How can I check if a Stream is empty and throw an exception if it's not, as a non-terminal operation?

Basically, I'm looking for something equivalent to the code below, but without materializing the stream in-between. In particular, the check should not occur before the stream is actually consumed by a terminal operation.

public Stream<Thing> getFilteredThings() {
    Stream<Thing> stream = getThings().stream()
                .filter(Thing::isFoo)
                .filter(Thing::isBar);
    return nonEmptyStream(stream, () -> {
        throw new RuntimeException("No foo bar things available")   
    });
}

private static <T> Stream<T> nonEmptyStream(Stream<T> stream, Supplier<T> defaultValue) {
    List<T> list = stream.collect(Collectors.toList());
    if (list.isEmpty()) list.add(defaultValue.get());
    return list.stream();
}
  • 16
    You can't have your cake and eat it too--and quite literally so, in this context. You have to consume the stream to find out if it's empty. That's the point of Stream's semantics (laziness). – Marko Topolnik Oct 30 '14 at 9:21
  • It will be consumed eventually, at this point the check should occur – Cephalopod Oct 30 '14 at 9:22
  • 7
    To check that the stream is not empty you have to attempt to consume at least one element. At that point the stream has lost its "virginity" and cannot be consumed again from the start. – Marko Topolnik Oct 30 '14 at 9:27
up vote 16 down vote accepted

If you can live with limited parallel capablilities, the following solution will work:

private static <T> Stream<T> nonEmptyStream(
    Stream<T> stream, Supplier<RuntimeException> e) {

    Spliterator<T> it=stream.spliterator();
    return StreamSupport.stream(new Spliterator<T>() {
        boolean seen;
        public boolean tryAdvance(Consumer<? super T> action) {
            boolean r=it.tryAdvance(action);
            if(!seen && !r) throw e.get();
            seen=true;
            return r;
        }
        public Spliterator<T> trySplit() { return null; }
        public long estimateSize() { return it.estimateSize(); }
        public int characteristics() { return it.characteristics(); }
    }, false);
}

Here is some example code using it:

List<String> l=Arrays.asList("hello", "world");
nonEmptyStream(l.stream(), ()->new RuntimeException("No strings available"))
  .forEach(System.out::println);
nonEmptyStream(l.stream().filter(s->s.startsWith("x")),
               ()->new RuntimeException("No strings available"))
  .forEach(System.out::println);

The problem with (efficient) parallel execution is that supporting splitting of the Spliterator requires a thread-safe way to notice whether either of the fragments has seen any value in a thread-safe manner. Then the last of the fragments executing tryAdvance has to realize that it is the last one (and it also couldn’t advance) to throw the appropriate exception. So I didn’t add support for splitting here.

The other answers and comments are correct in that to examine the contents of a stream, one must add a terminal operation, thereby "consuming" the stream. However, one can do this and turn the result back into a stream, without buffering up the entire contents of the stream. Here are a couple examples:

static <T> Stream<T> throwIfEmpty(Stream<T> stream) {
    Iterator<T> iterator = stream.iterator();
    if (iterator.hasNext()) {
        return StreamSupport.stream(Spliterators.spliteratorUnknownSize(iterator, 0), false);
    } else {
        throw new NoSuchElementException("empty stream");
    }
}

static <T> Stream<T> defaultIfEmpty(Stream<T> stream, Supplier<T> supplier) {
    Iterator<T> iterator = stream.iterator();
    if (iterator.hasNext()) {
        return StreamSupport.stream(Spliterators.spliteratorUnknownSize(iterator, 0), false);
    } else {
        return Stream.of(supplier.get());
    }
}

Basically turn the stream into an Iterator in order to call hasNext() on it, and if true, turn the Iterator back into a Stream. This is inefficient in that all subsequent operations on the stream will go through the Iterator's hasNext() and next() methods, which also implies that the stream is effectively processed sequentially (even if it's later turned parallel). However, this does allow you to test the stream without buffering up all of its elements.

