Example #1
1
 public void viewChange(View new_view) {
   Vector mbrship;
   if (new_view != null && (mbrship = new_view.getMembers()) != null) {
     tree._put(SEP, "members", mbrship);
     tree._put(SEP, "coordinator", mbrship.firstElement());
   }
 }
 public void redrawTree(boolean doRepaint) {
   displayText = false;
   if (argument == null) return;
   if (argument.isMultiRoots()) {
     argument.deleteDummyRoot();
     argument.setMultiRoots(false);
   }
   TreeVertex root = null;
   Vector roots = argument.getTree().getRoots();
   if (roots.size() > 1) {
     if (argument.getDummyRoot() == null) {
       argument.addDummyRoot(roots);
     }
     root = argument.getDummyRoot();
   } else if (roots.size() == 1) {
     root = (TreeVertex) roots.firstElement();
   }
   // if root == null, the entire tree has been erased,
   // so call emptyTree() to clean things up and
   // clear the display
   if (root == null) {
     argument.emptyTree(false);
   } else {
     calcTreeShape(root);
   }
   if (doRepaint) {
     repaint();
   }
   /*
   if (displayFrame.getMainDiagramPanel() == this)
   {
     searchFrame.updateDisplays(false);
   }
    */
 }
Example #3
0
    /** Fetches all data from underlying tree model and display it graphically */
    void init() {
      Vector mbrship = null;

      addGuiNode(SEP);

      mbrship =
          tree != null && tree.getMembers() != null ? (Vector) tree.getMembers().clone() : null;
      if (mbrship != null) {
        tree._put(SEP, "members", mbrship);
        tree._put(SEP, "coordinator", mbrship.firstElement());
      }
    }
 /** Reaction to Add/Delete buttons. */
 public void actionPerformed(ActionEvent e) {
   String cmd = e.getActionCommand();
   if (cmdAdd.equals(cmd)) {
     Zone z = ((ControllerSWARM) controller).new Zone();
     Vector<AbstractNetworkElement> ml =
         ((AbstractControllerComplex) controller).getMyMonitor().getPredecessors();
     Vector<AbstractNetworkElement> cl =
         ((AbstractControllerComplex) controller).getMyMonitor().getSuccessors();
     if (ml.size() > 0) z.bottleneck = (AbstractLinkHWC) ml.firstElement();
     if (cl.size() > 0) {
       z.setFromOnramp((AbstractLinkHWC) cl.firstElement());
       z.setToOnramp((AbstractLinkHWC) cl.firstElement());
     }
     z.initialize();
     zones.add(z);
     zoneTM.fireTableStructureChanged();
     setUpBottleneckColumn();
     setUpFromOnrampColumn();
     setUpToOnrampColumn();
   }
   if (cmdDelete.equals(cmd)) {
     try {
       int[] selected = zonetab.getSelectedRows();
       if ((selected != null) && (selected.length > 0))
         for (int i = 0; i < selected.length; i++) {
           int idx = selected[i] - i;
           if ((idx >= 0) && (idx < zones.size())) {
             zones.remove(idx);
             zoneTM.fireTableStructureChanged();
             setUpBottleneckColumn();
             setUpFromOnrampColumn();
             setUpToOnrampColumn();
           }
         }
     } catch (Exception ex) {
     }
   }
   return;
 }
Example #5
0
  private void browseAction() {
    if (selectedPath == null) {
      selectedPath = System.getenv("ROPE_SOURCES_DIR");
      if (selectedPath != null) {
        File dir = new File(selectedPath);
        if (!dir.exists() || !dir.isDirectory()) {
          String message =
              String.format(
                  "The sources path set in environment variable ROPE_SOURCES_DIR is not avaliable.\n%s",
                  selectedPath);
          JOptionPane.showMessageDialog(null, message, "ROPE", JOptionPane.WARNING_MESSAGE);
          selectedPath = null;
        } else {
          System.out.println("Source folder path set from ROPE_SOURCES_DIR: " + selectedPath);
        }
      }
      if (selectedPath == null) {
        selectedPath = System.getProperty("user.dir");

        System.out.println("Source folder path set to current directory: " + selectedPath);
      }
    }

    Vector<RopeFileFilter> filters = new Vector<RopeFileFilter>();
    filters.add(
        new RopeFileFilter(
            new String[] {".a", ".asm", ".aut", ".s"}, "Assembly files (*.a *.asm *.aut *.s)"));
    filters.add(new RopeFileFilter(new String[] {".m", ".mac"}, "Macro files (*.m *.mac)"));
    filters.add(new RopeFileFilter(new String[] {".lst"}, "List files (*.lst)"));
    filters.add(new RopeFileFilter(new String[] {".txt"}, "Text files (*.txt)"));

    RopeFileChooser chooser = new RopeFileChooser(selectedPath, null, filters);
    chooser.setDialogTitle("Source document selection");
    chooser.setFileFilter(filters.firstElement());
    chooser.setFileSelectionMode(JFileChooser.FILES_AND_DIRECTORIES);

    File file = chooser.open(this, fileText);
    if (file != null) {
      if (loadSourceFile(file)) {
        mainFrame.showExecWindow(baseName);
      }
    }
  }
Example #6
0
 /** @return The position of the first <code>Lite</code> object. */
 public Point getPosition() {
   if (!lites.isEmpty()) return ((Lite) lites.firstElement()).getPosition();
   else return new Point();
 }
  public void addNewEdge() {
    if (!canCreateEdge) {
      //      refreshDisplay();
      return;
    }
    canCreateEdge = false;
    Vector vertexList = argument.getTree().getVertexList();
    boolean addNewEdge = false;
    if (!vertexList.contains(startVertex)) {
      addNewEdge = true;
      argument.getTree().addVertex(startVertex);
      argument.getFreeVertexList().remove(startVertex);
    }
    if (!vertexList.contains(endVertex)) {
      addNewEdge = true;
      argument.getTree().addVertex(endVertex);
      argument.getFreeVertexList().remove(endVertex);
    }
    if (addNewEdge) {
      argument.getTree().addEdge(endVertex, startVertex);
      // If addNewEdge is true here, either or both vertexes are new
      // to the tree, so new edge must be OK
      startVertex.setHasParent(true);

      calcSubtreeShapes();
      displayFrame.controlFrame.updateDisplays(true);
      //      displayFrame.controlFrame.getUndoStack().push(new
      // EditAction(displayFrame.controlFrame, "adding a support"));
    }

    // If reach this far, tree already contains both vertices.
    // No need to check if edge already exists since have checked if
    // vertex has a parent. Just need to check if new edge creates a
    // cycle. If it does, we delete the edge we just added.
    if (argument.isMultiRoots()) {
      argument.deleteDummyRoot();
      argument.setMultiRoots(false);
    }
    argument.getTree().addEdge(endVertex, startVertex);
    startVertex.setHasParent(true);
    TreeVertex root;
    Vector roots = argument.getTree().getRoots();
    if (roots.size() == 0) {
      deleteCycle(startVertex, endVertex);
      return;
    }
    if (roots.size() > 1) {
      argument.addDummyRoot(roots);
      root = argument.getDummyRoot();
    } else {
      root = (TreeVertex) roots.firstElement();
    }
    try {
      argument.getTree().breadthFirstTopSort(root);
    } catch (GraphException e) {
      deleteCycle(startVertex, endVertex);
      return;
    }
    // If we survive the cycle test, the edge is OK.
    redrawTree(true);
  }