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/*
 * Copyright (c) 1998, 2021 Oracle and/or its affiliates. All rights reserved.
 *
 * This program and the accompanying materials are made available under the
 * terms of the Eclipse Public License v. 2.0 which is available at
 * http://www.eclipse.org/legal/epl-2.0,
 * or the Eclipse Distribution License v. 1.0 which is available at
 * http://www.eclipse.org/org/documents/edl-v10.php.
 *
 * SPDX-License-Identifier: EPL-2.0 OR BSD-3-Clause
 */

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

import java.lang.reflect.Modifier;
import java.util.Enumeration;
import java.util.Vector;

import javax.xml.namespace.QName;

import org.eclipse.persistence.descriptors.ClassDescriptor;
import org.eclipse.persistence.exceptions.DatabaseException;
import org.eclipse.persistence.exceptions.DescriptorException;
import org.eclipse.persistence.exceptions.XMLMarshalException;
import org.eclipse.persistence.internal.helper.DatabaseField;
import org.eclipse.persistence.internal.identitymaps.CacheKey;
import org.eclipse.persistence.internal.oxm.ConversionManager;
import org.eclipse.persistence.internal.oxm.XMLObjectBuilder;
import org.eclipse.persistence.internal.oxm.XPathEngine;
import org.eclipse.persistence.internal.oxm.XPathFragment;
import org.eclipse.persistence.internal.oxm.XPathQName;
import org.eclipse.persistence.internal.oxm.mappings.CompositeCollectionMapping;
import org.eclipse.persistence.internal.oxm.mappings.Mapping;
import org.eclipse.persistence.internal.oxm.mappings.XMLContainerMapping;
import org.eclipse.persistence.internal.queries.ContainerPolicy;
import org.eclipse.persistence.internal.queries.JoinedAttributeManager;
import org.eclipse.persistence.internal.queries.MapContainerPolicy;
import org.eclipse.persistence.internal.sessions.AbstractRecord;
import org.eclipse.persistence.internal.sessions.AbstractSession;
import org.eclipse.persistence.mappings.AttributeAccessor;
import org.eclipse.persistence.mappings.converters.Converter;
import org.eclipse.persistence.mappings.foundation.AbstractCompositeCollectionMapping;
import org.eclipse.persistence.oxm.XMLConstants;
import org.eclipse.persistence.oxm.XMLContext;
import org.eclipse.persistence.oxm.XMLDescriptor;
import org.eclipse.persistence.oxm.XMLField;
import org.eclipse.persistence.oxm.XMLMarshaller;
import org.eclipse.persistence.oxm.XMLUnmarshaller;
import org.eclipse.persistence.oxm.mappings.converters.XMLConverter;
import org.eclipse.persistence.oxm.mappings.nullpolicy.AbstractNullPolicy;
import org.eclipse.persistence.oxm.mappings.nullpolicy.NullPolicy;
import org.eclipse.persistence.oxm.mappings.nullpolicy.XMLNullRepresentationType;
import org.eclipse.persistence.oxm.record.DOMRecord;
import org.eclipse.persistence.oxm.record.XMLRecord;
import org.eclipse.persistence.platform.xml.XMLPlatformFactory;
import org.eclipse.persistence.queries.ObjectBuildingQuery;
import org.eclipse.persistence.sessions.Session;
import org.w3c.dom.Element;
import org.w3c.dom.Node;
import org.w3c.dom.NodeList;
import org.w3c.dom.Text;

/**
 * 

Composite collection XML mappings map an attribute that contains a homogeneous collection of objects * to multiple XML elements. Use composite collection XML mappings to represent one-to-many relationships. * Composite collection XML mappings can reference any class that has a TopLink descriptor. The attribute in * the object mapped must implement either the Java Collection interface (for example, Vector or HashSet) * or Map interface (for example, Hashtable or TreeMap). The CompositeCollectionMapping class * allows a reference to the mapped class and the indexing type for that class. This mapping is, by * definition, privately owned. * *

Setting the XPath: TopLink XML mappings make use of XPath statements to find the relevant * data in an XML document. The XPath statement is relative to the context node specified in the descriptor. * The XPath may contain path and positional information; the last node in the XPath forms the local * root node for the composite object. The XPath is specified on the mapping using the setXPath * method. * *

The following XPath statements may be used to specify the location of XML data relating to an object's * name attribute: * *

* * * * * * * * * * * * * * * * * *
XPath statements
XPathDescription
phone-numberThe phone number information is stored in the phone-number element.
