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There is a data type like:

trait Heap {
  type H // type of a heap
  type A // type of an element

  . . . 

  def findMin(h: H): A 
  def deleteMin(h: H): H 
}

and I would like to add an implicit conversion with something like:

object HeapExtensions {

  implicit class HeapExtensionsClass(h: Heap) {
    def toList() = {
      def drainToList(h2: Heap, acc: List[Int]): List[Int] = {
        h match {
          case x if h == h.empty => acc
          case _ => {
            val min = h2.findMin(h2) // COMPILER ERROR
            drainToList(h2.deleteMin(h2), min :: acc) // COMPILER ERROR
          }
        }
      }
      drainToList(h, Nil)
    }
  }
}

Then on the two lines mark above I get the compiler error "type mismatch; h2.type (with underlying type quickcheck.Heap) required h2.H". How do I resolve this?

As a matter of style that Heap trait seems a weird way of doing things compared to, say, the standard library Map which puts the types in the declaration. New to scala it would seem more natural to do a heap such as:

trait Heap2[A] {
  . . . 
  def findMin(): A 
  def deleteMin(): Heap2[A] 
}

In which case the equivalent implicit class with parameterized types compiles okay:

object HeapExtensions {

  implicit class HeapExtensionsClass[A](h: Heap2[A]) {
    def toList() = {
      def drainToList(h2: Heap2[A], acc: List[A]): List[A] = {
        h match {
          case x if h == h.empty => acc
          case _ => {
            val min = h2.findMin()
            drainToList(h2.deleteMin(), min :: acc)
          }
        }
      }
      drainToList(h, Nil)
    }
  }
}

Are there any advantages to the first approach of using type=H and type=A inside the body of the trait instead of making the trade just a parameterised type from the oo imperative world?

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