windows-nt/Source/XPSP1/NT/windows/feime/cht/cblocks/wave.cpp

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2020-09-26 03:20:57 -05:00
/*************************************************
* wave.cpp *
* *
* Copyright (C) 1995-1999 Microsoft Inc. *
* *
*************************************************/
// wave.cpp : implementation file
//
#include "stdafx.h"
#include "wave.h"
#include "mem.h"
#ifdef _DEBUG
#undef THIS_FILE
static char BASED_CODE THIS_FILE[] = __FILE__;
#endif
/////////////////////////////////////////////////////////////////////////////
// CWave
IMPLEMENT_SERIAL(CWave, CObject, 0 /* Schema number*/ )
// Create a simple waveform so there's something there.
CWave::CWave()
{
m_pSamples = NULL;
m_pOutDev = NULL;
m_bBusy = FALSE;
Create(16);
}
CWave::~CWave()
{
if (m_bBusy) {
Stop();
}
ASSERT(!m_bBusy);
if (m_pSamples) FREE(m_pSamples);
}
/////////////////////////////////////////////////////////////////////////////
// CWave serialization
void CWave::Serialize(CArchive& ar)
{
ar.Flush();
CFile* fp = ar.GetFile();
if (ar.IsStoring()) {
ASSERT(0); // Save(fp);
} else {
Load(fp);
}
}
///////////////////////////////////////////////////////////////////////////
// CWave notification functions
void CWave::OnWaveOutDone()
{
}
void CWave::OnWaveInData()
{
}
/////////////////////////////////////////////////////////////////////////////
// CWave commands
BOOL CWave::Create(int nsamples, int samprate, int sampsize)
{
// validate the args
if ((samprate != 11025)
&& (samprate != 22050)
&& (samprate != 44100)) {
TRACE("Invalid sample rate: %d", samprate);
return FALSE;
}
if ((sampsize != 8) && (sampsize != 16)) {
TRACE("Invalid sample size: %d", sampsize);
return FALSE;
}
// Allocate memory for the samples.
int iBytes = nsamples * sampsize / 8;
void* pSamples = ALLOC(iBytes);
if (!pSamples) {
TRACE("Out of memory for samples");
return FALSE;
}
// Free existing memory and replace it.
if (m_pSamples) FREE(m_pSamples);
m_pSamples = pSamples;
m_iSize = iBytes;
// Fill out the format info.
m_pcmfmt.wf.wFormatTag = WAVE_FORMAT_PCM;
m_pcmfmt.wf.nChannels = 1; // We only do mono.
m_pcmfmt.wf.nSamplesPerSec = samprate;
m_pcmfmt.wf.nAvgBytesPerSec = samprate;
m_pcmfmt.wf.nBlockAlign = (unsigned short) (sampsize / 8); // Number of bytes
m_pcmfmt.wBitsPerSample = (unsigned short) sampsize;
// Set the buffer to silence.
for (int i=0; i<nsamples; i++) {
SetSample(i, 0);
}
return TRUE;
}
BOOL CWave::Play(CWaveOutDevice* pWaveDevice)
{
if (pWaveDevice != NULL) {
m_pOutDev = pWaveDevice;
return pWaveDevice->Play(this);
} else {
m_pOutDev = &theDefaultWaveOutDevice;
return theDefaultWaveOutDevice.Play(this);
}
}
void CWave::Stop()
{
if (!m_bBusy) return;
}
BOOL CWave::Load(char* pszFileName)
{
CString strFile;
if ((pszFileName == NULL)
|| (strlen(pszFileName) == 0)) {
// Show an open file dialog to get the name.
CFileDialog dlg (TRUE, // Open
NULL, // No default extension
NULL, // No initial file name
OFN_FILEMUSTEXIST
| OFN_HIDEREADONLY,
"Wave files (*.WAV)|*.WAV|All files (*.*)|*.*||");
if (dlg.DoModal() == IDOK) {
strFile = dlg.GetPathName();
} else {
return FALSE;
}
} else {
// Copy the supplied file path.
strFile = pszFileName;
}
// Try to open the file for read access.
CFile file;
if (! file.Open(strFile,
CFile::modeRead | CFile::shareDenyWrite)) {
AfxMessageBox("Failed to open file");
return FALSE;
}
BOOL bResult = Load(&file);
file.Close();
if (!bResult) AfxMessageBox("Failed to load file");
return bResult;
}
BOOL CWave::Load(CFile *fp)
{
return Load(fp->m_hFile);
}
BOOL CWave::Load(UINT_PTR hFile)
{
HMMIO hmmio;
MMIOINFO info;
memset(&info, 0, sizeof(info));
info.adwInfo[0] = (DWORD)hFile;
hmmio = mmioOpen(NULL,
&info,
MMIO_READ | MMIO_ALLOCBUF);
if (!hmmio) {
TRACE("mmioOpen failed");
return FALSE;
}
BOOL bResult = Load(hmmio);
mmioClose(hmmio, MMIO_FHOPEN);
return bResult;
}
BOOL CWave::Load(HMMIO hmmio)
{
// Check whether it's a RIFF WAVE file.
MMCKINFO ckFile;
ckFile.fccType = mmioFOURCC('W','A','V','E');
if (mmioDescend(hmmio,
&ckFile,
NULL,
MMIO_FINDRIFF) != 0) {
TRACE("Not a RIFF or WAVE file");
return FALSE;
}
// Find the 'fmt ' chunk.
