Package org.eclipse.collections.impl.set.mutable

Class SynchronizedMutableSet<T>

java.lang.Object

org.eclipse.collections.impl.collection.AbstractSynchronizedRichIterable<T>

org.eclipse.collections.impl.collection.mutable.AbstractSynchronizedMutableCollection<T>

org.eclipse.collections.impl.set.mutable.SynchronizedMutableSet<T>

All Implemented Interfaces:

Serializable, Cloneable, Iterable<T>, Collection<T>, Set<T>, MutableCollection<T>, InternalIterable<T>, RichIterable<T>, MutableSet<T>, MutableSetIterable<T>, SetIterable<T>, UnsortedSetIterable<T>

public class SynchronizedMutableSet<T>
extends AbstractSynchronizedMutableCollection<T>
implements MutableSet<T>, Serializable

A synchronized view of a MutableSet. It is imperative that the user manually synchronize on the collection when iterating over it using the standard JDK iterator or JDK 5 for loop, as per Collections.synchronizedCollection(Collection).

See Also:

• MutableSet.asSynchronized()
• Serialized Form

Method Summary

Modifier and Type	Method	Description
ParallelUnsortedSetIterable<T>	asParallel(ExecutorService executorService, int batchSize)	Returns a parallel iterable of this SetIterable.
MutableSet<T>	asSynchronized()	Returns a synchronized wrapper backed by this collection.
MutableSet<T>	asUnmodifiable()	Returns an unmodifiable view of the set.
<B> LazyIterable<Pair<T,B>>	cartesianProduct(SetIterable<B> set)	Returns the set whose members are all possible ordered pairs (a, b) where a is a member of this and b is a member of set.
MutableSet<T>	clone()
<V> MutableSet<V>	collect(Function<? super T,? extends V> function)	Returns a new collection with the results of applying the specified function on each element of the source collection.
MutableBooleanSet	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.
MutableByteSet	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.
MutableCharSet	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.
MutableDoubleSet	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.
MutableFloatSet	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> MutableSet<V>	collectIf(Predicate<? super T> predicate, Function<? super T,? extends V> function)	Returns a new collection with the results of applying the specified function on each element of the source collection, but only for those elements which return true upon evaluation of the predicate.
MutableIntSet	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.
MutableLongSet	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.
MutableShortSet	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, V> MutableSet<V>	collectWith(Function2<? super T,? super P,? extends V> function, P parameter)	Same as RichIterable.collect(Function) with a Function2 and specified parameter which is passed to the block.
MutableSet<T>	difference(SetIterable<? extends T> subtrahendSet)	Returns the set of all members of this that are not members of subtrahendSet.
<R extends Set<T>> R	differenceInto(SetIterable<? extends T> subtrahendSet, R targetSet)	Same as SetIterable.difference(SetIterable) but adds all the objects to targetSet and returns it.
<V> MutableSet<V>	flatCollect(Function<? super T,? extends Iterable<V>> function)	flatCollect is a special case of RichIterable.collect(Function).
<V> MutableSetMultimap<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> MutableSetMultimap<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.
MutableSet<T>	intersect(SetIterable<? extends T> set)	Returns the set of all objects that are members of both this and set.
<R extends Set<T>> R	intersectInto(SetIterable<? extends T> set, R targetSet)	Same as SetIterable.intersect(SetIterable) but adds all the objects to targetSet and returns it.
boolean	isProperSubsetOf(SetIterable<? extends T> candidateSuperset)	Returns true if all the members of this are also members of candidateSuperset and the two sets are not equal.
boolean	isSubsetOf(SetIterable<? extends T> candidateSuperset)	Returns true if all the members of this are also members of candidateSuperset.
MutableSet<T>	newEmpty()	Creates a new empty mutable version of the same collection type.
static <E, S extends Set<E>> SynchronizedMutableSet<E>	of(S set)	This method will take a MutableSet and wrap it directly in a SynchronizedMutableSet.
static <E, S extends Set<E>> SynchronizedMutableSet<E>	of(S set, Object lock)	This method will take a MutableSet and wrap it directly in a SynchronizedMutableSet.
PartitionMutableSet<T>	partition(Predicate<? super T> predicate)	Filters a collection into a PartitionedIterable based on the evaluation of the predicate.
<P> PartitionMutableSet<T>	partitionWith(Predicate2<? super T,? super P> predicate, P parameter)	Filters a collection into a PartitionIterable based on the evaluation of the predicate.
MutableSet<UnsortedSetIterable<T>>	powerSet()	Returns the set whose members are all possible subsets of this.
MutableSet<T>	reject(Predicate<? super T> predicate)	Returns all elements of the source collection that return false when evaluating of the predicate.
<P> MutableSet<T>	rejectWith(Predicate2<? super T,? super P> predicate, P parameter)	Similar to RichIterable.reject(Predicate), except with an evaluation parameter for the second generic argument in Predicate2.
MutableSet<T>	select(Predicate<? super T> predicate)	Returns all elements of the source collection that return true when evaluating the predicate.
<S> MutableSet<S>	selectInstancesOf(Class<S> clazz)	Returns all elements of the source collection that are instances of the Class clazz.
<P> MutableSet<T>	selectWith(Predicate2<? super T,? super P> predicate, P parameter)	Similar to RichIterable.select(Predicate), except with an evaluation parameter for the second generic argument in Predicate2.
MutableSet<T>	symmetricDifference(SetIterable<? extends T> setB)	Returns the set of all objects that are a member of exactly one of this and setB (elements which are in one of the sets, but not in both).
<R extends Set<T>> R	symmetricDifferenceInto(SetIterable<? extends T> set, R targetSet)	Same as SetIterable.symmetricDifference(SetIterable) but adds all the objects to targetSet and returns it.
MutableSet<T>	tap(Procedure<? super T> procedure)	Executes the Procedure for each element in the iterable and returns this.
ImmutableSet<T>	toImmutable()	Returns an immutable copy of this set.
MutableSet<T>	union(SetIterable<? extends T> set)	Returns the set of all objects that are a member of this or set or both.
<R extends Set<T>> R	unionInto(SetIterable<? extends T> set, R targetSet)	Same as SetIterable.union(SetIterable) but adds all the objects to targetSet and returns it.
MutableSet<T>	with(T element)	This method allows mutable and fixed size collections the ability to add elements to their existing elements.
MutableSet<T>	withAll(Iterable<? extends T> elements)	This method allows mutable and fixed size collections the ability to add multiple elements to their existing elements.
MutableSet<T>	without(T element)	This method allows mutable and fixed size collections the ability to remove elements from their existing elements.
MutableSet<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> MutableSet<Pair<T,S>>	zip(Iterable<S> that)	Deprecated. in 6.0.
MutableSet<Pair<T,Integer>>	zipWithIndex()	Deprecated. in 6.0.

