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// Portions Copyright (c) 2006 - 2008, Clark & Parsia, LLC.
// 
// Clark & Parsia, LLC parts of this source code are available under the terms
// of the Affero General Public License v3.
//
// Please see LICENSE.txt for full license terms, including the availability of
// proprietary exceptions.
// Questions, comments, or requests for clarification: [email protected]
//
// ---
// Portions Copyright (c) 2003 Ron Alford, Mike Grove, Bijan Parsia, Evren Sirin
// Alford, Grove, Parsia, Sirin parts of this source code are available under
// the terms of the MIT License.
//
// The MIT License
//
// Permission is hereby granted, free of charge, to any person obtaining a copy
// of this software and associated documentation files (the "Software"), to
// deal in the Software without restriction, including without limitation the
// rights to use, copy, modify, merge, publish, distribute, sublicense, and/or
// sell copies of the Software, and to permit persons to whom the Software is
// furnished to do so, subject to the following conditions:
//
// The above copyright notice and this permission notice shall be included in
// all copies or substantial portions of the Software.
//
// THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
// IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
// FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
// AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
// LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING
// FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS
// IN THE SOFTWARE.

package org.mindswap.pellet.jena.graph.loader;

import static org.mindswap.pellet.jena.graph.loader.SimpleProperty.ANTI_SYM;
import static org.mindswap.pellet.jena.graph.loader.SimpleProperty.CARDINALITY;
import static org.mindswap.pellet.jena.graph.loader.SimpleProperty.DISJOINT;
import static org.mindswap.pellet.jena.graph.loader.SimpleProperty.IRREFLEXIVE;
import static org.mindswap.pellet.jena.graph.loader.SimpleProperty.SELF;

import java.util.ArrayList;
import java.util.EnumSet;
import java.util.HashMap;
import java.util.HashSet;
import java.util.Iterator;
import java.util.List;
import java.util.Map;
import java.util.Set;
import java.util.logging.Level;
import java.util.logging.Logger;

import org.mindswap.pellet.KnowledgeBase;
import org.mindswap.pellet.PelletOptions;
import org.mindswap.pellet.PropertyType;
import org.mindswap.pellet.Role;
import org.mindswap.pellet.exceptions.InternalReasonerException;
import org.mindswap.pellet.exceptions.UnsupportedFeatureException;
import org.mindswap.pellet.jena.BuiltinTerm;
import org.mindswap.pellet.jena.JenaUtils;
import org.mindswap.pellet.jena.vocabulary.OWL2;
import org.mindswap.pellet.jena.vocabulary.SWRL;
import org.mindswap.pellet.utils.ATermUtils;
import org.mindswap.pellet.utils.AnnotationClasses;
import org.mindswap.pellet.utils.Bool;
import org.mindswap.pellet.utils.QNameProvider;
import org.mindswap.pellet.utils.SetUtils;
import org.mindswap.pellet.utils.Timer;
import org.mindswap.pellet.utils.progress.ProgressMonitor;
import org.mindswap.pellet.utils.progress.SilentProgressMonitor;

import aterm.ATerm;
import aterm.ATermAppl;
import aterm.ATermList;

import com.clarkparsia.pellet.rules.model.AtomDConstant;
import com.clarkparsia.pellet.rules.model.AtomDObject;
import com.clarkparsia.pellet.rules.model.AtomDVariable;
import com.clarkparsia.pellet.rules.model.AtomIConstant;
import com.clarkparsia.pellet.rules.model.AtomIObject;
import com.clarkparsia.pellet.rules.model.AtomIVariable;
import com.clarkparsia.pellet.rules.model.BuiltInAtom;
import com.clarkparsia.pellet.rules.model.ClassAtom;
import com.clarkparsia.pellet.rules.model.DataRangeAtom;
import com.clarkparsia.pellet.rules.model.DatavaluedPropertyAtom;
import com.clarkparsia.pellet.rules.model.DifferentIndividualsAtom;
import com.clarkparsia.pellet.rules.model.IndividualPropertyAtom;
import com.clarkparsia.pellet.rules.model.Rule;
import com.clarkparsia.pellet.rules.model.RuleAtom;
import com.clarkparsia.pellet.rules.model.SameIndividualAtom;
import com.clarkparsia.pellet.vocabulary.BuiltinNamespace;
import com.hp.hpl.jena.graph.Factory;
import com.hp.hpl.jena.graph.Graph;
import com.hp.hpl.jena.graph.Node;
import com.hp.hpl.jena.graph.Triple;
import com.hp.hpl.jena.rdf.model.Property;
import com.hp.hpl.jena.util.iterator.ClosableIterator;
import com.hp.hpl.jena.vocabulary.OWL;
import com.hp.hpl.jena.vocabulary.RDF;
import com.hp.hpl.jena.vocabulary.RDFS;

