Mercurial > hg > svcore
view transform/TransformFactory.cpp @ 1886:f803d3c33f76 tip
Switch off copious debug in soft synth driving
| author | Chris Cannam |
|---|---|
| date | Fri, 14 Aug 2020 10:44:44 +0100 |
| parents | 652c5360e682 |
| children |
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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 and QMUL. 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 "TransformFactory.h" #include "plugin/FeatureExtractionPluginFactory.h" #include "plugin/RealTimePluginFactory.h" #include "plugin/RealTimePluginInstance.h" #include "plugin/PluginXml.h" #include <vamp-hostsdk/Plugin.h> #include <vamp-hostsdk/PluginHostAdapter.h> #include <vamp-hostsdk/PluginWrapper.h> #include "rdf/PluginRDFIndexer.h" #include "rdf/PluginRDFDescription.h" #include "base/XmlExportable.h" #include <iostream> #include <set> #include <functional> #include <QRegExp> #include <QTextStream> #include "base/Thread.h" //#define DEBUG_TRANSFORM_FACTORY 1 TransformFactory * TransformFactory::m_instance = new TransformFactory; TransformFactory * TransformFactory::getInstance() { return m_instance; } void TransformFactory::deleteInstance() { SVDEBUG << "TransformFactory::deleteInstance called" << endl; delete m_instance; m_instance = nullptr; } TransformFactory::TransformFactory() : m_transformsPopulated(false), m_uninstalledTransformsPopulated(false), m_thread(nullptr), m_exiting(false), m_populatingSlowly(false) { } TransformFactory::~TransformFactory() { m_exiting = true; if (m_thread) { #ifdef DEBUG_TRANSFORM_FACTORY SVDEBUG << "TransformFactory::~TransformFactory: waiting on thread" << endl; #endif m_thread->wait(); delete m_thread; #ifdef DEBUG_TRANSFORM_FACTORY SVDEBUG << "TransformFactory::~TransformFactory: waited and done" << endl; #endif } } void TransformFactory::startPopulationThread() { m_uninstalledTransformsMutex.lock(); if (m_thread) { m_uninstalledTransformsMutex.unlock(); return; } m_thread = new UninstalledTransformsPopulateThread(this); m_uninstalledTransformsMutex.unlock(); m_thread->start(); } void TransformFactory::UninstalledTransformsPopulateThread::run() { m_factory->m_populatingSlowly = true; while (!m_factory->havePopulated()) { sleep(1); } m_factory->populateUninstalledTransforms(); } TransformList TransformFactory::getAllTransformDescriptions() { populateTransforms(); std::set<TransformDescription> dset; for (auto i = m_transforms.begin(); i != m_transforms.end(); ++i) { #ifdef DEBUG_TRANSFORM_FACTORY cerr << "inserting transform into set: id = " << i->second.identifier << " (" << i->second.name << ")" << endl; #endif dset.insert(i->second); } TransformList list; for (auto i = dset.begin(); i != dset.end(); ++i) { #ifdef DEBUG_TRANSFORM_FACTORY cerr << "inserting transform into list: id = " << i->identifier << " (" << i->name << ")" << endl; #endif list.push_back(*i); } return list; } TransformDescription TransformFactory::getTransformDescription(TransformId id) { populateTransforms(); if (m_transforms.find(id) == m_transforms.end()) { return TransformDescription(); } return m_transforms[id]; } bool TransformFactory::haveInstalledTransforms() { populateTransforms(); return !m_transforms.empty(); } TransformList TransformFactory::getUninstalledTransformDescriptions() { m_populatingSlowly = false; populateUninstalledTransforms(); std::set<TransformDescription> dset; for (auto i = m_uninstalledTransforms.begin(); i != m_uninstalledTransforms.end(); ++i) { #ifdef DEBUG_TRANSFORM_FACTORY cerr << "inserting transform into set: id = " << i->second.identifier << endl; #endif dset.insert(i->second); } TransformList list; for (auto i = dset.begin(); i != dset.end(); ++i) { #ifdef DEBUG_TRANSFORM_FACTORY cerr << "inserting transform into uninstalled list: id = " << i->identifier << endl; #endif list.push_back(*i); } return