Methods inherited from class org.eclipse.collections.impl.collection.mutable.AbstractSynchronizedMutableCollection

add, addAll, addAllIterable, aggregateBy, aggregateInPlaceBy, clear, countBy, countByEach, countByWith, groupByUniqueKey, injectIntoWith, remove, removeAll, removeAllIterable, removeIf, removeIfWith, retainAll, retainAllIterable, selectAndRejectWith, sumByDouble, sumByFloat, sumByInt, sumByLong

Methods inherited from class org.eclipse.collections.impl.collection.AbstractSynchronizedRichIterable

allSatisfy, allSatisfyWith, anySatisfy, anySatisfyWith, appendString, appendString, appendString, asLazy, chunk, collect, collectBoolean, collectByte, collectChar, collectDouble, collectFloat, collectIf, collectInt, collectLong, collectShort, collectWith, contains, containsAll, containsAllArguments, containsAllIterable, containsAny, containsAnyIterable, containsNone, containsNoneIterable, count, countBy, countByEach, countByWith, countWith, detect, detectIfNone, detectOptional, detectWith, detectWithIfNone, detectWithOptional, each, equals, flatCollect, flatCollectBoolean, flatCollectByte, flatCollectChar, flatCollectDouble, flatCollectFloat, flatCollectInt, flatCollectLong, flatCollectShort, forEachWith, forEachWithIndex, getFirst, getLast, getOnly, groupBy, groupByEach, groupByUniqueKey, hashCode, injectInto, injectInto, injectInto, injectInto, injectInto, into, isEmpty, iterator, makeString, makeString, makeString, makeString, max, max, maxBy, maxByOptional, maxOptional, maxOptional, min, min, minBy, minByOptional, minOptional, minOptional, noneSatisfy, noneSatisfyWith, notEmpty, reject, rejectWith, select, selectWith, size, sumOfDouble, sumOfFloat, sumOfInt, sumOfLong, toArray, toArray, toBag, toBiMap, toImmutableBag, toImmutableList, toImmutableSet, toImmutableSortedBag, toImmutableSortedBag, toImmutableSortedBagBy, toImmutableSortedList, toImmutableSortedList, toImmutableSortedSet, toImmutableSortedSet, toImmutableSortedSetBy, toList, toMap, toMap, toSet, toSortedBag, toSortedBag, toSortedList, toSortedList, toSortedListBy, toSortedMap, toSortedMap, toSortedMapBy, toSortedSet, toSortedSet, toString, zip, zipWithIndex

Methods inherited from class java.lang.Object

getClass, notify, notifyAll, wait, wait, wait

Methods inherited from interface java.util.Collection

parallelStream, removeIf, stream, toArray

Methods inherited from interface org.eclipse.collections.api.InternalIterable

forEach, forEachWith, forEachWithIndex

Methods inherited from interface org.eclipse.collections.api.collection.MutableCollection

addAllIterable, aggregateBy, aggregateInPlaceBy, countBy, countByEach, countByWith, flatCollectWith, groupByUniqueKey, injectIntoWith, removeAllIterable, removeIf, removeIfWith, retainAllIterable, selectAndRejectWith, sumByDouble, sumByFloat, sumByInt, sumByLong

