com.hazelcast.client.cache.impl

Class ClientCacheProxy<K,V>

java.lang.Object

com.hazelcast.client.spi.ClientProxy

com.hazelcast.client.cache.impl.ClientCacheProxy<K,V>

Type Parameters:

K - key type

V - value type

All Implemented Interfaces:

ICache<K,V>, CacheSyncListenerCompleter, ICacheInternal<K,V>, DistributedObject, PrefixedDistributedObject, Closeable, AutoCloseable, Iterable<javax.cache.Cache.Entry<K,V>>, javax.cache.Cache<K,V>

public class ClientCacheProxy<K,V>
extends ClientProxy

ICache implementation for client

This proxy is the implementation of ICache and javax.cache.Cache which is returned by HazelcastClientCacheManager. Represent a cache on client.

This implementation is a thin proxy implementation using hazelcast client infrastructure

Nested Class Summary

Nested classes/interfaces inherited from interface javax.cache.Cache

javax.cache.Cache.Entry<K,V>

Field Summary

Fields

Modifier and Type	Field and Description
protected CacheConfig<K,V>	cacheConfig
protected HazelcastClientCacheManager	cacheManager
protected boolean	cacheOnUpdate
protected ClientContext	clientContext
protected ILogger	logger
protected String	name
protected String	nameWithPrefix
protected NearCache<Object,Object>	nearCache
protected NearCacheManager	nearCacheManager
protected String	nearCacheMembershipRegistrationId used when this cache has no near cache configured
protected ClientCacheStatisticsImpl	statistics
protected boolean	statisticsEnabled

Constructor Summary

Constructors

Constructor and Description
ClientCacheProxy(CacheConfig<K,V> cacheConfig)