list; } TransformDescription TransformFactory::getUninstalledTransformDescription(TransformId id) { m_populatingSlowly = false; populateUninstalledTransforms(); if (m_uninstalledTransforms.find(id) == m_uninstalledTransforms.end()) { return TransformDescription(); } return m_uninstalledTransforms[id]; } bool TransformFactory::haveUninstalledTransforms(bool waitForCheckToComplete) { if (waitForCheckToComplete) { populateUninstalledTransforms(); } else { if (!m_uninstalledTransformsMutex.tryLock()) { return false; } if (!m_uninstalledTransformsPopulated) { m_uninstalledTransformsMutex.unlock(); return false; } m_uninstalledTransformsMutex.unlock(); } return !m_uninstalledTransforms.empty(); } TransformFactory::TransformInstallStatus TransformFactory::getTransformInstallStatus(TransformId id) { populateTransforms(); if (m_transforms.find(id) != m_transforms.end()) { return TransformInstalled; } if (!m_uninstalledTransformsMutex.tryLock()) { // uninstalled transforms are being populated; this may take some time, // and they aren't critical return TransformUnknown; } if (!m_uninstalledTransformsPopulated) { m_uninstalledTransformsMutex.unlock(); m_populatingSlowly = false; populateUninstalledTransforms(); m_uninstalledTransformsMutex.lock(); } if (m_uninstalledTransforms.find(id) != m_uninstalledTransforms.end()) { m_uninstalledTransformsMutex.unlock(); return TransformNotInstalled; } m_uninstalledTransformsMutex.unlock(); return TransformUnknown; } std::vector<TransformDescription::Type> TransformFactory::getAllTransformTypes() { populateTransforms(); std::set<TransformDescription::Type> types; for (auto i = m_transforms.begin(); i != m_transforms.end(); ++i) { types.insert(i->second.type); } std::vector<TransformDescription::Type> rv; for (auto i = types.begin(); i != types.end(); ++i) { rv.push_back(*i); } return rv; } std::vector<QString> TransformFactory::getTransformCategories(TransformDescription::Type transformType) { populateTransforms(); std::set<QString, std::function<bool(QString, QString)>> categories(TransformDescription::compareUserStrings); for (auto i = m_transforms.begin(); i != m_transforms.end(); ++i) { if (i->second.type == transformType) { categories.insert(i->second.category); } } bool haveEmpty = false; std::vector<QString> rv; for (auto i = categories.begin(); i != categories.end(); ++i) { if (*i != "") rv.push_back(*i); else haveEmpty = true; } if (haveEmpty) rv.push_back(""); // make sure empty category sorts last return rv; } std::vector<QString> TransformFactory::getTransformMakers(TransformDescription::Type transformType) { populateTransforms(); std::set<QString, std::function<bool(QString, QString)>> makers(TransformDescription::compareUserStrings); for (auto i = m_transforms.begin(); i != m_transforms.end(); ++i) { if (i->second.type == transformType) { makers.insert(i->second.maker); } } bool haveEmpty = false; std::vector<QString> rv; for (auto i = makers.begin(); i != makers.end(); ++i) { if (*i != "") rv.push_back(*i); else haveEmpty = true; } if (haveEmpty) rv.push_back(""); // make sure empty category sorts last return rv; } QString TransformFactory::getTransformTypeName(TransformDescription::Type type) const { switch (type) { case TransformDescription::Analysis: return tr("Analysis"); case TransformDescription::Effects: return tr("Effects"); case TransformDescription::EffectsData: return tr("Effects Data"); case TransformDescription::Generator: return tr("Generator"); case TransformDescription::UnknownType: return tr("Other"); } return tr("Other"); } bool TransformFactory::havePopulated() { MutexLocker locker(&m_transformsMutex, "TransformFactory::havePopulated"); return m_transformsPopulated; } void TransformFactory::populateTransforms() { MutexLocker locker(&m_transformsMutex, "TransformFactory::populateTransforms"); if (m_transformsPopulated) { return; } TransformDescriptionMap transforms; populateFeatureExtractionPlugins(transforms); if (m_exiting) return; populateRealTimePlugins(transforms); if (m_exiting) return; // disambiguate plugins with similar names std::map<QString, int> names; std::map<QString, QString> pluginSources; std::map<QString, QString> pluginMakers; for (TransformDescriptionMap::iterator i = transforms.begin(); i != transforms.end(); ++i) { TransformDescription desc = i->second; QString td = desc.name; QString tn = td.section(": ", 0, 0); QString pn = desc.identifier.section(":", 1, 1); if (pluginSources.find(tn) != pluginSources.end()) { if (pluginSources[tn] != pn && pluginMakers[tn] != desc.maker) { ++names[tn]; } } else { ++names[tn]; pluginSources[tn] = pn; pluginMakers[tn] = desc.maker; } } std::map<QString, int> counts; m_transforms.clear(); for (TransformDescriptionMap::iterator i = transforms.begin(); i != transforms.end(); ++i) { TransformDescription desc = i->second; QString identifier = desc.identifier; QString maker = desc.maker; QString td = desc.name; QString tn = td.section(": ", 0, 0); QString to = td.section(": ", 1); if (names[tn] > 1) { maker.replace(QRegExp(tr(" [\\(<].*$")), ""); tn = QString("%1 [%2]").arg(tn).arg(maker); } if (to != "") { desc.name = QString("%1: %2").arg(tn).arg(to); } else { desc.name = tn; } m_transforms[identifier] = desc; } m_transformsPopulated = true; #ifdef DEBUG_TRANSFORM_FACTORY SVCERR << "populateTransforms exiting" << endl; #endif emit transformsPopulated(); } void TransformFactory::populateFeatureExtractionPlugins(TransformDescriptionMap &transforms) { FeatureExtractionPluginFactory *factory = FeatureExtractionPluginFactory::instance(); QString errorMessage; std::vector<QString> plugs = factory->getPluginIdentifiers(errorMessage); if (errorMessage != "") { m_errorString = tr("Failed to list Vamp plugins: %1").arg(errorMessage); } if (m_exiting) return; for (int i = 0; in_range_for(plugs, i); ++i) { QString pluginId = plugs[i]; piper_vamp::PluginStaticData psd = factory->getPluginStaticData(pluginId); if (psd.pluginKey == "") { cerr << "WARNING: TransformFactory::populateTransforms: No plugin static data available for instance " << pluginId << endl; continue; } QString pluginName = QString::fromStdString(psd.basic.name); QString category = factory->getPluginCategory(pluginId); const auto &basicOutputs = psd.basicOutputInfo; for (const auto &o: basicOutputs) { QString outputName = QString::fromStdString(o.name); QString transformId = QString("%1:%2") .arg(pluginId).arg(QString::fromStdString(o.identifier)); QString userName; QString friendlyName; //!!! return to this QString units = outputs[j].unit.c_str(); QString description = QString::fromStdString(psd.basic.description); QString maker = QString::fromStdString(psd.maker); if (maker == "") maker = tr("<unknown maker>"); QString longDescription = description; if (longDescription == "") { if (basicOutputs.size() == 1) { longDescription = tr("Extract features using \"%1\" plugin (from %2)") .arg(pluginName).arg(maker); } else { longDescription = tr("Extract features using \"%1\" output of \"%2\" plugin (from %3)") .arg(outputName).arg(pluginName).arg(maker); } } else { if (basicOutputs.size() == 1) { longDescription = tr("%1 using \"%2\" plugin (from %3)") .arg(longDescription).arg(pluginName).arg(maker); } else { longDescription = tr("%1 using \"%2\" output of \"%3\" plugin (from %4)") .arg(longDescription).arg(outputName).arg(pluginName).arg(maker); } } if (basicOutputs.size() == 1) { userName = pluginName; friendlyName = pluginName; } else { userName = QString("%1: %2").arg(pluginName).arg(outputName); friendlyName = outputName; } bool configurable = (!psd.programs.empty() || !psd.parameters.empty()); #ifdef DEBUG_TRANSFORM_FACTORY cerr << "Feature extraction