@GwtIncompatible public final class ConcurrentHashMultiset<E> extends AbstractCollection<E> implements Serializable
Multiset
operations (exceptions where noted). Null elements are not supported.
See the Guava User Guide article on
Multiset
.
Multiset.Entry<E>
Modifier and Type | Method and Description |
---|---|
boolean |
add(E element)
Adds a single occurrence of the specified element to this multiset.
|
int |
add(E element,
int occurrences)
Adds a number of occurrences of the specified element to this multiset.
|
boolean |
addAll(Collection<? extends E> elementsToAdd) |
void |
clear() |
boolean |
contains(Object element)
Determines whether this multiset contains the specified element.
|
int |
count(Object element)
Returns the number of occurrences of
element in this multiset. |
static <E> ConcurrentHashMultiset<E> |
create()
Creates a new, empty
ConcurrentHashMultiset using the default
initial capacity, load factor, and concurrency settings. |
static <E> ConcurrentHashMultiset<E> |
create(ConcurrentMap<E,AtomicInteger> countMap)
Creates a new, empty
ConcurrentHashMultiset using countMap as the internal
backing map. |
static <E> ConcurrentHashMultiset<E> |
create(Iterable<? extends E> elements)
Creates a new
ConcurrentHashMultiset containing the specified elements, using
the default initial capacity, load factor, and concurrency settings. |
static <E> ConcurrentHashMultiset<E> |
create(MapMaker mapMaker)
Deprecated.
Use
create(ConcurrentMap) instead. This method is scheduled for deletion
in Guava 21.0. |
Set<Multiset.Entry<E>> |
createEntrySet() |
Set<E> |
elementSet()
Returns the set of distinct elements contained in this multiset.
|
Set<Multiset.Entry<E>> |
entrySet()
Returns a view of the contents of this multiset, grouped into
Multiset.Entry instances, each providing an element of the multiset and
the count of that element. |
boolean |
equals(Object object)
Compares the specified object with this multiset for equality.
|
int |
hashCode()
Returns the hash code for this multiset.
|
boolean |
isEmpty() |
Iterator<E> |
iterator() |
boolean |
remove(Object element)
Removes a single occurrence of the specified element from this
multiset, if present.
|
int |
remove(Object element,
int occurrences)
Removes a number of occurrences of the specified element from this multiset.
|
boolean |
removeAll(Collection<?> elementsToRemove) |
boolean |
removeExactly(Object element,
int occurrences)
Removes exactly the specified number of occurrences of
element , or makes no
change if this is not possible. |
boolean |
retainAll(Collection<?> elementsToRetain) |
int |
setCount(E element,
int count)
Adds or removes occurrences of
element such that the count(java.lang.Object) of the
element becomes count . |
boolean |
setCount(E element,
int expectedOldCount,
int newCount)
Sets the number of occurrences of
element to newCount , but only if
the count is currently expectedOldCount . |
int |
size() |
Object[] |
toArray() |
<T> T[] |
toArray(T[] array) |
String |
toString() |
containsAll
clone, finalize, getClass, notify, notifyAll, wait, wait, wait
containsAll
parallelStream, removeIf, spliterator, stream
public static <E> ConcurrentHashMultiset<E> create()
ConcurrentHashMultiset
using the default
initial capacity, load factor, and concurrency settings.public static <E> ConcurrentHashMultiset<E> create(Iterable<? extends E> elements)
ConcurrentHashMultiset
containing the specified elements, using
the default initial capacity, load factor, and concurrency settings.
This implementation is highly efficient when elements
is itself a Multiset
.
elements
- the elements that the multiset should contain@Beta @Deprecated public static <E> ConcurrentHashMultiset<E> create(MapMaker mapMaker)
create(ConcurrentMap)
instead. This method is scheduled for deletion
in Guava 21.0.ConcurrentHashMultiset
using mapMaker
to construct the
internal backing map.
If this MapMaker
is configured to use entry eviction of any kind, this eviction
applies to all occurrences of a given element as a single unit. However, most updates to the
multiset do not count as map updates at all, since we're usually just mutating the value stored
in the map, so MapMaker#expireAfterAccess
makes sense (evict the entry that was queried
or updated longest ago), but MapMaker#expireAfterWrite
doesn't, because the eviction
time is measured from when we saw the first occurrence of the object.
