Serializable
, Cloneable
, Iterable<T>
, Collection<T>
, List<T>
, MutableCollection<T>
, InternalIterable<T>
, ListIterable<T>
, MutableList<T>
, OrderedIterable<T>
, ReversibleIterable<T>
, RichIterable<T>
public class UnmodifiableMutableList<T> extends AbstractUnmodifiableMutableCollection<T> implements MutableList<T>, Serializable
MutableList.asUnmodifiable()
,
Serialized FormModifier and Type | Method | Description |
---|---|---|
void |
add(int index,
T element) |
|
boolean |
addAll(int index,
Collection<? extends T> collection) |
|
ParallelListIterable<T> |
asParallel(ExecutorService executorService,
int batchSize) |
Returns a parallel iterable of this ListIterable.
|
LazyIterable<T> |
asReversed() |
Returns a reversed view of this ReversibleIterable.
|
MutableList<T> |
asSynchronized() |
Returns a synchronized wrapper backed by this collection.
|
MutableList<T> |
asUnmodifiable() |
Returns an unmodifiable view of this collection.
|
int |
binarySearch(T key) |
Searches for the specified object using the binary search algorithm.
|
int |
binarySearch(T key,
Comparator<? super T> comparator) |
Searches for the specified object using the binary search algorithm.
|
UnmodifiableMutableList<T> |
clone() |
|
<V> MutableList<V> |
collect(Function<? super T,? extends V> function) |
Returns a new MutableCollection with the results of applying the specified function to each element of the source
collection.
|
MutableBooleanList |
collectBoolean(BooleanFunction<? super T> booleanFunction) |
Returns a new primitive
boolean iterable with the results of applying the specified function on each element
of the source collection. |
MutableByteList |
collectByte(ByteFunction<? super T> byteFunction) |
Returns a new primitive
byte iterable with the results of applying the specified function on each element
of the source collection. |
MutableCharList |
collectChar(CharFunction<? super T> charFunction) |
Returns a new primitive
char iterable with the results of applying the specified function on each element
of the source collection. |
MutableDoubleList |
collectDouble(DoubleFunction<? super T> doubleFunction) |
Returns a new primitive
double iterable with the results of applying the specified function on each element
of the source collection. |
MutableFloatList |
collectFloat(FloatFunction<? super T> floatFunction) |
Returns a new primitive
float iterable with the results of applying the specified function on each element
of the source collection. |
<V> MutableList<V> |
collectIf(Predicate<? super T> predicate,
Function<? super T,? extends V> function) |
Returns a new MutableCollection with the results of applying the specified function to each element of the source
collection, but only for elements that evaluate to true for the specified predicate.
|
MutableIntList |
collectInt(IntFunction<? super T> intFunction) |
Returns a new primitive
int iterable with the results of applying the specified function on each element
of the source collection. |
MutableLongList |
collectLong(LongFunction<? super T> longFunction) |
Returns a new primitive
long iterable with the results of applying the specified function on each element
of the source collection. |
MutableShortList |
collectShort(ShortFunction<? super T> shortFunction) |
Returns a new primitive
short iterable with the results of applying the specified function on each element
of the source collection. |
<P,A> MutableList<A> |
collectWith(Function2<? super T,? super P,? extends A> function,
P parameter) |
Same as
RichIterable.collect(Function) with a Function2 and specified parameter which is passed to the block. |
<S> boolean |
corresponds(OrderedIterable<S> other,
Predicate2<? super T,? super S> predicate) |
Returns true if both OrderedIterables have the same length
and
predicate returns true for all corresponding elements e1 of
this OrderedIterable and e2 of other . |
int |
detectIndex(Predicate<? super T> predicate) |
Returns the index of the first element of the
OrderedIterable for which the predicate evaluates to true. |
int |
detectLastIndex(Predicate<? super T> predicate) |
Returns the index of the last element of the
ReversibleIterable for which the predicate evaluates to true. |
MutableList<T> |
distinct() |
Returns a new
ListIterable containing the distinct elements in this list. |
MutableList<T> |
distinct(HashingStrategy<? super T> hashingStrategy) |
Returns a new
ListIterable containing the distinct elements in this list. |
<V> MutableList<T> |
distinctBy(Function<? super T,? extends V> function) |
Returns a new
ListIterable containing the distinct elements in this list. |
MutableList<T> |
drop(int count) |
Returns an iterable after skipping the first
count elements
or an empty iterable if the count is greater than the length of the iterable. |
MutableList<T> |
dropWhile(Predicate<? super T> predicate) |
Returns the final elements that do not satisfy the Predicate.
|
boolean |
equals(Object obj) |
Follows the same general contract as
List.equals(Object) . |
<V> MutableList<V> |
flatCollect(Function<? super T,? extends Iterable<V>> function) |
flatCollect is a special case of RichIterable.collect(Function) . |
void |
forEach(int fromIndex,
int toIndex,
Procedure<? super T> procedure) |
Iterates over the section of the iterable covered by the specified inclusive indexes.
|
void |
forEachWithIndex(int fromIndex,
int toIndex,
ObjectIntProcedure<? super T> objectIntProcedure) |
Iterates over the section of the iterable covered by the specified inclusive indexes.
|
T |
get(int index) |
Returns the item at the specified position in this list iterable.
|
<V> MutableListMultimap<V,T> |
groupBy(Function<? super T,? extends V> function) |
For each element of the iterable, the function is evaluated and the results of these evaluations are collected
into a new multimap, where the transformed value is the key and the original values are added to the same (or similar)
species of collection as the source iterable.
|
<V> MutableListMultimap<V,T> |
groupByEach(Function<? super T,? extends Iterable<V>> function) |
Similar to
RichIterable.groupBy(Function) , except the result of evaluating function will return a collection of keys
for each value. |
int |
hashCode() |
Follows the same general contract as
List.hashCode() . |
int |
indexOf(Object o) |
Returns the index of the first occurrence of the specified item
in this iterable, or -1 if this iterable does not contain the item.
|
int |
lastIndexOf(Object o) |
Returns the index of the last occurrence of the specified item
in this list, or -1 if this list does not contain the item.
