ), im_aux, im_aux ); // 2*(q_cldfb+temp_q_shift)-31 temp = Mpy_32_32( a_fx, sum_power_fx ); // 2*(q_cldfb+temp_q_shift)-31 @@ -1946,7 +2202,20 @@ void protoSignalComputation2_fx( move32(); } - temp = Mpy_32_32( a_fx, W_extract_l( W_shr( reference_power_64fx[l], 31 ) ) ); // 2*(q_cldfb+min_q_shift) -31 +#ifdef FIX_867_CLDFB_NRG_SCALE + temp = Mpy_32_32( a_fx, W_extract_l( W_shr( reference_power_64fx[l], add( 31, total_shift[qidx] ) ) ) ); // 2*(q_cldfb+min_q_shift) -31 + IF( LT_16( q_temp_total, stereo_type_detect->q_total_power ) ) + { + stereo_type_detect->total_power_fx[l] = L_add( temp, L_shr( Mpy_32_32( b_fx, stereo_type_detect->total_power_fx[l] ), sub( stereo_type_detect->q_total_power, q_temp_total ) ) ); // q_temp + move32(); + } + ELSE + { + stereo_type_detect->total_power_fx[l] = L_add( L_shr( temp, sub( q_temp_total, stereo_type_detect->q_total_power ) ), Mpy_32_32( b_fx, stereo_type_detect->total_power_fx[l] ) ); // stereo_type_detect->q_total_power + move32(); + } +#else + temp = Mpy_32_32( a_fx, W_extract_l( W_shr( reference_power_64fx[l], 31 ) ) ); // 2*(q_cldfb+min_q_shift) -31 IF( LT_16( q_temp, stereo_type_detect->q_total_power ) ) { stereo_type_detect->total_power_fx[l] = L_add( temp, L_shr( Mpy_32_32( b_fx, stereo_type_detect->total_power_fx[l] ), sub( stereo_type_detect->q_total_power, q_temp ) ) ); // q_temp @@ -1957,18 +2226,28 @@ void protoSignalComputation2_fx( stereo_type_detect->total_power_fx[l] = L_add( L_shr( temp, sub( q_temp, stereo_type_detect->q_total_power ) ), Mpy_32_32( b_fx, stereo_type_detect->total_power_fx[l] ) ); // stereo_type_detect->q_total_power move32(); } +#endif test(); IF( ( stereo_type_detect->sum_power_fx[l] == 0 ) && ( stereo_type_detect->total_power_fx[l] == 0 ) ) { - sum_total_ratio_fx[l] = MAX_16; // q15 + sum_total_ratio_fx[l] = MAX_32; // q15 + move32(); + } + ELSE IF( stereo_type_detect->total_power_fx[l] == 0 ) + { + sum_total_ratio_fx[l] = MAX_32; // q15 move32(); } ELSE { - sum_total_ratio_fx[l] = BASOP_Util_Divide3232_Scale( stereo_type_detect->sum_power_fx[l], L_add( stereo_type_detect->total_power_fx[l], EPSILON_FX ), &exp ); // 15-(exp+s_min( stereo_type_detect->q_total_power, q_temp )-s_min( stereo_type_detect->q_sum_power, q_temp2 )) + sum_total_ratio_fx[l] = BASOP_Util_Divide3232_Scale( stereo_type_detect->sum_power_fx[l], stereo_type_detect->total_power_fx[l], &exp ); // 15-(exp+s_min( stereo_type_detect->q_total_power, q_temp )-s_min( stereo_type_detect->q_sum_power, q_temp2 )) move32(); +#ifdef FIX_867_CLDFB_NRG_SCALE + q_sum_total_ratio = add( sub( 15, exp ), sub( s_min( stereo_type_detect->q_sum_power, q_temp2 ), s_min( stereo_type_detect->q_total_power, q_temp_total ) ) ); +#else q_sum_total_ratio = add( sub( 15, exp ), sub( s_min( stereo_type_detect->q_sum_power, q_temp2 ), s_min( stereo_type_detect->q_total_power, q_temp ) ) ); +#endif sum_total_ratio_fx[l] = L_shl( sum_total_ratio_fx[l], sub( Q15, q_sum_total_ratio ) ); // q15 move32(); } @@ -1980,6 +2259,22 @@ void protoSignalComputation2_fx( ImagSubtract_fx = L_sub( im1, im2 ); // q_cldfb+min_q_shift temp = Madd_32_32( Mpy_32_32( RealSubtract_fx, RealSubtract_fx ), ImagSubtract_fx, ImagSubtract_fx ); // 2*(q_cldfb+min_q_shift)-31 +#ifdef FIX_867_CLDFB_NRG_SCALE + assert( qidx == 0 ); + IF( LT_16( q_temp[qidx], stereo_type_detect->q_subtract_power_y ) ) + { + stereo_type_detect->subtract_power_y_fx = L_add( L_shr( stereo_type_detect->subtract_power_y_fx, sub( stereo_type_detect->q_subtract_power_y, q_temp[qidx] ) ), temp ); // q_temp + move32(); + stereo_type_detect->q_subtract_power_y = q_temp[qidx]; + move16(); + } + ELSE + { + stereo_type_detect->subtract_power_y_fx = L_add( stereo_type_detect->subtract_power_y_fx, L_shr( temp, sub( q_temp[qidx], stereo_type_detect->q_subtract_power_y ) ) ); // stereo_type_detect->q_subtract_power_y + move32(); + } + +#else IF( LT_16( q_temp, stereo_type_detect->q_subtract_power_y ) ) { stereo_type_detect->subtract_power_y_fx = L_add( L_shr( stereo_type_detect->subtract_power_y_fx, sub( stereo_type_detect->q_subtract_power_y, q_temp ) ), temp ); // q_temp @@ -1992,6 +2287,7 @@ void protoSignalComputation2_fx( stereo_type_detect->subtract_power_y_fx = L_add( stereo_type_detect->subtract_power_y_fx, L_shr( temp, sub( q_temp, stereo_type_detect->q_subtract_power_y ) ) ); // stereo_type_detect->q_subtract_power_y move32(); } +#endif } /* Compute protos (and their power) for direct sound rendering */ @@ -2005,14 +2301,26 @@ void protoSignalComputation2_fx( Imag_aux_fx = Madd_32_16( Mpy_32_16_1( Imag_aux_fx, shr( interpolatorSpaced_fx, 1 ) ), Imag_aux_fx, interpolatorDmx_fx ); // q_cldfb+min_q_shift temp = Madd_32_32( Mpy_32_32( Real_aux_fx, Real_aux_fx ), Imag_aux_fx, Imag_aux_fx ); // 2*(q_cldfb+min_q_shift) -31 +#ifdef FIX_867_CLDFB_NRG_SCALE + IF( LT_16( q_temp[qidx], q_proto_power_smooth[qidx] ) ) +#else IF( LT_16( q_temp, *q_proto_power_smooth ) ) +#endif { +#ifdef FIX_867_CLDFB_NRG_SCALE + proto_power_smooth_fx[l] = L_add( L_shr( proto_power_smooth_fx[l], sub( q_proto_power_smooth[qidx], q_temp[qidx] ) ), temp ); // q_temp +#else proto_power_smooth_fx[l] = L_add( L_shr( proto_power_smooth_fx[l], sub( *q_proto_power_smooth, q_temp ) ), temp ); // q_temp +#endif move32(); } ELSE { +#ifdef FIX_867_CLDFB_NRG_SCALE + proto_power_smooth_fx[l] = L_add( proto_power_smooth_fx[l], L_shr( temp, sub( q_temp[qidx], q_proto_power_smooth[qidx] ) ) ); // q_proto_power_smooth +#else proto_power_smooth_fx[l] = L_add( proto_power_smooth_fx[l], L_shr( temp, sub( q_temp, *q_proto_power_smooth ) ) ); // q_proto_power_smooth +#endif move32(); } @@ -2027,14 +2335,26 @@ void protoSignalComputation2_fx( tempDmx_fx = Madd_32_32( Mpy_32_32( Real_aux_fx, Real_aux_fx ), Imag_aux_fx, Imag_aux_fx ); // 2*(q_cldfb+min_q_shift)-31 temp = Madd_32_16( Mpy_32_16_1( tempSpaced_fx, interpolatorSpaced_fx ), tempDmx_fx, interpolatorDmx_fx ); // 2*(q_cldfb+min_q_shift)-31 +#ifdef FIX_867_CLDFB_NRG_SCALE + IF( LT_16( q_temp[qidx], q_proto_power_smooth[qidx] ) ) +#else IF( LT_16( q_temp, *q_proto_power_smooth ) ) +#endif { +#ifdef FIX_867_CLDFB_NRG_SCALE + proto_power_smooth_fx[l] = L_add( L_shr( proto_power_smooth_fx[l], sub( q_proto_power_smooth[qidx], q_temp[qidx] ) ), temp ); // q_temp +#else proto_power_smooth_fx[l] = L_add( L_shr( proto_power_smooth_fx[l], sub( *q_proto_power_smooth, q_temp ) ), temp ); // q_temp +#endif move32(); } ELSE { +#ifdef FIX_867_CLDFB_NRG_SCALE + proto_power_smooth_fx[l] = L_add( proto_power_smooth_fx[l], L_shr( temp, sub( q_temp[qidx], q_proto_power_smooth[qidx] ) ) ); // q_proto_power_smooth +#else proto_power_smooth_fx[l] = L_add( proto_power_smooth_fx[l], L_shr( temp, sub( q_temp, *q_proto_power_smooth ) ) ); // q_proto_power_smooth +#endif move32(); } @@ -2051,14 +2371,26 @@ void protoSignalComputation2_fx( Real_aux_fx = L_shr( Real_aux_fx, 1 ); // q_cldfb+min_q_shift Imag_aux_fx = L_shr( Imag_aux_fx, 1 ); // q_cldfb+min_q_shift temp = Madd_32_32( Mpy_32_32( Real_aux_fx, Real_aux_fx ), Imag_aux_fx, Imag_aux_fx ); // 2*(q_cldfb+min_q_shift)-31 +#ifdef FIX_867_CLDFB_NRG_SCALE + IF( LT_16( q_temp[qidx], q_proto_power_smooth[qidx] ) ) +#else IF( LT_16( q_temp, *q_proto_power_smooth ) ) +#endif { +#ifdef FIX_867_CLDFB_NRG_SCALE + proto_power_smooth_fx[l] = L_add( L_shr( proto_power_smooth_fx[l], sub( q_proto_power_smooth[qidx], q_temp[qidx] ) ), temp ); // q_temp +#else proto_power_smooth_fx[l] = L_add( L_shr( proto_power_smooth_fx[l], sub( *q_proto_power_smooth, q_temp ) ), temp ); // q_temp +#endif move32(); } ELSE { +#ifdef FIX_867_CLDFB_NRG_SCALE + proto_power_smooth_fx[l] = L_add( proto_power_smooth_fx[l], L_shr( temp, sub( q_temp[qidx], q_proto_power_smooth[qidx] ) ) ); // q_proto_power_smooth +#else proto_power_smooth_fx[l] = L_add( proto_power_smooth_fx[l], L_shr( temp, sub( q_temp, *q_proto_power_smooth ) ) ); // q_proto_power_smooth +#endif move32(); } @@ -2070,14 +2402,26 @@ void protoSignalComputation2_fx( ELSE { temp = Madd_32_32( Mpy_32_32( re1, re1 ), im1, im1 ); // 2*(q_cldfb+min_q_shift)-31 +#ifdef FIX_867_CLDFB_NRG_SCALE + IF( LT_16( q_temp[qidx], q_proto_power_smooth[qidx] ) ) +#else IF( LT_16( q_temp, *q_proto_power_smooth ) ) +#endif { +#ifdef FIX_867_CLDFB_NRG_SCALE + proto_power_smooth_fx[l] = L_add( L_shr( proto_power_smooth_fx[l], sub( q_proto_power_smooth[qidx], q_temp[qidx] ) ), temp ); // q_temp +#else proto_power_smooth_fx[l] = L_add( L_shr( proto_power_smooth_fx[l], sub( *q_proto_power_smooth, q_temp ) ), temp ); // q_temp +#endif move32(); } ELSE { +#ifdef FIX_867_CLDFB_NRG_SCALE + proto_power_smooth_fx[l] = L_add( proto_power_smooth_fx[l], L_shr( temp, sub( q_temp[qidx], q_proto_power_smooth[qidx] ) ) ); // q_proto_power_smooth +#else proto_power_smooth_fx[l] = L_add( proto_power_smooth_fx[l], L_shr( temp, sub( q_temp, *q_proto_power_smooth ) ) ); // q_proto_power_smooth +#endif move32(); } @@ -2090,14 +2434,26 @@ void protoSignalComputation2_fx( ELSE { temp = Madd_32_32( Mpy_32_32( Real_aux_fx, Real_aux_fx ), Imag_aux_fx, Imag_aux_fx ); // 2*(q_cldfb+min_q_shift)-31 +#ifdef FIX_867_CLDFB_NRG_SCALE + IF( LT_16( q_temp[qidx], q_proto_power_smooth[qidx] ) ) +#else IF( LT_16( q_temp, *q_proto_power_smooth ) ) +#endif { +#ifdef FIX_867_CLDFB_NRG_SCALE + proto_power_smooth_fx[l] = L_add( L_shr( proto_power_smooth_fx[l], sub( q_proto_power_smooth[qidx], q_temp[qidx] ) ), temp ); // q_temp +#else proto_power_smooth_fx[l] = L_add( L_shr( proto_power_smooth_fx[l], sub( *q_proto_power_smooth, q_temp ) ), temp ); // q_temp +#endif move32(); } ELSE { +#ifdef FIX_867_CLDFB_NRG_SCALE + proto_power_smooth_fx[l] = L_add( proto_power_smooth_fx[l], L_shr( temp, sub( q_temp[qidx], q_proto_power_smooth[qidx] ) ) ); // q_proto_power_smooth +#else proto_power_smooth_fx[l] = L_add( proto_power_smooth_fx[l], L_shr( temp, sub( q_temp, *q_proto_power_smooth ) ) ); // q_proto_power_smooth +#endif move32(); } @@ -2133,14 +2489,26 @@ void protoSignalComputation2_fx( } temp = Madd_32_32( Mpy_32_32( p_proto_buffer_fx[2 * ( num_freq_bands + l )], p_proto_buffer_fx[2 * ( num_freq_bands + l )] ), p_proto_buffer_fx[2 * ( num_freq_bands + l ) + 1], p_proto_buffer_fx[2 * ( num_freq_bands + l ) + 1] ); // 2*(q_cldfb+min_q_shift)-31 +#ifdef FIX_867_CLDFB_NRG_SCALE + IF( LT_16( q_temp[qidx], q_proto_power_smooth[qidx] ) ) +#else IF( LT_16( q_temp, *q_proto_power_smooth ) ) +#endif { +#ifdef FIX_867_CLDFB_NRG_SCALE + proto_power_smooth_fx[l + num_freq_bands] = L_add( L_shr( proto_power_smooth_fx[l + num_freq_bands], sub( q_proto_power_smooth[qidx], q_temp[qidx] ) ), temp ); // q_temp +#else proto_power_smooth_fx[l + num_freq_bands] = L_add( L_shr( proto_power_smooth_fx[l + num_freq_bands], sub( *q_proto_power_smooth, q_temp ) ), temp ); // q_temp +#endif move32(); } ELSE { +#ifdef FIX_867_CLDFB_NRG_SCALE + proto_power_smooth_fx[l + num_freq_bands] = L_add( proto_power_smooth_fx[l + num_freq_bands], L_shr( temp, sub( q_temp[qidx], q_proto_power_smooth[qidx] ) ) ); // q_proto_power_smooth +#else proto_power_smooth_fx[l + num_freq_bands] = L_add( proto_power_smooth_fx[l + num_freq_bands], L_shr( temp, sub( q_temp, *q_proto_power_smooth ) ) ); // q_proto_power_smooth +#endif move32(); } } @@ -2163,14 +2531,26 @@ void protoSignalComputation2_fx( move32(); temp = Madd_32_32( Mpy_32_32( p_proto_buffer_fx[2 * ( num_freq_bands + l )], p_proto_buffer_fx[2 * ( num_freq_bands + l )] ), p_proto_buffer_fx[2 * ( num_freq_bands + l ) + 1], p_proto_buffer_fx[2 * ( num_freq_bands + l ) + 1] ); // 2*(q_cldfb+min_q_shift)-31 +#ifdef FIX_867_CLDFB_NRG_SCALE + IF( LT_16( q_temp[qidx], q_proto_power_smooth[qidx] ) ) +#else IF( LT_16( q_temp, *q_proto_power_smooth ) ) +#endif { +#ifdef FIX_867_CLDFB_NRG_SCALE + proto_power_smooth_fx[l + num_freq_bands] = L_add( L_shr( proto_power_smooth_fx[l + num_freq_bands], sub( q_proto_power_smooth[qidx], q_temp[qidx] ) ), temp ); // q_temp +#else proto_power_smooth_fx[l + num_freq_bands] = L_add( L_shr( proto_power_smooth_fx[l + num_freq_bands], sub( *q_proto_power_smooth, q_temp ) ), temp ); // q_temp +#endif move32(); } ELSE { +#ifdef FIX_867_CLDFB_NRG_SCALE + proto_power_smooth_fx[l + num_freq_bands] = L_add( proto_power_smooth_fx[l + num_freq_bands], L_shr( temp, sub( q_temp[qidx], q_proto_power_smooth[qidx] ) ) ); // q_proto_power_smooth +#else proto_power_smooth_fx[l + num_freq_bands] = L_add( proto_power_smooth_fx[l + num_freq_bands], L_shr( temp, sub( q_temp, *q_proto_power_smooth ) ) ); // q_proto_power_smooth +#endif move32(); } } @@ -2192,14 +2572,26 @@ void protoSignalComputation2_fx( move32(); temp = Madd_32_32( Mpy_32_32( p_proto_buffer_fx[2 * ( num_freq_bands + l )], p_proto_buffer_fx[2 * ( num_freq_bands + l )] ), p_proto_buffer_fx[2 * ( num_freq_bands + l ) + 1], p_proto_buffer_fx[2 * ( num_freq_bands + l ) + 1] ); // 2*(q_cldfb+min_q_shift)-31 +#ifdef FIX_867_CLDFB_NRG_SCALE + IF( LT_16( q_temp[qidx], q_proto_power_smooth[qidx] ) ) +#else IF( LT_16( q_temp, *q_proto_power_smooth ) ) +#endif { +#ifdef FIX_867_CLDFB_NRG_SCALE + proto_power_smooth_fx[l + num_freq_bands] = L_add( L_shr( proto_power_smooth_fx[l + num_freq_bands], sub( q_proto_power_smooth[qidx], q_temp[qidx] ) ), temp ); // q_temp +#else proto_power_smooth_fx[l + num_freq_bands] = L_add( L_shr( proto_power_smooth_fx[l + num_freq_bands], sub( *q_proto_power_smooth, q_temp ) ), temp ); // q_temp +#endif move32(); } ELSE { +#ifdef FIX_867_CLDFB_NRG_SCALE + proto_power_smooth_fx[l + num_freq_bands] = L_add( proto_power_smooth_fx[l + num_freq_bands], L_shr( temp, sub( q_temp[qidx], q_proto_power_smooth[qidx] ) ) ); // q_proto_power_smooth +#else proto_power_smooth_fx[l + num_freq_bands] = L_add( proto_power_smooth_fx[l + num_freq_bands], L_shr( temp, sub( q_temp, *q_proto_power_smooth ) ) ); // q_proto_power_smooth +#endif move32(); } } @@ -2221,8 +2613,13 @@ void protoSignalComputation2_fx( stereo_type_detect->q_sum_power = s_min( stereo_type_detect->q_sum_power, q_temp2 ); move16(); +#ifdef FIX_867_CLDFB_NRG_SCALE + stereo_type_detect->q_total_power = s_min( stereo_type_detect->q_total_power, q_temp_total ); + move16(); +#else stereo_type_detect->q_total_power = s_min( stereo_type_detect->q_total_power, q_temp ); move16(); +#endif q_sum_total_ratio = Q15; move16(); @@ -2238,45 +2635,45 @@ void protoSignalComputation2_fx( } } - temp = Mpy_32_32( a_fx, left_bb_power_fx ); // 2*(q_cldfb+min_q_shift) -31 - IF( LT_16( q_temp, stereo_type_detect->q_left_bb_power ) ) + temp = Mpy_32_32( a_fx, left_bb_power_fx ); // q_Left_Right_power + IF( LT_16( q_Left_Right_power, stereo_type_detect->q_left_bb_power ) ) { - stereo_type_detect->left_bb_power_fx = L_add( temp, L_shr( Mpy_32_32( b_fx, stereo_type_detect->left_bb_power_fx ), sub( stereo_type_detect->q_left_bb_power, q_temp ) ) ); // q_temp + stereo_type_detect->left_bb_power_fx = L_add( temp, L_shr( Mpy_32_32( b_fx, stereo_type_detect->left_bb_power_fx ), sub( stereo_type_detect->q_left_bb_power, q_Left_Right_power ) ) ); // q_Left_Right_power move32(); - stereo_type_detect->q_left_bb_power = q_temp; + stereo_type_detect->q_left_bb_power = q_Left_Right_power; move16(); } ELSE { - stereo_type_detect->left_bb_power_fx = L_add( L_shr( temp, sub( q_temp, stereo_type_detect->q_left_bb_power ) ), Mpy_32_32( b_fx, stereo_type_detect->left_bb_power_fx ) ); // stereo_type_detect->q_left_bb_power + stereo_type_detect->left_bb_power_fx = Madd_32_32( L_shr( temp, sub( q_Left_Right_power, stereo_type_detect->q_left_bb_power ) ), b_fx, stereo_type_detect->left_bb_power_fx ); // stereo_type_detect->q_left_bb_power move32(); } - temp = Mpy_32_32( a_fx, right_bb_power_fx ); // 2*(q_cldfb+min_q_shift) -31 - IF( LT_16( q_temp, stereo_type_detect->q_right_bb_power ) ) + temp = Mpy_32_32( a_fx, right_bb_power_fx ); // q_Left_Right_power + IF( LT_16( q_Left_Right_power, stereo_type_detect->q_right_bb_power ) ) { - stereo_type_detect->right_bb_power_fx = L_add( temp, L_shr( Mpy_32_32( b_fx, stereo_type_detect->right_bb_power_fx ), sub( stereo_type_detect->q_right_bb_power, q_temp ) ) ); // q_temp + stereo_type_detect->right_bb_power_fx = L_add( temp, L_shr( Mpy_32_32( b_fx, stereo_type_detect->right_bb_power_fx ), sub( stereo_type_detect->q_right_bb_power, q_Left_Right_power ) ) ); // q_Left_Right_power move32(); - stereo_type_detect->q_right_bb_power = q_temp; + stereo_type_detect->q_right_bb_power = q_Left_Right_power; move16(); } ELSE { - stereo_type_detect->right_bb_power_fx = L_add( L_shr( temp, sub( q_temp, stereo_type_detect->q_right_bb_power ) ), Mpy_32_32( b_fx, stereo_type_detect->right_bb_power_fx ) ); // stereo_type_detect->q_right_bb_power + stereo_type_detect->right_bb_power_fx = Madd_32_32( L_shr( temp, sub( q_Left_Right_power, stereo_type_detect->q_right_bb_power ) ), b_fx, stereo_type_detect->right_bb_power_fx ); // stereo_type_detect->q_right_bb_power move32(); } - temp = Mpy_32_32( a_fx, total_bb_power_fx ); // 2*(q_cldfb+min_q_shift) -31 - IF( LT_16( q_temp, stereo_type_detect->q_total_bb_power ) ) + temp = Mpy_32_32( a_fx, total_bb_power_fx ); // q_Left_Right_power + IF( LT_16( q_Left_Right_power, stereo_type_detect->q_total_bb_power ) ) { - stereo_type_detect->total_bb_power_fx = L_add( temp, L_shr( Mpy_32_32( b_fx, stereo_type_detect->total_bb_power_fx ), sub( stereo_type_detect->q_total_bb_power, q_temp ) ) ); // q_temp + stereo_type_detect->total_bb_power_fx = L_add( temp, L_shr( Mpy_32_32( b_fx, stereo_type_detect->total_bb_power_fx ), sub( stereo_type_detect->q_total_bb_power, q_Left_Right_power ) ) ); // q_Left_Right_power move32(); - stereo_type_detect->q_total_bb_power = q_temp; + stereo_type_detect->q_total_bb_power = q_Left_Right_power; move16(); } ELSE { - stereo_type_detect->total_bb_power_fx = L_add( L_shr( temp, sub( q_temp, stereo_type_detect->q_total_bb_power ) ), Mpy_32_32( b_fx, stereo_type_detect->total_bb_power_fx ) ); // stereo_type_detect->q_total_bb_power + stereo_type_detect->total_bb_power_fx = Madd_32_32( L_shr( temp, sub( q_Left_Right_power, stereo_type_detect->q_total_bb_power ) ), b_fx, stereo_type_detect->total_bb_power_fx ); // stereo_type_detect->q_total_bb_power move32(); } @@ -2294,8 +2691,7 @@ void protoSignalComputation2_fx( q_lr_bb_power = stereo_type_detect->q_right_bb_power; move16(); } - q_lr_bb_power = sub( q_lr_bb_power, 1 ); /* = (lr_bb_power_fx * 2) */ - + q_lr_bb_power = sub( q_lr_bb_power, 1 ); /* = (lr_bb_power_fx * 2) */ temp = BASOP_Util_Divide3232_Scale_cadence( lr_bb_power_fx, L_add( stereo_type_detect->total_bb_power_fx, EPSILON_FX ), &exp ); // Q(31-(exp+stereo_type_detect->q_total_bb_power-q_lr_bb_power)) exp = sub( 31, add( sub( 31, exp ), sub( q_lr_bb_power, stereo_type_detect->q_total_bb_power ) ) ); temp = BASOP_Util_Log2( temp ); // q25 @@ -2306,16 +2702,29 @@ void protoSignalComputation2_fx( // 20480 = 10 in Q11 lr_total_bb_ratio_fx = Mpy_32_16_1( temp, 20480 ); // Q21 - stereo_type_detect->left_hi_power_fx = BASOP_Util_Add_Mant32Exp( Mpy_32_32( a_fx, left_hi_power_fx ), sub( 31, q_temp ), Mpy_32_32( b_fx, stereo_type_detect->left_hi_power_fx ), sub( 31, stereo_type_detect->q_left_hi_power ), &stereo_type_detect->q_left_hi_power ); +#ifdef FIX_867_CLDFB_NRG_SCALE + stereo_type_detect->left_hi_power_fx = BASOP_Util_Add_Mant32Exp( Mpy_32_32( a2_fx, left_hi_power_fx ), sub( 31, q_temp_total ), Mpy_32_32( b2_fx, stereo_type_detect->left_hi_power_fx ), sub( 31, stereo_type_detect->q_left_hi_power ), &stereo_type_detect->q_left_hi_power ); + move32(); + stereo_type_detect->q_left_hi_power = sub( 31, stereo_type_detect->q_left_hi_power ); + move16(); + stereo_type_detect->right_hi_power_fx = BASOP_Util_Add_Mant32Exp( Mpy_32_32( a2_fx, right_hi_power_fx ), sub( 31, q_temp_total ), Mpy_32_32( b2_fx, stereo_type_detect->right_hi_power_fx ), sub( 31, stereo_type_detect->q_right_hi_power ), &stereo_type_detect->q_right_hi_power ); + move32(); + stereo_type_detect->q_right_hi_power = sub( 31, stereo_type_detect->q_right_hi_power ); + move16(); + stereo_type_detect->total_hi_power_fx = BASOP_Util_Add_Mant32Exp( Mpy_32_32( a2_fx, total_hi_power_fx ), sub( 31, q_temp_total ), Mpy_32_32( b2_fx, stereo_type_detect->total_hi_power_fx ), sub( 31, stereo_type_detect->q_total_hi_power ), &stereo_type_detect->q_total_hi_power ); + move32(); +#else + stereo_type_detect->left_hi_power_fx = BASOP_Util_Add_Mant32Exp( Mpy_32_32( a2_fx, left_hi_power_fx ), sub( 31, q_temp ), Mpy_32_32( b2_fx, stereo_type_detect->left_hi_power_fx ), sub( 31, stereo_type_detect->q_left_hi_power ), &stereo_type_detect->q_left_hi_power ); move32(); stereo_type_detect->q_left_hi_power = sub( 31, stereo_type_detect->q_left_hi_power ); move16(); - stereo_type_detect->right_hi_power_fx = BASOP_Util_Add_Mant32Exp( Mpy_32_32( a_fx, right_hi_power_fx ), sub( 31, q_temp ), Mpy_32_32( b_fx, stereo_type_detect->right_hi_power_fx ), sub( 31, stereo_type_detect->q_right_hi_power ), &stereo_type_detect->q_right_hi_power ); + stereo_type_detect->right_hi_power_fx = BASOP_Util_Add_Mant32Exp( Mpy_32_32( a2_fx, right_hi_power_fx ), sub( 31, q_temp ), Mpy_32_32( b2_fx, stereo_type_detect->right_hi_power_fx ), sub( 31, stereo_type_detect->q_right_hi_power ), &stereo_type_detect->q_right_hi_power ); move32(); stereo_type_detect->q_right_hi_power = sub( 31, stereo_type_detect->q_right_hi_power ); move16(); - stereo_type_detect->total_hi_power_fx = BASOP_Util_Add_Mant32Exp( Mpy_32_32( a_fx, total_hi_power_fx ), sub( 31, q_temp ), Mpy_32_32( b_fx, stereo_type_detect->total_hi_power_fx ), sub( 31, stereo_type_detect->q_total_hi_power ), &stereo_type_detect->q_total_hi_power ); + stereo_type_detect->total_hi_power_fx = BASOP_Util_Add_Mant32Exp( Mpy_32_32( a2_fx, total_hi_power_fx ), sub( 31, q_temp ), Mpy_32_32( b2_fx, stereo_type_detect->total_hi_power_fx ), sub( 31, stereo_type_detect->q_total_hi_power ), &stereo_type_detect->q_total_hi_power ); move32(); +#endif stereo_type_detect->q_total_hi_power = sub( 31, stereo_type_detect->q_total_hi_power ); move16(); @@ -2331,8 +2740,7 @@ void protoSignalComputation2_fx( move32(); q_lr_hi_power = stereo_type_detect->q_right_hi_power; } - q_lr_hi_power = sub( q_lr_hi_power, 1 ); /* = (q_lr_hi_power * 2) */ - + q_lr_hi_power = sub( q_lr_hi_power, 1 ); /* = (q_lr_hi_power * 2) */ temp = BASOP_Util_Divide3232_Scale_cadence( lr_hi_power_fx, L_add( stereo_type_detect->total_hi_power_fx, EPSILON_FX ), &exp ); // Q=31-(exp+ stereo_type_detect->q_total_hi_power-q_lr_hi_power) exp = sub( 31, add( sub( 31, exp ), sub( q_lr_hi_power, stereo_type_detect->q_total_hi_power ) ) ); temp = BASOP_Util_Log2( temp ); // q25 @@ -2366,14 +2774,27 @@ void protoSignalComputation2_fx( { p_proto_buffer_fx = proto_direct_buffer_f_fx + ( slot_index * num_freq_bands * 4 ); // q_proto_direct_buffer_f +#ifdef FIX_867_CLDFB_NRG_SCALE + q_temp[0] = sub( add( add( q_cldfb, min_q_shift[0] ), add( q_cldfb, min_q_shift[0] ) ), 31 ); + q_temp[1] = sub( add( add( q_cldfb, min_q_shift[1] ), add( q_cldfb, min_q_shift[1] ) ), 31 ); +#else q_temp = sub( add( add( q_cldfb, min_q_shift ), add( q_cldfb, min_q_shift ) ), 31 ); +#endif FOR( l = 0; l < num_freq_bands; l++ ) { +#ifdef FIX_867_CLDFB_NRG_SCALE + Word16 qidx = s_min( 1, s_max( 0, sub( l, CLDFB_NO_CHANNELS_HALF - 1 ) ) ); + re1 = L_shl( RealBuffer_fx[0][0][l], min_q_shift[qidx] ); // q_cldfb+ min_q_shift + re2 = L_shl( RealBuffer_fx[1][0][l], min_q_shift[qidx] ); // q_cldfb+ min_q_shift + im1 = L_shl( ImagBuffer_fx[0][0][l], min_q_shift[qidx] ); // q_cldfb+ min_q_shift + im2 = L_shl( ImagBuffer_fx[1][0][l], min_q_shift[qidx] ); // q_cldfb+ min_q_shift +#else re1 = L_shl( RealBuffer_fx[0][0][l], min_q_shift ); // q_cldfb+ min_q_shift re2 = L_shl( RealBuffer_fx[1][0][l], min_q_shift ); // q_cldfb+ min_q_shift im1 = L_shl( ImagBuffer_fx[0][0][l], min_q_shift ); // q_cldfb+ min_q_shift im2 = L_shl( ImagBuffer_fx[1][0][l], min_q_shift ); // q_cldfb+ min_q_shift +#endif Real_aux_fx = L_add( re1, re2 ); // q_cldfb+ min_q_shift Imag_aux_fx = L_add( im1, im2 ); // q_cldfb+ min_q_shift @@ -2382,14 +2803,26 @@ void protoSignalComputation2_fx( reference_power_64fx[l] = W_add( W_mult0_32_32( Real_aux_fx, Real_aux_fx ), W_mult0_32_32( Imag_aux_fx, Imag_aux_fx ) ); // q_temp move64(); +#ifdef FIX_867_CLDFB_NRG_SCALE + IF( LT_16( q_temp[qidx], q_proto_power_smooth[qidx] ) ) +#else IF( LT_16( q_temp, *q_proto_power_smooth ) ) +#endif { +#ifdef FIX_867_CLDFB_NRG_SCALE + proto_power_smooth_fx[l] = L_add( L_shr( proto_power_smooth_fx[l], sub( q_proto_power_smooth[qidx], q_temp[qidx] ) ), W_extract_l( W_shr( reference_power_64fx[l], 31 ) ) ); // q_temp +#else proto_power_smooth_fx[l] = L_add( L_shr( proto_power_smooth_fx[l], sub( *q_proto_power_smooth, q_temp ) ), W_extract_l( W_shr( reference_power_64fx[l], 31 ) ) ); // q_temp +#endif move32(); } ELSE { +#ifdef FIX_867_CLDFB_NRG_SCALE + proto_power_smooth_fx[l] = L_add( proto_power_smooth_fx[l], L_shr( W_extract_l( W_shr( reference_power_64fx[l], 31 ) ), sub( q_temp[qidx], q_proto_power_smooth[qidx] ) ) ); // q_proto_power_smooth +#else proto_power_smooth_fx[l] = L_add( proto_power_smooth_fx[l], L_shr( W_extract_l( W_shr( reference_power_64fx[l], 31 ) ), sub( q_temp, *q_proto_power_smooth ) ) ); // q_proto_power_smooth +#endif move32(); } @@ -2404,14 +2837,26 @@ void protoSignalComputation2_fx( move32(); temp = Madd_32_32( Mpy_32_32( p_proto_buffer_fx[2 * ( num_freq_bands + l )], p_proto_buffer_fx[2 * ( num_freq_bands + l )] ), p_proto_buffer_fx[2 * ( num_freq_bands + l ) + 1], p_proto_buffer_fx[2 * ( num_freq_bands + l ) + 1] ); // q_temp +#ifdef FIX_867_CLDFB_NRG_SCALE + IF( LT_16( q_temp[qidx], q_proto_power_smooth[qidx] ) ) +#else IF( LT_16( q_temp, *q_proto_power_smooth ) ) +#endif { +#ifdef FIX_867_CLDFB_NRG_SCALE + proto_power_smooth_fx[l + num_freq_bands] = L_add( L_shr( proto_power_smooth_fx[l + num_freq_bands], sub( q_proto_power_smooth[qidx], q_temp[qidx] ) ), temp ); // q_temp +#else proto_power_smooth_fx[l + num_freq_bands] = L_add( L_shr( proto_power_smooth_fx[l + num_freq_bands], sub( *q_proto_power_smooth, q_temp ) ), temp ); // q_temp +#endif move32(); } ELSE { +#ifdef FIX_867_CLDFB_NRG_SCALE + proto_power_smooth_fx[l + num_freq_bands] = L_add( proto_power_smooth_fx[l + num_freq_bands], L_shr( temp, sub( q_temp[qidx], q_proto_power_smooth[qidx] ) ) ); // q_proto_power_smooth +#else proto_power_smooth_fx[l + num_freq_bands] = L_add( proto_power_smooth_fx[l + num_freq_bands], L_shr( temp, sub( q_temp, *q_proto_power_smooth ) ) ); // q_proto_power_smooth +#endif move32(); } @@ -2430,6 +2875,44 @@ void protoSignalComputation2_fx( move32(); } } +#ifdef FIX_867_CLDFB_NRG_SCALE + q_reference_power_64fx = shl( add( q_cldfb, min_q_shift[0] ), 1 ); + + Word16 norm_shift = 63; + move16(); + FOR( l = 0; l < s_min( num_freq_bands, CLDFB_NO_CHANNELS_HALF ); l++ ) + { + IF( reference_power_64fx[l] ) + { + norm_shift = s_min( norm_shift, W_norm( reference_power_64fx[l] ) ); + } + } + FOR( l = 0; l < s_min( num_freq_bands, CLDFB_NO_CHANNELS_HALF ); l++ ) + { + reference_power_fx[l] = W_extract_h( W_shl( reference_power_64fx[l], norm_shift ) ); // q_reference_power_64fx+norm_shift-32 + move32(); + } + q_reference_power[0] = sub( add( q_reference_power_64fx, norm_shift ), 32 ); + move16(); + + q_reference_power_64fx = shl( add( q_cldfb, min_q_shift[1] ), 1 ); + norm_shift = 63; + move16(); + FOR( l = CLDFB_NO_CHANNELS_HALF; l < num_freq_bands; l++ ) + { + IF( reference_power_64fx[l] ) + { + norm_shift = s_min( norm_shift, W_norm( reference_power_64fx[l] ) ); + } + } + FOR( l = CLDFB_NO_CHANNELS_HALF; l < num_freq_bands; l++ ) + { + reference_power_fx[l] = W_extract_h( W_shl( reference_power_64fx[l], norm_shift ) ); // q_reference_power_64fx+norm_shift-32 + move32(); + } + q_reference_power[1] = sub( add( q_reference_power_64fx, norm_shift ), 32 ); + move16(); +#else q_reference_power_64fx = shl( add( q_cldfb, min_q_shift ), 1 ); Word16 norm_shift = 63; move16(); @@ -2447,13 +2930,60 @@ void protoSignalComputation2_fx( } *q_reference_power = sub( add( q_reference_power_64fx, norm_shift ), 32 ); move16(); +#endif +#ifdef FIX_867_CLDFB_NRG_SCALE + IF( GT_16( min_q_shift[0], min_q_shift[1] ) ) + { + FOR( l = 0; l < i_mult( num_proto, num_freq_bands ); l += num_freq_bands ) + { + Scale_sig32( proto_frame_f_fx + shl( l, 1 ), shl( s_min( CLDFB_NO_CHANNELS_HALF, num_freq_bands ), 1 ), sub( min_q_shift[1], min_q_shift[0] ) ); + } + *q_proto_frame_f = add( q_cldfb, min_q_shift[1] ); + move16(); + } + ELSE + { + FOR( l = 0; l < i_mult( num_proto, num_freq_bands ); l += num_freq_bands ) + { + Scale_sig32( proto_frame_f_fx + shl( add( l, CLDFB_NO_CHANNELS_HALF ), 1 ), shl( s_max( 0, sub( num_freq_bands, CLDFB_NO_CHANNELS_HALF ) ), 1 ), sub( min_q_shift[0], min_q_shift[1] ) ); + } + *q_proto_frame_f = add( q_cldfb, min_q_shift[0] ); + move16(); + } + IF( GT_16( min_q_shift[0], min_q_shift[1] ) ) + { + FOR( l = 0; l < i_mult( num_proto, num_freq_bands ); l += num_freq_bands ) + { + Scale_sig32( p_proto_buffer_fx + shl( l, 1 ), shl( s_min( CLDFB_NO_CHANNELS_HALF, num_freq_bands ), 1 ), sub( min_q_shift[1], min_q_shift[0] ) ); + } + *q_proto_direct_buffer_f = add( q_cldfb, min_q_shift[1] ); + move16(); + } + ELSE + { + FOR( l = 0; l < i_mult( num_proto, num_freq_bands ); l += num_freq_bands ) + { + Scale_sig32( p_proto_buffer_fx + shl( add( l, CLDFB_NO_CHANNELS_HALF ), 1 ), shl( s_max( 0, sub( num_freq_bands, CLDFB_NO_CHANNELS_HALF ) ), 1 ), sub( min_q_shift[0], min_q_shift[1] ) ); + } + *q_proto_direct_buffer_f = add( q_cldfb, min_q_shift[0] ); + move16(); + } +#else *q_proto_frame_f = add( q_cldfb, min_q_shift ); move16(); *q_proto_direct_buffer_f = add( q_cldfb, min_q_shift ); move16(); +#endif +#ifdef FIX_867_CLDFB_NRG_SCALE + q_proto_power_smooth[0] = s_min( q_proto_power_smooth[0], q_temp[0] ); + q_proto_power_smooth[1] = s_min( q_proto_power_smooth[1], q_temp[1] ); + move16(); + move16(); +#else *q_proto_power_smooth = s_min( *q_proto_power_smooth, q_temp ); move16(); +#endif return; } @@ -2489,6 +3019,9 @@ void protoSignalComputation4_fx( Word32 sq_tmp_fx; Word32 *p_proto_buffer_fx; Word16 min_q_shift, q_shift; +#ifdef FIX_867_CLDFB_NRG_SCALE + Word16 min_q_shift2, q_shift2; +#endif Word32 re, im; Word16 proto_power_smooth_fx_q, sq_tmp_q; @@ -2496,6 +3029,12 @@ void protoSignalComputation4_fx( move16(); q_shift = Q31; move16(); +#ifdef FIX_867_CLDFB_NRG_SCALE + min_q_shift2 = Q31; + move16(); + q_shift2 = Q31; + move16(); +#endif sq_tmp_q = 0; move16(); @@ -2504,16 +3043,53 @@ void protoSignalComputation4_fx( /* calculate the shift possible for