The returned multiset is serializable but any serialization caveats given in MapMaker
apply.
Finally, soft/weak values can be used but are not very useful: the values are created internally and not exposed externally, so no one else will have a strong reference to the values. Weak keys on the other hand can be useful in some scenarios.
GenericMapMaker
class)
since 7.0)@Beta public static <E> ConcurrentHashMultiset<E> create(ConcurrentMap<E,AtomicInteger> countMap)
ConcurrentHashMultiset
using countMap
as the internal
backing map.
This instance will assume ownership of countMap
, and other code should not maintain
references to the map or modify it in any way.
The returned multiset is serializable if the input map is.
countMap
- backing map for storing the elements in the multiset and their counts. It must
be empty.IllegalArgumentException
- if countMap
is not emptypublic int count(@Nullable Object element)
element
in this multiset.public int size()
If the data in the multiset is modified by any other threads during this method, it is undefined which (if any) of these modifications will be reflected in the result.
size
in interface Collection<E>
public Object[] toArray()
toArray
in interface Collection<E>
toArray
in class AbstractCollection<E>
public <T> T[] toArray(T[] array)
toArray
in interface Collection<E>
toArray
in class AbstractCollection<E>
public int add(E element, int occurrences)
add
in interface Multiset<E>
element
- the element to addoccurrences
- the number of occurrences to addIllegalArgumentException
- if occurrences
is negative, or if
the resulting amount would exceed Integer.MAX_VALUE
public int remove(@Nullable Object element, int occurrences)
remove
in interface Multiset<E>
element
- the element whose occurrences should be removedoccurrences
- the number of occurrences of the element to removeIllegalArgumentException
- if occurrences
is negativepublic boolean removeExactly(@Nullable Object element, int occurrences)
element
, or makes no
change if this is not possible.
This method, in contrast to remove(Object, int)
, has no effect when the
element count is smaller than occurrences
.
element
- the element to removeoccurrences
- the number of occurrences of element
to removetrue
if the removal was possible (including if occurrences
is zero)IllegalArgumentException
- if occurrences
is negativepublic int setCount(E element, int count)
element
such that the count(java.lang.Object)
of the
element becomes count
.setCount
in interface Multiset<E>
element
- the element to add or remove occurrences of; may be null
only if explicitly allowed by the implementationcount
- the desired count of the element in this multisetelement
in the multiset before this callIllegalArgumentException
- if count
is negativepublic boolean setCount(E element, int expectedOldCount, int newCount)
element
to newCount
, but only if
the count is currently expectedOldCount
. If element
does not appear
in the multiset exactly expectedOldCount
times, no changes will be made.setCount
in interface Multiset<E>
element
- the element to conditionally set the count of; may be null
only if explicitly allowed by the implementationexpectedOldCount
- the expected present count of the element in this multisetnewCount
- the desired count of the element in this multisettrue
if the change was successful. This usually indicates
that the multiset has been modified, but not always: in the case that
expectedOldCount == newCount
, the method will return true
if
the condition was met.IllegalArgumentException
- if expectedOldCount
or newCount
is negativepublic Set<Multiset.Entry<E>> createEntrySet()
public boolean isEmpty()
isEmpty
in interface Collection<E>
public void clear()
clear
in interface Collection<E>
public boolean contains(@Nullable Object element)
Multiset
This method refines Collection.contains(java.lang.Object)
to further specify that
it may not throw an exception in response to element
being
null or of the wrong type.
contains
in interface Multiset<E>
contains
in interface Collection<E>
contains
in class AbstractCollection<E>
element
- the element to check fortrue
if this multiset contains at least one occurrence of
the elementpublic Iterator<E> iterator()
Multiset
Elements that occur multiple times in the multiset will appear multiple times in this iterator, though not necessarily sequentially.
iterator
in interface Multiset<E>
iterator
in interface Iterable<E>
iterator
in interface Collection<E>
iterator
in class AbstractCollection<E>
public boolean add(@Nullable E element)
Multiset
This method refines Collection.add(E)
, which only ensures
the presence of the element, to further specify that a successful call must
always increment the count of the element, and the overall size of the
collection, by one.
