Announcing Stack Overflow Documentation

We started with Q&A. Technical documentation is next, and we need your help.

Whether you're a beginner or an experienced developer, you can contribute.

Sign up and start helping → Learn more about Documentation →

I'm writing a networked application.

Messages are sent over the transport as such:

Network.SendMessage (new FirstMessage() );

I can register an event handler to be called when this message type arrives, like so:

Network.RegisterMessageHandler<FirstMessage> (OnFirstMessageReceived);

And the event gets fired:

public void OnFirstMessageReceived(EventArgs<FirstMessageEventArgs> e)

I'm writing a custom authentication procedure for my networked application, which requires around five messages to complete.

Without using the Task Parallel Library, I would be forced to code the next step of each procedure in the preceding event handler, like so:

public void OnFirstMessageReceived(EventArgs<FirstMessageEventArgs> e)
     Network.SendMessage( new SecondMessage() );

public void OnSecondMessageReceived(EventArgs<SecondMessageEventArgs> e)
     Network.SendMessage( new ThirdMessage() );

public void OnThirdMessageReceived(EventArgs<ThirdMessageEventArgs> e)
     Network.SendMessage( new FourthMessage() );

public void OnFourthMessageReceived(EventArgs<FourthMessageEventArgs> e)
     // Authentication is complete

I don't like the idea of jumping around the source code to code a portion of this and a portion of that. It's hard to understand and edit.

I hear the Task Parallel Library substantially simplifies this solution.

However, many of the examples I read using the Task Parallel Library were related to starting a chain of active tasks. What I mean by 'active', is that each task could start when called explicitly, like so:

public void Drink() {}
public void Eat()   {}
public void Sleep() {}

Task.Factory.StartNew(     () => Drink() )
            .ContinueWith( () => Eat()   )
            .ContinueWith( () => Sleep() );

This is opposite from my event-based async pattern, in which each event handler method is called only when the message is received.

In other words, I can't do something like this (but I want to):

Task.Factory.StartNew(     () => OnFirstMessageReceived()  )
            .ContinueWith( () => OnSecondMessageReceived() )
            .ContinueWith( () => OnThirdMessageReceived()  )
            .ContinueWith( () => OnFourthMessageReceived() );

I've read this article, but I don't quite understand it. It seems like what I need has to do with TaskCompletionSource. If I wanted to make a task from my event-based async pattern like the code block above, what would it look like?

share|improve this question
up vote 15 down vote accepted

You're right about TaskCompletionSource, it's the key to transforming EAP (event-based asynchronous pattern) to TPL's Task

Here is the simplified code:

public static class Extensions  
    public static Task<XDocument> GetRssDownloadTask(
        this WebClient client, Uri rssFeedUri)
        // task completion source is an object, which has some state.
        // it gives out the task, which completes, when state turns "completed"
        // or else it could be canceled or throw an exception
        var tcs = new TaskCompletionSource<XDocument>(); 

        // now we subscribe to completed event. depending on event result
        // we set TaskCompletionSource state completed, canceled, or error
        client.DownloadStringCompleted += (sender, e) => 
                  else if(null != e.Error)

        // now we start asyncronous operation
        // and return the underlying task immediately
        return tcs.Task;

Now, all you need to do, to make a chain of those operations, is just to set your continuations (which is not very comfortable at the moment, and the C# 5 await and async will help alot with it)

So, this code could be used like this:

public static void Main()
    var client = new WebClient();

        new Uri("http://blogs.msdn.com/b/ericlippert/rss.aspx"))
        .ContinueWith( t => {
            ShowXmlInMyUI(t.Result); // show first result somewhere
            // start a new task here if you want a chain sequence

    // or start it here if you want to get some rss feeds simultaneously

    // if we had await now, we would add 
    // async keyword to Main method defenition and then

    XDocument feedEric = await client.GetRssDownloadTask(
        new Uri("http://blogs.msdn.com/b/ericlippert/rss.aspx"));
    XDocument feedJon = await client.GetRssDownloadTask(
        new Uri("http://feeds.feedburner.com/JonSkeetCodingBlog?format=xml"));
    // it's chaining - one task starts executing after 
    // another, but it is still asynchronous
share|improve this answer
This is a great tip, and really allowed me to work with the WebClient much easier. Thanks!! – Ryan Hoffman Sep 23 '12 at 4:26

Jeremy Likness has a blog entry title Coroutines for Asynchronous Sequential Workflows using Reactive Extensions (Rx) that might interest you. Here is the question he tries to answer:

The concept is straightforward: there are often times we want an asynchronous set of operations to perform sequentially. Perhaps you must load a list from a service, then load the selected item, then trigger an animation. This can be done either by chaining the completed events or nesting lambda expressions, but is there a cleaner way?

share|improve this answer
Very interesting. That can definitely be useful. I'll see what other answers come up, especially those using the Task Parallel Library. – Jason Sep 8 '11 at 1:38

Your Answer


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.