From 9bf37cc9712506b2483650c82d3c41152337ef7e Mon Sep 17 00:00:00 2001
From: Dave Burke <daveburke@google.com>
Date: Tue, 17 Apr 2012 09:51:45 -0700
Subject: Fraunhofer AAC codec.

License boilerplate update to follow.

Change-Id: I2810460c11a58b6d148d84673cc031f3685e79b5
---
 libSBRenc/src/ps_main.cpp | 1079 +++++++++++++++++++++++++++++++++++++++++++++
 1 file changed, 1079 insertions(+)
 create mode 100644 libSBRenc/src/ps_main.cpp

(limited to 'libSBRenc/src/ps_main.cpp')

diff --git a/libSBRenc/src/ps_main.cpp b/libSBRenc/src/ps_main.cpp
new file mode 100644
index 0000000..c2b19d8
--- /dev/null
+++ b/libSBRenc/src/ps_main.cpp
@@ -0,0 +1,1079 @@
+/*****************************  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,
+                              UCHAR  *dynBandScale,
+                              FIXP_QMF *maxBandValue,
+                              SCHAR  *dmxScale);
+
+/*
+  name:        static HANDLE_ERROR_INFO CreatePSQmf()
+  description: Creates struct (buffer) to store qmf data
+  returns:     error code of type HANDLE_ERROR_INFO
+  input:       - INT nCols: number of qmf samples stored in regular qmf buffer
+               - INT nRows: number qmf channels
+               - INT hybridFilterDelay: delay in qmf samples of hybrid filter
+  output:      - HANDLE_PS_QMF_DATA *hPsQmfData: according handle
+*/
+static HANDLE_ERROR_INFO CreatePSQmf(HANDLE_PS_QMF_DATA *phPsQmfData, INT ch)
+{
+  HANDLE_ERROR_INFO error = noError;
+  HANDLE_PS_QMF_DATA hPsQmfData = GetRam_PsQmfData(ch);
+  if (hPsQmfData==NULL) {
+    error = 1;
+    goto bail;
+  }
+  FDKmemclear(hPsQmfData, sizeof(PS_QMF_DATA));
+
+  hPsQmfData->rQmfData[0] = GetRam_PsRqmf(ch);
+  hPsQmfData->iQmfData[0] = GetRam_PsIqmf(ch);
+
+  if ( (hPsQmfData->rQmfData[0]==NULL) || (hPsQmfData->iQmfData[0]==NULL) ) {
+    error = 1;
+    goto bail;
+  }
+
+
+bail:
+  *phPsQmfData = hPsQmfData;
+  return error;
+}
+
+static HANDLE_ERROR_INFO InitPSQmf(HANDLE_PS_QMF_DATA hPsQmfData, INT nCols, INT nRows, INT hybridFilterDelay, INT ch, UCHAR *dynamic_RAM)
+{
+  INT i, bufferLength = 0;
+
+  hPsQmfData->nCols = nCols;
+  hPsQmfData->nRows = nRows;
+  hPsQmfData->bufferReadOffset       = QMF_READ_OFFSET;
+  hPsQmfData->bufferReadOffsetHybrid = HYBRID_READ_OFFSET;  /* calc read offset for hybrid analysis in qmf samples */
+  hPsQmfData->bufferWriteOffset = hPsQmfData->bufferReadOffsetHybrid + hybridFilterDelay;
+  hPsQmfData->bufferLength = bufferLength = hPsQmfData->bufferWriteOffset + nCols;
+
+  FDK_ASSERT(PSENC_QMF_BUFFER_LENGTH>=bufferLength);
+
+  for(i=0; i<bufferLength; i++) {
+    hPsQmfData->rQmfData[i] = FDKsbrEnc_SliceRam_PsRqmf(hPsQmfData->rQmfData[0], dynamic_RAM, ch, i, nCols);
+    hPsQmfData->iQmfData[i] = FDKsbrEnc_SliceRam_PsIqmf(hPsQmfData->iQmfData[0], dynamic_RAM, ch, i, nCols);
+  }
+
+  for(i=0; i<bufferLength; i++){
+    FDKmemclear(hPsQmfData->rQmfData[i], (sizeof(FIXP_QMF)*QMF_CHANNELS));
+    FDKmemclear(hPsQmfData->iQmfData[i], (sizeof(FIXP_QMF)*QMF_CHANNELS));
+  }
+
+  return noError;
+}
+
+
+/*
+  name:        static HANDLE_ERROR_INFO CreatePSChannel()
+  description: Creates PS channel struct
+  returns:     error code of type HANDLE_ERROR_INFO
+  input:       - HANDLE_PS_HYBRID_CONFIG hHybConfig: config structure for hybrid filter bank
+  output:      - HANDLE_PS_CHANNEL_DATA *hPsChannelData
+*/
+static HANDLE_ERROR_INFO CreatePSChannel(HANDLE_PS_CHANNEL_DATA *hPsChannelData,
+                                         INT                     ch
+                                        )
+{
+  HANDLE_ERROR_INFO error = noError;
+
+  (*hPsChannelData) = GetRam_PsChData(ch);
+
+  if (*hPsChannelData==NULL) {
+    error = 1;
+    goto bail;
+  }
+  FDKmemclear(*hPsChannelData, sizeof(PS_CHANNEL_DATA));
+
+
+  if (error == noError) {
+    if (noError != (error = FDKsbrEnc_CreateHybridFilterBank(&(*hPsChannelData)->hHybAna,
+                                                              ch )))
+    {
+      goto bail;
+    }
+  }
+  if (error == noError) {
+    if (noError != (error = FDKsbrEnc_CreateHybridData( &((*hPsChannelData)->hHybData),
+                                              ch))) {
+      goto bail;
+    }
+  }
+  if(error == noError){
+    if(noError != (error = CreatePSQmf(&((*hPsChannelData)->hPsQmfData), ch)))
+    {
+      goto bail;
+    }
+  }
+bail:
+  return error;
+}
+
+static HANDLE_ERROR_INFO InitPSChannel(HANDLE_PS_CHANNEL_DATA    hPsChannelData,
+                                         HANDLE_PS_HYBRID_CONFIG hHybConfig,
+                                         INT                     noQmfSlots,
