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authorFraunhofer IIS FDK <audio-fdk@iis.fraunhofer.de>2019-11-13 16:05:58 +0100
committerJean-Michel Trivi <jmtrivi@google.com>2020-01-14 14:48:07 -0800
commit063d5f30864c6293855da6f7b8dd482d7c408158 (patch)
tree1674c75a501ef638bc0dde91dfc4bd944e5a9735 /libSACdec/src/sac_process.cpp
parent25fb9adf6fe129e0b74fe78c04526a57b8210f29 (diff)
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Revise scaling for USAC combined with phase coding in SpatialDecApplyM2() to prevent signed integer overflow.
Bug: 146937759 Test: atest DecoderTestXheAac ; atest DecoderTestAacDrc Change-Id: If7c484b2e1bee82747f5c6dc0ee7ad1f282c0189
Diffstat (limited to 'libSACdec/src/sac_process.cpp')
-rw-r--r--libSACdec/src/sac_process.cpp145
1 files changed, 80 insertions, 65 deletions
diff --git a/libSACdec/src/sac_process.cpp b/libSACdec/src/sac_process.cpp
index 56c72ad..95128f3 100644
--- a/libSACdec/src/sac_process.cpp
+++ b/libSACdec/src/sac_process.cpp
@@ -1,7 +1,7 @@
/* -----------------------------------------------------------------------------
Software License for The Fraunhofer FDK AAC Codec Library for Android
-© Copyright 1995 - 2018 Fraunhofer-Gesellschaft zur Förderung der angewandten
+© Copyright 1995 - 2019 Fraunhofer-Gesellschaft zur Förderung der angewandten
Forschung e.V. All rights reserved.
1. INTRODUCTION
@@ -113,6 +113,8 @@ amm-info@iis.fraunhofer.de
#include "FDK_trigFcts.h"
#include "FDK_decorrelate.h"
+#define SAC_DEC_APPLY_M2_SCALE(spec, s) ((spec) >> (-(s)))
+
/**
* \brief Linear interpolation between two parameter values.
* a*alpha + b*(1-alpha)
@@ -634,8 +636,7 @@ SACDEC_ERROR SpatialDecApplyM2(spatialDec *self, INT ps, const FIXP_SGL alpha,
}
if (self->phaseCoding == 3) {
- /* + SCALE_DATA_APPLY_M2 to compensate for Div2 below ?! */
- scale_param_m2 = SCALE_PARAM_M2_212_PRED + SCALE_DATA_APPLY_M2;
+ scale_param_m2 = -(SCALE_DATA_APPLY_M2_PC - 1);
}
for (row = 0; row < self->numM2rows; row++) {
@@ -686,10 +687,10 @@ SACDEC_ERROR SpatialDecApplyM2(spatialDec *self, INT ps, const FIXP_SGL alpha,
} else { /* isBinauralMode(self->upmixType) */
for (qs = 0; qs < complexHybBands; qs++) {
- pHybOutRealDry[qs] += fMultDiv2(pWReal[qs], pKernel[qs])
- << (scale_param_m2);
- pHybOutImagDry[qs] += fMultDiv2(pWImag[qs], pKernel[qs])
- << (scale_param_m2);
+ pHybOutRealDry[qs] += SAC_DEC_APPLY_M2_SCALE(
+ fMultDiv2(pWReal[qs], pKernel[qs]), scale_param_m2);
+ pHybOutImagDry[qs] += SAC_DEC_APPLY_M2_SCALE(
+ fMultDiv2(pWImag[qs], pKernel[qs]), scale_param_m2);
}
M2ParamToKernelMult(pKernel, self->M2Imag__FDK[row][col],
@@ -697,27 +698,27 @@ SACDEC_ERROR SpatialDecApplyM2(spatialDec *self, INT ps, const FIXP_SGL alpha,
self->kernels_width, alpha, complexParBands);
/* direct signals sign is -1 for qs = 0,2 */
- pHybOutRealDry[0] += fMultDiv2(pWImag[0], pKernel[0])
- << (scale_param_m2);
- pHybOutImagDry[0] -= fMultDiv2(pWReal[0], pKernel[0])
- << (scale_param_m2);
+ pHybOutRealDry[0] += SAC_DEC_APPLY_M2_SCALE(
+ fMultDiv2(pWImag[0], pKernel[0]), scale_param_m2);
+ pHybOutImagDry[0] -= SAC_DEC_APPLY_M2_SCALE(
+ fMultDiv2(pWReal[0], pKernel[0]), scale_param_m2);
- pHybOutRealDry[2] += fMultDiv2(pWImag[2], pKernel[2])
- << (scale_param_m2);
