/*
* Copyright 1995-2008 Sun Microsystems, Inc. All Rights Reserved.
* DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER.
*
* This code is free software; you can redistribute it and/or modify it
* under the terms of the GNU General Public License version 2 only, as
* published by the Free Software Foundation. Sun designates this
* particular file as subject to the "Classpath" exception as provided
* by Sun in the LICENSE file that accompanied this code.
*
* This code 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 General Public License
* version 2 for more details (a copy is included in the LICENSE file that
* accompanied this code).
*
* You should have received a copy of the GNU General Public License version
* 2 along with this work; if not, write to the Free Software Foundation,
* Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA.
*
* Please contact Sun Microsystems, Inc., 4150 Network Circle, Santa Clara,
* CA 95054 USA or visit www.sun.com if you need additional information or
* have any questions.
*/
package ae.java.awt;
import java.beans.PropertyChangeListener;
import java.io.IOException;
import java.io.ObjectInputStream;
import java.io.ObjectOutputStream;
import java.io.OptionalDataException;
import java.io.Serializable;
import java.lang.ref.WeakReference;
import java.lang.reflect.InvocationTargetException;
import java.security.AccessController;
import java.util.ArrayList;
import java.util.Arrays;
import java.util.EventListener;
import java.util.Locale;
import java.util.ResourceBundle;
import java.util.Set;
import java.util.Vector;
import java.util.logging.Level;
import java.util.logging.Logger;
import java.util.concurrent.atomic.AtomicBoolean;
import ae.java.awt.event.*;
//import ae.java.awt.im.InputContext;
import ae.java.awt.image.BufferStrategy;
import ae.java.awt.peer.ComponentPeer;
import ae.java.awt.peer.WindowPeer;
import ae.javax.accessibility.*;
import ae.sun.awt.AppContext;
import ae.sun.awt.CausedFocusEvent;
import ae.sun.awt.SunToolkit;
import ae.sun.awt.util.IdentityArrayList;
import ae.sun.java2d.pipe.Region;
import sun.security.action.GetPropertyAction;
import sun.security.util.SecurityConstants;
/**
* A <code>Window</code> object is a top-level window with no borders and no
* menubar.
* The default layout for a window is <code>BorderLayout</code>.
* <p>
* A window must have either a frame, dialog, or another window defined as its
* owner when it's constructed.
* <p>
* In a multi-screen environment, you can create a <code>Window</code>
* on a different screen device by constructing the <code>Window</code>
* with {@link #Window(Window, GraphicsConfiguration)}. The
* <code>GraphicsConfiguration</code> object is one of the
* <code>GraphicsConfiguration</code> objects of the target screen device.
* <p>
* In a virtual device multi-screen environment in which the desktop
* area could span multiple physical screen devices, the bounds of all
* configurations are relative to the virtual device coordinate system.
* The origin of the virtual-coordinate system is at the upper left-hand
* corner of the primary physical screen. Depending on the location of
* the primary screen in the virtual device, negative coordinates are
* possible, as shown in the following figure.
* <p>
* <img src="doc-files/MultiScreen.gif"
* alt="Diagram shows virtual device containing 4 physical screens. Primary physical screen shows coords (0,0), other screen shows (-80,-100)."
* ALIGN=center HSPACE=10 VSPACE=7>
* <p>
* In such an environment, when calling <code>setLocation</code>,
* you must pass a virtual coordinate to this method. Similarly,
* calling <code>getLocationOnScreen</code> on a <code>Window</code> returns
* virtual device coordinates. Call the <code>getBounds</code> method
* of a <code>GraphicsConfiguration</code> to find its origin in the virtual
* coordinate system.
* <p>
* The following code sets the location of a <code>Window</code>
* at (10, 10) relative to the origin of the physical screen
* of the corresponding <code>GraphicsConfiguration</code>. If the
* bounds of the <code>GraphicsConfiguration</code> is not taken
* into account, the <code>Window</code> location would be set
* at (10, 10) relative to the virtual-coordinate system and would appear
* on the primary physical screen, which might be different from the
* physical screen of the specified <code>GraphicsConfiguration</code>.
*
* <pre>
* Window w = new Window(Window owner, GraphicsConfiguration gc);
* Rectangle bounds = gc.getBounds();
* w.setLocation(10 + bounds.x, 10 + bounds.y);
* </pre>
*
* <p>
* Note: the location and size of top-level windows (including
* <code>Window</code>s, <code>Frame</code>s, and <code>Dialog</code>s)
* are under the control of the desktop's window management system.
* Calls to <code>setLocation</code>, <code>setSize</code>, and
* <code>setBounds</code> are requests (not directives) which are
* forwarded to the window management system. Every effort will be
* made to honor such requests. However, in some cases the window
* management system may ignore such requests, or modify the requested
* geometry in order to place and size the <code>Window</code> in a way
* that more closely matches the desktop settings.
* <p>
* Due to the asynchronous nature of native event handling, the results
* returned by <code>getBounds</code>, <code>getLocation</code>,
* <code>getLocationOnScreen</code>, and <code>getSize</code> might not
* reflect the actual geometry of the Window on screen until the last
* request has been processed. During the processing of subsequent
* requests these values might change accordingly while the window
* management system fulfills the requests.
* <p>
* An application may set the size and location of an invisible
* {@code Window} arbitrarily, but the window management system may
* subsequently change its size and/or location when the
* {@code Window} is made visible. One or more {@code ComponentEvent}s
* will be generated to indicate the new geometry.
* <p>
* Windows are capable of generating the following WindowEvents:
* WindowOpened, WindowClosed, WindowGainedFocus, WindowLostFocus.
*
* @author Sami Shaio
* @author Arthur van Hoff
* @see WindowEvent
* @see #addWindowListener
* @see ae.java.awt.BorderLayout
* @since JDK1.0
*/
public class Window extends Container implements Accessible {
/**
* This represents the warning message that is
* to be displayed in a non secure window. ie :
* a window that has a security manager installed for
* which calling SecurityManager.checkTopLevelWindow()
* is false. This message can be displayed anywhere in
* the window.
*
* @serial
* @see #getWarningString
*/
String warningString;
/**
* {@code icons} is the graphical way we can
* represent the frames and dialogs.
* {@code Window} can't display icon but it's
* being inherited by owned {@code Dialog}s.
*
* @serial
* @see #getIconImages
* @see #setIconImages(List<? extends Image>)
*/
transient java.util.List<Image> icons;
/**
* Holds the reference to the component which last had focus in this window
* before it lost focus.
*/
private transient Component temporaryLostComponent;
static boolean systemSyncLWRequests = false;
boolean syncLWRequests = false;
transient boolean beforeFirstShow = true;
static final int OPENED = 0x01;
/**
* An Integer value representing the Window State.
*
* @serial
* @since 1.2
* @see #show
*/
int state;
/**
* A boolean value representing Window always-on-top state
* @since 1.5
* @serial
* @see #setAlwaysOnTop
* @see #isAlwaysOnTop
*/
private boolean alwaysOnTop;
/**
* Contains all the windows that have a peer object associated,
* i. e. between addNotify() and removeNotify() calls. The list
* of all Window instances can be obtained from AppContext object.
*
* @since 1.6
*/
private static final IdentityArrayList<Window> allWindows = new IdentityArrayList<Window>();
/**
* A vector containing all the windows this
* window currently owns.
* @since 1.2
* @see #getOwnedWindows
*/
transient Vector<WeakReference<Window>> ownedWindowList =
new Vector<WeakReference<Window>>();
/*
* We insert a weak reference into the Vector of all Windows in AppContext
* instead of 'this' so that garbage collection can still take place
* correctly.
*/
private transient WeakReference<Window> weakThis;
transient boolean showWithParent;
/**
* Contains the modal dialog that blocks this window, or null
* if the window is unblocked.
*
* @since 1.6
*/
transient Dialog modalBlocker;
/**
* @serial
*
* @see ae.java.awt.Dialog.ModalExclusionType
* @see #getModalExclusionType
* @see #setModalExclusionType
*
* @since 1.6
*/
Dialog.ModalExclusionType modalExclusionType;
transient WindowListener windowListener;
transient WindowStateListener windowStateListener;
transient WindowFocusListener windowFocusListener;
// transient InputContext inputContext;
private transient Object inputContextLock = new Object();
/**
* Unused. Maintained for serialization backward-compatibility.
*
* @serial
* @since 1.2
*/
private FocusManager focusMgr;
/**
* Indicates whether this Window can become the focused Window.
*
* @serial
* @see #getFocusableWindowState
* @see #setFocusableWindowState
* @since 1.4
*/
private boolean focusableWindowState = true;
/**
* Indicates whether this window should receive focus on
* subsequently being shown (with a call to {@code setVisible(true)}), or
* being moved to the front (with a call to {@code toFront()}).
*
* @serial
* @see #setAutoRequestFocus
* @see #isAutoRequestFocus
* @since 1.7
*/
private volatile boolean autoRequestFocus = true;
/*
* Indicates that this window is being shown. This flag is set to true at
* the beginning of show() and to false at the end of show().
*
* @see #show()
* @see Dialog#shouldBlock
*/
transient boolean isInShow = false;
private static final String base = "win";
private static int nameCounter = 0;
/*
* JDK 1.1 serialVersionUID
*/
private static final long serialVersionUID = 4497834738069338734L;
private static final Logger log = Logger.getLogger("ae.java.awt.Window");
private static final boolean locationByPlatformProp;
transient boolean isTrayIconWindow = false;
static {
/* ensure that the necessary native libraries are loaded */
Toolkit.loadLibraries();
if (!GraphicsEnvironment.isHeadless()) {
initIDs();
}
String s = (String) java.security.AccessController.doPrivileged(
new GetPropertyAction("ae.java.awt.syncLWRequests"));
systemSyncLWRequests = (s != null && s.equals("true"));
s = (String) java.security.AccessController.doPrivileged(
new GetPropertyAction("ae.java.awt.Window.locationByPlatform"));
locationByPlatformProp = (s != null && s.equals("true"));
}
/**
* Initialize JNI field and method IDs for fields that may be
accessed from C.
*/
private static native void initIDs();
/**
* Constructs a new, initially invisible window in default size with the
* specified <code>GraphicsConfiguration</code>.
* <p>
* If there is a security manager, this method first calls
* the security manager's <code>checkTopLevelWindow</code>
* method with <code>this</code>
* as its argument to determine whether or not the window
* must be displayed with a warning banner.
*
* @param gc the <code>GraphicsConfiguration</code> of the target screen
* device. If <code>gc</code> is <code>null</code>, the system default
* <code>GraphicsConfiguration</code> is assumed
* @exception IllegalArgumentException if <code>gc</code>
* is not from a screen device
* @exception HeadlessException when
* <code>GraphicsEnvironment.isHeadless()</code> returns <code>true</code>
*
* @see ae.java.awt.GraphicsEnvironment#isHeadless
* @see java.lang.SecurityManager#checkTopLevelWindow
*/
Window(GraphicsConfiguration gc) {
init(gc);
}
transient Object anchor = new Object();
static class WindowDisposerRecord implements ae.sun.java2d.DisposerRecord {
final WeakReference<Window> owner;
final WeakReference weakThis;
final WeakReference<AppContext> context;
WindowDisposerRecord(AppContext context, Window victim) {
owner = new WeakReference<Window>(victim.getOwner());
weakThis = victim.weakThis;
this.context = new WeakReference<AppContext>(context);
}
public void dispose() {
Window parent = owner.get();
if (parent != null) {
parent.removeOwnedWindow(weakThis);
}
AppContext ac = context.get();
if (null != ac) {
Window.removeFromWindowList(ac, weakThis);
}
}
}
private void init(GraphicsConfiguration gc) {
GraphicsEnvironment.checkHeadless();
syncLWRequests = systemSyncLWRequests;
weakThis = new WeakReference<Window>(this);
addToWindowList();
setWarningString();
this.cursor = Cursor.getPredefinedCursor(Cursor.DEFAULT_CURSOR);
this.visible = false;
if (gc == null) {
this.graphicsConfig =
GraphicsEnvironment.getLocalGraphicsEnvironment().
getDefaultScreenDevice().getDefaultConfiguration();
} else {
this.graphicsConfig = gc;
}
if (graphicsConfig.getDevice().getType() !=
GraphicsDevice.TYPE_RASTER_SCREEN) {
throw new IllegalArgumentException("not a screen device");
}
setLayout(new BorderLayout());
/* offset the initial location with the original of the screen */
/* and any insets */
Rectangle screenBounds = graphicsConfig.getBounds();
Insets screenInsets = getToolkit().getScreenInsets(graphicsConfig);
int x = getX() + screenBounds.x + screenInsets.left;
int y = getY() + screenBounds.y + screenInsets.top;
if (x != this.x || y != this.y) {
setLocation(x, y);
/* reset after setLocation */
setLocationByPlatform(locationByPlatformProp);
}
modalExclusionType = Dialog.ModalExclusionType.NO_EXCLUDE;
ae.sun.java2d.Disposer.addRecord(anchor, new WindowDisposerRecord(appContext, this));
}
/**
* Constructs a new, initially invisible window in the default size.
