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/*
 * Hibernate, Relational Persistence for Idiomatic Java
 *
 * License: GNU Lesser General Public License (LGPL), version 2.1 or later.
 * See the lgpl.txt file in the root directory or .
 */
package org.hibernate;

import java.io.Closeable;
import java.io.Serializable;
import java.sql.Connection;
import java.util.List;
import javax.persistence.EntityGraph;
import javax.persistence.EntityManager;
import javax.persistence.FlushModeType;
import javax.persistence.criteria.CriteriaDelete;
import javax.persistence.criteria.CriteriaQuery;
import javax.persistence.criteria.CriteriaUpdate;

import org.hibernate.graph.RootGraph;
import org.hibernate.jpa.HibernateEntityManager;
import org.hibernate.query.NativeQuery;
import org.hibernate.stat.SessionStatistics;

/**
 * The main runtime interface between a Java application and Hibernate. This is the
 * central API class abstracting the notion of a persistence service.
*
* The lifecycle of a Session is bounded by the beginning and end of a logical * transaction. (Long transactions might span several database transactions.)
*
* The main function of the Session is to offer create, read and delete operations * for instances of mapped entity classes. Instances may exist in one of three states:
*
* transient: never persistent, not associated with any Session
* persistent: associated with a unique Session
* detached: previously persistent, not associated with any Session
*
* Transient instances may be made persistent by calling save(), * persist() or saveOrUpdate(). Persistent instances may be made transient * by calling delete(). Any instance returned by a get() or * load() method is persistent. Detached instances may be made persistent * by calling update(), saveOrUpdate(), lock() or replicate(). * The state of a transient or detached instance may also be made persistent as a new * persistent instance by calling merge().
*
* save() and persist() result in an SQL INSERT, delete() * in an SQL DELETE and update() or merge() in an SQL UPDATE. * Changes to persistent instances are detected at flush time and also result in an SQL * UPDATE. saveOrUpdate() and replicate() result in either an * INSERT or an UPDATE.
*
* It is not intended that implementors be threadsafe. Instead each thread/transaction * should obtain its own instance from a SessionFactory.
*
* A Session instance is serializable if its persistent classes are serializable.
*
* A typical transaction should use the following idiom: *
 * Session sess = factory.openSession();
 * Transaction tx;
 * try {
 *     tx = sess.beginTransaction();
 *     //do some work
 *     ...
 *     tx.commit();
 * }
 * catch (Exception e) {
 *     if (tx!=null) tx.rollback();
 *     throw e;
 * }
 * finally {
 *     sess.close();
 * }
 * 
*
* If the Session throws an exception, the transaction must be rolled back * and the session discarded. The internal state of the Session might not * be consistent with the database after the exception occurs. * * @see SessionFactory * * @author Gavin King * @author Steve Ebersole */ public interface Session extends SharedSessionContract, EntityManager, HibernateEntityManager, AutoCloseable, Closeable { /** * Obtain a {@link Session} builder with the ability to grab certain information from this session. * * @return The session builder */ SharedSessionBuilder sessionWithOptions(); /** * Force this session to flush. Must be called at the end of a * unit of work, before committing the transaction and closing the * session (depending on {@link #setFlushMode(FlushMode)}, * {@link Transaction#commit()} calls this method). *

* Flushing is the process of synchronizing the underlying persistent * store with persistable state held in memory. * * @throws HibernateException Indicates problems flushing the session or * talking to the database. */ void flush() throws HibernateException; /** * Set the flush mode for this session. *

* The flush mode determines the points at which the session is flushed. * Flushing is the process of synchronizing the underlying persistent * store with persistable state held in memory. *

* For a logically "read only" session, it is reasonable to set the session's * flush mode to {@link FlushMode#MANUAL} at the start of the session (in * order to achieve some extra performance). * * @param flushMode the new flush mode * * @deprecated (since 5.2) use {@link #setHibernateFlushMode(FlushMode)} instead */ @Deprecated void setFlushMode(FlushMode flushMode); /** * {@inheritDoc} *

