svapp: audioio/AudioCallbackPlaySource.cpp annotate

annotate audioio/AudioCallbackPlaySource.cpp @ 177:7dae51741cc9

* Fix crash on exit on win32. This was caused by incorrectly using fftw_free() to free the string returned from fftw_export_wisdom_to_string(), instead of plain free(). * Various debug artifacts related to tracking down the above

author	Chris Cannam
date	Fri, 14 Aug 2009 14:01:09 +0000
parents	d8017c8859eb
children	017206f2e4c5

rev	line source
Chris@43	1 /* -- c-basic-offset: 4 indent-tabs-mode: nil -- vi:set ts=8 sts=4 sw=4: */
Chris@43	2
Chris@43	3 /*
Chris@43	4 Sonic Visualiser
Chris@43	5 An audio file viewer and annotation editor.
Chris@43	6 Centre for Digital Music, Queen Mary, University of London.
Chris@43	7 This file copyright 2006 Chris Cannam and QMUL.
Chris@43	8
Chris@43	9 This program is free software; you can redistribute it and/or
Chris@43	10 modify it under the terms of the GNU General Public License as
Chris@43	11 published by the Free Software Foundation; either version 2 of the
Chris@43	12 License, or (at your option) any later version. See the file
Chris@43	13 COPYING included with this distribution for more information.
Chris@43	14 */
Chris@43	15
Chris@43	16 #include "AudioCallbackPlaySource.h"
Chris@43	17
Chris@43	18 #include "AudioGenerator.h"
Chris@43	19
Chris@43	20 #include "data/model/Model.h"
Chris@105	21 #include "base/ViewManagerBase.h"
Chris@43	22 #include "base/PlayParameterRepository.h"
Chris@43	23 #include "base/Preferences.h"
Chris@43	24 #include "data/model/DenseTimeValueModel.h"
Chris@43	25 #include "data/model/WaveFileModel.h"
Chris@43	26 #include "data/model/SparseOneDimensionalModel.h"
Chris@43	27 #include "plugin/RealTimePluginInstance.h"
Chris@62	28
Chris@91	29 #include "AudioCallbackPlayTarget.h"
Chris@91	30
Chris@62	31 #include <rubberband/RubberBandStretcher.h>
Chris@62	32 using namespace RubberBand;
Chris@43	33
Chris@43	34 #include <iostream>
Chris@43	35 #include <cassert>
Chris@43	36
Chris@174	37 //#define DEBUG_AUDIO_PLAY_SOURCE 1
Chris@43	38 //#define DEBUG_AUDIO_PLAY_SOURCE_PLAYING 1
Chris@43	39
Chris@43	40 const size_t AudioCallbackPlaySource::m_ringBufferSize = 131071;
Chris@43	41
Chris@105	42 AudioCallbackPlaySource::AudioCallbackPlaySource(ViewManagerBase *manager,
Chris@57	43 QString clientName) :
Chris@43	44 m_viewManager(manager),
Chris@43	45 m_audioGenerator(new AudioGenerator()),
Chris@57	46 m_clientName(clientName),
Chris@43	47 m_readBuffers(0),
Chris@43	48 m_writeBuffers(0),
Chris@43	49 m_readBufferFill(0),
Chris@43	50 m_writeBufferFill(0),
Chris@43	51 m_bufferScavenger(1),
Chris@43	52 m_sourceChannelCount(0),
Chris@43	53 m_blockSize(1024),
Chris@43	54 m_sourceSampleRate(0),
Chris@43	55 m_targetSampleRate(0),
Chris@43	56 m_playLatency(0),
Chris@91	57 m_target(0),
Chris@91	58 m_lastRetrievalTimestamp(0.0),
Chris@91	59 m_lastRetrievedBlockSize(0),
Chris@102	60 m_trustworthyTimestamps(true),
Chris@102	61 m_lastCurrentFrame(0),
Chris@43	62 m_playing(false),
Chris@43	63 m_exiting(false),
Chris@43	64 m_lastModelEndFrame(0),
Chris@43	65 m_outputLeft(0.0),
Chris@43	66 m_outputRight(0.0),
Chris@43	67 m_auditioningPlugin(0),
Chris@43	68 m_auditioningPluginBypassed(false),
Chris@94	69 m_playStartFrame(0),
Chris@94	70 m_playStartFramePassed(false),
Chris@43	71 m_timeStretcher(0),
Chris@130	72 m_monoStretcher(0),
Chris@91	73 m_stretchRatio(1.0),
Chris@91	74 m_stretcherInputCount(0),
Chris@91	75 m_stretcherInputs(0),
Chris@91	76 m_stretcherInputSizes(0),
Chris@43	77 m_fillThread(0),
Chris@43	78 m_converter(0),
Chris@43	79 m_crapConverter(0),
Chris@43	80 m_resampleQuality(Preferences::getInstance()->getResampleQuality())
Chris@43	81 {
Chris@43	82 m_viewManager->setAudioPlaySource(this);
Chris@43	83
Chris@43	84 connect(m_viewManager, SIGNAL(selectionChanged()),
Chris@43	85 this, SLOT(selectionChanged()));
Chris@43	86 connect(m_viewManager, SIGNAL(playLoopModeChanged()),
Chris@43	87 this, SLOT(playLoopModeChanged()));
Chris@43	88 connect(m_viewManager, SIGNAL(playSelectionModeChanged()),
Chris@43	89 this, SLOT(playSelectionModeChanged()));
Chris@43	90
Chris@43	91 connect(PlayParameterRepository::getInstance(),
Chris@43	92 SIGNAL(playParametersChanged(PlayParameters *)),
Chris@43	93 this, SLOT(playParametersChanged(PlayParameters *)));
Chris@43	94
Chris@43	95 connect(Preferences::getInstance(),
Chris@43	96 SIGNAL(propertyChanged(PropertyContainer::PropertyName)),
Chris@43	97 this, SLOT(preferenceChanged(PropertyContainer::PropertyName)));
Chris@43	98 }
Chris@43	99
Chris@43	100 AudioCallbackPlaySource::~AudioCallbackPlaySource()
Chris@43	101 {
Chris@177	102 #ifdef DEBUG_AUDIO_PLAY_SOURCE
Chris@177	103 std::cerr << "AudioCallbackPlaySource::~AudioCallbackPlaySource entering" << std::endl;
Chris@177	104 #endif
Chris@43	105 m_exiting = true;
Chris@43	106
Chris@43	107 if (m_fillThread) {
Chris@43	108 m_condition.wakeAll();
Chris@43	109 m_fillThread->wait();
Chris@43	110 delete m_fillThread;
Chris@43	111 }
Chris@43	112
Chris@43	113 clearModels();
Chris@43	114
Chris@43	115 if (m_readBuffers != m_writeBuffers) {
Chris@43	116 delete m_readBuffers;
Chris@43	117 }
Chris@43	118
Chris@43	119 delete m_writeBuffers;
Chris@43	120
Chris@43	121 delete m_audioGenerator;
Chris@43	122
Chris@91	123 for (size_t i = 0; i < m_stretcherInputCount; ++i) {
Chris@91	124 delete[] m_stretcherInputs[i];
Chris@91	125 }
Chris@91	126 delete[] m_stretcherInputSizes;
Chris@91	127 delete[] m_stretcherInputs;
Chris@91	128
Chris@130	129 delete m_timeStretcher;
Chris@130	130 delete m_monoStretcher;
Chris@130	131
Chris@43	132 m_bufferScavenger.scavenge(true);
Chris@43	133 m_pluginScavenger.scavenge(true);
Chris@177	134 #ifdef DEBUG_AUDIO_PLAY_SOURCE
Chris@177	135 std::cerr << "AudioCallbackPlaySource::~AudioCallbackPlaySource finishing" << std::endl;
Chris@177	136 #endif
Chris@43	137 }
Chris@43	138
Chris@43	139 void
Chris@43	140 AudioCallbackPlaySource::addModel(Model *model)
Chris@43	141 {
Chris@43	142 if (m_models.find(model) != m_models.end()) return;
Chris@43	143
Chris@43	144 bool canPlay = m_audioGenerator->addModel(model);
Chris@43	145
Chris@43	146 m_mutex.lock();
Chris@43	147
Chris@43	148 m_models.insert(model);
Chris@43	149 if (model->getEndFrame() > m_lastModelEndFrame) {
Chris@43	150 m_lastModelEndFrame = model->getEndFrame();
Chris@43	151 }
Chris@43	152
Chris@43	153 bool buffersChanged = false, srChanged = false;
Chris@43	154
Chris@43	155 size_t modelChannels = 1;
Chris@43	156 DenseTimeValueModel dtvm = dynamic_cast<DenseTimeValueModel >(model);
Chris@43	157 if (dtvm) modelChannels = dtvm->getChannelCount();
Chris@43	158 if (modelChannels > m_sourceChannelCount) {
Chris@43	159 m_sourceChannelCount = modelChannels;
Chris@43	160 }
Chris@43	161
Chris@43	162 #ifdef DEBUG_AUDIO_PLAY_SOURCE
Chris@103	163 std::cout << "Adding model with " << modelChannels << " channels at rate " << model->getSampleRate() << std::endl;
Chris@43	164 #endif
Chris@43	165
Chris@43	166 if (m_sourceSampleRate == 0) {
Chris@43	167
Chris@43	168 m_sourceSampleRate = model->getSampleRate();
Chris@43	169 srChanged = true;
Chris@43	170
Chris@43	171 } else if (model->getSampleRate() != m_sourceSampleRate) {
Chris@43	172
Chris@43	173 // If this is a dense time-value model and we have no other, we
Chris@43	174 // can just switch to this model's sample rate
Chris@43	175
Chris@43	176 if (dtvm) {
Chris@43	177
Chris@43	178 bool conflicting = false;
Chris@43	179
Chris@43	180 for (std::set<Model *>::const_iterator i = m_models.begin();
Chris@43	181 i != m_models.end(); ++i) {
Chris@43	182 // Only wave file models can be considered conflicting --
Chris@43	183 // writable wave file models are derived and we shouldn't
Chris@43	184 // take their rates into account. Also, don't give any
