//========= Copyright Valve Corporation, All rights reserved. ============// // // Purpose: Helper methods + classes for sound // //===========================================================================// #include "tier2/soundutils.h" #include "tier2/riff.h" #include "tier2/tier2.h" #include "filesystem.h" #ifdef IS_WINDOWS_PC #include // WAVEFORMATEX, WAVEFORMAT and ADPCM WAVEFORMAT!!! #include #else #ifdef _X360 #include "xbox/xbox_win32stubs.h" // WAVEFORMATEX, WAVEFORMAT and ADPCM WAVEFORMAT!!! #endif #endif //----------------------------------------------------------------------------- // RIFF reader/writers that use the file system //----------------------------------------------------------------------------- class CFSIOReadBinary : public IFileReadBinary { public: // inherited from IFileReadBinary virtual int open( const char *pFileName ); virtual int read( void *pOutput, int size, int file ); virtual void seek( int file, int pos ); virtual unsigned int tell( int file ); virtual unsigned int size( int file ); virtual void close( int file ); }; class CFSIOWriteBinary : public IFileWriteBinary { public: virtual int create( const char *pFileName ); virtual int write( void *pData, int size, int file ); virtual void close( int file ); virtual void seek( int file, int pos ); virtual unsigned int tell( int file ); }; //----------------------------------------------------------------------------- // Singletons //----------------------------------------------------------------------------- static CFSIOReadBinary s_FSIoIn; static CFSIOWriteBinary s_FSIoOut; IFileReadBinary *g_pFSIOReadBinary = &s_FSIoIn; IFileWriteBinary *g_pFSIOWriteBinary = &s_FSIoOut; //----------------------------------------------------------------------------- // RIFF reader that use the file system //----------------------------------------------------------------------------- int CFSIOReadBinary::open( const char *pFileName ) { return (int)g_pFullFileSystem->Open( pFileName, "rb" ); } int CFSIOReadBinary::read( void *pOutput, int size, int file ) { if ( !file ) return 0; return g_pFullFileSystem->Read( pOutput, size, (FileHandle_t)file ); } void CFSIOReadBinary::seek( int file, int pos ) { if ( !file ) return; g_pFullFileSystem->Seek( (FileHandle_t)file, pos, FILESYSTEM_SEEK_HEAD ); } unsigned int CFSIOReadBinary::tell( int file ) { if ( !file ) return 0; return g_pFullFileSystem->Tell( (FileHandle_t)file ); } unsigned int CFSIOReadBinary::size( int file ) { if ( !file ) return 0; return g_pFullFileSystem->Size( (FileHandle_t)file ); } void CFSIOReadBinary::close( int file ) { if ( !file ) return; g_pFullFileSystem->Close( (FileHandle_t)file ); } //----------------------------------------------------------------------------- // RIFF writer that use the file system //----------------------------------------------------------------------------- int CFSIOWriteBinary::create( const char *pFileName ) { g_pFullFileSystem->SetFileWritable( pFileName, true ); return (int)g_pFullFileSystem->Open( pFileName, "wb" ); } int CFSIOWriteBinary::write( void *pData, int size, int file ) { return g_pFullFileSystem->Write( pData, size, (FileHandle_t)file ); } void CFSIOWriteBinary::close( int file ) { g_pFullFileSystem->Close( (FileHandle_t)file ); } void CFSIOWriteBinary::seek( int file, int pos ) { g_pFullFileSystem->Seek( (FileHandle_t)file, pos, FILESYSTEM_SEEK_HEAD ); } unsigned int CFSIOWriteBinary::tell( int file ) { return g_pFullFileSystem->Tell( (FileHandle_t)file ); } #ifndef POSIX //----------------------------------------------------------------------------- // Returns the duration of a wav file //----------------------------------------------------------------------------- float GetWavSoundDuration( const char *pWavFile ) { InFileRIFF riff( pWavFile, *g_pFSIOReadBinary ); // UNDONE: Don't use printf to handle errors if ( riff.RIFFName() != RIFF_WAVE ) return 0.0f; int nDataSize = 0; // set up the iterator for the whole file (root RIFF is a chunk) IterateRIFF walk( riff, riff.RIFFSize() ); // This chunk must be first as it contains the wave's format // break out when we've parsed it char pFormatBuffer[ 1024 ]; int nFormatSize; bool bFound = false; for ( ; walk.ChunkAvailable( ); walk.ChunkNext() ) { switch ( walk.ChunkName() ) { case WAVE_FMT: bFound = true; if ( walk.ChunkSize() > sizeof(pFormatBuffer) ) { Warning( "oops, format tag too big!!!" ); return 0.0f; } nFormatSize = walk.ChunkSize(); walk.ChunkRead( pFormatBuffer ); break; case WAVE_DATA: nDataSize += walk.ChunkSize(); break; } } if ( !bFound ) return 0.0f; const WAVEFORMATEX *pHeader = (const WAVEFORMATEX *)pFormatBuffer; int format = pHeader->wFormatTag; int nBits = pHeader->wBitsPerSample; int nRate = pHeader->nSamplesPerSec; int nChannels = pHeader->nChannels; int nSampleSize = ( nBits * nChannels ) / 8; // this can never be zero -- other functions divide by this. // This should never happen, but avoid crashing if ( nSampleSize <= 0 ) { nSampleSize = 1; } int nSampleCount = 0; float flTrueSampleSize = nSampleSize; if ( format == WAVE_FORMAT_ADPCM ) { nSampleSize = 1; ADPCMWAVEFORMAT *pFormat = (ADPCMWAVEFORMAT *)pFormatBuffer; int blockSize = ((pFormat->wSamplesPerBlock - 2) * pFormat->wfx.nChannels ) / 2; blockSize += 7 * pFormat->wfx.nChannels; int blockCount = nSampleCount / blockSize; int blockRem = nSampleCount % blockSize; // total samples in complete blocks nSampleCount = blockCount * pFormat->wSamplesPerBlock; // add remaining in a short block if ( blockRem ) { nSampleCount += pFormat->wSamplesPerBlock - (((blockSize - blockRem) * 2) / nChannels); } flTrueSampleSize = 0.5f; } else { nSampleCount = nDataSize / nSampleSize; } float flDuration = (float)nSampleCount / (float)nRate; return flDuration; } #endif