Example #1
0
  /** Returns true if d1 is a subclass of d2. */
  public boolean isSubClassOf(OWLDescription d1, OWLDescription d2) throws OWLException {
    checkStatus();
    StringWriter sw = new StringWriter();
    sw.write(
        "<asks xmlns=\"http://dl.kr.org/dig/lang\" xmlns:xsi=\"http://www.w3.org/2001/XMLSchema-instance\" xsi:schemaLocation=\"http://dl.kr.org/dig/lang dig.xsd\">");

    sw.write("<subsumes id=\"q\">");
    /* Add the rendered description here */
    renderer.reset();
    d2.accept(renderer);
    sw.write(renderer.result());

    renderer.reset();
    d1.accept(renderer);
    sw.write(renderer.result());
    sw.write("</subsumes>");
    sw.write("</asks>");

    StringWriter response = new StringWriter();
    try {
      digReasoner.request(new StringReader(sw.toString()), response);
    } catch (Exception e) {
      throw new OWLException(e.getMessage());
    }

    uk.ac.man.cs.img.dig.helper.Response serverResponse =
        new uk.ac.man.cs.img.dig.helper.Response(response.toString());

    org.w3c.dom.Element r = serverResponse.extractResponse("q");
    return (r.getTagName().equals("true"));
  }
 public void rebuild(OWLEquivalentClassesAxiom axiom) {
   for (OWLDescription desc : axiom.getDescriptions()) {
     desc.accept(this);
   }
   Set<OWLDescription> equivClasses = this.getRelevantDescriptionsAsSet(0);
   this.rebuiltAxioms.add(this.factory.getOWLEquivalentClassesAxiom(equivClasses));
 }
Example #3
0
    public Component getTableCellRendererComponent(
        JTable table, Object value, boolean isSelected, boolean hasFocus, int row, int column) {
      try {
        // managing colors
        if (isSelected) {
          this.setBackground(table.getSelectionBackground());
          this.setForeground(table.getSelectionForeground());
        } else {
          this.setBackground(table.getSelectionForeground());
          this.setForeground(Color.BLACK);
        }

        OWLDescription desc = (OWLDescription) value;
        desc.accept(myVisitor);
        String str = myVisitor.result();
        myVisitor.reset();

        this.setText(str);
        // System.out.println( this.getText() );
      } catch (Exception e) {
        e.printStackTrace();
      }

      return this;
    }
Example #4
0
  private void renderClass(OWLOntology ontology, OWLClass clazz) throws OWLException {
    if (!definedURIs.contains(clazz.getURI())) {
      pw.println(" (defprimconcept " + shortForm(clazz) + ")");
      definedURIs.add(clazz.getURI());
    }
    /* This is a bit of a hack... */
    if (shortForm(clazz).equals("|owl:Thing|") && !doneThing) {
      pw.println(" ;; Thing == TOP ");
      pw.println(" (equal_c " + shortForm(clazz) + " :top)");
      doneThing = true;
    }

    if (shortForm(clazz).equals("|owl:Nothing|")) {
      pw.println(" ;; Nothing == BOTTOM ");
      pw.println(" (equal_c " + shortForm(clazz) + " :bottom)");
    }

    for (Iterator it = clazz.getEquivalentClasses(ontology).iterator(); it.hasNext(); ) {
      OWLDescription eq = (OWLDescription) it.next();
      pw.print(" (equal_c " + shortForm(clazz));
      visitor.reset();
      eq.accept(visitor);
      pw.print("  " + visitor.result());
      pw.println(" )");
    }

    for (Iterator it = clazz.getSuperClasses(ontology).iterator(); it.hasNext(); ) {
      OWLDescription eq = (OWLDescription) it.next();
      pw.print(" (implies_c " + shortForm(clazz));
      visitor.reset();
      eq.accept(visitor);
      pw.print("  " + visitor.result());
      pw.println(" )");
    }