/**
 * 

* Title: *

*

* Description: *

*

* Copyright: Copyright (c) 2008 *

*

* Company: Clark & Parsia, LLC. *

* * @author Evren Sirin */ public class DefaultGraphLoader implements GraphLoader { public static final Logger log = Logger .getLogger( DefaultGraphLoader.class .getName() ); protected static final Node[] TBOX_TYPES; protected static final Node[] TBOX_PREDICATES; static { ArrayList predicates = new ArrayList(); ArrayList types = new ArrayList(); for( BuiltinTerm builtinTerm : BuiltinTerm.values() ) { if( builtinTerm.isABox() || builtinTerm.isSyntax() ) { continue; } if( builtinTerm.isPredicate() ) { predicates.add( builtinTerm.getNode() ); } else { types.add( builtinTerm.getNode() ); } } TBOX_PREDICATES = predicates.toArray( new Node[predicates.size()] ); TBOX_TYPES = types.toArray( new Node[types.size()] ); } private static final EnumSet OWL_MEMBERS_TYPES = EnumSet .of( BuiltinTerm.OWL_AllDifferent, BuiltinTerm.OWL2_AllDisjointClasses, BuiltinTerm.OWL2_AllDisjointProperties ); private static final Graph EMPTY_GRAPH = Factory.createGraphMem(); public static QNameProvider qnames = new QNameProvider(); protected KnowledgeBase kb; protected Graph graph; protected Map terms; protected Map lists; protected Set anonDatatypes; protected Map naryDisjoints; private Map simpleProperties; private Set unsupportedFeatures; private boolean loadABox = true; private boolean preprocessTypeTriples = true; protected ProgressMonitor monitor = new SilentProgressMonitor(); public DefaultGraphLoader() { clear(); } /** * {@inheritDoc} */ public void setProgressMonitor(ProgressMonitor monitor) { if( monitor == null ) { this.monitor = new SilentProgressMonitor(); } else { this.monitor = monitor; } } /** * {@inheritDoc} */ public void setGraph(Graph graph) { this.graph = graph; } /** * {@inheritDoc} */ public Graph getGraph() { return graph; } /** * {@inheritDoc} */ public Set getUnpportedFeatures() { return unsupportedFeatures; } protected void addSimpleProperty(ATermAppl p, SimpleProperty why) { simpleProperties.put( p, why ); Role role = kb.getRBox().getRole( p ); role.setForceSimple( true ); } protected void addUnsupportedFeature(String msg) { if( !PelletOptions.IGNORE_UNSUPPORTED_AXIOMS ) { throw new UnsupportedFeatureException( msg ); } if( unsupportedFeatures.add( msg ) ) { log.warning( "Unsupported axiom: " + msg ); } } /** * {@inheritDoc} */ public void clear() { terms = new HashMap(); terms.put( OWL.Thing.asNode(), ATermUtils.TOP ); terms.put( OWL.Nothing.asNode(), ATermUtils.BOTTOM ); terms.put( OWL2.topDataProperty.asNode(), ATermUtils.TOP_DATA_PROPERTY ); terms.put( OWL2.bottomDataProperty.asNode(), ATermUtils.BOTTOM_DATA_PROPERTY ); terms.put( OWL2.topObjectProperty.asNode(), ATermUtils.TOP_OBJECT_PROPERTY ); terms.put( OWL2.bottomObjectProperty.asNode(), ATermUtils.BOTTOM_OBJECT_PROPERTY ); lists = new HashMap(); lists.put( RDF.nil.asNode(), ATermUtils.EMPTY_LIST ); anonDatatypes = new HashSet(); simpleProperties = new HashMap(); unsupportedFeatures = new HashSet(); naryDisjoints = new HashMap(); } private Node getObject(Node subj, Node pred) { ClosableIterator i = graph.find( subj, pred, null ); if( i.hasNext() ) { Triple triple = i.next(); i.close(); return triple.getObject(); } return null; } private boolean hasObject(Node subj, Node pred, Node obj) { return graph.contains( subj, pred, obj ); } private class RDFListIterator implements Iterator { private Node list; public RDFListIterator(Node list) { this.list = list; } public boolean hasNext() { return !list.equals( RDF.nil.asNode() ); } public Node next() { Node first = getFirst( list ); monitor.incrementProgress(); Node rest = getRest( list ); monitor.incrementProgress(); if( first == null || rest == null ) { addUnsupportedFeature( "Invalid list structure: List " + list + " does not have a " + (first == null ? "rdf:first" : "rdf:rest") + " property. Ignoring rest of the list." ); return null; } list = rest; return first; } public void remove() { throw new UnsupportedOperationException(); } } protected Node getFirst(Node list) { return getObject( list, RDF.first.asNode() ); } protected Node getRest(Node list) { return getObject( list, RDF.rest.asNode() ); } protected ATermList createList(Node node) { if( lists.containsKey( node ) ) { return lists.get( node ); } ATermList list = createList( new RDFListIterator( node ) ); lists.put( node, list ); return list; } protected ATermList createList(RDFListIterator i) { if( !i.hasNext() ) { return ATermUtils.EMPTY_LIST; } Node node = i.next(); if( node == null ) { return ATermUtils.EMPTY_LIST; } ATermAppl first = node2term( node ); ATermList rest = createList( i ); ATermList list = ATermUtils.makeList( first, rest ); return list; } protected boolean isRestriction(Node node) { return getObject( node, OWL.onProperty.asNode() ) != null; } protected ATermAppl createRestriction(Node node) throws UnsupportedFeatureException { Node restrictionType = null; Node p = null; Node filler = null; Node qualification = null; Bool isObjectRestriction = Bool.UNKNOWN; ClosableIterator i = graph.find( node, null, null ); while( i.hasNext() ) { monitor.incrementProgress(); Triple t = i.next(); Node pred = t.getPredicate(); BuiltinTerm builtinTerm = BuiltinTerm.find( pred ); if( builtinTerm == null ) { continue; } switch ( builtinTerm ) { case OWL_someValuesFrom: case OWL_allValuesFrom: case OWL_cardinality: case OWL_minCardinality: case OWL_maxCardinality: case OWL_hasValue: case OWL2_hasSelf: case OWL2_qualifiedCardinality: case OWL2_minQualifiedCardinality: case OWL2_maxQualifiedCardinality: restrictionType = pred; filler = t.getObject(); break; case OWL_onProperty: p = t.getObject(); break; case RDF_type: if( t.getObject().equals( OWL2.SelfRestriction.asNode() ) ) { restrictionType = OWL2.hasSelf.asNode(); filler = JenaUtils.XSD_BOOLEAN_TRUE.asNode(); } break; case OWL2_onClass: isObjectRestriction = Bool.TRUE; qualification = t.getObject(); break; case OWL2_onDataRange: isObjectRestriction = Bool.FALSE; qualification = t.getObject(); break; default: break; } } i.close(); return createRestriction( restrictionType, p, filler, qualification, isObjectRestriction ); } protected ATermAppl createRestriction(Node restrictionType, Node p, Node filler, Node qualification, Bool isObjectRestriction) throws UnsupportedFeatureException { ATermAppl aTerm = ATermUtils.TOP; if( restrictionType == null || filler == null ) { addUnsupportedFeature( "Skipping invalid restriction" ); return aTerm; } ATermAppl pt = node2term( p ); if( restrictionType.equals( OWL2.hasSelf.asNode() ) ) { Object value = null; try { value = kb.getDatatypeReasoner().getValue( node2term( filler ) ); } catch (Exception e) { log.log(Level.FINE, "Invalid hasSelf value: " + filler, e ); } if( Boolean.TRUE.equals( value ) ) { aTerm = ATermUtils.makeSelf( pt ); defineObjectProperty( pt ); addSimpleProperty( pt, SELF ); } else { addUnsupportedFeature( "Invalid value for " + OWL2.hasSelf.getLocalName() + " restriction. Expecting \"true\"^^xsd:boolean but found: " + filler ); } } else if( restrictionType.equals( OWL.hasValue.asNode() ) ) { ATermAppl ot = node2term( filler ); if( filler.isLiteral() ) { defineDatatypeProperty( pt ); } else { defineObjectProperty( pt ); defineIndividual( ot ); } aTerm = ATermUtils.makeHasValue( pt, ot ); } else if( restrictionType.equals( OWL.allValuesFrom.asNode() ) ) { ATermAppl ot = node2term( filler ); if( kb.isClass( ot ) ) { defineObjectProperty( pt ); } else if( kb.isDatatype( ot ) ) { defineDatatypeProperty( pt ); } aTerm = ATermUtils.makeAllValues( pt, ot ); } else if( restrictionType.equals( OWL.someValuesFrom.asNode() ) ) { ATermAppl ot = node2term( filler ); if( kb.isClass( ot ) ) { defineObjectProperty( pt ); } else if( kb.isDatatype( ot ) ) { defineDatatypeProperty( pt ); } aTerm = ATermUtils.makeSomeValues( pt, ot ); } else if( restrictionType.equals( OWL.minCardinality.asNode() ) || restrictionType.equals( OWL.maxCardinality.asNode() ) || restrictionType.equals( OWL.cardinality.asNode() ) || restrictionType.equals( OWL2.minQualifiedCardinality.asNode() ) || restrictionType.equals( OWL2.maxQualifiedCardinality.asNode() ) || restrictionType.equals( OWL2.qualifiedCardinality.asNode() ) ) { try { ATermAppl c = null; if( isObjectRestriction.isTrue() ) { c = node2term( qualification ); defineObjectProperty( pt ); } else if( isObjectRestriction.isFalse() ) { c = node2term( qualification ); defineDatatypeProperty( pt ); } else { PropertyType propType = kb.getPropertyType( pt ); if( propType == PropertyType.OBJECT ) { c = ATermUtils.TOP; } else if( propType == PropertyType.DATATYPE ) { c = ATermUtils.TOP_LIT; } else { defineObjectProperty( pt ); c = ATermUtils.TOP; } } int cardinality = Integer.parseInt( filler.getLiteral().getLexicalForm().trim() ); if( restrictionType.equals( OWL.minCardinality.asNode() ) || restrictionType.equals( OWL2.minQualifiedCardinality.asNode() ) ) { aTerm = ATermUtils.makeMin( pt, cardinality, c ); } else if( restrictionType.equals( OWL.maxCardinality.asNode() ) || restrictionType.equals( OWL2.maxQualifiedCardinality.asNode() ) ) { aTerm = ATermUtils.makeMax( pt, cardinality, c ); } else { aTerm = ATermUtils.makeCard( pt, cardinality, c ); } addSimpleProperty( pt, CARDINALITY ); } catch( Exception ex ) { addUnsupportedFeature( "Invalid value for the owl:" + restrictionType.getLocalName() + " restriction: " + filler ); log.log( Level.WARNING, "Invalid cardinality", ex ); } } else { addUnsupportedFeature( "Ignoring invalid restriction on " + p ); } return aTerm; } /** * {@inheritDoc} */ public ATermAppl node2term(Node node) { ATermAppl aTerm = terms.get( node ); if( aTerm == null ) { boolean canCache = true; if( isRestriction( node ) ) { aTerm = createRestriction( node ); } else if( node.isBlank() ) { Triple expr = getExpression( node ); if( expr != null ) { Node exprType = expr.getPredicate(); Node exprValue = expr.getObject(); if( exprType.equals( OWL.intersectionOf.asNode() ) ) { ATermList list = createList( exprValue ); aTerm = ATermUtils.makeAnd( list ); } else if( exprType.equals( OWL.unionOf.asNode() ) ) { ATermList list = createList( exprValue ); aTerm = ATermUtils.makeOr( list ); } else if( exprType.equals( OWL.complementOf.asNode() ) || exprType.equals( OWL2.datatypeComplementOf.asNode() ) ) { ATermAppl complement = node2term( exprValue ); aTerm = ATermUtils.makeNot( complement ); } else if( exprType.equals( OWL.inverseOf.asNode() ) ) { ATermAppl inverse = node2term( exprValue ); aTerm = ATermUtils.makeInv( inverse ); } else if( exprType.equals( OWL.oneOf.asNode() ) ) { ATermList list = createList( exprValue ); ATermList result = ATermUtils.EMPTY_LIST; if( list.isEmpty() ) { aTerm = ATermUtils.BOTTOM; } else { for( ATermList l = list; !l.isEmpty(); l = l.getNext() ) { ATermAppl c = (ATermAppl) l.getFirst(); ATermAppl nominal = ATermUtils.makeValue( c ); result = result.insert( nominal ); } aTerm = ATermUtils.makeOr( result ); } } else if( exprType.equals( OWL2.onDatatype.asNode() ) ) { aTerm = parseDataRange( node, exprValue ); } else if( exprType.equals( OWL2.onDataRange.asNode() ) ) { aTerm = parseDataRangeLegacy( node, exprValue ); } else if( exprType.equals( OWL2.propertyChain.asNode() ) ) { // do nothing because we cannot return an ATermList here } else { addUnsupportedFeature( "Unexpected bnode " + node + " " + expr ); } } else { canCache = false; aTerm = JenaUtils.makeATerm( node ); } } else { aTerm = JenaUtils.makeATerm( node ); } if( canCache ) { terms.put( node, aTerm ); } } return aTerm; } protected Triple getExpression(Node node) { for( BuiltinTerm expressionPredicate : BuiltinTerm.EXPRESSION_PREDICATES ) { ClosableIterator i = graph.find( node, expressionPredicate.getNode(), null ); if( i.hasNext() ) { monitor.incrementProgress(); Triple t = i.next(); i.close(); return t; } } return null; } private ATermAppl parseDataRangeLegacy(Node s, Node definition) { if( !definition.isURI() ) { addUnsupportedFeature( "Invalid datatype definition, expected URI but found " + s ); return ATermUtils.BOTTOM_LIT; } ATermAppl baseDatatype = ATermUtils.makeTermAppl( definition.getURI() ); Property[] datatypeFacets = new Property[] { OWL2.minInclusive, OWL2.maxInclusive, OWL2.minExclusive, OWL2.maxExclusive, OWL2.totalDigits, OWL2.fractionDigits, OWL2.pattern }; List restrictions = new ArrayList(); for( Property datatypeFacet : datatypeFacets ) { Node facetValue = getObject( s, datatypeFacet.asNode() ); if( facetValue != null ) { ATermAppl restriction = ATermUtils.makeFacetRestriction( ATermUtils .makeTermAppl( datatypeFacet.getURI() ), JenaUtils.makeATerm( facetValue ) ); restrictions.add( restriction ); } } if( restrictions.isEmpty() ) { addUnsupportedFeature( "A data range is defined without XSD facet restrictions " + s ); return ATermUtils.BOTTOM_LIT; } else { return ATermUtils.makeRestrictedDatatype( baseDatatype, restrictions .toArray( new ATermAppl[restrictions.size()] ) ); } } private ATermAppl parseDataRange(Node s, Node definition) { if( !definition.isURI() ) { addUnsupportedFeature( "Invalid datatype definition, expected URI but found " + s ); return ATermUtils.BOTTOM_LIT; } ATermAppl baseDatatype = ATermUtils.makeTermAppl( definition.getURI() ); Property[] datatypeFacets = new Property[] { OWL2.minInclusive, OWL2.maxInclusive, OWL2.minExclusive, OWL2.maxExclusive, OWL2.totalDigits, OWL2.fractionDigits, OWL2.pattern }; List restrictions = new ArrayList(); Node restrictionList = getObject( s, OWL2.withRestrictions.asNode() ); RDFListIterator i = new