tahoma2d/toonz/sources/common/tsound/tsound_x.cpp

#include "tsound_t.h"
#include "texception.h"
#include "tthread.h"

#include <errno.h>
#include <audio.h>
#include <unistd.h>
#include <queue>
#include <set>

//forward declaration
namespace
{
bool isInterfaceSupported(int deviceType, int interfaceType);
bool setDefaultInput(TSoundInputDevice::Source type);
bool setDefaultOutput();
bool isChangeOutput(ULONG sampleRate);
}
//==============================================================================

class TSoundOutputDeviceImp
{
public:
	ALport m_port;
	bool m_stopped;
	bool m_isPlaying;
	bool m_looped;
	TSoundTrackFormat m_currentFormat;
	std::queue<TSoundTrackP> m_queuedSoundTracks;
	std::set<int> m_supportedRate;

	TThread::Executor m_executor;
	TThread::Mutex m_mutex;

	TSoundOutputDeviceImp()
		: m_stopped(false), m_isPlaying(false), m_looped(false), m_port(NULL), m_queuedSoundTracks(), m_supportedRate(){};

	~TSoundOutputDeviceImp(){};

	bool doOpenDevice(const TSoundTrackFormat &format);
	void insertAllRate();
	bool verifyRate();
};

//-----------------------------------------------------------------------------

bool TSoundOutputDeviceImp::doOpenDevice(const TSoundTrackFormat &format)
{
	ALconfig config;
	ALpv pvbuf[3];

	m_currentFormat = format;

	// AL_MONITOR_CTL fa parte dei vecchi andrebbero trovati quelli nuovi
	pvbuf[0].param = AL_PORT_COUNT;
	pvbuf[1].param = AL_MONITOR_CTL;
	if (alGetParams(AL_DEFAULT_OUTPUT, pvbuf, 2) < 0)
		if (oserror() == AL_BAD_DEVICE_ACCESS)
			return false; //throw TException("Could not access audio hardware.");

	if (!isInterfaceSupported(AL_DEFAULT_OUTPUT, AL_SPEAKER_IF_TYPE))
		return false; //throw TException("Speakers are not supported");

	int dev = alGetResourceByName(AL_SYSTEM, (char *)"Headphone/Speaker", AL_DEVICE_TYPE);
	if (!dev)
		return false; //throw TException("invalid device speakers");

	pvbuf[0].param = AL_DEFAULT_OUTPUT;
	pvbuf[0].value.i = dev;
	alSetParams(AL_SYSTEM, pvbuf, 1);

	ALfixed buf[2] = {alDoubleToFixed(0), alDoubleToFixed(0)};

	config = alNewConfig();
	// qui devo metterci gli altoparlanti e poi setto i valori per il default output
	pvbuf[0].param = AL_RATE;
	pvbuf[0].value.ll = alDoubleToFixed((double)format.m_sampleRate);
	pvbuf[1].param = AL_GAIN;
	pvbuf[1].value.ptr = buf;
	pvbuf[1].sizeIn = 8;
	pvbuf[2].param = AL_INTERFACE;
	pvbuf[2].value.i = AL_SPEAKER_IF_TYPE;

	if (alSetParams(AL_DEFAULT_OUTPUT, pvbuf, 3) < 0)
		return false;
	//throw TException("Unable to set params for output device");

	if (alSetChannels(config, format.m_channelCount) == -1)
		return false; //throw TException("Error to setting audio hardware.");

	int bytePerSample = format.m_bitPerSample >> 3;
	switch (bytePerSample) {
	case 3:
		bytePerSample++;
		break;
	default:
		break;
	}

	if (alSetWidth(config, bytePerSample) == -1)
		return false; //throw TException("Error to setting audio hardware.");

	if (alSetSampFmt(config, AL_SAMPFMT_TWOSCOMP) == -1)
		return false; //throw TException("Error to setting audio hardware.");

	if (alSetQueueSize(config, (TINT32)format.m_sampleRate) == -1)
		return false; //throw TException("Error to setting audio hardware.");

	m_port = alOpenPort("AudioOutput", "w", config);
	if (!m_port)
		return false; //throw TException("Could not open audio port.");

	alFreeConfig(config);
	return true;
}

//-----------------------------------------------------------------------------

void TSoundOutputDeviceImp::insertAllRate()
{
	m_supportedRate.insert(8000);
	m_supportedRate.insert(11025);
	m_supportedRate.insert(16000);
	m_supportedRate.insert(22050);
	m_supportedRate.insert(32000);
	m_supportedRate.insert(44100);
	m_supportedRate.insert(48000);
}

