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/*
 * Copyright (c) 1998, 2024 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.sdo.helper;

import commonj.sdo.Property;
import java.util.ArrayList;
import java.util.HashMap;
import java.util.Iterator;
import java.util.List;
import java.util.Map;

import org.eclipse.persistence.sdo.DefaultValueStore;
import org.eclipse.persistence.sdo.SDOChangeSummary;
import org.eclipse.persistence.sdo.SDODataObject;
import org.eclipse.persistence.sdo.SDOProperty;
import org.eclipse.persistence.sdo.SDOSequence;
import org.eclipse.persistence.sdo.ValueStore;
import org.eclipse.persistence.exceptions.SDOException;
import commonj.sdo.ChangeSummary;
import commonj.sdo.DataObject;
import commonj.sdo.helper.CopyHelper;
import commonj.sdo.helper.HelperContext;
import commonj.sdo.impl.HelperProvider;
import org.eclipse.persistence.oxm.XMLRoot;
import org.eclipse.persistence.oxm.sequenced.Setting;

/**
 * Purpose:
 * 
  • A helper class for making deep or shallow copies of DataObjects.
  • *
*

* Responsibilities: *

    *
  • Perform shallow and deep copy operations on {@link DataObject DataObject}s.
  • *
* * @see org.eclipse.persistence.sdo.SDODataObject * @since Oracle TopLink 11.1.1.0.0 */ public class SDOCopyHelper implements CopyHelper { /* 09/12/06 - Add bidirectional property copy support 09/16/06 - Use design #1a over #2 Modify 1 pass opposite property set algorithm to use 2 passes, the first gathers a list of opposites, the 2nd pass iterates the list after tree completion. Runtime is the same since we still need a hash lookup of the opposite DO 09/19/06 - Adjust copy algorithm to check for opposites before checking containment cont=false, opp=false -> unidirectional cont=false, opp=true -> bidirectional cont=true, opp=false -> normal containment cont=true, opp=true -> bidirectional The code for copyPropertyValue() has been moved up to copy() where we use the two cached maps to set non-containment properties 10/02/06 - Finish isMany 1-n bidirectional/unidirectional support in copy() function 11/09/06 - Jira#129: implement HelperContext via new HelperProvider.getDefaultContext() 01/29/07 - #5852525 handle null properties with isSet=true 02/14/07 - #5878605 do not generate oldSettings during copy of cs with logging=true 02/15/07 - #5878605 move double iteration of cs list in many case to single iteration 02/23/07 - #5897730 implement ChangeSummary deep copy 03/14/07 - p.142 limit scope of while by using for - put isSet() check back into open content part of copyChangeSummary 04/11/07 - Implement Sequence functionality 05/01/07 - #6026714: because of enlarged scope, copy of copy sets previous iteration value of unset complex setting */ // hold the context containing all helpers so that we can preserve inter-helper relationships private HelperContext aHelperContext; /** * INTERNAL: * This default constructor must be used in conjunction with the setHelperContext() function. * The custom constructor that takes a HelperContext parameter is recommended over this default constructor. */ public SDOCopyHelper() { } /** * Constructor that takes in a HelperContext instance that contains this copyHelper.
* This is the recommended constructor. * @param aContext */ public SDOCopyHelper(HelperContext aContext) { aHelperContext = aContext; } /** * Create a shallow copy of the DataObject dataObject: * Creates a new DataObject copiedDataObject with the same values * as the source dataObject for each property where * property.getType().isDataType() is true. * The value of such a Property property in copiedDataObject is: * dataObject.get(property) for single-valued Properties * (copiedDataObject.get(property) equals() dataObject.get(property)), or * a List where each member is equal to the member at the * same index in dataObject for multi-valued Properties * copiedDataObject.getList(property).get(i) equals() dataObject.getList(property).get(i) * The copied Object is unset for each Property where * property.getType().isDataType() is false * since they are not copied. * Read-only properties are copied. * A copied object shares metadata with the source object * sourceDO.getType() == copiedDO.getType() * If a ChangeSummary is part of the source DataObject * the copy has a new, empty ChangeSummary. * Logging state is the same as the source ChangeSummary. * * @param dataObject to be copied * @return copy of dataObject */ @Override public DataObject copyShallow(DataObject dataObject) { if (null == dataObject) { return null; } SDODataObject copy = (SDODataObject)getHelperContext().getDataFactory().create(dataObject.getType().getURI(), dataObject.getType().getName()); List ocListOriginal = ((SDODataObject)dataObject)._getOpenContentProperties(); for (Iterator anOCIterator = ocListOriginal.iterator(); anOCIterator.hasNext();) { copy.addOpenContentProperty((Property)anOCIterator.next()); } List ocAttrsListOriginal = ((SDODataObject)dataObject)._getOpenContentPropertiesAttributes(); for (Iterator anOCAttrIterator = ocAttrsListOriginal.iterator(); anOCAttrIterator.hasNext();) { copy.addOpenContentProperty((Property)anOCAttrIterator.next()); } List allProperties = copy.getInstanceProperties();// start iterating all copy's properties Iterator iterProperties = allProperties.iterator(); while (iterProperties.hasNext()) { SDOProperty eachProperty = (SDOProperty)iterProperties.next(); if (dataObject.isSet(eachProperty)) { Object o = getValue((SDODataObject)dataObject, eachProperty, null); if (eachProperty.getType().isDataType()) { if (!eachProperty.getType().isChangeSummaryType()) { // we defer sequence updates at this point copy.setInternal(eachProperty, o, false);// make copy if current property is datatype } } } } if (dataObject.getType().isSequenced()) { List settings = ((SDOSequence)dataObject.getSequence()).getSettings(); for (int index = 0, size = dataObject.getSequence().size(); index < size; index++) { Setting nextSetting = settings.get(index); Property prop = dataObject.getSequence().getProperty(index); if (prop == null || prop.getType().isDataType()) { Setting copySetting = nextSetting.copy(copy); copy.getSequence().getSettings().add(copySetting); copy.getSequence().addValueToSettings(copySetting); } } } if ((copy != null) && (copy.getChangeSummary() != null) && (copy.getType().getChangeSummaryProperty() != null)) { if (((SDODataObject)dataObject).getChangeSummary().isLogging()) { copy.getChangeSummary().setLogging(true); } } return copy; } /** * Create a deep copy of the DataObject tree: * Copies the dataObject and all its {@link commonj.sdo.Property#isContainment() contained} * DataObjects recursively. * Values of Properties are copied as in shallow copy, * and values of Properties where * property.getType().isDataType() is false * are copied where each value copied must be a * DataObject contained by the source dataObject. * If a DataObject is outside the DataObject tree and the * property is bidirectional, then the DataObject is skipped. * If a DataObject is outside the DataObject tree and the * property is unidirectional, then the same DataObject is referenced. * Read-only properties are copied. * If any DataObject referenced is not in the containment * tree an IllegalArgumentException is thrown. * If a ChangeSummary is part of the copy tree the new * ChangeSummary refers to objects in the new DataObject tree. * Logging state is the same as the source ChangeSummary. * * @param dataObject to be copied. * @return copy of dataObject * @throws IllegalArgumentException if any referenced DataObject * is not part of the containment tree. */ @Override public DataObject copy(DataObject dataObject) throws IllegalArgumentException { return copy(dataObject, null); } /** * Create a deep copy of the DataObject tree: * Copies the dataObject and all its {@link commonj.sdo.Property#isContainment() contained} * DataObjects recursively. *

For each Property where property.type.dataType is true, the values of Properties are * copied as in shallow copy, and values of Properties where * property.getType().isDataType() is false * are copied where each value copied must be a * DataObject contained by the source dataObject. *

If a DataObject is outside the DataObject tree and the * property is bidirectional, then the DataObject is not copied and * references to the object are also not copied. *

If a DataObject is outside the DataObject tree and the * property is unidirectional, then the same DataObject is referenced. *

Read-only properties are copied. *

If any DataObject referenced is not in the containment * tree an IllegalArgumentException is thrown. *

If a ChangeSummary is part of the copy tree the new * ChangeSummary refers to objects in the new DataObject tree. * Logging state is the same as the source ChangeSummary. * * @param dataObject to be copied. * @return copy of dataObject * @throws IllegalArgumentException if any referenced DataObject * is not part of the containment tree. */ public DataObject copy(DataObject dataObject, SDOChangeSummary cs) throws IllegalArgumentException { if (null == dataObject) { return null; } else { // cache one side of opposite property objects as we iterate to the 2nd side - non-deleted objects only //* @param doMap (cache original -> copy DataObject instances to set non-containment properties after tree construction) HashMap doMap = new HashMap(); //* @param propMap (cache original DO:non-containment property values to be set after tree construction) HashMap ncPropMap = new HashMap(); // build object instances by recursing the tree SDODataObject aCopy = copyPrivate((SDODataObject)dataObject, doMap, ncPropMap, cs); // After the copy containment tree has been built // Iterate the non-containment nodes and copy all uni/bi-directional properties on the copy. processNonContainmentNodesPrivate(doMap, ncPropMap); // Iterate the map of containment nodes and populate sequenced objects in the copy. processContainmentSequencesPrivate(doMap, cs); /** * ChangeSummary on Root