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i want to implement the following exhaustive match, but i can't figure out to remove the type parameter and thus the warning that it is erased:

sealed trait Q[+V]
case object QEmpty extends Q[Nothing]
sealed trait QNonEmpty[V] extends Q[V] {
  def foo: V
final class QLeaf[V](val foo: V) extends QNonEmpty[V]
final class QNode[V](val foo: V, var children: Array[Q[V]]) extends QNonEmpty[V]

def test[V](n: Q[V]): String = n match {
  case QEmpty          => "empty"
  case n: QNonEmpty[V] =>  // warning: type parameter V is erased

in my concrete case the body of the case n match is very large, and i do not want to add more match clauses so that i match instead against QLeaf and QNode (because in my concrete case there are more than two subclasses, also they are mutable and thus shouldn't be case classes). the resolved type needs to be QNonEmpty[V], it cannot be QNonEmpty[_].

Can I create an extractor for QNonEmpty which matches both QLeaf and QNode?

share|improve this question
p.s. no manifests please; and this is a performance critical bit, so please no extra object creations like trait Q[ +V ] { def lift: Either[ QEmpty, QNonEmpty[ V ]]} – 0__ Jun 6 '11 at 23:45
The only way to write such an extractor is using isInstanceOf with concrete types. I guess you know how to do that? – Kim Stebel Jun 7 '11 at 6:22
@Kim Aehm, no, but I have written a few simple extractors, so surely can figure it out. A pity that cannot be done type safe – 0__ Jun 7 '11 at 7:24
up vote 3 down vote accepted

You can use existential types to match on a type with erased parameters:

type AnyNonEmpty = QNonEmpty[X] forSome { type X }

in match {
  case x: AnyNonEmpty => //...

An extractor could look like this:

object QNonEmpty {
  def unapply(in: QNonEmpty[_]): Option[Any] = Some(

def test[ V ]( n: Q[ V ]) : String = n match {
   case QEmpty => "empty"
   case QNonEmpty(foo) => foo.toString

I don't think that you can write a typesafe extractor though, as in your example code the type parameter to the method is also erased. Maybe you should think about adding a fold method to your trait and rewrite your example like this:

sealed trait Q[ +V ] {
  def fold[A](e: => A, f: V => A): A = e

case object QEmpty extends Q[ Nothing ]

sealed trait QNonEmpty[ V ] extends Q[ V ] {
  def foo: V
  override def fold[A](e: => A, f: V => A) = f(foo)

// ...

def test[V](n: Q[V]) = n.fold("empty", _.toString)
share|improve this answer
Thanks. I kind of like the fold approach. In my case I have full control over Q, so adding that is no problem. (I still wonder what I'd do if Q came from some external library, though). – 0__ Jun 7 '11 at 7:23

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