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/*
 * Copyright (c) 1998, 2024 Oracle and/or its affiliates. All rights reserved.
 * Copyright (c) 1998, 2024 IBM Corporation. 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
//     10/15/2010-2.2 Guy Pelletier
//       - 322008: Improve usability of additional criteria applied to queries at the session/EM
//     04/01/2011-2.3 Guy Pelletier
//       - 337323: Multi-tenant with shared schema support (part 2)
//     05/24/2011-2.3 Guy Pelletier
//       - 345962: Join fetch query when using tenant discriminator column fails.
//     08/18/2011-2.3.1 Guy Pelletier
//       - 355093: Add new 'includeCriteria' flag to Multitenant metadata
//     09/09/2011-2.3.1 Guy Pelletier
//       - 356197: Add new VPD type to MultitenantType
//     08/01/2012-2.5 Chris Delahunt
//       - 371950: JPA Metadata caching
//     09/03/2015 - Will Dazey
//       - 456067 : Added support for defining query timeout units
//     IBM - Bug 537795: CASE THEN and ELSE scalar expression Constants should not be casted to CASE operand type
package org.eclipse.persistence.descriptors;

import org.eclipse.persistence.exceptions.ConversionException;
import org.eclipse.persistence.exceptions.DescriptorException;
import org.eclipse.persistence.expressions.Expression;
import org.eclipse.persistence.expressions.ExpressionBuilder;
import org.eclipse.persistence.internal.databaseaccess.DatasourceCall;
import org.eclipse.persistence.internal.descriptors.ObjectBuilder;
import org.eclipse.persistence.internal.expressions.CompoundExpression;
import org.eclipse.persistence.internal.expressions.FunctionExpression;
import org.eclipse.persistence.internal.expressions.ParameterExpression;
import org.eclipse.persistence.internal.expressions.SubSelectExpression;
import org.eclipse.persistence.internal.helper.ConcurrentFixedCache;
import org.eclipse.persistence.internal.helper.DatabaseField;
import org.eclipse.persistence.internal.helper.DatabaseTable;
import org.eclipse.persistence.internal.helper.Helper;
import org.eclipse.persistence.internal.queries.ReportItem;
import org.eclipse.persistence.internal.sessions.AbstractSession;
import org.eclipse.persistence.internal.sessions.ChangeRecord;
import org.eclipse.persistence.internal.sessions.ObjectChangeSet;
import org.eclipse.persistence.mappings.DatabaseMapping;
import org.eclipse.persistence.queries.Call;
import org.eclipse.persistence.queries.DatabaseQuery;
import org.eclipse.persistence.queries.DeleteObjectQuery;
import org.eclipse.persistence.queries.DoesExistQuery;
import org.eclipse.persistence.queries.InsertObjectQuery;
import org.eclipse.persistence.queries.JPAQueryBuilder;
import org.eclipse.persistence.queries.ObjectLevelReadQuery;
import org.eclipse.persistence.queries.QueryResultsCachePolicy;
import org.eclipse.persistence.queries.ReadAllQuery;
import org.eclipse.persistence.queries.ReadObjectQuery;
import org.eclipse.persistence.queries.ReadQuery;
import org.eclipse.persistence.queries.ReportQuery;
import org.eclipse.persistence.queries.UpdateObjectQuery;
import org.eclipse.persistence.queries.WriteObjectQuery;

import java.io.Serializable;
import java.util.ArrayList;
import java.util.HashMap;
import java.util.Iterator;
import java.util.LinkedHashMap;
import java.util.List;
import java.util.Map;
import java.util.Vector;
import java.util.concurrent.TimeUnit;

/**
 * 

Purpose: The query manager allows for the database operations that EclipseLink * performs to be customized by the application. For each descriptor a query can be * given that controls how a operation will occur. A common example is if the application * requires a stored procedure to be used to insert the object, it can override the SQL call * in the insert query that EclipseLink will use to insert the object. * Queries can be customized to extend EclipseLink behavior, access non-relational data or use stored * procedures or customized SQL calls. *

* The queries that can be customized include: *

    *
  • insertQuery - used to insert the object *
  • updateQuery - used to update the object *
  • readObjectQuery - used to read a single object by primary key *
  • readAllQuery - used to read all of the objects of the class *
  • doesExistQuery - used to determine whether an insert or update should occur *
  • deleteQuery - used to delete the object *
* * @see ClassDescriptor */ public class DescriptorQueryManager implements Cloneable, Serializable { protected InsertObjectQuery insertQuery; protected UpdateObjectQuery updateQuery; protected ReadObjectQuery readObjectQuery; protected ReadAllQuery readAllQuery; protected DeleteObjectQuery deleteQuery; protected DoesExistQuery doesExistQuery; protected ClassDescriptor descriptor; protected boolean hasCustomMultipleTableJoinExpression; protected String additionalCriteria; protected transient Expression additionalJoinExpression; protected transient Expression multipleTableJoinExpression; protected Map> queries; protected transient Map tablesJoinExpressions; /** PERF: Update call cache for avoiding regenerated update SQL. */ protected transient ConcurrentFixedCache, List> cachedUpdateCalls; /** PERF: Expression query call cache for avoiding regenerated dynamic query SQL. */ protected transient ConcurrentFixedCache cachedExpressionQueries; /** * queryTimeout has three possible settings: DefaultTimeout, NoTimeout, and 1..N * This applies to both DatabaseQuery.queryTimeout and DescriptorQueryManager.queryTimeout *

* DatabaseQuery.queryTimeout: * - DefaultTimeout: get queryTimeout from DescriptorQueryManager * - NoTimeout, 1..N: overrides queryTimeout in DescriptorQueryManager *