Chris@43	185 // particular weight to a file that's already playing at
Chris@43	186 // the wrong rate anyway
Chris@43	187 WaveFileModel wfm = dynamic_cast<WaveFileModel >(*i);
Chris@43	188 if (wfm && wfm != dtvm &&
Chris@43	189 wfm->getSampleRate() != model->getSampleRate() &&
Chris@43	190 wfm->getSampleRate() == m_sourceSampleRate) {
Chris@43	191 std::cerr << "AudioCallbackPlaySource::addModel: Conflicting wave file model " << *i << " found" << std::endl;
Chris@43	192 conflicting = true;
Chris@43	193 break;
Chris@43	194 }
Chris@43	195 }
Chris@43	196
Chris@43	197 if (conflicting) {
Chris@43	198
Chris@43	199 std::cerr << "AudioCallbackPlaySource::addModel: ERROR: "
Chris@43	200 << "New model sample rate does not match" << std::endl
Chris@43	201 << "existing model(s) (new " << model->getSampleRate()
Chris@43	202 << " vs " << m_sourceSampleRate
Chris@43	203 << "), playback will be wrong"
Chris@43	204 << std::endl;
Chris@43	205
Chris@43	206 emit sampleRateMismatch(model->getSampleRate(),
Chris@43	207 m_sourceSampleRate,
Chris@43	208 false);
Chris@43	209 } else {
Chris@43	210 m_sourceSampleRate = model->getSampleRate();
Chris@43	211 srChanged = true;
Chris@43	212 }
Chris@43	213 }
Chris@43	214 }
Chris@43	215
Chris@43	216 if (!m_writeBuffers \|\| (m_writeBuffers->size() < getTargetChannelCount())) {
Chris@43	217 clearRingBuffers(true, getTargetChannelCount());
Chris@43	218 buffersChanged = true;
Chris@43	219 } else {
Chris@43	220 if (canPlay) clearRingBuffers(true);
Chris@43	221 }
Chris@43	222
Chris@43	223 if (buffersChanged \|\| srChanged) {
Chris@43	224 if (m_converter) {
Chris@43	225 src_delete(m_converter);
Chris@43	226 src_delete(m_crapConverter);
Chris@43	227 m_converter = 0;
Chris@43	228 m_crapConverter = 0;
Chris@43	229 }
Chris@43	230 }
Chris@43	231
Chris@164	232 rebuildRangeLists();
Chris@164	233
Chris@43	234 m_mutex.unlock();
Chris@43	235
Chris@43	236 m_audioGenerator->setTargetChannelCount(getTargetChannelCount());
Chris@43	237
Chris@43	238 if (!m_fillThread) {
Chris@43	239 m_fillThread = new FillThread(*this);
Chris@43	240 m_fillThread->start();
Chris@43	241 }
Chris@43	242
Chris@43	243 #ifdef DEBUG_AUDIO_PLAY_SOURCE
Chris@43	244 std::cout << "AudioCallbackPlaySource::addModel: now have " << m_models.size() << " model(s) -- emitting modelReplaced" << std::endl;
Chris@43	245 #endif
Chris@43	246
Chris@43	247 if (buffersChanged \|\| srChanged) {
Chris@43	248 emit modelReplaced();
Chris@43	249 }
Chris@43	250
Chris@43	251 connect(model, SIGNAL(modelChanged(size_t, size_t)),
Chris@43	252 this, SLOT(modelChanged(size_t, size_t)));
Chris@43	253
Chris@43	254 m_condition.wakeAll();
Chris@43	255 }
Chris@43	256
Chris@43	257 void
Chris@43	258 AudioCallbackPlaySource::modelChanged(size_t startFrame, size_t endFrame)
Chris@43	259 {
Chris@43	260 #ifdef DEBUG_AUDIO_PLAY_SOURCE
Chris@43	261 std::cerr << "AudioCallbackPlaySource::modelChanged(" << startFrame << "," << endFrame << ")" << std::endl;
Chris@43	262 #endif
Chris@93	263 if (endFrame > m_lastModelEndFrame) {
Chris@93	264 m_lastModelEndFrame = endFrame;
Chris@99	265 rebuildRangeLists();
Chris@93	266 }
Chris@43	267 }
Chris@43	268
Chris@43	269 void
Chris@43	270 AudioCallbackPlaySource::removeModel(Model *model)
Chris@43	271 {
Chris@43	272 m_mutex.lock();
Chris@43	273
Chris@43	274 #ifdef DEBUG_AUDIO_PLAY_SOURCE
Chris@43	275 std::cout << "AudioCallbackPlaySource::removeModel(" << model << ")" << std::endl;
Chris@43	276 #endif
Chris@43	277
Chris@43	278 disconnect(model, SIGNAL(modelChanged(size_t, size_t)),
Chris@43	279 this, SLOT(modelChanged(size_t, size_t)));
Chris@43	280
Chris@43	281 m_models.erase(model);
Chris@43	282
Chris@43	283 if (m_models.empty()) {
Chris@43	284 if (m_converter) {
Chris@43	285 src_delete(m_converter);
Chris@43	286 src_delete(m_crapConverter);
Chris@43	287 m_converter = 0;
Chris@43	288 m_crapConverter = 0;
Chris@43	289 }
Chris@43	290 m_sourceSampleRate = 0;
Chris@43	291 }
Chris@43	292
Chris@43	293 size_t lastEnd = 0;
Chris@43	294 for (std::set<Model *>::const_iterator i = m_models.begin();
Chris@43	295 i != m_models.end(); ++i) {
Chris@164	296 #ifdef DEBUG_AUDIO_PLAY_SOURCE
Chris@164	297 std::cout << "AudioCallbackPlaySource::removeModel(" << model << "): checking end frame on model " << *i << std::endl;
Chris@164	298 #endif
Chris@43	299 if ((i)->getEndFrame() > lastEnd) lastEnd = (i)->getEndFrame();
Chris@164	300 #ifdef DEBUG_AUDIO_PLAY_SOURCE
Chris@164	301 std::cout << "(done, lastEnd now " << lastEnd << ")" << std::endl;
Chris@164	302 #endif
Chris@43	303 }
Chris@43	304 m_lastModelEndFrame = lastEnd;
Chris@43	305
Chris@43	306 m_mutex.unlock();
Chris@43	307
Chris@43	308 m_audioGenerator->removeModel(model);
Chris@43	309
Chris@43	310 clearRingBuffers();
Chris@43	311 }
Chris@43	312
Chris@43	313 void
Chris@43	314 AudioCallbackPlaySource::clearModels()
Chris@43	315 {
Chris@43	316 m_mutex.lock();
Chris@43	317
Chris@43	318 #ifdef DEBUG_AUDIO_PLAY_SOURCE
Chris@43	319 std::cout << "AudioCallbackPlaySource::clearModels()" << std::endl;
Chris@43	320 #endif
Chris@43	321
Chris@43	322 m_models.clear();
Chris@43	323
Chris@43	324 if (m_converter) {
Chris@43	325 src_delete(m_converter);
Chris@43	326 src_delete(m_crapConverter);
Chris@43	327 m_converter = 0;
Chris@43	328 m_crapConverter = 0;
Chris@43	329 }
Chris@43	330
Chris@43	331 m_lastModelEndFrame = 0;
Chris@43	332
Chris@43	333 m_sourceSampleRate = 0;
Chris@43	334
Chris@43	335 m_mutex.unlock();
Chris@43	336
Chris@43	337 m_audioGenerator->clearModels();
Chris@93	338
Chris@93	339 clearRingBuffers();
Chris@43	340 }
Chris@43	341
Chris@43	342 void
Chris@43	343 AudioCallbackPlaySource::clearRingBuffers(bool haveLock, size_t count)
Chris@43	344 {
Chris@43	345 if (!haveLock) m_mutex.lock();
Chris@43	346
Chris@93	347 rebuildRangeLists();
Chris@93	348
Chris@43	349 if (count == 0) {
Chris@43	350 if (m_writeBuffers) count = m_writeBuffers->size();
Chris@43	351 }
Chris@43	352
Chris@93	353 m_writeBufferFill = getCurrentBufferedFrame();
Chris@43	354
Chris@43	355 if (m_readBuffers != m_writeBuffers) {
Chris@43	356 delete m_writeBuffers;
Chris@43	357 }
Chris@43	358
Chris@43	359 m_writeBuffers = new RingBufferVector;
Chris@43	360
Chris@43	361 for (size_t i = 0; i < count; ++i) {
Chris@43	362 m_writeBuffers->push_back(new RingBuffer<float>(m_ringBufferSize));
Chris@43	363 }
Chris@43	364
Chris@43	365 // std::cout << "AudioCallbackPlaySource::clearRingBuffers: Created "
Chris@43	366 // << count << " write buffers" << std::endl;
Chris@43	367
Chris@43	368 if (!haveLock) {
Chris@43	369 m_mutex.unlock();
Chris@43	370 }
Chris@43	371 }
Chris@43	372
Chris@43	373 void
Chris@43	374 AudioCallbackPlaySource::play(size_t startFrame)
Chris@43	375 {
Chris@43	376 if (m_viewManager->getPlaySelectionMode() &&
Chris@43	377 !m_viewManager->getSelections().empty()) {
Chris@60	378
Chris@94	379 std::cerr << "AudioCallbackPlaySource::play: constraining frame " << startFrame << " to selection = ";
Chris@94	380
Chris@60	381 startFrame = m_viewManager->constrainFrameToSelection(startFrame);
Chris@60	382
Chris@94	383 std::cerr << startFrame << std::endl;
Chris@94	384
Chris@43	385 } else {
Chris@43	386 if (startFrame >= m_lastModelEndFrame) {
Chris@43	387 startFrame = 0;
Chris@43	388 }
Chris@43	389 }
Chris@43	390
Chris@132	391 #ifdef DEBUG_AUDIO_PLAY_SOURCE
Chris@60	392 std::cerr << "play(" << startFrame << ") -> playback model ";
Chris@132	393 #endif
Chris@60	394
Chris@60	395 startFrame = m_viewManager->alignReferenceToPlaybackFrame(startFrame);
Chris@60	396
Chris@60	397 std::cerr << startFrame << std::endl;
Chris@60	398
Chris@43	399 // The fill thread will automatically empty its buffers before
Chris@43	400 // starting again if we have not so far been playing, but not if
Chris@43	401 // we're just re-seeking.