Case: * We only need to handle a single root element - isMany=true root elements are not valid * Copy changeSummary state from original to copy on all cs-root elements that are also roots. * Setting logging to true only after recursively setting internal properties will not create oldSettings in the copy * The setLogging call will create oldContainer/oldContainmentProperty entries in the copy. */ if ((aCopy != null) && (aCopy.getChangeSummary() != null) && (aCopy.getType().getChangeSummaryProperty() != null)) { // re-reference copy objects in the copy changeSummary if (((SDODataObject)dataObject).getChangeSummary().isLogging()) {// switch and use resume logging (aCopy.getChangeSummary()).resumeLogging();//.setLogging(true); } copyChangeSummary(((SDODataObject)dataObject).getChangeSummary(),// aCopy.getChangeSummary(), doMap); } return aCopy; } } /** * INTERNAL: * Iterate the non-containment nodes and copy all uni/bi-directional properties on the copy. * @param doMap * @param ncPropMap */ private void processNonContainmentNodesPrivate(HashMap doMap, HashMap ncPropMap) { // for the doMap and ncPropMap we can either deep copy them all now or each one during rereferencing later // iterate nc property map and set bidirectional/unidirectional properties that are in scope for (Iterator ncIterator = ncPropMap.keySet().iterator(); ncIterator.hasNext();) {// p.142 limit scope of while by using for // get current source dataobject (the one we will set properties on) DataObject sourceDO = (DataObject)ncIterator.next(); // get the list of properties for the current do ArrayList aList = (ArrayList)ncPropMap.get(sourceDO); // iterate property list for (Iterator propIterator = aList.iterator(); propIterator.hasNext();) {// p.142 limit scope of while by using for // get current property SDOProperty aProperty = (SDOProperty)propIterator.next(); /* * Stored in the map we have * doMap: (a=key, a'=value) * ncPropMap (a=key, (list of props)=value * We get the copy from the doMap * We get the copy of the source by doing a get on the current source do */ // get original object that sourceDO points to via current property Object targetDO = sourceDO.get(aProperty); // flag whether the property is inside the copy tree boolean isPropertyInsideCopyTreeScope = false; // get sourceDO copy that we will be setting the property on DataObject sourceDOCopy = null; // lookup copy of targetDO in map Object targetDOCopy = null; /* * Handle 1-n many case * For containment=true * the DO's will be cached previously, and both bidirectional (one) and unidirectional * properties will set the copy on the copy object * For containment=false * the DO's will not be cached (outside the tree), only unidirectional properties * will be set using the original list */ if (aProperty.isMany()) { // create new list to hold copied list items ListWrapper targetList = (ListWrapper)targetDO; // get source\DO copy that we will be setting the property on sourceDOCopy = (DataObject)doMap.get(sourceDO); // lookup copy of targetDO in map targetDOCopy = new ArrayList(); for (int i = 0, size = targetList.size(); i < size; i++) { // get sourceDO key - used as a lookup in our doMap DataObject sourceDOCopyKey = (DataObject)targetList.get(i); DataObject sourceDOCopyValue = (DataObject)doMap.get(sourceDOCopyKey); // add copy to new list if (sourceDOCopyValue != null) { // bidirectional/unidirectional inside copy tree - use copy object ((List)targetDOCopy).add(sourceDOCopyValue); } else { // non-containment properties are not cached - store original for unidirectional //targetDOCopy.add(sourceDOCopyKey); } } // check if the target copies are in our map (inside copy tree scope) // when containment = false then targetDOCopy is empty // Assume: all items in the list share the same property isPropertyInsideCopyTreeScope = !((List) targetDOCopy).isEmpty(); } else { // handle 1-1 DataObject // lookup copy of targetDO in map targetDOCopy = doMap.get(targetDO); // get sourceDO copy that we will be setting the property on sourceDOCopy = (DataObject)doMap.get(sourceDO); // check if the target copy is in our map (inside copy tree scope) isPropertyInsideCopyTreeScope = targetDOCopy != null; } // set nc property if we are in the copy tree // check if the target copy is in our map (inside copy tree scope) if (isPropertyInsideCopyTreeScope) { ((SDODataObject)sourceDOCopy).set(aProperty, targetDOCopy, false); } else { // only set unidirectional properties if (null == aProperty.getOpposite()) { // spec 3.9.4 set property to original object when unidirectional ((SDODataObject)sourceDOCopy).set(aProperty, targetDO, false); } } } } } /** * INTERNAL: * Make a copy of all settings on the original sequence onto the copy sequence while using a * cross-reference doMap that relates the original DataObject key to the copy DataObject key. * This function is used during deep copy and changeSummary copy. * @param origSequence * @param copySequence * @param doMap */ private void