+                                         INT                     noQmfBands
+                                        ,INT                     ch,
+                                         UCHAR                  *dynamic_RAM
+                                         )
+{
+  HANDLE_ERROR_INFO error = noError;
+  INT hybridFilterDelay = 0;
+
+  if (error == noError) {
+    if (noError != (error = FDKsbrEnc_InitHybridFilterBank(hPsChannelData->hHybAna,
+                                                              hHybConfig,
+                                                              noQmfSlots )))
+    {
+      error = handBack(error);
+    }
+  }
+
+  if(error == noError){
+    hybridFilterDelay = FDKsbrEnc_GetHybridFilterDelay(hPsChannelData->hHybAna);
+    hPsChannelData->psChannelDelay = hybridFilterDelay * noQmfBands;
+  }
+
+  if (error == noError) {
+    if (noError != (error = FDKsbrEnc_InitHybridData( hPsChannelData->hHybData,
+                                              hHybConfig,
+                                              noQmfSlots)))
+    {
+      error = handBack(error);
+    }
+  }
+
+  if(error == noError){
+    if(noError != (error = InitPSQmf(hPsChannelData->hPsQmfData,
+                                        noQmfSlots,
+                                        noQmfBands,
+                                        hybridFilterDelay
+                                       ,ch,
+                                        dynamic_RAM
+                                        )))
+    {
+      error = handBack(error);
+    }
+  }
+
+  return error;
+}
+
+
+/*
+  name:        static HANDLE_ERROR_INFO PSEnc_Create()
+  description: Creates PS struct
+  returns:     error code of type HANDLE_ERROR_INFO
+  input:       HANDLE_PSENC_CONFIG hPsEncConfig: configuration
+  output:      HANDLE_PARAMETRIC_STEREO *hParametricStereo
+
+*/
+HANDLE_ERROR_INFO
+PSEnc_Create(HANDLE_PARAMETRIC_STEREO *phParametricStereo)
+{
+  HANDLE_ERROR_INFO error = noError;
+  INT i;
+  HANDLE_PARAMETRIC_STEREO hParametricStereo = GetRam_ParamStereo();
+
+  if (hParametricStereo==NULL) {
+    error = 1;
+    goto bail;
+  }
+
+  FDKmemclear(hParametricStereo,sizeof(PARAMETRIC_STEREO));
+
+  hParametricStereo->qmfDelayRealRef = GetRam_PsEnvRBuffer(0);
+  hParametricStereo->qmfDelayImagRef = GetRam_PsEnvIBuffer(0);
+
+  if ( (hParametricStereo->qmfDelayRealRef==NULL) || (hParametricStereo->qmfDelayImagRef==NULL) ) {
+    error = 1;
+    goto bail;
+  }
+
+  for (i = 0; i < (QMF_MAX_TIME_SLOTS>>1); i++) {
+    hParametricStereo->qmfDelayReal[i] = hParametricStereo->qmfDelayRealRef + (i*QMF_CHANNELS);
+    hParametricStereo->qmfDelayImag[i] = hParametricStereo->qmfDelayImagRef + (i*QMF_CHANNELS);
+  }
+
+  for(i=0; i<MAX_PS_CHANNELS; i++){
+    if(noError != (error = CreatePSChannel(&hParametricStereo->hPsChannelData[i],
+                                         i
+                                        )))
+    {
+      goto bail;
+    }
+  }
+
+
+  if(noError != (error = FDKsbrEnc_CreatePSEncode(&hParametricStereo->hPsEncode))) {
+    error = 1;
+    goto bail;
+  }
+
+  hParametricStereo->hHybridConfig = GetRam_PsHybConfig(); /* allocate memory */
+
+  /* calc PS_OUT values and delay one frame ! */
+  hParametricStereo->hPsOut[0] = GetRam_PsOut(0);
+  hParametricStereo->hPsOut[1] = GetRam_PsOut(1);
+  if ( (hParametricStereo->hHybridConfig==NULL) || (hParametricStereo->hPsOut[0]==NULL) || (hParametricStereo->hPsOut[1]==NULL) ) {
+    error = 1;
+    goto bail;
+  }
+
+bail:
+  *phParametricStereo = hParametricStereo;
+  return error;
+}
+
+HANDLE_ERROR_INFO
+PSEnc_Init(HANDLE_PARAMETRIC_STEREO    hParametricStereo,
+             HANDLE_PSENC_CONFIG       hPsEncConfig,
+             INT                       noQmfSlots,
+             INT                       noQmfBands
+            ,UCHAR                    *dynamic_RAM
+            )
+{
+  HANDLE_ERROR_INFO error = noError;
+  INT i;
+  INT tmpDelay = 0;
+
+  if(error == noError){
+    if(hPsEncConfig == NULL){
+      error = ERROR(CDI, "Invalid configuration handle.");
+    }
+  }
+
+  hParametricStereo->initPS = 1;
+  hParametricStereo->noQmfSlots = noQmfSlots;
+  hParametricStereo->noQmfBands = noQmfBands;
+
+  for (i = 0; i < hParametricStereo->noQmfSlots>>1; i++) {
+    FDKmemclear( hParametricStereo->qmfDelayReal[i],QMF_CHANNELS*sizeof(FIXP_DBL));
+    FDKmemclear( hParametricStereo->qmfDelayImag[i],QMF_CHANNELS*sizeof(FIXP_DBL));
+  }
+  hParametricStereo->qmfDelayScale = FRACT_BITS-1;
+
+  if(error == noError) {
+    PS_BANDS nHybridSubbands = (PS_BANDS)0;
+
