pos. Subclassed
* here to load the children if necessary.
*
* @param pos the position of the child node to fetch
*
* @return the childnode at the specified position
*/
public TreeNode getChildAt(int pos)
{
loadChildren();
return super.getChildAt(pos);
}
public boolean isLeaf()
{
return childValue == null || !(childValue instanceof Hashtable
|| childValue instanceof Vector
|| childValue.getClass().isArray());
}
public static void createChildren(DefaultMutableTreeNode parent,
Object children)
{
if (children instanceof Hashtable)
{
Hashtable tab = (Hashtable) children;
Enumeration e = tab.keys();
while (e.hasMoreElements())
{
Object key = e.nextElement();
Object val = tab.get(key);
parent.add(new DynamicUtilTreeNode(key, val));
}
}
else if (children instanceof Vector)
{
Iterator i = ((Vector) children).iterator();
while (i.hasNext())
{
Object n = i.next();
parent.add(new DynamicUtilTreeNode(n, n));
}
}
else if (children != null && children.getClass().isArray())
{
Object[] arr = (Object[]) children;
for (int i = 0; i < arr.length; ++i)
parent.add(new DynamicUtilTreeNode(arr[i], arr[i]));
}
}
}
/**
* Listens to the model of the JTree and updates the property
* expandedState if nodes are removed or changed.
*/
protected class TreeModelHandler implements TreeModelListener
{
/**
* Creates a new instance of TreeModelHandler.
*/
protected TreeModelHandler()
{
// Nothing to do here.
}
/**
* Notifies when a node has changed in some ways. This does not include
* that a node has changed its location or changed it's children. It
* only means that some attributes of the node have changed that might
* affect its presentation.
*
* This method is called after the actual change occured.
*
* @param ev the TreeModelEvent describing the change
*/
public void treeNodesChanged(TreeModelEvent ev)
{
// Nothing to do here.
}
/**
* Notifies when a node is inserted into the tree.
*
* This method is called after the actual change occured.
*
* @param ev the TreeModelEvent describing the change
*/
public void treeNodesInserted(TreeModelEvent ev)
{
// nothing to do here
}
/**
* Notifies when a node is removed from the tree.
*
* This method is called after the actual change occured.
*
* @param ev the TreeModelEvent describing the change
*/
public void treeNodesRemoved(TreeModelEvent ev)
{
if (ev != null)
{
TreePath parent = ev.getTreePath();
Object[] children = ev.getChildren();
TreeSelectionModel sm = getSelectionModel();
if (children != null)
{
TreePath path;
Vector toRemove = new Vector();
// Collect items that we must remove.
for (int i = children.length - 1; i >= 0; i--)
{
path = parent.pathByAddingChild(children[i]);
if (nodeStates.containsKey(path))
toRemove.add(path);
// Clear selection while we are at it.
if (sm != null)
removeDescendantSelectedPaths(path, true);
}
if (toRemove.size() > 0)
removeDescendantToggledPaths(toRemove.elements());
TreeModel model = getModel();
if (model == null || model.isLeaf(parent.getLastPathComponent()))
nodeStates.remove(parent);
}
}
}
/**
* Notifies when the structure of the tree is changed.
*
* This method is called after the actual change occured.
*
* @param ev the TreeModelEvent describing the change
*/
public void treeStructureChanged(TreeModelEvent ev)
{
if (ev != null)
{
TreePath parent = ev.getTreePath();
if (parent != null)
{
if (parent.getPathCount() == 1)
{
// We have a new root, clear everything.
clearToggledPaths();
Object root = treeModel.getRoot();
if (root != null && treeModel.isLeaf(root))
nodeStates.put(parent, Boolean.TRUE);
}
else if (nodeStates.containsKey(parent))
{
Vector toRemove = new Vector();
boolean expanded = isExpanded(parent);
toRemove.add(parent);
removeDescendantToggledPaths(toRemove.elements());
if (expanded)
{
TreeModel model = getModel();
if (model != null
|| model.isLeaf(parent.getLastPathComponent()))
collapsePath(parent);
else
nodeStates.put(parent, Boolean.TRUE);
}
}
removeDescendantSelectedPaths(parent, false);
}
}
}
}
/**
* This redirects TreeSelectionEvents and rewrites the source of it to be
* this JTree. This is typically done when the tree model generates an
* event, but the JTree object associated with that model should be listed
* as the actual source of the event.
*/
protected class TreeSelectionRedirector implements TreeSelectionListener,
Serializable
{
/** The serial version UID. */
private static final long serialVersionUID = -3505069663646241664L;
/**
* Creates a new instance of TreeSelectionRedirector
*/
protected TreeSelectionRedirector()
{
// Nothing to do here.
}
/**
* Notifies when the tree selection changes.
*
* @param ev the TreeSelectionEvent that describes the change
*/
public void valueChanged(TreeSelectionEvent ev)
{
TreeSelectionEvent rewritten =
(TreeSelectionEvent) ev.cloneWithSource(JTree.this);
fireValueChanged(rewritten);
}
}
/**
* A TreeModel that does not allow anything to be selected.
*/
protected static class EmptySelectionModel extends DefaultTreeSelectionModel
{
/** The serial version UID. */
private static final long serialVersionUID = -5815023306225701477L;
/**
* The shared instance of this model.
