In java 8, what's the best way to check if a List contains any duplicate?

My idea was something like:

list.size() != list.stream().distinct().count()

Is it the best way?

  • 3
    if you are not interested in knowing what are those duplicates , then it's the best way !! Commented May 5, 2015 at 13:04

7 Answers 7


Your code would need to iterate over all elements. If you want to make sure that there are no duplicates simple method like

public static <T> boolean areAllUnique(List<T> list){
    Set<T> set = new HashSet<>();

    for (T t: list){
        if (!set.add(t))
            return false;
    return true;

would be more efficient since it can give you false immediately when first non-unique element would be found.

This method could also be rewritten using Stream#allMatch which also is short-circuit (returns false immediately for first element which doesn't fulfill provided condition)
(assuming non-parallel streams and thread-safe environment)

public static <T> boolean areAllUnique(List<T> list){
    Set<T> set = new HashSet<>();
    return list.stream().allMatch(t -> set.add(t));

which can be farther shortened as @Holger pointed out in comment

public static <T> boolean areAllUnique(List<T> list){
    return list.stream().allMatch(new HashSet<>()::add);
  • 49
    This can be even a one-liner: return list.stream().allMatch(new HashSet<>()::add);
    – Holger
    Commented May 5, 2015 at 13:10
  • 8
    Seems a bit dangerous to use a predicate with side effects here. Commented May 5, 2015 at 14:17
  • 10
    Both. The spec requires the predicate to be stateless. The usual caveat about running in parallel applies. ConcurrentHashMap might help. There may be other issues but I haven't had coffee yet. :-) Commented May 5, 2015 at 14:24
  • 7
    @Stuart Marks: I think, for a one liner which spans the entire life cycle of the Stream, it’s acceptable to rely on the programmer to recognize whether that stream use is multi-threaded or not. Of course, if in doubt, using a ConcurrentMap might help. And a stateful predicate might not be the best thing, but is sometimes unavoidable, distinct tests being the common example. Maybe you remember this one ;^)
    – Holger
    Commented May 5, 2015 at 17:36
  • 6
    @MubasharAhmad It is not that it is wrong, but new HashSet<>(list) will iterate over entire list, while .allMatch(new HashSet<>()::add) is short-circuit, it will return false at first occurrence of duplicate element.
    – Pshemo
    Commented Nov 27, 2017 at 1:24

Out of the three following one-liners

  1. return list.size() == new HashSet<>(list).size();
  2. return list.size() == list.stream().distinct().count();
  3. return list.stream().allMatch(ConcurrentHashMap.newKeySet()::add);

the last one (#3) has the following benefits:

  • Performance: it short-circuits, i.e. it stops on the first duplicate (while #1 and #2 always iterate till the end) – as Pshemo commented.
  • Versatility: it allows to handle not only collections (e.g. lists), but also streams (without explicitly collecting them).

Additional notes:
 • ConcurrentHashMap.newKeySet() is a way to create a concurrent hash set.
 • Previous version of this answer suggested the following code: return list.stream().sequential().allMatch(new HashSet<>()::add); — but, as M. Justin commented, calling BaseStream#sequential() doesn't guarantee that the operations will be executed from the same thread and doesn't eliminate the need for synchronization.
 • Performance benefit from short-circuiting won't usually matter, because we typically use such code in assertions and other correctness checks, where items are expected to be unique; in contexts where duplicates are really a possibility, we typically not only check for their presence but also to find and handle them.
 • M. Justin's provides a clean (not using side-effects) short-circuiting solution for Java 22, but that's not a one-liner.

  • 1
    #3 operates via side effects, which is potentially problematic with streams. Additionally, the API makes no guarantees that sequential streams will perform all operations in the same thread (though current implementations might), and HashSet.add is not thread safe.
    – M. Justin
    Commented Mar 30 at 2:30
  • 1
    @M.Justin, thanks. I assume you're right (though I'm not expert in that; and, personally for me, appearing of an “unusual” implementation in future looks as probable as narrowing of the specification in future; but, of course, it's anyway better for the code to be theoretically correct, not just practically working). I've tried to correct the answer.
    – Sasha
    Commented Mar 31 at 13:56

You can use the counting collector.