RDFListIterator( restrictionList ); while( i.hasNext() ) { Node restrictionNode = i.next(); if( restrictionNode != null ) { for( Property datatypeFacet : datatypeFacets ) { Node facetValue = getObject( restrictionNode, datatypeFacet.asNode() ); if( facetValue != null ) { ATermAppl restriction = ATermUtils.makeFacetRestriction( ATermUtils .makeTermAppl( datatypeFacet.getURI() ), JenaUtils .makeATerm( facetValue ) ); restrictions.add( restriction ); } } } } if( restrictions.isEmpty() ) { addUnsupportedFeature( "A data range is defined without XSD facet restrictions " + s ); return ATermUtils.BOTTOM_LIT; } else { return ATermUtils.makeRestrictedDatatype( baseDatatype, restrictions .toArray( new ATermAppl[restrictions.size()] ) ); } } private void defineRule(Node node) { List head = parseAtomList( getObject( node, SWRL.head.asNode() ) ); List body = parseAtomList( getObject( node, SWRL.body.asNode() ) ); if( head == null || body == null ) { String whichPart = "head and body"; if( head != null ) { whichPart = "body"; } else if( body != null ) { whichPart = "head"; } addUnsupportedFeature( "Ignoring SWRL rule (unsupported " + whichPart + "): " + node ); return; } ATermAppl name = JenaUtils.makeATerm( node ); Rule rule = new Rule( name, head, body ); kb.addRule( rule ); } private AtomDObject createRuleDObject(Node node) { if( !node.isLiteral() ) { ATermAppl name = node2term( node ); if( !ATermUtils.isPrimitive( name ) ) { addUnsupportedFeature( "Cannot create rule data variable out of " + node ); return null; } return new AtomDVariable( name.toString() ); } else { return new AtomDConstant( node2term( node ) ); } } private AtomIObject createRuleIObject(Node node) { if( hasObject( node, RDF.type.asNode(), SWRL.Variable.asNode() ) ) { return new AtomIVariable( node.getURI() ); } else { ATermAppl term = node2term( node ); if( defineIndividual( term ) ) { return new AtomIConstant( node2term( node ) ); } else { addUnsupportedFeature( "Cannot create rule individual object for node " + node ); return null; } } } private List parseAtomList(Node atomList) { Node obj = null; List atoms = new ArrayList(); while( atomList != null && !atomList.equals( RDF.nil.asNode() ) ) { String atomType = "unsupported atom"; Node atomNode = getObject( atomList, RDF.first.asNode() ); RuleAtom atom = null; if( hasObject( atomNode, RDF.type.asNode(), SWRL.ClassAtom.asNode() ) ) { ATermAppl description = null; AtomIObject argument = null; atomType = "ClassAtom"; if( (obj = getObject( atomNode, SWRL.classPredicate.asNode() )) != null ) { description = node2term( obj ); } if( (obj = getObject( atomNode, SWRL.argument1.asNode() )) != null ) { argument = createRuleIObject( obj ); } if( description == null ) { addUnsupportedFeature( "Error on " + SWRL.classPredicate ); } else if( argument == null ) { addUnsupportedFeature( "Error on" + SWRL.argument1 ); } else { atom = new ClassAtom( description, argument ); } } else if( hasObject( atomNode, RDF.type.asNode(), SWRL.IndividualPropertyAtom.asNode() ) ) { ATermAppl pred = null; AtomIObject argument1 = null; AtomIObject argument2 = null; atomType = "IndividualPropertyAtom"; if( (obj = getObject( atomNode, SWRL.propertyPredicate.asNode() )) != null ) { pred = node2term( obj ); } if( (obj = getObject( atomNode, SWRL.argument1.asNode() )) != null ) { argument1 = createRuleIObject( obj ); } if( (obj = getObject( atomNode, SWRL.argument2.asNode() )) != null ) { argument2 = createRuleIObject( obj ); } if( pred == null || !defineObjectProperty( pred ) ) { addUnsupportedFeature( "Cannot define datatype property " + pred ); } else if( argument1 == null ) { addUnsupportedFeature( "Term not found: " + SWRL.argument1 ); } else if( argument2 == null ) { addUnsupportedFeature( "Term not found " + SWRL.argument2 ); } else { atom = new IndividualPropertyAtom( pred, argument1, argument2 ); } } else if( hasObject( atomNode, RDF.type.asNode(), SWRL.DifferentIndividualsAtom.asNode() ) ) { AtomIObject argument1 = null; AtomIObject argument2 = null; atomType = "DifferentIndividualsAtom"; if( (obj = getObject( atomNode, SWRL.argument1.asNode() )) != null ) { argument1 = createRuleIObject( obj ); } if( (obj = getObject( atomNode, SWRL.argument2.asNode() )) != null ) { argument2 = createRuleIObject( obj ); } if( argument1 == null ) { addUnsupportedFeature( "Term not found " + SWRL.argument1 ); } else if( argument2 == null ) { addUnsupportedFeature( "Term not found " + SWRL.argument2 ); } else { atom = new DifferentIndividualsAtom( argument1, argument2 ); } } else if( hasObject( atomNode, RDF.type.asNode(), SWRL.SameIndividualAtom.asNode() ) ) { AtomIObject argument1 = null; AtomIObject argument2 = null; atomType = "SameIndividualAtom"; if( (obj = getObject( atomNode, SWRL.argument1.asNode() )) != null ) { argument1 = createRuleIObject( obj ); } if( (obj = getObject( atomNode, SWRL.argument2.asNode() )) != null ) { argument2 = createRuleIObject( obj ); } if( argument1 == null ) { addUnsupportedFeature( "Term not found " + SWRL.argument1 ); } else if( argument2 == null ) { addUnsupportedFeature( "Term not found " + SWRL.argument2 ); } else { atom = new SameIndividualAtom( argument1, argument2 ); } } else if( hasObject( atomNode, RDF.type.asNode(), SWRL.DatavaluedPropertyAtom.asNode() ) ) { ATermAppl pred = null; AtomIObject argument1 = null; AtomDObject argument2 = null; atomType = "DatavaluedPropertyAtom"; if( (obj = getObject( atomNode, SWRL.propertyPredicate.asNode() )) != null ) { pred = node2term( obj ); } if( (obj = getObject( atomNode, SWRL.argument1.asNode() )) != null ) { argument1 = createRuleIObject( obj ); } if( (obj = getObject( atomNode, SWRL.argument2.asNode() )) != null ) { argument2 = createRuleDObject( obj ); } if( pred == null || !defineDatatypeProperty( pred ) ) { addUnsupportedFeature( "Cannot define datatype property " + pred ); } else if( argument1 == null ) { addUnsupportedFeature( "Term not found " + SWRL.argument1 ); } else if( argument2 == null ) { addUnsupportedFeature( "Term not found " + SWRL.argument2 ); } else { atom = new DatavaluedPropertyAtom( pred, argument1, argument2 ); } } else if( hasObject( atomNode, RDF.type.asNode(), SWRL.BuiltinAtom.asNode() ) ) { atomType = "BuiltinAtom"; Node builtInNode = null; List arguments = null; if( (obj = getObject( atomNode, SWRL.arguments.asNode() )) != null ) { arguments = parseArgumentList( obj ); } builtInNode = getObject( atomNode, SWRL.builtin.asNode() ); if( arguments == null ) { addUnsupportedFeature( "Term not found " + SWRL.arguments ); } else if( builtInNode != null && builtInNode.isURI() ) { atom = new BuiltInAtom( builtInNode.getURI(), arguments ); } } else if( hasObject( atomNode, RDF.type.asNode(), SWRL.DataRangeAtom.asNode() ) ) { atomType = "DataRangeAtom"; ATermAppl