public void updateModel(
      List<? extends ChangeList> changeLists,
      Trinity<List<VirtualFile>, Integer, Integer> unversionedFiles,
      final List<LocallyDeletedChange> locallyDeletedFiles,
      List<VirtualFile> modifiedWithoutEditing,
      MultiMap<String, VirtualFile> switchedFiles,
      @Nullable Map<VirtualFile, String> switchedRoots,
      @Nullable List<VirtualFile> ignoredFiles,
      final List<VirtualFile> lockedFolders,
      @Nullable final Map<VirtualFile, LogicalLock> logicallyLockedFiles) {
    TreeModelBuilder builder = new TreeModelBuilder(myProject, isShowFlatten());
    final DefaultTreeModel model =
        builder.buildModel(
            changeLists,
            unversionedFiles,
            locallyDeletedFiles,
            modifiedWithoutEditing,
            switchedFiles,
            switchedRoots,
            ignoredFiles,
            lockedFolders,
            logicallyLockedFiles);

    storeState();
    DefaultTreeModel oldModel = getModel();
    setModel(model);
    setCellRenderer(new ChangesBrowserNodeRenderer(myProject, isShowFlatten(), true));
    ChangesBrowserNode root = (ChangesBrowserNode) model.getRoot();
    expandPath(new TreePath(root.getPath()));
    restoreState();
    expandDefaultChangeList(oldModel, root);
  }
  /**
   * Update the layouts tree.
   *
   * @param current The name of the current layout or <CODE>null</CODE> if none.
   */
  public void updateLayouts(Path current) throws PipelineException {
    DefaultMutableTreeNode root = null;
    {
      root = new DefaultMutableTreeNode(new TreeData(), true);

      {
        Path path = new Path(PackageInfo.getSettingsPath(), "layouts");
        rebuildTreeModel(path, new Path("/"), root);
      }

      DefaultTreeModel model = (DefaultTreeModel) pTree.getModel();
      model.setRoot(root);

      {
        Enumeration e = root.depthFirstEnumeration();
        if (e != null) {
          while (e.hasMoreElements()) {
            DefaultMutableTreeNode tnode = (DefaultMutableTreeNode) e.nextElement();
            pTree.expandPath(new TreePath(tnode.getPath()));
          }
        }
      }
    }

    pTree.clearSelection();
    if (current != null) {
      TreePath tpath = null;
      DefaultMutableTreeNode tnode = root;
      for (String comp : current.getComponents()) {
        DefaultMutableTreeNode next = null;
        Enumeration e = tnode.children();
        if (e != null) {
          while (e.hasMoreElements()) {
            DefaultMutableTreeNode child = (DefaultMutableTreeNode) e.nextElement();
            TreeData data = (TreeData) child.getUserObject();
            if (data.toString().equals(comp)) {
              tpath = new TreePath(child.getPath());
              next = child;
              break;
            }
          }
        }

        if (next == null) break;

        tnode = next;
      }

      if (tpath != null) {
        pTree.setSelectionPath(tpath);
        pTree.makeVisible(tpath);
      }
    }
  }
 @Nullable
 private TreePath findOption(@NotNull Object nodeObject, @NotNull DescriptorMatcher matcher) {
   for (int i = 0; i < myTreeModel.getChildCount(nodeObject); i++) {
     Object childObject = myTreeModel.getChild(nodeObject, i);
     if (childObject instanceof MyTreeNode) {
       Object data = ((MyTreeNode) childObject).getUserObject();
       if (matcher.matches(data)) {
         return new TreePath(myTreeModel.getPathToRoot((MyTreeNode) childObject));
       }
     }
     TreePath pathInChild = findOption(childObject, matcher);
     if (pathInChild != null) return pathInChild;
   }
   return null;
 }
Esempio n. 4
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  // {{{ removeSelectedNode() method
  private void removeSelectedNode() {
    TreePath path = resultTree.getSelectionPath();
    if (path == null) return;

