Suppose I have this code:

            .parallelStream() // .stream() - nothing changes
            .flatMap(x -> Stream.iterate(0, i -> i + 1)
                    .peek(m -> {

Output is the same thread name, so there is no benefit from parallel here - what I mean by that is that there is a single thread that does all the work.

Inside flatMap there is this code:


I understand forcing the sequential property if the "outer" stream would be parallel (they could probably block), "outer" would have to wait for "flatMap" to finish and the other way around (since the same common pool is used) But why always force that?

Is that one of those things that could change in a later version?


There are two different aspects.

First, there is only a single pipeline which is either sequential or parallel. The choice of sequential or parallel at the inner stream is irrelevant. Note that the downstream consumer you see in the cited code snippet represents the entire subsequent stream pipeline, so in your code, ending with .collect(Collectors.toSet());, this consumer will eventually add the resulting elements to a single Set instance which is not thread safe. So processing the inner stream in parallel with that single consumer would break the entire operation.

If an outer stream gets split, that cited code might get invoked concurrently with different consumers adding to different sets. Each of these calls would process a different element of the outer stream mapping to a different inner stream instance. Since your outer stream consists of a single element only, it can’t be split.

The way, this has been implemented, is also the reason for the Why filter() after flatMap() is “not completely” lazy in Java streams? issue, as forEach is called on the inner stream which will pass all elements to the downstream consumer. As demonstrated by this answer, an alternative implementation, supporting laziness and substream splitting, is possible. But this is a fundamentally different way of implementing it. The current design of the Stream implementation mostly works by consumer composition, so in the end, the source spliterator (and those split off from it) receives a Consumer representing the entire stream pipeline in either tryAdvance or forEachRemaining. In contrast, the solution of the linked answer does spliterator composition, producing a new Spliterator delegating to source spliterators. I supposed, both approaches have advantages and I’m not sure, how much the OpenJDK implementation would lose when working the other way round.

  • Hi, sir. is it should be a stream bug? – holi-java Jul 11 '17 at 16:28
  • 1
    @holi-java I wouldn't say that this is a bug, just poor implementation design that will most likely be fixed in the future. – Jacob G. Jul 11 '17 at 16:29
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    @holi-java: the missing laziness can be seen as a bug and there is already a bug report for it. The limited parallelness, however, is just an area for potential performance improvement. In practice, this only affects streams with a small number of elements in the outer stream and much larger inner streams. – Holger Jul 11 '17 at 16:31
  • @JacobG. Hi, but flatMap inconsistent with the documentation. – holi-java Jul 11 '17 at 16:31
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    @Holger I am not looking into a solution at the moment - just pure interest. as usually highly interesting read from you. – Eugene Jul 12 '17 at 12:24

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