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/*******************************************************************************
 * Copyright (c) 2000, 2016 IBM Corporation and others.
 *
 * This program and the accompanying materials
 * are made available under the terms of the Eclipse Public License 2.0
 * which accompanies this distribution, and is available at
 * https://www.eclipse.org/legal/epl-2.0/
 *
 * SPDX-License-Identifier: EPL-2.0
 *
 * Contributors:
 *     IBM Corporation - initial API and implementation
 *     Sergey Prigogin (Google) - [464838] ModalContext.run method should call done() on the progress monitor passed to the constructor
 *******************************************************************************/
package org.eclipse.jface.operation;

import java.lang.reflect.InvocationTargetException;

import org.eclipse.core.runtime.Assert;
import org.eclipse.core.runtime.IProgressMonitor;
import org.eclipse.core.runtime.IStatus;
import org.eclipse.core.runtime.OperationCanceledException;
import org.eclipse.core.runtime.ProgressMonitorWrapper;
import org.eclipse.core.runtime.Status;
import org.eclipse.jface.util.Policy;
import org.eclipse.pde.api.tools.annotations.NoExtend;
import org.eclipse.pde.api.tools.annotations.NoInstantiate;
import org.eclipse.swt.widgets.Display;

/**
 * Utility class for supporting modal operations. The runnable passed to the
 * run method is executed in a separate thread, depending on the
 * value of the passed fork argument. If the runnable is executed in a separate
 * thread then the current thread either waits until the new thread ends or, if
 * the current thread is the UI thread, it polls the SWT event queue and
 * dispatches each event.
 * 

* This class is not intended to be subclassed. *

*/ @NoInstantiate @NoExtend public class ModalContext { /** * Indicates whether ModalContext is in debug mode; false by * default. */ private static boolean debug = false; /** * The number of nested modal runs, or 0 if not inside a modal run. This is * global state. */ private static int modalLevel = 0; /** * Indicates whether operations should be run in a separate thread. Defaults * to true. For internal debugging use, set to false to run operations in * the calling thread. */ private static boolean runInSeparateThread = true; /** * Thread which runs the modal context. */ private static class ModalContextThread extends Thread { /** * The operation to be run. */ private IRunnableWithProgress runnable; /** * The exception thrown by the operation starter. */ private Throwable throwable; /** * The progress monitor used for progress and cancellation. */ private IProgressMonitor progressMonitor; /** * The display used for event dispatching. */ private Display display; /** * Indicates whether to continue event queue dispatching. */ private volatile boolean continueEventDispatching = true; /** * The thread that forked this modal context thread. * * @since 3.1 */ private Thread callingThread; /** * Creates a new modal context. * * @param operation * the runnable to run * @param monitor * the progress monitor to use to display progress and * receive requests for cancellation * @param display * the display to be used to read and dispatch events */ private ModalContextThread(IRunnableWithProgress operation, IProgressMonitor monitor, Display display) { super("ModalContext"); //$NON-NLS-1$ Assert.isTrue(monitor != null && display != null); runnable = operation; progressMonitor = new AccumulatingProgressMonitor(monitor, display); this.display = display; this.callingThread = Thread.currentThread(); } @Override public void run() { try { if (runnable != null) { runnable.run(progressMonitor); } } catch (ThreadDeath e) { // Make sure to propagate ThreadDeath, or threads will never // fully terminate. throw e; } catch (InvocationTargetException | InterruptedException | RuntimeException | Error e) { throwable = e; } finally { progressMonitor.done(); // Notify the operation of change of thread of control. if (runnable instanceof IThreadListener) { Throwable exception = invokeThreadListener(((IThreadListener) runnable), callingThread); // Forward it if we don't already have one if (exception != null && throwable == null) throwable = exception; } // Make sure that all events in the asynchronous event queue // are dispatched. display.syncExec(() -> { // Do nothing. }); // Stop event dispatching. continueEventDispatching = false; // Force the event loop to return from sleep() so that // it stops event dispatching. display.asyncExec(null); } } /** * Processes events or waits until this modal context thread terminates. */ public void block() { if (display == Display.getCurrent()) { int exceptionCount = 0; while (continueEventDispatching) { // Run the event loop. Handle any uncaught exceptions caused // by UI events. try { if (!display.readAndDispatch()) { display.sleep(); } exceptionCount = 0; } // ThreadDeath is a normal error when the thread is dying. // We must propagate it in order for it to properly // terminate. catch (ThreadDeath e) { throw (e); } // For all other exceptions, log the problem. catch (Throwable t) { if (t instanceof VirtualMachineError) { throw (VirtualMachineError) t; } exceptionCount++; // We're counting exceptions in client code, such as asyncExecs, // so be generous about how many may fail consecutively before we // give up. if (exceptionCount > 50 || display.isDisposed()) { if (t instanceof RuntimeException) { throw (RuntimeException) t; } else if (t instanceof Error) { throw (Error) t; } else { throw new RuntimeException(t); } } Policy.getLog().log(new Status(IStatus.ERROR, Policy.JFACE, "Unhandled event loop exception during blocked modal context.", t)); //$NON-NLS-1$ } } } else { try { join(); } catch (InterruptedException e) { throwable = e; } } } } /** * Returns whether the first progress monitor is the same as, or a wrapper * around, the second progress monitor. * * @param monitor1 * the first progress monitor * @param monitor2 * the second progress monitor * @return true if the first is the same as, or a wrapper * around, the second * @see ProgressMonitorWrapper */ public static boolean canProgressMonitorBeUsed(IProgressMonitor monitor1, IProgressMonitor monitor2) { if (monitor1 == monitor2) { return true; } while (monitor1 instanceof ProgressMonitorWrapper) { monitor1 = ((ProgressMonitorWrapper) monitor1).getWrappedProgressMonitor(); if (monitor1 == monitor2) { return true; } } return false; } /** * Checks with the given progress monitor and throws * InterruptedException if it has been canceled. *