*/
protected static final EmptySelectionModel sharedInstance =
new EmptySelectionModel();
/**
* Creates a new instance of EmptySelectionModel.
*/
protected EmptySelectionModel()
{
// Nothing to do here.
}
/**
* Returns the shared instance of EmptySelectionModel.
*
* @return the shared instance of EmptySelectionModel
*/
public static EmptySelectionModel sharedInstance()
{
return sharedInstance;
}
/**
* This catches attempts to set a selection and sets nothing instead.
*
* @param paths not used here
*/
public void setSelectionPaths(TreePath[] paths)
{
// We don't allow selections in this class.
}
/**
* This catches attempts to add something to the selection.
*
* @param paths not used here
*/
public void addSelectionPaths(TreePath[] paths)
{
// We don't allow selections in this class.
}
/**
* This catches attempts to remove something from the selection.
*
* @param paths not used here
*/
public void removeSelectionPaths(TreePath[] paths)
{
// We don't allow selections in this class.
}
}
private static final long serialVersionUID = 7559816092864483649L;
public static final String CELL_EDITOR_PROPERTY = "cellEditor";
public static final String CELL_RENDERER_PROPERTY = "cellRenderer";
public static final String EDITABLE_PROPERTY = "editable";
public static final String INVOKES_STOP_CELL_EDITING_PROPERTY =
"invokesStopCellEditing";
public static final String LARGE_MODEL_PROPERTY = "largeModel";
public static final String ROOT_VISIBLE_PROPERTY = "rootVisible";
public static final String ROW_HEIGHT_PROPERTY = "rowHeight";
public static final String SCROLLS_ON_EXPAND_PROPERTY = "scrollsOnExpand";
public static final String SELECTION_MODEL_PROPERTY = "selectionModel";
public static final String SHOWS_ROOT_HANDLES_PROPERTY = "showsRootHandles";
public static final String TOGGLE_CLICK_COUNT_PROPERTY = "toggleClickCount";
public static final String TREE_MODEL_PROPERTY = "model";
public static final String VISIBLE_ROW_COUNT_PROPERTY = "visibleRowCount";
/** @since 1.3 */
public static final String ANCHOR_SELECTION_PATH_PROPERTY =
"anchorSelectionPath";
/** @since 1.3 */
public static final String LEAD_SELECTION_PATH_PROPERTY = "leadSelectionPath";
/** @since 1.3 */
public static final String EXPANDS_SELECTED_PATHS_PROPERTY =
"expandsSelectedPaths";
private static final Object EXPANDED = Boolean.TRUE;
private static final Object COLLAPSED = Boolean.FALSE;
private boolean dragEnabled;
private boolean expandsSelectedPaths;
private TreePath anchorSelectionPath;
/**
* This contains the state of all nodes in the tree. Al/ entries map the
* TreePath of a note to to its state. Valid states are EXPANDED and
* COLLAPSED. Nodes not in this Hashtable are assumed state COLLAPSED.
*
* This is package private to avoid accessor methods.
*/
Hashtable nodeStates = new Hashtable();
protected transient TreeCellEditor cellEditor;
protected transient TreeCellRenderer cellRenderer;
protected boolean editable;
protected boolean invokesStopCellEditing;
protected boolean largeModel;
protected boolean rootVisible;
protected int rowHeight;
protected boolean scrollsOnExpand;
protected transient TreeSelectionModel selectionModel;
protected boolean showsRootHandles;
protected int toggleClickCount;
protected transient TreeModel treeModel;
protected int visibleRowCount;
/**
* Handles TreeModelEvents to update the expandedState.
*/
protected transient TreeModelListener treeModelListener;
/**
* Redirects TreeSelectionEvents so that the source is this JTree.
*/
protected TreeSelectionRedirector selectionRedirector =
new TreeSelectionRedirector();
/**
* Indicates if the rowHeight property has been set by a client
* program or by the UI.
*
* @see #setUIProperty(String, Object)
* @see LookAndFeel#installProperty(JComponent, String, Object)
*/
private boolean clientRowHeightSet = false;
/**
* Indicates if the scrollsOnExpand property has been set by a client
* program or by the UI.
*
* @see #setUIProperty(String, Object)
* @see LookAndFeel#installProperty(JComponent, String, Object)
*/
private boolean clientScrollsOnExpandSet = false;
/**
* Indicates if the showsRootHandles property has been set by a client
* program or by the UI.
*
* @see #setUIProperty(String, Object)
* @see LookAndFeel#installProperty(JComponent, String, Object)
*/
private boolean clientShowsRootHandlesSet = false;
/**
* Creates a new JTree object.
*/
public JTree()
{
this(getDefaultTreeModel());
}
/**
* Creates a new JTree object.
*
* @param value the initial nodes in the tree
*/
public JTree(Hashtable value)
{
this(createTreeModel(value));
}
/**
* Creates a new JTree object.
*
* @param value the initial nodes in the tree
*/
public JTree(Object[] value)
{
this(createTreeModel(value));
}
/**
* Creates a new JTree object.
*
* @param model the model to use
*/
public JTree(TreeModel model)
{
setRootVisible(true);
setSelectionModel( new DefaultTreeSelectionModel() );
// The root node appears expanded by default.
nodeStates = new Hashtable();
// The cell renderer gets set by the UI.
cellRenderer = null;
// Install the UI before installing the model. This way we avoid double
// initialization of lots of UI and model stuff inside the UI and related
// classes. The necessary UI updates are performed via property change
// events to the UI.
updateUI();
setModel(model);
}
/**
* Creates a new JTree object.
