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/* This file is part of the OWL API.
 * The contents of this file are subject to the LGPL License, Version 3.0.
 * Copyright 2014, The University of Manchester
 * 
 * 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 3 of the License, or (at your option) any later version.
 * This program is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the GNU General Public License for more details.
 * You should have received a copy of the GNU General Public License along with this program.  If not, see http://www.gnu.org/licenses/.
 *
 * Alternatively, the contents of this file may be used under the terms of the Apache License, Version 2.0 in which case, the provisions of the Apache License Version 2.0 are applicable instead of those above.
 * Licensed under the Apache License, Version 2.0 (the "License"); you may not use this file except in compliance with the License. You may obtain a copy of the License at
 * http://www.apache.org/licenses/LICENSE-2.0
 * Unless required by applicable law or agreed to in writing, software distributed under the License is distributed on an "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the License for the specific language governing permissions and limitations under the License. */
package org.semanticweb.owlapi.rdf.model;

import static org.semanticweb.owlapi.util.CollectionFactory.createLinkedSet;
import static org.semanticweb.owlapi.util.OWLAPIPreconditions.checkNotNull;
import static org.semanticweb.owlapi.util.OWLAPIStreamUtils.asList;
import static org.semanticweb.owlapi.vocab.OWLRDFVocabulary.OWL_ALL_DIFFERENT;
import static org.semanticweb.owlapi.vocab.OWLRDFVocabulary.OWL_ALL_DISJOINT_CLASSES;
import static org.semanticweb.owlapi.vocab.OWLRDFVocabulary.OWL_ALL_DISJOINT_PROPERTIES;
import static org.semanticweb.owlapi.vocab.OWLRDFVocabulary.OWL_ALL_VALUES_FROM;
import static org.semanticweb.owlapi.vocab.OWLRDFVocabulary.OWL_ANNOTATED_PROPERTY;
import static org.semanticweb.owlapi.vocab.OWLRDFVocabulary.OWL_ANNOTATED_SOURCE;
import static org.semanticweb.owlapi.vocab.OWLRDFVocabulary.OWL_ANNOTATED_TARGET;
import static org.semanticweb.owlapi.vocab.OWLRDFVocabulary.OWL_ANNOTATION;
import static org.semanticweb.owlapi.vocab.OWLRDFVocabulary.OWL_ASSERTION_PROPERTY;
import static org.semanticweb.owlapi.vocab.OWLRDFVocabulary.OWL_ASYMMETRIC_PROPERTY;
import static org.semanticweb.owlapi.vocab.OWLRDFVocabulary.OWL_AXIOM;
import static org.semanticweb.owlapi.vocab.OWLRDFVocabulary.OWL_CARDINALITY;
import static org.semanticweb.owlapi.vocab.OWLRDFVocabulary.OWL_CLASS;
import static org.semanticweb.owlapi.vocab.OWLRDFVocabulary.OWL_COMPLEMENT_OF;
import static org.semanticweb.owlapi.vocab.OWLRDFVocabulary.OWL_DATATYPE_COMPLEMENT_OF;
import static org.semanticweb.owlapi.vocab.OWLRDFVocabulary.OWL_DIFFERENT_FROM;
import static org.semanticweb.owlapi.vocab.OWLRDFVocabulary.OWL_DISJOINT_UNION_OF;
import static org.semanticweb.owlapi.vocab.OWLRDFVocabulary.OWL_DISJOINT_WITH;
import static org.semanticweb.owlapi.vocab.OWLRDFVocabulary.OWL_DISTINCT_MEMBERS;
import static org.semanticweb.owlapi.vocab.OWLRDFVocabulary.OWL_EQUIVALENT_CLASS;
import static org.semanticweb.owlapi.vocab.OWLRDFVocabulary.OWL_EQUIVALENT_PROPERTY;
import static org.semanticweb.owlapi.vocab.OWLRDFVocabulary.OWL_FUNCTIONAL_PROPERTY;
import static org.semanticweb.owlapi.vocab.OWLRDFVocabulary.OWL_HAS_KEY;
import static org.semanticweb.owlapi.vocab.OWLRDFVocabulary.OWL_HAS_SELF;
import static org.semanticweb.owlapi.vocab.OWLRDFVocabulary.OWL_HAS_VALUE;
import static org.semanticweb.owlapi.vocab.OWLRDFVocabulary.OWL_IMPORTS;
import static org.semanticweb.owlapi.vocab.OWLRDFVocabulary.OWL_INTERSECTION_OF;
import static org.semanticweb.owlapi.vocab.OWLRDFVocabulary.OWL_INVERSE_FUNCTIONAL_PROPERTY;
import static org.semanticweb.owlapi.vocab.OWLRDFVocabulary.OWL_INVERSE_OF;
import static org.semanticweb.owlapi.vocab.OWLRDFVocabulary.OWL_IRREFLEXIVE_PROPERTY;
import static org.semanticweb.owlapi.vocab.OWLRDFVocabulary.OWL_MAX_CARDINALITY;
import static org.semanticweb.owlapi.vocab.OWLRDFVocabulary.OWL_MAX_QUALIFIED_CARDINALITY;
import static org.semanticweb.owlapi.vocab.OWLRDFVocabulary.OWL_MEMBERS;
import static org.semanticweb.owlapi.vocab.OWLRDFVocabulary.OWL_MIN_CARDINALITY;
import static org.semanticweb.owlapi.vocab.OWLRDFVocabulary.OWL_MIN_QUALIFIED_CARDINALITY;
import static org.semanticweb.owlapi.vocab.OWLRDFVocabulary.OWL_NEGATIVE_PROPERTY_ASSERTION;
import static org.semanticweb.owlapi.vocab.OWLRDFVocabulary.OWL_ONE_OF;
import static org.semanticweb.owlapi.vocab.OWLRDFVocabulary.OWL_ONTOLOGY;
import static org.semanticweb.owlapi.vocab.OWLRDFVocabulary.OWL_ON_CLASS;
import static org.semanticweb.owlapi.vocab.OWLRDFVocabulary.OWL_ON_DATA_RANGE;
import static org.semanticweb.owlapi.vocab.OWLRDFVocabulary.OWL_ON_DATA_TYPE;
import static org.semanticweb.owlapi.vocab.OWLRDFVocabulary.OWL_ON_PROPERTY;
import static org.semanticweb.owlapi.vocab.OWLRDFVocabulary.OWL_PROPERTY_CHAIN_AXIOM;
import static org.semanticweb.owlapi.vocab.OWLRDFVocabulary.OWL_PROPERTY_DISJOINT_WITH;
import static org.semanticweb.owlapi.vocab.OWLRDFVocabulary.OWL_QUALIFIED_CARDINALITY;
import static org.semanticweb.owlapi.vocab.OWLRDFVocabulary.OWL_REFLEXIVE_PROPERTY;
import static org.semanticweb.owlapi.vocab.OWLRDFVocabulary.OWL_RESTRICTION;
import static org.semanticweb.owlapi.vocab.OWLRDFVocabulary.OWL_SAME_AS;
import static org.semanticweb.owlapi.vocab.OWLRDFVocabulary.OWL_SOME_VALUES_FROM;
import static org.semanticweb.owlapi.vocab.OWLRDFVocabulary.OWL_SOURCE_INDIVIDUAL;
import static org.semanticweb.owlapi.vocab.OWLRDFVocabulary.OWL_SYMMETRIC_PROPERTY;
import static org.semanticweb.owlapi.vocab.OWLRDFVocabulary.OWL_TARGET_INDIVIDUAL;
import static org.semanticweb.owlapi.vocab.OWLRDFVocabulary.OWL_TARGET_VALUE;
import static org.semanticweb.owlapi.vocab.OWLRDFVocabulary.OWL_TRANSITIVE_PROPERTY;
import static org.semanticweb.owlapi.vocab.OWLRDFVocabulary.OWL_UNION_OF;
import static org.semanticweb.owlapi.vocab.OWLRDFVocabulary.OWL_VERSION_IRI;
import static org.semanticweb.owlapi.vocab.OWLRDFVocabulary.OWL_WITH_RESTRICTIONS;
import static org.semanticweb.owlapi.vocab.OWLRDFVocabulary.RDFS_DATATYPE;
