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There's a common Java idiom (seen in Enum for example) to declare a generic type variable that has to match the actual derived type.

class Enum<E extends Enum<E>> {
...
}

or, if needed more generic arguments:

abstract class Foo<T, Actual extends Foo<T, Actual>> {
    //now we can refer to the actual type
    abstract Actual copy();
}
class Concrete<T> extends Foo<T, Concrete<T>> {
    Concrete<T> copy() {...}
}

Things can get very verbose really quickly, so I imagined that Scala might have something nicer than a literal translation of the examples above.

Are there any more elegant ways to achieve this?

share|improve this question
    
"There's a common Java idiom" It's not common. The bounds on Actual in your example do not appear to serve any useful purpose -- replacing it with abstract class Foo<T, Actual> would work just as well. – newacct Jan 31 '13 at 9:10
    
It starts to be common once you get picky about static type safety. abstract class Foo<T, Actual> does not enforce any type on Actual, it would allow something like class Concrete<T> extends Foo<T, String> { String copy() {...}} and that is not what was meant. – fortran Jan 31 '13 at 15:21
    
Your bounds do not add any static type safety as written above. People who use such bounds are almost always mistaken. "it would allow something like" Yes, and it is perfectly type-safe as written. Generics are only useful where they add additional type safety, allowing you to do something that would require casts otherwise. Can you think of an example where your bounds allow some code to be safely done without casts and my bounds do not? – newacct Jan 31 '13 at 18:47
1  
It is difficult find a good example that fits here, but they are necessary if you don't want your types to decay to a common denominator and want the actual error happening where it is supposed to happen (in the declaration of the derived class) and not far away from the cause (when the method using the Actual type is invoked). – fortran Jan 31 '13 at 19:32
2  
You should be extremely careful when using self-bounds even in Java. In your example, Concrete should be final to prevent breaking Foo's contracts in any other subtypes of Concrete. See more details here: blog.jooq.org/2013/06/28/… – Lukas Eder Jul 3 '13 at 13:54
up vote 9 down vote accepted

An alternative formulation is to use abstract type members:

trait Foo { self => 
  type A <: Foo {type A = self.A}
}

With your example:

trait Foo { self =>
  type T
  type Actual <: Foo {type T = self.T; type Actual = self.Actual}
}

trait Concrete extends Foo { self =>
  type T
  type Actual = Concrete {type T = self.T}
}

While this reformulation isn't really nicer at the trait/class declarations, when using the traits/classes it can be much terser. (And as far as I know, there isn't another way to reformulate recursive types).

share|improve this answer
    
looks interesting, I still have lots of things to learn about Scala! – fortran Jan 31 '13 at 15:23
    
We can break it: gist.github.com/frozenspider/938991752d59d07927db Here, for FooExtLvl1 self-type points to its child, and for FooExtLvl3 - to its parent. First case is rarely a desired effect. – Frozen Spider Nov 21 '15 at 21:22

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