K
- key typeV
- value typepublic class ClientCacheProxy<K,V> extends ClientProxy implements EventJournalReader<EventJournalCacheEvent<K,V>>
ICache
implementation for Hazelcast clients.
This proxy is the implementation of ICache
and Cache
which is returned by
HazelcastClientCacheManager
. Represents a cache on client.
This implementation is a thin proxy implementation using hazelcast client infrastructure.
Modifier and Type | Field and Description |
---|---|
protected CacheConfig<K,V> |
cacheConfig |
protected AtomicReference<HazelcastClientCacheManager> |
cacheManagerRef |
protected ILogger |
logger |
protected String |
name |
protected String |
nameWithPrefix |
protected int |
partitionCount |
Modifier and Type | Method and Description |
---|---|
protected static <T> void |
addCallback(ClientDelegatingFuture<T> delegatingFuture,
ExecutionCallback<T> callback) |
protected void |
addListenerLocally(String regId,
javax.cache.configuration.CacheEntryListenerConfiguration<K,V> cacheEntryListenerConfiguration,
CacheEventListenerAdaptor<K,V> adaptor) |
String |
addPartitionLostListener(CachePartitionLostListener listener)
Adds a CachePartitionLostListener.
|
void |
clear() |
protected void |
clearInternal() |
void |
close() |
protected void |
closeListeners() |
boolean |
containsKey(K key) |
protected boolean |
containsKeyInternal(Object 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) |
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. |
protected void |
getAllInternal(Set<? extends K> keys,
Collection<Data> dataKeys,
javax.cache.expiry.ExpiryPolicy expiryPolicy,
List<Object> resultingKeyValuePairs,
long startNanos) |
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) |
protected <T> ClientDelegatingFuture<T> |
getAndRemoveSyncInternal(K key) |
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 InternalCompletableFuture<V> |
getAsyncInternal(Object key,
javax.cache.expiry.ExpiryPolicy expiryPolicy,
ExecutionCallback<V> callback) |
javax.cache.CacheManager |
getCacheManager() |
<C extends javax.cache.configuration.Configuration<K,V>> |
getConfiguration(Class<C> clazz) |
protected String |
getDistributedObjectName() |
protected String |
getListenerIdLocal(javax.cache.configuration.CacheEntryListenerConfiguration<K,V> cacheEntryListenerConfiguration) |
CacheStatistics |
getLocalCacheStatistics()
Directly access local Cache Statistics.
|
String |
getNameWithPrefix()
Deprecated.
use #getPrefixedName instead
|
String |
getPrefixedName()
Returns the unique prefixed name for this DistributedObject.
|
protected <T> T |
getSafely(Future<T> future) |
protected V |
getSyncInternal(Object key,
javax.cache.expiry.ExpiryPolicy expiryPolicy) |
protected void |
injectDependencies(Object obj) |
protected <T> T |
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) |
protected Object |
invokeInternal(Object key,
Data epData,
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)
Cluster-wide iterator for
ICache |
void |
loadAll(Set<? extends K> keys,
boolean replaceExistingValues,
javax.cache.integration.CompletionListener completionListener) |
protected void |
loadAllInternal(Set<? extends K> keys,
List<Data> dataKeys,
boolean replaceExistingValues,
javax.cache.integration.CompletionListener completionListener) |
protected <T> ClientDelegatingFuture<T> |
newDelegatingFuture(ClientInvocationFuture future,
ClientMessageDecoder decoder) |
protected <T> ClientDelegatingFuture<T> |
newDelegatingFuture(ClientInvocationFuture future,
ClientMessageDecoder decoder,
boolean deserializeResponse) |
protected com.hazelcast.client.cache.impl.OneShotExecutionCallback<V> |
newStatsCallbackOrNull(boolean isGet) |
protected int |
nextCompletionId() |
protected void |
onDestroy()
Called before proxy is destroyed.
|
protected <T> void |
onGetAndRemoveAsyncInternal(K key,
Data keyData,
ClientDelegatingFuture<T> delegatingFuture,
ExecutionCallback<T> callback) |
protected void |
onInitialize()
Called when proxy is created.
