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What is the basic concept behind WaitHandle in C# .net threading? Whats is its use? When to use it? What is the use of WaitAll and WaitAny methods inside it?

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4 Answers 4

up vote 29 down vote accepted

Whenever you would want to control the execution of multiple threads in your app. Though this does not only mean that only one thread increments the counter; but let the threads start/stop or pause upon an event.

See WaitHandles - Auto/ManualResetEvent and Mutex


WaitHandles are the mechanism that you "use" to control the threads' execution. Its not about handles not being accessible within a thread; its about using them within the thread.

This may be a fat example, but please bear with me; think about, a lady gives five different toned whistles to five girls, and tells them to blow the whistle whenever something would happen; the process is for each girl to blow a whistle, and the lady would know who blew the whistle.

Now, its not about sharing-the-whistles with each other, its about, probably for the lady, to use them to "control" the execution or the process how girls would blow the whistle.

Therefore, technically the process would be to:

  1. Create a wait event(ManualResetEvent object)
  2. Register the events, WaitHandle.WaitAny(events);
  3. After you are done performing operation in your thread, the .Set(), which would tell the WaitHandle that 'I am done!'.

For instance, consider the example from the link provided. I have added the steps for you to understand the logic. These aren't the hardcoded steps, but just so you may understand.

class Test
    static void Main()
    //STEP 1: Create a wait handle
        ManualResetEvent[] events = new ManualResetEvent[10];//Create a wait handle
        for (int i=0; i < events.Length; i++)
            events[i] = new ManualResetEvent(false);
            Runner r = new Runner(events[i], i); 
            new Thread(new ThreadStart(r.Run)).Start();

    //STEP 2: Register for the events to wait for
        int index = WaitHandle.WaitAny(events); //wait here for any event and print following line.

        Console.WriteLine ("***** The winner is {0} *****", 

        WaitHandle.WaitAll(events); //Wait for all of the threads to finish, that is, to call their cooresponding `.Set()` method.

        Console.WriteLine ("All finished!");

class Runner
    static readonly object rngLock = new object();
    static Random rng = new Random();

    ManualResetEvent ev;
    int id;

    internal Runner (ManualResetEvent ev, int id)
        this.ev = ev;//Wait handle associated to each object, thread in this case.
        this.id = id;

    internal void Run()
    //STEP 3: Do some work
        for (int i=0; i < 10; i++)
            int sleepTime;
            // Not sure about the thread safety of Random...
            lock (rngLock)
                sleepTime = rng.Next(2000);
            Console.WriteLine ("Runner {0} at stage {1}",
                               id, i);

    //STEP 4: Im done!
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WaitAll() - used to wait for all of the handles in a set to be free/signalled... Does it mean that Handles will not be accessible to other threads untill and unless they are not released(other threads should wait for these handles in the set) ? –  DotNetBeginner Mar 29 '10 at 14:21
@DotNetBeginner: Does it mean that Handles will not be accessible to other threads; please see my updated post, an example added just to respond to this question. –  KMån Mar 30 '10 at 6:16

WaitHandle is an abstract base class for the two commonly used event handles: AutoResetEvent and ManualResetEvent.

Both of these classes allow one thread to "signal" one or more other threads. They're used to synchronize (or serialize activity) between threads. This is accomplished using the Set and WaitOne (or WaitAll) methods. For example:

Thread 1:

// do setup work


Thread 2:

// do setup work


// this code will not continue until after the call to `Set` 
// in thread 1 completes.

This is a very rudimentary example, and there are loads of them available on the web. The basic idea is that WaitOne is used to wait for a signal from another thread that indicates that something has happened. In the case of AsyncWaitHandle (which is returned from invoking a delegate asynchronously), WaitOne allows you to cause the current thread to wait until the async operation has completed.

When an AutoResetEvent or ManualResetEvent are not set, calls to WaitOne will block the calling thread until Set is called. These two classes differ only in that AutoResetEvent "unsets" the event once a successful call to WaitOne completes, making subsequent calls block again until Set is called. ManualResetEvent must be "unset" explicitly by calling Reset.

WaitAll and WaitAny are static methods on the WaitHandle class that allow you to specify an array of WaitHandles to wait on. WaitAll will block until all of the supplied handles are Set, whereas WaitAny will only block until one of them gets Set.

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The idea behind the WaitAll and WaitAny methods is that they are useful when you have a lot of tasks that you want to run in parallel.

For example, say you have to a job that requires you do some processing for a 1000 items in an array that need to be processed in parallel. A typical Core 2 Duo + hyperthreading only has 4 logical processors, and so it doesn't make a lot of sense to have more than 4 threads going at once (actually, it does, but that's a story for another time - we'll pretend and use the simple "one thread per processor" model for now). So 4 threads, but 1000 items; what do you do?

One option is to use the the WaitAny method. You kick off 4 threads, and every time the WaitAny method returns you kick off another, until all 1000 items are queued. Note that this is a poor example for WaitAny, since you could also just divide up your array into 250 item blocks. Hopefully, though, it gives you and idea of the kind of situation where WaitAny is useful. There are other, similar situations where WaitAny can make a lot of sense.

But now let's go back to the scenario with 4 threads that each process 250 items from your 1000 item array. With this option, you can use the WaitAll method to wait for all the processing to finish.

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It is an abstract class, you don't use it directly. Concrete derived classes are ManualResetEvent, AutoResetEvent, Mutex and Semaphore. Important classes in your toolbox to implement thread synchronization. They inherit the WaitOne, WaitAll and WaitAny methods, you use them to detect that one or more threads signaled the wait condition.

Typical usage scenario for Manual/AutoResetEvent is to tell a thread to exit or to let a thread signal that it has progressed to an important sequence point. Semaphore helps you to limit the number of threads that perform an action. Or to implement threading synchronization that should not have affinity to a particular thread. Mutex is there to assign ownership to a section of code to one thread, the lock statement is often applicable there as well.

Books have been written about it. Joe Duffy's Concurrent Programming in Windows is the latest and greatest. Strongly recommended if you contemplate writing threaded code.

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