MMCKINFO ckChunk;
ckChunk.ckid = mmioFOURCC('f','m','t',' ');
if (mmioDescend(hmmio,
&ckChunk,
&ckFile,
MMIO_FINDCHUNK) != 0) {
TRACE("No fmt chunk in file");
return FALSE;
}
// Allocate some memory for the fmt chunk.
int iSize = ckChunk.cksize;
WAVEFORMATEX* pfmt = (WAVEFORMATEX*) ALLOC(iSize);
ASSERT(pfmt);
if ( pfmt == NULL )
{
return FALSE;
}
// Read the fmt chunk.
if (mmioRead(hmmio,
(char*)pfmt,
iSize) != iSize) {
TRACE("Failed to read fmt chunk");
FREE(pfmt);
return FALSE;
}
// Check whether it's in PCM format.
if (pfmt->wFormatTag != WAVE_FORMAT_PCM) {
TRACE("Not a PCM file");
FREE(pfmt);
return FALSE;
}
// Get out of the fmt chunk.
mmioAscend(hmmio, &ckChunk, 0);
// Find the 'data' chunk.
ckChunk.ckid = mmioFOURCC('d','a','t','a');
if (mmioDescend(hmmio,
&ckChunk,
&ckFile,
MMIO_FINDCHUNK) != 0) {
TRACE("No data chunk in file");
FREE(pfmt);
return FALSE;
}
// Allocate some memory for the data chunk.
iSize = ckChunk.cksize;
void* pdata = ALLOC(iSize);
if (!pdata) {
TRACE("No mem for data");
FREE(pfmt);
return FALSE;
}
// Read the data chunk.
if (mmioRead(hmmio,
(char *)pdata,
iSize) != iSize) {
TRACE("Failed to read data chunk");
FREE(pfmt);
FREE(pdata);
return FALSE;
}
// Wrap the CWave object around what we have.
memcpy(&m_pcmfmt, pfmt, sizeof(m_pcmfmt));
// Replace the samples.
if (m_pSamples) FREE(m_pSamples);
m_pSamples = pdata;
m_iSize = iSize;
return TRUE;
}
BOOL CWave::LoadResource(WORD wID)
{
ASSERT(wID);
HINSTANCE hInst = AfxGetResourceHandle();
HRSRC hrsrc = ::FindResource(hInst,
MAKEINTRESOURCE(wID), "WAVE");
if (!hrsrc) {
TRACE("WAVE resource not found");
return FALSE;
}
HGLOBAL hg = ::LoadResource(hInst,
hrsrc);
if (!hg) {
TRACE("Failed to load WAVE resource");
return FALSE;
}
char* pRes = (char*) ::LockResource(hg);
ASSERT(pRes);
if ( pRes == NULL )
{
TRACE("Failed to lock WAVE resource");
return FALSE;
}
// Mark the resource pages as read/write so the mmioOpen
// won't fail
int iSize = ::SizeofResource(hInst, hrsrc);
DWORD dwOldProt;
BOOL b = ::VirtualProtect(pRes,
iSize,
PAGE_READWRITE,
&dwOldProt);
ASSERT(b);
// Open the memory block as an HMMIO object
HMMIO hmmio;
MMIOINFO info;
memset(&info, 0, sizeof(info));
info.fccIOProc = FOURCC_MEM;
info.pchBuffer = pRes;
info.cchBuffer = iSize;
hmmio = mmioOpen(NULL,
&info,
MMIO_READ);
if (!hmmio) {
TRACE("mmioOpen failed. Error %d\n", info.wErrorRet);
return FALSE;
}
BOOL bResult = Load(hmmio);
mmioClose(hmmio, MMIO_FHOPEN);
// Note: not required to unlock or free the resource in Win32
return bResult;
}
// Get the number of samples.
int CWave::GetNumSamples()
{
ASSERT(m_pcmfmt.wBitsPerSample);
return m_iSize * 8 / m_pcmfmt.wBitsPerSample;
}
// Get a sample value scaled as a 16 bit signed quantity.
int CWave::GetSample(int index)
{
if ((index < 0) || (index >= GetNumSamples())) {
TRACE("Sample index out of range");
return 0;
}
switch (m_pcmfmt.wBitsPerSample) {
case 8: {
BYTE *p = (BYTE *) m_pSamples;
int i = p[index]; // 0 - 255;
return (i - 128) * 256;
} break;
case 16: {
ASSERT(sizeof(short int) == 2);
short int* p = (short int *) m_pSamples;
return p[index];
} break;
default:
break;
}
ASSERT(1); // Invalid bits per sample
return 0;
}
// Set a sample value from a 16 bit signed quantity.
void CWave::SetSample(int index, int iValue)
{
if ((index < 0) || (index >= GetNumSamples())) {
TRACE("Sample index out of range");
return;
}
switch (m_pcmfmt.wBitsPerSample) {
case 8: {
BYTE* p = (BYTE*) m_pSamples;
p[index] = (unsigned char) (iValue / 256 + 128);
} break;
case 16: {
ASSERT(sizeof(short int) == 16);
short int* p = (short int*) m_pSamples;
p[index] = (unsigned short) iValue;
} break;
default:
ASSERT(1); // Invalid bits per sample
break;
}
}