Java AWT

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6.4 Window

A Window is a top-level display area that exists outside the browser or applet area you are working in. It has no adornments, such as the borders, window title, or menu bar that a typical window manager might provide. A Frame is a subclass of Window that adds these parts (borders, window title). Normally you will work with the children of Window and not Window directly. However, you might use a Window to create your own pop-up menu or some other GUI component that requires its own window and isn't provided by AWT. This technique isn't as necessary in Java 1.1, which has a PopupMenu component.

The default LayoutManager for Window is BorderLayout, which is described in BorderLayout.

Window Methods

Constructors

public Window (Frame parent)

There is one public constructor for Window. It has one parameter, which specifies the parent of the Window. When the parent is minimized, so is the Window. In an application, you must therefore create a Frame before you can create a Window; this isn't much of an inconvenience since you usually need a Frame in which to build your user interface. In an applet, you often do not have access to a Frame to use as the parent, so you can pass null as the argument.

Figure 6.2 shows a simple Window on the left. Notice that there are no borders or window management adornments present. The Window on the right was created by an applet loaded over the network. Notice the warning message you get in the status bar at the bottom of the screen. This is to warn users that the Window was created by an applet that comes from an untrusted source, and you can't necessarily trust it to do what it says. The warning is particularly appropriate for windows, since a user can't necessarily tell whether a window was created by an applet or any other application. It is therefore possible to write applets that mimic windows from well-known applications, to trick the user into giving away passwords, credit card numbers, or other sensitive information.

In some environments, you can get the browser's Frame to use with the Window's constructor. This is one way to create a Dialog, as we shall see. By repeatedly calling getParent() until there are no more parents, you can discover an applet's top-level parent, which should be the browser's Frame. Example 6.1 contains the code you would write to do this. You should then check the return value to see if you got a Frame or null. This code is completely nonportable, but you may happen to be in an environment where it works.

Example 6.1: Finding a Parent Frame

import java.awt.*;
public class ComponentUtilities {
    public static Frame getTopLevelParent (Component component) {
        Component c = component;
        while (c.getParent() != null)
            c = c.getParent();
        if (c instanceof Frame)
            return (Frame)c;
        else
            return null;
    }
}
Appearance methods

A handful of methods assist with the appearance of the Window.

public void pack ()

The pack() method resizes the Window to the preferred size of the components it contains and validates the Window.

public void show ()

The show() method displays the Window. When a Window is initially created it is hidden. If the window is already showing when this method is called, it calls toFront() to bring the window to the foreground. To hide the window, just call the hide() method of Component. After you show() a window, it is validated for you.

The first call to show() for any Window generates a WindowEvent with the ID WINDOW_OPENED.

public void dispose ()

The dispose() method releases the resources of the Window by hiding it and removing its peer. Calling this method generates a WindowEvent with the ID WINDOW_CLOSED.

public void toFront ()

The toFront() method brings the Window to the foreground of the display. This is automatically called if you call show() and the Window is already shown.

public void toBack ()

The toBack() method puts the Window in the background of the display.

public boolean isShowing() (New)

The isShowing() method returns true if the Window is visible on the screen.

Miscellaneous methods

public Toolkit getToolkit ()

The getToolkit() method returns the current Toolkit of the window. The Toolkit provides you with information about the native platform. This will allow you to size the Window based upon the current screen resolution and get images for an application. See Building a New Component from a Window for a usage example.

public Locale getLocale () (New)

The getLocale() method retrieves the current Locale of the window, if it has one. Using a Locale allows you to write programs that can adapt themselves to different languages and different regional variants. If no Locale has been set, getLocale() returns the default Locale. The default Locale has a user language of English and no region. To change the default Locale, set the system properties user.language and user.region or call Locale.setDefault() (setDefault() verifies access rights with the security manager).[1]

[1] For more on the Locale class, see the Java Fundamental Classes Reference from O'Reilly & Associates.

public final String getWarningString ()

