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ThreadPool.RegisterWaitForSingleObject Method

Definition

Registers a delegate that is waiting for a WaitHandle.

Overloads

RegisterWaitForSingleObject(WaitHandle, WaitOrTimerCallback, Object, UInt32, Boolean)

Registers a delegate to wait for a WaitHandle, specifying a 32-bit unsigned integer for the time-out in milliseconds.

RegisterWaitForSingleObject(WaitHandle, WaitOrTimerCallback, Object, TimeSpan, Boolean)

Registers a delegate to wait for a WaitHandle, specifying a TimeSpan value for the time-out.

RegisterWaitForSingleObject(WaitHandle, WaitOrTimerCallback, Object, Int32, Boolean)

Registers a delegate to wait for a WaitHandle, specifying a 32-bit signed integer for the time-out in milliseconds.

RegisterWaitForSingleObject(WaitHandle, WaitOrTimerCallback, Object, Int64, Boolean)

Registers a delegate to wait for a WaitHandle, specifying a 64-bit signed integer for the time-out in milliseconds.

RegisterWaitForSingleObject(WaitHandle, WaitOrTimerCallback, Object, UInt32, Boolean)

Source:
ThreadPoolWorkQueue.cs
Source:
ThreadPoolWorkQueue.cs
Source:
ThreadPoolWorkQueue.cs

Important

This API is not CLS-compliant.

Registers a delegate to wait for a WaitHandle, specifying a 32-bit unsigned integer for the time-out in milliseconds.

public:
 static System::Threading::RegisteredWaitHandle ^ RegisterWaitForSingleObject(System::Threading::WaitHandle ^ waitObject, System::Threading::WaitOrTimerCallback ^ callBack, System::Object ^ state, System::UInt32 millisecondsTimeOutInterval, bool executeOnlyOnce);
[System.CLSCompliant(false)]
[System.Runtime.Versioning.UnsupportedOSPlatform("browser")]
public static System.Threading.RegisteredWaitHandle RegisterWaitForSingleObject (System.Threading.WaitHandle waitObject, System.Threading.WaitOrTimerCallback callBack, object? state, uint millisecondsTimeOutInterval, bool executeOnlyOnce);
[System.CLSCompliant(false)]
public static System.Threading.RegisteredWaitHandle RegisterWaitForSingleObject (System.Threading.WaitHandle waitObject, System.Threading.WaitOrTimerCallback callBack, object state, uint millisecondsTimeOutInterval, bool executeOnlyOnce);
[System.CLSCompliant(false)]
public static System.Threading.RegisteredWaitHandle RegisterWaitForSingleObject (System.Threading.WaitHandle waitObject, System.Threading.WaitOrTimerCallback callBack, object? state, uint millisecondsTimeOutInterval, bool executeOnlyOnce);
[<System.CLSCompliant(false)>]
[<System.Runtime.Versioning.UnsupportedOSPlatform("browser")>]
static member RegisterWaitForSingleObject : System.Threading.WaitHandle * System.Threading.WaitOrTimerCallback * obj * uint32 * bool -> System.Threading.RegisteredWaitHandle
[<System.CLSCompliant(false)>]
static member RegisterWaitForSingleObject : System.Threading.WaitHandle * System.Threading.WaitOrTimerCallback * obj * uint32 * bool -> System.Threading.RegisteredWaitHandle
Public Shared Function RegisterWaitForSingleObject (waitObject As WaitHandle, callBack As WaitOrTimerCallback, state As Object, millisecondsTimeOutInterval As UInteger, executeOnlyOnce As Boolean) As RegisteredWaitHandle

Parameters

waitObject
WaitHandle

The WaitHandle to register. Use a WaitHandle other than Mutex.

callBack
WaitOrTimerCallback

The WaitOrTimerCallback delegate to call when the waitObject parameter is signaled.

state
Object

The object passed to the delegate.

millisecondsTimeOutInterval
UInt32

The time-out in milliseconds. If the millisecondsTimeOutInterval parameter is 0 (zero), the function tests the object's state and returns immediately. If millisecondsTimeOutInterval is -1, the function's time-out interval never elapses.

executeOnlyOnce
Boolean

true to indicate that the thread will no longer wait on the waitObject parameter after the delegate has been called; false to indicate that the timer is reset every time the wait operation completes until the wait is unregistered.

