Class DistributedIntCacheStream<Original>
- Type Parameters:
Original
- original stream type
- All Implemented Interfaces:
AutoCloseable
,BaseStream<Integer,
,IntStream> IntStream
,BaseCacheStream<Integer,
,IntStream> IntCacheStream
IntStream
that utilizes a lazily evaluated distributed back end execution. Note this
class is only able to be created using CacheStream.mapToInt(ToIntFunction)
or similar
methods from the CacheStream
interface.-
Nested Class Summary
Nested classes/interfaces inherited from interface org.infinispan.BaseCacheStream
BaseCacheStream.SegmentCompletionListener
Nested classes/interfaces inherited from interface java.util.stream.IntStream
IntStream.Builder
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Field Summary
Fields inherited from class org.infinispan.stream.impl.AbstractCacheStream
closeRunnable, cpm, distributedBatchSize, executor, explicitFlags, intermediateOperations, invocationContext, iteratorOperation, keyPartitioner, keysToFilter, localAddress, parallel, parallelDistribution, partition, registry, rehashAware, segmentCompletionListener, segmentsToFilter, stateTransferLock, timeout, timeoutUnit, toKeyFunction
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Constructor Summary
ModifierConstructorDescriptionprotected
This constructor is to be used only when a user calls a map or flat map method changing to an IntStream from a CacheStream, Stream, DoubleStream, LongStream etc. -
Method Summary
Modifier and TypeMethodDescriptionboolean
allMatch
(IntPredicate predicate) boolean
anyMatch
(IntPredicate predicate) average()
boxed()
protected <R> DistributedCacheStream
<Original, R> <R> R
collect
(Supplier<R> supplier, ObjIntConsumer<R> accumulator, BiConsumer<R, R> combiner) long
count()
Disables tracking of rehash events that could occur to the underlying cache.distinct()
distributedBatchSize
(int batchSize) Controls how many keys are returned from a remote node when using a stream terminal operation with a distributed cache to back this stream.protected DistributedDoubleCacheStream
<Original> filter
(IntPredicate predicate) filter
(SerializableIntPredicate predicate) Same asIntCacheStream.filter(IntPredicate)
except that the IntPredicate must also implementSerializable
filterKeys
(Set<?> keys) Filters which entries are returned by only returning ones that map to the given key.filterKeySegments
(Set<Integer> segments) Filters which entries are returned by what segment they are present in.filterKeySegments
(IntSet segments) Filters which entries are returned by what segment they are present in.findAny()
flatMap
(IntFunction<? extends IntStream> mapper) flatMap
(SerializableIntFunction<? extends IntStream> mapper) Same asIntCacheStream.flatMap(IntFunction)
except that the IntFunction must also implementSerializable
void
forEach
(IntConsumer action) <K,
V> void forEach
(ObjIntConsumer<Cache<K, V>> action) Same asIntStream.forEach(IntConsumer)
except that it takes anObjIntConsumer
that provides access to the underlyingCache
that is backing this stream.void
forEach
(SerializableIntConsumer action) Same asIntStream.forEach(IntConsumer)
except that the IntConsumer must also implementSerializable
<K,
V> void forEach
(SerializableObjIntConsumer<Cache<K, V>> action) Same asIntCacheStream.forEach(ObjIntConsumer)
except that theBiConsumer
must also implementSerializable
void
forEachOrdered
(IntConsumer action) protected org.infinispan.util.logging.Log
getLog()
iterator()
limit
(long maxSize) protected DistributedLongCacheStream
<Original> map
(IntUnaryOperator mapper) map
(SerializableIntUnaryOperator mapper) Same asIntCacheStream.map(IntUnaryOperator)
except that the IntUnaryOperator must also implementSerializable
mapToDouble
(IntToDoubleFunction mapper) Same asIntCacheStream.mapToDouble(IntToDoubleFunction)
except that the IntToIntFunction must also implementSerializable
mapToLong
(IntToLongFunction mapper) Same asIntCacheStream.mapToLong(IntToLongFunction)
except that the IntToLongFunction must also implementSerializable
<U> CacheStream
<U> mapToObj
(IntFunction<? extends U> mapper) <U> CacheStream
<U> mapToObj
(SerializableIntFunction<? extends U> mapper) Same asIntCacheStream.mapToObj(IntFunction)
except that the IntFunction must also implementSerializable
max()
min()
boolean
noneMatch
(IntPredicate predicate) This would enable sending requests to all other remote nodes when a terminal operator is performed.peek
(IntConsumer action) peek
(SerializableIntConsumer action) Same asIntCacheStream.flatMap(IntFunction)
except that the IntFunction must also implementSerializable
int
reduce