|
ListIterator<T> |
listIterator() |
|
ListIterator<T> |
listIterator(int index) |
|
MutableList<T> |
newEmpty() |
Creates a new empty mutable version of the same collection type.
|
static <E,L extends List<E>> |
of(L list) |
This method will take a MutableList and wrap it directly in a UnmodifiableMutableList.
|
PartitionMutableList<T> |
partition(Predicate<? super T> predicate) |
Filters a collection into a PartitionedIterable based on the evaluation of the predicate.
|
PartitionMutableList<T> |
partitionWhile(Predicate<? super T> predicate) |
Returns a Partition of the initial elements that satisfy the Predicate and the remaining elements.
|
<P> PartitionMutableList<T> |
partitionWith(Predicate2<? super T,? super P> predicate,
P parameter) |
Filters a collection into a PartitionIterable based on the evaluation of the predicate.
|
MutableList<T> |
reject(Predicate<? super T> predicate) |
Returns a MutableCollection with all elements that evaluate to false for the specified predicate.
|
<P> MutableList<T> |
rejectWith(Predicate2<? super T,? super P> predicate,
P parameter) |
Returns a MutableCollection with all elements that evaluate to false for the specified predicate2 and parameter.
|
T |
remove(int index) |
|
void |
replaceAll(UnaryOperator<T> operator) |
|
void |
reverseForEach(Procedure<? super T> procedure) |
Evaluates the procedure for each element of the list iterating in reverse order.
|
void |
reverseForEachWithIndex(ObjectIntProcedure<? super T> procedure) |
Evaluates the procedure for each element and it's index in reverse order.
|
MutableList<T> |
reverseThis() |
Mutates this list by reversing its order and returns the current list as a result.
|
MutableList<T> |
select(Predicate<? super T> predicate) |
Returns a MutableCollection with all elements that evaluate to true for the specified predicate.
|
<S> MutableList<S> |
selectInstancesOf(Class<S> clazz) |
Returns all elements of the source collection that are instances of the Class
clazz . |
<P> MutableList<T> |
selectWith(Predicate2<? super T,? super P> predicate,
P parameter) |
Returns a MutableCollection with all elements that evaluate to true for the specified predicate2 and parameter.
|
T |
set(int index,
T element) |
|
MutableList<T> |
shuffleThis() |
Mutates this list by shuffling its elements.
|
MutableList<T> |
shuffleThis(Random rnd) |
Mutates this list by shuffling its elements using the specified random.
|
void |
sort(Comparator<? super T> comparator) |
|
UnmodifiableMutableList<T> |
sortThis() |
Sorts the internal data structure of this list and returns the list itself as a convenience.
|
UnmodifiableMutableList<T> |
sortThis(Comparator<? super T> comparator) |
Sorts the internal data structure of this list and returns the list itself as a convenience.
|
<V extends Comparable<? super V>> |
sortThisBy(Function<? super T,? extends V> function) |
Sorts the internal data structure of this list based on the natural order of the attribute returned by
function . |
MutableList<T> |
sortThisByBoolean(BooleanFunction<? super T> function) |
|
MutableList<T> |
sortThisByByte(ByteFunction<? super T> function) |
|
MutableList<T> |
sortThisByChar(CharFunction<? super T> function) |
|
MutableList<T> |
sortThisByDouble(DoubleFunction<? super T> function) |
|
MutableList<T> |
sortThisByFloat(FloatFunction<? super T> function) |
|
MutableList<T> |
sortThisByInt(IntFunction<? super T> function) |
|
MutableList<T> |
sortThisByLong(LongFunction<? super T> function) |
|
MutableList<T> |
sortThisByShort(ShortFunction<? super T> function) |
|
UnmodifiableMutableList<T> |
subList(int fromIndex,
int toIndex) |
|
MutableList<T> |
take(int count) |
Returns the first
count elements of the iterable
or all the elements in the iterable if count is greater than the length of
the iterable. |
MutableList<T> |
takeWhile(Predicate<? super T> predicate) |
Returns the initial elements that satisfy the Predicate.
|
MutableList<T> |
tap(Procedure<? super T> procedure) |
Executes the Procedure for each element in the iterable and returns
this . |
ImmutableList<T> |
toImmutable() |
Converts this
MutableCollection to an ImmutableCollection . |
MutableList<T> |
toReversed() |
Returns a new MutableList in reverse order.
|
MutableStack<T> |
toStack() |
Converts the list to a mutable MutableStack implementation.
|
MutableList<T> |
with(T element) |
This method allows mutable and fixed size collections the ability to add elements to their existing elements.
|
MutableList<T> |
withAll(Iterable<? extends T> elements) |
This method allows mutable and fixed size collections the ability to add multiple elements to their existing
elements.
|
MutableList<T> |
without(T element) |
This method allows mutable and fixed size collections the ability to remove elements from their existing elements.
|
MutableList<T> |
withoutAll(Iterable<? extends T> elements) |
This method allows mutable and fixed size collections the ability to remove multiple elements from their existing
elements.