* For users of the Hibernate native APIs, we've had to rename this method * as defined by Hibernate historically because the JPA contract defines a method of the same * name, but returning the JPA {@link FlushModeType} rather than Hibernate's {@link FlushMode}. For * the former behavior, use {@link Session#getHibernateFlushMode()} instead. * * @return The FlushModeType in effect for this Session. */ @Override FlushModeType getFlushMode(); /** * Set the flush mode for this session. *

* The flush mode determines the points at which the session is flushed. * Flushing is the process of synchronizing the underlying persistent * store with persistable state held in memory. *

* For a logically "read only" session, it is reasonable to set the session's * flush mode to {@link FlushMode#MANUAL} at the start of the session (in * order to achieve some extra performance). * * @param flushMode the new flush mode */ void setHibernateFlushMode(FlushMode flushMode); /** * Get the current flush mode for this session. * * @return The flush mode */ FlushMode getHibernateFlushMode(); /** * Set the cache mode. *

* Cache mode determines the manner in which this session can interact with * the second level cache. * * @param cacheMode The new cache mode. */ void setCacheMode(CacheMode cacheMode); /** * Get the current cache mode. * * @return The current cache mode. */ CacheMode getCacheMode(); /** * Get the session factory which created this session. * * @return The session factory. * @see SessionFactory */ SessionFactory getSessionFactory(); /** * Cancel the execution of the current query. *

* This is the sole method on session which may be safely called from * another thread. * * @throws HibernateException There was a problem canceling the query */ void cancelQuery() throws HibernateException; /** * Does this session contain any changes which must be synchronized with * the database? In other words, would any DML operations be executed if * we flushed this session? * * @return True if the session contains pending changes; false otherwise. * @throws HibernateException could not perform dirtying checking */ boolean isDirty() throws HibernateException; /** * Will entities and proxies that are loaded into this session be made * read-only by default? * * To determine the read-only/modifiable setting for a particular entity * or proxy: * @see Session#isReadOnly(Object) * * @return true, loaded entities/proxies will be made read-only by default; * false, loaded entities/proxies will be made modifiable by default. */ boolean isDefaultReadOnly(); /** * Change the default for entities and proxies loaded into this session * from modifiable to read-only mode, or from modifiable to read-only mode. * * Read-only entities are not dirty-checked and snapshots of persistent * state are not maintained. Read-only entities can be modified, but * changes are not persisted. * * When a proxy is initialized, the loaded entity will have the same * read-only/modifiable setting as the uninitialized * proxy has, regardless of the session's current setting. * * To change the read-only/modifiable setting for a particular entity * or proxy that is already in this session: * @see Session#setReadOnly(Object,boolean) * * To override this session's read-only/modifiable setting for entities * and proxies loaded by a Query: * @see Query#setReadOnly(boolean) * * @param readOnly true, the default for loaded entities/proxies is read-only; * false, the default for loaded entities/proxies is modifiable */ void setDefaultReadOnly(boolean readOnly); /** * Return the identifier value of the given entity as associated with this * session. An exception is thrown if the given entity instance is transient * or detached in relation to this session. * * @param object a persistent instance * @return the identifier * @throws TransientObjectException if the instance is transient or associated with * a different session */ Serializable getIdentifier(Object object); /** * Check if this entity is associated with this Session. This form caters to * non-POJO entities, by allowing the entity-name to be passed in * * @param entityName The entity name * @param object an instance of a persistent class * * @return true if the given instance is associated with this Session */ boolean contains(String entityName, Object object); /** * Remove this instance from the session cache. Changes to the instance will * not be synchronized with the database. This operation cascades to associated * instances if the association is mapped with cascade="evict". * * @param object The entity to evict * * @throws NullPointerException if the passed object is {@code null} * @throws IllegalArgumentException if the passed object is not defined as an entity */ void evict(Object object); /** * Return the persistent instance of the given entity class with the given identifier, * obtaining the specified lock mode, assuming the instance exists. *

