I think I have a pretty good understanding of ARC and the proper use cases for selecting an appropriate lifetime qualifiers (__strong
, __weak
, __unsafe_unretained
, and __autoreleasing
). However, in my testing, I've found one example that doesn't make sense to me.
As I understand it, both __weak
and __unsafe_unretained
do not add a retain count. Therefore, if there are no other __strong
pointers to the object, it is instantly deallocated (with immutable strings being an exception to this rule). The only difference in this process is that __weak
pointers are set to nil, and __unsafe_unretained
pointers are left alone.
If I create a __weak
pointer to a simple, custom object (composed of one NSString property), I see the expected (null) value when trying to access a property:
Test * __weak myTest = [[Test alloc] init];
myTest.myVal = @"Hi!";
NSLog(@"Value: %@", myTest.myVal); // Prints Value: (null)
Similarly, I would expect the __unsafe_unretained
lifetime qualifier to cause a crash, due to the resulting dangling pointer. However, it doesn't. In this next test, I see the actual value:
Test * __unsafe_unretained myTest = [[Test alloc] init];
myTest.myVal = @"Hi!";
NSLog(@"Value: %@", myTest.myVal); // Prints Value: Hi!
Why doesn't the __unsafe_unretained
object become deallocated?
[EDIT]: The object is being deallocated... if I try to substitute lines 2 - 3 with NSLog(@"%@", myTest);
the app crashes (and an overridden dealloc
in Test
is being called immediately after the first line). I know that immutable strings will continue to be available even with __unsafe_unretained
, and that a direct pointer to the NSString would work. I am just surprised that I could set a property on a deallocated object (line 2), and that it could later be dereferenced from a pointer to the deallocated object it belonged to (line 3)! If anyone could explain that, it would definitely answer my question.