AFAIK, all it knows is that at some point, its SetResult or SetException method is being called to complete the Task<T> exposed through its Task property.

In other words, it acts as the producer for a Task<TResult> and its completion.

I saw here the example :

If I need a way to execute a Func asynchronously and have a Task to represent that operation.

public static Task<T> RunAsync<T>(Func<T> function) 
{ 
    if (function == null) throw new ArgumentNullException(“function”); 
    var tcs = new TaskCompletionSource<T>(); 
    ThreadPool.QueueUserWorkItem(_ => 
    { 
        try 
        {  
            T result = function(); 
            tcs.SetResult(result);  
        } 
        catch(Exception exc) { tcs.SetException(exc); } 
    }); 
    return tcs.Task; 
}

Which could be used *if I didn’t have Task.Factory.StartNew - But I do have Task.Factory.StartNew.

Question:

Can someone please explain by example a scenario related directly to TaskCompletionSource and not to a hypothetical situation in which I don't have Task.Factory.StartNew?

  • 3
    TaskCompletionSource is mainly used for wrapping event based async api with Task without making new Threads. – Arvis Jun 11 '15 at 13:25
up vote 181 down vote accepted

I mostly use it when only a event based api is available (for example windows phone 8 sockets):

public Task<Args> SomeApiWrapper()
{
    TaskCompletionSource<Args> tcs = new TaskCompletionSource<Args>(); 

    var obj = new SomeApi();

    // will get raised, when the work is done
    obj.Done += (args) => 
    {
        // this will notify the caller 
        // of the SomeApiWrapper that 
        // the task just completed
        tcs.SetResult(args);
    }

    // start the work
    obj.Do();

    return tcs.Task;
}

So it's especially useful when used together with the c#5 async keyword.

  • 3
    can you write in words what do we see here? is it like that SomeApiWrapper is waited upon somewhere , untill the publisher raise the event which cause this task to complete ? – Eris Mar 9 '13 at 22:35
  • have a look at the link I just added – GameScripting Mar 9 '13 at 22:35
  • my question id not tagged as c#5 and i was looking for .net4 usages. – Eris Mar 10 '13 at 9:34
  • 4
    Just an update, Microsoft has released the Microsoft.Bcl.Async package on NuGet which allows the async/await keywords in .NET 4.0 projects (VS2012 and higher is recommended). – Erik Feb 1 '14 at 18:41
  • 1
    @Fran_gg7 you could use a CancellationToken, see msdn.microsoft.com/en-us/library/dd997396(v=vs.110).aspx or as a new question here on stackoverflow – GameScripting Jul 28 '15 at 14:49

In my experiences, TaskCompletionSource is great for wrapping old asynchronous patterns to the modern async/await pattern.

The most beneficial example I can think of is when working with Socket. It has the old APM and EAP patterns, but not the awaitable Task methods that TcpListener and TcpClient have.

I personally have several issues with the NetworkStream class and prefer the raw Socket. Being that I also love the async/await pattern, I made an extension class SocketExtender which creates several extension methods for Socket.

All of these methods make use of TaskCompletionSource<T> to wrap the asynchronous calls like so:

    public static Task<Socket> AcceptAsync(this Socket socket)
    {
        if (socket == null)
            throw new ArgumentNullException("socket");

        var tcs = new TaskCompletionSource<Socket>();

        socket.BeginAccept(asyncResult =>
        {
            try
            {
                var s = asyncResult.AsyncState as Socket;
                var client = s.EndAccept(asyncResult);

                tcs.SetResult(client);
            }
            catch (Exception ex)
            {
                tcs.SetException(ex);
            }

        }, socket);

        return tcs.Task;
    }

I pass the socket into the BeginAccept methods so that I get a slight performance boost out of the compiler not having to hoist the local parameter.