Chris@102	402 // NO -- we can end up playing some first -- always reset here
Chris@43	403
Chris@43	404 m_mutex.lock();
Chris@102	405
Chris@91	406 if (m_timeStretcher) {
Chris@91	407 m_timeStretcher->reset();
Chris@91	408 }
Chris@130	409 if (m_monoStretcher) {
Chris@130	410 m_monoStretcher->reset();
Chris@130	411 }
Chris@102	412
Chris@102	413 m_readBufferFill = m_writeBufferFill = startFrame;
Chris@102	414 if (m_readBuffers) {
Chris@102	415 for (size_t c = 0; c < getTargetChannelCount(); ++c) {
Chris@102	416 RingBuffer<float> *rb = getReadRingBuffer(c);
Chris@132	417 #ifdef DEBUG_AUDIO_PLAY_SOURCE
Chris@102	418 std::cerr << "reset ring buffer for channel " << c << std::endl;
Chris@132	419 #endif
Chris@102	420 if (rb) rb->reset();
Chris@102	421 }
Chris@43	422 }
Chris@102	423 if (m_converter) src_reset(m_converter);
Chris@102	424 if (m_crapConverter) src_reset(m_crapConverter);
Chris@102	425
Chris@43	426 m_mutex.unlock();
Chris@43	427
Chris@43	428 m_audioGenerator->reset();
Chris@43	429
Chris@94	430 m_playStartFrame = startFrame;
Chris@94	431 m_playStartFramePassed = false;
Chris@94	432 m_playStartedAt = RealTime::zeroTime;
Chris@94	433 if (m_target) {
Chris@94	434 m_playStartedAt = RealTime::fromSeconds(m_target->getCurrentTime());
Chris@94	435 }
Chris@94	436
Chris@43	437 bool changed = !m_playing;
Chris@91	438 m_lastRetrievalTimestamp = 0;
Chris@102	439 m_lastCurrentFrame = 0;
Chris@43	440 m_playing = true;
Chris@43	441 m_condition.wakeAll();
Chris@158	442 if (changed) {
Chris@158	443 emit playStatusChanged(m_playing);
Chris@158	444 emit activity(tr("Play from %1").arg
Chris@158	445 (RealTime::frame2RealTime
Chris@158	446 (m_playStartFrame, m_sourceSampleRate).toText().c_str()));
Chris@158	447 }
Chris@43	448 }
Chris@43	449
Chris@43	450 void
Chris@43	451 AudioCallbackPlaySource::stop()
Chris@43	452 {
Chris@43	453 bool changed = m_playing;
Chris@43	454 m_playing = false;
Chris@43	455 m_condition.wakeAll();
Chris@91	456 m_lastRetrievalTimestamp = 0;
Chris@158	457 if (changed) {
Chris@158	458 emit playStatusChanged(m_playing);
Chris@158	459 emit activity(tr("Stop at %1").arg
Chris@158	460 (RealTime::frame2RealTime
Chris@158	461 (m_lastCurrentFrame, m_sourceSampleRate).toText().c_str()));
Chris@158	462 }
Chris@102	463 m_lastCurrentFrame = 0;
Chris@43	464 }
Chris@43	465
Chris@43	466 void
Chris@43	467 AudioCallbackPlaySource::selectionChanged()
Chris@43	468 {
Chris@43	469 if (m_viewManager->getPlaySelectionMode()) {
Chris@43	470 clearRingBuffers();
Chris@43	471 }
Chris@43	472 }
Chris@43	473
Chris@43	474 void
Chris@43	475 AudioCallbackPlaySource::playLoopModeChanged()
Chris@43	476 {
Chris@43	477 clearRingBuffers();
Chris@43	478 }
Chris@43	479
Chris@43	480 void
Chris@43	481 AudioCallbackPlaySource::playSelectionModeChanged()
Chris@43	482 {
Chris@43	483 if (!m_viewManager->getSelections().empty()) {
Chris@43	484 clearRingBuffers();
Chris@43	485 }
Chris@43	486 }
Chris@43	487
Chris@43	488 void
Chris@43	489 AudioCallbackPlaySource::playParametersChanged(PlayParameters *)
Chris@43	490 {
Chris@43	491 clearRingBuffers();
Chris@43	492 }
Chris@43	493
Chris@43	494 void
Chris@43	495 AudioCallbackPlaySource::preferenceChanged(PropertyContainer::PropertyName n)
Chris@43	496 {
Chris@43	497 if (n == "Resample Quality") {
Chris@43	498 setResampleQuality(Preferences::getInstance()->getResampleQuality());
Chris@43	499 }
Chris@43	500 }
Chris@43	501
Chris@43	502 void
Chris@43	503 AudioCallbackPlaySource::audioProcessingOverload()
Chris@43	504 {
Chris@130	505 std::cerr << "Audio processing overload!" << std::endl;
Chris@130	506
Chris@130	507 if (!m_playing) return;
Chris@130	508
Chris@43	509 RealTimePluginInstance *ap = m_auditioningPlugin;
Chris@130	510 if (ap && !m_auditioningPluginBypassed) {
Chris@43	511 m_auditioningPluginBypassed = true;
Chris@43	512 emit audioOverloadPluginDisabled();
Chris@130	513 return;
Chris@130	514 }
Chris@130	515
Chris@130	516 if (m_timeStretcher &&
Chris@130	517 m_timeStretcher->getTimeRatio() < 1.0 &&
Chris@130	518 m_stretcherInputCount > 1 &&
Chris@130	519 m_monoStretcher && !m_stretchMono) {
Chris@130	520 m_stretchMono = true;
Chris@130	521 emit audioTimeStretchMultiChannelDisabled();
Chris@130	522 return;
Chris@43	523 }
Chris@43	524 }
Chris@43	525
Chris@43	526 void
Chris@91	527 AudioCallbackPlaySource::setTarget(AudioCallbackPlayTarget *target, size_t size)
Chris@43	528 {
Chris@91	529 m_target = target;
Chris@43	530 // std::cout << "AudioCallbackPlaySource::setTargetBlockSize() -> " << size << std::endl;
Chris@43	531 assert(size < m_ringBufferSize);
Chris@43	532 m_blockSize = size;
Chris@43	533 }
Chris@43	534
Chris@43	535 size_t
Chris@43	536 AudioCallbackPlaySource::getTargetBlockSize() const
Chris@43	537 {
Chris@43	538 // std::cout << "AudioCallbackPlaySource::getTargetBlockSize() -> " << m_blockSize << std::endl;
Chris@43	539 return m_blockSize;
Chris@43	540 }
Chris@43	541
Chris@43	542 void
Chris@43	543 AudioCallbackPlaySource::setTargetPlayLatency(size_t latency)
Chris@43	544 {
Chris@43	545 m_playLatency = latency;
Chris@43	546 }
Chris@43	547
Chris@43	548 size_t
Chris@43	549 AudioCallbackPlaySource::getTargetPlayLatency() const
Chris@43	550 {
Chris@43	551 return m_playLatency;
Chris@43	552 }
Chris@43	553
Chris@43	554 size_t
Chris@43	555 AudioCallbackPlaySource::getCurrentPlayingFrame()
Chris@43	556 {
Chris@91	557 // This method attempts to estimate which audio sample frame is
Chris@91	558 // "currently coming through the speakers".
Chris@91	559
Chris@93	560 size_t targetRate = getTargetSampleRate();
Chris@93	561 size_t latency = m_playLatency; // at target rate
Chris@93	562 RealTime latency_t = RealTime::frame2RealTime(latency, targetRate);
Chris@93	563
Chris@93	564 return getCurrentFrame(latency_t);
Chris@93	565 }
Chris@93	566
Chris@93	567 size_t
Chris@93	568 AudioCallbackPlaySource::getCurrentBufferedFrame()
Chris@93	569 {
Chris@93	570 return getCurrentFrame(RealTime::zeroTime);
Chris@93	571 }
Chris@93	572
Chris@93	573 size_t
Chris@93	574 AudioCallbackPlaySource::getCurrentFrame(RealTime latency_t)
Chris@93	575 {
Chris@43	576 bool resample = false;
Chris@91	577 double resampleRatio = 1.0;
Chris@43	578
Chris@91	579 // We resample when filling the ring buffer, and time-stretch when
Chris@91	580 // draining it. The buffer contains data at the "target rate" and
Chris@91	581 // the latency provided by the target is also at the target rate.
Chris@91	582 // Because of the multiple rates involved, we do the actual
Chris@91	583 // calculation using RealTime instead.
Chris@43	584
Chris@91	585 size_t sourceRate = getSourceSampleRate();
Chris@91	586 size_t targetRate = getTargetSampleRate();
Chris@91	587
Chris@91	588 if (sourceRate == 0 \|\| targetRate == 0) return 0;
Chris@91	589
Chris@91	590 size_t inbuffer = 0; // at target rate
Chris@91	591
Chris@43	592 for (size_t c = 0; c < getTargetChannelCount(); ++c) {
Chris@43	593 RingBuffer<float> *rb = getReadRingBuffer(c);
Chris@43	594 if (rb) {
Chris@91	595 size_t here = rb->getReadSpace();
Chris@91	596 if (c == 0 \|\| here < inbuffer) inbuffer = here;
Chris@43	597 }
Chris@43	598 }
Chris@43	599
Chris@91	600 size_t readBufferFill = m_readBufferFill;
Chris@91	601 size_t lastRetrievedBlockSize = m_lastRetrievedBlockSize;
Chris@91	602 double lastRetrievalTimestamp = m_lastRetrievalTimestamp;
Chris@91	603 double currentTime = 0.0;
Chris@91	604 if (m_target) currentTime = m_target->getCurrentTime();
Chris@91	605
Chris@102	606 bool looping = m_viewManager->getPlayLoopMode();
Chris@102	607
Chris@91	608 RealTime inbuffer_t = RealTime::frame2RealTime(inbuffer, targetRate);
Chris@91	609
Chris@91	610 size_t stretchlat = 0;
Chris@91	611 double timeRatio = 1.0;
Chris@91	612
Chris@91	613 if (m_timeStretcher) {
Chris@91	614 stretchlat = m_timeStretcher->getLatency();
Chris@91	615 timeRatio = m_timeStretcher->getTimeRatio();
Chris@43	616 }
Chris@43	617
Chris@91	618 RealTime stretchlat_t = RealTime::frame2RealTime(stretchlat, targetRate);
Chris@43	619
Chris@91	620 // When the target has just requested a block from us, the last
Chris@91	621 // sample it obtained was our buffer fill frame count minus the
Chris@91	622 // amount of read space (converted back to source sample rate)
Chris@91	623 // remaining now. That sample is not expected to be played until
Chris@91	624 // the target's play latency has elapsed. By the time the
Chris@91	625 // following block is requested, that sample will be at the
Chris@91	626 // target's play latency minus the last requested block size away
Chris@91	627 // from being played.
Chris@91	628
Chris@91	629 RealTime sincerequest_t = RealTime::zeroTime;
Chris@91	630 RealTime lastretrieved_t = RealTime::zeroTime;
Chris@91	631
Chris@102	632 if (m_target &&
Chris@102	633 m_trustworthyTimestamps &&
Chris@102	634 lastRetrievalTimestamp != 0.0) {
Chris@91	635
Chris@91	636 lastretrieved_t = RealTime::frame2RealTime
Chris@91	637 (lastRetrievedBlockSize, targetRate);
Chris@91	638
Chris@91	639 // calculate number of frames at target rate that have elapsed
Chris@91	640 // since the end of the last call to getSourceSamples
Chris@91	641
Chris@102	642 if (m_trustworthyTimestamps && !looping) {
Chris@91	643
Chris@102	644 // this adjustment seems to cause more problems when looping
Chris@102	645 double elapsed = currentTime - lastRetrievalTimestamp;
Chris@102	646
Chris@102	647 if (elapsed > 0.0) {
Chris@102	648 sincerequest_t = RealTime::fromSeconds(elapsed);
Chris@102	649 }
Chris@91	650 }
Chris@91	651
Chris@91	652 } else {
Chris@91	653
Chris@91	654 lastretrieved_t = RealTime::frame2RealTime
Chris@91	655 (getTargetBlockSize(), targetRate);
Chris@62	656 }
Chris@91	657
Chris@91	658 RealTime bufferedto_t = RealTime::frame2RealTime(readBufferFill, sourceRate);
Chris@91	659
Chris@91	660 if (timeRatio != 1.0) {
Chris@91	661 lastretrieved_t = lastretrieved_t / timeRatio;
Chris@91	662 sincerequest_t = sincerequest_t / timeRatio;
Chris@163	663 latency_t = latency_t / timeRatio;
Chris@43	664 }
Chris@43	665
Chris@91	666 #ifdef DEBUG_AUDIO_PLAY_SOURCE_PLAYING
Chris@163	667 std::cerr << "\nbuffered to: " << bufferedto_t << ", in buffer: " << inbuffer_t << ", time ratio " << timeRatio << "\n stretcher latency: " << stretchlat_t << ", device latency: " << latency_t << "\n since request: " << sincerequest_t << ", last retrieved quantity: " << lastretrieved_t << std::endl;
Chris@91	668 #endif
Chris@43	669
Chris@91	670 RealTime end = RealTime::frame2RealTime(m_lastModelEndFrame, sourceRate);
Chris@60	671
Chris@93	672 // Normally the range lists should contain at least one item each
Chris@93	673 // -- if playback is unconstrained, that item should report the
Chris@93	674 // entire source audio duration.