|
<S> MutableList<Pair<T,S>> |
zip(Iterable<S> that) |
Returns a
RichIterable formed from this RichIterable and another RichIterable by
combining corresponding elements in pairs. |
MutableList<Pair<T,Integer>> |
zipWithIndex() |
Zips this
RichIterable with its indices. |
add, addAll, addAllIterable, aggregateBy, aggregateInPlaceBy, allSatisfy, allSatisfyWith, anySatisfy, anySatisfyWith, appendString, appendString, appendString, asLazy, chunk, clear, collect, collectBoolean, collectByte, collectChar, collectDouble, collectFloat, collectIf, collectInt, collectLong, collectShort, collectWith, contains, containsAll, containsAllArguments, containsAllIterable, count, countWith, detect, detectIfNone, detectOptional, detectWith, detectWithIfNone, detectWithOptional, each, flatCollect, forEach, forEachWith, forEachWithIndex, getFirst, getLast, getOnly, groupBy, groupByEach, groupByUniqueKey, groupByUniqueKey, injectInto, injectInto, injectInto, injectInto, injectInto, injectIntoWith, into, isEmpty, iterator, makeString, makeString, makeString, max, max, maxBy, min, min, minBy, noneSatisfy, noneSatisfyWith, notEmpty, reject, rejectWith, remove, removeAll, removeAllIterable, removeIf, removeIfWith, retainAll, retainAllIterable, select, selectAndRejectWith, selectWith, size, sumByDouble, sumByFloat, sumByInt, sumByLong, sumOfDouble, sumOfFloat, sumOfInt, sumOfLong, toArray, toArray, toBag, toBiMap, toList, toMap, toMap, toSet, toSortedBag, toSortedBag, toSortedBagBy, toSortedList, toSortedList, toSortedListBy, toSortedMap, toSortedMap, toSortedMapBy, toSortedSet, toSortedSet, toSortedSetBy, toString, zip, zipWithIndex
parallelStream, removeIf, stream
forEachWith
add, addAll, clear, contains, containsAll, isEmpty, iterator, of, of, of, of, of, of, of, of, of, of, remove, removeAll, retainAll, size, spliterator, toArray, toArray
getFirst, getLast
addAllIterable, aggregateBy, aggregateInPlaceBy, countBy, countByEach, countByWith, groupByUniqueKey, injectIntoWith, removeAllIterable, removeIf, removeIfWith, retainAllIterable, selectAndRejectWith, sumByDouble, sumByFloat, sumByInt, sumByLong
collectWithIndex, flatCollectWith
collectWithIndex, forEachWithIndex, getFirstOptional, getLastOptional
allSatisfy, allSatisfyWith, anySatisfy, anySatisfyWith, appendString, appendString, appendString, asLazy, chunk, collect, collectBoolean, collectByte, collectChar, collectDouble, collectFloat, collectIf, collectInt, collectLong, collectShort, collectWith, contains, containsAll, containsAllArguments, containsAllIterable, count, countBy, countByEach, countByWith, countWith, detect, detectIfNone, detectOptional, detectWith, detectWithIfNone, detectWithOptional, each, flatCollect, flatCollectWith, getAny, getOnly, groupBy, groupByEach, groupByUniqueKey, injectInto, injectInto, injectInto, injectInto, injectInto, into, isEmpty, makeString, makeString, makeString, max, maxBy, maxByOptional, maxOptional, maxOptional, min, minBy, minByOptional, minOptional, minOptional, noneSatisfy, noneSatisfyWith, notEmpty, reduce, reduceInPlace, reduceInPlace, reject, rejectWith, select, selectWith, size, summarizeDouble, summarizeFloat, summarizeInt, summarizeLong, sumOfDouble, sumOfFloat, sumOfInt, sumOfLong, toArray, toArray, toBag, toBiMap, toList, toMap, toMap, toSet, toSortedBag, toSortedBag, toSortedBagBy, toSortedList, toSortedList, toSortedListBy, toSortedMap, toSortedMap, toSortedMapBy, toSortedSet, toSortedSet, toSortedSetBy, toString
public static <E,L extends List<E>> UnmodifiableMutableList<E> of(L list)
public boolean equals(Object obj)
ListIterable
List.equals(Object)
.public int hashCode()
ListIterable
List.hashCode()
.public MutableList<T> asUnmodifiable()
MutableCollection
Collections.unmodifiableCollection(this)
with a return type that supports the full
iteration protocols available on MutableCollection
. Methods which would
mutate the underlying collection will throw UnsupportedOperationExceptions.asUnmodifiable
in interface MutableCollection<T>
asUnmodifiable
in interface MutableList<T>
asUnmodifiable
in class AbstractUnmodifiableMutableCollection<T>
Collections.unmodifiableCollection(Collection)
public ImmutableList<T> toImmutable()
MutableCollection
MutableCollection
to an ImmutableCollection
.toImmutable
in interface ListIterable<T>
toImmutable
in interface MutableCollection<T>
toImmutable
in interface MutableList<T>
toImmutable
in class AbstractUnmodifiableMutableCollection<T>
public MutableList<T> asSynchronized()
MutableCollection
Collections.synchronizedCollection(this)
only with a return type that supports the full
iteration protocols available on MutableCollection
.
The preferred way of iterating over a synchronized collection is to use the internal iteration
methods which are properly synchronized internally.
MutableCollection synchedCollection = collection.asSynchronized(); ... synchedCollection.forEach(each -> ... ); synchedCollection.select(each -> ... ); synchedCollection.collect(each -> ... );If you want to iterate using an imperative style, you must protect external iterators using a synchronized block. This includes explicit iterators as well as JDK 5 style for loops.
asSynchronized
in interface MutableCollection<T>
asSynchronized
in interface MutableList<T>
asSynchronized
in class AbstractUnmodifiableMutableCollection<T>
Collections.synchronizedCollection(Collection)
public UnmodifiableMutableList<T> clone()
clone
in interface MutableList<T>
clone
in class Object
public MutableList<T> newEmpty()
MutableCollection
newEmpty
in interface MutableCollection<T>
newEmpty
in interface MutableList<T>
newEmpty
in class AbstractUnmodifiableMutableCollection<T>
public MutableList<T> tap(Procedure<? super T> procedure)
RichIterable
this
.
Example using a Java 8 lambda expression:
RichIterable<Person> tapped = people.tap(person -> LOGGER.info(person.getName()));
Example using an anonymous inner class:
RichIterable<Person> tapped = people.tap(new Procedure<Person>() { public void value(Person person) { LOGGER.info(person.getName()); } });
tap
in interface ListIterable<T>
tap
in interface MutableCollection<T>
tap
in interface MutableList<T>
tap
in interface OrderedIterable<T>
tap
in interface ReversibleIterable<T>
tap
in interface RichIterable<T>
tap
in class AbstractUnmodifiableMutableCollection<T>
RichIterable.each(Procedure)
,
RichIterable.forEach(Procedure)
public <S> boolean corresponds(OrderedIterable<S> other, Predicate2<? super T,? super S> predicate)
OrderedIterable
predicate
returns true for all corresponding elements e1 of
this OrderedIterable
and e2 of other
.
The predicate
is evaluated for each element at the same position of each OrderedIterable
in a forward iteration order.