+    switch(hPsEncConfig->nStereoBands){
+    case PSENC_STEREO_BANDS_10:
+      nHybridSubbands = PS_BANDS_COARSE;
+      break;
+    case PSENC_STEREO_BANDS_20:
+      nHybridSubbands = PS_BANDS_MID;
+      break;
+    case PSENC_STEREO_BANDS_34:
+      /* nHybridSubbands = PS_BANDS_FINE; */
+      FDK_ASSERT(0); /* we don't support this mode! */
+      break;
+    default:
+      nHybridSubbands = (PS_BANDS)0;
+      break;
+    }
+    /* create configuration for hybrid filter bank */
+    FDKmemclear(hParametricStereo->hHybridConfig,sizeof(PS_HYBRID_CONFIG));
+    if(noError != (error = FDKsbrEnc_CreateHybridConfig(&hParametricStereo->hHybridConfig, nHybridSubbands))) {
+      error = handBack(error);
+    }
+  }
+
+
+  tmpDelay = 0;
+  for(i=0; i<MAX_PS_CHANNELS; i++) {
+
+    if(error == noError){
+      if(noError != (error = InitPSChannel( hParametricStereo->hPsChannelData[i],
+                                            hParametricStereo->hHybridConfig,
+                                            hParametricStereo->noQmfSlots,
+                                            hParametricStereo->noQmfBands
+                                           ,i,
+                                            dynamic_RAM
+                                             )))
+      {
+        error = handBack(error);
+      }
+    }
+
+    if(error == noError){
+      /* sum up delay in samples for all channels (should be the same for all channels) */
+      tmpDelay += hParametricStereo->hPsChannelData[i]->psChannelDelay;
+    }
+  }
+
+  if(error == noError){
+    /* determine average delay */
+    hParametricStereo->psDelay = tmpDelay/MAX_PS_CHANNELS;
+  }
+
+  if(error == noError){
+    if ( (hPsEncConfig->maxEnvelopes < PSENC_NENV_1)
+         || (hPsEncConfig->maxEnvelopes > PSENC_NENV_MAX) ) {
+      hPsEncConfig->maxEnvelopes = PSENC_NENV_DEFAULT;
+    }
+    hParametricStereo->maxEnvelopes = hPsEncConfig->maxEnvelopes;
+  }
+
+  if(error == noError){
+    if(noError != (error = FDKsbrEnc_InitPSEncode(hParametricStereo->hPsEncode, (PS_BANDS) hPsEncConfig->nStereoBands, hPsEncConfig->iidQuantErrorThreshold))){
+      error = handBack(error);
+    }
+  }
+
+  /* clear buffer */
+  FDKmemclear(hParametricStereo->hPsOut[0], sizeof(PS_OUT));
+  FDKmemclear(hParametricStereo->hPsOut[1], sizeof(PS_OUT));
+
+  /* clear scaling buffer */
+  FDKmemclear(hParametricStereo->dynBandScale, sizeof(UCHAR)*PS_MAX_BANDS);
+  FDKmemclear(hParametricStereo->maxBandValue, sizeof(FIXP_QMF)*PS_MAX_BANDS);
+
+  return error;
+}
+
+
+
+/*
+  name:        static HANDLE_ERROR_INFO DestroyPSQmf
+  description: destroy PS qmf buffers
+  returns:     error code of type HANDLE_ERROR_INFO
+  input:       - HANDLE_PS_QMF_DATA *hPsQmfData
+  output:      none
+*/
+
+static HANDLE_ERROR_INFO DestroyPSQmf(HANDLE_PS_QMF_DATA* phPsQmfData)
+{
+  HANDLE_PS_QMF_DATA hPsQmfData = *phPsQmfData;
+
+  if(hPsQmfData) {
+    FreeRam_PsRqmf(hPsQmfData->rQmfData);
+    FreeRam_PsIqmf(hPsQmfData->iQmfData);
+    FreeRam_PsQmfData(phPsQmfData);
+  }
+
+  return noError;
+}
+
+
+
+/*
+  name:        static HANDLE_ERROR_INFO DestroyPSChannel
+  description: destroy PS channel data
+  returns:     error code of type HANDLE_ERROR_INFO
+  input:       - HANDLE_PS_CHANNEL_DATA *hPsChannelDAta
+  output:      none
+*/
+
+
+static HANDLE_ERROR_INFO DestroyPSChannel(HANDLE_PS_CHANNEL_DATA *phPsChannelData){
+
+  HANDLE_ERROR_INFO error = noError;
+  HANDLE_PS_CHANNEL_DATA hPsChannelData = *phPsChannelData;
+
+  if(hPsChannelData != NULL){
+
+    DestroyPSQmf(&hPsChannelData->hPsQmfData);
+
+    FDKsbrEnc_DeleteHybridFilterBank(&hPsChannelData->hHybAna);
+
+    FDKsbrEnc_DestroyHybridData(&hPsChannelData->hHybData);
+
+    FreeRam_PsChData(phPsChannelData);
+  }
+
+  return error;
+}
+
+
+/*
+  name:        static HANDLE_ERROR_INFO PSEnc_Destroy
+  description: destroy PS encoder handle
+  returns:     error code of type HANDLE_ERROR_INFO
+  input:       - HANDLE_PARAMETRIC_STEREO *hParametricStereo
+  output:      none
+*/
+
+HANDLE_ERROR_INFO
+PSEnc_Destroy(HANDLE_PARAMETRIC_STEREO *phParametricStereo){
+
+  HANDLE_ERROR_INFO error = noError;
+  HANDLE_PARAMETRIC_STEREO hParametricStereo = *phParametricStereo;
+  INT i;
+
+  if(hParametricStereo != NULL){
+    for(i=0; i<MAX_PS_CHANNELS; i++){
+      DestroyPSChannel(&(hParametricStereo->hPsChannelData[i]));
+    }
+    FreeRam_PsEnvRBuffer(&hParametricStereo->qmfDelayRealRef);
+    FreeRam_PsEnvIBuffer(&hParametricStereo->qmfDelayImagRef);
+
+    FDKsbrEnc_DestroyPSEncode(&hParametricStereo->hPsEncode);
+
+    FreeRam_PsOut(&hParametricStereo->hPsOut[0]);
