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SDKwavefile.cpp - Hosted on DriveHQ Cloud IT Platform
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Ruta de la carpeta: \\game3dprogramming\materials\DarkPuzzle\DXUT\Optional\SDKwavefile.cpp
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//----------------------------------------------------------------------------- // File: SDKWaveFile.cpp // // Desc: Classes for reading and writing wav files. Feel free to use this class // as a starting point for adding extra functionality. // // XNA Developer Connection // // Copyright (c) Microsoft Corp. All rights reserved. //----------------------------------------------------------------------------- #define STRICT #include "DXUT.h" #include "SDKwavefile.h" #undef min // use __min instead #undef max // use __max instead //----------------------------------------------------------------------------- // Name: CWaveFile::CWaveFile() // Desc: Constructs the class. Call Open() to open a wave file for reading. // Then call Read() as needed. Calling the destructor or Close() // will close the file. //----------------------------------------------------------------------------- CWaveFile::CWaveFile() { m_pwfx = NULL; m_hmmio = NULL; m_pResourceBuffer = NULL; m_dwSize = 0; m_bIsReadingFromMemory = FALSE; } //----------------------------------------------------------------------------- // Name: CWaveFile::~CWaveFile() // Desc: Destructs the class //----------------------------------------------------------------------------- CWaveFile::~CWaveFile() { Close(); if( !m_bIsReadingFromMemory ) SAFE_DELETE_ARRAY( m_pwfx ); } //----------------------------------------------------------------------------- // Name: CWaveFile::Open() // Desc: Opens a wave file for reading //----------------------------------------------------------------------------- HRESULT CWaveFile::Open( LPWSTR strFileName, WAVEFORMATEX* pwfx, DWORD dwFlags ) { HRESULT hr; m_dwFlags = dwFlags; m_bIsReadingFromMemory = FALSE; if( m_dwFlags == WAVEFILE_READ ) { if( strFileName == NULL ) return E_INVALIDARG; SAFE_DELETE_ARRAY( m_pwfx ); m_hmmio = mmioOpen( strFileName, NULL, MMIO_ALLOCBUF | MMIO_READ ); if( NULL == m_hmmio ) { HRSRC hResInfo; HGLOBAL hResData; DWORD dwSize; VOID* pvRes; // Loading it as a file failed, so try it as a resource if( NULL == ( hResInfo = FindResource( NULL, strFileName, L"WAVE" ) ) ) { if( NULL == ( hResInfo = FindResource( NULL, strFileName, L"WAV" ) ) ) return DXTRACE_ERR( L"FindResource", E_FAIL ); } if( NULL == ( hResData = LoadResource( GetModuleHandle(NULL), hResInfo ) ) ) return DXTRACE_ERR( L"LoadResource", E_FAIL ); if( 0 == ( dwSize = SizeofResource( GetModuleHandle(NULL), hResInfo ) ) ) return DXTRACE_ERR( L"SizeofResource", E_FAIL ); if( NULL == ( pvRes = LockResource( hResData ) ) ) return DXTRACE_ERR( L"LockResource", E_FAIL ); m_pResourceBuffer = new CHAR[ dwSize ]; if( m_pResourceBuffer == NULL ) return DXTRACE_ERR( L"new", E_OUTOFMEMORY ); memcpy( m_pResourceBuffer, pvRes, dwSize ); MMIOINFO mmioInfo; ZeroMemory( &mmioInfo, sizeof(mmioInfo) ); mmioInfo.fccIOProc = FOURCC_MEM; mmioInfo.cchBuffer = dwSize; mmioInfo.pchBuffer = (CHAR*) m_pResourceBuffer; m_hmmio = mmioOpen( NULL, &mmioInfo, MMIO_ALLOCBUF | MMIO_READ ); } if( FAILED( hr = ReadMMIO() ) ) { // ReadMMIO will fail if its an not a wave file mmioClose( m_hmmio, 0 ); return DXTRACE_ERR( L"ReadMMIO", hr ); } if( FAILED( hr = ResetFile() ) ) return DXTRACE_ERR( L"ResetFile", hr ); // After the reset, the size of the wav file is m_ck.cksize so store it now m_dwSize = m_ck.cksize; } else { m_hmmio = mmioOpen( strFileName, NULL, MMIO_ALLOCBUF | MMIO_READWRITE | MMIO_CREATE ); if( NULL == m_hmmio ) return DXTRACE_ERR( L"mmioOpen", E_FAIL ); if( FAILED( hr = WriteMMIO( pwfx ) ) ) { mmioClose( m_hmmio, 0 ); return DXTRACE_ERR( L"WriteMMIO", hr ); } if( FAILED( hr = ResetFile() ) ) return DXTRACE_ERR( L"ResetFile", hr ); } return hr; } //----------------------------------------------------------------------------- // Name: CWaveFile::OpenFromMemory() // Desc: copy data to CWaveFile member variable from memory //----------------------------------------------------------------------------- HRESULT CWaveFile::OpenFromMemory( BYTE* pbData, ULONG ulDataSize, WAVEFORMATEX* pwfx, DWORD dwFlags ) { m_pwfx = pwfx; m_ulDataSize = ulDataSize; m_pbData = pbData; m_pbDataCur = m_pbData; m_bIsReadingFromMemory = TRUE; if( dwFlags != WAVEFILE_READ ) return E_NOTIMPL; return S_OK; } //----------------------------------------------------------------------------- // Name: CWaveFile::ReadMMIO() // Desc: Support function for reading from a multimedia I/O stream. // m_hmmio must be valid before calling. This function uses it to // update m_ckRiff, and m_pwfx. //----------------------------------------------------------------------------- HRESULT CWaveFile::ReadMMIO() { MMCKINFO ckIn; // chunk info. for general use. PCMWAVEFORMAT pcmWaveFormat; // Temp PCM structure to load in. m_pwfx = NULL; if( ( 0 != mmioDescend( m_hmmio, &m_ckRiff, NULL, 0 ) ) ) return DXTRACE_ERR( L"mmioDescend", E_FAIL ); // Check to make sure this is a valid wave file if( (m_ckRiff.ckid != FOURCC_RIFF) || (m_ckRiff.fccType != mmioFOURCC('W', 'A', 'V', 'E') ) ) return DXTRACE_ERR( L"mmioFOURCC", E_FAIL ); // Search the input file for for the 'fmt ' chunk. ckIn.ckid = mmioFOURCC('f', 'm', 't', ' '); if( 0 != mmioDescend( m_hmmio, &ckIn, &m_ckRiff, MMIO_FINDCHUNK ) ) return DXTRACE_ERR( L"mmioDescend", E_FAIL ); // Expect the 'fmt' chunk to be at least as large as
; // if there are extra parameters at the end, we'll ignore them if( ckIn.cksize < (LONG) sizeof(PCMWAVEFORMAT) ) return DXTRACE_ERR( L"sizeof(PCMWAVEFORMAT)", E_FAIL ); // Read the 'fmt ' chunk into
. if( mmioRead( m_hmmio, (HPSTR) &pcmWaveFormat, sizeof(pcmWaveFormat)) != sizeof(pcmWaveFormat) ) return DXTRACE_ERR( L"mmioRead", E_FAIL ); // Allocate the waveformatex, but if its not pcm format, read the next // word, and thats how many extra bytes to allocate. if( pcmWaveFormat.wf.wFormatTag == WAVE_FORMAT_PCM ) { m_pwfx = (WAVEFORMATEX*)new CHAR[ sizeof(WAVEFORMATEX) ]; if( NULL == m_pwfx ) return DXTRACE_ERR( L"m_pwfx", E_FAIL ); // Copy the bytes from the pcm structure to the waveformatex structure memcpy( m_pwfx, &pcmWaveFormat, sizeof(pcmWaveFormat) ); m_pwfx->cbSize = 0; } else { // Read in length of extra bytes. WORD cbExtraBytes = 0L; if( mmioRead( m_hmmio, (CHAR*)&cbExtraBytes, sizeof(WORD)) != sizeof(WORD) ) return DXTRACE_ERR( L"mmioRead", E_FAIL ); m_pwfx = (WAVEFORMATEX*)new CHAR[ sizeof(WAVEFORMATEX) + cbExtraBytes ]; if( NULL == m_pwfx ) return DXTRACE_ERR( L"new", E_FAIL ); // Copy the bytes from the pcm structure to the waveformatex structure memcpy( m_pwfx, &pcmWaveFormat, sizeof(pcmWaveFormat) ); m_pwfx->cbSize = cbExtraBytes; // Now, read those extra bytes into the structure, if cbExtraAlloc != 0. if( mmioRead( m_hmmio, (CHAR*)(((BYTE*)&(m_pwfx->cbSize))+sizeof(WORD)), cbExtraBytes ) != cbExtraBytes ) { SAFE_DELETE( m_pwfx ); return DXTRACE_ERR( L"mmioRead", E_FAIL ); } } // Ascend the input file out of the 'fmt ' chunk. if( 0 != mmioAscend( m_hmmio, &ckIn, 0 ) ) { SAFE_DELETE( m_pwfx ); return DXTRACE_ERR( L"mmioAscend", E_FAIL ); } return S_OK; } //----------------------------------------------------------------------------- // Name: CWaveFile::GetSize() // Desc: Retuns the size of the read access wave file //----------------------------------------------------------------------------- DWORD CWaveFile::GetSize() { return m_dwSize; } //----------------------------------------------------------------------------- // Name: CWaveFile::ResetFile() // Desc: Resets the internal m_ck pointer so reading starts from the // beginning of the file again //----------------------------------------------------------------------------- HRESULT CWaveFile::ResetFile() { if( m_bIsReadingFromMemory ) { m_pbDataCur = m_pbData; } else { if( m_hmmio == NULL ) return CO_E_NOTINITIALIZED; if( m_dwFlags == WAVEFILE_READ ) { // Seek to the data if( -1 == mmioSeek( m_hmmio, m_ckRiff.dwDataOffset + sizeof(FOURCC), SEEK_SET ) ) return DXTRACE_ERR( L"mmioSeek", E_FAIL ); // Search the input file for the 'data' chunk. m_ck.ckid = mmioFOURCC('d', 'a', 't', 'a'); if( 0 != mmioDescend( m_hmmio, &m_ck, &m_ckRiff, MMIO_FINDCHUNK ) ) return DXTRACE_ERR( L"mmioDescend", E_FAIL ); } else { // Create the 'data' chunk that holds the waveform samples. m_ck.ckid = mmioFOURCC('d', 'a', 't', 'a'); m_ck.cksize = 0; if( 0 != mmioCreateChunk( m_hmmio, &m_ck, 0 ) ) return DXTRACE_ERR( L"mmioCreateChunk", E_FAIL ); if( 0 != mmioGetInfo( m_hmmio, &m_mmioinfoOut, 0 ) ) return DXTRACE_ERR( L"mmioGetInfo", E_FAIL ); } } return S_OK; } //----------------------------------------------------------------------------- // Name: CWaveFile::Read() // Desc: Reads section of data from a wave file into pBuffer and returns // how much read in pdwSizeRead, reading not more than dwSizeToRead. // This uses m_ck to determine where to start reading from. So // subsequent calls will be continue where the last left off unless // Reset() is called. //----------------------------------------------------------------------------- HRESULT CWaveFile::Read( BYTE* pBuffer, DWORD dwSizeToRead, DWORD* pdwSizeRead ) { if( m_bIsReadingFromMemory ) { if( m_pbDataCur == NULL ) return CO_E_NOTINITIALIZED; if( pdwSizeRead != NULL ) *pdwSizeRead = 0; if( (BYTE*)(m_pbDataCur + dwSizeToRead) > (BYTE*)(m_pbData + m_ulDataSize) ) { dwSizeToRead = m_ulDataSize - (DWORD)(m_pbDataCur - m_pbData); } #pragma warning( disable: 4616 ) // disable warning about warning number '22104' being out of range #pragma warning( disable: 22104 ) // disable PREfast warning during static code analysis CopyMemory( pBuffer, m_pbDataCur, dwSizeToRead ); #pragma warning( default: 22104 ) #pragma warning( default: 4616 ) if( pdwSizeRead != NULL ) *pdwSizeRead = dwSizeToRead; return S_OK; } else { MMIOINFO mmioinfoIn; // current status of m_hmmio if( m_hmmio == NULL ) return CO_E_NOTINITIALIZED; if( pBuffer == NULL || pdwSizeRead == NULL ) return E_INVALIDARG; if( pdwSizeRead != NULL ) *pdwSizeRead = 0; if( 0 != mmioGetInfo( m_hmmio, &mmioinfoIn, 0 ) ) return DXTRACE_ERR( L"mmioGetInfo", E_FAIL ); UINT cbDataIn = dwSizeToRead; if( cbDataIn > m_ck.cksize ) cbDataIn = m_ck.cksize; m_ck.cksize -= cbDataIn; for( DWORD cT = 0; cT < cbDataIn; cT++ ) { // Copy the bytes from the io to the buffer. if( mmioinfoIn.pchNext == mmioinfoIn.pchEndRead ) { if( 0 != mmioAdvance( m_hmmio, &mmioinfoIn, MMIO_READ ) ) return DXTRACE_ERR( L"mmioAdvance", E_FAIL ); if( mmioinfoIn.pchNext == mmioinfoIn.pchEndRead ) return DXTRACE_ERR( L"mmioinfoIn.pchNext", E_FAIL ); } // Actual copy. *((BYTE*)pBuffer+cT) = *((BYTE*)mmioinfoIn.pchNext); mmioinfoIn.pchNext++; } if( 0 != mmioSetInfo( m_hmmio, &mmioinfoIn, 0 ) ) return DXTRACE_ERR( L"mmioSetInfo", E_FAIL ); if( pdwSizeRead != NULL ) *pdwSizeRead = cbDataIn; return S_OK; } } //----------------------------------------------------------------------------- // Name: CWaveFile::Close() // Desc: Closes the wave file //----------------------------------------------------------------------------- HRESULT CWaveFile::Close() { if( m_dwFlags == WAVEFILE_READ ) { mmioClose( m_hmmio, 0 ); m_hmmio = NULL; SAFE_DELETE_ARRAY( m_pResourceBuffer ); } else { m_mmioinfoOut.dwFlags |= MMIO_DIRTY; if( m_hmmio == NULL ) return CO_E_NOTINITIALIZED; if( 0 != mmioSetInfo( m_hmmio, &m_mmioinfoOut, 0 ) ) return DXTRACE_ERR( L"mmioSetInfo", E_FAIL ); // Ascend the output file out of the 'data' chunk -- this will cause // the chunk size of the 'data' chunk to be written. if( 0 != mmioAscend( m_hmmio, &m_ck, 0 ) ) return DXTRACE_ERR( L"mmioAscend", E_FAIL ); // Do this here instead... if( 0 != mmioAscend( m_hmmio, &m_ckRiff, 0 ) ) return DXTRACE_ERR( L"mmioAscend", E_FAIL ); mmioSeek( m_hmmio, 0, SEEK_SET ); if( 0 != (INT)mmioDescend( m_hmmio, &m_ckRiff, NULL, 0 ) ) return DXTRACE_ERR( L"mmioDescend", E_FAIL ); m_ck.ckid = mmioFOURCC('f', 'a', 'c', 't'); if( 0 == mmioDescend( m_hmmio, &m_ck, &m_ckRiff, MMIO_FINDCHUNK ) ) { DWORD dwSamples = 0; mmioWrite( m_hmmio, (HPSTR)&dwSamples, sizeof(DWORD) ); mmioAscend( m_hmmio, &m_ck, 0 ); } // Ascend the output file out of the 'RIFF' chunk -- this will cause // the chunk size of the 'RIFF' chunk to be written. if( 0 != mmioAscend( m_hmmio, &m_ckRiff, 0 ) ) return DXTRACE_ERR( L"mmioAscend", E_FAIL ); mmioClose( m_hmmio, 0 ); m_hmmio = NULL; } return S_OK; } //----------------------------------------------------------------------------- // Name: CWaveFile::WriteMMIO() // Desc: Support function for reading from a multimedia I/O stream // pwfxDest is the WAVEFORMATEX for this new wave file. // m_hmmio