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The Java Data Objects (JDO) API is a standard interface-based Java model abstraction of persistence, developed as Java Specification Request 243 under the auspices of the Java Community Process.

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 * contributor license agreements.  See the NOTICE file distributed with
 * this work for additional information regarding copyright ownership.
 * The ASF licenses this file to You under the Apache License, Version 2.0
 * (the "License"); you may not use this file except in compliance with
 * the License.  You may obtain a copy of the License at
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 *     http://www.apache.org/licenses/LICENSE-2.0
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 * Unless required by applicable law or agreed to in writing, software 
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/*
 * PersistenceManager.java
 *
 */
 
package javax.jdo;

import java.util.Collection;
import java.util.Date;
import java.util.EnumSet;
import java.util.Set;

import javax.jdo.datastore.JDOConnection;
import javax.jdo.datastore.Sequence;

import javax.jdo.listener.InstanceLifecycleListener;

/** PersistenceManager is the primary interface for JDO-aware 
 * application components.  It is the factory for Query and 
 * Transaction instances, and contains methods to manage the 
 * life cycle of PersistenceCapable instances.
 *
 * 

A PersistenceManager is obtained from the * {@link PersistenceManagerFactory} * (recommended) or by construction. * @version 2.1 */ public interface PersistenceManager { /** * A PersistenceManager instance can be used until it is * closed. * @return true if this PersistenceManager has * been closed. * @see #close() */ boolean isClosed (); /** Close this PersistenceManager so that no further requests * may be made on it. A PersistenceManager instance can be * used only until it is closed. * *

Closing a PersistenceManager might release it to the pool * of available PersistenceManagers, or might be garbage * collected, at the option of the JDO implementation. Before being used * again to satisfy a getPersistenceManager() request, the * default values for options will be restored to their values as specified * in the PersistenceManagerFactory. * *

This method closes the PersistenceManager. */ void close (); /** Return the Transaction instance associated with a * PersistenceManager. There is one Transaction * instance associated with each PersistenceManager instance. * The Transaction instance supports options as well as * transaction completion requests. * @return the Transaction associated with this * PersistenceManager. */ Transaction currentTransaction(); /** Mark an instance as no longer needed in the cache. Eviction is normally * done automatically by the PersistenceManager at transaction * completion. This method allows the application to explicitly provide a * hint to the PersistenceManager that the instance is no * longer needed in the cache. * @param pc the instance to evict from the cache. */ void evict (Object pc); /** Mark an array of instances as no longer needed in the cache. * @see #evict(Object pc) * @param pcs the array of instances to evict from the cache. */ void evictAll (Object... pcs); /** Mark a Collection of instances as no longer needed in the * cache. * @see #evict(Object pc) * @param pcs the Collection of instances to evict from the * cache. */ void evictAll (Collection pcs); /** Mark the parameter instances as no longer needed in the cache. * @param pcClass the class of instances to evict * @param subclasses if true, mark instances of subclasses also * @since 2.1 */ void evictAll (boolean subclasses, Class pcClass); /** Mark all persistent-nontransactional instances as no longer needed * in the cache. It transitions * all persistent-nontransactional instances to hollow. Transactional * instances are subject to eviction based on the RetainValues setting. * @see #evict(Object pc) */ void evictAll (); /** Refresh the state of the instance from the data store. * *

In an optimistic transaction, the state of instances in the cache * might not match the state in the data store. This method is used to * reload the state of the instance from the data store so that a subsequent * commit is more likely to succeed. *

Outside a transaction, this method will refresh nontransactional * state. * @param pc the instance to refresh. */ void refresh (Object pc); /** Refresh the state of an array of instances from the data store. * * @see #refresh(Object pc) * @param pcs the array of instances to refresh. */ void refreshAll (Object... pcs); /** Refresh the state of a Collection of instances from the * data store. * * @see #refresh(Object pc) * @param pcs the Collection of instances to refresh. */ void refreshAll (Collection pcs); /** Refresh the state of all applicable instances from the data store. *

If called with an active transaction, all transactional instances * will be refreshed. If called outside an active transaction, all * nontransactional instances will be refreshed. * @see #refresh(Object pc) */ void refreshAll (); /** * Refreshes all instances in the exception that failed verification. * * @since 2.0 */ void refreshAll (JDOException jdoe); /** Create a new Query with no elements. * @return the new Query. */ Query newQuery (); /** Create a new Query using elements from another * Query. The other Query must have been created * by the same JDO implementation. It might be active in a different * PersistenceManager or might have been serialized and * restored. *

