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|
/***************************** MPEG Audio Encoder ***************************
(C) Copyright Fraunhofer IIS (2004-2005)
All Rights Reserved
Please be advised that this software and/or program delivery is
Confidential Information of Fraunhofer and subject to and covered by the
Fraunhofer IIS Software Evaluation Agreement
between Google Inc. and Fraunhofer
effective and in full force since March 1, 2012.
You may use this software and/or program only under the terms and
conditions described in the above mentioned Fraunhofer IIS Software
Evaluation Agreement. Any other and/or further use requires a separate agreement.
$Id$
Initial Authors: M. Multrus
Contents/Description: PS Wrapper, Downmix
This software and/or program is protected by copyright law and international
treaties. Any reproduction or distribution of this software and/or program,
or any portion of it, may result in severe civil and criminal penalties, and
will be prosecuted to the maximum extent possible under law.
******************************************************************************/
#include "ps_main.h"
/* Includes ******************************************************************/
#include "ps_const.h"
#include "ps_bitenc.h"
#include "sbr_ram.h"
/*--------------- function declarations --------------------*/
static void psFindBestScaling(
HANDLE_PARAMETRIC_STEREO hParametricStereo,
FIXP_DBL *hybridData[HYBRID_FRAMESIZE][MAX_PS_CHANNELS][2],
UCHAR *dynBandScale,
FIXP_QMF *maxBandValue,
SCHAR *dmxScale
);
/*------------- function definitions ----------------*/
FDK_PSENC_ERROR PSEnc_Create(
HANDLE_PARAMETRIC_STEREO *phParametricStereo
)
{
FDK_PSENC_ERROR error = PSENC_OK;
if (phParametricStereo==NULL) {
error = PSENC_INVALID_HANDLE;
}
else {
int i;
HANDLE_PARAMETRIC_STEREO hParametricStereo = NULL;
if (NULL==(hParametricStereo = GetRam_ParamStereo())) {
error = PSENC_MEMORY_ERROR;
goto bail;
}
FDKmemclear(hParametricStereo, sizeof(PARAMETRIC_STEREO));
if (PSENC_OK != (error = FDKsbrEnc_CreatePSEncode(&hParametricStereo->hPsEncode))) {
goto bail;
}
for (i=0; i<MAX_PS_CHANNELS; i++) {
if (FDKhybridAnalysisOpen(
&hParametricStereo->fdkHybAnaFilter[i],
hParametricStereo->__staticHybAnaStatesLF[i],
sizeof(hParametricStereo->__staticHybAnaStatesLF[i]),
hParametricStereo->__staticHybAnaStatesHF[i],
sizeof(hParametricStereo->__staticHybAnaStatesHF[i])
) !=0 )
{
error = PSENC_MEMORY_ERROR;
goto bail;
}
}
*phParametricStereo = hParametricStereo; /* return allocated handle */
}
bail:
return error;
}
FDK_PSENC_ERROR PSEnc_Init(
HANDLE_PARAMETRIC_STEREO hParametricStereo,
const HANDLE_PSENC_CONFIG hPsEncConfig,
INT noQmfSlots,
INT noQmfBands
,UCHAR *dynamic_RAM
)
{
FDK_PSENC_ERROR error = PSENC_OK;
