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/*
 * Copyright (c) 1998, 2024 Oracle and/or its affiliates. All rights reserved.
 *
 * This program and the accompanying materials are made available under the
 * terms of the Eclipse Public License v. 2.0 which is available at
 * http://www.eclipse.org/legal/epl-2.0,
 * or the Eclipse Distribution License v. 1.0 which is available at
 * http://www.eclipse.org/org/documents/edl-v10.php.
 *
 * SPDX-License-Identifier: EPL-2.0 OR BSD-3-Clause
 */

// Contributors:
//     Oracle - initial API and implementation from Oracle TopLink
//        Gordon Yorke - VM managed entity detachment
//     07/16/2009-2.0 Guy Pelletier
//       - 277039: JPA 2.0 Cache Usage Settings
//     07/15/2011-2.2.1 Guy Pelletier
//       - 349424: persists during an preCalculateUnitOfWorkChangeSet event are lost
package org.eclipse.persistence.internal.sessions;

import org.eclipse.persistence.config.FlushClearCache;
import org.eclipse.persistence.config.ReferenceMode;
import org.eclipse.persistence.descriptors.ClassDescriptor;
import org.eclipse.persistence.exceptions.DatabaseException;
import org.eclipse.persistence.exceptions.OptimisticLockException;
import org.eclipse.persistence.exceptions.ValidationException;
import org.eclipse.persistence.internal.descriptors.ObjectBuilder;
import org.eclipse.persistence.internal.helper.IdentityHashSet;
import org.eclipse.persistence.internal.localization.ExceptionLocalization;
import org.eclipse.persistence.logging.SessionLog;
import org.eclipse.persistence.queries.ObjectBuildingQuery;
import org.eclipse.persistence.queries.ReadObjectQuery;
import org.eclipse.persistence.sessions.IdentityMapAccessor;

import java.util.HashSet;
import java.util.Iterator;
import java.util.Map;
import java.util.Set;


public class RepeatableWriteUnitOfWork extends UnitOfWorkImpl {

    /** Used to store the final UnitOfWorkChangeSet for merge into the shared cache */
    protected UnitOfWorkChangeSet cumulativeUOWChangeSet;

    /**
     * Used to determine if UnitOfWork should commit and rollback transactions.
     * This is used when an EntityTransaction is controlling the transaction.
     */
    protected boolean shouldTerminateTransaction;

    /**
     * Used to determine if we should bypass any merge into the cache. This is
     * a JPA flag and is true when the cacheStoreMode property is set to BYPASS.
     * Otherwise, EclipseLink behaves as it usually would.
     */
    protected boolean shouldStoreBypassCache;

    /**
     * The FlashClearCache mode to be used.
     * Initialized by setUnitOfWorkChangeSet method in case it's null;
     * commitAndResume sets this attribute back to null.
     * Relevant only in case call to flush method followed by call to clear method.
     * @see org.eclipse.persistence.config.FlushClearCache
     */
    protected transient String flushClearCache;

    /**
     * Track whether we are already in a flush().
     */
    protected boolean isWithinFlush;

    /** Contains classes that should be invalidated in the shared cache on commit.
     * Used only in case fushClearCache == FlushClearCache.DropInvalidate:
     * clear method copies contents of updatedObjectsClasses to this set,
     * adding classes of deleted objects, too;
     * on commit the classes contained here are invalidated in the shared cache
     * and the set is cleared.
     * Relevant only in case call to flush method followed by call to clear method.
     * Works together with flushClearCache.
     */
    protected transient Set classesToBeInvalidated;

    /**
     * Alters the behaviour of the RWUOW commit to function like the UOW with respect to Entity lifecycle
     */
    protected boolean discoverUnregisteredNewObjectsWithoutPersist;

    public RepeatableWriteUnitOfWork() {
    }

    public RepeatableWriteUnitOfWork(org.eclipse.persistence.internal.sessions.AbstractSession parentSession, ReferenceMode referenceMode){
        super(parentSession, referenceMode);
        this.shouldTerminateTransaction = true;
        this.shouldNewObjectsBeCached = true;
        this.isWithinFlush = false;
        this.discoverUnregisteredNewObjectsWithoutPersist = false;
    }