Method Summary

Modifier and Type	Method and Description
protected void	addListenerLocally(String regId, javax.cache.configuration.CacheEntryListenerConfiguration<K,V> cacheEntryListenerConfiguration)
String	addPartitionLostListener(CachePartitionLostListener listener) Adds a CachePartitionLostListener.
void	clear()
protected void	clearInternal()
void	close()
protected void	closeListeners()
boolean	containsKey(K key)
void	countDownCompletionLatch(int countDownLatchId)
protected EventHandler	createHandler(CacheEventListenerAdaptor<K,V> adaptor)
void	deregisterCacheEntryListener(javax.cache.configuration.CacheEntryListenerConfiguration<K,V> cacheEntryListenerConfiguration)
protected void	deregisterCompletionLatch(Integer countDownLatchId)
protected void	ensureOpen()
V	get(K key)
V	get(K key, javax.cache.expiry.ExpiryPolicy expiryPolicy) Retrieves the mapped value of the given key using a custom ExpiryPolicy.
Map<K,V>	getAll(Set<? extends K> keys)
Map<K,V>	getAll(Set<? extends K> keys, javax.cache.expiry.ExpiryPolicy expiryPolicy) Gets a collection of entries from the cache with custom expiry policy, returning them as Map of the values associated with the set of keys requested.
V	getAndPut(K key, V value)
V	getAndPut(K key, V value, javax.cache.expiry.ExpiryPolicy expiryPolicy) Associates the specified value with the specified key in this cache using a custom ExpiryPolicy, returning an existing value if one existed.
ICompletableFuture<V>	getAndPutAsync(K key, V value) Asynchronously associates the specified value with the specified key in this cache, returning an existing value if one existed.
ICompletableFuture<V>	getAndPutAsync(K key, V value, javax.cache.expiry.ExpiryPolicy expiryPolicy) Asynchronously associates the specified value with the specified key in this cache, returning an existing value if one existed using a custom ExpiryPolicy.
V	getAndRemove(K key)
ICompletableFuture<V>	getAndRemoveAsync(K key) Asynchronously removes the entry for a key and returns the previously assigned value or null if no value was assigned.
protected <T> ICompletableFuture<T>	getAndRemoveAsyncInternal(K key, boolean withCompletionEvent, boolean async)
V	getAndReplace(K key, V value)
V	getAndReplace(K key, V value, javax.cache.expiry.ExpiryPolicy expiryPolicy) Atomically replaces the assigned value of the given key by the specified value using a custom ExpiryPolicy and returns the previously assigned value.
ICompletableFuture<V>	getAndReplaceAsync(K key, V value) Asynchronously replaces the assigned value of the given key by the specified value and returns the previously assigned value.
ICompletableFuture<V>	getAndReplaceAsync(K key, V value, javax.cache.expiry.ExpiryPolicy expiryPolicy) Asynchronously replaces the assigned value of the given key by the specified value using a custom ExpiryPolicy and returns the previously assigned value.
ICompletableFuture<V>	getAsync(K key) Asynchronously retrieves the mapped value of the given key using a custom ExpiryPolicy.
ICompletableFuture<V>	getAsync(K key, javax.cache.expiry.ExpiryPolicy expiryPolicy) Asynchronously gets an entry from cache using a custom ExpiryPolicy.
protected Object	getCachedValue(Data keyData, boolean deserializeValue)
javax.cache.CacheManager	getCacheManager()
ClientContext	getClientContext()
<C extends javax.cache.configuration.Configuration<K,V>> C	getConfiguration(Class<C> clazz)
protected String	getDistributedObjectName()
protected Object	getInternal(K key, javax.cache.expiry.ExpiryPolicy expiryPolicy, boolean async)
protected String	getListenerIdLocal(javax.cache.configuration.CacheEntryListenerConfiguration<K,V> cacheEntryListenerConfiguration)
CacheStatistics	getLocalCacheStatistics() Directly access local Cache Statistics.
String	getNameWithPrefix() Deprecated. use #getPrefixedName instead
NearCache	getNearCache()
String	getPrefixedName() Returns the unique prefixed name for this DistributedObject.
protected <T> T	getSafely(Future<T> future)
protected void	handleStatisticsOnGet(long start, Object response)
protected void	handleStatisticsOnPut(boolean isGet, long start, Object response)
protected void	handleStatisticsOnPutIfAbsent(long start, boolean saved)
protected void	handleStatisticsOnRemove(boolean isGet, long start, Object response)
protected void	handleStatisticsOnReplace(boolean isGet, long start, Object response)
protected void	injectDependencies(Object obj)
protected void	invalidateNearCache(Data key)
protected ClientMessage	invoke(ClientMessage clientMessage)
protected ClientMessage	invoke(ClientMessage clientMessage, Data keyData)
protected ClientInvocationFuture	invoke(ClientMessage req, Data keyData, int completionId)
protected ClientInvocationFuture	invoke(ClientMessage req, int partitionId, int completionId)
<T> T	invoke(K key, javax.cache.processor.EntryProcessor<K,V,T> entryProcessor, Object... arguments)
<T> Map<K,javax.cache.processor.EntryProcessorResult<T>>	invokeAll(Set<? extends K> keys, javax.cache.processor.EntryProcessor<K,V,T> entryProcessor, Object... arguments)
boolean	isClosed()
boolean	isDestroyed() Determines whether this Cache instance has been destroyed.
Iterator<javax.cache.Cache.Entry<K,V>>	iterator()
Iterator<javax.cache.Cache.Entry<K,V>>	iterator(int fetchSize) Creates and returns a cluster wide iterator to iterate on all entries owned by this cache.
Iterator<javax.cache.Cache.Entry<K,V>>	iterator(int fetchSize, int partitionId, boolean prefetchValues)
void	loadAll(Set<? extends K> keys, boolean replaceExistingValues, javax.cache.integration.CompletionListener completionListener)
protected int	nextCompletionId()
protected void	onDestroy() Called before proxy is destroyed.
protected void	onInitialize() Called when proxy is created.
protected void	onLoadAll(Set<Data> keys, Object response, long start, long end)
void	open() Opens cache if available (not destroyed).
protected void	postDestroy() Called after proxy is destroyed.
protected boolean	preDestroy() Called before proxy is destroyed and determines whether destroy should be done.
void	put(K key, V value)
void	put(K key, V value, javax.cache.expiry.ExpiryPolicy expiryPolicy) Associates the specified value with the specified key in the cache using a custom ExpiryPolicy.
void	putAll(Map<? extends K,? extends V> map)
void	putAll(Map<? extends K,? extends V> map, javax.cache.expiry.ExpiryPolicy expiryPolicy) Copies all of the entries from the given map to the cache using a custom ExpiryPolicy.
ICompletableFuture<Void>	putAsync(K key, V value) Asynchronously associates the specified value with the specified key in the cache.
ICompletableFuture<Void>	putAsync(K key, V value, javax.cache.expiry.ExpiryPolicy expiryPolicy) Asynchronously associates the specified value with the specified key in the cache using a custom ExpiryPolicy.
boolean	putIfAbsent(K key, V value)
boolean	putIfAbsent(K key, V value, javax.cache.expiry.ExpiryPolicy expiryPolicy) Associates the specified key with the given value if and only if there is not yet a mapping defined for the specified key.
ICompletableFuture<Boolean>	putIfAbsentAsync(K key, V value) Asynchronously associates the specified key with the given value if and only if there is not yet a mapping defined for the specified key.
ICompletableFuture<Boolean>	putIfAbsentAsync(K key, V value, javax.cache.expiry.ExpiryPolicy expiryPolicy) Asynchronously associates the specified key with the given value if and only if there is not yet a mapping defined for the specified key.
protected Object	putIfAbsentInternal(K key, V value, javax.cache.expiry.ExpiryPolicy expiryPolicy, boolean withCompletionEvent, boolean async)
protected Object	putInternal(K key, V value, javax.cache.expiry.ExpiryPolicy expiryPolicy, boolean isGet, boolean withCompletionEvent, boolean async)
void	registerCacheEntryListener(javax.cache.configuration.CacheEntryListenerConfiguration<K,V> cacheEntryListenerConfiguration)
void	registerCacheEntryListener(javax.cache.configuration.CacheEntryListenerConfiguration cacheEntryListenerConfiguration, boolean addToConfig) Registers the provided listener configuration.
protected Integer	registerCompletionLatch(Integer countDownLatchId, int count)
protected void	releaseRemainingReservedKeys(Map<Data,Long> reservedKeys)
boolean	remove(K key)
boolean	remove(K key, V oldValue)
void	removeAll()
void	removeAll(Set<? extends K> keys)
protected void	removeAllInternal()
protected void	removeAllKeysInternal(Set<? extends K> keys)
ICompletableFuture<Boolean>	removeAsync(K key) Asynchronously removes the mapping for a key from this cache if it is present.
ICompletableFuture<Boolean>	removeAsync(K key, V oldValue) Asynchronously removes the mapping for the given key if and only if the currently mapped value equals to the value of oldValue.
protected <T> ICompletableFuture<T>	removeAsyncInternal(K key, V oldValue, boolean hasOldValue, boolean withCompletionEvent, boolean async)
protected String	removeListenerLocally(javax.cache.configuration.CacheEntryListenerConfiguration<K,V> cacheEntryListenerConfiguration)
boolean	removePartitionLostListener(String id) Removes the specified cache partition lost listener.
boolean	replace(K key, V value)
boolean	replace(K key, V value, javax.cache.expiry.ExpiryPolicy expiryPolicy) Atomically replaces the assigned value of the given key by the specified value using a custom ExpiryPolicy.
boolean	replace(K key, V oldValue, V newValue)
boolean	replace(K key, V oldValue, V newValue, javax.cache.expiry.ExpiryPolicy expiryPolicy) Atomically replaces the currently assigned value for the given key with the specified newValue if and only if the currently assigned value equals the value of oldValue using a custom ExpiryPolicy.
protected <T> ICompletableFuture<T>	replaceAndGetAsyncInternal(K key, V oldValue, V newValue, javax.cache.expiry.ExpiryPolicy expiryPolicy, boolean hasOldValue, boolean withCompletionEvent, boolean async)
ICompletableFuture<Boolean>	replaceAsync(K key, V value) Asynchronously replaces the assigned value of the given key by the specified value.
ICompletableFuture<Boolean>	replaceAsync(K key, V value, javax.cache.expiry.ExpiryPolicy expiryPolicy) Asynchronously replaces the assigned value of the given key by the specified value using a custom ExpiryPolicy.
ICompletableFuture<Boolean>	replaceAsync(K key, V oldValue, V newValue) Asynchronously replaces the currently assigned value for the given key with the specified newValue if and only if the currently assigned value equals the value of oldValue.
ICompletableFuture<Boolean>	replaceAsync(K key, V oldValue, V newValue, javax.cache.expiry.ExpiryPolicy expiryPolicy) Asynchronously replaces the currently assigned value for the given key with the specified newValue if and only if the currently assigned value equals the value of oldValue using a custom ExpiryPolicy.
protected <T> ICompletableFuture<T>	replaceInternal(K key, V oldValue, V newValue, javax.cache.expiry.ExpiryPolicy expiryPolicy, boolean hasOldValue, boolean withCompletionEvent, boolean async)
int	size() Total entry count.
protected void	storeInNearCache(Data key, Data valueData, V value, long reservationId, boolean cacheOnUpdate)
protected void	submitLoadAllTask(ClientMessage request, javax.cache.integration.CompletionListener completionListener, Set<Data> keys)
protected Data	toData(Object o)
protected <T> T	toObject(Object data)
protected long	tryReserveForUpdate(Data keyData)
<T> T	unwrap(Class<T> clazz)
protected void	updateCacheListenerConfigOnOtherNodes(javax.cache.configuration.CacheEntryListenerConfiguration<K,V> cacheEntryListenerConfiguration, boolean isRegister)
protected void	waitCompletionLatch(Integer countDownLatchId, ICompletableFuture future)

