/*
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* DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER.
*
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* under the terms of the GNU General Public License version 2 only, as
* published by the Free Software Foundation. Oracle designates this
* particular file as subject to the "Classpath" exception as provided
* by Oracle 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).
*
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* 2 along with this work; if not, write to the Free Software Foundation,
* Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA.
*
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package sun.awt;
import java.awt.*;
import java.awt.event.*;
import java.awt.image.*;
import java.awt.peer.*;
import java.beans.PropertyChangeListener;
import java.beans.PropertyChangeEvent;
import java.util.Set;
import java.awt.AWTKeyStroke;
import java.applet.Applet;
import sun.applet.AppletPanel;
/**
* A generic container used for embedding Java components, usually applets.
* An EmbeddedFrame has two related uses:
*
* . Within a Java-based application, an EmbeddedFrame serves as a sort of
* firewall, preventing the contained components or applets from using
* getParent() to find parent components, such as menubars.
*
* . Within a C-based application, an EmbeddedFrame contains a window handle
* which was created by the application, which serves as the top-level
* Java window. EmbeddedFrames created for this purpose are passed-in a
* handle of an existing window created by the application. The window
* handle should be of the appropriate native type for a specific
* platform, as stored in the pData field of the ComponentPeer.
*
* @author Thomas Ball
*/
public abstract class EmbeddedFrame extends Frame
implements KeyEventDispatcher, PropertyChangeListener {
private boolean isCursorAllowed = true;
private boolean supportsXEmbed = false;
private KeyboardFocusManager appletKFM;
// JDK 1.1 compatibility
private static final long serialVersionUID = 2967042741780317130L;
/*
* The constants define focus traversal directions.
* Use them in {@code traverseIn}, {@code traverseOut} methods.
*/
protected static final boolean FORWARD = true;
protected static final boolean BACKWARD = false;
public boolean supportsXEmbed() {
return supportsXEmbed && SunToolkit.needsXEmbed();
}
protected EmbeddedFrame(boolean supportsXEmbed) {
this((long)0, supportsXEmbed);
}
protected EmbeddedFrame() {
this((long)0);
}
/**
* @deprecated This constructor will be removed in 1.5
*/
@Deprecated
protected EmbeddedFrame(int handle) {
this((long)handle);
}
protected EmbeddedFrame(long handle) {
this(handle, false);
}
protected EmbeddedFrame(long handle, boolean supportsXEmbed) {
this.supportsXEmbed = supportsXEmbed;
registerListeners();
}
/**
* Block introspection of a parent window by this child.
*/
public Container getParent() {
return null;
}
/**
* Needed to track which KeyboardFocusManager is current. We want to avoid memory
* leaks, so when KFM stops being current, we remove ourselves as listeners.
*/
public void propertyChange(PropertyChangeEvent evt) {
// We don't handle any other properties. Skip it.
if (!evt.getPropertyName().equals("managingFocus")) {
return;
}
// We only do it if it stops being current. Technically, we should
// never get an event about KFM starting being current.
if (evt.getNewValue() == Boolean.TRUE) {
return;
}
// should be the same as appletKFM
removeTraversingOutListeners((KeyboardFocusManager)evt.getSource());
appletKFM = KeyboardFocusManager.getCurrentKeyboardFocusManager();
if (isVisible()) {
addTraversingOutListeners(appletKFM);
}
}
/**
* Register us as KeyEventDispatcher and property "managingFocus" listeners.
*/
private void addTraversingOutListeners(KeyboardFocusManager kfm) {
kfm.addKeyEventDispatcher(this);
kfm.addPropertyChangeListener("managingFocus", this);
}
/**
* Deregister us as KeyEventDispatcher and property "managingFocus" listeners.
*/
private void removeTraversingOutListeners(KeyboardFocusManager kfm) {
kfm.removeKeyEventDispatcher(this);
kfm.removePropertyChangeListener("managingFocus", this);
}
/**
* Because there may be many AppContexts, and we can't be sure where this
* EmbeddedFrame is first created or shown, we can't automatically determine
* the correct KeyboardFocusManager to attach to as KeyEventDispatcher.
* Those who want to use the functionality of traversing out of the EmbeddedFrame
* must call this method on the Applet's AppContext. After that, all the changes
* can be handled automatically, including possible replacement of
* KeyboardFocusManager.
