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Because if main() creates an NSAutoreleasePool, and drains it before the program exits, then even though it can prevent memory leaks, the whole process's memory space is going to be freed up next anyway -- does it matter if we free up little pieces if the whole piece is freed up next? In fact, if it keeps on working on the small pieces, won't it cause the program to exit slower?

(drain can invoke release, which in turn invoke dealloc, but if dealloc is only to free up memory but nothing else (such as closing a file), then the drain won't help freeing up memory)

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up vote 5 down vote accepted

It's considered good practice to clean up after yourself where possible, rather than relying on the environment to do it for you. If all you're worried about is memory usage, then no, the topmost pool isn't strictly necessary--but that's not the only thing you need to consider. Objects may do things other than free memory in their -dealloc methods (e.g. flushing files to disk, releasing rare OS resources, or freeing up resources that aren't otherwise returned to the system on process exit.)

Not to mention the console spam when objects get autoreleased without a pool present.

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Apple strongly discourages the use of dealloc for anything other than freeing memory. Scarce resources should be handled by the application's delegate, in the applicationWillTerminate: method (or whatever it's called). – dreamlax May 13 '12 at 20:13
That's not the correct location at all. If an object wraps a scarce resource (e.g. a FileHandle or SharedMemory or KernelThingy class), it is responsible for disposing of that resource when done. The application delegate is responsible for freeing up application-wide resources, not object-wide resources. – Jonathan Grynspan May 13 '12 at 20:15
There is no promise that dealloc will be run at application termination time (and it generally isn't). There is a promise that applicationWillTerminate: will run, as well as that the equivalent notification will be posted. – Rob Napier May 13 '12 at 20:16
This is true. That's why classes like NSStream and NSFileHandle have -close and -closeFile methods, respectively. However, these classes do dispose of their sparse resources on deallocation anyway, because deallocation may occur when explicit destruction otherwise does not. (i.e., -close is called from within -dealloc.) It's all part of building a robust system. – Jonathan Grynspan May 13 '12 at 20:19
Sure; we probably don't actually disagree here. I agree with calling these kind of things in dealloc. You just can't rely on them being called in dealloc, so observing program termination is often required. And the top-level autorelease drain is almost never going to actually call your dealloc. It's still a good thing; no argument. – Rob Napier May 13 '12 at 20:26

During program termination of a GUI program, dealloc is not called. It's bypassed as a special-case to avoid slowing down shutdown. This is important in case you're relying on dealloc being called, since there is no promise that it will be.

The top-level autorelease pool is there so that the system can reliably give you warnings for threads that are missing an autorelease pool (and Jonathan points out). It will never really drain in a GUI program. It will drain in a command-line program, and it could slow down program completion, but that generally isn't a huge problem. If it is in your commandline app, you could move the exit() prior of the autorelease pool drain.

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