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Given a stream such as { 0, 1, 2, 3, 4 },

how can I most elegantly transform it into given form:

{ new Pair(0, 1), new Pair(1, 2), new Pair(2, 3), new Pair(3, 4) }

(assuming, of course, I've defined class Pair)?

Edit: This isn't strictly about ints or primitive streams. An answer for object streams is fine.

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The term from FP is "partition", but I'm not finding a method with the desired semantics in Java. It has partitioning on a predicate. –  Marko Topolnik Dec 9 '13 at 12:00
Typically the spliterator in JDK 8 is thought for traversing and partitioning purposes. I will try to come up with an example also. –  Olimpiu POP Dec 9 '13 at 14:07
list.stream().map(i -> new Pair(i, i+1)); –  aepurniet Dec 9 '13 at 15:53
For the equivalent non streams question, see stackoverflow.com/questions/17453022/… –  Raedwald Dec 12 '13 at 8:23

7 Answers 7

up vote 10 down vote accepted

There is not elegant and hackish solution, but works for infinite streams

Stream<Pair> pairStream = Stream.iterate(0, (i) -> i + 1).map( // natural numbers
    new Function<Integer, Pair>() {
        Integer previous;

        public Pair apply(Integer integer) {
            Pair pair = null;
            if (previous != null) pair = new Pair(previous, integer);
            previous = integer;
            return pair;
    }).skip(1); // drop first null

Now you can limit your stream as long as you want

pairStream.limit(1_000_000).forEach(i -> System.out.println(i));

P.S. I hope there is better solution, something like clojure (partition 2 1 stream)

share|improve this answer
Kudos for pointing out that anonymous classes are a sometimes useful alternative to lambdas. –  Aleksandr Dubinsky Dec 9 '13 at 20:50
how will this deal with parallel streams? –  aepurniet Dec 10 '13 at 21:24
@aepurniet I assume it won't work correctly. According to the parallelStream doc: "To preserve correct behavior, these behavioral parameters must be non-interfering, and in most cases must be stateless" –  mishadoff Dec 11 '13 at 10:30
This is completely contrary to the design of the streams framework and directly violates the contract of the map API, as the anonymous function is not stateless. Try running this with a parallel stream and more data so the stream framework creates more working threads, and you will see the result: infrequent random "errors" almost impossible to reproduce and difficult to detect until you have data enough (in production?). This can be disastrous. –  Mario Rossi Feb 6 at 16:23

The Java 8 streams library is primarily geared toward splitting streams into smaller chunks for parallel processing, so stateful pipeline stages are quite limited, and doing things like getting the index of the current stream element and accessing adjacent stream elements are not supported.

A typical way to solve these problems, with some limitations, of course, is to drive the stream by indexes and rely on having the values being processed in some random-access data structure like an ArrayList from which the elements can be retrieved. If the values were in arrayList, one could generate the pairs as requested by doing something like this:

    IntStream.range(1, arrayList.size())
             .mapToObj(i -> new Pair(arrayList.get(i-1), arrayList.get(i)))

Of course the limitation is that the input cannot be an infinite stream. This pipeline can be run in parallel, though.

share|improve this answer
Thanks. That is also short and elegant. –  Aleksandr Dubinsky Dec 13 '13 at 13:53

I've implemented a spliterator wrapper which takes every n elements T from the original spliterator and produces List<T>:

public class ConsecutiveSpliterator<T> implements Spliterator<List<T>> {

    private final Spliterator<T> wrappedSpliterator;

    private final int n;

    private final Deque<T> deque;

    private final Consumer<T> dequeConsumer;

    public ConsecutiveSpliterator(Spliterator<T> wrappedSpliterator, int n) {
        this.wrappedSpliterator = wrappedSpliterator;
        this.n = n;
        this.deque = new LinkedList<>();
        this.dequeConsumer = new Consumer<T>() {
            public void accept(T t) {

    public boolean tryAdvance(Consumer<? super List<T>> action) {
        if (deque.size() == n) {
            List<T> list = new ArrayList<>(deque);
            return true;
        } else {
            return false;

    private void fillDeque() {
        while (deque.size() < n && wrappedSpliterator.tryAdvance(dequeConsumer))

    public Spliterator<List<T>> trySplit() {
        return null;

    public long estimateSize() {
        return wrappedSpliterator.estimateSize();

    public int characteristics() {
        return wrappedSpliterator.characteristics();

Following method may be used to create a consecutive stream:

public <E> Stream<List<E>> consecutiveStream(Stream<E> stream, int n) {
    Spliterator<E> spliterator = stream.spliterator();
    Spliterator<List<E>> wrapper = new ConsecutiveSpliterator<>(spliterator, n);
    return StreamSupport.stream(wrapper, false);

