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/*
 * Copyright (c) 2006, 2021 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
//
package org.eclipse.persistence.jpa.jpql.parser;

import java.util.Collection;
import java.util.List;
import org.eclipse.persistence.jpa.jpql.ExpressionTools;
import org.eclipse.persistence.jpa.jpql.WordParser;

/**
 * The state field path expression must have a string, numeric, or enum value. The literal and/or
 * input parameter values must be like the same abstract schema type of the state field path
 * expression in type.
 * 

* The results of the subquery must be like the same abstract schema type of the state field path * expression in type. *

* There must be at least one element in the comma separated list that defines the set of values for * the IN expression. If the value of a state field path expression in an IN or * NOT IN expression is NULL or unknown, the value of the expression is unknown. *

* JPA 1.0: *

BNF: in_expression ::= state_field_path_expression [NOT] IN(in_item {, in_item}* | subquery)
*
* JPA 2.0: *
BNF: in_expression ::= {state_field_path_expression | type_discriminator} [NOT] IN { ( in_item {, in_item}* ) | (subquery) | collection_valued_input_parameter }
*

* EclipseLink 2.1: *

BNF: in_item ::= literal | single_valued_input_parameter | scalar_expression
*

* EclipseLink 2.5: *

BNF:
 in_expression ::= { in_expression_expression | nested_array_expression } [NOT] IN { ( in_item {, in_item}* ) | (subquery) | ( nested_array_item {, nested_array_item}+ ) | collection_valued_input_parameter }
 *
 * in_expression_expression ::= { state_field_path_expression | type_discriminator |
 *                                single_valued_input_parameter | identification_variable |
 *                                scalar_expression }
 *
 * nested_array_expression ::= ( in_expression_expression {, in_expression_expression}+ )
 *
 * nested_array_item ::= ( in_item {, in_item}+ )
* *
Example: SELECT c FROM Customer c WHERE c.home.city IN :city
* *
Example: SELECT p FROM Project p WHERE TYPE(p) IN(LargeProject, SmallProject)
* * @version 2.5.1 * @since 2.3 * @author Pascal Filion */ public final class InExpression extends AbstractExpression { /** * The expression before the 'IN' identifier used for identification. */ private AbstractExpression expression; /** * Flag used to determine if the closing parenthesis is present in the query. */ private boolean hasLeftParenthesis; /** * Flag used to determine if the opening parenthesis is present in the query. */ private boolean hasRightParenthesis; /** * Flag used to determine if a space was parsed after IN if the left parenthesis was * not parsed. */ private boolean hasSpaceAfterIn; /** * The actual IN identifier found in the string representation of the JPQL query. */ private String inIdentifier; /** * The expression within parenthesis, which can be one or many expressions. */ private AbstractExpression inItems; /** * The actual NOT identifier found in the string representation of the JPQL query. */ private String notIdentifier; /** * Determines whether what was parsed after the IN identifier is a single input parameter. */ private Boolean singleInputParameter; /** * Creates a new InExpression. * * @param parent The parent of this expression * @param expression The state field path expression that was parsed prior of parsing this * expression */ public InExpression(AbstractExpression parent, AbstractExpression expression) { super(parent, IN); if (expression != null) { this.expression = expression; this.expression.setParent(this); } } @Override public void accept(ExpressionVisitor visitor) { visitor.visit(this); } @Override public void acceptChildren(ExpressionVisitor visitor) { getExpression().accept(visitor); getInItems().accept(visitor); } @Override protected void addChildrenTo(Collection children) { children.add(getExpression()); children.add(getInItems()); } @Override protected void addOrderedChildrenTo(List children) { // State field path expression or type discriminator if (hasExpression()) { children.add(expression); children.add(buildStringExpression(SPACE)); } // 'NOT' if (notIdentifier != null) { children.add(buildStringExpression(NOT)); children.add(buildStringExpression(SPACE)); } // 'IN' children.add(buildStringExpression(IN)); // '(' if (hasLeftParenthesis) { children.add(buildStringExpression(LEFT_PARENTHESIS)); } else if (hasSpaceAfterIn) { children.add(buildStringExpression(SPACE)); } // In items if (hasInItems()) { children.add(inItems); } // ')' if (hasRightParenthesis) { children.add(buildStringExpression(RIGHT_PARENTHESIS)); } } @Override public JPQLQueryBNF findQueryBNF(Expression expression) { if (this.expression.isAncestor(expression)) { return getQueryBNF(InExpressionExpressionBNF.ID); } if (inItems.isAncestor(expression)) { return getQueryBNF(InExpressionItemBNF.ID); } return super.findQueryBNF(expression); } /** * Returns the actual IN found in the string representation of the JPQL query, which has * the actual case that was used. * * @return The IN identifier that was actually parsed */ public String getActualInIdentifier() { return inIdentifier; } /** * Returns the actual NOT found in the string representation of the JPQL query, which has * the actual case that was used. * * @return The NOT identifier that was actually parsed, or an empty string if it was not parsed */ public String getActualNotIdentifier() { return (notIdentifier != null) ? notIdentifier : ExpressionTools.EMPTY_STRING; } /** * Returns the {@link Expression} that represents the state field path expression or type * discriminator. * * @return The expression that was parsed representing