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i've been playing some time with different builds of my application and there seem strange things to happen:

my app has a 5mb idle footprint. when uploading a file memory in size of the file is reserved. after the upload the reserved memory should be freed. now there are differences in the builds (gc = garbage collector):

  • 32bit i386 no-GC: all memory is freed instantly.
  • 32bit i386 GC: almost all memory is freed instantly. the rest some time later.
  • 64bit x86_64 no-GC: minimal memory is freed. like 10%
  • 64bit x86_64 GC: no memory at all is freed. the memory stays reserved for hours. (activity mon)

i'm using LLVM with CLANG. i have been running today instruments all the time and was checking for leaks/zombies/etc. and everything seems to be clean. (the app is rather simple.)

is there an explanation for this behavior?


That's some weird stuff. I've boiled the problem to this:

I load a 20mb file into a NSData and release it. I'm doing this without any garbage collection enabled. The code is:

NSData *bla = [[NSData alloc] initWithContentsOfFile:@"/bigshit"];
[bla release];

When I build for i386 32bit the 20mb are allocated and released. When I switch the build to 64bit x86_64 the release does nothing. The 20mb stay allocated.

upper pic 32bit lower 64

There is no difference between the two apps except that the upper one is built for 32bit and the lower one 64bit. There is no GC running. (With GC enabled the same problem appears.)

Update 2:

The Same behavior can be observed when I create a new cocoa app from scratch with only the upper code in applicationDidFinishLaunching:. In 64bit mode the memory is not released. i386 works as expected.

The same problem appears with NSString instead of NSData. It also appears when I boot the 64bit kernel. (Holding 64 at startup.)

OS is 10.6.0

share|improve this question
Have you tried allocation and deallocating lots of NSData instances to see if the memory for any of them is reclaimed? It might be that the program doesn't return the memory to the OS unless there is a shortage of memory. – Amuck Sep 5 '09 at 22:49
I just tried to reproduce this on 10.6 without luck. Have you filed a bug with your test app? – Ken Sep 6 '09 at 1:02
Your app is behaving correctly and not leaking memory. See my answer below for a semi-detailed explanation. – bbum Sep 6 '09 at 3:01
up vote 10 down vote accepted

First, use Instrument's Object Graph instrument to verify that the memory is no longer considered to be in use; does not have a retain count or a strong reference somewhere.

If it is no longer in use, then the memory is sticking around simply because you haven't hit the threshold at which the collector cares.

However, this statement:

64bit x86_64 no-GC: minimal memory is freed. like 10%

Makes me wary. Specifically, if your code is designed to work in non-GC -- with retain/release -- then either (a) you have a memory leak and, if using CFRetain or some kind of global cache, that might impact GC or (b) you aren't using the right tools to figure out whether or not you have a memory leak.

So, how are you determining that you are leaking memory?

Update; you are using Activity Monitor to monitor the RSIZE/VSIZE of the process. This won't actually tell you anything useful beyond "is my process growing over time".

More likely than not (I haven't looked at the source), this code:

NSData *bla = [[NSData alloc] initWithContentsOfFile:@"/bigpoop"];

Will cause the 20MB file to be mmap()'d in to the process. There isn't a malloc() style allocation involved at all. Instead, the OS hands 20MB of contiguous address space to your process and maps the file's contents into it. As you read the contents of the NSData, it'll page fault in the file as you go.

When you release bla, the mapping is destroyed. But that doesn't mean that the VM subsystem is going to reduce your application's address space by 20MB.

So, you are burning up a bunch of address space, but not actual memory. Since your process is 64 bits, address space is pretty much an infinite resource and there is very little cost to using addresses, thus the reason why the OS is implemented this way.

I.e. there is no leak and your app is behaving correctly, GC or no.

This is a common misconception and, thus, star'd the question.

share|improve this answer
I'm using the memory leak instruments. And as a 32bit build everything works as expected. – jsz Sep 5 '09 at 21:11
please read my updates to the original question. – jsz Sep 5 '09 at 22:30
thanks for the answer. it seems you're right :) – jsz Sep 6 '09 at 7:47
I want to follow up on this. Maybe I should create a new question but I'll try this first. So let's say I want to send a huge file over the network and I load it into NSData with NSDataReadingMappedAlways. I slice it up into parts and then progressively send it. After the file is sent end every byte has been read will my RSIZE have grown by the size of the file no matter how huge it is? Is that fine? – hjaltij Feb 27 '12 at 15:57

A garbage collector doesn't necessarily release memory immediately.

In the case of the Objective-C garbage collector, you can send Cocoa's garbage collector object a collectIfNeeded message to suggest that now may be a good time to do some collection, or collectExhaustively to order it to immediately start collecting any and all garbage (but even this is interruptible). See the docs.

share|improve this answer

I have a very similar problem in iPhoneOS 3.2 and I really don't think that the memory is being reclaimed -- I eventually trigger memory warnings. There is a small chance that I have overlooked a mistake of my own but I have been very thorough.

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. =(

Before release:

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

After release:

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

share|improve this answer
You have a different problem. GC doesn't exist on the iPhone, and retainCount is the wrong thing to use to debug object-lifetime problems anyway. (Use Instruments instead.) Since this is a description of a different problem and it doesn't answer the question, you should post it as a separate question. – Peter Hosey Apr 30 '10 at 3:43

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