Mercurial > hg > svapp
view audio/EffectWrapper.cpp @ 751:ed5db7d37005 pitch-align
Merge from default branch
author | Chris Cannam |
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date | Wed, 22 Apr 2020 17:40:09 +0100 |
parents | 54393ed09d65 |
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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 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 "EffectWrapper.h" #include <rubberband/RubberBandStretcher.h> #include "base/Debug.h" //#define DEBUG_EFFECT_WRAPPER 1 using namespace std; static const int DEFAULT_RING_BUFFER_SIZE = 131071; EffectWrapper::EffectWrapper(ApplicationPlaybackSource *source) : m_source(source), m_bypassed(false), m_failed(false), m_channelCount(0) { } EffectWrapper::~EffectWrapper() { } void EffectWrapper::setEffect(weak_ptr<RealTimePluginInstance> effect) { lock_guard<mutex> guard(m_mutex); #ifdef DEBUG_EFFECT_WRAPPER SVCERR << "EffectWrapper[" << this << "]::setEffect(" << effect.lock() << ")" << endl; #endif m_effect = effect; m_failed = false; } bool EffectWrapper::haveEffect() const { return m_effect.lock() != nullptr; } void EffectWrapper::clearEffect() { m_effect = {}; } void EffectWrapper::setBypassed(bool bypassed) { lock_guard<mutex> guard(m_mutex); #ifdef DEBUG_EFFECT_WRAPPER SVCERR << "EffectWrapper[" << this << "]::setBypassed(" << bypassed << ")" << endl; #endif m_bypassed = bypassed; } bool EffectWrapper::isBypassed() const { lock_guard<mutex> guard(m_mutex); return m_bypassed; } void EffectWrapper::reset() { lock_guard<mutex> guard(m_mutex); #ifdef DEBUG_EFFECT_WRAPPER SVCERR << "EffectWrapper[" << this << "]::reset" << endl; #endif for (auto &rb: m_effectOutputBuffers) { rb.reset(); } m_failed = false; } int EffectWrapper::getSourceSamples(float *const *samples, int nchannels, int nframes) { lock_guard<mutex> guard(m_mutex); #ifdef DEBUG_EFFECT_WRAPPER SVCERR << "EffectWrapper[" << this << "]::getSourceSamples: " << nframes << " frames across " << nchannels << " channels" << endl; #endif auto effect(m_effect.lock()); if (!effect) { #ifdef DEBUG_EFFECT_WRAPPER SVCERR << "EffectWrapper::getSourceSamples: " << "no effect is set" << endl; #endif return m_source->getSourceSamples(samples, nchannels, nframes); } if (m_bypassed || m_failed) { #ifdef DEBUG_EFFECT_WRAPPER SVCERR << "EffectWrapper::getSourceSamples: " << "effect is bypassed or has failed" << endl; #endif return m_source->getSourceSamples(samples, nchannels, nframes); } static int warnings = 0; if (nchannels != m_channelCount) { if (warnings >= 0) { SVCERR << "WARNING: EffectWrapper::getSourceSamples called for a number of channels different from that set with setSystemPlaybackChannelCount (" << nchannels << " vs " << m_channelCount << ")" << endl; if (++warnings == 6) { SVCERR << "(further warnings will be suppressed)" << endl; warnings = -1; } } return 0; } if ((int)effect->getAudioInputCount() != m_channelCount) { if (!m_failed) { SVCERR << "EffectWrapper::getSourceSamples: " << "Can't run plugin: plugin input count " << effect->getAudioInputCount() << " != our channel count " << m_channelCount << " (future errors for this plugin will be suppressed)" << endl; m_failed = true; } } if ((int)effect->getAudioOutputCount() != m_channelCount) { if (!m_failed) { SVCERR << "EffectWrapper::getSourceSamples: " << "Can't run plugin: plugin output count " << effect->getAudioOutputCount() << " != our channel count " << m_channelCount << " (future errors for this plugin will be suppressed)" << endl; m_failed = true; } } if (m_failed) { return m_source->getSourceSamples(samples, nchannels, nframes); } float **ib = effect->getAudioInputBuffers(); float **ob = effect->getAudioOutputBuffers(); int blockSize = effect->getBufferSize(); int got = 0; while (got < nframes) { int read = 0; for (int c = 0; c < nchannels; ++c) { read = m_effectOutputBuffers[c].read(samples[c] + got, nframes - got); } got += read; if (got < nframes) { int toRun = m_source->getSourceSamples(ib, nchannels, blockSize); if (toRun <= 0) break; #ifdef DEBUG_EFFECT_WRAPPER SVCERR << "EffectWrapper::getSourceSamples: Running effect " << "for " << toRun << " frames" << endl; #endif effect->run(Vamp::RealTime::zeroTime, toRun); for (int c = 0; c < nchannels; ++c) { m_effectOutputBuffers[c].write(ob[c], toRun); } } } return got; } void EffectWrapper::setSystemPlaybackChannelCount(int count) { { lock_guard<mutex> guard(m_mutex); #ifdef DEBUG_EFFECT_WRAPPER SVCERR << "EffectWrapper[" << this << "]::setSystemPlaybackChannelCount(" << count << ")" << endl; #endif m_effectOutputBuffers.resize (count, RingBuffer<float>(DEFAULT_RING_BUFFER_SIZE)); m_channelCount = count; } m_source->setSystemPlaybackChannelCount(count); } void EffectWrapper::setSystemPlaybackSampleRate(int rate) { m_source->setSystemPlaybackSampleRate(rate); } std::string EffectWrapper::getClientName() const { return m_source->getClientName(); } int EffectWrapper::getApplicationSampleRate() const { return m_source->getApplicationSampleRate(); } int EffectWrapper::getApplicationChannelCount() const { return m_source->getApplicationChannelCount(); } void EffectWrapper::setSystemPlaybackBlockSize(int sz) { SVDEBUG << "NOTE: EffectWrapper::setSystemPlaybackBlockSize called " << "with size = " << sz << "; not passing to wrapped source, as " << "actual block size will vary" << endl; } void EffectWrapper::setSystemPlaybackLatency(int latency) { m_source->setSystemPlaybackLatency(latency); } void EffectWrapper::setOutputLevels(float left, float right) { m_source->setOutputLevels(left, right); } void EffectWrapper::audioProcessingOverload() { m_source->audioProcessingOverload(); }