org.jdesktop.swingx.JXTreeTable Maven / Gradle / Ivy
/*
* $Id: JXTreeTable.java 4147 2012-02-01 17:13:24Z kschaefe $
*
* Copyright 2004 Sun Microsystems, Inc., 4150 Network Circle,
* Santa Clara, California 95054, U.S.A. All rights reserved.
*
* This library is free software; you can redistribute it and/or
* modify it under the terms of the GNU Lesser General Public
* License as published by the Free Software Foundation; either
* version 2.1 of the License, or (at your option) any later version.
*
* This library is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
* Lesser General Public License for more details.
*
* You should have received a copy of the GNU Lesser General Public
* License along with this library; if not, write to the Free Software
* Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA
*/
package org.jdesktop.swingx;
import java.awt.Color;
import java.awt.Component;
import java.awt.Graphics;
import java.awt.Point;
import java.awt.Rectangle;
import java.awt.event.ActionEvent;
import java.awt.event.InputEvent;
import java.awt.event.MouseEvent;
import java.beans.PropertyChangeEvent;
import java.beans.PropertyChangeListener;
import java.util.ArrayList;
import java.util.Enumeration;
import java.util.EventObject;
import java.util.List;
import java.util.logging.Logger;
import javax.swing.ActionMap;
import javax.swing.Icon;
import javax.swing.JComponent;
import javax.swing.JTable;
import javax.swing.JTree;
import javax.swing.ListSelectionModel;
import javax.swing.RowSorter;
import javax.swing.SwingUtilities;
import javax.swing.UIManager;
import javax.swing.border.Border;
import javax.swing.event.ChangeEvent;
import javax.swing.event.ListSelectionEvent;
import javax.swing.event.ListSelectionListener;
import javax.swing.event.TableModelEvent;
import javax.swing.event.TreeExpansionEvent;
import javax.swing.event.TreeExpansionListener;
import javax.swing.event.TreeModelEvent;
import javax.swing.event.TreeModelListener;
import javax.swing.event.TreeSelectionListener;
import javax.swing.event.TreeWillExpandListener;
import javax.swing.plaf.basic.BasicTreeUI;
import javax.swing.table.AbstractTableModel;
import javax.swing.table.TableCellEditor;
import javax.swing.table.TableCellRenderer;
import javax.swing.table.TableColumn;
import javax.swing.table.TableModel;
import javax.swing.tree.DefaultTreeCellRenderer;
import javax.swing.tree.DefaultTreeSelectionModel;
import javax.swing.tree.TreeCellRenderer;
import javax.swing.tree.TreePath;
import javax.swing.tree.TreeSelectionModel;
import org.jdesktop.beans.JavaBean;
import org.jdesktop.swingx.decorator.ComponentAdapter;
import org.jdesktop.swingx.event.TreeExpansionBroadcaster;
import org.jdesktop.swingx.plaf.UIAction;
import org.jdesktop.swingx.renderer.StringValue;
import org.jdesktop.swingx.renderer.StringValues;
import org.jdesktop.swingx.rollover.RolloverProducer;
import org.jdesktop.swingx.rollover.RolloverRenderer;
import org.jdesktop.swingx.tree.DefaultXTreeCellRenderer;
import org.jdesktop.swingx.treetable.DefaultTreeTableModel;
import org.jdesktop.swingx.treetable.TreeTableCellEditor;
import org.jdesktop.swingx.treetable.TreeTableModel;
import org.jdesktop.swingx.treetable.TreeTableModelProvider;
import org.jdesktop.swingx.util.Contract;
/**
* JXTreeTable
is a specialized {@link javax.swing.JTable table}
* consisting of a single column in which to display hierarchical data, and any
* number of other columns in which to display regular data. The interface for
* the data model used by a JXTreeTable
is
* {@link org.jdesktop.swingx.treetable.TreeTableModel}. It extends the
* {@link javax.swing.tree.TreeModel} interface to allow access to cell data by
* column indices within each node of the tree hierarchy.
*
* The most straightforward way create and use a JXTreeTable
, is to
* first create a suitable data model for it, and pass that to a
* JXTreeTable
constructor, as shown below:
*
* TreeTableModel treeTableModel = new FileSystemModel(); // any TreeTableModel
* JXTreeTable treeTable = new JXTreeTable(treeTableModel);
* JScrollPane scrollpane = new JScrollPane(treeTable);
*
* See {@link javax.swing.JTable} for an explanation of why putting the treetable
* inside a scroll pane is necessary.
*
* A single treetable model instance may be shared among more than one
* JXTreeTable
instances. To access the treetable model, always call
* {@link #getTreeTableModel() getTreeTableModel} and
* {@link #setTreeTableModel(org.jdesktop.swingx.treetable.TreeTableModel) setTreeTableModel}.
* JXTreeTable
wraps the supplied treetable model inside a private
* adapter class to adapt it to a {@link javax.swing.table.TableModel}. Although
* the model adapter is accessible through the {@link #getModel() getModel} method, you
* should avoid accessing and manipulating it in any way. In particular, each
* model adapter instance is tightly bound to a single table instance, and any
* attempt to share it with another table (for example, by calling
* {@link #setModel(javax.swing.table.TableModel) setModel})
* will throw an IllegalArgumentException
!
*
* @author Philip Milne
* @author Scott Violet
* @author Ramesh Gupta
*/
@JavaBean
public class JXTreeTable extends JXTable {
@SuppressWarnings("unused")
private static final Logger LOG = Logger.getLogger(JXTreeTable.class
.getName());
/**
* Key for clientProperty to decide whether to apply hack around #168-jdnc.
*/
public static final String DRAG_HACK_FLAG_KEY = "treeTable.dragHackFlag";
/**
* Key for clientProperty to decide whether to apply hack around #766-swingx.
*/
public static final String DROP_HACK_FLAG_KEY = "treeTable.dropHackFlag";
/**
* Renderer used to render cells within the
* {@link #isHierarchical(int) hierarchical} column.
* renderer extends JXTree and implements TableCellRenderer
*/
private TreeTableCellRenderer renderer;
/**
* Editor used to edit cells within the
* {@link #isHierarchical(int) hierarchical} column.
*/
private TreeTableCellEditor hierarchicalEditor;
private TreeTableHacker treeTableHacker;
private boolean consumedOnPress;
private TreeExpansionBroadcaster treeExpansionBroadcaster;
/**
* Constructs a JXTreeTable using a
* {@link org.jdesktop.swingx.treetable.DefaultTreeTableModel}.
*/
public JXTreeTable() {
this(new DefaultTreeTableModel());
}
/**
* Constructs a JXTreeTable using the specified
* {@link org.jdesktop.swingx.treetable.TreeTableModel}.
*
* @param treeModel model for the JXTreeTable
*/
public JXTreeTable(TreeTableModel treeModel) {
this(new JXTreeTable.TreeTableCellRenderer(treeModel));
}
/**
* Constructs a JXTreeTable
using the specified
* {@link org.jdesktop.swingx.JXTreeTable.TreeTableCellRenderer}.
*
* @param renderer
* cell renderer for the tree portion of this JXTreeTable
* instance.
*/
private JXTreeTable(TreeTableCellRenderer renderer) {
// To avoid unnecessary object creation, such as the construction of a
// DefaultTableModel, it is better to invoke
// super(TreeTableModelAdapter) directly, instead of first invoking
// super() followed by a call to setTreeTableModel(TreeTableModel).
// Adapt tree model to table model before invoking super()
super(new TreeTableModelAdapter(renderer));
// renderer-related initialization
init(renderer); // private method
initActions();
// disable sorting
super.setSortable(false);
super.setAutoCreateRowSorter(false);
super.setRowSorter(null);
// no grid
setShowGrid(false, false);
hierarchicalEditor = new TreeTableCellEditor(renderer);
// // No grid.
// setShowGrid(false); // superclass default is "true"
//
// // Default intercell spacing
// setIntercellSpacing(spacing); // for both row margin and column margin
}
/**
* Initializes this JXTreeTable and permanently binds the specified renderer
* to it.
*
* @param renderer private tree/renderer permanently and exclusively bound
* to this JXTreeTable.
*/
private void init(TreeTableCellRenderer renderer) {
this.renderer = renderer;
assert ((TreeTableModelAdapter) getModel()).tree == this.renderer;
// Force the JTable and JTree to share their row selection models.
ListToTreeSelectionModelWrapper selectionWrapper =
new ListToTreeSelectionModelWrapper();
// JW: when would that happen?
if (renderer != null) {
renderer.bind(this); // IMPORTANT: link back!
renderer.setSelectionModel(selectionWrapper);
}
// adjust the tree's rowHeight to this.rowHeight
adjustTreeRowHeight(getRowHeight());
adjustTreeBounds();
setSelectionModel(selectionWrapper.getListSelectionModel());
// propagate the lineStyle property to the renderer
PropertyChangeListener l = new PropertyChangeListener() {
@Override
public void propertyChange(PropertyChangeEvent evt) {
JXTreeTable.this.renderer.putClientProperty(evt.getPropertyName(), evt.getNewValue());
}
};
addPropertyChangeListener("JTree.lineStyle", l);
}
private void initActions() {
// Register the actions that this class can handle.
ActionMap map = getActionMap();
map.put("expand-all", new Actions("expand-all"));
map.put("collapse-all", new Actions("collapse-all"));
}
/**
* A small class which dispatches actions.
* TODO: Is there a way that we can make this static?
*/
private class Actions extends UIAction {
Actions(String name) {
super(name);
}
@Override
public void actionPerformed(ActionEvent evt) {
if ("expand-all".equals(getName())) {
expandAll();
}
else if ("collapse-all".equals(getName())) {
collapseAll();
}
}
}
/**
* {@inheritDoc}
* Overridden to do nothing.
*
* TreeTable is not sortable because there is no equivalent to
* RowSorter (which is targeted to linear structures) for
* hierarchical data.
*
*/
@Override
public void setSortable(boolean sortable) {
// no-op
}
/**
* {@inheritDoc}
* Overridden to do nothing.
*
* TreeTable is not sortable because there is no equivalent to
* RowSorter (which is targeted to linear structures) for
* hierarchical data.
*
*/
@Override
public void setAutoCreateRowSorter(boolean autoCreateRowSorter) {
}
/**
* {@inheritDoc}
* Overridden to do nothing.
*
* TreeTable is not sortable because there is no equivalent to
* RowSorter (which is targeted to linear structures) for
* hierarchical data.
*
*/
@Override
public void setRowSorter(RowSorter extends TableModel> sorter) {
}
/**
* Hook into super's setAutoCreateRowSorter for use in sub-classes which want to experiment
* with tree table sorting/filtering.
*
* NOTE: While subclasses may use this method to allow access to
* super that usage alone will not magically turn sorting/filtering on! They have
* to implement an appropriate RowSorter/SortController
* as well. This is merely a hook to hang themselves, as requested in Issue #479-swingx
*
*
* @param autoCreateRowSorter
*/
protected void superSetAutoCreateRowSorter(boolean autoCreateRowSorter) {
super.setAutoCreateRowSorter(autoCreateRowSorter);
}
/**
* Hook into super's setSortable for use in sub-classes which want to experiment
* with tree table sorting/filtering.
*
* NOTE: While subclasses may use this method to allow access to
* super that usage alone will not magically turn sorting/filtering on! They have
* to implement an appropriate RowSorter/SortController
* as well. This is merely a hook to hang themselves, as requested in Issue #479-swingx
*
*
* @param sortable
*/
protected void superSetSortable(boolean sortable) {
super.setSortable(sortable);
}
/**
* Hook into super's setRowSorter for use in sub-classes which want to experiment
* with tree table sorting/filtering.
*
* NOTE: While subclasses may use this method to allow access to
* super that usage alone will not magically turn sorting/filtering on! They have
* to implement an appropriate RowSorter/SortController
* as well. This is merely a hook to hang themselves, as requested in Issue #479-swingx
*
*
* @param sorter
*/
protected void superSetRowSorter(RowSorter extends TableModel> sorter) {
super.setRowSorter(sorter);
}
/**
* {@inheritDoc}
*
* Overridden to keep the tree's enabled in synch.