contact-info/phone-numberThe XPath statement may be used to specify any valid path.
phone-number[2]The XPath statement may contain positional information. In this case the phone * number information is stored in the second occurrence of the phone-number element.
* *

Mapping a Composite Collection: * * * *

XML Schema
* * <?xml version="1.0" encoding="UTF-8"?>
* <xsd:schema xmlns:xsd="http://www.w3.org/2001/XMLSchema">
*   <xsd:element name="customer" type="customer-type"/>
*   <xsd:complexType name="customer-type">
*     <xsd:sequence>
*       <xsd:element name="first-name" type="xsd:string"/>
*       <xsd:element name="last-name" type="xsd:string"/>
*       <xsd:element name="phone-number">
*         <xsd:complexType>
*           <xsd:sequence>
*             <xsd:element name="number" type="xsd:string"/>
*           </xsd:sequence>
*           <xsd:attribute name="type" type="xsd:string"/>
*         </xsd:complexType>
*       </xsd:element>
*     </xsd:sequence>
*   </xsd:complexType>
* </xsd:schema>
*
* *

Code Sample
* * XMLCompositeCollectionMapping phoneNumbersMapping = new XMLCompositeCollectionMapping();
* phoneNumbersMapping.setAttributeName("phoneNumbers");
* phoneNumbersMapping.setXPath("phone-number");
* phoneNumbersMapping.setReferenceClass(PhoneNumber.class);
*
* *

More Information: For more information about using the XML Composite Collection Mapping, see the * "Understanding XML Mappings" chapter of the Oracle TopLink Developer's Guide. * * @since Oracle TopLink 10g Release 2 (10.1.3) */ public class XMLCompositeCollectionMapping extends AbstractCompositeCollectionMapping implements CompositeCollectionMapping, XMLMapping, XMLNillableMapping { AbstractNullPolicy nullPolicy; private AbstractNullPolicy wrapperNullPolicy; private UnmarshalKeepAsElementPolicy keepAsElementPolicy; private XMLInverseReferenceMapping inverseReferenceMapping; private boolean defaultEmptyContainer = XMLContainerMapping.EMPTY_CONTAINER_DEFAULT; private boolean isWriteOnly; private boolean reuseContainer = false; public XMLCompositeCollectionMapping() { super(); // The default policy is NullPolicy nullPolicy = new NullPolicy(); } /** * Gets the AttributeAccessor that is used to get and set the value of the * container on the target object. * @deprecated Replaced by getInverseReferenceMapping().getAttributeAccessor() */ @Deprecated public AttributeAccessor getContainerAccessor() { if (this.inverseReferenceMapping == null) { return null; } return this.inverseReferenceMapping.getAttributeAccessor(); } /** * Sets the AttributeAccessor that is used to get and set the value of the * container on the target object. * * @param anAttributeAccessor - the accessor to be used. * @deprecated Replaced by getInverseReferenceMapping().setAttributeAccessor() */ @Deprecated public void setContainerAccessor(AttributeAccessor anAttributeAccessor) { if (this.inverseReferenceMapping == null) { return; } this.inverseReferenceMapping.setAttributeAccessor(anAttributeAccessor); } /** * Sets the name of the backpointer attribute on the target object. Used to * populate the backpointer. If the specified attribute doesn't exist on the * reference class of this mapping, a DescriptorException will be thrown * during initialize. * * @param attributeName - the name of the backpointer attribute to be populated * @deprecated Replaced by getInverseReferenceMapping().setAttributeName() */ @Deprecated public void setContainerAttributeName(String attributeName) { if (this.inverseReferenceMapping == null) { return; } this.inverseReferenceMapping.setAttributeName(attributeName); } /** * Gets the name of the backpointer attribute on the target object. * @deprecated Replaced by getInverseReferenceMapping().getAttributeName() */ @Deprecated public String getContainerAttributeName() { if (this.inverseReferenceMapping == null) { return null; } return this.inverseReferenceMapping.getAttributeName(); } /** * Sets the method name to be used when accessing the value of the back pointer * on the target object of this mapping. If the specified method isn't declared * on the reference class of this mapping, a DescriptorException will be thrown * during initialize. * * @param methodName - the name of the getter method to be used. * @deprecated Replaced by getInverseReferenceMapping().setGetMethodName() */ @Deprecated public void setContainerGetMethodName(String methodName) { if (this.inverseReferenceMapping == null) { return; } this.inverseReferenceMapping.setGetMethodName(methodName); } /** * Gets the name of the method to be used when accessing the value of the * back pointer on the target object of this mapping. * @deprecated Replaced by getInverseReferenceMapping().getGetMethodName() */ @Deprecated public String getContainerGetMethodName() { if (this.inverseReferenceMapping == null) { return null; } return this.inverseReferenceMapping.getGetMethodName(); } /** * Gets the name of the method to be used when setting the value of the * back pointer on the target object of this mapping. * @deprecated Replaced by getInverseReferenceMapping().getSetMethodName() */ @Deprecated public String getContainerSetMethodName() { if (this.inverseReferenceMapping == null) { return null; } return this.inverseReferenceMapping.getSetMethodName(); } /** * Sets the name of the method to be used when setting the value of the back pointer * on the target object of this mapping. If the specified method isn't declared on * the reference class of this mapping, a DescriptorException will be * raised during initialize. * * @param methodName - the name of the setter method to be used. * @deprecated Replaced by getInverseReferenceMapping().setSetMethodName() */ @Deprecated public void setContainerSetMethodName(String methodName) { if (this.inverseReferenceMapping == null) { return; } this.inverseReferenceMapping.setSetMethodName(methodName); } /** * INTERNAL: */ @Override public boolean isXMLMapping() { return true; } @Override public void convertClassNamesToClasses(ClassLoader classLoader){ if(XMLConstants.UNKNOWN_OR_TRANSIENT_CLASS.equals(referenceClassName)){ return; } super.convertClassNamesToClasses(classLoader); } /** * INTERNAL: * The mapping is initialized with the given session. This mapping is fully initialized * after this. */ @Override public void initialize(AbstractSession session) throws DescriptorException { //modified so that reference class on composite mappings is no longer mandatory String referenceClassName = getReferenceClassName(); if (this.referenceClass == null && referenceClassName != null) { if (!referenceClassName.equals(XMLConstants.UNKNOWN_OR_TRANSIENT_CLASS)) { setReferenceClass(session.getDatasourcePlatform().getConversionManager().convertClassNameToClass(referenceClassName)); } } initializeReferenceDescriptorAndField(session); ContainerPolicy cp = getContainerPolicy(); if (cp != null) { if (cp.getContainerClass() == null) { Class cls = session.getDatasourcePlatform().getConversionManager().convertClassNameToClass(cp.getContainerClassName()); cp.setContainerClass(cls); } if (cp