The JavaTM Tutorial
Previous Page Lesson Contents Next Page Start of Tutorial > Start of Trail > Start of Lesson Search
Feedback Form

Trail: Creating a GUI with JFC/Swing
Lesson: Using Swing Components

How to Use Root Panes

In general, you don't directly create a JRootPane(in the API reference documentation) object. Instead, you get a JRootPane (whether you want it or not!) when you instantiate JInternalFrame or one of the top-level Swing containers, such as JApplet, JDialog, and JFrame.

Using Top-Level Containers tells you the basics of using root panes -- getting the content pane, setting its layout manager, and adding Swing components to it. This section tells you more about root panes, including the components that make up a root pane and how you can use them. Another place to get information about root panes is The Swing Connection, especially the article Understanding Containers.

A root pane manages four other panes: a layered pane, a menu bar, a content pane, and a glass pane.

As the preceding figure shows, a root pane has four parts:
The glass pane
Hidden, by default. If you make the glass pane visible, then it's like a sheet of glass over all the other parts of the root pane. It's completely transparent unless you implement the glass pane's paint method so that it does something, and it intercepts input events for the root pane. In the next section, you'll see an example of using a glass pane.
The layered pane
Serves to position its contents, which consist of the content pane and the optional menu bar. Can also hold other components in a specified Z order. For information, see The Layered Pane.
The content pane
The container of the root pane's visible components, excluding the menu bar. For information on using the content pane, see Using Top-Level Containers.
The optional menu bar
The home for the root pane's container's menus. If the container has a menu bar, you generally use the container's setJMenuBar method to put the menu bar in the appropriate place. For more information on using menus and menu bars, see How to Use Menus.

The Glass Pane

The glass pane is useful when you want to be able to catch events or paint over an area that already contains one or more components. For example, you can deactivate mouse events for a multi-component region by having the glass pane intercept the events. Or you can display an image over multiple components using the glass pane.

Here's a picture of an application that demonstrates glass pane features. It contains a check box that lets you set whether the glass pane is "visible" -- whether it can get events and paint itself onscreen. When the glass pane is visible, it blocks all input events from reaching the components in the content pane. It also paints a red dot in the place where it last detected a mouse-pressed event.

A snapshot of GlassPaneDemo


Try this: 
  1. Compile and run the application. The source file is GlassPaneDemo.java(in a .java source file).
    See Getting Started with Swing if you need help compiling or running this application.
  2. Click Button 1.
    The button's appearance changes to show that it's been clicked.
  3. Click the check box so that the glass pane becomes "visible," and then click Button 1 again.
    The button does not detect the mouse-pressed event because the glass pane intercepts it. When the glass pane detects the event, it beeps and paints a red circle where you clicked.
  4. Click the check box again so that the glass pane is hidden.
    When the root pane detects an event over the check box, it forwards it to the check box. Otherwise, the check box would not respond to clicks.

The following code from GlassPaneDemo.java(in a .java source file) shows and hides the glass pane. This program happens to create its own glass pane, setting it using the JFrame setGlassPane method. However, if a glass pane doesn't do any painting, the program might simply attach listeners to the default glass pane, as returned by getGlassPane.

...//where GlassPaneDemo's UI is initialized:
JCheckBox changeButton =
        new JCheckBox("Glass pane \"visible\"");
changeButton.setSelected(false);
changeButton.addItemListener(new ItemListener() {
    public void itemStateChanged(ItemEvent e) {
        myGlassPane.setVisible(e.getStateChange()
                               == ItemEvent.SELECTED);
    }
});

The next code snippet implements the mouse-event handling for the glass pane. If a mouse event occurs over the check box or menu bar, then the glass pane redispatches the event so that the check box or menu component receives it. So that the check box and menu behave properly, they also receive all drag events that started with a press in the button or menu bar.

...//In the implementation of the glass pane's mouse listener:
public void mouseMoved(MouseEvent e) {
    redispatchMouseEvent(e, false);
}

.../* The mouseDragged, mouseClicked, mouseEntered,
    * mouseExited, and mousePressed methods have the same
    * implementation as mouseMoved*/...

public void mouseReleased(MouseEvent e) {
    redispatchMouseEvent(e, true);
    inDrag = false;
}

private void redispatchMouseEvent(MouseEvent e, boolean repaint) {
    boolean inButton = false;
    boolean inMenuBar = false;
    Point glassPanePoint = e.getPoint();
    Component component = null;
    Container container = contentPane;
    Point containerPoint = SwingUtilities.convertPoint(
                                    glassPane,
                                    glassPanePoint,
                                    contentPane);
    int eventID = e.getID();

    if (containerPoint.y < 0) {
        inMenuBar = true;
        //...set container and containerPoint accordingly...
        testForDrag(eventID);
    }

    component = SwingUtilities.getDeepestComponentAt(
                                    container,
                                    containerPoint.x,
                                    containerPoint.y);

    if (component.equals(liveButton)) {
        inButton = true;
        testForDrag(eventID);
    }

    if (inMenuBar || inButton || inDrag) {
        ...//Redispatch the event to component...
    }

    if (repaint) {
        toolkit.beep();
        glassPane.setPoint(glassPanePoint);
        glassPane.repaint();
    }
}

private void testForDrag(int eventID) {
    if (eventID == MouseEvent.MOUSE_PRESSED) {
        inDrag = true;
    }
}
Here is the code that implements the painting for the glass pane:
...//where GlassPaneDemo's UI is initialized:
myGlassPane = new MyGlassPane(...);
frame.setGlassPane(myGlassPane);
...
/**
 * We have to provide our own glass pane so that it can paint.
 */
class MyGlassPane extends JComponent {
    Point point = null;

    public void paint(Graphics g) {
    	if (point != null) {
	    g.setColor(Color.red);
    	    g.fillOval(point.x - 10, point.y - 10, 20, 20);
    	}
    }
    ...
}

