Loading lib_rend/ivas_mcmasa_ana_fx.c +4 −6 Original line number Diff line number Diff line Loading @@ -959,29 +959,27 @@ void ivas_mcmasa_param_est_ana_fx( IF( LT_16( i1, i2 ) ) { temp_e = add( lsEnergy_e[i1], lsEnergy_e[i2] ); tempCoh_fx = BASOP_Util_Divide3232_Scale( absCOVls_fx[i1][i2], ( Sqrt32( L_add( Mult_32_32( lsEnergy_fx[i1], lsEnergy_fx[i2] ), EPSILON_FX ), &temp_e ) ), &tempCoh_e ); tempCoh_fx = BASOP_Util_Divide3232_Scale_newton( absCOVls_fx[i1][i2], ( Sqrt32( L_add( Mult_32_32( lsEnergy_fx[i1], lsEnergy_fx[i2] ), EPSILON_FX ), &temp_e ) ), &tempCoh_e ); tempCoh_e = add( tempCoh_e, sub( absCOVls_e[i1][i2], temp_e ) ); } ELSE { temp_e = add( lsEnergy_e[i1], lsEnergy_e[i2] ); tempCoh_fx = BASOP_Util_Divide3232_Scale( absCOVls_fx[i2][i1], ( Sqrt32( L_add( Mult_32_32( lsEnergy_fx[i1], lsEnergy_fx[i2] ), EPSILON_FX ), &temp_e ) ), &tempCoh_e ); tempCoh_fx = BASOP_Util_Divide3232_Scale_newton( absCOVls_fx[i2][i1], ( Sqrt32( L_add( Mult_32_32( lsEnergy_fx[i1], lsEnergy_fx[i2] ), EPSILON_FX ), &temp_e ) ), &tempCoh_e ); tempCoh_e = add( tempCoh_e, sub( absCOVls_e[i2][i1], temp_e ) ); } tempCoh_fx = L_shl( tempCoh_fx, 16 ); IF( LT_16( i1, i3 ) ) { temp_e = add( lsEnergy_e[i1], lsEnergy_e[i3] ); tempCoh2_fx = BASOP_Util_Divide3232_Scale( absCOVls_fx[i1][i3], ( Sqrt32( L_add( Mult_32_32( lsEnergy_fx[i1], lsEnergy_fx[i3] ), EPSILON_FX ), &temp_e ) ), &tempCoh2_e ); tempCoh2_fx = BASOP_Util_Divide3232_Scale_newton( absCOVls_fx[i1][i3], ( Sqrt32( L_add( Mult_32_32( lsEnergy_fx[i1], lsEnergy_fx[i3] ), EPSILON_FX ), &temp_e ) ), &tempCoh2_e ); tempCoh2_e = add( tempCoh2_e, sub( absCOVls_e[i1][i3], temp_e ) ); } ELSE { temp_e = add( lsEnergy_e[i1], lsEnergy_e[i3] ); tempCoh2_fx = BASOP_Util_Divide3232_Scale( absCOVls_fx[i3][i1], ( Sqrt32( L_add( Mult_32_32( lsEnergy_fx[i1], lsEnergy_fx[i3] ), EPSILON_FX ), &temp_e ) ), &tempCoh2_e ); tempCoh2_fx = BASOP_Util_Divide3232_Scale_newton( absCOVls_fx[i3][i1], ( Sqrt32( L_add( Mult_32_32( lsEnergy_fx[i1], lsEnergy_fx[i3] ), EPSILON_FX ), &temp_e ) ), &tempCoh2_e ); tempCoh2_e = add( tempCoh2_e, sub( absCOVls_e[i3][i1], temp_e ) ); } tempCoh2_fx = L_shl( tempCoh2_fx, 16 ); IF( EQ_16( BASOP_Util_Cmp_Mant32Exp( tempCoh_fx, tempCoh_e, tempCoh2_fx, tempCoh2_e ), -1 ) ) { cohPanCoh_fx = tempCoh_fx; Loading Loading