*
* @param root the root node
*/
public JTree(TreeNode root)
{
this(root, false);
}
/**
* Creates a new JTree object.
*
* @param root the root node
* @param asksAllowChildren if false, all nodes without children are leaf
* nodes. If true, only nodes that do not allow children are leaf
* nodes.
*/
public JTree(TreeNode root, boolean asksAllowChildren)
{
this(new DefaultTreeModel(root, asksAllowChildren));
}
/**
* Creates a new JTree object.
*
* @param value the initial nodes in the tree
*/
public JTree(Vector value)
{
this(createTreeModel(value));
}
public int getRowForPath(TreePath path)
{
TreeUI ui = getUI();
if (ui != null)
return ui.getRowForPath(this, path);
return -1;
}
public TreePath getPathForRow(int row)
{
TreeUI ui = getUI();
return ui != null ? ui.getPathForRow(this, row) : null;
}
/**
* Get the pathes that are displayes between the two given rows.
*
* @param index0 the starting row, inclusive
* @param index1 the ending row, inclusive
*
* @return the array of the tree pathes
*/
protected TreePath[] getPathBetweenRows(int index0, int index1)
{
TreeUI ui = getUI();
if (ui == null)
return null;
int minIndex = Math.min(index0, index1);
int maxIndex = Math.max(index0, index1);
TreePath[] paths = new TreePath[maxIndex - minIndex + 1];
for (int i = minIndex; i <= maxIndex; ++i)
paths[i - minIndex] = ui.getPathForRow(this, i);
return paths;
}
/**
* Creates a new TreeModel object.
*
* @param value the values stored in the model
*/
protected static TreeModel createTreeModel(Object value)
{
return new DefaultTreeModel(new DynamicUtilTreeNode(value, value));
}
/**
* Return the UI associated with this JTree object.
*
* @return the associated TreeUI object
*/
public TreeUI getUI()
{
return (TreeUI) ui;
}
/**
* Sets the UI associated with this JTree object.
*
* @param ui the TreeUI to associate
*/
public void setUI(TreeUI ui)
{
super.setUI(ui);
}
/**
* This method resets the UI used to the Look and Feel defaults..
*/
public void updateUI()
{
setUI((TreeUI) UIManager.getUI(this));
}
/**
* This method returns the String ID of the UI class of Separator.
*
* @return The UI class' String ID.
*/
public String getUIClassID()
{
return "TreeUI";
}
/**
* Gets the AccessibleContext associated with this
* JTree.
*
* @return the associated context
*/
public AccessibleContext getAccessibleContext()
{
return new AccessibleJTree();
}
/**
* Returns the preferred viewport size.
*
* @return the preferred size
*/
public Dimension getPreferredScrollableViewportSize()
{
return getPreferredSize();
}
/**
* Return the preferred scrolling amount (in pixels) for the given scrolling
* direction and orientation. This method handles a partially exposed row by
* returning the distance required to completely expose the item.
*
* @param visibleRect the currently visible part of the component.
* @param orientation the scrolling orientation
* @param direction the scrolling direction (negative - up, positive -down).
* The values greater than one means that more mouse wheel or similar
* events were generated, and hence it is better to scroll the longer
* distance.
* @author Audrius Meskauskas (audriusa@bioinformatics.org)
*/
public int getScrollableUnitIncrement(Rectangle visibleRect, int orientation,
int direction)
{
int delta = 0;
// Round so that the top would start from the row boundary
if (orientation == SwingConstants.VERTICAL)
{
int row = getClosestRowForLocation(0, visibleRect.y);
if (row != -1)
{
Rectangle b = getRowBounds(row);
if (b.y != visibleRect.y)
{
if (direction < 0)
delta = Math.max(0, visibleRect.y - b.y);
else
delta = b.y + b.height - visibleRect.y;
}
else
{
if (direction < 0)
{
if (row != 0)
{
b = getRowBounds(row - 1);
delta = b.height;
}
}
else
delta = b.height;
}
}
}
else
// The RI always returns 4 for HORIZONTAL scrolling.
delta = 4;
return delta;
}
public int getScrollableBlockIncrement(Rectangle visibleRect,
int orientation, int direction)
{
int block;
if (orientation == SwingConstants.VERTICAL)
block = visibleRect.height;
else
block = visibleRect.width;
return block;
}
public boolean getScrollableTracksViewportHeight()
{
if (getParent() instanceof JViewport)
return ((JViewport) getParent()).getHeight() > getPreferredSize().height;
return false;
}
public boolean getScrollableTracksViewportWidth()
{
if (getParent() instanceof JViewport)
return ((JViewport) getParent()).getWidth() > getPreferredSize().width;
return false;
}
/**
* Adds a TreeExpansionListener object to the tree.
*
* @param listener the listener to add
*/
public void addTreeExpansionListener(TreeExpansionListener listener)
{
listenerList.add(TreeExpansionListener.class, listener);
}
/**
* Removes a TreeExpansionListener object from the tree.
*
* @param listener the listener to remove
*/
public void removeTreeExpansionListener(TreeExpansionListener listener)
{
listenerList.remove(TreeExpansionListener.class, listener);
}
/**
* Returns all added TreeExpansionListener objects.