|
protected void |
onLoadAll(List<Data> keys,
Object response,
long startNanos) |
protected void |
onPutIfAbsentAsyncInternal(K key,
V value,
Data keyData,
Data valueData,
ClientDelegatingFuture<Boolean> delegatingFuture,
ExecutionCallback<Boolean> callback) |
protected void |
onPutIfAbsentSyncInternal(K key,
V value,
Data keyData,
Data valueData) |
protected void |
onPutSyncInternal(K key,
V value,
Data keyData,
Data valueData) |
protected void |
onRemoveAsyncInternal(Object key,
Data keyData,
ClientDelegatingFuture future,
ExecutionCallback callback) |
void |
onRemoveSyncInternal(Object key,
Data keyData) |
protected <T> void |
onReplaceAndGetAsync(K key,
V value,
Data keyData,
Data valueData,
ClientDelegatingFuture<T> delegatingFuture,
ExecutionCallback<T> callback) |
protected <T> void |
onReplaceInternalAsync(K key,
V value,
Data keyData,
Data valueData,
ClientDelegatingFuture<T> delegatingFuture,
ExecutionCallback<T> callback) |
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 . |
protected void |
putAllInternal(Map<? extends K,? extends V> map,
javax.cache.expiry.ExpiryPolicy expiryPolicy,
Map<Object,Data> keyMap,
List<Map.Entry<Data,Data>>[] entriesPerPartition,
long startNanos) |
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 . |
protected ClientDelegatingFuture |
putAsyncInternal(K key,
V value,
javax.cache.expiry.ExpiryPolicy expiryPolicy,
boolean isGet,
boolean withCompletionEvent,
com.hazelcast.client.cache.impl.OneShotExecutionCallback<V> callback) |
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 V |
putSyncInternal(K key,
V value,
javax.cache.expiry.ExpiryPolicy expiryPolicy,
boolean isGet) |
<T> ICompletableFuture<ReadResultSet<T>> |
readFromEventJournal(long startSequence,
int minSize,
int maxSize,
int partitionId,
Predicate<? super EventJournalCacheEvent<K,V>> predicate,
Function<? super EventJournalCacheEvent<K,V>,? extends T> projection)
Reads from the event journal.
|
void |
registerCacheEntryListener(javax.cache.configuration.CacheEntryListenerConfiguration<K,V> cacheEntryListenerConfiguration) |
void |
registerCacheEntryListener(javax.cache.configuration.CacheEntryListenerConfiguration<K,V> cacheEntryListenerConfiguration,
boolean addToConfig)
Registers the provided listener configuration.
|
protected Integer |
registerCompletionLatch(Integer countDownLatchId,
int count) |
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,
Collection<Data> dataKeys,
long startNanos) |
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 Object |
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> |
replaceAsyncInternal(K key,
V oldValue,
V newValue,
javax.cache.expiry.ExpiryPolicy expiryPolicy,
boolean hasOldValue,
boolean withCompletionEvent,
boolean async) |
protected boolean |
replaceSyncInternal(K key,
V oldValue,
V newValue,
javax.cache.expiry.ExpiryPolicy expiryPolicy,
boolean hasOldValue) |
void |
resetCacheManager()
Reset cache manager of this cache proxy to
null . |
void |
setCacheManager(HazelcastCacheManager cacheManager)
Sets relevant
HazelcastCacheManager to client/server. |
boolean |
setExpiryPolicy(K key,
javax.cache.expiry.ExpiryPolicy expiryPolicy)
Associates the specified key with the given
ExpiryPolicy . |
void |
setExpiryPolicy(Set<? extends K> keys,
javax.cache.expiry.ExpiryPolicy policy)
Associates the specified key with the given
ExpiryPolicy . |
protected boolean |
setExpiryPolicyInternal(K key,
javax.cache.expiry.ExpiryPolicy expiryPolicy) |
protected void |
setExpiryPolicyInternal(Set<? extends K> keys,
javax.cache.expiry.ExpiryPolicy policy) |
protected void |
setExpiryPolicyInternal(Set<? extends K> keys,
javax.cache.expiry.ExpiryPolicy policy,
Set<Data> serializedKeys) |
int |
size()
Total entry count.
