Mercurial > hg > svapp
view audioio/AudioGenerator.cpp @ 346:0e4332efcc7d tony_integration
Fix failure to take note level into account in playback
author | Chris Cannam |
---|---|
date | Wed, 07 May 2014 15:11:20 +0100 |
parents | 5c69d40a0e30 |
children | f8e1ca25dd80 |
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/* -*- c-basic-offset: 4 indent-tabs-mode: nil -*- vi:set ts=8 sts=4 sw=4: */ /* Sonic Visualiser An audio file viewer and annotation editor. Centre for Digital Music, Queen Mary, University of London. This file copyright 2006 Chris Cannam. 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. See the file COPYING included with this distribution for more information. */ #include "AudioGenerator.h" #include "base/TempDirectory.h" #include "base/PlayParameters.h" #include "base/PlayParameterRepository.h" #include "base/Pitch.h" #include "base/Exceptions.h" #include "data/model/NoteModel.h" #include "data/model/FlexiNoteModel.h" #include "data/model/DenseTimeValueModel.h" #include "data/model/SparseTimeValueModel.h" #include "data/model/SparseOneDimensionalModel.h" #include "data/model/NoteData.h" #include "ClipMixer.h" #include "ContinuousSynth.h" #include <iostream> #include <cmath> #include <QDir> #include <QFile> const size_t AudioGenerator::m_processingBlockSize = 1024; QString AudioGenerator::m_sampleDir = ""; //#define DEBUG_AUDIO_GENERATOR 1 AudioGenerator::AudioGenerator() : m_sourceSampleRate(0), m_targetChannelCount(1), m_waveType(0), m_soloing(false) { initialiseSampleDir(); connect(PlayParameterRepository::getInstance(), SIGNAL(playClipIdChanged(const Playable *, QString)), this, SLOT(playClipIdChanged(const Playable *, QString))); } AudioGenerator::~AudioGenerator() { #ifdef DEBUG_AUDIO_GENERATOR SVDEBUG << "AudioGenerator::~AudioGenerator" << endl; #endif } void AudioGenerator::initialiseSampleDir() { if (m_sampleDir != "") return; try { m_sampleDir = TempDirectory::getInstance()->getSubDirectoryPath("samples"); } catch (DirectoryCreationFailed f) { cerr << "WARNING: AudioGenerator::initialiseSampleDir:" << " Failed to create temporary sample directory" << endl; m_sampleDir = ""; return; } QDir sampleResourceDir(":/samples", "*.wav"); for (unsigned int i = 0; i < sampleResourceDir.count(); ++i) { QString fileName(sampleResourceDir[i]); QFile file(sampleResourceDir.filePath(fileName)); QString target = QDir(m_sampleDir).filePath(fileName); if (!file.copy(target)) { cerr << "WARNING: AudioGenerator::getSampleDir: " << "Unable to copy " << fileName << " into temporary directory \"" << m_sampleDir << "\"" << endl; } else { QFile tf(target); tf.setPermissions(tf.permissions() | QFile::WriteOwner | QFile::WriteUser); } } } bool AudioGenerator::addModel(Model *model) { if (m_sourceSampleRate == 0) { m_sourceSampleRate = model->getSampleRate(); } else { DenseTimeValueModel *dtvm = dynamic_cast<DenseTimeValueModel *>(model); if (dtvm) { m_sourceSampleRate = model->getSampleRate(); return true; } } if (usesClipMixer(model)) { ClipMixer *mixer = makeClipMixerFor(model); if (mixer) { QMutexLocker locker(&m_mutex); m_clipMixerMap[model] = mixer; return true; } } if (usesContinuousSynth(model)) { ContinuousSynth *synth = makeSynthFor(model); if (synth) { QMutexLocker locker(&m_mutex); m_continuousSynthMap[model] = synth; return true; } } return false; } void AudioGenerator::playClipIdChanged(const Playable *playable, QString) { const Model *model = dynamic_cast<const Model *>(playable); if (!model) { cerr << "WARNING: AudioGenerator::playClipIdChanged: playable " << playable << " is not a supported model type" << endl; return; } if (m_clipMixerMap.find(model) == m_clipMixerMap.end()) return; ClipMixer *mixer = makeClipMixerFor(model); if (mixer) { QMutexLocker locker(&m_mutex); m_clipMixerMap[model] = mixer; } } bool AudioGenerator::usesClipMixer(const Model *model) { bool clip = (qobject_cast<const SparseOneDimensionalModel *>(model) || qobject_cast<const NoteModel *>(model) || qobject_cast<const