plugin transform: " << transformId << " friendly name: " << friendlyName << endl; #endif transforms[transformId] = TransformDescription(TransformDescription::Analysis, category, transformId, userName, friendlyName, description, longDescription, maker, //!!! units, "", configurable); } } } void TransformFactory::populateRealTimePlugins(TransformDescriptionMap &transforms) { std::vector<QString> plugs = RealTimePluginFactory::getAllPluginIdentifiers(); if (m_exiting) return; static QRegExp unitRE("[\\[\\(]([A-Za-z0-9/]+)[\\)\\]]$"); for (int i = 0; in_range_for(plugs, i); ++i) { QString pluginId = plugs[i]; RealTimePluginFactory *factory = RealTimePluginFactory::instanceFor(pluginId); if (!factory) { cerr << "WARNING: TransformFactory::populateTransforms: No real time plugin factory for instance " << pluginId << endl; continue; } RealTimePluginDescriptor descriptor = factory->getPluginDescriptor(pluginId); if (descriptor.name == "") { cerr << "WARNING: TransformFactory::populateTransforms: Failed to query plugin " << pluginId << endl; continue; } //!!! if (descriptor.controlOutputPortCount == 0 || // descriptor.audioInputPortCount == 0) continue; // cout << "TransformFactory::populateRealTimePlugins: plugin " << pluginId << " has " << descriptor.controlOutputPortCount << " control output ports, " << descriptor.audioOutputPortCount << " audio outputs, " << descriptor.audioInputPortCount << " audio inputs" << endl; QString pluginName = descriptor.name.c_str(); QString category = factory->getPluginCategory(pluginId); bool configurable = (descriptor.parameterCount > 0); QString maker = descriptor.maker.c_str(); if (maker == "") maker = tr("<unknown maker>"); if (descriptor.audioInputPortCount > 0) { for (int j = 0; j < (int)descriptor.controlOutputPortCount; ++j) { QString transformId = QString("%1:%2").arg(pluginId).arg(j); QString userName; QString units; QString portName; if (j < (int)descriptor.controlOutputPortNames.size() && descriptor.controlOutputPortNames[j] != "") { portName = descriptor.controlOutputPortNames[j].c_str(); userName = tr("%1: %2") .arg(pluginName) .arg(portName); if (unitRE.indexIn(portName) >= 0) { units = unitRE.cap(1); } } else if (descriptor.controlOutputPortCount > 1) { userName = tr("%1: Output %2") .arg(pluginName) .arg(j + 1); } else { userName = pluginName; } QString description; if (portName != "") { description = tr("Extract \"%1\" data output from \"%2\" effect plugin (from %3)") .arg(portName) .arg(pluginName) .arg(maker); } else { description = tr("Extract data output %1 from \"%2\" effect plugin (from %3)") .arg(j + 1) .arg(pluginName) .arg(maker); } transforms[transformId] = TransformDescription(TransformDescription::EffectsData, category, transformId, userName, userName, "", description, maker, units, configurable); } } if (!descriptor.isSynth || descriptor.audioInputPortCount > 0) { if (descriptor.audioOutputPortCount > 0) { QString transformId = QString("%1:A").arg(pluginId); TransformDescription::Type type = TransformDescription::Effects; QString description = tr("Transform audio signal with \"%1\" effect plugin (from %2)") .arg(pluginName) .arg(maker); if (descriptor.audioInputPortCount == 0) { type = TransformDescription::Generator; QString description = tr("Generate audio signal using \"%1\" plugin (from %2)") .arg(pluginName) .arg(maker); } transforms[transformId] = TransformDescription(type, category, transformId, pluginName, pluginName, "", description, maker, "", configurable); } } } } void TransformFactory::populateUninstalledTransforms() { if (m_exiting) return; populateTransforms(); if (m_exiting) return; MutexLocker locker(&m_uninstalledTransformsMutex, "TransformFactory::populateUninstalledTransforms"); if (m_uninstalledTransformsPopulated) return; PluginRDFIndexer::getInstance()->indexConfiguredURLs(); if (m_exiting) return; PluginRDFIndexer::getInstance()->performConsistencyChecks(); //!!! This will be amazingly slow QStringList ids = PluginRDFIndexer::getInstance()->getIndexedPluginIds(); for (QStringList::const_iterator i = ids.begin(); i != ids.end(); ++i) { PluginRDFDescription desc(*i); QString name = desc.getPluginName(); #ifdef DEBUG_TRANSFORM_FACTORY if (name == "") { SVCERR << "TransformFactory::populateUninstalledTransforms: " << "No name available for plugin " << *i << ", skipping" << endl; continue; } #endif QString description = desc.getPluginDescription(); QString maker = desc.getPluginMaker(); Provider provider = desc.getPluginProvider(); QStringList oids = desc.getOutputIds(); for (QStringList::const_iterator j = oids.begin(); j != oids.end(); ++j) { TransformId tid = Transform::getIdentifierForPluginOutput(*i, *j); if (m_transforms.find(tid) != m_transforms.end()) { #ifdef DEBUG_TRANSFORM_FACTORY SVCERR << "TransformFactory::populateUninstalledTransforms: " << tid << " is installed; adding provider if present, skipping rest" << endl; #endif if (provider != Provider()) { if (m_transforms[tid].provider == Provider()) { m_transforms[tid].provider = provider; } } continue; } #ifdef DEBUG_TRANSFORM_FACTORY SVCERR << "TransformFactory::populateUninstalledTransforms: " << "adding " << tid << endl; #endif QString oname = desc.getOutputName(*j); if (oname == "") oname = *j; TransformDescription td; td.type = TransformDescription::Analysis; td.category = ""; td.identifier = tid; if (oids.size() == 1) { td.name = name; } else if (name != "") { td.name = tr("%1: %2").arg(name).arg(oname); } QString longDescription = description; //!!! basically duplicated from above if (longDescription == "") { if (oids.size() == 1) { longDescription = tr("Extract features using \"%1\" plugin (from %2)") .arg(name).arg(maker); } else { longDescription = tr("Extract features using \"%1\" output of \"%2\" plugin (from %3)") .arg(oname).arg(name).arg(maker); } } else { if (oids.size() == 1) { longDescription = tr("%1 using \"%2\" plugin (from %3)") .arg(longDescription).arg(name).arg(maker); } else { longDescription = tr("%1 using \"%2\" output of \"%3\" plugin (from %4)") .arg(longDescription).arg(oname).arg(name).arg(maker); } } td.friendlyName = name; //!!!??? td.description = description; td.longDescription = longDescription; td.maker = maker; td.provider = provider; td.units = ""; td.configurable = false; m_uninstalledTransforms[tid] = td; } if (m_exiting) return; } m_uninstalledTransformsPopulated = true; #ifdef DEBUG_TRANSFORM_FACTORY SVCERR << "populateUninstalledTransforms exiting" << endl; #endif emit uninstalledTransformsPopulated(); } Transform TransformFactory::getDefaultTransformFor(TransformId id, sv_samplerate_t rate) { Transform t; t.setIdentifier(id); if (rate != 0) t.setSampleRate(rate); SVDEBUG << "TransformFactory::getDefaultTransformFor: identifier \"" << id << "\"" << endl; std::shared_ptr<Vamp::PluginBase> plugin = instantiateDefaultPluginFor(id, rate); if (plugin) { t.setPluginVersion(QString("%1").arg(plugin->getPluginVersion())); setParametersFromPlugin(t, plugin); makeContextConsistentWithPlugin(t, plugin); } return t; } std::shared_ptr<Vamp::PluginBase> TransformFactory::instantiatePluginFor(const Transform &transform) { SVDEBUG << "TransformFactory::instantiatePluginFor: identifier \"" << transform.getIdentifier() << "\"" << endl; std::shared_ptr<Vamp::PluginBase> plugin = instantiateDefaultPluginFor (transform.getIdentifier(), transform.getSampleRate()); if (plugin) { setPluginParameters(transform, plugin); } return plugin; } std::shared_ptr<Vamp::PluginBase> TransformFactory::instantiateDefaultPluginFor(TransformId identifier, sv_samplerate_t rate) { populateTransforms(); Transform t; t.setIdentifier(identifier); if (rate == 0) rate = 44100.0; QString