1 /* 2 * Copyright (c) 1997, 2015, Oracle and/or its affiliates. All rights reserved. 3 * DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER. 4 * 5 * This code is free software; you can redistribute it and/or modify it 6 * under the terms of the GNU General Public License version 2 only, as 7 * published by the Free Software Foundation. Oracle designates this 8 * particular file as subject to the "Classpath" exception as provided 9 * by Oracle in the LICENSE file that accompanied this code. 10 * 11 * This code is distributed in the hope that it will be useful, but WITHOUT 12 * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or 13 * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License 14 * version 2 for more details (a copy is included in the LICENSE file that 15 * accompanied this code). 16 * 17 * You should have received a copy of the GNU General Public License version 18 * 2 along with this work; if not, write to the Free Software Foundation, 19 * Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA. 20 * 21 * Please contact Oracle, 500 Oracle Parkway, Redwood Shores, CA 94065 USA 22 * or visit www.oracle.com if you need additional information or have any 23 * questions. 24 */ 25 26 package sun.awt; 27 28 import java.awt.*; 29 import java.awt.event.InputEvent; 30 import java.awt.event.KeyEvent; 31 import java.awt.event.WindowEvent; 32 import java.awt.image.BufferedImage; 33 import java.awt.image.DataBuffer; 34 import java.awt.image.DataBufferInt; 35 import java.awt.image.ImageObserver; 36 import java.awt.image.ImageProducer; 37 import java.awt.image.Raster; 38 import java.awt.peer.FramePeer; 39 import java.awt.peer.KeyboardFocusManagerPeer; 40 import java.awt.peer.MouseInfoPeer; 41 import java.awt.peer.SystemTrayPeer; 42 import java.awt.peer.TrayIconPeer; 43 import java.io.File; 44 import java.io.IOException; 45 import java.io.InputStream; 46 import java.lang.reflect.InvocationTargetException; 47 import java.net.URL; 48 import java.security.AccessController; 49 import java.util.Collections; 50 import java.util.Iterator; 51 import java.util.Locale; 52 import java.util.Map; 53 import java.util.Vector; 54 import java.util.WeakHashMap; 55 import java.util.concurrent.TimeUnit; 56 import java.util.concurrent.locks.Condition; 57 import java.util.concurrent.locks.ReentrantLock; 58 59 import sun.awt.im.InputContext; 60 import sun.awt.image.ByteArrayImageSource; 61 import sun.awt.image.FileImageSource; 62 import sun.awt.image.ImageRepresentation; 63 import java.awt.image.MultiResolutionImage; 64 import sun.awt.image.MultiResolutionToolkitImage; 65 import sun.awt.image.ToolkitImage; 66 import sun.awt.image.URLImageSource; 67 import sun.font.FontDesignMetrics; 68 import sun.misc.SoftCache; 69 import sun.net.util.URLUtil; 70 import sun.security.action.GetBooleanAction; 71 import sun.security.action.GetPropertyAction; 72 import sun.util.logging.PlatformLogger; 73 74 import static java.awt.RenderingHints.*; 75 76 public abstract class SunToolkit extends Toolkit 77 implements ComponentFactory, InputMethodSupport, KeyboardFocusManagerPeerProvider { 78 79 // 8014718: logging has been removed from SunToolkit 80 81 /* Load debug settings for native code */ 82 static { 83 if (AccessController.doPrivileged(new GetBooleanAction("sun.awt.nativedebug"))) { 84 DebugSettings.init(); 85 } 86 }; 87 88 /** 89 * Special mask for the UngrabEvent events, in addition to the 90 * public masks defined in AWTEvent. Should be used as the mask 91 * value for Toolkit.addAWTEventListener. 92 */ 93 public static final int GRAB_EVENT_MASK = 0x80000000; 94 95 /* The key to put()/get() the PostEventQueue into/from the AppContext. 96 */ 97 private static final String POST_EVENT_QUEUE_KEY = "PostEventQueue"; 98 99 /** 100 * Number of buttons. 101 * By default it's taken from the system. If system value does not 102 * fit into int type range, use our own MAX_BUTTONS_SUPPORT value. 103 */ 104 protected static int numberOfButtons = 0; 105 106 107 /* XFree standard mention 24 buttons as maximum: 108 * http://www.xfree86.org/current/mouse.4.html 109 * We workaround systems supporting more than 24 buttons. 110 * Otherwise, we have to use long type values as masks 111 * which leads to API change. 112 * InputEvent.BUTTON_DOWN_MASK may contain only 21 masks due to 113 * the 4-bytes limit for the int type. (CR 6799099) 114 * One more bit is reserved for FIRST_HIGH_BIT. 115 */ 116 public static final int MAX_BUTTONS_SUPPORTED = 20; 117 118 /** 119 * Creates and initializes EventQueue instance for the specified 120 * AppContext. 121 * Note that event queue must be created from createNewAppContext() 122 * only in order to ensure that EventQueue constructor obtains 123 * the correct AppContext. 124 * @param appContext AppContext to associate with the event queue 125 */ 126 private static void initEQ(AppContext appContext) { 127 EventQueue eventQueue = new EventQueue(); 128 appContext.put(AppContext.EVENT_QUEUE_KEY, eventQueue); 129 130 PostEventQueue postEventQueue = new PostEventQueue(eventQueue); 131 appContext.put(POST_EVENT_QUEUE_KEY, postEventQueue); 132 } 133 134 public SunToolkit() { 135 } 136 137 public boolean useBufferPerWindow() { 138 return false; 139 } 140 141 public abstract FramePeer createLightweightFrame(LightweightFrame target) 142 throws HeadlessException; 143 144 public abstract TrayIconPeer createTrayIcon(TrayIcon target) 145 throws HeadlessException, AWTException; 146 147 public abstract SystemTrayPeer createSystemTray(SystemTray target); 148 149 public abstract boolean isTraySupported(); 150 151 @Override 152 public abstract KeyboardFocusManagerPeer getKeyboardFocusManagerPeer() 153 throws HeadlessException; 154 155 /** 156 * The AWT lock is typically only used on Unix platforms to synchronize 157 * access to Xlib, OpenGL, etc. However, these methods are implemented 158 * in SunToolkit so that they can be called from shared code (e.g. 159 * from the OGL pipeline) or from the X11 pipeline regardless of whether 160 * XToolkit or MToolkit is currently in use. There are native macros 161 * (such as AWT_LOCK) defined in awt.h, so if the implementation of these 162 * methods is changed, make sure it is compatible with the native macros. 163 * 164 * Note: The following methods (awtLock(), awtUnlock(), etc) should be 165 * used in place of: 166 * synchronized (getAWTLock()) { 167 * ... 168 * } 169 * 170 * By factoring these methods out specially, we are able to change the 171 * implementation of these methods (e.g. use more advanced locking 172 * mechanisms) without impacting calling code. 173 * 174 * Sample usage: 175 * private void doStuffWithXlib() { 176 * assert !SunToolkit.isAWTLockHeldByCurrentThread(); 177 * SunToolkit.awtLock(); 178 * try { 179 * ... 180 * XlibWrapper.XDoStuff(); 181 * } finally { 182 * SunToolkit.awtUnlock(); 183 * } 184 * } 185 */ 186 187 private static final ReentrantLock AWT_LOCK = new ReentrantLock(); 188 private static final Condition AWT_LOCK_COND = AWT_LOCK.newCondition(); 189 190 public static final void awtLock() { 191 AWT_LOCK.lock(); 192 } 193 194 public static final boolean awtTryLock() { 195 return AWT_LOCK.tryLock(); 196 } 197 198 public static final void awtUnlock() { 199 AWT_LOCK.unlock(); 200 } 201 202 public static final void awtLockWait() 203 throws InterruptedException 204 { 205 AWT_LOCK_COND.await(); 206 } 207 208 public static final void awtLockWait(long timeout) 209 throws InterruptedException 210 { 211 AWT_LOCK_COND.await(timeout, TimeUnit.MILLISECONDS); 212 } 213 214 public static final void awtLockNotify() { 215 AWT_LOCK_COND.signal(); 216 } 217 218 public static final void awtLockNotifyAll() { 219 AWT_LOCK_COND.signalAll(); 220 } 221 222 public static final boolean isAWTLockHeldByCurrentThread() { 223 return AWT_LOCK.isHeldByCurrentThread(); 224 } 225 226 /* 227 * Create a new AppContext, along with its EventQueue, for a 228 * new ThreadGroup. Browser code, for example, would use this 229 * method to create an AppContext & EventQueue for an Applet. 230 */ 231 public static AppContext createNewAppContext() { 232 ThreadGroup threadGroup = Thread.currentThread().getThreadGroup(); 233 return createNewAppContext(threadGroup); 234 } 235 236 static final AppContext createNewAppContext(ThreadGroup threadGroup) { 237 // Create appContext before initialization of EventQueue, so all 238 // the calls to AppContext.getAppContext() from EventQueue ctor 239 // return correct values 240 AppContext appContext = new AppContext(threadGroup); 241 initEQ(appContext); 242 243 return appContext; 244 } 245 246 static void wakeupEventQueue(EventQueue q, boolean isShutdown){ 247 AWTAccessor.getEventQueueAccessor().wakeup(q, isShutdown); 248 } 249 250 /* 251 * Fetch the peer associated with the given target (as specified 252 * in the peer creation method). This can be used to determine 253 * things like what the parent peer is. If the target is null 254 * or the target can't be found (either because the a peer was 255 * never created for it or the peer was disposed), a null will 256 * be returned. 