|
protected void |
submitLoadAllTask(ClientMessage request,
javax.cache.integration.CompletionListener completionListener,
List<Data> binaryKeys) |
ICompletableFuture<EventJournalInitialSubscriberState> |
subscribeToEventJournal(int partitionId)
Subscribe to the event journal for this reader and a specific partition ID.
|
<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) |
protected ClientDelegatingFuture<V> |
wrapPutAsyncFuture(K key,
V value,
Data keyData,
Data valueData,
ClientInvocationFuture invocationFuture,
com.hazelcast.client.cache.impl.OneShotExecutionCallback<V> callback) |
deregisterListener, destroy, destroyLocally, destroyRemotely, equals, getClient, getConnectedServerVersion, getContext, getId, getName, getPartitionKey, getSerializationService, getServiceName, hashCode, invoke, invokeOnAddress, invokeOnPartition, invokeOnPartitionInterruptibly, onShutdown, registerListener, setContext, toData, toObject
clone, finalize, getClass, notify, notifyAll, toString, wait, wait, wait
forEach, spliterator
getName, getPartitionKey, getServiceName
protected final AtomicReference<HazelcastClientCacheManager> cacheManagerRef
protected int partitionCount
protected final String name
protected final String nameWithPrefix
protected final CacheConfig<K,V> cacheConfig
protected ILogger logger
protected void onInitialize()
ClientProxy
public boolean containsKey(K key)
protected boolean containsKeyInternal(Object key)
public void loadAll(Set<? extends K> keys, boolean replaceExistingValues, javax.cache.integration.CompletionListener completionListener)
protected void loadAllInternal(Set<? extends K> keys, List<Data> dataKeys, boolean replaceExistingValues, javax.cache.integration.CompletionListener completionListener)
public <C extends javax.cache.configuration.Configuration<K,V>> C getConfiguration(Class<C> clazz)
public <T> T invoke(K key, javax.cache.processor.EntryProcessor<K,V,T> entryProcessor, Object... arguments) throws javax.cache.processor.EntryProcessorException
public <T> Map<K,javax.cache.processor.EntryProcessorResult<T>> invokeAll(Set<? extends K> keys, javax.cache.processor.EntryProcessor<K,V,T> entryProcessor, Object... arguments)
public javax.cache.CacheManager getCacheManager()
public void registerCacheEntryListener(javax.cache.configuration.CacheEntryListenerConfiguration<K,V> cacheEntryListenerConfiguration)
public void registerCacheEntryListener(javax.cache.configuration.CacheEntryListenerConfiguration<K,V> cacheEntryListenerConfiguration, boolean addToConfig)
ICacheInternal
registerCacheEntryListener
in interface ICacheInternal<K,V>
cacheEntryListenerConfiguration
- The cache configuration to be used for registering the entry listeneraddToConfig
- If true, the configuration is added to the existing listeners in the cache config.public void deregisterCacheEntryListener(javax.cache.configuration.CacheEntryListenerConfiguration<K,V> cacheEntryListenerConfiguration)
protected void updateCacheListenerConfigOnOtherNodes(javax.cache.configuration.CacheEntryListenerConfiguration<K,V> cacheEntryListenerConfiguration, boolean isRegister)
public Iterator<javax.cache.Cache.Entry<K,V>> iterator(int fetchSize)
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:
Iterator.next()
may return null if the entry is no
longer present, has expired or has been evicted.public Iterator<javax.cache.Cache.Entry<K,V>> iterator(int fetchSize, int partitionId, boolean prefetchValues)
ICacheInternal
ICache
iterator
in interface ICacheInternal<K,V>
fetchSize
- batch fetching sizepartitionId
- partition ID of the entries to iterate onprefetchValues
- prefetch valuespublic String addPartitionLostListener(CachePartitionLostListener listener)
ICache
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.addPartitionLostListener
in interface ICache<K,V>
listener
- the added CachePartitionLostListener.ICache.removePartitionLostListener(String)
public boolean removePartitionLostListener(String id)
ICache
removePartitionLostListener
in interface ICache<K,V>
id
- ID of registered listener.public ICompletableFuture<EventJournalInitialSubscriberState> subscribeToEventJournal(int partitionId)
EventJournalReader
subscribeToEventJournal
in interface EventJournalReader<EventJournalCacheEvent<K,V>>
partitionId
- the partition ID of the entries to which we are subscribingpublic <T> ICompletableFuture<ReadResultSet<T>> readFromEventJournal(long startSequence, int minSize, int maxSize, int partitionId, Predicate<? super EventJournalCacheEvent<K,V>> predicate, Function<? super EventJournalCacheEvent<K,V>,? extends T> projection)
EventJournalReader
UnsupportedOperationException
if the cluster version is lower than 3.9 or there is no event journal configured for this data structure.
