/**
* INTERNAL: Execute the query building the objects directly from the database result-set.
*
* @exception DatabaseException - an error has occurred on the database
* @return object - the first object found or null if none.
*/
protected Object executeObjectLevelReadQueryFromResultSet() throws DatabaseException {
UnitOfWorkImpl unitOfWork = (UnitOfWorkImpl) getSession();
DatabaseAccessor accessor = (DatabaseAccessor) unitOfWork.getAccessor();
DatabasePlatform platform = accessor.getPlatform();
DatabaseCall call = (DatabaseCall) getCall().clone();
call.setQuery(this);
call.translate(this.translationRow, null, unitOfWork);
Statement statement = null;
ResultSet resultSet = null;
boolean exceptionOccured = false;
try {
accessor.incrementCallCount(unitOfWork);
statement = call.prepareStatement(accessor, this.translationRow, unitOfWork);
resultSet = accessor.executeSelect(call, statement, unitOfWork);
ResultSetMetaData metaData = resultSet.getMetaData();
Vector results = new Vector();
ObjectBuilder builder = this.descriptor.getObjectBuilder();
while (resultSet.next()) {
results.add(
builder.buildWorkingCopyCloneFromResultSet(
this,
this.joinedAttributeManager,
resultSet,
unitOfWork,
accessor,
metaData,
platform));
}
return results;
} catch (SQLException exception) {
exceptionOccured = true;
DatabaseException commException =
accessor.processExceptionForCommError(session, exception, call);
if (commException != null) throw commException;
throw DatabaseException.sqlException(exception, call, accessor, unitOfWork, false);
} finally {
try {
if (resultSet != null) {
resultSet.close();
}
if (statement != null) {
accessor.releaseStatement(statement, call.getSQLString(), call, unitOfWork);
}
} catch (SQLException exception) {
if (!exceptionOccured) {
// in the case of an external connection pool the connection may be null after the
// statement release
// if it is null we will be unable to check the connection for a comm error and
// therefore must return as if it was not a comm error.
DatabaseException commException =
accessor.processExceptionForCommError(session, exception, call);
if (commException != null) throw commException;
throw DatabaseException.sqlException(exception, call, accessor, session, false);
}
}
}
}
@Override
public void preUpdate(DescriptorEvent event) {
Object source = event.getSource();
UnitOfWorkImpl unitOfWork = (UnitOfWorkImpl) event.getSession();
// preUpdate is also generated for deleted objects that were modified in this UOW.
// Do not perform preUpdate validation for such objects as preRemove would have already been
// called.
if (!unitOfWork.isObjectDeleted(source)) {
validateOnCallbackEvent(event, "preUpdate", groupPreUpdate);
}
}
/**
* Triggers UnitOfWork valueholders directly without triggering the wrapped valueholder (this).
*
* <p>When in transaction and/or for pessimistic locking the UnitOfWorkValueHolder needs to be
* triggered directly without triggering the wrapped valueholder. However only the wrapped
* valueholder knows how to trigger the indirection, i.e. it may be a batchValueHolder, and it
* stores all the info like the row and the query. Note: This method is not thread-safe. It must
* be used in a synchronized manner. The batch value holder must use a batch query relative to the
* unit of work, as the batch is local to the unit of work.
*/
public Object instantiateForUnitOfWorkValueHolder(UnitOfWorkValueHolder unitOfWorkValueHolder) {
UnitOfWorkImpl unitOfWork = unitOfWorkValueHolder.getUnitOfWork();
ReadQuery localQuery = unitOfWork.getBatchQueries().get(this.query);
if (localQuery == null) {
localQuery = (ReadQuery) this.query.clone();
unitOfWork.getBatchQueries().put(this.query, localQuery);
}
return this.mapping.extractResultFromBatchQuery(
localQuery,
this.parentCacheKey,
this.row,
unitOfWorkValueHolder.getUnitOfWork(),
this.originalQuery);
}
/**
* INTERNAL: This method marks the object as changed. This method is only called by EclipseLink
*/
public void internalPropertyChange(PropertyChangeEvent evt) {
if (evt.getNewValue() == evt.getOldValue()) {
return;
}
DatabaseMapping mapping =
descriptor.getObjectBuilder().getMappingForAttributeName(evt.getPropertyName());
// Bug#4127952 Throw an exception indicating there is no mapping for the property name.