    for (Iterator it = clazz.getEnumerations(ontology).iterator(); it.hasNext(); ) {
      OWLDescription eq = (OWLDescription) it.next();
      pw.print(" (equal_c " + shortForm(clazz));
      visitor.reset();
      eq.accept(visitor);
      pw.print("  " + visitor.result());
      pw.println(" )");
    }
    pw.println();
  }
 public void rebuild(OWLDisjointUnionAxiom axiom) {
   axiom.getOWLClass().accept(this);
   OWLClass equivClass = (OWLClass) this.getRelevantDescription();
   for (OWLDescription desc : axiom.getDescriptions()) {
     desc.accept(this);
   }
   Set<OWLDescription> disjointUnionClasses = this.getRelevantDescriptionsAsSet(0);
   this.rebuiltAxioms.add(this.factory.getOWLDisjointUnionAxiom(equivClass, disjointUnionClasses));
 }
 // DONE
 @Override
 public void visit(OWLObjectUnionOf desc) {
   int reduceTo = this.rebuiltObjects.size();
   for (OWLDescription operand : desc.getOperands()) {
     operand.accept(this);
   }
   HashSet<OWLDescription> ds = this.getRelevantDescriptionsAsSet(reduceTo);
   this.rebuiltObjects.add(this.factory.getOWLObjectUnionOf(ds));
 }
Example #7
0
  public ClassExpTable(
      AxiomIndexer indexer,
      ConcisePlainVisitor visitor,
      HashedCounts classExpCounts,
      Hashtable classExpDepths) {
    this.myIndexer = indexer;
    String[] colNames = {"Class Expression", "#Occurences", "Depth", "Score"};

    Object[][] data = new Object[classExpCounts.keySet().size()][4];

    int i = 0;
    for (Iterator it = classExpCounts.keySet().iterator(); it.hasNext(); ) {
      OWLDescription desc = (OWLDescription) it.next();
      if (desc == null) System.out.println("description is null at " + i);
      Integer count = new Integer(classExpCounts.getCount(desc));
      Integer depth = (Integer) classExpDepths.get(desc);
      try {
        if (depth == null) {
          System.out.println(" depth is null at " + i);
          desc.accept(visitor);
          String str = visitor.result();
          System.out.println("        [" + str + "]");
          visitor.reset();
        }
      } catch (Exception e) {
        e.printStackTrace();
      }

      data[i][0] = desc;
      data[i][1] = count;
      data[i][2] = depth;
      data[i][3] = new Double(Math.pow(count.intValue(), (depth.intValue() + 1)));
      i++;
    }
    myDataModel = new ClassExpTableModel(colNames, data);
    myManipModel = new TableSorter(myDataModel);
    myTable = new JTable(myManipModel);
    myManipModel.setTableHeader(myTable.getTableHeader());

    /*
    for ( int vColIndex = 0; vColIndex < 3; vColIndex++ )
    {
    	TableColumn col = myTable.getColumnModel().getColumn(vColIndex);
    	col.setHeaderRenderer(new RichHeaderRenderer());
    }
    */

    myTable.setDefaultRenderer(OWLObjectImpl.class, new ClassExpRenderer(visitor));

    setupUI();

    this.addWindowListener(this);
    this.addComponentListener(this);
    myTable.addMouseListener(this);
    this.setSize(300, 600);
    this.setVisible(true);
  }
Example #8
0
  /** Returns all the instances of the given class. */
  public Set instancesOf(OWLDescription d1) throws OWLException {
    Set result = new HashSet();

    try {
      checkStatus();
      StringWriter sw = new StringWriter();
      sw.write(
          "<asks xmlns=\"http://dl.kr.org/dig/lang\" xmlns:xsi=\"http://www.w3.org/2001/XMLSchema-instance\" xsi:schemaLocation=\"http://dl.kr.org/dig/lang dig.xsd\">");

      sw.write("<instances id=\"q\">");
      /* Add the rendered description here */
      renderer.reset();
      d1.accept(renderer);
      sw.write(renderer.result());
      sw.write("</instances>");
      sw.write("</asks>");

      StringWriter response = new StringWriter();
      try {
        digReasoner.request(new StringReader(sw.toString()), response);
      } catch (Exception e) {
        throw new OWLException(e.getMessage());
      }

      uk.ac.man.cs.img.dig.helper.Response serverResponse =
          new uk.ac.man.cs.img.dig.helper.Response(response.toString());

      org.w3c.dom.Element r = serverResponse.extractResponse("q");