Methods inherited from interface org.eclipse.collections.api.set.MutableSet

flatCollectWith, toImmutableSet

Methods inherited from interface org.eclipse.collections.api.RichIterable

aggregateBy, allSatisfy, allSatisfyWith, anySatisfy, anySatisfyWith, appendString, appendString, appendString, asLazy, chunk, collect, collectBoolean, collectByte, collectChar, collectDouble, collectFloat, collectIf, collectInt, collectLong, collectShort, collectWith, contains, containsAll, containsAllArguments, containsAllIterable, containsAny, containsAnyIterable, containsBy, containsNone, containsNoneIterable, count, countBy, countByEach, countByWith, countWith, detect, detectIfNone, detectOptional, detectWith, detectWithIfNone, detectWithOptional, each, flatCollect, flatCollectBoolean, flatCollectByte, flatCollectChar, flatCollectDouble, flatCollectFloat, flatCollectInt, flatCollectLong, flatCollectShort, flatCollectWith, forEach, getAny, getFirst, getLast, getOnly, groupBy, groupByAndCollect, groupByEach, groupByUniqueKey, injectInto, injectInto, injectInto, injectInto, injectInto, injectIntoDouble, injectIntoFloat, injectIntoInt, injectIntoLong, into, isEmpty, makeString, makeString, makeString, makeString, max, max, maxBy, maxByOptional, maxOptional, maxOptional, min, 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, toImmutableBag, toImmutableBiMap, toImmutableList, toImmutableMap, toImmutableSortedBag, toImmutableSortedBag, toImmutableSortedBagBy, toImmutableSortedList, toImmutableSortedList, toImmutableSortedListBy, toImmutableSortedSet, toImmutableSortedSet, toImmutableSortedSetBy, toList, toMap, toMap, toSet, toSortedBag, toSortedBag, toSortedBagBy, toSortedList, toSortedList, toSortedListBy, toSortedMap, toSortedMap, toSortedMapBy, toSortedSet, toSortedSet, toSortedSetBy, toString, zip, zipWithIndex

Methods inherited from interface java.util.Set

add, addAll, clear, contains, containsAll, equals, hashCode, isEmpty, iterator, remove, removeAll, retainAll, size, spliterator, toArray, toArray

Methods inherited from interface org.eclipse.collections.api.set.SetIterable

equals, hashCode

Method Details

of

public static <E,
S extends Set<E>>
SynchronizedMutableSet<E> of(S set)

This method will take a MutableSet and wrap it directly in a SynchronizedMutableSet. It will take any other non-Eclipse-Collections collection and first adapt it will a SetAdapter, and then return a SynchronizedMutableSet that wraps the adapter.

of

public static <E,
S extends Set<E>>
SynchronizedMutableSet<E> of(S set,
 Object lock)

This method will take a MutableSet and wrap it directly in a SynchronizedMutableSet. It will take any other non-Eclipse-Collections collection and first adapt it will a SetAdapter, and then return a SynchronizedMutableSet that wraps the adapter. Additionally, a developer specifies which lock to use with the collection.

with

public MutableSet<T> with(T element)

Description copied from interface: MutableCollection

This method allows mutable and fixed size collections the ability to add elements to their existing elements. In order to support fixed size a new instance of a collection would have to be returned taking the elements of the original collection and appending the new element to form the new collection. In the case of mutable collections, the original collection is modified, and is returned. In order to use this method properly with mutable and fixed size collections the following approach must be taken:

 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.

Specified by:

with in interface MutableCollection<T>

Specified by:

with in interface MutableSet<T>

Specified by:

with in interface MutableSetIterable<T>

See Also:

• Collection.add(Object)

without

public MutableSet<T> without(T element)

Description copied from interface: MutableCollection

This method allows mutable and fixed size collections the ability to remove elements from their existing elements. In order to support fixed size a new instance of a collection would have to be returned containing the elements that would be left from the original collection after calling remove. In the case of mutable collections, the original collection is modified, and is returned. In order to use this method properly with mutable and fixed size collections the following approach must be taken:

 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.

Specified by:

without in interface MutableCollection<T>

Specified by:

without in interface MutableSet<T>

Specified by:

without in interface MutableSetIterable<T>

See Also:

• Collection.remove(Object)

withAll

public MutableSet<T> withAll(Iterable<? extends T> elements)

Description copied from interface: MutableCollection

This method allows mutable and fixed size collections the ability to add multiple elements to their existing elements. In order to support fixed size a new instance of a collection would have to be returned taking the elements of the original collection and appending the new elements to form the new collection. In the case of mutable collections, the original collection is modified, and is returned. In order to use this method properly with mutable and fixed size collections the following approach must be taken:

 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.

Specified by:

withAll in interface MutableCollection<T>

Specified by:

withAll in interface MutableSet<T>

Specified by:

withAll in interface MutableSetIterable<T>

See Also:

• Collection.addAll(Collection)

withoutAll

public MutableSet<T> withoutAll(Iterable<? extends T> elements)

Description copied from interface: MutableCollection

This method allows mutable and fixed size collections the ability to remove multiple elements from their existing elements. In order to support fixed size a new instance of a collection would have to be returned containing the elements that would be left from the original collection after calling removeAll. In the case of mutable collections, the original collection is modified, and is returned. In order to use this method properly with mutable and fixed size collections the following approach must be taken:

 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.

