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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:
//     Oracle - initial API and implementation from Oracle TopLink
package org.eclipse.persistence.internal.oxm;

import java.lang.reflect.Modifier;
import java.util.ArrayList;
import java.util.Enumeration;
import java.util.List;

import javax.xml.namespace.QName;

import org.eclipse.persistence.descriptors.ClassDescriptor;
import org.eclipse.persistence.descriptors.InheritancePolicy;
import org.eclipse.persistence.exceptions.DatabaseException;
import org.eclipse.persistence.exceptions.DescriptorException;
import org.eclipse.persistence.exceptions.QueryException;
import org.eclipse.persistence.expressions.Expression;
import org.eclipse.persistence.internal.core.sessions.CoreAbstractSession;
import org.eclipse.persistence.internal.descriptors.ObjectBuilder;
import org.eclipse.persistence.internal.helper.DatabaseField;
import org.eclipse.persistence.internal.identitymaps.CacheId;
import org.eclipse.persistence.internal.identitymaps.CacheKey;
import org.eclipse.persistence.internal.oxm.WeakObjectWrapper;
import org.eclipse.persistence.internal.oxm.mappings.Descriptor;
import org.eclipse.persistence.internal.oxm.mappings.Field;
import org.eclipse.persistence.internal.oxm.mappings.Mapping;
import org.eclipse.persistence.internal.oxm.record.AbstractMarshalRecord;
import org.eclipse.persistence.internal.queries.JoinedAttributeManager;
import org.eclipse.persistence.internal.sessions.AbstractRecord;
import org.eclipse.persistence.internal.sessions.AbstractSession;
import org.eclipse.persistence.mappings.AggregateObjectMapping;
import org.eclipse.persistence.mappings.DatabaseMapping;
import org.eclipse.persistence.mappings.ForeignReferenceMapping;
import org.eclipse.persistence.mappings.DatabaseMapping.WriteType;
import org.eclipse.persistence.mappings.foundation.AbstractDirectMapping;
import org.eclipse.persistence.oxm.NamespaceResolver;
import org.eclipse.persistence.oxm.XMLDescriptor;
import org.eclipse.persistence.oxm.XMLMarshaller;
import org.eclipse.persistence.oxm.XMLUnmarshaller;
import org.eclipse.persistence.oxm.record.DOMRecord;
import org.eclipse.persistence.oxm.record.XMLRecord;
import org.eclipse.persistence.oxm.documentpreservation.DocumentPreservationPolicy;
import org.eclipse.persistence.queries.FetchGroup;
import org.eclipse.persistence.queries.ObjectBuildingQuery;
import org.eclipse.persistence.sessions.SessionProfiler;
import org.w3c.dom.Document;
import org.w3c.dom.Element;
import org.w3c.dom.Node;

/**
 * INTERNAL:
 * 

Purpose: Object-to-XML specific ObjectBuilder.

* @author Rick Barkhouse - [email protected] * @since TopLink 10i, 03/31/2003 16:29:40 */ public class XMLObjectBuilder extends ObjectBuilder { private Boolean isXMLDescriptor; private boolean xsiTypeIndicatorField; /** * Create an XML object builder for the descriptor. */ public XMLObjectBuilder(ClassDescriptor descriptor) { super(descriptor); } /** * Build the nested row into the parent dom. */ public AbstractRecord buildRow(Object object, AbstractSession session, DatabaseField xmlField, XMLRecord parentRecord) { if (isXmlDescriptor() && ((Descriptor)getDescriptor()).shouldPreserveDocument()) { Object pk = extractPrimaryKeyFromObject(object, session); if ((pk == null) || (pk instanceof CacheId) && (((CacheId)pk).getPrimaryKey().length == 0)) { pk = new CacheId(new Object[]{ new WeakObjectWrapper(object) }); } CacheKey cacheKey = session.getIdentityMapAccessorInstance().getCacheKeyForObject(pk, getDescriptor().getJavaClass(), getDescriptor(), false); if ((cacheKey != null) && (cacheKey.getRecord() != null)) { XMLRecord nestedRecord = (XMLRecord)cacheKey.getRecord(); nestedRecord.setMarshaller(parentRecord.getMarshaller()); nestedRecord.setLeafElementType(parentRecord.getLeafElementType()); parentRecord.setLeafElementType((XPathQName)null); return buildIntoNestedRow(nestedRecord, object, session); } } Element newNode = XPathEngine.getInstance().createUnownedElement(parentRecord.getDOM(), (Field)xmlField); XMLRecord nestedRecord = new