Chris@43	675
Chris@93	676 if (m_rangeStarts.empty()) {
Chris@93	677 rebuildRangeLists();
Chris@93	678 }
Chris@92	679
Chris@93	680 if (m_rangeStarts.empty()) {
Chris@93	681 // this code is only used in case of error in rebuildRangeLists
Chris@93	682 RealTime playing_t = bufferedto_t
Chris@93	683 - latency_t - stretchlat_t - lastretrieved_t - inbuffer_t
Chris@93	684 + sincerequest_t;
Chris@93	685 size_t frame = RealTime::realTime2Frame(playing_t, sourceRate);
Chris@93	686 return m_viewManager->alignPlaybackFrameToReference(frame);
Chris@93	687 }
Chris@43	688
Chris@91	689 int inRange = 0;
Chris@91	690 int index = 0;
Chris@91	691
Chris@93	692 for (size_t i = 0; i < m_rangeStarts.size(); ++i) {
Chris@93	693 if (bufferedto_t >= m_rangeStarts[i]) {
Chris@93	694 inRange = index;
Chris@93	695 } else {
Chris@93	696 break;
Chris@93	697 }
Chris@93	698 ++index;
Chris@93	699 }
Chris@93	700
Chris@93	701 if (inRange >= m_rangeStarts.size()) inRange = m_rangeStarts.size()-1;
Chris@93	702
Chris@94	703 RealTime playing_t = bufferedto_t;
Chris@93	704
Chris@93	705 playing_t = playing_t
Chris@93	706 - latency_t - stretchlat_t - lastretrieved_t - inbuffer_t
Chris@93	707 + sincerequest_t;
Chris@94	708
Chris@94	709 // This rather gross little hack is used to ensure that latency
Chris@94	710 // compensation doesn't result in the playback pointer appearing
Chris@94	711 // to start earlier than the actual playback does. It doesn't
Chris@94	712 // work properly (hence the bail-out in the middle) because if we
Chris@94	713 // are playing a relatively short looped region, the playing time
Chris@94	714 // estimated from the buffer fill frame may have wrapped around
Chris@94	715 // the region boundary and end up being much smaller than the
Chris@94	716 // theoretical play start frame, perhaps even for the entire
Chris@94	717 // duration of playback!
Chris@94	718
Chris@94	719 if (!m_playStartFramePassed) {
Chris@94	720 RealTime playstart_t = RealTime::frame2RealTime(m_playStartFrame,
Chris@94	721 sourceRate);
Chris@94	722 if (playing_t < playstart_t) {
Chris@132	723 // std::cerr << "playing_t " << playing_t << " < playstart_t "
Chris@132	724 // << playstart_t << std::endl;
Chris@122	725 if (/!!! sincerequest_t > RealTime::zeroTime && /
Chris@94	726 m_playStartedAt + latency_t + stretchlat_t <
Chris@94	727 RealTime::fromSeconds(currentTime)) {
Chris@176	728 // std::cerr << "but we've been playing for long enough that I think we should disregard it (it probably results from loop wrapping)" << std::endl;
Chris@94	729 m_playStartFramePassed = true;
Chris@94	730 } else {
Chris@94	731 playing_t = playstart_t;
Chris@94	732 }
Chris@94	733 } else {
Chris@94	734 m_playStartFramePassed = true;
Chris@94	735 }
Chris@94	736 }
Chris@163	737
Chris@163	738 #ifdef DEBUG_AUDIO_PLAY_SOURCE_PLAYING
Chris@163	739 std::cerr << "playing_t " << playing_t;
Chris@163	740 #endif
Chris@94	741
Chris@94	742 playing_t = playing_t - m_rangeStarts[inRange];
Chris@93	743
Chris@93	744 #ifdef DEBUG_AUDIO_PLAY_SOURCE_PLAYING
Chris@163	745 std::cerr << " as offset into range " << inRange << " (start =" << m_rangeStarts[inRange] << " duration =" << m_rangeDurations[inRange] << ") = " << playing_t << std::endl;
Chris@93	746 #endif
Chris@93	747
Chris@93	748 while (playing_t < RealTime::zeroTime) {
Chris@93	749
Chris@93	750 if (inRange == 0) {
Chris@93	751 if (looping) {
Chris@93	752 inRange = m_rangeStarts.size() - 1;
Chris@93	753 } else {
Chris@93	754 break;
Chris@93	755 }
Chris@93	756 } else {
Chris@93	757 --inRange;
Chris@93	758 }
Chris@93	759
Chris@93	760 playing_t = playing_t + m_rangeDurations[inRange];
Chris@93	761 }
Chris@93	762
Chris@93	763 playing_t = playing_t + m_rangeStarts[inRange];
Chris@93	764
Chris@93	765 #ifdef DEBUG_AUDIO_PLAY_SOURCE_PLAYING
Chris@93	766 std::cerr << " playing time: " << playing_t << std::endl;
Chris@93	767 #endif
Chris@93	768
Chris@93	769 if (!looping) {
Chris@93	770 if (inRange == m_rangeStarts.size()-1 &&
Chris@93	771 playing_t >= m_rangeStarts[inRange] + m_rangeDurations[inRange]) {
Chris@96	772 std::cerr << "Not looping, inRange " << inRange << " == rangeStarts.size()-1, playing_t " << playing_t << " >= m_rangeStarts[inRange] " << m_rangeStarts[inRange] << " + m_rangeDurations[inRange] " << m_rangeDurations[inRange] << " -- stopping" << std::endl;
Chris@93	773 stop();
Chris@93	774 }
Chris@93	775 }
Chris@93	776
Chris@93	777 if (playing_t < RealTime::zeroTime) playing_t = RealTime::zeroTime;
Chris@93	778
Chris@93	779 size_t frame = RealTime::realTime2Frame(playing_t, sourceRate);
Chris@102	780
Chris@102	781 if (m_lastCurrentFrame > 0 && !looping) {
Chris@102	782 if (frame < m_lastCurrentFrame) {
Chris@102	783 frame = m_lastCurrentFrame;
Chris@102	784 }
Chris@102	785 }
Chris@102	786
Chris@102	787 m_lastCurrentFrame = frame;
Chris@102	788
Chris@93	789 return m_viewManager->alignPlaybackFrameToReference(frame);
Chris@93	790 }
Chris@93	791
Chris@93	792 void
Chris@93	793 AudioCallbackPlaySource::rebuildRangeLists()
Chris@93	794 {
Chris@93	795 bool constrained = (m_viewManager->getPlaySelectionMode());
Chris@93	796
Chris@93	797 m_rangeStarts.clear();
Chris@93	798 m_rangeDurations.clear();
Chris@93	799
Chris@93	800 size_t sourceRate = getSourceSampleRate();
Chris@93	801 if (sourceRate == 0) return;
Chris@93	802
Chris@93	803 RealTime end = RealTime::frame2RealTime(m_lastModelEndFrame, sourceRate);
Chris@93	804 if (end == RealTime::zeroTime) return;
Chris@93	805
Chris@93	806 if (!constrained) {
Chris@93	807 m_rangeStarts.push_back(RealTime::zeroTime);
Chris@93	808 m_rangeDurations.push_back(end);
Chris@93	809 return;
Chris@93	810 }
Chris@93	811
Chris@93	812 MultiSelection::SelectionList selections = m_viewManager->getSelections();
Chris@93	813 MultiSelection::SelectionList::const_iterator i;
Chris@93	814
Chris@93	815 #ifdef DEBUG_AUDIO_PLAY_SOURCE
Chris@93	816 std::cerr << "AudioCallbackPlaySource::rebuildRangeLists" << std::endl;
Chris@93	817 #endif
Chris@93	818
Chris@93	819 if (!selections.empty()) {
Chris@91	820
Chris@91	821 for (i = selections.begin(); i != selections.end(); ++i) {
Chris@91	822
Chris@91	823 RealTime start =
Chris@91	824 (RealTime::frame2RealTime
Chris@91	825 (m_viewManager->alignReferenceToPlaybackFrame(i->getStartFrame()),
Chris@91	826 sourceRate));
Chris@91	827 RealTime duration =
Chris@91	828 (RealTime::frame2RealTime
Chris@91	829 (m_viewManager->alignReferenceToPlaybackFrame(i->getEndFrame()) -
Chris@91	830 m_viewManager->alignReferenceToPlaybackFrame(i->getStartFrame()),
Chris@91	831 sourceRate));
Chris@91	832
Chris@93	833 m_rangeStarts.push_back(start);
Chris@93	834 m_rangeDurations.push_back(duration);
Chris@91	835 }
Chris@93	836 } else {
Chris@93	837 m_rangeStarts.push_back(RealTime::zeroTime);
Chris@93	838 m_rangeDurations.push_back(end);
Chris@43	839 }
Chris@43	840
Chris@93	841 #ifdef DEBUG_AUDIO_PLAY_SOURCE
Chris@93	842 std::cerr << "Now have " << m_rangeStarts.size() << " play ranges" << std::endl;
Chris@91	843 #endif
Chris@43	844 }
Chris@43	845
Chris@43	846 void
Chris@43	847 AudioCallbackPlaySource::setOutputLevels(float left, float right)
Chris@43	848 {
Chris@43	849 m_outputLeft = left;
Chris@43	850 m_outputRight = right;
Chris@43	851 }
Chris@43	852
Chris@43	853 bool
Chris@43	854 AudioCallbackPlaySource::getOutputLevels(float &left, float &right)
Chris@43	855 {
Chris@43	856 left = m_outputLeft;
Chris@43	857 right = m_outputRight;
Chris@43	858 return true;
Chris@43	859 }
Chris@43	860
Chris@43	861 void
Chris@43	862 AudioCallbackPlaySource::setTargetSampleRate(size_t sr)
Chris@43	863 {
Chris@43	864 m_targetSampleRate = sr;
Chris@43	865 initialiseConverter();
Chris@43	866 }
Chris@43	867
Chris@43	868 void
Chris@43	869 AudioCallbackPlaySource::initialiseConverter()
Chris@43	870 {
Chris@43	871 m_mutex.lock();
Chris@43	872
Chris@43	873 if (m_converter) {
Chris@43	874 src_delete(m_converter);
Chris@43	875 src_delete(m_crapConverter);
Chris@43	876 m_converter = 0;
Chris@43	877 m_crapConverter = 0;
Chris@43	878 }
Chris@43	879
Chris@43	880 if (getSourceSampleRate() != getTargetSampleRate()) {
Chris@43	881
Chris@43	882 int err = 0;
Chris@43	883
Chris@43	884 m_converter = src_new(m_resampleQuality == 2 ? SRC_SINC_BEST_QUALITY :
Chris@43	885 m_resampleQuality == 1 ? SRC_SINC_MEDIUM_QUALITY :
Chris@43	886 m_resampleQuality == 0 ? SRC_SINC_FASTEST :
Chris@43	887 SRC_SINC_MEDIUM_QUALITY,
Chris@43	888 getTargetChannelCount(), &err);
Chris@43	889
Chris@43	890 if (m_converter) {
Chris@43	891 m_crapConverter = src_new(SRC_LINEAR,
Chris@43	892 getTargetChannelCount(),
Chris@43	893 &err);
Chris@43	894 }
Chris@43	895
Chris@43	896 if (!m_converter \|\| !m_crapConverter) {
Chris@43	897 std::cerr
Chris@43	898 << "AudioCallbackPlaySource::setModel: ERROR in creating samplerate converter: "
Chris@43	899 << src_strerror(err) << std::endl;
Chris@43	900
Chris@43	901 if (m_converter) {
Chris@43	902 src_delete(m_converter);
Chris@43	903 m_converter = 0;
