Class CollectionUtils
- java.lang.Object
-
- org.apache.commons.collections4.CollectionUtils
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public class CollectionUtils extends Object
Provides utility methods and decorators forCollection
instances.Various utility methods might put the input objects into a Set/Map/Bag. In case the input objects override
Object.equals(Object)
, it is mandatory that the general contract of theObject.hashCode()
method is maintained.NOTE: From 4.0, method parameters will take
Iterable
objects when possible.- Since:
- 1.0
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Field Summary
Fields Modifier and Type Field Description static Collection
EMPTY_COLLECTION
An empty unmodifiable collection.
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Method Summary
All Methods Static Methods Concrete Methods Deprecated Methods Modifier and Type Method Description static <C> boolean
addAll(Collection<C> collection, C... elements)
Adds all elements in the array to the given collection.static <C> boolean
addAll(Collection<C> collection, Iterable<? extends C> iterable)
Adds all elements in theIterable
to the given collection.static <C> boolean
addAll(Collection<C> collection, Enumeration<? extends C> enumeration)
Adds all elements in the enumeration to the given collection.static <C> boolean
addAll(Collection<C> collection, Iterator<? extends C> iterator)
Adds all elements in the iteration to the given collection.static <T> boolean
addIgnoreNull(Collection<T> collection, T object)
Adds an element to the collection unless the element is null.static <O> int
cardinality(O obj, Iterable<? super O> coll)
Deprecated.since 4.1, useIterableUtils.frequency(Iterable, Object)
instead.static <O extends Comparable<? super O>>
List<O>collate(Iterable<? extends O> a, Iterable<? extends O> b)
Merges two sorted Collections, a and b, into a single, sorted List such that the natural ordering of the elements is retained.static <O extends Comparable<? super O>>
List<O>collate(Iterable<? extends O> a, Iterable<? extends O> b, boolean includeDuplicates)
Merges two sorted Collections, a and b, into a single, sorted List such that the natural ordering of the elements is retained.static <O> List<O>
collate(Iterable<? extends O> a, Iterable<? extends O> b, Comparator<? super O> c)
Merges two sorted Collections, a and b, into a single, sorted List such that the ordering of the elements according to Comparator c is retained.static <O> List<O>
collate(Iterable<? extends O> a, Iterable<? extends O> b, Comparator<? super O> c, boolean includeDuplicates)
Merges two sorted Collections, a and b, into a single, sorted List such that the ordering of the elements according to Comparator c is retained.static <I,O,R extends Collection<? super O>>
Rcollect(Iterable<? extends I> inputCollection, Transformer<? super I,? extends O> transformer, R outputCollection)
Transforms all elements from input collection with the given transformer and adds them to the output collection.static <I,O>
Collection<O>collect(Iterable<I> inputCollection, Transformer<? super I,? extends O> transformer)
Returns a new Collection containing all elements of the input collection transformed by the given transformer.static <I,O,R extends Collection<? super O>>
Rcollect(Iterator<? extends I> inputIterator, Transformer<? super I,? extends O> transformer, R outputCollection)
Transforms all elements from the input iterator with the given transformer and adds them to the output collection.static <I,O>
Collection<O>collect(Iterator<I> inputIterator, Transformer<? super I,? extends O> transformer)
Transforms all elements from the input iterator with the given transformer and adds them to the output collection.static boolean
containsAll(Collection<?> coll1, Collection<?> coll2)
Returnstrue
iff all elements ofcoll2
are also contained incoll1
.static boolean
containsAny(Collection<?> coll1, Collection<?> coll2)
Returnstrue
iff at least one element is in both collections.static <T> boolean
containsAny(Collection<?> coll1, T... coll2)
Returnstrue
iff at least one element is in both collections.static <C> int
countMatches(Iterable<C> input, Predicate<? super C> predicate)
Deprecated.since 4.1, useIterableUtils.countMatches(Iterable, Predicate)
insteadstatic <O> Collection<O>
disjunction(Iterable<? extends O> a, Iterable<? extends O> b)
Returns aCollection
containing the exclusive disjunction (symmetric difference) of the givenIterable
s.static <T> Collection<T>
emptyCollection()
Returns the immutable EMPTY_COLLECTION with generic type safety.static <T> Collection<T>
emptyIfNull(Collection<T> collection)
Returns an immutable empty collection if the argument isnull
, or the argument itself otherwise.static <C> boolean
exists(Iterable<C> input, Predicate<? super C> predicate)
Deprecated.since 4.1, useIterableUtils.matchesAny(Iterable, Predicate)
insteadstatic <E> E
extractSingleton(Collection<E> collection)
Extract the lone element of the specified Collection.static <T> boolean
filter(Iterable<T> collection, Predicate<? super T> predicate)
Filter the collection by applying a Predicate to each element.static <T> boolean
filterInverse(Iterable<T> collection, Predicate<? super T> predicate)
Filter the collection by applying a Predicate to each element.static <T> T
find(Iterable<T> collection, Predicate<? super T> predicate)
Deprecated.since 4.1, useIterableUtils.find(Iterable, Predicate)
insteadstatic <T,C extends Closure<? super T>>
TforAllButLastDo(Iterable<T> collection, C closure)
Deprecated.since 4.1, useIterableUtils.forEachButLast(Iterable, Closure)
insteadstatic <T,C extends Closure<? super T>>
TforAllButLastDo(Iterator<T> iterator, C closure)
Deprecated.since 4.1, useIteratorUtils.forEachButLast(Iterator, Closure)
insteadstatic <T,C extends Closure<? super T>>
CforAllDo(Iterable<T> collection, C closure)
Deprecated.since 4.1, useIterableUtils.forEach(Iterable, Closure)
insteadstatic <T,C extends Closure<? super T>>
CforAllDo(Iterator<T> iterator, C closure)
Deprecated.since 4.1, useIteratorUtils.forEach(Iterator, Closure)
insteadstatic <T> T
get(Iterable<T> iterable, int index)
Deprecated.since 4.1, useIterableUtils.get(Iterable, int)
insteadstatic Object
get(Object object, int index)
Returns theindex
-th value inobject
, throwingIndexOutOfBoundsException
if there is no such element orIllegalArgumentException
ifobject
is not an instance of one of the supported types.static <T> T
get(Iterator<T> iterator, int index)
Deprecated.since 4.1, useIteratorUtils.get(Iterator, int)
insteadstatic <K,V>
Map.Entry<K,V>get(Map<K,V> map, int index)
Returns theindex
-thMap.Entry
in themap
'sentrySet
, throwingIndexOutOfBoundsException
if there is no such element.static <O> Map<O,Integer>
getCardinalityMap(Iterable<? extends O> coll)
Returns aMap
mapping each unique element in the givenCollection
to anInteger
representing the number of occurrences of that element in theCollection
.static <O> Collection<O>
intersection(Iterable<? extends O> a, Iterable<? extends O> b)
Returns aCollection
containing the intersection of the givenIterable
s.static boolean
isEmpty(Collection<?> coll)
Null-safe check if the specified collection is empty.static boolean
isEqualCollection(Collection<?> a, Collection<?> b)
Returnstrue
iff the givenCollection
s contain exactly the same elements with exactly the same cardinalities.static <E> boolean
