Here's two solutions involving my StreamEx library. The core feature I'm using here is the concept of short-circuiting collectors. My library enhances the Collector
concept to provide the ability to short-circuit (which works both for sequential and parallel streams)
If predicates are like in your sample (one is the opposite of another), you may use partitioningBy
:
Map<Boolean, Optional<Integer>> map = IntStreamEx.of(ints).boxed()
.partitioningBy(num -> num == 5, MoreCollectors.first());
Now you should check whether both mappings are present:
System.out.println(map.values().stream().allMatch(Optional::isPresent));
Or in single statement:
System.out.println(IntStreamEx.of(ints).boxed()
.partitioningBy(num -> num == 5, MoreCollectors.first())
.values().stream().allMatch(Optional::isPresent));
Here we're using MoreCollectors.first()
short-circuiting collector. This solution is similar to one proposed by @user140547, but it will actually stop processing as soon as both elements are found.
For two custom predicates it's possible to use pairing
collector which combines the results of two collectors (preserving the short-circuiting if input collectors are short-circuiting). But first, we need anyMatching
collector (which is absent in my library):
import static one.util.streamex.MoreCollectors.*;
static <T> Collector<T, ?, Boolean> anyMatching(Predicate<T> pred) {
return collectingAndThen(filtering(pred, first()), Optional::isPresent);
}
Collector<Integer, ?, Boolean> hasFive = anyMatching(num -> num == 5);
Collector<Integer, ?, Boolean> hasNonFive = anyMatching(num -> num != 5);
Collector<Integer, ?, Boolean> hasBoth = pairing(hasFive, hasNonFive,
(res1, res2) -> res1 && res2);
System.out.println(IntStreamEx.of(ints).boxed().collect(hasBoth));