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dbUnit is a JUnit extension (also usable from Ant and Maven) targeted for database-driven projects that, among other things, puts your database into a known state between test runs. This is an excellent way to avoid the myriad of problems that can occur when one test case corrupts the database and causes subsequent tests to fail or exacerbate the damage.

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/*
  File: PropertyChangeMulticaster.java

  Originally written by Doug Lea and released into the public domain.
  This may be used for any purposes whatsoever without acknowledgment.
  Thanks for the assistance and support of Sun Microsystems Labs,
  and everyone contributing, testing, and using this code.

  This class is based on Sun JDK java.beans.VetoableChangeSupport,
  which is copyrighted by Sun. (It shares practically no code, but for 
  consistency, the documentation was lifted and adapted here.)

  History:
  Date       Who                What
  14Mar1999   dl                 first release
*/

package org.dbunit.util.concurrent;

import org.slf4j.Logger;
import org.slf4j.LoggerFactory;

import java.beans.PropertyChangeEvent;
import java.beans.PropertyChangeListener;
import java.io.IOException;
import java.io.ObjectInputStream;
import java.io.ObjectOutputStream;
import java.io.Serializable;
import java.util.HashMap;

/**
 * This class is interoperable with java.beans.PropertyChangeSupport,
 * but relies on a streamlined copy-on-write scheme similar to
 * that used in CopyOnWriteArrayList. This leads to much better
 * performance in most event-intensive programs. It also adheres to clarified
 * semantics of add and remove  operations.
 * 

* Sample usage. * *

 * class Thing {
 *   protected Color myColor = Color.red; // an example property
 *
 *   protected PropertyChangeMulticaster listeners =
 *     new PropertyChangeMulticaster(this);
 *
 *   // registration methods, including:
 *   void addListener(PropertyChangeListener l) {
 *     // Use the `ifAbsent' version to avoid duplicate notifications
 *     listeners.addPropertyChangeListenerIfAbsent(l);
 *   }
 *  
 *  public synchronized Color getColor() { // accessor
 *    return myColor;
 *  }
 *
 *   // internal synchronized state change method; returns old value
 *   protected synchronized Color assignColor(Color newColor) { 
 *     Color oldColor = myColor;
 *     myColor = newColor; 
 *     return oldColor;
 *   }
 *
 *   public void setColor(Color newColor) {
 *     // atomically change state
 *     Color oldColor = assignColor(newColor);
 *     // broadcast change notification without holding synch lock
 *     listeners.firePropertyChange("color", oldColor, newColor);
 *   }
 * }
 * 
*

