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com.tangosol.net.cache
Class WrapperNamedCache

java.lang.Object
com.tangosol.util.Base
com.tangosol.util.AbstractKeyBasedMap
com.tangosol.util.AbstractKeySetBasedMap
com.tangosol.util.WrapperObservableMap
com.tangosol.util.WrapperConcurrentMap
com.tangosol.net.cache.WrapperNamedCache

All Implemented Interfaces:

CacheMap, NamedCache, ConcurrentMap, InvocableMap, ObservableMap, QueryMap, java.util.Map

Direct Known Subclasses:

BundlingNamedCache, ReadonlyNamedCache

public class WrapperNamedCache

extends WrapperConcurrentMap

implements NamedCache

A simple implementation of NamedCache interface built as a wrapper around any Map implementation.

Author:

cp 2003.05.19

Nested Class Summary

Nested classes/interfaces inherited from class com.tangosol.util.WrapperConcurrentMap

WrapperConcurrentMap.Lock

Nested classes/interfaces inherited from class com.tangosol.util.WrapperObservableMap

WrapperObservableMap.InternalListener

Nested classes/interfaces inherited from class com.tangosol.util.AbstractKeySetBasedMap

AbstractKeySetBasedMap.EntrySet, AbstractKeySetBasedMap.KeyIterator, AbstractKeySetBasedMap.KeySet, AbstractKeySetBasedMap.ValuesCollection

Nested classes/interfaces inherited from interface java.util.Map

java.util.Map.Entry

Nested classes/interfaces inherited from interface com.tangosol.util.QueryMap

QueryMap.Entry

Nested classes/interfaces inherited from interface com.tangosol.util.InvocableMap

InvocableMap.Entry, InvocableMap.EntryAggregator, InvocableMap.EntryProcessor, InvocableMap.ParallelAwareAggregator

Field Summary

protected CacheService	m_service The CacheService this NamedCache is a part of.
protected java.lang.String	m_sName The name of the cache.

Fields inherited from class com.tangosol.util.WrapperConcurrentMap

m_cWaitMillis, m_fEnforceLocking, m_gateMap, m_mapLock

Fields inherited from class com.tangosol.util.WrapperObservableMap

m_fDeferredEvent, m_fTranslateEvents, m_listenerInternal, m_listenerSupport, m_map, m_stats

Fields inherited from interface com.tangosol.net.cache.CacheMap

EXPIRY_DEFAULT, EXPIRY_NEVER

Fields inherited from interface com.tangosol.util.ConcurrentMap

LOCK_ALL

Constructor Summary

WrapperNamedCache(java.util.Map map, java.lang.String sName)
Construct a NamedCache wrapper based on the specified map.

WrapperNamedCache(java.util.Map map, java.lang.String sName, CacheService service)
Construct a NamedCache wrapper based on the specified map.

Method Summary

void	addIndex(ValueExtractor extractor, boolean fOrdered, java.util.Comparator comparator) Add an index to this QueryMap.
java.lang.Object	aggregate(java.util.Collection collKeys, InvocableMap.EntryAggregator agent) Perform an aggregating operation against the entries specified by the passed keys.
java.lang.Object	aggregate(Filter filter, InvocableMap.EntryAggregator agent) Perform an aggregating operation against the set of entries that are selected by the given Filter.
void	destroy() Release and destroy this instance of NamedCache.
java.util.Set	entrySet(Filter filter) Return a set view of the entries contained in this map that satisfy the criteria expressed by the filter.
java.util.Set	entrySet(Filter filter, java.util.Comparator comparator) Return a set view of the entries contained in this map that satisfy the criteria expressed by the filter.
java.util.Map	getAll(java.util.Collection colKeys) Get all the specified keys, if they are in the Map.
java.lang.String	getCacheName() Return the cache name.
CacheService	getCacheService() Return the CacheService that this NamedCache is a part of.
java.lang.Object	invoke(java.lang.Object oKey, InvocableMap.EntryProcessor agent) Invoke the passed EntryProcessor against the Entry specified by the passed key, returning the result of the invocation.
java.util.Map	invokeAll(java.util.Collection collKeys, InvocableMap.EntryProcessor agent) Invoke the passed EntryProcessor against the entries specified by the passed keys, returning the result of the invocation for each.
java.util.Map	invokeAll(Filter filter, InvocableMap.EntryProcessor agent) Invoke the passed EntryProcessor against the set of entries that are selected by the given Filter, returning the result of the invocation for each.
boolean	isActive() Specifies whether or not the NamedCache is active.
java.util.Set	keySet(Filter filter) Return a set view of the keys contained in this map for entries that satisfy the criteria expressed by the filter.
java.lang.Object	put(java.lang.Object oKey, java.lang.Object oValue, long cMillis) Associates the specified value with the specified key in this cache and allows to specify an expiry for the cache entry.
void	release() Release local resources associated with this instance of NamedCache.
void	removeIndex(ValueExtractor extractor) Remove an index from this QueryMap.