The getWarningString() method returns null or a string that is displayed on the bottom of insecure Window instances. If the SecurityManager says that top-level windows do not get a warning message, this method returns null. If a message is required, the default text is "Warning: Applet Window". However, Java allows the user to change the warning by setting the system property awt.appletWarning. (Netscape Navigator and Internet Explorer do not allow the warning message to be changed. Netscape Navigator's current (V3.0) warning string is "Unsigned Java Applet Window.") The purpose of this string is to warn users that the Window was created by an untrusted source, as opposed to a standard application, and should be used with caution.

public Component getFocusOwner () (New)

The getFocusOwner() method allows you to ask the Window which of its components currently has the input focus. This is useful if you are cutting and pasting from the system clipboard; asking who has the input focus tells you where to put the data you get from the clipboard. The system clipboard is covered in Chapter 16, Data Transfer. If no component in the Window has the focus, getFocusOwner() returns null.

public synchronized void addNotify ()

The addNotify() method creates the Window peer. This is automatically done when you call the show() method of the Window. If you override this method, first call super.addNotify(), then add your customizations for the new class. Then you can do everything you need to with the information about the newly created peer.

Window Events

In Java 1.0, a Window peer generates all the events that are generated by the Component class; it does not generate events that are specific to a particular type of component. That is, it generates key events, mouse events, and focus events; it doesn't generate action events or list events. If an event occurs within a child component of a Window, the target of the event is the child component, not the Window.

In addition to the Component events, five events are specific to windows, none of which are passed on by the window's peer. These events happen at the Frame and Dialog level. The events are WINDOW_DESTROY, WINDOW_EXPOSE, WINDOW_ICONIFY, WINDOW_DEICONIFY, and WINDOW_MOVED. The default event handler, handleEvent(), doesn't call a convenience method to handle any of these events. If you want to work with them, you must override handleEvent(). See Frame Events for an example that catches the WINDOW_DESTROY event.

public boolean postEvent (Event e) (Deprecated)

The postEvent() method tells the Window to deal with Event e. It calls the handleEvent() method, which returns true if somebody handled e and false if no one handles it. This method, which overrides Component.postEvent(), is necessary because a Window is, by definition, an outermost container, and therefore does not need to post the event to its parent.

Listeners and 1.1 event handling

With the 1.1 event model, you register listeners for different event types; the listeners are told when the event happens. These methods register listeners and let the Window component inspect its own events.

public void addWindowListener(WindowListener listener) (New)

The addWindowListener() method registers listener as an object interested in being notified when an WindowEvent passes through the EventQueue with this Window as its target. When such an event occurs, one of the methods in the WindowListener interface is called. Multiple listeners can be registered.

public void removeWindowListener(WindowListener listener) (New)

The removeWindowListener() method removes listener as an interested listener. If listener is not registered, nothing happens.

protected void processEvent(AWTEvent e) (New)

The processEvent() method receives every AWTEvent with this Window as its target. processEvent() then passes them along to any listeners for processing. When you subclass Window, overriding processEvent() allows you to process all events yourself, before sending them to any listeners. In a way, overriding processEvent() is like overriding handleEvent() using the 1.0 event model.

If you override processEvent(), remember to call super.processEvent(e) last to ensure that regular event processing can occur. If you want to process your own events, it's a good idea to call enableEvents() (inherited from Component) to ensure that events are delivered even in the absence of registered listeners.

protected void processWindowEvent(WindowEvent e) (New)

The processWindowEvent() method receives every WindowEvent with this Window as its target. processWindowEvent() then passes them along to any listeners for processing. When you subclass Window, overriding processWindowEvent() allows you to process all events yourself, before sending them to any listeners. In a way, overriding processWindowEvent() is like overriding handleEvent() using the 1.0 event model.

If you override processWindowEvent(), you must remember to call super.processWindowEvent(e) last to ensure that regular event processing can occur. If you want to process your own events, it's a good idea to call enableEvents() (inherited from Component) to ensure that events are delivered even in the absence of registered listeners.


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