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/******************************** MPEG Audio Encoder **************************
(C) Copyright Fraunhofer IIS (2001)
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.
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.
$Id$
Initial author: M. Lohwasser
contents/description: pns.c
******************************************************************************/
#define PNS_CONFORMANCE_TEST 0
#include "aacenc_pns.h"
#include "psy_data.h"
#include "pnsparam.h"
#include "noisedet.h"
#include "bit_cnt.h"
#include "interface.h"
/* minCorrelationEnergy = (1.0e-10f)^2 ~ 2^-67 = 2^-47 * 2^-20 */
static const FIXP_DBL minCorrelationEnergy = FL2FXCONST_DBL(0.0); /* FL2FXCONST_DBL((float)FDKpow(2.0,-47)); */
/* noiseCorrelationThresh = 0.6^2 */
static const FIXP_DBL noiseCorrelationThresh = FL2FXCONST_DBL(0.36);
static void FDKaacEnc_FDKaacEnc_noiseDetection( PNS_CONFIG *pnsConf,
PNS_DATA *pnsData,
const INT sfbActive,
const INT *sfbOffset,
INT tnsOrder,
INT tnsPredictionGain,
INT tnsActive,
FIXP_DBL *mdctSpectrum,
INT *sfbMaxScaleSpec,
FIXP_SGL *sfbtonality );
static void FDKaacEnc_CalcNoiseNrgs( const INT sfbActive,
INT *pnsFlag,
FIXP_DBL *sfbEnergyLdData,
INT *noiseNrg );
/*****************************************************************************
functionname: initPnsConfiguration
description: fill pnsConf with pns parameters
returns: error status
input: PNS Config struct (modified)
bitrate, samplerate, usePns,
number of sfb's, pointer to sfb offset
output: error code
*****************************************************************************/
AAC_ENCODER_ERROR FDKaacEnc_InitPnsConfiguration(PNS_CONFIG *pnsConf,
INT bitRate,
INT sampleRate,
INT usePns,
INT sfbCnt,
const INT *sfbOffset,
const INT numChan,
const INT isLC)
{
AAC_ENCODER_ERROR ErrorStatus;
/* init noise detection */
ErrorStatus = FDKaacEnc_GetPnsParam(&pnsConf->np,
bitRate,
sampleRate,
sfbCnt,
sfbOffset,
&usePns,
numChan,
isLC);
if (ErrorStatus != AAC_ENC_OK)
return ErrorStatus;
pnsConf->minCorrelationEnergy = minCorrelationEnergy;
pnsConf->noiseCorrelationThresh = noiseCorrelationThresh;
pnsConf->usePns = usePns;
return AAC_ENC_OK;
}
/*****************************************************************************
functionname: FDKaacEnc_PnsDetect
description: do decision, if PNS shall used or not
returns:
input: pns config structure
pns data structure (modified),
lastWindowSequence (long or short blocks)
sfbActive
pointer to Sfb Energy, Threshold, Offset
pointer to mdct Spectrum
length of each group
pointer to tonality calculated in chaosmeasure
tns order and prediction gain
calculated noiseNrg at active PNS
output: pnsFlag in pns data structure
*****************************************************************************/
void FDKaacEnc_PnsDetect(PNS_CONFIG *pnsConf,
PNS_DATA *pnsData,
const INT lastWindowSequence,
const INT sfbActive,
const INT maxSfbPerGroup,
FIXP_DBL *sfbThresholdLdData,
const INT *sfbOffset,
FIXP_DBL *mdctSpectrum,
INT *sfbMaxScaleSpec,
FIXP_SGL *sfbtonality,
INT tnsOrder,
INT tnsPredictionGain,
INT tnsActive,
FIXP_DBL *sfbEnergyLdData,
INT *noiseNrg )
{
int sfb;
int startNoiseSfb;