Methods inherited from class com.hazelcast.client.spi.ClientProxy

deregisterListener, destroy, equals, getClient, getContext, getId, getName, getPartitionKey, getSerializationService, getServiceName, hashCode, invoke, invokeOnPartition, invokeOnPartitionInterruptibly, onShutdown, registerListener, setContext

Methods inherited from class java.lang.Object

clone, finalize, getClass, notify, notifyAll, toString, wait, wait, wait

Methods inherited from interface com.hazelcast.cache.impl.ICacheInternal

open

Methods inherited from interface com.hazelcast.cache.ICache

destroy, isDestroyed

Methods inherited from interface javax.cache.Cache

close, getName, isClosed

Methods inherited from interface java.lang.Iterable

forEach, spliterator

Methods inherited from interface com.hazelcast.core.PrefixedDistributedObject

getPrefixedName

Methods inherited from interface com.hazelcast.core.DistributedObject

getName, getPartitionKey, getServiceName

Field Detail

cacheManager

protected HazelcastClientCacheManager cacheManager

nearCacheManager

protected NearCacheManager nearCacheManager

nearCache

protected NearCache<Object,Object> nearCache

nearCacheMembershipRegistrationId

protected String nearCacheMembershipRegistrationId

used when this cache has no near cache configured

statistics

protected ClientCacheStatisticsImpl statistics

statisticsEnabled

protected boolean statisticsEnabled

cacheOnUpdate

protected boolean cacheOnUpdate

name

protected final String name

nameWithPrefix

protected final String nameWithPrefix

cacheConfig

protected final CacheConfig<K,V> cacheConfig

clientContext

protected ClientContext clientContext

logger

protected ILogger logger

Constructor Detail

ClientCacheProxy

public ClientCacheProxy(CacheConfig<K,V> cacheConfig)

Method Detail

getNearCache

public NearCache getNearCache()

get

public V get(K key)

getAll

public Map<K,V> getAll(Set<? extends K> keys)

containsKey

public boolean containsKey(K key)

loadAll

public void loadAll(Set<? extends K> keys,
                    boolean replaceExistingValues,
                    javax.cache.integration.CompletionListener completionListener)

onLoadAll

protected void onLoadAll(Set<Data> keys,
                         Object response,
                         long start,
                         long end)

put

public void put(K key,
                V value)

getAndPut

public V getAndPut(K key,
                   V value)

putAll

public void putAll(Map<? extends K,? extends V> map)

putIfAbsent

public boolean putIfAbsent(K key,
                           V value)

remove

public boolean remove(K key)

remove

public boolean remove(K key,
                      V oldValue)

getAndRemove

public V getAndRemove(K key)

replace

public boolean replace(K key,
                       V oldValue,
                       V newValue)

replace

public boolean replace(K key,
                       V value)

getAndReplace

public V getAndReplace(K key,
                       V value)

removeAll

public void removeAll(Set<? extends K> keys)

removeAll

public void removeAll()

clear

public void clear()

getConfiguration

public <C extends javax.cache.configuration.Configuration<K,V>> C getConfiguration(Class<C> clazz)

invoke

public <T> T invoke(K key,
                    javax.cache.processor.EntryProcessor<K,V,T> entryProcessor,
                    Object... arguments)
             throws javax.cache.processor.EntryProcessorException

Throws:

javax.cache.processor.EntryProcessorException

invokeAll

public <T> Map<K,javax.cache.processor.EntryProcessorResult<T>> invokeAll(Set<? extends K> keys,
                                                                          javax.cache.processor.EntryProcessor<K,V,T> entryProcessor,
                                                                          Object... arguments)

getCacheManager

public javax.cache.CacheManager getCacheManager()

unwrap

public <T> T unwrap(Class<T> clazz)

registerCacheEntryListener

public void registerCacheEntryListener(javax.cache.configuration.CacheEntryListenerConfiguration<K,V> cacheEntryListenerConfiguration)

registerCacheEntryListener

public void registerCacheEntryListener(javax.cache.configuration.CacheEntryListenerConfiguration cacheEntryListenerConfiguration,
                                       boolean addToConfig)

Description copied from interface: ICacheInternal

Registers the provided listener configuration.

Parameters:

cacheEntryListenerConfiguration - The cache configuration to be used for registering the entry listener

addToConfig - If true, the configuration is added to the existing listeners in the cache config.

deregisterCacheEntryListener

public void deregisterCacheEntryListener(javax.cache.configuration.CacheEntryListenerConfiguration<K,V> cacheEntryListenerConfiguration)

updateCacheListenerConfigOnOtherNodes

protected void updateCacheListenerConfigOnOtherNodes(javax.cache.configuration.CacheEntryListenerConfiguration<K,V> cacheEntryListenerConfiguration,
                                                     boolean isRegister)

iterator

public Iterator<javax.cache.Cache.Entry<K,V>> iterator()

iterator

public Iterator<javax.cache.Cache.Entry<K,V>> iterator(int fetchSize)

Description copied from interface: ICache

Creates and returns a cluster wide iterator to iterate on all entries owned by this cache.

The ordering of iteration over entries is undefined.