- pHybOutImagDry[2] -= fMultDiv2(pWReal[2], pKernel[2])
- << (scale_param_m2);
+ pHybOutRealDry[2] += SAC_DEC_APPLY_M2_SCALE(
+ fMultDiv2(pWImag[2], pKernel[2]), scale_param_m2);
+ pHybOutImagDry[2] -= SAC_DEC_APPLY_M2_SCALE(
+ fMultDiv2(pWReal[2], pKernel[2]), scale_param_m2);
/* direct signals sign is +1 for qs = 1,3,4,5,...,complexHybBands */
- pHybOutRealDry[1] -= fMultDiv2(pWImag[1], pKernel[1])
- << (scale_param_m2);
- pHybOutImagDry[1] += fMultDiv2(pWReal[1], pKernel[1])
- << (scale_param_m2);
+ pHybOutRealDry[1] -= SAC_DEC_APPLY_M2_SCALE(
+ fMultDiv2(pWImag[1], pKernel[1]), scale_param_m2);
+ pHybOutImagDry[1] += SAC_DEC_APPLY_M2_SCALE(
+ fMultDiv2(pWReal[1], pKernel[1]), scale_param_m2);
for (qs = 3; qs < complexHybBands; qs++) {
- pHybOutRealDry[qs] -= fMultDiv2(pWImag[qs], pKernel[qs])
- << (scale_param_m2);
- pHybOutImagDry[qs] += fMultDiv2(pWReal[qs], pKernel[qs])
- << (scale_param_m2);
+ pHybOutRealDry[qs] -= SAC_DEC_APPLY_M2_SCALE(
+ fMultDiv2(pWImag[qs], pKernel[qs]), scale_param_m2);
+ pHybOutImagDry[qs] += SAC_DEC_APPLY_M2_SCALE(
+ fMultDiv2(pWReal[qs], pKernel[qs]), scale_param_m2);
}
} /* self->upmixType */
} /* if (activParamBands) */
@@ -770,17 +771,17 @@ SACDEC_ERROR SpatialDecApplyM2(spatialDec *self, INT ps, const FIXP_SGL alpha,
FIXP_DBL *RESTRICT pHybOutImag;
for (qs = 0; qs < resHybIndex; qs++) {
- pHybOutRealDry[qs] += fMultDiv2(pWReal[qs], pKernel[qs])
- << (scale_param_m2);
- pHybOutImagDry[qs] += fMultDiv2(pWImag[qs], pKernel[qs])
- << (scale_param_m2);
+ pHybOutRealDry[qs] += SAC_DEC_APPLY_M2_SCALE(
+ fMultDiv2(pWReal[qs], pKernel[qs]), scale_param_m2);
+ pHybOutImagDry[qs] += SAC_DEC_APPLY_M2_SCALE(
+ fMultDiv2(pWImag[qs], pKernel[qs]), scale_param_m2);
}
/* decor signals */
for (; qs < complexHybBands; qs++) {
- pHybOutRealWet[qs] += fMultDiv2(pWReal[qs], pKernel[qs])
- << (scale_param_m2);
- pHybOutImagWet[qs] += fMultDiv2(pWImag[qs], pKernel[qs])
- << (scale_param_m2);
+ pHybOutRealWet[qs] += SAC_DEC_APPLY_M2_SCALE(
+ fMultDiv2(pWReal[qs], pKernel[qs]), scale_param_m2);
+ pHybOutImagWet[qs] += SAC_DEC_APPLY_M2_SCALE(
+ fMultDiv2(pWImag[qs], pKernel[qs]), scale_param_m2);
}
M2ParamToKernelMult(pKernel, self->M2Imag__FDK[row][col],
@@ -790,20 +791,20 @@ SACDEC_ERROR SpatialDecApplyM2(spatialDec *self, INT ps, const FIXP_SGL alpha,
/* direct signals sign is -1 for qs = 0,2 */
/* direct signals sign is +1 for qs = 1,3.. */
if (toolsDisabled) {
- pHybOutRealDry[0] += fMultDiv2(pWImag[0], pKernel[0])
- << (scale_param_m2);
- pHybOutImagDry[0] -= fMultDiv2(pWReal[0], pKernel[0])
- << (scale_param_m2);
-
- pHybOutRealDry[1] -= fMultDiv2(pWImag[1], pKernel[1])
- << (scale_param_m2);
- pHybOutImagDry[1] += fMultDiv2(pWReal[1], pKernel[1])
- << (scale_param_m2);
-
- pHybOutRealDry[2] += fMultDiv2(pWImag[2], pKernel[2])
- << (scale_param_m2);
- pHybOutImagDry[2] -= fMultDiv2(pWReal[2], pKernel[2])
- << (scale_param_m2);
+ pHybOutRealDry[0] += SAC_DEC_APPLY_M2_SCALE(
+ fMultDiv2(pWImag[0], pKernel[0]), scale_param_m2);
+ pHybOutImagDry[0] -= SAC_DEC_APPLY_M2_SCALE(
+ fMultDiv2(pWReal[0], pKernel[0]), scale_param_m2);
+
+ pHybOutRealDry[1] -= SAC_DEC_APPLY_M2_SCALE(
+ fMultDiv2(pWImag[1], pKernel[1]), scale_param_m2);
+ pHybOutImagDry[1] += SAC_DEC_APPLY_M2_SCALE(