* Convenient form of {@link #load(Class, Serializable, LockOptions)} * * @param theClass a persistent class * @param id a valid identifier of an existing persistent instance of the class * @param lockMode the lock level * * @return the persistent instance or proxy * * @see #load(Class, Serializable, LockOptions) */ T load(Class theClass, Serializable id, LockMode lockMode); /** * Return the persistent instance of the given entity class with the given identifier, * obtaining the specified lock mode, assuming the instance exists. * * @param theClass a persistent class * @param id a valid identifier of an existing persistent instance of the class * @param lockOptions contains the lock level * @return the persistent instance or proxy */ T load(Class theClass, Serializable id, LockOptions lockOptions); /** * Return the persistent instance of the given entity class with the given identifier, * obtaining the specified lock mode, assuming the instance exists. *

* Convenient form of {@link #load(String, Serializable, LockOptions)} * * @param entityName a persistent class * @param id a valid identifier of an existing persistent instance of the class * @param lockMode the lock level * * @return the persistent instance or proxy * * @see #load(String, Serializable, LockOptions) */ Object load(String entityName, Serializable id, LockMode lockMode); /** * Return the persistent instance of the given entity class with the given identifier, * obtaining the specified lock mode, assuming the instance exists. * * @param entityName a persistent class * @param id a valid identifier of an existing persistent instance of the class * @param lockOptions contains the lock level * * @return the persistent instance or proxy */ Object load(String entityName, Serializable id, LockOptions lockOptions); /** * Return the persistent instance of the given entity class with the given identifier, * assuming that the instance exists. This method might return a proxied instance that * is initialized on-demand, when a non-identifier method is accessed. *

* You should not use this method to determine if an instance exists (use get() * instead). Use this only to retrieve an instance that you assume exists, where non-existence * would be an actual error. * * @param theClass a persistent class * @param id a valid identifier of an existing persistent instance of the class * * @return the persistent instance or proxy */ T load(Class theClass, Serializable id); /** * Return the persistent instance of the given entity class with the given identifier, * assuming that the instance exists. This method might return a proxied instance that * is initialized on-demand, when a non-identifier method is accessed. *

* You should not use this method to determine if an instance exists (use get() * instead). Use this only to retrieve an instance that you assume exists, where non-existence * would be an actual error. * * @param entityName a persistent class * @param id a valid identifier of an existing persistent instance of the class * * @return the persistent instance or proxy */ Object load(String entityName, Serializable id); /** * Read the persistent state associated with the given identifier into the given transient * instance. * * @param object an "empty" instance of the persistent class * @param id a valid identifier of an existing persistent instance of the class */ void load(Object object, Serializable id); /** * Persist the state of the given detached instance, reusing the current * identifier value. This operation cascades to associated instances if * the association is mapped with {@code cascade="replicate"} * * @param object a detached instance of a persistent class * @param replicationMode The replication mode to use */ void replicate(Object object, ReplicationMode replicationMode); /** * Persist the state of the given detached instance, reusing the current * identifier value. This operation cascades to associated instances if * the association is mapped with {@code cascade="replicate"} * * @param entityName The entity name * @param object a detached instance of a persistent class * @param replicationMode The replication mode to use */ void replicate(String entityName, Object object, ReplicationMode replicationMode) ; /** * Persist the given transient instance, first assigning a generated identifier. (Or * using the current value of the identifier property if the assigned * generator is used.) This operation cascades to associated instances if the * association is mapped with {@code cascade="save-update"} * * @param object a transient instance of a persistent class * * @return the generated identifier */ Serializable save(Object object); /** * Persist the given transient instance, first assigning a generated identifier. (Or * using the current value of the identifier property if the assigned * generator is used.) This operation cascades to associated instances if the * association is mapped with {@code cascade="save-update"} * * @param entityName The entity name * @param object a transient instance of a persistent class * * @return the generated identifier */ Serializable save(String entityName, Object object); /** * Either {@link #save(Object)} or {@link #update(Object)} the given * instance, depending upon resolution of the unsaved-value checks (see the * manual for discussion of unsaved-value checking). *

* This operation cascades to associated instances if the association is mapped * with {@code cascade="save-update"} * * @param object a transient or detached instance containing new or updated state * * @see Session#save(java.lang.Object) * @see Session#update(Object object) */ void saveOrUpdate(Object object); /** * Either {@link #save(String, Object)} or {@link #update(String, Object)} * the given instance, depending upon resolution of the unsaved-value checks * (see the manual for discussion of unsaved-value checking). *

