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I have an application with one main thread and N worker threads. At some point I need that the main thread waits until all the N threads have completed one section of their work.

I normally would use Monitor.Wait() and Monitor.Pulse() but this will prevent the N threads from working at the same time.

Any idea on how to do that?

Thanks in advance.

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Just a thought: you describe in comments below that you want to signal that a certain part has been passed because the threads don't terminate. This indicates a loop in each thread. Is your behavior defined for worker threads' 2nd iteration through the loop since they have already signalled that they are done? –  San Jacinto Dec 30 '09 at 16:54
@San: no, its not a loop, it's just a long operation that cannot be stopped until certain point to avoid some exceptions, so I need to lock the Stop method until all the threads have passed that point. –  Ignacio Soler Garcia Dec 30 '09 at 17:02

10 Answers 10

.NET 4.0 will include the System.Threading.Barrier class that will make synchronization between multiple threads easier. A blog post with some good example code can be found here.

Similar functionality can be achieved using multiple WaitHandles in .NET 3.0+, as demonstrated in this example on MSDN.

A brief summary of the MSDN example:

const int numberOfWorkers = 5;

static void Main()
    var handles = new ManualResetEvent[numberOfWorkers];

    for (int i = 0; i < numberOfWorkers; i++)
        handles[i] = new ManualResetEvent(false);
        ThreadPool.QueueUserWorkItem(o => worker.Work(), null);

    // Wait for all workers to finish before continuing
    /* continue execution... */
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Looks like what I need, but I need this now in 3.5. There is a way of doing this? –  Ignacio Soler Garcia Dec 30 '09 at 16:22
@SoMoS, if I understand what you're going for, you can do what you want in 3.5 using WaitAll with AutoResetEvents (which I describe in my answer). –  Jeff Sternal Dec 30 '09 at 17:00
@Jeff Sternal: I believe we're both proposing the same solution, but with different implementations. –  Justin Rusbatch Dec 30 '09 at 17:03
@Justin - agreed, and with the latest update (in the question's comments), it seems like a ManualResetEvent is more appropriate. –  Jeff Sternal Dec 30 '09 at 17:05

Do something similar to garbage collection. You'll write a ThreadManager that has a count of how many threads are running. When the main thread starts a new worker, the ThreadManager will increment its count of workers. When a worker finishes, it will inform the ThreadManager who will decrement its count of threads. When it has zero worker threads, the ThreadManager will wake the main thread.

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don't forget to lock the count variable when modifying or reading it. –  San Jacinto Dec 30 '09 at 16:51

It seems like WaitHandle.WaitAll should solve this problem.

Your main thread will need to keep references to worker thread wait handles. When it needs to synchronize, pass those handles into the above method. Worker threads signal at the appropriate point in their code.

If worker threads loop or need to 'pulse' multiple times, you could use AutoResetEvents, like this:

public void WorkerMethod() {         
     // etc.

If not (if the main thread just needed to know the worker thread had passed some threshold), ManualResetEvents would be fine.

There are a few things to be wary of when using WaitAll (from the MSDN WaitAll documentation):

On some implementations, if more than 64 handles are passed, a NotSupportedException is thrown. If the array contains duplicates, the call fails with a DuplicateWaitObjectException.

However, it's rare that a process can really take advantage of more than 64 threads, so this limitation often won't be important.

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I liked your approach. I have to take into account that this is for processing incoming tcp clients so maybe I have more that 64 threads (one for each client). How can I check where this limitation applies? –  Ignacio Soler Garcia Dec 30 '09 at 17:17
Unfortunately, that information is hard to come by. I can see in Reflector that it was hard-coded into the .NET 2.0 implementation, but don't have the 3.5 assemblies at hand. Here's an article that proposes an ingenious solution to overcoming the limit, which is similar to what David Souther suggests in another answer: create your own WaitHandle class that implements reference counting so that you share a single WaitHandle across all your worker threads. msdn.microsoft.com/en-us/magazine/cc163914.aspx. –  Jeff Sternal Dec 30 '09 at 22:07

It's called a barrier: http://programmingexamples.wikidot.com/java-barrier

Ow, but if you only need the first thread to wait for the rest to pass some point and you want the other to still keep working, then use a semaphore of size N and let all other threads take it, while that first thread waits to acquire it after them..

Semaphore: http://programmingexamples.wikidot.com/java-semaphore

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Since on some implementations, there is a limit to how many handles WaitHandle.WaitAll() can .... handle, (see msdn-WaitHandle.WaitAll(), I have created a utility method for this:

    public static void WaitAll(WaitHandle[] handles)
        if (handles == null)
            throw new ArgumentNullException("handles",
                "WaitHandle[] handles was null");
        foreach (WaitHandle wh in handles) wh.WaitOne();

usage is to add the wait handle for each thread to an array, and then call the above utility method (passing the array) after All threads have been initiated.