(int identity, IntBinaryOperator op) Allows registration of a segment completion listener that is notified when a segment has completed processing.This would disable sending requests to all other remote nodes compared to one at a time.skip
(long n) sorted()
int
sum()
Sets a given time to wait for a remote operation to respond by.int[]
toArray()
protected DistributedIntCacheStream
unwrap()
Methods inherited from class org.infinispan.stream.impl.AbstractCacheStream
addIntermediateOperation, addIntermediateOperation, addIntermediateOperationMap, close, composeWithExceptions, isParallel, isPrimaryOwner, onClose, parallel, sequential, unordered
Methods inherited from class java.lang.Object
clone, equals, finalize, getClass, hashCode, notify, notifyAll, toString, wait, wait, wait
Methods inherited from interface java.util.stream.BaseStream
close, isParallel
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Constructor Details
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DistributedIntCacheStream
This constructor is to be used only when a user calls a map or flat map method changing to an IntStream from a CacheStream, Stream, DoubleStream, LongStream etc.- Parameters:
other
- other instance ofAbstractCacheStream
to copy details from
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Method Details
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getLog
protected org.infinispan.util.logging.Log getLog()- Specified by:
getLog
in classAbstractCacheStream<Original,
Integer, IntStream, IntCacheStream>
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unwrap
- Specified by:
unwrap
in classAbstractCacheStream<Original,
Integer, IntStream, IntCacheStream>
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filter
Description copied from interface:IntCacheStream
- Specified by:
filter
in interfaceIntCacheStream
- Specified by:
filter
in interfaceIntStream
- Returns:
- the new cache int stream
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filter
Description copied from interface:IntCacheStream
Same asIntCacheStream.filter(IntPredicate)
except that the IntPredicate must also implementSerializable
The compiler will pick this overload for lambda parameters, making them
Serializable
- Specified by:
filter
in interfaceIntCacheStream
- Parameters:
predicate
- a non-interfering, stateless predicate to apply to each element to determine if it should be included- Returns:
- the new cache int stream
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map
Description copied from interface:IntCacheStream
- Specified by:
map
in interfaceIntCacheStream
- Specified by:
map
in interfaceIntStream
- Returns:
- the new cache int stream
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map
Description copied from interface:IntCacheStream
Same asIntCacheStream.map(IntUnaryOperator)
except that the IntUnaryOperator must also implementSerializable
The compiler will pick this overload for lambda parameters, making them
Serializable
- Specified by:
map
in interfaceIntCacheStream
- Parameters:
mapper
- a non-interfering, stateless function to apply to each element- Returns:
- the new cache int stream
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mapToObj
Description copied from interface:IntCacheStream
- Specified by:
mapToObj
in interfaceIntCacheStream
- Specified by:
mapToObj
in interfaceIntStream
- Returns:
- the new cache stream
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mapToObj
Description copied from interface:IntCacheStream
Same asIntCacheStream.mapToObj(IntFunction)
except that the IntFunction must also implementSerializable
The compiler will pick this overload for lambda parameters, making them
Serializable
- Specified by:
mapToObj
in interfaceIntCacheStream
- Type Parameters:
U
- the element type of the new stream- Parameters:
mapper
- a non-interfering, stateless function to apply to each element- Returns:
- the new cache stream
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mapToLong
Description copied from interface:IntCacheStream
- Specified by:
mapToLong
in interfaceIntCacheStream
- Specified by:
mapToLong
in interfaceIntStream
- Returns:
- the new cache long stream
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mapToLong
Description copied from interface:IntCacheStream
Same asIntCacheStream.mapToLong(IntToLongFunction)
except that the IntToLongFunction must also implementSerializable
The compiler will pick this overload for lambda parameters, making them
Serializable
- Specified by:
mapToLong
in interfaceIntCacheStream
- Parameters:
mapper
- a non-interfering, stateless function to apply to each element- Returns:
- the new cache long stream
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mapToDouble
