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/*
 * Copyright (c) 1998, 2018 Oracle and/or its affiliates. All rights reserved.
 *
 * This program and the accompanying materials are made available under the
 * terms of the Eclipse Public License v. 2.0 which is available at
 * http://www.eclipse.org/legal/epl-2.0,
 * or the Eclipse Distribution License v. 1.0 which is available at
 * http://www.eclipse.org/org/documents/edl-v10.php.
 *
 * SPDX-License-Identifier: EPL-2.0 OR BSD-3-Clause
 */

// Contributors:
//     07/16/2009 Andrei Ilitchev
//       - Bug 282553: JPA 2.0 JoinTable support for OneToOne and ManyToOne
//     14/05/2012-2.4 Guy Pelletier
//       - 376603: Provide for table per tenant support for multitenant applications
package org.eclipse.persistence.mappings;

import java.util.ArrayList;
import java.util.Enumeration;
import java.util.Iterator;
import java.util.List;
import java.util.Set;
import java.util.Vector;

import org.eclipse.persistence.descriptors.ClassDescriptor;
import org.eclipse.persistence.descriptors.TablePerMultitenantPolicy;
import org.eclipse.persistence.exceptions.DescriptorException;
import org.eclipse.persistence.expressions.Expression;
import org.eclipse.persistence.expressions.ExpressionBuilder;
import org.eclipse.persistence.internal.databaseaccess.DatasourcePlatform;
import org.eclipse.persistence.internal.databaseaccess.Platform;
import org.eclipse.persistence.internal.descriptors.ObjectBuilder;
import org.eclipse.persistence.internal.expressions.FieldExpression;
import org.eclipse.persistence.internal.expressions.ForUpdateClause;
import org.eclipse.persistence.internal.expressions.ForUpdateOfClause;
import org.eclipse.persistence.internal.expressions.SQLDeleteStatement;
import org.eclipse.persistence.internal.expressions.SQLInsertStatement;
import org.eclipse.persistence.internal.expressions.SQLSelectStatement;
import org.eclipse.persistence.internal.helper.ConversionManager;
import org.eclipse.persistence.internal.helper.DatabaseField;
import org.eclipse.persistence.internal.helper.DatabaseTable;
import org.eclipse.persistence.internal.identitymaps.CacheId;
import org.eclipse.persistence.internal.sessions.AbstractRecord;
import org.eclipse.persistence.internal.sessions.AbstractSession;
import org.eclipse.persistence.mappings.ForeignReferenceMapping.ExtendPessimisticLockScope;
import org.eclipse.persistence.queries.Call;
import org.eclipse.persistence.queries.DataModifyQuery;
import org.eclipse.persistence.queries.DirectReadQuery;
import org.eclipse.persistence.queries.ObjectBuildingQuery;
import org.eclipse.persistence.queries.ObjectLevelReadQuery;
import org.eclipse.persistence.queries.ReadAllQuery;
import org.eclipse.persistence.queries.ReadQuery;
import org.eclipse.persistence.sessions.DatabaseRecord;

/**
 * 

Purpose: Contains relation table functionality * that was originally defined in ManyToManyMapping * and now is shared with OneToOneMapping. */ public class RelationTableMechanism implements Cloneable, java.io.Serializable { /** The intermediate relation table. */ protected DatabaseTable relationTable; /** The field in the source table that corresponds to the key in the relation table */ protected Vector sourceKeyFields; /** The field in the target table that corresponds to the key in the relation table */ protected Vector targetKeyFields; /** The field in the intermediate table that corresponds to the key in the source table */ protected Vector sourceRelationKeyFields; /** The field in the intermediate table that corresponds to the key in the target table */ protected Vector targetRelationKeyFields; /** Query used for single row deletion. */ protected DataModifyQuery deleteQuery; protected boolean hasCustomDeleteQuery; /** Used for insertion. */ protected DataModifyQuery insertQuery; protected boolean hasCustomInsertQuery; protected ReadQuery lockRelationTableQuery; public RelationTableMechanism() { this.insertQuery = new DataModifyQuery(); this.deleteQuery = new DataModifyQuery(); this.sourceRelationKeyFields = org.eclipse.persistence.internal.helper.NonSynchronizedVector.newInstance(1); this.targetRelationKeyFields = org.eclipse.persistence.internal.helper.NonSynchronizedVector.newInstance(1); this.sourceKeyFields = org.eclipse.persistence.internal.helper.NonSynchronizedVector.newInstance(1); this.targetKeyFields = org.eclipse.persistence.internal.helper.NonSynchronizedVector.newInstance(1); this.hasCustomDeleteQuery = false; this.hasCustomInsertQuery = false; } /** * PUBLIC: * Add the fields in the intermediate table that corresponds to the primary * key in the source table. This method is used if the keys are composite. */ public void addSourceRelationKeyField(DatabaseField sourceRelationKeyField, DatabaseField sourcePrimaryKeyField) { getSourceRelationKeyFields().addElement(sourceRelationKeyField); getSourceKeyFields().addElement(sourcePrimaryKeyField); } /** * PUBLIC: * Add the fields in the intermediate table that corresponds to the