How to reduce Seq[Either[A,B]] to Either[A,Seq[B]]?

Given a sequence of eithers `Seq[Either[String,A]]` with `Left` being an error message. I want to obtain an `Either[String,Seq[A]]` where I get a `Right` (which will be a `Seq[A]`), if all elements of the sequence are `Right`. If there is at least one `Left` (an error message), I'd like to obtain the first error message or a concatenation of all error messages.

Of course you can post cats or scalaz code but I'm also interested in code not using it.

Edit

I've changed the title, which originally asked for an `Either[Seq[A],Seq[B]]` to reflect the body of the message.

Edit: I missed that the title of your question asked for `Either[Seq[A],Seq[B]]`, but I did read "I'd like to obtain the first error message or a concatenation of all error messages", and this would give you the former:

``````def sequence[A, B](s: Seq[Either[A, B]]): Either[A, Seq[B]] =
s.foldRight(Right(Nil): Either[A, List[B]]) {
(e, acc) => for (xs <- acc.right; x <- e.right) yield x :: xs
}

scala> sequence(List(Right(1), Right(2), Right(3)))
res2: Either[Nothing,Seq[Int]] = Right(List(1, 2, 3))

scala> sequence(List(Right(1), Left("error"), Right(3)))
res3: Either[java.lang.String,Seq[Int]] = Left(error)
``````

Using Scalaz:

``````val xs: List[Either[String, Int]] = List(Right(1), Right(2), Right(3))

scala> xs.sequenceU
res0:  scala.util.Either[String,List[Int]] = Right(List(1, 2, 3))
``````
• That's shorter than my solution, which uses matching. I think you could use a for-comprehension to make the fold funciton more readable. Aug 29, 2011 at 14:32
• Yes, you could replace the body of the function in the `foldLeft` with: `for (xs <- acc.right; x <- e.right) yield x :: xs` Aug 29, 2011 at 14:35
• If order is important, may be it would be easier to directly build a Seq (and use `:+`) Aug 30, 2011 at 9:09
• `sequence(Seq(Left("a"), Left("b")))` returns `Left("b")` not `Left("a")` which would be the first failure. Therefore this does not exactly match the original specification. Dec 7, 2017 at 17:30

Given a starting sequence `xs`, here's my take:

``````xs collectFirst { case x@Left(_) => x } getOrElse
Right(xs collect {case Right(x) => x})
``````

This being in answer to the body of the question, obtaining only the first error as an `Either[String,Seq[A]]`. It's obviously not a valid answer to the question in the title

To return all errors:

``````val lefts = xs collect {case Left(x) => x }
def rights = xs collect {case Right(x) => x}
if(lefts.isEmpty) Right(rights) else Left(lefts)
``````

Note that `rights` is defined as a method, so it'll only be evaluated on demand, if necessary

• Does not require a downvote but second solution may leads to 2 traversal of the list, while you canseparate left from right in a single traversal Aug 30, 2011 at 9:06
• @Nicolas: True, but it's a fair trade, clarity vs premature optimisation. It's rare to see problems of this nature reach a large enough size that the performance hit would be noticable. Aug 30, 2011 at 12:44

It should work:

``````def unfoldRes[A](x: Seq[Either[String, A]]) = x partition {_.isLeft} match {
case (Nil, r) => Right(r map {_.right.get})
case (l, _) => Left(l map {_.left.get} mkString "\n")
}
``````

You split your result in left and right, if left is empty, build a Right, otherwise, build a left.

Here is the scalaz code:

`_.sequence`

• This is an asymetric function as described in the OP (treating lefts differently from rights)!? Because there's no canonical treatment of a mixed sequence. If so, is the choice of implementation defined by the fact that the lefts are usually error messages? Sep 15, 2011 at 10:07
• Yes, that is the canonical example and is also the one described by the OP. An alternative implementation joins errors values with a semigroup. Sep 16, 2011 at 5:03
• I couldn't get this to work (using 6.0.4-SNAPSHOT) without explicitly supplying the type parameters to `sequence`. Otherwise, I get: `Cannot prove that Either[String,Int] <:< N[B]`. Oct 16, 2011 at 15:31
• Hi Ben, you'll probably need some type annotations. Sorry I left that off. I'll give you a more concrete example at the REPL if you can't get going. Oct 16, 2011 at 23:01
• By the way, I have given a 1 hour talk on this very function. I have slides but no video. I'm not sure how helpful slides will be, but here they are dl.dropbox.com/u/7810909/docs/applicative-errors-scala/… Oct 16, 2011 at 23:02

Starting in `Scala 2.13`, most collections are provided with a `partitionMap` method which partitions elements based on a function which maps items to either `Right` or `Left`.

In our case, we don't even need a function that transforms our input into `Right` or `Left` to define the partitioning since we already have `Right`s and `Left`s. Thus a simple use of `identity`!