    /**
     * @return the discoverUnregisteredNewObjectsWithoutPersist
     */
    public boolean shouldDiscoverUnregisteredNewObjectsWithoutPersist() {
        return discoverUnregisteredNewObjectsWithoutPersist;
    }

    /**
     * @param discoverUnregisteredNewObjectsWithoutPersist the discoverUnregisteredNewObjectsWithoutPersist to set
     */
    public void setDiscoverUnregisteredNewObjectsWithoutPersist(boolean discoverUnregisteredNewObjectsWithoutPersist) {
        this.discoverUnregisteredNewObjectsWithoutPersist = discoverUnregisteredNewObjectsWithoutPersist;
    }

    /**
     * INTERNAL:
     * This method will clear all registered objects from this UnitOfWork.
     * If parameter value is 'true' then the cache(s) are cleared, too.
     */
    @Override
    public void clear(boolean shouldClearCache) {
        super.clear(shouldClearCache);
        if (this.cumulativeUOWChangeSet != null) {
            if (this.flushClearCache == FlushClearCache.Drop) {
                this.cumulativeUOWChangeSet = null;
                this.unregisteredDeletedObjectsCloneToBackupAndOriginal = null;
            } else if (this.flushClearCache == FlushClearCache.DropInvalidate) {
                // classes of the updated objects should be invalidated in the shared cache on commit.
                Set updatedObjectsClasses = this.cumulativeUOWChangeSet.findUpdatedObjectsClasses();
                if (updatedObjectsClasses != null) {
                    if (this.classesToBeInvalidated == null) {
                        this.classesToBeInvalidated = updatedObjectsClasses;
                    } else {
                        this.classesToBeInvalidated.addAll(updatedObjectsClasses);
                    }
                }
                if ((this.unregisteredDeletedObjectsCloneToBackupAndOriginal != null) && !this.unregisteredDeletedObjectsCloneToBackupAndOriginal.isEmpty()) {
                    if (this.classesToBeInvalidated == null) {
                        this.classesToBeInvalidated = new HashSet<>();
                    }
                    Iterator enumDeleted = this.unregisteredDeletedObjectsCloneToBackupAndOriginal.keySet().iterator();
                    // classes of the deleted objects should be invalidated in the shared cache
                    while (enumDeleted.hasNext()) {
                        this.classesToBeInvalidated.add(getDescriptor(enumDeleted.next().getClass()));
                    }
                }
                this.cumulativeUOWChangeSet = null;
                this.unregisteredDeletedObjectsCloneToBackupAndOriginal = null;
            }
        }
    }

    /**
     * INTERNAL:
     * Call this method if the uow will no longer used for committing transactions:
     * all the changes sets will be dereferenced, and (optionally) the cache cleared.
     * If the uow is not released, but rather kept around for ValueHolders, then identity maps shouldn't be cleared:
     * the parameter value should be 'false'. The lifecycle set to Birth so that uow ValueHolder still could be used.
     * Alternatively, if called from release method then everything should go and therefore parameter value should be 'true'.
     * In this case lifecycle won't change - uow.release (optionally) calls this method when it (uow) is already dead.
     * The reason for calling this method from release is to free maximum memory right away:
     * the uow might still be referenced by objects using UOWValueHolders (though they shouldn't be around
     * they still might).
     */
    @Override
    public void clearForClose(boolean shouldClearCache){
        this.cumulativeUOWChangeSet = null;
        this.unregisteredDeletedObjectsCloneToBackupAndOriginal = null;
        super.clearForClose(shouldClearCache);
    }