Returns

The RegisteredWaitHandle that can be used to cancel the registered wait operation.

Attributes

Exceptions

The millisecondsTimeOutInterval parameter is less than -1.

Examples

The following example shows how to use the RegisterWaitForSingleObject method to execute a specified callback method when a specified wait handle is signaled. In this example, the callback method is WaitProc, and the wait handle is an AutoResetEvent.

The example defines a TaskInfo class to hold the information that is passed to the callback when it executes. The example creates a TaskInfo object and assigns it some string data. The RegisteredWaitHandle that is returned by the RegisterWaitForSingleObject method is assigned to the Handle field of the TaskInfo object so that the callback method has access to the RegisteredWaitHandle.

In addition to specifying TaskInfo as the object to pass to the callback method, the call to the RegisterWaitForSingleObject method specifies the AutoResetEvent that the task will wait for, a WaitOrTimerCallback delegate that represents the WaitProc callback method, a one second time-out interval, and multiple callbacks.

When the main thread signals the AutoResetEvent by calling its Set method, the WaitOrTimerCallback delegate is invoked. The WaitProc method tests RegisteredWaitHandle to determine whether a time-out occurred. If the callback was invoked because the wait handle was signaled, the WaitProc method unregisters the RegisteredWaitHandle, stopping additional callbacks. In the case of a time-out, the task continues to wait. The WaitProc method ends by printing a message to the console.

using namespace System;
using namespace System::Threading;

// TaskInfo contains data that will be passed to the callback
// method.
public ref class TaskInfo
{
public:
   TaskInfo()
   {
      Handle = nullptr;
      OtherInfo = "default";
   }

   RegisteredWaitHandle^ Handle;
   String^ OtherInfo;
};

ref class Example
{
public:

   // 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.
   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 = static_cast<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 != nullptr )
                  ti->Handle->Unregister( nullptr );
      }

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

};

int main()
{
   
   // The main thread uses AutoResetEvent to signal the
   // registered wait handle, which executes the callback
   // method.
   AutoResetEvent^ ev = gcnew AutoResetEvent( false );
   TaskInfo^ ti = gcnew 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, gcnew WaitOrTimerCallback( Example::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.
   return 0;
}
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
        );
    }
}
Imports System.Threading

' TaskInfo contains data that will be passed to the callback
' method.
Public Class TaskInfo
    public Handle As RegisteredWaitHandle = Nothing
    public OtherInfo As String = "default"
End Class

Public Class Example

    <MTAThread> _
    Public Shared Sub Main()
        ' The main thread uses AutoResetEvent to signal the
        ' registered wait handle, which executes the callback
        ' method.
        Dim ev As New AutoResetEvent(false)

        Dim ti As 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(AddressOf WaitProc), _
            ti, _
            1000, _
            false _
        )

        ' The main thread waits about three seconds, to demonstrate 
        ' the time-outs on the queued task, 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.
    End Sub
   
    ' 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 Shared Sub WaitProc(state As Object, timedOut As Boolean)
        ' The state object must be cast to the correct type, because the
        ' signature of the WaitOrTimerCallback delegate specifies type
        ' Object.
        Dim ti As TaskInfo = CType(state, TaskInfo)

        Dim cause As String = "TIMED OUT"
        If Not timedOut Then
            cause = "SIGNALED"
            ' If the callback method executes because the WaitHandle is
            ' signaled, stop future execution of the callback method
            ' by unregistering the WaitHandle.
            If Not ti.Handle Is Nothing Then
                ti.Handle.Unregister(Nothing)
            End If
        End If 

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

Remarks

When you are finished using the RegisteredWaitHandle that is returned by this method, call its RegisteredWaitHandle.Unregister method to release references to the wait handle. We recommend that you always call the RegisteredWaitHandle.Unregister method, even if you specify true for executeOnlyOnce. Garbage collection works more efficiently if you call the RegisteredWaitHandle.Unregister method instead of depending on the registered wait handle's finalizer.

