I have a Future[T] and I want to map the result, on both success and failure.

Eg, something like

val future = ... // Future[T]
val mapped = future.mapAll { 
  case Success(a) => "OK"
  case Failure(e) => "KO"

If I use map or flatmap, it will only map successes futures. If I use recover, it will only map failed futures. onComplete executes a callback but does not return a modified future. Transform will work, but takes 2 functions rather than a partial function, so is a bit uglier.

I know I could make a new Promise, and complete that with onComplete or onSuccess/onFailure, but I was hoping there was something I was missing that would allow me to do the above with a single PF.

4 Answers 4


Edit 2017-09-18: As of Scala 2.12, there is a transform method that takes a Try[T] => Try[S]. So you can write

val future = ... // Future[T]
val mapped = future.transform {
  case Success(_) => Success("OK")
  case Failure(_) => Success("KO")

For 2.11.x, the below still applies:

AFAIK, you can't do this directly with a single PF. And transform transforms Throwable => Throwable, so that won't help you either. The closest you can get out of the box:

val mapped: Future[String] = future.map(_ => "OK").recover{case _ => "KO"}

That said, implementing your mapAll is trivial:

implicit class RichFuture[T](f: Future[T]) {
  def mapAll[U](pf: PartialFunction[Try[T], U]): Future[U] = {
    val p = Promise[U]()
    f.onComplete(r => p.complete(Try(pf(r))))
  • 3
    Yeah I could easily write it, just wondered if something like that was lurking about somewhere.
    – sksamuel
    Apr 13, 2014 at 14:39
  • 2
    Hi @espenhw, in the 2nd paragraph in your answer, did you actually mean val mapped: Future[String] = future.map(_ => "OK").recover{case _ => "KO")
    – ZJ Lyu
    Jan 9, 2017 at 7:13
  • It was driving me crazy not figuring out which combinator to use - especially since .onComplete has exactly the signature I want, except it doesn't give me a new future. I'll use this solution; thanks.
    – kornfridge
    Feb 2, 2017 at 15:30
  • the thing is the .map could fail and you'd recover it erroneously (in the sense we only wanted to recover from things in the initial future). Sep 5, 2017 at 22:24
  • Can we update this answer with the new transform method introduced as part of Scala 2.12?
    – saheb
    Sep 18, 2017 at 13:41

Since Scala 2.12 you can use transform to map both cases:

future.transform {
      case Success(_) => Try("OK")
      case Failure(_) => Try("KO")

You also have transformWith if you prefer to use a Future instead of a Try. Check the documentation for details.


In a first step, you could do something like:

import scala.util.{Try,Success,Failure}

val g = future.map( Success(_):Try[T] ).recover{
  case t => Failure(t)
}.map {
  case Success(s) => ...
  case Failure(t) => ...

where T is the type of the future result. Then you can use an implicit conversion to add this structure the Future trait as a new method:

implicit class MyRichFuture[T]( fut: Future[T] ) {
  def mapAll[U]( f: PartialFunction[Try[T],U] )( implicit ec: ExecutionContext ): Future[U] = 
    fut.map( Success(_):Try[T] ).recover{
      case t => Failure(t)
    }.map( f )

which implements the syntax your are looking for:

val future = Future{ 2 / 0 }
future.mapAll {
  case Success(i) => i + 0.5
  case Failure(_) => 0.0

Both map and flatMap variants:

implicit class FutureExtensions[T](f: Future[T]) {
  def mapAll[Target](m: Try[T] => Target)(implicit ec: ExecutionContext): Future[Target] = {
    val promise = Promise[Target]()
    f.onComplete { r => promise success m(r) }(ec)

  def flatMapAll[Target](m: Try[T] => Future[Target])(implicit ec: ExecutionContext): Future[Target] = {
    val promise = Promise[Target]()
    f.onComplete { r => m(r).onComplete { z => promise complete z }(ec) }(ec)

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