cyclops.collections.immutable

Interface PersistentQueueX<T>

All Superinterfaces:

java.util.Collection<T>, CollectionX<T>, Convert<Higher<PersistentQueueX.µ,T>>, CyclopsCollectable<T>, ExtendedTraversable<T>, FilterableTransformable<T>, Filters<T>, FluentCollectionX<T>, FoldableTraversable<T>, Folds<T>, Higher<PersistentQueueX.µ,T>, java.lang.Iterable<T>, IterableFilterable<T>, LazyCollectionX<T>, OnEmpty<T>, OnEmptySwitch<T,org.pcollections.PQueue<T>>, org.pcollections.PCollection<T>, org.pcollections.PQueue<T>, org.reactivestreams.Publisher<T>, java.util.Queue<T>, ReactiveStreamsTerminalOperations<T>, Sequential<T>, To<PersistentQueueX<T>>, Transformable<T>, TransformerTraversable<T>, Traversable<T>, Unit<T>, Unwrapable, Zippable<T>

All Known Implementing Classes:

LazyPQueueX

public interface PersistentQueueX<T>
extends To<PersistentQueueX<T>>, org.pcollections.PQueue<T>, LazyCollectionX<T>, OnEmptySwitch<T,org.pcollections.PQueue<T>>, Higher<PersistentQueueX.µ,T>

Nested Class Summary

Nested Classes

Modifier and Type	Interface and Description
static class	PersistentQueueX.µ
static class	PersistentQueueX.Instances Companion class for creating Type Class instances for working with PQueues