The RegisterWaitForSingleObject method queues the specified delegate to the thread pool. A worker thread will execute the delegate when one of the following occurs:

  • The specified object is in the signaled state.
  • The time-out interval elapses.

The RegisterWaitForSingleObject method checks the current state of the specified object's WaitHandle. If the object's state is unsignaled, the method registers a wait operation. The wait operation is performed by a thread from the thread pool. The delegate is executed by a worker thread when the object's state becomes signaled or the time-out interval elapses. If the timeOutInterval parameter is not 0 (zero) and the executeOnlyOnce parameter is false, the timer is reset every time the event is signaled or the time-out interval elapses.

Important

Using a Mutex for waitObject does not provide mutual exclusion for the callbacks because the underlying Windows API uses the default WT_EXECUTEDEFAULT flag, so each callback is dispatched on a separate thread pool thread. Instead of a Mutex, use a Semaphore with a maximum count of 1.

To cancel the wait operation, call the RegisteredWaitHandle.Unregister method.

The wait thread uses the Win32 WaitForMultipleObjects function to monitor registered wait operations. Therefore, if you must use the same native operating system handle in multiple calls to RegisterWaitForSingleObject, you must duplicate the handle using the Win32 DuplicateHandle function. Note that you should not pulse an event object passed to RegisterWaitForSingleObject, because the wait thread might not detect that the event is signaled before it is reset.

Before returning, the function modifies the state of some types of synchronization objects. Modification occurs only for the object whose signaled state caused the wait condition to be satisfied. For example, the count of a semaphore is decreased by one.

See also

Applies to

RegisterWaitForSingleObject(WaitHandle, WaitOrTimerCallback, Object, TimeSpan, Boolean)

Source:
ThreadPoolWorkQueue.cs
Source:
ThreadPoolWorkQueue.cs
Source:
ThreadPoolWorkQueue.cs

Registers a delegate to wait for a WaitHandle, specifying a TimeSpan value for the time-out.

public:
 static System::Threading::RegisteredWaitHandle ^ RegisterWaitForSingleObject(System::Threading::WaitHandle ^ waitObject, System::Threading::WaitOrTimerCallback ^ callBack, System::Object ^ state, TimeSpan timeout, bool executeOnlyOnce);
[System.Runtime.Versioning.UnsupportedOSPlatform("browser")]
public static System.Threading.RegisteredWaitHandle RegisterWaitForSingleObject (System.Threading.WaitHandle waitObject, System.Threading.WaitOrTimerCallback callBack, object? state, TimeSpan timeout, bool executeOnlyOnce);
public static System.Threading.RegisteredWaitHandle RegisterWaitForSingleObject (System.Threading.WaitHandle waitObject, System.Threading.WaitOrTimerCallback callBack, object state, TimeSpan timeout, bool executeOnlyOnce);
public static System.Threading.RegisteredWaitHandle RegisterWaitForSingleObject (System.Threading.WaitHandle waitObject, System.Threading.WaitOrTimerCallback callBack, object? state, TimeSpan timeout, bool executeOnlyOnce);
[<System.Runtime.Versioning.UnsupportedOSPlatform("browser")>]
static member RegisterWaitForSingleObject : System.Threading.WaitHandle * System.Threading.WaitOrTimerCallback * obj * TimeSpan * bool -> System.Threading.RegisteredWaitHandle
static member RegisterWaitForSingleObject : System.Threading.WaitHandle * System.Threading.WaitOrTimerCallback * obj * TimeSpan * bool -> System.Threading.RegisteredWaitHandle
Public Shared Function RegisterWaitForSingleObject (waitObject As WaitHandle, callBack As WaitOrTimerCallback, state As Object, timeout As TimeSpan, executeOnlyOnce As Boolean) As RegisteredWaitHandle

Parameters

waitObject
WaitHandle

The WaitHandle to register. Use a WaitHandle other than Mutex.

callBack
WaitOrTimerCallback

The WaitOrTimerCallback delegate to call when the waitObject parameter is signaled.

state
Object

The object passed to the delegate.

timeout
TimeSpan

The time-out represented by a TimeSpan. If timeout is 0 (zero), the function tests the object's state and returns immediately. If timeout is -1, the function's time-out interval never elapses.

executeOnlyOnce
Boolean

true to indicate that the thread will no longer wait on the waitObject parameter after the delegate has been called; false to indicate that the timer is reset every time the wait operation completes until the wait is unregistered.

