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/*
 * Copyright (c) 1998, 2024 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.queries;

import org.eclipse.persistence.descriptors.VersionLockingPolicy;
import org.eclipse.persistence.exceptions.DatabaseException;
import org.eclipse.persistence.exceptions.QueryException;
import org.eclipse.persistence.expressions.Expression;
import org.eclipse.persistence.expressions.ExpressionBuilder;
import org.eclipse.persistence.internal.descriptors.OptimisticLockingPolicy;
import org.eclipse.persistence.internal.expressions.ConstantExpression;
import org.eclipse.persistence.internal.expressions.FunctionExpression;
import org.eclipse.persistence.internal.helper.NonSynchronizedVector;
import org.eclipse.persistence.internal.queries.ContainerPolicy;
import org.eclipse.persistence.internal.queries.ExpressionQueryMechanism;
import org.eclipse.persistence.internal.queries.JoinedAttributeManager;
import org.eclipse.persistence.internal.queries.ReportItem;
import org.eclipse.persistence.internal.sessions.AbstractRecord;
import org.eclipse.persistence.internal.sessions.AbstractSession;
import org.eclipse.persistence.internal.sessions.UnitOfWorkImpl;
import org.eclipse.persistence.internal.sessions.remote.RemoteSessionController;
import org.eclipse.persistence.internal.sessions.remote.Transporter;

import java.util.ArrayList;
import java.util.HashSet;
import java.util.List;
import java.util.Map;
import java.util.Set;
import java.util.Vector;

/**
 * Purpose: Query for information about a set of objects instead of the objects themselves.
 * This supports select single attributes, nested attributes, aggregation functions and group bys.

* * Attribute Types:

    *
  1. addAttribute("directQueryKey") is a short cut method to add an attribute with the same name as its corresponding direct query key. *
  2. addAttribute("attributeName", expBuilder.get("oneToOneMapping").get("directQueryKey")) is the full approach for get values through joined 1:1 relationships. *
  3. addAttribute("attributeName", expBuilder.getField("TABLE.FIELD")) allows the addition of raw values or values which were not mapped in the object model directly (i.e. FK attributes). *
  4. addAttribute("attributeName", null) Leave a place holder (NULL) value in the result (used for included values from other systems or calculated values). *
* Retrieving Primary Keys: It is possible to retrieve the primary key raw values within each result, but stored in a separate (internal) vector. This * primary key vector can later be used to retrieve the real object. * @see #retrievePrimaryKeys() * If the values are wanted in the result array then they must be added as attributes. For primary keys which are not mapped directly * you can add them as DatabaseFields (see above). * * @author Doug Clarke * @since TOPLink/Java 2.0 */ public class ReportQuery extends ReadAllQuery { /** Default, returns ReportQueryResult objects. */ public static final int ShouldReturnReportResult = 0; /** Simplifies the result by only returning the first result. */ public static final int ShouldReturnSingleResult = 1; /** Simplifies the result by only returning one value. */ public static final int ShouldReturnSingleValue = 2; /** Simplifies the result by only returning the single attribute(as opposed to wrapping in a ReportQueryResult). */ public static final int ShouldReturnSingleAttribute = 3; /** For EJB 3 support returns results without using the ReportQueryResult */ public static final int ShouldReturnWithoutReportQueryResult = 4; /** For EJB 3 support returns results as an Object array. */ public static final int ShouldReturnArray = 5; /** For example, ... EXISTS( SELECT 1 FROM ... */ public static final int ShouldSelectValue1 = 6; /** Specifies whether to retrieve primary keys, first primary key, or no primary key.*/ public static final int FULL_PRIMARY_KEY = 2; public static final int FIRST_PRIMARY_KEY = 1; public static final int NO_PRIMARY_KEY = 0; //GF_ISSUE_395 private enum ResultStatus { IGNORED }; //end GF_ISSUE /** Flag indicating whether the primary key values should also be retrieved for the reference class. */ protected int shouldRetrievePrimaryKeys; /** Collection of names for use by results. */ protected List names; /** Items to be selected, these could be attributes or aggregate functions. */ protected List items; /** Expressions representing fields to be used in the GROUP BY clause. */ protected List groupByExpressions; /** Expression representing the HAVING clause. */ protected Expression havingExpression; /** Can be one of (ShouldReturnSingleResult, ShouldReturnSingleValue, ShouldReturnSingleAttribute) ** Simplifies the result by only returning the first result, first value, or all attribute values */ protected int returnChoice; /** flag to allow items to be added to the last ConstructorReportItem **/ protected boolean addToConstructorItem; /* GF_ISSUE_395 this attribute stores a set of unique keys that identity results. * Used when distinct has been set on the query. For use in TCK */ protected Set returnedKeys; /** * INTERNAL: * The builder should be provided. */ public ReportQuery() { this.queryMechanism = new ExpressionQueryMechanism(this); this.items = new ArrayList<>(); this.shouldRetrievePrimaryKeys = NO_PRIMARY_KEY; this.addToConstructorItem = false; // overwrite the lock mode to NO_LOCK, this prevents the report query to lock // when DEFAULT_LOCK_MODE and a pessimistic locking policy are used. setLockMode(ObjectBuildingQuery.NO_LOCK); this.shouldUseSerializedObjectPolicy = false; } public ReportQuery(Class javaClass, Expression expression) { this(); this.defaultBuilder = expression.getBuilder(); setReferenceClass(javaClass); setSelectionCriteria(expression); } /** * PUBLIC: * The report query is require to be constructor with an expression builder. * This build must be used for the selection critiera, any item expressions, group bys and order bys. */ public ReportQuery(Class javaClass, ExpressionBuilder builder) { this(); this.defaultBuilder = builder; setReferenceClass(javaClass); } /** * PUBLIC: * The report query is require to be constructor with an expression builder. * This build must be used for the selection critiera, any item expressions, group bys and order bys. */ public ReportQuery(ExpressionBuilder builder) { this(); this.defaultBuilder = builder; } /** * PUBLIC: * Add the attribute from the reference class to be included in the result. * EXAMPLE: reportQuery.addAttribute("firstName"); */ public void addAttribute(String itemName) { addItem(itemName, getExpressionBuilder().get(itemName)); } /** * PUBLIC: * Add the attribute to be included in the result. * EXAMPLE: reportQuery.addAttribute("city", expBuilder.get("address").get("city")); */ public void addAttribute(String itemName, Expression attributeExpression) { addItem(itemName, attributeExpression); } /** * PUBLIC: * Add the attribute to be included in the result. Return the result as the provided class * EXAMPLE: reportQuery.addAttribute("city", expBuilder.get("period").get("startTime"), Time.class); */ public void addAttribute(String itemName, Expression attributeExpression, Class type) { addItem(itemName, attributeExpression, type); } /** * PUBLIC: * Add the average value of the attribute to be included in the result. * Aggregation functions can be used with a group by, or on the entire result set. * EXAMPLE: reportQuery.addAverage("salary"); */ public void addAverage(String itemName) { addAverage(itemName, getExpressionBuilder().get(itemName)); } /** * PUBLIC: * Add the average value of the attribute to be included in the result and * return it as the specified resultType. * Aggregation functions can be used with a group by, or on the entire result set. * EXAMPLE: reportQuery.addAverage("salary", Float.class); */ public void addAverage(String itemName, Class resultType) { addAverage(itemName, getExpressionBuilder().get(itemName), resultType); } /** * PUBLIC: * Add the average value of the attribute to be included in the result. * Aggregation functions can be used with a group by, or on the entire result set. * EXAMPLE: reportQuery.addAverage("managerSalary", expBuilder.get("manager").get("salary")); */ public void addAverage(String itemName, Expression attributeExpression) { addItem(itemName, attributeExpression.average()); } /** * PUBLIC: * Add the average value of the attribute to be included in the result and * return it as the specified resultType. * Aggregation functions can be used with a group by, or on the entire result set. * EXAMPLE: reportQuery.addAverage("managerSalary", expBuilder.get("manager").get("salary"), Double.class); */ public void addAverage(String itemName, Expression attributeExpression, Class resultType) { addItem(itemName, attributeExpression.average(), resultType); } /** * PUBLIC: * Add a ConstructorReportItem to this query's set of return values. * @param item used to specify a class constructor and values to pass in from this query * @see ConstructorReportItem */ public void addConstructorReportItem(ConstructorReportItem item){ addItem(item); } /** * PUBLIC: * Include the number of rows returned by the query in the result. * Aggregation functions can be used with a group by, or on the entire result set. * EXAMPLE: * Java: * reportQuery.addCount(); * SQL: * SELECT COUNT (*) FROM ... * @see #addCount(java.lang.String) */ public void addCount() { addCount("COUNT", getExpressionBuilder()); } /** * PUBLIC: * Include the number of rows returned by the query in the result, where attributeExpression is not null. * Aggregation functions can be used with a group by, or on the entire result set. *