isEqualCollection(Collection<? extends E> a, Collection<? extends E> b, Equator<? super E> equator)
Returnstrue
iff the givenCollection
s contain exactly the same elements with exactly the same cardinalities.static boolean
isFull(Collection<? extends Object> coll)
Returns true if no more elements can be added to the Collection.static boolean
isNotEmpty(Collection<?> coll)
Null-safe check if the specified collection is not empty.static boolean
isProperSubCollection(Collection<?> a, Collection<?> b)
Returnstrue
iff a is a proper sub-collection of b, that is, iff the cardinality of e in a is less than or equal to the cardinality of e in b, for each element e in a, and there is at least one element f such that the cardinality of f in b is strictly greater than the cardinality of f in a.static boolean
isSubCollection(Collection<?> a, Collection<?> b)
Returnstrue
iff a is a sub-collection of b, that is, iff the cardinality of e in a is less than or equal to the cardinality of e in b, for each element e in a.static <C> boolean
matchesAll(Iterable<C> input, Predicate<? super C> predicate)
Deprecated.since 4.1, useIterableUtils.matchesAll(Iterable, Predicate)
insteadstatic int
maxSize(Collection<? extends Object> coll)
Get the maximum number of elements that the Collection can contain.static <E> Collection<List<E>>
permutations(Collection<E> collection)
Returns aCollection
of all the permutations of the input collection.static <C> Collection<C>
predicatedCollection(Collection<C> collection, Predicate<? super C> predicate)
Returns a predicated (validating) collection backed by the given collection.static <E> Collection<E>
removeAll(Iterable<E> collection, Iterable<? extends E> remove, Equator<? super E> equator)
Removes all elements inremove
fromcollection
.static <E> Collection<E>
removeAll(Collection<E> collection, Collection<?> remove)
Removes the elements inremove
fromcollection
.static <E> Collection<E>
retainAll(Iterable<E> collection, Iterable<? extends E> retain, Equator<? super E> equator)
Returns a collection containing all the elements incollection
that are also inretain
.static <C> Collection<C>
retainAll(Collection<C> collection, Collection<?> retain)
Returns a collection containing all the elements incollection
that are also inretain
.static void
reverseArray(Object[] array)
Reverses the order of the given array.static <O> Collection<O>
select(Iterable<? extends O> inputCollection, Predicate<? super O> predicate)
Selects all elements from input collection which match the given predicate into an output collection.static <O,R extends Collection<? super O>>
Rselect(Iterable<? extends O> inputCollection, Predicate<? super O> predicate, R outputCollection)
Selects all elements from input collection which match the given predicate and adds them to outputCollection.static <O,R extends Collection<? super O>>
Rselect(Iterable<? extends O> inputCollection, Predicate<? super O> predicate, R outputCollection, R rejectedCollection)
Selects all elements from inputCollection into an output and rejected collection, based on the evaluation of the given predicate.static <O> Collection<O>
selectRejected(Iterable<? extends O> inputCollection, Predicate<? super O> predicate)
Selects all elements from inputCollection which don't match the given predicate into an output collection.static <O,R extends Collection<? super O>>
RselectRejected(Iterable<? extends O> inputCollection, Predicate<? super O> predicate, R outputCollection)
Selects all elements from inputCollection which don't match the given predicate and adds them to outputCollection.static int
size(Object object)
Gets the size of the collection/iterator specified.static boolean
sizeIsEmpty(Object object)
Checks if the specified collection/array/iterator is empty.static <O> Collection<O>
subtract(Iterable<? extends O> a, Iterable<? extends O> b)
Returns a newCollection
containing<i>a</i> - <i>b</i>
.static <O> Collection<O>
subtract(Iterable<? extends O> a, Iterable<? extends O> b, Predicate<O> p)
Returns a newCollection
containing a minus a subset of b.static <C> Collection<C>
synchronizedCollection(Collection<C> collection)
Deprecated.since 4.1, useCollections.synchronizedCollection(Collection)
insteadstatic <C> void
transform(Collection<C> collection, Transformer<? super C,? extends C> transformer)
Transform the collection by applying a Transformer to each element.static <E> Collection<E>
transformingCollection(Collection<E> collection, Transformer<? super E,? extends E> transformer)
Returns a transformed bag backed by the given collection.static <O> Collection<O>
union(Iterable<? extends O> a, Iterable<? extends O> b)
Returns aCollection
containing the union of the givenIterable
s.static <C> Collection<C>
unmodifiableCollection(Collection<? extends C> collection)
Deprecated.since 4.1, useCollections.unmodifiableCollection(Collection)
instead
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Field Detail
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EMPTY_COLLECTION
public static final Collection EMPTY_COLLECTION
An empty unmodifiable collection. The JDK provides empty Set and List implementations which could be used for this purpose. However they could be cast to Set or List which might be undesirable. This implementation only implements Collection.
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Method Detail
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emptyCollection
public static <T> Collection<T> emptyCollection()
Returns the immutable EMPTY_COLLECTION with generic type safety.- Type Parameters:
T
- the element type- Returns:
- immutable empty collection
- Since:
- 4.0
- See Also:
EMPTY_COLLECTION
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emptyIfNull
public static <T> Collection<T> emptyIfNull(Collection<T> collection)
Returns an immutable empty collection if the argument isnull
, or the argument itself otherwise.- Type Parameters:
T
- the element type- Parameters:
collection
- the collection, possiblynull
- Returns:
- an empty collection if the argument is
null
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union
public static <O> Collection<O> union(Iterable<? extends O> a, Iterable<? extends O> b)
Returns aCollection
containing the union of the givenIterable
s.The cardinality of each element in the returned
Collection
will be equal to the maximum of the cardinality of that element in the two givenIterable
s.- Type Parameters:
O
- the generic type that is able to represent the types contained in both input collections.- Parameters:
a
- the first collection, must not be nullb
- the second collection, must not be null- Returns:
- the union of the two collections
- See Also:
Collection.addAll(java.util.Collection<? extends E>)
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intersection
public static <O> Collection<O> intersection(Iterable<? extends O> a, Iterable<? extends O> b)
Returns aCollection
containing the intersection of the givenIterable
s.The cardinality of each element in the returned
Collection
will be equal to the minimum of the cardinality of that element in the two givenIterable
s.- Type Parameters:
O
- the generic type that is able to represent the types contained in both input collections.- Parameters:
a
- the first collection, must not be nullb
- the second collection, must not be null- Returns:
- the intersection of the two collections
- See Also:
Collection.retainAll(java.util.Collection<?>)
,containsAny(java.util.Collection<?>, T...)
