Coming form a C++/Java/C# background I was expecting to see virtual methods in Swift, however reading the swift documentation I see no mention of virtual methods.

What am I missing?

up vote 16 down vote accepted

Unlike C++, it is not necessary to designate that a method is virtual in Swift. The compiler will work out which of the following to use:

(the performance metrics of course depend on hardware)

  • Inline the method : 0 ns
  • Static dispatch: < 1.1ns
  • Virtual dispatch 1.1ns (like Java, C# or C++ when designated).
  • Dynamic Dispatch 4.9ns (like Objective-C).

Objective-C of course always uses the latter. The 4.9ns overhead is not usually a problem as this would represent a small fraction of the overall method execution time. However, where necessary developers could seamlessly fall-back to C or C++. In Swift, however the compiler will analyze which of the fastest can be used and try to decide on your behalf, favoring inline, static and virtual but retaining messaging for Objective-C interoperability. Its possible to mark a method with dynamic to encourage messaging.

One side-effect of this, is that some of the powerful features afforded by dynamic dispatch may not be available, where as this could previously have been assumed to be the case for any Objective-C method. Dynamic dispatch is used for method interception, which is in turn used by:

  • Cocoa-style property observers.
  • CoreData model object instrumentation.
  • Aspect Oriented Programming

The kinds of features above are those afforded by a late binding language. Note that while Java uses vtable dispatch for method invocation, its still considered a late binding language, and therefore capable of the above features by virtue of having a virtual machine and class loader system, which is another approach to providing run-time instrumentation. "Pure" Swift (without Objective-C interop) is like C++ in that being a direct-to-executable compiled language with static dispatch, then these dynamic features are not possible at runtime. In the tradition of ARC, we might see more of these kinds of features moving to compile time, which gives an edge with regards to "performance per watt" - an important consideration in mobile computing.

  • I wonder if there will be KVO support on "pure Swift" classes? – nielsbot Aug 22 '14 at 1:29
  • Cocoa-style KVO only works if the class extends NSObject. There's an Observer system baked in to Swift, I think. (Haven't tried it yet). – Jasper Blues Aug 22 '14 at 1:31
  • 1
    @nielsbot KVO relies on looking up a function based on name. That is dynamic dispatch. So if Swift uses KVO it has to use dynamic dispatch. Which again means it is NOT using vtable lookup which is what refer to as "pure" swift. I think we should dispose of the notion of pure swift. ObjC is a natural part of Swift. It was designed with ObjC in mind. It is part of Swift's DNA. – Adam Smith Nov 21 '14 at 8:48
  • 1
    In what sense "compiler will work out"? Virtual vs. static dispatch is difference in behaviour, you have some lib and you cannot tell which method will be called, because it depends on currently/previously compiler worked out? A little magic for me -- compiler can decide on performance but not on behaviour. – greenoldman Jan 30 '15 at 18:05
  • 2
    @greenoldman The general rules are: Swift favors the static kinds (inline, static, vtable) and will choose which of these are appropriate, inline for small bodies, static if no sub-classes, otherwise vtable. Meanwhile, messaging is used if the class extends NSObject or has the @objc directive, although static-styles might still be used in these cases, and we can avoid this by declaring a method as dynamic. . Quite complex. – Jasper Blues Apr 9 '15 at 4:21

All methods are virtual; however you need to declare that you are overriding a method from a base class using the override keyword:

From the Swift Programming Guide:

Overriding

A subclass can provide its own custom implementation of an instance method, class method, instance property, or subscript that it would otherwise inherit from a superclass. This is known as overriding.

To override a characteristic that would otherwise be inherited, you prefix your overriding definition with the override keyword. Doing so clarifies that you intend to provide an override and have not provided a matching definition by mistake. Overriding by accident can cause unexpected behavior, and any overrides without the override keyword are diagnosed as an error when your code is compiled.

The override keyword also prompts the Swift compiler to check that your overriding class’s superclass (or one of its parents) has a declaration that matches the one you provided for the override. This check ensures that your overriding definition is correct.