[ Introduction to this package. ] * * @author Doug Lea * @author Last changed by: $Author$ * @version $Revision$ $Date$ * @since ? (pre 2.1) */ public class PropertyChangeMulticaster implements Serializable { /** * Logger for this class */ private static final Logger logger = LoggerFactory.getLogger(PropertyChangeMulticaster.class); // In order to allow this class to be lifted out without using // the whole package, the basic mechanics of CopyOnWriteArrayList // are used here, but not the class itself. // This also makes it barely faster. /** * The array of listeners. Copied on each update **/ protected transient PropertyChangeListener[] listeners = new PropertyChangeListener[0]; /** * The object to be provided as the "source" for any generated events. * @serial */ protected final Object source; /** * HashMap for managing listeners for specific properties. * Maps property names to PropertyChangeMulticaster objects. * @serial */ protected HashMap children; /** * Return the child associated with property, or null if no such **/ protected synchronized PropertyChangeMulticaster getChild(String propertyName) { return (children == null)? null : ((PropertyChangeMulticaster)children.get(propertyName)); } /** * Constructs a PropertyChangeMulticaster object. * * @param sourceBean The bean to be given as the source for any events. * @exception NullPointerException if sourceBean is null */ public PropertyChangeMulticaster(Object sourceBean) { if (sourceBean == null) { throw new NullPointerException(); } source = sourceBean; } /** * Add a VetoableChangeListener to the listener list. * The listener is registered for all properties. * If the listener is added multiple times, it will * receive multiple change notifications upon any firePropertyChange * * @param listener The PropertyChangeListener to be added * @exception NullPointerException If listener is null */ public synchronized void addPropertyChangeListener(PropertyChangeListener listener) { logger.debug("addPropertyChangeListener(listener={}) - start", listener); if (listener == null) throw new NullPointerException(); int len = listeners.length; PropertyChangeListener[] newArray = new PropertyChangeListener[len + 1]; if (len > 0) System.arraycopy(listeners, 0, newArray, 0, len); newArray[len] = listener; listeners = newArray; } /** * Add a PropertyChangeListener to the listener list if it is * not already present. * The listener is registered for all properties. * The operation maintains Set semantics: If the listener is already * registered, the operation has no effect. * * @param listener The PropertyChangeListener to be added * @exception NullPointerException If listener is null */ public synchronized void addPropertyChangeListenerIfAbsent(PropertyChangeListener listener) { logger.debug("addPropertyChangeListenerIfAbsent(listener={}) - start", listener); if (listener == null) throw new NullPointerException(); // Copy while checking if already present. int len = listeners.length; PropertyChangeListener[] newArray = new PropertyChangeListener[len + 1]; for (int i = 0; i < len; ++i) { newArray[i] = listeners[i]; if (listener.equals(listeners[i])) return; // already present -- throw away copy } newArray[len] = listener; listeners = newArray; } /** * Remove a PropertyChangeListener from the listener list. * It removes at most one occurrence of the given listener. * If the listener was added multiple times it must be removed * mulitple times. * This removes a PropertyChangeListener that was registered * for all properties, and has no effect if registered for only * one or more specified properties. * * @param listener The PropertyChangeListener to be removed */ public synchronized void removePropertyChangeListener(PropertyChangeListener listener) { logger.debug("removePropertyChangeListener(listener={}) - start", listener); int newlen = listeners.length-1; if (newlen < 0 || listener == null) return; // Copy while searching for element to remove PropertyChangeListener[] newArray = new PropertyChangeListener[newlen]; for (int i = 0; i < newlen; ++i) { if (listener.equals(listeners[i])) { // copy remaining and exit for (int k = i + 1; k <= newlen; ++k) newArray[k-1] = listeners[k]; listeners = newArray; return; } else newArray[i] = listeners[i]; } // special-case last cell if (listener.equals(listeners[newlen])) listeners = newArray; } /** * Add a PropertyChangeListener for a specific property. The listener * will be invoked only when a call on firePropertyChange names that * specific property. However, if a listener is registered both for all * properties and a specific property, it will receive multiple * notifications upon changes to that property. * * @param propertyName The name of the property to listen on. * @param listener The PropertyChangeListener to be added * @exception NullPointerException If listener is null */ public void addPropertyChangeListener(String propertyName, PropertyChangeListener listener) { logger.debug("addPropertyChangeListener(propertyName={}, listener={}) - start", propertyName, listener); if (listener == null) throw new NullPointerException(); PropertyChangeMulticaster child = null; synchronized(this) { if (children == null) children = new HashMap(); else child = (PropertyChangeMulticaster)children.get(propertyName); if (child == null) { child = new PropertyChangeMulticaster(source); children.put(propertyName, child); } } child.addPropertyChangeListener(listener); } /** * Add a PropertyChangeListener for a specific property, if it is not * already registered. The listener * will be invoked only when a call on firePropertyChange names that * specific property. * * @param propertyName The name of the property to listen on. * @param listener The PropertyChangeListener to be added * @exception NullPointerException If listener is null */ public void addPropertyChangeListenerIfAbsent(String propertyName, PropertyChangeListener listener) { logger.debug("addPropertyChangeListenerIfAbsent(propertyName={}, listener={}) - start", propertyName, listener); if (listener == null) throw new NullPointerException(); PropertyChangeMulticaster child = null; synchronized(this) { if (children == null) children = new HashMap(); else child = (PropertyChangeMulticaster)children.get(propertyName); if (child == null) { child = new PropertyChangeMulticaster(source); children.put(propertyName, child); } } child.addPropertyChangeListenerIfAbsent(listener); } /** * Remove a PropertyChangeListener for a specific property. * Affects only the given property. * If the listener is also registered for all properties, * then it will continue to be registered for them. * * @param propertyName The name of the property that was listened on. * @param listener The PropertyChangeListener to be removed */ public void removePropertyChangeListener(String propertyName, PropertyChangeListener listener) { logger.debug("removePropertyChangeListener(propertyName={}, listener={}) - start", propertyName, listener); PropertyChangeMulticaster child = getChild(propertyName); if (child != null) child.removePropertyChangeListener(listener); } /** * Helper method to relay evt to all listeners. * Called by all public firePropertyChange methods. **/ protected void multicast(PropertyChangeEvent evt) { logger.debug("multicast(evt={}) - start", evt); PropertyChangeListener[] array; // bind in synch block below PropertyChangeMulticaster child = null; synchronized (this) { array = listeners; if (children != null && evt.getPropertyName() != null) child = (PropertyChangeMulticaster)children.get(evt.getPropertyName()); } for (int i = 0; i < array.length; ++i) array[i].propertyChange(evt); if (child != null) child.multicast(evt); } /** * Report a bound property update to any registered listeners. * No event is fired if old and new are equal and non-null. * * @param propertyName The programmatic name of the property * that was changed. * @param oldValue The old value of the property. * @param newValue The new value of the property. */ public void firePropertyChange(String propertyName, Object oldValue, Object newValue) { if (logger.isDebugEnabled()) { logger.debug("firePropertyChange(propertyName={}, oldValue={}, newValue={}) - start", new Object[]{ propertyName, oldValue, newValue }); } if (oldValue == null || newValue == null || !oldValue.equals(newValue)) { multicast(new PropertyChangeEvent(source, propertyName, oldValue, newValue)); } } /** * Report an int bound property update to any registered listeners. * No event is fired if old and new are equal and non-null. *

