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I am new to asynchronous programming. I have a C# dll with an asynchronous method that gets called, takes a function pointer (delegate) and calls this callback function after "result" is calculated.

public delegate void CreatedDelegate(Foo result);

public void CreateAsync(CreatedDelegate createdCallback)
        Task t = Task.Factory.StartNew(() =>
                                        Foo result = ...

The delegate callback of type "CreatedDelegate" is (in my case) a function pointer to a C++/CLI method that works with the result.

void CreatedCallback(Foo^ result)
    // do something with result

So this asynchronous concept seems to work quite well in most cases, but sometimes I encounter some errors. How can I achieve it if the function "CreateAsync" is called multiple times with different computation effort, that the resulting calls to "CreatedCallback" just happen in the same order as originally "CreateAsync" was called? To make it clearer: The first call to "CreateAsync" should result in the first call to "CreatedCallback" even if a succeeding call of "CreateAsync" is faster and would actually call the callback earlier.

Maybe this can be done by allowing only one active new thread in the asynchronous "CreateAsync" at a time?

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This is not how threading works, starting more than one and having them complete out of order in unpredictable ways is by design. Use a producer/consumer pattern if that's a problem. –  Hans Passant Oct 11 '11 at 14:02

2 Answers 2

up vote 1 down vote accepted

To process the callbacks in order, you'll need to implement some queueing of work items. The easiest way is probably to use BlockingCollection type (see MSDN documentation).

Instead of calling the callback, your CreateAsync method would add the task (together with the callback) to the queue:

// Queue to keep tasks and their callbacks
private BlockingCollection<Tuple<Task<Foo>, CreatedDelegate>> 
  queue = new BlockingCollection<Tuple<Task<Foo>, CreatedDelegate>>()

public void CreateAsync(CreatedDelegate createdCallback) {
    Task<Foo> t = Task.Factory.StartNew(() =>  { 
      Foo result = ... 
      return result; });
    queue.Add(Tuple.Create(t, createdCallback));
    // ..

This will only add tasks and callbacks to the queue - to actually call the callback, you'll need another task that waits for the tasks in the queue (in the order in which they were added) and calls the callback:

Task.Factory.StartNew(() => { 
  while(true) { // while you keep calling 'CreateAsync'
    // Get next task (in order) and its callback
    Tuple<Task<Foo>, CreatedDelegate> op = queue.Take();
    // Wait for the result and give it to callback
share|improve this answer
Thx, I'll try this soon. –  Michbeckable Oct 12 '11 at 8:15

If order is important, then using Threads might be better:

thread queue = empty
for each task
  if there are no free 'cpu'
    wait on first thread in queue
    remove thread from queue
    call delegate

  create thread
  add thread to queue

while queue has threads
  wait on first thread in queue
  remove thread from queue
  call delegate
share|improve this answer
Thx, this might be the point. Is this to be integrated in the "CreateAsync" getting rid of the Task.Factory.StartNew ... ? –  Michbeckable Oct 11 '11 at 14:08
Your CreateAsync is the "create thread/add to queue" bit. –  Skizz Oct 11 '11 at 14:12

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