Methods inherited from class com.tangosol.util.WrapperConcurrentMap

clear, getDescription, getLockDescription, getWaitMillis, instantiateLock, isInternalKeySetIteratorMutable, isLockingEnforced, lock, lock, put, putAll, remove, removeBlind, setLockingEnforced, setWaitMillis, toString, unlock

Methods inherited from class com.tangosol.util.WrapperObservableMap

addMapListener, addMapListener, addMapListener, containsValue, dispatchEvent, dispatchPendingEvent, ensureInternalListener, ensureMapListenerSupport, get, getCacheStatistics, getInternalKeySet, getMap, getMapListenerSupport, hasListeners, instantiateInternalListener, isCollectStats, isEventFabricator, isSynthetic, isTranslateEvents, removeMapListener, removeMapListener, removeMapListener, setCollectStats, setTranslateEvents

Methods inherited from class com.tangosol.util.AbstractKeySetBasedMap

containsKey, instantiateEntrySet, instantiateKeyIterator, instantiateKeySet, instantiateValues, isEmpty, iterateKeys, size

Methods inherited from class com.tangosol.util.AbstractKeyBasedMap

clone, entrySet, equals, hashCode, keySet, values

Methods inherited from interface com.tangosol.net.cache.CacheMap

put

Methods inherited from interface com.tangosol.util.ObservableMap

addMapListener, addMapListener, addMapListener, removeMapListener, removeMapListener, removeMapListener

Methods inherited from interface java.util.Map

clear, containsKey, containsValue, entrySet, equals, get, hashCode, isEmpty, keySet, putAll, remove, size, values

Methods inherited from interface com.tangosol.util.ConcurrentMap

clear, containsKey, containsValue, get, isEmpty, lock, lock, put, putAll, remove, size, unlock

Field Detail

m_sName

protected java.lang.String m_sName

The name of the cache.

m_service

protected CacheService m_service

The CacheService this NamedCache is a part of.

Constructor Detail

WrapperNamedCache

public WrapperNamedCache(java.util.Map map,
                         java.lang.String sName)

Construct a NamedCache wrapper based on the specified map.

Note: it is assumed that while the WrapperNamedCache exists, there is no direct manipulation with the content of the wrapped map.

Parameters:

map - the Map that will be wrapped by this WrapperNamedCache

sName - the cache name

WrapperNamedCache

public WrapperNamedCache(java.util.Map map,
                         java.lang.String sName,
                         CacheService service)

Construct a NamedCache wrapper based on the specified map.

Note: it is assumed that while the WrapperNamedCache exists, there is no direct manipulation with the content of the wrapped map.

Parameters:

map - the Map that will be wrapped by this WrapperNamedCache

sName - the cache name (could be null if the map is a NamedCache)

service - the cache service this NamedCache is a part of (ignored if the map is a NamedCache)

Method Detail

getCacheName

public java.lang.String getCacheName()

Return the cache name.

Specified by:

getCacheName in interface NamedCache

Returns:

the cache name

getCacheService

public CacheService getCacheService()

Return the CacheService that this NamedCache is a part of.

Specified by:

getCacheService in interface NamedCache

Returns:

the CacheService

isActive

public boolean isActive()

Specifies whether or not the NamedCache is active.

Specified by:

isActive in interface NamedCache

Returns:

true if the NamedCache is active; false otherwise

release

public void release()

Release local resources associated with this instance of NamedCache.

Releasing a cache makes it no longer usable, but does not affect the cache itself. In other words, all other references to the cache will still be valid, and the cache data is not affected by releasing the reference. Any attempt to use this reference afterward will result in an exception.

Caches should be released by the same mechanism in which they were obtained. For example:

• new Cache() - cache.release()
• CacheFactory.getCache() - CacheFactory.releaseCache()
• ConfigurableCacheFactory.ensureCache() - ConfigurableCacheFactory.releaseCache()

Except for the case where the application code explicitly allocated the cache, this method should not be called by application code.

The purpose for releasing a cache is to allow the cache implementation to release the ClassLoader used to deserialize items in the cache. The cache implementation ensures that all references to that ClassLoader are released. This implies that objects in the cache that were loaded by that ClassLoader will be re-serialized to release their hold on that ClassLoader. The result is that the ClassLoader can be garbage-collected by Java in situations where the cache is operating in an application server and applications are dynamically loaded and unloaded.

Specified by:

release in interface NamedCache

See Also:

CacheFactory.releaseCache(NamedCache), ConfigurableCacheFactory.releaseCache(NamedCache)

destroy

public void destroy()

Release and destroy this instance of NamedCache.