During iteration, any entries that are:

• read will have their appropriate CacheEntryReadListeners notified.
• removed will have their appropriate CacheEntryRemoveListeners notified.

Iterator.next() may return null if the entry is no longer present, has expired or has been evicted.

Parameters:

fetchSize - size for fetching keys in bulk. This size can be thought of as page size for iteration. But notice that at every fetch, only keys are retrieved, not values. Values are retrieved on each iterate.

See Also:

Cache.iterator()

iterator

public Iterator<javax.cache.Cache.Entry<K,V>> iterator(int fetchSize,
                                                       int partitionId,
                                                       boolean prefetchValues)

addPartitionLostListener

public String addPartitionLostListener(CachePartitionLostListener listener)

Description copied from interface: ICache

Adds a CachePartitionLostListener.

The addPartitionLostListener returns a registration ID. This ID is needed to remove the CachePartitionLostListener using the ICache.removePartitionLostListener(String) method.

There is no check for duplicate registrations, so if you register the listener twice, it will get events twice. IMPORTANT: Please @see com.hazelcast.partition.PartitionLostListener for weaknesses. IMPORTANT: Listeners registered from HazelcastClient may miss some of the cache partition lost events due to design limitations.

Parameters:

listener - the added CachePartitionLostListener.

Returns:

returns the registration id for the CachePartitionLostListener.

See Also:

ICache.removePartitionLostListener(String)

removePartitionLostListener

public boolean removePartitionLostListener(String id)

Description copied from interface: ICache

Removes the specified cache partition lost listener. Returns silently if there is no such listener added before.

Parameters:

id - ID of registered listener.

Returns:

true if registration is removed, false otherwise.

getClientContext

public ClientContext getClientContext()

getCachedValue

protected Object getCachedValue(Data keyData,
                                boolean deserializeValue)

getInternal

protected Object getInternal(K key,
                             javax.cache.expiry.ExpiryPolicy expiryPolicy,
                             boolean async)

handleStatisticsOnGet

protected void handleStatisticsOnGet(long start,
                                     Object response)

getAsync

public ICompletableFuture<V> getAsync(K key)

Description copied from interface: ICache

Asynchronously retrieves the mapped value of the given key using a custom ExpiryPolicy. If no mapping exists null is returned.

If the cache is configured for read-through operation mode, the underlying configured CacheLoader might be called to retrieve the value of the key from any kind of external resource.

The resulting ICompletableFuture instance may throw a ClassCastException as the operations result if the Cache is configured to perform runtime-type-checking, and the key or value types are incompatible with those that have been configured for the Cache.

Specified by:

getAsync in interface ICache<K,V>

Parameters:

key - The key whose associated value is to be returned.

Returns:

ICompletableFuture retrieve the value assigned to the given key.

See Also:

javax.cache.Cache#get(K), ICompletableFuture

getAsync

public ICompletableFuture<V> getAsync(K key,
                                      javax.cache.expiry.ExpiryPolicy expiryPolicy)

Description copied from interface: ICache

Asynchronously gets an entry from cache using a custom ExpiryPolicy.

If the cache is configured for read-through operation mode, the underlying configured CacheLoader might be called to retrieve the value of the key from any kind of external resource.

The resulting ICompletableFuture instance may throw a ClassCastException as the operations result if the Cache is configured to perform runtime-type-checking, and the key or value types are incompatible with those that have been configured for the Cache.

Specified by:

getAsync in interface ICache<K,V>

Parameters:

key - The key whose associated value is to be returned.

expiryPolicy - The custom expiry policy for this operation, a null value is equivalent to ICache.getAsync(Object).

Returns:

ICompletableFuture retrieve the value assigned to the given key.

See Also:

javax.cache.Cache#get(K), ICompletableFuture

putAsync

public ICompletableFuture<Void> putAsync(K key,
                                         V value)

Description copied from interface: ICache

Asynchronously associates the specified value with the specified key in the cache.

In case a previous assignment already exists, the previous value is overridden by the new given value.

If the cache is configured for write-through operation mode, the underlying configured CacheWriter might be called to store the value of the key to any kind of external resource.

Specified by:

putAsync in interface ICache<K,V>

Parameters:

key - The key whose associated value is to be returned.

value - The value to be associated with the specified key.

Returns:

ICompletableFuture notify when the operation succeeds.

See Also:

javax.cache.Cache#put(K,V), ICompletableFuture

putAsync

public ICompletableFuture<Void> putAsync(K key,
                                         V value,
                                         javax.cache.expiry.ExpiryPolicy expiryPolicy)

Description copied from interface: ICache

Asynchronously associates the specified value with the specified key in the cache using a custom ExpiryPolicy.

In case a previous assignment already exists, the previous value is overridden by the new given value.

If the cache is configured for write-through operation mode, the underlying configured CacheWriter might be called to store the value of the key to any kind of external resource.

Specified by:

putAsync in interface ICache<K,V>

Parameters:

key - The key whose associated value is to be returned.

value - The value to be associated with the specified key.

expiryPolicy - The custom expiry policy for this operation, a null value is equivalent to ICache.putAsync(Object, Object).

Returns:

ICompletableFuture notify when the operation succeeds.

See Also:

javax.cache.Cache#put(K,V), ICompletableFuture

putIfAbsentAsync

public ICompletableFuture<Boolean> putIfAbsentAsync(K key,
                                                    V value)

Description copied from interface: ICache

Asynchronously associates the specified key with the given value if and only if there is not yet a mapping defined for the specified key.

This is equivalent to:

   if (!cache.containsKey(key)) {}
     cache.put(key, value);
     return true;
   } else {
     return false;
   }
 

except that the action is performed atomically.

If the cache is configured for write-through operation mode, the underlying configured CacheWriter might be called to store the value of the key to any kind of external resource.

Specified by:

putIfAbsentAsync in interface ICache<K,V>

Parameters:

key - The key that is associated with the specified value.

value - The value to which the specified key is associated.

Returns:

ICompletableFuture notify if a previous value was assigned with the key

See Also:

javax.cache.Cache#putIfAbsent(K,V), ICompletableFuture

putIfAbsentAsync

public ICompletableFuture<Boolean> putIfAbsentAsync(K key,
                                                    V value,
                                                    javax.cache.expiry.ExpiryPolicy expiryPolicy)

Description copied from interface: ICache

Asynchronously associates the specified key with the given value if and only if there is not yet a mapping defined for the specified key. using a custom ExpiryPolicy.

