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I have a tree object that implements lazy depth-first-search as a TraversableView.

import collection.TraversableView

case class Node[T](label: T, ns: Node[T]*)

case class Tree[T](root: Node[T]) extends TraversableView[T, Traversable[_]] {
    protected def underlying = null

    def foreach[U](f: (T) => U) {
        def dfs(r: Node[T]): TraversableView[T, Traversable[_]] = {
            Traversable(r.label).view ++ r.ns.flatMap(dfs(_))

This is appealingly concise and appears to work; however, the underlying = null method makes me nervous because I don't understand what it means. (IntelliJ wrote that line for me.) I suppose it might be correct, because in this case there is no underlying strict representation of the tree, but I'm not sure.

Is the above code correct, or do I have to do something more with underlying?

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Even if that is correct, I would never recommend using null like that. Instead, try throwing a descriptive exception so that if underlying ever does end up getting called you'll know exactly when and where instead of getting a confusing null pointer exception after the null value was propagated elsewhere. –  DaoWen Dec 2 '12 at 22:28

1 Answer 1

up vote 2 down vote accepted

Users of views will expect to be able to call force to get a strict collection. With your implementation, calling force on a tree (or any transformation of a tree—e.g., tree.take(10).filter(pred), etc.) will result in a null pointer exception.

This may be fine with you—you'll still be able to force evaluation using toList, for example (although you should follow the advice in DaoWen's comment if you go that route).

The actual contents of underlying should never get used, though, so there's an easy fix—just make it an appropriately typed empty collection:

protected def underlying = Vector.empty[T]

Now if a user calls tree.force, they'll get a vector of labels, statically typed as a Traversable[T].

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