Window.java 141.9 KB
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/*
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 * Copyright 1995-2009 Sun Microsystems, Inc.  All Rights Reserved.
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 * 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 java.awt;

import java.awt.event.*;
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import java.awt.geom.Path2D;
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import java.awt.geom.Point2D;
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import java.awt.im.InputContext;
import java.awt.image.BufferStrategy;
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import java.awt.image.BufferedImage;
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import java.awt.peer.ComponentPeer;
import java.awt.peer.WindowPeer;
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 javax.accessibility.*;
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import sun.awt.AWTAccessor;
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import sun.awt.AppContext;
import sun.awt.CausedFocusEvent;
import sun.awt.SunToolkit;
import sun.awt.util.IdentityArrayList;
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import sun.java2d.Disposer;
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import 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 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 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;

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    /*
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     * The opacity level of the window
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     *
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     * @serial
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     * @see #setOpacity(float)
     * @see #getOpacity()
     * @since 1.7
     */
    private float opacity = 1.0f;

    /*
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     * The shape assigned to this window. This field is set to {@code null} if
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     * no shape is set (rectangular window).
     *
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     * @serial
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     * @see #getShape()
     * @see #setShape(Shape)
     * @since 1.7
     */
    private Shape shape = null;

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    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("java.awt.Window");

    private static final boolean locationByPlatformProp;

    transient boolean isTrayIconWindow = false;

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    /**
     * These fields are initialized in the native peer code
     * or via AWTAccessor's WindowAccessor.
     */
    private transient volatile int securityWarningWidth = 0;
    private transient volatile int securityWarningHeight = 0;

    /**
     * These fields represent the desired location for the security
     * warning if this window is untrusted.
     * See com.sun.awt.SecurityWarning for more details.
     */
    private transient double securityWarningPointX = 2.0;
    private transient double securityWarningPointY = 0.0;
    private transient float securityWarningAlignmentX = RIGHT_ALIGNMENT;
    private transient float securityWarningAlignmentY = TOP_ALIGNMENT;

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    static {
        /* ensure that the necessary native libraries are loaded */
        Toolkit.loadLibraries();
        if (!GraphicsEnvironment.isHeadless()) {
            initIDs();
        }

        String s = (String) java.security.AccessController.doPrivileged(
            new GetPropertyAction("java.awt.syncLWRequests"));
        systemSyncLWRequests = (s != null && s.equals("true"));
        s = (String) java.security.AccessController.doPrivileged(
            new GetPropertyAction("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 java.awt.GraphicsEnvironment#isHeadless
     * @see java.lang.SecurityManager#checkTopLevelWindow
     */
    Window(GraphicsConfiguration gc) {
        init(gc);
    }

    transient Object anchor = new Object();
    static class WindowDisposerRecord implements sun.java2d.DisposerRecord {
        final WeakReference<Window> owner;
        final WeakReference weakThis;
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        final WeakReference<AppContext> context;
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        WindowDisposerRecord(AppContext context, Window victim) {
            owner = new WeakReference<Window>(victim.getOwner());
            weakThis = victim.weakThis;
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            this.context = new WeakReference<AppContext>(context);
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        }
        public void dispose() {
            Window parent = owner.get();
            if (parent != null) {
                parent.removeOwnedWindow(weakThis);
            }
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            AppContext ac = context.get();
            if (null != ac) {
                Window.removeFromWindowList(ac, weakThis);
            }
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        }
    }

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    private GraphicsConfiguration initGC(GraphicsConfiguration gc) {
        GraphicsEnvironment.checkHeadless();

        if (gc == null) {
            gc = GraphicsEnvironment.getLocalGraphicsEnvironment().
                getDefaultScreenDevice().getDefaultConfiguration();
        }
        setGraphicsConfiguration(gc);

        return gc;
    }

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    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;
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        gc = initGC(gc);

        if (gc.getDevice().getType() !=
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            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                                              */
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        Rectangle screenBounds = gc.getBounds();
        Insets screenInsets = getToolkit().getScreenInsets(gc);
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        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;
    }