*
* <p>First, if there is a security manager, its
* <code>checkTopLevelWindow</code>
* method is called with <code>this</code>
* as its argument
* to see if it's ok to display the window without a warning banner.
* If the default implementation of <code>checkTopLevelWindow</code>
* is used (that is, that method is not overriden), then this results in
* a call to the security manager's <code>checkPermission</code> method
* with an <code>AWTPermission("showWindowWithoutWarningBanner")</code>
* permission. It that method raises a SecurityException,
* <code>checkTopLevelWindow</code> returns false, otherwise it
* returns true. If it returns false, a warning banner is created.
*
* @exception HeadlessException when
* <code>GraphicsEnvironment.isHeadless()</code> returns <code>true</code>
*
* @see ae.java.awt.GraphicsEnvironment#isHeadless
* @see java.lang.SecurityManager#checkTopLevelWindow
*/
Window() throws HeadlessException {
GraphicsEnvironment.checkHeadless();
init((GraphicsConfiguration)null);
}
/**
* Constructs a new, initially invisible window with the specified
* <code>Frame</code> as its owner. The window will not be focusable
* unless its owner is showing on the screen.
* <p>
* If there is a security manager, this method first calls
* the security manager's <code>checkTopLevelWindow</code>
* method with <code>this</code>
* as its argument to determine whether or not the window
* must be displayed with a warning banner.
*
* @param owner the <code>Frame</code> to act as owner or <code>null</code>
* if this window has no owner
* @exception IllegalArgumentException if the <code>owner</code>'s
* <code>GraphicsConfiguration</code> is not from a screen device
* @exception HeadlessException when
* <code>GraphicsEnvironment.isHeadless</code> returns <code>true</code>
*
* @see ae.java.awt.GraphicsEnvironment#isHeadless
* @see java.lang.SecurityManager#checkTopLevelWindow
* @see #isShowing
*/
public Window(Frame owner) {
this(owner == null ? (GraphicsConfiguration)null :
owner.getGraphicsConfiguration());
ownedInit(owner);
}
/**
* Constructs a new, initially invisible window with the specified
* <code>Window</code> as its owner. This window will not be focusable
* unless its nearest owning <code>Frame</code> or <code>Dialog</code>
* is showing on the screen.
* <p>
* If there is a security manager, this method first calls
* the security manager's <code>checkTopLevelWindow</code>
* method with <code>this</code>
* as its argument to determine whether or not the window
* must be displayed with a warning banner.
*
* @param owner the <code>Window</code> to act as owner or
* <code>null</code> if this window has no owner
* @exception IllegalArgumentException if the <code>owner</code>'s
* <code>GraphicsConfiguration</code> is not from a screen device
* @exception HeadlessException when
* <code>GraphicsEnvironment.isHeadless()</code> returns
* <code>true</code>
*
* @see ae.java.awt.GraphicsEnvironment#isHeadless
* @see java.lang.SecurityManager#checkTopLevelWindow
* @see #isShowing
*
* @since 1.2
*/
public Window(Window owner) {
this(owner == null ? (GraphicsConfiguration)null :
owner.getGraphicsConfiguration());
ownedInit(owner);
}
/**
* Constructs a new, initially invisible window with the specified owner
* <code>Window</code> and a <code>GraphicsConfiguration</code>
* of a screen device. The Window will not be focusable unless
* its nearest owning <code>Frame</code> or <code>Dialog</code>
* is showing on the screen.
* <p>
* If there is a security manager, this method first calls
* the security manager's <code>checkTopLevelWindow</code>
* method with <code>this</code>
* as its argument to determine whether or not the window
* must be displayed with a warning banner.
*
* @param owner the window to act as owner or <code>null</code>
* if this window has no owner
* @param gc the <code>GraphicsConfiguration</code> of the target
* screen device; if <code>gc</code> is <code>null</code>,
* the system default <code>GraphicsConfiguration</code> is assumed
* @exception IllegalArgumentException if <code>gc</code>
* is not from a screen device
* @exception HeadlessException when
* <code>GraphicsEnvironment.isHeadless()</code> returns
* <code>true</code>
*
* @see ae.java.awt.GraphicsEnvironment#isHeadless
* @see java.lang.SecurityManager#checkTopLevelWindow
* @see GraphicsConfiguration#getBounds
* @see #isShowing
* @since 1.3
*/
public Window(Window owner, GraphicsConfiguration gc) {
this(gc);
ownedInit(owner);
}
private void ownedInit(Window owner) {
this.parent = owner;
if (owner != null) {
owner.addOwnedWindow(weakThis);
}
}
/**
* Construct a name for this component. Called by getName() when the
* name is null.
*/
String constructComponentName() {
synchronized (Window.class) {
return base + nameCounter++;
}
}
/**
* Returns the sequence of images to be displayed as the icon for this window.
* <p>
* This method returns a copy of the internally stored list, so all operations
* on the returned object will not affect the window's behavior.
*
* @return the copy of icon images' list for this window, or
* empty list if this window doesn't have icon images.
* @see #setIconImages
* @see #setIconImage(Image)
* @since 1.6
*/
public java.util.List<Image> getIconImages() {
java.util.List<Image> icons = this.icons;
if (icons == null || icons.size() == 0) {
return new ArrayList<Image>();
}
return new ArrayList<Image>(icons);
}
/**
* Sets the sequence of images to be displayed as the icon
* for this window. Subsequent calls to {@code getIconImages} will
* always return a copy of the {@code icons} list.
* <p>
* Depending on the platform capabilities one or several images
* of different dimensions will be used as the window's icon.
* <p>
* The {@code icons} list is scanned for the images of most
* appropriate dimensions from the beginning. If the list contains
* several images of the same size, the first will be used.
* <p>
* Ownerless windows with no icon specified use platfrom-default icon.
* The icon of an owned window may be inherited from the owner
* unless explicitly overridden.
* Setting the icon to {@code null} or empty list restores
* the default behavior.
* <p>
* Note : Native windowing systems may use different images of differing
* dimensions to represent a window, depending on the context (e.g.
* window decoration, window list, taskbar, etc.). They could also use
* just a single image for all contexts or no image at all.
*
* @param icons the list of icon images to be displayed.
* @see #getIconImages()
* @see #setIconImage(Image)
* @since 1.6
*/
public synchronized void setIconImages(java.util.List<? extends Image> icons) {
this.icons = (icons == null) ? new ArrayList<Image>() :
new ArrayList<Image>(icons);
WindowPeer peer = (WindowPeer)this.peer;
if (peer != null) {
peer.updateIconImages();
}
// Always send a property change event
firePropertyChange("iconImage", null, null);
}
/**
* Sets the image to be displayed as the icon for this window.
* <p>
* This method can be used instead of {@link #setIconImages setIconImages()}
* to specify a single image as a window's icon.
* <p>
* The following statement:
* <pre>
* setIconImage(image);
* </pre>
* is equivalent to:
* <pre>
* ArrayList<Image> imageList = new ArrayList<Image>();
* imageList.add(image);
* setIconImages(imageList);
* </pre>
* <p>
* Note : Native windowing systems may use different images of differing
* dimensions to represent a window, depending on the context (e.g.
* window decoration, window list, taskbar, etc.). They could also use
* just a single image for all contexts or no image at all.
*
* @param image the icon image to be displayed.
* @see #setIconImages
* @see #getIconImages()
* @since 1.6
*/
public void setIconImage(Image image) {
ArrayList<Image> imageList = new ArrayList<Image>();
if (image != null) {
imageList.add(image);
}
setIconImages(imageList);
}
/**
* Makes this Window displayable by creating the connection to its
* native screen resource.
* This method is called internally by the toolkit and should
* not be called directly by programs.
* @see Component#isDisplayable
* @see Container#removeNotify
* @since JDK1.0
*/
public void addNotify() {
synchronized (getTreeLock()) {
Container parent = this.parent;
if (parent != null && parent.getPeer() == null) {
parent.addNotify();
}
if (peer == null) {
peer = getToolkit().createWindow(this);
}
synchronized (allWindows) {
allWindows.add(this);
}
super.addNotify();
}
}
/**
* {@inheritDoc}
*/
public void removeNotify() {
synchronized (getTreeLock()) {
synchronized (allWindows) {
allWindows.remove(this);
}
super.removeNotify();
}
}
/**
* Causes this Window to be sized to fit the preferred size
* and layouts of its subcomponents. The resulting width and
* height of the window are automatically enlarged if either
* of dimensions is less than the minimum size as specified
* by the previous call to the {@code setMinimumSize} method.
* <p>
* If the window and/or its owner are not displayable yet,
* both of them are made displayable before calculating
* the preferred size. The Window is validated after its
* size is being calculated.
*
* @see Component#isDisplayable
* @see #setMinimumSize
*/
public void pack() {
Container parent = this.parent;
if (parent != null && parent.getPeer() == null) {
parent.addNotify();
}
if (peer == null) {
addNotify();
}
Dimension newSize = getPreferredSize();
if (peer != null) {
setClientSize(newSize.width, newSize.height);
}
if(beforeFirstShow) {
isPacked = true;
}
validate();
}
/**
* Sets the minimum size of this window to a constant
* value. Subsequent calls to {@code getMinimumSize}
* will always return this value. If current window's
* size is less than {@code minimumSize} the size of the
* window is automatically enlarged to honor the minimum size.
* <p>
* If the {@code setSize} or {@code setBounds} methods
* are called afterwards with a width or height less than
* that was specified by the {@code setMinimumSize} method
* the window is automatically enlarged to meet
* the {@code minimumSize} value. The {@code minimumSize}
* value also affects the behaviour of the {@code pack} method.
* <p>
* The default behavior is restored by setting the minimum size
* parameter to the {@code null} value.
* <p>
* Resizing operation may be restricted if the user tries
* to resize window below the {@code minimumSize} value.
* This behaviour is platform-dependent.
*
* @param minimumSize the new minimum size of this window
* @see Component#setMinimumSize
* @see #getMinimumSize
* @see #isMinimumSizeSet
* @see #setSize(Dimension)
* @see #pack
* @since 1.6
*/
public void setMinimumSize(Dimension minimumSize) {
synchronized (getTreeLock()) {
super.setMinimumSize(minimumSize);
Dimension size = getSize();
if (isMinimumSizeSet()) {
if (size.width < minimumSize.width || size.height < minimumSize.height) {
int nw = Math.max(width, minimumSize.width);
int nh = Math.max(height, minimumSize.height);
setSize(nw, nh);
}
}
if (peer != null) {
((WindowPeer)peer).updateMinimumSize();
}
}
}
/**
* {@inheritDoc}
* <p>
* The {@code d.width} and {@code d.height} values
* are automatically enlarged if either is less than
* the minimum size as specified by previous call to
* {@code setMinimumSize}.
*
* @see #getSize
* @see #setBounds
* @see #setMinimumSize
* @since 1.6
*/
public void setSize(Dimension d) {
super.setSize(d);
}
/**
* {@inheritDoc}
* <p>
* The {@code width} and {@code height} values
* are automatically enlarged if either is less than
* the minimum size as specified by previous call to
* {@code setMinimumSize}.
*
* @see #getSize
* @see #setBounds
* @see #setMinimumSize
* @since 1.6
*/
public void setSize(int width, int height) {
super.setSize(width, height);
}
/**
* @deprecated As of JDK version 1.1,
* replaced by <code>setBounds(int, int, int, int)</code>.
*/
@Deprecated
public void reshape(int x, int y, int width, int height) {
if (isMinimumSizeSet()) {
Dimension minSize = getMinimumSize();
if (width < minSize.width) {
width = minSize.width;
}
if (height < minSize.height) {
height = minSize.height;
}
}
super.reshape(x, y, width, height);
}
void setClientSize(int w, int h) {
synchronized (getTreeLock()) {
setBoundsOp(ComponentPeer.SET_CLIENT_SIZE);
setBounds(x, y, w, h);
}
}
static private final AtomicBoolean
beforeFirstWindowShown = new AtomicBoolean(true);
final void closeSplashScreen() {
if (isTrayIconWindow) {
return;
}
if (beforeFirstWindowShown.getAndSet(false)) {
SunToolkit.closeSplashScreen();
}
}
/**
* Shows or hides this {@code Window} depending on the value of parameter
* {@code b}.
* <p>
* If the method shows the window then the window is also made
* focused under the following conditions:
* <ul>
* <li> The {@code Window} meets the requirements outlined in the
* {@link #isFocusableWindow} method.
* <li> The {@code Window}'s {@code autoRequestFocus} property is of the {@code true} value.
* <li> Native windowing system allows the {@code Window} to get focused.