import static org.semanticweb.owlapi.vocab.OWLRDFVocabulary.RDFS_DOMAIN;
import static org.semanticweb.owlapi.vocab.OWLRDFVocabulary.RDFS_RANGE;
import static org.semanticweb.owlapi.vocab.OWLRDFVocabulary.RDFS_SUBCLASS_OF;
import static org.semanticweb.owlapi.vocab.OWLRDFVocabulary.RDFS_SUB_PROPERTY_OF;
import static org.semanticweb.owlapi.vocab.OWLRDFVocabulary.RDF_FIRST;
import static org.semanticweb.owlapi.vocab.OWLRDFVocabulary.RDF_LIST;
import static org.semanticweb.owlapi.vocab.OWLRDFVocabulary.RDF_NIL;
import static org.semanticweb.owlapi.vocab.OWLRDFVocabulary.RDF_REST;
import static org.semanticweb.owlapi.vocab.OWLRDFVocabulary.RDF_TYPE;
import static org.semanticweb.owlapi.vocab.SWRLVocabulary.ARGUMENTS;
import static org.semanticweb.owlapi.vocab.SWRLVocabulary.ARGUMENT_1;
import static org.semanticweb.owlapi.vocab.SWRLVocabulary.ARGUMENT_2;
import static org.semanticweb.owlapi.vocab.SWRLVocabulary.ATOM_LIST;
import static org.semanticweb.owlapi.vocab.SWRLVocabulary.BODY;
import static org.semanticweb.owlapi.vocab.SWRLVocabulary.BUILT_IN;
import static org.semanticweb.owlapi.vocab.SWRLVocabulary.BUILT_IN_ATOM;
import static org.semanticweb.owlapi.vocab.SWRLVocabulary.BUILT_IN_CLASS;
import static org.semanticweb.owlapi.vocab.SWRLVocabulary.CLASS_ATOM;
import static org.semanticweb.owlapi.vocab.SWRLVocabulary.CLASS_PREDICATE;
import static org.semanticweb.owlapi.vocab.SWRLVocabulary.DATAVALUED_PROPERTY_ATOM;
import static org.semanticweb.owlapi.vocab.SWRLVocabulary.DATA_RANGE;
import static org.semanticweb.owlapi.vocab.SWRLVocabulary.DATA_RANGE_ATOM;
import static org.semanticweb.owlapi.vocab.SWRLVocabulary.DIFFERENT_INDIVIDUALS_ATOM;
import static org.semanticweb.owlapi.vocab.SWRLVocabulary.HEAD;
import static org.semanticweb.owlapi.vocab.SWRLVocabulary.IMP;
import static org.semanticweb.owlapi.vocab.SWRLVocabulary.INDIVIDUAL_PROPERTY_ATOM;
import static org.semanticweb.owlapi.vocab.SWRLVocabulary.PROPERTY_PREDICATE;
import static org.semanticweb.owlapi.vocab.SWRLVocabulary.SAME_INDIVIDUAL_ATOM;
import static org.semanticweb.owlapi.vocab.SWRLVocabulary.VARIABLE;

import java.io.Serializable;
import java.util.ArrayList;
import java.util.IdentityHashMap;
import java.util.List;
import java.util.Map;
import java.util.Objects;
import java.util.Optional;
import java.util.Set;
import java.util.concurrent.ConcurrentHashMap;
import java.util.function.Function;
import java.util.function.Predicate;
import java.util.stream.Stream;

import javax.annotation.Nullable;

import org.semanticweb.owlapi.model.IRI;
import org.semanticweb.owlapi.model.OWLAnnotation;
import org.semanticweb.owlapi.model.OWLAnnotationAssertionAxiom;
import org.semanticweb.owlapi.model.OWLAnnotationProperty;
import org.semanticweb.owlapi.model.OWLAnnotationPropertyDomainAxiom;
import org.semanticweb.owlapi.model.OWLAnnotationPropertyRangeAxiom;
import org.semanticweb.owlapi.model.OWLAnonymousIndividual;
import org.semanticweb.owlapi.model.OWLAsymmetricObjectPropertyAxiom;
import org.semanticweb.owlapi.model.OWLAxiom;
import org.semanticweb.owlapi.model.OWLCardinalityRestriction;
import org.semanticweb.owlapi.model.OWLClass;
import org.semanticweb.owlapi.model.OWLClassAssertionAxiom;
import org.semanticweb.owlapi.model.OWLClassExpression;
import org.semanticweb.owlapi.model.OWLDataAllValuesFrom;
import org.semanticweb.owlapi.model.OWLDataComplementOf;
import org.semanticweb.owlapi.model.OWLDataExactCardinality;
import org.semanticweb.owlapi.model.OWLDataHasValue;
import org.semanticweb.owlapi.model.OWLDataIntersectionOf;
import org.semanticweb.owlapi.model.OWLDataMaxCardinality;
import org.semanticweb.owlapi.model.OWLDataMinCardinality;
import org.semanticweb.owlapi.model.OWLDataOneOf;
import org.semanticweb.owlapi.model.OWLDataProperty;
import org.semanticweb.owlapi.model.OWLDataPropertyAssertionAxiom;
import org.semanticweb.owlapi.model.OWLDataPropertyDomainAxiom;
import org.semanticweb.owlapi.model.OWLDataPropertyExpression;
import org.semanticweb.owlapi.model.OWLDataPropertyRangeAxiom;
import org.semanticweb.owlapi.model.OWLDataRange;
import org.semanticweb.owlapi.model.OWLDataSomeValuesFrom;
import org.semanticweb.owlapi.model.OWLDataUnionOf;
import org.semanticweb.owlapi.model.OWLDatatype;
import org.semanticweb.owlapi.model.OWLDatatypeDefinitionAxiom;
import org.semanticweb.owlapi.model.OWLDatatypeRestriction;
import org.semanticweb.owlapi.model.OWLDeclarationAxiom;
import org.semanticweb.owlapi.model.OWLDifferentIndividualsAxiom;
import org.semanticweb.owlapi.model.OWLDisjointClassesAxiom;
import org.semanticweb.owlapi.model.OWLDisjointDataPropertiesAxiom;
import org.semanticweb.owlapi.model.OWLDisjointObjectPropertiesAxiom;
import org.semanticweb.owlapi.model.OWLDisjointUnionAxiom;
import org.semanticweb.owlapi.model.OWLDocumentFormat;
import org.semanticweb.owlapi.model.OWLEntity;
import org.semanticweb.owlapi.model.OWLEquivalentClassesAxiom;
import org.semanticweb.owlapi.model.OWLEquivalentDataPropertiesAxiom;
import org.semanticweb.owlapi.model.OWLEquivalentObjectPropertiesAxiom;
import org.semanticweb.owlapi.model.OWLFacetRestriction;
import org.semanticweb.owlapi.model.OWLFunctionalDataPropertyAxiom;
import org.semanticweb.owlapi.model.OWLFunctionalObjectPropertyAxiom;
import org.semanticweb.owlapi.model.OWLHasKeyAxiom;
import org.semanticweb.owlapi.model.OWLIndividual;
import org.semanticweb.owlapi.model.OWLInverseFunctionalObjectPropertyAxiom;
import org.semanticweb.owlapi.model.OWLInverseObjectPropertiesAxiom;
import org.semanticweb.owlapi.model.OWLIrreflexiveObjectPropertyAxiom;
import org.semanticweb.owlapi.model.OWLLiteral;
import org.semanticweb.owlapi.model.OWLNamedIndividual;
import org.semanticweb.owlapi.model.OWLNegativeDataPropertyAssertionAxiom;
import org.semanticweb.owlapi.model.OWLNegativeObjectPropertyAssertionAxiom;
import org.semanticweb.owlapi.model.OWLObject;
import org.semanticweb.owlapi.model.OWLObjectAllValuesFrom;
import org.semanticweb.owlapi.model.OWLObjectComplementOf;
import org.semanticweb.owlapi.model.OWLObjectExactCardinality;
import org.semanticweb.owlapi.model.OWLObjectHasSelf;
import org.semanticweb.owlapi.model.OWLObjectHasValue;
import org.semanticweb.owlapi.model.OWLObjectIntersectionOf;
