Mercurial > hg > sonic-annotator
view runner/JAMSFeatureWriter.cpp @ 169:859d8ec60e06 jams
Add setNofM logic which the JSON writer can use to write a list when sending multiple files' worth to a single target
author | Chris Cannam |
---|---|
date | Wed, 15 Oct 2014 16:05:15 +0100 |
parents | 3e30dbb68ca2 |
children | 3536342ac088 |
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/* -*- c-basic-offset: 4 indent-tabs-mode: nil -*- vi:set ts=8 sts=4 sw=4: */ /* Sonic Annotator A utility for batch feature extraction from audio files. Mark Levy, Chris Sutton and Chris Cannam, Queen Mary, University of London. Copyright 2007-2014 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 "JAMSFeatureWriter.h" using namespace std; using Vamp::Plugin; using Vamp::PluginBase; #include "base/Exceptions.h" #include "rdf/PluginRDFIndexer.h" #include <QFileInfo> #include "version.h" JAMSFeatureWriter::JAMSFeatureWriter() : FileFeatureWriter(SupportOneFilePerTrackTransform | SupportOneFilePerTrack | SupportOneFileTotal | SupportStdOut, "json"), m_network(false), m_networkRetrieved(false), m_n(1), m_m(1) { } JAMSFeatureWriter::~JAMSFeatureWriter() { } string JAMSFeatureWriter::getDescription() const { return "Write features to JSON files in JAMS (JSON Annotated Music Specification) format."; } JAMSFeatureWriter::ParameterList JAMSFeatureWriter::getSupportedParameters() const { ParameterList pl = FileFeatureWriter::getSupportedParameters(); Parameter p; p.name = "network"; p.description = "Attempt to retrieve RDF descriptions of plugins from network, if not available locally"; p.hasArg = false; pl.push_back(p); return pl; } void JAMSFeatureWriter::setParameters(map<string, string> ¶ms) { FileFeatureWriter::setParameters(params); for (map<string, string>::iterator i = params.begin(); i != params.end(); ++i) { if (i->first == "network") { m_network = true; } } } void JAMSFeatureWriter::setTrackMetadata(QString trackId, TrackMetadata metadata) { m_trackMetadata[trackId] = metadata; } static double realTime2Sec(const Vamp::RealTime &r) { return r / Vamp::RealTime(1, 0); } void JAMSFeatureWriter::write(QString trackId, const Transform &transform, const Plugin::OutputDescriptor& , const Plugin::FeatureList& features, std::string /* summaryType */) { QString transformId = transform.getIdentifier(); QTextStream *sptr = getOutputStream(trackId, transformId); if (!sptr) { throw FailedToOpenOutputStream(trackId, transformId); } DataId did(trackId, transform); if (m_data.find(did) == m_data.end()) { identifyTask(transform); m_streamTracks[sptr].insert(trackId); m_streamTasks[sptr].insert(m_tasks[transformId]); m_streamData[sptr].insert(did); } QString d = m_data[did]; for (int i = 0; i < int(features.size()); ++i) { if (d != "") { d += ",\n"; } d += " { "; Plugin::Feature f(features[i]); if (f.hasDuration) { d += QString ("\"start\": { \"value\": %1 }, " "\"end\": { \"value\": %2 }") .arg(realTime2Sec(f.timestamp)) .arg(realTime2Sec (f.timestamp + (f.hasDuration ? f.duration : Vamp::RealTime::zeroTime))); } else { d += QString("\"time\": { \"value\": %1 }") .arg(realTime2Sec(f.timestamp)); } if (f.label != "") { d += QString(", \"label\": { \"value\": \"%2\" }") .arg(f.label.c_str()); } if (f.values.size() > 0) { d += QString(", \"value\": [ "); for (int j = 0; j < int(f.values.size()); ++j) { if (isnan(f.values[j])) { d += "\"NaN\" "; } else if (isinf(f.values[j])) { d += "\"Inf\" "; } else { d += QString("%1 ").arg(f.values[j]); } } d += "]"; } d += " }"; } m_data[did] = d; } void JAMSFeatureWriter::setNofM(int n, int m) { if (m_singleFileName != "" || m_stdout) { m_n = n; m_m = m; } else { m_n = 1; m_m = 1; } } void JAMSFeatureWriter::finish() { for (FileStreamMap::const_iterator stri = m_streams.begin(); stri != m_streams.end(); ++stri) { QTextStream *sptr = stri->second; QTextStream &stream = *sptr; bool firstInStream = true; for (TrackIds::const_iterator tri = m_streamTracks[sptr].begin(); tri != m_streamTracks[sptr].end(); ++tri) { TrackId trackId = *tri; if (firstInStream) { if (m_streamTracks[sptr].size() > 1 || (m_m > 1 && m_n == 1)) { stream << "[\n"; } } if (!firstInStream || (m_m > 1 && m_n > 1)) { stream << ",\n"; } stream << "{\n" << QString("\"file_metadata\": {\n" " \"filename\": \"%1\"") .arg(QFileInfo(trackId).fileName()); if (m_trackMetadata.find(trackId) != m_trackMetadata.end()) { if (m_trackMetadata[trackId].maker != "") { stream << QString(",\n \"artist\": \"%1\"") .arg(m_trackMetadata[trackId].maker); } if (m_trackMetadata[trackId].title != "") { stream << QString(",\n \"title\": \"%1\"") .arg(m_trackMetadata[trackId].title); } } stream << "\n},\n"; bool firstInTrack = true; for (Tasks::const_iterator ti = m_streamTasks[sptr].begin(); ti != m_streamTasks[sptr].end(); ++ti) { Task task = *ti; if (!firstInTrack) { stream << ",\n"; } stream << "\"" << getTaskKey(task) << "\": [\n"; bool firstInTask = true; for (DataIds::const_iterator di = m_streamData[sptr].begin(); di != m_streamData[sptr].end(); ++di) { DataId did = *di; QString trackId = did.first; Transform transform = did.second; if (m_tasks[transform.getIdentifier()] != task) continue; QString data = m_data[did]; if (!firstInTask) { stream << ",\n"; } stream << QString ("{ \n" " \"annotation_metadata\": {\n" " \"annotation_tools\": \"Sonic Annotator v%2\",\n" " \"data_source\": \"Automatic feature extraction\",\n" " \"annotator\": {\n" "%3" " }\n" " },\n" " \"data\": [\n") .arg(RUNNER_VERSION) .arg(writeTransformToObjectContents(transform)); stream << data; stream << "\n ]\n}"; firstInTask = false; } stream << "\n]"; firstInTrack = false; } stream << "\n}"; firstInStream = false; } if (!firstInStream) { if (m_streamTracks[sptr].size() > 1 || (m_m > 1 && m_n == m_m)) { stream << "\n]"; } stream << "\n"; } } m_streamTracks.clear(); m_streamTasks.clear(); m_streamData.clear(); m_data.clear(); FileFeatureWriter::finish(); } void JAMSFeatureWriter::loadRDFDescription(const Transform &transform) { QString pluginId = transform.getPluginIdentifier(); if (m_rdfDescriptions.find(pluginId) != m_rdfDescriptions.end()) return; if (m_network && !m_networkRetrieved) { PluginRDFIndexer::getInstance()->indexConfiguredURLs(); m_networkRetrieved = true; } m_rdfDescriptions[pluginId] = PluginRDFDescription(pluginId); if (m_rdfDescriptions[pluginId].haveDescription()) { cerr << "NOTE: Have RDF description for plugin ID \"" << pluginId << "\"" << endl; } else { cerr << "NOTE: No RDF description for plugin ID \"" << pluginId << "\"" << endl; if (!m_network) { cerr << " Consider using the --json-network option to retrieve plugin descriptions" << endl; cerr << " from the network where possible." << endl; } } } void JAMSFeatureWriter::identifyTask(const Transform &transform) { QString transformId = transform.getIdentifier(); if (m_tasks.find(transformId) != m_tasks.end()) return; loadRDFDescription(transform); Task task = UnknownTask; QString pluginId = transform.getPluginIdentifier(); QString outputId = transform.getOutput(); const