*/
@Override
public void setEnabled(boolean enabled) {
renderer.setEnabled(enabled);
super.setEnabled(enabled);
}
/**
* {@inheritDoc}
*
* Overridden to keep the tree's selectionBackground in synch.
*/
@Override
public void setSelectionBackground(Color selectionBackground) {
// happens on instantiation, updateUI is called before the renderer is installed
if (renderer != null)
renderer.setSelectionBackground(selectionBackground);
super.setSelectionBackground(selectionBackground);
}
/**
* {@inheritDoc}
*
* Overridden to keep the tree's selectionForeground in synch.
*/
@Override
public void setSelectionForeground(Color selectionForeground) {
// happens on instantiation, updateUI is called before the renderer is installed
if (renderer != null)
renderer.setSelectionForeground(selectionForeground);
super.setSelectionForeground(selectionForeground);
}
/**
* Overriden to invoke repaint for the particular location if
* the column contains the tree. This is done as the tree editor does
* not fill the bounds of the cell, we need the renderer to paint
* the tree in the background, and then draw the editor over it.
* You should not need to call this method directly.
*
* Additionally, there is tricksery involved to expand/collapse
* the nodes.
*
* {@inheritDoc}
*/
@Override
public boolean editCellAt(int row, int column, EventObject e) {
getTreeTableHacker().hitHandleDetectionFromEditCell(column, e); // RG: Fix Issue 49!
boolean canEdit = super.editCellAt(row, column, e);
if (canEdit && isHierarchical(column)) {
repaint(getCellRect(row, column, false));
}
return canEdit;
}
/**
* Overridden to enable hit handle detection a mouseEvent which triggered
* a expand/collapse.
*/
@Override
protected void processMouseEvent(MouseEvent e) {
// BasicTableUI selects on released if the pressed had been
// consumed. So we try to fish for the accompanying released
// here and consume it as wll.
if ((e.getID() == MouseEvent.MOUSE_RELEASED) && consumedOnPress) {
consumedOnPress = false;
e.consume();
return;
}
if (getTreeTableHacker().hitHandleDetectionFromProcessMouse(e)) {
// Issue #332-swing: hacking around selection loss.
// prevent the
// _table_ selection by consuming the mouseEvent
// if it resulted in a expand/collapse
consumedOnPress = true;
e.consume();
return;
}
consumedOnPress = false;
super.processMouseEvent(e);
}
protected TreeTableHacker getTreeTableHacker() {
if (treeTableHacker == null) {
treeTableHacker = createTreeTableHacker();
}
return treeTableHacker;
}
/**
* Hacking around various issues. Subclass and let it return
* your favourite. The current default is TreeTableHackerExt5 (latest
* evolution to work around #1230), the old long-standing default was
* TreeTableHackerExt3. If you experience problems with the latest, please
* let us know.
*
* @return
*/
protected TreeTableHacker createTreeTableHacker() {
// return new TreeTableHacker();
// return new TreeTableHackerExt();
// return new TreeTableHackerExt2();
// return new TreeTableHackerExt3();
// return new TreeTableHackerExt4();
return new TreeTableHackerExt5();
}
private boolean processMouseMotion = true;
@Override
protected void processMouseMotionEvent(MouseEvent e) {
if (processMouseMotion)
super.processMouseMotionEvent(e);
}
/**
* This class extends TreeTableHackerExt instead of TreeTableHackerExt3 so
* as to serve as a clue that it is a complete overhaul and looking in
* TreeTableHackerExt2 and TreeTableHackerExt3 for methods to change the
* behavior will do you no good.
*
* The methods previously used are abandoned as they would be misnomers to
* the behavior as implemented in this class.
*
* Changes:
*
* -
* According to TreeTableHackerExt3, clickCounts > 1 are not sent to the
* JTree so that double clicks will start edits (Issue #474). Well, mouse
* events are only sent to the JTree if they occur within the tree handle
* space - so that is not the behavior desired. Double clicks on the
* text/margin opposite the tree handle already started edits without that
* modification (I checked). The only thing that modification does is
* introduce bugs when one actually double clicks on a tree handle... so
* that idea was abandoned.
* -
* There is no longer any discrimination between events that cause an
* expansion/collapse. Since the event location is check to see if it is in
* the tree handle margin area, this doesn't seem necessary. Plus it is more
* user friendly: if someone missed the tree handle by 1 pixel, then it
* caused a selection change instead of a node expansion/ collapse.
* -
* The consumption of events are handled within this class itself because
* the behavior associated with the way that
processMoueEvent(MouseEvent)
consumed events was incompatible with the way this
* class does things. As a consequence,
* hitHandleDetectionFromProcessMouse(MouseEvent)
* always returns false so that processMoueEvent(MouseEvent)
will not
* doing anything other than call its super
* method.
* -
* All events of type MOUSE_PRESSED, MOUSE_RELEASED, and MOUSE_CLICKED, but
* excluding when
isPopupTrigger()
returns true, are sent to
* the JTree. This has the added benefit of not having to piggy back a mouse
* released event as we can just use the real mouse released event. This
* keeps the look and feel consistent for the user of UI's that
* expand/collapse nodes on the release of the mouse.
* -
* The previous implementations have a spiel about avoiding events with
* modifiers because the UI might try to change the selection. Well that
* didn't occur in any of the look and feels I tested. Perhaps that was the
* case if events that landed within the content area of a node were sent to
* the JTree. If that behavior is actually necessary, then it can be added
* to the
isTreeHandleEventType(MouseEvent)
method. This
* implementation sends all events regardless of the modifiers.
* -
* This implementation toggles the processing of mouse motion events. When
* events are sent to the tree, it is turned off and turned back on when an
* event is not sent to the tree. This fixes selection changes that occur
* when one drags the mouse after pressing on a tree handle.
*
*
* contributed by member [email protected]
*/
public class TreeTableHackerExt4 extends TreeTableHackerExt {
/**
* Filter to find mouse events that are candidates for node expansion/
* collapse. MOUSE_PRESSED and MOUSE_RELEASED are used by default UIs.
* MOUSE_CLICKED is included as it may be used by a custom UI.
*
* @param e the currently dispatching mouse event
* @return true if the event is a candidate for sending to the JTree
*/
protected boolean isTreeHandleEventType(MouseEvent e) {
switch (e.getID()) {
case MouseEvent.MOUSE_CLICKED:
case MouseEvent.MOUSE_PRESSED:
case MouseEvent.MOUSE_RELEASED:
return !e.isPopupTrigger();
}
return false;
}
/**
* This method checks if the location of the event is in the tree handle
* margin and translates the coordinates for the JTree.
*
* @param e the currently dispatching mouse event
* @return the mouse event to dispatch to the JTree or null if nothing
* should be dispatched
*/
protected MouseEvent getEventForTreeRenderer(MouseEvent e) {
Point pt = e.getPoint();
int col = columnAtPoint(pt);
if (col >= 0 && isHierarchical(col)) {
int row = rowAtPoint(pt);
if (row >= 0) {
// There will not be a check to see if the y coordinate is
// in range
// because the use of row = rowAtPoint(pt) will only return
// a row
// that has the y coordinates in the range of our point.
Rectangle cellBounds = getCellRect(row, col, false);
int x = e.getX() - cellBounds.x;
Rectangle nodeBounds = renderer.getRowBounds(row);
// The renderer's component orientation is checked because
// that
// is the one that really matters. Though it seems to always
// be
// in sync with the JXTreeTable's component orientation,
// maybe
// someone wants them to be different for some reason.
if (renderer.getComponentOrientation().isLeftToRight() ? x < nodeBounds.x
: x > nodeBounds.x + nodeBounds.width) {
return new MouseEvent(renderer, e.getID(), e.getWhen(),
e.getModifiers(), x, e.getY(),
e.getXOnScreen(), e.getYOnScreen(), e
.getClickCount(), false, e.getButton());
}
}
}
return null;
}
/**
*
* @return this method always returns false, so that processMouseEvent
* always just simply calls its super method
*/
@Override
public boolean hitHandleDetectionFromProcessMouse(MouseEvent e) {
if (!isHitDetectionFromProcessMouse())
return false;
if (isTreeHandleEventType(e)) {
MouseEvent newE = getEventForTreeRenderer(e);
if (newE != null) {
renderer.dispatchEvent(newE);
if (processMouseMotion) {
// This fixes the issue of drags on tree handles
// (often unintentional) from selecting all nodes from the
// anchor to the node of said tree handle.
processMouseMotion = false;
// part of 561-swingx: if focus elsewhere and dispatching the
// mouseEvent the focus doesn't move from elsewhere
// still doesn't help in very first click after startup
// probably lead of row selection event not correctly updated
// on synch from treeSelectionModel
requestFocusInWindow();
}
e.consume();
// Return false to prevent JXTreeTable.processMouseEvent(MouseEvent)
// from stopping the processing of the event. This allows the
// listeners to see the event even though it is consumed (perhaps
// useful for a user supplied listener). A proper UI listener will
// ignore consumed events.
return false;
// alternatively, you would have to use:
// return e.getID() == MouseEvent.MOUSE_PRESSED;
// because JXTreeTable.processMouseEvent(MouseEvent) assumes true
// will only be returned for MOUSE_PRESSED events. Also, if true
// were to be returned, then you'd have to piggy back a released
// event as the previous implementation does, because the actual
// released event would never reach this method.
}
}
processMouseMotion = true;
return false;
}
}
/*
* Changed to calculate the area of the tree handle and only forward mouse
* events to the tree if the event lands within that area. This keeps the
* selection behavior consistent with TreeTableHackerExt3.
*
* contributed by member [email protected]
*/
public class TreeTableHackerExt5 extends TreeTableHackerExt4 {
/**
* If a negative number is returned, then all events that occur in the
* leading margin will be forwarded to the tree and consumed.
*
* @return the width of the tree handle if it can be determined, else -1
*/
protected int getTreeHandleWidth() {
if (renderer.getUI() instanceof BasicTreeUI) {
BasicTreeUI ui = (BasicTreeUI) renderer.getUI();
return ui.getLeftChildIndent() + ui.getRightChildIndent();
} else {
return -1;
}
}
@Override
protected MouseEvent getEventForTreeRenderer(MouseEvent e) {
Point pt = e.getPoint();
int col = columnAtPoint(pt);
if (col >= 0 && isHierarchical(col)) {
int row = rowAtPoint(pt);
// There will not be a check to see if the y coordinate is in
// range
// because the use of row = rowAtPoint(pt) will only return a
// row
// that has the y coordinates in the range of our point.
if (row >= 0) {
TreePath path = getPathForRow(row);
Object node = path.getLastPathComponent();
// Check if the node has a tree handle and if so, check
// if the event location falls over the tree handle.
if (!getTreeTableModel().isLeaf(node)
&& (getTreeTableModel().getChildCount(node) > 0 || !renderer
.hasBeenExpanded(path))) {
Rectangle cellBounds = getCellRect(row, col, false);
int x = e.getX() - cellBounds.x;
Rectangle nb = renderer.getRowBounds(row);
int thw = getTreeHandleWidth();
// The renderer's component orientation is checked
// because that
// is the one that really matters. Though it seems to
// always be
// in sync with the JXTreeTable's component orientation,
// maybe
// someone wants them to be different for some reason.
if (renderer.getComponentOrientation().isLeftToRight() ? x < nb.x
&& (thw < 0 || x > nb.x - thw)
: x > nb.x + nb.width
&& (thw < 0 || x < nb.x + nb.width
+ thw)) {
return new MouseEvent(renderer, e.getID(), e
.getWhen(), e.getModifiers(), x, e.getY(),
e.getXOnScreen(), e.getYOnScreen(), e
.getClickCount(), false, e
.getButton());
}
}
}
}
return null;
}
}
/**
* Temporary class to have all the hacking at one place. Naturally, it will
* change a lot. The base class has the "stable" behaviour as of around
* jun2006 (before starting the fix for 332-swingx).
*
* specifically:
*
*
* - hitHandleDetection triggeredn in editCellAt
*
*
*/
public class TreeTableHacker {
protected boolean expansionChangedFlag;
/**
* Decision whether the handle hit detection
* should be done in processMouseEvent or editCellAt.
* Here: returns false.