* DescriptorQueryManager.queryTimeout: * - DefaultTimeout: get queryTimeout from parent DescriptorQueryManager. If there is no * parent, default to NoTimeout * - NoTimeout, 1..N: overrides parent queryTimeout */ public static final int NoTimeout = 0; public static final int DefaultTimeout = -1; protected int queryTimeout; public static final TimeUnit DefaultTimeoutUnit = TimeUnit.MILLISECONDS; protected TimeUnit queryTimeoutUnit; /** * INTERNAL: * Initialize the state of the descriptor query manager */ public DescriptorQueryManager() { this.queries = new LinkedHashMap<>(5); setDoesExistQuery(new DoesExistQuery());// Always has a does exist. this.setQueryTimeout(DefaultTimeout); this.setQueryTimeoutUnit(DefaultTimeoutUnit); } /** * ADVANCED: * Set the max size of the expression query cache for avoiding regenerated dynamic query SQL. */ public void setExpressionQueryCacheMaxSize(int maxSize) { this.cachedExpressionQueries = new ConcurrentFixedCache<>(maxSize); } /** * ADVANCED: * Return the max size of the expression query cache for avoiding regenerated dynamic query SQL. */ public int getExpressionQueryCacheMaxSize() { return getCachedExpressionQueries().getMaxSize(); } /** * PUBLIC: * Add the query to the descriptor queries with the given name * @param name This is the name of the query. It will be set on the query and used to look it up. * @param query This is the query that will be added. If the query being added has parameters, the * existing list of queries will be checked for matching queries. If a matching query exists, * it will be replaced. */ public void addQuery(String name, DatabaseQuery query) { query.setName(name); addQuery(query); } /** * PUBLIC: * Add the query to the session queries * @param query DatabaseQuery This is the query that will be added. If the query being added has parameters, the * existing list of queries will be checked for matching queries. If a matching query exists, * it will be replaced. */ public synchronized void addQuery(DatabaseQuery query) { if (query.isObjectLevelReadQuery() && (query.getReferenceClassName() == null)) { ((ObjectLevelReadQuery)query).setReferenceClassName(getDescriptor().getJavaClassName()); // try to set the reference ClassNotFoundException since it should only happen on the MW in which // case we will lazily initialize the reference class at a later point. try { ((ObjectLevelReadQuery)query).setReferenceClass(getDescriptor().getJavaClass()); } catch (ConversionException exception) { } //this is an optimization query.setDescriptor(getDescriptor()); } // Add query has been synchronized for bug 3355199. // Additionally code has been added to ensure that the same query is not added twice. List queriesByName = getQueries().get(query.getName()); if (queriesByName == null) { // lazily create Vector in Hashtable. queriesByName = new ArrayList<>(); getQueries().put(query.getName(), queriesByName); } else { int argumentTypesSize = 0; if (query.getArguments() != null) { argumentTypesSize = query.getArguments().size(); } List argumentTypes = new ArrayList<>(argumentTypesSize); for (int i = 0; i < argumentTypesSize; i++) { argumentTypes.add(query.getArgumentTypeNames().get(i)); } // Search for a query with the same parameters and replace it if one is found for (int i = 0; i < queriesByName.size(); i++) { DatabaseQuery currentQuery = queriesByName.get(i); // Here we are checking equality instead of assignability. If you look at getQuery() // it is the other way around. // The reason we do this is we are replacing a query and we want to make sure we are // replacing the exact same one. - TW if (argumentTypes.equals(currentQuery.getArgumentTypeNames())) { queriesByName.set(i, query); return; } } } queriesByName.add(query); } /** * PUBLIC: * Assume that if the objects primary key does not include null then it must exist. * This may be used if the application guarantees or does not care about the existence check. */ public void assumeExistenceForDoesExist() { getDoesExistQuery().assumeExistenceForDoesExist(); } /** * PUBLIC: * Assume that the object does not exist. This may be used if the application guarantees or * does not care about the existence check. This will always force an insert to be called. */ public void assumeNonExistenceForDoesExist() { getDoesExistQuery().assumeNonExistenceForDoesExist(); } /** * PUBLIC: * Default behavior. * Assume that if the objects primary key does not include null and it * is in the cache, then is must exist. */ public void checkCacheForDoesExist() { getDoesExistQuery().checkCacheForDoesExist(); } /** * PUBLIC: * Perform does exist check on the database */ public void checkDatabaseForDoesExist() { getDoesExistQuery().checkDatabaseForDoesExist(); } /** * INTERNAL: * Clone the query manager */ @Override public Object clone() { try { DescriptorQueryManager manager = (DescriptorQueryManager) super.clone(); // Bug 3037701 - clone the queries manager.setQueries(new LinkedHashMap<>(getQueries().size()));//bug5677655 Iterator> iterator = queries.values().iterator(); while (iterator.hasNext()) { Iterator queriesForKey = iterator.next().iterator(); while (queriesForKey.hasNext()) { DatabaseQuery initialQuery = queriesForKey.next(); DatabaseQuery clonedQuery = (DatabaseQuery)initialQuery.clone(); clonedQuery.setDescriptor(manager.getDescriptor()); manager.addQuery(clonedQuery); } } manager.setDoesExistQuery((DoesExistQuery)getDoesExistQuery().clone()); if (getReadAllQuery() != null) { manager.setReadAllQuery((ReadAllQuery)getReadAllQuery().clone()); } if (getReadObjectQuery() != null) { manager.setReadObjectQuery((ReadObjectQuery)getReadObjectQuery().clone()); } if (getUpdateQuery() != null) { manager.setUpdateQuery((UpdateObjectQuery)getUpdateQuery().clone()); } if (getInsertQuery() != null) { manager.setInsertQuery((InsertObjectQuery)getInsertQuery().clone()); } if (getDeleteQuery() != null) { manager.setDeleteQuery((DeleteObjectQuery)getDeleteQuery().clone()); } return manager; } catch (CloneNotSupportedException exception) { throw new AssertionError(exception); } } /** * PUBLIC: * Return true if the query is defined on the session */ public boolean containsQuery(String queryName) { return queries.containsKey(queryName); } /** * INTERNAL: * Convert all the class-name-based settings in this Query Manager to actual class-based * settings * This method is implemented by subclasses as necessary. */ public void convertClassNamesToClasses(ClassLoader classLoader){ Iterator> queryVectors = getQueries().values().iterator(); while (queryVectors.hasNext()){ Iterator queries = queryVectors.next().iterator(); while (queries.hasNext()){ queries.next().convertClassNamesToClasses(classLoader); } } if (getReadObjectQuery() != null) { getReadObjectQuery().convertClassNamesToClasses(classLoader); } if (getReadAllQuery() != null) { getReadAllQuery().convertClassNamesToClasses(classLoader); } } /** * ADVANCED: * Returns the join expression that should be appended to all of the descriptors expressions * Contains any multiple table or inheritance dependencies */ public Expression getAdditionalJoinExpression() { return additionalJoinExpression; } /** * ADVANCED: * Return the receiver's delete query. * This should be an instance of a valid subclass of DeleteObjectQuery. * If specified this is used by the descriptor to delete itself and its private parts from the database. * This gives the user the ability to define exactly how to delete the data from the database, * or access data external from the database or from some other framework. */ public DeleteObjectQuery getDeleteQuery() { return deleteQuery; } /** * ADVANCED: * Return the receiver's delete SQL string. * This allows the user to override the SQL generated by EclipseLink, with their own SQL or procedure call. * The arguments are translated from the fields of the source row, * through replacing the field names marked by '#' with the values for those fields. *