257 */ 258 protected static Object targetToPeer(Object target) { 259 if (target != null && !GraphicsEnvironment.isHeadless()) { 260 return AWTAutoShutdown.getInstance().getPeer(target); 261 } 262 return null; 263 } 264 265 protected static void targetCreatedPeer(Object target, Object peer) { 266 if (target != null && peer != null && 267 !GraphicsEnvironment.isHeadless()) 268 { 269 AWTAutoShutdown.getInstance().registerPeer(target, peer); 270 } 271 } 272 273 protected static void targetDisposedPeer(Object target, Object peer) { 274 if (target != null && peer != null && 275 !GraphicsEnvironment.isHeadless()) 276 { 277 AWTAutoShutdown.getInstance().unregisterPeer(target, peer); 278 } 279 } 280 281 // Maps from non-Component/MenuComponent to AppContext. 282 // WeakHashMap<Component,AppContext> 283 private static final Map<Object, AppContext> appContextMap = 284 Collections.synchronizedMap(new WeakIdentityHashMap<Object, AppContext>()); 285 286 /** 287 * Sets the appContext field of target. If target is not a Component or 288 * MenuComponent, this returns false. 289 */ 290 private static boolean setAppContext(Object target, 291 AppContext context) { 292 if (target instanceof Component) { 293 AWTAccessor.getComponentAccessor(). 294 setAppContext((Component)target, context); 295 } else if (target instanceof MenuComponent) { 296 AWTAccessor.getMenuComponentAccessor(). 297 setAppContext((MenuComponent)target, context); 298 } else { 299 return false; 300 } 301 return true; 302 } 303 304 /** 305 * Returns the appContext field for target. If target is not a 306 * Component or MenuComponent this returns null. 307 */ 308 private static AppContext getAppContext(Object target) { 309 if (target instanceof Component) { 310 return AWTAccessor.getComponentAccessor(). 311 getAppContext((Component)target); 312 } else if (target instanceof MenuComponent) { 313 return AWTAccessor.getMenuComponentAccessor(). 314 getAppContext((MenuComponent)target); 315 } else { 316 return null; 317 } 318 } 319 320 /* 321 * Fetch the AppContext associated with the given target. 322 * This can be used to determine things like which EventQueue 323 * to use for posting events to a Component. If the target is 324 * null or the target can't be found, a null with be returned. 325 */ 326 public static AppContext targetToAppContext(Object target) { 327 if (target == null) { 328 return null; 329 } 330 AppContext context = getAppContext(target); 331 if (context == null) { 332 // target is not a Component/MenuComponent, try the 333 // appContextMap. 334 context = appContextMap.get(target); 335 } 336 return context; 337 } 338 339 /** 340 * Sets the synchronous status of focus requests on lightweight 341 * components in the specified window to the specified value. 342 * If the boolean parameter is <code>true</code> then the focus 343 * requests on lightweight components will be performed 344 * synchronously, if it is <code>false</code>, then asynchronously. 345 * By default, all windows have their lightweight request status 346 * set to asynchronous. 347 * <p> 348 * The application can only set the status of lightweight focus 349 * requests to synchronous for any of its windows if it doesn't 350 * perform focus transfers between different heavyweight containers. 351 * In this case the observable focus behaviour is the same as with 352 * asynchronous status. 353 * <p> 354 * If the application performs focus transfer between different 355 * heavyweight containers and sets the lightweight focus request 356 * status to synchronous for any of its windows, then further focus 357 * behaviour is unspecified. 358 * <p> 359 * @param changed the window for which the lightweight focus request 360 * status should be set 361 * @param status the value of lightweight focus request status 362 */ 363 364 public static void setLWRequestStatus(Window changed,boolean status){ 365 AWTAccessor.getWindowAccessor().setLWRequestStatus(changed, status); 366 }; 367 368 public static void checkAndSetPolicy(Container cont) { 369 FocusTraversalPolicy defaultPolicy = KeyboardFocusManager. 370 getCurrentKeyboardFocusManager(). 371 getDefaultFocusTraversalPolicy(); 372 373 cont.setFocusTraversalPolicy(defaultPolicy); 374 } 375 376 private static FocusTraversalPolicy createLayoutPolicy() { 377 FocusTraversalPolicy policy = null; 378 try { 379 Class<?> layoutPolicyClass = 380 Class.forName("javax.swing.LayoutFocusTraversalPolicy"); 381 policy = (FocusTraversalPolicy)layoutPolicyClass.newInstance(); 382 } 383 catch (ClassNotFoundException e) { 384 assert false; 385 } 386 catch (InstantiationException e) { 387 assert false; 388 } 389 catch (IllegalAccessException e) { 390 assert false; 391 } 392 393 return policy; 394 } 395 396 /* 397 * Insert a mapping from target to AppContext, for later retrieval 398 * via targetToAppContext() above. 399 */ 400 public static void insertTargetMapping(Object target, AppContext appContext) { 401 if (!setAppContext(target, appContext)) { 402 // Target is not a Component/MenuComponent, use the private Map 403 // instead. 404 appContextMap.put(target, appContext); 405 } 406 } 407 408 /* 409 * Post an AWTEvent to the Java EventQueue, using the PostEventQueue 410 * to avoid possibly calling client code (EventQueueSubclass.postEvent()) 411 * on the toolkit (AWT-Windows/AWT-Motif) thread. This function should 412 * not be called under another lock since it locks the EventQueue. 413 * See bugids 4632918, 4526597. 414 */ 415 public static void postEvent(AppContext appContext, AWTEvent event) { 416 if (event == null) { 417 throw new NullPointerException(); 418 } 419 420 AWTAccessor.SequencedEventAccessor sea = AWTAccessor.getSequencedEventAccessor(); 421 if (sea != null && sea.isSequencedEvent(event)) { 422 AWTEvent nested = sea.getNested(event); 423 if (nested.getID() == WindowEvent.WINDOW_LOST_FOCUS && 424 nested instanceof TimedWindowEvent) 425 { 426 TimedWindowEvent twe = (TimedWindowEvent)nested; 427 ((SunToolkit)Toolkit.getDefaultToolkit()). 428 setWindowDeactivationTime((Window)twe.getSource(), twe.getWhen()); 429 } 430 } 431 432 // All events posted via this method are system-generated. 433 // Placing the following call here reduces considerably the 434 // number of places throughout the toolkit that would 435 // otherwise have to be modified to precisely identify 436 // system-generated events. 437 setSystemGenerated(event); 438 AppContext eventContext = targetToAppContext(event.getSource()); 439 if (eventContext != null && !eventContext.equals(appContext)) { 440 throw new RuntimeException("Event posted on wrong app context : " + event); 441 } 442 PostEventQueue postEventQueue = 443 (PostEventQueue)appContext.get(POST_EVENT_QUEUE_KEY); 444 if (postEventQueue != null) { 445 postEventQueue.postEvent(event); 446 } 447 } 448 449 /* 450 * Post AWTEvent of high priority. 451 */ 452 public static void postPriorityEvent(final AWTEvent e) { 453 PeerEvent pe = new PeerEvent(Toolkit.getDefaultToolkit(), new Runnable() { 454 @Override 455 public void run() { 456 AWTAccessor.getAWTEventAccessor().setPosted(e); 457 ((Component)e.getSource()).dispatchEvent(e); 458 } 459 }, PeerEvent.ULTIMATE_PRIORITY_EVENT); 460 postEvent(targetToAppContext(e.getSource()), pe); 461 } 462 463 /* 464 * Flush any pending events which haven't been posted to the AWT 465 * EventQueue yet. 466 */ 467 public static void flushPendingEvents() { 468 AppContext appContext = AppContext.getAppContext(); 469 flushPendingEvents(appContext); 470 } 471 472 /* 473 * Flush the PostEventQueue for the right AppContext. 474 * The default flushPendingEvents only flushes the thread-local context, 475 * which is not always correct, c.f. 3746956 476 */ 477 public static void flushPendingEvents(AppContext appContext) { 478 PostEventQueue postEventQueue = 479 (PostEventQueue)appContext.get(POST_EVENT_QUEUE_KEY); 480 if (postEventQueue != null) { 481 postEventQueue.flush(); 482 } 483 } 484 485 /* 486 * Execute a chunk of code on the Java event handler thread for the 487 * given target. Does not wait for the execution to occur before 488 * returning to the caller. 489 */ 490 public static void executeOnEventHandlerThread(Object target, 491 Runnable runnable) { 492 executeOnEventHandlerThread(new PeerEvent(target, runnable, PeerEvent.PRIORITY_EVENT)); 493 } 494 495 /* 496 * Fixed 5064013: the InvocationEvent time should be equals 497 * the time of the ActionEvent 498 */ 499 @SuppressWarnings("serial") 500 public static void executeOnEventHandlerThread(Object target, 501 Runnable runnable, 502 final long when) { 503 executeOnEventHandlerThread( 504 new PeerEvent(target, runnable, PeerEvent.PRIORITY_EVENT) { 505 @Override 506 public long getWhen() { 507 return when; 508 } 509 }); 510 } 511 512 /* 513 * Execute a chunk of code on the Java event handler thread for the 514 * given target. Does not wait for the execution to occur before 515 * returning to the caller. 