Method Summary

Modifier and Type	Method and Description
default AnyMSeq<Witness.persistentQueueX,T>	anyM()
default <U> PersistentQueueX<U>	cast(java.lang.Class<? extends U> type) Cast all elements in a reactiveStream toNested a given type, possibly throwing a ClassCastException.
default <R> PersistentQueueX<R>	coflatMap(java.util.function.Function<? super PersistentQueueX<T>,? extends R> fn) coflatMap pattern, can be used toNested perform maybe reductions / collections / folds and other terminal operations
default PersistentQueueX<ReactiveSeq<T>>	combinations() Generate the combinations based on values in the ExtendedTraversable.
default PersistentQueueX<ReactiveSeq<T>>	combinations(int size) Generate the combinations based on values in the ExtendedTraversable.
default PersistentQueueX<T>	combine(java.util.function.BiPredicate<? super T,? super T> predicate, java.util.function.BinaryOperator<T> op) Combine two adjacent elements in a PersistentQueueX using the supplied BinaryOperator This is a stateful grouping & reduction operation.
default PersistentQueueX<T>	combine(Monoid<T> op, java.util.function.BiPredicate<? super T,? super T> predicate) Combine two adjacent elements in a traversable using the supplied BinaryOperator This is a stateful grouping and reduction operation.
default PersistentQueueX<T>	cycle(long times) Convert toNested a Stream with the values repeated specified times
default PersistentQueueX<T>	cycle(Monoid<T> m, long times) Convert toNested a Stream with the result of a reduction operation repeated specified times
default PersistentQueueX<T>	cycleUntil(java.util.function.Predicate<? super T> predicate) Repeat in a Stream until specified predicate holds
default PersistentQueueX<T>	cycleWhile(java.util.function.Predicate<? super T> predicate) Repeat in a Stream while specified predicate holds
default PersistentQueueX<T>	distinct()
default PersistentQueueX<T>	drop(long num) assertThat(ReactiveSeq.of(4,3,6,7).drop(2).toList(),equalTo(Arrays.asList(6,7)));
default PersistentQueueX<T>	dropRight(int num) Generate a new Traversable that drops the specified number elements from the take of this Traversable
default PersistentQueueX<T>	dropUntil(java.util.function.Predicate<? super T> p) Generate a new Traversable that drops elements from this Traversable until the predicate holds
default PersistentQueueX<T>	dropWhile(java.util.function.Predicate<? super T> p) Generate a new Traversable that drops elements from this Traversable as long as the predicate holds
static <T> PersistentQueueX<T>	empty()
default <R> PersistentQueueX<R>	emptyUnit()
static <T> PersistentQueueX<T>	fill(long limit, T s) Generate a PersistentQueueX from the provided value up toNested the provided limit number of times
default PersistentQueueX<T>	filter(java.util.function.Predicate<? super T> pred) Keep only elements for which the supplied predicates hold e.g.
default PersistentQueueX<T>	filterNot(java.util.function.Predicate<? super T> fn) Remove any elements for which the predicate holds (inverse operation toNested filter) e.g.
default <R> PersistentQueueX<R>	flatMap(java.util.function.Function<? super T,? extends java.lang.Iterable<? extends R>> mapper) Perform a flatMap operation on this collection.
default <R1,R> PersistentQueueX<R>	forEach2(java.util.function.Function<? super T,? extends java.lang.Iterable<R1>> stream1, java.util.function.BiFunction<? super T,? super R1,? extends R> yieldingFunction) Perform a two level nested internal iteration over this Stream and the supplied reactiveStream
default <R1,R> PersistentQueueX<R>	forEach2(java.util.function.Function<? super T,? extends java.lang.Iterable<R1>> stream1, java.util.function.BiFunction<? super T,? super R1,java.lang.Boolean> filterFunction, java.util.function.BiFunction<? super T,? super R1,? extends R> yieldingFunction) Perform a two level nested internal iteration over this Stream and the supplied reactiveStream
default <R1,R2,R> PersistentQueueX<R>	forEach3(java.util.function.Function<? super T,? extends java.lang.Iterable<R1>> stream1, java.util.function.BiFunction<? super T,? super R1,? extends java.lang.Iterable<R2>> stream2, Fn3<? super T,? super R1,? super R2,? extends R> yieldingFunction) Perform a three level nested internal iteration over this Stream and the supplied streams
default <R1,R2,R> PersistentQueueX<R>	forEach3(java.util.function.Function<? super T,? extends java.lang.Iterable<R1>> stream1, java.util.function.BiFunction<? super T,? super R1,? extends java.lang.Iterable<R2>> stream2, Fn3<? super T,? super R1,? super R2,java.lang.Boolean> filterFunction, Fn3<? super T,? super R1,? super R2,? extends R> yieldingFunction) Perform a three level nested internal iteration over this Stream and the supplied streams
default <R1,R2,R3,R> PersistentQueueX<R>	forEach4(java.util.function.Function<? super T,? extends java.lang.Iterable<R1>> stream1, java.util.function.BiFunction<? super T,? super R1,? extends java.lang.Iterable<R2>> stream2, Fn3<? super T,? super R1,? super R2,? extends java.lang.Iterable<R3>> stream3, Fn4<? super T,? super R1,? super R2,? super R3,? extends R> yieldingFunction) Perform a three level nested internal iteration over this Stream and the supplied streams
default <R1,R2,R3,R> PersistentQueueX<R>	forEach4(java.util.function.Function<? super T,? extends java.lang.Iterable<R1>> stream1, java.util.function.BiFunction<? super T,? super R1,? extends java.lang.Iterable<R2>> stream2, Fn3<? super T,? super R1,? super R2,? extends java.lang.Iterable<R3>> stream3, Fn4<? super T,? super R1,? super R2,? super R3,java.lang.Boolean> filterFunction, Fn4<? super T,? super R1,? super R2,? super R3,? extends R> yieldingFunction) Perform a three level nested internal iteration over this Stream and the supplied streams
default <X> PersistentQueueX<X>	from(java.util.Collection<X> col) Conctruct an Extended Collection from a standard Collection
static <T> PersistentQueueX<T>	fromIterable(java.lang.Iterable<T> iterable)
static <T> PersistentQueueX<T>	fromIterator(java.util.Iterator<T> iterator)
static <T> PersistentQueueX<T>	fromPublisher(org.reactivestreams.Publisher<? extends T> publisher) Construct a PersistentQueueX from an Publisher
default <T> PersistentQueueX<T>	fromStream(ReactiveSeq<T> stream)
static <T> PersistentQueueX<T>	generate(long limit, java.util.function.Supplier<T> s) Generate a PersistentQueueX from the provided Supplier up toNested the provided limit number of times
default <K> PersistentQueueX<org.jooq.lambda.tuple.Tuple2<K,ReactiveSeq<T>>>	grouped(java.util.function.Function<? super T,? extends K> classifier) Group this Traversable by the provided classifying function and collected by the provided Collector
default <K,A,D> PersistentQueueX<org.jooq.lambda.tuple.Tuple2<K,D>>	grouped(java.util.function.Function<? super T,? extends K> classifier, java.util.stream.Collector<? super T,A,D> downstream) Group this Traversable by the provided classifying function and collected by the provided Collector
default PersistentQueueX<ListX<T>>	grouped(int groupSize) Group elements in a Stream
default <C extends java.util.Collection<? super T>> PersistentQueueX<C>	grouped(int size, java.util.function.Supplier<C> supplier) Batch elements in a Stream by size into a collection created by the supplied factory
default PersistentQueueX<ListX<T>>	groupedStatefullyUntil(java.util.function.BiPredicate<ListX<? super T>,? super T> predicate) Create Travesable of Lists where each List is populated while the supplied bipredicate holds.
default PersistentQueueX<ListX<T>>	groupedUntil(java.util.function.Predicate<? super T> predicate) Create a Traversable batched by List, where each batch is populated until the predicate holds
default <C extends java.util.Collection<? super T>> PersistentQueueX<C>	groupedUntil(java.util.function.Predicate<? super T> predicate, java.util.function.Supplier<C> factory) Create a ReactiveSeq batched by a Collection, where each batch is populated until the predicate holds
default PersistentQueueX<ListX<T>>	groupedWhile(java.util.function.Predicate<? super T> predicate) Create a Traversable batched by List, where each batch is populated while the predicate holds
default <C extends java.util.Collection<? super T>> PersistentQueueX<C>	groupedWhile(java.util.function.Predicate<? super T> predicate, java.util.function.Supplier<C> factory) Create a SequenceM batched by a Collection, where each batch is populated while the predicate holds
default PersistentQueueX<T>	intersperse(T value) Returns a reactiveStream with a given value interspersed between any two values of this reactiveStream.
static <T> PersistentQueueX<T>	iterate(long limit, T seed, java.util.function.UnaryOperator<T> f) Create a PersistentQueueX by iterative application of a function toNested an initial element up toNested the supplied limit number of times
default PersistentQueueX<T>	limit(long num) assertThat(ReactiveSeq.of(4,3,6,7).limit(2).toList(),equalTo(Arrays.asList(4,3));
default PersistentQueueX<T>	limitLast(int num) Limit results toNested the last x elements in a SequenceM
default PersistentQueueX<T>	limitUntil(java.util.function.Predicate<? super T> p) Take elements from the Stream until the predicate returns true, after which all elements are excluded.
default PersistentQueueX<T>	limitWhile(java.util.function.Predicate<? super T> p) Take elements from the Stream while the predicate holds, once the predicate returns false all subsequent elements are excluded
default <R> PersistentQueueX<R>	map(java.util.function.Function<? super T,? extends R> mapper) Transform this functor using the supplied transformation function
default PersistentQueueX<T>	materialize()
PersistentQueueX<T>	minus()
PersistentQueueX<T>	minus(java.lang.Object e) Remove the specified element from this collection
PersistentQueueX<T>	minusAll(java.util.Collection<?> list) Remove all the specified elements from this collection
default <T> Reducer<org.pcollections.PQueue<T>>	monoid()
static <T> PersistentQueueX<T>	narrow(PersistentQueueX<? extends T> queueX) Narrow a covariant PersistentQueueX
static <T> PersistentQueueX<T>	narrowK(Higher<PersistentQueueX.µ,T> list) Convert the raw Higher Kinded Type for PQueue types into the PQueueType type definition class
default PersistentQueueX<T>	notNull() Filter elements retaining only values which are not null
static <T> PersistentQueueX<T>	of(T... values)
default <U> PersistentQueueX<U>	ofType(java.lang.Class<? extends U> type) Keep only those elements in a reactiveStream that are of a given type.
default PersistentQueueX<T>	onEmpty(T value) If this Container instance is empty, create a new instance containing the provided value
default PersistentQueueX<T>	onEmptyGet(java.util.function.Supplier<? extends T> supplier) If this Container instance is empty, create a new instance containing the value returned from the provided Supplier
default PersistentQueueX<T>	onEmptySwitch(java.util.function.Supplier<? extends org.pcollections.PQueue<T>> supplier) Switch toNested container created by provided Supplier, if current Container empty
default <X extends java.lang.Throwable> PersistentQueueX<T>	onEmptyThrow(java.util.function.Supplier<? extends X> supplier) If this container instance is empty, throw the exception returned by the provided Supplier
default PersistentQueueX<ReactiveSeq<T>>	permutations() Generate the permutations based on values in the ExtendedTraversable.
static <T> PersistentQueueX<T>	persistentQueueX(ReactiveSeq<T> stream) import static cyclops.stream.ReactiveSeq.range; PersistentQueueX<Integer> bag = persistentQueueX(range(10,20));
PersistentQueueX<T>	plus(T e) Add an element to this Collection
PersistentQueueX<T>	plusAll(java.util.Collection<? extends T> list) Add all supplied elements to this Collection
default PersistentQueueX<T>	plusInOrder(T e) Add an element to the collection
default PersistentQueueX<T>	plusLoop(int max, java.util.function.IntFunction<T> value)
default PersistentQueueX<T>	plusLoop(java.util.function.Supplier<java.util.Optional<T>> supplier)
static PersistentQueueX<java.lang.Integer>	range(int start, int end) Create a PersistentQueueX that contains the Integers between skip and take
static PersistentQueueX<java.lang.Long>	rangeLong(long start, long end) Create a PersistentQueueX that contains the Longs between skip and take
default <EX extends java.lang.Throwable> PersistentQueueX<T>	recover(java.lang.Class<EX> exceptionClass, java.util.function.Function<? super EX,? extends T> fn) Recover from a particular exception type
default PersistentQueueX<T>	recover(java.util.function.Function<? super java.lang.Throwable,? extends T> fn) Recover from an exception with an alternative value
default PersistentQueueX<T>	removeAll(T... values) Remove all supplied elements from this filterable
default PersistentQueueX<T>	removeAllI(java.lang.Iterable<? extends T> it) Remove all elements in the supplied Iterable from this filterable
default PersistentQueueX<T>	removeAllS(java.util.stream.Stream<? extends T> stream) Remove all elements in the supplied Stream from this filterable
default PersistentQueueX<T>	retainAll(T... values) Retain only the supplied elements in the returned Filters
default PersistentQueueX<T>	retainAllI(java.lang.Iterable<? extends T> it) Retain only the supplied elements in the returned Filters
default PersistentQueueX<T>	retainAllS(java.util.stream.Stream<? extends T> seq) Retain only the supplied elements in the returned Filters
default PersistentQueueX<T>	reverse() Potentially efficient Stream reversal.
default PersistentQueueX<T>	scanLeft(Monoid<T> monoid) Scan left using supplied Monoid
default <U> PersistentQueueX<U>	scanLeft(U seed, java.util.function.BiFunction<? super U,? super T,? extends U> function) Scan left
default PersistentQueueX<T>	scanRight(Monoid<T> monoid) Scan right
default <U> PersistentQueueX<U>	scanRight(U identity, java.util.function.BiFunction<? super T,? super U,? extends U> combiner) Scan right
default PersistentQueueX<T>	shuffle()
default PersistentQueueX<T>	shuffle(java.util.Random random)
static <T> PersistentQueueX<T>	singleton(T value)
default PersistentQueueX<T>	skip(long num) assertThat(ReactiveSeq.of(4,3,6,7).skip(2).toList(),equalTo(Arrays.asList(6,7)));
default PersistentQueueX<T>	skipLast(int num) assertThat(ReactiveSeq.of(1,2,3,4,5) .skipLast(2) .collect(CyclopsCollectors.toList()),equalTo(Arrays.asList(1,2,3)));
default PersistentQueueX<T>	skipUntil(java.util.function.Predicate<? super T> p) Drop elements from the Stream until the predicate returns true, after which all elements are included
default PersistentQueueX<T>	skipWhile(java.util.function.Predicate<? super T> p) SkipWhile drops elements from the Stream while the predicate holds, once the predicte returns true all subsequent elements are included *
default PersistentQueueX<T>	slice(long from, long to)
default PersistentQueueX<VectorX<T>>	sliding(int windowSize) Create a sliding view over this Sequence
default PersistentQueueX<VectorX<T>>	sliding(int windowSize, int increment) Create a sliding view over this Sequence
default PersistentQueueX<T>	sorted() assertThat(ReactiveSeq.of(4,3,6,7)).sorted().toList(),equalTo(Arrays.asList(3,4,6,7)));
default PersistentQueueX<T>	sorted(java.util.Comparator<? super T> c) assertThat(ReactiveSeq.of(4,3,6,7).sorted((a,b) -> b-a).toList(),equalTo(Arrays.asList(7,6,4,3)));
default <U extends java.lang.Comparable<? super U>> PersistentQueueX<T>	sorted(java.util.function.Function<? super T,? extends U> function)
default ReactiveSeq<T>	stream()
default PersistentQueueX<T>	take(long num) assertThat(ReactiveSeq.of(4,3,6,7).take(2).toList(),equalTo(Arrays.asList(4,3));
default PersistentQueueX<T>	takeRight(int num) Generate a new Traversable that takes the specified number elements from the take of this Traversable
default PersistentQueueX<T>	takeUntil(java.util.function.Predicate<? super T> p) Generate a new Traversable that takes elements from this Traversable until the predicate holds
default PersistentQueueX<T>	takeWhile(java.util.function.Predicate<? super T> p) Generate a new Traversable that takes elements from this Traversable as long as the predicate holds
default org.pcollections.PQueue<T>	toPSet()
default <R> PersistentQueueX<R>	trampoline(java.util.function.Function<? super T,? extends Trampoline<? extends R>> mapper) Performs a map operation that can call a recursive method without running out of stack space
PersistentQueueX<T>	type(Reducer<? extends org.pcollections.PQueue<T>> reducer)
static <U,T> PersistentQueueX<T>	unfold(U seed, java.util.function.Function<? super U,java.util.Optional<org.jooq.lambda.tuple.Tuple2<T,U>>> unfolder) Unfold a function into a PersistentQueueX
default <R> PersistentQueueX<R>	unit(java.util.Collection<R> col) Create a new instance of the same colleciton type from the supplied collection
default <R> PersistentQueueX<R>	unit(R value)
default <R> PersistentQueueX<R>	unitIterator(java.util.Iterator<R> it) Create an IterableFunctor instance of the same type from an Iterator
static <C2,T> Higher<C2,Higher<PersistentQueueX.µ,T>>	widen2(Higher<C2,PersistentQueueX<T>> list) Widen a PersistentQueueX nested inside another HKT encoded type
default <U> PersistentQueueX<org.jooq.lambda.tuple.Tuple2<T,U>>	zip(java.lang.Iterable<? extends U> other) Zip (merge) this collection with the supplied Iterable into a Colleciton containing Tuples Each Tuple contains one element from this collection and one from the other
default <U,R> PersistentQueueX<R>	zip(java.lang.Iterable<? extends U> other, java.util.function.BiFunction<? super T,? super U,? extends R> zipper) Zip (combine) this Zippable with the supplied Iterable using the supplied combining function
default <S,U> PersistentQueueX<org.jooq.lambda.tuple.Tuple3<T,S,U>>	zip3(java.lang.Iterable<? extends S> second, java.lang.Iterable<? extends U> third) zip 3 Streams into one
default <T2,T3,T4> PersistentQueueX<org.jooq.lambda.tuple.Tuple4<T,T2,T3,T4>>	zip4(java.lang.Iterable<? extends T2> second, java.lang.Iterable<? extends T3> third, java.lang.Iterable<? extends T4> fourth) zip 4 Streams into 1
default <U> PersistentQueueX<org.jooq.lambda.tuple.Tuple2<T,U>>	zipS(java.util.stream.Stream<? extends U> other) Zip (combine) this Zippable with the supplied Stream combining both into a Tuple2
default <U,R> PersistentQueueX<R>	zipS(java.util.stream.Stream<? extends U> other, java.util.function.BiFunction<? super T,? super U,? extends R> zipper) Zip (combine) this Zippable with the supplied Stream, using the supplied combining function
default PersistentQueueX<org.jooq.lambda.tuple.Tuple2<T,java.lang.Long>>	zipWithIndex() Add an index toNested the current Stream

Methods inherited from interface com.aol.cyclops2.types.foldable.To

to

Methods inherited from interface org.pcollections.PQueue

offer, poll, remove

Methods inherited from interface org.pcollections.PCollection

add, addAll, clear, remove, removeAll, retainAll

Methods inherited from interface java.util.Queue

add, element, peek

Methods inherited from interface com.aol.cyclops2.data.collections.extensions.standard.LazyCollectionX

append, append, deleteBetween, flatMapP, flatMapS, insertAt, insertAtS, prepend, prepend, prependS, reduce

Methods inherited from interface com.aol.cyclops2.data.collections.extensions.CollectionX

collection, findAny, findFirst, fromCollection, getAtIndex, groupBy, head, headAndTail, isEmpty, iterator, materializeReversed, peek, single, single, singleOptional

