src/views/SkOSSound.cpp - platform/external/skia - Git at Google

 #include "SkOSSound.h"

 #ifdef SK_BUILD_FOR_WIN

 //////////////////////////////////////////////////////////////////////
 // Construction/Destruction
 //////////////////////////////////////////////////////////////////////

 #include <Mmreg.h>
 #if defined _WIN32 && _MSC_VER >= 1300	// disable nameless struct/union
 #pragma warning ( push )
 #pragma warning ( disable : 4201 )
 #endif
 #include <Mmsystem.h>
 #if defined _WIN32 && _MSC_VER >= 1300
 #pragma warning ( pop )
 #endif
 #include <stdio.h>

 class CWaveFile {
 public:
 	BOOL Open(const char path[]);
 	void Close();

 	long Read(char* pData, long nLength);

 	long GetLength() const {return m_nLength;}
 	WAVEFORMATEX* GetWaveFormat()	{return (&m_Format);}

 protected:
 	FILE* m_pFile;
 	long m_nLength;
 	WAVEFORMATEX m_Format;

 private:
 	enum {
 		WF_OFFSET_FORMATTAG	=		20,
 		WF_OFFSET_CHANNELS =			22,
 		WF_OFFSET_SAMPLESPERSEC =		24,
 		WF_OFFSET_AVGBYTESPERSEC =	28,
 		WF_OFFSET_BLOCKALIGN =		32,
 		WF_OFFSET_BITSPERSAMPLE =		34,
 		WF_OFFSET_DATASIZE =			40,
 		WF_OFFSET_DATA =				44,
 		WF_HEADER_SIZE = WF_OFFSET_DATA
 	};
 };

 BOOL CWaveFile::Open(const char path[])
 {
 	BYTE aHeader[WF_HEADER_SIZE];

 /*	hResInfo = FindResource (hInst, lpName, "WAVE");

 	if (hResInfo == NULL)
 	return FALSE;

 	// Load the wave resource.
 	hRes = LoadResource (hInst, hResInfo);

 	if (hRes == NULL)
 		return FALSE;

 	// Lock the wave resource and play it.
 	lpRes = LockResource (0);
 */


 	// open file
 //	m_pFile = _tfopen(szFileName, TEXT("rb"));
 	m_pFile = fopen(path, "rb");
 	if (!m_pFile) {
 		return FALSE;
 	}

 	// set file length
 	fseek(m_pFile, 0, SEEK_END);
 	m_nLength = ftell(m_pFile) - WF_HEADER_SIZE;

 	// set the format attribute members
 	fseek(m_pFile, 0, SEEK_SET);
 	fread(aHeader, 1, WF_HEADER_SIZE, m_pFile);
 	m_Format.wFormatTag = *((WORD*) (aHeader + WF_OFFSET_FORMATTAG));
 	m_Format.nChannels = *((WORD*) (aHeader + WF_OFFSET_CHANNELS));
 	m_Format.nSamplesPerSec = *((DWORD*) (aHeader + WF_OFFSET_SAMPLESPERSEC));
 	m_Format.nAvgBytesPerSec = *((DWORD*) (aHeader + WF_OFFSET_AVGBYTESPERSEC));
 	m_Format.nBlockAlign = *((WORD*) (aHeader + WF_OFFSET_BLOCKALIGN));
 	m_Format.wBitsPerSample = *((WORD*) (aHeader + WF_OFFSET_BITSPERSAMPLE));

 	return TRUE;
 }

 void CWaveFile::Close()
 {
 	fclose(m_pFile);
 }

 long CWaveFile::Read(char* pData, long nLength)
 {
 	return fread(pData, 1, nLength, m_pFile);
 }

 ////////////////////////////////////////////////////////////////////////////////////////

 struct SkOSSoundWave {
 	HWAVEOUT hwo;
 	WAVEHDR whdr;
 	DWORD dwOldVolume;
 	CWaveFile waveFile;
 	HANDLE hDoneEvent;
 };

 static SkOSSoundWave gWave;
 static bool			 gWavePaused;
 static U8			 gVolume;
 static bool			 gInited = false;

 static void init_wave()
 {
 	if (gInited == false)
 	{
 		gWave.hwo = NULL;
 		gWavePaused = false;
 		gVolume = 0x80;
 		gInited = true;
 	}
 }