* Example, "delete from EMPLOYEE where EMPLOYEE_ID = #EMPLOYEE_ID". */ public String getDeleteSQLString() { if (getDeleteQuery() == null) { return null; } return getDeleteQuery().getSQLString(); } /** * INTERNAL: * Return the descriptor associated with this descriptor query manager */ public ClassDescriptor getDescriptor() { return descriptor; } /** * ADVANCED: * Return the receiver's does exist query. * This should be an instance of a valid subclass of DoesExistQuery. * If specified this is used by the descriptor to query existence of an object in the database. * This gives the user the ability to define exactly how to query existence from the database, * or access data external from the database or from some other framework. */ public DoesExistQuery getDoesExistQuery() { return doesExistQuery; } /** * ADVANCED: * Return the receiver's does exist SQL string. * This allows the user to override the SQL generated by EclipseLink, with their own SQL or procedure call. * The arguments are translated from the fields of the source row, through replacing the field names marked by '#' * with the values for those fields. * This must return null if the object does not exist, otherwise return a database row. *

* Example, "select EMPLOYEE_ID from EMPLOYEE where EMPLOYEE_ID = #EMPLOYEE_ID". */ public String getDoesExistSQLString() { if (getDoesExistQuery() == null) { return null; } return getDoesExistQuery().getSQLString(); } /** * INTERNAL: * This method is explicitly used by the Builder only. */ public String getExistenceCheck() { if (getDoesExistQuery().shouldAssumeExistenceForDoesExist()) { return "Assume existence"; } else if (getDoesExistQuery().shouldAssumeNonExistenceForDoesExist()) { return "Assume non-existence"; } else if (getDoesExistQuery().shouldCheckCacheForDoesExist()) { return "Check cache"; } else if (getDoesExistQuery().shouldCheckDatabaseForDoesExist()) { return "Check database"; } else { // Default. return "Check cache"; } } /** * ADVANCED: * Return the receiver's insert query. * This should be an instance of a valid subclass of InsertObjectQuery. * If specified this is used by the descriptor to insert itself into the database. * If the receiver uses sequence numbers, this query must return the updated sequence value. * This gives the user the ability to define exactly how to insert the data into the database, * or access data external from the database or from some other framework. */ public InsertObjectQuery getInsertQuery() { return insertQuery; } /** * ADVANCED: * Return the receiver's insert SQL string. * This allows the user to override the SQL generated by EclipseLink, with their own SQL or procedure call. * The arguments are translated from the fields of the source row, * through replacing the field names marked by '#' with the values for those fields. *

* Example, "insert into EMPLOYEE (F_NAME, L_NAME) values (#F_NAME, #L_NAME)". */ public String getInsertSQLString() { if (getInsertQuery() == null) { return null; } return getInsertQuery().getSQLString(); } /** * ADVANCED: * This is normally generated for descriptors that have multiple tables. * However, if the additional table does not reference the primary tables primary key, * this expression may be set directly. */ public Expression getMultipleTableJoinExpression() { return multipleTableJoinExpression; } /** * PUBLIC: * Return the pre-defined queries for the descriptor. * The Map returned contains Lists of queries. * * @see #getAllQueries() */ public Map> getQueries() { return queries; } /** * PUBLIC: * Return the pre-defined queries for the descriptor. The Vector returned * contains all queries for this descriptor. * * @see #getQueries() */ public List getAllQueries() { List allQueries = new Vector<>(); for (Iterator> vectors = getQueries().values().iterator(); vectors.hasNext();) { allQueries.addAll(vectors.next()); } return allQueries; } /** * INTERNAL: * Set pre-defined queries for the descriptor. Converts the Vector to a hashtable */ public void setAllQueries(List vector) { for (Iterator iterator = vector.iterator(); iterator.hasNext();) { addQuery(iterator.next()); } } /** * PUBLIC: * set the pre-defined queries for the descriptor. Used to write out deployment XML */ public void setQueries(Map> map) { queries = map; } /** * PUBLIC: * Return the query name from the set of pre-defined queries * If only one query exists with this name, it will be returned. * If there are multiple queries of this name, this method will search for a query * with no arguments and return the first one it finds. * * @see #getQuery(String, Vector) */ public DatabaseQuery getQuery(String queryName) { return getQuery(queryName, null); } /** * PUBLIC: * Return the query from the set of pre-defined queries with the given name and argument types. * This allows for common queries to be pre-defined, reused and executed by name. * This method should be used if the Session has multiple queries with the same name but * different arguments. * If only one query exists, it will be returned regardless of the arguments. * If multiple queries exist, the first query that has corresponding argument types will be returned * * @see #getQuery(String) */ public DatabaseQuery getQuery(String name, Vector arguments) { DatabaseQuery query = getLocalQuery(name, arguments); // CR#3711: Check if a query with the same name exists for this descriptor. // If not, recursively check descriptors of parent classes. If nothing is // found in parents, return null. if (query == null) { DatabaseQuery parentQuery = getQueryFromParent(name, arguments); if ((parentQuery != null) && parentQuery.isReadQuery()) { parentQuery = (DatabaseQuery)parentQuery.clone(); ((ObjectLevelReadQuery)parentQuery).setReferenceClass(this.descriptor.getJavaClass()); addQuery(name, parentQuery); } return parentQuery; } return query; } /** * INTENAL: * Return the query from the set of pre-defined queries with the given name and argument types. * This allows for common queries to be pre-defined, reused and executed by name. * Only returns those queries locally defined, not superclass's queries * If only one query exists, it will be returned regardless of the arguments. * If multiple queries exist, the first query that has corresponding argument types will be returned * * @see #getQuery(String) */ public DatabaseQuery getLocalQuery(String name, Vector arguments) { List queries = getQueries().get(name); if (queries == null) { return null; } // Short circuit the simple, most common case of only one query. if (queries.size() == 1) { return queries.get(0); } // CR#3754; Predrag; mar 19/2002; // We allow multiple named queries with the same name but // different argument set; we can have only one query with // no arguments; Vector queries is not sorted; // When asked for the query with no parameters the // old version did return the first query - wrong: // return (DatabaseQuery) queries.firstElement(); int argumentTypesSize = 0; if (arguments != null) { argumentTypesSize = arguments.size(); } List> argumentTypes = new ArrayList<>(argumentTypesSize); for (int i = 0; i < argumentTypesSize; i++) { argumentTypes.add(arguments.get(i).getClass()); } return getLocalQueryByArgumentTypes(name, argumentTypes); } /** * INTERNAL: * Return the query from the set of pre-defined queries with the given name and argument types. * This allows for common queries to be pre-defined, reused and executed by name. * Only returns those queries locally defined, not superclass's queries * If only one query exists, it will be returned regardless of the arguments. * If multiple queries exist, the first query that has corresponding argument types will be returned * * @see #getQuery(String) */ public DatabaseQuery getLocalQueryByArgumentTypes(String name, List argumentTypes) { List queries = getQueries().get(name); if (queries == null) { return null; } // Short circuit the simple, most common case of only one query. if (queries.size() == 1) { return queries.get(0); } for (DatabaseQuery query : queries) { // BUG#2698755 // This check was backward, we default the type to Object // Was checking Object is descendant of String not other way. if (Helper.areTypesAssignable(query.getArgumentTypes(), argumentTypes)) { return query; } } return null; } /** * INTERNAL: * CR#3711: Check if the class for this descriptor has a parent class. * Then search this parent's descriptor for a query with the same name * and arguments. If nothing found, return null. *

