When trying to understand a program, or in some corner-cases, it's useful to be able to actually find out what type something is. I know the debugger can show you some type information, and you can usually rely on type inference to get away with not specifying the type in those situations, but still, I'd really like to have something like Python's type()

dynamicType (see this question)

Update: this has been changed in a recent version of Swift, obj.dynamicType now gives you a reference to the type and not the instance of the dynamic type.

This one seems the most promising, but so far I haven't been able to find out the actual type

class MyClass {
    var count = 0

let mc = MyClass()

# update: this now evaluates as true
mc.dynamicType === MyClass.self

I also tried using a class reference to instantiate a new object, which does work, but oddly gave me an error saying I must add a required initializer:


class MyClass {
    var count = 0
    required init() {

let myClass2 = MyClass.self
let mc2 = MyClass2()

Still only a small step toward actually discovering the type of any given object though

edit: I've removed a substantial number of now irrelevant details - look at the edit history if you're interested :)

11 Answers 11


Swift 3 version:

type(of: yourObject)
  • 7
    Fun fact. This does not work with implicitly unwrapped optionals! i.e. var myVar: SomeType!. Compiler gives the error "Cannot convert value of type 'SomeType!.Type' (aka 'ImplicitlyUnwrappedOptional<SomeType>.Type') to expected argument type 'AnyClass' (aka 'AnyObject.Type') Compiler suggest adding as! AnyClass after the type but then program crashes with some "EXC_BAD_INSTRUCTION" and other jiberrish that I cannot decipher. – LightningStryk Mar 10 '17 at 0:36
  • Indeed, this should be the accepted answer now that Swift 3 exists. Thank you Jeremy! – biomiker Apr 13 '17 at 22:14
  • 1
    If you are looking for the specific type name, when the type is of a protocol type, this may not work for you. – Chris Prince Jun 29 '17 at 8:42
  • 1
    If you have a String that is passed as type Any then type(of:) will output Any, not String. – ScottyBlades Jun 17 '18 at 21:56
  • 1
    @ScottyBlades so what will be the solution. Can you provide? – Mubin Mall Jan 23 at 11:23

Swift 2.0:

The proper way to do this kind of type introspection would be with the Mirror struct,

    let stringObject:String = "testing"
    let stringArrayObject:[String] = ["one", "two"]
    let viewObject = UIView()
    let anyObject:Any = "testing"

    let stringMirror = Mirror(reflecting: stringObject)
    let stringArrayMirror = Mirror(reflecting: stringArrayObject)
    let viewMirror = Mirror(reflecting: viewObject)
    let anyMirror = Mirror(reflecting: anyObject)

Then to access the type itself from the Mirror struct you would use the property subjectType like so:

    // Prints "String"

    // Prints "Array<String>"

    // Prints "UIView"

    // Prints "String"

You can then use something like this:

    if anyMirror.subjectType == String.self {
        print("anyObject is a string!")
    } else {
        print("anyObject is not a string!")
  • 7
    This is great. Beware that if the object being mirrored is of optional type, then comparing it to a non-optional type will fail. String and Optional(String) are not the same. – Thomas Verbeek Oct 21 '15 at 8:30
  • 1
    Exactly what i was looking for, wanted to know what is the type of the object – Joseph Nov 12 '15 at 14:56
  • Is there a type of comparison in this context that will not fail when comparing optional against non-optional types? – Chris Prince Dec 9 '16 at 4:17
  • That's what I was looking for. Thank you @Gudbergur. – Mubin Mall Jan 23 at 11:24

The dynamicType.printClassName code is from an example in the Swift book. There's no way I know of to directly grab a custom class name, but you can check an instances type using the is keyword as shown below. This example also shows how to implement a custom className function, if you really want the class name as a string.

class Shape {
    class func className() -> String {
        return "Shape"

class Square: Shape {
    override class func className() -> String {
        return "Square"

class Circle: Shape {
    override class func className() -> String {
        return "Circle"

func getShape() -> Shape {
    return Square() // hardcoded for example

let newShape: Shape = getShape()
newShape is Square // true
newShape is Circle // false
newShape.dynamicType.className() // "Square"
newShape.dynamicType.className() == Square.className() // true

that subclasses of NSObject already implement their own className function. If you're working with Cocoa, you can just use this property.

class MyObj: NSObject {
    init() {
        println("My class is \(self.className)")
  • 2
    Hey, not sure when it changed, but as Alex Pretzlav pointed out, the behavior has changed. – Jiaaro Oct 14 '14 at 17:21
  • 1
    Yes. As of Swift 3.0, subjectType is no longer available, and dynamicType causes a deprecation message from the compiler. – Raphael Feb 27 '17 at 7:51

As of Xcode 6.0.1 (at least, not sure when they added it), your original example now works:

class MyClass {
    var count = 0

let mc = MyClass()
mc.dynamicType === MyClass.self // returns `true`


To answer the original question, you can actually use the Objective-C runtime with plain Swift objects successfully.

