2

I have been looking at the paper on the type system of Java and Scala being unsound. To better understand the problem, I have been trying to play around with a smaller related problem.

I have the following types:

class Parent
class Child extends Parent
class Grandchild extends Child
class GrandGrandchild extends Grandchild

Here are some traits with constrained abstract types:

trait LowerBound[T] extends{
  type M >: T
}

trait UpperBound[U] extends{
  type M <: U
}

I understand that the problem arising here is that the types T and U in UpperBound and LowerBound are not related. So mixing them can be problematic.

I can see that I can create an object/val by providing the abstract type:

object FamilyMember extends LowerBound[GrandGrandchild] with UpperBound[Parent] {
  type M = Child
}

but I fail in defining a trait like the following:

trait FamilyTreeConstraint extends LowerBound[GrandGrandchild] with UpperBound[Parent]

I get:

overriding type M in trait LowerBound with bounds >: A$A131.this.GrandGrandchild; type M in trait UpperBound with bounds <: A$A131.this.Parent has incompatible type

Now if I didn't have any concrete types, the parameterised FamilyConstraint would be equivalent to:

trait UpperLower[T,U]{
   type M >: T <: U
}

on which I understand the error. as T and U are unrelated.

But the Family Constraint type above is not abstract and actually has concrete types. Ie I would have imagined the compiler to end up with this:

trait UpperLowerConcrete{
   type M >: GrandGrandchild <: Parent
}

Where I would be allowed to refine M as Child or GrandChild .However it doesn't turn into above and gives the same error as the abstract case.

  • Why?

  • Also, am I right in thinking that type-refinements are applied first and then type-constraints are checked?

1

I don't know the reasons for this behavior but from my experience it is often necessary to explicitly override type definition inside a sub-class/trait if its constraints are changed. What I mean is that once you specify restrictions for M explicitly in your FamilyTreeConstraint, the compiler is satisfied

trait FamilyTreeConstraint extends LowerBound[GrandGrandchild] with UpperBound[Parent] {
  override type M >: Grandchild <: Parent
}

See it online

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service, privacy policy and cookie policy

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