-
AppContext
-
log: Logger
-
EVENT_QUEUE_KEY: Object
-
threadGroup2appContext: Map<ThreadGroup, AppContext>
-
getAppContexts(): Set<AppContext>
-
mainAppContext: AppContext
-
GetAppContextLock
-
getAppContextLock: Object
-
table: HashMap
-
threadGroup: ThreadGroup
-
changeSupport: PropertyChangeSupport
-
DISPOSED_PROPERTY_NAME: String
-
GUI_DISPOSED: String
-
isDisposed: boolean
-
isDisposed(): boolean
-
numAppContexts: AtomicInteger
-
contextClassLoader: ClassLoader
-
AppContext(ThreadGroup): void
-
mostRecentThreadAppContext: MostRecentThreadAppContext
-
initMainAppContext(): void
-
getAppContext(): AppContext
-
isMainContext(AppContext): boolean
-
getExecutionAppContext(): AppContext
-
DISPOSAL_TIMEOUT: long
-
THREAD_INTERRUPT_TIMEOUT: long
-
dispose(): void
-
PostShutdownEventRunnable
-
CreateThreadAction
-
stopEventDispatchThreads(): void
-
mostRecentKeyValue: MostRecentKeyValue
-
shadowMostRecentKeyValue: MostRecentKeyValue
-
get(Object): Object
-
put(Object, Object): Object
-
remove(Object): Object
-
getThreadGroup(): ThreadGroup
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getContextClassLoader(): ClassLoader
-
toString(): String
-
getPropertyChangeListeners(): PropertyChangeListener[]
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addPropertyChangeListener(String, PropertyChangeListener): void
-
removePropertyChangeListener(String, PropertyChangeListener): void
-
getPropertyChangeListeners(String): PropertyChangeListener[]
-
static class initializer
-
$1
-
-
MostRecentThreadAppContext
-
MostRecentKeyValue
/*
* Copyright (c) 1998, 2013, Oracle and/or its affiliates. All rights reserved.
* DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER.
*
* This code is free software; you can redistribute it and/or modify it
* under the terms of the GNU General Public License version 2 only, as
* published by the Free Software Foundation. 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).
*
* 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 Oracle, 500 Oracle Parkway, Redwood Shores, CA 94065 USA
* or visit www.oracle.com if you need additional information or have any
* questions.
*/
package sun.awt;
import java.awt.EventQueue;
import java.awt.Window;
import java.awt.SystemTray;
import java.awt.TrayIcon;
import java.awt.Toolkit;
import java.awt.GraphicsEnvironment;
import java.awt.event.InvocationEvent;
import java.security.AccessController;
import java.security.PrivilegedAction;
import java.util.Collections;
import java.util.HashMap;
import java.util.IdentityHashMap;
import java.util.Map;
import java.util.Set;
import java.util.HashSet;
import java.util.logging.Level;
import java.util.logging.Logger;
import java.beans.PropertyChangeSupport;
import java.beans.PropertyChangeListener;
import java.util.concurrent.atomic.AtomicInteger;
The AppContext is a table referenced by ThreadGroup which stores
application service instances. (If you are not writing an application
service, or don't know what one is, please do not use this class.)
The AppContext allows applet access to what would otherwise be
potentially dangerous services, such as the ability to peek at
EventQueues or change the look-and-feel of a Swing application.
Most application services use a singleton object to provide their
services, either as a default (such as getSystemEventQueue or
getDefaultToolkit) or as static methods with class data (System).
The AppContext works with the former method by extending the concept
of "default" to be ThreadGroup-specific. Application services
lookup their singleton in the AppContext.
For example, here we have a Foo service, with its pre-AppContext
code:
public class Foo {
private static Foo defaultFoo = new Foo();
public static Foo getDefaultFoo() {
return defaultFoo;
}
... Foo service methods
}
The problem with the above is that the Foo service is global in scope,
so that applets and other untrusted code can execute methods on the
single, shared Foo instance. The Foo service therefore either needs
to block its use by untrusted code using a SecurityManager test, or
restrict its capabilities so that it doesn't matter if untrusted code
executes it.
