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I am writing a library, and would like to be able to fire a callback on a specified thread, so the end-user does not have to worry about thread-safety.

I tried using ExecutionContext, but that didn't work out too well, it would fire in the specified context (a new thread), but not on the thread that originally called the function.

The code should work like this:

void Connect() {
  // This should be in the same thread ..
  SocketAsyncEventArgs.Completed += eventHandler;
  Socket.ConnectAsync(SocketAsyncEventArgs)
}

void eventHandler() {
  // .. as this
}
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When I write event handlers I annotate them as being run from the same thread (as the thread that created the object firing the event) or from a different thread. Then I leave it up to the consumer to read the contract and react accordingly (that is, the event handler is responsible to send/post to the appropriate thread is required) -- sometimes it's appropriate to return control to the UI thread (I like SynchronizationContext) while in other times it is very bad and can cause deadlocks. –  user166390 Sep 24 '11 at 2:29
    
In this case, how does annotation help? Will the framework and/or OS invoke the event handler on the proper thread? –  cHao Sep 24 '11 at 2:49
    
@cHAo "I leave it up to the consumer (handler)..." Hence why a comment, not an "answer" :) –  user166390 Sep 24 '11 at 3:07
1  
Somewhat like @pst, I always treat callbacks as if I have no idea which thread may be calling it. The callback code than has its own choice of synchro mechanism. This is safer and more flexible overall since the library is better encapsulated. The callback can sync. with a UI thread, post something to it, queue something onto a P-C queue for another non-UI thread or none of the above, as required. –  Martin James Sep 24 '11 at 8:03
    
Thank you for your comments, I found it to be really helpful. –  user215361 Sep 24 '11 at 11:19

2 Answers 2

up vote 2 down vote accepted

You can't just run your code on some existing thread. That thread is already executing other code. But, it can provide you some way to run your code on it. The main thread in a WPF application does this using Dispatcher.Invoke(). The main thread of a WinForms application uses Control.Invoke().

There is a more general way to do this: use Synchronization.Context.Current. This would work for the main thread of WPF or WinForms application, but would execute the callback on a thread pool thread otherwise. (Unless there is some sort of custom synchronization context, which I think is very rare.)

But this is the best you can do. Like I said, you can't run your code on some other thread when you want. The code in that other thread has to allow you to do that.

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I am accepting your answer, as it provides the most information. I am going to investigate ways of how a library can properly provide events for asynchronous operations (since I don't necessarily have an UI thread). –  user215361 Sep 24 '11 at 5:20

That's the thing about asynchronous functions -- you can't guarantee when you'll get called back, or what thread will be running your callback function. Consider that the cost of being able to "set it and forget it".

There's usually no need for that much control anyway. If you "need" to have a specific thread run your callback, what you really need is to review why that's necessary. If it's something that needs to run on the UI thread, there's Control.Invoke. (The UI thread anticipates needing to be handed stuff to do, because of how the architecture works, so controls have a way to pass callbacks to run on that thread. You can't just up and do that with arbitrary threads -- they have to be expecting to be passed a callback like that.) Otherwise, if you have an issue with locks or something, chances are you're trying to use asynchronous functionality to do stuff that should really be done synchronously in a separate thread.

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