This is equivalent to:

   if (!cache.containsKey(key)) {}
     cache.put(key, value);
     return true;
   } else {
     return false;
   }
 

except that the action is performed atomically.

If the cache is configured for write-through operation mode, the underlying configured CacheWriter might be called to store the value of the key to any kind of external resource.

Specified by:

putIfAbsentAsync in interface ICache<K,V>

Parameters:

key - The key that is associated with the specified value.

value - The value to which the specified key is associated.

expiryPolicy - custom expiry policy for this operation, a null value is equivalent to ICache.putIfAbsentAsync(Object, Object)

Returns:

ICompletableFuture notify if a previous value was assigned with the key

See Also:

javax.cache.Cache#putIfAbsent(K,V), ICompletableFuture

getAndPutAsync

public ICompletableFuture<V> getAndPutAsync(K key,
                                            V value)

Description copied from interface: ICache

Asynchronously associates the specified value with the specified key in this cache, returning an existing value if one existed.

In case a previous assignment already exists, the previous value is overridden by the new given value and the previous value is returned to the caller. This is equivalent to the Map.put(Object, Object) operation.

If the cache is configured for write-through operation mode, the underlying configured CacheWriter might be called to store the value of the key to any kind of external resource.

Specified by:

getAndPutAsync in interface ICache<K,V>

Parameters:

key - The key whose associated value is to be returned.

value - The value that is associated with the specified key.

Returns:

ICompletableFuture retrieve a possible previously assigned value for the given key.

See Also:

javax.cache.Cache#getAndPut(K,V), ICompletableFuture

getAndPutAsync

public ICompletableFuture<V> getAndPutAsync(K key,
                                            V value,
                                            javax.cache.expiry.ExpiryPolicy expiryPolicy)

Description copied from interface: ICache

Asynchronously associates the specified value with the specified key in this cache, returning an existing value if one existed using a custom ExpiryPolicy.

In case a previous assignment already exists, the previous value is overridden by the new given value and the previous value is returned to the caller. This is equivalent to the Map.put(Object, Object) operation.

If the cache is configured for write-through operation mode, the underlying configured CacheWriter might be called to store the value of the key to any kind of external resource.

Specified by:

getAndPutAsync in interface ICache<K,V>

Parameters:

key - The key whose associated value is to be returned.

value - The value to associate with the specified key.

expiryPolicy - The custom expiry policy for this operation, a null value is equivalent to ICache.getAndPutAsync(Object, Object).

Returns:

ICompletableFuture retrieve a possible previously assigned value for the given key.

See Also:

javax.cache.Cache#getAndPut(K,V), ICompletableFuture

removeAsync

public ICompletableFuture<Boolean> removeAsync(K key)

Description copied from interface: ICache

Asynchronously removes the mapping for a key from this cache if it is present.

If the cache is configured for write-through operation mode, the underlying configured CacheWriter might be called to store the value of the key to any kind of external resource.

The resulting ICompletableFuture instance may throw a ClassCastException as the operations result if the Cache is configured to perform runtime-type-checking, and the key or value types are incompatible with those that have been configured for the Cache.

Specified by:

removeAsync in interface ICache<K,V>

Parameters:

key - The key whose mapping is to be removed.

Returns:

ICompletableFuture notify if mapping could be removed or not.

See Also:

javax.cache.Cache#remove(K), ICompletableFuture

removeAsync

public ICompletableFuture<Boolean> removeAsync(K key,
                                               V oldValue)

Description copied from interface: ICache

Asynchronously removes the mapping for the given key if and only if the currently mapped value equals to the value of oldValue.

This is equivalent to:

   if (cache.containsKey(key) && equals(cache.get(key), oldValue) {
     cache.remove(key);
     return true;
   } else {
     return false;
   }
 

except that the action is performed atomically.

If the cache is configured for write-through operation mode, the underlying configured CacheWriter might be called to store the value of the key to any kind of external resource.

The resulting ICompletableFuture instance may throw a ClassCastException as the operations result if the Cache is configured to perform runtime-type-checking, and the key or value types are incompatible with those that have been configured for the Cache.

Specified by:

removeAsync in interface ICache<K,V>

Parameters:

key - The key whose mapping is to be removed if the mapped value is oldValue.

oldValue - The value expected to be associated with the specified key.

Returns:

ICompletableFuture notify if mapping could be removed or not.

See Also:

javax.cache.Cache#remove(K,V), ICompletableFuture

getAndRemoveAsync

public ICompletableFuture<V> getAndRemoveAsync(K key)

Description copied from interface: ICache

Asynchronously removes the entry for a key and returns the previously assigned value or null if no value was assigned.

If the cache is configured for write-through operation mode, the underlying configured CacheWriter might be called to store the value of the key to any kind of external resource.

The resulting ICompletableFuture instance may throw a ClassCastException as the operations result if the Cache is configured to perform runtime-type-checking, and the key or value types are incompatible with those that have been configured for the Cache.

Specified by:

getAndRemoveAsync in interface ICache<K,V>

Parameters:

key - The key to be removed and whose associated value is to be returned.

Returns:

ICompletableFuture retrieve a possible previously assigned value for the removed key.

See Also:

javax.cache.Cache#getAndRemove(K), ICompletableFuture

replaceAsync

public ICompletableFuture<Boolean> replaceAsync(K key,
                                                V value)

Description copied from interface: ICache

Asynchronously replaces the assigned value of the given key by the specified value.

If the cache is configured for write-through operation mode, the underlying configured CacheWriter might be called to store the value of the key to any kind of external resource.

Specified by:

replaceAsync in interface ICache<K,V>

Parameters:

key - The key whose associated value is to be replaced.

value - The new value to be associated with the specified key.

Returns:

ICompletableFuture notify if the operation succeeds or not.

See Also:

javax.cache.Cache#replace(K,V), ICompletableFuture

replaceAsync

public ICompletableFuture<Boolean> replaceAsync(K key,
                                                V value,
                                                javax.cache.expiry.ExpiryPolicy expiryPolicy)

Description copied from interface: ICache

Asynchronously replaces the assigned value of the given key by the specified value using a custom ExpiryPolicy.

If the cache is configured for write-through operation mode, the underlying configured CacheWriter might be called to store the value of the key to any kind of external resource.