import org.semanticweb.owlapi.model.OWLObjectInverseOf;
import org.semanticweb.owlapi.model.OWLObjectMaxCardinality;
import org.semanticweb.owlapi.model.OWLObjectMinCardinality;
import org.semanticweb.owlapi.model.OWLObjectOneOf;
import org.semanticweb.owlapi.model.OWLObjectProperty;
import org.semanticweb.owlapi.model.OWLObjectPropertyAssertionAxiom;
import org.semanticweb.owlapi.model.OWLObjectPropertyDomainAxiom;
import org.semanticweb.owlapi.model.OWLObjectPropertyExpression;
import org.semanticweb.owlapi.model.OWLObjectPropertyRangeAxiom;
import org.semanticweb.owlapi.model.OWLObjectSomeValuesFrom;
import org.semanticweb.owlapi.model.OWLObjectUnionOf;
import org.semanticweb.owlapi.model.OWLObjectVisitor;
import org.semanticweb.owlapi.model.OWLOntology;
import org.semanticweb.owlapi.model.OWLOntologyID;
import org.semanticweb.owlapi.model.OWLOntologyManager;
import org.semanticweb.owlapi.model.OWLProperty;
import org.semanticweb.owlapi.model.OWLPropertyExpression;
import org.semanticweb.owlapi.model.OWLReflexiveObjectPropertyAxiom;
import org.semanticweb.owlapi.model.OWLRestriction;
import org.semanticweb.owlapi.model.OWLRuntimeException;
import org.semanticweb.owlapi.model.OWLSameIndividualAxiom;
import org.semanticweb.owlapi.model.OWLSubAnnotationPropertyOfAxiom;
import org.semanticweb.owlapi.model.OWLSubClassOfAxiom;
import org.semanticweb.owlapi.model.OWLSubDataPropertyOfAxiom;
import org.semanticweb.owlapi.model.OWLSubObjectPropertyOfAxiom;
import org.semanticweb.owlapi.model.OWLSubPropertyChainOfAxiom;
import org.semanticweb.owlapi.model.OWLSymmetricObjectPropertyAxiom;
import org.semanticweb.owlapi.model.OWLTransitiveObjectPropertyAxiom;
import org.semanticweb.owlapi.model.SWRLArgument;
import org.semanticweb.owlapi.model.SWRLBuiltInAtom;
import org.semanticweb.owlapi.model.SWRLClassAtom;
import org.semanticweb.owlapi.model.SWRLDataPropertyAtom;
import org.semanticweb.owlapi.model.SWRLDataRangeAtom;
import org.semanticweb.owlapi.model.SWRLDifferentIndividualsAtom;
import org.semanticweb.owlapi.model.SWRLIndividualArgument;
import org.semanticweb.owlapi.model.SWRLLiteralArgument;
import org.semanticweb.owlapi.model.SWRLObjectPropertyAtom;
import org.semanticweb.owlapi.model.SWRLObjectVisitor;
import org.semanticweb.owlapi.model.SWRLRule;
import org.semanticweb.owlapi.model.SWRLSameIndividualAtom;
import org.semanticweb.owlapi.model.SWRLVariable;
import org.semanticweb.owlapi.util.IndividualAppearance;
import org.semanticweb.owlapi.util.OWLObjectDesharer;
import org.semanticweb.owlapi.vocab.OWLRDFVocabulary;
import org.semanticweb.owlapi.vocab.XSDVocabulary;
import org.slf4j.Logger;
import org.slf4j.LoggerFactory;

/**
 * An abstract translator that can produce an RDF graph from an OWLOntology. Subclasses must provide
 * implementations to create concrete representations of resources, triples etc.
 *
 * @param  the basic node
 * @param  a resource node
 * @param 

a predicate node * @param a literal node * @author Matthew Horridge, The University Of Manchester, Bio-Health Informatics Group * @since 2.0.0 */ public abstract class AbstractTranslator implements OWLObjectVisitor, SWRLObjectVisitor { private static final Logger LOGGER = LoggerFactory.getLogger(AbstractTranslator.class); protected final IndividualAppearance multipleOccurrences; private final OWLOntologyManager manager; protected final OWLOntology ont; protected final OWLDocumentFormat format; private final boolean useStrongTyping; private final Set currentIndividuals = createLinkedSet(); /** * Maps Objects to nodes. */ private final Map nodeMap = new ConcurrentHashMap<>(16, 0.75F, 1); private final Map expressionMap = new IdentityHashMap<>(); private final Map expressionContext = new ConcurrentHashMap<>(16, 0.75F, 1); protected RDFGraph graph = new RDFGraph(); private final OWLObjectDesharer desharer; private final Set translatedAxioms; /** * @param manager the manager * @param ontology the ontology * @param format target format * @param useStrongTyping true if strong typing should be used * @param multiple will tell whether anonymous individuals need an id or not * @param translatedAxioms translated axioms */ public AbstractTranslator(OWLOntologyManager manager, OWLOntology ontology, @Nullable OWLDocumentFormat format, boolean useStrongTyping, IndividualAppearance multiple, Set translatedAxioms) { this.ont = checkNotNull(ontology, "ontology cannot be null"); this.manager = checkNotNull(manager, "manager cannot be null"); this.useStrongTyping = useStrongTyping; multipleOccurrences = multiple; this.format = format; this.desharer = new OWLObjectDesharer(manager); this.translatedAxioms = translatedAxioms; } /** * Process the input only if it has not been seen before * * @param input input to process */ public void translate(OWLObject input) { if (input instanceof OWLAxiom) { if (translatedAxioms.add((OWLAxiom) input)) { input.accept(this); } else { LOGGER.debug("Axiom {} is being rendered twice, second pass skipped.", input); } } else { input.accept(this); } } @Override public void visit(OWLDeclarationAxiom axiom) { addSingleTripleAxiom(axiom, axiom.getEntity(), RDF_TYPE.getIRI(), axiom.getEntity().getEntityType().getIRI()); } @Override public void visit(OWLObjectInverseOf property) { translateAnonymousNode(property); addTriple(property, OWL_INVERSE_OF.getIRI(), property.getInverse()); } @Override public void visit(OWLDataIntersectionOf node) { translateAnonymousNode(node); addTriple(node, RDF_TYPE.getIRI(), RDFS_DATATYPE.getIRI()); addListTriples(node, OWL_INTERSECTION_OF.getIRI(), node.operands()); } @Override public void visit(OWLDataUnionOf node) { translateAnonymousNode(node); addTriple(node, RDF_TYPE.getIRI(), RDFS_DATATYPE.getIRI()); addListTriples(node, OWL_UNION_OF.getIRI(), node.operands()); } @Override public void visit(OWLDataComplementOf node) { translateAnonymousNode(node); addTriple(node, RDF_TYPE.getIRI(), RDFS_DATATYPE.getIRI()); addTriple(node, OWL_DATATYPE_COMPLEMENT_OF.getIRI(), node.getDataRange()); } @Override public void visit(OWLDataOneOf node) { translateAnonymousNode(node); addTriple(node, RDF_TYPE.getIRI(), RDFS_DATATYPE.getIRI()); addListTriples(node, OWL_ONE_OF.getIRI(), node.values()); } @Override public void visit(OWLDatatypeRestriction