if (mapping == null) {
throw ValidationException.wrongPropertyNameInChangeEvent(
owner.getClass(), evt.getPropertyName());
}
if (mapping instanceof AbstractDirectMapping
|| mapping instanceof AbstractTransformationMapping) {
// If both newValue and oldValue are null, or newValue is not null and newValue equals
// oldValue, don't build ChangeRecord
if (((evt.getNewValue() == null) && (evt.getOldValue() == null))
|| ((evt.getNewValue() != null) && (evt.getNewValue()).equals(evt.getOldValue()))) {
return;
}
}
super.internalPropertyChange(evt);
if (uow.getUnitOfWorkChangeSet() == null) {
uow.setUnitOfWorkChangeSet(new UnitOfWorkChangeSet(uow));
}
if (objectChangeSet == null) { // only null if new or if in a new UOW
// add to tracker list to prevent GC of clone if using weak references
// put it in here so that it only occurs on the 1st change for a particular UOW
uow.addToChangeTrackedHardList(owner);
objectChangeSet =
getDescriptor()
.getObjectBuilder()
.createObjectChangeSet(
owner, (UnitOfWorkChangeSet) uow.getUnitOfWorkChangeSet(), false, uow);
}
if (evt.getClass().equals(ClassConstants.PropertyChangeEvent_Class)) {
mapping.updateChangeRecord(
evt.getSource(), evt.getNewValue(), evt.getOldValue(), objectChangeSet, getUnitOfWork());
} else if (evt.getClass().equals(ClassConstants.CollectionChangeEvent_Class)
|| (evt.getClass().equals(ClassConstants.MapChangeEvent_Class))) {
mapping.updateCollectionChangeRecord(
(CollectionChangeEvent) evt, objectChangeSet, getUnitOfWork());
} else {
throw ValidationException.wrongChangeEvent(evt.getClass());
}
}
/**
* INTERNAL: Code was moved from UnitOfWork.internalExecuteQuery
*
* @param unitOfWork
* @param translationRow
* @return
* @throws org.eclipse.persistence.exceptions.DatabaseException
* @throws org.eclipse.persistence.exceptions.OptimisticLockException
*/
protected Object executeInUnitOfWorkObjectLevelModifyQuery(
UnitOfWorkImpl unitOfWork, AbstractRecord translationRow)
throws DatabaseException, OptimisticLockException {
Object result = unitOfWork.processDeleteObjectQuery(this);
if (result != null) {
// if the above method returned something then the unit of work
// was not writing so the object has been stored to delete later
// so return the object. See the above method for the cases
// where this object will be returned.
return result;
}
return super.executeInUnitOfWorkObjectLevelModifyQuery(unitOfWork, translationRow);
}
/**
* INTERNAL This method iterates through a collection and gets the values from the objects to
* conform in an in-memory query. Creation date: (1/19/01 1:18:27 PM)
*/
public Object valuesFromCollection(
Object object, AbstractSession session, int valueHolderPolicy, boolean isObjectUnregistered) {
// in case the mapping is null - this can happen if a query key is being used
// In this case, check for the query key and find it's mapping.
boolean readMappingFromQueryKey = false;
if (getMapping() == null) {
getMappingFromQueryKey();
readMappingFromQueryKey = true;
}
// For bug 2780817 get the mapping directly from the object. In EJB 2.0
// inheritance, each child must override mappings defined in an abstract
// class with its own.