Warning: This method is used to completely destroy the specified cache across the cluster. All references in the entire cluster to this cache will be invalidated, the cached data will be cleared, and all internal resources will be released.

Caches should be destroyed by the same mechanism in which they were obtained. For example:

• new Cache() - cache.destroy()
• CacheFactory.getCache() - CacheFactory.destroyCache()
• ConfigurableCacheFactory.ensureCache() - ConfigurableCacheFactory.destroyCache()

Except for the case where the application code explicitly allocated the cache, this method should not be called by application code.

Specified by:

destroy in interface NamedCache

See Also:

CacheFactory.destroyCache(NamedCache), ConfigurableCacheFactory.destroyCache(NamedCache)

getAll

public java.util.Map getAll(java.util.Collection colKeys)

Get all the specified keys, if they are in the Map. For each key that is in the cache, that key and its corresponding value will be placed in the map that is returned by this method. The absence of a key in the returned map indicates that it was not in the cache, which may imply (for caches that can load behind the scenes) that the requested data could not be loaded.

Specified by:

getAll in interface CacheMap

Overrides:

getAll in class AbstractKeyBasedMap

Parameters:

colKeys - a collection of keys that may be in the named cache

Returns:

a Map of keys to values for the specified keys passed in colKeys

put

public java.lang.Object put(java.lang.Object oKey,
                            java.lang.Object oValue,
                            long cMillis)

Associates the specified value with the specified key in this cache and allows to specify an expiry for the cache entry.

Note: Though NamedCache interface extends CacheMap, not all implementations currently support this functionality.

For example, if a cache is configured to be a replicated, optimistic or distributed cache then its backing map must be configured as a local cache. If a cache is configured to be a near cache then the front map must to be configured as a local cache and the back map must support this feature as well, typically by being a distributed cache backed by a local cache (as above.)

Specified by:

put in interface CacheMap

Specified by:

put in interface NamedCache

Parameters:

oKey - key with which the specified value is to be associated

oValue - value to be associated with the specified key

cMillis - the number of milliseconds until the cache entry will expire, also referred to as the entry's "time to live"; pass CacheMap.EXPIRY_DEFAULT to use the cache's default time-to-live setting; pass CacheMap.EXPIRY_NEVER to indicate that the cache entry should never expire; this milliseconds value is not a date/time value, such as is returned from System.currentTimeMillis()

Returns:

previous value associated with specified key, or null if there was no mapping for key. A null return can also indicate that the map previously associated null with the specified key, if the implementation supports null values

keySet

public java.util.Set keySet(Filter filter)

Return a set view of the keys contained in this map for entries that satisfy the criteria expressed by the filter.

Unlike the Map.keySet() method, the set returned by this method may not be backed by the map, so changes to the set may not reflected in the map, and vice-versa.

Note: When using the Coherence Enterprise Edition or Grid Edition, the Partitioned Cache implements the QueryMap interface using the Parallel Query feature. When using Coherence Standard Edition, the Parallel Query feature is not available, resulting in lower performance for most queries, and particularly when querying large data sets.

Specified by:

keySet in interface QueryMap

Parameters:

filter - the Filter object representing the criteria that the entries of this map should satisfy

Returns:

a set of keys for entries that satisfy the specified criteria

entrySet

public java.util.Set entrySet(Filter filter)

Return a set view of the entries contained in this map that satisfy the criteria expressed by the filter. Each element in the returned set is a Map.Entry.

Unlike the Map.entrySet() method, the set returned by this method may not be backed by the map, so changes to the set may not be reflected in the map, and vice-versa.

Note: When using the Coherence Enterprise Edition or Grid Edition, the Partitioned Cache implements the QueryMap interface using the Parallel Query feature. When using Coherence Standard Edition, the Parallel Query feature is not available, resulting in lower performance for most queries, and particularly when querying large data sets.

Specified by:

entrySet in interface QueryMap

Parameters:

filter - the Filter object representing the criteria that the entries of this map should satisfy

Returns:

a set of entries that satisfy the specified criteria

entrySet

public java.util.Set entrySet(Filter filter,
                              java.util.Comparator comparator)

Return a set view of the entries contained in this map that satisfy the criteria expressed by the filter. Each element in the returned set is a Map.Entry. It is further guaranteed that its iterator will traverse the set in such a way that the entry values come up in ascending order, sorted by the specified Comparator or according to the natural ordering (see Comparable).

Unlike the Map.entrySet() method, the set returned by this method may not be backed by the map, so changes to the set may not be reflected in the map, and vice-versa.

Note: When using the Coherence Enterprise Edition or Grid Edition, the Partitioned Cache implements the QueryMap interface using the Parallel Query feature. When using Coherence Standard Edition, the Parallel Query feature is not available, resulting in lower performance for most queries, and particularly when querying large data sets.

