Mercurial > hg > vamp-plugin-sdk
view vamp-sdk/PluginAdapter.cpp @ 12:a3d35e11c3fe
* Avoid repeated malloc/free for returned feature lists -- reuse static
feature lists where possible. Need to document the host behaviour that
permits this (i.e. a returned feature list is only valid until the next
call to process, getRemainingFeatures or releaseFeatureSet)
| author | cannam |
|---|---|
| date | Thu, 06 Apr 2006 15:12:25 +0000 |
| parents | 44113b1e296b |
| children | 85801331454c |
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/* -*- c-basic-offset: 4 indent-tabs-mode: nil -*- vi:set ts=8 sts=4 sw=4: */ /* Vamp An API for audio analysis and feature extraction plugins. Centre for Digital Music, Queen Mary, University of London. Copyright 2006 Chris Cannam. Permission is hereby granted, free of charge, to any person obtaining a copy of this software and associated documentation files (the "Software"), to deal in the Software without restriction, including without limitation the rights to use, copy, modify, merge, publish, distribute, sublicense, and/or sell copies of the Software, and to permit persons to whom the Software is furnished to do so, subject to the following conditions: The above copyright notice and this permission notice shall be included in all copies or substantial portions of the Software. THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. Except as contained in this notice, the names of the Centre for Digital Music; Queen Mary, University of London; and Chris Cannam shall not be used in advertising or otherwise to promote the sale, use or other dealings in this Software without prior written authorization. */ #include "PluginAdapter.h" namespace Vamp { PluginAdapterBase::PluginAdapterBase() : m_populated(false) { } const VampPluginDescriptor * PluginAdapterBase::getDescriptor() { if (m_populated) return &m_descriptor; Plugin *plugin = createPlugin(48000); m_parameters = plugin->getParameterDescriptors(); m_programs = plugin->getPrograms(); m_descriptor.name = strdup(plugin->getName().c_str()); m_descriptor.description = strdup(plugin->getDescription().c_str()); m_descriptor.maker = strdup(plugin->getMaker().c_str()); m_descriptor.pluginVersion = plugin->getPluginVersion(); m_descriptor.copyright = strdup(plugin->getCopyright().c_str()); m_descriptor.parameterCount = m_parameters.size(); m_descriptor.parameters = (const VampParameterDescriptor **) malloc(m_parameters.size() * sizeof(VampParameterDescriptor)); unsigned int i; for (i = 0; i < m_parameters.size(); ++i) { VampParameterDescriptor *desc = (VampParameterDescriptor *) malloc(sizeof(VampParameterDescriptor)); desc->name = strdup(m_parameters[i].name.c_str()); desc->description = strdup(m_parameters[i].description.c_str()); desc->unit = strdup(m_parameters[i].unit.c_str()); desc->minValue = m_parameters[i].minValue; desc->maxValue = m_parameters[i].maxValue; desc->defaultValue = m_parameters[i].defaultValue; desc->isQuantized = m_parameters[i].isQuantized; desc->quantizeStep = m_parameters[i].quantizeStep; desc->valueNames = 0; if (desc->isQuantized && !m_parameters[i].valueNames.empty()) { desc->valueNames = (const char **) malloc((m_parameters[i].valueNames.size()+1) * sizeof(char *)); for (unsigned int j = 0; j < m_parameters[i].valueNames.size(); ++j) { desc->valueNames[j] = strdup(m_parameters[i].valueNames[j].c_str()); } desc->valueNames[m_parameters[i].valueNames.size()] = 0; } m_descriptor.parameters[i] = desc; } m_descriptor.programCount = m_programs.size(); m_descriptor.programs = (const char **) malloc(m_programs.size() * sizeof(const char *)); for (i = 0; i < m_programs.size(); ++i) { m_descriptor.programs[i] = strdup(m_programs[i].c_str()); } if (plugin->getInputDomain() == Plugin::FrequencyDomain) { m_descriptor.inputDomain = vampFrequencyDomain; } else { m_descriptor.inputDomain = vampTimeDomain; } m_descriptor.instantiate = vampInstantiate; m_descriptor.cleanup = vampCleanup; m_descriptor.initialise = vampInitialise; m_descriptor.reset = vampReset; m_descriptor.getParameter = vampGetParameter; m_descriptor.setParameter = vampSetParameter; m_descriptor.getCurrentProgram = vampGetCurrentProgram; m_descriptor.selectProgram = vampSelectProgram; m_descriptor.getPreferredStepSize = vampGetPreferredStepSize; m_descriptor.getPreferredBlockSize = vampGetPreferredBlockSize; m_descriptor.getMinChannelCount = vampGetMinChannelCount; m_descriptor.getMaxChannelCount = vampGetMaxChannelCount; m_descriptor.getOutputCount = vampGetOutputCount; m_descriptor.getOutputDescriptor = vampGetOutputDescriptor; m_descriptor.releaseOutputDescriptor = vampReleaseOutputDescriptor; m_descriptor.process = vampProcess; m_descriptor.getRemainingFeatures = vampGetRemainingFeatures; m_descriptor.releaseFeatureSet = vampReleaseFeatureSet; m_adapterMap[&m_descriptor] = this; delete plugin; m_populated = true; return &m_descriptor; } PluginAdapterBase::~PluginAdapterBase() { if (!m_populated) return; free((void *)m_descriptor.name); free((void *)m_descriptor.description); free((void *)m_descriptor.maker); free((void *)m_descriptor.copyright); for (unsigned int i = 0; i < m_descriptor.parameterCount; ++i) { const VampParameterDescriptor *desc = m_descriptor.parameters[i]; free((void *)desc->name); free((void *)desc->description); free((void *)desc->unit); if (desc->valueNames) { for (unsigned int j = 0; desc->valueNames[j]; ++j) { free((void *)desc->valueNames[j]); } free((void *)desc->valueNames); } } free((void *)m_descriptor.parameters); for (unsigned int i = 0; i < m_descriptor.programCount; ++i) { free((void *)m_descriptor.programs[i]); } free((void *)m_descriptor.programs); m_adapterMap.erase(&m_descriptor); } PluginAdapterBase * PluginAdapterBase::lookupAdapter(VampPluginHandle handle) { AdapterMap::const_iterator i = m_adapterMap.find(handle); if (i == m_adapterMap.end()) return 0; return i->second; } VampPluginHandle PluginAdapterBase::vampInstantiate(const VampPluginDescriptor *desc, float inputSampleRate) { if (m_adapterMap.find(desc) == m_adapterMap.end()) return 0; PluginAdapterBase *adapter = m_adapterMap[desc]; if (desc != &adapter->m_descriptor) return 0; Plugin *plugin = adapter->createPlugin(inputSampleRate); if (plugin) { m_adapterMap[plugin] = adapter; } return plugin; } void PluginAdapterBase::vampCleanup(VampPluginHandle handle) { PluginAdapterBase *adapter = lookupAdapter(handle); if (!adapter) { delete ((Plugin *)handle); return; } adapter->cleanup(((Plugin *)handle)); } int PluginAdapterBase::vampInitialise(VampPluginHandle handle, unsigned int channels, unsigned int stepSize, unsigned int blockSize) { bool result = ((Plugin *)handle)->initialise (channels, stepSize, blockSize); return result ? 1 : 0; } void PluginAdapterBase::vampReset(VampPluginHandle handle) { ((Plugin *)handle)->reset(); } float PluginAdapterBase::vampGetParameter(VampPluginHandle handle, int param) { PluginAdapterBase *adapter = lookupAdapter(handle); if (!adapter) return 0.0; Plugin::ParameterList &list = adapter->m_parameters; return ((Plugin *)handle)->getParameter(list[param].name); } void PluginAdapterBase::vampSetParameter(VampPluginHandle handle, int param, float value) { PluginAdapterBase *adapter = lookupAdapter(handle); if (!adapter) return; Plugin::ParameterList &list = adapter->m_parameters; ((Plugin *)handle)->setParameter(list[param].name, value); } unsigned int PluginAdapterBase::vampGetCurrentProgram(VampPluginHandle handle) { PluginAdapterBase *adapter = lookupAdapter(handle); if (!adapter) return 0; Plugin::ProgramList &list = adapter->m_programs; std::string program = ((Plugin *)handle)->getCurrentProgram(); for (unsigned int i = 0; i < list.size(); ++i) { if (list[i] == program) return i; } return 0; } void PluginAdapterBase::vampSelectProgram(VampPluginHandle handle, unsigned int program) { PluginAdapterBase *adapter = lookupAdapter(handle); if (!adapter) return; Plugin::ProgramList &list = adapter->m_programs; ((Plugin *)handle)->selectProgram(list[program]); } unsigned int PluginAdapterBase::vampGetPreferredStepSize(VampPluginHandle handle) { return ((Plugin *)handle)->getPreferredStepSize(); } unsigned int PluginAdapterBase::vampGetPreferredBlockSize(VampPluginHandle