* Code in a long-running operation should call this method regularly so that a * request to cancel will be honored. *

*

* Convenience for: *

* *
	 * if (monitor.isCanceled())
	 * 	throw new InterruptedException();
	 * 
* * * @param monitor the progress monitor * @exception InterruptedException if canceling the operation has been requested * @see IProgressMonitor#isCanceled() */ public static void checkCanceled(IProgressMonitor monitor) throws InterruptedException { if (monitor.isCanceled()) { throw new InterruptedException(); } } /** * Returns the currently active modal context thread, or null if no modal * context is active. */ private static ModalContextThread getCurrentModalContextThread() { Thread t = Thread.currentThread(); if (t instanceof ModalContextThread) { return (ModalContextThread) t; } return null; } /** * Returns the modal nesting level. *

* The modal nesting level increases by one each time the * ModalContext.run method is called within the dynamic scope * of another call to ModalContext.run. *

* * @return the modal nesting level, or 0 if this method is * called outside the dynamic scope of any invocation of * ModalContext.run */ public static int getModalLevel() { return modalLevel; } /** * Returns whether the given thread is running a modal context. * * @param thread * The thread to be checked * @return true if the given thread is running a modal * context, false if not */ public static boolean isModalContextThread(Thread thread) { return thread instanceof ModalContextThread; } /** * Runs the given runnable in a modal context, passing it a progress * monitor. *

* The modal nesting level is increased by one from the perspective of the * given runnable. *

*

* If the supplied operation implements IThreadListener, it * will be notified of any thread changes required to execute the operation. * Specifically, the operation will be notified of the thread that will call * its run method before it is called, and will be notified of * the change of control back to the thread calling this method when the * operation completes. These thread change notifications give the operation * an opportunity to transfer any thread-local state to the execution thread * before control is transferred to the new thread. *