 MMRESULT StartWave(const char path[], SkOSSoundWave* wave, U32 vol);
 MMRESULT EndWave(SkOSSoundWave* wave);

 #define MAX_ERRMSG 256

 //#include "SkOSFile.h"	// for utf16

 void SkOSSound::Play(const char path[])
 {
 	init_wave();

 	if (gWave.hwo != NULL)
 		SkOSSound::Stop();

 	U32 v32 = (gVolume << 8) | gVolume;	// fill it out to 16bits
 	v32 |= v32 << 16;					// set the left and right channels

 	StartWave(path, &gWave, v32);
 	gWavePaused = false;
 }

 bool SkOSSound::TogglePause()
 {
 	init_wave();

 	if (gWavePaused)
 		SkOSSound::Resume();
 	else
 		SkOSSound::Pause();
 	return !gWavePaused;
 }


 void SkOSSound::Pause()
 {
 	init_wave();

 	if (gWave.hwo == NULL || (gWave.whdr.dwFlags & WHDR_DONE))
 		return;
 	waveOutPause(gWave.hwo);
 	gWavePaused = true;
 }

 void SkOSSound::Resume()
 {
 	init_wave();

 	if (gWave.hwo == NULL || (gWave.whdr.dwFlags & WHDR_DONE))
 		return;
 	waveOutRestart(gWave.hwo);
 	gWavePaused = false;
 }

 void SkOSSound::Stop()
 {
 	init_wave();

 //	if (gWave.hwo == NULL || (gWave.whdr.dwFlags & WHDR_DONE))
 	if (gWave.hwo == NULL)
 		return;
 	waveOutReset(gWave.hwo);
 	EndWave(&gWave);
 	gWavePaused = false;
 	gWave.hwo = NULL;
 }

 U8 SkOSSound::GetVolume()
 {
 	init_wave();
 	return gVolume;
 }

 void SkOSSound::SetVolume(U8CPU vol)
 {
 	if ((int)vol < 0)
 		vol = 0;
 	else if (vol > 255)
 		vol = 255;

 	init_wave();
 	gVolume = SkToU8(vol);

 	if (gWave.hwo)
 	{
 		unsigned long v32 = (vol << 8) | vol;	// fill it out to 16bits
 		v32 |= v32 << 16;						// set the left and right channels
 		waveOutSetVolume(gWave.hwo, v32);
 	}
 }

 #if 0
 unsigned long SoundManager::GetPosition()
 {
 	if (fWave.hwo == NULL)
 		return 0;
 	MMTIME time;
 	time.wType = TIME_MS;
 	if (waveOutGetPosition(fWave.hwo, &time, sizeof(time)) == MMSYSERR_NOERROR &&
 		time.wType == TIME_MS)
 	{
 		return time.u.ms;
 	}
 	return 0;
 }
 #endif

 MMRESULT StartWave(const char path[], SkOSSoundWave* wave, U32 vol)
 {
 	HWAVEOUT hwo = NULL;
 //	WAVEHDR whdr;
 	MMRESULT mmres = 0;
 //	CWaveFile waveFile;
 //	HANDLE hDoneEvent = wave.hDoneEvent =
 //		CreateEvent(NULL, FALSE, FALSE, TEXT("DONE_EVENT"));
 	UINT devId;
 //	DWORD dwOldVolume;

 	// Open wave file
 	if (!wave->waveFile.Open(path)) {
 //		TCHAR szErrMsg[MAX_ERRMSG];
 //		_stprintf(szErrMsg,	TEXT("Unable to open file: %s\n"), szWavFile);
 //		MessageBox(NULL, szErrMsg, TEXT("File I/O Error"), MB_OK);
 		return MMSYSERR_NOERROR;
 	}

 	// Open audio device
 	for (devId = 0; devId < waveOutGetNumDevs(); devId++)
 	{
 		mmres = waveOutOpen(&hwo, devId, wave->waveFile.GetWaveFormat(), 0, 0, CALLBACK_NULL);
 		if (mmres == MMSYSERR_NOERROR)
 		{
 			wave->hwo = hwo;
 			break;
 		}
 	}
 	if (mmres != MMSYSERR_NOERROR)
 	{
 		SkDEBUGCODE(SkDebugf("waveOutOpen(%s) -> %d\n", path, mmres);)
 		return mmres;
 	}