if ( (NULL==hParametricStereo) || (NULL==hPsEncConfig) ) {
error = PSENC_INVALID_HANDLE;
}
else {
int ch, i;
hParametricStereo->initPS = 1;
hParametricStereo->noQmfSlots = noQmfSlots;
hParametricStereo->noQmfBands = noQmfBands;
/* clear delay lines */
FDKmemclear(hParametricStereo->qmfDelayLines, sizeof(hParametricStereo->qmfDelayLines));
hParametricStereo->qmfDelayScale = FRACT_BITS-1;
/* create configuration for hybrid filter bank */
for (ch=0; ch<MAX_PS_CHANNELS; ch++) {
FDKhybridAnalysisInit(
&hParametricStereo->fdkHybAnaFilter[ch],
THREE_TO_TEN,
QMF_CHANNELS,
QMF_CHANNELS,
1
);
} /* ch */
FDKhybridSynthesisInit(
&hParametricStereo->fdkHybSynFilter,
THREE_TO_TEN,
QMF_CHANNELS,
QMF_CHANNELS
);
/* determine average delay */
hParametricStereo->psDelay = (HYBRID_FILTER_DELAY*hParametricStereo->noQmfBands);
if ( (hPsEncConfig->maxEnvelopes < PSENC_NENV_1) || (hPsEncConfig->maxEnvelopes > PSENC_NENV_MAX) ) {
hPsEncConfig->maxEnvelopes = PSENC_NENV_DEFAULT;
}
hParametricStereo->maxEnvelopes = hPsEncConfig->maxEnvelopes;
if (PSENC_OK != (error = FDKsbrEnc_InitPSEncode(hParametricStereo->hPsEncode, (PS_BANDS) hPsEncConfig->nStereoBands, hPsEncConfig->iidQuantErrorThreshold))){
goto bail;
}
for (ch = 0; ch<MAX_PS_CHANNELS; ch ++) {
FIXP_DBL *pDynReal = GetRam_Sbr_envRBuffer (ch, dynamic_RAM);
FIXP_DBL *pDynImag = GetRam_Sbr_envIBuffer (ch, dynamic_RAM);
for (i=0; i<HYBRID_FRAMESIZE; i++) {
hParametricStereo->pHybridData[i+HYBRID_READ_OFFSET][ch][0] = &pDynReal[i*MAX_HYBRID_BANDS];
hParametricStereo->pHybridData[i+HYBRID_READ_OFFSET][ch][1] = &pDynImag[i*MAX_HYBRID_BANDS];;
}
for (i=0; i<HYBRID_READ_OFFSET; i++) {
hParametricStereo->pHybridData[i][ch][0] = hParametricStereo->__staticHybridData[i][ch][0];
hParametricStereo->pHybridData[i][ch][1] = hParametricStereo->__staticHybridData[i][ch][1];
}
} /* ch */
/* clear static hybrid buffer */
FDKmemclear(hParametricStereo->__staticHybridData, sizeof(hParametricStereo->__staticHybridData));
/* clear bs buffer */
FDKmemclear(hParametricStereo->psOut, sizeof(hParametricStereo->psOut));
/* clear scaling buffer */
FDKmemclear(hParametricStereo->dynBandScale, sizeof(UCHAR)*PS_MAX_BANDS);
FDKmemclear(hParametricStereo->maxBandValue, sizeof(FIXP_QMF)*PS_MAX_BANDS);
} /* valid handle */
bail:
return error;
}
FDK_PSENC_ERROR PSEnc_Destroy(
HANDLE_PARAMETRIC_STEREO *phParametricStereo
)
{
FDK_PSENC_ERROR error = PSENC_OK;
if (NULL!=phParametricStereo) {
HANDLE_PARAMETRIC_STEREO hParametricStereo = *phParametricStereo;
if(hParametricStereo != NULL){
FDKsbrEnc_DestroyPSEncode(&hParametricStereo->hPsEncode);
FreeRam_ParamStereo(phParametricStereo);
}
}
return error;
}
static FDK_PSENC_ERROR ExtractPSParameters(
HANDLE_PARAMETRIC_STEREO hParametricStereo,
const int sendHeader,