    /**
     * INTERNAL:
     * Return classes that should be invalidated in the shared cache on commit.
     * Used only in case fushClearCache == FlushClearCache.DropInvalidate:
     * clear method copies contents of updatedObjectsClasses to this set,
     * adding classes of deleted objects, too;
     * on commit the classes contained here are invalidated in the shared cache
     * and the set is cleared.
     * Relevant only in case call to flush method followed by call to clear method.
     * Works together with flushClearCache.
     */
     public Set getClassesToBeInvalidated(){
        return classesToBeInvalidated;
    }

    /**
     * INTERNAL:
     * Get the final UnitOfWorkChangeSet for merge into the shared cache.
     */
    public UnitOfWorkChangeSet getCumulativeUOWChangeSet() {
        return cumulativeUOWChangeSet;
    }

    /**
     * INTERNAL:
     * Set the final UnitOfWorkChangeSet for merge into the shared cache.
     */
    public void setCumulativeUOWChangeSet(UnitOfWorkChangeSet cumulativeUOWChangeSet) {
        this.cumulativeUOWChangeSet = cumulativeUOWChangeSet;
    }

    /**
     * INTERNAL:
     * Calculate whether we should read directly from the database to the UOW.
     * This will be necessary, if a flush and a clear have been called on this unit of work
     * In that case, there will be changes in the database that are not in the shared cache,
     * so a read in this UOW should get info directly form the DB
     */
    @Override
    public boolean shouldForceReadFromDB(ObjectBuildingQuery query, Object primaryKey){
        if (this.wasTransactionBegunPrematurely() && query.getDescriptor() != null){
            // if the saved change set for this UOW contains any changes to the class that is being queried for,
            // we should build from the DB
            if (this.getFlushClearCache().equals(FlushClearCache.Merge) && this.getCumulativeUOWChangeSet() != null){
                Map changeSetMap = this.getCumulativeUOWChangeSet().getObjectChanges().get(query.getDescriptor().getJavaClass());
                Object lookupPrimaryKey = null;
                if (primaryKey == null && query.isReadObjectQuery()){
                    lookupPrimaryKey = ((ReadObjectQuery)query).getSelectionId();
                }
                if (changeSetMap != null ){
                    if (lookupPrimaryKey == null){
                        return true;
                    } else {
                        // this change set is simply used to do a lookup in the map.  The hashcode method just needs the key and the descriptor
                        ObjectChangeSet lookupChangeSet = new ObjectChangeSet(lookupPrimaryKey, query.getDescriptor(), null, null, false);
                        if (changeSetMap.get(lookupChangeSet) != null){
                            return true;
                        }
                    }
                }
            // if the invalidation list for this UOW contains any changes to the class being queried for
            // we should build directly from the DB
            } else if (this.getFlushClearCache().equals(FlushClearCache.DropInvalidate) && this.getClassesToBeInvalidated() != null){
                    if (this.getClassesToBeInvalidated().contains(query.getDescriptor())){
                        return true;
                    }
            }
        }
        return false;
    }

    /**
     * INTERNAL:
     * Indicates whether clearForClose method should be called by release method.
     */
    @Override
    public boolean shouldClearForCloseOnRelease() {
        return true;
    }

    /**
     * INTERNAL:
     * Returns true if the UOW should bypass any updated to the shared cache
     * during the merge.
     */
    @Override
    public boolean shouldStoreBypassCache() {
        return shouldStoreBypassCache;
    }

    /**
     * Check to see if the descriptor of a superclass can be used to describe this class
     * 