Returns

The RegisteredWaitHandle that encapsulates the native handle.

Attributes

Exceptions

The timeout parameter is less than -1.

The timeout parameter is greater than Int32.MaxValue.

Remarks

When you are finished using the RegisteredWaitHandle that is returned by this method, call its RegisteredWaitHandle.Unregister method to release references to the wait handle. We recommend that you always call the RegisteredWaitHandle.Unregister method, even if you specify true for executeOnlyOnce. Garbage collection works more efficiently if you call the RegisteredWaitHandle.Unregister method instead of depending on the registered wait handle's finalizer.

The RegisterWaitForSingleObject method queues the specified delegate to the thread pool. A worker thread will execute the delegate when one of the following occurs:

  • The specified object is in the signaled state.
  • The time-out interval elapses.

The RegisterWaitForSingleObject method checks the current state of the specified object's WaitHandle. If the object's state is unsignaled, the method registers a wait operation. The wait operation is performed by a thread from the thread pool. The delegate is executed by a worker thread when the object's state becomes signaled or the time-out interval elapses. If the timeOutInterval parameter is not 0 (zero) and the executeOnlyOnce parameter is false, the timer is reset every time the event is signaled or the time-out interval elapses.

Important

Using a Mutex for waitObject does not provide mutual exclusion for the callbacks because the underlying Windows API uses the default WT_EXECUTEDEFAULT flag, so each callback is dispatched on a separate thread pool thread. Instead of a Mutex, use a Semaphore with a maximum count of 1.

To cancel the wait operation, call the RegisteredWaitHandle.Unregister method.

The wait thread uses the Win32 WaitForMultipleObjects function to monitor registered wait operations. Therefore, if you must use the same native operating system handle in multiple calls to RegisterWaitForSingleObject, you must duplicate the handle using the Win32 DuplicateHandle function. Note that you should not pulse an event object passed to RegisterWaitForSingleObject, because the wait thread might not detect that the event is signaled before it is reset.

Before returning, the function modifies the state of some types of synchronization objects. Modification occurs only for the object whose signaled state caused the wait condition to be satisfied. For example, the count of a semaphore is decreased by one.

See also

Applies to

RegisterWaitForSingleObject(WaitHandle, WaitOrTimerCallback, Object, Int32, Boolean)

Source:
ThreadPoolWorkQueue.cs
Source:
ThreadPoolWorkQueue.cs
Source:
ThreadPoolWorkQueue.cs

Registers a delegate to wait for a WaitHandle, specifying a 32-bit signed integer for the time-out in milliseconds.

public:
 static System::Threading::RegisteredWaitHandle ^ RegisterWaitForSingleObject(System::Threading::WaitHandle ^ waitObject, System::Threading::WaitOrTimerCallback ^ callBack, System::Object ^ state, int millisecondsTimeOutInterval, bool executeOnlyOnce);
[System.Runtime.Versioning.UnsupportedOSPlatform("browser")]
public static System.Threading.RegisteredWaitHandle RegisterWaitForSingleObject (System.Threading.WaitHandle waitObject, System.Threading.WaitOrTimerCallback callBack, object? state, int millisecondsTimeOutInterval, bool executeOnlyOnce);
public static System.Threading.RegisteredWaitHandle RegisterWaitForSingleObject (System.Threading.WaitHandle waitObject, System.Threading.WaitOrTimerCallback callBack, object state, int millisecondsTimeOutInterval, bool executeOnlyOnce);
public static System.Threading.RegisteredWaitHandle RegisterWaitForSingleObject (System.Threading.WaitHandle waitObject, System.Threading.WaitOrTimerCallback callBack, object? state, int millisecondsTimeOutInterval, bool executeOnlyOnce);
[<System.Runtime.Versioning.UnsupportedOSPlatform("browser")>]
static member RegisterWaitForSingleObject : System.Threading.WaitHandle * System.Threading.WaitOrTimerCallback * obj * int * bool -> System.Threading.RegisteredWaitHandle
static member RegisterWaitForSingleObject : System.Threading.WaitHandle * System.Threading.WaitOrTimerCallback * obj * int * bool -> System.Threading.RegisteredWaitHandle
Public Shared Function RegisterWaitForSingleObject (waitObject As WaitHandle, callBack As WaitOrTimerCallback, state As Object, millisecondsTimeOutInterval As Integer, executeOnlyOnce As Boolean) As RegisteredWaitHandle