This is a short circuit pattern.corresponds
in interface OrderedIterable<T>
public void forEach(int fromIndex, int toIndex, Procedure<? super T> procedure)
OrderedIterable
e.g. OrderedIterable<People> people = FastList.newListWith(ted, mary, bob, sally) people.forEach(0, 1, new Procedure<Person>() { public void value(Person person) { LOGGER.info(person.getName()); } });
This code would output ted and mary's names.
forEach
in interface OrderedIterable<T>
public void reverseForEach(Procedure<? super T> procedure)
ReversibleIterable
e.g. people.reverseForEach(person -> LOGGER.info(person.getName()));
reverseForEach
in interface ReversibleIterable<T>
public void reverseForEachWithIndex(ObjectIntProcedure<? super T> procedure)
ReversibleIterable
e.g. people.reverseForEachWithIndex((person, index) -> LOGGER.info("Index: " + index + " person: " + person.getName()));
reverseForEachWithIndex
in interface ReversibleIterable<T>
public void forEachWithIndex(int fromIndex, int toIndex, ObjectIntProcedure<? super T> objectIntProcedure)
OrderedIterable
e.g. OrderedIterable<People> people = FastList.newListWith(ted, mary, bob, sally) people.forEachWithIndex(0, 1, new ObjectIntProcedure<Person>() { public void value(Person person, int index) { LOGGER.info(person.getName()); } });
This code would output ted and mary's names.
forEachWithIndex
in interface OrderedIterable<T>
public UnmodifiableMutableList<T> sortThis(Comparator<? super T> comparator)
MutableList
sortThis
in interface MutableList<T>
public UnmodifiableMutableList<T> sortThis()
MutableList
sortThis
in interface MutableList<T>
public MutableList<T> toReversed()
MutableList
toReversed
in interface ListIterable<T>
toReversed
in interface MutableList<T>
toReversed
in interface ReversibleIterable<T>
public MutableList<T> reverseThis()
MutableList
reverseThis
in interface MutableList<T>
public MutableList<T> shuffleThis()
MutableList
shuffleThis
in interface MutableList<T>
public MutableList<T> shuffleThis(Random rnd)
MutableList
shuffleThis
in interface MutableList<T>
public MutableStack<T> toStack()
ListIterable
toStack
in interface ListIterable<T>
toStack
in interface OrderedIterable<T>
public <V extends Comparable<? super V>> MutableList<T> sortThisBy(Function<? super T,? extends V> function)
MutableList
function
.sortThisBy
in interface MutableList<T>
public void replaceAll(UnaryOperator<T> operator)
replaceAll
in interface List<T>
public void sort(Comparator<? super T> comparator)
public MutableList<T> sortThisByInt(IntFunction<? super T> function)
sortThisByInt
in interface MutableList<T>
public MutableList<T> sortThisByBoolean(BooleanFunction<? super T> function)
sortThisByBoolean
in interface MutableList<T>
public MutableList<T> sortThisByChar(CharFunction<? super T> function)
sortThisByChar
in interface MutableList<T>
public MutableList<T> sortThisByByte(ByteFunction<? super T> function)
sortThisByByte
in interface MutableList<T>
public MutableList<T> sortThisByShort(ShortFunction<? super T> function)
sortThisByShort
in interface MutableList<T>
public MutableList<T> sortThisByFloat(FloatFunction<? super T> function)
sortThisByFloat
in interface MutableList<T>
public MutableList<T> sortThisByLong(LongFunction<? super T> function)
sortThisByLong
in interface MutableList<T>
public MutableList<T> sortThisByDouble(DoubleFunction<? super T> function)
sortThisByDouble
in interface MutableList<T>
public boolean addAll(int index, Collection<? extends T> collection)
public T get(int index)
ListIterable
public int indexOf(Object o)
OrderedIterable
indexOf
in interface List<T>
indexOf
in interface OrderedIterable<T>
List.indexOf(Object)
public int lastIndexOf(Object o)
ListIterable
lastIndexOf
in interface List<T>
lastIndexOf
in interface ListIterable<T>
public ListIterator<T> listIterator()
listIterator
in interface List<T>
listIterator
in interface ListIterable<T>
List.listIterator()
public ListIterator<T> listIterator(int index)
listIterator
in interface List<T>
listIterator
in interface ListIterable<T>
List.listIterator(int)
public UnmodifiableMutableList<T> subList(int fromIndex, int toIndex)
subList
in interface List<T>
subList
in interface ListIterable<T>
subList
in interface MutableList<T>
List.subList(int, int)
public <P,A> MutableList<A> collectWith(Function2<? super T,? super P,? extends A> function, P parameter)
MutableCollection
RichIterable.collect(Function)
with a Function2
and specified parameter which is passed to the block.
Example using a Java 8 lambda expression:
RichIterable<Integer> integers = Lists.mutable.with(1, 2, 3).collectWith((each, parameter) -> each + parameter, Integer.valueOf(1));
Example using an anonymous inner class:
Function2<Integer, Integer, Integer> addParameterFunction = new Function2<Integer, Integer, Integer>() { public Integer value(Integer each, Integer parameter) { return each + parameter; } }; RichIterable<Integer> integers = Lists.mutable.with(1, 2, 3).collectWith(addParameterFunction, Integer.valueOf(1));Co-variant example for MutableCollection:
MutableCollection<Integer> integers = Lists.mutable.with(1, 2, 3).collectWith((each, parameter) -> each + parameter, Integer.valueOf(1));
collectWith
in interface ListIterable<T>
collectWith
in interface MutableCollection<T>
collectWith
in interface MutableList<T>
collectWith
in interface OrderedIterable<T>
collectWith
in interface ReversibleIterable<T>
collectWith
in interface RichIterable<T>
collectWith
in class AbstractUnmodifiableMutableCollection<T>
function
- A Function2
to use as the collect transformation functionparameter
- A parameter to pass in for evaluation of the second argument P
in function
RichIterable
that contains the transformed elements returned by Function2.value(Object, Object)
RichIterable.collect(Function)
public <V> MutableList<V> collect(Function<? super T,? extends V> function)
MutableCollection
MutableCollection<String> names = people.collect(person -> person.getFirstName() + " " + person.getLastName());
collect
in interface ListIterable<T>
collect
in interface MutableCollection<T>
collect
in interface MutableList<T>
collect
in interface OrderedIterable<T>
collect
in interface ReversibleIterable<T>
collect
in interface RichIterable<T>
collect
in class AbstractUnmodifiableMutableCollection<T>
public MutableBooleanList collectBoolean(BooleanFunction<? super T> booleanFunction)
MutableCollection
boolean
iterable with the results of applying the specified function on each element
of the source collection. This method is also commonly called transform or map.
