winamp/Src/vlb/aacdecoderapi.cpp

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/* $Header: /cvs/root/winamp/vlb/aacdecoderapi.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: aacdecode.cpp
* project : MPEG-2 AAC Decoder
* contents/description: AAC decoder API
*
\***************************************************************************/
#include "aacdecoderapi.h"
#include "aacdecoder.h"
#include "plainfile.h"
#include "bitbuffer.h"
#include "streaminfo.h"
#include "DataIO.h"
// sample frequency table
// converts sample frequency index to actual sample frequency
const unsigned int CAacDecoderApi::sfTab[16] =
{
96000,
88200,
64000,
48000,
44100,
32000,
24000,
22050,
16000,
12000,
11025,
8000,
0, // reserved
0, // reserved
0, // reserved
0 // reserved
};
DECLARE_EXCEPTION(ESyncError, AAC_SYNCERROR, "Synchronization Error!") ;
CAacDecoderApi::CAacDecoderApi (DataIOControl *paacInput) :
cbValid(0),
cbActual(0),
decoder(NULL),
input(NULL),
buffer(NULL),
info(NULL)
{
info = new CStreamInfo;
input = new CPlainFile(paacInput);
buffer = new CDolbyBitBuffer;
decoder = input->IsAdifHeaderPresent () ? new CAacDecoder (*input) : new CAacDecoder (*buffer);
decoder->FrameInit(*info);
}
CAacDecoderApi::~CAacDecoderApi ()
{
delete decoder;
delete input;
delete buffer;
delete info;
}
long CAacDecoderApi::Synchronize(AACStreamParameters *pAACStreamParameters)
{
long lReturn = ERR_SYNC_ERROR;
int iResyncCount = 5;
if (input->IsAdifHeaderPresent ())
{
/* Cannot resync to an ADIF stream! */
lReturn = ERR_NO_ERROR;
}
else
{
#if defined (_DEBUG)
// cout << "Resynchronizing" << endl;
#endif
buffer->ClearBytesSkipped();
while(lReturn != ERR_NO_ERROR && lReturn != ERR_END_OF_FILE && iResyncCount)
{
//Reset the block count:
buffer->ResetBlocks();
try
{
if (!cbValid)
{
cbValid = input->Read (readbuf, cbSize);
if (!cbValid)
buffer->SetEOF();
else
cbActual = cbValid;
}
buffer->Feed(readbuf, cbActual, cbValid);
if (buffer->IsDecodableFrame(*info))
{
lReturn = ERR_NO_ERROR;
}
else
{
throw ESyncError();
}
//Try to decode the first Raw Data Block to Get Dolby Info:
unsigned int uiValidBits1;
unsigned int uiValidBits2;
unsigned int uiBitsUsed;
uiValidBits1 = buffer->GetBitState();
decoder->DecodeFrame(NULL, *info); //this is only for ADTS!
uiValidBits2 = buffer->GetBitState();
uiBitsUsed = uiValidBits1 - uiValidBits2;
buffer->PushBack((int)uiBitsUsed);
if (!info->GetProtectionAbsent())
{
unsigned int CRCsyndrome;
buffer->IsCrcConsistent(&CRCsyndrome);
}
}
catch(CAacException& e)
{
/* If an exception was thrown, we have to clear this flag so that the next
* call to IsDecodableFrame() will not simply return 'true' without actually
* sync'ing and parsing the header.
*/
buffer->ClearFrameReadButNotDecoded();
lReturn = TranslateException(e);
iResyncCount--;
}
catch (...)
{
/* All exceptions thrown should be derived from CAacException and therefore
* should be caught above. Just in case, though we'll add this catch() statement
* to catch things like access violations, etc.
*/
lReturn = ERR_UNEXPECTED_ERROR;
break;
}
}
}
if (!lReturn)
{
if (FillStreamParameters(pAACStreamParameters))
{
lReturn = WARN_STREAM_PARAM_CHANGE;
}
/* frame_length is used here to pass up the # of bytes
* processed. This is actually the # of bytes skipped
* during the Synchronization() call.
