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iPhoneOS 3.2

I use NSKeyedUnarchiver's unarchiveObjectWithFile: to load a custom object that contains a single large NSData and another much smaller object. The dealloc method in my custom object gets called, the NSData object is released, its retainCount == 1 just before. Physical memory does not decrement by any amount, let alone a fraction of the NSData size, and with repetition memory warnings are reliably generated: I have test until I actually received level 2 warnings. =(

NSString *archivePath = [[[NSBundle mainBundle] pathForResource:@"lingering"]
     ofType:@"data"] retain];
lingeringDataContainer = [[NSKeyedUnarchiver unarchiveObjectWithFile:archivePath] retain];
[archivePath release];
[lingeringDataContainer release];

and now the dealloc....

- (void) dealloc {
   [releasingObject release];
   [lingeringData release]; 
   [super dealloc];

Before release:

(gdb) p (int) [(NSData *) lingeringData retainCount]
$1 = 1


(gdb) p (int) [(NSData *) lingeringData retainCount]
Target does not respond to this message selector.

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Well, you'd probably get that if lingeringData is no longer a valid object. –  David Dunham Apr 30 '10 at 1:41
I should be getting that is my point. It shows that I am not retaining the NSData object somewhere else. –  ctpenrose Apr 30 '10 at 7:22

2 Answers 2

First, you're retaining and releasing objects which do not need to have that happen to them. Here's the cleaned up code:

NSString *archivePath = [[NSBundle mainBundle] pathForResource:@"lingering"]
     ofType:@"data"]; // Do not retain again.
lingeringDataContainer = [NSKeyedUnarchiver unarchiveObjectWithFile:archivePath]; // Do not retain again.
// Do not release, because archivePath is already autoreleaed: [archivePath release];
// Again, this is already autoreleased: [lingeringDataContainer release];

Or more simply:

NSString *archivePath = [[NSBundle mainBundle] pathForResource:@"lingering"]
lingeringDataContainer = [NSKeyedUnarchiver unarchiveObjectWithFile:archivePath]; 

Second, where's the rest of the code? It's probably something else which is being retained or cached somewhere else.

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I need to retain the data container for future use. Look again at the gdb output and you will see that you are wrong about any caching. –  ctpenrose Apr 29 '10 at 22:11
I tried to edit the comment above and took too long =( Anyway, I tried your "cleaned up" code, to be thorough as I was fairly confident that it would not give different results since the retain count was the same at the end of the code block as it was in mine, and the leak persists. There effectively isn't any other code -- it has been removed to isolate the problem. It looks like there is a bug in NSKeyedUnarchiver. It may be similar to: stackoverflow.com/questions/1250050/… –  ctpenrose Apr 29 '10 at 22:46
Your dealloc should have a [lingeringDataContainer release] then. What is lingeringData? Is that a separate object or is it a typo? The question in your link points to a NSURLConnection. I don't know of any bug with NSKeyedArchiver. I use it a lot but I haven't checked its memory usage, so maybe it's caching the data. What is the byte size of the data? –  lucius Apr 30 '10 at 6:40
No it should not. lingeringData is an NSData... I posted the dealloc for lingerDataContainer. An object doesn't call its own release method from within dealloc. The code example is small, but it doesn't need to be bigger since the data isn't used for anything. The only other code of interest perhaps are the encode/decode methods... they are very simple. The bytesize varies from 1-3mbs in my tests. –  ctpenrose Apr 30 '10 at 7:22
I just noticed that setObjectZone: can be implemented by subclasses of NSCoder.. I would love to know that going this route would actually work (destroy the zone for each release) before I try it =) –  ctpenrose Apr 30 '10 at 7:34

When are you checking the memory usage? Is it just after the code snippet you posted? archivePath and lingeringDataContainer are both autoreleased. They will not be deallocated until (at least) the autorelease pool is drained (usually at the end of the current event). There may also be a lot of other internal stuff that has been autoreleased and won't go away until the pool is drained.

Try doing this:

NSAutoreleasePool* pool = [[NSAutoreleasePool alloc] init]; // <==
NSString *archivePath = [[[NSBundle mainBundle] pathForResource:@"lingering"]
 ofType:@"data"] retain];
lingeringDataContainer = [[NSKeyedUnarchiver unarchiveObjectWithFile:archivePath] retain];
[pool release];                                             // <==
[archivePath release];
[lingeringDataContainer release];
share|improve this answer
I tried creating my own autorelease pool to encapsulate the unarchiving, releasing it when finished, and the memory is still retained. I check the memory usage continuously with Instruments as I repeat the process of unarchiving objects. While some might argue that the memory isn't really occupied, the level 1 and level 2 warnings say that the memory retention is real. It is quite possible that NSKeyedUnarchiver does not use the local autorelease pool on iPhoneOS for some reason. unarchiveObjectWithFile: is a factory object call... –  ctpenrose May 2 '10 at 7:54
Then I'm confused. The above snippet of code does not contain any leaks and neither did your original code, unless there is a leak in initWithCoder: Can you post that? –  JeremyP May 2 '10 at 19:51

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