Obtaining an intersection of two streams, or finding whether their intersection is empty or not is generally not possible in Java, since streams can only be used once, and the generic solution has a O(m*n) complexity.

If we don't know anything about the nature of the underlying supplier, we can get away with at most one stream and one collection:

<T> boolean intersects(final Stream<T> c1, final Collection<T> c2) {
    return c1.filter(c2::contains).findAny().isPresent();

Still, what if both our suppliers represent ordered collections sorted using the same comparator (in the most simple case, two TreeSets of Comparables)? In this case, solution will have linear complexity (or, more precise, O(m*n), see this answer).

Now the question: can the above linear solution be implemented using only Stream API (i. e. using two streams as the input)?

  • Are you asking if you can implement the linear solution if the data in the streams is ordered? – Jim Mischel May 26 '16 at 15:36
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    Iterative solutions and streams don’t fit together, so the best thing you can do, is invoke iterator() on the streams and go on. – Holger May 26 '16 at 15:44
  • @JimMischel Yes, exactly – Bass May 26 '16 at 15:49
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    It only acknowledges the fact that you can’t do everything that way. Such iterative algorithms are not the scope of the Stream API. – Holger May 26 '16 at 16:01
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    The closest built-in Java 8 feature I can find is Collections.disjoint(Collection, Collection), which returns false if any values are in common, but it doesn't accept streams. Each would have to be converted into a Collection of some kind first. – 4castle May 27 '16 at 0:26

You can just collect the second Stream into a Set and ask whether any element of the first Stream is contained in this set:

<T> boolean intersects(final Stream<T> c1, final Stream<T> c2) {
    return c1.anyMatch(c2.collect(Collectors.toSet())::contains);

Making the set out of c1 is linear in terms of the number of elements in it, and contains is a constant-time operation.

  • Thanks, this is a good solution and it anwers the question, as no limitations as per memory footprint have been set. Still, the original iterative solution (advancing either of the two iterators) doesn't require any extra memory while your stream-based one does. Is it possible to solve the same task in linear time w/o introducing any new collections? – Bass May 26 '16 at 14:34
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    @Bass short answer: no. Long answer: noooooo. Not without converting the streams back to iterators, basically. – Louis Wasserman May 26 '16 at 17:34
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    @Bass And the issue with having an iterator is that you can't "peek" an element easily. You need to consume it with next(), so it is a lot more difficult to only advance one of the two iterators. – Tunaki May 26 '16 at 17:54

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