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disjunction
public static <O> Collection<O> disjunction(Iterable<? extends O> a, Iterable<? extends O> b)
Returns aCollection
containing the exclusive disjunction (symmetric difference) of the givenIterable
s.The cardinality of each element e in the returned
Collection
will be equal tomax(cardinality(e,a),cardinality(e,b)) - min(cardinality(e,a), cardinality(e,b))
.This is equivalent to
{@link #subtract subtract}({@link #union union(a,b)},{@link #intersection intersection(a,b)})
or{@link #union union}({@link #subtract subtract(a,b)},{@link #subtract subtract(b,a)})
.- Type Parameters:
O
- the generic type that is able to represent the types contained in both input collections.- Parameters:
a
- the first collection, must not be nullb
- the second collection, must not be null- Returns:
- the symmetric difference of the two collections
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subtract
public static <O> Collection<O> subtract(Iterable<? extends O> a, Iterable<? extends O> b)
Returns a newCollection
containing<i>a</i> - <i>b</i>
. The cardinality of each element e in the returnedCollection
will be the cardinality of e in a minus the cardinality of e in b, or zero, whichever is greater.- Type Parameters:
O
- the generic type that is able to represent the types contained in both input collections.- Parameters:
a
- the collection to subtract from, must not be nullb
- the collection to subtract, must not be null- Returns:
- a new collection with the results
- See Also:
Collection.removeAll(java.util.Collection<?>)
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subtract
public static <O> Collection<O> subtract(Iterable<? extends O> a, Iterable<? extends O> b, Predicate<O> p)
Returns a newCollection
containing a minus a subset of b. Only the elements of b that satisfy the predicate condition, p are subtracted from a.The cardinality of each element e in the returned
Collection
that satisfies the predicate condition will be the cardinality of e in a minus the cardinality of e in b, or zero, whichever is greater.The cardinality of each element e in the returned
Collection
that does not satisfy the predicate condition will be equal to the cardinality of e in a.- Type Parameters:
O
- the generic type that is able to represent the types contained in both input collections.- Parameters:
a
- the collection to subtract from, must not be nullb
- the collection to subtract, must not be nullp
- the condition used to determine which elements of b are subtracted.- Returns:
- a new collection with the results
- Since:
- 4.0
- See Also:
Collection.removeAll(java.util.Collection<?>)
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containsAll
public static boolean containsAll(Collection<?> coll1, Collection<?> coll2)
Returnstrue
iff all elements ofcoll2
are also contained incoll1
. The cardinality of values incoll2
is not taken into account, which is the same behavior asCollection.containsAll(Collection)
.In other words, this method returns
true
iff theintersection(java.lang.Iterable<? extends O>, java.lang.Iterable<? extends O>)
of coll1 and coll2 has the same cardinality as the set of unique values fromcoll2
. In casecoll2
is empty,true
will be returned.This method is intended as a replacement for
Collection.containsAll(Collection)
with a guaranteed runtime complexity ofO(n + m)
. Depending on the type ofCollection
provided, this method will be much faster than callingCollection.containsAll(Collection)
instead, though this will come at the cost of an additional space complexity O(n).- Parameters:
coll1
- the first collection, must not be nullcoll2
- the second collection, must not be null- Returns:
true
iff the intersection of the collections has the same cardinality as the set of unique elements from the second collection- Since:
- 4.0
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containsAny
public static <T> boolean containsAny(Collection<?> coll1, T... coll2)
Returnstrue
iff at least one element is in both collections.In other words, this method returns
true
iff theintersection(java.lang.Iterable<? extends O>, java.lang.Iterable<? extends O>)
of coll1 and coll2 is not empty.- Type Parameters:
T
- the type of object to lookup incoll1
.- Parameters:
coll1
- the first collection, must not be nullcoll2
- the second collection, must not be null- Returns:
true
iff the intersection of the collections is non-empty- Since:
- 4.2
- See Also:
intersection(java.lang.Iterable<? extends O>, java.lang.Iterable<? extends O>)
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containsAny
public static boolean containsAny(Collection<?> coll1, Collection<?> coll2)
Returnstrue
iff at least one element is in both collections.In other words, this method returns
true
iff theintersection(java.lang.Iterable<? extends O>, java.lang.Iterable<? extends O>)
of coll1 and coll2 is not empty.- Parameters:
coll1
- the first collection, must not be nullcoll2
- the second collection, must not be null- Returns:
true
iff the intersection of the collections is non-empty- Since:
- 2.1
- See Also:
intersection(java.lang.Iterable<? extends O>, java.lang.Iterable<? extends O>)
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getCardinalityMap
public static <O> Map<O,Integer> getCardinalityMap(Iterable<? extends O> coll)
Returns aMap
mapping each unique element in the givenCollection
to anInteger
representing the number of occurrences of that element in theCollection
.Only those elements present in the collection will appear as keys in the map.