//-----------------------------------------------------------------------------

bool TSoundOutputDeviceImp::verifyRate()
{
	//Sample Rate
	ALparamInfo pinfo;
	int ret = alGetParamInfo(AL_DEFAULT_OUTPUT, AL_RATE, &pinfo);
	if (ret != -1 && pinfo.elementType == AL_FIXED_ELEM) {
		int min = (int)alFixedToDouble(pinfo.min.ll);
		int max = (int)alFixedToDouble(pinfo.max.ll);

		std::set<int>::iterator it;
		for (it = m_supportedRate.begin(); it != m_supportedRate.end(); ++it)
			if (*it < min || *it > max)
				m_supportedRate.erase(*it);
		if (m_supportedRate.end() == m_supportedRate.begin())
			return false;
	} else if (ret == AL_BAD_PARAM)
		return false;
	else
		return false;
	return true;
}

//==============================================================================

class PlayTask : public TThread::Runnable
{
public:
	TSoundOutputDeviceImp *m_devImp;
	TSoundTrackP m_sndtrack;

	PlayTask(TSoundOutputDeviceImp *devImp, const TSoundTrackP &st)
		: TThread::Runnable(), m_devImp(devImp), m_sndtrack(st){};

	~PlayTask(){};

	void run();
};

void PlayTask::run()
{
	int leftToPlay = m_sndtrack->getSampleCount();
	int i = 0;

	if (!m_devImp->m_port ||
		(m_devImp->m_currentFormat != m_sndtrack->getFormat()) ||
		isChangeOutput(m_sndtrack->getSampleRate()))
		if (!m_devImp->doOpenDevice(m_sndtrack->getFormat()))
			return;

	while ((leftToPlay > 0) && m_devImp->m_isPlaying) {
		int fillable = alGetFillable(m_devImp->m_port);
		if (!fillable)
			continue;

		if (fillable < leftToPlay) {
			alWriteFrames(m_devImp->m_port, (void *)(m_sndtrack->getRawData() + i), fillable);
			// ricorda getSampleSize restituisce m_sampleSize che comprende gia'
			// la moltiplicazione per il numero dei canali
			i += fillable * m_sndtrack->getSampleSize();
			leftToPlay -= fillable;
		} else {
			alWriteFrames(m_devImp->m_port, (void *)(m_sndtrack->getRawData() + i), leftToPlay);
			leftToPlay = 0;
		}
	}

	if (!m_devImp->m_stopped) {
		while (ALgetfilled(m_devImp->m_port) > 0)
			sginap(1);
		{
			TThread::ScopedLock sl(m_devImp->m_mutex);
			if (!m_devImp->m_looped)
				m_devImp->m_queuedSoundTracks.pop();
			if (m_devImp->m_queuedSoundTracks.empty()) {
				m_devImp->m_isPlaying = false;
				m_devImp->m_stopped = true;
				m_devImp->m_looped = false;
			} else {
				m_devImp->m_executor.addTask(
					new PlayTask(m_devImp, m_devImp->m_queuedSoundTracks.front()));
			}
		}
	} else {
		alDiscardFrames(m_devImp->m_port, alGetFilled(m_devImp->m_port));
		while (!m_devImp->m_queuedSoundTracks.empty())
			m_devImp->m_queuedSoundTracks.pop();
	}
}

//==============================================================================

TSoundOutputDevice::TSoundOutputDevice() : m_imp(new TSoundOutputDeviceImp)
{
	if (!setDefaultOutput())
		throw TSoundDeviceException(
			TSoundDeviceException::UnableSetDevice, "Speaker not supported");
	try {
		supportsVolume();
	} catch (TSoundDeviceException &e) {
		throw TSoundDeviceException(e.getType(), e.getMessage());
	}
	m_imp->insertAllRate();
}

//------------------------------------------------------------------------------

TSoundOutputDevice::~TSoundOutputDevice()
{
	close();
	delete m_imp;
}

//------------------------------------------------------------------------------

bool TSoundOutputDevice::installed()
{
	if (alQueryValues(AL_SYSTEM, AL_DEFAULT_OUTPUT, 0, 0, 0, 0) <= 0)
		return false;
	return true;
}

//------------------------------------------------------------------------------

bool TSoundOutputDevice::open(const TSoundTrackP &st)
{
	if (!m_imp->doOpenDevice(st->getFormat()))
		throw TSoundDeviceException(
			TSoundDeviceException::UnableOpenDevice,
			"Problem to open the output device or set some params");
	return true;
}

//------------------------------------------------------------------------------

bool TSoundOutputDevice::close()
{
	stop();
	if (m_imp->m_port)
		alClosePort(m_imp->m_port);
	m_imp->m_port = NULL;

	return true;
}

//------------------------------------------------------------------------------

void TSoundOutputDevice::play(const TSoundTrackP &st, TINT32 s0, TINT32 s1, bool loop, bool scrubbing)
{
	if (!st->getSampleCount())
		return;

	{
		TThread::ScopedLock sl(m_imp->m_mutex);
		if (m_imp->m_looped)
			throw TSoundDeviceException(
				TSoundDeviceException::Busy,
				"Unable to queue another playback when the sound player is looping");

		m_imp->m_isPlaying = true;
		m_imp->m_stopped = false;
		m_imp->m_looped = loop;
	}

