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I'm trying to understand the purpose of TaskCompletionSource and its relation to async/threadless work. I think I have the general idea but I want to make sure my understanding is correct.

I first started looking into the Task Parallel Librry (TPL) to figure out if there was a good way to create your own threadless/async work (say your trying to improve scalability of your ASP.NET site) plus understanding of the TPL looks like it will be very important in the future (async/await). Which led me to the TaskCompletionSource.

From my understanding it looks like adding TaskCompletionSource to a one of your classes doesn't really do much in as making your coding async; if you're still executing sync code then the call to your code will block. I think this is even true of microsoft apis. For example say in 'DownloadStringTaskAsync" off of WebClient class, any setup / sync code they are doing initially will block. The code your executing has to run on some thread, either the current thread or you will have to spin off a new one.

So you use the TaskCompletionSource in your own code when your calling other async calls from microsoft so the client of your classes doesn't have to create a new thread for your class to not block.

Not sure how microsoft does their async apis internally. For example there is a new Async methods off of the SqlDataReader for .Net 4.5. I know there is IO Completion Ports. I think it's a lower level abstraction (C++?) that probably most C# developers won't use. Not sure if IO completion Ports will work for say Database or network calls (HTTP) or if its just used for file IO.

So the question is am I correct in my understanding correct? Are there certain things I've represented incorrectly?

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what's the question here? –  Russ Cam May 2 '12 at 18:42
    
If my understanding is correct...not sure if it is or not –  coding4fun May 2 '12 at 18:43

2 Answers 2

up vote 36 down vote accepted

TaskCompletionSource is used to create Task objects that don't execute code.

They're used quite a bit by Microsoft's new async APIs - any time there's I/O-based asynchronous operations (or other non-CPU-based asynchronous operations, like a timeout). Also, any async Task method you write will use TCS to complete its returned Task.

I have a blog post Creating Tasks that discusses different ways to create Task instances. It's written from an async/await perspective (not a TPL perspective), but it still applies here.

Also see Stephen Toub's excellent posts:

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Thanks Stephen but is my understanding on the internals correct? –  coding4fun May 2 '12 at 19:09
1  
Any asynchronous method does (of course) have a synchronous portion that is used to start the asynchronous operation. IIRC, IOCPs can be used for any kind of HANDLE-based data transfer, and it's not uncommon (today) to have an IOCP operation wrapped in a Begin/End wrapped in an async method that wraps it in a Task (using TaskCompletionSource). –  Stephen Cleary May 2 '12 at 23:06
    
I also am trying to understand the usage of TaskCompletionSource, and I'm a bit confused as to why you would have a task that doesn't execute code. I read your blog post; it seems that TCS is used as an event that a caller can subscribe to, but why would you want to do that when you can use a regular Task and wait on the Task till it completes? –  Tola Odejayi Sep 19 at 7:32
    
TaskCompletionSource is logically more of an event handler, and produces a Task that other code can await. There are two kinds of tasks: Delegate Tasks and Promise Tasks; I have a blog post that explains some of the differences. –  Stephen Cleary Sep 19 at 12:36

I like the explanation provided in

http://tutorials.csharp-online.net/TaskCompletionSource

First two paragraphs are below

We've seen how Task.Run creates a task that runs a delegate on a pooled (or non-pooled) thread. Another way to create a task is with TaskCompletionSource.

TaskCompletionSource lets you create a task out of any operation that starts and finishes some time later. It works by giving you a "slave" task that you manually drive—by indicating when the operation finishes or faults. This is ideal for I/O- bound work: you get all the benefits of tasks (with their ability to propagate return values, exceptions, and continuations) without blocking a thread for the duration of the operation.

To use TaskCompletionSource, you simply instantiate the class. It exposes a Task property that returns a task upon which you can wait and attach continuations—just as with any other task. The task, however, is controlled entirely by the TaskCompletionSource object via the following methods:

public class TaskCompletionSource<TResult> 
{ 
 public void SetResult(TResult result); 
 public void SetException (Exception exception); 

 public void SetCanceled();   
 public bool TrySetResult (TResult result); 
 public bool TrySetException (Exception exception); 
 public bool TrySetCanceled();
 ... 
}

Calling any of these methods signals the task, putting it into a completed, faulted, or canceled state (we'l cover the latter in the section "Cancellation"). You'e supposed to call one of these methods exactly once: if called again, SetResult, SetException, or SetCanceled will throw an exception, whereas the Try* methods return false.

The following example prints 42 after waiting for five seconds:

var tcs = new TaskCompletionSource<int>();
new Thread (() =>     {
                       Thread.Sleep (5000); 
                       tcs.SetResult (42); 
                      })    
           .Start();   
Task<int> task = tcs.Task;    // Our "slave" task. 
Console.WriteLine(task.Result);  // 42

Other interesting quotes

The real power of TaskCompletionSource is in creating tasks that don't tie up threads.

.. and later on

Our use of TaskCompletionSource without a thread means that a thread is engaged only when the continuation starts, five seconds later. We can demonstrate this by starting 10,000 of these operations at once without error or excessive resource consumption:

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