FlexiNoteModel *>(model)); return clip; } bool AudioGenerator::usesContinuousSynth(const Model *model) { bool cont = (qobject_cast<const SparseTimeValueModel *>(model)); return cont; } ClipMixer * AudioGenerator::makeClipMixerFor(const Model *model) { QString clipId; const Playable *playable = model; if (!playable || !playable->canPlay()) return 0; PlayParameters *parameters = PlayParameterRepository::getInstance()->getPlayParameters(playable); if (parameters) { clipId = parameters->getPlayClipId(); } std::cerr << "AudioGenerator::makeClipMixerFor(" << model << "): sample id = " << clipId << std::endl; if (clipId == "") { SVDEBUG << "AudioGenerator::makeClipMixerFor(" << model << "): no sample, skipping" << endl; return 0; } ClipMixer *mixer = new ClipMixer(m_targetChannelCount, m_sourceSampleRate, m_processingBlockSize); float clipF0 = Pitch::getFrequencyForPitch(60, 0, 440.0f); // required QString clipPath = QString("%1/%2.wav").arg(m_sampleDir).arg(clipId); if (!mixer->loadClipData(clipPath, clipF0)) { delete mixer; return 0; } std::cerr << "AudioGenerator::makeClipMixerFor(" << model << "): loaded clip " << clipId << std::endl; return mixer; } ContinuousSynth * AudioGenerator::makeSynthFor(const Model *model) { const Playable *playable = model; if (!playable || !playable->canPlay()) return 0; ContinuousSynth *synth = new ContinuousSynth(m_targetChannelCount, m_sourceSampleRate, m_processingBlockSize, m_waveType); std::cerr << "AudioGenerator::makeSynthFor(" << model << "): created synth" << std::endl; return synth; } void AudioGenerator::removeModel(Model *model) { SparseOneDimensionalModel *sodm = dynamic_cast<SparseOneDimensionalModel *>(model); if (!sodm) return; // nothing to do QMutexLocker locker(&m_mutex); if (m_clipMixerMap.find(sodm) == m_clipMixerMap.end()) return; ClipMixer *mixer = m_clipMixerMap[sodm]; m_clipMixerMap.erase(sodm); delete mixer; } void AudioGenerator::clearModels() { QMutexLocker locker(&m_mutex); while (!m_clipMixerMap.empty()) { ClipMixer *mixer = m_clipMixerMap.begin()->second; m_clipMixerMap.erase(m_clipMixerMap.begin()); delete mixer; } } void AudioGenerator::reset() { QMutexLocker locker(&m_mutex); for (ClipMixerMap::iterator i = m_clipMixerMap.begin(); i != m_clipMixerMap.end(); ++i) { if (i->second) { i->second->reset(); } } m_noteOffs.clear(); } void AudioGenerator::setTargetChannelCount(size_t targetChannelCount) { if (m_targetChannelCount == targetChannelCount) return; // SVDEBUG << "AudioGenerator::setTargetChannelCount(" << targetChannelCount << ")" << endl; QMutexLocker locker(&m_mutex); m_targetChannelCount = targetChannelCount; for (ClipMixerMap::iterator i = m_clipMixerMap.begin(); i != m_clipMixerMap.end(); ++i) { if (i->second) i->second->setChannelCount(targetChannelCount); } } size_t AudioGenerator::getBlockSize() const { return m_processingBlockSize; } void AudioGenerator::setSoloModelSet(std::set<Model *> s) { QMutexLocker locker(&m_mutex); m_soloModelSet = s; m_soloing = true; } void AudioGenerator::clearSoloModelSet() { QMutexLocker locker(&m_mutex); m_soloModelSet.clear(); m_soloing = false; } size_t AudioGenerator::mixModel(Model *model, size_t startFrame, size_t frameCount, float **buffer, size_t fadeIn, size_t fadeOut) { if (m_sourceSampleRate == 0) { cerr << "WARNING: AudioGenerator::mixModel: No base source sample rate available" << endl; return frameCount; } QMutexLocker locker(&m_mutex); Playable *playable = model; if (!playable || !playable->canPlay()) return frameCount; PlayParameters *parameters = PlayParameterRepository::getInstance()->getPlayParameters(playable); if (!parameters) return frameCount; bool playing = !parameters->isPlayMuted(); if (!playing) { #ifdef DEBUG_AUDIO_GENERATOR cout << "AudioGenerator::mixModel(" << model << "): muted" << endl; #endif return frameCount; } if (m_soloing) { if (m_soloModelSet.find(model) == m_soloModelSet.end()) { #ifdef DEBUG_AUDIO_GENERATOR cout << "AudioGenerator::mixModel(" << model << "): not one of the