In swift there seem to be two equality operators: the double equals (==) and the triple equals (===), what is the difference between the two?

10 Answers 10

up vote 25 down vote accepted

In short:

== operator checks if their instance values are equal, "equal to"

=== operator checks if the references point the same instance, "identical to"

Long Answer:

Classes are reference types, it is possible for multiple constants and variables to refer to the same single instance of a class behind the scenes. Class references stay in Run Time Stack (RTS) and their instances stay in Heap area of Memory. When you control equality with == it means if their instances are equal to each other. It doesn't need to be same instance to be equal. For this you need to provide a equality criteria to your custom class. By default, custom classes and structures do not receive a default implementation of the equivalence operators, known as the “equal to” operator == and “not equal to” operator != . To do this your custom class needs to conform Equatable protocol and it's static func == (lhs:, rhs:) -> Bool function

Let's look at example:

class Person : Equatable {
    let ssn: Int
    let name: String

    init(ssn: Int, name: String) {
        self.ssn = ssn
        self.name = name
    }

    static func == (lhs: Person, rhs: Person) -> Bool {
        return lhs.ssn == rhs.ssn
    }
}

P.S.: Since ssn(social security number) is a unique number, you don't need to compare if their name are equal or not.

let person1 = Person(ssn: 5, name: "Bob")
let person2 = Person(ssn: 5, name: "Bob")

if person1 == person2 {
   print("the two instances are equal!")
}

Although person1 and person2 references point two different instances in Heap area, their instances are equal because their ssn numbers are equal. So the output will be the two instance are equal!

if person1 === person2 {
   //It does not enter here
} else {
   print("the two instances are not identical!")
}

=== operator checks if the references point the same instance, "identical to". Since person1 and person2 have two different instance in Heap area, they are not identical and the output the two instance are not identical!

let person3 = person1

P.S: Classes are reference types and person1's reference is copied to person3 with this assignment operation, thus both references point the same instance in Heap area.

if person3 === person1 {
   print("the two instances are identical!")
}

They are identical and the output will be the two instances are identical!

!== and === are identity operators and are used to determine if two objects have the same reference.

Swift also provides two identity operators (=== and !==), which you use to test whether two object references both refer to the same object instance.

Excerpt From: Apple Inc. “The Swift Programming Language.” iBooks. https://itun.es/us/jEUH0.l

  • 41
    Yup. Coming from ObjC, == is isEqual:, or class-defined semantic equivalence. === in Swift is == in (Obj)C — pointer equality, or object identity. – rickster Jun 2 '14 at 21:39
  • @rickster Dont' values also have a memory location? I'm eventually they are somewhere in the memory. Can't you ever compare those? Or is that their memory location doesn't offer any meaningful value? – Honey Dec 1 '16 at 19:00
  • 2
    There's at least two ways to think about how the language defines value types vs memory. One is that each binding (var or let) of a name to a value is a unique copy — so it's meaningless to create pointers because the value you made a pointer to is a different value than the one you first created. Another is that Swift's definition of value semantics abstracts away the storage — the compiler is free to optimize, up to and including never storing your value at a memory location accessible beyond the line where it's used (register, instruction encoding, etc). – rickster Dec 1 '16 at 20:35

In both Objective-C and Swift, the == and != operators test for value equality for number values (e.g., NSInteger, NSUInteger, int, in Objective-C and Int, UInt, etc. in Swift). For objects (NSObject/NSNumber and subclasses in Objective-C and reference types in Swift), == and != test that the objects/reference types are the same identical thing -- i.e., same hash value -- or are not the same identical thing, respectively.

let a = NSObject()
let b = NSObject()
let c = a
a == b // false
a == c // true

Swift's identity equality operators, === and !==, check referential equality -- and thus, should probably be called the referential equality operators IMO.

a === b // false
a === c // true

It's also worth pointing out that custom reference types in Swift (that do not subclass a class that conforms to Equatable) do not automatically implement the equal to operators, but the identity equality operators still apply. Also, by implementing ==, != is automatically implemented.

