# Reducing Iterable[Either[A,B]] to Either[A, Iterable[B]]

I need to reduce an Iterable[Either[Throwable, String]] to an Either[Throwable, Iterable[String]]. I don't know if this operation is pretty common or not, haven't found nothing on the Iterable trait. So I have written this function:

``````def reduce[A, B](xs: Iterable[Either[A, B]]): Either[A, Iterable[B]] =
xs.collectFirst {
case Left(x) => x
} match {
case Some(x) => Left(x)
case None => Right(xs.collect{case Right(y)=> y})
}
``````

Can anyone help me to find a better way if this one it isn't?

-
The transformation you want to achieve is a bit ambiguous. Your input list contains for example half of `Right[String]`s and half of various and heterogeneous `Left[Exception]`s. You want to reduce it to either one exception or list of strings. Which exception should be taken if there were e.g. ten different in the input? –  Tomasz Nurkiewicz Oct 28 '12 at 21:16
You are right. I want to consider only the first exception (or any Left value) it will hide other but it is acceptable for my use case. –  Filippo De Luca Oct 28 '12 at 21:39
This is a duplicate of stackoverflow.com/questions/7230999/…. –  ziggystar Oct 29 '12 at 11:32
Oops yes it is. –  Filippo De Luca Oct 29 '12 at 14:03

This operation is often called sequencing, and is available in the standard libraries of some functional languages (such as Haskell). In Scala you can either implement your own, or use an external library like Scalaz. Suppose we have the following, for example:

``````val xs: List[Either[String, Int]] = List(Right(1), Right(2))
val ys: List[Either[String, Int]] = List(Right(1), Left("1st!"), Left("2nd!"))
``````

Now we can write (using Scalaz 7):

``````scala> import scalaz._, Scalaz._
import scalaz._
import Scalaz._

scala> xs.sequenceU
res0: Either[String,List[Int]] = Right(List(1, 2))

scala> ys.sequenceU
res1: Either[String,List[Int]] = Left(1st!)
``````

As desired.

As a side note, this operation just requires that the outside container be traversable and that the inside container be an applicative functor. Scalaz also provides a `ValidationNEL` class that's a lot like `Either` and also fits these requirements, but using `sequence` on a list of `ValidationNEL`s collects multiple errors instead of stopping at the first:

``````val zs: List[ValidationNEL[String, Int]] =
List(1.successNel, "1st".failNel, "2nd".failNel)
``````

Now we get:

``````scala> print(zs.sequenceU)
Failure(NonEmptyList(1st, 2nd))
``````

You could also use `sequence` on a list of `Option`s, `Promise`s, etc.

-
In fact it is very similar to `Future.sequence` in the Akka framework, isn't it? –  Filippo De Luca Oct 28 '12 at 22:06
@FilippoDeLuca: Yep, exactly, that one's just less generic than Scalaz's. –  Travis Brown Oct 28 '12 at 22:09
I'm not yet able to fully understand scalaz, but I have to give it a try indeed, or better, it has to give a try to me :) –  Filippo De Luca Oct 28 '12 at 22:11
@FilippoDeLuca: I definitely don't fully understand Scalaz myself! One of the nice things about it is that you don't need to—just pick some starting points and wander around. –  Travis Brown Oct 28 '12 at 22:25

If you don't like the explicit return and want to eliminate the pattern matching while shortening the code somewhat, here is another version:

``````def reduce[A, B](xs: Iterable[Either[A, B]]): Either[A, Iterable[B]] =
xs collectFirst {
case Left(x) => Left(x)
} getOrElse Right(xs.flatMap(_.right.toOption))
``````
-
Like it, thank you. –  Filippo De Luca Oct 28 '12 at 22:06

I always find `return` statements a bit awkward, but this following works:

``````def reduce[A, B](xs: Iterable[Either[A, B]]): Either[A, Iterable[B]] =
Right(xs.collect {
case Left(x) => return Left(x)
case Right(x) => x
})
``````
-
`case Left(x) => return Left(x)` can be shortened to `case l@Left(_) => return l` –  Kim Stebel Oct 28 '12 at 21:32
@KimStebel yes I thought that at first, but the `B` type parameter of the resulting `Either` is wrong (it requires `Iterable[B]` but is `B` instead), so the `Left` is a different `Left`. –  0__ Oct 28 '12 at 21:33
ah yes, that's true –  Kim Stebel Oct 28 '12 at 21:44
Thanks, but I prefer not using the return statement. –  Filippo De Luca Oct 28 '12 at 22:08
I think this is a good example of where the use of `return` is appropriate (the dislike of `return` shouldn't become dogma). Process something iteratively but bail early with a return for some exceptional condition. It's like a collecting collectFirst (which despite the name doesn't really collect), which does indeed use return in its implementation –  Paul Oct 29 '12 at 14:56