DatabaseMapping mapping = this.mapping;
ClassDescriptor descriptor = mapping.getDescriptor();
if (descriptor.hasInheritance() && (descriptor.getJavaClass() != object.getClass())) {
mapping =
session
.getDescriptor(object.getClass())
.getObjectBuilder()
.getMappingForAttributeName(getName());
descriptor = mapping.getDescriptor();
}
// fetch group support
if (descriptor.hasFetchGroupManager()) {
FetchGroupManager fetchGroupManager = descriptor.getFetchGroupManager();
if (fetchGroupManager.isPartialObject(object)
&& (!fetchGroupManager.isAttributeFetched(object, mapping.getAttributeName()))) {
// the conforming attribute is not fetched, simply throw exception
throw QueryException.cannotConformUnfetchedAttribute(mapping.getAttributeName());
}
}
if (mapping.isDirectToFieldMapping()) {
return ((AbstractDirectMapping) mapping).valueFromObject(object, mapping.getField(), session);
} else if (mapping.isForeignReferenceMapping()) {
// CR 3677 integration of a ValueHolderPolicy
Object valueFromMapping = mapping.getAttributeValueFromObject(object);
if (!((ForeignReferenceMapping) mapping)
.getIndirectionPolicy()
.objectIsInstantiated(valueFromMapping)) {
if (valueHolderPolicy != InMemoryQueryIndirectionPolicy.SHOULD_TRIGGER_INDIRECTION) {
// If the client wishes us to trigger the indirection then we should do so,
// Other wise throw the exception
throw QueryException
.mustInstantiateValueholders(); // you should instantiate the valueholder for this to
// work
}
// maybe we should throw this exception from the start, to save time
}
Object valueToIterate = mapping.getRealAttributeValueFromObject(object, session);
UnitOfWorkImpl uow = isObjectUnregistered ? (UnitOfWorkImpl) session : null;
// First check that object in fact is unregistered.
// toDo: ?? Why is this commented out? Why are we supporting the unregistered thing at all?
// Does not seem to be any public API for this, nor every used internally?
// if (isObjectUnregistered) {
// isObjectUnregistered = !uow.getCloneMapping().containsKey(object);
// }
if (mapping.isCollectionMapping() && (valueToIterate != null)) {
// For bug 2766379 must use the correct version of vectorFor to
// unwrap the result same time.
valueToIterate = mapping.getContainerPolicy().vectorFor(valueToIterate, session);
// toDo: If the value is empty, need to support correct inner/outer join filtering
// symantics.
// For CR 2612601, try to partially replace the result with already
// registered objects.
if (isObjectUnregistered && (uow.getCloneMapping().get(object) == null)) {
Vector objectValues = (Vector) valueToIterate;
for (int i = 0; i < objectValues.size(); i++) {
Object original = objectValues.elementAt(i);
Object clone =
uow.getIdentityMapAccessorInstance()
.getIdentityMapManager()
.getFromIdentityMap(original);
if (clone != null) {
objectValues.setElementAt(clone, i);
}
}
}
// For CR 2612601, conforming without registering, a query could be
// bob.get("address").get("city").equal("Ottawa"); where the address
// has been registered and modified in the UOW, but bob has not. Thus
// even though bob does not point to the modified address now, it will
// as soon as it is registered, so should point to it here.
} else if (isObjectUnregistered && (uow.getCloneMapping().get(object) == null)) {
Object clone =
uow.getIdentityMapAccessorInstance()
.getIdentityMapManager()
.getFromIdentityMap(valueToIterate);
if (clone != null) {
valueToIterate = clone;
}
}
return valueToIterate;
} else if (mapping.isAggregateMapping()) {
Object aggregateValue = mapping.getAttributeValueFromObject(object);
// Bug 3995468 - if this query key is to a mapping in an aggregate object, get the object from
// actual mapping rather than the aggregate mapping
while (readMappingFromQueryKey
&& mapping.isAggregateObjectMapping()
&& !((AggregateObjectMapping) mapping)
.getReferenceClass()
.equals(queryKey.getDescriptor().getJavaClass())) {
mapping =
mapping
.getReferenceDescriptor()
.getObjectBuilder()
.getMappingForField(((DirectQueryKey) queryKey).getField());
aggregateValue = mapping.getRealAttributeValueFromObject(aggregateValue, session);
}
return aggregateValue;
} else {
throw QueryException.cannotConformExpression();
}
}
/**
* INTERNAL: All objects queried via a UnitOfWork get registered here. If the query went to the
* database.
*
* <p>Involves registering the query result individually and in totality, and hence refreshing /
* conforming is done here.