Description copied from interface:IntCacheStream
- Specified by:
mapToDouble
in interfaceIntCacheStream
- Specified by:
mapToDouble
in interfaceIntStream
- Returns:
- the new cache double stream
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mapToDouble
Description copied from interface:IntCacheStream
Same asIntCacheStream.mapToDouble(IntToDoubleFunction)
except that the IntToIntFunction must also implementSerializable
The compiler will pick this overload for lambda parameters, making them
Serializable
- Specified by:
mapToDouble
in interfaceIntCacheStream
- Parameters:
mapper
- a non-interfering, stateless function to apply to each element- Returns:
- the new cache double stream
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flatMap
Description copied from interface:IntCacheStream
- Specified by:
flatMap
in interfaceIntCacheStream
- Specified by:
flatMap
in interfaceIntStream
- Returns:
- the new cache int stream
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flatMap
Description copied from interface:IntCacheStream
Same asIntCacheStream.flatMap(IntFunction)
except that the IntFunction must also implementSerializable
The compiler will pick this overload for lambda parameters, making them
Serializable
- Specified by:
flatMap
in interfaceIntCacheStream
- Parameters:
mapper
- a non-interfering, stateless function to apply to each element which produces aIntStream
of new values- Returns:
- the new cache int stream
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distinct
Description copied from interface:IntCacheStream
- Specified by:
distinct
in interfaceIntCacheStream
- Specified by:
distinct
in interfaceIntStream
- Returns:
- the new cache int stream
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sorted
Description copied from interface:IntCacheStream
- Specified by:
sorted
in interfaceIntCacheStream
- Specified by:
sorted
in interfaceIntStream
- Returns:
- the new cache int stream
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peek
Description copied from interface:IntCacheStream
- Specified by:
peek
in interfaceIntCacheStream
- Specified by:
peek
in interfaceIntStream
- Returns:
- the new cache int stream
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peek
Description copied from interface:IntCacheStream
Same asIntCacheStream.flatMap(IntFunction)
except that the IntFunction must also implementSerializable
The compiler will pick this overload for lambda parameters, making them
Serializable
- Specified by:
peek
in interfaceIntCacheStream
- Parameters:
action
- a non-interfering action to perform on the elements as they are consumed from the stream- Returns:
- the new cache int stream
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limit
Description copied from interface:IntCacheStream
- Specified by:
limit
in interfaceIntCacheStream
- Specified by:
limit
in interfaceIntStream
- Returns:
- the new cache int stream
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skip
Description copied from interface:IntCacheStream
- Specified by:
skip
in interfaceIntCacheStream
- Specified by:
skip
in interfaceIntStream
- Returns:
- the new cache int stream
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asLongStream
Description copied from interface:IntCacheStream
- Specified by:
asLongStream
in interfaceIntCacheStream
- Specified by:
asLongStream
in interfaceIntStream
- Returns:
- the cache long stream
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asDoubleStream
Description copied from interface:IntCacheStream
- Specified by:
asDoubleStream
in interfaceIntCacheStream
- Specified by:
asDoubleStream
in interfaceIntStream
- Returns:
- the cache double stream
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boxed
Description copied from interface:IntCacheStream
- Specified by:
boxed
in interfaceIntCacheStream
- Specified by:
boxed
in interfaceIntStream
- Returns:
- the new cache stream containing integers
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forEach
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forEach
Description copied from interface:IntCacheStream
Same asIntStream.forEach(IntConsumer)
except that the IntConsumer must also implementSerializable
The compiler will pick this overload for lambda parameters, making them
Serializable
- Specified by:
forEach
in interfaceIntCacheStream
- Parameters:
action
- a non-interfering action to perform on the elements
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forEach
Description copied from interface:IntCacheStream
Same asIntStream.forEach(IntConsumer)
except that it takes anObjIntConsumer
that provides access to the underlyingCache
that is backing this stream.Note that the