lib_rend/ivas_mcmasa_ana_fx.c +4 −6 Original line number Diff line number Diff line Loading @@ -959,29 +959,27 @@ void ivas_mcmasa_param_est_ana_fx( IF( LT_16( i1, i2 ) ) { temp_e = add( lsEnergy_e[i1], lsEnergy_e[i2] ); tempCoh_fx = BASOP_Util_Divide3232_Scale( absCOVls_fx[i1][i2], ( Sqrt32( L_add( Mult_32_32( lsEnergy_fx[i1], lsEnergy_fx[i2] ), EPSILON_FX ), &temp_e ) ), &tempCoh_e ); tempCoh_fx = BASOP_Util_Divide3232_Scale_newton( absCOVls_fx[i1][i2], ( Sqrt32( L_add( Mult_32_32( lsEnergy_fx[i1], lsEnergy_fx[i2] ), EPSILON_FX ), &temp_e ) ), &tempCoh_e ); tempCoh_e = add( tempCoh_e, sub( absCOVls_e[i1][i2], temp_e ) ); } ELSE { temp_e = add( lsEnergy_e[i1], lsEnergy_e[i2] ); tempCoh_fx = BASOP_Util_Divide3232_Scale( absCOVls_fx[i2][i1], ( Sqrt32( L_add( Mult_32_32( lsEnergy_fx[i1], lsEnergy_fx[i2] ), EPSILON_FX ), &temp_e ) ), &tempCoh_e ); tempCoh_fx = BASOP_Util_Divide3232_Scale_newton( absCOVls_fx[i2][i1], ( Sqrt32( L_add( Mult_32_32( lsEnergy_fx[i1], lsEnergy_fx[i2] ), EPSILON_FX ), &temp_e ) ), &tempCoh_e ); tempCoh_e = add( tempCoh_e, sub( absCOVls_e[i2][i1], temp_e ) ); } tempCoh_fx = L_shl( tempCoh_fx, 16 ); IF( LT_16( i1, i3 ) ) { temp_e = add( lsEnergy_e[i1], lsEnergy_e[i3] ); tempCoh2_fx = BASOP_Util_Divide3232_Scale( absCOVls_fx[i1][i3], ( Sqrt32( L_add( Mult_32_32( lsEnergy_fx[i1], lsEnergy_fx[i3] ), EPSILON_FX ), &temp_e ) ), &tempCoh2_e ); tempCoh2_fx = BASOP_Util_Divide3232_Scale_newton( absCOVls_fx[i1][i3], ( Sqrt32( L_add( Mult_32_32( lsEnergy_fx[i1], lsEnergy_fx[i3] ), EPSILON_FX ), &temp_e ) ), &tempCoh2_e ); tempCoh2_e = add( tempCoh2_e, sub( absCOVls_e[i1][i3], temp_e ) ); } ELSE { temp_e = add( lsEnergy_e[i1], lsEnergy_e[i3] ); tempCoh2_fx = BASOP_Util_Divide3232_Scale( absCOVls_fx[i3][i1], ( Sqrt32( L_add( Mult_32_32( lsEnergy_fx[i1], lsEnergy_fx[i3] ), EPSILON_FX ), &temp_e ) ), &tempCoh2_e ); tempCoh2_fx = BASOP_Util_Divide3232_Scale_newton( absCOVls_fx[i3][i1], ( Sqrt32( L_add( Mult_32_32( lsEnergy_fx[i1], lsEnergy_fx[i3] ), EPSILON_FX ), &temp_e ) ), &tempCoh2_e ); tempCoh2_e = add( tempCoh2_e, sub( absCOVls_e[i3][i1], temp_e ) ); } tempCoh2_fx = L_shl( tempCoh2_fx, 16 ); IF( EQ_16( BASOP_Util_Cmp_Mant32Exp( tempCoh_fx, tempCoh_e, tempCoh2_fx, tempCoh2_e ), -1 ) ) { cohPanCoh_fx = tempCoh_fx; Loading
