/** @generated */
 protected List<EObject> getSemanticChildrenList() {
   View viewObject = (View) getHost().getModel();
   LinkedList<EObject> result = new LinkedList<EObject>();
   List<UMLNodeDescriptor> childDescriptors =
       UMLDiagramUpdater.getDataTypeAttributes_7032SemanticChildren(viewObject);
   for (UMLNodeDescriptor d : childDescriptors) {
     result.add(d.getModelElement());
   }
   return result;
 }
 /** @generated */
 @SuppressWarnings("rawtypes")
 protected List getSemanticChildrenList() {
   View viewObject = (View) getHost().getModel();
   LinkedList<EObject> result = new LinkedList<EObject>();
   List<UMLNodeDescriptor> childDescriptors =
       UMLDiagramUpdater.getInterfaceNestedClassifierCompartment_7029SemanticChildren(viewObject);
   for (UMLNodeDescriptor d : childDescriptors) {
     result.add(d.getModelElement());
   }
   return result;
 }
 /** @generated */
 @Override
 protected List<EObject> getSemanticChildrenList() {
   View viewObject = (View) getHost().getModel();
   LinkedList<EObject> result = new LinkedList<EObject>();
   List<UMLNodeDescriptor> childDescriptors =
       CustomUMLDiagramUpdater.INSTANCE.getComponent_2002SemanticChildren(viewObject);
   for (UMLNodeDescriptor d : childDescriptors) {
     result.add(d.getModelElement());
   }
   return result;
 }
 /** @generated */
 protected void refreshSemantic() {
   if (resolveSemanticElement() == null) {
     return;
   }
   LinkedList<IAdaptable> createdViews = new LinkedList<IAdaptable>();
   List<UMLNodeDescriptor> childDescriptors =
       UMLDiagramUpdater.getInterfaceNestedClassifierCompartment_7029SemanticChildren(
           (View) getHost().getModel());
   LinkedList<View> orphaned = new LinkedList<View>();
   // we care to check only views we recognize as ours
   LinkedList<View> knownViewChildren = new LinkedList<View>();
   for (View v : getViewChildren()) {
     if (isMyDiagramElement(v)) {
       knownViewChildren.add(v);
     }
   }
   // alternative to #cleanCanonicalSemanticChildren(getViewChildren(), semanticChildren)
   //
   // iteration happens over list of desired semantic elements, trying to find best matching View,
   // while original CEP
   // iterates views, potentially losing view (size/bounds) information - i.e. if there are few
   // views to reference same EObject, only last one
   // to answer isOrphaned == true will be used for the domain element representation, see
   // #cleanCanonicalSemanticChildren()
   for (Iterator<UMLNodeDescriptor> descriptorsIterator = childDescriptors.iterator();
       descriptorsIterator.hasNext(); ) {
     UMLNodeDescriptor next = descriptorsIterator.next();
     String hint = UMLVisualIDRegistry.getType(next.getVisualID());
     LinkedList<View> perfectMatch =
         new LinkedList<View>(); // both semanticElement and hint match that of NodeDescriptor
     for (View childView : getViewChildren()) {
       EObject semanticElement = childView.getElement();
       if (next.getModelElement().equals(semanticElement)) {
         if (hint.equals(childView.getType())) {
           perfectMatch.add(childView);
           // actually, can stop iteration over view children here, but
           // may want to use not the first view but last one as a 'real' match (the way original
           // CEP does
           // with its trick with viewToSemanticMap inside #cleanCanonicalSemanticChildren
         }
       }
     }
     if (perfectMatch.size() > 0) {
       descriptorsIterator
           .remove(); // precise match found no need to create anything for the NodeDescriptor
       // use only one view (first or last?), keep rest as orphaned for further consideration
       knownViewChildren.remove(perfectMatch.getFirst());
     }
   }
   // those left in knownViewChildren are subject to removal - they are our diagram elements we
   // didn't find match to,
   // or those we have potential matches to, and thus need to be recreated, preserving
   // size/location information.
   orphaned.addAll(knownViewChildren);
   //
   ArrayList<CreateViewRequest.ViewDescriptor> viewDescriptors =
       new ArrayList<CreateViewRequest.ViewDescriptor>(childDescriptors.size());
   for (UMLNodeDescriptor next : childDescriptors) {
     String hint = UMLVisualIDRegistry.getType(next.getVisualID());
     IAdaptable elementAdapter = new CanonicalElementAdapter(next.getModelElement(), hint);
     CreateViewRequest.ViewDescriptor descriptor =
         new CreateViewRequest.ViewDescriptor(
             elementAdapter,
             Node.class,
             hint,
             ViewUtil.APPEND,
             false,
             host().getDiagramPreferencesHint());
     viewDescriptors.add(descriptor);
   }
   boolean changed = deleteViews(orphaned.iterator());
   //
   CreateViewRequest request = getCreateViewRequest(viewDescriptors);
   Command cmd = getCreateViewCommand(request);
   if (cmd != null && cmd.canExecute()) {
     SetViewMutabilityCommand.makeMutable(new EObjectAdapter(host().getNotationView())).execute();
     executeCommand(cmd);
     @SuppressWarnings("unchecked")
     List<IAdaptable> nl = (List<IAdaptable>) request.getNewObject();
     createdViews.addAll(nl);
   }
   if (changed || createdViews.size() > 0) {
     postProcessRefreshSemantic(createdViews);
   }
   if (createdViews.size() > 1) {
     // perform a layout of the container
     DeferredLayoutCommand layoutCmd =
         new DeferredLayoutCommand(host().getEditingDomain(), createdViews, host());
     executeCommand(new ICommandProxy(layoutCmd));
   }
   makeViewsImmutable(createdViews);
 }