*
* @return true for handle hit detection in processMouse, false
* for editCellAt.
*/
protected boolean isHitDetectionFromProcessMouse() {
return false;
}
/**
* Entry point for hit handle detection called from editCellAt,
* does nothing if isHitDetectionFromProcessMouse is true;
*
* @see #isHitDetectionFromProcessMouse()
*/
public void hitHandleDetectionFromEditCell(int column, EventObject e) {
if (!isHitDetectionFromProcessMouse()) {
expandOrCollapseNode(column, e);
}
}
/**
* Entry point for hit handle detection called from processMouse.
* Does nothing if isHitDetectionFromProcessMouse is false.
*
* @return true if the mouseEvent triggered an expand/collapse in
* the renderer, false otherwise.
*
* @see #isHitDetectionFromProcessMouse()
*/
public boolean hitHandleDetectionFromProcessMouse(MouseEvent e) {
if (!isHitDetectionFromProcessMouse())
return false;
int col = columnAtPoint(e.getPoint());
return ((col >= 0) && expandOrCollapseNode(columnAtPoint(e
.getPoint()), e));
}
/**
* Complete editing if collapsed/expanded.
*
*
* Is: first try to stop editing before falling back to cancel.
*
* This is part of fix for #730-swingx - editingStopped not always
* called. The other part is to call this from the renderer before
* expansion related state has changed.
*
*
* Was: any editing is always cancelled.
*
* This is a rude fix to #120-jdnc: data corruption on collapse/expand
* if editing. This is called from the renderer after expansion related
* state has changed.
*
*/
protected void completeEditing() {
// JW: fix for 1126 - ignore complete if not editing hierarchical
// reverted - introduced regression .... for details please see the bug report
if (isEditing()) { // && isHierarchical(getEditingColumn())) {
boolean success = getCellEditor().stopCellEditing();
if (!success) {
getCellEditor().cancelCellEditing();
}
}
}
/**
* Tricksery to make the tree expand/collapse.
*
*
* This might be - indirectly - called from one of two places:
*
* - editCellAt: original, stable but buggy (#332, #222) the table's
* own selection had been changed due to the click before even entering
* into editCellAt so all tree selection state is lost.
*
*
- processMouseEvent: the idea is to catch the mouseEvent, check
* if it triggered an expanded/collapsed, consume and return if so or
* pass to super if not.
*
*
*
* widened access for testing ...
*
*
* @param column the column index under the event, if any.
* @param e the event which might trigger a expand/collapse.
*
* @return this methods evaluation as to whether the event triggered a
* expand/collaps
*/
protected boolean expandOrCollapseNode(int column, EventObject e) {
if (!isHierarchical(column))
return false;
if (!mightBeExpansionTrigger(e))
return false;
boolean changedExpansion = false;
MouseEvent me = (MouseEvent) e;
if (hackAroundDragEnabled(me)) {
/*
* Hack around #168-jdnc: dirty little hack mentioned in the
* forum discussion about the issue: fake a mousePressed if drag
* enabled. The usability is slightly impaired because the
* expand/collapse is effectively triggered on released only
* (drag system intercepts and consumes all other).
*/
me = new MouseEvent((Component) me.getSource(),
MouseEvent.MOUSE_PRESSED, me.getWhen(), me
.getModifiers(), me.getX(), me.getY(), me
.getClickCount(), me.isPopupTrigger());
}
// If the modifiers are not 0 (or the left mouse button),
// tree may try and toggle the selection, and table
// will then try and toggle, resulting in the
// selection remaining the same. To avoid this, we
// only dispatch when the modifiers are 0 (or the left mouse
// button).
if (me.getModifiers() == 0
|| me.getModifiers() == InputEvent.BUTTON1_MASK) {
MouseEvent pressed = new MouseEvent(renderer, me.getID(), me
.getWhen(), me.getModifiers(), me.getX()
- getCellRect(0, column, false).x, me.getY(), me
.getClickCount(), me.isPopupTrigger());
renderer.dispatchEvent(pressed);
// For Mac OS X, we need to dispatch a MOUSE_RELEASED as well
MouseEvent released = new MouseEvent(renderer,
java.awt.event.MouseEvent.MOUSE_RELEASED, pressed
.getWhen(), pressed.getModifiers(), pressed
.getX(), pressed.getY(), pressed
.getClickCount(), pressed.isPopupTrigger());
renderer.dispatchEvent(released);
if (expansionChangedFlag) {
changedExpansion = true;
}
}
expansionChangedFlag = false;
return changedExpansion;
}
protected boolean mightBeExpansionTrigger(EventObject e) {
if (!(e instanceof MouseEvent)) return false;
MouseEvent me = (MouseEvent) e;
if (!SwingUtilities.isLeftMouseButton(me)) return false;
return me.getID() == MouseEvent.MOUSE_PRESSED;
}
/**
* called from the renderer's setExpandedPath after
* all expansion-related updates happend.
*
*/
protected void expansionChanged() {
expansionChangedFlag = true;
}
}
/**
*
* Note: currently this class looks a bit funny (only overriding
* the hit decision method). That's because the "experimental" code
* as of the last round moved to stable. But I expect that there's more
* to come, so I leave it here.
*
*
* - hit handle detection in processMouse
*
*/
public class TreeTableHackerExt extends TreeTableHacker {
/**
* Here: returns true.
* @inheritDoc
*/
@Override
protected boolean isHitDetectionFromProcessMouse() {
return true;
}
}
/**
* Patch for #471-swingx: no selection on click in hierarchical column
* if outside of node-text. Mar 2007.
*
*
* Note: with 1.6 the expansion control was broken even with the "normal extended"
* TreeTableHackerExt. When fixing that (renderer must have correct width for
* BasicTreeUI since 1.6) took a look into why this didn't work and made it work.
* So, now this is bidi-compliant.
*
* @author [email protected]
*/
public class TreeTableHackerExt2 extends TreeTableHackerExt {
@Override
protected boolean expandOrCollapseNode(int column, EventObject e) {
if (!isHierarchical(column))
return false;
if (!mightBeExpansionTrigger(e))
return false;
boolean changedExpansion = false;
MouseEvent me = (MouseEvent) e;
if (hackAroundDragEnabled(me)) {
/*
* Hack around #168-jdnc: dirty little hack mentioned in the
* forum discussion about the issue: fake a mousePressed if drag
* enabled. The usability is slightly impaired because the
* expand/collapse is effectively triggered on released only
* (drag system intercepts and consumes all other).
*/
me = new MouseEvent((Component) me.getSource(),
MouseEvent.MOUSE_PRESSED, me.getWhen(), me
.getModifiers(), me.getX(), me.getY(), me
.getClickCount(), me.isPopupTrigger());
}
// If the modifiers are not 0 (or the left mouse button),
// tree may try and toggle the selection, and table
// will then try and toggle, resulting in the
// selection remaining the same. To avoid this, we
// only dispatch when the modifiers are 0 (or the left mouse
// button).
if (me.getModifiers() == 0
|| me.getModifiers() == InputEvent.BUTTON1_MASK) {
// compute where the mouse point is relative to the tree
// as renderer, that the x coordinate translated to be relative
// to the column x-position
Point treeMousePoint = getTreeMousePoint(column, me);
int treeRow = renderer.getRowForLocation(treeMousePoint.x,
treeMousePoint.y);
int row = 0;
// mouse location not inside the node content
if (treeRow < 0) {
// get the row for mouse location
row = renderer.getClosestRowForLocation(treeMousePoint.x,
treeMousePoint.y);
// check against actual bounds of the row
Rectangle bounds = renderer.getRowBounds(row);
if (bounds == null) {
row = -1;
} else {
// check if the mouse location is "leading"
// relative to the content box
// JW: fix issue 1168-swingx: expansion control broken in
if (getComponentOrientation().isLeftToRight()) {
// this is LToR only
if ((bounds.y + bounds.height < treeMousePoint.y)
|| bounds.x > treeMousePoint.x) {
row = -1;
}
} else {
if ((bounds.y + bounds.height < treeMousePoint.y)
|| bounds.x + bounds.width < treeMousePoint.x) {
row = -1;
}
}
}
// make sure the expansionChangedFlag is set to false for
// the case that up in the tree nothing happens
expansionChangedFlag = false;
}
if ((treeRow >= 0) // if in content box
|| ((treeRow < 0) && (row < 0))) {// or outside but leading
if (treeRow >= 0) { //Issue 561-swingx: in content box, update column lead to focus
getColumnModel().getSelectionModel().setLeadSelectionIndex(column);
}
// dispatch the translated event to the tree
// which either triggers a tree selection
// or expands/collapses a node
MouseEvent pressed = new MouseEvent(renderer, me.getID(),
me.getWhen(), me.getModifiers(), treeMousePoint.x,
treeMousePoint.y, me.getClickCount(), me
.isPopupTrigger());
renderer.dispatchEvent(pressed);
// For Mac OS X, we need to dispatch a MOUSE_RELEASED as
// well
MouseEvent released = new MouseEvent(renderer,
java.awt.event.MouseEvent.MOUSE_RELEASED, pressed
.getWhen(), pressed.getModifiers(), pressed
.getX(), pressed.getY(), pressed
.getClickCount(), pressed.isPopupTrigger());
renderer.dispatchEvent(released);
// part of 561-swingx: if focus elsewhere and dispatching the
// mouseEvent the focus doesn't move from elsewhere
// still doesn't help in very first click after startup
// probably lead of row selection event not correctly updated
// on synch from treeSelectionModel
requestFocusInWindow();
}
if (expansionChangedFlag) {
changedExpansion = true;
} else {
}
}
expansionChangedFlag = false;
return changedExpansion;
}
/**
* This is a patch provided for Issue #980-swingx which should
* improve the bidi-compliance. Still doesn't work in our
* visual tests...
*
* Problem was not in the translation to renderer coordinate system,
* it was in the method itself: the check whether we are "beyond" the
* cell content box is bidi-dependent. Plus (since 1.6), width of
* renderer must be > 0.
*
*
* @param column the column index under the event, if any.
* @param e the event which might trigger a expand/collapse.
* @return the Point adjusted for bidi
*/
protected Point getTreeMousePoint(int column, MouseEvent me) {
// could inline as it wasn't the place to fix for broken RToL
return new Point(me.getX()
- getCellRect(0, column, false).x, me.getY());
}
}
/**
* A more (or less, depending in pov :-) aggressiv hacker. Compared
* to super, it dispatches less events to address open issues.