primary * key in the source table. This method is used if the keys are composite. */ public void addSourceRelationKeyFieldName(String sourceRelationKeyFieldName, String sourcePrimaryKeyFieldName) { addSourceRelationKeyField(new DatabaseField(sourceRelationKeyFieldName), new DatabaseField(sourcePrimaryKeyFieldName)); } /** * PUBLIC: * Add the fields in the intermediate table that corresponds to the primary * key in the target table. This method is used if the keys are composite. */ public void addTargetRelationKeyField(DatabaseField targetRelationKeyField, DatabaseField targetPrimaryKeyField) { getTargetRelationKeyFields().addElement(targetRelationKeyField); getTargetKeyFields().addElement(targetPrimaryKeyField); } /** * PUBLIC: * Add the fields in the intermediate table that corresponds to the primary * key in the target table. This method is used if the keys are composite. */ public void addTargetRelationKeyFieldName(String targetRelationKeyFieldName, String targetPrimaryKeyFieldName) { addTargetRelationKeyField(new DatabaseField(targetRelationKeyFieldName), new DatabaseField(targetPrimaryKeyFieldName)); } /** * INTERNAL: * Selection criteria is created to read target records from the table. */ Expression buildSelectionCriteria(ForeignReferenceMapping mapping, Expression criteria) { return buildSelectionCriteriaAndAddFieldsToQueryInternal(mapping, criteria, true, false); } Expression buildSelectionCriteriaAndAddFieldsToQuery(ForeignReferenceMapping mapping, Expression criteria) { return buildSelectionCriteriaAndAddFieldsToQueryInternal(mapping, criteria, true, true); } /** * INTERNAL: * Build the selection criteria to join the source, relation, and target tables. */ public Expression buildSelectionCriteriaAndAddFieldsToQueryInternal(ForeignReferenceMapping mapping, Expression criteria, boolean shouldAddTargetFields, boolean shouldAddFieldsToQuery) { Expression builder = new ExpressionBuilder(); Expression linkTable = builder.getTable(this.relationTable); if (shouldAddTargetFields) { Iterator targetKeyIterator = getTargetKeyFields().iterator(); Iterator relationKeyIterator = getTargetRelationKeyFields().iterator(); while (targetKeyIterator.hasNext()) { DatabaseField relationKey = relationKeyIterator.next(); DatabaseField targetKey = targetKeyIterator.next(); Expression expression = builder.getField(targetKey).equal(linkTable.getField(relationKey)); if (criteria == null) { criteria = expression; } else { criteria = expression.and(criteria); } } } Iterator relationKeyIterator = getSourceRelationKeyFields().iterator(); Iterator sourceKeyIterator = getSourceKeyFields().iterator(); while (relationKeyIterator.hasNext()) { DatabaseField relationKey = relationKeyIterator.next(); DatabaseField sourceKey = sourceKeyIterator.next(); Expression expression = linkTable.getField(relationKey).equal(builder.getParameter(sourceKey)); if (criteria == null) { criteria = expression; } else { criteria = expression.and(criteria); } } if (shouldAddFieldsToQuery && mapping.isCollectionMapping()) { ((CollectionMapping)mapping).getContainerPolicy().addAdditionalFieldsToQuery(mapping.getSelectionQuery(), linkTable); } return criteria; } /** * INTERNAL: * This method is used to store the FK fields that can be cached that correspond to noncacheable mappings * the FK field values will be used to re-issue the query when cloning the shared cache entity */ protected void collectQueryParameters(Set cacheFields){ for (DatabaseField field : getSourceKeyFields()) { cacheFields.add(field); } } /** * INTERNAL: * The mapping clones itself to create deep copy. */ public Object clone() { RelationTableMechanism clone; try { clone = (RelationTableMechanism)super.clone(); } catch (CloneNotSupportedException e) { throw new InternalError(); } clone.setTargetKeyFields(cloneFields(getTargetKeyFields())); clone.setSourceKeyFields(cloneFields(getSourceKeyFields())); clone.setTargetRelationKeyFields(cloneFields(getTargetRelationKeyFields())); clone.setSourceRelationKeyFields(cloneFields(getSourceRelationKeyFields())); clone.setInsertQuery((DataModifyQuery) insertQuery.clone()); clone.setDeleteQuery((DataModifyQuery) deleteQuery.clone()); if(lockRelationTableQuery != null) { clone.lockRelationTableQuery = (DirectReadQuery)lockRelationTableQuery.clone(); } return clone; } /** * INTERNAL: * Helper method to clone vector of fields (used in aggregate initialization cloning). */ protected Vector cloneFields(Vector fields) { Vector clonedFields = org.eclipse.persistence.internal.helper.NonSynchronizedVector.newInstance(); for (Enumeration fieldsEnum = fields.elements(); fieldsEnum.hasMoreElements();) { clonedFields.addElement(((DatabaseField)fieldsEnum.nextElement()).clone()); } return clonedFields; } protected DataModifyQuery getDeleteQuery() { return deleteQuery; } /** * INTERNAL: * Returns a query that */ ReadQuery getLockRelationTableQueryClone(AbstractSession session, short lockMode) { DirectReadQuery lockRelationTableQueryClone = (DirectReadQuery)lockRelationTableQuery.clone(); SQLSelectStatement statement = new SQLSelectStatement(); statement.addTable(this.relationTable); statement.addField(this.sourceRelationKeyFields.get(0).clone()); statement.setWhereClause((Expression)lockRelationTableQuery.getSelectionCriteria().clone()); statement.setLockingClause(new ForUpdateClause(lockMode)); statement.normalize(session, null); lockRelationTableQueryClone.setSQLStatement(statement); lockRelationTableQueryClone.setIsExecutionClone(true); return lockRelationTableQueryClone; } /** * INTERNAL: * Return relation table locking clause. */ public void setRelationTableLockingClause(ObjectLevelReadQuery targetQuery, ObjectBuildingQuery sourceQuery) { ForUpdateOfClause lockingClause = new ForUpdateOfClause(); lockingClause.setLockMode(sourceQuery.getLockMode()); FieldExpression exp = (FieldExpression)targetQuery.getExpressionBuilder().getTable(this.relationTable).getField(this.sourceRelationKeyFields.get(0)); lockingClause.addLockedExpression(exp); targetQuery.setLockingClause(lockingClause); // locking clause is not compatible with DISTINCT targetQuery.setShouldOuterJoinSubclasses(true); } protected DataModifyQuery getInsertQuery() { return insertQuery; } /** * INTERNAL: * Return the relation table associated with the mapping. */ public DatabaseTable getRelationTable() { return relationTable; } /** * PUBLIC: * Return the relation table name associated with the mapping. */ public String getRelationTableName() { if (relationTable == null) { return null; } return relationTable.getName(); } /** * PUBLIC: * Return the relation table qualified name associated with the mapping. */ public String getRelationTableQualifiedName() { if (relationTable == null) { return null; } return relationTable.getQualifiedName(); } /** * PUBLIC: * Return the source key field names associated with the mapping. * These are in-order with the sourceRelationKeyFieldNames. */ public Vector getSourceKeyFieldNames() { Vector fieldNames = new Vector(getSourceKeyFields().size()); for (Enumeration fieldsEnum = getSourceKeyFields().elements(); fieldsEnum.hasMoreElements();) { fieldNames.addElement(((DatabaseField)fieldsEnum.nextElement()).getQualifiedName()); } return fieldNames; } /** * INTERNAL: * Return the selection criteria used to IN batch fetching. */ protected Expression buildBatchCriteria(ExpressionBuilder builder, ObjectLevelReadQuery query) { Expression linkTable = builder.getTable(this.relationTable); Expression criteria = null; int size = this.targetRelationKeyFields.size(); for (int index = 0; index < size; index++) { DatabaseField relationKey = this.targetRelationKeyFields.get(index); DatabaseField targetKey = this.targetKeyFields.get(index); criteria = builder.getField(targetKey).equal(linkTable.getField(relationKey)).and(criteria); } size = this.sourceRelationKeyFields.size(); if (size > 1) { // Support composite keys using nested IN. List fields = new ArrayList(size); for (DatabaseField sourceRelationKeyField : this.sourceRelationKeyFields) { fields.add(linkTable.getField(sourceRelationKeyField)); } return criteria.and(query.getSession().getPlatform().buildBatchCriteriaForComplexId(builder, fields)); } else { return criteria.and(query.getSession().getPlatform().buildBatchCriteria(builder, linkTable.getField(this.sourceRelationKeyFields.get(0)))); } } /** * INTERNAL: * Add the addition join fields to the batch query. */ public void postPrepareNestedBatchQuery(ReadQuery batchQuery, ObjectLevelReadQuery query) { ReadAllQuery mappingBatchQuery = (ReadAllQuery)batchQuery; mappingBatchQuery.setShouldIncludeData(true); Expression linkTable = mappingBatchQuery.getExpressionBuilder().getTable(this.relationTable); for (DatabaseField relationField : this.sourceRelationKeyFields) { mappingBatchQuery.getAdditionalFields().add(linkTable.getField(relationField)); } } /** * INTERNAL: * Extract the foreign key value from the source row. */ protected Object extractBatchKeyFromRow(AbstractRecord row, AbstractSession session) { Object[] key; ConversionManager conversionManager = session.getDatasourcePlatform().getConversionManager(); List sourceKeyFields = this.sourceKeyFields; int size = sourceKeyFields.size(); key = new Object[size]; for (int index = 0; index < size; index++) { DatabaseField field = sourceKeyFields.get(index); Object value = row.get(field); // Must ensure the classification gets a cache hit. key[index] = conversionManager.convertObject(value, field.getType()); } return new CacheId(key); } /** * INTERNAL: * Extract the source primary key value from the relation row. * Used for batch reading, most following same order and fields as in the mapping. */ protected Object extractKeyFromTargetRow(AbstractRecord row, AbstractSession session) { int size = getSourceRelationKeyFields().size(); Object[] key = new Object[size]; ConversionManager conversionManager = session.getDatasourcePlatform().getConversionManager(); for (int index = 0; index < size; index++) { DatabaseField relationField = this.sourceRelationKeyFields.get(index); DatabaseField sourceField = this.sourceKeyFields.get(index); Object value = row.get(relationField); // Must ensure the classification gets a cache hit. value = conversionManager.convertObject(value, sourceField.getType()); key[index] = value; } return new CacheId(key); } /** * INTERNAL: * Return all the source key fields associated with the mapping. */ public Vector getSourceKeyFields() { return sourceKeyFields; } /** * PUBLIC: * Return the source relation key field names associated with the mapping. * These are in-order with the sourceKeyFieldNames. */ public Vector getSourceRelationKeyFieldNames() { Vector fieldNames = new Vector(getSourceRelationKeyFields().size()); for (Enumeration fieldsEnum = getSourceRelationKeyFields().elements(); fieldsEnum.hasMoreElements();) { fieldNames.addElement(((DatabaseField)fieldsEnum.nextElement()).getQualifiedName()); } return fieldNames; } /** * INTERNAL: * Return all the source relation key fields associated with the mapping. */ public Vector getSourceRelationKeyFields() { return sourceRelationKeyFields; } /** * PUBLIC: * Return the target key field names associated with the mapping. * These are in-order with the targetRelationKeyFieldNames. */ public Vector getTargetKeyFieldNames() { Vector fieldNames = new Vector(getTargetKeyFields().size()); for (Enumeration fieldsEnum = getTargetKeyFields().elements(); fieldsEnum.hasMoreElements();) { fieldNames.addElement(((DatabaseField)fieldsEnum.nextElement()).getQualifiedName()); } return fieldNames; } /** * INTERNAL: * Return the relation field for the target field. */ public DatabaseField getRelationFieldForTargetField(DatabaseField targetField) { int index = this.targetKeyFields.indexOf(targetField); if (index == -1) { return null; } return this.targetRelationKeyFields.get(index); } /** * INTERNAL: * Return all the target keys associated with the mapping. */ public Vector getTargetKeyFields() { return targetKeyFields; } /** * PUBLIC: * Return the target relation key field names associated with the mapping. * These are in-order with the targetKeyFieldNames. */ public Vector getTargetRelationKeyFieldNames() { Vector fieldNames = new Vector(getTargetRelationKeyFields().size()); for (Enumeration fieldsEnum = getTargetRelationKeyFields().elements(); fieldsEnum.hasMoreElements();) { fieldNames.addElement(((DatabaseField)fieldsEnum.nextElement()).getQualifiedName()); } return fieldNames; } /** * INTERNAL: * Return all the target relation key fields associated with the mapping. */ public Vector getTargetRelationKeyFields() { return targetRelationKeyFields; } protected boolean hasCustomDeleteQuery() { return hasCustomDeleteQuery; } protected boolean hasCustomInsertQuery() { return hasCustomInsertQuery; } /** * INTERNAL: * Indicates whether the mechanism has relation table. */ public boolean hasRelationTable() { return relationTable != null && relationTable.getName().length() > 0; } /** * INTERNAL: * Initialize */ public void initialize(AbstractSession session, ForeignReferenceMapping mapping) throws DescriptorException { initializeRelationTable(session, mapping); initializeSourceRelationKeys(mapping); initializeTargetRelationKeys(mapping); if (isSingleSourceRelationKeySpecified()) { initializeSourceKeysWithDefaults(mapping); } else { initializeSourceKeys(mapping); } if (isSingleTargetRelationKeySpecified()) { initializeTargetKeysWithDefaults(session, mapping); } else { initializeTargetKeys(session, mapping); } if (getRelationTable().getName().indexOf(' ') != -1) { //table names contains a space so needs to be quoted. String beginQuote = ((DatasourcePlatform)session.getDatasourcePlatform()).getStartDelimiter(); String endQuote = ((DatasourcePlatform)session.getDatasourcePlatform()).getEndDelimiter(); //Ensure this table name hasn't already been quoted. if (getRelationTable().getName().indexOf(beginQuote) == -1) { getRelationTable().setName(beginQuote + getRelationTable().getName() + endQuote); } } if (mapping.isCollectionMapping()) { ((CollectionMapping)mapping).getContainerPolicy().initialize(session, getRelationTable()); } initializeInsertQuery(session, mapping); initializeDeleteQuery(session, mapping); if (mapping.extendPessimisticLockScope != ExtendPessimisticLockScope.NONE) { initializeExtendPessipisticLockScope(session, mapping); } } /** * INTERNAL: * Initialize delete query. This query is used to delete a specific row from the join table in uow, * given the objects on both sides of the relation. */ protected void initializeDeleteQuery(AbstractSession session, ForeignReferenceMapping mapping) { if (!getDeleteQuery().hasSessionName()) { getDeleteQuery().setSessionName(session.getName()); } if (getDeleteQuery().getPartitioningPolicy() == null) { getDeleteQuery().setPartitioningPolicy(mapping.getPartitioningPolicy()); } getInsertQuery().setName(mapping.getAttributeName()); if (hasCustomDeleteQuery()) { return; } // Build where clause expression. Expression whereClause = null; Expression