    /**
     * 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 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 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       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       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);
        }
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        // Fix for 6758673: this call is moved here from init(gc), because
        // WindowDisposerRecord requires a proper value of parent field.
        Disposer.addRecord(anchor, new WindowDisposerRecord(appContext, this));
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    }

    /**
     * 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&lt;Image&gt; imageList = new ArrayList&lt;Image&gt;();
     *     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);
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            }
            synchronized (allWindows) {
                allWindows.add(this);
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            }
            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);

882 883 884 885
    final void closeSplashScreen() {
        if (isTrayIconWindow) {
            return;
        }
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        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 java.awt.Component#isDisplayable
     * @see java.awt.Component#setVisible
     * @see java.awt.Window#toFront
     * @see java.awt.Window#dispose
     * @see java.awt.Window#setAutoRequestFocus
     * @see 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();
            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
     */
    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
     * 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 java.awt.Dialog.ModalExclusionType
     * @see java.awt.Window#getModalExclusionType
     * @see 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;
        }
        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 java.awt.Dialog.ModalExclusionType
     * @see 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 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 {
        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 &#151; 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();
        sun.java2d.Disposer.addRecord(anchor, new WindowDisposerRecord(appContext, this));

        addToWindowList();
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        initGC(null);
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    }

    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 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
         }
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         shape = (Shape)f.get("shape", null);
         opacity = (Float)f.get("opacity", 1.0f);
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         this.securityWarningWidth = 0;
         this.securityWarningHeight = 0;
         this.securityWarningPointX = 2.0;
         this.securityWarningPointY = 0.0;
         this.securityWarningAlignmentX = RIGHT_ALIGNMENT;
         this.securityWarningAlignmentY = TOP_ALIGNMENT;

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         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 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 javax.accessibility.AccessibleState
         */
        public AccessibleStateSet getAccessibleStateSet() {
            AccessibleStateSet states = super.getAccessibleStateSet();
            if (getFocusOwner() != null) {
                states.add(AccessibleState.ACTIVE);
            }
            return states;
        }

    } // inner class AccessibleAWTWindow

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    @Override
    void setGraphicsConfiguration(GraphicsConfiguration gc) {
        if (gc == null) {
            gc = GraphicsEnvironment.
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                    getLocalGraphicsEnvironment().
                    getDefaultScreenDevice().
                    getDefaultConfiguration();
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        }
        synchronized (getTreeLock()) {
            super.setGraphicsConfiguration(gc);
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            if (log.isLoggable(Level.FINER)) {
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                log.finer("+ Window.setGraphicsConfiguration(): new GC is \n+ " + getGraphicsConfiguration_NoClientCode() + "\n+ this is " + this);
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            }
        }
    }

    /**
     * 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 java.awt.GraphicsEnvironment#getCenterPoint
     * @since 1.4
     */
    public void setLocationRelativeTo(Component c) {
        // target location
        int dx = 0, dy = 0;
        // target GC
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        GraphicsConfiguration gc = getGraphicsConfiguration_NoClientCode();
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        Rectangle gcBounds = gc.getBounds();

        Dimension windowSize = getSize();

        // search a top-level of c
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        Window componentWindow = SunToolkit.getContainingWindow(c);
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        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
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        if (component == null || component.canBeFocusOwner()) {
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            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
     * "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;
    }


3343 3344 3345
    // ******************** SHAPES & TRANSPARENCY CODE ********************

    /**
3346 3347 3348 3349 3350 3351 3352 3353
     * Returns the opacity of the window.
     *
     * @return the opacity of the window
     *
     * @see Window#setOpacity
     * @see GraphicsDevice.WindowTranslucency
     *
     * @since 1.7
3354
     */
3355
    public float getOpacity() {
3356 3357 3358 3359 3360 3361
        synchronized (getTreeLock()) {
            return opacity;
        }
    }