*
* Issue #474-swingx: double click should start edit (not expand/collapse)
* changed mightBeExpansionTrigger to filter out clickCounts > 1
*
* Issue #875-swingx: cell selection mode
* changed the dispatch to do so only if mouse event outside content
* box and leading
*
* Issue #1169-swingx: remove 1.5 dnd hack
* removed the additional dispatch here and
* changed in the implementation of hackAroundDragEnabled
* to no longer look for the system property (it's useless even if set)
*
* @author [email protected]
*/
public class TreeTableHackerExt3 extends TreeTableHackerExt2 {
@Override
protected boolean expandOrCollapseNode(int column, EventObject e) {
if (!isHierarchical(column))
return false;
if (!mightBeExpansionTrigger(e))
return false;
boolean changedExpansion = false;
MouseEvent me = (MouseEvent) e;
// If the modifiers are not 0 (or the left mouse button),
// tree may try and toggle the selection, and table
// will then try and toggle, resulting in the
// selection remaining the same. To avoid this, we
// only dispatch when the modifiers are 0 (or the left mouse
// button).
if (me.getModifiers() == 0
|| me.getModifiers() == InputEvent.BUTTON1_MASK) {
// compute where the mouse point is relative to the tree
// as renderer, that the x coordinate translated to be relative
// to the column x-position
Point treeMousePoint = getTreeMousePoint(column, me);
int treeRow = renderer.getRowForLocation(treeMousePoint.x,
treeMousePoint.y);
int row = 0;
// mouse location not inside the node content
if (treeRow < 0) {
// get the row for mouse location
row = renderer.getClosestRowForLocation(treeMousePoint.x,
treeMousePoint.y);
// check against actual bounds of the row
Rectangle bounds = renderer.getRowBounds(row);
if (bounds == null) {
row = -1;
} else {
// check if the mouse location is "leading"
// relative to the content box
// JW: fix issue 1168-swingx: expansion control broken in
if (getComponentOrientation().isLeftToRight()) {
// this is LToR only
if ((bounds.y + bounds.height < treeMousePoint.y)
|| bounds.x > treeMousePoint.x) {
row = -1;
}
} else {
if ((bounds.y + bounds.height < treeMousePoint.y)
|| bounds.x + bounds.width < treeMousePoint.x) {
row = -1;
}
}
}
}
// make sure the expansionChangedFlag is set to false for
// the case that up in the tree nothing happens
expansionChangedFlag = false;
if ((treeRow < 0) && (row < 0)) {// outside and leading
// dispatch the translated event to the tree
// which either triggers a tree selection
// or expands/collapses a node
MouseEvent pressed = new MouseEvent(renderer, me.getID(),
me.getWhen(), me.getModifiers(), treeMousePoint.x,
treeMousePoint.y, me.getClickCount(), me
.isPopupTrigger());
renderer.dispatchEvent(pressed);
// For Mac OS X, we need to dispatch a MOUSE_RELEASED as
// well
MouseEvent released = new MouseEvent(renderer,
java.awt.event.MouseEvent.MOUSE_RELEASED, pressed
.getWhen(), pressed.getModifiers(), pressed
.getX(), pressed.getY(), pressed
.getClickCount(), pressed.isPopupTrigger());
renderer.dispatchEvent(released);
// part of 561-swingx: if focus elsewhere and dispatching the
// mouseEvent the focus doesn't move from elsewhere
// still doesn't help in very first click after startup
// probably lead of row selection event not correctly updated
// on synch from treeSelectionModel
requestFocusInWindow();
}
if (expansionChangedFlag) {
changedExpansion = true;
} else {
}
}
expansionChangedFlag = false;
return changedExpansion;
}
/**
* Overridden to exclude clickcounts > 1.
*/
@Override
protected boolean mightBeExpansionTrigger(EventObject e) {
if (!(e instanceof MouseEvent)) return false;
MouseEvent me = (MouseEvent) e;
if (!SwingUtilities.isLeftMouseButton(me)) return false;
if (me.getClickCount() > 1) return false;
return me.getID() == MouseEvent.MOUSE_PRESSED;
}
}
/**
* Decides whether we want to apply the hack for #168-jdnc. here: returns
* true if dragEnabled() and a client property with key DRAG_HACK_FLAG_KEY
* has a value of boolean true.
*
* Note: this is updated for 1.6, as the intermediate system property
* for enabled drag support is useless now (it's the default)
*
* @param me the mouseEvent that triggered a editCellAt
* @return true if the hack should be applied.
*/
protected boolean hackAroundDragEnabled(MouseEvent me) {
Boolean dragHackFlag = (Boolean) getClientProperty(DRAG_HACK_FLAG_KEY);
return getDragEnabled() && Boolean.TRUE.equals(dragHackFlag);
}
/**
* Overridden to provide a workaround for BasicTableUI anomaly. Make sure
* the UI never tries to resize the editor. The UI currently uses different
* techniques to paint the renderers and editors. So, overriding setBounds()
* is not the right thing to do for an editor. Returning -1 for the
* editing row in this case, ensures the editor is never painted.
*
* {@inheritDoc}
*/
@Override
public int getEditingRow() {
if (editingRow == -1) return -1;
return isHierarchical(editingColumn) ? -1 : editingRow;
}
/**
* Returns the actual row that is editing as getEditingRow
* will always return -1.
*/
private int realEditingRow() {
return editingRow;
}
/**
* Sets the data model for this JXTreeTable to the specified
* {@link org.jdesktop.swingx.treetable.TreeTableModel}. The same data model
* may be shared by any number of JXTreeTable instances.
*
* @param treeModel data model for this JXTreeTable
*/
public void setTreeTableModel(TreeTableModel treeModel) {
TreeTableModel old = getTreeTableModel();
// boolean rootVisible = isRootVisible();
// setRootVisible(false);
renderer.setModel(treeModel);
// setRootVisible(rootVisible);
firePropertyChange("treeTableModel", old, getTreeTableModel());
}
/**
* Returns the underlying TreeTableModel for this JXTreeTable.
*
* @return the underlying TreeTableModel for this JXTreeTable
*/
public TreeTableModel getTreeTableModel() {
return (TreeTableModel) renderer.getModel();
}
/**
*
Overrides superclass version to make sure that the specified
* {@link javax.swing.table.TableModel} is compatible with JXTreeTable before
* invoking the inherited version.
*
* Because JXTreeTable internally adapts an
* {@link org.jdesktop.swingx.treetable.TreeTableModel} to make it a compatible
* TableModel, this method should never be called directly. Use
* {@link #setTreeTableModel(org.jdesktop.swingx.treetable.TreeTableModel) setTreeTableModel} instead.
*
* While it is possible to obtain a reference to this adapted
* version of the TableModel by calling {@link javax.swing.JTable#getModel()},
* any attempt to call setModel() with that adapter will fail because
* the adapter might have been bound to a different JXTreeTable instance. If
* you want to extract the underlying TreeTableModel, which, by the way,
* can be shared, use {@link #getTreeTableModel() getTreeTableModel}
* instead
.
*
* @param tableModel must be a TreeTableModelAdapter
* @throws IllegalArgumentException if the specified tableModel is not an
* instance of TreeTableModelAdapter
*/
@Override
public final void setModel(TableModel tableModel) { // note final keyword
if (tableModel instanceof TreeTableModelAdapter) {
if (((TreeTableModelAdapter) tableModel).getTreeTable() == null) {
// Passing the above test ensures that this method is being
// invoked either from JXTreeTable/JTable constructor or from
// setTreeTableModel(TreeTableModel)
super.setModel(tableModel); // invoke superclass version
((TreeTableModelAdapter) tableModel).bind(this); // permanently bound
// Once a TreeTableModelAdapter is bound to any JXTreeTable instance,
// invoking JXTreeTable.setModel() with that adapter will throw an
// IllegalArgumentException, because we really want to make sure
// that a TreeTableModelAdapter is NOT shared by another JXTreeTable.
}
else {
throw new IllegalArgumentException("model already bound");
}
}
else {
throw new IllegalArgumentException("unsupported model type");
}
}
@Override
public void tableChanged(TableModelEvent e) {
if (isStructureChanged(e) || isUpdate(e)) {
super.tableChanged(e);
} else {
resizeAndRepaint();
}
}
/**
* Throws UnsupportedOperationException because variable height rows are
* not supported.
*
* @param row ignored
* @param rowHeight ignored
* @throws UnsupportedOperationException because variable height rows are
* not supported
*/
@Override
public final void setRowHeight(int row, int rowHeight) {
throw new UnsupportedOperationException("variable height rows not supported");
}
/**
* Sets the row height for this JXTreeTable and forwards the
* row height to the renderering tree.
*
* @param rowHeight height of a row.
*/
@Override
public void setRowHeight(int rowHeight) {
super.setRowHeight(rowHeight);
adjustTreeRowHeight(getRowHeight());
}
/**
* Forwards tableRowHeight to tree.
*
* @param tableRowHeight height of a row.
*/
protected void adjustTreeRowHeight(int tableRowHeight) {
if (renderer != null && renderer.getRowHeight() != tableRowHeight) {
renderer.setRowHeight(tableRowHeight);
}
}
/**
* Forwards treeRowHeight to table. This is for completeness only: the
* rendering tree is under our total control, so we don't expect
* any external call to tree.setRowHeight.
*
* @param treeRowHeight height of a row.
*/
protected void adjustTableRowHeight(int treeRowHeight) {
if (getRowHeight() != treeRowHeight) {
adminSetRowHeight(treeRowHeight);
}
}
/**
* {@inheritDoc}
*
* Overridden to adjust the renderer's size.
*/
@Override
public void columnMarginChanged(ChangeEvent e) {
super.columnMarginChanged(e);
adjustTreeBounds();
}
/**
* Forces the renderer to resize for fitting into hierarchical column.
*/
private void adjustTreeBounds() {
if (renderer != null) {
renderer.setBounds(0, 0, 0, 0);
}
}
/**
*
Overridden to ensure that private renderer state is kept in sync with the
* state of the component. Calls the inherited version after performing the
* necessary synchronization. If you override this method, make sure you call
* this version from your version of this method.
*
* This version maps the selection mode used by the renderer to match the
* selection mode specified for the table. Specifically, the modes are mapped
* as follows:
*
* ListSelectionModel.SINGLE_INTERVAL_SELECTION: TreeSelectionModel.CONTIGUOUS_TREE_SELECTION;
* ListSelectionModel.MULTIPLE_INTERVAL_SELECTION: TreeSelectionModel.DISCONTIGUOUS_TREE_SELECTION;
* any other (default): TreeSelectionModel.SINGLE_TREE_SELECTION;
*
*
* {@inheritDoc}
*
* @param mode any of the table selection modes
*/
@Override
public void setSelectionMode(int mode) {
if (renderer != null) {
switch (mode) {
case ListSelectionModel.SINGLE_INTERVAL_SELECTION: {
renderer.getSelectionModel().setSelectionMode(
TreeSelectionModel.CONTIGUOUS_TREE_SELECTION);
break;
}
case ListSelectionModel.MULTIPLE_INTERVAL_SELECTION: {
renderer.getSelectionModel().setSelectionMode(
TreeSelectionModel.DISCONTIGUOUS_TREE_SELECTION);
break;
}
default: {
renderer.getSelectionModel().setSelectionMode(
TreeSelectionModel.SINGLE_TREE_SELECTION);
break;
}
}
}
super.setSelectionMode(mode);
}
/**
* {@inheritDoc}
*
* Overridden to decorate the tree's renderer after calling super.
* At that point, it is only the tree itself that has been decorated.
*
* @param renderer the TableCellRenderer
to prepare
* @param row the row of the cell to render, where 0 is the first row
* @param column the column of the cell to render, where 0 is the first column
* @return the Component
used as a stamp to render the specified cell
*
* @see #applyRenderer(Component, ComponentAdapter)
*/
@Override
public Component prepareRenderer(TableCellRenderer renderer, int row,
int column) {
Component component = super.prepareRenderer(renderer, row, column);
return applyRenderer(component, getComponentAdapter(row, column));
}
/**
* Performs configuration of the tree's renderer if the adapter's column is
* the hierarchical column, does nothing otherwise.
*
*
* Note: this is legacy glue if the treeCellRenderer is of type
* DefaultTreeCellRenderer. In that case the renderer's
* background/foreground/Non/Selection colors are set to the tree's
* background/foreground depending on the adapter's selection state. Does
* nothing if the treeCellRenderer is backed by a ComponentProvider.
*
* @param component the rendering component
* @param adapter component data adapter
* @throws NullPointerException if the specified component or adapter is
* null
*/
protected Component applyRenderer(Component component,
ComponentAdapter adapter) {
if (component == null) {
throw new IllegalArgumentException("null component");
}
if (adapter == null) {
throw new IllegalArgumentException("null component data adapter");
}
if (isHierarchical(adapter.column)) {
// After all decorators have been applied, make sure that relevant
// attributes of the table cell renderer are applied to the
// tree cell renderer before the hierarchical column is rendered!
TreeCellRenderer tcr = renderer.getCellRenderer();
if (tcr instanceof JXTree.DelegatingRenderer) {
tcr = ((JXTree.DelegatingRenderer) tcr).getDelegateRenderer();
}
if (tcr instanceof DefaultTreeCellRenderer) {
DefaultTreeCellRenderer dtcr = ((DefaultTreeCellRenderer) tcr);
// this effectively overwrites the dtcr settings
if (adapter.isSelected()) {
dtcr.setTextSelectionColor(component.getForeground());
dtcr.setBackgroundSelectionColor(component.getBackground());
} else {
dtcr.setTextNonSelectionColor(component.getForeground());
dtcr.setBackgroundNonSelectionColor(component
.getBackground());
}
}
}
return component;
}
/**
* Sets the specified TreeCellRenderer as the Tree cell renderer.
*
* @param cellRenderer to use for rendering tree cells.
