Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

I read in the Akka docs that it's dangerous to close over variables from an enclosing actor.

Warning

In this case you need to carefully avoid closing over the containing actor’s reference, i.e. do not call methods on the enclosing actor from within the anonymous Actor class. This would break the actor encapsulation and may introduce synchronization bugs and race conditions because the other actor’s code will be scheduled concurrently to the enclosing actor.

Now, I have two actors, one of which requests something from the second and does something with the result. In this example below I have put together, actor Accumulator retrieves numbers from actor NumberGenerator and adds them up, reporting the sum along the way.

This can be done in at least two different ways as this example shows with two different receive functions (A vs B). The difference between the two is that A does not close over the counter variable; instead it awaits an integer and sums it up, while B creates a Future that closes over counter and does the sum. This happens within an anonymous actor created just to process onSuccess, if I understand properly how this works.

import com.esotericsoftware.minlog.Log

import akka.actor.{Actor, Props}
import akka.pattern.{ask, pipe}
import akka.util.Timeout
import akka.util.duration._

case object Start
case object Request


object ActorTest {
  var wake = 0

  val accRef = Main.actorSystem.actorOf(Props[Accumulator], name = "accumulator")
  val genRef = Main.actorSystem.actorOf(Props[NumberGenerator], name = "generator")

  Log.info("ActorTest", "Starting !")

  accRef ! Start
}

class Accumulator extends Actor {
  var counter = 0

  implicit val timeout = Timeout(5 seconds)

  // A: WITHOUT CLOSURE
  def receive = {
    case Start => ask(ActorTest.genRef, Request).mapTo[Int] pipeTo self
    case x: Int => counter += x; Log.info("Accumulator", "counter = " + counter); self ! Start
  }
  // B: WITH CLOSURE
  def receive = {
    case Start => ask(ActorTest.genRef, Request).mapTo[Int] onSuccess {
      case x: Int => counter += x; Log.info("Accumulator", "counter = " + counter); self ! Start
    }
  }
}

class NumberGenerator extends Actor {
  val rand = new java.util.Random()

  def receive = {
    case Request => sender ! rand.nextInt(11)-5
  }
}

Is it absolutely evil to use closures in this case ? Of course I could use an AtomicInteger instead of an Int, or in some networking scenario using, say, netty, issue a write operation on a threadsafe channel, but this is not my point here.

To the risk of asking the ridiculous: is there a way for the Future's onSuccess to execute in this actor instead of an anonymous middle actor, without defining a case in the receive function ?

EDIT

To put it more clearly, my question is: Is there a way to force a series of Futures to run in the same thread as a given Actor ?

share|improve this question
add comment

2 Answers

up vote 2 down vote accepted

The problem is that the onSuccess is going to run in a different thread than the thread the actor's receive is going to run in. You could use the pipeTo approach, or use an Agent. Making counter an AtomicInteger would solve the problem, but it's not so clean - that is, it breaks the Actor model.

share|improve this answer
    
+1 for suggesting the use of an Agent –  gsimard Jun 21 '12 at 12:28
add comment

The easiest way of implementing such design is by using "fire-and-forget" semantic:

class Accumulator extends Actor {
  private[this] var counter = 0

  def receive = {
    case Start => ActorTest.genRef ! Request
    case x: Int => {
      counter += x
      Log.info("Accumulator", "counter = " + counter)
      self ! Start
    }
  }
}

This solution is fully asynchronous, and you don't need any timeout.

share|improve this answer
    
Yes, this works if I would give up using Futures. Chaining Futures is readily possible in my example if they end with pipeTo self but is not possible anymore with the fire-and-forget semantic. Instead, I would have to define N intermediate messages in the Accumulator's receive function only to guarantee code is run within this Actor's thread. I think I can ask again, this time more clearly: is there a way to force a series of Futures to run in the same thread as a given Actor ? –  gsimard Jun 21 '12 at 15:10
    
Why do you need to guarantee that the Accumulator Actor always run in the same thread ? That seems to be against actor-model philosophy. The same for futures: they should be dispatched on a thread pool such as to maximize performances. If they all run in the same thread in a chain, you just have a plain sequential program and you don't need futures anymore... –  paradigmatic Jun 22 '12 at 6:13
    
Actually it doesn't matter if it's run in the same thread or not, the requirement is more that it should be run sequentially, just as the messages of a single actor are processed. This doesn't go against the actor model, it is the actor model. –  gsimard Jun 23 '12 at 19:14
add comment

Your Answer

 
discard

By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.