/** * INTERNAL: This method is used when computing the nested queries for batch read mappings. It * recurses computing the nested mapping queries. */ protected void computeNestedQueriesForBatchReadExpressions(Vector batchReadExpressions) { for (int index = 0; index < batchReadExpressions.size(); index++) { ObjectExpression objectExpression = (ObjectExpression) batchReadExpressions.get(index); // Expression may not have been initialized. ExpressionBuilder builder = objectExpression.getBuilder(); builder.setSession(getSession().getRootSession(null)); builder.setQueryClass(getReferenceClass()); // PERF: Cache join attribute names. ObjectExpression baseExpression = objectExpression; while (!baseExpression.getBaseExpression().isExpressionBuilder()) { baseExpression = (ObjectExpression) baseExpression.getBaseExpression(); } this.batchReadAttributes.add(baseExpression.getName()); // Ignore nested if (objectExpression.getBaseExpression().isExpressionBuilder()) { DatabaseMapping mapping = objectExpression.getMapping(); if ((mapping != null) && mapping.isForeignReferenceMapping()) { // A nested query must be built to pass to the descriptor that looks like the real query // execution would. ReadQuery nestedQuery = ((ForeignReferenceMapping) mapping).prepareNestedBatchQuery(this); // Register the nested query to be used by the mapping for all the objects. getBatchReadMappingQueries().put(mapping, nestedQuery); } } } }
/** INTERNAL: Return if the attribute is specified for batch reading. */ public boolean isAttributeBatchRead(String attributeName) { if (!hasBatchReadAttributes()) { return false; } Vector batchReadAttributeExpressions = getBatchReadAttributeExpressions(); int size = batchReadAttributeExpressions.size(); for (int index = 0; index < size; index++) { QueryKeyExpression expression = (QueryKeyExpression) batchReadAttributeExpressions.get(index); while (!expression.getBaseExpression().isExpressionBuilder()) { expression = (QueryKeyExpression) expression.getBaseExpression(); } if (expression.getName().equals(attributeName)) { return true; } } return false; }
/** Retrieve next page size of objects from the remote cursored stream */ public Vector cursoredStreamNextPage( RemoteCursoredStream remoteCursoredStream, ReadQuery query, DistributedSession session, int pageSize) { Transporter transporter = null; try { transporter = getRemoteSessionController() .cursoredStreamNextPage(new Transporter(remoteCursoredStream.getID()), pageSize); } catch (RemoteException exception) { throw CommunicationException.errorInInvocation(exception); } if (transporter == null) { return null; } if (!transporter.wasOperationSuccessful()) { throw transporter.getException(); } Vector serverNextPageObjects = (Vector) transporter.getObject(); if (serverNextPageObjects == null) { cursoredStreamClose(remoteCursoredStream.getID()); return null; } Vector clientNextPageObjects = serverNextPageObjects; if (query.isReadAllQuery() && (!query.isReportQuery())) { // could be DataReadQuery clientNextPageObjects = new Vector(serverNextPageObjects.size()); for (Enumeration objEnum = serverNextPageObjects.elements(); objEnum.hasMoreElements(); ) { // 2612538 - the default size of Map (32) is appropriate Object clientObject = session.getObjectCorrespondingTo( objEnum.nextElement(), transporter.getObjectDescriptors(), new IdentityHashMap(), (ObjectLevelReadQuery) query); clientNextPageObjects.addElement(clientObject); } } return clientNextPageObjects; }
/** 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; } }