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I am trying to implement scheduled future in Scala. I would like it to wait specific time and then execute the body. So far I tried the following, simple approach

val d = 5.seconds.fromNow

val f = future {Await.ready(Promise().future, d.timeLeft); 1}

val res = Await.result(f, Duration.Inf)

but I am getting the TimeoutExcpetion on the future. Is this even the correct approach or should I simply use the ScheduledExecutor from Java?

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7 Answers 7

up vote 2 down vote accepted

You could change your code to something like this:

val d = 5.seconds.fromNow
val f = Future {delay(d); 1}
val res = Await.result(f, Duration.Inf)

def delay(dur:Deadline) = {
  Try(Await.ready(Promise().future, dur.timeLeft))
}

But I would not recommend it. In doing so, you would be blocking in a Future (blocking to wait for that Promise that will never complete), and I think blocking in the ExecutionContext is greatly discouraged. I would either look into using the java scheduled executor as you stated or you could look into using Akka as @alex23 recommended.

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1  
Await.ready uses blocking, so if you're doing work during the five seconds, at least the underlying pool can spin up a thread for it. –  som-snytt Jun 23 '13 at 17:54

Akka has akka.pattern:

def after[T](duration: FiniteDuration, using: Scheduler)(value: ⇒ Future[T])(implicit ec: ExecutionContext): Future[T]

"Returns a scala.concurrent.Future that will be completed with the success or failure of the provided value after the specified duration."

http://doc.akka.io/api/akka/2.2.1/#akka.pattern.package

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2  
This answer should be marked as best answer! –  Somatik Oct 21 '13 at 21:05
2  
Can this be used without an actor system? –  rightfold Dec 28 '14 at 11:52

There is nothing to do that out of the box using the standard library alone. For most simple uses cases, you can use a little helper such as this:

object DelayedFuture {
  import java.util.{Timer, TimerTask}
  import java.util.Date
  import scala.concurrent._
  import scala.concurrent.duration.Duration

  private val timer = new Timer

  private def makeTask[T]( body: => T )( schedule: TimerTask => Unit )(implicit ctx: ExecutionContext): Future[T] = {
    val prom = Promise[T]()
    schedule(
      new TimerTask{
        def run() {
          // IMPORTANT: The timer task just starts the execution on the passed
          // ExecutionContext and is thus almost instantaneous (making it 
          // practical to use a single  Timer - hence a single background thread).
          ctx.execute( 
            new Runnable {
              def run() {
                try {
                  prom.success( body )
                } catch {
                  case ex: Throwable => prom.failure( ex )
                }
              }
            }
          )
        }
      }
    )
    prom.future
  }
  def apply[T]( period: Long )( body: => T )(implicit ctx: ExecutionContext): Future[T] = {
    makeTask( body )( timer.schedule( _, period ) )
  }
  def apply[T]( date: Date )( body: => T )(implicit ctx: ExecutionContext): Future[T] = {
    makeTask( body )( timer.schedule( _, date ) )
  }
  def apply[T]( duration: Duration )( body: => T )(implicit ctx: ExecutionContext): Future[T] = {
    // NOTE: will throw IllegalArgumentException for infinite durations
    makeTask( body )( timer.schedule( _, duration.toMillis ) )
  }
}

This can be used like this:

import scala.concurrent.duration._
import scala.concurrent.ExecutionContext.Implicits._

DelayedFuture( 5 seconds )( println("Hello") )

Note that unlike java scheduled futures, this implementation will not let you cancel the future.

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I do not understand one thing: there is an implicit ctx: ExecutionContext argument to apply, but I cannot see where it would be used - I do not see makeTask or timer.schedule expecting it. –  Suma Apr 1 at 12:16
    
Thanks for pointing it out, that's clearly an error. My guess is that it is just a leftover from a refactoring I did (maybe at some point I had a map/flatMap somewhere for some reason), but it's been too long since I wrote this so I can't tell. I updated the snippet to remove the useless ExecutionContext. –  Régis Jean-Gilles Apr 1 at 13:25
    
I had a more serious loook at it, and actually I definitely need to pass the ExecutionContext. The culprit was elsewhere: I should have run the body on the ExecutionContext instead of running it on the Timer's background thread (meaning that app-wide you effectively had a single thread for every delayed future, not good). Even if it was essentially just an example, it was sloppy on my part. The new version is more produciton-ready. –  Régis Jean-Gilles Apr 2 at 9:39

My solution is pretty similar to Régis's but I use Akka to schedule:

 def delayedFuture[T](delay: FiniteDuration)(block: => T)(implicit executor : ExecutionContext): Future[T] = {
    val promise = Promise[T]

    Akka.system.scheduler.scheduleOnce(delay) {
      try {
        val result = block
        promise.complete(Success(result))
      } catch {
        case t: Throwable => promise.failure(t)
      }
    }
    promise.future
  }
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If you want schedule the completion without Akka, you can use a regular Java Timer to schedule a promise to complete:

def delay[T](t: Int)(block: => T)(implicit executor: ExecutionContext): Future[T] = {
  val promise = Promise[T]
  val t = new Timer
  t.schedule(new TimerTask {
    override def run(): Unit = {
      p.complete(Try(block()))
    }
  }, t)
}
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All the other solutions use either akka or block a thread per delayed task. A better solution (unless you are already using akka) is to use java's ScheduledThreadPoolExecutor. Here's an example of a scala wrapper for that:

https://gist.github.com/platy/8f0e634c64d9fb54559c

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1  
My answer show how to do it without akka nor blocking any thread, and was posted more than one year ago –  Régis Jean-Gilles Feb 17 at 8:13
    
Thanks I must have missed your answer, I like it, it's pretty rare that a thread pool for execution would be needed such as in my solution. –  MikeB Feb 19 at 18:51

Shortest solution for this, is probably making use of scala-async:

import scala.async.Async.{async, await}

def delay[T](value: T, t: duration): Future[T] = async {
  Thread.sleep(t.toMillis)
  value
}

Or in case you want delayed execution of a block

def delay[T](t: duration)(block: => T): Future[T] async {
  Thread.sleep(t.toMillis)
  block()
}
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1  
This is a very inadequate solution. As already mentioned, this will block a thread. –  Régis Jean-Gilles Feb 17 at 8:32
    
Two things: Aren't you missing a nested await { ... } in both cases? That would stop the thread from blocking and cause an actual delayed-future. Alternatively, why not just construct Future with Thread.sleep(...) call wrapped in a blocking { ... } block, to guard against potential deadlocks? –  Darren Bishop Apr 28 at 15:30

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