I know that I can check the type of a var in Swift with is

if item is Movie {
    movieCount += 1
} else if item is Song {
    songCount += 1

but how can I check that two instances have the same class? The following does not work:

if item1 is item2.dynamicType {
    print("Same subclass")
} else {
    print("Different subclass)

I could easily add a "class" function and update it in each subclass to return something unique, but that seems like a kludge...

  • 1
    Usually, such comparison is no needed in Swift. – Sulthan Jun 11 '14 at 12:03
  • Well, the reason I used "subclass" rather than "class" in the example is the clue - it's quite common to have several interacting subclasses that are generally treated similarly, but do something special when they are the same - say for example subclasses of Animal which interact (move away from, say) all other subclasses, but not their own... – Grimxn Jun 11 '14 at 12:47
  • No, it that case you check that both classes are Animal, you don't normally check that their classes are the same. If you have different classes with the same interface (they can interact with each other) but you don't want them to interact with each other in some cases then there is something seriously wrong with your design. – Sulthan Jun 11 '14 at 12:51
  • If you are still open minded for a pure Swift solution for AnyObject, please take a look on my answer. – holex Jun 11 '14 at 14:18
  • Excellent - many thanks! I've changed the accepted answer to yours. – Grimxn Jun 11 '14 at 16:24
up vote 29 down vote accepted

I feel necessary to quote from the Swift Programming Language documentation first of all:

Classes have additional capabilities that structures do not:

  • Type casting enables you to check and interpret the type of a class instance at runtime.

According to this, it may be helpful for someone in the future:

func areTheySiblings(class1: AnyObject!, class2: AnyObject!) -> Bool {
    return object_getClassName(class1) == object_getClassName(class2)

and the tests:

let myArray1: Array<AnyObject> = Array()
let myArray2: Array<Int> = Array()
let myDictionary: Dictionary<String, Int> = Dictionary()
let myString: String = String()

let arrayAndArray: Bool = self.areTheySiblings(myArray1, class2: myArray2) // true
let arrayAndString: Bool = self.areTheySiblings(myArray1, class2: myString) // false
let arrayAndDictionary: Bool = self.areTheySiblings(myArray1, class2: myDictionary) // false


you also can overload a new operator for doing such a thing, like e.g. this:

infix operator >!<

func >!< (object1: AnyObject!, object2: AnyObject!) -> Bool {
   return (object_getClassName(object1) == object_getClassName(object2))

and the results:

println("Array vs Array: \(myArray1 >!< myArray2)") // true
println("Array vs. String: \(myArray1 >!< myString)") // false
println("Array vs. Dictionary: \(myArray1 >!< myDictionary)") // false


you can also use it for your own new Swift classes, like e.g. those:

class A { }
class B { }

let a1 = A(), a2 = A(), b = B()

println("a1 vs. a2: \(a1 >!< a2)") // true
println("a1 vs. b: \(a1 >!< b)") // false
  • 1
    Perfect! That'll do very nicely! – Grimxn Jun 11 '14 at 16:25
  • 8
    This isn't actually "pure Swift", since object_getClassName is an ObjC runtime function. (And as such, it won't work on Swift types that can't bridge to ObjC classes.) – rickster Jun 11 '14 at 19:32
  • 2
    That function comes from the Objective-C runtime, so it's not available in Swift unless you import Foundation (or import Cocoa or import UIKit). And it doesn't work for non-ObjC Swift types. It's a good solution... just trying to temper expectations. – rickster Jun 12 '14 at 16:48
  • 1
    Not all Swift types bridge to ObjC objects, even if they can behave like objects otherwise. Test: struct S {}; let a = S(); println(object_getClassName(a)) You can do plenty of useful development in "pure" Swift — even if your UI code needs to work with Cocoa frameworks, it's perfectly reasonable to have model classes in files that don't import anything. I never said your solution isn't broadly workable, just that readers should not expect it to be universal. – rickster Jun 12 '14 at 18:22
  • 1
    Condescension isn't really appropriate for SO. Did you run the test code in my previous comment? – rickster Jun 13 '14 at 16:43

I also answered How do you find out the type of an object (in Swift)? to point out that at some point Apple added support for the === operator to Swift Types, so the following will now work:

if item1.dynamicType === item2.dynamicType {
    print("Same subclass")
} else {
    print("Different subclass")

This works even without importing Foundation, but note it will only work for classes, as structs have no dynamic type.

  • Excellent answer, should get more up-votes! – Grimxn Oct 18 '14 at 8:05
  • should be an accepted answer – ambientlight Aug 21 '15 at 6:47
  • The code in this answer no longer compiles with Swift 2.0 – ndmeiri Dec 18 '15 at 6:18
  • 1
    @ndmeiri Interesting! Looks like the compiler is being extra clever and figuring out that those types cannot be identical. If you assign to variables first, it works: let item1 = UIColor(), item2 = UIFont(); if item1.dynamicType === item2.dynamicType { Also, you can do things like item1.dynamicType === UIColor.self to check against a known class (note that UIColor() does not return a direct instance of UIColor, so the result is false) – Alex Pretzlav Dec 21 '15 at 23:14
  • 3
    dynamicType has been deprecated. use type(of: ...) instead – utahwithak Feb 10 '17 at 16:06

Swift 3.0 (also works with structs)

if type(of: someInstance) == type(of: anotherInstance) {
    print("matching type")
} else {
    print("something else")
  • This doesn't work for me. var type = type(of: visibleController as! ContactsBaseVC ) var type2 = type(of: self as! ContactsBaseVC) if type(of: self) == type(of: visibleController ){ print("Add Contact Presed") } – i.jameelkhan Oct 25 '17 at 19:05
  • It's a bit hard to decipher the problem without more context, but if either of those controllers are downcast to the type ContactBaseVC the underlying type would still be the original type, not the one you have downcast to. – T. Benjamin Larsen Oct 26 '17 at 4:48

Swift 3 - pay attention that comparing instances is not the same as checking if an istance is of a given type:

struct Model {}

let modelLhs = Model()
let modelRhs = Model()
type(of: modelLhs) == type(of: modelRhs) //true
type(of: modelLhs) == type(of: Model.self) //false
modelLhs is Model //true

i'm using this, looks helpful for me: it returns true only if all objects are of same type;

func areObjects<T>(_ objects: [Any], ofType: T.Type) -> Bool {
    for object in objects {
        if !(object is T) {
            return false
    return true

At the moment Swift types have no introspection, so there is no builtin way to get the type of an instance. instance.className works for Objc classes.

  • I disagree, there is a way to check the classes of AnyObject. – holex Jun 11 '14 at 14:13

For subclasses of NSObject, I went with:

let sameClass: Bool = instance1.classForCoder == instance2.classForCoder

Another caveat of this method,

The private subclasses of a class cluster substitute the name of their public superclass when being archived.

Apple documentation

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