Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

I have the following code:

trait M[Type[_]]{
  type T[X] = Type[X]
  def from[A](f: T[A]): A
class ListM extends M[List]{ def from[A](f: T[A]) = f.head }

class Trans[A, X[_], B <: M[X]](val r: X[Option[A]])
trait CurriedTrans[X[_], B <: M[X]]{ type Type[A] = Trans[A, X, B] }
class TransM[X[_], B <: M[X]](val b: B) extends M[CurriedTrans[X, B]#Type]{
  def from[A] = (f: T[A]) => b.from(f.r).get

and I can instantiate variables of type TransM in two ways:

val x1 = new TransM[List, ListM](new ListM)
val x2 = new TransM[ListM#T, ListM](new ListM)

I think ListM#T is redundant type parameter, so I'm trying to eliminate it:

trait M{
  type T[X]
  def from[A](f: T[A]): A
class ListM extends M {
  type T[X] = List[X]
  def from[A](f: T[A]) = f.head

class Trans[A, B <: M](val r: B#T[Option[A]])
class TransM[B <: M](val b: B) extends M {
  type T[X] = Trans[X, B]
  def from[Y] = (f: T[Y]) => b.from(f.r).get

to instantiate variable as

val x = new TransM[ListM](new ListM)

Unfortunately, the second implementation can't be compiled because of a type mismatch error:

type mismatch;
 found   : f.r.type (with underlying type B#T[Option[Y]])
 required: TransM.this.b.T[?]
      def from[Y] = (f: T[Y]) => b.from(f.r).get

Can I fix this issue and simplify my code or should I write boilerplate ListM#T everywhere?

share|improve this question
The first block of code doesn't compile, method from in TransM is defined with the wrong signature. –  0__ Jun 7 '13 at 14:13
Why do you need the specific type of B <: M[X] for TransM? Wouldn't M[X] suffice? –  ziggystar Jun 7 '13 at 16:04

1 Answer 1

up vote 0 down vote accepted

@ziggystar says it: Drop the bound B and use M[X] directly:

class TransM[X[_]](val b: M[X]) extends M[CurriedTrans[X, M[X]]#Type] {
  def from[A](f: T[A]) = b.from(f.r).get

val x1 = new TransM(new ListM)

You could consider to do the same for Trans and CurriedTrans. If you need the inner type of M, you can always expose it through a type member of Trans and CurriedTrans.

share|improve this answer

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.