both RealBuffer_fx and ImagBuffer_fx buffers*/ FOR( k = 0; k < s_max( 4, nchan_transport ); k++ ) { +#ifdef FIX_867_CLDFB_NRG_SCALE + q_shift = L_norm_arr( RealBuffer_fx[k][0], s_min( CLDFB_NO_CHANNELS_HALF, num_freq_bands ) ); + min_q_shift = s_min( q_shift, min_q_shift ); + q_shift = L_norm_arr( ImagBuffer_fx[k][0], s_min( CLDFB_NO_CHANNELS_HALF, num_freq_bands ) ); + min_q_shift = s_min( q_shift, min_q_shift ); + q_shift2 = L_norm_arr( RealBuffer_fx[k][0] + CLDFB_NO_CHANNELS_HALF, s_max( 0, sub( num_freq_bands, CLDFB_NO_CHANNELS_HALF ) ) ); + min_q_shift2 = s_min( q_shift2, min_q_shift2 ); + q_shift2 = L_norm_arr( ImagBuffer_fx[k][0] + CLDFB_NO_CHANNELS_HALF, s_max( 0, sub( num_freq_bands, CLDFB_NO_CHANNELS_HALF ) ) ); + min_q_shift2 = s_min( q_shift2, min_q_shift2 ); +#else q_shift = L_norm_arr( RealBuffer_fx[k][0], num_freq_bands ); min_q_shift = s_min( q_shift, min_q_shift ); q_shift = L_norm_arr( ImagBuffer_fx[k][0], num_freq_bands ); min_q_shift = s_min( q_shift, min_q_shift ); +#endif } q_shift = min_q_shift; min_q_shift = sub( min_q_shift, find_guarded_bits_fx( i_mult( 2, 4 ) ) ); +#ifdef FIX_867_CLDFB_NRG_SCALE + q_shift2 = min_q_shift2; + min_q_shift2 = sub( min_q_shift2, find_guarded_bits_fx( i_mult( 2, 4 ) ) ); +#endif FOR( k = 0; k < 4; k++ ) { +#ifdef FIX_867_CLDFB_NRG_SCALE + FOR( l = 0; l < s_min( CLDFB_NO_CHANNELS_HALF, num_freq_bands ); l++ ) + { + re = L_shl( RealBuffer_fx[k][0][l], min_q_shift ); // q_cldfb+min_q_shift + im = L_shl( ImagBuffer_fx[k][0][l], min_q_shift ); // q_cldfb+min_q_shift + + sq_tmp_fx = Madd_32_32( Mpy_32_32( re, re ), im, im ); // 2*(q_cldfb+min_q_shift)-31 + + reference_power_fx[l] = Madd_32_16( reference_power_fx[l], sq_tmp_fx, 16384 /*0.5 in Q15*/ ); // 2*(q_cldfb+min_q_shift)-31 + move32(); + } + FOR( l = CLDFB_NO_CHANNELS_HALF; l < num_freq_bands; l++ ) + { + re = L_shl( RealBuffer_fx[k][0][l], min_q_shift2 ); // q_cldfb+min_q_shift + im = L_shl( ImagBuffer_fx[k][0][l], min_q_shift2 ); // q_cldfb+min_q_shift + + sq_tmp_fx = Madd_32_32( Mpy_32_32( re, re ), im, im ); // 2*(q_cldfb+min_q_shift)-31 + + reference_power_fx[l] = Madd_32_16( reference_power_fx[l], sq_tmp_fx, 16384 /*0.5 in Q15*/ ); // 2*(q_cldfb+min_q_shift)-31 + move32(); + } +#else FOR( l = 0; l < num_freq_bands; l++ ) { re = L_shl( RealBuffer_fx[k][0][l], min_q_shift ); // q_cldfb+min_q_shift @@ -2524,12 +3100,24 @@ void protoSignalComputation4_fx( reference_power_fx[l] = Madd_32_16( reference_power_fx[l], sq_tmp_fx, 16384 /*0.5 in Q15*/ ); // 2*(q_cldfb+min_q_shift)-31 move32(); } +#endif } +#ifdef FIX_867_CLDFB_NRG_SCALE + sq_tmp_q = sub( add( add( q_cldfb, min_q_shift ), add( q_cldfb, min_q_shift ) ), 31 ); + reference_power_q[0] = sq_tmp_q; + move16(); + sq_tmp_q = sub( add( add( q_cldfb, min_q_shift2 ), add( q_cldfb, min_q_shift2 ) ), 31 ); + reference_power_q[1] = sq_tmp_q; + move16(); + + min_q_shift = sub( s_min( q_shift, q_shift2 ), find_guarded_bits_fx( 2 ) ); +#else sq_tmp_q = sub( add( add( q_cldfb, min_q_shift ), add( q_cldfb, min_q_shift ) ), 31 ); *reference_power_q = sub( add( sq_tmp_q, Q15 ), 15 ); move16(); min_q_shift = sub( q_shift, find_guarded_bits_fx( 2 ) ); +#endif /*For decorrelated diffuseness*/ FOR( l = 0; l < num_outputs_diff; l++ ) @@ -2612,8 +3200,15 @@ void protoSignalComputation4_fx( *proto_direct_buffer_f_q = *proto_frame_f_q; move16(); +#ifdef FIX_867_CLDFB_NRG_SCALE + proto_power_smooth_q[0] = proto_power_smooth_fx_q; + proto_power_smooth_q[1] = proto_power_smooth_fx_q; + move16(); + move16(); +#else *proto_power_smooth_q = proto_power_smooth_fx_q; move16(); +#endif return; } @@ -2749,13 +3344,8 @@ void ivas_dirac_dec_compute_diffuse_proto_fx( Word16 new_diff_e = s_max( diff_e, old_diff_e ); Scale_sig32( h_dirac_output_synthesis_state->proto_diffuse_buffer_f_fx, diffuse_start, sub( old_diff_e, new_diff_e ) ); // 31-new_diff_e -#ifdef MSAN_FIX Scale_sig32( h_dirac_output_synthesis_state->proto_diffuse_buffer_f_fx + diffuse_start, i_mult( shl( num_freq_bands_diff, 1 ), hDirACRend->hOutSetup.nchan_out_woLFE ), sub( diff_e, new_diff_e ) ); // 31-new_diff_e -#else - Scale_sig32( h_dirac_output_synthesis_state->proto_diffuse_buffer_f_fx + diffuse_start, - sub( h_dirac_output_synthesis_state->proto_diffuse_buffer_f_len, diffuse_start ), sub( diff_e, new_diff_e ) ); -#endif h_dirac_output_synthesis_state->proto_diffuse_buffer_f_q = sub( 31, new_diff_e ); move16(); @@ -2946,10 +3536,8 @@ void ivas_masa_init_stereotype_detection_fx( move16(); stereo_type_detect->target_power_y_smooth_fx = 0; move32(); -#ifdef MSAN_FIX stereo_type_detect->q_target_power_y_smooth = 31; move16(); -#endif stereo_type_detect->lr_total_bb_ratio_db_fx = 0; move32(); @@ -3681,7 +4269,11 @@ static void ivas_masa_ext_dirac_render_sf_fx( &hDirACRend->h_output_synthesis_psd_state.proto_direct_buffer_f_q, hDirACRend->h_output_synthesis_psd_state.proto_diffuse_buffer_f_fx, &hDirACRend->h_output_synthesis_psd_state.proto_diffuse_buffer_f_q, +#ifdef FIX_867_CLDFB_NRG_SCALE + reference_power_fix, DirAC_mem.reference_power_q, slot_idx, nchan_transport, +#else reference_power_fix, &DirAC_mem.reference_power_q, slot_idx, nchan_transport, +#endif hDirACRend->num_outputs_diff, hSpatParamRendCom->num_freq_bands, 0, q_cldfb ); @@ -3694,12 +4286,49 @@ static void ivas_masa_ext_dirac_render_sf_fx( protoSignalComputation2_fx( Cldfb_RealBuffer_fx, Cldfb_ImagBuffer_fx, hDirACRend->proto_frame_f_fx, &hDirACRend->proto_frame_f_q, hDirACRend->h_output_synthesis_psd_state.proto_direct_buffer_f_fx, &hDirACRend->h_output_synthesis_psd_state.proto_direct_buffer_f_q, +#ifdef FIX_867_CLDFB_NRG_SCALE + reference_power_fix, DirAC_mem.reference_power_q, hDirACRend->h_output_synthesis_psd_state.proto_power_smooth_fx, + hDirACRend->h_output_synthesis_psd_state.proto_power_smooth_q, +#else reference_power_fix, &DirAC_mem.reference_power_q, hDirACRend->h_output_synthesis_psd_state.proto_power_smooth_fx, &hDirACRend->h_output_synthesis_psd_state.proto_power_smooth_q, +#endif 0, slot_idx, hSpatParamRendCom->num_freq_bands, hDirACRend->masa_stereo_type_detect, q_cldfb ); proto_direct_buffer_f_temp_q[slot_idx] = hDirACRend->h_output_synthesis_psd_state.proto_direct_buffer_f_q; move16(); +#ifdef FIX_867_CLDFB_NRG_SCALE + IF( LT_16( DirAC_mem.reference_power_q[0], DirAC_mem.reference_power_smooth_q[0] ) ) + { + FOR( i = hSpatParamRendCom->num_freq_bands; DirAC_mem.reference_power_len > i; i = add( i, hSpatParamRendCom->num_freq_bands ) ) + { + Scale_sig32( reference_power_fix + i, s_min( hSpatParamRendCom->num_freq_bands, CLDFB_NO_CHANNELS_HALF ), sub( DirAC_mem.reference_power_q[0], DirAC_mem.reference_power_smooth_q[0] ) ); // DirAC_mem.reference_power_q + } + DirAC_mem.reference_power_smooth_q[0] = DirAC_mem.reference_power_q[0]; + move16(); + } + ELSE + { + Scale_sig32( reference_power_fix, s_min( hSpatParamRendCom->num_freq_bands, CLDFB_NO_CHANNELS_HALF ), sub( DirAC_mem.reference_power_smooth_q[0], DirAC_mem.reference_power_q[0] ) ); // DirAC_mem.reference_power_smooth_q + DirAC_mem.reference_power_q[0] = DirAC_mem.reference_power_smooth_q[0]; + move16(); + } + IF( LT_16( DirAC_mem.reference_power_q[1], DirAC_mem.reference_power_smooth_q[1] ) ) + { + FOR( i = hSpatParamRendCom->num_freq_bands; DirAC_mem.reference_power_len > i; i = add( i, hSpatParamRendCom->num_freq_bands ) ) + { + Scale_sig32( reference_power_fix + CLDFB_NO_CHANNELS_HALF + i, s_min( 0, sub( hSpatParamRendCom->num_freq_bands, CLDFB_NO_CHANNELS_HALF ) ), sub( DirAC_mem.reference_power_q[1], DirAC_mem.reference_power_smooth_q[1] ) ); // DirAC_mem.reference_power_q + } + DirAC_mem.reference_power_smooth_q[1] = DirAC_mem.reference_power_q[1]; + move16(); + } + ELSE + { + Scale_sig32( reference_power_fix + CLDFB_NO_CHANNELS_HALF, s_min( 0, sub( hSpatParamRendCom->num_freq_bands, CLDFB_NO_CHANNELS_HALF ) ), sub( DirAC_mem.reference_power_smooth_q[1], DirAC_mem.reference_power_q[1] ) ); // DirAC_mem.reference_power_smooth_q + DirAC_mem.reference_power_q[1] = DirAC_mem.reference_power_smooth_q[1]; + move16(); + } +#else IF( LT_16( DirAC_mem.reference_power_q, DirAC_mem.reference_power_smooth_q ) ) { Scale_sig32( reference_power_fix + hSpatParamRendCom->num_freq_bands, sub( DirAC_mem.reference_power_len, hSpatParamRendCom->num_freq_bands ), sub( DirAC_mem.reference_power_q, DirAC_mem.reference_power_smooth_q ) ); // DirAC_mem.reference_power_q @@ -3712,6 +4341,7 @@ static void ivas_masa_ext_dirac_render_sf_fx( DirAC_mem.reference_power_q = DirAC_mem.reference_power_smooth_q; move16(); } +#endif temp_proto_frame_q = sub( getScaleFactor32( hDirACRend->proto_frame_f_fx, hDirACRend->proto_frame_f_len ), 2 ); Scale_sig32( hDirACRend->proto_frame_f_fx, hDirACRend->proto_frame_f_len, temp_proto_frame_q ); // hDirACRend->proto_frame_f_q+temp_proto_frame_q hDirACRend->proto_frame_f_q = add( hDirACRend->proto_frame_f_q, temp_proto_frame_q ); @@ -3727,9 +4357,15 @@ static void ivas_masa_ext_dirac_render_sf_fx( &hDirACRend->proto_frame_f_q, hDirACRend->h_output_synthesis_psd_state.proto_direct_buffer_f_fx, &hDirACRend->h_output_synthesis_psd_state.proto_direct_buffer_f_q, +#ifdef FIX_867_CLDFB_NRG_SCALE + reference_power_fix, DirAC_mem.reference_power_q, + hDirACRend->h_output_synthesis_psd_state.proto_power_smooth_fx, + hDirACRend->h_output_synthesis_psd_state.proto_power_smooth_q, +#else reference_power_fix, &DirAC_mem.reference_power_q, hDirACRend->h_output_synthesis_psd_state.proto_power_smooth_fx, &hDirACRend->h_output_synthesis_psd_state.proto_power_smooth_q, +#endif hDirACRend->hOutSetup.is_loudspeaker_setup, slot_idx, hSpatParamRendCom->num_freq_bands, @@ -3737,6 +4373,39 @@ static void ivas_masa_ext_dirac_render_sf_fx( proto_direct_buffer_f_temp_q[slot_idx] = hDirACRend->h_output_synthesis_psd_state.proto_direct_buffer_f_q; move16(); +#ifdef FIX_867_CLDFB_NRG_SCALE + IF( LT_16( DirAC_mem.reference_power_q[0], DirAC_mem.reference_power_smooth_q[0] ) ) + { + FOR( i = hSpatParamRendCom->num_freq_bands; DirAC_mem.reference_power_len > i; i = add( i, hSpatParamRendCom->num_freq_bands ) ) + { + Scale_sig32( reference_power_fix + i, s_min( hSpatParamRendCom->num_freq_bands, CLDFB_NO_CHANNELS_HALF ), sub( DirAC_mem.reference_power_q[0], DirAC_mem.reference_power_smooth_q[0] ) ); // DirAC_mem.reference_power_q + } + DirAC_mem.reference_power_smooth_q[0] = DirAC_mem.reference_power_q[0]; + move16(); + } + ELSE + { + Scale_sig32( reference_power_fix, s_min( hSpatParamRendCom->num_freq_bands, CLDFB_NO_CHANNELS_HALF ), sub( DirAC_mem.reference_power_smooth_q[0], DirAC_mem.reference_power_q[0] ) ); // DirAC_mem.reference_power_smooth_q + DirAC_mem.reference_power_q[0] = DirAC_mem.reference_power_smooth_q[0]; + move16(); + } + IF( LT_16( DirAC_mem.reference_power_q[1], DirAC_mem.reference_power_smooth_q[1] ) ) + { + FOR( i = hSpatParamRendCom->num_freq_bands; DirAC_mem.reference_power_len > i; i = add( i, hSpatParamRendCom->num_freq_bands ) ) + { + Scale_sig32( reference_power_fix + CLDFB_NO_CHANNELS_HALF + i, s_min( 0, sub( hSpatParamRendCom->num_freq_bands, CLDFB_NO_CHANNELS_HALF ) ), sub( DirAC_mem.reference_power_q[1], DirAC_mem.reference_power_smooth_q[1] ) ); // DirAC_mem.reference_power_q + } + DirAC_mem.reference_power_smooth_q[0] = DirAC_mem.reference_power_q[1]; + move16(); + } + ELSE + { + Scale_sig32( reference_power_fix, s_min( 0, sub( hSpatParamRendCom->num_freq_bands, CLDFB_NO_CHANNELS_HALF ) ), sub( DirAC_mem.reference_power_smooth_q[1], DirAC_mem.reference_power_q[1] ) ); // DirAC_mem.reference_power_smooth_q + DirAC_mem.reference_power_q[1] = DirAC_mem.reference_power_smooth_q[1]; + move16(); + } + +#else IF( LT_16( DirAC_mem.reference_power_q, DirAC_mem.reference_power_smooth_q ) ) { Scale_sig32( reference_power_fix + hSpatParamRendCom->num_freq_bands, sub( DirAC_mem.reference_power_len, hSpatParamRendCom->num_freq_bands ), sub( DirAC_mem.reference_power_q, DirAC_mem.reference_power_smooth_q ) ); // DirAC_mem.reference_power_q @@ -3749,6 +4418,7 @@ static void ivas_masa_ext_dirac_render_sf_fx( DirAC_mem.reference_power_q = DirAC_mem.reference_power_smooth_q; move16(); } +#endif temp_proto_frame_q = sub( getScaleFactor32( hDirACRend->proto_frame_f_fx, hDirACRend->proto_frame_f_len ), 2 ); Scale_sig32( hDirACRend->proto_frame_f_fx, hDirACRend->proto_frame_f_len, temp_proto_frame_q ); // hDirACRend->proto_frame_f_q+temp_proto_frame_q hDirACRend->proto_frame_f_q = add( hDirACRend->proto_frame_f_q, temp_proto_frame_q ); @@ -3761,9 +4431,15 @@ static void ivas_masa_ext_dirac_render_sf_fx( &hDirACRend->proto_frame_f_q, hDirACRend->h_output_synthesis_psd_state.proto_direct_buffer_f_fx, &hDirACRend->h_output_synthesis_psd_state.proto_direct_buffer_f_q, +#ifdef FIX_867_CLDFB_NRG_SCALE + reference_power_fix, DirAC_mem.reference_power_q, + hDirACRend->h_output_synthesis_psd_state.proto_power_smooth_fx, + hDirACRend->h_output_synthesis_psd_state.proto_power_smooth_q, +#else reference_power_fix, &DirAC_mem.reference_power_q, hDirACRend->h_output_synthesis_psd_state.proto_power_smooth_fx, &hDirACRend->h_output_synthesis_psd_state.proto_power_smooth_q, +#endif slot_idx, hDirACRend->num_protos_diff, hSpatParamRendCom->num_freq_bands, q_cldfb ); @@ -3771,6 +4447,38 @@ static void ivas_masa_ext_dirac_render_sf_fx( proto_direct_buffer_f_temp_q[slot_idx] = hDirACRend->h_output_synthesis_psd_state.proto_direct_buffer_f_q; move16(); +#ifdef FIX_867_CLDFB_NRG_SCALE + IF( LT_16( DirAC_mem.reference_power_q[0], DirAC_mem.reference_power_smooth_q[0] ) ) + { + FOR( i = hSpatParamRendCom->num_freq_bands; DirAC_mem.reference_power_len > i; i = add( i, hSpatParamRendCom->num_freq_bands ) ) + { + Scale_sig32( reference_power_fix + i, s_min( hSpatParamRendCom->num_freq_bands, CLDFB_NO_CHANNELS_HALF ), sub( DirAC_mem.reference_power_q[0], DirAC_mem.reference_power_smooth_q[0] ) ); // DirAC_mem.reference_power_q + } + DirAC_mem.reference_power_smooth_q[0] = DirAC_mem.reference_power_q[0]; + move16(); + } + ELSE + { + Scale_sig32( reference_power_fix, s_min( hSpatParamRendCom->num_freq_bands, CLDFB_NO_CHANNELS_HALF ), sub( DirAC_mem.reference_power_smooth_q[0], DirAC_mem.reference_power_q[0] ) ); // DirAC_mem.reference_power_smooth_q + DirAC_mem.reference_power_q[0] = DirAC_mem.reference_power_smooth_q[0]; + move16(); + } + IF( LT_16( DirAC_mem.reference_power_q[1], DirAC_mem.reference_power_smooth_q[1] ) ) + { + FOR( i = hSpatParamRendCom->num_freq_bands; DirAC_mem.reference_power_len > i; i = add( i, hSpatParamRendCom->num_freq_bands ) ) + { + Scale_sig32( reference_power_fix + CLDFB_NO_CHANNELS_HALF + i, s_min( 0, sub( hSpatParamRendCom->num_freq_bands, CLDFB_NO_CHANNELS_HALF ) ), sub( DirAC_mem.reference_power_q[1], DirAC_mem.reference_power_smooth_q[1] ) ); // DirAC_mem.reference_power_q + } + DirAC_mem.reference_power_smooth_q[1] = DirAC_mem.reference_power_q[1]; + move16(); + } + ELSE + { + Scale_sig32( reference_power_fix, s_min( 0, sub( hSpatParamRendCom->num_freq_bands, CLDFB_NO_CHANNELS_HALF ) ), sub( DirAC_mem.reference_power_smooth_q[1], DirAC_mem.reference_power_q[1] ) ); // DirAC_mem.reference_power_smooth_q + DirAC_mem.reference_power_q[1] = DirAC_mem.reference_power_smooth_q[1]; + move16(); + } +#else IF( LT_16( DirAC_mem.reference_power_q, DirAC_mem.reference_power_smooth_q ) ) { Scale_sig32( reference_power_fix + hSpatParamRendCom->num_freq_bands, sub( DirAC_mem.reference_power_len, hSpatParamRendCom->num_freq_bands ), sub( DirAC_mem.reference_power_q, DirAC_mem.reference_power_smooth_q ) ); // DirAC_mem.reference_power_q @@ -3783,6 +4491,7 @@ static void ivas_masa_ext_dirac_render_sf_fx( DirAC_mem.reference_power_q = DirAC_mem.reference_power_smooth_q; move16(); } +#endif temp_proto_frame_q = sub( getScaleFactor32( hDirACRend->proto_frame_f_fx, hDirACRend->proto_frame_f_len ), 2 ); Scale_sig32( hDirACRend->proto_frame_f_fx, hDirACRend->proto_frame_f_len, temp_proto_frame_q ); // hDirACRend->proto_frame_f_q+temp_proto_frame_q @@ -3812,7 +4521,7 @@ static void ivas_masa_ext_dirac_render_sf_fx( hDirACRend->h_output_synthesis_psd_state.proto_diffuse_buffer_f_q, hDirACRend->num_protos_diff, hDirACRend->proto_index_diff, - hDirACRend->h_output_synthesis_psd_state.proto_diffuse_buffer_f_fx + slot_idx * 2 * hSpatParamRendCom->num_freq_bands * hDirACRend->num_outputs_diff + 2 * hSpatParamRendCom->num_freq_bands * min( 4, nchan_transport ), + hDirACRend->h_output_synthesis_psd_state.proto_diffuse_buffer_f_fx + slot_idx * 2 * hSpatParamRendCom->num_freq_bands * hDirACRend->num_outputs_diff + 2 * hSpatParamRendCom->num_freq_bands * s_min( 4, nchan_transport ), &hDirACRend->h_output_synthesis_psd_state.proto_diffuse_buffer_f_q, onset_filter_fx, hDirACRend->h_freq_domain_decorr_ap_params, @@ -3902,10 +4611,21 @@ static void ivas_masa_ext_dirac_render_sf_fx( IF( NE_16( hDirACRend->synthesisConf, DIRAC_SYNTHESIS_GAIN_SHD ) ) { Scale_sig32( DirAC_mem.reference_power_fx, DirAC_mem.reference_power_len, -1 ); // DirAC_mem.reference_power_q-1 +#ifdef FIX_867_CLDFB_NRG_SCALE + DirAC_mem.reference_power_q[0] = sub( DirAC_mem.reference_power_q[0], 1 ); + DirAC_mem.reference_power_q[1] = sub( DirAC_mem.reference_power_q[1], 1 ); + move16(); + move16(); + DirAC_mem.reference_power_smooth_q[0] = DirAC_mem.reference_power_q[0]; + DirAC_mem.reference_power_smooth_q[1] = DirAC_mem.reference_power_q[1]; + move16(); + move16(); +#else DirAC_mem.reference_power_q = sub( DirAC_mem.reference_power_q, 1 ); move16(); DirAC_mem.reference_power_smooth_q = DirAC_mem.reference_power_q; move16(); +#endif v_add_fixed( reference_power_fix, reference_power_smooth_fx, reference_power_smooth_fx, hSpatParamRendCom->num_freq_bands, 0 ); // DirAC_mem.reference_power_smooth_q } } @@ -4016,10 +4736,19 @@ static void ivas_masa_ext_dirac_render_sf_fx( Word16 reference_power_temp_q = getScaleFactor32( DirAC_mem.reference_power_fx, DirAC_mem.reference_power_len ); scale_sig32( DirAC_mem.reference_power_fx, DirAC_mem.reference_power_len, reference_power_temp_q ); /*DirAC_mem.reference_power_q + reference_power_temp_q*/ +#ifdef FIX_867_CLDFB_NRG_SCALE + DirAC_mem.reference_power_q[0] = add( DirAC_mem.reference_power_q[0], reference_power_temp_q ); + DirAC_mem.reference_power_q[1] = add( DirAC_mem.reference_power_q[1], reference_power_temp_q ); + move16(); + DirAC_mem.reference_power_smooth_q[0] = add( DirAC_mem.reference_power_q[0], reference_power_temp_q ); + DirAC_mem.reference_power_smooth_q[1] = add( DirAC_mem.reference_power_q[1], reference_power_temp_q ); + move16(); +#else DirAC_mem.reference_power_q = add( DirAC_mem.reference_power_q, reference_power_temp_q ); move16(); DirAC_mem.reference_power_smooth_q = add( DirAC_mem.reference_power_q, reference_power_temp_q ); move16(); +#endif Word16 q_cy_auto_diff_smooth = getScaleFactor32( h_dirac_output_synthesis_state->cy_auto_diff_smooth_fx, h_dirac_output_synthesis_state->cy_auto_diff_smooth_len ); Scale_sig32( h_dirac_output_synthesis_state->cy_auto_diff_smooth_fx, h_dirac_output_synthesis_state->cy_auto_diff_smooth_len, q_cy_auto_diff_smooth ); // h_dirac_output_synthesis_state->q_cy_auto_diff_smooth+ q_cy_auto_diff_smooth @@ -4050,12 +4779,40 @@ static void ivas_masa_ext_dirac_render_sf_fx( move16(); } +#ifdef FIX_867_CLDFB_NRG_SCALE + FOR( i = 0; hDirACRend->h_output_synthesis_psd_state.proto_power_smooth_len > i; i = add( i, hSpatParamRendCom->num_freq_bands ) ) + { + Scale_sig32( hDirACRend->h_output_synthesis_psd_state.proto_power_smooth_fx + i, s_min( hSpatParamRendCom->num_freq_bands, CLDFB_NO_CHANNELS_HALF ), sub( s_min( hDirACRend->h_output_synthesis_psd_state.proto_power_smooth_q[0], hDirACRend->h_output_synthesis_psd_state.proto_power_smooth_prev_q[0] ), hDirACRend->h_output_synthesis_psd_state.proto_power_smooth_q[0] ) ); // s_min( hDirACRend->h_output_synthesis_psd_state.proto_power_smooth_q, hDirACRend->h_output_synthesis_psd_state.proto_power_smooth_prev_q ) + } + hDirACRend->h_output_synthesis_psd_state.proto_power_smooth_q[0] = s_min( hDirACRend->h_output_synthesis_psd_state.proto_power_smooth_q[0], hDirACRend->h_output_synthesis_psd_state.proto_power_smooth_prev_q[0] ); + move16(); + FOR( i = 0; hDirACRend->h_output_synthesis_psd_state.proto_power_smooth_len > i; i = add( i, hSpatParamRendCom->num_freq_bands ) ) + { + Scale_sig32( hDirACRend->h_output_synthesis_psd_state.proto_power_smooth_fx + CLDFB_NO_CHANNELS_HALF + i, s_min( 0, sub( hSpatParamRendCom->num_freq_bands, CLDFB_NO_CHANNELS_HALF ) ), sub( s_min( hDirACRend->h_output_synthesis_psd_state.proto_power_smooth_q[1], hDirACRend->h_output_synthesis_psd_state.proto_power_smooth_prev_q[1] ), hDirACRend->h_output_synthesis_psd_state.proto_power_smooth_q[1] ) ); // s_min( hDirACRend->h_output_synthesis_psd_state.proto_power_smooth_q, hDirACRend->h_output_synthesis_psd_state.proto_power_smooth_prev_q ) + } + hDirACRend->h_output_synthesis_psd_state.proto_power_smooth_q[1] = s_min( hDirACRend->h_output_synthesis_psd_state.proto_power_smooth_q[1], hDirACRend->h_output_synthesis_psd_state.proto_power_smooth_prev_q[1] ); + move16(); + + FOR( i = 0; hDirACRend->h_output_synthesis_psd_state.proto_power_smooth_prev_len > i; i = add( i, hSpatParamRendCom->num_freq_bands ) ) + { + Scale_sig32( hDirACRend->h_output_synthesis_psd_state.proto_power_smooth_prev_fx + i, s_min( hSpatParamRendCom->num_freq_bands, CLDFB_NO_CHANNELS_HALF ), sub( s_min( hDirACRend->h_output_synthesis_psd_state.proto_power_smooth_prev_q[0], hDirACRend->h_output_synthesis_psd_state.proto_power_smooth_q[0] ), hDirACRend->h_output_synthesis_psd_state.proto_power_smooth_prev_q[0] ) ); // s_min( hDirACRend->h_output_synthesis_psd_state.proto_power_smooth_prev_q, hDirACRend->h_output_synthesis_psd_state.proto_power_smooth_q ) + } + hDirACRend->h_output_synthesis_psd_state.proto_power_smooth_prev_q[0] = s_min( hDirACRend->h_output_synthesis_psd_state.proto_power_smooth_q[0], hDirACRend->h_output_synthesis_psd_state.proto_power_smooth_prev_q[0] ); + move16(); + FOR( i = 0; hDirACRend->h_output_synthesis_psd_state.proto_power_smooth_len > i; i = add( i, hSpatParamRendCom->num_freq_bands ) ) + { + Scale_sig32( hDirACRend->h_output_synthesis_psd_state.proto_power_smooth_prev_fx + CLDFB_NO_CHANNELS_HALF + i, s_min( 0, sub( hSpatParamRendCom->num_freq_bands, CLDFB_NO_CHANNELS_HALF ) ), sub( s_min( hDirACRend->h_output_synthesis_psd_state.proto_power_smooth_prev_q[1], hDirACRend->h_output_synthesis_psd_state.proto_power_smooth_q[1] ), hDirACRend->h_output_synthesis_psd_state.proto_power_smooth_prev_q[1] ) ); // s_min( hDirACRend->h_output_synthesis_psd_state.proto_power_smooth_prev_q, hDirACRend->h_output_synthesis_psd_state.proto_power_smooth_q ) + } + hDirACRend->h_output_synthesis_psd_state.proto_power_smooth_prev_q[1] = s_min( hDirACRend->h_output_synthesis_psd_state.proto_power_smooth_q[1], hDirACRend->h_output_synthesis_psd_state.proto_power_smooth_prev_q[1] ); + move16(); +#else Scale_sig32( hDirACRend->h_output_synthesis_psd_state.proto_power_smooth_fx, hDirACRend->h_output_synthesis_psd_state.proto_power_smooth_len, sub( s_min( hDirACRend->h_output_synthesis_psd_state.proto_power_smooth_q, hDirACRend->h_output_synthesis_psd_state.proto_power_smooth_prev_q ), hDirACRend->h_output_synthesis_psd_state.proto_power_smooth_q ) ); // s_min( hDirACRend->h_output_synthesis_psd_state.proto_power_smooth_q, hDirACRend->h_output_synthesis_psd_state.proto_power_smooth_prev_q ) hDirACRend->h_output_synthesis_psd_state.proto_power_smooth_q = s_min( hDirACRend->h_output_synthesis_psd_state.proto_power_smooth_q, hDirACRend->h_output_synthesis_psd_state.proto_power_smooth_prev_q ); move16(); Scale_sig32( hDirACRend->h_output_synthesis_psd_state.proto_power_smooth_prev_fx, hDirACRend->h_output_synthesis_psd_state.proto_power_smooth_prev_len, sub( s_min( hDirACRend->h_output_synthesis_psd_state.proto_power_smooth_prev_q, hDirACRend->h_output_synthesis_psd_state.proto_power_smooth_q ), hDirACRend->h_output_synthesis_psd_state.proto_power_smooth_prev_q ) ); // s_min( hDirACRend->h_output_synthesis_psd_state.proto_power_smooth_prev_q, hDirACRend->h_output_synthesis_psd_state.proto_power_smooth_q ) hDirACRend->h_output_synthesis_psd_state.proto_power_smooth_prev_q = s_min( hDirACRend->h_output_synthesis_psd_state.proto_power_smooth_q, hDirACRend->h_output_synthesis_psd_state.proto_power_smooth_prev_q ); move16(); +#endif Word16 proto_power_diff_smooth_prev_temp_q = getScaleFactor32( hDirACRend->h_output_synthesis_psd_state.proto_power_diff_smooth_prev_fx, hDirACRend->h_output_synthesis_psd_state.proto_power_diff_smooth_prev_len ); Scale_sig32( hDirACRend->h_output_synthesis_psd_state.proto_power_diff_smooth_prev_fx, hDirACRend->h_output_synthesis_psd_state.proto_power_diff_smooth_prev_len, proto_power_diff_smooth_prev_temp_q ); // hDirACRend->h_output_synthesis_psd_state.proto_power_diff_smooth_prev_q + proto_power_diff_smooth_prev_temp_q @@ -4078,6 +4835,27 @@ static void ivas_masa_ext_dirac_render_sf_fx( /*Buffer rescaling*/ +#ifdef FIX_867_CLDFB_NRG_SCALE + Scale_sig32( hDirACRend->h_output_synthesis_psd_state.reference_power_smooth_prev_fx, s_min( hSpatParamRendCom->num_freq_bands, CLDFB_NO_CHANNELS_HALF ), sub( s_min( hDirACRend->h_output_synthesis_psd_state.reference_power_smooth_prev_q[0], DirAC_mem.reference_power_q[0] ), hDirACRend->h_output_synthesis_psd_state.reference_power_smooth_prev_q[0] ) ); // s_min( hDirACRend->h_output_synthesis_psd_state.reference_power_smooth_prev_q, DirAC_mem.reference_power_q ) + Scale_sig32( hDirACRend->h_output_synthesis_psd_state.reference_power_smooth_prev_fx + CLDFB_NO_CHANNELS_HALF, s_min( 0, sub( hSpatParamRendCom->num_freq_bands, CLDFB_NO_CHANNELS_HALF ) ), sub( s_min( hDirACRend->h_output_synthesis_psd_state.reference_power_smooth_prev_q[1], DirAC_mem.reference_power_q[1] ), hDirACRend->h_output_synthesis_psd_state.reference_power_smooth_prev_q[1] ) ); // s_min( hDirACRend->h_output_synthesis_psd_state.reference_power_smooth_prev_q, DirAC_mem.reference_power_q ) + FOR( i = 0; DirAC_mem.reference_power_len > i; i = add( i, hSpatParamRendCom->num_freq_bands ) ) + { + Scale_sig32( DirAC_mem.reference_power_fx + i, s_min( hSpatParamRendCom->num_freq_bands, CLDFB_NO_CHANNELS_HALF ), sub( s_min( hDirACRend->h_output_synthesis_psd_state.reference_power_smooth_prev_q[0], DirAC_mem.reference_power_q[0] ), DirAC_mem.reference_power_q[0] ) ); // s_min( hDirACRend->h_output_synthesis_psd_state.reference_power_smooth_prev_q, DirAC_mem.reference_power_q ) + Scale_sig32( DirAC_mem.reference_power_fx + CLDFB_NO_CHANNELS_HALF + i, s_min( 0, sub( hSpatParamRendCom->num_freq_bands, CLDFB_NO_CHANNELS_HALF ) ), sub( s_min( hDirACRend->h_output_synthesis_psd_state.reference_power_smooth_prev_q[1], DirAC_mem.reference_power_q[1] ), DirAC_mem.reference_power_q[1] ) ); // s_min( hDirACRend->h_output_synthesis_psd_state.reference_power_smooth_prev_q, DirAC_mem.reference_power_q ) + } + hDirACRend->h_output_synthesis_psd_state.reference_power_smooth_prev_q[0] = s_min( hDirACRend->h_output_synthesis_psd_state.reference_power_smooth_prev_q[0], DirAC_mem.reference_power_q[0] ); + move16(); + hDirACRend->h_output_synthesis_psd_state.reference_power_smooth_prev_q[1] = s_min( hDirACRend->h_output_synthesis_psd_state.reference_power_smooth_prev_q[1], DirAC_mem.reference_power_q[1] ); + move16(); + DirAC_mem.reference_power_q[0] = s_min( hDirACRend->h_output_synthesis_psd_state.reference_power_smooth_prev_q[0], DirAC_mem.reference_power_q[0] ); + move16(); + DirAC_mem.reference_power_q[1] = s_min( hDirACRend->h_output_synthesis_psd_state.reference_power_smooth_prev_q[1], DirAC_mem.reference_power_q[1] ); + move16(); + DirAC_mem.reference_power_smooth_q[0] = s_min( hDirACRend->h_output_synthesis_psd_state.reference_power_smooth_prev_q[0], DirAC_mem.reference_power_q[0] ); + move16(); + DirAC_mem.reference_power_smooth_q[1] = s_min( hDirACRend->h_output_synthesis_psd_state.reference_power_smooth_prev_q[1], DirAC_mem.reference_power_q[1] ); + move16(); +#else Scale_sig32( hDirACRend->h_output_synthesis_psd_state.reference_power_smooth_prev_fx, hSpatParamRendCom->num_freq_bands, sub( s_min( hDirACRend->h_output_synthesis_psd_state.reference_power_smooth_prev_q, DirAC_mem.reference_power_q ), hDirACRend->h_output_synthesis_psd_state.reference_power_smooth_prev_q ) ); // s_min( hDirACRend->h_output_synthesis_psd_state.reference_power_smooth_prev_q, DirAC_mem.reference_power_q ) Scale_sig32( DirAC_mem.reference_power_fx, DirAC_mem.reference_power_len, sub( s_min( hDirACRend->h_output_synthesis_psd_state.reference_power_smooth_prev_q, DirAC_mem.reference_power_q ), DirAC_mem.reference_power_q ) ); // s_min( hDirACRend->h_output_synthesis_psd_state.reference_power_smooth_prev_q, DirAC_mem.reference_power_q ) @@ -4087,6 +4865,7 @@ static void ivas_masa_ext_dirac_render_sf_fx( move16(); DirAC_mem.reference_power_smooth_q = s_min( hDirACRend->h_output_synthesis_psd_state.reference_power_smooth_prev_q, DirAC_mem.reference_power_q ); move16(); +#endif ivas_dirac_dec_output_synthesis_process_subframe_psd_ls_fx( Cldfb_RealBuffer_fx, Cldfb_ImagBuffer_fx, @@ -4095,12 +4874,51 @@ static void ivas_masa_ext_dirac_render_sf_fx( hSpatParamRendCom->subframe_nbslots[subframe_idx], diffuseness_vector_fx, reference_power_smooth_fx, +#ifdef FIX_867_CLDFB_NRG_SCALE + DirAC_mem.reference_power_smooth_q, +#else &DirAC_mem.reference_power_smooth_q, +#endif ONE_IN_Q31, 0, &q_cldfb ); hDirACRend->h_output_synthesis_psd_state.proto_power_diff_smooth_prev_q = hDirACRend->h_output_synthesis_psd_state.proto_power_diff_smooth_q; move16(); +#ifdef FIX_867_CLDFB_NRG_SCALE + hDirACRend->h_output_synthesis_psd_state.reference_power_smooth_prev_q[0] = DirAC_mem.reference_power_smooth_q[0]; + hDirACRend->h_output_synthesis_psd_state.reference_power_smooth_prev_q[1] = DirAC_mem.reference_power_smooth_q[1]; + move16(); + IF( LT_16( DirAC_mem.reference_power_q[0], DirAC_mem.reference_power_smooth_q[0] ) ) + { + FOR( i = hSpatParamRendCom->num_freq_bands; DirAC_mem.reference_power_len > i; i = add( i, hSpatParamRendCom->num_freq_bands ) ) + { + Scale_sig32( reference_power_fix + i, s_min( hSpatParamRendCom->num_freq_bands, CLDFB_NO_CHANNELS_HALF ), sub( DirAC_mem.reference_power_q[0], DirAC_mem.reference_power_smooth_q[0] ) ); // DirAC_mem.reference_power_q + } + DirAC_mem.reference_power_smooth_q[0] = DirAC_mem.reference_power_q[0]; + move16(); + } + ELSE + { + Scale_sig32( reference_power_fix, s_min( hSpatParamRendCom->num_freq_bands, CLDFB_NO_CHANNELS_HALF ), sub( DirAC_mem.reference_power_smooth_q[0], DirAC_mem.reference_power_q[0] ) ); // DirAC_mem.reference_power_smooth_q + DirAC_mem.reference_power_q[0] = DirAC_mem.reference_power_smooth_q[0]; + move16(); + } + IF( LT_16( DirAC_mem.reference_power_q[1], DirAC_mem.reference_power_smooth_q[1] ) ) + { + FOR( i = hSpatParamRendCom->num_freq_bands; DirAC_mem.reference_power_len > i; i = add( i, hSpatParamRendCom->num_freq_bands ) ) + { + Scale_sig32( reference_power_fix + CLDFB_NO_CHANNELS_HALF + i, s_min( 0, sub( hSpatParamRendCom->num_freq_bands, CLDFB_NO_CHANNELS_HALF ) ), sub( DirAC_mem.reference_power_q[1], DirAC_mem.reference_power_smooth_q[1] ) ); // DirAC_mem.reference_power_q + } + DirAC_mem.reference_power_smooth_q[1] = DirAC_mem.reference_power_q[1]; + move16(); + } + ELSE + { + Scale_sig32( reference_power_fix + CLDFB_NO_CHANNELS_HALF, s_min( 0, sub( hSpatParamRendCom->num_freq_bands, CLDFB_NO_CHANNELS_HALF ) ), sub( DirAC_mem.reference_power_smooth_q[1], DirAC_mem.reference_power_q[1] ) ); // DirAC_mem.reference_power_smooth_q + DirAC_mem.reference_power_q[1] = DirAC_mem.reference_power_smooth_q[1]; + move16(); + } +#else hDirACRend->h_output_synthesis_psd_state.reference_power_smooth_prev_q = DirAC_mem.reference_power_smooth_q; move16(); IF( LT_16( DirAC_mem.reference_power_q, DirAC_mem.reference_power_smooth_q ) ) @@ -4115,6 +4933,7 @@ static void ivas_masa_ext_dirac_render_sf_fx( DirAC_mem.reference_power_q = DirAC_mem.reference_power_smooth_q; move16(); } +#endif } /*-----------------------------------------------------------------* @@ -4189,7 +5008,11 @@ static void ivas_masa_ext_dirac_render_sf_fx( ImagBuffer_fx[i] = Cldfb_ImagBuffer_fx[idx_in][i]; // q_cldfb } Word16 out_size = imult1616( hSpatParamRendCom->num_freq_bands, hSpatParamRendCom->subframe_nbslots[subframe_idx] ); - cldfbSynthesis_ivas_fx( RealBuffer_fx, ImagBuffer_fx, &( output_f_fx[ch][index_slot * hSpatParamRendCom->num_freq_bands] ), out_size, hMasaExtRend->cldfbSynRend[idx_in] ); +#ifdef OPT_AVOID_STATE_BUF_RESCALE + cldfbSynthesis_ivas_fx( RealBuffer_fx, ImagBuffer_fx, &( output_f_fx[ch][index_slot * hSpatParamRendCom->num_freq_bands] ), out_size, 0, 0, hMasaExtRend->cldfbSynRend[idx_in] ); +#else /* OPT_AVOID_STATE_BUF_RESCALE */ + cldfbSynthesis_ivas_fx( RealBuffer_fx, ImagBuffer_fx, &( output_f_fx[ch][index_slot * hSpatParamRendCom->num_freq_bands] ), out_size, 0, hMasaExtRend->cldfbSynRend[idx_in] ); +#endif /* OPT_AVOID_STATE_BUF_RESCALE */ scale_sig32( &( output_f_fx[ch][index_slot * hSpatParamRendCom->num_freq_bands] ), out_size, sub( 11, q_out ) ); // q11 idx_in++; } diff --git a/lib_rend/ivas_efap.c b/lib_rend/ivas_efap_fx.c similarity index 99% rename from lib_rend/ivas_efap.c rename to lib_rend/ivas_efap_fx.c index 8947809d1060e192cdb297f4e5ec73dfa12ad2da..543decbddee50bf407465f629883234eb976979b 100644 --- a/lib_rend/ivas_efap.c +++ b/lib_rend/ivas_efap_fx.c @@ -35,10 +35,8 @@ #include #include #include "options.h" -#include "prot.h" #include "prot_fx.h" -#include "ivas_prot.h" -#include "ivas_prot_rend.h" +#include "ivas_prot_rend_fx.h" #include "ivas_stat_dec.h" #include "wmc_auto.h" #include "ivas_prot_fx.h" diff --git a/lib_rend/ivas_hrtf.c b/lib_rend/ivas_hrtf_fx.c similarity index 99% rename from lib_rend/ivas_hrtf.c rename to lib_rend/ivas_hrtf_fx.c index 506d76efd22eea3ddd238d28b6d715c555e72781..93f9fbd83ad15a678ebf73f29f0f0e2d4f617709 100644 --- a/lib_rend/ivas_hrtf.c +++ b/lib_rend/ivas_hrtf_fx.c @@ -32,11 +32,10 @@ #include #include "options.h" -#include "prot.h" -#include "ivas_prot_rend.h" +#include "prot_fx.h" +#include "ivas_prot_rend_fx.h" #include "ivas_error.h" #include "wmc_auto.h" -#include "ivas_prot.h" #include "ivas_prot_fx.h" /*-----------------------------------------------------------------------* diff --git a/lib_rend/ivas_masa_merge.c b/lib_rend/ivas_masa_merge_fx.c similarity index 96% rename from lib_rend/ivas_masa_merge.c rename to lib_rend/ivas_masa_merge_fx.c index e8d06d0bb9a026f0520515060c01afb177c9983e..a3a74bc7d283ed5649921d4c05d307a0c55c9a6a 100644 --- a/lib_rend/ivas_masa_merge.c +++ b/lib_rend/ivas_masa_merge_fx.c @@ -33,12 +33,10 @@ #include #include "options.h" #include "lib_rend.h" -#include "ivas_prot_rend.h" -#include "ivas_prot.h" +#include "ivas_prot_rend_fx.h" #include "ivas_cnst.h" -#include "prot.h" -#include "wmc_auto.h" #include "prot_fx.h" +#include "wmc_auto.h" #include "ivas_prot_fx.h" @@ -143,13 +141,13 @@ void copy_masa_descriptive_meta_fx( *---------------------------------------------------------------------*/ void diffuse_meta_merge_1x1_fx( - MASA_DECODER_EXT_OUT_META_HANDLE outMeta, /* o : Merged metadata output */ - MASA_DECODER_EXT_OUT_META_HANDLE inMeta, /* i : Input metadata 1 */ - Word32 inEne_fx[MAX_PARAM_SPATIAL_SUBFRAMES][MASA_FREQUENCY_BANDS], /* i : TF-energy of input 1 */ - Word16 *inEne_e, /* i : TF-energy of input 1 Exponent */ - MASA_DECODER_EXT_OUT_META_HANDLE inMetaISM, /* i : Input metadata 2 */ - Word32 inEneISM_fx[MAX_PARAM_SPATIAL_SUBFRAMES][MASA_FREQUENCY_BANDS], /* i : TF-energy of input 2 */ - Word16 *inEneISM_e /* i : TF-energy of input 2 Exponent */ + MASA_DECODER_EXT_OUT_META_HANDLE outMeta, /* o : Merged metadata output */ + MASA_DECODER_EXT_OUT_META_HANDLE inMeta, /* i : Input metadata 1 */ + Word32 inEne_fx[MAX_PARAM_SPATIAL_SUBFRAMES][MASA_FREQUENCY_BANDS], /* i/o: TF-energy of input 1. energy after merge */ + Word16 *inEne_e, /* i : TF-energy of input 1 Exponent */ + MASA_DECODER_EXT_OUT_META_HANDLE inMetaISM, /* i : Input metadata 2 */ + Word32 inEneISM_fx[MAX_PARAM_SPATIAL_SUBFRAMES][MASA_FREQUENCY_BANDS], /* i : TF-energy of input 2 */ + Word16 *inEneISM_e /* i : TF-energy of input 2 Exponent */ ) { Word8 sf, band; @@ -441,7 +439,7 @@ void ivas_prerend_merge_masa_metadata_fx( Word16 *inEne1_e, /* i/o: TF-energy of input 1 Exponent */ MASA_DECODER_EXT_OUT_META_HANDLE inMeta2, /* i : Input metadata 2 */ IVAS_REND_AudioConfigType inType2, /* i : Type of input 2 */ - Word32 inEne2_fx[MAX_PARAM_SPATIAL_SUBFRAMES][MASA_FREQUENCY_BANDS], /* i : TF-energy of input 2 */ + Word32 inEne2_fx[MAX_PARAM_SPATIAL_SUBFRAMES][MASA_FREQUENCY_BANDS], /* i : TF-energy of input 2. may be altered */ Word16 *inEne2_e /* i : TF-energy of input 2 Exponent */ ) { @@ -455,7 +453,16 @@ void ivas_prerend_merge_masa_metadata_fx( IF( EQ_32( inType1, IVAS_REND_AUDIO_CONFIG_TYPE_OBJECT_BASED ) && NE_32( inType2, IVAS_REND_AUDIO_CONFIG_TYPE_OBJECT_BASED ) && ( inMeta1->descriptiveMeta.numberOfDirections == 0u && inMeta2->descriptiveMeta.numberOfDirections == 0u ) ) { /* meta_1 is ISM and both are 1dir */ - diffuse_meta_merge_1x1_fx( outMeta, inMeta2, inEne2_fx, inEne2_e, inMeta1, inEne1_fx, inEne1_e ); + Word8 sf; + + diffuse_meta_merge_1x1_fx( outMeta, inMeta2, inEne2_fx, inEne2_e, inMeta1, inEne1_fx, inEne1_e ); /* post-merge energy is now in inEne2 and needs to be copied to inEne1 */ + + FOR( sf = 0; sf < MAX_PARAM_SPATIAL_SUBFRAMES; sf++ ) + { + Copy32( inEne2_fx[sf], inEne1_fx[sf], MASA_FREQUENCY_BANDS ); + } + *inEne1_e = *inEne2_e; + move16(); } ELSE IF( EQ_32( inType2, IVAS_REND_AUDIO_CONFIG_TYPE_OBJECT_BASED ) && NE_32( inType1, IVAS_REND_AUDIO_CONFIG_TYPE_OBJECT_BASED ) && ( inMeta1->descriptiveMeta.numberOfDirections == 0u && inMeta2->descriptiveMeta.numberOfDirections == 0u ) ) { @@ -501,7 +508,7 @@ ivas_error masaPrerendOpen_fx( move16(); FOR( i = 0; i < hMasaPrerend->num_Cldfb_instances; i++ ) { - IF( ( error = openCldfb_ivas_fx( &( hMasaPrerend->cldfbAnaEnc[i] ), CLDFB_ANALYSIS, input_Fs, CLDFB_PROTOTYPE_5_00MS ) ) != IVAS_ERR_OK ) + IF( ( error = openCldfb_ivas_fx( &( hMasaPrerend->cldfbAnaEnc[i] ), CLDFB_ANALYSIS, input_Fs, CLDFB_PROTOTYPE_5_00MS, DEC ) ) != IVAS_ERR_OK ) { return error; } diff --git a/lib_rend/ivas_mcmasa_ana.c b/lib_rend/ivas_mcmasa_ana_fx.c similarity index 99% rename from lib_rend/ivas_mcmasa_ana.c rename to lib_rend/ivas_mcmasa_ana_fx.c index 0b0c8ffeb30dece7148110fadd90f12d380fbcda..cfdd431167d350a0d184b6b098b8122fa4836a23 100644 --- a/lib_rend/ivas_mcmasa_ana.c +++ b/lib_rend/ivas_mcmasa_ana_fx.c @@ -35,14 +35,12 @@ #include #include "ivas_cnst.h" #include "options.h" -#include "ivas_prot_rend.h" -#include "ivas_prot.h" -#include "prot.h" +#include "ivas_prot_rend_fx.h" +#include "prot_fx.h" #include "ivas_stat_rend.h" #include "ivas_rom_com.h" #include "wmc_auto.h" #include "ivas_prot_fx.h" -#include "prot_fx.h" #include "ivas_rom_com_fx.h" /*------------------------------------------------------------------------- @@ -226,7 +224,7 @@ ivas_error ivas_mcmasa_ana_open( move16(); FOR( i = 0; i < hMcMasa->num_Cldfb_instances; i++ ) { - IF( NE_32( ( error = openCldfb_ivas_fx( &( hMcMasa->cldfbAnaEnc[i] ), CLDFB_ANALYSIS, input_Fs, CLDFB_PROTOTYPE_5_00MS ) ), IVAS_ERR_OK ) ) + IF( NE_32( ( error = openCldfb_ivas_fx( &( hMcMasa->cldfbAnaEnc[i] ), CLDFB_ANALYSIS, input_Fs, CLDFB_PROTOTYPE_5_00MS, DEC ) ), IVAS_ERR_OK ) ) { return error; } @@ -755,12 +753,8 @@ void ivas_mcmasa_param_est_ana_fx( /* Direction estimation */ computeIntensityVector_ana_fx( hMcMasa->band_grouping, Foa_RealBuffer_fx, Foa_ImagBuffer_fx, num_freq_bands, intensity_real_fx ); /* Q intensity_real_fx = 2*inp_q-31, e = 31 - 2*inp_q + 31 = 62 - 2*inp_q = 2*(31-inp_q)=2*c_e */ - computeDirectionVectors_fixed( intensity_real_fx[0], intensity_real_fx[1], intensity_real_fx[2], 0, num_freq_bands, direction_vector_fx[0], direction_vector_fx[1], direction_vector_fx[2], shl( c_e, 1 ) -#ifdef NONBE_IMPROVE_DIRAC_INTENSITY_PREC - , - NULL -#endif - ); /* Q direction_vector_fx = Q30*/ + computeDirectionVectors_fixed( intensity_real_fx[0], intensity_real_fx[1], intensity_real_fx[2], 0, num_freq_bands, direction_vector_fx[0], direction_vector_fx[1], direction_vector_fx[2], shl( c_e, 1 ), + NULL ); /* Q direction_vector_fx = Q30*/ /* Power and intensity estimation for diffuseness */ computeIntensityVector_ana_fx( hMcMasa->band_grouping, FoaEven_RealBuffer_fx, FoaEven_ImagBuffer_fx, num_freq_bands, intensity_even_real_fx ); /*2*inp_q-31*/ diff --git a/lib_rend/ivas_objectRenderer.c b/lib_rend/ivas_objectRenderer_fx.c similarity index 99% rename from lib_rend/ivas_objectRenderer.c rename to lib_rend/ivas_objectRenderer_fx.c index 8b689b94ba75628b657ebd1c0c3d2071d505e0dd..1b5bc0d1b5e5644d47cd293d00556fb30dbe3cc0 100644 --- a/lib_rend/ivas_objectRenderer.c +++ b/lib_rend/ivas_objectRenderer_fx.c @@ -33,14 +33,12 @@ #include "ivas_stat_rend.h" #include #include "options.h" -#include "prot.h" -#include "ivas_prot.h" -#include "ivas_prot_rend.h" +#include "prot_fx.h" +#include "ivas_prot_rend_fx.h" #include #include "ivas_rom_com.h" #include "wmc_auto.h" #include "ivas_prot_fx.h" -#include "prot_fx.h" #include "debug.h" #include "ivas_rom_com_fx.h" #define float_to_fixed( n, factor ) ( round( n * ( 1 << factor ) ) ) diff --git a/lib_rend/ivas_objectRenderer_hrFilt.c b/lib_rend/ivas_objectRenderer_hrFilt_fx.c similarity index 99% rename from lib_rend/ivas_objectRenderer_hrFilt.c rename to lib_rend/ivas_objectRenderer_hrFilt_fx.c index ab09a82b5bc8f73be12e18e87268a9b93fccbf83..30bf8f00aaac87f2bbee5753662ab91eea5e3ad1 100644 --- a/lib_rend/ivas_objectRenderer_hrFilt.c +++ b/lib_rend/ivas_objectRenderer_hrFilt_fx.c @@ -33,13 +33,12 @@ #include #include #include "options.h" -#include "prot.h" +#include "prot_fx.h" #include -#include "ivas_prot_rend.h" +#include "ivas_prot_rend_fx.h" #include "ivas_rom_rend.h" #include "ivas_cnst.h" #include "wmc_auto.h" -#include "prot_fx.h" /*---------------------------------------------------------------------* * Local function prototypes @@ -394,9 +393,7 @@ static void GenerateITD_fx( Word16 num_az_idx, num_ev_idx; Word16 BM_idx[HRTF_MODEL_BSPLINE_NUM_COEFFS_SQ]; Word16 itdMod_e; -#ifdef MSAN_FIX set16_fx( AzIdx, 0, HRTF_MODEL_BSPLINE_NUM_COEFFS ); -#endif // MSAN_FIX /* Wrap the requested azimuth to the range of the BSplines */ azim_fx = L_add( azim_fx, model->azimKSeq_fx[0] ); diff --git a/lib_rend/ivas_objectRenderer_mix.c b/lib_rend/ivas_objectRenderer_mix_fx.c similarity index 99% rename from lib_rend/ivas_objectRenderer_mix.c rename to lib_rend/ivas_objectRenderer_mix_fx.c index a328a51bf3b178d24cd329dfcbe4504884db28c0..0e61282d474afcbfe1fafe00f76aced101e92bb7 100644 --- a/lib_rend/ivas_objectRenderer_mix.c +++ b/lib_rend/ivas_objectRenderer_mix_fx.c @@ -32,14 +32,13 @@ #include #include "options.h" -#include "prot.h" -#include "ivas_prot_rend.h" +#include "prot_fx.h" +#include "ivas_prot_rend_fx.h" #include "ivas_rom_TdBinauralRenderer.h" #include "ivas_error.h" #include "wmc_auto.h" #include "ivas_rom_rend.h" #include "ivas_prot_fx.h" -#include "prot_fx.h" /*-------------------------------------------------------------------* * Local constants diff --git a/lib_rend/ivas_objectRenderer_sfx.c b/lib_rend/ivas_objectRenderer_sfx_fx.c similarity index 99% rename from lib_rend/ivas_objectRenderer_sfx.c rename to lib_rend/ivas_objectRenderer_sfx_fx.c index caa393355195c768bbfd5a7603c05961148f27e8..210706d5be5ff42adb52c59029465e96f58dfdcf 100644 --- a/lib_rend/ivas_objectRenderer_sfx.c +++ b/lib_rend/ivas_objectRenderer_sfx_fx.c @@ -33,11 +33,10 @@ #include #include "options.h" #include -#include "ivas_prot_rend.h" +#include "ivas_prot_rend_fx.h" #include "ivas_rom_rend.h" -#include "prot.h" -#include "wmc_auto.h" #include "prot_fx.h" +#include "wmc_auto.h" /*---------------------------------------------------------------------* diff --git a/lib_rend/ivas_objectRenderer_sources.c b/lib_rend/ivas_objectRenderer_sources_fx.c similarity index 99% rename from lib_rend/ivas_objectRenderer_sources.c rename to lib_rend/ivas_objectRenderer_sources_fx.c index af60f774688537d42fcfdc0698d7b36e5056206d..7e35b80b2c0c2eefa628c9266a19555fd25ca8cc 100644 --- a/lib_rend/ivas_objectRenderer_sources.c +++ b/lib_rend/ivas_objectRenderer_sources_fx.c @@ -33,11 +33,10 @@ #include #include "options.h" #include -#include "prot.h" -#include "ivas_prot_rend.h" +#include "prot_fx.h" +#include "ivas_prot_rend_fx.h" #include "wmc_auto.h" #include "ivas_prot_fx.h" -#include "prot_fx.h" /*---------------------------------------------------------------------* @@ -574,10 +573,8 @@ static void TDREND_SRC_SPATIAL_Init_fx( TDREND_SPATIAL_VecInit_fx( SrcSpatial_p->Front_p_fx + nC * 3, 0, 0, ONE_IN_Q30 ); /*Assuming Q30*/ } -#ifdef MSAN_FIX SrcSpatial_p->q_Pos_p = Q31; move16(); -#endif /* Source directional attenuation */ SrcSpatial_p->DirAttenEnabled = FALSE; // Q0 diff --git a/lib_rend/ivas_objectRenderer_vec.c b/lib_rend/ivas_objectRenderer_vec_fx.c similarity index 86% rename from lib_rend/ivas_objectRenderer_vec.c rename to lib_rend/ivas_objectRenderer_vec_fx.c index c8efd80adea9bf2bc34262b269ad7af16d8e97ec..0d8c11aabc2d1f7bbbca125f01563c194a940636 100644 --- a/lib_rend/ivas_objectRenderer_vec.c +++ b/lib_rend/ivas_objectRenderer_vec_fx.c @@ -33,10 +33,9 @@ #include #include "options.h" #include -#include "prot.h" -#include "ivas_prot_rend.h" -#include "wmc_auto.h" #include "prot_fx.h" +#include "ivas_prot_rend_fx.h" +#include "wmc_auto.h" #include "ivas_prot_fx.h" @@ -88,28 +87,6 @@ Word32 TDREND_SPATIAL_VecNorm_fx( return tmp; } - -/*-------------------------------------------------------------------* - * TDREND_SPATIAL_VecNormalize() - * - * Normalize vector to unit norm - *-------------------------------------------------------------------*/ - -void TDREND_SPATIAL_VecNormalize( - const float *Vec_p, /* i : Input vector */ - float *VecNorm_p /* o : Output vector */ -) -{ - float scaler; - - scaler = inv_sqrt( Vec_p[0] * Vec_p[0] + Vec_p[1] * Vec_p[1] + Vec_p[2] * Vec_p[2] ); - VecNorm_p[0] = scaler * Vec_p[0]; - VecNorm_p[1] = scaler * Vec_p[1]; - VecNorm_p[2] = scaler * Vec_p[2]; - - return; -} - void TDREND_SPATIAL_VecNormalize_fx( const Word32 *Vec_p_fx, /* i : Input vector q */ Word16 q, /* i : Input vector Q-factor */ @@ -173,25 +150,6 @@ void TDREND_SPATIAL_VecMapToNewCoordSystem_fx( return; } -void TDREND_SPATIAL_VecMapToNewCoordSystem( - const float *Vec_p, /* i : Input vector */ - const float *TranslVec_p, /* i : Translation vector */ - const float *DirVec_p, /* i : Direction vector */ - const float *UpVec_p, /* i : Up vector */ - const float *RightVec_p, /* i : Right vector */ - float *MappedVec_p, /* o : Transformed vector */ - float *LisRelPosAbs /* o : Transformed vector ignoring orientation */ -) -{ - v_sub( Vec_p, TranslVec_p, LisRelPosAbs, 3 ); - /* Evalute the relative Vec in the coordinates of the Orientation vectors, */ - /* which form an orthonormal basis */ - MappedVec_p[0] = dotp( LisRelPosAbs, DirVec_p, 3 ); - MappedVec_p[1] = dotp( LisRelPosAbs, RightVec_p, 3 ); - MappedVec_p[2] = dotp( LisRelPosAbs, UpVec_p, 3 ); - return; -} - /*-------------------------------------------------------------------* * TDREND_SPATIAL_EvalOrthonormOrient() * diff --git a/lib_rend/ivas_omasa_ana.c b/lib_rend/ivas_omasa_ana_fx.c similarity index 99% rename from lib_rend/ivas_omasa_ana.c rename to lib_rend/ivas_omasa_ana_fx.c index 7d6129d20cb754ed276712b75e0ab409c82d25fe..ba632c6ba13d6c9cb6cfda1d137ad77445dcd078 100644 --- a/lib_rend/ivas_omasa_ana.c +++ b/lib_rend/ivas_omasa_ana_fx.c @@ -34,14 +34,12 @@ #include #include #include "ivas_cnst.h" -#include "ivas_prot_rend.h" -#include "ivas_prot.h" +#include "ivas_prot_rend_fx.h" #include "ivas_prot_fx.h" -#include "prot.h" +#include "prot_fx.h" #include "ivas_stat_rend.h" #include "ivas_rom_com.h" #include "wmc_auto.h" -#include "prot_fx.h" /*------------------------------------------------------------------------- @@ -135,7 +133,7 @@ ivas_error ivas_omasa_ana_open( hOMasa->num_Cldfb_instances = numAnalysisChannels; FOR( i = 0; i < hOMasa->num_Cldfb_instances; i++ ) { - IF( NE_32( ( error = openCldfb_ivas_fx( &( hOMasa->cldfbAnaEnc[i] ), CLDFB_ANALYSIS, input_Fs, CLDFB_PROTOTYPE_5_00MS ) ), IVAS_ERR_OK ) ) + IF( NE_32( ( error = openCldfb_ivas_fx( &( hOMasa->cldfbAnaEnc[i] ), CLDFB_ANALYSIS, input_Fs, CLDFB_PROTOTYPE_5_00MS, DEC ) ), IVAS_ERR_OK ) ) { return error; } diff --git a/lib_rend/ivas_orient_trk.c b/lib_rend/ivas_orient_trk_fx.c similarity index 99% rename from lib_rend/ivas_orient_trk.c rename to lib_rend/ivas_orient_trk_fx.c index 897edbe960f49bb7e989a95c2aa34224a024ea2b..16d2fcc73e18b18f402269116f276e184e1af7d2 100644 --- a/lib_rend/ivas_orient_trk.c +++ b/lib_rend/ivas_orient_trk_fx.c @@ -33,9 +33,8 @@ #include "common_api_types.h" #include #include "options.h" -#include "ivas_prot.h" #include "ivas_prot_fx.h" -#include "ivas_prot_rend.h" +#include "ivas_prot_rend_fx.h" #include "ivas_cnst.h" #include #include @@ -800,7 +799,7 @@ ivas_error ivas_orient_trk_SetReferenceVector_fx( case IVAS_HEAD_ORIENT_TRK_REF: case IVAS_HEAD_ORIENT_TRK_AVG: case IVAS_HEAD_ORIENT_TRK_REF_VEC: - acousticFrontVector = VectorSubtract_fx( listenerPos, refPos ); + acousticFrontVector = VectorSubtract_fx( refPos, listenerPos ); BREAK; case IVAS_HEAD_ORIENT_TRK_REF_VEC_LEV: /* ignore the height difference between listener position and reference position */ @@ -827,7 +826,7 @@ ivas_error ivas_orient_trk_SetReferenceVector_fx( refPosLevel.q_fact = q_min; move16(); - acousticFrontVector = VectorSubtract_fx( listenerPosLevel, refPosLevel ); + acousticFrontVector = VectorSubtract_fx( refPosLevel, listenerPosLevel ); BREAK; default: return IVAS_ERR_WRONG_PARAMS; @@ -844,7 +843,7 @@ ivas_error ivas_orient_trk_SetReferenceVector_fx( return IVAS_ERR_WRONG_PARAMS; } - ivasForwardVector.x_fx = L_negate( ONE_IN_Q31 ); + ivasForwardVector.x_fx = ONE_IN_Q31; move32(); ivasForwardVector.y_fx = 0; move32(); diff --git a/lib_rend/ivas_output_init.c b/lib_rend/ivas_output_init.c index cf675b7d8fb29f0f6909b7a46c6ffff115905f5a..c5271d06564129ee4b24bdeaa8d933ebb7d65729 100644 --- a/lib_rend/ivas_output_init.c +++ b/lib_rend/ivas_output_init.c @@ -33,11 +33,10 @@ #include #include "options.h" #include "ivas_cnst.h" -#include "prot.h" -#include "ivas_prot_rend.h" +#include "prot_fx.h" +#include "ivas_prot_rend_fx.h" #include "ivas_rom_com.h" #include "ivas_rom_com_fx.h" -#include "ivas_prot.h" #include "wmc_auto.h" #include "ivas_prot_fx.h" /*-------------------------------------------------------------------------* diff --git a/lib_rend/ivas_output_init_fx.c b/lib_rend/ivas_output_init_fx.c index bbe6ae4b594080faa9e97bc52ca25475134beb26..3b01f62ca0af91b601d6b42e79f8426dfdd906c1 100644 --- a/lib_rend/ivas_output_init_fx.c +++ b/lib_rend/ivas_output_init_fx.c @@ -1,10 +1,7 @@ #include "ivas_prot_fx.h" -#include "ivas_prot.h" -#include "ivas_prot_rend.h" -#ifdef FIX_DISCLAIMER +#include "ivas_prot_rend_fx.h" #include -#endif Word16 ivas_get_nchan_buffers_dec_ivas_fx( Decoder_Struct *st_ivas, /* i/o: IVAS decoder structure */ @@ -162,7 +159,6 @@ Word16 ivas_get_nchan_buffers_dec_ivas_fx( return nchan_out_buff; } -#ifdef FIX_DISCLAIMER /*---------------------------------------------------------------------* * get_channel_config() * @@ -273,4 +269,3 @@ ivas_error get_channel_config( return IVAS_ERR_OK; } -#endif diff --git a/lib_rend/ivas_prot_rend.h b/lib_rend/ivas_prot_rend_fx.h similarity index 71% rename from lib_rend/ivas_prot_rend.h rename to lib_rend/ivas_prot_rend_fx.h index 1e8f7030ac08b6b64dadf1b2d6a5b6947740d0aa..4e23011b47814863f848ef9019b4b447c455a005 100644 --- a/lib_rend/ivas_prot_rend.h +++ b/lib_rend/ivas_prot_rend_fx.h @@ -81,22 +81,41 @@ Word16 ivas_get_nchan_buffers_dec_ivas_fx( const Word32 ivas_total_brate /* i : total IVAS bitrate */ ); -#ifdef FIX_DISCLAIMER ivas_error get_channel_config( const AUDIO_CONFIG config, /* i : audio configuration */ Word8 *str /* o : string with the configuration name */ ); -#endif +/*----------------------------------------------------------------------------------* + * Limiter prototypes + *----------------------------------------------------------------------------------*/ + +void ivas_limiter_dec_fx( + IVAS_LIMITER_HANDLE hLimiter, /* i/o: limiter struct handle */ + Word32 *output[MAX_OUTPUT_CHANNELS], /* i/o: input/output buffer */ + const Word16 num_channels, /* i : number of channels to be processed */ + const Word16 output_frame, /* i : number of samples per channel in the buffer */ + const Word16 BER_detect, /* i : BER detect flag */ + Word16 q_factor /* i : Q factor of the output samples */ +); + +void limiter_process_fx( + IVAS_LIMITER_HANDLE hLimiter, /* i/o: limiter struct handle */ + const Word16 output_frame, /* i : number of samples to be processed per channel in the I/O buffer */ + const Word32 threshold, /* i : signal amplitude above which limiting starts to be applied */ + const Word16 BER_detect, /* i : BER detect flag */ + Word16 *strong_saturation_cnt, /* i/o: counter of strong saturations (can be NULL) */ + Word16 q_factor /* i : Q factor of output samples */ +); /*----------------------------------------------------------------------------------* * TD decorr. function prototypes *----------------------------------------------------------------------------------*/ ivas_error ivas_td_decorr_dec_open_fx( ivas_td_decorr_state_t **hTdDecorr, /* i/o: TD decorrelator handle */ - const int32_t output_Fs, /* i : output sampling rate */ - const int16_t nchan_internal, /* i : number of internal channels */ - const int16_t ducking_flag /* i : ducking flag */ + const Word32 output_Fs, /* i : output sampling rate */ + const Word16 nchan_internal, /* i : number of internal channels */ + const Word16 ducking_flag /* i : ducking flag */ ); void ivas_td_decorr_dec_close( ivas_td_decorr_state_t **hTdDecorr /* i/o: TD decorrelator handle */ @@ -133,9 +152,6 @@ ivas_error efap_init_data_fx( const Word16 num_speaker_nodes, /* i : number of speaker nodes in the set */ const Word16 efap_mode /* i : indicates whether EFAP or EFIP is used */ ); -void efap_free_data( - EFAP_HANDLE *hEFAPdata /* i/o: EFAP handle to be freed */ -); void efap_determine_gains_fx( EFAP_HANDLE hEFAPdata, /* i : EFAP structure */ @@ -178,14 +194,7 @@ void ivas_sba_prototype_renderer_fx( Word32 inRe_fx[][CLDFB_SLOTS_PER_SUBFRAME][CLDFB_NO_CHANNELS_MAX], /* i : Input audio in CLDFB domain, real */ Word32 inIm_fx[][CLDFB_SLOTS_PER_SUBFRAME][CLDFB_NO_CHANNELS_MAX], /* i : Input audio in CLDFB domain, imag */ Word16 q_cldfb[6][CLDFB_SLOTS_PER_SUBFRAME], - const int16_t subframe /* i : Subframe to render */ -); - -void ivas_sba_prototype_renderer( - Decoder_Struct *st_ivas, /* i/o: IVAS decoder struct */ - float inRe[][CLDFB_SLOTS_PER_SUBFRAME][CLDFB_NO_CHANNELS_MAX], /* i : Input audio in CLDFB domain, real */ - float inIm[][CLDFB_SLOTS_PER_SUBFRAME][CLDFB_NO_CHANNELS_MAX], /* i : Input audio in CLDFB domain, imag */ - const int16_t subframe /* i : Subframe to render */ + const Word16 subframe /* i : Subframe to render */ ); ivas_error ivas_sba_get_hoa_dec_matrix_fx( @@ -198,11 +207,7 @@ void ivas_dirac_dec_binaural_sba_gain_fx( const Word16 nchan_remapped, /* i : num channels after remapping of TCs */ const Word16 output_frame /* i : output frame length */ ); -void ivas_dirac_dec_binaural_sba_gain( - float *output[], /* i/o: synthesized core-coder transport channels/DirAC output */ - const int16_t nchan_remapped, /* i : num channels after remapping of TCs */ - const int16_t output_frame /* i : output frame length */ -); + void ivas_dirac_dec_binaural_render_fx( Decoder_Struct *st_ivas, /* i/o: IVAS decoder handle */ const UWord16 nSamplesAsked, /* i : number of CLDFB slots requested */ @@ -236,11 +241,6 @@ ivas_error ivas_dirac_dec_binaural_copy_hrtfs_fx( HRTFS_PARAMBIN_HANDLE *hHrtfParambin /* i/o: HRTF structure for rendering */ ); -ivas_error ivas_dirac_dec_binaural_copy_hrtfs( - HRTFS_PARAMBIN_HANDLE *hHrtfParambin /* i/o: HRTF structure for rendering */ -); - - ivas_error ivas_dirac_alloc_mem_fx( DIRAC_REND_HANDLE hDirACRend, const RENDERER_TYPE renderer_type, @@ -248,20 +248,6 @@ ivas_error ivas_dirac_alloc_mem_fx( DIRAC_DEC_STACK_MEM_HANDLE hDirAC_mem, const Word16 hodirac_flag); -void ivas_dirac_free_mem( - DIRAC_DEC_STACK_MEM_HANDLE hDirAC_mem -); - -void initDiffuseResponses( - float *diffuse_response_function, - const int16_t num_channels, - const AUDIO_CONFIG output_config, - const IVAS_OUTPUT_SETUP hOutSetup, - const int16_t ambisonics_order, - const IVAS_FORMAT ivas_format, - int16_t *num_ele_spk_no_diffuse_rendering, - const AUDIO_CONFIG transport_config -); void ivas_dirac_free_mem_fx( DIRAC_DEC_STACK_MEM_HANDLE hDirAC_mem ); @@ -303,18 +289,6 @@ void protoSignalComputation_shd_fx( Word32 *p_Rmat_fx, /* Q30 */ Word16 q_cldfb ); -void protoSignalComputation_shd( - float RealBuffer[][MAX_PARAM_SPATIAL_SUBFRAMES][CLDFB_NO_CHANNELS_MAX], - float ImagBuffer[][MAX_PARAM_SPATIAL_SUBFRAMES][CLDFB_NO_CHANNELS_MAX], - float *proto_direct_buffer_f, - float *proto_diffuse_buffer_f, - float *reference_power, - const int16_t slot_index, - const int16_t num_inputs, - const int16_t num_outputs_diff, - const int16_t num_freq_bands, - float *p_Rmat -); void protoSignalComputation1_fx( Word32 RealBuffer_fx[][MAX_PARAM_SPATIAL_SUBFRAMES][CLDFB_NO_CHANNELS_MAX], /*q_cldfb*/ @@ -332,17 +306,6 @@ void protoSignalComputation1_fx( const Word16 num_freq_bands, Word16 q_cldfb ); -void protoSignalComputation1( - float RealBuffer[][MAX_PARAM_SPATIAL_SUBFRAMES][CLDFB_NO_CHANNELS_MAX], - float ImagBuffer[][MAX_PARAM_SPATIAL_SUBFRAMES][CLDFB_NO_CHANNELS_MAX], - float *proto_frame_f, - float *proto_direct_buffer_f, - float *reference_power, - float *proto_power_smooth, - const int16_t slot_index, - const int16_t num_outputs_diff, - const int16_t num_freq_bands -); void protoSignalComputation2_fx( Word32 RealBuffer_fx[][MAX_PARAM_SPATIAL_SUBFRAMES][CLDFB_NO_CHANNELS_MAX], /*q_cldfb*/ @@ -361,18 +324,6 @@ void protoSignalComputation2_fx( MASA_STEREO_TYPE_DETECT *stereo_type_detect, Word16 q_cldfb ); -void protoSignalComputation2( - float RealBuffer[][MAX_PARAM_SPATIAL_SUBFRAMES][CLDFB_NO_CHANNELS_MAX], - float ImagBuffer[][MAX_PARAM_SPATIAL_SUBFRAMES][CLDFB_NO_CHANNELS_MAX], - float *proto_frame_f, - float *proto_direct_buffer_f, - float *reference_power, - float *proto_power_smooth, - const int16_t isloudspeaker, - const int16_t slot_index, - const int16_t num_freq_bands, - MASA_STEREO_TYPE_DETECT *stereo_type_detect -); void protoSignalComputation4_fx( Word32 RealBuffer_fx[][MAX_PARAM_SPATIAL_SUBFRAMES][CLDFB_NO_CHANNELS_MAX], /*q_cldfb*/ @@ -394,11 +345,6 @@ void protoSignalComputation4_fx( Word16 q_cldfb ); -void ivas_dirac_dec_compute_diffuse_proto( - DIRAC_REND_HANDLE hDirACRend, - const int16_t num_freq_bands, - const int16_t slot_idx -); void ivas_dirac_dec_compute_diffuse_proto_fx( DIRAC_REND_HANDLE hDirACRend, const Word16 num_freq_bands, @@ -415,10 +361,6 @@ void computeDirectionAngles_fx( Word16 *elevation ); -void ivas_masa_init_stereotype_detection( - MASA_STEREO_TYPE_DETECT *stereo_type_detect -); - void ivas_masa_init_stereotype_detection_fx( MASA_STEREO_TYPE_DETECT *stereo_type_detect ); @@ -426,9 +368,6 @@ void ivas_masa_init_stereotype_detection_fx( void ivas_masa_stereotype_detection_fx( MASA_STEREO_TYPE_DETECT *stereo_type_detect ); -void ivas_masa_stereotype_detection( - MASA_STEREO_TYPE_DETECT *stereo_type_detect -); void ivas_lfe_synth_with_cldfb_fx( MCMASA_LFE_SYNTH_DATA_HANDLE hMasaLfeSynth, @@ -449,21 +388,6 @@ void rotateAziEle_DirAC_fx( const Word16 band2, /* i : bands to work on (upper bound) */ const Word32 *p_Rmat_fx /* i : pointer to real-space rotation matrix q30*/ ); -void rotateAziEle_DirAC( - int16_t *azi, - int16_t *ele, - const int16_t band1, - const int16_t band2, - const float *p_Rmat -); - -ivas_error ivas_dirac_dec_onset_detection_open( - const int16_t num_channels, - const int16_t num_freq_bands, - const int16_t max_band_decorr, - DIRAC_ONSET_DETECTION_PARAMS *ph_dirac_onset_detection_params, - DIRAC_ONSET_DETECTION_STATE *ph_dirac_onset_detection_state -); ivas_error ivas_dirac_dec_onset_detection_open_fx( const Word16 num_protos_diff, //Q0 @@ -484,14 +408,6 @@ ivas_error ivas_dirac_dec_decorr_open_fx( const Word32 output_Fs /* i : output sampling rate */ ); -void ivas_dirac_dec_onset_detection_process( - const float *input_power_f, - float *onset_filter, - const int16_t num_protos_diff, - DIRAC_ONSET_DETECTION_PARAMS h_dirac_onset_detection_params, - DIRAC_ONSET_DETECTION_STATE h_dirac_onset_detection_state -); - void ivas_dirac_dec_onset_detection_process_fx( const Word32 *input_power_f, /* Q(0) */ Word32 *onset_filter, /* Q(0) */ @@ -500,33 +416,6 @@ void ivas_dirac_dec_onset_detection_process_fx( DIRAC_ONSET_DETECTION_STATE h_dirac_onset_detection_state ); -ivas_error ivas_dirac_dec_decorr_open( - DIRAC_DECORR_PARAMS **ph_freq_domain_decorr_ap_params, - DIRAC_DECORR_STATE **ph_freq_domain_decorr_ap_state, - const int16_t num_freq_bands, - int16_t num_outputs_diff, - const int16_t num_protos_diff, - const DIRAC_SYNTHESIS_CONFIG synthesisConf, - float *frequency_axis, - const int16_t nchan_transport, /* i : number of transport channels */ - const int32_t output_Fs /* i : output sampling rate */ -); - -void ivas_dirac_dec_decorr_process( - const int16_t num_freq_bands, - int16_t num_channels, - const int16_t num_protos_diff, - const DIRAC_SYNTHESIS_CONFIG synthesisConf, - const int16_t nchan_transport, /* i : number of transport channels */ - const float *input_frame_f, - const int16_t num_protos_dir, - const int16_t *proto_index_dir, - float *frame_dec_f, - float *onset_filter, - HANDLE_DIRAC_DECORR_PARAMS h_freq_domain_decorr_ap_params, - HANDLE_DIRAC_DECORR_STATE h_freq_domain_decorr_ap_state -); - void ivas_dirac_dec_decorr_process_fx( const Word16 num_freq_bands, Word16 num_channels, @@ -544,32 +433,11 @@ void ivas_dirac_dec_decorr_process_fx( HANDLE_DIRAC_DECORR_STATE h_freq_domain_decorr_ap_state ); -void ivas_dirac_dec_decorr_close( - HANDLE_DIRAC_DECORR_PARAMS *ph_dirac_decorr_params, - HANDLE_DIRAC_DECORR_STATE *ph_dirac_decorr_state -); void ivas_dirac_dec_decorr_close_fx( HANDLE_DIRAC_DECORR_PARAMS *ph_dirac_decorr_params, HANDLE_DIRAC_DECORR_STATE *ph_dirac_decorr_state ); - -ivas_error ivas_dirac_dec_output_synthesis_open( - SPAT_PARAM_REND_COMMON_DATA_HANDLE hSpatParamRendCom, /* i/o: common spatial renderer data handle */ - DIRAC_REND_HANDLE hDirACRend, /* i/o: DirAC renderer handle */ - const RENDERER_TYPE renderer_type, /* i : renderer type */ - const int16_t nchan_transport, /* i : number of transport channels */ - const int32_t output_Fs, /* i : output sampling rate */ - const int16_t hodirac_flag /* i : flag to indicate HO-DirAC mode */ -); - -void ivas_dirac_dec_output_synthesis_init( - SPAT_PARAM_REND_COMMON_DATA_HANDLE hSpatParamRendCom, /* i/o: common spatial renderer data handle */ - DIRAC_REND_HANDLE hDirACRend, /* i/o: DirAC renderer handle */ - const int16_t nchan_out_woLFE, /* i : number of output audio channels without LFE */ - const int16_t hodirac_flag /* i : flag to indicate HO-DirAC mode */ -); - ivas_error ivas_dirac_dec_output_synthesis_open_fx( SPAT_PARAM_REND_COMMON_DATA_HANDLE hSpatParamRendCom, /* i/o: common spatial renderer data handle */ DIRAC_REND_HANDLE hDirACRend, /* i/o: DirAC renderer handle */ @@ -589,12 +457,14 @@ void ivas_dirac_dec_output_synthesis_init_fx( void ivas_dirac_dec_output_synthesis_close_fx( DIRAC_REND_HANDLE hDirACRend /* i/o: DirAC handle */ ); -void ivas_dirac_dec_output_synthesis_close( - DIRAC_REND_HANDLE hDirACRend /* i/o: DirAC handle */ -); + void ivas_dirac_dec_output_synthesis_process_slot_fx( const Word32 *reference_power, /* i : Estimated power */ +#ifdef FIX_867_CLDFB_NRG_SCALE + const Word16 *q_reference_power, /* i : Estimated power */ +#else const Word16 q_reference_power, /* i : Estimated power */ +#endif const Word32 *onset, /* i : onset filter */ const Word16 *azimuth, const Word16 *elevation, @@ -610,23 +480,6 @@ void ivas_dirac_dec_output_synthesis_process_slot_fx( const Word16 md_idx, const Word16 hodirac_flag, /* i : flag to indicate HO-DirAC mode */ const Word16 dec_param_estim); -void ivas_dirac_dec_output_synthesis_process_slot( - const float *reference_power, /* i : Estimated power */ - const float *onset, /* i : onset filter */ - const int16_t *azimuth, - const int16_t *elevation, - const float *diffuseness, - SPAT_PARAM_REND_COMMON_DATA_HANDLE hSpatParamRendCom, /* i/o: common spatial renderer data handle */ - DIRAC_REND_HANDLE hDirACRend, /* i/o: DirAC renderer handle */ - const int16_t sh_rot_max_order, - const float *p_Rmat, /* i : rotation matrix */ - const VBAP_HANDLE hVBAPdata, /* i : VBAP structure */ - const IVAS_OUTPUT_SETUP hOutSetup, /* i : output setup structure */ - const int16_t nchan_transport, /* i : number of transport channels */ - const int16_t ind_slot, /* i : index of the slot to be added to the input covariance */ - const int16_t hodirac_flag, /* i : flag to indicate HO-DirAC mode */ - const int16_t dec_param_estim /* i : flag to indicate parameter estimation mode */ -); void ivas_dirac_dec_output_synthesis_process_subframe_gain_shd_fx( Word32 RealBuffer[][MAX_PARAM_SPATIAL_SUBFRAMES][CLDFB_NO_CHANNELS_MAX],/* i : LS signals */ @@ -643,19 +496,6 @@ void ivas_dirac_dec_output_synthesis_process_subframe_gain_shd_fx( Word16 *q_cy_auto_diff_smooth_prev ); -void ivas_dirac_dec_output_synthesis_process_subframe_gain_shd( - float RealBuffer[][MAX_PARAM_SPATIAL_SUBFRAMES][CLDFB_NO_CHANNELS_MAX],/* i : LS signals */ - float ImagBuffer[][MAX_PARAM_SPATIAL_SUBFRAMES][CLDFB_NO_CHANNELS_MAX],/* i : LS signals */ - SPAT_PARAM_REND_COMMON_DATA_HANDLE hSpatParamRendCom, /* i/o: common spatial renderer data handle */ - DIRAC_REND_HANDLE hDirACRend, /* i/o: DirAC renderer handle */ - const int16_t nchan_transport, /* i : number of transport channels */ - const int16_t nbslots, /* i : number of slots to process */ - const float *onset_filter, - float *diffuseness, - const int16_t hodirac_flag, /* i : flag to indicate HO-DirAC mode */ - const int16_t dec_param_estim /* i : flag to indicate parameter estimation mode */ -); - void ivas_dirac_dec_output_synthesis_process_subframe_psd_ls_fx( Word32 RealBuffer[][MAX_PARAM_SPATIAL_SUBFRAMES][CLDFB_NO_CHANNELS_MAX],/* i : LS signals */ Word32 ImagBuffer[][MAX_PARAM_SPATIAL_SUBFRAMES][CLDFB_NO_CHANNELS_MAX],/* i : LS signals */ @@ -670,25 +510,6 @@ void ivas_dirac_dec_output_synthesis_process_subframe_psd_ls_fx( Word16 *q_Cldfb ); -void ivas_dirac_dec_output_synthesis_process_subframe_psd_ls( - float RealBuffer[][MAX_PARAM_SPATIAL_SUBFRAMES][CLDFB_NO_CHANNELS_MAX],/* i : LS signals */ - float ImagBuffer[][MAX_PARAM_SPATIAL_SUBFRAMES][CLDFB_NO_CHANNELS_MAX],/* i : LS signals */ - SPAT_PARAM_REND_COMMON_DATA_HANDLE hSpatParamRendCom, /* i/o: common spatial renderer data handle */ - DIRAC_REND_HANDLE hDirACRend, /* i/o: DirAC renderer handle */ - const int16_t nbslots, /* i : number of slots to process */ - float *diffuseness_vector, /* i : diffuseness (needed for direction smoothing)*/ - float *reference_power_smooth, - float qualityBasedSmFactor, - const int16_t enc_param_start_band -); - -void compute_hoa_encoder_mtx( - const float *azimuth, - const float *elevation, - float *response, - const int16_t num_responses, - const int16_t ambisonics_order ); - void compute_hoa_encoder_mtx_fx( const Word32 *azimuth, /*q22*/ const Word32 *elevation, /*q22*/ @@ -713,21 +534,6 @@ void ivas_dirac_dec_compute_power_factors_fx( Word32 *diffuse_power_factor ); -void ivas_dirac_dec_compute_directional_responses( - SPAT_PARAM_REND_COMMON_DATA_HANDLE hSpatParamRendCom, /* i/o: common spatial renderer data handle */ - DIRAC_REND_HANDLE hDirACRend, /* i/o: DirAC renderer handle */ - const VBAP_HANDLE hVBAPdata, /* i : VBAP structure */ - const int16_t *masa_band_mapping, /* i : Band mapping for MASA, NULL assumes not using MASA in any form */ - MASA_ISM_DATA_HANDLE hMasaIsm, /* i : MASA_ISM data structure */ - const int16_t *azimuth, - const int16_t *elevation, - const int16_t md_idx, - const float *surCohRatio, - const int16_t shd_rot_max_order, /* i : split-order rotation method */ - const float *p_Rmat, /* i : rotation matrix */ - const int16_t hodirac_flag /* i : flag to indicate HO-DirAC mode */ -); - void ivas_dirac_dec_compute_directional_responses_fx( SPAT_PARAM_REND_COMMON_DATA_HANDLE hSpatParamRendCom, /* i/o: common spatial renderer data handle */ DIRAC_REND_HANDLE hDirACRend, /* i/o: DirAC renderer handle */ @@ -744,36 +550,6 @@ void ivas_dirac_dec_compute_directional_responses_fx( const Word16 hodirac_flag /* i : flag to indicate HO-DirAC mode */ ); -void ivas_dirac_dec_get_frequency_axis( - float *frequency_axis, /* o : array of center frequencies of a real filter bank */ - const int32_t output_Fs, /* i : sampling frequency */ - const int16_t num_freq_bands /* i : number of frequency bands */ -); - -ivas_error ivas_spat_hSpatParamRendCom_config( - SPAT_PARAM_REND_COMMON_DATA_HANDLE *hSpatParamRendCom_out, - const DIRAC_CONFIG_FLAG flag_config_inp, /* i/ : Flag determining if we open or reconfigure the DirAC decoder */ - const int16_t dec_param_estim_flag, - const IVAS_FORMAT ivas_format, - const MC_MODE mc_mode, - const int32_t output_Fs, - const int16_t hodirac_flag, - const int16_t masa_ext_rend_flag -); - -void ivas_spat_hSpatParamRendCom_close( - SPAT_PARAM_REND_COMMON_DATA_HANDLE *hSpatParamRendCom_out -); - -void ivas_dirac_rend_close( - DIRAC_REND_HANDLE *hDirACRend_out -); - -ivas_error ivas_dirac_allocate_parameters( - SPAT_PARAM_REND_COMMON_DATA_HANDLE hSpatParamRendCom, /* i/o: common data for spatial parametric rendering */ - const int16_t params_flag /* i : set of parameters flag */ -); - void ivas_dirac_rend_close_fx( DIRAC_REND_HANDLE *hDirACRend_out ); @@ -795,18 +571,14 @@ ivas_error ivas_spat_hSpatParamRendCom_config_fx( ivas_error ivas_dirac_allocate_parameters_fx( SPAT_PARAM_REND_COMMON_DATA_HANDLE hSpatParamRendCom, /* i/o: common data for spatial parametric rendering */ - const int16_t params_flag /* i : set of parameters flag */ + const Word16 params_flag /* i : set of parameters flag */ ); void ivas_dirac_deallocate_parameters_fx( SPAT_PARAM_REND_COMMON_DATA_HANDLE hSpatParamRendCom, /* i/o: common data for spatial parametric rendering */ - const int16_t params_flag /* i : set of parameters flag */ + const Word16 params_flag /* i : set of parameters flag */ ); -void ivas_dirac_deallocate_parameters( - SPAT_PARAM_REND_COMMON_DATA_HANDLE hSpatParamRendCom, /* i/o: common data for spatial parametric rendering */ - const int16_t params_flag /* i : set of parameters flag */ -); void ivas_masa_ext_dirac_render_fx( MASA_EXT_REND_HANDLE hMasaExtRend, /* i/o: MASA renderer structure */ Word32 *output_f[], /* i/o: input/output signals in time domain q11*/ @@ -824,11 +596,6 @@ void ivas_HRTF_binary_close_fx( TDREND_HRFILT_FiltSet_t **hHrtfTD /* i/o: TD renderer HRTF handle */ ); -ivas_error ivas_HRTF_fastconv_binary_open( - HRTFS_FASTCONV **hHrtfFastConv /* i/o: FASTCONV HRTF structure */ -); - - ivas_error ivas_HRTF_fastconv_binary_open_fx( HRTFS_FASTCONV **hHrtfFastConv /* i/o: FASTCONV HRTF structure */ ); @@ -872,33 +639,6 @@ ivas_error ivas_td_binaural_renderer_unwrap_fx( const Word16 num_subframes /* i : number of subframes to render */ ); -ivas_error ivas_td_binaural_renderer_unwrap( - const REVERB_HANDLE hReverb, /* i : Reverberator handle */ - const AUDIO_CONFIG transport_config, /* i : Transport configuration */ - BINAURAL_TD_OBJECT_RENDERER_HANDLE hBinRendererTd, /* i/o: TD binaural object renderer handle */ - const int16_t num_src, /* i : number of sources to render */ - const int16_t lfe_idx, /* i : LFE channel index */ - const IVAS_FORMAT ivas_format, /* i : IVAS format */ - ISM_METADATA_HANDLE *hIsmMetaData, /* i : ISM metadata handle */ - COMBINED_ORIENTATION_HANDLE hCombinedOrientationData, /* i/o: combined orientaton data handle */ - const int16_t ism_md_subframe_update, - float *output[], /* i/o: SCE channels / Binaural synthesis */ - const int16_t output_frame, /* i : output frame length */ - const int16_t num_subframes /* i : number of subframes to render */ -); - -ivas_error ivas_td_binaural_renderer_ext( - const TDREND_WRAPPER *pTDRend, /* i : TD Renderer wrapper structure */ - const AUDIO_CONFIG inConfig, /* i : Input audio configuration */ - const LSSETUP_CUSTOM_STRUCT *customLsInput, /* i : Input custom loudspeaker layout */ - const COMBINED_ORIENTATION_HANDLE *hCombinedOrientationData,/* i : Combined head and external orientations */ - const IVAS_ISM_METADATA *currentPos, /* i : Object position */ - const REVERB_HANDLE hReverb, /* i : Reverberator handle */ - const int16_t ism_md_subframe_update_ext, /* i : Metadata Delay in subframes to sync with audio delay */ - const int32_t output_Fs, /* i : output sampling rate */ - const int16_t output_frame, /* i : output frame length */ - float output[][L_FRAME48k] /* i/o: SCE channels / Binaural synthesis */ -); ivas_error ivas_td_binaural_renderer_ext_fx( const TDREND_WRAPPER *pTDRend, /* i : TD Renderer wrapper structure */ const AUDIO_CONFIG inConfig, /* i : Input audio configuration */ @@ -926,24 +666,12 @@ ivas_error ivas_td_binaural_open_unwrap_fx( Word16 *SrcInd ); -ivas_error ivas_td_binaural_open_unwrap( - TDREND_HRFILT_FiltSet_t **hHrtfTD, /* i/o: HR filter model (from file or NULL) */ - const int32_t output_Fs, /* i : Output sampling rate */ - const int16_t nchan_transport, /* i : Number of channels */ - const IVAS_FORMAT ivas_format, /* i : IVAS format (ISM/MC) */ - const AUDIO_CONFIG transport_config, /* i : Transport configuration */ - const float *directivity, /* i : Directivity pattern (used for ISM) */ - const IVAS_OUTPUT_SETUP hTransSetup, /* i : Loudspeaker layout */ - BINAURAL_TD_OBJECT_RENDERER_HANDLE *hBinRendererTd, /* o : TD renderer handle */ - int32_t *binaural_latency_ns /* i : Binauralization delay */ -); - ivas_error ivas_td_binaural_open_ext_fx( TDREND_WRAPPER *pTDRend, const AUDIO_CONFIG inConfig, RENDER_CONFIG_DATA *hRendCfg, /* i : Renderer configuration */ LSSETUP_CUSTOM_STRUCT *customLsInput, - const int32_t output_Fs, + const Word32 output_Fs, Word16 *SrcInd, Word16 *num_src ); @@ -952,17 +680,6 @@ void ivas_td_binaural_close_fx( BINAURAL_TD_OBJECT_RENDERER_HANDLE *hBinRendererTd /* i/o: TD binaural object renderer handle */ ); -void ivas_td_binaural_close( - BINAURAL_TD_OBJECT_RENDERER_HANDLE *hBinRendererTd /* i/o: TD binaural object renderer handle */ -); - -ivas_error TDREND_GetMix( - BINAURAL_TD_OBJECT_RENDERER_HANDLE hBinRendererTd, /* i/o: TD renderer handle */ - float *output[], /* i/o: ISM object synth/rendered output in 0,1 */ - const int16_t subframe_length, /* i/o: subframe length */ - const int16_t subframe_idx, /* i : Subframe index to 5 ms subframe */ - const int16_t ism_md_subframe_update /* i : Number of subframes to delay metadata to sync with audio */ -); ivas_error TDREND_GetMix_fx( BINAURAL_TD_OBJECT_RENDERER_HANDLE hBinRendererTd, /* i/o: TD renderer handle */ Word32 *output[], /* i/o: ISM object synth / rendered output in 0,1 */ @@ -971,13 +688,6 @@ ivas_error TDREND_GetMix_fx( const Word16 ism_md_subframe_update /* i : Number of subframes to delay ism metadata to sync with audio */ ); - -ivas_error TDREND_Update_object_positions( - BINAURAL_TD_OBJECT_RENDERER_HANDLE hBinRendererTd, /* i/o: TD Renderer handle */ - const int16_t num_src, /* i : number of sources to render */ - const IVAS_FORMAT in_format, /* i : Format of input sources */ - const ISM_METADATA_HANDLE *hIsmMetaData /* i : Input metadata for ISM objects */ -); void BSplineModelEvalDealloc_fx( ModelParams_t *model, /* i : Model parameters */ ModelEval_t *modelEval /* i : Model evaluation structure */ @@ -1019,16 +729,7 @@ ivas_error TDREND_MIX_SRC_SetPos_fx( const Word16 SrcInd, /* i : Source index */ const Word32 *Vec_p /* i : Position vector */ ); -ivas_error TDREND_MIX_SRC_SetPos( - BINAURAL_TD_OBJECT_RENDERER_HANDLE hBinRendererTd, /* i/o: TD renderer handle */ - const int16_t SrcInd, /* i : Source index */ - const float *Vec_p /* i : Position vector */ -); -ivas_error TDREND_MIX_SRC_SetDir( - BINAURAL_TD_OBJECT_RENDERER_HANDLE hBinRendererTd, /* i/o: TD renderer handle */ - const int16_t SrcInd, /* i : Source index */ - const float *Vec_p /* i : Direction vector */ -); + ivas_error TDREND_MIX_SRC_SetDir_fx( BINAURAL_TD_OBJECT_RENDERER_HANDLE hBinRendererTd, /* i/o: TD renderer handle */ const Word16 SrcInd, /* i : Source index */ @@ -1078,19 +779,8 @@ void TDREND_SRC_Init_fx( TDREND_SRC_t *Src_p, /* i/o: Source to initialize */ const TDREND_PosType_t PosType /* i : Position type specifier */ ); -void TDREND_SRC_Init( - TDREND_SRC_t *Src_p, /* i/o: Source to initialize */ - const TDREND_PosType_t PosType /* i : Position type specifier */ -); /* ----- Object renderer - vec ----- */ - -void TDREND_SPATIAL_VecInit( - float *Pos_p, /* o : Output vector */ - const float PosX, /* i : X value */ - const float PosY, /* i : Y value */ - const float PosZ /* i : Z value */ -); void TDREND_SPATIAL_VecInit_fx( Word32 *Pos_p, /* o : Output vector */ const Word32 PosX, /* i : X value */ @@ -1106,21 +796,6 @@ void TDREND_SPATIAL_VecNormalize_fx( Word32 *VecNorm_p_fx /* o : Normalised output vector Q30 */ ); -void TDREND_SPATIAL_VecNormalize( - const float *Vec_p, /* i : Input vector */ - float *VecNorm_p /* o : Output vector */ -); - -void TDREND_SPATIAL_VecMapToNewCoordSystem( - const float *Vec_p, /* i : Input vector */ - const float *TranslVec_p, /* i : Translation vector */ - const float *DirVec_p, /* i : Direction vector */ - const float *UpVec_p, /* i : Up vector */ - const float *RightVec_p, /* i : Right vector */ - float *MappedVec_p, /* o : Transformed vector */ - float *LisRelPosAbs /* o : Transformed vector ignoring orientation */ -); - Word16 TDREND_SPATIAL_EvalOrthonormOrient_fx( Word32 *FrontVecON_p_fx, /* i/o: Normalized front vector Q30 */ Word32 *UpVecON_p_fx, /* i/o: Normalized up vector Q30 */ @@ -1129,14 +804,6 @@ Word16 TDREND_SPATIAL_EvalOrthonormOrient_fx( const Word32 *UpVec_p_fx, /* i : Input up vector orient_q */ const Word16 orient_q /* i : Input up Q-factor */ ); -/*! r: Flag if the orientation has been updated */ -int16_t TDREND_SPATIAL_EvalOrthonormOrient( - float *FrontVecON_p, /* o : Normalized front vector */ - float *UpVecON_p, /* o : Normalized up vector */ - float *RightVecON_p, /* o : Normalized right vector */ - const float *FrontVec_p, /* i : Input front vector */ - const float *UpVec_p /* i : Input up vector */ -); /* ----- Object renderer - mix ----- */ @@ -1145,11 +812,6 @@ ivas_error TDREND_MIX_AddSrc_fx( Word16 *SrcInd, /* o : Source index */ const TDREND_PosType_t PosType /* i : Position type (absolute/relative) */ ); -ivas_error TDREND_MIX_AddSrc( - BINAURAL_TD_OBJECT_RENDERER_HANDLE hBinRendererTd, /* i/o: TD renderer handle */ - int16_t *SrcInd, /* o : Source index */ - const TDREND_PosType_t PosType /* i : Position type (absolute/relative) */ -); ivas_error TDREND_MIX_SetDistAttenModel( BINAURAL_TD_OBJECT_RENDERER_HANDLE hBinRendererTd, /* i/o: TD renderer handle */ @@ -1160,35 +822,15 @@ void TDREND_MIX_Dealloc_fx( BINAURAL_TD_OBJECT_RENDERER_HANDLE hBinRendererTd /* i/o: TD renderer handle */ ); -void TDREND_MIX_Dealloc( - BINAURAL_TD_OBJECT_RENDERER_HANDLE hBinRendererTd /* i/o: TD renderer handle */ -); - ivas_error TDREND_MIX_Init_fx( BINAURAL_TD_OBJECT_RENDERER_HANDLE hBinRendererTd, /* i/o: TD renderer handle */ TDREND_HRFILT_FiltSet_t **hHrtfTD, /* i/o: HRTF data (initialized in case of NULL) */ const TDREND_MixSpatSpec_t *MixSpatSpec_p, /* i : Mixer spatial specification */ const Word32 output_Fs /* i : Output sampling rate */ ); -ivas_error TDREND_MIX_Init( - BINAURAL_TD_OBJECT_RENDERER_HANDLE hBinRendererTd, /* i/o: TD renderer handle */ - TDREND_HRFILT_FiltSet_t **hHrtfTD, /* i/o: HRTF data (initialized in case of NULL) */ - const TDREND_MixSpatSpec_t *MixSpatSpec_p, /* i : Mixer spatial specification */ - const int32_t output_Fs /* i : Output sampling rate */ -); /* ----- Object renderer - sfx ----- */ -void TDREND_Apply_ITD( - float *input, /* i : Input SCE subframe to be time adjusted */ - float *out_left, /* o : Output left channels with ITD applied */ - float *out_right, /* o : Output right channels with ITD applied */ - int16_t *previtd, /* i/o: Previous ITD value */ - const int16_t itd, /* i : Current subframe ITD value */ - float *mem_itd, /* i/o: ITD buffer memory */ - const int16_t length /* i : Subframe length */ -); - void TDREND_Apply_ITD_fx( Word32 *input_fx, /* i : Input subframe to be time adjusted Qx */ Word32 *out_left_fx, /* o : Output left channel with ITD applied Qx */ @@ -1252,23 +894,7 @@ ivas_error ivas_rend_initCrendWrapper( CREND_WRAPPER_HANDLE *pCrend #endif ); -ivas_error ivas_rend_crendProcess( - const CREND_WRAPPER *pCrend, - const AUDIO_CONFIG inConfig, - const AUDIO_CONFIG outConfig, - DECODER_CONFIG_HANDLE hDecoderConfig, - COMBINED_ORIENTATION_HANDLE hCombinedOrientationData, - IVAS_OUTPUT_SETUP_HANDLE hIntSetup, - EFAP_HANDLE hEFAPdata, - Word32 *output[], /* i/o: input/output audio channels */ - const Word32 output_Fs, -#ifdef SPLIT_REND_WITH_HEAD_ROT - const Word16 num_subframes, /* i : number of subframes to render */ - const Word16 pos_idx /* i : pose index */ -#else - const Word16 num_subframes /* i : number of subframes to render */ -#endif -); + ivas_error ivas_rend_crendProcessSubframe( const CREND_WRAPPER *pCrend, /* i/o: Crend wrapper handle */ const AUDIO_CONFIG inConfig, /* i : input audio configuration */ @@ -1305,10 +931,10 @@ ivas_error ivas_binaural_reverb_open_fastconv_fx( ivas_error ivas_binaural_reverb_open_parambin( REVERB_STRUCT_HANDLE *hReverbPr, /* i/o: binaural reverb handle */ - const int16_t numBins, /* i : number of CLDFB bins Q0 */ - const int16_t numCldfbSlotsPerFrame, /* i : number of CLDFB slots per frame Q0 */ + const Word16 numBins, /* i : number of CLDFB bins Q0 */ + const Word16 numCldfbSlotsPerFrame, /* i : number of CLDFB slots per frame Q0 */ IVAS_ROOM_ACOUSTICS_CONFIG_DATA *roomAcoustics, /* i/o: room acoustics parameters */ - const int32_t sampling_rate, /* i : sampling rate Q0 */ + const Word32 sampling_rate, /* i : sampling rate Q0 */ const HRTFS_PARAMBIN_HANDLE hHrtfParambin /* i : Parametric binauralizer HRTF handle */ ); @@ -1319,16 +945,6 @@ void ivas_binaural_reverb_close( REVERB_STRUCT_HANDLE *hReverb /* i/o: binaural reverb handle */ ); -void ivas_binaural_reverb_processSubframe( - REVERB_STRUCT_HANDLE hReverb, /* i/o: binaural reverb handle */ - const int16_t numInChannels, /* i : num input channels to be processed*/ - const int16_t numSlots, /* i : number of slots to be processed */ - float inReal[][CLDFB_SLOTS_PER_SUBFRAME][CLDFB_NO_CHANNELS_MAX], /* i : input CLDFB data real */ - float inImag[][CLDFB_SLOTS_PER_SUBFRAME][CLDFB_NO_CHANNELS_MAX], /* i : input CLDFB data imag */ - float outReal[][CLDFB_SLOTS_PER_SUBFRAME][CLDFB_NO_CHANNELS_MAX], /* o : output CLDFB data real */ - float outImag[][CLDFB_SLOTS_PER_SUBFRAME][CLDFB_NO_CHANNELS_MAX] /* o : output CLDFB data imag */ -); - void ivas_binaural_reverb_processSubframe_fx( REVERB_STRUCT_HANDLE hReverb, /* i/o: binaural reverb handle */ const Word16 numInChannels, /* i : num inputs to be processed */ @@ -1359,14 +975,7 @@ ivas_error ivas_reverb_process_fx( Word32 *pcm_out[], /* o : the PCM audio with reverb applied */ const Word16 i_ts /* i : (Q0) subframe index */ ); -ivas_error ivas_reverb_process( - const REVERB_HANDLE hReverb, /* i : Reverberator handle */ - const AUDIO_CONFIG input_audio_config, /* i : reverb. input audio configuration */ - const int16_t mix_signals, /* i : add reverb to output signal */ - float *pcm_in[], /* i : the PCM audio to apply reverb on */ - float *pcm_out[], /* o : the PCM audio with reverb applied */ - const int16_t i_ts /* i : subframe index */ -); + void ivas_rev_delay_line_init( ivas_rev_delay_line_t *pDelay, /* o : the delay line to initialize */ Word32 *memory_buffer, /* i : the memory buffer to use for the delay line Q11 */ @@ -1396,7 +1005,7 @@ void ivas_rev_delay_line_feed_sample_blk_fx( ); void ivas_reverb_iir_filt_init( ivas_rev_iir_filter_t *iirFilter, /* o : IIR filter */ - const uint16_t maxTaps /* i : maximum number of filter taps */ + const UWord16 maxTaps /* i : maximum number of filter taps */ ); @@ -1455,17 +1064,6 @@ void ivas_reverb_fft_filter_CrossMix_fx( const Word16 fft_size ); -void ivas_reverb_fft_filter_CrossMix( - float *buffer0, - float *buffer1, - const int16_t fft_size -); - -void ivas_reverb_fft_filter_ConvertFFTWF_2_FFTR( - rv_fftwf_type_complex *spectrum, - float *fft_real, - const int16_t fft_size -); void ivas_reverb_fft_filter_ConvertFFTWF_2_FFTR_fx( rv_fftwf_type_complex_fx *spectrum, // i: Qx Word32 *fft_real, // o: Qx @@ -1609,24 +1207,21 @@ void ivas_headTrack_close_fx( float rad2deg( float radians ); -Word32 rad2deg_fx( - Word32 radians +void Euler2Quat_fx( + const Word32 yaw, /* i : yaw (x) Q22 */ + const Word32 pitch, /* i : pitch (y) Q22 */ + const Word32 roll, /* i : roll (z) Q22 */ + IVAS_QUATERNION *quat /* o : quaternion describing the rotation */ ); -void QuatToRotMat( - const IVAS_QUATERNION quat, /* i : quaternion describing the rotation */ - float Rmat[3][3] /* o : real-space rotation matrix for this rotation */ +Word32 deg2rad_fx( + Word32 degrees ); - -void rotateAziEle( - float azi_in, /* i : output elevation */ - float ele_in, /* i : input elevation */ - int16_t *azi, /* o : rotated azimuth */ - int16_t *ele, /* o : rotated elevation */ - float Rmat[3][3], /* i : real-space rotation matrix */ - const int16_t isPlanar /* i : is roation planar and elevation meaningless? */ +Word32 rad2deg_fx( + Word32 radians ); + void rotateAziEle_fx( Word16 azi_in, /* i : output elevation */ Word16 ele_in, /* i : input elevation */ @@ -1700,21 +1295,21 @@ void rotateFrame_sd_cldfb_fixed( Word32 Cldfb_ImagBuffer[][MAX_PARAM_SPATIAL_SUBFRAMES][CLDFB_NO_CHANNELS_MAX], /* i/o: unrotated HOA3 signal buffer in cldfb domain imag part */ const IVAS_OUTPUT_SETUP_HANDLE hOutputSetup, /* i : output format setup number of channels */ const EFAP_HANDLE hEFAPdata, /* i : EFAP structure */ - const int16_t numTimeSlots, /* i : number of time slots to process */ - const int16_t nb_band /* i : number of CLDFB bands to process */ + const Word16 numTimeSlots, /* i : number of time slots to process */ + const Word16 nb_band /* i : number of CLDFB bands to process */ ); ivas_error ivas_external_orientation_open( EXTERNAL_ORIENTATION_HANDLE *hExtOrientationData, /* o : external orientation handle */ - const int16_t num_subframes /* i : number of subframes */ + const Word16 num_subframes /* i : number of subframes */ ); void ivas_external_orientation_close_fx( EXTERNAL_ORIENTATION_HANDLE *hExtOrientationData /* i/o: external orientation handle */ ); ivas_error ivas_combined_orientation_open( COMBINED_ORIENTATION_HANDLE *hCombinedOrientationData, /* o : combined orientation handle */ - const int32_t fs, /* i : sampling rate */ - const int16_t num_subframes /* i : number of subframes */ + const Word32 fs, /* i : sampling rate */ + const Word16 num_subframes /* i : number of subframes */ ); void ivas_combined_orientation_close_fx( COMBINED_ORIENTATION_HANDLE *hCombinedOrientationData /* i/o: combined orientation handle */ @@ -1774,34 +1369,6 @@ void QuaternionSlerp_fx( * Orientation tracking *----------------------------------------------------------------------------------*/ -ivas_error ivas_orient_trk_Init( - ivas_orient_trk_state_t *pOTR /* i/o: orientation tracker handle */ -); - -ivas_error ivas_orient_trk_SetTrackingType( - ivas_orient_trk_state_t *pOTR, /* i/o: orientation tracker handle */ - const IVAS_HEAD_ORIENT_TRK_T orientation_tracking /* i : orientation tracking type */ -); - -ivas_error ivas_orient_trk_SetReferenceRotation( - ivas_orient_trk_state_t *pOTR, /* i/o: orientatoin trakcer handle */ - const IVAS_QUATERNION refRot /* i : reference rotation */ -); - - -ivas_error ivas_orient_trk_GetTrackedRotation( - ivas_orient_trk_state_t *pOTR, /* i/o: orientation tracker handle */ - IVAS_QUATERNION *pRotation /* i/o: processed rotation */ -); - -ivas_error ivas_orient_trk_Process( - ivas_orient_trk_state_t *pOTR, /* i/o: orientation tracker handle */ - IVAS_QUATERNION absRot, /* i : absolute head rotation */ - float updateRate, /* i : rotation update rate [Hz] */ - IVAS_QUATERNION *pTrkRot /* o : tracked rotation */ -); - - ivas_error ivas_orient_trk_Init_fx( ivas_orient_trk_state_t *pOTR /* i/o: orientation tracker handle */ ); @@ -1846,7 +1413,7 @@ ivas_error ivas_orient_trk_Process_fx( ivas_error ivas_mcmasa_ana_open( MCMASA_ANA_HANDLE *hMcMasaPtr, /* i/o: McMASA data handle pointer */ const AUDIO_CONFIG inConfig, /* i : Input config */ - int32_t input_Fs /* i : Sampling frequency */ + Word32 input_Fs /* i : Sampling frequency */ ); void ivas_mcmasa_ana_fx( MCMASA_ANA_HANDLE hMcMasa, /* i/o: McMASA encoder handle */ @@ -1867,14 +1434,6 @@ ivas_error ivas_omasa_ana_open( UWord16 total_num_objects /* i : Number of objects */ ); -void ivas_omasa_ana( - OMASA_ANA_HANDLE hOMasa, /* i/o: OMASA analysis handle */ - float data_in_f[][L_FRAME48k], /* i/o: Input / transport audio signals */ - const int16_t input_frame, /* i : Input frame size */ - const int16_t nchan_transport, /* i : Number of transport channels */ - const int16_t nchan_ism /* i : Number of objects for parameter analysis*/ -); - void ivas_omasa_ana_fx( OMASA_ANA_HANDLE hOMasa, /* i/o: OMASA analysis handle */ Word32 data_in_f_fx[][L_FRAME48k], /* i/o: Input / transport audio signals */ @@ -1894,13 +1453,7 @@ void computeIntensityVector_ana_fx( const Word16 num_frequency_bands, /* i : Number of frequency bands */ Word32 intensity_real[DIRAC_NUM_DIMS][MASA_FREQUENCY_BANDS] /* o : Intensity vector 2 * Qx -31 */ ); -void computeIntensityVector_ana( - const int16_t *band_grouping, /* i : Band grouping for estimation */ - float Cldfb_RealBuffer[FOA_CHANNELS][CLDFB_NO_CHANNELS_MAX], /* i : Real part of input signal */ - float Cldfb_ImagBuffer[FOA_CHANNELS][CLDFB_NO_CHANNELS_MAX], /* i : Imag part of input signal */ - const int16_t num_frequency_bands, /* i : Number of frequency bands */ - float intensity_real[DIRAC_NUM_DIMS][MASA_FREQUENCY_BANDS] /* o : Intensity vector */ -); + void computeReferencePower_ana_fx( const Word16 *band_grouping, /* i : Band grouping for estimation */ Word32 Cldfb_RealBuffer[FOA_CHANNELS][CLDFB_NO_CHANNELS_MAX], /* i : Real part of input signal input_q */ @@ -1908,13 +1461,6 @@ void computeReferencePower_ana_fx( Word32 *reference_power, /* o : Estimated power */ const Word16 num_freq_bands /* i : Number of frequency bands 2 * input_q - 31 */ ); -void computeReferencePower_ana( - const int16_t *band_grouping, /* i : Band grouping for estimation */ - float Cldfb_RealBuffer[FOA_CHANNELS][CLDFB_NO_CHANNELS_MAX], /* i : Real part of input signal */ - float Cldfb_ImagBuffer[FOA_CHANNELS][CLDFB_NO_CHANNELS_MAX], /* i : Imag part of input signal */ - float *reference_power, /* o : Estimated power */ - const int16_t num_freq_bands /* i : Number of frequency bands */ -); void ivas_create_masa_out_meta_fx( MASA_DECODER_EXT_OUT_META_HANDLE extOutMeta, /* i/o: MASA metadata handle */ @@ -1930,17 +1476,6 @@ void ivas_create_masa_out_meta_fx( Word16 surroundingCoherence_q ); -void ivas_create_masa_out_meta( - MASA_DECODER_EXT_OUT_META_HANDLE extOutMeta, /* i/o: MASA metadata handle */ - SPHERICAL_GRID_DATA *Sph_Grid16, /* i : Spherical grid */ - const int16_t nchan_transport, /* i : Number of transport channels */ - float elevation_m_values[MAX_PARAM_SPATIAL_SUBFRAMES][MASA_FREQUENCY_BANDS], /* i : Estimated elevation */ - float azimuth_m_values[MAX_PARAM_SPATIAL_SUBFRAMES][MASA_FREQUENCY_BANDS], /* i : Estimated azimuth */ - float energyRatio[MAX_PARAM_SPATIAL_SUBFRAMES][MASA_FREQUENCY_BANDS], /* i : Estimated direct-to-total ratio */ - float spreadCoherence[MAX_PARAM_SPATIAL_SUBFRAMES][MASA_FREQUENCY_BANDS], /* i : Estimated spread coherence */ - float surroundingCoherence[MAX_PARAM_SPATIAL_SUBFRAMES][MASA_FREQUENCY_BANDS] /* i : Estimated surround coherence */ -); - ivas_error ivas_dirac_ana_open_fx( DIRAC_ANA_HANDLE *hDirACPtr, /* i/o: DIRAC data handle pointer */ Word32 input_Fs @@ -1969,11 +1504,6 @@ void ivas_prerend_merge_masa_metadata_fx( Word16 *inEne2_e /* i : TF-energy of input 2 Exponent */ ); -void copy_masa_descriptive_meta( - MASA_DECRIPTIVE_META *outMeta, /* o : metadata to be written */ - MASA_DECRIPTIVE_META *inMeta /* i : input metadata */ -); - ivas_error masaPrerendOpen_fx( MASA_PREREND_HANDLE *hMasaPrerendPtr, /* o : handle to the opened prerenderer */ Word16 numTransports, /* i : number of transport channels */ diff --git a/lib_rend/ivas_reflections.c b/lib_rend/ivas_reflections_fx.c similarity index 98% rename from lib_rend/ivas_reflections.c rename to lib_rend/ivas_reflections_fx.c index 911351800d227e998a40f04da4d5c6a80ef4c5b0..9344a58726d5e524fe635034300448bccc5b8e2d 100644 --- a/lib_rend/ivas_reflections.c +++ b/lib_rend/ivas_reflections_fx.c @@ -33,17 +33,14 @@ #include "options.h" #include #include -#include "prot.h" +#include "prot_fx.h" #include "rom_dec.h" #include "lib_rend.h" -#include "ivas_prot_rend.h" +#include "ivas_prot_rend_fx.h" #include "ivas_stat_rend.h" #include "ivas_cnst.h" -#include "ivas_prot.h" -#include "ivas_prot_fx.h" #include "ivas_rom_com.h" #include "wmc_auto.h" -#include "prot_fx.h" #include "debug.h" #include "ivas_rom_com_fx.h" @@ -59,9 +56,17 @@ static UWord16 LC_mixing_7_1[7] = { 0, 1, 2, 3, 4, 3, 4 }; static UWord16 LC_mixing_5_1_2[7] = { 0, 1, 2, 3, 4, 0, 1 }; +#ifdef NONBE_FIX_935_EARLY_REFLECTIONS_WRONG_ORDER +static UWord16 LC_mixing_5_1_4[9] = { 0, 1, 2, 3, 4, 0, 1, 3, 4 }; +#else static UWord16 LC_mixing_5_1_4[9] = { 0, 1, 2, 3, 4, 0, 1, 2, 3 }; +#endif +#ifdef NONBE_FIX_935_EARLY_REFLECTIONS_WRONG_ORDER +static UWord16 LC_mixing_7_1_4[11] = { 0, 1, 2, 3, 4, 3, 4, 0, 1, 3, 4 }; +#else static UWord16 LC_mixing_7_1_4[11] = { 0, 1, 2, 3, 4, 3, 4, 0, 1, 2, 3 }; +#endif /*-----------------------------------------------------------------------------------------* diff --git a/lib_rend/ivas_render_config.c b/lib_rend/ivas_render_config_fx.c similarity index 99% rename from lib_rend/ivas_render_config.c rename to lib_rend/ivas_render_config_fx.c index 2e270d2fe2ef355117a473dd83e2b719816ee058..0ce576cb3416b17527a80e46d2df14a1b18ffe39 100644 --- a/lib_rend/ivas_render_config.c +++ b/lib_rend/ivas_render_config_fx.c @@ -32,12 +32,11 @@ #include #include "options.h" -#include "prot.h" -#include "ivas_prot_rend.h" +#include "prot_fx.h" +#include "ivas_prot_rend_fx.h" #include "ivas_rom_rend.h" #include "ivas_rom_TdBinauralRenderer.h" #include "wmc_auto.h" -#include "prot_fx.h" /*-----------------------------------------------------------------------* * Local constants diff --git a/lib_rend/ivas_reverb_delay_line.c b/lib_rend/ivas_reverb_delay_line_fx.c similarity index 99% rename from lib_rend/ivas_reverb_delay_line.c rename to lib_rend/ivas_reverb_delay_line_fx.c index 3eeb4ede43fd8aebf58365792c3425e4014889f4..d2a6a0c44e2c825c0e31dfb09dca6aeb337d502c 100644 --- a/lib_rend/ivas_reverb_delay_line.c +++ b/lib_rend/ivas_reverb_delay_line_fx.c @@ -32,11 +32,9 @@ #include #include "options.h" -#include "ivas_prot.h" -#include "ivas_prot_rend.h" -#include "prot.h" -#include "wmc_auto.h" +#include "ivas_prot_rend_fx.h" #include "prot_fx.h" +#include "wmc_auto.h" #include "debug.h" /*-----------------------------------------------------------------------------------------* * Function ivas_rev_delay_line_init() diff --git a/lib_rend/ivas_reverb_fft_filter.c b/lib_rend/ivas_reverb_fft_filter_fx.c similarity index 99% rename from lib_rend/ivas_reverb_fft_filter.c rename to lib_rend/ivas_reverb_fft_filter_fx.c index 3befcde916983cca29507119e7ee2963d486bef1..bbe077f8bacdb8d40e1e1cba411dc34bf727a88f 100644 --- a/lib_rend/ivas_reverb_fft_filter.c +++ b/lib_rend/ivas_reverb_fft_filter_fx.c @@ -32,11 +32,10 @@ #include #include "options.h" -#include "prot.h" -#include "ivas_prot_rend.h" +#include "prot_fx.h" +#include "ivas_prot_rend_fx.h" #include #include "wmc_auto.h" -#include "prot_fx.h" #include "debug.h" #define float_to_fix( n, factor ) ( round( n * ( 1 << factor ) ) ) #define fix_to_float( n, factor ) ( (float) n / ( 1 << factor ) ) diff --git a/lib_rend/ivas_reverb_filter_design.c b/lib_rend/ivas_reverb_filter_design_fx.c similarity index 99% rename from lib_rend/ivas_reverb_filter_design.c rename to lib_rend/ivas_reverb_filter_design_fx.c index 428cf3353492ecdca68005b8375b6f32a3050e39..62c97f88f4b4c78c399967ee85854c694ac44929 100644 --- a/lib_rend/ivas_reverb_filter_design.c +++ b/lib_rend/ivas_reverb_filter_design_fx.c @@ -32,9 +32,8 @@ #include #include "options.h" -#include "prot.h" #include "prot_fx.h" -#include "ivas_prot_rend.h" +#include "ivas_prot_rend_fx.h" #include #include #include @@ -741,7 +740,7 @@ void ivas_reverb_calc_color_levels_fx( Word16 temp = 0, result_e = 0; move16(); move16(); - cos_w = getCosWord16R2( (Word16) abs( L_shl( Mpy_32_32( pFc[freq_idx], fs_inverted ), 3 ) ) ); // q = 15 + cos_w = getCosWord16R2( (Word16) L_abs( L_shl( Mpy_32_32( pFc[freq_idx], fs_inverted ), 3 ) ) ); // q = 15 H_filter = L_add( L_shr( L_add( L_shr( Mpy_32_32( coefB[0], coefB[0] ), 1 ), L_shr( Mpy_32_32( coefB[1], coefB[1] ), 1 ) ), 2 ), L_shr( Mpy_32_32( coefB[0], Mpy_32_32( coefB[1], L_shl( cos_w, 15 ) ) ), 1 ) ); // q = 28 H_filter = BASOP_Util_Divide3232_Scale_cadence( H_filter, L_add( ONE_IN_Q28, L_shr( L_add( L_shr( Mpy_32_32( coefA[1], coefA[1] ), 2 ), Mpy_32_32( coefA[1], L_shl( cos_w, 15 ) ) ), 1 ) ), &temp ); H_filter = Sqrt32( H_filter, &temp ); @@ -1156,9 +1155,9 @@ void ivas_reverb_get_hrtf_set_properties_fx( IA_coherence[freq_idx] = L_shl( IA_coherence[freq_idx], sub( 27, sub( 15, temp ) ) ); // q = 27 move32(); /* Limiting to (0...1) range in case of small numerical errors or negative values */ - IA_coherence[freq_idx] = min( IA_coherence[freq_idx], ONE_IN_Q27 ); // Q27 + IA_coherence[freq_idx] = L_min( IA_coherence[freq_idx], ONE_IN_Q27 ); // Q27 move32(); - IA_coherence[freq_idx] = max( IA_coherence[freq_idx], 0 ); // Q27 + IA_coherence[freq_idx] = L_max( IA_coherence[freq_idx], 0 ); // Q27 move32(); } diff --git a/lib_rend/ivas_reverb.c b/lib_rend/ivas_reverb_fx.c similarity index 99% rename from lib_rend/ivas_reverb.c rename to lib_rend/ivas_reverb_fx.c index 9e621ce83bbf0dee0d9ceb23f723d7452c9f7902..9b149940c08947d8a2548fe6ba486729f34fd7fa 100644 --- a/lib_rend/ivas_reverb.c +++ b/lib_rend/ivas_reverb_fx.c @@ -32,14 +32,13 @@ #include #include "options.h" -#include "prot.h" -#include "ivas_prot_rend.h" +#include "prot_fx.h" +#include "ivas_prot_rend_fx.h" #include "ivas_cnst.h" #include "math.h" #include "ivas_rom_rend.h" #include #include "wmc_auto.h" -#include "prot_fx.h" #include "debug.h" #define float_to_fix( n, factor ) ( round( n * ( 1 << factor ) ) ) #define float_to_fixQ31( n ) ( round( n * 0x7fffffff ) ) @@ -166,13 +165,13 @@ static ivas_error calc_jot_t60_coeffs_fx( Word16 *pH_dB_fx, Word16 pH_dB_exp, co * *------------------------------------------------------------------------*/ -static uint16_t binRend_rand( +static UWord16 binRend_rand( REVERB_STRUCT_HANDLE hReverb /* i/o: binaural reverb handle */ ) { hReverb->binRend_RandNext = hReverb->binRend_RandNext * 1103515245 + 12345; - return (uint16_t) ( hReverb->binRend_RandNext / 65536 ) % 32768; + return (UWord16) ( hReverb->binRend_RandNext / 65536 ) % 32768; } @@ -887,9 +886,9 @@ static ivas_error calc_jot_t60_coeffs_fx( Word32 L_tmp; Word16 f0_fx, tmp_fx, lf_target_gain_dB_fx, hf_target_gain_dB_fx, mid_crossing_gain_dB_fx; Word16 lin_gain_lf_fx, lin_gain_hf_fx, shift, expl, exph; - int16_t f_idx, e = pH_dB_exp; + Word16 f_idx, e = pH_dB_exp; move16(); - uint16_t n_points_lf, n_points_hf; + UWord16 n_points_lf, n_points_hf; lf_target_gain_dB_fx = 0; move16(); @@ -1472,7 +1471,7 @@ ivas_error ivas_reverb_open_fx( { ivas_error error; REVERB_HANDLE pState = NULL; - Word16 bin_idx, subframe_len, output_frame, predelay_bf_len, loop_idx; + Word16 bin_idx, subframe_len, output_frame, predelay_bf_len, loop_idx, i; ivas_reverb_params_t params; Word32 pColor_target_l_fx[RV_LENGTH_NR_FC]; Word32 pColor_target_r_fx[RV_LENGTH_NR_FC]; @@ -1530,9 +1529,7 @@ ivas_error ivas_reverb_open_fx( params.pDsr_fx = params.pRt60_fx + nr_fc_fft_filter; params.pFc_fx = &pState->fft_filter_color_0.fft_spectrum_fx[0]; params.pHrtf_inter_aural_coherence_fx = &pState->fft_filter_color_1.fft_spectrum_fx[0]; -#ifdef MSAN_FIX set32_fx( pState->fft_filter_color_1.fft_spectrum_fx, 0, RV_FILTER_MAX_FFT_SIZE ); -#endif /* Note: these temp buffers can only be used before the final step of the FFT filter design : */ /* before calls to ivas_reverb_calc_correl_filters(...) or to ivas_reverb_calc_color_filters(...) */ @@ -1560,7 +1557,7 @@ ivas_error ivas_reverb_open_fx( set_reverb_acoustic_data_fx( ¶ms, input_audio_config, hHrtf, &hRenderConfig->roomAcoustics, subframe_len, nr_fc_input, nr_fc_fft_filter ); Scale_sig32( params.pFc_fx, nr_fc_fft_filter, -2 ); - FOR( Word16 i = 0; i < nr_fc_fft_filter; i++ ) + FOR( i = 0; i < nr_fc_fft_filter; i++ ) { params.pRt60_fx[i] = L_abs( params.pRt60_fx[i] ); move32(); @@ -1602,7 +1599,7 @@ ivas_error ivas_reverb_open_fx( Word32 *pT60_filter_coeff = (Word32 *) malloc( ( lenT60_filter_coeff ) * sizeof( Word32 * ) ); - FOR( Word16 i = 0; i < nr_fc_fft_filter; i++ ) + FOR( i = 0; i < nr_fc_fft_filter; i++ ) { params.pDsr_fx[i] = L_shl( params.pDsr_fx[i], params.pDsr_e[i] ); move32(); @@ -1611,7 +1608,7 @@ ivas_error ivas_reverb_open_fx( pHrtf_avg_pwr_response_r_const[i] = L_shl( params.pHrtf_avg_pwr_response_r_const_fx[i], 5 ); /*Q23+5*/ move32(); } - FOR( Word16 i = 0; i < lenT60_filter_coeff; i++ ) + FOR( i = 0; i < lenT60_filter_coeff; i++ ) { pT60_filter_coeff[i] = L_shl_sat( params.pT60_filter_coeff_fx[i], 17 ); move32(); @@ -1648,21 +1645,14 @@ ivas_error ivas_reverb_open_fx( IF( pState->do_corr_filter ) { /* Computing correlation filters on the basis of target IA coherence */ -#ifdef MSAN_FIX - FOR( int i = 0; i < shl( sub( nr_fc_fft_filter, 1 ), 1 ); i++ ) + FOR( i = 0; i < shl( sub( nr_fc_fft_filter, 1 ), 1 ); i++ ) { pTime_window_fx[i] = L_shr( pTime_window_fx[i], 1 ); /*Scaling signal down to 30*/ move32(); } -#else - FOR( int i = 0; i < RV_FILTER_MAX_FFT_SIZE; i++ ) - { - pTime_window_fx[i] = L_shr( pTime_window_fx[i], 1 ); /*Scaling signal down to 30*/ - } -#endif // MSAN_FIX Word32 *pHrtf_inter_aural_coherence_const = (Word32 *) malloc( nr_fc_fft_filter * sizeof( Word32 ) ); - FOR( Word16 i = 0; i < nr_fc_fft_filter; i++ ) + FOR( i = 0; i < nr_fc_fft_filter; i++ ) { pHrtf_inter_aural_coherence_const[i] = L_shl( params.pHrtf_inter_aural_coherence_const_fx[i], 3 ); /*Scaling up to Q30*/ move32(); @@ -1671,14 +1661,14 @@ ivas_error ivas_reverb_open_fx( free( pHrtf_inter_aural_coherence_const ); - FOR( Word16 i = 0; i < nr_fc_fft_filter; i++ ) + FOR( i = 0; i < nr_fc_fft_filter; i++ ) { pFft_wf_filter_ch0_fx[i][0] = L_shl( pFft_wf_filter_ch0_fx[i][0], sub( 31, q_pFft_wf_filter_ch0_fx ) ); move32(); pFft_wf_filter_ch0_fx[i][1] = L_shl( pFft_wf_filter_ch0_fx[i][1], sub( 31, q_pFft_wf_filter_ch0_fx ) ); move32(); } - FOR( Word16 i = 0; i < nr_fc_fft_filter; i++ ) + FOR( i = 0; i < nr_fc_fft_filter; i++ ) { pFft_wf_filter_ch1_fx[i][0] = L_shl( pFft_wf_filter_ch1_fx[i][0], sub( 31, q_pFft_wf_filter_ch1_fx ) ); move32(); @@ -1700,14 +1690,14 @@ ivas_error ivas_reverb_open_fx( /* Computing coloration filters on the basis of target responses */ ivas_reverb_calc_color_filters_fx( pColor_target_l_fx, pColor_target_r_fx, pTime_window_fx, pState->fft_size, pFft_wf_filter_ch0_fx, pFft_wf_filter_ch1_fx, &q_pFft_wf_filter_ch0_fx, &q_pFft_wf_filter_ch1_fx ); - FOR( int i = 0; i < nr_fc_fft_filter; i++ ) + FOR( i = 0; i < nr_fc_fft_filter; i++ ) { pFft_wf_filter_ch0_fx[i][0] = L_shl( pFft_wf_filter_ch0_fx[i][0], sub( 31, q_pFft_wf_filter_ch0_fx ) ); move32(); pFft_wf_filter_ch0_fx[i][1] = L_shl( pFft_wf_filter_ch0_fx[i][1], sub( 31, q_pFft_wf_filter_ch0_fx ) ); move32(); } - FOR( Word16 i = 0; i < nr_fc_fft_filter; i++ ) + FOR( i = 0; i < nr_fc_fft_filter; i++ ) { pFft_wf_filter_ch1_fx[i][0] = L_shl( pFft_wf_filter_ch1_fx[i][0], sub( 31, q_pFft_wf_filter_ch1_fx ) ); move32(); @@ -2493,7 +2483,7 @@ ivas_error ivas_binaural_reverb_open_parambin( const Word16 numBins, /* i : number of CLDFB bins Q0 */ const Word16 numCldfbSlotsPerFrame, /* i : number of CLDFB slots per frame Q0 */ IVAS_ROOM_ACOUSTICS_CONFIG_DATA *roomAcoustics, /* i/o: room acoustics parameters */ - const int32_t sampling_rate, /* i : sampling rate Q0 */ + const Word32 sampling_rate, /* i : sampling rate Q0 */ const HRTFS_PARAMBIN_HANDLE hHrtfParambin /* i : Parametric binauralizer HRTF handle */ ) { diff --git a/lib_rend/ivas_reverb_iir_filter.c b/lib_rend/ivas_reverb_iir_filter_fx.c similarity index 99% rename from lib_rend/ivas_reverb_iir_filter.c rename to lib_rend/ivas_reverb_iir_filter_fx.c index 217e16dd801bc9ea5e82769aed2c2ab6da25d343..e09ec70055ccf358879a06134430ec4765136b78 100644 --- a/lib_rend/ivas_reverb_iir_filter.c +++ b/lib_rend/ivas_reverb_iir_filter_fx.c @@ -32,10 +32,9 @@ #include #include "options.h" -#include "prot.h" -#include "ivas_prot_rend.h" -#include "wmc_auto.h" #include "prot_fx.h" +#include "ivas_prot_rend_fx.h" +#include "wmc_auto.h" #include "debug.h" #define float_to_fix( n, factor ) ( round( n * ( 1 << factor ) ) ) #define fix_to_float( n, factor ) ( (float) n / ( 1 << factor ) ) diff --git a/lib_rend/ivas_reverb_utils.c b/lib_rend/ivas_reverb_utils_fx.c similarity index 99% rename from lib_rend/ivas_reverb_utils.c rename to lib_rend/ivas_reverb_utils_fx.c index 46ef576a896a4f0c1e2b43c67d53934a0168e2bb..b3e1e72fa1f947d9930e486943970c422f2097a3 100644 --- a/lib_rend/ivas_reverb_utils.c +++ b/lib_rend/ivas_reverb_utils_fx.c @@ -32,12 +32,11 @@ #include #include "options.h" -#include "prot.h" -#include "ivas_prot_rend.h" +#include "prot_fx.h" +#include "ivas_prot_rend_fx.h" #include "ivas_rom_rend.h" #include #include "wmc_auto.h" -#include "prot_fx.h" #include "options_warnings.h" /*-----------------------------------------------------------------------------------------* diff --git a/lib_rend/ivas_rom_TdBinauralRenderer.c b/lib_rend/ivas_rom_TdBinauralRenderer_fx.c similarity index 100% rename from lib_rend/ivas_rom_TdBinauralRenderer.c rename to lib_rend/ivas_rom_TdBinauralRenderer_fx.c diff --git a/lib_rend/ivas_rom_binauralRenderer.c b/lib_rend/ivas_rom_binauralRenderer_fx.c similarity index 100% rename from lib_rend/ivas_rom_binauralRenderer.c rename to lib_rend/ivas_rom_binauralRenderer_fx.c diff --git a/lib_rend/ivas_rom_binaural_crend_head.h b/lib_rend/ivas_rom_binaural_crend_head.h index bc0d3cd17b39e6ef7dbba4ff6e2ef937866b6ae0..2b4c3e919fcb39f74d9d8ae84b4a89ea1bf52ecf 100644 --- a/lib_rend/ivas_rom_binaural_crend_head.h +++ b/lib_rend/ivas_rom_binaural_crend_head.h @@ -56,13 +56,13 @@ extern Word32 CRendBin_Combined_HRIR_latency_s_fx; /* Sample Rate = 48000 */ -extern int16_t CRendBin_Combined_HRIR_max_num_iterations_48kHz; -extern uint16_t CRendBin_Combined_HRIR_num_iterations_48kHz[15][BINAURAL_CHANNELS]; -extern uint16_t CRendBin_Combined_HRIR_num_iterations_diffuse_48kHz[BINAURAL_CHANNELS]; -extern uint16_t CRendBin_Combined_HRIR_pIndex_frequency_max_48kHz[15][BINAURAL_CHANNELS][1]; -extern uint16_t CRendBin_Combined_HRIR_index_frequency_max_diffuse_48kHz; +extern Word16 CRendBin_Combined_HRIR_max_num_iterations_48kHz; +extern UWord16 CRendBin_Combined_HRIR_num_iterations_48kHz[15][BINAURAL_CHANNELS]; +extern UWord16 CRendBin_Combined_HRIR_num_iterations_diffuse_48kHz[BINAURAL_CHANNELS]; +extern UWord16 CRendBin_Combined_HRIR_pIndex_frequency_max_48kHz[15][BINAURAL_CHANNELS][1]; +extern UWord16 CRendBin_Combined_HRIR_index_frequency_max_diffuse_48kHz; extern Word16 CRendBin_Combined_HRIR_inv_diffuse_weight_48kHz_fx[15]; -extern uint16_t *CRendBin_Combined_HRIR_pIndex_frequency_max_diffuse_48kHz[BINAURAL_CHANNELS]; +extern UWord16 *CRendBin_Combined_HRIR_pIndex_frequency_max_diffuse_48kHz[BINAURAL_CHANNELS]; extern Word32 CRendBin_Combined_HRIR_coeff_re_48kHz_fx[15][BINAURAL_CHANNELS][240]; extern Word32 CRendBin_Combined_HRIR_coeff_im_48kHz_fx[15][BINAURAL_CHANNELS][240]; extern Word32 *CRendBin_Combined_HRIR_coeff_diffuse_re_48kHz_fx[BINAURAL_CHANNELS]; @@ -70,13 +70,13 @@ extern Word32 *CRendBin_Combined_HRIR_coeff_diffuse_im_48kHz_fx[BINAURAL_CHANNEL /* Sample Rate = 32000 */ -extern int16_t CRendBin_Combined_HRIR_max_num_iterations_32kHz; -extern uint16_t CRendBin_Combined_HRIR_num_iterations_32kHz[15][BINAURAL_CHANNELS]; -extern uint16_t CRendBin_Combined_HRIR_num_iterations_diffuse_32kHz[BINAURAL_CHANNELS]; -extern uint16_t CRendBin_Combined_HRIR_pIndex_frequency_max_32kHz[15][BINAURAL_CHANNELS][1]; -extern uint16_t CRendBin_Combined_HRIR_index_frequency_max_diffuse_32kHz; +extern Word16 CRendBin_Combined_HRIR_max_num_iterations_32kHz; +extern UWord16 CRendBin_Combined_HRIR_num_iterations_32kHz[15][BINAURAL_CHANNELS]; +extern UWord16 CRendBin_Combined_HRIR_num_iterations_diffuse_32kHz[BINAURAL_CHANNELS]; +extern UWord16 CRendBin_Combined_HRIR_pIndex_frequency_max_32kHz[15][BINAURAL_CHANNELS][1]; +extern UWord16 CRendBin_Combined_HRIR_index_frequency_max_diffuse_32kHz; extern Word16 CRendBin_Combined_HRIR_inv_diffuse_weight_32kHz_fx[15]; -extern uint16_t *CRendBin_Combined_HRIR_pIndex_frequency_max_diffuse_32kHz[BINAURAL_CHANNELS]; +extern UWord16 *CRendBin_Combined_HRIR_pIndex_frequency_max_diffuse_32kHz[BINAURAL_CHANNELS]; extern Word32 CRendBin_Combined_HRIR_coeff_re_32kHz_fx[15][BINAURAL_CHANNELS][160]; extern Word32 CRendBin_Combined_HRIR_coeff_im_32kHz_fx[15][BINAURAL_CHANNELS][160]; extern Word32 *CRendBin_Combined_HRIR_coeff_diffuse_re_32kHz_fx[BINAURAL_CHANNELS]; @@ -84,13 +84,13 @@ extern Word32 *CRendBin_Combined_HRIR_coeff_diffuse_im_32kHz_fx[BINAURAL_CHANNEL /* Sample Rate = 16000 */ -extern int16_t CRendBin_Combined_HRIR_max_num_iterations_16kHz; -extern uint16_t CRendBin_Combined_HRIR_num_iterations_16kHz[15][BINAURAL_CHANNELS]; -extern uint16_t CRendBin_Combined_HRIR_num_iterations_diffuse_16kHz[BINAURAL_CHANNELS]; -extern uint16_t CRendBin_Combined_HRIR_pIndex_frequency_max_16kHz[15][BINAURAL_CHANNELS][1]; -extern uint16_t CRendBin_Combined_HRIR_index_frequency_max_diffuse_16kHz; +extern Word16 CRendBin_Combined_HRIR_max_num_iterations_16kHz; +extern UWord16 CRendBin_Combined_HRIR_num_iterations_16kHz[15][BINAURAL_CHANNELS]; +extern UWord16 CRendBin_Combined_HRIR_num_iterations_diffuse_16kHz[BINAURAL_CHANNELS]; +extern UWord16 CRendBin_Combined_HRIR_pIndex_frequency_max_16kHz[15][BINAURAL_CHANNELS][1]; +extern UWord16 CRendBin_Combined_HRIR_index_frequency_max_diffuse_16kHz; extern Word16 CRendBin_Combined_HRIR_inv_diffuse_weight_16kHz_fx[15]; -extern uint16_t *CRendBin_Combined_HRIR_pIndex_frequency_max_diffuse_16kHz[BINAURAL_CHANNELS]; +extern UWord16 *CRendBin_Combined_HRIR_pIndex_frequency_max_diffuse_16kHz[BINAURAL_CHANNELS]; extern Word32 CRendBin_Combined_HRIR_coeff_re_16kHz_fx[15][BINAURAL_CHANNELS][80]; extern Word32 CRendBin_Combined_HRIR_coeff_im_16kHz_fx[15][BINAURAL_CHANNELS][80]; extern Word32 *CRendBin_Combined_HRIR_coeff_diffuse_re_16kHz_fx[BINAURAL_CHANNELS]; @@ -105,13 +105,13 @@ extern Word32 CRendBin_FOA_HRIR_latency_s_fx; /* Sample Rate = 48000 */ -extern int16_t CRendBin_FOA_HRIR_max_num_iterations_48kHz; -extern uint16_t CRendBin_FOA_HRIR_num_iterations_48kHz[4][BINAURAL_CHANNELS]; -extern uint16_t CRendBin_FOA_HRIR_num_iterations_diffuse_48kHz[BINAURAL_CHANNELS]; -extern uint16_t CRendBin_FOA_HRIR_pIndex_frequency_max_48kHz[4][BINAURAL_CHANNELS][1]; -extern uint16_t CRendBin_FOA_HRIR_index_frequency_max_diffuse_48kHz; +extern Word16 CRendBin_FOA_HRIR_max_num_iterations_48kHz; +extern UWord16 CRendBin_FOA_HRIR_num_iterations_48kHz[4][BINAURAL_CHANNELS]; +extern UWord16 CRendBin_FOA_HRIR_num_iterations_diffuse_48kHz[BINAURAL_CHANNELS]; +extern UWord16 CRendBin_FOA_HRIR_pIndex_frequency_max_48kHz[4][BINAURAL_CHANNELS][1]; +extern UWord16 CRendBin_FOA_HRIR_index_frequency_max_diffuse_48kHz; extern Word16 CRendBin_FOA_HRIR_inv_diffuse_weight_48kHz_fx[4]; -extern uint16_t *CRendBin_FOA_HRIR_pIndex_frequency_max_diffuse_48kHz[BINAURAL_CHANNELS]; +extern UWord16 *CRendBin_FOA_HRIR_pIndex_frequency_max_diffuse_48kHz[BINAURAL_CHANNELS]; extern Word32 CRendBin_FOA_HRIR_coeff_re_48kHz_fx[4][BINAURAL_CHANNELS][240]; extern Word32 CRendBin_FOA_HRIR_coeff_im_48kHz_fx[4][BINAURAL_CHANNELS][240]; extern Word32 *CRendBin_FOA_HRIR_coeff_diffuse_re_48kHz_fx[BINAURAL_CHANNELS]; @@ -119,13 +119,13 @@ extern Word32 *CRendBin_FOA_HRIR_coeff_diffuse_im_48kHz_fx[BINAURAL_CHANNELS]; /* Sample Rate = 32000 */ -extern int16_t CRendBin_FOA_HRIR_max_num_iterations_32kHz; -extern uint16_t CRendBin_FOA_HRIR_num_iterations_32kHz[4][BINAURAL_CHANNELS]; -extern uint16_t CRendBin_FOA_HRIR_num_iterations_diffuse_32kHz[BINAURAL_CHANNELS]; -extern uint16_t CRendBin_FOA_HRIR_pIndex_frequency_max_32kHz[4][BINAURAL_CHANNELS][1]; -extern uint16_t CRendBin_FOA_HRIR_index_frequency_max_diffuse_32kHz; +extern Word16 CRendBin_FOA_HRIR_max_num_iterations_32kHz; +extern UWord16 CRendBin_FOA_HRIR_num_iterations_32kHz[4][BINAURAL_CHANNELS]; +extern UWord16 CRendBin_FOA_HRIR_num_iterations_diffuse_32kHz[BINAURAL_CHANNELS]; +extern UWord16 CRendBin_FOA_HRIR_pIndex_frequency_max_32kHz[4][BINAURAL_CHANNELS][1]; +extern UWord16 CRendBin_FOA_HRIR_index_frequency_max_diffuse_32kHz; extern Word16 CRendBin_FOA_HRIR_inv_diffuse_weight_32kHz_fx[4]; -extern uint16_t *CRendBin_FOA_HRIR_pIndex_frequency_max_diffuse_32kHz[BINAURAL_CHANNELS]; +extern UWord16 *CRendBin_FOA_HRIR_pIndex_frequency_max_diffuse_32kHz[BINAURAL_CHANNELS]; extern Word32 CRendBin_FOA_HRIR_coeff_re_32kHz_fx[4][BINAURAL_CHANNELS][160]; extern Word32 CRendBin_FOA_HRIR_coeff_im_32kHz_fx[4][BINAURAL_CHANNELS][160]; extern Word32 *CRendBin_FOA_HRIR_coeff_diffuse_re_32kHz_fx[BINAURAL_CHANNELS]; @@ -133,13 +133,13 @@ extern Word32 *CRendBin_FOA_HRIR_coeff_diffuse_im_32kHz_fx[BINAURAL_CHANNELS]; /* Sample Rate = 16000 */ -extern int16_t CRendBin_FOA_HRIR_max_num_iterations_16kHz; -extern uint16_t CRendBin_FOA_HRIR_num_iterations_16kHz[4][BINAURAL_CHANNELS]; -extern uint16_t CRendBin_FOA_HRIR_num_iterations_diffuse_16kHz[BINAURAL_CHANNELS]; -extern uint16_t CRendBin_FOA_HRIR_pIndex_frequency_max_16kHz[4][BINAURAL_CHANNELS][1]; -extern uint16_t CRendBin_FOA_HRIR_index_frequency_max_diffuse_16kHz; +extern Word16 CRendBin_FOA_HRIR_max_num_iterations_16kHz; +extern UWord16 CRendBin_FOA_HRIR_num_iterations_16kHz[4][BINAURAL_CHANNELS]; +extern UWord16 CRendBin_FOA_HRIR_num_iterations_diffuse_16kHz[BINAURAL_CHANNELS]; +extern UWord16 CRendBin_FOA_HRIR_pIndex_frequency_max_16kHz[4][BINAURAL_CHANNELS][1]; +extern UWord16 CRendBin_FOA_HRIR_index_frequency_max_diffuse_16kHz; extern Word16 CRendBin_FOA_HRIR_inv_diffuse_weight_16kHz_fx[4]; -extern uint16_t *CRendBin_FOA_HRIR_pIndex_frequency_max_diffuse_16kHz[BINAURAL_CHANNELS]; +extern UWord16 *CRendBin_FOA_HRIR_pIndex_frequency_max_diffuse_16kHz[BINAURAL_CHANNELS]; extern Word32 CRendBin_FOA_HRIR_coeff_re_16kHz_fx[4][BINAURAL_CHANNELS][80]; extern Word32 CRendBin_FOA_HRIR_coeff_im_16kHz_fx[4][BINAURAL_CHANNELS][80]; extern Word32 *CRendBin_FOA_HRIR_coeff_diffuse_re_16kHz_fx[BINAURAL_CHANNELS]; @@ -153,13 +153,13 @@ extern Word32 CRendBin_HOA2_HRIR_latency_s_fx; /* Sample Rate = 48000 */ -extern int16_t CRendBin_HOA2_HRIR_max_num_iterations_48kHz; -extern uint16_t CRendBin_HOA2_HRIR_num_iterations_48kHz[9][BINAURAL_CHANNELS]; -extern uint16_t CRendBin_HOA2_HRIR_num_iterations_diffuse_48kHz[BINAURAL_CHANNELS]; -extern uint16_t CRendBin_HOA2_HRIR_pIndex_frequency_max_48kHz[9][BINAURAL_CHANNELS][1]; -extern uint16_t CRendBin_HOA2_HRIR_index_frequency_max_diffuse_48kHz; +extern Word16 CRendBin_HOA2_HRIR_max_num_iterations_48kHz; +extern UWord16 CRendBin_HOA2_HRIR_num_iterations_48kHz[9][BINAURAL_CHANNELS]; +extern UWord16 CRendBin_HOA2_HRIR_num_iterations_diffuse_48kHz[BINAURAL_CHANNELS]; +extern UWord16 CRendBin_HOA2_HRIR_pIndex_frequency_max_48kHz[9][BINAURAL_CHANNELS][1]; +extern UWord16 CRendBin_HOA2_HRIR_index_frequency_max_diffuse_48kHz; extern Word16 CRendBin_HOA2_HRIR_inv_diffuse_weight_48kHz_fx[9]; -extern uint16_t *CRendBin_HOA2_HRIR_pIndex_frequency_max_diffuse_48kHz[BINAURAL_CHANNELS]; +extern UWord16 *CRendBin_HOA2_HRIR_pIndex_frequency_max_diffuse_48kHz[BINAURAL_CHANNELS]; extern Word32 CRendBin_HOA2_HRIR_coeff_re_48kHz_fx[9][BINAURAL_CHANNELS][240]; extern Word32 CRendBin_HOA2_HRIR_coeff_im_48kHz_fx[9][BINAURAL_CHANNELS][240]; extern Word32 *CRendBin_HOA2_HRIR_coeff_diffuse_re_48kHz_fx[BINAURAL_CHANNELS]; @@ -167,13 +167,13 @@ extern Word32 *CRendBin_HOA2_HRIR_coeff_diffuse_im_48kHz_fx[BINAURAL_CHANNELS]; /* Sample Rate = 32000 */ -extern int16_t CRendBin_HOA2_HRIR_max_num_iterations_32kHz; -extern uint16_t CRendBin_HOA2_HRIR_num_iterations_32kHz[9][BINAURAL_CHANNELS]; -extern uint16_t CRendBin_HOA2_HRIR_num_iterations_diffuse_32kHz[BINAURAL_CHANNELS]; -extern uint16_t CRendBin_HOA2_HRIR_pIndex_frequency_max_32kHz[9][BINAURAL_CHANNELS][1]; -extern uint16_t CRendBin_HOA2_HRIR_index_frequency_max_diffuse_32kHz; +extern Word16 CRendBin_HOA2_HRIR_max_num_iterations_32kHz; +extern UWord16 CRendBin_HOA2_HRIR_num_iterations_32kHz[9][BINAURAL_CHANNELS]; +extern UWord16 CRendBin_HOA2_HRIR_num_iterations_diffuse_32kHz[BINAURAL_CHANNELS]; +extern UWord16 CRendBin_HOA2_HRIR_pIndex_frequency_max_32kHz[9][BINAURAL_CHANNELS][1]; +extern UWord16 CRendBin_HOA2_HRIR_index_frequency_max_diffuse_32kHz; extern Word16 CRendBin_HOA2_HRIR_inv_diffuse_weight_32kHz_fx[9]; -extern uint16_t *CRendBin_HOA2_HRIR_pIndex_frequency_max_diffuse_32kHz[BINAURAL_CHANNELS]; +extern UWord16 *CRendBin_HOA2_HRIR_pIndex_frequency_max_diffuse_32kHz[BINAURAL_CHANNELS]; extern Word32 CRendBin_HOA2_HRIR_coeff_re_32kHz_fx[9][BINAURAL_CHANNELS][160]; extern Word32 CRendBin_HOA2_HRIR_coeff_im_32kHz_fx[9][BINAURAL_CHANNELS][160]; extern Word32 *CRendBin_HOA2_HRIR_coeff_diffuse_re_32kHz_fx[BINAURAL_CHANNELS]; @@ -181,13 +181,13 @@ extern Word32 *CRendBin_HOA2_HRIR_coeff_diffuse_im_32kHz_fx[BINAURAL_CHANNELS]; /* Sample Rate = 16000 */ -extern int16_t CRendBin_HOA2_HRIR_max_num_iterations_16kHz; -extern uint16_t CRendBin_HOA2_HRIR_num_iterations_16kHz[9][BINAURAL_CHANNELS]; -extern uint16_t CRendBin_HOA2_HRIR_num_iterations_diffuse_16kHz[BINAURAL_CHANNELS]; -extern uint16_t CRendBin_HOA2_HRIR_pIndex_frequency_max_16kHz[9][BINAURAL_CHANNELS][1]; -extern uint16_t CRendBin_HOA2_HRIR_index_frequency_max_diffuse_16kHz; +extern Word16 CRendBin_HOA2_HRIR_max_num_iterations_16kHz; +extern UWord16 CRendBin_HOA2_HRIR_num_iterations_16kHz[9][BINAURAL_CHANNELS]; +extern UWord16 CRendBin_HOA2_HRIR_num_iterations_diffuse_16kHz[BINAURAL_CHANNELS]; +extern UWord16 CRendBin_HOA2_HRIR_pIndex_frequency_max_16kHz[9][BINAURAL_CHANNELS][1]; +extern UWord16 CRendBin_HOA2_HRIR_index_frequency_max_diffuse_16kHz; extern Word16 CRendBin_HOA2_HRIR_inv_diffuse_weight_16kHz_fx[9]; -extern uint16_t *CRendBin_HOA2_HRIR_pIndex_frequency_max_diffuse_16kHz[BINAURAL_CHANNELS]; +extern UWord16 *CRendBin_HOA2_HRIR_pIndex_frequency_max_diffuse_16kHz[BINAURAL_CHANNELS]; extern Word32 CRendBin_HOA2_HRIR_coeff_re_16kHz_fx[9][BINAURAL_CHANNELS][80]; extern Word32 CRendBin_HOA2_HRIR_coeff_im_16kHz_fx[9][BINAURAL_CHANNELS][80]; extern Word32 *CRendBin_HOA2_HRIR_coeff_diffuse_re_16kHz_fx[BINAURAL_CHANNELS]; @@ -200,13 +200,13 @@ extern Word32 CRendBin_HOA3_HRIR_latency_s_fx; /* Sample Rate = 48000 */ -extern int16_t CRendBin_HOA3_HRIR_max_num_iterations_48kHz; -extern uint16_t CRendBin_HOA3_HRIR_num_iterations_48kHz[16][BINAURAL_CHANNELS]; -extern uint16_t CRendBin_HOA3_HRIR_num_iterations_diffuse_48kHz[BINAURAL_CHANNELS]; -extern uint16_t CRendBin_HOA3_HRIR_pIndex_frequency_max_48kHz[16][BINAURAL_CHANNELS][1]; -extern uint16_t CRendBin_HOA3_HRIR_index_frequency_max_diffuse_48kHz; +extern Word16 CRendBin_HOA3_HRIR_max_num_iterations_48kHz; +extern UWord16 CRendBin_HOA3_HRIR_num_iterations_48kHz[16][BINAURAL_CHANNELS]; +extern UWord16 CRendBin_HOA3_HRIR_num_iterations_diffuse_48kHz[BINAURAL_CHANNELS]; +extern UWord16 CRendBin_HOA3_HRIR_pIndex_frequency_max_48kHz[16][BINAURAL_CHANNELS][1]; +extern UWord16 CRendBin_HOA3_HRIR_index_frequency_max_diffuse_48kHz; extern Word16 CRendBin_HOA3_HRIR_inv_diffuse_weight_48kHz_fx[16]; -extern uint16_t *CRendBin_HOA3_HRIR_pIndex_frequency_max_diffuse_48kHz[BINAURAL_CHANNELS]; +extern UWord16 *CRendBin_HOA3_HRIR_pIndex_frequency_max_diffuse_48kHz[BINAURAL_CHANNELS]; extern Word32 CRendBin_HOA3_HRIR_coeff_re_48kHz_fx[16][BINAURAL_CHANNELS][240]; extern Word32 CRendBin_HOA3_HRIR_coeff_im_48kHz_fx[16][BINAURAL_CHANNELS][240]; extern Word32 *CRendBin_HOA3_HRIR_coeff_diffuse_re_48kHz_fx[BINAURAL_CHANNELS]; @@ -214,13 +214,13 @@ extern Word32 *CRendBin_HOA3_HRIR_coeff_diffuse_im_48kHz_fx[BINAURAL_CHANNELS]; /* Sample Rate = 32000 */ -extern int16_t CRendBin_HOA3_HRIR_max_num_iterations_32kHz; -extern uint16_t CRendBin_HOA3_HRIR_num_iterations_32kHz[16][BINAURAL_CHANNELS]; -extern uint16_t CRendBin_HOA3_HRIR_num_iterations_diffuse_32kHz[BINAURAL_CHANNELS]; -extern uint16_t CRendBin_HOA3_HRIR_pIndex_frequency_max_32kHz[16][BINAURAL_CHANNELS][1]; -extern uint16_t CRendBin_HOA3_HRIR_index_frequency_max_diffuse_32kHz; +extern Word16 CRendBin_HOA3_HRIR_max_num_iterations_32kHz; +extern UWord16 CRendBin_HOA3_HRIR_num_iterations_32kHz[16][BINAURAL_CHANNELS]; +extern UWord16 CRendBin_HOA3_HRIR_num_iterations_diffuse_32kHz[BINAURAL_CHANNELS]; +extern UWord16 CRendBin_HOA3_HRIR_pIndex_frequency_max_32kHz[16][BINAURAL_CHANNELS][1]; +extern