Back to the Primitive
@ 7sharp9 · Thursday, Apr 12, 2012 · 5 minute read · Update at Apr 12, 2012

In this post we are going back to the primitive. No it’s not about the same named song by Soulfly, (which incidentally does contains F# notes) but a return to thread synchronisation primitives and their asynchronous counterparts.

We are going to be looking at an asynchronous version of the ManualResetEvent. This was recently covered by Stephen Toub on the pfx team blog. We will be taking a slightly different view on this as we will be using asynchronous workflows which will give us nice idiomatic usage within F#.

First lets look of the shape of the type that Stephen defined:

public class AsyncManualResetEvent 
    public Task WaitAsync(); 
    public void Set(); 
    public void Reset(); 

Now this can be used from within F# by using the Async.AwaitTask function from the Async module but this is like wrapping one asynchronous paradigm with another, and although this does work, what if you want to avoid the overhead of wrappers and stay strictly within async workflows.

type asyncManualResetEvent() =
    member x.WaitAsync() : unit -> Async<bool>
    member x.Set() : unit -> unit
    member x.Reset() : unit -> unit

That’s what we want to see! I don’t want to get into the details of the description of how the C# version works as Stephen does a very good job of that already. What I will explain though is how we essentially do the same thing while staying with the realm of functional programming. As we are getting into the lower lever details no doubt we will have to start relying on some low level locking primitives like Monitors, Semaphores, and Interlocked operations, even the F# core libraries have a cornucopia of those.

Lets look at the first member WaitAsync(). The first step is to create a something to store the result of the operation, all we will just be storing and returning asynchronously is a boolean to indicate that the wait handle has been set. To do this we use one of the types from the F# power pack AsyncResultCell<'T>. I think that such a type should of been exposed from the F# core libraries but it was omitted for some reason. There is a type called ResultCell<'T> with much the same functionality in the FSharp.Core.Control namespace but it is marked internal so it’s not available for our use.

We declare a reference cell of type AsyncResultCell<'T> and then create the WaitAsync() member, all we have to do is dereference the value of the reference cell with ! and call its AsyncResult member, this gives us an Async<bool> which we can easily use in an asynchronous workflow.

type asyncManualResetEvent() =
    let aResCell = ref <| AsyncResultCell<_>()

    member x.WaitAsync() = (!aResCell).AsyncResult

The next bit is fairly simple too. All we need to do is dereference the value of the reference cell, and invoke the RegisterResult member by passing in a value of AsyncOk(true). The boolean value of true will be used by the type inference system to constrain the value of the Async<_> returned from WaitAsync.

    member x.Set() = (!aResCell).RegisterResult(AsyncOk(true))

The last part is the most complex (as usual). Here we create a recursive function called swap that will try to exchange the AsyncResultCell<'T> for a new one. We dereference the reference cell to currentValue, then we use a CAS (Compare And Swap) operation to compare the aResCell with currentValue and if they are equal newVal will replace aResCell. On the next line if the result of the CAS operation means that result and currentValue are equal then we are finished, otherwise we spin the current thread for 20 cycles using Thread.SpinWait 20 before retrying the operation via recursion swap newVal. This will be a lot less expensive than switching to user or kernel mode locking, and the period of contention between threads should be very small. Finally the swap operation is started by passing in a new AsyncResultCell<'T>.

There are various other methods we could of used, for instance we could of wrapped a ManualResetEvent with a call to Async.AwaitWaitHandle, although this would of meant using the kernel mode locking of the ManualResetEvent which is a bit more expensive.

In Stephen Toub’s post he mentions Task’s being orphaned due to the Reset() method being called before the Task<'T> has been completed, that shouldn’t happen in our implementation due the the closures being stored internally for completion by the async infrastructure. Heres a quick test harness to make sure everything works as expected anyway.

    member x.Reset() =
        let rec swap newVal = 
            let currentValue = !aResCell
            let result = Interlocked.CompareExchange<_>(aResCell, newVal, currentValue)
            if obj.ReferenceEquals(result, currentValue) then ()
            else Thread.SpinWait 20
                 swap newVal
        swap <| AsyncResultCell<_>()
let amre = asyncManualResetEvent()
let x = async{let! x = amre.WaitAsync()
              Console.WriteLine("First signalled")}

let y = async{let! x = amre.WaitAsync()
             Console.WriteLine("Second signalled")}

let z = async{let! x = amre.WaitAsync()
              Console.WriteLine("Third signalled")}
//start async workflows x and y
Async.Start x
Async.Start y

//reset the asyncManualResetEvent, this will test whether the async workflows x and y 
// are orphaned due to the AsyncResultCell being recycled.

//now start the async z
Async.Start z

//we set a single time, this should result in the three async workflows completing

Console.ReadLine() |> ignore

Here we can see everything works out as we expected:

Thats all there is too it, next time I will be exploring an asyncAutoResetEvent in much the same vein.

Until next time…

Dave Thomas
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About Me

Hi, my name is Dave Thomas and Im a software engineer from the Uk. I work primarily in F# but also like to tinker with pretty much any interesting language. Im drawn to more functional languages like F#, Swift and Rust.

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Thanks for reading!