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One way is this

list.distinct.size != list.size

Is there any better way? It would have been nice to have a containsDuplicates method

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What is the use case? Remember that distinct costs quite a lot, especially when invoked often. And searching for duplicates inevitably leads to sorting. That being said maybe you actually need a Set or Map (if you want to keep track of duplicates)? Of course you can also use implicit conversions to add containsDuplicates to List[T]. –  Tomasz Nurkiewicz Oct 7 '11 at 19:38
@TomaszNurkiewicz: I need to check if a list contains duplicates. This check is done only once when the list is created. The list is never modified after that. The list is small (between 20-50 elements). I could use Set as well. I hadn't considered it before. –  Jus12 Oct 10 '11 at 7:28

4 Answers 4

up vote 11 down vote accepted

Assuming "better" means "faster", see the alternative approaches benchmarked in this question, which seems to show some quicker methods (although note that distinct uses a HashSet and is already O(n)). YMMV of course, depending on specific test case, scala version etc. Probably any significant improvement over the "distinct.size" approach would come from an early-out as soon as a duplicate is found, but how much of a speed-up is actually obtained would depend strongly on how common duplicates actually are in your use-case.

If you mean "better" in that you want to write list.containsDuplicates instead of containsDuplicates(list), use an implicit:

implicit def enhanceWithContainsDuplicates[T](s:List[T]) = new {
  def containsDuplicates = (s.distinct.size != s.size)

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You can also write:

list.toSet.size != list.size

But the result will be the same because distinct is already implemented with a Set. In both case the time complexity should be O(n): you must traverse the list and Set insertion is O(1).

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OK; removed comment. –  timday Oct 7 '11 at 20:28

I think this would stop as soon as a duplicate was found and is probably more efficient than doing distinct.size - since I assume distinct keeps a set as well:

def containsDups[A](list: List[A], seen: Set[A] = Set[A]()): Boolean = 
  list match {
    case x :: xs => if (seen.contains(x)) true else containsDups(xs, seen + x)
    case _ => false

// Boolean = true

// Boolean = false

I realize you asked for easy and I don't now that this version is, but finding a duplicate is also finding if there is an element that has been seen before:

def containsDups[A](list: List[A]): Boolean =  {
  list.iterator.scanLeft(Set[A]())((set, a) => set + a) // incremental sets
    .exists{ case (set, a) => set contains a }
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Interesting answer. Wouldn't this require more memory though? –  Jus12 Oct 10 '11 at 7:26
@Jus12, my first suggestion would probably be about the same as distinct except the library one uses a mutable set, I use an immutable one. The second one should have only a bit more memory because of there may be a few iterators created (but that should be a constant numbers of iterators). –  huynhjl Oct 10 '11 at 8:53
def containsDuplicates [T] (s: Seq[T]) : Boolean = 
  if (s.size < 2) false else 
    s.tail.contains (s.head) || containsDuplicates (s.tail)

I didn't measure this, and think it is similar to huynhjl's solution, but a bit more simple to understand.

It returns early, if a duplicate is found, so I looked into the source of Seq.contains, whether this returns early - it does.

In SeqLike, 'contains (e)' is defined as 'exists (_ == e)', and exists is defined in TraversableLike:

def exists (p: A => Boolean): Boolean = {
  var result = false
  breakable {
    for (x <- this)
      if (p (x)) { result = true; break }

I'm curious how to speed things up with parallel collections on multi cores, but I guess it is a general problem with early-returning, while another thread will keep running, because it doesn't know, that the solution is already found.

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