NOTE:
Configuring evictions may cause unexpected results when reading from the event journal and
there are cluster changes (a backup replica is promoted into a partition owner). See
MapEventJournal
or
CacheEventJournal
for more details.
readFromEventJournal
in interface EventJournalReader<EventJournalCacheEvent<K,V>>
T
- the return type of the projection. It is equal to the journal event type
if the projection is null
or it is the identity projectionstartSequence
- the sequence of the first item to readmaxSize
- the maximum number of items to readpartitionId
- the partition ID of the entries in the journalpredicate
- the predicate which the events must pass to be included in the response.
May be null
in which case all events pass the predicateprojection
- the projection which is applied to the events before returning.
May be null
in which case the event is returned without being projectedprotected V getSyncInternal(Object key, javax.cache.expiry.ExpiryPolicy expiryPolicy)
public ICompletableFuture<V> getAsync(K key)
ICache
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
.
key
- The key whose associated value is to be returned.javax.cache.Cache#get(K)
,
ICompletableFuture
public ICompletableFuture<V> getAsync(K key, javax.cache.expiry.ExpiryPolicy expiryPolicy)
ICache
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
.
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)
.javax.cache.Cache#get(K)
,
ICompletableFuture
protected InternalCompletableFuture<V> getAsyncInternal(Object key, javax.cache.expiry.ExpiryPolicy expiryPolicy, ExecutionCallback<V> callback)
public ICompletableFuture<Void> putAsync(K key, V value)
ICache
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.
key
- The key whose associated value is to be returned.value
- The value to be associated with the specified key.javax.cache.Cache#put(K, V)
,
ICompletableFuture
public ICompletableFuture<Void> putAsync(K key, V value, javax.cache.expiry.ExpiryPolicy expiryPolicy)
ICache
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.
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)
.javax.cache.Cache#put(K, V)
,
ICompletableFuture
public ICompletableFuture<Boolean> putIfAbsentAsync(K key, V value)
ICache
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.
key
- The key that is associated with the specified value.value
- The value to which the specified key is associated.javax.cache.Cache#putIfAbsent(K, V)
,
ICompletableFuture
public ICompletableFuture<Boolean> putIfAbsentAsync(K key, V value, javax.cache.expiry.ExpiryPolicy expiryPolicy)
ICache
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.
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)
javax.cache.Cache#putIfAbsent(K, V)
,
ICompletableFuture
public ICompletableFuture<V> getAndPutAsync(K key, V value)
ICache
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.
key
- The key whose associated value is to be returned.value
- The value that is associated with the specified key.javax.cache.Cache#getAndPut(K, V)
,
ICompletableFuture
public ICompletableFuture<V> getAndPutAsync(K key, V value, javax.cache.expiry.ExpiryPolicy expiryPolicy)
ICache
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.
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)
.javax.cache.Cache#getAndPut(K, V)
,
ICompletableFuture
public ICompletableFuture<Boolean> removeAsync(K key)
ICache
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
.
key
- The key whose mapping is to be removed.javax.cache.Cache#remove(K)
,
ICompletableFuture
public ICompletableFuture<Boolean> removeAsync(K key, V oldValue)
ICache
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
.