*
* @param result may be collection (read all) or an object (read one), or even a cursor. If in
* transaction the shared cache will be bypassed, meaning the result may not be originals from
* the parent but raw database rows.
* @param unitOfWork the unitOfWork the result is being registered in.
* @param arguments the original arguments/parameters passed to the query execution. Used by
* conforming
* @param buildDirectlyFromRows If in transaction must construct a registered result from raw
* database rows.
* @return the final (conformed, refreshed, wrapped) UnitOfWork query result
*/
public Object registerResultInUnitOfWork(
Object result,
UnitOfWorkImpl unitOfWork,
AbstractRecord arguments,
boolean buildDirectlyFromRows) {
// For bug 2612366: Conforming results in UOW extremely slow.
// Replacing results with registered versions in the UOW is a part of
// conforming and is now done while conforming to maximize performance.
if (shouldConformResultsInUnitOfWork()
|| this.descriptor.shouldAlwaysConformResultsInUnitOfWork()) {
return conformResult(result, unitOfWork, arguments, buildDirectlyFromRows);
}
// When building directly from rows, one of the performance benefits
// is that we no longer have to wrap and then unwrap the originals.
// result is just a vector, not a collection of wrapped originals.
// Also for cursors the initial connection is automatically registered.
if (buildDirectlyFromRows) {
List<AbstractRecord> rows = (List<AbstractRecord>) result;
ContainerPolicy cp = getContainerPolicy();
int size = rows.size();
Object clones = cp.containerInstance(size);
for (int index = 0; index < size; index++) {
AbstractRecord row = rows.get(index);
// null is placed in the row collection for 1-m joining to filter duplicate rows.
if (row != null) {
Object clone = buildObject(row);
cp.addInto(clone, clones, unitOfWork, row, this);
}
}
return clones;
}
ContainerPolicy cp;
Cursor cursor = null;
// If the query is redirected then the collection returned might no longer
// correspond to the original container policy. CR#2342-S.M.
if (getRedirector() != null) {
cp = ContainerPolicy.buildPolicyFor(result.getClass());
} else {
cp = getContainerPolicy();
}
// In the case of cursors just register the initially read collection.
if (cp.isCursorPolicy()) {
cursor = (Cursor) result;
// In nested UnitOfWork session might have been session of the parent.
cursor.setSession(unitOfWork);
cp = ContainerPolicy.buildPolicyFor(ClassConstants.Vector_class);
result = cursor.getObjectCollection();
}
Object clones = cp.containerInstance(cp.sizeFor(result));
AbstractSession sessionToUse = unitOfWork.getParent();
for (Object iter = cp.iteratorFor(result); cp.hasNext(iter); ) {
Object object = cp.next(iter, sessionToUse);
Object clone = registerIndividualResult(object, unitOfWork, this.joinedAttributeManager);
cp.addInto(clone, clones, unitOfWork);
}
if (cursor != null) {
cursor.setObjectCollection((Vector) clones);
return cursor;
} else {
return clones;
}
}
/** INTERNAL: Conform the result if specified. */
protected Object conformResult(
Object result,
UnitOfWorkImpl unitOfWork,
AbstractRecord arguments,
boolean buildDirectlyFromRows) {
if (getSelectionCriteria() != null) {
ExpressionBuilder builder = getSelectionCriteria().getBuilder();
builder.setSession(unitOfWork.getRootSession(null));
builder.setQueryClass(getReferenceClass());
}
// If the query is redirected then the collection returned might no longer
// correspond to the original container policy. CR#2342-S.M.
ContainerPolicy cp;
if (getRedirector() != null) {
cp = ContainerPolicy.buildPolicyFor(result.getClass());
} else {
cp = getContainerPolicy();
}
// This code is now a great deal different... For one, registration is done
// as part of conforming. Also, this should only be called if one actually
// is conforming.
// First scan the UnitOfWork for conforming instances.
// This will walk through the entire cache of registered objects.
// Let p be objects from result not in the cache.
// Let c be objects from cache.
// Presently p intersect c = empty set, but later p subset c.
// By checking cache now doesConform will be called p fewer times.
