Sign up ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free.

I have an asynchronous control-flow like the following:

ActorA ! DoA(dataA, callback1, callbackOnErrorA)

def callback1() = {
  ActorB ! DoB(dataB, callback2, callbackOnErrorB)

def callback2() = {
  ActorC ! DoC(dataC, callback3, callbackOnErrorC)


How would I divide this flow into several parts (continuations) and sequentially dispatch these to different actors (or threads/tasks) while maintaining the overall state?

Any hint appreciated, Thanks

share|improve this question

3 Answers 3

up vote 7 down vote accepted

This is very simplified, but shows how to split up a single control flow among three actors, passing the state along to each:

package blevins.example

import scala.continuations._
import scala.continuations.ControlContext._
import scala.actors.Actor._
import scala.actors._

object App extends Application {

  val actorA, actorB, actorC = actor {
    receive {
      case f: Function1[Unit,Unit] => { f() }

  def handle(a: Actor) = shift { k: (Unit=>Unit) =>
    a ! k

  // Control flow to split up
  reset {
      // this is not handled by any actor
      var x = 1
      println("a: " + x)

      handle(actorA)  // actorA handles the below
      x += 4
      println("b: " + x)

      handle(actorB) // then, actorB handles the rest
      var y = 2
      x += 2
      println("c: " + x)

      handle(actorC) // and so on...
      y += 1
      println("d: " + x + ":" + y)

share|improve this answer
Great, thank you! –  hotzen Mar 16 '10 at 8:46

I like to use scalaz.concurrent.Promise. This example isn't exactly like the one in your question, but it gives you the idea.

object Async extends Application {
  import scalaz._
  import Scalaz._
  import concurrent._
  import concurrent.strategy._
  import java.util.concurrent.{ExecutorService, Executors}

  case class ResultA(resultb: ResultB, resulta: ResultC)
  case class ResultB()
  case class ResultC()


  def run {
    implicit val executor: ExecutorService = Executors.newFixedThreadPool(8)
    import Executor.strategy

    val promiseA = doA
    println("waiting for results")
    val a: ResultA = promiseA.get
    println("got " + a)

  def doA(implicit s: Strategy[Unit]): Promise[ResultA] = {
    println("triggered A")
    val b = doB
    val c = doC
    for {bb <- b; cc <- c} yield ResultA(bb, cc)

  def doB(implicit s: Strategy[Unit]): Promise[ResultB] = {
    println("triggered B")
    promise { Thread.sleep(1000); println("returning B"); ResultB() }

  def doC(implicit s: Strategy[Unit]): Promise[ResultC] = {
    println("triggered C")
    promise { Thread.sleep(1000); println("returning C"); ResultC() }


triggered A
triggered B
triggered C
waiting for results
returning B
returning C
got ResultA(ResultB(),ResultC())

You'll find an introduction to Scalaz concurrency in this presentation from Runar.

This approach isn't as flexible as Actors, but composes better and can't deadlock.

share|improve this answer
Nice Scalaz Promise-Example, thank you. However I want to get a deeper understanding of the new Scala2.8-CPS thing and would appreciate a CPS-specific answer. –  hotzen Mar 15 '10 at 15:21
+1 for mentioning the advantages of Futures over Actors, and the use of implicit vals for defining the strategies. –  thSoft Sep 27 '11 at 22:42

See Akka's Futures and how to compose them or scalaz's Promises, they are nearly the same, there are only slight differences.

share|improve this answer

Your Answer


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.