*/
pAACStreamParameters->frame_length = buffer->GetBytesSkipped();
/* Clear the number of bytes skipped so that bytes_skipped
* no longer accumulates across calls to IsDecodableFrame()
*/
buffer->ClearBytesSkipped();
}
return lReturn;
}
long CAacDecoderApi::DecodeFrame (AudioIOControl *poAudioIO,
AACStreamParameters *pAACStreamParameters)
{
long lReturn = ERR_NO_ERROR;
buffer->ClearBytesSkipped();
try
{
if (!input->IsAdifHeaderPresent ())
{
if (!cbValid)
{
cbValid = input->Read (readbuf, cbSize);
if (!cbValid)
buffer->SetEOF();
else
cbActual = cbValid;
}
//
// feed up to 'cbActual' bytes into decoder buffer
//
buffer->Feed(readbuf, cbActual, cbValid);
//
// sync
//
if (!buffer->IsDecodableFrame(*info))
{
lReturn = ERR_INVALID_BITSTREAM;
}
/* Parse the entire frame so that CRC can be verified *before* performing the decode. */
unsigned int uiValidBits1;
unsigned int uiValidBits2;
unsigned int uiBitsUsed;
uiValidBits1 = buffer->GetBitState();
/* (NULL == parse frame only) */
decoder->DecodeFrame(NULL, *info); //
uiValidBits2 = buffer->GetBitState();
uiBitsUsed = uiValidBits1 - uiValidBits2;
/* This function performs a final sanity check for frame synchronization.
* It will read in the next 15 bits looking for the 0xFFF frame
* sync word, id, and layer. If it does not find a legal sync, it will throw an
* ESyncError() exception.
*/
VerifySync();
/* Push back entire frame (this does not include the header) before calling DecodeFrame() a second
* time to actually decode.
*/
buffer->PushBack((int)uiBitsUsed);
/* Verify CRC prior to actual decode. */
if (!info->GetProtectionAbsent())
{
unsigned int CRCsyndrome;
/* If the CRC is invalid, this function will throw an ECRCError() */
buffer->IsCrcConsistent(&CRCsyndrome);
}
}
/* Perform actual decode. */
decoder->DecodeFrame(poAudioIO, *info);
if (FillStreamParameters(pAACStreamParameters))
{
/* Output parameter (Fs, NumChans, etc.) has changed */
lReturn = WARN_STREAM_PARAM_CHANGE;
}
}
catch (CAacException& e)
{
/* Map the exception to a return code. */
lReturn = TranslateException(e);
/* frame_length is used here to pass up the # of bytes
* processed. An error has occurred so no bytes were
* processed. CAacDecoderAPI::Synchronication() will
* be called next to search for next syncword and return
* the number of bytes processed (i.e. bytes skipped).
*/
pAACStreamParameters->frame_length = 0;
}
catch (...)
{
/* All exceptions thrown should be derived from CAacException and therefore
* should be caught above. Just in case, though we'll add this catch() statement
* to catch things like access violations, etc.
*/
lReturn = ERR_UNEXPECTED_ERROR;
/* frame_length is used here to pass up the # of bytes
* processed. An error has occurred so no bytes were
* processed. CAacDecoderAPI::Synchronication() will
* be called next to search for next syncword and return
* the number of bytes processed (i.e. bytes skipped).