- Type Parameters:
O
- the type of object in the returnedMap
. This is a super type of <I>.- Parameters:
coll
- the collection to get the cardinality map for, must not be null- Returns:
- the populated cardinality map
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isSubCollection
public static boolean isSubCollection(Collection<?> a, Collection<?> b)
Returnstrue
iff a is a sub-collection of b, that is, iff the cardinality of e in a is less than or equal to the cardinality of e in b, for each element e in a.- Parameters:
a
- the first (sub?) collection, must not be nullb
- the second (super?) collection, must not be null- Returns:
true
iff a is a sub-collection of b- See Also:
isProperSubCollection(java.util.Collection<?>, java.util.Collection<?>)
,Collection.containsAll(java.util.Collection<?>)
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isProperSubCollection
public static boolean isProperSubCollection(Collection<?> a, Collection<?> b)
Returnstrue
iff a is a proper sub-collection of b, that is, iff the cardinality of e in a is less than or equal to the cardinality of e in b, for each element e in a, and there is at least one element f such that the cardinality of f in b is strictly greater than the cardinality of f in a.The implementation assumes
a.size()
andb.size()
represent the total cardinality of a and b, resp.a.size() < Integer.MAXVALUE
- Parameters:
a
- the first (sub?) collection, must not be nullb
- the second (super?) collection, must not be null- Returns:
true
iff a is a proper sub-collection of b- See Also:
isSubCollection(java.util.Collection<?>, java.util.Collection<?>)
,Collection.containsAll(java.util.Collection<?>)
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isEqualCollection
public static boolean isEqualCollection(Collection<?> a, Collection<?> b)
Returnstrue
iff the givenCollection
s contain exactly the same elements with exactly the same cardinalities.That is, iff the cardinality of e in a is equal to the cardinality of e in b, for each element e in a or b.
- Parameters:
a
- the first collection, must not be nullb
- the second collection, must not be null- Returns:
true
iff the collections contain the same elements with the same cardinalities.
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isEqualCollection
public static <E> boolean isEqualCollection(Collection<? extends E> a, Collection<? extends E> b, Equator<? super E> equator)
Returnstrue
iff the givenCollection
s contain exactly the same elements with exactly the same cardinalities.That is, iff the cardinality of e in a is equal to the cardinality of e in b, for each element e in a or b.
Note: from version 4.1 onwards this method requires the input collections and equator to be of compatible type (using bounded wildcards). Providing incompatible arguments (e.g. by casting to their rawtypes) will result in a
ClassCastException
thrown at runtime.- Type Parameters:
E
- the element type- Parameters:
a
- the first collection, must not be nullb
- the second collection, must not be nullequator
- the Equator used for testing equality- Returns:
true
iff the collections contain the same elements with the same cardinalities.- Throws:
NullPointerException
- if the equator is null- Since:
- 4.0
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cardinality
@Deprecated public static <O> int cardinality(O obj, Iterable<? super O> coll)
Deprecated.since 4.1, useIterableUtils.frequency(Iterable, Object)
instead. Be aware that the order of parameters has changed.Returns the number of occurrences of obj in coll.- Type Parameters:
O
- the type of object that theIterable
may contain.- Parameters:
obj
- the object to find the cardinality ofcoll
- theIterable
to search- Returns:
- the number of occurrences of obj in coll
- Throws:
NullPointerException
- if coll is null
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find
@Deprecated public static <T> T find(Iterable<T> collection, Predicate<? super T> predicate)
Deprecated.since 4.1, useIterableUtils.find(Iterable, Predicate)
insteadFinds the first element in the given collection which matches the given predicate.If the input collection or predicate is null, or no element of the collection matches the predicate, null is returned.
- Type Parameters:
T
- the type of object theIterable
contains- Parameters:
collection
- the collection to search, may be nullpredicate
- the predicate to use, may be null- Returns:
- the first element of the collection which matches the predicate or null if none could be found
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forAllDo
@Deprecated public static <T,C extends Closure<? super T>> C forAllDo(Iterable<T> collection, C closure)
Deprecated.since 4.1, useIterableUtils.forEach(Iterable, Closure)
insteadExecutes the given closure on each element in the collection.If the input collection or closure is null, there is no change made.
- Type Parameters:
T
- the type of object theIterable
containsC
- the closure type- Parameters:
collection
- the collection to get the input from, may be nullclosure
- the closure to perform, may be null- Returns:
- closure
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forAllDo
@Deprecated public static <T,C extends Closure<? super T>> C forAllDo(Iterator<T> iterator, C closure)
Deprecated.since 4.1, useIteratorUtils.forEach(Iterator, Closure)
insteadExecutes the given closure on each element in the collection.If the input collection or closure is null, there is no change made.
- Type Parameters:
T
- the type of object theIterator
containsC
- the closure type- Parameters:
iterator
- the iterator to get the input from, may be nullclosure
- the closure to perform, may be null- Returns:
- closure
- Since:
- 4.0
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forAllButLastDo
@Deprecated public static <T,C extends Closure<? super T>> T forAllButLastDo(Iterable<T> collection, C closure)
Deprecated.since 4.1, useIterableUtils.forEachButLast(Iterable, Closure)
insteadExecutes the given closure on each but the last element in the collection.If the input collection or closure is null, there is no change made.
- Type Parameters:
T
- the type of object theIterable
containsC
- the closure type- Parameters:
collection
- the collection to get the input from, may be nullclosure
- the closure to perform, may be null- Returns:
- the last element in the collection, or null if either collection or closure is null
- Since:
- 4.0
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forAllButLastDo
@Deprecated public static <T,C extends Closure<? super T>> T forAllButLastDo(Iterator<T> iterator, C closure)
Deprecated.since 4.1, useIteratorUtils.forEachButLast(Iterator, Closure)
insteadExecutes the given closure on each but the last element in the collection.If the input collection or closure is null, there is no change made.
- Type Parameters:
T
- the type of object theCollection
containsC
- the closure type- Parameters:
iterator
- the iterator to get the input from, may be nullclosure
- the closure to perform, may be null- Returns:
- the last element in the collection, or null if either iterator or closure is null
- Since:
- 4.0
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filter
public static <T> boolean filter(Iterable<T> collection, Predicate<? super T> predicate)
Filter the collection by applying a Predicate to each element. If the predicate returns false, remove the element.If the input collection or predicate is null, there is no change made.
- Type Parameters:
T
- the type of object theIterable
contains- Parameters:
collection
- the collection to get the input from, may be nullpredicate
- the predicate to use as a filter, may be null- Returns:
- true if the collection is modified by this call, false otherwise.
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filterInverse
public static <T> boolean filterInverse(Iterable<T> collection, Predicate<? super T> predicate)
Filter the collection by applying a Predicate to each element. If the predicate returns true, remove the element.This is equivalent to
filter(collection, PredicateUtils.notPredicate(predicate))
if predicate is != null.If the input collection or predicate is null, there is no change made.
- Type Parameters:
T
- the type of object theIterable
contains- Parameters:
collection
- the collection to get the input from, may be nullpredicate
- the predicate to use as a filter, may be null- Returns:
- true if the collection is modified by this call, false otherwise.
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transform
public static <C> void transform(Collection<C> collection, Transformer<? super C,? extends C> transformer)
Transform the collection by applying a Transformer to each element.If the input collection or transformer is null, there is no change made.