    MutableTreeNode value = (MutableTreeNode) path.getLastPathComponent();

    if (path.getPathCount() > 1) {
      // Adjust selection so that repeating some removals
      // behave naturally.
      TreePath parentPath = path.getParentPath();
      MutableTreeNode parent = (MutableTreeNode) parentPath.getLastPathComponent();
      int removingIndex = parent.getIndex(value);
      int nextIndex = removingIndex + 1;
      if (nextIndex < parent.getChildCount()) {
        TreeNode next = parent.getChildAt(nextIndex);
        resultTree.setSelectionPath(parentPath.pathByAddingChild(next));
      } else {
        resultTree.setSelectionPath(parentPath);
      }

      resultTreeModel.removeNodeFromParent(value);
    }

    HyperSearchOperationNode.removeNodeFromCache(value);
    if (resultTreeRoot.getChildCount() == 0) {
      hideDockable();
    }
  } // }}}
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 private static IndexTreePathState removeLastPathComponent(
     final DefaultTreeModel model, final TreePath pathToBeRemoved) {
   final IndexTreePathState selectionState = new IndexTreePathState(pathToBeRemoved);
   if (((MutableTreeNode) pathToBeRemoved.getLastPathComponent()).getParent() == null)
     return selectionState;
   model.removeNodeFromParent((MutableTreeNode) pathToBeRemoved.getLastPathComponent());
   return selectionState;
 }
Esempio n. 6
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    public void nodeAdded(String fqn) {
      MyNode n, p;

      n = root.add(fqn);
      if (n != null) {
        p = (MyNode) n.getParent();
        tree_model.reload(p);
        jtree.scrollPathToVisible(new TreePath(n.getPath()));
      }
    }
  /* Simple tree node factory method - set's parent and user object.
   */
  private DefaultMutableTreeNode makeNode(Object userObject, MutableTreeNode parent) {

    DefaultMutableTreeNode node = new DefaultMutableTreeNode(userObject);

    if (parent != null) {
      treeModel.insertNodeInto(node, parent, parent.getChildCount());
    }

    return node;
  }
Esempio n. 8
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    public void nodeRemoved(String fqn) {
      MyNode n;
      TreeNode par;

      n = root.findNode(fqn);
      if (n != null) {
        n.removeAllChildren();
        par = n.getParent();
        n.removeFromParent();
        tree_model.reload(par);
      }
    }
 public void selectOptionByName(@NotNull final String optionName) {
   selectPath(
       findOption(
           myTreeModel.getRoot(),
           new DescriptorMatcher() {
             @Override
             public boolean matches(@NotNull Object data) {
               return !optionName.isEmpty()
                   && StringUtil.containsIgnoreCase(data.toString(), optionName);
             }
           }));
 }
  protected void doSort() {
    Pair<ElementNode, List<ElementNode>> pair = storeSelection();

    Enumeration<ParentNode> children = getRootNodeChildren();
    while (children.hasMoreElements()) {
      ParentNode classNode = children.nextElement();
      sortNode(classNode, myComparator);
      myTreeModel.nodeStructureChanged(classNode);
    }

    restoreSelection(pair);
  }
  protected void restoreTree() {
    Pair<ElementNode, List<ElementNode>> selection = storeSelection();

