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I have a type-parameterized abstract class that contains a val and a method that both use its type parameter

abstract class Foo[T](val state: T){
  def foo(arg: T){
    ...
  }
}

I also have a class that extends this abstract class and provides the type parameter and a value for state

class Bar(myNumber: Int) extends Foo[Int](myNumber){
   ...
}

I pass an instance of Bar to another class that accepts any subclass of Foo, and I would like to call the method foo on state, but I'm running into some trouble:

class Baz(val f: Foo[_]){
    f.foo(f.state)
}

This gives the error:

<console>:8: error: type mismatch;
 found   : Baz.this.f.state.type (with underlying type _$1)
 required: _$1
         f.foo(f.state)

Is there any way to give Baz knowledge of Bar's type parameter so that it compiles correctly? Or is that even what I want to do?

Edit

To clarify, I have many classes similar to Bar that extend Foo and provide their own type parameter, state, and implementation of foo. I would like users of my library to be able to pass any of them to Baz without worrying about the type parameter T since its just an implementation detail of each subclass of Foo.

So I would strongly prefer not to do this:

class Baz[T](val f: Foo[T]){
  f.foo(f.state)
}
share|improve this question
    
Existentials considered harmful. That thread covers why, and different solutions that could be used. –  ggovan May 25 '14 at 19:07
    
    
That question is different because the asker specifies a type T and wants the existential type to be a superclass of it. In my question I want to ignore it entirely. Additionally I tried their answer and it didn't work. –  DLaw May 25 '14 at 21:15

2 Answers 2

up vote 2 down vote accepted

You just need a

def fooOnState[T](ft: Foo[T]) = ft.foo(ft.state)

calling it with a Foo[_] is ok.

Still, existentials are best avoided most of the time, but it depends on your real code.

share|improve this answer
    
This would work, but then how would I access the T that I need to call fooOnState? I have many different subclasses of Foo each with their own T, etc... –  DLaw May 25 '14 at 20:09
    
Not sure I understand, you may call fooOnState passing it a Foo[_], in your code, just call fooOnState(f) rather than f.foo(f.state) you are not required to know T for that. –  Didier Dupont May 25 '14 at 22:07
    
My apologies, I didn't know you could omit that type parameter when calling. Accepted! –  DLaw May 25 '14 at 23:12

Replacing the type parameter with a "type member" in a trait would let you write generic code that works for all state types, at the expense of a little verbosity to specify the type member in each subclass:

trait Foo {
  type StateT  // this is the "type member"
  val state: StateT
  def foo(arg: StateT): Unit
}

class Bar(myNumber: Int) extends Foo {
  type StateT = Int     // this is the verbose part
  override val state = myNumber  // this, too
  override def foo(arg: StateT) { /* something specific here */ }
}

class Baz(val f: Foo) {
  f.foo(f.state)  // generic code, works on any Foo subclass
}
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