Sample usage:

consecutiveStream(Stream.of(0, 1, 2, 3, 4, 5), 2).map(
    new Function<List<Integer>, Pair>() {
        public Pair apply(List<Integer> list) {
            return new Pair(list.get(0), list.get(1));
share|improve this answer
Does that repeat every element twice? –  Aleksandr Dubinsky Dec 10 '13 at 9:03
Nope. It creates a new stream containing List<E> elements. Each list contains n consecutive elements from the original stream. Check it yourself ;) –  Tomek Rękawek Dec 10 '13 at 9:30
Could you modify your answer so that every element (except the first and last) is repeated? –  Aleksandr Dubinsky Dec 10 '13 at 11:00
Sorry, I didn't notice that elements should be repeated. I've fixed my solution. –  Tomek Rękawek Dec 10 '13 at 13:37
+1 I think this is good work and should be generalized to any step size in addition to the partition size. There is a lot of need for a (partition size step) function and this is about the best way to get it. –  Marko Topolnik Apr 4 '14 at 8:51

In your case, I would write my custom IntFunction which keeps track of the last int passed and use that to map the original IntStream.

import java.util.function.IntFunction;
import java.util.stream.IntStream;

public class PairFunction implements IntFunction<PairFunction.Pair> {

  public static class Pair {

    private final int first;
    private final int second;

    public Pair(int first, int second) {
      this.first = first;
      this.second = second;

    public String toString() {
      return "[" + first + "|" + second + "]";

  private int last;
  private boolean first = true;

  public Pair apply(int value) {
    Pair pair = !first ? new Pair(last, value) : null;
    last = value;
    first = false;
    return pair;

  public static void main(String[] args) {

    IntStream intStream = IntStream.of(0, 1, 2, 3, 4);
    final PairFunction pairFunction = new PairFunction();
        .filter(p -> p != null) // filter out the null
        .forEach(System.out::println); // display each Pair


share|improve this answer
Problem with this is it throws statelessness out the window. –  Rob Dec 9 '13 at 15:45
@Rob and what's the problem with that? –  Aleksandr Dubinsky Dec 10 '13 at 9:04
One of the main points of lambda is to not have mutable state so that the internal integrators can parallelism the work. –  Rob Dec 10 '13 at 14:41
@Rob: Yeah, you are right, but the given example stream defies parallelism anyway as each item (except the first and last ones) is used as a first and a second item of some pair. –  jpvee Dec 10 '13 at 14:47
@jpvee yeah I figured that's what you were thinking. I wonder though if there is not a way to do this with some other mapper. In essence all you'd need would be the equivalent of making the loop incrementer go by twos then have the functor take 2 arguments. That must be possible. –  Rob Dec 10 '13 at 14:53

An elegant solution would be to use zip. Something like:

List<Integer> input = Arrays.asList(0, 1, 2, 3, 4);
Stream<Pair> pairStream = Streams.zip(input.stream(),
                                      (a, b) -> new Pair(a, b)

This is pretty concise and elegant, however it uses a list as an input. An infinite stream source cannot be processed this way.

Another (lot more troublesome) issue is that zip together with the entire Streams class has been lately removed from the API. The above code only works with b95 or older releases. So with the latest JDK I would say there is no elegant FP style solution and right now we can just hope that in some way zip will be reintroduced to the API.

share|improve this answer
Indeed, zip was removed. I don't remember all of what was on the Streams class, but some things have migrated to be static methods on the Stream interface, and there are also StreamSupport and Stream.Builder classes. –  Stuart Marks Dec 11 '13 at 0:09
That's right. Some other methods like concat or iterate has been moved and became default methods in Stream. Sadly zip was just removed from the API. I understand the reasons behind this choice (e.g. lack of Tuples) but still it was a nice feature. –  gadget Dec 11 '13 at 13:13
@gadget What do tuples have to do with zip? Whatever pedantic reason might be invented does not justify killing zip. –  Aleksandr Dubinsky Dec 11 '13 at 13:47
@AleksandrDubinsky In most cases zip is used to produce a collection of Pairs/Tuples as an output. They argued that if they kept zip people would ask for Tuples as part of the JDK as well. I would have never removed an existing feature though. –  gadget Dec 11 '13 at 15:12

The operation is essentially stateful so not really what lambdas are meant to solve - see the "Stateless Behaviors" section in the javadoc:

The best approach is to avoid stateful behavioral parameters to stream operations entirely

One solution here is to introduce state in your lambda through an external counter, although it will only work with a sequential stream.

public static void main(String[] args) {
    Stream<Integer> numbers = IntStream.rangeClosed(0, 4).boxed();
    AtomicInteger counter = new AtomicInteger(Integer.MIN_VALUE);
    List<Pair> collect = numbers.map(n -> {
                            int i = counter.getAndSet(n);
                            return i == Integer.MIN_VALUE ? null : new Pair(i, n);
                        .filter(p -> p != null)

For reference:

class Pair {
    private int left, right;
    Pair(int left, int right) { this.left = left; this.right = right; }
    @Override public String toString() { return "{" + left + "," + right + '}'; }
share|improve this answer

Run a for loop that runs from 0 to length-1 of your stream

for(int i = 0 ; i < stream.length-1 ; i++)
    Pair pair = new Pair(stream[i], stream[i+1]);
    // then add your pair to an array
share|improve this answer
and where is the lambda part of the solution? –  Olimpiu POP Dec 9 '13 at 12:23
That would not even compile... –  assylias Dec 9 '13 at 13:27
It is not the case when stream is infinite –  mishadoff Dec 9 '13 at 14:01

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