All of the settings of the other Query are copied to this * Query, except for the candidate Collection or * Extent. * @return the new Query * @param compiled another Query from the same JDO * implementation */ Query newQuery (Object compiled); /** Create a Construct a new query instance using the specified String * as the single-string representation of the query. * @param query the single-string query * @return the new Query * @since 2.0 */ Query newQuery (String query); /** Create a new Query using the specified language. * @param language the language of the query parameter * @param query the query, which is of a form determined by the language * @return the new Query */ Query newQuery (String language, Object query); /** Create a new Query specifying the Class of the * candidate instances. * @param cls the Class of the candidate instances * @return the new Query */ Query newQuery (Class cls); /** Create a new Query with the Class of the * candidate instances and candidate Extent. * @param cln the Extent of candidate instances * @return the new Query */ Query newQuery (Extent cln); /** Create a new Query with the candidate Class * and Collection. * @param cls the Class of results * @param cln the Collection of candidate instances * @return the new Query */ Query newQuery (Class cls, Collection cln); /** Create a new Query with the Class of the * candidate instances and filter. * @param cls the Class of results * @param filter the filter for candidate instances * @return the new Query */ Query newQuery (Class cls, String filter); /** Create a new Query with the Class of the * candidate instances, * candidate Collection, and filter. * @param cls the Class of candidate instances * @param cln the Collection of candidate instances * @param filter the filter for candidate instances * @return the new Query */ Query newQuery (Class cls, Collection cln, String filter); /** Create a new Query with the * candidate Extent and filter; the class * is taken from the Extent. * @param cln the Extent of candidate instances * @param filter the filter for candidate instances * @return the new Query */ Query newQuery (Extent cln, String filter); /** * Create a new Query with the given candidate class * from a named query. The query name given must be the name of a * query defined in metadata. * @param cls the Class of candidate instances * @param queryName the name of the query to look up in metadata * @return the new Query */ Query newNamedQuery (Class cls, String queryName); /** The PersistenceManager manages a collection of instances in * the data store based on the class of the instances. This method returns * an Extent of instances in the data store that might be * iterated or given to a Query. The Extent * itself might not reference any instances, but only hold the class name * and an indicator as to whether subclasses are included in the * Extent. *

Note that the Extent might be very large. * @param persistenceCapableClass Class of instances * @param subclasses whether to include instances of subclasses * @return an Extent of the specified Class * @see Query */ Extent getExtent (Class persistenceCapableClass, boolean subclasses); /** * Equivalent to getExtent (persistenceCapableClass, * true). * @see #getExtent(Class,boolean) * @since 2.0 */ Extent getExtent (Class persistenceCapableClass); /** This method locates a persistent instance in the cache of instances * managed by this PersistenceManager. * The getObjectById method attempts * to find an instance in the cache with the specified JDO identity. * The oid parameter object might have been returned by an * earlier call to getObjectId or * getTransactionalObjectId, or might have been constructed by * the application. *

If the PersistenceManager is unable to resolve the * oid parameter to an ObjectId instance, then it throws a * JDOUserException. *

If the validate flag is false, and there is * already an instance in the cache with the same JDO identity as the * oid parameter, then this method returns it. There is no * change made to the state of the returned instance. *

If there is not an instance already in the cache with the same JDO * identity as the oid parameter, then this method creates an * instance with the specified JDO identity and returns it. If there is no * transaction in progress, the returned instance will be hollow or * persistent-nontransactional, at the choice of the implementation. *

If there is a transaction in progress, the returned instance will * be hollow, persistent-nontransactional, or persistent-clean, at the * choice of the implementation. *

It is an implementation decision whether to access the data store, * if required to determine the exact class. This will be the case of * inheritance, where multiple PersistenceCapable classes share * the same ObjectId class. *

If the validate flag is false, and the instance does not * exist in the data store, then this method might not fail. It is an * implementation choice whether to fail immediately with a * JDOObjectNotFoundException. But a subsequent access * of the fields of the * instance will throw a JDOObjectNotFoundException * if the instance does not * exist at that time. Further, if a relationship is established to this * instance, then the transaction in which the association was made will * fail. *

If the validate flag is true, and there is * already a transactional instance in the cache with the same JDO identity * as the oid parameter, then this method returns it. There is * no change made to the state of the returned instance. *

If there is an instance already in the cache with the same JDO * identity as the oid parameter, but the instance is not * transactional, then it must be verified in the data store. If the * instance does not exist in the datastore, then a * JDOObjectNotFoundException is thrown. *

If there is not an instance already in the cache with the same JDO * identity as the oid parameter, then this method creates an * instance with the specified JDO identity, verifies that it exists in the * data store, and returns it. If there is no transaction in progress, the * returned instance will be hollow or persistent-nontransactional, * at the choice of the implementation. *

If there is a data store transaction in progress, the returned * instance will be persistent-clean. * If there is an optimistic transaction in progress, the returned * instance will be persistent-nontransactional. * @see #getObjectId(Object pc) * @see #getTransactionalObjectId(Object pc) * @return the PersistenceCapable instance with the specified * ObjectId * @param oid an ObjectId * @param validate if the existence of the instance is to be validated */ Object getObjectById (Object oid, boolean validate); /** * Looks up the instance of the given type with the given key. * @param cls The type of object to load * @param key either the string representation of the object id, or * an object representation of a single field identity key * @return the corresponding persistent instance * @since 2.0 */ T getObjectById (Class cls, Object key); /** * Looks up the instance corresponding to the specified oid. This is * equivalent to getObjectById(oid, true); * @param oid The object id of the object to load * @return the corresponding persistent instance */ Object getObjectById (Object oid); /** The ObjectId returned by this method represents the JDO identity of * the instance. The ObjectId is a copy (clone) of the internal state * of the instance, and changing it does not affect the JDO identity of * the instance. *

The getObjectId method returns an ObjectId instance that * represents the object identity of the specified JDO instance. The * identity is guaranteed to be unique only in the context of the JDO * PersistenceManager that created the identity, and only for * two types of JDO Identity: those that are managed by the application, and * those that are managed by the data store. *

If the object identity is being changed in the transaction, by the * application modifying one or more of the application key fields, * then this method returns the identity as of the beginning of the * transaction. The value returned by getObjectId will be * different following afterCompletion processing for * successful transactions.