+ fMultDiv2(pWReal[1], pKernel[1]), scale_param_m2);
+
+ pHybOutRealDry[2] += SAC_DEC_APPLY_M2_SCALE(
+ fMultDiv2(pWImag[2], pKernel[2]), scale_param_m2);
+ pHybOutImagDry[2] -= SAC_DEC_APPLY_M2_SCALE(
+ fMultDiv2(pWReal[2], pKernel[2]), scale_param_m2);
} else {
pHybOutReal = &pHybOutRealDry[0];
pHybOutImag = &pHybOutImagDry[0];
@@ -811,46 +812,60 @@ SACDEC_ERROR SpatialDecApplyM2(spatialDec *self, INT ps, const FIXP_SGL alpha,
pHybOutReal = &pHybOutRealWet[0];
pHybOutImag = &pHybOutImagWet[0];
}
- pHybOutReal[0] += fMultDiv2(pWImag[0], pKernel[0])
- << (scale_param_m2);
- pHybOutImag[0] -= fMultDiv2(pWReal[0], pKernel[0])
- << (scale_param_m2);
+ pHybOutReal[0] += SAC_DEC_APPLY_M2_SCALE(
+ fMultDiv2(pWImag[0], pKernel[0]), scale_param_m2);
+ pHybOutImag[0] -= SAC_DEC_APPLY_M2_SCALE(
+ fMultDiv2(pWReal[0], pKernel[0]), scale_param_m2);
if (1 == resHybIndex) {
pHybOutReal = &pHybOutRealWet[0];
pHybOutImag = &pHybOutImagWet[0];
}
- pHybOutReal[1] -= fMultDiv2(pWImag[1], pKernel[1])
- << (scale_param_m2);
- pHybOutImag[1] += fMultDiv2(pWReal[1], pKernel[1])
- << (scale_param_m2);
+ pHybOutReal[1] -= SAC_DEC_APPLY_M2_SCALE(
+ fMultDiv2(pWImag[1], pKernel[1]), scale_param_m2);
+ pHybOutImag[1] += SAC_DEC_APPLY_M2_SCALE(
+ fMultDiv2(pWReal[1], pKernel[1]), scale_param_m2);
if (2 == resHybIndex) {
pHybOutReal = &pHybOutRealWet[0];
pHybOutImag = &pHybOutImagWet[0];
}
- pHybOutReal[2] += fMultDiv2(pWImag[2], pKernel[2])
- << (scale_param_m2);
- pHybOutImag[2] -= fMultDiv2(pWReal[2], pKernel[2])
- << (scale_param_m2);
+ pHybOutReal[2] += SAC_DEC_APPLY_M2_SCALE(
+ fMultDiv2(pWImag[2], pKernel[2]), scale_param_m2);
+ pHybOutImag[2] -= SAC_DEC_APPLY_M2_SCALE(
+ fMultDiv2(pWReal[2], pKernel[2]), scale_param_m2);
}
for (qs = 3; qs < resHybIndex; qs++) {
- pHybOutRealDry[qs] -= fMultDiv2(pWImag[qs], pKernel[qs])
- << (scale_param_m2);
- pHybOutImagDry[qs] += fMultDiv2(pWReal[qs], pKernel[qs])
- << (scale_param_m2);
+ pHybOutRealDry[qs] -= SAC_DEC_APPLY_M2_SCALE(
+ fMultDiv2(pWImag[qs], pKernel[qs]), scale_param_m2);
+ pHybOutImagDry[qs] += SAC_DEC_APPLY_M2_SCALE(
+ fMultDiv2(pWReal[qs], pKernel[qs]), scale_param_m2);
}
/* decor signals */
for (; qs < complexHybBands; qs++) {
- pHybOutRealWet[qs] -= fMultDiv2(pWImag[qs], pKernel[qs])
- << (scale_param_m2);
- pHybOutImagWet[qs] += fMultDiv2(pWReal[qs], pKernel[qs])
- << (scale_param_m2);
+ pHybOutRealWet[qs] -= SAC_DEC_APPLY_M2_SCALE(
+ fMultDiv2(pWImag[qs], pKernel[qs]), scale_param_m2);
+ pHybOutImagWet[qs] += SAC_DEC_APPLY_M2_SCALE(
+ fMultDiv2(pWReal[qs], pKernel[qs]), scale_param_m2);
}
} /* self->upmixType */
} /* if (activParamBands) { */
} /* self->numVChannels */
+
+ if (self->phaseCoding == 3) {
+ scaleValuesSaturate(pHybOutRealDry, complexHybBands,
+ SCALE_PARAM_M2_212_PRED + SCALE_DATA_APPLY_M2_PC);
+ scaleValuesSaturate(pHybOutImagDry, complexHybBands,
+ SCALE_PARAM_M2_212_PRED + SCALE_DATA_APPLY_M2_PC);
+
+ if (!toolsDisabled) {
+ scaleValuesSaturate(pHybOutRealWet, complexHybBands,
+ SCALE_PARAM_M2_212_PRED + SCALE_DATA_APPLY_M2_PC);
+ scaleValuesSaturate(pHybOutImagWet, complexHybBands,
+ SCALE_PARAM_M2_212_PRED + SCALE_DATA_APPLY_M2_PC);
+ }
+ }
}
C_ALLOC_SCRATCH_END(pKernel, FIXP_SGL, MAX_HYBRID_BANDS);