SilentPatch/SilentPatchSA/WaveDecoderSA.cpp

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#include "StdAfxSA.h"
#include "WaveDecoderSA.h"
bool CAEWaveDecoder::Initialise()
{
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CAEDataStream* pTheStream = GetStream();
struct {
char sectionID[4];
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uint32_t sectionSize;
} chunkHeader;
// Find fmt section
pTheStream->Seek(12, FILE_BEGIN);
pTheStream->FillBuffer(&chunkHeader, sizeof(chunkHeader));
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m_offsetToData = 12 + sizeof(chunkHeader);
while ( chunkHeader.sectionID[0] != 'f' || chunkHeader.sectionID[1] != 'm' || chunkHeader.sectionID[2] != 't' || chunkHeader.sectionID[3] != ' ' )
{
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m_offsetToData += sizeof(chunkHeader) + chunkHeader.sectionSize;
pTheStream->Seek(chunkHeader.sectionSize, FILE_CURRENT);
pTheStream->FillBuffer(&chunkHeader, sizeof(chunkHeader));
}
// Read fmt header
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pTheStream->FillBuffer(&m_formatChunk, sizeof(m_formatChunk));
m_offsetToData += sizeof(m_formatChunk);
// Now skip through the rest of a chunk
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if ( chunkHeader.sectionSize - sizeof(m_formatChunk) > 0 )
{
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m_offsetToData += chunkHeader.sectionSize - sizeof(m_formatChunk);
pTheStream->Seek(chunkHeader.sectionSize - sizeof(m_formatChunk), FILE_CURRENT);
}
// Find data chunk
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m_offsetToData += sizeof(chunkHeader);
pTheStream->FillBuffer(&chunkHeader, sizeof(chunkHeader));
while ( chunkHeader.sectionID[0] != 'd' || chunkHeader.sectionID[1] != 'a' || chunkHeader.sectionID[2] != 't' || chunkHeader.sectionID[3] != 'a' )
{
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m_offsetToData += sizeof(chunkHeader) + chunkHeader.sectionSize;
pTheStream->Seek(chunkHeader.sectionSize, FILE_CURRENT);
pTheStream->FillBuffer(&chunkHeader, sizeof(chunkHeader));
}
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m_dataSize = chunkHeader.sectionSize;
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return m_formatChunk.sampleRate <= 48000 && m_formatChunk.numChannels <= 2 && (m_formatChunk.bitsPerSample == 8 || m_formatChunk.bitsPerSample == 16 || m_formatChunk.bitsPerSample == 24);
}
uint32_t CAEWaveDecoder::FillBuffer(void* pBuf, uint32_t nLen)
{
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size_t curBlockSize = CalcBufferSize( nLen );
if ( curBlockSize > m_maxBlockSize )
{
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delete[] m_buffer;
m_buffer = new uint8_t[curBlockSize];
m_maxBlockSize = curBlockSize;
}
else if ( curBlockSize == 0 )
{
return GetStream()->FillBuffer( pBuf, nLen );
}
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uint32_t bytesRead = GetStream()->FillBuffer( m_buffer, curBlockSize );
size_t samplesRead = bytesRead / m_formatChunk.blockAlign;
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if ( m_formatChunk.bitsPerSample == 16 )
{
assert( m_formatChunk.numChannels == 1 );
if ( m_formatChunk.numChannels == 1 )
{
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int16_t* inputBuf = (int16_t*)m_buffer;
int16_t* outputBuf = (int16_t*)pBuf;
for ( size_t i = 0; i < samplesRead; ++i )
{
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*outputBuf = *(outputBuf+1) = *inputBuf++;
outputBuf += 2;
}
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}
}
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else if ( m_formatChunk.bitsPerSample == 8 )
{
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if ( m_formatChunk.numChannels == 2 )
{
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uint8_t* inputBuf = (uint8_t*)m_buffer;
int16_t* outputBuf = (int16_t*)pBuf;
for ( size_t i = 0; i < samplesRead; ++i )
{
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*outputBuf++ = (static_cast<signed char>(*inputBuf++) - 128) << 8;
*outputBuf++ = (static_cast<signed char>(*inputBuf++) - 128) << 8;
}
}
else
{
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uint8_t* inputBuf = (uint8_t*)m_buffer;
int16_t* outputBuf = (int16_t*)pBuf;
for ( size_t i = 0; i < samplesRead; ++i )
{
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*outputBuf = *(outputBuf+1) = (static_cast<signed char>(*inputBuf++) - 128) << 8;
outputBuf += 2;
}
}
}
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else if ( m_formatChunk.bitsPerSample == 24 )
{
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if ( m_formatChunk.numChannels == 2 )
{
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uint8_t* inputBuf = (uint8_t*)m_buffer;
int16_t* outputBuf = (int16_t*)pBuf;
for ( size_t i = 0; i < samplesRead; ++i )
{
*outputBuf++ = *(inputBuf+1) | (*(inputBuf+2) << 8); inputBuf += 3;
*outputBuf++ = *(inputBuf+1) | (*(inputBuf+2) << 8); inputBuf += 3;
}
}
else
{
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uint8_t* inputBuf = (uint8_t*)m_buffer;
int16_t* outputBuf = (int16_t*)pBuf;
for ( size_t i = 0; i < samplesRead; ++i )
{
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*outputBuf = *(outputBuf+1) = *(inputBuf+1) | (*(inputBuf+2) << 8); inputBuf += 3;
outputBuf += 2;
}
}
}
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return samplesRead * (2*sizeof(int16_t));
}
size_t CAEWaveDecoder::CalcBufferSize( uint32_t outputBuf )
{
uint32_t requestedSamples = outputBuf / (2*sizeof(int16_t));
size_t requiredSize = m_formatChunk.blockAlign * requestedSamples;
return requiredSize == outputBuf ? 0 : requiredSize;
}