/** Delete all of the objects with the matching class. */
  public void deleteAllObjects(Class theClass, List objects, AbstractSession session) {
    ClassDescriptor descriptor = null;

    if (((UnitOfWorkImpl) session).shouldOrderUpdates()) { // bug 331064 - Sort the delete order
      objects = sort(theClass, objects);
    }

    int size = objects.size();
    for (int index = 0; index < size; index++) {
      Object objectToDelete = objects.get(index);
      if (objectToDelete.getClass() == theClass) {
        if (descriptor == null) {
          descriptor = session.getDescriptor(theClass);
        }
        // PERF: Get the descriptor query, to avoid extra query creation.
        DeleteObjectQuery deleteQuery = descriptor.getQueryManager().getDeleteQuery();
        if (deleteQuery == null) {
          deleteQuery = new DeleteObjectQuery();
          deleteQuery.setDescriptor(descriptor);
        } else {
          // Ensure original query has been prepared.
          deleteQuery.checkPrepare(session, deleteQuery.getTranslationRow());
          deleteQuery = (DeleteObjectQuery) deleteQuery.clone();
        }
        deleteQuery.setIsExecutionClone(true);
        deleteQuery.setObject(objectToDelete);
        session.executeQuery(deleteQuery);
      }
    }
  }
 protected Hashtable removeDuplicateAndValidateInfos(AbstractSession session) {
   Hashtable infoHashtable = new Hashtable();
   for (int i = 0; i < infos.size(); i++) {
     Info info1 = infos.get(i);
     info1 = (Info) info1.clone();
     DatabaseField descField = getDescriptor().buildField(info1.getField());
     if (info1.getField().getType() == null) {
       info1.setField(descField);
     } else {
       // keep the original type if specified
       info1.getField().setName(descField.getName());
       info1
           .getField()
           .setTableName(
               getDescriptor().getDefaultTable().getQualifiedNameDelimited(session.getPlatform()));
     }
     Info info2 = (Info) infoHashtable.get(info1.getField());
     if (info2 == null) {
       infoHashtable.put(info1.getField(), info1);
     } else {
       Info infoMerged = mergeInfos(info1, info2, session, getDescriptor());
       if (infoMerged != null) {
         // substitute info2 with infoMerged
         infoHashtable.put(infoMerged.getField(), infoMerged);
       } else {
         // couldn't merge info1 and info2 due to a conflict.
         // substitute info2 with info1
         infoHashtable.put(info1.getField(), info1);
       }
     }
   }
   return infoHashtable;
 }
  /**
   * delete all of the objects as a single transaction. This should delete the object in the correct
   * order to maintain referential integrity.
   */
  public void deleteAllObjects(List objects)
      throws RuntimeException, DatabaseException, OptimisticLockException {
    this.isActive = true;
    AbstractSession session = getSession();
    session.beginTransaction();

    try {
      // PERF: Optimize single object case.
      if (objects.size() == 1) {
        deleteAllObjects(objects.get(0).getClass(), objects, session);
      } else {
        List commitOrder = getCommitOrder();
        for (int orderIndex = commitOrder.size() - 1; orderIndex >= 0; orderIndex--) {
          Class theClass = (Class) commitOrder.get(orderIndex);
          deleteAllObjects(theClass, objects, session);
        }
      }