* </ul>
* There is an exception for the second condition (the value of the
* {@code autoRequestFocus} property). The property is not taken into account if the
* window is a modal dialog, which blocks the currently focused window.
* <p>
* Developers must never assume that the window is the focused or active window
* until it receives a WINDOW_GAINED_FOCUS or WINDOW_ACTIVATED event.
* @param b if {@code true}, makes the {@code Window} visible,
* otherwise hides the {@code Window}.
* If the {@code Window} and/or its owner
* are not yet displayable, both are made displayable. The
* {@code Window} will be validated prior to being made visible.
* If the {@code Window} is already visible, this will bring the
* {@code Window} to the front.<p>
* If {@code false}, hides this {@code Window}, its subcomponents, and all
* of its owned children.
* The {@code Window} and its subcomponents can be made visible again
* with a call to {@code #setVisible(true)}.
* @see ae.java.awt.Component#isDisplayable
* @see ae.java.awt.Component#setVisible
* @see ae.java.awt.Window#toFront
* @see ae.java.awt.Window#dispose
* @see ae.java.awt.Window#setAutoRequestFocus
* @see ae.java.awt.Window#isFocusableWindow
*/
public void setVisible(boolean b) {
super.setVisible(b);
}
/**
* Makes the Window visible. If the Window and/or its owner
* are not yet displayable, both are made displayable. The
* Window will be validated prior to being made visible.
* If the Window is already visible, this will bring the Window
* to the front.
* @see Component#isDisplayable
* @see #toFront
* @deprecated As of JDK version 1.5, replaced by
* {@link #setVisible(boolean)}.
*/
@Deprecated
public void show() {
if (peer == null) {
addNotify();
}
validate();
isInShow = true;
if (visible) {
toFront();
} else {
beforeFirstShow = false;
closeSplashScreen();
Dialog.checkShouldBeBlocked(this);
super.show();
locationByPlatform = false;
for (int i = 0; i < ownedWindowList.size(); i++) {
Window child = ownedWindowList.elementAt(i).get();
if ((child != null) && child.showWithParent) {
child.show();
child.showWithParent = false;
} // endif
} // endfor
if (!isModalBlocked()) {
updateChildrenBlocking();
} else {
// fix for 6532736: after this window is shown, its blocker
// should be raised to front
modalBlocker.toFront_NoClientCode();
}
if (this instanceof Frame || this instanceof Dialog) {
updateChildFocusableWindowState(this);
}
}
isInShow = false;
// If first time shown, generate WindowOpened event
if ((state & OPENED) == 0) {
postWindowEvent(WindowEvent.WINDOW_OPENED);
state |= OPENED;
}
}
static void updateChildFocusableWindowState(Window w) {
if (w.getPeer() != null && w.isShowing()) {
((WindowPeer)w.getPeer()).updateFocusableWindowState();
}
for (int i = 0; i < w.ownedWindowList.size(); i++) {
Window child = w.ownedWindowList.elementAt(i).get();
if (child != null) {
updateChildFocusableWindowState(child);
}
}
}
synchronized void postWindowEvent(int id) {
if (windowListener != null
|| (eventMask & AWTEvent.WINDOW_EVENT_MASK) != 0
|| Toolkit.enabledOnToolkit(AWTEvent.WINDOW_EVENT_MASK)) {
WindowEvent e = new WindowEvent(this, id);
Toolkit.getEventQueue().postEvent(e);
}
}
/**
* Hide this Window, its subcomponents, and all of its owned children.
* The Window and its subcomponents can be made visible again
* with a call to {@code show}.
* </p>
* @see #show
* @see #dispose
* @deprecated As of JDK version 1.5, replaced by
* {@link #setVisible(boolean)}.
*/
@Deprecated
public void hide() {
synchronized(ownedWindowList) {
for (int i = 0; i < ownedWindowList.size(); i++) {
Window child = ownedWindowList.elementAt(i).get();
if ((child != null) && child.visible) {
child.hide();
child.showWithParent = true;
}
}
}
if (isModalBlocked()) {
modalBlocker.unblockWindow(this);
}
super.hide();
}
final void clearMostRecentFocusOwnerOnHide() {
/* do nothing */
}
/**
* Releases all of the native screen resources used by this
* <code>Window</code>, its subcomponents, and all of its owned
* children. That is, the resources for these <code>Component</code>s
* will be destroyed, any memory they consume will be returned to the
* OS, and they will be marked as undisplayable.
* <p>
* The <code>Window</code> and its subcomponents can be made displayable
* again by rebuilding the native resources with a subsequent call to
* <code>pack</code> or <code>show</code>. The states of the recreated
* <code>Window</code> and its subcomponents will be identical to the
* states of these objects at the point where the <code>Window</code>
* was disposed (not accounting for additional modifications between
* those actions).
* <p>
* <b>Note</b>: When the last displayable window
* within the Java virtual machine (VM) is disposed of, the VM may
* terminate. See <a href="doc-files/AWTThreadIssues.html#Autoshutdown">
* AWT Threading Issues</a> for more information.
* @see Component#isDisplayable
* @see #pack
* @see #show
*/
public void dispose() {
doDispose();
}
/*
* Fix for 4872170.
* If dispose() is called on parent then its children have to be disposed as well
* as reported in javadoc. So we need to implement this functionality even if a
* child overrides dispose() in a wrong way without calling super.dispose().
*/
void disposeImpl() {
dispose();
if (getPeer() != null) {
doDispose();
}
}
void doDispose() {
class DisposeAction implements Runnable {
public void run() {
// Check if this window is the fullscreen window for the
// device. Exit the fullscreen mode prior to disposing
// of the window if that's the case.
GraphicsDevice gd = getGraphicsConfiguration().getDevice();
if (gd.getFullScreenWindow() == Window.this) {
gd.setFullScreenWindow(null);
}
Object[] ownedWindowArray;
synchronized(ownedWindowList) {
ownedWindowArray = new Object[ownedWindowList.size()];
ownedWindowList.copyInto(ownedWindowArray);
}
for (int i = 0; i < ownedWindowArray.length; i++) {
Window child = (Window) (((WeakReference)
(ownedWindowArray[i])).get());
if (child != null) {
child.disposeImpl();
}
}
hide();
beforeFirstShow = true;
removeNotify();
//ae synchronized (inputContextLock) {
// if (inputContext != null) {
// inputContext.dispose();
// inputContext = null;
// }
// }
clearCurrentFocusCycleRootOnHide();
}
}
DisposeAction action = new DisposeAction();
if (EventQueue.isDispatchThread()) {
action.run();
}
else {
try {
EventQueue.invokeAndWait(action);
}
catch (InterruptedException e) {
System.err.println("Disposal was interrupted:");
e.printStackTrace();
}
catch (InvocationTargetException e) {
System.err.println("Exception during disposal:");
e.printStackTrace();
}
}
// Execute outside the Runnable because postWindowEvent is
// synchronized on (this). We don't need to synchronize the call
// on the EventQueue anyways.
postWindowEvent(WindowEvent.WINDOW_CLOSED);
}
/*
* Should only be called while holding the tree lock.
* It's overridden here because parent == owner in Window,
* and we shouldn't adjust counter on owner
*/
void adjustListeningChildrenOnParent(long mask, int num) {
}
// Should only be called while holding tree lock
void adjustDecendantsOnParent(int num) {
// do nothing since parent == owner and we shouldn't
// ajust counter on owner
}
/**
* If this Window is visible, brings this Window to the front and may make
* it the focused Window.
* <p>
* Places this Window at the top of the stacking order and shows it in
* front of any other Windows in this VM. No action will take place if this
* Window is not visible. Some platforms do not allow Windows which own
* other Windows to appear on top of those owned Windows. Some platforms
* may not permit this VM to place its Windows above windows of native
* applications, or Windows of other VMs. This permission may depend on
* whether a Window in this VM is already focused. Every attempt will be
* made to move this Window as high as possible in the stacking order;
* however, developers should not assume that this method will move this
* Window above all other windows in every situation.
* <p>
* Developers must never assume that this Window is the focused or active
* Window until this Window receives a WINDOW_GAINED_FOCUS or WINDOW_ACTIVATED
* event. On platforms where the top-most window is the focused window, this
* method will <b>probably</b> focus this Window (if it is not already focused)
* under the following conditions:
* <ul>
* <li> The window meets the requirements outlined in the
* {@link #isFocusableWindow} method.
* <li> The window's property {@code autoRequestFocus} is of the
* {@code true} value.
* <li> Native windowing system allows the window to get focused.
* </ul>
* On platforms where the stacking order does not typically affect the focused
* window, this method will <b>probably</b> leave the focused and active
* Windows unchanged.
* <p>
* If this method causes this Window to be focused, and this Window is a
* Frame or a Dialog, it will also become activated. If this Window is
* focused, but it is not a Frame or a Dialog, then the first Frame or
* Dialog that is an owner of this Window will be activated.
* <p>
* If this window is blocked by modal dialog, then the blocking dialog
* is brought to the front and remains above the blocked window.
*
* @see #toBack
* @see #setAutoRequestFocus
* @see #isFocusableWindow
*/
public void toFront() {
toFront_NoClientCode();
}
// This functionality is implemented in a final package-private method
// to insure that it cannot be overridden by client subclasses.
final void toFront_NoClientCode() {
if (visible) {
WindowPeer peer = (WindowPeer)this.peer;
if (peer != null) {
peer.toFront();
}
if (isModalBlocked()) {
modalBlocker.toFront_NoClientCode();
}
}
}
/**
* If this Window is visible, sends this Window to the back and may cause
* it to lose focus or activation if it is the focused or active Window.
* <p>
* Places this Window at the bottom of the stacking order and shows it
* behind any other Windows in this VM. No action will take place is this
* Window is not visible. Some platforms do not allow Windows which are
* owned by other Windows to appear below their owners. Every attempt will
* be made to move this Window as low as possible in the stacking order;
* however, developers should not assume that this method will move this
* Window below all other windows in every situation.
* <p>
* Because of variations in native windowing systems, no guarantees about
* changes to the focused and active Windows can be made. Developers must
* never assume that this Window is no longer the focused or active Window
* until this Window receives a WINDOW_LOST_FOCUS or WINDOW_DEACTIVATED
* event. On platforms where the top-most window is the focused window,
* this method will <b>probably</b> cause this Window to lose focus. In
* that case, the next highest, focusable Window in this VM will receive
* focus. On platforms where the stacking order does not typically affect
* the focused window, this method will <b>probably</b> leave the focused
* and active Windows unchanged.
*
* @see #toFront
*/
public void toBack() {
toBack_NoClientCode();
}
// This functionality is implemented in a final package-private method
// to insure that it cannot be overridden by client subclasses.
final void toBack_NoClientCode() {
if(isAlwaysOnTop()) {
try {
setAlwaysOnTop(false);
}catch(SecurityException e) {
}
}
if (visible) {
WindowPeer peer = (WindowPeer)this.peer;
if (peer != null) {
peer.toBack();
}
}
}
/**
* Returns the toolkit of this frame.
* @return the toolkit of this window.
* @see Toolkit
* @see Toolkit#getDefaultToolkit
* @see Component#getToolkit
*/
public Toolkit getToolkit() {
return Toolkit.getDefaultToolkit();
}
/**
* Gets the warning string that is displayed with this window.
* If this window is insecure, the warning string is displayed
* somewhere in the visible area of the window. A window is
* insecure if there is a security manager, and the security
* manager's <code>checkTopLevelWindow</code> method returns
* <code>false</code> when this window is passed to it as an
* argument.
* <p>
* If the window is secure, then <code>getWarningString</code>
* returns <code>null</code>. If the window is insecure, this
* method checks for the system property
* <code>awt.appletWarning</code>
* and returns the string value of that property.
* @return the warning string for this window.
* @see java.lang.SecurityManager#checkTopLevelWindow(java.lang.Object)
*/
public final String getWarningString() {
return warningString;
}
private void setWarningString() {
warningString = null;
SecurityManager sm = System.getSecurityManager();
if (sm != null) {
if (!sm.checkTopLevelWindow(this)) {
// make sure the privileged action is only
// for getting the property! We don't want the
// above checkTopLevelWindow call to always succeed!
warningString = (String) AccessController.doPrivileged(
new GetPropertyAction("awt.appletWarning",
"Java Applet Window"));
}
}
}
/**
* Gets the <code>Locale</code> object that is associated
* with this window, if the locale has been set.
* If no locale has been set, then the default locale
* is returned.
* @return the locale that is set for this window.
* @see java.util.Locale
* @since JDK1.1
*/
public Locale getLocale() {
if (this.locale == null) {
return Locale.getDefault();
}
return this.locale;
}
/**
* Gets the input context for this window. A window always has an input context,
* which is shared by subcomponents unless they create and set their own.