*
* @return an array of listeners
*/
public TreeExpansionListener[] getTreeExpansionListeners()
{
return (TreeExpansionListener[]) getListeners(TreeExpansionListener.class);
}
/**
* Notifies all listeners that the tree was collapsed.
*
* @param path the path to the node that was collapsed
*/
public void fireTreeCollapsed(TreePath path)
{
TreeExpansionEvent event = new TreeExpansionEvent(this, path);
TreeExpansionListener[] listeners = getTreeExpansionListeners();
for (int index = 0; index < listeners.length; ++index)
listeners[index].treeCollapsed(event);
}
/**
* Notifies all listeners that the tree was expanded.
*
* @param path the path to the node that was expanded
*/
public void fireTreeExpanded(TreePath path)
{
TreeExpansionEvent event = new TreeExpansionEvent(this, path);
TreeExpansionListener[] listeners = getTreeExpansionListeners();
for (int index = 0; index < listeners.length; ++index)
listeners[index].treeExpanded(event);
}
/**
* Adds a TreeSelctionListener object to the tree.
*
* @param listener the listener to add
*/
public void addTreeSelectionListener(TreeSelectionListener listener)
{
listenerList.add(TreeSelectionListener.class, listener);
}
/**
* Removes a TreeSelectionListener object from the tree.
*
* @param listener the listener to remove
*/
public void removeTreeSelectionListener(TreeSelectionListener listener)
{
listenerList.remove(TreeSelectionListener.class, listener);
}
/**
* Returns all added TreeSelectionListener objects.
*
* @return an array of listeners
*/
public TreeSelectionListener[] getTreeSelectionListeners()
{
return (TreeSelectionListener[])
getListeners(TreeSelectionListener.class);
}
/**
* Notifies all listeners when the selection of the tree changed.
*
* @param event the event to send
*/
protected void fireValueChanged(TreeSelectionEvent event)
{
TreeSelectionListener[] listeners = getTreeSelectionListeners();
for (int index = 0; index < listeners.length; ++index)
listeners[index].valueChanged(event);
}
/**
* Adds a TreeWillExpandListener object to the tree.
*
* @param listener the listener to add
*/
public void addTreeWillExpandListener(TreeWillExpandListener listener)
{
listenerList.add(TreeWillExpandListener.class, listener);
}
/**
* Removes a TreeWillExpandListener object from the tree.
*
* @param listener the listener to remove
*/
public void removeTreeWillExpandListener(TreeWillExpandListener listener)
{
listenerList.remove(TreeWillExpandListener.class, listener);
}
/**
* Returns all added TreeWillExpandListener objects.
*
* @return an array of listeners
*/
public TreeWillExpandListener[] getTreeWillExpandListeners()
{
return (TreeWillExpandListener[])
getListeners(TreeWillExpandListener.class);
}
/**
* Notifies all listeners that the tree will collapse.
*
* @param path the path to the node that will collapse
*/
public void fireTreeWillCollapse(TreePath path) throws ExpandVetoException
{
TreeExpansionEvent event = new TreeExpansionEvent(this, path);
TreeWillExpandListener[] listeners = getTreeWillExpandListeners();
for (int index = 0; index < listeners.length; ++index)
listeners[index].treeWillCollapse(event);
}
/**
* Notifies all listeners that the tree will expand.
*
* @param path the path to the node that will expand
*/
public void fireTreeWillExpand(TreePath path) throws ExpandVetoException
{
TreeExpansionEvent event = new TreeExpansionEvent(this, path);
TreeWillExpandListener[] listeners = getTreeWillExpandListeners();
for (int index = 0; index < listeners.length; ++index)
listeners[index].treeWillExpand(event);
}
/**
* Returns the model of this JTree object.
*
* @return the associated TreeModel
*/
public TreeModel getModel()
{
return treeModel;
}
/**
* Sets the model to use in JTree.
*
* @param model the TreeModel to use
*/
public void setModel(TreeModel model)
{
if (treeModel == model)
return;
// Remove listeners from old model.
if (treeModel != null && treeModelListener != null)
treeModel.removeTreeModelListener(treeModelListener);
// add treeModelListener to the new model
if (treeModelListener == null)
treeModelListener = createTreeModelListener();
if (model != null) // as setModel(null) is allowed
model.addTreeModelListener(treeModelListener);
TreeModel oldValue = treeModel;
treeModel = model;
clearToggledPaths();
if (treeModel != null)
{
if (treeModelListener == null)
treeModelListener = createTreeModelListener();
if (treeModelListener != null)
treeModel.addTreeModelListener(treeModelListener);
Object root = treeModel.getRoot();
if (root != null && !treeModel.isLeaf(root))
{
nodeStates.put(new TreePath(root), Boolean.TRUE);
}
}
firePropertyChange(TREE_MODEL_PROPERTY, oldValue, model);
}
/**
* Checks if this JTree object is editable.
*
* @return true if this tree object is editable,
* false otherwise
*/
public boolean isEditable()
{
return editable;
}
/**
* Sets the editable property.
*
* @param flag true to make this tree object editable,
* false otherwise
*/
public void setEditable(boolean flag)
{
if (editable == flag)
return;
boolean oldValue = editable;
editable = flag;
firePropertyChange(EDITABLE_PROPERTY, oldValue, editable);
}
/**
* Checks if the root element is visible.