FIXP_DBL *hybridData[HYBRID_FRAMESIZE][MAX_PS_CHANNELS][2]
)
{
FDK_PSENC_ERROR error = PSENC_OK;
if (hParametricStereo == NULL) {
error = PSENC_INVALID_HANDLE;
}
else {
/* call ps encode function */
if (hParametricStereo->initPS){
hParametricStereo->psOut[1] = hParametricStereo->psOut[0];
}
hParametricStereo->psOut[0] = hParametricStereo->psOut[1];
if (PSENC_OK != (error = FDKsbrEnc_PSEncode(
hParametricStereo->hPsEncode,
&hParametricStereo->psOut[1],
hParametricStereo->dynBandScale,
hParametricStereo->maxEnvelopes,
hybridData,
hParametricStereo->noQmfSlots,
sendHeader)))
{
goto bail;
}
if (hParametricStereo->initPS) {
hParametricStereo->psOut[0] = hParametricStereo->psOut[1];
hParametricStereo->initPS = 0;
}
}
bail:
return error;
}
static FDK_PSENC_ERROR DownmixPSQmfData(
HANDLE_PARAMETRIC_STEREO hParametricStereo,
HANDLE_QMF_FILTER_BANK sbrSynthQmf,
FIXP_QMF **RESTRICT mixRealQmfData,
FIXP_QMF **RESTRICT mixImagQmfData,
INT_PCM *downsampledOutSignal,
FIXP_DBL *hybridData[HYBRID_FRAMESIZE][MAX_PS_CHANNELS][2],
const INT noQmfSlots,
const INT psQmfScale[MAX_PS_CHANNELS],
SCHAR *qmfScale
)
{
FDK_PSENC_ERROR error = PSENC_OK;
if(hParametricStereo == NULL){
error = PSENC_INVALID_HANDLE;
}
else {
int n, k;
C_ALLOC_SCRATCH_START(pWorkBuffer, FIXP_QMF, QMF_CHANNELS*2);
/* define scalings */
int dynQmfScale = fixMax(0, hParametricStereo->dmxScale-1); /* scale one bit more for addition of left and right */
int downmixScale = psQmfScale[0] - dynQmfScale;
const FIXP_DBL maxStereoScaleFactor = MAXVAL_DBL; /* 2.f/2.f */
for (n = 0; n<noQmfSlots; n++) {
FIXP_DBL tmpHybrid[2][MAX_HYBRID_BANDS];
for(k = 0; k<71; k++){
int dynScale, sc; /* scaling */
FIXP_QMF tmpLeftReal, tmpRightReal, tmpLeftImag, tmpRightImag;
FIXP_DBL tmpScaleFactor, stereoScaleFactor;
tmpLeftReal = hybridData[n][0][0][k];
tmpLeftImag = hybridData[n][0][1][k];
tmpRightReal = hybridData[n][1][0][k];
tmpRightImag = hybridData[n][1][1][k];
sc = fixMax(0,CntLeadingZeros( fixMax(fixMax(fixp_abs(tmpLeftReal),fixp_abs(tmpLeftImag)),fixMax(fixp_abs(tmpRightReal),fixp_abs(tmpRightImag))) )-2);
tmpLeftReal <<= sc; tmpLeftImag <<= sc;
tmpRightReal <<= sc; tmpRightImag <<= sc;
dynScale = fixMin(sc-dynQmfScale,DFRACT_BITS-1);
/* calc stereo scale factor to avoid loss of energy in bands */
/* stereo scale factor = min(2.0f, sqrt( (abs(l(k, n)^2 + abs(r(k, n)^2 )))/(0.5f*abs(l(k, n) + r(k, n))) )) */
stereoScaleFactor = fPow2Div2(tmpLeftReal) + fPow2Div2(tmpLeftImag)
+ fPow2Div2(tmpRightReal) + fPow2Div2(tmpRightImag) ;
/* might be that tmpScaleFactor becomes negative, so fabs(.) */
tmpScaleFactor = fixp_abs(stereoScaleFactor + fMult(tmpLeftReal,tmpRightReal) + fMult(tmpLeftImag,tmpRightImag));
/* min(2.0f, sqrt(stereoScaleFactor/(0.5f*tmpScaleFactor))) */