handle) { return ((Plugin *)handle)->getPreferredBlockSize(); } unsigned int PluginAdapterBase::vampGetMinChannelCount(VampPluginHandle handle) { return ((Plugin *)handle)->getMinChannelCount(); } unsigned int PluginAdapterBase::vampGetMaxChannelCount(VampPluginHandle handle) { return ((Plugin *)handle)->getMaxChannelCount(); } unsigned int PluginAdapterBase::vampGetOutputCount(VampPluginHandle handle) { PluginAdapterBase *adapter = lookupAdapter(handle); if (!adapter) return 0; return adapter->getOutputCount((Plugin *)handle); } VampOutputDescriptor * PluginAdapterBase::vampGetOutputDescriptor(VampPluginHandle handle, unsigned int i) { PluginAdapterBase *adapter = lookupAdapter(handle); if (!adapter) return 0; return adapter->getOutputDescriptor((Plugin *)handle, i); } void PluginAdapterBase::vampReleaseOutputDescriptor(VampOutputDescriptor *desc) { if (desc->name) free((void *)desc->name); if (desc->description) free((void *)desc->description); if (desc->unit) free((void *)desc->unit); for (unsigned int i = 0; i < desc->binCount; ++i) { free((void *)desc->binNames[i]); } if (desc->binNames) free((void *)desc->binNames); free((void *)desc); } VampFeatureList * PluginAdapterBase::vampProcess(VampPluginHandle handle, float **inputBuffers, int sec, int nsec) { PluginAdapterBase *adapter = lookupAdapter(handle); if (!adapter) return 0; return adapter->process((Plugin *)handle, inputBuffers, sec, nsec); } VampFeatureList * PluginAdapterBase::vampGetRemainingFeatures(VampPluginHandle handle) { PluginAdapterBase *adapter = lookupAdapter(handle); if (!adapter) return 0; return adapter->getRemainingFeatures((Plugin *)handle); } void PluginAdapterBase::vampReleaseFeatureSet(VampFeatureList *fs) { } void PluginAdapterBase::cleanup(Plugin *plugin) { if (m_fs.find(plugin) != m_fs.end()) { size_t outputCount = 0; if (m_pluginOutputs[plugin]) { outputCount = m_pluginOutputs[plugin]->size(); } VampFeatureList *list = m_fs[plugin]; for (unsigned int i = 0; i < outputCount; ++i) { for (unsigned int j = 0; j < m_fsizes[plugin][i]; ++j) { if (list[i].features[j].label) { free(list[i].features[j].label); } if (list[i].features[j].values) { free(list[i].features[j].values); } } if (list[i].features) free(list[i].features); } m_fs.erase(plugin); m_fsizes.erase(plugin); m_fvsizes.erase(plugin); } if (m_pluginOutputs.find(plugin) != m_pluginOutputs.end()) { delete m_pluginOutputs[plugin]; m_pluginOutputs.erase(plugin); } m_adapterMap.erase(plugin); delete ((Plugin *)plugin); } void PluginAdapterBase::checkOutputMap(Plugin *plugin) { if (!m_pluginOutputs[plugin]) { m_pluginOutputs[plugin] = new Plugin::OutputList (plugin->getOutputDescriptors()); } } unsigned int PluginAdapterBase::getOutputCount(Plugin *plugin) { checkOutputMap(plugin); return m_pluginOutputs[plugin]->size(); } VampOutputDescriptor * PluginAdapterBase::getOutputDescriptor(Plugin *plugin, unsigned int i) { checkOutputMap(plugin); Plugin::OutputDescriptor &od = (*m_pluginOutputs[plugin])[i]; VampOutputDescriptor *desc = (VampOutputDescriptor *) malloc(sizeof(VampOutputDescriptor)); desc->name = strdup(od.name.c_str()); desc->description = strdup(od.description.c_str()); desc->unit = strdup(od.unit.c_str()); desc->hasFixedBinCount = od.hasFixedBinCount; desc->binCount = od.binCount; if (od.hasFixedBinCount && od.binCount > 0) { desc->binNames = (const char **) malloc(od.binCount * sizeof(const char *)); for (unsigned int i = 0; i < od.binCount; ++i) { if (i < od.binNames.size()) { desc->binNames[i] = strdup(od.binNames[i].c_str()); } else { desc->binNames[i] = 0; } } } else { desc->binNames = 0; } desc->hasKnownExtents = od.hasKnownExtents; desc->minValue = od.minValue; desc->maxValue = od.maxValue; desc->isQuantized = od.isQuantized; desc->quantizeStep = od.quantizeStep; switch (od.sampleType) { case Plugin::OutputDescriptor::OneSamplePerStep: desc->sampleType = vampOneSamplePerStep; break; case Plugin::OutputDescriptor::FixedSampleRate: desc->sampleType = vampFixedSampleRate; break; case Plugin::OutputDescriptor::VariableSampleRate: desc->sampleType = vampVariableSampleRate; break; } desc->sampleRate = od.sampleRate; return desc; } VampFeatureList * PluginAdapterBase::process(Plugin *plugin, float **inputBuffers, int sec, int nsec) { // std::cerr << "PluginAdapterBase::process" << std::endl; RealTime rt(sec, nsec); checkOutputMap(plugin); return convertFeatures(plugin, plugin->process(inputBuffers, rt)); } VampFeatureList * PluginAdapterBase::getRemainingFeatures(Plugin *plugin) { // std::cerr << "PluginAdapterBase::getRemainingFeatures" << std::endl; checkOutputMap(plugin); return convertFeatures(plugin, plugin->getRemainingFeatures()); } VampFeatureList * PluginAdapterBase::convertFeatures(Plugin *plugin, const Plugin::FeatureSet &features) { int lastN = -1; int outputCount = 0; if (m_pluginOutputs[plugin]) outputCount = m_pluginOutputs[plugin]->size(); resizeFS(plugin, outputCount); VampFeatureList *fs = m_fs[plugin]; for (Plugin::FeatureSet::const_iterator fi = features.begin(); fi != features.end(); ++fi) { int n = fi->first; // std::cerr << "PluginAdapterBase::convertFeatures: n = " << n << std::endl; if (n >= int(outputCount)) { std::cerr << "WARNING: PluginAdapterBase::convertFeatures: Too many outputs from plugin (" << n+1 << ", only should be " << outputCount << ")" << std::endl; continue; } if (n > lastN + 1) { for (int i = lastN + 1; i < n; ++i) { fs[i].featureCount = 0; } } const Plugin::FeatureList &fl = fi->second; size_t sz = fl.size(); if (sz > m_fsizes[plugin][n]) resizeFL(plugin, n, sz); fs[n].featureCount = sz; for (size_t j = 0; j < sz; ++j) { // std::cerr << "PluginAdapterBase::convertFeatures: j = " << j << std::endl; VampFeature *feature = &fs[n].features[j]; feature->hasTimestamp = fl[j].hasTimestamp; feature->sec = fl[j].timestamp.sec; feature->nsec = fl[j].timestamp.nsec; feature->valueCount = fl[j].values.size(); if (feature->label) free(feature->label); if (fl[j].label.empty()) { feature->label = 0; } else { feature->label = strdup(fl[j].label.c_str()); } if (feature->valueCount > m_fvsizes[plugin][n][j]) { resizeFV(plugin, n, j, feature->valueCount); } for (unsigned int k = 0; k < feature->valueCount; ++k) { // std::cerr << "PluginAdapterBase::convertFeatures: k = " << k << std::endl; feature->values[k] = fl[j].values[k]; } } lastN = n; } if (lastN == -1) return 0; if (int(outputCount) > lastN + 1) { for (int i = lastN + 1; i < int(outputCount); ++i) { fs[i].featureCount = 0; } } return fs; } void PluginAdapterBase::resizeFS(Plugin *plugin, int n) { // std::cerr << "PluginAdapterBase::resizeFS(" << plugin << ", " << n << ")" << std::endl; int i = m_fsizes[plugin].size(); if (i >= n) return; std::cerr << "resizing from " << i << std::endl; m_fs[plugin] = (VampFeatureList *)realloc (m_fs[plugin], n * sizeof(VampFeatureList)); while (i < n) { m_fs[plugin][i].featureCount = 0; m_fs[plugin][i].features = 0; m_fsizes[plugin].push_back(0); m_fvsizes[plugin].push_back(std::vector<size_t>()); i++; } } void PluginAdapterBase::resizeFL(Plugin *plugin, int n, size_t sz) { std::cerr << "PluginAdapterBase::resizeFL(" << plugin << ", " << n << ", " << sz << ")" << std::endl; size_t i = m_fsizes[plugin][n]; if (i >= sz) return; std::cerr << "resizing from " << i << std::endl; m_fs[plugin][n].features = (VampFeature *)realloc (m_fs[plugin][n].features, sz * sizeof(VampFeature)); while (m_fsizes[plugin][n] < sz) { m_fs[plugin][n].features[m_fsizes[plugin][n]].valueCount = 0; m_fs[plugin][n].features[m_fsizes[plugin][n]].values = 0; m_fs[plugin][n].features[m_fsizes[plugin][n]].label = 0; m_fvsizes[plugin][n].push_back(0); m_fsizes[plugin][n]++; } } void PluginAdapterBase::resizeFV(Plugin *plugin, int n, int j, size_t sz) { std::cerr << "PluginAdapterBase::resizeFV(" << plugin << ", " << n << ", " << j << ", " << sz << ")" << std::endl; size_t i = m_fvsizes[plugin][n][j]; if (i >= sz) return; std::cerr << "resizing from " << i << std::endl; m_fs[plugin][n].features[j].values = (float *)realloc (m_fs[plugin][n].features[j].values, sz * sizeof(float)); m_fvsizes[plugin][n][j] = sz; } PluginAdapterBase::AdapterMap PluginAdapterBase::m_adapterMap; }