+    FreeRam_PsOut(&hParametricStereo->hPsOut[1]);
+
+    FreeRam_PsHybConfig(&hParametricStereo->hHybridConfig);
+    FreeRam_ParamStereo(phParametricStereo);
+  }
+
+  return error;
+}
+
+/*
+  name:        static HANDLE_ERROR_INFO UpdatePSQmfData
+  description: updates buffer containing qmf data first/second halve
+  returns:     error code of type HANDLE_ERROR_INFO
+  input:       - HANDLE_PARAMETRIC_STEREO hParametricStereo
+  output:      - HANDLE_PARAMETRIC_STEREO hParametricStereo with updated qmf data
+*/
+
+static HANDLE_ERROR_INFO
+UpdatePSQmfData_first(HANDLE_PARAMETRIC_STEREO hParametricStereo)
+{
+  HANDLE_ERROR_INFO error = noError;
+  int i, ch;
+  for (ch=0; ch<MAX_PS_CHANNELS; ch++) {
+    /* get qmf buffers       */
+    FIXP_QMF **RESTRICT realQmfData   = hParametricStereo->hPsChannelData[ch]->hPsQmfData->rQmfData + QMF_READ_OFFSET;
+    FIXP_QMF **RESTRICT imagQmfData   = hParametricStereo->hPsChannelData[ch]->hPsQmfData->iQmfData + QMF_READ_OFFSET;
+
+    /* get needed parameters */
+    INT nCols = hParametricStereo->hPsChannelData[ch]->hPsQmfData->nCols;
+    INT nRows = hParametricStereo->hPsChannelData[ch]->hPsQmfData->nRows;
+
+    /* move processed buffer data nCols qmf samples forward */
+    for(i=0; i<HYBRID_READ_OFFSET; i++){
+      FDKmemcpy (realQmfData[i], realQmfData[i + nCols], sizeof(FIXP_QMF)*nRows );
+      FDKmemcpy (imagQmfData[i], imagQmfData[i + nCols], sizeof(FIXP_QMF)*nRows );
+    }
+  }
+
+  return error;
+}
+
+HANDLE_ERROR_INFO
+UpdatePSQmfData_second(HANDLE_PARAMETRIC_STEREO hParametricStereo)
+{
+  HANDLE_ERROR_INFO error = noError;
+  int i, ch;
+  for (ch=0; ch<MAX_PS_CHANNELS; ch++) {
+    /* get qmf buffers       */
+    FIXP_QMF **RESTRICT realQmfData = hParametricStereo->hPsChannelData[ch]->hPsQmfData->rQmfData + QMF_READ_OFFSET;
+    FIXP_QMF **RESTRICT imagQmfData = hParametricStereo->hPsChannelData[ch]->hPsQmfData->iQmfData + QMF_READ_OFFSET;
+
+    /* get needed parameters */
+    INT writeOffset = hParametricStereo->hPsChannelData[ch]->hPsQmfData->bufferWriteOffset;
+    INT nCols       = hParametricStereo->hPsChannelData[ch]->hPsQmfData->nCols;
+    INT nRows       = hParametricStereo->hPsChannelData[ch]->hPsQmfData->nRows;
+
+    /* move processed buffer data nCols qmf samples forward */
+    for(i=HYBRID_READ_OFFSET; i<writeOffset; i++){
+      FDKmemcpy (realQmfData[i], realQmfData[i + nCols], sizeof(FIXP_QMF)*nRows );
+      FDKmemcpy (imagQmfData[i], imagQmfData[i + nCols], sizeof(FIXP_QMF)*nRows );
+    }
+  }
+
+  return error;
+}
+
+
+
+/*
+  name:        static HANDLE_ERROR_INFO UpdatePSHybridData
+  description: updates buffer containg PS hybrid data
+  returns:     error code of type HANDLE_ERROR_INFO
+  input:       - HANDLE_PARAMETRIC_STEREO hParametricStereo
+  output:      - HANDLE_PARAMETRIC_STEREO hParametricStereo with updated hybrid data
+*/
+
+static HANDLE_ERROR_INFO UpdatePSHybridData(HANDLE_PARAMETRIC_STEREO hParametricStereo)
+{
+  INT i, ch;
+
+  for (ch=0; ch<MAX_PS_CHANNELS; ch++) {
+    HANDLE_PS_HYBRID_DATA  hHybData = hParametricStereo->hPsChannelData[ch]->hHybData;
+    FIXP_QMF       **realHybridData = hHybData->rHybData + HYBRID_DATA_READ_OFFSET;
+    FIXP_QMF       **imagHybridData = hHybData->iHybData + HYBRID_DATA_READ_OFFSET;
+    INT              writeOffset    = hHybData->hybDataWriteOffset;
+    INT              frameSize      = hHybData->frameSize;
+
+    for(i=0; i<writeOffset; i++){
+      FDKmemcpy (realHybridData[i], realHybridData[i + frameSize], sizeof(FIXP_QMF)*HYBRID_NUM_BANDS );
+      FDKmemcpy (imagHybridData[i], imagHybridData[i + frameSize], sizeof(FIXP_QMF)*HYBRID_NUM_BANDS );
+    }
+  }
+
+  return noError;
+}
+
+
+/*
+  name:        static HANDLE_ERROR_INFO ExtractPSParameters
+  description: PS parameter extraction
+  returns:     error code of type HANDLE_ERROR_INFO
+  input:       - HANDLE_PARAMETRIC_STEREO hParametricStereo
+  output:      - HANDLE_PARAMETRIC_STEREO hParametricStereo PS parameter
+*/
+
+static HANDLE_ERROR_INFO
+ExtractPSParameters(HANDLE_PARAMETRIC_STEREO hParametricStereo, const int sendHeader){
+
+  HANDLE_ERROR_INFO error = noError;
+
+  if(error == noError){
+    if(hParametricStereo == NULL){
+      error = ERROR(CDI, "Invalid handle hParametricStereo.");
+    }
+  }
+
+  /* call ps encode function */
+  if(error == noError){
+     if (hParametricStereo->initPS){
+      *hParametricStereo->hPsOut[1] = *hParametricStereo->hPsOut[0];
+     }
+    *hParametricStereo->hPsOut[0] = *hParametricStereo->hPsOut[1];
+
+    if(noError != (error = FDKsbrEnc_PSEncode(hParametricStereo->hPsEncode,