Map indexedInterimResult =
unitOfWork.scanForConformingInstances(
getSelectionCriteria(), getReferenceClass(), arguments, this);
Cursor cursor = null;
// In the case of cursors just conform/register the initially read collection.
if (cp.isCursorPolicy()) {
cursor = (Cursor) result;
cp = ContainerPolicy.buildPolicyFor(ClassConstants.Vector_class);
// In nested UnitOfWork session might have been session of the parent.
cursor.setSession(unitOfWork);
result = cursor.getObjectCollection();
// for later incremental conforming...
cursor.setInitiallyConformingIndex(indexedInterimResult);
cursor.setSelectionCriteriaClone(getSelectionCriteria());
cursor.setTranslationRow(arguments);
}
// Now conform the result from the database.
// Remove any deleted or changed objects that no longer conform.
// Deletes will only work for simple queries, queries with or's or anyof's may not return
// correct results when untriggered indirection is in the model.
Vector fromDatabase = null;
// When building directly from rows, one of the performance benefits
// is that we no longer have to wrap and then unwrap the originals.
// result is just a vector, not a container of wrapped originals.
if (buildDirectlyFromRows) {
Vector rows = (Vector) result;
fromDatabase = new Vector(rows.size());
for (int i = 0; i < rows.size(); i++) {
Object object = rows.elementAt(i);
// null is placed in the row collection for 1-m joining to filter duplicate rows.
if (object != null) {
Object clone =
conformIndividualResult(
object,
unitOfWork,
arguments,
getSelectionCriteria(),
indexedInterimResult,
buildDirectlyFromRows);
if (clone != null) {
fromDatabase.addElement(clone);
}
}
}
} else {
fromDatabase = new Vector(cp.sizeFor(result));
AbstractSession sessionToUse = unitOfWork.getParent();
for (Object iter = cp.iteratorFor(result); cp.hasNext(iter); ) {
Object object = cp.next(iter, sessionToUse);
Object clone =
conformIndividualResult(
object,
unitOfWork,
arguments,
getSelectionCriteria(),
indexedInterimResult,
buildDirectlyFromRows);
if (clone != null) {
fromDatabase.addElement(clone);
}
}
}
// Now add the unwrapped conforming instances into an appropriate container.
// Wrapping is done automatically.
// Make sure a vector of exactly the right size is returned.
Object conformedResult =
cp.containerInstance(indexedInterimResult.size() + fromDatabase.size());
Object eachClone;
for (Iterator enumtr = indexedInterimResult.values().iterator(); enumtr.hasNext(); ) {
eachClone = enumtr.next();
cp.addInto(eachClone, conformedResult, unitOfWork);
}
for (Enumeration enumtr = fromDatabase.elements(); enumtr.hasMoreElements(); ) {
eachClone = enumtr.nextElement();
cp.addInto(eachClone, conformedResult, unitOfWork);
}
if (cursor != null) {
cursor.setObjectCollection((Vector) conformedResult);
// For nested UOW must copy all in object collection to
// initiallyConformingIndex, as some of these could have been from
// the parent UnitOfWork.
if (unitOfWork.isNestedUnitOfWork()) {
for (Enumeration enumtr = cursor.getObjectCollection().elements();
enumtr.hasMoreElements(); ) {
Object clone = enumtr.nextElement();
indexedInterimResult.put(clone, clone);
}
}
return cursor;
} else {
return conformedResult;
}
}
/**
* INTERNAL: Perform the work to delete an object.
*
* @return object - the object being deleted.
*/
public Object executeDatabaseQuery() throws DatabaseException, OptimisticLockException {
AbstractSession session = getSession();
CommitManager commitManager = session.getCommitManager();
Object object = getObject();
boolean isUnitOfWork = session.isUnitOfWork();
try {
// Check if the object has already been committed, then no work is required
if (commitManager.isProcessedCommit(object)) {
return object;
}
commitManager.markPreModifyCommitInProgress(getObject());
if (!isUnitOfWork) {
session.beginTransaction();
}
ClassDescriptor descriptor = this.descriptor;
DescriptorEventManager eventManager = descriptor.getEventManager();
// PERF: Avoid events if no listeners.
if (eventManager.hasAnyEventListeners()) {
// Need to run pre-delete selector if available
eventManager.executeEvent(new DescriptorEvent(DescriptorEventManager.PreDeleteEvent, this));
}
// Verify if deep shallow modify is turned on
if (shouldCascadeParts()) {
descriptor.getQueryManager().preDelete(this);
}
// CR#2660080 missing aboutToDelete event.
