Marc Gravell has already provided an excellent answer; seeing as how I partly "inspired" this question, I would like to add one thing:
One of the core principles of exception handling is never to throw an exception inside an exception handler. (Note - re-throwing a domain-specific and/or wrapped exception is OK; I am talking about an unexpected exception here.)
There are all sorts of reasons why you need to prevent this from happening:
At best, you mask the original exception; it becomes impossible to know for sure where the program originally failed.
In some cases, the runtime may simply be unable to handle an unhandled exception in an exception handler (say that 5 times fast). In ASP.NET, for example, installing an exception handler at certain stages of the pipeline and failing in that handler will simply kill the request - or crash the worker process, I forget which.
In other cases, you may open yourself up to the possibility of an infinite loop in the exception handler. This may sound like a silly thing to do, but I have seen cases where somebody tries to handle an exception by logging it, and when the logging fails... they try to log the failure. Most of us probably wouldn't deliberately write code like this, but depending on how you structure your program's exception handling, you can end up doing it by accident.
So what does this have to do with
OutOfMemoryException doesn't tell you anything about why the memory allocation failed. You might assume that it was because you tried to allocate a huge buffer, but maybe it wasn't. Maybe some other rogue process on the system has literally consumed all of the available address space and you don't have a single byte left. Maybe some other thread in your own program went awry and went into an infinite loop, allocating new memory on each iteration, and that thread has long since failed by the time the
OutOfMemoryException ends up on your current stack frame. The point is that you don't actually know just how bad the memory situation is, even if you think you do.
So start thinking about this situation now. Some operation just failed at an unspecified point deep in the bowels of the .NET framework and propagated up an
OutOfMemoryException. What meaningful work can you perform in your exception handler that does not involve allocating more memory? Write to a log file? That takes memory. Display an error message? That takes even more memory. Send an alert e-mail? Don't even think about it.
If you try to do these things - and fail - then you'll end up with non-deterministic behaviour. You'll possibly mask the out-of-memory error and get mysterious bug reports with mysterious error messages bubbling up from all kinds of low-level components you wrote that aren't supposed to be able to fail. Fundamentally, you've violated your own program's invariants, and this is going to be a nightmare to debug if your program ever does end up running under low-memory conditions.
One of the arguments presented to me before was that you might catch an
OutOfMemoryException and then switch to lower-memory code, like a smaller buffer or a streaming model. However, this "Expection Handling" is a well-known anti-pattern. If you know you're about to chew up a huge amount of memory and aren't sure whether or not the system can handle it, then check the available memory, or better yet, just refactor your code so that it doesn't need so much memory all at once. Don't rely on the
OutOfMemoryException to do it for you, because - who knows - maybe the allocation will just barely succeed and trigger a bunch of out-of-memory errors immediately after your exception handler (possibly in some completely different component).
So my simple answer to this question is: Never.
My weasel-answer to this question is: It's OK in a global exception handler, if you're really really careful. Not in a try-catch block.