	TSoundTrackFormat fmt;
	try {
		fmt = getPreferredFormat(st->getFormat());
		if (fmt != st->getFormat()) {
			throw TSoundDeviceException(
				TSoundDeviceException::UnsupportedFormat,
				"Unsupported Format");
		}
	} catch (TSoundDeviceException &e) {
		throw TSoundDeviceException(
			TSoundDeviceException::UnsupportedFormat,
			e.getMessage());
	}

	assert(s1 >= s0);
	TSoundTrackP subTrack = st->extract(s0, s1);

	//far partire il thread
	if (m_imp->m_queuedSoundTracks.empty()) {
		m_imp->m_queuedSoundTracks.push(subTrack);

		m_imp->m_executor.addTask(new PlayTask(m_imp, subTrack));
	} else
		m_imp->m_queuedSoundTracks.push(subTrack);
}

//------------------------------------------------------------------------------

void TSoundOutputDevice::stop()
{
	if (!m_imp->m_isPlaying)
		return;

	TThread::ScopedLock sl(m_imp->m_mutex);
	m_imp->m_isPlaying = false;
	m_imp->m_stopped = true;
	m_imp->m_looped = false;
}

//------------------------------------------------------------------------------

double TSoundOutputDevice::getVolume()
{
	ALpv pv[1];
	ALfixed value[2];

	try {
		supportsVolume();
	} catch (TSoundDeviceException &e) {
		throw TSoundDeviceException(e.getType(), e.getMessage());
	}

	pv[0].param = AL_GAIN;
	pv[0].value.ptr = value;
	pv[0].sizeIn = 8;
	alGetParams(AL_DEFAULT_OUTPUT, pv, 1);

	double val = (((alFixedToDouble(value[0]) + alFixedToDouble(value[1])) / 2.) + 60.) / 8.05;
	return val;
}

//------------------------------------------------------------------------------

bool TSoundOutputDevice::setVolume(double volume)
{
	ALpv pv[1];
	ALfixed value[2];

	try {
		supportsVolume();
	} catch (TSoundDeviceException &e) {
		throw TSoundDeviceException(e.getType(), e.getMessage());
	}

	double val = -60. + 8.05 * volume;
	value[0] = alDoubleToFixed(val);
	value[1] = alDoubleToFixed(val);

	pv[0].param = AL_GAIN;
	pv[0].value.ptr = value;
	pv[0].sizeIn = 8;
	if (alSetParams(AL_DEFAULT_OUTPUT, pv, 1) < 0)
		return false;
	return true;
}

//------------------------------------------------------------------------------

bool TSoundOutputDevice::supportsVolume()
{
	ALparamInfo pinfo;
	int ret;
	ret = alGetParamInfo(AL_DEFAULT_OUTPUT, AL_GAIN, &pinfo);
	double min = alFixedToDouble(pinfo.min.ll);
	double max = alFixedToDouble(pinfo.max.ll);
	if ((ret != -1) && (min != max) && (max != 0.0))
		return true;
	else if ((ret == AL_BAD_PARAM) || ((min == max) && (max == 0.0)))
		throw TSoundDeviceException(
			TSoundDeviceException::UnableVolume,
			"It is impossible to chamge setting of volume");
	else
		throw TSoundDeviceException(
			TSoundDeviceException::NoMixer, "Output device is not accessible");
}

//------------------------------------------------------------------------------

bool TSoundOutputDevice::isPlaying() const
{
	return m_imp->m_isPlaying;
}

//------------------------------------------------------------------------------

bool TSoundOutputDevice::isLooping()
{
	TThread::ScopedLock sl(m_imp->m_mutex);
	return m_imp->m_looped;
}

//------------------------------------------------------------------------------

void TSoundOutputDevice::setLooping(bool loop)
{
	TThread::ScopedLock sl(m_imp->m_mutex);
	m_imp->m_looped = loop;
}

//------------------------------------------------------------------------------

TSoundTrackFormat TSoundOutputDevice::getPreferredFormat(
	ULONG sampleRate, int channelCount, int bitPerSample)
{
	TSoundTrackFormat fmt;
	int ret;

	if (!m_imp->verifyRate())
		throw TSoundDeviceException(
			TSoundDeviceException::UnsupportedFormat,
			"There isn't any support rate");

	if (m_imp->m_supportedRate.find((int)sampleRate) ==
		m_imp->m_supportedRate.end()) {
		std::set<int>::iterator it =
			m_imp->m_supportedRate.lower_bound((int)sampleRate);
		if (it == m_imp->m_supportedRate.end()) {
			it = std::max_element(m_imp->m_supportedRate.begin(),
								  m_imp->m_supportedRate.end());
			if (it != m_imp->m_supportedRate.end())
				sampleRate = *(m_imp->m_supportedRate.rbegin());
			else
				throw TSoundDeviceException(
					TSoundDeviceException::UnsupportedFormat,
					"There isn't a supported rate");
		} else
			sampleRate = *it;
	}