Parameters

waitObject
WaitHandle

The WaitHandle to register. Use a WaitHandle other than Mutex.

callBack
WaitOrTimerCallback

The WaitOrTimerCallback delegate to call when the waitObject parameter is signaled.

state
Object

The object that is passed to the delegate.

millisecondsTimeOutInterval
Int32

The time-out in milliseconds. If the millisecondsTimeOutInterval parameter is 0 (zero), the function tests the object's state and returns immediately. If millisecondsTimeOutInterval is -1, the function's time-out interval never elapses.

executeOnlyOnce
Boolean

true to indicate that the thread will no longer wait on the waitObject parameter after the delegate has been called; false to indicate that the timer is reset every time the wait operation completes until the wait is unregistered.

Returns

The RegisteredWaitHandle that encapsulates the native handle.

Attributes

Exceptions

The millisecondsTimeOutInterval parameter is less than -1.

Remarks

When you are finished using the RegisteredWaitHandle that is returned by this method, call its RegisteredWaitHandle.Unregister method to release references to the wait handle. We recommend that you always call the RegisteredWaitHandle.Unregister method, even if you specify true for executeOnlyOnce. Garbage collection works more efficiently if you call the RegisteredWaitHandle.Unregister method instead of depending on the registered wait handle's finalizer.

The RegisterWaitForSingleObject method queues the specified delegate to the thread pool. A worker thread will execute the delegate when one of the following occurs:

  • The specified object is in the signaled state.
  • The time-out interval elapses.

The RegisterWaitForSingleObject method checks the current state of the specified object's WaitHandle. If the object's state is unsignaled, the method registers a wait operation. The wait operation is performed by a thread from the thread pool. The delegate is executed by a worker thread when the object's state becomes signaled or the time-out interval elapses. If the timeOutInterval parameter is not 0 (zero) and the executeOnlyOnce parameter is false, the timer is reset every time the event is signaled or the time-out interval elapses.

Important

Using a Mutex for waitObject does not provide mutual exclusion for the callbacks because the underlying Windows API uses the default WT_EXECUTEDEFAULT flag, so each callback is dispatched on a separate thread pool thread. Instead of a Mutex, use a Semaphore with a maximum count of 1.

To cancel the wait operation, call the RegisteredWaitHandle.Unregister method.

The wait thread uses the Win32 WaitForMultipleObjects function to monitor registered wait operations. Therefore, if you must use the same native operating system handle in multiple calls to RegisterWaitForSingleObject, you must duplicate the handle using the Win32 DuplicateHandle function. Note that you should not pulse an event object passed to RegisterWaitForSingleObject, because the wait thread might not detect that the event is signaled before it is reset.

Before returning, the function modifies the state of some types of synchronization objects. Modification occurs only for the object whose signaled state caused the wait condition to be satisfied. For example, the count of a semaphore is decreased by one.

See also

Applies to

RegisterWaitForSingleObject(WaitHandle, WaitOrTimerCallback, Object, Int64, Boolean)

Source:
ThreadPoolWorkQueue.cs
Source:
ThreadPoolWorkQueue.cs
Source:
ThreadPoolWorkQueue.cs

Registers a delegate to wait for a WaitHandle, specifying a 64-bit signed integer for the time-out in milliseconds.