* @see Component#getInputContext
* @since 1.2
*/
//ae public InputContext getInputContext() {
// synchronized (inputContextLock) {
// if (inputContext == null) {
// inputContext = InputContext.getInstance();
// }
// }
// return inputContext;
// }
/**
* Set the cursor image to a specified cursor.
* <p>
* The method may have no visual effect if the Java platform
* implementation and/or the native system do not support
* changing the mouse cursor shape.
* @param cursor One of the constants defined
* by the <code>Cursor</code> class. If this parameter is null
* then the cursor for this window will be set to the type
* Cursor.DEFAULT_CURSOR.
* @see Component#getCursor
* @see Cursor
* @since JDK1.1
*/
public void setCursor(Cursor cursor) {
if (cursor == null) {
cursor = Cursor.getPredefinedCursor(Cursor.DEFAULT_CURSOR);
}
super.setCursor(cursor);
}
/**
* Returns the owner of this window.
* @since 1.2
*/
public Window getOwner() {
return getOwner_NoClientCode();
}
final Window getOwner_NoClientCode() {
return (Window)parent;
}
/**
* Return an array containing all the windows this
* window currently owns.
* @since 1.2
*/
public Window[] getOwnedWindows() {
return getOwnedWindows_NoClientCode();
}
final Window[] getOwnedWindows_NoClientCode() {
Window realCopy[];
synchronized(ownedWindowList) {
// Recall that ownedWindowList is actually a Vector of
// WeakReferences and calling get() on one of these references
// may return null. Make two arrays-- one the size of the
// Vector (fullCopy with size fullSize), and one the size of
// all non-null get()s (realCopy with size realSize).
int fullSize = ownedWindowList.size();
int realSize = 0;
Window fullCopy[] = new Window[fullSize];
for (int i = 0; i < fullSize; i++) {
fullCopy[realSize] = ownedWindowList.elementAt(i).get();
if (fullCopy[realSize] != null) {
realSize++;
}
}
if (fullSize != realSize) {
realCopy = Arrays.copyOf(fullCopy, realSize);
} else {
realCopy = fullCopy;
}
}
return realCopy;
}
boolean isModalBlocked() {
return modalBlocker != null;
}
void setModalBlocked(Dialog blocker, boolean blocked, boolean peerCall) {
this.modalBlocker = blocked ? blocker : null;
if (peerCall) {
WindowPeer peer = (WindowPeer)this.peer;
if (peer != null) {
peer.setModalBlocked(blocker, blocked);
}
}
}
Dialog getModalBlocker() {
return modalBlocker;
}
/*
* Returns a list of all displayable Windows, i. e. all the
* Windows which peer is not null.
*
* @see #addNotify
* @see #removeNotify
*/
static IdentityArrayList<Window> getAllWindows() {
synchronized (allWindows) {
IdentityArrayList<Window> v = new IdentityArrayList<Window>();
v.addAll(allWindows);
return v;
}
}
static IdentityArrayList<Window> getAllUnblockedWindows() {
synchronized (allWindows) {
IdentityArrayList<Window> unblocked = new IdentityArrayList<Window>();
for (int i = 0; i < allWindows.size(); i++) {
Window w = allWindows.get(i);
if (!w.isModalBlocked()) {
unblocked.add(w);
}
}
return unblocked;
}
}
private static Window[] getWindows(AppContext appContext) {
synchronized (Window.class) {
Window realCopy[];
Vector<WeakReference<Window>> windowList =
(Vector<WeakReference<Window>>)appContext.get(Window.class);
if (windowList != null) {
int fullSize = windowList.size();
int realSize = 0;
Window fullCopy[] = new Window[fullSize];
for (int i = 0; i < fullSize; i++) {
Window w = windowList.get(i).get();
if (w != null) {
fullCopy[realSize++] = w;
}
}
if (fullSize != realSize) {
realCopy = Arrays.copyOf(fullCopy, realSize);
} else {
realCopy = fullCopy;
}
} else {
realCopy = new Window[0];
}
return realCopy;
}
}
/**
* Returns an array of all {@code Window}s, both owned and ownerless,
* created by this application.
* If called from an applet, the array includes only the {@code Window}s
* accessible by that applet.
* <p>
* <b>Warning:</b> this method may return system created windows, such
* as a print dialog. Applications should not assume the existence of
* these dialogs, nor should an application assume anything about these
* dialogs such as component positions, <code>LayoutManager</code>s
* or serialization.
*
* @see Frame#getFrames
* @see Window#getOwnerlessWindows
*
* @since 1.6
*/
public static Window[] getWindows() {
return getWindows(AppContext.getAppContext());
}
/**
* Returns an array of all {@code Window}s created by this application
* that have no owner. They include {@code Frame}s and ownerless
* {@code Dialog}s and {@code Window}s.
* If called from an applet, the array includes only the {@code Window}s
* accessible by that applet.
* <p>
* <b>Warning:</b> this method may return system created windows, such
* as a print dialog. Applications should not assume the existence of
* these dialogs, nor should an application assume anything about these
* dialogs such as component positions, <code>LayoutManager</code>s
* or serialization.
*
* @see Frame#getFrames
* @see Window#getWindows()
*
* @since 1.6
*/
public static Window[] getOwnerlessWindows() {
Window[] allWindows = Window.getWindows();
int ownerlessCount = 0;
for (Window w : allWindows) {
if (w.getOwner() == null) {
ownerlessCount++;
}
}
Window[] ownerless = new Window[ownerlessCount];
int c = 0;
for (Window w : allWindows) {
if (w.getOwner() == null) {
ownerless[c++] = w;
}
}
return ownerless;
}
Window getDocumentRoot() {
synchronized (getTreeLock()) {
Window w = this;
while (w.getOwner() != null) {
w = w.getOwner();
}
return w;
}
}
/**
* Specifies the modal exclusion type for this window. If a window is modal
* excluded, it is not blocked by some modal dialogs. See {@link
* ae.java.awt.Dialog.ModalExclusionType Dialog.ModalExclusionType} for
* possible modal exclusion types.
* <p>
* If the given type is not supported, <code>NO_EXCLUDE</code> is used.
* <p>
* Note: changing the modal exclusion type for a visible window may have no
* effect until it is hidden and then shown again.
*
* @param exclusionType the modal exclusion type for this window; a <code>null</code>
* value is equivivalent to {@link Dialog.ModalExclusionType#NO_EXCLUDE
* NO_EXCLUDE}
* @throws SecurityException if the calling thread does not have permission
* to set the modal exclusion property to the window with the given
* <code>exclusionType</code>
* @see ae.java.awt.Dialog.ModalExclusionType
* @see ae.java.awt.Window#getModalExclusionType
* @see ae.java.awt.Toolkit#isModalExclusionTypeSupported
*
* @since 1.6
*/
public void setModalExclusionType(Dialog.ModalExclusionType exclusionType) {
if (exclusionType == null) {
exclusionType = Dialog.ModalExclusionType.NO_EXCLUDE;
}
if (!Toolkit.getDefaultToolkit().isModalExclusionTypeSupported(exclusionType)) {
exclusionType = Dialog.ModalExclusionType.NO_EXCLUDE;
}
if (modalExclusionType == exclusionType) {
return;
}
//ae if (exclusionType == Dialog.ModalExclusionType.TOOLKIT_EXCLUDE) {
// SecurityManager sm = System.getSecurityManager();
// if (sm != null) {
// sm.checkPermission(SecurityConstants.TOOLKIT_MODALITY_PERMISSION);
// }
// }
modalExclusionType = exclusionType;
// if we want on-fly changes, we need to uncomment the lines below
// and override the method in Dialog to use modalShow() instead
// of updateChildrenBlocking()
/*
if (isModalBlocked()) {
modalBlocker.unblockWindow(this);
}
Dialog.checkShouldBeBlocked(this);
updateChildrenBlocking();
*/
}
/**
* Returns the modal exclusion type of this window.
*
* @return the modal exclusion type of this window
*
* @see ae.java.awt.Dialog.ModalExclusionType
* @see ae.java.awt.Window#setModalExclusionType
*
* @since 1.6
*/
public Dialog.ModalExclusionType getModalExclusionType() {
return modalExclusionType;
}
boolean isModalExcluded(Dialog.ModalExclusionType exclusionType) {
if ((modalExclusionType != null) &&
modalExclusionType.compareTo(exclusionType) >= 0)
{
return true;
}
Window owner = getOwner_NoClientCode();
return (owner != null) && owner.isModalExcluded(exclusionType);
}
void updateChildrenBlocking() {
Vector<Window> childHierarchy = new Vector<Window>();
Window[] ownedWindows = getOwnedWindows();
for (int i = 0; i < ownedWindows.length; i++) {
childHierarchy.add(ownedWindows[i]);
}
int k = 0;
while (k < childHierarchy.size()) {
Window w = childHierarchy.get(k);
if (w.isVisible()) {
if (w.isModalBlocked()) {
Dialog blocker = w.getModalBlocker();
blocker.unblockWindow(w);
}
Dialog.checkShouldBeBlocked(w);
Window[] wOwned = w.getOwnedWindows();
for (int j = 0; j < wOwned.length; j++) {
childHierarchy.add(wOwned[j]);
}
}
k++;
}
}
/**
* Adds the specified window listener to receive window events from
* this window.
* If l is null, no exception is thrown and no action is performed.
* <p>Refer to <a href="doc-files/AWTThreadIssues.html#ListenersThreads"
* >AWT Threading Issues</a> for details on AWT's threading model.
*
* @param l the window listener
* @see #removeWindowListener
* @see #getWindowListeners
*/
public synchronized void addWindowListener(WindowListener l) {
if (l == null) {
return;
}
newEventsOnly = true;
windowListener = AWTEventMulticaster.add(windowListener, l);
}
/**
* Adds the specified window state listener to receive window
* events from this window. If <code>l</code> is <code>null</code>,
* no exception is thrown and no action is performed.
* <p>Refer to <a href="doc-files/AWTThreadIssues.html#ListenersThreads"
* >AWT Threading Issues</a> for details on AWT's threading model.
*
* @param l the window state listener
* @see #removeWindowStateListener
* @see #getWindowStateListeners
* @since 1.4
*/
public synchronized void addWindowStateListener(WindowStateListener l) {
if (l == null) {
return;
}
windowStateListener = AWTEventMulticaster.add(windowStateListener, l);
newEventsOnly = true;
}
/**
* Adds the specified window focus listener to receive window events
* from this window.
* If l is null, no exception is thrown and no action is performed.
* <p>Refer to <a href="doc-files/AWTThreadIssues.html#ListenersThreads"
* >AWT Threading Issues</a> for details on AWT's threading model.
*
* @param l the window focus listener
* @see #removeWindowFocusListener
* @see #getWindowFocusListeners
* @since 1.4
*/
public synchronized void addWindowFocusListener(WindowFocusListener l) {
if (l == null) {
return;
}
windowFocusListener = AWTEventMulticaster.add(windowFocusListener, l);
newEventsOnly = true;
}
/**
* Removes the specified window listener so that it no longer
* receives window events from this window.
* If l is null, no exception is thrown and no action is performed.
* <p>Refer to <a href="doc-files/AWTThreadIssues.html#ListenersThreads"
* >AWT Threading Issues</a> for details on AWT's threading model.
*
* @param l the window listener
* @see #addWindowListener
* @see #getWindowListeners
*/
public synchronized void removeWindowListener(WindowListener l) {
if (l == null) {
return;
}
windowListener = AWTEventMulticaster.remove(windowListener, l);
}
/**
* Removes the specified window state listener so that it no
* longer receives window events from this window. If
* <code>l</code> is <code>null</code>, no exception is thrown and
* no action is performed.
* <p>Refer to <a href="doc-files/AWTThreadIssues.html#ListenersThreads"
* >AWT Threading Issues</a> for details on AWT's threading model.
*
* @param l the window state listener
* @see #addWindowStateListener
* @see #getWindowStateListeners
* @since 1.4
*/
public synchronized void removeWindowStateListener(WindowStateListener l) {
if (l == null) {
return;
}
windowStateListener = AWTEventMulticaster.remove(windowStateListener, l);
}
/**
* Removes the specified window focus listener so that it no longer
* receives window events from this window.
* If l is null, no exception is thrown and no action is performed.
* <p>Refer to <a href="doc-files/AWTThreadIssues.html#ListenersThreads"
* >AWT Threading Issues</a> for details on AWT's threading model.
*
* @param l the window focus listener
* @see #addWindowFocusListener
* @see #getWindowFocusListeners
* @since 1.4
*/
public synchronized void removeWindowFocusListener(WindowFocusListener l) {
if (l == null) {
return;
}
windowFocusListener = AWTEventMulticaster.remove(windowFocusListener, l);
}
/**
* Returns an array of all the window listeners
* registered on this window.
*
* @return all of this window's <code>WindowListener</code>s
* or an empty array if no window
* listeners are currently registered
*
* @see #addWindowListener
* @see #removeWindowListener
* @since 1.4
*/
public synchronized WindowListener[] getWindowListeners() {
return (WindowListener[])(getListeners(WindowListener.class));
}
/**
* Returns an array of all the window focus listeners
* registered on this window.