Chris@43	904 }
Chris@43	905
Chris@43	906 if (m_crapConverter) {
Chris@43	907 src_delete(m_crapConverter);
Chris@43	908 m_crapConverter = 0;
Chris@43	909 }
Chris@43	910
Chris@43	911 m_mutex.unlock();
Chris@43	912
Chris@43	913 emit sampleRateMismatch(getSourceSampleRate(),
Chris@43	914 getTargetSampleRate(),
Chris@43	915 false);
Chris@43	916 } else {
Chris@43	917
Chris@43	918 m_mutex.unlock();
Chris@43	919
Chris@43	920 emit sampleRateMismatch(getSourceSampleRate(),
Chris@43	921 getTargetSampleRate(),
Chris@43	922 true);
Chris@43	923 }
Chris@43	924 } else {
Chris@43	925 m_mutex.unlock();
Chris@43	926 }
Chris@43	927 }
Chris@43	928
Chris@43	929 void
Chris@43	930 AudioCallbackPlaySource::setResampleQuality(int q)
Chris@43	931 {
Chris@43	932 if (q == m_resampleQuality) return;
Chris@43	933 m_resampleQuality = q;
Chris@43	934
Chris@43	935 #ifdef DEBUG_AUDIO_PLAY_SOURCE
Chris@43	936 std::cerr << "AudioCallbackPlaySource::setResampleQuality: setting to "
Chris@43	937 << m_resampleQuality << std::endl;
Chris@43	938 #endif
Chris@43	939
Chris@43	940 initialiseConverter();
Chris@43	941 }
Chris@43	942
Chris@43	943 void
Chris@107	944 AudioCallbackPlaySource::setAuditioningEffect(Auditionable *a)
Chris@43	945 {
Chris@107	946 RealTimePluginInstance plugin = dynamic_cast<RealTimePluginInstance >(a);
Chris@107	947 if (a && !plugin) {
Chris@107	948 std::cerr << "WARNING: AudioCallbackPlaySource::setAuditioningEffect: auditionable object " << a << " is not a real-time plugin instance" << std::endl;
Chris@107	949 }
Chris@43	950 RealTimePluginInstance *formerPlugin = m_auditioningPlugin;
Chris@43	951 m_auditioningPlugin = plugin;
Chris@43	952 m_auditioningPluginBypassed = false;
Chris@43	953 if (formerPlugin) m_pluginScavenger.claim(formerPlugin);
Chris@43	954 }
Chris@43	955
Chris@43	956 void
Chris@43	957 AudioCallbackPlaySource::setSoloModelSet(std::set<Model *> s)
Chris@43	958 {
Chris@43	959 m_audioGenerator->setSoloModelSet(s);
Chris@43	960 clearRingBuffers();
Chris@43	961 }
Chris@43	962
Chris@43	963 void
Chris@43	964 AudioCallbackPlaySource::clearSoloModelSet()
Chris@43	965 {
Chris@43	966 m_audioGenerator->clearSoloModelSet();
Chris@43	967 clearRingBuffers();
Chris@43	968 }
Chris@43	969
Chris@43	970 size_t
Chris@43	971 AudioCallbackPlaySource::getTargetSampleRate() const
Chris@43	972 {
Chris@43	973 if (m_targetSampleRate) return m_targetSampleRate;
Chris@43	974 else return getSourceSampleRate();
Chris@43	975 }
Chris@43	976
Chris@43	977 size_t
Chris@43	978 AudioCallbackPlaySource::getSourceChannelCount() const
Chris@43	979 {
Chris@43	980 return m_sourceChannelCount;
Chris@43	981 }
Chris@43	982
Chris@43	983 size_t
Chris@43	984 AudioCallbackPlaySource::getTargetChannelCount() const
Chris@43	985 {
Chris@43	986 if (m_sourceChannelCount < 2) return 2;
Chris@43	987 return m_sourceChannelCount;
Chris@43	988 }
Chris@43	989
Chris@43	990 size_t
Chris@43	991 AudioCallbackPlaySource::getSourceSampleRate() const
Chris@43	992 {
Chris@43	993 return m_sourceSampleRate;
Chris@43	994 }
Chris@43	995
Chris@43	996 void
Chris@91	997 AudioCallbackPlaySource::setTimeStretch(float factor)
Chris@43	998 {
Chris@91	999 m_stretchRatio = factor;
Chris@91	1000
Chris@91	1001 if (m_timeStretcher \|\| (factor == 1.f)) {
Chris@91	1002 // stretch ratio will be set in next process call if appropriate
Chris@62	1003 } else {
Chris@91	1004 m_stretcherInputCount = getTargetChannelCount();
Chris@62	1005 RubberBandStretcher *stretcher = new RubberBandStretcher
Chris@62	1006 (getTargetSampleRate(),
Chris@91	1007 m_stretcherInputCount,
Chris@62	1008 RubberBandStretcher::OptionProcessRealTime,
Chris@62	1009 factor);
Chris@130	1010 RubberBandStretcher *monoStretcher = new RubberBandStretcher
Chris@130	1011 (getTargetSampleRate(),
Chris@130	1012 1,
Chris@130	1013 RubberBandStretcher::OptionProcessRealTime,
Chris@130	1014 factor);
Chris@91	1015 m_stretcherInputs = new float *[m_stretcherInputCount];
Chris@91	1016 m_stretcherInputSizes = new size_t[m_stretcherInputCount];
Chris@91	1017 for (size_t c = 0; c < m_stretcherInputCount; ++c) {
Chris@91	1018 m_stretcherInputSizes[c] = 16384;
Chris@91	1019 m_stretcherInputs[c] = new float[m_stretcherInputSizes[c]];
Chris@91	1020 }
Chris@130	1021 m_monoStretcher = monoStretcher;
Chris@62	1022 m_timeStretcher = stretcher;
Chris@62	1023 }
Chris@158	1024
Chris@158	1025 emit activity(tr("Change time-stretch factor to %1").arg(factor));
Chris@43	1026 }
Chris@43	1027
Chris@43	1028 size_t
Chris@130	1029 AudioCallbackPlaySource::getSourceSamples(size_t ucount, float **buffer)
Chris@43	1030 {
Chris@130	1031 int count = ucount;
Chris@130	1032
Chris@43	1033 if (!m_playing) {
Chris@43	1034 for (size_t ch = 0; ch < getTargetChannelCount(); ++ch) {
Chris@130	1035 for (int i = 0; i < count; ++i) {
Chris@43	1036 buffer[ch][i] = 0.0;
Chris@43	1037 }
Chris@43	1038 }
Chris@43	1039 return 0;
Chris@43	1040 }
Chris@43	1041
Chris@43	1042 // Ensure that all buffers have at least the amount of data we
Chris@43	1043 // need -- else reduce the size of our requests correspondingly
Chris@43	1044
Chris@43	1045 for (size_t ch = 0; ch < getTargetChannelCount(); ++ch) {
Chris@43	1046
Chris@43	1047 RingBuffer<float> *rb = getReadRingBuffer(ch);
Chris@43	1048
Chris@43	1049 if (!rb) {
Chris@43	1050 std::cerr << "WARNING: AudioCallbackPlaySource::getSourceSamples: "
Chris@43	1051 << "No ring buffer available for channel " << ch
Chris@43	1052 << ", returning no data here" << std::endl;
Chris@43	1053 count = 0;
Chris@43	1054 break;
Chris@43	1055 }
Chris@43	1056
Chris@43	1057 size_t rs = rb->getReadSpace();
Chris@43	1058 if (rs < count) {
Chris@43	1059 #ifdef DEBUG_AUDIO_PLAY_SOURCE
Chris@43	1060 std::cerr << "WARNING: AudioCallbackPlaySource::getSourceSamples: "
Chris@43	1061 << "Ring buffer for channel " << ch << " has only "
Chris@43	1062 << rs << " (of " << count << ") samples available, "
Chris@43	1063 << "reducing request size" << std::endl;
Chris@43	1064 #endif
Chris@43	1065 count = rs;
Chris@43	1066 }
Chris@43	1067 }
Chris@43	1068
Chris@43	1069 if (count == 0) return 0;
Chris@43	1070
Chris@62	1071 RubberBandStretcher *ts = m_timeStretcher;
Chris@130	1072 RubberBandStretcher *ms = m_monoStretcher;
Chris@130	1073
Chris@62	1074 float ratio = ts ? ts->getTimeRatio() : 1.f;
Chris@91	1075
Chris@91	1076 if (ratio != m_stretchRatio) {
Chris@91	1077 if (!ts) {
Chris@91	1078 std::cerr << "WARNING: AudioCallbackPlaySource::getSourceSamples: Time ratio change to " << m_stretchRatio << " is pending, but no stretcher is set" << std::endl;
Chris@91	1079 m_stretchRatio = 1.f;
Chris@91	1080 } else {
Chris@91	1081 ts->setTimeRatio(m_stretchRatio);
Chris@130	1082 if (ms) ms->setTimeRatio(m_stretchRatio);
Chris@130	1083 if (m_stretchRatio >= 1.0) m_stretchMono = false;
Chris@130	1084 }
Chris@130	1085 }
Chris@130	1086
Chris@130	1087 int stretchChannels = m_stretcherInputCount;
Chris@130	1088 if (m_stretchMono) {
Chris@130	1089 if (ms) {
Chris@130	1090 ts = ms;
Chris@130	1091 stretchChannels = 1;
Chris@130	1092 } else {
Chris@130	1093 m_stretchMono = false;
Chris@91	1094 }
Chris@91	1095 }
Chris@91	1096
Chris@91	1097 if (m_target) {
Chris@91	1098 m_lastRetrievedBlockSize = count;
Chris@91	1099 m_lastRetrievalTimestamp = m_target->getCurrentTime();
Chris@91	1100 }
Chris@43	1101
Chris@62	1102 if (!ts \|\| ratio == 1.f) {
Chris@43	1103
Chris@130	1104 int got = 0;
Chris@43	1105
Chris@43	1106 for (size_t ch = 0; ch < getTargetChannelCount(); ++ch) {
Chris@43	1107
Chris@43	1108 RingBuffer<float> *rb = getReadRingBuffer(ch);
Chris@43	1109
Chris@43	1110 if (rb) {
Chris@43	1111
Chris@43	1112 // this is marginally more likely to leave our channels in
Chris@43	1113 // sync after a processing failure than just passing "count":
Chris@43	1114 size_t request = count;
Chris@43	1115 if (ch > 0) request = got;
Chris@43	1116
Chris@43	1117 got = rb->read(buffer[ch], request);
Chris@43	1118
Chris@43	1119 #ifdef DEBUG_AUDIO_PLAY_SOURCE_PLAYING
Chris@43	1120 std::cout << "AudioCallbackPlaySource::getSamples: got " << got << " (of " << count << ") samples on channel " << ch << ", signalling for more (possibly)" << std::endl;
Chris@43	1121 #endif
Chris@43	1122 }
Chris@43	1123
Chris@43	1124 for (size_t ch = 0; ch < getTargetChannelCount(); ++ch) {
Chris@130	1125 for (int i = got; i < count; ++i) {
Chris@43	1126 buffer[ch][i] = 0.0;
Chris@43	1127 }
Chris@43	1128 }
Chris@43	1129 }
Chris@43	1130
Chris@43	1131 applyAuditioningEffect(count, buffer);
Chris@43	1132
Chris@43	1133 m_condition.wakeAll();
Chris@91	1134
Chris@43	1135 return got;
Chris@43	1136 }
Chris@43	1137
Chris@62	1138 size_t channels = getTargetChannelCount();
Chris@91	1139 size_t available;
Chris@91	1140 int warned = 0;
Chris@91	1141 size_t fedToStretcher = 0;
Chris@43	1142
Chris@91	1143 // The input block for a given output is approx output / ratio,
Chris@91	1144 // but we can't predict it exactly, for an adaptive timestretcher.
