svcore: rdf/RDFImporter.cpp annotate

annotate rdf/RDFImporter.cpp @ 480:3ffce691c9bf

* Add Redland datastore support to SimpleSPARQLQuery

author	Chris Cannam
date	Thu, 13 Nov 2008 14:23:23 +0000
parents	d8a2c28ba9f6
children	1c66e199e7d9

rev	line source
Chris@439	1 /* -- c-basic-offset: 4 indent-tabs-mode: nil -- vi:set ts=8 sts=4 sw=4: */
Chris@439	2
Chris@439	3 /*
Chris@439	4 Sonic Visualiser
Chris@439	5 An audio file viewer and annotation editor.
Chris@439	6 Centre for Digital Music, Queen Mary, University of London.
Chris@439	7 This file copyright 2008 QMUL.
Chris@439	8
Chris@439	9 This program is free software; you can redistribute it and/or
Chris@439	10 modify it under the terms of the GNU General Public License as
Chris@439	11 published by the Free Software Foundation; either version 2 of the
Chris@439	12 License, or (at your option) any later version. See the file
Chris@439	13 COPYING included with this distribution for more information.
Chris@439	14 */
Chris@439	15
Chris@439	16 #include "RDFImporter.h"
Chris@439	17
Chris@439	18 #include <map>
Chris@439	19 #include <vector>
Chris@439	20
Chris@439	21 #include <iostream>
Chris@439	22 #include <cmath>
Chris@439	23
Chris@439	24 #include "SimpleSPARQLQuery.h"
Chris@439	25
Chris@439	26 #include "base/ProgressReporter.h"
Chris@439	27 #include "base/RealTime.h"
Chris@439	28
Chris@439	29 #include "data/model/SparseOneDimensionalModel.h"
Chris@439	30 #include "data/model/SparseTimeValueModel.h"
Chris@439	31 #include "data/model/EditableDenseThreeDimensionalModel.h"
Chris@449	32 #include "data/model/NoteModel.h"
Chris@449	33 #include "data/model/RegionModel.h"
Chris@439	34
Chris@439	35 using std::cerr;
Chris@439	36 using std::endl;
Chris@439	37
Chris@439	38 class RDFImporterImpl
Chris@439	39 {
Chris@439	40 public:
Chris@439	41 RDFImporterImpl(QString url, int sampleRate);
Chris@439	42 virtual ~RDFImporterImpl();
Chris@439	43
Chris@439	44 bool isOK();
Chris@439	45 QString getErrorString() const;
Chris@439	46
Chris@439	47 std::vector<Model > getDataModels(ProgressReporter );
Chris@439	48
Chris@439	49 protected:
Chris@439	50 QString m_uristring;
Chris@439	51 QString m_errorString;
Chris@439	52 int m_sampleRate;
Chris@439	53
Chris@440	54 void getDataModelsSparse(std::vector<Model > &, ProgressReporter );
Chris@440	55 void getDataModelsDense(std::vector<Model > &, ProgressReporter );
Chris@440	56
Chris@440	57 void getDenseFeatureProperties(QString featureUri,
Chris@440	58 int &sampleRate, int &windowLength,
Chris@440	59 int &hopSize, int &width, int &height);
Chris@440	60
Chris@449	61
Chris@449	62 void fillModel(Model *, long, long, bool, std::vector<float> &, QString);
Chris@449	63
Chris@449	64 /*
Chris@449	65
Chris@449	66 typedef std::vector<std::pair<RealTime, float> > DurationValueList;
Chris@449	67 typedef std::map<RealTime, DurationValueList> TimeDurationValueMap;
Chris@449	68 typedef std::map<QString, TimeDurationValueMap> TypeTimeDurationValueMap;
Chris@449	69 typedef std::map<QString, TypeTimeDurationValueMap> SourceTypeTimeDurationValueMap;
Chris@449	70
Chris@449	71 void extractStructure(const TimeDurationValueMap &map, bool &sparse,
Chris@439	72 int &minValueCount, int &maxValueCount);
Chris@439	73
Chris@449	74 void fillModel(SparseOneDimensionalModel *, const TimeDurationValueMap &);
Chris@449	75 void fillModel(SparseTimeValueModel *, const TimeDurationValueMap &);
Chris@449	76 void fillModel(EditableDenseThreeDimensionalModel *, const TimeDurationValueMap &);
Chris@449	77 */
Chris@439	78 };
Chris@439	79
Chris@439	80
Chris@439	81 QString
Chris@439	82 RDFImporter::getKnownExtensions()
Chris@439	83 {
Chris@439	84 return ".rdf .n3 *.ttl";
Chris@439	85 }
Chris@439	86
Chris@439	87 RDFImporter::RDFImporter(QString url, int sampleRate) :
Chris@439	88 m_d(new RDFImporterImpl(url, sampleRate))
Chris@439	89 {
Chris@439	90 }
Chris@439	91
Chris@439	92 RDFImporter::~RDFImporter()
Chris@439	93 {
Chris@439	94 delete m_d;
Chris@439	95 }
Chris@439	96
Chris@439	97 bool
Chris@439	98 RDFImporter::isOK()
Chris@439	99 {
Chris@439	100 return m_d->isOK();
Chris@439	101 }
Chris@439	102
Chris@439	103 QString
Chris@439	104 RDFImporter::getErrorString() const
Chris@439	105 {
Chris@439	106 return m_d->getErrorString();
Chris@439	107 }
Chris@439	108
Chris@439	109 std::vector<Model *>
Chris@439	110 RDFImporter::getDataModels(ProgressReporter *r)
Chris@439	111 {
Chris@439	112 return m_d->getDataModels(r);
Chris@439	113 }
Chris@439	114
Chris@439	115 RDFImporterImpl::RDFImporterImpl(QString uri, int sampleRate) :