if (pnsConf->np.detectionAlgorithmFlags & IS_LOW_COMLEXITY) {
if ( (!pnsConf->usePns) || /* pns enabled? */
(lastWindowSequence == SHORT_WINDOW) ) /* currently only long blocks */
{
FDKmemclear(pnsData->pnsFlag, MAX_GROUPED_SFB*sizeof(INT)); /* clear all pnsFlags */
for (sfb=0; sfb<MAX_GROUPED_SFB; sfb++) {
noiseNrg[sfb] = NO_NOISE_PNS; /* clear nrg's of previous frame */
}
return;
}
}
else {
if(!pnsConf->usePns)
return;
/* PNS only for long Windows */
if (pnsConf->np.detectionAlgorithmFlags & JUST_LONG_WINDOW) {
if(lastWindowSequence != LONG_WINDOW) {
for (sfb = 0; sfb < sfbActive; sfb++) {
pnsData->pnsFlag[sfb] = 0; /* clear all pnsFlags */
}
return;
}
}
}
/*
call noise detection
*/
FDKaacEnc_FDKaacEnc_noiseDetection( pnsConf,
pnsData,
sfbActive,
sfbOffset,
tnsOrder,
tnsPredictionGain,
tnsActive,
mdctSpectrum,
sfbMaxScaleSpec,
sfbtonality );
/* set startNoiseSfb (long) */
startNoiseSfb = pnsConf->np.startSfb;
/* Set noise substitution status */
for(sfb = 0; sfb < sfbActive; sfb++) {
/* No PNS below startNoiseSfb */
if(sfb < startNoiseSfb){
pnsData->pnsFlag[sfb] = 0;
continue;
}
/*
do noise substitution if
fuzzy measure is high enough
sfb freq > minimum sfb freq
signal in coder band is not masked
*/
if((pnsData->noiseFuzzyMeasure[sfb] > FL2FXCONST_SGL(0.5)) &&
( (sfbThresholdLdData[sfb] + FL2FXCONST_DBL(0.5849625f/64.0f)) /* thr * 1.5 = thrLd +ld(1.5)/64 */
< sfbEnergyLdData[sfb] ) )
{
/*
mark in psyout flag array that we will code
this band with PNS
*/
pnsData->pnsFlag[sfb] = 1; /* PNS_ON */
}
else{
pnsData->pnsFlag[sfb] = 0; /* PNS_OFF */
}
/* no PNS if LTP is active */
}
/* avoid PNS holes */
if((pnsData->noiseFuzzyMeasure[0]>FL2FXCONST_SGL(0.5f)) && (pnsData->pnsFlag[1])) {
pnsData->pnsFlag[0] = 1;
}
for(sfb=1; sfb<maxSfbPerGroup-1; sfb++) {
if((pnsData->noiseFuzzyMeasure[sfb]>pnsConf->np.gapFillThr) &&
(pnsData->pnsFlag[sfb-1]) && (pnsData->pnsFlag[sfb+1])) {
pnsData->pnsFlag[sfb] = 1;
}
}
if(maxSfbPerGroup>0) {
/* avoid PNS hole */
if((pnsData->noiseFuzzyMeasure[maxSfbPerGroup-1]>pnsConf->np.gapFillThr) && (pnsData->pnsFlag[maxSfbPerGroup-2])) {
pnsData->pnsFlag[maxSfbPerGroup-1] = 1;
}
/* avoid single PNS band */
if(pnsData->pnsFlag[maxSfbPerGroup-2]==0) {
pnsData->pnsFlag[maxSfbPerGroup-1] = 0;
}
}
/* avoid single PNS bands */
if(pnsData->pnsFlag[1]==0) {
pnsData->pnsFlag[0] = 0;
}
for(sfb=1; sfb<maxSfbPerGroup-1; sfb++) {
if((pnsData->pnsFlag[sfb-1]==0)&&(pnsData->pnsFlag[sfb+1]==0)) {
pnsData->pnsFlag[sfb] = 0;
}
}
/*
calculate noiseNrg's
*/
FDKaacEnc_CalcNoiseNrgs( sfbActive,
pnsData->pnsFlag,
sfbEnergyLdData,
noiseNrg );
}
/*****************************************************************************
functionname:FDKaacEnc_FDKaacEnc_noiseDetection
description: wrapper for noisedet.c
returns:
input: pns config structure
pns data structure (modified),
sfbActive
tns order and prediction gain
pointer to mdct Spectrumand Sfb Energy
pointer to Sfb tonality
output: noiseFuzzyMeasure in structure pnsData
flags tonal / nontonal
*****************************************************************************/
static void FDKaacEnc_FDKaacEnc_noiseDetection( PNS_CONFIG *pnsConf,
PNS_DATA *pnsData,
const INT sfbActive,