*/
public void setTreeCellRenderer(TreeCellRenderer cellRenderer) {
if (renderer != null) {
renderer.setCellRenderer(cellRenderer);
}
}
public TreeCellRenderer getTreeCellRenderer() {
return renderer.getCellRenderer();
}
@Override
public String getToolTipText(MouseEvent event) {
int column = columnAtPoint(event.getPoint());
if (column >= 0 && isHierarchical(column)) {
int row = rowAtPoint(event.getPoint());
return renderer.getToolTipText(event, row, column);
}
return super.getToolTipText(event);
}
/**
* Sets the specified icon as the icon to use for rendering collapsed nodes.
*
* @param icon to use for rendering collapsed nodes
*
* @see JXTree#setCollapsedIcon(Icon)
*/
public void setCollapsedIcon(Icon icon) {
renderer.setCollapsedIcon(icon);
}
/**
* Sets the specified icon as the icon to use for rendering expanded nodes.
*
* @param icon to use for rendering expanded nodes
*
* @see JXTree#setExpandedIcon(Icon)
*/
public void setExpandedIcon(Icon icon) {
renderer.setExpandedIcon(icon);
}
/**
* Sets the specified icon as the icon to use for rendering open container nodes.
*
* @param icon to use for rendering open nodes
*
* @see JXTree#setOpenIcon(Icon)
*/
public void setOpenIcon(Icon icon) {
renderer.setOpenIcon(icon);
}
/**
* Sets the specified icon as the icon to use for rendering closed container nodes.
*
* @param icon to use for rendering closed nodes
*
* @see JXTree#setClosedIcon(Icon)
*/
public void setClosedIcon(Icon icon) {
renderer.setClosedIcon(icon);
}
/**
* Sets the specified icon as the icon to use for rendering leaf nodes.
*
* @param icon to use for rendering leaf nodes
*
* @see JXTree#setLeafIcon(Icon)
*/
public void setLeafIcon(Icon icon) {
renderer.setLeafIcon(icon);
}
/**
* Property to control whether per-tree icons should be
* copied to the renderer on setTreeCellRenderer.
*
* The default value is false.
*
* @param overwrite a boolean to indicate if the per-tree Icons should
* be copied to the new renderer on setTreeCellRenderer.
*
* @see #isOverwriteRendererIcons()
* @see #setLeafIcon(Icon)
* @see #setOpenIcon(Icon)
* @see #setClosedIcon(Icon)
* @see JXTree#setOverwriteRendererIcons(boolean)
*/
public void setOverwriteRendererIcons(boolean overwrite) {
renderer.setOverwriteRendererIcons(overwrite);
}
/**
* Returns a boolean indicating whether the per-tree icons should be
* copied to the renderer on setTreeCellRenderer.
*
* @return true if a TreeCellRenderer's icons will be overwritten with the
* tree's Icons, false if the renderer's icons will be unchanged.
*
* @see #setOverwriteRendererIcons(boolean)
* @see #setLeafIcon(Icon)
* @see #setOpenIcon(Icon)
* @see #setClosedIcon(Icon)
* @see JXTree#isOverwriteRendererIcons()
*
*/
public boolean isOverwriteRendererIcons() {
return renderer.isOverwriteRendererIcons();
}
/**
* Overridden to ensure that private renderer state is kept in sync with the
* state of the component. Calls the inherited version after performing the
* necessary synchronization. If you override this method, make sure you call
* this version from your version of this method.
*/
@Override
public void clearSelection() {
if (renderer != null) {
renderer.clearSelection();
}
super.clearSelection();
}
/**
* Collapses all nodes in the treetable.
*/
public void collapseAll() {
renderer.collapseAll();
}
/**
* Expands all nodes in the treetable.
*/
public void expandAll() {
renderer.expandAll();
}
/**
* Collapses the node at the specified path in the treetable.
*
* @param path path of the node to collapse
*/
public void collapsePath(TreePath path) {
renderer.collapsePath(path);
}
/**
* Expands the the node at the specified path in the treetable.
*
* @param path path of the node to expand
*/
public void expandPath(TreePath path) {
renderer.expandPath(path);
}
/**
* Makes sure all the path components in path are expanded (except
* for the last path component) and scrolls so that the
* node identified by the path is displayed. Only works when this
* JTree
is contained in a JScrollPane
.
*
* (doc copied from JTree)
*
* PENDING: JW - where exactly do we want to scroll? Here: the scroll
* is in vertical direction only. Might need to show the tree column?
*
* @param path the TreePath
identifying the node to
* bring into view
*/
public void scrollPathToVisible(TreePath path) {
renderer.scrollPathToVisible(path);
// if (path == null) return;
// renderer.makeVisible(path);
// int row = getRowForPath(path);
// scrollRowToVisible(row);
}
/**
* Collapses the row in the treetable. If the specified row index is
* not valid, this method will have no effect.
*/
public void collapseRow(int row) {
renderer.collapseRow(row);
}
/**
* Expands the specified row in the treetable. If the specified row index is
* not valid, this method will have no effect.
*/
public void expandRow(int row) {
renderer.expandRow(row);
}
/**
* Returns true if the value identified by path is currently viewable, which
* means it is either the root or all of its parents are expanded. Otherwise,
* this method returns false.
*
* @return true, if the value identified by path is currently viewable;
* false, otherwise
*/
public boolean isVisible(TreePath path) {
return renderer.isVisible(path);
}
/**
* Returns true if the node identified by path is currently expanded.
* Otherwise, this method returns false.
*
* @param path path
* @return true, if the value identified by path is currently expanded;
* false, otherwise
*/
public boolean isExpanded(TreePath path) {
return renderer.isExpanded(path);
}
/**
* Returns true if the node at the specified display row is currently expanded.
* Otherwise, this method returns false.
*
* @param row row
* @return true, if the node at the specified display row is currently expanded.
* false, otherwise
*/
public boolean isExpanded(int row) {
return renderer.isExpanded(row);
}
/**
* Returns true if the node identified by path is currently collapsed,
* this will return false if any of the values in path are currently not
* being displayed.
*
* @param path path
* @return true, if the value identified by path is currently collapsed;
* false, otherwise
*/
public boolean isCollapsed(TreePath path) {
return renderer.isCollapsed(path);
}
/**
* Returns true if the node at the specified display row is collapsed.
*
* @param row row
* @return true, if the node at the specified display row is currently collapsed.
* false, otherwise
*/
public boolean isCollapsed(int row) {
return renderer.isCollapsed(row);
}
/**
* Returns an Enumeration
of the descendants of the
* path parent
that
* are currently expanded. If parent
is not currently
* expanded, this will return null
.
* If you expand/collapse nodes while
* iterating over the returned Enumeration
* this may not return all
* the expanded paths, or may return paths that are no longer expanded.
*
* @param parent the path which is to be examined
* @return an Enumeration
of the descendents of
* parent
, or null
if
* parent
is not currently expanded
*/
public Enumeration> getExpandedDescendants(TreePath parent) {
return renderer.getExpandedDescendants(parent);
}
/**
* Returns the TreePath for a given x,y location.
*
* @param x x value
* @param y y value
*
* @return the TreePath
for the givern location.
*/
public TreePath getPathForLocation(int x, int y) {
int row = rowAtPoint(new Point(x,y));
if (row == -1) {
return null;
}
return renderer.getPathForRow(row);
}
/**
* Returns the TreePath for a given row.
*
* @param row
*
* @return the TreePath
for the given row.
*/
public TreePath getPathForRow(int row) {
return renderer.getPathForRow(row);
}
/**
* Returns the row for a given TreePath.
*
* @param path
* @return the row for the given TreePath
.
*/
public int getRowForPath(TreePath path) {
return renderer.getRowForPath(path);
}
//------------------------------ exposed Tree properties
/**
* Determines whether or not the root node from the TreeModel is visible.
*
* @param visible true, if the root node is visible; false, otherwise
*/
public void setRootVisible(boolean visible) {
renderer.setRootVisible(visible);
// JW: the revalidate forces the root to appear after a
// toggling a visible from an initially invisible root.
// JTree fires a propertyChange on the ROOT_VISIBLE_PROPERTY
// BasicTreeUI reacts by (ultimately) calling JTree.treeDidChange
// which revalidate the tree part.
// Might consider to listen for the propertyChange (fired only if there
// actually was a change) instead of revalidating unconditionally.
revalidate();
repaint();
}
/**
* Returns true if the root node of the tree is displayed.
*
* @return true if the root node of the tree is displayed
*/
public boolean isRootVisible() {
return renderer.isRootVisible();
}
/**
* Sets the value of the scrollsOnExpand
property for the tree
* part. This property specifies whether the expanded paths should be scrolled
* into view. In a look and feel in which a tree might not need to scroll
* when expanded, this property may be ignored.
*
* @param scroll true, if expanded paths should be scrolled into view;
* false, otherwise
*/
public void setScrollsOnExpand(boolean scroll) {
renderer.setScrollsOnExpand(scroll);
}
/**
* Returns the value of the scrollsOnExpand
property.
*
* @return the value of the scrollsOnExpand
property
*/
public boolean getScrollsOnExpand() {
return renderer.getScrollsOnExpand();
}
/**
* Sets the value of the showsRootHandles
property for the tree
* part. This property specifies whether the node handles should be displayed.
* If handles are not supported by a particular look and feel, this property
* may be ignored.
*
* @param visible true, if root handles should be shown; false, otherwise
*/
public void setShowsRootHandles(boolean visible) {
renderer.setShowsRootHandles(visible);
repaint();
}
/**
* Returns the value of the showsRootHandles
property.
*
* @return the value of the showsRootHandles
property
*/
public boolean getShowsRootHandles() {
return renderer.getShowsRootHandles();
}
/**
* Sets the value of the expandsSelectedPaths
property for the tree
* part. This property specifies whether the selected paths should be expanded.
*
* @param expand true, if selected paths should be expanded; false, otherwise
*/
public void setExpandsSelectedPaths(boolean expand) {
renderer.setExpandsSelectedPaths(expand);
}
/**
* Returns the value of the expandsSelectedPaths
property.
*
* @return the value of the expandsSelectedPaths
property
*/
public boolean getExpandsSelectedPaths() {
return renderer.getExpandsSelectedPaths();
}
/**
* Returns the number of mouse clicks needed to expand or close a node.
*
* @return number of mouse clicks before node is expanded
*/
public int getToggleClickCount() {
return renderer.getToggleClickCount();
}
/**
* Sets the number of mouse clicks before a node will expand or close.
* The default is two.
*
* @param clickCount the number of clicks required to expand/collapse a node.
*/
public void setToggleClickCount(int clickCount) {
renderer.setToggleClickCount(clickCount);
}
/**
* Returns true if the tree is configured for a large model.
* The default value is false.
*
* @return true if a large model is suggested
* @see #setLargeModel
*/
public boolean isLargeModel() {
return renderer.isLargeModel();
}
/**
* Specifies whether the UI should use a large model.
* (Not all UIs will implement this.)
*
* NOTE: this method is exposed for completeness -
* currently it's not recommended
* to use a large model because there are some issues
* (not yet fully understood), namely
* issue #25-swingx, and probably #270-swingx.
*
* @param newValue true to suggest a large model to the UI
*/
public void setLargeModel(boolean newValue) {
renderer.setLargeModel(newValue);
// JW: random method calling ... doesn't help
// renderer.treeDidChange();
// revalidate();
// repaint();
}
//------------------------------ exposed tree listeners
/**
* Adds a listener for TreeExpansion
events.
*
* @param tel a TreeExpansionListener that will be notified
* when a tree node is expanded or collapsed
*/
public void addTreeExpansionListener(TreeExpansionListener tel) {
getTreeExpansionBroadcaster().addTreeExpansionListener(tel);
}
/**
* @return
*/
private TreeExpansionBroadcaster getTreeExpansionBroadcaster() {
if (treeExpansionBroadcaster == null) {
treeExpansionBroadcaster = new TreeExpansionBroadcaster(this);
renderer.addTreeExpansionListener(treeExpansionBroadcaster);
}
return treeExpansionBroadcaster;
}
/**
* Removes a listener for TreeExpansion
events.