Specified by:

withoutAll in interface MutableCollection<T>

Specified by:

withoutAll in interface MutableSet<T>

Specified by:

withoutAll in interface MutableSetIterable<T>

See Also:

• Collection.removeAll(Collection)

newEmpty

public MutableSet<T> newEmpty()

Description copied from interface: MutableCollection

Creates a new empty mutable version of the same collection type. For example, if this instance is a FastList, this method will return a new empty FastList. If the class of this instance is immutable or fixed size (i.e. SingletonList) then a mutable alternative to the class will be provided.

Specified by:

newEmpty in interface MutableCollection<T>

Specified by:

newEmpty in interface MutableSet<T>

clone

public MutableSet<T> clone()

Specified by:

clone in interface MutableSet<T>

tap

public MutableSet<T> tap(Procedure<? super T> procedure)

Description copied from interface: RichIterable

Executes the Procedure for each element in the iterable and returns 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());
         }
     });
 

Specified by:

tap in interface MutableCollection<T>

Specified by:

tap in interface MutableSet<T>

Specified by:

tap in interface MutableSetIterable<T>

Specified by:

tap in interface RichIterable<T>

Specified by:

tap in interface SetIterable<T>

Specified by:

tap in interface UnsortedSetIterable<T>

Overrides:

tap in class AbstractSynchronizedMutableCollection<T>

See Also:

• RichIterable.each(Procedure)
• RichIterable.forEach(Procedure)

select

public MutableSet<T> select(Predicate<? super T> predicate)

Description copied from interface: RichIterable

Returns all elements of the source collection that return true when evaluating the predicate. This method is also commonly called filter.

Example using a Java 8 lambda expression:

 RichIterable<Person> selected =
     people.select(person -> person.getAddress().getCity().equals("London"));
 

Example using an anonymous inner class:

 RichIterable<Person> selected =
     people.select(new Predicate<Person>()
     {
         public boolean accept(Person person)
         {
             return person.getAddress().getCity().equals("London");
         }
     });
 

Specified by:

select in interface MutableCollection<T>

Specified by:

select in interface MutableSet<T>

Specified by:

select in interface MutableSetIterable<T>

Specified by:

select in interface RichIterable<T>

Specified by:

select in interface SetIterable<T>

Specified by:

select in interface UnsortedSetIterable<T>

Overrides:

select in class AbstractSynchronizedMutableCollection<T>

selectWith

public <P> MutableSet<T> selectWith(Predicate2<? super T,? super P> predicate,
 P parameter)

Description copied from interface: RichIterable

Similar to RichIterable.select(Predicate), except with an evaluation parameter for the second generic argument in Predicate2.

E.g. return a Collection of Person elements where the person has an age greater than or equal to 18 years

Example using a Java 8 lambda expression:

 RichIterable<Person> selected =
     people.selectWith((Person person, Integer age) -> person.getAge()>= age, Integer.valueOf(18));
 

Example using an anonymous inner class:

 RichIterable<Person> selected =
     people.selectWith(new Predicate2<Person, Integer>()
     {
         public boolean accept(Person person, Integer age)
         {
             return person.getAge()>= age;
         }
     }, Integer.valueOf(18));
 

Specified by:

selectWith in interface MutableCollection<T>

Specified by:

selectWith in interface MutableSet<T>

Specified by:

selectWith in interface MutableSetIterable<T>

Specified by:

selectWith in interface RichIterable<T>

Specified by:

selectWith in interface SetIterable<T>

Specified by:

selectWith in interface UnsortedSetIterable<T>

Overrides:

selectWith in class AbstractSynchronizedMutableCollection<T>

Parameters:

predicate - a Predicate2 to use as the select criteria

parameter - a parameter to pass in for evaluation of the second argument P in predicate

See Also:

• RichIterable.select(Predicate)

reject

public MutableSet<T> reject(Predicate<? super T> predicate)

Description copied from interface: RichIterable

Returns all elements of the source collection that return false when evaluating of the predicate. This method is also sometimes called filterNot and is the equivalent of calling iterable.select(Predicates.not(predicate)).

Example using a Java 8 lambda expression:

 RichIterable<Person> rejected =
     people.reject(person -> person.person.getLastName().equals("Smith"));
 

Example using an anonymous inner class:

 RichIterable<Person> rejected =
     people.reject(new Predicate<Person>()
     {
         public boolean accept(Person person)
         {
             return person.person.getLastName().equals("Smith");
         }
     });
 

Specified by:

reject in interface MutableCollection<T>

Specified by:

reject in interface MutableSet<T>

Specified by:

reject in interface MutableSetIterable<T>

Specified by:

reject in interface RichIterable<T>

Specified by:

reject in interface SetIterable<T>

Specified by:

reject in interface UnsortedSetIterable<T>

Overrides:

reject in class AbstractSynchronizedMutableCollection<T>

Parameters:

predicate - a Predicate to use as the reject criteria

Returns:

a RichIterable that contains elements that cause Predicate.accept(Object) method to evaluate to false

rejectWith

public <P> MutableSet<T> rejectWith(Predicate2<? super T,? super P> predicate,
 P parameter)

Description copied from interface: RichIterable

Similar to RichIterable.reject(Predicate), except with an evaluation parameter for the second generic argument in Predicate2.

