public boolean contains(OWLObjectProperty prop) { if (prop.equals(owlOntologyManager.getOWLDataFactory().getOWLThing())) { return true; } else if (prop.equals(owlOntologyManager.getOWLDataFactory().getOWLNothing())) { return true; } return owlObjectProperty2ObjectPropertyPointerMap.containsKey(prop); }
/** * Gets the property by given name, e.g. has_topping * * @param propName * @return */ public OWLObjectProperty getNamedObjectProperty(String propName) { if (objPropNameCache == null) { objPropNameCache = new HashMap<String, URI>(); for (OWLOntology ont : reasoner.getLoadedOntologies()) { for (OWLObjectProperty prop : ont.getReferencedObjectProperties()) { objPropNameCache.put(prop.toString(), prop.getURI()); } } } // search the HashMap OWLObjectProperty namedProp = null; URI uri = objPropNameCache.get(propName); if (uri != null) { namedProp = manager.getOWLDataFactory().getOWLObjectProperty(uri); } else { System.err.println("Cannot find object property: " + propName + " in loaded ontologies"); } return namedProp; }
public void visit(OWLObjectProperty owlObjectProperty) { try { lastObjectPropertyPointer = owlObjectProperty2ObjectPropertyPointerMap.get(owlObjectProperty); if (lastObjectPropertyPointer == null) { lastObjectPropertyPointer = faCTPlusPlus.getObjectProperty(owlObjectProperty.getURI().toString()); objectPropertyPointerMap.put(lastObjectPropertyPointer, owlObjectProperty); owlObjectProperty2ObjectPropertyPointerMap.put( owlObjectProperty, lastObjectPropertyPointer); } } catch (Exception e) { throw new FaCTPlusPlusRuntimeException(e); } }
private void renderObjectProperty(OWLOntology ontology, OWLObjectProperty prop) throws OWLException { // String key = "defprimrole"; if (!definedURIs.contains(prop.getURI())) { pw.println(" (defprimrole " + shortForm(prop) + ")"); definedURIs.add(prop.getURI()); } // if ( prop.isTransitive( ontology ) ) { // pw.print(" :transitive T"); // } /* ?? */ if (prop.isInverseFunctional(ontology)) { pw.print(" (functional"); pw.print(" (inv " + shortForm(prop) + ")"); pw.println(" )"); } if (!prop.getSuperProperties(ontology).isEmpty()) { // pw.print(" :supers ( "); for (Iterator it = prop.getSuperProperties(ontology).iterator(); it.hasNext(); ) { OWLObjectProperty sup = (OWLObjectProperty) it.next(); // pw.print(" ;; Super"); pw.print(" (implies_r "); pw.print(shortForm(prop)); pw.print(" "); pw.print(shortForm(sup)); pw.println(")"); } // pw.print(")"); } // pw.println(")"); if (prop.isFunctional(ontology)) { pw.print(" (functional"); pw.print(" " + shortForm(prop)); pw.println(" )"); } if (prop.isTransitive(ontology)) { pw.print(" (transitive"); pw.print(" " + shortForm(prop)); pw.println(" )"); } for (Iterator it = prop.getDomains(ontology).iterator(); it.hasNext(); ) { pw.println(" ;; Domain " + shortForm(prop)); pw.print(" (domain " + shortForm(prop) + " "); OWLDescription dom = (OWLDescription) it.next(); visitor.reset(); dom.accept(visitor); pw.println(visitor.result() + " )"); } for (Iterator it = prop.getRanges(ontology).iterator(); it.hasNext(); ) { pw.println(" ;; Range " + shortForm(prop)); pw.print(" (range " + shortForm(prop) + " "); OWLDescription dom = (OWLDescription) it.next(); visitor.reset(); dom.accept(visitor); pw.println(visitor.result() + " )"); } if (prop.isSymmetric(ontology)) { pw.println(" ;; Symmetry "); pw.println(" (equal_r " + " " + shortForm(prop) + " " + "(inv " + shortForm(prop) + " ))"); } for (Iterator it = prop.getInverses(ontology).iterator(); it.hasNext(); ) { pw.println(" ;;Inverse " + shortForm(prop)); pw.print(" (equal_r " + " " + shortForm(prop) + " " + "(inv "); OWLObjectProperty inv = (OWLObjectProperty) it.next(); visitor.reset(); inv.accept(visitor); pw.println(visitor.result() + " ))"); } pw.println(); }
private void checkExpressivity() throws OWLException { try { /* * Here, we need to look at all the expressions used anywhere within * the ontology and check their level. */ /* For each ontology, we need to check everything within it */ expressivityLevel = LITE; SwoopExpressionValidatorVisitor evv = new SwoopExpressionValidatorVisitor(this, objectRenderer); for (Iterator it = allOntologies.iterator(); it.hasNext(); ) { OWLOntology onto = (OWLOntology) it.next(); for (Iterator cit = onto.getClasses().iterator(); cit.hasNext(); ) { OWLClass clazz = (OWLClass) cit.next(); if (!clazz.getEnumerations(onto).isEmpty()) { /* We're in DL. */ expressivityLevel = expressivityLevel | DL; URI uri = clazz.getURI(); explain( DL, ONEOF, "Enumeration used: " + encodeHLink(uri.toString(), myModel.shortForm(uri))); } for (Iterator superit = clazz.getSuperClasses(onto).iterator(); superit.hasNext(); ) { /* Check