* By default, in JPA, classes must have specific descriptors to be considered entities * In this implementation, we check whether the inheritance policy has been configured to allow * superclass descriptors to describe subclasses that do not have a descriptor themselves * * @return ClassDescriptor */ @Override protected ClassDescriptor checkHierarchyForDescriptor(Class theClass){ ClassDescriptor descriptor = getDescriptor(theClass.getSuperclass()); if (descriptor != null && descriptor.hasInheritance() && descriptor.getInheritancePolicy().getDescribesNonPersistentSubclasses()){ return descriptor; } return null; } /** * INTERNAL: * Commit the changes to any objects to the parent. */ @Override public void commitRootUnitOfWork() throws DatabaseException, OptimisticLockException { commitToDatabaseWithChangeSet(false); // unit of work has been committed so it's ok to set the cumulative into the UOW for merge if (this.cumulativeUOWChangeSet != null) { this.cumulativeUOWChangeSet.mergeUnitOfWorkChangeSet((UnitOfWorkChangeSet)this.getUnitOfWorkChangeSet(), this, true); setUnitOfWorkChangeSet(this.cumulativeUOWChangeSet); } commitTransactionAfterWriteChanges(); // this method will commit the // transaction // and set the transaction // flags appropriately // Merge after commit mergeChangesIntoParent(); } /** * INTERNAL: * Traverse the object to find references to objects not registered in this unit of work. * Any unregistered new objects found will be persisted or an error will be thrown depending on the mapping's cascade persist. * References to deleted objects will also currently cause them to be undeleted. */ @Override public void discoverUnregisteredNewObjects(Map clones, Map newObjects, Map unregisteredExistingObjects, Map visitedObjects) { if (this.discoverUnregisteredNewObjectsWithoutPersist){ super.discoverUnregisteredNewObjects(clones, newObjects, unregisteredExistingObjects, visitedObjects); }else{ //Bug#438193 : Replace HashSet with IdentityHashSet below for cascadePersistErrors so that the comparison will be by reference and //not by equals() which invokes hashCode() Set cascadePersistErrors = new IdentityHashSet(); for (Iterator clonesEnum = clones.keySet().iterator(); clonesEnum.hasNext(); ) { discoverAndPersistUnregisteredNewObjects(clonesEnum.next(), false, newObjects, unregisteredExistingObjects, visitedObjects, cascadePersistErrors); } // EL Bug 343925 - Throw IllegalStateException with all unregistered objects which // are not marked with CascadeType.PERSIST after iterating through all mappings. if (!cascadePersistErrors.isEmpty()) { throw new IllegalStateException(ExceptionLocalization.buildMessage("new_object_found_during_commit", cascadePersistErrors.toArray())); } } } /** * INTERNAL: * Has writeChanges() been attempted on this UnitOfWork? It may have * either succeeded or failed but either way the UnitOfWork is in a highly * restricted state. */ @Override public boolean isAfterWriteChangesButBeforeCommit() { //don't check for writechanges failure. return (getLifecycle() == CommitTransactionPending); } /** * INTERNAL: * Return if the object has been deleted in this unit of work. */ @Override public boolean isObjectDeleted(Object object) { if(super.isObjectDeleted(object)) { return true; } else { if(unregisteredDeletedObjectsCloneToBackupAndOriginal != null) { if(unregisteredDeletedObjectsCloneToBackupAndOriginal.containsKey(object)) { return true; } } if (hasObjectsDeletedDuringCommit()) { return getObjectsDeletedDuringCommit().containsKey(object); } else { return false; } } } /** * INTERNAL: * For synchronized units of work, dump SQL to database */ @Override public void issueSQLbeforeCompletion() { super.issueSQLbeforeCompletion(false); if (this.cumulativeUOWChangeSet != null){ // unit of work has been committed so it's ok to set the cumulative into the UOW for merge this.cumulativeUOWChangeSet.mergeUnitOfWorkChangeSet((UnitOfWorkChangeSet)this.getUnitOfWorkChangeSet(), this, true); setUnitOfWorkChangeSet(this.cumulativeUOWChangeSet); } commitTransactionAfterWriteChanges(); // this