    DefaultMutableTreeNode root = getRootNode();
    if (!myShowClasses || myContainerNodes.isEmpty()) {
      List<ParentNode> otherObjects = new ArrayList<ParentNode>();
      Enumeration<ParentNode> children = getRootNodeChildren();
      ParentNode newRoot =
          new ParentNode(
              null, new MemberChooserObjectBase(getAllContainersNodeName()), new Ref<Integer>(0));
      while (children.hasMoreElements()) {
        final ParentNode nextElement = children.nextElement();
        if (nextElement instanceof ContainerNode) {
          final ContainerNode containerNode = (ContainerNode) nextElement;
          Enumeration<MemberNode> memberNodes = containerNode.children();
          List<MemberNode> memberNodesList = new ArrayList<MemberNode>();
          while (memberNodes.hasMoreElements()) {
            memberNodesList.add(memberNodes.nextElement());
          }
          for (MemberNode memberNode : memberNodesList) {
            newRoot.add(memberNode);
          }
        } else {
          otherObjects.add(nextElement);
        }
      }
      replaceChildren(root, otherObjects);
      sortNode(newRoot, myComparator);
      if (newRoot.children().hasMoreElements()) root.add(newRoot);
    } else {
      Enumeration<ParentNode> children = getRootNodeChildren();
      while (children.hasMoreElements()) {
        ParentNode allClassesNode = children.nextElement();
        Enumeration<MemberNode> memberNodes = allClassesNode.children();
        ArrayList<MemberNode> arrayList = new ArrayList<MemberNode>();
        while (memberNodes.hasMoreElements()) {
          arrayList.add(memberNodes.nextElement());
        }
        Collections.sort(arrayList, myComparator);
        for (MemberNode memberNode : arrayList) {
          myNodeToParentMap.get(memberNode).add(memberNode);
        }
      }
      replaceChildren(root, myContainerNodes);
    }
    myTreeModel.nodeStructureChanged(root);

    defaultExpandTree();

    restoreSelection(selection);
  }
 public void selectOptionByType(@NotNull final String attributeType) {
   selectPath(
       findOption(
           myTreeModel.getRoot(),
           new DescriptorMatcher() {
             @Override
             public boolean matches(@NotNull Object data) {
               if (data instanceof EditorSchemeAttributeDescriptor) {
                 return attributeType.equals(((EditorSchemeAttributeDescriptor) data).getType());
               }
               return false;
             }
           }));
 }
 public void fillOptions(@NotNull ColorAndFontOptions options) {
   DefaultMutableTreeNode root = new DefaultMutableTreeNode();
   for (EditorSchemeAttributeDescriptor description : getOrderedDescriptors(options)) {
     if (!description.getGroup().equals(myCategoryName)) continue;
     List<String> path = extractPath(description);
     if (path != null && path.size() > 1) {
       MyTreeNode groupNode = ensureGroup(root, path, 0);
       groupNode.add(new MyTreeNode(description, path.get(path.size() - 1)));
     } else {
       root.add(new MyTreeNode(description));
     }
   }
   myTreeModel.setRoot(root);
 }
  private void expandDefaultChangeList(DefaultTreeModel oldModel, ChangesBrowserNode root) {
    if (((ChangesBrowserNode) oldModel.getRoot()).getCount() == 0
        && TreeUtil.collectExpandedPaths(this).size() == 1) {
      TreeNode toExpand = null;
      for (int i = 0; i < root.getChildCount(); i++) {
        TreeNode node = root.getChildAt(i);
        if (node instanceof ChangesBrowserChangeListNode && node.getChildCount() > 0) {
          ChangeList object = ((ChangesBrowserChangeListNode) node).getUserObject();
          if (object instanceof LocalChangeList) {
            if (((LocalChangeList) object).isDefault()) {
              toExpand = node;
              break;
            }
          }
        }
      }

      if (toExpand != null) {
        expandPath(new TreePath(new Object[] {root, toExpand}));
      }
    }
  }
 protected DefaultMutableTreeNode getRootNode() {
   return (DefaultMutableTreeNode) myTreeModel.getRoot();
 }
Esempio n. 16
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 // {{{ removeAllNodes() method
 private void removeAllNodes() {
   resultTreeRoot.removeAllChildren();
   resultTreeModel.reload(resultTreeRoot);
   setSearchStatus(null);
   hideDockable();
 } // }}}
Esempio n. 17
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 public static void sort(final DefaultTreeModel model, final Comparator comparator) {
   sort((DefaultMutableTreeNode) model.getRoot(), comparator);
 }
  /* Clear all existing nodes from the tree model and rebuild from scratch.
   */
  protected void refreshTree() {