class MyClass: Equatable {
  let myProperty: String

  init(s: String) {
    myProperty = s
  }
}

func ==(lhs: MyClass, rhs: MyClass) -> Bool {
  return lhs.myProperty == rhs.myProperty
}

let myClass1 = MyClass(s: "Hello")
let myClass2 = MyClass(s: "Hello")
myClass1 == myClass2 // true
myClass1 != myClass2 // false
myClass1 === myClass2 // false
myClass1 !== myClass2 // true

These equality operators are not implemented for other types such as structures in either language. However, custom operators can be created in Swift, which would, for example, enable you to create an operator to check equality of a CGPoint.

infix operator <==> { precedence 130 }
func <==> (lhs: CGPoint, rhs: CGPoint) -> Bool {
  return lhs.x == rhs.x && lhs.y == rhs.y
}

let point1 = CGPoint(x: 1.0, y: 1.0)
let point2 = CGPoint(x: 1.0, y: 1.0)
point1 <==> point2 // true
  • 3
    Sorry, but in Obj-C the == operator does NOT compare for EQUALITY, but rather - like C - compares pointer references (object Identity). – Motti Shneor Apr 26 '17 at 10:16
  • == does not test for NSNumber equality in Objective-C. NSNumber is an NSObject so it tests for identity. The reason it SOMETIMES works is because of tagged pointers/cached object literals. It will fail for large enough numbers and on 32-bit devices when comparing non-literals. – Accatyyc Apr 16 at 13:52

There are subtleties with Swifts === that go beyond mere pointer arithmetics. While in Objective-C you were able to compare any two pointers (i.e. NSObject *) with == this is no longer true in Swift since types play a much greater role during compilation.

A Playground will give you

1 === 2                    // false
1 === 1                    // true
let one = 1                // 1
1 === one                  // compile error: Type 'Int' does not conform to protocol 'AnyObject'
1 === (one as AnyObject)   // true (surprisingly (to me at least))

With strings we will have to get used to this:

var st = "123"                                 // "123"
var ns = (st as NSString)                      // "123"
st == ns                                       // true, content equality
st === ns                                      // compile error
ns === (st as NSString)                        // false, new struct
ns === (st as AnyObject)                       // false, new struct
(st as NSString) === (st as NSString)          // false, new structs, bridging is not "free" (as in "lunch")
NSString(string:st) === NSString(string:st)    // false, new structs
var st1 = NSString(string:st)                  // "123"
var st2 = st1                                  // "123"
st1 === st2                                    // true
var st3 = (st as NSString)                     // "123"
st1 === st3                                    // false
(st as AnyObject) === (st as AnyObject)        // false

but then you can also have fun as follows:

var st4 = st             // "123"
st4 == st                // true
st4 += "5"               // "1235"
st4 == st                // false, not quite a reference, copy on write semantics

I am sure you can think of a lot more funny cases :-)

Update for Swift 3 (as suggested by the comment from Jakub Truhlář)

1===2                                    // Compiler error: binary operator '===' cannot be applied to two 'Int' operands
(1 as AnyObject) === (2 as AnyObject)    // false
let two = 2
(2 as AnyObject) === (two as AnyObject)  // false (rather unpleasant)
(2 as AnyObject) === (2 as AnyObject)    // false (this makes it clear that there are new objects being generated)

This looks a little more consistent with Type 'Int' does not conform to protocol 'AnyObject', however we then get

type(of:(1 as AnyObject))                // _SwiftTypePreservingNSNumber.Type

but the explicit conversion makes clear that there might be something going on. On the String-side of things NSString will still be available as long as we import Cocoa. Then we will have

var st = "123"                                 // "123"
var ns = (st as NSString)                      // "123"
st == ns                                       // Compile error with Fixit: 'NSString' is not implicitly convertible to 'String'; did you mean to use 'as' to explicitly convert?
st == ns as String                             // true, content equality
st === ns                                      // compile error: binary operator '===' cannot be applied to operands of type 'String' and 'NSString'
ns === (st as NSString)                        // false, new struct
ns === (st as AnyObject)                       // false, new struct
(st as NSString) === (st as NSString)          // false, new structs, bridging is not "free" (as in "lunch")
NSString(string:st) === NSString(string:st)    // false, new objects
var st1 = NSString(string:st)                  // "123"
var st2 = st1                                  // "123"
st1 === st2                                    // true
var st3 = (st as NSString)                     // "123"
st1 === st3                                    // false
(st as AnyObject) === (st as AnyObject)        // false

It is still confusing to have two String classes, but dropping the implicit conversion will probably make it a little more palpable.