516 */ 517 public static void executeOnEventHandlerThread(PeerEvent peerEvent) { 518 postEvent(targetToAppContext(peerEvent.getSource()), peerEvent); 519 } 520 521 /* 522 * Execute a chunk of code on the Java event handler thread. The 523 * method takes into account provided AppContext and sets 524 * <code>SunToolkit.getDefaultToolkit()</code> as a target of the 525 * event. See 6451487 for detailes. 526 * Does not wait for the execution to occur before returning to 527 * the caller. 528 */ 529 public static void invokeLaterOnAppContext( 530 AppContext appContext, Runnable dispatcher) 531 { 532 postEvent(appContext, 533 new PeerEvent(Toolkit.getDefaultToolkit(), dispatcher, 534 PeerEvent.PRIORITY_EVENT)); 535 } 536 537 /* 538 * Execute a chunk of code on the Java event handler thread for the 539 * given target. Waits for the execution to occur before returning 540 * to the caller. 541 */ 542 public static void executeOnEDTAndWait(Object target, Runnable runnable) 543 throws InterruptedException, InvocationTargetException 544 { 545 if (EventQueue.isDispatchThread()) { 546 throw new Error("Cannot call executeOnEDTAndWait from any event dispatcher thread"); 547 } 548 549 class AWTInvocationLock {} 550 Object lock = new AWTInvocationLock(); 551 552 PeerEvent event = new PeerEvent(target, runnable, lock, true, PeerEvent.PRIORITY_EVENT); 553 554 synchronized (lock) { 555 executeOnEventHandlerThread(event); 556 while(!event.isDispatched()) { 557 lock.wait(); 558 } 559 } 560 561 Throwable eventThrowable = event.getThrowable(); 562 if (eventThrowable != null) { 563 throw new InvocationTargetException(eventThrowable); 564 } 565 } 566 567 /* 568 * Returns true if the calling thread is the event dispatch thread 569 * contained within AppContext which associated with the given target. 570 * Use this call to ensure that a given task is being executed 571 * (or not being) on the event dispatch thread for the given target. 572 */ 573 public static boolean isDispatchThreadForAppContext(Object target) { 574 AppContext appContext = targetToAppContext(target); 575 EventQueue eq = (EventQueue)appContext.get(AppContext.EVENT_QUEUE_KEY); 576 577 AWTAccessor.EventQueueAccessor accessor = AWTAccessor.getEventQueueAccessor(); 578 return accessor.isDispatchThreadImpl(eq); 579 } 580 581 @Override 582 public Dimension getScreenSize() { 583 return new Dimension(getScreenWidth(), getScreenHeight()); 584 } 585 protected abstract int getScreenWidth(); 586 protected abstract int getScreenHeight(); 587 588 @Override 589 @SuppressWarnings("deprecation") 590 public FontMetrics getFontMetrics(Font font) { 591 return FontDesignMetrics.getMetrics(font); 592 } 593 594 @Override 595 @SuppressWarnings("deprecation") 596 public String[] getFontList() { 597 String[] hardwiredFontList = { 598 Font.DIALOG, Font.SANS_SERIF, Font.SERIF, Font.MONOSPACED, 599 Font.DIALOG_INPUT 600 601 // -- Obsolete font names from 1.0.2. It was decided that 602 // -- getFontList should not return these old names: 603 // "Helvetica", "TimesRoman", "Courier", "ZapfDingbats" 604 }; 605 return hardwiredFontList; 606 } 607 608 /** 609 * Disables erasing of background on the canvas before painting if 610 * this is supported by the current toolkit. It is recommended to 611 * call this method early, before the Canvas becomes displayable, 612 * because some Toolkit implementations do not support changing 613 * this property once the Canvas becomes displayable. 614 */ 615 public void disableBackgroundErase(Canvas canvas) { 616 disableBackgroundEraseImpl(canvas); 617 } 618 619 /** 620 * Disables the native erasing of the background on the given 621 * component before painting if this is supported by the current 622 * toolkit. This only has an effect for certain components such as 623 * Canvas, Panel and Window. It is recommended to call this method 624 * early, before the Component becomes displayable, because some 625 * Toolkit implementations do not support changing this property 626 * once the Component becomes displayable. 627 */ 628 public void disableBackgroundErase(Component component) { 629 disableBackgroundEraseImpl(component); 630 } 631 632 private void disableBackgroundEraseImpl(Component component) { 633 AWTAccessor.getComponentAccessor().setBackgroundEraseDisabled(component, true); 634 } 635 636 /** 637 * Returns the value of "sun.awt.noerasebackground" property. Default 638 * value is {@code false}. 639 */ 640 public static boolean getSunAwtNoerasebackground() { 641 return AccessController.doPrivileged(new GetBooleanAction("sun.awt.noerasebackground")); 642 } 643 644 /** 645 * Returns the value of "sun.awt.erasebackgroundonresize" property. Default 646 * value is {@code false}. 647 */ 648 public static boolean getSunAwtErasebackgroundonresize() { 649 return AccessController.doPrivileged(new GetBooleanAction("sun.awt.erasebackgroundonresize")); 650 } 651 652 653 @SuppressWarnings("deprecation") 654 static final SoftCache fileImgCache = new SoftCache(); 655 656 @SuppressWarnings("deprecation") 657 static final SoftCache urlImgCache = new SoftCache(); 658 659 static Image getImageFromHash(Toolkit tk, URL url) { 660 checkPermissions(url); 661 synchronized (urlImgCache) { 662 String key = url.toString(); 663 Image img = (Image)urlImgCache.get(key); 664 if (img == null) { 665 try { 666 img = tk.createImage(new URLImageSource(url)); 667 urlImgCache.put(key, img); 668 } catch (Exception e) { 669 } 670 } 671 return img; 672 } 673 } 674 675 static Image getImageFromHash(Toolkit tk, 676 String filename) { 677 checkPermissions(filename); 678 synchronized (fileImgCache) { 679 Image img = (Image)fileImgCache.get(filename); 680 if (img == null) { 681 try { 682 img = tk.createImage(new FileImageSource(filename)); 683 fileImgCache.put(filename, img); 684 } catch (Exception e) { 685 } 686 } 687 return img; 688 } 689 } 690 691 @Override 692 public Image getImage(String filename) { 693 return getImageFromHash(this, filename); 694 } 695 696 @Override 697 public Image getImage(URL url) { 698 return getImageFromHash(this, url); 699 } 700 701 protected Image getImageWithResolutionVariant(String fileName, 702 String resolutionVariantName) { 703 synchronized (fileImgCache) { 704 Image image = getImageFromHash(this, fileName); 705 if (image instanceof MultiResolutionImage) { 706 return image; 707 } 708 Image resolutionVariant = getImageFromHash(this, resolutionVariantName); 709 image = createImageWithResolutionVariant(image, resolutionVariant); 710 fileImgCache.put(fileName, image); 711 return image; 712 } 713 } 714 715 protected Image getImageWithResolutionVariant(URL url, 716 URL resolutionVariantURL) { 717 synchronized (urlImgCache) { 718 Image image = getImageFromHash(this, url); 719 if (image instanceof MultiResolutionImage) { 720 return image; 721 } 722 Image resolutionVariant = getImageFromHash(this, resolutionVariantURL); 723 image = createImageWithResolutionVariant(image, resolutionVariant); 724 String key = url.toString(); 725 urlImgCache.put(key, image); 726 return image; 727 } 728 } 729 730 731 @Override 732 public Image createImage(String filename) { 733 checkPermissions(filename); 734 return createImage(new FileImageSource(filename)); 735 } 736 737 @Override 738 public Image createImage(URL url) { 739 checkPermissions(url); 740 return createImage(new URLImageSource(url)); 741 } 742 743 @Override 744 public Image createImage(byte[] data, int offset, int length) { 745 return createImage(new ByteArrayImageSource(data, offset, length)); 746 } 747 748 @Override 749 public Image createImage(ImageProducer producer) { 750 return new ToolkitImage(producer); 751 } 752 753 public static Image createImageWithResolutionVariant(Image image, 754 Image resolutionVariant) { 755 return new MultiResolutionToolkitImage(image, resolutionVariant); 756 } 757 758 @Override 759 public int checkImage(Image img, int w, int h, ImageObserver o) { 760 if (!(img instanceof ToolkitImage)) { 761 return ImageObserver.ALLBITS; 762 } 763 764 ToolkitImage tkimg = (ToolkitImage)img; 765 int repbits; 766 if (w == 0 || h == 0) { 767 repbits = ImageObserver.ALLBITS; 768 } else { 769 repbits = tkimg.getImageRep().check(o); 770 } 771 return (tkimg.check(o) | repbits) & checkResolutionVariant(img, w, h, o); 772 } 773 774 @Override 775 public boolean prepareImage(Image img, int w, int h, ImageObserver o) { 776 if (w == 0 || h == 0) { 777 return true; 778 } 779 780 // Must be a ToolkitImage 781 if (!(img instanceof ToolkitImage)) { 782 return true; 783 } 784 785 ToolkitImage tkimg = (ToolkitImage)img; 786 if (tkimg.hasError()) { 787 if (o != null) { 788 o.imageUpdate(img, ImageObserver.ERROR|ImageObserver.ABORT, 789 -1, -1, -1, -1); 790 } 791 return false; 792 } 793 ImageRepresentation ir = tkimg.getImageRep(); 794 return ir.prepare(o) & prepareResolutionVariant(img, w, h, o); 795 } 796 797 private int checkResolutionVariant(Image img, int w, int h, ImageObserver o) { 798 ToolkitImage rvImage = getResolutionVariant(img); 799 int rvw = getRVSize(w); 800 int rvh = getRVSize(h); 801 // Ignore the resolution variant in case of error 802 return (rvImage == null || rvImage.hasError()) ? 