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I tried to extend TraversableLike with my own methods, but I failed.

First, see what I wanna achieve:

class RichList[A](steps: List[A]) {
  def step(f: (A, A) => A): List[A] = {
    def loop(ret: List[A], steps: List[A]): List[A] = steps match {
      case _ :: Nil => ret.reverse.tail
      case _ => loop(f(steps.tail.head, steps.head) :: ret, steps.tail)
    loop(List(steps.head), steps)
implicit def listToRichList[A](l: List[A]) = new RichList(l)

val f = (n: Int) => n * (2*n - 1)
val fs = (1 to 10) map f
fs.toList step (_ - _)

This code works fine and it calculates me the differences between the list elements. But I wanna have such a code that works with Seq, Set etc. and not only with List.

I tried this:

class RichT[A, CC[X] <: TraversableLike[X, CC[X]]](steps: CC[A]) {
  def step(f: (A, A) => A): CC[A] = {
    def loop(ret: CC[A], steps: CC[A]): CC[A] =
      if (steps.size > 1) loop(ret ++ f(steps.tail.head, steps.head), steps.tail)
      else ret.tail
    loop(CC(steps.head), steps)
implicit def tToRichT[A, CC[X] <: TraversableLike[X, CC[X]]](t: CC[A]) = new RichT(t)

There are several errors. Either the implicit conversion nor the ++-method work. Also, I don't know how to create a new type CC - see the call of the loop.

Can anyone help me?

share|improve this question
I think this question is a duplicate of – Rex Kerr Apr 11 '11 at 19:53
possible duplicate of How do I apply the pimp-my-library pattern to Scala collections? – Ken Bloom Apr 12 '11 at 15:01

1 Answer 1

up vote 2 down vote accepted

Based on Rex' comment I have written following code:

class RichIter[A, C[A] <: Iterable[A]](ca: C[A]) {
  import scala.collection.generic.CanBuildFrom
  def step(f: (A, A) => A)(implicit cbfc: CanBuildFrom[C[A], A, C[A]]): C[A] = {
    val iter = ca.iterator
    val as = cbfc()

    if (iter.hasNext) {
      var olda =
      as += olda
      while (iter.hasNext) {
        val a =
        as += f(a, olda)
        olda = a
implicit def iterToRichIter[A, C[A] <: Iterable[A]](ca: C[A]) = new RichIter[A, C](ca)

val f = (n: Int) => n * (2*n - 1)
val fs = (1 to 10) map f
fs step (_ - _)

This works as expected.

share|improve this answer
Very useful answer. I can just cut and paste and add methods to suit, and understand the finer details later. – Rich Oliver Oct 11 '12 at 17:07

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