Beispiel #1
0
  /**
   *
   * <!-- begin-user-doc -->
   * This method adds the {@link Edge}s, {@link Node}s, {@link Label}s and {@link Decorator} from
   * another graph to the collections maintained by this graph.
   *
   * <p>It does not attempt to resolve connections between Edges and the Nodes they reference.
   * <!-- end-user-doc -->
   *
   * @generated NOT
   */
  public void addGraph(final Graph graph, IdentifiableFilter filter) {
    IdentifiableFilterImpl _filter = (IdentifiableFilterImpl) filter;
    EMap<URI, Edge> edges = graph.getEdges();
    EMap<URI, Node> nodes = graph.getNodes();
    EMap<URI, NodeLabel> nodeLabels = graph.getNodeLabels();
    EMap<URI, Label> graphLabels = graph.getGraphLabels();

    if (filter != null) {
      _filter.filterEdges(edges);
      _filter.filterNodes(nodes);
      _filter.filterNodeLabels(nodeLabels);
      _filter.filterLabels(graphLabels);
    }

    getEdges().addAll(edges);
    getNodes().addAll(nodes);
    getNodeLabels().addAll(nodeLabels);
    getDecorators().addAll(graph.getDecorators());

    // We need to update the graph labels to the new graph
    for (final Iterator<Label> graphLabelIter = graphLabels.values().iterator();
        graphLabelIter.hasNext(); ) {
      final Label graphLabel = graphLabelIter.next();
      graphLabel.setURIOfIdentifiableToBeLabeled(getURI());
      putGraphLabel(graphLabel);
    } // for each new graph label

    getDynamicLabels().addAll(graph.getDynamicLabels());
    getUnresolvedIdentifiables().addAll(graph.getUnresolvedIdentifiables());
  } // addGraph
Beispiel #2
0
 /**
  * @see org.eclipse.stem.common.impl.IdentifiableImpl#setURI(org.eclipse.emf.common.util.URI)
  * @generated NOT
  */
 @Override
 public void setURI(URI newURI) {
   super.setURI(newURI);
   // Now go through all the graph labels and update then to reference the
   // new URI
   for (final Iterator<Label> labelIter = getGraphLabels().values().iterator();
       labelIter.hasNext(); ) {
     final Label label = labelIter.next();
     label.setURIOfIdentifiableToBeLabeled(newURI);
   } // for
 } // setURI
Beispiel #3
0
 /**
  *
  * <!-- begin-user-doc -->
  * <!-- end-user-doc -->
  *
  * @generated NOT
  */
 public void putGraphLabel(Label label) {
   getGraphLabels().put(label.getURI(), label);
   // Dynamic?
   if (label instanceof DynamicLabel) {
     // Yes
     addDynamicLabel((DynamicLabel) label);
   } // if DynamicLabel
 } // putGraphLabel
Beispiel #4
0
  /** @see org.eclipse.stem.common.impl.IdentifiableImpl#sane() */
  @Override
  public boolean sane() {
    boolean retValue = super.sane();

    // This is the number of labels that each node references
    int nodeLabelCount = 0;
    int dynamicLabelCount = 0;

    // Nodes
    if (nodes != null) {
      // Yes
      for (final Iterator<Node> nodeIter = getNodes().values().iterator();
          nodeIter.hasNext() && retValue; ) {
        final Node node = nodeIter.next();
        retValue = retValue && node.sane();
        assert retValue;

        nodeLabelCount += node.getLabels().size();

        // How many dynamic labels?
        for (final Iterator<NodeLabel> labelIter = node.getLabels().iterator();
            labelIter.hasNext(); ) {
          final Label label = labelIter.next();
          if (label instanceof DynamicLabel) {
            dynamicLabelCount++;
            retValue = false;

            // The dynamic label should be in the collection of
            // dynamic labels maintained by the graph
            for (DynamicLabel dl : getDynamicLabels()) {
              if (dl == label) {
                retValue = true;
                break;
              }
            } // for each dynamic label
            assert retValue;
          } // if DynamicLabel
          // The label should be in the collection of node labels
          retValue = retValue && getNodeLabels().containsKey(label.getURI());
          assert retValue;
        } // for each label of the node
      } // for each node
    } // if

    // Edges?
    if (edges != null) {
      // Yes
      for (final Iterator<Edge> edgeIter = getEdges().values().iterator();
          edgeIter.hasNext() && retValue; ) {
        final Edge edge = edgeIter.next();
        retValue = retValue && edge.sane();
        assert retValue;

        // Is the edge's label dynamic?
        if (edge.getLabel() instanceof DynamicLabel) {
          // Yes
          dynamicLabelCount++;
        }
      } // for each edge
    } // if

    // Node Labels?
    if (nodeLabels != null) {
      // Yes
      // The number of node labels should match the number we counted
      // above...not true for graph fragments that might have labels for
      // nodes in other (sub) graph fragments.
      // retValue = retValue && nodeLabelCount ==
      // getNodeLabels().getSize();
      // assert retValue;

      for (final Iterator<NodeLabel> labelIter = getNodeLabels().values().iterator();
          labelIter.hasNext() && retValue; ) {
        final NodeLabel nodeLabel = labelIter.next();
        retValue = retValue && nodeLabel.sane();
        assert retValue;
      } // for each node label
    } // if

    if (graphLabels != null) {
      // Yes
      for (final Iterator<Label> graphLabelIter = getGraphLabels().values().iterator();
          graphLabelIter.hasNext(); ) {
        final Label graphLabel = graphLabelIter.next();
        retValue = retValue && graphLabel.sane();
        assert retValue;

        if (graphLabel instanceof DynamicLabel) {
          dynamicLabelCount++;
        }
      }
    } // if graphLabels

    // Dynamic Labels?
    if (dynamicLabels != null) {
      // Yes
      // The number of dynamic labels should equal the count
      retValue = dynamicLabelCount == getNumDynamicLabels();
      assert retValue;

      for (final Iterator<DynamicLabel> dynamiclIter = getDynamicLabels().iterator();
          dynamiclIter.hasNext() && retValue; ) {
        final DynamicLabel dynamicLabel = dynamiclIter.next();
        retValue = retValue && dynamicLabel.sane();
        assert retValue;
      } // for each dynamic label
    } // if

    return retValue;
  } // sane