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I have an asynchronous method RequestInternalAsync() which makes requests to an external resource, and want to write a wrapper method which limits a number of concurrent asynchronous requests to the method by reducing parallelism.

First option, that comes to mind is a TaskScheduler with limited concurrency (LimitedConcurrencyLevelTaskScheduler, ConcurrentExclusiveSchedulerPair etc.).

But to run a task with a custom scheduler, I have to start the task using a TaskFactory which accepts only Action<>, i.e. I cannot do it by not blocking an extra thread for just waiting for execution of inner method.

Second option is SemaphoreSlim, it does its job, but in this case I'm implementing throttling myself, instead of using a TaskScheduler.

static void Main(string[] args)
{
    // TESTING 1

    var task1 = Task.WhenAll(Enumerable.Range(1, 10).Select(i => RequestAsyncBad()));

    task1.Wait();

    // TESTING 2

    var task2 = Task.WhenAll(Enumerable.Range(1, 10).Select(i => RequestAsyncBetter()));

    task2.Wait();
}

private static Task RequestInternalAsync()
{
    return Task.Delay(500);
}

Solution #1:

private static readonly ConcurrentExclusiveSchedulerPair _concurrentPair
    = new ConcurrentExclusiveSchedulerPair(TaskScheduler.Default, 2);

public static Task RequestAsyncBad()
{
    // Dumb: Because TaskFactory doesn't provide an overload which accepts another task, only action.
    // As result, we blocking a thread to just wait until the inner task finishes.

    return Task.Factory.StartNew(() => RequestInternalAsync().Wait(),
        CancellationToken.None, TaskCreationOptions.DenyChildAttach, _concurrentPair.ConcurrentScheduler);
}

Solution #2 (better):

private static readonly SemaphoreSlim _semaphore = new SemaphoreSlim(2);

public static async Task RequestAsyncBetter()
{
    // Here we don't waste thread-pool thread on waiting for a completion of inner task,
    // but instead of using TaskScheduler, implementing a hand-made stuff with semaphore. 

    await _semaphore.WaitAsync().ConfigureAwait(false);

    try
    {
        await RequestInternalAsync();
    }
    finally
    {
        _semaphore.Release();
    }
}

What is the more elegant way to do this?

  • to reuse standard Task API of TPL and TaskScheduler
  • and not block an extra thread
share|improve this question

2 Answers 2

up vote 6 down vote accepted

TaskScheduler is only useful for CPU-bound work. Your work is not using threads. It uses IO completion ports which means that your network call does not hold any threads at all. There is no way to involve a TaskScheduler for an IO operation.

If you're not yet convinced: Async IO in .NET is based on using TaskCompletionSource which is not bound to threads or schedulers in the slightest way.

SemaphoreSlim is the right way to do it. Or, create a ServicePoint and set its maximum concurrency. Only applicable for HTTP requests.

Note, that if you find yourself using Wait you should hesitate and think about what you're doing. Often, this is a mistake.

share|improve this answer
    
Thanks! So, as I understand, TaskSchedulers only responsible WHEN and WHERE to start a task, but not designed to control life-time of the started task? –  Sergey Kostrukov May 8 '14 at 20:03
2  
I would not say that. Note, that there are two kinds of tasks (and this is confusing!): CPU-work (a task backed by a delegate that eventually runs) and "other work" backed by TaskCompletionSource. Only the first case uses TaskScheduler (and it always uses one). So I'd say that a TaskScheduler is responsible for completing a task that is backed by a delegate by running the delegate when and where it sees fit. –  usr May 8 '14 at 20:06
    
Neither is it possible to give TCS a scheduler not does the TPL ever ask one to execute a TCS-based task.; I believe that understanding this point is quite enlightening when working with the TPL. –  usr May 8 '14 at 20:15
    
+1. I've recently started using the terms "Delegate Task" and "Promise Task" to distinguish the different types of tasks. Not saying that everyone has to use that terminology, but it may be helpful when discussing the difference. –  Stephen Cleary May 8 '14 at 20:37
    
@StephenCleary The problem for me was that I haven't found any source of information where it could be explained what TaskSchedulers are designed for, and why TaskFactory intentionally accepts only delegates. Thanks for your comment. I really like reading your blog, and looking forward to read your book when it comes to Kindle :) –  Sergey Kostrukov May 8 '14 at 21:00
public static async Task RequestAsyncCool()
{
    await Task.Factory.StartNew(async () => {
            await RequestInternalAsync();
        },
        CancellationToken.None, 
        TaskCreationOptions.DenyChildAttach, 
        TaskScheduler.Current);
}

You really shouldn't Wait for Tasks. See https://www.google.com/search?q=task+wait+deadlock

Did you look into TPL DataFlow? It might be just the thing for you...

share|improve this answer
    
    
The problem here is that if I place an asynchronous method into Task.Factory.StartNew which accepts Func<Task>, and limit concurrency by specifying a custom TaskScheduler, then concurrency limit will only work for a first part of my async methods, it won't wait until the first 2 methods finished before starting new methods (2 is my limit of parallelism). That's why I had to place Wait() there, and that's why I disliked this and asked this question :) –  Sergey Kostrukov May 8 '14 at 19:42

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