Within a transaction, the ObjectId returned * will compare equal to the ObjectId returned by only one among all JDO * instances associated with the PersistenceManager regardless * of the type of ObjectId. *

The ObjectId does not necessarily contain any internal state of the * instance, nor is it necessarily an instance of the class used to * manage identity internally. Therefore, if the application makes a * change to the ObjectId instance returned by this method, there is * no effect on the instance from which the ObjectId was obtained. *

The getObjectById method can be used between instances of * PersistenceManager of different JDO vendors only for * instances of persistence capable classes using application-managed * (primary key) JDO identity. If it is used for instances of classes using * datastore identity, the method might succeed, but there are no guarantees * that the parameter and return instances are related in any way. * @see #getTransactionalObjectId(Object pc) * @see #getObjectById(Object oid, boolean validate) * @param pc the PersistenceCapable instance * @return the ObjectId of the instance */ Object getObjectId (Object pc); /** The ObjectId returned by this method represents the JDO identity of * the instance. The ObjectId is a copy (clone) of the internal state * of the instance, and changing it does not affect the JDO identity of * the instance. *

If the object identity is being changed in the transaction, by the * application modifying one or more of the application key fields, * then this method returns the current identity in the transaction. *

If there is no transaction in progress, or if none of the key fields * is being modified, then this method will return the same value as * getObjectId. * @see #getObjectId(Object pc) * @see #getObjectById(Object oid, boolean validate) * @param pc a PersistenceCapable instance * @return the ObjectId of the instance */ Object getTransactionalObjectId (Object pc); /** * This method returns an object id instance corresponding to the pcClass * and key arguments. * @param pcClass the Class of the persistence-capable instance * @param key for single-field identity, the parameter for the * constructor; for non-single-field application identity, the result * of toString() on the object id instance. * @return an instance of the object identity class */ Object newObjectIdInstance (Class pcClass, Object key); /** * Return the objects with the given oids. * @param oids the oids of the objects to return * @param validate if true, the existance of the objects in * the datastore will be validated. * @return the objects that were looked up, in the * same order as the oids parameter. * @see #getObjectById(Object,boolean) * @since 2.0 */ Collection getObjectsById (Collection oids, boolean validate); /** * Return the objects with the given oids. This method is equivalent * to calling {@link #getObjectsById(Collection, boolean)} * with the validate flag true. * @param oids the oids of the objects to return * @return the objects that were looked up, in the * same order as the oids parameter. * @see #getObjectsById(Collection,boolean) * @since 2.0 */ Collection getObjectsById (Collection oids); /** * Return the objects with the given oids. * @param oids the oids of the objects to return * @param validate if true, the existance of the objects in * the datastore will be validated. * @return the objects that were looked up, in the * same order as the oids parameter. * @see #getObjectById(Object,boolean) * @see #getObjectsById(boolean,Object...) * @deprecated * @since 2.0 */ Object[] getObjectsById (Object[] oids, boolean validate); /** * Return the objects with the given oids. * @param oids the oids of the objects to return * @param validate if true, the existance of the objects in * the datastore will be validated. * @return the objects that were looked up, in the * same order as the oids parameter. * @see #getObjectById(Object,boolean) * @since 2.1 */ Object[] getObjectsById (boolean validate, Object... oids); /** * Return the objects with the given oids. This method is equivalent * to calling {@link #getObjectsById(boolean,Object...)} * with the validate flag true. * @param oids the oids of the objects to return * @return the objects that were looked up, in the * same order as the oids parameter. * @see #getObjectsById(boolean,Object...) * @since 2.0 */ Object[] getObjectsById (Object... oids); /** Make the parameter instance persistent in this * PersistenceManager. * This method makes transient instances persistent and applies detached * instance changes to the cache. It must be called in the context of * an active transaction, or a JDOUserException is thrown. For a transient * instance, it assigns an object identity to the instance and transitions * it to persistent-new. Any transient instances reachable from this * instance via persistent fields of this instance become provisionally * persistent, transitively. That is, they behave as persistent-new * instances (return true to isPersistent, isNew, and isDirty). * But at commit time, the reachability algorithm is run again, * and instances made provisionally persistent that are not then * reachable from persistent instances will revert to transient. *

During makePersistent of transient instances, the create life cycle * listener is called. *

For detached instances, it locates or instantiates a persistent * instance with the same JDO identity as the detached instance, * and merges the persistent state of the detached instance into the * persistent instance. Only the state of persistent fields is merged. * If non-persistent state needs to be copied, the application should * use the jdoPostAttach callback or the postAttach lifecycle event * listener. Any references to the detached instances from instances * in the closure of the parameter instances are modified to refer to * the corresponding persistent instance instead of to the * detached instance. *

During attachment of detached instances, the attach callbacks * and attach life cycle listeners are called. *