Methods inherited from interface com.aol.cyclops2.types.traversable.FoldableTraversable

asFunction, foldFuture, foldLazy, foldTry, forEach, forEach, forEach, forEach, forEach, forEachSubscribe, forEachSubscribe, forEachSubscribe, runFuture, runLazy, seq, toListX, toSetX, visit

Methods inherited from interface com.aol.cyclops2.types.foldable.CyclopsCollectable

allMatch, anyMatch, collect, collectors, commonPrefix, commonSuffix, count, count, countDistinct, countDistinct, countDistinctBy, countDistinctBy, max, maxBy, min, minBy, mode, noneMatch, sum, sumDouble, sumInt, sumLong, to, toList, toMap, toMap, toSet, toString, toString

Methods inherited from interface com.aol.cyclops2.types.foldable.Folds

endsWith, endsWithIterable, firstValue, foldLeft, foldLeft, foldLeft, foldLeft, foldRight, foldRight, foldRight, foldRightMapToType, get, join, join, join, mapReduce, mapReduce, print, print, printErr, printOut, reduce, reduce, reduce, reduce, reduce, reduce, schedule, scheduleFixedDelay, scheduleFixedRate, startsWith, startsWithIterable, xMatch

Methods inherited from interface com.aol.cyclops2.types.traversable.Traversable

mapToDouble, mapToInt, mapToLong, subscribe, traversable

Methods inherited from interface com.aol.cyclops2.types.Zippable

zip, zip3, zip4, zipP, zipP, zipWith, zipWithP, zipWithS

Methods inherited from interface java.lang.Iterable

forEach

Methods inherited from interface com.aol.cyclops2.types.functor.Transformable

retry, retry

Methods inherited from interface com.aol.cyclops2.types.functor.TransformerTraversable

groupedStatefullyUntilT, groupedT, groupedUntilT, groupedWhileT, slidingT, slidingT

Methods inherited from interface com.aol.cyclops2.types.traversable.Sequential

fixedDelay, onePer, xPer

Methods inherited from interface java.util.Collection

contains, containsAll, equals, hashCode, parallelStream, removeIf, size, spliterator, toArray, toArray

Methods inherited from interface com.aol.cyclops2.types.Unwrapable

unwrap, unwrapIfInstance, unwrapNested

Methods inherited from interface com.aol.cyclops2.hkt.Higher

apply_, apply, apply

Methods inherited from interface com.aol.cyclops2.hkt.Convert

convert

Method Detail

fromIterator

static <T> PersistentQueueX<T> fromIterator(java.util.Iterator<T> iterator)

narrow

static <T> PersistentQueueX<T> narrow(PersistentQueueX<? extends T> queueX)

Narrow a covariant PersistentQueueX

  
  PersistentQueueX<? extends Fruit> set = PersistentQueueX.of(apple,bannana);
  PersistentQueueX<Fruit> fruitSet = PersistentQueueX.narrow(set);
 
 

Parameters:

queueX - toNested narrow generic type

Returns:

OrderedSetX with narrowed type

widen2

static <C2,T> Higher<C2,Higher<PersistentQueueX.µ,T>> widen2(Higher<C2,PersistentQueueX<T>> list)

Widen a PersistentQueueX nested inside another HKT encoded type

Parameters:

list - HTK encoded type containing a PQueue toNested widen

Returns:

HKT encoded type with a widened PQueue

narrowK

static <T> PersistentQueueX<T> narrowK(Higher<PersistentQueueX.µ,T> list)

Convert the raw Higher Kinded Type for PQueue types into the PQueueType type definition class

Parameters:

list - HKT encoded list into a PQueueType

Returns:

PQueueType

range

static PersistentQueueX<java.lang.Integer> range(int start,
                                                 int end)

Create a PersistentQueueX that contains the Integers between skip and take

Parameters:

start - Number of range toNested skip from

end - Number for range toNested take at

Returns:

Range PersistentQueueX

rangeLong

static PersistentQueueX<java.lang.Long> rangeLong(long start,
                                                  long end)

Create a PersistentQueueX that contains the Longs between skip and take

Parameters:

start - Number of range toNested skip from

end - Number for range toNested take at

Returns:

Range PersistentQueueX

unfold

static <U,T> PersistentQueueX<T> unfold(U seed,
                                        java.util.function.Function<? super U,java.util.Optional<org.jooq.lambda.tuple.Tuple2<T,U>>> unfolder)

Unfold a function into a PersistentQueueX

  
  PersistentQueueX.unfold(1,i->i<=6 ? Optional.of(Tuple.tuple(i,i+1)) : Optional.empty());
 
 //(1,2,3,4,5)
 
 

Parameters:

seed - Initial value

unfolder - Iteratively applied function, terminated by an empty Optional

Returns:

PersistentQueueX generated by unfolder function

generate

static <T> PersistentQueueX<T> generate(long limit,
                                        java.util.function.Supplier<T> s)

Generate a PersistentQueueX from the provided Supplier up toNested the provided limit number of times

Parameters:

limit - Max number of elements toNested generate

s - Supplier toNested generate PersistentQueueX elements

Returns:

PersistentQueueX generated from the provided Supplier

fill

static <T> PersistentQueueX<T> fill(long limit,
                                    T s)

Generate a PersistentQueueX from the provided value up toNested the provided limit number of times

Parameters:

limit - Max number of elements toNested generate

s - Value for PersistentQueueX elements

Returns:

PersistentQueueX generated from the provided Supplier

iterate

static <T> PersistentQueueX<T> iterate(long limit,
                                       T seed,
                                       java.util.function.UnaryOperator<T> f)

Create a PersistentQueueX by iterative application of a function toNested an initial element up toNested the supplied limit number of times

Parameters:

limit - Max number of elements toNested generate

seed - Initial element

f - Iteratively applied toNested each element toNested generate the next element

Returns:

PersistentQueueX generated by iterative application

of

static <T> PersistentQueueX<T> of(T... values)

empty

static <T> PersistentQueueX<T> empty()

singleton

static <T> PersistentQueueX<T> singleton(T value)

fromPublisher

static <T> PersistentQueueX<T> fromPublisher(org.reactivestreams.Publisher<? extends T> publisher)

Construct a PersistentQueueX from an Publisher

Parameters:

publisher - toNested construct PersistentQueueX from

Returns:

PersistentQueueX

type

PersistentQueueX<T> type(Reducer<? extends org.pcollections.PQueue<T>> reducer)

persistentQueueX

static <T> PersistentQueueX<T> persistentQueueX(ReactiveSeq<T> stream)

 
  import static cyclops.stream.ReactiveSeq.range;

  PersistentQueueX<Integer> bag = persistentQueueX(range(10,20));

 
 

Type Parameters:

T - PersistentQueueX generated from Stream

Parameters:

stream - To create a PersistentQueueX from

Returns:

fromIterable

static <T> PersistentQueueX<T> fromIterable(java.lang.Iterable<T> iterable)

fromStream

default <T> PersistentQueueX<T> fromStream(ReactiveSeq<T> stream)

Specified by:

fromStream in interface LazyCollectionX<T>

Parameters:

stream - Create a MultableCollectionX from a Stream

Returns:

LazyCollectionX

coflatMap

default <R> PersistentQueueX<R> coflatMap(java.util.function.Function<? super PersistentQueueX<T>,? extends R> fn)

coflatMap pattern, can be used toNested perform maybe reductions / collections / folds and other terminal operations

  
   
     PersistentQueueX.of(1,2,3)
            .map(i->i*2)
            .coflatMap(s -> s.reduce(0,(a,b)->a+b))
      
     //PersistentQueueX[12]
 
 

Parameters:

fn - mapping function

Returns:

Transformed PersistentQueueX

anyM

default AnyMSeq<Witness.persistentQueueX,T> anyM()

forEach4

default <R1,R2,R3,R> PersistentQueueX<R> forEach4(java.util.function.Function<? super T,? extends java.lang.Iterable<R1>> stream1,
                                                  java.util.function.BiFunction<? super T,? super R1,? extends java.lang.Iterable<R2>> stream2,
                                                  Fn3<? super T,? super R1,? super R2,? extends java.lang.Iterable<R3>> stream3,
                                                  Fn4<? super T,? super R1,? super R2,? super R3,? extends R> yieldingFunction)

Description copied from interface: CollectionX

Perform a three level nested internal iteration over this Stream and the supplied streams

  
   
   //collectionX [1,2]
   
   collectionX.forEach4(a->ListX.range(10,13),
                        (a,b)->ListX.of(""+(a+b),"hello world"),
                        (a,b,c)->ListX.of(a,b,c)),
                        (a,b,c,d)->c+":"a+":"+b);
                                  
 
 

Specified by:

forEach4 in interface CollectionX<T>

Parameters:

stream1 - Nested Stream toNested iterate over

stream2 - Nested Stream toNested iterate over

stream3 - Nested Stream toNested iterate over

yieldingFunction - Function with pointers toNested the current element from both Streams that generates the new elements

Returns:

CollectionX with elements generated via nested iteration

forEach4

default <R1,R2,R3,R> PersistentQueueX<R> forEach4(java.util.function.Function<? super T,? extends java.lang.Iterable<R1>> stream1,
                                                  java.util.function.BiFunction<? super T,? super R1,? extends java.lang.Iterable<R2>> stream2,
                                                  Fn3<? super T,? super R1,? super R2,? extends java.lang.Iterable<R3>> stream3,
                                                  Fn4<? super T,? super R1,? super R2,? super R3,java.lang.Boolean> filterFunction,
                                                  Fn4<? super T,? super R1,? super R2,? super R3,? extends R> yieldingFunction)

Description copied from interface: CollectionX

Perform a three level nested internal iteration over this Stream and the supplied streams

  
  //collectionX [1,2,3]
  
 collectionX.forEach4(a->ListX.range(10,13),
                     (a,b)->ListX.of(""+(a+b),"hello world"),
                     (a,b,c)->ListX.of(a,b,c),
                     (a,b,c,d)-> c!=3,
                      (a,b,c)->c+":"a+":"+b);
                                  
 
  
 
 

Specified by:

forEach4 in interface CollectionX<T>

Parameters:

stream1 - Nested Stream toNested iterate over

stream2 - Nested Stream toNested iterate over

stream3 - Nested Stream toNested iterate over

filterFunction - Filter toNested apply over elements before passing non-filtered values toNested the yielding function

yieldingFunction - Function with pointers toNested the current element from both Streams that generates the new elements

Returns:

