I am trying to find an elegant way to do:

val l = List(1,2,3)

val (item, idx) = l.zipWithIndex.find(predicate)

val updatedItem = updating(item)

l.update(idx, updatedItem)

Can I do all in one operation ? Find the item, if it exist replace with updated value and keep it in place.

I could do:

l.map{ i => 
  if (predicate(i)) {
  } else {

but that's pretty ugly.

The other complexity is the fact that I want to update only the first element which match predicate .

Edit: Attempt:

implicit class UpdateList[A](l: List[A]) {
  def filterMap(p: A => Boolean)(update: A => A): List[A] = {
    l.map(a => if (p(a)) update(a) else a)

  def updateFirst(p: A => Boolean)(update: A => A): List[A] = {
    val found = l.zipWithIndex.find { case (item, _) => p(item) }
    found match {
      case Some((item, idx)) => l.updated(idx, update(item))
      case None => l
  • I just realized the issue haha. I only want to do it on the first item found. – Wonay Jan 3 at 2:50
  • 1
    Given that I can only think in having a mutable variable to track if an update already was made and do the map with if (!alreadyUpdated && predicate(i)) - you can encapsulate everything in a method to don't expose the mutable variable. For a completely immutable solution, I would use a foldLeft in which you accumulate the new List (backwards) and the flag of alreadyUpdated, after the fold you may extract the List and then reverse it - however it will have complexity 2O(N) (two iterations) and may be too complex. Not sure if there is a better way, that is why I dont answer – Luis Miguel Mejía Suárez Jan 3 at 2:58
  • then I feel than my updateFirst method is the best so far ? – Wonay Jan 3 at 3:04
  • 1
    Wonay, IMHO no. The intention is very clear that is a point! - but it does a lot of iterations (O(3N) in case the first element is near to the end) and creates one extra intermediate collection. If you're sure the collections will be small and the first item will be near the beginning it may not be so bad. Aki, I don't believe that is a good idea, because he/she needs the element too, thus it will need to call apply with that index again which will result in another iteration - but will make the intention more clear!, which is a point! Other idea would be to use Vector instead of List. – Luis Miguel Mejía Suárez Jan 3 at 3:12
  • How would that work with a vector ? – Wonay Jan 3 at 4:16

I don't know any way to make this in one pass of the collection without using a mutable variable. With two passes you can do it using foldLeft as in:

def updateFirst[A](list:List[A])(predicate:A => Boolean, newValue:A):List[A] = {
   list.foldLeft((List.empty[A], predicate))((acc, it) => {acc match {
     case (nl,pr) => if (pr(it)) (newValue::nl, _ => false) else (it::nl, pr)

The idea is that foldLeft allows passing additional data through iteration. In this particular implementation I change the predicate to the fixed one that always returns false. Unfortunately you can't build a List from the head in an efficient way so this requires another pass for reverse.

I believe it is obvious how to do it using a combination of map and var

Note: performance of the List.map is the same as of a single pass over the list only because internally the standard library is mutable. Particularly the cons class :: is declared as

final case class ::[B](override val head: B, private[scala] var tl: List[B]) extends List[B] {

so tl is actually a var and this is exploited by the map implementation to build a list from the head in an efficient way. The field is private[scala] so you can't use the same trick from outside of the standard library. Unfortunately I don't see any other API call that allows to use this feature to reduce the complexity of your problem to a single pass.


You can avoid .zipWithIndex() by using .indexWhere().

To improve complexity, use Vector so that l(idx) becomes effectively constant time.

val l = Vector(1,2,3)
val idx = l.indexWhere(predicate)
val updatedItem = updating(l(idx))
l.updated(idx, updatedItem)

Reason for using scala.collection.immutable.Vector rather than List: Scala's List is a linked list, which means data are access in O(n) time. Scala's Vector is indexed, meaning data can be read from any point in effectively constant time.

You may also consider mutable collections if you're modifying just one element in a very large collection.


  • 1
    That's not better than the author's code because l(idx) is O(N) – SergGr Jan 3 at 3:14
  • Would you mind editing your solution with Vector ? Would any of the code change or just the performances ? – Wonay Jan 3 at 4:17
  • 1
    edited. code is exactly the same – Leighton Ritchie Jan 3 at 4:43
  • 1
    Wonay as Leighton already said the code will no change, but its performance will be sightly better. However be aware that Vectors are not as great as one expects – Luis Miguel Mejía Suárez Jan 3 at 12:29

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