0xFFFF : 803 checkImage(rvImage, rvw, rvh, MultiResolutionToolkitImage. 804 getResolutionVariantObserver( 805 img, o, w, h, rvw, rvh, true)); 806 } 807 808 private boolean prepareResolutionVariant(Image img, int w, int h, 809 ImageObserver o) { 810 811 ToolkitImage rvImage = getResolutionVariant(img); 812 int rvw = getRVSize(w); 813 int rvh = getRVSize(h); 814 // Ignore the resolution variant in case of error 815 return rvImage == null || rvImage.hasError() || prepareImage( 816 rvImage, rvw, rvh, 817 MultiResolutionToolkitImage.getResolutionVariantObserver( 818 img, o, w, h, rvw, rvh, true)); 819 } 820 821 private static int getRVSize(int size){ 822 return size == -1 ? -1 : 2 * size; 823 } 824 825 private static ToolkitImage getResolutionVariant(Image image) { 826 if (image instanceof MultiResolutionToolkitImage) { 827 Image resolutionVariant = ((MultiResolutionToolkitImage) image). 828 getResolutionVariant(); 829 if (resolutionVariant instanceof ToolkitImage) { 830 return (ToolkitImage) resolutionVariant; 831 } 832 } 833 return null; 834 } 835 836 protected static boolean imageCached(String fileName) { 837 return fileImgCache.containsKey(fileName); 838 } 839 840 protected static boolean imageCached(URL url) { 841 String key = url.toString(); 842 return urlImgCache.containsKey(key); 843 } 844 845 protected static boolean imageExists(String filename) { 846 if (filename != null) { 847 checkPermissions(filename); 848 return new File(filename).exists(); 849 } 850 return false; 851 } 852 853 @SuppressWarnings("try") 854 protected static boolean imageExists(URL url) { 855 if (url != null) { 856 checkPermissions(url); 857 try (InputStream is = url.openStream()) { 858 return true; 859 }catch(IOException e){ 860 return false; 861 } 862 } 863 return false; 864 } 865 866 private static void checkPermissions(String filename) { 867 SecurityManager security = System.getSecurityManager(); 868 if (security != null) { 869 security.checkRead(filename); 870 } 871 } 872 873 private static void checkPermissions(URL url) { 874 SecurityManager sm = System.getSecurityManager(); 875 if (sm != null) { 876 try { 877 java.security.Permission perm = 878 URLUtil.getConnectPermission(url); 879 if (perm != null) { 880 try { 881 sm.checkPermission(perm); 882 } catch (SecurityException se) { 883 // fallback to checkRead/checkConnect for pre 1.2 884 // security managers 885 if ((perm instanceof java.io.FilePermission) && 886 perm.getActions().indexOf("read") != -1) { 887 sm.checkRead(perm.getName()); 888 } else if ((perm instanceof 889 java.net.SocketPermission) && 890 perm.getActions().indexOf("connect") != -1) { 891 sm.checkConnect(url.getHost(), url.getPort()); 892 } else { 893 throw se; 894 } 895 } 896 } 897 } catch (java.io.IOException ioe) { 898 sm.checkConnect(url.getHost(), url.getPort()); 899 } 900 } 901 } 902 903 /** 904 * Scans {@code imageList} for best-looking image of specified dimensions. 905 * Image can be scaled and/or padded with transparency. 906 */ 907 public static BufferedImage getScaledIconImage(java.util.List<Image> imageList, int width, int height) { 908 if (width == 0 || height == 0) { 909 return null; 910 } 911 Image bestImage = null; 912 int bestWidth = 0; 913 int bestHeight = 0; 914 double bestSimilarity = 3; //Impossibly high value 915 double bestScaleFactor = 0; 916 for (Iterator<Image> i = imageList.iterator();i.hasNext();) { 917 //Iterate imageList looking for best matching image. 918 //'Similarity' measure is defined as good scale factor and small insets. 919 //best possible similarity is 0 (no scale, no insets). 920 //It's found while the experiments that good-looking result is achieved 921 //with scale factors x1, x3/4, x2/3, xN, x1/N. 922 Image im = i.next(); 923 if (im == null) { 924 continue; 925 } 926 if (im instanceof ToolkitImage) { 927 ImageRepresentation ir = ((ToolkitImage)im).getImageRep(); 928 ir.reconstruct(ImageObserver.ALLBITS); 929 } 930 int iw; 931 int ih; 932 try { 933 iw = im.getWidth(null); 934 ih = im.getHeight(null); 935 } catch (Exception e){ 936 continue; 937 } 938 if (iw > 0 && ih > 0) { 939 //Calc scale factor 940 double scaleFactor = Math.min((double)width / (double)iw, 941 (double)height / (double)ih); 942 //Calculate scaled image dimensions 943 //adjusting scale factor to nearest "good" value 944 int adjw = 0; 945 int adjh = 0; 946 double scaleMeasure = 1; //0 - best (no) scale, 1 - impossibly bad 947 if (scaleFactor >= 2) { 948 //Need to enlarge image more than twice 949 //Round down scale factor to multiply by integer value 950 scaleFactor = Math.floor(scaleFactor); 951 adjw = iw * (int)scaleFactor; 952 adjh = ih * (int)scaleFactor; 953 scaleMeasure = 1.0 - 0.5 / scaleFactor; 954 } else if (scaleFactor >= 1) { 955 //Don't scale 956 scaleFactor = 1.0; 957 adjw = iw; 958 adjh = ih; 959 scaleMeasure = 0; 960 } else if (scaleFactor >= 0.75) { 961 //Multiply by 3/4 962 scaleFactor = 0.75; 963 adjw = iw * 3 / 4; 964 adjh = ih * 3 / 4; 965 scaleMeasure = 0.3; 966 } else if (scaleFactor >= 0.6666) { 967 //Multiply by 2/3 968 scaleFactor = 0.6666; 969 adjw = iw * 2 / 3; 970 adjh = ih * 2 / 3; 971 scaleMeasure = 0.33; 972 } else { 973 //Multiply size by 1/scaleDivider 974 //where scaleDivider is minimum possible integer 975 //larger than 1/scaleFactor 976 double scaleDivider = Math.ceil(1.0 / scaleFactor); 977 scaleFactor = 1.0 / scaleDivider; 978 adjw = (int)Math.round((double)iw / scaleDivider); 979 adjh = (int)Math.round((double)ih / scaleDivider); 980 scaleMeasure = 1.0 - 1.0 / scaleDivider; 981 } 982 double similarity = ((double)width - (double)adjw) / (double)width + 983 ((double)height - (double)adjh) / (double)height + //Large padding is bad 984 scaleMeasure; //Large rescale is bad 985 if (similarity < bestSimilarity) { 986 bestSimilarity = similarity; 987 bestScaleFactor = scaleFactor; 988 bestImage = im; 989 bestWidth = adjw; 990 bestHeight = adjh; 991 } 992 if (similarity == 0) break; 993 } 994 } 995 if (bestImage == null) { 996 //No images were found, possibly all are broken 997 return null; 998 } 999 BufferedImage bimage = 1000 new BufferedImage(width, height, BufferedImage.TYPE_INT_ARGB); 1001 Graphics2D g = bimage.createGraphics(); 1002 g.setRenderingHint(RenderingHints.KEY_INTERPOLATION, 1003 RenderingHints.VALUE_INTERPOLATION_BILINEAR); 1004 try { 1005 int x = (width - bestWidth) / 2; 1006 int y = (height - bestHeight) / 2; 1007 g.drawImage(bestImage, x, y, bestWidth, bestHeight, null); 1008 } finally { 1009 g.dispose(); 1010 } 1011 return bimage; 1012 } 1013 1014 public static DataBufferInt getScaledIconData(java.util.List<Image> imageList, int width, int height) { 1015 BufferedImage bimage = getScaledIconImage(imageList, width, height); 1016 if (bimage == null) { 1017 return null; 1018 } 1019 Raster raster = bimage.getRaster(); 1020 DataBuffer buffer = raster.getDataBuffer(); 1021 return (DataBufferInt)buffer; 1022 } 1023 1024 @Override 1025 protected EventQueue getSystemEventQueueImpl() { 1026 return getSystemEventQueueImplPP(); 1027 } 1028 1029 // Package private implementation 1030 static EventQueue getSystemEventQueueImplPP() { 1031 return getSystemEventQueueImplPP(AppContext.getAppContext()); 1032 } 1033 1034 public static EventQueue getSystemEventQueueImplPP(AppContext appContext) { 1035 EventQueue theEventQueue = 1036 (EventQueue)appContext.get(AppContext.EVENT_QUEUE_KEY); 1037 return theEventQueue; 1038 } 1039 1040 /** 1041 * Give native peers the ability to query the native container 1042 * given a native component (eg the direct parent may be lightweight). 1043 */ 1044 public static Container getNativeContainer(Component c) { 1045 return Toolkit.getNativeContainer(c); 1046 } 1047 1048 /** 1049 * Gives native peers the ability to query the closest HW component. 1050 * If the given component is heavyweight, then it returns this. Otherwise, 1051 * it goes one level up in the hierarchy and tests next component. 1052 */ 1053 public static Component getHeavyweightComponent(Component c) { 1054 while (c != null && AWTAccessor.getComponentAccessor().isLightweight(c)) { 1055 c = AWTAccessor.getComponentAccessor().getParent(c); 1056 } 1057 return c; 1058 } 1059 1060 /** 1061 * Returns key modifiers used by Swing to set up a focus accelerator key stroke. 1062 */ 1063 public int getFocusAcceleratorKeyMask() { 1064 return InputEvent.ALT_MASK; 1065 } 1066 1067 /** 1068 * Tests whether specified key modifiers mask can be used to enter a printable 1069 * character. This is a default implementation of this method, which reflects 1070 * the way things work on Windows: here, pressing ctrl + alt allows user to enter 1071 * characters from the extended character set (like euro sign or math symbols) 1072 */ 1073 public boolean isPrintableCharacterModifiersMask(int mods) { 1074 return ((mods & InputEvent.ALT_MASK) == (mods & InputEvent.CTRL_MASK)); 1075 } 1076 1077 /** 1078 * Returns whether popup is allowed to be shown above the task bar. 1079 * This is a default implementation of this method, which checks 1080 * corresponding security permission. 