PluginRDFDescription &desc = m_rdfDescriptions[pluginId]; if (desc.haveDescription()) { PluginRDFDescription::OutputDisposition disp = desc.getOutputDisposition(outputId); QString af = "http://purl.org/ontology/af/"; if (disp == PluginRDFDescription::OutputSparse) { QString eventUri = desc.getOutputEventTypeURI(outputId); //!!! todo: allow user to prod writer for task type if (eventUri == af + "Note") { task = NoteTask; } else if (eventUri == af + "Beat") { task = BeatTask; } else if (eventUri == af + "ChordSegment") { task = ChordTask; } else if (eventUri == af + "KeyChange") { task = KeyTask; } else if (eventUri == af + "KeySegment") { task = KeyTask; } else if (eventUri == af + "Onset") { task = OnsetTask; } else if (eventUri == af + "NonTonalOnset") { task = OnsetTask; } else if (eventUri == af + "Segment") { task = SegmentTask; } else if (eventUri == af + "SpeechSegment") { task = SegmentTask; } else if (eventUri == af + "StructuralSegment") { task = SegmentTask; } else { cerr << "WARNING: Unsupported event type URI <" << eventUri << ">, proceeding with UnknownTask type" << endl; } } else { cerr << "WARNING: Cannot currently write dense or track-level outputs to JSON format (only sparse ones). Will proceed using UnknownTask type, but this probably isn't going to work" << endl; } } m_tasks[transformId] = task; } QString JAMSFeatureWriter::getTaskKey(Task task) { switch (task) { case UnknownTask: return "unknown"; case BeatTask: return "beat"; case OnsetTask: return "onset"; case ChordTask: return "chord"; case SegmentTask: return "segment"; case KeyTask: return "key"; case NoteTask: return "note"; case MelodyTask: return "melody"; case PitchTask: return "pitch"; } return "unknown"; } QString JAMSFeatureWriter::writeTransformToObjectContents(const Transform &t) { QString json; QString stpl(" \"%1\": \"%2\",\n"); QString ntpl(" \"%1\": %2,\n"); json += stpl.arg("plugin_id").arg(t.getPluginIdentifier()); json += stpl.arg("output_id").arg(t.getOutput()); if (t.getSummaryType() != Transform::NoSummary) { json += stpl.arg("summary_type") .arg(Transform::summaryTypeToString(t.getSummaryType())); } if (t.getPluginVersion() != QString()) { json += stpl.arg("plugin_version").arg(t.getPluginVersion()); } if (t.getProgram() != QString()) { json += stpl.arg("program").arg(t.getProgram()); } if (t.getStepSize() != 0) { json += ntpl.arg("step_size").arg(t.getStepSize()); } if (t.getBlockSize() != 0) { json += ntpl.arg("block_size").arg(t.getBlockSize()); } if (t.getWindowType() != HanningWindow) { json += stpl.arg("window_type") .arg(Window<float>::getNameForType(t.getWindowType()).c_str()); } if (t.getStartTime() != RealTime::zeroTime) { json += ntpl.arg("start").arg(t.getStartTime().toDouble()); } if (t.getDuration() != RealTime::zeroTime) { json += ntpl.arg("duration").arg(t.getDuration().toDouble()); } if (t.getSampleRate() != 0) { json += ntpl.arg("sample_rate").arg(t.getSampleRate()); } if (!t.getParameters().empty()) { json += QString(" \"parameters\": {\n"); Transform::ParameterMap parameters = t.getParameters(); for (Transform::ParameterMap::const_iterator i = parameters.begin(); i != parameters.end(); ++i) { if (i != parameters.begin()) { json += ",\n"; } QString name = i->first; float value = i->second; json += QString(" \"%1\": %2").arg(name).arg(value); } json += QString("\n },\n"); } // no trailing comma on final property: json += QString(" \"transform_id\": \"%1\"\n").arg(t.getIdentifier()); return json; }