Consider the following hierarchy:
class C1 class C2 extends C1 class C3 extends C2 class C4 extends C3
I want to write a function that just accepts types
C3. For that I thought of the following:
def f [C >: C3 <: C2](c :C) = 0
I'd expect the following behaviour
f(new C1) //doesn't compile, ok f(new C2) //compiles, ok f(new C3) //compiles, ok f(new C4) // !!! Compiles, and it shouldn't
The problem is when calling it with
C4, which I don't want to allow, but the compiler accepts. I understand that
C4 <: C2 is correct and that
C4 can be seen as a
C3. But when specifying the bound
[C >: C3 <: C2], I would expect the compiler to find a
C that respects both bounds at the same time, not one by one.
Question is : Is there any way to achieve what I want, and if not, is the compiler trying to avoid some inconsistency with this?
Edit: from the answers I realized that my presumption is wrong.
C4 always fulfills
C >: C3, so both bounds are indeed respected. The way to go for my use case is
C3 <:< C.