    /**
3362 3363 3364 3365 3366 3367 3368 3369 3370 3371 3372 3373 3374 3375 3376 3377 3378 3379 3380 3381 3382 3383 3384 3385 3386 3387 3388 3389 3390 3391 3392 3393 3394 3395 3396 3397
     * Sets the opacity of the window.
     * <p>
     * The opacity value is in the range [0..1]. Note that setting the opacity
     * level of 0 may or may not disable the mouse event handling on this
     * window. This is a platform-dependent behavior.
     * <p>
     * In order for this method to enable the translucency effect, the {@link
     * GraphicsDevice#isWindowTranslucencySupported()} method must indicate that
     * the {@link GraphicsDevice.WindowTranslucency#TRANSLUCENT TRANSLUCENT}
     * translucency is supported.
     * <p>
     * Also note that the window must not be in the full-screen mode when
     * setting the opacity value &lt; 1.0f. Otherwise the {@code
     * IllegalComponentStateException} is thrown.
     * <p>
     * The translucency levels of individual pixels may also be effected by the
     * alpha component of their color (see {@link setBackground()}) and the
     * current shape of this window (see {@link setShape()}).
     *
     * @param opacity the opacity level to set to the window
     *
     * @throws IllegalArgumentException if the opacity is out of the range
     *     [0..1]
     * @throws IllegalComponentStateException if the window is in full screen
     *     mode, and the opacity is less than 1.0f
     * @throws UnsupportedOperationException if the {@code
     *     GraphicsDevice.WindowTranslucency#TRANSLUCENT TRANSLUCENT}
     *     translucency kind is not supported and the opacity is less than 1.0f
     *
     * @see Window#getOpacity
     * @see Window#setBackground()
     * @see Window#setShape()
     * @see GraphicsDevice.WindowTranslucency
     * @see GraphicsDevice#isWindowTranslucencySupported()
     *
     * @since 1.7
3398
     */
3399
    public void setOpacity(float opacity) {
3400 3401 3402 3403 3404
        synchronized (getTreeLock()) {
            if (opacity < 0.0f || opacity > 1.0f) {
                throw new IllegalArgumentException(
                    "The value of opacity should be in the range [0.0f .. 1.0f].");
            }
3405 3406 3407 3408 3409 3410 3411 3412 3413 3414 3415
            if (opacity < 1.0f) {
                GraphicsConfiguration gc = getGraphicsConfiguration();
                GraphicsDevice gd = gc.getDevice();
                if (gc.getDevice().getFullScreenWindow() == this) {
                    throw new IllegalComponentStateException(
                        "Setting opacity for full-screen window is not supported.");
                }
                if (!gd.isWindowTranslucencySupported(
                    GraphicsDevice.WindowTranslucency.TRANSLUCENT))
                {
                    throw new UnsupportedOperationException(
3416
                        "TRANSLUCENT translucency is not supported.");
3417
                }
3418 3419 3420 3421 3422 3423 3424 3425 3426 3427
            }
            this.opacity = opacity;
            WindowPeer peer = (WindowPeer)getPeer();
            if (peer != null) {
                peer.setOpacity(opacity);
            }
        }
    }

    /**
3428 3429 3430 3431 3432 3433 3434 3435 3436 3437 3438 3439 3440
     * Returns the shape of the window.
     *
     * The value returned by this method may not be the same as
     * previously set with {@code setShape(shape)}, but it is guaranteed
     * to represent the same shape.
     *
     * @return the shape of the window or {@code null} if no
     *     shape is specified for the window
     *
     * @see Window#setShape
     * @see GraphicsDevice.WindowTranslucency
     *
     * @since 1.7
3441
     */
3442
    public Shape getShape() {
3443
        synchronized (getTreeLock()) {
3444
            return shape == null ? null : new Path2D.Float(shape);
3445 3446 3447 3448
        }
    }

