Stack Overflow is a community of 4.7 million programmers, just like you, helping each other.

Join them; it only takes a minute:

Sign up
Join the Stack Overflow community to:
  1. Ask programming questions
  2. Answer and help your peers
  3. Get recognized for your expertise

I have a function which takes futures Future[A]* and I want it to return a Future[List[A]].

def singleFuture[T](futures: List[Future[A]]): Future[List[A]] = {
  val p = Promise[T]
  futures filter { _ onComplete { case x => p complete x /*????*/ } }

And I also want the result future of type Future[List[A]] becomes completed immediately after the list futures List[Future[A]] have been completed.

That code doesn't work. I figure I should use flatMap here because there should be 2 internal loops: one for the future and one for promise. But how?

I'd like not use for comprehension here because I'd like to understand the process at the deeper lever.

share|improve this question
"And I also want the result future of type Future[List[A]] becomes completed immediately after the list futures List[Future[A]] have been completed." then there is no point in returning a future of list? rather a list of A? – Stefan Kunze Nov 29 '13 at 4:39
@StefanKunze, there is, I need it for some reason. – Alan Coromano Nov 29 '13 at 4:47
up vote 3 down vote accepted

You can use foldRight to achieve this:

def singleFuture[A](futures: List[Future[A]]): Future[List[A]] = {

    val p = Promise[List[A]]()

    val f = p.future // a future containing empty list.

    futures.foldRight(f) { 
       (fut, accum) =>  // foldRight means accumulator is on right.

        for {
           list <- accum;  // take List[A] out of Future[List[A]]
           a    <- fut     // take A out of Future[A]
        yield (a :: list)   // A :: List[A]

if any future in futures list fails, a <- fut will fail, resulting in accum being set to failed future.

If you want to avoid using for, you can either expand it to flatMap as follows:

  accum.flatMap( list => => a :: list))

Or you can use, async-await (noting that it is still an experimental feature).

def singleFuture[T](futures: List[Future[T]]): Future[List[T]] = async {

  var localFutures = futures
  val result = ListBuffer[T]()
  while (localFutures != Nil) {
        result += await { localFutures.head } 
        localFutures = localFutures.tail
share|improve this answer
// take List[A] out of Future[List[A]] I think it should be // take Future[A] out of List[Future[A]] because it's iterating through List[Future[A]] – Alan Coromano Nov 29 '13 at 9:30
type of accum is same as type of f, which is Future[List[A]]. the iteration over List[Future[A]] is producing fut. – Shyamendra Solanki Nov 29 '13 at 9:39
You're right. We can also call foldLeft instead by moving "fut" to the right and "accum" to the left and it would the same, correct? – Alan Coromano Nov 29 '13 at 9:56
But when you're calling p.success(List.empty[A]), doesn't it make "p" to remember it's as an empty list? As I know, once we write anything to Promise, it can't be changed anymore. – Alan Coromano Nov 29 '13 at 9:58
p.success(List.empty[A]) means that its future will contain List[A]. In this case an empty list of A. p's future always retains this same empty list. But we are using it only as seed value for the fold. – Shyamendra Solanki Nov 29 '13 at 10:03

This is already implemented for you:

def singleFuture[T](futures: List[Future[A]]): Future[List[A]] = Future.sequence(futures)

You can, of course, look at the implementation of sequence:

def sequence[A, M[_] <: TraversableOnce[_]](in: M[Future[A]])(implicit cbf: CanBuildFrom[M[Future[A]], A, M[A]], executor: ExecutionContext): Future[M[A]] = {
  in.foldLeft(Promise.successful(cbf(in)).future) {
    (fr, fa) => for (r <- fr; a <- fa.asInstanceOf[Future[A]]) yield (r += a)
  } map (_.result())

This can be simplified if you only want to deal with lists, and not with anything that has foldLeft:

def sequence[A](in: List[Future[A]]): Future[List[A]] = {
  in.foldRight[Future[List[A]](Promise.successful(Nil) {
    (fa, fr) => for { r <- fr; a <- fa } yield (a :: r)
share|improve this answer
well, it uses "for" which I want to avoid. – Alan Coromano Nov 29 '13 at 5:13
by the way, how do I failure the resulting future if one of the input future failures? – Alan Coromano Nov 29 '13 at 5:15

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.