+                                              hParametricStereo->hPsOut[1],
+                                              hParametricStereo->hPsChannelData[0],
+                                              hParametricStereo->hPsChannelData[1],
+                                              hParametricStereo->dynBandScale,
+                                              hParametricStereo->maxEnvelopes,
+                                              sendHeader))){
+      error = handBack(error);
+    }
+   if (hParametricStereo->initPS){
+    *hParametricStereo->hPsOut[0] = *hParametricStereo->hPsOut[1];
+    hParametricStereo->initPS = 0;
+   }
+  }
+
+  return error;
+}
+
+
+/*
+  name:        static HANDLE_ERROR_INFO DownmixPSQmfData
+  description: energy weighted downmix and hybrid synthesis
+  returns:     error code of type HANDLE_ERROR_INFO
+  input:       - HANDLE_PARAMETRIC_STEREO hParametricStereo containing left and right channel qmf data
+  output:      - HANDLE_PARAMETRIC_STEREO with updated qmf data buffer, hybrid data buffer
+               - FIXP_QMF **mixRealQmfData: pointer to buffer containing downmixed (real) qmf data
+               - FIXP_QMF **mixImagQmfData: pointer to buffer containing downmixed (imag) qmf data
+*/
+
+static HANDLE_ERROR_INFO
+DownmixPSQmfData(HANDLE_PARAMETRIC_STEREO hParametricStereo, FIXP_QMF **RESTRICT mixRealQmfData,
+                 FIXP_QMF **RESTRICT mixImagQmfData, SCHAR *downmixScale)
+{
+  HANDLE_ERROR_INFO error = noError;
+  int n, k;
+  int dynQmfScale, adjQmfScale;
+  int nQmfSamples=0, nQmfBands=0, nHybridQmfBands=0;
+  FIXP_QMF **RESTRICT leftRealQmfData        = NULL;
+  FIXP_QMF **RESTRICT leftImagQmfData        = NULL;
+  FIXP_QMF **RESTRICT rightRealQmfData       = NULL;
+  FIXP_QMF **RESTRICT rightImagQmfData       = NULL;
+  FIXP_QMF **RESTRICT leftRealHybridQmfData  = NULL;
+  FIXP_QMF **RESTRICT leftImagHybridQmfData  = NULL;
+  FIXP_QMF **RESTRICT rightRealHybridQmfData = NULL;
+  FIXP_QMF **RESTRICT rightImagHybridQmfData = NULL;
+
+  if(hParametricStereo == NULL){
+    error = ERROR(CDI, "Invalid handle hParametricStereo.");
+  }
+
+  if(error == noError){
+    /* Update first part of qmf buffers...
+       no whole buffer update possible; downmix is inplace */
+    if(noError != (error = UpdatePSQmfData_first(hParametricStereo))){
+      error = handBack(error);
+    }
+  }
+
+  if(error == noError){
+    /* get buffers: synchronize QMF buffers and hybrid buffers to compensate hybrid filter delay */
+    /* hybrid filter bank looks nHybridFilterDelay qmf samples forward                           */
+    leftRealQmfData        = hParametricStereo->hPsChannelData[0]->hPsQmfData->rQmfData + HYBRID_READ_OFFSET;
+    leftImagQmfData        = hParametricStereo->hPsChannelData[0]->hPsQmfData->iQmfData + HYBRID_READ_OFFSET;
+    rightRealQmfData       = hParametricStereo->hPsChannelData[1]->hPsQmfData->rQmfData + HYBRID_READ_OFFSET;
+    rightImagQmfData       = hParametricStereo->hPsChannelData[1]->hPsQmfData->iQmfData + HYBRID_READ_OFFSET;
+
+    leftRealHybridQmfData  = hParametricStereo->hPsChannelData[0]->hHybData->rHybData + HYBRID_WRITE_OFFSET;
+    leftImagHybridQmfData  = hParametricStereo->hPsChannelData[0]->hHybData->iHybData + HYBRID_WRITE_OFFSET;
+    rightRealHybridQmfData = hParametricStereo->hPsChannelData[1]->hHybData->rHybData + HYBRID_WRITE_OFFSET;
+    rightImagHybridQmfData = hParametricStereo->hPsChannelData[1]->hHybData->iHybData + HYBRID_WRITE_OFFSET;
+
+    /* get number of needed parameters */
+    nQmfSamples            = hParametricStereo->hPsChannelData[0]->hPsQmfData->nCols;
+    nQmfBands              = hParametricStereo->hPsChannelData[0]->hPsQmfData->nRows;
+    nHybridQmfBands        = FDKsbrEnc_GetNumberHybridQmfBands(hParametricStereo->hPsChannelData[0]->hHybData);
+
+    /* define scalings */
+    adjQmfScale = hParametricStereo->hPsChannelData[0]->hHybData->sf_fixpHybrid
+                - hParametricStereo->hPsChannelData[0]->psQmfScale;
+
+    dynQmfScale = fixMax(0, hParametricStereo->dmxScale-1); /* scale one bit more for addition of left and right */
+
+    *downmixScale = hParametricStereo->hPsChannelData[0]->hHybData->sf_fixpHybrid - dynQmfScale + 1;
+
+    const FIXP_DBL maxStereoScaleFactor = FL2FXCONST_DBL(2.0f/2.f);
+
+    for(n = 0; n<nQmfSamples; n++){
+      INT hybridDataOffset = 0;
+
+      for(k = 0; k<nQmfBands; k++){
+        INT l, nHybridSubBands;
+        FIXP_DBL tmpMixReal, tmpMixImag;
+
+        if(k < nHybridQmfBands){
+          /* process sub-subbands from hybrid qmf */
