Mercurial > hg > svcore
view rdf/PluginRDFDescription.cpp @ 1394:9ef1cc26024c
Add Range01 normalisation method to ColumnOp. This is the normalisation that is actually used in the Colour 3D Plot layer historically when column normalisation is enabled (not Max1 after all).
author | Chris Cannam |
---|---|
date | Tue, 28 Feb 2017 14:04:16 +0000 |
parents | e802e550a1f2 |
children | 3ec563af0a4f |
line wrap: on
line source
/* -*- 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 2008-2012 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 "PluginRDFDescription.h" #include "PluginRDFIndexer.h" #include "base/Profiler.h" #include "plugin/PluginIdentifier.h" #include <dataquay/BasicStore.h> #include <iostream> using Dataquay::Uri; using Dataquay::Node; using Dataquay::Nodes; using Dataquay::Triple; using Dataquay::Triples; using Dataquay::BasicStore; PluginRDFDescription::PluginRDFDescription(QString pluginId) : m_pluginId(pluginId), m_haveDescription(false) { PluginRDFIndexer *indexer = PluginRDFIndexer::getInstance(); m_pluginUri = indexer->getURIForPluginId(pluginId); if (m_pluginUri == "") { cerr << "PluginRDFDescription: WARNING: No RDF description available for plugin ID \"" << pluginId << "\"" << endl; } else { // All the data we need should be in our RDF model already: // if it's not there, we don't know where to find it anyway if (index()) { m_haveDescription = true; } } } PluginRDFDescription::~PluginRDFDescription() { } bool PluginRDFDescription::haveDescription() const { return m_haveDescription; } QString PluginRDFDescription::getPluginName() const { return m_pluginName; } QString PluginRDFDescription::getPluginDescription() const { return m_pluginDescription; } QString PluginRDFDescription::getPluginMaker() const { return m_pluginMaker; } QString PluginRDFDescription::getPluginInfoURL() const { return m_pluginInfoURL; } QStringList PluginRDFDescription::getOutputIds() const { QStringList ids; for (OutputDispositionMap::const_iterator i = m_outputDispositions.begin(); i != m_outputDispositions.end(); ++i) { ids.push_back(i->first); } return ids; } QString PluginRDFDescription::getOutputName(QString outputId) const { if (m_outputNames.find(outputId) == m_outputNames.end()) { return ""; } return m_outputNames.find(outputId)->second; } PluginRDFDescription::OutputDisposition PluginRDFDescription::getOutputDisposition(QString outputId) const { if (m_outputDispositions.find(outputId) == m_outputDispositions.end()) { return OutputDispositionUnknown; } return m_outputDispositions.find(outputId)->second; } QString PluginRDFDescription::getOutputEventTypeURI(QString outputId) const { if (m_outputEventTypeURIMap.find(outputId) == m_outputEventTypeURIMap.end()) { return ""; } return m_outputEventTypeURIMap.find(outputId)->second; } QString PluginRDFDescription::getOutputFeatureAttributeURI(QString outputId) const { if (m_outputFeatureAttributeURIMap.find(outputId) == m_outputFeatureAttributeURIMap.end()) { return ""; } return m_outputFeatureAttributeURIMap.find(outputId)->second; } QString PluginRDFDescription::getOutputSignalTypeURI(QString outputId) const { if (m_outputSignalTypeURIMap.find(outputId) == m_outputSignalTypeURIMap.end()) { return ""; } return m_outputSignalTypeURIMap.find(outputId)->second; } QString PluginRDFDescription::getOutputUnit(QString outputId) const { if (m_outputUnitMap.find(outputId) == m_outputUnitMap.end()) { return ""; } return m_outputUnitMap.find(outputId)->second; } QString PluginRDFDescription::getOutputUri(QString outputId) const { if (m_outputUriMap.find(outputId) == m_outputUriMap.end()) { return ""; } return m_outputUriMap.find(outputId)->second; } bool PluginRDFDescription::index() { Profiler profiler("PluginRDFDescription::index"); bool success = true; if (!indexMetadata()) success = false; if (!indexOutputs()) success = false; return success; } bool PluginRDFDescription::indexMetadata() { Profiler profiler("PluginRDFDescription::index"); PluginRDFIndexer *indexer = PluginRDFIndexer::getInstance(); const BasicStore *index = indexer->getIndex(); Uri plugin(m_pluginUri); Node n = index->complete (Triple(plugin, index->expand("vamp:name"), Node())); if (n.type == Node::Literal && n.value != "") { m_pluginName = n.value; } n = index->complete (Triple(plugin, index->expand("dc:description"), Node())); if (n.type == Node::Literal && n.value != "") { m_pluginDescription = n.value; } n = index->complete (Triple(plugin, index->expand("foaf:maker"), Node())); if (n.type == Node::URI || n.type == Node::Blank) { n = index->complete(Triple(n, index->expand("foaf:name"), Node())); if (n.type == Node::Literal && n.value != "") { m_pluginMaker = n.value; } } // If we have a more-information URL for this plugin, then we take // that. Otherwise, a more-information URL for the plugin library // would do nicely. n = index->complete (Triple(plugin, index->expand("foaf:page"), Node())); if (n.type == Node::URI && n.value != "") { m_pluginInfoURL = n.value; } n = index->complete (Triple(Node(), index->expand("vamp:available_plugin"), plugin)); if (n.value != "") { n = index->complete(Triple(n, index->expand("foaf:page"), Node())); if (n.type == Node::URI && n.value != "") { m_pluginInfoURL = n.value; } } return true; } bool PluginRDFDescription::indexOutputs() { Profiler profiler("PluginRDFDescription::indexOutputs"); PluginRDFIndexer *indexer = PluginRDFIndexer::getInstance(); const BasicStore *index = indexer->getIndex(); Uri plugin(m_pluginUri); Nodes outputs = index->match (Triple(plugin, index->expand("vamp:output"), Node())).objects(); if (outputs.empty()) { cerr << "ERROR: PluginRDFDescription::indexURL: NOTE: No outputs defined for <" << m_pluginUri << ">" << endl; return false; } foreach (Node output, outputs) { if ((output.type != Node::URI && output.type != Node::Blank) || output.value == "") { cerr << "ERROR: PluginRDFDescription::indexURL: No valid URI for output " << output << " of plugin <" << m_pluginUri << ">" << endl; return false; } Node n = index->complete(Triple(output, index->expand("vamp:identifier"), Node())); if (n.type != Node::Literal || n.value == "") { cerr << "ERROR: PluginRDFDescription::indexURL: No vamp:identifier for output <" << output << ">" << endl; return false; } QString outputId = n.value; m_outputUriMap[outputId] = output.value; n = index->complete(Triple(output, Uri("a"), Node())); QString outputType; if (n.type == Node::URI) outputType = n.value; n = index->complete(Triple(output, index->expand("vamp:unit"), Node())); QString outputUnit; if (n.type == Node::Literal) outputUnit = n.value; if (outputType.contains("DenseOutput")) { m_outputDispositions[outputId] = OutputDense; } else if (outputType.contains("SparseOutput")) { m_outputDispositions[outputId] = OutputSparse; } else if (outputType.contains("TrackLevelOutput")) { m_outputDispositions[outputId] = OutputTrackLevel; } else { m_outputDispositions[outputId] = OutputDispositionUnknown; } // cerr << "output " << output << " -> id " << outputId << ", type " << outputType << ", unit " // << outputUnit << ", disposition " << m_outputDispositions[outputId] << endl; if (outputUnit != "") { m_outputUnitMap[outputId] = outputUnit; } n = index->complete(Triple(output, index->expand("dc:title"), Node())); if (n.type == Node::Literal && n.value != "") { m_outputNames[outputId] = n.value; } n = index->complete(Triple(output, index->expand("vamp:computes_event_type"), Node())); // cerr << output << " -> computes_event_type " << n << endl; if (n.type == Node::URI && n.value != "") { m_outputEventTypeURIMap[outputId] = n.value; } n = index->complete(Triple(output, index->expand("vamp:computes_feature"), Node())); if (n.type == Node::URI && n.value != "") { m_outputFeatureAttributeURIMap[outputId] = n.value; } n = index->complete(Triple(output, index->expand("vamp:computes_signal_type"), Node())); if (n.type == Node::URI && n.value != "") { m_outputSignalTypeURIMap[outputId] = n.value; } } return true; }