cyclops.monads.transformers

Class ListT<W extends WitnessType<W>,T>

java.lang.Object

cyclops.monads.transformers.ListT<W,T>

Type Parameters:

T - Type of data stored inside the nested Lists

All Implemented Interfaces:

NestedCollectable<W,T>, NestedFoldable<W,T>, FoldableTransformerSeq<W,T>, TransformerSeq<W,T>, FilterableTransformable<T>, Filters<T>, IterableFilterable<T>, OnEmpty<T>, Sequential<T>, ConvertableSequence<T>, ConvertableToReactiveSeq<T>, ToStream<T>, To<ListT<W,T>>, Transformable<T>, TransformerTraversable<T>, Traversable<T>, Unwrapable, Zippable<T>, java.lang.Iterable<T>, org.reactivestreams.Publisher<T>

public class ListT<W extends WitnessType<W>,T>
extends java.lang.Object
implements To<ListT<W,T>>, FoldableTransformerSeq<W,T>

Monad Transformer for Java Lists nested within Sequential or non-scalar data types (e.g. Lists, Streams etc) ListT allows the deeply wrapped List to be manipulating within it's nested /contained context

Method Summary

Modifier and Type	Method and Description
ListT<W,T>	combine(java.util.function.BiPredicate<? super T,? super T> predicate, java.util.function.BinaryOperator<T> op) Combine two adjacent elements in a traversable using the supplied BinaryOperator This is a stateful grouping and reduction operation.
ListT<W,T>	cycle(long times) Convert to a Stream with the values repeated specified times
ListT<W,T>	cycle(Monoid<T> m, long times) Convert to a Stream with the result of a reduction operation repeated specified times
ListT<W,T>	cycleUntil(java.util.function.Predicate<? super T> predicate) Repeat in a Stream until specified predicate holds
ListT<W,T>	cycleWhile(java.util.function.Predicate<? super T> predicate) Repeat in a Stream while specified predicate holds
ListT<W,T>	distinct()
ListT<W,T>	dropRight(int num) Generate a new Traversable that drops the specified number elements from the take of this Traversable
ListT<W,T>	dropUntil(java.util.function.Predicate<? super T> p) Generate a new Traversable that drops elements from this Traversable until the predicate holds
ListT<W,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
<R> ListT<W,R>	empty()
static <W extends WitnessType<W>,T> ListT<W,T>	emptyList(W witness)
boolean	equals(java.lang.Object o)
ListT<W,T>	filter(java.util.function.Predicate<? super T> test) Filter the wrapped List
<B> ListT<W,B>	flatMap(java.util.function.Function<? super T,? extends java.lang.Iterable<? extends B>> f)
<B> ListT<W,B>	flatMapT(java.util.function.Function<? super T,ListT<W,B>> f) Flat Map the wrapped List
<R1,R> ListT<W,R>	forEach2M(java.util.function.Function<? super T,? extends ListT<W,R1>> value1, java.util.function.BiFunction<? super T,? super R1,? extends R> yieldingFunction)
<R1,R> ListT<W,R>	forEach2M(java.util.function.Function<? super T,? extends ListT<W,R1>> value1, java.util.function.BiFunction<? super T,? super R1,java.lang.Boolean> filterFunction, java.util.function.BiFunction<? super T,? super R1,? extends R> yieldingFunction)
<T2,R1,R2,R> ListT<W,R>	forEach3M(java.util.function.Function<? super T,? extends ListT<W,R1>> value1, java.util.function.BiFunction<? super T,? super R1,? extends ListT<W,R2>> value2, Fn3<? super T,? super R1,? super R2,? extends R> yieldingFunction)
<T2,R1,R2,R> ListT<W,R>	forEach3M(java.util.function.Function<? super T,? extends ListT<W,R1>> value1, java.util.function.BiFunction<? super T,? super R1,? extends ListT<W,R2>> value2, Fn3<? super T,? super R1,? super R2,java.lang.Boolean> filterFunction, Fn3<? super T,? super R1,? super R2,? extends R> yieldingFunction)
<T2,R1,R2,R3,R> ListT<W,R>	forEach4M(java.util.function.Function<? super T,? extends ListT<W,R1>> value1, java.util.function.BiFunction<? super T,? super R1,? extends ListT<W,R2>> value2, Fn3<? super T,? super R1,? super R2,? extends ListT<W,R3>> value3, Fn4<? super T,? super R1,? super R2,? super R3,? extends R> yieldingFunction)
<T2,R1,R2,R3,R> ListT<W,R>	forEach4M(java.util.function.Function<? super T,? extends ListT<W,R1>> value1, java.util.function.BiFunction<? super T,? super R1,? extends ListT<W,R2>> value2, Fn3<? super T,? super R1,? super R2,? extends ListT<W,R3>> value3, 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)
static <W extends WitnessType<W>,A> ListT<W,A>	fromAnyM(AnyM<W,A> anyM) Construct an ListT from an AnyM that contains a monad type that contains type other than List The values in the underlying monad will be mapped to List
static <A> ListT<Witness.list,A>	fromList(java.util.List<? extends FluentSequenceX<A>> nested)
static <A> ListT<Witness.maybe,A>	fromMaybe(Maybe<? extends FluentSequenceX<A>> nested)
static <A> ListT<Witness.optional,A>	fromOptional(java.util.Optional<? extends FluentSequenceX<A>> nested)
static <A> ListT<Witness.set,A>	fromSet(java.util.Set<? extends FluentSequenceX<A>> nested)
static <A> ListT<Witness.stream,A>	fromStream(java.util.stream.Stream<? extends FluentSequenceX<A>> nested)
<K> ListT<W,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
<K,A,D> ListT<W,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
ListT<W,ListX<T>>	grouped(int groupSize) Group elements in a Stream
<C extends java.util.Collection<? super T>> ListT<W,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
ListT<W,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.