    /**
3449 3450 3451 3452 3453 3454 3455 3456 3457 3458 3459 3460 3461 3462 3463 3464 3465 3466 3467 3468 3469 3470 3471 3472 3473
     * Sets the shape of the window.
     * <p>
     * Setting a shape enables cutting off some parts of the window, leaving
     * visible and clickable only those parts belonging to the given shape
     * (see {@link Shape}). If the shape argument is null, this methods
     * restores the default shape (making the window rectangular on most
     * platforms.)
     * <p>
     * The following conditions must be met in order to set a non-null shape:
     * <ul>
     * <li>The {@link GraphicsDevice.WindowTranslucency#PERPIXEL_TRANSPARENT
     * PERPIXEL_TRANSPARENT} translucency kind must be supported by the
     * underlying system (see {@link })
     * <i>and</i>
     * <li>The window must not be in the full-screen mode (see
     * {@link GraphicsDevice#setFullScreenWindow()})
     * </ul>
     * If a certain condition is not met, either the {@code
     * UnsupportedOperationException} or {@code IllegalComponentStateException}
     * is thrown.
     * <p>
     * The tranlucency levels of individual pixels may also be effected by the
     * alpha component of their color (see {@link setBackground()}) and the
     * opacity value (see {@link setOpacity()}). See {@link
     * GraphicsDevice#WindowTranslucency} for more details.
3474 3475
     *
     * @param shape the shape to set to the window
3476 3477 3478 3479 3480 3481 3482 3483 3484 3485 3486 3487 3488 3489
     *
     * @throws IllegalComponentStateException if the shape is not {@code
     *     null} and the window is in full-screen mode
     * @throws UnsupportedOperationException if the shape is not {@code
     *     null} and {@link GraphicsDevice.WindowTranslucency#PERPIXEL_TRANSPARENT
     *     PERPIXEL_TRANSPARENT} translucency is not supported
     *
     * @see Window#getShape()
     * @see Window#setBackgound()
     * @see Window#setOpacity()
     * @see GraphicsDevice.WindowTranslucency
     * @see GraphicsDevice#isWindowTranslucencySupported()
     *
     * @since 1.7
3490
     */
3491
    public void setShape(Shape shape) {
3492
        synchronized (getTreeLock()) {
3493 3494 3495 3496 3497 3498 3499 3500 3501 3502 3503
            if (shape != null) {
                GraphicsConfiguration gc = getGraphicsConfiguration();
                GraphicsDevice gd = gc.getDevice();
                if (gc.getDevice().getFullScreenWindow() == this) {
                    throw new IllegalComponentStateException(
                        "Setting shape for full-screen window is not supported.");
                }
                if (!gd.isWindowTranslucencySupported(
                        GraphicsDevice.WindowTranslucency.PERPIXEL_TRANSPARENT))
                {
                    throw new UnsupportedOperationException(
3504
                        "PERPIXEL_TRANSPARENT translucency is not supported.");
3505
                }
3506
            }
3507
            this.shape = (shape == null) ? null : new Path2D.Float(shape);
3508 3509 3510 3511 3512 3513 3514 3515
            WindowPeer peer = (WindowPeer)getPeer();
            if (peer != null) {
                peer.applyShape(shape == null ? null : Region.getInstance(shape, null));
            }
        }
    }