instanceof MapContainerPolicy) { initializeMapContainerPolicy(session, (MapContainerPolicy)cp); } } if(null != getContainerAccessor()) { getContainerAccessor().initializeAttributes(this.referenceClass); } } protected void initializeMapContainerPolicy(AbstractSession session, MapContainerPolicy cp){ cp.setElementClass(this.referenceClass); } protected void initializeReferenceDescriptorAndField(AbstractSession session){ if (this.referenceClass != null) { super.initialize(session); } else { //below should be the same as AbstractCompositeCollectionMapping.initialize if (this.field == null) { throw DescriptorException.fieldNameNotSetInMapping(this); } setField(getDescriptor().buildField(this.field)); setFields(collectFields()); if (hasConverter()) { getConverter().initialize(this, session); } } } /** * Get the XPath String * @return String the XPath String associated with this Mapping * */ public String getXPath() { return getField().getName(); } /** * Set the Mapping field name attribute to the given XPath String * * @param xpathString String * */ @Override public void setXPath(String xpathString) { this.setField(new XMLField(xpathString)); } @Override protected Object buildCompositeObject(ClassDescriptor descriptor, AbstractRecord nestedRow, ObjectBuildingQuery query, CacheKey parentCacheKey, JoinedAttributeManager joinManger, AbstractSession targetSession) { return descriptor.getObjectBuilder().buildObject(query, nestedRow, joinManger); } @Override protected AbstractRecord buildCompositeRow(Object attributeValue, AbstractSession session, AbstractRecord parentRow, WriteType writeType) { ClassDescriptor classDesc = null; try{ classDesc = getReferenceDescriptor(attributeValue, session); }catch(Exception e){ //do nothing } XMLField xmlFld = (XMLField) getField(); if (xmlFld.hasLastXPathFragment() && xmlFld.getLastXPathFragment().hasLeafElementType()) { XMLRecord xmlRec = (XMLRecord) parentRow; xmlRec.setLeafElementType(xmlFld.getLastXPathFragment().getLeafElementType()); } XMLRecord parent = (XMLRecord) parentRow; if (classDesc != null) { return buildCompositeRowForDescriptor(classDesc, attributeValue, session, parent, writeType); } else { if (attributeValue instanceof Element && getKeepAsElementPolicy() == UnmarshalKeepAsElementPolicy.KEEP_UNKNOWN_AS_ELEMENT) { return new DOMRecord((Element) attributeValue); }else{ Node newNode = XPathEngine.getInstance().create((XMLField)getField(), parent.getDOM(), attributeValue, session); DOMRecord newRow = new DOMRecord(newNode); return newRow; } } } protected AbstractRecord buildCompositeRowForDescriptor(ClassDescriptor classDesc, Object attributeValue, AbstractSession session, XMLRecord parentRow, WriteType writeType) { XMLObjectBuilder objectBuilder = (XMLObjectBuilder) classDesc.getObjectBuilder(); XMLRecord child = (XMLRecord) objectBuilder.createRecordFor(attributeValue, (XMLField) getField(), parentRow, this); child.setNamespaceResolver(parentRow.getNamespaceResolver()); child.setSession(session); objectBuilder.buildIntoNestedRow(child, attributeValue, session, (XMLDescriptor)getReferenceDescriptor(), (XMLField) getField()); return child; } /** * INTERNAL: */ @Override public void writeFromObjectIntoRow(Object object, AbstractRecord row, AbstractSession session, WriteType writeType) throws DescriptorException { if (this.isReadOnly()) { return; } Object attributeValue = this.getAttributeValueFromObject(object); if (attributeValue == null) { row.put(this.getField(), null); return; } ContainerPolicy cp = this.getContainerPolicy(); Vector