Chris@439	116 m_uristring(uri),
Chris@439	117 m_sampleRate(sampleRate)
Chris@439	118 {
Chris@439	119 }
Chris@439	120
Chris@439	121 RDFImporterImpl::~RDFImporterImpl()
Chris@439	122 {
Chris@439	123 }
Chris@439	124
Chris@439	125 bool
Chris@439	126 RDFImporterImpl::isOK()
Chris@439	127 {
Chris@439	128 return (m_errorString == "");
Chris@439	129 }
Chris@439	130
Chris@439	131 QString
Chris@439	132 RDFImporterImpl::getErrorString() const
Chris@439	133 {
Chris@439	134 return m_errorString;
Chris@439	135 }
Chris@439	136
Chris@439	137 std::vector<Model *>
Chris@439	138 RDFImporterImpl::getDataModels(ProgressReporter *reporter)
Chris@439	139 {
Chris@439	140 std::vector<Model *> models;
Chris@439	141
Chris@440	142 getDataModelsDense(models, reporter);
Chris@440	143
Chris@440	144 QString error;
Chris@440	145 if (!isOK()) error = m_errorString;
Chris@440	146 m_errorString = "";
Chris@440	147
Chris@440	148 getDataModelsSparse(models, reporter);
Chris@440	149
Chris@440	150 if (isOK()) m_errorString = error;
Chris@440	151
Chris@440	152 return models;
Chris@440	153 }
Chris@440	154
Chris@440	155 void
Chris@440	156 RDFImporterImpl::getDataModelsDense(std::vector<Model *> &models,
Chris@440	157 ProgressReporter *reporter)
Chris@440	158 {
Chris@440	159 SimpleSPARQLQuery query = SimpleSPARQLQuery
Chris@480	160 (m_uristring,
Chris@480	161 QString
Chris@440	162 (
Chris@440	163 " PREFIX mo: <http://purl.org/ontology/mo/>"
Chris@440	164 " PREFIX af: <http://purl.org/ontology/af/>"
Chris@440	165
Chris@440	166 " SELECT ?feature ?signal_source ?feature_signal_type ?value "
Chris@440	167 " FROM <%1> "
Chris@440	168
Chris@440	169 " WHERE { "
Chris@440	170
Chris@440	171 " ?signal a mo:Signal ; "
Chris@440	172 " mo:available_as ?signal_source ; "
Chris@440	173 " af:signal_feature ?feature . "
Chris@440	174
Chris@440	175 " ?feature a ?feature_signal_type ; "
Chris@440	176 " af:value ?value . "
Chris@440	177
Chris@440	178 " } "
Chris@440	179 )
Chris@440	180 .arg(m_uristring));
Chris@440	181
Chris@440	182 SimpleSPARQLQuery::ResultList results = query.execute();
Chris@440	183
Chris@440	184 if (!query.isOK()) {
Chris@440	185 m_errorString = query.getErrorString();
Chris@440	186 return;
Chris@440	187 }
Chris@440	188
Chris@440	189 if (query.wasCancelled()) {
Chris@440	190 m_errorString = "Query cancelled";
Chris@440	191 return;
Chris@440	192 }
Chris@440	193
Chris@440	194 for (int i = 0; i < results.size(); ++i) {
Chris@440	195
Chris@440	196 QString feature = results[i]["feature"].value;
Chris@440	197 QString source = results[i]["signal_source"].value;
Chris@440	198 QString type = results[i]["feature_signal_type"].value;
Chris@440	199 QString value = results[i]["value"].value;
Chris@440	200
Chris@440	201 int sampleRate = 0;
Chris@440	202 int windowLength = 0;
Chris@440	203 int hopSize = 0;
Chris@440	204 int width = 0;
Chris@440	205 int height = 0;
Chris@440	206 getDenseFeatureProperties
Chris@440	207 (feature, sampleRate, windowLength, hopSize, width, height);
Chris@440	208
Chris@440	209 if (sampleRate != 0 && sampleRate != m_sampleRate) {
Chris@440	210 cerr << "WARNING: Sample rate in dense feature description does not match our underlying rate -- using rate from feature description" << endl;
Chris@440	211 }
Chris@440	212 if (sampleRate == 0) sampleRate = m_sampleRate;
Chris@440	213
Chris@440	214 if (hopSize == 0) {
Chris@440	215 cerr << "WARNING: Dense feature description does not specify a hop size -- assuming 1" << endl;
Chris@440	216 hopSize = 1;
Chris@440	217 }
Chris@440	218
Chris@440	219 if (height == 0) {
Chris@440	220 cerr << "WARNING: Dense feature description does not specify feature signal dimensions -- assuming one-dimensional (height = 1)" << endl;
Chris@440	221 height = 1;
Chris@440	222 }
Chris@440	223
Chris@440	224 QStringList values = value.split(' ', QString::SkipEmptyParts);
Chris@440	225
Chris@440	226 if (values.empty()) {
Chris@440	227 cerr << "WARNING: Dense feature description does not specify any values!" << endl;
Chris@440	228 continue;
Chris@440	229 }
Chris@440	230
Chris@440	231 if (height == 1) {
Chris@440	232
Chris@440	233 SparseTimeValueModel *m = new SparseTimeValueModel
Chris@440	234 (sampleRate, hopSize, false);
Chris@440	235
Chris@440	236 for (int j = 0; j < values.size(); ++j) {
Chris@440	237 float f = values[j].toFloat();
Chris@440	238 SparseTimeValueModel::Point point(j * hopSize, f, "");
Chris@440	239 m->addPoint(point);
Chris@440	240 }
Chris@440	241
Chris@440	242 models.push_back(m);
Chris@440	243
Chris@440	244 } else {
Chris@440	245