Example: *

     * TopLink:    reportQuery.addCount("id");
     * SQL: SELECT COUNT (t0.EMP_ID) FROM EMPLOYEE t0, ...
     * 
* @param attributeName the number of rows where attributeName is not null will be returned. * @see #addCount(java.lang.String, org.eclipse.persistence.expressions.Expression) */ public void addCount(String attributeName) { addCount(attributeName, getExpressionBuilder().get(attributeName)); } /** * PUBLIC: * Include the number of rows returned by the query in the result, where attributeExpression is not null. * Aggregation functions can be used with a group by, or on the entire result set. * Set the count to be returned as the specified resultType. *

Example: *

     * TopLink:    reportQuery.addCount("id", Long.class);
     * SQL: SELECT COUNT (t0.EMP_ID) FROM EMPLOYEE t0, ...
     * 
* @param attributeName the number of rows where attributeName is not null will be returned. * @see #addCount(java.lang.String, org.eclipse.persistence.expressions.Expression) */ public void addCount(String attributeName, Class resultType) { addCount(attributeName, getExpressionBuilder().get(attributeName), resultType); } /** * PUBLIC: * Include the number of rows returned by the query in the result, where attributeExpression * is not null. * Aggregation functions can be used with a group by, or on the entire result set. *

Example: *

     * TopLink:    reportQuery.addCount("Count", getExpressionBuilder().get("id"));
     * SQL: SELECT COUNT (t0.EMP_ID) FROM EMPLOYEE t0, ...
     * 
*

Example: counting only distinct values of an attribute. *

     *  TopLink: reportQuery.addCount("Count", getExpressionBuilder().get("address").distinct());
     *  SQL: SELECT COUNT (DISTINCT t0.ADDR_ID) FROM EMPLOYEE t0, ...
     * 
* objectAttributes can be specified also, even accross many to many * mappings. * @see #addCount() */ public void addCount(String itemName, Expression attributeExpression) { addItem(itemName, attributeExpression.count()); } /** * PUBLIC: * Include the number of rows returned by the query in the result, where attributeExpression * is not null. * Aggregation functions can be used with a group by, or on the entire result set. * Set the count to be returned as the specified resultType. *

Example: *

     * TopLink:    reportQuery.addCount("Count", getExpressionBuilder().get("id"), Integer.class);
     * SQL: SELECT COUNT (t0.EMP_ID) FROM EMPLOYEE t0, ...
     * 
*