nestedRows = new Vector(cp.sizeFor(attributeValue)); Object iter = cp.iteratorFor(attributeValue); if(null != iter) { while(cp.hasNext(iter)) { Object element = cp.next(iter, session); // convert the value - if necessary element = convertObjectValueToDataValue(element, session, ((XMLRecord) row).getMarshaller()); if(element == null) { XMLNullRepresentationType nullRepresentation = getNullPolicy().getMarshalNullRepresentation(); if(nullRepresentation == XMLNullRepresentationType.XSI_NIL) { nestedRows.add(XMLRecord.NIL); } else if(nullRepresentation == XMLNullRepresentationType.EMPTY_NODE) { Node emptyNode = XPathEngine.getInstance().createUnownedElement(((XMLRecord)row).getDOM(), (XMLField)field); DOMRecord nestedRow = new DOMRecord(emptyNode); nestedRows.add(nestedRow); } } else { nestedRows.addElement(buildCompositeRow(element, session, row, writeType)); } } } Object fieldValue = null; if (!nestedRows.isEmpty()) { fieldValue = this.getDescriptor().buildFieldValueFromNestedRows(nestedRows, getStructureName(), session); } row.put(this.getField(), fieldValue); } @Override public Object valueFromRow(AbstractRecord row, JoinedAttributeManager joinManager, ObjectBuildingQuery sourceQuery, CacheKey cacheKey, AbstractSession executionSession, boolean isTargetProtected, Boolean[] wasCacheUsed) throws DatabaseException { ContainerPolicy cp = this.getContainerPolicy(); Object fieldValue = row.getValues(this.getField()); // BUG#2667762 there could be whitespace in the row instead of null if ((fieldValue == null) || (fieldValue instanceof String)) { if (reuseContainer) { Object currentObject = ((XMLRecord) row).getCurrentObject(); Object container = getAttributeAccessor().getAttributeValueFromObject(currentObject); return container != null ? container : cp.containerInstance(); } else { return cp.containerInstance(); } } Vector nestedRows = this.getDescriptor().buildNestedRowsFromFieldValue(fieldValue, executionSession); if (nestedRows == null) { if (reuseContainer) { Object currentObject = ((XMLRecord) row).getCurrentObject(); Object container = getAttributeAccessor().getAttributeValueFromObject(currentObject); return container != null ? container : cp.containerInstance(); } else { return cp.containerInstance(); } } Object result = null; if (reuseContainer) { Object currentObject = ((XMLRecord) row).getCurrentObject(); Object container = getAttributeAccessor().getAttributeValueFromObject(currentObject); result = container != null ? container : cp.containerInstance(); } else { result = cp.containerInstance(nestedRows.size()); } for (Enumeration stream = nestedRows.elements(); stream.hasMoreElements();) { XMLRecord nestedRow = (XMLRecord) stream.nextElement(); Object objectToAdd; if (getNullPolicy().valueIsNull((Element) nestedRow.getDOM())) { objectToAdd = null; } else { objectToAdd = buildObjectFromNestedRow(nestedRow, joinManager, sourceQuery, executionSession, isTargetProtected); } cp.addInto(objectToAdd, result, sourceQuery.getSession()); if(null != getContainerAccessor()) { Object currentObject = ((XMLRecord)row).getCurrentObject(); if(this.inverseReferenceMapping.getContainerPolicy() == null) { getContainerAccessor().setAttributeValueInObject(objectToAdd, currentObject); } else { Object backpointerContainer = getContainerAccessor().getAttributeValueFromObject(objectToAdd); if(backpointerContainer == null) { backpointerContainer = this.inverseReferenceMapping.getContainerPolicy().containerInstance(); getContainerAccessor().setAttributeValueInObject(objectToAdd, backpointerContainer); } this.inverseReferenceMapping.getContainerPolicy().addInto(currentObject, backpointerContainer, executionSession); } } } return result; } public Object buildObjectFromNestedRow(AbstractRecord nestedRow, JoinedAttributeManager joinManager, ObjectBuildingQuery sourceQuery, AbstractSession executionSession, boolean isTargetProtected) { Object objectToAdd = null; ClassDescriptor aDescriptor = getReferenceDescriptor((DOMRecord) nestedRow); if(aDescriptor == null){ if ((getKeepAsElementPolicy() == UnmarshalKeepAsElementPolicy.KEEP_UNKNOWN_AS_ELEMENT) || (getKeepAsElementPolicy() == UnmarshalKeepAsElementPolicy.KEEP_ALL_AS_ELEMENT)) { XMLPlatformFactory.getInstance().getXMLPlatform().namespaceQualifyFragment((Element) ((DOMRecord)nestedRow).getDOM()); objectToAdd = ((DOMRecord)nestedRow).getDOM(); convertDataValueToObjectValue(objectToAdd, executionSession, ((XMLRecord) nestedRow).getUnmarshaller()); //simple case objectToAdd = convertToSimpleTypeIfPresent(objectToAdd, nestedRow,executionSession); } else { NodeList children = ((DOMRecord)nestedRow).getDOM().getChildNodes(); for(int i=0; i< children.getLength(); i++){ Node nextNode = children.item(i); if(nextNode.getNodeType() == nextNode.ELEMENT_NODE){ //complex child String type = ((Element) ((DOMRecord)nestedRow).getDOM()).getAttributeNS(javax.xml.XMLConstants.W3C_XML_SCHEMA_INSTANCE_NS_URI, XMLConstants.SCHEMA_TYPE_ATTRIBUTE); if(type != null && type.length() > 0) { throw XMLMarshalException.unknownXsiTypeValue(type, (Mapping) this); } else { throw XMLMarshalException.noDescriptorFound((Mapping) this); } } } //simple case objectToAdd = convertToSimpleTypeIfPresent(objectToAdd, nestedRow,executionSession); } } else{ if (aDescriptor.hasInheritance()) { Class newElementClass = aDescriptor.getInheritancePolicy().classFromRow(nestedRow, executionSession); if (newElementClass == null) { // no xsi:type attribute - look for type indicator on the field QName leafElementType = ((XMLField) getField()).getLeafElementType(); if (leafElementType != null) { XPathQName leafElementXPathQName = new XPathQName(leafElementType, ((XMLRecord) nestedRow).isNamespaceAware()); Object indicator = aDescriptor.getInheritancePolicy().getClassIndicatorMapping().get(leafElementXPathQName); if(indicator != null) { newElementClass = (Class) indicator; } } } if (newElementClass != null) { aDescriptor = this.getReferenceDescriptor(newElementClass, executionSession); } else { // since there is no xsi:type attribute or leaf element type set, // use the reference descriptor - make sure it is non-abstract if (Modifier.isAbstract(aDescriptor.getJavaClass().getModifiers())) { // throw an exception throw DescriptorException.missingClassIndicatorField(nestedRow, aDescriptor.getInheritancePolicy().getDescriptor()); } } } //Object element objectToAdd = buildCompositeObject(aDescriptor, nestedRow, sourceQuery, null, joinManager, executionSession); objectToAdd = convertDataValueToObjectValue(objectToAdd, executionSession, ((XMLRecord) nestedRow).getUnmarshaller()); } return objectToAdd; } private Object convertToSimpleTypeIfPresent(Object objectToAdd, AbstractRecord nestedRow, AbstractSession executionSession){ String stringValue = null; Element theElement = ((Element) ((DOMRecord)nestedRow).getDOM()); Node textchild = theElement.getFirstChild(); if ((textchild != null) && (textchild.getNodeType() == Node.TEXT_NODE)) { stringValue = textchild.getNodeValue(); if(stringValue != null && getKeepAsElementPolicy() != UnmarshalKeepAsElementPolicy.KEEP_UNKNOWN_AS_ELEMENT && getKeepAsElementPolicy()!