* * @param operation * the runnable to run * @param fork * true if the runnable should run in a separate * thread, and false if in the same thread * @param monitor * the progress monitor to use to display progress and receive * requests for cancellation * @param display * the display to be used to read and dispatch events * @exception InvocationTargetException * if the run method must propagate a checked exception, it * should wrap it inside an * InvocationTargetException; runtime exceptions * and errors are automatically wrapped in an * InvocationTargetException by this method * @exception InterruptedException * if the operation detects a request to cancel, using * IProgressMonitor.isCanceled(), it should exit * by throwing InterruptedException; this method * propagates the exception */ public static void run(IRunnableWithProgress operation, boolean fork, IProgressMonitor monitor, Display display) throws InvocationTargetException, InterruptedException { Assert.isTrue(operation != null && monitor != null); modalLevel++; try { monitor.setCanceled(false); // Is the runnable supposed to be execute in the same thread. if (!fork || !runInSeparateThread) { runInCurrentThread(operation, monitor); } else { ModalContextThread t = getCurrentModalContextThread(); if (t != null) { Assert.isTrue(canProgressMonitorBeUsed(monitor, t.progressMonitor)); runInCurrentThread(operation, monitor); } else { t = new ModalContextThread(operation, monitor, display); Throwable listenerException = null; if (operation instanceof IThreadListener) { listenerException = invokeThreadListener((IThreadListener) operation, t); } if (listenerException == null) { t.start(); t.block(); } else if (t.throwable == null) t.throwable = listenerException; Throwable throwable = t.throwable; if (throwable != null) { if (debug && !(throwable instanceof InterruptedException) && !(throwable instanceof OperationCanceledException)) { System.err.println("Exception in modal context operation:"); //$NON-NLS-1$ throwable.printStackTrace(); System.err.println("Called from:"); //$NON-NLS-1$ // Don't create the InvocationTargetException on the // throwable, // otherwise it will print its stack trace (from the // other thread). new InvocationTargetException(null).printStackTrace(); } if (throwable instanceof InvocationTargetException e) { throw e; } else if (throwable instanceof InterruptedException e) { throw e; } else if (throwable instanceof OperationCanceledException) { InterruptedException interruptedException = new InterruptedException(throwable.getMessage()); interruptedException.initCause(throwable); throw interruptedException; } else { throw new InvocationTargetException(throwable); } } } } } finally { modalLevel--; } } /** * Invoke the ThreadListener if there are any errors or RuntimeExceptions * return them. * * @param switchingThread * the {@link Thread} being switched to */ static Throwable invokeThreadListener(IThreadListener listener, Thread switchingThread) { try { listener.threadChange(switchingThread); } catch (ThreadDeath e) { // Make sure to propagate ThreadDeath, or threads will never // fully terminate throw e; } catch (RuntimeException | Error e) { return e; } return null; } /** * Run a runnable. Convert all thrown exceptions to either * InterruptedException or InvocationTargetException */ private static void runInCurrentThread(IRunnableWithProgress runnable, IProgressMonitor progressMonitor) throws InterruptedException, InvocationTargetException { try { if (runnable != null) { runnable.run(progressMonitor); } } catch (OperationCanceledException e) { InterruptedException interruptedException = new InterruptedException(e.getLocalizedMessage()); interruptedException.initCause(e); throw interruptedException; } catch (InvocationTargetException | InterruptedException | ThreadDeath e) { // Make sure to propagate ThreadDeath, or threads will never fully // terminate. throw e; } catch (RuntimeException | Error e) { throw new InvocationTargetException(e); } } /** * Sets whether ModalContext is running in debug mode. * * @param debugMode * true for debug mode, and false * for normal mode (the default) */ public static void setDebugMode(boolean debugMode) { debug = debugMode; } /** * Sets whether ModalContext may process events (by calling * Display.readAndDispatch()) while running operations. By * default, ModalContext will process events while running operations. Use * this method to disallow event processing temporarily. * * @param allowReadAndDispatch * true (the default) if events may be processed * while running an operation, false if * Display.readAndDispatch() should not be called from * ModalContext. * @since 3.2 */ public static void setAllowReadAndDispatch(boolean allowReadAndDispatch) { // Use a separate thread if and only if it is OK to spin the event loop. runInSeparateThread = allowReadAndDispatch; } }




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