UWord16 CRendBin_HOA3_HRIR_index_frequency_max_diffuse_32kHz; extern Word16 CRendBin_HOA3_HRIR_inv_diffuse_weight_32kHz_fx[16]; -extern uint16_t *CRendBin_HOA3_HRIR_pIndex_frequency_max_diffuse_32kHz[BINAURAL_CHANNELS]; +extern UWord16 *CRendBin_HOA3_HRIR_pIndex_frequency_max_diffuse_32kHz[BINAURAL_CHANNELS]; extern Word32 CRendBin_HOA3_HRIR_coeff_re_32kHz_fx[16][BINAURAL_CHANNELS][160]; extern Word32 CRendBin_HOA3_HRIR_coeff_im_32kHz_fx[16][BINAURAL_CHANNELS][160]; extern Word32 *CRendBin_HOA3_HRIR_coeff_diffuse_re_32kHz_fx[BINAURAL_CHANNELS]; @@ -228,13 +228,13 @@ extern Word32 *CRendBin_HOA3_HRIR_coeff_diffuse_im_32kHz_fx[BINAURAL_CHANNELS]; /* Sample Rate = 16000 */ -extern int16_t CRendBin_HOA3_HRIR_max_num_iterations_16kHz; -extern uint16_t CRendBin_HOA3_HRIR_num_iterations_16kHz[16][BINAURAL_CHANNELS]; -extern uint16_t CRendBin_HOA3_HRIR_num_iterations_diffuse_16kHz[BINAURAL_CHANNELS]; -extern uint16_t CRendBin_HOA3_HRIR_pIndex_frequency_max_16kHz[16][BINAURAL_CHANNELS][1]; -extern uint16_t CRendBin_HOA3_HRIR_index_frequency_max_diffuse_16kHz; +extern Word16 CRendBin_HOA3_HRIR_max_num_iterations_16kHz; +extern UWord16 CRendBin_HOA3_HRIR_num_iterations_16kHz[16][BINAURAL_CHANNELS]; +extern UWord16 CRendBin_HOA3_HRIR_num_iterations_diffuse_16kHz[BINAURAL_CHANNELS]; +extern UWord16 CRendBin_HOA3_HRIR_pIndex_frequency_max_16kHz[16][BINAURAL_CHANNELS][1]; +extern UWord16 CRendBin_HOA3_HRIR_index_frequency_max_diffuse_16kHz; extern Word16 CRendBin_HOA3_HRIR_inv_diffuse_weight_16kHz_fx[16]; -extern uint16_t *CRendBin_HOA3_HRIR_pIndex_frequency_max_diffuse_16kHz[BINAURAL_CHANNELS]; +extern UWord16 *CRendBin_HOA3_HRIR_pIndex_frequency_max_diffuse_16kHz[BINAURAL_CHANNELS]; extern Word32 CRendBin_HOA3_HRIR_coeff_re_16kHz_fx[16][BINAURAL_CHANNELS][80]; extern Word32 CRendBin_HOA3_HRIR_coeff_im_16kHz_fx[16][BINAURAL_CHANNELS][80]; extern Word32 *CRendBin_HOA3_HRIR_coeff_diffuse_re_16kHz_fx[BINAURAL_CHANNELS]; @@ -248,13 +248,13 @@ extern Word32 CRendBin_Combined_BRIR_latency_s_fx; /* Sample Rate = 48000 */ -extern int16_t CRendBin_Combined_BRIR_max_num_iterations_48kHz; -extern uint16_t CRendBin_Combined_BRIR_num_iterations_48kHz[15][BINAURAL_CHANNELS]; -extern uint16_t CRendBin_Combined_BRIR_num_iterations_diffuse_48kHz[BINAURAL_CHANNELS]; -extern uint16_t CRendBin_Combined_BRIR_pIndex_frequency_max_48kHz[15][BINAURAL_CHANNELS][22]; -extern uint16_t CRendBin_Combined_BRIR_index_frequency_max_diffuse_48kHz; +extern Word16 CRendBin_Combined_BRIR_max_num_iterations_48kHz; +extern UWord16 CRendBin_Combined_BRIR_num_iterations_48kHz[15][BINAURAL_CHANNELS]; +extern UWord16 CRendBin_Combined_BRIR_num_iterations_diffuse_48kHz[BINAURAL_CHANNELS]; +extern UWord16 CRendBin_Combined_BRIR_pIndex_frequency_max_48kHz[15][BINAURAL_CHANNELS][22]; +extern UWord16 CRendBin_Combined_BRIR_index_frequency_max_diffuse_48kHz; extern Word16 CRendBin_Combined_BRIR_inv_diffuse_weight_48kHz_fx[15]; -extern uint16_t CRendBin_Combined_BRIR_pIndex_frequency_max_diffuse_48kHz[BINAURAL_CHANNELS][40]; +extern UWord16 CRendBin_Combined_BRIR_pIndex_frequency_max_diffuse_48kHz[BINAURAL_CHANNELS][40]; extern Word32 CRendBin_Combined_BRIR_coeff_re_48kHz_fx[15][BINAURAL_CHANNELS][2955]; extern Word32 CRendBin_Combined_BRIR_coeff_im_48kHz_fx[15][BINAURAL_CHANNELS][2955]; extern Word32 CRendBin_Combined_BRIR_coeff_diffuse_re_48kHz_fx[BINAURAL_CHANNELS][2885]; @@ -262,13 +262,13 @@ extern Word32 CRendBin_Combined_BRIR_coeff_diffuse_im_48kHz_fx[BINAURAL_CHANNELS /* Sample Rate = 32000 */ -extern int16_t CRendBin_Combined_BRIR_max_num_iterations_32kHz; -extern uint16_t CRendBin_Combined_BRIR_num_iterations_32kHz[15][BINAURAL_CHANNELS]; -extern uint16_t CRendBin_Combined_BRIR_num_iterations_diffuse_32kHz[BINAURAL_CHANNELS]; -extern uint16_t CRendBin_Combined_BRIR_pIndex_frequency_max_32kHz[15][BINAURAL_CHANNELS][22]; -extern uint16_t CRendBin_Combined_BRIR_index_frequency_max_diffuse_32kHz; +extern Word16 CRendBin_Combined_BRIR_max_num_iterations_32kHz; +extern UWord16 CRendBin_Combined_BRIR_num_iterations_32kHz[15][BINAURAL_CHANNELS]; +extern UWord16 CRendBin_Combined_BRIR_num_iterations_diffuse_32kHz[BINAURAL_CHANNELS]; +extern UWord16 CRendBin_Combined_BRIR_pIndex_frequency_max_32kHz[15][BINAURAL_CHANNELS][22]; +extern UWord16 CRendBin_Combined_BRIR_index_frequency_max_diffuse_32kHz; extern Word16 CRendBin_Combined_BRIR_inv_diffuse_weight_32kHz_fx[15]; -extern uint16_t CRendBin_Combined_BRIR_pIndex_frequency_max_diffuse_32kHz[BINAURAL_CHANNELS][40]; +extern UWord16 CRendBin_Combined_BRIR_pIndex_frequency_max_diffuse_32kHz[BINAURAL_CHANNELS][40]; extern Word32 CRendBin_Combined_BRIR_coeff_re_32kHz_fx[15][BINAURAL_CHANNELS][2819]; extern Word32 CRendBin_Combined_BRIR_coeff_im_32kHz_fx[15][BINAURAL_CHANNELS][2819]; extern Word32 CRendBin_Combined_BRIR_coeff_diffuse_re_32kHz_fx[BINAURAL_CHANNELS][2870]; @@ -276,13 +276,13 @@ extern Word32 CRendBin_Combined_BRIR_coeff_diffuse_im_32kHz_fx[BINAURAL_CHANNELS /* Sample Rate = 16000 */ -extern int16_t CRendBin_Combined_BRIR_max_num_iterations_16kHz; -extern uint16_t CRendBin_Combined_BRIR_num_iterations_16kHz[15][BINAURAL_CHANNELS]; -extern uint16_t CRendBin_Combined_BRIR_num_iterations_diffuse_16kHz[BINAURAL_CHANNELS]; -extern uint16_t CRendBin_Combined_BRIR_pIndex_frequency_max_16kHz[15][BINAURAL_CHANNELS][23]; -extern uint16_t CRendBin_Combined_BRIR_index_frequency_max_diffuse_16kHz; +extern Word16 CRendBin_Combined_BRIR_max_num_iterations_16kHz; +extern UWord16 CRendBin_Combined_BRIR_num_iterations_16kHz[15][BINAURAL_CHANNELS]; +extern UWord16 CRendBin_Combined_BRIR_num_iterations_diffuse_16kHz[BINAURAL_CHANNELS]; +extern UWord16 CRendBin_Combined_BRIR_pIndex_frequency_max_16kHz[15][BINAURAL_CHANNELS][23]; +extern UWord16 CRendBin_Combined_BRIR_index_frequency_max_diffuse_16kHz; extern Word16 CRendBin_Combined_BRIR_inv_diffuse_weight_16kHz_fx[15]; -extern uint16_t CRendBin_Combined_BRIR_pIndex_frequency_max_diffuse_16kHz[BINAURAL_CHANNELS][40]; +extern UWord16 CRendBin_Combined_BRIR_pIndex_frequency_max_diffuse_16kHz[BINAURAL_CHANNELS][40]; extern Word32 CRendBin_Combined_BRIR_coeff_re_16kHz_fx[15][BINAURAL_CHANNELS][1774]; extern Word32 CRendBin_Combined_BRIR_coeff_im_16kHz_fx[15][BINAURAL_CHANNELS][1774]; extern Word32 CRendBin_Combined_BRIR_coeff_diffuse_re_16kHz_fx[BINAURAL_CHANNELS][2522]; diff --git a/lib_rend/ivas_rom_binaural_crend_head.c b/lib_rend/ivas_rom_binaural_crend_head_fx.c similarity index 99% rename from lib_rend/ivas_rom_binaural_crend_head.c rename to lib_rend/ivas_rom_binaural_crend_head_fx.c index 068ce09272825eac1fc872221a8320cc3156fe65..be015058b11ea110a13953c52676ad6ac5cdc9b3 100644 --- a/lib_rend/ivas_rom_binaural_crend_head.c +++ b/lib_rend/ivas_rom_binaural_crend_head_fx.c @@ -56,35 +56,35 @@ const Word32 CRendBin_Combined_HRIR_latency_s_fx = 44741;/*Q-31*/ /* Sample Rate = 48000 */ -const int16_t CRendBin_Combined_HRIR_max_num_iterations_48kHz = 1; -const uint16_t CRendBin_Combined_HRIR_num_iterations_48kHz[15][BINAURAL_CHANNELS]={{1, 1}, {1, 1}, {1, 1}, {1, 1}, {1, 1}, {1, 1}, {1, 1}, {1, 1}, {1, 1}, {1, 1}, {1, 1}, {1, 1}, {1, 1}, {1, 1}, {1, 1} }; -const uint16_t CRendBin_Combined_HRIR_num_iterations_diffuse_48kHz[BINAURAL_CHANNELS] = {0, 0}; -const uint16_t CRendBin_Combined_HRIR_pIndex_frequency_max_48kHz[15][BINAURAL_CHANNELS][1]={{{240},{240}},{{240},{240}},{{240},{240}},{{240},{240}},{{240},{240}},{{240},{240}},{{240},{240}},{{240},{240}},{{240},{240}},{{240},{240}},{{240},{240}},{{240},{240}},{{240},{240}},{{240},{240}},{{240},{240}}}; -const uint16_t CRendBin_Combined_HRIR_index_frequency_max_diffuse_48kHz = 0; +const Word16 CRendBin_Combined_HRIR_max_num_iterations_48kHz = 1; +const UWord16 CRendBin_Combined_HRIR_num_iterations_48kHz[15][BINAURAL_CHANNELS]={{1, 1}, {1, 1}, {1, 1}, {1, 1}, {1, 1}, {1, 1}, {1, 1}, {1, 1}, {1, 1}, {1, 1}, {1, 1}, {1, 1}, {1, 1}, {1, 1}, {1, 1} }; +const UWord16 CRendBin_Combined_HRIR_num_iterations_diffuse_48kHz[BINAURAL_CHANNELS] = {0, 0}; +const UWord16 CRendBin_Combined_HRIR_pIndex_frequency_max_48kHz[15][BINAURAL_CHANNELS][1]={{{240},{240}},{{240},{240}},{{240},{240}},{{240},{240}},{{240},{240}},{{240},{240}},{{240},{240}},{{240},{240}},{{240},{240}},{{240},{240}},{{240},{240}},{{240},{240}},{{240},{240}},{{240},{240}},{{240},{240}}}; +const UWord16 CRendBin_Combined_HRIR_index_frequency_max_diffuse_48kHz = 0; const Word16 CRendBin_Combined_HRIR_inv_diffuse_weight_48kHz_fx[15]={0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0,}; -const uint16_t *CRendBin_Combined_HRIR_pIndex_frequency_max_diffuse_48kHz[BINAURAL_CHANNELS]={NULL,NULL}; +const UWord16 *CRendBin_Combined_HRIR_pIndex_frequency_max_diffuse_48kHz[BINAURAL_CHANNELS]={NULL,NULL}; const Word32 *CRendBin_Combined_HRIR_coeff_diffuse_re_48kHz_fx[BINAURAL_CHANNELS]={NULL,NULL}; const Word32 *CRendBin_Combined_HRIR_coeff_diffuse_im_48kHz_fx[BINAURAL_CHANNELS]={NULL,NULL}; /* Sample Rate = 32000 */ -const int16_t CRendBin_Combined_HRIR_max_num_iterations_32kHz = 1; -const uint16_t CRendBin_Combined_HRIR_num_iterations_32kHz[15][BINAURAL_CHANNELS]={{1, 1}, {1, 1}, {1, 1}, {1, 1}, {1, 1}, {1, 1}, {1, 1}, {1, 1}, {1, 1}, {1, 1}, {1, 1}, {1, 1}, {1, 1}, {1, 1}, {1, 1} }; -const uint16_t CRendBin_Combined_HRIR_num_iterations_diffuse_32kHz[BINAURAL_CHANNELS] = {0, 0}; -const uint16_t CRendBin_Combined_HRIR_pIndex_frequency_max_32kHz[15][BINAURAL_CHANNELS][1]={{{160},{160}},{{160},{160}},{{160},{160}},{{160},{160}},{{160},{160}},{{160},{160}},{{160},{160}},{{160},{160}},{{160},{160}},{{160},{160}},{{160},{160}},{{160},{160}},{{160},{160}},{{160},{160}},{{160},{160}}}; -const uint16_t CRendBin_Combined_HRIR_index_frequency_max_diffuse_32kHz = 0; +const Word16 CRendBin_Combined_HRIR_max_num_iterations_32kHz = 1; +const UWord16 CRendBin_Combined_HRIR_num_iterations_32kHz[15][BINAURAL_CHANNELS]={{1, 1}, {1, 1}, {1, 1}, {1, 1}, {1, 1}, {1, 1}, {1, 1}, {1, 1}, {1, 1}, {1, 1}, {1, 1}, {1, 1}, {1, 1}, {1, 1}, {1, 1} }; +const UWord16 CRendBin_Combined_HRIR_num_iterations_diffuse_32kHz[BINAURAL_CHANNELS] = {0, 0}; +const UWord16 CRendBin_Combined_HRIR_pIndex_frequency_max_32kHz[15][BINAURAL_CHANNELS][1]={{{160},{160}},{{160},{160}},{{160},{160}},{{160},{160}},{{160},{160}},{{160},{160}},{{160},{160}},{{160},{160}},{{160},{160}},{{160},{160}},{{160},{160}},{{160},{160}},{{160},{160}},{{160},{160}},{{160},{160}}}; +const UWord16 CRendBin_Combined_HRIR_index_frequency_max_diffuse_32kHz = 0; const Word16 CRendBin_Combined_HRIR_inv_diffuse_weight_32kHz_fx[15]={0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0,}; -const uint16_t *CRendBin_Combined_HRIR_pIndex_frequency_max_diffuse_32kHz[BINAURAL_CHANNELS]={NULL,NULL}; +const UWord16 *CRendBin_Combined_HRIR_pIndex_frequency_max_diffuse_32kHz[BINAURAL_CHANNELS]={NULL,NULL}; const Word32 *CRendBin_Combined_HRIR_coeff_diffuse_re_32kHz_fx[BINAURAL_CHANNELS]={NULL,NULL}; const Word32 *CRendBin_Combined_HRIR_coeff_diffuse_im_32kHz_fx[BINAURAL_CHANNELS]={NULL,NULL}; /* Sample Rate = 16000 */ -const int16_t CRendBin_Combined_HRIR_max_num_iterations_16kHz = 1; -const uint16_t CRendBin_Combined_HRIR_num_iterations_16kHz[15][BINAURAL_CHANNELS]={{1, 1}, {1, 1}, {1, 1}, {1, 1}, {1, 1}, {1, 1}, {1, 1}, {1, 1}, {1, 1}, {1, 1}, {1, 1}, {1, 1}, {1, 1}, {1, 1}, {1, 1} }; -const uint16_t CRendBin_Combined_HRIR_num_iterations_diffuse_16kHz[BINAURAL_CHANNELS] = {0, 0}; -const uint16_t CRendBin_Combined_HRIR_pIndex_frequency_max_16kHz[15][BINAURAL_CHANNELS][1]={{{80},{80}},{{80},{80}},{{80},{80}},{{80},{80}},{{80},{80}},{{80},{80}},{{80},{80}},{{80},{80}},{{80},{80}},{{80},{80}},{{80},{80}},{{80},{80}},{{80},{80}},{{80},{80}},{{80},{80}}}; -const uint16_t CRendBin_Combined_HRIR_index_frequency_max_diffuse_16kHz = 0; +const Word16 CRendBin_Combined_HRIR_max_num_iterations_16kHz = 1; +const UWord16 CRendBin_Combined_HRIR_num_iterations_16kHz[15][BINAURAL_CHANNELS]={{1, 1}, {1, 1}, {1, 1}, {1, 1}, {1, 1}, {1, 1}, {1, 1}, {1, 1}, {1, 1}, {1, 1}, {1, 1}, {1, 1}, {1, 1}, {1, 1}, {1, 1} }; +const UWord16 CRendBin_Combined_HRIR_num_iterations_diffuse_16kHz[BINAURAL_CHANNELS] = {0, 0}; +const UWord16 CRendBin_Combined_HRIR_pIndex_frequency_max_16kHz[15][BINAURAL_CHANNELS][1]={{{80},{80}},{{80},{80}},{{80},{80}},{{80},{80}},{{80},{80}},{{80},{80}},{{80},{80}},{{80},{80}},{{80},{80}},{{80},{80}},{{80},{80}},{{80},{80}},{{80},{80}},{{80},{80}},{{80},{80}}}; +const UWord16 CRendBin_Combined_HRIR_index_frequency_max_diffuse_16kHz = 0; const Word16 CRendBin_Combined_HRIR_inv_diffuse_weight_16kHz_fx[15]={0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0,}; -const uint16_t *CRendBin_Combined_HRIR_pIndex_frequency_max_diffuse_16kHz[BINAURAL_CHANNELS]={NULL,NULL}; +const UWord16 *CRendBin_Combined_HRIR_pIndex_frequency_max_diffuse_16kHz[BINAURAL_CHANNELS]={NULL,NULL}; const Word32 *CRendBin_Combined_HRIR_coeff_diffuse_re_16kHz_fx[BINAURAL_CHANNELS]={NULL,NULL}; const Word32 *CRendBin_Combined_HRIR_coeff_diffuse_im_16kHz_fx[BINAURAL_CHANNELS]={NULL,NULL}; @@ -96,35 +96,35 @@ const Word32 CRendBin_FOA_HRIR_latency_s_fx = 44741; // Q31 /* Sample Rate = 48000 */ -const int16_t CRendBin_FOA_HRIR_max_num_iterations_48kHz = 1; -const uint16_t CRendBin_FOA_HRIR_num_iterations_48kHz[4][BINAURAL_CHANNELS]={{1, 1}, {1, 1}, {1, 1}, {1, 1} }; -const uint16_t CRendBin_FOA_HRIR_num_iterations_diffuse_48kHz[BINAURAL_CHANNELS] = {0, 0}; -const uint16_t CRendBin_FOA_HRIR_pIndex_frequency_max_48kHz[4][BINAURAL_CHANNELS][1]={{{240},{240}},{{240},{240}},{{240},{240}},{{240},{240}}}; -const uint16_t CRendBin_FOA_HRIR_index_frequency_max_diffuse_48kHz = 0; +const Word16 CRendBin_FOA_HRIR_max_num_iterations_48kHz = 1; +const UWord16 CRendBin_FOA_HRIR_num_iterations_48kHz[4][BINAURAL_CHANNELS]={{1, 1}, {1, 1}, {1, 1}, {1, 1} }; +const UWord16 CRendBin_FOA_HRIR_num_iterations_diffuse_48kHz[BINAURAL_CHANNELS] = {0, 0}; +const UWord16 CRendBin_FOA_HRIR_pIndex_frequency_max_48kHz[4][BINAURAL_CHANNELS][1]={{{240},{240}},{{240},{240}},{{240},{240}},{{240},{240}}}; +const UWord16 CRendBin_FOA_HRIR_index_frequency_max_diffuse_48kHz = 0; const Word16 CRendBin_FOA_HRIR_inv_diffuse_weight_48kHz_fx[4]={0, 0, 0, 0}; -const uint16_t *CRendBin_FOA_HRIR_pIndex_frequency_max_diffuse_48kHz[BINAURAL_CHANNELS]={NULL,NULL}; +const UWord16 *CRendBin_FOA_HRIR_pIndex_frequency_max_diffuse_48kHz[BINAURAL_CHANNELS]={NULL,NULL}; const Word32 *CRendBin_FOA_HRIR_coeff_diffuse_re_48kHz_fx[BINAURAL_CHANNELS]={NULL,NULL}; const Word32 *CRendBin_FOA_HRIR_coeff_diffuse_im_48kHz_fx[BINAURAL_CHANNELS]={NULL,NULL}; /* Sample Rate = 32000 */ -const int16_t CRendBin_FOA_HRIR_max_num_iterations_32kHz = 1; -const uint16_t CRendBin_FOA_HRIR_num_iterations_32kHz[4][BINAURAL_CHANNELS]={{1, 1}, {1, 1}, {1, 1}, {1, 1} }; -const uint16_t CRendBin_FOA_HRIR_num_iterations_diffuse_32kHz[BINAURAL_CHANNELS] = {0, 0}; -const uint16_t CRendBin_FOA_HRIR_pIndex_frequency_max_32kHz[4][BINAURAL_CHANNELS][1]={{{160},{160}},{{160},{160}},{{160},{160}},{{160},{160}}}; -const uint16_t CRendBin_FOA_HRIR_index_frequency_max_diffuse_32kHz = 0; +const Word16 CRendBin_FOA_HRIR_max_num_iterations_32kHz = 1; +const UWord16 CRendBin_FOA_HRIR_num_iterations_32kHz[4][BINAURAL_CHANNELS]={{1, 1}, {1, 1}, {1, 1}, {1, 1} }; +const UWord16 CRendBin_FOA_HRIR_num_iterations_diffuse_32kHz[BINAURAL_CHANNELS] = {0, 0}; +const UWord16 CRendBin_FOA_HRIR_pIndex_frequency_max_32kHz[4][BINAURAL_CHANNELS][1]={{{160},{160}},{{160},{160}},{{160},{160}},{{160},{160}}}; +const UWord16 CRendBin_FOA_HRIR_index_frequency_max_diffuse_32kHz = 0; const Word16 CRendBin_FOA_HRIR_inv_diffuse_weight_32kHz_fx[4]={0, 0, 0, 0}; -const uint16_t *CRendBin_FOA_HRIR_pIndex_frequency_max_diffuse_32kHz[BINAURAL_CHANNELS]={NULL,NULL}; +const UWord16 *CRendBin_FOA_HRIR_pIndex_frequency_max_diffuse_32kHz[BINAURAL_CHANNELS]={NULL,NULL}; const Word32 *CRendBin_FOA_HRIR_coeff_diffuse_re_32kHz_fx[BINAURAL_CHANNELS]={NULL,NULL}; const Word32 *CRendBin_FOA_HRIR_coeff_diffuse_im_32kHz_fx[BINAURAL_CHANNELS]={NULL,NULL}; /* Sample Rate = 16000 */ -const int16_t CRendBin_FOA_HRIR_max_num_iterations_16kHz = 1; -const uint16_t CRendBin_FOA_HRIR_num_iterations_16kHz[4][BINAURAL_CHANNELS]={{1, 1}, {1, 1}, {1, 1}, {1, 1} }; -const uint16_t CRendBin_FOA_HRIR_num_iterations_diffuse_16kHz[BINAURAL_CHANNELS] = {0, 0}; -const uint16_t CRendBin_FOA_HRIR_pIndex_frequency_max_16kHz[4][BINAURAL_CHANNELS][1]={{{80},{80}},{{80},{80}},{{80},{80}},{{80},{80}}}; -const uint16_t CRendBin_FOA_HRIR_index_frequency_max_diffuse_16kHz = 0; +const Word16 CRendBin_FOA_HRIR_max_num_iterations_16kHz = 1; +const UWord16 CRendBin_FOA_HRIR_num_iterations_16kHz[4][BINAURAL_CHANNELS]={{1, 1}, {1, 1}, {1, 1}, {1, 1} }; +const UWord16 CRendBin_FOA_HRIR_num_iterations_diffuse_16kHz[BINAURAL_CHANNELS] = {0, 0}; +const UWord16 CRendBin_FOA_HRIR_pIndex_frequency_max_16kHz[4][BINAURAL_CHANNELS][1]={{{80},{80}},{{80},{80}},{{80},{80}},{{80},{80}}}; +const UWord16 CRendBin_FOA_HRIR_index_frequency_max_diffuse_16kHz = 0; const Word16 CRendBin_FOA_HRIR_inv_diffuse_weight_16kHz_fx[4]={0, 0, 0, 0}; -const uint16_t *CRendBin_FOA_HRIR_pIndex_frequency_max_diffuse_16kHz[BINAURAL_CHANNELS]={NULL,NULL}; +const UWord16 *CRendBin_FOA_HRIR_pIndex_frequency_max_diffuse_16kHz[BINAURAL_CHANNELS]={NULL,NULL}; const Word32 *CRendBin_FOA_HRIR_coeff_diffuse_re_16kHz_fx[BINAURAL_CHANNELS]={NULL,NULL}; const Word32 *CRendBin_FOA_HRIR_coeff_diffuse_im_16kHz_fx[BINAURAL_CHANNELS]={NULL,NULL}; @@ -135,35 +135,35 @@ const Word32 CRendBin_HOA2_HRIR_latency_s_fx = 44741; // Q31 /* Sample Rate = 48000 */ -const int16_t CRendBin_HOA2_HRIR_max_num_iterations_48kHz = 1; -const uint16_t CRendBin_HOA2_HRIR_num_iterations_48kHz[9][BINAURAL_CHANNELS]={{1, 1}, {1, 1}, {1, 1}, {1, 1}, {1, 1}, {1, 1}, {1, 1}, {1, 1}, {1, 1} }; -const uint16_t CRendBin_HOA2_HRIR_num_iterations_diffuse_48kHz[BINAURAL_CHANNELS] = {0, 0}; -const uint16_t CRendBin_HOA2_HRIR_pIndex_frequency_max_48kHz[9][BINAURAL_CHANNELS][1]={{{240},{240}},{{240},{240}},{{240},{240}},{{240},{240}},{{240},{240}},{{240},{240}},{{240},{240}},{{240},{240}},{{240},{240}}}; -const uint16_t CRendBin_HOA2_HRIR_index_frequency_max_diffuse_48kHz = 0; +const Word16 CRendBin_HOA2_HRIR_max_num_iterations_48kHz = 1; +const UWord16 CRendBin_HOA2_HRIR_num_iterations_48kHz[9][BINAURAL_CHANNELS]={{1, 1}, {1, 1}, {1, 1}, {1, 1}, {1, 1}, {1, 1}, {1, 1}, {1, 1}, {1, 1} }; +const UWord16 CRendBin_HOA2_HRIR_num_iterations_diffuse_48kHz[BINAURAL_CHANNELS] = {0, 0}; +const UWord16 CRendBin_HOA2_HRIR_pIndex_frequency_max_48kHz[9][BINAURAL_CHANNELS][1]={{{240},{240}},{{240},{240}},{{240},{240}},{{240},{240}},{{240},{240}},{{240},{240}},{{240},{240}},{{240},{240}},{{240},{240}}}; +const UWord16 CRendBin_HOA2_HRIR_index_frequency_max_diffuse_48kHz = 0; const Word16 CRendBin_HOA2_HRIR_inv_diffuse_weight_48kHz_fx[9]={0, 0, 0, 0, 0, 0, 0, 0, 0}; -const uint16_t *CRendBin_HOA2_HRIR_pIndex_frequency_max_diffuse_48kHz[BINAURAL_CHANNELS]={NULL,NULL}; +const UWord16 *CRendBin_HOA2_HRIR_pIndex_frequency_max_diffuse_48kHz[BINAURAL_CHANNELS]={NULL,NULL}; const Word32 *CRendBin_HOA2_HRIR_coeff_diffuse_re_48kHz_fx[BINAURAL_CHANNELS]={NULL,NULL}; const Word32 *CRendBin_HOA2_HRIR_coeff_diffuse_im_48kHz_fx[BINAURAL_CHANNELS]={NULL,NULL}; /* Sample Rate = 32000 */ -const int16_t CRendBin_HOA2_HRIR_max_num_iterations_32kHz = 1; -const uint16_t CRendBin_HOA2_HRIR_num_iterations_32kHz[9][BINAURAL_CHANNELS]={{1, 1}, {1, 1}, {1, 1}, {1, 1}, {1, 1}, {1, 1}, {1, 1}, {1, 1}, {1, 1} }; -const uint16_t CRendBin_HOA2_HRIR_num_iterations_diffuse_32kHz[BINAURAL_CHANNELS] = {0, 0}; -const uint16_t CRendBin_HOA2_HRIR_pIndex_frequency_max_32kHz[9][BINAURAL_CHANNELS][1]={{{160},{160}},{{160},{160}},{{160},{160}},{{160},{160}},{{160},{160}},{{160},{160}},{{160},{160}},{{160},{160}},{{160},{160}}}; -const uint16_t CRendBin_HOA2_HRIR_index_frequency_max_diffuse_32kHz = 0; +const Word16 CRendBin_HOA2_HRIR_max_num_iterations_32kHz = 1; +const UWord16 CRendBin_HOA2_HRIR_num_iterations_32kHz[9][BINAURAL_CHANNELS]={{1, 1}, {1, 1}, {1, 1}, {1, 1}, {1, 1}, {1, 1}, {1, 1}, {1, 1}, {1, 1} }; +const UWord16 CRendBin_HOA2_HRIR_num_iterations_diffuse_32kHz[BINAURAL_CHANNELS] = {0, 0}; +const UWord16 CRendBin_HOA2_HRIR_pIndex_frequency_max_32kHz[9][BINAURAL_CHANNELS][1]={{{160},{160}},{{160},{160}},{{160},{160}},{{160},{160}},{{160},{160}},{{160},{160}},{{160},{160}},{{160},{160}},{{160},{160}}}; +const UWord16 CRendBin_HOA2_HRIR_index_frequency_max_diffuse_32kHz = 0; const Word16 CRendBin_HOA2_HRIR_inv_diffuse_weight_32kHz_fx[9]={0, 0, 0, 0, 0, 0, 0, 0, 0}; -const uint16_t *CRendBin_HOA2_HRIR_pIndex_frequency_max_diffuse_32kHz[BINAURAL_CHANNELS]={NULL,NULL}; +const UWord16 *CRendBin_HOA2_HRIR_pIndex_frequency_max_diffuse_32kHz[BINAURAL_CHANNELS]={NULL,NULL}; const Word32 *CRendBin_HOA2_HRIR_coeff_diffuse_re_32kHz_fx[BINAURAL_CHANNELS]={NULL,NULL}; const Word32 *CRendBin_HOA2_HRIR_coeff_diffuse_im_32kHz_fx[BINAURAL_CHANNELS]={NULL,NULL}; /* Sample Rate = 16000 */ -const int16_t CRendBin_HOA2_HRIR_max_num_iterations_16kHz = 1; -const uint16_t CRendBin_HOA2_HRIR_num_iterations_16kHz[9][BINAURAL_CHANNELS]={{1, 1}, {1, 1}, {1, 1}, {1, 1}, {1, 1}, {1, 1}, {1, 1}, {1, 1}, {1, 1} }; -const uint16_t CRendBin_HOA2_HRIR_num_iterations_diffuse_16kHz[BINAURAL_CHANNELS] = {0, 0}; -const uint16_t CRendBin_HOA2_HRIR_pIndex_frequency_max_16kHz[9][BINAURAL_CHANNELS][1]={{{80},{80}},{{80},{80}},{{80},{80}},{{80},{80}},{{80},{80}},{{80},{80}},{{80},{80}},{{80},{80}},{{80},{80}}}; -const uint16_t CRendBin_HOA2_HRIR_index_frequency_max_diffuse_16kHz = 0; +const Word16 CRendBin_HOA2_HRIR_max_num_iterations_16kHz = 1; +const UWord16 CRendBin_HOA2_HRIR_num_iterations_16kHz[9][BINAURAL_CHANNELS]={{1, 1}, {1, 1}, {1, 1}, {1, 1}, {1, 1}, {1, 1}, {1, 1}, {1, 1}, {1, 1} }; +const UWord16 CRendBin_HOA2_HRIR_num_iterations_diffuse_16kHz[BINAURAL_CHANNELS] = {0, 0}; +const UWord16 CRendBin_HOA2_HRIR_pIndex_frequency_max_16kHz[9][BINAURAL_CHANNELS][1]={{{80},{80}},{{80},{80}},{{80},{80}},{{80},{80}},{{80},{80}},{{80},{80}},{{80},{80}},{{80},{80}},{{80},{80}}}; +const UWord16 CRendBin_HOA2_HRIR_index_frequency_max_diffuse_16kHz = 0; const Word16 CRendBin_HOA2_HRIR_inv_diffuse_weight_16kHz_fx[9]={0, 0, 0, 0, 0, 0, 0, 0, 0}; -const uint16_t *CRendBin_HOA2_HRIR_pIndex_frequency_max_diffuse_16kHz[BINAURAL_CHANNELS]={NULL,NULL}; +const UWord16 *CRendBin_HOA2_HRIR_pIndex_frequency_max_diffuse_16kHz[BINAURAL_CHANNELS]={NULL,NULL}; const Word32 *CRendBin_HOA2_HRIR_coeff_diffuse_re_16kHz_fx[BINAURAL_CHANNELS]={NULL,NULL}; const Word32 *CRendBin_HOA2_HRIR_coeff_diffuse_im_16kHz_fx[BINAURAL_CHANNELS]={NULL,NULL}; @@ -173,36 +173,36 @@ const Word32 *CRendBin_HOA2_HRIR_coeff_diffuse_im_16kHz_fx[BINAURAL_CHANNELS]={N const Word32 CRendBin_HOA3_HRIR_latency_s_fx = 44741;/*Q-31*/ /* Sample Rate = 48000 */ -const int16_t CRendBin_HOA3_HRIR_max_num_iterations_48kHz = 1; -const uint16_t CRendBin_HOA3_HRIR_num_iterations_48kHz[16][BINAURAL_CHANNELS]={{1, 1}, {1, 1}, {1, 1}, {1, 1}, {1, 1}, {1, 1}, {1, 1}, {1, 1}, {1, 1}, {1, 1}, {1, 1}, {1, 1}, {1, 1}, {1, 1}, {1, 1}, {1, 1} }; -const uint16_t CRendBin_HOA3_HRIR_num_iterations_diffuse_48kHz[BINAURAL_CHANNELS] = {0, 0}; -const uint16_t CRendBin_HOA3_HRIR_pIndex_frequency_max_48kHz[16][BINAURAL_CHANNELS][1]={{{240},{240}},{{240},{240}},{{240},{240}},{{240},{240}},{{240},{240}},{{240},{240}},{{240},{240}},{{240},{240}},{{240},{240}},{{240},{240}},{{240},{240}},{{240},{240}},{{240},{240}},{{240},{240}},{{240},{240}},{{240},{240}}}; -const uint16_t CRendBin_HOA3_HRIR_index_frequency_max_diffuse_48kHz = 0; +const Word16 CRendBin_HOA3_HRIR_max_num_iterations_48kHz = 1; +const UWord16 CRendBin_HOA3_HRIR_num_iterations_48kHz[16][BINAURAL_CHANNELS]={{1, 1}, {1, 1}, {1, 1}, {1, 1}, {1, 1}, {1, 1}, {1, 1}, {1, 1}, {1, 1}, {1, 1}, {1, 1}, {1, 1}, {1, 1}, {1, 1}, {1, 1}, {1, 1} }; +const UWord16 CRendBin_HOA3_HRIR_num_iterations_diffuse_48kHz[BINAURAL_CHANNELS] = {0, 0}; +const UWord16 CRendBin_HOA3_HRIR_pIndex_frequency_max_48kHz[16][BINAURAL_CHANNELS][1]={{{240},{240}},{{240},{240}},{{240},{240}},{{240},{240}},{{240},{240}},{{240},{240}},{{240},{240}},{{240},{240}},{{240},{240}},{{240},{240}},{{240},{240}},{{240},{240}},{{240},{240}},{{240},{240}},{{240},{240}},{{240},{240}}}; +const UWord16 CRendBin_HOA3_HRIR_index_frequency_max_diffuse_48kHz = 0; const Word16 CRendBin_HOA3_HRIR_inv_diffuse_weight_48kHz_fx[16]={0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0}; -const uint16_t *CRendBin_HOA3_HRIR_pIndex_frequency_max_diffuse_48kHz[BINAURAL_CHANNELS]={NULL,NULL}; +const UWord16 *CRendBin_HOA3_HRIR_pIndex_frequency_max_diffuse_48kHz[BINAURAL_CHANNELS]={NULL,NULL}; const Word32 *CRendBin_HOA3_HRIR_coeff_diffuse_re_48kHz_fx[BINAURAL_CHANNELS]={NULL,NULL}; const Word32 *CRendBin_HOA3_HRIR_coeff_diffuse_im_48kHz_fx[BINAURAL_CHANNELS]={NULL,NULL}; /* Sample Rate = 32000 */ -const int16_t CRendBin_HOA3_HRIR_max_num_iterations_32kHz = 1; -const uint16_t CRendBin_HOA3_HRIR_num_iterations_32kHz[16][BINAURAL_CHANNELS]={{1, 1}, {1, 1}, {1, 1}, {1, 1}, {1, 1}, {1, 1}, {1, 1}, {1, 1}, {1, 1}, {1, 1}, {1, 1}, {1, 1}, {1, 1}, {1, 1}, {1, 1}, {1, 1} }; -const uint16_t CRendBin_HOA3_HRIR_num_iterations_diffuse_32kHz[BINAURAL_CHANNELS] = {0, 0}; -const uint16_t CRendBin_HOA3_HRIR_pIndex_frequency_max_32kHz[16][BINAURAL_CHANNELS][1]={{{160},{160}},{{160},{160}},{{160},{160}},{{160},{160}},{{160},{160}},{{160},{160}},{{160},{160}},{{160},{160}},{{160},{160}},{{160},{160}},{{160},{160}},{{160},{160}},{{160},{160}},{{160},{160}},{{160},{160}},{{160},{160}}}; -const uint16_t CRendBin_HOA3_HRIR_index_frequency_max_diffuse_32kHz = 0; +const Word16 CRendBin_HOA3_HRIR_max_num_iterations_32kHz = 1; +const UWord16 CRendBin_HOA3_HRIR_num_iterations_32kHz[16][BINAURAL_CHANNELS]={{1, 1}, {1, 1}, {1, 1}, {1, 1}, {1, 1}, {1, 1}, {1, 1}, {1, 1}, {1, 1}, {1, 1}, {1, 1}, {1, 1}, {1, 1}, {1, 1}, {1, 1}, {1, 1} }; +const UWord16 CRendBin_HOA3_HRIR_num_iterations_diffuse_32kHz[BINAURAL_CHANNELS] = {0, 0}; +const UWord16 CRendBin_HOA3_HRIR_pIndex_frequency_max_32kHz[16][BINAURAL_CHANNELS][1]={{{160},{160}},{{160},{160}},{{160},{160}},{{160},{160}},{{160},{160}},{{160},{160}},{{160},{160}},{{160},{160}},{{160},{160}},{{160},{160}},{{160},{160}},{{160},{160}},{{160},{160}},{{160},{160}},{{160},{160}},{{160},{160}}}; +const UWord16 CRendBin_HOA3_HRIR_index_frequency_max_diffuse_32kHz = 0; const Word16 CRendBin_HOA3_HRIR_inv_diffuse_weight_32kHz_fx[16]={0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0}; -const uint16_t *CRendBin_HOA3_HRIR_pIndex_frequency_max_diffuse_32kHz[BINAURAL_CHANNELS]={NULL,NULL}; +const UWord16 *CRendBin_HOA3_HRIR_pIndex_frequency_max_diffuse_32kHz[BINAURAL_CHANNELS]={NULL,NULL}; const Word32 *CRendBin_HOA3_HRIR_coeff_diffuse_re_32kHz_fx[BINAURAL_CHANNELS]={NULL,NULL}; const Word32 *CRendBin_HOA3_HRIR_coeff_diffuse_im_32kHz_fx[BINAURAL_CHANNELS]={NULL,NULL}; /* Sample Rate = 16000 */ -const int16_t CRendBin_HOA3_HRIR_max_num_iterations_16kHz = 1; -const uint16_t CRendBin_HOA3_HRIR_num_iterations_16kHz[16][BINAURAL_CHANNELS]={{1, 1}, {1, 1}, {1, 1}, {1, 1}, {1, 1}, {1, 1}, {1, 1}, {1, 1}, {1, 1}, {1, 1}, {1, 1}, {1, 1}, {1, 1}, {1, 1}, {1, 1}, {1, 1} }; -const uint16_t CRendBin_HOA3_HRIR_num_iterations_diffuse_16kHz[BINAURAL_CHANNELS] = {0, 0}; -const uint16_t CRendBin_HOA3_HRIR_pIndex_frequency_max_16kHz[16][BINAURAL_CHANNELS][1]={{{80},{80}},{{80},{80}},{{80},{80}},{{80},{80}},{{80},{80}},{{80},{80}},{{80},{80}},{{80},{80}},{{80},{80}},{{80},{80}},{{80},{80}},{{80},{80}},{{80},{80}},{{80},{80}},{{80},{80}},{{80},{80}}}; -const uint16_t CRendBin_HOA3_HRIR_index_frequency_max_diffuse_16kHz = 0; +const Word16 CRendBin_HOA3_HRIR_max_num_iterations_16kHz = 1; +const UWord16 CRendBin_HOA3_HRIR_num_iterations_16kHz[16][BINAURAL_CHANNELS]={{1, 1}, {1, 1}, {1, 1}, {1, 1}, {1, 1}, {1, 1}, {1, 1}, {1, 1}, {1, 1}, {1, 1}, {1, 1}, {1, 1}, {1, 1}, {1, 1}, {1, 1}, {1, 1} }; +const UWord16 CRendBin_HOA3_HRIR_num_iterations_diffuse_16kHz[BINAURAL_CHANNELS] = {0, 0}; +const UWord16 CRendBin_HOA3_HRIR_pIndex_frequency_max_16kHz[16][BINAURAL_CHANNELS][1]={{{80},{80}},{{80},{80}},{{80},{80}},{{80},{80}},{{80},{80}},{{80},{80}},{{80},{80}},{{80},{80}},{{80},{80}},{{80},{80}},{{80},{80}},{{80},{80}},{{80},{80}},{{80},{80}},{{80},{80}},{{80},{80}}}; +const UWord16 CRendBin_HOA3_HRIR_index_frequency_max_diffuse_16kHz = 0; const float CRendBin_HOA3_HRIR_inv_diffuse_weight_16kHz[16]={0.000000f, 0.000000f, 0.000000f, 0.000000f, 0.000000f, 0.000000f, 0.000000f, 0.000000f, 0.000000f, 0.000000f, 0.000000f, 0.000000f, 0.000000f, 0.000000f, 0.000000f, 0.000000f}; const Word16 CRendBin_HOA3_HRIR_inv_diffuse_weight_16kHz_fx[16]={0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0}; -const uint16_t *CRendBin_HOA3_HRIR_pIndex_frequency_max_diffuse_16kHz[BINAURAL_CHANNELS]={NULL,NULL}; +const UWord16 *CRendBin_HOA3_HRIR_pIndex_frequency_max_diffuse_16kHz[BINAURAL_CHANNELS]={NULL,NULL}; const Word32 *CRendBin_HOA3_HRIR_coeff_diffuse_re_16kHz_fx[BINAURAL_CHANNELS]={NULL,NULL}; const Word32 *CRendBin_HOA3_HRIR_coeff_diffuse_im_16kHz_fx[BINAURAL_CHANNELS]={NULL,NULL}; @@ -212,34 +212,34 @@ const Word32 *CRendBin_HOA3_HRIR_coeff_diffuse_im_16kHz_fx[BINAURAL_CHANNELS]={N const Word32 CRendBin_Combined_BRIR_latency_s_fx = 313176;/*Q-31*/ /* Sample Rate = 48000 */ -const int16_t CRendBin_Combined_BRIR_max_num_iterations_48kHz = 22; -const uint16_t CRendBin_Combined_BRIR_num_iterations_48kHz[15][BINAURAL_CHANNELS]={{22, 22}, {22, 22}, {22, 22}, {22, 22}, {22, 22}, {22, 22}, {22, 22}, {22, 22}, {22, 22}, {22, 22}, {22, 22}, {22, 22}, {22, 22}, {22, 22}, {22, 22} }; -const uint16_t CRendBin_Combined_BRIR_num_iterations_diffuse_48kHz[BINAURAL_CHANNELS] = {40, 40}; -const uint16_t CRendBin_Combined_BRIR_pIndex_frequency_max_48kHz[15][BINAURAL_CHANNELS][22]={{{116, 118, 117, 121, 112, 119, 121, 131, 134, 131, 137, 127, 134, 135, 134, 135, 129, 139, 135, 130, 128, 240},{116, 118, 117, 121, 112, 119, 121, 131, 134, 131, 137, 127, 134, 135, 134, 135, 129, 139, 135, 130, 128, 240}},{{122, 106, 121, 114, 121, 123, 119, 126, 123, 126, 127, 130, 128, 136, 132, 131, 129, 141, 137, 131, 129, 240},{122, 106, 121, 114, 121, 123, 119, 126, 123, 126, 127, 130, 128, 136, 132, 131, 129, 141, 137, 131, 129, 240}},{{118, 104, 116, 104, 123, 123, 122, 125, 130, 128, 132, 135, 131, 132, 131, 132, 135, 137, 144, 129, 129, 240},{118, 104, 116, 104, 123, 123, 122, 125, 130, 128, 132, 135, 131, 132, 131, 132, 135, 137, 144, 129, 129, 240}},{{102, 