public interface LongStream extends BaseStream<Long,LongStream>
A sequence of primitive long-valued elements supporting sequential and parallel aggregate operations. This is the long
primitive specialization of Stream
.
The following example illustrates an aggregate operation using Stream
and LongStream
, computing the sum of the weights of the red widgets:
long sum = widgets.stream() .filter(w -> w.getColor() == RED) .mapToLong(w -> w.getWeight()) .sum();See the class documentation for
Stream
and the package documentation for java.util.stream for additional specification of streams, stream operations, stream pipelines, and parallelism.Stream
, java.util.stream
Modifier and Type | Interface and Description |
---|---|
static interface |
LongStream.Builder A mutable builder for a |
LongStream filter(LongPredicate predicate)
Returns a stream consisting of the elements of this stream that match the given predicate.
This is an intermediate operation.
predicate
- a non-interfering, stateless predicate to apply to each element to determine if it should be includedLongStream map(LongUnaryOperator mapper)
Returns a stream consisting of the results of applying the given function to the elements of this stream.
This is an intermediate operation.
mapper
- a non-interfering, stateless function to apply to each element<U> Stream<U> mapToObj(LongFunction<? extends U> mapper)
Returns an object-valued Stream
consisting of the results of applying the given function to the elements of this stream.
This is an intermediate operation.
U
- the element type of the new streammapper
- a non-interfering, stateless function to apply to each elementIntStream mapToInt(LongToIntFunction mapper)
Returns an IntStream
consisting of the results of applying the given function to the elements of this stream.
This is an intermediate operation.
mapper
- a non-interfering, stateless function to apply to each elementDoubleStream mapToDouble(LongToDoubleFunction mapper)
Returns a DoubleStream
consisting of the results of applying the given function to the elements of this stream.
This is an intermediate operation.
mapper
- a non-interfering, stateless function to apply to each elementLongStream flatMap(LongFunction<? extends LongStream> mapper)
Returns a stream consisting of the results of replacing each element of this stream with the contents of a mapped stream produced by applying the provided mapping function to each element. Each mapped stream is closed
after its contents have been placed into this stream. (If a mapped stream is null
an empty stream is used, instead.)
This is an intermediate operation.
mapper
- a non-interfering, stateless function to apply to each element which produces a LongStream
of new valuesStream.flatMap(Function)
LongStream distinct()
Returns a stream consisting of the distinct elements of this stream.
This is a stateful intermediate operation.
LongStream sorted()
Returns a stream consisting of the elements of this stream in sorted order.
This is a stateful intermediate operation.
LongStream peek(LongConsumer action)
Returns a stream consisting of the elements of this stream, additionally performing the provided action on each element as elements are consumed from the resulting stream.
This is an intermediate operation.
For parallel stream pipelines, the action may be called at whatever time and in whatever thread the element is made available by the upstream operation. If the action modifies shared state, it is responsible for providing the required synchronization.
LongStream.of(1, 2, 3, 4) .filter(e -> e > 2) .peek(e -> System.out.println("Filtered value: " + e)) .map(e -> e * e) .peek(e -> System.out.println("Mapped value: " + e)) .sum();
action
- a non-interfering action to perform on the elements as they are consumed from the streamLongStream limit(long maxSize)
Returns a stream consisting of the elements of this stream, truncated to be no longer than maxSize
in length.
limit()
is generally a cheap operation on sequential stream pipelines, it can be quite expensive on ordered parallel pipelines, especially for large values of maxSize
, since limit(n)
is constrained to return not just any n elements, but the first n elements in the encounter order. Using an unordered stream source (such as generate(LongSupplier)
) or removing the ordering constraint with BaseStream.unordered()
may result in significant speedups of limit()
in parallel pipelines, if the semantics of your situation permit. If consistency with encounter order is required, and you are experiencing poor performance or memory utilization with limit()
in parallel pipelines, switching to sequential execution with sequential()
may improve performance.maxSize
- the number of elements the stream should be limited toIllegalArgumentException
- if maxSize
is negativeLongStream skip(long n)
Returns a stream consisting of the remaining elements of this stream after discarding the first n
elements of the stream. If this stream contains fewer than n
elements then an empty stream will be returned.