CollectionX with elements generated via nested iteration

forEach3

default <R1,R2,R> PersistentQueueX<R> forEach3(java.util.function.Function<? super T,? extends java.lang.Iterable<R1>> stream1,
                                               java.util.function.BiFunction<? super T,? super R1,? extends java.lang.Iterable<R2>> stream2,
                                               Fn3<? super T,? super R1,? super R2,? extends R> yieldingFunction)

Description copied from interface: CollectionX

Perform a three level nested internal iteration over this Stream and the supplied streams

  
   
   //collectionX [1,2]
   
   collectionX.forEach3(a->IntStream.range(10,13),
                        (a,b)->Stream.of(""+(a+b),"hello world"),
                        (a,b,c)->c+":"a+":"+b);
                                  
 
  //CollectionX[11:1:2,hello world:1:2,14:1:4,hello world:1:4,12:1:2,hello world:1:2,15:1:5,hello world:1:5]
 
 

Specified by:

forEach3 in interface CollectionX<T>

Parameters:

stream1 - Nested Stream toNested iterate over

stream2 - Nested Stream toNested iterate over

yieldingFunction - Function with pointers toNested the current element from both Streams that generates the new elements

Returns:

ReactiveSeq with elements generated via nested iteration

forEach3

default <R1,R2,R> PersistentQueueX<R> forEach3(java.util.function.Function<? super T,? extends java.lang.Iterable<R1>> stream1,
                                               java.util.function.BiFunction<? super T,? super R1,? extends java.lang.Iterable<R2>> stream2,
                                               Fn3<? super T,? super R1,? super R2,java.lang.Boolean> filterFunction,
                                               Fn3<? super T,? super R1,? super R2,? extends R> yieldingFunction)

Description copied from interface: CollectionX

Perform a three level nested internal iteration over this Stream and the supplied streams

  
  //collectionX [1,2,3]
  
 collectionX.forEach3(a->ListX.range(10,13),
                     (a,b)->Stream.of(""+(a+b),"hello world"),
                     (a,b,c)-> c!=3,
                      (a,b,c)->c+":"a+":"+b);
                                  
 
  //CollectionX[11:1:2,hello world:1:2,14:1:4,hello world:1:4,12:1:2,hello world:1:2,15:1:5,hello world:1:5]
 
 

Specified by:

forEach3 in interface CollectionX<T>

Parameters:

stream1 - Nested Stream toNested iterate over

stream2 - Nested Stream toNested iterate over

filterFunction - Filter toNested apply over elements before passing non-filtered values toNested the yielding function

yieldingFunction - Function with pointers toNested the current element from both Streams that generates the new elements

Returns:

ReactiveSeq with elements generated via nested iteration

forEach2

default <R1,R> PersistentQueueX<R> forEach2(java.util.function.Function<? super T,? extends java.lang.Iterable<R1>> stream1,
                                            java.util.function.BiFunction<? super T,? super R1,? extends R> yieldingFunction)

Description copied from interface: CollectionX

Perform a two level nested internal iteration over this Stream and the supplied reactiveStream

  
  //collectionX [1,2,3]
  
 collectionX.of(1,2,3).forEach2(a->ListX.range(10,13),
                                (a,b)->a+b);
                                  
 
  //ReactiveSeq[11,14,12,15,13,16]
 
 

Specified by:

forEach2 in interface CollectionX<T>

Parameters:

stream1 - Nested Iterable toNested iterate over

yieldingFunction - Function with pointers toNested the current element from both Streams that generates the new elements

Returns:

ReactiveSeq with elements generated via nested iteration

forEach2

default <R1,R> PersistentQueueX<R> forEach2(java.util.function.Function<? super T,? extends java.lang.Iterable<R1>> stream1,
                                            java.util.function.BiFunction<? super T,? super R1,java.lang.Boolean> filterFunction,
                                            java.util.function.BiFunction<? super T,? super R1,? extends R> yieldingFunction)

Description copied from interface: CollectionX

Perform a two level nested internal iteration over this Stream and the supplied reactiveStream

  
 
 //collectionX [1,2,3]
  
 collectionX.of(1,2,3).forEach2(a->ListX.range(10,13),
                                  (a,b)-> a<3 && b>10,
                                  (a,b)->a+b);
                                  
 
  //CollectionX[14,15]
 
 

Specified by:

forEach2 in interface CollectionX<T>

Parameters:

stream1 - Nested Stream toNested iterate over

filterFunction - Filter toNested apply over elements before passing non-filtered values toNested the yielding function

yieldingFunction - Function with pointers toNested the current element from both Streams that generates the new elements

Returns:

ReactiveSeq with elements generated via nested iteration

take

default PersistentQueueX<T> take(long num)

Description copied from interface: Traversable

  assertThat(ReactiveSeq.of(4,3,6,7).take(2).toList(),equalTo(Arrays.asList(4,3));
 

Specified by:

take in interface CollectionX<T>

Specified by:

take in interface Traversable<T>

Parameters:

num - Limit element size toNested num

Returns:

Monad converted toNested Stream with elements up toNested num

drop

default PersistentQueueX<T> drop(long num)

Description copied from interface: Traversable

  assertThat(ReactiveSeq.of(4,3,6,7).drop(2).toList(),equalTo(Arrays.asList(6,7))); 
 

Specified by:

drop in interface CollectionX<T>

Specified by:

drop in interface Traversable<T>

Parameters:

num - Number of elemenets toNested drop

Returns:

Traversable with specified number of elements skipped

combine

default PersistentQueueX<T> combine(java.util.function.BiPredicate<? super T,? super T> predicate,
                                    java.util.function.BinaryOperator<T> op)

Combine two adjacent elements in a PersistentQueueX using the supplied BinaryOperator This is a stateful grouping & reduction operation. The emitted of a combination may in turn be combined with it's neighbor

  
  PersistentQueueX.of(1,1,2,3)
                   .combine((a, b)->a.equals(b),Semigroups.intSum)
                   .listX()
                   
  //ListX(3,4) 
 
 

Specified by:

combine in interface CollectionX<T>

Specified by:

combine in interface LazyCollectionX<T>

Specified by:

combine in interface Traversable<T>

Parameters:

predicate - Test toNested see if two neighbors should be joined

op - Reducer toNested combine neighbors

Returns:

Combined / Partially Reduced PersistentQueueX

combine

default PersistentQueueX<T> combine(Monoid<T> op,
                                    java.util.function.BiPredicate<? super T,? super T> predicate)

Description copied from interface: Traversable

Combine two adjacent elements in a traversable using the supplied BinaryOperator This is a stateful grouping and reduction operation. The emitted of a combination may in turn be combined with it's neighbour

 
  ReactiveSeq.of(1,1,2,3)
                  .combine(Monoids.intMult,(a, b)->a.equals(b))
                  .listX()

  //ListX(1)
 

Simalar toNested @see Traversable.combine(BiPredicate, BinaryOperator) but differs in that the first comparison is always toNested the Monoid zero This allows us toNested terminate with just a single value

Specified by:

combine in interface Traversable<T>

Parameters:

op - Monoid toNested combine neighbours

predicate - Test toNested see if two neighbours should be joined. The first parameter toNested the bi-predicate is the currently accumulated result and the second is the next element

Returns:

Combined / Partially Reduced Traversable

unit

default <R> PersistentQueueX<R> unit(java.util.Collection<R> col)

Description copied from interface: FluentCollectionX

Create a new instance of the same colleciton type from the supplied collection

Specified by:

unit in interface FluentCollectionX<T>

Parameters:

col - Collection data to populate the new collection

Returns:

Collection as the same type as this collection

unit

default <R> PersistentQueueX<R> unit(R value)

Specified by:

unit in interface CollectionX<T>

Specified by:

unit in interface Unit<T>

unitIterator

default <R> PersistentQueueX<R> unitIterator(java.util.Iterator<R> it)

Description copied from interface: Traversable

Create an IterableFunctor instance of the same type from an Iterator

 
       ReactiveSeq<Integer> newSeq = seq.unitIterable(myIterator);

 
 

Specified by:

unitIterator in interface Traversable<T>

Parameters:

it - Iterator toNested create new IterableFunctor from

Returns:

New IterableFunctor instance

emptyUnit

default <R> PersistentQueueX<R> emptyUnit()

materialize

default PersistentQueueX<T> materialize()

Specified by:

materialize in interface CollectionX<T>

stream

default ReactiveSeq<T> stream()

Specified by:

stream in interface java.util.Collection<T>

Specified by:

stream in interface CollectionX<T>

Specified by:

stream in interface ExtendedTraversable<T>

Specified by:

stream in interface FoldableTraversable<T>

Specified by:

stream in interface Folds<T>

Specified by:

stream in interface Sequential<T>

Specified by:

stream in interface TransformerTraversable<T>

Specified by:

stream in interface Traversable<T>

Returns:

This Traversable converted toNested a Stream

toPSet

default org.pcollections.PQueue<T> toPSet()

from

default <X> PersistentQueueX<X> from(java.util.Collection<X> col)

Description copied from interface: CollectionX

Conctruct an Extended Collection from a standard Collection

Specified by:

from in interface CollectionX<T>

Parameters:

col - Collection toNested extend

Returns:

Extended Collection

monoid

default <T> Reducer<org.pcollections.PQueue<T>> monoid()

plus

PersistentQueueX<T> plus(T e)

Description copied from interface: FluentCollectionX

Add an element to this Collection

Specified by:

plus in interface FluentCollectionX<T>

Specified by:

plus in interface LazyCollectionX<T>

Specified by:

plus in interface org.pcollections.PCollection<T>

Specified by:

plus in interface org.pcollections.PQueue<T>

Parameters:

e - Element to add

Returns:

Collection with element added

plusAll

PersistentQueueX<T> plusAll(java.util.Collection<? extends T> list)

Description copied from interface: FluentCollectionX

Add all supplied elements to this Collection

Specified by:

plusAll in interface FluentCollectionX<T>

Specified by:

plusAll in interface LazyCollectionX<T>

Specified by:

plusAll in interface org.pcollections.PCollection<T>

Specified by:

plusAll in interface org.pcollections.PQueue<T>

Parameters:

list - of elements to add

Returns:

Collection with elements added

minus

PersistentQueueX<T> minus()

Specified by:

minus in interface org.pcollections.PQueue<T>

minus

PersistentQueueX<T> minus(java.lang.Object e)

Description copied from interface: FluentCollectionX

Remove the specified element from this collection

Specified by:

minus in interface FluentCollectionX<T>

Specified by:

minus in interface LazyCollectionX<T>

Specified by:

minus in interface org.pcollections.PCollection<T>

Specified by:

minus in interface org.pcollections.PQueue<T>

Parameters:

e - Element to remove

Returns:

Collection with element removed

minusAll

PersistentQueueX<T> minusAll(java.util.Collection<?> list)

Description copied from interface: FluentCollectionX

Remove all the specified elements from this collection

Specified by:

minusAll in interface FluentCollectionX<T>

Specified by:

minusAll in interface LazyCollectionX<T>

Specified by:

minusAll in interface org.pcollections.PCollection<T>

Specified by:

minusAll in interface org.pcollections.PQueue<T>

Parameters:

list - of elements to remove

Returns:

Collection with the elements removed

reverse

default PersistentQueueX<T> reverse()

Description copied from interface: Traversable

Potentially efficient Stream reversal. Is efficient if - Sequence created via a range - Sequence created via a List - Sequence created via an Array / var args Otherwise Sequence collected into a Collection prior toNested reversal

  assertThat( of(1, 2, 3).reverse().toList(),
 equalTo(asList(3, 2, 1)));  

Specified by:

reverse in interface CollectionX<T>

Specified by:

reverse in interface LazyCollectionX<T>

Specified by:

reverse in interface Traversable<T>

filter

default PersistentQueueX<T> filter(java.util.function.Predicate<? super T> pred)

Description copied from interface: Filters

Keep only elements for which the supplied predicates hold e.g.