  • 1
    You can't use === operator to compare Ints. Not in Swift 3. – Jakub Truhlář Jan 10 '17 at 9:00
  • Whenever you say a "new struct" is being created, what's actually happening is a new object (of a class type) is being created. === is meaningless for structs since they're value types. In particular, there's three types you need to keep in mind: literal types, such as 1 or "foo", which haven't been bound to a variable and normally only affect compilation since you generally don't deal with them during runtime; struct types such as Int and String which are what you get when you assign a literal to a variable, and classes such as AnyObject and NSString. – saagarjha Jan 14 at 5:47

In swift 3 and above

=== (or !==)

  • Checks if the values are identical (both point to the same memory address).
  • Comparing reference types.
  • Like == in Obj-C (pointer equality).

== (or !=)

  • Checks if the values are the same.
  • Comparing value types.
  • Like the default isEqual: in Obj-C behavior.

Here I compare three instances (class is a reference type)

class Person {}

let person = Person()
let person2 = person
let person3 = Person()

person === person2 // true
person === person3 // false
  • 2
    By far the most concise answer on this thread – aBikis Apr 25 '17 at 18:33
  • You can also override isEqual: in Swift: override func isEqual(_ object: Any?) -> Bool {} – Thomas Elliot Sep 16 '17 at 1:33

For example, if you create two instances of a class e.g. myClass:

var inst1 = myClass()
var inst2 = myClass()

you can compare those instances,

if inst1 === inst2

cited:

which you use to test whether two object references both refer to the same object instance.

Excerpt From: Apple Inc. “The Swift Programming Language.” iBooks. https://itun.es/sk/jEUH0.l

In Swift we have === simbol which means is both objects are referring to the same reference same address

class SomeClass {
var a: Int;

init(_ a: Int) {
    self.a = a
}

}

var someClass1 = SomeClass(4)
var someClass2 = SomeClass(4)
someClass1 === someClass2 // false
someClass2 = someClass1
someClass1 === someClass2 // true

Just a minor contribution related to the Any object.

I was working with unit tests around NotificationCenter, which makes use of Any as a parameter that I wanted to compare for equality.

However, since Any cannot be used in an equality operation, it was necessary to change it. Ultimately, I settled on the following approach, which allowed me to get equality in my specific situation, shown here with a simplistic example:

func compareTwoAny(a: Any, b: Any) -> Bool {
    return ObjectIdentifier(a as AnyObject) == ObjectIdentifier(b as AnyObject)
}

This function takes advantage of ObjectIdentifier, which provides a unique address for the object, allowing me to test.

One item to note though about ObjectIdentifier per Apple at the above link:

In Swift, only class instances and metatypes have unique identities. There is no notion of identity for structs, enums, functions, or tuples.

== is used to check if two variables are equal i.e 2 == 2. But in case of === it stands for equality i.e if two instances referring to the same object example in case of classes a reference is created which is held by many other instances.

Swift 4: Another example using Unit Tests which only works with ===

Note: Test below fails with ==, works with ===

func test_inputTextFields_Delegate_is_ViewControllerUnderTest() {

        //instantiate viewControllerUnderTest from Main storyboard
        let storyboard = UIStoryboard(name: "Main", bundle: nil)
        viewControllerUnderTest = storyboard.instantiateViewController(withIdentifier: "StoryBoardIdentifier") as! ViewControllerUnderTest 
        let _ = viewControllerUnderTest.view

        XCTAssertTrue(viewControllerUnderTest.inputTextField.delegate === viewControllerUnderTest) 
    }

And the class being

class ViewControllerUnderTest: UIViewController, UITextFieldDelegate {
    @IBOutlet weak var inputTextField: UITextField!

    override func viewDidLoad() {
        super.viewDidLoad()
        inputTextField.delegate = self
    }
}

The error in Unit Tests if you use == is, Binary operator '==' cannot be applied to operands of type 'UITextFieldDelegate?' and 'ViewControllerUnderTest!'

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