* This method should only be used recursively by getQuery(). */ protected DatabaseQuery getQueryFromParent(String name, Vector arguments) { ClassDescriptor descriptor = this.descriptor; if (descriptor.hasInheritance()) { InheritancePolicy inheritancePolicy = descriptor.getInheritancePolicy(); ClassDescriptor parent = inheritancePolicy.getParentDescriptor(); // if parent exists, check for the query if (parent != null) { return parent.getQueryManager().getQuery(name, arguments); } } return null; } /** * ADVANCED: * Return the receiver's read query. * This should be an instance of a valid subclass of ReadAllQuery. */ public ReadAllQuery getReadAllQuery() { return readAllQuery; } /** * ADVANCED: * Return the receiver's read SQL string. * This allows the user to override the SQL generated by EclipseLink, with their own SQL or procedure call. * The arguments are translated from the fields of the read arguments row, * through replacing the field names marked by '#' with the values for those fields. * Note that this is only used on readAllObjects(Class), and not when an expression is provided. *

* Example, "select * from EMPLOYEE" */ public String getReadAllSQLString() { if (getReadAllQuery() == null) { return null; } return getReadAllQuery().getSQLString(); } /** * ADVANCED: * Return the receiver's read query. * This should be an instance of a valid subclass of ReadObjectQuery. * If specified this is used by the descriptor to read itself from the database. * The read arguments must be the primary key of the object only. * This gives the user the ability to define exactly how to read the object from the database, * or access data external from the database or from some other framework. */ public ReadObjectQuery getReadObjectQuery() { return readObjectQuery; } /** * ADVANCED: * Return the receiver's read SQL string. * This allows the user to override the SQL generated by EclipseLink, with their own SQL or procedure call. * The arguments are translated from the fields of the read arguments row, * through replacing the field names marked by '#' with the values for those fields. * This must accept only the primary key of the object as arguments. *

* Example, "select * from EMPLOYEE where EMPLOYEE_ID = #EMPLOYEE_ID" */ public String getReadObjectSQLString() { if (getReadObjectQuery() == null) { return null; } return getReadObjectQuery().getSQLString(); } /** * ADVANCED: * Return the receiver's update query. * This should be an instance of a valid subclass of UpdateObjectQuery. * If specified this is used by the descriptor to insert itself into the database. * If the receiver uses optimistic locking this must raise an error on optimistic lock failure. * This gives the user the ability to define exactly how to update the data into the database, * or access data external from the database or from some other framework. */ public UpdateObjectQuery getUpdateQuery() { return updateQuery; } /** * ADVANCED: * Return the receiver's update SQL string. * This allows the user to override the SQL generated by EclipseLink, with their own SQL or procedure call. * The arguments are translated from the fields of the source row, * through replacing the field names marked by '#' with the values for those fields. * This must check the optimistic lock field and raise an error on optimistic lock failure. *

* Example, "update EMPLOYEE set F_NAME to #F_NAME, L_NAME to #L_NAME where EMPLOYEE_ID = #EMPLOYEE_ID". */ public String getUpdateSQLString() { if (getUpdateQuery() == null) { return null; } return getUpdateQuery().getSQLString(); } /** * ADVANCED: * Return true if an additional criteria has been set on this query manager. */ public boolean hasAdditionalCriteria() { return additionalCriteria != null; } /** * INTERNAL: * Return if a custom join expression is used. */ public boolean hasCustomMultipleTableJoinExpression() { return hasCustomMultipleTableJoinExpression; } /** * INTERNAL: * Flag that specifies if a delete query is available */ public boolean hasDeleteQuery() { return (deleteQuery != null); } /** * INTERNAL: * Flag that specifies if a does exist query is available */ public boolean hasDoesExistQuery() { return (doesExistQuery != null); } /** * INTERNAL: * Flag that specifies if a insert query is available */ public boolean hasInsertQuery() { return (insertQuery != null); } /** * INTERNAL: * Flag that specifies if a read all query is available */ public boolean hasReadAllQuery() { return (readAllQuery != null); } /** * INTERNAL: * Flag that specifies if a read object query is available */ public boolean hasReadObjectQuery() { return (readObjectQuery != null); } /** * INTERNAL: * Flag that specifies if a update query is available */ public boolean hasUpdateQuery() { return (updateQuery != null); } /** * INTERNAL: * populate the queries with the descriptor. */ private void populateQueries() { /* CR2260 * Description: * NullPointerException accessing null descriptor * Fix: * Initialize queries with an instantiated descriptor at this point */ if (getInsertQuery() != null) { getInsertQuery().setDescriptor(descriptor); } if (getUpdateQuery() != null) { getUpdateQuery().setDescriptor(descriptor); } if (getReadObjectQuery() != null) { getReadObjectQuery().setReferenceClass(getDescriptor().getJavaClass()); getReadObjectQuery().setDescriptor(descriptor); } if (getDeleteQuery() != null) { getDeleteQuery().setDescriptor(descriptor); } if (getReadAllQuery() != null) { getReadAllQuery().setReferenceClass(getDescriptor().getJavaClass()); getReadAllQuery().setDescriptor(descriptor); } for (Iterator it = getAllQueries().iterator(); it.hasNext();) { it.next().setDescriptor(descriptor); } } /** * INTERNAL: * Post initialize the mappings */ public void initialize(AbstractSession session) { this.initializeQueryTimeout(session); if (getDescriptor().isAggregateDescriptor()) { return; } if (getMultipleTableJoinExpression() != null) { // Combine new multiple table expression to additional join expression setAdditionalJoinExpression(getMultipleTableJoinExpression().and(getAdditionalJoinExpression())); } if (getDescriptor().isAggregateCollectionDescriptor()) { return; } // Configure default query cache for all named queries. QueryResultsCachePolicy defaultQueryCachePolicy = session.getProject().getDefaultQueryResultsCachePolicy(); if (defaultQueryCachePolicy != null && !getDescriptor().getCachePolicy().isIsolated()) { for (List queries : getQueries().values()) { for (DatabaseQuery query : queries) { if (query.isReadQuery()) { ReadQuery readQuery = (ReadQuery)query; if (!readQuery.shouldCacheQueryResults()) { readQuery.setQueryResultsCachePolicy(defaultQueryCachePolicy.clone()); } } } } } getDescriptor().initialize(this, session); } /** * INTERNAL: * Initialize the queryTimeout to: *