Chris@440	246 EditableDenseThreeDimensionalModel *m =
Chris@440	247 new EditableDenseThreeDimensionalModel(sampleRate, hopSize,
Chris@440	248 height, false);
Chris@440	249
Chris@440	250 EditableDenseThreeDimensionalModel::Column column;
Chris@440	251
Chris@440	252 int x = 0;
Chris@440	253
Chris@440	254 for (int j = 0; j < values.size(); ++j) {
Chris@440	255 if (j % height == 0 && !column.empty()) {
Chris@440	256 m->setColumn(x++, column);
Chris@440	257 column.clear();
Chris@440	258 }
Chris@440	259 column.push_back(values[j].toFloat());
Chris@440	260 }
Chris@440	261
Chris@440	262 if (!column.empty()) {
Chris@440	263 m->setColumn(x++, column);
Chris@440	264 }
Chris@440	265
Chris@440	266 models.push_back(m);
Chris@440	267 }
Chris@440	268 }
Chris@440	269 }
Chris@440	270
Chris@440	271 void
Chris@440	272 RDFImporterImpl::getDenseFeatureProperties(QString featureUri,
Chris@440	273 int &sampleRate, int &windowLength,
Chris@440	274 int &hopSize, int &width, int &height)
Chris@440	275 {
Chris@440	276 QString dimensionsQuery
Chris@440	277 (
Chris@440	278 " PREFIX mo: <http://purl.org/ontology/mo/>"
Chris@440	279 " PREFIX af: <http://purl.org/ontology/af/>"
Chris@440	280
Chris@440	281 " SELECT ?dimensions "
Chris@440	282 " FROM <%1> "
Chris@440	283
Chris@440	284 " WHERE { "
Chris@440	285
Chris@440	286 " <%2> af:dimensions ?dimensions . "
Chris@440	287
Chris@440	288 " } "
Chris@440	289 );
Chris@440	290
Chris@440	291 SimpleSPARQLQuery::Value dimensionsValue =
Chris@480	292 SimpleSPARQLQuery::singleResultQuery(m_uristring,
Chris@480	293 dimensionsQuery
Chris@440	294 .arg(m_uristring).arg(featureUri),
Chris@440	295 "dimensions");
Chris@440	296
Chris@440	297 cerr << "Dimensions = \"" << dimensionsValue.value.toStdString() << "\""
Chris@440	298 << endl;
Chris@440	299
Chris@440	300 if (dimensionsValue.value != "") {
Chris@440	301 QStringList dl = dimensionsValue.value.split(" ");
Chris@440	302 if (dl.empty()) dl.push_back(dimensionsValue.value);
Chris@440	303 if (dl.size() > 0) height = dl[0].toInt();
Chris@440	304 if (dl.size() > 1) width = dl[1].toInt();
Chris@440	305 }
Chris@440	306
Chris@440	307 QString queryTemplate
Chris@440	308 (
Chris@440	309 " PREFIX mo: <http://purl.org/ontology/mo/>"
Chris@440	310 " PREFIX af: <http://purl.org/ontology/af/>"
Chris@440	311 " PREFIX tl: <http://purl.org/NET/c4dm/timeline.owl#>"
Chris@440	312
Chris@440	313 " SELECT ?%3 "
Chris@440	314 " FROM <%1> "
Chris@440	315
Chris@440	316 " WHERE { "
Chris@440	317
Chris@440	318 " <%2> mo:time ?time . "
Chris@440	319
Chris@440	320 " ?time a tl:Interval ; "
Chris@440	321 " tl:onTimeLine ?timeline . "
Chris@440	322
Chris@440	323 " ?map tl:rangeTimeLine ?timeline . "
Chris@440	324
Chris@440	325 " ?map tl:%3 ?%3 . "
Chris@440	326
Chris@440	327 " } "
Chris@440	328 );
Chris@440	329
Chris@440	330 // Another laborious workaround for rasqal's failure to handle
Chris@440	331 // multiple optionals properly
Chris@440	332
Chris@440	333 SimpleSPARQLQuery::Value srValue =
Chris@480	334 SimpleSPARQLQuery::singleResultQuery(m_uristring,
Chris@480	335 queryTemplate
Chris@440	336 .arg(m_uristring).arg(featureUri)
Chris@440	337 .arg("sampleRate"),
Chris@440	338 "sampleRate");
Chris@440	339 if (srValue.value != "") {
Chris@440	340 sampleRate = srValue.value.toInt();
Chris@440	341 }
Chris@440	342
Chris@440	343 SimpleSPARQLQuery::Value hopValue =
Chris@480	344 SimpleSPARQLQuery::singleResultQuery(m_uristring,
Chris@480	345 queryTemplate
Chris@440	346 .arg(m_uristring).arg(featureUri)
Chris@440	347 .arg("hopSize"),
Chris@440	348 "hopSize");
Chris@440	349 if (srValue.value != "") {
Chris@440	350 hopSize = hopValue.value.toInt();
Chris@440	351 }
Chris@440	352
Chris@440	353 SimpleSPARQLQuery::Value winValue =
Chris@480	354 SimpleSPARQLQuery::singleResultQuery(m_uristring,
Chris@480	355 queryTemplate
Chris@440	356 .arg(m_uristring).arg(featureUri)
Chris@440	357 .arg("windowLength"),
Chris@440	358 "windowLength");
Chris@440	359 if (winValue.value != "") {
Chris@440	360 windowLength = winValue.value.toInt();
Chris@440	361 }
Chris@440	362
Chris@440	363 cerr << "sr = " << sampleRate << ", hop = " << hopSize << ", win = " << windowLength << endl;
Chris@440	364 }
Chris@440	365
Chris@440	366 void
Chris@440	367 RDFImporterImpl::getDataModelsSparse(std::vector<Model *> &models,
Chris@440	368 ProgressReporter *reporter)
Chris@440	369 {
Chris@439	370 // Our query is intended to retrieve every thing that has a time,
Chris@439	371 // and every feature type and value associated with a thing that
Chris@439	372 // has a time.