 	// Set volume
 	mmres = waveOutGetVolume(hwo, &wave->dwOldVolume);
 	if (mmres != MMSYSERR_NOERROR) {
 		return mmres;
 	}

 	waveOutSetVolume(hwo, vol);
 	if (mmres != MMSYSERR_NOERROR) {
 		return mmres;
 	}

 	// Initialize wave header
 	ZeroMemory(&wave->whdr, sizeof(WAVEHDR));
 	wave->whdr.lpData = new char[wave->waveFile.GetLength()];
 	wave->whdr.dwBufferLength = wave->waveFile.GetLength();
 	wave->whdr.dwUser = 0;
 	wave->whdr.dwFlags = 0;
 	wave->whdr.dwLoops = 0;
 	wave->whdr.dwBytesRecorded = 0;
 	wave->whdr.lpNext = 0;
 	wave->whdr.reserved = 0;

 	// Play buffer
 	wave->waveFile.Read(wave->whdr.lpData, wave->whdr.dwBufferLength);

 	mmres = waveOutPrepareHeader(hwo, &wave->whdr, sizeof(WAVEHDR));
 	if (mmres != MMSYSERR_NOERROR) {
 		return mmres;
 	}

 	mmres = waveOutWrite(hwo, &wave->whdr, sizeof(WAVEHDR));
 //	if (mmres != MMSYSERR_NOERROR) {
 		return mmres;
 //	}
 }

 #if 0
 void IdleWave(Wave& wave)
 {
 	// Wait for audio to finish playing
 	while (!(wave.whdr.dwFlags & WHDR_DONE)) {
 		WaitForSingleObject(wave.hDoneEvent, INFINITE);
 	}
 }
 #endif

 MMRESULT EndWave(SkOSSoundWave* wave)
 {
 	HWAVEOUT hwo = wave->hwo;
 	MMRESULT mmres;
 	// Clean up
 	mmres = waveOutUnprepareHeader(hwo, &wave->whdr, sizeof(WAVEHDR));
 	if (mmres != MMSYSERR_NOERROR) {
 		return mmres;
 	}

 	waveOutSetVolume(hwo, wave->dwOldVolume);
 	if (mmres != MMSYSERR_NOERROR) {
 		return mmres;
 	}

 	mmres = waveOutClose(hwo);
 	if (mmres != MMSYSERR_NOERROR) {
 		return mmres;
 	}

 	delete [] wave->whdr.lpData;
 	wave->waveFile.Close();

 	return MMSYSERR_NOERROR;
 }

 #endif	/* SK_BUILD_FOR_WIN */
	#include "SkOSSound.h"

	#ifdef SK_BUILD_FOR_WIN

	//////////////////////////////////////////////////////////////////////
	// Construction/Destruction
	//////////////////////////////////////////////////////////////////////

	#include <Mmreg.h>
	#if defined _WIN32 && _MSC_VER >= 1300 // disable nameless struct/union
	#pragma warning ( push )
	#pragma warning ( disable : 4201 )
	#endif
	#include <Mmsystem.h>
	#if defined _WIN32 && _MSC_VER >= 1300
	#pragma warning ( pop )
	#endif
	#include <stdio.h>

	class CWaveFile {
	public:
	BOOL Open(const char path[]);
	void Close();

	long Read(char* pData, long nLength);

	long GetLength() const {return m_nLength;}
	WAVEFORMATEX* GetWaveFormat() {return (&m_Format);}

	protected:
	FILE* m_pFile;
	long m_nLength;
	WAVEFORMATEX m_Format;

	private:
	enum {
	WF_OFFSET_FORMATTAG = 20,
	WF_OFFSET_CHANNELS = 22,
	WF_OFFSET_SAMPLESPERSEC = 24,
	WF_OFFSET_AVGBYTESPERSEC = 28,
	WF_OFFSET_BLOCKALIGN = 32,
	WF_OFFSET_BITSPERSAMPLE = 34,
	WF_OFFSET_DATASIZE = 40,
	WF_OFFSET_DATA = 44,
	WF_HEADER_SIZE = WF_OFFSET_DATA
	};
	};

	BOOL CWaveFile::Open(const char path[])
	{
	BYTE aHeader[WF_HEADER_SIZE];

	/* hResInfo = FindResource (hInst, lpName, "WAVE");

	if (hResInfo == NULL)
	return FALSE;

	// Load the wave resource.
	hRes = LoadResource (hInst, hResInfo);

	if (hRes == NULL)
	return FALSE;