datatype = null; AtomDObject argument = null; if( (obj = getObject( atomNode, SWRL.dataRange.asNode() )) != null ) { datatype = node2term( obj ); } if( (obj = getObject( atomNode, SWRL.argument1.asNode() )) != null ) { argument = createRuleDObject( obj ); } if( datatype == null ) { addUnsupportedFeature( "Term not found " + SWRL.dataRange ); } else if( argument == null ) { addUnsupportedFeature( "Term not found " + SWRL.argument1 ); } else { atom = new DataRangeAtom( datatype, argument ); } } if( atom == null ) { addUnsupportedFeature( "Ignoring SWRL " + atomType + ": " + atomNode ); return null; } atoms.add( atom ); atomList = getObject( atomList, RDF.rest.asNode() ); } if( atomList == null ) { addUnsupportedFeature( "Not nil-terminated list in atom list! (Seen " + atoms + " )" ); return null; } return atoms; } private List parseArgumentList(Node argumentList) { List arguments = new ArrayList(); while( argumentList != null && !argumentList.equals( RDF.nil.asNode() ) ) { Node argumentNode = getObject( argumentList, RDF.first.asNode() ); if( argumentNode == null ) { addUnsupportedFeature( "Term in list not found " + RDF.first ); } else { arguments.add( createRuleDObject( argumentNode ) ); argumentList = getObject( argumentList, RDF.rest.asNode() ); } } return arguments; } private boolean addNegatedAssertion(Node stmt) { Node s = getObject( stmt, OWL2.sourceIndividual.asNode() ); if( s == null ) { addUnsupportedFeature( "Negated property value is missing owl:sourceIndividual value" ); return false; } Node p = getObject( stmt, OWL2.assertionProperty.asNode() ); if( p == null ) { addUnsupportedFeature( "Negated property value is missing owl:assertionProperty value" ); return false; } Node oi = getObject( stmt, OWL2.targetIndividual.asNode() ); Node ov = getObject( stmt, OWL2.targetValue.asNode() ); if( oi == null && ov == null ) { addUnsupportedFeature( "Negated property value is missing owl:targetIndividual or owl:targetValue value" ); return false; } if( oi != null && ov != null ) { addUnsupportedFeature( "Negated property value must not have owl:targetIndividual and owl:targetValue value" ); return false; } ATermAppl st = node2term( s ); ATermAppl pt = node2term( p ); ATermAppl ot; defineIndividual( st ); if( oi != null ) { ot = node2term( oi ); if( oi.isURI() || oi.isBlank() ) { defineObjectProperty( pt ); defineIndividual( ot ); } else { addUnsupportedFeature( "Invalid negated property target individual " + stmt ); return false; } } else { ot = node2term( ov ); if( ov.isLiteral() ) { defineDatatypeProperty( pt ); } else { addUnsupportedFeature( "Invalid negated property target value " + stmt ); return false; } } if( !kb.addNegatedPropertyValue( pt, st, ot ) ) { addUnsupportedFeature( "Skipping invalid negated property value " + stmt ); return false; } return true; } protected boolean defineClass(ATermAppl c) { if( ATermUtils.isPrimitive( c ) ) { kb.addClass( c ); return true; } else { return ATermUtils.isComplexClass( c ); } } protected boolean defineDatatype(ATermAppl dt) { if( ATermUtils.isPrimitive( dt ) ) { kb.addDatatype( dt ); return true; } else { return kb.isDatatype( dt ); } } /** * There are two properties that are used in a subPropertyOf or * equivalentProperty axiom. If one of them is defined as an Object (or * Data) Property the other should also be defined as an Object (or Data) * Property * * @param p1 * @param p2 * @return */ private boolean defineProperties(ATermAppl p1, ATermAppl p2) { PropertyType type1 = kb.getPropertyType( p1 ); PropertyType type2 = kb.getPropertyType( p2 ); if( type1 != type2 ) { if( type1 == PropertyType.UNTYPED ) { if( type2 == PropertyType.OBJECT ) { defineObjectProperty( p1 ); } else if( type2 == PropertyType.DATATYPE ) { defineDatatypeProperty( p1 ); } } else if( type2 == PropertyType.UNTYPED ) { if( type1 == PropertyType.OBJECT ) { defineObjectProperty( p2 ); } else if( type1 == PropertyType.DATATYPE ) { defineDatatypeProperty( p2 ); } } else { // addWarning("Properties " + p1 + ", " + p2 // + " are related but first is " + PropertyType.TYPES[type1] // + "Property and second is " + PropertyType.TYPES[type2]); return false; } } else if( type1 == PropertyType.UNTYPED ) { defineProperty( p1 ); defineProperty( p2 ); } return true; } protected boolean defineObjectProperty(ATermAppl c) { if( !ATermUtils.isPrimitive( c ) && !ATermUtils.isInv( c ) ) { return false; } return kb.addObjectProperty( c ); } protected boolean defineDatatypeProperty(ATermAppl c) { if( !ATermUtils.isPrimitive( c ) ) { return false; } return kb.addDatatypeProperty( c ); } private boolean defineAnnotationProperty(ATermAppl c) { if( !ATermUtils.isPrimitive( c ) ) { return false; } return kb.addAnnotationProperty( c ); } protected boolean defineProperty(ATermAppl c) { if( ATermUtils.isInv( c ) ) { kb.addObjectProperty( c.getArgument( 0 ) ); return true; } else if( !ATermUtils.isPrimitive( c ) ) { return false; } kb.addProperty( c ); return true; } protected boolean defineIndividual(ATermAppl c) { kb.addIndividual( c ); return true; } @SuppressWarnings("unused") private PropertyType guessPropertyType(ATermAppl p, Node prop) { PropertyType roleType = kb.getPropertyType( p ); if( roleType != PropertyType.UNTYPED ) { return roleType; } defineProperty( p ); Iterator i = graph.find( prop, RDF.type.asNode(), null ); while( i.hasNext() ) { Triple stmt = (Triple) i.next(); Node o = stmt.getObject(); if( o.equals( OWL.ObjectProperty.asNode() ) ) { return PropertyType.OBJECT; } else if( o.equals( OWL.DatatypeProperty.asNode() ) ) { return PropertyType.DATATYPE; } else if( o.equals( OWL.AnnotationProperty.asNode() ) ) { return PropertyType.ANNOTATION; } else if( o.equals( OWL.OntologyProperty.asNode() ) ) { return PropertyType.ANNOTATION; } } return PropertyType.UNTYPED; } /** * Process all triples with rdf:type predicate. If * {@link PelletOptions#PREPROCESS_TYPE_TRIPLES} option is true * this function is a noop. */ protected void processTypes() { if( preprocessTypeTriples ) { log.fine( "processTypes" ); if( isLoadABox() ) { processTypes( Node.ANY ); } else { for( Node type : TBOX_TYPES ) { processTypes( type ); } } } } /** * Process triples with rdf:type predicate and given object. * Type can be {@link Node.ANY} to indicate all type triples should be * processed. * * @param type * the object of rdf:type triples to be processed */ protected void processTypes(Node type) { ClosableIterator i = graph.find( null, RDF.type.asNode(), type ); while( i.hasNext() ) { Triple stmt = i.next(); processType( stmt ); } i.close(); } /** * Process a single rdf:type triple. Type triples that are part * of the OWL syntax, e.g. _:x rdf:type owl:Restriction will * not be processed since they are handled by the {@link #node2term(Node)} * function. * * @param