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This is a simplified version of a problem I deal with. It has a threaded loop over which I have no control. The time for me to process a message is more than the time for the loop to throw.

I can't rewrite anything in mytype beside the marked section in StartAsync.

Could you guide me to the instructions that could handle such conditions ? For instance, is there a version of syncContext.Post with a queue ? Any help appreciated

type mytype () = 
  let FinishedEvt    = new Event<_>()
  let FirstEvt       = new Event<_>()
  member x.First       = FirstEvt.Publish
  member x.Finished    = FinishedEvt.Publish

  member x.StartAsync() = 

     async {
     let syncContext =  match System.Threading.SynchronizationContext.Current with
                        | null -> new System.Threading.SynchronizationContext()
                        | other -> other 
     do! Async.SwitchToNewThread()
     //**the code that I can change is here**
     syncContext.Post(SendOrPostCallback(fun _ -> FirstEvt.Trigger    ()), null)
     syncContext.Post(SendOrPostCallback(fun _ -> FinishedEvt.Trigger ()), null)
     do! Async.SwitchToContext(syncContext) 
     let hopingobject = mytype()
     let wf1 = lock readLock1 
                    (fun () -> 
                               async{ printfn "watching"
                                      do! Async.AwaitEvent hopingobject.First
                                      printfn "first event received"
                                      do! Async.AwaitEvent hopingobject.Finished
                                      printfn "I never get called"} )

     hopingobject.StartAsync() |> Async.Start
     wf1 |> Async.RunSynchronously
     printfn "the end"
     Console.ReadKey() |> ignore
share|improve this question
up vote 2 down vote accepted

I am unclear what you're trying to do, and which parts are essential, but this bit

async{ printfn "watching" 
       do! Async.AwaitEvent hopingobject.First 
       printfn "first event received" 
       do! Async.AwaitEvent hopingobject.Finished 
       printfn "I never get called"}

looks wrong to me, since you don't start listening for Finished until after having processed First, at which point Finished may already have fired. Perhaps you want something more like

async{ printfn "watching" 
       let! a = Async.AwaitEvent hopingobject.First |> Async.StartChild
       let! b = Async.AwaitEvent hopingobject.Finished |> Async.StartChild
       do! a
       printfn "first event received" 
       do! b
       printfn "hurray, I never called"}

(I am writing code in a browser, hope that is right.) The idea is, start listening for both at the beginning, but then wait for First, and then wait for Finished.

share|improve this answer
indeed. I probably can deal with the problem that way. the combination of async continuations with the Async module's thread function are quite effing powerful. – nicolas Apr 1 '12 at 12:06
with that construct I can do some heavy processing before do! b, and not miss the finished event, since its completion (aka the event firing) will be remembered in b. – nicolas Apr 1 '12 at 12:09
actually, I had meanwhile realized that I would need to observe many chained events. I could have used AsyncObservable, but the number of chainching will be non deterministic. So I went for a mailboxprocessor with some multithread synchronization. I would not recommend it for a honeymoon. – nicolas Apr 1 '12 at 17:58

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