Specified by:

replaceAsync in interface ICache<K,V>

Parameters:

key - The key whose assigned value is replaced by the specified value.

value - The specified value to be associated with the given key.

expiryPolicy - The custom expiry policy for this operation, a null value is equivalent to ICache.replaceAsync(Object, Object)

Returns:

ICompletableFuture notify if the operation succeeds or not.

See Also:

javax.cache.Cache#replace(K,V), ICompletableFuture

replaceAsync

public ICompletableFuture<Boolean> replaceAsync(K key,
                                                V oldValue,
                                                V newValue)

Description copied from interface: ICache

Asynchronously replaces the currently assigned value for the given key with the specified newValue if and only if the currently assigned value equals the value of oldValue.

This is equivalent to:

   if (cache.containsKey(key) && equals(cache.get(key), oldValue) {
     cache.put(key, newValue);
     return true;
   } else {
     return false;
   }
 

except that the action is performed atomically.

If the cache is configured for write-through operation mode, the underlying configured CacheWriter might be called to store the value of the key to any kind of external resource.

The resulting ICompletableFuture instance may throw a ClassCastException as the operations result if the Cache is configured to perform runtime-type-checking, and the key or value types are incompatible with those that have been configured for the Cache.

Specified by:

replaceAsync in interface ICache<K,V>

Parameters:

key - The key that will have its assigned value replaced.

oldValue - The old value expected to be associated with the specified key.

newValue - The new value to be associated with the specified key.

Returns:

ICompletableFuture notify if the operation succeeds or not.

See Also:

javax.cache.Cache#replace(K,V,V), ICompletableFuture

replaceAsync

public ICompletableFuture<Boolean> replaceAsync(K key,
                                                V oldValue,
                                                V newValue,
                                                javax.cache.expiry.ExpiryPolicy expiryPolicy)

Description copied from interface: ICache

Asynchronously replaces the currently assigned value for the given key with the specified newValue if and only if the currently assigned value equals the value of oldValue using a custom ExpiryPolicy.

This is equivalent to:

   if (cache.containsKey(key) && equals(cache.get(key), oldValue) {
     cache.put(key, newValue);
     return true;
   } else {
     return false;
   }
 

except that the action is performed atomically.

If the cache is configured for write-through operation mode, the underlying configured CacheWriter might be called to store the value of the key to any kind of external resource.

The resulting ICompletableFuture instance may throw a ClassCastException as the operations result if the Cache is configured to perform runtime-type-checking, and the key or value types are incompatible with those that have been configured for the Cache.

Specified by:

replaceAsync in interface ICache<K,V>

Parameters:

key - The key that will have its assigned value replaced.

oldValue - The old value expected to be associated with the specified key.

newValue - The new value to be associated with the specified key.

expiryPolicy - The custom expiry policy for this operation, a null value is equivalent to ICache.replaceAsync(Object, Object, Object).

Returns:

ICompletableFuture to get notified if the operation succeed or not.

See Also:

javax.cache.Cache#replace(K,V,V), ICompletableFuture

getAndReplaceAsync

public ICompletableFuture<V> getAndReplaceAsync(K key,
                                                V value)

Description copied from interface: ICache

Asynchronously replaces the assigned value of the given key by the specified value and returns the previously assigned value.

If the cache is configured for write-through operation mode, the underlying configured CacheWriter might be called to store the value of the key to any kind of external resource.

Specified by:

getAndReplaceAsync in interface ICache<K,V>

Parameters:

key - The key whose value is replaced.

value - The new value to be associated with the specified key.

Returns:

ICompletableFuture to retrieve a possible previously assigned value for the given key.

See Also:

javax.cache.Cache#getAndReplace(K,V), ICompletableFuture

getAndReplaceAsync

public ICompletableFuture<V> getAndReplaceAsync(K key,
                                                V value,
                                                javax.cache.expiry.ExpiryPolicy expiryPolicy)

Description copied from interface: ICache

Asynchronously replaces the assigned value of the given key by the specified value using a custom ExpiryPolicy and returns the previously assigned value.

If the cache is configured for write-through operation mode, the underlying configured CacheWriter might be called to store the value of the key to any kind of external resource.

Specified by:

getAndReplaceAsync in interface ICache<K,V>

Parameters:

key - The key whose value is replaced.

value - The new value to be associated with the specified key.

expiryPolicy - The custom expiry policy for this operation, a null value is equivalent to Cache.getAndReplace(Object, Object)

Returns:

ICompletableFuture to retrieve a possible previously assigned value for the given key.

See Also:

javax.cache.Cache#getAndReplace(K,V), ICompletableFuture

get

public V get(K key,
             javax.cache.expiry.ExpiryPolicy expiryPolicy)

Description copied from interface: ICache

Retrieves the mapped value of the given key using a custom ExpiryPolicy. If no mapping exists null is returned.

If the cache is configured for read-through operation mode, the underlying configured CacheLoader might be called to retrieve the value of the key from any kind of external resource.

Specified by:

get in interface ICache<K,V>

Parameters:

key - The key whose mapped value is to be returned.

expiryPolicy - The custom expiry policy for this operation, a null value is equivalent to Cache.get(Object).

Returns:

The value assigned to the given key, or null if not assigned.

See Also:

javax.cache.Cache#get(K)

getAll

public Map<K,V> getAll(Set<? extends K> keys,
                       javax.cache.expiry.ExpiryPolicy expiryPolicy)

Description copied from interface: ICache

Gets a collection of entries from the cache with custom expiry policy, returning them as Map of the values associated with the set of keys requested.

If the cache is configured for read-through operation mode, the underlying configured CacheLoader might be called to retrieve the values of the keys from any kind of external resource.

Specified by:

getAll in interface ICache<K,V>

Parameters:

keys - The keys whose associated values are to be returned.

expiryPolicy - The custom expiry policy for this operation, a null value is equivalent to Cache.getAll(java.util.Set).

Returns:

A map of entries that were found for the given keys. Keys not found in the cache are not in the returned map.

See Also:

Cache.getAll(java.util.Set)

put

public void put(K key,
                V value,
                javax.cache.expiry.ExpiryPolicy expiryPolicy)

Description copied from interface: ICache

Associates the specified value with the specified key in the cache using a custom ExpiryPolicy.