* @param tel the TreeExpansionListener
to remove
*/
public void removeTreeExpansionListener(TreeExpansionListener tel) {
if (treeExpansionBroadcaster == null) return;
treeExpansionBroadcaster.removeTreeExpansionListener(tel);
}
/**
* Adds a listener for TreeSelection
events.
* TODO (JW): redirect event source to this.
*
* @param tsl a TreeSelectionListener that will be notified
* when a tree node is selected or deselected
*/
public void addTreeSelectionListener(TreeSelectionListener tsl) {
renderer.addTreeSelectionListener(tsl);
}
/**
* Removes a listener for TreeSelection
events.
* @param tsl the TreeSelectionListener
to remove
*/
public void removeTreeSelectionListener(TreeSelectionListener tsl) {
renderer.removeTreeSelectionListener(tsl);
}
/**
* Adds a listener for TreeWillExpand
events.
* TODO (JW): redirect event source to this.
*
* @param tel a TreeWillExpandListener that will be notified
* when a tree node will be expanded or collapsed
*/
public void addTreeWillExpandListener(TreeWillExpandListener tel) {
renderer.addTreeWillExpandListener(tel);
}
/**
* Removes a listener for TreeWillExpand
events.
* @param tel the TreeWillExpandListener
to remove
*/
public void removeTreeWillExpandListener(TreeWillExpandListener tel) {
renderer.removeTreeWillExpandListener(tel);
}
/**
* Returns the selection model for the tree portion of the this treetable.
*
* @return selection model for the tree portion of the this treetable
*/
public TreeSelectionModel getTreeSelectionModel() {
return renderer.getSelectionModel(); // RG: Fix JDNC issue 41
}
/**
* Overriden to invoke supers implementation, and then,
* if the receiver is editing a Tree column, the editors bounds is
* reset. The reason we have to do this is because JTable doesn't
* think the table is being edited, as getEditingRow
returns
* -1, and therefore doesn't automaticly resize the editor for us.
*/
@Override
public void sizeColumnsToFit(int resizingColumn) {
/** TODO: Review wrt doLayout() */
super.sizeColumnsToFit(resizingColumn);
// rg:changed
if (getEditingColumn() != -1 && isHierarchical(editingColumn)) {
Rectangle cellRect = getCellRect(realEditingRow(),
getEditingColumn(), false);
Component component = getEditorComponent();
component.setBounds(cellRect);
component.validate();
}
}
/**
* Determines if the specified column is defined as the hierarchical column.
*
* @param column
* zero-based index of the column in view coordinates
* @return true if the column is the hierarchical column; false otherwise.
* @throws IllegalArgumentException
* if the column is less than 0 or greater than or equal to the
* column count
*/
public boolean isHierarchical(int column) {
if (column < 0 || column >= getColumnCount()) {
throw new IllegalArgumentException("column must be valid, was" + column);
}
return (getHierarchicalColumn() == column);
}
/**
* Returns the index of the hierarchical column. This is the column that is
* displayed as the tree.
*
* @return the index of the hierarchical column, -1 if there is
* no hierarchical column
*
*/
public int getHierarchicalColumn() {
return convertColumnIndexToView(((TreeTableModel) renderer.getModel()).getHierarchicalColumn());
}
/**
* {@inheritDoc}
*/
@Override
public TableCellRenderer getCellRenderer(int row, int column) {
if (isHierarchical(column)) {
return renderer;
}
return super.getCellRenderer(row, column);
}
/**
* {@inheritDoc}
*/
@Override
public TableCellEditor getCellEditor(int row, int column) {
if (isHierarchical(column)) {
return hierarchicalEditor;
}
return super.getCellEditor(row, column);
}
@Override
public void updateUI() {
super.updateUI();
updateHierarchicalRendererEditor();
}
/**
* Updates Ui of renderer/editor for the hierarchical column. Need to do so
* manually, as not accessible by the default lookup.
*/
protected void updateHierarchicalRendererEditor() {
if (renderer != null) {
SwingUtilities.updateComponentTreeUI(renderer);
}
}
/**
* {@inheritDoc}
*
* Overridden to message the tree directly if the column is the view index of
* the hierarchical column.
*
* PENDING JW: revisit once we switch to really using a table renderer. As is, it's
* a quick fix for #821-swingx: string rep for hierarchical column incorrect.
*/
@Override
public String getStringAt(int row, int column) {
if (isHierarchical(column)) {
return getHierarchicalStringAt(row);
}
return super.getStringAt(row, column);
}
/**
* Returns the String representation of the hierarchical column at the given
* row.
*
* @param row the row index in view coordinates
* @return the string representation of the hierarchical column at the given row.
*
* @see #getStringAt(int, int)
*/
private String getHierarchicalStringAt(int row) {
return renderer.getStringAt(row);
}
/**
* ListToTreeSelectionModelWrapper extends DefaultTreeSelectionModel
* to listen for changes in the ListSelectionModel it maintains. Once
* a change in the ListSelectionModel happens, the paths are updated
* in the DefaultTreeSelectionModel.
*/
class ListToTreeSelectionModelWrapper extends DefaultTreeSelectionModel {
/** Set to true when we are updating the ListSelectionModel. */
protected boolean updatingListSelectionModel;
public ListToTreeSelectionModelWrapper() {
super();
getListSelectionModel().addListSelectionListener
(createListSelectionListener());
}
/**
* Returns the list selection model. ListToTreeSelectionModelWrapper
* listens for changes to this model and updates the selected paths
* accordingly.
*/
ListSelectionModel getListSelectionModel() {
return listSelectionModel;
}
/**
* This is overridden to set updatingListSelectionModel
* and message super. This is the only place DefaultTreeSelectionModel
* alters the ListSelectionModel.
*/
@Override
public void resetRowSelection() {
if (!updatingListSelectionModel) {
updatingListSelectionModel = true;
try {
super.resetRowSelection();
}
finally {
updatingListSelectionModel = false;
}
}
// Notice how we don't message super if
// updatingListSelectionModel is true. If
// updatingListSelectionModel is true, it implies the
// ListSelectionModel has already been updated and the
// paths are the only thing that needs to be updated.
}
/**
* Creates and returns an instance of ListSelectionHandler.
*/
protected ListSelectionListener createListSelectionListener() {
return new ListSelectionHandler();
}
/**
* If updatingListSelectionModel
is false, this will
* reset the selected paths from the selected rows in the list
* selection model.
*/
protected void updateSelectedPathsFromSelectedRows() {
if (!updatingListSelectionModel) {
updatingListSelectionModel = true;
try {
if (listSelectionModel.isSelectionEmpty()) {
clearSelection();
} else {
// This is way expensive, ListSelectionModel needs an
// enumerator for iterating.
int min = listSelectionModel.getMinSelectionIndex();
int max = listSelectionModel.getMaxSelectionIndex();
List paths = new ArrayList();
for (int counter = min; counter <= max; counter++) {
if (listSelectionModel.isSelectedIndex(counter)) {
TreePath selPath = renderer.getPathForRow(
counter);
if (selPath != null) {
paths.add(selPath);
}
}
}
setSelectionPaths(paths.toArray(new TreePath[paths.size()]));
// need to force here: usually the leadRow is adjusted
// in resetRowSelection which is disabled during this method
leadRow = leadIndex;
}
}
finally {
updatingListSelectionModel = false;
}
}
}
/**
* Class responsible for calling updateSelectedPathsFromSelectedRows
* when the selection of the list changse.
*/
class ListSelectionHandler implements ListSelectionListener {
@Override
public void valueChanged(ListSelectionEvent e) {
if (!e.getValueIsAdjusting()) {
updateSelectedPathsFromSelectedRows();
}
}
}
}
/**
*
*/
protected static class TreeTableModelAdapter extends AbstractTableModel
implements TreeTableModelProvider {
private TreeModelListener treeModelListener;
private final JTree tree; // immutable
private JXTreeTable treeTable; // logically immutable
/**
* Maintains a TreeTableModel and a JTree as purely implementation details.
* Developers can plug in any type of custom TreeTableModel through a
* JXTreeTable constructor or through setTreeTableModel().
*
* @param tree TreeTableCellRenderer instantiated with the same model as
* the driving JXTreeTable's TreeTableModel.
* @throws IllegalArgumentException if a null tree argument is passed
*/
TreeTableModelAdapter(JTree tree) {
Contract.asNotNull(tree, "tree must not be null");
this.tree = tree; // need tree to implement getRowCount()
tree.getModel().addTreeModelListener(getTreeModelListener());
tree.addTreeExpansionListener(new TreeExpansionListener() {
// Don't use fireTableRowsInserted() here; the selection model
// would get updated twice.
@Override
public void treeExpanded(TreeExpansionEvent event) {
updateAfterExpansionEvent(event);
}
@Override
public void treeCollapsed(TreeExpansionEvent event) {
updateAfterExpansionEvent(event);
}
});
tree.addPropertyChangeListener("model", new PropertyChangeListener() {
@Override
public void propertyChange(PropertyChangeEvent evt) {
TreeTableModel model = (TreeTableModel) evt.getOldValue();
model.removeTreeModelListener(getTreeModelListener());
model = (TreeTableModel) evt.getNewValue();
model.addTreeModelListener(getTreeModelListener());
fireTableStructureChanged();
}
});
}
/**
* updates the table after having received an TreeExpansionEvent.
*
* @param event the TreeExpansionEvent which triggered the method call.
*/
protected void updateAfterExpansionEvent(TreeExpansionEvent event) {
// moved to let the renderer handle directly
// treeTable.getTreeTableHacker().setExpansionChangedFlag();
// JW: delayed fire leads to a certain sluggishness occasionally?
fireTableDataChanged();
}
/**
* Returns the JXTreeTable instance to which this TreeTableModelAdapter is
* permanently and exclusively bound. For use by
* {@link org.jdesktop.swingx.JXTreeTable#setModel(javax.swing.table.TableModel)}.
*
* @return JXTreeTable to which this TreeTableModelAdapter is permanently bound
*/
protected JXTreeTable getTreeTable() {
return treeTable;
}
/**
* Immutably binds this TreeTableModelAdapter to the specified JXTreeTable.
*
* @param treeTable the JXTreeTable instance that this adapter is bound to.
*/
protected final void bind(JXTreeTable treeTable) {
// Suppress potentially subversive invocation!
// Prevent clearing out the deck for possible hijack attempt later!
if (treeTable == null) {
throw new IllegalArgumentException("null treeTable");
}
if (this.treeTable == null) {
this.treeTable = treeTable;
}
else {
throw new IllegalArgumentException("adapter already bound");
}
}
/**
*
* @inherited
*
* Implemented to return the the underlying TreeTableModel.
*/
@Override
public TreeTableModel getTreeTableModel() {
return (TreeTableModel) tree.getModel();
}
// Wrappers, implementing TableModel interface.
// TableModelListener management provided by AbstractTableModel superclass.
@Override
public Class> getColumnClass(int column) {
return getTreeTableModel().getColumnClass(column);
}
@Override
public int getColumnCount() {
return getTreeTableModel().getColumnCount();
}
@Override
public String getColumnName(int column) {
return getTreeTableModel().getColumnName(column);
}
@Override
public int getRowCount() {
return tree.getRowCount();
}
@Override
public Object getValueAt(int row, int column) {
// Issue #270-swingx: guard against invisible row
Object node = nodeForRow(row);
return node != null ? getTreeTableModel().getValueAt(node, column) : null;
}
@Override
public boolean isCellEditable(int row, int column) {
// Issue #270-swingx: guard against invisible row
Object node = nodeForRow(row);
return node != null ? getTreeTableModel().isCellEditable(node, column) : false;
}
@Override
public void setValueAt(Object value, int row, int column) {
// Issue #270-swingx: guard against invisible row
Object node = nodeForRow(row);
if (node != null) {
getTreeTableModel().setValueAt(value, node, column);
}
}
protected Object nodeForRow(int row) {
// Issue #270-swingx: guard against invisible row
TreePath path = tree.getPathForRow(row);
return path != null ? path.getLastPathComponent() : null;
}
/**
* @return TreeModelListener
*/
private TreeModelListener getTreeModelListener() {
if (treeModelListener == null) {
treeModelListener = new TreeModelListener() {
@Override
public void treeNodesChanged(TreeModelEvent e) {
// LOG.info("got tree event: changed " + e);
delayedFireTableDataUpdated(e);
}
// We use delayedFireTableDataChanged as we can
// not be guaranteed the tree will have finished processing
// the event before us.
