// -*- c-basic-offset: 4 -*- /* Rosegarden A sequencer and musical notation editor. This program is Copyright 2000-2008 Guillaume Laurent , Chris Cannam , Richard Bown The moral right of the authors to claim authorship of this work has been asserted. 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 "LADSPAPluginFactory.h" #include #include #ifdef HAVE_LADSPA #include #include #include #include "AudioPluginInstance.h" #include "LADSPAPluginInstance.h" #include "MappedStudio.h" #include "PluginIdentifier.h" #ifdef HAVE_LIBLRDF #include "lrdf.h" #endif // HAVE_LIBLRDF #include namespace Rosegarden { LADSPAPluginFactory::LADSPAPluginFactory() {} LADSPAPluginFactory::~LADSPAPluginFactory() { for (std::set ::iterator i = m_instances.begin(); i != m_instances.end(); ++i) { (*i)->setFactory(0); delete *i; } m_instances.clear(); unloadUnusedLibraries(); } const std::vector & LADSPAPluginFactory::getPluginIdentifiers() const { return m_identifiers; } void LADSPAPluginFactory::enumeratePlugins(MappedObjectPropertyList &list) { for (std::vector::iterator i = m_identifiers.begin(); i != m_identifiers.end(); ++i) { const LADSPA_Descriptor *descriptor = getLADSPADescriptor(*i); if (!descriptor) { std::cerr << "WARNING: LADSPAPluginFactory::enumeratePlugins: couldn't get descriptor for identifier " << (*i).ascii() << std::endl; continue; } // std::cerr << "Enumerating plugin identifier " << *i << std::endl; list.push_back(*i); list.push_back(descriptor->Name); list.push_back(TQString("%1").tqarg(descriptor->UniqueID)); list.push_back(descriptor->Label); list.push_back(descriptor->Maker); list.push_back(descriptor->Copyright); list.push_back("false"); // is synth list.push_back("false"); // is grouped if (m_taxonomy.find(descriptor->UniqueID) != m_taxonomy.end() && m_taxonomy[descriptor->UniqueID] != "") { // std::cerr << "LADSPAPluginFactory: cat for " << *i<< " found in taxonomy as " << m_taxonomy[descriptor->UniqueID] << std::endl; list.push_back(m_taxonomy[descriptor->UniqueID]); } else if (m_fallbackCategories.find(*i) != m_fallbackCategories.end()) { list.push_back(m_fallbackCategories[*i]); // std::cerr << "LADSPAPluginFactory: cat for " << *i <<" found in fallbacks as " << m_fallbackCategories[*i] << std::endl; } else { list.push_back(""); // std::cerr << "LADSPAPluginFactory: cat for " << *i << " not found (despite having " << m_fallbackCategories.size() << " fallbacks)" << std::endl; } list.push_back(TQString("%1").tqarg(descriptor->PortCount)); for (unsigned long p = 0; p < descriptor->PortCount; ++p) { int type = 0; if (LADSPA_IS_PORT_CONTROL(descriptor->PortDescriptors[p])) { type |= PluginPort::Control; } else { type |= PluginPort::Audio; } if (LADSPA_IS_PORT_INPUT(descriptor->PortDescriptors[p])) { type |= PluginPort::Input; } else { type |= PluginPort::Output; } list.push_back(TQString("%1").tqarg(p)); list.push_back(descriptor->PortNames[p]); list.push_back(TQString("%1").tqarg(type)); list.push_back(TQString("%1").tqarg(getPortDisplayHint(descriptor, p))); list.push_back(TQString("%1").tqarg(getPortMinimum(descriptor, p))); list.push_back(TQString("%1").tqarg(getPortMaximum(descriptor, p))); list.push_back(TQString("%1").tqarg(getPortDefault(descriptor, p))); } } unloadUnusedLibraries(); } void LADSPAPluginFactory::populatePluginSlot(TQString identifier, MappedPluginSlot &slot) { const LADSPA_Descriptor *descriptor = getLADSPADescriptor(identifier); if (descriptor) { slot.setProperty(MappedPluginSlot::Label, descriptor->Label); slot.setProperty(MappedPluginSlot::PluginName, descriptor->Name); slot.setProperty(MappedPluginSlot::Author, descriptor->Maker); slot.setProperty(MappedPluginSlot::Copyright, descriptor->Copyright); slot.setProperty(MappedPluginSlot::PortCount, descriptor->PortCount); if (m_taxonomy.find(descriptor->UniqueID) != m_taxonomy.end() && m_taxonomy[descriptor->UniqueID] != "") { // std::cerr << "LADSPAPluginFactory: cat for " << identifier<< " found in taxonomy as " << m_taxonomy[descriptor->UniqueID] << std::endl; slot.setProperty(MappedPluginSlot::Category, m_taxonomy[descriptor->UniqueID]); } else if (m_fallbackCategories.find(identifier) != m_fallbackCategories.end()) { // std::cerr << "LADSPAPluginFactory: cat for " << identifier <<" found in fallbacks as " << m_fallbackCategories[identifier] << std::endl; slot.setProperty(MappedPluginSlot::Category, m_fallbackCategories[identifier]); } else { // std::cerr << "LADSPAPluginFactory: cat for " << identifier << " not found (despite having " << m_fallbackCategories.size() << " fallbacks)" << std::endl; slot.setProperty(MappedPluginSlot::Category, ""); } slot.destroyChildren(); for (unsigned long i = 0; i < descriptor->PortCount; i++) { if (LADSPA_IS_PORT_CONTROL(descriptor->PortDescriptors[i]) && LADSPA_IS_PORT_INPUT(descriptor->PortDescriptors[i])) { MappedStudio *studio = dynamic_cast(slot.getParent()); if (!studio) { std::cerr << "WARNING: LADSPAPluginFactory::populatePluginSlot: can't find studio" << std::endl; return ; } MappedPluginPort *port = dynamic_cast (studio->createObject(MappedObject::PluginPort)); slot.addChild(port); port->setParent(&slot); port->setProperty(MappedPluginPort::PortNumber, i); port->setProperty(MappedPluginPort::Name, descriptor->PortNames[i]); port->setProperty(MappedPluginPort::Maximum, getPortMaximum(descriptor, i)); port->setProperty(MappedPluginPort::Minimum, getPortMinimum(descriptor, i)); port->setProperty(MappedPluginPort::Default, getPortDefault(descriptor, i)); port->setProperty(MappedPluginPort::DisplayHint, getPortDisplayHint(descriptor, i)); } } } //!!! leak here if the plugin is not instantiated too...? } MappedObjectValue LADSPAPluginFactory::getPortMinimum(const LADSPA_Descriptor *descriptor, int port) { LADSPA_PortRangeHintDescriptor d = descriptor->PortRangeHints[port].HintDescriptor; MappedObjectValue minimum = 0.0; if (LADSPA_IS_HINT_BOUNDED_BELOW(d)) { MappedObjectValue lb = descriptor->PortRangeHints[port].LowerBound; minimum = lb; } else if (LADSPA_IS_HINT_BOUNDED_ABOVE(d)) { MappedObjectValue ub = descriptor->PortRangeHints[port].UpperBound; minimum = std::min(0.f, ub - 1.f); } if (LADSPA_IS_HINT_SAMPLE_RATE(d)) { minimum *= m_sampleRate; } if (LADSPA_IS_HINT_LOGARITHMIC(d)) { if (minimum == 0.f) minimum = 1.f; } return minimum; } MappedObjectValue LADSPAPluginFactory::getPortMaximum(const LADSPA_Descriptor *descriptor, int port) { LADSPA_PortRangeHintDescriptor d = descriptor->PortRangeHints[port].HintDescriptor; MappedObjectValue maximum = 1.0; // std::cerr << "LADSPAPluginFactory::getPortMaximum(" << port << ")" << std::endl; // std::cerr << "bounded above: " << LADSPA_IS_HINT_BOUNDED_ABOVE(d) << std::endl; if (LADSPA_IS_HINT_BOUNDED_ABOVE(d)) { MappedObjectValue ub = descriptor->PortRangeHints[port].UpperBound; maximum = ub; } else { MappedObjectValue lb = descriptor->PortRangeHints[port].LowerBound; if (LADSPA_IS_HINT_LOGARITHMIC(d)) { if (lb == 0.f) lb = 1.f; maximum = lb * 100.f; } else { if (lb == 1.f) maximum = 10.f; else maximum = lb + 10; } } if (LADSPA_IS_HINT_SAMPLE_RATE(d)) { // std::cerr << "note: port has sample rate hint" << std::endl; maximum *= m_sampleRate; } // std::cerr << "maximum: " << maximum << std::endl; // if (LADSPA_IS_HINT_LOGARITHMIC(d)) { // std::cerr << "note: port is logarithmic" << std::endl; // } // std::cerr << "note: minimum is reported as " << getPortMinimum(descriptor, port) << " (from bounded = " << LADSPA_IS_HINT_BOUNDED_BELOW(d) << ", bound = " << descriptor->PortRangeHints[port].LowerBound << ")" << std::endl; return maximum; } MappedObjectValue LADSPAPluginFactory::getPortDefault(const LADSPA_Descriptor *descriptor, int port) { MappedObjectValue minimum = getPortMinimum(descriptor, port); MappedObjectValue maximum = getPortMaximum(descriptor, port); MappedObjectValue deft; if (m_portDefaults.find(descriptor->UniqueID) != m_portDefaults.end()) { if (m_portDefaults[descriptor->UniqueID].find(port) != m_portDefaults[descriptor->UniqueID].end()) { deft = m_portDefaults[descriptor->UniqueID][port]; if (deft < minimum) deft = minimum; if (deft > maximum) deft = maximum; // std::cerr << "port " << port << ": default " << deft << " from defaults" << std::endl; return deft; } } LADSPA_PortRangeHintDescriptor d = descriptor->PortRangeHints[port].HintDescriptor; bool logarithmic = LADSPA_IS_HINT_LOGARITHMIC(d); float logmin = 0, logmax = 0; if (logarithmic) { float thresh = powf(10, -10); if (minimum < thresh) logmin = -10; else logmin = log10f(minimum); if (maximum < thresh) logmax = -10; else logmax = log10f(maximum); } if (!LADSPA_IS_HINT_HAS_DEFAULT(d)) { deft = minimum; } else if (LADSPA_IS_HINT_DEFAULT_MINIMUM(d)) { // See comment for DEFAULT_MAXIMUM below if (!LADSPA_IS_HINT_BOUNDED_BELOW(d)) { deft = descriptor->PortRangeHints[port].LowerBound; if (LADSPA_IS_HINT_SAMPLE_RATE(d)) { deft *= m_sampleRate; } // std::cerr << "default-minimum: " << deft << std::endl; if (deft < minimum || deft > maximum) deft = minimum; // std::cerr << "default-minimum: " << deft << std::endl; } else { deft = minimum; } } else if (LADSPA_IS_HINT_DEFAULT_LOW(d)) { if (logarithmic) { deft = powf(10, logmin * 0.75 + logmax * 0.25); } else { deft = minimum * 0.75 + maximum * 0.25; } } else if (LADSPA_IS_HINT_DEFAULT_MIDDLE(d)) { if (logarithmic) { deft = powf(10, logmin * 0.5 + logmax * 0.5); } else { deft = minimum * 0.5 + maximum * 0.5; } } else if (LADSPA_IS_HINT_DEFAULT_HIGH(d)) { if (logarithmic) { deft = powf(10, logmin * 0.25 + logmax * 0.75); } else { deft = minimum * 0.25 + maximum * 0.75; } } else if (LADSPA_IS_HINT_DEFAULT_MAXIMUM(d)) { // CMT plugins employ this grossness (setting DEFAULT_MAXIMUM // without BOUNDED_ABOVE and then using the UPPER_BOUND as the // port default) if (!LADSPA_IS_HINT_BOUNDED_ABOVE(d)) { deft = descriptor->PortRangeHints[port].UpperBound; if (LADSPA_IS_HINT_SAMPLE_RATE(d)) { deft *= m_sampleRate; } // std::cerr << "default-maximum: " << deft << std::endl; if (deft < minimum || deft > maximum) deft = maximum; // std::cerr << "default-maximum: " << deft << std::endl; } else { deft = maximum; } } else if (LADSPA_IS_HINT_DEFAULT_0(d)) { deft = 0.0; } else if (LADSPA_IS_HINT_DEFAULT_1(d)) { deft = 1.0; } else if (LADSPA_IS_HINT_DEFAULT_100(d)) { deft = 100.0; } else if (LADSPA_IS_HINT_DEFAULT_440(d)) { deft = 440.0; } else { deft = minimum; } // std::cerr << "port " << port << " default = "<< deft << std::endl; return deft; } int LADSPAPluginFactory::getPortDisplayHint(const LADSPA_Descriptor *descriptor, int port) { LADSPA_PortRangeHintDescriptor d = descriptor->PortRangeHints[port].HintDescriptor; int hint = PluginPort::NoHint; if (LADSPA_IS_HINT_TOGGLED(d)) hint |= PluginPort::Toggled; if (LADSPA_IS_HINT_INTEGER(d)) hint |= PluginPort::Integer; if (LADSPA_IS_HINT_LOGARITHMIC(d)) hint |= PluginPort::Logarithmic; return hint; } RunnablePluginInstance * LADSPAPluginFactory::instantiatePlugin(TQString identifier, int instrument, int position, unsigned int sampleRate, unsigned int blockSize, unsigned int channels) { const LADSPA_Descriptor *descriptor = getLADSPADescriptor(identifier); if (descriptor) { LADSPAPluginInstance *instance = new LADSPAPluginInstance (this, instrument, identifier, position, sampleRate, blockSize, channels, descriptor); m_instances.insert(instance); return instance; } return 0; } void LADSPAPluginFactory::releasePlugin(RunnablePluginInstance *instance, TQString identifier) { if (m_instances.find(instance) == m_instances.end()) { std::cerr << "WARNING: LADSPAPluginFactory::releasePlugin: Not one of mine!" << std::endl; return ; } TQString type, soname, label; PluginIdentifier::parseIdentifier(identifier, type, soname, label); m_instances.erase(m_instances.find(instance)); bool stillInUse = false; for (std::set ::iterator ii = m_instances.begin(); ii != m_instances.end(); ++ii) { TQString itype, isoname, ilabel; PluginIdentifier::parseIdentifier((*ii)->getIdentifier(), itype, isoname, ilabel); if (isoname == soname) { // std::cerr << "LADSPAPluginFactory::releasePlugin: dll " << soname << " is still in use for plugin " << ilabel << std::endl; stillInUse = true; break; } } if (!stillInUse) { // std::cerr << "LADSPAPluginFactory::releasePlugin: dll " << soname << " no longer in use, unloading" << std::endl; unloadLibrary(soname); } } const LADSPA_Descriptor * LADSPAPluginFactory::getLADSPADescriptor(TQString identifier) { TQString type, soname, label; PluginIdentifier::parseIdentifier(identifier, type, soname, label); if (m_libraryHandles.find(soname) == m_libraryHandles.end()) { loadLibrary(soname); if (m_libraryHandles.find(soname) == m_libraryHandles.end()) { std::cerr << "WARNING: LADSPAPluginFactory::getLADSPADescriptor: loadLibrary failed for " << soname.ascii() << std::endl; return 0; } } void *libraryHandle = m_libraryHandles[soname]; LADSPA_Descriptor_Function fn = (LADSPA_Descriptor_Function) dlsym(libraryHandle, "ladspa_descriptor"); if (!fn) { std::cerr << "WARNING: LADSPAPluginFactory::getLADSPADescriptor: No descriptor function in library " << soname.ascii() << std::endl; return 0; } const LADSPA_Descriptor *descriptor = 0; int index = 0; while ((descriptor = fn(index))) { if (descriptor->Label == label) return descriptor; ++index; } std::cerr << "WARNING: LADSPAPluginFactory::getLADSPADescriptor: No such plugin as " << label.ascii() << " in library " << soname.ascii() << std::endl; return 0; } void LADSPAPluginFactory::loadLibrary(TQString soName) { void *libraryHandle = dlopen(soName.ascii(), RTLD_NOW); if (libraryHandle) m_libraryHandles[soName] = libraryHandle; } void LADSPAPluginFactory::unloadLibrary(TQString soName) { LibraryHandleMap::iterator li = m_libraryHandles.find(soName); if (li != m_libraryHandles.end()) { // std::cerr << "unloading " << soName << std::endl; dlclose(m_libraryHandles[soName]); m_libraryHandles.erase(li); } } void LADSPAPluginFactory::unloadUnusedLibraries() { std::vector toUnload; for (LibraryHandleMap::iterator i = m_libraryHandles.begin(); i != m_libraryHandles.end(); ++i) { bool stillInUse = false; for (std::set ::iterator ii = m_instances.begin(); ii != m_instances.end(); ++ii) { TQString itype, isoname, ilabel; PluginIdentifier::parseIdentifier((*ii)->getIdentifier(), itype, isoname, ilabel); if (isoname == i->first) { stillInUse = true; break; } } if (!stillInUse) toUnload.push_back(i->first); } for (std::vector::iterator i = toUnload.begin(); i != toUnload.end(); ++i) { unloadLibrary(*i); } } // It is only later, after they've gone, // I realize they have delivered a letter. // It's a letter from my wife. "What are you doing // there?" my wife asks. "Are you drinking?" // I study the postmark for hours. Then it, too, begins to fade. // I hope someday to forget all this. std::vector LADSPAPluginFactory::getPluginPath() { std::vector pathList; std::string path; char *cpath = getenv("LADSPA_PATH"); if (cpath) path = cpath; if (path == "") { path = "/usr/local/lib/ladspa:/usr/lib/ladspa"; char *home = getenv("HOME"); if (home) path = std::string(home) + "/.ladspa:" + path; } std::string::size_type index = 0, newindex = 0; while ((newindex = path.find(':', index)) < path.size()) { pathList.push_back(path.substr(index, newindex - index).c_str()); index = newindex + 1; } pathList.push_back(path.substr(index).c_str()); return pathList; } #ifdef HAVE_LIBLRDF std::vector LADSPAPluginFactory::getLRDFPath(TQString &baseUri) { std::vector pathList = getPluginPath(); std::vector lrdfPaths; lrdfPaths.push_back("/usr/local/share/ladspa/rdf"); lrdfPaths.push_back("/usr/share/ladspa/rdf"); for (std::vector::iterator i = pathList.begin(); i != pathList.end(); ++i) { lrdfPaths.push_back(*i + "/rdf"); } baseUri = LADSPA_BASE; return lrdfPaths; } #endif void LADSPAPluginFactory::discoverPlugins() { std::vector pathList = getPluginPath(); std::cerr << "LADSPAPluginFactory::discoverPlugins - " << "discovering plugins; path is "; for (std::vector::iterator i = pathList.begin(); i != pathList.end(); ++i) { std::cerr << "[" << (*i).ascii() << "] "; } std::cerr << std::endl; // std::cerr << "LADSPAPluginFactory::discoverPlugins - " // << "trace is "; // std::cerr << kdBacktrace() << std::endl; #ifdef HAVE_LIBLRDF // Initialise liblrdf and read the description files // lrdf_init(); TQString baseUri; std::vector lrdfPaths = getLRDFPath(baseUri); bool haveSomething = false; for (size_t i = 0; i < lrdfPaths.size(); ++i) { TQDir dir(lrdfPaths[i], "*.rdf;*.rdfs"); for (unsigned int j = 0; j < dir.count(); ++j) { if (!lrdf_read_file(TQString("file:" + lrdfPaths[i] + "/" + dir[j]).ascii())) { // std::cerr << "LADSPAPluginFactory: read RDF file " << (lrdfPaths[i] + "/" + dir[j]) << std::endl; haveSomething = true; } } } if (haveSomething) { generateTaxonomy(baseUri + "Plugin", ""); } #endif // HAVE_LIBLRDF generateFallbackCategories(); for (std::vector::iterator i = pathList.begin(); i != pathList.end(); ++i) { TQDir pluginDir(*i, "*.so"); for (unsigned int j = 0; j < pluginDir.count(); ++j) { discoverPlugins(TQString("%1/%2").tqarg(*i).tqarg(pluginDir[j])); } } #ifdef HAVE_LIBLRDF // Cleanup after the RDF library // lrdf_cleanup(); #endif // HAVE_LIBLRDF std::cerr << "LADSPAPluginFactory::discoverPlugins - done" << std::endl; } void LADSPAPluginFactory::discoverPlugins(TQString soName) { void *libraryHandle = dlopen(soName.ascii(), RTLD_LAZY); if (!libraryHandle) { std::cerr << "WARNING: LADSPAPluginFactory::discoverPlugins: couldn't dlopen " << soName.ascii() << " - " << dlerror() << std::endl; return ; } LADSPA_Descriptor_Function fn = (LADSPA_Descriptor_Function) dlsym(libraryHandle, "ladspa_descriptor"); if (!fn) { std::cerr << "WARNING: LADSPAPluginFactory::discoverPlugins: No descriptor function in " << soName.ascii() << std::endl; return ; } const LADSPA_Descriptor *descriptor = 0; int index = 0; while ((descriptor = fn(index))) { #ifdef HAVE_LIBLRDF char * def_uri = 0; lrdf_defaults *defs = 0; TQString category = m_taxonomy[descriptor->UniqueID]; if (category == "" && descriptor->Name != 0) { std::string name = descriptor->Name; if (name.length() > 4 && name.substr(name.length() - 4) == " VST") { category = "VST effects"; m_taxonomy[descriptor->UniqueID] = category; } } // std::cerr << "Plugin id is " << descriptor->UniqueID // << ", category is \"" << (category ? category : TQString("(none)")) // << "\", name is " << descriptor->Name // << ", label is " << descriptor->Label // << std::endl; def_uri = lrdf_get_default_uri(descriptor->UniqueID); if (def_uri) { defs = lrdf_get_setting_values(def_uri); } int controlPortNumber = 1; for (unsigned long i = 0; i < descriptor->PortCount; i++) { if (LADSPA_IS_PORT_CONTROL(descriptor->PortDescriptors[i])) { if (def_uri && defs) { for (int j = 0; j < defs->count; j++) { if (defs->items[j].pid == controlPortNumber) { // std::cerr << "Default for this port (" << defs->items[j].pid << ", " << defs->items[j].label << ") is " << defs->items[j].value << "; applying this to port number " << i << " with name " << descriptor->PortNames[i] << std::endl; m_portDefaults[descriptor->UniqueID][i] = defs->items[j].value; } } } ++controlPortNumber; } } #endif // HAVE_LIBLRDF TQString identifier = PluginIdentifier::createIdentifier ("ladspa", soName, descriptor->Label); // std::cerr << "Added plugin identifier " << identifier << std::endl; m_identifiers.push_back(identifier); ++index; } if (dlclose(libraryHandle) != 0) { std::cerr << "WARNING: LADSPAPluginFactory::discoverPlugins - can't unload " << libraryHandle << std::endl; return ; } } void LADSPAPluginFactory::generateFallbackCategories() { std::vector pluginPath = getPluginPath(); std::vector path; for (size_t i = 0; i < pluginPath.size(); ++i) { if (pluginPath[i].contains("/lib/")) { TQString p(pluginPath[i]); p.replace("/lib/", "/share/"); path.push_back(p); // std::cerr << "LADSPAPluginFactory::generateFallbackCategories: path element " << p << std::endl; } path.push_back(pluginPath[i]); // std::cerr << "LADSPAPluginFactory::generateFallbackCategories: path element " << pluginPath[i] << std::endl; } for (size_t i = 0; i < path.size(); ++i) { TQDir dir(path[i], "*.cat"); // std::cerr << "LADSPAPluginFactory::generateFallbackCategories: directory " << path[i] << " has " << dir.count() << " .cat files" << std::endl; for (unsigned int j = 0; j < dir.count(); ++j) { TQFile file(path[i] + "/" + dir[j]); // std::cerr << "LADSPAPluginFactory::generateFallbackCategories: about to open " << (path[i] + "/" + dir[j]) << std::endl; if (file.open(IO_ReadOnly)) { // std::cerr << "...opened" << std::endl; TQTextStream stream(&file); TQString line; while (!stream.eof()) { line = stream.readLine(); // std::cerr << "line is: \"" << line << "\"" << std::endl; TQString id = line.section("::", 0, 0); TQString cat = line.section("::", 1, 1); m_fallbackCategories[id] = cat; // std::cerr << "set id \"" << id << "\" to cat \"" << cat << "\"" << std::endl; } } } } } void LADSPAPluginFactory::generateTaxonomy(TQString uri, TQString base) { #ifdef HAVE_LIBLRDF lrdf_uris *uris = lrdf_get_instances(uri.ascii()); if (uris != NULL) { for (int i = 0; i < uris->count; ++i) { m_taxonomy[lrdf_get_uid(uris->items[i])] = base; } lrdf_free_uris(uris); } uris = lrdf_get_subclasses(uri.ascii()); if (uris != NULL) { for (int i = 0; i < uris->count; ++i) { char *label = lrdf_get_label(uris->items[i]); generateTaxonomy(uris->items[i], base + (base.length() > 0 ? " > " : "") + label); } lrdf_free_uris(uris); } #endif } } #endif // HAVE_LADSPA