During application of changes of the detached state, if the JDO * implementation can determine that there were no changes made during * detachment, then the implementation is not required to mark the * corresponding instance dirty. If it cannot determine if changes * were made, then it must mark the instance dirty. * No consistency checking is done during makePersistent of detached * instances. If consistency checking is required by the application, * then flush or checkConsistency should be called after attaching the * instances. *

These methods have no effect on parameter persistent instances * already managed by this PersistenceManager. They will throw a * JDOUserException if the parameter instance is managed by a * different PersistenceManager. * If an instance is of a class whose identity type (application, * datastore, or none) is not supported by the JDO implementation, * then a JDOUserException will be thrown for that instance. * The return value for parameter instances in the transient or persistent * states is the same as the parameter value. The return value for * parameter instances in the detached state is the persistent instance * corresponding to the detached instance. * The return values for makePersistentAll methods correspond by position * to the parameter instances. * @param pc an instance of a Class that is persistent * capable. * @return the parameter instance for parameters in the transient or * persistent state, or the corresponding persistent instance * for detached parameter instances */ T makePersistent (T pc); /** Make an array of instances persistent. * @param pcs an array of instances * @return the parameter instances for parameters in the transient or * persistent state, or the corresponding persistent instance * for detached parameter instances, in the same order as in the * parameter array * @see #makePersistent(Object pc) */ T[] makePersistentAll (T... pcs); /** Make a Collection of instances persistent. * @param pcs a Collection of instances * @return the parameter instance for parameters in the transient or * persistent state, or the corresponding persistent instance * for detached parameter instances, with an iteration in the same order * as in the parameter Collection * @see #makePersistent(Object pc) */ Collection makePersistentAll (Collection pcs); /** Delete the persistent instance from the data store. * This method must be called in an active transaction. * The data store object will be removed at commit. * Unlike makePersistent, which makes the closure of the * instance persistent, the closure of the instance is not deleted from the * data store. This method has no effect if the instance is already deleted * in the current transaction. * This method throws JDOUserException if the instance is * transient or is managed by another PersistenceManager. * * @param pc a persistent instance */ void deletePersistent (Object pc); /** Delete an array of instances from the data store. * @param pcs a Collection of persistent instances * @see #deletePersistent(Object pc) */ void deletePersistentAll (Object... pcs); /** Delete a Collection of instances from the data store. * @param pcs a Collection of persistent instances * @see #deletePersistent(Object pc) */ void deletePersistentAll (Collection pcs); /** Make an instance transient, removing it from management by this * PersistenceManager. * *

The instance loses its JDO identity and it is no longer associated * with any PersistenceManager. The state of fields is * preserved unchanged. * @param pc the instance to make transient. */ void makeTransient (Object pc); /** Make an array of instances transient, removing them from management by * this PersistenceManager. * *

The instances lose their JDO identity and they are no longer * associated with any PersistenceManager. The state of fields * is preserved unchanged. * @param pcs the instances to make transient. */ void makeTransientAll (Object... pcs); /** Make a Collection of instances transient, removing them * from management by this PersistenceManager. * *

The instances lose their JDO identity and they are no longer * associated with any PersistenceManager. The state of fields * is preserved unchanged. * @param pcs the instances to make transient. */ void makeTransientAll (Collection pcs); /** Make an instance transient, removing it from management by this * PersistenceManager. If the useFetchPlan parameter is * false, this method behaves exactly as makeTransient(Object pc). *

The affected instance(s) lose their JDO identity and are no longer * associated with any PersistenceManager. The state * of fields is unchanged. *

If the useFetchPlan parameter is true, then the current FetchPlan * is applied to the pc parameter, as if detachCopy(Object) had been * called. After the graph of instances is loaded, the instances * reachable via loaded fields is made transient. The state of fields * in the affected instances is as specified by the FetchPlan. *

Unlike detachCopy, the instances are not detached; there is no * detachment information in the instances. *

The instances to be made transient do not need to * implement the javax.jdo.spi.Detachable interface. * @param pc the root instance to make transient. * @param useFetchPlan whether to use the current fetch plan to determine * which fields to load and which instances to make transient * @since 2.0 */ void makeTransient (Object pc, boolean useFetchPlan); /** Make instances transient, removing them from management * by this PersistenceManager. If the useFetchPlan parameter * is false, this method behaves exactly as makeTransientAll(Object[] pcs). *

The affected instance(s) lose their JDO identity and are no longer * associated with any PersistenceManager. The state * of fields is unchanged. *

If the useFetchPlan parameter is true, then the current FetchPlan * is applied to the pcs parameters and the entire graph of instances * reachable via loaded fields is made transient. The state of fields * in the affected instances is as specified by the FetchPlan. *

Unlike detachCopy, the instances are not detached; there is no * detachment information in the instances. *

The instances to be made transient do not need to * implement the javax.jdo.spi.Detachable interface. * @param pcs the root instances to make transient. * @param useFetchPlan whether to use the current fetch plan to determine * which fields to load and which instances to make transient * @see #makeTransientAll(boolean,Object...) * @deprecated * @since 2.0 */ void makeTransientAll (Object[] pcs, boolean useFetchPlan); /** Make instances transient, removing them from management * by this PersistenceManager. If the useFetchPlan parameter * is false, this method behaves exactly as makeTransientAll(Object[] pcs). *

The affected instance(s) lose their JDO identity and are no longer * associated with any PersistenceManager. The state * of fields is unchanged. *

