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In java.util.stream.Stream interface,

<R> R collect(Supplier<R> supplier,
              BiConsumer<R, ? super T> accumulator,
              BiConsumer<R, R> combiner);

the combiner is a BiConsumer<R, R>, whereas in

<R, A> R collect(Collector<? super T, A, R> collector);

the combiner is a BinaryOperator<A> which is nothing but a BiFunction<A,A,A>.

While the later form clearly defines what will be reference of the combined object after combining, the former form doesn't.

So how does any Stream implementation library know, what is the combined object in the former case?

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3 Answers 3

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In Java 9, the documentation of the Stream.collect(Supplier, BiConsumer, BiConsumer) method has been updated and now it explicitly mentions that you should fold elements from the second result container into the first one:

combiner - an associative, non-interfering, stateless function that accepts two partial result containers and merges them, which must be compatible with the accumulator function. The combiner function must fold the elements from the second result container into the first result container.

(Emphasis mine).

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  • 1
    this stands for all collectors actually, that's why I declare them usually left, right and always return left... +1
    – Eugene
    Feb 4, 2018 at 14:37
  • 1
    Hi @Eugene. Yes, there's no right fold in Java, it was never the intention of the designers of the stream library
    – fps
    Feb 4, 2018 at 14:37
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    @Eugene the combiner function is free to fold into either argument (or may even return a new object). That’s what happens with Java 9’s toSet(), which folds the smaller argument into the bigger one…
    – Holger
    Feb 5, 2018 at 9:59
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    @Holger I guess it is free only if this is allowed, and I think toSet or toMap for example would qualify as such
    – Eugene
    Feb 5, 2018 at 10:00
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The collect method is supposed to be used like this:

ArrayList<Integer> collected = Stream.of(1,2,3)
    .collect(
        ArrayList::new, 
        ArrayList::add, 
        ArrayList::addAll);
System.out.println(collected);

The first argument is a supplier that supplies an empty array list for adding collected stuff into. The second argument is a biconsumer that consumes each element of the array. The third argument is there only to provide parallelism support. This enables it to collect the elements into multiple array lists at the same time, and it asks you for a way to connect all these array lists together at the end.

Why does collect know the result of the combination if you don't return the array list with the added item? Well, this is because ArrayLists are mutable. Somewhere in the implementation, it calls accumulator.accept:

// not real code, for demonstration purposes only
accumulator.accept(someArrayList, theNextElement);

someArrayList will retain all the changes made to it after accept returns!

Let's put this into a more familiar scenario,

ArrayList<Integer> list = new ArrayList(Arrays.asList(1,2,3));
doSomething(list);
System.out.println(list); // [1, 2, 3, 4]

private static void doSomething(ArrayList<Integer> list) {
    list.add(4);
}

Even though doSomething does not return a new array list, list is still mutated. The same thing happens with BiConsumer.accept. This causes collect to "know" what you did to the array list.

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  • 1
    @boobalangnanasekaran Exactly, in the third parameter, you are supposed to mutate the first argument of the BiConsumer, the second will be discarded.
    – Sweeper
    Feb 3, 2018 at 7:56
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    But there is no such documentation or restriction, mentioned whatsoever.
    – Alanpatchi
    Feb 3, 2018 at 8:00
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    @boobalangnanasekaran Though it is not 100% clear, the examples in the documentation of collect imply that you should do it this way. See docs.oracle.com/javase/8/docs/api/java/util/stream/…
    – Sweeper
    Feb 3, 2018 at 8:02
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    @boobalangnanasekaran Well, using a BinaryOperator could indeed work. However, it wouldn't work so well with method references. You can't use ArrayList::addAll as the combiner because addAll is not a binary operator, so you'll have to write two lines: x.addAll(y);return x;.
    – Sweeper
    Feb 3, 2018 at 8:13
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    @boobalangnanasekaran Although there are "few" mutable types, they are used very commonly. I think this is a good reason. Also, kindly consider accepting an answer, please.
    – Sweeper
    Feb 3, 2018 at 8:27
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The combiner only used in parallel stream to merge 2 results computed in threads.

Actually, stream use Consumer to accumulate results comes from threads. the result is saved in Consumer, and finally combine partial result from another Consumer.

For the BinaryOperator combiner is more like the code as below:

T[] partials = the result is computed in threads...
T result = supplier.get();
for (T partial : partials)
     result = combiner.apply(result, partial)
return result;

For the BiConsumer combiner is more like as the code below:

T[] partials = the result is computed in threads...
T result = supplier.get();
for (T partial : partials)
     combiner.accept(result, partial)
return result;

From stream package description :

As with reduce(), a benefit of expressing collect in this abstract way is that it is directly amenable to parallelization: we can accumulate partial results in parallel and then combine them, so long as the accumulation and combining functions satisfy the appropriate requirements. For example, to collect the String representations of the elements in a stream into an ArrayList, we could write the obvious sequential for-each form:

 ArrayList<String> strings = new ArrayList<>();
 for (T element : stream) {
     strings.add(element.toString());
 }

Or we could use a parallelizable collect form:

 ArrayList<String> strings = stream.collect(() -> new ArrayList<>(),
                                            (c, e) -> c.add(e.toString()),
                                            (c1, c2) -> c1.addAll(c2));
//  the requirements showing as an example           ---^
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  • For the BiConsumer combiner case in your example, There is no documented restriction on which argument of combiner, the first or the second should be mutated. Do we have to just assume that combiner.accept(result, partial) mutates the first argument? If so why is it not documented, so that implementors of stream API can be assured of such assumption
    – Alanpatchi
    Feb 3, 2018 at 8:56

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