*
* @return all of this window's <code>WindowFocusListener</code>s
* or an empty array if no window focus
* listeners are currently registered
*
* @see #addWindowFocusListener
* @see #removeWindowFocusListener
* @since 1.4
*/
public synchronized WindowFocusListener[] getWindowFocusListeners() {
return (WindowFocusListener[])(getListeners(WindowFocusListener.class));
}
/**
* Returns an array of all the window state listeners
* registered on this window.
*
* @return all of this window's <code>WindowStateListener</code>s
* or an empty array if no window state
* listeners are currently registered
*
* @see #addWindowStateListener
* @see #removeWindowStateListener
* @since 1.4
*/
public synchronized WindowStateListener[] getWindowStateListeners() {
return (WindowStateListener[])(getListeners(WindowStateListener.class));
}
/**
* Returns an array of all the objects currently registered
* as <code><em>Foo</em>Listener</code>s
* upon this <code>Window</code>.
* <code><em>Foo</em>Listener</code>s are registered using the
* <code>add<em>Foo</em>Listener</code> method.
*
* <p>
*
* You can specify the <code>listenerType</code> argument
* with a class literal, such as
* <code><em>Foo</em>Listener.class</code>.
* For example, you can query a
* <code>Window</code> <code>w</code>
* for its window listeners with the following code:
*
* <pre>WindowListener[] wls = (WindowListener[])(w.getListeners(WindowListener.class));</pre>
*
* If no such listeners exist, this method returns an empty array.
*
* @param listenerType the type of listeners requested; this parameter
* should specify an interface that descends from
* <code>java.util.EventListener</code>
* @return an array of all objects registered as
* <code><em>Foo</em>Listener</code>s on this window,
* or an empty array if no such
* listeners have been added
* @exception ClassCastException if <code>listenerType</code>
* doesn't specify a class or interface that implements
* <code>java.util.EventListener</code>
*
* @see #getWindowListeners
* @since 1.3
*/
public <T extends EventListener> T[] getListeners(Class<T> listenerType) {
EventListener l = null;
if (listenerType == WindowFocusListener.class) {
l = windowFocusListener;
} else if (listenerType == WindowStateListener.class) {
l = windowStateListener;
} else if (listenerType == WindowListener.class) {
l = windowListener;
} else {
return super.getListeners(listenerType);
}
return AWTEventMulticaster.getListeners(l, listenerType);
}
// REMIND: remove when filtering is handled at lower level
boolean eventEnabled(AWTEvent e) {
switch(e.id) {
case WindowEvent.WINDOW_OPENED:
case WindowEvent.WINDOW_CLOSING:
case WindowEvent.WINDOW_CLOSED:
case WindowEvent.WINDOW_ICONIFIED:
case WindowEvent.WINDOW_DEICONIFIED:
case WindowEvent.WINDOW_ACTIVATED:
case WindowEvent.WINDOW_DEACTIVATED:
if ((eventMask & AWTEvent.WINDOW_EVENT_MASK) != 0 ||
windowListener != null) {
return true;
}
return false;
case WindowEvent.WINDOW_GAINED_FOCUS:
case WindowEvent.WINDOW_LOST_FOCUS:
if ((eventMask & AWTEvent.WINDOW_FOCUS_EVENT_MASK) != 0 ||
windowFocusListener != null) {
return true;
}
return false;
case WindowEvent.WINDOW_STATE_CHANGED:
if ((eventMask & AWTEvent.WINDOW_STATE_EVENT_MASK) != 0 ||
windowStateListener != null) {
return true;
}
return false;
default:
break;
}
return super.eventEnabled(e);
}
/**
* Processes events on this window. If the event is an
* <code>WindowEvent</code>, it invokes the
* <code>processWindowEvent</code> method, else it invokes its
* superclass's <code>processEvent</code>.
* <p>Note that if the event parameter is <code>null</code>
* the behavior is unspecified and may result in an
* exception.
*
* @param e the event
*/
protected void processEvent(AWTEvent e) {
if (e instanceof WindowEvent) {
switch (e.getID()) {
case WindowEvent.WINDOW_OPENED:
case WindowEvent.WINDOW_CLOSING:
case WindowEvent.WINDOW_CLOSED:
case WindowEvent.WINDOW_ICONIFIED:
case WindowEvent.WINDOW_DEICONIFIED:
case WindowEvent.WINDOW_ACTIVATED:
case WindowEvent.WINDOW_DEACTIVATED:
processWindowEvent((WindowEvent)e);
break;
case WindowEvent.WINDOW_GAINED_FOCUS:
case WindowEvent.WINDOW_LOST_FOCUS:
processWindowFocusEvent((WindowEvent)e);
break;
case WindowEvent.WINDOW_STATE_CHANGED:
processWindowStateEvent((WindowEvent)e);
default:
break;
}
return;
}
super.processEvent(e);
}
/**
* Processes window events occurring on this window by
* dispatching them to any registered WindowListener objects.
* NOTE: This method will not be called unless window events
* are enabled for this component; this happens when one of the
* following occurs:
* <ul>
* <li>A WindowListener object is registered via
* <code>addWindowListener</code>
* <li>Window events are enabled via <code>enableEvents</code>
* </ul>
* <p>Note that if the event parameter is <code>null</code>
* the behavior is unspecified and may result in an
* exception.
*
* @param e the window event
* @see Component#enableEvents
*/
protected void processWindowEvent(WindowEvent e) {
WindowListener listener = windowListener;
if (listener != null) {
switch(e.getID()) {
case WindowEvent.WINDOW_OPENED:
listener.windowOpened(e);
break;
case WindowEvent.WINDOW_CLOSING:
listener.windowClosing(e);
break;
case WindowEvent.WINDOW_CLOSED:
listener.windowClosed(e);
break;
case WindowEvent.WINDOW_ICONIFIED:
listener.windowIconified(e);
break;
case WindowEvent.WINDOW_DEICONIFIED:
listener.windowDeiconified(e);
break;
case WindowEvent.WINDOW_ACTIVATED:
listener.windowActivated(e);
break;
case WindowEvent.WINDOW_DEACTIVATED:
listener.windowDeactivated(e);
break;
default:
break;
}
}
}
/**
* Processes window focus event occuring on this window by
* dispatching them to any registered WindowFocusListener objects.
* NOTE: this method will not be called unless window focus events
* are enabled for this window. This happens when one of the
* following occurs:
* <ul>
* <li>a WindowFocusListener is registered via
* <code>addWindowFocusListener</code>
* <li>Window focus events are enabled via <code>enableEvents</code>
* </ul>
* <p>Note that if the event parameter is <code>null</code>
* the behavior is unspecified and may result in an
* exception.
*
* @param e the window focus event
* @see Component#enableEvents
* @since 1.4
*/
protected void processWindowFocusEvent(WindowEvent e) {
WindowFocusListener listener = windowFocusListener;
if (listener != null) {
switch (e.getID()) {
case WindowEvent.WINDOW_GAINED_FOCUS:
listener.windowGainedFocus(e);
break;
case WindowEvent.WINDOW_LOST_FOCUS:
listener.windowLostFocus(e);
break;
default:
break;
}
}
}
/**
* Processes window state event occuring on this window by
* dispatching them to any registered <code>WindowStateListener</code>
* objects.
* NOTE: this method will not be called unless window state events
* are enabled for this window. This happens when one of the
* following occurs:
* <ul>
* <li>a <code>WindowStateListener</code> is registered via
* <code>addWindowStateListener</code>
* <li>window state events are enabled via <code>enableEvents</code>
* </ul>
* <p>Note that if the event parameter is <code>null</code>
* the behavior is unspecified and may result in an
* exception.
*
* @param e the window state event
* @see ae.java.awt.Component#enableEvents
* @since 1.4
*/
protected void processWindowStateEvent(WindowEvent e) {
WindowStateListener listener = windowStateListener;
if (listener != null) {
switch (e.getID()) {
case WindowEvent.WINDOW_STATE_CHANGED:
listener.windowStateChanged(e);
break;
default:
break;
}
}
}
/**
* Implements a debugging hook -- checks to see if
* the user has typed <i>control-shift-F1</i>. If so,
* the list of child windows is dumped to <code>System.out</code>.
* @param e the keyboard event
*/
void preProcessKeyEvent(KeyEvent e) {
// Dump the list of child windows to System.out.
if (e.isActionKey() && e.getKeyCode() == KeyEvent.VK_F1 &&
e.isControlDown() && e.isShiftDown() &&
e.getID() == KeyEvent.KEY_PRESSED) {
list(System.out, 0);
}
}
void postProcessKeyEvent(KeyEvent e) {
// Do nothing
}
/**
* Sets whether this window should always be above other windows. If
* there are multiple always-on-top windows, their relative order is
* unspecified and platform dependent.
* <p>
* If some other window is already always-on-top then the
* relative order between these windows is unspecified (depends on
* platform). No window can be brought to be over the always-on-top
* window except maybe another always-on-top window.
* <p>
* All windows owned by an always-on-top window inherit this state and
* automatically become always-on-top. If a window ceases to be
* always-on-top, the windows that it owns will no longer be
* always-on-top. When an always-on-top window is sent {@link #toBack
* toBack}, its always-on-top state is set to <code>false</code>.
*
* <p> When this method is called on a window with a value of
* <code>true</code>, and the window is visible and the platform
* supports always-on-top for this window, the window is immediately
* brought forward, "sticking" it in the top-most position. If the
* window isn`t currently visible, this method sets the always-on-top
* state to <code>true</code> but does not bring the window forward.
* When the window is later shown, it will be always-on-top.
*
* <p> When this method is called on a window with a value of
* <code>false</code> the always-on-top state is set to normal. The
* window remains in the top-most position but it`s z-order can be
* changed as for any other window. Calling this method with a value
* of <code>false</code> on a window that has a normal state has no
* effect. Setting the always-on-top state to false has no effect on
* the relative z-order of the windows if there are no other
* always-on-top windows.
*
* <p><b>Note</b>: some platforms might not support always-on-top
* windows. To detect if always-on-top windows are supported by the
* current platform, use {@link Toolkit#isAlwaysOnTopSupported()} and
* {@link Window#isAlwaysOnTopSupported()}. If always-on-top mode
* isn't supported by the toolkit or for this window, calling this
* method has no effect.
* <p>
* If a SecurityManager is installed, the calling thread must be
* granted the AWTPermission "setWindowAlwaysOnTop" in
* order to set the value of this property. If this
* permission is not granted, this method will throw a
* SecurityException, and the current value of the property will
* be left unchanged.
*
* @param alwaysOnTop true if the window should always be above other
* windows
* @throws SecurityException if the calling thread does not have
* permission to set the value of always-on-top property
* @see #isAlwaysOnTop
* @see #toFront
* @see #toBack
* @see AWTPermission
* @see #isAlwaysOnTopSupported
* @see Toolkit#isAlwaysOnTopSupported
* @since 1.5
*/
public final void setAlwaysOnTop(boolean alwaysOnTop) throws SecurityException {
//ae SecurityManager security = System.getSecurityManager();
// if (security != null) {
// security.checkPermission(SecurityConstants.SET_WINDOW_ALWAYS_ON_TOP_PERMISSION);
// }
boolean oldAlwaysOnTop;
synchronized(this) {
oldAlwaysOnTop = this.alwaysOnTop;
this.alwaysOnTop = alwaysOnTop;
}
if (oldAlwaysOnTop != alwaysOnTop ) {
if (isAlwaysOnTopSupported()) {
WindowPeer peer = (WindowPeer)this.peer;
synchronized(getTreeLock()) {
if (peer != null) {
peer.setAlwaysOnTop(alwaysOnTop);
}
}
}
firePropertyChange("alwaysOnTop", oldAlwaysOnTop, alwaysOnTop);
}
}
/**
* Returns whether the always-on-top mode is supported for this
* window. Some platforms may not support always-on-top windows, some
* may support only some kinds of top-level windows; for example,
* a platform may not support always-on-top modal dialogs.
* @return <code>true</code>, if the always-on-top mode is
* supported by the toolkit and for this window,
* <code>false</code>, if always-on-top mode is not supported
* for this window or toolkit doesn't support always-on-top windows.
* @see #setAlwaysOnTop(boolean)
* @see Toolkit#isAlwaysOnTopSupported
* @since 1.6
*/
public boolean isAlwaysOnTopSupported() {
return Toolkit.getDefaultToolkit().isAlwaysOnTopSupported();
}
/**
* Returns whether this window is an always-on-top window.
* @return <code>true</code>, if the window is in always-on-top state,
* <code>false</code> otherwise
* @see #setAlwaysOnTop
* @since 1.5
*/
public final boolean isAlwaysOnTop() {
return alwaysOnTop;
}
/**
* Returns the child Component of this Window that has focus if this Window
* is focused; returns null otherwise.