method will commit the transaction // and set the transaction flags appropriately } /** * INTERNAL: Merge the changes to all objects to the parent. */ @Override protected void mergeChangesIntoParent() { if (this.classesToBeInvalidated != null) { // get identityMap of the parent ServerSession for(ClassDescriptor classToBeInvalidated : classesToBeInvalidated) { IdentityMapAccessor accessor = this.getParentIdentityMapSession(classToBeInvalidated, false, true).getIdentityMapAccessor(); accessor.invalidateClass(classToBeInvalidated.getJavaClass(), false); // 312503: invalidate subtree rooted at classToBeInvalidated } this.classesToBeInvalidated = null; } super.mergeChangesIntoParent(); } /** * INTERNAL: * Merge the attributes of the clone into the unit of work copy. */ @Override public Object mergeCloneWithReferences(Object rmiClone, MergeManager manager) { Object mergedObject = super.mergeCloneWithReferences(rmiClone, manager); //iterate over new objects, assign sequences and put in the identitymap Map newObjects = manager.getMergedNewObjects(); if (! newObjects.isEmpty()) { Iterator iterator = newObjects.values().iterator(); while (iterator.hasNext()) { Object newObjectClone = iterator.next(); ClassDescriptor descriptor = getDescriptor(newObjectClone); if (assignSequenceNumber(newObjectClone, descriptor) != null) { // Avoid putting the merged object in the cache twice. If // the sequence number has already been assigned then we // don't need to put it in the cache. registerNewObjectInIdentityMap(newObjectClone, null, descriptor); } } } return mergedObject; } /** * INTERNAL: * This method is used internally to update the tracked objects if required */ @Override public void updateChangeTrackersIfRequired(Object objectToWrite, ObjectChangeSet changeSetToWrite, UnitOfWorkImpl uow, ClassDescriptor descriptor) { descriptor.getObjectChangePolicy().updateWithChanges(objectToWrite, changeSetToWrite, uow, descriptor); } /** * INTERNAL: * This will flush all changes to the database, * and create or merge into the cumulativeUOWChangeSet. */ @Override public void writeChanges() { // Check for a nested flush and return early if we are in one if (this.isWithinFlush()) { log(SessionLog.WARNING, SessionLog.TRANSACTION, "nested_entity_manager_flush_not_executed_pre_query_changes_may_be_pending", getClass().getSimpleName()); return; } log(SessionLog.FINER, SessionLog.TRANSACTION, "begin_unit_of_work_flush"); if(eventManager != null) { eventManager.preFlushUnitOfWork(); } // 256277: stop any nested flushing - there should only be one level this.isWithinFlush = true; // set before calculateChanges as a PrePersist callback may contain a query that requires a pre flush() UnitOfWorkChangeSet changeSet = this.unitOfWorkChangeSet; // This also discovers unregistered new objects, (which persists them and assign sequence, so no need to assign sequence twice). boolean hasChanges = hasDeletedObjects() || hasModifyAllQueries() || hasDeferredModifyAllQueries(); // PERF: Avoid checking for change if uow is empty. if (hasCloneMapping() || hasChanges) { if (this.unitOfWorkChangeSet == null) { this.unitOfWorkChangeSet = new UnitOfWorkChangeSet(this); changeSet = this.unitOfWorkChangeSet; } calculateChanges(getCloneMapping(), changeSet, this.discoverUnregisteredNewObjectsWithoutPersist, true); hasChanges = hasChanges || (changeSet.hasChanges() || changeSet.hasForcedChanges()); } try { //bug 323370: flush out batch statements regardless of the changeSet having changes. if (!hasChanges) { //flushing the batch mechanism writesCompleted(); //return if there were no changes in the change set. log(SessionLog.FINER, SessionLog.TRANSACTION, "end_unit_of_work_flush"); if(eventManager != null) { eventManager.postFlushUnitOfWork(); } return; } // Write changes to the database. commitToDatabaseWithPreBuiltChangeSet(changeSet, false, false); writesCompleted(); } catch (RuntimeException