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.javax.cache.Cache#remove(K, V)
,
ICompletableFuture
public ICompletableFuture<V> getAndRemoveAsync(K key)
ICache
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
.
key
- The key to be removed and whose associated value is to be returned.javax.cache.Cache#getAndRemove(K)
,
ICompletableFuture
public ICompletableFuture<Boolean> replaceAsync(K key, V value)
ICache
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.
key
- The key whose associated value is to be replaced.value
- The new value to be associated with the specified key.javax.cache.Cache#replace(K, V)
,
ICompletableFuture
public ICompletableFuture<Boolean> replaceAsync(K key, V value, javax.cache.expiry.ExpiryPolicy expiryPolicy)
ICache
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.
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)
javax.cache.Cache#replace(K, V)
,
ICompletableFuture
public ICompletableFuture<Boolean> replaceAsync(K key, V oldValue, V newValue)
ICache
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
.
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.javax.cache.Cache#replace(K, V, V)
,
ICompletableFuture
public ICompletableFuture<Boolean> replaceAsync(K key, V oldValue, V newValue, javax.cache.expiry.ExpiryPolicy expiryPolicy)
ICache
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
.
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)
.javax.cache.Cache#replace(K, V, V)
,
ICompletableFuture
public ICompletableFuture<V> getAndReplaceAsync(K key, V value)
ICache
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.
key
- The key whose value is replaced.value
- The new value to be associated with the specified key.javax.cache.Cache#getAndReplace(K, V)
,
ICompletableFuture
public ICompletableFuture<V> getAndReplaceAsync(K key, V value, javax.cache.expiry.ExpiryPolicy expiryPolicy)
ICache
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.
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)
javax.cache.Cache#getAndReplace(K, V)
,
ICompletableFuture
public V get(K key, javax.cache.expiry.ExpiryPolicy expiryPolicy)
ICache
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.
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)
.javax.cache.Cache#get(K)
public Map<K,V> getAll(Set<? extends K> keys, javax.cache.expiry.ExpiryPolicy expiryPolicy)
ICache
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.
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)
.Cache.getAll(java.util.Set)
protected void getAllInternal(Set<? extends K> keys, Collection<Data> dataKeys, javax.cache.expiry.ExpiryPolicy expiryPolicy, List<Object> resultingKeyValuePairs, long startNanos)
public void put(K key, V value, javax.cache.expiry.ExpiryPolicy expiryPolicy)
ICache
ExpiryPolicy
.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)
.javax.cache.Cache#put(K, V)
public V getAndPut(K key, V value, javax.cache.expiry.ExpiryPolicy expiryPolicy)
ICache
ExpiryPolicy
,
returning an existing value if one existed.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)
.javax.cache.Cache#getAndPut(K, V)
public void putAll(Map<? extends K,? extends V> map, javax.cache.expiry.ExpiryPolicy expiryPolicy)
ICache
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.
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)
.Cache.putAll(java.util.Map)
public void setExpiryPolicy(Set<? extends K> keys, javax.cache.expiry.ExpiryPolicy policy)
ICache
ExpiryPolicy
.
expiryPolicy
takes precedence for these particular keys
against any cache wide expiry policy.
If some keys in keys
do not exist or are already expired, this call has no effect for those.
Note: New time-to-live duration is calculated using newly added entry policy's getExpiryForUpdate method
immediately after this operation succeeds.keys
- The keys that are associated with the specified expiry policy.policy
- custom expiry policy for this operationpublic boolean setExpiryPolicy(K key, javax.cache.expiry.ExpiryPolicy expiryPolicy)
ICache
ExpiryPolicy
.
expiryPolicy
takes precedence for this particular key
against any cache wide expiry policy.
If key
does not exist or is already expired, this call makes no changes to entries stored in this cache.