*
* @return true if the root element is visible,
* false otherwise
*/
public boolean isRootVisible()
{
return rootVisible;
}
public void setRootVisible(boolean flag)
{
if (rootVisible == flag)
return;
// If the root is currently selected, unselect it
if (rootVisible && !flag)
{
TreeSelectionModel model = getSelectionModel();
// The root is always shown in the first row
TreePath rootPath = getPathForRow(0);
model.removeSelectionPath(rootPath);
}
boolean oldValue = rootVisible;
rootVisible = flag;
firePropertyChange(ROOT_VISIBLE_PROPERTY, oldValue, flag);
}
public boolean getShowsRootHandles()
{
return showsRootHandles;
}
public void setShowsRootHandles(boolean flag)
{
clientShowsRootHandlesSet = true;
if (showsRootHandles == flag)
return;
boolean oldValue = showsRootHandles;
showsRootHandles = flag;
firePropertyChange(SHOWS_ROOT_HANDLES_PROPERTY, oldValue, flag);
}
public TreeCellEditor getCellEditor()
{
return cellEditor;
}
public void setCellEditor(TreeCellEditor editor)
{
if (cellEditor == editor)
return;
TreeCellEditor oldValue = cellEditor;
cellEditor = editor;
firePropertyChange(CELL_EDITOR_PROPERTY, oldValue, editor);
}
public TreeCellRenderer getCellRenderer()
{
return cellRenderer;
}
public void setCellRenderer(TreeCellRenderer newRenderer)
{
if (cellRenderer == newRenderer)
return;
TreeCellRenderer oldValue = cellRenderer;
cellRenderer = newRenderer;
firePropertyChange(CELL_RENDERER_PROPERTY, oldValue, newRenderer);
}
public TreeSelectionModel getSelectionModel()
{
return selectionModel;
}
public void setSelectionModel(TreeSelectionModel model)
{
if (selectionModel == model)
return;
if( model == null )
model = EmptySelectionModel.sharedInstance();
if (selectionModel != null)
selectionModel.removeTreeSelectionListener(selectionRedirector);
TreeSelectionModel oldValue = selectionModel;
selectionModel = model;
selectionModel.addTreeSelectionListener(selectionRedirector);
firePropertyChange(SELECTION_MODEL_PROPERTY, oldValue, model);
revalidate();
repaint();
}
public int getVisibleRowCount()
{
return visibleRowCount;
}
public void setVisibleRowCount(int rows)
{
if (visibleRowCount == rows)
return;
int oldValue = visibleRowCount;
visibleRowCount = rows;
firePropertyChange(VISIBLE_ROW_COUNT_PROPERTY, oldValue, rows);
}
public boolean isLargeModel()
{
return largeModel;
}
public void setLargeModel(boolean large)
{
if (largeModel == large)
return;
boolean oldValue = largeModel;
largeModel = large;
firePropertyChange(LARGE_MODEL_PROPERTY, oldValue, large);
}
public int getRowHeight()
{
return rowHeight;
}
public void setRowHeight(int height)
{
clientRowHeightSet = true;
if (rowHeight == height)
return;
int oldValue = rowHeight;
rowHeight = height;
firePropertyChange(ROW_HEIGHT_PROPERTY, oldValue, height);
}
public boolean isFixedRowHeight()
{
return rowHeight > 0;
}
public boolean getInvokesStopCellEditing()
{
return invokesStopCellEditing;
}
public void setInvokesStopCellEditing(boolean invoke)
{
if (invokesStopCellEditing == invoke)
return;
boolean oldValue = invokesStopCellEditing;
invokesStopCellEditing = invoke;
firePropertyChange(INVOKES_STOP_CELL_EDITING_PROPERTY,
oldValue, invoke);
}
/**
* @since 1.3
*/
public int getToggleClickCount()
{
return toggleClickCount;
}
/**
* @since 1.3
*/
public void setToggleClickCount(int count)
{
if (toggleClickCount == count)
return;
int oldValue = toggleClickCount;
toggleClickCount = count;
firePropertyChange(TOGGLE_CLICK_COUNT_PROPERTY, oldValue, count);
}
public void scrollPathToVisible(TreePath path)
{
if (path == null)
return;
Rectangle rect = getPathBounds(path);
scrollRectToVisible(rect);
}
public void scrollRowToVisible(int row)
{
scrollPathToVisible(getPathForRow(row));
}
public boolean getScrollsOnExpand()
{
return scrollsOnExpand;
}
public void setScrollsOnExpand(boolean scroll)
{
clientScrollsOnExpandSet = true;
if (scrollsOnExpand == scroll)
return;
boolean oldValue = scrollsOnExpand;
scrollsOnExpand = scroll;
firePropertyChange(SCROLLS_ON_EXPAND_PROPERTY, oldValue, scroll);
}
public void setSelectionPath(TreePath path)
{
clearSelectionPathStates();
selectionModel.setSelectionPath(path);
}
public void setSelectionPaths(TreePath[] paths)
{
clearSelectionPathStates();
selectionModel.setSelectionPaths(paths);
}
/**
* This method, and all calls to it, should be removed once the
* DefaultTreeModel fires events properly. Maintenance of the nodeStates
* table should really be done in the TreeModelHandler.