Specified by:

entrySet in interface QueryMap

Parameters:

filter - the Filter object representing the criteria that the entries of this map should satisfy

comparator - the Comparator object which imposes an ordering on entries in the resulting set; or null if the entries' values natural ordering should be used

Returns:

a set of entries that satisfy the specified criteria

See Also:

ChainedComparator

addIndex

public void addIndex(ValueExtractor extractor,
                     boolean fOrdered,
                     java.util.Comparator comparator)

Add an index to this QueryMap. This allows to correlate values stored in this indexed Map (or attributes of those values) to the corresponding keys in the indexed Map and increase the performance of keySet and entrySet methods.

The ordering maintained by this map (as determined by either the specified Comparator or the natural ordering of the indexed values) must be consistent with equals (see Comparable or Comparator for a precise definition of consistent with equals.)

This method is only intended as a hint to the cache implementation, and as such it may be ignored by the cache if indexes are not supported or if the desired index (or a similar index) already exists. It is expected that an application will call this method to suggest an index even if the index may already exist, just so that the application is certain that index has been suggested. For example in a distributed environment, each server will likely suggest the same set of indexes when it starts, and there is no downside to the application blindly requesting those indexes regardless of whether another server has already requested the same indexes.

Note: Indexes are a feature of Coherence Enterprise Edition and Coherence Grid Edition. This method will have no effect when using Coherence Standard Edition.

Specified by:

addIndex in interface QueryMap

Parameters:

extractor - the ValueExtractor object that is used to extract an indexable Object from a value stored in the indexed Map. Must not be null.

fOrdered - true iff the contents of the indexed information should be ordered; false otherwise

comparator - the Comparator object which imposes an ordering on entries in the indexed map; or null if the entries' values natural ordering should be used

See Also:

ReflectionExtractor, ChainedComparator

removeIndex

public void removeIndex(ValueExtractor extractor)

Remove an index from this QueryMap.

Specified by:

removeIndex in interface QueryMap

Parameters:

extractor - the ValueExtractor object that is used to extract an indexable Object from a value stored in the Map.

invoke

public java.lang.Object invoke(java.lang.Object oKey,
                               InvocableMap.EntryProcessor agent)

Invoke the passed EntryProcessor against the Entry specified by the passed key, returning the result of the invocation.

Specified by:

invoke in interface InvocableMap

Parameters:

oKey - the key to process; it is not required to exist within the Map

agent - the EntryProcessor to use to process the specified key

Returns:

the result of the invocation as returned from the EntryProcessor

invokeAll

public java.util.Map invokeAll(java.util.Collection collKeys,
                               InvocableMap.EntryProcessor agent)

Invoke the passed EntryProcessor against the entries specified by the passed keys, returning the result of the invocation for each.

Specified by:

invokeAll in interface InvocableMap

Parameters:

collKeys - the keys to process; these keys are not required to exist within the Map

agent - the EntryProcessor to use to process the specified keys

Returns:

a Map containing the results of invoking the EntryProcessor against each of the specified keys

invokeAll

public java.util.Map invokeAll(Filter filter,
                               InvocableMap.EntryProcessor agent)

Invoke the passed EntryProcessor against the set of entries that are selected by the given Filter, returning the result of the invocation for each.

Unless specified otherwise, InvocableMap implementations will perform this operation in two steps: (1) use the filter to retrieve a matching entry set; (2) apply the agent to every filtered entry. This algorithm assumes that the agent's processing does not affect the result of the specified filter evaluation, since the filtering and processing could be performed in parallel on different threads. If this assumption does not hold, the processor logic has to be idempotent, or at least re-evaluate the filter. This could be easily accomplished by wrapping the processor with the ConditionalProcessor.

Specified by:

invokeAll in interface InvocableMap

Parameters:

filter - a Filter that results in the set of keys to be processed

agent - the EntryProcessor to use to process the specified keys

Returns:

a Map containing the results of invoking the EntryProcessor against the keys that are selected by the given Filter

aggregate

public java.lang.Object aggregate(java.util.Collection collKeys,
                                  InvocableMap.EntryAggregator agent)

Perform an aggregating operation against the entries specified by the passed keys.

Specified by:

aggregate in interface InvocableMap

Parameters:

collKeys - the Collection of keys that specify the entries within this Map to aggregate across

agent - the EntryAggregator that is used to aggregate across the specified entries of this Map

Returns:

the result of the aggregation

aggregate

public java.lang.Object aggregate(Filter filter,
                                  InvocableMap.EntryAggregator agent)

Perform an aggregating operation against the set of entries that are selected by the given Filter.

Specified by:

aggregate in interface InvocableMap

Parameters:

filter - the Filter that is used to select entries within this Map to aggregate across

agent - the EntryAggregator that is used to aggregate across the selected entries of this Map

Returns:

the result of the aggregation

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