Note: New time-to-live duration is calculated using newly added entry policy's getExpiryForUpdate method
immediately after this operation succeeds.key
- The key that is associated with the specified expiry policy.expiryPolicy
- custom expiry policy for this operationtrue
if the entry exists and its expiry policy is changed, false
otherwiseprotected void setExpiryPolicyInternal(Set<? extends K> keys, javax.cache.expiry.ExpiryPolicy policy)
protected void setExpiryPolicyInternal(Set<? extends K> keys, javax.cache.expiry.ExpiryPolicy policy, Set<Data> serializedKeys)
protected void putAllInternal(Map<? extends K,? extends V> map, javax.cache.expiry.ExpiryPolicy expiryPolicy, Map<Object,Data> keyMap, List<Map.Entry<Data,Data>>[] entriesPerPartition, long startNanos)
public boolean putIfAbsent(K key, V value, javax.cache.expiry.ExpiryPolicy expiryPolicy)
ICache
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.
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)
.javax.cache.Cache#putIfAbsent(K, V)
public boolean replace(K key, V oldValue, V newValue, javax.cache.expiry.ExpiryPolicy expiryPolicy)
ICache
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.
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)
.javax.cache.Cache#replace(K, V, V)
public boolean replace(K key, V value, javax.cache.expiry.ExpiryPolicy expiryPolicy)
ICache
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.
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)
javax.cache.Cache#replace(K, V)
public V getAndReplace(K key, V value, javax.cache.expiry.ExpiryPolicy expiryPolicy)
ICache
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.
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)
.javax.cache.Cache#getAndReplace(K, V)
public int size()
ICache
public CacheStatistics getLocalCacheStatistics()
ICache
public void setCacheManager(HazelcastCacheManager cacheManager)
ICacheInternal
HazelcastCacheManager
to client/server.setCacheManager
in interface ICacheInternal<K,V>
cacheManager
- client or server HazelcastCacheManager
public void resetCacheManager()
ICacheInternal
null
. Whenever a Cache is not managed any more
(for example after Cache.close()
has been called), its CacheManager
should be reset.resetCacheManager
in interface ICacheInternal<K,V>
protected void postDestroy()
ClientProxy
postDestroy
in class ClientProxy
public void close()
close
in interface Closeable
close
in interface AutoCloseable
close
in interface javax.cache.Cache<K,V>
protected void onDestroy()
ClientProxy
onDestroy
in class ClientProxy
protected ClientInvocationFuture invoke(ClientMessage req, int partitionId, int completionId)
protected ClientInvocationFuture invoke(ClientMessage req, Data keyData, int completionId)
protected <T> T getSafely(Future<T> future)
protected <T> ICompletableFuture<T> getAndRemoveAsyncInternal(K key)
protected <T> ClientDelegatingFuture<T> getAndRemoveSyncInternal(K key)
protected <T> void onGetAndRemoveAsyncInternal(K key, Data keyData, ClientDelegatingFuture<T> delegatingFuture, ExecutionCallback<T> callback)
protected Object removeAsyncInternal(K key, V oldValue, boolean hasOldValue, boolean withCompletionEvent, boolean async)
protected void onRemoveAsyncInternal(Object key, Data keyData, ClientDelegatingFuture future, ExecutionCallback callback)
protected boolean replaceSyncInternal(K key, V oldValue, V newValue, javax.cache.expiry.ExpiryPolicy expiryPolicy, boolean hasOldValue)
protected <T> ICompletableFuture<T> replaceAsyncInternal(K key, V oldValue, V newValue, javax.cache.expiry.ExpiryPolicy expiryPolicy, boolean hasOldValue, boolean withCompletionEvent, boolean async)
protected <T> void onReplaceInternalAsync(K key, V value, Data keyData, Data valueData, ClientDelegatingFuture<T> delegatingFuture, ExecutionCallback<T> callback)
protected <T> ICompletableFuture<T> replaceAndGetAsyncInternal(K key, V oldValue, V newValue, javax.cache.expiry.ExpiryPolicy expiryPolicy, boolean hasOldValue, boolean withCompletionEvent, boolean async)