* NoTimeout: If queryTimeout is DefaultTimeout, either directly or via inheritance. * Parent's Timeout: If queryTimeout is something other than DefaultTimeout via my parent. */ public void initializeQueryTimeout(AbstractSession session) { //if queryTimeout is DefaultTimeout, try to get my parent's queryTimeout if (getQueryTimeout() == DefaultTimeout) { if (getDescriptor().hasInheritance() && (this.getDescriptor().getInheritancePolicy().getParentDescriptor() != null)) { setQueryTimeout(this.getParentDescriptorQueryManager().getQueryTimeout()); } } if (getQueryTimeoutUnit().equals(DefaultTimeoutUnit)) { if (getDescriptor().hasInheritance() && (this.getDescriptor().getInheritancePolicy().getParentDescriptor() != null)) { setQueryTimeoutUnit(this.getParentDescriptorQueryManager().getQueryTimeoutUnit()); } } //if I have DefaultTimeout (via parent or not), set to NoTimeout if (getQueryTimeout() == DefaultTimeout) { setQueryTimeout(NoTimeout); } } /** * INTERNAL: * Get the parent DescriptorQueryManager. * Caution must be used in using this method as it expects the descriptor * to have inheritance. * Calling this when the descriptor that does not use inheritance will cause problems, #hasInheritance() must * always first be called. */ public DescriptorQueryManager getParentDescriptorQueryManager() { return this.descriptor.getInheritancePolicy().getParentDescriptor().getQueryManager(); } /** * INTERNAL: * Execute the post delete operation for the query */ public void postDelete(DeleteObjectQuery query) { ObjectBuilder builder = this.descriptor.getObjectBuilder(); // PERF: Only process relationships. if (!builder.isSimple()) { List mappings = builder.getRelationshipMappings(); int size = mappings.size(); for (int index = 0; index < size; index++) { mappings.get(index).postDelete(query); } } } /** * INTERNAL: * Post initializations after mappings are initialized. */ public void postInitialize(AbstractSession session) throws DescriptorException { // If the additional criteria is specified, append it to the additional // join expression. We do this in postInitialize after all the mappings // have been fully initialized. if (additionalCriteria != null) { if (getDescriptor().hasInheritance() && getDescriptor().getInheritancePolicy().hasView()) { throw DescriptorException.additionalCriteriaNotSupportedWithInheritanceViews(getDescriptor()); } JPAQueryBuilder queryBuilder = session.getQueryBuilder(); Expression selectionCriteria = queryBuilder.buildSelectionCriteria( getDescriptor().getAlias(), additionalCriteria, session ); updatePropertyParameterExpression(selectionCriteria); additionalJoinExpression = selectionCriteria.and(additionalJoinExpression); } if (additionalJoinExpression != null) { // The make sure the additional join expression has the correct // context, rebuild the additional join expression on a new // expression builder. additionalJoinExpression = additionalJoinExpression.rebuildOn(new ExpressionBuilder()); } } /** * INTERNAL: * This method will walk the given expression and mark any parameter * expressions as property expressions. This is done when additional * criteria has been specified and parameter values must be resolved * through session properties. * * @see #postInitialize */ protected void updatePropertyParameterExpression(Expression exp) { if (exp.isCompoundExpression()) { updatePropertyParameterExpression(((CompoundExpression) exp).getFirstChild()); updatePropertyParameterExpression(((CompoundExpression) exp).getSecondChild()); } else if (exp.isFunctionExpression()) { for (Expression e : ((FunctionExpression) exp).getChildren()) { updatePropertyParameterExpression(e); } } else if (exp.isSubSelectExpression()) { ReportQuery subSelectQuery = ((SubSelectExpression) exp).getSubQuery(); for (ReportItem item : subSelectQuery.getItems()) { updatePropertyParameterExpression(item.getAttributeExpression()); } } if (exp.isParameterExpression()) { ((ParameterExpression) exp).setIsProperty(true); } } /** * INTERNAL: * Execute the post insert operation for the query */ public void postInsert(WriteObjectQuery query) { ObjectBuilder builder = this.descriptor.getObjectBuilder(); // PERF: Only process relationships. if (!builder.isSimple()) { List mappings = builder.getRelationshipMappings(); int size = mappings.size(); for (int index = 0; index < size; index++) { mappings.get(index).postInsert(query); } } } /** * INTERNAL: * Execute the post update operation for the query */ public void postUpdate(WriteObjectQuery query) { ObjectBuilder builder = this.descriptor.getObjectBuilder(); // PERF: Only process relationships. if (!builder.isSimple()) { // PERF: Only process changed mappings. ObjectChangeSet changeSet = query.getObjectChangeSet(); if ((changeSet != null) && (!changeSet.isNew())) { List changeRecords = changeSet.getChanges(); int size = changeRecords.size(); for (int index = 0; index < size; index++) { ChangeRecord record = (ChangeRecord)changeRecords.get(index); record.getMapping().postUpdate(query); } } else { List mappings = builder.getRelationshipMappings(); int size = mappings.size(); for (int index = 0; index < size; index++) { mappings.get(index).postUpdate(query); } } } } /** * INTERNAL: * Execute the pre delete operation for the query */ public void preDelete(DeleteObjectQuery query) { ObjectBuilder builder = this.descriptor.getObjectBuilder(); // PERF: Only process relationships. if (!builder.isSimple()) { List mappings = builder.getRelationshipMappings(); int size = mappings.size(); for (int index = 0; index < size; index++) { mappings.get(index).preDelete(query); } } } /** * INTERNAL: * Initialize the query manager. * Any custom queries must be inherited from the parent before any initialization. */ public void preInitialize(AbstractSession session) { if (getDescriptor().isAggregateDescriptor()) { return; } // Must inherit parent query customization if not redefined. if (getDescriptor().isChildDescriptor()) { DescriptorQueryManager parentQueryManager = getDescriptor().getInheritancePolicy().getParentDescriptor().getQueryManager(); if ((!hasInsertQuery()) && (parentQueryManager.hasInsertQuery())) { setInsertQuery((InsertObjectQuery)parentQueryManager.getInsertQuery().clone()); } if ((!hasUpdateQuery()) && (parentQueryManager.hasUpdateQuery())) { setUpdateQuery((UpdateObjectQuery)parentQueryManager.getUpdateQuery().clone()); } if ((!hasDeleteQuery()) && (parentQueryManager.hasDeleteQuery())) { setDeleteQuery((DeleteObjectQuery)parentQueryManager.getDeleteQuery().clone()); } if ((!hasReadObjectQuery()) && (parentQueryManager.hasReadObjectQuery())) { setReadObjectQuery((ReadObjectQuery)parentQueryManager.getReadObjectQuery().clone()); } if ((!hasReadAllQuery()) && (parentQueryManager.hasReadAllQuery())) { setReadAllQuery((ReadAllQuery)parentQueryManager.getReadAllQuery().clone()); } if ((!getDoesExistQuery().isUserDefined()) && getDoesExistQuery().shouldCheckCacheForDoesExist()) { setDoesExistQuery(((DoesExistQuery)parentQueryManager.getDoesExistQuery().clone())); } } } /** * INTERNAL: * Execute the pre insert operation for the query. */ public void preInsert(WriteObjectQuery query) { ObjectBuilder builder = this.descriptor.getObjectBuilder(); // PERF: Only process relationships. if (!builder.isSimple()) { List mappings = builder.getRelationshipMappings(); int size = mappings.size(); for (int index = 0; index < size; index++) { mappings.get(index).preInsert(query); } } } /** * INTERNAL: * Execute the pre update operation for the query */ public void preUpdate(WriteObjectQuery query) { ObjectBuilder builder = this.descriptor.getObjectBuilder(); // PERF: Only process relationships. if (!builder.isSimple()) { // PERF: Only process changed mappings. ObjectChangeSet changeSet = query.getObjectChangeSet(); if ((changeSet != null) && (!changeSet.isNew())) { List changeRecords = changeSet.getChanges(); int size = changeRecords.size(); for (int index = 0; index < size; index++) { ChangeRecord record = (ChangeRecord)changeRecords.get(index); record.getMapping().preUpdate(query); } } else { List mappings = builder.getRelationshipMappings(); int size = mappings.size(); for (int index = 0; index < size; index++) { mappings.get(index).preUpdate(query); } } } } /** * PUBLIC: * Remove all queries with the given query name from the set of pre-defined queries * * @see #removeQuery(String, Vector) */ public void removeQuery(String queryName) { queries.remove(queryName); } /** * PUBLIC: * Remove the specific query with the given queryName and argumentTypes. * * @see #removeQuery(String) */ public void removeQuery(String queryName, Vector argumentTypes) { List queries = getQueries().get(queryName); if (queries != null) { DatabaseQuery query = null; for (DatabaseQuery q : queries) { if (Helper.areTypesAssignable(argumentTypes, q.getArgumentTypes())) { query = q; break; } } if (query != null) { queries.remove(query); } } } /** * ADVANCED: * Set the additional join criteria that will be used to form the additional * join expression. The additionalCriteria is a jpql fragment at this point. * @see #setAdditionalJoinExpression */ public void setAdditionalCriteria(String additionalCriteria) { this.additionalCriteria = additionalCriteria; } /** * ADVANCED: * Set the additional join expression. Used in conjunction with * multiple tables and inheritance relationships. * This can also be used if a sub-expression is always required to be * appended to all queries. Such as tables that are shared based on a type field * without inheritance. */ public void setAdditionalJoinExpression(Expression additionalJoinExpression) { this.additionalJoinExpression = additionalJoinExpression; } /** * ADVANCED: * Set the receiver's delete query. * This should be an instance of a valid subclass of DeleteObjectQuery. * If specified this is used by the descriptor to delete itself and its private parts from the database. * This gives the user the ability to define exactly how to delete the data from the database, * or access data external from the database or from some other framework. */ public void setDeleteQuery(DeleteObjectQuery query) { this.deleteQuery = query; if (query == null) { return; } query.setIsUserDefined(true); query.setDescriptor(getDescriptor()); if (query.isCallQuery()) { query.setIsFullRowRequired(true); } } /** * ADVANCED: * Set the receiver's delete SQL string. * This allows the user to override the SQL generated by EclipseLink, with their own SQL or procedure call. * The arguments are translated from the fields of the source row, * through replacing the field names marked by '#' with the values for those fields. * Warning: Allowing an unverified SQL string to be passed into this * method makes your application vulnerable to SQL injection attacks. *

