jamulus/android/sound.cpp

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/******************************************************************************\
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* Copyright (c) 2004-2020
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*
* Author(s):
* Simon Tomlinson, Volker Fischer
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*
******************************************************************************
*
* 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; either version 2 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 for more
* details.
*
* You should have received a copy of the GNU General Public License along with
* this program; if not, write to the Free Software Foundation, Inc.,
* 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA
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*
\******************************************************************************/
#include "sound.h"
#include "androiddebug.cpp"
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/* Implementation *************************************************************/
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CSound::CSound ( void (*fpNewProcessCallback) ( CVector<short>& psData, void* arg ),
void* arg,
const int iCtrlMIDIChannel,
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const bool ,
const QString& ) :
CSoundBase ( "OpenSL", true, fpNewProcessCallback, arg, iCtrlMIDIChannel )
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{
pSound = this;
#ifdef ANDROIDDEBUG
qInstallMessageHandler(myMessageHandler);
#endif
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}
void CSound::setupCommonStreamParams(oboe::AudioStreamBuilder *builder)
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{
// We request EXCLUSIVE mode since this will give us the lowest possible
// latency. If EXCLUSIVE mode isn't available the builder will fall back to SHARED mode
builder->setCallback(this)
->setFormat(oboe::AudioFormat::Float)
->setSharingMode(oboe::SharingMode::Shared)
->setChannelCount(oboe::ChannelCount::Mono)
// ->setSampleRate(48000)
// ->setSampleRateConversionQuality(oboe::SampleRateConversionQuality::Medium)
->setPerformanceMode(oboe::PerformanceMode::None);
return;
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}
void CSound::openStreams()
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{
// Create callback
mCallback = this;
//Setup output stream
oboe::AudioStreamBuilder inBuilder, outBuilder;
outBuilder.setDirection(oboe::Direction::Output);
setupCommonStreamParams(&outBuilder);
oboe::Result result = outBuilder.openManagedStream(mPlayStream);
if (result != oboe::Result::OK) {
return;
}
mPlayStream->setBufferSizeInFrames(pSound->iOpenSLBufferSizeStereo);
warnIfNotLowLatency(mPlayStream, "PlayStream");
printStreamDetails(mPlayStream);
//Setup input stream
inBuilder.setDirection(oboe::Direction::Input);
setupCommonStreamParams(&inBuilder);
result = inBuilder.openManagedStream(mRecordingStream);
if (result != oboe::Result::OK) {
closeStream(mPlayStream);
return;
}
mRecordingStream->setBufferSizeInFrames(pSound->iOpenSLBufferSizeStereo);
warnIfNotLowLatency(mRecordingStream, "RecordStream");
printStreamDetails(mRecordingStream);
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}
void CSound::printStreamDetails(oboe::ManagedStream &stream)
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{
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QString sDirection = (stream->getDirection()==oboe::Direction::Input?"Input":"Output");
QString sFramesPerBurst = QString::number(stream->getFramesPerBurst());
QString sBufferSizeInFrames = QString::number(stream->getBufferSizeInFrames());
QString sBytesPerFrame = QString::number(stream->getBytesPerFrame());
QString sBytesPerSample = QString::number(stream->getBytesPerSample());
QString sBufferCapacityInFrames = QString::number(stream->getBufferCapacityInFrames());
QString sPerformanceMode = (stream->getPerformanceMode()==oboe::PerformanceMode::LowLatency?"LowLatency":"NotLowLatency");
QString sSharingMode = (stream->getSharingMode() == oboe::SharingMode::Exclusive?"Exclusive":"Shared");
QString sDeviceID = QString::number(stream->getDeviceId());
QString sSampleRate = QString::number(stream->getSampleRate());
QString sAudioFormat = (stream->getFormat()==oboe::AudioFormat::I16?"I16":"Float");
QString sFramesPerCallback = QString::number(stream->getFramesPerCallback());
//QString sSampleRateConversionQuality = (stream.getSampleRateConversionQuality()==oboe::SampleRateConversionQuality::
qInfo() << "Stream details: [sDirection: " << sDirection <<
", FramesPerBurst: " << sFramesPerBurst <<
", BufferSizeInFrames: " << sBufferSizeInFrames <<
", BytesPerFrame: " << sBytesPerFrame <<
", BytesPerSample: " << sBytesPerSample <<
", BufferCapacityInFrames: " << sBufferCapacityInFrames <<
", PerformanceMode: " << sPerformanceMode <<
", SharingMode: " << sSharingMode <<
", DeviceID: " << sDeviceID <<
", SampleRate: " << sSampleRate <<
", AudioFormat: " << sAudioFormat <<
", FramesPerCallback: " << sFramesPerCallback << "]";
}
void CSound::warnIfNotLowLatency(oboe::ManagedStream &stream, QString streamName) {
if (stream->getPerformanceMode() != oboe::PerformanceMode::LowLatency) {
QString latencyMode = (stream->getPerformanceMode()==oboe::PerformanceMode::None ? "None" : "Power Saving");
// throw CGenErr ( tr ( "Stream is NOT low latency."
