GigaSpaces XAP 9.7.2 API

org.openspaces.core
Interface GigaSpace

All Known Implementing Classes:
DefaultGigaSpace

public interface GigaSpace

Provides a simpler interface of IJSpace extension utilizing GigaSpaces extended and simplified programming model. Most operations revolve around the use of Objects allowing to use GigaSpaces support for POJOs.

Though this interface has a single implementation it is still important to work against the interface as it allows for simpler testing and mocking.

Transaction management is implicit and works in a declarative manner. Operations do not accept a transaction object, and will automatically use the TransactionProvider in order to acquire the current running transaction. If there is no current running transaction the operation will be executed without a transaction.

Operations throw a DataAccessException allowing for simplified development model as it is a runtime exception. The cause of the exception can be acquired from the GigaSpace exception.

Author:
kimchy
See Also:
ISpaceQuery, SQLQuery, TransactionProvider, DefaultGigaSpace, DataAccessException

Method Summary
<T> Future<ChangeResult<T>>
asyncChange(ISpaceQuery<T> query, ChangeSet changeSet)
          Changes existing objects in space in an asynchronous manner, returning immidiately with a future.
<T> Future<ChangeResult<T>>
asyncChange(ISpaceQuery<T> query, ChangeSet changeSet, AsyncFutureListener<ChangeResult<T>> listener)
          Changes existing objects in space in an asynchronous manner, returning immidiately with a future.
<T> Future<ChangeResult<T>>
asyncChange(ISpaceQuery<T> query, ChangeSet changeSet, ChangeModifiers modifiers)
          Changes an existing objects in space in an asynchronous manner, returning immidiately with a future.
<T> Future<ChangeResult<T>>
asyncChange(ISpaceQuery<T> query, ChangeSet changeSet, ChangeModifiers modifiers, AsyncFutureListener<ChangeResult<T>> listener)
          Changes existing objects in space in an asynchronous manner, returning immidiately with a future.
<T> Future<ChangeResult<T>>
asyncChange(ISpaceQuery<T> query, ChangeSet changeSet, ChangeModifiers modifiers, long timeout)
          Changes existing objects in space in an asynchronous manner, returning immidiately with a future.
<T> Future<ChangeResult<T>>
asyncChange(ISpaceQuery<T> query, ChangeSet changeSet, ChangeModifiers modifiers, long timeout, AsyncFutureListener<ChangeResult<T>> listener)
          Changes existing objects in space in an asynchronous manner, returning immidiately with a future.
<T> Future<ChangeResult<T>>
asyncChange(ISpaceQuery<T> query, ChangeSet changeSet, long timeout)
          Changes existing objects in space in an asynchronous manner, returning immidiately with a future.
<T> Future<ChangeResult<T>>
asyncChange(ISpaceQuery<T> query, ChangeSet changeSet, long timeout, AsyncFutureListener<ChangeResult<T>> listener)
          Changes existing objects in space in an asynchronous manner, returning immidiately with a future.
<T> Future<ChangeResult<T>>
asyncChange(T template, ChangeSet changeSet)
          Changes existing objects in space in an asynchronous manner, returning immidiately with a future.
<T> Future<ChangeResult<T>>
asyncChange(T template, ChangeSet changeSet, AsyncFutureListener<ChangeResult<T>> listener)
          Changes existing objects in space in an asynchronous manner, returning immidiately with a future.
<T> Future<ChangeResult<T>>
asyncChange(T template, ChangeSet changeSet, ChangeModifiers modifiers)
          Changes an existing objects in space in an asynchronous manner, returning immidiately with a future.
<T> Future<ChangeResult<T>>
asyncChange(T template, ChangeSet changeSet, ChangeModifiers modifiers, AsyncFutureListener<ChangeResult<T>> listener)
          Changes existing objects in space in an asynchronous manner, returning immidiately with a future.
<T> Future<ChangeResult<T>>
asyncChange(T template, ChangeSet changeSet, ChangeModifiers modifiers, long timeout)
          Changes existing objects in space in an asynchronous manner, returning immidiately with a future.
<T> Future<ChangeResult<T>>
asyncChange(T template, ChangeSet changeSet, ChangeModifiers modifiers, long timeout, AsyncFutureListener<ChangeResult<T>> listener)
          Changes existing objects in space in an asynchronous manner, returning immidiately with a future.
<T> Future<ChangeResult<T>>
asyncChange(T template, ChangeSet changeSet, long timeout)
          Changes existing objects in space in an asynchronous manner, returning immidiately with a future.
<T> Future<ChangeResult<T>>
asyncChange(T template, ChangeSet changeSet, long timeout, AsyncFutureListener<ChangeResult<T>> listener)
          Changes existing objects in space in an asynchronous manner, returning immidiately with a future.
<T> AsyncFuture<T>
asyncRead(ISpaceQuery<T> template)
          Reads any matching entry from the space in an asynchronous manner.
<T> AsyncFuture<T>
asyncRead(ISpaceQuery<T> template, AsyncFutureListener<T> listener)
          Reads any matching entry from the space in an asynchronous manner.
<T> AsyncFuture<T>
asyncRead(ISpaceQuery<T> template, long timeout)
          Reads any matching entry from the space in an asynchronous manner.
<T> AsyncFuture<T>
asyncRead(ISpaceQuery<T> template, long timeout, AsyncFutureListener<T> listener)
          Reads any matching entry from the space in an asynchronous manner.
<T> AsyncFuture<T>
asyncRead(ISpaceQuery<T> template, long timeout, int modifiers)
          Deprecated. since 9.0.1 - use asyncRead(ISpaceQuery, long, ReadModifiers) instead.
<T> AsyncFuture<T>
asyncRead(ISpaceQuery<T> template, long timeout, int modifiers, AsyncFutureListener<T> listener)
          Deprecated. since 9.0.1 - use asyncRead(ISpaceQuery, long, ReadModifiers, AsyncFutureListener) instead.
<T> AsyncFuture<T>
asyncRead(ISpaceQuery<T> template, long timeout, ReadModifiers modifiers)
          Reads any matching entry from the space in an asynchronous manner.
<T> AsyncFuture<T>
asyncRead(ISpaceQuery<T> template, long timeout, ReadModifiers modifiers, AsyncFutureListener<T> listener)
          Reads any matching entry from the space in an asynchronous manner.
<T> AsyncFuture<T>
asyncRead(T template)
          Reads any matching entry from the space in an asynchronous manner.
<T> AsyncFuture<T>
asyncRead(T template, AsyncFutureListener<T> listener)
          Reads any matching entry from the space in an asynchronous manner.
<T> AsyncFuture<T>
asyncRead(T template, long timeout)
          Reads any matching entry from the space in an asynchronous manner.
<T> AsyncFuture<T>
asyncRead(T template, long timeout, AsyncFutureListener<T> listener)
          Reads any matching entry from the space in an asynchronous manner.
<T> AsyncFuture<T>
asyncRead(T template, long timeout, int modifiers)
          Deprecated. since 9.0.1 - use asyncRead(Object, long, ReadModifiers) instead.
<T> AsyncFuture<T>
asyncRead(T template, long timeout, int modifiers, AsyncFutureListener<T> listener)
          Deprecated. since 9.0.1 - use asyncRead(Object, long, ReadModifiers, AsyncFutureListener) instead.
<T> AsyncFuture<T>
asyncRead(T template, long timeout, ReadModifiers modifiers)
          Reads any matching entry from the space in an asynchronous manner.
<T> AsyncFuture<T>
asyncRead(T template, long timeout, ReadModifiers modifiers, AsyncFutureListener<T> listener)
          Reads any matching entry from the space in an asynchronous manner.
<T> AsyncFuture<T>
asyncTake(ISpaceQuery<T> template)
          Take (remove) any matching entry from the space in an asynchronous manner.
<T> AsyncFuture<T>
asyncTake(ISpaceQuery<T> template, AsyncFutureListener<T> listener)
          Take (remove) any matching entry from the space in an asynchronous manner.
<T> AsyncFuture<T>
asyncTake(ISpaceQuery<T> template, long timeout)
          Take (remove) any matching entry from the space in an asynchronous manner.
<T> AsyncFuture<T>
asyncTake(ISpaceQuery<T> template, long timeout, AsyncFutureListener<T> listener)
          Take (remove) any matching entry from the space in an asynchronous manner.
<T> AsyncFuture<T>
asyncTake(ISpaceQuery<T> template, long timeout, int modifiers)
          Deprecated. since 9.0.1 - use asyncTake(ISpaceQuery, long, TakeModifiers) instead.
<T> AsyncFuture<T>
asyncTake(ISpaceQuery<T> template, long timeout, int modifiers, AsyncFutureListener<T> listener)
          Deprecated. since 9.0.1 - use asyncTake(ISpaceQuery, long, TakeModifiers, AsyncFutureListener) instead.
<T> AsyncFuture<T>
asyncTake(ISpaceQuery<T> template, long timeout, TakeModifiers modifiers)
          Take (remove) any matching entry from the space in an asynchronous manner.
<T> AsyncFuture<T>
asyncTake(ISpaceQuery<T> template, long timeout, TakeModifiers modifiers, AsyncFutureListener<T> listener)
          Take (remove) any matching entry from the space in an asynchronous manner.
<T> AsyncFuture<T>
asyncTake(T template)
          Take (remove) any matching entry from the space in an asynchronous manner.
<T> AsyncFuture<T>
asyncTake(T template, AsyncFutureListener<T> listener)
          Take (remove) any matching entry from the space in an asynchronous manner.
<T> AsyncFuture<T>
asyncTake(T template, long timeout)
          Take (remove) any matching entry from the space in an asynchronous manner.
<T> AsyncFuture<T>
asyncTake(T template, long timeout, AsyncFutureListener<T> listener)
          Take (remove) any matching entry from the space in an asynchronous manner.
<T> AsyncFuture<T>
asyncTake(T template, long timeout, int modifiers)
          Deprecated. since 9.0.1 - use asyncTake(Object, long, TakeModifiers) instead.
<T> AsyncFuture<T>
asyncTake(T template, long timeout, int modifiers, AsyncFutureListener<T> listener)
          Deprecated. since 9.0.1 - use asyncTake(Object, long, TakeModifiers, AsyncFutureListener) instead.
<T> AsyncFuture<T>
asyncTake(T template, long timeout, TakeModifiers modifiers)
          Take (remove) any matching entry from the space in an asynchronous manner.
<T> AsyncFuture<T>
asyncTake(T template, long timeout, TakeModifiers modifiers, AsyncFutureListener<T> listener)
          Take (remove) any matching entry from the space in an asynchronous manner.
<T> ChangeResult<T>
change(ISpaceQuery<T> query, ChangeSet changeSet)
          Changes existing objects in space, returning a change result which provides details of the operation affect.
<T> ChangeResult<T>
change(ISpaceQuery<T> query, ChangeSet changeSet, ChangeModifiers modifiers)
          Changes existing objects in space, returning a change result which provides details of the operation affect.
<T> ChangeResult<T>
change(ISpaceQuery<T> query, ChangeSet changeSet, ChangeModifiers modifiers, long timeout)
          Changes existing objects in space, returning a change result which provides details of the operation affect.
<T> ChangeResult<T>
change(ISpaceQuery<T> query, ChangeSet changeSet, long timeout)
          Changes existing objects in space, returning a change result which provides details of the operation affect.
<T> ChangeResult<T>
change(T template, ChangeSet changeSet)
          Changes existing objects in space, returning a change result which provides details of the operation affect.
<T> ChangeResult<T>
change(T template, ChangeSet changeSet, ChangeModifiers modifiers)
          Changes existing objects in space, returning a change result which provides details of the operation affect.
<T> ChangeResult<T>
change(T template, ChangeSet changeSet, ChangeModifiers modifiers, long timeout)
          Changes existing objects in space, returning a change result which provides details of the operation affect.
<T> ChangeResult<T>
change(T template, ChangeSet changeSet, long timeout)
          Changes existing objects in space, returning a change result which provides details of the operation affect.
 void clear(Object template)
          Removes the entries that match the specified template and the specified transaction from this space.
 int clear(Object template, ClearModifiers modifiers)
          Removes the entries that match the specified template and the specified transaction from this space.
 int clear(Object template, int modifiers)
          Deprecated. since 9.0.1 - use clear(Object, ClearModifiers) instead.
 int count(Object template)
          Count any matching entry from the space.
 int count(Object template, CountModifiers modifiers)
          Count any matching entries from the space.
 int count(Object template, int modifiers)
          Deprecated. since 9.0.1 - use count(Object, CountModifiers) instead.
<T extends Serializable,R>
AsyncFuture<R>
execute(DistributedTask<T,R> task)
          Executes the task on all the primary space nodes within the cluster (broadcast).
<T extends Serializable,R>
AsyncFuture<R>
execute(DistributedTask<T,R> task, Object... routing)
          Executes a task on all the nodes that correspond to the list of routing values.
<T extends Serializable>
AsyncFuture<T>
execute(Task<T> task)
          Executes a task on a specific space node.
<T extends Serializable>
AsyncFuture<T>
execute(Task<T> task, AsyncFutureListener<T> listener)
          Executes a task on a specific space node.
<T extends Serializable>
AsyncFuture<T>
execute(Task<T> task, Object routing)
          Executes a task on a specific space node.
<T extends Serializable>
AsyncFuture<T>
execute(Task<T> task, Object routing, AsyncFutureListener<T> listener)
          Executes a task on a specific space node.
<T extends Serializable,R>
ExecutorBuilder<T,R>
executorBuilder(AsyncResultsReducer<T,R> reducer)
          Constructs an executor builder allowing to accumulate different tasks required to be executed into a single execute mechanism with all the results reduced by the reducer provided.
 GigaSpace getClustered()
          Returns a clustered view of this GigaSpace instance.
 Transaction getCurrentTransaction()
          Returns the current running transaction.
 ChangeModifiers getDefaultChangeModifiers()
          Gets the default ChangeModifiers set during this GigaSpace configuration.
 ClearModifiers getDefaultClearModifiers()
          Gets the default ClearModifiers set during this GigaSpace configuration.
 CountModifiers getDefaultCountModifiers()
          Gets the default CountModifiers set during this GigaSpace configuration.
 ReadModifiers getDefaultReadModifiers()
          Gets the default ReadModifiers set during this GigaSpace configuration.
 TakeModifiers getDefaultTakeModifiers()
          Gets the default TakeModifiers set during this GigaSpace configuration.
 WriteModifiers getDefaultWriteModifiers()
          Gets the default WriteModifiers set during this GigaSpace configuration.
 ExceptionTranslator getExceptionTranslator()
          Returns the exception translator associated with this GigaSpace instance.
 int getModifiersForIsolationLevel()
          Gets the isolation level from the current running transaction (enabling the usage of Spring declarative isolation level settings).
 String getName()
          Returns the name of the GigaSpace.
 IJSpace getSpace()
          Returns the IJSpace used by this GigaSpace implementation to delegate different space operations.
 TransactionProvider getTxProvider()
          Returns the transaction provider allowing to access the current running transaction.
 GigaSpaceTypeManager getTypeManager()
          Gets the type manager of this GigaSpace instance.
 IteratorBuilder iterator()
          Returns an iterator builder allowing to configure and create a GSIterator over the Space.
 DataEventSession newDataEventSession()
          Creates a new DataEventSession with the default configuration.
 DataEventSession newDataEventSession(EventSessionConfig config)
          Creates a new DataEventSession with the specified configuration.
<T> T
read(ISpaceQuery<T> template)
          Read any matching object from the space, blocking until one exists.
<T> T
read(ISpaceQuery<T> template, long timeout)
          Read any matching object from the space, blocking until one exists.
<T> T
read(ISpaceQuery<T> template, long timeout, int modifiers)
          Deprecated. since 9.0.1 - use read(ISpaceQuery, long, ReadModifiers) instead.
<T> T
read(ISpaceQuery<T> template, long timeout, ReadModifiers modifiers)
          Read any matching object from the space, blocking until one exists.
<T> T
read(T template)
          Read any matching object from the space, blocking until one exists.
<T> T
read(T template, long timeout)
          Read any matching object from the space, blocking until one exists.
<T> T
read(T template, long timeout, int modifiers)
          Deprecated. since 9.0.1 - use read(Object, long, ReadModifiers) instead.
<T> T
read(T template, long timeout, ReadModifiers modifiers)
          Read any matching object from the space, blocking until one exists.
<T> T
readById(Class<T> clazz, Object id)
          Read an object from the space matching its id and the class.
<T> T
readById(Class<T> clazz, Object id, Object routing)
          Read an object from the space matching its id, the class and the routing value.
<T> T
readById(Class<T> clazz, Object id, Object routing, long timeout)
          Read an object from the space matching its id, the class and the routing value.
<T> T
readById(Class<T> clazz, Object id, Object routing, long timeout, int modifiers)
          Deprecated. since 9.0.1 - use readById(Class, Object, Object, long, ReadModifiers) instead.
<T> T
readById(Class<T> clazz, Object id, Object routing, long timeout, ReadModifiers modifiers)
          Read an object from the space matching its id, the class and the routing value.
<T> T
readById(IdQuery<T> query)
          Read an object from the space matching the specified id query.
<T> T
readById(IdQuery<T> query, long timeout)
          Read an object from the space matching the specified id query.
<T> T
readById(IdQuery<T> query, long timeout, int modifiers)
          Deprecated. since 9.0.1 - use readById(IdQuery, long, ReadModifiers) instead.
<T> T
readById(IdQuery<T> query, long timeout, ReadModifiers modifiers)
          Read an object from the space matching the specified id query.
<T> ReadByIdsResult<T>
readByIds(Class<T> clazz, Object[] ids)
          Read objects from the space matching their IDs and the specified class.
<T> ReadByIdsResult<T>
readByIds(Class<T> clazz, Object[] ids, int modifiers)
          Deprecated. since 9.0.1 - use readByIds(Class, Object[], Object, ReadModifiers) instead.
<T> ReadByIdsResult<T>
readByIds(Class<T> clazz, Object[] ids, Object routingKey)
          Read objects from the space matching their IDs, the specified class and routing key.
<T> ReadByIdsResult<T>
readByIds(Class<T> clazz, Object[] ids, Object[] routingKeys)
          Read objects from the space matching their IDs, the specified class and the routing keys.
<T> ReadByIdsResult<T>
readByIds(Class<T> clazz, Object[] ids, Object[] routingKeys, int modifiers)
          Deprecated. since 9.0.1 - use readByIds(Class, Object[], Object[], ReadModifiers) instead.
<T> ReadByIdsResult<T>
readByIds(Class<T> clazz, Object[] ids, Object[] routingKeys, ReadModifiers modifiers)
          Read objects from the space matching their IDs, the specified class and the routing keys, with the provided ReadModifiers.
<T> ReadByIdsResult<T>
readByIds(Class<T> clazz, Object[] ids, Object routingKey, int modifiers)
          Deprecated. since 9.0.1 - use readByIds(Class, Object[], Object, ReadModifiers) instead.
<T> ReadByIdsResult<T>
readByIds(Class<T> clazz, Object[] ids, Object routingKey, ReadModifiers modifiers)
          Read objects from the space matching their IDs, the specified class type and routing key, with the provided ReadModifiers.
<T> ReadByIdsResult<T>
readByIds(IdsQuery<T> query)
          Read objects from the space matching the specified IDs query.
<T> ReadByIdsResult<T>
readByIds(IdsQuery<T> query, int modifiers)
          Deprecated. since 9.0.1 - use #readByIds(IdQuery, ReadModifiers) instead.
<T> ReadByIdsResult<T>
readByIds(IdsQuery<T> query, ReadModifiers modifiers)
          Read objects from the space matching the specified IDs query, with the provided ReadModifiers.
<T> T
readIfExists(ISpaceQuery<T> template)
          Read any matching object from the space, returning null if there currently is none.
<T> T
readIfExists(ISpaceQuery<T> template, long timeout)
          Read any matching object from the space, returning null if there currently is none.
<T> T
readIfExists(ISpaceQuery<T> template, long timeout, int modifiers)
          Deprecated. since 9.0.1 - use readIfExists(ISpaceQuery, long, ReadModifiers) instead.
<T> T
readIfExists(ISpaceQuery<T> template, long timeout, ReadModifiers modifiers)
          Read any matching object from the space, returning null if there currently is none.
<T> T
readIfExists(T template)
          Read any matching object from the space, returning null if there currently is none.
<T> T
readIfExists(T template, long timeout)
          Read any matching object from the space, returning null if there currently is none.
<T> T
readIfExists(T template, long timeout, int modifiers)
          Deprecated. since 9.0.1 - use readIfExists(Object, long, ReadModifiers) instead.
<T> T
readIfExists(T template, long timeout, ReadModifiers modifiers)
          Read any matching object from the space, returning null if there currently is none.
<T> T
readIfExistsById(Class<T> clazz, Object id)
          Read an object from the space matching its id and the class.
<T> T
readIfExistsById(Class<T> clazz, Object id, Object routing)
          Read an object from the space matching its id, the class and the routing value.
<T> T
readIfExistsById(Class<T> clazz, Object id, Object routing, long timeout)
          Read an object from the space matching its id, the class and the routing value.
<T> T
readIfExistsById(Class<T> clazz, Object id, Object routing, long timeout, int modifiers)
          Deprecated. since 9.0.1 - use readIfExistsById(Class, Object, Object, long, ReadModifiers) instead.
<T> T
readIfExistsById(Class<T> clazz, Object id, Object routing, long timeout, ReadModifiers modifiers)
          Read an object from the space matching its id, the class and the routing value.
<T> T
readIfExistsById(IdQuery<T> query)
          Read an object from the space matching the specified id query.
<T> T
readIfExistsById(IdQuery<T> query, long timeout)
          Read an object from the space matching the specified id query.
<T> T
readIfExistsById(IdQuery<T> query, long timeout, int modifiers)
          Deprecated. since 9.0.1 - use readIfExistsById(IdQuery, long, ReadModifiers) instead.
<T> T
readIfExistsById(IdQuery<T> query, long timeout, ReadModifiers modifiers)
          Read an object from the space matching the specified id query.
<T> T[]
readMultiple(ISpaceQuery<T> template)
          Read any matching entries from the space.
<T> T[]
readMultiple(ISpaceQuery<T> template, int maxEntries)
          Read any matching entries from the space.
<T> T[]
readMultiple(ISpaceQuery<T> template, int maxEntries, int modifiers)
          Deprecated. since 9.0.1 - use readMultiple(ISpaceQuery, int, ReadModifiers) instead.
<T> T[]
readMultiple(ISpaceQuery<T> template, int maxEntries, ReadModifiers modifiers)
          Read any matching entries from the space.
<T> T[]
readMultiple(T template)
          Read any matching entries from the space.
<T> T[]
readMultiple(T template, int maxEntries)
          Read any matching entries from the space.
<T> T[]
readMultiple(T template, int maxEntries, int modifiers)
          Deprecated. since 9.0.1 - use readMultiple(Object, int, ReadModifiers) instead.
<T> T[]
readMultiple(T template, int maxEntries, ReadModifiers modifiers)
          Read any matching entries from the space.
<T> ISpaceQuery<T>
snapshot(Object entry)
          The process of serializing an entry for transmission to a JavaSpaces service will be identical if the same entry is used twice.
<T> T
take(ISpaceQuery<T> template)
          Take (remove) any matching entry from the space, blocking until one exists.
<T> T
take(ISpaceQuery<T> template, long timeout)
          Take (remove) any matching entry from the space, blocking until one exists.
<T> T
take(ISpaceQuery<T> template, long timeout, int modifiers)
          Deprecated. since 9.0.1 - use take(ISpaceQuery, long, TakeModifiers) instead.
<T> T
take(ISpaceQuery<T> template, long timeout, TakeModifiers modifiers)
          Take (remove) any matching entry from the space, blocking until one exists.
<T> T
take(T template)
          Take (remove) any matching entry from the space, blocking until one exists.
<T> T
take(T template, long timeout)
          Take (remove) any matching entry from the space, blocking until one exists.
<T> T
take(T template, long timeout, int modifiers)
          Deprecated. since 9.0.1 - use take(Object, long, TakeModifiers) instead.
<T> T
take(T template, long timeout, TakeModifiers modifiers)
          Take (remove) any matching entry from the space, blocking until one exists.
<T> T
takeById(Class<T> clazz, Object id)
          Take (remove) an object from the space matching its id and the class.
<T> T
takeById(Class<T> clazz, Object id, Object routing)
          Take (remove) an object from the space matching its id, the class and the routing value.
<T> T
takeById(Class<T> clazz, Object id, Object routing, long timeout)
          Take (remove) an object from the space matching its id, the class and the routing value.
<T> T
takeById(Class<T> clazz, Object id, Object routing, long timeout, int modifiers)
          Deprecated. since 9.0.1 - use takeById(Class, Object, Object, long, TakeModifiers) instead.
<T> T
takeById(Class<T> clazz, Object id, Object routing, long timeout, TakeModifiers modifiers)
          Take (remove) an object from the space matching its id, the class and the routing value.
<T> T
takeById(IdQuery<T> query)
          Take (remove) an object from the space matching the specified id query.
<T> T
takeById(IdQuery<T> query, long timeout)
          Take (remove) an object from the space matching the specified id query.
<T> T
takeById(IdQuery<T> query, long timeout, int modifiers)
          Deprecated. since 9.0.1 - use takeById(IdQuery, long, TakeModifiers) instead.
<T> T
takeById(IdQuery<T> query, long timeout, TakeModifiers modifiers)
          Take (remove) an object from the space matching the specified id query.
<T> TakeByIdsResult<T>
takeByIds(Class<T> clazz, Object[] ids)
          Take (remove) objects from the space matching their IDs and the specified class.
<T> TakeByIdsResult<T>
takeByIds(Class<T> clazz, Object[] ids, int modifiers)
          Deprecated. since 9.0.1 - use takeByIds(Class, Object[], Object, TakeModifiers) instead.
<T> TakeByIdsResult<T>
takeByIds(Class<T> clazz, Object[] ids, Object routingKey)
          Take (remove) objects from the space matching their IDs, the specified class and routing key.
<T> TakeByIdsResult<T>
takeByIds(Class<T> clazz, Object[] ids, Object[] routingKeys)
          Take (remove) objects from the space matching their IDs, the specified class and the routing keys.
<T> TakeByIdsResult<T>
takeByIds(Class<T> clazz, Object[] ids, Object[] routingKeys, int modifiers)
          Deprecated. since 9.0.1 - use takeByIds(Class, Object[], Object[], TakeModifiers) instead.
<T> TakeByIdsResult<T>
takeByIds(Class<T> clazz, Object[] ids, Object[] routingKeys, TakeModifiers modifiers)
          Take (remove) objects from the space matching their IDs, the specified class and the routing keys, with the provided ReadModifiers.
<T> TakeByIdsResult<T>
takeByIds(Class<T> clazz, Object[] ids, Object routingKey, int modifiers)
          Deprecated. since 9.0.1 - use takeByIds(Class, Object[], Object, TakeModifiers) instead.
<T> TakeByIdsResult<T>
takeByIds(Class<T> clazz, Object[] ids, Object routingKey, TakeModifiers modifiers)
          Take (remove) objects from the space matching their IDs, the specified class type and routing key, with the provided ReadModifiers.
<T> TakeByIdsResult<T>
takeByIds(IdsQuery<T> query)
          Take (remove) objects from the space matching the specified IDs query.
<T> TakeByIdsResult<T>
takeByIds(IdsQuery<T> query, int modifiers)
          Deprecated. since 9.0.1 - use #takeByIds(IdQuery, TakeModifiers) instead.
<T> TakeByIdsResult<T>
takeByIds(IdsQuery<T> query, TakeModifiers modifiers)
          Take (remove) objects from the space matching the specified IDs query, with the provided ReadModifiers.
<T> T
takeIfExists(ISpaceQuery<T> template)
          Take (remove) any matching entry from the space, returning null if there currently is none.
<T> T
takeIfExists(ISpaceQuery<T> template, long timeout)
          Take (remove) any matching entry from the space, returning null if there currently is none.
<T> T
takeIfExists(ISpaceQuery<T> template, long timeout, int modifiers)
          Deprecated. since 9.0.1 - use takeIfExists(ISpaceQuery, long, TakeModifiers) instead.
<T> T
takeIfExists(ISpaceQuery<T> template, long timeout, TakeModifiers modifiers)
          Take (remove) any matching entry from the space, returning null if there currently is none.
<T> T
takeIfExists(T template)
          Take (remove) any matching entry from the space, returning null if there currently is none.
<T> T
takeIfExists(T template, long timeout)
          Take (remove) any matching entry from the space, returning null if there currently is none.
<T> T
takeIfExists(T template, long timeout, int modifiers)
          Deprecated. since 9.0.1 - use takeIfExists(Object, long, TakeModifiers) instead.
<T> T
takeIfExists(T template, long timeout, TakeModifiers modifiers)
          Take (remove) any matching entry from the space, returning null if there currently is none.
<T> T
takeIfExistsById(Class<T> clazz, Object id)
          Take (remove) an object from the space matching its id and the class.
<T> T
takeIfExistsById(Class<T> clazz, Object id, Object routing)
          Take (remove) an object from the space matching its id, the class and the routing value.
<T> T
takeIfExistsById(Class<T> clazz, Object id, Object routing, long timeout)
          Take (remove) an object from the space matching its id, the class and the routing value.
<T> T
takeIfExistsById(Class<T> clazz, Object id, Object routing, long timeout, int modifiers)
          Deprecated. since 9.0.1 - use takeIfExistsById(Class, Object, Object, long, TakeModifiers) instead.
<T> T
takeIfExistsById(Class<T> clazz, Object id, Object routing, long timeout, TakeModifiers modifiers)
          Take (remove) an object from the space matching its id, the class and the routing value.
<T> T
takeIfExistsById(IdQuery<T> query)
          Take (remove) an object from the space matching the specified id query.
<T> T
takeIfExistsById(IdQuery<T> query, long timeout)
          Take (remove) an object from the space matching the specified id query.
<T> T
takeIfExistsById(IdQuery<T> query, long timeout, int modifiers)
          Deprecated. since 9.0.1 - use takeIfExistsById(IdQuery, long, TakeModifiers) instead.
<T> T
takeIfExistsById(IdQuery<T> query, long timeout, TakeModifiers modifiers)
          Take (remove) an object from the space matching the specified id query.
<T> T[]
takeMultiple(ISpaceQuery<T> template)
          Takes (removes) all the entries matching the specified template from this space.
<T> T[]
takeMultiple(ISpaceQuery<T> template, int maxEntries)
          Takes (removes) all the entries matching the specified template from this space.
<T> T[]
takeMultiple(ISpaceQuery<T> template, int maxEntries, int modifiers)
          Deprecated. since 9.0.1 - use takeMultiple(ISpaceQuery, int, TakeModifiers) instead.
<T> T[]
takeMultiple(ISpaceQuery<T> template, int maxEntries, TakeModifiers modifiers)
          Takes (removes) all the entries matching the specified template from this space.
<T> T[]
takeMultiple(T template)
          Takes (removes) all the entries matching the specified template from this space.
<T> T[]
takeMultiple(T template, int maxEntries)
          Takes (removes) all the entries matching the specified template from this space.
<T> T[]
takeMultiple(T template, int maxEntries, int modifiers)
          Deprecated. since 9.0.1 - use takeMultiple(Object, int, TakeModifiers) instead.
<T> T[]
takeMultiple(T template, int maxEntries, TakeModifiers modifiers)
          Takes (removes) all the entries matching the specified template from this space.
<T> LeaseContext<T>
write(T entry)
          Writes a new object to the space, returning its LeaseContext.
<T> LeaseContext<T>
write(T entry, long lease)
          Writes a new object to the space, returning its LeaseContext.
<T> LeaseContext<T>
write(T entry, long lease, long timeout, int modifiers)
          Deprecated. since 9.0.1 - use write(Object, long, long, WriteModifiers) instead.
<T> LeaseContext<T>
write(T entry, long lease, long timeout, WriteModifiers modifiers)
          Writes a new object to the space, returning its LeaseContext.
<T> LeaseContext<T>
write(T entry, WriteModifiers modifiers)
          Writes a new object to the space, returning its LeaseContext.
<T> LeaseContext<T>[]
writeMultiple(T[] entries)
          Writes the specified entries to this space.
<T> LeaseContext<T>[]
writeMultiple(T[] entries, long lease)
          Writes the specified entries to this space.
<T> LeaseContext<T>[]
writeMultiple(T[] entries, long[] leases, int updateModifiers)
          Deprecated. since 9.0.1 - use writeMultiple(Object[], long[], WriteModifiers) instead.
<T> LeaseContext<T>[]
writeMultiple(T[] entries, long[] leases, long timeout, WriteModifiers modifiers)
          Writes the specified entries to this space.
<T> LeaseContext<T>[]
writeMultiple(T[] entries, long[] leases, WriteModifiers modifiers)
          Writes the specified entries to this space.
<T> LeaseContext<T>[]
writeMultiple(T[] entries, long lease, int updateModifiers)
          Deprecated. since 9.0.1 - use writeMultiple(Object[], long, WriteModifiers) instead.
<T> LeaseContext<T>[]
writeMultiple(T[] entries, long lease, long timeout, WriteModifiers modifiers)
          Writes the specified entries to this space.
<T> LeaseContext<T>[]
writeMultiple(T[] entries, long lease, WriteModifiers modifiers)
          Writes the specified entries to this space.
<T> LeaseContext<T>[]
writeMultiple(T[] entries, WriteModifiers modifiers)
          Writes the specified entries to this space.
 