* This operation cascades to associated instances if the association is mapped * with {@code cascade="save-update"} * * @param entityName The entity name * @param object a transient or detached instance containing new or updated state * * @see Session#save(String,Object) * @see Session#update(String,Object) */ void saveOrUpdate(String entityName, Object object); /** * Update the persistent instance with the identifier of the given detached * instance. If there is a persistent instance with the same identifier, * an exception is thrown. This operation cascades to associated instances * if the association is mapped with {@code cascade="save-update"} * * @param object a detached instance containing updated state */ void update(Object object); /** * Update the persistent instance with the identifier of the given detached * instance. If there is a persistent instance with the same identifier, * an exception is thrown. This operation cascades to associated instances * if the association is mapped with {@code cascade="save-update"} * * @param entityName The entity name * @param object a detached instance containing updated state */ void update(String entityName, Object object); /** * Copy the state of the given object onto the persistent object with the same * identifier. If there is no persistent instance currently associated with * the session, it will be loaded. Return the persistent instance. If the * given instance is unsaved, save a copy of and return it as a newly persistent * instance. The given instance does not become associated with the session. * This operation cascades to associated instances if the association is mapped * with {@code cascade="merge"} *

* The semantics of this method are defined by JSR-220. * * @param object a detached instance with state to be copied * * @return an updated persistent instance */ Object merge(Object object); /** * Copy the state of the given object onto the persistent object with the same * identifier. If there is no persistent instance currently associated with * the session, it will be loaded. Return the persistent instance. If the * given instance is unsaved, save a copy of and return it as a newly persistent * instance. The given instance does not become associated with the session. * This operation cascades to associated instances if the association is mapped * with {@code cascade="merge"} *

* The semantics of this method are defined by JSR-220. * * @param entityName The entity name * @param object a detached instance with state to be copied * * @return an updated persistent instance */ Object merge(String entityName, Object object); /** * Make a transient instance persistent. This operation cascades to associated * instances if the association is mapped with {@code cascade="persist"} *

* The semantics of this method are defined by JSR-220. * * @param object a transient instance to be made persistent */ void persist(Object object); /** * Make a transient instance persistent. This operation cascades to associated * instances if the association is mapped with {@code cascade="persist"} *

* The semantics of this method are defined by JSR-220. * * @param entityName The entity name * @param object a transient instance to be made persistent */ void persist(String entityName, Object object); /** * Remove a persistent instance from the datastore. The argument may be * an instance associated with the receiving Session or a transient * instance with an identifier associated with existing persistent state. * This operation cascades to associated instances if the association is mapped * with {@code cascade="delete"} * * @param object the instance to be removed */ void delete(Object object); /** * Remove a persistent instance from the datastore. The object argument may be * an instance associated with the receiving Session or a transient * instance with an identifier associated with existing persistent state. * This operation cascades to associated instances if the association is mapped * with {@code cascade="delete"} * * @param entityName The entity name for the instance to be removed. * @param object the instance to be removed */ void delete(String entityName, Object object); /** * Obtain the specified lock level upon the given object. This may be used to * perform a version check (LockMode.READ), to upgrade to a pessimistic * lock (LockMode.PESSIMISTIC_WRITE), or to simply reassociate a transient instance * with a session (LockMode.NONE). This operation cascades to associated * instances if the association is mapped with cascade="lock". *

* Convenient form of {@link LockRequest#lock(Object)} via {@link #buildLockRequest(LockOptions)} * * @param object a persistent or transient instance * @param lockMode the lock level * * @see #buildLockRequest(LockOptions) * @see LockRequest#lock(Object) */ void lock(Object object, LockMode lockMode); /** * Obtain the specified lock level upon the given object. This may be used to * perform a version check (LockMode.OPTIMISTIC), to upgrade to a pessimistic * lock (LockMode.PESSIMISTIC_WRITE), or to simply reassociate a transient instance * with a session (LockMode.NONE). This operation cascades to associated * instances if the association is mapped with cascade="lock". *