must be valid before calling. This function uses it to // update m_ckRiff, and m_ck. //----------------------------------------------------------------------------- HRESULT CWaveFile::WriteMMIO( WAVEFORMATEX *pwfxDest ) { DWORD dwFactChunk; // Contains the actual fact chunk. Garbage until WaveCloseWriteFile. MMCKINFO ckOut1; dwFactChunk = (DWORD)-1; // Create the output file RIFF chunk of form type 'WAVE'. m_ckRiff.fccType = mmioFOURCC('W', 'A', 'V', 'E'); m_ckRiff.cksize = 0; if( 0 != mmioCreateChunk( m_hmmio, &m_ckRiff, MMIO_CREATERIFF ) ) return DXTRACE_ERR( L"mmioCreateChunk", E_FAIL ); // We are now descended into the 'RIFF' chunk we just created. // Now create the 'fmt ' chunk. Since we know the size of this chunk, // specify it in the MMCKINFO structure so MMIO doesn't have to seek // back and set the chunk size after ascending from the chunk. m_ck.ckid = mmioFOURCC('f', 'm', 't', ' '); m_ck.cksize = sizeof(PCMWAVEFORMAT); if( 0 != mmioCreateChunk( m_hmmio, &m_ck, 0 ) ) return DXTRACE_ERR( L"mmioCreateChunk", E_FAIL ); // Write the PCMWAVEFORMAT structure to the 'fmt ' chunk if its that type. if( pwfxDest->wFormatTag == WAVE_FORMAT_PCM ) { if( mmioWrite( m_hmmio, (HPSTR) pwfxDest, sizeof(PCMWAVEFORMAT)) != sizeof(PCMWAVEFORMAT)) return DXTRACE_ERR( L"mmioWrite", E_FAIL ); } else { // Write the variable length size. if( (UINT)mmioWrite( m_hmmio, (HPSTR) pwfxDest, sizeof(*pwfxDest) + pwfxDest->cbSize ) != ( sizeof(*pwfxDest) + pwfxDest->cbSize ) ) return DXTRACE_ERR( L"mmioWrite", E_FAIL ); } // Ascend out of the 'fmt ' chunk, back into the 'RIFF' chunk. if( 0 != mmioAscend( m_hmmio, &m_ck, 0 ) ) return DXTRACE_ERR( L"mmioAscend", E_FAIL ); // Now create the fact chunk, not required for PCM but nice to have. This is filled // in when the close routine is called. ckOut1.ckid = mmioFOURCC('f', 'a', 'c', 't'); ckOut1.cksize = 0; if( 0 != mmioCreateChunk( m_hmmio, &ckOut1, 0 ) ) return DXTRACE_ERR( L"mmioCreateChunk", E_FAIL ); if( mmioWrite( m_hmmio, (HPSTR)&dwFactChunk, sizeof(dwFactChunk)) != sizeof(dwFactChunk) ) return DXTRACE_ERR( L"mmioWrite", E_FAIL ); // Now ascend out of the fact chunk... if( 0 != mmioAscend( m_hmmio, &ckOut1, 0 ) ) return DXTRACE_ERR( L"mmioAscend", E_FAIL ); return S_OK; } //----------------------------------------------------------------------------- // Name: CWaveFile::Write() // Desc: Writes data to the open wave file //----------------------------------------------------------------------------- HRESULT CWaveFile::Write( UINT nSizeToWrite, BYTE* pbSrcData, UINT* pnSizeWrote ) { UINT cT; if( m_bIsReadingFromMemory ) return E_NOTIMPL; if( m_hmmio == NULL ) return CO_E_NOTINITIALIZED; if( pnSizeWrote == NULL || pbSrcData == NULL ) return E_INVALIDARG; *pnSizeWrote = 0; for( cT = 0; cT < nSizeToWrite; cT++ ) { if( m_mmioinfoOut.pchNext == m_mmioinfoOut.pchEndWrite ) { m_mmioinfoOut.dwFlags |= MMIO_DIRTY; if( 0 != mmioAdvance( m_hmmio, &m_mmioinfoOut, MMIO_WRITE ) ) return DXTRACE_ERR( L"mmioAdvance", E_FAIL ); } *((BYTE*)m_mmioinfoOut.pchNext) = *((BYTE*)pbSrcData+cT); (BYTE*)m_mmioinfoOut.pchNext++; (*pnSizeWrote)++; } return S_OK; }
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