Chris@91	1145
Chris@91	1146 while ((available = ts->available()) < count) {
Chris@91	1147
Chris@91	1148 size_t reqd = lrintf((count - available) / ratio);
Chris@91	1149 reqd = std::max(reqd, ts->getSamplesRequired());
Chris@91	1150 if (reqd == 0) reqd = 1;
Chris@91	1151
Chris@91	1152 size_t got = reqd;
Chris@91	1153
Chris@91	1154 #ifdef DEBUG_AUDIO_PLAY_SOURCE_PLAYING
Chris@91	1155 std::cerr << "reqd = " <<reqd << ", channels = " << channels << ", ic = " << m_stretcherInputCount << std::endl;
Chris@62	1156 #endif
Chris@43	1157
Chris@91	1158 for (size_t c = 0; c < channels; ++c) {
Chris@131	1159 if (c >= m_stretcherInputCount) continue;
Chris@91	1160 if (reqd > m_stretcherInputSizes[c]) {
Chris@91	1161 if (c == 0) {
Chris@91	1162 std::cerr << "WARNING: resizing stretcher input buffer from " << m_stretcherInputSizes[c] << " to " << (reqd * 2) << std::endl;
Chris@91	1163 }
Chris@91	1164 delete[] m_stretcherInputs[c];
Chris@91	1165 m_stretcherInputSizes[c] = reqd * 2;
Chris@91	1166 m_stretcherInputs[c] = new float[m_stretcherInputSizes[c]];
Chris@91	1167 }
Chris@91	1168 }
Chris@43	1169
Chris@91	1170 for (size_t c = 0; c < channels; ++c) {
Chris@131	1171 if (c >= m_stretcherInputCount) continue;
Chris@91	1172 RingBuffer<float> *rb = getReadRingBuffer(c);
Chris@91	1173 if (rb) {
Chris@130	1174 size_t gotHere;
Chris@130	1175 if (stretchChannels == 1 && c > 0) {
Chris@130	1176 gotHere = rb->readAdding(m_stretcherInputs[0], got);
Chris@130	1177 } else {
Chris@130	1178 gotHere = rb->read(m_stretcherInputs[c], got);
Chris@130	1179 }
Chris@91	1180 if (gotHere < got) got = gotHere;
Chris@91	1181
Chris@91	1182 #ifdef DEBUG_AUDIO_PLAY_SOURCE_PLAYING
Chris@91	1183 if (c == 0) {
Chris@91	1184 std::cerr << "feeding stretcher: got " << gotHere
Chris@91	1185 << ", " << rb->getReadSpace() << " remain" << std::endl;
Chris@91	1186 }
Chris@62	1187 #endif
Chris@43	1188
Chris@91	1189 } else {
Chris@91	1190 std::cerr << "WARNING: No ring buffer available for channel " << c << " in stretcher input block" << std::endl;
Chris@43	1191 }
Chris@43	1192 }
Chris@43	1193
Chris@43	1194 if (got < reqd) {
Chris@43	1195 std::cerr << "WARNING: Read underrun in playback ("
Chris@43	1196 << got << " < " << reqd << ")" << std::endl;
Chris@43	1197 }
Chris@43	1198
Chris@91	1199 ts->process(m_stretcherInputs, got, false);
Chris@91	1200
Chris@91	1201 fedToStretcher += got;
Chris@43	1202
Chris@43	1203 if (got == 0) break;
Chris@43	1204
Chris@62	1205 if (ts->available() == available) {
Chris@43	1206 std::cerr << "WARNING: AudioCallbackPlaySource::getSamples: Added " << got << " samples to time stretcher, created no new available output samples (warned = " << warned << ")" << std::endl;
Chris@43	1207 if (++warned == 5) break;
Chris@43	1208 }
Chris@43	1209 }
Chris@43	1210
Chris@62	1211 ts->retrieve(buffer, count);
Chris@43	1212
Chris@130	1213 for (int c = stretchChannels; c < getTargetChannelCount(); ++c) {
Chris@130	1214 for (int i = 0; i < count; ++i) {
Chris@130	1215 buffer[c][i] = buffer[0][i];
Chris@130	1216 }
Chris@130	1217 }
Chris@130	1218
Chris@43	1219 applyAuditioningEffect(count, buffer);
Chris@43	1220
Chris@43	1221 m_condition.wakeAll();
Chris@43	1222
Chris@43	1223 return count;
Chris@43	1224 }
Chris@43	1225
Chris@43	1226 void
Chris@43	1227 AudioCallbackPlaySource::applyAuditioningEffect(size_t count, float **buffers)
Chris@43	1228 {
Chris@43	1229 if (m_auditioningPluginBypassed) return;
Chris@43	1230 RealTimePluginInstance *plugin = m_auditioningPlugin;
Chris@43	1231 if (!plugin) return;
Chris@43	1232
Chris@43	1233 if (plugin->getAudioInputCount() != getTargetChannelCount()) {
Chris@43	1234 // std::cerr << "plugin input count " << plugin->getAudioInputCount()
Chris@43	1235 // << " != our channel count " << getTargetChannelCount()
Chris@43	1236 // << std::endl;
Chris@43	1237 return;
Chris@43	1238 }
Chris@43	1239 if (plugin->getAudioOutputCount() != getTargetChannelCount()) {
Chris@43	1240 // std::cerr << "plugin output count " << plugin->getAudioOutputCount()
Chris@43	1241 // << " != our channel count " << getTargetChannelCount()
Chris@43	1242 // << std::endl;
Chris@43	1243 return;
Chris@43	1244 }
Chris@102	1245 if (plugin->getBufferSize() < count) {
Chris@43	1246 // std::cerr << "plugin buffer size " << plugin->getBufferSize()
Chris@102	1247 // << " < our block size " << count
Chris@43	1248 // << std::endl;
Chris@43	1249 return;
Chris@43	1250 }
Chris@43	1251
Chris@43	1252 float **ib = plugin->getAudioInputBuffers();
Chris@43	1253 float **ob = plugin->getAudioOutputBuffers();
Chris@43	1254
Chris@43	1255 for (size_t c = 0; c < getTargetChannelCount(); ++c) {
Chris@43	1256 for (size_t i = 0; i < count; ++i) {
Chris@43	1257 ib[c][i] = buffers[c][i];
Chris@43	1258 }
Chris@43	1259 }
Chris@43	1260
Chris@102	1261 plugin->run(Vamp::RealTime::zeroTime, count);
Chris@43	1262
Chris@43	1263 for (size_t c = 0; c < getTargetChannelCount(); ++c) {
Chris@43	1264 for (size_t i = 0; i < count; ++i) {
Chris@43	1265 buffers[c][i] = ob[c][i];
Chris@43	1266 }
Chris@43	1267 }
Chris@43	1268 }
Chris@43	1269
Chris@43	1270 // Called from fill thread, m_playing true, mutex held
Chris@43	1271 bool
Chris@43	1272 AudioCallbackPlaySource::fillBuffers()
Chris@43	1273 {
Chris@43	1274 static float *tmp = 0;
Chris@43	1275 static size_t tmpSize = 0;
Chris@43	1276
Chris@43	1277 size_t space = 0;
Chris@43	1278 for (size_t c = 0; c < getTargetChannelCount(); ++c) {
Chris@43	1279 RingBuffer<float> *wb = getWriteRingBuffer(c);
Chris@43	1280 if (wb) {
Chris@43	1281 size_t spaceHere = wb->getWriteSpace();
Chris@43	1282 if (c == 0 \|\| spaceHere < space) space = spaceHere;
Chris@43	1283 }
Chris@43	1284 }
Chris@43	1285
Chris@103	1286 if (space == 0) {
Chris@103	1287 #ifdef DEBUG_AUDIO_PLAY_SOURCE
Chris@103	1288 std::cout << "AudioCallbackPlaySourceFillThread: no space to fill" << std::endl;
Chris@103	1289 #endif
Chris@103	1290 return false;
Chris@103	1291 }
Chris@43	1292
Chris@43	1293 size_t f = m_writeBufferFill;
Chris@43	1294
Chris@43	1295 bool readWriteEqual = (m_readBuffers == m_writeBuffers);
Chris@43	1296
Chris@43	1297 #ifdef DEBUG_AUDIO_PLAY_SOURCE
Chris@43	1298 std::cout << "AudioCallbackPlaySourceFillThread: filling " << space << " frames" << std::endl;
Chris@43	1299 #endif
Chris@43	1300
Chris@43	1301 #ifdef DEBUG_AUDIO_PLAY_SOURCE
Chris@43	1302 std::cout << "buffered to " << f << " already" << std::endl;
Chris@43	1303 #endif
Chris@43	1304
Chris@43	1305 bool resample = (getSourceSampleRate() != getTargetSampleRate());
Chris@43	1306
Chris@43	1307 #ifdef DEBUG_AUDIO_PLAY_SOURCE
Chris@43	1308 std::cout << (resample ? "" : "not ") << "resampling (source " << getSourceSampleRate() << ", target " << getTargetSampleRate() << ")" << std::endl;
Chris@43	1309 #endif
Chris@43	1310
Chris@43	1311 size_t channels = getTargetChannelCount();
Chris@43	1312
Chris@43	1313 size_t orig = space;
Chris@43	1314 size_t got = 0;
Chris@43	1315
Chris@43	1316 static float **bufferPtrs = 0;
Chris@43	1317 static size_t bufferPtrCount = 0;
Chris@43	1318
Chris@43	1319 if (bufferPtrCount < channels) {
Chris@43	1320 if (bufferPtrs) delete[] bufferPtrs;
Chris@43	1321 bufferPtrs = new float *[channels];
Chris@43	1322 bufferPtrCount = channels;
Chris@43	1323 }
Chris@43	1324
Chris@43	1325 size_t generatorBlockSize = m_audioGenerator->getBlockSize();
Chris@43	1326
Chris@43	1327 if (resample && !m_converter) {
Chris@43	1328 static bool warned = false;
Chris@43	1329 if (!warned) {
Chris@43	1330 std::cerr << "WARNING: sample rates differ, but no converter available!" << std::endl;
Chris@43	1331 warned = true;
Chris@43	1332 }
Chris@43	1333 }
Chris@43	1334
Chris@43	1335 if (resample && m_converter) {
Chris@43	1336
Chris@43	1337 double ratio =
Chris@43	1338 double(getTargetSampleRate()) / double(getSourceSampleRate());
Chris@43	1339 orig = size_t(orig / ratio + 0.1);
Chris@43	1340
Chris@43	1341 // orig must be a multiple of generatorBlockSize
Chris@43	1342 orig = (orig / generatorBlockSize) * generatorBlockSize;
Chris@43	1343 if (orig == 0) return false;
Chris@43	1344
Chris@43	1345 size_t work = std::max(orig, space);
Chris@43	1346
Chris@43	1347 // We only allocate one buffer, but we use it in two halves.
Chris@43	1348 // We place the non-interleaved values in the second half of
Chris@43	1349 // the buffer (orig samples for channel 0, orig samples for
Chris@43	1350 // channel 1 etc), and then interleave them into the first
Chris@43	1351 // half of the buffer. Then we resample back into the second
Chris@43	1352 // half (interleaved) and de-interleave the results back to
Chris@43	1353 // the start of the buffer for insertion into the ringbuffers.
