org.omnifaces.component.output.cache.concurrentlinkedhashmap
Class ConcurrentLinkedHashMap<K,V>

java.lang.Object
  extended by java.util.AbstractMap<K,V>
      extended by org.omnifaces.component.output.cache.concurrentlinkedhashmap.ConcurrentLinkedHashMap<K,V>
Type Parameters:
K - the type of keys maintained by this map
V - the type of mapped values
All Implemented Interfaces:
java.io.Serializable, java.util.concurrent.ConcurrentMap<K,V>, java.util.Map<K,V>

@ThreadSafe
public final class ConcurrentLinkedHashMap<K,V>
extends java.util.AbstractMap<K,V>
implements java.util.concurrent.ConcurrentMap<K,V>, java.io.Serializable

A hash table supporting full concurrency of retrievals, adjustable expected concurrency for updates, and a maximum capacity to bound the map by. This implementation differs from ConcurrentHashMap in that it maintains a page replacement algorithm that is used to evict an entry when the map has exceeded its capacity. Unlike the Java Collections Framework, this map does not have a publicly visible constructor and instances are created through a ConcurrentLinkedHashMap.Builder.

An entry is evicted from the map when the weighted capacity exceeds its maximum weighted capacity threshold. A EntryWeigher determines how many units of capacity that an entry consumes. The default weigher assigns each value a weight of 1 to bound the map by the total number of key-value pairs. A map that holds collections may choose to weigh values by the number of elements in the collection and bound the map by the total number of elements that it contains. A change to a value that modifies its weight requires that an update operation is performed on the map.

An EvictionListener may be supplied for notification when an entry is evicted from the map. This listener is invoked on a caller's thread and will not block other threads from operating on the map. An implementation should be aware that the caller's thread will not expect long execution times or failures as a side effect of the listener being notified. Execution safety and a fast turn around time can be achieved by performing the operation asynchronously, such as by submitting a task to an ExecutorService.

The concurrency level determines the number of threads that can concurrently modify the table. Using a significantly higher or lower value than needed can waste space or lead to thread contention, but an estimate within an order of magnitude of the ideal value does not usually have a noticeable impact. Because placement in hash tables is essentially random, the actual concurrency will vary.

This class and its views and iterators implement all of the optional methods of the Map and Iterator interfaces.

Like Hashtable but unlike HashMap, this class does not allow null to be used as a key or value. Unlike LinkedHashMap, this class does not provide predictable iteration order. A snapshot of the keys and entries may be obtained in ascending and descending order of retention.

Author:
[email protected] (Ben Manes)
See Also:
http://code.google.com/p/concurrentlinkedhashmap/, Serialized Form

Nested Class Summary
static class ConcurrentLinkedHashMap.Builder<K,V>
          A builder that creates ConcurrentLinkedHashMap instances.
 
Nested classes/interfaces inherited from class java.util.AbstractMap
java.util.AbstractMap.SimpleEntry<K,V>, java.util.AbstractMap.SimpleImmutableEntry<K,V>
 
Nested classes/interfaces inherited from interface java.util.Map
java.util.Map.Entry<K,V>
 
Method Summary
 java.util.Set<K> ascendingKeySet()
          Returns a unmodifiable snapshot Set view of the keys contained in this map.
 java.util.Set<K> ascendingKeySetWithLimit(int limit)
          Returns an unmodifiable snapshot Set view of the keys contained in this map.
 java.util.Map<K,V> ascendingMap()
          Returns an unmodifiable snapshot Map view of the mappings contained in this map.
 java.util.Map<K,V> ascendingMapWithLimit(int limit)
          Returns an unmodifiable snapshot Map view of the mappings contained in this map.
 long capacity()
          Retrieves the maximum weighted capacity of the map.
 void clear()
           
 boolean containsKey(java.lang.Object key)
           
 boolean containsValue(java.lang.Object value)
           
 java.util.Set<K> descendingKeySet()
          Returns an unmodifiable snapshot Set view of the keys contained in this map.
 java.util.Set<K> descendingKeySetWithLimit(int limit)
          Returns an unmodifiable snapshot Set view of the keys contained in this map.
 java.util.Map<K,V> descendingMap()
          Returns an unmodifiable snapshot Map view of the mappings contained in this map.
 java.util.Map<K,V> descendingMapWithLimit(int limit)
          Returns an unmodifiable snapshot Map view of the mappings contained in this map.
 java.util.Set<java.util.Map.Entry<K,V>> entrySet()
           
