1. IObservable<T> src
  2. async Task F(T){...}.
  3. F can only be called sequentially. So await F(x);await F(y); is fine, but Task.Factory.ContinueWhenAll(new[]{F(x),F(y)}, _ => {...}); is wrong, because F(x) and F(y) must not run concurrently.

It is clear to me that await src.Do(F) is wrong, because it would run F concurrently.

My question is how to do it correctly?


The easiest way is to use TPL Dataflow, which will throttle to a single concurrent invocation by default, even for asynchronous methods:

var block = new ActionBlock<T>(F);
await block.Completion;

Alternatively, you could subscribe an asynchronous method that you throttle yourself:

var semaphore = new SemaphoreSlim(1);
src.Do(async x =>
  await semaphore.WaitAsync();
    await F(x);

Observable.Do is for side effects only, not for sequential composition. SelectMany may be what you want. As of Rx 2.0, there are overloads of SelectMany that make it really easy to compose observables with Task<T>. (Just be aware of the additional concurrency that may be introduced by these and similar Task/Observable coop operators.)

var q = from value in src
        from _ in F(value.X).AsVoidAsync()  // See helper definition below
        from __ in F(value.Y).AsVoidAsync()
        select value;

However, based on the fact that you specifically asked about the Do operator, I suspect that src may contain more than one value and you don't want overlapping calls to F for each value either. In that case, consider that SelectMany is actually just like Select->Merge; therefore, what you probably want is Select->Concat.

// using System.Reactive.Threading.Tasks

var q = src.Select(x => Observable.Defer(() => F(x).ToObservable())).Concat();

Don't forget to use Defer since F(x) is hot.

AsVoidAsync Extension:

IObservable<T> requires a T, yet Task represents void, thus Rx's conversion operators require us to get a Task<T> from a Task. I tend to use Rx's System.Reactive.Unit struct for T:

public static class TaskExtensions
  public static Task<Unit> AsVoidAsync(this Task task)
    return task.ContinueWith(t =>
      var tcs = new TaskCompletionSource<Unit>();

      if (t.IsCanceled)
      else if (t.IsFaulted)

      return tcs.Task;

Alternatively, you could always just call the specialized ToObservable method instead.

  • There is also a Merge overload with max_concurrent parameter. By setting this parameter to 1, you can achieve similar effect. msdn.microsoft.com/en-us/library/hh211914(v=vs.103).aspx See the answer of this question: stackoverflow.com/questions/25436542/… – nikoniko Aug 27 '14 at 3:21
  • That's not an approach I'd recommend though. 1. It's not immediately obvious that Merge(1) behaves like Concat. Concat has the correct semantics. 2. The implementation of Concat calls Merge(1) already (proving my first point). 3. The cost of Merge(1) could theoretically be slightly greater than Concat, since the former was designed to achieve bounded concurrency. The lower bound isn't necessarily implemented as a hot path. (I know it's a moot point due to #2, but that's an internal implementation detail that could change.) – Dave Sexton Aug 27 '14 at 11:48

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