	int value;
	ALvalue vals[32];
	if ((ret = alQueryValues(AL_DEFAULT_OUTPUT, AL_CHANNELS, vals, 32, 0, 0)) > 0)
		for (int i = 0; i < ret; ++i)
			value = vals[i].i;
	else if (oserror() == AL_BAD_PARAM)
		throw TSoundDeviceException(
			TSoundDeviceException::NoMixer,
			"It is impossible ask for the max numbers of channels supported");
	else
		throw TSoundDeviceException(
			TSoundDeviceException::NoMixer,
			"It is impossibile information about ouput device");

	if (value > 2)
		value = 2;
	if (channelCount > value)
		channelCount = value;
	else if (channelCount <= 0)
		channelCount = 1;

	if (bitPerSample <= 8)
		bitPerSample = 8;
	else if (bitPerSample <= 16)
		bitPerSample = 16;
	else
		bitPerSample = 24;

	fmt.m_bitPerSample = bitPerSample;
	fmt.m_channelCount = channelCount;
	fmt.m_sampleRate = sampleRate;
	fmt.m_signedSample = true;

	return fmt;
}

//------------------------------------------------------------------------------

TSoundTrackFormat TSoundOutputDevice::getPreferredFormat(const TSoundTrackFormat &format)
{
	try {
		return getPreferredFormat(
			format.m_sampleRate, format.m_channelCount, format.m_bitPerSample);
	} catch (TSoundDeviceException &e) {
		throw TSoundDeviceException(e.getType(), e.getMessage());
	}
}

//==============================================================================
//==============================================================================
//                REGISTRAZIONE
//==============================================================================
//==============================================================================

class TSoundInputDeviceImp
{
public:
	ALport m_port;
	bool m_stopped;
	bool m_isRecording;
	bool m_oneShotRecording;

	TINT32 m_recordedSampleCount;

	vector<char *> m_recordedBlocks;
	vector<int> m_samplePerBlocks;
	TSoundTrackFormat m_currentFormat;
	TSoundTrackP m_st;
	std::set<int> m_supportedRate;

	TThread::Executor m_executor;

	TSoundInputDeviceImp()
		: m_stopped(false), m_isRecording(false), m_port(NULL), m_recordedBlocks(), m_samplePerBlocks(), m_recordedSampleCount(0), m_oneShotRecording(false), m_st(0), m_supportedRate(){};

	~TSoundInputDeviceImp(){};

	bool doOpenDevice(const TSoundTrackFormat &format,
					  TSoundInputDevice::Source devType);
	void insertAllRate();
	bool verifyRate();
};

bool TSoundInputDeviceImp::doOpenDevice(const TSoundTrackFormat &format,
										TSoundInputDevice::Source devType)
{
	ALconfig config;
	ALpv pvbuf[2];

	m_currentFormat = format;

	// AL_MONITOR_CTL fa parte dei vecchi andrebbero trovati quelli nuovi
	pvbuf[0].param = AL_PORT_COUNT;
	pvbuf[1].param = AL_MONITOR_CTL;
	if (alGetParams(AL_DEFAULT_INPUT, pvbuf, 2) < 0)
		if (oserror() == AL_BAD_DEVICE_ACCESS)
			return false; //throw TException("Could not access audio hardware.");

	config = alNewConfig();

	if (!setDefaultInput(devType))
		return false; //throw TException("Could not set the input device specified");

	pvbuf[0].param = AL_RATE;
	pvbuf[0].value.ll = alDoubleToFixed(format.m_sampleRate);

	ALfixed buf[2] = {alDoubleToFixed(0), alDoubleToFixed(0)};
	pvbuf[1].param = AL_GAIN;
	pvbuf[1].value.ptr = buf;
	pvbuf[1].sizeIn = 8;

	if (alSetParams(AL_DEFAULT_INPUT, pvbuf, 2) < 0)
		return false; //throw TException("Problem to set params ");

	if (alSetChannels(config, format.m_channelCount) == -1)
		return false; //throw TException("Error to setting audio hardware.");

	int bytePerSample = format.m_bitPerSample >> 3;
	switch (bytePerSample) {
	case 3:
		bytePerSample++;
		break;
	default:
		break;
	}
	if (alSetWidth(config, bytePerSample) == -1)
		return false; //throw TException("Error to setting audio hardware.");

	if (alSetSampFmt(config, AL_SAMPFMT_TWOSCOMP) == -1)
		return false; //throw TException("Error to setting audio hardware.");

	if (alSetQueueSize(config, (TINT32)format.m_sampleRate) == -1)
		return false; //throw TException("Error to setting audio hardware.");

	alSetDevice(config, AL_DEFAULT_INPUT);

	m_port = alOpenPort("AudioInput", "r", config);
	if (!m_port)
		return false; //throw TException("Could not open audio port.");

	alFreeConfig(config);
	return true;
}

//-----------------------------------------------------------------------------

void TSoundInputDeviceImp::insertAllRate()
{
	m_supportedRate.insert(8000);
	m_supportedRate.insert(11025);
	m_supportedRate.insert(16000);
	m_supportedRate.insert(22050);
	m_supportedRate.insert(32000);
	m_supportedRate.insert(44100);
	m_supportedRate.insert(48000);
}