Method Detail

getName

String getName()
Returns the name of the GigaSpace. If it is configured with Spring for example, will return the bean name, if not, will default to the space name.


getSpace

IJSpace getSpace()
Returns the IJSpace used by this GigaSpace implementation to delegate different space operations.

Allows the use of space operations that are not exposed by this interface, as well as use as a parameter to other low level GigaSpace components.

If a transaction object is required for low level operations (as low level operations do not have declarative transaction ex) the getTxProvider() should be used to acquire the current running transaction.


getClustered

GigaSpace getClustered()
Returns a clustered view of this GigaSpace instance.
 GigaSpace gigaSpace = new GigaSpaceConfigurer(space).clustered(true).gigaSpace();
 

If this instance is already a clustered view (was initially constructed using the clustered flag), will return the same instance being used to issue the call.

If this is a GigaSpace that works directly with a cluster member, will return a clustered view (as if it was constructed with the clustered flag set). Note that this method might return different instances when being called by different threads.

 GigaSpace nonClusteredViewOfGigaSpace= ... // acquire non-clustered view of a clustered space
 GigaSpace space=nonClusteredViewofGigaSpace.getClustered();
 // space != nonClusteredViewOfSpace
 
 GigaSpace clusteredViewOfGigaSpace= ... // acquire clustered view of a clustered space
 GigaSpace space=clusteredViewofGigaSpace.getClustered();
 // space == clusteredViewOfSpace
 

See Also:
GigaSpaceConfigurer.clustered(boolean)

getTxProvider

TransactionProvider getTxProvider()
Returns the transaction provider allowing to access the current running transaction.


getCurrentTransaction

Transaction getCurrentTransaction()
Returns the current running transaction. Can be null if no transaction is in progress.


getExceptionTranslator

ExceptionTranslator getExceptionTranslator()
Returns the exception translator associated with this GigaSpace instance.


getModifiersForIsolationLevel

int getModifiersForIsolationLevel()
Gets the isolation level from the current running transaction (enabling the usage of Spring declarative isolation level settings). If there is no transaction in progress or the transaction isolation is TransactionDefinition.ISOLATION_DEFAULT will use the default isolation level associated with this class.


getDefaultWriteModifiers

WriteModifiers getDefaultWriteModifiers()
Gets the default WriteModifiers set during this GigaSpace configuration. This value is configured either by using a GigaSpaceConfigurer or through the pu.xml.


getDefaultClearModifiers

ClearModifiers getDefaultClearModifiers()
Gets the default ClearModifiers set during this GigaSpace configuration. This value is configured either by using a GigaSpaceConfigurer or through the pu.xml.


getDefaultCountModifiers

CountModifiers getDefaultCountModifiers()
Gets the default CountModifiers set during this GigaSpace configuration. This value is configured either by using a GigaSpaceConfigurer or through the pu.xml. If there is an active transaction and that transaction has any isolation level set on it, that isolation level will be merged into the returned modifiers with any previously set isolation level on the modifiers overriden.


getDefaultReadModifiers

ReadModifiers getDefaultReadModifiers()
Gets the default ReadModifiers set during this GigaSpace configuration. This value is configured either by using a GigaSpaceConfigurer or through the pu.xml. If there is an active transaction and that transaction has any isolation level set on it, that isolation level will be merged into the returned modifiers with any previously set isolation level on the modifiers overriden.


getDefaultTakeModifiers

TakeModifiers getDefaultTakeModifiers()
Gets the default TakeModifiers set during this GigaSpace configuration. This value is configured either by using a GigaSpaceConfigurer or through the pu.xml.


getDefaultChangeModifiers

ChangeModifiers getDefaultChangeModifiers()
Gets the default ChangeModifiers set during this GigaSpace configuration. This value is configured either by using a GigaSpaceConfigurer or through the pu.xml.


clear

void clear(Object template)
           throws DataAccessException
Removes the entries that match the specified template and the specified transaction from this space.

If the clear operation conducted without transaction (null as value) it will clear all entries that are not under transaction. Therefore entries under transaction would not be removed from the space.

The clear operation supports inheritance, therefore template class matching objects and its sub classes matching objects are part of the candidates population to be removed from the space. You can in fact clean all space objects (that are not under transaction) by calling: gigaSpace.clear(null).

Notice: The clear operation does not remove notify templates, i.e. registration for notifications.

Parameters:
template - the template to use for matching
Throws:
DataAccessException - In the event of an error, DataAccessException will wrap a ClearException, accessible via DataAccessException.getRootCause().

clear

@Deprecated
int clear(Object template,
                     int modifiers)
Deprecated. since 9.0.1 - use clear(Object, ClearModifiers) instead.


clear

int clear(Object template,
          ClearModifiers modifiers)
Removes the entries that match the specified template and the specified transaction from this space.

If the clear operation conducted without transaction (null as value) it will clear all entries that are not under transaction. Therefore entries under transaction would not be removed from the space.

The clear operation supports inheritance, therefore template class matching objects and its sub classes matching objects are part of the candidates population to be removed from the space. You can in fact remove all space objects (that are not under transaction) by calling: gigaSpace.clear(null).

Notice: The clear operation does not remove notify templates i.e. registration for notifications.

Parameters:
template - the template to use for matching
modifiers - one or a union of ClearModifiers.
Throws:
DataAccessException - In the event of an error, DataAccessException will wrap a ClearException, accessible via DataAccessException.getRootCause().
Since:
9.0.1

count

int count(Object template)
          throws DataAccessException
Count any matching entry from the space. If a running within a transaction will count all the entries visible under the transaction.

Parameters:
template - The template used for matching. Matching is done against the template with null fields being wildcards ("match anything") other fields being values ("match exactly on the serialized form").
Returns:
The number of matching entries
Throws:
DataAccessException

count

@Deprecated
int count(Object template,
                     int modifiers)
          throws DataAccessException
Deprecated. since 9.0.1 - use count(Object, CountModifiers) instead.

Throws:
DataAccessException

count

int count(Object template,
          CountModifiers modifiers)
          throws DataAccessException
Count any matching entries from the space. If this is running within a transaction will count all the entries visible under the transaction.

Allows to specify modifiers using ReadModifiers which allows to programmatically control the isolation level this count operation will be performed under.

Parameters:
template - The template used for matching. Matching is done against the template with null fields being wildcards ("match anything") other fields being values ("match exactly on the serialized form").
modifiers - one or a union of CountModifiers.
Returns:
The number of matching entries
Throws:
DataAccessException
Since:
9.0.1

snapshot

<T> ISpaceQuery<T> snapshot(Object entry)
                        throws DataAccessException

The process of serializing an entry for transmission to a JavaSpaces service will be identical if the same entry is used twice. This is most likely to be an issue with templates that are used repeatedly to search for entries with read or take.