    /**
3516 3517 3518 3519 3520 3521 3522 3523
     * Gets the background color of this window.
     * <p>
     * Note that the alpha component of the returned color indicates whether
     * the window is in the non-opaque (per-pixel translucent) mode.
     *
     * @return this component's background color
     *
     * @see Window#setBackground
3524
     * @see Window#isOpaque
3525 3526 3527 3528 3529 3530 3531 3532 3533 3534 3535 3536 3537 3538 3539 3540 3541 3542 3543 3544 3545 3546 3547 3548 3549 3550 3551 3552 3553 3554 3555 3556 3557 3558 3559 3560 3561 3562 3563 3564 3565 3566 3567 3568 3569 3570 3571 3572 3573 3574 3575 3576 3577 3578 3579 3580 3581 3582 3583 3584 3585 3586
     * @see GraphicsDevice.WindowTranslucency
     */
    @Override
    public Color getBackground() {
        return super.getBackground();
    }

    /**
     * Sets the background color of this window.
     * <p>
     * If the windowing system supports the {@link
     * GraphicsDevice.WindowTranslucency#PERPIXEL_TRANSLUCENT PERPIXEL_TRANSLUCENT}
     * tranclucency, the alpha component of the given background color
     * may effect the mode of operation for this window: it indicates whether
     * this window must be opaque (alpha == 1.0f) or per-pixel translucent
     * (alpha &lt; 1.0f).  All the following conditions must be met in order
     * to be able to enable the per-pixel transparency mode for this window:
     * <ul>
     * <li>The {@link GraphicsDevice.WindowTranslucency#PERPIXEL_TRANSLUCENT
     * PERPIXEL_TRANSLUCENT} translucency must be supported
     * by the graphics device where this window is located <i>and</i>
     * <li>The window must not be in the full-screen mode (see {@link
     * GraphicsDevice#setFullScreenWindow()})
     * </ul>
     * If a certain condition is not met at the time of calling this method,
     * the alpha component of the given background color will not effect the
     * mode of operation for this window.
     * <p>
     * When the window is per-pixel translucent, the drawing sub-system
     * respects the alpha value of each individual pixel. If a pixel gets
     * painted with the alpha color component equal to zero, it becomes
     * visually transparent, if the alpha of the pixel is equal to 1.0f, the
     * pixel is fully opaque. Interim values of the alpha color component make
     * the pixel semi-transparent. In this mode the background of the window
     * gets painted with the alpha value of the given background color (meaning
     * that it is not painted at all if the alpha value of the argument of this
     * method is equal to zero.)
     * <p>
     * The actual level of translucency of a given pixel also depends on window
     * opacity (see {@link setOpacity()}), as well as the current shape of
     * this window (see {@link setShape()}).
     * <p>
     * Note that painting a pixel with the alpha value of 0 may or may not
     * disable the mouse event handling on this pixel. This is a
     * platform-dependent behavior. To make sure the mouse clicks do not get
     * dispatched to a particular pixel, the pixel must be excluded from the
     * shape of the window.
     * <p>
     * Enabling the per-pixel translucency mode may change the graphics
     * configuration of this window due to the native platform requirements.
     *
     * @param bgColor the color to become this window's background color.
     *
     * @throws IllegalComponentStateException if the alpha value of the given
     *     background color is less than 1.0f and the window is in
     *     full-screen mode
     * @throws UnsupportedOperationException if the alpha value of the given
     *     background color is less than 1.0f and
     *     {@link GraphicsDevice.WindowTranslucency#PERPIXEL_TRANSLUCENT
     *     PERPIXEL_TRANSLUCENT} translucency is not supported
     *
     * @see Window#getBackground
3587
     * @see Window#isOpaque
3588 3589 3590 3591 3592
     * @see Window#setOpacity()
     * @see Window#setShape()
     * @see GraphicsDevice.WindowTranslucency
     * @see GraphicsDevice#isWindowTranslucencySupported()
     * @see GraphicsConfiguration#isTranslucencyCapable()
3593 3594 3595
     */
    @Override
    public void setBackground(Color bgColor) {
3596
        Color oldBg = getBackground();
3597
        super.setBackground(bgColor);
3598 3599 3600 3601
        if (oldBg != null && oldBg.equals(bgColor)) {
            return;
        }
        int oldAlpha = oldBg != null ? oldBg.getAlpha() : 255;
3602
        int alpha = bgColor != null ? bgColor.getAlpha() : 255;
3603
        if ((oldAlpha == 255) && (alpha < 255)) { // non-opaque window
3604 3605 3606
            GraphicsConfiguration gc = getGraphicsConfiguration();
            GraphicsDevice gd = gc.getDevice();
            if (gc.getDevice().getFullScreenWindow() == this) {
3607
                throw new IllegalComponentStateException(
3608 3609 3610 3611 3612
                    "Making full-screen window non opaque is not supported.");
            }
            if (!gc.isTranslucencyCapable()) {
                GraphicsConfiguration capableGC = gd.getTranslucencyCapableGC();
                if (capableGC == null) {
3613
                    throw new UnsupportedOperationException(
3614 3615
                        "PERPIXEL_TRANSLUCENT translucency is not supported");
                }
3616
                setGraphicsConfiguration(capableGC);
3617 3618
            }
            setLayersOpaque(this, false);
3619 3620
        } else if ((oldAlpha < 255) && (alpha == 255)) {
            setLayersOpaque(this, true);
3621 3622 3623 3624 3625 3626 3627
        }
        WindowPeer peer = (WindowPeer)getPeer();
        if (peer != null) {
            peer.setOpaque(alpha == 255);
        }
    }