+          nHybridSubBands = FDKsbrEnc_GetHybridResolution(hParametricStereo->hPsChannelData[0]->hHybData, k);
+        } else {
+          /* process qmf data */
+          nHybridSubBands = 1;
+        }
+
+        tmpMixReal = FL2FXCONST_DBL(0.f);
+        tmpMixImag = FL2FXCONST_DBL(0.f);
+
+        for(l=0; l<nHybridSubBands; l++) {
+          int dynScale, sc; /* scaling */
+          FIXP_QMF tmpLeftReal, tmpRightReal, tmpLeftImag, tmpRightImag;
+          FIXP_DBL tmpScaleFactor, stereoScaleFactor;
+
+          if(k < nHybridQmfBands){
+            /* process sub-subbands from hybrid qmf */
+            tmpLeftReal  = (leftRealHybridQmfData[n][hybridDataOffset + l]);
+            tmpLeftImag  = (leftImagHybridQmfData[n][hybridDataOffset + l]);
+            tmpRightReal = (rightRealHybridQmfData[n][hybridDataOffset + l]);
+            tmpRightImag = (rightImagHybridQmfData[n][hybridDataOffset + l]);
+            dynScale     = dynQmfScale;
+          } else {
+            /* process qmf data */
+            tmpLeftReal  = leftRealQmfData[n][k];
+            tmpLeftImag  = leftImagQmfData[n][k];
+            tmpRightReal = rightRealQmfData[n][k];
+            tmpRightImag = rightImagQmfData[n][k];
+            dynScale     = dynQmfScale-adjQmfScale;
+          }
+
+          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-dynScale,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 output */
+          tmpMixReal += fMultDiv2(stereoScaleFactor, (FIXP_QMF)(tmpLeftReal + tmpRightReal))>>dynScale;
+          tmpMixImag += fMultDiv2(stereoScaleFactor, (FIXP_QMF)(tmpLeftImag + tmpRightImag))>>dynScale;
+        }
+
+        mixRealQmfData[n][k] = tmpMixReal;
+        mixImagQmfData[n][k] = tmpMixImag;
+
+        hybridDataOffset += nHybridSubBands;
+      }
+    }
+  } /* if(error == noError) */
+
+
+  if(error == noError){
+    /* ... and update the hybrid data */
+    if(noError != (error = UpdatePSHybridData(hParametricStereo))){
+      error = handBack(error);
+    }
+  }
+
+  return error;
+}
+
+
+/*
+  name:        INT FDKsbrEnc_PSEnc_WritePSData()
+  description: writes ps_data() element to bitstream (hBitstream), returns number of written bits;
+               returns number of written bits only, if hBitstream == NULL
+  returns:     number of bits in ps_data()
+  input:       - HANDLE_PARAMETRIC_STEREO hParametricStereo containing extracted ps parameters
+  output:      - HANDLE_FDK_BITSTREAM containing ps_data() element
+*/
+
+INT
+FDKsbrEnc_PSEnc_WritePSData(HANDLE_PARAMETRIC_STEREO hParametricStereo, HANDLE_FDK_BITSTREAM hBitstream)
+{
+
+  INT nBitsWritten = 0;
+
+  if(hParametricStereo != NULL){
+    nBitsWritten = FDKsbrEnc_WritePSBitstream(hParametricStereo->hPsOut[0], hBitstream);
+  }
+
+  return nBitsWritten;
+}
+
+
+/*
+  name:        static HANDLE_ERROR_INFO PSHybridAnalysis()
+  description: hybrid analysis filter bank of lowest qmf banks
+  returns:     error code of type HANDLE_ERROR_INFO
+  input:       - HANDLE_PARAMETRIC_STEREO hParametricStereo containing qmf samples
+  output:      - HANDLE_PARAMETRIC STEREO hParametricStereo also containing hybrid data
+*/
+
+static HANDLE_ERROR_INFO
+PSHybridAnalysis(HANDLE_PARAMETRIC_STEREO hParametricStereo){
+
+  HANDLE_ERROR_INFO error = noError;
+  int ch;
+
+  if(hParametricStereo == NULL){
+    error = ERROR(CDI, "Invalid handle hParametricStereo.");
+  }
+
+  for (ch=0; ch<MAX_PS_CHANNELS; ch++) {
+    if(error == noError){
+      if(noError != (error  = HybridAnalysis(hParametricStereo->hPsChannelData[ch]->hHybAna,
+                                             hParametricStereo->hPsChannelData[ch]->hPsQmfData->rQmfData + HYBRID_READ_OFFSET,
+                                             hParametricStereo->hPsChannelData[ch]->hPsQmfData->iQmfData + HYBRID_READ_OFFSET,
+                                             hParametricStereo->hPsChannelData[ch]->psQmfScale,
+                                             hParametricStereo->hPsChannelData[ch]->hHybData->rHybData + HYBRID_WRITE_OFFSET,
+                                             hParametricStereo->hPsChannelData[ch]->hHybData->iHybData + HYBRID_WRITE_OFFSET,
+                                             &hParametricStereo->hPsChannelData[ch]->hHybData->sf_fixpHybrid))){
+        error = handBack(error);
+      }
+    }
+  }
+
+  return error;
+}
+
+/*
+  name:        HANDLE_ERROR_INFO FDKsbrEnc_PSEnc_ParametricStereoProcessing
+  description: Complete PS Processing:
+               qmf + hybrid analysis of time domain data (left and right channel),