* Convenient form of {@link LockRequest#lock(String, Object)} via {@link #buildLockRequest(LockOptions)} * * @param entityName The name of the entity * @param object a persistent or transient instance * @param lockMode the lock level * * @see #buildLockRequest(LockOptions) * @see LockRequest#lock(String, Object) */ void lock(String entityName, Object object, LockMode lockMode); /** * Build a LockRequest that specifies the LockMode, pessimistic lock timeout and lock scope. * timeout and scope is ignored for optimistic locking. After building the LockRequest, * call LockRequest.lock to perform the requested locking. *

* Example usage: * {@code session.buildLockRequest().setLockMode(LockMode.PESSIMISTIC_WRITE).setTimeOut(60000).lock(entity);} * * @param lockOptions contains the lock level * * @return a lockRequest that can be used to lock the passed object. */ LockRequest buildLockRequest(LockOptions lockOptions); /** * Re-read the state of the given instance from the underlying database. It is * inadvisable to use this to implement long-running sessions that span many * business tasks. This method is, however, useful in certain special circumstances. * For example *

    *
  • where a database trigger alters the object state upon insert or update *
  • after executing direct SQL (eg. a mass update) in the same session *
  • after inserting a Blob or Clob *
* * @param object a persistent or detached instance */ void refresh(Object object); /** * Re-read the state of the given instance from the underlying database. It is * inadvisable to use this to implement long-running sessions that span many * business tasks. This method is, however, useful in certain special circumstances. * For example *
    *
  • where a database trigger alters the object state upon insert or update *
  • after executing direct SQL (eg. a mass update) in the same session *
  • after inserting a Blob or Clob *
* * @param entityName a persistent class * @param object a persistent or detached instance */ void refresh(String entityName, Object object); /** * Re-read the state of the given instance from the underlying database, with * the given LockMode. It is inadvisable to use this to implement * long-running sessions that span many business tasks. This method is, however, * useful in certain special circumstances. *

* Convenient form of {@link #refresh(Object, LockOptions)} * * @param object a persistent or detached instance * @param lockMode the lock mode to use * * @see #refresh(Object, LockOptions) */ void refresh(Object object, LockMode lockMode); /** * Re-read the state of the given instance from the underlying database, with * the given LockMode. It is inadvisable to use this to implement * long-running sessions that span many business tasks. This method is, however, * useful in certain special circumstances. * * @param object a persistent or detached instance * @param lockOptions contains the lock mode to use */ void refresh(Object object, LockOptions lockOptions); /** * Re-read the state of the given instance from the underlying database, with * the given LockMode. It is inadvisable to use this to implement * long-running sessions that span many business tasks. This method is, however, * useful in certain special circumstances. * * @param entityName a persistent class * @param object a persistent or detached instance * @param lockOptions contains the lock mode to use */ void refresh(String entityName, Object object, LockOptions lockOptions); /** * Determine the current lock mode of the given object. * * @param object a persistent instance * * @return the current lock mode */ LockMode getCurrentLockMode(Object object); /** * Create a {@link Query} instance for the given collection and filter string. Contains an implicit {@code FROM} * element named {@code this} which refers to the defined table for the collection elements, as well as an implicit * {@code WHERE} restriction for this particular collection instance's key value. * * @param collection a persistent collection * @param queryString a Hibernate query fragment. * * @return The query instance for manipulation and execution * * @deprecated (since 5.3) with no real replacement. */ @Deprecated org.hibernate.Query createFilter(Object collection, String queryString); /** * Completely clear the session. Evict all loaded instances and cancel all pending * saves, updates and deletions. Do not close open iterators or instances of * ScrollableResults. */ void clear(); /** * Return the persistent instance of the given entity class with the given identifier, * or null if there is no such persistent instance. (If the instance is already associated * with the session, return that instance. This method never returns an uninitialized instance.) * * @param entityType The entity type * @param id an identifier * * @return a persistent instance or null */ T get(Class entityType, Serializable id); /** * Return the persistent instance of the given entity class with the given identifier, * or null if there is no such persistent instance. (If the instance is already associated * with the session, return that instance. This method never returns an uninitialized instance.) * Obtain the specified lock mode if the instance exists. *