Here's the Foo class written to use the AppContext:
public class Foo {
public static Foo getDefaultFoo() {
Foo foo = (Foo)AppContext.getAppContext().get(Foo.class);
if (foo == null) {
foo = new Foo();
getAppContext().put(Foo.class, foo);
}
return foo;
}
... Foo service methods
}
Since a separate AppContext can exist for each ThreadGroup, trusted
and untrusted code have access to different Foo instances. This allows
untrusted code access to "system-wide" services -- the service remains
within the AppContext "sandbox". For example, say a malicious applet
wants to peek all of the key events on the EventQueue to listen for
passwords; if separate EventQueues are used for each ThreadGroup
using AppContexts, the only key events that applet will be able to
listen to are its own. A more reasonable applet request would be to
change the Swing default look-and-feel; with that default stored in
an AppContext, the applet's look-and-feel will change without
disrupting other applets or potentially the browser itself.
Because the AppContext is a facility for safely extending application
service support to applets, none of its methods may be blocked by a
a SecurityManager check in a valid Java implementation. Applets may
therefore safely invoke any of its methods without worry of being
blocked.
Note: If a SecurityManager is installed which derives from
sun.awt.AWTSecurityManager, it may override the
AWTSecurityManager.getAppContext() method to return the proper
AppContext based on the execution context, in the case where
the default ThreadGroup-based AppContext indexing would return
the main "system" AppContext. For example, in an applet situation,
if a system thread calls into an applet, rather than returning the
main "system" AppContext (the one corresponding to the system thread),
an installed AWTSecurityManager may return the applet's AppContext
based on the execution context.
Author: Thomas Ball, Fred Ecks
/**
* The AppContext is a table referenced by ThreadGroup which stores
* application service instances. (If you are not writing an application
* service, or don't know what one is, please do not use this class.)
* The AppContext allows applet access to what would otherwise be
* potentially dangerous services, such as the ability to peek at
* EventQueues or change the look-and-feel of a Swing application.<p>
*
* Most application services use a singleton object to provide their
* services, either as a default (such as getSystemEventQueue or
* getDefaultToolkit) or as static methods with class data (System).
* The AppContext works with the former method by extending the concept
* of "default" to be ThreadGroup-specific. Application services
* lookup their singleton in the AppContext.<p>
*
* For example, here we have a Foo service, with its pre-AppContext
* code:<p>
* <code><pre>
* public class Foo {
* private static Foo defaultFoo = new Foo();
*
* public static Foo getDefaultFoo() {
* return defaultFoo;
* }
*
* ... Foo service methods
* }</pre></code><p>
*
* The problem with the above is that the Foo service is global in scope,
* so that applets and other untrusted code can execute methods on the
* single, shared Foo instance. The Foo service therefore either needs
* to block its use by untrusted code using a SecurityManager test, or
* restrict its capabilities so that it doesn't matter if untrusted code
* executes it.<p>
*
* Here's the Foo class written to use the AppContext:<p>
* <code><pre>
* public class Foo {
* public static Foo getDefaultFoo() {
* Foo foo = (Foo)AppContext.getAppContext().get(Foo.class);
* if (foo == null) {
* foo = new Foo();
* getAppContext().put(Foo.class, foo);
* }
* return foo;
* }
*
* ... Foo service methods
* }</pre></code><p>
*
* Since a separate AppContext can exist for each ThreadGroup, trusted
* and untrusted code have access to different Foo instances. This allows
* untrusted code access to "system-wide" services -- the service remains
* within the AppContext "sandbox". For example, say a malicious applet
* wants to peek all of the key events on the EventQueue to listen for
* passwords; if separate EventQueues are used for each ThreadGroup
* using AppContexts, the only key events that applet will be able to
* listen to are its own. A more reasonable applet request would be to
* change the Swing default look-and-feel; with that default stored in
* an AppContext, the applet's look-and-feel will change without
* disrupting other applets or potentially the browser itself.<p>
*
* Because the AppContext is a facility for safely extending application
* service support to applets, none of its methods may be blocked by a
* a SecurityManager check in a valid Java implementation. Applets may
* therefore safely invoke any of its methods without worry of being
* blocked.
*
* Note: If a SecurityManager is installed which derives from
* sun.awt.AWTSecurityManager, it may override the
* AWTSecurityManager.getAppContext() method to return the proper
* AppContext based on the execution context, in the case where
* the default ThreadGroup-based AppContext indexing would return
* the main "system" AppContext. For example, in an applet situation,
* if a system thread calls into an applet, rather than returning the
* main "system" AppContext (the one corresponding to the system thread),
* an installed AWTSecurityManager may return the applet's AppContext
* based on the execution context.