ListT<W,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
<C extends java.util.Collection<? super T>> ListT<W,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
ListT<W,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
<C extends java.util.Collection<? super T>> ListT<W,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
int	hashCode()
ListT<W,T>	intersperse(T value) Returns a stream with a given value interspersed between any two values of this stream.
boolean	isSeqPresent()
java.util.Iterator<T>	iterator()
ListT<W,T>	limit(long num) assertThat(ReactiveSeq.of(4,3,6,7).limit(2).toList(),equalTo(Arrays.asList(4,3));
ListT<W,T>	limitLast(int num) Limit results to the last x elements in a SequenceM
ListT<W,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.
ListT<W,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
<B> ListT<W,B>	map(java.util.function.Function<? super T,? extends B> f) Map the wrapped List
AnyM<W,? extends CyclopsCollectable<T>>	nestedCollectables()
AnyM<W,? extends FoldableTraversable<T>>	nestedFoldables()
static <W extends WitnessType<W>,A> ListT<W,A>	of(AnyM<W,? extends FluentSequenceX<A>> monads) Construct an ListT from an AnyM that wraps a monad containing Lists
static <W extends WitnessType<W>,A> ListT<W,A>	ofList(AnyM<W,? extends java.util.List<A>> monads)
ListT<W,T>	onEmpty(T value) If this Container instance is empty, create a new instance containing the provided value
ListT<W,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
<X extends java.lang.Throwable> ListT<W,T>	onEmptyThrow(java.util.function.Supplier<? extends X> supplier) If this container instance is empty, throw the exception returned by the provided Supplier
ListT<W,T>	peek(java.util.function.Consumer<? super T> peek) Peek at the current value of the List
ListT<W,T>	reverse() Potentially efficient Stream reversal.
ListT<W,T>	scanLeft(Monoid<T> monoid) Scan left using supplied Monoid
<U> ListT<W,U>	scanLeft(U seed, java.util.function.BiFunction<? super U,? super T,? extends U> function) Scan left
ListT<W,T>	scanRight(Monoid<T> monoid) Scan right
<U> ListT<W,U>	scanRight(U identity, java.util.function.BiFunction<? super T,? super U,? extends U> combiner) Scan right
ListT<W,T>	shuffle()
ListT<W,T>	shuffle(java.util.Random random)
ListT<W,T>	skip(long num) assertThat(ReactiveSeq.of(4,3,6,7).skip(2).toList(),equalTo(Arrays.asList(6,7)));
ListT<W,T>	skipLast(int num) assertThat(ReactiveSeq.of(1,2,3,4,5) .skipLast(2) .collect(Collectors.toList()),equalTo(Arrays.asList(1,2,3)));
ListT<W,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
ListT<W,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 *
ListT<W,T>	slice(long from, long to)
ListT<W,PVectorX<T>>	sliding(int windowSize) Create a sliding view over this Sequence
ListT<W,PVectorX<T>>	sliding(int windowSize, int increment) Create a sliding view over this Sequence
ListT<W,T>	sorted() assertThat(ReactiveSeq.of(4,3,6,7)).sorted().toList(),equalTo(Arrays.asList(3,4,6,7)));
ListT<W,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)));
<U extends java.lang.Comparable<? super U>> ListT<W,T>	sorted(java.util.function.Function<? super T,? extends U> function)
ReactiveSeq<T>	stream()
ListT<W,T>	takeRight(int num) Generate a new Traversable that takes the specified number elements from the take of this Traversable
ListT<W,T>	takeUntil(java.util.function.Predicate<? super T> p) Generate a new Traversable that takes elements from this Traversable until the predicate holds
ListT<W,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
java.lang.String	toString()
AnyM<W,? extends FoldableTraversable<T>>	transformerStream()
<T> ListT<W,T>	unit(T unit)
<T> ListT<W,T>	unitAnyM(AnyM<W,Traversable<T>> traversable)
<R> ListT<W,R>	unitIterator(java.util.Iterator<R> it) Create an IterableFunctor instance of the same type from an Iterator
AnyM<W,FluentSequenceX<T>>	unwrap() Unwrap a wrapped value
<R> AnyM<W,R>	visit(java.util.function.Function<? super ListX<T>,? extends R> listXFn, java.util.function.Function<? super DequeX<T>,? extends R> dequeXFn, java.util.function.Function<? super PStackX<T>,? extends R> pListFn, java.util.function.Function<? super PVectorX<T>,? extends R> vectorFn)
<R> AnyM<W,R>	visit(java.util.function.Function<? super ListX<T>,? extends R> listXFn, java.util.function.Function<? super PStackX<T>,? extends R> pListFn, java.util.function.Function<? super PVectorX<T>,? extends R> vectorFn) FluentSequenceX types that are not one of ListX, PStackX, PVectorX are converted to ListX types
<R> AnyM<W,R>	visit(java.util.function.Function<? super ListX<T>,? extends R> listXFn, java.util.function.Function<? super PVectorX<T>,? extends R> vectorFn)
<U> ListT<W,org.jooq.lambda.tuple.Tuple2<T,U>>	zip(java.lang.Iterable<? extends U> other) Zip (combine) this Zippable with the supplied Iterable combining both into a Tuple2
<U,R> ListT<W,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
<S,U> ListT<W,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
<T2,T3,T4> ListT<W,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
<U> ListT<W,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
<U,R> ListT<W,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
ListT<W,org.jooq.lambda.tuple.Tuple2<T,java.lang.Long>>	zipWithIndex() Add an index to the current Stream