Chris@439	373
Chris@439	374 // We will then need to refine this big bag of results into a set
Chris@439	375 // of data models.
Chris@439	376
Chris@439	377 // Results that have different source signals should go into
Chris@439	378 // different models.
Chris@439	379
Chris@439	380 // Results that have different feature types should go into
Chris@439	381 // different models.
Chris@439	382
Chris@439	383 // Results that are sparse should go into different models from
Chris@439	384 // those that are dense (we need to examine the timestamps to
Chris@439	385 // establish this -- if the timestamps are regular, the results
Chris@439	386 // are dense -- so we can't do it as we go along, only after
Chris@439	387 // collecting all results).
Chris@439	388
Chris@439	389 // Timed things that have features associated with them should not
Chris@439	390 // appear directly in any model -- their features should appear
Chris@439	391 // instead -- and these should be different models from those used
Chris@439	392 // for timed things that do not have features.
Chris@439	393
Chris@439	394 // As we load the results, we'll push them into a partially
Chris@439	395 // structured container that maps from source signal (URI as
Chris@439	396 // string) -> feature type (likewise) -> time -> list of values.
Chris@439	397 // If the source signal or feature type is unavailable, the empty
Chris@439	398 // string will do.
Chris@439	399
Chris@449	400 // SourceTypeTimeDurationValueMap m;
Chris@439	401
Chris@449	402 QString prefixes = QString(
Chris@439	403 " PREFIX event: <http://purl.org/NET/c4dm/event.owl#>"
Chris@449	404 " PREFIX tl: <http://purl.org/NET/c4dm/timeline.owl#>"
Chris@439	405 " PREFIX mo: <http://purl.org/ontology/mo/>"
Chris@439	406 " PREFIX af: <http://purl.org/ontology/af/>"
Chris@449	407 " PREFIX rdfs: <http://www.w3.org/2000/01/rdf-schema#>"
Chris@449	408 );
Chris@439	409
Chris@449	410 QString queryString = prefixes + QString(
Chris@449	411
Chris@449	412 " SELECT ?signal_source ?timed_thing ?event_type ?value"
Chris@439	413 " FROM <%1>"
Chris@439	414
Chris@439	415 " WHERE {"
Chris@440	416
Chris@440	417 " ?signal mo:available_as ?signal_source ."
Chris@440	418 " ?signal a mo:Signal ."
Chris@440	419
Chris@439	420 " ?signal mo:time ?interval ."
Chris@449	421 " ?interval tl:onTimeLine ?tl ."
Chris@449	422 " ?time tl:onTimeLine ?tl ."
Chris@449	423 " ?timed_thing event:time ?time ."
Chris@440	424 " ?timed_thing a ?event_type ."
Chris@440	425
Chris@439	426 " OPTIONAL {"
Chris@440	427 " ?timed_thing af:feature ?value"
Chris@439	428 " }"
Chris@439	429 " }"
Chris@439	430
Chris@439	431 ).arg(m_uristring);
Chris@439	432
Chris@449	433 QString timeQueryString = prefixes + QString(
Chris@449	434
Chris@449	435 " SELECT ?time FROM <%1> "
Chris@449	436 " WHERE { "
Chris@449	437 " <%2> event:time ?t . "
Chris@449	438 " ?t tl:at ?time . "
Chris@449	439 " } "
Chris@449	440
Chris@449	441 ).arg(m_uristring);
Chris@449	442
Chris@449	443 QString rangeQueryString = prefixes + QString(
Chris@449	444
Chris@449	445 " SELECT ?time ?duration FROM <%1> "
Chris@449	446 " WHERE { "
Chris@449	447 " <%2> event:time ?t . "
Chris@449	448 " ?t tl:beginsAt ?time . "
Chris@449	449 " ?t tl:duration ?duration . "
Chris@449	450 " } "
Chris@449	451
Chris@449	452 ).arg(m_uristring);
Chris@449	453
Chris@449	454 QString labelQueryString = prefixes + QString(
Chris@449	455
Chris@449	456 " SELECT ?label FROM <%1> "
Chris@449	457 " WHERE { "
Chris@449	458 " <%2> rdfs:label ?label . "
Chris@449	459 " } "
Chris@449	460
Chris@449	461 ).arg(m_uristring);
Chris@449	462
Chris@480	463 SimpleSPARQLQuery query(m_uristring, queryString);
Chris@439	464 query.setProgressReporter(reporter);
Chris@439	465
Chris@439	466 cerr << "Query will be: " << queryString.toStdString() << endl;
Chris@439	467
Chris@439	468 SimpleSPARQLQuery::ResultList results = query.execute();
Chris@439	469
Chris@439	470 if (!query.isOK()) {
Chris@439	471 m_errorString = query.getErrorString();
Chris@440	472 return;
Chris@439	473 }
Chris@439	474
Chris@439	475 if (query.wasCancelled()) {
Chris@439	476 m_errorString = "Query cancelled";
Chris@440	477 return;
Chris@439	478 }
Chris@439	479
Chris@449	480
Chris@449	481
Chris@449	482 /*
Chris@449	483
Chris@449	484 This function is now only used for sparse data (for dense data
Chris@449	485 we would be in getDataModelsDense instead).