exception) { clearFlushClearCache(); setLifecycle(WriteChangesFailed); throw exception; } finally { this.isWithinFlush = false; // clear the flag in the case that we have changes } if (this.cumulativeUOWChangeSet == null) { this.cumulativeUOWChangeSet = changeSet; } else { // Merge those changes back into the backup clones and the final uowChangeSet. this.cumulativeUOWChangeSet.mergeUnitOfWorkChangeSet(changeSet, this, true); } log(SessionLog.FINER, SessionLog.TRANSACTION, "end_unit_of_work_flush"); if(eventManager != null) { eventManager.postFlushUnitOfWork(); } resumeUnitOfWork(); log(SessionLog.FINER, SessionLog.TRANSACTION, "resume_unit_of_work"); } /** * ADVANCED: * Register the new object with the unit of work. * This will register the new object without cloning. * Normally the registerObject method should be used for all registration of * new and existing objects. * This version of the register method can only be used for new objects. * This method should only be used if a new object is desired to be * registered without cloning. * * @see #registerObject(Object) */ @Override public Object registerNewObject(Object newObject) { Object workingCopy = super.registerNewObject(newObject); if (!this.discoverUnregisteredNewObjectsWithoutPersist) { assignSequenceNumber(workingCopy); } return workingCopy; } /** * INTERNAL: * Called only by registerNewObjectForPersist method, * and only if newObject is not already registered. * If newObject is found in * unregisteredDeletedObjectsCloneToBackupAndOriginal then it's re-registered, * otherwise the superclass method called. */ @Override protected void registerNotRegisteredNewObjectForPersist(Object newObject, ClassDescriptor descriptor) { if(unregisteredDeletedObjectsCloneToBackupAndOriginal != null) { Object[] backupAndOriginal = (Object[])unregisteredDeletedObjectsCloneToBackupAndOriginal.remove(newObject); if(backupAndOriginal != null) { // backup getCloneMapping().put(newObject, backupAndOriginal[0]); // original registerNewObjectClone(newObject, backupAndOriginal[1], descriptor); // Check if the new objects should be cached. registerNewObjectInIdentityMap(newObject, newObject, descriptor); return; } } super.registerNotRegisteredNewObjectForPersist(newObject, descriptor); } /** * INTERNAL: * This is internal to the uow, transactions should not be used explicitly in a uow. * The uow shares its parents transactions. */ @Override public void rollbackTransaction() throws DatabaseException { if (this.shouldTerminateTransaction || getParent().getTransactionMutex().isNested()){ super.rollbackTransaction(); }else{ //rollback called which means txn failed. //but rollback was stopped by entitytransaction which means the //transaction will want to call release later. Make sure release //will rollback transaction. setWasTransactionBegunPrematurely(true); } } /** * INTERNAL: * This is internal to the uow, transactions should not be used explicitly in a uow. * The uow shares its parents transactions. Called in JTA this should not set the * transaction to rollback. */ @Override protected void rollbackTransaction(boolean intendedToCommitTransaction) throws DatabaseException { rollbackTransaction(); } /** * INTERNAL * Synchronize the clones and update their backup copies. * Called after commit and commit and resume. */ @Override public void synchronizeAndResume() { this.cumulativeUOWChangeSet = null; this.unregisteredDeletedObjectsCloneToBackupAndOriginal = null; super.synchronizeAndResume(); } /** * INTERNAL: * Return if the object was deleted previously (in a flush). */ @Override public boolean wasDeleted(Object original) { return getUnregisteredDeletedCloneForOriginal(original) != null; } /** * INTERNAL: * To avoid putting the original object into the shared cache, and * therefore, impede the 'detaching' of the original after commit, a clone * of the original should be registered not the actual original object. * This is a JPA override to traditional EclipseLink behavior. */ @Override protected Object cloneAndRegisterNewObject(Object