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Consider this application of implicit objects

trait Splitter[A,B,C] {
   def split(list: List[C]):(List[A],List[B])

implicit object PairSplitter extends Splitter[Int, String, Pair[Int,String]] {
   override def split(list: List[Pair[Int,String]]):(List[Int],List[String]) =
     (list.collect{case (a,_) => a}, list.collect{case (_,b) => b})

implicit object EitherSplitter extends Splitter[Int, String, Either[Int,String]] {
   override def split(list: List[Either[Int,String]]):(List[Int],List[String]) =
     (list.collect{case Left(a) => a}, list.collect{case Right(b) => b})

def splitList[A,B,C](list:List[C])(implicit splitter:Splitter[A,B,C]):(List[A],List[B]) = splitter.split(list)

//println(splitList(List(1,2,3,4))) //won't compile

It works, but obviously isn't terrible useful. It's no problem to write this for concrete types like Int and String in the example, but I see no way to write an implicit object or val which abstracts over A and B.

Can this be done, and how? If not, is it reasonable to expect a language extension which has this ability?

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1 Answer 1

up vote 4 down vote accepted

Scala's values (ie. vals and objects) are monomorphic, so there's no direct way of getting what you're after if you insist on the implicits being values.

But there's a straightforward alternative if they don't have to be values: you can use something which can be polymorphic, an implicit method,

implicit def pairSplitter[A, B] = new Splitter[A, B, Pair[A, B]] {
  override def split(list: List[Pair[A, B]]) : (List[A], List[B]) =
    (list.collect{case (a,_) => a}, list.collect{case (_,b) => b})

REPL session ...

scala> splitList(List(("foo",2.0),("bar",3.0)))
res5: (List[java.lang.String], List[Double]) = (List(foo, bar),List(2.0, 3.0))
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D'oh! Somehow I expected I would get the infamous ambiguous error when I add the second implicit method (for Either), but obviously that was nonsense. Works like a charm! –  Landei Jan 27 '11 at 10:09

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