When subclassing NSObject in Swift, should you override hash or implement Hashable? Also, should you override isEqual: or implement ==?


NSObject already conforms to the Hashable protocol:

extension NSObject : Equatable, Hashable {
    /// The hash value.
    /// **Axiom:** `x == y` implies `x.hashValue == y.hashValue`
    /// - Note: the hash value is not guaranteed to be stable across
    ///   different invocations of the same program.  Do not persist the
    ///   hash value across program runs.
    public var hashValue: Int { get }

public func ==(lhs: NSObject, rhs: NSObject) -> Bool

I could not find an official reference, but it seems that hashValue calls the hash method from NSObjectProtocol, and == calls the isEqual: method (from the same protocol). See update at the end of the answer!

For NSObject subclasses, the correct way seems to be to override hash and isEqual:, and here is an experiment which demonstrates that:

1. Override hashValue and ==

class ClassA : NSObject {
    let value : Int

    init(value : Int) {
        self.value = value

    override var hashValue : Int {
        return value

func ==(lhs: ClassA, rhs: ClassA) -> Bool {
    return lhs.value == rhs.value

Now create two different instances of the class which are considered "equal" and put them into a set:

let a1 = ClassA(value: 13)
let a2 = ClassA(value: 13)

let nsSetA = NSSet(objects: a1, a2)
let swSetA = Set([a1, a2])

print(nsSetA.count) // 2
print(swSetA.count) // 2

As you can see, both NSSet and Set treat the objects as different. This is not the desired result. Arrays have unexpected results as well:

let nsArrayA = NSArray(object: a1)
let swArrayA = [a1]

print(nsArrayA.indexOfObject(a2)) // 9223372036854775807 == NSNotFound
print(swArrayA.indexOf(a2)) // nil

Setting breakpoints or adding debug output reveals that the overridden == operator is never called. I don't know if this is a bug or intended behavior.

2. Override hash and isEqual:

class ClassB : NSObject {
    let value : Int

    init(value : Int) {
        self.value = value

    override var hash : Int {
        return value

    override func isEqual(object: AnyObject?) -> Bool {
        if let other = object as? ClassB {
            return self.value == other.value
        } else {
            return false

For Swift 3, the definition of isEqual: changed to

override func isEqual(_ object: Any?) -> Bool { ... }

Now all results are as expected:

let b1 = ClassB(value: 13)
let b2 = ClassB(value: 13)

let nsSetB = NSSet(objects: b1, b2)
let swSetB = Set([b1, b2])

print(swSetB.count) // 1
print(nsSetB.count) // 1

let nsArrayB = NSArray(object: b1)
let swArrayB = [b1]

print(nsArrayB.indexOfObject(b2)) // 0
print(swArrayB.indexOf(b2)) // Optional(0)

Update: The behavior is now documented in Interacting with Objective-C APIs in the "Using Swift with Cocoa and Objective-C" reference:

The NSObject class only performs an identity comparison, so you should implement your own isEqual: method in classes that derive from the NSObject class.

As part of implementing equality for your class, be sure to implement the hash property according to the rules in Object comparison.

  • Thanks! This is excellent. Surprised that the overrides don't even work with Swift data structures. – user4691305 Oct 24 '15 at 18:14
  • You do not have to overwrite -hash, but -isEqual: only. Obviously there is no good implementation of -hash for all mutable classes. The only possible implementation is to return a constant (i. e. the address of the class object or a magic number.) Moreover, having mutable classes in a set it is impossible to fulfill the expectations of using a set (no two instances are equal). This is one of the reasons why equity and identity are congruent in Core Data. – Amin Negm-Awad Oct 26 '15 at 5:49
  • This is the correct answer and a useful piece of information for any practical Swift programmer. – emish Aug 16 '16 at 5:13
  • @AminNegm-Awad at least in Swift 2.2, you do need to override both hash and -isEqual: – nickjwallin Sep 15 '16 at 19:46

Implement Hashable, which also requires you to implement the == operator for your type. These are used for a lot of useful stuff in the Swift standard library like the indexOf function which only works on collections of a type that implements Equatable, or the Set<T> type which only works with types that implement Hashable.

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