I am learning Scala type system path-dependent types and refinement types. But confused with path-dependent type scenario. My code examples of these types as below:

abstract class SuperHero { val team: String }

abstract class Marvel extends SuperHero

case class DrStrange(team: String) extends Marvel
case class Hulk(team: String) extends Marvel

abstract class DC extends SuperHero

case class BatMan(team: String) extends DC
case class Flash(team: String) extends DC

abstract class Tower {
    type SH <: SuperHero
    val superHero: SH
    def teamName: String = s"I am ${superHero.team}"

class HulkTower(val superHero: Hulk) extends Tower {
    type SH = Hulk

object TowerOfHero{
    def apply[F <: SuperHero](f: F) : Tower { type SH = F } = new Tower {
        override type SH = F
        override val superHero : SH = f

val drStrangeTower = TowerOfHero(DrStrange("Avengers"))

val hulkTower : Tower { type SH = Hulk } = TowerOfHero(Hulk("Avengers"))

val hulkTower2 : HulkTower = new HulkTower(Hulk("Avengers"))

Below are the reference which confuse me:

val dtStrange5: drStrangeTower.SH = hulkTower2.superHero

Above code generate compile time error which is fine, because it refers to different types.

val hulk5: HulkTower#SH = hulkTower.superHero
val hulk6: HulkTower#SH = hulkTower2.superHero

Above code compile successfully which is fine, because of type projection. In type projection path of type does not depend.

val hulk7: hulkTower.SH = hulkTower2.superHero

Above code compile successfully, but I am expecting compile time error. Because of hulkTower.SH type path is different from hulkTower2.superHero type path.

Why this last snippet code is executed?

  • You should read this. – erip Oct 23 '18 at 11:36

You will need inner class for that. First, let's look at your example:

class HulkTower(val superHero: Hulk) extends Tower {
    type SH = Hulk

You're saying "Any HulkTower has the SH type defined as Hulk". Two HulkTower instances will both have the same SH type, and thus the compiler doesn't complain.

Inner class involve defining a class inside another:

class A {
  class B {


val a1 = new A
val a2 = new A

val a1_b = new a1.B
val a2_b = new a2.B

val x: a1.B = a2_b // compile error


Note the nested class definition. You're essentially saying "each instance of A has their own instance of class B"

  • Path-dependent type can be abstract type member as well. class A { type B } val a1 = new A val a2 = new A implicitly[a1.B =:= a2.B] // compile error – Dmytro Mitin Oct 24 '18 at 7:12
  • I think you're right in the that the concept of path-dependent types subsumes both abstract type members and inner classes. I've edited my answer – Jacob Wang Oct 24 '18 at 10:08

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