Methods inherited from class java.lang.Object

clone, finalize, getClass, notify, notifyAll, wait, wait, wait

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

to

Methods inherited from interface com.aol.cyclops2.types.anyM.transformers.FoldableTransformerSeq

headAndTail, visit

Methods inherited from interface com.aol.cyclops2.types.anyM.transformers.TransformerSeq

append, append, deleteBetween, insertAt, insertAtS, prepend, prepend, prependS, subscribe, toDequeX, toListX, toPBagX, toPQueueX, toPSetX, toPStackX, toPVectorX, toQueueX, toSetX

Methods inherited from interface com.aol.cyclops2.types.stream.ConvertableSequence

seq, toFutureStream, toFutureStream, toMapX, toOptional, toPMapX, toPOrderedSetX, toSimpleReact, toSimpleReact, toSortedSetX, toStreamable, toValue

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

drop, mapToDouble, mapToInt, mapToLong, recover, recover, take, traversable

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

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

Methods inherited from interface com.aol.cyclops2.types.stream.ToStream

futureStream, getStreamable, isEmpty, jdkStream, reactiveSeq, reveresedJDKStream, reveresedStream

Methods inherited from interface java.lang.Iterable

forEach, spliterator

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

removeAllS, removeAllS, removeAllS, retainAllS, retainAllS, retainAllS

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

filterNot, notNull, ofType

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

cast, retry, retry, trampoline

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

groupedStatefullyUntilT, groupedT, groupedUntilT, groupedWhileT, slidingT, slidingT

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

fixedDelay, onePer, xPer

Methods inherited from interface com.aol.cyclops2.types.anyM.NestedFoldable

endsWith, endsWithIterable, findFirst, firstValue, foldRight, foldRight, foldRight, foldRightMapToType, forEachXEvents, forEachXWithError, get, groupBy, join, join, join, mapReduce, mapReduce, print, print, printErr, printOut, reduce, reduce, reduce, reduce, reduce, reduce, schedule, scheduleFixedDelay, scheduleFixedRate, single, single, singleOptional, startsWith, startsWithIterable, toConcurrentLazyCollection, toConcurrentLazyStreamable, toLazyCollection

Methods inherited from interface com.aol.cyclops2.types.anyM.NestedCollectable

allMatch, anyMatch, collect, collect, futureT, listT, noneMatch, toListOfLists, toNestedListX, toNestedSetX, toSetOfSets

Method Detail

visit

public <R> AnyM<W,R> visit(java.util.function.Function<? super ListX<T>,? extends R> listXFn,
                           java.util.function.Function<? super PStackX<T>,? extends R> pListFn,
                           java.util.function.Function<? super PVectorX<T>,? extends R> vectorFn)

