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/*
 * Copyright (c) 1998, 2018 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
package org.eclipse.persistence.internal.jpa.parsing;

import java.util.*;

import org.eclipse.persistence.expressions.*;
import org.eclipse.persistence.queries.*;
import org.eclipse.persistence.internal.localization.*;
import org.eclipse.persistence.internal.sessions.AbstractSession;

/**
 * INTERNAL
 * 

Purpose: A ParseTree contains Node(s). This contains a root Node and provides traversal utilities. *

Responsibilities:

    *
  • Add parameters to the query *
  • Generate an expression for the query *
  • Answer true if the tree has parameters *
  • Maintain the primary class name for the query *
  • Maintain the root of the parse tree *
  • Maintain the context for the parse tree *
  • Maintain the distinct state for the parse tree *
  • Print the contents of the parse tree on a string *
* @author Jon Driscoll and Joel Lucuik * @since TopLink 4.0 */ public class ParseTree { private ParseTreeContext context; private QueryNode queryNode; private FromNode fromNode; private SetNode setNode; private WhereNode whereNode; private OrderByNode orderByNode = null; private GroupByNode groupByNode = null; private HavingNode havingNode = null; private ClassLoader classLoader = null; private short distinctState = ObjectLevelReadQuery.UNCOMPUTED_DISTINCT; private boolean validated = false; private Set unusedVariables = null; /** * Return a new ParseTree. */ public ParseTree() { super(); } /** * INTERNAL * Returns a DatabaseQuery instance for this ParseTree. */ public DatabaseQuery createDatabaseQuery() { return (queryNode == null) ? null : queryNode.createDatabaseQuery(context); } /** * INTERNAL * Adjust the reference class of the passed query if necessary * * Need to test this for Employee, employee.getAddress(), report query */ public void adjustReferenceClassForQuery(DatabaseQuery theQuery, GenerationContext generationContext) { Class referenceClass = getReferenceClass(theQuery, generationContext); if ((referenceClass != null) && (referenceClass != theQuery.getReferenceClass())) { if (theQuery.isObjectLevelReadQuery()) { // The referenceClass needs to be changed. // This should only happen in an ejbSelect... ((ObjectLevelReadQuery)theQuery).setReferenceClass(referenceClass); generationContext.setBaseQueryClass(referenceClass); ((ObjectLevelReadQuery)theQuery).changeDescriptor(generationContext.getSession()); } else if (theQuery.isUpdateAllQuery()) { ((UpdateAllQuery)theQuery).setReferenceClass(referenceClass); } else if (theQuery.isDeleteAllQuery()) { ((DeleteAllQuery)theQuery).setReferenceClass(referenceClass); } } } /** * INTERNAL * Initialize the base expression in the generation context. */ public void initBaseExpression(ObjectLevelReadQuery theQuery, GenerationContext generationContext) { String variable = getFromNode().getFirstVariable(); ParseTreeContext context = generationContext.getParseTreeContext(); if (context.isRangeVariable(variable)) { Class referenceClass = theQuery.getReferenceClass(); // Create a new expression builder for the reference class ExpressionBuilder builder = new ExpressionBuilder(referenceClass); // Use the expression builder as the default expression builder for the query theQuery.setExpressionBuilder(builder); // Add the expression builder to the expression cache in the context generationContext.setBaseExpression(variable, builder); } else { // Get the declaring node for the variable Node path = context.pathForVariable(variable); // Get the ExpressionBuilder of the range variable for the path Class baseClass = getBaseExpressionClass(path, generationContext); // and change the reference class accordingly theQuery.setReferenceClass(baseClass); theQuery.changeDescriptor(generationContext.getSession()); generationContext.setBaseQueryClass(baseClass); // Set the node expression as base expression Expression baseExpression = path.generateExpression(generationContext); generationContext.setBaseExpression(variable, baseExpression); // Use