// PERF: Avoid events if no listeners.
if (eventManager.hasAnyEventListeners()) {
DescriptorEvent event =
new DescriptorEvent(DescriptorEventManager.AboutToDeleteEvent, this);
event.setRecord(getModifyRow());
eventManager.executeEvent(event);
}
if (QueryMonitor.shouldMonitor()) {
QueryMonitor.incrementDelete(this);
}
int rowCount = 0;
// If the object was/will be deleted from a cascade delete constraint, ignore it.
if (isUnitOfWork
&& ((UnitOfWorkImpl) session).hasCascadeDeleteObjects()
&& ((UnitOfWorkImpl) session).getCascadeDeleteObjects().contains(object)) {
// Cascade delete does not check optimistic lock, assume ok.
rowCount = 1;
} else {
rowCount = getQueryMechanism().deleteObject().intValue();
}
if (rowCount < 1) {
if (session.hasEventManager()) {
session.getEventManager().noRowsModified(this, object);
}
}
if (descriptor.usesOptimisticLocking()) {
descriptor.getOptimisticLockingPolicy().validateDelete(rowCount, object, this);
}
commitManager.markPostModifyCommitInProgress(getObject());
// Verify if deep shallow modify is turned on
if (shouldCascadeParts()) {
descriptor.getQueryManager().postDelete(this);
}
if ((descriptor.getHistoryPolicy() != null)
&& descriptor.getHistoryPolicy().shouldHandleWrites()) {
descriptor.getHistoryPolicy().postDelete(this);
}
// PERF: Avoid events if no listeners.
if (eventManager.hasAnyEventListeners()) {
// Need to run post-delete selector if available
eventManager.executeEvent(
new DescriptorEvent(DescriptorEventManager.PostDeleteEvent, this));
}
if (!isUnitOfWork) {
session.commitTransaction();
}
commitManager.markCommitCompleted(object);
// CR3510313, avoid removing aggregate collections from cache (maintain cache is false).
if (shouldMaintainCache()) {
if (isUnitOfWork) {
((UnitOfWorkImpl) session).addObjectDeletedDuringCommit(object, descriptor);
} else {
session
.getIdentityMapAccessorInstance()
.removeFromIdentityMap(
getPrimaryKey(), descriptor.getJavaClass(), descriptor, object);
}
}
return object;
} catch (RuntimeException exception) {
if (!isUnitOfWork) {
session.rollbackTransaction();
}
commitManager.markCommitCompleted(object);
throw exception;
}
}
/**
* INTERNAL: Perform the work to delete an object.
*
* @return object - the object being deleted.
*/
public Object executeDatabaseQuery() throws DatabaseException, OptimisticLockException {
AbstractSession session = getSession();
CommitManager commitManager = session.getCommitManager();
Object object = getObject();
boolean isUnitOfWork = session.isUnitOfWork();
try {
// Check if the object has already been deleted, then no work is required.
if (commitManager.isCommitCompletedInPostOrIgnore(object)) {
return object;
}
ClassDescriptor descriptor = this.descriptor;
// Check whether the object is already being deleted,
// if it is, then there is a cycle, and the foreign keys must be nulled.
if (commitManager.isCommitInPreModify(object)) {
if (!commitManager.isShallowCommitted(object)) {
getQueryMechanism().updateForeignKeyFieldBeforeDelete();
if ((descriptor.getHistoryPolicy() != null)
&& descriptor.getHistoryPolicy().shouldHandleWrites()) {
descriptor.getHistoryPolicy().postUpdate(this);
}
commitManager.markShallowCommit(object);
}
return object;
}
commitManager.markPreModifyCommitInProgress(getObject());
if (!isUnitOfWork) {
session.beginTransaction();
}
DescriptorEventManager eventManager = descriptor.getEventManager();
// PERF: Avoid events if no listeners.