*
* @author Thomas Ball
* @author Fred Ecks
*/
public final class AppContext {
private static final Logger log = Logger.getLogger("sun.awt.AppContext");
/* Since the contents of an AppContext are unique to each Java
* session, this class should never be serialized. */
/* The key to put()/get() the Java EventQueue into/from the AppContext.
*/
public static final Object EVENT_QUEUE_KEY = new StringBuffer("EventQueue");
/* A map of AppContexts, referenced by ThreadGroup.
*/
private static final Map<ThreadGroup, AppContext> threadGroup2appContext =
Collections.synchronizedMap(new IdentityHashMap<ThreadGroup, AppContext>());
Returns a set containing all AppContexts.
/**
* Returns a set containing all <code>AppContext</code>s.
*/
public static Set<AppContext> getAppContexts() {
return new HashSet<AppContext>(threadGroup2appContext.values());
}
/* The main "system" AppContext, used by everything not otherwise
contained in another AppContext. It is implicitly created for
standalone apps only (i.e. not applets)
*/
private static AppContext mainAppContext = null;
private static class GetAppContextLock {};
private final static Object getAppContextLock = new GetAppContextLock();
/*
* The hash map associated with this AppContext. A private delegate
* is used instead of subclassing HashMap so as to avoid all of
* HashMap's potentially risky methods, such as clear(), elements(),
* putAll(), etc.
*/
private final HashMap table = new HashMap();
private final ThreadGroup threadGroup;
If any PropertyChangeListeners have been registered,
the changeSupport field describes them.
See Also: - addPropertyChangeListener
- removePropertyChangeListener
- firePropertyChange
/**
* If any <code>PropertyChangeListeners</code> have been registered,
* the <code>changeSupport</code> field describes them.
*
* @see #addPropertyChangeListener
* @see #removePropertyChangeListener
* @see #firePropertyChange
*/
private PropertyChangeSupport changeSupport = null;
public static final String DISPOSED_PROPERTY_NAME = "disposed";
public static final String GUI_DISPOSED = "guidisposed";
private boolean isDisposed = false; // true if AppContext is disposed
public boolean isDisposed() {
return isDisposed;
}
/*
* The total number of AppContexts, system-wide. This number is
* incremented at the beginning of the constructor, and decremented
* at the end of dispose(). getAppContext() checks to see if this
* number is 1. If so, it returns the sole AppContext without
* checking Thread.currentThread().
*/
private static final AtomicInteger numAppContexts = new AtomicInteger(0);
/*
* The context ClassLoader that was used to create this AppContext.
*/
private final ClassLoader contextClassLoader;
Constructor for AppContext. This method is not public,
nor should it ever be used as such. The proper way to construct
an AppContext is through the use of SunToolkit.createNewAppContext.
A ThreadGroup is created for the new AppContext, a Thread is
created within that ThreadGroup, and that Thread calls
SunToolkit.createNewAppContext before calling anything else.
That creates both the new AppContext and its EventQueue.
Params: - threadGroup – The ThreadGroup for the new AppContext
See Also: Since: 1.2
/**
* Constructor for AppContext. This method is <i>not</i> public,
* nor should it ever be used as such. The proper way to construct
* an AppContext is through the use of SunToolkit.createNewAppContext.
* A ThreadGroup is created for the new AppContext, a Thread is
* created within that ThreadGroup, and that Thread calls
* SunToolkit.createNewAppContext before calling anything else.
* That creates both the new AppContext and its EventQueue.
*
* @param threadGroup The ThreadGroup for the new AppContext
* @see sun.awt.SunToolkit
* @since 1.2
*/
AppContext(ThreadGroup threadGroup) {
numAppContexts.incrementAndGet();
this.threadGroup = threadGroup;
threadGroup2appContext.put(threadGroup, this);
this.contextClassLoader =
(ClassLoader) AccessController.doPrivileged(new PrivilegedAction() {
public Object run() {
return Thread.currentThread().getContextClassLoader();
}
});
}
private static MostRecentThreadAppContext mostRecentThreadAppContext = null;
private final static void initMainAppContext() {
// On the main Thread, we get the ThreadGroup, make a corresponding
// AppContext, and instantiate the Java EventQueue. This way, legacy
// code is unaffected by the move to multiple AppContext ability.