Chris@43	1354 // What a faff -- especially as we've already de-interleaved
Chris@43	1355 // the audio data from the source file elsewhere before we
Chris@43	1356 // even reach this point.
Chris@43	1357
Chris@43	1358 if (tmpSize < channels * work * 2) {
Chris@43	1359 delete[] tmp;
Chris@43	1360 tmp = new float[channels * work * 2];
Chris@43	1361 tmpSize = channels * work * 2;
Chris@43	1362 }
Chris@43	1363
Chris@43	1364 float nonintlv = tmp + channels work;
Chris@43	1365 float *intlv = tmp;
Chris@43	1366 float srcout = tmp + channels work;
Chris@43	1367
Chris@43	1368 for (size_t c = 0; c < channels; ++c) {
Chris@43	1369 for (size_t i = 0; i < orig; ++i) {
Chris@43	1370 nonintlv[channels * i + c] = 0.0f;
Chris@43	1371 }
Chris@43	1372 }
Chris@43	1373
Chris@43	1374 for (size_t c = 0; c < channels; ++c) {
Chris@43	1375 bufferPtrs[c] = nonintlv + c * orig;
Chris@43	1376 }
Chris@43	1377
Chris@163	1378 got = mixModels(f, orig, bufferPtrs); // also modifies f
Chris@43	1379
Chris@43	1380 // and interleave into first half
Chris@43	1381 for (size_t c = 0; c < channels; ++c) {
Chris@43	1382 for (size_t i = 0; i < got; ++i) {
Chris@43	1383 float sample = nonintlv[c * got + i];
Chris@43	1384 intlv[channels * i + c] = sample;
Chris@43	1385 }
Chris@43	1386 }
Chris@43	1387
Chris@43	1388 SRC_DATA data;
Chris@43	1389 data.data_in = intlv;
Chris@43	1390 data.data_out = srcout;
Chris@43	1391 data.input_frames = got;
Chris@43	1392 data.output_frames = work;
Chris@43	1393 data.src_ratio = ratio;
Chris@43	1394 data.end_of_input = 0;
Chris@43	1395
Chris@43	1396 int err = 0;
Chris@43	1397
Chris@62	1398 if (m_timeStretcher && m_timeStretcher->getTimeRatio() < 0.4) {
Chris@43	1399 #ifdef DEBUG_AUDIO_PLAY_SOURCE
Chris@43	1400 std::cout << "Using crappy converter" << std::endl;
Chris@43	1401 #endif
Chris@43	1402 err = src_process(m_crapConverter, &data);
Chris@43	1403 } else {
Chris@43	1404 err = src_process(m_converter, &data);
Chris@43	1405 }
Chris@43	1406
Chris@43	1407 size_t toCopy = size_t(got * ratio + 0.1);
Chris@43	1408
Chris@43	1409 if (err) {
Chris@43	1410 std::cerr
Chris@43	1411 << "AudioCallbackPlaySourceFillThread: ERROR in samplerate conversion: "
Chris@43	1412 << src_strerror(err) << std::endl;
Chris@43	1413 //!!! Then what?
Chris@43	1414 } else {
Chris@43	1415 got = data.input_frames_used;
Chris@43	1416 toCopy = data.output_frames_gen;
Chris@43	1417 #ifdef DEBUG_AUDIO_PLAY_SOURCE
Chris@43	1418 std::cout << "Resampled " << got << " frames to " << toCopy << " frames" << std::endl;
Chris@43	1419 #endif
Chris@43	1420 }
Chris@43	1421
Chris@43	1422 for (size_t c = 0; c < channels; ++c) {
Chris@43	1423 for (size_t i = 0; i < toCopy; ++i) {
Chris@43	1424 tmp[i] = srcout[channels * i + c];
Chris@43	1425 }
Chris@43	1426 RingBuffer<float> *wb = getWriteRingBuffer(c);
Chris@43	1427 if (wb) wb->write(tmp, toCopy);
Chris@43	1428 }
Chris@43	1429
Chris@43	1430 m_writeBufferFill = f;
Chris@43	1431 if (readWriteEqual) m_readBufferFill = f;
Chris@43	1432
Chris@43	1433 } else {
Chris@43	1434
Chris@43	1435 // space must be a multiple of generatorBlockSize
Chris@43	1436 space = (space / generatorBlockSize) * generatorBlockSize;
Chris@91	1437 if (space == 0) {
Chris@91	1438 #ifdef DEBUG_AUDIO_PLAY_SOURCE
Chris@91	1439 std::cout << "requested fill is less than generator block size of "
Chris@91	1440 << generatorBlockSize << ", leaving it" << std::endl;
Chris@91	1441 #endif
Chris@91	1442 return false;
Chris@91	1443 }
Chris@43	1444
Chris@43	1445 if (tmpSize < channels * space) {
Chris@43	1446 delete[] tmp;
Chris@43	1447 tmp = new float[channels * space];
Chris@43	1448 tmpSize = channels * space;
Chris@43	1449 }
Chris@43	1450
Chris@43	1451 for (size_t c = 0; c < channels; ++c) {
Chris@43	1452
Chris@43	1453 bufferPtrs[c] = tmp + c * space;
Chris@43	1454
Chris@43	1455 for (size_t i = 0; i < space; ++i) {
Chris@43	1456 tmp[c * space + i] = 0.0f;
Chris@43	1457 }
Chris@43	1458 }
Chris@43	1459
Chris@163	1460 size_t got = mixModels(f, space, bufferPtrs); // also modifies f
Chris@43	1461
Chris@43	1462 for (size_t c = 0; c < channels; ++c) {
Chris@43	1463
Chris@43	1464 RingBuffer<float> *wb = getWriteRingBuffer(c);
Chris@43	1465 if (wb) {
Chris@43	1466 size_t actual = wb->write(bufferPtrs[c], got);
Chris@43	1467 #ifdef DEBUG_AUDIO_PLAY_SOURCE
Chris@43	1468 std::cout << "Wrote " << actual << " samples for ch " << c << ", now "
Chris@43	1469 << wb->getReadSpace() << " to read"
Chris@43	1470 << std::endl;
Chris@43	1471 #endif
Chris@43	1472 if (actual < got) {
Chris@43	1473 std::cerr << "WARNING: Buffer overrun in channel " << c
Chris@43	1474 << ": wrote " << actual << " of " << got
Chris@43	1475 << " samples" << std::endl;
Chris@43	1476 }
Chris@43	1477 }
Chris@43	1478 }
Chris@43	1479
Chris@43	1480 m_writeBufferFill = f;
Chris@43	1481 if (readWriteEqual) m_readBufferFill = f;
Chris@43	1482
Chris@163	1483 #ifdef DEBUG_AUDIO_PLAY_SOURCE
Chris@163	1484 std::cout << "Read buffer fill is now " << m_readBufferFill << std::endl;
Chris@163	1485 #endif
Chris@163	1486
Chris@43	1487 //!!! how do we know when ended? need to mark up a fully-buffered flag and check this if we find the buffers empty in getSourceSamples
Chris@43	1488 }
Chris@43	1489
Chris@43	1490 return true;
Chris@43	1491 }
Chris@43	1492
Chris@43	1493 size_t
Chris@43	1494 AudioCallbackPlaySource::mixModels(size_t &frame, size_t count, float **buffers)
Chris@43	1495 {
Chris@43	1496 size_t processed = 0;
Chris@43	1497 size_t chunkStart = frame;
Chris@43	1498 size_t chunkSize = count;
Chris@43	1499 size_t selectionSize = 0;
Chris@43	1500 size_t nextChunkStart = chunkStart + chunkSize;
Chris@43	1501
Chris@43	1502 bool looping = m_viewManager->getPlayLoopMode();
Chris@43	1503 bool constrained = (m_viewManager->getPlaySelectionMode() &&
Chris@43	1504 !m_viewManager->getSelections().empty());
Chris@43	1505
Chris@43	1506 static float **chunkBufferPtrs = 0;
Chris@43	1507 static size_t chunkBufferPtrCount = 0;
Chris@43	1508 size_t channels = getTargetChannelCount();
Chris@43	1509
Chris@43	1510 #ifdef DEBUG_AUDIO_PLAY_SOURCE
Chris@43	1511 std::cout << "Selection playback: start " << frame << ", size " << count <<", channels " << channels << std::endl;
Chris@43	1512 #endif
Chris@43	1513
Chris@43	1514 if (chunkBufferPtrCount < channels) {
Chris@43	1515 if (chunkBufferPtrs) delete[] chunkBufferPtrs;
Chris@43	1516 chunkBufferPtrs = new float *[channels];
Chris@43	1517 chunkBufferPtrCount = channels;
Chris@43	1518 }
Chris@43	1519
Chris@43	1520 for (size_t c = 0; c < channels; ++c) {
Chris@43	1521 chunkBufferPtrs[c] = buffers[c];
Chris@43	1522 }
Chris@43	1523
Chris@43	1524 while (processed < count) {
Chris@43	1525
Chris@43	1526 chunkSize = count - processed;
Chris@43	1527 nextChunkStart = chunkStart + chunkSize;
Chris@43	1528 selectionSize = 0;
Chris@43	1529
Chris@43	1530 size_t fadeIn = 0, fadeOut = 0;
Chris@43	1531
Chris@43	1532 if (constrained) {
Chris@60	1533
Chris@60	1534 size_t rChunkStart =
Chris@60	1535 m_viewManager->alignPlaybackFrameToReference(chunkStart);
Chris@43	1536
Chris@43	1537 Selection selection =
Chris@60	1538 m_viewManager->getContainingSelection(rChunkStart, true);
Chris@43	1539
Chris@43	1540 if (selection.isEmpty()) {
Chris@43	1541 if (looping) {
Chris@43	1542 selection = *m_viewManager->getSelections().begin();
Chris@60	1543 chunkStart = m_viewManager->alignReferenceToPlaybackFrame
Chris@60	1544 (selection.getStartFrame());
Chris@43	1545 fadeIn = 50;
Chris@43	1546 }
Chris@43	1547 }
Chris@43	1548
Chris@43	1549 if (selection.isEmpty()) {
Chris@43	1550
Chris@43	1551 chunkSize = 0;
Chris@43	1552 nextChunkStart = chunkStart;
Chris@43	1553
Chris@43	1554 } else {
Chris@43	1555
Chris@60	1556 size_t sf = m_viewManager->alignReferenceToPlaybackFrame
Chris@60	1557 (selection.getStartFrame());
Chris@60	1558 size_t ef = m_viewManager->alignReferenceToPlaybackFrame
Chris@60	1559 (selection.getEndFrame());
Chris@43	1560
Chris@60	1561 selectionSize = ef - sf;
Chris@60	1562
Chris@60	1563 if (chunkStart < sf) {
Chris@60	1564 chunkStart = sf;
Chris@43	1565 fadeIn = 50;
Chris@43	1566 }
Chris@43	1567
Chris@43	1568 nextChunkStart = chunkStart + chunkSize;
Chris@43	1569
Chris@60	1570 if (nextChunkStart >= ef) {
Chris@60	1571 nextChunkStart = ef;
Chris@43	1572 fadeOut = 50;
