123

I'm looking for a way to convert an arbitrary length list of Futures to a Future of List. I'm using Playframework, so ultimately, what I really want is a Future[Result], but to make things simpler, let's just say Future[List[Int]] The normal way to do this would be to use Future.sequence(...) but there's a twist... The list I'm given usually has around 10-20 futures in it, and it's not uncommon for one of those futures to fail (they are making external web service requests). Instead of having to retry all of them in the event that one of them fails, I'd like to be able to get at the ones that succeeded and return those.

For example, doing the following doesn't work

import scala.concurrent._
import scala.concurrent.ExecutionContext.Implicits.global
import scala.util.Success
import scala.util.Failure

val listOfFutures = Future.successful(1) :: Future.failed(new Exception("Failure")) :: 
                    Future.successful(3) :: Nil

val futureOfList = Future.sequence(listOfFutures)

futureOfList onComplete {
  case Success(x) => println("Success!!! " + x)
  case Failure(ex) => println("Failed !!! " + ex)
}

scala> Failed !!! java.lang.Exception: Failure

Instead of getting the only the exception, I'd like to be able to pull the 1 and 3 out of there. I tried using Future.fold, but that apparently just calls Future.sequence behind the scenes.

Thanks in advance for the help!

7 Answers 7

155

The trick is to first make sure that none of the futures has failed. .recover is your friend here, you can combine it with map to convert all the Future[T] results to Future[Try[T]]] instances, all of which are certain to be successful futures.

note: You can use Option or Either as well here, but Try is the cleanest way if you specifically want to trap exceptions

def futureToFutureTry[T](f: Future[T]): Future[Try[T]] =
  f.map(Success(_)).recover { case x => Failure(x)}

val listOfFutures = ...
val listOfFutureTrys = listOfFutures.map(futureToFutureTry(_))

Then use Future.sequence as before, to give you a Future[List[Try[T]]]

val futureListOfTrys = Future.sequence(listOfFutureTrys)

Then filter:

val futureListOfSuccesses = futureListOfTrys.map(_.filter(_.isSuccess))

You can even pull out the specific failures, if you need them:

val futureListOfFailures = futureListOfTrys.map(_.filter(_.isFailure))
10
  • Thanks! .recover was indeed the missing piece for me.
    – Joe
    Jan 2, 2014 at 4:33
  • 22
    You could use _.collect{ case Success(x) => x} instead of _.filter(_.isSuccess) to get rid of Try in type of futureListOfSuccesses.
    – senia
    Jan 2, 2014 at 6:35
  • 43
    In scala 2010 .recover(x => Failure(x)) is not valid, use .recover({case e => Failure(e)}) instead
    – FGRibreau
    Jul 11, 2014 at 16:32
  • I think you're missing the future wrapper: def futureToFutureOfTry[A](f: Future[A]): Future[Try[A]] = { val p = Promise[Try[A]]() f.map{ a=> p.success(scala.util.Success(a)) }.recover{ case x: Throwable => p.success(Failure(x)) } p.future }
    – Dario
    Jul 8, 2015 at 20:55
  • not so. I'm mapping a Future to another future, an intervening Promise isn't needed and would be wasteful Jul 8, 2015 at 23:53
17

Scala 2.12 has an improvement on Future.transform that lends itself in an anwser with less codes.

val futures = Seq(Future{1},Future{throw new Exception})

// instead of `map` and `recover`, use `transform`
val seq = Future.sequence(futures.map(_.transform(Success(_)))) 

val successes = seq.map(_.collect{case Success(x)=>x})
successes
//res1: Future[Seq[Int]] = Future(Success(List(1)))

val failures = seq.map(_.collect{case Failure(x)=>x})
failures
//res2: Future[Seq[Throwable]] = Future(Success(List(java.lang.Exception)))
0
11

I tried Kevin's answer, and I ran into a glitch on my version of Scala (2.11.5)... I corrected that, and wrote a few additional tests if anyone is interested... here is my version >

implicit class FutureCompanionOps(val f: Future.type) extends AnyVal {

    /** Given a list of futures `fs`, returns the future holding the list of Try's of the futures from `fs`.
      * The returned future is completed only once all of the futures in `fs` have been completed.
      */
    def allAsTrys[T](fItems: /* future items */ List[Future[T]]): Future[List[Try[T]]] = {
      val listOfFutureTrys: List[Future[Try[T]]] = fItems.map(futureToFutureTry)
      Future.sequence(listOfFutureTrys)
    }

    def futureToFutureTry[T](f: Future[T]): Future[Try[T]] = {
      f.map(Success(_)) .recover({case x => Failure(x)})
    }

    def allFailedAsTrys[T](fItems: /* future items */ List[Future[T]]): Future[List[Try[T]]] = {
      allAsTrys(fItems).map(_.filter(_.isFailure))
    }

    def allSucceededAsTrys[T](fItems: /* future items */ List[Future[T]]): Future[List[Try[T]]] = {
      allAsTrys(fItems).map(_.filter(_.isSuccess))
    }
}


// Tests... 



