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sdrangel/sdrbase/audio/audiooutputdevice.cpp

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///////////////////////////////////////////////////////////////////////////////////
// Copyright (C) 2012 maintech GmbH, Otto-Hahn-Str. 15, 97204 Hoechberg, Germany //
// written by Christian Daniel //
// //
// This program is free software; you can redistribute it and/or modify //
// it under the terms of the GNU General Public License as published by //
// the Free Software Foundation as version 3 of the License, or //
// (at your option) any later version. //
// //
// This program is distributed in the hope that it will be useful, //
// but WITHOUT ANY WARRANTY; without even the implied warranty of //
// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the //
// GNU General Public License V3 for more details. //
// //
// You should have received a copy of the GNU General Public License //
// along with this program. If not, see <http://www.gnu.org/licenses/>. //
///////////////////////////////////////////////////////////////////////////////////
#include <string.h>
#include <QAudioFormat>
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#if QT_VERSION >= QT_VERSION_CHECK(6, 0, 0)
#include <QAudioSink>
#else
#include <QAudioOutput>
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#endif
#include "audiooutputdevice.h"
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#include "audiodeviceinfo.h"
#include "audiofifo.h"
#include "audionetsink.h"
#include "dsp/wavfilerecord.h"
AudioOutputDevice::AudioOutputDevice() :
m_audioOutput(nullptr),
m_audioNetSink(nullptr),
m_wavFileRecord(nullptr),
m_copyAudioToUdp(false),
m_udpChannelMode(UDPChannelLeft),
m_udpChannelCodec(UDPCodecL16),
m_audioUsageCount(0),
m_onExit(false),
m_volume(1.0),
m_recordToFile(false),
m_recordSilenceTime(0),
m_recordSilenceNbSamples(0),
m_recordSilenceCount(0),
m_audioFifos()
{
}
AudioOutputDevice::~AudioOutputDevice()
{
// stop();
//
// QMutexLocker mutexLocker(&m_mutex);
//
// for (std::list<AudioFifo*>::iterator it = m_audioFifos.begin(); it != m_audioFifos.end(); ++it)
// {
// delete *it;
// }
//
// m_audioFifos.clear();
}
bool AudioOutputDevice::start(int device, int rate)
{
// if (m_audioUsageCount == 0)
// {
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QMutexLocker mutexLocker(&m_mutex);
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AudioDeviceInfo devInfo;
if (device < 0)
{
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devInfo = AudioDeviceInfo::defaultOutputDevice();
qWarning("AudioOutputDevice::start: using system default device %s", qPrintable(devInfo.defaultOutputDevice().deviceName()));
}
else
{
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QList<AudioDeviceInfo> devicesInfo = AudioDeviceInfo::availableOutputDevices();
if (device < devicesInfo.size())
{
devInfo = devicesInfo[device];
qWarning("AudioOutputDevice::start: using audio device #%d: %s", device, qPrintable(devInfo.deviceName()));
}
else
{
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devInfo = AudioDeviceInfo::defaultOutputDevice();
qWarning("AudioOutputDevice::start: audio device #%d does not exist. Using system default device %s", device, qPrintable(devInfo.defaultOutputDevice().deviceName()));