replicateAndRereferenceSequenceCopyPrivate(SDOSequence origSequence, SDOSequence copySequence, DataObject dataObject, DataObject copy, Map doMap, SDOChangeSummary cs) { if (cs != null && cs.isDeleted(dataObject)) { origSequence = cs.getOldSequence(dataObject); } SDOProperty seqProperty = null; try { List settings = origSequence.getSettings(); for (int index = 0, size = origSequence.size(); index < size; index++) { Setting nextSetting = settings.get(index); seqProperty = origSequence.getProperty(nextSetting); if ((null == seqProperty) || seqProperty.getType().isDataType()) { Setting copySetting = nextSetting.copy(copy); copySequence.getSettings().add(copySetting); copySequence.addValueToSettings(copySetting); } else { Object copySeqValue = null; Object origSeqValue = origSequence.getValue(index); if (cs != null) { Object orig = cs.getReverseDeletedMap().get(origSeqValue); if (orig != null) { origSeqValue = orig; } } if (origSeqValue instanceof XMLRoot) { origSeqValue = ((XMLRoot)origSeqValue).getObject(); } // lookup copy if not null, if null then the copySeqValue will be null in the reduced scope assignment above if (null != origSeqValue) { copySeqValue = doMap.get(origSeqValue); } else { // as a secondary verification to the assignment above - make sure the copy is null as well copySeqValue = null;// this assignment is however redundant in our reduced scope assignment above } //now we have the new value Setting copySetting = nextSetting.copy(copy, copySeqValue); copySequence.getSettings().add(copySetting); copySequence.addValueToSettings(copySetting); } /** * Move assignment inside the loop to minimize scope and to * initialize the variable to null to handle the case where the original is null and * no lookup is performed. * Do not move the scope of this variable outside the for loop or we will end up * with the previous iterations' value set for a complex object that is unset(null). * see #6026714 */ } } catch (ClassCastException cce) {// catch any failure of a DataObject cast above throw SDOException.foundSimpleValueForNonDataTypeProperty(seqProperty.getName()); } } /** * INTERNAL: * Iterate the map of containment nodes and populate sequenced objects in the copy. * @param doMap */ private void processContainmentSequencesPrivate(Map doMap, SDOChangeSummary cs) { /** * Prerequisites: - the copy tree has been built and the doMap has been * fully populated with containment nodes.

Iterate the doMap and * for each containment dataObject populate the sequence

*/ // iterate containment nodes for (Iterator cIterator = doMap.keySet().iterator(); cIterator.hasNext();) { DataObject cObject = (DataObject)cIterator.next(); DataObject copyDO = (DataObject)doMap.get(cObject); // process sequences if (cObject.getType().isSequenced()) { SDOSequence origSequence = (SDOSequence)cObject.getSequence(); // iterate the original object sequence - in sequence and create settings on the copy replicateAndRereferenceSequenceCopyPrivate(origSequence, (SDOSequence)copyDO.getSequence(), cObject, copyDO, doMap, cs); } } } /** * INTERNAL: Create a new uninitialized ValueStore. * * @return */ private ValueStore createValueStore() { return new DefaultValueStore(); } /** * INTERNAL: * Implement ChangeSummary deep copy * Note: a copy with a CS requires the DefautlValueStore implementation * because of changes outside the ValueStore interface for the dataObject field * DeepCopy the original changeSummary into the copy dataObject. * All deleted keys in originalValueStore, deletedMap, deepCopies are the same original object. * We require the following relationships in order to build copies of originals and copies of copies of originals. * origDOtoCopyDOMap * original object (deleted + current) - in original DO : copy of original object - in copy DO * copyDOtoCopyOfDOMap * * Assumptions: * Property objects instances are copied only by reference - metadata is the same in the copy. * Deleted objects never exist in the currentValueStore (and are therefore not in the doMap). * Created and modified objects are always in the currentValueStore (and are in the doMap). * * @param anOriginalCS * @param aCopyCS * @param origDOCS1toCopyDOCS2Map (map of original do's (CS1) to their copy do's in (CS2)) */ private void copyChangeSummary(ChangeSummary anOriginalCS, ChangeSummary aCopyCS,// Map origDOCS1toCopyDOCS2Map) { // cast interfaces to concrete classes in one place SDOChangeSummary originalCS = (SDOChangeSummary)anOriginalCS; SDOChangeSummary copyCS = (SDOChangeSummary)aCopyCS; // handled by copy constructor // map of copy of original ListWrapper (CS2) to its new copy of a copy (CS2) - link ValueStores to Elements HashMap copyListWrapperCS2toCopyOfListCS2Map = new HashMap(); // in the absence of a ListWrapper.getProperty() we keep a map HashMap propertyToOriginalListMap = new HashMap(); /** * In 3 parts we add deleted objects to the global doMap and copy modified, created nodes **/ // fields that need re-referencing from original to copy DataObject anOriginalObject = null; DataObject aCopyOfOriginalObject = null; // iterate deleted objects for (Iterator anIterator = originalCS.getDeleted().iterator(); anIterator.hasNext();) { anOriginalObject = (DataObject)anIterator.next(); aCopyOfOriginalObject = copy(anOriginalObject, null); // fix deletedList copyCS.getDeleted().add(aCopyOfOriginalObject); // Assumption check do map before a possible re-add - reset() if (null == origDOCS1toCopyDOCS2Map.get(anOriginalObject)) { // add temp map of original : copy of original origDOCS1toCopyDOCS2Map.put(anOriginalObject, aCopyOfOriginalObject); } } // iterate created objects for (Iterator aIterator = originalCS.getCreated().iterator(); aIterator.hasNext();) { copyCS.getCreated().add(origDOCS1toCopyDOCS2Map.get(aIterator.next())); } // add modified objects for (Iterator anIterator = originalCS.getModified().iterator(); anIterator.hasNext();) { copyCS.getModified().add(origDOCS1toCopyDOCS2Map.get(anIterator.next())); } /** * Fix originalValueStores by deep copying the original dataObject:key and the original valueStore:value * key is original deleted object in [deepCopies] - value is copy of the ValueStore */ ValueStore aVSCopy = null; ValueStore aVSOriginal = null; for (Iterator anIterator = originalCS.getOriginalValueStores().keySet().iterator(); anIterator.hasNext();) { anOriginalObject = (DataObject)anIterator.next(); // deep copy to get corresponding copy DataObject (deleted objects were added to doMap) aCopyOfOriginalObject = (DataObject)origDOCS1toCopyDOCS2Map.get(anOriginalObject); /** * Recursively shallow-copy elements (by iterating the ovs map and iterating the properties of each item) * Fix the dataObject pointer */ aVSCopy = createValueStore(); aVSOriginal = (ValueStore)originalCS.getOriginalValueStores().get(anOriginalObject); // changes made to the copy VS must not affect the original -hence the dataObject field must be a copy of the original aVSCopy.initialize(aCopyOfOriginalObject); Object aVSPropertyItem = null; // get the # of non-opencontent properties for the object holding the CS - do not use DVS.getTypePropertyValues() for (int size = anOriginalObject.getType().getDeclaredProperties().size(), i = 0; i < size; i++) { aVSPropertyItem = aVSOriginal.getDeclaredProperty(i); // only iterate set properties if (aVSOriginal.isSetDeclaredProperty(i)) { // shallow copy the object values // handle single case SDOProperty currentProperty = (SDOProperty) anOriginalObject.getType().getDeclaredProperties().get(i); if (currentProperty.isMany()) { propertyToOriginalListMap.put(aVSPropertyItem, currentProperty); // handle many case - handled by originalElements // container DO must be in our reference map SDODataObject copyContainer = (SDODataObject)origDOCS1toCopyDOCS2Map.get(anOriginalObject); ListWrapper aCopyOfListCopy = (ListWrapper)((DataObject)copyContainer).getList(currentProperty); // add reference of new copy of original List keyed on original List copyListWrapperCS2toCopyOfListCS2Map.put((anOriginalObject).getList(currentProperty), aCopyOfListCopy); aVSCopy.setDeclaredProperty(i, aCopyOfListCopy); } else { // COMPLEX SINGLE if (!currentProperty.getType().isDataType()) { // are we using the cast to DataObject as a sort of instance check that would throw a CCE? aVSCopy.setDeclaredProperty(i, origDOCS1toCopyDOCS2Map.get(aVSPropertyItem)); } else { // SIMPLE SINGLE // skip changeSummary property if (!currentProperty.getType().isChangeSummaryType()) { // simple singles set aVSCopy.setDeclaredProperty(i, aVSPropertyItem); } } } } } // create list of unset and current open content properties List ocPropertiesList = new ArrayList(); ocPropertiesList.addAll(originalCS.getUnsetOCProperties(anOriginalObject)); // add existing properties ocPropertiesList.addAll(((SDODataObject)anOriginalObject)._getOpenContentProperties()); ocPropertiesList.addAll(((SDODataObject)anOriginalObject)._getOpenContentPropertiesAttributes()); // iterate existing open content properties for (Iterator i = ocPropertiesList.iterator(); i.hasNext();) { SDOProperty ocProperty = (SDOProperty)i.next(); if (aVSOriginal.isSetOpenContentProperty(ocProperty)) { // get oc value Object anOCPropertyItem = aVSOriginal.getOpenContentProperty(ocProperty); // get oc copy - shallow copy the object values if (ocProperty.isMany()) { // handle many case - handled by originalElements // container DO must be in our reference map SDODataObject copyContainer = (SDODataObject)origDOCS1toCopyDOCS2Map.get(anOriginalObject); ListWrapper aCopyOfListCopy = (ListWrapper)((DataObject)copyContainer).getList(ocProperty); // add reference of new copy of original List keyed on original List copyListWrapperCS2toCopyOfListCS2Map.put((anOriginalObject).getList(ocProperty), aCopyOfListCopy); aVSCopy.setOpenContentProperty(ocProperty, aCopyOfListCopy); } else { // handle complex single case if (!ocProperty.getType().isDataType()) { aVSCopy.setOpenContentProperty(ocProperty, origDOCS1toCopyDOCS2Map.get(aVSPropertyItem)); } else { // simple singles set