Then the beauty of it all:

 var listener = new Socket(AddressFamily.InterNetwork, SocketType.Stream, ProtocolType.Tcp);
 listener.Bind(new IPEndPoint(IPAddress.Loopback, 2610));
 listener.Listen(10);

 var client = await listener.AcceptAsync();
  • 1
    Why would Task.Factory.StartNew not have worked here? – Tola Odejayi Sep 19 '14 at 7:24
  • 17
    @Tola As that would have created a new task running on a threadpool thread, but the code above utilizes the i/o completion thread started by BeginAccept, i.o.w.: it doesn't start a new thread. – Frans Bouma Nov 11 '14 at 11:47
  • 2
    Thanks, @Frans-Bouma. So TaskCompletionSource is a handy way of converting code that uses the Begin... End... statements into a task? – Tola Odejayi Nov 12 '14 at 0:56
  • 2
    @TolaOdejayi Bit of a late reply, but yes that is one of the primary use cases I have found for it. It works wonderfully for this transition of code. – Erik Apr 18 '15 at 18:01
  • Look at the TaskFactory<TResult>.FromAsync to wrap Begin.. End... statements. – MicBig Oct 2 at 7:40

To me, a classic scenario for using TaskCompletionSource is when it's possible that my method won't necessarily have to do a time consuming operation. What it allows us to do is to choose the specific cases where we'd like to use a new thread.

A good example for this is when you use a cache. You can have a GetResourceAsync method, which looks in the cache for the requested resource and returns at once (without using a new thread, by using TaskCompletionSource) if the resource was found. Only if the resource wasn't found, we'd like to use a new thread and retrieve it using Task.Run().

A code example can be seen here: How to conditionally run a code asynchonously using tasks

  • I did see your question and also the answer. (look at my comment to the answer ) ....:-) and indeed it is an educative question and answer. – Eris Mar 10 '13 at 9:35
  • 6
    This is actually not a situation in which TCS is needed. You can simply use Task.FromResult to do this. Of course, if you're using 4.0 and don't have a Task.FromResult what you'd use a TCS for is to write your own FromResult. – Servy Jan 8 '14 at 19:26
  • @Servy Task.FromResult is only available since .NET 4.5. Before that, that was the way to achieve this behavior. – Adi Lester Jan 8 '14 at 19:32
  • @AdiLester You're answer is referencing Task.Run, indicating it's 4.5+. And my previous comment specifically addressed .NET 4.0. – Servy Jan 8 '14 at 19:34
  • @Servy Not everyone reading this answer is targeting .NET 4.5+. I believe this is a good and valid answer that helps people asking the OP's question (which by the way is tagged .NET-4.0). Either way, downvoting it seems a bit much to me, but if you really believe it deserves a downvote then go ahead. – Adi Lester Jan 8 '14 at 19:38

In this blog post, Levi Botelho describes how to use the TaskCompletionSource to write an asynchronous wrapper for a Process such that you can launch it and await its termination.

public static Task RunProcessAsync(string processPath)
{
    var tcs = new TaskCompletionSource<object>();
    var process = new Process
    {
        EnableRaisingEvents = true,
        StartInfo = new ProcessStartInfo(processPath)
        {
            RedirectStandardError = true,
            UseShellExecute = false
        }
    };
    process.Exited += (sender, args) =>
    {
        if (process.ExitCode != 0)
        {
            var errorMessage = process.StandardError.ReadToEnd();
            tcs.SetException(new InvalidOperationException("The process did not exit correctly. " +
                "The corresponding error message was: " + errorMessage));
        }
        else
        {
            tcs.SetResult(null);
        }
        process.Dispose();
    };
    process.Start();
    return tcs.Task;
}

and its usage

await RunProcessAsync("myexecutable.exe");

TaskCompletionSource is used to create Task objects that don't execute code. In Real World Scenarios TaskCompletionSource is ideal for I/O bound operations. This way you get all the benefits of tasks (e.g. return values, continuations etc) without blocking a thread for the duration of the operation. If your "function" is an IO bound operation it isn't recommended to block a thread using a new Task. Instead using TaskCompletionSource you can create a slave task to just indicate when your I/O bound operation finishes or faults.