const INT *sfbOffset,
int tnsOrder,
INT tnsPredictionGain,
INT tnsActive,
FIXP_DBL *mdctSpectrum,
INT *sfbMaxScaleSpec,
FIXP_SGL *sfbtonality )
{
INT condition = TRUE;
if ( !(pnsConf->np.detectionAlgorithmFlags & IS_LOW_COMLEXITY) ) {
condition = (tnsOrder > 3);
}
/*
no PNS if heavy TNS activity
clear pnsData->noiseFuzzyMeasure
*/
if((pnsConf->np.detectionAlgorithmFlags & USE_TNS_GAIN_THR) &&
(tnsPredictionGain >= pnsConf->np.tnsGainThreshold) && condition &&
!((pnsConf->np.detectionAlgorithmFlags & USE_TNS_PNS) && (tnsPredictionGain >= pnsConf->np.tnsPNSGainThreshold) && (tnsActive)) )
{
/* clear all noiseFuzzyMeasure */
FDKmemclear(pnsData->noiseFuzzyMeasure, sfbActive*sizeof(FIXP_SGL));
}
else
{
/*
call noise detection, output in pnsData->noiseFuzzyMeasure,
use real mdct spectral data
*/
FDKaacEnc_noiseDetect( mdctSpectrum,
sfbMaxScaleSpec,
sfbActive,
sfbOffset,
pnsData->noiseFuzzyMeasure,
&pnsConf->np,
sfbtonality);
}
}
/*****************************************************************************
functionname:FDKaacEnc_CalcNoiseNrgs
description: Calculate the NoiseNrg's
returns:
input: sfbActive
if pnsFlag calculate NoiseNrg
pointer to sfbEnergy and groupLen
pointer to noiseNrg (modified)
output: noiseNrg's in pnsFlaged sfb's
*****************************************************************************/
static void FDKaacEnc_CalcNoiseNrgs( const INT sfbActive,
INT *RESTRICT pnsFlag,
FIXP_DBL *RESTRICT sfbEnergyLdData,
INT *RESTRICT noiseNrg )
{
int sfb;
INT tmp = (-LOG_NORM_PCM)<<2;
for(sfb = 0; sfb < sfbActive; sfb++) {
if(pnsFlag[sfb]) {
INT nrg = (-sfbEnergyLdData[sfb]+FL2FXCONST_DBL(0.5f/64.0f))>>(DFRACT_BITS-1-7);
noiseNrg[sfb] = tmp - nrg;
}
}
}
/*****************************************************************************
functionname:FDKaacEnc_CodePnsChannel
description: Execute pns decission
returns:
input: sfbActive
pns config structure
use PNS if pnsFlag
pointer to Sfb Energy, noiseNrg, Threshold
output: set sfbThreshold high to code pe with 0,
noiseNrg marks flag for pns coding
*****************************************************************************/
void FDKaacEnc_CodePnsChannel(const INT sfbActive,
PNS_CONFIG *pnsConf,
INT *RESTRICT pnsFlag,
FIXP_DBL *RESTRICT sfbEnergyLdData,
INT *RESTRICT noiseNrg,
FIXP_DBL *RESTRICT sfbThresholdLdData)
{
INT sfb;
INT lastiNoiseEnergy = 0;
INT firstPNSband = 1; /* TRUE for first PNS-coded band */
/* no PNS */
if(!pnsConf->usePns) {
for(sfb = 0; sfb < sfbActive; sfb++) {
/* no PNS coding */
noiseNrg[sfb] = NO_NOISE_PNS;
}
return;
}
/* code PNS */
for(sfb = 0; sfb < sfbActive; sfb++) {
if(pnsFlag[sfb]) {
/* high sfbThreshold causes pe = 0 */
if(noiseNrg[sfb] != NO_NOISE_PNS)
sfbThresholdLdData[sfb] = sfbEnergyLdData[sfb] + FL2FXCONST_DBL(1.0f/LD_DATA_SCALING);
/* set noiseNrg in valid region */
if(!firstPNSband) {
INT deltaiNoiseEnergy = noiseNrg[sfb] - lastiNoiseEnergy;
if(deltaiNoiseEnergy > CODE_BOOK_PNS_LAV)
noiseNrg[sfb] -= deltaiNoiseEnergy - CODE_BOOK_PNS_LAV;
else if(deltaiNoiseEnergy < -CODE_BOOK_PNS_LAV)
noiseNrg[sfb] -= deltaiNoiseEnergy + CODE_BOOK_PNS_LAV;
}
else {
firstPNSband = 0;
}
lastiNoiseEnergy = noiseNrg[sfb];
}
else {
/* no PNS coding */