if ( (stereoScaleFactor>>1) < fMult(maxStereoScaleFactor,tmpScaleFactor) ) {
int sc_num = CountLeadingBits(stereoScaleFactor) ;
int sc_denum = CountLeadingBits(tmpScaleFactor) ;
sc = -(sc_num-sc_denum);
tmpScaleFactor = schur_div((stereoScaleFactor<<(sc_num))>>1,
tmpScaleFactor<<sc_denum,
16) ;
/* prevent odd scaling for next sqrt calculation */
if (sc&0x1) {
sc++;
tmpScaleFactor>>=1;
}
stereoScaleFactor = sqrtFixp(tmpScaleFactor);
stereoScaleFactor <<= (sc>>1);
}
else {
stereoScaleFactor = maxStereoScaleFactor;
}
/* write data to hybrid output */
tmpHybrid[0][k] = fMultDiv2(stereoScaleFactor, (FIXP_QMF)(tmpLeftReal + tmpRightReal))>>dynScale;
tmpHybrid[1][k] = fMultDiv2(stereoScaleFactor, (FIXP_QMF)(tmpLeftImag + tmpRightImag))>>dynScale;
} /* hybrid bands - k */
FDKhybridSynthesisApply(
&hParametricStereo->fdkHybSynFilter,
tmpHybrid[0],
tmpHybrid[1],
mixRealQmfData[n],
mixImagQmfData[n]);
qmfSynthesisFilteringSlot(
sbrSynthQmf,
mixRealQmfData[n],
mixImagQmfData[n],
downmixScale-7,
downmixScale-7,
downsampledOutSignal+(n*sbrSynthQmf->no_channels),
1,
pWorkBuffer);
} /* slots */
*qmfScale = -downmixScale + 7;
C_ALLOC_SCRATCH_END(pWorkBuffer, FIXP_QMF, QMF_CHANNELS*2);
{
const INT noQmfSlots2 = hParametricStereo->noQmfSlots>>1;
const int noQmfBands = hParametricStereo->noQmfBands;
INT scale, i, j, slotOffset;
FIXP_QMF tmp[2][QMF_CHANNELS];
for (i=0; i<noQmfSlots2; i++) {
FDKmemcpy(tmp[0], hParametricStereo->qmfDelayLines[0][i], noQmfBands*sizeof(FIXP_QMF));
FDKmemcpy(tmp[1], hParametricStereo->qmfDelayLines[1][i], noQmfBands*sizeof(FIXP_QMF));
FDKmemcpy(hParametricStereo->qmfDelayLines[0][i], mixRealQmfData[i+noQmfSlots2], noQmfBands*sizeof(FIXP_QMF));
FDKmemcpy(hParametricStereo->qmfDelayLines[1][i], mixImagQmfData[i+noQmfSlots2], noQmfBands*sizeof(FIXP_QMF));
FDKmemcpy(mixRealQmfData[i+noQmfSlots2], mixRealQmfData[i], noQmfBands*sizeof(FIXP_QMF));
FDKmemcpy(mixImagQmfData[i+noQmfSlots2], mixImagQmfData[i], noQmfBands*sizeof(FIXP_QMF));
FDKmemcpy(mixRealQmfData[i], tmp[0], noQmfBands*sizeof(FIXP_QMF));
FDKmemcpy(mixImagQmfData[i], tmp[1], noQmfBands*sizeof(FIXP_QMF));
}
if (hParametricStereo->qmfDelayScale > *qmfScale) {
scale = hParametricStereo->qmfDelayScale - *qmfScale;
slotOffset = 0;
}
else {
scale = *qmfScale - hParametricStereo->qmfDelayScale;
slotOffset = noQmfSlots2;
}
for (i=0; i<noQmfSlots2; i++) {
for (j=0; j<noQmfBands; j++) {
mixRealQmfData[i+slotOffset][j] >>= scale;
mixImagQmfData[i+slotOffset][j] >>= scale;
}
}
scale = *qmfScale;
*qmfScale = FDKmin(*qmfScale, hParametricStereo->qmfDelayScale);
hParametricStereo->qmfDelayScale = scale;
}
} /* valid handle */
return error;
}
INT FDKsbrEnc_PSEnc_WritePSData(
HANDLE_PARAMETRIC_STEREO hParametricStereo,
HANDLE_FDK_BITSTREAM hBitstream
)
{