It looks like no one mentioned, but I guess unit tests too can be considered real life enough.

I find TaskCompletionSource to be useful when mocking a dependency with an async method.

In actual program under test:

public interface IEntityFacade
{
  Task<Entity> GetByIdAsync(string id);
}

In unit tests:

// set up mock dependency (here with NSubstitute)

TaskCompletionSource<Entity> queryTaskDriver = new TaskCompletionSource<Entity>();

IEntityFacade entityFacade = Substitute.For<IEntityFacade>();

entityFacade.GetByIdAsync(Arg.Any<string>()).Returns(queryTaskDriver.Task);

// later on, in the "Act" phase

private void When_Task_Completes_Successfully()
{
  queryTaskDriver.SetResult(someExpectedEntity);
  // ...
}

private void When_Task_Gives_Error()
{
  queryTaskDriver.SetException(someExpectedException);
  // ...
}

After all, this usage of TaskCompletionSource seems another case of "a Task object that does not execute code".

There's a real world example with a decent explanation in this post from the "Parallel Programming with .NET" blog. You really should read it, but here's a summary anyway.

The blog post shows two implementations for:

"a factory method for creating “delayed” tasks, ones that won’t actually be scheduled until some user-supplied timeout has occurred."

The first implementation shown is based on Task<> and has two major flaws. The second implementation post goes on to mitigate these by using TaskCompletionSource<>.

Here's that second implementation:

public static Task StartNewDelayed(int millisecondsDelay, Action action)
{
    // Validate arguments
    if (millisecondsDelay < 0)
        throw new ArgumentOutOfRangeException("millisecondsDelay");
    if (action == null) throw new ArgumentNullException("action");

    // Create a trigger used to start the task
    var tcs = new TaskCompletionSource<object>();

    // Start a timer that will trigger it
    var timer = new Timer(
        _ => tcs.SetResult(null), null, millisecondsDelay, Timeout.Infinite);

    // Create and return a task that will be scheduled when the trigger fires.
    return tcs.Task.ContinueWith(_ =>
    {
        timer.Dispose();
        action();
    });
}
  • would be better to use await on tcs.Task and then use the action() after – Eris Jul 14 '14 at 13:53
  • @RoyiNamir Why? :) – urig Jul 14 '14 at 14:31
  • 4
    beucase you're back to the context where you left , where Continuewith doesn't preserver the context. (not by default) also if the next statement in action() causes an exception , it would be hard to catch it where using await will show you as a regular exception. – Eris Jul 14 '14 at 14:32
  • 2
    Why not just await Task.Delay(millisecondsDelay); action(); return; or (in .Net 4.0) return Task.Delay(millisecondsDelay).ContinueWith( _ => action() ); – sgnsajgon Sep 7 '14 at 21:11
  • @sgnsajgon that would be certainly easier to read and to maintain – JwJosefy Oct 23 '14 at 21:19

I real world scenario where I have used TaskCompletionSource is when implementing a download queue. In my case if the user starts 100 downloads I don't want to fire them all off at once and so instead of returning a strated task I return a task attached to TaskCompletionSource. Once the download gets completed the thread that is working the queue completes the task.

The key concept here is that I am decoupling when a client asks for a task to be started from when it actually gets started. In this case because I don't want the client to have to deal with resource management.

note that you can use async/await in .net 4 as long as you are using a C# 5 compiler (VS 2012+) see here for more details.

This may be oversimplifying things but the TaskCompletion source allows one to await on an event. Since the tcs.SetResult is only set once the event occurs, the caller can await on the task.

Watch this video for more insights:

http://channel9.msdn.com/Series/Three-Essential-Tips-for-Async/Lucian03-TipsForAsyncThreadsAndDatabinding

  • Please place relevant code or documentation here as links can change over time and make this answer irrelevant. – rfornal Apr 2 '15 at 19:22

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