CacheAware
interface is not supported for injection using this method as the cache is provided in the consumer directly.- Specified by:
forEach
in interfaceIntCacheStream
- Type Parameters:
K
- key type of the cacheV
- value type of the cache- Parameters:
action
- consumer to be ran for each element in the stream
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forEach
Description copied from interface:IntCacheStream
Same asIntCacheStream.forEach(ObjIntConsumer)
except that theBiConsumer
must also implementSerializable
- Specified by:
forEach
in interfaceIntCacheStream
- Type Parameters:
K
- key type of the cacheV
- value type of the cache- Parameters:
action
- consumer to be ran for each element in the stream
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forEachOrdered
- Specified by:
forEachOrdered
in interfaceIntStream
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toArray
public int[] toArray() -
reduce
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reduce
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collect
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sum
public int sum() -
min
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max
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average
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summaryStatistics
- Specified by:
summaryStatistics
in interfaceIntStream
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anyMatch
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allMatch
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noneMatch
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findFirst
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findAny
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iterator
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spliterator
- Specified by:
spliterator
in interfaceBaseStream<Integer,
IntStream> - Specified by:
spliterator
in interfaceIntStream
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count
public long count() -
sequentialDistribution
Description copied from interface:IntCacheStream
This would disable sending requests to all other remote nodes compared to one at a time. This can reduce memory pressure on the originator node at the cost of performance.Parallel distribution is enabled by default except for
CacheStream.iterator()
andCacheStream.spliterator()
- Specified by:
sequentialDistribution
in interfaceBaseCacheStream<Integer,
IntStream> - Specified by:
sequentialDistribution
in interfaceIntCacheStream
- Returns:
- a stream with parallel distribution disabled.
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parallelDistribution
Description copied from interface:BaseCacheStream
This would enable sending requests to all other remote nodes when a terminal operator is performed. This requires additional overhead as it must process results concurrently from various nodes, but should perform faster in the majority of cases.Parallel distribution is enabled by default except for
CacheStream.iterator()
andCacheStream.spliterator()
- Specified by:
parallelDistribution
in interfaceBaseCacheStream<Integer,
IntStream> - Specified by:
parallelDistribution
in interfaceIntCacheStream
- Returns:
- a stream with parallel distribution enabled.
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filterKeySegments
Description copied from interface:IntCacheStream
Filters which entries are returned by what segment they are present in. This method can be substantially more efficient than using a regularCacheStream.filter(Predicate)
method as this can control what nodes are asked for data and what entries are read from the underlying CacheStore if present.- Specified by:
filterKeySegments
in interfaceBaseCacheStream<Integer,
IntStream> - Specified by:
filterKeySegments
in interfaceIntCacheStream
- Parameters:
segments
- The segments to use for this stream operation. Any segments not in this set will be ignored.- Returns:
- a stream with the segments filtered.
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filterKeySegments
Description copied from interface:BaseCacheStream
Filters which entries are returned by what segment they are present in. This method can be substantially more efficient than using a regularCacheStream.filter(Predicate)
method as this can control what nodes are asked for data and what entries are read from the underlying CacheStore if present.- Specified by:
filterKeySegments
in interfaceBaseCacheStream<Integer,
IntStream> - Parameters:
segments
- The segments to use for this stream operation. Any segments not in this set will be ignored.- Returns:
- a stream with the segments filtered.