 V get(java.lang.Object key)
           
 boolean isEmpty()
           
 java.util.Set<K> keySet()
           
 V put(K key, V value)
           
 V putIfAbsent(K key, V value)
           
 V remove(java.lang.Object key)
           
 boolean remove(java.lang.Object key, java.lang.Object value)
           
 V replace(K key, V value)
           
 boolean replace(K key, V oldValue, V newValue)
           
 void setCapacity(long capacity)
          Sets the maximum weighted capacity of the map and eagerly evicts entries until it shrinks to the appropriate size.
 int size()
           
 java.util.Collection<V> values()
           
 long weightedSize()
          Returns the weighted size of this map.
 
Methods inherited from class java.util.AbstractMap
clone, equals, hashCode, putAll, toString
 
Methods inherited from class java.lang.Object
finalize, getClass, notify, notifyAll, wait, wait, wait
 
Methods inherited from interface java.util.Map
equals, hashCode, putAll
 

Method Detail

capacity

public long capacity()
Retrieves the maximum weighted capacity of the map.

Returns:
the maximum weighted capacity

setCapacity

public void setCapacity(long capacity)
Sets the maximum weighted capacity of the map and eagerly evicts entries until it shrinks to the appropriate size.

Parameters:
capacity - the maximum weighted capacity of the map
Throws:
java.lang.IllegalArgumentException - if the capacity is negative

isEmpty

public boolean isEmpty()
Specified by:
isEmpty in interface java.util.Map<K,V>
Overrides:
isEmpty in class java.util.AbstractMap<K,V>

size

public int size()
Specified by:
size in interface java.util.Map<K,V>
Overrides:
size in class java.util.AbstractMap<K,V>

weightedSize

public long weightedSize()
Returns the weighted size of this map.

Returns:
the combined weight of the values in this map

clear

public void clear()
Specified by:
clear in interface java.util.Map<K,V>
Overrides:
clear in class java.util.AbstractMap<K,V>

containsKey

public boolean containsKey(java.lang.Object key)
Specified by:
containsKey in interface java.util.Map<K,V>
Overrides:
containsKey in class java.util.AbstractMap<K,V>

containsValue

public boolean containsValue(java.lang.Object value)
Specified by:
containsValue in interface java.util.Map<K,V>
Overrides:
containsValue in class java.util.AbstractMap<K,V>

get

public V get(java.lang.Object key)
Specified by:
get in interface java.util.Map<K,V>
Overrides:
get in class java.util.AbstractMap<K,V>

put

public V put(K key,
             V value)
Specified by:
put in interface java.util.Map<K,V>
Overrides:
put in class java.util.AbstractMap<K,V>

putIfAbsent

public V putIfAbsent(K key,
                     V value)
Specified by:
putIfAbsent in interface java.util.concurrent.ConcurrentMap<K,V>

remove

public V remove(java.lang.Object key)
Specified by:
remove in interface java.util.Map<K,V>
Overrides:
remove in class java.util.AbstractMap<K,V>

remove

public boolean remove(java.lang.Object key,
                      java.lang.Object value)
Specified by:
remove in interface java.util.concurrent.ConcurrentMap<K,V>

replace

public V replace(K key,
                 V value)
Specified by:
replace in interface java.util.concurrent.ConcurrentMap<K,V>

replace

public boolean replace(K key,
                       V oldValue,
                       V newValue)
Specified by:
replace in interface java.util.concurrent.ConcurrentMap<K,V>

keySet

public java.util.Set<K> keySet()
Specified by:
keySet in interface java.util.Map<K,V>
Overrides:
keySet in class java.util.AbstractMap<K,V>

ascendingKeySet

public java.util.Set<K> ascendingKeySet()
Returns a unmodifiable snapshot Set view of the keys contained in this map. The set's iterator returns the keys whose order of iteration is the ascending order in which its entries are considered eligible for retention, from the least-likely to be retained to the most-likely.

Beware that, unlike in keySet(), obtaining the set is NOT a constant-time operation. Because of the asynchronous nature of the page replacement policy, determining the retention ordering requires a traversal of the keys.