triple * Type triple that will be processed */ protected void processType(Triple triple) { Node s = triple.getSubject(); Node o = triple.getObject(); BuiltinTerm builtinTerm = BuiltinTerm.find( o ); if( builtinTerm != null ) { if( builtinTerm.isSyntax() ) { return; } // If we have a triple _:x rdf:type owl:Class then this is a noop // that would only cache class expression for _:x. However, since // we did not complete process all type triples unqualified cardinality // restrictions would cause issues here since they require property // to be either data or object property. Therefore, we stop processing // this triple immediately before calling node2term function. if( s.isBlank() && builtinTerm.equals( BuiltinTerm.OWL_Class ) ) { return; } } monitor.incrementProgress(); ATermAppl st = node2term( s ); if( builtinTerm == null ) { if( PelletOptions.FREEZE_BUILTIN_NAMESPACES && o.isURI() ) { String nameSpace = o.getNameSpace(); if( nameSpace != null ) { BuiltinNamespace builtin = BuiltinNamespace.find( nameSpace ); if( builtin != null ) { addUnsupportedFeature( "Ignoring triple with unknown term from " + builtin + " namespace: " + triple ); return; } } } return; } switch ( builtinTerm ) { case RDF_Property: defineProperty( st ); break; case RDFS_Class: defineClass( st ); break; case RDFS_Datatype: case OWL_DataRange: if( s.isURI() ) { defineDatatype( st ); } else { anonDatatypes.add( s ); } break; case OWL_Class: defineClass( st ); break; case OWL_Thing: case OWL2_NamedIndividual: defineIndividual( st ); break; case OWL_Nothing: defineIndividual( st ); kb.addType( st, ATermUtils.BOTTOM ); break; case OWL_ObjectProperty: if( s.isURI() && !defineObjectProperty( st ) ) { addUnsupportedFeature( "Property " + st + " is defined both as an ObjectProperty and a " + kb.getPropertyType( st ) + "Property" ); } break; case OWL_DatatypeProperty: if( !defineDatatypeProperty( st ) ) { addUnsupportedFeature( "Property " + st + " is defined both as a DatatypeProperty and a " + kb.getPropertyType( st ) + "Property" ); } break; case OWL_FunctionalProperty: defineProperty( st ); kb.addFunctionalProperty( st ); addSimpleProperty( st, CARDINALITY ); break; case OWL_InverseFunctionalProperty: if( defineProperty( st ) ) { kb.addInverseFunctionalProperty( st ); addSimpleProperty( st, CARDINALITY ); } else { addUnsupportedFeature( "Ignoring InverseFunctionalProperty axiom for " + st + " (" + kb.getPropertyType( st ) + "Property)" ); } break; case OWL_TransitiveProperty: if( defineObjectProperty( st ) ) { kb.addTransitiveProperty( st ); } else { addUnsupportedFeature( "Ignoring TransitiveProperty axiom for " + st + " (" + kb.getPropertyType( st ) + "Property)" ); } break; case OWL_SymmetricProperty: if( defineObjectProperty( st ) ) { kb.addSymmetricProperty( st ); } else { addUnsupportedFeature( "Ignoring SymmetricProperty axiom for " + st + " (" + kb.getPropertyType( st ) + "Property)" ); } break; case OWL_AnnotationProperty: if( !defineAnnotationProperty( st ) ) { addUnsupportedFeature( "Property " + st + " is defined both as an AnnotationProperty and a " + kb.getPropertyType( st ) + "Property" ); } break; case OWL2_ReflexiveProperty: if( defineObjectProperty( st ) ) { kb.addReflexiveProperty( st ); } else { addUnsupportedFeature( "Ignoring ReflexiveProperty axiom for " + st + " (" + kb.getPropertyType( st ) + "Property)" ); } break; case OWL2_IrreflexiveProperty: if( defineObjectProperty( st ) ) { kb.addIrreflexiveProperty( st ); addSimpleProperty( st, IRREFLEXIVE ); } else { addUnsupportedFeature( "Ignoring IrreflexiveProperty axiom for " + st + " (" + kb.getPropertyType( st ) + "Property)" ); } break; case OWL2_AsymmetricProperty: if( defineObjectProperty( st ) ) { kb.addAsymmetricProperty( st ); addSimpleProperty( st, ANTI_SYM ); } else { addUnsupportedFeature( "Ignoring AntisymmetricProperty axiom for " + st + " (" + kb.getPropertyType( st ) + "Property)" ); } break; case OWL2_NegativePropertyAssertion: addNegatedAssertion( s ); break; case SWRL_Imp: if( PelletOptions.DL_SAFE_RULES ) { defineRule( s ); } break; case OWL_AllDifferent: case OWL2_AllDisjointClasses: case OWL2_AllDisjointProperties: naryDisjoints.put( s, builtinTerm ); break; default: throw new InternalReasonerException( "Unexpected term: " + o ); } } /** * Process all the triples in the raw graph. If * {@link PelletOptions#PREPROCESS_TYPE_TRIPLES} option is true * all rdf:type will be ignored since they have already been * processed with {@link #processTypes()} function. */ protected void processTriples() { log.fine( "processTriples" ); if( isLoadABox() ) { processTriples( Node.ANY ); } else { for( Node predicate : TBOX_PREDICATES ) { processTriples( predicate ); } } } /** * Process triples with the given predicate. Predicate can be * {@link Node.ANY} to indicate all triples should be processed. * * @param predicate * Predicate of the triples that will be processed */ protected void processTriples(Node predicate) { ClosableIterator i = graph.find( null, predicate, null ); while( i.hasNext() ) { Triple triple = i.next(); processTriple( triple ); } i.close(); } /** * Process a single triple that corresponds to an axiom (or a fact). This * means triples that are part of OWL syntax, e.g. a triple with * owl:onProperty predicate, will not be processed since they * are handled by the {@link #node2term(Node)} function. Also, if * {@link PelletOptions#PREPROCESS_TYPE_TRIPLES} option is true * any triple with rdf:type predicate will be ignored. * * @param triple * Triple to be processed. */ protected void processTriple(Triple triple) { Node p = triple.getPredicate(); Node s = triple.getSubject(); Node o = triple.getObject(); BuiltinTerm builtinTerm = BuiltinTerm.find( p ); if( builtinTerm != null ) { if( builtinTerm.isSyntax() ) { return; } if( builtinTerm.equals( BuiltinTerm.RDF_type ) ) { if( BuiltinTerm.find( o ) == null ) { if( isLoadABox() ) { ATermAppl ot = node2term( o ); if (!AnnotationClasses.contains(ot)) { defineClass( ot ); ATermAppl st = node2term( s ); defineIndividual( st ); kb.addType( st, ot ); } } } else if( !preprocessTypeTriples ) { processType( triple ); } return; } } monitor.incrementProgress(); ATermAppl st = node2term( s ); ATermAppl ot = node2term( o ); if( builtinTerm == null ) { ATermAppl pt = node2term( p ); Role role = kb.getProperty( pt ); PropertyType type = (role == null) ? PropertyType.UNTYPED : role.getType(); if( type == PropertyType.ANNOTATION ) { // Skip ontology annotations if( graph.contains( s, RDF.type.asNode(), OWL.Ontology.asNode() ) ) { return; } if( defineAnnotationProperty( pt ) ) { kb.addAnnotation( st, pt, ot ); } return; } if( PelletOptions.FREEZE_BUILTIN_NAMESPACES ) { String nameSpace = p.getNameSpace(); if( nameSpace != null ) { BuiltinNamespace