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/*
 * Copyright (c) 2006, 2019 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
//
//     09/02/2019-3.0 Alexandre Jacob
//        - 527415: Fix code when locale is tr, az or lt
package org.eclipse.persistence.jpa.jpql.parser;

import java.util.Arrays;
import java.util.Collections;
import java.util.HashMap;
import java.util.Locale;
import java.util.Map;
import java.util.Set;
import org.eclipse.persistence.jpa.jpql.Assert;
import org.eclipse.persistence.jpa.jpql.JPAVersion;

/**
 * This registry contains the necessary information used by Hermes parser. When parsing a JPQL query,
 * the {@link JPQLGrammar} given to {@link JPQLExpression} will give access to this registry.
 * 

* Provisional API: This interface is part of an interim API that is still under development and * expected to change significantly before reaching stability. It is available at this early stage * to solicit feedback from pioneering adopters on the understanding that any code that uses this * API will almost certainly be broken (repeatedly) as the API evolves. * * @see JPQLGrammar * @see ExpressionFactory * @see JPQLQueryBNF * * @version 2.5 * @since 2.4 * @author Pascal Filion */ @SuppressWarnings("nls") public class ExpressionRegistry { /** * The map of {@link ExpressionFactory ExpressionFactories} that have been registered and * required for parsing a JPQL query, they are mapped with their unique identifier. */ private Map expressionFactories; /** * The set of the JPQL identifiers defined by the grammar. */ private Map identifiers; /** * This table specify in which JPA version the identifiers was introduced. */ private Map identifierVersions; /** * The {@link JPQLQueryBNF} unique identifiers mapped to the only instance of the BNF rule. */ private Map queryBNFs; /** * Creates the only instance of ExpressionRegistry. */ public ExpressionRegistry() { super(); initialize(); } /** * Adds to the given query BNF a child BNF. * * @param queryBNFId The unique identifier of the parent BNF to add a child BNF * @param childQueryBNFId The unique identifier of the child to add to the parent BNF * @exception NullPointerException The {@link JPQLQueryBNF} identified by the given ID does not exist */ public void addChildBNF(String queryBNFId, String childQueryBNFId) { JPQLQueryBNF queryBNF = queryBNFs.get(queryBNFId); Assert.isNotNull(queryBNF, "The JPQLQueryBNF identified with '" + queryBNFId + "' does not exist."); queryBNF.registerChild(childQueryBNFId); } /** * Adds to the given unique identifier of an {@link ExpressionFactory} to the given query BNF. * * @param queryBNFId The unique identifier of the parent BNF * @param childExpressionFactoryId The unique identifier of the {@link ExpressionFactory} to add * to the given query BNF * @exception NullPointerException The {@link JPQLQueryBNF} identified by the given ID does not exist */ public void addChildFactory(String queryBNFId, String childExpressionFactoryId) { JPQLQueryBNF queryBNF = queryBNFs.get(queryBNFId); Assert.isNotNull(queryBNF, "The JPQLQueryBNF identified with '" + queryBNFId + "' does not exist."); queryBNF.registerExpressionFactory(childExpressionFactoryId); } /** * Adds the given JPQL identifier to this factory. * * @param expressionFactoryId The unique identifier of the {@link ExpressionFactory} to add more * JPQL identifiers * @param identifier The JPQL identifier this factory will parse */ public void addIdentifier(String expressionFactoryId, String identifier) { getExpressionFactory(expressionFactoryId).addIdentifier(identifier); } /** * Adds the given JPQL identifiers to this factory. * * @param expressionFactoryId The unique identifier of the {@link ExpressionFactory} to add more * JPQL identifiers * @param identifiers The JPQL identifiers this factory will parse */ public void addIdentifiers(String expressionFactoryId, String... identifiers) { getExpressionFactory(expressionFactoryId).addIdentifiers(identifiers); } /** * Retrieves the {@link ExpressionFactory} that is responsible for creating the {@link Expression} * object that represents the given JPQL identifier. * * @param identifier The JPQL identifier for which its factory is searched * @return Either the {@link ExpressionFactory} that creates the {@link Expression} or * null if none was found */ public ExpressionFactory expressionFactoryForIdentifier(String identifier) { identifier = identifier.toUpperCase(Locale.ROOT); if (Expression.SELECT.equalsIgnoreCase(identifier)) { return getExpressionFactory(SimpleSelectStatementFactory.ID); } for (ExpressionFactory expressionFactory : expressionFactories.values()) { boolean found = Arrays.binarySearch(expressionFactory.identifiers(), identifier) > -1; if (found) { return expressionFactory; } } return null; } /** * Retrieves the registered {@link ExpressionFactory} that was registered for the given unique identifier. * * @param expressionFactoryId The unique identifier of the {@link ExpressionFactory} to retrieve * @return The {@link ExpressionFactory} mapped with the given unique identifier */ public ExpressionFactory getExpressionFactory(String expressionFactoryId) { return expressionFactories.get(expressionFactoryId); } /** * Retrieves the {@link IdentifierRole} of the given JPQL identifier. A role helps to describe * the purpose of the