E.g. return a Collection of Person elements where the person has an age greater than or equal to 18 years

Example using a Java 8 lambda expression:

 RichIterable<Person> rejected =
     people.rejectWith((Person person, Integer age) -> person.getAge() < age, Integer.valueOf(18));
 

Example using an anonymous inner class:

 MutableList<Person> rejected =
     people.rejectWith(new Predicate2<Person, Integer>()
     {
         public boolean accept(Person person, Integer age)
         {
             return person.getAge() < age;
         }
     }, Integer.valueOf(18));
 

Specified by:

rejectWith in interface MutableCollection<T>

Specified by:

rejectWith in interface MutableSet<T>

Specified by:

rejectWith in interface MutableSetIterable<T>

Specified by:

rejectWith in interface RichIterable<T>

Specified by:

rejectWith in interface SetIterable<T>

Specified by:

rejectWith in interface UnsortedSetIterable<T>

Overrides:

rejectWith in class AbstractSynchronizedMutableCollection<T>

Parameters:

predicate - a Predicate2 to use as the select criteria

parameter - a parameter to pass in for evaluation of the second argument P in predicate

See Also:

• RichIterable.select(Predicate)

partition

public PartitionMutableSet<T> partition(Predicate<? super T> predicate)

Description copied from interface: RichIterable

Filters a collection into a PartitionedIterable based on the evaluation of the predicate.

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");
         }
     });
 

Specified by:

partition in interface MutableCollection<T>

Specified by:

partition in interface MutableSet<T>

Specified by:

partition in interface MutableSetIterable<T>

Specified by:

partition in interface RichIterable<T>

Specified by:

partition in interface SetIterable<T>

Overrides:

partition in class AbstractSynchronizedMutableCollection<T>

partitionWith

public <P> PartitionMutableSet<T> partitionWith(Predicate2<? super T,? super P> predicate,
 P parameter)

Description copied from interface: RichIterable

Filters a collection into a PartitionIterable based on the evaluation of the predicate.

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");
 

Specified by:

partitionWith in interface MutableCollection<T>

Specified by:

partitionWith in interface MutableSet<T>

Specified by:

partitionWith in interface MutableSetIterable<T>

Specified by:

partitionWith in interface RichIterable<T>

Specified by:

partitionWith in interface SetIterable<T>

Overrides:

partitionWith in class AbstractSynchronizedMutableCollection<T>

collectBoolean

public MutableBooleanSet collectBoolean(BooleanFunction<? super T> booleanFunction)

Description copied from interface: RichIterable

Returns a new primitive 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();
         }
     });
 

Specified by:

collectBoolean in interface MutableCollection<T>

Specified by:

collectBoolean in interface MutableSet<T>

Specified by:

collectBoolean in interface RichIterable<T>

Specified by:

collectBoolean in interface UnsortedSetIterable<T>

Overrides:

collectBoolean in class AbstractSynchronizedMutableCollection<T>

collectByte

public MutableByteSet collectByte(ByteFunction<? super T> byteFunction)

Description copied from interface: RichIterable

Returns a new primitive 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();
         }
     });
 

Specified by:

collectByte in interface MutableCollection<T>

Specified by:

collectByte in interface MutableSet<T>

Specified by:

collectByte in interface RichIterable<T>

Specified by:

collectByte in interface UnsortedSetIterable<T>

Overrides:

collectByte in class AbstractSynchronizedMutableCollection<T>

collectChar

public MutableCharSet collectChar(CharFunction<? super T> charFunction)

Description copied from interface: RichIterable

Returns a new primitive 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();
         }
     });
 

Specified by:

collectChar in interface MutableCollection<T>

Specified by:

collectChar in interface MutableSet<T>

Specified by:

collectChar in interface RichIterable<T>

Specified by:

collectChar in interface UnsortedSetIterable<T>

Overrides:

collectChar in class AbstractSynchronizedMutableCollection<T>

collectDouble

public MutableDoubleSet collectDouble(DoubleFunction<? super T> doubleFunction)

Description copied from interface: RichIterable

Returns a new primitive 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();
         }
     });
 

Specified by:

collectDouble in interface MutableCollection<T>

Specified by:

collectDouble in interface MutableSet<T>

Specified by:

collectDouble in interface RichIterable<T>

Specified by:

collectDouble in interface UnsortedSetIterable<T>

Overrides:

collectDouble in class AbstractSynchronizedMutableCollection<T>

collectFloat

public MutableFloatSet collectFloat(FloatFunction<? super T> floatFunction)