*/
pAACStreamParameters->frame_length = 0;
}
return lReturn;
}
/********** PRIVATE METHODS ***********/
long CAacDecoderApi::TranslateException(CAacException& e)
{
long lReturn = ERR_SUBROUTINE_ERROR; /* Default to generic subroutine error. */
static const int ErrorMap[][2] =
{
{AAC_UNIMPLEMENTED, ERR_SUBROUTINE_ERROR },
{AAC_NOTADIFHEADER, ERR_INVALID_ADIF_HEADER },
{AAC_DOESNOTEXIST, ERR_INVALID_BITSTREAM },
{AAC_ENDOFSTREAM, ERR_END_OF_FILE },
{AAC_SYNCERROR, ERR_SYNC_ERROR },
{AAC_CRCERROR, WARN_CRC_FAILED },
{AAC_INPUT_BUFFER_EMPTY, ERR_SYNC_ERROR },
{AAC_INVALIDCODEBOOK, ERR_SUBROUTINE_ERROR },
#ifdef MAIN_PROFILE
{AAC_INVALIDPREDICTORRESET, ERR_SUBROUTINE_ERROR },
#endif
{AAC_UNSUPPORTEDWINDOWSHAPE,ERR_SUBROUTINE_ERROR },
{AAC_DOLBY_NOT_SUPPORTED, ERR_SUBROUTINE_ERROR },
{AAC_ILLEGAL_PROFILE, ERR_ILLEGAL_PROFILE }
};
#if defined (_DEBUG)
// cout << e.Explain() << endl;
#endif
for (int i = 0; i < sizeof(ErrorMap) / (2 * sizeof(int)); i++)
{
if (e.What() == ErrorMap[i][0])
{
lReturn = ErrorMap[i][1];
break;
}
}
return lReturn;
}
void CAacDecoderApi::VerifySync(void)
{
/* This function performs a final sanity check for frame synchronization.
* It will read in the next 16 bits looking for one of two things:
*
* 1) The 0xFFF frame sync word plus 1-bit ID and 2-bit layer.
* 2) 0x5249 (RI) of a RIFF header (in the case of concatenated RIFF+ADTS files).
*
* If it does not find a legal sync, it will throw an ESyncError() exception.
* Either way, all bits read will be pushed back.
*/
int nSyncWord = buffer->Get(16);
buffer->PushBack(16);
/* When looking for ADTS sync, examine only the 15 MS bits because the LSB is the
* 'protection absent' flag.
*/
if (!buffer->EndOf() && (nSyncWord & 0xFFFE) != 0xFFF8 && (nSyncWord != 0x5249))
{
throw ESyncError();
}
}
bool CAacDecoderApi::FillStreamParameters(AACStreamParameters *pAACStreamParameters)
{
bool bParamChanged = false; //Assume no audio parameter change.
static int nPreviousFs = 0;
static int nPreviousNumChannels = 0;
if (input->IsAdifHeaderPresent ())
{
pAACStreamParameters->stream_format = ADIF;
}
else if (input->IsRiffHeaderPresent ())
{
pAACStreamParameters->stream_format = RIFFADTS;
}
else
{
pAACStreamParameters->stream_format = ADTS;
}
if(decoder->HasDolbySpectralExtension() && decoder->HasDoubleLengthXForm())
{
// When UseDblLengthXfrm is set, the function info->GetSamplingRate
// will double the sampling rate that it returns. Therefore,
// pAACStreamParameters->sampling_frequency gets set to the correct
// sampling rate in the code line below this one.
info->SetUseDblLengthXfrm(true);
}
else
{
info->SetUseDblLengthXfrm(false);
}
pAACStreamParameters->sampling_frequency = info->GetSamplingRate();
pAACStreamParameters->num_channels = info->GetChannels();
pAACStreamParameters->bitrate = info->GetBitRate();
/* frame_length is used here to pass up the # of bytes
* processed. bytes_skipped needs to be added in here
* to account for concatenated RIFF+ADTS files.
*/
pAACStreamParameters->frame_length = info->GetFrameLength() + buffer->GetBytesSkipped();
pAACStreamParameters->protection_absent = info->GetProtectionAbsent();
pAACStreamParameters->copyright = info->GetOriginalCopy();
pAACStreamParameters->original_copy = info->GetHome();
if (nPreviousFs && nPreviousNumChannels)
{
if (pAACStreamParameters->sampling_frequency != nPreviousFs)
{
bParamChanged = true;
}
if (pAACStreamParameters->num_channels != nPreviousNumChannels)
{
bParamChanged = true;
/* Reset the number of channels to 0 so that AacDecoder::DecodeFrame() can
* re-add them as it parses the new bitstream.
*/
decoder->GetAdifHeader()->GetProgramConfig(0).ResetNonMCConfig();
}
}
nPreviousFs = pAACStreamParameters->sampling_frequency;
nPreviousNumChannels = pAACStreamParameters->num_channels;
return bParamChanged;
}