	// Lock the wave resource and play it.
	lpRes = LockResource (0);
	*/


	// open file
	// m_pFile = _tfopen(szFileName, TEXT("rb"));
	m_pFile = fopen(path, "rb");
	if (!m_pFile) {
	return FALSE;
	}

	// set file length
	fseek(m_pFile, 0, SEEK_END);
	m_nLength = ftell(m_pFile) - WF_HEADER_SIZE;

	// set the format attribute members
	fseek(m_pFile, 0, SEEK_SET);
	fread(aHeader, 1, WF_HEADER_SIZE, m_pFile);
	m_Format.wFormatTag = ((WORD) (aHeader + WF_OFFSET_FORMATTAG));
	m_Format.nChannels = ((WORD) (aHeader + WF_OFFSET_CHANNELS));
	m_Format.nSamplesPerSec = ((DWORD) (aHeader + WF_OFFSET_SAMPLESPERSEC));
	m_Format.nAvgBytesPerSec = ((DWORD) (aHeader + WF_OFFSET_AVGBYTESPERSEC));
	m_Format.nBlockAlign = ((WORD) (aHeader + WF_OFFSET_BLOCKALIGN));
	m_Format.wBitsPerSample = ((WORD) (aHeader + WF_OFFSET_BITSPERSAMPLE));

	return TRUE;
	}

	void CWaveFile::Close()
	{
	fclose(m_pFile);
	}

	long CWaveFile::Read(char* pData, long nLength)
	{
	return fread(pData, 1, nLength, m_pFile);
	}

	////////////////////////////////////////////////////////////////////////////////////////

	struct SkOSSoundWave {
	HWAVEOUT hwo;
	WAVEHDR whdr;
	DWORD dwOldVolume;
	CWaveFile waveFile;
	HANDLE hDoneEvent;
	};

	static SkOSSoundWave gWave;
	static bool gWavePaused;
	static U8 gVolume;
	static bool gInited = false;

	static void init_wave()
	{
	if (gInited == false)
	{
	gWave.hwo = NULL;
	gWavePaused = false;
	gVolume = 0x80;
	gInited = true;
	}
	}

	MMRESULT StartWave(const char path[], SkOSSoundWave* wave, U32 vol);
	MMRESULT EndWave(SkOSSoundWave* wave);

	#define MAX_ERRMSG 256

	//#include "SkOSFile.h" // for utf16

	void SkOSSound::Play(const char path[])
	{
	init_wave();

	if (gWave.hwo != NULL)
	SkOSSound::Stop();

	U32 v32 = (gVolume << 8) \| gVolume; // fill it out to 16bits
	v32 \|= v32 << 16; // set the left and right channels

	StartWave(path, &gWave, v32);
	gWavePaused = false;
	}

	bool SkOSSound::TogglePause()
	{
	init_wave();

	if (gWavePaused)
	SkOSSound::Resume();
	else
	SkOSSound::Pause();
	return !gWavePaused;
	}


	void SkOSSound::Pause()
	{
	init_wave();

	if (gWave.hwo == NULL \|\| (gWave.whdr.dwFlags & WHDR_DONE))
	return;
	waveOutPause(gWave.hwo);
	gWavePaused = true;
	}

	void SkOSSound::Resume()
	{
	init_wave();

	if (gWave.hwo == NULL \|\| (gWave.whdr.dwFlags & WHDR_DONE))
	return;
	waveOutRestart(gWave.hwo);
	gWavePaused = false;
	}

	void SkOSSound::Stop()
	{
	init_wave();

	// if (gWave.hwo == NULL \|\| (gWave.whdr.dwFlags & WHDR_DONE))
	if (gWave.hwo == NULL)
	return;
	waveOutReset(gWave.hwo);
	EndWave(&gWave);
	gWavePaused = false;
	gWave.hwo = NULL;
	}

	U8 SkOSSound::GetVolume()
	{
	init_wave();
	return gVolume;
	}

	void SkOSSound::SetVolume(U8CPU vol)
	{
	if ((int)vol < 0)
	vol = 0;
	else if (vol > 255)
	vol = 255;

	init_wave();
	gVolume = SkToU8(vol);

	if (gWave.hwo)
	{
	unsigned long v32 = (vol << 8) \| vol; // fill it out to 16bits
	v32 \|= v32 << 16; // set the left and right channels
	waveOutSetVolume(gWave.hwo, v32);
	}
	}

