Mercurial > hg > vamp-plugin-sdk
view src/vamp-hostsdk/PluginLoader.cpp @ 456:86624d166f88 outputid-string-in-featureset
Introduce ListResponse type as well
author | Chris Cannam |
---|---|
date | Mon, 19 Sep 2016 14:10:19 +0100 |
parents | 5c07a86abddd |
children | eb30742e5e43 |
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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 2006-2016 Chris Cannam and QMUL. 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 <vamp-hostsdk/PluginLoader.h> #include <vamp-hostsdk/PluginInputDomainAdapter.h> #include <vamp-hostsdk/PluginChannelAdapter.h> #include <vamp-hostsdk/PluginBufferingAdapter.h> #include <vamp-hostsdk/PluginHostAdapter.h> #include <vamp/vamp.h> #include "Files.h" #include <fstream> using namespace std; _VAMP_SDK_HOSTSPACE_BEGIN(PluginLoader.cpp) namespace Vamp { namespace HostExt { class PluginLoader::Impl { public: Impl(); virtual ~Impl(); PluginKeyList listPlugins(); ListResponse listPluginData(); Plugin *loadPlugin(PluginKey key, float inputSampleRate, int adapterFlags); LoadResponse loadPlugin(LoadRequest req); ConfigurationResponse configurePlugin(ConfigurationRequest req); PluginKey composePluginKey(string libraryName, string identifier); PluginCategoryHierarchy getPluginCategory(PluginKey key); string getLibraryPathForPlugin(PluginKey key); static void setInstanceToClean(PluginLoader *instance); protected: class PluginDeletionNotifyAdapter : public PluginWrapper { public: PluginDeletionNotifyAdapter(Plugin *plugin, Impl *loader); virtual ~PluginDeletionNotifyAdapter(); protected: Impl *m_loader; }; class InstanceCleaner { public: InstanceCleaner() : m_instance(0) { } ~InstanceCleaner() { delete m_instance; } void setInstance(PluginLoader *instance) { m_instance = instance; } protected: PluginLoader *m_instance; }; virtual void pluginDeleted(PluginDeletionNotifyAdapter *adapter); map<PluginKey, string> m_pluginLibraryNameMap; bool m_allPluginsEnumerated; void enumeratePlugins(PluginKey forPlugin = ""); map<PluginKey, PluginCategoryHierarchy> m_taxonomy; void generateTaxonomy(); map<Plugin *, void *> m_pluginLibraryHandleMap; bool decomposePluginKey(PluginKey key, string &libraryName, string &identifier); static InstanceCleaner m_cleaner; }; PluginLoader * PluginLoader::m_instance = 0; PluginLoader::Impl::InstanceCleaner PluginLoader::Impl::m_cleaner; PluginLoader::PluginLoader() { m_impl = new Impl(); } PluginLoader::~PluginLoader() { delete m_impl; } PluginLoader * PluginLoader::getInstance() { if (!m_instance) { // The cleaner doesn't own the instance, because we leave the // instance pointer in the base class for binary backwards // compatibility reasons and to avoid waste m_instance = new PluginLoader(); Impl::setInstanceToClean(m_instance); } return m_instance; } PluginLoader::PluginKeyList PluginLoader::listPlugins() { return m_impl->listPlugins(); } ListResponse PluginLoader::listPluginData() { return m_impl->listPluginData(); } Plugin * PluginLoader::loadPlugin(PluginKey key, float inputSampleRate, int adapterFlags) { return m_impl->loadPlugin(key, inputSampleRate, adapterFlags); } LoadResponse PluginLoader::loadPlugin(LoadRequest req) { return m_impl->loadPlugin(req); } ConfigurationResponse PluginLoader::configurePlugin(ConfigurationRequest req) { return m_impl->configurePlugin(req); } PluginLoader::PluginKey PluginLoader::composePluginKey(string libraryName, string identifier) { return m_impl->composePluginKey(libraryName, identifier); } PluginLoader::PluginCategoryHierarchy PluginLoader::getPluginCategory(PluginKey key) { return m_impl->getPluginCategory(key); } string PluginLoader::getLibraryPathForPlugin(PluginKey key) { return m_impl->getLibraryPathForPlugin(key); } PluginLoader::Impl::Impl() : m_allPluginsEnumerated(false) { } PluginLoader::Impl::~Impl() { } void PluginLoader::Impl::setInstanceToClean(PluginLoader *instance) { m_cleaner.setInstance(instance); } PluginLoader::PluginKeyList PluginLoader::Impl::listPlugins() { if (!m_allPluginsEnumerated) enumeratePlugins(); vector<PluginKey> plugins; for (map<PluginKey, string>::iterator mi = m_pluginLibraryNameMap.begin(); mi != m_pluginLibraryNameMap.end(); ++mi) { plugins.push_back(mi->first); } return plugins; } ListResponse PluginLoader::Impl::listPluginData() { PluginKeyList keys = listPlugins(); ListResponse response; for (PluginKeyList::const_iterator ki = keys.begin(); ki != keys.end(); ++ki) { string key = *ki; Plugin *p = loadPlugin(key, 44100, 0); if (p) { PluginCategoryHierarchy category = getPluginCategory(key); response.pluginData.push_back (PluginStaticData::fromPlugin(key, category, p)); } delete p; } return response; } void PluginLoader::Impl::enumeratePlugins(PluginKey forPlugin) { string libraryName, identifier; vector<string> fullPaths; if (forPlugin != "") { if (!decomposePluginKey(forPlugin, libraryName, identifier)) { std::cerr << "WARNING: Vamp::HostExt::PluginLoader: Invalid plugin key \"" << forPlugin << "\" in enumerate" << std::endl; return; } fullPaths = Files::listLibraryFilesMatching(libraryName); } else { fullPaths = Files::listLibraryFiles(); } for (size_t i = 0; i < fullPaths.size(); ++i) { string fullPath = fullPaths[i]; void *handle = Files::loadLibrary(fullPath); if (!handle) continue; VampGetPluginDescriptorFunction fn = (VampGetPluginDescriptorFunction)Files::lookupInLibrary (handle, "vampGetPluginDescriptor"); if (!fn) { if (forPlugin != "") { cerr << "Vamp::HostExt::PluginLoader: No vampGetPluginDescriptor function found in library \"" << fullPath << "\"" << endl; } Files::unloadLibrary(handle); continue; } int index = 0; const VampPluginDescriptor *descriptor = 0; bool found = false; while ((descriptor = fn(VAMP_API_VERSION, index))) { ++index; if (identifier != "") { if (descriptor->identifier != identifier) continue; } found = true; PluginKey key = composePluginKey(fullPath, descriptor->identifier); // std::cerr << "enumerate: " << key << " (path: " << fullPath << ")" << std::endl; if (m_pluginLibraryNameMap.find(key) == m_pluginLibraryNameMap.end()) { m_pluginLibraryNameMap[key] = fullPath; } } if (!found && forPlugin != "") { cerr << "Vamp::HostExt::PluginLoader: Plugin \"" << identifier << "\" not found in library \"" << fullPath << "\"" << endl; } Files::unloadLibrary(handle); } if (forPlugin == "") m_allPluginsEnumerated = true; } PluginLoader::PluginKey PluginLoader::Impl::composePluginKey(string libraryName, string identifier) { string basename = Files::lcBasename(libraryName); return basename + ":" + identifier; } bool PluginLoader::Impl::decomposePluginKey(PluginKey key, string &libraryName, string &identifier) { string::size_type ki = key.find(':'); if (ki == string::npos) { return false; } libraryName = key.substr(0, ki); identifier = key.substr(ki + 1); return true; } PluginLoader::PluginCategoryHierarchy PluginLoader::Impl::getPluginCategory(PluginKey plugin) { if (m_taxonomy.empty()) generateTaxonomy(); if (m_taxonomy.find(plugin) == m_taxonomy.end()) { return PluginCategoryHierarchy(); } return m_taxonomy[plugin]; } string PluginLoader::Impl::getLibraryPathForPlugin(PluginKey plugin) { if (m_pluginLibraryNameMap.find(plugin) == m_pluginLibraryNameMap.end()) { if (m_allPluginsEnumerated) return ""; enumeratePlugins(plugin); } if (m_pluginLibraryNameMap.find(plugin) == m_pluginLibraryNameMap.end()) { return ""; } return m_pluginLibraryNameMap[plugin]; } Plugin * PluginLoader::Impl::loadPlugin(PluginKey key, float inputSampleRate, int adapterFlags) { string libname, identifier; if (!decomposePluginKey(key, libname, identifier)) { std::cerr << "Vamp::HostExt::PluginLoader: Invalid plugin key \"" << key << "\" in loadPlugin" << std::endl; return 0; } string fullPath = getLibraryPathForPlugin(key); if (fullPath == "") { std::cerr << "Vamp::HostExt::PluginLoader: No library found in Vamp path for plugin \"" << key << "\"" << std::endl; return 0; } void *handle = Files::loadLibrary(fullPath); if (!handle) return 0; VampGetPluginDescriptorFunction fn = (VampGetPluginDescriptorFunction)Files::lookupInLibrary (handle, "vampGetPluginDescriptor"); if (!fn) { cerr << "Vamp::HostExt::PluginLoader: No vampGetPluginDescriptor function found in library \"" << fullPath << "\"" << endl; Files::unloadLibrary(handle); return 0; } int index = 0; const VampPluginDescriptor *descriptor = 0; while ((descriptor = fn(VAMP_API_VERSION, index))) { if (string(descriptor->identifier) == identifier) { Vamp::PluginHostAdapter *plugin = new Vamp::PluginHostAdapter(descriptor, inputSampleRate); Plugin *adapter = new PluginDeletionNotifyAdapter(plugin, this); m_pluginLibraryHandleMap[adapter] = handle; if (adapterFlags & ADAPT_INPUT_DOMAIN) { if (adapter->getInputDomain() == Plugin::FrequencyDomain) { adapter = new PluginInputDomainAdapter(adapter); } } if (adapterFlags & ADAPT_BUFFER_SIZE) { adapter = new PluginBufferingAdapter(adapter); } if (adapterFlags & ADAPT_CHANNEL_COUNT) { adapter = new PluginChannelAdapter(adapter); } return adapter; } ++index; } cerr << "Vamp::HostExt::PluginLoader: Plugin \"" << identifier << "\" not found in library \"" << fullPath << "\"" << endl; return 0; } LoadResponse PluginLoader::Impl::loadPlugin(LoadRequest req) { Plugin *plugin = loadPlugin(req.pluginKey, req.inputSampleRate, req.adapterFlags); LoadResponse response; response.plugin = plugin; if (!plugin) return response; response.plugin = plugin; response.staticData = PluginStaticData::fromPlugin (req.pluginKey, getPluginCategory(req.pluginKey), plugin); int defaultChannels = 0; if (plugin->getMinChannelCount() == plugin->getMaxChannelCount()) { defaultChannels = plugin->getMinChannelCount(); } response.defaultConfiguration = PluginConfiguration::fromPlugin (plugin, defaultChannels, plugin->getPreferredStepSize(), plugin->getPreferredBlockSize()); return response; } ConfigurationResponse PluginLoader::Impl::configurePlugin(ConfigurationRequest req) { for (PluginConfiguration::ParameterMap::const_iterator i = req.configuration.parameterValues.begin(); i != req.configuration.parameterValues.end(); ++i) { req.plugin->setParameter(i->first, i->second); } if (req.configuration.currentProgram != "") { req.plugin->selectProgram(req.configuration.currentProgram); } ConfigurationResponse response; response.plugin = req.plugin; if (req.plugin->initialise(req.configuration.channelCount, req.configuration.stepSize, req.configuration.blockSize)) { response.outputs = req.plugin->getOutputDescriptors(); } return response; } void PluginLoader::Impl::generateTaxonomy() { // cerr << "PluginLoader::Impl::generateTaxonomy" << endl; vector<string> path = PluginHostAdapter::getPluginPath(); string libfragment = "/lib/"; vector<string> catpath; string suffix = "cat"; for (vector<string>::iterator i = path.begin(); i != path.end(); ++i) { // It doesn't matter that we're using literal forward-slash in // this bit, as it's only relevant if the path contains // "/lib/", which is only meaningful and only plausible on // systems with forward-slash delimiters string dir = *i; string::size_type li = dir.find(libfragment); if (li != string::npos) { catpath.push_back (dir.substr(0, li) + "/share/" + dir.substr(li + libfragment.length())); } catpath.push_back(dir); } char buffer[1024]; for (vector<string>::iterator i = catpath.begin(); i != catpath.end(); ++i) { vector<string> files = Files::listFiles(*i, suffix); for (vector<string>::iterator fi = files.begin(); fi != files.end(); ++fi) { string filepath = Files::splicePath(*i, *fi); ifstream is(filepath.c_str(), ifstream::in | ifstream::binary); if (is.fail()) { // cerr << "failed to open: " << filepath << endl; continue; } // cerr << "opened: " << filepath << endl; while (!!is.getline(buffer, 1024)) { string line(buffer); // cerr << "line = " << line << endl; string::size_type di = line.find("::"); if (di == string::npos) continue; string id = line.substr(0, di); string encodedCat = line.substr(di + 2); if (id.substr(0, 5) != "vamp:") continue; id = id.substr(5); while (encodedCat.length() >= 1 && encodedCat[encodedCat.length()-1] == '\r') { encodedCat = encodedCat.substr(0, encodedCat.length()-1); } // cerr << "id = " << id << ", cat = " << encodedCat << endl; PluginCategoryHierarchy category; string::size_type ai; while ((ai = encodedCat.find(" > ")) != string::npos) { category.push_back(encodedCat.substr(0, ai)); encodedCat = encodedCat.substr(ai + 3); } if (encodedCat != "") category.push_back(encodedCat); m_taxonomy[id] = category; } } } } void PluginLoader::Impl::pluginDeleted(PluginDeletionNotifyAdapter *adapter) { void *handle = m_pluginLibraryHandleMap[adapter]; if (handle) Files::unloadLibrary(handle); m_pluginLibraryHandleMap.erase(adapter); } PluginLoader::Impl::PluginDeletionNotifyAdapter::PluginDeletionNotifyAdapter(Plugin *plugin, Impl *loader) : PluginWrapper(plugin), m_loader(loader) { } PluginLoader::Impl::PluginDeletionNotifyAdapter::~PluginDeletionNotifyAdapter() { // We need to delete the plugin before calling pluginDeleted, as // the delete call may require calling through to the descriptor // (for e.g. cleanup) but pluginDeleted may unload the required // library for the call. To prevent a double deletion when our // parent's destructor runs (after this one), be sure to set // m_plugin to 0 after deletion. delete m_plugin; m_plugin = 0; if (m_loader) m_loader->pluginDeleted(this); } } } _VAMP_SDK_HOSTSPACE_END(PluginLoader.cpp)