solo'd models" << endl; #endif return frameCount; } } float gain = parameters->getPlayGain(); float pan = parameters->getPlayPan(); DenseTimeValueModel *dtvm = dynamic_cast<DenseTimeValueModel *>(model); if (dtvm) { return mixDenseTimeValueModel(dtvm, startFrame, frameCount, buffer, gain, pan, fadeIn, fadeOut); } if (usesClipMixer(model)) { return mixClipModel(model, startFrame, frameCount, buffer, gain, pan); } if (usesContinuousSynth(model)) { return mixContinuousSynthModel(model, startFrame, frameCount, buffer, gain, pan); } std::cerr << "AudioGenerator::mixModel: WARNING: Model " << model << " of type " << model->getTypeName() << " is marked as playable, but I have no mechanism to play it" << std::endl; return frameCount; } size_t AudioGenerator::mixDenseTimeValueModel(DenseTimeValueModel *dtvm, size_t startFrame, size_t frames, float **buffer, float gain, float pan, size_t fadeIn, size_t fadeOut) { static float **channelBuffer = 0; static size_t channelBufSiz = 0; static size_t channelBufCount = 0; size_t totalFrames = frames + fadeIn/2 + fadeOut/2; size_t modelChannels = dtvm->getChannelCount(); if (channelBufSiz < totalFrames || channelBufCount < modelChannels) { for (size_t c = 0; c < channelBufCount; ++c) { delete[] channelBuffer[c]; } delete[] channelBuffer; channelBuffer = new float *[modelChannels]; for (size_t c = 0; c < modelChannels; ++c) { channelBuffer[c] = new float[totalFrames]; } channelBufCount = modelChannels; channelBufSiz = totalFrames; } size_t got = 0; if (startFrame >= fadeIn/2) { got = dtvm->getData(0, modelChannels - 1, startFrame - fadeIn/2, frames + fadeOut/2 + fadeIn/2, channelBuffer); } else { size_t missing = fadeIn/2 - startFrame; for (size_t c = 0; c < modelChannels; ++c) { channelBuffer[c] += missing; } got = dtvm->getData(0, modelChannels - 1, startFrame, frames + fadeOut/2, channelBuffer); for (size_t c = 0; c < modelChannels; ++c) { channelBuffer[c] -= missing; } got += missing; } for (size_t c = 0; c < m_targetChannelCount; ++c) { size_t sourceChannel = (c % modelChannels); // SVDEBUG << "mixing channel " << c << " from source channel " << sourceChannel << endl; float channelGain = gain; if (pan != 0.0) { if (c == 0) { if (pan > 0.0) channelGain *= 1.0 - pan; } else { if (pan < 0.0) channelGain *= pan + 1.0; } } for (size_t i = 0; i < fadeIn/2; ++i) { float *back = buffer[c]; back -= fadeIn/2; back[i] += (channelGain * channelBuffer[sourceChannel][i] * i) / fadeIn; } for (size_t i = 0; i < frames + fadeOut/2; ++i) { float mult = channelGain; if (i < fadeIn/2) { mult = (mult * i) / fadeIn; } if (i > frames - fadeOut/2) { mult = (mult * ((frames + fadeOut/2) - i)) / fadeOut; } float val = channelBuffer[sourceChannel][i]; if (i >= got) val = 0.f; buffer[c][i] += mult * val; } } return got; } size_t AudioGenerator::mixClipModel(Model *model, size_t startFrame, size_t frames, float **buffer, float gain, float pan) { ClipMixer *clipMixer = m_clipMixerMap[model]; if (!clipMixer) return 0; size_t blocks = frames / m_processingBlockSize; //!!! todo: the below -- it matters //!!! hang on -- the fact that the audio callback play source's //buffer is a multiple of the plugin's buffer size doesn't mean //that we always get called for a multiple of it here (because it //also depends on the JACK block size). how should we ensure that //all models write the same amount in to the mix, and that we //always have a multiple of the plugin buffer size? I guess this //class has to be queryable for the plugin buffer size & the //callback play source has to use that as a multiple for all the //calls to mixModel size_t got = blocks * m_processingBlockSize; #ifdef DEBUG_AUDIO_GENERATOR cout << "mixModel [clip]: frames " << frames << ", blocks " << blocks << endl; #endif ClipMixer::NoteStart on; ClipMixer::NoteEnd off; NoteOffSet ¬eOffs = m_noteOffs[model]; float **bufferIndexes = new float *[m_targetChannelCount]; for (size_t i = 0; i < blocks; ++i) { size_t reqStart = startFrame + i * m_processingBlockSize; NoteList