* Example, "delete from EMPLOYEE where EMPLOYEE_ID = #EMPLOYEE_ID". */ public void setDeleteSQLString(String sqlString) { if (sqlString == null) { return; } DeleteObjectQuery query = new DeleteObjectQuery(); query.setSQLString(sqlString); setDeleteQuery(query); } /** * ADVANCED: * Set the receiver's delete call. * This allows the user to override the delete operation. */ public void setDeleteCall(Call call) { if (call == null) { return; } DeleteObjectQuery query = new DeleteObjectQuery(); query.setCall(call); setDeleteQuery(query); } /** * INTERNAL: * Set the descriptor. */ public void setDescriptor(ClassDescriptor descriptor) { this.descriptor = descriptor; //Gross alert: This is for the case when we are reading from XML, and //we have to compensate for no descriptor available at read time. - JL populateQueries(); } /** * ADVANCED: * Set the receiver's does exist query. * This should be an instance of a valid subclass of DoesExistQuery. * If specified this is used by the descriptor to query existence of an object in the database. * This gives the user the ability to define exactly how to query existence from the database, * or access data external from the database or from some other framework. */ public void setDoesExistQuery(DoesExistQuery query) { this.doesExistQuery = query; if (query == null) { return; } this.doesExistQuery.setIsUserDefined(true); this.doesExistQuery.setDescriptor(getDescriptor()); } /** * ADVANCED: * Set the receiver's does exist SQL string. * This allows the user to override the SQL generated by EclipseLink, with their own SQL or procedure call. * The arguments are translated from the fields of the source row, through replacing the field names marked by '#' * with the values for those fields. * This must return null if the object does not exist, otherwise return a database row. * Warning: Allowing an unverified SQL string to be passed into this * method makes your application vulnerable to SQL injection attacks. *

* Example, "select EMPLOYEE_ID from EMPLOYEE where EMPLOYEE_ID = #EMPLOYEE_ID". */ public void setDoesExistSQLString(String sqlString) { if (sqlString == null) { return; } getDoesExistQuery().setSQLString(sqlString); getDoesExistQuery().checkDatabaseForDoesExist(); } /** * ADVANCED: * Set the receiver's does exist call. * This allows the user to override the does exist operation. */ public void setDoesExistCall(Call call) { if (call == null) { return; } getDoesExistQuery().setCall(call); } /** * INTERNAL: * This method is explicitly used by the Builder only. */ public void setExistenceCheck(String token) throws DescriptorException { switch (token) { case "Check cache" -> checkCacheForDoesExist(); case "Check database" -> checkDatabaseForDoesExist(); case "Assume existence" -> assumeExistenceForDoesExist(); case "Assume non-existence" -> assumeNonExistenceForDoesExist(); default -> throw DescriptorException.setExistenceCheckingNotUnderstood(token, getDescriptor()); } } /** * INTENAL: * Set if a custom join expression is used. */ protected void setHasCustomMultipleTableJoinExpression(boolean hasCustomMultipleTableJoinExpression) { this.hasCustomMultipleTableJoinExpression = hasCustomMultipleTableJoinExpression; } /** * ADVANCED: * Set the receiver's insert query. * This should be an instance of a valid subclass of InsertObjectQuery. * If specified this is used by the descriptor to insert itself into the database. * This gives the user the ability to define exactly how to insert the data into the database, * or access data external from the database or from some other framework. */ public void setInsertQuery(InsertObjectQuery insertQuery) { this.insertQuery = insertQuery; if (insertQuery == null) { return; } this.insertQuery.setIsUserDefined(true); this.insertQuery.setDescriptor(getDescriptor()); } /** * ADVANCED: * Set the receiver's insert call. * This allows the user to override the insert operation. */ public void setInsertCall(Call call) { if (call == null) { return; } InsertObjectQuery query = new InsertObjectQuery(); query.setCall(call); setInsertQuery(query); } /** * ADVANCED: * Set the receiver's insert SQL string. * This allows the user to override the SQL generated by EclipseLink, with their own SQL or procedure call. * The arguments are translated from the fields of the source row, * through replacing the field names marked by '#' with the values for those fields. * Warning: Allowing an unverified SQL string to be passed into this * method makes your application vulnerable to SQL injection attacks. *

