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RegisteredWaitHandle.Unregister (Método)

Cancela una operación de espera registrada y emitida por el método RegisterWaitForSingleObject.

Espacio de nombres: System.Threading
Ensamblado: mscorlib (en mscorlib.dll)

[ComVisibleAttribute(true)] 
public bool Unregister (
	WaitHandle waitObject
)
/** @attribute ComVisibleAttribute(true) */ 
public boolean Unregister (
	WaitHandle waitObject
)
ComVisibleAttribute(true) 
public function Unregister (
	waitObject : WaitHandle
) : boolean
No aplicable.

Parámetros

waitObject

WaitHandle que hay que marcar.

Valor devuelto

true si la función se realiza correctamente; en caso contrario, false.

Si se especifica waitObject, sólo queda señalado si se anula satisfactoriamente el registro de RegisteredWaitHandle. Si hay un método de devolución de llamada en ejecución cuando se ejecuta Unregister, waitObject no se señala hasta que dicho método finaliza. Concretamente, si un método de devolución de llamada ejecuta Unregister, waitObject no se señala hasta que dicho método finaliza.

using System;
using System.Threading;

// TaskInfo contains data that will be passed to the callback
// method.
public class TaskInfo {
    public RegisteredWaitHandle Handle = null;
    public string OtherInfo = "default";
}

public class Example {
    public static void Main(string[] args) {
        // The main thread uses AutoResetEvent to signal the
        // registered wait handle, which executes the callback
        // method.
        AutoResetEvent ev = new AutoResetEvent(false);

        TaskInfo ti = new TaskInfo();
        ti.OtherInfo = "First task";
        // The TaskInfo for the task includes the registered wait
        // handle returned by RegisterWaitForSingleObject.  This
        // allows the wait to be terminated when the object has
        // been signaled once (see WaitProc).
        ti.Handle = ThreadPool.RegisterWaitForSingleObject(
            ev,
            new WaitOrTimerCallback(WaitProc),
            ti,
            1000,
            false
        );

        // The main thread waits three seconds, to demonstrate the
        // time-outs on the queued thread, and then signals.
        Thread.Sleep(3100);
        Console.WriteLine("Main thread signals.");
        ev.Set();

        // The main thread sleeps, which should give the callback
        // method time to execute.  If you comment out this line, the
        // program usually ends before the ThreadPool thread can execute.
        Thread.Sleep(1000);
        // If you start a thread yourself, you can wait for it to end
        // by calling Thread.Join.  This option is not available with 
        // thread pool threads.
    }
   
    // The callback method executes when the registered wait times out,
    // or when the WaitHandle (in this case AutoResetEvent) is signaled.
    // WaitProc unregisters the WaitHandle the first time the event is 
    // signaled.
    public static void WaitProc(object state, bool timedOut) {
        // The state object must be cast to the correct type, because the
        // signature of the WaitOrTimerCallback delegate specifies type
        // Object.
        TaskInfo ti = (TaskInfo) state;

        string cause = "TIMED OUT";
        if (!timedOut) {
            cause = "SIGNALED";
            // If the callback method executes because the WaitHandle is
            // signaled, stop future execution of the callback method
            // by unregistering the WaitHandle.
            if (ti.Handle != null)
                ti.Handle.Unregister(null);
        } 

        Console.WriteLine("WaitProc( {0} ) executes on thread {1}; cause = {2}.",
            ti.OtherInfo, 
            Thread.CurrentThread.GetHashCode().ToString(), 
            cause
        );
    }
}

import System.*;
import System.Threading.*;
import System.Threading.Thread;

// TaskInfo contains data that will be passed to the callback
// method.
public class TaskInfo
{
    public RegisteredWaitHandle handle = null;
    public String otherInfo = "default";
} //TaskInfo

public class Example
{
    public static void main(String[] args)
    {
        // The main thread uses AutoResetEvent to signal the
        // registered wait Handle, which executes the callback
        // method.
        AutoResetEvent ev = new AutoResetEvent(false);
        TaskInfo ti = new TaskInfo();

        ti.otherInfo = "First task";

        // The TaskInfo for the task includes the registered wait
        // Handle returned by RegisterWaitForSingleObject.  This
        // allows the wait to be terminated when the object has
        // been signaled once (see WaitProc).
        ti.handle = ThreadPool.RegisterWaitForSingleObject(ev, 
            new WaitOrTimerCallback(WaitProc), ti, 1000, false);

        // The main thread waits three seconds, to demonstrate the
        // time-outs on the queued thread, and then signals.
        Thread.Sleep(3100);
        Console.WriteLine("Main thread signals.");
        ev.Set();

        // The main thread sleeps, which should give the callback
        // method time to execute.  If you comment out this line, the
        // program usually ends before the ThreadPool thread can execute.
        Thread.Sleep(1000);
        // If you start a thread yourself, you can wait for it to end
        // by calling Thread.Join.  This option is not available with 
        // thread pool threads.
    } //main

    // The callback method executes when the registered wait times out,
    // or when the WaitHandle (in this case AutoResetEvent) is signaled.
    // WaitProc unregisters the WaitHandle the first time the event is 
    // signaled.
    public static void WaitProc(Object state, boolean timedOut)
    {
        // The state object must be cast to the correct type, because the
        // signature of the WaitOrTimerCallback delegate specifies type
        // Object.
        TaskInfo ti = ((TaskInfo)(state));
        String cause = "TIMED OUT";

        if (!(timedOut)) {
            cause = "SIGNALED";

            // If the callback method executes because the WaitHandle is
            // signaled, stop future execution of the callback method
            // by unregistering the WaitHandle.
            if (ti.handle != null) {
                ti.handle.Unregister(null);
            }
        }

        Console.WriteLine("WaitProc( {0} ) executes " 
            + "on thread {1}; cause = {2}.",
            ti.otherInfo, 
            String.valueOf(Thread.get_CurrentThread().GetHashCode()),cause);
    } //WaitProc
} //Example

Windows 98, Windows 2000 Service Pack 4, Windows Millennium, Windows Server 2003, Windows XP Media Center, Windows XP Professional x64, Windows XP SP2, Windows XP Starter

Microsoft .NET Framework 3.0 es compatible con Windows Vista, Microsoft Windows XP SP2 y Windows Server 2003 SP1.

.NET Framework

Compatible con: 3.0, 2.0, 1.1, 1.0
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