 List<WaitHandle> waitHndls = new List<WaitHandle>();
 foreach (MyType mTyp in MyTypeCollection)
     ManualResetEvent txEvnt = new ManualResetEvent(false);
     int qryNo1 = ++qryNo;
                  // Code to execute whatever thread's function is... 
              catch (SomeCustomException iX)
                  // catch code
              }                                         }
              finally {  lock (locker) txEvnt.Set();  }
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Why not use WaitHandle.WaitAll? –  Jeff Sternal Dec 30 '09 at 16:35
Because there is a limit on how many handles WaitAll can .... no pun intended) ... handle... From msdn, "The WaitAll method returns when all the handles are signaled. On some implementations, if more than 64 handles are passed, a NotSupportedException is thrown." –  Charles Bretana Dec 30 '09 at 16:46
True, but the foreach approach doesn't work with AutoResetEvents (or more precisely, it will produce unpredictable results, and can cause deadlocks). –  Jeff Sternal Dec 30 '09 at 17:12
Maybe I will have to implement this approach if I reach the 64 threads limitation. Thanks for your contribution. –  Ignacio Soler Garcia Dec 30 '09 at 17:22
@Jeff Sternal, If I understand autoresetEvents properly, then you are correct. This would be totally inappropriate for autoResetEvents. But then the entire concept of "waiting" for every event in a collection of autoresetEvents itself doesn't make any sense... How can you wait for every event to be set, when every time you set one it gets reset (that is, cleared, ... assuming at least one thread is waiting)? –  Charles Bretana Dec 30 '09 at 17:31

If you just need to wait until the threads terminate, how about Thread.Join? In .NET 4.0 you could use Task.WaitAll. If you need to wait until they finish just part of their task it's a little tricker. In current versions of .NET look at WaitHandle.WaitAll/Threading.ManualResetEvent. In .NET 4.0 you can use Threading.Barrier.

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Nope, the threads don't terminate, just go over a point in their code. –  Ignacio Soler Garcia Dec 30 '09 at 16:21
@SoMoS: Look at the examples on MSDN for WaitHandle.WaitAll and ManualResetEvent. –  jason Dec 30 '09 at 17:10
up vote 1 down vote accepted

Ok, what I'm doing now (using your ideas) and seems to work is this:

I declared a list of ManualResetEvent:

Private m_waitHandles As List(Of Threading.ManualResetEvent)

The process accepts incoming Tcp connections and starts one thread on each connection. So at the new client handler I've added this code:

Dim waitHandle As Threading.ManualResetEvent
waitHandle = New Threading.ManualResetEvent(True)
SyncLock (DirectCast(m_waitHandles, IList).SyncRoot)
End SyncLock

''# Do all the work

SyncLock (DirectCast(m_waitHandles, IList).SyncRoot)
    waitHandle = m_waitHandles.Item(Threading.WaitHandle.WaitAny(m_waitHandles.ToArray()))
End SyncLock


SyncLock (DirectCast(m_waitHandles, IList).SyncRoot)
End SyncLock

The last thing done is to modify the Stop method to be sure that the Stop operation will not done with any thread inside the NonStoppableMethod:

SyncLock (DirectCast(m_waitHandles, IList).SyncRoot)
    If m_waitHandles.Count > 0 Then
    End If
End SyncLock

I'm not sure that this is done in a right way because it's the first time I deal with things like that. Do you feel that this is ok and is a good approach?

Thanks to all, mates!

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Glad we could help! –  Justin Rusbatch Dec 30 '09 at 17:37

Try using this:

int threadsCompleted = 0;
int numberOfThreads = 4;
ManualResetEvent completedEvent = new ManualResetEvent(false);

In each thread:

// Do task

if (Interlocked.Increment(threadsCompleted) == numberOfThreads)

Main thread:

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All over the internet people try to use an array of EventHandles and WaitAll(). I've come up with the following class which is much lighter on resources. I tried to think of different race scenarios and I believe there is no race condition in this code. (There is a theoretical race between decrementing and checking the condition on Count, but as far as I can tell it does not affect functionality and the code will still always work.)

To use this class, all threads that need synchronization must call its Wait() method. They will block until Count number of threads have called Wait(). A single instance can only be used to synchronize once (it cannot be reset).

internal class ThreadBarrier
    private ManualResetEvent BarrierEvent;
    private int Count;

    internal ThreadBarrier(int count)
        BarrierEvent = new ManualResetEvent(false);
        Count = count;

    internal void Wait()
        Interlocked.Decrement(ref Count);
        if (Count > 0)
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Yours is the method I came up with, right down to the classname. Mine differs in that I have a separate method for Releasing active threads, to give finer control over which thread blocks. –  Jason Slocomb Dec 20 '12 at 17:17

Use Thread.Join (that blocks the calling thread until a thread terminates, while continuing to perform standard COM and SendMessage pumping) method like in the example:

using System;
using System.Threading;

class IsThreadPool
    static void Main()
        AutoResetEvent autoEvent = new AutoResetEvent(false);

        Thread regularThread = 
            new Thread(new ThreadStart(ThreadMethod));
        ThreadPool.QueueUserWorkItem(new WaitCallback(WorkMethod), 

        // __________ Wait for foreground thread to end. __________ 

        // Wait for background thread to end.

    static void ThreadMethod()
        Console.WriteLine("ThreadOne, executing ThreadMethod, " +
            "is {0}from the thread pool.", 
            Thread.CurrentThread.IsThreadPoolThread ? "" : "not ");

    static void WorkMethod(object stateInfo)
        Console.WriteLine("ThreadTwo, executing WorkMethod, " +
            "is {0}from the thread pool.", 
            Thread.CurrentThread.IsThreadPoolThread ? "" : "not ");

        // Signal that this thread is finished.
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I'm not waiting for other threads to terminate, just to go over a certain point. –  Ignacio Soler Garcia Dec 30 '09 at 16:45
@SoMoS: I understand. Why not divide your task by two threads then? :) just wait the first, and leave the second. –  serhio Dec 30 '09 at 16:59
Does not look very good to split the work in two threads and the first one starting the second one when it ends. What if I need to check 2 points instead of 1? Thanks anyway mate! –  Ignacio Soler Garcia Dec 30 '09 at 17:05
@SoMoS: I think you can't have 2 points because the main thread can wait only once your thread(after starting it), after that it let it go... –  serhio Dec 30 '09 at 17:30

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