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Why are listener lists (e.g. in Java those that use addXxxListener() and removeXxxListener() to register and unregister listeners) called lists, and usually implemented as Lists? Wouldn't a Set be a better fit, since in the case of listeners there's

  • No matter in which order they get called (although there may well be such needs, but they're special cases; ordinary listener mechanisms make no such guarantees), and
  • No need to register the same listener more than once (whether doing that should result in calling the same listener 1 times or N times, or be an error, is another question)

Is it just a matter of tradition? Sets are some kind of lists under the hood anyway. Are there performance differences? Is iterating through a List faster or slower than iterating through a Set? Does either take more or less memory? The differences are certainly almost negligible.

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'cause it's a list'ener? :p –  kennytm May 30 '10 at 10:41

2 Answers 2

up vote 6 down vote accepted

One important reason for listener lists to be lists (instead of sets) also explains why you often see them being iterated through backwards. A common scenario involves a listener removing itself as a listener when it's notified of some change. If the listeners were stored as a list and iterated forward (or stored as a set and iterated in some undetermined order), removing itself as a listener will cause a ConcurrentModificationException.

So, instead, the listeners are stored as a list and notified in backwards order. Then, if a listener removes itself from the list of listeners when it is notified, it does not cause a ConcurrentModificationException or shift the indices of the other not-yet-notified listeners.

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What if you don't care about the order? –  android developer Apr 23 '14 at 9:36
    
If your listeners ever remove themselves in response to being notified, you should care. Otherwise, you haven't lost anything by preserving the order. –  Mark Apr 23 '14 at 21:44
    
if they remove themselves, why should I care ? I think that for most of the cases, it's ok to use a set. listeners shouldn't usually make assumptions about when they will be called compared to other listeners. Maybe a SkipList is the solution-in-the-middle for this? weird, I can't find a Java class for it. –  android developer Apr 23 '14 at 22:42
    
If you are iterating through a set of listeners, notifying each one, and one of them removes himself from the set which you are currently iterating over, you may get a ConcurrentModificationException. There are certainly other solutions to this problem, but storing the listeners in a list and notifying them in backwards order is certainly a simple one. –  Mark Apr 24 '14 at 20:16
    
oh you mean removing the listener on the calling to one of its functions... yes, this could be problematic, but you could solve this in many ways (and yours assumes a lot about how it's implemented as there could also be multiple threads involved, plus it ruins the entire idea of order that you wanted so much), just as you've written. one way is to use a concurrent set. another is to have another set of listeners that are waiting to be deleted, that will be deleted after the calling to all of them have finished. –  android developer Apr 24 '14 at 21:11

What kind of set? Should all listeners implement equals and hashCode so that a hash set is used, or would an identity hash set do? Is the use case of adding a listener to a list twice worth the complexity? Is there as simple a mechanism for making the set safe against adding or removing listeners during calls to their handlers?

There might be some performance differences, but there certainly are more complicated design, and it forces the multiple add-multiple remove decision into the library rather than leaving it to the application.

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I think an identity hash set would be appropriate. But granted, there's no "CopyOnWriteIdentityHashSet" available out of the box, so using the common list idiom may be just simpler in achieving correct end result. –  Joonas Pulakka May 30 '10 at 10:58
    
But: there indeed is a CopyOnWriteArraySet in Java 6, which is thread-safe ("Traversal via iterators is fast and cannot encounter interference from other threads."). According to java.sun.com/javase/6/docs/technotes/guides/collections/… "This implementation is well-suited to maintaining event-handler lists that must prevent duplicates." –  Joonas Pulakka May 30 '10 at 14:07
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@Joonas Since the Swing handlers are called in the Swing thread, the issue was always modifying the underlying collection and invalidating the iterator rather than concurrent updates. But if you did want those semantics, you certainly could use a copy-on-write set. –  Pete Kirkham May 30 '10 at 21:51
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That's the cool thing with CopyOnWriteXXX: Modifying the underlying collection does not invalidate the iterator. –  Joonas Pulakka May 31 '10 at 5:55

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