10

The method sliding on collections returns a sliding window of given size in the form of X[Iterable[A]] with X being the type of the collection and A the element type. Often I need two or three elements and I prefer to have them named. One ugly workaround for sliding(2) is the following:

points.sliding(2).foreach{ twoPoints =>
      val (p1,p2) = (twoPoints.head,twoPoints.last)
      //do something
}

This sucks and only works for two elements. Also note that

(a,b) = (twoPoints(0),twoPoints(1))

doesn't work.

4
  • I'm not exactly sure of what the question is.
    – mnuzzo
    Jan 17, 2011 at 20:57
  • 1
    I whined about the very same thing last week. The (A?) problem is certainly that due to some silly/unlucky/unexplainable design, you can apparently only have tuples up to size twenty-something. So sliding would not be well defined for larger inputs than that.
    – Raphael
    Jan 17, 2011 at 21:11
  • @Raphael: Also, the Tuples doeen't have a parent class more specific than Product. Also, the impl of such a class would inevitably be a vast switch statement keyed off of the number of elements. Who'd want to code that.
    – sblundy
    Jan 17, 2011 at 21:13
  • Something like Array[(Any, ClassManifest)] paired with some cast magic should do the job, too. This particular application would even require only a "nice" implementation of homogenuous tuples. Also, I do not quite get why not apply(#) is the accessor of Tuple but this awkward _#. In any case, having Tuple as hardcoded as it is definitely reeks.
    – Raphael
    Jan 17, 2011 at 23:59

3 Answers 3

16

I did a lot of that in this answer just last week.

points.sliding(2).foreach { case X(p1, p2) => ... }

If points is an Array, then replace X with Array. If it is a List, replace X with List, and so on.

Note that you are doing a pattern match, so you need to {} instead of () for the parameter.

1
  • I don't expect it will get any better, so I've accepted this.
    – ziggystar
    Jan 18, 2011 at 11:48
4

twoPoints would appear to be a List. Try this:

points.sliding(3).foreach{ _ match {
  case Seq(a, b, c) => {
      //do something
  }
}

You'll be surprised what sorts of kung fo pattern matching lets you get away with.

9
  • Ok, it works in the repl but gave me an error in the project.
    – ziggystar
    Jan 17, 2011 at 21:15
  • @ziggystar: Oh boy. Works for me on scala 2.8.0. Which version are you on? Might also try case Seq(p1, p2) =>
    – sblundy
    Jan 17, 2011 at 21:19
  • @Ziggystar: Smells like a version problem. You might have multiple version dependencies, for which the maven plugin as a check.
    – sblundy
    Jan 17, 2011 at 21:40
  • 2
    @ziggystar - Are you sure points is a list in the project? If it's some other kind of collection (e.g. an array) then the sliding entries won't be lists, they'll be the most natural thing for that collection to turn into (e.g. another array).
    – Rex Kerr
    Jan 17, 2011 at 22:33
  • 7
    The match is completely unnecessary. You can go from foreach to case directly. Jan 18, 2011 at 11:05
2

I recently wanted a little more sugar in my sliding iterators, so I came up with this:

implicit class SlidingOps[A](s: Seq[A]) {
  def slidingPairs = (s, s.tail).zipped
  def slidingTriples = (s, s.tail, s.tail.tail).zipped
}

This works with any Seq, but is probably most efficient with List. .zipped returns a scala.runtime.Tuple2Zipped (or Tuple3Zipped for a 3-element tuple) object, which defines several familiar higher-order methods so that their arguments take multiple arguments, so you can write:

points.slidingPairs.foreach { (a, b) => ... }

or even:

(1 to 10).slidingTriples.map(_ + _ + _)

You can optimize the implementation further if you want it to be really efficient for non-list types.

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