To both add the element and obtain the previous count of that element,
use add
(element, 1)
instead.
add
in interface Multiset<E>
add
in interface Collection<E>
add
in class AbstractCollection<E>
element
- the element to add one occurrence of; may be null only if
explicitly allowed by the implementationtrue
always, since this call is required to modify the
multiset, unlike other Collection
typespublic boolean remove(@Nullable Object element)
Multiset
This method refines Collection.remove(java.lang.Object)
to further specify that it
may not throw an exception in response to element
being null
or of the wrong type.
To both remove the element and obtain the previous count of that element,
use remove
(element, 1)
instead.
remove
in interface Multiset<E>
remove
in interface Collection<E>
remove
in class AbstractCollection<E>
element
- the element to remove one occurrence oftrue
if an occurrence was found and removedpublic boolean addAll(Collection<? extends E> elementsToAdd)
This implementation is highly efficient when elementsToAdd
is itself a Multiset
.
addAll
in interface Collection<E>
addAll
in class AbstractCollection<E>
public boolean removeAll(Collection<?> elementsToRemove)
Multiset
Note: This method ignores how often any element might appear in
c
, and only cares whether or not an element appears at all.
If you wish to remove one occurrence in this multiset for every occurrence
in c
, see Multisets.removeOccurrences(Multiset, Multiset)
.
This method refines Collection.removeAll(java.util.Collection<?>)
to further specify that
it may not throw an exception in response to any of elements
being null or of the wrong type.
removeAll
in interface Multiset<E>
removeAll
in interface Collection<E>
removeAll
in class AbstractCollection<E>
public boolean retainAll(Collection<?> elementsToRetain)
Multiset
Note: This method ignores how often any element might appear in
c
, and only cares whether or not an element appears at all.
If you wish to remove one occurrence in this multiset for every occurrence
in c
, see Multisets.retainOccurrences(Multiset, Multiset)
.
This method refines Collection.retainAll(java.util.Collection<?>)
to further specify that
it may not throw an exception in response to any of elements
being null or of the wrong type.
retainAll
in interface Multiset<E>
retainAll
in interface Collection<E>
retainAll
in class AbstractCollection<E>
Multisets.retainOccurrences(Multiset, Multiset)
public Set<E> elementSet()
Multiset
If the element set supports any removal operations, these necessarily cause all occurrences of the removed element(s) to be removed from the multiset. Implementations are not expected to support the add operations, although this is possible.
A common use for the element set is to find the number of distinct
elements in the multiset: elementSet().size()
.
elementSet
in interface Multiset<E>
public Set<Multiset.Entry<E>> entrySet()
Multiset
Multiset.Entry
instances, each providing an element of the multiset and
the count of that element. This set contains exactly one entry for each
distinct element in the multiset (thus it always has the same size as the
Multiset.elementSet()
). The order of the elements in the element set is
unspecified.
The entry set is backed by the same data as the multiset, so any change
to either is immediately reflected in the other. However, multiset changes
may or may not be reflected in any Entry
instances already
retrieved from the entry set (this is implementation-dependent).
Furthermore, implementations are not required to support modifications to
the entry set at all, and the Entry
instances themselves don't
even have methods for modification. See the specific implementation class
for more details on how its entry set handles modifications.
public boolean equals(@Nullable Object object)
true
if the given object is also a multiset and contains equal
elements with equal counts, regardless of order.
This implementation returns true
if object
is a multiset
of the same size and if, for each element, the two multisets have the same
count.
public int hashCode()
((element == null) ? 0 : element.hashCode()) ^ count(element)
over all distinct elements in the multiset. It follows that a multiset and its entry set always have the same hash code.
This implementation returns the hash code of Multiset.entrySet()
.
public String toString()
It is recommended, though not mandatory, that this method return the
result of invoking Multiset.toString()
on the Multiset.entrySet()
, yielding a
result such as [a x 3, c, d x 2, e]
.
This implementation returns the result of invoking toString
on
Multiset.entrySet()
.
toString
in interface Multiset<E>
toString
in class AbstractCollection<E>
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