+               PS parameter extraction
+               downmix of qmf data
+  returns:     error code of type HANDLE_ERROR_INFO
+  input:       - HANDLE_PARAMETRIC_STEREO hParametricStereo
+  output:      - HANDLE_PARAMETRIC STEREO hParametricStereo containing extracted PS parameters
+               - FIXP_DBL **qmfDataReal: Pointer to buffer containing downmixed, real qmf data
+               - FIXP_DBL **qmfDataImag: Pointer to buffer containing downmixed, imag qmf data
+               - INT_PCM  **downsampledOutSignal: Pointer to buffer containing downmixed time signal
+               - SCHAR     *qmfScale: Updated scale value for the QMF downmix data
+
+*/
+
+HANDLE_ERROR_INFO
+FDKsbrEnc_PSEnc_ParametricStereoProcessing(HANDLE_PARAMETRIC_STEREO hParametricStereo,
+                                           FIXP_QMF **RESTRICT      qmfDataReal,
+                                           FIXP_QMF **RESTRICT      qmfDataImag,
+                                           INT                      qmfOffset,
+                                           INT_PCM                 *downsampledOutSignal,
+                                           HANDLE_QMF_FILTER_BANK   sbrSynthQmf,
+                                           SCHAR                   *qmfScale,
+                                           const int                sendHeader)
+{
+  HANDLE_ERROR_INFO error = noError;
+  FIXP_QMF **downmixedRealQmfData = qmfDataReal+qmfOffset;
+  FIXP_QMF **downmixedImagQmfData = qmfDataImag+qmfOffset;
+  SCHAR dmScale   = 0;
+  INT noQmfBands  = hParametricStereo->noQmfBands;
+
+
+  if (error == noError) {
+    /* do ps hybrid analysis */
+        if(noError != (error = PSHybridAnalysis(hParametricStereo))){
+      error = handBack(error);
+    }
+  }
+
+  /* find best scaling in new QMF and Hybrid data */
+  psFindBestScaling( hParametricStereo,
+                     hParametricStereo->dynBandScale,
+                     hParametricStereo->maxBandValue,
+                    &hParametricStereo->dmxScale ) ;
+
+
+  if(error == noError){
+    /* extract the ps parameters */
+    if(noError != (error = ExtractPSParameters(hParametricStereo, sendHeader))){
+      error = handBack(error);
+    }
+  }
+
+  if(error == noError){
+    /* downmix and hybrid synthesis */
+    if(noError != (error = DownmixPSQmfData(hParametricStereo, downmixedRealQmfData, downmixedImagQmfData, &dmScale))){
+      error = handBack(error);
+    }
+  }
+
+
+  if (error == noError)
+  {
+     C_ALLOC_SCRATCH_START(qmfWorkBuffer, FIXP_DBL, QMF_CHANNELS*2);
+    /*
+
+     QMF synthesis including downsampling
+
+    */
+    QMF_SCALE_FACTOR tmpScale;
+    int scale = -dmScale;
+    tmpScale.lb_scale = scale;
+    tmpScale.ov_lb_scale = scale;
+    tmpScale.hb_scale = scale;
+    tmpScale.ov_hb_scale = 0;
+
+    qmfSynthesisFiltering( sbrSynthQmf,
+                           downmixedRealQmfData,
+                           downmixedImagQmfData,
+                          &tmpScale,
+                           0,
+                           downsampledOutSignal,
+                           1,
+                           qmfWorkBuffer );
+
+    C_ALLOC_SCRATCH_END(qmfWorkBuffer, FIXP_DBL, QMF_CHANNELS*2);
+
+
+  }
+
+  /* scaling in sbr module differs -> scaling update */
+  *qmfScale = -dmScale  + 7;
+
+
+  /*
+   * Do PS to SBR QMF data transfer/scaling buffer shifting, delay lines etc.
+   */
+  {
+    INT noQmfSlots2 = hParametricStereo->noQmfSlots>>1;
+
+    FIXP_QMF r_tmp1;
+    FIXP_QMF i_tmp1;
+    FIXP_QMF **delayQmfReal = hParametricStereo->qmfDelayReal;
+    FIXP_QMF **delayQmfImag = hParametricStereo->qmfDelayImag;
+    INT scale, i, j;
+
+    if (hParametricStereo->qmfDelayScale > *qmfScale) {
+      scale = hParametricStereo->qmfDelayScale - *qmfScale;
+
+      for (i=0; i<noQmfSlots2; i++) {
+        for (j=0; j<noQmfBands; j++) {
+          r_tmp1 = qmfDataReal[i][j];
+          i_tmp1 = qmfDataImag[i][j];
+
+          qmfDataReal[i][j] = delayQmfReal[i][j] >> scale;
+          qmfDataImag[i][j] = delayQmfImag[i][j] >> scale;
+          delayQmfReal[i][j] = qmfDataReal[i+noQmfSlots2][j];
+          delayQmfImag[i][j] = qmfDataImag[i+noQmfSlots2][j];
+          qmfDataReal[i+noQmfSlots2][j] = r_tmp1;
+          qmfDataImag[i+noQmfSlots2][j] = i_tmp1;
+        }
+      }
+      hParametricStereo->qmfDelayScale = *qmfScale;
+    }
+    else {
+      scale = *qmfScale - hParametricStereo->qmfDelayScale;
+      for (i=0; i<noQmfSlots2; i++) {
+        for (j=0; j<noQmfBands; j++) {
+          r_tmp1 = qmfDataReal[i][j];
+          i_tmp1 = qmfDataImag[i][j];
+