node) { translateAnonymousNode(node); addTriple(node, RDF_TYPE.getIRI(), RDFS_DATATYPE.getIRI()); addTriple(node, OWL_ON_DATA_TYPE.getIRI(), node.getDatatype()); addListTriples(node, OWL_WITH_RESTRICTIONS.getIRI(), node.facetRestrictions()); } @Override public void visit(OWLObjectIntersectionOf ce) { translateAnonymousNode(ce); addListTriples(ce, OWL_INTERSECTION_OF.getIRI(), ce.operands()); addTriple(ce, RDF_TYPE.getIRI(), OWL_CLASS.getIRI()); } @Override public void visit(OWLObjectUnionOf ce) { translateAnonymousNode(ce); addTriple(ce, RDF_TYPE.getIRI(), OWL_CLASS.getIRI()); addListTriples(ce, OWL_UNION_OF.getIRI(), ce.operands()); } @Override public void visit(OWLObjectComplementOf ce) { translateAnonymousNode(ce); addTriple(ce, RDF_TYPE.getIRI(), OWL_CLASS.getIRI()); addTriple(ce, OWL_COMPLEMENT_OF.getIRI(), ce.getOperand()); } @Override public void visit(OWLObjectOneOf ce) { translateAnonymousNode(ce); addTriple(ce, RDF_TYPE.getIRI(), OWL_CLASS.getIRI()); addListTriples(ce, OWL_ONE_OF.getIRI(), ce.individuals()); processIfAnonymous(ce.individuals(), null); } // Translation of restrictions /** * Add type triples and the owl:onProperty triples for an OWLRestriction. * * @param desc The restriction * @param property property */ private void addRestrictionCommonTriplePropertyRange(OWLRestriction desc, OWLPropertyExpression property) { translateAnonymousNode(desc); addTriple(desc, RDF_TYPE.getIRI(), OWL_RESTRICTION.getIRI()); addTriple(desc, OWL_ON_PROPERTY.getIRI(), property); } private void addRestrictionCommonTriplePropertyExpression(OWLRestriction desc, OWLPropertyExpression property) { translateAnonymousNode(desc); addTriple(desc, RDF_TYPE.getIRI(), OWL_RESTRICTION.getIRI()); addTriple(desc, OWL_ON_PROPERTY.getIRI(), property); } private void addObjectCardinalityRestrictionTriples( OWLCardinalityRestriction ce, OWLPropertyExpression p, OWLRDFVocabulary cardiPredicate) { addRestrictionCommonTriplePropertyRange(ce, p); addTriple(ce, cardiPredicate.getIRI(), toTypedConstant(ce.getCardinality())); if (ce.isQualified()) { if (ce.isObjectRestriction()) { addTriple(ce, OWL_ON_CLASS.getIRI(), ce.getFiller()); } else { addTriple(ce, OWL_ON_DATA_RANGE.getIRI(), ce.getFiller()); } } } private void addDataCardinalityRestrictionTriples(OWLCardinalityRestriction ce, OWLPropertyExpression p, OWLRDFVocabulary cardiPredicate) { addRestrictionCommonTriplePropertyRange(ce, p); addTriple(ce, cardiPredicate.getIRI(), toTypedConstant(ce.getCardinality())); if (ce.isQualified()) { if (ce.isObjectRestriction()) { addTriple(ce, OWL_ON_CLASS.getIRI(), ce.getFiller()); } else { addTriple(ce, OWL_ON_DATA_RANGE.getIRI(), ce.getFiller()); } } } @Override public void visit(OWLObjectSomeValuesFrom ce) { addRestrictionCommonTriplePropertyRange(ce, ce.getProperty()); addTriple(ce, OWL_SOME_VALUES_FROM.getIRI(), ce.getFiller()); } @Override public void visit(OWLObjectAllValuesFrom ce) { addRestrictionCommonTriplePropertyRange(ce, ce.getProperty()); addTriple(ce, OWL_ALL_VALUES_FROM.getIRI(), ce.getFiller()); } @Override public void visit(OWLObjectHasValue ce) { addRestrictionCommonTriplePropertyExpression(ce, ce.getProperty()); addTriple(ce, OWL_HAS_VALUE.getIRI(), ce.getFiller()); processIfAnonymous(ce.getFiller()); } @Override public void visit(OWLObjectHasSelf ce) { translateAnonymousNode(ce); addTriple(ce, RDF_TYPE.getIRI(), OWL_RESTRICTION.getIRI()); addTriple(ce, OWL_ON_PROPERTY.getIRI(), ce.getProperty()); addTriple(ce, OWL_HAS_SELF.getIRI(), manager.getOWLDataFactory().getOWLLiteral(true)); } @Override public void visit(OWLObjectMinCardinality ce) { if (ce.isQualified()) { addObjectCardinalityRestrictionTriples(ce, ce.getProperty(), OWL_MIN_QUALIFIED_CARDINALITY); } else { addObjectCardinalityRestrictionTriples(ce, ce.getProperty(), OWL_MIN_CARDINALITY); } } @Override public void visit(OWLObjectMaxCardinality ce) { if (ce.isQualified()) { addObjectCardinalityRestrictionTriples(ce, ce.getProperty(), OWL_MAX_QUALIFIED_CARDINALITY); } else { addObjectCardinalityRestrictionTriples(ce, ce.getProperty(), OWL_MAX_CARDINALITY); } } @Override public void visit(OWLObjectExactCardinality ce) { if (ce.isQualified()) { addObjectCardinalityRestrictionTriples(ce, ce.getProperty(), OWL_QUALIFIED_CARDINALITY); } else { addObjectCardinalityRestrictionTriples(ce, ce.getProperty(), OWL_CARDINALITY); } } @Override public void visit(OWLDataSomeValuesFrom ce) { addRestrictionCommonTriplePropertyRange(ce, ce.getProperty()); addTriple(ce, OWL_SOME_VALUES_FROM.getIRI(), ce.getFiller()); } @Override public void visit(OWLDataAllValuesFrom ce) { addRestrictionCommonTriplePropertyRange(ce, ce.getProperty()); addTriple(ce, OWL_ALL_VALUES_FROM.getIRI(), ce.getFiller()); } @Override public void visit(OWLDataHasValue ce) { addRestrictionCommonTriplePropertyExpression(ce, ce.getProperty()); addTriple(ce, OWL_HAS_VALUE.getIRI(), ce.getFiller()); } @Override public void visit(OWLDataMinCardinality ce) { if (ce.isQualified()) { addDataCardinalityRestrictionTriples(ce, ce.getProperty(), OWL_MIN_QUALIFIED_CARDINALITY); } else { addDataCardinalityRestrictionTriples(ce, ce.getProperty(), OWL_MIN_CARDINALITY); } } @Override public void visit(OWLDataMaxCardinality ce) { if (ce.isQualified()) { addDataCardinalityRestrictionTriples(ce, ce.getProperty(), OWL_MAX_QUALIFIED_CARDINALITY); } else { addDataCardinalityRestrictionTriples(ce, ce.getProperty(), OWL_MAX_CARDINALITY); } } @Override public void visit(OWLDataExactCardinality ce) { if (ce.isQualified()) { addDataCardinalityRestrictionTriples(ce, ce.getProperty(), OWL_QUALIFIED_CARDINALITY); } else { addDataCardinalityRestrictionTriples(ce, ce.getProperty(), OWL_CARDINALITY); } } // Axioms @Override public void visit(OWLSubClassOfAxiom axiom) { addSingleTripleAxiom(axiom, axiom.getSubClass(), RDFS_SUBCLASS_OF.getIRI(), axiom.getSuperClass()); } @Override public void visit(OWLEquivalentClassesAxiom axiom) { if (axiom.classExpressions().count() == 2) { addPairwise(axiom, axiom.classExpressions(), OWL_EQUIVALENT_CLASS.getIRI()); } else { axiom.splitToAnnotatedPairs().stream().sorted().forEach(ax -> ax.accept(this)); processIfNotAnonymous(axiom.getOperandsAsList().stream() .filter(OWLClassExpression::isNamed).map(OWLClassExpression::asOWLClass)); } } @Override