*
* @return the child Component with focus, or null if this Window is not
* focused
* @see #getMostRecentFocusOwner
* @see #isFocused
*/
public Component getFocusOwner() {
return (isFocused())
? KeyboardFocusManager.getCurrentKeyboardFocusManager().
getFocusOwner()
: null;
}
/**
* Returns the child Component of this Window that will receive the focus
* when this Window is focused. If this Window is currently focused, this
* method returns the same Component as <code>getFocusOwner()</code>. If
* this Window is not focused, then the child Component that most recently
* requested focus will be returned. If no child Component has ever
* requested focus, and this is a focusable Window, then this Window's
* initial focusable Component is returned. If no child Component has ever
* requested focus, and this is a non-focusable Window, null is returned.
*
* @return the child Component that will receive focus when this Window is
* focused
* @see #getFocusOwner
* @see #isFocused
* @see #isFocusableWindow
* @since 1.4
*/
public Component getMostRecentFocusOwner() {
if (isFocused()) {
return getFocusOwner();
} else {
Component mostRecent =
KeyboardFocusManager.getMostRecentFocusOwner(this);
if (mostRecent != null) {
return mostRecent;
} else {
return (isFocusableWindow())
? getFocusTraversalPolicy().getInitialComponent(this)
: null;
}
}
}
/**
* Returns whether this Window is active. Only a Frame or a Dialog may be
* active. The native windowing system may denote the active Window or its
* children with special decorations, such as a highlighted title bar. The
* active Window is always either the focused Window, or the first Frame or
* Dialog that is an owner of the focused Window.
*
* @return whether this is the active Window.
* @see #isFocused
* @since 1.4
*/
public boolean isActive() {
return (KeyboardFocusManager.getCurrentKeyboardFocusManager().
getActiveWindow() == this);
}
/**
* Returns whether this Window is focused. If there exists a focus owner,
* the focused Window is the Window that is, or contains, that focus owner.
* If there is no focus owner, then no Window is focused.
* <p>
* If the focused Window is a Frame or a Dialog it is also the active
* Window. Otherwise, the active Window is the first Frame or Dialog that
* is an owner of the focused Window.
*
* @return whether this is the focused Window.
* @see #isActive
* @since 1.4
*/
public boolean isFocused() {
return (KeyboardFocusManager.getCurrentKeyboardFocusManager().
getGlobalFocusedWindow() == this);
}
/**
* Gets a focus traversal key for this Window. (See <code>
* setFocusTraversalKeys</code> for a full description of each key.)
* <p>
* If the traversal key has not been explicitly set for this Window,
* then this Window's parent's traversal key is returned. If the
* traversal key has not been explicitly set for any of this Window's
* ancestors, then the current KeyboardFocusManager's default traversal key
* is returned.
*
* @param id one of KeyboardFocusManager.FORWARD_TRAVERSAL_KEYS,
* KeyboardFocusManager.BACKWARD_TRAVERSAL_KEYS,
* KeyboardFocusManager.UP_CYCLE_TRAVERSAL_KEYS, or
* KeyboardFocusManager.DOWN_CYCLE_TRAVERSAL_KEYS
* @return the AWTKeyStroke for the specified key
* @see Container#setFocusTraversalKeys
* @see KeyboardFocusManager#FORWARD_TRAVERSAL_KEYS
* @see KeyboardFocusManager#BACKWARD_TRAVERSAL_KEYS
* @see KeyboardFocusManager#UP_CYCLE_TRAVERSAL_KEYS
* @see KeyboardFocusManager#DOWN_CYCLE_TRAVERSAL_KEYS
* @throws IllegalArgumentException if id is not one of
* KeyboardFocusManager.FORWARD_TRAVERSAL_KEYS,
* KeyboardFocusManager.BACKWARD_TRAVERSAL_KEYS,
* KeyboardFocusManager.UP_CYCLE_TRAVERSAL_KEYS, or
* KeyboardFocusManager.DOWN_CYCLE_TRAVERSAL_KEYS
* @since 1.4
*/
public Set<AWTKeyStroke> getFocusTraversalKeys(int id) {
if (id < 0 || id >= KeyboardFocusManager.TRAVERSAL_KEY_LENGTH) {
throw new IllegalArgumentException("invalid focus traversal key identifier");
}
// Okay to return Set directly because it is an unmodifiable view
Set keystrokes = (focusTraversalKeys != null)
? focusTraversalKeys[id]
: null;
if (keystrokes != null) {
return keystrokes;
} else {
return KeyboardFocusManager.getCurrentKeyboardFocusManager().
getDefaultFocusTraversalKeys(id);
}
}
/**
* Does nothing because Windows must always be roots of a focus traversal
* cycle. The passed-in value is ignored.
*
* @param focusCycleRoot this value is ignored
* @see #isFocusCycleRoot
* @see Container#setFocusTraversalPolicy
* @see Container#getFocusTraversalPolicy
* @since 1.4
*/
public final void setFocusCycleRoot(boolean focusCycleRoot) {
}
/**
* Always returns <code>true</code> because all Windows must be roots of a
* focus traversal cycle.
*
* @return <code>true</code>
* @see #setFocusCycleRoot
* @see Container#setFocusTraversalPolicy
* @see Container#getFocusTraversalPolicy
* @since 1.4
*/
public final boolean isFocusCycleRoot() {
return true;
}
/**
* Always returns <code>null</code> because Windows have no ancestors; they
* represent the top of the Component hierarchy.
*
* @return <code>null</code>
* @see Container#isFocusCycleRoot()
* @since 1.4
*/
public final Container getFocusCycleRootAncestor() {
return null;
}
/**
* Returns whether this Window can become the focused Window, that is,
* whether this Window or any of its subcomponents can become the focus
* owner. For a Frame or Dialog to be focusable, its focusable Window state
* must be set to <code>true</code>. For a Window which is not a Frame or
* Dialog to be focusable, its focusable Window state must be set to
* <code>true</code>, its nearest owning Frame or Dialog must be
* showing on the screen, and it must contain at least one Component in
* its focus traversal cycle. If any of these conditions is not met, then
* neither this Window nor any of its subcomponents can become the focus
* owner.
*
* @return <code>true</code> if this Window can be the focused Window;
* <code>false</code> otherwise
* @see #getFocusableWindowState
* @see #setFocusableWindowState
* @see #isShowing
* @see Component#isFocusable
* @since 1.4
*/
public final boolean isFocusableWindow() {
// If a Window/Frame/Dialog was made non-focusable, then it is always
// non-focusable.
if (!getFocusableWindowState()) {
return false;
}
// All other tests apply only to Windows.
if (this instanceof Frame || this instanceof Dialog) {
return true;
}
// A Window must have at least one Component in its root focus
// traversal cycle to be focusable.
if (getFocusTraversalPolicy().getDefaultComponent(this) == null) {
return false;
}
// A Window's nearest owning Frame or Dialog must be showing on the
// screen.
for (Window owner = getOwner(); owner != null;
owner = owner.getOwner())
{
if (owner instanceof Frame || owner instanceof Dialog) {
return owner.isShowing();
}
}
return false;
}
/**
* Returns whether this Window can become the focused Window if it meets
* the other requirements outlined in <code>isFocusableWindow</code>. If
* this method returns <code>false</code>, then
* <code>isFocusableWindow</code> will return <code>false</code> as well.
* If this method returns <code>true</code>, then
* <code>isFocusableWindow</code> may return <code>true</code> or
* <code>false</code> depending upon the other requirements which must be
* met in order for a Window to be focusable.
* <p>
* By default, all Windows have a focusable Window state of
* <code>true</code>.
*
* @return whether this Window can be the focused Window
* @see #isFocusableWindow
* @see #setFocusableWindowState
* @see #isShowing
* @see Component#setFocusable
* @since 1.4
*/
public boolean getFocusableWindowState() {
return focusableWindowState;
}
/**
* Sets whether this Window can become the focused Window if it meets
* the other requirements outlined in <code>isFocusableWindow</code>. If
* this Window's focusable Window state is set to <code>false</code>, then
* <code>isFocusableWindow</code> will return <code>false</code>. If this
* Window's focusable Window state is set to <code>true</code>, then
* <code>isFocusableWindow</code> may return <code>true</code> or
* <code>false</code> depending upon the other requirements which must be
* met in order for a Window to be focusable.
* <p>
* Setting a Window's focusability state to <code>false</code> is the
* standard mechanism for an application to identify to the AWT a Window
* which will be used as a floating palette or toolbar, and thus should be
* a non-focusable Window.
*
* Setting the focusability state on a visible <code>Window</code>
* can have a delayed effect on some platforms — the actual
* change may happen only when the <code>Window</code> becomes
* hidden and then visible again. To ensure consistent behavior
* across platforms, set the <code>Window</code>'s focusable state
* when the <code>Window</code> is invisible and then show it.
*
* @param focusableWindowState whether this Window can be the focused
* Window
* @see #isFocusableWindow
* @see #getFocusableWindowState
* @see #isShowing
* @see Component#setFocusable
* @since 1.4
*/
public void setFocusableWindowState(boolean focusableWindowState) {
boolean oldFocusableWindowState;
synchronized (this) {
oldFocusableWindowState = this.focusableWindowState;
this.focusableWindowState = focusableWindowState;
}
WindowPeer peer = (WindowPeer)this.peer;
if (peer != null) {
peer.updateFocusableWindowState();
}
firePropertyChange("focusableWindowState", oldFocusableWindowState,
focusableWindowState);
if (oldFocusableWindowState && !focusableWindowState && isFocused()) {
for (Window owner = getOwner();
owner != null;
owner = owner.getOwner())
{
Component toFocus =
KeyboardFocusManager.getMostRecentFocusOwner(owner);
if (toFocus != null && toFocus.requestFocus(false, CausedFocusEvent.Cause.ACTIVATION)) {
return;
}
}
KeyboardFocusManager.getCurrentKeyboardFocusManager().
clearGlobalFocusOwner();
}
}
/**
* Sets whether this window should receive focus on
* subsequently being shown (with a call to {@link #setVisible setVisible(true)}),
* or being moved to the front (with a call to {@link #toFront}).
* <p>
* Note that {@link #setVisible setVisible(true)} may be called indirectly
* (e.g. when showing an owner of the window makes the window to be shown).
* {@link #toFront} may also be called indirectly (e.g. when
* {@link #setVisible setVisible(true)} is called on already visible window).
* In all such cases this property takes effect as well.
* <p>
* The value of the property is not inherited by owned windows.
*
* @param autoRequestFocus whether this window should be focused on
* subsequently being shown or being moved to the front
* @see #isAutoRequestFocus
* @see #isFocusableWindow
* @see #setVisible
* @see #toFront
* @since 1.7
*/
public void setAutoRequestFocus(boolean autoRequestFocus) {
this.autoRequestFocus = autoRequestFocus;
}
/**
* Returns whether this window should receive focus on subsequently being shown
* (with a call to {@link #setVisible setVisible(true)}), or being moved to the front
* (with a call to {@link #toFront}).
* <p>
* By default, the window has {@code autoRequestFocus} value of {@code true}.
*
* @return {@code autoRequestFocus} value
* @see #setAutoRequestFocus
* @since 1.7
*/
public boolean isAutoRequestFocus() {
return autoRequestFocus;
}
/**
* Adds a PropertyChangeListener to the listener list. The listener is
* registered for all bound properties of this class, including the
* following:
* <ul>
* <li>this Window's font ("font")</li>
* <li>this Window's background color ("background")</li>
* <li>this Window's foreground color ("foreground")</li>
* <li>this Window's focusability ("focusable")</li>
* <li>this Window's focus traversal keys enabled state
* ("focusTraversalKeysEnabled")</li>
* <li>this Window's Set of FORWARD_TRAVERSAL_KEYS
* ("forwardFocusTraversalKeys")</li>
* <li>this Window's Set of BACKWARD_TRAVERSAL_KEYS
* ("backwardFocusTraversalKeys")</li>
* <li>this Window's Set of UP_CYCLE_TRAVERSAL_KEYS
* ("upCycleFocusTraversalKeys")</li>
* <li>this Window's Set of DOWN_CYCLE_TRAVERSAL_KEYS
* ("downCycleFocusTraversalKeys")</li>
* <li>this Window's focus traversal policy ("focusTraversalPolicy")
* </li>
* <li>this Window's focusable Window state ("focusableWindowState")
* </li>
* <li>this Window's always-on-top state("alwaysOnTop")</li>
* </ul>
* Note that if this Window is inheriting a bound property, then no
* event will be fired in response to a change in the inherited property.
* <p>
* If listener is null, no exception is thrown and no action is performed.