The client-side implementations of read and take cannot reasonably avoid this duplicated effort, since they have no efficient way of checking whether the same template is being used without intervening modification.

The snapshot method gives the JavaSpaces service implementor a way to reduce the impact of repeated use of the same entry. Invoking snapshot with an Entry will return another Entry object that contains a snapshot of the original entry. Using the returned snapshot entry is equivalent to using the unmodified original entry in all operations on the same JavaSpaces service.

Modifications to the original entry will not affect the snapshot. You can snapshot a null template; snapshot may or may not return null given a null template. The entry returned from snapshot will be guaranteed equivalent to the original unmodified object only when used with the space. Using the snapshot with any other JavaSpaces service will generate an IllegalArgumentException unless the other space can use it because of knowledge about the JavaSpaces service that generated the snapshot.

The snapshot will be a different object from the original, may or may not have the same hash code, and equals may or may not return true when invoked with the original object, even if the original object is unmodified. A snapshot is guaranteed to work only within the virtual machine in which it was generated. If a snapshot is passed to another virtual machine (for example, in a parameter of an RMI call), using it--even with the same JavaSpaces service--may generate an IllegalArgumentException.

Parameters:
entry - The entry to snapshot
Returns:
The snapshot
Throws:
DataAccessException

readById

<T> T readById(Class<T> clazz,
               Object id)
           throws DataAccessException
Read an object from the space matching its id and the class. Returns null if there is no match.

The timeout is the default timeout this interface is configured with (using its factory) and defaults to 0.

Note, if the space is partitioned, and the Entry has a specific property for its routing value, the operation will broadcast to all partitions. The readById(Class, Object, Object) can be used to specify the routing.

Parameters:
clazz - The class of the entry
id - The id of the entry
Returns:
A matching object, or null if no matching is found within the timeout value.
Throws:
DataAccessException

readById

<T> T readById(Class<T> clazz,
               Object id,
               Object routing)
           throws DataAccessException
Read an object from the space matching its id, the class and the routing value. Returns null if there is no match.

The timeout is the default timeout this interface is configured with (using its factory) and defaults to 0.

Parameters:
clazz - The class of the entry
id - The id of the entry
routing - The routing value
Returns:
A matching object, or null if no matching is found within the timeout value.
Throws:
DataAccessException

readById

<T> T readById(Class<T> clazz,
               Object id,
               Object routing,
               long timeout)
           throws DataAccessException
Read an object from the space matching its id, the class and the routing value. Returns null if there is no match within the specified timeout.

Parameters:
clazz - The class of the entry
id - The id of the entry
routing - The routing value
timeout - The timeout value to wait for a matching entry if it does not exists within the space
Returns:
A matching object, or null if no matching is found within the timeout value.
Throws:
DataAccessException

readById

@Deprecated
<T> T readById(Class<T> clazz,
                          Object id,
                          Object routing,
                          long timeout,
                          int modifiers)
           throws DataAccessException
Deprecated. since 9.0.1 - use readById(Class, Object, Object, long, ReadModifiers) instead.

Throws:
DataAccessException

readById

<T> T readById(Class<T> clazz,
               Object id,
               Object routing,
               long timeout,
               ReadModifiers modifiers)
           throws DataAccessException
Read an object from the space matching its id, the class and the routing value. Returns null if there is no match within the specified timeout.

Parameters:
clazz - The class of the entry
id - The id of the entry
routing - The routing value
timeout - The timeout value to wait for a matching entry if it does not exists within the space
modifiers - one or a union of ReadModifiers.
Returns:
A matching object, or null if no matching is found within the timeout value.
Throws:
DataAccessException
Since:
9.0.1

readById

<T> T readById(IdQuery<T> query)
           throws DataAccessException
Read an object from the space matching the specified id query. Returns null if there is no match.

The timeout is the default timeout this interface is configured with (using its factory) and defaults to 0.

Note, if the space is partitioned, and the Entry has a specific property for its routing value, the operation will broadcast to all partitions. The readById(Class, Object, Object) can be used to specify the routing.

Parameters:
query - Query to search by.
Returns:
A matching object, or null if no matching is found within the timeout value.
Throws:
DataAccessException
Since:
8.0

readById

<T> T readById(IdQuery<T> query,
               long timeout)
           throws DataAccessException
Read an object from the space matching the specified id query. Returns null if there is no match within the specified timeout.

Parameters:
query - Query to search by.
timeout - The timeout value to wait for a matching entry if it does not exists within the space
Returns:
A matching object, or null if no matching is found within the timeout value.
Throws:
DataAccessException
Since:
8.0

readById

@Deprecated
<T> T readById(IdQuery<T> query,
                          long timeout,
                          int modifiers)
           throws DataAccessException
Deprecated. since 9.0.1 - use readById(IdQuery, long, ReadModifiers) instead.

Throws:
DataAccessException

readById

<T> T readById(IdQuery<T> query,
               long timeout,
               ReadModifiers modifiers)
           throws DataAccessException
Read an object from the space matching the specified id query. Returns null if there is no match within the specified timeout.

Parameters:
query - Query to search by.
timeout - The timeout value to wait for a matching entry if it does not exists within the space
modifiers - one or a union of ReadModifiers.
Returns:
A matching object, or null if no matching is found within the timeout value.
Throws:
DataAccessException
Since:
9.0.1

read

<T> T read(T template)
       throws DataAccessException
Read any matching object from the space, blocking until one exists. Return null if the timeout expires.

Note, the timeout is the default timeout this interface is configured with (using its factory) and defaults to 0.

Parameters:
template - The template used for matching. Matching is done against template with null fields being wildcards ("match anything") other fields being values ("match exactly on the serialized form").
Returns:
A copy of the object read from the space.
Throws:
DataAccessException

read

<T> T read(T template,
           long timeout)
       throws DataAccessException
Read any matching object from the space, blocking until one exists. Return null if the timeout expires.

Parameters:
template - The template used for matching. Matching is done against template with null fields being wildcards ("match anything") other fields being values ("match exactly on the serialized form").
timeout - How long the client is willing to wait for a transactionally proper matching object. A timeout of 0 means to wait no time at all.
Returns:
A copy of the object read from the space.
Throws:
DataAccessException

read

@Deprecated
<T> T read(T template,
                      long timeout,
                      int modifiers)
       throws DataAccessException
Deprecated. since 9.0.1 - use read(Object, long, ReadModifiers) instead.

Throws:
DataAccessException

read

<T> T read(T template,
           long timeout,
           ReadModifiers modifiers)
       throws DataAccessException
Read any matching object from the space, blocking until one exists. Return null if the timeout expires.

Overloads read(Object,long) by adding a modifiers parameter. Equivalent when called with the default modifier - ReadModifiers.REPEATABLE_READ. Modifiers are used to define the behavior of a read operation.

Parameters:
template - The template used for matching. Matching is done against template with null fields being wildcards ("match anything") other fields being values ("match exactly on the serialized form").
timeout - How long the client is willing to wait for a transactionally proper matching object. A timeout of 0 means to wait no time at all.
modifiers - one or a union of ReadModifiers.
Returns:
A copy of the object read from the space.
Throws:
DataAccessException
Since:
9.0.1

read

<T> T read(ISpaceQuery<T> template)
       throws DataAccessException
Read any matching object from the space, blocking until one exists. Return null if the timeout expires.

Note, the timeout is the default timeout this interface is configured with (using its factory) and defaults to 0.

Parameters:
template - A query to be executed against the space. Most common one is SQLQuery.
Returns:
A copy of the object read from the space.
Throws:
DataAccessException

read

<T> T read(ISpaceQuery<T> template,
           long timeout)
       throws DataAccessException
Read any matching object from the space, blocking until one exists. Return null if the timeout expires.

Parameters:
template - A query to be executed against the space. Most common one is SQLQuery.
timeout - How long the client is willing to wait for a transactionally proper matching object. A timeout of 0 means to wait no time at all.
Returns:
A copy of the object read from the space.
Throws:
DataAccessException

read

@Deprecated
<T> T read(ISpaceQuery<T> template,
                      long timeout,
                      int modifiers)
       throws DataAccessException
Deprecated. since 9.0.1 - use read(ISpaceQuery, long, ReadModifiers) instead.

Throws:
DataAccessException

read

<T> T read(ISpaceQuery<T> template,
           long timeout,
           ReadModifiers modifiers)
       throws DataAccessException
Read any matching object from the space, blocking until one exists. Return null if the timeout expires.

Overloads read(Object,long) by adding a modifiers parameter. Equivalent when called with the default modifier - ReadModifiers.REPEATABLE_READ. Modifiers are used to define the behavior of a read operation.

Parameters:
template - A query to be executed against the space. Most common one is SQLQuery.
timeout - How long the client is willing to wait for a transactionally proper matching object. A timeout of 0 means to wait no time at all.
modifiers - one or a union of ReadModifiers.
Returns:
A copy of the object read from the space.
Throws:
DataAccessException
Since:
9.0.1

asyncRead

<T> AsyncFuture<T> asyncRead(T template)
                         throws DataAccessException
Reads any matching entry from the space in an asynchronous manner. Returns immediately with a future. The future can then be used to check if there is a match or not. Once a match is found or the timeout expires, the future will return a result (null in case there was no match).

Note, the timeout is the default timeout this interface is configured with (using its factory) and defaults to 0.

Parameters:
template - The template used for matching. Matching is done against template with null fields being wildcards ("match anything") other fields being values ("match exactly on the serialized form").
Returns:
A copy of the object read from the space.
Throws:
DataAccessException

asyncRead

<T> AsyncFuture<T> asyncRead(T template,
                             AsyncFutureListener<T> listener)
                         throws DataAccessException
Reads any matching entry from the space in an asynchronous manner. Returns immediately with a future. The future can then be used to check if there is a match or not. Once a match is found or the timeout expires, the future will return a result (null in case there was no match).

Note, the timeout is the default timeout this interface is configured with (using its factory) and defaults to 0.

Parameters:
template - The template used for matching. Matching is done against template with null fields being wildcards ("match anything") other fields being values ("match exactly on the serialized form").
listener - A listener to be notified when a result arrives
Returns:
A copy of the object read from the space.
Throws:
DataAccessException

asyncRead

<T> AsyncFuture<T> asyncRead(T template,
                             long timeout)
                         throws DataAccessException
Reads any matching entry from the space in an asynchronous manner. Returns immediately with a future. The future can then be used to check if there is a match or not. Once a match is found or the timeout expires, the future will return a result (null in case there was no match).

Parameters:
template - The template used for matching. Matching is done against template with null fields being wildcards ("match anything") other fields being values ("match exactly on the serialized form").
timeout - How long the client is willing to wait for a transactionally proper matching object. A timeout of 0 means to wait no time at all.
Returns:
A copy of the object read from the space.
Throws:
DataAccessException

asyncRead

<T> AsyncFuture<T> asyncRead(T template,
                             long timeout,
                             AsyncFutureListener<T> listener)
                         throws DataAccessException
Reads any matching entry from the space in an asynchronous manner. Returns immediately with a future. The future can then be used to check if there is a match or not. Once a match is found or the timeout expires, the future will return a result (null in case there was no match).

Parameters:
template - The template used for matching. Matching is done against template with null fields being wildcards ("match anything") other fields being values ("match exactly on the serialized form").
timeout - How long the client is willing to wait for a transactionally proper matching object. A timeout of 0 means to wait no time at all.
listener - A listener to be notified when a result arrives
Returns:
A copy of the object read from the space.
Throws:
DataAccessException

asyncRead

@Deprecated
<T> AsyncFuture<T> asyncRead(T template,
                                        long timeout,
                                        int modifiers)
                         throws DataAccessException
Deprecated. since 9.0.1 - use asyncRead(Object, long, ReadModifiers) instead.

Throws:
DataAccessException

asyncRead

<T> AsyncFuture<T> asyncRead(T template,
                             long timeout,
                             ReadModifiers modifiers)
                         throws DataAccessException
Reads any matching entry from the space in an asynchronous manner. Returns immediately with a future. The future can then be used to check if there is a match or not. Once a match is found or the timeout expires, the future will return a result (null in case there was no match).

Overloads asyncRead(Object,long) by adding a modifiers parameter. Equivalent when called with the default modifier - ReadModifiers.REPEATABLE_READ. Modifiers are used to define the behavior of a read operation.

Parameters:
template - The template used for matching. Matching is done against template with null fields being wildcards ("match anything") other fields being values ("match exactly on the serialized form").
timeout - How long the client is willing to wait for a transactionally proper matching object. A timeout of 0 means to wait no time at all.
modifiers - one or a union of ReadModifiers.
Returns:
A copy of the object read from the space.
Throws:
DataAccessException
Since:
9.0.1

asyncRead

@Deprecated
<T> AsyncFuture<T> asyncRead(T template,
                                        long timeout,
                                        int modifiers,
                                        AsyncFutureListener<T> listener)
                         throws DataAccessException
Deprecated. since 9.0.1 - use asyncRead(Object, long, ReadModifiers, AsyncFutureListener) instead.

Throws:
DataAccessException

asyncRead

<T> AsyncFuture<T> asyncRead(T template,
                             long timeout,
                             ReadModifiers modifiers,
                             AsyncFutureListener<T> listener)
                         throws DataAccessException
Reads any matching entry from the space in an asynchronous manner. Returns immediately with a future. The future can then be used to check if there is a match or not. Once a match is found or the timeout expires, the future will return a result (null in case there was no match).

Overloads asyncRead(Object,long) by adding a modifiers parameter. Equivalent when called with the default modifier - ReadModifiers.REPEATABLE_READ. Modifiers are used to define the behavior of a read operation.

Parameters:
template - The template used for matching. Matching is done against template with null fields being wildcards ("match anything") other fields being values ("match exactly on the serialized form").
timeout - How long the client is willing to wait for a transactionally proper matching object. A timeout of 0 means to wait no time at all.
modifiers - one or a union of ReadModifiers.
listener - A listener to be notified when a result arrives
Returns:
A copy of the object read from the space.
Throws:
DataAccessException
Since:
9.0.1

asyncRead

<T> AsyncFuture<T> asyncRead(ISpaceQuery<T> template)
                         throws DataAccessException
Reads any matching entry from the space in an asynchronous manner. Returns immediately with a future. The future can then be used to check if there is a match or not. Once a match is found or the timeout expires, the future will return a result (null in case there was no match).

Note, the timeout is the default timeout this interface is configured with (using its factory) and defaults to 0.

Parameters:
template - A query to be executed against the space. Most common one is SQLQuery.
Returns:
A copy of the object read from the space.
Throws:
DataAccessException

asyncRead

<T> AsyncFuture<T> asyncRead(ISpaceQuery<T> template,
                             AsyncFutureListener<T> listener)
                         throws DataAccessException
Reads any matching entry from the space in an asynchronous manner. Returns immediately with a future. The future can then be used to check if there is a match or not. Once a match is found or the timeout expires, the future will return a result (null in case there was no match).

Note, the timeout is the default timeout this interface is configured with (using its factory) and defaults to 0.

Parameters:
template - A query to be executed against the space. Most common one is SQLQuery.
listener - A listener to be notified when a result arrives
Returns:
A copy of the object read from the space.
Throws:
DataAccessException

asyncRead

<T> AsyncFuture<T> asyncRead(ISpaceQuery<T> template,
                             long timeout)
                         throws DataAccessException
Reads any matching entry from the space in an asynchronous manner. Returns immediately with a future. The future can then be used to check if there is a match or not. Once a match is found or the timeout expires, the future will return a result (null in case there was no match).

Parameters:
template - A query to be executed against the space. Most common one is SQLQuery.
timeout - How long the client is willing to wait for a transactionally proper matching object. A timeout of 0 means to wait no time at all.
Returns:
A copy of the object read from the space.
Throws:
DataAccessException

asyncRead

<T> AsyncFuture<T> asyncRead(ISpaceQuery<T> template,
                             long timeout,
                             AsyncFutureListener<T> listener)
                         throws DataAccessException
Reads any matching entry from the space in an asynchronous manner. Returns immediately with a future. The future can then be used to check if there is a match or not. Once a match is found or the timeout expires, the future will return a result (null in case there was no match).

Parameters:
template - A query to be executed against the space. Most common one is SQLQuery.
timeout - How long the client is willing to wait for a transactionally proper matching object. A timeout of 0 means to wait no time at all.
listener - A listener to be notified when a result arrives
Returns:
A copy of the object read from the space.
Throws:
DataAccessException

asyncRead

@Deprecated
<T> AsyncFuture<T> asyncRead(ISpaceQuery<T> template,
                                        long timeout,
                                        int modifiers)
                         throws DataAccessException
Deprecated. since 9.0.1 - use asyncRead(ISpaceQuery, long, ReadModifiers) instead.

Throws:
DataAccessException

asyncRead

<T> AsyncFuture<T> asyncRead(ISpaceQuery<T> template,
                             long timeout,
                             ReadModifiers modifiers)
                         throws DataAccessException
Reads any matching entry from the space in an asynchronous manner. Returns immediately with a future. The future can then be used to check if there is a match or not. Once a match is found or the timeout expires, the future will return a result (null in case there was no match).

Overloads asyncRead(Object,long) by adding a modifiers parameter. Equivalent when called with the default modifier - ReadModifiers.REPEATABLE_READ. Modifiers are used to define the behavior of a read operation.

Parameters:
template - A query to be executed against the space. Most common one is SQLQuery.
timeout - How long the client is willing to wait for a transactionally proper matching object. A timeout of 0 means to wait no time at all.
modifiers - one or a union of ReadModifiers.
Returns:
A copy of the object read from the space.
Throws:
DataAccessException
Since:
9.0.1

asyncRead

@Deprecated
<T> AsyncFuture<T> asyncRead(ISpaceQuery<T> template,
                                        long timeout,
                                        int modifiers,
                                        AsyncFutureListener<T> listener)
                         throws DataAccessException
Deprecated. since 9.0.1 - use asyncRead(ISpaceQuery, long, ReadModifiers, AsyncFutureListener) instead.

Throws:
DataAccessException

asyncRead

<T> AsyncFuture<T> asyncRead(ISpaceQuery<T> template,
                             long timeout,
                             ReadModifiers modifiers,
                             AsyncFutureListener<T> listener)
                         throws DataAccessException
Reads any matching entry from the space in an asynchronous manner. Returns immediately with a future. The future can then be used to check if there is a match or not. Once a match is found or the timeout expires, the future will return a result (null in case there was no match).

Overloads asyncRead(Object,long) by adding a modifiers parameter. Equivalent when called with the default modifier - ReadModifiers.REPEATABLE_READ. Modifiers are used to define the behavior of a read operation.

Parameters:
template - A query to be executed against the space. Most common one is SQLQuery.
timeout - How long the client is willing to wait for a transactionally proper matching object. A timeout of 0 means to wait no time at all.
modifiers - one or a union of ReadModifiers.
listener - A listener to be notified when a result arrives
Returns:
A copy of the object read from the space.
Throws:
DataAccessException
Since:
9.0.1

readIfExistsById

<T> T readIfExistsById(Class<T> clazz,
                       Object id)
                   throws DataAccessException
Read an object from the space matching its id and the class. Returns null if there is no match.

Matching and timeouts are done as in readById, except that blocking in this call is done only if necessary to wait for transactional state to settle.

The timeout is the default timeout this interface is configured with (using its factory) and defaults to 0.

Note, if the space is partitioned, and the Entry has a specific property for its routing value, the operation will broadcast to all partitions. The readById(Class, Object, Object) can be used to specify the routing.

Parameters:
clazz - The class of the entry
id - The id of the entry
Returns:
A matching object, or null if no matching is found within the timeout value.
Throws:
DataAccessException

readIfExistsById

<T> T readIfExistsById(Class<T> clazz,
                       Object id,
                       Object routing)
                   throws DataAccessException
Read an object from the space matching its id, the class and the routing value. Returns null if there is no match.

Matching and timeouts are done as in readById, except that blocking in this call is done only if necessary to wait for transactional state to settle.