Try the following:

import Foundation
class MyClass { }
class SubClass: MyClass { }

let mc = MyClass()
let m2 = SubClass()

// Both of these return .Some("__lldb_expr_35.SubClass"), which is the fully mangled class name from the playground
// Returns .Some("__lldb_expr_42.MyClass")
  • That's awesome. Thanks for the update :) – Jiaaro Oct 14 '14 at 17:12
  • Looks like they changed it to give you the type instead of an instance. – Jiaaro Oct 14 '14 at 17:15
  • @Jiaaro, I updated my answer with what I think that you were looking for in your original question – Alex Pretzlav Oct 14 '14 at 21:03

If you simply need to check whether the variable is of type X, or that it conforms to some protocol, then you can use is, or as? as in the following:

var unknownTypeVariable = …

if unknownTypeVariable is <ClassName> {
    //the variable is of type <ClassName>
} else {
    //variable is not of type <ClassName>

This is equivalent of isKindOfClass in Obj-C.

And this is equivalent of conformsToProtocol, or isMemberOfClass

var unknownTypeVariable = …

if let myClass = unknownTypeVariable as? <ClassName or ProtocolName> {
    //unknownTypeVarible is of type <ClassName or ProtocolName>
} else {
    //unknownTypeVariable is not of type <ClassName or ProtocolName>
  • The second part of your answer is wrong. The 'if let' statement with as? conditional cast does the same as isKindOfClass as well, just also provides the result of the cast should it Succeed. – awolf Mar 11 '16 at 18:59
  • The equivalent of isMemberOfClass is the condition object.dynamicType == ClassName.self. – awolf Mar 11 '16 at 19:01

Swift 3:

if unknownType is MyClass {
   //unknownType is of class type MyClass
  • I think is exists from before Swift 3...? – Nicolas Miari Jan 16 '17 at 6:37

Here is 2 ways I recommend doing it:

if let thisShape = aShape as? Square 



Here is a detailed example:

class Shape { }
class Square: Shape { } 
class Circle: Shape { }

var aShape = Shape()
aShape = Square()

if let thisShape = aShape as? Square {
    println("Its a square")
} else {
    println("Its not a square")

if aShape.isKindOfClass(Square) {
    println("Its a square")
} else {
    println("Its not a square")
  • 2
    print( aShape is Square ), is operator is more preferable. – DawnSong Mar 16 '16 at 13:54
  • Good solution for me to get the type of objects. – nihasmata Dec 19 '18 at 18:29

For Swift 3.0

String(describing: <Class-Name>.self)

For Swift 2.0 - 2.3

  • 1
    The important thing about this answer being correct for me, is that the resulting string exactly matches the class name - so I can use this to get a Core Data entity name from an NSManagedObject subclass. I used the Swift3 version. – Kendall Helmstetter Gelner Feb 12 '17 at 23:47

Depends on the use case. But let's assume you want to do something useful with your "variable" types. The Swift switch statement is very powerful and can help you get the results you're looking for...

    let dd2 = ["x" : 9, "y" : "home9"]
    let dds = dd2.filter {
        let eIndex = "x"
        let eValue:Any = 9
        var r = false

        switch eValue {
        case let testString as String:
            r = $1 == testString
        case let testUInt as UInt:
            r = $1 == testUInt
        case let testInt as Int:
            r = $1 == testInt
            r = false

        return r && $0 == eIndex

In this case, have a simple dictionary that contains key/value pairs that can be UInt, Int or String. In the .filter() method on the dictionary, I need to make sure I test for the values correctly and only test for a String when it's a string, etc. The switch statement makes this simple and safe! By assigning 9 to the variable of type Any, it makes the switch for Int execute. Try changing it to:

   let eValue:Any = "home9"

..and try it again. This time it executes the as String case.


If you get an "always true/fails" warning you may need to cast to Any before using is

(foo as Any) is SomeClass
//: Playground - noun: a place where people can play

import UIKit

class A {
    class func a() {

    func getInnerValue() {

class B: A {
    override class func a() {
        print("yeah yeah")

B.a() // yeah yeah
A.a() // yeah
B().getInnerValue() // yeah yeah
A().getInnerValue() // yeah

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