Examples of org.eclipse.persistence.internal.sessions.AbstractRecord

• org.eclipse.persistence.internal.sessions.AbstractRecord

  Purpose: Define the abstract definition of a record for internal use. Public API should reference the Map or Record interface. Subclasses are DatabaseRecord and XMLRecord.

  Responsibilities:

  • Implement the Record and Map interfaces.

  @see DatabaseField

     * INTERNAL:
     * Performs a logical delete (update) on the historical schema.
     */
    public void logicalDelete(ModifyQuery writeQuery, boolean isUpdate, boolean isShallow) {
        ClassDescriptor descriptor = writeQuery.getDescriptor();
        AbstractRecord originalModifyRow = writeQuery.getModifyRow();
        AbstractRecord modifyRow = new DatabaseRecord();
        StatementQueryMechanism updateMechanism = new StatementQueryMechanism(writeQuery);
        Object currentTime = getCurrentTime(writeQuery.getSession());

        for (int i = 0; i < getHistoricalTables().size(); i++) {
            DatabaseTable table = getHistoricalTables().get(i);

            if (isUpdate && !checkWastedVersioning(originalModifyRow, table)) {
                continue;
            }
            SQLUpdateStatement updateStatement = new SQLUpdateStatement();
            updateStatement.setTable(table);
            Expression whereClause = null;
            if (writeQuery instanceof DeleteAllQuery) {
                if (writeQuery.getSelectionCriteria() != null) {
                    whereClause = (Expression)writeQuery.getSelectionCriteria().clone();
                }
            } else {
                whereClause = descriptor.getObjectBuilder().buildPrimaryKeyExpression(table);
            }
            ExpressionBuilder builder = ((whereClause == null) ? new ExpressionBuilder() : whereClause.getBuilder());
            whereClause = builder.getField(getEnd(i)).isNull().and(whereClause);
            updateStatement.setWhereClause(whereClause);

            modifyRow.add(getEnd(i), currentTime);

            // save a little time here and add the same timestamp value for
            // the start field in the logicalInsert.
            if (isUpdate) {
                if (isShallow) {

        historyStatement.setTable(histTable);
        Expression whereClause = (Expression)originalStatement.getWhereClause().clone();
        DatabaseField endField = getEnd();
        whereClause = whereClause.getBuilder().getField(endField).isNull().and(whereClause);
        historyStatement.setWhereClause(whereClause);
        AbstractRecord modifyRow = new DatabaseRecord();
        AbstractRecord translationRow = arguments.clone();
        Object time = getCurrentTime(session);
        modifyRow.add(getEnd(), time);
        translationRow.add(getEnd(), time);
        historyStatement.setModifyRow(modifyRow);
        historyQuery.setSQLStatement(historyStatement);
        historyQuery.setModifyRow(modifyRow);
        session.executeQuery(historyQuery, translationRow);
    }

        if (buildDirectlyFromRows) {
            List<AbstractRecord> rows = (List<AbstractRecord>)result;
            int size = rows.size();
            fromDatabase = new ArrayList(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 = conformIndividualResult(buildObject(row), unitOfWork, arguments, getSelectionCriteria(), indexedInterimResult);
                    if (clone != null) {
                        fromDatabase.add(clone);

            Object clones = cp.containerInstance(size);
            if(cp.shouldAddAll()) {
                List clonesIn = new ArrayList(size);
                List<AbstractRecord> rowsIn = new ArrayList(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);
                        clonesIn.add(clone);
                        rowsIn.add(row);
                    }
                }
                cp.addAll(clonesIn, clones, unitOfWork, rowsIn, this, null, true);
            } else {
                boolean quickAdd = (clones instanceof Collection) && !this.descriptor.getObjectBuilder().hasWrapperPolicy();
                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);
                        if (quickAdd) {

        }
    }

    protected int objectChangedListOrderDuringUpdate(WriteObjectQuery query, int iMin, int iMax, int iShift) {
        DataModifyQuery updateQuery;
        AbstractRecord translationRow = query.getTranslationRow().clone();
        translationRow.put(min, iMin);
        if(iMin == iMax) {
            translationRow.put(this.listOrderField, iMin + iShift);
            updateQuery = updateListOrderFieldQuery;
        } else {
            translationRow.put(max, iMax);
            translationRow.put(shift, iShift);
            updateQuery = bulkUpdateListOrderFieldQuery;
        }
        return (Integer)query.getSession().executeQuery(updateQuery, translationRow);
    }