return ( (hParametricStereo!=NULL) ? FDKsbrEnc_WritePSBitstream(&hParametricStereo->psOut[0], hBitstream) : 0 );
}
FDK_PSENC_ERROR FDKsbrEnc_PSEnc_ParametricStereoProcessing(
HANDLE_PARAMETRIC_STEREO hParametricStereo,
INT_PCM *samples[2],
UINT timeInStride,
QMF_FILTER_BANK **hQmfAnalysis,
FIXP_QMF **RESTRICT downmixedRealQmfData,
FIXP_QMF **RESTRICT downmixedImagQmfData,
INT_PCM *downsampledOutSignal,
HANDLE_QMF_FILTER_BANK sbrSynthQmf,
SCHAR *qmfScale,
const int sendHeader
)
{
FDK_PSENC_ERROR error = PSENC_OK;
INT noQmfBands = hParametricStereo->noQmfBands;
INT psQmfScale[MAX_PS_CHANNELS] = {0};
int psCh, i;
C_ALLOC_SCRATCH_START(pWorkBuffer, FIXP_DBL, QMF_CHANNELS*4);
for (psCh = 0; psCh<MAX_PS_CHANNELS; psCh ++) {
for (i = 0; i < hQmfAnalysis[psCh]->no_col; i++) {
qmfAnalysisFilteringSlot(
hQmfAnalysis[psCh],
&pWorkBuffer[2*QMF_CHANNELS], /* qmfReal[QMF_CHANNELS] */
&pWorkBuffer[3*QMF_CHANNELS], /* qmfImag[QMF_CHANNELS] */
samples[psCh]+i*(hQmfAnalysis[psCh]->no_channels*timeInStride),
timeInStride,
&pWorkBuffer[0*QMF_CHANNELS] /* qmf workbuffer 2*QMF_CHANNELS */
);
FDKhybridAnalysisApply(
&hParametricStereo->fdkHybAnaFilter[psCh],
&pWorkBuffer[2*QMF_CHANNELS], /* qmfReal[QMF_CHANNELS] */
&pWorkBuffer[3*QMF_CHANNELS], /* qmfImag[QMF_CHANNELS] */
hParametricStereo->pHybridData[i+HYBRID_READ_OFFSET][psCh][0],
hParametricStereo->pHybridData[i+HYBRID_READ_OFFSET][psCh][1]
);
} /* no_col loop i */
psQmfScale[psCh] = hQmfAnalysis[psCh]->outScalefactor;
} /* for psCh */
C_ALLOC_SCRATCH_END(pWorkBuffer, FIXP_DBL, QMF_CHANNELS*4);
/* find best scaling in new QMF and Hybrid data */
psFindBestScaling( hParametricStereo,
&hParametricStereo->pHybridData[HYBRID_READ_OFFSET],
hParametricStereo->dynBandScale,
hParametricStereo->maxBandValue,
&hParametricStereo->dmxScale ) ;
/* extract the ps parameters */
if(PSENC_OK != (error = ExtractPSParameters(hParametricStereo, sendHeader, &hParametricStereo->pHybridData[0]))){
goto bail;
}
/* save hybrid date for next frame */
for (i=0; i<HYBRID_READ_OFFSET; i++) {
FDKmemcpy(hParametricStereo->pHybridData[i][0][0], hParametricStereo->pHybridData[HYBRID_FRAMESIZE+i][0][0], MAX_HYBRID_BANDS*sizeof(FIXP_DBL)); /* left, real */
FDKmemcpy(hParametricStereo->pHybridData[i][0][1], hParametricStereo->pHybridData[HYBRID_FRAMESIZE+i][0][1], MAX_HYBRID_BANDS*sizeof(FIXP_DBL)); /* left, imag */
FDKmemcpy(hParametricStereo->pHybridData[i][1][0], hParametricStereo->pHybridData[HYBRID_FRAMESIZE+i][1][0], MAX_HYBRID_BANDS*sizeof(FIXP_DBL)); /* right, real */
FDKmemcpy(hParametricStereo->pHybridData[i][1][1], hParametricStereo->pHybridData[HYBRID_FRAMESIZE+i][1][1], MAX_HYBRID_BANDS*sizeof(FIXP_DBL)); /* right, imag */
}
/* downmix and hybrid synthesis */