identifier in a JPQL query. * * @param identifier The JPQL identifier for which its role is returned * @return The {@link IdentifierRole} of the given JPQL identifier */ public IdentifierRole getIdentifierRole(String identifier) { return identifiers.get(identifier.toUpperCase(Locale.ROOT)); } /** * Returns the JPQL identifiers that are supported by the {@link JPQLGrammar JPQL grammar}. * * @return The supported JPQL identifiers */ public Set getIdentifiers() { return Collections.unmodifiableSet(identifiers.keySet()); } /** * Retrieves the JPQL identifiers that are supported by the BNF rule with the given unique * identifier. The JPQL identifiers are retrieved by scanning the {@link ExpressionFactory} * registered with the BNF rule and its child BNF rules. * * @return The list of JPQL identifiers that are supported by a BNF rule */ public Iterable getIdentifiers(String queryBNFId) { return getQueryBNF(queryBNFId).getIdentifiers(); } /** * Retrieves the JPA version in which the identifier was first introduced. * * @return The version in which the identifier was introduced */ public JPAVersion getIdentifierVersion(String identifier) { JPAVersion version = identifierVersions.get(identifier.toUpperCase(Locale.ROOT)); return (version != null) ? version : JPAVersion.VERSION_1_0; } /** * Retrieves the BNF object that was registered for the given unique identifier. * * @param queryBNFId The unique identifier of the {@link JPQLQueryBNF} to retrieve * @return The {@link JPQLQueryBNF} representing a section of the grammar */ public JPQLQueryBNF getQueryBNF(String queryBNFId) { return queryBNFs.get(queryBNFId); } /** * Instantiates the only instance of various API used by the parser. */ protected void initialize() { queryBNFs = new HashMap(); identifiers = new HashMap(); expressionFactories = new HashMap(); identifierVersions = new HashMap(); } /** * Determines if the given word is a JPQL identifier. The check is case insensitive. * * @param text The string value to test if it's a JPQL identifier based on what is registered * with this ExpressionRegistry * @return true if the word is an identifier, false otherwise */ public boolean isIdentifier(String text) { return identifiers.containsKey(text.toUpperCase(Locale.ROOT)); } /** * Registers the given {@link JPQLQueryBNF}. The BNF will be registered using its unique * identifier. * * @param queryBNF The {@link JPQLQueryBNF} to store * @exception NullPointerException The {@link JPQLQueryBNF} cannot be null */ public void registerBNF(JPQLQueryBNF queryBNF) { Assert.isNotNull(queryBNF, "The JPQLQueryBNF cannot be null"); queryBNFs.put(queryBNF.getId(), queryBNF); queryBNF.setExpressionRegistry(this); } /** * Registers the given {@link ExpressionFactory} by storing it for all its identifiers. * * @param expressionFactory The {@link ExpressionFactory} to store * @exception NullPointerException The {@link ExpressionFactory} cannot be null */ public void registerFactory(ExpressionFactory expressionFactory) { Assert.isNotNull(expressionFactory, "The ExpressionFactory cannot be null"); expressionFactories.put(expressionFactory.getId(), expressionFactory); expressionFactory.setExpressionRegistry(this); } /** * Registers the {@link IdentifierRole} for the given JPQL identifier. * * @param identifier The JPQL identifier to register its role within a JPQL query * @param role The role of the given JPQL identifier * @exception NullPointerException The JPQL identifier and the {@link IdentifierRole} cannot be * null */ public void registerIdentifierRole(String identifier, IdentifierRole role) { Assert.isNotNull(identifier, "The JPQL identifier cannot be null"); Assert.isNotNull(role, "The IdentifierRole cannot be null"); identifiers.put(identifier, role); } /** * Registers the {@link JPAVersion} for which the given JPQL identifier was defined. * * @param identifier The JPQL identifier to register in which version it was added to the grammar * @param version The version when the JPQL identifier was added to the grammar * @exception NullPointerException The JPQL identifier and the {@link JPAVersion} cannot be * null */ public void registerIdentifierVersion(String identifier, JPAVersion version) { Assert.isNotNull(identifier, "The JPQL identifier cannot be null"); Assert.isNotNull(version, "The JPAVersion cannot be null"); identifierVersions.put(identifier, version); } /** * When parsing the query and no {@link JPQLQueryBNF JPQLQueryBNFs} can help to parse the query, * then it will fall back on the given one. * * @param queryBNFId The unique identifier of the BNF to modify its fallback BNF unique identifier * @param fallbackBNFId The unique identifier of the {@link JPQLQueryBNF} to use in the last resort * @exception NullPointerException The {@link JPQLQueryBNF} identified by the given ID does not exist */ public void setFallbackBNFId(String queryBNFId, String fallbackBNFId) { JPQLQueryBNF queryBNF = queryBNFs.get(queryBNFId); Assert.isNotNull(queryBNF, "The JPQLQueryBNF identified with '" + queryBNFId + "' does not exist."); queryBNF.setFallbackBNFId(queryBNFId); } /** * Sets the unique identifier of the {@link ExpressionFactory} to use when the fall back BNF * ID is not null. This will be used to parse a portion of the query when the * registered {@link ExpressionFactory expression factories} cannot parse it. *