Example using a Java 8 lambda expression:
BooleanIterable licenses = people.collectBoolean(person -> person.hasDrivingLicense());
Example using an anonymous inner class:
BooleanIterable licenses = people.collectBoolean(new BooleanFunction<Person>() { public boolean booleanValueOf(Person person) { return person.hasDrivingLicense(); } });Co-variant example for MutableCollection:
MutableBooleanCollection licenses = people.collectBoolean(person -> person.hasDrivingLicense());
collectBoolean
in interface ListIterable<T>
collectBoolean
in interface MutableCollection<T>
collectBoolean
in interface MutableList<T>
collectBoolean
in interface OrderedIterable<T>
collectBoolean
in interface ReversibleIterable<T>
collectBoolean
in interface RichIterable<T>
collectBoolean
in class AbstractUnmodifiableMutableCollection<T>
public MutableByteList collectByte(ByteFunction<? super T> byteFunction)
MutableCollection
byte
iterable with the results of applying the specified function on each element
of the source collection. This method is also commonly called transform or map.
Example using a Java 8 lambda expression:
ByteIterable bytes = people.collectByte(person -> person.getCode());
Example using an anonymous inner class:
ByteIterable bytes = people.collectByte(new ByteFunction<Person>() { public byte byteValueOf(Person person) { return person.getCode(); } });Co-variant example for MutableCollection:
MutableByteCollection bytes = people.collectByte(person -> person.getCode());
collectByte
in interface ListIterable<T>
collectByte
in interface MutableCollection<T>
collectByte
in interface MutableList<T>
collectByte
in interface OrderedIterable<T>
collectByte
in interface ReversibleIterable<T>
collectByte
in interface RichIterable<T>
collectByte
in class AbstractUnmodifiableMutableCollection<T>
public MutableCharList collectChar(CharFunction<? super T> charFunction)
MutableCollection
char
iterable with the results of applying the specified function on each element
of the source collection. This method is also commonly called transform or map.
Example using a Java 8 lambda expression:
CharIterable chars = people.collectChar(person -> person.getMiddleInitial());
Example using an anonymous inner class:
CharIterable chars = people.collectChar(new CharFunction<Person>() { public char charValueOf(Person person) { return person.getMiddleInitial(); } });Co-variant example for MutableCollection:
MutableCharCollection chars = people.collectChar(person -> person.getMiddleInitial());
collectChar
in interface ListIterable<T>
collectChar
in interface MutableCollection<T>
collectChar
in interface MutableList<T>
collectChar
in interface OrderedIterable<T>
collectChar
in interface ReversibleIterable<T>
collectChar
in interface RichIterable<T>
collectChar
in class AbstractUnmodifiableMutableCollection<T>
public MutableDoubleList collectDouble(DoubleFunction<? super T> doubleFunction)
MutableCollection
double
iterable with the results of applying the specified function on each element
of the source collection. This method is also commonly called transform or map.
Example using a Java 8 lambda expression:
DoubleIterable doubles = people.collectDouble(person -> person.getMilesFromNorthPole());
Example using an anonymous inner class:
DoubleIterable doubles = people.collectDouble(new DoubleFunction<Person>() { public double doubleValueOf(Person person) { return person.getMilesFromNorthPole(); } });Co-variant example for MutableCollection:
MutableDoubleCollection doubles = people.collectDouble(person -> person.getMilesFromNorthPole());
collectDouble
in interface ListIterable<T>
collectDouble
in interface MutableCollection<T>
collectDouble
in interface MutableList<T>
collectDouble
in interface OrderedIterable<T>
collectDouble
in interface ReversibleIterable<T>
collectDouble
in interface RichIterable<T>
collectDouble
in class AbstractUnmodifiableMutableCollection<T>
public MutableFloatList collectFloat(FloatFunction<? super T> floatFunction)
MutableCollection
float
iterable with the results of applying the specified function on each element
of the source collection. This method is also commonly called transform or map.
Example using a Java 8 lambda expression:
FloatIterable floats = people.collectFloat(person -> person.getHeightInInches());
Example using an anonymous inner class:
FloatIterable floats = people.collectFloat(new FloatFunction<Person>() { public float floatValueOf(Person person) { return person.getHeightInInches(); } });Co-variant example for MutableCollection:
MutableFloatCollection floats = people.collectFloat(person -> person.getHeightInInches());
collectFloat
in interface ListIterable<T>
collectFloat
in interface MutableCollection<T>
collectFloat
in interface MutableList<T>
collectFloat
in interface OrderedIterable<T>
collectFloat
in interface ReversibleIterable<T>
collectFloat
in interface RichIterable<T>
collectFloat
in class AbstractUnmodifiableMutableCollection<T>
public MutableIntList collectInt(IntFunction<? super T> intFunction)
MutableCollection
int
iterable with the results of applying the specified function on each element
of the source collection. This method is also commonly called transform or map.
Example using a Java 8 lambda expression:
IntIterable ints = people.collectInt(person -> person.getAge());
Example using an anonymous inner class:
IntIterable ints = people.collectInt(new IntFunction<Person>() { public int intValueOf(Person person) { return person.getAge(); } });Co-variant example for MutableCollection:
MutableIntCollection ints = people.collectInt(person -> person.getAge());
collectInt
in interface ListIterable<T>
collectInt
in interface MutableCollection<T>
collectInt
in interface MutableList<T>
collectInt
in interface OrderedIterable<T>
collectInt
in interface ReversibleIterable<T>
collectInt
in interface RichIterable<T>
collectInt
in class AbstractUnmodifiableMutableCollection<T>
public MutableLongList collectLong(LongFunction<? super T> longFunction)
MutableCollection
long
iterable with the results of applying the specified function on each element
of the source collection. This method is also commonly called transform or map.