	#if 0
	unsigned long SoundManager::GetPosition()
	{
	if (fWave.hwo == NULL)
	return 0;
	MMTIME time;
	time.wType = TIME_MS;
	if (waveOutGetPosition(fWave.hwo, &time, sizeof(time)) == MMSYSERR_NOERROR &&
	time.wType == TIME_MS)
	{
	return time.u.ms;
	}
	return 0;
	}
	#endif

	MMRESULT StartWave(const char path[], SkOSSoundWave* wave, U32 vol)
	{
	HWAVEOUT hwo = NULL;
	// WAVEHDR whdr;
	MMRESULT mmres = 0;
	// CWaveFile waveFile;
	// HANDLE hDoneEvent = wave.hDoneEvent =
	// CreateEvent(NULL, FALSE, FALSE, TEXT("DONE_EVENT"));
	UINT devId;
	// DWORD dwOldVolume;

	// Open wave file
	if (!wave->waveFile.Open(path)) {
	// TCHAR szErrMsg[MAX_ERRMSG];
	// _stprintf(szErrMsg, TEXT("Unable to open file: %s\n"), szWavFile);
	// MessageBox(NULL, szErrMsg, TEXT("File I/O Error"), MB_OK);
	return MMSYSERR_NOERROR;
	}

	// Open audio device
	for (devId = 0; devId < waveOutGetNumDevs(); devId++)
	{
	mmres = waveOutOpen(&hwo, devId, wave->waveFile.GetWaveFormat(), 0, 0, CALLBACK_NULL);
	if (mmres == MMSYSERR_NOERROR)
	{
	wave->hwo = hwo;
	break;
	}
	}
	if (mmres != MMSYSERR_NOERROR)
	{
	SkDEBUGCODE(SkDebugf("waveOutOpen(%s) -> %d\n", path, mmres);)
	return mmres;
	}

	// Set volume
	mmres = waveOutGetVolume(hwo, &wave->dwOldVolume);
	if (mmres != MMSYSERR_NOERROR) {
	return mmres;
	}

	waveOutSetVolume(hwo, vol);
	if (mmres != MMSYSERR_NOERROR) {
	return mmres;
	}

	// Initialize wave header
	ZeroMemory(&wave->whdr, sizeof(WAVEHDR));
	wave->whdr.lpData = new char[wave->waveFile.GetLength()];
	wave->whdr.dwBufferLength = wave->waveFile.GetLength();
	wave->whdr.dwUser = 0;
	wave->whdr.dwFlags = 0;
	wave->whdr.dwLoops = 0;
	wave->whdr.dwBytesRecorded = 0;
	wave->whdr.lpNext = 0;
	wave->whdr.reserved = 0;

	// Play buffer
	wave->waveFile.Read(wave->whdr.lpData, wave->whdr.dwBufferLength);

	mmres = waveOutPrepareHeader(hwo, &wave->whdr, sizeof(WAVEHDR));
	if (mmres != MMSYSERR_NOERROR) {
	return mmres;
	}

	mmres = waveOutWrite(hwo, &wave->whdr, sizeof(WAVEHDR));
	// if (mmres != MMSYSERR_NOERROR) {
	return mmres;
	// }
	}

	#if 0
	void IdleWave(Wave& wave)
	{
	// Wait for audio to finish playing
	while (!(wave.whdr.dwFlags & WHDR_DONE)) {
	WaitForSingleObject(wave.hDoneEvent, INFINITE);
	}
	}
	#endif

	MMRESULT EndWave(SkOSSoundWave* wave)
	{
	HWAVEOUT hwo = wave->hwo;
	MMRESULT mmres;
	// Clean up
	mmres = waveOutUnprepareHeader(hwo, &wave->whdr, sizeof(WAVEHDR));
	if (mmres != MMSYSERR_NOERROR) {
	return mmres;
	}

	waveOutSetVolume(hwo, wave->dwOldVolume);
	if (mmres != MMSYSERR_NOERROR) {
	return mmres;
	}

	mmres = waveOutClose(hwo);
	if (mmres != MMSYSERR_NOERROR) {
	return mmres;
	}

	delete [] wave->whdr.lpData;
	wave->waveFile.Close();

	return MMSYSERR_NOERROR;
	}

	#endif /* SK_BUILD_FOR_WIN */