  
   
     of(1,2,3).filter(i->i>2);
     
     //[3]
   
 
 

Specified by:

filter in interface CollectionX<T>

Specified by:

filter in interface FilterableTransformable<T>

Specified by:

filter in interface Filters<T>

Specified by:

filter in interface LazyCollectionX<T>

Parameters:

pred - toNested filter elements by, retaining matches

Returns:

Filters with elements removed where the predicate does not hold

map

default <R> PersistentQueueX<R> map(java.util.function.Function<? super T,? extends R> mapper)

Description copied from interface: Transformable

Transform this functor using the supplied transformation function

 


    of(1,2,3).map(i->i*2)

    //[2,4,6]

 
 

Specified by:

map in interface CollectionX<T>

Specified by:

map in interface FilterableTransformable<T>

Specified by:

map in interface LazyCollectionX<T>

Specified by:

map in interface Transformable<T>

Parameters:

mapper - Transformation function

Returns:

Transformed Transformable

flatMap

default <R> PersistentQueueX<R> flatMap(java.util.function.Function<? super T,? extends java.lang.Iterable<? extends R>> mapper)

Description copied from interface: CollectionX

Perform a flatMap operation on this collection. Results from the returned Iterables (from the provided transformation function) are flattened into the resulting collection.

Specified by:

flatMap in interface CollectionX<T>

Specified by:

flatMap in interface LazyCollectionX<T>

Parameters:

mapper - Transformation function toNested be applied (and flattened)

Returns:

A collection containing the flattened results of the transformation function

limit

default PersistentQueueX<T> limit(long num)

Description copied from interface: Traversable

  assertThat(ReactiveSeq.of(4,3,6,7).limit(2).toList(),equalTo(Arrays.asList(4,3));
 

Specified by:

limit in interface CollectionX<T>

Specified by:

limit in interface LazyCollectionX<T>

Specified by:

limit in interface Traversable<T>

Parameters:

num - Limit element size toNested num

Returns:

Monad converted toNested Stream with elements up toNested num

skip

default PersistentQueueX<T> skip(long num)

Description copied from interface: Traversable

  assertThat(ReactiveSeq.of(4,3,6,7).skip(2).toList(),equalTo(Arrays.asList(6,7))); 
 

Specified by:

skip in interface CollectionX<T>

Specified by:

skip in interface LazyCollectionX<T>

Specified by:

skip in interface Traversable<T>

Parameters:

num - Number of elemenets toNested skip

Returns:

Stream with specified number of elements skipped

takeRight

default PersistentQueueX<T> takeRight(int num)

Description copied from interface: Traversable

Generate a new Traversable that takes the specified number elements from the take of this Traversable

  
     ListX.of(1,2,3).takeRight(2);
     //[2,3]
 
 

Specified by:

takeRight in interface CollectionX<T>

Specified by:

takeRight in interface LazyCollectionX<T>

Specified by:

takeRight in interface Traversable<T>

Parameters:

num - Take this number of elements from the take of this Traversable

Returns:

Traversable generated by application of the predicate toNested the elements in this Traversable in order

dropRight

default PersistentQueueX<T> dropRight(int num)

Description copied from interface: Traversable

Generate a new Traversable that drops the specified number elements from the take of this Traversable

  
     ListX.of(1,2,3).dropRight(2);
     //[1]
 
 

Specified by:

dropRight in interface CollectionX<T>

Specified by:

dropRight in interface LazyCollectionX<T>

Specified by:

dropRight in interface Traversable<T>

Parameters:

num - Drop this number of elements from the take of this Traversable

Returns:

Traversable generated by application of the predicate toNested the elements in this Traversable in order

takeWhile

default PersistentQueueX<T> takeWhile(java.util.function.Predicate<? super T> p)

Description copied from interface: Traversable

Generate a new Traversable that takes elements from this Traversable as long as the predicate holds

  
     ListX.of(1,2,3).takeWhile(i<3);
     //[1,2]
 
 

Specified by:

takeWhile in interface CollectionX<T>

Specified by:

takeWhile in interface LazyCollectionX<T>

Specified by:

takeWhile in interface Traversable<T>

Parameters:

p - Predicate toNested determine when values should be taken

Returns:

Traversable generated by application of the predicate toNested the elements in this Traversable in order

dropWhile

default PersistentQueueX<T> dropWhile(java.util.function.Predicate<? super T> p)

Description copied from interface: Traversable

Generate a new Traversable that drops elements from this Traversable as long as the predicate holds

  
     ListX.of(1,2,3).dropWhile(i<3);
     //[3]
 
 

Specified by:

dropWhile in interface CollectionX<T>

Specified by:

dropWhile in interface LazyCollectionX<T>

Specified by:

dropWhile in interface Traversable<T>

Parameters:

p - Predicate toNested determine when values should be dropped

Returns:

Traversable generated by application of the predicate toNested the elements in this Traversable in order

takeUntil

default PersistentQueueX<T> takeUntil(java.util.function.Predicate<? super T> p)

Description copied from interface: Traversable

Generate a new Traversable that takes elements from this Traversable until the predicate holds

  
     ListX.of(1,2,3).takeUntil(i<2);
     //[1,2]
 
 

Specified by:

takeUntil in interface CollectionX<T>

Specified by:

takeUntil in interface LazyCollectionX<T>

Specified by:

takeUntil in interface Traversable<T>

Parameters:

p - Predicate toNested determine when values should be taken until

Returns:

Traversable generated by application of the predicate toNested the elements in this Traversable in order

dropUntil

default PersistentQueueX<T> dropUntil(java.util.function.Predicate<? super T> p)

Description copied from interface: Traversable

Generate a new Traversable that drops elements from this Traversable until the predicate holds

  
     ListX.of(1,2,3).dropUntil(i>2);
     //[3]
 
 

Specified by:

dropUntil in interface CollectionX<T>

Specified by:

dropUntil in interface LazyCollectionX<T>

Specified by:

dropUntil in interface Traversable<T>

Parameters:

p - Predicate toNested determine when values should be dropped

Returns:

Traversable generated by application of the predicate toNested the elements in this Traversable in order

trampoline

default <R> PersistentQueueX<R> trampoline(java.util.function.Function<? super T,? extends Trampoline<? extends R>> mapper)

Description copied from interface: Transformable

Performs a map operation that can call a recursive method without running out of stack space

 
 ReactiveSeq.of(10,20,30,40)
    			 .trampoline(i-> fibonacci(i))
    			 .forEach(System.out::println);

    	Trampoline<Long> fibonacci(int i){
    		return fibonacci(i,1,0);
    	}
    	Trampoline<Long> fibonacci(int n, long a, long b) {
        	return n == 0 ? Trampoline.done(b) : Trampoline.more( ()->fibonacci(n-1, a+b, a));
    	}

 55
    	6765
    	832040
    	102334155


 ReactiveSeq.of(10_000,200_000,3_000_000,40_000_000)
    			 .trampoline(i-> fibonacci(i))
    			 .forEach(System.out::println);


 completes successfully
 
 

Specified by:

trampoline in interface CollectionX<T>

Specified by:

trampoline in interface LazyCollectionX<T>

Specified by:

trampoline in interface Transformable<T>

Parameters:

mapper - TCO Transformation function

Returns:

Transformable transformed by the supplied transformation function

slice

default PersistentQueueX<T> slice(long from,
                                  long to)

Specified by:

slice in interface CollectionX<T>

Specified by:

slice in interface LazyCollectionX<T>

Specified by:

slice in interface Traversable<T>

sorted

default <U extends java.lang.Comparable<? super U>> PersistentQueueX<T> sorted(java.util.function.Function<? super T,? extends U> function)

Specified by:

sorted in interface CollectionX<T>

Specified by:

sorted in interface LazyCollectionX<T>

Specified by:

sorted in interface Traversable<T>

grouped

default PersistentQueueX<ListX<T>> grouped(int groupSize)

Description copied from interface: Traversable

Group elements in a Stream

 
  List<List<Integer>> list = ReactiveSeq.of(1, 2, 3, 4, 5, 6).grouped(3).collect(CyclopsCollectors.toList());
 
  assertThat(list.get(0), hasItems(1, 2, 3));
  assertThat(list.get(1), hasItems(4, 5, 6));
 
 
 

Specified by:

grouped in interface CollectionX<T>

Specified by:

grouped in interface LazyCollectionX<T>

Specified by:

grouped in interface Traversable<T>

Parameters:

groupSize - Size of each Group

Returns:

Stream with elements grouped by size

grouped

default <K,A,D> PersistentQueueX<org.jooq.lambda.tuple.Tuple2<K,D>> grouped(java.util.function.Function<? super T,? extends K> classifier,
                                                                            java.util.stream.Collector<? super T,A,D> downstream)

Description copied from interface: Traversable

Group this Traversable by the provided classifying function and collected by the provided Collector

Specified by:

grouped in interface CollectionX<T>

Specified by:

grouped in interface LazyCollectionX<T>

Specified by:

grouped in interface Traversable<T>

Parameters:

classifier - Grouping function

downstream - Collector toNested create the grouping collection

Returns:

Traversable of grouped data

grouped

default <K> PersistentQueueX<org.jooq.lambda.tuple.Tuple2<K,ReactiveSeq<T>>> grouped(java.util.function.Function<? super T,? extends K> classifier)

Description copied from interface: Traversable

Group this Traversable by the provided classifying function and collected by the provided Collector

Specified by:

grouped in interface CollectionX<T>

Specified by:

grouped in interface LazyCollectionX<T>

Specified by:

grouped in interface Traversable<T>

Parameters:

classifier - Grouping function

Returns:

Traversable of grouped data

zip

default <U> PersistentQueueX<org.jooq.lambda.tuple.Tuple2<T,U>> zip(java.lang.Iterable<? extends U> other)

Description copied from interface: CollectionX

Zip (merge) this collection with the supplied Iterable into a Colleciton containing Tuples Each Tuple contains one element from this collection and one from the other

Specified by:

zip in interface CollectionX<T>

Specified by:

zip in interface LazyCollectionX<T>

Specified by:

zip in interface Zippable<T>

Parameters:

other - Collection toNested merge with this one

Returns:

Merged collection

zip

default <U,R> PersistentQueueX<R> zip(java.lang.Iterable<? extends U> other,
                                      java.util.function.BiFunction<? super T,? super U,? extends R> zipper)

Description copied from interface: Zippable

Zip (combine) this Zippable with the supplied Iterable using the supplied combining function

Specified by:

zip in interface CollectionX<T>

Specified by:

zip in interface LazyCollectionX<T>

Specified by:

zip in interface Traversable<T>

Specified by:

zip in interface Zippable<T>

Parameters:

other - toNested zip with

zipper - Zip function

Returns:

Combined zippable

zipS

default <U,R> PersistentQueueX<R> zipS(java.util.stream.Stream<? extends U> other,
                                       java.util.function.BiFunction<? super T,? super U,? extends R> zipper)

Description copied from interface: Zippable

Zip (combine) this Zippable with the supplied Stream, using the supplied combining function

Specified by:

zipS in interface CollectionX<T>

Specified by:

zipS in interface LazyCollectionX<T>

Specified by:

zipS in interface Zippable<T>

Parameters:

other - Stream toNested combine with

zipper - Zip / combining function

Returns:

Combined zippable

permutations

default PersistentQueueX<ReactiveSeq<T>> permutations()

Description copied from interface: ExtendedTraversable

Generate the permutations based on values in the ExtendedTraversable.

Specified by:

permutations in interface CollectionX<T>

Specified by:

permutations in interface ExtendedTraversable<T>

Specified by:

permutations in interface LazyCollectionX<T>

Returns:

Permutations from this ExtendedTraversable

combinations

default PersistentQueueX<ReactiveSeq<T>> combinations(int size)

Description copied from interface: ExtendedTraversable

Generate the combinations based on values in the ExtendedTraversable.

 
   ExtendedTraversable<Integer> reactiveStream = ReactiveSeq.of(1,2,3);
   reactiveStream.combinations(2)
   
   //ReactiveSeq[ReactiveSeq[1,2],ReactiveSeq[1,3],ReactiveSeq[2,3]]
 
 

Specified by:

combinations in interface CollectionX<T>

Specified by:

combinations in interface ExtendedTraversable<T>

Specified by:

combinations in interface LazyCollectionX<T>

Parameters:

size - of combinations

Returns:

All combinations of the elements in this ExtendedTraversable of the specified size

combinations

default PersistentQueueX<ReactiveSeq<T>> combinations()

Description copied from interface: ExtendedTraversable

Generate the combinations based on values in the ExtendedTraversable.

 
   ReactiveSeq.of(1,2,3).combinations()
   
   //ReactiveSeq[ReactiveSeq[],ReactiveSeq[1],ReactiveSeq[2],ReactiveSeq[3].ReactiveSeq[1,2],ReactiveSeq[1,3],ReactiveSeq[2,3]
   			,ReactiveSeq[1,2,3]]
 
 

Specified by:

combinations in interface CollectionX<T>

Specified by:

combinations in interface ExtendedTraversable<T>

Specified by:

combinations in interface LazyCollectionX<T>

Returns:

All combinations of the elements in this ExtendedTraversable

sliding

default PersistentQueueX<VectorX<T>> sliding(int windowSize)

Description copied from interface: Traversable

Create a sliding view over this Sequence

 
  List<List<Integer>> list = ReactiveSeq.of(1, 2, 3, 4, 5, 6).sliding(2).collect(CyclopsCollectors.toList());
 
  assertThat(list.get(0), hasItems(1, 2));
  assertThat(list.get(1), hasItems(2, 3));
 
 
 
 

Specified by:

sliding in interface CollectionX<T>

Specified by:

sliding in interface LazyCollectionX<T>

Specified by:

sliding in interface Traversable<T>

Parameters:

windowSize - Size of sliding window

Returns:

SequenceM with sliding view

sliding

default PersistentQueueX<VectorX<T>> sliding(int windowSize,
                                             int increment)

Description copied from interface: Traversable

Create a sliding view over this Sequence

 
  List<List<Integer>> list = ReactiveSeq.of(1, 2, 3, 4, 5, 6).sliding(3, 2).collect(CyclopsCollectors.toList());
 
  assertThat(list.get(0), hasItems(1, 2, 3));
  assertThat(list.get(1), hasItems(3, 4, 5));     
 
 
 
 
 

Specified by:

sliding in interface CollectionX<T>

Specified by:

sliding in interface LazyCollectionX<T>

Specified by:

sliding in interface Traversable<T>

Parameters:

windowSize - number of elements in each batch

increment - for each window

Returns:

SequenceM with sliding view

scanLeft

default PersistentQueueX<T> scanLeft(Monoid<T> monoid)

Description copied from interface: Traversable

Scan left using supplied Monoid

   
 
 	assertEquals(asList("", "a", "ab", "abc"),ReactiveSeq.of("a", "b", "c")
 													.scanLeft(Reducers.toString("")).toList());
         
         
 

Specified by:

scanLeft in interface CollectionX<T>

Specified by:

scanLeft in interface LazyCollectionX<T>

Specified by:

scanLeft in interface Traversable<T>

Returns:

scanLeft

default <U> PersistentQueueX<U> scanLeft(U seed,
                                         java.util.function.BiFunction<? super U,? super T,? extends U> function)

Description copied from interface: Traversable

Scan left

  
  assertThat(of("a", "b", "c").scanLeft("", String::concat).toList().size(),
         		is(4));
 
 

Specified by:

scanLeft in interface CollectionX<T>

Specified by:

scanLeft in interface LazyCollectionX<T>

Specified by:

scanLeft in interface Traversable<T>

scanRight

default PersistentQueueX<T> scanRight(Monoid<T> monoid)

Description copied from interface: Traversable

Scan right

  
 assertThat(of("a", "b", "c").scanRight(Monoid.of("", String::concat)).toList().size(),
             is(asList("", "c", "bc", "abc").size()));
 
 

Specified by:

scanRight in interface CollectionX<T>

Specified by:

scanRight in interface LazyCollectionX<T>

Specified by:

scanRight in interface Traversable<T>

scanRight

default <U> PersistentQueueX<U> scanRight(U identity,
                                          java.util.function.BiFunction<? super T,? super U,? extends U> combiner)

Description copied from interface: Traversable

Scan right

  
 assertThat(of("a", "ab", "abc").map(str->str.length()).scanRight(0, (t, u) -> u + t).toList().size(),
             is(asList(0, 3, 5, 6).size()));
 
 
 

Specified by:

scanRight in interface CollectionX<T>

Specified by:

scanRight in interface LazyCollectionX<T>

Specified by:

scanRight in interface Traversable<T>

plusInOrder

default PersistentQueueX<T> plusInOrder(T e)

Description copied from interface: FluentCollectionX

Add an element to the collection

Specified by:

plusInOrder in interface FluentCollectionX<T>

Parameters:

e - Element to add

Returns:

Collection with element added

cycle

default PersistentQueueX<T> cycle(long times)

Description copied from interface: Traversable

Convert toNested a Stream with the values repeated specified times

  
 		ReactiveSeq.of(1,2,2)
 								.cycle(3)
 								.collect(CyclopsCollectors.toList());
 								
 		//List[1,2,2,1,2,2,1,2,2]
 
 
 

Specified by:

cycle in interface CollectionX<T>

Specified by:

cycle in interface LazyCollectionX<T>

Specified by:

cycle in interface Traversable<T>

Parameters:

times - Times values should be repeated within a Stream

Returns:

Stream with values repeated

cycle

default PersistentQueueX<T> cycle(Monoid<T> m,
                                  long times)

Description copied from interface: Traversable

Convert toNested a Stream with the result of a reduction operation repeated specified times

  
   List<Integer> list = ReactiveSeq.of(1,2,2))
                                 .cycle(Reducers.toCountInt(),3)
                                 .collect(CyclopsCollectors.toList());
   //List[3,3,3];
   
 

Specified by:

cycle in interface CollectionX<T>

Specified by:

cycle in interface LazyCollectionX<T>

Specified by:

cycle in interface Traversable<T>

Parameters:

m - Monoid toNested be used in reduction

times - Number of times value should be repeated

Returns:

Stream with reduced values repeated

cycleWhile

default PersistentQueueX<T> cycleWhile(java.util.function.Predicate<? super T> predicate)

Description copied from interface: Traversable

Repeat in a Stream while specified predicate holds

 
  MutableInt count = MutableInt.of(0);
  ReactiveSeq.of(1, 2, 2).cycleWhile(next -> count++ < 6).collect(CyclopsCollectors.toList());
 
  // List(1,2,2,1,2,2)
 
 

Specified by:

cycleWhile in interface CollectionX<T>

Specified by:

cycleWhile in interface LazyCollectionX<T>

Specified by:

cycleWhile in interface Traversable<T>

Parameters:

predicate - repeat while true

Returns:

Repeating Stream

cycleUntil

default PersistentQueueX<T> cycleUntil(java.util.function.Predicate<? super T> predicate)

Description copied from interface: Traversable

Repeat in a Stream until specified predicate holds

  
 	MutableInt count =MutableInt.of(0);
 		ReactiveSeq.of(1,2,2)
 		 		.cycleUntil(next -> count.get()>6)
 		 		.peek(i-> count.mutate(i->i+1))
 		 		.collect(CyclopsCollectors.toList());
 
 		//List[1,2,2,1,2,2,1]	
 
 

Specified by:

cycleUntil in interface CollectionX<T>

Specified by:

cycleUntil in interface LazyCollectionX<T>

Specified by:

cycleUntil in interface Traversable<T>

Parameters:

predicate - repeat while true

Returns:

Repeating Stream

zipS

default <U> PersistentQueueX<org.jooq.lambda.tuple.Tuple2<T,U>> zipS(java.util.stream.Stream<? extends U> other)

Description copied from interface: Traversable

Zip (combine) this Zippable with the supplied Stream combining both into a Tuple2

Specified by:

zipS in interface CollectionX<T>

Specified by:

zipS in interface LazyCollectionX<T>

Specified by:

zipS in interface Traversable<T>

Specified by:

zipS in interface Zippable<T>

Parameters:

other - Stream toNested combine with

Returns:

