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Is it possible to access the type constructor parameter of a higher-kinded type in a context bound? I am looking to define a trait that takes a higher-kinded type, and has a method that returns an instance of the constructor parameter.

case class A[TContents](c: TContents) {
  def foo = c

case class B[TContents](c: TContents) {
  def foo = c

trait Fooable[TClass[_ <: TContents], TContents] {
  def foo(obj: TClass[TContents]): TContents

case class AFooable[TContents] extends Fooable[A, TContents] {
  def foo(obj: A[TContents]) = obj.foo

case class BFooable[TContents] extends Fooable[B, TContents] {
  def foo(obj: B[TContents]) = obj.foo

class test {
  def getFoo[TType[_] : Fooable, TContents](obj: TType[TContents]): TContents = 
    implicitly[Fooable[TType, TContents]].foo(obj)

  implicit def aFooable = AFooable

  val a = A(1)
  val foo = getFoo(a)

This fails with compiler error complaining that context bounds cannot have two type parameters, but I cannot find another way to access the type constructor parameter?

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1 Answer 1

up vote 3 down vote accepted

You have two options—either use the type lambda trick to partially apply Fooable (ugh):

def getFoo[TType[_]: ({type L[A[_]] = Fooable[A, TContents]})#L, TContents](
  obj: TType[TContents]
): TContents = implicitly[Fooable[TType, TContents]].foo(obj)

Or desugar the context bound (much nicer, in my opinion):

def getFoo[TType[_], TContents](obj: TType[TContents])(
  implicit ev: Fooable[TType, TContents]
): TContents = ev.foo(obj)

Note that in either case you'll need to give your aFooable a type parameter:

implicit def aFooable[A] = AFooable[A]

And I'd strongly advise obeying the warnings about parameter list-less case classes.

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Thanks for the suggestions. As I suspected, the syntactic sugar for context bounds cannot handle multiple type parameters. I wonder if this is oversight or a limitation of the language? –  Woodz Dec 6 '12 at 14:24
Lots of folks want partially applied types for different reasons (your case being one of them); see for example this compiler plugin. To answer your question, though, I'd guess that it was a conscious decision to avoid yet more Scala syntax. –  Travis Brown Dec 6 '12 at 14:34

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