DOMRecord(newNode); nestedRecord.setNamespaceResolver(parentRecord.getNamespaceResolver()); nestedRecord.setMarshaller(parentRecord.getMarshaller()); nestedRecord.setLeafElementType(parentRecord.getLeafElementType()); parentRecord.setLeafElementType((XPathQName)null); return buildIntoNestedRow(nestedRecord, object, session); } /** * Create a new row/record for the object builder. * This allows subclasses to define different record types. */ public AbstractRecord createRecord(AbstractSession session) { return (AbstractRecord) createRecord(getDescriptor().getTableName(), session); } /** * Create a new row/record for the object builder. * This allows subclasses to define different record types. */ public AbstractRecord createRecord(int size, AbstractSession session) { return (AbstractRecord) createRecord(getDescriptor().getTableName(), session); } /** * Create a new row/record for the object builder with the given name. This * allows subclasses to define different record types. */ public AbstractMarshalRecord createRecord(String rootName, AbstractSession session) { NamespaceResolver namespaceResolver = getNamespaceResolver(); XMLRecord xmlRec = new DOMRecord(rootName, namespaceResolver); xmlRec.setSession(session); return xmlRec; } /** * Create a new row/record for the object builder with the given name and * namespace resolver instead of the namespace resolver from the descriptor. * This allows subclasses to define different record types. */ public AbstractRecord createRecord(String rootName, String rootUri, AbstractSession session) { XMLRecord xmlRec = new DOMRecord(rootName, rootUri); xmlRec.setSession(session); return xmlRec; } /** * Create a new row/record for the object builder with the given name. This * allows subclasses to define different record types. */ public AbstractMarshalRecord createRecord(String rootName, Node parent, AbstractSession session) { NamespaceResolver namespaceResolver = getNamespaceResolver(); XMLRecord xmlRec = new DOMRecord(rootName, namespaceResolver, parent); xmlRec.setSession(session); return xmlRec; } public AbstractRecord createRecordFor(Object attributeValue, Field xmlField, XMLRecord parentRecord, Mapping mapping) { DocumentPreservationPolicy policy = parentRecord.getDocPresPolicy(); Element newNode = null; if(policy != null) { newNode = (Element)policy.getNodeForObject(attributeValue); } if(newNode == null) { newNode = XPathEngine.getInstance().createUnownedElement(parentRecord.getDOM(), xmlField); if(policy !=null ){ if(xmlField.isSelfField()) { policy.addObjectToCache(attributeValue, newNode, mapping); } else { policy.addObjectToCache(attributeValue, newNode); } } } DOMRecord nestedRecord = new DOMRecord(newNode); nestedRecord.setMarshaller(parentRecord.getMarshaller()); nestedRecord.setLeafElementType(parentRecord.getLeafElementType()); parentRecord.setLeafElementType((XPathQName)null); nestedRecord.setDocPresPolicy(policy); nestedRecord.setXOPPackage(parentRecord.isXOPPackage()); nestedRecord.setReferenceResolver(((DOMRecord) parentRecord).getReferenceResolver()); return nestedRecord; } public AbstractRecord createRecordFor(Object object, DocumentPreservationPolicy docPresPolicy) { Element cachedNode = null; XMLRecord record = null; if(docPresPolicy != null) { cachedNode = (Element)docPresPolicy.getNodeForObject(object); } if(cachedNode == null) { record = new DOMRecord(getDescriptor().getTableName(), getNamespaceResolver()); docPresPolicy.addObjectToCache(object, record.getDOM()); } else { record = new DOMRecord(cachedNode); } record.setDocPresPolicy(docPresPolicy); return record; } public AbstractRecord createRecordFor(Object object, DocumentPreservationPolicy docPresPolicy, String rootName, String rootUri) { Element cachedNode = null; XMLRecord record = null; if(docPresPolicy != null) { cachedNode = (Element)docPresPolicy.getNodeForObject(object); } if(cachedNode == null) { record = new DOMRecord(rootName, rootUri); docPresPolicy.addObjectToCache(object, record.getDOM()); } else { record = new DOMRecord(cachedNode); } record.setDocPresPolicy(docPresPolicy); return record; } /** * Create a new row/record for the object builder. This allows subclasses