Example using a Java 8 lambda expression:
LongIterable longs = people.collectLong(person -> person.getGuid());
Example using an anonymous inner class:
LongIterable longs = people.collectLong(new LongFunction<Person>() { public long longValueOf(Person person) { return person.getGuid(); } });Co-variant example for MutableCollection:
MutableLongCollection longs = people.collectLong(person -> person.getGuid());
collectLong
in interface ListIterable<T>
collectLong
in interface MutableCollection<T>
collectLong
in interface MutableList<T>
collectLong
in interface OrderedIterable<T>
collectLong
in interface ReversibleIterable<T>
collectLong
in interface RichIterable<T>
collectLong
in class AbstractUnmodifiableMutableCollection<T>
public MutableShortList collectShort(ShortFunction<? super T> shortFunction)
MutableCollection
short
iterable with the results of applying the specified function on each element
of the source collection. This method is also commonly called transform or map.
Example using a Java 8 lambda expression:
ShortIterable shorts = people.collectShort(person -> person.getNumberOfJunkMailItemsReceivedPerMonth());
Example using an anonymous inner class:
ShortIterable shorts = people.collectShort(new ShortFunction<Person>() { public short shortValueOf(Person person) { return person.getNumberOfJunkMailItemsReceivedPerMonth(); } });Co-variant example for MutableCollection:
MutableShortCollection shorts = people.collectShort(person -> person.getNumberOfJunkMailItemsReceivedPerMonth());
collectShort
in interface ListIterable<T>
collectShort
in interface MutableCollection<T>
collectShort
in interface MutableList<T>
collectShort
in interface OrderedIterable<T>
collectShort
in interface ReversibleIterable<T>
collectShort
in interface RichIterable<T>
collectShort
in class AbstractUnmodifiableMutableCollection<T>
public <V> MutableList<V> flatCollect(Function<? super T,? extends Iterable<V>> function)
MutableCollection
flatCollect
is a special case of RichIterable.collect(Function)
. With collect
, when the Function
returns
a collection, the result is a collection of collections. flatCollect
outputs a single "flattened" collection
instead. This method is commonly called flatMap.
Consider the following example where we have a Person
class, and each Person
has a list of Address
objects. Take the following Function
:
Function<Person, List<Address>> addressFunction = Person::getAddresses; RichIterable<Person> people = ...;Using
collect
returns a collection of collections of addresses.
RichIterable<List<Address>> addresses = people.collect(addressFunction);Using
flatCollect
returns a single flattened list of addresses.
RichIterable<Address> addresses = people.flatCollect(addressFunction);Co-variant example for MutableCollection:
Function<Person, List<Address>> addressFunction = Person::getAddresses; MutableCollection<Person> people = ...; MutableCollection<List<Address>> addresses = people.collect(addressFunction); MutableCollection<Address> addresses = people.flatCollect(addressFunction);
flatCollect
in interface ListIterable<T>
flatCollect
in interface MutableCollection<T>
flatCollect
in interface MutableList<T>
flatCollect
in interface OrderedIterable<T>
flatCollect
in interface ReversibleIterable<T>
flatCollect
in interface RichIterable<T>
flatCollect
in class AbstractUnmodifiableMutableCollection<T>
function
- The Function
to applyfunction
public <V> MutableList<V> collectIf(Predicate<? super T> predicate, Function<? super T,? extends V> function)
MutableCollection
MutableCollection<String> collected = Lists.mutable.of().with(1, 2, 3).collectIf(Predicates.notNull(), Functions.getToString())
collectIf
in interface ListIterable<T>
collectIf
in interface MutableCollection<T>
collectIf
in interface MutableList<T>
collectIf
in interface OrderedIterable<T>
collectIf
in interface ReversibleIterable<T>
collectIf
in interface RichIterable<T>
collectIf
in class AbstractUnmodifiableMutableCollection<T>
public int detectIndex(Predicate<? super T> predicate)
OrderedIterable
OrderedIterable
for which the predicate
evaluates to true.
Returns -1 if no element evaluates true for the predicate
.detectIndex
in interface OrderedIterable<T>
public int detectLastIndex(Predicate<? super T> predicate)
ReversibleIterable
ReversibleIterable
for which the predicate
evaluates to true.
