Mercurial > projects > dwt-win
view dwt/widgets/Synchronizer.d @ 213:36f5cb12e1a2
Update to SWT 3.4M7
author | Frank Benoit <benoit@tionex.de> |
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date | Sat, 17 May 2008 17:34:28 +0200 |
parents | 3afcd4ddcf90 |
children | fd9c62a2998e |
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/******************************************************************************* * Copyright (c) 2000, 2007 IBM Corporation and others. * All rights reserved. This program and the accompanying materials * are made available under the terms of the Eclipse Public License v1.0 * which accompanies this distribution, and is available at * http://www.eclipse.org/legal/epl-v10.html * * Contributors: * IBM Corporation - initial API and implementation * Port to the D programming language: * Frank Benoit <benoit@tionex.de> *******************************************************************************/ module dwt.widgets.Synchronizer; import dwt.widgets.Display; import dwt.widgets.RunnableLock; import dwt.dwthelper.Runnable; import dwt.dwthelper.System; import dwt.internal.Compatibility; import dwt.DWT; import tango.core.Thread; import dwt.graphics.Device; import tango.core.Exception; /** * Instances of this class provide synchronization support * for displays. A default instance is created automatically * for each display, and this instance is sufficient for almost * all applications. * <p> * <b>IMPORTANT:</b> Typical application code <em>never</em> * needs to deal with this class. It is provided only to * allow applications which require non-standard * synchronization behavior to plug in the support they * require. <em>Subclasses which override the methods in * this class must ensure that the superclass methods are * invoked in their implementations</em> * </p> * * @see Display#setSynchronizer */ public class Synchronizer { Display display; int messageCount; RunnableLock [] messages; Object messageLock; Thread syncThread; static final int GROW_SIZE = 4; static final int MESSAGE_LIMIT = 64; //TEMPORARY CODE static final bool IS_CARBON = false;//"carbon".equals (DWT.getPlatform ()); /** * Constructs a new instance of this class. * * @param display the display to create the synchronizer on */ public this (Display display) { this.display = display; messageLock = new Object (); } void addLast (RunnableLock lock) { bool wake = false; synchronized (messageLock) { if (messages is null) messages = new RunnableLock [GROW_SIZE]; if (messageCount is messages.length) { RunnableLock[] newMessages = new RunnableLock [messageCount + GROW_SIZE]; System.arraycopy (messages, 0, newMessages, 0, messageCount); messages = newMessages; } messages [messageCount++] = lock; wake = messageCount is 1; } if (wake) display.wakeThread (); } /** * Causes the <code>run()</code> method of the runnable to * be invoked by the user-interface thread at the next * reasonable opportunity. The caller of this method continues * to run in parallel, and is not notified when the * runnable has completed. * * @param runnable code to run on the user-interface thread. * * @see #syncExec */ public void asyncExec (Runnable runnable) { if (runnable is null) { //TEMPORARY CODE if (!IS_CARBON) { display.wake (); return; } } addLast (new RunnableLock (runnable)); } int getMessageCount () { synchronized (messageLock) { return messageCount; } } void releaseSynchronizer () { display = null; messages = null; messageLock = null; syncThread = null; } RunnableLock removeFirst () { synchronized (messageLock) { if (messageCount is 0) return null; RunnableLock lock = messages [0]; System.arraycopy (messages, 1, messages, 0, --messageCount); messages [messageCount] = null; if (messageCount is 0) { if (messages.length > MESSAGE_LIMIT) messages = null; } return lock; } } bool runAsyncMessages () { return runAsyncMessages (false); } bool runAsyncMessages (bool all) { bool run = false; do { RunnableLock lock = removeFirst (); if (lock is null) return run; run = true; synchronized (lock) { syncThread = lock.thread; try { lock.run (); } catch (Exception t) { lock.throwable = t; DWT.error (DWT.ERROR_FAILED_EXEC, t); } finally { syncThread = null; lock.notifyAll (); } } } while (all); return run; } /** * Causes the <code>run()</code> method of the runnable to * be invoked by the user-interface thread at the next * reasonable opportunity. The thread which calls this method * is suspended until the runnable completes. * * @param runnable code to run on the user-interface thread. * * @exception DWTException <ul> * <li>ERROR_FAILED_EXEC - if an exception occurred when executing the runnable</li> * </ul> * * @see #asyncExec */ public void syncExec (Runnable runnable) { RunnableLock lock = null; synchronized (Device.classinfo) { if (display is null || display.isDisposed ()) DWT.error (DWT.ERROR_DEVICE_DISPOSED); if (!display.isValidThread ()) { if (runnable is null) { display.wake (); return; } lock = new RunnableLock (runnable); /* * Only remember the syncThread for syncExec. */ lock.thread = Thread.getThis(); addLast (lock); } } if (lock is null) { if (runnable !is null) runnable.run (); return; } synchronized (lock) { bool interrupted = false; while (!lock.done ()) { try { lock.wait (); } catch (SyncException e) { interrupted = true; } } if (interrupted) { Compatibility.interrupt(); } if (lock.throwable !is null) { DWT.error (DWT.ERROR_FAILED_EXEC, lock.throwable); } } } }