Example: counting only distinct values of an attribute. *

     *  TopLink: reportQuery.addCount("Count", getExpressionBuilder().get("address").distinct());
     *  SQL: SELECT COUNT (DISTINCT t0.ADDR_ID) FROM EMPLOYEE t0, ...
     * 
* objectAttributes can be specified also, even accross many to many * mappings. * @see #addCount() */ public void addCount(String itemName, Expression attributeExpression, Class resultType) { addItem(itemName, attributeExpression.count(), resultType); } /** * ADVANCED: * Add the function against the attribute expression to be included in the result. * Aggregation functions can be used with a group by, or on the entire result set. * Example: reportQuery.addFunctionItem("average", expBuilder.get("salary"), "average"); */ public void addFunctionItem(String itemName, Expression attributeExpression, String functionName) { Expression functionExpression = attributeExpression; functionExpression = attributeExpression.getFunction(functionName); ReportItem item = new ReportItem(itemName, functionExpression); addItem(item); //Bug2804042 Must un-prepare if prepared as the SQL may change. setIsPrepared(false); } /** * PUBLIC: * Add the attribute to the group by expressions. * This will group the result set on that attribute and is normally used in conjunction with aggregation functions. * Example: reportQuery.addGrouping("lastName") */ public void addGrouping(String attributeName) { addGrouping(getExpressionBuilder().get(attributeName)); } /** * PUBLIC: * Add the attribute expression to the group by expressions. * This will group the result set on that attribute and is normally used in conjunction with aggregation functions. * Example: reportQuery.addGrouping(expBuilder.get("address").get("country")) */ public void addGrouping(Expression expression) { getGroupByExpressions().add(expression); //Bug2804042 Must un-prepare if prepared as the SQL may change. setIsPrepared(false); } /** * PUBLIC: * Add the expression to the query to be used in the HAVING clause. * This epression will be used to filter the result sets after they are grouped. It must be used in conjunction with the GROUP BY clause. *