//-----------------------------------------------------------------------------

bool TSoundInputDeviceImp::verifyRate()
{
	//Sample Rate
	ALparamInfo pinfo;
	int ret = alGetParamInfo(AL_DEFAULT_INPUT, AL_RATE, &pinfo);
	if (ret != -1 && pinfo.elementType == AL_FIXED_ELEM) {
		int min = (int)alFixedToDouble(pinfo.min.ll);
		int max = (int)alFixedToDouble(pinfo.max.ll);

		std::set<int>::iterator it;
		for (it = m_supportedRate.begin(); it != m_supportedRate.end(); ++it)
			if (*it < min || *it > max)
				m_supportedRate.erase(*it);
		if (m_supportedRate.end() == m_supportedRate.begin())
			return false;
	} else if (ret == AL_BAD_PARAM)
		return false;
	else
		return false;
	return true;
}

//==============================================================================

class RecordTask : public TThread::Runnable
{
public:
	TSoundInputDeviceImp *m_devImp;
	int m_ByteToSample;

	RecordTask(TSoundInputDeviceImp *devImp, int numByte)
		: TThread::Runnable(), m_devImp(devImp), m_ByteToSample(numByte){};

	~RecordTask(){};

	void run();
};

void RecordTask::run()
{
	TINT32 byteRecordedSample = 0;
	int filled = alGetFilled(m_devImp->m_port);

	if (m_devImp->m_oneShotRecording) {
		char *rawData = m_devImp->m_recordedBlocks.front();
		int sampleSize;

		if ((m_devImp->m_currentFormat.m_bitPerSample >> 3) == 3)
			sampleSize = 4;
		else
			sampleSize = (m_devImp->m_currentFormat.m_bitPerSample >> 3);

		sampleSize *= m_devImp->m_currentFormat.m_channelCount;
		while ((byteRecordedSample <= (m_ByteToSample - filled * sampleSize)) && m_devImp->m_isRecording) {
			alReadFrames(m_devImp->m_port, (void *)(rawData + byteRecordedSample), filled);
			byteRecordedSample += filled * sampleSize;
			filled = alGetFilled(m_devImp->m_port);
		}

		if (m_devImp->m_isRecording) {
			alReadFrames(m_devImp->m_port, (void *)(rawData + byteRecordedSample),
						 (m_ByteToSample - byteRecordedSample) / sampleSize);
			while (alGetFillable(m_devImp->m_port) > 0)
				sginap(1);
		}
	} else {
		while (m_devImp->m_isRecording) {
			filled = alGetFilled(m_devImp->m_port);
			if (filled > 0) {
				char *dataBuffer = new char[filled * m_ByteToSample];
				m_devImp->m_recordedBlocks.push_back(dataBuffer);
				m_devImp->m_samplePerBlocks.push_back(filled * m_ByteToSample);

				alReadFrames(m_devImp->m_port, (void *)dataBuffer, filled);
				m_devImp->m_recordedSampleCount += filled;
			}
		}
		while (alGetFillable(m_devImp->m_port) > 0)
			sginap(1);
	}
	alClosePort(m_devImp->m_port);
	m_devImp->m_port = 0;
	m_devImp->m_stopped = true;
}

//==============================================================================

TSoundInputDevice::TSoundInputDevice() : m_imp(new TSoundInputDeviceImp)
{
}

//------------------------------------------------------------------------------

TSoundInputDevice::~TSoundInputDevice()
{
	if (m_imp->m_port)
		alClosePort(m_imp->m_port);
	delete m_imp;
}

//------------------------------------------------------------------------------

bool TSoundInputDevice::installed()
{
	if (alQueryValues(AL_SYSTEM, AL_DEFAULT_INPUT, 0, 0, 0, 0) <= 0)
		return false;
	return true;
}

//------------------------------------------------------------------------------

void TSoundInputDevice::record(const TSoundTrackFormat &format, TSoundInputDevice::Source type)
{
	if (m_imp->m_isRecording == true)
		throw TSoundDeviceException(
			TSoundDeviceException::Busy,
			"Just another recoding is in progress");

	m_imp->m_recordedBlocks.clear();
	m_imp->m_samplePerBlocks.clear();

