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I am defining an operable type:

trait Operable {
  def +[A](other: A)(implicit evidence: this.type =:= A): this.type
  def -[A](other: A)(implicit evidence: this.type =:= A): this.type
  def *[A](other: Float): this.type
/** Position descriptions */
trait Pos[T <: Operable] {
  def eval: T
def test[T <: Operable](x1: Pos[T], x2: Pos[T]): T = {
  x2.eval - x1.eval

And I get the following compile-time error:

 Cannot prove that _1.type =:= T.

Why can't the compiler prove the type equality, and how to overcome this problem? The T parameters from x1 and x2 should be the same. Why is it not the case?

share|improve this question
I think the answer Régis gave you (use F-bounded polymorphism) is the way to go, but it's worth noting that the compiler will be happy with <:< rather than =:=. – Huw Jun 19 '13 at 3:16
up vote 4 down vote accepted

this.type is the type of a specific instance. It is not compatible with any other instance, even if instances of the exact same type. So basically in this definition:

def -[A](other: A)(implicit evidence: this.type =:= A): this.type

your evidence tries to prove that other is the exact same instance as this, which is probably not what you has in mind.

I think you'll want to rework your design. You might try to use F-bounded polymorphism instead:

trait Operable[Self <: Operable[Self]] {
  def +(other: Self): Self
  def -(other: Self): Self
  def *(other: Float): Self
/** Position descriptions */
trait Pos[T <: Operable[T]] {
  def eval: T
def test[T <: Operable[T]](x1: Pos[T], x2: Pos[T]): T = {
  x2.eval - x1.eval
share|improve this answer
Do you have a good link describing what a F-Bounded polymorphism is? – Mikaël Mayer Jun 18 '13 at 10:48
I can suggest twitter's scala school: twitter.github.io/scala_school/advanced-types.html#fbounded – Régis Jean-Gilles Jun 18 '13 at 11:21

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