This routine is best for Lists, for which set() is used to do the transformations "in place." For other Collections, clear() and addAll() are used to replace elements.
If the input collection controls its input, such as a Set, and the Transformer creates duplicates (or are otherwise invalid), the collection may reduce in size due to calling this method.
- Type Parameters:
C
- the type of object theCollection
contains- Parameters:
collection
- theCollection
to get the input from, may be nulltransformer
- the transformer to perform, may be null
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countMatches
@Deprecated public static <C> int countMatches(Iterable<C> input, Predicate<? super C> predicate)
Deprecated.since 4.1, useIterableUtils.countMatches(Iterable, Predicate)
insteadCounts the number of elements in the input collection that match the predicate.A
null
collection or predicate matches no elements.
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exists
@Deprecated public static <C> boolean exists(Iterable<C> input, Predicate<? super C> predicate)
Deprecated.since 4.1, useIterableUtils.matchesAny(Iterable, Predicate)
insteadAnswers true if a predicate is true for at least one element of a collection.A
null
collection or predicate returns false.
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matchesAll
@Deprecated public static <C> boolean matchesAll(Iterable<C> input, Predicate<? super C> predicate)
Deprecated.since 4.1, useIterableUtils.matchesAll(Iterable, Predicate)
insteadAnswers true if a predicate is true for every element of a collection.A
null
predicate returns false.
Anull
or empty collection returns true.- Type Parameters:
C
- the type of object theIterable
contains- Parameters:
input
- theIterable
to get the input from, may be nullpredicate
- the predicate to use, may be null- Returns:
- true if every element of the collection matches the predicate or if the collection is empty, false otherwise
- Since:
- 4.0
-
select
public static <O> Collection<O> select(Iterable<? extends O> inputCollection, Predicate<? super O> predicate)
Selects all elements from input collection which match the given predicate into an output collection.A
null
predicate matches no elements.- Type Parameters:
O
- the type of object theIterable
contains- Parameters:
inputCollection
- the collection to get the input from, may not be nullpredicate
- the predicate to use, may be null- Returns:
- the elements matching the predicate (new list)
- Throws:
NullPointerException
- if the input collection is null
-
select
public static <O,R extends Collection<? super O>> R select(Iterable<? extends O> inputCollection, Predicate<? super O> predicate, R outputCollection)
Selects all elements from input collection which match the given predicate and adds them to outputCollection.If the input collection or predicate is null, there is no change to the output collection.
- Type Parameters:
O
- the type of object theIterable
containsR
- the type of the outputCollection
- Parameters:
inputCollection
- the collection to get the input from, may be nullpredicate
- the predicate to use, may be nulloutputCollection
- the collection to output into, may not be null if the inputCollection and predicate or not null- Returns:
- the outputCollection
-
select
public static <O,R extends Collection<? super O>> R select(Iterable<? extends O> inputCollection, Predicate<? super O> predicate, R outputCollection, R rejectedCollection)
Selects all elements from inputCollection into an output and rejected collection, based on the evaluation of the given predicate.Elements matching the predicate are added to the
outputCollection
, all other elements are added to therejectedCollection
.If the input predicate is
null
, no elements are added tooutputCollection
orrejectedCollection
.Note: calling the method is equivalent to the following code snippet:
select(inputCollection, predicate, outputCollection); selectRejected(inputCollection, predicate, rejectedCollection);
- Type Parameters:
O
- the type of object theIterable
containsR
- the type of the outputCollection
- Parameters:
inputCollection
- the collection to get the input from, may be nullpredicate
- the predicate to use, may be nulloutputCollection
- the collection to output selected elements into, may not be null if the inputCollection and predicate are not nullrejectedCollection
- the collection to output rejected elements into, may not be null if the inputCollection or predicate are not null- Returns:
- the outputCollection
- Since:
- 4.1
-
selectRejected
public static <O> Collection<O> selectRejected(Iterable<? extends O> inputCollection, Predicate<? super O> predicate)
Selects all elements from inputCollection which don't match the given predicate into an output collection.If the input predicate is
null
, the result is an empty list.- Type Parameters:
O
- the type of object theIterable
contains- Parameters:
inputCollection
- the collection to get the input from, may not be nullpredicate
- the predicate to use, may be null- Returns:
- the elements not matching the predicate (new list)
- Throws:
NullPointerException
- if the input collection is null
-
selectRejected
public static <O,R extends Collection<? super O>> R selectRejected(Iterable<? extends O> inputCollection, Predicate<? super O> predicate, R outputCollection)
Selects all elements from inputCollection which don't match the given predicate and adds them to outputCollection.If the input predicate is
null
, no elements are added tooutputCollection
.- Type Parameters:
O
- the type of object theIterable
containsR
- the type of the outputCollection
- Parameters:
inputCollection
- the collection to get the input from, may be nullpredicate
- the predicate to use, may be nulloutputCollection
- the collection to output into, may not be null if the inputCollection and predicate or not null- Returns:
- outputCollection
-
collect
public static <I,O> Collection<O> collect(Iterable<I> inputCollection, Transformer<? super I,? extends O> transformer)
Returns a new Collection containing all elements of the input collection transformed by the given transformer.If the input collection or transformer is null, the result is an empty list.
- Type Parameters:
I
- the type of object in the input collectionO
- the type of object in the output collection- Parameters:
inputCollection
- the collection to get the input from, may not be nulltransformer
- the transformer to use, may be null- Returns:
- the transformed result (new list)
- Throws:
NullPointerException
- if the input collection is null
-
collect
public static <I,O> Collection<O> collect(Iterator<I> inputIterator, Transformer<? super I,? extends O> transformer)
Transforms all elements from the input iterator with the given transformer and adds them to the output collection.If the input iterator or transformer is null, the result is an empty list.
- Type Parameters:
I
- the type of object in the input collectionO
- the type of object in the output collection- Parameters:
inputIterator
- the iterator to get the input from, may be nulltransformer
- the transformer to use, may be null- Returns:
- the transformed result (new list)
-
collect
public static <I,O,R extends Collection<? super O>> R collect(Iterable<? extends I> inputCollection, Transformer<? super I,? extends O> transformer, R outputCollection)
Transforms all elements from input collection with the given transformer and adds them to the output collection.If the input collection or transformer is null, there is no change to the output collection.