1081 */ 1082 public boolean canPopupOverlapTaskBar() { 1083 boolean result = true; 1084 try { 1085 SecurityManager sm = System.getSecurityManager(); 1086 if (sm != null) { 1087 sm.checkPermission(AWTPermissions.SET_WINDOW_ALWAYS_ON_TOP_PERMISSION); 1088 } 1089 } catch (SecurityException se) { 1090 // There is no permission to show popups over the task bar 1091 result = false; 1092 } 1093 return result; 1094 } 1095 1096 /** 1097 * Returns a new input method window, with behavior as specified in 1098 * {@link java.awt.im.spi.InputMethodContext#createInputMethodWindow}. 1099 * If the inputContext is not null, the window should return it from its 1100 * getInputContext() method. The window needs to implement 1101 * sun.awt.im.InputMethodWindow. 1102 * <p> 1103 * SunToolkit subclasses can override this method to return better input 1104 * method windows. 1105 */ 1106 @Override 1107 public Window createInputMethodWindow(String title, InputContext context) { 1108 return new sun.awt.im.SimpleInputMethodWindow(title, context); 1109 } 1110 1111 /** 1112 * Returns whether enableInputMethods should be set to true for peered 1113 * TextComponent instances on this platform. False by default. 1114 */ 1115 @Override 1116 public boolean enableInputMethodsForTextComponent() { 1117 return false; 1118 } 1119 1120 private static Locale startupLocale = null; 1121 1122 /** 1123 * Returns the locale in which the runtime was started. 1124 */ 1125 public static Locale getStartupLocale() { 1126 if (startupLocale == null) { 1127 String language, region, country, variant; 1128 language = AccessController.doPrivileged( 1129 new GetPropertyAction("user.language", "en")); 1130 // for compatibility, check for old user.region property 1131 region = AccessController.doPrivileged( 1132 new GetPropertyAction("user.region")); 1133 if (region != null) { 1134 // region can be of form country, country_variant, or _variant 1135 int i = region.indexOf('_'); 1136 if (i >= 0) { 1137 country = region.substring(0, i); 1138 variant = region.substring(i + 1); 1139 } else { 1140 country = region; 1141 variant = ""; 1142 } 1143 } else { 1144 country = AccessController.doPrivileged( 1145 new GetPropertyAction("user.country", "")); 1146 variant = AccessController.doPrivileged( 1147 new GetPropertyAction("user.variant", "")); 1148 } 1149 startupLocale = new Locale(language, country, variant); 1150 } 1151 return startupLocale; 1152 } 1153 1154 /** 1155 * Returns the default keyboard locale of the underlying operating system 1156 */ 1157 @Override 1158 public Locale getDefaultKeyboardLocale() { 1159 return getStartupLocale(); 1160 } 1161 1162 private static DefaultMouseInfoPeer mPeer = null; 1163 1164 @Override 1165 public synchronized MouseInfoPeer getMouseInfoPeer() { 1166 if (mPeer == null) { 1167 mPeer = new DefaultMouseInfoPeer(); 1168 } 1169 return mPeer; 1170 } 1171 1172 1173 /** 1174 * Returns whether default toolkit needs the support of the xembed 1175 * from embedding host(if any). 1176 * @return <code>true</code>, if XEmbed is needed, <code>false</code> otherwise 1177 */ 1178 public static boolean needsXEmbed() { 1179 String noxembed = AccessController. 1180 doPrivileged(new GetPropertyAction("sun.awt.noxembed", "false")); 1181 if ("true".equals(noxembed)) { 1182 return false; 1183 } 1184 1185 Toolkit tk = Toolkit.getDefaultToolkit(); 1186 if (tk instanceof SunToolkit) { 1187 // SunToolkit descendants should override this method to specify 1188 // concrete behavior 1189 return ((SunToolkit)tk).needsXEmbedImpl(); 1190 } else { 1191 // Non-SunToolkit doubtly might support XEmbed 1192 return false; 1193 } 1194 } 1195 1196 /** 1197 * Returns whether this toolkit needs the support of the xembed 1198 * from embedding host(if any). 1199 * @return <code>true</code>, if XEmbed is needed, <code>false</code> otherwise 1200 */ 1201 protected boolean needsXEmbedImpl() { 1202 return false; 1203 } 1204 1205 private static Dialog.ModalExclusionType DEFAULT_MODAL_EXCLUSION_TYPE = null; 1206 1207 /** 1208 * Returns whether the XEmbed server feature is requested by 1209 * developer. If true, Toolkit should return an 1210 * XEmbed-server-enabled CanvasPeer instead of the ordinary CanvasPeer. 1211 */ 1212 protected final boolean isXEmbedServerRequested() { 1213 return AccessController.doPrivileged(new GetBooleanAction("sun.awt.xembedserver")); 1214 } 1215 1216 /** 1217 * Returns whether the modal exclusion API is supported by the current toolkit. 1218 * When it isn't supported, calling <code>setModalExcluded</code> has no 1219 * effect, and <code>isModalExcluded</code> returns false for all windows. 1220 * 1221 * @return true if modal exclusion is supported by the toolkit, false otherwise 1222 * 1223 * @see sun.awt.SunToolkit#setModalExcluded(java.awt.Window) 1224 * @see sun.awt.SunToolkit#isModalExcluded(java.awt.Window) 1225 * 1226 * @since 1.5 1227 */ 1228 public static boolean isModalExcludedSupported() 1229 { 1230 Toolkit tk = Toolkit.getDefaultToolkit(); 1231 return tk.isModalExclusionTypeSupported(DEFAULT_MODAL_EXCLUSION_TYPE); 1232 } 1233 /* 1234 * Default implementation for isModalExcludedSupportedImpl(), returns false. 1235 * 1236 * @see sun.awt.windows.WToolkit#isModalExcludeSupportedImpl 1237 * @see sun.awt.X11.XToolkit#isModalExcludeSupportedImpl 1238 * 1239 * @since 1.5 1240 */ 1241 protected boolean isModalExcludedSupportedImpl() 1242 { 1243 return false; 1244 } 1245 1246 /* 1247 * Sets this window to be excluded from being modally blocked. When the 1248 * toolkit supports modal exclusion and this method is called, input 1249 * events, focus transfer and z-order will continue to work for the 1250 * window, it's owned windows and child components, even in the 1251 * presence of a modal dialog. 1252 * For details on which <code>Window</code>s are normally blocked 1253 * by modal dialog, see {@link java.awt.Dialog}. 1254 * Invoking this method when the modal exclusion API is not supported by 1255 * the current toolkit has no effect. 1256 * @param window Window to be marked as not modally blocked 1257 * @see java.awt.Dialog 1258 * @see java.awt.Dialog#setModal(boolean) 1259 * @see sun.awt.SunToolkit#isModalExcludedSupported 1260 * @see sun.awt.SunToolkit#isModalExcluded(java.awt.Window) 1261 */ 1262 public static void setModalExcluded(Window window) 1263 { 1264 if (DEFAULT_MODAL_EXCLUSION_TYPE == null) { 1265 DEFAULT_MODAL_EXCLUSION_TYPE = Dialog.ModalExclusionType.APPLICATION_EXCLUDE; 1266 } 1267 window.setModalExclusionType(DEFAULT_MODAL_EXCLUSION_TYPE); 1268 } 1269 1270 /* 1271 * Returns whether the specified window is blocked by modal dialogs. 1272 * If the modal exclusion API isn't supported by the current toolkit, 1273 * it returns false for all windows. 1274 * 1275 * @param window Window to test for modal exclusion 1276 * 1277 * @return true if the window is modal excluded, false otherwise. If 1278 * the modal exclusion isn't supported by the current Toolkit, false 1279 * is returned 1280 * 1281 * @see sun.awt.SunToolkit#isModalExcludedSupported 1282 * @see sun.awt.SunToolkit#setModalExcluded(java.awt.Window) 1283 * 1284 * @since 1.5 1285 */ 1286 public static boolean isModalExcluded(Window window) 1287 { 1288 if (DEFAULT_MODAL_EXCLUSION_TYPE == null) { 1289 DEFAULT_MODAL_EXCLUSION_TYPE = Dialog.ModalExclusionType.APPLICATION_EXCLUDE; 1290 } 1291 return window.getModalExclusionType().compareTo(DEFAULT_MODAL_EXCLUSION_TYPE) >= 0; 1292 } 1293 1294 /** 1295 * Overridden in XToolkit and WToolkit 1296 */ 1297 @Override 1298 public boolean isModalityTypeSupported(Dialog.ModalityType modalityType) { 1299 return (modalityType == Dialog.ModalityType.MODELESS) || 1300 (modalityType == Dialog.ModalityType.APPLICATION_MODAL); 1301 } 1302 1303 /** 1304 * Overridden in XToolkit and WToolkit 1305 */ 1306 @Override 1307 public boolean isModalExclusionTypeSupported(Dialog.ModalExclusionType exclusionType) { 1308 return (exclusionType == Dialog.ModalExclusionType.NO_EXCLUDE); 1309 } 1310 1311 /////////////////////////////////////////////////////////////////////////// 1312 // 1313 // The following is used by the Java Plug-in to coordinate dialog modality 1314 // between containing applications (browsers, ActiveX containers etc) and 1315 // the AWT. 1316 // 1317 /////////////////////////////////////////////////////////////////////////// 1318 1319 private ModalityListenerList modalityListeners = new ModalityListenerList(); 1320 1321 public void addModalityListener(ModalityListener listener) { 1322 modalityListeners.add(listener); 1323 } 1324 1325 public void removeModalityListener(ModalityListener listener) { 1326 modalityListeners.remove(listener); 1327 } 1328 1329 public void notifyModalityPushed(Dialog dialog) { 1330 notifyModalityChange(ModalityEvent.MODALITY_PUSHED, dialog); 1331 } 1332 1333 public void notifyModalityPopped(Dialog dialog) { 1334 notifyModalityChange(ModalityEvent.MODALITY_POPPED, dialog); 1335 } 1336 1337 final void notifyModalityChange(int id, Dialog source) { 1338 ModalityEvent ev = new ModalityEvent(source, modalityListeners, id); 1339 ev.dispatch(); 1340 } 1341 1342 static class ModalityListenerList implements ModalityListener { 1343 1344 Vector<ModalityListener> listeners = new Vector<ModalityListener>(); 1345 1346 void add(ModalityListener listener) { 1347 listeners.addElement(listener); 1348 } 1349 1350 void remove(ModalityListener listener) { 1351 listeners.removeElement(listener); 1352 } 1353 1354 @Override 1355 public void modalityPushed(ModalityEvent ev) { 1356 Iterator<ModalityListener> it = listeners.iterator(); 1357 while (it.hasNext()) { 1358 it.next().modalityPushed(ev); 1359 } 1360 } 1361 1362 @Override 1363 public void modalityPopped(ModalityEvent ev) { 1364 Iterator<ModalityListener> it = listeners.iterator(); 1365 while (it.hasNext()) { 1366 it.next().modalityPopped(ev); 1367 } 1368 } 1369 } // end of class ModalityListenerList 1370 1371 /////////////////////////////////////////////////////////////////////////// 1372 // End Plug-in code 1373 /////////////////////////////////////////////////////////////////////////// 1374 1375 public static boolean isLightweightOrUnknown(Component comp) { 1376 if (comp.isLightweight() 1377 || !