+          qmfDataReal[i][j] = delayQmfReal[i][j];
+          qmfDataImag[i][j] = delayQmfImag[i][j];
+          delayQmfReal[i][j] = qmfDataReal[i+noQmfSlots2][j];
+          delayQmfImag[i][j] = qmfDataImag[i+noQmfSlots2][j];
+          qmfDataReal[i+noQmfSlots2][j] = r_tmp1 >> scale;
+          qmfDataImag[i+noQmfSlots2][j] = i_tmp1 >> scale;
+        }
+      }
+      scale = *qmfScale;
+      *qmfScale = hParametricStereo->qmfDelayScale;
+      hParametricStereo->qmfDelayScale = scale;
+    }
+  }
+
+  return error;
+}
+
+static void psFindBestScaling(HANDLE_PARAMETRIC_STEREO hParametricStereo,
+                              UCHAR  *RESTRICT dynBandScale,
+                              FIXP_QMF *RESTRICT maxBandValue,
+                              SCHAR  *RESTRICT dmxScale)
+{
+  HANDLE_PS_ENCODE hPsEncode      =  hParametricStereo->hPsEncode;
+  HANDLE_PS_HYBRID_DATA hHybDatal =  hParametricStereo->hPsChannelData[0]->hHybData;
+
+  INT group, bin, border, col, band;
+  INT frameSize    = FDKsbrEnc_GetHybridFrameSize(hHybDatal); /* same as FDKsbrEnc_GetHybridFrameSize(hHybDatar) */
+  INT psBands      = (INT) hPsEncode->psEncMode;
+  INT nIidGroups   = hPsEncode->nQmfIidGroups + hPsEncode->nSubQmfIidGroups;
+
+  FIXP_QMF **lr = hParametricStereo->hPsChannelData[0]->hHybData->rHybData;
+  FIXP_QMF **li = hParametricStereo->hPsChannelData[0]->hHybData->iHybData;
+  FIXP_QMF **rr = hParametricStereo->hPsChannelData[1]->hHybData->rHybData;
+  FIXP_QMF **ri = hParametricStereo->hPsChannelData[1]->hHybData->iHybData;
+  FIXP_QMF **lrBuffer = hParametricStereo->hPsChannelData[0]->hPsQmfData->rQmfData;
+  FIXP_QMF **liBuffer = hParametricStereo->hPsChannelData[0]->hPsQmfData->iQmfData;
+  FIXP_QMF **rrBuffer = hParametricStereo->hPsChannelData[1]->hPsQmfData->rQmfData;
+  FIXP_QMF **riBuffer = hParametricStereo->hPsChannelData[1]->hPsQmfData->iQmfData;
+
+  /* group wise scaling */
+  FIXP_QMF maxVal [2][PS_MAX_BANDS];
+  FIXP_QMF maxValue = FL2FXCONST_DBL(0.f);
+
+  INT nHybridQmfOffset = 0;
+
+  UCHAR switched = 0;
+
+  FDKmemclear(maxVal, sizeof(maxVal));
+
+  /* start with hybrid data */
+  for (group=0; group < nIidGroups; group++) {
+    /* Translate group to bin */
+    bin = hPsEncode->subband2parameterIndex[group];
+
+    if (!switched && group == hPsEncode->nSubQmfIidGroups) {
+      /* switch to qmf data */
+      lr = lrBuffer; li = liBuffer;
+      rr = rrBuffer; ri = riBuffer;
+
+      /* calc offset between hybrid subsubbands and qmf bands */
+      nHybridQmfOffset = FDKsbrEnc_GetNumberHybridQmfBands(hHybDatal) - FDKsbrEnc_GetNumberHybridBands(hHybDatal);
+      switched = 1;
+    }
+
+    /* Translate from 20 bins to 10 bins */
+    if (hPsEncode->psEncMode == PS_BANDS_COARSE) {
+      bin >>= 1;
+    }
+
+    /* determine group border */
+    border = hPsEncode->iidGroupBorders[group+1];
+
+    /* QMF downmix scaling */
+    {
+      FIXP_QMF tmp = maxVal[0][bin];
+      int i;
+      for (col=HYBRID_READ_OFFSET; col<frameSize; col++) {
+        FIXP_QMF *pLR = &lr[col][hPsEncode->iidGroupBorders[group] + nHybridQmfOffset];
+        FIXP_QMF *pLI = &li[col][hPsEncode->iidGroupBorders[group] + nHybridQmfOffset];
+        FIXP_QMF *pRR = &rr[col][hPsEncode->iidGroupBorders[group] + nHybridQmfOffset];
+        FIXP_QMF *pRI = &ri[col][hPsEncode->iidGroupBorders[group] + nHybridQmfOffset];
+        for (i = 0; i<border-hPsEncode->iidGroupBorders[group]; i++) {
+          tmp = fixMax(tmp, (FIXP_QMF)fixp_abs(*pLR++));
+          tmp = fixMax(tmp, (FIXP_QMF)fixp_abs(*pLI++));
+          tmp = fixMax(tmp, (FIXP_QMF)fixp_abs(*pRR++));
+          tmp = fixMax(tmp, (FIXP_QMF)fixp_abs(*pRI++));
+        }
+      }
+      maxVal[0][bin] = tmp;
+
+      tmp = maxVal[1][bin];
+      for (col=frameSize; col<HYBRID_READ_OFFSET+frameSize; col++) {
+        FIXP_QMF *pLR = &lr[col][hPsEncode->iidGroupBorders[group] + nHybridQmfOffset];
+        FIXP_QMF *pLI = &li[col][hPsEncode->iidGroupBorders[group] + nHybridQmfOffset];
+        FIXP_QMF *pRR = &rr[col][hPsEncode->iidGroupBorders[group] + nHybridQmfOffset];
+        FIXP_QMF *pRI = &ri[col][hPsEncode->iidGroupBorders[group] + nHybridQmfOffset];
+        for (i = 0; i<border-hPsEncode->iidGroupBorders[group]; i++) {
+          tmp = fixMax(tmp, (FIXP_QMF)fixp_abs(*pLR++));
+          tmp = fixMax(tmp, (FIXP_QMF)fixp_abs(*pLI++));
+          tmp = fixMax(tmp, (FIXP_QMF)fixp_abs(*pRR++));
+          tmp = fixMax(tmp, (FIXP_QMF)fixp_abs(*pRI++));
+        }
+      }
+      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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