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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.oxm.mappings;

import java.util.ArrayList;
import java.util.Iterator;
import java.util.Map;
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.descriptors.DescriptorIterator;
import org.eclipse.persistence.internal.helper.DatabaseField;
import org.eclipse.persistence.internal.identitymaps.CacheKey;
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.mappings.AnyCollectionMapping;
import org.eclipse.persistence.internal.oxm.mappings.XMLContainerMapping;
import org.eclipse.persistence.internal.queries.CollectionContainerPolicy;
import org.eclipse.persistence.internal.queries.ContainerPolicy;
import org.eclipse.persistence.internal.queries.JoinedAttributeManager;
import org.eclipse.persistence.internal.queries.ListContainerPolicy;
import org.eclipse.persistence.internal.sessions.AbstractRecord;
import org.eclipse.persistence.internal.sessions.AbstractSession;
import org.eclipse.persistence.internal.sessions.ChangeRecord;
import org.eclipse.persistence.internal.sessions.MergeManager;
import org.eclipse.persistence.internal.sessions.ObjectChangeSet;
import org.eclipse.persistence.internal.sessions.UnitOfWorkImpl;
import org.eclipse.persistence.mappings.AttributeAccessor;
import org.eclipse.persistence.mappings.ContainerMapping;
import org.eclipse.persistence.mappings.DatabaseMapping;
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.XMLRoot;
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.record.DOMRecord;
import org.eclipse.persistence.oxm.record.XMLRecord;
import org.eclipse.persistence.platform.xml.XMLPlatform;
import org.eclipse.persistence.platform.xml.XMLPlatformFactory;
import org.eclipse.persistence.queries.ObjectBuildingQuery;
import org.eclipse.persistence.queries.ObjectLevelReadQuery;
import org.eclipse.persistence.sessions.Session;
import org.eclipse.persistence.sessions.remote.DistributedSession;
import org.w3c.dom.Element;
import org.w3c.dom.Node;
import org.w3c.dom.NodeList;
import org.w3c.dom.Text;

/**
 * 

Any collection XML mappings map an attribute that contains a heterogenous collection of * objects to multiple XML elements. Unlike composite collection XML mappings, the referenced * objects may be of different types (including String), and do not need to be related to each * other through inheritance or a common interface. The corresponding object attribute should * be generic enough for all possible application values. Note that each of the referenced objects * (except String) must specify a default root element on their descriptor. * *

Any collection mappings are useful with the following XML schema constructs:

    *
  • any
  • *
  • choice
  • *
  • substitution groups
  • *
* *

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 node type, path, and positional information. The XPath is specified on the * mapping using the setXPath method. Note that for XML Any Collection Mappings the XPath * is optional. * *

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

* * * * * * * * * * * * * * * * *
XPathDescription
contact-methodsThe name information is stored in the contact-methods element.
contact-methods/infoThe XPath statement may be used to specify any valid path.
contact-methods[2]The XPath statement may contain positional information. In this case the contact * information is stored in the second occurrence of the contact-methods element.
* *

Mapping an element of type xs:anyType as an Any Collection Mapping: * * *

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="contact-methods" type="xsd:anyType"/>
*     </xsd:sequence>
*   </xsd:complexType>
*   <xsd:element name="address">
*     <xsd:complexType>
*       <xsd:sequence>
*         <xsd:element name="street" type="xsd:string"/>
*         <xsd:element name="city" type="xsd:string"/>
*       </xsd:sequence>
*     </xsd:complexType>
*   </xsd:element>
*   <xsd:element name="phone-number" type="xsd:string"/>
* </xsd:schema>
*
* *

Code Sample
* * XMLAnyCollectionMapping contactMethodsMapping = new XMLAnyCollectionMapping();
* contactMethodsMapping.setAttributeName("contactMethods");
* contactMethodsMapping.setXPath("contact-methods");
*
* *