(getDefaultToolkit() instanceof SunToolkit)) 1378 { 1379 return true; 1380 } 1381 return !(comp instanceof Button 1382 || comp instanceof Canvas 1383 || comp instanceof Checkbox 1384 || comp instanceof Choice 1385 || comp instanceof Label 1386 || comp instanceof java.awt.List 1387 || comp instanceof Panel 1388 || comp instanceof Scrollbar 1389 || comp instanceof ScrollPane 1390 || comp instanceof TextArea 1391 || comp instanceof TextField 1392 || comp instanceof Window); 1393 } 1394 1395 @SuppressWarnings("serial") 1396 public static class OperationTimedOut extends RuntimeException { 1397 public OperationTimedOut(String msg) { 1398 super(msg); 1399 } 1400 public OperationTimedOut() { 1401 } 1402 } 1403 1404 @SuppressWarnings("serial") 1405 public static class InfiniteLoop extends RuntimeException { 1406 } 1407 1408 @SuppressWarnings("serial") 1409 public static class IllegalThreadException extends RuntimeException { 1410 public IllegalThreadException(String msg) { 1411 super(msg); 1412 } 1413 public IllegalThreadException() { 1414 } 1415 } 1416 1417 public static final int DEFAULT_WAIT_TIME = 10000; 1418 private static final int MAX_ITERS = 20; 1419 private static final int MIN_ITERS = 0; 1420 private static final int MINIMAL_EDELAY = 0; 1421 1422 /** 1423 * Parameterless version of realsync which uses default timout (see DEFAUL_WAIT_TIME). 1424 */ 1425 public void realSync() throws OperationTimedOut, InfiniteLoop { 1426 realSync(DEFAULT_WAIT_TIME); 1427 } 1428 1429 /** 1430 * Forces toolkit to synchronize with the native windowing 1431 * sub-system, flushing all pending work and waiting for all the 1432 * events to be processed. This method guarantees that after 1433 * return no additional Java events will be generated, unless 1434 * cause by user. Obviously, the method cannot be used on the 1435 * event dispatch thread (EDT). In case it nevertheless gets 1436 * invoked on this thread, the method throws the 1437 * IllegalThreadException runtime exception. 1438 * 1439 * <p> This method allows to write tests without explicit timeouts 1440 * or wait for some event. Example: 1441 * <code> 1442 * Frame f = ...; 1443 * f.setVisible(true); 1444 * ((SunToolkit)Toolkit.getDefaultToolkit()).realSync(); 1445 * </code> 1446 * 1447 * <p> After realSync, <code>f</code> will be completely visible 1448 * on the screen, its getLocationOnScreen will be returning the 1449 * right result and it will be the focus owner. 1450 * 1451 * <p> Another example: 1452 * <code> 1453 * b.requestFocus(); 1454 * ((SunToolkit)Toolkit.getDefaultToolkit()).realSync(); 1455 * </code> 1456 * 1457 * <p> After realSync, <code>b</code> will be focus owner. 1458 * 1459 * <p> Notice that realSync isn't guaranteed to work if recurring 1460 * actions occur, such as if during processing of some event 1461 * another request which may generate some events occurs. By 1462 * default, sync tries to perform as much as {@value #MAX_ITERS} 1463 * cycles of event processing, allowing for roughly {@value 1464 * #MAX_ITERS} additional requests. 1465 * 1466 * <p> For example, requestFocus() generates native request, which 1467 * generates one or two Java focus events, which then generate a 1468 * serie of paint events, a serie of Java focus events, which then 1469 * generate a serie of paint events which then are processed - 1470 * three cycles, minimum. 1471 * 1472 * @param timeout the maximum time to wait in milliseconds, negative means "forever". 1473 */ 1474 public void realSync(final long timeout) throws OperationTimedOut, InfiniteLoop 1475 { 1476 if (EventQueue.isDispatchThread()) { 1477 throw new IllegalThreadException("The SunToolkit.realSync() method cannot be used on the event dispatch thread (EDT)."); 1478 } 1479 int bigLoop = 0; 1480 do { 1481 // Let's do sync first 1482 sync(); 1483 1484 // During the wait process, when we were processing incoming 1485 // events, we could have made some new request, which can 1486 // generate new events. Example: MapNotify/XSetInputFocus. 1487 // Therefore, we dispatch them as long as there is something 1488 // to dispatch. 1489 int iters = 0; 1490 while (iters < MIN_ITERS) { 1491 syncNativeQueue(timeout); 1492 iters++; 1493 } 1494 while (syncNativeQueue(timeout) && iters < MAX_ITERS) { 1495 iters++; 1496 } 1497 if (iters >= MAX_ITERS) { 1498 throw new InfiniteLoop(); 1499 } 1500 1501 // native requests were dispatched by X/Window Manager or Windows 1502 // Moreover, we processed them all on Toolkit thread 1503 // Now wait while EDT processes them. 1504 // 1505 // During processing of some events (focus, for example), 1506 // some other events could have been generated. So, after 1507 // waitForIdle, we may end up with full EventQueue 1508 iters = 0; 1509 while (iters < MIN_ITERS) { 1510 waitForIdle(timeout); 1511 iters++; 1512 } 1513 while (waitForIdle(timeout) && iters < MAX_ITERS) { 1514 iters++; 1515 } 1516 if (iters >= MAX_ITERS) { 1517 throw new InfiniteLoop(); 1518 } 1519 1520 bigLoop++; 1521 // Again, for Java events, it was simple to check for new Java 1522 // events by checking event queue, but what if Java events 1523 // resulted in native requests? Therefor, check native events again. 1524 } while ((syncNativeQueue(timeout) || waitForIdle(timeout)) && bigLoop < MAX_ITERS); 1525 } 1526 1527 /** 1528 * Platform toolkits need to implement this method to perform the 1529 * sync of the native queue. The method should wait until native 1530 * requests are processed, all native events are processed and 1531 * corresponding Java events are generated. Should return 1532 * <code>true</code> if some events were processed, 1533 * <code>false</code> otherwise. 1534 */ 1535 protected abstract boolean syncNativeQueue(final long timeout); 1536 1537 private boolean eventDispatched = false; 1538 private boolean queueEmpty = false; 1539 private final Object waitLock = "Wait Lock"; 1540 1541 private boolean isEQEmpty() { 1542 EventQueue queue = getSystemEventQueueImpl(); 1543 return AWTAccessor.getEventQueueAccessor().noEvents(queue); 1544 } 1545 1546 /** 1547 * Waits for the Java event queue to empty. Ensures that all 1548 * events are processed (including paint events), and that if 1549 * recursive events were generated, they are also processed. 1550 * Should return <code>true</code> if more processing is 1551 * necessary, <code>false</code> otherwise. 1552 */ 1553 @SuppressWarnings("serial") 1554 protected final boolean waitForIdle(final long timeout) { 1555 flushPendingEvents(); 1556 boolean queueWasEmpty = isEQEmpty(); 1557 queueEmpty = false; 1558 eventDispatched = false; 1559 synchronized(waitLock) { 1560 postEvent(AppContext.getAppContext(), 1561 new PeerEvent(getSystemEventQueueImpl(), null, PeerEvent.LOW_PRIORITY_EVENT) { 1562 @Override 1563 public void dispatch() { 1564 // Here we block EDT. It could have some 1565 // events, it should have dispatched them by 1566 // now. So native requests could have been 1567 // generated. First, dispatch them. Then, 1568 // flush Java events again. 1569 int iters = 0; 1570 while (iters < MIN_ITERS) { 1571 syncNativeQueue(timeout); 1572 iters++; 1573 } 1574 while (syncNativeQueue(timeout) && iters < MAX_ITERS) { 1575 iters++; 1576 } 1577 flushPendingEvents(); 1578 1579 synchronized(waitLock) { 1580 queueEmpty = isEQEmpty(); 1581 eventDispatched = true; 1582 waitLock.notifyAll(); 1583 } 1584 } 1585 }); 1586 try { 1587 while (!eventDispatched) { 1588 waitLock.wait(); 1589 } 1590 } catch (InterruptedException ie) { 1591 return false; 1592 } 1593 } 1594 1595 try { 1596 Thread.sleep(MINIMAL_EDELAY); 1597 } catch (InterruptedException ie) { 1598 throw new RuntimeException("Interrupted"); 1599 } 1600 1601 flushPendingEvents(); 1602 1603 // Lock to force write-cache flush for queueEmpty. 1604 synchronized (waitLock) { 1605 return !