if (PSENC_OK != (error = DownmixPSQmfData(hParametricStereo, sbrSynthQmf, downmixedRealQmfData, downmixedImagQmfData, downsampledOutSignal, &hParametricStereo->pHybridData[HYBRID_READ_OFFSET], hParametricStereo->noQmfSlots, psQmfScale, qmfScale))) {
goto bail;
}
bail:
return error;
}
static void psFindBestScaling(
HANDLE_PARAMETRIC_STEREO hParametricStereo,
FIXP_DBL *hybridData[HYBRID_FRAMESIZE][MAX_PS_CHANNELS][2],
UCHAR *dynBandScale,
FIXP_QMF *maxBandValue,
SCHAR *dmxScale
)
{
HANDLE_PS_ENCODE hPsEncode = hParametricStereo->hPsEncode;
INT group, bin, col, band;
const INT frameSize = hParametricStereo->noQmfSlots;
const INT psBands = (INT) hPsEncode->psEncMode;
const INT nIidGroups = hPsEncode->nQmfIidGroups + hPsEncode->nSubQmfIidGroups;
/* group wise scaling */
FIXP_QMF maxVal [2][PS_MAX_BANDS];
FIXP_QMF maxValue = FL2FXCONST_DBL(0.f);
FDKmemclear(maxVal, sizeof(maxVal));
/* start with hybrid data */
for (group=0; group < nIidGroups; group++) {
/* Translate group to bin */
bin = hPsEncode->subband2parameterIndex[group];
/* Translate from 20 bins to 10 bins */
if (hPsEncode->psEncMode == PS_BANDS_COARSE) {
bin >>= 1;
}
/* QMF downmix scaling */
{
FIXP_QMF tmp = maxVal[0][bin];
int i;
for (col=0; col<frameSize-HYBRID_READ_OFFSET; col++) {
for (i = hPsEncode->iidGroupBorders[group]; i < hPsEncode->iidGroupBorders[group+1]; i++) {
tmp = fixMax(tmp, (FIXP_QMF)fixp_abs(hybridData[col][0][0][i]));
tmp = fixMax(tmp, (FIXP_QMF)fixp_abs(hybridData[col][0][1][i]));
tmp = fixMax(tmp, (FIXP_QMF)fixp_abs(hybridData[col][1][0][i]));
tmp = fixMax(tmp, (FIXP_QMF)fixp_abs(hybridData[col][1][1][i]));
}
}
maxVal[0][bin] = tmp;
tmp = maxVal[1][bin];
for (col=frameSize-HYBRID_READ_OFFSET; col<frameSize; col++) {
for (i = hPsEncode->iidGroupBorders[group]; i < hPsEncode->iidGroupBorders[group+1]; i++) {
tmp = fixMax(tmp, (FIXP_QMF)fixp_abs(hybridData[col][0][0][i]));
tmp = fixMax(tmp, (FIXP_QMF)fixp_abs(hybridData[col][0][1][i]));
tmp = fixMax(tmp, (FIXP_QMF)fixp_abs(hybridData[col][1][0][i]));
tmp = fixMax(tmp, (FIXP_QMF)fixp_abs(hybridData[col][1][1][i]));
}
}
maxVal[1][bin] = tmp;
}
} /* nIidGroups */
/* convert maxSpec to maxScaling, find scaling space */
for (band=0; band<psBands; band++) {
#ifndef MULT_16x16
dynBandScale[band] = CountLeadingBits(fixMax(maxVal[0][band],maxBandValue[band]));
#else
dynBandScale[band] = fixMax(0,CountLeadingBits(fixMax(maxVal[0][band],maxBandValue[band]))-FRACT_BITS);
#endif
maxValue = fixMax(maxValue,fixMax(maxVal[0][band],maxVal[1][band]));
maxBandValue[band] = fixMax(maxVal[0][band], maxVal[1][band]);
}
/* calculate maximal scaling for QMF downmix */
#ifndef MULT_16x16
*dmxScale = fixMin(DFRACT_BITS, CountLeadingBits(maxValue));
#else
*dmxScale = fixMax(0,fixMin(FRACT_BITS, CountLeadingBits(FX_QMF2FX_DBL(maxValue))));
#endif
}
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