the state field path expression or the * type discriminator */ public Expression getExpression() { if (expression == null) { expression = buildNullExpression(); } return expression; } /** * Returns the unique identifier of the query BNF that describes the expression being tested by * the IN expression. * * @return {@link InExpressionExpressionBNF#ID} */ public String getExpressionExpressionQueryBNFId() { return InExpressionExpressionBNF.ID; } /** * Returns the unique identifier of the query BNF that describes the items being tested against. * * @return {@link InExpressionItemBNF#ID} */ public String getExpressionItemQueryBNFId() { return InExpressionItemBNF.ID; } /** * Returns the identifier for this expression. * * @return Either IS IN or IN */ public String getIdentifier() { return (notIdentifier != null) ? NOT_IN : IN; } /** * Returns the {@link Expression} that represents the list if items. * * @return The expression that was parsed representing the list of items */ public Expression getInItems() { if (inItems == null) { inItems = buildNullExpression(); } return inItems; } @Override public JPQLQueryBNF getQueryBNF() { return getQueryBNF(InExpressionBNF.ID); } /** * Determines whether the state field path expression or type discriminator was parsed. * * @return true if the state field path expression or type discriminator was parsed; * false if it was not parsed */ public boolean hasExpression() { return expression != null && !expression.isNull(); } /** * Determines whether the list of items was parsed. * * @return true if at least one item was parsed; false otherwise */ public boolean hasInItems() { return inItems != null && !inItems.isNull(); } /** * Determines whether the open parenthesis was parsed or not. * * @return true if the open parenthesis was present in the string version of the * query; false otherwise */ public boolean hasLeftParenthesis() { return hasLeftParenthesis; } /** * Determines whether the identifier NOT was parsed. * * @return true if the identifier NOT was parsed; false otherwise */ public boolean hasNot() { return notIdentifier != null; } /** * Determines whether the close parenthesis was parsed or not. * * @return true if the close parenthesis was present in the string version of the * query; false otherwise */ public boolean hasRightParenthesis() { return hasRightParenthesis; } /** * Determines whether there was a whitespace after the IN identifier if the left * parenthesis was not parsed. * * @return true if a whitespace was parsed after IN in the string * version of the query; false otherwise * @since 2.4 */ public boolean hasSpaceAfterIn() { return hasSpaceAfterIn; } @Override protected boolean isParsingComplete(WordParser wordParser, String word, Expression expression) { return word.equalsIgnoreCase(AND) || word.equalsIgnoreCase(OR) || super.isParsingComplete(wordParser, word, expression); } /** * Determines whether what was parsed after the IN identifier is a single input * parameter: *
BNF: in_expression ::= {state_field_path_expression | type_discriminator} [NOT] IN collection_valued_input_parameter
* * @return true if what is following the IN identifier is a single * input parameter (without the left or right parenthesis); false otherwise * @since 2.4 */ public boolean isSingleInputParameter() { if (singleInputParameter == null) { if (hasLeftParenthesis || hasRightParenthesis) { singleInputParameter = Boolean.FALSE; } else { WordParser wordParser = new WordParser(getInItems().toActualText()); String word = wordParser.word(); wordParser.moveForward(word); singleInputParameter = (word.length() > 0) && ExpressionTools.isParameter(word.charAt(0)) && wordParser.isTail(); } } return singleInputParameter; } @Override protected void parse(WordParser wordParser, boolean tolerant) { // Parse 'NOT' if (wordParser.startsWithIgnoreCase('N')) { notIdentifier = wordParser.moveForward(NOT); wordParser.skipLeadingWhitespace(); } // Parse 'IN' inIdentifier = wordParser.moveForward(IN); int count = wordParser.skipLeadingWhitespace(); hasSpaceAfterIn = (count > 0); // Parse '(' hasLeftParenthesis = wordParser.startsWith(LEFT_PARENTHESIS); if (hasLeftParenthesis) { wordParser.moveForward(1); count = wordParser.skipLeadingWhitespace(); } // Parse the items inItems = parse(wordParser, InExpressionItemBNF.ID, tolerant); if (inIdentifier != null) { count = wordParser.skipLeadingWhitespace(); } // Parse ')' hasRightParenthesis = wordParser.startsWith(RIGHT_PARENTHESIS); if (hasRightParenthesis) { // Temporarily change the state so isSingleInputParameter() return the right info hasRightParenthesis = false; // If it's a single input parameter that is not encapsulated by parenthesis, then // we'll ignore the right parenthesis, it could be part of an encapsulated subquery, // example: ... WHERE (SELECT e FROM Employee e WHERE e.name IN :input_1) = :input_2 if (hasLeftParenthesis || !isSingleInputParameter()) { hasRightParenthesis = true; wordParser.moveForward(1); } } } @Override protected void toParsedText(StringBuilder writer, boolean actual) { // State field path expression or type discriminator if (hasExpression()) { expression.toParsedText(writer, actual); writer.append(SPACE); } // 'NOT' if (notIdentifier != null) { writer.append(actual ? notIdentifier : NOT); writer.append(SPACE); } // 'IN' writer.append(actual ? inIdentifier : IN); // '(' if (hasLeftParenthesis) { writer.append(LEFT_PARENTHESIS); } else if (hasSpaceAfterIn) { writer.append(SPACE); } // IN items if (hasInItems()) { inItems.toParsedText(writer, actual); } // ')' if (hasRightParenthesis) { writer.append(RIGHT_PARENTHESIS); } } }




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