*
* @param listener the PropertyChangeListener to be added
*
* @see Component#removePropertyChangeListener
* @see #addPropertyChangeListener(java.lang.String,java.beans.PropertyChangeListener)
*/
public void addPropertyChangeListener(PropertyChangeListener listener) {
super.addPropertyChangeListener(listener);
}
/**
* Adds a PropertyChangeListener to the listener list for a specific
* property. The specified property may be user-defined, or one of the
* following:
* <ul>
* <li>this Window's font ("font")</li>
* <li>this Window's background color ("background")</li>
* <li>this Window's foreground color ("foreground")</li>
* <li>this Window's focusability ("focusable")</li>
* <li>this Window's focus traversal keys enabled state
* ("focusTraversalKeysEnabled")</li>
* <li>this Window's Set of FORWARD_TRAVERSAL_KEYS
* ("forwardFocusTraversalKeys")</li>
* <li>this Window's Set of BACKWARD_TRAVERSAL_KEYS
* ("backwardFocusTraversalKeys")</li>
* <li>this Window's Set of UP_CYCLE_TRAVERSAL_KEYS
* ("upCycleFocusTraversalKeys")</li>
* <li>this Window's Set of DOWN_CYCLE_TRAVERSAL_KEYS
* ("downCycleFocusTraversalKeys")</li>
* <li>this Window's focus traversal policy ("focusTraversalPolicy")
* </li>
* <li>this Window's focusable Window state ("focusableWindowState")
* </li>
* <li>this Window's always-on-top state("alwaysOnTop")</li>
* </ul>
* Note that if this Window is inheriting a bound property, then no
* event will be fired in response to a change in the inherited property.
* <p>
* If listener is null, no exception is thrown and no action is performed.
*
* @param propertyName one of the property names listed above
* @param listener the PropertyChangeListener to be added
*
* @see #addPropertyChangeListener(java.beans.PropertyChangeListener)
* @see Component#removePropertyChangeListener
*/
public void addPropertyChangeListener(String propertyName,
PropertyChangeListener listener) {
super.addPropertyChangeListener(propertyName, listener);
}
/**
* Dispatches an event to this window or one of its sub components.
* @param e the event
*/
void dispatchEventImpl(AWTEvent e) {
if (e.getID() == ComponentEvent.COMPONENT_RESIZED) {
invalidate();
validate();
}
super.dispatchEventImpl(e);
}
/**
* @deprecated As of JDK version 1.1
* replaced by <code>dispatchEvent(AWTEvent)</code>.
*/
@Deprecated
public boolean postEvent(Event e) {
if (handleEvent(e)) {
e.consume();
return true;
}
return false;
}
/**
* Checks if this Window is showing on screen.
* @see Component#setVisible
*/
public boolean isShowing() {
return visible;
}
/**
* @deprecated As of J2SE 1.4, replaced by
* {@link Component#applyComponentOrientation Component.applyComponentOrientation}.
*/
@Deprecated
public void applyResourceBundle(ResourceBundle rb) {
applyComponentOrientation(ComponentOrientation.getOrientation(rb));
}
/**
* @deprecated As of J2SE 1.4, replaced by
* {@link Component#applyComponentOrientation Component.applyComponentOrientation}.
*/
@Deprecated
public void applyResourceBundle(String rbName) {
applyResourceBundle(ResourceBundle.getBundle(rbName));
}
/*
* Support for tracking all windows owned by this window
*/
void addOwnedWindow(WeakReference weakWindow) {
if (weakWindow != null) {
synchronized(ownedWindowList) {
// this if statement should really be an assert, but we don't
// have asserts...
if (!ownedWindowList.contains(weakWindow)) {
ownedWindowList.addElement(weakWindow);
}
}
}
}
void removeOwnedWindow(WeakReference weakWindow) {
if (weakWindow != null) {
// synchronized block not required since removeElement is
// already synchronized
ownedWindowList.removeElement(weakWindow);
}
}
void connectOwnedWindow(Window child) {
child.parent = this;
addOwnedWindow(child.weakThis);
}
private void addToWindowList() {
synchronized (Window.class) {
Vector<WeakReference<Window>> windowList = (Vector<WeakReference<Window>>)appContext.get(Window.class);
if (windowList == null) {
windowList = new Vector<WeakReference<Window>>();
appContext.put(Window.class, windowList);
}
windowList.add(weakThis);
}
}
private static void removeFromWindowList(AppContext context, WeakReference weakThis) {
synchronized (Window.class) {
Vector<WeakReference<Window>> windowList = (Vector<WeakReference<Window>>)context.get(Window.class);
if (windowList != null) {
windowList.remove(weakThis);
}
}
}
private void removeFromWindowList() {
removeFromWindowList(appContext, weakThis);
}
/**
* The window serialized data version.
*
* @serial
*/
private int windowSerializedDataVersion = 2;
/**
* Writes default serializable fields to stream. Writes
* a list of serializable <code>WindowListener</code>s and
* <code>WindowFocusListener</code>s as optional data.
* Writes a list of child windows as optional data.
* Writes a list of icon images as optional data
*
* @param s the <code>ObjectOutputStream</code> to write
* @serialData <code>null</code> terminated sequence of
* 0 or more pairs; the pair consists of a <code>String</code>
* and and <code>Object</code>; the <code>String</code>
* indicates the type of object and is one of the following:
* <code>windowListenerK</code> indicating a
* <code>WindowListener</code> object;
* <code>windowFocusWindowK</code> indicating a
* <code>WindowFocusListener</code> object;
* <code>ownedWindowK</code> indicating a child
* <code>Window</code> object
*
* @see AWTEventMulticaster#save(java.io.ObjectOutputStream, java.lang.String, java.util.EventListener)
* @see Component#windowListenerK
* @see Component#windowFocusListenerK
* @see Component#ownedWindowK
* @see #readObject(ObjectInputStream)
*/
private void writeObject(ObjectOutputStream s) throws IOException {
synchronized (this) {
// Update old focusMgr fields so that our object stream can be read
// by previous releases
focusMgr = new FocusManager();
focusMgr.focusRoot = this;
focusMgr.focusOwner = getMostRecentFocusOwner();
s.defaultWriteObject();
// Clear fields so that we don't keep extra references around
focusMgr = null;
AWTEventMulticaster.save(s, windowListenerK, windowListener);
AWTEventMulticaster.save(s, windowFocusListenerK, windowFocusListener);
AWTEventMulticaster.save(s, windowStateListenerK, windowStateListener);
}
s.writeObject(null);
synchronized (ownedWindowList) {
for (int i = 0; i < ownedWindowList.size(); i++) {
Window child = ownedWindowList.elementAt(i).get();
if (child != null) {
s.writeObject(ownedWindowK);
s.writeObject(child);
}
}
}
s.writeObject(null);
//write icon array
if (icons != null) {
for (Image i : icons) {
if (i instanceof Serializable) {
s.writeObject(i);
}
}
}
s.writeObject(null);
}
//
// Part of deserialization procedure to be called before
// user's code.
//
private void initDeserializedWindow() {
setWarningString();
inputContextLock = new Object();
// Deserialized Windows are not yet visible.
visible = false;
weakThis = new WeakReference(this);
anchor = new Object();
ae.sun.java2d.Disposer.addRecord(anchor, new WindowDisposerRecord(appContext, this));
addToWindowList();
}
private void deserializeResources(ObjectInputStream s)
throws ClassNotFoundException, IOException, HeadlessException {
ownedWindowList = new Vector();
if (windowSerializedDataVersion < 2) {
// Translate old-style focus tracking to new model. For 1.4 and
// later releases, we'll rely on the Window's initial focusable
// Component.
if (focusMgr != null) {
if (focusMgr.focusOwner != null) {
KeyboardFocusManager.
setMostRecentFocusOwner(this, focusMgr.focusOwner);
}
}
// This field is non-transient and relies on default serialization.
// However, the default value is insufficient, so we need to set
// it explicitly for object data streams prior to 1.4.
focusableWindowState = true;
}
Object keyOrNull;
while(null != (keyOrNull = s.readObject())) {
String key = ((String)keyOrNull).intern();
if (windowListenerK == key) {
addWindowListener((WindowListener)(s.readObject()));
} else if (windowFocusListenerK == key) {
addWindowFocusListener((WindowFocusListener)(s.readObject()));
} else if (windowStateListenerK == key) {
addWindowStateListener((WindowStateListener)(s.readObject()));
} else // skip value for unrecognized key
s.readObject();
}
try {
while (null != (keyOrNull = s.readObject())) {
String key = ((String)keyOrNull).intern();
if (ownedWindowK == key)
connectOwnedWindow((Window) s.readObject());
else // skip value for unrecognized key
s.readObject();
}
//read icons
Object obj = s.readObject(); //Throws OptionalDataException
//for pre1.6 objects.
icons = new ArrayList<Image>(); //Frame.readObject() assumes
//pre1.6 version if icons is null.
while (obj != null) {
if (obj instanceof Image) {
icons.add((Image)obj);
}
obj = s.readObject();
}
}
catch (OptionalDataException e) {
// 1.1 serialized form
// ownedWindowList will be updated by Frame.readObject
}
}
/**
* Reads the <code>ObjectInputStream</code> and an optional
* list of listeners to receive various events fired by
* the component; also reads a list of
* (possibly <code>null</code>) child windows.
* Unrecognized keys or values will be ignored.
*
* @param s the <code>ObjectInputStream</code> to read
* @exception HeadlessException if
* <code>GraphicsEnvironment.isHeadless</code> returns
* <code>true</code>
* @see ae.java.awt.GraphicsEnvironment#isHeadless
* @see #writeObject
*/
private void readObject(ObjectInputStream s)
throws ClassNotFoundException, IOException, HeadlessException
{
GraphicsEnvironment.checkHeadless();
initDeserializedWindow();
ObjectInputStream.GetField f = s.readFields();
syncLWRequests = f.get("syncLWRequests", systemSyncLWRequests);
state = f.get("state", 0);
focusableWindowState = f.get("focusableWindowState", true);
windowSerializedDataVersion = f.get("windowSerializedDataVersion", 1);
locationByPlatform = f.get("locationByPlatform", locationByPlatformProp);
// Note: 1.4 (or later) doesn't use focusMgr
focusMgr = (FocusManager)f.get("focusMgr", null);
Dialog.ModalExclusionType et = (Dialog.ModalExclusionType)
f.get("modalExclusionType", Dialog.ModalExclusionType.NO_EXCLUDE);
setModalExclusionType(et); // since 6.0
boolean aot = f.get("alwaysOnTop", false);
if(aot) {
setAlwaysOnTop(aot); // since 1.5; subject to permission check
}
deserializeResources(s);
}
/*
* --- Accessibility Support ---
*
*/
/**
* Gets the AccessibleContext associated with this Window.
* For windows, the AccessibleContext takes the form of an
* AccessibleAWTWindow.
* A new AccessibleAWTWindow instance is created if necessary.
*
* @return an AccessibleAWTWindow that serves as the
* AccessibleContext of this Window
* @since 1.3
*/
public AccessibleContext getAccessibleContext() {
if (accessibleContext == null) {
accessibleContext = new AccessibleAWTWindow();
}
return accessibleContext;
}
/**
* This class implements accessibility support for the
* <code>Window</code> class. It provides an implementation of the
* Java Accessibility API appropriate to window user-interface elements.
* @since 1.3
*/
protected class AccessibleAWTWindow extends AccessibleAWTContainer
{
/*
* JDK 1.3 serialVersionUID
*/
private static final long serialVersionUID = 4215068635060671780L;
/**
* Get the role of this object.
*
* @return an instance of AccessibleRole describing the role of the
* object
* @see ae.javax.accessibility.AccessibleRole
*/
public AccessibleRole getAccessibleRole() {
return AccessibleRole.WINDOW;
}
/**
* Get the state of this object.
*
* @return an instance of AccessibleStateSet containing the current
* state set of the object
* @see ae.javax.accessibility.AccessibleState
*/
public AccessibleStateSet getAccessibleStateSet() {
AccessibleStateSet states = super.getAccessibleStateSet();
if (getFocusOwner() != null) {
states.add(AccessibleState.ACTIVE);
}
return states;
}
} // inner class AccessibleAWTWindow
/**
* This method returns the GraphicsConfiguration used by this Window.
* @since 1.3
*/
public GraphicsConfiguration getGraphicsConfiguration() {
//NOTE: for multiscreen, this will need to take into account
//which screen the window is on/mostly on instead of returning the
//default or constructor argument config.
synchronized(getTreeLock()) {
if (graphicsConfig == null && !GraphicsEnvironment.isHeadless()) {
graphicsConfig =
GraphicsEnvironment. getLocalGraphicsEnvironment().
getDefaultScreenDevice().
getDefaultConfiguration();
}
return graphicsConfig;
}
}
/**
* Reset this Window's GraphicsConfiguration to match its peer.