If the useFetchPlan parameter is true, then the current FetchPlan * is applied to the pcs parameters and the entire graph of instances * reachable via loaded fields is made transient. The state of fields * in the affected instances is as specified by the FetchPlan. *

Unlike detachCopy, the instances are not detached; there is no * detachment information in the instances. *

The instances to be made transient do not need to * implement the javax.jdo.spi.Detachable interface. * @param pcs the root instances to make transient. * @param useFetchPlan whether to use the current fetch plan to determine * which fields to load and which instances to make transient * @since 2.1 */ void makeTransientAll (boolean useFetchPlan, Object... pcs); /** Make instances transient, removing them from management * by this PersistenceManager. If the useFetchPlan parameter * is false, this method behaves exactly as * makeTransientAll(Collection pcs). *

The affected instance(s) lose their JDO identity and are no longer * associated with any PersistenceManager. The state * of fields is unchanged. *

If the useFetchPlan parameter is true, then the current FetchPlan * is applied to the pcs parameters and the entire graph of instances * reachable via loaded fields is made transient. The state of fields * in the affected instances is as specified by the FetchPlan. *

Unlike detachCopy, the instances are not detached; there is no * detachment information in the instances. *

The instances to be made transient do not need to * implement the javax.jdo.spi.Detachable interface. * @param pcs the root instances to make transient. * @param useFetchPlan whether to use the current fetch plan to determine * which fields to load and which instances to make transient * @since 2.0 */ void makeTransientAll (Collection pcs, boolean useFetchPlan); /** Make an instance subject to transactional boundaries. * *

Transient instances normally do not observe transaction boundaries. * This method makes transient instances sensitive to transaction * completion. If an instance is modified in a transaction, and the * transaction rolls back, the state of the instance is restored to the * state before the first change in the transaction. * *

For persistent instances read in optimistic transactions, this method * allows the application to make the state of the instance part of the * transactional state. At transaction commit, the state of the instance in * the cache is compared to the state of the instance in the data store. If * they are not the same, then an exception is thrown. * @param pc the instance to make transactional. */ void makeTransactional (Object pc); /** Make an array of instances subject to transactional boundaries. * @param pcs the array of instances to make transactional. * @see #makeTransactional(Object pc) */ void makeTransactionalAll (Object... pcs); /** Make a Collection of instances subject to transactional * boundaries. * @param pcs the Collection of instances to make * transactional. * @see #makeTransactional(Object pc) */ void makeTransactionalAll (Collection pcs); /** Make an instance non-transactional after commit. * *

Normally, at transaction completion, instances are evicted from the * cache. This method allows an application to identify an instance as * not being evicted from the cache at transaction completion. Instead, * the instance remains in the cache with nontransactional state. * * @param pc the instance to make nontransactional. */ void makeNontransactional (Object pc); /** Make an array of instances non-transactional after commit. * * @param pcs the array of instances to make nontransactional. * @see #makeNontransactional(Object pc) */ void makeNontransactionalAll (Object... pcs); /** Make a Collection of instances non-transactional after * commit. * * @param pcs the Collection of instances to make * nontransactional. * @see #makeNontransactional(Object pc) */ void makeNontransactionalAll (Collection pcs); /** Retrieve field values of an instance from the store. This tells * the PersistenceManager that the application intends to use * the instance, and its field values must be retrieved. *

The PersistenceManager might use policy information about * the class to retrieve associated instances. * @param pc the instance */ void retrieve (Object pc); /** Retrieve field values of an instance from the store. This tells * the PersistenceManager that the application intends to use * the instance, and its field values must be retrieved. *

If the useFetchPlan parameter is false, this method behaves exactly * as the corresponding method without the useFetchPlan parameter. * If the useFetchPlan parameter is true, and the fetch plan has not been * modified from its default setting, all fields in the current fetch plan * are fetched, and other fields might be fetched lazily by the * implementation. If the useFetchPlan parameter is true, and the fetch * plan has been changed from its default setting, then the fields * specified by the fetch plan are loaded, along with related instances * specified by the fetch plan. * @param pc the instance * @param useFetchPlan whether to use the current fetch plan to determine * which fields to load and which instances to retrieve. * @since 2.0 */ void retrieve (Object pc, boolean useFetchPlan); /** Retrieve field values of instances from the store. This tells * the PersistenceManager that the application intends to use * the instances, and all field values must be retrieved. *

The PersistenceManager might use policy information about * the class to retrieve associated instances. * @param pcs the instances */ void retrieveAll (Collection pcs); /** Retrieve field values of instances from the store. This tells * the PersistenceManager that the application intends to use * the instances, and their field values should be retrieved. The fields * in the current fetch group must be retrieved, and the implementation * might retrieve more fields than the current fetch group. *

If the useFetchPlan parameter is false, this method behaves exactly * as the corresponding method without the useFetchPlan parameter. * If the useFetchPlan parameter is true, and the fetch plan has not been * modified from its default setting, all fields in the current fetch plan * are fetched, and other fields might be fetched lazily by the * implementation. If the useFetchPlan parameter is true, and the fetch * plan has been changed from its default setting, then the fields * specified by the fetch plan are loaded, along with related instances * specified by the fetch plan. * @param pcs the instances * @param useFetchPlan whether to use the current fetch plan to determine * which fields to load and which instances to retrieve. * @since 1.0.1 */ void retrieveAll (Collection pcs, boolean useFetchPlan); /** Retrieve field values of instances from the store. This tells * the PersistenceManager that the application intends to use * the instances, and all field values must be retrieved. *