This is a stateful intermediate operation.
skip()
is generally a cheap operation on sequential stream pipelines, it can be quite expensive on ordered parallel pipelines, especially for large values of n
, since skip(n)
is constrained to skip not just any n elements, but the first n elements in the encounter order. Using an unordered stream source (such as generate(LongSupplier)
) or removing the ordering constraint with BaseStream.unordered()
may result in significant speedups of skip()
in parallel pipelines, if the semantics of your situation permit. If consistency with encounter order is required, and you are experiencing poor performance or memory utilization with skip()
in parallel pipelines, switching to sequential execution with sequential()
may improve performance.n
- the number of leading elements to skipIllegalArgumentException
- if n
is negativevoid forEach(LongConsumer action)
Performs an action for each element of this stream.
This is a terminal operation.
For parallel stream pipelines, this operation does not guarantee to respect the encounter order of the stream, as doing so would sacrifice the benefit of parallelism. For any given element, the action may be performed at whatever time and in whatever thread the library chooses. If the action accesses shared state, it is responsible for providing the required synchronization.
action
- a non-interfering action to perform on the elementsvoid forEachOrdered(LongConsumer action)
Performs an action for each element of this stream, guaranteeing that each element is processed in encounter order for streams that have a defined encounter order.
This is a terminal operation.
action
- a non-interfering action to perform on the elementsforEach(LongConsumer)
long[] toArray()
Returns an array containing the elements of this stream.
This is a terminal operation.
long reduce(long identity, LongBinaryOperator op)
Performs a reduction on the elements of this stream, using the provided identity value and an associative accumulation function, and returns the reduced value. This is equivalent to:
long result = identity; for (long element : this stream) result = accumulator.applyAsLong(result, element) return result;but is not constrained to execute sequentially.
The identity
value must be an identity for the accumulator function. This means that for all x
, accumulator.apply(identity, x)
is equal to x
. The accumulator
function must be an associative function.
This is a terminal operation.
long sum = integers.reduce(0, (a, b) -> a+b);or more compactly:
long sum = integers.reduce(0, Long::sum);
While this may seem a more roundabout way to perform an aggregation compared to simply mutating a running total in a loop, reduction operations parallelize more gracefully, without needing additional synchronization and with greatly reduced risk of data races.
identity
- the identity value for the accumulating functionop
- an associative, non-interfering, stateless function for combining two valuessum()
, min()
, max()
, average()
OptionalLong reduce(LongBinaryOperator op)
Performs a reduction on the elements of this stream, using an associative accumulation function, and returns an OptionalLong
describing the reduced value, if any. This is equivalent to:
boolean foundAny = false; long result = null; for (long element : this stream) { if (!foundAny) { foundAny = true; result = element; } else result = accumulator.applyAsLong(result, element); } return foundAny ? OptionalLong.of(result) : OptionalLong.empty();but is not constrained to execute sequentially.
The accumulator
function must be an associative function.
This is a terminal operation.
op
- an associative, non-interfering, stateless function for combining two valuesreduce(long, LongBinaryOperator)
<R> R collect(Supplier<R> supplier, ObjLongConsumer<R> accumulator, BiConsumer<R,R> combiner)
Performs a mutable reduction operation on the elements of this stream. A mutable reduction is one in which the reduced value is a mutable result container, such as an ArrayList
, and elements are incorporated by updating the state of the result rather than by replacing the result. This produces a result equivalent to:
R result = supplier.get(); for (long element : this stream) accumulator.accept(result, element); return result;
Like reduce(long, LongBinaryOperator)
, collect
operations can be parallelized without requiring additional synchronization.