*/
void resetGC() {
if (!GraphicsEnvironment.isHeadless()) {
// use the peer's GC
setGCFromPeer();
// if it's still null, use the default
if (graphicsConfig == null) {
graphicsConfig = GraphicsEnvironment.
getLocalGraphicsEnvironment().
getDefaultScreenDevice().
getDefaultConfiguration();
}
if (log.isLoggable(Level.FINER)) {
log.finer("+ Window.resetGC(): new GC is \n+ " + graphicsConfig + "\n+ this is " + this);
}
}
}
/**
* Sets the location of the window relative to the specified
* component according to the following scenarios.
* <p>
* The target screen mentioned below is a screen to which
* the window should be placed after the setLocationRelativeTo
* method is called.
* <ul>
* <li>If the component is {@code null}, or the {@code
* GraphicsConfiguration} associated with this component is
* {@code null}, the window is placed in the center of the
* screen. The center point can be obtained with the {@link
* GraphicsEnvironment#getCenterPoint
* GraphicsEnvironment.getCenterPoint} method.
* <li>If the component is not {@code null}, but it is not
* currently showing, the window is placed in the center of
* the target screen defined by the {@code
* GraphicsConfiguration} associated with this component.
* <li>If the component is not {@code null} and is shown on
* the screen, then the window is located in such a way that
* the center of the window coincides with the center of the
* component.
* </ul>
* <p>
* If the screens configuration does not allow the window to
* be moved from one screen to another, then the window is
* only placed at the location determined according to the
* above conditions and its {@code GraphicsConfiguration} is
* not changed.
* <p>
* <b>Note</b>: If the lower edge of the window is out of the screen,
* then the window is placed to the side of the <code>Component</code>
* that is closest to the center of the screen. So if the
* component is on the right part of the screen, the window
* is placed to its left, and vice versa.
* <p>
* If after the window location has been calculated, the upper,
* left, or right edge of the window is out of the screen,
* then the window is located in such a way that the upper,
* left, or right edge of the window coincides with the
* corresponding edge of the screen. If both left and right
* edges of the window are out of the screen, the window is
* placed at the left side of the screen. The similar placement
* will occur if both top and bottom edges are out of the screen.
* In that case, the window is placed at the top side of the screen.
*
* @param c the component in relation to which the window's location
* is determined
* @see ae.java.awt.GraphicsEnvironment#getCenterPoint
* @since 1.4
*/
public void setLocationRelativeTo(Component c) {
// target location
int dx = 0, dy = 0;
// target GC
GraphicsConfiguration gc = this.graphicsConfig;
Rectangle gcBounds = gc.getBounds();
Dimension windowSize = getSize();
// search a top-level of c
Window componentWindow = Component.getContainingWindow(c);
if ((c == null) || (componentWindow == null)) {
GraphicsEnvironment ge = GraphicsEnvironment.getLocalGraphicsEnvironment();
gc = ge.getDefaultScreenDevice().getDefaultConfiguration();
gcBounds = gc.getBounds();
Point centerPoint = ge.getCenterPoint();
dx = centerPoint.x - windowSize.width / 2;
dy = centerPoint.y - windowSize.height / 2;
} else if (!c.isShowing()) {
gc = componentWindow.getGraphicsConfiguration();
gcBounds = gc.getBounds();
dx = gcBounds.x + (gcBounds.width - windowSize.width) / 2;
dy = gcBounds.y + (gcBounds.height - windowSize.height) / 2;
} else {
gc = componentWindow.getGraphicsConfiguration();
gcBounds = gc.getBounds();
Dimension compSize = c.getSize();
Point compLocation = c.getLocationOnScreen();
dx = compLocation.x + ((compSize.width - windowSize.width) / 2);
dy = compLocation.y + ((compSize.height - windowSize.height) / 2);
// Adjust for bottom edge being offscreen
if (dy + windowSize.height > gcBounds.y + gcBounds.height) {
dy = gcBounds.y + gcBounds.height - windowSize.height;
if (compLocation.x - gcBounds.x + compSize.width / 2 < gcBounds.width / 2) {
dx = compLocation.x + compSize.width;
} else {
dx = compLocation.x - windowSize.width;
}
}
}
// Avoid being placed off the edge of the screen:
// bottom
if (dy + windowSize.height > gcBounds.y + gcBounds.height) {
dy = gcBounds.y + gcBounds.height - windowSize.height;
}
// top
if (dy < gcBounds.y) {
dy = gcBounds.y;
}
// right
if (dx + windowSize.width > gcBounds.x + gcBounds.width) {
dx = gcBounds.x + gcBounds.width - windowSize.width;
}
// left
if (dx < gcBounds.x) {
dx = gcBounds.x;
}
setLocation(dx, dy);
}
/**
* Overridden from Component. Top-level Windows should not propagate a
* MouseWheelEvent beyond themselves into their owning Windows.
*/
void deliverMouseWheelToAncestor(MouseWheelEvent e) {}
/**
* Overridden from Component. Top-level Windows don't dispatch to ancestors
*/
boolean dispatchMouseWheelToAncestor(MouseWheelEvent e) {return false;}
/**
* Creates a new strategy for multi-buffering on this component.
* Multi-buffering is useful for rendering performance. This method
* attempts to create the best strategy available with the number of
* buffers supplied. It will always create a <code>BufferStrategy</code>
* with that number of buffers.
* A page-flipping strategy is attempted first, then a blitting strategy
* using accelerated buffers. Finally, an unaccelerated blitting
* strategy is used.
* <p>
* Each time this method is called,
* the existing buffer strategy for this component is discarded.
* @param numBuffers number of buffers to create
* @exception IllegalArgumentException if numBuffers is less than 1.
* @exception IllegalStateException if the component is not displayable
* @see #isDisplayable
* @see #getBufferStrategy
* @since 1.4
*/
public void createBufferStrategy(int numBuffers) {
super.createBufferStrategy(numBuffers);
}
/**
* Creates a new strategy for multi-buffering on this component with the
* required buffer capabilities. This is useful, for example, if only
* accelerated memory or page flipping is desired (as specified by the
* buffer capabilities).
* <p>
* Each time this method
* is called, the existing buffer strategy for this component is discarded.
* @param numBuffers number of buffers to create, including the front buffer
* @param caps the required capabilities for creating the buffer strategy;
* cannot be <code>null</code>
* @exception AWTException if the capabilities supplied could not be
* supported or met; this may happen, for example, if there is not enough
* accelerated memory currently available, or if page flipping is specified
* but not possible.
* @exception IllegalArgumentException if numBuffers is less than 1, or if
* caps is <code>null</code>
* @see #getBufferStrategy
* @since 1.4
*/
public void createBufferStrategy(int numBuffers,
BufferCapabilities caps) throws AWTException {
super.createBufferStrategy(numBuffers, caps);
}
/**
* Returns the <code>BufferStrategy</code> used by this component. This
* method will return null if a <code>BufferStrategy</code> has not yet
* been created or has been disposed.
*
* @return the buffer strategy used by this component
* @see #createBufferStrategy
* @since 1.4
*/
public BufferStrategy getBufferStrategy() {
return super.getBufferStrategy();
}
Component getTemporaryLostComponent() {
return temporaryLostComponent;
}
Component setTemporaryLostComponent(Component component) {
Component previousComp = temporaryLostComponent;
// Check that "component" is an acceptable focus owner and don't store it otherwise
// - or later we will have problems with opposite while handling WINDOW_GAINED_FOCUS
if (component == null || component.canBeFocusOwner()) {
temporaryLostComponent = component;
} else {
temporaryLostComponent = null;
}
return previousComp;
}
/**
* Checks whether this window can contain focus owner.
* Verifies that it is focusable and as container it can container focus owner.
* @since 1.5
*/
boolean canContainFocusOwner(Component focusOwnerCandidate) {
return super.canContainFocusOwner(focusOwnerCandidate) && isFocusableWindow();
}
private boolean locationByPlatform = locationByPlatformProp;
/**
* Sets whether this Window should appear at the default location for the
* native windowing system or at the current location (returned by
* <code>getLocation</code>) the next time the Window is made visible.
* This behavior resembles a native window shown without programmatically
* setting its location. Most windowing systems cascade windows if their
* locations are not explicitly set. The actual location is determined once the
* window is shown on the screen.
* <p>
* This behavior can also be enabled by setting the System Property
* "ae.java.awt.Window.locationByPlatform" to "true", though calls to this method
* take precedence.
* <p>
* Calls to <code>setVisible</code>, <code>setLocation</code> and
* <code>setBounds</code> after calling <code>setLocationByPlatform</code> clear
* this property of the Window.
* <p>
* For example, after the following code is executed:
* <pre><blockquote>
* setLocationByPlatform(true);
* setVisible(true);
* boolean flag = isLocationByPlatform();
* </blockquote></pre>
* The window will be shown at platform's default location and
* <code>flag</code> will be <code>false</code>.
* <p>
* In the following sample:
* <pre><blockquote>
* setLocationByPlatform(true);
* setLocation(10, 10);
* boolean flag = isLocationByPlatform();
* setVisible(true);
* </blockquote></pre>
* The window will be shown at (10, 10) and <code>flag</code> will be
* <code>false</code>.
*
* @param locationByPlatform <code>true</code> if this Window should appear
* at the default location, <code>false</code> if at the current location
* @throws <code>IllegalComponentStateException</code> if the window
* is showing on screen and locationByPlatform is <code>true</code>.
* @see #setLocation
* @see #isShowing
* @see #setVisible
* @see #isLocationByPlatform
* @see java.lang.System#getProperty(String)
* @since 1.5
*/
public void setLocationByPlatform(boolean locationByPlatform) {
synchronized (getTreeLock()) {
if (locationByPlatform && isShowing()) {
throw new IllegalComponentStateException("The window is showing on screen.");
}
this.locationByPlatform = locationByPlatform;
}
}
/**
* Returns <code>true</code> if this Window will appear at the default location
* for the native windowing system the next time this Window is made visible.
* This method always returns <code>false</code> if the Window is showing on the
* screen.
*
* @return whether this Window will appear at the default location
* @see #setLocationByPlatform
* @see #isShowing
* @since 1.5
*/
public boolean isLocationByPlatform() {
synchronized (getTreeLock()) {
return locationByPlatform;
}
}
/**
* {@inheritDoc}
* <p>
* The {@code width} or {@code height} values
* are automatically enlarged if either is less than
* the minimum size as specified by previous call to
* {@code setMinimumSize}.
*
* @see #getBounds
* @see #setLocation(int, int)
* @see #setLocation(Point)
* @see #setSize(int, int)
* @see #setSize(Dimension)
* @see #setMinimumSize
* @see #setLocationByPlatform
* @see #isLocationByPlatform
* @since 1.6
*/
public void setBounds(int x, int y, int width, int height) {
synchronized (getTreeLock()) {
if (getBoundsOp() == ComponentPeer.SET_LOCATION ||
getBoundsOp() == ComponentPeer.SET_BOUNDS)
{
locationByPlatform = false;
}
super.setBounds(x, y, width, height);
}
}
/**
* {@inheritDoc}
* <p>
* The {@code r.width} or {@code r.height} values
* will be automatically enlarged if either is less than
* the minimum size as specified by previous call to
* {@code setMinimumSize}.
*
* @see #getBounds
* @see #setLocation(int, int)
* @see #setLocation(Point)
* @see #setSize(int, int)
* @see #setSize(Dimension)
* @see #setMinimumSize
* @see #setLocationByPlatform
* @see #isLocationByPlatform
* @since 1.6
*/
public void setBounds(Rectangle r) {
setBounds(r.x, r.y, r.width, r.height);
}
/**
* Determines whether this component will be displayed on the screen.
* @return <code>true</code> if the component and all of its ancestors
* until a toplevel window are visible, <code>false</code> otherwise
*/
boolean isRecursivelyVisible() {
// 5079694 fix: for a toplevel to be displayed, its parent doesn't have to be visible.
// We're overriding isRecursivelyVisible to implement this policy.
return visible;
}
// ************************** MIXING CODE *******************************
// A window has a parent, but it does NOT have a container
@Override
final Container getContainer() {
return null;
}
/**
* Applies the shape to the component
* @param shape Shape to be applied to the component
*/
@Override
final void applyCompoundShape(Region shape) {
// The shape calculated by mixing code is not intended to be applied
// to windows or frames
}
@Override
final void applyCurrentShape() {
// The shape calculated by mixing code is not intended to be applied
// to windows or frames
}
@Override
final void mixOnReshaping() {
// The shape calculated by mixing code is not intended to be applied
// to windows or frames
}
@Override
final Point getLocationOnWindow() {
return new Point(0, 0);
}
// ****************** END OF MIXING CODE ********************************
} // class Window
/**
* This class is no longer used, but is maintained for Serialization
* backward-compatibility.
*/
class FocusManager implements java.io.Serializable {
Container focusRoot;
Component focusOwner;
/*
* JDK 1.1 serialVersionUID
*/
static final long serialVersionUID = 2491878825643557906L;
}