More Information: For more information about using the XML Any 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 XMLAnyCollectionMapping extends XMLAbstractAnyMapping implements AnyCollectionMapping, XMLMapping, ContainerMapping { private XMLField field; private ContainerPolicy containerPolicy; private boolean defaultEmptyContainer = XMLContainerMapping.EMPTY_CONTAINER_DEFAULT; private boolean useXMLRoot; private boolean mixedContent = true; private boolean isWhitespacePreservedForMixedContent = false; private boolean areOtherMappingInThisContext = true; private XMLConverter valueConverter; private boolean reuseContainer; private AbstractNullPolicy wrapperNullPolicy; public XMLAnyCollectionMapping() { this.containerPolicy = ContainerPolicy.buildDefaultPolicy(); useXMLRoot = false; setKeepAsElementPolicy(UnmarshalKeepAsElementPolicy.KEEP_NONE_AS_ELEMENT); } /** * INTERNAL: * Clone the attribute from the clone and assign it to the backup. */ public void buildBackupClone(Object clone, Object backup, UnitOfWorkImpl unitOfWork) { throw DescriptorException.invalidMappingOperation(this, "buildBackupClone"); } /** * INTERNAL: * Clone the attribute from the original and assign it to the clone. */ @Override public void buildClone(Object original, CacheKey cacheKey, Object clone, Integer refreshCascade, AbstractSession cloningSession) { throw DescriptorException.invalidMappingOperation(this, "buildClone"); } public void buildCloneFromRow(AbstractRecord databaseRow, JoinedAttributeManager joinManager, Object clone, CacheKey sharedCacheKey, ObjectBuildingQuery sourceQuery, UnitOfWorkImpl unitOfWork, AbstractSession executionSession) { throw DescriptorException.invalidMappingOperation(this, "buildCloneFromRow"); } /** * INTERNAL: * Cascade perform delete through mappings that require the cascade */ public void cascadePerformRemoveIfRequired(Object object, UnitOfWorkImpl uow, Map visitedObjects) { //objects referenced by this mapping are not registered as they have // no identity, this is a no-op. } /** * INTERNAL: * Cascade registerNew for Create through mappings that require the cascade */ public void cascadeRegisterNewIfRequired(Object object, UnitOfWorkImpl uow, Map visitedObjects) { //Our current XML support does not make use of the UNitOfWork. } public Object clone() { // Bug 3037701 - clone the AttributeAccessor XMLAnyCollectionMapping mapping = null; mapping = (XMLAnyCollectionMapping) super.clone(); mapping.setContainerPolicy(this.getContainerPolicy()); mapping.setField(this.getField()); return mapping; } /** * INTERNAL: * This method was created in VisualAge. * @return prototype.changeset.ChangeRecord */ public ChangeRecord compareForChange(Object clone, Object backup, ObjectChangeSet owner, AbstractSession session) { throw DescriptorException.invalidMappingOperation(this, "compareForChange"); } /** * INTERNAL: * Compare the attributes belonging to this mapping for the objects. */ public boolean compareObjects(Object firstObject, Object secondObject, AbstractSession session) { throw DescriptorException.invalidMappingOperation(this, "compareObjects"); } /** * INTERNAL: * An object has been serialized from the server to the client. * Replace the transient attributes of the remote value holders * with client-side objects. */ public void fixObjectReferences(Object object, Map objectDescriptors, Map processedObjects, ObjectLevelReadQuery query, DistributedSession session) { throw DescriptorException.invalidMappingOperation(this, "fixObjectReferences"); } /** * INTERNAL: * Return the mapping's containerPolicy. */ public ContainerPolicy getContainerPolicy() { return containerPolicy; } public DatabaseField getField() { return field; } public void initialize(AbstractSession session) throws DescriptorException { if (getField() != null) { setField(getDescriptor().buildField(getField())); } if(valueConverter != null) { valueConverter.initialize(this, session); } } /** * INTERNAL: * Iterate on the appropriate attribute value. */ public void iterate(DescriptorIterator iterator) { throw DescriptorException.invalidMappingOperation(this, "iterate"); } public void setXPath(String xpath) { this.field = new XMLField(xpath); } /** * INTERNAL: * Merge changes from the source to the target object. */ @Override public void mergeChangesIntoObject(Object target, ChangeRecord changeRecord, Object source, MergeManager mergeManager, AbstractSession targetSession) { throw DescriptorException.invalidMappingOperation(this, "mergeChangesIntoObject"); } /** * INTERNAL: * Merge changes from the source to the target object. */ @Override public void mergeIntoObject(Object target, boolean isTargetUninitialized, Object source, MergeManager mergeManager, AbstractSession targetSession) { throw DescriptorException.invalidMappingOperation(this, "mergeIntoObject"); } public void setContainerPolicy(ContainerPolicy cp) { this.containerPolicy = cp; } public void setField(DatabaseField field) { this.field = (XMLField) field; } public Object valueFromRow(AbstractRecord row, JoinedAttributeManager joinManager, ObjectBuildingQuery sourceQuery, CacheKey cacheKey, AbstractSession executionSession, boolean isTargetProtected, Boolean[] wasCacheUsed) throws DatabaseException { XMLRecord record = (XMLRecord) row; if (getField() != null) { //Get the nested row represented by this field to build the collection from Object nested = record.get(getField()); if (nested instanceof Vector) { nested = ((Vector) nested).firstElement(); } if (!(nested instanceof XMLRecord)) { return null; } record = (XMLRecord) nested; } return buildObjectValuesFromDOMRecord((DOMRecord) record, executionSession, sourceQuery, joinManager); } private Object buildObjectValuesFromDOMRecord(DOMRecord record, AbstractSession session, ObjectBuildingQuery query, JoinedAttributeManager joinManager) { //This DOMRecord represents the root node of the AnyType instance //Grab ALL children to populate the collection. Node root = record.getDOM(); NodeList children = root.getChildNodes(); ContainerPolicy cp = getContainerPolicy(); Object container = null; if (reuseContainer) { Object currentObject = record.getCurrentObject(); Object value = getAttributeAccessor().getAttributeValueFromObject(currentObject); container = value != null ? value : cp.containerInstance(); } else { container = cp.containerInstance(); } int length = children.getLength(); Node next = null; if(length > 0) { next = record.getDOM().getFirstChild(); } while(next != null) { Object objectValue = null; if (isUnmappedContent(next)) { if ((next.getNodeType() == Node.TEXT_NODE) && this.isMixedContent()) { if (next.getNodeValue().trim().length() > 0) { objectValue = next.getNodeValue(); objectValue = convertDataValueToObjectValue(objectValue, session, record.getUnmarshaller()); cp.addInto(objectValue, container, session); } } else if (next.getNodeType() == Node.ELEMENT_NODE) { ClassDescriptor referenceDescriptor = null; //In this case it must be an element so we need to dig up the descriptor //make a nested record and build an object from it. DOMRecord nestedRecord = (DOMRecord) record.buildNestedRow((Element) next); if (!useXMLRoot) { referenceDescriptor = getDescriptor(nestedRecord, session, null); objectValue = buildObjectForNonXMLRoot(referenceDescriptor, getConverter(), query, record, nestedRecord, joinManager, session, next, container, cp); } else { String schemaType = ((Element) next).getAttributeNS(javax.xml.XMLConstants.W3C_XML_SCHEMA_INSTANCE_NS_URI, XMLConstants.SCHEMA_TYPE_ATTRIBUTE); QName schemaTypeQName = null; XPathFragment frag = new XPathFragment(); if ((null != schemaType) && (schemaType.length() > 0)) { frag.setXPath(schemaType); if (frag.hasNamespace()) { String prefix = frag.getPrefix(); XMLPlatform xmlPlatform = XMLPlatformFactory.getInstance().getXMLPlatform(); String url = xmlPlatform.resolveNamespacePrefix(next, prefix); frag.setNamespaceURI(url); schemaTypeQName = new QName(url, frag.getLocalName()); } XMLContext xmlContext = nestedRecord.getUnmarshaller().getXMLContext(); referenceDescriptor = xmlContext.getDescriptorByGlobalType(frag); } if (referenceDescriptor == null) { try { QName qname = new QName(nestedRecord.getNamespaceURI(), nestedRecord.getLocalName()); referenceDescriptor = getDescriptor(nestedRecord, session, qname); } catch (XMLMarshalException e) { referenceDescriptor = null; } // Check if descriptor is for a wrapper, if it is null it out and let continue XMLDescriptor xmlReferenceDescriptor = (XMLDescriptor) referenceDescriptor; if (referenceDescriptor != null && xmlReferenceDescriptor.isWrapper()) { referenceDescriptor = null; } } // if KEEP_ALL_AS_ELEMENT is set, or we don't have a descriptor and KEEP_UNKNOWN_AS_ELEMENT // is set, then we want to return either an Element or an XMLRoot wrapping an Element if (getKeepAsElementPolicy() == UnmarshalKeepAsElementPolicy.KEEP_ALL_AS_ELEMENT || (referenceDescriptor == null && getKeepAsElementPolicy() == UnmarshalKeepAsElementPolicy.KEEP_UNKNOWN_AS_ELEMENT)) { Object objVal = buildObjectNoReferenceDescriptor(record, getConverter(), session, next, null, null); // wrap the object in an XMLRoot // if we know the descriptor use it to wrap the Element in an XMLRoot (if necessary) if (referenceDescriptor != null) { objVal = ((XMLDescriptor) referenceDescriptor).wrapObjectInXMLRoot(objVal, next.getNamespaceURI(), next.getLocalName(), next.getPrefix(), false, record.isNamespaceAware(), record.getUnmarshaller()); cp.addInto(objVal, container, session); } else { // no descriptor, so manually build the XMLRoot cp.addInto(buildXMLRoot(next, objVal), container, session); } } // if we have a descriptor use it to build the object and wrap it in an XMLRoot else if (referenceDescriptor != null) { buildObjectAndWrapInXMLRoot(referenceDescriptor, getConverter(), query, record, nestedRecord, joinManager, session, next, container, cp); } else { // no descriptor, but could be TEXT to wrap and return XMLRoot rootValue; if ((rootValue = buildXMLRootForText(next, schemaTypeQName, getConverter(), session, record)) != null) { cp.addInto(rootValue, container, session); } } } } } next = next.getNextSibling(); } return container; } @Override public void writeFromObjectIntoRow(Object object, AbstractRecord row, AbstractSession session, WriteType writeType) throws DescriptorException { if (this.isReadOnly()) { return; } DOMRecord record = (DOMRecord) row; Object attributeValue = this.getAttributeValueFromObject(object); Node root = record.getDOM(); org.w3c.dom.Document doc = record.getDocument(); XMLField xmlRootField = null; if (attributeValue == null) { return; } if (field != null) { root = XPathEngine.getInstance().create((XMLField) getField(), record.getDOM(), session); DOMRecord rootRecord = new DOMRecord(root); rootRecord.setSession(session); rootRecord.setDocPresPolicy(record.getDocPresPolicy()); rootRecord.setNamespaceResolver(record.getNamespaceResolver()); rootRecord.setMarshaller(record.getMarshaller()); record = rootRecord; } ContainerPolicy cp = this.getContainerPolicy(); ArrayList childNodes = getUnmappedChildNodes(record.getDOM().getChildNodes()); Object iter = cp.iteratorFor(attributeValue); int childNodeCount = 0; boolean wasXMLRoot = false; if(null != iter) { while (cp.hasNext(iter) && (childNodeCount < childNodes.size())) { Object element = cp.next(iter, session); element = convertObjectValueToDataValue(element, session, record.getMarshaller()); Object originalObject = element; Node nextChild = null; while (childNodeCount < childNodes.size()) { Node nextPossible = (Node) childNodes.get(childNodeCount); if ((nextPossible.getNodeType() == Node.ELEMENT_NODE) || (nextPossible.getNodeType() == Node.TEXT_NODE) || (nextPossible.getNodeType() == Node.CDATA_SECTION_NODE)) { nextChild = nextPossible; childNodeCount++; break; } childNodeCount++; } if (nextChild == null) { break; } if (usesXMLRoot() && (element instanceof XMLRoot)) { xmlRootField = new XMLField(); wasXMLRoot = true; XPathFragment frag = new XPathFragment(); if ((((XMLRoot) element)).getNamespaceURI() != null) { frag.setNamespaceURI(((XMLRoot) element).getNamespaceURI()); } frag.setXPath(((XMLRoot) element).getLocalName()); xmlRootField.setXPathFragment(frag); xmlRootField.setNamespaceResolver(record.getNamespaceResolver()); element = ((XMLRoot) element).getObject(); } if (element instanceof String) { if (wasXMLRoot) { if (((XMLRoot) originalObject).getNamespaceURI() != null) { String prefix = record.getNamespaceResolver().resolveNamespaceURI(((XMLRoot) originalObject).getNamespaceURI()); if ((prefix == null) || prefix.length() == 0) { xmlRootField.getXPathFragment().setGeneratedPrefix(true); prefix = record.getNamespaceResolver().generatePrefix(); } xmlRootField.getXPathFragment().setXPath(prefix + XMLConstants.COLON + ((XMLRoot) originalObject).getLocalName()); } } if (xmlRootField != null) { XPathEngine.getInstance().create(xmlRootField, root, element, session); } else { Text textNode = doc.createTextNode((String) element); root.replaceChild(textNode, nextChild); } } else if (element instanceof org.w3c.dom.Node) { Node importedCopy = doc.importNode((Node) element, true); root.replaceChild(importedCopy, nextChild); } else { XMLDescriptor referenceDescriptor = (XMLDescriptor) session.getDescriptor(element.getClass()); if (wasXMLRoot) { if (((XMLRoot) originalObject).getNamespaceURI() != null) { String prefix = referenceDescriptor.getNonNullNamespaceResolver().resolveNamespaceURI(((XMLRoot) originalObject).getNamespaceURI()); if ((prefix == null) || prefix.length() == 0) { prefix = record.getNamespaceResolver().resolveNamespaceURI(((XMLRoot) originalObject).getNamespaceURI()); } if ((prefix == null) || prefix.length() == 0) { xmlRootField.getXPathFragment().setGeneratedPrefix(true); prefix = record.getNamespaceResolver().generatePrefix(); } xmlRootField.getXPathFragment().setXPath(prefix + XMLConstants.COLON + ((XMLRoot) originalObject).getLocalName()); } } DOMRecord nestedRecord = (DOMRecord) buildCompositeRow(element, session, referenceDescriptor, row, xmlRootField, element, wasXMLRoot); if (nestedRecord != null) { if (nestedRecord.getDOM() != nextChild) { root.replaceChild(nestedRecord.getDOM(), nextChild); } } } } } if (childNodeCount < childNodes.size()) { //Remove whatever's left for (int i = childNodeCount; i < childNodes.size(); i++) { Node child = (Node) childNodes.get(i); if ((child.getNodeType() == Node.ELEMENT_NODE) || (child.getNodeType() == Node.TEXT_NODE) || (child.getNodeType() == Node.CDATA_SECTION_NODE)) { root.removeChild(child); } } } if (null != iter && cp.hasNext(iter)) { while (cp.hasNext(iter)) { //add in extras Object element = cp.next(iter, session); writeSingleValue(element, object, record, session); } } } public void writeSingleValue(Object element, Object parent, XMLRecord row, AbstractSession session) { XMLField xmlRootField = null; Object originalObject = element; DOMRecord record = (DOMRecord) row; Node root = record.getDOM(); org.w3c.dom.Document doc = row.getDocument(); boolean wasXMLRoot = false; if (usesXMLRoot() && (element instanceof XMLRoot)) { wasXMLRoot = true; xmlRootField = new XMLField(); XPathFragment frag = new XPathFragment(); if ((((XMLRoot) element)).getNamespaceURI() != null) { frag.setNamespaceURI(((XMLRoot) element).getNamespaceURI()); } frag.setLocalName(((XMLRoot) element).getLocalName()); xmlRootField.setXPathFragment(frag); xmlRootField.setNamespaceResolver(row.getNamespaceResolver()); element = ((XMLRoot) element).getObject(); } if (element instanceof String) { writeSimpleValue(xmlRootField, element, originalObject, record, doc, root, wasXMLRoot, session); } else if (element instanceof org.w3c.dom.Node) { Node importedCopy = doc.importNode((Node) element, true); root.appendChild(importedCopy); } else { XMLDescriptor referenceDescriptor = (XMLDescriptor) session.getDescriptor(element.getClass()); if (referenceDescriptor == null) { writeSimpleValue(xmlRootField, element, originalObject, record, doc, root, wasXMLRoot, session); return; } if (wasXMLRoot) { if (((XMLRoot) originalObject).getNamespaceURI() != null) { String prefix = referenceDescriptor.getNonNullNamespaceResolver().resolveNamespaceURI(((XMLRoot) originalObject).getNamespaceURI()); if ((prefix == null) || prefix.length() == 0) { prefix = record.getNamespaceResolver().resolveNamespaceURI(((XMLRoot) originalObject).getNamespaceURI()); } if ((prefix == null) || prefix.length() == 0) { xmlRootField.getXPathFragment().setGeneratedPrefix(true); prefix = record.getNamespaceResolver().generatePrefix(); } xmlRootField.getXPathFragment().setXPath(prefix + XMLConstants.COLON + ((XMLRoot) originalObject).getLocalName()); } } DOMRecord nestedRecord = (DOMRecord) buildCompositeRow(element, session, referenceDescriptor, row, xmlRootField, originalObject, wasXMLRoot); if (nestedRecord != null) { root.appendChild(nestedRecord.getDOM()); } } } private void writeSimpleValue(XMLField xmlRootField, Object element, Object originalObject, DOMRecord record, org.w3c.dom.Document doc, Node root, boolean wasXMLRoot, AbstractSession session) { if (wasXMLRoot) { if (((XMLRoot) originalObject).getNamespaceURI() != null) { String prefix = record.getNamespaceResolver().resolveNamespaceURI(((XMLRoot) originalObject).getNamespaceURI()); if ((prefix == null) || prefix.length() == 0) { xmlRootField.getXPathFragment().setGeneratedPrefix(true); prefix = record.getNamespaceResolver().generatePrefix(); } xmlRootField.getXPathFragment().setXPath(prefix + XMLConstants.COLON + ((XMLRoot) originalObject).getLocalName()); } } if (xmlRootField != null) { xmlRootField.setNamespaceResolver(record.getNamespaceResolver()); QName qname = ((XMLRoot) originalObject).getSchemaType(); if(qname != null){ if(!qname.equals(XMLConstants.STRING_QNAME)){ xmlRootField.setSchemaType(qname); xmlRootField.setIsTypedTextField(true); xmlRootField.addJavaConversion(((XMLRoot) originalObject).getObject().getClass(), qname); } } Node newNode = XPathEngine.getInstance().create(xmlRootField, root, element, session); } else { Text textNode = doc.createTextNode((String) element); root.appendChild(textNode); } } protected AbstractRecord buildCompositeRow(Object attributeValue, AbstractSession session, XMLDescriptor referenceDescriptor, AbstractRecord parentRow, DatabaseField field, Object originalObject, boolean wasXMLRoot) { String defaultRootElementString = null; if(referenceDescriptor != null){ defaultRootElementString = referenceDescriptor.getDefaultRootElement(); if (!wasXMLRoot && defaultRootElementString == null) { throw XMLMarshalException.defaultRootElementNotSpecified((XMLDescriptor) descriptor); } } if ((field == null) && (referenceDescriptor != null) && (defaultRootElementString != null)) { field = referenceDescriptor.buildField(defaultRootElementString); } if ((field != null) && (referenceDescriptor != null)) { ((XMLRecord) parentRow).setLeafElementType(referenceDescriptor.getDefaultRootElementType()); XMLObjectBuilder objectBuilder = (XMLObjectBuilder) referenceDescriptor.getObjectBuilder(); XMLRecord child = (XMLRecord) objectBuilder.createRecordFor(attributeValue, (XMLField) field, (XMLRecord) parentRow, this); child.setNamespaceResolver(((XMLRecord) parentRow).getNamespaceResolver()); objectBuilder.buildIntoNestedRow(child, originalObject, attributeValue, session, referenceDescriptor, (XMLField) field, wasXMLRoot); return child; } return null; } public boolean isXMLMapping() { return true; } public Vector getFields() { return this.collectFields(); } /** * PUBLIC: * Configure the mapping to use an instance of the specified container class * to hold the target objects. *