public:
 static System::Threading::RegisteredWaitHandle ^ RegisterWaitForSingleObject(System::Threading::WaitHandle ^ waitObject, System::Threading::WaitOrTimerCallback ^ callBack, System::Object ^ state, long millisecondsTimeOutInterval, bool executeOnlyOnce);
[System.Runtime.Versioning.UnsupportedOSPlatform("browser")]
public static System.Threading.RegisteredWaitHandle RegisterWaitForSingleObject (System.Threading.WaitHandle waitObject, System.Threading.WaitOrTimerCallback callBack, object? state, long millisecondsTimeOutInterval, bool executeOnlyOnce);
public static System.Threading.RegisteredWaitHandle RegisterWaitForSingleObject (System.Threading.WaitHandle waitObject, System.Threading.WaitOrTimerCallback callBack, object state, long millisecondsTimeOutInterval, bool executeOnlyOnce);
public static System.Threading.RegisteredWaitHandle RegisterWaitForSingleObject (System.Threading.WaitHandle waitObject, System.Threading.WaitOrTimerCallback callBack, object? state, long millisecondsTimeOutInterval, bool executeOnlyOnce);
[<System.Runtime.Versioning.UnsupportedOSPlatform("browser")>]
static member RegisterWaitForSingleObject : System.Threading.WaitHandle * System.Threading.WaitOrTimerCallback * obj * int64 * bool -> System.Threading.RegisteredWaitHandle
static member RegisterWaitForSingleObject : System.Threading.WaitHandle * System.Threading.WaitOrTimerCallback * obj * int64 * bool -> System.Threading.RegisteredWaitHandle
Public Shared Function RegisterWaitForSingleObject (waitObject As WaitHandle, callBack As WaitOrTimerCallback, state As Object, millisecondsTimeOutInterval As Long, executeOnlyOnce As Boolean) As RegisteredWaitHandle

Parameters

waitObject
WaitHandle

The WaitHandle to register. Use a WaitHandle other than Mutex.

callBack
WaitOrTimerCallback

The WaitOrTimerCallback delegate to call when the waitObject parameter is signaled.

state
Object

The object passed to the delegate.

millisecondsTimeOutInterval
Int64

The time-out in milliseconds. If the millisecondsTimeOutInterval parameter is 0 (zero), the function tests the object's state and returns immediately. If millisecondsTimeOutInterval is -1, the function's time-out interval never elapses.

executeOnlyOnce
Boolean

true to indicate that the thread will no longer wait on the waitObject parameter after the delegate has been called; false to indicate that the timer is reset every time the wait operation completes until the wait is unregistered.

Returns

The RegisteredWaitHandle that encapsulates the native handle.

Attributes

Exceptions

The millisecondsTimeOutInterval parameter is less than -1.

Remarks

When you are finished using the RegisteredWaitHandle that is returned by this method, call its RegisteredWaitHandle.Unregister method to release references to the wait handle. We recommend that you always call the RegisteredWaitHandle.Unregister method, even if you specify true for executeOnlyOnce. Garbage collection works more efficiently if you call the RegisteredWaitHandle.Unregister method instead of depending on the registered wait handle's finalizer.

The RegisterWaitForSingleObject method queues the specified delegate to the thread pool. A worker thread will execute the delegate when one of the following occurs:

  • The specified object is in the signaled state.
  • The time-out interval elapses.

The RegisterWaitForSingleObject method checks the current state of the specified object's WaitHandle. If the object's state is unsignaled, the method registers a wait operation. The wait operation is performed by a thread from the thread pool. The delegate is executed by a worker thread when the object's state becomes signaled or the time-out interval elapses. If the timeOutInterval parameter is not 0 (zero) and the executeOnlyOnce parameter is false, the timer is reset every time the event is signaled or the time-out interval elapses.

Important

Using a Mutex for waitObject does not provide mutual exclusion for the callbacks because the underlying Windows API uses the default WT_EXECUTEDEFAULT flag, so each callback is dispatched on a separate thread pool thread. Instead of a Mutex, use a Semaphore with a maximum count of 1.

To cancel the wait operation, call the RegisteredWaitHandle.Unregister method.

The wait thread uses the Win32 WaitForMultipleObjects function to monitor registered wait operations. Therefore, if you must use the same native operating system handle in multiple calls to RegisterWaitForSingleObject, you must duplicate the handle using the Win32 DuplicateHandle function. Note that you should not pulse an event object passed to RegisterWaitForSingleObject, because the wait thread might not detect that the event is signaled before it is reset.

Before returning, the function modifies the state of some types of synchronization objects. Modification occurs only for the object whose signaled state caused the wait condition to be satisfied. For example, the count of a semaphore is decreased by one.

See also

Applies to