Returns -1 if no element evaluates true for the predicate
.detectLastIndex
in interface ReversibleIterable<T>
public <V> MutableListMultimap<V,T> groupBy(Function<? super T,? extends V> function)
MutableCollection
Example using a Java 8 method reference:
Multimap<String, Person> peopleByLastName = people.groupBy(Person::getLastName);
Example using an anonymous inner class:
Multimap<String, Person> peopleByLastName = people.groupBy(new Function<Person, String>() { public String valueOf(Person person) { return person.getLastName(); } });Co-variant example for MutableCollection:
MutableMultimap<String, Person> peopleByLastName = people.groupBy(Person::getLastName);
groupBy
in interface ListIterable<T>
groupBy
in interface MutableCollection<T>
groupBy
in interface MutableList<T>
groupBy
in interface OrderedIterable<T>
groupBy
in interface ReversibleIterable<T>
groupBy
in interface RichIterable<T>
groupBy
in class AbstractUnmodifiableMutableCollection<T>
public <V> MutableListMultimap<V,T> groupByEach(Function<? super T,? extends Iterable<V>> function)
RichIterable
RichIterable.groupBy(Function)
, except the result of evaluating function will return a collection of keys
for each value.groupByEach
in interface ListIterable<T>
groupByEach
in interface MutableCollection<T>
groupByEach
in interface MutableList<T>
groupByEach
in interface OrderedIterable<T>
groupByEach
in interface ReversibleIterable<T>
groupByEach
in interface RichIterable<T>
groupByEach
in class AbstractUnmodifiableMutableCollection<T>
public MutableList<T> reject(Predicate<? super T> predicate)
MutableCollection
MutableCollection<Person> notSmiths = people.reject(person -> person.person.getLastName().equals("Smith"));Using the
Predicates
factory:
MutableCollection<Person> notSmiths = people.reject(Predicates.attributeEqual("lastName", "Smith"));
reject
in interface ListIterable<T>
reject
in interface MutableCollection<T>
reject
in interface MutableList<T>
reject
in interface OrderedIterable<T>
reject
in interface ReversibleIterable<T>
reject
in interface RichIterable<T>
reject
in class AbstractUnmodifiableMutableCollection<T>
predicate
- a Predicate
to use as the reject criteriaPredicate.accept(Object)
method to evaluate to falsepublic <P> MutableList<T> rejectWith(Predicate2<? super T,? super P> predicate, P parameter)
MutableCollection
e.g. MutableCollection<Integer> selected = integers.rejectWith(Predicates2.equal(), Integer.valueOf(5));
rejectWith
in interface ListIterable<T>
rejectWith
in interface MutableCollection<T>
rejectWith
in interface MutableList<T>
rejectWith
in interface OrderedIterable<T>
rejectWith
in interface ReversibleIterable<T>
rejectWith
in interface RichIterable<T>
rejectWith
in class AbstractUnmodifiableMutableCollection<T>
predicate
- a Predicate2
to use as the select criteriaparameter
- a parameter to pass in for evaluation of the second argument P
in predicate
RichIterable.select(Predicate)
public MutableList<T> select(Predicate<? super T> predicate)
MutableCollection
MutableCollection<Integer> livesInLondon = people.select(person -> person.getAddress().getCity().equals("London"));
select
in interface ListIterable<T>
select
in interface MutableCollection<T>
select
in interface MutableList<T>
select
in interface OrderedIterable<T>
select
in interface ReversibleIterable<T>
select
in interface RichIterable<T>
select
in class AbstractUnmodifiableMutableCollection<T>
public <P> MutableList<T> selectWith(Predicate2<? super T,? super P> predicate, P parameter)
MutableCollection
MutableCollection<Integer> fives = integers.selectWith(Predicates2.equal(), Integer.valueOf(5));
selectWith
in interface ListIterable<T>
selectWith
in interface MutableCollection<T>
selectWith
in interface MutableList<T>
selectWith
in interface OrderedIterable<T>
selectWith
in interface ReversibleIterable<T>
selectWith
in interface RichIterable<T>
selectWith
in class AbstractUnmodifiableMutableCollection<T>
predicate
- a Predicate2
to use as the select criteriaparameter
- a parameter to pass in for evaluation of the second argument P
in predicate
RichIterable.select(Predicate)
public PartitionMutableList<T> partition(Predicate<? super T> predicate)
MutableCollection
Example using a Java 8 lambda expression:
PartitionIterable<Person> newYorkersAndNonNewYorkers = people.partition(person -> person.getAddress().getState().getName().equals("New York"));
Example using an anonymous inner class:
PartitionIterable<Person> newYorkersAndNonNewYorkers = people.partition(new Predicate<Person>() { public boolean accept(Person person) { return person.getAddress().getState().getName().equals("New York"); } });Co-variant example for MutableCollection:
PartitionMutableCollection<Person> newYorkersAndNonNewYorkers = people.partition(person -> person.getAddress().getState().getName().equals("New York"));
partition
in interface ListIterable<T>
partition
in interface MutableCollection<T>
partition
in interface MutableList<T>
partition
in interface OrderedIterable<T>
partition
in interface ReversibleIterable<T>
partition
in interface RichIterable<T>
partition
in class AbstractUnmodifiableMutableCollection<T>
public <P> PartitionMutableList<T> partitionWith(Predicate2<? super T,? super P> predicate, P parameter)
MutableCollection
Example using a Java 8 lambda expression:
PartitionIterable<Person> newYorkersAndNonNewYorkers = people.partitionWith((Person person, String state) -> person.getAddress().getState().getName().equals(state), "New York");
Example using an anonymous inner class:
PartitionIterable<Person> newYorkersAndNonNewYorkers = people.partitionWith(new Predicate2<Person, String>() { public boolean accept(Person person, String state) { return person.getAddress().getState().getName().equals(state); } }, "New York");Co-variant example for MutableCollection:
PartitionMutableCollection<Person> newYorkersAndNonNewYorkers = people.partitionWith((Person person, String state) -> person.getAddress().getState().getName().equals(state), "New York");
partitionWith
in interface ListIterable<T>
partitionWith
in interface MutableCollection<T>
partitionWith
in interface MutableList<T>
partitionWith
in interface OrderedIterable<T>
partitionWith
in interface ReversibleIterable<T>
partitionWith
in interface RichIterable<T>
partitionWith
in class AbstractUnmodifiableMutableCollection<T>
public <S> MutableList<S> selectInstancesOf(Class<S> clazz)
MutableCollection
clazz
.
RichIterable<Integer> integers = List.mutable.with(new Integer(0), new Long(0L), new Double(0.0)).selectInstancesOf(Integer.class);Co-variant example for MutableCollection:
MutableCollection<Integer> integers = List.mutable.with(new Integer(0), new Long(0L), new Double(0.0)).selectInstancesOf(Integer.class);
selectInstancesOf
in interface ListIterable<T>
selectInstancesOf
in interface MutableCollection<T>
selectInstancesOf
in interface MutableList<T>
selectInstancesOf
in interface OrderedIterable<T>
selectInstancesOf
in interface ReversibleIterable<T>
selectInstancesOf
in interface RichIterable<T>
selectInstancesOf
in class AbstractUnmodifiableMutableCollection<T>
public MutableList<T> distinct()
MutableList
ListIterable
containing the distinct elements in this list.distinct
in interface ListIterable<T>
distinct
in interface MutableList<T>
distinct
in interface OrderedIterable<T>
distinct
in interface ReversibleIterable<T>
ListIterable
of distinct elementspublic MutableList<T> distinct(HashingStrategy<? super T> hashingStrategy)
MutableList
ListIterable
containing the distinct elements in this list. Takes HashingStrategy.distinct
in interface ListIterable<T>
distinct
in interface MutableList<T>
ListIterable
of distinct elementspublic <V> MutableList<T> distinctBy(Function<? super T,? extends V> function)
ListIterable
ListIterable
containing the distinct elements in this list.