- Type Parameters:
I
- the type of object in the input collectionO
- the type of object in the output collectionR
- the type of the output collection- Parameters:
inputCollection
- the collection to get the input from, may be nulltransformer
- the transformer to use, may be nulloutputCollection
- the collection to output into, may not be null if inputCollection and transformer are not null- Returns:
- the output collection with the transformed input added
- Throws:
NullPointerException
- if the outputCollection is null and both, inputCollection and transformer are not null
-
collect
public static <I,O,R extends Collection<? super O>> R collect(Iterator<? extends I> inputIterator, Transformer<? super I,? extends O> transformer, R outputCollection)
Transforms all elements from the input iterator with the given transformer and adds them to the output collection.If the input iterator or transformer is null, there is no change to the output collection.
- Type Parameters:
I
- the type of object in the input collectionO
- the type of object in the output collectionR
- the type of the output collection- Parameters:
inputIterator
- the iterator to get the input from, may be nulltransformer
- the transformer to use, may be nulloutputCollection
- the collection to output into, may not be null if inputIterator and transformer are not null- Returns:
- the outputCollection with the transformed input added
- Throws:
NullPointerException
- if the output collection is null and both, inputIterator and transformer are not null
-
addIgnoreNull
public static <T> boolean addIgnoreNull(Collection<T> collection, T object)
Adds an element to the collection unless the element is null.- Type Parameters:
T
- the type of object theCollection
contains- Parameters:
collection
- the collection to add to, must not be nullobject
- the object to add, if null it will not be added- Returns:
- true if the collection changed
- Throws:
NullPointerException
- if the collection is null- Since:
- 3.2
-
addAll
public static <C> boolean addAll(Collection<C> collection, Iterable<? extends C> iterable)
Adds all elements in theIterable
to the given collection. If theIterable
is aCollection
then it is cast and will be added usingCollection.addAll(Collection)
instead of iterating.- Type Parameters:
C
- the type of object theCollection
contains- Parameters:
collection
- the collection to add to, must not be nulliterable
- the iterable of elements to add, must not be null- Returns:
- a boolean indicating whether the collection has changed or not.
- Throws:
NullPointerException
- if the collection or iterator is null
-
addAll
public static <C> boolean addAll(Collection<C> collection, Iterator<? extends C> iterator)
Adds all elements in the iteration to the given collection.- Type Parameters:
C
- the type of object theCollection
contains- Parameters:
collection
- the collection to add to, must not be nulliterator
- the iterator of elements to add, must not be null- Returns:
- a boolean indicating whether the collection has changed or not.
- Throws:
NullPointerException
- if the collection or iterator is null
-
addAll
public static <C> boolean addAll(Collection<C> collection, Enumeration<? extends C> enumeration)
Adds all elements in the enumeration to the given collection.- Type Parameters:
C
- the type of object theCollection
contains- Parameters:
collection
- the collection to add to, must not be nullenumeration
- the enumeration of elements to add, must not be null- Returns:
true
if the collections was changed,false
otherwise- Throws:
NullPointerException
- if the collection or enumeration is null
-
addAll
public static <C> boolean addAll(Collection<C> collection, C... elements)
Adds all elements in the array to the given collection.- Type Parameters:
C
- the type of object theCollection
contains- Parameters:
collection
- the collection to add to, must not be nullelements
- the array of elements to add, must not be null- Returns:
true
if the collection was changed,false
otherwise- Throws:
NullPointerException
- if the collection or array is null
-
get
@Deprecated public static <T> T get(Iterator<T> iterator, int index)
Deprecated.since 4.1, useIteratorUtils.get(Iterator, int)
insteadReturns theindex
-th value inIterator
, throwingIndexOutOfBoundsException
if there is no such element.The Iterator is advanced to
index
(or to the end, ifindex
exceeds the number of entries) as a side effect of this method.- Type Parameters:
T
- the type of object in theIterator
- Parameters:
iterator
- the iterator to get a value fromindex
- the index to get- Returns:
- the object at the specified index
- Throws:
IndexOutOfBoundsException
- if the index is invalidIllegalArgumentException
- if the object type is invalid
-
get
@Deprecated public static <T> T get(Iterable<T> iterable, int index)
Deprecated.since 4.1, useIterableUtils.get(Iterable, int)
insteadReturns theindex
-th value in theiterable
'sIterator
, throwingIndexOutOfBoundsException
if there is no such element.If the
Iterable
is aList
, then it will useList.get(int)
.- Type Parameters:
T
- the type of object in theIterable
.- Parameters:
iterable
- theIterable
to get a value fromindex
- the index to get- Returns:
- the object at the specified index
- Throws:
IndexOutOfBoundsException
- if the index is invalid
-
get
public static Object get(Object object, int index)
Returns theindex
-th value inobject
, throwingIndexOutOfBoundsException
if there is no such element orIllegalArgumentException
ifobject
is not an instance of one of the supported types.The supported types, and associated semantics are:
- Map -- the value returned is the
Map.Entry
in positionindex
in the map'sentrySet
iterator, if there is such an entry. - List -- this method is equivalent to the list's get method.
- Array -- the
index
-th array entry is returned, if there is such an entry; otherwise anIndexOutOfBoundsException
is thrown. - Collection -- the value returned is the
index
-th object returned by the collection's default iterator, if there is such an element. - Iterator or Enumeration -- the value returned is the
index
-th object in the Iterator/Enumeration, if there is such an element. The Iterator/Enumeration is advanced toindex
(or to the end, ifindex
exceeds the number of entries) as a side effect of this method.
- Parameters:
object
- the object to get a value fromindex
- the index to get- Returns:
- the object at the specified index
- Throws:
IndexOutOfBoundsException
- if the index is invalidIllegalArgumentException
- if the object type is invalid
- Map -- the value returned is the
-
get
public static <K,V> Map.Entry<K,V> get(Map<K,V> map, int index)
Returns theindex
-thMap.Entry
in themap
'sentrySet
, throwingIndexOutOfBoundsException
if there is no such element.- Type Parameters:
K
- the key type in theMap
V
- the key type in theMap
- Parameters:
map
- the object to get a value fromindex
- the index to get- Returns:
- the object at the specified index
- Throws:
IndexOutOfBoundsException
- if the index is invalid
-
size
public static int size(Object object)
Gets the size of the collection/iterator specified.This method can handles objects as follows
- Collection - the collection size
- Map - the map size
- Array - the array size
- Iterator - the number of elements remaining in the iterator
- Enumeration - the number of elements remaining in the enumeration
- Parameters:
object
- the object to get the size of, may be null- Returns:
- the size of the specified collection or 0 if the object was null
- Throws:
IllegalArgumentException
- thrown if object is not recognized- Since:
- 3.1
-
sizeIsEmpty
public static boolean sizeIsEmpty(Object object)
Checks if the specified collection/array/iterator is empty.This method can handles objects as follows
- Collection - via collection isEmpty
- Map - via map isEmpty
- Array - using array size
- Iterator - via hasNext
- Enumeration - via hasMoreElements
Note: This method is named to avoid clashing with
isEmpty(Collection)
.- Parameters:
object
- the object to get the size of, may be null- Returns:
- true if empty or null
- Throws:
IllegalArgumentException
- thrown if object is not recognized- Since:
- 3.2
-
isEmpty
public static boolean isEmpty(Collection<?> coll)
Null-safe check if the specified collection is empty.Null returns true.