This is a terminal operation.
R
- type of the resultsupplier
- a function that creates a new result container. For a parallel execution, this function may be called multiple times and must return a fresh value each time.accumulator
- an associative, non-interfering, stateless function for incorporating an additional element into a resultcombiner
- an associative, non-interfering, stateless function for combining two values, which must be compatible with the accumulator functionStream.collect(Supplier, BiConsumer, BiConsumer)
long sum()
Returns the sum of elements in this stream. This is a special case of a reduction and is equivalent to:
return reduce(0, Long::sum);
This is a terminal operation.
OptionalLong min()
Returns an OptionalLong
describing the minimum element of this stream, or an empty optional if this stream is empty. This is a special case of a reduction and is equivalent to:
return reduce(Long::min);
This is a terminal operation.
OptionalLong
containing the minimum element of this stream, or an empty OptionalLong
if the stream is emptyOptionalLong max()
Returns an OptionalLong
describing the maximum element of this stream, or an empty optional if this stream is empty. This is a special case of a reduction and is equivalent to:
return reduce(Long::max);
This is a terminal operation.
OptionalLong
containing the maximum element of this stream, or an empty OptionalLong
if the stream is emptylong count()
Returns the count of elements in this stream. This is a special case of a reduction and is equivalent to:
return map(e -> 1L).sum();
This is a terminal operation.
OptionalDouble average()
Returns an OptionalDouble
describing the arithmetic mean of elements of this stream, or an empty optional if this stream is empty. This is a special case of a reduction.
This is a terminal operation.
OptionalDouble
containing the average element of this stream, or an empty optional if the stream is emptyLongSummaryStatistics summaryStatistics()
Returns a LongSummaryStatistics
describing various summary data about the elements of this stream. This is a special case of a reduction.
This is a terminal operation.
LongSummaryStatistics
describing various summary data about the elements of this streamboolean anyMatch(LongPredicate predicate)
Returns whether any elements of this stream match the provided predicate. May not evaluate the predicate on all elements if not necessary for determining the result. If the stream is empty then false
is returned and the predicate is not evaluated.
This is a short-circuiting terminal operation.
predicate
- a non-interfering, stateless predicate to apply to elements of this streamtrue
if any elements of the stream match the provided predicate, otherwise false
boolean allMatch(LongPredicate predicate)
Returns whether all elements of this stream match the provided predicate. May not evaluate the predicate on all elements if not necessary for determining the result. If the stream is empty then true
is returned and the predicate is not evaluated.
This is a short-circuiting terminal operation.
true
(regardless of P(x)).predicate
- a non-interfering, stateless predicate to apply to elements of this streamtrue
if either all elements of the stream match the provided predicate or the stream is empty, otherwise false
boolean noneMatch(LongPredicate predicate)
Returns whether no elements of this stream match the provided predicate. May not evaluate the predicate on all elements if not necessary for determining the result. If the stream is empty then true
is returned and the predicate is not evaluated.
This is a short-circuiting terminal operation.
true
, regardless of P(x).predicate
- a non-interfering, stateless predicate to apply to elements of this streamtrue
if either no elements of the stream match the provided predicate or the stream is empty, otherwise false
OptionalLong findFirst()
Returns an OptionalLong
describing the first element of this stream, or an empty OptionalLong
if the stream is empty. If the stream has no encounter order, then any element may be returned.
This is a short-circuiting terminal operation.
OptionalLong
describing the first element of this stream, or an empty OptionalLong
if the stream is emptyOptionalLong findAny()
Returns an OptionalLong
describing some element of the stream, or an empty OptionalLong
if the stream is empty.
This is a short-circuiting terminal operation.
The behavior of this operation is explicitly nondeterministic; it is free to select any element in the stream. This is to allow for maximal performance in parallel operations; the cost is that multiple invocations on the same source may not return the same result. (If a stable result is desired, use findFirst()
instead.)