AccessController.doPrivileged(new PrivilegedAction<Void>() {
public Void run() {
ThreadGroup currentThreadGroup =
Thread.currentThread().getThreadGroup();
ThreadGroup parentThreadGroup = currentThreadGroup.getParent();
while (parentThreadGroup != null) {
// Find the root ThreadGroup to construct our main AppContext
currentThreadGroup = parentThreadGroup;
parentThreadGroup = currentThreadGroup.getParent();
}
mainAppContext = SunToolkit.createNewAppContext(currentThreadGroup);
return null;
}
});
}
Returns the appropriate AppContext for the caller,
as determined by its ThreadGroup. If the main "system" AppContext
would be returned and there's an AWTSecurityManager installed, it
is called to get the proper AppContext based on the execution
context.
See Also: Returns: the AppContext for the caller. Since: 1.2
/**
* Returns the appropriate AppContext for the caller,
* as determined by its ThreadGroup. If the main "system" AppContext
* would be returned and there's an AWTSecurityManager installed, it
* is called to get the proper AppContext based on the execution
* context.
*
* @return the AppContext for the caller.
* @see java.lang.ThreadGroup
* @since 1.2
*/
public final static AppContext getAppContext() {
// we are standalone app, return the main app context
if (numAppContexts.get() == 1 && mainAppContext != null) {
return mainAppContext;
}
final Thread currentThread = Thread.currentThread();
AppContext appContext = null;
// Note: this most recent Thread/AppContext caching is thread-hot.
// A simple test using SwingSet found that 96.8% of lookups
// were matched using the most recent Thread/AppContext. By
// instantiating a simple MostRecentThreadAppContext object on
// cache misses, the cache hits can be processed without
// synchronization.
MostRecentThreadAppContext recent = mostRecentThreadAppContext;
if ((recent != null) && (recent.thread == currentThread)) {
appContext = recent.appContext; // Cache hit
} else {
appContext = (AppContext)AccessController.doPrivileged(
new PrivilegedAction() {
public Object run() {
// Get the current ThreadGroup, and look for it and its
// parents in the hash from ThreadGroup to AppContext --
// it should be found, because we use createNewContext()
// when new AppContext objects are created.
ThreadGroup currentThreadGroup = currentThread.getThreadGroup();
ThreadGroup threadGroup = currentThreadGroup;
// Special case: we implicitly create the main app context
// if no contexts have been created yet. This covers standalone apps
// and excludes applets because by the time applet starts
// a number of contexts have already been created by the plugin.
synchronized (getAppContextLock) {
if (numAppContexts.get() == 0) {
if (System.getProperty("javaplugin.version") == null &&
System.getProperty("javawebstart.version") == null) {
initMainAppContext();
}
}
}
AppContext context = threadGroup2appContext.get(threadGroup);
while (context == null) {
threadGroup = threadGroup.getParent();
if (threadGroup == null) {
// We've got up to the root thread group and did not find an AppContext
// Try to get it from the security manager
SecurityManager securityManager = System.getSecurityManager();
if (securityManager != null) {
ThreadGroup smThreadGroup = securityManager.getThreadGroup();
if (smThreadGroup != null) {
/*
* If we get this far then it's likely that
* the ThreadGroup does not actually belong
* to the applet, so do not cache it.
*/
return threadGroup2appContext.get(smThreadGroup);
}
}
return null;
}
context = threadGroup2appContext.get(threadGroup);
}
// In case we did anything in the above while loop, we add
// all the intermediate ThreadGroups to threadGroup2appContext
// so we won't spin again.
for (ThreadGroup tg = currentThreadGroup; tg != threadGroup; tg = tg.getParent()) {
threadGroup2appContext.put(tg, context);
}
// Now we're done, so we cache the latest key/value pair.
mostRecentThreadAppContext =
new MostRecentThreadAppContext(currentThread, context);
return context;
}
});
}
return appContext;
}
Returns true if the specified AppContext is the main AppContext.
Params: - ctx – the context to compare with the main context
Returns: true if the specified AppContext is the main AppContext.
/**
* Returns true if the specified AppContext is the main AppContext.
*
* @param ctx the context to compare with the main context
* @return true if the specified AppContext is the main AppContext.