- Parameters:
coll
- the collection to check, may be null- Returns:
- true if empty or null
- Since:
- 3.2
-
isNotEmpty
public static boolean isNotEmpty(Collection<?> coll)
Null-safe check if the specified collection is not empty.Null returns false.
- Parameters:
coll
- the collection to check, may be null- Returns:
- true if non-null and non-empty
- Since:
- 3.2
-
reverseArray
public static void reverseArray(Object[] array)
Reverses the order of the given array.- Parameters:
array
- the array to reverse
-
isFull
public static boolean isFull(Collection<? extends Object> coll)
Returns true if no more elements can be added to the Collection.This method uses the
BoundedCollection
interface to determine the full status. If the collection does not implement this interface then false is returned.The collection does not have to implement this interface directly. If the collection has been decorated using the decorators subpackage then these will be removed to access the BoundedCollection.
- Parameters:
coll
- the collection to check- Returns:
- true if the BoundedCollection is full
- Throws:
NullPointerException
- if the collection is null
-
maxSize
public static int maxSize(Collection<? extends Object> coll)
Get the maximum number of elements that the Collection can contain.This method uses the
BoundedCollection
interface to determine the maximum size. If the collection does not implement this interface then -1 is returned.The collection does not have to implement this interface directly. If the collection has been decorated using the decorators subpackage then these will be removed to access the BoundedCollection.
- Parameters:
coll
- the collection to check- Returns:
- the maximum size of the BoundedCollection, -1 if no maximum size
- Throws:
NullPointerException
- if the collection is null
-
collate
public static <O extends Comparable<? super O>> List<O> collate(Iterable<? extends O> a, Iterable<? extends O> b)
Merges two sorted Collections, a and b, into a single, sorted List such that the natural ordering of the elements is retained.Uses the standard O(n) merge algorithm for combining two sorted lists.
- Type Parameters:
O
- the element type- Parameters:
a
- the first collection, must not be nullb
- the second collection, must not be null- Returns:
- a new sorted List, containing the elements of Collection a and b
- Throws:
NullPointerException
- if either collection is null- Since:
- 4.0
-
collate
public static <O extends Comparable<? super O>> List<O> collate(Iterable<? extends O> a, Iterable<? extends O> b, boolean includeDuplicates)
Merges two sorted Collections, a and b, into a single, sorted List such that the natural ordering of the elements is retained.Uses the standard O(n) merge algorithm for combining two sorted lists.
- Type Parameters:
O
- the element type- Parameters:
a
- the first collection, must not be nullb
- the second collection, must not be nullincludeDuplicates
- iftrue
duplicate elements will be retained, otherwise they will be removed in the output collection- Returns:
- a new sorted List, containing the elements of Collection a and b
- Throws:
NullPointerException
- if either collection is null- Since:
- 4.0
-
collate
public static <O> List<O> collate(Iterable<? extends O> a, Iterable<? extends O> b, Comparator<? super O> c)
Merges two sorted Collections, a and b, into a single, sorted List such that the ordering of the elements according to Comparator c is retained.Uses the standard O(n) merge algorithm for combining two sorted lists.
- Type Parameters:
O
- the element type- Parameters:
a
- the first collection, must not be nullb
- the second collection, must not be nullc
- the comparator to use for the merge.- Returns:
- a new sorted List, containing the elements of Collection a and b
- Throws:
NullPointerException
- if either collection or the comparator is null- Since:
- 4.0
-
collate
public static <O> List<O> collate(Iterable<? extends O> a, Iterable<? extends O> b, Comparator<? super O> c, boolean includeDuplicates)
Merges two sorted Collections, a and b, into a single, sorted List such that the ordering of the elements according to Comparator c is retained.Uses the standard O(n) merge algorithm for combining two sorted lists.
- Type Parameters:
O
- the element type- Parameters:
a
- the first collection, must not be nullb
- the second collection, must not be nullc
- the comparator to use for the merge.includeDuplicates
- iftrue
duplicate elements will be retained, otherwise they will be removed in the output collection- Returns:
- a new sorted List, containing the elements of Collection a and b
- Throws:
NullPointerException
- if either collection or the comparator is null- Since:
- 4.0
-
permutations
public static <E> Collection<List<E>> permutations(Collection<E> collection)
Returns aCollection
of all the permutations of the input collection.NOTE: the number of permutations of a given collection is equal to n!, where n is the size of the collection. Thus, the resulting collection will become very large for collections > 10 (e.g. 10! = 3628800, 15! = 1307674368000).
