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This is a follow-up to my previous question

Suppose I want to create a future with my function but don't want to start it immediately (i.e. I do not want to call val f = Future { ... // my function}.

Now I see it can be done as follows:

val p = promise[Unit]
val f = p.future map { _ => // my function here }

Is it the only way to create a future with my function w/o executing it?

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3  
Maybe you could say what it is you need to accomplish? –  som-snytt May 15 '13 at 22:37
    
the fact that you want to delay the computation leads me to think you're relying on some external state change (side-effect). If this is the case, use actors... –  Colin Godsey Jul 2 at 22:16
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5 Answers

up vote 3 down vote accepted

You can do something like this

val p = Promise[Unit]()
val f = p.future

//... some code run at a later time
p.success {
// your function
}

LATER EDIT:

I think the pattern you're looking for can be encapsulated like this:

class LatentComputation[T](f: => T) {
  private val p = Promise[T]()

  def trigger() { p.success(f) }

  def future: Future[T] = p.future
}

object LatentComputation {
  def apply[T](f: => T) = new LatentComputation(f)
}

You would use it like this:

val comp = LatentComputation {
// your code to be executed later
}

val f = comp.future

// somewhere else in the code
comp.trigger()
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I guess success may start my function immediately. What if I do want to start it later by calling success (or any other method) explicitly ? –  Michael May 15 '13 at 22:08
    
I've updated my answer. Hope it's what you're looking for –  Marius Danila May 16 '13 at 6:26
    
The idea is nice but you cannot chain the LatentComputation together as a monad for "for" expressions, it would be good if one computation finished it triggered the next one in a for expression –  Phil Dec 15 '13 at 9:04
    
You would do this with the future from the LatentComputation. Just create an instance and pull out the future and use it in for comprehensions. Otherwise, just use a promise to accomplish this –  Marius Danila Dec 16 '13 at 8:24
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If you are getting too fancy with execution control, maybe you should be using actors instead?

Or, perhaps, you should be using a Promise instead of a Future: a Promise can be passed on to others, while you keep it to "fulfill" it at a later time.

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4  
+1. People have commented that they're on the fence about futures vs actors for that reason. However, I find that when I'm getting too fancy, it's because I don't know what I'm doing. Sometimes I don't even know why I'm doing it. And yet I keep doing it. –  som-snytt May 15 '13 at 22:49
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It's also worth giving a plug to Promise.completeWith.

You already know how to use p.future onComplete mystuff.

You can trigger that from another future using p completeWith f.

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You could always defer creation with a closure, you'll not get the future object right ahead, but you get a handle to call later.

type DeferredComputation[T,R] = T => Future[R]

def deferredCall[T,R](futureBody: T => R): DeferredComputation[T,R] =
  t => future {futureBody(t)}

def deferredResult[R](futureBody: => R): DeferredComputation[Unit,R] =
  _ => future {futureBody}
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Or just use regular methods that return futures, and fire them in series using something like a for comprehension (sequential call-site evaluation)

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