* Convenient form of {@link #get(Class, Serializable, LockOptions)} * * @param entityType The entity type * @param id an identifier * @param lockMode the lock mode * * @return a persistent instance or null * * @see #get(Class, Serializable, LockOptions) */ T get(Class entityType, Serializable id, LockMode lockMode); /** * Return the persistent instance of the given entity class with the given identifier, * or null if there is no such persistent instance. (If the instance is already associated * with the session, return that instance. This method never returns an uninitialized instance.) * Obtain the specified lock mode if the instance exists. * * @param entityType The entity type * @param id an identifier * @param lockOptions the lock mode * * @return a persistent instance or null */ T get(Class entityType, Serializable id, LockOptions lockOptions); /** * Return the persistent instance of the given named entity with the given identifier, * or null if there is no such persistent instance. (If the instance is already associated * with the session, return that instance. This method never returns an uninitialized instance.) * * @param entityName the entity name * @param id an identifier * * @return a persistent instance or null */ Object get(String entityName, Serializable id); /** * Return the persistent instance of the given entity class with the given identifier, * or null if there is no such persistent instance. (If the instance is already associated * with the session, return that instance. This method never returns an uninitialized instance.) * Obtain the specified lock mode if the instance exists. *

* Convenient form of {@link #get(String, Serializable, LockOptions)} * * @param entityName the entity name * @param id an identifier * @param lockMode the lock mode * * @return a persistent instance or null * * @see #get(String, Serializable, LockOptions) */ Object get(String entityName, Serializable id, LockMode lockMode); /** * Return the persistent instance of the given entity class with the given identifier, * or null if there is no such persistent instance. (If the instance is already associated * with the session, return that instance. This method never returns an uninitialized instance.) * Obtain the specified lock mode if the instance exists. * * @param entityName the entity name * @param id an identifier * @param lockOptions contains the lock mode * * @return a persistent instance or null */ Object get(String entityName, Serializable id, LockOptions lockOptions); /** * Return the entity name for a persistent entity. * * @param object a persistent entity * * @return the entity name */ String getEntityName(Object object); /** * Create an {@link IdentifierLoadAccess} instance to retrieve the specified entity type by * primary key. * * @param entityName The entity name of the entity type to be retrieved * * @return load delegate for loading the specified entity type by primary key * * @throws HibernateException If the specified entity name cannot be resolved as an entity name */ IdentifierLoadAccess byId(String entityName); /** * Create a {@link MultiIdentifierLoadAccess} instance to retrieve multiple entities at once * as specified by primary key values. * * @param entityClass The entity type to be retrieved * * @return load delegate for loading the specified entity type by primary key values * * @throws HibernateException If the specified Class cannot be resolved as a mapped entity */ MultiIdentifierLoadAccess byMultipleIds(Class entityClass); /** * Create a {@link MultiIdentifierLoadAccess} instance to retrieve multiple entities at once * as specified by primary key values. * * @param entityName The entity name of the entity type to be retrieved * * @return load delegate for loading the specified entity type by primary key values * * @throws HibernateException If the specified entity name cannot be resolved as an entity name */ MultiIdentifierLoadAccess byMultipleIds(String entityName); /** * Create an {@link IdentifierLoadAccess} instance to retrieve the specified entity by * primary key. * * @param entityClass The entity type to be retrieved * * @return load delegate for loading the specified entity type by primary key * * @throws HibernateException If the specified Class cannot be resolved as a mapped entity */ IdentifierLoadAccess byId(Class entityClass); /** * Create a {@link NaturalIdLoadAccess} instance to retrieve the specified entity by * its natural id. * * @param entityName The entity name of the entity type to be retrieved * * @return load delegate for loading the specified entity type by natural id * * @throws HibernateException If the specified entity name cannot be resolved as an entity name */ NaturalIdLoadAccess byNaturalId(String entityName); /** * Create a {@link NaturalIdLoadAccess} instance to retrieve the specified entity by * its natural id. * * @param entityClass The entity type to be retrieved * * @return load delegate for loading the specified entity type by natural id * * @throws HibernateException If the specified Class cannot be resolved as a mapped entity */ NaturalIdLoadAccess byNaturalId(Class entityClass); /** * Create a {@link SimpleNaturalIdLoadAccess} instance to retrieve the specified entity by * its natural id. * * @param entityName The entity name of the entity type to be retrieved * * @return load delegate for loading the specified entity type by natural id * * @throws HibernateException If the specified entityClass cannot be resolved as a mapped entity, or if the * entity does not define a natural-id or if its natural-id is made up of multiple attributes. */ SimpleNaturalIdLoadAccess bySimpleNaturalId(String entityName); /** * Create a {@link SimpleNaturalIdLoadAccess} instance to retrieve the specified entity by * its simple (single attribute) natural id. * * @param entityClass The entity type to be retrieved * * @return load delegate for loading the specified entity type by natural id * * @throws HibernateException If the specified entityClass cannot be resolved as a mapped entity, or if the * entity does not define a natural-id or if its natural-id is made up of multiple attributes. */ SimpleNaturalIdLoadAccess bySimpleNaturalId(Class entityClass); /** * Enable the named filter for this current session. * * @param filterName The name of the filter to be enabled. * * @return The Filter instance representing the enabled filter. */ Filter enableFilter(String filterName); /** * Retrieve a currently enabled filter by name. * * @param filterName The name of the filter to be retrieved. * * @return The Filter instance representing the enabled filter. */ Filter getEnabledFilter(String filterName); /** * Disable the named filter for the current session. * * @param filterName The name of the filter to be disabled. */ void disableFilter(String filterName); /** * Get the statistics for this session. * * @return The session statistics being collected for this session */ SessionStatistics getStatistics(); /** * Is the specified entity or proxy read-only? * * To get the default read-only/modifiable setting used for * entities and proxies that are loaded into the session: * @see org.hibernate.Session#isDefaultReadOnly() * * @param entityOrProxy an entity or HibernateProxy * @return {@code true} if the entity or proxy is read-only, {@code false} if the entity or proxy is modifiable. */ boolean isReadOnly(Object entityOrProxy); /** * Set an unmodified persistent object to read-only mode, or a read-only * object to modifiable mode. In read-only mode, no snapshot is maintained, * the instance is never dirty checked, and changes are not persisted. * * If the entity or proxy already has the specified read-only/modifiable * setting, then this method does nothing. * * To set the default read-only/modifiable setting used for * entities and proxies that are loaded into the session: * @see org.hibernate.Session#setDefaultReadOnly(boolean) * * To override this session's read-only/modifiable setting for entities * and proxies loaded by a Query: * @see Query#setReadOnly(boolean) * * @param entityOrProxy an entity or HibernateProxy * @param readOnly {@code true} if the entity or proxy should be made read-only; {@code false} if the entity or * proxy should be made modifiable */ void setReadOnly(Object entityOrProxy, boolean readOnly); @Override RootGraph createEntityGraph(Class rootType); @Override RootGraph createEntityGraph(String graphName); @Override RootGraph getEntityGraph(String graphName); @Override @SuppressWarnings({"unchecked", "RedundantCast"}) default List> getEntityGraphs(Class entityClass) { return (List) getSessionFactory().findEntityGraphsByType( entityClass ); } /** * Disconnect the session from its underlying JDBC connection. This is intended for use in cases where the * application has supplied the JDBC connection to the session and which require long-sessions (aka, conversations). *

* It is considered an error to call this method on a session which was not opened by supplying the JDBC connection * and an exception will be thrown. *

