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I am looking at ways to implement co-routines (user scheduled threads) in c#. When using c++ I was using fibers. I see on the internet fibers do not exist in C#. I would like to get similar functionality.

Is there any "right" way to implement coroutines in c#?

I have thought of implementing this using threads that acquire a single execution mutex + 1 on scheduler thread which releases this mutex for each coroutine. But this seems very costly (it forces a context switch between each coroutine)

I have also seen the yield iterator functionality, but as I understand you can't yield within an internal function (only in the original ienumerator function). So this does me little good.

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You may find this useful/interesting: – gsscoder Jun 11 '12 at 9:57

4 Answers 4

I believe that you should look at the the Reactive Extensions for .NET. For example coroutines can be simulated using iterators and the yield statement.

However you may want to read this SO question too.

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Iterator blocks are no longer relevant as of Rx 2.0, which now provides overloads of Observable.Create that accept a Task-returning function, thus conflating the creation of an observable (call/cc) with C# 5's native coroutines (async/await). This can be defined as an "asynchronous iterator". See this thread for more info and my blog post for a comparison. – Dave Sexton Sep 16 '14 at 3:00
@DaveSexton - feel free to edit the answer – Preet Sangha Sep 16 '14 at 4:11
Hmm, ok thanks. I'm fairly new to SO and I wasn't sure about wiki etiquette. I'll read up on the "rules" first. – Dave Sexton Sep 16 '14 at 6:03
No worries - the bottom line is that if you can improve something then you should. – Preet Sangha Sep 16 '14 at 11:11
Well I changed it by adding an "Edit:" section below the original but apparently it was rejected? "This edit changes too much in the original post; the original meaning or intent of the post would be lost." I disagree that it changes the original intent, but aren't you really the only one who knows your "original intent"? – Dave Sexton Sep 16 '14 at 19:18

I believe with the new .NET 4.5\C# 5 the async\await pattern should meet your needs.

async Task<string> DownloadDocument(Uri uri)
  var webClient = new WebClient();
  var doc = await webClient.DownloadStringTaskAsync(url);
  // do some more async work  
  return doc;  

I suggest looking at for more info. It is a great presentation.

Also has some great information.

If you are using an older version of .NET there is a Async CTP available for older .NET with a go live license so you can use it in production environments. Here is a link to the CTP

If you don't like either of the above options I believe you could follow the async iterator pattern as outlined here.

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Here is an example of using threads to implement coroutines:

So I cheat. I use threads, but I only let one of them run at a time. When I create a coroutine, I create a thread, and then do some handshaking that ends with a call to Monitor.Wait(), which blocks the coroutine thread — it won’t run anymore until it’s unblocked. When it’s time to call into the coroutine, I do a handoff that ends with the calling thread blocked, and the coroutine thread runnable. Same kind of handoff on the way back.

Those handoffs are kind of expensive, compared with other implementations. If you need speed, you’ll want to write your own state machine, and avoid all this context switching. (Or you’ll want to use a fiber-aware runtime — switching fibers is pretty cheap.) But if you want expressive code, I think coroutines hold some promise.

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One limitation with using threads is that (in both Winforms and WPF, I believe) the controls of a form which was created by thread Larry cannot be accessed by thread Moe, even if thread Larry is not doing anything with the form and will be blocked until Moe isn't doing anything with it either. If two coroutines could run on the same OS thread, they could share resources which are otherwise only usable by the creating thread. – supercat May 20 '13 at 19:19

You may be interested in this is a library that hides the usage of coroutines. For example to read a file:

//Prepare the file stream
FileStream sourceStream = File.Open("myFile.bin", FileMode.OpenOrCreate);
sourceStream.Seek(0, SeekOrigin.End);

//Invoke the task
yield return InvokeTaskAndWait(sourceStream.WriteAsync(result, 0, result.Length));

//Close the stream

This library uses one thread to run all coroutines and allow calling the task for the truly asynchronous operations. For example to call another method as a coroutine (aka yielding for its return

//Given the signature
//IEnumerable<string> ReadText(string path);

var result = new Container();
yield return InvokeLocalAndWait(() => _globalPathProvider.ReadText(path), container);
var data = container.RawData as string;
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