3628 3629 3630 3631 3632 3633 3634 3635 3636 3637 3638 3639 3640 3641 3642 3643 3644 3645 3646
    /**
     * Indicates if the window is currently opaque.
     * <p>
     * The method returns {@code false} if the background color of the window
     * is not {@code null} and the alpha component of the color is less than
     * 1.0f. The method returns {@code true} otherwise.
     *
     * @return {@code true} if the window is opaque, {@code false} otherwise
     *
     * @see Window#getBackground
     * @see Window#setBackground
     * @since 1.7
     */
    @Override
    public boolean isOpaque() {
        Color bg = getBackground();
        return bg != null ? bg.getAlpha() == 255 : true;
    }

3647
    private void updateWindow() {
3648 3649 3650
        synchronized (getTreeLock()) {
            WindowPeer peer = (WindowPeer)getPeer();
            if (peer != null) {
3651
                peer.updateWindow();
3652 3653 3654 3655
            }
        }
    }

3656 3657 3658 3659 3660 3661 3662
    /**
     * {@inheritDoc}
     *
     * @since 1.7
     */
    @Override
    public void paint(Graphics g) {
3663
        if (!isOpaque()) {
3664 3665 3666
            Graphics gg = g.create();
            try {
                if (gg instanceof Graphics2D) {
3667
                    gg.setColor(getBackground());
3668 3669 3670 3671 3672 3673 3674 3675 3676
                    ((Graphics2D)gg).setComposite(AlphaComposite.getInstance(AlphaComposite.SRC));
                    gg.fillRect(0, 0, getWidth(), getHeight());
                }
            } finally {
                gg.dispose();
            }
        }
        super.paint(g);
    }
3677 3678 3679 3680

    private static void setLayersOpaque(Component component, boolean isOpaque) {
        // Shouldn't use instanceof to avoid loading Swing classes
        //    if it's a pure AWT application.
3681
        if (SunToolkit.isInstanceOf(component, "javax.swing.RootPaneContainer")) {
3682 3683 3684 3685 3686 3687 3688 3689 3690 3691 3692 3693 3694 3695 3696 3697 3698 3699 3700 3701 3702 3703 3704 3705 3706 3707 3708
            javax.swing.RootPaneContainer rpc = (javax.swing.RootPaneContainer)component;
            javax.swing.JRootPane root = rpc.getRootPane();
            javax.swing.JLayeredPane lp = root.getLayeredPane();
            Container c = root.getContentPane();
            javax.swing.JComponent content =
                (c instanceof javax.swing.JComponent) ? (javax.swing.JComponent)c : null;
            lp.setOpaque(isOpaque);
            root.setOpaque(isOpaque);
            if (content != null) {
                content.setOpaque(isOpaque);