Chris@449	486
Chris@449	487 For sparse data, the determining factors in deciding what model
Chris@449	488 to use are: Do the features have values? and Do the features
Chris@449	489 have duration?
Chris@449	490
Chris@449	491 We can run through the results and check off whether we find
Chris@449	492 values and duration for each of the source+type keys, and then
Chris@449	493 run through the source+type keys pushing each of the results
Chris@449	494 into a suitable model.
Chris@449	495
Chris@449	496 Unfortunately, at this point we do not yet have any actual
Chris@449	497 timing data (time/duration) -- just the time URI.
Chris@449	498
Chris@449	499 What we _could_ do is to create one of each type of model at the
Chris@449	500 start, for each of the source+type keys, and then push each
Chris@449	501 feature into the relevant model depending on what we find out
Chris@449	502 about it. Then return only non-empty models.
Chris@449	503
Chris@449	504
Chris@449	505 */
Chris@449	506
Chris@449	507 // Map from signal source to event type to dimensionality to
Chris@449	508 // presence of duration to model ptr. Whee!
Chris@449	509 std::map<QString, std::map<QString, std::map<int, std::map<bool, Model *> > > >
Chris@449	510 modelMap;
Chris@449	511
Chris@439	512 for (int i = 0; i < results.size(); ++i) {
Chris@439	513
Chris@440	514 QString source = results[i]["signal_source"].value;
Chris@449	515 QString type = results[i]["event_type"].value;
Chris@449	516 QString thinguri = results[i]["timed_thing"].value;
Chris@449	517
Chris@449	518 RealTime time;
Chris@449	519 RealTime duration;
Chris@439	520
Chris@449	521 bool haveTime = false;
Chris@449	522 bool haveDuration = false;
Chris@439	523
Chris@449	524 QString label = SimpleSPARQLQuery::singleResultQuery
Chris@480	525 (m_uristring, labelQueryString.arg(thinguri), "label").value;
Chris@449	526
Chris@480	527 SimpleSPARQLQuery rangeQuery(m_uristring, rangeQueryString.arg(thinguri));
Chris@450	528 SimpleSPARQLQuery::ResultList rangeResults = rangeQuery.execute();
Chris@450	529 if (!rangeResults.empty()) {
Chris@450	530 // std::cerr << rangeResults.size() << " range results" << std::endl;
Chris@450	531 time = RealTime::fromXsdDuration
Chris@450	532 (rangeResults[0]["time"].value.toStdString());
Chris@450	533 duration = RealTime::fromXsdDuration
Chris@450	534 (rangeResults[0]["duration"].value.toStdString());
Chris@450	535 // std::cerr << "duration string " << rangeResults[0]["duration"].value.toStdString() << std::endl;
Chris@449	536 haveTime = true;
Chris@450	537 haveDuration = true;
Chris@449	538 } else {
Chris@450	539 QString timestring = SimpleSPARQLQuery::singleResultQuery
Chris@480	540 (m_uristring, timeQueryString.arg(thinguri), "time").value;
Chris@450	541 if (timestring != "") {
Chris@450	542 time = RealTime::fromXsdDuration(timestring.toStdString());
Chris@449	543 haveTime = true;
Chris@449	544 }
Chris@449	545 }
Chris@439	546
Chris@439	547 QString valuestring = results[i]["value"].value;
Chris@449	548 std::vector<float> values;
Chris@449	549
Chris@439	550 if (valuestring != "") {
Chris@449	551 QStringList vsl = valuestring.split(" ", QString::SkipEmptyParts);
Chris@449	552 for (int j = 0; j < vsl.size(); ++j) {
Chris@449	553 bool success = false;
Chris@449	554 float v = vsl[j].toFloat(&success);
Chris@449	555 if (success) values.push_back(v);
Chris@449	556 }
Chris@439	557 }
Chris@439	558
Chris@449	559 int dimensions = 1;
Chris@449	560 if (values.size() == 1) dimensions = 2;
Chris@449	561 else if (values.size() > 1) dimensions = 3;
Chris@449	562
Chris@449	563 Model *model = 0;
Chris@449	564
Chris@449	565 if (modelMap[source][type][dimensions].find(haveDuration) ==
Chris@449	566 modelMap[source][type][dimensions].end()) {
Chris@449	567
Chris@449	568 /*
Chris@449	569 std::cerr << "Creating new model: source = " << source.toStdString()
Chris@449	570 << ", type = " << type.toStdString() << ", dimensions = "
Chris@449	571 << dimensions << ", haveDuration = " << haveDuration
Chris@449	572 << ", time = " << time << ", duration = " << duration
Chris@449	573 << std::endl;
Chris@449	574 */
Chris@449	575
Chris@449	576 if (!haveDuration) {
Chris@449	577
Chris@449	578 if (dimensions == 1) {
Chris@449	579
Chris@449	580 // std::cerr << "SparseOneDimensionalModel" << std::endl;
