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winamp/Src/vlb/aacdecoder.cpp
Jef 0954e03b3a Initial community commit
2024-09-24 14:54:57 +02:00

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/* $Header: /cvs/root/winamp/vlb/aacdecoder.cpp,v 1.1 2009/04/28 20:21:07 audiodsp Exp $ */
/***************************************************************************\
*
* Copyright 2000-2002 Dolby Laboratories, Inc. All Rights
* Reserved. Do not copy. Do not distribute.
* Confidential information.
*
* (C) copyright Fraunhofer - IIS (1998)
* All Rights Reserved
*
* filename: aacdecoder.cpp
* project : MPEG-2 AAC Decoder
* contents/description: decoder main object
*
\***************************************************************************/
#include "aacdecoder.h"
#include "bitstream.h"
#include "bitsequence.h"
#include "channelinfo.h"
#include<stdio.h>
// // //
CAacDecoder::CAacDecoder (CDolbyBitStream& bs)
: m_bs (bs), sce (bs), cpe (bs), lfe (bs), dse (bs),bIgnoreDolbyStream(false), bLookForDSEInfoStream(true),
bHasDSEInfoStream(false)
{
m_BlockNumber = 0 ;
m_SelectedProgram = 0 ;
}
CAacDecoder::~CAacDecoder ()
{
}
void CAacDecoder::SetEqualization (bool wantEQ, float Mask [])
{
sce.SetEqualization (wantEQ, Mask) ;
cpe.SetEqualization (wantEQ, Mask) ;
lfe.SetEqualization (wantEQ, Mask) ;
}
void CAacDecoder::ReadFillElement (void)
{
CVLBBitSequence count (4) ;
if (count.Read (m_bs) == 15)
{
CVLBBitSequence esc_count (8) ;
esc_count.Read (m_bs) ;
count = esc_count + 14 ;
}
CVLBBitSequence fill_byte (8) ;
for (int i = 0 ; i < count ; i++)
{
fill_byte.Read (m_bs) ;
}
}
void CAacDecoder::ReadDolbyFillElement (void)
{
CVLBBitSequence count (4) ;
int iCountInBytes;
int iCountInBits;
if (count.Read (m_bs) == 15)
{
CVLBBitSequence esc_count (8) ;
esc_count.Read (m_bs) ;
count = esc_count + 14 ;
}
iCountInBytes=(int)count;
iCountInBits = iCountInBytes * 8;
CVLBBitSequence fill_byte (8) ;
CVLBBitSequence fill_nibble(4);
if(iCountInBytes){
fill_nibble.Read(m_bs);
if(bLookForDSEInfoStream && ((int)fill_nibble)==15){
iCountInBits=spectralExtInfo(iCountInBytes,&sDSEInfo,&m_bs);
// Debug: simulate a bitstream error. This will cause the
// MDCT record to be zeroed-out at higher frequencies prior to
// the inverse transform.
// iCountInBits = iCountInBytes*8 - 4;
// sDSEInfo.iDolbyBitStreamWarning = 942;
bHasDSEInfoStream=true;
}
else{
// read out the rest of the byte; adjust bits read counter
fill_nibble.Read(m_bs);
iCountInBits -= 8;
}
}
// If there was an error in reading the SE bitstream, or if there are fill
// bits left in the same fill element, then read out the rest of the Fill Element.
while(iCountInBits > 8)
{
fill_byte.Read (m_bs);
iCountInBits -= 8;
}
if (iCountInBits > 0 && iCountInBits <= 8)
{
m_bs.Get(iCountInBits);
iCountInBits -= iCountInBits;
}
}
void CAacDecoder::FrameInit(CStreamInfo &info)
{
if (m_bs.IsAdifHeaderPresent ())
{
m_AdifHeader.Read (m_bs) ;
info.SetBitRate (m_AdifHeader.GetBitRate ()) ;
info.SetOriginalCopy(m_AdifHeader.GetOriginalCopy());
info.SetHome(m_AdifHeader.GetHome());
info.SetSamplingRateIndex(m_AdifHeader.GetProgramConfig(0).GetSamplingFrequencyIndex());
info.SetSamplingRate(CChannelInfo::SamplingRateFromIndex(info.GetSamplingRateIndex ()));
info.SetChannels(m_AdifHeader.GetProgramConfig(0).GetNumChannels());
info.SetProfile(m_AdifHeader.GetProgramConfig(0).GetProfile());
}
}
//MSV:
void CAacDecoder::InitDSEInfo( CDolbyBitStream*poBS,
CChannelElement *poChannelElement)
{
// note that poChannelElement can be either poSingleChannel or poChannelPair.