=UnmarshalKeepAsElementPolicy.KEEP_ALL_AS_ELEMENT){ objectToAdd = stringValue; } } if ((stringValue == null) || stringValue.length() == 0 ) { return objectToAdd; } String type = theElement.getAttributeNS(javax.xml.XMLConstants.W3C_XML_SCHEMA_INSTANCE_NS_URI, XMLConstants.SCHEMA_TYPE_ATTRIBUTE); if ((null != type) && type.length() > 0) { XPathFragment typeFragment = new XPathFragment(type); String namespaceURI = ((DOMRecord)nestedRow).resolveNamespacePrefix(typeFragment.getPrefix()); typeFragment.setNamespaceURI(namespaceURI); QName schemaTypeQName = new QName(namespaceURI, typeFragment.getLocalName()); ConversionManager conversionManager = (ConversionManager) executionSession.getDatasourcePlatform().getConversionManager(); Class theClass = conversionManager.javaType(schemaTypeQName); if (theClass != null) { objectToAdd = conversionManager.convertObject(stringValue, theClass, schemaTypeQName); } } return objectToAdd; } public ClassDescriptor getReferenceDescriptor(DOMRecord xmlRecord) { ClassDescriptor returnDescriptor = referenceDescriptor; if (returnDescriptor == null) { // Try to find a descriptor based on the schema type String type = ((Element) xmlRecord.getDOM()).getAttributeNS(javax.xml.XMLConstants.W3C_XML_SCHEMA_INSTANCE_NS_URI, XMLConstants.SCHEMA_TYPE_ATTRIBUTE); if ((null != type) && type.length() >0 ) { XPathFragment typeFragment = new XPathFragment(type); String namespaceURI = xmlRecord.resolveNamespacePrefix(typeFragment.getPrefix()); typeFragment.setNamespaceURI(namespaceURI); returnDescriptor = xmlRecord.getUnmarshaller().getXMLContext().getDescriptorByGlobalType(typeFragment); } else { //try leaf element type QName leafType = ((XMLField) getField()).getLastXPathFragment().getLeafElementType(); if (leafType != null) { XPathFragment frag = new XPathFragment(); String xpath = leafType.getLocalPart(); String uri = leafType.getNamespaceURI(); if ((uri != null) && uri.length() > 0) { frag.setNamespaceURI(uri); String prefix = ((XMLDescriptor) getDescriptor()).getNonNullNamespaceResolver().resolveNamespaceURI(uri); if ((prefix != null) && prefix.length() > 0) { xpath = prefix + XMLConstants.COLON + xpath; } } frag.setXPath(xpath); returnDescriptor = xmlRecord.getUnmarshaller().getXMLContext().getDescriptorByGlobalType(frag); } } } return returnDescriptor; } @Override protected ClassDescriptor getReferenceDescriptor(Class theClass, AbstractSession session) { if ((getReferenceDescriptor() != null) && getReferenceDescriptor().getJavaClass().equals(theClass)) { return getReferenceDescriptor(); } ClassDescriptor subDescriptor = session.getDescriptor(theClass); if (subDescriptor == null && getKeepAsElementPolicy() != UnmarshalKeepAsElementPolicy.KEEP_UNKNOWN_AS_ELEMENT) { throw DescriptorException.noSubClassMatch(theClass, this); } else { return subDescriptor; } } @Override public void writeSingleValue(Object value, Object parent, XMLRecord record, AbstractSession session) { Object element = convertObjectValueToDataValue(value, session, record.getMarshaller()); XMLRecord nestedRow = (XMLRecord) buildCompositeRow(element, session, record, WriteType.UNDEFINED); record.add(getField(), nestedRow); } /** * Set the AbstractNullPolicy on the mapping
* The default policy is NullPolicy.
* * @param aNullPolicy */ @Override public void setNullPolicy(AbstractNullPolicy aNullPolicy) { nullPolicy = aNullPolicy; } /** * INTERNAL: * Get the AbstractNullPolicy from the Mapping.
* The default policy is NullPolicy.