aVSCopy.setOpenContentProperty(ocProperty, anOCPropertyItem); } } } } // set the copy map entry keyed on copy with value a deep copy of the copy copyCS.getOriginalValueStores().put(aCopyOfOriginalObject, aVSCopy); } // end originalValueStore iteration /** * Fix originalElements by deep copying the original dataObject:key and the original List:value * key is original deleted object in [deepCopies] - value is copy of the elements * The instances of ListWrapper inside the valueStores must be the same ones used in the originalElements */ ListWrapper anOriginalListKey = null; ListWrapper aCopyListWrapper = null; List aCopyList = null; for (Iterator anIterator = originalCS.getOriginalElements().keySet().iterator(); anIterator.hasNext();) { anOriginalListKey = (ListWrapper)anIterator.next(); // create a new ListWrapper SDOProperty aProperty = (SDOProperty) propertyToOriginalListMap.get(anOriginalListKey); aCopyListWrapper = (ListWrapper)copyListWrapperCS2toCopyOfListCS2Map.get(anOriginalListKey); aCopyList = new ArrayList(); /** * For each key:ListWrapper * - shallow copy all the items in the currentElements list * - replace the dataObject with its copy of the copy * - leave the property as is * For each value:ArrayList * - replace all values with their copy */ Object aListItem = null; Object aListItemCopy = null; for (Iterator anItemIterator = anOriginalListKey.iterator(); anItemIterator.hasNext();) { aListItem = anItemIterator.next(); // for simple many types we use the original in the copy if (!aProperty.getType().isDataType()) { // get the copy of the original (in the current valuestore) - we need do not make a copy of this copy // we should have a copy of the copy for List items - ListWrapper.add(item) will remove the item from its original wrapper aListItemCopy = origDOCS1toCopyDOCS2Map.get(aListItem); } else { aListItemCopy = aListItem; } aCopyList.add(aListItemCopy); } // add element list directly to the ListWrapper and bypass the cs element copy and containment updates aCopyListWrapper.setCurrentElements(aCopyList); List listValueCopy = new ArrayList(); // fix ArrayList value List listValue = (List)originalCS.getOriginalElements().get(anOriginalListKey); aListItem = null; aListItemCopy = null; for (Iterator aListIterator = listValue.iterator(); aListIterator.hasNext();) { aListItem = aListIterator.next(); // for simple many types we use the original in the copy if (!aProperty.getType().isDataType()) { aListItemCopy = origDOCS1toCopyDOCS2Map.get(aListItem); } else { aListItemCopy = aListItem; } // don't add nulls to the listWrapper so an undoChanges will encounter an NPE later if (aListItemCopy != null) { listValueCopy.add(aListItemCopy); } } // set the copy map entry keyed on copy with value a deep copy of the copy copyCS.getOriginalElements().put(aCopyListWrapper, listValueCopy); } // end originalist Iteration /** * fields that are already set when logging is turned on but need to be fixed (deleted objects need references) */ Map oldContainersMap = originalCS.getOldContainers(); Map copyContainersMap = copyCS.getOldContainers(); DataObject oldContainerKey = null; DataObject copyContainerKey = null; // convert any existing entries in the Map - should normally be 0 - unless any OC properties were unset for (Iterator anIterator = oldContainersMap.keySet().iterator(); anIterator.hasNext();) { oldContainerKey = (DataObject)anIterator.next(); // get corresponding copy copyContainerKey = (SDODataObject)origDOCS1toCopyDOCS2Map.get(oldContainerKey); // check existing copyContainers for existing objects - should be 0 - add all objects when pauseLogging() used DataObject oldContainerValue = null; if (null == copyContainersMap.get(copyContainerKey)) { oldContainerValue = (DataObject)oldContainersMap.get(oldContainerKey); // set copy key:value pair on copy map directly copyContainersMap.put(copyContainerKey, origDOCS1toCopyDOCS2Map.get(oldContainerValue)); } } Map oldContainmentPropertyMap = originalCS.getOldContainmentProperty(); Map copyContainmentPropertyMap = copyCS.getOldContainmentProperty(); DataObject oldContainmentPropertyKey = null; DataObject copyContainmentPropertyKey = null; // convert any existing entries in the Map - should normally be 0 - unless any OC properties were unset for (Iterator iterContProp = oldContainmentPropertyMap.keySet().iterator(); iterContProp.hasNext();) { oldContainmentPropertyKey = (DataObject)iterContProp.next(); // get corresponding copy copyContainmentPropertyKey = (SDODataObject)origDOCS1toCopyDOCS2Map.get(oldContainmentPropertyKey); // check existing copyContainers for existing objects - should be 0 - add all objects when pauseLogging() used if (null == copyContainmentPropertyMap.get(copyContainmentPropertyKey)) { // set copy key:value pair on copy map directly copyContainmentPropertyMap.put(copyContainmentPropertyKey, oldContainmentPropertyMap.get(oldContainmentPropertyKey)); } } Map oldUnsetOCPropertyMap = originalCS.getUnsetOCPropertiesMap(); SDODataObject oldOCPropertyContainer = null; // convert any existing entries in the Map - should normally be 0 for (Iterator iterContainer = oldUnsetOCPropertyMap.keySet().iterator(); iterContainer.hasNext();) { // DataObject will be non-Null oldOCPropertyContainer = (SDODataObject)iterContainer.next(); // check existing copyContainers for existing objects - should be 0 - add all objects when pauseLogging() used for (Iterator iterUnset = ((List)oldUnsetOCPropertyMap.get(oldOCPropertyContainer)).iterator(); iterUnset.hasNext();) { // set/create new list on copy Map with corresponding copy of container copyCS.setUnsetOCProperty((SDODataObject)origDOCS1toCopyDOCS2Map.get(// oldOCPropertyContainer), (Property)iterUnset.next()); } } // process sequences /** * Fix originalSequences by deep copying the original dataObject:key and the original Sequence:value * key is original deleted object in [deepCopies] - value is copy of the settings in the sequence. * The instances of Sequence inside the originalSequences must be the same ones used in the originalElements */ // iterate the map of for (Iterator aMapIterator = originalCS.getOriginalSequences().keySet().iterator(); aMapIterator.hasNext();) { SDODataObject sequenceDataObjectKey = (SDODataObject)aMapIterator.next(); SDOSequence originalSequence = (SDOSequence)originalCS.getOriginalSequences().get(sequenceDataObjectKey); // create a new Sequence with a pointer to the copy of the original DataObject backpointer // assume that all dataObject backpointers are containment objects. SDODataObject copyOriginalSequenceDataObject = (SDODataObject)origDOCS1toCopyDOCS2Map.get(originalSequence.getDataObject()); SDOSequence copySequence = new SDOSequence(copyOriginalSequenceDataObject); replicateAndRereferenceSequenceCopyPrivate(originalSequence, copySequence, originalSequence.getDataObject(), copyOriginalSequenceDataObject, origDOCS1toCopyDOCS2Map, originalCS); // set the copy map entry keyed on copy with value a deep copy of the copy copyCS.getOriginalSequences().put(copyOriginalSequenceDataObject, copySequence); } /** * fields to ignore // aHelperContext SDOHelperContext (id=42) // dataGraph null // logging true // loggingMapping true // unsetPropsMap HashMap (id=117) // createdXPaths null // deletedXPaths null // modifiedDoms null */ /** * fields to ignore that are on-demand * oldSettings HashMap (id=110) * reverseDeletedMap HashMap (id=116) * oldSequences HashMap (id=88) */ } /** * INTERNAL: * Build the copy tree and cache all reachable DataObjects with their copy
* Cache all non-containment properties - to be set after tree construction
* Recurse the tree in preorder traversal (root, child1-n) * Scope: We do not have to check the copyTree scope when iterating opposites since * we will not enter any opposite property dataTree that is outside of the copyTree scope * @param doMap (cache original -{@literal >} copy DataObject instances to set non-containment properties after tree construction) * @param ncPropMap (cache original DO:non-containment property values to be set after tree construction) */ private SDODataObject copyPrivate(SDODataObject dataObject, HashMap doMap,// HashMap ncPropMap, SDOChangeSummary cs) throws IllegalArgumentException { // check for null DataObject if (null == dataObject) { return null;// this is acceptable behavior } SDODataObject copy = (SDODataObject)getHelperContext()// .getDataFactory().create(dataObject.getType().getURI(), dataObject.getType().getName()); // store current object for reference by the non-containment map doMap.put(dataObject, copy); List ocListOriginal = dataObject._getOpenContentProperties(); for (Iterator anOCIterator = ocListOriginal.iterator(); anOCIterator.hasNext();) { copy.addOpenContentProperty((Property)anOCIterator.next()); } List ocAttrsListOriginal = dataObject._getOpenContentPropertiesAttributes(); for (Iterator anOCAttrIterator = ocAttrsListOriginal.iterator(); anOCAttrIterator.hasNext();) { copy.addOpenContentProperty((Property)anOCAttrIterator.next()); } // start iterating all copy's properties for (Iterator iterInstanceProperties = copy.getInstanceProperties().iterator(); iterInstanceProperties.hasNext();) { SDOProperty eachProperty = (SDOProperty)iterInstanceProperties.next(); boolean isSet = isSet(dataObject, eachProperty, cs); if (isSet) { Object o = getValue(dataObject, eachProperty, cs); if (eachProperty.getType().isDataType()) { if (!eachProperty.getType().isChangeSummaryType()) { /** * ChangeSummaries must be cleared with logging set to the original state without creating oldSettings. * The logging flag from the original will be set on the copy after this copy call completes * and gets set on its container. * The cs is off by default in the copy object. * updateSequence flag is false - we will populate the sequence in order after subtree creation */ copy.setInternal(eachProperty, o, false); } } else { // case matrix for containment and opposite combinations // cont=false, opp=false -> unidirectional // cont=false, opp=true -> bidirectional // cont=true, opp=false -> normal containment // cont=true, opp=true -> bidirectional if (eachProperty.isContainment()) { // process containment properties (normal, half of bidirectionals) copyContainmentPropertyValue(copy, eachProperty, o, doMap, ncPropMap, cs); } else { // copy non-containment do (not properties (unidirectional, half of bidirectionals)) //copyPropertyValue(dataObject, copy, eachProperty, o, copyRoot, doMap); //cacheNContainmentPropertyValue(copy, eachProperty, o, doMap, ncPropMap); // store non-containment properties ArrayList anArray = (ArrayList)ncPropMap.get(dataObject); if (anArray == null) { anArray = new ArrayList(); anArray.add(eachProperty); // store property array into the map for the first time ncPropMap.put(dataObject, anArray); } else { // add to existing array of nc properties in the map anArray.add(eachProperty); } } } } } // sequences will not be processed until the entire tree is copied so we can resolve any reference relationships return copy; } /** * INTERNAL: * Recursive function deep copies all contained properties. * Requirements: The value object has isSet=true for all callers. * @param copy * @param property * @param value * @param doMap (cache original -{@literal >} copy DataObject instances to set non-containment properties after tree construction) * @param ncPropMap (cache original DO:non-containment property values to be set after tree construction) */ private void copyContainmentPropertyValue(SDODataObject copy, SDOProperty property, Object value,// HashMap doMap, HashMap ncPropMap, SDOChangeSummary cs) { if (property.isMany()) { List copyValue = new ArrayList(); // set the copy to an empty list and add each items from the original in sequence // updateSequence flag is false - we will populate the sequence in order after subtree creation copy.setInternal(property, copyValue, false); for (Iterator iterValues = ((List)value).iterator(); iterValues.hasNext();) { SDODataObject o = (SDODataObject)iterValues.next(); SDODataObject copyO = copyPrivate(o, doMap, ncPropMap, cs); ((ListWrapper)copy.getList(property)).add(copyO, false); // set changeSummary on all cs-root elements in the list after they are added to the containment tree if ((copyO != null) && (copyO.getChangeSummary() != null) && (copyO.getType().getChangeSummaryProperty() != null)) { // re-reference copy objects in the copy changeSummary if (o.getChangeSummary().isLogging()) { (copyO.getChangeSummary()).setLogging(true); } copyChangeSummary(o.getChangeSummary(),// copyO.getChangeSummary(), doMap); } } } else {// handle non-many case // implementers of this function will always pass in a DataObject that may be null SDODataObject copyO = copyPrivate((SDODataObject)value, doMap, ncPropMap, cs); // #5852525 handle null properties with isSet=true - fixed 20070130 // we will set the isSet index in the ValueStore to true for all isSet=true objects, even NULL ones. // updateSequence flag is false - we will populate the sequence in order after subtree creation copy.setInternal(property, copyO, false); // set changeSummary on all cs-root elements in the list after they are added to the containment tree using the original logging value if ((copyO != null) && (copyO.getChangeSummary() != null) && (copyO.getType().getChangeSummaryProperty() != null)) { // re-reference copy objects in the copy changeSummary if (((SDODataObject)value).getChangeSummary().isLogging()) { copyO.getChangeSummary().setLogging(true); } copyChangeSummary(((SDODataObject)value).getChangeSummary(),// copyO.getChangeSummary(), doMap); } } } /** * INTERNAL: * Return the helperContext containing this copyHelper. * @return */ public HelperContext getHelperContext() { if(null == aHelperContext) { aHelperContext = HelperProvider.getDefaultContext(); } return aHelperContext; } /** * INTERNAL: * Set the helperContext if this copyHelper was created using the default constructor. * @param helperContext */ public void setHelperContext(HelperContext helperContext) { aHelperContext = helperContext; } /** * INTERNAL: * Used during XML Unmarshal. * @param dataObject * @param property * @param cs * @return */ private boolean isSet(SDODataObject dataObject, Property property, SDOChangeSummary cs) { if (cs != null) { return cs.wasSet(dataObject, property); } return dataObject.isSetInternal(property); } /** * INTERNAL: * Used during XML Unmarshal. * @param dataObject * @param property * @param cs * @return */ private Object getValue(SDODataObject dataObject, Property property, SDOChangeSummary cs) { if (cs != null) { Object returnValue = cs.getPropertyInternal(dataObject, property); if (property.isMany()) { if (cs.getOriginalElements().containsKey(returnValue)) { // are we using the cast to List as a sort of instance check that would throw a CCE? return cs.getOriginalElements().get(returnValue); } } return returnValue; } return dataObject.get(property);// get the value of current property } }




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