Combined Zippable

zip3

default <S,U> PersistentQueueX<org.jooq.lambda.tuple.Tuple3<T,S,U>> zip3(java.lang.Iterable<? extends S> second,
                                                                         java.lang.Iterable<? extends U> third)

Description copied from interface: Traversable

zip 3 Streams into one

 
  List<Tuple3<Integer, Integer, Character>> list = of(1, 2, 3, 4, 5, 6).zip3(of(100, 200, 300, 400), of('a', 'b', 'c')).collect(CyclopsCollectors.toList());
 
  // [[1,100,'a'],[2,200,'b'],[3,300,'c']]
 
 
 

Specified by:

zip3 in interface CollectionX<T>

Specified by:

zip3 in interface LazyCollectionX<T>

Specified by:

zip3 in interface Traversable<T>

Specified by:

zip3 in interface Zippable<T>

zip4

default <T2,T3,T4> PersistentQueueX<org.jooq.lambda.tuple.Tuple4<T,T2,T3,T4>> zip4(java.lang.Iterable<? extends T2> second,
                                                                                   java.lang.Iterable<? extends T3> third,
                                                                                   java.lang.Iterable<? extends T4> fourth)

Description copied from interface: Traversable

zip 4 Streams into 1

 
  List<Tuple4<Integer, Integer, Character, String>> list = of(1, 2, 3, 4, 5, 6).zip4(of(100, 200, 300, 400), of('a', 'b', 'c'), of("hello", "world"))
          .collect(CyclopsCollectors.toList());
 
 
 // [[1,100,'a',"hello"],[2,200,'b',"world"]]
 

Specified by:

zip4 in interface CollectionX<T>

Specified by:

zip4 in interface LazyCollectionX<T>

Specified by:

zip4 in interface Traversable<T>

Specified by:

zip4 in interface Zippable<T>

zipWithIndex

default PersistentQueueX<org.jooq.lambda.tuple.Tuple2<T,java.lang.Long>> zipWithIndex()

Description copied from interface: Traversable

Add an index toNested the current Stream

  
 assertEquals(asList(new Tuple2("a", 0L), new Tuple2("b", 1L)), of("a", "b").zipWithIndex().toList());
 
 

Specified by:

zipWithIndex in interface CollectionX<T>

Specified by:

zipWithIndex in interface LazyCollectionX<T>

Specified by:

zipWithIndex in interface Traversable<T>

distinct

default PersistentQueueX<T> distinct()

Specified by:

distinct in interface CollectionX<T>

Specified by:

distinct in interface LazyCollectionX<T>

Specified by:

distinct in interface Traversable<T>

sorted

default PersistentQueueX<T> sorted()

Description copied from interface: Traversable

  assertThat(ReactiveSeq.of(4,3,6,7)).sorted().toList(),equalTo(Arrays.asList(3,4,6,7))); 
 

Specified by:

sorted in interface CollectionX<T>

Specified by:

sorted in interface LazyCollectionX<T>

Specified by:

sorted in interface Traversable<T>

sorted

default PersistentQueueX<T> sorted(java.util.Comparator<? super T> c)

Description copied from interface: Traversable

  
 	assertThat(ReactiveSeq.of(4,3,6,7).sorted((a,b) -> b-a).toList(),equalTo(Arrays.asList(7,6,4,3)));
 
 

Specified by:

sorted in interface CollectionX<T>

Specified by:

sorted in interface LazyCollectionX<T>

Specified by:

sorted in interface Traversable<T>

Parameters:

c - Compartor toNested sort with

Returns:

Sorted Stream

skipWhile

default PersistentQueueX<T> skipWhile(java.util.function.Predicate<? super T> p)

Description copied from interface: Traversable

SkipWhile drops elements from the Stream while the predicate holds, once the predicte returns true all subsequent elements are included *

 
 assertThat(ReactiveSeq.of(4,3,6,7).sorted().skipWhile(i->i<6).toList(),equalTo(Arrays.asList(6,7)));
 
 

Specified by:

skipWhile in interface CollectionX<T>

Specified by:

skipWhile in interface LazyCollectionX<T>

Specified by:

skipWhile in interface Traversable<T>

Parameters:

p - Predicate toNested skip while true

Returns:

Stream with elements skipped while predicate holds

skipUntil

default PersistentQueueX<T> skipUntil(java.util.function.Predicate<? super T> p)

Description copied from interface: Traversable

Drop elements from the Stream until the predicate returns true, after which all elements are included

  assertThat(ReactiveSeq.of(4,3,6,7).skipUntil(i->i==6).toList(),equalTo(Arrays.asList(6,7)));
 

Specified by:

skipUntil in interface CollectionX<T>

Specified by:

skipUntil in interface LazyCollectionX<T>

Specified by:

skipUntil in interface Traversable<T>

Parameters:

p - Predicate toNested skip until true

Returns:

Stream with elements skipped until predicate holds

limitWhile

default PersistentQueueX<T> limitWhile(java.util.function.Predicate<? super T> p)

Description copied from interface: Traversable

Take elements from the Stream while the predicate holds, once the predicate returns false all subsequent elements are excluded

  assertThat(ReactiveSeq.of(4,3,6,7).sorted().limitWhile(i->i<6).toList(),equalTo(Arrays.asList(3,4)));
 

Specified by:

limitWhile in interface CollectionX<T>

Specified by:

limitWhile in interface LazyCollectionX<T>

Specified by:

limitWhile in interface Traversable<T>

Parameters:

p - Limit while predicate is true

Returns:

Stream with limited elements

limitUntil

default PersistentQueueX<T> limitUntil(java.util.function.Predicate<? super T> p)

Description copied from interface: Traversable

Take elements from the Stream until the predicate returns true, after which all elements are excluded.

  assertThat(ReactiveSeq.of(4,3,6,7).limitUntil(i->i==6).toList(),equalTo(Arrays.asList(4,3))); 
 

Specified by:

limitUntil in interface CollectionX<T>

Specified by:

limitUntil in interface LazyCollectionX<T>

Specified by:

limitUntil in interface Traversable<T>

Parameters:

p - Limit until predicate is true

Returns:

Stream with limited elements

intersperse

default PersistentQueueX<T> intersperse(T value)

Description copied from interface: Traversable

Returns a reactiveStream with a given value interspersed between any two values of this reactiveStream. // (1, 0, 2, 0, 3, 0, 4) ReactiveSeq.of(1, 2, 3, 4).intersperse(0)

Specified by:

intersperse in interface CollectionX<T>

Specified by:

intersperse in interface LazyCollectionX<T>

Specified by:

intersperse in interface Traversable<T>

shuffle

default PersistentQueueX<T> shuffle()

Specified by:

shuffle in interface CollectionX<T>

Specified by:

shuffle in interface LazyCollectionX<T>

Specified by:

shuffle in interface Traversable<T>

skipLast

default PersistentQueueX<T> skipLast(int num)

Description copied from interface: Traversable

assertThat(ReactiveSeq.of(1,2,3,4,5) .skipLast(2) .collect(CyclopsCollectors.toList()),equalTo(Arrays.asList(1,2,3)));

Specified by:

skipLast in interface CollectionX<T>

Specified by:

skipLast in interface LazyCollectionX<T>

Specified by:

skipLast in interface Traversable<T>

Returns:

limitLast

default PersistentQueueX<T> limitLast(int num)

Description copied from interface: Traversable

Limit results toNested the last x elements in a SequenceM

  
 	assertThat(ReactiveSeq.of(1,2,3,4,5)
 							.limitLast(2)
 							.collect(CyclopsCollectors.toList()),equalTo(Arrays.asList(4,5)));
 
 
 

Specified by:

limitLast in interface CollectionX<T>

Specified by:

limitLast in interface LazyCollectionX<T>

Specified by:

limitLast in interface Traversable<T>

Parameters:

num - of elements toNested return (last elements)

Returns:

SequenceM limited toNested last num elements

onEmptySwitch

default PersistentQueueX<T> onEmptySwitch(java.util.function.Supplier<? extends org.pcollections.PQueue<T>> supplier)

Description copied from interface: OnEmptySwitch

Switch toNested container created by provided Supplier, if current Container empty

  
     ListX.empty().onEmptySwitch(()->ListX.of(1));
  
 

Specified by:

onEmptySwitch in interface OnEmptySwitch<T,org.pcollections.PQueue<T>>

Parameters:

supplier - toNested create replacement container

Returns:

Either this container or if empty, an alternative returned by the provided supplier

onEmpty

default PersistentQueueX<T> onEmpty(T value)

Description copied from interface: OnEmpty

If this Container instance is empty, create a new instance containing the provided value

Specified by:

onEmpty in interface CollectionX<T>

Specified by:

onEmpty in interface LazyCollectionX<T>

Specified by:

onEmpty in interface OnEmpty<T>

Specified by:

onEmpty in interface Traversable<T>

Returns:

New instance containing value if container is empty, otherwise returns this container

onEmptyGet

default PersistentQueueX<T> onEmptyGet(java.util.function.Supplier<? extends T> supplier)

Description copied from interface: OnEmpty

If this Container instance is empty, create a new instance containing the value returned from the provided Supplier

Specified by:

onEmptyGet in interface CollectionX<T>

Specified by:

onEmptyGet in interface LazyCollectionX<T>

Specified by:

onEmptyGet in interface OnEmpty<T>

Specified by:

onEmptyGet in interface Traversable<T>

Parameters:

supplier - toNested determine new value for container

Returns:

New Container with value if this is empty, otherwise this container

onEmptyThrow

default <X extends java.lang.Throwable> PersistentQueueX<T> onEmptyThrow(java.util.function.Supplier<? extends X> supplier)

Description copied from interface: OnEmpty

If this container instance is empty, throw the exception returned by the provided Supplier

Specified by:

onEmptyThrow in interface CollectionX<T>

Specified by:

onEmptyThrow in interface LazyCollectionX<T>

Specified by:

onEmptyThrow in interface OnEmpty<T>

Specified by:

onEmptyThrow in interface Traversable<T>

Parameters:

supplier - toNested create exception from

Returns:

Throw exception if empty, otherwise this container

shuffle

default PersistentQueueX<T> shuffle(java.util.Random random)

Specified by:

shuffle in interface CollectionX<T>

Specified by:

shuffle in interface LazyCollectionX<T>

Specified by:

shuffle in interface Traversable<T>

ofType

default <U> PersistentQueueX<U> ofType(java.lang.Class<? extends U> type)

Description copied from interface: Filters

Keep only those elements in a reactiveStream that are of a given type.