Returns:
an ascending snapshot view of the keys in this map

ascendingKeySetWithLimit

public java.util.Set<K> ascendingKeySetWithLimit(int limit)
Returns an unmodifiable snapshot Set view of the keys contained in this map. The set's iterator returns the keys whose order of iteration is the ascending order in which its entries are considered eligible for retention, from the least-likely to be retained to the most-likely.

Beware that, unlike in keySet(), obtaining the set is NOT a constant-time operation. Because of the asynchronous nature of the page replacement policy, determining the retention ordering requires a traversal of the keys.

Parameters:
limit - the maximum size of the returned set
Returns:
a ascending snapshot view of the keys in this map
Throws:
java.lang.IllegalArgumentException - if the limit is negative

descendingKeySet

public java.util.Set<K> descendingKeySet()
Returns an unmodifiable snapshot Set view of the keys contained in this map. The set's iterator returns the keys whose order of iteration is the descending order in which its entries are considered eligible for retention, from the most-likely to be retained to the least-likely.

Beware that, unlike in keySet(), obtaining the set is NOT a constant-time operation. Because of the asynchronous nature of the page replacement policy, determining the retention ordering requires a traversal of the keys.

Returns:
a descending snapshot view of the keys in this map

descendingKeySetWithLimit

public java.util.Set<K> descendingKeySetWithLimit(int limit)
Returns an unmodifiable snapshot Set view of the keys contained in this map. The set's iterator returns the keys whose order of iteration is the descending order in which its entries are considered eligible for retention, from the most-likely to be retained to the least-likely.

Beware that, unlike in keySet(), obtaining the set is NOT a constant-time operation. Because of the asynchronous nature of the page replacement policy, determining the retention ordering requires a traversal of the keys.

Parameters:
limit - the maximum size of the returned set
Returns:
a descending snapshot view of the keys in this map
Throws:
java.lang.IllegalArgumentException - if the limit is negative

values

public java.util.Collection<V> values()
Specified by:
values in interface java.util.Map<K,V>
Overrides:
values in class java.util.AbstractMap<K,V>

entrySet

public java.util.Set<java.util.Map.Entry<K,V>> entrySet()
Specified by:
entrySet in interface java.util.Map<K,V>
Specified by:
entrySet in class java.util.AbstractMap<K,V>

ascendingMap

public java.util.Map<K,V> ascendingMap()
Returns an unmodifiable snapshot Map view of the mappings contained in this map. The map's collections return the mappings whose order of iteration is the ascending order in which its entries are considered eligible for retention, from the least-likely to be retained to the most-likely.

Beware that obtaining the mappings is NOT a constant-time operation. Because of the asynchronous nature of the page replacement policy, determining the retention ordering requires a traversal of the entries.

Returns:
a ascending snapshot view of this map

ascendingMapWithLimit

public java.util.Map<K,V> ascendingMapWithLimit(int limit)
Returns an unmodifiable snapshot Map view of the mappings contained in this map. The map's collections return the mappings whose order of iteration is the ascending order in which its entries are considered eligible for retention, from the least-likely to be retained to the most-likely.

Beware that obtaining the mappings is NOT a constant-time operation. Because of the asynchronous nature of the page replacement policy, determining the retention ordering requires a traversal of the entries.

Parameters:
limit - the maximum size of the returned map
Returns:
a ascending snapshot view of this map
Throws:
java.lang.IllegalArgumentException - if the limit is negative

descendingMap

public java.util.Map<K,V> descendingMap()
Returns an unmodifiable snapshot Map view of the mappings contained in this map. The map's collections return the mappings whose order of iteration is the descending order in which its entries are considered eligible for retention, from the most-likely to be retained to the least-likely.

Beware that obtaining the mappings is NOT a constant-time operation. Because of the asynchronous nature of the page replacement policy, determining the retention ordering requires a traversal of the entries.

Returns:
a descending snapshot view of this map

descendingMapWithLimit

public java.util.Map<K,V> descendingMapWithLimit(int limit)
Returns an unmodifiable snapshot Map view of the mappings contained in this map. The map's collections return the mappings whose order of iteration is the descending order in which its entries are considered eligible for retention, from the most-likely to be retained to the least-likely.

Beware that obtaining the mappings is NOT a constant-time operation. Because of the asynchronous nature of the page replacement policy, determining the retention ordering requires a traversal of the entries.

Parameters:
limit - the maximum size of the returned map
Returns:
a descending snapshot view of this map
Throws:
java.lang.IllegalArgumentException - if the limit is negative