Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

I have an interleaved stream which I split into separate sequential streams.

Producer

int streamCount = 3;

new MyIEnumerable<ElementType>()
.ToObservable(Scheduler.ThreadPool)
.Select((x,i) => new { Key = (i % streamCount), Value = x })
.Subscribe(x => outputs[x.Key].OnNext(x.Value));

Where outputs[] are Subjects which process the streams are defined below. The .ObserveOn() is used to process the streams concurrently (multi-threaded).

Consumers

var outputs = Enumerable.Repeat(0, streamCount).Select(_ => new Subject<char>()).ToArray();                                                                                                     

outputs[0].ObserveOn(Scheduler.ThreadPool).Subscribe(x => Console.WriteLine("stream 0: {0}", x));
outputs[1].ObserveOn(Scheduler.ThreadPool).Subscribe(x => Console.WriteLine("stream 1: {0}", x));
outputs[2].ObserveOn(Scheduler.ThreadPool).Subscribe(x => Console.WriteLine("stream 2: {0}", x));

The problem with this code is that it will read the entire enumerable as fast as possible, even if the output streams cannot catch up. In my case the enumerable is a file stream so this might cause using a lot of memory. Therefore, I would like the reading to block if the buffer(s) reach some threshold.

share|improve this question
add comment

2 Answers

I have solved this by using a semaphore on the producer and consumers like shown below. However, I am not sure that this is considered a good solution (in terms of Rx contracts, programming style, etc).

var semaphore = new SemaphoreSlim(MAX_BUFFERED_ELEMENTS);

// add to producer (before subscribe)
.Do(_ => semaphore.Wait());

// add to consumer (before subscribe)
.Do(_ => semaphore.Release()))

It might be a good idea to pass a CancelationToken to the call to Wait() and make sure it is cancelled when the stream stops abnormally?

share|improve this answer
add comment

I think your solution is very reasonable. The biggest problem (having some background to the previous question) is that the 'insides' of your solution are currently exposed everywhere. Just make sure that when you code this properly you clean up the following:

  • Wrap everything into a class that exposes a single method: IDisposable Subscribe(<index>, Action) or alternatively IObservable<element> ToObservable(<index>)). Either the returned subscription or the returned observable will have all the 'work' already done to them, namely the added Do actions and so forth. The fact that there's a dictionary or list under it all should be completely irrelevant to the user, otherwise any change to your code here will require changes all over the place.

  • A CancelationToken is a great idea, make sure to cancel it on either OnCompleted or OnError, which you can do using overloads to Do.

share|improve this answer
add comment

Your Answer

 
discard

By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.