  
 
 // (1, 2, 3) ReactiveSeq.of(1, "a", 2, "b",3).ofType(Integer.class)
 
 
 

Specified by:

ofType in interface Filters<T>

Specified by:

ofType in interface LazyCollectionX<T>

filterNot

default PersistentQueueX<T> filterNot(java.util.function.Predicate<? super T> fn)

Description copied from interface: Filters

Remove any elements for which the predicate holds (inverse operation toNested filter) e.g.

  
   
     of(1,2,3).filter(i->i>2);
     
     //[1,2]
   
 
 

Specified by:

filterNot in interface CollectionX<T>

Specified by:

filterNot in interface Filters<T>

Specified by:

filterNot in interface LazyCollectionX<T>

Parameters:

fn - toNested filter elements by, retaining matches

Returns:

Filters with elements removed where the predicate does not hold

notNull

default PersistentQueueX<T> notNull()

Description copied from interface: Filters

Filter elements retaining only values which are not null

  
 
   of(1,2,null,4).nonNull();
 
   //[1,2,4]
   
 
 

Specified by:

notNull in interface CollectionX<T>

Specified by:

notNull in interface Filters<T>

Specified by:

notNull in interface LazyCollectionX<T>

Returns:

Filters with nulls removed

removeAllS

default PersistentQueueX<T> removeAllS(java.util.stream.Stream<? extends T> stream)

Description copied from interface: IterableFilterable

Remove all elements in the supplied Stream from this filterable

Specified by:

removeAllS in interface CollectionX<T>

Specified by:

removeAllS in interface IterableFilterable<T>

Specified by:

removeAllS in interface LazyCollectionX<T>

Parameters:

stream - of elements toNested remove

Returns:

Filters with all supplied elements removed

removeAllI

default PersistentQueueX<T> removeAllI(java.lang.Iterable<? extends T> it)

Description copied from interface: IterableFilterable

Remove all elements in the supplied Iterable from this filterable

Specified by:

removeAllI in interface CollectionX<T>

Specified by:

removeAllI in interface IterableFilterable<T>

Specified by:

removeAllI in interface LazyCollectionX<T>

Parameters:

it - an Iterable of elements toNested remove

Returns:

Filters with all supplied elements removed

removeAll

default PersistentQueueX<T> removeAll(T... values)

Description copied from interface: IterableFilterable

Remove all supplied elements from this filterable

Specified by:

removeAll in interface CollectionX<T>

Specified by:

removeAll in interface IterableFilterable<T>

Specified by:

removeAll in interface LazyCollectionX<T>

Parameters:

values - toNested remove

Returns:

Filters with all supplied values removed

retainAllI

default PersistentQueueX<T> retainAllI(java.lang.Iterable<? extends T> it)

Description copied from interface: IterableFilterable

Retain only the supplied elements in the returned Filters

Specified by:

retainAllI in interface CollectionX<T>

Specified by:

retainAllI in interface IterableFilterable<T>

Specified by:

retainAllI in interface LazyCollectionX<T>

Parameters:

it - Iterable of elements toNested retain

Returns:

Filters with supplied values retained, and others removed

retainAllS

default PersistentQueueX<T> retainAllS(java.util.stream.Stream<? extends T> seq)

Description copied from interface: IterableFilterable

Retain only the supplied elements in the returned Filters

Specified by:

retainAllS in interface CollectionX<T>

Specified by:

retainAllS in interface IterableFilterable<T>

Specified by:

retainAllS in interface LazyCollectionX<T>

Parameters:

seq - of elements toNested retain

Returns:

Filters with supplied values retained, and others removed

retainAll

default PersistentQueueX<T> retainAll(T... values)

Description copied from interface: IterableFilterable

Retain only the supplied elements in the returned Filters

Specified by:

retainAll in interface CollectionX<T>

Specified by:

retainAll in interface IterableFilterable<T>

Specified by:

retainAll in interface LazyCollectionX<T>

Parameters:

values - elements toNested retain

Returns:

Filters with supplied values retained, and others removed

cast

default <U> PersistentQueueX<U> cast(java.lang.Class<? extends U> type)

Description copied from interface: Transformable

Cast all elements in a reactiveStream toNested a given type, possibly throwing a ClassCastException. // ClassCastException ReactiveSeq.of(1, "a", 2, "b", 3).cast(Integer.class)

Specified by:

cast in interface CollectionX<T>

Specified by:

cast in interface LazyCollectionX<T>

Specified by:

cast in interface Transformable<T>

grouped

default <C extends java.util.Collection<? super T>> PersistentQueueX<C> grouped(int size,
                                                                                java.util.function.Supplier<C> supplier)

Description copied from interface: Traversable

Batch elements in a Stream by size into a collection created by the supplied factory

 
 assertThat(ReactiveSeq.of(1,1,1,1,1,1)
                      .batchBySize(3,()->new TreeSet<>())
                      .toList()
                      .get(0)
                      .size(),is(1));
 
 

Specified by:

grouped in interface CollectionX<T>

Specified by:

grouped in interface LazyCollectionX<T>

Specified by:

grouped in interface Traversable<T>

Parameters:

size - batch size

supplier - Collection factory

Returns:

SequenceM batched into collection types by size

groupedUntil

default PersistentQueueX<ListX<T>> groupedUntil(java.util.function.Predicate<? super T> predicate)

Description copied from interface: Traversable

Create a Traversable batched by List, where each batch is populated until the predicate holds

  
  assertThat(ReactiveSeq.of(1,2,3,4,5,6)
              .groupedUntil(i->i%3==0)
              .toList()
              .size(),equalTo(2));
 
 

Specified by:

groupedUntil in interface CollectionX<T>

Specified by:

groupedUntil in interface LazyCollectionX<T>

Specified by:

groupedUntil in interface Traversable<T>

Parameters:

predicate - Batch until predicate holds, apply open next batch

Returns:

SequenceM batched into lists determined by the predicate supplied

groupedStatefullyUntil

default PersistentQueueX<ListX<T>> groupedStatefullyUntil(java.util.function.BiPredicate<ListX<? super T>,? super T> predicate)

Description copied from interface: Traversable

Create Travesable of Lists where each List is populated while the supplied bipredicate holds. The bipredicate recieves the List from the last window as well as the current value and can choose toNested aggregate the current value or create a new window

  
 assertThat(ReactiveSeq.of(1,2,3,4,5,6)
              .groupedStatefullyUntil((s,i)->s.contains(4) ? true : false)
              .toList().size(),equalTo(5));
 
 

Specified by:

groupedStatefullyUntil in interface CollectionX<T>

Specified by:

groupedStatefullyUntil in interface LazyCollectionX<T>

Specified by:

groupedStatefullyUntil in interface Traversable<T>

Parameters:

predicate - Window while true

Returns:

Traversable windowed while predicate holds

groupedWhile

default PersistentQueueX<ListX<T>> groupedWhile(java.util.function.Predicate<? super T> predicate)

Description copied from interface: Traversable

Create a Traversable batched by List, where each batch is populated while the predicate holds

  
 assertThat(ReactiveSeq.of(1,2,3,4,5,6)
              .groupedWhile(i->i%3!=0)
              .toList().size(),equalTo(2));
  
 
 

Specified by:

groupedWhile in interface CollectionX<T>

Specified by:

groupedWhile in interface LazyCollectionX<T>

Specified by:

groupedWhile in interface Traversable<T>

Parameters:

predicate - Batch while predicate holds, apply open next batch

Returns:

SequenceM batched into lists determined by the predicate supplied

groupedWhile

default <C extends java.util.Collection<? super T>> PersistentQueueX<C> groupedWhile(java.util.function.Predicate<? super T> predicate,
                                                                                     java.util.function.Supplier<C> factory)

Description copied from interface: Traversable

Create a SequenceM batched by a Collection, where each batch is populated while the predicate holds

  
 assertThat(ReactiveSeq.of(1,2,3,4,5,6)
              .batchWhile(i->i%3!=0)
              .toList()
              .size(),equalTo(2));
 
 

Specified by:

groupedWhile in interface CollectionX<T>

Specified by:

groupedWhile in interface LazyCollectionX<T>

Specified by:

groupedWhile in interface Traversable<T>

Parameters:

predicate - Batch while predicate holds, apply open next batch

factory - Collection factory

Returns:

SequenceM batched into collections determined by the predicate supplied

groupedUntil

default <C extends java.util.Collection<? super T>> PersistentQueueX<C> groupedUntil(java.util.function.Predicate<? super T> predicate,
                                                                                     java.util.function.Supplier<C> factory)

Description copied from interface: Traversable

Create a ReactiveSeq batched by a Collection, where each batch is populated until the predicate holds

  
  ReactiveSeq.of(1,2,3,4,5,6)
             .groupedUntil(i->i%3!=0)
             .toList()
             
  //2
 
 

Specified by:

groupedUntil in interface CollectionX<T>

Specified by:

groupedUntil in interface LazyCollectionX<T>

Specified by:

groupedUntil in interface Traversable<T>

Parameters:

predicate - Batch until predicate holds, apply open next batch

factory - Collection factory

Returns:

SequenceM batched into collections determined by the predicate supplied

recover

default PersistentQueueX<T> recover(java.util.function.Function<? super java.lang.Throwable,? extends T> fn)

Description copied from interface: Traversable

Recover from an exception with an alternative value

 
 assertThat(ReactiveSeq.of(1,2,3,4)
 						   .map(i->i+2)
 						   .map(u->{throw new RuntimeException();})
 						   .recover(e->"hello")
 						   .firstValue(),equalTo("hello"));
 
 

Specified by:

recover in interface Traversable<T>

Parameters:

fn - Function that accepts a Throwable and returns an alternative value

Returns:

ReactiveSeq that can recover from an Exception

recover

default <EX extends java.lang.Throwable> PersistentQueueX<T> recover(java.lang.Class<EX> exceptionClass,
                                                                     java.util.function.Function<? super EX,? extends T> fn)

Description copied from interface: Traversable

Recover from a particular exception type

 
 assertThat(ReactiveSeq.of(1,2,3,4)
 					.map(i->i+2)
 					.map(u->{ExceptionSoftener.throwSoftenedException( new IOException()); return null;})
 					.recover(IOException.class,e->"hello")
 					.firstValue(),equalTo("hello"));

 
 

Specified by:

recover in interface Traversable<T>

Parameters:

exceptionClass - Type toNested recover from

fn - That accepts an error and returns an alternative value

Returns:

Traversable that can recover from a particular exception

plusLoop

default PersistentQueueX<T> plusLoop(int max,
                                     java.util.function.IntFunction<T> value)

Specified by:

plusLoop in interface FluentCollectionX<T>

plusLoop

default PersistentQueueX<T> plusLoop(java.util.function.Supplier<java.util.Optional<T>> supplier)

Specified by:

plusLoop in interface FluentCollectionX<T>