The PersistenceManager might use policy information about * the class to retrieve associated instances. * @param pcs the instances */ void retrieveAll (Object... pcs); /** Retrieve field values of instances from the store. This tells * the PersistenceManager that the application intends to use * the instances, and their field values should be retrieved. The fields * in the current fetch group must be retrieved, and the implementation * might retrieve more fields than the current fetch group. *

If the useFetchPlan parameter is false, this method behaves exactly * as the corresponding method without the useFetchPlan parameter. * If the useFetchPlan parameter is true, and the fetch plan has not been * modified from its default setting, all fields in the current fetch plan * are fetched, and other fields might be fetched lazily by the * implementation. If the useFetchPlan parameter is true, and the fetch * plan has been changed from its default setting, then the fields * specified by the fetch plan are loaded, along with related instances * specified by the fetch plan. * @param pcs the instances * @param useFetchPlan whether to use the current fetch plan to determine * which fields to load and which instances to retrieve. * @deprecated * @see #retrieveAll(boolean,Object...) * @since 1.0.1 */ void retrieveAll (Object[] pcs, boolean useFetchPlan); /** Retrieve field values of instances from the store. This tells * the PersistenceManager that the application intends to use * the instances, and their field values should be retrieved. The fields * in the current fetch group must be retrieved, and the implementation * might retrieve more fields than the current fetch group. *

If the useFetchPlan parameter is false, this method behaves exactly * as the corresponding method without the useFetchPlan parameter. * If the useFetchPlan parameter is true, and the fetch plan has not been * modified from its default setting, all fields in the current fetch plan * are fetched, and other fields might be fetched lazily by the * implementation. If the useFetchPlan parameter is true, and the fetch * plan has been changed from its default setting, then the fields * specified by the fetch plan are loaded, along with related instances * specified by the fetch plan. * @param pcs the instances * @param useFetchPlan whether to use the current fetch plan to determine * which fields to load and which instances to retrieve. * @since 2.1 */ void retrieveAll (boolean useFetchPlan, Object... pcs); /** The application can manage the PersistenceManager instances * more easily by having an application object associated with each * PersistenceManager instance. * @param o the user instance to be remembered by the * PersistenceManager * @see #getUserObject */ void setUserObject (Object o); /** The application can manage the PersistenceManager instances * more easily by having an application object associated with each * PersistenceManager instance. * @return the user object associated with this * PersistenceManager * @see #setUserObject */ Object getUserObject (); /** This method returns the PersistenceManagerFactory used to * create this PersistenceManager. * @return the PersistenceManagerFactory that created * this PersistenceManager */ PersistenceManagerFactory getPersistenceManagerFactory(); /** Return the Class that implements the JDO Identity for the * specified PersistenceCapable class. The application can use * the returned Class to construct a JDO Identity instance for * application identity PersistenceCapable classes. This JDO * Identity instance can then be used to get an instance of the * PersistenceCapable class for use in the application. * *

In order for the application to construct an instance of the ObjectId * class it needs to know the class being used by the JDO implementation. * @param cls the PersistenceCapable Class * @return the Class of the ObjectId of the parameter * @see #getObjectById */ Class getObjectIdClass(Class cls); /** Set the Multithreaded flag for this PersistenceManager. * Applications that use multiple threads to invoke methods or access fields * from instances managed by this PersistenceManager must set * this flag to true. * Instances managed by this PersistenceManager include * persistent or transactional instances of PersistenceCapable * classes, as well as helper instances such as Query, * Transaction, or Extent. * @param flag the Multithreaded setting. */ void setMultithreaded (boolean flag); /** Get the current Multithreaded flag for this * PersistenceManager. * @see #setMultithreaded * @return the Multithreaded setting. */ boolean getMultithreaded(); /** Set the ignoreCache parameter for queries. * *

IgnoreCache set to true specifies that for all * Query instances created by this * PersistenceManager, the default is the cache should be * ignored for queries. * @param flag the ignoreCache setting. */ void setIgnoreCache(boolean flag); /** Get the ignoreCache setting for queries. * *