// depending on a mono or stereo vlb bitstream. We will deal with poChannelElement
// (base class) calls in this function for either type of Channel Element, with the
// exception of calling Get[Left|Right]Block() for ChannelPair Elements.
int numChannels = poChannelElement->GetNumberOfChannels();
int channelIndex;
if (numChannels == 1 || numChannels == 2)
{
CBlock *poCBlock[2];
CChannelInfo *poCChannelInfo;
// This is garaunteed to set poCLongBlock to valid values,
// since we've already checked the number of channels!
// GetChannelInfo could be made a virtual function of the base class, thus
// avoiding the need to specifically call different versions of GetChannelInfo()
// below, but this would require moving more code to the Base Class, which is
// unnecessarily complex. Note, however, that for CPE's, there poChannelInfo returns
// a pointer to an array of 2 ChannelInfo objects.
if (numChannels == 1)
{
poCBlock[0]=(CBlock*)( ((CSingleChannel*)poChannelElement)->GetBlock() );
poCChannelInfo = ((CSingleChannel*)poChannelElement)->GetChannelInfo();
} else { // num_channels == 2
poCBlock[0]=(CBlock*)( ((CChannelPair*)poChannelElement)->GetLeftBlock() );
poCBlock[1]=(CBlock*)( ((CChannelPair*)poChannelElement)->GetRightBlock() );
poCChannelInfo = ((CChannelPair*)poChannelElement)->GetChannelInfo();
}
//Fill Out Dolby Payload Structure:
sDSEInfo.iChannels=numChannels;
// sampling rate is same for both channels; just use sr info from the left (0th) channel
sDSEInfo.iSampleRateIndex=poCChannelInfo[0].GetSamplingIndex();
sDSEInfo.iSampleRate=poCChannelInfo[0].GetSamplingFrequency();
// all other information must be read for left and right channels
for (channelIndex=0;channelIndex<numChannels;channelIndex++)
{
sDSEInfo.aiMaxSFB[channelIndex]=poCChannelInfo[channelIndex].GetScaleFactorBandsTransmitted();
sDSEInfo.aiTotalSFB[channelIndex]=poCChannelInfo[channelIndex].GetScaleFactorBandsTotal();
sDSEInfo.asDNSInfoStruct[channelIndex].psSectionInfoStruct=poCBlock[channelIndex]->GetSectionInfo();
sDSEInfo.asDNSInfoStruct[channelIndex].iWindowSequence=poCChannelInfo[channelIndex].GetWindowSequence();
sDSEInfo.asDNSInfoStruct[channelIndex].iGroupCount=poCChannelInfo[channelIndex].GetWindowGroups();
sDSEInfo.asDNSInfoStruct[channelIndex].iLastBin=poCChannelInfo[channelIndex].GetLastBin();
sDSEInfo.asDNSInfoStruct[channelIndex].iMaxSFB=poCChannelInfo[channelIndex].GetScaleFactorBandsTransmitted();
sDSEInfo.asDNSInfoStruct[channelIndex].piBandOffsets=poCChannelInfo[channelIndex].GetScaleFactorBandOffsets();
sDSEInfo.aiCopyStop[channelIndex]=poCChannelInfo[channelIndex].GetLastBin();
sDSEInfo.iGroupCount[channelIndex]=poCChannelInfo[channelIndex].GetWindowGroups();
for (int i=0;i<sDSEInfo.asDNSInfoStruct[channelIndex].iGroupCount;i++)
{
sDSEInfo.iGroupLength[channelIndex][i] = poCChannelInfo[channelIndex].GetWindowGroupLength(i);
sDSEInfo.asDNSInfoStruct[channelIndex].iGroupLength[i] = poCChannelInfo[channelIndex].GetWindowGroupLength(i);
}
}
}
else{
bLookForDSEInfoStream=false;
}
if(bIgnoreDolbyStream) bLookForDSEInfoStream=false;
}
#define ELEMENT_TYPE_SCE 0
#define ELEMENT_TYPE_CPE 1
#define ELEMENT_TYPE_IGNORE 3
void CAacDecoder::DecodeFrame (AudioIOControl *poAudioIO, CStreamInfo &info)
{
int iRepeatCount = m_bs.GetNRDB() + 1;
