Our legacy app is stuck with a terrible framework (okay, I'll name names, it's Tapestry 4) that involves a ridiculous number of EventListeners
(~100,000) for the simplest operations. I'm guessing this is beyond what javax.swing.event.EventListenerList
was ever meant to handle, and in this unfortunate use case it's causing us some nasty performance headaches.
I spent a couple of hours whipping up the fairly naive HashMap/ArrayList
-based replacement below, and it's massively faster in almost every way:
Add 50,000 listeners:
EventListenerList
> 2 secondsEventListenerMap
~ 3.5 milliseconds
Fire event to 50,000 listeners:
EventListenerList
0.3-0.5 millisecondsEventListenerMap
0.4-0.5 milliseconds
Remove 50,000 listeners (one at a time):
EventListenerList
> 2 secondsEventListenerMap
~280 milliseconds
Firing might be just a hair slower, but modification is enormously faster. Admittedly, the situation this framework has put us in is pathological, but it still seems like EventListenerList
could have been replaced a long time ago. Obviously there are issues with the public API (e.g., it exposes its raw internal state array), but there must be more to it than that. Maybe there's multithreaded cases where EventListenerList
is much safer or more performant?
public class EventListenerMap
{
private final ReadWriteLock lock = new ReentrantReadWriteLock();
private final Lock readLock = lock.readLock();
private final Lock writeLock = lock.writeLock();
private Map<Class, List> llMap = new HashMap<Class, List>();
public <L extends EventListener> void add ( Class<L> listenerClass, L listener )
{
try
{
writeLock.lock();
List<L> list = getListenerList( listenerClass );
if ( list == null )
{
list = new ArrayList<L>();
llMap.put( listenerClass, list );
}
list.add( listener );
}
finally
{
writeLock.unlock();
}
}
public <L extends EventListener> void remove ( Class<L> listenerClass, L listener )
{
try
{
writeLock.lock();
List<L> list = getListenerList( listenerClass );
if ( list != null )
{
list.remove( listener );
}
}
finally
{
writeLock.unlock();
}
}
@SuppressWarnings("unchecked")
public <L extends EventListener> L[] getListeners ( Class<L> listenerClass )
{
L[] copy = (L[]) Array.newInstance( listenerClass, 0 );
try
{
readLock.lock();
List<L> list = getListenerList( listenerClass );
if ( list != null )
{
copy = (L[]) list.toArray( copy );
}
}
finally
{
readLock.unlock();
}
return copy;
}
@SuppressWarnings("unchecked")
private <L extends EventListener> List<L> getListenerList ( Class<L> listenerClass )
{
return (List<L>) llMap.get( listenerClass );
}
}
EventListenerList
.