noiseNrg[sfb] = NO_NOISE_PNS;
}
}
}
/*****************************************************************************
functionname:FDKaacEnc_PreProcessPnsChannelPair
description: Calculate the correlation of noise in a channel pair
returns:
input: sfbActive
pointer to sfb energies left, right and mid channel
pns config structure
pns data structure left and right (modified)
output: noiseEnergyCorrelation in pns data structure
*****************************************************************************/
void FDKaacEnc_PreProcessPnsChannelPair(const INT sfbActive,
FIXP_DBL *RESTRICT sfbEnergyLeft,
FIXP_DBL *RESTRICT sfbEnergyRight,
FIXP_DBL *RESTRICT sfbEnergyLeftLD,
FIXP_DBL *RESTRICT sfbEnergyRightLD,
FIXP_DBL *RESTRICT sfbEnergyMid,
PNS_CONFIG *RESTRICT pnsConf,
PNS_DATA *pnsDataLeft,
PNS_DATA *pnsDataRight)
{
INT sfb;
FIXP_DBL ccf;
if(!pnsConf->usePns)
return;
FIXP_DBL *RESTRICT pNoiseEnergyCorrelationL = pnsDataLeft->noiseEnergyCorrelation;
FIXP_DBL *RESTRICT pNoiseEnergyCorrelationR = pnsDataRight->noiseEnergyCorrelation;
for(sfb=0;sfb< sfbActive;sfb++) {
FIXP_DBL quot = (sfbEnergyLeftLD[sfb]>>1) + (sfbEnergyRightLD[sfb]>>1);
if(quot < FL2FXCONST_DBL(-32.0f/(float)LD_DATA_SCALING))
ccf = FL2FXCONST_DBL(0.0f);
else {
FIXP_DBL accu = sfbEnergyMid[sfb]- (((sfbEnergyLeft[sfb]>>1)+(sfbEnergyRight[sfb]>>1))>>1);
INT sign = (accu < FL2FXCONST_DBL(0.0f)) ? 1 : 0 ;
accu = fixp_abs(accu);
ccf = CalcLdData(accu) + FL2FXCONST_DBL((float)1.0f/(float)LD_DATA_SCALING) - quot; /* ld(accu*2) = ld(accu) + 1 */
ccf = (ccf>=FL2FXCONST_DBL(0.0)) ? ((FIXP_DBL)MAXVAL_DBL) : (sign) ? -CalcInvLdData(ccf) : CalcInvLdData(ccf);
}
pNoiseEnergyCorrelationL[sfb] = ccf;
pNoiseEnergyCorrelationR[sfb] = ccf;
}
}
/*****************************************************************************
functionname:FDKaacEnc_PostProcessPnsChannelPair
description: if PNS used at left and right channel,
use msMask to flag correlation
returns:
input: sfbActive
pns config structure
pns data structure left and right (modified)
pointer to msMask, flags correlation by pns coding (modified)
Digest of MS coding
output: pnsFlag in pns data structure,
msFlag in msMask (flags correlation)
*****************************************************************************/
void FDKaacEnc_PostProcessPnsChannelPair(const INT sfbActive,
PNS_CONFIG *pnsConf,
PNS_DATA *pnsDataLeft,
PNS_DATA *pnsDataRight,
INT *RESTRICT msMask,
INT *msDigest )
{
INT sfb;
if(!pnsConf->usePns)
return;
for(sfb=0;sfb<sfbActive;sfb++) {
/*
MS post processing
*/
if( msMask[sfb] ) {
if( (pnsDataLeft->pnsFlag[sfb]) &&
(pnsDataRight->pnsFlag[sfb]) ) {
/* AAC only: Standard */
/* do this to avoid ms flags in layers that should not have it */
if(pnsDataLeft->noiseEnergyCorrelation[sfb] <= pnsConf->noiseCorrelationThresh){
msMask[sfb] = 0;
*msDigest = MS_SOME;
}
}
else {
/*
No PNS coding
*/
pnsDataLeft->pnsFlag[sfb] = 0;
pnsDataRight->pnsFlag[sfb] = 0;
}
}
/*
Use MS flag to signal noise correlation if
pns is active in both channels
*/
if( (pnsDataLeft->pnsFlag[sfb]) && (pnsDataRight->pnsFlag[sfb]) ) {
if(pnsDataLeft->noiseEnergyCorrelation[sfb] > pnsConf->noiseCorrelationThresh) {
msMask[sfb] = 1;
*msDigest = MS_SOME;
}
}
}
}
|