* This is merely a convenience wrapper around the more general * firePropertyChange method that takes Object values. * * @param propertyName The programmatic name of the property * that was changed. * @param oldValue The old value of the property. * @param newValue The new value of the property. */ public void firePropertyChange(String propertyName, int oldValue, int newValue) { if (logger.isDebugEnabled()) { logger.debug("firePropertyChange(propertyName={}, oldValue={}, newValue={}) - start", new Object[]{ propertyName, String.valueOf(oldValue), String.valueOf(newValue) }); } if (oldValue != newValue) { multicast(new PropertyChangeEvent(source, propertyName, new Integer(oldValue), new Integer(newValue))); } } /** * Report a boolean bound property update to any registered listeners. * No event is fired if old and new are equal and non-null. *

* This is merely a convenience wrapper around the more general * firePropertyChange method that takes Object values. * * @param propertyName The programmatic name of the property * that was changed. * @param oldValue The old value of the property. * @param newValue The new value of the property. */ public void firePropertyChange(String propertyName, boolean oldValue, boolean newValue) { if (logger.isDebugEnabled()) { logger.debug("firePropertyChange(propertyName={}, oldValue={}, newValue={}) - start", new Object[]{ propertyName, String.valueOf(oldValue), String.valueOf(newValue) }); } if (oldValue != newValue) { multicast(new PropertyChangeEvent(source, propertyName, new Boolean(oldValue), new Boolean(newValue))); } } /** * Fire an existing PropertyChangeEvent to any registered listeners. * No event is fired if the given event's old and new values are * equal and non-null. * @param evt The PropertyChangeEvent object. */ public void firePropertyChange(PropertyChangeEvent evt) { logger.debug("firePropertyChange(evt={}) - start", evt); Object oldValue = evt.getOldValue(); Object newValue = evt.getNewValue(); if (oldValue == null || newValue == null || !oldValue.equals(newValue)) multicast(evt); } /** * Check if there are any listeners for a specific property. * If propertyName is null, return whether there are any listeners at all. * * @param propertyName the property name. * @return true if there are one or more listeners for the given property * */ public boolean hasListeners(String propertyName) { logger.debug("hasListeners(propertyName={}) - start", propertyName); PropertyChangeMulticaster child; synchronized (this) { if (listeners.length > 0) return true; else if (propertyName == null || children == null) return false; else { child = (PropertyChangeMulticaster)children.get(propertyName); if (child == null) return false; } } return child.hasListeners(null); } /** * @serialData Null terminated list of PropertyChangeListeners. *

* At serialization time we skip non-serializable listeners and * only serialize the serializable listeners. * */ private synchronized void writeObject(ObjectOutputStream s) throws IOException { logger.debug("writeObject(s={}) - start", s); s.defaultWriteObject(); for (int i = 0; i < listeners.length; i++) { if (listeners[i] instanceof Serializable) { s.writeObject(listeners[i]); } } s.writeObject(null); } private void readObject(ObjectInputStream s) throws ClassNotFoundException, IOException { logger.debug("readObject(s={}) - start", s); listeners = new PropertyChangeListener[0]; // paranoically reset s.defaultReadObject(); Object listenerOrNull; while (null != (listenerOrNull = s.readObject())) { addPropertyChangeListener((PropertyChangeListener)listenerOrNull); } } }





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