IgnoreCache set to true specifies that for all * Query instances created by this * PersistenceManager, the default is the cache should be * ignored for queries. * @return the ignoreCache setting. */ boolean getIgnoreCache(); /** * Specify a timeout interval (milliseconds) for any datastore read * operations associated with this persistence manager. To unset * the explicit timeout, specify null. For no timeout, specify 0. * Read operations include, for example, those associated with query, * getObjectById, refresh, retrieve, and extent iteration operations. * If the datastore granularity is larger than milliseconds, the * timeout value will be rounded up to the nearest supported datastore * value. * If a read operation hasn't completed within this interval, the operation * will throw a JDODatastoreException. * If multiple datastore operations are required to complete the query, * the timeout value applies to each of them individually. * If the datastore and JDO implementation support timeouts, then * javax.jdo.option.DatastoreTimeout is returned by * PersistenceManagerFactory.supportedOptions(). * If timeouts are not supported,this method will throw * JDOUnsupportedOptionException. * @since 3.0 * @param interval the timeout interval (milliseconds) */ void setDatastoreReadTimeoutMillis(Integer interval); /** Get the effective timeout setting for datastore read operations * associated with this persistence manager. * If the timeout has not been set on this persistence manager explicitly, * the default read timeout value from the persistence manager factory * is returned. * @see #setDatastoreReadTimeoutMillis(Integer) * @see PersistenceManagerFactory#setDatastoreReadTimeoutMillis(Integer) * @return the effective timeout setting (milliseconds). * @since 3.0 */ Integer getDatastoreReadTimeoutMillis(); /** * Specify a timeout interval (milliseconds) for any write operations * associated with this persistence manager. To unset the explicit timeout, * specify null. For no timeout, specify 0. * Datastore write operations include, for example, operations associated * with flush, commit, and delete by query. * If the datastore granularity is larger than milliseconds, the * timeout value will be rounded up to the nearest supported datastore * value. * If a write operation hasn't completed within this interval, methods * will throw a JDODatastoreException. * If multiple datastore operations are required to complete the method, * the timeout value applies to each of them individually. * If the datastore and JDO implementation support timeouts, then * javax.jdo.option.DatastoreTimeout is returned by * PersistenceManagerFactory.supportedOptions(). * If timeouts are not supported,this method will throw * JDOUnsupportedOptionException. * @since 3.0 * @param interval the timeout interval (milliseconds) */ void setDatastoreWriteTimeoutMillis(Integer interval); /** Get the effective timeout setting for write operations. * If the timeout has not been set on this persistence manager explicitly, * the default datastore write timeout value from the persistence manager * factory is returned. * @see #setDatastoreWriteTimeoutMillis(Integer) * @see PersistenceManagerFactory#setDatastoreWriteTimeoutMillis(Integer) * @return the effective timeout setting (milliseconds). * @since 3.0 */ Integer getDatastoreWriteTimeoutMillis(); /** Gets the detachAllOnCommit setting. * @see #setDetachAllOnCommit(boolean) * @since 2.0 * @return the detachAllOnCommit setting. */ boolean getDetachAllOnCommit(); /** Sets the detachAllOnCommit setting. * *

DetachAllOnCommit set to false specifies that the * state of persistent instances in the cache after commit is defined * by the retainValues flag. With this flag set to true, * during beforeCompletion all cached instances are prepared for * detachment according to the fetch plan in effect at commit. Loading * fields and unloading fields required by the fetch plan is done after * calling the user's beforeCompletion callback. During * afterCompletion, before calling the user's * afterCompletion callback, all detachable persistent * instances in the cache transition to detached; non-detachable * persistent instances transition to transient; and detachable * instances can be serialized as detached instances. Transient * transactional instances are unaffected by this flag. * * @see #getDetachAllOnCommit() * @since 2.0 */ void setDetachAllOnCommit(boolean flag); /** Gets the copyOnAttach setting. * @see #setCopyOnAttach(boolean) * @since 2.1 * @return the copyOnAttach setting. */ boolean getCopyOnAttach(); /** Sets the copyOnAttach setting. * *

CopyOnAttach set to true specifies that during * makePersistent, copies are made of detached parameter instances. * With this flag set to false, detached parameter * instances are attached directly and change their state from * detached-clean to persistent-clean or from detached-dirty to * persistent-dirty. * * @see #getCopyOnAttach() * @since 2.1 */ void setCopyOnAttach(boolean flag); /** * Detach the specified instance from the PersistenceManager. * The flags for detachment (DETACH_LOAD_FIELDS and DETACH_UNLOAD_FIELDS) * and the active fetch groups determine the scope of fetching for the * graph of instances reachable from the pc parameter. The state of fields * in the affected instances is as specified by the FetchPlan. * @param pc the instance to detach * @return the detached instance * @see #detachCopyAll(Object[]) * @since 2.0 */ T detachCopy (T pc); /** * Detach the specified instances from the PersistenceManager. * The flags for detachment (DETACH_LOAD_FIELDS and DETACH_UNLOAD_FIELDS) * and the active fetch groups determine the scope of fetching for the * graph of instances reachable from the pcs parameter. The state of fields * in the affected instances is as specified by the FetchPlan. * @param pcs the instances to detach * @return the detached instances * @see #detachCopyAll(Object[]) * @since 2.0 */ Collection detachCopyAll (Collection pcs); /** * Detach the specified instances from the PersistenceManager. * The flags for detachment (DETACH_LOAD_FIELDS and DETACH_UNLOAD_FIELDS) * and the active fetch groups determine the scope of fetching for the * graph of instances reachable from the pcs parameter. The state of fields * in the affected instances is as specified by the FetchPlan. * The objects returned can be manipulated and re-attached with * {@link #makePersistentAll(Object[])}. * The detached instances will be * unmanaged copies of the specified parameters, and are suitable * for serialization and manipulation outside of a JDO * environment. When detaching instances, only fields in the * current {@link FetchPlan} will be traversed. Thus, to detach a * graph of objects, relations to other persistent instances must * either be in the default-fetch-group, or in the * current custom {@link FetchPlan}. * @param pcs the instances to detach * @return the detached instances * @throws JDOUserException if any of the instances to be detached do not * implement the javax.jdo.spi.Detachable interface. * @see #makePersistentAll(Object[]) * @see #getFetchPlan * @since 2.0 */ T[] detachCopyAll (T... pcs); /** * Put the specified key-value pair into the map of user objects. * @since 2.0 */ Object putUserObject (Object key, Object val); /** * Get the value for the specified key from the map of user objects. * @param key the key of the object to be returned * @return the object * @since 2.0 */ Object getUserObject (Object key); /** * Remove the specified key and its value from the map of user objects. * @param key the key of the object to be removed * @since 2.0 */ Object removeUserObject (Object key); /** * Flushes all dirty, new, and deleted instances to the data * store. It has no effect if a transaction is not active. *

