/** * Example the conclusions graph for introduction of restrictions which require a comprehension * rewrite and declare new (anon) classes for those restrictions. */ public void comprehensionAxioms(Model premises, Model conclusions) { // Comprehend all restriction declarations and note them in a map Map<Resource, Resource> comprehension = new HashMap<>(); StmtIterator ri = conclusions.listStatements(null, RDF.type, OWL.Restriction); while (ri.hasNext()) { Resource restriction = ri.nextStatement().getSubject(); StmtIterator pi = restriction.listProperties(OWL.onProperty); while (pi.hasNext()) { Resource prop = (Resource) pi.nextStatement().getObject(); StmtIterator vi = restriction.listProperties(); while (vi.hasNext()) { Statement rs = vi.nextStatement(); if (!rs.getPredicate().equals(OWL.onProperty)) { // Have a restriction on(prop) of type rs in the conclusions // So assert a premise that such a restriction could exisit Resource comp = premises .createResource() .addProperty(RDF.type, OWL.Restriction) .addProperty(OWL.onProperty, prop) .addProperty(rs.getPredicate(), rs.getObject()); comprehension.put(restriction, comp); } } } } // Comprehend any intersectionOf lists. Introduce anon class which has the form // of the intersection expression. // Rewrite queries of the form (X intersectionOf Y) to the form // (X equivalentClass ?CC) (?CC intersectionOf Y) StmtIterator ii = conclusions.listStatements(null, OWL.intersectionOf, (RDFNode) null); List<Statement> intersections = new ArrayList<>(); while (ii.hasNext()) { intersections.add(ii.nextStatement()); } for (Statement is : intersections) { // Declare in the premises that such an intersection exists Resource comp = premises .createResource() .addProperty(RDF.type, OWL.Class) .addProperty( OWL.intersectionOf, mapList(premises, (Resource) is.getObject(), comprehension)); // Rewrite the conclusions to be a test for equivalence between the class being // queried and the comprehended interesection conclusions.remove(is); conclusions.add(is.getSubject(), OWL.equivalentClass, comp); } // Comprehend any oneOf lists StmtIterator io = conclusions.listStatements(null, OWL.oneOf, (RDFNode) null); while (io.hasNext()) { Statement s = io.nextStatement(); Resource comp = premises.createResource().addProperty(OWL.oneOf, s.getObject()); } }
/** Return a list of all tests of the given type, according to the current filters */ public List<Resource> findTestsOfType(Resource testType) { ArrayList<Resource> result = new ArrayList<>(); StmtIterator si = testDefinitions.listStatements(null, RDF.type, testType); while (si.hasNext()) { Resource test = si.nextStatement().getSubject(); boolean accept = true; // Check test status Literal status = (Literal) test.getProperty(RDFTest.status).getObject(); if (approvedOnly) { accept = status.getString().equals(STATUS_FLAGS[0]); } else { accept = false; for (String STATUS_FLAG : STATUS_FLAGS) { if (status.getString().equals(STATUS_FLAG)) { accept = true; break; } } } // Check for blocked tests for (String BLOCKED_TEST : BLOCKED_TESTS) { if (BLOCKED_TEST.equals(test.toString())) { accept = false; } } // End of filter tests if (accept) { result.add(test); } } return result; }
public static void main(String args[]) { OntModel m = ModelFactory.createOntologyModel(); OntDocumentManager dm = m.getDocumentManager(); dm.addAltEntry( "http://www.eswc2006.org/technologies/ontology", "file:" + JENA + "src/examples/resources/eswc-2006-09-21.rdf"); m.read("http://www.eswc2006.org/technologies/ontology"); // create an empty model Model model = ModelFactory.createDefaultModel(); // create the resource Resource johnSmith = model.createResource(personURI); // add the property johnSmith.addProperty(VCARD.FN, fullName); johnSmith.addProperty( VCARD.N, model.createResource().addProperty(VCARD.Given, "jon").addProperty(VCARD.Family, "Smit")); // list the statements in the Model StmtIterator iter = model.listStatements(); // print out the predicate, subject and object of each statement while (iter.hasNext()) { Statement stmt = iter.nextStatement(); // get next statement Resource subject = stmt.getSubject(); // get the subject Property predicate = stmt.getPredicate(); // get the predicate RDFNode object = stmt.getObject(); // get the object System.out.print(subject.toString()); System.out.print(" " + predicate.toString() + " "); if (object instanceof Resource) { System.out.print(object.toString()); } else { // object is a literal System.out.print(" \"" + object.toString() + "\""); } System.out.println(" ."); } }