pluginId = t.getPluginIdentifier(); std::shared_ptr<Vamp::PluginBase> plugin = nullptr; if (t.getType() == Transform::FeatureExtraction) { SVDEBUG << "TransformFactory::instantiateDefaultPluginFor: identifier \"" << identifier << "\" is a feature extraction transform" << endl; FeatureExtractionPluginFactory *factory = FeatureExtractionPluginFactory::instance(); if (factory) { plugin = factory->instantiatePlugin(pluginId, rate); } } else if (t.getType() == Transform::RealTimeEffect) { SVDEBUG << "TransformFactory::instantiateDefaultPluginFor: identifier \"" << identifier << "\" is a real-time transform" << endl; RealTimePluginFactory *factory = RealTimePluginFactory::instanceFor(pluginId); if (factory) { plugin = factory->instantiatePlugin(pluginId, 0, 0, rate, 1024, 1); } } else { SVDEBUG << "TransformFactory: ERROR: transform id \"" << identifier << "\" is of unknown type" << endl; } return plugin; } bool TransformFactory::haveTransform(TransformId identifier) { populateTransforms(); return (m_transforms.find(identifier) != m_transforms.end()); } QString TransformFactory::getTransformName(TransformId identifier) { if (m_transforms.find(identifier) != m_transforms.end()) { return m_transforms[identifier].name; } else return ""; } QString TransformFactory::getTransformFriendlyName(TransformId identifier) { if (m_transforms.find(identifier) != m_transforms.end()) { return m_transforms[identifier].friendlyName; } else return ""; } QString TransformFactory::getTransformUnits(TransformId identifier) { if (m_transforms.find(identifier) != m_transforms.end()) { return m_transforms[identifier].units; } else return ""; } Provider TransformFactory::getTransformProvider(TransformId identifier) { if (m_transforms.find(identifier) != m_transforms.end()) { return m_transforms[identifier].provider; } else return {}; } Vamp::Plugin::InputDomain TransformFactory::getTransformInputDomain(TransformId identifier) { Transform transform; transform.setIdentifier(identifier); SVDEBUG << "TransformFactory::getTransformInputDomain: identifier \"" << identifier << "\"" << endl; if (transform.getType() != Transform::FeatureExtraction) { return Vamp::Plugin::TimeDomain; } std::shared_ptr<Vamp::Plugin> plugin = std::dynamic_pointer_cast<Vamp::Plugin> (instantiateDefaultPluginFor(identifier, 0)); if (plugin) { Vamp::Plugin::InputDomain d = plugin->getInputDomain(); return d; } return Vamp::Plugin::TimeDomain; } bool TransformFactory::isTransformConfigurable(TransformId identifier) { if (m_transforms.find(identifier) != m_transforms.end()) { return m_transforms[identifier].configurable; } else return false; } bool TransformFactory::getTransformChannelRange(TransformId identifier, int &min, int &max) { QString id = identifier.section(':', 0, 2); if (RealTimePluginFactory::instanceFor(id)) { RealTimePluginDescriptor descriptor = RealTimePluginFactory::instanceFor(id)-> getPluginDescriptor(id); if (descriptor.name == "") { return false; } min = descriptor.audioInputPortCount; max = descriptor.audioInputPortCount; return true; } else { auto psd = FeatureExtractionPluginFactory::instance()-> getPluginStaticData(id); if (psd.pluginKey == "") return false; min = (int)psd.minChannelCount; max = (int)psd.maxChannelCount; return true; } return false; } void TransformFactory::setParametersFromPlugin(Transform &transform, std::shared_ptr<Vamp::PluginBase> plugin) { Transform::ParameterMap pmap; //!!! record plugin & API version //!!! check that this is the right plugin! Vamp::PluginBase::ParameterList parameters = plugin->getParameterDescriptors(); for (Vamp::PluginBase::ParameterList::const_iterator i = parameters.begin(); i != parameters.end(); ++i) { pmap[i->identifier.c_str()] = plugin->getParameter(i->identifier); // cerr << "TransformFactory::setParametersFromPlugin: parameter " // << i->identifier << " -> value " << // pmap[i->identifier.c_str()] << endl; } transform.setParameters(pmap); if (plugin->getPrograms().empty()) { transform.setProgram(""); } else { transform.setProgram(plugin->getCurrentProgram().c_str()); } std::shared_ptr<RealTimePluginInstance> rtpi = std::dynamic_pointer_cast<RealTimePluginInstance>(plugin); Transform::ConfigurationMap cmap; if (rtpi) { RealTimePluginInstance::ConfigurationPairMap configurePairs = rtpi->getConfigurePairs(); for (RealTimePluginInstance::ConfigurationPairMap::const_iterator i = configurePairs.begin(); i != configurePairs.end(); ++i) { cmap[i->first.c_str()] = i->second.c_str(); } } transform.setConfiguration(cmap); } void TransformFactory::setPluginParameters(const Transform &transform, std::shared_ptr<Vamp::PluginBase> plugin) { //!!! check plugin & API version (see e.g. PluginXml::setParameters) //!!! check that this is the right plugin! std::shared_ptr<RealTimePluginInstance> rtpi = std::dynamic_pointer_cast<RealTimePluginInstance>(plugin); if (rtpi) { const Transform::ConfigurationMap &cmap = transform.getConfiguration(); for (Transform::ConfigurationMap::const_iterator i = cmap.begin(); i != cmap.end(); ++i) { rtpi->configure(i->first.toStdString(), i->second.toStdString()); } } if (transform.getProgram() != "") { plugin->selectProgram(transform.getProgram().toStdString()); } const Transform::ParameterMap &pmap = transform.getParameters(); Vamp::PluginBase::ParameterList parameters = plugin->getParameterDescriptors(); for (Vamp::PluginBase::ParameterList::const_iterator i = parameters.begin(); i != parameters.end(); ++i) { QString key = i->identifier.c_str(); Transform::ParameterMap::const_iterator pmi = pmap.find(key); if (pmi != pmap.end()) { plugin->setParameter(i->identifier, pmi->second); } } } void TransformFactory::makeContextConsistentWithPlugin(Transform &transform, std::shared_ptr<Vamp::PluginBase> plugin) { std::shared_ptr<Vamp::Plugin> vp = std::dynamic_pointer_cast<Vamp::Plugin>(plugin); if (!vp) { // time domain input for real-time effects plugin if (!transform.getBlockSize()) { if (!transform.getStepSize()) transform.setStepSize(1024); transform.setBlockSize(transform.getStepSize()); } else { transform.setStepSize(transform.getBlockSize()); } } else { Vamp::Plugin::InputDomain domain = vp->getInputDomain(); if (!transform.getStepSize()) { transform.setStepSize((int)vp->getPreferredStepSize()); } if (!transform.getBlockSize()) { transform.setBlockSize((int)vp->getPreferredBlockSize()); } if (!transform.getBlockSize()) { transform.setBlockSize(1024); } if (!transform.getStepSize()) { if (domain == Vamp::Plugin::FrequencyDomain) { // cerr << "frequency domain, step = " << blockSize/2 << endl; transform.setStepSize(transform.getBlockSize()/2); } else { // cerr << "time domain, step = " << blockSize/2 << endl; transform.setStepSize(transform.getBlockSize()); } } } } QString TransformFactory::getPluginConfigurationXml(const Transform &t) { QString xml; SVDEBUG << "TransformFactory::getPluginConfigurationXml: identifier \"" << t.getIdentifier() << "\"" << endl; auto plugin = instantiateDefaultPluginFor(t.getIdentifier(), 0); if (!plugin) { SVDEBUG << "TransformFactory::getPluginConfigurationXml: " << "Unable to instantiate plugin for transform \"" << t.getIdentifier() << "\"" << endl; return xml; } setPluginParameters(t, plugin); QTextStream out(&xml); PluginXml(plugin).toXml(out); return xml; } void TransformFactory::setParametersFromPluginConfigurationXml(Transform &t, QString xml) { SVDEBUG << "TransformFactory::setParametersFromPluginConfigurationXml: identifier \"" << t.getIdentifier() << "\"" << endl; auto plugin = instantiateDefaultPluginFor(t.getIdentifier(), 0); if (!plugin) { SVDEBUG << "TransformFactory::setParametersFromPluginConfigurationXml: " << "Unable to instantiate plugin for