*/
public final static boolean isMainContext(AppContext ctx) {
return (ctx != null && ctx == mainAppContext);
}
private final static AppContext getExecutionAppContext() {
SecurityManager securityManager = System.getSecurityManager();
if ((securityManager != null) &&
(securityManager instanceof AWTSecurityManager))
{
AWTSecurityManager awtSecMgr = (AWTSecurityManager) securityManager;
AppContext secAppContext = awtSecMgr.getAppContext();
return secAppContext; // Return what we're told
}
return null;
}
private long DISPOSAL_TIMEOUT = 5000; // Default to 5-second timeout
// for disposal of all Frames
// (we wait for this time twice,
// once for dispose(), and once
// to clear the EventQueue).
private long THREAD_INTERRUPT_TIMEOUT = 1000;
// Default to 1-second timeout for all
// interrupted Threads to exit, and another
// 1 second for all stopped Threads to die.
Disposes of this AppContext, all of its top-level Frames, and
all Threads and ThreadGroups contained within it.
This method must be called from a Thread which is not contained
within this AppContext.
Throws: - IllegalThreadStateException – if the current thread is
contained within this AppContext
Since: 1.2
/**
* Disposes of this AppContext, all of its top-level Frames, and
* all Threads and ThreadGroups contained within it.
*
* This method must be called from a Thread which is not contained
* within this AppContext.
*
* @exception IllegalThreadStateException if the current thread is
* contained within this AppContext
* @since 1.2
*/
public void dispose() throws IllegalThreadStateException {
// Check to be sure that the current Thread isn't in this AppContext
if (this.threadGroup.parentOf(Thread.currentThread().getThreadGroup())) {
throw new IllegalThreadStateException(
"Current Thread is contained within AppContext to be disposed."
);
}
synchronized(this) {
if (this.isDisposed) {
return; // If already disposed, bail.
}
this.isDisposed = true;
}
final PropertyChangeSupport changeSupport = this.changeSupport;
if (changeSupport != null) {
changeSupport.firePropertyChange(DISPOSED_PROPERTY_NAME, false, true);
}
// First, we post an InvocationEvent to be run on the
// EventDispatchThread which disposes of all top-level Frames and TrayIcons
final Object notificationLock = new Object();
Runnable runnable = new Runnable() {
public void run() {
Window[] windowsToDispose = Window.getOwnerlessWindows();
for (Window w : windowsToDispose) {
try {
w.dispose();
} catch (Throwable t) {
if (log.isLoggable(Level.FINER)) {
log.log(Level.FINER, "exception occured while disposing app context", t);
}
}
}
AccessController.doPrivileged(new PrivilegedAction() {
public Object run() {
if (!GraphicsEnvironment.isHeadless() && SystemTray.isSupported())
{
SystemTray systemTray = SystemTray.getSystemTray();
TrayIcon[] trayIconsToDispose = systemTray.getTrayIcons();
for (TrayIcon ti : trayIconsToDispose) {
systemTray.remove(ti);
}
}
return null;
}
});
// Alert PropertyChangeListeners that the GUI has been disposed.
if (changeSupport != null) {
changeSupport.firePropertyChange(GUI_DISPOSED, false, true);
}
synchronized(notificationLock) {
notificationLock.notifyAll(); // Notify caller that we're done
}
}
};
synchronized(notificationLock) {
SunToolkit.postEvent(this,
new InvocationEvent(Toolkit.getDefaultToolkit(), runnable));
try {
notificationLock.wait(DISPOSAL_TIMEOUT);
} catch (InterruptedException e) { }
}
// Next, we post another InvocationEvent to the end of the
// EventQueue. When it's executed, we know we've executed all
// events in the queue.
runnable = new Runnable() { public void run() {
synchronized(notificationLock) {
notificationLock.notifyAll(); // Notify caller that we're done
}
} };
synchronized(notificationLock) {
SunToolkit.postEvent(this,
new InvocationEvent(Toolkit.getDefaultToolkit(), runnable));
try {
notificationLock.wait(DISPOSAL_TIMEOUT);
} catch (InterruptedException e) { }
}
// Next, we interrupt all Threads in the ThreadGroup
this.threadGroup.interrupt();
// Note, the EventDispatchThread we've interrupted may dump an
// InterruptedException to the console here. This needs to be
// fixed in the EventDispatchThread, not here.