}
}
//QAudioDeviceInfo devInfo(QAudioDeviceInfo::defaultOutputDevice());
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#if QT_VERSION >= QT_VERSION_CHECK(6, 0, 0)
// Start with a valid format
m_audioFormat = devInfo.deviceInfo().preferredFormat();
#endif
m_audioFormat.setSampleRate(rate);
m_audioFormat.setChannelCount(2);
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#if QT_VERSION >= QT_VERSION_CHECK(6, 0, 0)
m_audioFormat.setSampleFormat(QAudioFormat::Int16);
#else
m_audioFormat.setSampleSize(16);
m_audioFormat.setCodec("audio/pcm");
m_audioFormat.setByteOrder(QAudioFormat::LittleEndian);
m_audioFormat.setSampleType(QAudioFormat::SignedInt);
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#endif
if (!devInfo.isFormatSupported(m_audioFormat))
{
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#if QT_VERSION >= QT_VERSION_CHECK(6, 0, 0)
qWarning("AudioOutputDevice::start: format %d Hz 2xS16LE audio/pcm not supported.", rate);
#else
m_audioFormat = devInfo.deviceInfo().nearestFormat(m_audioFormat);
std::ostringstream os;
os << " sampleRate: " << m_audioFormat.sampleRate()
<< " channelCount: " << m_audioFormat.channelCount()
<< " sampleSize: " << m_audioFormat.sampleSize()
<< " codec: " << m_audioFormat.codec().toStdString()
<< " byteOrder: " << (m_audioFormat.byteOrder() == QAudioFormat::BigEndian ? "BE" : "LE")
<< " sampleType: " << (int) m_audioFormat.sampleType();
qWarning("AudioOutputDevice::start: format %d Hz 2xS16LE audio/pcm not supported. Using: %s", rate, os.str().c_str());
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#endif
}
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else
{
qInfo("AudioOutputDevice::start: audio format OK");
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}
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#if QT_VERSION >= QT_VERSION_CHECK(6, 0, 0)
if (m_audioFormat.sampleFormat() != QAudioFormat::Int16)
{
qWarning("AudioOutputDevice::start: Audio device '%s' failed", qPrintable(devInfo.deviceName()));
return false;
}
#else
if (m_audioFormat.sampleSize() != 16)
{
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qWarning("AudioOutputDevice::start: Audio device '%s' failed", qPrintable(devInfo.deviceName()));
return false;
}
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#endif
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#if QT_VERSION >= QT_VERSION_CHECK(6, 0, 0)
m_audioOutput = new QAudioSink(devInfo.deviceInfo(), m_audioFormat);
#else
m_audioOutput = new QAudioOutput(devInfo.deviceInfo(), m_audioFormat);
#endif
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m_audioNetSink = new AudioNetSink(0, m_audioFormat.sampleRate(), false);
m_wavFileRecord = new WavFileRecord(m_audioFormat.sampleRate());
m_audioOutput->setVolume(m_volume);
m_recordSilenceNbSamples = (m_recordSilenceTime * m_audioFormat.sampleRate()) / 10; // time in 100'ś ms
QIODevice::open(QIODevice::ReadOnly);
m_audioOutput->start(this);
if (m_audioOutput->state() != QAudio::ActiveState) {
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qWarning() << "AudioOutputDevice::start: cannot start - " << m_audioOutput->error();
}
// }
//
// m_audioUsageCount++;
return true;
}
void AudioOutputDevice::stop()
{
qDebug("AudioOutputDevice::stop");
