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 have a number of range-objects which I need to merge so that all overlapping ranges disappear:

case class Range(from:Int, to:Int)

val rangelist = List(Range(3, 40), Range(1, 45), Range(2, 50), etc)

Here is the ranges:

  3  40  
  1  45  
  2  50  
 70  75  
 75  90  
 80  85  
100 200

Once finished we would get:

  1  50  
 70  90  
100 200  

Imperative Algorithm:

  1. Pop() the first range-obj and iterate through the rest of the list comparing it with each of the other ranges.
  2. if there is an overlapping item, merge them together ( This yields a new Range instance ) and delete the 2 merge-candidates from the source-list.
  3. At the end of the list add the Range object (which could have changed numerous times through merging) to the final-result-list.
  4. Repeat this with the next of the remaining items.
  5. Once the source-list is empty we're done.

To do this imperatively one must create a lot of temporary variables, indexed loops etc.

So I'm wondering if there is a more functional approach?

At first sight the source-collection must be able to act like a Stack in providing pop() PLUS giving the ability to delete items by index while iterating over it, but then that would not be that functional anymore.

share|improve this question

3 Answers 3

up vote 6 down vote accepted

Try tail-recursion. (Annotation is needed only to warn you if tail-recursion optimization doesn't happen; the compiler will do it if it can whether you annotate or not.)

import annotation.{tailrec => tco}
@tco final def collapse(rs: List[Range], sep: List[Range] = Nil): List[Range] = rs match {
  case x :: y :: rest =>
    if (y.from > x.to) collapse(y :: rest, x :: sep)
    else collapse( Range(x.from, x.to max y.to) :: rest, sep)
  case _ =>
    (rs ::: sep).reverse
def merge(rs: List[Range]): List[Range] = collapse(rs.sortBy(_.from))
share|improve this answer
That assumes rs is ordered by range initial elements. It would be better just to make x contains y.from. –  Daniel C. Sobral Feb 10 '12 at 4:58
merge sorts and passes to collapse. If you don't do it this way your runtime is O(n^2) instead of O(n log n) like it should be. –  Rex Kerr Feb 10 '12 at 5:43
Duh! I didn't notice that merge method... –  Daniel C. Sobral Feb 10 '12 at 15:33
You should add the @annotation.tailrec on your collapse method so the compiler will emit an error if it cannot perform tail-call optimization. –  dave Feb 13 '12 at 2:34
@dave - One can add this annotation if one is unsure. In this case, I am sure, but it's good to know about the existence of the annotation. –  Rex Kerr Feb 13 '12 at 3:54

I love these sorts of puzzles:

case class Range(from:Int, to:Int) {
  assert(from <= to)

  /** Returns true if given Range is completely contained in this range */
  def contains(rhs: Range) = from <= rhs.from && rhs.to <= to

  /** Returns true if given value is contained in this range */
  def contains(v: Int) = from <= v && v <= to

def collapse(rangelist: List[Range]) = 
  // sorting the list puts overlapping ranges adjacent to one another in the list
  // foldLeft runs a function on successive elements. it's a great way to process
  // a list when the results are not a 1:1 mapping.
  rangelist.sortBy(_.from).foldLeft(List.empty[Range]) { (acc, r) =>
    acc match {
      case head :: tail if head.contains(r) =>
        // r completely contained; drop it
        head :: tail
      case head :: tail if head.contains(r.from) =>
        // partial overlap; expand head to include both head and r
        Range(head.from, r.to) :: tail
      case _ =>
        // no overlap; prepend r to list
        r :: acc
share|improve this answer
Excellent thanks. You need to reverse after to get it back into sorted order fyi. –  monkjack Nov 22 '13 at 19:13

Here's my solution:

def merge(ranges:List[Range]) = ranges
  .sortWith{(a, b) => a.from < b.from || (a.from == b.from && a.to < b.to)}
  .foldLeft(List[Range]()){(buildList, range) => buildList match {
    case Nil => List(range)
    case head :: tail => if (head.to >= range.from) {
      Range(head.from, head.to.max(range.to)) :: tail
    } else {
      range :: buildList

merge(List(Range(1, 3), Range(4, 5), Range(10, 11), Range(1, 6), Range(2, 8)))
//List[Range] = List(Range(1,8), Range(10,11))
share|improve this answer

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.