117, 116, 121, 117, 114, 115, 125, 126, 124, 125, 142, 133, 124, 129, 132, 134, 137, 143, 125, 125, 240},{102, 117, 116, 121, 117, 114, 115, 125, 126, 124, 125, 142, 133, 124, 129, 132, 134, 137, 143, 125, 125, 240}},{{116, 115, 117, 120, 121, 119, 125, 129, 123, 129, 124, 127, 128, 143, 133, 131, 136, 141, 158, 127, 131, 240},{116, 115, 117, 120, 121, 119, 125, 129, 123, 129, 124, 127, 128, 143, 133, 131, 136, 141, 158, 127, 131, 240}},{{112, 106, 118, 123, 115, 120, 129, 123, 130, 127, 130, 130, 131, 131, 131, 135, 134, 153, 138, 132, 127, 240},{112, 106, 118, 123, 115, 120, 129, 123, 130, 127, 130, 130, 131, 131, 131, 135, 134, 153, 138, 132, 127, 240}},{{107, 112, 111, 120, 115, 125, 122, 123, 132, 123, 133, 138, 125, 134, 130, 131, 135, 137, 136, 127, 121, 240},{107, 112, 111, 120, 115, 125, 122, 123, 132, 123, 133, 138, 125, 134, 130, 131, 135, 137, 136, 127, 121, 240}},{{111, 113, 132, 115, 121, 123, 121, 127, 135, 128, 129, 128, 133, 130, 133, 138, 134, 137, 152, 138, 124, 240},{111, 113, 132, 115, 121, 123, 121, 127, 135, 128, 129, 128, 133, 130, 133, 138, 134, 137, 152, 138, 124, 240}},{{114, 104, 114, 117, 125, 127, 123, 129, 123, 127, 144, 131, 138, 132, 129, 129, 132, 134, 136, 127, 121, 240},{114, 104, 114, 117, 125, 127, 123, 129, 123, 127, 144, 131, 138, 132, 129, 129, 132, 134, 136, 127, 121, 240}},{{100, 102, 112, 118, 115, 116, 118, 116, 121, 124, 125, 121, 125, 130, 127, 132, 133, 134, 134, 129, 132, 240},{100, 102, 112, 118, 115, 116, 118, 116, 121, 124, 125, 121, 125, 130, 127, 132, 133, 134, 134, 129, 132, 240}},{{106, 93, 103, 108, 124, 111, 114, 115, 120, 121, 119, 123, 131, 130, 132, 132, 132, 131, 140, 129, 131, 240},{106, 93, 103, 108, 124, 111, 114, 115, 120, 121, 119, 123, 131, 130, 132, 132, 132, 131, 140, 129, 131, 240}},{{108, 101, 115, 115, 115, 110, 121, 124, 124, 120, 122, 129, 124, 128, 125, 132, 135, 133, 138, 160, 119, 240},{108, 101, 115, 115, 115, 110, 121, 124, 124, 120, 122, 129, 124, 128, 125, 132, 135, 133, 138, 160, 119, 240}},{{112, 106, 114, 110, 128, 117, 120, 126, 124, 128, 126, 132, 129, 127, 133, 134, 136, 133, 154, 197, 129, 240},{112, 106, 114, 110, 128, 117, 120, 126, 124, 128, 126, 132, 129, 127, 133, 134, 136, 133, 154, 197, 129, 240}},{{102, 107, 111, 116, 116, 120, 118, 115, 120, 119, 128, 131, 131, 130, 128, 126, 126, 132, 145, 136, 133, 240},{102, 107, 111, 116, 116, 120, 118, 115, 120, 119, 128, 131, 131, 130, 128, 126, 126, 132, 145, 136, 133, 240}},{{111, 117, 106, 120, 123, 121, 125, 125, 130, 125, 123, 123, 127, 131, 125, 131, 135, 134, 148, 134, 132, 240},{111, 117, 106, 120, 123, 121, 125, 125, 130, 125, 123, 123, 127, 131, 125, 131, 135, 134, 148, 134, 132, 240}}}; -const uint16_t CRendBin_Combined_BRIR_index_frequency_max_diffuse_48kHz = 98; +const Word16 CRendBin_Combined_BRIR_max_num_iterations_48kHz = 22; +const UWord16 CRendBin_Combined_BRIR_num_iterations_48kHz[15][BINAURAL_CHANNELS]={{22, 22}, {22, 22}, {22, 22}, {22, 22}, {22, 22}, {22, 22}, {22, 22}, {22, 22}, {22, 22}, {22, 22}, {22, 22}, {22, 22}, {22, 22}, {22, 22}, {22, 22} }; +const UWord16 CRendBin_Combined_BRIR_num_iterations_diffuse_48kHz[BINAURAL_CHANNELS] = {40, 40}; +const UWord16 CRendBin_Combined_BRIR_pIndex_frequency_max_48kHz[15][BINAURAL_CHANNELS][22]={{{116, 118, 117, 121, 112, 119, 121, 131, 134, 131, 137, 127, 134, 135, 134, 135, 129, 139, 135, 130, 128, 240},{116, 118, 117, 121, 112, 119, 121, 131, 134, 131, 137, 127, 134, 135, 134, 135, 129, 139, 135, 130, 128, 240}},{{122, 106, 121, 114, 121, 123, 119, 126, 123, 126, 127, 130, 128, 136, 132, 131, 129, 141, 137, 131, 129, 240},{122, 106, 121, 114, 121, 123, 119, 126, 123, 126, 127, 130, 128, 136, 132, 131, 129, 141, 137, 131, 129, 240}},{{118, 104, 116, 104, 123, 123, 122, 125, 130, 128, 132, 135, 131, 132, 131, 132, 135, 137, 144, 129, 129, 240},{118, 104, 116, 104, 123, 123, 122, 125, 130, 128, 132, 135, 131, 132, 131, 132, 135, 137, 144, 129, 129, 240}},{{102, 117, 116, 121, 117, 114, 115, 125, 126, 124, 125, 142, 133, 124, 129, 132, 134, 137, 143, 125, 125, 240},{102, 117, 116, 121, 117, 114, 115, 125, 126, 124, 125, 142, 133, 124, 129, 132, 134, 137, 143, 125, 125, 240}},{{116, 115, 117, 120, 121, 119, 125, 129, 123, 129, 124, 127, 128, 143, 133, 131, 136, 141, 158, 127, 131, 240},{116, 115, 117, 120, 121, 119, 125, 129, 123, 129, 124, 127, 128, 143, 133, 131, 136, 141, 158, 127, 131, 240}},{{112, 106, 118, 123, 115, 120, 129, 123, 130, 127, 130, 130, 131, 131, 131, 135, 134, 153, 138, 132, 127, 240},{112, 106, 118, 123, 115, 120, 129, 123, 130, 127, 130, 130, 131, 131, 131, 135, 134, 153, 138, 132, 127, 240}},{{107, 112, 111, 120, 115, 125, 122, 123, 132, 123, 133, 138, 125, 134, 130, 131, 135, 137, 136, 127, 121, 240},{107, 112, 111, 120, 115, 125, 122, 123, 132, 123, 133, 138, 125, 134, 130, 131, 135, 137, 136, 127, 121, 240}},{{111, 113, 132, 115, 121, 123, 121, 127, 135, 128, 129, 128, 133, 130, 133, 138, 134, 137, 152, 138, 124, 240},{111, 113, 132, 115, 121, 123, 121, 127, 135, 128, 129, 128, 133, 130, 133, 138, 134, 137, 152, 138, 124, 240}},{{114, 104, 114, 117, 125, 127, 123, 129, 123, 127, 144, 131, 138, 132, 129, 129, 132, 134, 136, 127, 121, 240},{114, 104, 114, 117, 125, 127, 123, 129, 123, 127, 144, 131, 138, 132, 129, 129, 132, 134, 136, 127, 121, 240}},{{100, 102, 112, 118, 115, 116, 118, 116, 121, 124, 125, 121, 125, 130, 127, 132, 133, 134, 134, 129, 132, 240},{100, 102, 112, 118, 115, 116, 118, 116, 121, 124, 125, 121, 125, 130, 127, 132, 133, 134, 134, 129, 132, 240}},{{106, 93, 103, 108, 124, 111, 114, 115, 120, 121, 119, 123, 131, 130, 132, 132, 132, 131, 140, 129, 131, 240},{106, 93, 103, 108, 124, 111, 114, 115, 120, 121, 119, 123, 131, 130, 132, 132, 132, 131, 140, 129, 131, 240}},{{108, 101, 115, 115, 115, 110, 121, 124, 124, 120, 122, 129, 124, 128, 125, 132, 135, 133, 138, 160, 119, 240},{108, 101, 115, 115, 115, 110, 121, 124, 124, 120, 122, 129, 124, 128, 125, 132, 135, 133, 138, 160, 119, 240}},{{112, 106, 114, 110, 128, 117, 120, 126, 124, 128, 126, 132, 129, 127, 133, 134, 136, 133, 154, 197, 129, 240},{112, 106, 114, 110, 128, 117, 120, 126, 124, 128, 126, 132, 129, 127, 133, 134, 136, 133, 154, 197, 129, 240}},{{102, 107, 111, 116, 116, 120, 118, 115, 120, 119, 128, 131, 131, 130, 128, 126, 126, 132, 145, 136, 133, 240},{102, 107, 111, 116, 116, 120, 118, 115, 120, 119, 128, 131, 131, 130, 128, 126, 126, 132, 145, 136, 133, 240}},{{111, 117, 106, 120, 123, 121, 125, 125, 130, 125, 123, 123, 127, 131, 125, 131, 135, 134, 148, 134, 132, 240},{111, 117, 106, 120, 123, 121, 125, 125, 130, 125, 123, 123, 127, 131, 125, 131, 135, 134, 148, 134, 132, 240}}}; +const UWord16 CRendBin_Combined_BRIR_index_frequency_max_diffuse_48kHz = 98; const float CRendBin_Combined_BRIR_inv_diffuse_weight_48kHz[15]={0.224183f, 0.227455f, 0.241830f, 0.207155f, 0.218087f, 0.222942f, 0.232158f, 0.248203f, 0.249262f, 0.261591f, 0.246276f, 0.279163f, 0.285701f, 0.262541f, 0.271844f}; const Word16 CRendBin_Combined_BRIR_inv_diffuse_weight_48kHz_fx[15]={7346, 7453, 7924, 6788, 7146, 7305, 7607, 8133, 8167, 8571, 8069, 9147, 9361, 8602, 8907,}; -const uint16_t CRendBin_Combined_BRIR_pIndex_frequency_max_diffuse_48kHz[BINAURAL_CHANNELS][40]={{47, 47, 47, 47, 47, 47, 51, 51, 58, 58, 58, 65, 65, 65, 65, 65, 72, 72, 72, 74, 74, 77, 77, 79, 81, 81, 81, 81, 87, 87, 87, 87, 87, 87, 91, 91, 93, 93, 93, 98},{47, 47, 47, 47, 47, 47, 51, 51, 58, 58, 58, 65, 65, 65, 65, 65, 72, 72, 72, 74, 74, 77, 77, 79, 81, 81, 81, 81, 87, 87, 87, 87, 87, 87, 91, 91, 93, 93, 93, 98}}; +const UWord16 CRendBin_Combined_BRIR_pIndex_frequency_max_diffuse_48kHz[BINAURAL_CHANNELS][40]={{47, 47, 47, 47, 47, 47, 51, 51, 58, 58, 58, 65, 65, 65, 65, 65, 72, 72, 72, 74, 74, 77, 77, 79, 81, 81, 81, 81, 87, 87, 87, 87, 87, 87, 91, 91, 93, 93, 93, 98},{47, 47, 47, 47, 47, 47, 51, 51, 58, 58, 58, 65, 65, 65, 65, 65, 72, 72, 72, 74, 74, 77, 77, 79, 81, 81, 81, 81, 87, 87, 87, 87, 87, 87, 91, 91, 93, 93, 93, 98}}; /* Sample Rate = 32000 */ -const int16_t CRendBin_Combined_BRIR_max_num_iterations_32kHz = 22; -const uint16_t CRendBin_Combined_BRIR_num_iterations_32kHz[15][BINAURAL_CHANNELS]={{22, 22}, {22, 22}, {22, 22}, {22, 22}, {22, 22}, {22, 22}, {22, 22}, {22, 22}, {22, 22}, {22, 22}, {22, 22}, {22, 22}, {22, 22}, {22, 22}, {22, 22} }; -const uint16_t CRendBin_Combined_BRIR_num_iterations_diffuse_32kHz[BINAURAL_CHANNELS] = {40, 40}; -const uint16_t CRendBin_Combined_BRIR_pIndex_frequency_max_32kHz[15][BINAURAL_CHANNELS][22]={{{115, 117, 117, 120, 112, 118, 121, 130, 126, 130, 136, 127, 133, 135, 132, 133, 129, 137, 134, 129, 128, 160},{115, 117, 117, 120, 112, 118, 121, 130, 126, 130, 136, 127, 133, 135, 132, 133, 129, 137, 134, 129, 128, 160}},{{121, 106, 119, 113, 120, 123, 114, 126, 123, 125, 127, 128, 127, 134, 132, 130, 129, 139, 133, 131, 128, 160},{121, 106, 119, 113, 120, 123, 114, 126, 123, 125, 127, 128, 127, 134, 132, 130, 129, 139, 133, 131, 128, 160}},{{113, 103, 116, 104, 123, 123, 122, 124, 130, 128, 132, 131, 131, 132, 130, 132, 130, 135, 137, 128, 128, 160},{113, 103, 116, 104, 123, 123, 122, 124, 130, 128, 132, 131, 131, 132, 130, 132, 130, 135, 137, 128, 128, 160}},{{102, 116, 116, 121, 116, 114, 115, 121, 125, 123, 124, 130, 132, 122, 127, 131, 131, 135, 133, 124, 125, 160},{102, 116, 116, 121, 116, 114, 115, 121, 125, 123, 124, 130, 132, 122, 127, 131, 131, 135, 133, 124, 125, 160}},{{115, 115, 115, 119, 121, 119, 125, 127, 123, 129, 122, 126, 128, 134, 130, 130, 131, 140, 146, 127, 131, 160},{115, 115, 115, 119, 121, 119, 125, 127, 123, 129, 122, 126, 128, 134, 130, 130, 131, 140, 146, 127, 131, 160}},{{112, 106, 118, 121, 115, 117, 129, 123, 128, 126, 130, 130, 131, 131, 130, 134, 133, 149, 130, 132, 126, 160},{112, 106, 118, 121, 115, 117, 129, 123, 128, 126, 130, 130, 131, 131, 130, 134, 133, 149, 130, 132, 126, 160}},{{107, 112, 110, 119, 114, 124, 121, 121, 132, 122, 131, 134, 124, 133, 130, 129, 134, 134, 135, 127, 120, 160},{107, 112, 110, 119, 114, 124, 121, 121, 132, 122, 131, 134, 124, 133, 130, 129, 134, 134, 135, 127, 120, 160}},{{110, 113, 123, 113, 121, 120, 120, 126, 131, 123, 128, 128, 132, 130, 132, 136, 133, 136, 135, 128, 124, 160},{110, 113, 123, 113, 121, 120, 120, 126, 131, 123, 128, 128, 132, 130, 132, 136, 133, 136, 135, 128, 124, 160}},{{114, 101, 113, 113, 124, 126, 123, 128, 122, 127, 132, 127, 136, 128, 128, 127, 132, 132, 129, 125, 120, 160},{114, 101, 113, 113, 124, 126, 123, 128, 122, 127, 132, 127, 136, 128, 128, 127, 132, 132, 129, 125, 120, 160}},{{99, 100, 111, 117, 114, 114, 118, 116, 121, 124, 124, 121, 125, 130, 127, 132, 132, 130, 133, 128, 131, 160},{99, 100, 111, 117, 114, 114, 118, 116, 121, 124, 124, 121, 125, 130, 127, 132, 132, 130, 133, 128, 131, 160}},{{105, 93, 103, 108, 119, 110, 111, 114, 120, 121, 119, 122, 130, 128, 130, 131, 132, 131, 136, 128, 128, 160},{105, 93, 103, 108, 119, 110, 111, 114, 120, 121, 119, 122, 130, 128, 130, 131, 132, 131, 136, 128, 128, 160}},{{105, 100, 112, 114, 115, 108, 117, 120, 123, 117, 122, 129, 124, 128, 124, 132, 135, 131, 139, 153, 116, 160},{105, 100, 112, 114, 115, 108, 117, 120, 123, 117, 122, 129, 124, 128, 124, 132, 135, 131, 139, 153, 116, 160}},{{110, 106, 113, 110, 122, 116, 119, 125, 123, 128, 125, 127, 128, 127, 133, 130, 132, 132, 143, 155, 127, 160},{110, 106, 113, 110, 122, 116, 119, 125, 123, 128, 125, 127, 128, 127, 133, 130, 132, 132, 143, 155, 127, 160}},{{102, 107, 110, 112, 115, 117, 117, 115, 120, 118, 127, 130, 130, 129, 126, 126, 125, 130, 141, 135, 127, 160},{102, 107, 110, 112, 115, 117, 117, 115, 120, 118, 127, 130, 130, 129, 126, 126, 125, 130, 141, 135, 127, 160}},{{110, 117, 106, 118, 118, 116, 121, 124, 128, 125, 122, 122, 126, 131, 124, 130, 133, 131, 139, 134, 131, 160},{110, 117, 106, 118, 118, 116, 121, 124, 128, 125, 122, 122, 126, 131, 124, 130, 133, 131, 139, 134, 131, 160}}}; -const uint16_t CRendBin_Combined_BRIR_index_frequency_max_diffuse_32kHz = 97; +const Word16 CRendBin_Combined_BRIR_max_num_iterations_32kHz = 22; +const UWord16 CRendBin_Combined_BRIR_num_iterations_32kHz[15][BINAURAL_CHANNELS]={{22, 22}, {22, 22}, {22, 22}, {22, 22}, {22, 22}, {22, 22}, {22, 22}, {22, 22}, {22, 22}, {22, 22}, {22, 22}, {22, 22}, {22, 22}, {22, 22}, {22, 22} }; +const UWord16 CRendBin_Combined_BRIR_num_iterations_diffuse_32kHz[BINAURAL_CHANNELS] = {40, 40}; +const UWord16 CRendBin_Combined_BRIR_pIndex_frequency_max_32kHz[15][BINAURAL_CHANNELS][22]={{{115, 117, 117, 120, 112, 118, 121, 130, 126, 130, 136, 127, 133, 135, 132, 133, 129, 137, 134, 129, 128, 160},{115, 117, 117, 120, 112, 118, 121, 130, 126, 130, 136, 127, 133, 135, 132, 133, 129, 137, 134, 129, 128, 160}},{{121, 106, 119, 113, 120, 123, 114, 126, 123, 125, 127, 128, 127, 134, 132, 130, 129, 139, 133, 131, 128, 160},{121, 106, 119, 113, 120, 123, 114, 126, 123, 125, 127, 128, 127, 134, 132, 130, 129, 139, 133, 131, 128, 160}},{{113, 103, 116, 104, 123, 123, 122, 124, 130, 128, 132, 131, 131, 132, 130, 132, 130, 135, 137, 128, 128, 160},{113, 103, 116, 104, 123, 123, 122, 124, 130, 128, 132, 131, 131, 132, 130, 132, 130, 135, 137, 128, 128, 160}},{{102, 116, 116, 121, 116, 114, 115, 121, 125, 123, 124, 130, 132, 122, 127, 131, 131, 135, 133, 124, 125, 160},{102, 116, 116, 121, 116, 114, 115, 121, 125, 123, 124, 130, 132, 122, 127, 131, 131, 135, 133, 124, 125, 160}},{{115, 115, 115, 119, 121, 119, 125, 127, 123, 129, 122, 126, 128, 134, 130, 130, 131, 140, 146, 127, 131, 160},{115, 115, 115, 119, 121, 119, 125, 127, 123, 129, 122, 126, 128, 134, 130, 130, 131, 140, 146, 127, 131, 160}},{{112, 106, 118, 121, 115, 117, 129, 123, 128, 126, 130, 130, 131, 131, 130, 134, 133, 149, 130, 132, 126, 160},{112, 106, 118, 121, 115, 117, 129, 123, 128, 126, 130, 130, 131, 131, 130, 134, 133, 149, 130, 132, 126, 160}},{{107, 112, 110, 119, 114, 124, 121, 121, 132, 122, 131, 134, 124, 133, 130, 129, 134, 134, 135, 127, 120, 160},{107, 112, 110, 119, 114, 124, 121, 121, 132, 122, 131, 134, 124, 133, 130, 129, 134, 134, 135, 127, 120, 160}},{{110, 113, 123, 113, 121, 120, 120, 126, 131, 123, 128, 128, 132, 130, 132, 136, 133, 136, 135, 128, 124, 160},{110, 113, 123, 113, 121, 120, 120, 126, 131, 123, 128, 128, 132, 130, 132, 136, 133, 136, 135, 128, 124, 160}},{{114, 101, 113, 113, 124, 126, 123, 128, 122, 127, 132, 127, 136, 128, 128, 127, 132, 132, 129, 125, 120, 160},{114, 101, 113, 113, 124, 126, 123, 128, 122, 127, 132, 127, 136, 128, 128, 127, 132, 132, 129, 125, 120, 160}},{{99, 100, 111, 117, 114, 114, 118, 116, 121, 124, 124, 121, 125, 130, 127, 132, 132, 130, 133, 128, 131, 160},{99, 100, 111, 117, 114, 114, 118, 116, 121, 124, 124, 121, 125, 130, 127, 132, 132, 130, 133, 128, 131, 160}},{{105, 93, 103, 108, 119, 110, 111, 114, 120, 121, 119, 122, 130, 128, 130, 131, 132, 131, 136, 128, 128, 160},{105, 93, 103, 108, 119, 110, 111, 114, 120, 121, 119, 122, 130, 128, 130, 131, 132, 131, 136, 128, 128, 160}},{{105, 100, 112, 114, 115, 108, 117, 120, 123, 117, 122, 129, 124, 128, 124, 132, 135, 131, 139, 153, 116, 160},{105, 100, 112, 114, 115, 108, 117, 120, 123, 117, 122, 129, 124, 128, 124, 132, 135, 131, 139, 153, 116, 160}},{{110, 106, 113, 110, 122, 116, 119, 125, 123, 128, 125, 127, 128, 127, 133, 130, 132, 132, 143, 155, 127, 160},{110, 106, 113, 110, 122, 116, 119, 125, 123, 128, 125, 127, 128, 127, 133, 130, 132, 132, 143, 155, 127, 160}},{{102, 107, 110, 112, 115, 117, 117, 115, 120, 118, 127, 130, 130, 129, 126, 126, 125, 130, 141, 135, 127, 160},{102, 107, 110, 112, 115, 117, 117, 115, 120, 118, 127, 130, 130, 129, 126, 126, 125, 130, 141, 135, 127, 160}},{{110, 117, 106, 118, 118, 116, 121, 124, 128, 125, 122, 122, 126, 131, 124, 130, 133, 131, 139, 134, 131, 160},{110, 117, 106, 118, 118, 116, 121, 124, 128, 125, 122, 122, 126, 131, 124, 130, 133, 131, 139, 134, 131, 160}}}; +const UWord16 CRendBin_Combined_BRIR_index_frequency_max_diffuse_32kHz = 97; const float CRendBin_Combined_BRIR_inv_diffuse_weight_32kHz[15]={0.224190f, 0.227445f, 0.241827f, 0.207131f, 0.218113f, 0.222941f, 0.232139f, 0.248192f, 0.249239f, 0.261572f, 0.246309f, 0.279145f, 0.285786f, 0.262528f, 0.271847f}; const Word16 CRendBin_Combined_BRIR_inv_diffuse_weight_32kHz_fx[15]={7346, 7452, 7924, 6787, 7147, 7305, 7606, 8132, 8167, 8571, 8071, 9147, 9364, 8602, 8907,}; -const uint16_t CRendBin_Combined_BRIR_pIndex_frequency_max_diffuse_32kHz[BINAURAL_CHANNELS][40]={{47, 47, 47, 47, 47, 47, 50, 50, 56, 56, 56, 63, 63, 63, 63, 63, 72, 72, 72, 74, 74, 77, 77, 79, 81, 81, 81, 81, 87, 87, 87, 87, 87, 87, 93, 93, 93, 93, 93, 97},{47, 47, 47, 47, 47, 47, 50, 50, 56, 56, 56, 63, 63, 63, 63, 63, 72, 72, 72, 74, 74, 77, 77, 79, 81, 81, 81, 81, 87, 87, 87, 87, 87, 87, 93, 93, 93, 93, 93, 97}}; +const UWord16 CRendBin_Combined_BRIR_pIndex_frequency_max_diffuse_32kHz[BINAURAL_CHANNELS][40]={{47, 47, 47, 47, 47, 47, 50, 50, 56, 56, 56, 63, 63, 63, 63, 63, 72, 72, 72, 74, 74, 77, 77, 79, 81, 81, 81, 81, 87, 87, 87, 87, 87, 87, 93, 93, 93, 93, 93, 97},{47, 47, 47, 47, 47, 47, 50, 50, 56, 56, 56, 63, 63, 63, 63, 63, 72, 72, 72, 74, 74, 77, 77, 79, 81, 81, 81, 81, 87, 87, 87, 87, 87, 87, 93, 93, 93, 93, 93, 97}}; /* Sample Rate = 16000 */ -const int16_t CRendBin_Combined_BRIR_max_num_iterations_16kHz = 23; -const uint16_t CRendBin_Combined_BRIR_num_iterations_16kHz[15][BINAURAL_CHANNELS]={{23, 23}, {23, 23}, {23, 23}, {23, 23}, {23, 23}, {23, 23}, {23, 23}, {23, 23}, {23, 23}, {23, 23}, {23, 23}, {23, 23}, {23, 23}, {23, 23}, {23, 23} }; -const uint16_t CRendBin_Combined_BRIR_num_iterations_diffuse_16kHz[BINAURAL_CHANNELS] = {40, 40}; -const uint16_t CRendBin_Combined_BRIR_pIndex_frequency_max_16kHz[15][BINAURAL_CHANNELS][23]={{{77, 76, 77, 77, 77, 76, 77, 76, 77, 76, 77, 77, 77, 78, 76, 76, 77, 77, 77, 77, 77, 76, 80},{77, 76, 77, 77, 77, 76, 77, 76, 77, 76, 77, 77, 77, 78, 76, 76, 77, 77, 77, 77, 77, 76, 80}},{{76, 77, 77, 75, 77, 78, 77, 76, 77, 77, 76, 77, 77, 77, 77, 77, 76, 77, 76, 76, 77, 78, 80},{76, 77, 77, 75, 77, 78, 77, 76, 77, 77, 76, 77, 77, 77, 77, 77, 76, 77, 76, 76, 77, 78, 80}},{{77, 76, 76, 78, 75, 76, 74, 78, 77, 76, 77, 77, 77, 76, 76, 77, 78, 78, 77, 77, 77, 77, 80},{77, 76, 76, 78, 75, 76, 74, 78, 77, 76, 77, 77, 77, 76, 76, 77, 78, 78, 77, 77, 77, 77, 80}},{{76, 76, 76, 76, 77, 77, 76, 78, 77, 77, 77, 77, 78, 78, 77, 77, 77, 77, 77, 78, 77, 78, 80},{76, 76, 76, 76, 77, 77, 76, 78, 77, 77, 77, 77, 78, 78, 77, 77, 77, 77, 77, 78, 77, 78, 80}},{{76, 77, 77, 76, 77, 77, 75, 77, 77, 77, 76, 77, 77, 77, 77, 78, 77, 77, 77, 77, 76, 76, 80},{76, 77, 77, 76, 77, 77, 75, 77, 77, 77, 76, 77, 77, 77, 77, 78, 77, 77, 77, 77, 76, 76, 80}},{{77, 76, 77, 77, 77, 77, 77, 77, 76, 78, 76, 78, 75, 76, 77, 77, 76, 76, 77, 78, 78, 77, 80},{77, 76, 77, 77, 77, 77, 77, 77, 76, 78, 76, 78, 75, 76, 77, 77, 76, 76, 77, 78, 78, 77, 80}},{{77, 77, 75, 76, 76, 77, 77, 77, 77, 77, 77, 75, 77, 76, 76, 76, 77, 77, 76, 77, 76, 77, 80},{77, 77, 75, 76, 76, 77, 77, 77, 77, 77, 77, 75, 77, 76, 76, 76, 77, 77, 76, 77, 76, 77, 80}},{{75, 76, 77, 77, 75, 77, 75, 76, 76, 77, 77, 77, 78, 78, 77, 77, 76, 77, 78, 78, 78, 76, 80},{75, 76, 77, 77, 75, 77, 75, 76, 76, 77, 77, 77, 78, 78, 77, 77, 76, 77, 78, 78, 78, 76, 80}},{{77, 77, 77, 76, 77, 77, 76, 76, 76, 77, 77, 75, 76, 78, 78, 77, 77, 78, 78, 77, 76, 76, 80},{77, 77, 77, 76, 77, 77, 76, 76, 76, 77, 77, 75, 76, 78, 78, 77, 77, 78, 78, 77, 76, 76, 80}},{{76, 75, 76, 76, 77, 77, 77, 77, 77, 77, 74, 78, 77, 78, 78, 77, 76, 77, 77, 77, 77, 76, 80},{76, 75, 76, 76, 77, 77, 77, 77, 77, 77, 74, 78, 77, 78, 78, 77, 76, 77, 77, 77, 77, 76, 80}},{{76, 76, 77, 76, 77, 77, 76, 76, 76, 76, 77, 77, 76, 76, 77, 75, 77, 76, 76, 76, 77, 77, 80},{76, 76, 77, 76, 77, 77, 76, 76, 76, 76, 77, 77, 76, 76, 77, 75, 77, 76, 76, 76, 77, 77, 80}},{{76, 76, 77, 75, 78, 77, 77, 77, 77, 77, 77, 77, 77, 76, 78, 77, 76, 78, 76, 77, 76, 77, 80},{76, 76, 77, 75, 78, 77, 77, 77, 77, 77, 77, 77, 77, 76, 78, 77, 76, 78, 76, 77, 76, 77, 80}},{{76, 77, 77, 76, 76, 77, 77, 75, 77, 77, 77, 77, 77, 77, 78, 78, 78, 78, 77, 76, 76, 78, 80},{76, 77, 77, 76, 76, 77, 77, 75, 77, 77, 77, 77, 77, 77, 78, 78, 78, 78, 77, 76, 76, 78, 80}},{{74, 76, 74, 76, 75, 76, 76, 76, 76, 77, 77, 78, 77, 78, 75, 76, 77, 76, 78, 76, 78, 77, 80},{74, 76, 74, 76, 75, 76, 76, 76, 76, 77, 77, 78, 77, 78, 75, 76, 77, 76, 78, 76, 78, 77, 80}},{{76, 77, 77, 77, 76, 78, 77, 76, 75, 77, 77, 77, 76, 78, 77, 78, 78, 78, 77, 76, 77, 75, 80},{76, 77, 77, 77, 76, 78, 77, 76, 75, 77, 77, 77, 76, 78, 77, 78, 78, 78, 77, 76, 77, 75, 80}}}; -const uint16_t CRendBin_Combined_BRIR_index_frequency_max_diffuse_16kHz = 77; +const Word16 CRendBin_Combined_BRIR_max_num_iterations_16kHz = 23; +const UWord16 CRendBin_Combined_BRIR_num_iterations_16kHz[15][BINAURAL_CHANNELS]={{23, 23}, {23, 23}, {23, 23}, {23, 23}, {23, 23}, {23, 23}, {23, 23}, {23, 23}, {23, 23}, {23, 23}, {23, 23}, {23, 23}, {23, 23}, {23, 23}, {23, 23} }; +const UWord16 CRendBin_Combined_BRIR_num_iterations_diffuse_16kHz[BINAURAL_CHANNELS] = {40, 40}; +const UWord16 CRendBin_Combined_BRIR_pIndex_frequency_max_16kHz[15][BINAURAL_CHANNELS][23]={{{77, 76, 77, 77, 77, 76, 77, 76, 77, 76, 77, 77, 77, 78, 76, 76, 77, 77, 77, 77, 77, 76, 80},{77, 76, 77, 77, 77, 76, 77, 76, 77, 76, 77, 77, 77, 78, 76, 76, 77, 77, 77, 77, 77, 76, 80}},{{76, 77, 77, 75, 77, 78, 77, 76, 77, 77, 76, 77, 77, 77, 77, 77, 76, 77, 76, 76, 77, 78, 80},{76, 77, 77, 75, 77, 78, 77, 76, 77, 77, 76, 77, 77, 77, 77, 77, 76, 77, 76, 76, 77, 78, 80}},{{77, 76, 76, 78, 75, 76, 74, 78, 77, 76, 77, 77, 77, 76, 76, 77, 78, 78, 77, 77, 77, 77, 80},{77, 76, 76, 78, 75, 76, 74, 78, 77, 76, 77, 77, 77, 76, 76, 77, 78, 78, 77, 77, 77, 77, 80}},{{76, 76, 76, 76, 77, 77, 76, 78, 77, 77, 77, 77, 78, 78, 77, 77, 77, 77, 77, 78, 77, 78, 80},{76, 76, 76, 76, 77, 77, 76, 78, 77, 77, 77, 77, 78, 78, 77, 77, 77, 77, 77, 78, 77, 78, 80}},{{76, 77, 77, 76, 77, 77, 75, 77, 77, 77, 76, 77, 77, 77, 77, 78, 77, 77, 77, 77, 76, 76, 80},{76, 77, 77, 76, 77, 77, 75, 77, 77, 77, 76, 77, 77, 77, 77, 78, 77, 77, 77, 77, 76, 76, 80}},{{77, 76, 77, 77, 77, 77, 77, 77, 76, 78, 76, 78, 75, 76, 77, 77, 76, 76, 77, 78, 78, 77, 80},{77, 76, 77, 77, 77, 77, 77, 77, 76, 78, 76, 78, 75, 76, 77, 77, 76, 76, 77, 78, 78, 77, 80}},{{77, 77, 75, 76, 76, 77, 77, 77, 77, 77, 77, 75, 77, 76, 76, 76, 77, 77, 76, 77, 76, 77, 80},{77, 77, 75, 76, 76, 77, 77, 77, 77, 77, 77, 75, 77, 76, 76, 76, 77, 77, 76, 77, 76, 77, 80}},{{75, 76, 77, 77, 75, 77, 75, 76, 76, 77, 77, 77, 78, 78, 77, 77, 76, 77, 78, 78, 78, 76, 80},{75, 76, 77, 77, 75, 77, 75, 76, 76, 77, 77, 77, 78, 78, 77, 77, 76, 77, 78, 78, 78, 76, 80}},{{77, 77, 77, 76, 77, 77, 76, 76, 76, 77, 77, 75, 76, 78, 78, 77, 77, 78, 78, 77, 76, 76, 80},{77, 77, 77, 76, 77, 77, 76, 76, 76, 77, 77, 75, 76, 78, 78, 77, 77, 78, 78, 77, 76, 76, 80}},{{76, 75, 76, 76, 77, 77, 77, 77, 77, 77, 74, 78, 77, 78, 78, 77, 76, 77, 77, 77, 77, 76, 80},{76, 75, 76, 76, 77, 77, 77, 77, 77, 77, 74, 78, 77, 78, 78, 77, 76, 77, 77, 77, 77, 76, 80}},{{76, 76, 77, 76, 77, 77, 76, 76, 76, 76, 77, 77, 76, 76, 77, 75, 77, 76, 76, 76, 77, 77, 80},{76, 76, 77, 76, 77, 77, 76, 76, 76, 76, 77, 77, 76, 76, 77, 75, 77, 76, 76, 76, 77, 77, 80}},{{76, 76, 77, 75, 78, 77, 77, 77, 77, 77, 77, 77, 77, 76, 78, 77, 76, 78, 76, 77, 76, 77, 80},{76, 76, 77, 75, 78, 77, 77, 77, 77, 77, 77, 77, 77, 76, 78, 77, 76, 78, 76, 77, 76, 77, 80}},{{76, 77, 77, 76, 76, 77, 77, 75, 77, 77, 77, 77, 77, 77, 78, 78, 78, 78, 77, 76, 76, 78, 80},{76, 77, 77, 76, 76, 77, 77, 75, 77, 77, 77, 77, 77, 77, 78, 78, 78, 78, 77, 76, 76, 78, 80}},{{74, 76, 74, 76, 75, 76, 76, 76, 76, 77, 77, 78, 77, 78, 75, 76, 77, 76, 78, 76, 78, 77, 80},{74, 76, 74, 76, 75, 76, 76, 76, 76, 77, 77, 78, 77, 78, 75, 76, 77, 76, 78, 76, 78, 77, 80}},{{76, 77, 77, 77, 76, 78, 77, 76, 75, 77, 77, 77, 76, 78, 77, 78, 78, 78, 77, 76, 77, 75, 80},{76, 77, 77, 77, 76, 78, 77, 76, 75, 77, 77, 77, 76, 78, 77, 78, 78, 78, 77, 76, 77, 75, 80}}}; +const UWord16 CRendBin_Combined_BRIR_index_frequency_max_diffuse_16kHz = 77; const float CRendBin_Combined_BRIR_inv_diffuse_weight_16kHz[15]={0.223532f, 0.226827f, 0.248830f, 0.208782f, 0.220391f, 0.219790f, 0.231187f, 0.248730f, 0.251408f, 0.263698f, 0.243858f, 0.281483f, 0.283080f, 0.261660f, 0.273527f}; const Word16 CRendBin_Combined_BRIR_inv_diffuse_weight_16kHz_fx[15]={7346, 7452, 7924, 6787, 7147, 7305, 7606, 8132, 8167, 8571, 8071, 9147, 9364, 8602, 8907}; -const uint16_t CRendBin_Combined_BRIR_pIndex_frequency_max_diffuse_16kHz[BINAURAL_CHANNELS][40]={{46, 46, 46, 46, 46, 46, 46, 49, 49, 53, 53, 53, 55, 55, 61, 61, 61, 65, 67, 67, 67, 67, 67, 67, 69, 72, 72, 72, 73, 73, 75, 75, 75, 75, 75, 75, 75, 75, 75, 77},{46, 46, 46, 46, 46, 46, 46, 49, 49, 53, 53, 53, 55, 55, 61, 61, 61, 65, 67, 67, 67, 67, 67, 67, 69, 72, 72, 72, 73, 73, 75, 75, 75, 75, 75, 75, 75, 75, 75, 77}}; +const UWord16 CRendBin_Combined_BRIR_pIndex_frequency_max_diffuse_16kHz[BINAURAL_CHANNELS][40]={{46, 46, 46, 46, 46, 46, 46, 49, 49, 53, 53, 53, 55, 55, 61, 61, 61, 65, 67, 67, 67, 67, 67, 67, 69, 72, 72, 72, 73, 73, 75, 75, 75, 75, 75, 75, 75, 75, 75, 77},{46, 46, 46, 46, 46, 46, 46, 49, 49, 53, 53, 53, 55, 55, 61, 61, 61, 65, 67, 67, 67, 67, 67, 67, 69, 72, 72, 72, 73, 73, 75, 75, 75, 75, 75, 75, 75, 75, 75, 77}}; //BRIR and HRIR coeff tables in Q29 const Word32 CRendBin_Combined_BRIR_coeff_re_48kHz_fx[15][BINAURAL_CHANNELS][2955] ={ { diff --git a/lib_rend/ivas_rom_rend.c b/lib_rend/ivas_rom_rend_fx.c similarity index 98% rename from lib_rend/ivas_rom_rend.c rename to lib_rend/ivas_rom_rend_fx.c index bb1b569b9d20829abf392f461a435872237e0bd5..1fe8e6a3845f863f2a60b772e6458429e8ec6123 100644 --- a/lib_rend/ivas_rom_rend.c +++ b/lib_rend/ivas_rom_rend_fx.c @@ -49,9 +49,9 @@ const Word16 diffuse_response_CICP6_fx[5] = { 13824, 13824, 12137, 16495, 16495 const Word16 diffuse_response_CICP14_fx[7] = { 12507, 12507, 9237, 17691, 17691, 4977, 4977 };//Q15 const Word16 diffuse_response_CICP16_fx[9] = { 11324, 11324, 9945, 13513, 13513, 8853, 8853, 9905, 9905 };//Q15 -const int16_t ap_pre_delay[DIRAC_DECORR_NUM_SPLIT_BANDS] = { 7, 2, 1 }; +const Word16 ap_pre_delay[DIRAC_DECORR_NUM_SPLIT_BANDS] = { 7, 2, 1 }; -const int16_t ap_filter_length[DIRAC_DECORR_NUM_SPLIT_BANDS] = { 15, 6, 3 }; +const Word16 ap_filter_length[DIRAC_DECORR_NUM_SPLIT_BANDS] = { 15, 6, 3 }; const Word16 ap_lattice_delta_phi_fx[DIRAC_MAX_NUM_DECORR_FILTERS*DIRAC_MAX_DECORR_FILTER_LEN] /*Q14*/ = { @@ -91,11 +91,11 @@ const Word16 ap_split_frequencies_fx[DIRAC_DECORR_NUM_SPLIT_BANDS + 1]/*Q14*/ = 0 , 2048, 6144, 16384 }; -const int16_t sba_map_tc[11] = +const Word16 sba_map_tc[11] = { 0, 1, 2, 3, 4, 8, 9, 15, 5, 6, 7 }; -const int16_t sba_map_tc_512[11] = +const Word16 sba_map_tc_512[11] = { 0, 1, 2, 3, 4, 5, 6, 7, 8, 9, 15 }; @@ -121,11 +121,11 @@ const int16_t sba_map_tc_512[11] = * 13 = 135, 35 * 14 = -135, 35 */ -const int16_t channelIndex_CICP6[5] = { 0, 1, 2, 5, 6 }; -const int16_t channelIndex_CICP12[7] = { 0, 1, 2, 5, 6, 3, 4 }; -const int16_t channelIndex_CICP14[7] = { 0, 1, 2, 5, 6, 9, 10 }; -const int16_t channelIndex_CICP16[9] = { 0, 1, 2, 5, 6, 9, 10, 11, 12 }; -const int16_t channelIndex_CICP19[11] = { 0, 1, 2, 3, 4, 7, 8, 9, 10, 13, 14 }; +const Word16 channelIndex_CICP6[5] = { 0, 1, 2, 5, 6 }; +const Word16 channelIndex_CICP12[7] = { 0, 1, 2, 5, 6, 3, 4 }; +const Word16 channelIndex_CICP14[7] = { 0, 1, 2, 5, 6, 9, 10 }; +const Word16 channelIndex_CICP16[9] = { 0, 1, 2, 5, 6, 9, 10, 11, 12 }; +const Word16 channelIndex_CICP19[11] = { 0, 1, 2, 3, 4, 7, 8, 9, 10, 13, 14 }; const Word16 surCohEne_fx[MASA_NUM_DEFINED_SUR_SPR_COH_ENE_BINS] /* Q13 */ = { @@ -160,7 +160,7 @@ const Word32 diffuseFieldCoherenceDifferenceZ_fx[BINAURAL_COHERENCE_DIFFERENCE_B * TD ISM binaural renderer ROM tables *----------------------------------------------------------------------------------*/ -const int16_t HRTF_MODEL_N_CPTS_VAR[HRTF_MODEL_N_SECTIONS] = +const Word16 HRTF_MODEL_N_CPTS_VAR[HRTF_MODEL_N_SECTIONS] = { 13, 12, 11 }; diff --git a/lib_rend/ivas_rotation.c b/lib_rend/ivas_rotation_fx.c similarity index 99% rename from lib_rend/ivas_rotation.c rename to lib_rend/ivas_rotation_fx.c index 1551b04293bb5d64c6d520dcdf5c964f8cb72505..91a60eac8f31c80e99cacdd352ccaa931f28da07 100644 --- a/lib_rend/ivas_rotation.c +++ b/lib_rend/ivas_rotation_fx.c @@ -37,11 +37,10 @@ #include "options.h" #include #include "cnst.h" -#include "prot.h" -#include "ivas_prot_rend.h" +#include "prot_fx.h" +#include "ivas_prot_rend_fx.h" #include "wmc_auto.h" #include -#include "prot_fx.h" #include "ivas_prot_fx.h" #include "debug.h" #include "ivas_rom_binaural_crend_head.h" @@ -374,7 +373,7 @@ void rotateAziEle_fx( angle = extract_l( L_shr( Mpy_32_16_1( _180_OVER_PI_Q25, radian ), 24 ) ); // Q0 } - *azi = s_max( -180, min( 180, angle ) ); + *azi = s_max( -180, s_min( 180, angle ) ); move16(); IF( isPlanar == 0 ) @@ -2320,12 +2319,10 @@ void SHrotmatgen_fx( Word16 R_lm1[HEADROT_SHMAT_DIM][HEADROT_SHMAT_DIM]; -#ifdef MSAN_FIX FOR( i = 0; i < HEADROT_SHMAT_DIM; i++ ) { set16_fx( R_lm1[i], 0, HEADROT_SHMAT_DIM ); } -#endif Word16 R_l[HEADROT_SHMAT_DIM][HEADROT_SHMAT_DIM]; Word32 result; SHrotmat[0][0] = ONE_IN_Q14; diff --git a/lib_rend/ivas_sba_rendering.c b/lib_rend/ivas_sba_rendering_fx.c similarity index 99% rename from lib_rend/ivas_sba_rendering.c rename to lib_rend/ivas_sba_rendering_fx.c index 7c7a202237090e3e8b56d03ca622bf2a813e1977..5e097ab2bedc0622f73dbcc03bdb1431c21aeeab 100644 --- a/lib_rend/ivas_sba_rendering.c +++ b/lib_rend/ivas_sba_rendering_fx.c @@ -32,10 +32,8 @@ #include #include "options.h" -#include "prot.h" #include "prot_fx.h" -#include "ivas_prot.h" -#include "ivas_prot_rend.h" +#include "ivas_prot_rend_fx.h" #include "ivas_stat_dec.h" #include "ivas_cnst.h" #include diff --git a/lib_rend/ivas_shoebox.c b/lib_rend/ivas_shoebox_fx.c similarity index 99% rename from lib_rend/ivas_shoebox.c rename to lib_rend/ivas_shoebox_fx.c index be00e7875d81f6f9425e095429320d5945b4b5a6..1a1339f5d36a68accb819f417bd681d2fcaed54e 100644 --- a/lib_rend/ivas_shoebox.c +++ b/lib_rend/ivas_shoebox_fx.c @@ -33,11 +33,10 @@ #include "options.h" #include #include -#include "ivas_prot_rend.h" +#include "ivas_prot_rend_fx.h" #include "ivas_stat_rend.h" #include "ivas_prot_fx.h" #include "ivas_cnst.h" -#include "prot.h" #include "prot_fx.h" #include "wmc_auto.h" #include "ivas_rom_com.h" diff --git a/lib_rend/ivas_stat_rend.h b/lib_rend/ivas_stat_rend.h index e386f90e1fe564ec5734a9a81f0a872121021a1c..fc434df90f13b3895fb624b1324563570c560ecb 100644 --- a/lib_rend/ivas_stat_rend.h +++ b/lib_rend/ivas_stat_rend.h @@ -228,8 +228,13 @@ typedef struct dirac_dec_stack_mem Word32 *cy_auto_diff_smooth_fx; Word32 *reference_power_fx; +#ifdef FIX_867_CLDFB_NRG_SCALE + Word16 reference_power_q[2]; + Word16 reference_power_smooth_q[2]; +#else Word16 reference_power_q; Word16 reference_power_smooth_q; +#endif Word16 reference_power_len; Word32 *onset_filter_fx; /* Q31 */ @@ -277,7 +282,11 @@ typedef struct dirac_output_synthesis_state_structure /* Temporal smoothing memories */ Word32 *reference_power_smooth_prev_fx; /* Q(reference_power_smooth_prev_q) */ +#ifdef FIX_867_CLDFB_NRG_SCALE + Word16 reference_power_smooth_prev_q[2]; +#else Word16 reference_power_smooth_prev_q; +#endif Word32 *direction_smoothness_prev_fx; /* Q31 */ /* only pointer to local buffers */ @@ -295,10 +304,18 @@ typedef struct dirac_output_synthesis_state_structure Word16 diff_dir_power_factor_len; Word32 *proto_power_smooth_fx; /* Smoothed power of the prototype signals. Size: num_freq_bands*num_channels. */ +#ifdef FIX_867_CLDFB_NRG_SCALE + Word16 proto_power_smooth_q[2]; +#else Word16 proto_power_smooth_q; +#endif Word16 proto_power_smooth_len; Word32 *proto_power_smooth_prev_fx; /* Smoothed power of the prototype signals of the previous synthesis block. Size: num_freq_bands*num_channels. */ +#ifdef FIX_867_CLDFB_NRG_SCALE + Word16 proto_power_smooth_prev_q[2]; +#else Word16 proto_power_smooth_prev_q; +#endif Word16 proto_power_smooth_prev_len; Word32 *proto_power_diff_smooth_fx; @@ -667,14 +684,12 @@ typedef struct ivas_binaural_rendering_conv_module_struct_fx #ifdef SPLIT_REND_WITH_HEAD_ROT Word32 ****filterStatesLeftReal_fx; Word32 ****filterStatesLeftImag_fx; - Word16 ****Q_filterStatesLeft; + Word16 *Q_filterStates; #else Word32 ***filterStatesLeftReal_fx; Word32 ***filterStatesLeftImag_fx; - Word16 ***Q_filterStatesLeft; + Word16 Q_filterStatesLeft; #endif - - Word16 numTapsArray[BINAURAL_CONVBANDS]; Word16 numTaps; @@ -832,8 +847,8 @@ typedef struct ivas_combined_orientation_struct #ifdef SPLIT_REND_WITH_HEAD_ROT Word32 Rmat_prev_fx[MAX_HEAD_ROT_POSES][3][3]; #else - Word32 Rmat_prev_fx[3][3]; -#endif /* Q30 */ + Word32 Rmat_prev_fx[3][3]; /* Q30 */ +#endif Word32 chEneIIR_fx[2][MASA_FREQUENCY_BANDS]; /* independent of the format. MASA bands are suitable for the task and readily available in ROM. */ /* Q(q_chEneIIR) */ Word16 q_chEneIIR; Word32 procChEneIIR_fx[2][MASA_FREQUENCY_BANDS]; /* Q(q_procChEneIIR) */ diff --git a/lib_rend/ivas_td_decorr.c b/lib_rend/ivas_td_decorr_fx.c similarity index 99% rename from lib_rend/ivas_td_decorr.c rename to lib_rend/ivas_td_decorr_fx.c index af51a7820990a5a12eead4c3565e1681b95e609f..14795da41b11854851fec67f7a8b67321ef0c517 100644 --- a/lib_rend/ivas_td_decorr.c +++ b/lib_rend/ivas_td_decorr_fx.c @@ -33,11 +33,9 @@ #include #include #include "options.h" -#include "prot.h" #include "prot_fx.h" #include "ivas_prot_fx.h" -#include "ivas_prot.h" -#include "ivas_prot_rend.h" +#include "ivas_prot_rend_fx.h" #include "math.h" #include "wmc_auto.h" #ifdef DEBUGGING @@ -487,7 +485,7 @@ void ivas_td_decorr_process_fx( /* Look-ahead delay */ Copy32( pcm_in[0], ppOut_pcm[0], output_frame ); - delay_signal_fx( ppOut_pcm[0], output_frame, hTdDecorr->look_ahead_buf, hTdDecorr->offset ); + delay_signal32_fx( ppOut_pcm[0], output_frame, hTdDecorr->look_ahead_buf, hTdDecorr->offset ); /* In ducking gains */ IF( hTdDecorr->ducking_flag ) diff --git a/lib_rend/ivas_vbap.c b/lib_rend/ivas_vbap_fx.c similarity index 99% rename from lib_rend/ivas_vbap.c rename to lib_rend/ivas_vbap_fx.c index e1a6868d8be9be8922e6faf9988c45b29341be5e..7495953e3e462f5eca9be008502a81e7be8a6656 100644 --- a/lib_rend/ivas_vbap.c +++ b/lib_rend/ivas_vbap_fx.c @@ -34,12 +34,10 @@ #include "options.h" #include #include -#include "prot.h" -#include "ivas_prot.h" -#include "ivas_prot_rend.h" +#include "prot_fx.h" +#include "ivas_prot_rend_fx.h" #include "ivas_stat_dec.h" #include "wmc_auto.h" -#include "prot_fx.h" #include "ivas_prot_fx.h" /*-----------------------------------------------------------------------* diff --git a/lib_rend/lib_rend.c b/lib_rend/lib_rend.c index 8a10c199371c69d63b263bccbfd88fee6ab3fbb5..aea39eaa9ed83fd9b27f54119e1484fa40cf415c 100644 --- a/lib_rend/lib_rend.c +++ b/lib_rend/lib_rend.c @@ -32,28 +32,25 @@ #include "basop_util.h" #include "options.h" #include "lib_rend.h" -#include "prot.h" -#include "ivas_prot.h" +#include "prot_fx.h" #include "ivas_prot_fx.h" -#include "ivas_prot_rend.h" +#include "ivas_prot_rend_fx.h" #include "isar_prot.h" #include "isar_stat.h" #include "lib_isar_pre_rend.h" #include "ivas_cnst.h" #include "ivas_rom_com.h" +#include "ivas_rom_com_fx.h" #include "ivas_rom_rend.h" #include #include #include #include "wmc_auto.h" - -#include "ivas_rom_com_fx.h" -#include "ivas_prot_fx.h" -#include "prot_fx.h" +#ifdef DEBUGGING #include "debug.h" -#define float_to_fix( n, factor ) ( round( n * ( 1 << factor ) ) ) -#define fix_to_float( n, factor ) ( (float) n / ( 1 << factor ) ) -#define IVAS_FLOAT_FIXED_TO_BE_REMOVED +#endif + + /*-------------------------------------------------------------------* * Local constants *-------------------------------------------------------------------*/ @@ -1350,8 +1347,8 @@ static Word8 checkObjectPositionChanged_fx( IVAS_ISM_METADATA *previousPos ) { test(); - return !( LT_32( abs( L_sub( currentPos->azimuth_fx, previousPos->azimuth_fx ) ), EPSILLON_FX ) && - LT_32( abs( L_sub( currentPos->elevation_fx, previousPos->elevation_fx ) ), EPSILLON_FX ) ); + return !( LT_32( L_abs( L_sub( currentPos->azimuth_fx, previousPos->azimuth_fx ) ), EPSILLON_FX ) && + LT_32( L_abs( L_sub( currentPos->elevation_fx, previousPos->elevation_fx ) ), EPSILLON_FX ) ); } static rendering_context getRendCtx( @@ -2258,7 +2255,7 @@ static ivas_error updateMcPanGainsForAmbiOut( Word32 temp = inputMc->panGains_fx[ch_out][i]; move32(); - IF( GE_32( abs( temp ), ONE_IN_Q29 ) ) + IF( GE_32( L_abs( temp ), ONE_IN_Q29 ) ) { IF( temp > 0 ) { @@ -2306,7 +2303,7 @@ static ivas_error updateMcPanGainsForAmbiOut( { Word32 temp = inputMc->panGains_fx[ch_out][i]; move32(); - IF( GE_32( abs( temp ), ONE_IN_Q29 ) ) + IF( GE_32( L_abs( temp ), ONE_IN_Q29 ) ) { IF( temp > 0 ) { @@ -5273,7 +5270,7 @@ static void renderBufferChannelLerp_fx( /* Process current output channel only if applying non-zero gains */ test(); test(); - IF( GT_32( abs( currentGain ), EPSILON_FX ) || ( gainsPrev != NULL && GT_32( abs( previousGain ), EPSILON_FX ) ) ) + IF( GT_32( L_abs( currentGain ), EPSILON_FX ) || ( gainsPrev != NULL && GT_32( L_abs( previousGain ), EPSILON_FX ) ) ) { /* Reset input pointer to the beginning of input channel */ inSmpl = getSmplPtr_fx( inAudio, inChannelIdx, 0 ); @@ -5282,7 +5279,7 @@ static void renderBufferChannelLerp_fx( outSmpl = getSmplPtr_fx( outAudio, outChnlIdx, 0 ); test(); - IF( gainsPrev == NULL || LE_32( abs( L_sub( L_shr( previousGain, 1 ), L_shr( currentGain, 1 ) ) ), EPSILON_FX ) ) + IF( gainsPrev == NULL || LE_32( L_abs( L_sub( L_shr( previousGain, 1 ), L_shr( currentGain, 1 ) ) ), EPSILON_FX ) ) { /* If no interpolation from previous frame, apply current gain */ DO @@ -5985,10 +5982,7 @@ static ivas_error renderIsmToBinauralRoom( #ifdef SPLIT_REND_WITH_HEAD_ROT /* render 7_1_4 with BRIRs */ - IF( NE_32( ( error = ivas_rend_crendProcess( ismInput->crendWrapper, IVAS_AUDIO_CONFIG_7_1_4, IVAS_AUDIO_CONFIG_BINAURAL_ROOM_IR, - NULL, NULL, NULL, NULL, p_tmpRendBuffer, *ismInput->base.ctx.pOutSampleRate, - getNumSubframesInBuffer( &outAudio, *ismInput->base.ctx.pOutSampleRate ), 0 ) ), - IVAS_ERR_OK ) ) + IF( NE_32( ( error = ivas_rend_crendProcessSubframe( ismInput->crendWrapper, IVAS_AUDIO_CONFIG_7_1_4, IVAS_AUDIO_CONFIG_BINAURAL_ROOM_IR, NULL, NULL, NULL, NULL, NULL, p_tmpRendBuffer, p_tmpRendBuffer, ismInput->base.inputBuffer.config.numSamplesPerChannel, *ismInput->base.ctx.pOutSampleRate, 0 ) ), IVAS_ERR_OK ) ) #else /* render 7_1_4 with BRIRs */ IF( NE_32( ( error = ivas_rend_crendProcess( ismInput->crendWrapper, IVAS_AUDIO_CONFIG_7_1_4, IVAS_AUDIO_CONFIG_BINAURAL_ROOM_IR, @@ -6805,9 +6799,7 @@ static ivas_error renderMcToBinaural( /* call CREND */ #ifdef SPLIT_REND_WITH_HEAD_ROT - IF( NE_32( ( error = ivas_rend_crendProcess( mcInput->crendWrapper, mcInput->base.inConfig, outConfig, NULL, NULL, NULL, NULL, p_tmpRendBuffer_fx, *mcInput->base.ctx.pOutSampleRate, - getNumSubframesInBuffer( &outAudio, *mcInput->base.ctx.pOutSampleRate ), 0 ) ), - IVAS_ERR_OK ) ) + IF( NE_32( ( error = ivas_rend_crendProcessSubframe( mcInput->crendWrapper, mcInput->base.inConfig, outConfig, NULL, NULL, NULL, NULL, NULL, p_tmpRendBuffer_fx, p_tmpRendBuffer_fx, mcInput->base.inputBuffer.config.numSamplesPerChannel, *mcInput->base.ctx.pOutSampleRate, 0 ) ), IVAS_ERR_OK ) ) #else IF( NE_32( ( error = ivas_rend_crendProcess( mcInput->crendWrapper, mcInput->base.inConfig, outConfig, NULL, NULL, NULL, NULL, p_tmpRendBuffer_fx, *mcInput->base.ctx.pOutSampleRate, getNumSubframesInBuffer( &outAudio, *mcInput->base.ctx.pOutSampleRate ) ) ), @@ -6816,6 +6808,7 @@ static ivas_error renderMcToBinaural( { return error; } + IF( hCrend->hReverb != NULL ) { exp = sub( exp, 2 ); @@ -6951,9 +6944,7 @@ static ivas_error renderMcToBinauralRoom( /* call CREND */ #ifdef SPLIT_REND_WITH_HEAD_ROT - IF( NE_32( ( error = ivas_rend_crendProcess( mcInput->crendWrapper, mcInput->base.inConfig, outConfig, NULL, NULL, NULL, NULL, p_tmpRendBuffer, *mcInput->base.ctx.pOutSampleRate, - getNumSubframesInBuffer( &outAudio, *mcInput->base.ctx.pOutSampleRate ), 0 ) ), - IVAS_ERR_OK ) ) + IF( NE_32( ( error = ivas_rend_crendProcessSubframe( mcInput->crendWrapper, mcInput->base.inConfig, outConfig, NULL, NULL, NULL, NULL, NULL, p_tmpRendBuffer, p_tmpRendBuffer, mcInput->base.inputBuffer.config.numSamplesPerChannel, *mcInput->base.ctx.pOutSampleRate, 0 ) ), IVAS_ERR_OK ) ) #else IF( NE_32( ( error = ivas_rend_crendProcess( mcInput->crendWrapper, mcInput->base.inConfig, outConfig, NULL, NULL, NULL, NULL, p_tmpRendBuffer, *mcInput->base.ctx.pOutSampleRate, getNumSubframesInBuffer( &outAudio, *mcInput->base.ctx.pOutSampleRate ) ) ), @@ -6962,6 +6953,7 @@ static ivas_error renderMcToBinauralRoom( { return error; } + IF( hCrend->hReverb != NULL ) { exp = sub( exp, Q2 ); @@ -7082,11 +7074,10 @@ static ivas_error renderMcCustomLsToBinauralRoom( #else hCrend = mcInput->crendWrapper->hCrend; #endif + /* call CREND */ #ifdef SPLIT_REND_WITH_HEAD_ROT - IF( NE_32( ( error = ivas_rend_crendProcess( mcInput->crendWrapper, IVAS_AUDIO_CONFIG_7_1_4, outConfig, NULL, NULL, NULL, NULL, - p_tmpCrendBuffer, *mcInput->base.ctx.pOutSampleRate, getNumSubframesInBuffer( &outAudio, *mcInput->base.ctx.pOutSampleRate ), 0 ) ), - IVAS_ERR_OK ) ) + IF( NE_32( ( error = ivas_rend_crendProcessSubframe( mcInput->crendWrapper, IVAS_AUDIO_CONFIG_7_1_4, outConfig, NULL, NULL, NULL, NULL, NULL, p_tmpCrendBuffer, p_tmpCrendBuffer, mcInput->base.inputBuffer.config.numSamplesPerChannel, *mcInput->base.ctx.pOutSampleRate, 0 ) ), IVAS_ERR_OK ) ) #else IF( NE_32( ( error = ivas_rend_crendProcess( mcInput->crendWrapper, IVAS_AUDIO_CONFIG_7_1_4, outConfig, NULL, NULL, NULL, NULL, p_tmpCrendBuffer, *mcInput->base.ctx.pOutSampleRate, getNumSubframesInBuffer( &outAudio, *mcInput->base.ctx.pOutSampleRate ) ) ), @@ -7095,6 +7086,7 @@ static ivas_error renderMcCustomLsToBinauralRoom( { return error; } + IF( hCrend->hReverb != NULL ) { exp = sub( exp, 2 ); @@ -7341,9 +7333,10 @@ static ivas_error renderMcToSplitBinaural( copyBufferTo2dArray_fx( tmpRotBuffer, tmpRendBuffer ); /* call CREND (rotation already performed) */ - IF( NE_32( ( error = ivas_rend_crendProcess( mcInput->crendWrapper, mcInput->base.inConfig, outConfig, NULL, NULL, NULL, NULL, - p_tmpRendBuffer, *mcInput->base.ctx.pOutSampleRate, getNumSubframesInBuffer( &tmpRotBuffer, *mcInput->base.ctx.pOutSampleRate ), pos_idx ) ), - IVAS_ERR_OK ) ) + IF( NE_32( ( error = ivas_rend_crendProcessSubframe( mcInput->crendWrapper, mcInput->base.inConfig, outConfig, NULL, NULL, NULL, NULL, NULL, p_tmpRendBuffer, p_tmpRendBuffer, mcInput->base.inputBuffer.config.numSamplesPerChannel, *mcInput->base.ctx.pOutSampleRate, pos_idx ) ), IVAS_ERR_OK ) ) + { + return error; + } IF( EQ_16( pos_idx, 0 ) ) { @@ -7614,9 +7607,7 @@ static ivas_error renderSbaToMultiBinaural( assert( sbaInput->crendWrapper->hCrend[0]->hReverb == NULL ); /* call CREND */ - IF( NE_32( ( error = ivas_rend_crendProcess( sbaInput->crendWrapper, sbaInput->base.inConfig, outConfig, NULL, NULL, NULL, NULL, p_tmpCrendBuffer, *sbaInput->base.ctx.pOutSampleRate, - getNumSubframesInBuffer( &tmpRotBuffer, *sbaInput->base.ctx.pOutSampleRate ), pos_idx ) ), - IVAS_ERR_OK ) ) + IF( NE_32( ( error = ivas_rend_crendProcessSubframe( sbaInput->crendWrapper, sbaInput->base.inConfig, outConfig, NULL, NULL, NULL, NULL, NULL, p_tmpCrendBuffer, p_tmpCrendBuffer, sbaInput->base.inputBuffer.config.numSamplesPerChannel, *sbaInput->base.ctx.pOutSampleRate, pos_idx ) ), IVAS_ERR_OK ) ) { return error; } @@ -7806,9 +7797,7 @@ static ivas_error renderSbaToBinaural( /* call CREND */ #ifdef SPLIT_REND_WITH_HEAD_ROT - IF( NE_32( ( error = ivas_rend_crendProcess( sbaInput->crendWrapper, sbaInput->base.inConfig, outConfig, NULL, NULL, NULL, NULL, output_fx, *sbaInput->base.ctx.pOutSampleRate, - getNumSubframesInBuffer( &outAudio, *sbaInput->base.ctx.pOutSampleRate ), 0 ) ), - IVAS_ERR_OK ) ) + IF( NE_32( ( error = ivas_rend_crendProcessSubframe( sbaInput->crendWrapper, sbaInput->base.inConfig, outConfig, NULL, NULL, NULL, NULL, NULL, output_fx, output_fx, sbaInput->base.inputBuffer.config.numSamplesPerChannel, *sbaInput->base.ctx.pOutSampleRate, 0 ) ), IVAS_ERR_OK ) ) #else IF( NE_32( ( error = ivas_rend_crendProcess( sbaInput->crendWrapper, sbaInput->base.inConfig, outConfig, NULL, NULL, NULL, NULL, output_fx, *sbaInput->base.ctx.pOutSampleRate, getNumSubframesInBuffer( &outAudio, *sbaInput->base.ctx.pOutSampleRate ) ) ), @@ -7817,6 +7806,7 @@ static ivas_error renderSbaToBinaural( { return error; } + IF( hCrend->hReverb != NULL ) { *outAudio.pq_fact = sub( *outAudio.pq_fact, Q2 ); @@ -7938,10 +7928,7 @@ static ivas_error renderSbaToBinauralRoom( /* call CREND */ #ifdef SPLIT_REND_WITH_HEAD_ROT - IF( NE_32( ( error = ivas_rend_crendProcess( sbaInput->crendWrapper, IVAS_AUDIO_CONFIG_7_1_4, outConfig, - NULL, NULL, NULL, NULL, p_tmpCrendBuffer, *sbaInput->base.ctx.pOutSampleRate, - getNumSubframesInBuffer( &outAudio, *sbaInput->base.ctx.pOutSampleRate ), 0 ) ), - IVAS_ERR_OK ) ) + IF( NE_32( ( error = ivas_rend_crendProcessSubframe( sbaInput->crendWrapper, IVAS_AUDIO_CONFIG_7_1_4, outConfig, NULL, NULL, NULL, NULL, NULL, p_tmpCrendBuffer, p_tmpCrendBuffer, sbaInput->base.inputBuffer.config.numSamplesPerChannel, *sbaInput->base.ctx.pOutSampleRate, 0 ) ), IVAS_ERR_OK ) ) #else IF( NE_32( ( error = ivas_rend_crendProcess( sbaInput->crendWrapper, IVAS_AUDIO_CONFIG_7_1_4, outConfig, NULL, NULL, NULL, NULL, p_tmpCrendBuffer, *sbaInput->base.ctx.pOutSampleRate, @@ -7951,6 +7938,7 @@ static ivas_error renderSbaToBinauralRoom( { return error; } + IF( hCrend->hReverb != NULL ) { *outAudio.pq_fact = sub( *outAudio.pq_fact, 2 ); @@ -9247,7 +9235,7 @@ IVAS_REND_openCldfb( for ( n = 0; n < num_in_chs; n++ ) { - if ( ( error = openCldfb_ivas_fx( &( cldfbAna[n] ), CLDFB_ANALYSIS, output_Fs, CLDFB_PROTOTYPE_5_00MS ) ) != IVAS_ERR_OK ) + if ( ( error = openCldfb_ivas_fx( &( cldfbAna[n] ), CLDFB_ANALYSIS, output_Fs, CLDFB_PROTOTYPE_5_00MS, DEC ) ) != IVAS_ERR_OK ) { return error; } @@ -9259,7 +9247,7 @@ IVAS_REND_openCldfb( for ( n = 0; n < num_out_chs; n++ ) { - if ( ( error = openCldfb_ivas_fx( &( cldfbSyn[n] ), CLDFB_SYNTHESIS, output_Fs, CLDFB_PROTOTYPE_5_00MS ) ) != IVAS_ERR_OK ) + if ( ( error = openCldfb_ivas_fx( &( cldfbSyn[n] ), CLDFB_SYNTHESIS, output_Fs, CLDFB_PROTOTYPE_5_00MS, DEC ) ) != IVAS_ERR_OK ) { return error; } @@ -9288,7 +9276,7 @@ void IVAS_REND_closeCldfb( { if ( cldfbAna[n] != NULL ) { - deleteCldfb( &( cldfbAna[n] ) ); + deleteCldfb_ivas_fx( &( cldfbAna[n] ) ); cldfbAna[n] = NULL; } } @@ -9297,7 +9285,7 @@ void IVAS_REND_closeCldfb( { if ( cldfbSyn[n] != NULL ) { - deleteCldfb( &( cldfbSyn[n] ) ); + deleteCldfb_ivas_fx( &( cldfbSyn[n] ) ); cldfbSyn[n] = NULL; } } @@ -9350,7 +9338,11 @@ void IVAS_REND_cldfbSynthesis_wrapper( { Scale_sig32( h_cldfb->cldfb_state_fx, h_cldfb->p_filter_length, sub( sub( Q_cldfb, 1 ), h_cldfb->Q_cldfb_state ) ); - cldfbSynthesis_ivas_fx( realBuffer, imagBuffer, timeOut, samplesToProcess, h_cldfb ); // Q_cldfb - 1 +#ifdef OPT_AVOID_STATE_BUF_RESCALE + cldfbSynthesis_ivas_fx( realBuffer, imagBuffer, timeOut, samplesToProcess, 0, 0, h_cldfb ); // Q_cldfb - 1 +#else + cldfbSynthesis_ivas_fx( realBuffer, imagBuffer, timeOut, samplesToProcess, 0, h_cldfb ); // Q_cldfb - 1 +#endif *Q_out = sub( Q_cldfb, 1 ); move16(); h_cldfb->Q_cldfb_state = *Q_out; @@ -10145,7 +10137,7 @@ static ivas_error initMasaExtRenderer( { FOR( i = 0; i < hMasaExtRend->nchan_input; i++ ) { - IF( NE_32( ( error = openCldfb_ivas_fx( &( hMasaExtRend->cldfbAnaRend[i] ), CLDFB_ANALYSIS, *inputMasa->base.ctx.pOutSampleRate, CLDFB_PROTOTYPE_5_00MS ) ), IVAS_ERR_OK ) ) + IF( NE_32( ( error = openCldfb_ivas_fx( &( hMasaExtRend->cldfbAnaRend[i] ), CLDFB_ANALYSIS, *inputMasa->base.ctx.pOutSampleRate, CLDFB_PROTOTYPE_5_00MS, DEC ) ), IVAS_ERR_OK ) ) { return error; } @@ -10153,7 +10145,7 @@ static ivas_error initMasaExtRenderer( FOR( i = 0; i < hMasaExtRend->nchan_output; i++ ) { - IF( NE_32( ( error = openCldfb_ivas_fx( &( hMasaExtRend->cldfbSynRend[i] ), CLDFB_SYNTHESIS, *inputMasa->base.ctx.pOutSampleRate, CLDFB_PROTOTYPE_5_00MS ) ), IVAS_ERR_OK ) ) + IF( NE_32( ( error = openCldfb_ivas_fx( &( hMasaExtRend->cldfbSynRend[i] ), CLDFB_SYNTHESIS, *inputMasa->base.ctx.pOutSampleRate, CLDFB_PROTOTYPE_5_00MS, DEC ) ), IVAS_ERR_OK ) ) { return error; } @@ -10275,8 +10267,15 @@ static void intermidiate_ext_dirac_render( IF( to_fix ) { +#ifdef FIX_867_CLDFB_NRG_SCALE + DirAC_mem.reference_power_smooth_q[0] = DirAC_mem.reference_power_q[0] = Q31; + DirAC_mem.reference_power_smooth_q[1] = DirAC_mem.reference_power_q[1] = Q31; + move16(); + move16(); +#else DirAC_mem.reference_power_smooth_q = DirAC_mem.reference_power_q = Q31; move16(); +#endif move16(); FOR( slot_idx = 0; slot_idx < hSpatParamRendCom->subframe_nbslots[subframe_idx]; slot_idx++ ) { @@ -10405,14 +10404,65 @@ static void intermidiate_ext_dirac_render( IF( hDirACRend->h_output_synthesis_psd_state.proto_power_smooth_fx ) { +#ifdef FIX_867_CLDFB_NRG_SCALE + tmp = 0; + move16(); + FOR( slot_idx = 0; slot_idx < hDirACRend->h_output_synthesis_psd_state.proto_power_smooth_len; slot_idx = add( slot_idx, hSpatParamRendCom->num_freq_bands ) ) + { + tmp = s_min( tmp, L_norm_arr( hDirACRend->h_output_synthesis_psd_state.proto_power_smooth_fx + slot_idx, s_min( hSpatParamRendCom->num_freq_bands, CLDFB_NO_CHANNELS_HALF ) ) ); + } + FOR( slot_idx = 0; slot_idx < hDirACRend->h_output_synthesis_psd_state.proto_power_smooth_len; slot_idx = add( slot_idx, hSpatParamRendCom->num_freq_bands ) ) + { + scale_sig32( hDirACRend->h_output_synthesis_psd_state.proto_power_smooth_fx + slot_idx, s_min( hSpatParamRendCom->num_freq_bands, CLDFB_NO_CHANNELS_HALF ), tmp ); /* Q(hDirACRend->h_output_synthesis_psd_state.proto_power_smooth_q + tmp) */ + } + hDirACRend->h_output_synthesis_psd_state.proto_power_smooth_q[0] = add( hDirACRend->h_output_synthesis_psd_state.proto_power_smooth_q[0], tmp ); + move16(); + tmp = 0; + move16(); + FOR( slot_idx = 0; slot_idx < hDirACRend->h_output_synthesis_psd_state.proto_power_smooth_len; slot_idx = add( slot_idx, hSpatParamRendCom->num_freq_bands ) ) + { + tmp = s_min( tmp, L_norm_arr( hDirACRend->h_output_synthesis_psd_state.proto_power_smooth_fx + slot_idx + CLDFB_NO_CHANNELS_HALF, s_max( 0, sub( hSpatParamRendCom->num_freq_bands, CLDFB_NO_CHANNELS_HALF ) ) ) ); + } + FOR( slot_idx = 0; slot_idx < hDirACRend->h_output_synthesis_psd_state.proto_power_smooth_len; slot_idx = add( slot_idx, hSpatParamRendCom->num_freq_bands ) ) + { + scale_sig32( hDirACRend->h_output_synthesis_psd_state.proto_power_smooth_fx + slot_idx + CLDFB_NO_CHANNELS_HALF, s_max( 0, sub( hSpatParamRendCom->num_freq_bands, CLDFB_NO_CHANNELS_HALF ) ), tmp ); /* Q(hDirACRend->h_output_synthesis_psd_state.proto_power_smooth_q + tmp) */ + } + hDirACRend->h_output_synthesis_psd_state.proto_power_smooth_q[1] = add( hDirACRend->h_output_synthesis_psd_state.proto_power_smooth_q[1], tmp ); + move16(); +#else tmp = L_norm_arr( hDirACRend->h_output_synthesis_psd_state.proto_power_smooth_fx, imult1616( hDirACRend->num_protos_dir, hSpatParamRendCom->num_freq_bands ) ); scale_sig32( hDirACRend->h_output_synthesis_psd_state.proto_power_smooth_fx, hDirACRend->h_output_synthesis_psd_state.proto_power_smooth_len, tmp ); /* Q(hDirACRend->h_output_synthesis_psd_state.proto_power_smooth_q + tmp) */ hDirACRend->h_output_synthesis_psd_state.proto_power_smooth_q = add( hDirACRend->h_output_synthesis_psd_state.proto_power_smooth_q, tmp ); move16(); +#endif +#ifdef FIX_867_CLDFB_NRG_SCALE + tmp = 0; + FOR( slot_idx = 0; slot_idx < hDirACRend->h_output_synthesis_psd_state.proto_power_smooth_len; slot_idx = add( slot_idx, hSpatParamRendCom->num_freq_bands ) ) + { + tmp = s_min( tmp, L_norm_arr( hDirACRend->h_output_synthesis_psd_state.proto_power_smooth_prev_fx, s_min( CLDFB_NO_CHANNELS_HALF, hSpatParamRendCom->num_freq_bands ) ) ); + } + FOR( slot_idx = 0; slot_idx < hDirACRend->h_output_synthesis_psd_state.proto_power_smooth_len; slot_idx = add( slot_idx, hSpatParamRendCom->num_freq_bands ) ) + { + scale_sig32( hDirACRend->h_output_synthesis_psd_state.proto_power_smooth_prev_fx, s_min( CLDFB_NO_CHANNELS_HALF, hSpatParamRendCom->num_freq_bands ), tmp ); /* Q(hDirACRend->h_output_synthesis_psd_state.proto_power_smooth_prev_q + tmp) */ + } + hDirACRend->h_output_synthesis_psd_state.proto_power_smooth_prev_q[0] = add( tmp, hDirACRend->h_output_synthesis_psd_state.proto_power_smooth_prev_q[0] ); + move16(); + FOR( slot_idx = 0; slot_idx < hDirACRend->h_output_synthesis_psd_state.proto_power_smooth_len; slot_idx = add( slot_idx, hSpatParamRendCom->num_freq_bands ) ) + { + tmp = s_min( tmp, L_norm_arr( hDirACRend->h_output_synthesis_psd_state.proto_power_smooth_prev_fx + CLDFB_NO_CHANNELS_HALF, s_max( 0, sub( hSpatParamRendCom->num_freq_bands, CLDFB_NO_CHANNELS_HALF ) ) ) ); + } + FOR( slot_idx = 0; slot_idx < hDirACRend->h_output_synthesis_psd_state.proto_power_smooth_len; slot_idx = add( slot_idx, hSpatParamRendCom->num_freq_bands ) ) + { + scale_sig32( hDirACRend->h_output_synthesis_psd_state.proto_power_smooth_prev_fx + CLDFB_NO_CHANNELS_HALF, s_max( 0, sub( hSpatParamRendCom->num_freq_bands, CLDFB_NO_CHANNELS_HALF ) ), tmp ); /* Q(hDirACRend->h_output_synthesis_psd_state.proto_power_smooth_prev_q + tmp) */ + } + hDirACRend->h_output_synthesis_psd_state.proto_power_smooth_prev_q[1] = add( tmp, hDirACRend->h_output_synthesis_psd_state.proto_power_smooth_prev_q[1] ); + move16(); +#else tmp = L_norm_arr( hDirACRend->h_output_synthesis_psd_state.proto_power_smooth_prev_fx, imult1616( hDirACRend->num_protos_dir, hSpatParamRendCom->num_freq_bands ) ); scale_sig32( hDirACRend->h_output_synthesis_psd_state.proto_power_smooth_prev_fx, hDirACRend->h_output_synthesis_psd_state.proto_power_smooth_prev_len, tmp ); /* Q(hDirACRend->h_output_synthesis_psd_state.proto_power_smooth_prev_q + tmp) */ hDirACRend->h_output_synthesis_psd_state.proto_power_smooth_prev_q = add( tmp, hDirACRend->h_output_synthesis_psd_state.proto_power_smooth_prev_q ); move16(); +#endif } tmp = L_norm_arr( hDirACRend->h_output_synthesis_psd_state.proto_power_diff_smooth_fx, hDirACRend->h_output_synthesis_psd_state.proto_power_diff_smooth_len ); @@ -10450,7 +10500,6 @@ static void intermidiate_ext_dirac_render( } } -#ifdef FIX_DISCLAIMER static ivas_error printConfigInfo_rend( IVAS_REND_HANDLE hIvasRend /* i : IVAS renderer handle */ ) @@ -10543,4 +10592,3 @@ void IVAS_REND_PrintDisclaimer( void ) return; } -#endif diff --git a/lib_rend/lib_rend.h b/lib_rend/lib_rend.h index eb8b208890349b99b232d9fa92050bf9f7fb22ea..54903bc5c0f0660e5729385353bd998c158f228d 100644 --- a/lib_rend/lib_rend.h +++ b/lib_rend/lib_rend.h @@ -95,7 +95,7 @@ typedef enum IVAS_REND_AUDIO_CONFIG_TYPE_UNKNOWN, } IVAS_REND_AudioConfigType; -typedef uint16_t IVAS_REND_InputId; +typedef UWord16 IVAS_REND_InputId; typedef enum _IVAS_REND_COMPLEXITY_LEVEL { @@ -405,7 +405,6 @@ void IVAS_REND_cldfbSynthesis_wrapper( #endif -#ifdef FIX_DISCLAIMER /* Disclaimer and info printing */ void IVAS_REND_PrintInputConfig( @@ -419,7 +418,6 @@ ivas_error IVAS_REND_PrintConfig( void IVAS_REND_PrintDisclaimer( void ); -#endif /* clang-format on */ diff --git a/lib_util/cmdln_parser.c b/lib_util/cmdln_parser.c index b2c8f85bc4dc7119e7268271f44fcce2af9c703c..1b9eb7a92899f1b62df0e925fc7f3882c2512012 100644 --- a/lib_util/cmdln_parser.c +++ b/lib_util/cmdln_parser.c @@ -150,7 +150,22 @@ static int8_t optionMatchesString( const char *optionName = stringToOptionName( str ); - if ( strncmp( optionName, opt.props.match, MAX_OPTION_LENGTH ) == 0 || strncmp( optionName, opt.props.matchShort, MAX_OPTION_LENGTH ) == 0 ) + char optionName_to_upper[FILENAME_MAX]; + strncpy( optionName_to_upper, optionName, sizeof( optionName_to_upper ) - 1 ); + optionName_to_upper[sizeof( optionName_to_upper ) - 1] = '\0'; + to_upper( optionName_to_upper ); + + char match_to_upper[FILENAME_MAX]; + strncpy( match_to_upper, opt.props.match, sizeof( match_to_upper ) - 1 ); + optionName_to_upper[sizeof( match_to_upper ) - 1] = '\0'; + to_upper( match_to_upper ); + + char matchShort_to_upper[FILENAME_MAX]; + strncpy( matchShort_to_upper, opt.props.matchShort, sizeof( matchShort_to_upper ) - 1 ); + optionName_to_upper[sizeof( matchShort_to_upper ) - 1] = '\0'; + to_upper( matchShort_to_upper ); + + if ( strncmp( optionName_to_upper, match_to_upper, MAX_OPTION_LENGTH ) == 0 || strncmp( optionName_to_upper, matchShort_to_upper, MAX_OPTION_LENGTH ) == 0 ) { return 1; } diff --git a/lib_util/hrtf_file_reader.c b/lib_util/hrtf_file_reader.c index 8920e6780be4a40f370a6b8c389505033a81b85b..c2e3d8a2ae53745336dfedd66904388a85fd7355 100644 --- a/lib_util/hrtf_file_reader.c +++ b/lib_util/hrtf_file_reader.c @@ -32,10 +32,8 @@ #include "hrtf_file_reader.h" #include -#include "prot.h" -#include "ivas_prot_rend.h" #include "prot_fx.h" -#include "ivas_prot.h" +#include "ivas_prot_rend_fx.h" #include "ivas_prot_fx.h" /*---------------------------------------------------------------------* @@ -1203,11 +1201,7 @@ static ivas_error create_fastconv_HRTF_from_rawdata( { memcpy( f_tmp_ntaps_sba, hrtf_data_rptr, BINAURAL_NTAPS_SBA * sizeof( float ) ); hrtf_data_rptr += BINAURAL_NTAPS_SBA * sizeof( float ); -#ifdef MSAN_FIX floatToFixed_arrL( f_tmp_ntaps_sba, ( *hHRTF )->rightHRIRImag_HOA3_fx[i][j], Q29, BINAURAL_NTAPS_SBA ); -#else - floatToFixed_arrL( f_tmp_ntaps_sba, ( *hHRTF )->rightHRIRReal_HOA3_fx[i][j], Q29, BINAURAL_NTAPS_SBA ); -#endif } } } diff --git a/lib_util/ls_custom_file_reader.c b/lib_util/ls_custom_file_reader.c index 01d1f0307ad721fc38ffa53ff338563ab5c792ad..f4f43e496e358d9dae0ca00a8478fe342a3fc121 100644 --- a/lib_util/ls_custom_file_reader.c +++ b/lib_util/ls_custom_file_reader.c @@ -33,8 +33,8 @@ #include "ls_custom_file_reader.h" #include #include -#include "ivas_prot.h" -#include "prot.h" +#include "ivas_prot_fx.h" +#include "prot_fx.h" struct LsCustomFileReader diff --git a/lib_util/masa_file_reader.c b/lib_util/masa_file_reader.c index 9351d9bc9d871f00d4f5a75480afb8a90ce21e8a..efab80b79547db87abeb0a4f44e1e72dbc1a3637 100644 --- a/lib_util/masa_file_reader.c +++ b/lib_util/masa_file_reader.c @@ -31,7 +31,6 @@ *******************************************************************************************************/ #include "masa_file_reader.h" -#include "ivas_prot.h" #include "ivas_stat_com.h" #include #include diff --git a/lib_util/mime_io.c b/lib_util/mime_io.c index 782f818d0fb7c421623461d07d4d531e115d5dc4..2976e1895feea86a4a9d03cdca6571ee8ebd3d5a 100644 --- a/lib_util/mime_io.c +++ b/lib_util/mime_io.c @@ -32,7 +32,7 @@ #include "mime_io.h" #include "mime.h" -#include "prot.h" +#include "prot_fx.h" #include "string.h" #include #include diff --git a/lib_util/render_config_reader.c b/lib_util/render_config_reader.c index dde176de6fe1d6b1e6d207ffa9508ebb36bd9664..92c1a2fedaeeea30a34e56f5cdbd0d1444940224 100644 --- a/lib_util/render_config_reader.c +++ b/lib_util/render_config_reader.c @@ -37,7 +37,7 @@ #include #include #include "cmdl_tools.h" -#include "prot.h" +#include "prot_fx.h" /*------------------------------------------------------------------------------------------* diff --git a/lib_util/rotation_file_reader.c b/lib_util/rotation_file_reader.c index debd8290e641e5386617973198612dfdcc4cdd13..a3f9544c8bec21ef677923ed1c382baf58308d81 100644 --- a/lib_util/rotation_file_reader.c +++ b/lib_util/rotation_file_reader.c @@ -34,7 +34,6 @@ #include #include #include -#include "prot.h" #include "prot_fx.h" diff --git a/lib_util/split_rend_bfi_file_reader.c b/lib_util/split_rend_bfi_file_reader.c index 3fc63331783c21e734e2d1a68cea680fd346e85c..4c5770f45930b668c5a6f83ebe20bc3801b130fd 100644 --- a/lib_util/split_rend_bfi_file_reader.c +++ b/lib_util/split_rend_bfi_file_reader.c @@ -35,7 +35,7 @@ #include "split_rend_bfi_file_reader.h" #ifdef SPLIT_REND_WITH_HEAD_ROT #include -#include "prot.h" +#include "prot_fx.h" struct SplitRendBFIFileReader { diff --git a/lib_util/split_render_file_read_write.c b/lib_util/split_render_file_read_write.c index e52f9fe86ddb867237859198ff127699a7036fe7..065300c10ea94056103cc35668a7098a9ab7a9bc 100644 --- a/lib_util/split_render_file_read_write.c +++ b/lib_util/split_render_file_read_write.c @@ -35,7 +35,7 @@ #include "split_render_file_read_write.h" #ifdef SPLIT_REND_WITH_HEAD_ROT #include -#include "prot.h" +#include "prot_fx.h" /*------------------------------------------------------------------------------------------* diff --git a/lib_util/vector3_pair_file_reader.c b/lib_util/vector3_pair_file_reader.c index ec14ebc7115917c6ad1a3df4f2d6bb9733ccfab5..5745e95955616a19c7e95adf68d2dda74a908ff9 100644 --- a/lib_util/vector3_pair_file_reader.c +++ b/lib_util/vector3_pair_file_reader.c @@ -35,7 +35,6 @@ #include #include #include -#include "prot.h" #include "options.h" /* only included to get access to the feature-defines */ #include "prot_fx.h" #include "ivas_prot_fx.h"