For larger collections it is advised to use a
PermutationIterator
to iterate over all permutations.- Type Parameters:
E
- the element type- Parameters:
collection
- the collection to create permutations for, may not be null- Returns:
- an unordered collection of all permutations of the input collection
- Throws:
NullPointerException
- if collection is null- Since:
- 4.0
- See Also:
PermutationIterator
-
retainAll
public static <C> Collection<C> retainAll(Collection<C> collection, Collection<?> retain)
Returns a collection containing all the elements incollection
that are also inretain
. The cardinality of an elemente
in the returned collection is the same as the cardinality ofe
incollection
unlessretain
does not containe
, in which case the cardinality is zero. This method is useful if you do not wish to modify the collectionc
and thus cannot callc.retainAll(retain);
.This implementation iterates over
collection
, checking each element in turn to see if it's contained inretain
. If it's contained, it's added to the returned list. As a consequence, it is advised to use a collection type forretain
that provides a fast (e.g. O(1)) implementation ofCollection.contains(Object)
.- Type Parameters:
C
- the type of object theCollection
contains- Parameters:
collection
- the collection whose contents are the target of the #retailAll operationretain
- the collection containing the elements to be retained in the returned collection- Returns:
- a
Collection
containing all the elements ofcollection
that occur at least once inretain
. - Throws:
NullPointerException
- if either parameter is null- Since:
- 3.2
-
retainAll
public static <E> Collection<E> retainAll(Iterable<E> collection, Iterable<? extends E> retain, Equator<? super E> equator)
Returns a collection containing all the elements incollection
that are also inretain
. The cardinality of an elemente
in the returned collection is the same as the cardinality ofe
incollection
unlessretain
does not containe
, in which case the cardinality is zero. This method is useful if you do not wish to modify the collectionc
and thus cannot callc.retainAll(retain);
.Moreover this method uses an
Equator
instead ofObject.equals(Object)
to determine the equality of the elements incollection
andretain
. Hence this method is useful in cases where the equals behavior of an object needs to be modified without changing the object itself.- Type Parameters:
E
- the type of object theCollection
contains- Parameters:
collection
- the collection whose contents are the target of theretainAll
operationretain
- the collection containing the elements to be retained in the returned collectionequator
- the Equator used for testing equality- Returns:
- a
Collection
containing all the elements ofcollection
that occur at least once inretain
according to theequator
- Throws:
NullPointerException
- if any of the parameters is null- Since:
- 4.1
-
removeAll
public static <E> Collection<E> removeAll(Collection<E> collection, Collection<?> remove)
Removes the elements inremove
fromcollection
. That is, this method returns a collection containing all the elements inc
that are not inremove
. The cardinality of an elemente
in the returned collection is the same as the cardinality ofe
incollection
unlessremove
containse
, in which case the cardinality is zero. This method is useful if you do not wish to modify the collectionc
and thus cannot callcollection.removeAll(remove);
.This implementation iterates over
collection
, checking each element in turn to see if it's contained inremove
. If it's not contained, it's added to the returned list. As a consequence, it is advised to use a collection type forremove
that provides a fast (e.g. O(1)) implementation ofCollection.contains(Object)
.- Type Parameters:
E
- the type of object theCollection
contains- Parameters:
collection
- the collection from which items are removed (in the returned collection)remove
- the items to be removed from the returnedcollection
- Returns:
- a
Collection
containing all the elements ofcollection
except any elements that also occur inremove
. - Throws:
NullPointerException
- if either parameter is null- Since:
- 4.0 (method existed in 3.2 but was completely broken)
-
removeAll
public static <E> Collection<E> removeAll(Iterable<E> collection, Iterable<? extends E> remove, Equator<? super E> equator)
Removes all elements inremove
fromcollection
. That is, this method returns a collection containing all the elements incollection
that are not inremove
. The cardinality of an elemente
in the returned collection is the same as the cardinality ofe
incollection
unlessremove
containse
, in which case the cardinality is zero. This method is useful if you do not wish to modify the collectionc
and thus cannot callcollection.removeAll(remove)
.Moreover this method uses an
Equator
instead ofObject.equals(Object)
to determine the equality of the elements incollection
andremove
. Hence this method is useful in cases where the equals behavior of an object needs to be modified without changing the object itself.- Type Parameters:
E
- the type of object theCollection
contains- Parameters:
collection
- the collection from which items are removed (in the returned collection)remove
- the items to be removed from the returned collectionequator
- the Equator used for testing equality- Returns:
- a
Collection
containing all the elements ofcollection
except any element that if equal according to theequator
- Throws:
NullPointerException
- if any of the parameters is null- Since:
- 4.1
-
synchronizedCollection
@Deprecated public static <C> Collection<C> synchronizedCollection(Collection<C> collection)
Deprecated.since 4.1, useCollections.synchronizedCollection(Collection)
insteadReturns a synchronized collection backed by the given collection.You must manually synchronize on the returned buffer's iterator to avoid non-deterministic behavior:
Collection c = CollectionUtils.synchronizedCollection(myCollection); synchronized (c) { Iterator i = c.iterator(); while (i.hasNext()) { process (i.next()); } }
This method uses the implementation in the decorators subpackage.- Type Parameters:
C
- the type of object theCollection
contains- Parameters:
collection
- the collection to synchronize, must not be null- Returns:
- a synchronized collection backed by the given collection
- Throws:
NullPointerException
- if the collection is null
-
unmodifiableCollection
@Deprecated public static <C> Collection<C> unmodifiableCollection(Collection<? extends C> collection)
Deprecated.since 4.1, useCollections.unmodifiableCollection(Collection)
insteadReturns an unmodifiable collection backed by the given collection.This method uses the implementation in the decorators subpackage.
- Type Parameters:
C
- the type of object theCollection
contains- Parameters:
collection
- the collection to make unmodifiable, must not be null- Returns:
- an unmodifiable collection backed by the given collection
- Throws:
NullPointerException
- if the collection is null
-
predicatedCollection
public static <C> Collection<C> predicatedCollection(Collection<C> collection, Predicate<? super C> predicate)
Returns a predicated (validating) collection backed by the given collection.Only objects that pass the test in the given predicate can be added to the collection. Trying to add an invalid object results in an IllegalArgumentException. It is important not to use the original collection after invoking this method, as it is a backdoor for adding invalid objects.
- Type Parameters:
C
- the type of objects in the Collection.- Parameters:
collection
- the collection to predicate, must not be nullpredicate
- the predicate for the collection, must not be null- Returns:
- a predicated collection backed by the given collection
- Throws:
NullPointerException
- if the Collection is null
-
transformingCollection
public static <E> Collection<E> transformingCollection(Collection<E> collection, Transformer<? super E,? extends E> transformer)
Returns a transformed bag backed by the given collection.Each object is passed through the transformer as it is added to the Collection. It is important not to use the original collection after invoking this method, as it is a backdoor for adding untransformed objects.
Existing entries in the specified collection will not be transformed. If you want that behaviour, see
TransformedCollection.transformedCollection(java.util.Collection<E>, org.apache.commons.collections4.Transformer<? super E, ? extends E>)
.- Type Parameters:
E
- the type of object theCollection
contains- Parameters:
collection
- the collection to predicate, must not be nulltransformer
- the transformer for the collection, must not be null- Returns:
- a transformed collection backed by the given collection
- Throws:
NullPointerException
- if the Collection or Transformer is null
-
extractSingleton
public static <E> E extractSingleton(Collection<E> collection)
Extract the lone element of the specified Collection.- Type Parameters:
E
- collection type- Parameters:
collection
- to read- Returns:
- sole member of collection
- Throws:
NullPointerException
- if collection is nullIllegalArgumentException
- if collection is empty or contains more than one element- Since:
- 4.0
-
-