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Is there an equivalent to the OO notion of subtyping for the ADT pattern as used in Scala? In particular I would like to add methods to more specialized types. For example, given a generic List ADT:

sealed trait List[+A]
case class Cons[+A](h: A, t: List[A]) extends List[A]
case object Nil[Nothing]

I'd like to define new methods for lists of particular types:

sealed trait List[+A]
sealed trait DuckList extends List[Duck] {
    def feed(l: DuckList) = ...
}

but then I'd also have to define special data constructors (DuckCons, DuckNil) for these new types, and since case classes don't support (case-to-case) inheritance, there is no way to relate a DuckCons to the generic Cons such that it would work in pattern matching, so the generic methods defined for List wouldn't work for DuckList.

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up vote 9 down vote accepted

Use the type class pattern.

For one example, consider how Ordering is implemented. It adds a method -- compare -- to a set of closed classes, but it does so not by adding the method directly but, instead, providing an instance that has such a method for that particular class. Ordering[Int], to continue with the example, is implemented like this:

trait IntOrdering extends Ordering[Int] {
  def compare(x: Int, y: Int) =
    if (x < y) -1
    else if (x == y) 0
    else 1
}
implicit object Int extends IntOrdering

That is, the object Ordering.Int (for this is inside the object Ordering) implements a method compare that takes two Int as a parameter. This object is provided implicitly, so that the user does not need to pass it explicitly. List's sorted method takes advantage of this:

def sorted[B >: A](implicit ord: math.Ordering[B]): List[A]

Then it can call ord.compare on instances of the list to order them. I encourage you to look at Ordering to understand what it is doing.

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"This conversion is provided implicitly, so that the user does not need to pass it explicitly.". What conversion? There is simply an implicit parameter, right? No conversion AFAIK. – Felix Nov 5 '13 at 8:38
    
@Felix Right, I misspoke. – Daniel C. Sobral Nov 5 '13 at 19:20
    
so this solution allows extension in the sense of defining type-specific behavior for (previously defined) generic methods, but it doesn't actually allow the definition of new methods right? so I could only implement the feed method in my example if it was already available in List at least as an abstract method. – estolua Nov 6 '13 at 4:41
    
@estolua It allows one to define new method for a type in terms of that type's public methods. If you mean calling list.feed instead of feed(list), that distinction is irrelevant. For syntax sake, you can use implicit conversions (also present on Ordering), but that's a different concern. – Daniel C. Sobral Nov 6 '13 at 6:02

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