Description copied from interface: RichIterable

Returns a new primitive 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();
         }
     });
 

Specified by:

collectFloat in interface MutableCollection<T>

Specified by:

collectFloat in interface MutableSet<T>

Specified by:

collectFloat in interface RichIterable<T>

Specified by:

collectFloat in interface UnsortedSetIterable<T>

Overrides:

collectFloat in class AbstractSynchronizedMutableCollection<T>

collectInt

public MutableIntSet collectInt(IntFunction<? super T> intFunction)

Description copied from interface: RichIterable

Returns a new primitive 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();
         }
     });
 

Specified by:

collectInt in interface MutableCollection<T>

Specified by:

collectInt in interface MutableSet<T>

Specified by:

collectInt in interface RichIterable<T>

Specified by:

collectInt in interface UnsortedSetIterable<T>

Overrides:

collectInt in class AbstractSynchronizedMutableCollection<T>

collectLong

public MutableLongSet collectLong(LongFunction<? super T> longFunction)

Description copied from interface: RichIterable

Returns a new primitive 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();
         }
     });
 

Specified by:

collectLong in interface MutableCollection<T>

Specified by:

collectLong in interface MutableSet<T>

Specified by:

collectLong in interface RichIterable<T>

Specified by:

collectLong in interface UnsortedSetIterable<T>

Overrides:

collectLong in class AbstractSynchronizedMutableCollection<T>

collectShort

public MutableShortSet collectShort(ShortFunction<? super T> shortFunction)

Description copied from interface: RichIterable

Returns a new primitive 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();
         }
     });
 

Specified by:

collectShort in interface MutableCollection<T>

Specified by:

collectShort in interface MutableSet<T>

Specified by:

collectShort in interface RichIterable<T>

Specified by:

collectShort in interface UnsortedSetIterable<T>

Overrides:

collectShort in class AbstractSynchronizedMutableCollection<T>

selectInstancesOf

public <S> MutableSet<S> selectInstancesOf(Class<S> clazz)

Description copied from interface: RichIterable

Returns all elements of the source collection that are instances of the Class clazz.

 RichIterable<Integer> integers =
     List.mutable.with(new Integer(0), new Long(0L), new Double(0.0)).selectInstancesOf(Integer.class);
 

Specified by:

selectInstancesOf in interface MutableCollection<T>

Specified by:

selectInstancesOf in interface MutableSet<T>

Specified by:

selectInstancesOf in interface MutableSetIterable<T>

Specified by:

selectInstancesOf in interface RichIterable<T>

Specified by:

selectInstancesOf in interface SetIterable<T>

Specified by:

selectInstancesOf in interface UnsortedSetIterable<T>

Overrides:

selectInstancesOf in class AbstractSynchronizedMutableCollection<T>

collect

public <V> MutableSet<V> collect(Function<? super T,? extends V> function)

Description copied from interface: RichIterable

Returns a new collection 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:

 RichIterable<String> names =
     people.collect(person -> person.getFirstName() + " " + person.getLastName());
 

Example using an anonymous inner class:

 RichIterable<String> names =
     people.collect(new Function<Person, String>()
     {
         public String valueOf(Person person)
         {
             return person.getFirstName() + " " + person.getLastName();
         }
     });
 

Specified by:

collect in interface MutableCollection<T>

Specified by:

collect in interface MutableSet<T>

Specified by:

collect in interface RichIterable<T>

Specified by:

collect in interface UnsortedSetIterable<T>

Overrides:

collect in class AbstractSynchronizedMutableCollection<T>

zipWithIndex

@Deprecated
public MutableSet<Pair<T,Integer>> zipWithIndex()

Deprecated.

in 6.0. Use OrderedIterable.zipWithIndex() instead.

Description copied from interface: RichIterable

Zips this RichIterable with its indices.

Specified by:

zipWithIndex in interface MutableCollection<T>

Specified by:

zipWithIndex in interface MutableSet<T>

Specified by:

zipWithIndex in interface MutableSetIterable<T>

Specified by:

zipWithIndex in interface RichIterable<T>

Specified by:

zipWithIndex in interface SetIterable<T>

Specified by:

zipWithIndex in interface UnsortedSetIterable<T>

Overrides:

zipWithIndex in class AbstractSynchronizedMutableCollection<T>

Returns:

A new RichIterable containing pairs consisting of all elements of this RichIterable paired with their index. Indices start at 0.

See Also:

• RichIterable.zip(Iterable)

collectWith

public <P,
V> MutableSet<V> collectWith(Function2<? super T,? super P,? extends V> function,
 P parameter)

Description copied from interface: RichIterable

Same as 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));
 

Specified by:

collectWith in interface MutableCollection<T>

Specified by:

collectWith in interface MutableSet<T>

Specified by:

collectWith in interface RichIterable<T>

Specified by:

collectWith in interface UnsortedSetIterable<T>

Overrides:

collectWith in class AbstractSynchronizedMutableCollection<T>

Parameters:

function - A Function2 to use as the collect transformation function

parameter - A parameter to pass in for evaluation of the second argument P in function

Returns:

A new RichIterable that contains the transformed elements returned by Function2.value(Object, Object)

See Also:

• RichIterable.collect(Function)

collectIf

public <V> MutableSet<V> collectIf(Predicate<? super T> predicate,
 Function<? super T,? extends V> function)

Description copied from interface: RichIterable

Returns a new collection with the results of applying the specified function on each element of the source collection, but only for those elements which return true upon evaluation of the predicate. This is the optimized equivalent of calling iterable.select(predicate).collect(function).