* Example, "insert into EMPLOYEE (F_NAME, L_NAME) values (#F_NAME, #L_NAME)". */ public void setInsertSQLString(String sqlString) { if (sqlString == null) { return; } InsertObjectQuery query = new InsertObjectQuery(); query.setSQLString(sqlString); setInsertQuery(query); } /** * ADVANCED: * Return the receiver's insert call. * This allows the user to override the insert operation. */ public Call getInsertCall() { if (getInsertQuery() == null) { return null; } return getInsertQuery().getDatasourceCall(); } /** * ADVANCED: * Return the receiver's update call. * This allows the user to override the update operation. */ public Call getUpdateCall() { if (getUpdateQuery() == null) { return null; } return getUpdateQuery().getDatasourceCall(); } /** * ADVANCED: * Return the receiver's delete call. * This allows the user to override the delete operation. */ public Call getDeleteCall() { if (getDeleteQuery() == null) { return null; } return getDeleteQuery().getDatasourceCall(); } /** * ADVANCED: * Return the receiver's read-object call. * This allows the user to override the read-object operation. */ public Call getReadObjectCall() { if (getReadObjectQuery() == null) { return null; } return getReadObjectQuery().getDatasourceCall(); } /** * ADVANCED: * Return the receiver's read-all call. * This allows the user to override the read-all operation. */ public Call getReadAllCall() { if (getReadAllQuery() == null) { return null; } return getReadAllQuery().getDatasourceCall(); } /** * ADVANCED: * Return the receiver's does-exist call. * This allows the user to override the does-exist operation. */ public Call getDoesExistCall() { if (getDoesExistQuery() == null) { return null; } return getDoesExistQuery().getDatasourceCall(); } /** * INTERNAL: * Used in case descriptor has additional tables: * each additional table mapped to an expression joining it. */ public Map getTablesJoinExpressions() { if (tablesJoinExpressions == null) { tablesJoinExpressions = new HashMap<>(); } return tablesJoinExpressions; } /** * INTERNAL: * Used to set the multiple table join expression that was generated by EclipseLink as opposed * to a custom one supplied by the user. * @see #setMultipleTableJoinExpression(Expression) */ public void setInternalMultipleTableJoinExpression(Expression multipleTableJoinExpression) { this.multipleTableJoinExpression = multipleTableJoinExpression; } /** * ADVANCED: * This is normally generated for descriptors that have multiple tables. * However, if the additional table does not reference the primary table's primary key, * this expression may be set directly. */ public void setMultipleTableJoinExpression(Expression multipleTableJoinExpression) { this.multipleTableJoinExpression = multipleTableJoinExpression; setHasCustomMultipleTableJoinExpression(true); } /** * ADVANCED: * Set the receiver's read all query. * This should be an instance of a valid subclass of ReadAllQuery. * If specified this is used by the descriptor to read all instances of its class from the database. * This gives the user the ability to define exactly how to read all objects from the database, * or access data external from the database or from some other framework. * Note that this is only used on readAllObjects(Class), and not when an expression is provided. */ public void setReadAllQuery(ReadAllQuery query) { this.readAllQuery = query; if (query == null) { return; } this.readAllQuery.setIsUserDefined(true); /* CR2260 - Steven Vo * Description: * NullPointerException accessing null descriptor * Fix: * Setting query's descriptor and reference class when descriptor is not null. * Otherwise, wait until the descriptor is set.See populateQueries() that is * called by setDescriptor() */ if (this.getDescriptor() != null) { this.readAllQuery.setDescriptor(getDescriptor()); this.readAllQuery.setReferenceClassName(getDescriptor().getJavaClassName()); try { readAllQuery.setReferenceClass(getDescriptor().getJavaClass()); } catch (ConversionException exception) { } } } /** * ADVANCED: * Set the receiver's read SQL string. * This allows the user to override the SQL generated by EclipseLink, with their own SQL or procedure call. * The arguments are translated from the fields of the read arguments row, * through replacing the field names marked by '#' with the values for those fields. * Note that this is only used on readAllObjects(Class), and not when an expression is provided. * Warning: Allowing an unverified SQL string to be passed into this * method makes your application vulnerable to SQL injection attacks. *

* Example, "select * from EMPLOYEE" */ public void setReadAllSQLString(String sqlString) { if (sqlString == null) { return; } ReadAllQuery query = new ReadAllQuery(); query.setSQLString(sqlString); setReadAllQuery(query); } /** * ADVANCED: * Set the receiver's read all call. * This allows the user to override the read all operation. * Note that this is only used on readAllObjects(Class), and not when an expression is provided. */ public void setReadAllCall(Call call) { if (call == null) { return; } ReadAllQuery query = new ReadAllQuery(); query.setCall(call); setReadAllQuery(query); } /** * ADVANCED: * Set the receiver's read query. * This should be an instance of a valid subclass of ReadObjectQuery * If specified this is used by the descriptor to read itself from the database. * The read arguments must be the primary key of the object only. * This gives the user the ability to define exactly how to read the object from the database, * or access data external from the database or from some other framework. */ public void setReadObjectQuery(ReadObjectQuery query) { this.readObjectQuery = query; if (query == null) { return; } this.readObjectQuery.setIsUserDefined(true); /* CR2260 - Steven Vo * Description: * NullPointerException accessing null descriptor * Fix: * Setting query's descriptor and reference class when descriptor is not null. * Otherwise, wait until the descriptor is set.See populateQueries() that is * called by setDescriptor() */ if (this.getDescriptor() != null) { this.readObjectQuery.setDescriptor(getDescriptor()); this.readObjectQuery.setReferenceClassName(getDescriptor().getJavaClassName()); try { readObjectQuery.setReferenceClass(getDescriptor().getJavaClass()); } catch (ConversionException exception) { } } } /** * ADVANCED: * Set the receiver's read SQL string. * This allows the user to override the SQL generated by EclipseLink, with their own SQL or procedure call. * The arguments are translated from the fields of the read arguments row, * through replacing the field names marked by '#' with the values for those fields. * This must accept only the primary key of the object as arguments. * Warning: Allowing an unverified SQL string to be passed into this * method makes your application vulnerable to SQL injection attacks. *

