I would like to subtract two consecutive element in a list with numbers in Scala.

For example : I have this list :

val sortedList = List(4,5,6)

I would like to have an output list like diffList =(1, 1) where 5-4 = 1 and 6-5 = 1.

I tried the following code:

var sortedList = List[Int]()
var diffList = List[Int]()

for (i <- 0 to (sortedList.length - 1) ;j <- i + 1 to sortedList.length - 1) 
    val diff = (sortedList(j) - sortedList(i))
    diffList = diffList :+ diff

I have the following result for diffList =(1, 2, 1) but I want diffList = (1,1).

It's because of the for loop. it does not iterate over the two variables (i and j) at once.


4 Answers 4


You do not mutability nor imperative programming to solve this problem, functional programming got you covered.

def consecutiveDifferences(data: List[Int]): List[Int] =
  if (data.isEmpty) List.empty
  else data.lazyZip(data.tail).map {
    case (x, y) => y - x

As I always say, the Scaladoc is your friend.
(Also, as an advice, the best way to learn functional programming is to forbid yourself from mutability)

  • Thank you. The logic is very different from java programming.
    – Sandra
    Jan 30, 2021 at 19:54
  • 1
    @Sandra yeah learning FP takes some time, especially because you need to unlearn your habits from imperative programming. That is why my advice is to force yourself to not using mutability and to use the Scaladoc in your advantage. Jan 30, 2021 at 20:13

You can use the sliding method, which according to the docs:

/** Groups elements in fixed size blocks by passing a "sliding window"
 *  over them (as opposed to partitioning them, as is done in `grouped`.)
 *  An empty collection returns an empty iterator, and a non-empty
 *  collection containing fewer elements than the window size returns
 *  an iterator that will produce the original collection as its only
 *  element.
 *  @see [[scala.collection.Iterator]], method `sliding`
 *  @param size the number of elements per group
 *  @return An iterator producing ${coll}s of size `size`, except for a
 *          non-empty collection with less than `size` elements, which
 *          returns an iterator that produces the source collection itself
 *          as its only element.
 *  @example `List().sliding(2) = empty iterator`
 *  @example `List(1).sliding(2) = Iterator(List(1))`
 *  @example `List(1, 2).sliding(2) = Iterator(List(1, 2))`
 *  @example `List(1, 2, 3).sliding(2) = Iterator(List(1, 2), List(2, 3))`

Then, solving your query is pretty straight forward:

diffList = sortedList.sliding(2).collect {
  case Seq(a, b) =>
    b - a

Which results in List(1,1)

Code run at Scastie.

  • 1
    Very nice @Tomer Shetah
    – Zvi Mints
    Jan 30, 2021 at 20:59
  • 2
    @MatthiasBerndt, the usage of collect, is like filter + map. Therefore usually when using collect you do not exauhst the pattern matching. If diffList has less then 2 elements, there will be no match, and the result will be empty list as expected. Otherwise all elements will be matched. Jan 30, 2021 at 21:39
  • 1
    Besides, it's still hacky to first call a method that will produce elements of length 2 that you then filter out again. It's better to not produce such elements in the first place by not using the inappropriate sliding method. Just do sortedList.zip(sortedList.drop(1)). Zvi Mints' solution is clearly the better one. Jan 31, 2021 at 9:48
  • 3
    @MatthiasBerndt you still miss the point. The only reason to filter, is for short (< 2) lists. Otherwise it won't be filtered, it will be computed. It is fine that you think that Zvi's solution is better, but I still don't understand why to downvote this legit solution. Jan 31, 2021 at 9:59
  • 1
    @MatthiasBerndt BTW, if you wanted to increase the sliding window, for example to subtract the 2 following elements from the first one, it will be harder using zip, and easy with sliding. Not to talk about 10 elements. Jan 31, 2021 at 10:23
for(i <- 0 until (sortedList.size - 1)) yield sortedList(i + 1) - sortedList(i)

yield Vector(1,1) which can be converted to list with toList

That's can be also achieved with the following function:

  val sortedList = List(4,5,7)
  def findDiffs(xs: List[Int])(seed: List[Int]): List[Int] = {
    if(xs.isEmpty || xs.size == 1) seed.reverse
    else {
      val currDiff = xs(1) - xs(0)
      findDiffs(xs.tail)(currDiff :: seed)
  val res = findDiffs(sortedList)(Nil)

Or just easily with zip:

sortedList.drop(1) zip sortedList map { case (x,y) => x - y } 

Sliding (see answer by @Tomer Shetah) over a list delivers an iterator, which may prove convenient for very large collections to avoid/reduce the amount of intermediate structures in the processing. Another approach includes the zipping of the list with itself shifted by one (see answers by @Luis Miguel Mejía Suárez and @Zvi Mints); in this regard another approach to shifting and then zipping is by dropping the first element as in

xs.drop(1) zip xs map {case(a,b) => b-a}

This can be generalised by dropping any number n so that we subtract the first and the n-th elements, then the second and the n+1-th elements, and so forth.


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