the base ExpressionBuilder as the default for the query theQuery.setExpressionBuilder(baseExpression.getBuilder()); } } /** * INTERNAL * Initialize the base expression in the generation context. */ public void initBaseExpression(ModifyAllQuery theQuery, GenerationContext generationContext) { ModifyNode queryNode = (ModifyNode)getQueryNode(); String variable = queryNode.getCanonicalAbstractSchemaIdentifier(); Class referenceClass = theQuery.getReferenceClass(); // Create a new expression builder for the reference class ExpressionBuilder builder = new ExpressionBuilder(referenceClass); // Use the expression builder as the default expression builder for the query theQuery.setExpressionBuilder(builder); // Add the expression builder to the expression cache in the context generationContext.setBaseExpression(variable, builder); } /** */ private Class getBaseExpressionClass(Node node, GenerationContext generationContext) { ParseTreeContext context = generationContext.getParseTreeContext(); Class clazz = null; if (node == null) { clazz = null; } else if (node.isDotNode()) { // DotNode: delegate to left clazz = getBaseExpressionClass(node.getLeft(), generationContext); } else if (node.isVariableNode()) { // VariableNode String variable = ((VariableNode)node).getCanonicalVariableName(); if (!context.isRangeVariable(variable)) { Node path = context.pathForVariable(variable); // Variable is defined in JOIN/IN clause => // return the Class from its definition clazz = getBaseExpressionClass(path, generationContext); } else { // Variable is defined in range variable decl => // return its class String schema = context.schemaForVariable(variable); if (schema != null) { clazz = context.classForSchemaName(schema, generationContext); } } } return clazz; } /** * INTERNAL * Validate the parse tree. */ protected void validate(AbstractSession session, ClassLoader classLoader) { validate(new TypeHelperImpl(session, classLoader)); } /** * INTERNAL * Validate the parse tree. */ public void validate(TypeHelper typeHelper) { ParseTreeContext context = getContext(); context.setTypeHelper(typeHelper); validate(context); } /** * INTERNAL * Validate the parse tree. */ public void validate(ParseTreeContext context) { if (validated) { // already validated => return return; } validated = true; context.enterScope(); if (fromNode != null) { fromNode.validate(context); } queryNode.validate(context); qualifyAttributeAccess(context); if (setNode != null) { setNode.validate(context); } if (whereNode != null) { whereNode.validate(context); } if (hasOrderBy()) { orderByNode.validate(context, (SelectNode)queryNode); } if (hasGroupBy()) { groupByNode.validate(context, (SelectNode)queryNode); } if (hasHaving()) { havingNode.validate(context, groupByNode); } // store the set od unused variable for later use unusedVariables = context.getUnusedVariables(); context.leaveScope(); } /** * INTERNAL * This method handles any unqualified field access in bulk UPDATE and * DELETE statements. A UPDATE or DELETE statement may not define an * identification variable. In this case any field accessed from the * current class is not qualified with an identification variable, e.g. * UPDATE Customer SET name = :newname * The method goes through the expressions of the SET clause and the WHERE * clause of such an DELETE and UPDATE statement and qualifies the field * access using the abstract schema name as qualifier. */ protected void qualifyAttributeAccess(ParseTreeContext context) { if ((queryNode.isUpdateNode() || queryNode.isDeleteNode()) && ((ModifyNode)queryNode).getAbstractSchemaIdentifier() == null) { if (setNode != null) { setNode.qualifyAttributeAccess(context); } if (whereNode != null) { whereNode.qualifyAttributeAccess(context); } } } /** * INTERNAL * Add the ordering to the passed query */ public void addOrderingToQuery(ObjectLevelReadQuery theQuery, GenerationContext generationContext) { if (hasOrderBy()) { (getOrderByNode()).addOrderingToQuery(theQuery, generationContext); } } /** * INTERNAL * Add the grouping to the passed query */ public void addGroupingToQuery(ObjectLevelReadQuery theQuery, GenerationContext generationContext) { if (hasGroupBy()) { (getGroupByNode()).addGroupingToQuery(theQuery, generationContext); } } /** * INTERNAL * Add the having to the passed query */ public void addHavingToQuery(ObjectLevelReadQuery theQuery, GenerationContext generationContext) { if (hasHaving()) { (getHavingNode()).addHavingToQuery(theQuery, generationContext); } } /** * INTERNAL */ public void addNonFetchJoinAttributes(ObjectLevelReadQuery theQuery, GenerationContext generationContext) { ParseTreeContext context = generationContext.getParseTreeContext(); for (Iterator i = unusedVariables.iterator(); i.hasNext();) { String variable = (String)i.next(); Expression expr = null; if (!context.isRangeVariable(variable)) { Node path = context.pathForVariable(variable); expr = path.generateExpression(generationContext); theQuery.addNonFetchJoinedAttribute(expr); } else { // Ignore, assume 'Select 1 from Employee e' or sorts // unused range variable => not supported yet //throw JPQLException.notYetImplemented(context.getQueryInfo(), // "Variable [" + variable + "] is defined in a range variable declaration, but not used in the rest of the query."); } } } /** * INTERNAL * Add the updates to the passed query */ public void addUpdatesToQuery(UpdateAllQuery theQuery, GenerationContext generationContext) { if (getSetNode() != null) { (getSetNode()).addUpdatesToQuery(theQuery, generationContext); } } /** * INTERNAL * Add parameters to the query */ public void addParametersToQuery(DatabaseQuery query) { //Bug#4646580 Add arguments to query if (context.hasParameters()) { TypeHelper typeHelper = context.getTypeHelper(); for (Iterator i = context.getParameterNames().iterator(); i.hasNext();) { String param = (String)i.next(); Object type = context.getParameterType(param); Class clazz = typeHelper.getJavaClass(type); if (clazz == null) { clazz = Object.class; } query.addArgument(param, clazz); } } } /** * INTERNAL * Apply the select or update to the passed query. * If there is a single attribute being selected, add it to the query result set * If an aggregate is being used, add it to the query result set */ public void applyQueryNodeToQuery(DatabaseQuery theQuery, GenerationContext generationContext) { getQueryNode().applyToQuery(theQuery, generationContext); } /** * INTERNAL * Build the context to be used when generating the expression from the parse tree */ public GenerationContext buildContext(DatabaseQuery query, AbstractSession sessionForContext) { if (query.isObjectLevelReadQuery()) { return buildContextForReadQuery(sessionForContext); } else if (query.isUpdateAllQuery() || query.isDeleteAllQuery()) { return new GenerationContext(getContext(), sessionForContext, this); } return null; } /** * INTERNAL * Build the context to be used when generating the expression from the parse tree */ public GenerationContext buildContextForReadQuery(AbstractSession sessionForContext) { return new SelectGenerationContext(getContext(), sessionForContext, this); } /** * INTERNAL * Build a context for the expression generation */ public Expression generateExpression(DatabaseQuery readQuery, GenerationContext generationContext) { Expression selectExpression = getQueryNode().generateExpression(generationContext); if (getWhereNode() == null) { return selectExpression; } Expression whereExpression = getWhereNode().generateExpression(generationContext); selectExpression = getQueryNode().generateExpression(generationContext); if (selectExpression != null) { whereExpression = selectExpression.and(whereExpression); } return whereExpression; } /** * Return the context for this parse tree */ public ParseTreeContext getContext() { return context; } /** * INTERNAL * Return the FROM Node */ public FromNode getFromNode() { return fromNode; } /** * INTERNAL * Return a class loader * @return java.lang.ClassLoader */ public ClassLoader getClassLoader() { if (classLoader == null) { return