Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

I'm trying to port the following Java snippet to Scala. It takes a list of MyColor objects and merges all of the ones that are within a delta of each other. It seems like a problem that could be solved elegantly using some of Scala's functional bits. Any tips?

List<MyColor> mergedColors = ...;
MyColor lastColor = null;
for(Color aColor : lotsOfColors) {
  if(lastColor != null) {
    if(lastColor.diff(aColor) < delta) {
  lastColor = aColor;
share|improve this question
You tagged this "scale" instead of "scala"--I assume you meant the latter and fixed it. –  Rex Kerr Mar 11 '10 at 16:24
I think ams' answer below is a fantastic example of using tail recursion in scala –  oxbow_lakes Mar 11 '10 at 18:41
There's something bothering me with your code. You merge color to lastColor, but you never use the merged lastColor. The first thing your algorithm does when the difference is higher than the delta is to assign the new color to lastColor, which is then added to mergedColors. That means only the first color in each merged list is kept in the mergedColors. Is that what you really intended? –  Daniel C. Sobral Mar 11 '10 at 23:47
@Rex: You're correct, thanks. @Daniel: Because of how we use the code, it works as I described it above, but it would also work and make more sense to saved the merged color. –  scompt.com Mar 12 '10 at 8:28

4 Answers 4

up vote 6 down vote accepted

Here's another recursive solution, which has the advantage of being tail recursive (so no chance of stack overflow) but on the downside does a lot of list manipulation, so may be wasteful. The call to reverse at the end is to put the output colors back in the input order, but isn't needed if you don't care about the ordering.

def processColors(colors: List[Color], delta: Double): List[Color] = {
  def process(in: List[Color], accum: List[Color]): List[Color] = in match {
      case x :: y :: ys if x.diff(y) < delta => process( x.merge(y) :: ys, accum )
      case x :: xs                           => process( xs, x :: accum )
      case Nil                               => accum

  process(colors, Nil).reverse
share|improve this answer
Awesome answer! –  oxbow_lakes Mar 11 '10 at 18:33
Somewhat simpler - the joy of pattern matching –  pjp Mar 11 '10 at 18:37
@oxbow_lakes, it's nicer now you've removed the tuples. –  ams Mar 12 '10 at 8:25
I'm accepting this answer because it's the one I can understand the best with my (limited) Scala knowledge. Altogether great answers though! –  scompt.com Mar 12 '10 at 8:34

I'm assuming that you somehow have your colors arranged in the list such that colors "close" in color space (i.e. with a low diff value) are adjacent in the list. Then I'd use a fold:

val unmergedColors: List[MyColor] = ...
val mergedColors = (Nil:List[MyColor] /: unmergedColors)( (list,c) => {
  list match {
    case oldc :: rest if (oldc.diff(c) < delta) => oldc.merge(c) :: rest
    case _ => c :: list

Here, I'm assuming that merge is altered to take return a new color that is the previous two merged (so that your colors are immutable); otherwise, you'd oldc.merge(c) ; list in the first case.

Let's see what's going on here.

We start with an empty list for the new colors. Then, for each color in the unmerged list, we have two cases:

  • The merged list has a head, and the color of the head is within delta of the color we're testing. In that case, merge the head and the new color, and pass along the saved list with the new head.
  • Otherwise, add the new color to the front of the growing list and pass it along.

Finally, since we're using these as stack operations, we finish off by reversing the list.

share|improve this answer

It seems to me that this problem can lead to various questions around exactly what the problem is. For example:

  • should the solution be invariant in the initial ordering of your list
  • should the diff be done against the merged or unmerged values as you go along

But here is something fun which uses recursion (although it is not tail-recursive it could of course be made so), like:

type C = MyColor
type Cs = list[C]

def merge(val delta: Double, diff: (C, C) => Double, colors: Cs) : Cs = {

   def _mergeHeadAndGTDiff(head: C, tail: Cs) : Cs = { 
      val (toMerge, rest) = tail.span(diff(head, _) < delta) 
      val newHead = (head :: toMerge).reduceLeft(_ merge _)
      newHead :: (rest match {
           case Nil     => Nil
           case x :: xs => _mergeHeadAndGTDiff(newHead, xs) 

   colors match {
      case Nil     => Nil
      case x :: xs => _mergeHeadAndGTDiff(x, xs)

The solution looks like:

  1. Grab the head
  2. Get all elements of the tail which can be merged with the head and then merge them (could use fold) into a new head
  3. cons the new head onto a tail which is formed by taking everything which could not be merged at step #2 and then plugging them back in at step #1 (with the obligatory terminal clause in the case that the tail is empty)

This works better as a Stream, I think. Note that I am assuming that the list was originally ordered by diff because I am using span. This would be unnecessary if this were replaced by partition.

share|improve this answer
Woah the Java version is so much more concise –  pjp Mar 11 '10 at 18:37
Yeah - ams has wiped the floor with me on this one! –  oxbow_lakes Mar 11 '10 at 18:40

I'd try folding:

def merge(lotsOfColor: List[MyColor], delta: Double): List[MyColor] =
  lotsOfColor.tail.foldLeft((List(lotsOfColor.head), lotsOfColor.head)) {
    case ((mergedColors, lastColor), aColor) if (lastColor diff aColor) < delta =>
      (mergedColors, lastColor merge aColor)
    case ((mergedColors, _), aColor) => (aColor :: mergedColors, aColor)

Or, slightly different,

def merge(lotsOfColor: List[MyColor], delta: Double): List[MyColor] =
  lotsOfColor.tail.foldLeft((List(lotsOfColor.head), lotsOfColor.head)) {
    case ((mergedColors, lastColor), aColor) =>
      if ((lastColor diff aColor) < delta)
        (mergedColors, lastColor merge aColor)
        (aColor :: mergedColors, aColor)

There's also another cool trick using ListBuffer in Scala, to avoid the reverse at the end:

import scala.collection.mutable.ListBuffer
def merge(lotsOfColor: List[MyColor], delta: Double): List[MyColor] =
  lotsOfColor.tail.foldLeft((ListBuffer(lotsOfColor.head), lotsOfColor.head)) {
    case ((mergedColors, lastColor), aColor) if (lastColor diff aColor) < delta =>
      (mergedColors, lastColor merge aColor)
    case ((mergedColors, _), aColor) => 
      mergedColors += aColor
      (mergedColors, aColor)
share|improve this answer
I tried doing something similar to this, but using partition as you suggested. The tail recursion solution from from ams seems a bit more elegant though. –  scompt.com Mar 12 '10 at 8:36

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.