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I am investigating async, and I have come across the following result which I cannot explain.

The following code (which can be copy/pasted into Linqpad or similar) gives the, to me, surprising result of using three threads from the thread pool.

void Main()
{
    Wait();
}

public async void Wait()
{
    Print ("Wait() called. Calling GetAnswer()");
    var t = await GetAnswerAsync3();
    Print("Result of Wait(): " + t);
}

public Task<bool> GetAnswerAsync3()
{
    return Task.Run(() => {
            // Thread.Sleep(1000);
        Print("GetAnswerAsync3() called");
        return true;
    });
}

public void Print(string message)
{
    Console.WriteLine ("Thread: " + Thread.CurrentThread.ManagedThreadId + " - " + message);
}

The result is:

Thread: 35 - Wait() called. Calling GetAnswer()
Thread: 51 - GetAnswerAsync3() called
Thread: 43 - Result of Wait(): True

Showing that there are three threads involved.

Now. If I add a Thread.Sleep(1000) to the Task returned by GetAnswerAsync3 before it returns, the result is now only two threads in action! Maybe this could be because the threadpool re-uses a thread?

Why are three different threads in action here?

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3

An async method is broken up into several pieces of work, which in this case are all scheduled to the thread pool. await designates a place where the async method may be "broken".

The first thread is the main thread, which is not part of the thread pool.

The second thread is one that is used to execute the delegate passed to Task.Run. This can be any thread on the thread pool.

The third thread is one that is used to pick up the execution of Wait after its await. This can also be any thread on the thread pool.

Conceptually, that's what happens. In reality, it's a bit more complex:

I think it's easier to explain with the Thread.Sleep first. In this case, Wait has been completely suspended by its await before the Task.Run completes. When the Task.Run completes, it executes its continuations, and the continuation of an async method has ExecuteSynchronously set (described on my blog). So the same thread running Thread.Sleep actually continues executing Wait without yielding.

Your original code has a race condition: the Task.Run is very short so it will complete quickly. What you're seeing is that Wait checks the Task and sees it has not yet completed and suspends the Wait method. In the meantime, Task.Run completes and will schedule the remainder of Wait to the thread pool.

If you want to learn more about how await works with contexts, I recommend my async intro. You usually don't have to worry about the details like this.

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  • That makes sense. Why does it change when the Thread.Sleep() is added? – kasperhj Jul 1 '13 at 17:56
  • Without the Sleep, there's a race condition where the second thread is still considered busy working when the continuation is scheduled onto a third thread. With the Sleep, the method is already suspended by the time the Task completes, so (as an optimization) the second thread will just execute the continuation directly. – Stephen Cleary Jul 1 '13 at 18:06
  • If I, with the Sleep in place, add ConfigureAwait(false) to GetAnswerAsync(), why isn't there going to be three threads again? – kasperhj Jul 1 '13 at 18:11
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    ConfigureAwait(false) means that you don't care whether the current context is captured by await and used to continue the method. It does not mean "force this to be scheduled on the thread pool instead of executed directly". – Stephen Cleary Jul 1 '13 at 18:16
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    I cover this in my async intro - again, please read it. By default, await will capture the current SynchronizationContext (unless it is null, in which case it uses the current TaskScheduler), and it will use that context to resume the async method. So if this is a UI app, it will return to the UI thread. Console apps don't have a SyncCtx, but you can provide one of your own. – Stephen Cleary Jul 2 '13 at 14:24

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