The Layered Pane

A root pane places its menu bar and content pane in an instance of JLayeredPane--a container with depth--such that overlapping components can appear one on top of the other. This is useful for displaying popup menus above other components, for example. Your programs can also put components in the root pane's layered pane. If you do, then you should be aware that certain depths are defined to be used for specific functions, and you should use the depths as intended. Otherwise, your components might not play well with the others. Here's a diagram that shows the functional layers and their relationship:

Layers defined by JLayeredPane

The table below describes the intended use for each layer and the named constant defined in the JLayeredPane class that corresponds to it:
Layer NameValueDescription
FRAME_CONTENT_LAYER new Integer(-30000) This layer is used to position the frame's content pane and menu bar. Most programs won't use this. The root pane adds the menu bar and content pane to its layered pane at this depth.
DEFAULT_LAYER new Integer(0) Most components go in this layer. If you don't specify a component's depth, the layered pane puts it at this depth.
PALETTE_LAYER new Integer(100) This layer is useful for floating toolbars and palettes.
MODAL_LAYER new Integer(200) Modal internal-frame dialogs would belong in this layer.
POPUP_LAYER new Integer(300) Popups go in this layer because they need to appear above just about everything.
DRAG_LAYER new Integer(400) Move a component to this layer when dragging. Return the component to its regular layer when dropped.
This tutorial does not provide an example of using the root pane's layered pane. However, by modifying a few lines of code in the example described in How to Use Layered Panes, you can make the program use the root pane's layered pane instead of creating one. The left column in this table shows the code as it appears in LayeredPaneDemo.java(in a .java source file). The right column shows how to change it:

From...To...
layeredPane = new JLayeredPane(); layeredPane = getLayeredPane();
final int YFUDGE = 57; final int YFUDGE = 27;
Point origin = new Point(10, 20); Point origin = new Point(10, 70);
contentPane.add(layeredPane); //contentPane.add(layeredPane);
frame.pack(); frame.setSize(new Dimension(350, 400));

Because the program now uses the root pane's layered pane, the Duke label can be dragged all around inside the window and over the components in the control panel. What do you suppose happens when you bring up the combo box? Will Duke be under the combo box's menu or over it?

Were you right?

Notice that the layered pane's mouse listener is not notified of events when the mouse is over the combo box or the checkbox.

The Root Pane API

The tables that follow list the API for using root panes, glass panes, and content panes. For more information on using content panes, go to Using Top-Level Containers. Here are the tables in this section:

The API for using other parts of the root pane is described elsewhere:

Using a Root Pane
Method Purpose
JRootPane getRootPane()
(in JApplet, JDialog, JFrame, JInternalFrame, and JWindow)
Get the root pane of the applet, dialog, frame, internal frame, or window.
JRootPane SwingUtilities.getRootPane(Component) If the component contains a root pane, returns that root pane. Otherwise, returns the root pane (if any) that contains the component.
JRootPane getRootPane()
(in JComponent)
Invokes the SwingUtilities getRootPane method on the JComponent.
void setDefaultButton(JButton)
JButton getDefaultButton()
Set or get which button (if any) is the default button in the root pane. A look-and-feel-specific action, such as pressing Enter, causes the button's action to be performed.

Setting or Getting the Glass Pane
Method Purpose
setGlassPane(Component)
Component getGlassPane()

(in JApplet, JDialog, JFrame, JInternalFrame, JRootPane, and JWindow)
Sets or gets the glass pane.
Setting or Getting the Content Pane
Method Purpose
setContentPane(Container)
Container getContentPane()

(in JApplet, JDialog, JFrame, JInternalFrame, JRootPane, and JWindow)
Set or get the content pane.

Examples that Use Root Panes

Every Swing program has a root pane, but few reference it directly. The examples in the following list illustrate how to use features of JRootPane or the glass pane. Also see these lists:

Example Where Described Notes
GlassPaneDemo This section Uses a glass pane. Redispatches events.
ListDialog How to Use BoxLayout(in the Creating a GUI with JFC/Swing trail) Sets the default button for a top-level container, using the root pane's setDefaultButton method.
AppletDemo How to Make Applets Sets a property on the root pane, to try to avoid a security check that can cause disturbing messages in the console in JDK 1.1.


Previous Page Lesson Contents Next Page Start of Tutorial > Start of Trail > Start of Lesson Search
Feedback Form

Copyright 1995-2001 Sun Microsystems, Inc. All rights reserved.