* Example, "select * from EMPLOYEE where EMPLOYEE_ID = #EMPLOYEE_ID" */ public void setReadObjectSQLString(String sqlString) { if (sqlString == null) { return; } ReadObjectQuery query = new ReadObjectQuery(); query.setSQLString(sqlString); setReadObjectQuery(query); } /** * ADVANCED: * Set the receiver's read object call. * This allows the user to override the read object operation. * This must accept only the primary key of the object as arguments. */ public void setReadObjectCall(Call call) { if (call == null) { return; } ReadObjectQuery query = new ReadObjectQuery(); query.setCall(call); setReadObjectQuery(query); } /** * ADVANCED: * Set the receiver's update query. * This should be an instance of a valid subclass of UpdateObjectQuery. * If specified this is used by the descriptor to update itself in the database. * If the receiver uses optimistic locking this must raise an error on optimistic lock failure. * This gives the user the ability to define exactly how to update the data into the database, * or access data external from the database or from some other framework. */ public void setUpdateQuery(UpdateObjectQuery updateQuery) { this.updateQuery = updateQuery; if (updateQuery == null) { return; } this.updateQuery.setIsUserDefined(true); this.updateQuery.setDescriptor(getDescriptor()); } /** * ADVANCED: * Set the receiver's update SQL string. * This allows the user to override the SQL generated by EclipseLink, with their own SQL or procedure call. * The arguments are translated from the fields of the source row, * through replacing the field names marked by '#' with the values for those fields. * This must check the optimistic lock field and raise an error on optimistic lock failure. * Warning: Allowing an unverified SQL string to be passed into this * method makes your application vulnerable to SQL injection attacks. *

* Example, "update EMPLOYEE set F_NAME to #F_NAME, L_NAME to #L_NAME where EMPLOYEE_ID = #EMPLOYEE_ID". */ public void setUpdateSQLString(String sqlString) { if (sqlString == null) { return; } UpdateObjectQuery query = new UpdateObjectQuery(); query.setSQLString(sqlString); setUpdateQuery(query); } /** * ADVANCED: * Set the receiver's update call. * This allows the user to override the update operation. */ public void setUpdateCall(Call call) { if (call == null) { return; } UpdateObjectQuery query = new UpdateObjectQuery(); query.setCall(call); setUpdateQuery(query); } /** * PUBLIC: * Return the number of seconds queries will wait for their Statement to execute. *

* - DefaultTimeout: get queryTimeout from parent DescriptorQueryManager. If there is no * parent, default to NoTimeout * - NoTimeout, 1..N: overrides parent queryTimeout */ public int getQueryTimeout() { return queryTimeout; } public TimeUnit getQueryTimeoutUnit() { return queryTimeoutUnit; } /** * PUBLIC: * Set the number of seconds that queries will wait for their Statement to execute. * If the limit is exceeded, a DatabaseException is thrown. *

* - DefaultTimeout: get queryTimeout from parent DescriptorQueryManager. If there is no * parent, default to NoTimeout * - NoTimeout, 1..N: overrides parent queryTimeout */ public void setQueryTimeout(int queryTimeout) { this.queryTimeout = queryTimeout; } public void setQueryTimeoutUnit(TimeUnit queryTimeoutUnit) { this.queryTimeoutUnit = queryTimeoutUnit; } /** * INTERNAL: * Returns the collection of cached Update calls. */ private ConcurrentFixedCache, List> getCachedUpdateCalls() { if (cachedUpdateCalls == null) { this.cachedUpdateCalls = new ConcurrentFixedCache<>(10); } return this.cachedUpdateCalls; } /** * INTERNAL: * Returns the collection of cached expression queries. */ private ConcurrentFixedCache getCachedExpressionQueries() { if (cachedExpressionQueries == null) { this.cachedExpressionQueries = new ConcurrentFixedCache<>(20); } return this.cachedExpressionQueries; } /** * ADVANCED: * Return the size of the update call cache. * The update call cache is used to cache the update SQL to avoid regeneration. * Since every update with different fields produces different SQL, * this cache allows caching of the update SQL based on the fields being updated. * The default cache size is 10, the update call cache can be disabled through setting the size to 0. */ public int getUpdateCallCacheSize() { return getCachedUpdateCalls().getMaxSize(); } /** * ADVANCED: * Set the size of the update call cache. * The update call cache is used to cache the update SQL to avoid regeneration. * Since every update with different fields produces different SQL, * this cache allows caching of the update SQL based on the fields being updated. * The default cache size is 10, the update call cache can be disabled through setting the size to 0. */ public void setUpdateCallCacheSize(int updateCallCacheSize) { getCachedUpdateCalls().setMaxSize(updateCallCacheSize); } /** * INTERNAL: * Return the cached update SQL call based on the updated fields. * PERF: Allow caching of the update SQL call to avoid regeneration. */ public List getCachedUpdateCalls(List updateFields) { return getCachedUpdateCalls().get(updateFields); } /** * INTERNAL: * Cache a clone of the update SQL calls based on the updated fields. * If the max size is reached, do not cache the call. * The call's query must be dereferenced in order to allow the GC of a related session. * PERF: Allow caching of the update SQL call to avoid regeneration. */ public void putCachedUpdateCalls(List updateFields, List updateCalls) { List vectorToCache = updateCalls; if (!updateCalls.isEmpty()) { int updateCallsSize = updateCalls.size(); vectorToCache = new ArrayList<>(updateCallsSize); for (int i = 0; i < updateCallsSize; i++) { DatasourceCall updateCall = updateCalls.get(i); // clone call and dereference query for DatasourceCall and EJBQLCall DatasourceCall clonedUpdateCall = updateCall.clone(); clonedUpdateCall.setQuery(null); vectorToCache.add(clonedUpdateCall); } } getCachedUpdateCalls().put(updateFields, vectorToCache); } /** * INTERNAL: * Return the cached SQL call for the expression query. * PERF: Allow caching of expression query SQL call to avoid regeneration. */ public DatabaseQuery getCachedExpressionQuery(DatabaseQuery query) { return getCachedExpressionQueries().get(query); } /** * INTERNAL: * Set the cached SQL call for the expression query. * PERF: Allow caching of expression query SQL call to avoid regeneration. */ public void putCachedExpressionQuery(DatabaseQuery query) { getCachedExpressionQueries().put(query, query); } /** * INTERNAL: * Remove the cached expression query. * PERF: Allow caching of expression query SQL call to avoid regeneration. */ public void removeCachedExpressionQuery(DatabaseQuery query) { getCachedExpressionQueries().remove(query); } }





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