// Next, we sleep 10ms at a time, waiting for all of the active
// Threads in the ThreadGroup to exit.
long startTime = System.currentTimeMillis();
long endTime = startTime + (long)THREAD_INTERRUPT_TIMEOUT;
while ((this.threadGroup.activeCount() > 0) &&
(System.currentTimeMillis() < endTime)) {
try {
Thread.sleep(10);
} catch (InterruptedException e) { }
}
// Then, we stop any remaining Threads
this.threadGroup.stop();
// Next, we sleep 10ms at a time, waiting for all of the active
// Threads in the ThreadGroup to die.
startTime = System.currentTimeMillis();
endTime = startTime + (long)THREAD_INTERRUPT_TIMEOUT;
while ((this.threadGroup.activeCount() > 0) &&
(System.currentTimeMillis() < endTime)) {
try {
Thread.sleep(10);
} catch (InterruptedException e) { }
}
// Next, we remove this and all subThreadGroups from threadGroup2appContext
int numSubGroups = this.threadGroup.activeGroupCount();
if (numSubGroups > 0) {
ThreadGroup [] subGroups = new ThreadGroup[numSubGroups];
numSubGroups = this.threadGroup.enumerate(subGroups);
for (int subGroup = 0; subGroup < numSubGroups; subGroup++) {
threadGroup2appContext.remove(subGroups[subGroup]);
}
}
threadGroup2appContext.remove(this.threadGroup);
MostRecentThreadAppContext recent = mostRecentThreadAppContext;
if ((recent != null) && (recent.appContext == this))
mostRecentThreadAppContext = null;
// If the "most recent" points to this, clear it for GC
// Finally, we destroy the ThreadGroup entirely.
try {
this.threadGroup.destroy();
} catch (IllegalThreadStateException e) {
// Fired if not all the Threads died, ignore it and proceed
}
synchronized (table) {
this.table.clear(); // Clear out the Hashtable to ease garbage collection
}
numAppContexts.decrementAndGet();
mostRecentKeyValue = null;
}
static final class PostShutdownEventRunnable implements Runnable {
private final AppContext appContext;
public PostShutdownEventRunnable(AppContext ac) {
appContext = ac;
}
public void run() {
final EventQueue eq = (EventQueue)appContext.get(EVENT_QUEUE_KEY);
if (eq != null) {
eq.postEvent(AWTAutoShutdown.getShutdownEvent());
}
}
}
static final class CreateThreadAction implements PrivilegedAction {
private final AppContext appContext;
private final Runnable runnable;
public CreateThreadAction(AppContext ac, Runnable r) {
appContext = ac;
runnable = r;
}
public Object run() {
Thread t = new Thread(appContext.getThreadGroup(), runnable);
t.setContextClassLoader(appContext.getContextClassLoader());
t.setPriority(Thread.NORM_PRIORITY + 1);
t.setDaemon(true);
return t;
}
}
static void stopEventDispatchThreads() {
for (AppContext appContext: getAppContexts()) {
if (appContext.isDisposed()) {
continue;
}
Runnable r = new PostShutdownEventRunnable(appContext);
// For security reasons EventQueue.postEvent should only be called
// on a thread that belongs to the corresponding thread group.
if (appContext != AppContext.getAppContext()) {
// Create a thread that belongs to the thread group associated
// with the AppContext and invokes EventQueue.postEvent.
PrivilegedAction action = new CreateThreadAction(appContext, r);
Thread thread = (Thread)AccessController.doPrivileged(action);
thread.start();
} else {
r.run();
}
}
}
private MostRecentKeyValue mostRecentKeyValue = null;
private MostRecentKeyValue shadowMostRecentKeyValue = null;
Returns the value to which the specified key is mapped in this context.
Params: - key – a key in the AppContext.
See Also: Returns: the value to which the key is mapped in this AppContext;
null if the key is not mapped to any value. Since: 1.2
/**
* Returns the value to which the specified key is mapped in this context.
*
* @param key a key in the AppContext.
* @return the value to which the key is mapped in this AppContext;
* <code>null</code> if the key is not mapped to any value.
* @see #put(Object, Object)
* @since 1.2
*/
public Object get(Object key) {
/*
* The most recent reference should be updated inside a synchronized
* block to avoid a race when put() and get() are executed in
* parallel on different threads.
*/
synchronized (table) {
// Note: this most recent key/value caching is thread-hot.
// A simple test using SwingSet found that 72% of lookups
// were matched using the most recent key/value. By instantiating
// a simple MostRecentKeyValue object on cache misses, the
// cache hits can be processed without synchronization.