* @return */ @Override public AbstractNullPolicy getNullPolicy() { return nullPolicy; } @Override public UnmarshalKeepAsElementPolicy getKeepAsElementPolicy() { return keepAsElementPolicy; } @Override public void setKeepAsElementPolicy(UnmarshalKeepAsElementPolicy keepAsElementPolicy) { this.keepAsElementPolicy = keepAsElementPolicy; } protected XMLDescriptor getDescriptor(XMLRecord xmlRecord, AbstractSession session, QName rootQName) throws XMLMarshalException { if (rootQName == null) { rootQName = new QName(xmlRecord.getNamespaceURI(), xmlRecord.getLocalName()); } XMLContext xmlContext = xmlRecord.getUnmarshaller().getXMLContext(); XMLDescriptor xmlDescriptor = xmlContext.getDescriptor(rootQName); if (null == xmlDescriptor) { if (!((getKeepAsElementPolicy() == UnmarshalKeepAsElementPolicy.KEEP_UNKNOWN_AS_ELEMENT) || (getKeepAsElementPolicy() == UnmarshalKeepAsElementPolicy.KEEP_ALL_AS_ELEMENT))) { throw XMLMarshalException.noDescriptorWithMatchingRootElement(xmlRecord.getLocalName()); } } return xmlDescriptor; } @Override public boolean isWriteOnly() { return this.isWriteOnly; } @Override public void setIsWriteOnly(boolean b) { this.isWriteOnly = b; } @Override public void preInitialize(AbstractSession session) throws DescriptorException { getAttributeAccessor().setIsWriteOnly(this.isWriteOnly()); getAttributeAccessor().setIsReadOnly(this.isReadOnly()); super.preInitialize(session); } @Override public void setAttributeValueInObject(Object object, Object value) throws DescriptorException { if(isWriteOnly()) { return; } super.setAttributeValueInObject(object, value); } /** * Return true if the original container on the object should be used if * present. If it is not present then the container policy will be used to * create the container. */ @Override public boolean getReuseContainer() { return reuseContainer; } /** * Specify whether the original container on the object should be used if * present. If it is not present then the container policy will be used to * create the container. */ @Override public void setReuseContainer(boolean reuseContainer) { this.reuseContainer = reuseContainer; } @Override public XMLInverseReferenceMapping getInverseReferenceMapping() { return inverseReferenceMapping; } void setInverseReferenceMapping(XMLInverseReferenceMapping inverseReferenceMapping) { this.inverseReferenceMapping = inverseReferenceMapping; } /** * INTERNAL * Return true if an empty container should be set on the object if there * is no presence of the collection in the XML document. * @since EclipseLink 2.3.3 */ @Override public boolean isDefaultEmptyContainer() { return defaultEmptyContainer; } /** * INTERNAL * Indicate whether by default an empty container should be set on the * field/property if the collection is not present in the XML document. * @since EclipseLink 2.3.3 */ @Override public void setDefaultEmptyContainer(boolean defaultEmptyContainer) { this.defaultEmptyContainer = defaultEmptyContainer; } @Override public AbstractNullPolicy getWrapperNullPolicy() { return this.wrapperNullPolicy; } @Override public void setWrapperNullPolicy(AbstractNullPolicy policy) { this.wrapperNullPolicy = policy; } /** * INTERNAL * @since EclipseLink 2.5.0 */ @Override public Object convertObjectValueToDataValue(Object value, Session session, XMLMarshaller marshaller) { if (hasConverter()) { if (converter instanceof XMLConverter) { return ((XMLConverter)converter).convertObjectValueToDataValue(value, session, marshaller); } else { return converter.convertObjectValueToDataValue(value, session); } } return value; } /** * INTERNAL * @since EclipseLink 2.5.0 */ @Override public Object convertDataValueToObjectValue(Object value, Session session, XMLUnmarshaller unmarshaller) { if (hasConverter()) { if (converter instanceof XMLConverter) { return ((XMLConverter)converter).convertDataValueToObjectValue(value, session, unmarshaller); } else { return converter.convertDataValueToObjectValue(value, session); } } return value; } }





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