FluentSequenceX types that are not one of ListX, PStackX, PVectorX are converted to ListX types

Parameters:

listXFn -

pListFn -

vectorFn -

Returns:

visit

public <R> AnyM<W,R> visit(java.util.function.Function<? super ListX<T>,? extends R> listXFn,
                           java.util.function.Function<? super DequeX<T>,? extends R> dequeXFn,
                           java.util.function.Function<? super PStackX<T>,? extends R> pListFn,
                           java.util.function.Function<? super PVectorX<T>,? extends R> vectorFn)

visit

public <R> AnyM<W,R> visit(java.util.function.Function<? super ListX<T>,? extends R> listXFn,
                           java.util.function.Function<? super PVectorX<T>,? extends R> vectorFn)

unwrap

public AnyM<W,FluentSequenceX<T>> unwrap()

Description copied from interface: Unwrapable

Unwrap a wrapped value

Specified by:

unwrap in interface Unwrapable

Returns:

The wrapped AnyM

peek

public ListT<W,T> peek(java.util.function.Consumer<? super T> peek)

Peek at the current value of the List

  
    ListT.of(AnyM.fromStream(Arrays.asList(10))
             .peek(System.out::println);
             
     //prints 10        
 
 

Specified by:

peek in interface Transformable<T>

Parameters:

peek - Consumer to accept current value of List

Returns:

ListT with peek call

filter

public ListT<W,T> filter(java.util.function.Predicate<? super T> test)

Filter the wrapped List

  
    ListT.of(AnyM.fromStream(Arrays.asList(10,11))
             .filter(t->t!=10);
             
     //ListT<AnyM<Stream<List[11]>>>
 
 

Specified by:

filter in interface FilterableTransformable<T>

Specified by:

filter in interface Filters<T>

Parameters:

test - Predicate to filter the wrapped List

Returns:

ListT that applies the provided filter

map

public <B> ListT<W,B> map(java.util.function.Function<? super T,? extends B> f)

Map the wrapped List

  
  ListT.of(AnyM.fromStream(Arrays.asList(10))
             .map(t->t=t+1);
  
  
  //ListT<AnyM<Stream<List[11]>>>
 
 

Specified by:

map in interface FilterableTransformable<T>

Specified by:

map in interface Transformable<T>

Parameters:

f - Mapping function for the wrapped List

Returns:

ListT that applies the map function to the wrapped List

flatMap

public <B> ListT<W,B> flatMap(java.util.function.Function<? super T,? extends java.lang.Iterable<? extends B>> f)

Specified by:

flatMap in interface FoldableTransformerSeq<W extends WitnessType<W>,T>

flatMapT

public <B> ListT<W,B> flatMapT(java.util.function.Function<? super T,ListT<W,B>> f)

Flat Map the wrapped List

  
  ListT.of(AnyM.fromStream(Arrays.asList(10))
             .flatMap(t->List.empty();
  
  
  //ListT<AnyM<Stream<List.empty>>>
 
 

Parameters:

f - FlatMap function

Returns:

ListT that applies the flatMap function to the wrapped List

fromAnyM

public static <W extends WitnessType<W>,A> ListT<W,A> fromAnyM(AnyM<W,A> anyM)

Construct an ListT from an AnyM that contains a monad type that contains type other than List The values in the underlying monad will be mapped to List

Parameters:

anyM - AnyM that doesn't contain a monad wrapping an List

Returns:

ListT

of

public static <W extends WitnessType<W>,A> ListT<W,A> of(AnyM<W,? extends FluentSequenceX<A>> monads)

Construct an ListT from an AnyM that wraps a monad containing Lists

Parameters:

monads - AnyM that contains a monad wrapping an List

Returns:

ListT

ofList

public static <W extends WitnessType<W>,A> ListT<W,A> ofList(AnyM<W,? extends java.util.List<A>> monads)

fromStream

public static <A> ListT<Witness.stream,A> fromStream(java.util.stream.Stream<? extends FluentSequenceX<A>> nested)

fromOptional

public static <A> ListT<Witness.optional,A> fromOptional(java.util.Optional<? extends FluentSequenceX<A>> nested)

fromMaybe

public static <A> ListT<Witness.maybe,A> fromMaybe(Maybe<? extends FluentSequenceX<A>> nested)

fromList

public static <A> ListT<Witness.list,A> fromList(java.util.List<? extends FluentSequenceX<A>> nested)

fromSet

public static <A> ListT<Witness.set,A> fromSet(java.util.Set<? extends FluentSequenceX<A>> nested)

toString

public java.lang.String toString()