There is probably a way to do this using a Spliterator instead of an Iterator. This potentially allows the returned stream to have the same characteristics as the input stream, including running in parallel.

  • 1
    I don’t think that there is a maintainable solution that would support efficient parallel processing as it’s hard to support splitting, however having estimatedSize and characteristics might even improve single-threaded performance. It just happened that I wrote the Spliterator solution while you were posting the Iterator solution… – Holger Oct 30 '14 at 17:42
  • 2
    You can ask the stream for a Spliterator, call tryAdvance(lambda) where your lambda captures anything passed to it, and then return a Spliterator that delegates almost everything to the underlying Spliterator, except that it glues the first element back onto the first chunk (and fixes up the result of estimateSize). – Brian Goetz Oct 30 '14 at 20:55
  • 1
    @BrianGoetz Yes, that was my thought, I just haven't yet bothered to go through the leg work of handling all those details. – Stuart Marks Oct 30 '14 at 21:19
  • 2
    @Brian Goetz: That’s what I meant with “too complicated”. Calling tryAdvance before the Stream does it turns the lazy nature of the Stream into a “partially lazy” stream. It also implies that searching for the first element is not a parallel operation anymore as you have to split first and do tryAdvance on the split parts concurrently to do a real parallel operation, as far as I understood. If the sole terminal operation is findAny or similar that would destroy the entire parallel() request. – Holger Oct 31 '14 at 10:41
  • 2
    So for full parallel support you must not call tryAdvance before the stream does and have to wrap every split part into a proxy and gather the “hasAny” information of all concurrent operations on your own and ensure that the last concurrent operation throws the desired exception if the stream was empty. Lots of stuff… – Holger Oct 31 '14 at 10:45

You must perform a terminal operation on the Stream in order for any of the filters to be applied. Therefore you can't know if it will be empty until you consume it.

Best you can do is terminate the Stream with a findAny() terminal operation, which will stop when it finds any element, but if there are none, it will have to iterate over all the input list to find that out.

This would only help you if the input list has many elements, and one of the first few passes the filters, since only a small subset of the list would have to be consumed before you know the Stream is not empty.

Of course you'll still have to create a new Stream in order to produce the output list.

  • 3
    There's anyMatch(alwaysTrue()), I think that's the closest to hasAny. – Marko Topolnik Oct 30 '14 at 9:30
  • 1
    @MarkoTopolnik Just checked the reference - what I had in mind was findAny(), though anyMatch() would also work. – Eran Oct 30 '14 at 11:03
  • 3
    anyMatch(alwaysTrue()) perfectly matches the intended semantics of your hasAny, giving you a boolean instead of Optional<T>---but we're splitting hairs here :) – Marko Topolnik Oct 30 '14 at 11:19
  • 1
    Note alwaysTrue is a Guava predicate. – Jean-François Savard Jul 18 '16 at 17:40
  • 6
    anyMatch(e -> true) then. – FBB Mar 20 '17 at 11:04

Following Stuart's idea, this could be done with a Spliterator like this:

static <T> Stream<T> defaultIfEmpty(Stream<T> stream, Stream<T> defaultStream) {
    final Spliterator<T> spliterator = stream.spliterator();
    final AtomicReference<T> reference = new AtomicReference<>();
    if (spliterator.tryAdvance(reference::set)) {
        return Stream.concat(Stream.of(reference.get()), StreamSupport.stream(spliterator, stream.isParallel()));
    } else {
        return defaultStream;
    }
}

I think this works with parallel Streams as the stream.spliterator() operation will terminate the stream, and then rebuild it as required

In my use-case I needed a default Stream rather than a default value. that's quite easy to change if this is not what you need

  • I can't figure out whether this would significantly impact performance with parallel streams. Should probably test it if this is a requirement – phoenix7360 Jul 17 '17 at 10:11
  • Sorry didn't realise that @Holger also had a solution with Spliterator I wonder how the two compare. – phoenix7360 Jul 17 '17 at 10:14

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