OptionalLong
describing some element of this stream, or an empty OptionalLong
if the stream is emptyfindFirst()
DoubleStream asDoubleStream()
Returns a DoubleStream
consisting of the elements of this stream, converted to double
.
This is an intermediate operation.
DoubleStream
consisting of the elements of this stream, converted to double
Stream<Long> boxed()
Returns a Stream
consisting of the elements of this stream, each boxed to a Long
.
This is an intermediate operation.
Stream
consistent of the elements of this stream, each boxed to Long
LongStream sequential()
Description copied from interface: BaseStream
Returns an equivalent stream that is sequential. May return itself, either because the stream was already sequential, or because the underlying stream state was modified to be sequential.
This is an intermediate operation.
sequential
in interface BaseStream<Long,LongStream>
LongStream parallel()
Description copied from interface: BaseStream
Returns an equivalent stream that is parallel. May return itself, either because the stream was already parallel, or because the underlying stream state was modified to be parallel.
This is an intermediate operation.
parallel
in interface BaseStream<Long,LongStream>
PrimitiveIterator.OfLong iterator()
Description copied from interface: BaseStream
Returns an iterator for the elements of this stream.
This is a terminal operation.
iterator
in interface BaseStream<Long,LongStream>
Spliterator.OfLong spliterator()
Description copied from interface: BaseStream
Returns a spliterator for the elements of this stream.
This is a terminal operation.
spliterator
in interface BaseStream<Long,LongStream>
static LongStream.Builder builder()
Returns a builder for a LongStream
.
static LongStream empty()
Returns an empty sequential LongStream
.
static LongStream of(long t)
Returns a sequential LongStream
containing a single element.
t
- the single elementstatic LongStream of(long... values)
Returns a sequential ordered stream whose elements are the specified values.
values
- the elements of the new streamstatic LongStream iterate(long seed, LongUnaryOperator f)
Returns an infinite sequential ordered LongStream
produced by iterative application of a function f
to an initial element seed
, producing a Stream
consisting of seed
, f(seed)
, f(f(seed))
, etc.
The first element (position 0
) in the LongStream
will be the provided seed
. For n > 0
, the element at position n
, will be the result of applying the function f
to the element at position n - 1
.
seed
- the initial elementf
- a function to be applied to to the previous element to produce a new elementLongStream
static LongStream generate(LongSupplier s)
Returns an infinite sequential unordered stream where each element is generated by the provided LongSupplier
. This is suitable for generating constant streams, streams of random elements, etc.
s
- the LongSupplier
for generated elementsLongStream
static LongStream range(long startInclusive, long endExclusive)
Returns a sequential ordered LongStream
from startInclusive
(inclusive) to endExclusive
(exclusive) by an incremental step of 1
.
An equivalent sequence of increasing values can be produced sequentially using a for
loop as follows:
for (long i = startInclusive; i < endExclusive ; i++) { ... }
startInclusive
- the (inclusive) initial valueendExclusive
- the exclusive upper boundLongStream
for the range of long
elementsstatic LongStream rangeClosed(long startInclusive, long endInclusive)
Returns a sequential ordered LongStream
from startInclusive
(inclusive) to endInclusive
(inclusive) by an incremental step of 1
.
An equivalent sequence of increasing values can be produced sequentially using a for
loop as follows:
for (long i = startInclusive; i <= endInclusive ; i++) { ... }
startInclusive
- the (inclusive) initial valueendInclusive
- the inclusive upper boundLongStream
for the range of long
elementsstatic LongStream concat(LongStream a, LongStream b)
Creates a lazily concatenated stream whose elements are all the elements of the first stream followed by all the elements of the second stream. The resulting stream is ordered if both of the input streams are ordered, and parallel if either of the input streams is parallel. When the resulting stream is closed, the close handlers for both input streams are invoked.
StackOverflowException
.a
- the first streamb
- the second stream
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