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I have a small number of tasks, and I want to use Task.WaitAll to run them in parallel. This is what I have by now:

type System.Threading.Tasks.Task with
  static member WaitAll(ts) =
    Task.WaitAll [| for t in ts -> t :> Task |]

let processf p fs =
  let rand = Random ()
  let ts = fs |> Array.map (fun f -> Task.Factory.StartNew(fun () -> p(f, rand)))
  Task.WaitAll(ts)
  ts |> Array.map (fun t -> t.Result)

The problem is that Random is not thread-safe (Random class is chosen for illustration purpose only). How can I create an object for each thread rather than create an object for each Task, which is wasteful?

EDIT:

Using ThreadStatic like Brian's and Daniel's suggestions is a good approach, especially with a factory class. However, I prefer ThreadLocal suggested by Reed and Tomas because it looks simpler. I agree that using a master Random is a bit over-complex. The following is a mixed solution I keep for future reference:

let processf p fs =
  use localRand = new ThreadLocal<_>(
                       fun() -> Random(Thread.CurrentThread.ManagedThreadId))
  let ts = fs |> Array.map (fun f -> 
                          Task.Factory.StartNew(fun () -> p(f, localRand.Value)))
  Task.WaitAll(ts)
  ts |> Array.map (fun t -> t.Result)
share|improve this question
    
Isn't creating a thread local is same as creating a new Random object for each task such that it becomes p(f, new Random(currentthreadID)), which is much more clear approach –  Ankur Oct 21 '11 at 4:20
    
ThreadLocal is a per-thread factory class. It's nothing more than a wrapper around a ThreadStatic field, with some additional overhead. –  Daniel Oct 21 '11 at 20:44

5 Answers 5

up vote 3 down vote accepted

You could put your thread-specific state in a factory class and mark it ThreadStatic.

type PerThread =

  [<ThreadStatic; DefaultValue>]
  static val mutable private random : Random

  static member Random = 
    match PerThread.random with
    | null -> PerThread.random <- Random(Thread.CurrentThread.ManagedThreadId)
    | _ -> ()
    PerThread.random

Then you can do:

let process p fs =
  let ts = fs |> Array.map (fun f -> 
    Task.Factory.StartNew(fun () -> p(f, PerThread.Random)))
  Task.WaitAll(ts)
  ts |> Array.map (fun (t: Task) -> t.Result)
share|improve this answer

You can use the ThreadLocal<'T> class to store the Random instance. This will provide a thread-local random value, which can be disposed of upon completion of your tasks.

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A recent F# question here on StackOverflow implements exactly what you're looking for.

Using thread-local (thread-static) storage is the way to go, but you should be careful - when all threads start at the same time, there is a chance that they'll also get the same initial seed. To solve this problem, the implementation above uses a master Random protected by a lock that is used to generate seeds for individual threads.

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That solution seems overly complex. CurrentThread.ManagedThreadId seems like a reasonable seed value. –  Daniel Oct 20 '11 at 21:12
    
@Daniel - ManagedThreadId should be a reasonable alternative, although you may get the same result if you run the program repeatedly (I think .NET often tends to use the same thread IDs when running the same program repeatedly) –  Tomas Petricek Oct 20 '11 at 21:44
    
If he needs unique random values across multiple executions of his program, that's a very specific/special requirement indeed! –  Daniel Oct 20 '11 at 21:46
1  
@Daniel - That's a fairly reasonable requirement e.g. for a game - you don't want monsters behave the same every time you play! (That's why Random uses current time by default...) –  Tomas Petricek Oct 23 '11 at 13:17

You could declare 'rand' as a ThreadStatic. Alternatively, there are some APIs in the TPL that allow for TLS; I don't know them all, but see e.g. here, may be jumping off point to find others. (Hopefully others will post more details or refine this answer.)

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I don't think you event need Thread Local. You can create the new Random object in each task using the current thread ID. Ex:

Task.Factory.StartNew(fun () -> p(f, new Random(Thread.CurrentThread.ManagedThreadId))))

Which I think is much more simple and easy to understand rather than tracking the Thread local variable.

share|improve this answer
    
Suppose that Random is a class which is really expensive to initialize. Then ThreadLocal approach reducing the number of instances needed is of my desire. –  pad Oct 21 '11 at 8:22
    
In case a object is expensive to create, then you should be using Object polling technique. –  Ankur Oct 21 '11 at 8:23

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