It seems like the Swift equivalent of
deinit. However, when you attempt to define the method on a UIViewController, it doesn't behave as you would expect...
- Create a new Single View project using Xcode 7.0, in either Swift or Objective-C.
- Add a "dismiss" button on the view controller that was created with the storyboard (I'll refer to this view controller as VC2; its class is ViewController).
- Add a new view controller and set it to be the initial view controller (VC1, class is nil).
- Add a "present" button to VC1 with a "Present Modally" segue to VC2.
- In VC2's code, put a breakpoint in
In VC2, make the "dismiss" button's action do the following:
// Swift: presentingViewController?.dismissViewControllerAnimated(true, completion: nil) // Objective-C: [self.presentingViewController dismissViewControllerAnimated:YES completion:nil];
- Run the app and tap both buttons to first present VC2 and then dismiss it.
Notice how in Objective-C, the
dealloc breakpoint is hit.
In Swift, on the other hand, the
deinit breakpoint is never hit.
deinit never called? Is this a bug or by design?
If this is by design, where should I put clean up code to free up resources when the view controller will no longer be needed? (It can't be in
viewDidUnload since that method is deprecated. It can't be in
viewDidDisappear because something else might be holding a reference to it and will eventually show it again.)
Note: If you attempt to define a
dealloc method in Swift, you get the following error:
Method 'dealloc()' with Objective-C selector 'dealloc' conflicts with deinitializer with the same Objective-C selector.
If you have the Swift view controller inherit from an Objective-C controller, and you put a breakpoint in the Objective-C dealloc method, you will get the same buggy behavior defined above: the
deinit will not be called, but the
dealloc will be called.
If you attempt to use Allocations to view the number of instances of the class in memory, both versions show the same thing: The
# Persistent is always 1, and the
# Transient increases each time you show the second view controller.
Given the above setup, there should be no strong reference cycle holding on to the view controller.