                // Iterate down one level to see whether we have a JApplet
                // (which is also a RootPaneContainer) which requires processing
                int numChildren = content.getComponentCount();
                if (numChildren > 0) {
                    Component child = content.getComponent(0);
                    // It's OK to use instanceof here because we've
                    // already loaded the RootPaneContainer class by now
                    if (child instanceof javax.swing.RootPaneContainer) {
                        setLayersOpaque(child, isOpaque);
                    }
                }
            }
        }
    }


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    // ************************** 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 ********************************

3746 3747 3748 3749 3750 3751 3752 3753 3754 3755 3756 3757
    // This method gets the window location/size as reported by the native
    // system since the locally cached values may represent outdated data.
    // NOTE: this method is invoked on the toolkit thread, and therefore
    // is not supposed to become public/user-overridable.
    private Point2D calculateSecurityWarningPosition(double x, double y,
            double w, double h)
    {
        return new Point2D.Double(
                x + w * securityWarningAlignmentX + securityWarningPointX,
                y + h * securityWarningAlignmentY + securityWarningPointY);
    }

3758 3759 3760 3761 3762 3763 3764 3765 3766 3767 3768 3769 3770 3771 3772 3773
    static {
        AWTAccessor.setWindowAccessor(new AWTAccessor.WindowAccessor() {
            public float getOpacity(Window window) {
                return window.opacity;
            }
            public void setOpacity(Window window, float opacity) {
                window.setOpacity(opacity);
            }
            public Shape getShape(Window window) {
                return window.getShape();
            }
            public void setShape(Window window, Shape shape) {
                window.setShape(shape);
            }
            public void setOpaque(Window window, boolean opaque) {
                Color bg = window.getBackground();
3774 3775 3776
                if (bg == null) {
                    bg = new Color(0, 0, 0, 0);
                }
3777 3778 3779
                window.setBackground(new Color(bg.getRed(), bg.getGreen(), bg.getBlue(),
                                               opaque ? 255 : 0));
            }
3780 3781
            public void updateWindow(Window window) {
                window.updateWindow();
3782
            }
3783 3784 3785 3786 3787 3788 3789 3790 3791 3792 3793 3794 3795 3796 3797 3798 3799 3800 3801 3802 3803 3804 3805 3806 3807 3808 3809 3810 3811 3812 3813 3814 3815

            public Dimension getSecurityWarningSize(Window window) {
                return new Dimension(window.securityWarningWidth,
                        window.securityWarningHeight);
            }

            public void setSecurityWarningSize(Window window, int width, int height)
            {
                window.securityWarningWidth = width;
                window.securityWarningHeight = height;
            }

            public void setSecurityWarningPosition(Window window,
                    Point2D point, float alignmentX, float alignmentY)
            {
                window.securityWarningPointX = point.getX();
                window.securityWarningPointY = point.getY();
                window.securityWarningAlignmentX = alignmentX;
                window.securityWarningAlignmentY = alignmentY;

                synchronized (window.getTreeLock()) {
                    WindowPeer peer = (WindowPeer)window.getPeer();
                    if (peer != null) {
                        peer.repositionSecurityWarning();
                    }
                }
            }

            public Point2D calculateSecurityWarningPosition(Window window,
                    double x, double y, double w, double h)
            {
                return window.calculateSecurityWarningPosition(x, y, w, h);
            }
3816 3817 3818 3819

            public void setLWRequestStatus(Window changed, boolean status) {
                changed.syncLWRequests = status;
            }
3820 3821 3822
        }); // WindowAccessor
    } // static

3823 3824 3825 3826
    // a window doesn't need to be updated in the Z-order.
    @Override
    void updateZOrder() {}

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} // 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;
}