*/
private void clearSelectionPathStates()
{
TreePath[] oldPaths = selectionModel.getSelectionPaths();
if (oldPaths != null)
for (int i = 0; i < oldPaths.length; i++)
nodeStates.remove(oldPaths[i]);
}
public void setSelectionRow(int row)
{
TreePath path = getPathForRow(row);
if (path != null)
setSelectionPath(path);
}
public void setSelectionRows(int[] rows)
{
// Make sure we have an UI so getPathForRow() does not return null.
if (rows == null || getUI() == null)
return;
TreePath[] paths = new TreePath[rows.length];
for (int i = rows.length - 1; i >= 0; --i)
paths[i] = getPathForRow(rows[i]);
setSelectionPaths(paths);
}
public void setSelectionInterval(int index0, int index1)
{
TreePath[] paths = getPathBetweenRows(index0, index1);
if (paths != null)
setSelectionPaths(paths);
}
public void addSelectionPath(TreePath path)
{
selectionModel.addSelectionPath(path);
}
public void addSelectionPaths(TreePath[] paths)
{
selectionModel.addSelectionPaths(paths);
}
public void addSelectionRow(int row)
{
TreePath path = getPathForRow(row);
if (path != null)
selectionModel.addSelectionPath(path);
}
public void addSelectionRows(int[] rows)
{
// Make sure we have an UI so getPathForRow() does not return null.
if (rows == null || getUI() == null)
return;
TreePath[] paths = new TreePath[rows.length];
for (int i = rows.length - 1; i >= 0; --i)
paths[i] = getPathForRow(rows[i]);
addSelectionPaths(paths);
}
/**
* Select all rows between the two given indexes, inclusive. The method
* will not select the inner leaves and braches of the currently collapsed
* nodes in this interval.
*
* @param index0 the starting row, inclusive
* @param index1 the ending row, inclusive
*/
public void addSelectionInterval(int index0, int index1)
{
TreePath[] paths = getPathBetweenRows(index0, index1);
if (paths != null)
addSelectionPaths(paths);
}
public void removeSelectionPath(TreePath path)
{
clearSelectionPathStates();
selectionModel.removeSelectionPath(path);
}
public void removeSelectionPaths(TreePath[] paths)
{
clearSelectionPathStates();
selectionModel.removeSelectionPaths(paths);
}
public void removeSelectionRow(int row)
{
TreePath path = getPathForRow(row);
if (path != null)
removeSelectionPath(path);
}
public void removeSelectionRows(int[] rows)
{
if (rows == null || getUI() == null)
return;
TreePath[] paths = new TreePath[rows.length];
for (int i = rows.length - 1; i >= 0; --i)
paths[i] = getPathForRow(rows[i]);
removeSelectionPaths(paths);
}
public void removeSelectionInterval(int index0, int index1)
{
TreePath[] paths = getPathBetweenRows(index0, index1);
if (paths != null)
removeSelectionPaths(paths);
}
public void clearSelection()
{
selectionModel.clearSelection();
setLeadSelectionPath(null);
}
public TreePath getLeadSelectionPath()
{
if (selectionModel == null)
return null;
else
return selectionModel.getLeadSelectionPath();
}
/**
* @since 1.3
*/
public void setLeadSelectionPath(TreePath path)
{
if (selectionModel != null)
{
TreePath oldValue = selectionModel.getLeadSelectionPath();
if (path == oldValue || path != null && path.equals(oldValue))
return;
// Repaint the previous and current rows with the lead selection path.
if (path != null)
{
repaint(getPathBounds(path));
selectionModel.addSelectionPath(path);
}
if (oldValue != null)
repaint(getPathBounds(oldValue));
firePropertyChange(LEAD_SELECTION_PATH_PROPERTY, oldValue, path);
}
}
/**
* @since 1.3
*/
public TreePath getAnchorSelectionPath()
{
return anchorSelectionPath;
}
/**
* @since 1.3
*/
public void setAnchorSelectionPath(TreePath path)
{
if (anchorSelectionPath == path)
return;
TreePath oldValue = anchorSelectionPath;
anchorSelectionPath = path;
firePropertyChange(ANCHOR_SELECTION_PATH_PROPERTY, oldValue, path);
}
public int getLeadSelectionRow()
{
return selectionModel.getLeadSelectionRow();
}
public int getMaxSelectionRow()
{
return selectionModel.getMaxSelectionRow();
}
public int getMinSelectionRow()
{
return selectionModel.getMinSelectionRow();
}
public int getSelectionCount()
{
return selectionModel.getSelectionCount();
}
public TreePath getSelectionPath()
{
return selectionModel.getSelectionPath();
}
public TreePath[] getSelectionPaths()
{
return selectionModel.getSelectionPaths();
}
public int[] getSelectionRows()
{
return selectionModel.getSelectionRows();
}
public boolean isPathSelected(TreePath path)
{
return selectionModel.isPathSelected(path);
}
/**
* Returns true when the specified row is selected,
* false otherwise. This call is delegated to the
* {@link TreeSelectionModel#isRowSelected(int)} method.
*
* @param row the row to check
*
* @return true when the specified row is selected,
* false otherwise
*/
public boolean isRowSelected(int row)
{
return selectionModel.isRowSelected(row);
}
public boolean isSelectionEmpty()
{
return selectionModel.isSelectionEmpty();
}
/**
* Return the value of the dragEnabled property.
*
* @return the value
*
* @since 1.4
*/
public boolean getDragEnabled()
{
return dragEnabled;
}
/**
* Set the dragEnabled property.