public void visit(OWLDisjointClassesAxiom axiom) { if (axiom.classExpressions().count() == 2) { addPairwise(axiom, axiom.classExpressions(), OWL_DISJOINT_WITH.getIRI()); } else { translateAnonymousNode(axiom); addTriple(axiom, RDF_TYPE.getIRI(), OWL_ALL_DISJOINT_CLASSES.getIRI()); addListTriples(axiom, OWL_MEMBERS.getIRI(), axiom.classExpressions()); translateAnnotations(axiom); } } @Override public void visit(OWLDisjointUnionAxiom axiom) { addSingleTripleAxiom(axiom, axiom.getOWLClass(), OWL_DISJOINT_UNION_OF.getIRI(), axiom.classExpressions()); } @Override public void visit(OWLSubObjectPropertyOfAxiom axiom) { addSingleTripleAxiom(axiom, axiom.getSubProperty(), RDFS_SUB_PROPERTY_OF.getIRI(), axiom.getSuperProperty()); } @Override public void visit(OWLSubPropertyChainOfAxiom axiom) { addSingleTripleAxiom(axiom, axiom.getSuperProperty(), OWL_PROPERTY_CHAIN_AXIOM.getIRI(), axiom.getPropertyChain().stream()); } @Override public void visit(OWLEquivalentObjectPropertiesAxiom axiom) { if (axiom.properties().count() == 2) { addPairwise(axiom, axiom.properties(), OWL_EQUIVALENT_PROPERTY.getIRI()); } else { axiom.splitToAnnotatedPairs().stream().sorted().forEach(ax -> ax.accept(this)); processIfNotAnonymous( axiom.getOperandsAsList().stream().filter(OWLObjectPropertyExpression::isNamed) .map(OWLObjectPropertyExpression::asOWLObjectProperty)); } } @Override public void visit(OWLDisjointObjectPropertiesAxiom axiom) { if (axiom.properties().count() == 2) { addPairwise(axiom, axiom.properties(), OWL_PROPERTY_DISJOINT_WITH.getIRI()); } else { translateAnonymousNode(axiom); translateAnnotations(axiom); addTriple(axiom, RDF_TYPE.getIRI(), OWL_ALL_DISJOINT_PROPERTIES.getIRI()); addListTriples(axiom, OWL_MEMBERS.getIRI(), axiom.properties()); } } @Override public void visit(OWLObjectPropertyDomainAxiom axiom) { addSingleTripleAxiom(axiom, axiom.getProperty(), RDFS_DOMAIN.getIRI(), axiom.getDomain()); } @Override public void visit(OWLObjectPropertyRangeAxiom axiom) { addSingleTripleAxiom(axiom, axiom.getProperty(), RDFS_RANGE.getIRI(), axiom.getRange()); } @Override public void visit(OWLInverseObjectPropertiesAxiom axiom) { addSingleTripleAxiom(axiom, axiom.getFirstProperty(), OWL_INVERSE_OF.getIRI(), axiom.getSecondProperty()); } @Override public void visit(OWLFunctionalObjectPropertyAxiom axiom) { addSingleTripleAxiom(axiom, axiom.getProperty(), RDF_TYPE.getIRI(), OWL_FUNCTIONAL_PROPERTY.getIRI()); } @Override public void visit(OWLInverseFunctionalObjectPropertyAxiom axiom) { addSingleTripleAxiom(axiom, axiom.getProperty(), RDF_TYPE.getIRI(), OWL_INVERSE_FUNCTIONAL_PROPERTY.getIRI()); } @Override public void visit(OWLReflexiveObjectPropertyAxiom axiom) { addSingleTripleAxiom(axiom, axiom.getProperty(), RDF_TYPE.getIRI(), OWL_REFLEXIVE_PROPERTY.getIRI()); } @Override public void visit(OWLIrreflexiveObjectPropertyAxiom axiom) { addSingleTripleAxiom(axiom, axiom.getProperty(), RDF_TYPE.getIRI(), OWL_IRREFLEXIVE_PROPERTY.getIRI()); } @Override public void visit(OWLSymmetricObjectPropertyAxiom axiom) { addSingleTripleAxiom(axiom, axiom.getProperty(), RDF_TYPE.getIRI(), OWL_SYMMETRIC_PROPERTY.getIRI()); } @Override public void visit(OWLAsymmetricObjectPropertyAxiom axiom) { addSingleTripleAxiom(axiom, axiom.getProperty(), RDF_TYPE.getIRI(), OWL_ASYMMETRIC_PROPERTY.getIRI()); } @Override public void visit(OWLTransitiveObjectPropertyAxiom axiom) { addSingleTripleAxiom(axiom, axiom.getProperty(), RDF_TYPE.getIRI(), OWL_TRANSITIVE_PROPERTY.getIRI()); } @Override public void visit(OWLSubDataPropertyOfAxiom axiom) { addSingleTripleAxiom(axiom, axiom.getSubProperty(), RDFS_SUB_PROPERTY_OF.getIRI(), axiom.getSuperProperty()); } @Override public void visit(OWLEquivalentDataPropertiesAxiom axiom) { if (axiom.properties().count() == 2) { addPairwise(axiom, axiom.properties(), OWL_EQUIVALENT_PROPERTY.getIRI()); } else { axiom.splitToAnnotatedPairs().stream().sorted().forEach(ax -> ax.accept(this)); processIfNotAnonymous( axiom.getOperandsAsList().stream().filter(OWLDataPropertyExpression::isNamed) .map(OWLDataPropertyExpression::asOWLDataProperty)); } } @Override public void visit(OWLDisjointDataPropertiesAxiom axiom) { if (axiom.properties().count() == 2) { addPairwise(axiom, axiom.properties(), OWL_PROPERTY_DISJOINT_WITH.getIRI()); } else { translateAnonymousNode(axiom); translateAnnotations(axiom); addTriple(axiom, RDF_TYPE.getIRI(), OWL_ALL_DISJOINT_PROPERTIES.getIRI()); addListTriples(axiom, OWL_MEMBERS.getIRI(), axiom.properties()); } } @Override public void visit(OWLDataPropertyDomainAxiom axiom) { addSingleTripleAxiom(axiom, axiom.getProperty(), RDFS_DOMAIN.getIRI(), axiom.getDomain()); } @Override public void visit(OWLDataPropertyRangeAxiom axiom) { addSingleTripleAxiom(axiom, axiom.getProperty(), RDFS_RANGE.getIRI(), axiom.getRange()); } @Override public void visit(OWLFunctionalDataPropertyAxiom axiom) { addSingleTripleAxiom(axiom, axiom.getProperty(), RDF_TYPE.getIRI(), OWL_FUNCTIONAL_PROPERTY.getIRI()); } @Override public void visit(OWLDatatypeDefinitionAxiom axiom) { addSingleTripleAxiom(axiom, axiom.getDatatype(), OWL_EQUIVALENT_CLASS.getIRI(), axiom.getDataRange()); } @Override public void visit(OWLHasKeyAxiom axiom) { addSingleTripleAxiom(axiom, axiom.getClassExpression(), OWL_HAS_KEY.getIRI(), axiom.propertyExpressions()); } @Override public void visit(OWLSameIndividualAxiom axiom) { axiom.splitToAnnotatedPairs() .forEach(a -> addSingleTripleAxiom(a, a.getIndividualsAsList().get(0), OWL_SAME_AS.getIRI(), a.getIndividualsAsList().get(1))); processIfAnonymous(axiom.individuals(), axiom); processIfNotAnonymous(axiom.getIndividualsAsList().stream().filter(OWLIndividual::isNamed) .map(OWLIndividual::asOWLNamedIndividual)); } @Override public void visit(OWLDifferentIndividualsAxiom axiom) { if (axiom.getIndividualsAsList().size() == 2) { addPairwise(axiom, axiom.individuals(), OWL_DIFFERENT_FROM.getIRI()); } else { translateAnonymousNode(axiom); addTriple(axiom, RDF_TYPE.getIRI(), OWL_ALL_DIFFERENT.getIRI()); addListTriples(axiom, OWL_DISTINCT_MEMBERS.getIRI(), axiom.individuals()); translateAnnotations(axiom); processIfAnonymous(axiom.individuals(), axiom); } } @Override public void visit(OWLClassAssertionAxiom