Overrides:

toString in class java.lang.Object

unit

public <T> ListT<W,T> unit(T unit)

stream

public ReactiveSeq<T> stream()

Specified by:

stream in interface FoldableTransformerSeq<W extends WitnessType<W>,T>

Specified by:

stream in interface TransformerSeq<W extends WitnessType<W>,T>

Specified by:

stream in interface Sequential<T>

Specified by:

stream in interface ConvertableSequence<T>

Specified by:

stream in interface ToStream<T>

Specified by:

stream in interface TransformerTraversable<T>

Specified by:

stream in interface Traversable<T>

Returns:

This Traversable converted to a Stream

iterator

public java.util.Iterator<T> iterator()

Specified by:

iterator in interface java.lang.Iterable<T>

unitIterator

public <R> ListT<W,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 FoldableTransformerSeq<W extends WitnessType<W>,T>

Specified by:

unitIterator in interface Traversable<T>

Parameters:

it - Iterator to create new IterableFunctor from

Returns:

New IterableFunctor instance

empty

public <R> ListT<W,R> empty()

Specified by:

empty in interface FoldableTransformerSeq<W extends WitnessType<W>,T>

nestedFoldables

public AnyM<W,? extends FoldableTraversable<T>> nestedFoldables()

Specified by:

nestedFoldables in interface NestedFoldable<W extends WitnessType<W>,T>

nestedCollectables

public AnyM<W,? extends CyclopsCollectable<T>> nestedCollectables()

Specified by:

nestedCollectables in interface NestedCollectable<W extends WitnessType<W>,T>

unitAnyM

public <T> ListT<W,T> unitAnyM(AnyM<W,Traversable<T>> traversable)

Specified by:

unitAnyM in interface TransformerSeq<W extends WitnessType<W>,T>

transformerStream

public AnyM<W,? extends FoldableTraversable<T>> transformerStream()

Specified by:

transformerStream in interface TransformerSeq<W extends WitnessType<W>,T>

emptyList

public static <W extends WitnessType<W>,T> ListT<W,T> emptyList(W witness)

isSeqPresent

public boolean isSeqPresent()

Specified by:

isSeqPresent in interface TransformerSeq<W extends WitnessType<W>,T>

combine

public ListT<W,T> combine(java.util.function.BiPredicate<? super T,? super T> predicate,
                          java.util.function.BinaryOperator<T> op)

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 output of a combination may in turn be combined with it's neighbour

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

Specified by:

combine in interface TransformerSeq<W extends WitnessType<W>,T>

Specified by:

combine in interface Traversable<T>

Parameters:

predicate - Test to see if two neighbours should be joined

op - Reducer to combine neighbours

Returns:

Combined / Partially Reduced Traversable

cycle

public ListT<W,T> cycle(long times)

Description copied from interface: Traversable

Convert to a Stream with the values repeated specified times

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

Specified by:

cycle in interface TransformerSeq<W extends WitnessType<W>,T>

Specified by:

cycle in interface Traversable<T>

Parameters:

times - Times values should be repeated within a Stream

Returns:

Stream with values repeated

cycle

public ListT<W,T> cycle(Monoid<T> m,
                        long times)

Description copied from interface: Traversable

Convert to 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(Collectors.toList());
   //List[3,3,3];
   
 

Specified by:

cycle in interface TransformerSeq<W extends WitnessType<W>,T>

Specified by:

cycle in interface Traversable<T>

Parameters:

m - Monoid to be used in reduction

times - Number of times value should be repeated

Returns:

Stream with reduced values repeated

cycleWhile

public ListT<W,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(Collectors.toList());
 
  // List(1,2,2,1,2,2)
 
 

Specified by:

cycleWhile in interface TransformerSeq<W extends WitnessType<W>,T>

Specified by:

cycleWhile in interface Traversable<T>

Parameters:

predicate - repeat while true

Returns:

Repeating Stream

cycleUntil

public ListT<W,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(Collectors.toList());
 
 		//List[1,2,2,1,2,2,1]	
 
 

Specified by:

cycleUntil in interface TransformerSeq<W extends WitnessType<W>,T>

Specified by:

cycleUntil in interface Traversable<T>

Parameters:

predicate - repeat while true

Returns:

Repeating Stream

zip

public <U,R> ListT<W,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 TransformerSeq<W extends WitnessType<W>,T>

Specified by:

zip in interface Traversable<T>

Specified by:

zip in interface Zippable<T>

Parameters:

other - to zip with

zipper - Zip function

Returns:

Combined zippable

zipS

public <U,R> ListT<W,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 TransformerSeq<W extends WitnessType<W>,T>

Specified by:

zipS in interface Zippable<T>

Parameters:

other - Stream to combine with

zipper - Zip / combining function

Returns:

Combined zippable

zipS

public <U> ListT<W,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 TransformerSeq<W extends WitnessType<W>,T>

Specified by:

zipS in interface Traversable<T>

Specified by:

zipS in interface Zippable<T>

Parameters:

other - Stream to combine with

Returns:

Combined Zippable

zip

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

Description copied from interface: Zippable

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

Specified by:

zip in interface TransformerSeq<W extends WitnessType<W>,T>

Specified by:

zip in interface Zippable<T>

Parameters:

other - Iterable to combine with

Returns:

zip3

public <S,U> ListT<W,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(Collectors.toList());
 
  // [[1,100,'a'],[2,200,'b'],[3,300,'c']]
 
 
 

Specified by:

zip3 in interface TransformerSeq<W extends WitnessType<W>,T>

Specified by:

zip3 in interface Traversable<T>

Specified by:

zip3 in interface Zippable<T>

zip4

public <T2,T3,T4> ListT<W,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(Collectors.toList());
 
 
 // [[1,100,'a',"hello"],[2,200,'b',"world"]]
 

Specified by:

zip4 in interface TransformerSeq<W extends WitnessType<W>,T>

Specified by:

zip4 in interface Traversable<T>

Specified by:

zip4 in interface Zippable<T>

zipWithIndex

public ListT<W,org.jooq.lambda.tuple.Tuple2<T,java.lang.Long>> zipWithIndex()

Description copied from interface: Traversable

Add an index to the current Stream

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

Specified by:

zipWithIndex in interface TransformerSeq<W extends WitnessType<W>,T>

Specified by:

zipWithIndex in interface Traversable<T>

sliding

public ListT<W,PVectorX<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(Collectors.toList());
 
  assertThat(list.get(0), hasItems(1, 2));
  assertThat(list.get(1), hasItems(2, 3));
 
 
 
 

Specified by:

sliding in interface TransformerSeq<W extends WitnessType<W>,T>

Specified by:

sliding in interface Traversable<T>

Parameters:

windowSize - Size of sliding window

Returns:

SequenceM with sliding view

sliding

public ListT<W,PVectorX<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(Collectors.toList());
 
  assertThat(list.get(0), hasItems(1, 2, 3));
  assertThat(list.get(1), hasItems(3, 4, 5));     
 
 
 
 
 

Specified by:

sliding in interface TransformerSeq<W extends WitnessType<W>,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

grouped

public <C extends java.util.Collection<? super T>> ListT<W,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 TransformerSeq<W extends WitnessType<W>,T>

Specified by:

grouped in interface Traversable<T>

Parameters:

size - batch size

supplier - Collection factory

Returns:

SequenceM batched into collection types by size

groupedUntil

public ListT<W,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 TransformerSeq<W extends WitnessType<W>,T>

Specified by:

groupedUntil in interface Traversable<T>

Parameters:

predicate - Batch until predicate holds, transform open next batch

Returns:

SequenceM batched into lists determined by the predicate supplied

groupedStatefullyUntil

public ListT<W,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 to 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 TransformerSeq<W extends WitnessType<W>,T>

Specified by:

groupedStatefullyUntil in interface Traversable<T>

Parameters:

predicate - Window while true

Returns:

Traversable windowed while predicate holds

groupedWhile

public ListT<W,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 TransformerSeq<W extends WitnessType<W>,T>

Specified by:

groupedWhile in interface Traversable<T>

Parameters:

predicate - Batch while predicate holds, transform open next batch

Returns:

SequenceM batched into lists determined by the predicate supplied

groupedWhile

public <C extends java.util.Collection<? super T>> ListT<W,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 TransformerSeq<W extends WitnessType<W>,T>

Specified by:

groupedWhile in interface Traversable<T>

Parameters:

predicate - Batch while predicate holds, transform open next batch

factory - Collection factory

Returns:

SequenceM batched into collections determined by the predicate supplied

groupedUntil

public <C extends java.util.Collection<? super T>> ListT<W,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 TransformerSeq<W extends WitnessType<W>,T>

Specified by:

groupedUntil in interface Traversable<T>

Parameters:

predicate - Batch until predicate holds, transform open next batch

factory - Collection factory

Returns:

SequenceM batched into collections determined by the predicate supplied

grouped

public ListT<W,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(Collectors.toList());
 
  assertThat(list.get(0), hasItems(1, 2, 3));
  assertThat(list.get(1), hasItems(4, 5, 6));
 
 
 

Specified by:

grouped in interface TransformerSeq<W extends WitnessType<W>,T>

Specified by:

grouped in interface Traversable<T>

Parameters:

groupSize - Size of each Group

Returns:

Stream with elements grouped by size

grouped

public <K,A,D> ListT<W,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 TransformerSeq<W extends WitnessType<W>,T>

Specified by:

grouped in interface Traversable<T>

Parameters:

classifier - Grouping function

downstream - Collector to create the grouping collection

Returns:

Traversable of grouped data

grouped

public <K> ListT<W,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 TransformerSeq<W extends WitnessType<W>,T>

Specified by:

grouped in interface Traversable<T>

Parameters:

classifier - Grouping function

Returns:

Traversable of grouped data

distinct

public ListT<W,T> distinct()

Specified by:

distinct in interface TransformerSeq<W extends WitnessType<W>,T>

Specified by:

distinct in interface Traversable<T>

scanLeft

public ListT<W,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 TransformerSeq<W extends WitnessType<W>,T>

Specified by:

scanLeft in interface Traversable<T>

Returns:

scanLeft

public <U> ListT<W,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 TransformerSeq<W extends WitnessType<W>,T>

Specified by:

scanLeft in interface Traversable<T>

scanRight

public ListT<W,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 TransformerSeq<W extends WitnessType<W>,T>

Specified by:

scanRight in interface Traversable<T>

scanRight

public <U> ListT<W,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 TransformerSeq<W extends WitnessType<W>,T>

Specified by:

scanRight in interface Traversable<T>

sorted

public ListT<W,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 TransformerSeq<W extends WitnessType<W>,T>

Specified by:

sorted in interface Traversable<T>

sorted

public ListT<W,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 TransformerSeq<W extends WitnessType<W>,T>

Specified by:

sorted in interface Traversable<T>

Parameters:

c - Compartor to sort with

Returns:

Sorted Stream

takeWhile

public ListT<W,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 TransformerSeq<W extends WitnessType<W>,T>

Specified by:

takeWhile in interface Traversable<T>

Parameters:

p - Predicate to determine when values should be taken

Returns:

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

dropWhile

public ListT<W,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 TransformerSeq<W extends WitnessType<W>,T>

Specified by:

dropWhile in interface Traversable<T>

Parameters:

p - Predicate to determine when values should be dropped

Returns:

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

takeUntil

public ListT<W,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 TransformerSeq<W extends WitnessType<W>,T>

Specified by:

takeUntil in interface Traversable<T>

Parameters:

p - Predicate to determine when values should be taken until

Returns:

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

dropUntil

public ListT<W,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 TransformerSeq<W extends WitnessType<W>,T>

Specified by:

dropUntil in interface Traversable<T>

Parameters:

p - Predicate to determine when values should be dropped

Returns:

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

dropRight

public ListT<W,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 TransformerSeq<W extends WitnessType<W>,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 to the elements in this Traversable in order

takeRight

public ListT<W,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 TransformerSeq<W extends WitnessType<W>,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 to the elements in this Traversable in order

skip

public ListT<W,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 TransformerSeq<W extends WitnessType<W>,T>

Specified by:

skip in interface Traversable<T>

Parameters:

num - Number of elemenets to skip

Returns:

Stream with specified number of elements skipped

skipWhile

public ListT<W,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 TransformerSeq<W extends WitnessType<W>,T>

Specified by:

skipWhile in interface Traversable<T>

Parameters:

p - Predicate to skip while true

Returns:

Stream with elements skipped while predicate holds

skipUntil

public ListT<W,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 TransformerSeq<W extends WitnessType<W>,T>

Specified by:

skipUntil in interface Traversable<T>

Parameters:

p - Predicate to skip until true

Returns:

Stream with elements skipped until predicate holds

limit

public ListT<W,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 TransformerSeq<W extends WitnessType<W>,T>

Specified by:

limit in interface Traversable<T>

Parameters:

num - Limit element size to num

Returns:

Monad converted to Stream with elements up to num

limitWhile

public ListT<W,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 TransformerSeq<W extends WitnessType<W>,T>

Specified by:

limitWhile in interface Traversable<T>

Parameters:

p - Limit while predicate is true

Returns:

Stream with limited elements

limitUntil

public ListT<W,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 TransformerSeq<W extends WitnessType<W>,T>

Specified by:

limitUntil in interface Traversable<T>

Parameters:

p - Limit until predicate is true

Returns:

Stream with limited elements

intersperse

public ListT<W,T> intersperse(T value)

Description copied from interface: Traversable

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

Specified by:

intersperse in interface TransformerSeq<W extends WitnessType<W>,T>

Specified by:

intersperse in interface Traversable<T>

reverse

public ListT<W,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 to reversal

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

Specified by:

reverse in interface TransformerSeq<W extends WitnessType<W>,T>

Specified by:

reverse in interface Traversable<T>

shuffle

public ListT<W,T> shuffle()