if (eventManager.hasAnyEventListeners()) {
// Need to run pre-delete selector if available
eventManager.executeEvent(new DescriptorEvent(DescriptorEventManager.PreDeleteEvent, this));
}
// Verify if deep shallow modify is turned on
if (shouldCascadeParts()) {
descriptor.getQueryManager().preDelete(this);
}
// Check for deletion dependencies.
if (isUnitOfWork) {
Set dependencies = ((UnitOfWorkImpl) session).getDeletionDependencies(object);
if (dependencies != null) {
for (Object dependency : dependencies) {
if (!commitManager.isCommitCompletedInPostOrIgnore(dependency)) {
ClassDescriptor dependencyDescriptor = session.getDescriptor(dependency);
// PERF: Get the descriptor query, to avoid extra query creation.
DeleteObjectQuery deleteQuery =
dependencyDescriptor.getQueryManager().getDeleteQuery();
if (deleteQuery == null) {
deleteQuery = new DeleteObjectQuery();
deleteQuery.setDescriptor(dependencyDescriptor);
} else {
// Ensure original query has been prepared.
deleteQuery.checkPrepare(session, deleteQuery.getTranslationRow());
deleteQuery = (DeleteObjectQuery) deleteQuery.clone();
}
deleteQuery.setIsExecutionClone(true);
deleteQuery.setObject(dependency);
session.executeQuery(deleteQuery);
}
}
}
}
// CR#2660080 missing aboutToDelete event.
// PERF: Avoid events if no listeners.
if (eventManager.hasAnyEventListeners()) {
DescriptorEvent event =
new DescriptorEvent(DescriptorEventManager.AboutToDeleteEvent, this);
event.setRecord(getModifyRow());
eventManager.executeEvent(event);
}
if (QueryMonitor.shouldMonitor()) {
QueryMonitor.incrementDelete(this);
}
int rowCount = 0;
// If the object was/will be deleted from a cascade delete constraint, ignore it.
if (isUnitOfWork
&& ((UnitOfWorkImpl) session).hasCascadeDeleteObjects()
&& ((UnitOfWorkImpl) session).getCascadeDeleteObjects().contains(object)) {
// Cascade delete does not check optimistic lock, assume ok.
rowCount = 1;
} else {
rowCount = getQueryMechanism().deleteObject().intValue();
}
if (rowCount < 1) {
if (session.hasEventManager()) {
session.getEventManager().noRowsModified(this, object);
}
}
if (this.usesOptimisticLocking) {
descriptor.getOptimisticLockingPolicy().validateDelete(rowCount, object, this);
}
commitManager.markPostModifyCommitInProgress(getObject());
// Verify if deep shallow modify is turned on
if (shouldCascadeParts()) {
descriptor.getQueryManager().postDelete(this);
}
if ((descriptor.getHistoryPolicy() != null)
&& descriptor.getHistoryPolicy().shouldHandleWrites()) {
descriptor.getHistoryPolicy().postDelete(this);
}
// PERF: Avoid events if no listeners.
if (eventManager.hasAnyEventListeners()) {
// Need to run post-delete selector if available
eventManager.executeEvent(
new DescriptorEvent(DescriptorEventManager.PostDeleteEvent, this));
}
if (!isUnitOfWork) {
session.commitTransaction();
}
commitManager.markCommitCompleted(object);
// CR3510313, avoid removing aggregate collections from cache (maintain cache is false).
if (shouldMaintainCache()) {
if (isUnitOfWork) {
((UnitOfWorkImpl) session).addObjectDeletedDuringCommit(object, descriptor);
} else {
session
.getIdentityMapAccessorInstance()
.removeFromIdentityMap(
getPrimaryKey(), descriptor.getJavaClass(), descriptor, object);
}
}
return object;
} catch (RuntimeException exception) {
if (!isUnitOfWork) {
session.rollbackTransaction();
}
commitManager.markCommitCompleted(object);
throw exception;
}
}