If a datastore transaction is active, this method * synchronizes the cache with the datastore and reports any * exceptions.

*

If an optimistic transaction is active, this method obtains * a datastore connection, synchronizes the cache with the * datastore using this connection and reports any * exceptions. The connection obtained by this method is held * until the end of the transaction.

*

If exceptions occur during flush, the implementation will * set the current transaction's RollbackOnly flag * (see {@link Transaction#setRollbackOnly}).

* @since 2.0 */ void flush (); /** * Validates the PersistenceManager cache with the * datastore. This method has no effect if a transaction is not * active. *

If a datastore transaction is active, this method verifies * the consistency of instances in the cache against the * datastore. An implementation might flush instances as if * {@link #flush} were called, but it is not required to do * so.

*

If an optimistic transaction is active, this method obtains * a datastore connection and verifies the consistency of the * instances in the cache against the datastore. If any * inconsistencies are detected, a {@link * JDOOptimisticVerificationException} is thrown. This exception * contains a nested {@link JDOOptimisticVerificationException} * for each object that failed the consistency check. No * datastore resources acquired during the execution of this * method are held beyond the scope of this method.

* @since 2.0 */ void checkConsistency (); /** * Returns the FetchPlan used by this * PersistenceManager. * @return the FetchPlan * @since 2.0 */ FetchPlan getFetchPlan (); /** * Creates an instance of a persistence-capable interface, * or of a concrete or abstract class. * The returned instance is transient. * @param pcClass Must be a persistence-capable interface, * or a concrete or abstract class that is declared in the metadata. * @return the created instance * @since 2.0 */ T newInstance (Class pcClass); /** * Returns the sequence identified by name. * @param name the name of the Sequence * @return the Sequence * @since 2.0 */ Sequence getSequence (String name); /** * If this method is called while a datastore transaction is * active, the object returned will be enlisted in the current * transaction. If called in an optimistic transaction or outside * an active transaction, the object returned will not be * enlisted in any transaction. * @return the JDOConnection instance * @since 2.0 */ JDOConnection getDataStoreConnection (); /** * Adds the listener instance to the list of lifecycle event * listeners. The classes parameter identifies all * of the classes of interest. If the classes * parameter is specified as null, events for all * persistent classes and interfaces will be sent to * listenerInstance. *

The listenerInstance will be called for each event for which it * implements the corresponding listenerInstance interface.

* @param listener the lifecycle listener * @param classes the classes of interest to the listener * @since 2.0 */ void addInstanceLifecycleListener (InstanceLifecycleListener listener, Class... classes); /** * Removes the listener instance from the list of lifecycle event listeners. * @param listener the listener instance to be removed * @since 2.0 */ void removeInstanceLifecycleListener (InstanceLifecycleListener listener); /** * Get the Date as seen by the server. * Clients using this method can order their operations according to * a single time source. Implementations use the setting of the * server time zone to prepare a Date instance that represents * UTC time on the server. * @return a Date instance corresponding to the UTC Date * as seen by the server * @since 2.1 */ Date getServerDate(); /** * Get the objects managed by this persistence manager. * @return the objects * @since 2.1 */ Set getManagedObjects(); /** * Get the objects managed by this persistence manager having the * specified object states. * @param states The states of objects that we are interested in * @return the objects * @since 2.1 */ Set getManagedObjects(EnumSet states); /** * Get the objects managed by this persistence manager being instances of * the specified classes. * @param classes The classes of objects that we are interested in * @return the objects * @since 2.1 */ Set getManagedObjects(Class... classes); /** * Get the objects managed by this persistence manager having the * specified object states and being instances of the specified classes. * @param states The states of objects that we are interested in * @param classes The classes of objects that we are interested in * @return the objects * @since 2.1 */ Set getManagedObjects(EnumSet states, Class... classes); /** * Get a modifiable FetchGroup for the Class and name. * If a modifiable FetchGroup already exists in the * PersistenceManager scope, return it. * If not, create and populate a new FetchGroup from the * existing definition in the {@link PersistenceManager} or * {@link PersistenceManagerFactory}. If the definition for the * FetchGroup is not in scope in either the * PersistenceManager or * PersistenceManagerFactory, create it with no members. * The FetchGroup immediately * becomes active and in scope of the PersistenceManager, and hides * the corresponding fetch group in the PersistenceManagerFactory. * @param cls the class or interface for the FetchGroup * @param name the name of the fetch group * @return the FetchGroup * @throws JDOUserException if the class is not a persistence-capable * class or interface * @since 2.2 */ FetchGroup getFetchGroup(Class cls, String name); }




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