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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.tools.schemaframework;

import java.util.*;

import org.eclipse.persistence.descriptors.ClassDescriptor;
import org.eclipse.persistence.internal.sessions.AbstractSession;

/**
 * 

* Purpose: This class is used to populate example data into the database, it allows for circular references to be resolved. *

* Responsibilities: *

    *
  • Allow objects to be registered. *
  • Allow objects to be looked up. *
  • Store a globally accessible default instance. *
*/ public class PopulationManager { /** Store the objects registered. */ protected Hashtable registeredObjects; /** Store the default instance. */ protected static PopulationManager defaultManager; public PopulationManager() { registeredObjects = new Hashtable(); } /** * Add all of the objects of the class and all of its subclasses. * The session is needed because there is no other way to find all subclasses. */ public void addAllObjectsForAbstractClass(Class objectsClass, AbstractSession session, Vector allObjects) { ClassDescriptor descriptor = session.getDescriptor(objectsClass); addAllObjectsForClass(objectsClass, allObjects); for (ClassDescriptor child : descriptor.getInheritancePolicy().getChildDescriptors()) { addAllObjectsForAbstractClass(child.getJavaClass(), session, allObjects); } } /** * Add all of the objects of the class and all of its subclasses. * The session is needed because there is no other way to find all subclasses. */ public void addAllObjectsForAbstractClass(Class objectsClass, org.eclipse.persistence.sessions.Session session, Vector allObjects) { addAllObjectsForAbstractClass(objectsClass, (AbstractSession)session, allObjects); } /** * Add all of the objects of the class. */ public void addAllObjectsForClass(Class objectsClass, List allObjects) { if (!getRegisteredObjects().containsKey(objectsClass)) { return; } for (Object object : ((Map)getRegisteredObjects().get(objectsClass)).values()) { allObjects.add(object); } } /** * Check if the object is registered given its name. */ public boolean containsObject(Class objectsClass, String objectsName) { return ((getRegisteredObjects().containsKey(objectsClass)) && (((Hashtable)getRegisteredObjects().get(objectsClass)).containsKey(objectsName))); } /** * Check if the object is registered given its name. */ public boolean containsObject(Object objectToCheck, String objectsName) { return containsObject(objectToCheck.getClass(), objectsName); } /** * Return all of the objects registered. */ public Vector getAllClasses() { Vector allClasses = new Vector(); for (Enumeration e = getRegisteredObjects().keys(); e.hasMoreElements();) { allClasses.addElement(e.nextElement()); } return allClasses; } /** * Return all of the objects registered. */ public Vector getAllObjects() { Vector allObjects; allObjects = new Vector(); for (Enumeration e = getAllClasses().elements(); e.hasMoreElements();) { Class eachClass = (Class)e.nextElement(); addAllObjectsForClass(eachClass, allObjects); } return allObjects; } /** * Return all of the objects of the class and all of its subclasses. */ public Vector getAllObjectsForAbstractClass(Class objectsClass) { Vector allObjects; allObjects = new Vector(); // hummm, how can this be done.... return allObjects; } /** * Return all of the objects of the class and all of its subclasses. * The session is needed because there is no other way to find all subclasses. */ public Vector getAllObjectsForAbstractClass(Class objectsClass, AbstractSession session) { ClassDescriptor descriptor = session.getDescriptor(objectsClass); Vector allObjects = new Vector(); addAllObjectsForClass(objectsClass, allObjects); if (descriptor.hasInheritance()) { for (ClassDescriptor child : descriptor.getInheritancePolicy().getChildDescriptors()) { addAllObjectsForClass(child.getJavaClass(), allObjects); } } return allObjects; } /** * Return all of the objects of the class. */ public Vector getAllObjectsForClass(Class objectsClass) { Vector allObjects; allObjects = new Vector(); addAllObjectsForClass(objectsClass, allObjects); return allObjects; } /** * Lazy initialize the default instance. */ public static PopulationManager getDefaultManager() { if (defaultManager == null) { defaultManager = new PopulationManager(); } return defaultManager; } /** * Return the object registered given its name. */ public Object getObject(Class objectsClass, String objectsName) { if (!(getRegisteredObjects().containsKey(objectsClass))) { return null; } return ((Hashtable)getRegisteredObjects().get(objectsClass)).get(objectsName); } /** * Return the registered objects. */ public Hashtable getRegisteredObjects() { return registeredObjects; } /** * Register the object given its name. * The objects are represented as a hashtable of hashtables, lazy initialized on the class. */ public Object registerObject(Class javaClass, Object objectToRegister, String objectsName) { if (!(getRegisteredObjects().containsKey(javaClass))) { getRegisteredObjects().put(javaClass, new Hashtable()); } ((Hashtable)getRegisteredObjects().get(javaClass)).put(objectsName, objectToRegister); return objectToRegister; } /** * Register the object given its name. * The objects are represented as a hashtable of hashtables, lazy initialized on the class. */ public Object registerObject(Object objectToRegister, String objectsName) { if (!(getRegisteredObjects().containsKey(objectToRegister.getClass()))) { getRegisteredObjects().put(objectToRegister.getClass(), new Hashtable()); } ((Hashtable)getRegisteredObjects().get(objectToRegister.getClass())).put(objectsName, objectToRegister); return objectToRegister; } /** * Remove the object given its class and name. */ public void removeObject(Class classToRemove, String objectsName) { if (getRegisteredObjects().containsKey(classToRemove)) { ((Hashtable)getRegisteredObjects().get(classToRemove)).remove(objectsName); } } /** * Remove the object given its name. */ public Object removeObject(Object objectToRemove, String objectsName) { removeObject(objectToRemove.getClass(), objectsName); return objectToRemove; } /** * Reset the default instance. */ public static void resetDefaultManager() { defaultManager = null; } /** * Set the default instance. */ public static void setDefaultManager(PopulationManager theDefaultManager) { defaultManager = theDefaultManager; } /** * Set the registered objects. */ public void setRegisteredObjects(Hashtable registeredObjects) { this.registeredObjects = registeredObjects; } }




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