Chris@43	1573 }
Chris@43	1574
Chris@43	1575 chunkSize = nextChunkStart - chunkStart;
Chris@43	1576 }
Chris@43	1577
Chris@43	1578 } else if (looping && m_lastModelEndFrame > 0) {
Chris@43	1579
Chris@43	1580 if (chunkStart >= m_lastModelEndFrame) {
Chris@43	1581 chunkStart = 0;
Chris@43	1582 }
Chris@43	1583 if (chunkSize > m_lastModelEndFrame - chunkStart) {
Chris@43	1584 chunkSize = m_lastModelEndFrame - chunkStart;
Chris@43	1585 }
Chris@43	1586 nextChunkStart = chunkStart + chunkSize;
Chris@43	1587 }
Chris@43	1588
Chris@43	1589 // std::cout << "chunkStart " << chunkStart << ", chunkSize " << chunkSize << ", nextChunkStart " << nextChunkStart << ", frame " << frame << ", count " << count << ", processed " << processed << std::endl;
Chris@43	1590
Chris@43	1591 if (!chunkSize) {
Chris@43	1592 #ifdef DEBUG_AUDIO_PLAY_SOURCE
Chris@43	1593 std::cout << "Ending selection playback at " << nextChunkStart << std::endl;
Chris@43	1594 #endif
Chris@43	1595 // We need to maintain full buffers so that the other
Chris@43	1596 // thread can tell where it's got to in the playback -- so
Chris@43	1597 // return the full amount here
Chris@43	1598 frame = frame + count;
Chris@43	1599 return count;
Chris@43	1600 }
Chris@43	1601
Chris@43	1602 #ifdef DEBUG_AUDIO_PLAY_SOURCE
Chris@43	1603 std::cout << "Selection playback: chunk at " << chunkStart << " -> " << nextChunkStart << " (size " << chunkSize << ")" << std::endl;
Chris@43	1604 #endif
Chris@43	1605
Chris@43	1606 size_t got = 0;
Chris@43	1607
Chris@43	1608 if (selectionSize < 100) {
Chris@43	1609 fadeIn = 0;
Chris@43	1610 fadeOut = 0;
Chris@43	1611 } else if (selectionSize < 300) {
Chris@43	1612 if (fadeIn > 0) fadeIn = 10;
Chris@43	1613 if (fadeOut > 0) fadeOut = 10;
Chris@43	1614 }
Chris@43	1615
Chris@43	1616 if (fadeIn > 0) {
Chris@43	1617 if (processed * 2 < fadeIn) {
Chris@43	1618 fadeIn = processed * 2;
Chris@43	1619 }
Chris@43	1620 }
Chris@43	1621
Chris@43	1622 if (fadeOut > 0) {
Chris@43	1623 if ((count - processed - chunkSize) * 2 < fadeOut) {
Chris@43	1624 fadeOut = (count - processed - chunkSize) * 2;
Chris@43	1625 }
Chris@43	1626 }
Chris@43	1627
Chris@43	1628 for (std::set<Model *>::iterator mi = m_models.begin();
Chris@43	1629 mi != m_models.end(); ++mi) {
Chris@43	1630
Chris@43	1631 got = m_audioGenerator->mixModel(*mi, chunkStart,
Chris@43	1632 chunkSize, chunkBufferPtrs,
Chris@43	1633 fadeIn, fadeOut);
Chris@43	1634 }
Chris@43	1635
Chris@43	1636 for (size_t c = 0; c < channels; ++c) {
Chris@43	1637 chunkBufferPtrs[c] += chunkSize;
Chris@43	1638 }
Chris@43	1639
Chris@43	1640 processed += chunkSize;
Chris@43	1641 chunkStart = nextChunkStart;
Chris@43	1642 }
Chris@43	1643
Chris@43	1644 #ifdef DEBUG_AUDIO_PLAY_SOURCE
Chris@43	1645 std::cout << "Returning selection playback " << processed << " frames to " << nextChunkStart << std::endl;
Chris@43	1646 #endif
Chris@43	1647
Chris@43	1648 frame = nextChunkStart;
Chris@43	1649 return processed;
Chris@43	1650 }
Chris@43	1651
Chris@43	1652 void
Chris@43	1653 AudioCallbackPlaySource::unifyRingBuffers()
Chris@43	1654 {
Chris@43	1655 if (m_readBuffers == m_writeBuffers) return;
Chris@43	1656
Chris@43	1657 // only unify if there will be something to read
Chris@43	1658 for (size_t c = 0; c < getTargetChannelCount(); ++c) {
Chris@43	1659 RingBuffer<float> *wb = getWriteRingBuffer(c);
Chris@43	1660 if (wb) {
Chris@43	1661 if (wb->getReadSpace() < m_blockSize * 2) {
Chris@43	1662 if ((m_writeBufferFill + m_blockSize * 2) <
Chris@43	1663 m_lastModelEndFrame) {
Chris@43	1664 // OK, we don't have enough and there's more to
Chris@43	1665 // read -- don't unify until we can do better
Chris@43	1666 return;
Chris@43	1667 }
Chris@43	1668 }
Chris@43	1669 break;
Chris@43	1670 }
Chris@43	1671 }
Chris@43	1672
Chris@43	1673 size_t rf = m_readBufferFill;
Chris@43	1674 RingBuffer<float> *rb = getReadRingBuffer(0);
Chris@43	1675 if (rb) {
Chris@43	1676 size_t rs = rb->getReadSpace();
Chris@43	1677 //!!! incorrect when in non-contiguous selection, see comments elsewhere
Chris@43	1678 // std::cout << "rs = " << rs << std::endl;
Chris@43	1679 if (rs < rf) rf -= rs;
Chris@43	1680 else rf = 0;
Chris@43	1681 }
Chris@43	1682
Chris@43	1683 //std::cout << "m_readBufferFill = " << m_readBufferFill << ", rf = " << rf << ", m_writeBufferFill = " << m_writeBufferFill << std::endl;
Chris@43	1684
Chris@43	1685 size_t wf = m_writeBufferFill;
Chris@43	1686 size_t skip = 0;
Chris@43	1687 for (size_t c = 0; c < getTargetChannelCount(); ++c) {
Chris@43	1688 RingBuffer<float> *wb = getWriteRingBuffer(c);
Chris@43	1689 if (wb) {
Chris@43	1690 if (c == 0) {
Chris@43	1691
Chris@43	1692 size_t wrs = wb->getReadSpace();
Chris@43	1693 // std::cout << "wrs = " << wrs << std::endl;
Chris@43	1694
Chris@43	1695 if (wrs < wf) wf -= wrs;
Chris@43	1696 else wf = 0;
Chris@43	1697 // std::cout << "wf = " << wf << std::endl;
Chris@43	1698
Chris@43	1699 if (wf < rf) skip = rf - wf;
Chris@43	1700 if (skip == 0) break;
Chris@43	1701 }
Chris@43	1702
Chris@43	1703 // std::cout << "skipping " << skip << std::endl;
Chris@43	1704 wb->skip(skip);
Chris@43	1705 }
Chris@43	1706 }
Chris@43	1707
Chris@43	1708 m_bufferScavenger.claim(m_readBuffers);
Chris@43	1709 m_readBuffers = m_writeBuffers;
Chris@43	1710 m_readBufferFill = m_writeBufferFill;
Chris@43	1711 // std::cout << "unified" << std::endl;
Chris@43	1712 }
Chris@43	1713
Chris@43	1714 void
Chris@43	1715 AudioCallbackPlaySource::FillThread::run()
Chris@43	1716 {
Chris@43	1717 AudioCallbackPlaySource &s(m_source);
Chris@43	1718
Chris@43	1719 #ifdef DEBUG_AUDIO_PLAY_SOURCE
Chris@43	1720 std::cout << "AudioCallbackPlaySourceFillThread starting" << std::endl;
Chris@43	1721 #endif
Chris@43	1722
Chris@43	1723 s.m_mutex.lock();
Chris@43	1724
Chris@43	1725 bool previouslyPlaying = s.m_playing;
Chris@43	1726 bool work = false;
Chris@43	1727
Chris@43	1728 while (!s.m_exiting) {
Chris@43	1729
Chris@43	1730 s.unifyRingBuffers();
Chris@43	1731 s.m_bufferScavenger.scavenge();
Chris@43	1732 s.m_pluginScavenger.scavenge();
Chris@43	1733
Chris@43	1734 if (work && s.m_playing && s.getSourceSampleRate()) {
Chris@43	1735
Chris@43	1736 #ifdef DEBUG_AUDIO_PLAY_SOURCE
Chris@43	1737 std::cout << "AudioCallbackPlaySourceFillThread: not waiting" << std::endl;
Chris@43	1738 #endif
Chris@43	1739
Chris@43	1740 s.m_mutex.unlock();
Chris@43	1741 s.m_mutex.lock();
Chris@43	1742
Chris@43	1743 } else {
Chris@43	1744
Chris@43	1745 float ms = 100;
Chris@43	1746 if (s.getSourceSampleRate() > 0) {
Chris@43	1747 ms = float(m_ringBufferSize) / float(s.getSourceSampleRate()) * 1000.0;
Chris@43	1748 }
Chris@43	1749
Chris@43	1750 if (s.m_playing) ms /= 10;
Chris@43	1751
Chris@43	1752 #ifdef DEBUG_AUDIO_PLAY_SOURCE
Chris@43	1753 if (!s.m_playing) std::cout << std::endl;
Chris@43	1754 std::cout << "AudioCallbackPlaySourceFillThread: waiting for " << ms << "ms..." << std::endl;
Chris@43	1755 #endif
Chris@43	1756
Chris@43	1757 s.m_condition.wait(&s.m_mutex, size_t(ms));
Chris@43	1758 }
Chris@43	1759
Chris@43	1760 #ifdef DEBUG_AUDIO_PLAY_SOURCE
Chris@43	1761 std::cout << "AudioCallbackPlaySourceFillThread: awoken" << std::endl;
Chris@43	1762 #endif
Chris@43	1763
Chris@43	1764 work = false;
Chris@43	1765
Chris@103	1766 if (!s.getSourceSampleRate()) {
Chris@103	1767 #ifdef DEBUG_AUDIO_PLAY_SOURCE
Chris@103	1768 std::cout << "AudioCallbackPlaySourceFillThread: source sample rate is zero" << std::endl;
Chris@103	1769 #endif
Chris@103	1770 continue;
Chris@103	1771 }
Chris@43	1772
Chris@43	1773 bool playing = s.m_playing;
Chris@43	1774
Chris@43	1775 if (playing && !previouslyPlaying) {
Chris@43	1776 #ifdef DEBUG_AUDIO_PLAY_SOURCE
Chris@43	1777 std::cout << "AudioCallbackPlaySourceFillThread: playback state changed, resetting" << std::endl;
Chris@43	1778 #endif
Chris@43	1779 for (size_t c = 0; c < s.getTargetChannelCount(); ++c) {
Chris@43	1780 RingBuffer<float> *rb = s.getReadRingBuffer(c);
Chris@43	1781 if (rb) rb->reset();
Chris@43	1782 }
Chris@43	1783 }
Chris@43	1784 previouslyPlaying = playing;
Chris@43	1785
Chris@43	1786 work = s.fillBuffers();
Chris@43	1787 }
Chris@43	1788
Chris@43	1789 s.m_mutex.unlock();
Chris@43	1790 }
Chris@43	1791

Mercurial > hg > svapp

annotate audioio/AudioCallbackPlaySource.cpp @ 177:7dae51741cc9