      List l = serverResponse.extractIndividuals(r);
      /* For some reason, RACER is returning duplicates */
      java.util.Set seen = new java.util.HashSet();
      for (int j = 0; j < l.size(); j++) {
        String name = (String) l.get(j);
        if (!seen.contains(name)) {
          /* As with the class, this is a little tricky. The
           * reasoner may return individuals that aren't
           * *in* the ontology it's working with, but are
           * defined elsewhere.*/
          OWLIndividual i = ontology.getOWLDataFactory().getOWLIndividual(new URI(name));
          // OWLIndividual i = ontology.getIndividual( new URI( name ) );
          result.add(i);
          seen.add(name);
        }
      }
    } catch (ExpressivenessOutOfScopeException ex) {
      throw new OWLException(ex.getMessage());
    } catch (Exception ex) {
      // System.out.println( ex.getMessage() );
      throw new OWLException(ex.getMessage());
    }
    return result;
  }
  @Override
  public void visit(OWLSubClassAxiom owlSubClassAxiom) {
    // get the complex description out of the axiom
    List<OWLDescription> descriptions =
        new ArrayList<OWLDescription>(owlSubClassAxiom.getDescriptions());

    for (OWLDescription description : descriptions) {
      // visit the description and record replacment
      description.accept(descriptionVisitor);
    }

    // construct new Axiom
    OWLDescription subReplace =
        descriptionVisitor.getReplacements().get(owlSubClassAxiom.getSubClass());
    OWLDescription superReplace =
        descriptionVisitor.getReplacements().get(owlSubClassAxiom.getSuperClass());

    if (subReplace == null) {
      subReplace = owlSubClassAxiom.getSubClass();
    }
    if (superReplace == null) {
      superReplace = owlSubClassAxiom.getSuperClass();
    }

    OWLSubClassAxiom replacementAxiom =
        owlDataFactory.getOWLSubClassAxiom(subReplace, superReplace);

    // create the changeevents that have to be performed on the ontology
    try {
      List<OWLAxiomChange> replaceEvent =
          OWLUtils.createReplaceAxiomEvents(owlOntology, owlSubClassAxiom, replacementAxiom);
      axiomChanges.addAll(replaceEvent);

    } catch (OWLOntologyChangeException e) {
      e
          .printStackTrace(); // To change body of catch statement use File | Settings | File
                              // Templates.
    }

    // clear the description visitor
    descriptionVisitor.clear();

    super.visit(owlSubClassAxiom);
  }
 public void visit(OWLObjectUnionOf owlOr) {
   try {
     // We can't do "nested" arg lists, so translate all operands
     // and put the pointers into a set first, then create the intersection
     Set<ClassPointer> operandPointers = new HashSet<ClassPointer>();
     for (OWLDescription desc : owlOr.getOperands()) {
       desc.accept(this);
       operandPointers.add(getLastClassPointer());
     }
     faCTPlusPlus.initArgList();
     for (ClassPointer operandPointer : operandPointers) {
       faCTPlusPlus.addArg(operandPointer);
     }
     faCTPlusPlus.closeArgList();
     lastClassPointer = faCTPlusPlus.getConceptOr();
   } catch (Exception e) {
     throw new FaCTPlusPlusRuntimeException(e);
   }
 }
Example #11
0
  private Set getHierarchy(String queryTag, OWLDescription d) throws OWLException {
    StringWriter sw = new StringWriter();
    Set result = new HashSet();
    sw.write(
        "<asks xmlns=\"http://dl.kr.org/dig/lang\" xmlns:xsi=\"http://www.w3.org/2001/XMLSchema-instance\" xsi:schemaLocation=\"http://dl.kr.org/dig/lang dig.xsd\">");

    sw.write("<" + queryTag + " id=\"q\">");
    /* Add the rendered description here */
    renderer.reset();
    d.accept(renderer);
    sw.write(renderer.result());
    sw.write("</" + queryTag + ">");
    sw.write("</asks>");

    StringWriter response = new StringWriter();
    try {
      digReasoner.request(new StringReader(sw.toString()), response);
    } catch (Exception e) {
      throw new OWLException(e.getMessage());
    }

    uk.ac.man.cs.img.dig.helper.Response serverResponse =
        new uk.ac.man.cs.img.dig.helper.Response(response.toString());

    org.w3c.dom.Element r = serverResponse.extractResponse("q");