*/
public void registerListeners() {
if (appletKFM != null) {
removeTraversingOutListeners(appletKFM);
}
appletKFM = KeyboardFocusManager.getCurrentKeyboardFocusManager();
if (isVisible()) {
addTraversingOutListeners(appletKFM);
}
}
/**
* Needed to avoid memory leak: we register this EmbeddedFrame as a listener with
* KeyboardFocusManager of applet's AppContext. We don't want the KFM to keep
* reference to our EmbeddedFrame forever if the Frame is no longer in use, so we
* add listeners in show() and remove them in hide().
*/
public void show() {
if (appletKFM != null) {
addTraversingOutListeners(appletKFM);
}
super.show();
}
/**
* Needed to avoid memory leak: we register this EmbeddedFrame as a listener with
* KeyboardFocusManager of applet's AppContext. We don't want the KFM to keep
* reference to our EmbeddedFrame forever if the Frame is no longer in use, so we
* add listeners in show() and remove them in hide().
*/
public void hide() {
if (appletKFM != null) {
removeTraversingOutListeners(appletKFM);
}
super.hide();
}
/**
* Need this method to detect when the focus may have chance to leave the
* focus cycle root which is EmbeddedFrame. Mostly, the code here is copied
* from DefaultKeyboardFocusManager.processKeyEvent with some minor
* modifications.
*/
public boolean dispatchKeyEvent(KeyEvent e) {
Container currentRoot = AWTAccessor.getKeyboardFocusManagerAccessor()
.getCurrentFocusCycleRoot();
// if we are not in EmbeddedFrame's cycle, we should not try to leave.
if (this != currentRoot) {
return false;
}
// KEY_TYPED events cannot be focus traversal keys
if (e.getID() == KeyEvent.KEY_TYPED) {
return false;
}
if (!getFocusTraversalKeysEnabled() || e.isConsumed()) {
return false;
}
AWTKeyStroke stroke = AWTKeyStroke.getAWTKeyStrokeForEvent(e);
Set toTest;
Component currentFocused = e.getComponent();
toTest = getFocusTraversalKeys(KeyboardFocusManager.FORWARD_TRAVERSAL_KEYS);
if (toTest.contains(stroke)) {
// 6581899: performance improvement for SortingFocusTraversalPolicy
Component last = getFocusTraversalPolicy().getLastComponent(this);
if (currentFocused == last || last == null) {
if (traverseOut(FORWARD)) {
e.consume();
return true;
}
}
}
toTest = getFocusTraversalKeys(KeyboardFocusManager.BACKWARD_TRAVERSAL_KEYS);
if (toTest.contains(stroke)) {
// 6581899: performance improvement for SortingFocusTraversalPolicy
Component first = getFocusTraversalPolicy().getFirstComponent(this);
if (currentFocused == first || first == null) {
if (traverseOut(BACKWARD)) {
e.consume();
return true;
}
}
}
return false;
}
/**
* This method is called by the embedder when we should receive focus as element
* of the traversal chain. The method requests focus on:
* 1. the first Component of this EmbeddedFrame if user moves focus forward
* in the focus traversal cycle.
* 2. the last Component of this EmbeddedFrame if user moves focus backward
* in the focus traversal cycle.
*
* The direction parameter specifies which of the two mentioned cases is
* happening. Use FORWARD and BACKWARD constants defined in the EmbeddedFrame class
* to avoid confusing boolean values.
*
* A concrete implementation of this method is defined in the platform-dependent
* subclasses.
*
* @param direction FORWARD or BACKWARD
* @return true, if the EmbeddedFrame wants to get focus, false otherwise.
*/
public boolean traverseIn(boolean direction) {
Component comp = null;
if (direction == FORWARD) {
comp = getFocusTraversalPolicy().getFirstComponent(this);
} else {
comp = getFocusTraversalPolicy().getLastComponent(this);
}
if (comp != null) {
// comp.requestFocus(); - Leads to a hung.
AWTAccessor.getKeyboardFocusManagerAccessor().setMostRecentFocusOwner(this, comp);
synthesizeWindowActivation(true);
}
return (null != comp);
}
/**
* This method is called from dispatchKeyEvent in the following two cases:
* 1. The focus is on the first Component of this EmbeddedFrame and we are
* about to transfer the focus backward.
* 2. The focus in on the last Component of this EmbeddedFrame and we are
* about to transfer the focus forward.
* This is needed to give the opportuity for keyboard focus to leave the
* EmbeddedFrame. Override this method, initiate focus transfer in it and
* return true if you want the focus to leave EmbeddedFrame's cycle.
