Apple's Swift Programming Language Guide mentions the capture specifiers unowned(safe) and unowned(unsafe), in addition to weak and unowned.
I (think I) understand the differences between weak and unowned; but what is the difference between unowned(safe) and unowned(unsafe)? The guide doesn't say.
Please: Don't rely on simply stating an Objective-C equivalent.
From what I understand, although I can't find a definitive source from Apple, unowned can be broken into two flavors, safe and unsafe.
A bare unowned is unowned(safe): it is a specially wrapped reference which will throw an exception when a dealloced instance is referenced.
The special case is unowned(unsafe): it is the Swift equivalent of Objective C's @property (assign) or __unsafe_unretained. It should not be used in a Swift program, because its purpose is to bridge to code written in Objective C.
So, you will see unowned(unsafe) when looking at the import wrapper for Cocoa classes, but don't use it unless you have to, and you will know when you have to.
Update
__unsafe_unretained is a simple pointer. It will not know when the instance being pointed at has be dealloced, so when it's dereferenced, the underlying memory could be garbage.
If you have a defect where a dealloced __unsafe_unretained variable is being used, you will see erratic behavior. Sometimes enough of that memory location is good enough so the code will run, sometimes it will have been partially overwritten so you will get very odd crashes, and sometimes that memory location will contain a new object so you will get unrecognized selector exceptions.
Transitioning to ARC Release Notes
__unsafe_unretainedspecifies a reference that does not keep the referenced object alive and is not set to nil when there are no strong references to the object. If the object it references is deallocated, the pointer is left dangling.
strong references, weak and all the unowneds do not contribute to reference counting. So once all strong references are gone, the instance referenced will be deallocated (when only weak and unowned references to it remain); weak references will be set to nil (they thus have optional type), while unowned will not be. However unowned(safe) references to deallocated instances will throw a predictable exception when accessed, while unowned(unsafe) references will act like a simple old pointer and behave unpredictably. Right?
unowned and unowned(safe) do incur reference counting cost—that is the cost of safety, and why even make unowned(unsafe) available otherwise?—and it’s currently worse than regular strong reference counting cost because ARC isn’t optimizing for it. Neither throws an exception; they trap when misused, permanently stopping the program.
Commented
Feb 21, 2016 at 10:59
Here is a quote from Apple Developer Forums:
unowned vs unowned(safe) vs unowned(unsafe)
unowned(safe)is a non-owning reference that asserts on access that the object is still alive. It's sort of like a weak optional reference that's implicitly unwrapped withx!every time it's accessed.unowned(unsafe)is like__unsafe_unretainedin ARC—it's a non-owning reference, but there's no runtime check that the object is still alive on access, so dangling references will reach into garbage memory.unownedis always a synonym forunowned(safe)currently, but the intent is that it will be optimized tounowned(unsafe)in-Ofastbuilds when runtime checks are disabled.
Variable is accessed when it was dellocated already with attribute:
A simple Definition. which would clear the confusion.
-- unowned attributes : If you try to access an unowned reference after the instance that it refers to is deallocated, your program will crash.
-- unowned(Unsafe) attributes: If you try to access an unsafe unowned reference after the instance that it refers to is deallocated, your program will try to access the memory location where the instance used to be, which is an unsafe operation. (no guarantee wether this would executes or crashes)
In simple words
unowned(safe) or simply unowned - Crash the application if we try to refer the deallocated object.
unowned(unsafe) - Don't crash the application but instead try to find the memory location where the referred object was stored before de-initialisation.
Consider example -
class Customer {
let name: String
var card: CreditCard?
init(name: String) {
self.name = name
}
deinit {
print("\(name) is being deinitialized")
print("It's Credit card is - ", card)
}
}
class CreditCard {
let number: UInt64
unowned(unsafe) let customer: Customer
init(number: UInt64, customer: Customer) {
self.number = number
self.customer = customer
}
deinit {
print("Card #\(number) is being deinitialized")
print("It's customer is - ", customer.name)
}
}
var customer: Customer? = Customer(name: "Stackoverflow")
customer!.card = CreditCard(number: 1234_5678_9012_3456, customer: customer!)
customer = nil
When you run this code in playground then your will get the following output -
Stackoverflow is being deinitialized
It's Credit card - Optional(__lldb_expr_16.CreditCard)
Card #1234567890123456 is being deinitialized
It's customer - Stackoverflow
The main thing to check here is even the Stackoverflow was deinitialised but still we can print that in CreditCard's deinit call
If you will try to call the same code with unowned instead of unowned(unsafe) then it will crash with following logs
Stackoverflow is being deinitialized
It's Credit card - Optional(__lldb_expr_20.CreditCard)
Card #1234567890123456 is being deinitialized
Fatal error: Attempted to read an unowned reference but object 0x600000291830 was already deallocated