protected <T> void onReplaceAndGetAsync(K key, V value, Data keyData, Data valueData, ClientDelegatingFuture<T> delegatingFuture, ExecutionCallback<T> callback)
protected static <T> void addCallback(ClientDelegatingFuture<T> delegatingFuture, ExecutionCallback<T> callback)
protected V putSyncInternal(K key, V value, javax.cache.expiry.ExpiryPolicy expiryPolicy, boolean isGet)
protected ClientDelegatingFuture putAsyncInternal(K key, V value, javax.cache.expiry.ExpiryPolicy expiryPolicy, boolean isGet, boolean withCompletionEvent, com.hazelcast.client.cache.impl.OneShotExecutionCallback<V> callback)
protected ClientDelegatingFuture<V> wrapPutAsyncFuture(K key, V value, Data keyData, Data valueData, ClientInvocationFuture invocationFuture, com.hazelcast.client.cache.impl.OneShotExecutionCallback<V> callback)
protected com.hazelcast.client.cache.impl.OneShotExecutionCallback<V> newStatsCallbackOrNull(boolean isGet)
protected boolean setExpiryPolicyInternal(K key, javax.cache.expiry.ExpiryPolicy expiryPolicy)
protected Object putIfAbsentInternal(K key, V value, javax.cache.expiry.ExpiryPolicy expiryPolicy, boolean withCompletionEvent, boolean async)
protected void onPutIfAbsentAsyncInternal(K key, V value, Data keyData, Data valueData, ClientDelegatingFuture<Boolean> delegatingFuture, ExecutionCallback<Boolean> callback)
protected void onPutIfAbsentSyncInternal(K key, V value, Data keyData, Data valueData)
protected void removeAllKeysInternal(Set<? extends K> keys, Collection<Data> dataKeys, long startNanos)
protected void removeAllInternal()
protected void clearInternal()
protected void addListenerLocally(String regId, javax.cache.configuration.CacheEntryListenerConfiguration<K,V> cacheEntryListenerConfiguration, CacheEventListenerAdaptor<K,V> adaptor)
protected String removeListenerLocally(javax.cache.configuration.CacheEntryListenerConfiguration<K,V> cacheEntryListenerConfiguration)
protected String getListenerIdLocal(javax.cache.configuration.CacheEntryListenerConfiguration<K,V> cacheEntryListenerConfiguration)
protected void closeListeners()
public void countDownCompletionLatch(int countDownLatchId)
countDownCompletionLatch
in interface CacheSyncListenerCompleter
protected Integer registerCompletionLatch(Integer countDownLatchId, int count)
protected void deregisterCompletionLatch(Integer countDownLatchId)
protected void waitCompletionLatch(Integer countDownLatchId, ICompletableFuture future) throws ExecutionException
ExecutionException
protected EventHandler createHandler(CacheEventListenerAdaptor<K,V> adaptor)
protected void injectDependencies(Object obj)
protected String getDistributedObjectName()
getDistributedObjectName
in class ClientProxy
protected int nextCompletionId()
protected boolean preDestroy()
ClientProxy
preDestroy
in class ClientProxy
true
if destroy should be done, otherwise false
public boolean isClosed()
isClosed
in interface javax.cache.Cache<K,V>
public boolean isDestroyed()
ICache
isDestroyed
in interface ICache<K,V>
true
if this Cache instance is destroyed; false
if it is still open.public void open()
ICacheInternal
open
in interface ICacheInternal<K,V>
public String getPrefixedName()
PrefixedDistributedObject
getPrefixedName
in interface PrefixedDistributedObject
@Deprecated public String getNameWithPrefix()
protected <T> T invoke(ClientMessage clientMessage)
invoke
in class ClientProxy
protected ClientMessage invoke(ClientMessage clientMessage, Data keyData)
protected void submitLoadAllTask(ClientMessage request, javax.cache.integration.CompletionListener completionListener, List<Data> binaryKeys)
protected <T> ClientDelegatingFuture<T> newDelegatingFuture(ClientInvocationFuture future, ClientMessageDecoder decoder)
protected <T> ClientDelegatingFuture<T> newDelegatingFuture(ClientInvocationFuture future, ClientMessageDecoder decoder, boolean deserializeResponse)
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