jdk1.2.x: The container class must implement (directly or indirectly) the Collection interface. *

jdk1.1.x: The container class must be a subclass of Vector. */ public void useCollectionClass(Class concreteContainerClass) { this.setContainerPolicy(ContainerPolicy.buildPolicyFor(concreteContainerClass)); } public void useMapClass(Class concreteContainerClass, String methodName) { throw DescriptorException.invalidMappingOperation(this, "useMapClass"); } public void useMapClassName(String concreteContainerClass, String methodName) { throw DescriptorException.invalidMappingOperation(this, "useMapClass"); } public void useCollectionClassName(String concreteContainerClassName) { this.setContainerPolicy(new CollectionContainerPolicy(concreteContainerClassName)); } public void useListClassName(String concreteContainerClassName) { this.setContainerPolicy(new ListContainerPolicy(concreteContainerClassName)); } public void setUseXMLRoot(boolean useXMLRoot) { this.useXMLRoot = useXMLRoot; } public boolean usesXMLRoot() { return useXMLRoot; } public boolean isMixedContent() { return mixedContent; } public void setMixedContent(boolean mixed) { mixedContent = mixed; } private boolean isUnmappedContent(Node node) { if (!areOtherMappingInThisContext) { return true; } XMLDescriptor parentDesc = (XMLDescriptor) this.getDescriptor(); XMLField field = (XMLField) this.getField(); Iterator mappings = parentDesc.getMappings().iterator(); int mappingsInContext = 0; while (mappings.hasNext()) { DatabaseMapping next = (DatabaseMapping) mappings.next(); if (!(next == this)) { XMLField nextField = (XMLField) next.getField(); XPathFragment frag = getFragmentToCompare(nextField, field); if (frag != null) { mappingsInContext++; if (((node.getNodeType() == Node.TEXT_NODE) || (node.getNodeType() == Node.CDATA_SECTION_NODE)) && frag.nameIsText()) { return false; } if (node.getNodeType() == Node.ELEMENT_NODE) { String nodeNS = node.getNamespaceURI(); String fragNS = frag.getNamespaceURI(); String nodeLocalName = node.getLocalName(); String fragLocalName = frag.getLocalName(); if ((nodeNS == fragNS) || ((nodeNS != null) && (fragNS != null) && nodeNS.equals(fragNS))) { if ((nodeLocalName == fragLocalName) || ((nodeLocalName != null) && (fragLocalName != null) && nodeLocalName.equals(fragLocalName))) { return false; } } } } } if (mappingsInContext == 0) { this.areOtherMappingInThisContext = false; } } return true; } private XPathFragment getFragmentToCompare(XMLField field, XMLField context) { if (field == null) { return null; } if (context == null) { return field.getXPathFragment(); } XPathFragment fieldFrag = field.getXPathFragment(); XPathFragment contextFrag = context.getXPathFragment(); while ((fieldFrag != null) && (contextFrag != null)) { if (fieldFrag.equals(contextFrag)) { if (contextFrag.getNextFragment() == null) { return fieldFrag.getNextFragment(); } else { contextFrag = contextFrag.getNextFragment(); fieldFrag = fieldFrag.getNextFragment(); } } else { return null; } } return null; } private ArrayList getUnmappedChildNodes(NodeList nodes) { ArrayList unmappedNodes = new ArrayList(); int length = nodes.getLength(); for (int i = 0; i < length; i++) { Node next = nodes.item(i); if (isUnmappedContent(next)) { unmappedNodes.add(next); } } return unmappedNodes; } public boolean isCollectionMapping() { return true; } public void setConverter(XMLConverter conv) { this.valueConverter = conv; } public XMLConverter getConverter() { return this.valueConverter; } /** * Setting this to true indicates that text nodes containing *only* whitespaces should still be * added to the collection as strings for mixed content. * * If mixedContent is false, this setting has no effect. * @return */ public boolean isWhitespacePreservedForMixedContent() { return this.isWhitespacePreservedForMixedContent; } public void setPreserveWhitespaceForMixedContent(boolean preserveWhitespace) { this.isWhitespacePreservedForMixedContent = preserveWhitespace; } /** * 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. */ 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. */ public void setReuseContainer(boolean reuseContainer) { this.reuseContainer = reuseContainer; } /** * 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 */ 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 */ public void setDefaultEmptyContainer(boolean defaultEmptyContainer) { this.defaultEmptyContainer = defaultEmptyContainer; } public AbstractNullPolicy getWrapperNullPolicy() { return this.wrapperNullPolicy; } public void setWrapperNullPolicy(AbstractNullPolicy policy) { this.wrapperNullPolicy = policy; } /** * INTERNAL * @since EclipseLink 2.5.0 */ public Object convertObjectValueToDataValue(Object value, Session session, XMLMarshaller marshaller) { if (null != valueConverter) { return valueConverter.convertObjectValueToDataValue(value, session, marshaller); } return value; } /** * INTERNAL * @since EclipseLink 2.5.0 */ public Object convertDataValueToObjectValue(Object fieldValue, Session session, XMLUnmarshaller unmarshaller) { if (null != valueConverter) { return valueConverter.convertDataValueToObjectValue(fieldValue, session, unmarshaller); } return fieldValue; } }





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