      session.commitTransaction();
    } catch (RuntimeException exception) {
      try {
        session.rollbackTransaction();
      } catch (Exception ignore) {
      }
      throw exception;
    } finally {
      reinitialize();
      this.isActive = false;
    }
  }
 /**
  * Commit all of the objects of the class type in the change set. This allows for the order of the
  * classes to be processed optimally.
  */
 protected void commitNewObjectsForClassWithChangeSet(
     UnitOfWorkChangeSet uowChangeSet, Class theClass) {
   Map<ObjectChangeSet, ObjectChangeSet> newObjectChangesList =
       uowChangeSet.getNewObjectChangeSets().get(theClass);
   if (newObjectChangesList != null) { // may be no changes for that class type.
     AbstractSession session = getSession();
     ClassDescriptor descriptor = session.getDescriptor(theClass);
     List<ObjectChangeSet> newChangeSets = new ArrayList(newObjectChangesList.values());
     int size = newChangeSets.size();
     for (int index = 0; index < size; index++) {
       ObjectChangeSet changeSetToWrite = newChangeSets.get(index);
       Object objectToWrite = changeSetToWrite.getUnitOfWorkClone();
       if (!isProcessedCommit(objectToWrite)) {
         // PERF: Get the descriptor query, to avoid extra query creation.
         InsertObjectQuery commitQuery = descriptor.getQueryManager().getInsertQuery();
         if (commitQuery == null) {
           commitQuery = new InsertObjectQuery();
           commitQuery.setDescriptor(descriptor);
         } else {
           // Ensure original query has been prepared.
           commitQuery.checkPrepare(session, commitQuery.getTranslationRow());
           commitQuery = (InsertObjectQuery) commitQuery.clone();
         }
         commitQuery.setIsExecutionClone(true);
         commitQuery.setObjectChangeSet(changeSetToWrite);
         commitQuery.setObject(objectToWrite);
         commitQuery.cascadeOnlyDependentParts();
         commitQuery.setModifyRow(null);
         session.executeQuery(commitQuery);
       }
       uowChangeSet.putNewObjectInChangesList(changeSetToWrite, session);
     }
   }
 }
 protected void initializeIsUsedToSetPrimaryKey() {
   this.isUsedToSetPrimaryKey = false;
   if ((main[INSERT][MAPPED] == null) || main[INSERT][MAPPED].isEmpty()) {
     return;
   }
   List primaryKeys = getDescriptor().getPrimaryKeyFields();
   for (int index = 0; (index < primaryKeys.size()) && !isUsedToSetPrimaryKey; index++) {
     this.isUsedToSetPrimaryKey = main[INSERT][MAPPED].contains(primaryKeys.get(index));
   }
 }
 // bug 331064 - Sort the delete order based on PKs.
 private List sort(Class theClass, List objects) {
   ClassDescriptor descriptor = session.getDescriptor(theClass);
   org.eclipse.persistence.internal.descriptors.ObjectBuilder objectBuilder =
       descriptor.getObjectBuilder();
   int size = objects.size();
   TreeMap sortedObjects = new TreeMap();
   for (int index = 0; index < size; index++) {
     Object objectToDelete = objects.get(index);
     if (objectToDelete.getClass() == theClass) {
       sortedObjects.put(
           objectBuilder.extractPrimaryKeyFromObject(objectToDelete, session), objectToDelete);
     }
   }
   return new ArrayList(sortedObjects.values());
 }
 protected boolean verifyFieldAndMapping(AbstractSession session, DatabaseField field) {
   boolean ok = true;
   verifyField(session, field, getDescriptor());
   DatabaseMapping mapping;
   List readOnlyMappings = getDescriptor().getObjectBuilder().getReadOnlyMappingsForField(field);
   if (readOnlyMappings != null) {
     for (int j = 0; j < readOnlyMappings.size(); j++) {
       mapping = (DatabaseMapping) readOnlyMappings.get(j);
       ok &= verifyFieldAndMapping(session, field, getDescriptor(), mapping);
     }
   }
   mapping = getDescriptor().getObjectBuilder().getMappingForField(field);
   if (mapping != null) {
     ok &= verifyFieldAndMapping(session, field, getDescriptor(), mapping);
   }
   return ok;
 }
  /**
   * INTERNAL: Used in case outer joins should be printed in FROM clause. Each of the additional
   * tables mapped to expressions that joins it.
   */
  public Map additionalExpressionCriteriaMap() {
    if (getDescriptor() == null) {
      return null;
    }

    HashMap tablesJoinExpressions = new HashMap();
    Vector tables = getDescriptor().getTables();
    // skip the main table - start with i=1
    int tablesSize = tables.size();
    if (shouldUseOuterJoin()) {
      for (int i = 1; i < tablesSize; i++) {
        DatabaseTable table = (DatabaseTable) tables.elementAt(i);
        Expression joinExpression =
            (Expression) getDescriptor().getQueryManager().getTablesJoinExpressions().get(table);
        joinExpression = getBaseExpression().twist(joinExpression, this);
        tablesJoinExpressions.put(table, joinExpression);
      }
    }
    if (isUsingOuterJoinForMultitableInheritance()) {
      List childrenTables = getDescriptor().getInheritancePolicy().getChildrenTables();
      tablesSize = childrenTables.size();
      for (int i = 0; i < tablesSize; i++) {
        DatabaseTable table = (DatabaseTable) childrenTables.get(i);
        Expression joinExpression =
            (Expression)
                getDescriptor()
                    .getInheritancePolicy()
                    .getChildrenTablesJoinExpressions()
                    .get(table);
        joinExpression = getBaseExpression().twist(joinExpression, this);
        tablesJoinExpressions.put(table, joinExpression);
      }
    }

    return tablesJoinExpressions;
  }
  /** INTERNAL: */
  public void initialize(AbstractSession session) {
    clearInitialization();
    main = new Collection[NUM_OPERATIONS][MAIN_SIZE];

