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Assume, we have the following definitions:

abstract class A
class B extends A

trait Test[T <: A] {
  def foo(t: T) = println("I'm Foo")

  def bar(t: T) = t match {
    case b: B => foo(b)
    case _ => println("Bar says: Other")

The Scala compiler will complain with an error:

<console>:14: error: type mismatch;
 found   : b.type (with underlying type B)
 required: T
           case b: B => foo(b)

I do not understand, what is wrong here, since variable b is the same object as t and t is type T ?

Or maybe, the compiler does consider variable b as a new one (without the relationship to t). Then, b is a subtype of A, but not necessary a subtype of T, since T can be any arbitrary subtype of A. Is this the correct explanation ?

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2 Answers 2

case b: B actually will produce code like:

if(t.isInstanceOf[B]) {
  val b = t.asInstanceOf[B]
  // ...

so b is not t. It still refers to the same instance, but the type of b is B and not T. Same thing here:

def foo(x: String) = println(x)

foo("Foo bar".asInstanceOf[AnyRef])
<console>:9: error: type mismatch;
 found   : AnyRef
 required: String
                  foo("Foo bar".asInstanceOf[AnyRef])
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Thank you. Is it right to say, that with the cast asInstanceOf cast (which is also included in the match-case) delets all other type information and the compiler only sees the new casted type ? – John Threepwood Jul 4 '12 at 13:11
But trait C; def foo(c: C) = println("I'm Foo") and def bar(c: C) = c match { case b: B => foo(b) } is just fine. The problem is that abstract types and pattern matching interact in confusing ways. – Travis Brown Jul 4 '12 at 13:21
@Travis, this will only work, if B extends C. @John Yes, when you cast on object to a type, the compiler will handle it as an object of this type. – drexin Jul 4 '12 at 14:12
But that's just not the case. Start a new REPL and stick trait B on the front of the commands in my previous comment and you won't get the compiler error. – Travis Brown Jul 4 '12 at 14:22
Hm, this is very strange. – drexin Jul 4 '12 at 15:16

You said to the compiler you require T to be a subtype of A for all possible values of T but give a very specific subtype of A, namely B to foo. If you had a Test[C] with class C extends B, foo would expect to get a C but get a B so the types wouldn't match.

Unfortunately even if you don't introduce a new class and seal the hierarchy, the compiler doesn't seem to care for that or may have other legitimate complaints that I don't know of.

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Thank you to make this clear. I was thinking in a similar direction. – John Threepwood Jul 4 '12 at 18:02
Don't thank me yet. I don't know if that is really the compilers reasoning, I just think it is :) It is still safe in this case since bar accepts only the same types as foo. – Kaito Jul 4 '12 at 18:56

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