*
* @param enabled new value
*
* @since 1.4
*/
public void setDragEnabled(boolean enabled)
{
dragEnabled = enabled;
}
public int getRowCount()
{
TreeUI ui = getUI();
if (ui != null)
return ui.getRowCount(this);
return 0;
}
public void collapsePath(TreePath path)
{
try
{
fireTreeWillCollapse(path);
}
catch (ExpandVetoException ev)
{
// We do nothing if attempt has been vetoed.
}
setExpandedState(path, false);
fireTreeCollapsed(path);
}
public void collapseRow(int row)
{
if (row < 0 || row >= getRowCount())
return;
TreePath path = getPathForRow(row);
if (path != null)
collapsePath(path);
}
public void expandPath(TreePath path)
{
// Don't expand if path is null
// or is already expanded.
if (path == null || isExpanded(path))
return;
try
{
fireTreeWillExpand(path);
}
catch (ExpandVetoException ev)
{
// We do nothing if attempt has been vetoed.
}
setExpandedState(path, true);
fireTreeExpanded(path);
}
public void expandRow(int row)
{
if (row < 0 || row >= getRowCount())
return;
TreePath path = getPathForRow(row);
if (path != null)
expandPath(path);
}
public boolean isCollapsed(TreePath path)
{
return !isExpanded(path);
}
public boolean isCollapsed(int row)
{
if (row < 0 || row >= getRowCount())
return false;
TreePath path = getPathForRow(row);
if (path != null)
return isCollapsed(path);
return false;
}
public boolean isExpanded(TreePath path)
{
if (path == null)
return false;
Object state = nodeStates.get(path);
if ((state == null) || (state != EXPANDED))
return false;
TreePath parent = path.getParentPath();
if (parent != null)
return isExpanded(parent);
return true;
}
public boolean isExpanded(int row)
{
if (row < 0 || row >= getRowCount())
return false;
TreePath path = getPathForRow(row);
if (path != null)
return isExpanded(path);
return false;
}
/**
* @since 1.3
*/
public boolean getExpandsSelectedPaths()
{
return expandsSelectedPaths;
}
/**
* @since 1.3
*/
public void setExpandsSelectedPaths(boolean flag)
{
if (expandsSelectedPaths == flag)
return;
boolean oldValue = expandsSelectedPaths;
expandsSelectedPaths = flag;
firePropertyChange(EXPANDS_SELECTED_PATHS_PROPERTY, oldValue, flag);
}
public Rectangle getPathBounds(TreePath path)
{
TreeUI ui = getUI();
if (ui == null)
return null;
return ui.getPathBounds(this, path);
}
public Rectangle getRowBounds(int row)
{
TreePath path = getPathForRow(row);
if (path != null)
return getPathBounds(path);
return null;
}
public boolean isEditing()
{
TreeUI ui = getUI();
if (ui != null)
return ui.isEditing(this);
return false;
}
public boolean stopEditing()
{
TreeUI ui = getUI();
if (isEditing())
if (ui != null)
return ui.stopEditing(this);
return false;
}
public void cancelEditing()
{
TreeUI ui = getUI();
if (isEditing())
if (ui != null)
ui.cancelEditing(this);
}
public void startEditingAtPath(TreePath path)
{
TreeUI ui = getUI();
if (ui != null)
ui.startEditingAtPath(this, path);
}
public TreePath getEditingPath()
{
TreeUI ui = getUI();
if (ui != null)
return ui.getEditingPath(this);
return null;
}
public TreePath getPathForLocation(int x, int y)
{
TreePath path = getClosestPathForLocation(x, y);
if (path != null)
{
Rectangle rect = getPathBounds(path);
if ((rect != null) && rect.contains(x, y))
return path;
}
return null;
}
public int getRowForLocation(int x, int y)
{
TreePath path = getPathForLocation(x, y);
if (path != null)
return getRowForPath(path);
return -1;
}
public TreePath getClosestPathForLocation(int x, int y)
{
TreeUI ui = getUI();
if (ui != null)
return ui.getClosestPathForLocation(this, x, y);
return null;
}
public int getClosestRowForLocation(int x, int y)
{
TreePath path = getClosestPathForLocation(x, y);
if (path != null)
return getRowForPath(path);
return -1;
}
public Object getLastSelectedPathComponent()
{
TreePath path = getSelectionPath();
if (path != null)
return path.getLastPathComponent();
return null;
}
private void doExpandParents(TreePath path, boolean state)
{
TreePath parent = path.getParentPath();
if (!isExpanded(parent) && parent != null)
doExpandParents(parent, false);
nodeStates.put(path, state ? EXPANDED : COLLAPSED);
}
protected void setExpandedState(TreePath path, boolean state)
{
if (path == null)
return;
doExpandParents(path, state);
}
protected void clearToggledPaths()
{
nodeStates.clear();
}
protected Enumerationvalue.toString() and
* ignores all other parameters. Subclass this method to control the
* conversion.
*
* @param value the value that is converted to a String
* @param selected indicates if that value is selected or not
* @param expanded indicates if that value is expanded or not
* @param leaf indicates if that value is a leaf node or not
* @param row the row of the node
* @param hasFocus indicates if that node has focus or not
*/
public String convertValueToText(Object value, boolean selected,
boolean expanded, boolean leaf, int row, boolean hasFocus)
{
return value.toString();
}
/**
* A String representation of this JTree. This is intended to be used for
* debugging. The returned string may be empty but may not be
* null.