to * define different record types. This will typically be called when a * record will be used for temporarily holding on to primary key fields. */ protected AbstractRecord createRecordForPKExtraction(int size, AbstractSession session) { NamespaceResolver namespaceResolver = getNamespaceResolver(); XMLRecord xmlRec = new DOMRecord(getDescriptor().getTableName(), namespaceResolver); xmlRec.setSession(session); return xmlRec; } /** * INTERNAL: Override the parent's buildObject to allow for the caching of * aggregate objects in OX. By caching aggregates along with XML Nodes that * they were created from, we are able to preserve the structure and * unmapped content of the document that was used to create these objects. */ @Override public Object buildObject(ObjectBuildingQuery query, AbstractRecord databaseRow, JoinedAttributeManager joinManager) throws DatabaseException, QueryException { XMLRecord row = (XMLRecord) databaseRow; row.setSession(query.getSession()); XMLUnmarshaller unmarshaller = row.getUnmarshaller(); Object parent = row.getOwningObject(); if (!(isXmlDescriptor() || getDescriptor().isDescriptorTypeAggregate())) { return super.buildObject(query, databaseRow, joinManager); } query.getSession().startOperationProfile(SessionProfiler.ObjectBuilding, query, SessionProfiler.ALL); ClassDescriptor concreteDescriptor = getDescriptor(); Object domainObject = null; // only need to check in the root case since the nested case is handled // in the mapping if (concreteDescriptor.hasInheritance() && (parent == null)) { // look for an xsi:type attribute in the xml document InheritancePolicy inheritancePolicy = concreteDescriptor.getInheritancePolicy(); Class classValue = inheritancePolicy.classFromRow(databaseRow, query.getSession()); if ((classValue == null) && isXmlDescriptor()) { // no xsi:type attribute - look for type indicator on the // default root element QName leafElementType = ((Descriptor) concreteDescriptor).getDefaultRootElementType(); // if we have a user-set type, try to get the class from the // inheritance policy if (leafElementType != null) { XPathQName xpathQName = new XPathQName(leafElementType, row.isNamespaceAware()); Object indicator = inheritancePolicy.getClassIndicatorMapping().get(xpathQName); if (indicator != null) { classValue = (Class) indicator; } } } // if we found the class, use it - otherwise, use the descriptor // class, if non-abstract if (classValue != null) { concreteDescriptor = query.getSession().getDescriptor(classValue); if ((concreteDescriptor == null) && query.hasPartialAttributeExpressions()) { concreteDescriptor = getDescriptor(); } if (concreteDescriptor == null) { throw QueryException.noDescriptorForClassFromInheritancePolicy(query, classValue); } } else { // make sure the class is non-abstract if (Modifier.isAbstract(concreteDescriptor.getJavaClass().getModifiers())) { // throw an exception throw DescriptorException.missingClassIndicatorField(databaseRow, inheritancePolicy.getDescriptor()); } } } domainObject = concreteDescriptor.getObjectBuilder().buildNewInstance(); row.setCurrentObject(domainObject); if ((unmarshaller != null) && (unmarshaller.getUnmarshalListener() != null)) { unmarshaller.getUnmarshalListener().beforeUnmarshal(domainObject, parent); } concreteDescriptor.getObjectBuilder().buildAttributesIntoObject(domainObject, null, databaseRow, query, joinManager, null, false, query.getSession()); if (isXmlDescriptor() && ((Descriptor) concreteDescriptor).getPrimaryKeyFieldNames().size() > 0) { Object pk = extractPrimaryKeyFromRow(databaseRow, query.getSession()); if ((pk != null) && (((CacheId) pk).getPrimaryKey().length > 0)) { DOMRecord domRecord = (DOMRecord) databaseRow; domRecord.getReferenceResolver().putValue(concreteDescriptor.getJavaClass(), pk, domainObject); } } DocumentPreservationPolicy docPresPolicy = ((DOMRecord) row).getDocPresPolicy(); if (docPresPolicy != null) { // EIS XML Cases won't have a doc pres policy set ((DOMRecord) row).getDocPresPolicy().addObjectToCache(domainObject, ((DOMRecord) row).getDOM()); } query.getSession().endOperationProfile(SessionProfiler.ObjectBuilding, query, SessionProfiler.ALL); if ((unmarshaller != null) && (unmarshaller.getUnmarshalListener() != null)) { unmarshaller.getUnmarshalListener().afterUnmarshal(domainObject, parent); } return domainObject; } public AbstractRecord buildRow(AbstractRecord databaseRow, Object object, AbstractSession session) { return buildRow(databaseRow, object, session, false); } public AbstractRecord buildRow(AbstractRecord databaseRow, Object object, AbstractSession session, boolean wasXMLRoot) { XMLRecord row = (XMLRecord)databaseRow; row.setSession(session); XMLMarshaller marshaller = row.getMarshaller(); if ((marshaller != null) && (marshaller.getMarshalListener() != null)) { marshaller.getMarshalListener().beforeMarshal(object); } addNamespaceDeclarations((row).getDocument()); writeOutMappings(row, object, session); // If this descriptor has multiple tables then we need to append the // primary keys for // the non default tables. if (!getDescriptor().isAggregateDescriptor()) { addPrimaryKeyForNonDefaultTable(row); } if ((marshaller != null) && (marshaller.getMarshalListener() != null)) { marshaller.getMarshalListener().afterMarshal(object); } return row; } public void writeOutMappings(XMLRecord row, Object object, AbstractSession session) { List mappings = getDescriptor().getMappings(); for (int index = 0; index < mappings.size(); index++) { DatabaseMapping mapping = mappings.get(index); mapping.writeFromObjectIntoRow(object, row, session, WriteType.UNDEFINED); } } public void addNamespaceDeclarations(Document document) { NamespaceResolver namespaceResolver = getNamespaceResolver(); if (namespaceResolver == null) { return; } Element docElement = document.getDocumentElement(); if(namespaceResolver.getDefaultNamespaceURI() != null) { docElement.setAttributeNS(javax.xml.XMLConstants.XMLNS_ATTRIBUTE_NS_URI, javax.xml.XMLConstants.XMLNS_ATTRIBUTE, namespaceResolver.getDefaultNamespaceURI()); } Enumeration prefixes = namespaceResolver.getPrefixes(); String prefix; String namespace; while (prefixes.hasMoreElements()) { prefix = (String)prefixes.nextElement(); namespace = namespaceResolver.resolveNamespacePrefix(prefix); docElement.setAttributeNS(javax.xml.XMLConstants.XMLNS_ATTRIBUTE_NS_URI, javax.xml.XMLConstants.XMLNS_ATTRIBUTE + Constants.COLON + prefix, namespace); } } /** * Override method in superclass in order to set the session on the record. * Each mapping is recursed to assign values from the Record to the attributes in the domain object. */ @Override public void buildAttributesIntoObject(Object domainObject, CacheKey cacheKey, AbstractRecord databaseRow, ObjectBuildingQuery query, JoinedAttributeManager joinManager, FetchGroup executionFetchGroup, boolean forRefresh, AbstractSession targetSession) throws DatabaseException { ((XMLRecord)databaseRow).setSession(query.getSession().getExecutionSession(query)); super.buildAttributesIntoObject(domainObject, cacheKey, databaseRow, query, joinManager, executionFetchGroup, forRefresh, targetSession); } /** * Override method in superclass in order to set the session on the record. * Return the row with primary keys and their values from the given expression. */ public AbstractRecord extractPrimaryKeyRowFromExpression(Expression expression, AbstractRecord translationRow, AbstractSession session) { AbstractRecord primaryKeyRow = createRecord(getPrimaryKeyMappings().size(), session); expression.getBuilder().setSession(session.getRootSession(null)); // Get all the field & values from expression boolean isValid = expression.extractPrimaryKeyValues(true, getDescriptor(), primaryKeyRow, translationRow); if (!isValid) { return null; } // Check that the sizes match up if (primaryKeyRow.size() != getDescriptor().getPrimaryKeyFields().size()) { return null; } return primaryKeyRow; } /** * Override method in superclass in order to set the session on the record. * Return the row with primary keys and their values from the given expression. */ @Override public Object extractPrimaryKeyFromExpression(boolean requiresExactMatch, Expression expression, AbstractRecord translationRow, AbstractSession session) { AbstractRecord primaryKeyRow = createRecord(getPrimaryKeyMappings().size(), session); expression.getBuilder().setSession(session.getRootSession(null)); // Get all the field & values from expression. boolean isValid = expression.extractPrimaryKeyValues(requiresExactMatch, getDescriptor(), primaryKeyRow, translationRow); if (requiresExactMatch && (!isValid)) { return null; } // Check that the sizes match. if (primaryKeyRow.size() != getDescriptor().getPrimaryKeyFields().size()) { return null; } return extractPrimaryKeyFromRow(primaryKeyRow, session); } @Override public Object extractPrimaryKeyFromObject(Object domainObject, AbstractSession session) { if (getDescriptor().hasInheritance() && (domainObject.getClass() != getDescriptor().getJavaClass()) && (!domainObject.getClass().getSuperclass().equals(getDescriptor().getJavaClass()))) { return session.getDescriptor(domainObject.getClass()).getObjectBuilder().extractPrimaryKeyFromObject(domainObject, session); } List descriptorPrimaryKeyFields = getDescriptor().getPrimaryKeyFields(); if (null == descriptorPrimaryKeyFields || descriptorPrimaryKeyFields.size() == 0) { return null; } return super.extractPrimaryKeyFromObject(domainObject, session); } public AbstractRecord buildIntoNestedRow(AbstractRecord row, Object object, AbstractSession session) { return buildIntoNestedRow(row, null, object, session, null, null, false); } public AbstractRecord buildIntoNestedRow(AbstractRecord row, Object object, AbstractSession session, Descriptor refDesc, Field xmlField) { return buildIntoNestedRow(row, null, object, session, refDesc, xmlField, false); } public AbstractRecord buildIntoNestedRow(AbstractRecord row, Object originalObject, Object object, AbstractSession session, Descriptor refDesc, Field xmlField, boolean wasXMLRoot) { // PERF: Avoid synchronized enumerator as is concurrency bottleneck. XMLRecord record = (XMLRecord)row; record.setSession(session); XMLMarshaller marshaller = record.getMarshaller(); if ((marshaller != null) && (marshaller.getMarshalListener() != null)) { marshaller.getMarshalListener().beforeMarshal(object); } List extraNamespaces = null; if (isXmlDescriptor()) { Descriptor xmlDescriptor = (Descriptor)getDescriptor(); extraNamespaces = addExtraNamespacesToNamespaceResolver(xmlDescriptor, record, session, false, false); writeExtraNamespaces(extraNamespaces, record); record.addXsiTypeAndClassIndicatorIfRequired(xmlDescriptor, refDesc, xmlField, originalObject, object, wasXMLRoot, false); } writeOutMappings(record, object, session); // If this descriptor is involved in inheritance add the class type. if (isXmlDescriptor()) { record.removeExtraNamespacesFromNamespaceResolver(extraNamespaces, session); } // If this descriptor has multiple tables then we need to append the // primary keys for // the non default tables. if (!getDescriptor().isAggregateDescriptor()) { addPrimaryKeyForNonDefaultTable(row); } if ((marshaller != null) && (marshaller.getMarshalListener() != null)) { marshaller.getMarshalListener().afterMarshal(object); } return row; } public NamespaceResolver getNamespaceResolver() { NamespaceResolver namespaceResolver = null; if (isXmlDescriptor()) { namespaceResolver = ((XMLDescriptor)getDescriptor()).getNamespaceResolver(); } else if (getDescriptor() instanceof org.eclipse.persistence.eis.EISDescriptor) { namespaceResolver = ((org.eclipse.persistence.eis.EISDescriptor)getDescriptor()).getNamespaceResolver(); } return namespaceResolver; } /** * Indicates if the object builder's descriptor is an XMLDescriptor. * The value is lazily initialized. * * @return */ protected boolean isXmlDescriptor() { if (isXMLDescriptor == null) { isXMLDescriptor = getDescriptor() instanceof Descriptor; } return isXMLDescriptor.booleanValue(); } /** * Set the descriptor. This method is overridden so the * isXMLDescriptor Boolean can be reset. */ public void setDescriptor(ClassDescriptor aDescriptor) { super.setDescriptor(aDescriptor); isXMLDescriptor = null; } protected List addExtraNamespacesToNamespaceResolver(Descriptor desc, AbstractMarshalRecord marshalRecord, CoreAbstractSession session, boolean allowOverride, boolean ignoreEqualResolvers) { return