Stream.of(1, 3, 4, 6, 7, 5, 6)
                    Function.identity(), Collectors.counting()))
            .entrySet().stream().anyMatch(e -> e.getValue() > 1)

Given array arr,

arr.length != Arrays.stream(arr).distinct().count()

will help check for duplicates

  • 5
    The question was not about arrays.
    – snieguu
    Commented Nov 17, 2019 at 19:30

Started this class as a StreamTool, but I think there must be an even better way with reduce or similar:

public class StreamTool {

     * Whether stream records are unique in that stream.
     * @param <T> Type of records
     * @param records
     * @return true if there are no duplicates, false otherwise
    public static <T> boolean isUnique(Stream<T> records) {
        return records.allMatch(new HashSet<>()::add);

Here is a short-circuiting solution that uses a custom gatherer, using the JEP 461: Stream Gatherers Java 22 preview language feature:

List<Integer> list = List.of(1, 2, 4, 1, 3, 4, 4, 1);

// A parallel stream must be used until JDK-8328316 is fixed
boolean hasDuplicate =
static <T> Gatherer<T, ?, Boolean> hasDuplicate() {
    class State {
        boolean hasDuplicate = false;
        final Set<T> elements = new HashSet<>();

    Gatherer.Integrator<State, T, Boolean> integrator =
            (state, element, downstream) -> {
                if (state.elements.add(element)) {
                    return true;
                } else {
                    state.hasDuplicate = true;
                    return false;
    return Gatherer.ofSequential(
            (state, downstream) -> downstream.push(state.hasDuplicate)

This custom gatherer produces a stream with a single Boolean element indicating whether a duplicate was found. It keeps track of each element encountered in a Set, and whether a duplicate has been found as a boolean. It short circuits immediately with true when a duplicate element is encountered, or returns false if the end of the stream is reached without encountering any duplicates.

Note that this doesn't work on sequential streams in Java 22 due to JDK-8328316, but it does work in Java 23 starting with b16.

This gatherer can be made parallel (at the cost of some increased complexity) by adding a combiner which can merge two states together, e.g.:

BinaryOperator<State> combiner = (s1, s2) -> {
    if (s1.hasDuplicate || s2.hasDuplicate) {
        s1.elements.clear(); // No further need to keep these in memory
        s1.hasDuplicate = true;
    } else {
        int totalSize = s1.elements.size() + s2.elements.size();
        s1.hasDuplicate = s1.elements.size() != totalSize;
    return s1;
return Gatherer.of(
        (state, downstream) -> downstream.push(state.hasDuplicate)


An intermediate operation that transforms a stream of input elements into a stream of output elements, optionally applying a final action when the end of the upstream is reached. […]


There are many examples of gathering operations, including but not limited to: grouping elements into batches (windowing functions); de-duplicating consecutively similar elements; incremental accumulation functions (prefix scan); incremental reordering functions, etc. The class Gatherers provides implementations of common gathering operations.

API Note:

A Gatherer is specified by four functions that work together to process input elements, optionally using intermediate state, and optionally perform a final action at the end of input. They are:

Stream.gather(Gatherer<? super T,?,R> gatherer):

Returns a stream consisting of the results of applying the given gatherer to the elements of this stream.

Gatherer.ofSequential(initializer, integrator, finisher)

Returns a new, sequential, Gatherer described by the given initializer, integrator, combiner, and finisher.

Gatherer.of(initializer, integrator, combiner, finisher)

Returns a new, sequential, Gatherer described by the given initializer, integrator, and finisher.

  • 1
    The finisher is invoked even if the integrator short-circuits, so you'll always get false emitted. I'd probably define a duplicates-Gatherer like so: ``` static <T> Gatherer<T, ?, T> duplicates() { return Gatherer.ofSequential( HashSet::new, (state, element, downstream) -> state.add(element) || downstream.push(element) ); } ``` And then do: ``` var hasDuplicates = stream.gather(duplicates).findFirst().isPresent(); ``` Commented Mar 28 at 23:29
  • @ViktorKlang You're right that it needs to be fixed, but it does currently work as I've coded it in Java 22 due to a bug in the JDK gatherer code: JDK-8328316. I'll get a fixed version up shortly.
    – M. Justin
    Commented Mar 29 at 23:00
  • @ViktorKlang I've updated my solution to only emit a single element, though it does not (yet) work for sequential streams due to JDK-8328316.
    – M. Justin
    Commented Mar 29 at 23:11
  • An alternative solution that apparently does work in Java 22 is to use a Collector (but not Stream.toList): list.stream().gather(hasDuplicate()).collect(Collectors.toList()).getFirst().
    – M. Justin
    Commented Mar 30 at 2:48

Use set.add() it is faster.

Set<T> items = new HashSet<>();
list.stream().filter(n -> !items.add(n)) 
  • 2
    What is the point of creating two Set objects (one via new HashSet and other via Collections.toSet()? Also above code could be reduce to new HashSet<>(list), but question is not about removing duplicates, it is about checking if duplicate elements exist.
    – Pshemo
    Commented Apr 22, 2022 at 14:29

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