The specified function will be used to create a HashingStrategy to unique the elements.distinctBy
in interface ListIterable<T>
distinctBy
in interface MutableList<T>
ListIterable.distinct(HashingStrategy)
public <S> MutableList<Pair<T,S>> zip(Iterable<S> that)
RichIterable
RichIterable
formed from this RichIterable
and another RichIterable
by
combining corresponding elements in pairs. If one of the two RichIterable
s is longer than the other, its
remaining elements are ignored.zip
in interface ListIterable<T>
zip
in interface MutableCollection<T>
zip
in interface MutableList<T>
zip
in interface OrderedIterable<T>
zip
in interface ReversibleIterable<T>
zip
in interface RichIterable<T>
zip
in class AbstractUnmodifiableMutableCollection<T>
S
- the type of the second half of the returned pairsthat
- The RichIterable
providing the second half of each result pairRichIterable
containing pairs consisting of corresponding elements of this
RichIterable
and that. The length of the returned RichIterable
is the minimum of the lengths of
this RichIterable
and that.public MutableList<Pair<T,Integer>> zipWithIndex()
RichIterable
RichIterable
with its indices.zipWithIndex
in interface ListIterable<T>
zipWithIndex
in interface MutableCollection<T>
zipWithIndex
in interface MutableList<T>
zipWithIndex
in interface OrderedIterable<T>
zipWithIndex
in interface ReversibleIterable<T>
zipWithIndex
in interface RichIterable<T>
zipWithIndex
in class AbstractUnmodifiableMutableCollection<T>
RichIterable
containing pairs consisting of all elements of this RichIterable
paired with their index. Indices start at 0.RichIterable.zip(Iterable)
public MutableList<T> take(int count)
ReversibleIterable
count
elements of the iterable
or all the elements in the iterable if count
is greater than the length of
the iterable.take
in interface ListIterable<T>
take
in interface MutableList<T>
take
in interface ReversibleIterable<T>
count
- the number of items to take.public MutableList<T> takeWhile(Predicate<? super T> predicate)
ListIterable
takeWhile
in interface ListIterable<T>
takeWhile
in interface MutableList<T>
takeWhile
in interface OrderedIterable<T>
takeWhile
in interface ReversibleIterable<T>
public MutableList<T> drop(int count)
ReversibleIterable
count
elements
or an empty iterable if the count
is greater than the length of the iterable.drop
in interface ListIterable<T>
drop
in interface MutableList<T>
drop
in interface ReversibleIterable<T>
count
- the number of items to drop.public MutableList<T> dropWhile(Predicate<? super T> predicate)
ListIterable
dropWhile
in interface ListIterable<T>
dropWhile
in interface MutableList<T>
dropWhile
in interface OrderedIterable<T>
dropWhile
in interface ReversibleIterable<T>
public PartitionMutableList<T> partitionWhile(Predicate<? super T> predicate)
ListIterable
partitionWhile
in interface ListIterable<T>
partitionWhile
in interface MutableList<T>
partitionWhile
in interface OrderedIterable<T>
partitionWhile
in interface ReversibleIterable<T>
public LazyIterable<T> asReversed()
ReversibleIterable
asReversed
in interface ReversibleIterable<T>
public ParallelListIterable<T> asParallel(ExecutorService executorService, int batchSize)
ListIterable
asParallel
in interface ListIterable<T>
public int binarySearch(T key, Comparator<? super T> comparator)
ListIterable
binarySearch
in interface ListIterable<T>
Collections.binarySearch(List, Object, Comparator)
public int binarySearch(T key)
ListIterable
binarySearch
in interface ListIterable<T>
Collections.binarySearch(List, Object)
public MutableList<T> with(T element)
MutableCollection
MutableCollection<String> list = list.with("1"); list = list.with("2"); return list;In the case of
FixedSizeCollection
a new instance of MutableCollection will be returned by with, and any
variables that previously referenced the original collection will need to be redirected to reference the
new instance. For other MutableCollection types you will replace the reference to collection with the same
collection, since the instance will return "this" after calling add on itself.with
in interface MutableCollection<T>
with
in interface MutableList<T>
with
in class AbstractUnmodifiableMutableCollection<T>
Collection.add(Object)
public MutableList<T> without(T element)
MutableCollection
MutableCollection<String> list = list.without("1"); list = list.without("2"); return list;In the case of
FixedSizeCollection
a new instance of MutableCollection will be returned by without, and
any variables that previously referenced the original collection will need to be redirected to reference the
new instance. For other MutableCollection types you will replace the reference to collection with the same
collection, since the instance will return "this" after calling remove on itself.without
in interface MutableCollection<T>
without
in interface MutableList<T>
without
in class AbstractUnmodifiableMutableCollection<T>
Collection.remove(Object)
public MutableList<T> withAll(Iterable<? extends T> elements)
MutableCollection
MutableCollection<String> list = list.withAll(FastList.newListWith("1", "2"));In the case of
FixedSizeCollection
a new instance of MutableCollection will be returned by withAll, and
any variables that previously referenced the original collection will need to be redirected to reference the
new instance. For other MutableCollection types you will replace the reference to collection with the same
collection, since the instance will return "this" after calling addAll on itself.withAll
in interface MutableCollection<T>
withAll
in interface MutableList<T>
withAll
in class AbstractUnmodifiableMutableCollection<T>
Collection.addAll(Collection)
public MutableList<T> withoutAll(Iterable<? extends T> elements)
MutableCollection
MutableCollection<String> list = list.withoutAll(FastList.newListWith("1", "2"));In the case of
FixedSizeCollection
a new instance of MutableCollection will be returned by withoutAll,
and any variables that previously referenced the original collection will need to be redirected to reference the
new instance. For other MutableCollection types you will replace the reference to collection with the same
collection, since the instance will return "this" after calling removeAll on itself.withoutAll
in interface MutableCollection<T>
withoutAll
in interface MutableList<T>
withoutAll
in class AbstractUnmodifiableMutableCollection<T>
Collection.removeAll(Collection)
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