The timeout is the default timeout this interface is configured with (using its factory) and defaults to 0.

Parameters:
clazz - The class of the entry
id - The id of the entry
routing - The routing value
Returns:
A matching object, or null if no matching is found within the timeout value.
Throws:
DataAccessException

readIfExistsById

<T> T readIfExistsById(Class<T> clazz,
                       Object id,
                       Object routing,
                       long timeout)
                   throws DataAccessException
Read an object from the space matching its id, the class and the routing value. Returns null if there is no match within the specified timeout.

Matching and timeouts are done as in readById, except that blocking in this call is done only if necessary to wait for transactional state to settle.

Parameters:
clazz - The class of the entry
id - The id of the entry
routing - The routing value
timeout - The timeout value to wait for a matching entry if it does not exists within the space
Returns:
A matching object, or null if no matching is found within the timeout value.
Throws:
DataAccessException

readIfExistsById

@Deprecated
<T> T readIfExistsById(Class<T> clazz,
                                  Object id,
                                  Object routing,
                                  long timeout,
                                  int modifiers)
                   throws DataAccessException
Deprecated. since 9.0.1 - use readIfExistsById(Class, Object, Object, long, ReadModifiers) instead.

Throws:
DataAccessException

readIfExistsById

<T> T readIfExistsById(Class<T> clazz,
                       Object id,
                       Object routing,
                       long timeout,
                       ReadModifiers modifiers)
                   throws DataAccessException
Read an object from the space matching its id, the class and the routing value. Returns null if there is no match within the specified timeout.

Matching and timeouts are done as in readById, except that blocking in this call is done only if necessary to wait for transactional state to settle.

Parameters:
clazz - The class of the entry
id - The id of the entry
routing - The routing value
timeout - The timeout value to wait for a matching entry if it does not exists within the space
modifiers - one or a union of ReadModifiers.
Returns:
A matching object, or null if no matching is found within the timeout value.
Throws:
DataAccessException
Since:
9.0.1

readIfExistsById

<T> T readIfExistsById(IdQuery<T> query)
                   throws DataAccessException
Read an object from the space matching the specified id query. Returns null if there is no match.

The timeout is the default timeout this interface is configured with (using its factory) and defaults to 0.

Note, if the space is partitioned, and the Entry has a specific property for its routing value, the operation will broadcast to all partitions. The readById(Class, Object, Object) can be used to specify the routing.

Matching and timeouts are done as in readById, except that blocking in this call is done only if necessary to wait for transactional state to settle.

Parameters:
query - Query to search by.
Returns:
A matching object, or null if no matching is found within the timeout value.
Throws:
DataAccessException
Since:
8.0

readIfExistsById

<T> T readIfExistsById(IdQuery<T> query,
                       long timeout)
                   throws DataAccessException
Read an object from the space matching the specified id query. Returns null if there is no match within the specified timeout.

Matching and timeouts are done as in readById, except that blocking in this call is done only if necessary to wait for transactional state to settle.

Parameters:
query - Query to search by.
timeout - The timeout value to wait for a matching entry if it does not exists within the space
Returns:
A matching object, or null if no matching is found within the timeout value.
Throws:
DataAccessException
Since:
8.0

readIfExistsById

@Deprecated
<T> T readIfExistsById(IdQuery<T> query,
                                  long timeout,
                                  int modifiers)
                   throws DataAccessException
Deprecated. since 9.0.1 - use readIfExistsById(IdQuery, long, ReadModifiers) instead.

Throws:
DataAccessException

readIfExistsById

<T> T readIfExistsById(IdQuery<T> query,
                       long timeout,
                       ReadModifiers modifiers)
                   throws DataAccessException
Read an object from the space matching the specified id query. Returns null if there is no match within the specified timeout.

Matching and timeouts are done as in readById, except that blocking in this call is done only if necessary to wait for transactional state to settle.

Parameters:
query - Query to search by.
timeout - The timeout value to wait for a matching entry if it does not exists within the space
modifiers - one or a union of ReadModifiers.
Returns:
A matching object, or null if no matching is found within the timeout value.
Throws:
DataAccessException
Since:
9.0.1

readIfExists

<T> T readIfExists(T template)
               throws DataAccessException
Read any matching object from the space, returning null if there currently is none. Matching and timeouts are done as in read, except that blocking in this call is done only if necessary to wait for transactional state to settle.

Note, the timeout is the default timeout this interface is configured with (using its factory) and defaults to 0.

Parameters:
template - The template used for matching. Matching is done against the template with null fields being wildcards ("match anything") other fields being values ("match exactly on the serialized form").
Returns:
A copy of the object read from the space.
Throws:
DataAccessException

readIfExists

<T> T readIfExists(T template,
                   long timeout)
               throws DataAccessException
Read any matching object from the space, returning null if there currently is none. Matching and timeouts are done as in read, except that blocking in this call is done only if necessary to wait for transactional state to settle.

Parameters:
template - The template used for matching. Matching is done against template with null fields being wildcards ("match anything") other fields being values ("match exactly on the serialized form").
timeout - How long the client is willing to wait for a transactionally proper matching object. A timeout of 0 means to wait no time at all.
Returns:
A copy of the object read from the space.
Throws:
DataAccessException

readIfExists

@Deprecated
<T> T readIfExists(T template,
                              long timeout,
                              int modifiers)
               throws DataAccessException
Deprecated. since 9.0.1 - use readIfExists(Object, long, ReadModifiers) instead.

Throws:
DataAccessException

readIfExists

<T> T readIfExists(T template,
                   long timeout,
                   ReadModifiers modifiers)
               throws DataAccessException
Read any matching object from the space, returning null if there currently is none. Matching and timeouts are done as in read, except that blocking in this call is done only if necessary to wait for transactional state to settle.

Overloads read(Object,long) by adding a modifiers parameter. Equivalent when called with the default modifier - ReadModifiers.REPEATABLE_READ. Modifiers are used to define the behavior of a read operation.

Parameters:
template - The template used for matching. Matching is done against template with null fields being wildcards ("match anything") other fields being values ("match exactly on the serialized form").
timeout - How long the client is willing to wait for a transactionally proper matching object. A timeout of 0 means to wait no time at all.
modifiers - one or a union of ReadModifiers.
Returns:
A copy of the object read from the space.
Throws:
DataAccessException
Since:
9.0.1

readIfExists

<T> T readIfExists(ISpaceQuery<T> template)
               throws DataAccessException
Read any matching object from the space, returning null if there currently is none. Matching and timeouts are done as in read, except that blocking in this call is done only if necessary to wait for transactional state to settle.

Note, the timeout is the default timeout this interface is configured with (using its factory) and defaults to 0.

Parameters:
template - A query to be executed against the space. Most common one is SQLQuery.
Returns:
A copy of the object read from the space.
Throws:
DataAccessException

readIfExists

<T> T readIfExists(ISpaceQuery<T> template,
                   long timeout)
               throws DataAccessException
Read any matching object from the space, returning null if there currently is none. Matching and timeouts are done as in read, except that blocking in this call is done only if necessary to wait for transactional state to settle.

Parameters:
template - A query to be executed against the space. Most common one is SQLQuery.
timeout - How long the client is willing to wait for a transactionally proper matching object. A timeout of 0 means to wait no time at all.
Returns:
A copy of the object read from the space.
Throws:
DataAccessException

readIfExists

@Deprecated
<T> T readIfExists(ISpaceQuery<T> template,
                              long timeout,
                              int modifiers)
               throws DataAccessException
Deprecated. since 9.0.1 - use readIfExists(ISpaceQuery, long, ReadModifiers) instead.

Throws:
DataAccessException

readIfExists

<T> T readIfExists(ISpaceQuery<T> template,
                   long timeout,
                   ReadModifiers modifiers)
               throws DataAccessException
Read any matching object from the space, returning null if there currently is none. Matching and timeouts are done as in read, except that blocking in this call is done only if necessary to wait for transactional state to settle.

Overloads read(Object,long) by adding a modifiers parameter. Equivalent when called with the default modifier - ReadModifiers.REPEATABLE_READ. Modifiers are used to define the behavior of a read operation.

Parameters:
template - A query to be executed against the space. Most common one is SQLQuery.
timeout - How long the client is willing to wait for a transactionally proper matching object. A timeout of 0 means to wait no time at all.
modifiers - one or a union of ReadModifiers.
Returns:
A copy of the object read from the space.
Throws:
DataAccessException
Since:
9.0.1

readMultiple

<T> T[] readMultiple(T template)
                 throws DataAccessException
Read any matching entries from the space. Matching is done as in read without timeout (0). Returns an unbounded array of matches. Returns an empty array if no match was found. Same as calling readMultiple(template, Integer.MAX_VALUE).

Parameters:
template - The template used for matching. Matching is done against the template with null fields being. wildcards ("match anything") other fields being values ("match exactly on the serialized form"). The template can also be one of the different ISpaceQuery classes
Returns:
A copy of the entries read from the space.
Throws:
DataAccessException - In the event of a read error, DataAccessException will wrap a ReadMultipleException, accessible via DataAccessException.getRootCause().

readMultiple

<T> T[] readMultiple(T template,
                     int maxEntries)
                 throws DataAccessException
Read any matching entries from the space. Matching is done as in read without timeout (0). Returns an array with matches bound by maxEntries. Returns an empty array if no match was found.

Parameters:
template - The template used for matching. Matching is done against the template with null fields being. wildcards ("match anything") other fields being values ("match exactly on the serialized form"). The template can also be one of the different ISpaceQuery classes
maxEntries - A limit on the number of entries to be returned. Use Integer.MAX_VALUE for the uppermost limit.
Returns:
A copy of the entries read from the space.
Throws:
DataAccessException - In the event of a read error, DataAccessException will wrap a ReadMultipleException, accessible via DataAccessException.getRootCause().

readMultiple

@Deprecated
<T> T[] readMultiple(T template,
                                int maxEntries,
                                int modifiers)
                 throws DataAccessException
Deprecated. since 9.0.1 - use readMultiple(Object, int, ReadModifiers) instead.

Throws:
DataAccessException

readMultiple

<T> T[] readMultiple(T template,
                     int maxEntries,
                     ReadModifiers modifiers)
                 throws DataAccessException
Read any matching entries from the space. Matching is done as in read without timeout (0). Returns an array with matches bound by maxEntries. Returns an empty array if no match was found.

Overloads readMultiple(Object,int) by adding a modifiers parameter. Equivalent when called with the default modifier - ReadModifiers.REPEATABLE_READ. Modifiers are used to define the behavior of a read operation.

Parameters:
template - The template used for matching. Matching is done against the template with null fields being. wildcards ("match anything") other fields being values ("match exactly on the serialized form"). The template can also be one of the different ISpaceQuery classes
maxEntries - A limit on the number of entries to be returned. Use Integer.MAX_VALUE for the uppermost limit.
modifiers - one or a union of ReadModifiers.
Returns:
A copy of the entries read from the space.
Throws:
DataAccessException - In the event of a read error, DataAccessException will wrap a ReadMultipleException, accessible via DataAccessException.getRootCause().
Since:
9.0.1

readMultiple

<T> T[] readMultiple(ISpaceQuery<T> template)
                 throws DataAccessException
Read any matching entries from the space. Matching is done as in read without timeout (0). Returns an unbounded array of matches. Returns an empty array if no match was found.

Parameters:
template - A query to be executed against the space. Most common one is SQLQuery.
Returns:
A copy of the entries read from the space.
Throws:
DataAccessException - In the event of a read error, DataAccessException will wrap a ReadMultipleException, accessible via DataAccessException.getRootCause().

readMultiple

<T> T[] readMultiple(ISpaceQuery<T> template,
                     int maxEntries)
                 throws DataAccessException
Read any matching entries from the space. Matching is done as in read without timeout (0). Returns an array with matches bound by maxEntries. Returns an empty array if no match was found.

Parameters:
template - A query to be executed against the space. Most common one is SQLQuery.
maxEntries - A limit on the number of entries to be returned. Use Integer.MAX_VALUE for the uppermost limit.
Returns:
A copy of the entries read from the space.
Throws:
DataAccessException - In the event of a read error, DataAccessException will wrap a ReadMultipleException, accessible via DataAccessException.getRootCause().

readMultiple

@Deprecated
<T> T[] readMultiple(ISpaceQuery<T> template,
                                int maxEntries,
                                int modifiers)
                 throws DataAccessException
Deprecated. since 9.0.1 - use readMultiple(ISpaceQuery, int, ReadModifiers) instead.

Throws:
DataAccessException

readMultiple

<T> T[] readMultiple(ISpaceQuery<T> template,
                     int maxEntries,
                     ReadModifiers modifiers)
                 throws DataAccessException
Read any matching entries from the space. Matching is done as in read without timeout (0). Returns an array with matches bound by maxEntries. Returns an empty array if no match was found.

Overloads readMultiple(Object,int) by adding a modifiers parameter. Equivalent when called with the default modifier - ReadModifiers.REPEATABLE_READ. Modifiers are used to define the behavior of a read operation.

Parameters:
template - A query to be executed against the space. Most common one is SQLQuery.
maxEntries - A limit on the number of entries to be returned. Use Integer.MAX_VALUE for the uppermost limit.
modifiers - one or a union of ReadModifiers.
Returns:
A copy of the entries read from the space.
Throws:
DataAccessException - In the event of a read error, DataAccessException will wrap a ReadMultipleException, accessible via DataAccessException.getRootCause().
Since:
9.0.1

readByIds

<T> ReadByIdsResult<T> readByIds(Class<T> clazz,
                                 Object[] ids)
                             throws DataAccessException
Read objects from the space matching their IDs and the specified class.

Note, if the space is partitioned and the Class defines a specific property for its routing value (which means that the ID property is not used for routing), the operation will broadcast to all partitions. The readByIds(Class, Object[], Object) overload can be used to specify the routing explicitly.

Parameters:
clazz - The class.
ids - The object IDs array.
Returns:
a ReadByIdsResult containing the matched results.
Throws:
DataAccessException

readByIds

@Deprecated
<T> ReadByIdsResult<T> readByIds(Class<T> clazz,
                                            Object[] ids,
                                            int modifiers)
                             throws DataAccessException
Deprecated. since 9.0.1 - use readByIds(Class, Object[], Object, ReadModifiers) instead.

Throws:
DataAccessException

readByIds

<T> ReadByIdsResult<T> readByIds(Class<T> clazz,
                                 Object[] ids,
                                 Object routingKey)
                             throws DataAccessException
Read objects from the space matching their IDs, the specified class and routing key.

Note, if routing key is null and the cluster is partitioned, the operation will broadcast to all of the partitions.

Parameters:
clazz - The class.
ids - The object IDs array.
routingKey - The routing of the provided object IDs.
Returns:
a ReadByIdsResult containing the matched results.
Throws:
DataAccessException

readByIds

@Deprecated
<T> ReadByIdsResult<T> readByIds(Class<T> clazz,
                                            Object[] ids,
                                            Object routingKey,
                                            int modifiers)
                             throws DataAccessException
Deprecated. since 9.0.1 - use readByIds(Class, Object[], Object, ReadModifiers) instead.

Throws:
DataAccessException

readByIds

<T> ReadByIdsResult<T> readByIds(Class<T> clazz,
                                 Object[] ids,
                                 Object routingKey,
                                 ReadModifiers modifiers)
                             throws DataAccessException
Read objects from the space matching their IDs, the specified class type and routing key, with the provided ReadModifiers.

Note, if routing key is null and the cluster is partitioned, the operation will broadcast to all of the partitions.

ReadModifiers.FIFO is not supported by this operation - the results are always ordered in correlation with the input IDs array.

Parameters:
clazz - The class.
ids - The object IDs array.
routingKey - The routing of the provided object IDs.
modifiers - The read modifier to use (One or several of ReadModifiers).
Returns:
a ReadByIdsResult containing the matched results.
Throws:
DataAccessException
Since:
9.0.1

readByIds

<T> ReadByIdsResult<T> readByIds(Class<T> clazz,
                                 Object[] ids,
                                 Object[] routingKeys)
                             throws DataAccessException
Read objects from the space matching their IDs, the specified class and the routing keys.

Note, the IDs array and routing keys array are correlated and should be of the same size. The routing key of ID i in the IDs array is the element at position i in the routing keys array. If routingKeys is null and the cluster is partitioned, the operation will broadcast to all of the partitions.

Parameters:
clazz - The class.
ids - The object IDs array.
routingKeys - The object routing keys array.
Returns:
a ReadByIdsResult containing the matched results.
Throws:
DataAccessException

readByIds

@Deprecated
<T> ReadByIdsResult<T> readByIds(Class<T> clazz,
                                            Object[] ids,
                                            Object[] routingKeys,
                                            int modifiers)
                             throws DataAccessException
Deprecated. since 9.0.1 - use readByIds(Class, Object[], Object[], ReadModifiers) instead.

Throws:
DataAccessException

readByIds

<T> ReadByIdsResult<T> readByIds(Class<T> clazz,
                                 Object[] ids,
                                 Object[] routingKeys,
                                 ReadModifiers modifiers)
                             throws DataAccessException
Read objects from the space matching their IDs, the specified class and the routing keys, with the provided ReadModifiers.

Note, the IDs array and routing keys array are correlated and should be of the same size. The routing key of ID i in the IDs array is the element at position i in the routing keys array. If routingKeys is null and the cluster is partitioned, the operation will broadcast to all of the partitions.

ReadModifiers.FIFO is not supported by this operation - the results are always ordered in correlation with the input IDs array.

Parameters:
clazz - The class type.
ids - The objects\ IDs array.
routingKeys - The object routing keys array.
modifiers - The read modifier to use (One or several of ReadModifiers).
Returns:
a ReadByIdsResult containing the matched results.
Throws:
DataAccessException
Since:
9.0.1

readByIds

<T> ReadByIdsResult<T> readByIds(IdsQuery<T> query)
                             throws DataAccessException
Read objects from the space matching the specified IDs query.

Parameters:
query - Query to search by.
Returns:
a ReadByIdsResult containing the matched results.
Throws:
DataAccessException
Since:
8.0

readByIds

@Deprecated
<T> ReadByIdsResult<T> readByIds(IdsQuery<T> query,
                                            int modifiers)
                             throws DataAccessException
Deprecated. since 9.0.1 - use #readByIds(IdQuery, ReadModifiers) instead.

Throws:
DataAccessException

readByIds

<T> ReadByIdsResult<T> readByIds(IdsQuery<T> query,
                                 ReadModifiers modifiers)
                             throws DataAccessException
Read objects from the space matching the specified IDs query, with the provided ReadModifiers.

Parameters:
query - Query to search by.
modifiers - The read modifier to use (One or several of ReadModifiers).
Returns:
a ReadByIdsResult containing the matched results.
Throws:
DataAccessException
Since:
9.0.1

takeByIds

<T> TakeByIdsResult<T> takeByIds(Class<T> clazz,
                                 Object[] ids)
                             throws DataAccessException
Take (remove) objects from the space matching their IDs and the specified class.

Note, if the space is partitioned, or the Class defines a specific property for its routing value (which means that the ID property is not used for routing), the operation will broadcast to all partitions. The takeByIds(Class, Object[], Object) overload can be used to specify the routing explicitly.

Parameters:
clazz - The class.
ids - The object IDs array.
Returns:
a TakeByIdsResult containing the matched results.
Throws:
DataAccessException

takeByIds

@Deprecated
<T> TakeByIdsResult<T> takeByIds(Class<T> clazz,
                                            Object[] ids,
                                            int modifiers)
                             throws DataAccessException
Deprecated. since 9.0.1 - use takeByIds(Class, Object[], Object, TakeModifiers) instead.

Throws:
DataAccessException

takeByIds

<T> TakeByIdsResult<T> takeByIds(Class<T> clazz,
                                 Object[] ids,
                                 Object routingKey)
                             throws DataAccessException
Take (remove) objects from the space matching their IDs, the specified class and routing key.

Note, if routing key is null and the cluster is partitioned, the operation will broadcast to all of the partitions.