* The direction parameter specifies which of the two mentioned cases is
* happening. Use FORWARD and BACKWARD constants defined in EmbeddedFrame
* to avoid confusing boolean values.
*
* @param direction FORWARD or BACKWARD
* @return true, if EmbeddedFrame wants the focus to leave it,
* false otherwise.
*/
protected boolean traverseOut(boolean direction) {
return false;
}
/**
* Block modifying any frame attributes, since they aren't applicable
* for EmbeddedFrames.
*/
public void setTitle(String title) {}
public void setIconImage(Image image) {}
public void setIconImages(java.util.List extends Image> icons) {}
public void setMenuBar(MenuBar mb) {}
public void setResizable(boolean resizable) {}
public void remove(MenuComponent m) {}
public boolean isResizable() {
return true;
}
public void addNotify() {
synchronized (getTreeLock()) {
if (getPeer() == null) {
setPeer(new NullEmbeddedFramePeer());
}
super.addNotify();
}
}
// These three functions consitute RFE 4100710. Do not remove.
public void setCursorAllowed(boolean isCursorAllowed) {
this.isCursorAllowed = isCursorAllowed;
getPeer().updateCursorImmediately();
}
public boolean isCursorAllowed() {
return isCursorAllowed;
}
public Cursor getCursor() {
return (isCursorAllowed)
? super.getCursor()
: Cursor.getPredefinedCursor(Cursor.DEFAULT_CURSOR);
}
protected void setPeer(final ComponentPeer p){
AWTAccessor.getComponentAccessor().setPeer(EmbeddedFrame.this, p);
};
/**
* Synthesize native message to activate or deactivate EmbeddedFrame window
* depending on the value of parameter b
.
* Peers should override this method if they are to implement
* this functionality.
* @param doActivate if true
, activates the window;
* otherwise, deactivates the window
*/
public void synthesizeWindowActivation(boolean doActivate) {}
/**
* Moves this embedded frame to a new location. The top-left corner of
* the new location is specified by the x
and y
* parameters relative to the native parent component.
*
* setLocation() and setBounds() for EmbeddedFrame really don't move it * within the native parent. These methods always put embedded frame to * (0, 0) for backward compatibility. To allow moving embedded frame * setLocationPrivate() and setBoundsPrivate() were introduced, and they * work just the same way as setLocation() and setBounds() for usual, * non-embedded components. *
** Using usual get/setLocation() and get/setBounds() together with new * get/setLocationPrivate() and get/setBoundsPrivate() is not recommended. * For example, calling getBoundsPrivate() after setLocation() works fine, * but getBounds() after setBoundsPrivate() may return unpredictable value. *
* @param x the new x-coordinate relative to the parent component * @param y the new y-coordinate relative to the parent component * @see java.awt.Component#setLocation * @see #getLocationPrivate * @see #setBoundsPrivate * @see #getBoundsPrivate * @since 1.5 */ protected void setLocationPrivate(int x, int y) { Dimension size = getSize(); setBoundsPrivate(x, y, size.width, size.height); } /** * Gets the location of this embedded frame as a point specifying the * top-left corner relative to parent component. ** setLocation() and setBounds() for EmbeddedFrame really don't move it * within the native parent. These methods always put embedded frame to * (0, 0) for backward compatibility. To allow getting location and size * of embedded frame getLocationPrivate() and getBoundsPrivate() were * introduced, and they work just the same way as getLocation() and getBounds() * for ususal, non-embedded components. *
** Using usual get/setLocation() and get/setBounds() together with new * get/setLocationPrivate() and get/setBoundsPrivate() is not recommended. * For example, calling getBoundsPrivate() after setLocation() works fine, * but getBounds() after setBoundsPrivate() may return unpredictable value. *
* @return a point indicating this embedded frame's top-left corner * @see java.awt.Component#getLocation * @see #setLocationPrivate * @see #setBoundsPrivate * @see #getBoundsPrivate * @since 1.6 */ protected Point getLocationPrivate() { Rectangle bounds = getBoundsPrivate(); return new Point(bounds.x, bounds.y); } /** * Moves and resizes this embedded frame. The new location of the top-left * corner is specified byx
and y
parameters
* relative to the native parent component. The new size is specified by
* width
and height
.
