Stream<String> a = Stream.of("one", "three", "five");
 Stream<String> b = Stream.of("two", "four", "six");

What do I need to do for the output to be the below?

// one
// two
// three
// four
// five
// six

I looked into concat but as the javadoc explains, it just appends one after the other, it does not interleave / intersperse.

Stream<String> out = Stream.concat(a, b);

Creates a lazily concatenated stream whose elements are all the elements of the first stream followed by all the elements of the second stream.

Wrongly gives

 // one
 // three
 // five
 // two
 // four
 // six

Could do it if I collected them and iterated, but was hoping for something more Java8-y, Streamy :-)


I don't want to zip the streams

“zip” operation will take an element from each collection and combine them.

the result of a zip operation would be something like this: (unwanted)

 // onetwo
 // threefour
 // fivesix
  • zip is used to combine elements, I don't want to combine the elements, I want to keep the same total number of elements – Blundell Nov 14 at 19:53
  • 1
    why wouldn't zip keep the same total number of elements? – Aomine Nov 14 at 19:56
  • Reading the other thread, zip always takes a zipper function to combine an element from each stream to make a new element. I just want to interleave not zip – Blundell Nov 14 at 19:56
  • 2
    For anyone coming here in the future, here is the comments + redirected answer : – Blundell Nov 14 at 20:13
  • 1
    I like the creation of the interleave method which essentially wraps the zip method to improve readability et al. I've voted to reopen, so you could post that here instead of externally... – Aomine Nov 14 at 20:17
up vote 10 down vote accepted

I’d use something like this:

public static <T> Stream<T> interleave(Stream<T> a, Stream<T> b) {
    Spliterator<T> spA = a.spliterator(), spB = b.spliterator();
    long s = spA.estimateSize() + spB.estimateSize();
    if(s < 0) s = Long.MAX_VALUE;
    int ch = spA.characteristics() & spB.characteristics()
           & (Spliterator.NONNULL|Spliterator.SIZED);
    ch |= Spliterator.ORDERED;

    return Spliterators.AbstractSpliterator<T>(s, ch) {
        Spliterator<T> sp1 = spA, sp2 = spB;

        public boolean tryAdvance(Consumer<? super T> action) {
            Spliterator<T> sp = sp1;
            if(sp.tryAdvance(action)) {
                sp1 = sp2;
                sp2 = sp;
                return true;
            return sp2.tryAdvance(action);
    }, false);

It retains the characteristics of the input streams as far as possible, which allows certain optimizations (e.g. for count()and toArray()). Further, it adds the ORDERED even when the input streams might be unordered, to reflect the interleaving.

When one stream has more elements than the other, the remaining elements will appear at the end.

A much dumber solution than Holger did, but may be it would fit your requirements:

private static <T> Stream<T> interleave(Stream<T> left, Stream<T> right) {
    Spliterator<T> splLeft = left.spliterator();
    Spliterator<T> splRight = right.spliterator();

    T[] single = (T[]) new Object[1];

    Stream.Builder<T> builder = Stream.builder();

    while (splRight.tryAdvance(x -> single[0] = x) && splLeft.tryAdvance(builder)) {

  • This inconsistently includes all elements of left, when it has more elements than right, but will drop elements of right when it has more than left. You should decide. To included all common elements, use do {} while(splLeft.tryAdvance(builder) && spRight.tryAdvance(builder));, then decide. If you want to include all elements when the the streams have different sizes, do (splLeft.tryAdvance(builder)? splLeft: spRight).forEachRemaining(builder); after the loop. And well, Stream.Builder<T> does already implement Consumer<T>, conveniently. – Holger Nov 15 at 8:26
  • @Holger indeed i wanted only common ones, but now the problem is worse, since do {} while(splLeft.tryAdvance(builder) && spRight.tryAdvance(builder)); will still take an element from left, so it's still not correct :(. the bigger problem I see now that I think about it - is that this is cheating, Stream.Builder still uses a hidden collection to gather elements... – Eugene Nov 15 at 9:16
  • Taking one additional element from left wouldn’t contradict the “interleaving” pattern (ababa). If you don’t want that, consider tracking the count and apply a limit to the resulting stream. That’s simpler than dealing with an additional storage operation, especially with generic arrays. The builder implies a storage, I thought you were aware of it, as that’s the main (only) disadvantage over implementing a spliterator. – Holger Nov 15 at 9:44
  • @Holger I thought about a limit too, but don't know, the more I think about it, the more I like what you did – Eugene Nov 15 at 9:46
  • 1
    @FedericoPeraltaSchaffner right, that is the exact point about the in memory collection, overall, just use whatever Holger put in place... – Eugene Nov 15 at 14:44