        }
        return (Integer)query.getSession().executeQuery(updateQuery, translationRow);
    }

    protected int objectChangedListOrderDuringUpdate(WriteObjectQuery query, Object key, int newOrderValue) {
        AbstractRecord translationRow = query.getTranslationRow().clone();
        translationRow.put(this.listOrderField, newOrderValue);
        getReferenceDescriptor().getObjectBuilder().writeIntoRowFromPrimaryKeyValues(translationRow, key, query.getSession(), true);
        return (Integer)query.getSession().executeQuery(this.pkUpdateListOrderFieldQuery, translationRow);
    }

     * INTERNAL:
     * return the aggregate Record with the primary keys from the source table and target table
     */
    public AbstractRecord getAggregateRow(ObjectLevelModifyQuery query, Object object) {
        Vector referenceObjectKeys = getReferenceObjectKeys(query);
        AbstractRecord aggregateRow = new DatabaseRecord();
        Vector keys = getTargetForeignKeyFields();
        for (int keyIndex = 0; keyIndex < keys.size(); keyIndex++) {
            aggregateRow.put(keys.elementAt(keyIndex), referenceObjectKeys.elementAt(keyIndex));
        }
        getReferenceDescriptor(object.getClass(), query.getSession()).getObjectBuilder().buildRow(aggregateRow, object, query.getSession(), WriteType.UNDEFINED);

        return aggregateRow;
    }

     */
    public Vector getReferenceObjectKeys(ObjectLevelModifyQuery query) throws DatabaseException, OptimisticLockException {
        Vector referenceObjectKeys = new Vector(getSourceKeyFields().size());

        //For CR#2587-S.M.  For nested aggregate collections the source keys can easily be read from the original query.
        AbstractRecord translationRow = query.getTranslationRow();

        for (Enumeration sourcekeys = getSourceKeyFields().elements();
                 sourcekeys.hasMoreElements();) {
            DatabaseField sourceKey = (DatabaseField)sourcekeys.nextElement();

            // CR#2587.  Try first to get the source key from the original query.  If that fails try to get it from the object.
            Object referenceKey = null;
            if ((translationRow != null) && (translationRow.containsKey(sourceKey))) {
                referenceKey = translationRow.get(sourceKey);
            } else {
                referenceKey = getDescriptor().getObjectBuilder().extractValueFromObjectForField(query.getObject(), sourceKey, query.getSession());
            }
            referenceObjectKeys.addElement(referenceKey);
        }

        // Build where clause expression.
        Expression whereClause = null;
        Expression builder = new ExpressionBuilder();

        AbstractRecord modifyRow = new DatabaseRecord();

        if(queryType == pk) {
            Iterator<DatabaseField> it = getReferenceDescriptor().getPrimaryKeyFields().iterator();
            while(it.hasNext()) {
                DatabaseField pkField = it.next();
                DatabaseField sourceField = targetForeignKeyToSourceKeys.get(pkField);
                DatabaseField parameterField = sourceField != null ? sourceField : pkField;
                Expression expression = builder.getField(pkField).equal(builder.getParameter(parameterField));
                whereClause = expression.and(whereClause);
            }
            modifyRow.add(this.listOrderField, null);
        } else {
            Iterator<Map.Entry<DatabaseField, DatabaseField>> it = targetForeignKeyToSourceKeys.entrySet().iterator();
            while(it.hasNext()) {
                Map.Entry<DatabaseField, DatabaseField> entry = it.next();
                Expression expression = builder.getField(entry.getKey()).equal(builder.getParameter(entry.getValue()));
                whereClause = expression.and(whereClause);
            }
            Expression listOrderExpression;
            if(queryType == bulk) {
                listOrderExpression = builder.getField(this.listOrderField).between(builder.getParameter(min), builder.getParameter(max));
                modifyRow.add(this.listOrderField, ExpressionMath.add(builder.getField(this.listOrderField), builder.getParameter(shift)));
            } else {
                listOrderExpression = builder.getField(this.listOrderField).equal(builder.getParameter(min));
                modifyRow.add(this.listOrderField, null);
            }
            whereClause = listOrderExpression.and(whereClause);
        }

        SQLUpdateStatement statement = new SQLUpdateStatement();

        // CR 4143
        // CR 4155 Always replace the collection with the query results as we will not be able to
        // find the originals for merging and indirection information may be lost.
        if (mergeManager.shouldMergeChangesIntoDistributedCache()) {
            ClassDescriptor descriptor = getDescriptor();
            AbstractRecord parentRow = descriptor.getObjectBuilder().extractPrimaryKeyRowFromObject(target, session);
            Object result = getIndirectionPolicy().valueFromQuery(getSelectionQuery(), parentRow, session);//fix for indirection
            setAttributeValueInObject(target, result);
            return;
        }