Then it's just a matter of matching the resulting partitioned tuple of lefts and rights based on whether or not there are lefts:

``````eithers.partitionMap(identity) match {
case (Nil, rights)       => Right(rights)
case (firstLeft :: _, _) => Left(firstLeft)
}

// * val eithers: List[Either[String, Int]] = List(Right(1), Right(2), Right(3))
//         => Either[String,List[Int]] = Right(List(1, 2, 3))
// * val eithers: List[Either[String, Int]] = List(Right(1), Left("error1"), Right(3), Left("error2"))
//         => Either[String,List[Int]] = Left("error1")
``````

Details of the intermediate step (`partitionMap`):

``````List(Right(1), Left("error1"), Right(3), Left("error2")).partitionMap(identity)
// => (List[String], List[Int]) = (List("error1", "error2"), List(1, 3))
``````

Building on Kevin's solution, and stealing a bit from Haskell's Either type, you can create a method partitionEithers like so:

``````def partitionEithers[A, B](es: Seq[Either[A, B]]): (Seq[A], Seq[B]) =
es.foldRight (Seq.empty[A], Seq.empty[B]) { case (e, (as, bs)) =>
e.fold (a => (a +: as, bs), b => (as, b +: bs))
}
``````

And use that to build your solution

``````def unroll[A, B](es: Seq[Either[A, B]]): Either[Seq[A], Seq[B]] = {
val (as, bs) = partitionEithers(es)
if (!as.isEmpty) Left(as) else Right(bs)
}
``````

I'm not used to use Either - here is my approach; maybe there are more elegant solutions:

``````def condense [A] (sesa: Seq [Either [String, A]]): Either [String, Seq [A]] = {
val l = sesa.find (e => e.isLeft)
if (l == None) Right (sesa.map (e => e.right.get))
else Left (l.get.left.get)
}

condense (List (Right (3), Right (4), Left ("missing"), Right (2)))
// Either[String,Seq[Int]] = Left(missing)
condense (List (Right (3), Right (4), Right (1), Right (2)))
// Either[String,Seq[Int]] = Right(List(3, 4, 1, 2))
``````

`Left (l.get.left.get)` looks a bit funny, but `l` itself is a Either [A, B], not an Either [A, Seq[B]], and needs rewrapping.

• You're not relying on the typing - beware the typists! Aug 29, 2011 at 15:59
• What I meant was that you're asserting a condition in line 2 which you implicitly use in line three, where you write 'e.right.get'. E.g. the accepted answer doesn't leave the "safety of the typing". Aug 29, 2011 at 19:41
• I'm not really sure if what I'm telling makes sense at all: In the second line you assert that there is no error if `l` is `None`. Then you use this knowledge (which is in your head) to write the `.get` of which you know it will never fail, although `.get` can throw. If you look at Ben James' answer, he never calls a method that might possibly fail. Aug 30, 2011 at 7:25
• The point is that e.g. Ben achieves the same result and he only calls methods that can never fail. Yes, your call to get will never fail because you have constructed the algorithm in a way that it works. But Ben's method can never fail because he never calls a method that could fail (throw). His code is correct (in some way) and this is asserted by the compiler. Your code is correct and this is asserted by the way you constructed your algorithm. You could negate the condition of the 'if' (by mistake) and it would still compile but not work. Aug 30, 2011 at 8:58
• So the problem of my code is, that if I would have written different code, it could have failed, while if Ben would have written different code, it wouldn't have compiled? If you feel comfortable with that argument from what would and could have happened ... If I would have returned an elephant, I would have returned an elephant. I don't argure against Bens solution. Aug 30, 2011 at 9:12

My answer is similar to @Garrett Rowe's: But it uses foldLeft (Also see: Why foldRight and reduceRight are NOT tail recursive?) and prepends to Seq rather than appending to Seq (See: Why is appending to a list bad?).

``````scala> :paste
// Entering paste mode (ctrl-D to finish)

def partitionEitherSeq[A,B](eitherSeq: Seq[Either[A,B]]): (Seq[A], Seq[B]) =
eitherSeq.foldLeft(Seq.empty[A], Seq.empty[B]) { (acc, next) =>
val (lefts, rights) = acc
next.fold(error => (lefts :+ error, rights), result => (lefts, rights :+ result))
}

// Exiting paste mode, now interpreting.

partitionEitherSeq: [A, B](eitherSeq: Seq[Either[A,B]])(Seq[A], Seq[B])

scala> partitionEitherSeq(Seq(Right("Result1"), Left("Error1"), Right("Result2"), Right("Result3"), Left("Error2")))
res0: (Seq[java.lang.String], Seq[java.lang.String]) = (List(Error1, Error2),List(Result1, Result2, Result3))
``````