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As I understand it, we need to hold references to our Cocoa objects when dealing with them in MonoTouch. The reason for this is that the ObjC runtime might still hold references to the objects, and if we have no "MonoTouch references" on them, they could be garbage collected, which results in a EXC_BAD_ACCESS as soon as the ObjC runtime tries to access them.

Say, we have two UIViewController subclasses, VC1 and VC2. If the user clicks on a button on VC1, the UI navigates to VC2, and the user can navigate back and forth. If I create a new instance of VC2 every time the user navigates to it, then the references to the old instances get lost, so they're garbage collected and the app crashes the next time a didReceiveMemoryWarning is propagated to the UIViewControllers.

How can I release the old references, so I don't have to use the same instance of VC2 every time? Dispose seemed to not be enough.

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2 Answers 2

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As I understand it, we need to hold references to our Cocoa objects when dealing with them in MonoTouch.

Not quite. MonoTouch managed instances will keep a reference to native instances. As long as the managed instance exists the native instance will be alive (since they are reference counted and MonoTouch won't release it's reference).

IOW your need to hold references to the MonoTouch managed instances as long as their native part are required.

The reason for this is that the ObjC runtime might still hold references to the objects ... they could be garbage collected,

Native (Objective C) instances are reference counted, not garbage collected. Native instances won't be released until their reference count reach 0 (which won't happen while an associated managed instance exists);

Also native instances can hold references to other native instances. Not every native instances have a corresponding managed instance.

which results in a EXC_BAD_ACCESS as soon as the ObjC runtime tries to access them.

That won't happen, at least not this way. OTOH it's hard to tell you what's happening in your case (without seeing the code and/or the crashes).

I suspect you're disposing (manually or not) your managed instances before they have completed their jobs. Here's a simplified of what could happen:

  • you create a managed MT.X instance (e.g. an UIView);
  • this creates and reference a native X (native reference count == 1);
  • you override an event (or add a delegate...) `ViewWillUnload' on MT.X (which also exists natively);
  • you assign the MT.X instance to another (managed) instance, e.g. an UIViewController;
  • the native UIViewController will add a reference to the native X (native reference count == 2);
  • application executes happilly...
  • you stop having a reference to the MT.X instance (e.g. set the variable to null or a different instance);
  • since there's no reference to MT.X anymore the Garbage Collector will dispose the managed instance, calling Dispose which will reduce the reference to native X (native reference count == 1). But the native instance won't be freed since it's still referenced (not 0) by the view controller;
  • the UIViewController does something that triggers, natively, X.ViewWillUnload (e.g. it tries to load a new UIView);
  • since X still exists natively (ref count == 1) it will call it's ViewWillUnload which will try to go back to the managed instance... that was disposed.

The solution to this problem is to ensure ensure you're not disposing managed instance until their native part have completed their jobs.

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Thank you, but I'm sure I don't have any references left. The only managed thing that references VC2 is my VC1 instance, so when I'm nulling this instance, the reference count on the native VC2 instance should be 0. But it seems like iOS is keeping a reference to the controller for the distribution of didReceiveMemoryWarning messages, because as soon as there is a didReceiveMemoryWarning message, my app crashes. –  cheeesus Jul 23 '12 at 14:05
    
You likely don't have managed references but you could well have native references left (between them or their parent). You should not null them (managed side) before you're sure their life cycle (native side) is over since it could call back into a disposed (managed) instance. If you have (or can extract) a small test case then open a bug report @ bugzilla.xamarin.com and we'll review the code. –  poupou Jul 23 '12 at 18:20
    
Ok, I'm trying to isolate it. Thanks for your help. –  cheeesus Jul 23 '12 at 19:28
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bug filed: bugzilla.xamarin.com/show_bug.cgi?id=6264 –  cheeesus Jul 24 '12 at 22:14
    
@Sebastien, is it possible to determine which selector system tried to call from sigsegv crash log? –  Ivan Nikitin Jul 25 '12 at 7:27

I've the same situation in my app and GC collects objects correctly. In other words, I never experienced a problem simply nulling reference to a VC and letting GC do the rest.

However, I DID have problems when called for Dispose method as you do. It seems we shouldn't do this manually. Instead we should wait for GC to collect objects and free its resources. Base NSObject class has a call to Dispose in its finalizer, so all unmanaged resources will be freed upon object is collected.

You may also call for GC.Collect in some of the root VC's DidReceiveMemoryWarning method.

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