QMutexLocker mutexLocker(&m_mutex);
m_audioOutput->stop();
QIODevice::close();
delete m_audioNetSink;
m_audioNetSink = nullptr;
delete m_wavFileRecord;
m_wavFileRecord = nullptr;
delete m_audioOutput;
m_audioOutput = nullptr;
// if (m_audioUsageCount > 0)
// {
// m_audioUsageCount--;
//
// if (m_audioUsageCount == 0)
// {
// QMutexLocker mutexLocker(&m_mutex);
// QIODevice::close();
//
// if (!m_onExit) {
// delete m_audioOutput;
// }
// }
// }
}
void AudioOutputDevice::addFifo(AudioFifo* audioFifo)
{
QMutexLocker mutexLocker(&m_mutex);
m_audioFifos.push_back(audioFifo);
}
void AudioOutputDevice::removeFifo(AudioFifo* audioFifo)
{
QMutexLocker mutexLocker(&m_mutex);
m_audioFifos.remove(audioFifo);
}
/*
bool AudioOutputDevice::open(OpenMode mode)
{
Q_UNUSED(mode);
return false;
}*/
void AudioOutputDevice::setUdpDestination(const QString& address, uint16_t port)
{
if (m_audioNetSink) {
m_audioNetSink->setDestination(address, port);
}
}
void AudioOutputDevice::setUdpCopyToUDP(bool copyToUDP)
{
m_copyAudioToUdp = copyToUDP;
}
void AudioOutputDevice::setUdpUseRTP(bool useRTP)
{
if (m_audioNetSink) {
m_audioNetSink->selectType(useRTP ? AudioNetSink::SinkRTP : AudioNetSink::SinkUDP);
}
}
void AudioOutputDevice::setUdpChannelMode(UDPChannelMode udpChannelMode)
{
m_udpChannelMode = udpChannelMode;
}
void AudioOutputDevice::setUdpChannelFormat(UDPChannelCodec udpChannelCodec, bool stereo, int sampleRate)
{
m_udpChannelCodec = udpChannelCodec;
if (m_audioNetSink) {
m_audioNetSink->setParameters((AudioNetSink::Codec) m_udpChannelCodec, stereo, sampleRate);
}
if (m_wavFileRecord)
{
if (m_wavFileRecord->isRecording()) {
m_wavFileRecord->stopRecording();
}
m_wavFileRecord->setMono(!stereo);
}
}
void AudioOutputDevice::setUdpDecimation(uint32_t decimation)
{
if (m_audioNetSink) {
m_audioNetSink->setDecimation(decimation);
}
}
void AudioOutputDevice::setFileRecordName(const QString& fileRecordName)
{
if (!m_wavFileRecord) {
return;
}
QStringList dotBreakout = fileRecordName.split(QLatin1Char('.'));
if (dotBreakout.size() > 1) {
QString extension = dotBreakout.last();
if (extension != "wav") {
dotBreakout.last() = "wav";
}
}
else
{
dotBreakout.append("wav");
}
QString newFileRecordName = dotBreakout.join(QLatin1Char('.'));
QString fileBase;
FileRecordInterface::guessTypeFromFileName(newFileRecordName, fileBase);
qDebug("AudioOutputDevice::setFileRecordName: newFileRecordName: %s fileBase: %s", qPrintable(newFileRecordName), qPrintable(fileBase));
m_wavFileRecord->setFileName(fileBase);
}
void AudioOutputDevice::setRecordToFile(bool recordToFile)
{
if (!m_wavFileRecord) {
return;
}
if (recordToFile)
{
if (!m_wavFileRecord->isRecording()) {
m_wavFileRecord->startRecording();
}
}
else
{
if (m_wavFileRecord->isRecording()) {
m_wavFileRecord->stopRecording();
}
}
m_recordToFile = recordToFile;
m_recordSilenceCount = 0;
}
void AudioOutputDevice::setRecordSilenceTime(int recordSilenceTime)
{
m_recordSilenceNbSamples = (recordSilenceTime * m_audioFormat.sampleRate()) / 10; // time in 100'ś ms
m_recordSilenceCount = 0;
m_recordSilenceTime = recordSilenceTime;
}
qint64 AudioOutputDevice::readData(char* data, qint64 maxLen)
{
// Study this mutex on OSX, for now deadlocks possible
// Removed as it may indeed cause lockups and is in fact useless.