(queueEmpty && isEQEmpty() && queueWasEmpty); 1606 } 1607 } 1608 1609 /** 1610 * Grabs the mouse input for the given window. The window must be 1611 * visible. The window or its children do not receive any 1612 * additional mouse events besides those targeted to them. All 1613 * other events will be dispatched as before - to the respective 1614 * targets. This Window will receive UngrabEvent when automatic 1615 * ungrab is about to happen. The event can be listened to by 1616 * installing AWTEventListener with WINDOW_EVENT_MASK. See 1617 * UngrabEvent class for the list of conditions when ungrab is 1618 * about to happen. 1619 * @see UngrabEvent 1620 */ 1621 public abstract void grab(Window w); 1622 1623 /** 1624 * Forces ungrab. No event will be sent. 1625 */ 1626 public abstract void ungrab(Window w); 1627 1628 1629 /** 1630 * Locates the splash screen library in a platform dependent way and closes 1631 * the splash screen. Should be invoked on first top-level frame display. 1632 * @see java.awt.SplashScreen 1633 * @since 1.6 1634 */ 1635 public static native void closeSplashScreen(); 1636 1637 /* The following methods and variables are to support retrieving 1638 * desktop text anti-aliasing settings 1639 */ 1640 1641 /* Need an instance method because setDesktopProperty(..) is protected. */ 1642 private void fireDesktopFontPropertyChanges() { 1643 setDesktopProperty(SunToolkit.DESKTOPFONTHINTS, 1644 SunToolkit.getDesktopFontHints()); 1645 } 1646 1647 private static boolean checkedSystemAAFontSettings; 1648 private static boolean useSystemAAFontSettings; 1649 private static boolean lastExtraCondition = true; 1650 private static RenderingHints desktopFontHints; 1651 1652 /* Since Swing is the reason for this "extra condition" logic its 1653 * worth documenting it in some detail. 1654 * First, a goal is for Swing and applications to both retrieve and 1655 * use the same desktop property value so that there is complete 1656 * consistency between the settings used by JDK's Swing implementation 1657 * and 3rd party custom Swing components, custom L&Fs and any general 1658 * text rendering that wants to be consistent with these. 1659 * But by default on Solaris & Linux Swing will not use AA text over 1660 * remote X11 display (unless Xrender can be used which is TBD and may not 1661 * always be available anyway) as that is a noticeable performance hit. 1662 * So there needs to be a way to express that extra condition so that 1663 * it is seen by all clients of the desktop property API. 1664 * If this were the only condition it could be handled here as it would 1665 * be the same for any L&F and could reasonably be considered to be 1666 * a static behaviour of those systems. 1667 * But GTK currently has an additional test based on locale which is 1668 * not applied by Metal. So mixing GTK in a few locales with Metal 1669 * would mean the last one wins. 1670 * This could be stored per-app context which would work 1671 * for different applets, but wouldn't help for a single application 1672 * using GTK and some other L&F concurrently. 1673 * But it is expected this will be addressed within GTK and the font 1674 * system so is a temporary and somewhat unlikely harmless corner case. 1675 */ 1676 public static void setAAFontSettingsCondition(boolean extraCondition) { 1677 if (extraCondition != lastExtraCondition) { 1678 lastExtraCondition = extraCondition; 1679 if (checkedSystemAAFontSettings) { 1680 /* Someone already asked for this info, under a different 1681 * condition. 1682 * We'll force re-evaluation instead of replicating the 1683 * logic, then notify any listeners of any change. 1684 */ 1685 checkedSystemAAFontSettings = false; 1686 Toolkit tk = Toolkit.getDefaultToolkit(); 1687 if (tk instanceof SunToolkit) { 1688 ((SunToolkit)tk).fireDesktopFontPropertyChanges(); 1689 } 1690 } 1691 } 1692 } 1693 1694 /* "false", "off", ""default" aren't explicitly tested, they 1695 * just fall through to produce a null return which all are equated to 1696 * "false". 1697 */ 1698 private static RenderingHints getDesktopAAHintsByName(String hintname) { 1699 Object aaHint = null; 1700 hintname = hintname.toLowerCase(Locale.ENGLISH); 1701 if (hintname.equals("on")) { 1702 aaHint = VALUE_TEXT_ANTIALIAS_ON; 1703 } else if (hintname.equals("gasp")) { 1704 aaHint = VALUE_TEXT_ANTIALIAS_GASP; 1705 } else if (hintname.equals("lcd") || hintname.equals("lcd_hrgb")) { 1706 aaHint = VALUE_TEXT_ANTIALIAS_LCD_HRGB; 1707 } else if (hintname.equals("lcd_hbgr")) { 1708 aaHint = VALUE_TEXT_ANTIALIAS_LCD_HBGR; 1709 } else if (hintname.equals("lcd_vrgb")) { 1710 aaHint = VALUE_TEXT_ANTIALIAS_LCD_VRGB; 1711 } else if (hintname.equals("lcd_vbgr")) { 1712 aaHint = VALUE_TEXT_ANTIALIAS_LCD_VBGR; 1713 } 1714 if (aaHint != null) { 1715 RenderingHints map = new RenderingHints(null); 1716 map.put(KEY_TEXT_ANTIALIASING, aaHint); 1717 return map; 1718 } else { 1719 return null; 1720 } 1721 } 1722 1723 /* This method determines whether to use the system font settings, 1724 * or ignore them if a L&F has specified they should be ignored, or 1725 * to override both of these with a system property specified value. 1726 * If the toolkit isn't a SunToolkit, (eg may be headless) then that 1727 * system property isn't applied as desktop properties are considered 1728 * to be inapplicable in that case. In that headless case although 1729 * this method will return "true" the toolkit will return a null map. 1730 */ 1731 private static boolean useSystemAAFontSettings() { 1732 if (!checkedSystemAAFontSettings) { 1733 useSystemAAFontSettings = true; /* initially set this true */ 1734 String systemAAFonts = null; 1735 Toolkit tk = Toolkit.getDefaultToolkit(); 1736 if (tk instanceof SunToolkit) { 1737 systemAAFonts = 1738 AccessController.doPrivileged( 1739 new GetPropertyAction("awt.useSystemAAFontSettings")); 1740 } 1741 if (systemAAFonts != null) { 1742 useSystemAAFontSettings = 1743 Boolean.valueOf(systemAAFonts).booleanValue(); 1744 /* If it is anything other than "true", then it may be 1745 * a hint name , or it may be "off, "default", etc. 1746 */ 1747 if (!useSystemAAFontSettings) { 1748 desktopFontHints = getDesktopAAHintsByName(systemAAFonts); 1749 } 1750 } 1751 /* If its still true, apply the extra condition */ 1752 if (useSystemAAFontSettings) { 1753 useSystemAAFontSettings = lastExtraCondition; 1754 } 1755 checkedSystemAAFontSettings = true; 1756 } 1757 return useSystemAAFontSettings; 1758 } 1759 1760 /* A variable defined for the convenience of JDK code */ 1761 public static final String DESKTOPFONTHINTS = "awt.font.desktophints"; 1762 1763 /* Overridden by subclasses to return platform/desktop specific values */ 1764 protected RenderingHints getDesktopAAHints() { 1765 return null; 1766 } 1767 1768 /* Subclass desktop property loading methods call this which 1769 * in turn calls the appropriate subclass implementation of 1770 * getDesktopAAHints() when system settings are being used. 1771 * Its public rather than protected because subclasses may delegate 1772 * to a helper class. 1773 */ 1774 public static RenderingHints getDesktopFontHints() { 1775 if (useSystemAAFontSettings()) { 1776 Toolkit tk = Toolkit.getDefaultToolkit(); 1777 if (tk instanceof SunToolkit) { 1778 Object map = ((SunToolkit)tk).getDesktopAAHints(); 1779 return (RenderingHints)map; 1780 } else { /* Headless Toolkit */ 1781 return null; 1782 } 1783 } else if (desktopFontHints != null) { 1784 /* cloning not necessary as the return value is cloned later, but 1785 * its harmless. 1786 */ 1787 return (RenderingHints)(desktopFontHints.clone()); 1788 } else { 1789 return null; 1790 } 1791 } 1792 1793 1794 public abstract boolean isDesktopSupported(); 1795 1796 /* 1797 * consumeNextKeyTyped() method is not currently used, 1798 * however Swing could use it in the future. 1799 */ 1800 public static synchronized void consumeNextKeyTyped(KeyEvent keyEvent) { 1801 try { 1802 AWTAccessor.getDefaultKeyboardFocusManagerAccessor().consumeNextKeyTyped( 1803 (DefaultKeyboardFocusManager)KeyboardFocusManager. 1804 getCurrentKeyboardFocusManager(), 1805 keyEvent); 1806 } catch (ClassCastException cce) { 1807 cce.printStackTrace(); 1808 } 1809 } 1810 1811 protected static void dumpPeers(final PlatformLogger aLog) { 1812 AWTAutoShutdown.getInstance().dumpPeers(aLog); 1813 } 1814 1815 /** 1816 * Returns the <code>Window</code> ancestor of the component <code>comp</code>. 1817 * @return Window ancestor of the component or component by itself if it is Window; 1818 * null, if component is not a part of window hierarchy 1819 */ 1820 public static Window getContainingWindow(Component comp) { 1821 while (comp != null && !(comp instanceof Window)) { 1822 comp = comp.getParent(); 1823 } 1824 return (Window)comp; 1825 } 1826 1827 private static Boolean sunAwtDisableMixing = null; 1828 1829 /** 1830 * Returns the value of "sun.awt.disableMixing" property. Default 1831 * value is {@code false}. 