*
* @return a String representation of this JTree
*/
protected String paramString()
{
// TODO: this is completely legal, but it would possibly be nice
// to return some more content, like the tree structure, some properties
// etc ...
return "";
}
/**
* Returns all TreePath objects which are a descendants of the given path
* and are exapanded at the moment of the execution of this method. If the
* state of any node is beeing toggled while this method is executing this
* change may be left unaccounted.
*
* @param path The parent of this request
*
* @return An Enumeration containing TreePath objects
*/
public EnumerationstartingRow that starts with prefix.
* Searching is done in the direction specified by bias.
*
* @param prefix the prefix to search for in the cell values
* @param startingRow the index of the row where to start searching from
* @param bias the search direction, either {@link Position.Bias#Forward} or
* {@link Position.Bias#Backward}
*
* @return the path to the found element or -1 if no such element has been
* found
*
* @throws IllegalArgumentException if prefix is null or
* startingRow is not valid
*
* @since 1.4
*/
public TreePath getNextMatch(String prefix, int startingRow,
Position.Bias bias)
{
if (prefix == null)
throw new IllegalArgumentException("The argument 'prefix' must not be"
+ " null.");
if (startingRow < 0)
throw new IllegalArgumentException("The argument 'startingRow' must not"
+ " be less than zero.");
int size = getRowCount();
if (startingRow > size)
throw new IllegalArgumentException("The argument 'startingRow' must not"
+ " be greater than the number of"
+ " elements in the TreeModel.");
TreePath foundPath = null;
if (bias == Position.Bias.Forward)
{
for (int i = startingRow; i < size; i++)
{
TreePath path = getPathForRow(i);
Object o = path.getLastPathComponent();
// FIXME: in the following call to convertValueToText the
// last argument (hasFocus) should be done right.
String item = convertValueToText(o, isRowSelected(i),
isExpanded(i), treeModel.isLeaf(o),
i, false);
if (item.startsWith(prefix))
{
foundPath = path;
break;
}
}
}
else
{
for (int i = startingRow; i >= 0; i--)
{
TreePath path = getPathForRow(i);
Object o = path.getLastPathComponent();
// FIXME: in the following call to convertValueToText the
// last argument (hasFocus) should be done right.
String item = convertValueToText(o, isRowSelected(i),
isExpanded(i), treeModel.isLeaf(o), i, false);
if (item.startsWith(prefix))
{
foundPath = path;
break;
}
}
}
return foundPath;
}
/**
* Removes any paths in the current set of selected paths that are
* descendants of path. If includePath is set
* to true and path itself is selected, then
* it will be removed too.
*
* @param path the path from which selected descendants are to be removed
* @param includeSelected if true then path itself
* will also be remove if it's selected
*
* @return true if something has been removed,
* false otherwise
*
* @since 1.3
*/
protected boolean removeDescendantSelectedPaths(TreePath path,
boolean includeSelected)
{
boolean removedSomething = false;
TreePath[] selected = getSelectionPaths();
for (int index = 0; index < selected.length; index++)
{
if ((selected[index] == path && includeSelected)
|| (selected[index].isDescendant(path)))
{
removeSelectionPath(selected[index]);
removedSomething = true;
}
}
return removedSomething;
}
/**
* Removes any descendants of the TreePaths in toRemove that have been
* expanded.
*
* @param toRemove - Enumeration of TreePaths that need to be removed from
* cache of toggled tree paths.
*/
protected void removeDescendantToggledPaths(Enumeration* Sent when the tree has changed enough that we need to resize the bounds, * but not enough that we need to remove the expanded node set (e.g nodes were * expanded or collapsed, or nodes were inserted into the tree). You should * never have to invoke this, the UI will invoke this as it needs to. *
*
* If the tree uses {@link DefaultTreeModel}, you must call
* {@link DefaultTreeModel#reload(TreeNode)} or
* {@link DefaultTreeModel#reload()} after adding or removing nodes. Following
* the official Java 1.5 API standard, just calling treeDidChange, repaint()
* or revalidate() does not update the tree appearance properly.
*
* @see DefaultTreeModel#reload()
*/
public void treeDidChange()
{
repaint();
}
/**
* Helper method for
* {@link LookAndFeel#installProperty(JComponent, String, Object)}.
*
* @param propertyName the name of the property
* @param value the value of the property
*
* @throws IllegalArgumentException if the specified property cannot be set
* by this method
* @throws ClassCastException if the property value does not match the
* property type
* @throws NullPointerException if c or
* propertyValue is null
*/
void setUIProperty(String propertyName, Object value)
{
if (propertyName.equals("rowHeight"))
{
if (! clientRowHeightSet)
{
setRowHeight(((Integer) value).intValue());
clientRowHeightSet = false;
}
}
else if (propertyName.equals("scrollsOnExpand"))
{
if (! clientScrollsOnExpandSet)
{
setScrollsOnExpand(((Boolean) value).booleanValue());
clientScrollsOnExpandSet = false;
}
}
else if (propertyName.equals("showsRootHandles"))
{
if (! clientShowsRootHandlesSet)
{
setShowsRootHandles(((Boolean) value).booleanValue());
clientShowsRootHandlesSet = false;
}
}
else
{
super.setUIProperty(propertyName, value);
}
}
}