builder = new ExpressionBuilder(); for (DatabaseField relationKey : getSourceRelationKeyFields()) { Expression expression = builder.getField(relationKey).equal(builder.getParameter(relationKey)); whereClause = expression.and(whereClause); } if (mapping.isCollectionMapping()) { for (DatabaseField relationKey : getTargetRelationKeyFields()) { Expression expression = builder.getField(relationKey).equal(builder.getParameter(relationKey)); whereClause = expression.and(whereClause); } } SQLDeleteStatement statement = new SQLDeleteStatement(); statement.setTable(getRelationTable()); statement.setWhereClause(whereClause); getDeleteQuery().setSQLStatement(statement); } /** * INTERNAL: * Initialize extendPessimisticLockeScope and lockRelationTableQuery (if required). */ protected void initializeExtendPessipisticLockScope(AbstractSession session, ForeignReferenceMapping mapping) { if(mapping.usesIndirection()) { if(session.getPlatform().isForUpdateCompatibleWithDistinct() && session.getPlatform().supportsLockingQueriesWithMultipleTables()) { mapping.extendPessimisticLockScope = ExtendPessimisticLockScope.SOURCE_QUERY; } else { mapping.extendPessimisticLockScope = ExtendPessimisticLockScope.DEDICATED_QUERY; } } else { if(session.getPlatform().supportsIndividualTableLocking() && session.getPlatform().supportsLockingQueriesWithMultipleTables()) { mapping.extendPessimisticLockScope = ExtendPessimisticLockScope.TARGET_QUERY; } else { mapping.extendPessimisticLockScope = ExtendPessimisticLockScope.DEDICATED_QUERY; } } if(mapping.extendPessimisticLockScope == ExtendPessimisticLockScope.DEDICATED_QUERY) { Expression startCriteria = mapping.getSelectionQuery().getSelectionCriteria(); if(startCriteria != null) { startCriteria = (Expression)startCriteria.clone(); } initializeLockRelationTableQuery(session, mapping, startCriteria); } } /** * INTERNAL: * Initialize insert query. This query is used to insert the collection of objects into the * relation table. */ protected void initializeInsertQuery(AbstractSession session, ForeignReferenceMapping mapping) { if (!getInsertQuery().hasSessionName()) { getInsertQuery().setSessionName(session.getName()); } if (getInsertQuery().getPartitioningPolicy() == null) { getInsertQuery().setPartitioningPolicy(mapping.getPartitioningPolicy()); } getInsertQuery().setName(mapping.getAttributeName()); if (hasCustomInsertQuery()) { return; } SQLInsertStatement statement = new SQLInsertStatement(); statement.setTable(getRelationTable()); AbstractRecord joinRow = new DatabaseRecord(); for (DatabaseField field : getTargetRelationKeyFields()) { joinRow.put(field, null); } for (DatabaseField field : getSourceRelationKeyFields()) { joinRow.put(field, null); } if (mapping.isCollectionMapping()) { CollectionMapping collectionMapping = (CollectionMapping)mapping; if (collectionMapping.getListOrderField() != null) { joinRow.put(collectionMapping.getListOrderField(), null); } collectionMapping.getContainerPolicy().addFieldsForMapKey(joinRow); } statement.setModifyRow(joinRow); getInsertQuery().setSQLStatement(statement); getInsertQuery().setModifyRow(joinRow); } /** * INTERNAL: * Initialize lockRelationTableQuery. */ protected void initializeLockRelationTableQuery(AbstractSession session, ForeignReferenceMapping mapping, Expression startCriteria) { lockRelationTableQuery = new DirectReadQuery(); Expression criteria = buildSelectionCriteriaAndAddFieldsToQueryInternal(mapping, startCriteria, false, false); SQLSelectStatement statement = new SQLSelectStatement(); statement.addTable(this.relationTable); statement.addField(this.sourceRelationKeyFields.get(0).clone()); statement.setWhereClause(criteria); statement.normalize(session, null); lockRelationTableQuery.setSQLStatement(statement); lockRelationTableQuery.setSessionName(session.getName()); } /** * INTERNAL: * Set the table qualifier on the relation table if required */ protected void initializeRelationTable(AbstractSession session, ForeignReferenceMapping mapping) throws DescriptorException { Platform platform = session.getDatasourcePlatform(); // We need to look up the relation table name from the reference // descriptor if we are the non owning side of a bidirectional mapping // to a table per tenant descriptor. if (mapping.isReadOnly() && mapping.getReferenceDescriptor().hasTablePerMultitenantPolicy()) { setRelationTable(((TablePerMultitenantPolicy) mapping.getReferenceDescriptor().getMultitenantPolicy()).getTable(getRelationTable())); } if (!hasRelationTable()) { throw DescriptorException.noRelationTable(mapping); } if (platform.getTableQualifier().length() > 0) { if (getRelationTable().getTableQualifier().length() == 0) { getRelationTable().setTableQualifier(platform.getTableQualifier()); } } } /** * INTERNAL: * All the source key field names are converted to DatabaseField and stored. */ protected void initializeSourceKeys(ForeignReferenceMapping mapping) { for (int index = 0; index < getSourceKeyFields().size(); index++) { DatabaseField field = mapping.getDescriptor().buildField(getSourceKeyFields().get(index)); if (((ForeignReferenceMapping)mapping).usesIndirection()) { field.setKeepInRow(true); } getSourceKeyFields().set(index, field); } } /** * INTERNAL: * If a user does not specify the source key then the primary keys of the source table are used. */ protected void initializeSourceKeysWithDefaults(DatabaseMapping mapping) { List primaryKeyFields = mapping.getDescriptor().getPrimaryKeyFields(); for (int index = 0; index < primaryKeyFields.size(); index++) { DatabaseField field = primaryKeyFields.get(index); if (((ForeignReferenceMapping)mapping).usesIndirection()) { field.setKeepInRow(true); } getSourceKeyFields().addElement(field); } } /** * INTERNAL: * All the source relation key field names are converted to DatabaseField and stored. */ protected void initializeSourceRelationKeys(ForeignReferenceMapping mapping) throws DescriptorException { if (getSourceRelationKeyFields().size() == 0) { throw DescriptorException.noSourceRelationKeysSpecified(mapping); } for (Enumeration entry = getSourceRelationKeyFields().elements(); entry.hasMoreElements();) { DatabaseField field = (DatabaseField)entry.nextElement(); // Update the fields table first if the mapping is from a table per tenant entity. ClassDescriptor sourceDescriptor = mapping.getDescriptor(); if (sourceDescriptor.hasTablePerMultitenantPolicy()) { field.setTable(((TablePerMultitenantPolicy) sourceDescriptor.getMultitenantPolicy()).getTable(field.getTable())); } if (field.hasTableName() && (!(field.getTableName().equals(getRelationTable().getName())))) { throw DescriptorException.relationKeyFieldNotProperlySpecified(field, mapping); } field.setTable(getRelationTable()); } } /** * INTERNAL: * All the target key field names are converted to DatabaseField and stored. */ protected void initializeTargetKeys(AbstractSession session, ForeignReferenceMapping mapping) { for (int index = 0; index < getTargetKeyFields().size(); index++) { DatabaseField field = mapping.getReferenceDescriptor().buildField(getTargetKeyFields().get(index)); getTargetKeyFields().set(index, field); } } /** * INTERNAL: * If a user does not specify the target key then the primary keys of the target table are used. */ protected void initializeTargetKeysWithDefaults(AbstractSession session, ForeignReferenceMapping mapping) { List primaryKeyFields = mapping.getReferenceDescriptor().getPrimaryKeyFields(); for (int index = 0; index < primaryKeyFields.size(); index++) { getTargetKeyFields().addElement(primaryKeyFields.get(index)); } } /** * INTERNAL: * All the target relation key field names are converted to DatabaseField and stored. */ protected void initializeTargetRelationKeys(ForeignReferenceMapping mapping) { if (getTargetRelationKeyFields().size() == 0) { throw DescriptorException.noTargetRelationKeysSpecified(mapping); } for (Enumeration targetEnum = getTargetRelationKeyFields().elements(); targetEnum.hasMoreElements();) { DatabaseField field = (DatabaseField)targetEnum.nextElement(); // Update the fields table first if the mapping is from a table per tenant entity. ClassDescriptor referenceDescriptor = mapping.getReferenceDescriptor(); if (referenceDescriptor.hasTablePerMultitenantPolicy()) { field.setTable(((TablePerMultitenantPolicy) referenceDescriptor.getMultitenantPolicy()).getTable(field.getTable())); } if (field.hasTableName() && (!(field.getTableName().equals(getRelationTable().getName())))) { throw DescriptorException.relationKeyFieldNotProperlySpecified(field, mapping); } field.setTable(getRelationTable()); } } /** * INTERNAL: * Checks if a single source key was specified. */ protected boolean isSingleSourceRelationKeySpecified() { return getSourceKeyFields().isEmpty(); } /** * INTERNAL: * Checks if a single target key was specified. */ protected boolean isSingleTargetRelationKeySpecified() { return getTargetKeyFields().isEmpty(); } /** * INTERNAL: * Adds to the passed expression a single relation table field joined to source field. * Used to extend pessimistic locking clause in source query. */ public Expression joinRelationTableField(Expression expression, Expression baseExpression) { return baseExpression.getField(this.sourceKeyFields.get(0)).equal(baseExpression.getTable(relationTable).getField(this.sourceRelationKeyFields.get(0))).and(expression); } /** * PUBLIC: * The default delete query for mapping can be overridden by specifying the new query. * This query must delete the row from the M-M join table. */ public void setCustomDeleteQuery(DataModifyQuery query) { setDeleteQuery(query); setHasCustomDeleteQuery(true); } /** * PUBLIC: * The default insert query for mapping can be overridden by specifying the new query. * This query must insert the row into the M-M join table. */ public void setCustomInsertQuery(DataModifyQuery query) { setInsertQuery(query); setHasCustomInsertQuery(true); } protected void setDeleteQuery(DataModifyQuery deleteQuery) { this.deleteQuery = deleteQuery; } /** * PUBLIC: * Set the