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I know there are already some ways of making traversal generic in scala, but I'm trying to define a simple trait that encapsulates a traversable type. However, I'm having trouble getting the type signatures to work out. A first attempt would be something like the following:

trait Traversable1[B] {
  def head: Option[B]
  def next: Traversable1[B]
}

This works well, except I want next to return an object that has the same type as the original traversable, not the more generic traversable type. For example, if List has the trait Traversable1, it's next method should return something of type List, not Traversable1. Thus, my second attempt was the following:

trait Traversable2[A[B] <: Traversable2[A[B]] {
  def head: Option[B]
  def next: A[B]
}

Here, A could equal List, so next would return a List[B]. Unfortunately, this code does not compile: A[B] takes no type parameters, expected: one

How can I achieve what I'm trying to do?

share|improve this question
    
Isn't this what Iterable is for? –  acjay May 22 '14 at 23:11
1  
Yes, probably. I have more complicated examples I'm working with, and trying to more deeply understand Scala's typesystem and syntax so that I can use the right solution in such more complicated novel situations. –  jonderry May 22 '14 at 23:25
    
You might find the implementation of scalaz.Traverse to be of interest. As noted, it's based on cs.ox.ac.uk/jeremy.gibbons/publications/iterator.pdf –  Huw May 23 '14 at 0:20

1 Answer 1

up vote 3 down vote accepted

You could create a trait like:

trait Traversable[T[_]] {
    def head[A](t: T[A]): Option[A]
    def next[A](t: T[A]): T[A]
}

then implement it for lists like:

implicit val listTraversable = new Traversable[List] {
    def head[A](l: List[A]) = l match {
        case Nil => None
        case x::_ => Some(x)
    }

    def next[A](l: List[A]) = l.tail
}

You can then make use of it using the 'type class' pattern by taking an implicit implementation of the trait to do the work e.g.

def foreach[T[_], A](t: T[A], f: A => Unit)(implicit trav: Traversable[T]): Unit = {
    trav.head(t) match {
        case Some(v) =>
            f(v)
            foreach(trav.next(t), f)
        case None => ()
    }
}

and call it with

foreach(List(1,2,3), println)
share|improve this answer
    
This looks right, but can you explain how this would be used in practice? If I have a function that accepts a Traversable when I have a List, do I need to pass both the List and the singleton listTraversable? Or is there a way to implicitly give a List this functionality? I think I don't understand the syntax of such traits that simply define functions that accept the data they are encapsulating. –  jonderry May 22 '14 at 23:29
    
@jonderry - Yes you can supply the implementing trait using implicits, see update. –  Lee May 23 '14 at 11:44

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