If I declare

public class A: NSObject {
    public class X { }
    public init?(x: X? = nil) { }

all is fine. When using it like let a = A(), the initializer is called as expected.

Now, I'd like to have the nested class X private, and the parameterized init as well (has to be, of course). But a simple init?() should stay publicly available as it was before. So I write

public class B: NSObject {
    private class X { }
    private init?(x: X?) { }
    public convenience override init?() { self.init(x: nil) }

But this gives an error with the init?() initializer: failable initializer 'init()' cannot override a non-failable initializer with the overridden initializer being the public init() in NSObject.

How comes I can effectively declare an initializer A.init?() without the conflict but not B.init?()?

Bonus question: Why am I not allowed to override a non-failable initializer with a failable one? The opposite is legal: I can override a failable initializer with a non-failable, which requires using a forced super.init()! and thus introduces the risk of a runtime error. To me, letting the subclass have the failable initializer feels more sensible since an extension of functionality introduces more chance of failure. But maybe I am missing something here – explanation greatly appreciated.

  • override implies a method with the same signature in the superclass. However there is no init? in NSObject
    – vadian
    Jul 11 '16 at 16:53
  • @vadian: Yes, but omitting the override produces the error message overriding declaration requires an 'override' keyword, so it counts as overriding anyway. Fix-it is inserting override, giving the other error. Moreover, I am allowed to override a failable init with a non-failable, but not vice versa.
    – Stefan
    Jul 11 '16 at 16:55

This is how I solved the problem for me:

I can declare

public convenience init?(_: Void) { self.init(x: nil) }

and use it like

let b = B(())

or even

let b = B()

— which is logical since its signature is (kind of) different, so no overriding here. Only using a Void parameter and omitting it in the call feels a bit strange… But the end justifies the means, I suppose. :-)

  • Thanks, I found this very useful for a Realm db model where I had just a couple of managed object classes that should never be initialised with empty contents, only with a full list of values. With this form I could still call the Realm Object constructor init(value: Any) as I could use the value label to distinguish the superclass initialiser from my failable one Nov 27 '16 at 11:13

After a bit of fiddling I think I understand. Let's consider a protocol requiring this initializer and a class implementing it:

protocol I {

class A : I {
    init() {}

This gives the error: "Initializer requirement 'init()' can only be satisfied by a required initializer in non-final class 'A'". This makes sense, as you could always declare a subclass of A that doesn't inherit that initializer:

class B : A {
    // init() is not inherited
    init(n: Int) {}

So we need to make our initializer in A required:

class A : I {
    required init() {}

Now if we look at the NSObject interface we can see that the initializer is not required:

public class NSObject : NSObjectProtocol {
    public init()

We can confirm this by subclassing it, adding a different initializer and trying to use the normal one:

class MyObject : NSObject {
    init(n: Int) {}

MyObject() // Error: Missing argument for parameter 'n:' in call

Now here comes the weird thing: We can extend NSObject to conform to the I protocol, even though it doesn't require this initializer:

extension NSObject : I {} // No error (!)

I honestly think this is either a bug or a requirement for ObjC interop to work (EDIT: It's a bug and already fixed in the latest version). This error shouldn't be possible:

extension I {
    static func get() -> Self { return Self() }

// Runtime error: use of unimplemented initializer 'init()' for class '__lldb_expr_248.MyObject'

Now to answer your actual question:

In your second code sample, the compiler is right in that you cannot override a non-failable with a failable initializer.

In the first one, you aren't actually overriding the initializer (no override keyword either), but instead declaring a new one by which the other one can't be inherited.

Now that I wrote this much I'm not even sure what the first part of my answer has to do with your question, but it's nice to find a bug anyways.

I suggest you to do this instead:

public convenience override init() { self.init(x: nil)! }

Also have a look at the Initialization section of the Swift reference.

  • Thank you for your detailed answer. The underlying problem is that the initializer of my subclass can fail since there are external resources involved (NSCoding…), so it is (kind of) necessary to test if the initializer was successful. But, please have a look at my "PS" addendum using a Void parameter.
    – Stefan
    Jul 11 '16 at 17:14
  • Note that the bug your describe above (protocol I { init() } followed by extension NSObject : I { }) does yield an error in Swift 3.0-dev (error: initializer requirement 'init()' can only be satisfied by a required initializer in non-final class 'NSObject'), so I guess its been fixed.
    – dfrib
    Jul 12 '16 at 11:00

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