Example: *

reportQuery.setHavingExpression(expBuilder.get("address").get("country").equal("Canada")) */ public void setHavingExpression(Expression expression) { havingExpression = expression; setIsPrepared(false); } /** * INTERNAL: * Method used to abstract addToConstructorItem behavour from the public addItem methods */ private void addItem(ReportItem item){ if (this.addToConstructorItem && (!getItems().isEmpty()) && (getItems().get(getItems().size() - 1).isConstructorItem())) { ((ConstructorReportItem)getItems().get(getItems().size() - 1)).addItem(item); } else { getItems().add(item); } //Bug2804042 Must un-prepare if prepared as the SQL may change. setIsPrepared(false); } /** * ADVANCED: * Add the expression value to be included in the result. * EXAMPLE: reportQuery.addItem("name", expBuilder.get("firstName").toUpperCase()); */ public void addItem(String itemName, Expression attributeExpression) { ReportItem item = new ReportItem(itemName, attributeExpression); addItem(item); //Bug2804042 Must un-prepare if prepared as the SQL may change. setIsPrepared(false); } /** * ADVANCED: * Add the expression value to be included in the result. * EXAMPLE: reportQuery.addItem("name", expBuilder.get("firstName").toUpperCase()); */ public void addItem(String itemName, Expression attributeExpression, List joinedExpressions) { ReportItem item = new ReportItem(itemName, attributeExpression); if (joinedExpressions != null && ! joinedExpressions.isEmpty()){ item.getJoinedAttributeManager().setJoinedAttributeExpressions_(joinedExpressions); } addItem(item); } /** * INTERNAL: * Add the expression value to be included in the result. * EXAMPLE: reportQuery.addItem("name", expBuilder.get("firstName").toUpperCase()); * The resultType can be specified to support EJBQL that adheres to the * EJB 3.0 spec. */ protected void addItem(String itemName, Expression attributeExpression, Class resultType) { ReportItem item = new ReportItem(itemName, attributeExpression); item.setResultType(resultType); addItem(item); } /** * PUBLIC: * Add the maximum value of the attribute to be included in the result. * Aggregation functions can be used with a group by, or on the entire result set. * EXAMPLE: reportQuery.addMaximum("salary"); */ public void addMaximum(String itemName) { addMaximum(itemName, getExpressionBuilder().get(itemName)); } /** * PUBLIC: * Add the maximum value of the attribute to be included in the result. * Aggregation functions can be used with a group by, or on the entire result set. * EXAMPLE: reportQuery.addMaximum("salary", Integer.class); */ public void addMaximum(String itemName, Class resultType) { addMaximum(itemName, getExpressionBuilder().get(itemName), resultType); } /** * PUBLIC: * Add the maximum value of the attribute to be included in the result. * Aggregation functions can be used with a group by, or on the entire result set. * EXAMPLE: reportQuery.addMaximum("managerSalary", expBuilder.get("manager").get("salary")); */ public void addMaximum(String itemName, Expression attributeExpression) { addItem(itemName, attributeExpression.maximum()); } /** * PUBLIC: * Add the maximum value of the attribute to be included in the result. * Aggregation functions can be used with a group by, or on the entire result set. * EXAMPLE: reportQuery.addMaximum("managerSalary", expBuilder.get("manager").get("salary"), Integer.class); */ public void addMaximum(String itemName, Expression attributeExpression, Class resultType) { addItem(itemName, attributeExpression.maximum(), resultType); } /** * PUBLIC: * Add the minimum value of the attribute to be included in the result. * Aggregation functions can be used with a group by, or on the entire result set. * EXAMPLE: reportQuery.addMinimum("salary"); */ public void addMinimum(String itemName) { addMinimum(itemName, getExpressionBuilder().get(itemName)); } /** * PUBLIC: * Add the minimum value of the attribute to be included in the result. * Aggregation functions can be used with a group by, or on the entire result set. * EXAMPLE: reportQuery.addMinimum("salary", Integer.class); */ public void addMinimum(String itemName, Class resultType) { addMinimum(itemName, getExpressionBuilder().get(itemName), resultType); } /** * PUBLIC: * Add the minimum value of the attribute to be included in the result. * Aggregation functions can be used with a group by, or on the entire result set. * EXAMPLE: reportQuery.addMinimum("managerSalary", expBuilder.get("manager").get("salary")); */ public void addMinimum(String itemName, Expression attributeExpression) { addItem(itemName, attributeExpression.minimum()); } /** * PUBLIC: * Add the minimum value of the attribute to be included in the result. * Aggregation functions can be used with a group by, or on the entire result set. * EXAMPLE: reportQuery.addMinimum("managerSalary", expBuilder.get("manager").get("salary"), Integer.class); */ public void addMinimum(String itemName, Expression attributeExpression, Class resultType) { addItem(itemName, attributeExpression.minimum(), resultType); } /** * PUBLIC: * Add the standard deviation value of the attribute to be included in the result. * Aggregation functions can be used with a group by, or on the entire result set. * EXAMPLE: reportQuery.addStandardDeviation("salary"); */ public void addStandardDeviation(String itemName) { addStandardDeviation(itemName, getExpressionBuilder().get(itemName)); } /** * PUBLIC: * Add the standard deviation value of the attribute to be included in the result. * Aggregation functions can be used with a group by, or on the entire result set. * EXAMPLE: reportQuery.addStandardDeviation("managerSalary", expBuilder.get("manager").get("salary")); */ public void addStandardDeviation(String itemName, Expression attributeExpression) { addItem(itemName, attributeExpression.standardDeviation()); } /** * PUBLIC: * Add the sum value of the attribute to be included in the result. * Aggregation functions can be used with a group by, or on the entire result set. * EXAMPLE: reportQuery.addSum("salary"); */ public void addSum(String itemName) { addSum(itemName, getExpressionBuilder().get(itemName)); } /** * PUBLIC: * Add the sum value of the attribute to be included in the result and * return it as the specified resultType. * Aggregation functions can be used with a group by, or on the entire result set. * EXAMPLE: reportQuery.addSum("salary", Float.class); */ public void addSum(String itemName, Class resultType) { addSum(itemName, getExpressionBuilder().get(itemName), resultType); } /** * PUBLIC: * Add the sum value of the attribute to be included in the result. * Aggregation functions can be used with a group by, or on the entire result set. * EXAMPLE: reportQuery.addSum("managerSalary", expBuilder.get("manager").get("salary")); */ public void addSum(String itemName, Expression attributeExpression) { addItem(itemName, attributeExpression.sum()); } /** * PUBLIC: * Add the sum value of the attribute to be included in the result and * return it as the specified resultType. * Aggregation