transform \"" << t.getIdentifier() << "\"" << endl; return; } PluginXml(plugin).setParametersFromXml(xml); setParametersFromPlugin(t, plugin); } TransformFactory::SearchResults TransformFactory::search(QString keyword) { QStringList keywords; keywords << keyword; return search(keywords); } TransformFactory::SearchResults TransformFactory::search(QStringList keywords) { populateTransforms(); SearchResults results = searchUnadjusted(keywords); if (keywords.size() > 1) { // If there are any hits for all keywords in a row, put them // in (replacing previous hits for the same transforms) but // ensure they score more than any of the others int maxScore = 0; for (auto r: results) { if (r.second.score > maxScore) { maxScore = r.second.score; } } QStringList oneBigKeyword; oneBigKeyword << keywords.join(" "); SearchResults oneBigKeywordResults = searchUnadjusted(oneBigKeyword); for (auto r: oneBigKeywordResults) { results[r.first] = r.second; results[r.first].score += maxScore; } } return results; } TransformFactory::SearchResults TransformFactory::searchUnadjusted(QStringList keywords) { SearchResults results; TextMatcher matcher; for (TransformDescriptionMap::const_iterator i = m_transforms.begin(); i != m_transforms.end(); ++i) { TextMatcher::Match match; match.key = i->first; matcher.test(match, keywords, getTransformTypeName(i->second.type), tr("Plugin type"), 5); matcher.test(match, keywords, i->second.category, tr("Category"), 20); matcher.test(match, keywords, i->second.identifier, tr("System Identifier"), 6); matcher.test(match, keywords, i->second.name, tr("Name"), 30); matcher.test(match, keywords, i->second.description, tr("Description"), 20); matcher.test(match, keywords, i->second.maker, tr("Maker"), 10); matcher.test(match, keywords, i->second.units, tr("Units"), 10); if (match.score > 0) results[i->first] = match; } if (!m_uninstalledTransformsMutex.tryLock()) { // uninstalled transforms are being populated; this may take some time, // and they aren't critical, but we will speed them up if necessary SVDEBUG << "TransformFactory::search: Uninstalled transforms mutex is held, skipping" << endl; m_populatingSlowly = false; return results; } if (!m_uninstalledTransformsPopulated) { SVDEBUG << "WARNING: TransformFactory::search: Uninstalled transforms are not populated yet" << endl << "and are not being populated either -- was the thread not started correctly?" << endl; m_uninstalledTransformsMutex.unlock(); return results; } m_uninstalledTransformsMutex.unlock(); for (TransformDescriptionMap::const_iterator i = m_uninstalledTransforms.begin(); i != m_uninstalledTransforms.end(); ++i) { TextMatcher::Match match; match.key = i->first; matcher.test(match, keywords, getTransformTypeName(i->second.type), tr("Plugin type"), 2); matcher.test(match, keywords, i->second.category, tr("Category"), 10); matcher.test(match, keywords, i->second.identifier, tr("System Identifier"), 3); matcher.test(match, keywords, i->second.name, tr("Name"), 15); matcher.test(match, keywords, i->second.description, tr("Description"), 10); matcher.test(match, keywords, i->second.maker, tr("Maker"), 5); matcher.test(match, keywords, i->second.units, tr("Units"), 5); if (match.score > 0) results[i->first] = match; } #ifdef DEBUG_TRANSFORM_FACTORY SVCERR << "TransformFactory::search: keywords are: " << keywords.join(", ") << endl; int n = int(results.size()), i = 1; SVCERR << "TransformFactory::search: results (" << n << "):" << endl; for (const auto &r: results) { QStringList frags; for (const auto &f: r.second.fragments) { frags << QString("{\"%1\": \"%2\"}").arg(f.first).arg(f.second); } SVCERR << "[" << i << "/" << n << "] id " << r.first << ": score " << r.second.score << ", key " << r.second.key << ", fragments " << frags.join(";") << endl; ++i; } SVCERR << endl; #endif return results; }