MostRecentKeyValue recent = mostRecentKeyValue;
if ((recent != null) && (recent.key == key)) {
return recent.value;
}
Object value = table.get(key);
if(mostRecentKeyValue == null) {
mostRecentKeyValue = new MostRecentKeyValue(key, value);
shadowMostRecentKeyValue = new MostRecentKeyValue(key, value);
} else {
MostRecentKeyValue auxKeyValue = mostRecentKeyValue;
shadowMostRecentKeyValue.setPair(key, value);
mostRecentKeyValue = shadowMostRecentKeyValue;
shadowMostRecentKeyValue = auxKeyValue;
}
return value;
}
}
Maps the specified key to the specified
value in this AppContext. Neither the key nor the
value can be null.
The value can be retrieved by calling the get method
with a key that is equal to the original key.
Params: - key – the AppContext key.
- value – the value.
Throws: - NullPointerException – if the key or value is
null.
See Also: Returns: the previous value of the specified key in this
AppContext, or null if it did not have one. Since: 1.2
/**
* Maps the specified <code>key</code> to the specified
* <code>value</code> in this AppContext. Neither the key nor the
* value can be <code>null</code>.
* <p>
* The value can be retrieved by calling the <code>get</code> method
* with a key that is equal to the original key.
*
* @param key the AppContext key.
* @param value the value.
* @return the previous value of the specified key in this
* AppContext, or <code>null</code> if it did not have one.
* @exception NullPointerException if the key or value is
* <code>null</code>.
* @see #get(Object)
* @since 1.2
*/
public Object put(Object key, Object value) {
synchronized (table) {
MostRecentKeyValue recent = mostRecentKeyValue;
if ((recent != null) && (recent.key == key))
recent.value = value;
return table.put(key, value);
}
}
Removes the key (and its corresponding value) from this
AppContext. This method does nothing if the key is not in the
AppContext.
Params: - key – the key that needs to be removed.
Returns: the value to which the key had been mapped in this AppContext,
or null if the key did not have a mapping. Since: 1.2
/**
* Removes the key (and its corresponding value) from this
* AppContext. This method does nothing if the key is not in the
* AppContext.
*
* @param key the key that needs to be removed.
* @return the value to which the key had been mapped in this AppContext,
* or <code>null</code> if the key did not have a mapping.
* @since 1.2
*/
public Object remove(Object key) {
synchronized (table) {
MostRecentKeyValue recent = mostRecentKeyValue;
if ((recent != null) && (recent.key == key))
recent.value = null;
return table.remove(key);
}
}
Returns the root ThreadGroup for all Threads contained within
this AppContext.
Since: 1.2
/**
* Returns the root ThreadGroup for all Threads contained within
* this AppContext.
* @since 1.2
*/
public ThreadGroup getThreadGroup() {
return threadGroup;
}
Returns the context ClassLoader that was used to create this
AppContext.
See Also: - getContextClassLoader.getContextClassLoader
/**
* Returns the context ClassLoader that was used to create this
* AppContext.
*
* @see java.lang.Thread#getContextClassLoader
*/
public ClassLoader getContextClassLoader() {
return contextClassLoader;
}
Returns a string representation of this AppContext.
Since: 1.2
/**
* Returns a string representation of this AppContext.
* @since 1.2
*/
public String toString() {
return getClass().getName() + "[threadGroup=" + threadGroup.getName() + "]";
}
Returns an array of all the property change listeners
registered on this component.
See Also: Returns: all of this component's PropertyChangeListeners
or an empty array if no property change
listeners are currently registered Since: 1.4
/**
* Returns an array of all the property change listeners
* registered on this component.
*
* @return all of this component's <code>PropertyChangeListener</code>s
* or an empty array if no property change
* listeners are currently registered
*
* @see #addPropertyChangeListener
* @see #removePropertyChangeListener
* @see #getPropertyChangeListeners(java.lang.String)
* @see java.beans.PropertyChangeSupport#getPropertyChangeListeners
* @since 1.4
*/
public synchronized PropertyChangeListener[] getPropertyChangeListeners() {
if (changeSupport == null) {
return new PropertyChangeListener[0];
}
return changeSupport.getPropertyChangeListeners();
}
Adds a PropertyChangeListener to the listener list for a specific
property. The specified property may be one of the following:
- if this AppContext is disposed ("disposed")
- if this AppContext's unowned Windows have been disposed
("guidisposed"). Code to cleanup after the GUI is disposed
(such as LookAndFeel.uninitialize()) should execute in response to
this property being fired. Notifications for the "guidisposed"
property are sent on the event dispatch thread.
If listener is null, no exception is thrown and no action is performed.