functions can be used with a group by, or on the entire result set. * EXAMPLE: reportQuery.addSum("managerSalary", expBuilder.get("manager").get("salary"), Float.class); */ public void addSum(String itemName, Expression attributeExpression, Class resultType) { addItem(itemName, attributeExpression.sum(), resultType); } /** * PUBLIC: * Add the variance value of the attribute to be included in the result. * Aggregation functions can be used with a group by, or on the entire result set. * EXAMPLE: reportQuery.addVariance("salary"); */ public void addVariance(String itemName) { addVariance(itemName, getExpressionBuilder().get(itemName)); } /** * PUBLIC: * Add the variance value of the attribute to be included in the result. * Aggregation functions can be used with a group by, or on the entire result set. * EXAMPLE: reportQuery.addVariance("managerSalary", expBuilder.get("manager").get("salary")); */ public void addVariance(String itemName, Expression attributeExpression) { addItem(itemName, attributeExpression.variance()); } /** * PUBLIC: Call a constructor for the given class with the results of this query. */ public ConstructorReportItem beginAddingConstructorArguments(Class constructorClass){ ConstructorReportItem citem = new ConstructorReportItem(constructorClass.getName()); citem.setResultType(constructorClass); //add directly to avoid addToConstructorItem behavior getItems().add(citem); //Bug2804042 Must un-prepare if prepared as the SQL may change. setIsPrepared(false); this.addToConstructorItem=true; return citem; } /** * PUBLIC: Call a constructor for the given class with the results of this query. * @param constructorArgTypes - sets the argument types to be passed to the constructor. */ public ConstructorReportItem beginAddingConstructorArguments(Class constructorClass, Class[] constructorArgTypes){ ConstructorReportItem citem =beginAddingConstructorArguments(constructorClass); citem.setConstructorArgTypes(constructorArgTypes); return citem; } /** * INTERNAL: * By default return the row. * Used by cursored stream. */ @Override public Object buildObject(AbstractRecord row) { //Bug 445132 : Avoid NPE. Vector v = new Vector(); v.add(row); return buildObject(row, v); } /** * INTERNAL: * Construct a result from a row. Either return a ReportQueryResult or just the attribute. * @param toManyJoinData All rows fetched by query. It is required to be not null. */ public Object buildObject(AbstractRecord row, Vector toManyJoinData) { ReportQueryResult reportQueryResult = new ReportQueryResult(this, row, toManyJoinData); //GF_ISSUE_395 if (this.returnedKeys != null){ if (this.returnedKeys.contains(reportQueryResult.getResultKey())){ return ResultStatus.IGNORED; //distinguish between null values and thrown away duplicates } else { this.returnedKeys.add(reportQueryResult.getResultKey()); } } //end GF_ISSUE_395 if (shouldReturnSingleAttribute()) { return reportQueryResult.getResults().get(0); } else if (shouldReturnArray()) { return reportQueryResult.toArray(); } else if (shouldReturnWithoutReportQueryResult()) { if (reportQueryResult.size() == 1) { return reportQueryResult.getResults().get(0); } else { return reportQueryResult.toArray(); } } else if (shouldReturnSingleValue()) { return reportQueryResult.getResults().get(0); } else { return reportQueryResult; } } /** * INTERNAL: * Construct a container of ReportQueryResult from the rows. * If only one result or value was asked for only return that. */ public Object buildObjects(Vector rows) { if (shouldReturnSingleResult() || shouldReturnSingleValue()) { if (rows.isEmpty()) { return null; } return buildObject((AbstractRecord)rows.get(0), rows); } ContainerPolicy containerPolicy = getContainerPolicy(); int size = rows.size(); Object reportResults = containerPolicy.containerInstance(size); // GF_ISSUE_395 if (shouldDistinctBeUsed()){ this.returnedKeys = new HashSet(size); } //end GF_ISSUE //If only the attribute is desired, then buildObject will only get the first attribute each time for (int index = 0; index < size; index++) { // GF_ISSUE_395 Object result = buildObject((AbstractRecord)rows.get(index), rows); if (result != ResultStatus.IGNORED) { containerPolicy.addInto(result, reportResults, this.session); } //end GF_ISSUE } if (shouldCacheQueryResults()) { setTemporaryCachedQueryResults(reportResults); } return reportResults; } /** * INTERNAL: * The cache check is done before the prepare as a hit will not require the work to be done. */ @Override protected Object checkEarlyReturnLocal(AbstractSession session, AbstractRecord translationRow) { // Check for in-memory only query. if (shouldCheckCacheOnly()) { throw QueryException.cannotSetShouldCheckCacheOnlyOnReportQuery(); } else { return null; } } /** * INTERNAL: * Check to see if a custom query should be used for this query. * This is done before the query is copied and prepared/executed. * null means there is none. */ @Override protected DatabaseQuery checkForCustomQuery(AbstractSession session, AbstractRecord translationRow) { return null; } /** * INTERNAL: * Clone the query. */ @Override public Object clone() { ReportQuery cloneQuery = (ReportQuery)super.clone(); cloneQuery.items = new ArrayList<>(this.items.size()); for (ReportItem item : this.items) { ReportItem newItem = (ReportItem)item.clone(); if (item.getJoinedAttributeManagerInternal() != null){ JoinedAttributeManager manager = item.getJoinedAttributeManager().clone(); manager.setBaseQuery(cloneQuery); newItem.setJoinedAttributeManager(manager); } cloneQuery.addItem(newItem); } if (this.groupByExpressions != null) { cloneQuery.groupByExpressions = new ArrayList<>(this.groupByExpressions); } return cloneQuery; } /** * INTERNAL: Required for a very special case of bug 2612185: * ReportItems from parallelExpressions, on a ReportQuery which is a subQuery, * which is being batch read. * In a batch query the selection criteria is effectively cloned twice, meaning * the ReportItems need to be cloned an extra time also to stay in sync. * Each call to copiedVersionFrom() will take O(1) time as the expression was * already cloned. */ public void copyReportItems(Map alreadyDone) { this.items = new ArrayList<>(this.items); for (int i = this.items.size() - 1; i >= 0; i--) { ReportItem item = this.items.get(i); if (item.isConstructorItem()) { this.items.set(i, copyConstructorReportItem((ConstructorReportItem) item, alreadyDone)); } else { this.items.set(i, copyReportItem(item, alreadyDone)); } } if (this.groupByExpressions != null) { this.groupByExpressions = new ArrayList<>(this.groupByExpressions); for (int i = this.groupByExpressions.size() - 1; i >= 0; i--) { Expression item = this.groupByExpressions.get(i); if (alreadyDone.get(item.getBuilder()) != null) { this.groupByExpressions.set(i, item.copiedVersionFrom(alreadyDone)); } } } if (this.havingExpression != null) { this.havingExpression = this.havingExpression.copiedVersionFrom(alreadyDone); } if (this.orderByExpressions != null) { for (int i = this.orderByExpressions.size() - 1; i >= 0; i--) { Expression item = this.orderByExpressions.get(i); if (alreadyDone.get(item.getBuilder()) != null) { this.orderByExpressions.set(i, item.copiedVersionFrom(alreadyDone)); } } } } // copyReportItems helper private static ConstructorReportItem copyConstructorReportItem(ConstructorReportItem reportItem, Map alreadyDone) { // Copy ReportItems list if exists List reportItems = reportItem.getReportItems(); List newReportItems = reportItems != null ? new ArrayList<>(reportItems.size()) : null; if (reportItems != null) { for (ReportItem item : reportItems) { newReportItems.add(copyReportItem(item, alreadyDone)); } } // Create new ConstructorReportItem ConstructorReportItem newItem = new ConstructorReportItem(reportItem.getName()); newItem.setConstructor(reportItem.getConstructor()); newItem.setResultType(reportItem.getResultType()); newItem.setReportItems(newReportItems); newItem.setAttributeExpression(copyAttributeExpression(reportItem, alreadyDone)); return newItem; } // copyReportItems helper private static Expression copyAttributeExpression(ReportItem reportItem, Map alreadyDone) { Expression expression = reportItem.getAttributeExpression(); if ((expression != null) && (alreadyDone.get(expression.getBuilder()) != null)) { expression = expression.copiedVersionFrom(alreadyDone); } return expression; } // copyReportItems helper private static ReportItem copyReportItem(ReportItem reportItem, Map alreadyDone) { return new ReportItem(reportItem.getName(), copyAttributeExpression(reportItem, alreadyDone)); } /** * PUBLIC: * Set if the query results should contain the primary keys or each associated object. * This make retrieving the real object easier. * By default they are not retrieved. */ public void dontRetrievePrimaryKeys() { setShouldRetrievePrimaryKeys(false); //Bug2804042 Must un-prepare if prepared as the SQL may change. setIsPrepared(false); } /** * PUBLIC: * Don't simplify the result by returning the single attribute. Wrap in a ReportQueryResult. */ public void dontReturnSingleAttribute() { if (shouldReturnSingleAttribute()) { this.returnChoice = 0; } } /** * PUBLIC: * Simplifies the result by only returning the first result. * This can be used if it known that only one row is returned by the report query. */ public void dontReturnSingleResult() { if (shouldReturnSingleResult()) { this.returnChoice = 0; } } /** * PUBLIC: * Simplifies the result by only returning a single value. * This can be used if it known that only one row is returned by the report query and only a single item is added * to the report. */ public void dontReturnSingleValue() { if (shouldReturnSingleValue()) { this.returnChoice = 0; } } /** * PUBLIC: * Simplifies the result by only returning a single value. * This can be used if it known that only one row is returned by the report query and only a single item is added * to the report. */ public void dontReturnWithoutReportQueryResult() { if (shouldReturnWithoutReportQueryResult()) { this.returnChoice = 0; } } /** * PUBLIC: * Used in conjunction with beginAddingConstructorArguments to signal that expressions should no longer be * be added to the collection used in the constructor. */ public void endAddingToConstructorItem(){ this.addToConstructorItem = false; } /** * INTERNAL: * Execute the query. * Get the rows and build the objects or report data from the rows. * @exception DatabaseException - an error has occurred on the database * @return either collection of objects, or report data resulting from execution of query. */ @Override public Object executeDatabaseQuery() throws DatabaseException { // ensure a pessimistic locking query will go down the write connection if (isLockQuery() && getSession().isUnitOfWork()) { UnitOfWorkImpl unitOfWork = (UnitOfWorkImpl)getSession(); // Note if a nested unit of work this will recursively start a // transaction early on the parent also. if (isLockQuery()) { if ((!unitOfWork.getCommitManager().isActive()) && (!unitOfWork.wasTransactionBegunPrematurely())) { unitOfWork.beginTransaction(); unitOfWork.setWasTransactionBegunPrematurely(true); } } } if (getContainerPolicy().overridesRead()) { return getContainerPolicy().execute(); } if (getQueryId() == 0) { setQueryId(getSession().getNextQueryId()); } setExecutionTime(System.currentTimeMillis()); if (getDescriptor().isDescriptorForInterface()) { return getDescriptor().getInterfacePolicy().selectAllObjectsUsingMultipleTableSubclassRead(this); } return buildObjects(getQueryMechanism().selectAllReportQueryRows()); } /** * INTERNAL: * Extract the correct query result from the transporter. */ @Override public Object extractRemoteResult(Transporter transporter) { return transporter.getObject(); } /** * INTERNAL: * Return the group bys. */ public List getGroupByExpressions() { if (this.groupByExpressions == null) { this.groupByExpressions = new ArrayList<>(); } return this.groupByExpressions; } /** * INTERNAL: * Return if any group bys exist, allow lazy initialization. * This should be called before calling getGroupByExpressions(). */ public boolean hasGroupByExpressions() { return (this.groupByExpressions != null) && (!this.groupByExpressions.isEmpty()); } /** * INTERNAL: * Set the group bys. */ public void setGroupByExpressions(List groupByExpressions) { this.groupByExpressions = groupByExpressions; } /** * INTERNAL: * Return the Having expression. */ public Expression getHavingExpression() { return havingExpression; } /** * INTERNAL: * return a collection of expressions if PK's are used. */ public Vector getQueryExpressions() { Vector fieldExpressions = NonSynchronizedVector.newInstance(getItems().size()); if (shouldSelectValue1()) { Expression one = new ConstantExpression(1, new ExpressionBuilder()); this.addItem("one", one); this.dontUseDistinct(); fieldExpressions.add(one); } else // For bug 3115576 and an EXISTS subquery only need to return a single field. if (shouldRetrieveFirstPrimaryKey()) { if (!getDescriptor().getPrimaryKeyFields().isEmpty()) { fieldExpressions.add(getDescriptor().getPrimaryKeyFields().get(0)); } } if (shouldRetrievePrimaryKeys()) { fieldExpressions.addAll(getDescriptor().getPrimaryKeyFields()); } return fieldExpressions; } /** * INTERNAL: * Returns the specific default redirector for this query type. There are numerous default query redirectors. * See ClassDescriptor for their types. */ @Override protected QueryRedirector getDefaultRedirector(){ return descriptor.getDefaultReportQueryRedirector(); } /** * INTERNAL: * @return ReportItems defining the attributes to be read. */ public List getItems() { return items; } /** * INTERNAL: * @return ReportItems with the name */ public ReportItem getItem(String name) { for (ReportItem item : this.items) { if (item.getName().equals(name)) { return item; } } return null; } /** * INTERNAL: * Set the ReportQueryItems defining the attributes to be read. */ public void setItems(List items) { this.items = items; } /** * INTERNAL: * Sets a {@code jakarta.persistence.LockModeType} to used with this queries execution. *