@Override
public void treeNodesInserted(TreeModelEvent e) {
delayedFireTableDataChanged(e, 1);
}
@Override
public void treeNodesRemoved(TreeModelEvent e) {
// LOG.info("got tree event: removed " + e);
delayedFireTableDataChanged(e, 2);
}
@Override
public void treeStructureChanged(TreeModelEvent e) {
// ?? should be mapped to structureChanged -- JW
if (isTableStructureChanged(e)) {
delayedFireTableStructureChanged();
} else {
delayedFireTableDataChanged();
}
}
};
}
return treeModelListener;
}
/**
* Decides if the given treeModel structureChanged should
* trigger a table structureChanged. Returns true if the
* source path is the root or null, false otherwise.
*
* PENDING: need to refine? "Marker" in Event-Object?
*
* @param e the TreeModelEvent received in the treeModelListener's
* treeStructureChanged
* @return a boolean indicating whether the given TreeModelEvent
* should trigger a structureChanged.
*/
private boolean isTableStructureChanged(TreeModelEvent e) {
if ((e.getTreePath() == null) ||
(e.getTreePath().getParentPath() == null)) return true;
return false;
}
/**
* Invokes fireTableDataChanged after all the pending events have been
* processed. SwingUtilities.invokeLater is used to handle this.
*/
private void delayedFireTableStructureChanged() {
SwingUtilities.invokeLater(new Runnable() {
@Override
public void run() {
fireTableStructureChanged();
}
});
}
/**
* Invokes fireTableDataChanged after all the pending events have been
* processed. SwingUtilities.invokeLater is used to handle this.
*/
private void delayedFireTableDataChanged() {
SwingUtilities.invokeLater(new Runnable() {
@Override
public void run() {
fireTableDataChanged();
}
});
}
/**
* Invokes fireTableDataChanged after all the pending events have been
* processed. SwingUtilities.invokeLater is used to handle this.
* Allowed event types: 1 for insert, 2 for delete
*/
private void delayedFireTableDataChanged(final TreeModelEvent tme, final int typeChange) {
if ((typeChange < 1 ) || (typeChange > 2))
throw new IllegalArgumentException("Event type must be 1 or 2, was " + typeChange);
// expansion state before invoke may be different
// from expansion state in invoke
final boolean expanded = tree.isExpanded(tme.getTreePath());
// quick test if tree throws for unrelated path. Seems like not.
// tree.getRowForPath(new TreePath("dummy"));
SwingUtilities.invokeLater(new Runnable() {
@Override
public void run() {
int indices[] = tme.getChildIndices();
TreePath path = tme.getTreePath();
// quick test to see if bailing out is an option
// if (false) {
if (indices != null) {
if (expanded) { // Dont bother to update if the parent
// node is collapsed
// indices must in ascending order, as per TreeEvent/Listener doc
int min = indices[0];
int max = indices[indices.length - 1];
int startingRow = tree.getRowForPath(path) + 1;
min = startingRow + min;
max = startingRow + max;
switch (typeChange) {
case 1:
// LOG.info("rows inserted: path " + path + "/" + min + "/"
// + max);
fireTableRowsInserted(min, max);
break;
case 2:
// LOG.info("rows deleted path " + path + "/" + min + "/"
// + max);
fireTableRowsDeleted(min, max);
break;
}
} else {
// not expanded - but change might effect appearance
// of parent
// Issue #82-swingx
int row = tree.getRowForPath(path);
// fix Issue #247-swingx: prevent accidental
// structureChanged
// for collapsed path
// in this case row == -1, which ==
// TableEvent.HEADER_ROW
if (row >= 0)
fireTableRowsUpdated(row, row);
}
} else { // case where the event is fired to identify
// root.
fireTableDataChanged();
}
}
});
}
/**
* This is used for updated only. PENDING: not necessary to delay?
* Updates are never structural changes which are the critical.
*
* @param tme
*/
protected void delayedFireTableDataUpdated(final TreeModelEvent tme) {
final boolean expanded = tree.isExpanded(tme.getTreePath());
SwingUtilities.invokeLater(new Runnable() {
@Override
public void run() {
int indices[] = tme.getChildIndices();
TreePath path = tme.getTreePath();
if (indices != null) {
if (expanded) { // Dont bother to update if the parent
// node is collapsed
Object children[] = tme.getChildren();
// can we be sure that children.length > 0?
// int min = tree.getRowForPath(path.pathByAddingChild(children[0]));
// int max = tree.getRowForPath(path.pathByAddingChild(children[children.length -1]));
int min = Integer.MAX_VALUE;
int max = Integer.MIN_VALUE;
for (int i = 0; i < indices.length; i++) {
Object child = children[i];
TreePath childPath = path
.pathByAddingChild(child);
int index = tree.getRowForPath(childPath);
if (index < min) {
min = index;
}
if (index > max) {
max = index;
}
}
// LOG.info("Updated: parentPath/min/max" + path + "/" + min + "/" + max);
// JW: the index is occasionally - 1 - need further digging
fireTableRowsUpdated(Math.max(0, min), Math.max(0, max));
} else {
// not expanded - but change might effect appearance
// of parent Issue #82-swingx
int row = tree.getRowForPath(path);
// fix Issue #247-swingx: prevent accidental structureChanged
// for collapsed path in this case row == -1,
// which == TableEvent.HEADER_ROW
if (row >= 0)
fireTableRowsUpdated(row, row);
}
} else { // case where the event is fired to identify
// root.
fireTableDataChanged();
}
}
});
}
}
static class TreeTableCellRenderer extends JXTree implements
TableCellRenderer
// need to implement RolloverRenderer
// PENDING JW: method name clash rolloverRenderer.isEnabled and
// component.isEnabled .. don't extend, use? And change
// the method name in rolloverRenderer?
// commented - so doesn't show the rollover cursor.
//
// , RolloverRenderer
{
private PropertyChangeListener rolloverListener;
// Force user to specify TreeTableModel instead of more general
// TreeModel
public TreeTableCellRenderer(TreeTableModel model) {
super(model);
putClientProperty("JTree.lineStyle", "None");
setRootVisible(false); // superclass default is "true"
setShowsRootHandles(true); // superclass default is "false"
/**
* TODO: Support truncated text directly in
* DefaultTreeCellRenderer.
*/
// removed as fix for #769-swingx: defaults for treetable should be same as tree
// setOverwriteRendererIcons(true);
// setCellRenderer(new DefaultTreeRenderer());
setCellRenderer(new ClippedTreeCellRenderer());
}
/**
* {@inheritDoc}
*
* Overridden to hack around #766-swingx: cursor flickering in DnD
* when dragging over tree column. This is a core bug (#6700748) related
* to painting the rendering component on a CellRendererPane. A trick
* around is to let this return false.
*
* This implementation applies the trick, that is returns false always.
* The hack can be disabled by setting the treeTable's client property
* DROP_HACK_FLAG_KEY to Boolean.FALSE.
*
*/
@Override
public boolean isVisible() {
return shouldApplyDropHack() ? false : super.isVisible();
}
/**
* Returns a boolean indicating whether the drop hack should be applied.
*
* @return a boolean indicating whether the drop hack should be applied.
*/
protected boolean shouldApplyDropHack() {
return !Boolean.FALSE.equals(treeTable.getClientProperty(DROP_HACK_FLAG_KEY));
}
/**
* Hack around #297-swingx: tooltips shown at wrong row.
*
* The problem is that - due to much tricksery when rendering the tree -
* the given coordinates are rather useless. As a consequence, super
* maps to wrong coordinates. This takes over completely.
*
* PENDING: bidi?
*
* @param event the mouseEvent in treetable coordinates
* @param row the view row index
* @param column the view column index
* @return the tooltip as appropriate for the given row
*/
private String getToolTipText(MouseEvent event, int row, int column) {
if (row < 0) return null;
String toolTip = null;
TreeCellRenderer renderer = getCellRenderer();
TreePath path = getPathForRow(row);
Object lastPath = path.getLastPathComponent();
Component rComponent = renderer.getTreeCellRendererComponent
(this, lastPath, isRowSelected(row),
isExpanded(row), getModel().isLeaf(lastPath), row,
true);
if(rComponent instanceof JComponent) {
Rectangle pathBounds = getPathBounds(path);
Rectangle cellRect = treeTable.getCellRect(row, column, false);
// JW: what we are after
// is the offset into the hierarchical column
// then intersect this with the pathbounds
Point mousePoint = event.getPoint();
// translate to coordinates relative to cell
mousePoint.translate(-cellRect.x, -cellRect.y);
// translate horizontally to
mousePoint.translate(-pathBounds.x, 0);
// show tooltip only if over renderer?
// if (mousePoint.x < 0) return null;
// p.translate(-pathBounds.x, -pathBounds.y);
MouseEvent newEvent = new MouseEvent(rComponent, event.getID(),
event.getWhen(),
event.getModifiers(),
mousePoint.x,
mousePoint.y,
// p.x, p.y,
event.getClickCount(),
event.isPopupTrigger());
toolTip = ((JComponent)rComponent).getToolTipText(newEvent);
}
if (toolTip != null) {
return toolTip;
}
return getToolTipText();
}
/**
* {@inheritDoc}
*
* Overridden to not automatically de/register itself from/to the ToolTipManager.
* As rendering component it is not considered to be active in any way, so the
* manager must not listen.
*/
@Override
public void setToolTipText(String text) {
putClientProperty(TOOL_TIP_TEXT_KEY, text);
}
/**
* Immutably binds this TreeTableModelAdapter to the specified JXTreeTable.
* For internal use by JXTreeTable only.
*
* @param treeTable the JXTreeTable instance that this renderer is bound to
*/
public final void bind(JXTreeTable treeTable) {
// Suppress potentially subversive invocation!
// Prevent clearing out the deck for possible hijack attempt later!
if (treeTable == null) {
throw new IllegalArgumentException("null treeTable");
}
if (this.treeTable == null) {
this.treeTable = treeTable;
// commented because still has issus
// bindRollover();
}
else {
throw new IllegalArgumentException("renderer already bound");
}
}
/**
* Install rollover support.
* Not used - still has issues.
* - not bidi-compliant
* - no coordinate transformation for hierarchical column != 0
* - method name clash enabled
* - keyboard triggered click unreliable (triggers the treetable)
* ...
*/
@SuppressWarnings("unused")
private void bindRollover() {
setRolloverEnabled(treeTable.isRolloverEnabled());
treeTable.addPropertyChangeListener(getRolloverListener());
}
/**
* @return
*/
private PropertyChangeListener getRolloverListener() {
if (rolloverListener == null) {
rolloverListener = createRolloverListener();
}
return rolloverListener;
}
/**
* Creates and returns a property change listener for
* table's rollover related properties.
*
* This implementation
* - Synchs the tree's rolloverEnabled
* - maps rollover cell from the table to the cell
* (still incomplete: first column only)
*
* @return
*/
protected PropertyChangeListener createRolloverListener() {
PropertyChangeListener l = new PropertyChangeListener() {
@Override
public void propertyChange(PropertyChangeEvent evt) {
if ((treeTable == null) || (treeTable != evt.getSource()))
return;
if ("rolloverEnabled".equals(evt.getPropertyName())) {
setRolloverEnabled(((Boolean) evt.getNewValue()).booleanValue());
}
if (RolloverProducer.ROLLOVER_KEY.equals(evt.getPropertyName())){
rollover(evt);
}
}
private void rollover(PropertyChangeEvent evt) {
boolean isHierarchical = isHierarchical((Point)evt.getNewValue());
putClientProperty(evt.getPropertyName(), isHierarchical ?
new Point((Point) evt.getNewValue()) : null);
}
private boolean isHierarchical(Point point) {
if (point != null) {
int column = point.x;
if (column >= 0) {
return treeTable.isHierarchical(column);
}
}
return false;
}
@SuppressWarnings("unused")
Point rollover = new Point(-1, -1);
};
return l;
}
/**
* {@inheritDoc}
*
* Overridden to produce clicked client props only. The
* rollover are produced by a propertyChangeListener to
* the table's corresponding prop.