notes; NoteExportable *exportable = dynamic_cast<NoteExportable *>(model); if (exportable) { notes = exportable->getNotes(reqStart, reqStart + m_processingBlockSize); } std::vector<ClipMixer::NoteStart> starts; std::vector<ClipMixer::NoteEnd> ends; for (NoteList::const_iterator ni = notes.begin(); ni != notes.end(); ++ni) { size_t noteFrame = ni->start; if (noteFrame < reqStart || noteFrame >= reqStart + m_processingBlockSize) continue; while (noteOffs.begin() != noteOffs.end() && noteOffs.begin()->frame <= noteFrame) { size_t eventFrame = noteOffs.begin()->frame; if (eventFrame < reqStart) eventFrame = reqStart; off.frameOffset = eventFrame - reqStart; off.frequency = noteOffs.begin()->frequency; #ifdef DEBUG_AUDIO_GENERATOR cerr << "mixModel [clip]: adding note-off at frame " << eventFrame << " frame offset " << off.frameOffset << " frequency " << off.frequency << endl; #endif ends.push_back(off); noteOffs.erase(noteOffs.begin()); } on.frameOffset = noteFrame - reqStart; on.frequency = ni->getFrequency(); on.level = float(ni->velocity) / 127.0; on.pan = pan; #ifdef DEBUG_AUDIO_GENERATOR cout << "mixModel [clip]: adding note at frame " << noteFrame << ", frame offset " << on.frameOffset << " frequency " << on.frequency << ", level " << on.level << endl; #endif starts.push_back(on); noteOffs.insert (NoteOff(on.frequency, noteFrame + ni->duration)); } while (noteOffs.begin() != noteOffs.end() && noteOffs.begin()->frame <= reqStart + m_processingBlockSize) { size_t eventFrame = noteOffs.begin()->frame; if (eventFrame < reqStart) eventFrame = reqStart; off.frameOffset = eventFrame - reqStart; off.frequency = noteOffs.begin()->frequency; #ifdef DEBUG_AUDIO_GENERATOR cerr << "mixModel [clip]: adding leftover note-off at frame " << eventFrame << " frame offset " << off.frameOffset << " frequency " << off.frequency << endl; #endif ends.push_back(off); noteOffs.erase(noteOffs.begin()); } for (size_t c = 0; c < m_targetChannelCount; ++c) { bufferIndexes[c] = buffer[c] + i * m_processingBlockSize; } clipMixer->mix(bufferIndexes, gain, starts, ends); } delete[] bufferIndexes; return got; } size_t AudioGenerator::mixContinuousSynthModel(Model *model, size_t startFrame, size_t frames, float **buffer, float gain, float pan) { ContinuousSynth *synth = m_continuousSynthMap[model]; if (!synth) return 0; // only type we support here at the moment SparseTimeValueModel *stvm = qobject_cast<SparseTimeValueModel *>(model); if (stvm->getScaleUnits() != "Hz") return 0; size_t blocks = frames / m_processingBlockSize; //!!! todo: see comment in mixClipModel size_t got = blocks * m_processingBlockSize; #ifdef DEBUG_AUDIO_GENERATOR cout << "mixModel [synth]: frames " << frames << ", blocks " << blocks << endl; #endif float **bufferIndexes = new float *[m_targetChannelCount]; for (size_t i = 0; i < blocks; ++i) { size_t reqStart = startFrame + i * m_processingBlockSize; for (size_t c = 0; c < m_targetChannelCount; ++c) { bufferIndexes[c] = buffer[c] + i * m_processingBlockSize; } SparseTimeValueModel::PointList points = stvm->getPoints(reqStart, reqStart + m_processingBlockSize); // by default, repeat last frequency float f0 = 0.f; // go straight to the last freq that is genuinely in this range for (SparseTimeValueModel::PointList::const_iterator itr = points.end(); itr != points.begin(); ) { --itr; if (itr->frame >= reqStart && itr->frame < reqStart + m_processingBlockSize) { f0 = itr->value; break; } } // if we found no such frequency and the next point is further // away than twice the model resolution, go silent (same // criterion TimeValueLayer uses for ending a discrete curve // segment) if (f0 == 0.f) { SparseTimeValueModel::PointList nextPoints = stvm->getNextPoints(reqStart + m_processingBlockSize); if (nextPoints.empty() || nextPoints.begin()->frame > reqStart + 2 * stvm->getResolution()) { f0 = -1.f; } } // cerr << "f0 = " << f0 << endl; synth->mix(bufferIndexes, gain, pan, f0); } delete[] bufferIndexes; return got; }