for(int n = 0; n < iRepeatCount; n++)
{
bool bHasElement;
int iElementType;
m_SelectedProgram = 0;
bLookForDSEInfoStream = true;
bHasDSEInfoStream = false;
bHasElement = false;
iElementType = ELEMENT_TYPE_IGNORE;
// support Audio_Data_Interchange_Format header, if present
CProgramConfig &pce = m_AdifHeader.GetProgramConfig(m_SelectedProgram);
if ((m_BlockNumber == 0) && m_bs.IsAdifHeaderPresent())
{
info.SetSamplingRateIndex (pce.GetSamplingFrequencyIndex());
info.SetProfile (pce.GetProfile());
}
info.SetChannels(0);
info.SetSamplingRate (CChannelInfo::SamplingRateFromIndex(info.GetSamplingRateIndex ()));
// // //
CVLBBitSequence type (3), tag (4);
m_bs.ByteAlign();
while (type != CAacDecoder::ID_END)
{
type.Read(m_bs);
switch (type)
{
case CAacDecoder::ID_SCE:
if(bHasElement)
{
throw EUnimplemented();
}
m_bs.SetPositionMarker(CDolbyBitStream::ChannelElementStart);
tag.Read (m_bs);
sce.Read (info);
m_bs.SetPositionMarker(CDolbyBitStream::ChannelElementStop);
if(!bHasElement)
{
iElementType = ELEMENT_TYPE_SCE;
}
else
{
throw EUnimplemented();
iElementType = ELEMENT_TYPE_IGNORE;
}
info.IncChannels(1);
bHasElement = true;
break ;
case CAacDecoder::ID_CPE:
if(bHasElement)
{
throw EUnimplemented();
}
m_bs.SetPositionMarker(CDolbyBitStream::ChannelElementStart);
tag.Read(m_bs);
cpe.Read(info);
m_bs.SetPositionMarker(CDolbyBitStream::ChannelElementStop);
if(!bHasElement)
{
iElementType = ELEMENT_TYPE_CPE;
}
else
{
throw EUnimplemented();
iElementType = ELEMENT_TYPE_IGNORE;
}
info.IncChannels (2);
bHasElement = true;
break;
case CAacDecoder::ID_CCE:
throw EUnimplemented();
break;
case CAacDecoder::ID_LFE:
m_bs.SetPositionMarker(CDolbyBitStream::ChannelElementStart);
tag.Read(m_bs);
lfe.Read(info);
m_bs.SetPositionMarker(CDolbyBitStream::ChannelElementStop);
if (pce.AddChannel(tag,false))
{
throw EUnimplemented();
info.IncChannels(1);
}
iElementType = ELEMENT_TYPE_IGNORE;
bHasElement = true;
break;
case CAacDecoder::ID_DSE:
tag.Read(m_bs);
dse.Read();
break;
case CAacDecoder::ID_PCE:
m_AdifHeader.GetProgramConfig(tag.Read(m_bs)).Read(m_bs);
break;
case CAacDecoder::ID_FIL:
switch(iElementType)
{
case ELEMENT_TYPE_SCE:
InitDSEInfo(&m_bs,&sce);
break;
case ELEMENT_TYPE_CPE:
InitDSEInfo(&m_bs,&cpe);
break;
}
ReadDolbyFillElement();
break;
case CAacDecoder::ID_END:
break;
}
}
// Check for main profile. abort is bitstream is main profile
#ifndef MAIN_PROFILE
if (info.GetProfile() == 0)
{
throw EIllegalProfile();
}
#endif
if(poAudioIO) //Only perform actual decode if we have a valid output buffer object pointer
{
switch(iElementType)
{
case ELEMENT_TYPE_SCE:
if (pce.AddChannel(tag,false))
{
if(bHasDSEInfoStream)
{
sce.DecodeDolby(poAudioIO,&sDSEInfo,info);
}
else
{
sce.Decode(poAudioIO,info);
}
}
break;
case ELEMENT_TYPE_CPE:
if (pce.AddChannel (tag,true))
{
if(bHasDSEInfoStream)
{
cpe.DecodeDolby(poAudioIO,&sDSEInfo,info);
}
else
{
cpe.Decode(poAudioIO,info,2);
}
}
break;
}
}
info.SetNumberOfFrontChannels (info.GetChannels ());
info.SetChannelMask (Speaker_FrontLeft + Speaker_FrontRight);
m_BlockNumber++;
if(n && poAudioIO) m_bs.DecrementBlocks();//NRDB == N-1!
m_bs.ByteAlign();
}
if (poAudioIO == NULL)
{
m_bs.SetFrameReadButNotDecoded();
}
else
{
m_bs.ClearFrameReadButNotDecoded();
}
}
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