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Please excuse my poor understanding of Scala. I'm just a Java developer that wants to get something working in the Play Framework. I even attempted to implement a trait using Java code, but I got even more obscure errors. I have the following Scala code:

package models

import scala.concurrent.Future

class SettableFuture[T](name: String) extends Future[T] {
    var assignedValue: T

    def set(newValue: T) =
        assignedValue = newValue

    //override abstract methods in Future[T]
    def ready(atMost: scala.concurrent.duration.Duration)(implicit permit: scala.concurrent.CanAwait): models.SettableFuture[T] =

    def result(atMost: scala.concurrent.duration.Duration)(implicit permit: scala.concurrent.CanAwait): T =

    def isCompleted: Boolean =

    def onComplete[U](func: scala.util.Try[T] => U)(implicit executor: scala.concurrent.ExecutionContext): Unit =

    def value: Option[scala.util.Try[T]] =

And here's my error:

overriding method ready in trait Awaitable of type (atMost: scala.concurrent.duration.Duration)(implicit permit: scala.concurrent.CanAwait)SettableFuture.this.type; method ready has incompatible type

Ignore the return values of the methods for now, they're nonsensical because I'm just trying to fix all the compile errors.

I simply copied the method stubs from the compile time exception when extending a trait without overriding its abstract methods and pasted them into my source file. I don't understand why I'm still getting errors. I took a look at the signature for ready() in Awaitable and it looks like the return type should in fact be the class.

EDIT: the reason why I want to implement this is because in the Promise/Future Scala API, I can only find things that let me asynchronously execute long-running, blocking tasks. What I'm after is something that lets execution of a request be suspended until something of interest sets a value in the SettableFuture instance, which completes a Promise to send a response. In this way, it's somewhat like a continuation. Anyway, here is the working code that I ended up with:

package models

import java.util.concurrent.CountDownLatch
import java.util.concurrent.TimeUnit
import java.util.concurrent.atomic.AtomicInteger

import scala.concurrent.CanAwait
import scala.concurrent.ExecutionContext
import scala.concurrent.Future
import scala.concurrent.duration.Duration
import scala.util.Try

class SettableFuture[T]() extends Future[T] {
    private final val ValueNotSet = 0
    private final val ValueBeingSet = 1
    private final val ValueSet = 2

    private val valueStatus: AtomicInteger = new AtomicInteger(ValueNotSet)
    private val onCompleteWaitHandle: CountDownLatch = new CountDownLatch(1)
    private var onComplete: Try[T] => _ = _
    private var assignedValue: T = _

    /** Set a value and complete this Future.
      * Returns false if the value has already been set by a past call to this method.
      * Otherwise, marks this Future as complete, executes the function passed to
      * onComplete, and finally returns true.
    def set(newValue: T): Boolean = {
        //set value and trigger onComplete only once
        if (valueStatus.compareAndSet(ValueNotSet, ValueBeingSet)) {
            assignedValue = newValue
            if (onComplete != null)

    //override abstract methods in the Future[T] trait
    def ready(atMost: Duration)(implicit permit: CanAwait): this.type = {
        onCompleteWaitHandle.await(atMost.length, atMost.unit)

    def result(atMost: Duration)(implicit permit: CanAwait): T = {

    def isCompleted: Boolean = (valueStatus.get() == ValueSet)

    def onComplete[U](func: Try[T] => U)(implicit executor: ExecutionContext): Unit =
        onComplete = func

    def value: Option[Try[T]] = {
        if (!isCompleted)
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3 Answers 3

up vote 5 down vote accepted

In terms of the specific error you are getting, the ready method you are overriding has a return type of Awaitable.this.type - ie. the specific type of this instance of Awaitable (the super type of Future, so that in Future, this method is seen to have return type Future.this.type). For your SettableFuture class, this means the return type for the ready method needs to be models.SettableFuture.this.type.

Other minor problems you can expect to hit: the onComplete method's implementation should be {}, not null, as the latter is a return of type Null.type, not Unit, and the var assignedValue needs to be initialised in a non-abstract class, which can be done by adding = _ to the line defining the variable (although you really want to make it at least protected, and provide an accessor which will check if it has been set - maybe by changing the variable to an Option[T] initialised to None, or else maintaining a Boolean flag that can be checked in the accessor, and which is set to true by the set method).

In terms of what it looks like you are trying to achieve, however, you might just want to check out scala.concurrent.Promise, which represents a "promise of a future result". It has a method future that returns a Future, and various complete, completeWith, and similar methods that can be used to set the Promise's value, which in turn will cause the associated Future to become ready/completed.

share|improve this answer
Thanks for the help. I got the Scala code working completely now. As for the Promise and Future bit, I'm not sure if that's exactly what I'm trying to achieve. I feel like most of that API deals with long running, blocking tasks. What I'm after is something that lets execution of a request be suspended until something of interest sets a value in the SettableFuture instance, which completes a Promise to send a response. In this way, it's somewhat like a continuation. Are you aware of anything that exists in the Scala library that does something like this? –  Kevin Jin Nov 1 '13 at 22:44
@KevinJin That's exactly what a Promise is for. The code that will set the value holds a reference to a Promise p, which it will complete with the value at some point in the future. The computation that is waiting on the value gets a reference to p.future and can react to completion of the future in the usual way (registering a callback, mapping, etc.). –  Aaron Novstrup Nov 1 '13 at 23:25

The SettableFuture class unnecessarily mixes the two concerns that the Future and Promise traits were designed to separate:

  • asynchronous provision of a value (Promise), and
  • waiting for and reacting to that provision (Future)

Rather than thinking of a Future as an asynchronous, long-running, blocking computation, it may help to think of it simply as a value that may be provided at some future time. You can react to provision of that value in a number of ways, including registering a callback or mapping it to some other value. For example, in Play one will often suspend processing of a request with a pattern like this (in Scala):

def handleRequest = Action {
  Async {
    gimmeAFuture().map(value => Ok(value))

def gimmeAFuture(): Future[JsValue] = // ...

The gimmeAFuture method returns a Future, but the request handling code doesn't care about how the value is computed. It could be

  • computed immediately with Future.successful,
  • computed asynchronously with Future.apply, or
  • supplied by the completion of a Promise

As an example of the latter, the gimmeAFuture method might be implemented as follows:

def gimmeAFuture: Future[JsValue] = {
  val p = Promise.apply[JsValue]()
  // asynchronously complete the promise 30 seconds from now
  // return the future immediately

Of course, you could implement that method however you want. The key is that something will need to hold on to that Promise object and complete it with a value in order to resume handling of the request. The request handler itself does not get a reference to the Promise object, since it only cares about the value that will be computed (i.e., the Promise's Future).

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I revisited this question after finding this link and I realized why there was so much confusion.

I was planning on using the SettableFuture class because I couldn't find anything like it that already existed in the Play Java API. I wanted something equivalent to a TaskCompletionSource in .NET, and Aaron's answer made it really clear that Scala had exactly what I needed. Unfortunately, I couldn't find the equivalent in Play's Java API.

That link cleared up exactly why I was having so much difficulty over something that should have been so simple. Thanks all for answering my question!

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