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Before you try to use a top-level container, you should read and understand Swing Components and the Containment Hierarchy. In particular, you should know these facts:Here's a picture of a frame created by an application. The frame contains an empty cyan menu bar and, in the frame's content pane, a large yellow label.
- Swing provides three generally useful top-level container classes:
JFrame
,JDialog
, andJApplet
.
Note: Swing contains a fourth top-level container,JWindow
, which we don't cover because it isn't generally useful.JWindow
is the Swing version of the AWTWindow
class, which provides a window with no controls or title that is always on top of every other window.Swing also provides an intermediate container,
JInternalFrame
, that mimics a frame. However, internal frames aren't actually top-level containers.- To appear onscreen, every GUI component must be part of a containment hierarchy. Each containment hierarchy has a top-level container as its root.
- Each top-level container has a content pane that, generally speaking, contains the visible components in that top-level container's GUI.
- You can optionally add a menu bar to a top-level container. The menu bar is positioned within the top-level container, but outside the content pane.
You can find the entire source for this example in
TopLevelDemo.java
. Although the example uses aJFrame
in a standalone application, the same concepts apply toJApplet
s andJDialog
s.Here's the containment hierarchy for this example's GUI:
As the ellipses imply, we left some details out of this diagram. We reveal the missing details a bit later. Here are the topics this section discusses:
Each program that uses Swing components has at least one top-level container. This top-level container is the root of a containment hierarchy -- the hierarchy that contains all of the Swing components that appear inside the top-level container.As a rule, a standalone application with a Swing-based GUI has at least one containment hierarchy with a
JFrame
as its root. For example, if an application has one main window and two dialogs, then the application has three containment hierarchies, and thus three top-level containers. One containment hierarchy has aJFrame
as its root, and each of the other two has aJDialog
object as its root.A Swing-based applet has at least one containment hierarchy, exactly one of which is rooted by a
JApplet
object. For example, an applet that brings up a dialog has two containment hierarchies. The components in the browser window are in a containment hierarchy rooted by aJApplet
object. The dialog has a containment hierarchy rooted by aJDialog
object.
Here's the code that the preceding example uses to get a frame's content pane and add the yellow label to it:As the code shows, you find the content pane of a top-level container by calling theframe.getContentPane().add(yellowLabel, BorderLayout.CENTER);getContentPane
method. The default content pane is a simple intermediate container that inherits fromJComponent
, and that uses aBorderLayout
as its layout manager.It's easy to customize the content pane -- setting the layout manager or adding a border, for example. However, there is one tiny gotcha. The
getContentPane
method returns aContainer
object, not aJComponent
object. This means that if you want to take advantage of the content pane'sJComponent
features, you need to either typecast the return value or create your own component to be the content pane. Our examples generally take the second approach, since it's a little cleaner. Another approach we sometimes take is to simply add a customized component to the content pane, covering the content pane completely.If you create your own content pane, make sure it's opaque. A
JPanel
object makes a good content pane because it's simple and it's opaque, by default. Note that the default layout manager forJPanel
isFlowLayout
; you'll probably want to change it. To make a component the content pane, use the top-level container'ssetContentPane
method. For example:JPanel contentPane = new JPanel(); contentPane.setLayout(new BorderLayout()); contentPane.setBorder(someBorder); contentPane.add(someComponent, BorderLayout.CENTER); contentPane.add(anotherComponent, BorderLayout.SOUTH); topLevelContainer.setContentPane(contentPane);
Note: Don't use non-opaque containers such asJScrollPane
,JSplitPane
, andJTabbedPane
as content panes. A non-opaque content pane results in messy repaints. Although you can make any Swing component opaque by invokingsetOpaque(true)
on it, some components don't look right when they're completely opaque. For example, tabbed panes generally let part of the underlying container show through, so that the tabs look non-rectangular. So an opaque tabbed pane just tends to look bad.
All top-level containers can, in theory, have a menu bar. In practice, however, menu bars usually appear only in frames and perhaps in applets. To add a menu bar to a frame or applet, you create aJMenuBar
object, populate it with menus, and then callsetJMenuBar
. TheTopLevelDemo
adds a menu bar to its frame with this code:For more information about implementing menus and menu bars, see How to Use Menus.frame.setJMenuBar(cyanMenuBar);
Each top-level container relies on a reclusive intermediate container called the root pane. The root pane manages the content pane and the menu bar, along with a couple of other containers. You generally don't need to know about root panes to use Swing components. However, if you ever need to intercept mouse clicks or paint over multiple components, you should get acquainted with root panes.Here's a glimpse at the components that a root pane provides to a frame (and to every other top-level container):
We've already told you about the content pane and the optional menu bar. The two other components that a root pane adds are a layered pane and a glass pane. The layered pane directly contains the menu bar and content pane, and enables Z-ordering of other components you might add. The glass pane is often used to intercept input events occuring over the top-level container, and can also be used to paint over multiple components. For more information about the intricacies of root panes, see How to Use Root Panes.
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