original, boolean isShallowClone) { ClassDescriptor descriptor = getDescriptor(original); //Nested unit of work is not supported for attribute change tracking if (isNestedUnitOfWork() && (descriptor.getObjectChangePolicy().isAttributeChangeTrackingPolicy())) { throw ValidationException.nestedUOWNotSupportedForAttributeTracking(); } ObjectBuilder builder = descriptor.getObjectBuilder(); // bug 2612602 create the working copy object. Object clone = builder.instantiateWorkingCopyClone(original, this); Object newOriginal = original; // Must put in the detached original to clone to resolve circular refs. getNewObjectsOriginalToClone().put(original, clone); getNewObjectsCloneToOriginal().put(clone, original); getNewObjectsCloneToMergeOriginal().put(clone, original); // Must put in clone mapping. getCloneMapping().put(clone, clone); if (isShallowClone) { builder.copyInto(original, clone, true); } else { builder.populateAttributesForClone(original, null, clone, null, this); } if (!this.discoverUnregisteredNewObjectsWithoutPersist){ assignSequenceNumber(clone); // JPA by default does not use the merge() object as the original, it creates a new instance to avoid // putting the merge object into the cache. // The native API does use the original, so this flag determine which policy to use. newOriginal = builder.buildNewInstance(); } // Must reregister in both new objects. registerNewObjectClone(clone, newOriginal, descriptor); //Build backup clone for DeferredChangeDetectionPolicy or ObjectChangeTrackingPolicy, //but not for AttributeChangeTrackingPolicy Object backupClone = descriptor.getObjectChangePolicy().buildBackupClone(clone, builder, this); getCloneMapping().put(clone, backupClone);// The backup clone must be updated. //this is the second difference. Assign a sequence just like JPA unless this RWUOW is set to old behaviour return clone; } /** * INTERNAL: * Called only by UnitOfWorkIdentityMapAccessor.getAndCloneCacheKeyFromParent method. * Return unregisteredDeletedClone corresponding to the passed original, or null */ public Object getUnregisteredDeletedCloneForOriginal(Object original) { if (unregisteredDeletedObjectsCloneToBackupAndOriginal != null) { Iterator keys = unregisteredDeletedObjectsCloneToBackupAndOriginal.keySet().iterator(); Iterator values = unregisteredDeletedObjectsCloneToBackupAndOriginal.values().iterator(); while(keys.hasNext()) { Object deletedObjectClone = keys.next(); Object[] backupAndOriginal = (Object[])values.next(); Object currentOriginal = backupAndOriginal[1]; if (original == currentOriginal) { return deletedObjectClone; } } } return null; } /** * INTERNAL: * This is internal to the uow, transactions should not be used explicitly in a uow. * The uow shares its parents transactions. */ @Override public void commitTransaction() throws DatabaseException { if (this.shouldTerminateTransaction || getParent().getTransactionMutex().isNested()) { super.commitTransaction(); } } public void setShouldStoreByPassCache(boolean shouldStoreBypassCache) { this.shouldStoreBypassCache = shouldStoreBypassCache; } public void setShouldTerminateTransaction(boolean shouldTerminateTransaction) { this.shouldTerminateTransaction = shouldTerminateTransaction; } /** * INTERNAL: * Clears invalidation list. */ public void clearFlushClearCache() { classesToBeInvalidated = null; } /** * Return the FlashClearCache mode to be used. * Relevant only in case call to flush method followed by call to clear method. * @see org.eclipse.persistence.config.FlushClearCache */ public String getFlushClearCache() { return flushClearCache; } /** * Set the FlashClearCache mode to be used. * Relevant only in case call to flush method followed by call to clear method. * @see org.eclipse.persistence.config.FlushClearCache */ public void setFlushClearCache(String flushClearCache) { this.flushClearCache = flushClearCache; } /** * Return whether we are already performing a flush() call */ public boolean isWithinFlush() { return isWithinFlush; } }