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filterKeys
Description copied from interface:IntCacheStream
Filters which entries are returned by only returning ones that map to the given key. This method will be faster than a regularCacheStream.filter(Predicate)
if the filter is holding references to the same keys.- Specified by:
filterKeys
in interfaceBaseCacheStream<Integer,
IntStream> - Specified by:
filterKeys
in interfaceIntCacheStream
- Parameters:
keys
- The keys that this stream will only operate on.- Returns:
- a stream with the keys filtered.
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distributedBatchSize
Description copied from interface:IntCacheStream
Controls how many keys are returned from a remote node when using a stream terminal operation with a distributed cache to back this stream. This value is ignored when terminal operators that don't track keys are used. Key tracking terminal operators areCacheStream.iterator()
,CacheStream.spliterator()
,CacheStream.forEach(Consumer)
. Please see those methods for additional information on how this value may affect them.This value may be used in the case of a a terminal operator that doesn't track keys if an intermediate operation is performed that requires bringing keys locally to do computations. Examples of such intermediate operations are
CacheStream.sorted()
,CacheStream.sorted(Comparator)
,CacheStream.distinct()
,CacheStream.limit(long)
,CacheStream.skip(long)
This value is always ignored when this stream is backed by a cache that is not distributed as all values are already local.
- Specified by:
distributedBatchSize
in interfaceBaseCacheStream<Integer,
IntStream> - Specified by:
distributedBatchSize
in interfaceIntCacheStream
- Parameters:
batchSize
- The size of each batch. This defaults to the state transfer chunk size.- Returns:
- a stream with the batch size updated
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segmentCompletionListener
Description copied from interface:IntCacheStream
Allows registration of a segment completion listener that is notified when a segment has completed processing. If the terminal operator has a short circuit this listener may never be called.This method is designed for the sole purpose of use with the
CacheStream.iterator()
to allow for a user to track completion of segments as they are returned from the iterator. Behavior of other methods is not specified. Please seeCacheStream.iterator()
for more information.Multiple listeners may be registered upon multiple invocations of this method. The ordering of notified listeners is not specified.
This is only used if this stream did not invoke
BaseCacheStream.disableRehashAware()
and has no flat map based operations. If this is done no segments will be notified.- Specified by:
segmentCompletionListener
in interfaceBaseCacheStream<Integer,
IntStream> - Specified by:
segmentCompletionListener
in interfaceIntCacheStream
- Parameters:
listener
- The listener that will be called back as segments are completed.- Returns:
- a stream with the listener registered.
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disableRehashAware
Description copied from interface:IntCacheStream
Disables tracking of rehash events that could occur to the underlying cache. If a rehash event occurs while a terminal operation is being performed it is possible for some values that are in the cache to not be found. Note that you will never have an entry duplicated when rehash awareness is disabled, only lost values.Most terminal operations will run faster with rehash awareness disabled even without a rehash occuring. However if a rehash occurs with this disabled be prepared to possibly receive only a subset of values.
- Specified by:
disableRehashAware
in interfaceBaseCacheStream<Integer,
IntStream> - Specified by:
disableRehashAware
in interfaceIntCacheStream
- Returns:
- a stream with rehash awareness disabled.
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timeout
Description copied from interface:IntCacheStream
Sets a given time to wait for a remote operation to respond by. This timeout does nothing if the terminal operation does not go remote.If a timeout does occur then a
TimeoutException
is thrown from the terminal operation invoking thread or on the next call to theIterator
orSpliterator
.Note that if a rehash occurs this timeout value is reset for the subsequent retry if rehash aware is enabled.
- Specified by:
timeout
in interfaceBaseCacheStream<Integer,
IntStream> - Specified by:
timeout
in interfaceIntCacheStream
- Parameters:
timeout
- the maximum time to waitunit
- the time unit of the timeout argument- Returns:
- a stream with the timeout set
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cacheStream
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doubleCacheStream
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longCacheStream
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