1832 */ 1833 public static synchronized boolean getSunAwtDisableMixing() { 1834 if (sunAwtDisableMixing == null) { 1835 sunAwtDisableMixing = AccessController.doPrivileged( 1836 new GetBooleanAction("sun.awt.disableMixing")); 1837 } 1838 return sunAwtDisableMixing.booleanValue(); 1839 } 1840 1841 /** 1842 * Returns true if the native GTK libraries are available. The 1843 * default implementation returns false, but UNIXToolkit overrides this 1844 * method to provide a more specific answer. 1845 */ 1846 public boolean isNativeGTKAvailable() { 1847 return false; 1848 } 1849 1850 private static final Object DEACTIVATION_TIMES_MAP_KEY = new Object(); 1851 1852 public synchronized void setWindowDeactivationTime(Window w, long time) { 1853 AppContext ctx = getAppContext(w); 1854 if (ctx == null) { 1855 return; 1856 } 1857 @SuppressWarnings("unchecked") 1858 WeakHashMap<Window, Long> map = (WeakHashMap<Window, Long>)ctx.get(DEACTIVATION_TIMES_MAP_KEY); 1859 if (map == null) { 1860 map = new WeakHashMap<Window, Long>(); 1861 ctx.put(DEACTIVATION_TIMES_MAP_KEY, map); 1862 } 1863 map.put(w, time); 1864 } 1865 1866 public synchronized long getWindowDeactivationTime(Window w) { 1867 AppContext ctx = getAppContext(w); 1868 if (ctx == null) { 1869 return -1; 1870 } 1871 @SuppressWarnings("unchecked") 1872 WeakHashMap<Window, Long> map = (WeakHashMap<Window, Long>)ctx.get(DEACTIVATION_TIMES_MAP_KEY); 1873 if (map == null) { 1874 return -1; 1875 } 1876 Long time = map.get(w); 1877 return time == null ? -1 : time; 1878 } 1879 1880 // Cosntant alpha 1881 public boolean isWindowOpacitySupported() { 1882 return false; 1883 } 1884 1885 // Shaping 1886 public boolean isWindowShapingSupported() { 1887 return false; 1888 } 1889 1890 // Per-pixel alpha 1891 public boolean isWindowTranslucencySupported() { 1892 return false; 1893 } 1894 1895 public boolean isTranslucencyCapable(GraphicsConfiguration gc) { 1896 return false; 1897 } 1898 1899 /** 1900 * Returns true if swing backbuffer should be translucent. 1901 */ 1902 public boolean isSwingBackbufferTranslucencySupported() { 1903 return false; 1904 } 1905 1906 /** 1907 * Returns whether or not a containing top level window for the passed 1908 * component is 1909 * {@link GraphicsDevice.WindowTranslucency#PERPIXEL_TRANSLUCENT PERPIXEL_TRANSLUCENT}. 1910 * 1911 * @param c a Component which toplevel's to check 1912 * @return {@code true} if the passed component is not null and has a 1913 * containing toplevel window which is opaque (so per-pixel translucency 1914 * is not enabled), {@code false} otherwise 1915 * @see GraphicsDevice.WindowTranslucency#PERPIXEL_TRANSLUCENT 1916 */ 1917 public static boolean isContainingTopLevelOpaque(Component c) { 1918 Window w = getContainingWindow(c); 1919 return w != null && w.isOpaque(); 1920 } 1921 1922 /** 1923 * Returns whether or not a containing top level window for the passed 1924 * component is 1925 * {@link GraphicsDevice.WindowTranslucency#TRANSLUCENT TRANSLUCENT}. 1926 * 1927 * @param c a Component which toplevel's to check 1928 * @return {@code true} if the passed component is not null and has a 1929 * containing toplevel window which has opacity less than 1930 * 1.0f (which means that it is translucent), {@code false} otherwise 1931 * @see GraphicsDevice.WindowTranslucency#TRANSLUCENT 1932 */ 1933 public static boolean isContainingTopLevelTranslucent(Component c) { 1934 Window w = getContainingWindow(c); 1935 return w != null && w.getOpacity() < 1.0f; 1936 } 1937 1938 /** 1939 * Returns whether the native system requires using the peer.updateWindow() 1940 * method to update the contents of a non-opaque window, or if usual 1941 * painting procedures are sufficient. The default return value covers 1942 * the X11 systems. On MS Windows this method is overriden in WToolkit 1943 * to return true. 1944 */ 1945 public boolean needUpdateWindow() { 1946 return false; 1947 } 1948 1949 /** 1950 * Descendants of the SunToolkit should override and put their own logic here. 1951 */ 1952 public int getNumberOfButtons(){ 1953 return 3; 1954 } 1955 1956 /** 1957 * Checks that the given object implements/extends the given 1958 * interface/class. 1959 * 1960 * Note that using the instanceof operator causes a class to be loaded. 1961 * Using this method doesn't load a class and it can be used instead of 1962 * the instanceof operator for performance reasons. 1963 * 1964 * @param obj Object to be checked 1965 * @param type The name of the interface/class. Must be 1966 * fully-qualified interface/class name. 1967 * @return true, if this object implements/extends the given 1968 * interface/class, false, otherwise, or if obj or type is null 1969 */ 1970 public static boolean isInstanceOf(Object obj, String type) { 1971 if (obj == null) return false; 1972 if (type == null) return false; 1973 1974 return isInstanceOf(obj.getClass(), type); 1975 } 1976 1977 private static boolean isInstanceOf(Class<?> cls, String type) { 1978 if (cls == null) return false; 1979 1980 if (cls.getName().equals(type)) { 1981 return true; 1982 } 1983 1984 for (Class<?> c : cls.getInterfaces()) { 1985 if (c.getName().equals(type)) { 1986 return true; 1987 } 1988 } 1989 return isInstanceOf(cls.getSuperclass(), type); 1990 } 1991 1992 protected static LightweightFrame getLightweightFrame(Component c) { 1993 for (; c != null; c = c.getParent()) { 1994 if (c instanceof LightweightFrame) { 1995 return (LightweightFrame)c; 1996 } 1997 if (c instanceof Window) { 1998 // Don't traverse owner windows 1999 return null; 2000 } 2001 } 2002 return null; 2003 } 2004 2005 /////////////////////////////////////////////////////////////////////////// 2006 // 2007 // The following methods help set and identify whether a particular 2008 // AWTEvent object was produced by the system or by user code. As of this 2009 // writing the only consumer is the Java Plug-In, although this information 2010 // could be useful to more clients and probably should be formalized in 2011 // the public API. 2012 // 2013 /////////////////////////////////////////////////////////////////////////// 2014 2015 public static void setSystemGenerated(AWTEvent e) { 2016 AWTAccessor.getAWTEventAccessor().setSystemGenerated(e); 2017 } 2018 2019 public static boolean isSystemGenerated(AWTEvent e) { 2020 return AWTAccessor.getAWTEventAccessor().isSystemGenerated(e); 2021 } 2022 2023 } // class SunToolkit 2024 2025 2026 /* 2027 * PostEventQueue is a Thread that runs in the same AppContext as the 2028 * Java EventQueue. It is a queue of AWTEvents to be posted to the 2029 * Java EventQueue. The toolkit Thread (AWT-Windows/AWT-Motif) posts 2030 * events to this queue, which then calls EventQueue.postEvent(). 2031 * 2032 * We do this because EventQueue.postEvent() may be overridden by client 2033 * code, and we mustn't ever call client code from the toolkit thread. 2034 */ 2035 class PostEventQueue { 2036 private EventQueueItem queueHead = null; 2037 private EventQueueItem queueTail = null; 2038 private final EventQueue eventQueue; 2039 2040 private Thread flushThread = null; 2041 2042 PostEventQueue(EventQueue eq) { 2043 eventQueue = eq; 2044 } 2045 2046 /* 2047 * Continually post pending AWTEvents to the Java EventQueue. The method 2048 * is synchronized to ensure the flush is completed before a new event 2049 * can be posted to this queue. 2050 * 2051 * 7177040: The method couldn't be wholly synchronized because of calls 2052 * of EventQueue.postEvent() that uses pushPopLock, otherwise it could 2053 * potentially lead to deadlock 2054 */ 2055 public void flush() { 2056 2057 Thread newThread = Thread.currentThread(); 2058 2059 try { 2060 EventQueueItem tempQueue; 2061 synchronized (this) { 2062 // Avoid method recursion 2063 if (newThread == flushThread) { 2064 return; 2065 } 2066 // Wait for other threads' flushing 2067 while (flushThread != null) { 2068 wait(); 2069 } 2070 // Skip everything if queue is empty 2071 if (queueHead == null) { 2072 return; 2073 } 2074 // Remember flushing thread 2075 flushThread = newThread; 2076 2077 tempQueue = queueHead; 2078 queueHead = queueTail = null; 2079 } 2080 try { 2081 while (tempQueue != null) { 2082 eventQueue.postEvent(tempQueue.event); 2083 tempQueue = tempQueue.next; 2084 } 2085 } 2086 finally { 2087 // Only the flushing thread can get here 2088 synchronized (this) { 2089 // Forget flushing thread, inform other pending threads 2090 flushThread = null; 2091 notifyAll(); 2092 } 2093 } 2094 } 2095 catch (InterruptedException e) { 2096 // Couldn't allow exception go up, so at least recover the flag 2097 newThread.interrupt(); 2098 } 2099 } 2100 2101 /* 2102 * Enqueue an AWTEvent to be posted to the Java EventQueue. 2103 */ 2104 void postEvent(AWTEvent event) { 2105 EventQueueItem item = new EventQueueItem(event); 2106 2107 synchronized (this) { 2108 if (queueHead == null) { 2109 queueHead = queueTail = item; 2110 } else { 2111 queueTail.next = item; 2112 queueTail = item; 2113 } 2114 } 2115 SunToolkit.wakeupEventQueue(eventQueue, event.getSource() == AWTAutoShutdown.getInstance()); 2116 } 2117 } // class PostEventQueue