Specified by:

put in interface ICache<K,V>

Parameters:

key - The key that has the specified value associated with it.

value - The value to be associated with the key.

expiryPolicy - The custom expiry policy for this operation, a null value is equivalent to Cache.put(Object, Object).

See Also:

javax.cache.Cache#put(K,V)

getAndPut

public V getAndPut(K key,
                   V value,
                   javax.cache.expiry.ExpiryPolicy expiryPolicy)

Description copied from interface: ICache

Associates the specified value with the specified key in this cache using a custom ExpiryPolicy, returning an existing value if one existed.

Specified by:

getAndPut in interface ICache<K,V>

Parameters:

key - The key that has the specified value associated with it.

value - The value to be associated with the key.

expiryPolicy - The custom expiry policy for this operation, a null value is equivalent to Cache.getAndPut(Object, Object).

Returns:

The value previously assigned to the given key, or null if not assigned.

See Also:

javax.cache.Cache#getAndPut(K,V)

putAll

public void putAll(Map<? extends K,? extends V> map,
                   javax.cache.expiry.ExpiryPolicy expiryPolicy)

Description copied from interface: ICache

Copies all of the entries from the given map to the cache using a custom ExpiryPolicy.

Puts of single entries happen atomically but there is no transactional guarantee over the complete putAll operation. If other concurrent operations modify or remove all or single values of the provided map, the result is undefined.

If the cache is configured for write-through operation mode, the underlying configured CacheWriter might be called to store the values of the keys to any kind of external resource.

Specified by:

putAll in interface ICache<K,V>

Parameters:

map - The mappings to be stored in this cache.

expiryPolicy - The custom expiry policy for this operation, a null value is equivalent to Cache.putAll(java.util.Map).

See Also:

Cache.putAll(java.util.Map)

putIfAbsent

public boolean putIfAbsent(K key,
                           V value,
                           javax.cache.expiry.ExpiryPolicy expiryPolicy)

Description copied from interface: ICache

Associates the specified key with the given value if and only if there is not yet a mapping defined for the specified key.

This is equivalent to:

   if (!cache.containsKey(key)) {}
     cache.put(key, value);
     return true;
   } else {
     return false;
   }
 

except that the action is performed atomically.

If the cache is configured for write-through operation mode, the underlying configured CacheWriter might be called to store the value of the key to any kind of external resource.

Specified by:

putIfAbsent in interface ICache<K,V>

Parameters:

key - The key that is associated with the specified value.

value - The value that has the specified key associated with it.

expiryPolicy - The custom expiry policy for this operation, a null value is equivalent to Cache.putIfAbsent(Object, Object).

Returns:

true if a value was set, false otherwise.

See Also:

javax.cache.Cache#putIfAbsent(K,V)

replace

public boolean replace(K key,
                       V oldValue,
                       V newValue,
                       javax.cache.expiry.ExpiryPolicy expiryPolicy)

Description copied from interface: ICache

Atomically replaces the currently assigned value for the given key with the specified newValue if and only if the currently assigned value equals the value of oldValue using a custom ExpiryPolicy.

This is equivalent to:

   if (cache.containsKey(key) && equals(cache.get(key), oldValue) {
     cache.put(key, newValue);
     return true;
   } else {
     return false;
   }
 

except that the action is performed atomically.

If the cache is configured for write-through operation mode, the underlying configured CacheWriter might be called to store the value of the key to any kind of external resource.

Specified by:

replace in interface ICache<K,V>

Parameters:

key - The key with the value to be replaced.

oldValue - The old value expected to be associated with the specified key.

newValue - The new value to be associated with the specified key.

expiryPolicy - The custom expiry policy for this operation, a null value is equivalent to Cache.replace(Object, Object, Object).

Returns:

true if a value was replaced, false otherwise.

See Also:

javax.cache.Cache#replace(K,V,V)

replace

public boolean replace(K key,
                       V value,
                       javax.cache.expiry.ExpiryPolicy expiryPolicy)

Description copied from interface: ICache

Atomically replaces the assigned value of the given key by the specified value using a custom ExpiryPolicy.

If the cache is configured for write-through operation mode, the underlying configured CacheWriter might be called to store the value of the key to any kind of external resource.

Specified by:

replace in interface ICache<K,V>

Parameters:

key - The key whose value is replaced.

value - The new value to be associated with the specified key.

expiryPolicy - The custom expiry policy for this operation, a null value is equivalent to Cache.replace(Object, Object)

Returns:

true if a value was replaced, false otherwise.

See Also:

javax.cache.Cache#replace(K,V)

getAndReplace

public V getAndReplace(K key,
                       V value,
                       javax.cache.expiry.ExpiryPolicy expiryPolicy)

Description copied from interface: ICache

Atomically replaces the assigned value of the given key by the specified value using a custom ExpiryPolicy and returns the previously assigned value.

If the cache is configured for write-through operation mode, the underlying configured CacheWriter might be called to store the value of the key to any kind of external resource.

Specified by:

getAndReplace in interface ICache<K,V>

Parameters:

key - The key whose value is replaced.

value - The new value to be associated with the specified key.

expiryPolicy - The custom expiry policy for this operation, a null value is equivalent to Cache.getAndReplace(Object, Object).

Returns:

The old value previously assigned to the given key.

See Also:

javax.cache.Cache#getAndReplace(K,V)

size

public int size()

Description copied from interface: ICache

Total entry count.

Specified by:

size in interface ICache<K,V>

Returns:

total entry count

getLocalCacheStatistics

public CacheStatistics getLocalCacheStatistics()

Description copied from interface: ICache

Directly access local Cache Statistics.

Specified by:

getLocalCacheStatistics in interface ICache<K,V>

Returns:

CacheStatistics instance or an empty statistics if not enabled.

onInitialize

protected void onInitialize()

Description copied from class: ClientProxy

Called when proxy is created. Overriding implementations can add initialization specific logic into this method like registering a listener, creating a cleanup task etc.

postDestroy

protected void postDestroy()

Description copied from class: ClientProxy

Called after proxy is destroyed.

Overrides:

postDestroy in class ClientProxy

close

public void close()

Specified by:

close in interface Closeable

Specified by:

close in interface AutoCloseable

Specified by:

close in interface javax.cache.Cache<K,V>

onDestroy

protected void onDestroy()

Description copied from class: ClientProxy

Called before proxy is destroyed. Overriding implementations should clean/release resources created during initialization.

