Sign up ×
Stack Overflow is a community of 4.7 million programmers, just like you, helping each other. Join them; it only takes a minute:

I need a back-check (please).

In an article ( ) I just wrote I stated that it is my belief in Scala that you can not specify a function that takes an argument that is itself a function with an unbound type parameter. I have edited this question to try and simplify the example.

The following code works by introducing a trait GenericFn that imitates the Scala Function1 trait, except it has a free-type parameter in the function:

object TypeExample {
    trait NumberBase {
        def result:String

    class A extends NumberBase {
        def result = "A"

    class B extends NumberBase {
        def result = "B"

    trait GenericFn {
        def apply[X<:NumberBase](x:X):String

    def specializeAndApplyTwice(f:GenericFn):String = {
        f[A](new A()) + f[B](new B())

    def main(args : Array[String]) : Unit = {
        val f = new GenericFn {
            def apply[X<:NumberBase](x:X):String = { x.result }

This works, but is there a way to do this without the GenericFn trait (use a standard function notation)? For example the code below fails with the compile-time error: "type mismatch; found : TypeExample2.A required: _$1 where type _$1 <: TypeExample2.NumberBase":

def specializeAndApplyTwice(f:(_<:NumberBase)=>String):String = {
   f(new A()) + f(new B())
share|improve this question
Your example should probably be: def g(f:Array[Double]=>Double, x:Array[Double]):Double – Arjan Blokzijl Jun 15 '10 at 18:37
...and perhaps, the second exampe should be def g(f[Y]:Array[Y]=>Y, x: Array[Y]): Y? Otherwise you could write def g(f:Array[_] => Double, x: Array[Double]):Double, but I assume that this is not what you want. – Arjan Blokzijl Jun 15 '10 at 19:16
Arjan, actually my examples are closer to what I want. In my actual code Y has a type constraint (which I didn't reproduce here) of the form Y<:NumberBase[Y] and NumberBase[Y] declares methods for converting to and from Y's and Doubles. g() uses this structure to up-convert from machine Doubles into Ys, do some work and then down-convert to Doubles (so the outside code doesn't pick Y's type and doesn't need to deal with Y's type). – jmount Jun 15 '10 at 21:38
I have replaced the question with a new (simpler) example that gets rid of some non-essential details (arrays, parameterization of types). The question is now how to eliminate the GenericFn trait in favor of some function notation. – jmount Jun 26 '10 at 15:21

1 Answer 1

Restating the initial motivation for the question: We want to give a type to a value 'g' because we want to pass it around. Scala values (of course) cannot have polymorphic type, even if they are function values. So how to give a type where some part of it is unknown?

So I believe one solution is to use wildcards (a form of existential abstraction):

  def g(f: Array[_ <: NumberBase[_]] => Double, z: Array[Double]): Double

The prose explanation for the type of g is: a function from Array[T] and Array[Double] to Double, where T is some type that extends Double. "some" is the word that indicates existential abstraction, we ask that such a type exists although we do not care at this point which one it is.

share|improve this answer
I heavily edited the question to try and slot your example in. I couldn't get it to work- but obviously that may be my fault (I don't know much about the various _ notations). – jmount Jun 26 '10 at 15:20
In the reformulated question, it seems simpler to use <code>def specializeAndApplyTwice(f:NumberBase=>String)</code>... I believe there is added difficulty in the original formulation because one needed to use the type parameter (or the wildcard type _) to build an Array type. BTW for completeness: functions from types to values are well known in theory (the calculus is called F-omega) but Scala does not have them in their pure form. Would need an suitable VM. _ in types always means a wildcard type. Maybe you find this page useful, it has some examples – buraq Jul 8 '10 at 22:57

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.