  • Is this like "virtual" in C# or like "new" in C#. E.g. at run time is the static of the variable, or the dynamic type of the instance used to decide what method is called? – Ian Ringrose Jun 3 '14 at 11:55
  • @IanRingrose It's like virtual from C#. It looks like Swift borrows a lot from C#; for example the where keyword on generic types. – trojanfoe Jun 3 '14 at 11:58
  • 1
    @IanRingrose And it's like the Java @Override annotation... – trojanfoe Jun 3 '14 at 12:00
class A {
    func visit(target: Target) {
        target.method(self);
    }
}

class B: A {}

class C: A {
    override func visit(target: Target) {
        target.method(self);
    }
}

class Target {
    func method(argument: A) {
        println("A");
    }

    func method(argument: B) {
        println("B");
    }

    func method(argument: C) {
        println("C");
    }
}

let t = Target();
let a:  A = A();
let ab: A = B();
let b:  B = B();
let ac: A = C();
let c:  C = C();

a.visit(t);
ab.visit(t);
b.visit(t);
ac.visit(t);
c.visit(t);

Note the self reference in the visit() of A and C. Just like in Java it gets not copied over but instead self keeps the same type until it is used in an override again.

The result is A, A, A, C, C so there's no dynamic dispatch available. Unfortunately.

  • can you check your result for AC – Ian Ringrose Jun 5 '14 at 8:57
  • Swift will automatically choose between inline, static dispatch, vtable dispatch. To allow dynamic dispatch required extending NSObject or adding the 'objc' directive, however in the latest version we have to mark each method as dynamic. . . I would've preferred that dynamic is the default. – Jasper Blues Aug 22 '14 at 1:10
  • 1
    Your example shows that Swift always statically looks up method overloads (and btw, also generics). Dynamic dispatch does work in Swift, but overloaded methods are resolved statically. – Berik Dec 25 '14 at 23:08
  • Isn't your "ac" example showing that dynamic dispatch is in fact available? Since it is defined as type A, but it outputs type C when printed by the Target class? If it were printing out A, then it would be static dispatch... – mdstroebel Nov 22 '15 at 16:35

As of Xcode 8.x.x and 9 Beta, virtual methods in C++ might be translated in Swift 3 and 4 like this:

protocol Animal: AnyObject {  // as a base class in C++; class-only protocol in Swift
  func hello()
}

extension Animal {  // implementations of the base class
  func hello() {
    print("Zzz..")
  }
}

class Dog: Animal {  // derived class with a virtual function in C++
  func hello() {
    print("Bark!")
  }
}

class Cat: Animal {  // another derived class with a virtual function in C++
  func hello() {
    print("Meow!")
  }
}

class Snoopy: Animal {  // another derived class with no such a function
  //
}

Give it a try.

func test_A() {
  let array = [Dog(), Cat(), Snoopy()] as [Animal]
  array.forEach() {
    $0.hello()
  }
  //  Bark!
  //  Meow!
  //  Zzz..
}

func sayHello<T: Animal>(_ x: T) {
  x.hello()
}

func test_B() {
  sayHello(Dog())
  sayHello(Cat())
  sayHello(Snoopy())
  //  Bark!
  //  Meow!
  //  Zzz..
}

In sum, the similar things we do in C++ can be achieved with Protocol and Generic in Swift, I think.

I also came from C++ world and faced the same question. The above seems to work, but it looks like a C++ way, not somewhat Swifty way, though.

Any further suggestions will be welcome!

  • 1
    FYI. Preferably Snoopy should be able to extend Dog. But dynamic dispatch all falls apart at that point. As dynamic dispatch will default to the protocol not the generic type. The minute Snoopy extends Dog, he is back to barking 🙁 – eonist Sep 2 '17 at 11:09

Swift was made to be easy to learn for Objective-C programmers, and in Objective-C there are no virtual methods, at least not in the way that you might think of them. If you look for instruction on how to create an abstract class or virtual method in Objective-C here on SO, usually it's a normal method that just throws an exception and crashes the app. (Which kinda makes sense, because you're not supposed to call a virtual method)

Therefore if Swift documentation says nothing about virtual methods, my guess is that, just as in Objective-C, there are none.

  • 1
    It is not necessary to explicitly specify a method as virtual in Swift, the compiler will decide whether to: a) Inline b) Use static dispatch (non-virtual) b) Use vtable dispatch (like Java) c) Use dynamic dispatch like Objective-C . . many Objective-C veterans were surprised that Swift does not default to dynamic dispatch. – Jasper Blues Aug 22 '14 at 1:13

Your Answer

By clicking "Post Your Answer", you acknowledge that you have read our updated terms of service, privacy policy and cookie policy, and that your continued use of the website is subject to these policies.

Not the answer you're looking for? Browse other questions tagged or ask your own question.