builtin = BuiltinNamespace.find( nameSpace ); if( builtin != null ) { addUnsupportedFeature( "Ignoring triple with unknown property from " + builtin + " namespace: " + triple ); return; } } } if( o.isLiteral() ) { if( defineDatatypeProperty( pt ) ) { String datatypeURI = ((ATermAppl) ot.getArgument( 2 )).getName(); if( defineIndividual( st ) ) { defineDatatypeProperty( pt ); if( !datatypeURI.equals( "" ) ) { defineDatatype( ATermUtils.makeTermAppl( datatypeURI ) ); } kb.addPropertyValue( pt, st, ot ); } else if( type == PropertyType.UNTYPED ) { defineAnnotationProperty( pt ); } else { addUnsupportedFeature( "Ignoring ObjectProperty used with a class expression: " + triple ); } } else { addUnsupportedFeature( "Ignoring literal value used with ObjectProperty : " + triple ); } } else { if( !defineObjectProperty( pt ) ) { addUnsupportedFeature( "Ignoring object value used with DatatypeProperty: " + triple ); } else if( !defineIndividual( st ) ) { addUnsupportedFeature( "Ignoring class expression used in subject position: " + triple ); } else if( !defineIndividual( ot ) ) { addUnsupportedFeature( "Ignoring class expression used in object position: " + triple ); } else { kb.addPropertyValue( pt, st, ot ); } } return; } switch ( builtinTerm ) { case RDFS_subClassOf: if( !defineClass( st ) ) { addUnsupportedFeature( "Ignoring subClassOf axiom because the subject is not a class " + st + " rdfs:subClassOf " + ot ); } else if( !defineClass( ot ) ) { addUnsupportedFeature( "Ignoring subClassOf axiom because the object is not a class " + st + " rdfs:subClassOf " + ot ); } else { kb.addSubClass( st, ot ); } break; case RDFS_subPropertyOf: ATerm subProp = null; if( s.isBlank() ) { Triple expr = getExpression( s ); if( expr == null ) { addUnsupportedFeature( "Bnode in rdfs:subProperty axioms is not a valid property expression" ); } else if( expr.getPredicate().equals( OWL2.inverseOf.asNode() ) ) { if( defineObjectProperty( (ATermAppl) st.getArgument( 0 ) ) && defineObjectProperty( ot ) ) { subProp = st; } } else if( expr.getPredicate().equals( OWL2.propertyChain.asNode() ) ) { subProp = createList( expr.getObject() ); ATermList list = (ATermList) subProp; while( !list.isEmpty() ) { if( !defineObjectProperty( (ATermAppl) list.getFirst() ) ) { break; } list = list.getNext(); } if( !list.isEmpty() || !defineObjectProperty( ot ) ) { subProp = null; } } else { addUnsupportedFeature( "Bnode in rdfs:subProperty axioms is not a valid property expression" ); } } else if( defineProperties( st, ot ) ) { subProp = st; } if( subProp != null ) { kb.addSubProperty( subProp, ot ); } else { addUnsupportedFeature( "Ignoring subproperty axiom between " + st + " (" + kb.getPropertyType( st ) + "Property) and " + ot + " (" + kb.getPropertyType( ot ) + "Property)" ); } break; case RDFS_domain: if( kb.isAnnotationProperty( st ) ) { addUnsupportedFeature( "Ignoring domain axiom for AnnotationProperty " + st ); } else { defineProperty( st ); defineClass( ot ); kb.addDomain( st, ot ); } break; case RDFS_range: if( kb.isAnnotationProperty( st ) ) { addUnsupportedFeature( "Ignoring range axiom for AnnotationProperty " + st ); break; } if( kb.isDatatype( ot ) ) { defineDatatypeProperty( st ); } else if( kb.isClass( ot ) ) { defineObjectProperty( st ); } else { defineProperty( st ); } if( kb.isDatatypeProperty( st ) ) { defineDatatype( ot ); } else if( kb.isObjectProperty( st ) ) { defineClass( ot ); } kb.addRange( st, ot ); break; case OWL_intersectionOf: ATermList list = createList( o ); defineClass( st ); ATermAppl conjunction = ATermUtils.makeAnd( list ); kb.addEquivalentClass( st, conjunction ); break; case OWL_unionOf: list = createList( o ); defineClass( st ); ATermAppl disjunction = ATermUtils.makeOr( list ); kb.addEquivalentClass( st, disjunction ); break; case OWL2_disjointUnionOf: list = createList( o ); kb.addDisjointClasses( list ); defineClass( st ); disjunction = ATermUtils.makeOr( list ); kb.addEquivalentClass( st, disjunction ); break; case OWL_complementOf: if( !defineClass( st ) ) { addUnsupportedFeature( "Ignoring complementOf axiom because the subject is not a class " + st + " owl:complementOf " + ot ); } else if( !defineClass( ot ) ) { addUnsupportedFeature( "Ignoring complementOf axiom because the object is not a class " + st + " owl:complementOf " + ot ); } else { kb.addComplementClass( st, ot ); } break; case OWL_equivalentClass: if( kb.isDatatype( ot ) || anonDatatypes.contains( o ) ) { if( !defineDatatype( st ) ) { addUnsupportedFeature( "Ignoring equivalentClass axiom because the subject is not a datatype " + st + " owl:equivalentClass " + ot ); } else { kb.addDatatypeDefinition( st, ot ); } } else if( !defineClass( st ) ) { addUnsupportedFeature( "Ignoring equivalentClass axiom because the subject is not a class " + st + " owl:equivalentClass " + ot ); } else if( !defineClass( ot ) ) { addUnsupportedFeature( "Ignoring equivalentClass axiom because the object is not a class " + st + " owl:equivalentClass " + ot ); } else { kb.addEquivalentClass( st, ot ); } break; case OWL_disjointWith: if( !defineClass( st ) ) { addUnsupportedFeature( "Ignoring disjointWith axiom because the subject is not a class " + st + " owl:disjointWith " + ot ); } else if( !defineClass( ot ) ) { addUnsupportedFeature( "Ignoring disjointWith axiom because the object is not a class " + st + " owl:disjointWith " + ot ); } else { kb.addDisjointClass( st, ot ); } break; case OWL2_propertyDisjointWith: if( defineProperties( st, ot ) ) { kb.addDisjointProperty( st, ot ); addSimpleProperty( st, DISJOINT ); addSimpleProperty( ot, DISJOINT ); } else { addUnsupportedFeature( "Ignoring disjoint property axiom between " + st + " (" + kb.getPropertyType( st ) + "Property) and " + ot + " (" + kb.getPropertyType( ot ) + "Property)" ); } break; case OWL2_propertyChainAxiom: ATermAppl superProp = null; if( s.isBlank() ) { Triple expr = getExpression( s ); if( expr == null ) { addUnsupportedFeature( "Bnode in owl:propertyChainAxiom axiom is not a valid property expression" ); } else if( expr.getPredicate().equals( OWL2.inverseOf.asNode() ) ) { if( defineObjectProperty( (ATermAppl) st.getArgument( 0 ) ) ) { superProp = st; } } else { addUnsupportedFeature( "Bnode in owl:propertyChainAxiom axiom is not a valid property expression" ); } } else if( defineObjectProperty( st ) ) { superProp = st; } subProp = createList( o ); list = (ATermList) subProp; while( !list.isEmpty() ) { if( !defineObjectProperty( (ATermAppl) list.getFirst() ) ) { break; } list = list.getNext(); } if( !list.isEmpty() ) { subProp = null; } if( subProp != null && superProp != null ) { kb.addSubProperty( subProp, superProp ); } else { addUnsupportedFeature( "Ignoring property chain axiom between " + st + " (" + kb.getPropertyType( st ) + "Property) and " + ot ); } break; case OWL_equivalentProperty: if( defineProperties( st, ot ) ) { kb.addEquivalentProperty( st, ot ); } else { addUnsupportedFeature( "Ignoring equivalent property axiom between " + st + " (" + kb.getPropertyType( st ) + "Property) and " + ot + " (" + kb.getPropertyType( ot ) + "Property)" ); } break; case OWL_inverseOf: if( defineObjectProperty( st ) && defineObjectProperty( ot ) ) { kb.addInverseProperty( st, ot ); } else { addUnsupportedFeature( "Ignoring inverseOf axiom between " + st + " (" + kb.getPropertyType( st ) + "Property) and " + ot + " (" + kb.getPropertyType( ot ) + "Property)" ); } break; case OWL_sameAs: if( defineIndividual( st ) && defineIndividual( ot ) ) { kb.addSame( st, ot ); } else { addUnsupportedFeature( "Ignoring sameAs axiom between " + st + " and " + ot ); } break; case OWL_differentFrom: if( defineIndividual( st ) && defineIndividual( ot ) ) { kb.addDifferent( st, ot ); } else { addUnsupportedFeature( "Ignoring differentFrom axiom between " + st + " and " + ot ); } break; case OWL_distinctMembers: list = createList( o ); for( ATermList l = list; !l.isEmpty(); l = l.getNext() ) { ATermAppl c = (ATermAppl) l.getFirst(); defineIndividual( c ); } kb.addAllDifferent( list ); break; case OWL_members: BuiltinTerm entityType = null; if( preprocessTypeTriples ) { entityType = naryDisjoints.get( s ); } else { Node type = getObject( s, RDF.type.asNode() ); if( type != null ) { entityType = BuiltinTerm.find( type ); } } if( entityType == null ) { addUnsupportedFeature( "There is no valid rdf:type for an owl:members assertion: " + s ); } else if( !OWL_MEMBERS_TYPES.contains( entityType ) ) { addUnsupportedFeature( "The rdf:type for an owl:members assertion is not recognized: " + entityType ); } else { list = createList( o ); for( ATermList l = list; !l.isEmpty(); l = l.getNext() ) { ATermAppl c = (ATermAppl) l.getFirst(); switch ( entityType ) { case OWL_AllDifferent: defineIndividual( c ); break; case OWL2_AllDisjointClasses: defineClass( c ); break; case OWL2_AllDisjointProperties: defineProperty( c ); break; } } switch ( entityType ) { case OWL_AllDifferent: kb.addAllDifferent( list ); break; case OWL2_AllDisjointClasses: kb.addDisjointClasses( list ); break; case OWL2_AllDisjointProperties: kb.addDisjointProperties( list ); break; } } break; case OWL_oneOf: ATermList resultList = ATermUtils.EMPTY_LIST; if( kb.isDatatype( st ) ) { return; } // assert the subject is a class defineClass( st ); disjunction = null; list = createList( o ); if( o.equals( RDF.nil.asNode() ) ) { disjunction = ATermUtils.BOTTOM; } else { for( ATermList l = list; !l.isEmpty(); l = l.getNext() ) { ATermAppl c = (ATermAppl) l.getFirst(); if( PelletOptions.USE_PSEUDO_NOMINALS ) { ATermAppl nominal = ATermUtils.makeTermAppl( c.getName() + "_nominal" ); resultList = resultList.insert( nominal ); defineClass( nominal ); defineIndividual( c ); kb.addType( c, nominal ); } else { defineIndividual( c ); resultList = resultList.insert( ATermUtils.makeValue( c ) ); } } disjunction = ATermUtils.makeOr( resultList ); } kb.addEquivalentClass( st, disjunction ); break; case OWL2_hasKey: if( o.equals( RDF.nil.asNode() ) ) { return; } Set properties = new HashSet(); // assert the subject is a class defineClass( st ); list = createList( o ); for( ATermList l = list; !l.isEmpty(); l = l.getNext() ) { ATermAppl f = (ATermAppl) l.getFirst(); defineProperty( f ); properties.add( f ); } kb.addKey( st, properties ); break; case OWL2_topDataProperty: case OWL2_bottomDataProperty: case OWL2_topObjectProperty: case OWL2_bottomObjectProperty: defineIndividual( st ); kb.addPropertyValue( node2term(p), st, ot ); break; default: throw new InternalReasonerException( "Unrecognized term: " + p ); } } protected void processUntypedResources() { log.fine( "processUntypedResource" ); for( Role r : kb.getRBox().getRoles().toArray( new Role[0] ) ) { SimpleProperty why = simpleProperties.get( r.getName() ); if( why != null ) { String msg = null; if( r.isTransitive() ) { msg = "transitivity axiom"; } else if( r.hasComplexSubRole() ) { msg = "complex sub property axiom"; } if( msg != null ) { msg = "Ignoring " + msg + " due to an existing " + why + " for property " + r; addUnsupportedFeature( msg ); r.removeSubRoleChains(); } } if( r.isUntypedRole() ) { /* * Untyped roles are made object properties unless they have * datatype super or sub-roles */ boolean rangeToDatatype = false; Set roles = SetUtils.union( r.getSubRoles(), r.getSuperRoles() ); for( Role sub: roles ) { switch ( sub.getType() ) { case OBJECT: defineObjectProperty( r.getName() ); break; case DATATYPE: defineDatatypeProperty( r.getName() ); rangeToDatatype = true; break; default: continue; } } if (!rangeToDatatype) { defineObjectProperty( r.getName() ); } /* * If a typing assumption has been made, carry over to any * untyped range entity */ Set ranges = r.getRanges(); if( ranges != null ) { if( rangeToDatatype ) { for( ATermAppl range : ranges ) { if( (range.getAFun().getArity() == 0) && (!kb.isDatatype( range )) ) { defineDatatype( range ); } } } else { for( ATermAppl range : ranges ) { if( (range.getAFun().getArity() == 0) && (!kb.isClass( range )) ) { defineClass( range ); } } } } } } } public void setKB(KnowledgeBase kb) { this.kb = kb; } private void defineBuiltinProperties() { defineAnnotationProperty( node2term( RDFS.label.asNode() ) ); defineAnnotationProperty( node2term( RDFS.comment.asNode() ) ); defineAnnotationProperty( node2term( RDFS.seeAlso.asNode() ) ); defineAnnotationProperty( node2term( RDFS.isDefinedBy.asNode() ) ); defineAnnotationProperty( node2term( OWL.versionInfo.asNode() ) ); defineAnnotationProperty( node2term( OWL.backwardCompatibleWith.asNode() ) ); defineAnnotationProperty( node2term( OWL.priorVersion.asNode() ) ); defineAnnotationProperty( node2term( OWL.incompatibleWith.asNode() ) ); } /** * {@inheritDoc} */ public void load(Iterable graphs) throws UnsupportedFeatureException { Timer timer = kb.timers.startTimer( "load" ); monitor.setProgressTitle( "Loading" ); monitor.taskStarted(); graph = EMPTY_GRAPH; preprocess(); for (Graph g : graphs) { graph = g; processTypes(); } for (Graph g : graphs) { graph = g; processTriples(); } processUntypedResources(); monitor.taskFinished(); timer.stop(); } /** * {@inheritDoc} */ public void preprocess() { defineBuiltinProperties(); } public boolean isLoadABox() { return loadABox; } public void setLoadABox(boolean loadABox) { this.loadABox = loadABox; } public boolean isPreprocessTypeTriples() { return preprocessTypeTriples; } public void setPreprocessTypeTriples(boolean preprocessTypeTriples) { this.preprocessTypeTriples = preprocessTypeTriples; } }




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