*
*/
@Override
protected RolloverProducer createRolloverProducer() {
return new RolloverProducer() {
/**
* Overridden to do nothing.
*
* @param e
* @param property
*/
@Override
protected void updateRollover(MouseEvent e, String property, boolean fireAlways) {
if (CLICKED_KEY.equals(property)) {
super.updateRollover(e, property, fireAlways);
}
}
@Override
protected void updateRolloverPoint(JComponent component,
Point mousePoint) {
JXTree tree = (JXTree) component;
int row = tree.getClosestRowForLocation(mousePoint.x, mousePoint.y);
Rectangle bounds = tree.getRowBounds(row);
if (bounds == null) {
row = -1;
} else {
if ((bounds.y + bounds.height < mousePoint.y) ||
bounds.x > mousePoint.x) {
row = -1;
}
}
int col = row < 0 ? -1 : 0;
rollover.x = col;
rollover.y = row;
}
};
}
@Override
public void scrollRectToVisible(Rectangle aRect) {
treeTable.scrollRectToVisible(aRect);
}
@Override
protected void setExpandedState(TreePath path, boolean state) {
// JW: fix for #1126 - CellEditors are removed immediately after starting an
// edit if they involve a change of selection and the
// expandsOnSelection property is true
// back out if the selection change does not cause a change in
// expansion state
if (isExpanded(path) == state) return;
// on change of expansion state, the editor's row might be changed
// for simplicity, it's stopped always (even if the row is not changed)
treeTable.getTreeTableHacker().completeEditing();
super.setExpandedState(path, state);
treeTable.getTreeTableHacker().expansionChanged();
}
/**
* updateUI is overridden to set the colors of the Tree's renderer
* to match that of the table.
*/
@Override
public void updateUI() {
super.updateUI();
// Make the tree's cell renderer use the table's cell selection
// colors.
// TODO JW: need to revisit...
// a) the "real" of a JXTree is always wrapped into a DelegatingRenderer
// consequently the if-block never executes
// b) even if it does it probably (?) should not
// unconditionally overwrite custom selection colors.
// Check for UIResources instead.
TreeCellRenderer tcr = getCellRenderer();
if (tcr instanceof DefaultTreeCellRenderer) {
DefaultTreeCellRenderer dtcr = ((DefaultTreeCellRenderer) tcr);
// For 1.1 uncomment this, 1.2 has a bug that will cause an
// exception to be thrown if the border selection color is null.
dtcr.setBorderSelectionColor(null);
dtcr.setTextSelectionColor(
UIManager.getColor("Table.selectionForeground"));
dtcr.setBackgroundSelectionColor(
UIManager.getColor("Table.selectionBackground"));
}
}
/**
* Sets the row height of the tree, and forwards the row height to
* the table.
*
*
*/
@Override
public void setRowHeight(int rowHeight) {
// JW: can't ... updateUI invoked with rowHeight = 0
// hmmm... looks fishy ...
// if (rowHeight <= 0) throw
// new IllegalArgumentException("the rendering tree must have a fixed rowHeight > 0");
super.setRowHeight(rowHeight);
if (rowHeight > 0) {
if (treeTable != null) {
treeTable.adjustTableRowHeight(rowHeight);
}
}
}
/**
* This is overridden to set the location to (0, 0) and set
* the dimension to exactly fill the bounds of the hierarchical
* column.
*/
@Override
public void setBounds(int x, int y, int w, int h) {
// location is relative to the hierarchical column
y = 0;
x = 0;
if (treeTable != null) {
// adjust height to table height
// It is not enough to set the height to treeTable.getHeight()
// JW: why not?
h = treeTable.getRowCount() * this.getRowHeight();
int hierarchicalC = treeTable.getHierarchicalColumn();
// JW: re-introduced to fix Issue 1168-swingx
if (hierarchicalC >= 0) {
TableColumn column = treeTable.getColumn(hierarchicalC);
// adjust width to width of hierarchical column
w = column.getWidth();
}
}
super.setBounds(x, y, w, h);
}
/**
* Sublcassed to translate the graphics such that the last visible row
* will be drawn at 0,0.
*/
@Override
public void paint(Graphics g) {
Rectangle cellRect = treeTable.getCellRect(visibleRow, 0, false);
g.translate(0, -cellRect.y);
hierarchicalColumnWidth = getWidth();
super.paint(g);
// Draw the Table border if we have focus.
if (highlightBorder != null) {
// #170: border not drawn correctly
// JW: position the border to be drawn in translated area
// still not satifying in all cases...
// RG: Now it satisfies (at least for the row margins)
// Still need to make similar adjustments for column margins...
highlightBorder.paintBorder(this, g, 0, cellRect.y,
getWidth(), cellRect.height);
}
}
public void doClick() {
if ((getCellRenderer() instanceof RolloverRenderer)
&& ((RolloverRenderer) getCellRenderer()).isEnabled()) {
((RolloverRenderer) getCellRenderer()).doClick();
}
}
@Override
public boolean isRowSelected(int row) {
if ((treeTable == null) || (treeTable.getHierarchicalColumn() <0)) return false;
return treeTable.isCellSelected(row, treeTable.getHierarchicalColumn());
}
@Override
public Component getTableCellRendererComponent(JTable table,
Object value,
boolean isSelected, boolean hasFocus, int row, int column) {
assert table == treeTable;
// JW: quick fix for the tooltip part of #794-swingx:
// visual properties must be reset in each cycle.
// reverted - otherwise tooltip per Highlighter doesn't work
//
// setToolTipText(null);
if (isSelected) {
setBackground(table.getSelectionBackground());
setForeground(table.getSelectionForeground());
}
else {
setBackground(table.getBackground());
setForeground(table.getForeground());
}
highlightBorder = null;
if (treeTable != null) {
if (treeTable.realEditingRow() == row &&
treeTable.getEditingColumn() == column) {
}
else if (hasFocus) {
highlightBorder = UIManager.getBorder(
"Table.focusCellHighlightBorder");
}
}
visibleRow = row;
return this;
}
private class ClippedTreeCellRenderer extends DefaultXTreeCellRenderer
implements StringValue
{
@SuppressWarnings("unused")
private boolean inpainting;
private String shortText;
@Override
public void paint(Graphics g) {
String fullText = super.getText();
shortText = SwingUtilities.layoutCompoundLabel(
this, g.getFontMetrics(), fullText, getIcon(),
getVerticalAlignment(), getHorizontalAlignment(),
getVerticalTextPosition(), getHorizontalTextPosition(),
getItemRect(itemRect), iconRect, textRect,
getIconTextGap());
/** TODO: setText is more heavyweight than we want in this
* situation. Make JLabel.text protected instead of private.
*/
try {
inpainting = true;
// TODO JW: don't - override getText to return the short version
// during painting
setText(shortText); // temporarily truncate text
super.paint(g);
} finally {
inpainting = false;
setText(fullText); // restore full text
}
}
private Rectangle getItemRect(Rectangle itemRect) {
getBounds(itemRect);
// LOG.info("rect" + itemRect);
itemRect.width = hierarchicalColumnWidth - itemRect.x;
return itemRect;
}
@Override
public Component getTreeCellRendererComponent(JTree tree, Object value, boolean sel, boolean expanded, boolean leaf, int row, boolean hasFocus) {
return super.getTreeCellRendererComponent(tree, getHierarchicalTableValue(value), sel, expanded, leaf,
row, hasFocus);
}
/**
*
* @param node the node in the treeModel as passed into the TreeCellRenderer
* @return the corresponding value of the hierarchical cell in the TreeTableModel
*/
private Object getHierarchicalTableValue(Object node) {
Object val = node;
if (treeTable != null) {
int treeColumn = treeTable.getTreeTableModel().getHierarchicalColumn();
Object o = null;
if (treeColumn >= 0) {
// following is unreliable during a paint cycle
// somehow interferes with BasicTreeUIs painting cache
// o = treeTable.getValueAt(row, treeColumn);
// ask the model - that's always okay
// might blow if the TreeTableModel is strict in
// checking the containment of the value and
// this renderer is called for sizing with a prototype
o = treeTable.getTreeTableModel().getValueAt(node, treeColumn);
}
val = o;
}
return val;
}
/**
* {@inheritDoc}
*/
@Override
public String getString(Object node) {
// int treeColumn = treeTable.getTreeTableModel().getHierarchicalColumn();
// if (treeColumn >= 0) {
// return StringValues.TO_STRING.getString(treeTable.getTreeTableModel().getValueAt(value, treeColumn));
// }
return StringValues.TO_STRING.getString(getHierarchicalTableValue(node));
}
// Rectangles filled in by SwingUtilities.layoutCompoundLabel();
private final Rectangle iconRect = new Rectangle();
private final Rectangle textRect = new Rectangle();
// Rectangle filled in by this.getItemRect();
private final Rectangle itemRect = new Rectangle();
}
/** Border to draw around the tree, if this is non-null, it will
* be painted. */
protected Border highlightBorder = null;
protected JXTreeTable treeTable = null;
protected int visibleRow = 0;
// A JXTreeTable may not have more than one hierarchical column
private int hierarchicalColumnWidth = 0;
}
/**
* Returns the adapter that knows how to access the component data model.
* The component data adapter is used by filters, sorters, and highlighters.
*
* @return the adapter that knows how to access the component data model
*/
@Override
protected ComponentAdapter getComponentAdapter() {
if (dataAdapter == null) {
dataAdapter = new TreeTableDataAdapter(this);
}
return dataAdapter;
}
protected static class TreeTableDataAdapter extends JXTable.TableAdapter {
private final JXTreeTable table;
/**
* Constructs a TreeTableDataAdapter
for the specified
* target component.
*
* @param component the target component
*/
public TreeTableDataAdapter(JXTreeTable component) {
super(component);
table = component;
}
public JXTreeTable getTreeTable() {
return table;
}
/**
* {@inheritDoc}
*/
@Override
public boolean isExpanded() {
return table.isExpanded(row);
}
/**
* {@inheritDoc}
*/
@Override
public int getDepth() {
return table.getPathForRow(row).getPathCount() - 1;
}
/**
* {@inheritDoc}
*/
@Override
public boolean isLeaf() {
// Issue #270-swingx: guard against invisible row
TreePath path = table.getPathForRow(row);
if (path != null) {
return table.getTreeTableModel().isLeaf(path.getLastPathComponent());
}
// JW: this is the same as BasicTreeUI.isLeaf.
// Shouldn't happen anyway because must be called for visible rows only.
return true;
}
/**
*
* @return true if the cell identified by this adapter displays hierarchical
* nodes; false otherwise
*/
@Override
public boolean isHierarchical() {
return table.isHierarchical(column);
}
/**
* {@inheritDoc}
*
* Overridden to fix #821-swingx: string rep of hierarchical column incorrect.
* In this case we must delegate to the tree directly (via treetable.getHierarchicalString).
*
* PENDING JW: revisit once we switch to really using a table renderer.
*/
@Override
public String getFilteredStringAt(int row, int column) {
if (table.getTreeTableModel().getHierarchicalColumn() == column) {
if (convertColumnIndexToView(column) < 0) {
// hidden hierarchical column, access directly
// PENDING JW: after introducing and wiring StringValueRegistry,
// had to change to query the hierarchicalString always
// could probably be done more elegantly, but ...
}
return table.getHierarchicalStringAt(row);
}
return super.getFilteredStringAt(row, column);
}
/**
* {@inheritDoc}
*
* Overridden to fix #821-swingx: string rep of hierarchical column incorrect.
* In this case we must delegate to the tree directly (via treetable.getHierarchicalString).
*
* PENDING JW: revisit once we switch to really using a table renderer.
*/
@Override
public String getStringAt(int row, int column) {
if (table.getTreeTableModel().getHierarchicalColumn() == column) {
if (convertColumnIndexToView(column) < 0) {
// hidden hierarchical column, access directly
// PENDING JW: after introducing and wiring StringValueRegistry,
// had to change to query the hierarchicalString always
// could probably be done more elegantly, but ...
}
return table.getHierarchicalStringAt(row);
}
return super.getStringAt(row, column);
}
}
}