Params: - propertyName – one of the property names listed above
- listener – the PropertyChangeListener to be added
See Also:
/**
* Adds a PropertyChangeListener to the listener list for a specific
* property. The specified property may be one of the following:
* <ul>
* <li>if this AppContext is disposed ("disposed")</li>
* </ul>
* <ul>
* <li>if this AppContext's unowned Windows have been disposed
* ("guidisposed"). Code to cleanup after the GUI is disposed
* (such as LookAndFeel.uninitialize()) should execute in response to
* this property being fired. Notifications for the "guidisposed"
* property are sent on the event dispatch thread.</li>
* </ul>
* <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 #removePropertyChangeListener(java.lang.String, java.beans.PropertyChangeListener)
* @see #getPropertyChangeListeners(java.lang.String)
* @see #addPropertyChangeListener(java.lang.String, java.beans.PropertyChangeListener)
*/
public synchronized void addPropertyChangeListener(
String propertyName,
PropertyChangeListener listener) {
if (listener == null) {
return;
}
if (changeSupport == null) {
changeSupport = new PropertyChangeSupport(this);
}
changeSupport.addPropertyChangeListener(propertyName, listener);
}
Removes a PropertyChangeListener from the listener list for a specific
property. This method should be used to remove PropertyChangeListeners
that were registered for a specific bound property.
If listener is null, no exception is thrown and no action is performed.
Params: - propertyName – a valid property name
- listener – the PropertyChangeListener to be removed
See Also:
/**
* Removes a PropertyChangeListener from the listener list for a specific
* property. This method should be used to remove PropertyChangeListeners
* that were registered for a specific bound property.
* <p>
* If listener is null, no exception is thrown and no action is performed.
*
* @param propertyName a valid property name
* @param listener the PropertyChangeListener to be removed
*
* @see #addPropertyChangeListener(java.lang.String, java.beans.PropertyChangeListener)
* @see #getPropertyChangeListeners(java.lang.String)
* @see #removePropertyChangeListener(java.beans.PropertyChangeListener)
*/
public synchronized void removePropertyChangeListener(
String propertyName,
PropertyChangeListener listener) {
if (listener == null || changeSupport == null) {
return;
}
changeSupport.removePropertyChangeListener(propertyName, listener);
}
Returns an array of all the listeners which have been associated
with the named property.
See Also: Returns: all of the PropertyChangeListeners associated with
the named property or an empty array if no listeners have
been added Since: 1.4
/**
* Returns an array of all the listeners which have been associated
* with the named property.
*
* @return all of the <code>PropertyChangeListeners</code> associated with
* the named property or an empty array if no listeners have
* been added
*
* @see #addPropertyChangeListener(java.lang.String, java.beans.PropertyChangeListener)
* @see #removePropertyChangeListener(java.lang.String, java.beans.PropertyChangeListener)
* @see #getPropertyChangeListeners
* @since 1.4
*/
public synchronized PropertyChangeListener[] getPropertyChangeListeners(
String propertyName) {
if (changeSupport == null) {
return new PropertyChangeListener[0];
}
return changeSupport.getPropertyChangeListeners(propertyName);
}
// Set up JavaAWTAccess in SharedSecrets
static {
sun.misc.SharedSecrets.setJavaAWTAccess(new sun.misc.JavaAWTAccess() {
public Object get(Object key) {
return getAppContext().get(key);
}
public void put(Object key, Object value) {
getAppContext().put(key, value);
}
public void remove(Object key) {
getAppContext().remove(key);
}
public boolean isDisposed() {
return getAppContext().isDisposed();
}
public boolean isMainAppContext() {
return (numAppContexts.get() == 1 && mainAppContext != null);
}
public Object getContext() {
return getAppContext();
}
public Object getExecutionContext() {
return getExecutionAppContext();
}
public Object get(Object context, Object key) {
return ((AppContext)context).get(key);
}
public void put(Object context, Object key, Object value) {
((AppContext)context).put(key, value);
}
public void remove(Object context, Object key) {
((AppContext)context).remove(key);
}
});
}
}
final class MostRecentThreadAppContext {
final Thread thread;
final AppContext appContext;
MostRecentThreadAppContext(Thread key, AppContext value) {
thread = key;
appContext = value;
}
}
final class MostRecentKeyValue {
Object key;
Object value;
MostRecentKeyValue(Object k, Object v) {
key = k;
value = v;
}
void setPair(Object k, Object v) {
key = k;
value = v;
}
}