	//registra creando una nuova traccia
	m_imp->m_oneShotRecording = false;

	if (!setDefaultInput(type))
		throw TSoundDeviceException(
			TSoundDeviceException::UnableSetDevice,
			"Error to set the input device");

	m_imp->insertAllRate();
	TSoundTrackFormat fmt;

	try {
		fmt = getPreferredFormat(format);
		if (fmt != format) {
			throw TSoundDeviceException(
				TSoundDeviceException::UnsupportedFormat,
				"Unsupported Format");
		}
	} catch (TSoundDeviceException &e) {
		throw TSoundDeviceException(
			TSoundDeviceException::UnsupportedFormat,
			e.getMessage());
	}

	if (!m_imp->m_port)
		m_imp->doOpenDevice(format, type);

	m_imp->m_currentFormat = format;
	m_imp->m_isRecording = true;
	m_imp->m_stopped = false;
	m_imp->m_recordedSampleCount = 0;

	int bytePerSample = format.m_bitPerSample >> 3;
	switch (bytePerSample) {
	case 3:
		bytePerSample++;
		break;
	default:
		break;
	}
	bytePerSample *= format.m_channelCount;

	//far partire il thread
	/*TRecordThread *recordThread = new TRecordThread(m_imp, bytePerSample);
	if (!recordThread)
	{
  	m_imp->m_isRecording = false;
  	m_imp->m_stopped = true;
    throw TSoundDeviceException(
      TSoundDeviceException::UnablePrepare,
      "Unable to create the recording thread");	
	}
  recordThread->start();*/
	m_imp->m_executor.addTask(new RecordTask(m_imp, bytePerSample));
}

//------------------------------------------------------------------------------

void TSoundInputDevice::record(const TSoundTrackP &st, TSoundInputDevice::Source type)
{
	if (m_imp->m_isRecording == true)
		throw TSoundDeviceException(
			TSoundDeviceException::Busy,
			"Just another recoding is in progress");

	m_imp->m_recordedBlocks.clear();
	m_imp->m_samplePerBlocks.clear();

	if (!setDefaultInput(type))
		throw TSoundDeviceException(
			TSoundDeviceException::UnableSetDevice,
			"Error to set the input device");

	m_imp->insertAllRate();
	TSoundTrackFormat fmt;

	try {
		fmt = getPreferredFormat(st->getFormat());
		if (fmt != st->getFormat()) {
			throw TSoundDeviceException(
				TSoundDeviceException::UnsupportedFormat,
				"Unsupported Format");
		}
	} catch (TSoundDeviceException &e) {
		throw TSoundDeviceException(
			TSoundDeviceException::UnsupportedFormat,
			e.getMessage());
	}

	if (!m_imp->m_port)
		if (!m_imp->doOpenDevice(st->getFormat(), type))
			throw TSoundDeviceException(
				TSoundDeviceException::UnableOpenDevice,
				"Unable to open input device");

	//Sovrascive un'intera o parte di traccia gia' esistente
	m_imp->m_oneShotRecording = true;
	m_imp->m_currentFormat = st->getFormat();
	m_imp->m_isRecording = true;
	m_imp->m_stopped = false;
	m_imp->m_recordedSampleCount = 0;
	m_imp->m_st = st;

	m_imp->m_recordedBlocks.push_back((char *)st->getRawData());

	int totByteToSample = st->getSampleCount() * st->getSampleSize();

	//far partire il thread
	/*TRecordThread *recordThread = new TRecordThread(m_imp, totByteToSample);
	if (!recordThread)
	{
  	m_imp->m_isRecording = false;
  	m_imp->m_stopped = true;
    throw TSoundDeviceException(
      TSoundDeviceException::UnablePrepare,
      "Unable to create the recording thread");
	}
  recordThread->start();*/
	m_imp->m_executor.addTask(new RecordTask(m_imp, totByteToSample));
}

//------------------------------------------------------------------------------

TSoundTrackP TSoundInputDevice::stop()
{
	TSoundTrackP st;

	if (!m_imp->m_isRecording)
		throw TSoundDeviceException(
			TSoundDeviceException::UnablePrepare,
			"No recording process is in execution");

	m_imp->m_isRecording = false;

	alDiscardFrames(m_imp->m_port, alGetFilled(m_imp->m_port));

	while (!m_imp->m_stopped)
		sginap(1);

	if (m_imp->m_oneShotRecording)
		st = m_imp->m_st;
	else {
		st = TSoundTrack::create(m_imp->m_currentFormat, m_imp->m_recordedSampleCount);
		TINT32 bytesCopied = 0;

		for (int i = 0; i < (int)m_imp->m_recordedBlocks.size(); ++i) {
			memcpy(
				(void *)(st->getRawData() + bytesCopied),
				m_imp->m_recordedBlocks[i],
				m_imp->m_samplePerBlocks[i]);

			delete[] m_imp->m_recordedBlocks[i];

			bytesCopied += m_imp->m_samplePerBlocks[i];
		}
		m_imp->m_samplePerBlocks.clear();
	}
	return st;
}

//------------------------------------------------------------------------------

double TSoundInputDevice::getVolume()
{
	ALpv pv[1];
	ALfixed value[2];

	try {
		supportsVolume();
	} catch (TSoundDeviceException &e) {
		throw TSoundDeviceException(e.getType(), e.getMessage());
	}

	pv[0].param = AL_GAIN;
	pv[0].value.ptr = value;
	pv[0].sizeIn = 8;
	alGetParams(AL_DEFAULT_INPUT, pv, 1);

	double val = (((alFixedToDouble(value[0]) + alFixedToDouble(value[1])) / 2.) + 60.) / 8.05;
	return val;
}

