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I have found the solution but the behavior is quite worrying and thought I ask here if anyone else seen it too.

Basically, the same binary which has been pinned to be built in x86 (will explain why below) running in x64 Windows 7 will leak unless I force a GC.Collect()

To explain:

  1. The application does a lot of bitmap rendering (>60 per/sec)
  2. There is an external C++ dll (managed C++)
  3. There are two threads (worker and ui)
  4. There is UI refreshing (stats)
  5. This behavior happens only on this machine, Windows 7 x86 runs it fine.

The application will grow to over 1.5G and eventually throw an Out Of Memory exception. The faster (1) works the faster the exception.

For those ready to shoot (2) for causing the leak, I did test removing it and the leak remained plus the memory gets released fine if I do GC.Collect(), which in my books is a .NET issue.

Thank you.

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I am afraid, we can't say much without any code, which most likely is not possible. Try to remove parts of the bitmap rendering and try to identify which part causes the leak and post that part. It might help us helping you. –  Daniel Hilgarth Apr 7 '11 at 11:15

4 Answers 4

up vote 0 down vote accepted

OK, for what is worth, here is my catch.

I have seen exactly the same issue you are experiencing. It was back in .NET 2.0 but I was working with big images and although I would dispose the images, the memory consumption would go up - until I manually call GC.Collect().

What else was similar? Hosting! My application was an unmanaged EXE and that would use COM to create a an object which was a .NET class exposed to COM. This would cause the unmanaged EXE to host the CLR.

On Windows X64, X32 apps will be loaded in WOW (windows on windows) mode which is a similar hosting which I believe can exhibit similar issues. It seems GC cannot fully understand the memory consumption when it is in a hosted environment.

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Very interesting, although I don't think it is my case (forced Disposal seems to work)... I will keep in-mind either way. Thank you. –  George Apr 7 '11 at 12:00
    
Dispose() did not work in mine as well. Memory would just go up with dispose as well. –  Aliostad Apr 7 '11 at 12:02
    
I assume you mean Dispose did work and I think you are right... ! Dispose helps but the real problem is the fact that GC doesn't collect in the first place. –  George Apr 7 '11 at 12:06
    
yes, exactly. I have not bothered to report it yet since I moved to another company but your case sounds interesting. –  Aliostad Apr 7 '11 at 12:08
    
That last paragraph needs to go. The premise of "I don't know what's going on, must be a bug in Windows" is very unhelpful. It makes users stop looking for the real problem. And it is nonsense, wow64 is rock solid. –  Hans Passant Apr 7 '11 at 12:29

Are you properly disposing your bitmaps - and all other disposable resources including GDI+ objects?

using(Bitmap bitmap = ...)
{
    ... do your stuff
}

You need to look at your application to find the problem - clearly 1.5GB is excessive for a 32-bit app. The fact that you are getting different behaviour on different machines with different OS doesn't mean you should blame the OS.

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No I am not blaming the OS... however I know that MS states somewhere that the x64 garbage collector runs in less-regular circles than the x86. –  George Apr 7 '11 at 11:35
    
I believe this was the issue. It appears that forcing a Dispose() method call for each bitmap created has "flattened" the memory usage graph... I don't mean to be critical but I would say this is an issue/bug with the framework as it is not triggering the expected clean-up behavior –  George Apr 7 '11 at 11:57
    
@George: "I would say this is an issue/bug with the framework" - I disagree. Applications are expected to call IDisposable.Dispose on all types that implement IDisposable. The fact that you can get away without doing it in some circumstances doesn't change the fact that it's your responsibility to do so. –  Joe Apr 7 '11 at 16:54

You could try not to rely on the garbage collector as much. If you rewrite your draw code to clean up unused resources, you probably won't run into the scenario described.

Image.Dispose()

Note Always call Dispose before you release your last reference to the Image. Otherwise, the resources it is using will not be freed until the garbage collector calls the Image object's Finalize method.

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Yeap, so why isn't the collector running? Forcing the collection worked –  George Apr 7 '11 at 12:04

You have to .Dispose() of your bitmaps when you stop using them. The GC will eventually collect this memory (when it runs the finalizer) even if you don't explicitly call .Dispose() - but the GC is not a magic cure for over-allocating memory, if you do it faster then the GC can collect them, using resources the GC cant control directly (unmanaged resources are exactly that) - then the GC mechanism can't help you.

By calling GC.Collect(0) you are forcing the GC to process the object tree and call all the finalizers, if you don't call it then the GC runs when it thinks it's time, and by then it's too late (due to the high allocation rate).

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It sounds about right ... so this is by design? I mean, throw an out of memory exception before even trying to get GC to collect?! –  George Apr 7 '11 at 11:33
    
Correction: I don't think its the bitmap disposing (will check) cause memory would overflow a lot faster than it currently does (takes a good few minutes at peak rate) - considering average image size of about 200x200 pixels –  George Apr 7 '11 at 11:38
    
The GC attempts to run every once in a while, and when the application reaches the memory limit, the GC will start running more and more cycles. you'll notice that CPU consumption spikes when memory approaches around 1.5 gig. As for the bitmap size - each image should take up (avg) 200x200x4 bytes =~160k. so it's not that much, but it really depends on what you do with them - i.e. if you very frequently lose scope of the images and reallocate them (say in every render phase) - that may require a lot of memory. it would help to know what you're doing actually :) –  NightDweller Apr 9 '11 at 22:35
    
What's missing from my GC comment before is that the finalizer runs on a special thread, this thread cannot cleanup COM STA objects (like the interop Image in question). it MUST run on the UI thread, if the UI thread is busy, say allocating more images - this memory cannot be released and thus you'll run out of memory. –  NightDweller Apr 9 '11 at 22:45

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