Example using a Java 8 lambda and method reference:

 RichIterable<String> strings = Lists.mutable.with(1, 2, 3).collectIf(e -> e != null, Object::toString);
 

Example using Predicates factory:

 RichIterable<String> strings = Lists.mutable.with(1, 2, 3).collectIf(Predicates.notNull(), Functions.getToString());
 

Specified by:

collectIf in interface MutableCollection<T>

Specified by:

collectIf in interface MutableSet<T>

Specified by:

collectIf in interface RichIterable<T>

Specified by:

collectIf in interface UnsortedSetIterable<T>

Overrides:

collectIf in class AbstractSynchronizedMutableCollection<T>

flatCollect

public <V> MutableSet<V> flatCollect(Function<? super T,? extends Iterable<V>> function)

Description copied from interface: RichIterable

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);
 

Specified by:

flatCollect in interface MutableCollection<T>

Specified by:

flatCollect in interface MutableSet<T>

Specified by:

flatCollect in interface RichIterable<T>

Specified by:

flatCollect in interface UnsortedSetIterable<T>

Overrides:

flatCollect in class AbstractSynchronizedMutableCollection<T>

Parameters:

function - The Function to apply

Returns:

a new flattened collection produced by applying the given function

groupBy

public <V> MutableSetMultimap<V,T> groupBy(Function<? super T,? extends V> function)

Description copied from interface: RichIterable

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.

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();
         }
     });
 

Specified by:

groupBy in interface MutableCollection<T>

Specified by:

groupBy in interface MutableSet<T>

Specified by:

groupBy in interface MutableSetIterable<T>

Specified by:

groupBy in interface RichIterable<T>

Specified by:

groupBy in interface UnsortedSetIterable<T>

Overrides:

groupBy in class AbstractSynchronizedMutableCollection<T>

groupByEach

public <V> MutableSetMultimap<V,T> groupByEach(Function<? super T,? extends Iterable<V>> function)

Description copied from interface: RichIterable

Similar to RichIterable.groupBy(Function), except the result of evaluating function will return a collection of keys for each value.

Specified by:

groupByEach in interface MutableCollection<T>

Specified by:

groupByEach in interface MutableSet<T>

Specified by:

groupByEach in interface MutableSetIterable<T>

Specified by:

groupByEach in interface RichIterable<T>

Specified by:

groupByEach in interface UnsortedSetIterable<T>

Overrides:

groupByEach in class AbstractSynchronizedMutableCollection<T>

zip

@Deprecated
public <S> MutableSet<Pair<T,S>> zip(Iterable<S> that)

Deprecated.

in 6.0. Use OrderedIterable.zip(Iterable) instead.

Description copied from interface: RichIterable

Returns a RichIterable formed from this RichIterable and another RichIterable by combining corresponding elements in pairs. If one of the two RichIterables is longer than the other, its remaining elements are ignored.

Specified by:

zip in interface MutableCollection<T>

Specified by:

zip in interface MutableSet<T>

Specified by:

zip in interface MutableSetIterable<T>

Specified by:

zip in interface RichIterable<T>

Specified by:

zip in interface UnsortedSetIterable<T>

Overrides:

zip in class AbstractSynchronizedMutableCollection<T>

Type Parameters:

S - the type of the second half of the returned pairs

Parameters:

that - The RichIterable providing the second half of each result pair

Returns:

A new RichIterable 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.

unionInto

public <R extends Set<T>> R unionInto(SetIterable<? extends T> set,
 R targetSet)

Description copied from interface: SetIterable

Same as SetIterable.union(SetIterable) but adds all the objects to targetSet and returns it.

Specified by:

unionInto in interface SetIterable<T>

intersectInto

public <R extends Set<T>> R intersectInto(SetIterable<? extends T> set,
 R targetSet)

Description copied from interface: SetIterable

Same as SetIterable.intersect(SetIterable) but adds all the objects to targetSet and returns it.

Specified by:

intersectInto in interface SetIterable<T>

differenceInto

public <R extends Set<T>> R differenceInto(SetIterable<? extends T> subtrahendSet,
 R targetSet)

Description copied from interface: SetIterable

Same as SetIterable.difference(SetIterable) but adds all the objects to targetSet and returns it.

Specified by:

differenceInto in interface SetIterable<T>

symmetricDifferenceInto

public <R extends Set<T>> R symmetricDifferenceInto(SetIterable<? extends T> set,
 R targetSet)

Description copied from interface: SetIterable

Same as SetIterable.symmetricDifference(SetIterable) but adds all the objects to targetSet and returns it.