axiom) { axiom.getIndividual().accept(this); addSingleTripleAxiom(axiom, axiom.getIndividual(), RDF_TYPE.getIRI(), axiom.getClassExpression()); processIfAnonymous(axiom.getIndividual(), axiom); } @Override public void visit(OWLObjectPropertyAssertionAxiom axiom) { OWLObjectPropertyAssertionAxiom simplified = axiom.getSimplified(); addSingleTripleAxiom(simplified, simplified.getSubject(), simplified.getProperty(), simplified.getObject()); processIfAnonymous(simplified.getObject(), axiom); processIfAnonymous(simplified.getSubject(), axiom); } @Override public void visit(OWLNegativeObjectPropertyAssertionAxiom axiom) { translateAnonymousNode(axiom); addTriple(axiom, RDF_TYPE.getIRI(), OWL_NEGATIVE_PROPERTY_ASSERTION.getIRI()); addTriple(axiom, OWL_SOURCE_INDIVIDUAL.getIRI(), axiom.getSubject()); addTriple(axiom, OWL_ASSERTION_PROPERTY.getIRI(), axiom.getProperty()); addTriple(axiom, OWL_TARGET_INDIVIDUAL.getIRI(), axiom.getObject()); translateAnnotations(axiom); processIfAnonymous(axiom.getSubject(), axiom); processIfAnonymous(axiom.getObject(), axiom); } @Override public void visit(OWLDataPropertyAssertionAxiom axiom) { addSingleTripleAxiom(axiom, axiom.getSubject(), axiom.getProperty(), axiom.getObject()); } @Override public void visit(OWLNegativeDataPropertyAssertionAxiom axiom) { translateAnonymousNode(axiom); addTriple(axiom, RDF_TYPE.getIRI(), OWL_NEGATIVE_PROPERTY_ASSERTION.getIRI()); addTriple(axiom, OWL_SOURCE_INDIVIDUAL.getIRI(), axiom.getSubject()); addTriple(axiom, OWL_ASSERTION_PROPERTY.getIRI(), axiom.getProperty()); addTriple(axiom, OWL_TARGET_VALUE.getIRI(), axiom.getObject()); translateAnnotations(axiom); processIfAnonymous(axiom.getSubject(), axiom); } @Override public void visit(OWLAnnotationAssertionAxiom axiom) { addSingleTripleAxiom(axiom, axiom.getSubject(), axiom.getProperty(), axiom.getValue()); if (axiom.getValue() instanceof OWLAnonymousIndividual) { processIfAnonymous((OWLAnonymousIndividual) axiom.getValue(), axiom); } } @Override public void visit(OWLSubAnnotationPropertyOfAxiom axiom) { addSingleTripleAxiom(axiom, axiom.getSubProperty(), RDFS_SUB_PROPERTY_OF.getIRI(), axiom.getSuperProperty()); } @Override public void visit(OWLAnnotationPropertyDomainAxiom axiom) { addSingleTripleAxiom(axiom, axiom.getProperty(), RDFS_DOMAIN.getIRI(), axiom.getDomain()); } @Override public void visit(OWLAnnotationPropertyRangeAxiom axiom) { addSingleTripleAxiom(axiom, axiom.getProperty(), RDFS_RANGE.getIRI(), axiom.getRange()); } protected N putHasIRI(T i, Function f) { N n = nodeMap.get(i); if (n != null) { return n; } n = getResourceNode(f.apply(i)); nodeMap.put(i, n); return n; } protected void putLiteral(OWLLiteral i) { if (expressionMap.containsKey(i)) { return; } expressionMap.put(i, getLiteralNode(i)); } protected void putProperty(OWLProperty p) { if (nodeMap.containsKey(p)) { return; } nodeMap.put(p, getPredicateNode(p.getIRI())); } @Override public void visit(OWLClass ce) { putHasIRI(ce, x -> x.getIRI()); addStrongTyping(ce); } @Override public void visit(OWLDatatype node) { putHasIRI(node, x -> x.getIRI()); addStrongTyping(node); } @Override public void visit(OWLFacetRestriction node) { translateAnonymousNode(node); addTriple(node, node.getFacet().getIRI(), node.getFacetValue()); } @Override public void visit(IRI iri) { putHasIRI(iri, x -> x); } @Override public void visit(OWLLiteral node) { putLiteral(node); } @Override public void visit(OWLDataProperty property) { putProperty(property); addStrongTyping(property); } @Override public void visit(OWLObjectProperty property) { putProperty(property); addStrongTyping(property); } @Override public void visit(OWLAnnotationProperty property) { putProperty(property); addStrongTyping(property); } @Override public void visit(OWLNamedIndividual individual) { putHasIRI(individual, x -> x.getIRI()); addStrongTyping(individual); } @Override public void visit(OWLAnonymousIndividual individual) { translateAnonymousNode(individual); } @Override public void visit(OWLOntology ontology) { Optional ontologyIRI = ontology.getOntologyID().getOntologyIRI(); if (ontologyIRI.isPresent()) { putHasIRI(ontology, x -> x.getOntologyID().getOntologyIRI().get()); } else { translateAnonymousNode(ontology); } addTriple(ontology, RDF_TYPE.getIRI(), OWL_ONTOLOGY.getIRI()); addVersionIRIToOntologyHeader(ontology); addImportsDeclarationsToOntologyHeader(ontology); addAnnotationsToOntologyHeader(ontology); graph.setOntology(getMappedNode(ontology)); } private void addVersionIRIToOntologyHeader(OWLOntology ontology) { OWLOntologyID ontID = ontology.getOntologyID(); if (ontID.getVersionIRI().isPresent()) { addTriple(ontology, OWL_VERSION_IRI.getIRI(), ontID.getVersionIRI().get()); } } private void addImportsDeclarationsToOntologyHeader(OWLOntology ontology) { ontology.importsDeclarations() .forEach(decl -> addTriple(ontology, OWL_IMPORTS.getIRI(), decl.getIRI())); } private void addAnnotationsToOntologyHeader(OWLOntology ontology) { ontology.annotations().forEach(a -> translateAnnotation(ontology, a)); } @Override public void visit(SWRLRule rule) { translateAnonymousNode(rule); translateAnnotations(rule); addTriple(rule, RDF_TYPE.getIRI(), IMP.getIRI()); addTriple(rule, BODY.getIRI(), rule.body(), ATOM_LIST.getIRI()); addTriple(rule, HEAD.getIRI(), rule.head(), ATOM_LIST.getIRI()); } @Override public void visit(SWRLClassAtom node) { translateAnonymousNode(node); addTriple(node, RDF_TYPE.getIRI(), CLASS_ATOM.getIRI()); node.getPredicate().accept(this); addTriple(node, CLASS_PREDICATE.getIRI(), node.getPredicate()); node.getArgument().accept((SWRLObjectVisitor) this); addTriple(node, ARGUMENT_1.getIRI(), node.getArgument()); } @Override public void visit(SWRLDataRangeAtom node) { translateAnonymousNode(node); addTriple(node, RDF_TYPE.getIRI(), DATA_RANGE_ATOM.getIRI()); node.getPredicate().accept(this); addTriple(node, DATA_RANGE.getIRI(), node.getPredicate()); node.getArgument().accept((SWRLObjectVisitor) this); addTriple(node, ARGUMENT_1.getIRI(), node.getArgument()); } @Override public void visit(SWRLObjectPropertyAtom