* For non-user-supplied scenarios, normal transaction management already handles disconnection and reconnection * automatically. * * @return the application-supplied connection or {@code null} * * @see #reconnect(Connection) */ Connection disconnect(); /** * Reconnect to the given JDBC connection. * * @param connection a JDBC connection * * @see #disconnect() */ void reconnect(Connection connection); /** * Is a particular fetch profile enabled on this session? * * @param name The name of the profile to be checked. * @return True if fetch profile is enabled; false if not. * @throws UnknownProfileException Indicates that the given name does not * match any known profile names * * @see org.hibernate.engine.profile.FetchProfile for discussion of this feature */ boolean isFetchProfileEnabled(String name) throws UnknownProfileException; /** * Enable a particular fetch profile on this session. No-op if requested * profile is already enabled. * * @param name The name of the fetch profile to be enabled. * @throws UnknownProfileException Indicates that the given name does not * match any known profile names * * @see org.hibernate.engine.profile.FetchProfile for discussion of this feature */ void enableFetchProfile(String name) throws UnknownProfileException; /** * Disable a particular fetch profile on this session. No-op if requested * profile is already disabled. * * @param name The name of the fetch profile to be disabled. * @throws UnknownProfileException Indicates that the given name does not * match any known profile names * * @see org.hibernate.engine.profile.FetchProfile for discussion of this feature */ void disableFetchProfile(String name) throws UnknownProfileException; /** * Convenience access to the {@link TypeHelper} associated with this session's {@link SessionFactory}. *

* Equivalent to calling {@link #getSessionFactory()}.{@link SessionFactory#getTypeHelper getTypeHelper()} * * @return The {@link TypeHelper} associated with this session's {@link SessionFactory} */ TypeHelper getTypeHelper(); /** * Retrieve this session's helper/delegate for creating LOB instances. * * @return This session's LOB helper */ LobHelper getLobHelper(); /** * Contains locking details (LockMode, Timeout and Scope). */ interface LockRequest { /** * Constant usable as a time out value that indicates no wait semantics should be used in * attempting to acquire locks. */ int PESSIMISTIC_NO_WAIT = 0; /** * Constant usable as a time out value that indicates that attempting to acquire locks should be allowed to * wait forever (apply no timeout). */ int PESSIMISTIC_WAIT_FOREVER = -1; /** * Get the lock mode. * * @return the lock mode. */ LockMode getLockMode(); /** * Specify the LockMode to be used. The default is LockMode.none. * * @param lockMode The lock mode to use for this request * * @return this LockRequest instance for operation chaining. */ LockRequest setLockMode(LockMode lockMode); /** * Get the timeout setting. * * @return timeout in milliseconds, -1 for indefinite wait and 0 for no wait. */ int getTimeOut(); /** * Specify the pessimistic lock timeout (check if your dialect supports this option). * The default pessimistic lock behavior is to wait forever for the lock. * * @param timeout is time in milliseconds to wait for lock. -1 means wait forever and 0 means no wait. * * @return this LockRequest instance for operation chaining. */ LockRequest setTimeOut(int timeout); /** * Check if locking is cascaded to owned collections and relationships. * * @return true if locking will be extended to owned collections and relationships. */ boolean getScope(); /** * Specify if LockMode should be cascaded to owned collections and relationships. * The association must be mapped with {@code cascade="lock"} for scope=true to work. * * @param scope {@code true} to cascade locks; {@code false} to not. * * @return {@code this}, for method chaining */ LockRequest setScope(boolean scope); /** * Perform the requested locking. * * @param entityName The name of the entity to lock * @param object The instance of the entity to lock */ void lock(String entityName, Object object); /** * Perform the requested locking. * * @param object The instance of the entity to lock */ void lock(Object object); } /** * Add one or more listeners to the Session * * @param listeners The listener(s) to add */ void addEventListeners(SessionEventListener... listeners); @Override org.hibernate.query.Query createQuery(String queryString, Class resultType); // Override the JPA return type with the one exposed in QueryProducer @Override org.hibernate.query.Query createQuery(CriteriaQuery criteriaQuery); // Override the JPA return type with the one exposed in QueryProducer @Override org.hibernate.query.Query createQuery(CriteriaUpdate updateQuery); // Override the JPA return type with the one exposed in QueryProducer @Override org.hibernate.query.Query createQuery(CriteriaDelete deleteQuery); org.hibernate.query.Query createNamedQuery(String name, Class resultType); @Override NativeQuery createSQLQuery(String queryString); }





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