//------------------------------------------------------------------------------

bool TSoundInputDevice::setVolume(double volume)
{
	ALpv pv[1];
	ALfixed value[2];

	try {
		supportsVolume();
	} catch (TSoundDeviceException &e) {
		throw TSoundDeviceException(e.getType(), e.getMessage());
	}

	double val = -60. + 8.05 * volume;
	value[0] = alDoubleToFixed(val);
	value[1] = alDoubleToFixed(val);

	pv[0].param = AL_GAIN;
	pv[0].value.ptr = value;
	pv[0].sizeIn = 8;
	alSetParams(AL_DEFAULT_INPUT, pv, 1);

	return true;
}

//------------------------------------------------------------------------------

bool TSoundInputDevice::supportsVolume()
{
	ALparamInfo pinfo;
	int ret;
	ret = alGetParamInfo(AL_DEFAULT_INPUT, AL_GAIN, &pinfo);
	double min = alFixedToDouble(pinfo.min.ll);
	double max = alFixedToDouble(pinfo.max.ll);
	if ((ret != -1) && (min != max) && (max != 0.0))
		return true;
	else if ((ret == AL_BAD_PARAM) || ((min == max) && (max == 0.0)))
		throw TSoundDeviceException(
			TSoundDeviceException::UnableVolume,
			"It is impossible to chamge setting of volume");
	else
		throw TSoundDeviceException(
			TSoundDeviceException::NoMixer, "Output device is not accessible");
}

//------------------------------------------------------------------------------

TSoundTrackFormat TSoundInputDevice::getPreferredFormat(
	ULONG sampleRate, int channelCount, int bitPerSample)
{
	TSoundTrackFormat fmt;
	int ret;

	if (!m_imp->verifyRate())
		throw TSoundDeviceException(
			TSoundDeviceException::UnsupportedFormat,
			"There isn't any support rate");

	if (m_imp->m_supportedRate.find((int)sampleRate) ==
		m_imp->m_supportedRate.end()) {
		std::set<int>::iterator it =
			m_imp->m_supportedRate.lower_bound((int)sampleRate);
		if (it == m_imp->m_supportedRate.end()) {
			it = std::max_element(m_imp->m_supportedRate.begin(),
								  m_imp->m_supportedRate.end());
			if (it != m_imp->m_supportedRate.end())
				sampleRate = *(m_imp->m_supportedRate.rbegin());
			else
				throw TSoundDeviceException(
					TSoundDeviceException::UnsupportedFormat,
					"There isn't a supported rate");
		} else
			sampleRate = *it;
	}

	int value;
	ALvalue vals[32];
	if ((ret = alQueryValues(AL_DEFAULT_INPUT, AL_CHANNELS, vals, 32, 0, 0)) > 0)
		for (int i = 0; i < ret; ++i)
			value = vals[i].i;
	else if (oserror() == AL_BAD_PARAM)
		throw TSoundDeviceException(
			TSoundDeviceException::NoMixer,
			"It is impossible ask for the max nembers of channels supported");
	else
		throw TSoundDeviceException(
			TSoundDeviceException::NoMixer,
			"It is impossibile information about ouput device");

	if (value > 2)
		value = 2;
	if (channelCount > value)
		channelCount = value;
	else if (channelCount <= 0)
		channelCount = 1;

	if (bitPerSample <= 8)
		bitPerSample = 8;
	else if (bitPerSample <= 16)
		bitPerSample = 16;
	else
		bitPerSample = 24;

	fmt.m_bitPerSample = bitPerSample;
	fmt.m_channelCount = channelCount;
	fmt.m_sampleRate = sampleRate;
	fmt.m_signedSample = true;

	return fmt;
}

//------------------------------------------------------------------------------

TSoundTrackFormat TSoundInputDevice::getPreferredFormat(const TSoundTrackFormat &format)
{
	try {
		return getPreferredFormat(
			format.m_sampleRate, format.m_channelCount, format.m_bitPerSample);
	} catch (TSoundDeviceException &e) {
		throw TSoundDeviceException(e.getType(), e.getMessage());
	}
}

//------------------------------------------------------------------------------

bool TSoundInputDevice::isRecording()
{
	return m_imp->m_isRecording;
}

//******************************************************************************
//******************************************************************************
//						funzioni per l'interazione con la libreria audio
//******************************************************************************
//******************************************************************************
namespace
{
bool isInterfaceSupported(int deviceType, int interfaceType)
{
	ALvalue vals[16];
	int devNum;

	if ((devNum = alQueryValues(AL_SYSTEM, deviceType, vals, 16, 0, 0)) > 0) {
		int i;
		for (i = 0; i < devNum; ++i) {
			ALpv quals[2];
			quals[0].param = AL_TYPE;
			quals[0].value.i = interfaceType;
			if (alQueryValues(vals[i].i, AL_INTERFACE, 0, 0, quals, 1) > 0)
				return true;
		}
	}
	return false;
}