* Note: This method is only called if {@link JPQLQueryBNF#getFallbackBNFId() JPQLQueryBNF. * getFallbackBNFId()} does not return null. * * @param queryBNFId The unique identifier of the BNF to modify its fallback expression factory * unique identifier * @exception NullPointerException The {@link JPQLQueryBNF} identified by the given ID does not exist */ public void setFallbackExpressionFactoryId(String queryBNFId, String fallbackExpressionFactoryId) { JPQLQueryBNF queryBNF = queryBNFs.get(queryBNFId); Assert.isNotNull(queryBNF, "The JPQLQueryBNF identified with '" + queryBNFId + "' does not exist."); queryBNF.setFallbackExpressionFactoryId(fallbackExpressionFactoryId); } /** * Determines whether the Expression handles a collection of sub-expressions that * are separated by commas. * * @param queryBNFId The unique identifier of the {@link JPQLQueryBNF} * @param handleCollection true if the sub-expression to parse might have several * sub-expressions separated by commas; false otherwise */ public void setHandleCollection(String queryBNFId, boolean handleCollection) { JPQLQueryBNF queryBNF = queryBNFs.get(queryBNFId); Assert.isNotNull(queryBNF, "The JPQLQueryBNF identified with '" + queryBNFId + "' does not exist."); queryBNF.setHandleCollection(handleCollection); } /** * Sets whether the BNF with the given ID supports nested array or not. A nested array is a sub- * expression with its child being a collection expression: (item_1, item_2, ..., item_n). * * @param queryBNFId The unique identifier of the {@link JPQLQueryBNF} * @param handleNestedArray true if the expression represented by this BNF can be * a nested array; false otherwise * @since 2.5 */ public void setHandleNestedArray(String queryBNFId, boolean handleNestedArray) { JPQLQueryBNF queryBNF = queryBNFs.get(queryBNFId); Assert.isNotNull(queryBNF, "The JPQLQueryBNF identified with '" + queryBNFId + "' does not exist."); queryBNF.setHandleNestedArray(handleNestedArray); } /** * Sets whether the query BNF with the given ID handles parsing a sub-expression, i.e. parsing an * expression encapsulated by parenthesis. Which in fact would be handled by the fallback {@link * ExpressionFactory}. The default behavior is to not handle it. *

* A good example for using this option is when an {@link Expression} cannot use any {@link * ExpressionFactory} for creating a child object, parsing will use the fallback {@link * ExpressionFactory}, if one was specified. So when this is set to true, the * fallback {@link ExpressionFactory} will be immediately invoked. *

* Let's say we want to parse "SELECT e FROM (SELECT a FROM Address a) e", {@link FromClause} * cannot use a factory for parsing the entity name (that's what usually the FROM * clause has) so it uses the fallback factory to create {@link IdentificationVariableDeclaration}. * Then IdentificationVariableDeclaration also cannot use any factory to create its * child object so it uses the fallback factory to create {@link RangeVariableDeclaration}. * By changing the status of for handling the sub-expression for the BNFs for those objects, then * a subquery can be created by RangeVariableDeclaration. * *

FromClause
     *  |- IdentificationVariableDeclaration
     *       |- RangeVariableDeclaration
     *            |- SubExpression(subquery)
* * In order to get this working, the following would have to be done into the grammar: * *
 public class MyJPQLGrammar extends AbstractJPQLGrammar {
     *   @Override
     *   protected void initializeBNFs() {
     *      setHandleSubExpression(InternalFromClauseBNF.ID,                true);
     *      setHandleSubExpression(InternalSimpleFromClauseBNF.ID,          true);
     *      setHandleSubExpression(IdentificationVariableDeclarationBNF.ID, true);
     *      setHandleSubExpression(RangeVariableDeclarationBNF.ID,          true);
     *   }
     * }
* * @param queryBNFId The unique identifier of the {@link JPQLQueryBNF} * @param handleSubExpression true to let the creation of a sub-expression be * created by the fallback {@link ExpressionFactory} registered with this BNF; false * otherwise (which is the default value) */ public void setHandleSubExpression(String queryBNFId, boolean handleSubExpression) { JPQLQueryBNF queryBNF = queryBNFs.get(queryBNFId); Assert.isNotNull(queryBNF, "The JPQLQueryBNF identified with '" + queryBNFId + "' does not exist."); queryBNF.setHandleSubExpression(handleSubExpression); } /** * Unregisters the given {@link JPQLQueryBNF}. * * @param queryBNF The {@link JPQLQueryBNF} to unregister * @exception NullPointerException The {@link JPQLQueryBNF} cannot be null */ public void unregisterBNF(JPQLQueryBNF queryBNF) { Assert.isNotNull(queryBNF, "The JPQLQueryBNF cannot be null"); queryBNFs.remove(queryBNF.getId()); queryBNF.setExpressionRegistry(null); } }




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