Parameters:
clazz - The class.
ids - The object IDs array.
routingKey - The routing of the provided object IDs.
Returns:
a TakeByIdsResult containing the matched results.
Throws:
DataAccessException

takeByIds

@Deprecated
<T> TakeByIdsResult<T> takeByIds(Class<T> clazz,
                                            Object[] ids,
                                            Object routingKey,
                                            int modifiers)
                             throws DataAccessException
Deprecated. since 9.0.1 - use takeByIds(Class, Object[], Object, TakeModifiers) instead.

Throws:
DataAccessException

takeByIds

<T> TakeByIdsResult<T> takeByIds(Class<T> clazz,
                                 Object[] ids,
                                 Object routingKey,
                                 TakeModifiers modifiers)
                             throws DataAccessException
Take (remove) objects from the space matching their IDs, the specified class type and routing key, with the provided ReadModifiers.

Note, if routing key is null and the cluster is partitioned, the operation will broadcast to all of the partitions.

ReadModifiers.FIFO is not supported by this operation - the results are always ordered in correlation with the input IDs array.

Parameters:
clazz - The class.
ids - The object IDs array.
routingKey - The routing of the provided object IDs.
modifiers - The read modifier to use (One or several of ReadModifiers).
Returns:
a TakeByIdsResult containing the matched results.
Throws:
DataAccessException

takeByIds

<T> TakeByIdsResult<T> takeByIds(Class<T> clazz,
                                 Object[] ids,
                                 Object[] routingKeys)
                             throws DataAccessException
Take (remove) objects from the space matching their IDs, the specified class and the routing keys.

Note, the IDs array and routing keys array are correlated and should be of the same size. The routing key of ID i in the IDs array is the element at position i in the routing keys array. If routingKeys is null and the cluster is partitioned, the operation will broadcast to all of the partitions.

Parameters:
clazz - The class.
ids - The object IDs array.
routingKeys - The object routing keys array.
Returns:
a TakeByIdsResult containing the matched results.
Throws:
DataAccessException

takeByIds

@Deprecated
<T> TakeByIdsResult<T> takeByIds(Class<T> clazz,
                                            Object[] ids,
                                            Object[] routingKeys,
                                            int modifiers)
                             throws DataAccessException
Deprecated. since 9.0.1 - use takeByIds(Class, Object[], Object[], TakeModifiers) instead.

Throws:
DataAccessException

takeByIds

<T> TakeByIdsResult<T> takeByIds(Class<T> clazz,
                                 Object[] ids,
                                 Object[] routingKeys,
                                 TakeModifiers modifiers)
                             throws DataAccessException
Take (remove) objects from the space matching their IDs, the specified class and the routing keys, with the provided ReadModifiers.

Note, the IDs array and routing keys array are correlated and should be of the same size. The routing key of ID i in the IDs array is the element at position i in the routing keys array. If routingKeys is null and the cluster is partitioned, the operation will broadcast to all of the partitions.

ReadModifiers.FIFO is not supported by this operation - the results are always ordered in correlation with the input IDs array.

Parameters:
clazz - The class type.
ids - The objects\ IDs array.
routingKeys - The object routing keys array.
modifiers - The read modifier to use (One or several of ReadModifiers).
Returns:
a TakeByIdsResult containing the matched results.
Throws:
DataAccessException
Since:
9.0.1

takeByIds

<T> TakeByIdsResult<T> takeByIds(IdsQuery<T> query)
                             throws DataAccessException
Take (remove) objects from the space matching the specified IDs query.

Parameters:
query - Query to search by.
Returns:
a ReadByIdsResult containing the matched results.
Throws:
DataAccessException
Since:
8.0

takeByIds

@Deprecated
<T> TakeByIdsResult<T> takeByIds(IdsQuery<T> query,
                                            int modifiers)
                             throws DataAccessException
Deprecated. since 9.0.1 - use #takeByIds(IdQuery, TakeModifiers) instead.

Throws:
DataAccessException

takeByIds

<T> TakeByIdsResult<T> takeByIds(IdsQuery<T> query,
                                 TakeModifiers modifiers)
                             throws DataAccessException
Take (remove) objects from the space matching the specified IDs query, with the provided ReadModifiers.

Parameters:
query - Query to search by.
modifiers - The read modifier to use (One or several of ReadModifiers).
Returns:
a ReadByIdsResult containing the matched results.
Throws:
DataAccessException
Since:
9.0.1

takeById

<T> T takeById(Class<T> clazz,
               Object id)
           throws DataAccessException
Take (remove) an object from the space matching its id and the class. Returns null if there is no match.

The timeout is the default timeout this interface is configured with (using its factory) and defaults to 0.

Note, if the space is partitioned, and the Entry has a specific property for its routing value, the operation will broadcast to all partitions. The takeById(Class, Object, Object) can be used to specify the routing.

Parameters:
clazz - The class of the entry
id - The id of the entry
Returns:
A matching object, or null if no matching is found within the timeout value.
Throws:
DataAccessException

takeById

<T> T takeById(Class<T> clazz,
               Object id,
               Object routing)
           throws DataAccessException
Take (remove) an object from the space matching its id, the class and the routing value. Returns null if there is no match.

The timeout is the default timeout this interface is configured with (using its factory) and defaults to 0.

Parameters:
clazz - The class of the entry
id - The id of the entry
routing - The routing value
Returns:
A matching object, or null if no matching is found within the timeout value.
Throws:
DataAccessException

takeById

<T> T takeById(Class<T> clazz,
               Object id,
               Object routing,
               long timeout)
           throws DataAccessException
Take (remove) an object from the space matching its id, the class and the routing value. Returns null if there is no match within the specified timeout.

Parameters:
clazz - The class of the entry
id - The id of the entry
routing - The routing value
timeout - The timeout value to wait for a matching entry if it does not exists within the space
Returns:
A matching object, or null if no matching is found within the timeout value.
Throws:
DataAccessException

takeById

@Deprecated
<T> T takeById(Class<T> clazz,
                          Object id,
                          Object routing,
                          long timeout,
                          int modifiers)
           throws DataAccessException
Deprecated. since 9.0.1 - use takeById(Class, Object, Object, long, TakeModifiers) instead.

Throws:
DataAccessException

takeById

<T> T takeById(Class<T> clazz,
               Object id,
               Object routing,
               long timeout,
               TakeModifiers modifiers)
           throws DataAccessException
Take (remove) an object from the space matching its id, the class and the routing value. Returns null if there is no match within the specified timeout.

Parameters:
clazz - The class of the entry
id - The id of the entry
routing - The routing value
timeout - The timeout value to wait for a matching entry if it does not exists within the space
modifiers - one or a union of TakeModifiers.
Returns:
A matching object, or null if no matching is found within the timeout value.
Throws:
DataAccessException
Since:
9.0.1

takeById

<T> T takeById(IdQuery<T> query)
           throws DataAccessException
Take (remove) an object from the space matching the specified id query. Returns null if there is no match.

The timeout is the default timeout this interface is configured with (using its factory) and defaults to 0.

Note, if the space is partitioned, and the Entry has a specific property for its routing value, the operation will broadcast to all partitions. The readById(Class, Object, Object) can be used to specify the routing.

Parameters:
query - Query to search by.
Returns:
A matching object, or null if no matching is found within the timeout value.
Throws:
DataAccessException
Since:
8.0

takeById

<T> T takeById(IdQuery<T> query,
               long timeout)
           throws DataAccessException
Take (remove) an object from the space matching the specified id query. Returns null if there is no match within the specified timeout.

Parameters:
query - Query to search by.
timeout - The timeout value to wait for a matching entry if it does not exists within the space
Returns:
A matching object, or null if no matching is found within the timeout value.
Throws:
DataAccessException
Since:
8.0

takeById

@Deprecated
<T> T takeById(IdQuery<T> query,
                          long timeout,
                          int modifiers)
           throws DataAccessException
Deprecated. since 9.0.1 - use takeById(IdQuery, long, TakeModifiers) instead.

Throws:
DataAccessException

takeById

<T> T takeById(IdQuery<T> query,
               long timeout,
               TakeModifiers modifiers)
           throws DataAccessException
Take (remove) an object from the space matching the specified id query. Returns null if there is no match within the specified timeout.

Parameters:
query - Query to search by.
timeout - The timeout value to wait for a matching entry if it does not exists within the space
modifiers - one or a union of TakeModifiers.
Returns:
A matching object, or null if no matching is found within the timeout value.
Throws:
DataAccessException
Since:
9.0.1

take

<T> T take(T template)
       throws DataAccessException
Take (remove) any matching entry from the space, blocking until one exists. Return null if the timeout expires.

Note, the timeout is the default timeout this interface is configured with (using its factory) and defaults to 0.

Parameters:
template - The template used for matching. Matching is done against the template with null fields being wildcards ( "match anything") other fields being values ("match exactly on the serialized form").
Returns:
A removed entry from the space
Throws:
DataAccessException

take

<T> T take(T template,
           long timeout)
       throws DataAccessException
Take (remove) any matching entry from the space, blocking until one exists. Return null if the timeout expires.

Parameters:
template - The template used for matching. Matching is done against the template with null fields being wildcards ( "match anything") other fields being values ("match exactly on the serialized form").
timeout - How long the client is willing to wait for a transactionally proper matching entry. A timeout of 0 means to wait no time at all.
Returns:
A removed entry from the space
Throws:
DataAccessException

take

@Deprecated
<T> T take(T template,
                      long timeout,
                      int modifiers)
       throws DataAccessException
Deprecated. since 9.0.1 - use take(Object, long, TakeModifiers) instead.

Throws:
DataAccessException

take

<T> T take(T template,
           long timeout,
           TakeModifiers modifiers)
       throws DataAccessException
Take (remove) any matching entry from the space, blocking until one exists. Return null if the timeout expires.

Parameters:
template - The template used for matching. Matching is done against the template with null fields being wildcards ( "match anything") other fields being values ("match exactly on the serialized form").
timeout - How long the client is willing to wait for a transactionally proper matching entry. A timeout of 0 means to wait no time at all.
modifiers - one or a union of TakeModifiers.
Returns:
A removed entry from the space
Throws:
DataAccessException
Since:
9.0.1

take

<T> T take(ISpaceQuery<T> template)
       throws DataAccessException
Take (remove) any matching entry from the space, blocking until one exists. Return null if the timeout expires.

Note, the timeout is the default timeout this interface is configured with (using its factory) and defaults to 0.

Parameters:
template - A query to be executed against the space. Most common one is SQLQuery.
Returns:
A removed entry from the space
Throws:
DataAccessException

take

<T> T take(ISpaceQuery<T> template,
           long timeout)
       throws DataAccessException
Take (remove) any matching entry from the space, blocking until one exists. Return null if the timeout expires.

Parameters:
template - A query to be executed against the space. Most common one is SQLQuery.
timeout - How long the client is willing to wait for a transactionally proper matching entry. A timeout of 0 means to wait no time at all.
Returns:
A removed entry from the space
Throws:
DataAccessException

take

@Deprecated
<T> T take(ISpaceQuery<T> template,
                      long timeout,
                      int modifiers)
       throws DataAccessException
Deprecated. since 9.0.1 - use take(ISpaceQuery, long, TakeModifiers) instead.

Throws:
DataAccessException

take

<T> T take(ISpaceQuery<T> template,
           long timeout,
           TakeModifiers modifiers)
       throws DataAccessException
Take (remove) any matching entry from the space, blocking until one exists. Return null if the timeout expires.

Parameters:
template - A query to be executed against the space. Most common one is SQLQuery.
timeout - How long the client is willing to wait for a transactionally proper matching entry. A timeout of 0 means to wait no time at all.
modifiers - one or a union of TakeModifiers.
Returns:
A removed entry from the space
Throws:
DataAccessException
Since:
9.0.1

asyncTake

<T> AsyncFuture<T> asyncTake(T template)
                         throws DataAccessException
Take (remove) any matching entry from the space in an asynchronous manner. Returns immediately with a future. The future can then be used to check if there is a match or not. Once a match is found or the timeout expires, the future will return a result (null in case there was no match).

Note, the timeout is the default timeout this interface is configured with (using its factory) and defaults to 0.

Parameters:
template - The template used for matching. Matching is done against the template with null fields being wildcards ( "match anything") other fields being values ("match exactly on the serialized form").
Returns:
A removed entry from the space
Throws:
DataAccessException

asyncTake

<T> AsyncFuture<T> asyncTake(T template,
                             AsyncFutureListener<T> listener)
                         throws DataAccessException
Take (remove) any matching entry from the space in an asynchronous manner. Returns immediately with a future. The future can then be used to check if there is a match or not. Once a match is found or the timeout expires, the future will return a result (null in case there was no match).

Note, the timeout is the default timeout this interface is configured with (using its factory) and defaults to 0.

Parameters:
template - The template used for matching. Matching is done against the template with null fields being wildcards ( "match anything") other fields being values ("match exactly on the serialized form").
listener - A listener to be notified when a result arrives
Returns:
A removed entry from the space
Throws:
DataAccessException

asyncTake

<T> AsyncFuture<T> asyncTake(T template,
                             long timeout)
                         throws DataAccessException
Take (remove) any matching entry from the space in an asynchronous manner. Returns immediately with a future. The future can then be used to check if there is a match or not. Once a match is found or the timeout expires, the future will return a result (null in case there was no match).

Parameters:
template - The template used for matching. Matching is done against the template with null fields being wildcards ( "match anything") other fields being values ("match exactly on the serialized form").
timeout - How long the client is willing to wait for a transactionally proper matching entry. A timeout of 0 means to wait no time at all.
Returns:
A removed entry from the space
Throws:
DataAccessException

asyncTake

<T> AsyncFuture<T> asyncTake(T template,
                             long timeout,
                             AsyncFutureListener<T> listener)
                         throws DataAccessException
Take (remove) any matching entry from the space in an asynchronous manner. Returns immediately with a future. The future can then be used to check if there is a match or not. Once a match is found or the timeout expires, the future will return a result (null in case there was no match).

Parameters:
template - The template used for matching. Matching is done against the template with null fields being wildcards ( "match anything") other fields being values ("match exactly on the serialized form").
timeout - How long the client is willing to wait for a transactionally proper matching entry. A timeout of 0 means to wait no time at all.
listener - A listener to be notified when a result arrives
Returns:
A removed entry from the space
Throws:
DataAccessException

asyncTake

@Deprecated
<T> AsyncFuture<T> asyncTake(T template,
                                        long timeout,
                                        int modifiers)
                         throws DataAccessException
Deprecated. since 9.0.1 - use asyncTake(Object, long, TakeModifiers) instead.

Throws:
DataAccessException

asyncTake

<T> AsyncFuture<T> asyncTake(T template,
                             long timeout,
                             TakeModifiers modifiers)
                         throws DataAccessException
Take (remove) any matching entry from the space in an asynchronous manner. Returns immediately with a future. The future can then be used to check if there is a match or not. Once a match is found or the timeout expires, the future will return a result (null in case there was no match).

Parameters:
template - The template used for matching. Matching is done against the template with null fields being wildcards ( "match anything") other fields being values ("match exactly on the serialized form").
timeout - How long the client is willing to wait for a transactionally proper matching entry. A timeout of 0 means to wait no time at all.
modifiers - one or a union of TakeModifiers.
Returns:
A removed entry from the space
Throws:
DataAccessException
Since:
9.0.1

asyncTake

@Deprecated
<T> AsyncFuture<T> asyncTake(T template,
                                        long timeout,
                                        int modifiers,
                                        AsyncFutureListener<T> listener)
                         throws DataAccessException
Deprecated. since 9.0.1 - use asyncTake(Object, long, TakeModifiers, AsyncFutureListener) instead.

Throws:
DataAccessException

asyncTake

<T> AsyncFuture<T> asyncTake(T template,
                             long timeout,
                             TakeModifiers modifiers,
                             AsyncFutureListener<T> listener)
                         throws DataAccessException
Take (remove) any matching entry from the space in an asynchronous manner. Returns immediately with a future. The future can then be used to check if there is a match or not. Once a match is found or the timeout expires, the future will return a result (null in case there was no match).

Parameters:
template - The template used for matching. Matching is done against the template with null fields being wildcards ( "match anything") other fields being values ("match exactly on the serialized form").
timeout - How long the client is willing to wait for a transactionally proper matching entry. A timeout of 0 means to wait no time at all.
modifiers - one or a union of TakeModifiers.
listener - A listener to be notified when a result arrives
Returns:
A removed entry from the space
Throws:
DataAccessException
Since:
9.0.1

asyncTake

<T> AsyncFuture<T> asyncTake(ISpaceQuery<T> template)
                         throws DataAccessException
Take (remove) any matching entry from the space in an asynchronous manner. Returns immediately with a future. The future can then be used to check if there is a match or not. Once a match is found or the timeout expires, the future will return a result (null in case there was no match).

Note, the timeout is the default timeout this interface is configured with (using its factory) and defaults to 0.

Parameters:
template - A query to be executed against the space. Most common one is SQLQuery.
Returns:
A removed entry from the space
Throws:
DataAccessException

asyncTake

<T> AsyncFuture<T> asyncTake(ISpaceQuery<T> template,
                             AsyncFutureListener<T> listener)
                         throws DataAccessException
Take (remove) any matching entry from the space in an asynchronous manner. Returns immediately with a future. The future can then be used to check if there is a match or not. Once a match is found or the timeout expires, the future will return a result (null in case there was no match).

Note, the timeout is the default timeout this interface is configured with (using its factory) and defaults to 0.

Parameters:
template - A query to be executed against the space. Most common one is SQLQuery.
listener - A listener to be notified when a result arrives.
Returns:
A removed entry from the space
Throws:
DataAccessException

asyncTake

<T> AsyncFuture<T> asyncTake(ISpaceQuery<T> template,
                             long timeout)
                         throws DataAccessException
Take (remove) any matching entry from the space in an asynchronous manner. Returns immediately with a future. The future can then be used to check if there is a match or not. Once a match is found or the timeout expires, the future will return a result (null in case there was no match).

Parameters:
template - A query to be executed against the space. Most common one is SQLQuery.
timeout - How long the client is willing to wait for a transactionally proper matching entry. A timeout of 0 means to wait no time at all.
Returns:
A removed entry from the space
Throws:
DataAccessException

asyncTake

<T> AsyncFuture<T> asyncTake(ISpaceQuery<T> template,
                             long timeout,
                             AsyncFutureListener<T> listener)
                         throws DataAccessException
Take (remove) any matching entry from the space in an asynchronous manner. Returns immediately with a future. The future can then be used to check if there is a match or not. Once a match is found or the timeout expires, the future will return a result (null in case there was no match).

Parameters:
template - A query to be executed against the space. Most common one is SQLQuery.
timeout - How long the client is willing to wait for a transactionally proper matching entry. A timeout of 0 means to wait no time at all.
listener - A listener to be notified when a result arrives.
Returns:
A removed entry from the space
Throws:
DataAccessException

asyncTake

@Deprecated
<T> AsyncFuture<T> asyncTake(ISpaceQuery<T> template,
                                        long timeout,
                                        int modifiers)
                         throws DataAccessException
Deprecated. since 9.0.1 - use asyncTake(ISpaceQuery, long, TakeModifiers) instead.

Throws:
DataAccessException

asyncTake

<T> AsyncFuture<T> asyncTake(ISpaceQuery<T> template,
                             long timeout,
                             TakeModifiers modifiers)
                         throws DataAccessException
Take (remove) any matching entry from the space in an asynchronous manner. Returns immediately with a future. The future can then be used to check if there is a match or not. Once a match is found or the timeout expires, the future will return a result (null in case there was no match).

Parameters:
template - A query to be executed against the space. Most common one is SQLQuery.
timeout - How long the client is willing to wait for a transactionally proper matching entry. A timeout of 0 means to wait no time at all.
modifiers - one or a union of TakeModifiers.
Returns:
A removed entry from the space
Throws:
DataAccessException
Since:
9.0.1

asyncTake

@Deprecated
<T> AsyncFuture<T> asyncTake(ISpaceQuery<T> template,
                                        long timeout,
                                        int modifiers,
                                        AsyncFutureListener<T> listener)
                         throws DataAccessException
Deprecated. since 9.0.1 - use asyncTake(ISpaceQuery, long, TakeModifiers, AsyncFutureListener) instead.