marshalRecord.addExtraNamespacesToNamespaceResolver(desc, session, allowOverride, ignoreEqualResolvers); } public void writeExtraNamespaces(List extraNamespaces, XMLRecord xmlRecord) { if(extraNamespaces == null){ return; } if(xmlRecord.getDOM().getNodeType() != Node.ELEMENT_NODE) { return; } for (int i = 0; i < extraNamespaces.size(); i++) { Namespace next = (Namespace)extraNamespaces.get(i); ((Element)xmlRecord.getDOM()).setAttributeNS(javax.xml.XMLConstants.XMLNS_ATTRIBUTE_NS_URI, javax.xml.XMLConstants.XMLNS_ATTRIBUTE + Constants.COLON + next.getPrefix(), next.getNamespaceURI()); } } public void initialize(AbstractSession session) throws DescriptorException { mappingsByField.clear(); if(null != readOnlyMappingsByField) { readOnlyMappingsByField.clear(); } if(null != mappingsByAttribute) { mappingsByAttribute.clear(); } cloningMappings.clear(); if(null != eagerMappings) { eagerMappings.clear(); } if(null != relationshipMappings) { relationshipMappings.clear(); } for (Enumeration mappings = this.descriptor.getMappings().elements(); mappings.hasMoreElements();) { DatabaseMapping mapping = (DatabaseMapping)mappings.nextElement(); // Add attribute to mapping association if (!mapping.isWriteOnly()) { if(mappingsByAttribute != null) { getMappingsByAttribute().put(mapping.getAttributeName(), mapping); } } // Cache mappings that require cloning. if (mapping.isCloningRequired()) { getCloningMappings().add(mapping); } // Cache eager mappings. if (mapping.isForeignReferenceMapping() && ((ForeignReferenceMapping)mapping).usesIndirection() && (!mapping.isLazy())) { getEagerMappings().add(mapping); } // Cache relationship mappings. if (!mapping.isDirectToFieldMapping()) { if(null != relationshipMappings) { relationshipMappings.add(mapping); } } // Add field to mapping association for (DatabaseField field : mapping.getFields()) { if (mapping.isReadOnly()) { if(null != readOnlyMappingsByField) { List readOnlyMappings = getReadOnlyMappingsByField().get(field); if (readOnlyMappings == null) { readOnlyMappings = new ArrayList(); getReadOnlyMappingsByField().put(field, readOnlyMappings); } readOnlyMappings.add(mapping); } } else { if (mapping.isAggregateObjectMapping()) { // For Embeddable class, we need to test read-only // status of individual fields in the embeddable. ObjectBuilder aggregateObjectBuilder = ((AggregateObjectMapping)mapping).getReferenceDescriptor().getObjectBuilder(); // Look in the non-read-only fields mapping DatabaseMapping aggregatedFieldMapping = aggregateObjectBuilder.getMappingForField(field); if (aggregatedFieldMapping == null) { // mapping must be read-only List readOnlyMappings = getReadOnlyMappingsByField().get(field); if (readOnlyMappings == null) { readOnlyMappings = new ArrayList(); getReadOnlyMappingsByField().put(field, readOnlyMappings); } readOnlyMappings.add(mapping); } else { getMappingsByField().put(field, mapping); } } else { // Not an embeddable mapping if (!getMappingsByField().containsKey(field)) { getMappingsByField().put(field, mapping); } } } } } this.isSimple = null == relationshipMappings || relationshipMappings.isEmpty(); initializePrimaryKey(session); initializeJoinedAttributes(); if (this.descriptor.usesSequenceNumbers()) { DatabaseMapping sequenceMapping = getMappingForField(this.descriptor.getSequenceNumberField()); if ((sequenceMapping != null) && sequenceMapping.isDirectToFieldMapping()) { setSequenceMapping((AbstractDirectMapping)sequenceMapping); } } if (descriptor.hasInheritance() ) { Field indicatorField = (Field) descriptor.getInheritancePolicy().getClassIndicatorField(); if(indicatorField != null){ if (indicatorField.getLastXPathFragment().getNamespaceURI() != null && indicatorField.getLastXPathFragment().getNamespaceURI().equals(javax.xml.XMLConstants.W3C_XML_SCHEMA_INSTANCE_NS_URI) && indicatorField.getLastXPathFragment().getLocalName().equals(Constants.SCHEMA_TYPE_ATTRIBUTE)){ xsiTypeIndicatorField = true; } } } } public boolean isXMLObjectBuilder() { return true; } public boolean isXsiTypeIndicatorField() { return xsiTypeIndicatorField; } }




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