//------------------------------------------------------------------------------

bool setDefaultInput(TSoundInputDevice::Source type)
{
	string label;

	switch (type) {
	case TSoundInputDevice::LineIn:
		label = "Line In";
		break;
	case TSoundInputDevice::DigitalIn:
		label = "AES Input";
		break;
	default:
		label = "Microphone";
	}

	int dev = alGetResourceByName(AL_SYSTEM, (char *)label.c_str(), AL_DEVICE_TYPE);
	if (!dev)
		return false; //throw TException("Error to set input device");
	int itf;
	if (itf = alGetResourceByName(AL_SYSTEM, (char *)label.c_str(), AL_INTERFACE_TYPE)) {
		ALpv p;

		p.param = AL_INTERFACE;
		p.value.i = itf;
		if (alSetParams(dev, &p, 1) < 0 || p.sizeOut < 0)
			return false; //throw TException("Error to set input device");
	}

	ALpv param;

	param.param = AL_DEFAULT_INPUT;
	param.value.i = dev;
	if (alSetParams(AL_SYSTEM, &param, 1) < 0)
		return false; //throw TException("Error to set input device");

	return true;
}

//------------------------------------------------------------------------------

bool setDefaultOutput()
{
	ALpv pvbuf[1];

	if (!isInterfaceSupported(AL_DEFAULT_OUTPUT, AL_SPEAKER_IF_TYPE))
		return false; //throw TException("Speakers are not supported");

	int dev = alGetResourceByName(AL_SYSTEM, (char *)"Headphone/Speaker", AL_DEVICE_TYPE);
	if (!dev)
		return false; //throw TException("invalid device speakers");

	pvbuf[0].param = AL_DEFAULT_OUTPUT;
	pvbuf[0].value.i = dev;
	alSetParams(AL_SYSTEM, pvbuf, 1);

	// qui devo metterci gli altoparlanti e poi setto i valori per il default output
	pvbuf[0].param = AL_INTERFACE;
	pvbuf[0].value.i = AL_SPEAKER_IF_TYPE;

	if (alSetParams(AL_DEFAULT_OUTPUT, pvbuf, 1) < 0)
		return false; // throw TException("Unable to set output device params");

	return true;
}

//------------------------------------------------------------------------------

//return the indexes of all input device of a particular type
list<int> getInputDevice(int deviceType)
{
	ALvalue vals[16];
	ALpv quals[1];
	list<int> devList;
	int devNum;

	quals[0].param = AL_TYPE;
	quals[0].value.i = deviceType;
	if ((devNum = alQueryValues(AL_SYSTEM, AL_DEFAULT_INPUT, vals, 16, quals, 1)) > 0) {
		int i;
		for (i = 0; i < devNum; ++i) {
			int itf;
			ALvalue val[16];
			if ((itf = alQueryValues(i, AL_INTERFACE, val, 16, 0, 0)) > 0) {
				int j;
				for (j = 0; j < itf; ++j)
					devList.push_back(vals[j].i);
			}
		}
	}

	return devList;
}

//------------------------------------------------------------------------------

//return the indexes of all input device of a particular type and interface
list<int> getInputDevice(int deviceType, int itfType)
{
	ALvalue vals[16];
	ALpv quals[1];
	list<int> devList;
	int devNum;

	quals[0].param = AL_TYPE;
	quals[0].value.i = deviceType;
	if ((devNum = alQueryValues(AL_SYSTEM, AL_DEFAULT_INPUT, vals, 16, quals, 1)) > 0) {
		int i;
		for (i = 0; i < devNum; ++i) {
			int itf;
			ALvalue val[16];
			quals[0].param = AL_TYPE;
			quals[0].value.i = itfType;
			if ((itf = alQueryValues(i, AL_INTERFACE, val, 16, quals, 1)) > 0) {
				int j;
				for (j = 0; j < itf; ++j)
					devList.push_back(vals[j].i);
			}
		}
	}

	return devList;
}

//------------------------------------------------------------------------------

string getResourceLabel(int resourceID)
{
	ALpv par[1];
	char l[32];

	par[0].param = AL_LABEL;
	par[0].value.ptr = l;
	par[0].sizeIn = 32;

	alGetParams(resourceID, par, 1);

	return string(l);
}

//------------------------------------------------------------------------------

// verify the samplerate of the select device is changed from another application
bool isChangeOutput(ULONG sampleRate)
{
	ALpv par[2];
	char l[32];

	par[0].param = AL_LABEL;
	par[0].value.ptr = l;
	par[0].sizeIn = 32;
	par[1].param = AL_RATE;

	alGetParams(AL_DEFAULT_OUTPUT, par, 2);
	if ((strcmp(l, "Analog Out") != 0) || (alFixedToDouble(par[1].value.ll) != sampleRate))
		return true;
	else
		return false;
}
}