    DefaultMutableTreeNode propertiesNode;
    DefaultMutableTreeNode leaf;

    // First clear the existing tree by simply enumerating
    // over the root node's children and removing them one by one.
    while (treeModel.getChildCount(rootNode) > 0) {
      DefaultMutableTreeNode child = (DefaultMutableTreeNode) treeModel.getChild(rootNode, 0);

      treeModel.removeNodeFromParent(child);
      child.removeAllChildren();
      child.removeFromParent();
    }

    treeModel.nodeStructureChanged(rootNode);
    treeModel.reload();
    tScrollPane.repaint();

    // Now rebuild the tree below its root
    try {

      // Start by naming the root node from its URL:
      rootNode.setUserObject(dMeta.getURL());

      // get metadata about user tables by building a vector of table names
      String usertables[] = {"TABLE", "GLOBAL TEMPORARY", "VIEW"};
      ResultSet result = dMeta.getTables(null, null, null, usertables);
      Vector tables = new Vector();

      // sqlbob@users Added remarks.
      Vector remarks = new Vector();

      while (result.next()) {
        tables.addElement(result.getString(3));
        remarks.addElement(result.getString(5));
      }

      result.close();

      // For each table, build a tree node with interesting info
      for (int i = 0; i < tables.size(); i++) {
        String name = (String) tables.elementAt(i);
        DefaultMutableTreeNode tableNode = makeNode(name, rootNode);
        ResultSet col = dMeta.getColumns(null, null, name, null);

        // sqlbob@users Added remarks.
        String remark = (String) remarks.elementAt(i);

        if ((remark != null) && !remark.trim().equals("")) {
          makeNode(remark, tableNode);
        }

        // With a child for each column containing pertinent attributes
        while (col.next()) {
          String c = col.getString(4);
          DefaultMutableTreeNode columnNode = makeNode(c, tableNode);
          String type = col.getString(6);

          makeNode("Type: " + type, columnNode);

          boolean nullable = col.getInt(11) != DatabaseMetaData.columnNoNulls;

          makeNode("Nullable: " + nullable, columnNode);
        }

        col.close();

        DefaultMutableTreeNode indexesNode = makeNode("Indices", tableNode);
        ResultSet ind = dMeta.getIndexInfo(null, null, name, false, false);
        String oldiname = null;

        // A child node to contain each index - and its attributes
        while (ind.next()) {
          DefaultMutableTreeNode indexNode = null;
          boolean nonunique = ind.getBoolean(4);
          String iname = ind.getString(6);

          if ((oldiname == null || !oldiname.equals(iname))) {
            indexNode = makeNode(iname, indexesNode);

            makeNode("Unique: " + !nonunique, indexNode);

            oldiname = iname;
          }

          // And the ordered column list for index components
          makeNode(ind.getString(9), indexNode);
        }

        ind.close();
      }

      // Finally - a little additional metadata on this connection
      propertiesNode = makeNode("Properties", rootNode);

      makeNode("User: "******"ReadOnly: " + cConn.isReadOnly(), propertiesNode);
      makeNode("AutoCommit: " + cConn.getAutoCommit(), propertiesNode);
      makeNode("Driver: " + dMeta.getDriverName(), propertiesNode);
      makeNode("Product: " + dMeta.getDatabaseProductName(), propertiesNode);
      makeNode("Version: " + dMeta.getDatabaseProductVersion(), propertiesNode);
    } catch (SQLException se) {
      propertiesNode = makeNode("Error getting metadata:", rootNode);

      makeNode(se.getMessage(), propertiesNode);
      makeNode(se.getSQLState(), propertiesNode);
    }

    treeModel.nodeStructureChanged(rootNode);
    treeModel.reload();
    tScrollPane.repaint();
  }