Throws:
DataAccessException

asyncTake

<T> AsyncFuture<T> asyncTake(ISpaceQuery<T> template,
                             long timeout,
                             TakeModifiers modifiers,
                             AsyncFutureListener<T> listener)
                         throws DataAccessException
Take (remove) any matching entry from the space in an asynchronous manner. Returns immediately with a future. The future can then be used to check if there is a match or not. Once a match is found or the timeout expires, the future will return a result (null in case there was no match).

Parameters:
template - A query to be executed against the space. Most common one is SQLQuery.
timeout - How long the client is willing to wait for a transactionally proper matching entry. A timeout of 0 means to wait no time at all.
modifiers - one or a union of TakeModifiers.
listener - A listener to be notified when a result arrives.
Returns:
A removed entry from the space
Throws:
DataAccessException
Since:
9.0.1

takeIfExistsById

<T> T takeIfExistsById(Class<T> clazz,
                       Object id)
                   throws DataAccessException
Take (remove) an object from the space matching its id and the class. Returns null if there is no match.

Matching and timeouts are done as in takeById, except that blocking in this call is done only if necessary to wait for transactional state to settle.

The timeout is the default timeout this interface is configured with (using its factory) and defaults to 0.

Note, if the space is partitioned, and the Entry has a specific property for its routing value, the operation will broadcast to all partitions. The takeById(Class, Object, Object) can be used to specify the routing.

Parameters:
clazz - The class of the entry
id - The id of the entry
Returns:
A matching object, or null if no matching is found within the timeout value.
Throws:
DataAccessException

takeIfExistsById

<T> T takeIfExistsById(Class<T> clazz,
                       Object id,
                       Object routing)
                   throws DataAccessException
Take (remove) an object from the space matching its id, the class and the routing value. Returns null if there is no match.

Matching and timeouts are done as in takeById, except that blocking in this call is done only if necessary to wait for transactional state to settle.

The timeout is the default timeout this interface is configured with (using its factory) and defaults to 0.

Parameters:
clazz - The class of the entry
id - The id of the entry
routing - The routing value
Returns:
A matching object, or null if no matching is found within the timeout value.
Throws:
DataAccessException

takeIfExistsById

<T> T takeIfExistsById(Class<T> clazz,
                       Object id,
                       Object routing,
                       long timeout)
                   throws DataAccessException
Take (remove) an object from the space matching its id, the class and the routing value. Returns null if there is no match within the specified timeout.

Matching and timeouts are done as in takeById, except that blocking in this call is done only if necessary to wait for transactional state to settle.

Parameters:
clazz - The class of the entry
id - The id of the entry
routing - The routing value
timeout - The timeout value to wait for a matching entry if it does not exists within the space
Returns:
A matching object, or null if no matching is found within the timeout value.
Throws:
DataAccessException

takeIfExistsById

@Deprecated
<T> T takeIfExistsById(Class<T> clazz,
                                  Object id,
                                  Object routing,
                                  long timeout,
                                  int modifiers)
                   throws DataAccessException
Deprecated. since 9.0.1 - use takeIfExistsById(Class, Object, Object, long, TakeModifiers) instead.

Throws:
DataAccessException

takeIfExistsById

<T> T takeIfExistsById(Class<T> clazz,
                       Object id,
                       Object routing,
                       long timeout,
                       TakeModifiers modifiers)
                   throws DataAccessException
Take (remove) an object from the space matching its id, the class and the routing value. Returns null if there is no match within the specified timeout.

Matching and timeouts are done as in takeById, except that blocking in this call is done only if necessary to wait for transactional state to settle.

Parameters:
clazz - The class of the entry
id - The id of the entry
routing - The routing value
timeout - The timeout value to wait for a matching entry if it does not exists within the space
modifiers - one or a union of TakeModifiers.
Returns:
A matching object, or null if no matching is found within the timeout value.
Throws:
DataAccessException
Since:
9.0.1

takeIfExistsById

<T> T takeIfExistsById(IdQuery<T> query)
                   throws DataAccessException
Take (remove) an object from the space matching the specified id query. Returns null if there is no match.

The timeout is the default timeout this interface is configured with (using its factory) and defaults to 0.

Note, if the space is partitioned, and the Entry has a specific property for its routing value, the operation will broadcast to all partitions. The readById(Class, Object, Object) can be used to specify the routing.

Matching and timeouts are done as in readById, except that blocking in this call is done only if necessary to wait for transactional state to settle.

Parameters:
query - Query to search by.
Returns:
A matching object, or null if no matching is found within the timeout value.
Throws:
DataAccessException
Since:
8.0

takeIfExistsById

<T> T takeIfExistsById(IdQuery<T> query,
                       long timeout)
                   throws DataAccessException
Take (remove) an object from the space matching the specified id query. Returns null if there is no match within the specified timeout.

Matching and timeouts are done as in readById, except that blocking in this call is done only if necessary to wait for transactional state to settle.

Parameters:
query - Query to search by.
timeout - The timeout value to wait for a matching entry if it does not exists within the space
Returns:
A matching object, or null if no matching is found within the timeout value.
Throws:
DataAccessException
Since:
8.0

takeIfExistsById

@Deprecated
<T> T takeIfExistsById(IdQuery<T> query,
                                  long timeout,
                                  int modifiers)
                   throws DataAccessException
Deprecated. since 9.0.1 - use takeIfExistsById(IdQuery, long, TakeModifiers) instead.

Throws:
DataAccessException

takeIfExistsById

<T> T takeIfExistsById(IdQuery<T> query,
                       long timeout,
                       TakeModifiers modifiers)
                   throws DataAccessException
Take (remove) an object from the space matching the specified id query. Returns null if there is no match within the specified timeout.

Matching and timeouts are done as in readById, except that blocking in this call is done only if necessary to wait for transactional state to settle.

Parameters:
query - Query to search by.
timeout - The timeout value to wait for a matching entry if it does not exists within the space
modifiers - one or a union of TakeModifiers.
Returns:
A matching object, or null if no matching is found within the timeout value.
Throws:
DataAccessException
Since:
9.0.1

takeIfExists

<T> T takeIfExists(T template)
               throws DataAccessException
Take (remove) any matching entry from the space, returning null if there currently is none. Matching and timeouts are done as in take, except that blocking in this call is done only if necessary to wait for transactional state to settle.

Note, the timeout is the default timeout this interface is configured with (using its factory) and defaults to 0.

Parameters:
template - The template used for matching. Matching is done against the template with null fields being wildcards ( "match anything") other fields being values ("match exactly on the serialized form").
Returns:
A removed entry from the space
Throws:
DataAccessException

takeIfExists

<T> T takeIfExists(T template,
                   long timeout)
               throws DataAccessException
Take (remove) any matching entry from the space, returning null if there currently is none. Matching and timeouts are done as in take, except that blocking in this call is done only if necessary to wait for transactional state to settle.

Parameters:
template - The template used for matching. Matching is done against the template with null fields being wildcards ( "match anything") other fields being values ("match exactly on the serialized form").
timeout - How long the client is willing to wait for a transactionally proper matching entry. A timeout of 0 means to wait no time at all.
Returns:
A removed entry from the space
Throws:
DataAccessException

takeIfExists

@Deprecated
<T> T takeIfExists(T template,
                              long timeout,
                              int modifiers)
               throws DataAccessException
Deprecated. since 9.0.1 - use takeIfExists(Object, long, TakeModifiers) instead.

Throws:
DataAccessException

takeIfExists

<T> T takeIfExists(T template,
                   long timeout,
                   TakeModifiers modifiers)
               throws DataAccessException
Take (remove) any matching entry from the space, returning null if there currently is none. Matching and timeouts are done as in take, except that blocking in this call is done only if necessary to wait for transactional state to settle.

Parameters:
template - The template used for matching. Matching is done against the template with null fields being wildcards ( "match anything") other fields being values ("match exactly on the serialized form").
timeout - How long the client is willing to wait for a transactionally proper matching entry. A timeout of 0 means to wait no time at all.
modifiers - one or a union of TakeModifiers.
Returns:
A removed entry from the space
Throws:
DataAccessException
Since:
9.0.1

takeIfExists

<T> T takeIfExists(ISpaceQuery<T> template)
               throws DataAccessException
Take (remove) any matching entry from the space, returning null if there currently is none. Matching and timeouts are done as in take, except that blocking in this call is done only if necessary to wait for transactional state to settle.

Note, the timeout is the default timeout this interface is configured with (using its factory) and defaults to 0.

Parameters:
template - A query to be executed against the space. Most common one is SQLQuery.
Returns:
A removed entry from the space
Throws:
DataAccessException

takeIfExists

<T> T takeIfExists(ISpaceQuery<T> template,
                   long timeout)
               throws DataAccessException
Take (remove) any matching entry from the space, returning null if there currently is none. Matching and timeouts are done as in take, except that blocking in this call is done only if necessary to wait for transactional state to settle.

Parameters:
template - A query to be executed against the space. Most common one is SQLQuery.
timeout - How long the client is willing to wait for a transactionally proper matching entry. A timeout of 0 means to wait no time at all.
Returns:
A removed entry from the space
Throws:
DataAccessException

takeIfExists

@Deprecated
<T> T takeIfExists(ISpaceQuery<T> template,
                              long timeout,
                              int modifiers)
               throws DataAccessException
Deprecated. since 9.0.1 - use takeIfExists(ISpaceQuery, long, TakeModifiers) instead.

Throws:
DataAccessException

takeIfExists

<T> T takeIfExists(ISpaceQuery<T> template,
                   long timeout,
                   TakeModifiers modifiers)
               throws DataAccessException
Take (remove) any matching entry from the space, returning null if there currently is none. Matching and timeouts are done as in take, except that blocking in this call is done only if necessary to wait for transactional state to settle.

Parameters:
template - A query to be executed against the space. Most common one is SQLQuery.
timeout - How long the client is willing to wait for a transactionally proper matching entry. A timeout of 0 means to wait no time at all.
modifiers - one or a union of TakeModifiers.
Returns:
A removed entry from the space
Throws:
DataAccessException
Since:
9.0.1

takeMultiple

<T> T[] takeMultiple(T template)
                 throws DataAccessException
Takes (removes) all the entries matching the specified template from this space. Same as calling takeMultiple(template, Integer.MAX_VALUE).

Parameters:
template - The template used for matching. Matching is done against the template with null fields being. wildcards ("match anything") other fields being values ("match exactly on the serialized form"). The template can also be one of the different ISpaceQuery classes
Returns:
Removed matched entries from the space
Throws:
DataAccessException - In the event of a take error, DataAccessException will wrap a TakeMultipleException, accessible via DataAccessException.getRootCause().

takeMultiple

<T> T[] takeMultiple(T template,
                     int maxEntries)
                 throws DataAccessException
Takes (removes) all the entries matching the specified template from this space.

Parameters:
template - The template used for matching. Matching is done against the template with null fields being. wildcards ("match anything") other fields being values ("match exactly on the serialized form"). The template can also be one of the different ISpaceQuery classes
maxEntries - A limit on the number of entries to be returned. Use Integer.MAX_VALUE for the uppermost limit.
Returns:
Removed matched entries from the space
Throws:
DataAccessException - In the event of a take error, DataAccessException will wrap a TakeMultipleException, accessible via DataAccessException.getRootCause().

takeMultiple

@Deprecated
<T> T[] takeMultiple(T template,
                                int maxEntries,
                                int modifiers)
                 throws DataAccessException
Deprecated. since 9.0.1 - use takeMultiple(Object, int, TakeModifiers) instead.

Throws:
DataAccessException

takeMultiple

<T> T[] takeMultiple(T template,
                     int maxEntries,
                     TakeModifiers modifiers)
                 throws DataAccessException
Takes (removes) all the entries matching the specified template from this space.

Parameters:
template - The template used for matching. Matching is done against the template with null fields being. wildcards ("match anything") other fields being values ("match exactly on the serialized form"). The template can also be one of the different ISpaceQuery classes
maxEntries - A limit on the number of entries to be returned. Use Integer.MAX_VALUE for the uppermost limit.
modifiers - one or a union of TakeModifiers.
Returns:
Removed matched entries from the space
Throws:
DataAccessException - In the event of a take error, DataAccessException will wrap a TakeMultipleException, accessible via DataAccessException.getRootCause().
Since:
9.0.1

takeMultiple

<T> T[] takeMultiple(ISpaceQuery<T> template)
                 throws DataAccessException
Takes (removes) all the entries matching the specified template from this space.

Parameters:
template - A query to be executed against the space. Most common one is SQLQuery.
Returns:
Removed matched entries from the space
Throws:
DataAccessException - In the event of a take error, DataAccessException will wrap a TakeMultipleException, accessible via DataAccessException.getRootCause().

takeMultiple

<T> T[] takeMultiple(ISpaceQuery<T> template,
                     int maxEntries)
                 throws DataAccessException
Takes (removes) all the entries matching the specified template from this space.

Parameters:
template - A query to be executed against the space. Most common one is SQLQuery.
maxEntries - A limit on the number of entries to be returned. Use Integer.MAX_VALUE for the uppermost limit.
Returns:
Removed matched entries from the space
Throws:
DataAccessException - In the event of a take error, DataAccessException will wrap a TakeMultipleException, accessible via DataAccessException.getRootCause().

takeMultiple

@Deprecated
<T> T[] takeMultiple(ISpaceQuery<T> template,
                                int maxEntries,
                                int modifiers)
                 throws DataAccessException
Deprecated. since 9.0.1 - use takeMultiple(ISpaceQuery, int, TakeModifiers) instead.

Throws:
DataAccessException

takeMultiple

<T> T[] takeMultiple(ISpaceQuery<T> template,
                     int maxEntries,
                     TakeModifiers modifiers)
                 throws DataAccessException
Takes (removes) all the entries matching the specified template from this space.

Parameters:
template - A query to be executed against the space. Most common one is SQLQuery.
maxEntries - A limit on the number of entries to be returned. Use Integer.MAX_VALUE for the uppermost limit.
modifiers - one or a union of TakeModifiers.
Returns:
Removed matched entries from the space
Throws:
DataAccessException - In the event of a take error, DataAccessException will wrap a TakeMultipleException, accessible via DataAccessException.getRootCause().
Since:
9.0.1

write

<T> LeaseContext<T> write(T entry)
                      throws DataAccessException
Writes a new object to the space, returning its LeaseContext.

By default uses the WriteModifiers.UPDATE_OR_WRITE modifier (see write(Object,long,long,int). In order to force the operation to perform "write" only (a bit more performant), the WriteModifiers.WRITE_ONLY modifier can be used resulting in an EntryAlreadyInSpaceException if the entry already exists in the space (it must have an id for this exception to be raised).

If the object has a primary key that isn't auto - generated, and the modifiers value is one of WriteModifiers.UPDATE_OR_WRITE, WriteModifiers.UPDATE_ONLY or WriteModifiers.PARTIAL_UPDATE, it will call to the update method, returning a LeaseContext holder. This lease is unknown to the grantor, unless an actual 'write' was performed.

The entry will be written using the default lease this interface is configured with (using the its factory). In order to explicitly define the lease, please use write(Object,long).

Parameters:
entry - The entry to write to the space
Returns:
A usable Lease on a successful write, or null if performed with the proxy configured with NoWriteLease flag.

when WriteModifiers.UPDATE_OR_WRITE modifier is applied, LeaseContext.getObject() returns null on a successful write or the previous value - on successful update (Only if WriteModifiers.RETURN_PREV_ON_UPDATE is used, otherwise null). UpdateOperationTimeoutException is thrown if timeout occurred while trying to update the object.

Throws:
DataAccessException

write

<T> LeaseContext<T> write(T entry,
                          long lease)
                      throws DataAccessException
Writes a new object to the space, returning its LeaseContext.

By default uses the WriteModifiers.UPDATE_OR_WRITE modifier (see write(Object,long,long,int). In order to force the operation to perform "write" only (a bit more performant), the WriteModifiers.WRITE_ONLY modifier can be used resulting in an EntryAlreadyInSpaceException if the entry already exists in the space (it must have an id for this exception to be raised).

If the object has a primary key that isn't auto - generated, and the modifiers value is one of WriteModifiers.UPDATE_OR_WRITE, WriteModifiers.UPDATE_ONLY or WriteModifiers.PARTIAL_UPDATE, it will call to the update method, returning a LeaseContext holder. This lease is unknown to the grantor, unless an actual 'write' was performed.

Parameters:
entry - The entry to write to the space
lease - The lease the entry will be written with, in milliseconds.
Returns:
A usable Lease on a successful write, or null if performed with the proxy configured with NoWriteLease flag.

when WriteModifiers.UPDATE_OR_WRITE modifier is applied, LeaseContext.getObject() returns null on a successful write or the previous value - on successful update (Only if WriteModifiers.RETURN_PREV_ON_UPDATE is used, otherwise null). UpdateOperationTimeoutException is thrown if timeout occurred while trying to update the object.

Throws:
DataAccessException

write

<T> LeaseContext<T> write(T entry,
                          WriteModifiers modifiers)
                      throws DataAccessException
Writes a new object to the space, returning its LeaseContext.

By default uses the WriteModifiers.UPDATE_OR_WRITE modifier (see write(Object,long,long,int). In order to force the operation to perform "write" only (a bit more performant), the WriteModifiers.WRITE_ONLY modifier can be used resulting in an EntryAlreadyInSpaceException if the entry already exists in the space (it must have an id for this exception to be raised).

If the object has a primary key that isn't auto - generated, and the modifiers value is one of WriteModifiers.UPDATE_OR_WRITE, WriteModifiers.UPDATE_ONLY or WriteModifiers.PARTIAL_UPDATE, it will call to the update method, returning a LeaseContext holder. This lease is unknown to the grantor, unless an actual 'write' was performed.

The entry will be written using the default lease this interface is configured with (using the its factory). In order to explicitly define the lease, please use write(Object,long).

Parameters:
entry - The entry to write to the space
modifiers - one or a union of WriteModifiers.
Returns:
A usable Lease on a successful write, or null if performed with the proxy configured with NoWriteLease flag.

when WriteModifiers.UPDATE_OR_WRITE modifier is applied, LeaseContext.getObject() returns null on a successful write or the previous value - on successful update (Only if WriteModifiers.RETURN_PREV_ON_UPDATE is used, otherwise null). UpdateOperationTimeoutException is thrown if timeout occurred while trying to update the object.

Throws:
DataAccessException
Since:
9.0.1

write

@Deprecated
<T> LeaseContext<T> write(T entry,
                                     long lease,
                                     long timeout,
                                     int modifiers)
                      throws DataAccessException
Deprecated. since 9.0.1 - use write(Object, long, long, WriteModifiers) instead.

Throws:
DataAccessException

write

<T> LeaseContext<T> write(T entry,
                          long lease,
                          long timeout,
                          WriteModifiers modifiers)
                      throws DataAccessException
Writes a new object to the space, returning its LeaseContext.

By default uses the WriteModifiers.UPDATE_OR_WRITE modifier. In order to force the operation to perform "write" only (a bit more performant), the WriteModifiers.WRITE_ONLY modifier can be used resulting in an EntryAlreadyInSpaceException if the entry already exists in the space (it must have an id for this exception to be raised).

If the object has a primary key that isn't auto - generated, and the modifiers value is one of WriteModifiers.UPDATE_OR_WRITE, WriteModifiers.UPDATE_ONLY or WriteModifiers.PARTIAL_UPDATE, it will call to the update method, returning a LeaseContext holder. This lease is unknown to the grantor, unless an actual 'write' was performed.

Parameters:
entry - The entry to write to the space
lease - The lease the entry will be written with, in milliseconds.
timeout - The timeout of an update operation, in milliseconds. If the entry is locked by another transaction wait for the specified number of milliseconds for it to be released.
modifiers - one or a union of WriteModifiers.
Returns:
A usable Lease on a successful write, or null if performed with the proxy configured with NoWriteLease flag.

when WriteModifiers.UPDATE_OR_WRITE modifier is applied, LeaseContext.getObject() returns null on a successful write or the previous value - on successful update (Only if WriteModifiers.RETURN_PREV_ON_UPDATE is used, otherwise null). UpdateOperationTimeoutException is thrown if timeout occurred while trying to update the object.