* The valid types are:

    *
  • {@code WRITE}
  • *
  • {@code READ}
  • *
  • {@code OPTIMISTIC}
  • *
  • {@code OPTIMISTIC_FORCE_INCREMENT}
  • *
  • {@code PESSIMISTIC}
  • *
  • {@code PESSIMISTIC_FORCE_INCREMENT}
  • *
  • {@code NONE}
* Setting a null type will do nothing. * @return returns a failure flag indicating that we were UNABLE to set the * lock mode because of validation. Callers to this method should check the * return value and throw the necessary exception. */ @Override public boolean setLockModeType(String lockModeType, AbstractSession session) { if (lockModeType != null) { if (super.setLockModeType(lockModeType, session)) { return true; } else { // When a lock mode is used, we must validate that our report items // all have a version locking policy if the lock is set to anything // but PESSIMISTIC and NONE. Validate only those report items that // are expression builders (ignoring the others) if (! lockModeType.equals(PESSIMISTIC_READ) && ! lockModeType.equals(PESSIMISTIC_WRITE) && ! lockModeType.equals(NONE)) { for (ReportItem reportItem : getItems()) { if (reportItem.getAttributeExpression() != null && reportItem.getAttributeExpression().isExpressionBuilder()) { OptimisticLockingPolicy lockingPolicy = reportItem.getDescriptor().getOptimisticLockingPolicy(); if (lockingPolicy == null || !(lockingPolicy instanceof VersionLockingPolicy)) { return true; } } } } } } return false; } /** * INTERNAL: * Clear the ReportQueryItems */ public void clearItems() { this.items = new ArrayList<>(); setIsPrepared(false); } /** * INTERNAL: * Lazily initialize and return the names of the items requested for use in each result object. */ public List getNames() { if (this.names == null) { this.names = new ArrayList<>(); for (ReportItem item : getItems()) { this.names.add(item.getName()); } } return this.names; } /** * INTERNAL: * Set the item names. */ protected void setNames(List names) { this.names = names; } /** * PUBLIC: * Return if this is a report query. */ @Override public boolean isReportQuery() { return true; } /** * INTERNAL: * Prepare the receiver for execution in a session. * Initialize each item with its DTF mapping */ @Override protected void prepare() throws QueryException { if (prepareFromCachedQuery()) { return; } // Oct 19, 2000 JED // Added exception to be thrown if no attributes have been added to the query if (!getItems().isEmpty()) { try { for (ReportItem item : getItems()) { item.initialize(this); } } catch (QueryException exception) { exception.setQuery(this); throw exception; } } else { if ((!shouldRetrievePrimaryKeys()) && (!shouldRetrieveFirstPrimaryKey()) && !(shouldSelectValue1())) { throw QueryException.noAttributesForReportQuery(this); } } super.prepare(); } /** * INTERNAL: * ReportQuery doesn't support fetch groups. */ @Override public void prepareFetchGroup() throws QueryException { if(this.fetchGroup != null || this.fetchGroupName != null) { throw QueryException.fetchGroupNotSupportOnReportQuery(); } } /** * INTERNAL: * Prepare the query from the prepared query. * This allows a dynamic query to prepare itself directly from a prepared query instance. * This is used in the EJBQL parse cache to allow preparsed queries to be used to prepare * dynamic queries. * This only copies over properties that are configured through EJBQL. */ @Override public void prepareFromQuery(DatabaseQuery query) { super.prepareFromQuery(query); if (query.isReportQuery()) { ReportQuery reportQuery = (ReportQuery)query; this.names = reportQuery.names; this.items = reportQuery.items; this.groupByExpressions = reportQuery.groupByExpressions; this.havingExpression = reportQuery.havingExpression; this.returnChoice = reportQuery.returnChoice; this.returnedKeys = reportQuery.returnedKeys; this.shouldRetrievePrimaryKeys = reportQuery.shouldRetrievePrimaryKeys; } } /** * INTERNAL: * Return if the query is equal to the other. * This is used to allow dynamic expression query SQL to be cached. */ @Override public boolean equals(Object object) { if (this == object) { return true; } if (!super.equals(object)) { return false; } ReportQuery query = (ReportQuery) object; List items = getItems(); List otherItems = query.getItems(); int size = items.size(); if (size != otherItems.size()) { return false; } for (int index = 0; index < size; index++) { if (!items.get(index).equals(otherItems.get(index))) { return false; } } if (hasGroupByExpressions() && query.hasGroupByExpressions()) { List groupBys = getGroupByExpressions(); List otherGroupBys = query.getGroupByExpressions(); size = groupBys.size(); if (size != otherGroupBys.size()) { return false; } for (int index = 0; index < size; index++) { if (!groupBys.get(index).equals(otherGroupBys.get(index))) { return false; } } } else if (hasGroupByExpressions() || query.hasGroupByExpressions()) { return false; } if ((getHavingExpression() != query.getHavingExpression()) && (getHavingExpression() != null) && (!getHavingExpression().equals(query.getHavingExpression()))) { return false; } if (this.returnChoice != query.returnChoice) { return false; } if (this.shouldRetrievePrimaryKeys != query.shouldRetrievePrimaryKeys) { return false; } return true; } /** * INTERNAL: * Prepare a report query with a count defined on an object attribute. * Added to fix bug 3268040, addCount(objectAttribute) not supported. */ protected void prepareObjectAttributeCount(Map clonedExpressions) { prepareObjectAttributeCount(getItems(), clonedExpressions); } /** * JPQL allows count([distinct] e), where e can be an object, not just a single field, * however the database only allows a single field, so object needs to be translated to a single field. * If the descriptor has a single pk, it is used, otherwise any pk is used if distinct, otherwise a subselect is used. * If the object was obtained through an outer join, then the subselect also will not work, so an error is thrown. */ private void prepareObjectAttributeCount(List items, Map clonedExpressions) { int numOfReportItems = items.size(); //gf675: need to loop through all items to fix all count(..) instances for (int i =0;i clonedExpressions) throws QueryException { if (isPrepared()) { return; } setIsPrepared(true); setSession(session); setTranslationRow(translationRow); checkDescriptor(getSession()); if (descriptor.isAggregateDescriptor()) { // Not allowed throw QueryException.aggregateObjectCannotBeDeletedOrWritten(descriptor, this); } try { for (ReportItem item : getItems()) { item.initialize(this); } } catch (QueryException exception) { exception.setQuery(this); throw exception; } prepareObjectAttributeCount(clonedExpressions); getQueryMechanism().prepareReportQuerySubSelect(); setSession(null); setTranslationRow(null); } /** * INTERNAL: * replace the value holders in the specified result object(s) */ @Override public Map replaceValueHoldersIn(Object object, RemoteSessionController controller) { // do nothing, since report queries do not return domain objects return null; } /** * PUBLIC: * Set if the query results should contain the primary keys or each associated object. * This make retrieving the real object easier. * By default they are not retrieved. */ public void retrievePrimaryKeys() { setShouldRetrievePrimaryKeys(true); //Bug2804042 Must un-prepare if prepared as the SQL may change. setIsPrepared(false); } /** * PUBLIC: * Return the return type. */ public int getReturnType() { return returnChoice; } /** * PUBLIC: * Set the return type. * This can be one of several constants, *