receiver's delete SQL string. This allows the user to override the SQL * generated by TOPLink, with there 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 is used to delete a single entry from the M-M join table. * Example, 'delete from PROJ_EMP where PROJ_ID = #PROJ_ID AND EMP_ID = #EMP_ID'. */ public void setDeleteSQLString(String sqlString) { DataModifyQuery query = new DataModifyQuery(); query.setSQLString(sqlString); setCustomDeleteQuery(query); } /** * PUBLIC: * Set the receiver's delete Call. This allows the user to override the SQL * generated by TOPLink, with there own SQL or procedure call. The arguments are * translated from the fields of the source row. * This is used to delete a single entry from the M-M join table. * Example, 'new SQLCall("delete from PROJ_EMP where PROJ_ID = #PROJ_ID AND EMP_ID = #EMP_ID")'. */ public void setDeleteCall(Call call) { DataModifyQuery query = new DataModifyQuery(); query.setCall(call); setCustomDeleteQuery(query); } protected void setHasCustomDeleteQuery(boolean hasCustomDeleteQuery) { this.hasCustomDeleteQuery = hasCustomDeleteQuery; } protected void setHasCustomInsertQuery(boolean bool) { hasCustomInsertQuery = bool; } protected void setInsertQuery(DataModifyQuery insertQuery) { this.insertQuery = insertQuery; } /** * PUBLIC: * Set the receiver's insert SQL string. This allows the user to override the SQL * generated by TOPLink, with there 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 is used to insert an entry into the M-M join table. * Example, 'insert into PROJ_EMP (EMP_ID, PROJ_ID) values (#EMP_ID, #PROJ_ID)'. */ public void setInsertSQLString(String sqlString) { DataModifyQuery query = new DataModifyQuery(); query.setSQLString(sqlString); setCustomInsertQuery(query); } /** * PUBLIC: * Set the receiver's insert Call. This allows the user to override the SQL * generated by TOPLink, with there own SQL or procedure call. The arguments are * translated from the fields of the source row. * This is used to insert an entry into the M-M join table. * Example, 'new SQLCall("insert into PROJ_EMP (EMP_ID, PROJ_ID) values (#EMP_ID, #PROJ_ID)")'. */ public void setInsertCall(Call call) { DataModifyQuery query = new DataModifyQuery(); query.setCall(call); setCustomInsertQuery(query); } /** * PUBLIC: * Set the relational table. * This is the join table that store both the source and target primary keys. */ public void setRelationTable(DatabaseTable relationTable) { this.relationTable = relationTable; } /** * PUBLIC: * Set the name of the relational table. * This is the join table that store both the source and target primary keys. */ public void setRelationTableName(String tableName) { relationTable = new DatabaseTable(tableName); } /** * PUBLIC: * Set the name of the session to execute the mapping's queries under. * This can be used by the session broker to override the default session * to be used for the target class. */ public void setSessionName(String name) { getInsertQuery().setSessionName(name); getDeleteQuery().setSessionName(name); } /** * PUBLIC: * Set the source key field names associated with the mapping. * These must be in-order with the sourceRelationKeyFieldNames. */ public void setSourceKeyFieldNames(Vector fieldNames) { Vector fields = org.eclipse.persistence.internal.helper.NonSynchronizedVector.newInstance(fieldNames.size()); for (Enumeration fieldNamesEnum = fieldNames.elements(); fieldNamesEnum.hasMoreElements();) { fields.addElement(new DatabaseField((String)fieldNamesEnum.nextElement())); } setSourceKeyFields(fields); } /** * INTERNAL: * Set the source fields. */ public void setSourceKeyFields(Vector sourceKeyFields) { this.sourceKeyFields = sourceKeyFields; } /** * PUBLIC: * Set the source key field in the relation table. * This is the name of the foreign key in the relation table to the source's primary key field. * This method is used if the source primary key is a singleton only. */ public void setSourceRelationKeyFieldName(String sourceRelationKeyFieldName) { getSourceRelationKeyFields().addElement(new DatabaseField(sourceRelationKeyFieldName)); } /** * PUBLIC: * Set the source relation key field names associated with the mapping. * These must be in-order with the sourceKeyFieldNames. */ public void setSourceRelationKeyFieldNames(Vector fieldNames) { Vector fields = org.eclipse.persistence.internal.helper.NonSynchronizedVector.newInstance(fieldNames.size()); for (Enumeration fieldNamesEnum = fieldNames.elements(); fieldNamesEnum.hasMoreElements();) { fields.addElement(new DatabaseField((String)fieldNamesEnum.nextElement())); } setSourceRelationKeyFields(fields); } /** * INTERNAL: * Set the source fields. */ public void setSourceRelationKeyFields(Vector sourceRelationKeyFields) { this.sourceRelationKeyFields = sourceRelationKeyFields; } /** * INTERNAL: * Set the target key field names associated with the mapping. * These must be in-order with the targetRelationKeyFieldNames. */ public void setTargetKeyFieldNames(Vector