* * setLocation() and setBounds() for EmbeddedFrame really don't move it * within the native parent. These methods always put embedded frame to * (0, 0) for backward compatibility. To allow moving embedded frames * setLocationPrivate() and setBoundsPrivate() were introduced, and they * work just the same way as setLocation() and setBounds() for usual, * non-embedded components. *
** Using usual get/setLocation() and get/setBounds() together with new * get/setLocationPrivate() and get/setBoundsPrivate() is not recommended. * For example, calling getBoundsPrivate() after setLocation() works fine, * but getBounds() after setBoundsPrivate() may return unpredictable value. *
* @param x the new x-coordinate relative to the parent component * @param y the new y-coordinate relative to the parent component * @param width the newwidth
of this embedded frame
* @param height the new height
of this embedded frame
* @see java.awt.Component#setBounds
* @see #setLocationPrivate
* @see #getLocationPrivate
* @see #getBoundsPrivate
* @since 1.5
*/
protected void setBoundsPrivate(int x, int y, int width, int height) {
final FramePeer peer = (FramePeer)getPeer();
if (peer != null) {
peer.setBoundsPrivate(x, y, width, height);
}
}
/**
* Gets the bounds of this embedded frame as a rectangle specifying the
* width, height and location relative to the native parent component.
* * setLocation() and setBounds() for EmbeddedFrame really don't move it * within the native parent. These methods always put embedded frame to * (0, 0) for backward compatibility. To allow getting location and size * of embedded frames getLocationPrivate() and getBoundsPrivate() were * introduced, and they work just the same way as getLocation() and getBounds() * for ususal, non-embedded components. *
** Using usual get/setLocation() and get/setBounds() together with new * get/setLocationPrivate() and get/setBoundsPrivate() is not recommended. * For example, calling getBoundsPrivate() after setLocation() works fine, * but getBounds() after setBoundsPrivate() may return unpredictable value. *
* @return a rectangle indicating this embedded frame's bounds * @see java.awt.Component#getBounds * @see #setLocationPrivate * @see #getLocationPrivate * @see #setBoundsPrivate * @since 1.6 */ protected Rectangle getBoundsPrivate() { final FramePeer peer = (FramePeer)getPeer(); if (peer != null) { return peer.getBoundsPrivate(); } else { return getBounds(); } } public void toFront() {} public void toBack() {} public abstract void registerAccelerator(AWTKeyStroke stroke); public abstract void unregisterAccelerator(AWTKeyStroke stroke); /** * Checks if the component is in an EmbeddedFrame. If so, * returns the applet found in the hierarchy or null if * not found. * @return the parent applet or {@ null} * @since 1.6 */ public static Applet getAppletIfAncestorOf(Component comp) { Container parent = comp.getParent(); Applet applet = null; while (parent != null && !(parent instanceof EmbeddedFrame)) { if (parent instanceof Applet) { applet = (Applet)parent; } parent = parent.getParent(); } return parent == null ? null : applet; } /** * This method should be overriden in subclasses. It is * called when window this frame is within should be blocked * by some modal dialog. */ public void notifyModalBlocked(Dialog blocker, boolean blocked) { } private static class NullEmbeddedFramePeer extends NullComponentPeer implements FramePeer { public void setTitle(String title) {} public void setIconImage(Image im) {} public void updateIconImages() {} public void setMenuBar(MenuBar mb) {} public void setResizable(boolean resizeable) {} public void setState(int state) {} public int getState() { return Frame.NORMAL; } public void setMaximizedBounds(Rectangle b) {} public void toFront() {} public void toBack() {} public void updateFocusableWindowState() {} public void updateAlwaysOnTop() {} public void updateAlwaysOnTopState() {} public Component getGlobalHeavyweightFocusOwner() { return null; } public void setBoundsPrivate(int x, int y, int width, int height) { setBounds(x, y, width, height, SET_BOUNDS); } public Rectangle getBoundsPrivate() { return getBounds(); } public void setModalBlocked(Dialog blocker, boolean blocked) {} /** * @see java.awt.peer.ContainerPeer#restack */ public void restack() { throw new UnsupportedOperationException(); } /** * @see java.awt.peer.ContainerPeer#isRestackSupported */ public boolean isRestackSupported() { return false; } public boolean requestWindowFocus() { return false; } public void updateMinimumSize() { } public void setOpacity(float opacity) { } public void setOpaque(boolean isOpaque) { } public void updateWindow() { } public void repositionSecurityWarning() { } } } // class EmbeddedFrame