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Let's say I have a list that looks something like this:


What I'd like to end up with is:


I'm removing all the trailing zero's. Is there a method, something like:

list.trimRight(_ == 0)

that will accomplish that? I could write it from scratch, but it seems to me that it's something that'd come with the std collections?

I came up with:

list.take(list.lastIndexWhere(_ != 0) + 1)

Is there a better approach?

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There is dropWhile, but that would require a few reverses as well... –  user166390 May 22 '12 at 22:19
I think your solution is the most efficient one. –  Christopher Chiche May 22 '12 at 22:23

5 Answers 5

up vote 7 down vote accepted

If you want to know which is the most elegant, then I would say

list.reverse.dropWhile(_ == 0).reverse

since it only needs to refer to the input once, and the intent is very clear.

If you want to know which is the most efficient, you need to do some benchmarking. The results (for your short test list) might surprise you!

// Slowest
191 ns     dhg's EnhancedSeq
173 ns     user unknown's custom dropRight
 91 ns     andyczerwonka's take/lastIndexWhere
 85 ns     Rex's :\ (foldRight) -- see below
 60 ns     dhg / Daniel's reverse/dropWhile/reverse
 52 ns     Rex's customDropTrailingZeros -- see below
// Fastest

There may be some modest machine-to-machine differences, but basically this is a case where for short lists being fancy does not help you. Things may change considerably with very long lists.

Here's the fold version (but the stack overflows on large lists):

(list :\ list.take(0)){ (x,ys) => if (x==0 && ys.isEmpty) ys else x :: ys }

Here's the custom version (completely non-generic--good only for this specific task!):

@annotation.tailrec def customDropZeros(
  xs: List[Int],
  buffer: Array[Int] = new Array[Int](16),
  n: Int = 0
): List[Int] = {
  if (xs.isEmpty) {
    var ys = xs
    var m = n
    while (m>0 && buffer(m-1)==0) m -= 1
    var i = m-1
    while (i>=0) {
      ys = buffer(i) :: ys
      i -= 1
  else {
    val b2 = (
      if (n<buffer.length) buffer
      else java.util.Arrays.copyOf(buffer, buffer.length*2)
    b2(n) = xs.head
    customDropZeros(xs.tail, b2, n+1)


Use reverse dropWhile reverse unless you have good reason to otherwise. It's surprisingly fast and surprisingly clear.

share|improve this answer
If I remove the dynamic predicate passing, and use static "!=0" instead, I gain a speed up from roughly 9 to 1. Sacrificing the tailrec call, and sorting on the fly is another speed improvement, as well as using Int intstead of T, but all three are not that impressive. However, dhgS enhancedSeq uses a generic Type and a predicate, variable at runtime, too. –  user unknown May 23 '12 at 1:11
Wow, I would have thought my approach was faster than Daniel's reverse.dropWhile... Although I think my approach was just as clear. –  andyczerwonka May 23 '12 at 2:00
@andyczerwonka: I made my own benchmark, and for a List of 4M values, most of them 0 (for (x <- 1 to n) yield random.nextInt (1000) / 998).toList the trend of time spent by the algos didn't stabilize, the Graph is oscillating much down from 3.6M to 4M values, 9 to 5s, 5 to 2s - interestingly over all algorithms I tested, maybe a caching phenomenon or the JIT is just stepping in. My own solution is always worse. Yours is at the top. I didn't test dhgs code, because it didn't fit to the common interface. –  user unknown May 23 '12 at 4:04
@userunknown - That's probably collection. GC can take a long time when you have 4-8M new objects suddenly floating around. Anyway, for really long sequences, you really don't want to use List; Vector is the way to go when you need to do things like drop the end. –  Rex Kerr May 23 '12 at 5:06
@userunknown, oh, i see what happened! Your definition of enhanceSeq doesn't actually define it. The definition needs to contain = new EnhancedSeq(seq). Somehow you missed that when copying/pasting. Then you can just do i.dropRightWhile(_ == 0). I added a comment to your gist file showing the correction. –  dhg May 23 '12 at 19:13

I guess my answer of list.take(list.lastIndexWhere(_ != 0)+1) is the way to do it.

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scala> val xs = List(0,5,34,0,9,0,0,0)
xs: List[Int] = List(0, 5, 34, 0, 9, 0, 0, 0)

scala> xs.reverse.dropWhile(_ == 0).reverse
res1: List[Int] = List(0, 5, 34, 0, 9)


Here's a one-pass (O(n)) way that adds an implicit dropWhileRight method to Seq

class EnhancedSeq[A, Repr <: Seq[A]](seq: SeqLike[A, Repr]) {
  def dropRightWhile[That](p: A => Boolean)(implicit bf: CanBuildFrom[Repr, A, That]): That = {
    val b = bf(seq.asInstanceOf[Repr])

    val buffer = collection.mutable.Buffer[A]()
    for (x <- seq) {
      buffer += x
      if (!p(x)) {
        b ++= buffer

implicit def enhanceSeq[A, Repr <: Seq[A]](seq: SeqLike[A, Repr]) = new EnhancedSeq(seq)

And you just use it like this:

scala> List(0,5,34,0,9,0,0,0).dropRightWhile(_ == 0)
res2: List[Int] = List(0, 5, 34, 0, 9)
share|improve this answer
Is that more efficient than my solution? list.take(list.lastIndexWhere(_ != 0)) –  andyczerwonka May 22 '12 at 22:30
I just edited my answer to use have a one-pass version –  dhg May 22 '12 at 22:34
nice, although I'm not sure the overhead of maintaining that class is worth the effort. –  andyczerwonka May 22 '12 at 23:05

There's no such method in Scala, and List is highly inefficient when changing it's "end". Prefer Vector.

This works reasonably well with List (my other suggestion was full of errors, and I deleted it):

list.reverse.dropWhile(_ == 0).reverse
share|improve this answer
I think seq.last be preferable to seq(seq.length - 1). Vector defines last as apply(length-1), so it's no less efficient. –  dhg May 22 '12 at 23:01
@dhg You're probably right. There are other problems as well. I'll edit my answer. –  Daniel C. Sobral May 23 '12 at 14:48

You may traverse the list, and buffer the 0s until you find some non-0. If you find a not-0, you append the buffer to the result so far, and go ahead. But if your List ends with a 0, you throw the last buffer away.

But - in the end, a reverse is still needed.

val xs = List(0,5,34,0,9,0,0,0)

import annotation._
def dropRight [T] (l: List[T], p: (T=>Boolean), carry: List[T]=List.empty, buf: List[T]=List.empty): List[T] = {
  if (l.isEmpty) carry.reverse else 
  if (p (l.head)) dropRight (l.tail, p, l.head :: buf ::: carry, List.empty) else 
  dropRight (l.tail, p, carry, l.head :: buf) }

dropRight (xs, (x: Int) => x != 0) 
res122: List[Int] = List(0, 5, 34, 0, 9)

It might be interesting if you aren't interested in the order in the end, and could omit the 'reverse' call but why would you then only drop the last Ts?

Benchmark: benchmark diagram

I increased the size further, but the pattern repeated.

updated: Included dhg's algorithm, which is pretty performant.

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