org.eclipse.persistence.internal.helper.ConversionManager.getDefaultManager().getLoader(); } else { return classLoader; } } /** * INTERNAL * Return the OrderByNode */ public OrderByNode getOrderByNode() { return orderByNode; } /** * INTERNAL * Return the GroupByNode */ public GroupByNode getGroupByNode() { return groupByNode; } /** * INTERNAL * Return the HavingNode */ public HavingNode getHavingNode() { return havingNode; } /** * getReferenceClass(): Answer the class which will be the reference class for the query. * Resolve this using the node parsed from the "SELECT" of the EJBQL query string */ public Class getReferenceClass(DatabaseQuery query, GenerationContext generationContext) { if (getQueryNode() == null) { return null; } return getQueryNode().getReferenceClass(generationContext); } /** * INTERNAL * Return the root node for the tree */ public QueryNode getQueryNode() { return queryNode; } /** * INTERNAL * Return the set node for the tree */ public SetNode getSetNode() { return setNode; } /** * INTERNAL * Return the Where node */ public WhereNode getWhereNode() { return whereNode; } /** * INTERNAL * Return the DISTINCT state for the tree */ public short getDistinctState() { return distinctState; } /** * INTERNAL * Does this EJBQL have an Ordering Clause */ public boolean hasOrderBy() { return getOrderByNode() != null; } /** * INTERNAL * Does this EJBQL have a Grouping Clause */ public boolean hasGroupBy() { return getGroupByNode() != null; } /** * INTERNAL * Does this EJBQL have a Having Clause */ public boolean hasHaving() { return getHavingNode() != null; } /** * INTERNAL: * Set the class loader for this parse tree * @param loader */ public void setClassLoader(ClassLoader loader){ this.classLoader = loader; } /** * INTERNAL * Set the context for this parse tree */ public void setContext(ParseTreeContext newContext) { context = newContext; } /** * INTERNAL * Set the FROM node for the query */ public void setFromNode(FromNode fromNode) { this.fromNode = fromNode; } /** * INTERNAL * Set the Order by node */ public void setOrderByNode(OrderByNode newOrderByNode) { orderByNode = newOrderByNode; } /** * INTERNAL * Set the Group by node */ public void setGroupByNode(GroupByNode newGroupByNode) { groupByNode = newGroupByNode; } /** * INTERNAL * Set the Having node */ public void setHavingNode(HavingNode newHavingNode) { havingNode = newHavingNode; } public void setSelectionCriteriaForQuery(DatabaseQuery theQuery, GenerationContext generationContext) { theQuery.setSelectionCriteria(generateExpression(theQuery, generationContext)); } /** * INTERNAL * Set the Select node */ public void setQueryNode(QueryNode newQueryNode) { queryNode = newQueryNode; } /** * INTERNAL * Set the Where node */ public void setSetNode(SetNode newSetNode) { setNode = newSetNode; } /** * INTERNAL * Set the Where node */ public void setWhereNode(WhereNode newWhereNode) { whereNode = newWhereNode; } /** * INTERNAL * Set the DISTINCT state for the tree */ public void setDistinctState(short newDistinctState) { distinctState = newDistinctState; } /** * INTERNAL * Print the contents of the parse tree on a string */ public String toString() { StringBuilder buffer = new StringBuilder(); buffer.append(getContext().toString()); return ToStringLocalization.buildMessage("context", (Object[])null) + " " + buffer.toString(); } /** * INTERNAL * Verify that the alias in the SELECT is valid. * Invalid: SELECT OBJECT(badAlias) FROM Employee employee.... * Valid: SELECT OBJECT(employee) FROM Employee employee.... */ public void verifySelect(DatabaseQuery theQuery, GenerationContext generationContext) { if (theQuery.isObjectLevelReadQuery()) { //verify the selected alias, //this will throw an error if the alias is bad ((SelectNode)getQueryNode()).verifySelectedAlias(generationContext); } } /** * INTERNAL * Answer true if DISTINCT has been chosen. */ public boolean usesDistinct() { return distinctState == ObjectLevelReadQuery.USE_DISTINCT; } }




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