node) { translateAnonymousNode(node); addTriple(node, RDF_TYPE.getIRI(), INDIVIDUAL_PROPERTY_ATOM.getIRI()); node.getPredicate().accept(this); addTriple(node, PROPERTY_PREDICATE.getIRI(), node.getPredicate()); node.getFirstArgument().accept((SWRLObjectVisitor) this); addTriple(node, ARGUMENT_1.getIRI(), node.getFirstArgument()); node.getSecondArgument().accept((SWRLObjectVisitor) this); addTriple(node, ARGUMENT_2.getIRI(), node.getSecondArgument()); } @Override public void visit(SWRLDataPropertyAtom node) { translateAnonymousNode(node); addTriple(node, RDF_TYPE.getIRI(), DATAVALUED_PROPERTY_ATOM.getIRI()); node.getPredicate().accept(this); addTriple(node, PROPERTY_PREDICATE.getIRI(), node.getPredicate()); node.getFirstArgument().accept((SWRLObjectVisitor) this); addTriple(node, ARGUMENT_1.getIRI(), node.getFirstArgument()); node.getSecondArgument().accept((SWRLObjectVisitor) this); addTriple(node, ARGUMENT_2.getIRI(), node.getSecondArgument()); } @Override public void visit(SWRLBuiltInAtom node) { translateAnonymousNode(node); addTriple(node, RDF_TYPE.getIRI(), BUILT_IN_ATOM.getIRI()); addTriple(node, BUILT_IN.getIRI(), node.getPredicate()); addTriple(getResourceNode(node.getPredicate()), getPredicateNode(RDF_TYPE.getIRI()), getResourceNode(BUILT_IN_CLASS.getIRI())); addTriple(getNode(node), getPredicateNode(ARGUMENTS.getIRI()), translateList(new ArrayList<>(node.getArguments()))); } @Override public void visit(SWRLDifferentIndividualsAtom node) { translateAnonymousNode(node); addTriple(node, RDF_TYPE.getIRI(), DIFFERENT_INDIVIDUALS_ATOM.getIRI()); node.getFirstArgument().accept((SWRLObjectVisitor) this); addTriple(node, ARGUMENT_1.getIRI(), node.getFirstArgument()); node.getSecondArgument().accept((SWRLObjectVisitor) this); addTriple(node, ARGUMENT_2.getIRI(), node.getSecondArgument()); } @Override public void visit(SWRLSameIndividualAtom node) { translateAnonymousNode(node); addTriple(node, RDF_TYPE.getIRI(), SAME_INDIVIDUAL_ATOM.getIRI()); node.getFirstArgument().accept((SWRLObjectVisitor) this); addTriple(node, ARGUMENT_1.getIRI(), node.getFirstArgument()); node.getSecondArgument().accept((SWRLObjectVisitor) this); addTriple(node, ARGUMENT_2.getIRI(), node.getSecondArgument()); } @Override public void visit(SWRLVariable node) { putHasIRI(node, x -> x.getIRI()); if (!ont.containsIndividualInSignature(node.getIRI())) { addTriple(node, RDF_TYPE.getIRI(), VARIABLE.getIRI()); } } protected void putSWRLEntity(SWRLArgument i, OWLObject o) { if (nodeMap.containsKey(i)) { return; } o.accept(this); nodeMap.put(i, getMappedNode(o)); } @Override public void visit(SWRLIndividualArgument node) { putSWRLEntity(node, node.getIndividual()); } @Override public void visit(SWRLLiteralArgument node) { putSWRLEntity(node, node.getLiteral()); } // Methods to add triples private void addSingleTripleAxiom(OWLAxiom ax, OWLObject subject, IRI pred, OWLObject obj) { addSingleTripleAxiomRPN(ax, getNode(subject), getPredicateNode(pred), getNode(obj, subject, pred)); } private void addSingleTripleAxiom(OWLAxiom ax, OWLObject subject, IRI pred, IRI obj) { addSingleTripleAxiomRPN(ax, getNode(subject), getPredicateNode(pred), getResourceNode(obj)); } private void addSingleTripleAxiom(OWLAxiom ax, OWLObject subj, IRI pred, Stream obj) { addSingleTripleAxiomRPN(ax, getNode(subj), getPredicateNode(pred), translateList(asList(obj))); } private void addSingleTripleAxiom(OWLAxiom ax, OWLObject subj, OWLObject pred, OWLObject obj) { addSingleTripleAxiomRPN(ax, getNode(subj), getNode(pred), getNode(obj)); } /** * Adds the representation of an axiom to the RDF graph where the axiom has a SINGLE MAIN TRIPLE * (specified by the subject, predicate, object parameters). The triple specified by the * subject, predicate and object parameters will be added to the graph. If the axiom has any * annotations on it then extra triples will be added. These will consist of three triples, that * "reify" (not in the RDF sense) the specified triple using the OWL 2 annotation vocabulary: * owl:annotatedSource, owl:annotatedProperty, owl:annotatedTarget, and other triples to encode * the annotations. * * @param ax The axiom that the triple specified as subject, pred, obj represents. * @param subject The subject of the triple representing the axiom * @param predicate The predicate of the triple representing the axiom * @param object The object of the triple representing the axiom */ private void addSingleTripleAxiomRPN(OWLAxiom ax, R subject, P predicate, N object) { // Base triple addTriple(subject, predicate, object); if (!ax.isAnnotated()) { return; } // The axiom has annotations and we therefore need to reify the axiom in // order to add the annotations translateAnonymousNode(ax); addTriple(getNode(ax), getPredicateNode(RDF_TYPE.getIRI()), getResourceNode(OWL_AXIOM.getIRI())); addTriple(getNode(ax), getPredicateNode(OWL_ANNOTATED_SOURCE.getIRI()), subject); addTriple(getNode(ax), getPredicateNode(OWL_ANNOTATED_PROPERTY.getIRI()), predicate); addTriple(getNode(ax), getPredicateNode(OWL_ANNOTATED_TARGET.getIRI()), object); translateAnnotations(ax); } private void translateAnnotations(OWLAxiom ax) { translateAnonymousNode(ax); ax.annotations().forEach(a -> translateAnnotation(ax, a)); } /** * Translates an annotation on a given subject. This method implements the TANN(ann, y) * translation in the specifications. * * @param subject The subject of the annotation * @param annotation The annotation */ private void translateAnnotation(OWLObject subject, OWLAnnotation annotation) { // We first add the base triple addTriple(subject, annotation.getProperty().getIRI(), annotation.getValue()); annotation.getProperty().accept(this); // if the annotation has a blank node as subject, add the triples here if (annotation.getValue() instanceof OWLAnonymousIndividual) { OWLAnonymousIndividual ind = (OWLAnonymousIndividual) annotation.getValue(); translateAnonymousNode(ind); processIfAnonymous(ind); } // If the annotation doesn't have annotations on it then we're done if (annotation.annotations().count() == 0) { return; } // The annotation has annotations on it so we need to reify the // annotation // The main node is the annotation, it is typed as an annotation translateAnonymousNode(annotation); addTriple(annotation, RDF_TYPE.getIRI(), OWL_ANNOTATION.getIRI()); addTriple(annotation, OWL_ANNOTATED_SOURCE.getIRI(), subject); addTriple(annotation, OWL_ANNOTATED_PROPERTY.getIRI(), annotation.getProperty().getIRI()); addTriple(annotation, OWL_ANNOTATED_TARGET.getIRI(), annotation.getValue()); annotation.annotations().forEach(a -> translateAnnotation(annotation, a)); } @Override public void visit(OWLAnnotation node) { throw new OWLRuntimeException( "The translator should not be used directly on instances of OWLAnnotation because an annotation cannot be translated without a subject."); } private N translateAnonymousNode(OWLObject object) { N anonymousNode = getAnonymousNode(object); if (object.isAnonymousExpression()) { expressionMap.put(object, anonymousNode); } else { nodeMap.put(object, anonymousNode); } return anonymousNode; } /** * @param object that has already been mapped * @param type needed * @return mapped node, or null if the node is absent */ @SuppressWarnings("unchecked") @Nullable public T getMappedNode(OWLObject object) { return (T) expressionMap.getOrDefault(object, nodeMap.get(object)); } /** * @param subject subject * @param pred predicate * @param object object */ public void addTriple(R subject, IRI pred, IRI object) { addTriple(subject, getPredicateNode(pred), getResourceNode(object)); } /** * @param subject subject * @param pred predicate * @param object object */ public void addTriple(R subject, IRI pred, OWLObject object) { addTriple(subject, getPredicateNode(pred), getNode(object)); } /** * Gets a resource that has a IRI. * * @param iri The IRI of the resource * @return The resource with the specified IRI */ protected abstract R getResourceNode(IRI iri); protected abstract P getPredicateNode(IRI iri); /** * Gets an anonymous resource. * * @param key A key for the resource. For a given key identity, the resources that are returned * should be equal and have the same hashcode. * @return The resource */ protected abstract R getAnonymousNode(Object key); protected abstract L getLiteralNode(OWLLiteral literal); protected abstract void addTriple(R subject, P pred, N object); private O getNode(OWLObject obj) { O node = getMappedNode(obj); if (node == null) { obj.accept(this); node = getMappedNode(obj); if (node == null) { throw new IllegalStateException("Node is null. Attempting to get node for " + obj); } } return node; } private O getNode(OWLObject obj, OWLObject s, IRI p) { if (obj.isAnonymousExpression()) { OWLObject[] context = expressionContext.get(obj); if (context == null) { context = new OWLObject[] {s, p, obj}; expressionContext.put(obj, context); return getNode(obj); } if (context[0].equals(s) && context[1].equals(p)) { // An identical axiom triple has been translated earlier, the same node should // be used. // This happens only if two axioms are identical except for annotations and they // both translate to one single triple. return getNode(context[2]); } else { context = new OWLObject[] {s, p, obj}; expressionContext.put(obj, context); return getNode(obj); } } return getNode(obj); } private R translateList(List list) { return translateList(list, RDF_LIST.getIRI()); } private R translateList(List list, IRI listType) { if (list.isEmpty()) { return getResourceNode(RDF_NIL.getIRI()); } R main = getResourceNode(RDF_NIL.getIRI()); int listSize = list.size() - 1; for (int i = listSize; i >= 0; i--) { R anonNode = getAnonymousNode(list.subList(i, listSize)); addTriple(anonNode, getPredicateNode(RDF_TYPE.getIRI()), getResourceNode(listType)); OWLObject obj = list.get(i); addTriple(anonNode, getPredicateNode(RDF_FIRST.getIRI()), getNode(obj)); addTriple(anonNode, getPredicateNode(RDF_REST.getIRI()), main); main = anonNode; } return main; } private void addTriple(OWLObject subject, IRI pred, IRI object) { addTriple(getNode(subject), getPredicateNode(pred), getResourceNode(object)); } private void addTriple(OWLObject subject, IRI pred, OWLObject object) { addTriple(getNode(subject), getPredicateNode(pred), getNode(object)); } private void addListTriples(OWLObject subject, IRI pred, Stream objects) { addTriple(getNode(subject), getPredicateNode(pred), translateList(asList(objects.sorted()))); } private void addTriple(OWLObject subject, IRI pred, Stream objects, IRI listType) { addTriple(getNode(subject), getPredicateNode(pred), translateList(asList(objects), listType)); } private OWLLiteral toTypedConstant(int i) { return manager.getOWLDataFactory().getOWLLiteral(Integer.toString(i), manager .getOWLDataFactory().getOWLDatatype(XSDVocabulary.NON_NEGATIVE_INTEGER.getIRI())); } private void processIfAnonymous(Stream inds, @Nullable OWLAxiom root) { inds.sorted().forEach(i -> processIfAnonymous(i, root)); } private void processIfNotAnonymous(Stream inds) { inds.forEach(graph::addRootIRIs); } private void processIfAnonymous(OWLIndividual ind, @Nullable OWLAxiom root) { process(ind, x -> !Objects.equals(x, root)); } protected void process(OWLIndividual ind, Predicate include) { if (!currentIndividuals.contains(ind)) { currentIndividuals.add(ind); if (ind.isAnonymous()) { ont.axioms(ind).filter(include).map(desharer::deshareObject).sorted() .forEach(this::translate); ont.annotationAssertionAxioms(ind.asOWLAnonymousIndividual()).filter(include) .map(desharer::deshareObject).sorted().forEach(this::translate); } currentIndividuals.remove(ind); } } private void processIfAnonymous(OWLIndividual ind) { process(ind, x -> true); } private void addPairwise(OWLAxiom axiom, Stream objects, IRI iri) { List objectList = asList(objects.sorted()); for (int i = 0; i < objectList.size(); i++) { for (int j = i; j < objectList.size(); j++) { if (i != j) { addSingleTripleAxiom(axiom, objectList.get(i), iri, objectList.get(j)); } } } } /** * Adds triples to strong type an entity. Triples are only added if the useStrongTyping flag is * set to {@code true} and the entity is not a built in entity. * * @param entity The entity for which strong typing triples should be added. */ private void addStrongTyping(OWLEntity entity) { if (!useStrongTyping) { return; } if (!OWLDocumentFormat.isMissingType(entity, ont)) { return; } addTriple(entity, RDF_TYPE.getIRI(), entity.getEntityType().getIRI()); } /** * @return the graph */ public RDFGraph getGraph() { return graph; } /** * Clear the graph. */ public void reset() { graph = new RDFGraph(); } }





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