Overrides:

onDestroy in class ClientProxy

invoke

protected ClientInvocationFuture invoke(ClientMessage req,
                                        int partitionId,
                                        int completionId)

invoke

protected ClientInvocationFuture invoke(ClientMessage req,
                                        Data keyData,
                                        int completionId)

getSafely

protected <T> T getSafely(Future<T> future)

getAndRemoveAsyncInternal

protected <T> ICompletableFuture<T> getAndRemoveAsyncInternal(K key,
                                                              boolean withCompletionEvent,
                                                              boolean async)

removeAsyncInternal

protected <T> ICompletableFuture<T> removeAsyncInternal(K key,
                                                        V oldValue,
                                                        boolean hasOldValue,
                                                        boolean withCompletionEvent,
                                                        boolean async)

handleStatisticsOnRemove

protected void handleStatisticsOnRemove(boolean isGet,
                                        long start,
                                        Object response)

replaceInternal

protected <T> ICompletableFuture<T> replaceInternal(K key,
                                                    V oldValue,
                                                    V newValue,
                                                    javax.cache.expiry.ExpiryPolicy expiryPolicy,
                                                    boolean hasOldValue,
                                                    boolean withCompletionEvent,
                                                    boolean async)

replaceAndGetAsyncInternal

protected <T> ICompletableFuture<T> replaceAndGetAsyncInternal(K key,
                                                               V oldValue,
                                                               V newValue,
                                                               javax.cache.expiry.ExpiryPolicy expiryPolicy,
                                                               boolean hasOldValue,
                                                               boolean withCompletionEvent,
                                                               boolean async)

handleStatisticsOnReplace

protected void handleStatisticsOnReplace(boolean isGet,
                                         long start,
                                         Object response)

putInternal

protected Object putInternal(K key,
                             V value,
                             javax.cache.expiry.ExpiryPolicy expiryPolicy,
                             boolean isGet,
                             boolean withCompletionEvent,
                             boolean async)

tryReserveForUpdate

protected long tryReserveForUpdate(Data keyData)

releaseRemainingReservedKeys

protected void releaseRemainingReservedKeys(Map<Data,Long> reservedKeys)

handleStatisticsOnPut

protected void handleStatisticsOnPut(boolean isGet,
                                     long start,
                                     Object response)

putIfAbsentInternal

protected Object putIfAbsentInternal(K key,
                                     V value,
                                     javax.cache.expiry.ExpiryPolicy expiryPolicy,
                                     boolean withCompletionEvent,
                                     boolean async)

handleStatisticsOnPutIfAbsent

protected void handleStatisticsOnPutIfAbsent(long start,
                                             boolean saved)

removeAllKeysInternal

protected void removeAllKeysInternal(Set<? extends K> keys)

removeAllInternal

protected void removeAllInternal()

clearInternal

protected void clearInternal()

storeInNearCache

protected void storeInNearCache(Data key,
                                Data valueData,
                                V value,
                                long reservationId,
                                boolean cacheOnUpdate)

invalidateNearCache

protected void invalidateNearCache(Data key)

addListenerLocally

protected void addListenerLocally(String regId,
                                  javax.cache.configuration.CacheEntryListenerConfiguration<K,V> cacheEntryListenerConfiguration)

removeListenerLocally

protected String removeListenerLocally(javax.cache.configuration.CacheEntryListenerConfiguration<K,V> cacheEntryListenerConfiguration)

getListenerIdLocal

protected String getListenerIdLocal(javax.cache.configuration.CacheEntryListenerConfiguration<K,V> cacheEntryListenerConfiguration)

closeListeners

protected void closeListeners()

countDownCompletionLatch

public void countDownCompletionLatch(int countDownLatchId)

Specified by:

countDownCompletionLatch in interface CacheSyncListenerCompleter

registerCompletionLatch

protected Integer registerCompletionLatch(Integer countDownLatchId,
                                          int count)

deregisterCompletionLatch

protected void deregisterCompletionLatch(Integer countDownLatchId)

waitCompletionLatch

protected void waitCompletionLatch(Integer countDownLatchId,
                                   ICompletableFuture future)
                            throws ExecutionException

Throws:

ExecutionException

createHandler

protected EventHandler createHandler(CacheEventListenerAdaptor<K,V> adaptor)

injectDependencies

protected void injectDependencies(Object obj)

getDistributedObjectName

protected String getDistributedObjectName()

Overrides:

getDistributedObjectName in class ClientProxy

nextCompletionId

protected int nextCompletionId()

ensureOpen

protected void ensureOpen()

preDestroy

protected boolean preDestroy()

Description copied from class: ClientProxy

Called before proxy is destroyed and determines whether destroy should be done.

Overrides:

preDestroy in class ClientProxy

Returns:

true if destroy should be done, otherwise false

isClosed

public boolean isClosed()

Specified by:

isClosed in interface javax.cache.Cache<K,V>

isDestroyed

public boolean isDestroyed()

Description copied from interface: ICache

Determines whether this Cache instance has been destroyed.

Specified by:

isDestroyed in interface ICache<K,V>

Returns:

true if this Cache instance is destroyed; false if it is still open.

open

public void open()

Description copied from interface: ICacheInternal

Opens cache if available (not destroyed). If cache is already open, does nothing.

Specified by:

open in interface ICacheInternal<K,V>

getPrefixedName

public String getPrefixedName()

Description copied from interface: PrefixedDistributedObject

Returns the unique prefixed name for this DistributedObject. The returned value will never be null.

Specified by:

getPrefixedName in interface PrefixedDistributedObject

Returns:

the unique prefixed name for this object.

getNameWithPrefix

@Deprecated
public String getNameWithPrefix()

Deprecated. use #getPrefixedName instead

Gets the full cache name with prefixes.

Returns:

the full cache name with prefixes

toObject

protected <T> T toObject(Object data)

Overrides:

toObject in class ClientProxy

toData

protected Data toData(Object o)

Overrides:

toData in class ClientProxy

invoke

protected ClientMessage invoke(ClientMessage clientMessage)

Overrides:

invoke in class ClientProxy

invoke

protected ClientMessage invoke(ClientMessage clientMessage,
                               Data keyData)

submitLoadAllTask

protected void submitLoadAllTask(ClientMessage request,
                                 javax.cache.integration.CompletionListener completionListener,
                                 Set<Data> keys)