Throws:
DataAccessException
Since:
9.0.1

writeMultiple

<T> LeaseContext<T>[] writeMultiple(T[] entries)
                                throws DataAccessException
Writes the specified entries to this space.

The entry will be written using the default lease this interface is configured with (using the its factory). In order to explicitly define the lease, please use writeMultiple(Object[],long).

Parameters:
entries - The entries to write to the space.
Returns:
Leases for the written entries
Throws:
DataAccessException - In the event of a write error, DataAccessException will wrap a WriteMultipleException, accessible via DataAccessException.getRootCause().

writeMultiple

<T> LeaseContext<T>[] writeMultiple(T[] entries,
                                    long lease)
                                throws DataAccessException
Writes the specified entries to this space.

Parameters:
entries - The entries to write to the space.
lease - The lease the entry will be written with, in milliseconds.
Returns:
Leases for the written entries
Throws:
DataAccessException - In the event of a write error, DataAccessException will wrap a WriteMultipleException, accessible via DataAccessException.getRootCause().

writeMultiple

<T> LeaseContext<T>[] writeMultiple(T[] entries,
                                    WriteModifiers modifiers)
                                throws DataAccessException
Writes the specified entries to this space.

Parameters:
entries - The entries to write to the space.
modifiers - one or a union of WriteModifiers.
Returns:
Leases for the written entries
Throws:
DataAccessException - In the event of a write error, DataAccessException will wrap a WriteMultipleException, accessible via DataAccessException.getRootCause().
Since:
9.0.1

writeMultiple

@Deprecated
<T> LeaseContext<T>[] writeMultiple(T[] entries,
                                               long lease,
                                               int updateModifiers)
                                throws DataAccessException
Deprecated. since 9.0.1 - use writeMultiple(Object[], long, WriteModifiers) instead.

Throws:
DataAccessException

writeMultiple

<T> LeaseContext<T>[] writeMultiple(T[] entries,
                                    long lease,
                                    WriteModifiers modifiers)
                                throws DataAccessException
Writes the specified entries to this space. Same as a single write but for a group of entities sharing the same transaction (if any), applied with the same specified operation modifier. The semantics of a single write and a batch update are similar - the return value for each corresponds to it's cell in the returned array. see 'returns' for possible return values.

Parameters:
entries - the entries to write.
lease - the requested lease time, in milliseconds
modifiers - one or a union of WriteModifiers.
Returns:
array in which each cell is corresponding to the written entry at the same index in the entries array, each cell is a usable Lease on a successful write, or null if performed with NoWriteLease attribute.

when WriteModifiers.UPDATE_OR_WRITE modifier is applied,

Throws:
DataAccessException - In the event of a write error, DataAccessException will wrap a WriteMultipleException, accessible via DataAccessException.getRootCause().
Since:
9.0.1

writeMultiple

<T> LeaseContext<T>[] writeMultiple(T[] entries,
                                    long lease,
                                    long timeout,
                                    WriteModifiers modifiers)
                                throws DataAccessException
Writes the specified entries to this space. Same as a single write but for a group of entities sharing the same transaction (if any), applied with the same specified operation modifier. The semantics of a single write and a batch update are similar - the return value for each corresponds to it's cell in the returned array. see 'returns' for possible return values.

Parameters:
entries - the entries to write.
lease - the requested lease time, in milliseconds
timeout - The timeout of the update operations, in milliseconds. If entries are locked by another transaction
modifiers - one or a union of WriteModifiers.
Returns:
array in which each cell is corresponding to the written entry at the same index in the entries array, each cell is a usable Lease on a successful write, or null if performed with NoWriteLease attribute.

when WriteModifiers.UPDATE_OR_WRITE modifier is applied,

Throws:
DataAccessException - In the event of a write error, DataAccessException will wrap a WriteMultipleException, accessible via DataAccessException.getRootCause().
Since:
9.6

writeMultiple

@Deprecated
<T> LeaseContext<T>[] writeMultiple(T[] entries,
                                               long[] leases,
                                               int updateModifiers)
                                throws DataAccessException
Deprecated. since 9.0.1 - use writeMultiple(Object[], long[], WriteModifiers) instead.

Throws:
DataAccessException

writeMultiple

<T> LeaseContext<T>[] writeMultiple(T[] entries,
                                    long[] leases,
                                    WriteModifiers modifiers)
                                throws DataAccessException
Writes the specified entries to this space. Same as a single write but for a group of entities sharing the same transaction (if any), applied with the same specified operation modifier. The semantics of a single write and a batch update are similar - the return value for each corresponds to it's cell in the returned array. see 'returns' for possible return values.

Parameters:
entries - the entries to write.
leases - the requested lease time per entry, in milliseconds
modifiers - one or a union of WriteModifiers.
Returns:
array in which each cell is corresponding to the written entry at the same index in the entries array, each cell is a usable Lease on a successful write, or null if performed with NoWriteLease attribute.

when WriteModifiers.UPDATE_OR_WRITE modifier is applied,

Throws:
DataAccessException - In the event of a write error, DataAccessException will wrap a WriteMultipleException, accessible via DataAccessException.getRootCause().
Since:
9.0.1

writeMultiple

<T> LeaseContext<T>[] writeMultiple(T[] entries,
                                    long[] leases,
                                    long timeout,
                                    WriteModifiers modifiers)
                                throws DataAccessException
Writes the specified entries to this space. Same as a single write but for a group of entities sharing the same transaction (if any), applied with the same specified operation modifier. The semantics of a single write and a batch update are similar - the return value for each corresponds to it's cell in the returned array. see 'returns' for possible return values.

Parameters:
entries - the entries to write.
leases - the requested lease time per entry, in milliseconds
timeout - The timeout of the update operations, in milliseconds. If entries are locked by another transaction
modifiers - one or a union of WriteModifiers.
Returns:
array in which each cell is corresponding to the written entry at the same index in the entries array, each cell is a usable Lease on a successful write, or null if performed with NoWriteLease attribute.

when WriteModifiers.UPDATE_OR_WRITE modifier is applied,

Throws:
DataAccessException - In the event of a write error, DataAccessException will wrap a WriteMultipleException, accessible via DataAccessException.getRootCause().
Since:
9.6

iterator

IteratorBuilder iterator()
Returns an iterator builder allowing to configure and create a GSIterator over the Space.


execute

<T extends Serializable> AsyncFuture<T> execute(Task<T> task)
Executes a task on a specific space node. The space node it will execute on should be controlled by having a method that return the routing value annotated with SpaceRouting.

In order to control the routing externally, use execute(org.openspaces.core.executor.Task, Object).

The space that the task is executed within can be accessible by marking a field with type GigaSpace using the TaskGigaSpace annotation. Another option is by implementing the TaskGigaSpaceAware interface.

Resource injection can be enabled by marking the task with AutowireTask or with AutowireTaskMarker. Resources defined within processing unit (space node) the task is executed on are accessible by using either the Autowired or javax.annotation.Resource annotations (assuming they are enabled using context:annotation-config). Bean life cycle methods, such as ClusterInfoAware and ApplicationContextAware are also available.

Parameters:
task - The task to execute
Returns:
a Future representing pending completion of the task, and whose get() method will return the task value upon completion.

execute

<T extends Serializable> AsyncFuture<T> execute(Task<T> task,
                                                AsyncFutureListener<T> listener)
Executes a task on a specific space node. The space node it will execute on should be controlled by having a method that return the routing value annotated with SpaceRouting.

In order to control the routing externally, use execute(org.openspaces.core.executor.Task, Object).

The space that the task is executed within can be accessible by marking a field with type GigaSpace using the TaskGigaSpace annotation. Another option is by implementing the TaskGigaSpaceAware interface.

Resource injection can be enabled by marking the task with AutowireTask or with AutowireTaskMarker. Resources defined within processing unit (space node) the task is executed on are accessible by using either the Autowired or javax.annotation.Resource annotations (assuming they are enabled using context:annotation-config). Bean life cycle methods, such as ClusterInfoAware and ApplicationContextAware are also available.

Parameters:
task - The task to execute
listener - A listener to be notified when execution completes
Returns:
a Future representing pending completion of the task, and whose get() method will return the task value upon completion.

execute

<T extends Serializable> AsyncFuture<T> execute(Task<T> task,
                                                Object routing)
Executes a task on a specific space node. The space node it will execute on should is controlled by the routing value provided as a second parameter.

The routing object itself does not have to be the actual routing value, but can be a POJO that defined a method annotated with @SpaceRouting annotation (this works well when wanting to use entries as the routing parameters).

In order to control the using the Task itself, use execute(org.openspaces.core.executor.Task).

The space that the task is executed within can be accessible by marking a field with type GigaSpace using the TaskGigaSpace annotation. Another option is by implementing the TaskGigaSpaceAware interface.

Resource injection can be enabled by marking the task with AutowireTask or with AutowireTaskMarker. Resources defined within processing unit (space node) the task is executed on are accessible by using either the Autowired or javax.annotation.Resource annotations (assuming they are enabled using context:annotation-config). Bean life cycle methods, such as ClusterInfoAware and ApplicationContextAware are also available.

Parameters:
task - The task to execute
routing - The routing value that will control on which node the task will be executed on
Returns:
a Future representing pending completion of the task, and whose get() method will return the task value upon completion.

execute

<T extends Serializable> AsyncFuture<T> execute(Task<T> task,
                                                Object routing,
                                                AsyncFutureListener<T> listener)
Executes a task on a specific space node. The space node it will execute on should is controlled by the routing value provided as a second parameter.

The routing object itself does not have to be the actual routing value, but can be a POJO that defined a method annotated with @SpaceRouting annotation (this works well when wanting to use entries as the routing parameters).

In order to control the using the Task itself, use execute(org.openspaces.core.executor.Task).

The space that the task is executed within can be accessible by marking a field with type GigaSpace using the TaskGigaSpace annotation. Another option is by implementing the TaskGigaSpaceAware interface.

Resource injection can be enabled by marking the task with AutowireTask or with AutowireTaskMarker. Resources defined within processing unit (space node) the task is executed on are accessible by using either the Autowired or javax.annotation.Resource annotations (assuming they are enabled using context:annotation-config). Bean life cycle methods, such as ClusterInfoAware and ApplicationContextAware are also available.

Parameters:
task - The task to execute
routing - The routing value that will control on which node the task will be executed on
listener - A listener to be notified when execution completes
Returns:
a Future representing pending completion of the task, and whose get() method will return the task value upon completion.

execute

<T extends Serializable,R> AsyncFuture<R> execute(DistributedTask<T,R> task,
                                                  Object... routing)
Executes a task on all the nodes that correspond to the list of routing values. The task is executed on each space node with all the results reduced by the AsyncResultsReducer.reduce(java.util.List) operation.

The routing object itself does not have to be the actual routing value, but can be a POJO that defined a method annotated with @SpaceRouting annotation (this works well when wanting to use entries as the routing parameters).

The task can optionally implement AsyncResultFilter that can control if tasks should continue to accumulate or it should break and execute the reduce operation on the results received so far.

The future actual result will be the reduced result of the execution, or the exception thrown during during the reduce operation. The moderator can be used as a mechanism to listen for results as they arrive.

The last parameter can be of type AsyncFutureListener which, this case, it will be used to register a listener to be notified of the result.

The space that the task is executed within can be accessible by marking a field with type GigaSpace using the TaskGigaSpace annotation. Another option is by implementing the TaskGigaSpaceAware interface.

Resource injection can be enabled by marking the task with AutowireTask or with AutowireTaskMarker. Resources defined within processing unit (space node) the task is executed on are accessible by using either the Autowired or javax.annotation.Resource annotations (assuming they are enabled using context:annotation-config). Bean life cycle methods, such as ClusterInfoAware and ApplicationContextAware are also available.

Parameters:
task - The task to execute
routing - A list of routing values, each resulting in an execution of the task on the space node it corresponds to
Returns:
a Future representing pending completion of the task, and whose get() method will return the task value upon completion.

execute

<T extends Serializable,R> AsyncFuture<R> execute(DistributedTask<T,R> task)
Executes the task on all the primary space nodes within the cluster (broadcast). The task is executed on each space node with all the results reduced by the AsyncResultsReducer.reduce(java.util.List) operation.

The task can optionally implement AsyncResultFilter that can control if tasks should continue to accumulate or it should break and execute the reduce operation on the results received so far.

The future actual result will be the reduced result of the execution, or the exception thrown during during the reduce operation. The moderator can be used as a mechanism to listen for results as they arrive.

The space that the task is executed within can be accessible by marking a field with type GigaSpace using the TaskGigaSpace annotation. Another option is by implementing the TaskGigaSpaceAware interface.

Resource injection can be enabled by marking the task with AutowireTask or with AutowireTaskMarker. Resources defined within processing unit (space node) the task is executed on are accessible by using either the Autowired or javax.annotation.Resource annotations (assuming they are enabled using context:annotation-config). Bean life cycle methods, such as ClusterInfoAware and ApplicationContextAware are also available.

Parameters:
task - The task to execute
Returns:
a Future representing pending completion of the task, and whose get() method will return the task value upon completion.

executorBuilder

<T extends Serializable,R> ExecutorBuilder<T,R> executorBuilder(AsyncResultsReducer<T,R> reducer)
Constructs an executor builder allowing to accumulate different tasks required to be executed into a single execute mechanism with all the results reduced by the reducer provided.

The reducer can optionally implement AsyncResultFilter that can control if tasks should continue to accumulate or it should break and execute the reduce operation on the results received so far.

The space that the task is executed within can be accessible by marking a field with type GigaSpace using the TaskGigaSpace annotation. Another option is by implementing the TaskGigaSpaceAware interface.

Resource injection can be enabled by marking the task with AutowireTask or with AutowireTaskMarker. Resources defined within processing unit (space node) the task is executed on are accessible by using either the Autowired or javax.annotation.Resource annotations (assuming they are enabled using context:annotation-config). Bean life cycle methods, such as ClusterInfoAware and ApplicationContextAware are also available.

Parameters:
reducer - The reducer to reduce the results of all the different tasks added.
Returns:
The executor builder.

getTypeManager

GigaSpaceTypeManager getTypeManager()
Gets the type manager of this GigaSpace instance.

Since:
8.0
See Also:
GigaSpaceTypeManager

change

<T> ChangeResult<T> change(ISpaceQuery<T> query,
                           ChangeSet changeSet)
Changes existing objects in space, returning a change result which provides details of the operation affect. The change operation is designed for performance optimization, By allowing to change an existing object unlike with regular updating write operation which usually requires reading the object before applying to update to it. As part of the optimization, when the operation is replicated, on a best effort it will try to replicate only the required data which is needed to apply the changes on the entry in the replicated target.

Modifiers can be used to specify behavior of the change operation, by default uses the ChangeModifiers.NONE modifier.

Parameters:
query - Query to search by.
changeSet - Changes to apply to the matched entry.
Returns:
A ChangeResult containing the details of the change operation affect.
Throws:
ChangeException - In event of a change error.
Since:
9.1

change

<T> ChangeResult<T> change(ISpaceQuery<T> query,
                           ChangeSet changeSet,
                           long timeout)
Changes existing objects in space, returning a change result which provides details of the operation affect. The change operation is designed for performance optimization, By allowing to change an existing object unlike with regular updating write operation which usually requires reading the object before applying to update to it. As part of the optimization, when the operation is replicated, on a best effort it will try to replicate only the required data which is needed to apply the changes on the entry in the replicated target.

Modifiers can be used to specify behavior of the change operation, by default uses the ChangeModifiers.NONE modifier.

Parameters:
query - Query to search by.
changeSet - Changes to apply to the matched entry.
timeout - The timeout of the operation, in milliseconds. If the entry is locked by another transaction wait for the specified number of milliseconds for it to be released.
Returns:
A ChangeResult containing the details of the change operation affect.
Throws:
ChangeException - In event of a change error.
Since:
9.1

change

<T> ChangeResult<T> change(ISpaceQuery<T> query,
                           ChangeSet changeSet,
                           ChangeModifiers modifiers)
Changes existing objects in space, returning a change result which provides details of the operation affect. The change operation is designed for performance optimization, By allowing to change an existing object unlike with regular updating write operation which usually requires reading the object before applying to update to it. As part of the optimization, when the operation is replicated, on a best effort it will try to replicate only the required data which is needed to apply the changes on the entry in the replicated target.

Modifiers can be used to specify behavior of the change operation, by default uses the ChangeModifiers.NONE modifier.

Parameters:
query - Query to search by.
changeSet - Changes to apply to the matched entry.
modifiers - one or a union of ChangeModifiers
Returns:
A ChangeResult containing the details of the change operation affect.
Throws:
ChangeException - In event of a change error.
Since:
9.1

change

<T> ChangeResult<T> change(ISpaceQuery<T> query,
                           ChangeSet changeSet,
                           ChangeModifiers modifiers,
                           long timeout)
Changes existing objects in space, returning a change result which provides details of the operation affect. The change operation is designed for performance optimization, By allowing to change an existing object unlike with regular updating write operation which usually requires reading the object before applying to update to it. As part of the optimization, when the operation is replicated, on a best effort it will try to replicate only the required data which is needed to apply the changes on the entry in the replicated target.

Modifiers can be used to specify behavior of the change operation, by default uses the ChangeModifiers.NONE modifier.

Parameters:
query - Query to search by.
changeSet - Changes to apply to the matched entry.
modifiers - one or a union of ChangeModifiers
timeout - The timeout of the operation, in milliseconds. If the entry is locked by another transaction wait for the specified number of milliseconds for it to be released.
Returns:
A ChangeResult containing the details of the change operation affect.
Throws:
ChangeException - In event of a change error.
Since:
9.1

asyncChange

<T> Future<ChangeResult<T>> asyncChange(ISpaceQuery<T> query,
                                        ChangeSet changeSet)
Changes existing objects in space in an asynchronous manner, returning immidiately with a future. The future can be used to check the change operation results which provides details of the operation affect. The change operation is designed for performance optimization, By allowing to change an existing object unlike with regular updating write operation which usually requires reading the object before applying to update to it. As part of the optimization, when the operation is replicated, on a best effort it will try to replicate only the required data which is needed to apply the changes on the entry in the replicated target.

Modifiers can be used to specify behavior of the change operation, by default uses the ChangeModifiers.NONE modifier.

Parameters:
query - Query to search by.
changeSet - Changes to apply to the matched entry.
Returns:
A future containing the details of the change operation affect which arrived asynchronously.
Throws:
ChangeException - Arrived asynchronously in event of a change error, via future or listener.
Since:
9.1

asyncChange

<T> Future<ChangeResult<T>> asyncChange(ISpaceQuery<T> query,
                                        ChangeSet changeSet,
                                        AsyncFutureListener<ChangeResult<T>> listener)
Changes existing objects in space in an asynchronous manner, returning immidiately with a future. The future can be used to check the change operation results which provides details of the operation affect. The change operation is designed for performance optimization, By allowing to change an existing object unlike with regular updating write operation which usually requires reading the object before applying to update to it. As part of the optimization, when the operation is replicated, on a best effort it will try to replicate only the required data which is needed to apply the changes on the entry in the replicated target.

Modifiers can be used to specify behavior of the change operation, by default uses the ChangeModifiers.NONE modifier.

Parameters:
query - Query to search by.
changeSet - Changes to apply to the matched entry.
listener - A listener to be notified when a result arrives.
Returns:
A future containing the details of the change operation affect which arrived asynchronously.
Throws:
ChangeException - Arrived asynchronously in event of a change error, via future or listener.
Since:
9.1

asyncChange

<T> Future<ChangeResult<T>> asyncChange(ISpaceQuery<T> query,
                                        ChangeSet changeSet,
                                        long timeout)
Changes existing objects in space in an asynchronous manner, returning immidiately with a future. The future can be used to check the change operation results which provides details of the operation affect. The change operation is designed for performance optimization, By allowing to change an existing object unlike with regular updating write operation which usually requires reading the object before applying to update to it. As part of the optimization, when the operation is replicated, on a best effort it will try to replicate only the required data which is needed to apply the changes on the entry in the replicated target.