// "Check your requested format, sample rate and channel count." ) );
}
}
void CSound::closeStream(oboe::ManagedStream &stream)
{
if (stream) {
oboe::Result requestStopRes = stream->requestStop();
oboe::Result result = stream->close();
if (result != oboe::Result::OK) {
throw CGenErr ( tr ( "Error closing stream: $s",
oboe::convertToText(result) ) );
}
stream.reset();
}
}
void CSound::closeStreams()
{
// clean up
closeStream(mRecordingStream);
closeStream(mPlayStream);
}
void CSound::Start()
{
openStreams();
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// call base class
CSoundBase::Start();
// finally start the streams so the callback begins, start with inputstream first.
mRecordingStream->requestStart();
mPlayStream->requestStart();
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}
void CSound::Stop()
{
closeStreams();
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// call base class
CSoundBase::Stop();
}
int CSound::Init ( const int iNewPrefMonoBufferSize )
{
// store buffer size
iOpenSLBufferSizeMono = 512 ;
//iNewPrefMonoBufferSize;
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// init base class
CSoundBase::Init ( iOpenSLBufferSizeMono );
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// set internal buffer size value and calculate stereo buffer size
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iOpenSLBufferSizeStereo = 2 * iOpenSLBufferSizeMono;
// create memory for intermediate audio buffer
vecsTmpAudioSndCrdStereo.Init ( iOpenSLBufferSizeStereo );
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// TEST
#if ( SYSTEM_SAMPLE_RATE_HZ != 48000 )
# error "Only a system sample rate of 48 kHz is supported by this module"
#endif
// audio interface number of channels is 1 and the sample rate
// is 16 kHz -> just copy samples and perform no filtering as a
// first simple solution
// 48 kHz / 16 kHz = factor 3 (note that the buffer size mono might
// be divisible by three, therefore we will get a lot of drop outs)
iModifiedInBufSize = iOpenSLBufferSizeMono / 3;
vecsTmpAudioInSndCrd.Init ( iModifiedInBufSize );
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return iOpenSLBufferSizeMono;
}
// This is the main callback method for when an audio stream is ready to publish data to an output stream
// or has received data on an input stream. As per manual much be very careful not to do anything in this back that
// can cause delays such as sleeping, file processing, allocate memory, etc
oboe::DataCallbackResult CSound::onAudioReady(oboe::AudioStream *oboeStream, void *audioData, int32_t numFrames)
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{
// only process if we are running
if ( ! pSound->bRun )
{
return oboe::DataCallbackResult::Continue;
}
// Need to modify the size of the buffer based on the numFrames requested in this callback.
// Buffer size can change regularly by android devices
int& iBufferSizeMono = pSound->iOpenSLBufferSizeMono;
// perform the processing for input and output
// QMutexLocker locker ( &pSound->Mutex );
// locker.mutex();
//This can be called from both input and output at different times
if (oboeStream == pSound->mPlayStream.get() && audioData)
{
float *floatData = static_cast<float *>(audioData);
// Zero out the incoming container array
memset(audioData, 0, sizeof(float) * numFrames * oboeStream->getChannelCount());
// Only copy data if we have data to copy, otherwise fill with silence
if (!pSound->vecsTmpAudioSndCrdStereo.empty())
{
for (int frmNum = 0; frmNum < numFrames; ++frmNum)
{
for (int channelNum = 0; channelNum < oboeStream->getChannelCount(); channelNum++)
{
// copy sample received from server into output buffer
// convert to 32 bit
const int32_t iCurSam = static_cast<int32_t> (
pSound->vecsTmpAudioSndCrdStereo [frmNum * oboeStream->getChannelCount() + channelNum] );
floatData[frmNum * oboeStream->getChannelCount() + channelNum] = (float) iCurSam/ _MAXSHORT;
}
}
}
else
{
// prime output stream buffer with silence
memset(static_cast<float*>(audioData) + numFrames * oboeStream->getChannelCount(), 0,
(numFrames) * oboeStream->getBytesPerFrame());
}
}
else if (oboeStream == pSound->mRecordingStream.get() && audioData)
{
// First things first, we need to discard the input queue a little for 500ms or so
if (pSound->mCountCallbacksToDrain > 0)
{
// discard the input buffer
int32_t numBytes = numFrames * oboeStream->getBytesPerFrame();
memset(audioData, 0 /* value */, numBytes);
pSound->mCountCallbacksToDrain--;
}
// We're good to start recording now
// Take the data from the recording device output buffer and move
// it to the vector ready to send up to the server
float *floatData = static_cast<float *>(audioData);
// Copy recording data to internal vector
for (int frmNum = 0; frmNum < numFrames; ++frmNum)
{
for (int channelNum = 0; channelNum < oboeStream->getChannelCount(); channelNum++)
{
pSound->vecsTmpAudioSndCrdStereo [frmNum * oboeStream->getChannelCount() + channelNum] =
(short) floatData[frmNum * oboeStream->getChannelCount() + channelNum] * _MAXSHORT;
}
}
// Tell parent class that we've put some data ready to send to the server
pSound->ProcessCallback ( pSound->vecsTmpAudioSndCrdStereo );
}
// locker.unlock();
return oboe::DataCallbackResult::Continue;
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}
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//TODO better handling of stream closing errors
void CSound::onErrorAfterClose(oboe::AudioStream *oboeStream, oboe::Result result)
{
qDebug() << "CSound::onErrorAfterClose";
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}
//TODO better handling of stream closing errors
void CSound::onErrorBeforeClose(oboe::AudioStream *oboeStream, oboe::Result result)
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{
qDebug() << "CSound::onErrorBeforeClose";
}
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