    // The order of descriptor initialization guarantees initialization of Parent before children.
    // main array is copied from Parent's ReturningPolicy
    if (getDescriptor().isChildDescriptor()) {
      ClassDescriptor parentDescriptor =
          getDescriptor().getInheritancePolicy().getParentDescriptor();
      if (parentDescriptor.hasReturningPolicy()) {
        copyMainFrom(parentDescriptor.getReturningPolicy());
      }
    }

    if (!infos.isEmpty()) {
      Hashtable infoHashtable = removeDuplicateAndValidateInfos(session);
      Hashtable infoHashtableUnmapped = (Hashtable) infoHashtable.clone();
      for (Enumeration fields = getDescriptor().getFields().elements();
          fields.hasMoreElements(); ) {
        DatabaseField field = (DatabaseField) fields.nextElement();
        Info info = (Info) infoHashtableUnmapped.get(field);
        if (info != null) {
          infoHashtableUnmapped.remove(field);
          if (verifyFieldAndMapping(session, field)) {
            if (info.getField().getType() == null) {
              addMappedFieldToMain(field, info);
            } else {
              addMappedFieldToMain(info.getField(), info);
              fieldIsNotFromDescriptor(info.getField());
            }
          }
        }
      }

      if (!infoHashtableUnmapped.isEmpty()) {
        Enumeration fields = infoHashtableUnmapped.keys();
        while (fields.hasMoreElements()) {
          DatabaseField field = (DatabaseField) fields.nextElement();
          Info info = (Info) infoHashtableUnmapped.get(field);
          if (verifyField(session, field, getDescriptor())) {
            if (field.getType() != null) {
              addUnmappedFieldToMain(field, info);
              fieldIsNotFromDescriptor(field);
              session.log(
                  SessionLog.FINEST,
                  SessionLog.QUERY,
                  "added_unmapped_field_to_returning_policy",
                  info.toString(),
                  getDescriptor().getJavaClassName());
            } else {
              if (getDescriptor().isReturnTypeRequiredForReturningPolicy()) {
                session
                    .getIntegrityChecker()
                    .handleError(
                        DescriptorException.returningPolicyUnmappedFieldTypeNotSet(
                            field.getName(), getDescriptor()));
              }
            }
          }
        }
      }
    }

    initializeIsUsedToSetPrimaryKey();
  }
 protected boolean hasObjectsToDelete() {
   return ((objectsToDelete != null) && (!objectsToDelete.isEmpty()));
 }
  /**
   * Commit all of the objects as a single transaction. This should commit the object in the correct
   * order to maintain referential integrity.
   */
  public void commitAllObjectsWithChangeSet(UnitOfWorkChangeSet uowChangeSet)
      throws RuntimeException, DatabaseException, OptimisticLockException {
    reinitialize();
    this.isActive = true;
    this.session.beginTransaction();
    try {
      // PERF: if the number of classes in the project is large this loop can be a perf issue.
      // If only one class types changed, then avoid loop.
      if ((uowChangeSet.getObjectChanges().size() + uowChangeSet.getNewObjectChangeSets().size())
          <= 1) {
        Iterator<Class> classes = uowChangeSet.getNewObjectChangeSets().keySet().iterator();
        if (classes.hasNext()) {
          Class theClass = classes.next();
          commitNewObjectsForClassWithChangeSet(uowChangeSet, theClass);
        }
        classes = uowChangeSet.getObjectChanges().keySet().iterator();
        if (classes.hasNext()) {
          Class theClass = classes.next();
          commitChangedObjectsForClassWithChangeSet(uowChangeSet, theClass);
        }
      } else {
        // The commit order is all of the classes ordered by dependencies, this is done for deadlock
        // avoidance.
        List commitOrder = getCommitOrder();
        int size = commitOrder.size();
        for (int index = 0; index < size; index++) {
          Class theClass = (Class) commitOrder.get(index);
          commitAllObjectsForClassWithChangeSet(uowChangeSet, theClass);
        }
      }

      if (hasDeferredCalls()) {
        // Perform all batched up calls, done to avoid dependencies.
        for (List<Object[]> calls : this.deferredCalls.values()) {
          for (Object[] argument : calls) {
            ((DatabaseQueryMechanism) argument[1])
                .executeDeferredCall((DatasourceCall) argument[0]);
          }
        }
      }

      if (hasDataModifications()) {
        // Perform all batched up data modifications, done to avoid dependencies.
        for (Map.Entry<DatabaseMapping, List<Object[]>> entry : this.dataModifications.entrySet()) {
          List<Object[]> events = entry.getValue();
          int size = events.size();
          DatabaseMapping mapping = entry.getKey();
          for (int index = 0; index < size; index++) {
            Object[] event = events.get(index);
            mapping.performDataModificationEvent(event, getSession());
          }
        }
      }

      if (hasObjectsToDelete()) {
        // These are orphaned objects, to be deleted from private ownership updates.
        // TODO: These should be added to the unit of work deleted so they are deleted in the
        // correct order.
        List objects = getObjectsToDelete();
        int size = objects.size();
        reinitialize();
        for (int index = 0; index < size; index++) {
          this.session.deleteObject(objects.get(index));
        }
      }

      this.session.commitTransaction();
    } catch (RuntimeException exception) {
      this.session.rollbackTransaction();
      throw exception;
    } finally {
      reinitialize();
      this.isActive = false;
    }
  }