Chris@449	581 model = new SparseOneDimensionalModel(m_sampleRate, 1, false);
Chris@449	582
Chris@449	583 } else if (dimensions == 2) {
Chris@449	584
Chris@449	585 // std::cerr << "SparseTimeValueModel" << std::endl;
Chris@449	586 model = new SparseTimeValueModel(m_sampleRate, 1, false);
Chris@449	587
Chris@449	588 } else {
Chris@449	589
Chris@449	590 // We don't have a three-dimensional sparse model,
Chris@449	591 // so use a note model. We do have some logic (in
Chris@449	592 // extractStructure below) for guessing whether
Chris@449	593 // this should after all have been a dense model,
Chris@449	594 // but it's hard to apply it because we don't have
Chris@449	595 // all the necessary timing data yet... hmm
Chris@449	596
Chris@449	597 // std::cerr << "NoteModel" << std::endl;
Chris@449	598 model = new NoteModel(m_sampleRate, 1, false);
Chris@449	599 }
Chris@449	600
Chris@449	601 } else { // haveDuration
Chris@449	602
Chris@449	603 if (dimensions == 1 \|\| dimensions == 2) {
Chris@449	604
Chris@449	605 // If our units are frequency or midi pitch, we
Chris@449	606 // should be using a note model... hm
Chris@449	607
Chris@449	608 // std::cerr << "RegionModel" << std::endl;
Chris@449	609 model = new RegionModel(m_sampleRate, 1, false);
Chris@449	610
Chris@449	611 } else {
Chris@449	612
Chris@449	613 // We don't have a three-dimensional sparse model,
Chris@449	614 // so use a note model. We do have some logic (in
Chris@449	615 // extractStructure below) for guessing whether
Chris@449	616 // this should after all have been a dense model,
Chris@449	617 // but it's hard to apply it because we don't have
Chris@449	618 // all the necessary timing data yet... hmm
Chris@449	619
Chris@449	620 // std::cerr << "NoteModel" << std::endl;
Chris@449	621 model = new NoteModel(m_sampleRate, 1, false);
Chris@449	622 }
Chris@449	623 }
Chris@449	624
Chris@449	625 modelMap[source][type][dimensions][haveDuration] = model;
Chris@449	626 models.push_back(model);
Chris@449	627 }
Chris@449	628
Chris@449	629 model = modelMap[source][type][dimensions][haveDuration];
Chris@449	630
Chris@449	631 if (model) {
Chris@449	632 long ftime = RealTime::realTime2Frame(time, m_sampleRate);
Chris@449	633 long fduration = RealTime::realTime2Frame(duration, m_sampleRate);
Chris@449	634 fillModel(model, ftime, fduration, haveDuration, values, label);
Chris@439	635 }
Chris@439	636 }
Chris@449	637
Chris@439	638
Chris@449	639 /*
Chris@449	640 for (SourceTypeTimeDurationValueMap::const_iterator mi = m.begin();
Chris@439	641 mi != m.end(); ++mi) {
Chris@439	642
Chris@439	643 QString source = mi->first;
Chris@439	644
Chris@449	645 for (TypeTimeDurationValueMap::const_iterator ttvi = mi->second.begin();
Chris@439	646 ttvi != mi->second.end(); ++ttvi) {
Chris@439	647
Chris@439	648 QString type = ttvi->first;
Chris@439	649
Chris@439	650 // Now we need to work out what sort of model to use for
Chris@439	651 // this source/type combination. Ultimately we'll
Chris@439	652 // hopefully be able to map directly from the type to the
Chris@439	653 // model on the basis of known structures for the types,
Chris@439	654 // but we also want to be able to handle untyped data
Chris@439	655 // according to its apparent structure so let's do that
Chris@439	656 // first.
Chris@439	657
Chris@439	658 bool sparse = false;
Chris@439	659 int minValueCount = 0, maxValueCount = 0;
Chris@439	660
Chris@439	661 extractStructure(ttvi->second, sparse, minValueCount, maxValueCount);
Chris@439	662
Chris@439	663 cerr << "For source \"" << source.toStdString() << "\", type \""
Chris@439	664 << type.toStdString() << "\" we have sparse = " << sparse
Chris@439	665 << ", min value count = " << minValueCount << ", max = "
Chris@439	666 << maxValueCount << endl;
Chris@439	667
Chris@439	668 // Model allocations:
Chris@439	669 //
Chris@439	670 // Sparse, no values: SparseOneDimensionalModel
Chris@439	671 //
Chris@439	672 // Sparse, always 1 value: SparseTimeValueModel
Chris@439	673 //
Chris@439	674 // Sparse, > 1 value: No standard model for this. If
Chris@439	675 // there are always 2 values, perhaps hack it into
Chris@439	676 // NoteModel for now? Or always use SparseTimeValueModel
Chris@439	677 // and discard all but the first value.
