# Calculate the list of the futures and and return the result future

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 /*????*/ } }
p.future
}
``````

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.

-
"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

You can use foldRight to achieve this:

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

val p = Promise[List[A]]()
p.success(List.empty[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 => fut.map(a => 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
}
result.toList
}
``````
-
`// 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)
}
}
``````
-
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