//#ifndef __APPLE__
// QMutexLocker mutexLocker(&m_mutex);
//#endif
unsigned int samplesPerBuffer = maxLen / 4;
if (samplesPerBuffer == 0)
{
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return 0;
}
if (m_mixBuffer.size() < samplesPerBuffer * 2)
{
m_mixBuffer.resize(samplesPerBuffer * 2); // allocate 2 qint32 per sample (stereo)
if (m_mixBuffer.size() != samplesPerBuffer * 2)
{
return 0;
}
}
memset(&m_mixBuffer[0], 0x00, 2 * samplesPerBuffer * sizeof(m_mixBuffer[0])); // start with silence
// sum up a block from all fifos
for (std::list<AudioFifo*>::iterator it = m_audioFifos.begin(); it != m_audioFifos.end(); ++it)
{
// use outputBuffer as temp - yes, one memcpy could be saved
unsigned int samples = (*it)->read((quint8*) data, samplesPerBuffer);
const qint16* src = (const qint16*) data;
std::vector<qint32>::iterator dst = m_mixBuffer.begin();
// if (samples != framesPerBuffer)
// {
// qDebug("AudioOutputDevice::readData: read %d samples vs %d requested", samples, framesPerBuffer);
// }
for (unsigned int i = 0; i < samples; i++)
{
*dst += *src;
++src;
++dst;
*dst += *src;
++src;
++dst;
}
}
// convert to int16
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//std::vector<qint32>::const_iterator src = m_mixBuffer.begin(); // Valgrind optim
qint16* dst = (qint16*) data;
qint32 sl, sr;
for (unsigned int i = 0; i < samplesPerBuffer; i++)
{
// left channel
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//s = *src++; // Valgrind optim
sl = m_mixBuffer[2*i];
if(sl < -32768)
{
sl = -32768;
}
else if (sl > 32767)
{
sl = 32767;
}
*dst++ = sl;
// right channel
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//s = *src++; // Valgrind optim
sr = m_mixBuffer[2*i + 1];
if(sr < -32768)
{
sr = -32768;
}
else if (sr > 32767)
{
sr = 32767;
}
*dst++ = sr;
if ((m_copyAudioToUdp) && (m_audioNetSink))
{
switch (m_udpChannelMode)
{
case UDPChannelStereo:
m_audioNetSink->write(sl, sr);
break;
case UDPChannelMixed:
m_audioNetSink->write((sl+sr)/2);
break;
case UDPChannelRight:
m_audioNetSink->write(sr);
break;
case UDPChannelLeft:
default:
m_audioNetSink->write(sl);
break;
}
}
if ((m_recordToFile) && (m_wavFileRecord))
{
if ((sr == 0) && (sl == 0))
{
if (m_recordSilenceNbSamples <= 0)
{
writeSampleToFile(sl, sr);
m_recordSilenceCount = 0;
}
else if (m_recordSilenceCount < m_recordSilenceNbSamples)
{
writeSampleToFile(sl, sr);
m_recordSilenceCount++;
}
else
{
m_wavFileRecord->stopRecording();
}
}
else
{
if (!m_wavFileRecord->isRecording()) {
m_wavFileRecord->startRecording();
}
writeSampleToFile(sl, sr);
m_recordSilenceCount = 0;
}
}
}
return samplesPerBuffer * 4;
}
void AudioOutputDevice::writeSampleToFile(qint16 lSample, qint16 rSample)
{
switch (m_udpChannelMode)
{
case UDPChannelStereo:
m_wavFileRecord->write(lSample, rSample);
break;
case UDPChannelMixed:
m_wavFileRecord->writeMono((lSample+rSample)/2);
break;
case UDPChannelRight:
m_wavFileRecord->writeMono(rSample);
break;
case UDPChannelLeft:
default:
m_wavFileRecord->writeMono(lSample);
break;
}
}
qint64 AudioOutputDevice::writeData(const char* data, qint64 len)
{
Q_UNUSED(data);
Q_UNUSED(len);
return 0;
}
void AudioOutputDevice::setVolume(float volume)
{
m_volume = volume;
if (m_audioOutput) {
m_audioOutput->setVolume(m_volume);
}
}
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// Qt6 requires bytesAvailable to be implemented. Not needed for Qt5.
qint64 AudioOutputDevice::bytesAvailable() const
{
qint64 available = 0;
for (std::list<AudioFifo*>::const_iterator it = m_audioFifos.begin(); it != m_audioFifos.end(); ++it)
{
qint64 fill = (*it)->fill();
if (available == 0) {
available = fill;
} else {
available = std::min(fill, available);
}
}
// If we return 0 from this twice in a row, audio will stop.
// So we always return a value, and if we don't have enough data in the FIFOs
// when readData is called, that will output silence
if (available == 0) {
available = 2048; // Is there a better value to use?
}
return available * 2 * 2; // 2 Channels of 16-bit data
}