Chris@439	678 //
Chris@439	679 // Dense, no values: Meaningless; no suitable model
Chris@439	680 //
Chris@439	681 // Dense, > 0 values: EditableDenseThreeDimensionalModel
Chris@439	682 //
Chris@439	683 // These should just be our fallback positions; we want to
Chris@439	684 // be reading semantic data from the RDF in order to pick
Chris@439	685 // the right model directly
Chris@439	686
Chris@439	687 enum { SODM, STVM, EDTDM } modelType = SODM;
Chris@439	688
Chris@439	689 if (sparse) {
Chris@439	690 if (maxValueCount == 0) {
Chris@439	691 modelType = SODM;
Chris@439	692 } else if (minValueCount == 1 && maxValueCount == 1) {
Chris@439	693 modelType = STVM;
Chris@439	694 } else {
Chris@439	695 cerr << "WARNING: No suitable model available for sparse data with between " << minValueCount << " and " << maxValueCount << " values" << endl;
Chris@439	696 modelType = STVM;
Chris@439	697 }
Chris@439	698 } else {
Chris@439	699 if (maxValueCount == 0) {
Chris@439	700 cerr << "WARNING: Dense data set with no values is not meaningful, skipping" << endl;
Chris@439	701 continue;
Chris@439	702 } else {
Chris@439	703 modelType = EDTDM;
Chris@439	704 }
Chris@439	705 }
Chris@439	706
Chris@439	707 //!!! set model name &c
Chris@439	708
Chris@439	709 if (modelType == SODM) {
Chris@439	710
Chris@439	711 SparseOneDimensionalModel *model =
Chris@439	712 new SparseOneDimensionalModel(m_sampleRate, 1, false);
Chris@439	713
Chris@439	714 fillModel(model, ttvi->second);
Chris@439	715 models.push_back(model);
Chris@439	716
Chris@439	717 } else if (modelType == STVM) {
Chris@439	718
Chris@439	719 SparseTimeValueModel *model =
Chris@439	720 new SparseTimeValueModel(m_sampleRate, 1, false);
Chris@439	721
Chris@439	722 fillModel(model, ttvi->second);
Chris@439	723 models.push_back(model);
Chris@439	724
Chris@439	725 } else {
Chris@439	726
Chris@439	727 EditableDenseThreeDimensionalModel *model =
Chris@439	728 new EditableDenseThreeDimensionalModel(m_sampleRate, 1, 0,
Chris@439	729 false);
Chris@439	730
Chris@439	731 fillModel(model, ttvi->second);
Chris@439	732 models.push_back(model);
Chris@439	733 }
Chris@439	734 }
Chris@439	735 }
Chris@449	736 */
Chris@439	737 }
Chris@439	738
Chris@449	739 /*
Chris@439	740 void
Chris@449	741 RDFImporterImpl::extractStructure(const TimeDurationValueMap &tvm,
Chris@439	742 bool &sparse,
Chris@439	743 int &minValueCount,
Chris@439	744 int &maxValueCount)
Chris@439	745 {
Chris@439	746 // These are floats intentionally rather than RealTime --
Chris@439	747 // see logic for handling rounding error below
Chris@439	748 float firstTime = 0.f;
Chris@439	749 float timeStep = 0.f;
Chris@439	750 bool haveTimeStep = false;
Chris@439	751
Chris@449	752 for (TimeDurationValueMap::const_iterator tvi = tvm.begin(); tvi != tvm.end(); ++tvi) {
Chris@439	753
Chris@439	754 RealTime time = tvi->first;
Chris@439	755 int valueCount = tvi->second.size();
Chris@439	756
Chris@439	757 if (tvi == tvm.begin()) {
Chris@439	758
Chris@439	759 minValueCount = valueCount;
Chris@439	760 maxValueCount = valueCount;
Chris@439	761
Chris@439	762 firstTime = time.toDouble();
Chris@439	763
Chris@439	764 } else {
Chris@439	765
Chris@439	766 if (valueCount < minValueCount) minValueCount = valueCount;
Chris@439	767 if (valueCount > maxValueCount) maxValueCount = valueCount;
Chris@439	768
Chris@439	769 if (!haveTimeStep) {
Chris@439	770 timeStep = time.toDouble() - firstTime;
Chris@439	771 if (timeStep == 0.f) sparse = true;
Chris@439	772 haveTimeStep = true;
Chris@439	773 } else if (!sparse) {
Chris@439	774 // test whether this time is within
Chris@439	775 // rounding-error range of being an integer
Chris@439	776 // multiple of some constant away from the
Chris@439	777 // first time
Chris@439	778 float timeAsFloat = time.toDouble();
Chris@439	779 int count = int((timeAsFloat - firstTime) / timeStep + 0.5);
Chris@439	780 float expected = firstTime + (timeStep * count);
Chris@439	781 if (fabsf(expected - timeAsFloat) > 1e-6) {
Chris@439	782 cerr << "Event at " << timeAsFloat << " is not evenly spaced -- would expect it to be " << expected << " for a spacing of " << count << " * " << timeStep << endl;
Chris@439	783 sparse = true;
Chris@439	784 }
Chris@439	785 }
Chris@439	786 }
Chris@439	787 }
Chris@439	788 }
Chris@449	789 */
Chris@439	790
Chris@439	791 void
Chris@449	792 RDFImporterImpl::fillModel(Model *model,
Chris@449	793 long ftime,
Chris@449	794 long fduration,
Chris@449	795 bool haveDuration,
Chris@449	796 std::vector<float> &values,
Chris@449	797 QString label)
Chris@449	798 {
Chris@449	799 SparseOneDimensionalModel *sodm =
Chris@449	800 dynamic_cast<SparseOneDimensionalModel *>(model);
