Mercurial > hg > svcore
view rdf/SimpleSPARQLQuery.cpp @ 484:45ded09e4710
* minor text change
author | Chris Cannam |
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date | Wed, 19 Nov 2008 21:36:33 +0000 |
parents | a82645e788fc |
children | 82ab61fa9223 |
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/* -*- 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 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 "SimpleSPARQLQuery.h" #include "base/ProgressReporter.h" #include "base/Profiler.h" #include <QMutex> #include <QMutexLocker> #include <QRegExp> #include <set> #ifdef USE_NEW_RASQAL_API #include <rasqal/rasqal.h> #else #include <rasqal.h> #endif #ifdef HAVE_REDLAND #include <redland.h> #endif //#define DEBUG_SIMPLE_SPARQL_QUERY 1 #include <iostream> using std::cerr; using std::endl; #ifdef USE_NEW_RASQAL_API class WrasqalWorldWrapper // wrong but wromantic, etc { public: WrasqalWorldWrapper() : m_world(0) { m_world = rasqal_new_world(); if (!m_world) { cerr << "SimpleSPARQLQuery: ERROR: Failed to create RASQAL world!" << endl; return; } /*!!! This appears to be new for 0.9.17? if (rasqal_world_open(m_world)) { cerr << "SimpleSPARQLQuery: ERROR: Failed to open RASQAL world!" << endl; return; } */ } ~WrasqalWorldWrapper() { rasqal_free_world(m_world); } rasqal_world *getWorld() { return m_world; } const rasqal_world *getWorld() const { return m_world; } private: rasqal_world *m_world; }; #endif #ifdef HAVE_REDLAND class WredlandWorldWrapper { public: WredlandWorldWrapper() : m_world(0), m_storage(0), m_model(0) { m_world = librdf_new_world(); if (!m_world) { cerr << "SimpleSPARQLQuery: ERROR: Failed to create LIBRDF world!" << endl; return; } librdf_world_open(m_world); m_storage = librdf_new_storage(m_world, "trees", NULL, NULL); if (!m_storage) { std::cerr << "SimpleSPARQLQuery: ERROR: Failed to initialise Redland trees datastore, falling back to memory store" << std::endl; m_storage = librdf_new_storage(m_world, NULL, NULL, NULL); if (!m_storage) { std::cerr << "SimpleSPARQLQuery: ERROR: Failed to initialise Redland memory datastore" << std::endl; return; } } m_model = librdf_new_model(m_world, m_storage, NULL); if (!m_model) { std::cerr << "SimpleSPARQLQuery: ERROR: Failed to initialise Redland data model" << std::endl; return; } } ~WredlandWorldWrapper() { while (!m_parsedUris.empty()) { librdf_free_uri(m_parsedUris.begin()->second); m_parsedUris.erase(m_parsedUris.begin()); } if (m_model) librdf_free_model(m_model); if (m_storage) librdf_free_storage(m_storage); if (m_world) librdf_free_world(m_world); } bool isOK() const { return (m_model != 0); } librdf_uri *getUri(QString uriString, QString &errorString) { QMutexLocker locker(&m_mutex); if (m_parsedUris.find(uriString) != m_parsedUris.end()) { return m_parsedUris[uriString]; } librdf_uri *uri = librdf_new_uri (m_world, (const unsigned char *)uriString.toUtf8().data()); if (!uri) { errorString = "Failed to construct librdf_uri!"; return 0; } librdf_parser *parser = librdf_new_parser(m_world, "guess", NULL, NULL); if (!parser) { errorString = "Failed to initialise Redland parser"; return 0; } std::cerr << "About to parse \"" << uriString.toStdString() << "\"" << std::endl; Profiler p("SimpleSPARQLQuery: Parse URI into LIBRDF model"); if (librdf_parser_parse_into_model(parser, uri, NULL, m_model)) { errorString = QString("Failed to parse RDF from URI \"%1\"") .arg(uriString); librdf_free_parser(parser); librdf_free_uri(uri); return 0; } else { librdf_free_parser(parser); m_parsedUris[uriString] = uri; return uri; } } librdf_world *getWorld() { return m_world; } const librdf_world *getWorld() const { return m_world; } librdf_model *getModel() { return m_model; } const librdf_model *getModel() const { return m_model; } private: librdf_world *m_world; librdf_storage *m_storage; librdf_model *m_model; QMutex m_mutex; std::map<QString, librdf_uri *> m_parsedUris; }; #endif class SimpleSPARQLQuery::Impl { public: Impl(QString fromUri, QString query); ~Impl(); void setProgressReporter(ProgressReporter *reporter) { m_reporter = reporter; } bool wasCancelled() const { return m_cancelled; } ResultList execute(); bool isOK() const; QString getErrorString() const; static void setBackEnd(SimpleSPARQLQuery::BackEndPreference p) { m_preference = p; } protected: static void errorHandler(void *, raptor_locator *, const char *); static QMutex m_mutex; #ifdef USE_NEW_RASQAL_API static WrasqalWorldWrapper *m_rasqal; #else static bool m_rasqalInitialised; #endif #ifdef HAVE_REDLAND static WredlandWorldWrapper *m_redland; #endif static SimpleSPARQLQuery::BackEndPreference m_preference; ResultList executeDirectParser(); ResultList executeDatastore(); QString m_fromUri; QString m_query; QString m_errorString; ProgressReporter *m_reporter; bool m_cancelled; }; #ifdef USE_NEW_RASQAL_API WrasqalWorldWrapper *SimpleSPARQLQuery::Impl::m_rasqal = 0; #else bool SimpleSPARQLQuery::Impl::m_rasqalInitialised = false; #endif #ifdef HAVE_REDLAND WredlandWorldWrapper *SimpleSPARQLQuery::Impl::m_redland = 0; #endif QMutex SimpleSPARQLQuery::Impl::m_mutex; SimpleSPARQLQuery::BackEndPreference SimpleSPARQLQuery::Impl::m_preference = SimpleSPARQLQuery::AutoSelectBackEnd; SimpleSPARQLQuery::SimpleSPARQLQuery(QString fromUri, QString query) : m_impl(new Impl(fromUri, query)) { } SimpleSPARQLQuery::~SimpleSPARQLQuery() { delete m_impl; } void SimpleSPARQLQuery::setProgressReporter(ProgressReporter *reporter) { m_impl->setProgressReporter(reporter); } bool SimpleSPARQLQuery::wasCancelled() const { return m_impl->wasCancelled(); } SimpleSPARQLQuery::ResultList SimpleSPARQLQuery::execute() { return m_impl->execute(); } bool SimpleSPARQLQuery::isOK() const { return m_impl->isOK(); } QString SimpleSPARQLQuery::getErrorString() const { return m_impl->getErrorString(); } void SimpleSPARQLQuery::setBackEnd(BackEndPreference p) { SimpleSPARQLQuery::Impl::setBackEnd(p); } SimpleSPARQLQuery::Impl::Impl(QString fromUri, QString query) : m_fromUri(fromUri), m_query(query), m_reporter(0), m_cancelled(false) { #ifdef DEBUG_SIMPLE_SPARQL_QUERY std::cerr << "SimpleSPARQLQuery::Impl: Query is: \"" << query.toStdString() << "\"" << std::endl; #endif } SimpleSPARQLQuery::Impl::~Impl() { } bool SimpleSPARQLQuery::Impl::isOK() const { return (m_errorString == ""); } QString SimpleSPARQLQuery::Impl::getErrorString() const { return m_errorString; } void SimpleSPARQLQuery::Impl::errorHandler(void *data, raptor_locator *locator, const char *message) { SimpleSPARQLQuery::Impl *impl = (SimpleSPARQLQuery::Impl *)data; char buffer[256]; raptor_format_locator(buffer, 255, locator); QString loc(buffer); if (loc != "") { impl->m_errorString = QString("%1 - %2").arg(loc).arg(message); } else { impl->m_errorString = message; } cerr << "SimpleSPARQLQuery: ERROR: " << impl->m_errorString.toStdString() << endl; } SimpleSPARQLQuery::ResultList SimpleSPARQLQuery::Impl::execute() { ResultList list; BackEndPreference preference; m_mutex.lock(); if (m_preference == AutoSelectBackEnd) { #ifdef HAVE_REDLAND // cerr << "librdf version: " << librdf_version_major << "." << librdf_version_minor << "." << librdf_version_release << endl; if (librdf_version_major > 1 || (librdf_version_major == 1 && (librdf_version_minor > 0 || (librdf_version_minor == 0 && librdf_version_release > 7)))) { cerr << "SimpleSPARQLQuery: Auto-selecting LIBRDF back-end for tree-based storage" << endl; m_preference = DatastoreBackEnd; } #endif if (m_preference == AutoSelectBackEnd) { cerr << "SimpleSPARQLQuery: Auto-selecting RASQAL back-end" << endl; m_preference = DirectParserBackEnd; } } if (m_preference == DatastoreBackEnd) { #ifdef HAVE_REDLAND if (!m_redland) { m_redland = new WredlandWorldWrapper(); if (!m_redland->isOK()) { cerr << "WARNING: SimpleSPARQLQuery::execute: Failed to initialise Redland datastore, falling back to direct parser implementation" << endl; delete m_redland; m_preference = DirectParserBackEnd; } } #else cerr << "WARNING: SimpleSPARQLQuery::execute: Datastore implementation preference indicated, but no datastore compiled in; using direct parser" << endl; m_preference = DirectParserBackEnd; #endif } if (m_preference == DirectParserBackEnd) { #ifdef USE_NEW_RASQAL_API if (!m_rasqal) m_rasqal = new WrasqalWorldWrapper(); #else if (!m_rasqalInitialised) { rasqal_init(); m_rasqalInitialised = true; } #endif } preference = m_preference; m_mutex.unlock(); if (preference == SimpleSPARQLQuery::DirectParserBackEnd) { return executeDirectParser(); } else { return executeDatastore(); } } SimpleSPARQLQuery::ResultList SimpleSPARQLQuery::Impl::executeDirectParser() { ResultList list; Profiler profiler("SimpleSPARQLQuery::executeDirectParser"); #ifdef USE_NEW_RASQAL_API rasqal_query *query = rasqal_new_query(m_rasqal->getWorld(), "sparql", NULL); #else rasqal_query *query = rasqal_new_query("sparql", NULL); #endif if (!query) { m_errorString = "Failed to construct query"; cerr << "SimpleSPARQLQuery: ERROR: " << m_errorString.toStdString() << endl; return list; } rasqal_query_set_error_handler(query, this, errorHandler); rasqal_query_set_fatal_error_handler(query, this, errorHandler); { Profiler p("SimpleSPARQLQuery: Prepare RASQAL query"); if (rasqal_query_prepare (query, (const unsigned char *)m_query.toUtf8().data(), NULL)) { cerr << "SimpleSPARQLQuery: Failed to prepare query" << endl; rasqal_free_query(query); return list; } } rasqal_query_results *results; { Profiler p("SimpleSPARQLQuery: Execute RASQAL query"); results = rasqal_query_execute(query); } // cerr << "Query executed" << endl; if (!results) { cerr << "SimpleSPARQLQuery: RASQAL query failed" << endl; rasqal_free_query(query); return list; } if (!rasqal_query_results_is_bindings(results)) { cerr << "SimpleSPARQLQuery: RASQAL query has wrong result type (not bindings)" << endl; rasqal_free_query_results(results); rasqal_free_query(query); return list; } int resultCount = 0; int resultTotal = rasqal_query_results_get_count(results); // probably wrong m_cancelled = false; while (!rasqal_query_results_finished(results)) { int count = rasqal_query_results_get_bindings_count(results); KeyValueMap resultmap; for (int i = 0; i < count; ++i) { const unsigned char *name = rasqal_query_results_get_binding_name(results, i); rasqal_literal *literal = rasqal_query_results_get_binding_value(results, i); QString key = (const char *)name; if (!literal) { resultmap[key] = Value(); continue; } ValueType type = LiteralValue; if (literal->type == RASQAL_LITERAL_URI) type = URIValue; else if (literal->type == RASQAL_LITERAL_BLANK) type = BlankValue; QString text = (const char *)rasqal_literal_as_string(literal); #ifdef DEBUG_SIMPLE_SPARQL_QUERY std::cerr << i << ". " << key.toStdString() << " -> " << text.toStdString() << " (type " << type << ")" << std::endl; #endif resultmap[key] = Value(type, text); } list.push_back(resultmap); rasqal_query_results_next(results); resultCount++; if (m_reporter) { if (resultCount >= resultTotal) { if (m_reporter->isDefinite()) m_reporter->setDefinite(false); m_reporter->setProgress(resultCount); } else { m_reporter->setProgress((resultCount * 100) / resultTotal); } if (m_reporter->wasCancelled()) { m_cancelled = true; break; } } } rasqal_free_query_results(results); rasqal_free_query(query); return list; } SimpleSPARQLQuery::ResultList SimpleSPARQLQuery::Impl::executeDatastore() { ResultList list; #ifndef HAVE_REDLAND // This should have been caught by execute() cerr << "SimpleSPARQLQuery: INTERNAL ERROR: Datastore not compiled in" << endl; return list; #else Profiler profiler("SimpleSPARQLQuery::executeDatastore"); librdf_uri *uri = m_redland->getUri(m_fromUri, m_errorString); if (!uri) return list; #ifdef DEBUG_SIMPLE_SPARQL_QUERY std::cerr << "SimpleSPARQLQuery: Query is: \"" << m_query.toStdString() << "\"" << std::endl; #endif /*!!! static std::map<QString, int> counter; if (counter.find(m_query) == counter.end()) counter[m_query] = 1; else ++counter[m_query]; std::cerr << "Counter for this query: " << counter[m_query] << std::endl; std::cerr << "Base URI is: \"" << m_fromUri.toStdString() << "\"" << std::endl; */ librdf_query *query; { Profiler p("SimpleSPARQLQuery: Prepare LIBRDF query"); query = librdf_new_query (m_redland->getWorld(), "sparql", NULL, (const unsigned char *)m_query.toUtf8().data(), uri); } if (!query) { m_errorString = "Failed to construct query"; return list; } librdf_query_results *results; { Profiler p("SimpleSPARQLQuery: Execute LIBRDF query"); results = librdf_query_execute(query, m_redland->getModel()); } if (!results) { cerr << "SimpleSPARQLQuery: LIBRDF query failed" << endl; librdf_free_query(query); return list; } if (!librdf_query_results_is_bindings(results)) { cerr << "SimpleSPARQLQuery: LIBRDF query has wrong result type (not bindings)" << endl; librdf_free_query_results(results); librdf_free_query(query); return list; } int resultCount = 0; int resultTotal = librdf_query_results_get_count(results); // probably wrong m_cancelled = false; while (!librdf_query_results_finished(results)) { int count = librdf_query_results_get_bindings_count(results); KeyValueMap resultmap; for (int i = 0; i < count; ++i) { const char *name = librdf_query_results_get_binding_name(results, i); librdf_node *node = librdf_query_results_get_binding_value(results, i); QString key = (const char *)name; if (!node) { resultmap[key] = Value(); continue; } ValueType type = LiteralValue; QString text; if (librdf_node_is_resource(node)) { type = URIValue; librdf_uri *uri = librdf_node_get_uri(node); text = (const char *)librdf_uri_as_string(uri); } else if (librdf_node_is_literal(node)) { type = LiteralValue; text = (const char *)librdf_node_get_literal_value(node); } else if (librdf_node_is_blank(node)) { type = BlankValue; } else { cerr << "SimpleSPARQLQuery: LIBRDF query returned unknown node type (not resource, literal, or blank)" << endl; } #ifdef DEBUG_SIMPLE_SPARQL_QUERY cerr << i << ". " << key.toStdString() << " -> " << text.toStdString() << " (type " << type << ")" << endl; #endif resultmap[key] = Value(type, text); librdf_free_node(node); } list.push_back(resultmap); librdf_query_results_next(results); resultCount++; if (m_reporter) { if (resultCount >= resultTotal) { if (m_reporter->isDefinite()) m_reporter->setDefinite(false); m_reporter->setProgress(resultCount); } else { m_reporter->setProgress((resultCount * 100) / resultTotal); } if (m_reporter->wasCancelled()) { m_cancelled = true; break; } } } librdf_free_query_results(results); librdf_free_query(query); #ifdef DEBUG_SIMPLE_SPARQL_QUERY cerr << "All results retrieved (" << resultCount << " of them)" << endl; #endif return list; #endif } SimpleSPARQLQuery::Value SimpleSPARQLQuery::singleResultQuery(QString fromUri, QString query, QString binding) { SimpleSPARQLQuery q(fromUri, query); ResultList results = q.execute(); if (!q.isOK()) { cerr << "SimpleSPARQLQuery::singleResultQuery: ERROR: " << q.getErrorString().toStdString() << endl; return Value(); } if (results.empty()) { return Value(); } for (int i = 0; i < results.size(); ++i) { if (results[i].find(binding) != results[i].end() && results[i][binding].type != NoValue) { return results[i][binding]; } } return Value(); }