    List syns = serverResponse.extractSynonymSets(r);
    for (Iterator it = syns.iterator(); it.hasNext(); ) {
      Set innerSet = new HashSet();
      List names = (List) it.next();
      for (Iterator nameIt = names.iterator(); nameIt.hasNext(); ) {
        uk.ac.man.cs.img.dig.helper.Response.Concept c =
            ((uk.ac.man.cs.img.dig.helper.Response.Concept) nameIt.next());
        OWLClass clazz = conceptToClass(c);
        if (clazz != null) {
          innerSet.add(clazz);
        }
      }
      result.add(innerSet);
    }
    return result;
  }
Example #12
0
  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();
  }
Example #13
0
  private void renderIndividual(OWLOntology ontology, OWLIndividual ind) throws OWLException {
    /* If the individual is anonymous and has any incoming
     * properties, then we do not wish to show it here -- it will
     * be rendered during the rendering of the thing that points
     * to it. */
    // 	if (ind.isAnonymous()) {
    // 	    Map m = ind.getIncomingObjectPropertyValues();
    // 	    if ( !m.isEmpty() ) {
    // 		return;
    // 	    }
    // 	}
    // 	if ( ind.isAnonymous() ) {
    // 	    pw.print(" Individual(" );
    // 	} else {

    if (!definedURIs.contains(ind.getURI())) {
      pw.println(" (defindividual " + shortForm(ind) + ")");
      definedURIs.add(ind.getURI());
    }

    //	}

    if (ind.getTypes(ontology).isEmpty()
        && ind.getObjectPropertyValues(ontology).keySet().isEmpty()
        && ind.getDataPropertyValues(ontology).keySet().isEmpty()) {
      //	    pw.println( ")");
    } else {
      for (Iterator it = ind.getTypes(ontology).iterator(); it.hasNext(); ) {
        pw.print(" (instance " + shortForm(ind));
        OWLDescription eq = (OWLDescription) it.next();
        visitor.reset();
        eq.accept(visitor);
        pw.print(" " + visitor.result());
        pw.println(")");
      }
      /* Worry about this later.... */

      Map propertyValues = ind.getObjectPropertyValues(ontology);
      //	    System.out.println("ZZ: " + ind);
      for (Iterator it = propertyValues.keySet().iterator(); it.hasNext(); ) {
        OWLObjectProperty prop = (OWLObjectProperty) it.next();
        Set vals = (Set) propertyValues.get(prop);
        for (Iterator valIt = vals.iterator(); valIt.hasNext(); ) {
          OWLIndividual oi = (OWLIndividual) valIt.next();
          visitor.reset();
          oi.accept(visitor);
          pw.println(
              " (related " + shortForm(ind) + " " + shortForm(prop) + " " + visitor.result() + ")");
        }
      }
      Map dataValues = ind.getDataPropertyValues(ontology);
      //	    System.out.println("ZZ: " + ind);
      for (Iterator it = dataValues.keySet().iterator(); it.hasNext(); ) {
        pw.println();
        OWLDataProperty prop = (OWLDataProperty) it.next();
        Set vals = (Set) dataValues.get(prop);
        for (Iterator valIt = vals.iterator(); valIt.hasNext(); ) {
          //		    System.out.println("QQ: " + ((OWLIndividual) valIt.next()));
          OWLDataValue dtv = (OWLDataValue) valIt.next();
          visitor.reset();
          dtv.accept(visitor);
          pw.print(";;_DataTypeValue  value(" + shortForm(prop) + " " + visitor.result() + ")");
          if (valIt.hasNext()) {
            pw.println();
          }
        }
        // 		if (it.hasNext()) {
        // 		    pw.println();
        // 		}
      }
    }
    pw.println();
  }
 /**
  * A convenience method that translates an <code>OWLDescription</code> to the FaCT++
  * representation of the description.
  *
  * @param description The description to be translated.
  * @return The corresponding FaCT++ representation of the description.
  */
 public ClassPointer translate(OWLDescription description) throws OWLException {
   description.accept(this);
   return getLastClassPointer();
 }
  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());
    }
  }