Chris@449	801 if (sodm) {
Chris@449	802 SparseOneDimensionalModel::Point point(ftime, label);
Chris@449	803 sodm->addPoint(point);
Chris@449	804 return;
Chris@449	805 }
Chris@449	806
Chris@449	807 SparseTimeValueModel *stvm =
Chris@449	808 dynamic_cast<SparseTimeValueModel *>(model);
Chris@449	809 if (stvm) {
Chris@449	810 SparseTimeValueModel::Point point
Chris@449	811 (ftime, values.empty() ? 0.f : values[0], label);
Chris@449	812 stvm->addPoint(point);
Chris@449	813 return;
Chris@449	814 }
Chris@449	815
Chris@449	816 NoteModel *nm =
Chris@449	817 dynamic_cast<NoteModel *>(model);
Chris@449	818 if (nm) {
Chris@449	819 if (haveDuration) {
Chris@449	820 float value = 0.f, level = 1.f;
Chris@449	821 if (!values.empty()) {
Chris@449	822 value = values[0];
Chris@449	823 if (values.size() > 1) {
Chris@449	824 level = values[1];
Chris@449	825 }
Chris@449	826 }
Chris@449	827 NoteModel::Point point(ftime, value, fduration, level, label);
Chris@449	828 nm->addPoint(point);
Chris@449	829 } else {
Chris@449	830 float value = 0.f, duration = 1.f, level = 1.f;
Chris@449	831 if (!values.empty()) {
Chris@449	832 value = values[0];
Chris@449	833 if (values.size() > 1) {
Chris@449	834 duration = values[1];
Chris@449	835 if (values.size() > 2) {
Chris@449	836 level = values[2];
Chris@449	837 }
Chris@449	838 }
Chris@449	839 }
Chris@449	840 NoteModel::Point point(ftime, value, duration, level, label);
Chris@449	841 nm->addPoint(point);
Chris@449	842 }
Chris@449	843 return;
Chris@449	844 }
Chris@449	845
Chris@449	846 RegionModel *rm =
Chris@449	847 dynamic_cast<RegionModel *>(model);
Chris@449	848 if (rm) {
Chris@449	849 if (haveDuration) {
Chris@449	850 RegionModel::Point point
Chris@449	851 (ftime, values.empty() ? 0.f : values[0], fduration, label);
Chris@449	852 rm->addPoint(point);
Chris@449	853 } else {
Chris@449	854 // This won't actually happen -- we only create region models
Chris@449	855 // if we do have duration -- but just for completeness
Chris@449	856 float value = 0.f, duration = 1.f;
Chris@449	857 if (!values.empty()) {
Chris@449	858 value = values[0];
Chris@449	859 if (values.size() > 1) {
Chris@449	860 duration = values[1];
Chris@449	861 }
Chris@449	862 }
Chris@449	863 RegionModel::Point point(ftime, value, duration, label);
Chris@449	864 rm->addPoint(point);
Chris@449	865 }
Chris@449	866 return;
Chris@449	867 }
Chris@449	868
Chris@449	869 std::cerr << "WARNING: RDFImporterImpl::fillModel: Unknown or unexpected model type" << std::endl;
Chris@449	870 return;
Chris@449	871 }
Chris@449	872
Chris@449	873
Chris@449	874 /*
Chris@449	875 void
Chris@439	876 RDFImporterImpl::fillModel(SparseOneDimensionalModel *model,
Chris@449	877 const TimeDurationValueMap &tvm)
Chris@439	878 {
Chris@439	879 //!!! labels &c not yet handled
Chris@439	880
Chris@449	881 for (TimeDurationValueMap::const_iterator tvi = tvm.begin();
Chris@439	882 tvi != tvm.end(); ++tvi) {
Chris@439	883
Chris@439	884 RealTime time = tvi->first;
Chris@439	885 long frame = RealTime::realTime2Frame(time, m_sampleRate);
Chris@439	886
Chris@439	887 SparseOneDimensionalModel::Point point(frame);
Chris@439	888
Chris@439	889 model->addPoint(point);
Chris@439	890 }
Chris@439	891 }
Chris@439	892
Chris@439	893 void
Chris@439	894 RDFImporterImpl::fillModel(SparseTimeValueModel *model,
Chris@449	895 const TimeDurationValueMap &tvm)
Chris@439	896 {
Chris@439	897 //!!! labels &c not yet handled
Chris@439	898
Chris@449	899 for (TimeDurationValueMap::const_iterator tvi = tvm.begin();
Chris@439	900 tvi != tvm.end(); ++tvi) {
Chris@439	901
Chris@439	902 RealTime time = tvi->first;
Chris@439	903 long frame = RealTime::realTime2Frame(time, m_sampleRate);
Chris@439	904
Chris@439	905 float value = 0.f;
Chris@449	906 if (!tvi->second.empty()) value = *tvi->second.begin()->second;
Chris@439	907
Chris@439	908 SparseTimeValueModel::Point point(frame, value, "");
Chris@439	909
Chris@439	910 model->addPoint(point);
Chris@439	911 }
Chris@439	912 }
Chris@439	913
Chris@439	914 void
Chris@439	915 RDFImporterImpl::fillModel(EditableDenseThreeDimensionalModel *model,
Chris@449	916 const TimeDurationValueMap &tvm)
Chris@439	917 {
Chris@439	918 //!!! labels &c not yet handled
Chris@439	919
Chris@439	920 //!!! start time offset not yet handled
Chris@439	921
Chris@439	922 size_t col = 0;
Chris@439	923
Chris@449	924 for (TimeDurationValueMap::const_iterator tvi = tvm.begin();
Chris@439	925 tvi != tvm.end(); ++tvi) {
Chris@439	926
Chris@449	927 model->setColumn(col++, tvi->second.second);
Chris@439	928 }
Chris@439	929 }
Chris@439	930
Chris@449	931 */

Mercurial > hg > svcore

annotate rdf/RDFImporter.cpp @ 480:3ffce691c9bf