  // allAsTrys tests
  //
  test("futureToFutureTry returns Success if no exception") {
    val future =  Future.futureToFutureTry(Future{"mouse"})
    Thread.sleep(0, 100)
    val futureValue = future.value
    assert(futureValue == Some(Success(Success("mouse"))))
  }
  test("futureToFutureTry returns Failure if exception thrown") {
    val future =  Future.futureToFutureTry(Future{throw new IllegalStateException("bad news")})
    Thread.sleep(5)            // need to sleep a LOT longer to get Exception from failure case... interesting.....
    val futureValue = future.value

    assertResult(true) {
      futureValue match {
        case Some(Success(Failure(error: IllegalStateException)))  => true
      }
    }
  }
  test("Future.allAsTrys returns Nil given Nil list as input") {
    val future =  Future.allAsTrys(Nil)
    assert ( Await.result(future, 100 nanosecond).isEmpty )
  }
  test("Future.allAsTrys returns successful item even if preceded by failing item") {
    val future1 =  Future{throw new IllegalStateException("bad news")}
    var future2 = Future{"dog"}

    val futureListOfTrys =  Future.allAsTrys(List(future1,future2))
    val listOfTrys =  Await.result(futureListOfTrys, 10 milli)
    System.out.println("successItem:" + listOfTrys);

    assert(listOfTrys(0).failed.get.getMessage.contains("bad news"))
    assert(listOfTrys(1) == Success("dog"))
  }
  test("Future.allAsTrys returns successful item even if followed by failing item") {
    var future1 = Future{"dog"}
    val future2 =  Future{throw new IllegalStateException("bad news")}

    val futureListOfTrys =  Future.allAsTrys(List(future1,future2))
    val listOfTrys =  Await.result(futureListOfTrys,  10 milli)
    System.out.println("successItem:" + listOfTrys);

    assert(listOfTrys(1).failed.get.getMessage.contains("bad news"))
    assert(listOfTrys(0) == Success("dog"))
  }
  test("Future.allFailedAsTrys returns the failed item and only that item") {
    var future1 = Future{"dog"}
    val future2 =  Future{throw new IllegalStateException("bad news")}

    val futureListOfTrys =  Future.allFailedAsTrys(List(future1,future2))
    val listOfTrys =  Await.result(futureListOfTrys,  10 milli)
    assert(listOfTrys(0).failed.get.getMessage.contains("bad news"))
    assert(listOfTrys.size == 1)
  }
  test("Future.allSucceededAsTrys returns the succeeded item and only that item") {
    var future1 = Future{"dog"}
    val future2 =  Future{throw new IllegalStateException("bad news")}

    val futureListOfTrys =  Future.allSucceededAsTrys(List(future1,future2))
    val listOfTrys =  Await.result(futureListOfTrys,  10 milli)
    assert(listOfTrys(0) == Success("dog"))
    assert(listOfTrys.size == 1)
  }
7

I just came across this question and have another solution to offer:

def allSuccessful[A, M[X] <: TraversableOnce[X]](in: M[Future[A]])
                                                (implicit cbf: CanBuildFrom[M[Future[A]], A, M[A]], 
                                                 executor: ExecutionContext): Future[M[A]] = {
    in.foldLeft(Future.successful(cbf(in))) {
      (fr, fa) ⇒ (for (r ← fr; a ← fa) yield r += a) fallbackTo fr
    } map (_.result())
}

The idea here is that within the fold you are waiting for the next element in the list to complete (using the for-comprehension syntax) and if the next one fails you just fallback to what you already have.

1
  • I dislike the name but I like the way it's done, straight from the sequence impl
    – crak
    Jul 31, 2017 at 16:04
1

You can easily wraps future result with option and then flatten the list:

def futureToFutureOption[T](f: Future[T]): Future[Option[T]] =
    f.map(Some(_)).recover {
      case e => None
    }
val listOfFutureOptions = listOfFutures.map(futureToFutureOption(_))

val futureListOfOptions = Future.sequence(listOfFutureOptions)

val futureListOfSuccesses = futureListOfOptions.flatten
1
  • Just in case someone else encounters an error with Some in the first function, the first function can be rewritten like so to prevent compiler error: def futureToFutureOption[T](f: Future[T]): Future[Option[T]] = f.map(Option(_)).recover { case e => None }
    – Zee
    Nov 16, 2018 at 21:53
0

You can also collect successful and unsuccessful results in different lists:

def safeSequence[A](futures: List[Future[A]]): Future[(List[Throwable], List[A])] = {
  futures.foldLeft(Future.successful((List.empty[Throwable], List.empty[A]))) { (flist, future) =>
    flist.flatMap { case (elist, alist) =>
      future
        .map { success => (elist, alist :+ success) }
        .recover { case error: Throwable => (elist :+ error, alist) }
    }
  }
}
0

If you need to keep failed futures for some reason, e.g., logging or conditional processing, this works with Scala 2.12+. You can find working code here.

val f1 = Future(1)
val f2 = Future(2)
val ff = Future.failed(new Exception())

val futures: Seq[Future[Either[Throwable, Int]]] =
  Seq(f1, f2, ff).map(_.transform(f => Success(f.toEither)))

val sum = Future
  .sequence(futures)
  .map { eithers =>
    val (failures, successes) = eithers.partitionMap(identity)

    val fsum = failures.map(_ => 100).sum
    val ssum = successes.sum

    fsum + ssum
  }

assert(Await.result(sum, 1.second) == 103)

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