Specified by:

symmetricDifferenceInto in interface SetIterable<T>

isSubsetOf

public boolean isSubsetOf(SetIterable<? extends T> candidateSuperset)

Description copied from interface: SetIterable

Returns true if all the members of this are also members of candidateSuperset. For example, [1, 2] is a subset of [1, 2, 3], but [1, 4] is not.

Specified by:

isSubsetOf in interface SetIterable<T>

isProperSubsetOf

public boolean isProperSubsetOf(SetIterable<? extends T> candidateSuperset)

Description copied from interface: SetIterable

Returns true if all the members of this are also members of candidateSuperset and the two sets are not equal. For example, [1, 2] is a proper subset of [1, 2, 3], but [1, 2, 3] is not.

Specified by:

isProperSubsetOf in interface SetIterable<T>

cartesianProduct

public <B> LazyIterable<Pair<T,B>> cartesianProduct(SetIterable<B> set)

Description copied from interface: SetIterable

Returns the set whose members are all possible ordered pairs (a, b) where a is a member of this and b is a member of set.

Specified by:

cartesianProduct in interface SetIterable<T>

union

public MutableSet<T> union(SetIterable<? extends T> set)

Description copied from interface: SetIterable

Returns the set of all objects that are a member of this or set or both. The union of [1, 2, 3] and [2, 3, 4] is the set [1, 2, 3, 4]. If equal elements appear in both sets, then the output will contain the copy from this.

Specified by:

union in interface MutableSet<T>

Specified by:

union in interface SetIterable<T>

Specified by:

union in interface UnsortedSetIterable<T>

intersect

public MutableSet<T> intersect(SetIterable<? extends T> set)

Description copied from interface: SetIterable

Returns the set of all objects that are members of both this and set. The intersection of [1, 2, 3] and [2, 3, 4] is the set [2, 3]. The output will contain instances from this, not set.

Specified by:

intersect in interface MutableSet<T>

Specified by:

intersect in interface SetIterable<T>

Specified by:

intersect in interface UnsortedSetIterable<T>

difference

public MutableSet<T> difference(SetIterable<? extends T> subtrahendSet)

Description copied from interface: SetIterable

Returns the set of all members of this that are not members of subtrahendSet. The difference of [1, 2, 3] and [2, 3, 4] is [1].

Specified by:

difference in interface MutableSet<T>

Specified by:

difference in interface SetIterable<T>

Specified by:

difference in interface UnsortedSetIterable<T>

symmetricDifference

public MutableSet<T> symmetricDifference(SetIterable<? extends T> setB)

Description copied from interface: SetIterable

Returns the set of all objects that are a member of exactly one of this and setB (elements which are in one of the sets, but not in both). For instance, for the sets [1, 2, 3] and [2, 3, 4], the symmetric difference set is [1, 4] . It is the set difference of the union and the intersection.

Specified by:

symmetricDifference in interface MutableSet<T>

Specified by:

symmetricDifference in interface SetIterable<T>

Specified by:

symmetricDifference in interface UnsortedSetIterable<T>

powerSet

public MutableSet<UnsortedSetIterable<T>> powerSet()

Description copied from interface: UnsortedSetIterable

Returns the set whose members are all possible subsets of this. For example, the powerset of [1, 2] is [[], [1], [2], [1, 2]].

Specified by:

powerSet in interface MutableSet<T>

Specified by:

powerSet in interface UnsortedSetIterable<T>

asParallel

public ParallelUnsortedSetIterable<T> asParallel(ExecutorService executorService,
 int batchSize)

Description copied from interface: SetIterable

Returns a parallel iterable of this SetIterable.

Specified by:

asParallel in interface SetIterable<T>

Specified by:

asParallel in interface UnsortedSetIterable<T>

asUnmodifiable

public MutableSet<T> asUnmodifiable()

Description copied from interface: MutableSet

Returns an unmodifiable view of the set.

Specified by:

asUnmodifiable in interface MutableCollection<T>

Specified by:

asUnmodifiable in interface MutableSet<T>

Returns:

an unmodifiable view of this set

See Also:

• Collections.unmodifiableCollection(Collection)

asSynchronized

public MutableSet<T> asSynchronized()

Description copied from interface: MutableCollection

Returns a synchronized wrapper backed by this collection. This is the equivalent of using 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.

Specified by:

asSynchronized in interface MutableCollection<T>

Specified by:

asSynchronized in interface MutableSet<T>

Returns:

a synchronized view of this collection.

See Also:

• Collections.synchronizedCollection(Collection)

toImmutable

public ImmutableSet<T> toImmutable()

Description copied from interface: MutableSet

Returns an immutable copy of this set. If the set is immutable, it returns itself.

Specified by:

toImmutable in interface MutableCollection<T>

Specified by:

toImmutable in interface MutableSet<T>

Specified by:

toImmutable in interface SetIterable<T>

Specified by:

toImmutable in interface UnsortedSetIterable<T>