As you can see from the question comments, I gave this a go using zip:

Stream<String> a = Stream.of("one", "three", "five");
Stream<String> b = Stream.of("two", "four", "six");

Stream<String> out = interleave(a, b);

    public static <T> Stream<T> interleave(Stream<T> streamA, Stream<T> streamB) {
        return zip(streamA, streamB, (o1, o2) -> Stream.of(o1, o2)).flatMap(s -> s);

    private static <A, B, C> Stream<C> zip(Stream<A> streamA, Stream<B> streamB, BiFunction<A, B, C> zipper) {
        final Iterator<A> iteratorA = streamA.iterator();
        final Iterator<B> iteratorB = streamB.iterator();
        final Iterator<C> iteratorC = new Iterator<C>() {
            public boolean hasNext() {
                return iteratorA.hasNext() && iteratorB.hasNext();

            public C next() {
                return zipper.apply(,;
        final boolean parallel = streamA.isParallel() || streamB.isParallel();
        return iteratorToFiniteStream(iteratorC, parallel);

    private static <T> Stream<T> iteratorToFiniteStream(Iterator<T> iterator, boolean parallel) {
        final Iterable<T> iterable = () -> iterator;
        return, parallel);

This may not be a good answer because
(1) it collects to map, which you don't want to do I guess and
(2) it is not completely stateless as it uses AtomicIntegers.

Still adding it because
(1) it is readable and
(2) community can get an idea from this and try to improve it.

Stream<String> a = Stream.of("one", "three", "five");
Stream<String> b = Stream.of("two", "four", "six");

AtomicInteger i = new AtomicInteger(0);
AtomicInteger j = new AtomicInteger(1);

Stream.of(a.collect(Collectors.toMap(o -> i.addAndGet(2), Function.identity())),
        b.collect(Collectors.toMap(o -> j.addAndGet(2), Function.identity())))
        .flatMap(m -> m.entrySet().stream())
        .forEach(e -> System.out.println(e.getValue())); // or collect



@Holger's edit

Stream.concat( -> new AbstractMap.SimpleEntry<>(i.addAndGet(2), o)), -> new AbstractMap.SimpleEntry<>(j.addAndGet(2), o)))
        .forEach(e -> System.out.println(e.getValue())); // or collect
  • You don’t need to collect into maps, as you are only interested in getting the stream of entries, so you can simply use Stream.concat( -> new AbstractMap.SimpleEntry<>(i.addAndGet(2),o)), -> new AbstractMap.SimpleEntry<>(j.addAndGet(2),o)) ) to get it. Then, you may chain .sorted(Map.Entry.comparingByKey()). But you’re right in that this mutable state is discouraged. Most notably, it will have problems with parallel execution. – Holger Nov 15 at 8:20
  • @Holger thank you, added this to the answer. I thought about it earlier, but couldn't find an EntrySet constructor and got lazy to google search how to create an EntrySet :( – Kartik Nov 15 at 23:21
  • It’s not creating an EntrySet but just a stream of Entry instances. The ready-to-use implementations are indeed not easy to find (there’s also a SimpleImmutableEntry in AbstractMap). Starting with Java 9, you can simply use Map.entry(key, value) to get an immutable Entry instance, but you have to be aware that it does not support null keys or values, so you can only use it when you can preclude null. – Holger Nov 16 at 7:39

One solution with Iterator

final Iterator<String> iterA = a.iterator();
final Iterator<String> iterB = b.iterator();

final Iterator<String> iter = new Iterator<String>() {
  private final AtomicInteger idx = new AtomicInteger();
  public boolean hasNext() { 
    return iterA.hasNext() || iterB.hasNext();
  public String next() {
    return idx.getAndIncrement() % 2 == 0 && iterA.hasNext() ? :;

 // Create target Stream with StreamEx from:    

 // Or Streams from Google Guava;

Or simply by the solution in abacus-util provided by me:

 AtomicInteger idx = new AtomicInteger();
 StreamEx.merge(a, b, (s1, s2) -> idx.getAndIncrement() % 2 == 0 ? Nth.FIRST : Nth.SECOND).forEach(Fn.println()); 

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