the expressivity of any superclasses */ /* * Tricky bit here -- if there's an intersection used at * the top level, we're still ok for LITE. This is *not* * currently catered for, so we will get some stuff * wrong. */ OWLDescription description = (OWLDescription) superit.next(); evv.reset(); evv.setTopLevelDescription(true); try { description.accept(evv); expressivityLevel = expressivityLevel | evv.getLevel(); } catch (OWLException ex) { explain(OTHER, UNKNOWN, ex.getMessage()); expressivityLevel = OTHER; } } for (Iterator superit = clazz.getEquivalentClasses(onto).iterator(); superit.hasNext(); ) { /* Check the expressivity of any equivalences */ /* * This is tricky, as these expressions *can* be * intersections, as long as they're intersections of * Lite constructs. This is the only place that it can * happen in Lite. */ OWLDescription description = (OWLDescription) superit.next(); evv.reset(); evv.setTopLevelDescription(true); try { description.accept(evv); expressivityLevel = expressivityLevel | evv.getLevel(); } catch (OWLException ex) { explain(OTHER, UNKNOWN, ex.getMessage()); expressivityLevel = OTHER; } } } for (Iterator iit = onto.getObjectProperties().iterator(); iit.hasNext(); ) { OWLObjectProperty op = (OWLObjectProperty) iit.next(); for (Iterator dit = op.getDomains(onto).iterator(); dit.hasNext(); ) { /* Check the expressivity of any equivalences */ OWLDescription description = (OWLDescription) dit.next(); evv.reset(); try { description.accept(evv); expressivityLevel = expressivityLevel | evv.getLevel(); } catch (OWLException ex) { explain(OTHER, UNKNOWN, ex.getMessage()); expressivityLevel = OTHER; } } for (Iterator dit = op.getRanges(onto).iterator(); dit.hasNext(); ) { /* Check the expressivity of any equivalences */ OWLDescription description = (OWLDescription) dit.next(); evv.reset(); try { description.accept(evv); expressivityLevel = expressivityLevel | evv.getLevel(); } catch (OWLException ex) { explain(OTHER, UNKNOWN, ex.getMessage()); expressivityLevel = OTHER; } } } for (Iterator iit = onto.getDataProperties().iterator(); iit.hasNext(); ) { OWLDataProperty dp = (OWLDataProperty) iit.next(); for (Iterator dit = dp.getDomains(onto).iterator(); dit.hasNext(); ) { /* Check the expressivity of any equivalences */ OWLDescription description = (OWLDescription) dit.next(); evv.reset(); try { description.accept(evv); expressivityLevel = expressivityLevel | evv.getLevel(); } catch (OWLException ex) { explain(OTHER, UNKNOWN, ex.getMessage()); expressivityLevel = OTHER; } } for (Iterator dit = dp.getRanges(onto).iterator(); dit.hasNext(); ) { /* Check the expressivity of any equivalences */ OWLDataRange description = (OWLDataRange) dit.next(); evv.reset(); try { description.accept(evv); expressivityLevel = expressivityLevel | evv.getLevel(); } catch (OWLException ex) { explain(OTHER, UNKNOWN, ex.getMessage()); expressivityLevel = OTHER; } } } for (Iterator iit = onto.getIndividuals().iterator(); iit.hasNext(); ) { OWLIndividual ind = (OWLIndividual) iit.next(); for (Iterator typeit = ind.getTypes(onto).iterator(); typeit.hasNext(); ) { /* Check the expressivity of any equivalences */ OWLDescription description = (OWLDescription) typeit.next(); evv.reset(); try { description.accept(evv); expressivityLevel = expressivityLevel | evv.getLevel(); } catch (OWLException ex) { explain(OTHER, UNKNOWN, ex.getMessage()); expressivityLevel = OTHER; } } } } Set complexProperties = evv.getComplexProperties(); /* * Gather all the properties that are known to be functional or * inverse functional */ for (Iterator it = allOntologies.iterator(); it.hasNext(); ) { OWLOntology onto = (OWLOntology) it.next(); for (Iterator pit = onto.getObjectProperties().iterator(); pit.hasNext(); ) { OWLObjectProperty prop = (OWLObjectProperty) pit.next(); if (prop.isFunctional(onto) || prop.isInverseFunctional(onto)) { complexProperties.add(prop); } } } /* * We aren't doing everything yet as we still need to grab those * that have complex superproperties. */ /* * Now check to see if they've been said to be transitive, in which * case we're in FULL. */ for (Iterator pit = complexProperties.iterator(); pit.hasNext(); ) { OWLObjectProperty prop = (OWLObjectProperty) pit.next(); for (Iterator it = allOntologies.iterator(); it.hasNext(); ) { OWLOntology onto = (OWLOntology) it.next(); if (prop.isTransitive(onto)) { expressivityLevel = FULL; URI uri = prop.getURI(); explain( FULL, COMPLEXTRANSITIVE, "Complex property " + encodeHLink(uri.toString(), myModel.shortForm(uri)) + " asserted to be transitive."); } } } } catch (Exception ex) { ex.printStackTrace(); throw new OWLException(ex.getMessage()); } }