Modifiers can be used to specify behavior of the change operation, by default uses the ChangeModifiers.NONE modifier.

Parameters:
query - Query to search by.
changeSet - Changes to apply to the matched entry.
timeout - The timeout of the operation, in milliseconds. If the entry is locked by another transaction wait for the specified number of milliseconds for it to be released.
Returns:
A future containing the details of the change operation affect which arrived asynchronously.
Throws:
ChangeException - Arrived asynchronously in event of a change error, via future or listener.
Since:
9.1

asyncChange

<T> Future<ChangeResult<T>> asyncChange(ISpaceQuery<T> query,
                                        ChangeSet changeSet,
                                        long timeout,
                                        AsyncFutureListener<ChangeResult<T>> listener)
Changes existing objects in space in an asynchronous manner, returning immidiately with a future. The future can be used to check the change operation results which provides details of the operation affect. The change operation is designed for performance optimization, By allowing to change an existing object unlike with regular updating write operation which usually requires reading the object before applying to update to it. As part of the optimization, when the operation is replicated, on a best effort it will try to replicate only the required data which is needed to apply the changes on the entry in the replicated target.

Modifiers can be used to specify behavior of the change operation, by default uses the ChangeModifiers.NONE modifier.

Parameters:
query - Query to search by.
changeSet - Changes to apply to the matched entry.
timeout - The timeout of the operation, in milliseconds. If the entry is locked by another transaction wait for the specified number of milliseconds for it to be released.
listener - A listener to be notified when a result arrives.
Returns:
A future containing the details of the change operation affect which arrived asynchronously.
Throws:
ChangeException - Arrived asynchronously in event of a change error, via future or listener.
Since:
9.1

asyncChange

<T> Future<ChangeResult<T>> asyncChange(ISpaceQuery<T> query,
                                        ChangeSet changeSet,
                                        ChangeModifiers modifiers)
Changes an existing objects in space in an asynchronous manner, returning immidiately with a future. The future can be used to check the change operation results which provides details of the operation affect. The change operation is designed for performance optimization, By allowing to change an existing object unlike with regular updating write operation which usually requires reading the object before applying to update to it. As part of the optimization, when the operation is replicated, on a best effort it will try to replicate only the required data which is needed to apply the changes on the entry in the replicated target.

Modifiers can be used to specify behavior of the change operation, by default uses the ChangeModifiers.NONE modifier.

Parameters:
query - Query to search by.
changeSet - Changes to apply to the matched entry.
modifiers - one or a union of ChangeModifiers
Returns:
A future containing the details of the change operation affect which arrived asynchronously.
Throws:
ChangeException - Arrived asynchronously in event of a change error, via future or listener.
Since:
9.1

asyncChange

<T> Future<ChangeResult<T>> asyncChange(ISpaceQuery<T> query,
                                        ChangeSet changeSet,
                                        ChangeModifiers modifiers,
                                        AsyncFutureListener<ChangeResult<T>> listener)
Changes existing objects in space in an asynchronous manner, returning immidiately with a future. The future can be used to check the change operation results which provides details of the operation affect. The change operation is designed for performance optimization, By allowing to change an existing object unlike with regular updating write operation which usually requires reading the object before applying to update to it. As part of the optimization, when the operation is replicated, on a best effort it will try to replicate only the required data which is needed to apply the changes on the entry in the replicated target.

Modifiers can be used to specify behavior of the change operation, by default uses the ChangeModifiers.NONE modifier.

Parameters:
query - Query to search by.
changeSet - Changes to apply to the matched entry.
modifiers - one or a union of ChangeModifiers
listener - A listener to be notified when a result arrives.
Returns:
A future containing the details of the change operation affect which arrived asynchronously.
Throws:
ChangeException - Arrived asynchronously in event of a change error, via future or listener.
Since:
9.1

asyncChange

<T> Future<ChangeResult<T>> asyncChange(ISpaceQuery<T> query,
                                        ChangeSet changeSet,
                                        ChangeModifiers modifiers,
                                        long timeout)
Changes existing objects in space in an asynchronous manner, returning immidiately with a future. The future can be used to check the change operation results which provides details of the operation affect. The change operation is designed for performance optimization, By allowing to change an existing object unlike with regular updating write operation which usually requires reading the object before applying to update to it. As part of the optimization, when the operation is replicated, on a best effort it will try to replicate only the required data which is needed to apply the changes on the entry in the replicated target.

Modifiers can be used to specify behavior of the change operation, by default uses the ChangeModifiers.NONE modifier.

Parameters:
query - Query to search by.
changeSet - Changes to apply to the matched entry.
modifiers - one or a union of ChangeModifiers
timeout - The timeout of the operation, in milliseconds. If the entry is locked by another transaction wait for the specified number of milliseconds for it to be released.
Returns:
A future containing the details of the change operation affect which arrived asynchronously.
Throws:
ChangeException - Arrived asynchronously in event of a change error, via future or listener.
Since:
9.1

asyncChange

<T> Future<ChangeResult<T>> asyncChange(ISpaceQuery<T> query,
                                        ChangeSet changeSet,
                                        ChangeModifiers modifiers,
                                        long timeout,
                                        AsyncFutureListener<ChangeResult<T>> listener)
Changes existing objects in space in an asynchronous manner, returning immidiately with a future. The future can be used to check the change operation results which provides details of the operation affect. The change operation is designed for performance optimization, By allowing to change an existing object unlike with regular updating write operation which usually requires reading the object before applying to update to it. As part of the optimization, when the operation is replicated, on a best effort it will try to replicate only the required data which is needed to apply the changes on the entry in the replicated target.

Modifiers can be used to specify behavior of the change operation, by default uses the ChangeModifiers.NONE modifier.

Parameters:
query - Query to search by.
changeSet - Changes to apply to the matched entry.
modifiers - one or a union of ChangeModifiers
timeout - The timeout of the operation, in milliseconds. If the entry is locked by another transaction wait for the specified number of milliseconds for it to be released.
listener - A listener to be notified when a result arrives.
Returns:
A future containing the details of the change operation affect which arrived asynchronously.
Throws:
ChangeException - Arrived asynchronously in event of a change error, via future or listener.
Since:
9.1

change

<T> ChangeResult<T> change(T template,
                           ChangeSet changeSet)
Changes existing objects in space, returning a change result which provides details of the operation affect. The change operation is designed for performance optimization, By allowing to change an existing object unlike with regular updating write operation which usually requires reading the object before applying to update to it. As part of the optimization, when the operation is replicated, on a best effort it will try to replicate only the required data which is needed to apply the changes on the entry in the replicated target.

Modifiers can be used to specify behavior of the change operation, by default uses the ChangeModifiers.NONE modifier.

Parameters:
template - The template used for matching. Matching is done against the template with null fields being. wildcards ("match anything") other fields being values ("match exactly on the serialized form"). The template can also be one of the different ISpaceQuery classes
changeSet - Changes to apply to the matched entry.
Returns:
A ChangeResult containing the details of the change operation affect.
Throws:
ChangeException - In event of a change error.
Since:
9.1

change

<T> ChangeResult<T> change(T template,
                           ChangeSet changeSet,
                           long timeout)
Changes existing objects in space, returning a change result which provides details of the operation affect. The change operation is designed for performance optimization, By allowing to change an existing object unlike with regular updating write operation which usually requires reading the object before applying to update to it. As part of the optimization, when the operation is replicated, on a best effort it will try to replicate only the required data which is needed to apply the changes on the entry in the replicated target.

Modifiers can be used to specify behavior of the change operation, by default uses the ChangeModifiers.NONE modifier.

Parameters:
template - The template used for matching. Matching is done against the template with null fields being. wildcards ("match anything") other fields being values ("match exactly on the serialized form"). The template can also be one of the different ISpaceQuery classes
changeSet - Changes to apply to the matched entry.
timeout - The timeout of the operation, in milliseconds. If the entry is locked by another transaction wait for the specified number of milliseconds for it to be released.
Returns:
A ChangeResult containing the details of the change operation affect.
Throws:
ChangeException - In event of a change error.
Since:
9.1

change

<T> ChangeResult<T> change(T template,
                           ChangeSet changeSet,
                           ChangeModifiers modifiers)
Changes existing objects in space, returning a change result which provides details of the operation affect. The change operation is designed for performance optimization, By allowing to change an existing object unlike with regular updating write operation which usually requires reading the object before applying to update to it. As part of the optimization, when the operation is replicated, on a best effort it will try to replicate only the required data which is needed to apply the changes on the entry in the replicated target.

Modifiers can be used to specify behavior of the change operation, by default uses the ChangeModifiers.NONE modifier.

Parameters:
template - The template used for matching. Matching is done against the template with null fields being. wildcards ("match anything") other fields being values ("match exactly on the serialized form"). The template can also be one of the different ISpaceQuery classes
changeSet - Changes to apply to the matched entry.
modifiers - one or a union of ChangeModifiers
Returns:
A ChangeResult containing the details of the change operation affect.
Throws:
ChangeException - In event of a change error.
Since:
9.1

change

<T> ChangeResult<T> change(T template,
                           ChangeSet changeSet,
                           ChangeModifiers modifiers,
                           long timeout)
Changes existing objects in space, returning a change result which provides details of the operation affect. The change operation is designed for performance optimization, By allowing to change an existing object unlike with regular updating write operation which usually requires reading the object before applying to update to it. As part of the optimization, when the operation is replicated, on a best effort it will try to replicate only the required data which is needed to apply the changes on the entry in the replicated target.

Modifiers can be used to specify behavior of the change operation, by default uses the ChangeModifiers.NONE modifier.

Parameters:
template - The template used for matching. Matching is done against the template with null fields being. wildcards ("match anything") other fields being values ("match exactly on the serialized form"). The template can also be one of the different ISpaceQuery classes
changeSet - Changes to apply to the matched entry.
modifiers - one or a union of ChangeModifiers
timeout - The timeout of the operation, in milliseconds. If the entry is locked by another transaction wait for the specified number of milliseconds for it to be released.
Returns:
A ChangeResult containing the details of the change operation affect.
Throws:
ChangeException - In event of a change error.
Since:
9.1

asyncChange

<T> Future<ChangeResult<T>> asyncChange(T template,
                                        ChangeSet changeSet)
Changes existing objects in space in an asynchronous manner, returning immidiately with a future. The future can be used to check the change operation results which provides details of the operation affect. The change operation is designed for performance optimization, By allowing to change an existing object unlike with regular updating write operation which usually requires reading the object before applying to update to it. As part of the optimization, when the operation is replicated, on a best effort it will try to replicate only the required data which is needed to apply the changes on the entry in the replicated target.

Modifiers can be used to specify behavior of the change operation, by default uses the ChangeModifiers.NONE modifier.

Parameters:
template - The template used for matching. Matching is done against the template with null fields being. wildcards ("match anything") other fields being values ("match exactly on the serialized form"). The template can also be one of the different ISpaceQuery classes
changeSet - Changes to apply to the matched entry.
Returns:
A future containing the details of the change operation affect which arrived asynchronously.
Throws:
ChangeException - Arrived asynchronously in event of a change error, via future or listener.
Since:
9.1

asyncChange

<T> Future<ChangeResult<T>> asyncChange(T template,
                                        ChangeSet changeSet,
                                        AsyncFutureListener<ChangeResult<T>> listener)
Changes existing objects in space in an asynchronous manner, returning immidiately with a future. The future can be used to check the change operation results which provides details of the operation affect. The change operation is designed for performance optimization, By allowing to change an existing object unlike with regular updating write operation which usually requires reading the object before applying to update to it. As part of the optimization, when the operation is replicated, on a best effort it will try to replicate only the required data which is needed to apply the changes on the entry in the replicated target.

Modifiers can be used to specify behavior of the change operation, by default uses the ChangeModifiers.NONE modifier.

Parameters:
template - The template used for matching. Matching is done against the template with null fields being. wildcards ("match anything") other fields being values ("match exactly on the serialized form"). The template can also be one of the different ISpaceQuery classes
changeSet - Changes to apply to the matched entry.
listener - A listener to be notified when a result arrives.
Returns:
A future containing the details of the change operation affect which arrived asynchronously.
Throws:
ChangeException - Arrived asynchronously in event of a change error, via future or listener.
Since:
9.1

asyncChange

<T> Future<ChangeResult<T>> asyncChange(T template,
                                        ChangeSet changeSet,
                                        long timeout)
Changes existing objects in space in an asynchronous manner, returning immidiately with a future. The future can be used to check the change operation results which provides details of the operation affect. The change operation is designed for performance optimization, By allowing to change an existing object unlike with regular updating write operation which usually requires reading the object before applying to update to it. As part of the optimization, when the operation is replicated, on a best effort it will try to replicate only the required data which is needed to apply the changes on the entry in the replicated target.

Modifiers can be used to specify behavior of the change operation, by default uses the ChangeModifiers.NONE modifier.

Parameters:
template - The template used for matching. Matching is done against the template with null fields being. wildcards ("match anything") other fields being values ("match exactly on the serialized form"). The template can also be one of the different ISpaceQuery classes
changeSet - Changes to apply to the matched entry.
timeout - The timeout of the operation, in milliseconds. If the entry is locked by another transaction wait for the specified number of milliseconds for it to be released.
Returns:
A future containing the details of the change operation affect which arrived asynchronously.
Throws:
ChangeException - Arrived asynchronously in event of a change error, via future or listener.
Since:
9.1

asyncChange

<T> Future<ChangeResult<T>> asyncChange(T template,
                                        ChangeSet changeSet,
                                        long timeout,
                                        AsyncFutureListener<ChangeResult<T>> listener)
Changes existing objects in space in an asynchronous manner, returning immidiately with a future. The future can be used to check the change operation results which provides details of the operation affect. The change operation is designed for performance optimization, By allowing to change an existing object unlike with regular updating write operation which usually requires reading the object before applying to update to it. As part of the optimization, when the operation is replicated, on a best effort it will try to replicate only the required data which is needed to apply the changes on the entry in the replicated target.

Modifiers can be used to specify behavior of the change operation, by default uses the ChangeModifiers.NONE modifier.

Parameters:
template - The template used for matching. Matching is done against the template with null fields being. wildcards ("match anything") other fields being values ("match exactly on the serialized form"). The template can also be one of the different ISpaceQuery classes
changeSet - Changes to apply to the matched entry.
timeout - The timeout of the operation, in milliseconds. If the entry is locked by another transaction wait for the specified number of milliseconds for it to be released.
listener - A listener to be notified when a result arrives.
Returns:
A future containing the details of the change operation affect which arrived asynchronously.
Throws:
ChangeException - Arrived asynchronously in event of a change error, via future or listener.
Since:
9.1

asyncChange

<T> Future<ChangeResult<T>> asyncChange(T template,
                                        ChangeSet changeSet,
                                        ChangeModifiers modifiers)
Changes an existing objects in space in an asynchronous manner, returning immidiately with a future. The future can be used to check the change operation results which provides details of the operation affect. The change operation is designed for performance optimization, By allowing to change an existing object unlike with regular updating write operation which usually requires reading the object before applying to update to it. As part of the optimization, when the operation is replicated, on a best effort it will try to replicate only the required data which is needed to apply the changes on the entry in the replicated target.

Modifiers can be used to specify behavior of the change operation, by default uses the ChangeModifiers.NONE modifier.

Parameters:
template - The template used for matching. Matching is done against the template with null fields being. wildcards ("match anything") other fields being values ("match exactly on the serialized form"). The template can also be one of the different ISpaceQuery classes
changeSet - Changes to apply to the matched entry.
modifiers - one or a union of ChangeModifiers
Returns:
A future containing the details of the change operation affect which arrived asynchronously.
Throws:
ChangeException - Arrived asynchronously in event of a change error, via future or listener.
Since:
9.1

asyncChange

<T> Future<ChangeResult<T>> asyncChange(T template,
                                        ChangeSet changeSet,
                                        ChangeModifiers modifiers,
                                        AsyncFutureListener<ChangeResult<T>> listener)
Changes existing objects in space in an asynchronous manner, returning immidiately with a future. The future can be used to check the change operation results which provides details of the operation affect. The change operation is designed for performance optimization, By allowing to change an existing object unlike with regular updating write operation which usually requires reading the object before applying to update to it. As part of the optimization, when the operation is replicated, on a best effort it will try to replicate only the required data which is needed to apply the changes on the entry in the replicated target.

Modifiers can be used to specify behavior of the change operation, by default uses the ChangeModifiers.NONE modifier.

Parameters:
template - The template used for matching. Matching is done against the template with null fields being. wildcards ("match anything") other fields being values ("match exactly on the serialized form"). The template can also be one of the different ISpaceQuery classes
changeSet - Changes to apply to the matched entry.
modifiers - one or a union of ChangeModifiers
listener - A listener to be notified when a result arrives.
Returns:
A future containing the details of the change operation affect which arrived asynchronously.
Throws:
ChangeException - Arrived asynchronously in event of a change error, via future or listener.
Since:
9.1

asyncChange

<T> Future<ChangeResult<T>> asyncChange(T template,
                                        ChangeSet changeSet,
                                        ChangeModifiers modifiers,
                                        long timeout)
Changes existing objects in space in an asynchronous manner, returning immidiately with a future. The future can be used to check the change operation results which provides details of the operation affect. The change operation is designed for performance optimization, By allowing to change an existing object unlike with regular updating write operation which usually requires reading the object before applying to update to it. As part of the optimization, when the operation is replicated, on a best effort it will try to replicate only the required data which is needed to apply the changes on the entry in the replicated target.

Modifiers can be used to specify behavior of the change operation, by default uses the ChangeModifiers.NONE modifier.

Parameters:
template - The template used for matching. Matching is done against the template with null fields being. wildcards ("match anything") other fields being values ("match exactly on the serialized form"). The template can also be one of the different ISpaceQuery classes
changeSet - Changes to apply to the matched entry.
modifiers - one or a union of ChangeModifiers
timeout - The timeout of the operation, in milliseconds. If the entry is locked by another transaction wait for the specified number of milliseconds for it to be released.
Returns:
A future containing the details of the change operation affect which arrived asynchronously.
Throws:
ChangeException - Arrived asynchronously in event of a change error, via future or listener.
Since:
9.1

asyncChange

<T> Future<ChangeResult<T>> asyncChange(T template,
                                        ChangeSet changeSet,
                                        ChangeModifiers modifiers,
                                        long timeout,
                                        AsyncFutureListener<ChangeResult<T>> listener)
Changes existing objects in space in an asynchronous manner, returning immidiately with a future. The future can be used to check the change operation results which provides details of the operation affect. The change operation is designed for performance optimization, By allowing to change an existing object unlike with regular updating write operation which usually requires reading the object before applying to update to it. As part of the optimization, when the operation is replicated, on a best effort it will try to replicate only the required data which is needed to apply the changes on the entry in the replicated target.

Modifiers can be used to specify behavior of the change operation, by default uses the ChangeModifiers.NONE modifier.

Parameters:
template - The template used for matching. Matching is done against the template with null fields being. wildcards ("match anything") other fields being values ("match exactly on the serialized form"). The template can also be one of the different ISpaceQuery classes
changeSet - Changes to apply to the matched entry.
modifiers - one or a union of ChangeModifiers
timeout - The timeout of the operation, in milliseconds. If the entry is locked by another transaction wait for the specified number of milliseconds for it to be released.
listener - A listener to be notified when a result arrives.
Returns:
A future containing the details of the change operation affect which arrived asynchronously.
Throws:
ChangeException - Arrived asynchronously in event of a change error, via future or listener.
Since:
9.1

newDataEventSession

DataEventSession newDataEventSession()
Creates a new DataEventSession with the default configuration.

Returns:
a new data event session.
Since:
9.7.0

newDataEventSession

DataEventSession newDataEventSession(EventSessionConfig config)
Creates a new DataEventSession with the specified configuration.

Parameters:
config - The configuration settings for the new data event session.
Returns:
a new data event session.
Since:
9.7.0

GigaSpaces XAP 9.7.2 API

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