Specified by:

shuffle in interface TransformerSeq<W extends WitnessType<W>,T>

Specified by:

shuffle in interface Traversable<T>

skipLast

public ListT<W,T> skipLast(int num)

Description copied from interface: Traversable

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

Specified by:

skipLast in interface TransformerSeq<W extends WitnessType<W>,T>

Specified by:

skipLast in interface Traversable<T>

Returns:

limitLast

public ListT<W,T> limitLast(int num)

Description copied from interface: Traversable

Limit results to the last x elements in a SequenceM

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

Specified by:

limitLast in interface TransformerSeq<W extends WitnessType<W>,T>

Specified by:

limitLast in interface Traversable<T>

Parameters:

num - of elements to return (last elements)

Returns:

SequenceM limited to last num elements

onEmpty

public ListT<W,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 TransformerSeq<W extends WitnessType<W>,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

public ListT<W,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 TransformerSeq<W extends WitnessType<W>,T>

Specified by:

onEmptyGet in interface OnEmpty<T>

Specified by:

onEmptyGet in interface Traversable<T>

Parameters:

supplier - to determine new value for container

Returns:

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

onEmptyThrow

public <X extends java.lang.Throwable> ListT<W,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 TransformerSeq<W extends WitnessType<W>,T>

Specified by:

onEmptyThrow in interface OnEmpty<T>

Specified by:

onEmptyThrow in interface Traversable<T>

Parameters:

supplier - to create exception from

Returns:

Throw exception if empty, otherwise this container

shuffle

public ListT<W,T> shuffle(java.util.Random random)

Specified by:

shuffle in interface TransformerSeq<W extends WitnessType<W>,T>

Specified by:

shuffle in interface Traversable<T>

slice

public ListT<W,T> slice(long from,
                        long to)

Specified by:

slice in interface TransformerSeq<W extends WitnessType<W>,T>

Specified by:

slice in interface Traversable<T>

sorted

public <U extends java.lang.Comparable<? super U>> ListT<W,T> sorted(java.util.function.Function<? super T,? extends U> function)

Specified by:

sorted in interface TransformerSeq<W extends WitnessType<W>,T>

Specified by:

sorted in interface Traversable<T>

hashCode

public int hashCode()

Overrides:

hashCode in class java.lang.Object

equals

public boolean equals(java.lang.Object o)

Overrides:

equals in class java.lang.Object

forEach4M

public <T2,R1,R2,R3,R> ListT<W,R> forEach4M(java.util.function.Function<? super T,? extends ListT<W,R1>> value1,
                                            java.util.function.BiFunction<? super T,? super R1,? extends ListT<W,R2>> value2,
                                            Fn3<? super T,? super R1,? super R2,? extends ListT<W,R3>> value3,
                                            Fn4<? super T,? super R1,? super R2,? super R3,? extends R> yieldingFunction)

forEach4M

public <T2,R1,R2,R3,R> ListT<W,R> forEach4M(java.util.function.Function<? super T,? extends ListT<W,R1>> value1,
                                            java.util.function.BiFunction<? super T,? super R1,? extends ListT<W,R2>> value2,
                                            Fn3<? super T,? super R1,? super R2,? extends ListT<W,R3>> value3,
                                            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)

forEach3M

public <T2,R1,R2,R> ListT<W,R> forEach3M(java.util.function.Function<? super T,? extends ListT<W,R1>> value1,
                                         java.util.function.BiFunction<? super T,? super R1,? extends ListT<W,R2>> value2,
                                         Fn3<? super T,? super R1,? super R2,? extends R> yieldingFunction)

forEach3M

public <T2,R1,R2,R> ListT<W,R> forEach3M(java.util.function.Function<? super T,? extends ListT<W,R1>> value1,
                                         java.util.function.BiFunction<? super T,? super R1,? extends ListT<W,R2>> value2,
                                         Fn3<? super T,? super R1,? super R2,java.lang.Boolean> filterFunction,
                                         Fn3<? super T,? super R1,? super R2,? extends R> yieldingFunction)

forEach2M

public <R1,R> ListT<W,R> forEach2M(java.util.function.Function<? super T,? extends ListT<W,R1>> value1,
                                   java.util.function.BiFunction<? super T,? super R1,? extends R> yieldingFunction)

forEach2M

public <R1,R> ListT<W,R> forEach2M(java.util.function.Function<? super T,? extends ListT<W,R1>> value1,
                                   java.util.function.BiFunction<? super T,? super R1,java.lang.Boolean> filterFunction,
                                   java.util.function.BiFunction<? super T,? super R1,? extends R> yieldingFunction)