In practice, how do implementations of the Observer pattern avoid bad behavior due to reentrancy?
To clarify "bad behavior", consider the situation where a Subject in the pattern has methods MethodA() and MethodB(), events OnMethodA() and OnMethodB(), and one or more Observers, in a single-threaded, synchronous implementation:
- Subject.MethodA() is called,
- the Subject does what it does for MethodA(), then calls OnMethodA() for all the Observers,
- Observer1 gets the OnMethodA() event, and calls Subject.MethodB(),
- the Subject does what it does for MethodB(), then calls OnMethodB() for all the Observers,
At this point, we're calling OnMethodB() for all observers, even though we're still in the middle of the notifications for OnMethodA(). This means any observer after Observer1 in the list is going to see "OnMethodB()" before "OnMethodA()" - that's bad behavior.
- Observer2 (written by a developer who doesn't know anything about Observer1) gets the OnMethodB() event, and calls Subject.MethodA(),
- …forever. Subject.MethodA() -> Observer.OnMethodA() -> Subject.MethodB() -> Observer.OnMethodB() -> Subject.MethodA() -> etc…
Now you're going to overflow the stack. That's bad behavior.
If you've designed with asynchronous, queue-based notifications from the start, or throw exceptions on calls to Subject during notifications, you can avoid this, and that's fairly easy to understand. What's bothering me is I almost never see this mentioned as a best (or really, only) practice in implementing the pattern. You'd have to already have an awareness of the problem to google "observer pattern reentrant", and the results in that search seem to only be people who have encountered the problem, rather than warnings in a book on patterns.
So am I missing something? In practice, how do implementations of the Observer pattern avoid bad behavior due to reentrancy?