    *
  • ShouldReturnReportResult - return {@literal List} : ReportQueryResult (Map) of each row is returned. *
  • ShouldReturnSingleResult - return ReportQueryResult : Only first row is returned. *
  • ShouldReturnSingleAttribute - return {@literal List} : Only first column of (all) rows are returned. *
  • ShouldReturnSingleValue - return Object : Only first value of first row is returned. *
  • ShouldReturnWithoutReportQueryResult - return {@literal List} : Array of each row is returned. * */ public void setReturnType(int returnChoice) { this.returnChoice = returnChoice; } /** * PUBLIC: * Simplify the result by returning a single attribute. Don't wrap in a ReportQueryResult. */ public void returnSingleAttribute() { returnChoice = ShouldReturnSingleAttribute; } /** * PUBLIC: * Simplifies the result by only returning the first result. * This can be used if it known that only one row is returned by the report query. */ public void returnSingleResult() { returnChoice = ShouldReturnSingleResult; } /** * PUBLIC: * Simplifies the result by only returning a single value. * This can be used if it known that only one row is returned by the report query and only a single item is added * to the report. */ public void returnSingleValue() { returnChoice = ShouldReturnSingleValue; } /** * PUBLIC: * Simplifies the result by only returning a single value. * This can be used if it known that only one row is returned by the report query and only a single item is added * to the report. */ public void returnWithoutReportQueryResult() { this.returnChoice = ShouldReturnWithoutReportQueryResult; } /** * PUBLIC: * Simplifies the result by only returning a single value. * This can be used if it known that only one row is returned by the report query and only a single item is added * to the report. */ public void selectValue1() { returnChoice = ShouldSelectValue1; } /** * PUBLIC: * Set if the query results should contain the primary keys or each associated object. * This make retrieving the real object easier. * By default they are not retrieved. */ public void setShouldRetrievePrimaryKeys(boolean shouldRetrievePrimaryKeys) { this.shouldRetrievePrimaryKeys = (shouldRetrievePrimaryKeys ? FULL_PRIMARY_KEY : NO_PRIMARY_KEY); } /** * ADVANCED: * Sets if the query results should contain the first primary key of each associated object. * Usefull if this is an EXISTS subquery and you don't care what fields are returned * so long as it is a single field. * The default value is false. * This should only be used with a subquery. */ public void setShouldRetrieveFirstPrimaryKey(boolean shouldRetrieveFirstPrimaryKey) { this.shouldRetrievePrimaryKeys = (shouldRetrieveFirstPrimaryKey ? FIRST_PRIMARY_KEY : NO_PRIMARY_KEY); } /** * PUBLIC: * Simplifies the result by only returning the attribute (as opposed to wrapping in a ReportQueryResult). * This can be used if it is known that only one attribute is returned by the report query. */ public void setShouldReturnSingleAttribute(boolean newChoice) { if (newChoice) { returnSingleAttribute(); } else { dontReturnSingleAttribute(); } } /** * PUBLIC: * Simplifies the result by only returning the first result. * This can be used if it known that only one row is returned by the report query. */ public void setShouldReturnSingleResult(boolean newChoice) { if (newChoice) { returnSingleResult(); } else { dontReturnSingleResult(); } } /** * PUBLIC: * Simplifies the result by only returning a single value. * This can be used if it known that only one row is returned by the report query and only a single item is added * to the report. */ public void setShouldReturnSingleValue(boolean newChoice) { if (newChoice) { returnSingleValue(); } else { dontReturnSingleValue(); } } /** * PUBLIC: * Simplifies the result by returning a nested list instead of the ReportQueryResult. * This is used by EJB 3. */ public void setShouldReturnWithoutReportQueryResult(boolean newChoice) { if (newChoice) { returnWithoutReportQueryResult(); } else { dontReturnWithoutReportQueryResult(); } } /** * PUBLIC: * Return if the query results should contain the primary keys or each associated object. * This make retrieving the real object easier. */ public boolean shouldRetrievePrimaryKeys() { return this.shouldRetrievePrimaryKeys == FULL_PRIMARY_KEY; } /** * PUBLIC: * Return if the query results should contain the first primary key of each associated object. * Usefull if this is an EXISTS subquery and you don't care what fields are returned * so long as it is a single field. */ public boolean shouldRetrieveFirstPrimaryKey() { return this.shouldRetrievePrimaryKeys == FIRST_PRIMARY_KEY; } /** * PUBLIC: * Answer if we are only returning the attribute (as opposed to wrapping in a ReportQueryResult). * This can be used if it is known that only one attribute is returned by the report query. */ public boolean shouldReturnSingleAttribute() { return this.returnChoice == ShouldReturnSingleAttribute; } /** * PUBLIC: * Simplifies the result by only returning the first result. * This can be used if it known that only one row is returned by the report query. */ public boolean shouldReturnSingleResult() { return this.returnChoice == ShouldReturnSingleResult; } /** * PUBLIC: * Simplifies the result by only returning a single value. * This can be used if it known that only one row is returned by the report query and only a single item is added * to the report. */ public boolean shouldReturnSingleValue() { return this.returnChoice == ShouldReturnSingleValue; } /** * PUBLIC: * Simplifies the result by returning a nested list instead of the ReportQueryResult. * This is used by EJB 3. */ public boolean shouldReturnWithoutReportQueryResult() { return this.returnChoice == ShouldReturnWithoutReportQueryResult; } /** * PUBLIC: * Returns true if results should be returned as an Object array. */ public boolean shouldReturnArray() { return this.returnChoice == ShouldReturnArray; } /** * PUBLIC: * Returns true if results should be returned as an Object array. */ public boolean shouldSelectValue1() { return this.returnChoice == ShouldSelectValue1; } }