fieldNames) { Vector fields = org.eclipse.persistence.internal.helper.NonSynchronizedVector.newInstance(fieldNames.size()); for (Enumeration fieldNamesEnum = fieldNames.elements(); fieldNamesEnum.hasMoreElements();) { fields.addElement(new DatabaseField((String)fieldNamesEnum.nextElement())); } setTargetKeyFields(fields); } /** * INTERNAL: * Set the target fields. */ public void setTargetKeyFields(Vector targetKeyFields) { this.targetKeyFields = targetKeyFields; } /** * PUBLIC: * Set the target key field in the relation table. * This is the name of the foreign key in the relation table to the target's primary key field. * This method is used if the target's primary key is a singleton only. */ public void setTargetRelationKeyFieldName(String targetRelationKeyFieldName) { getTargetRelationKeyFields().addElement(new DatabaseField(targetRelationKeyFieldName)); } /** * INTERNAL: * Set the target relation key field names associated with the mapping. * These must be in-order with the targetKeyFieldNames. */ public void setTargetRelationKeyFieldNames(Vector fieldNames) { Vector fields = org.eclipse.persistence.internal.helper.NonSynchronizedVector.newInstance(fieldNames.size()); for (Enumeration fieldNamesEnum = fieldNames.elements(); fieldNamesEnum.hasMoreElements();) { fields.addElement(new DatabaseField((String)fieldNamesEnum.nextElement())); } setTargetRelationKeyFields(fields); } /** * INTERNAL: * Set the target fields. */ public void setTargetRelationKeyFields(Vector targetRelationKeyFields) { this.targetRelationKeyFields = targetRelationKeyFields; } /** * INTERNAL: * Create a row that contains source relation fields with values extracted from the source object. */ public AbstractRecord buildRelationTableSourceRow(Object sourceObject, AbstractSession session, ForeignReferenceMapping mapping) { AbstractRecord databaseRow = new DatabaseRecord(); return addRelationTableSourceRow(sourceObject, session, databaseRow, mapping); } /** * INTERNAL: * Add to a row source relation fields with values extracted from the source object. */ public AbstractRecord addRelationTableSourceRow(Object sourceObject, AbstractSession session, AbstractRecord databaseRow, ForeignReferenceMapping mapping) { ObjectBuilder builder = mapping.getDescriptor().getObjectBuilder(); int size = sourceKeyFields.size(); for(int i=0; i < size; i++) { Object sourceValue = builder.extractValueFromObjectForField(sourceObject, sourceKeyFields.get(i), session); databaseRow.put(sourceRelationKeyFields.get(i), sourceValue); } return databaseRow; } /** * INTERNAL: * Create a row that contains source relation fields with values extracted from the source row. */ public AbstractRecord buildRelationTableSourceRow(AbstractRecord sourceRow) { AbstractRecord databaseRow = new DatabaseRecord(); return addRelationTableSourceRow(sourceRow, databaseRow); } /** * INTERNAL: * Add to a row source relation fields with values extracted from the source row. */ public AbstractRecord addRelationTableSourceRow(AbstractRecord sourceRow, AbstractRecord databaseRow) { int size = sourceKeyFields.size(); for(int i=0; i < size; i++) { Object sourceValue = sourceRow.get(sourceKeyFields.get(i)); databaseRow.put(sourceRelationKeyFields.get(i), sourceValue); } return databaseRow; } /** * INTERNAL: * Add to a row target relation fields with values extracted from the target object. */ public AbstractRecord addRelationTableTargetRow(Object targetObject, AbstractSession session, AbstractRecord databaseRow, ForeignReferenceMapping mapping) { ObjectBuilder builder = mapping.getReferenceDescriptor().getObjectBuilder(); int size = targetKeyFields.size(); for(int i=0; i < size; i++) { Object sourceValue = builder.extractValueFromObjectForField(targetObject, targetKeyFields.get(i), session); databaseRow.put(targetRelationKeyFields.get(i), sourceValue); } return databaseRow; } /** * INTERNAL: * Create a row that contains source relation fields with values extracted from the source object * and target relation fields with values extracted from the target object. */ public AbstractRecord buildRelationTableSourceAndTargetRow(Object sourceObject, Object targetObject, AbstractSession session, ForeignReferenceMapping mapping) { AbstractRecord databaseRow = buildRelationTableSourceRow(sourceObject, session, mapping); databaseRow = addRelationTableTargetRow(targetObject, session, databaseRow, mapping); return databaseRow; } /** * INTERNAL: * Create a row that contains source relation fields with values extracted from the source row * and target relation fields with values extracted from the target object. */ public AbstractRecord buildRelationTableSourceAndTargetRow(AbstractRecord sourceRow, Object targetObject, AbstractSession session, ForeignReferenceMapping mapping) { AbstractRecord databaseRow = buildRelationTableSourceRow(sourceRow); databaseRow = addRelationTableTargetRow(targetObject, session, databaseRow, mapping); return databaseRow; } }





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