I know how to customize binary operators, like this

infix operator ** { associativity left precedence 170 }
func ** (left: Double, right: Double) -> Double {
    return pow(left, right)

But, how to customize ternary operators in Swift? Can anyone give me some idea? Thanks so much!

You can actually do this by declaring two separate operators that work together and using a curried function for one of the operators.

Let's declare a ternary operator x +- y +|- z that will check the sign of the initial value x, and then return the second value y if the sign is zero or positive and the final value z if the sign is negative. That is, we should be able to write:

let sign = -5 +- "non-negative" +|- "negative"
// sign is now "negative"

We'll start by declaring the two operators. The important part is to have higher precedence on the second operator - we'll evaluate that part first and return a function:

infix operator +- { precedence 60 }
infix operator +|- { precedence 70 }

Then define the functions - we'll define the second first:

func +|-<T>(lhs: @autoclosure () -> T, rhs: @autoclosure () -> T)(left: Bool) -> T {
    return left ? lhs() : rhs()

The important part here is that this function is curried -- if you only call it with the first two parameters, instead of returning a T value, it returns a (left: Bool) -> T function. That becomes the second parameter of the function for our first operator:

func +-<I: SignedIntegerType, T>(lhs: I, rhs: (left: Bool) -> T) -> T {
    return rhs(left: lhs >= 0)

And now we can use our "ternary" operator, like this:

for i in -1...1 {
    let sign = i +- "" +|- "-"
    println("\(i): '\(sign)'")
// -1: '-'
// 0: ''
// 1: ''

Note: I wrote a blog post on this subject with another example.

  • 1
    func +|- should probably use autoclosures too, so that the parameters are evaluated lazily, as with the usual ?:. Also, while this creates something that works like a ternary operator, one cannot actually use ? and : as neither of those is a valid operator token in swift. – bames53 Oct 29 '14 at 19:35
  • I was just coming back to make that edit! And yes, ?: itself can't be overridden. – Nate Cook Oct 29 '14 at 19:37
  • Similar example here: reddit.com/r/swift/comments/2fjwav/custom_ternary_operator – Martin R Oct 29 '14 at 19:47
  • @MartinR Hadn't seen that! Just posted about this: natecook.com/blog/2014/10/ternary-operators-in-swift – Nate Cook Oct 29 '14 at 20:47
  • Minor correction: SignedInteger should be SignedIntegerType with Xcode 6.1 – Martin R Oct 29 '14 at 21:02

A "true" ternary operator such as _ ? _ : _ requires language support. Swift allows creating and customizing only unary and binary operators.

You can use the technique in @NateCook's answer to make a pair of binary operators which together work like a ternary operator, but they're still independent binary operators -- you can use either on its own. (By contrast, _ ? _ : _ is only a ternary operator; _ ? _ and _ : _ can't be used individually.)

Of course, why stop there? You could chain more binary operators to create quaternary operators, and so on. For extra credit, try making yourself an extended spaceship operator:

let c: String = a <=> b
    |<| "a < b"
    |=| "a = b"
    |>| "a > b"

(...but please do this as an academic exercise only, or anyone else who works with code you write will hate you.)

Here is how you can do it in Swift 4:

precedencegroup SecondaryTernaryPrecedence {
    associativity: right
    higherThan: TernaryPrecedence
    lowerThan: LogicalDisjunctionPrecedence

infix operator ~ : SecondaryTernaryPrecedence

func ~ <T>(lhs: @autoclosure () -> Bool, rhs: @escaping @autoclosure () -> T) -> (Bool, () -> T) {
    return (lhs(), rhs)

infix operator >< : TernaryPrecedence

@discardableResult func >< <T>(lhs: (Bool, () -> T), rhs: @escaping @autoclosure () -> T) -> T {
    if lhs.0 {
        return lhs.1()
    } else {
        return rhs()


let n = false ~ "it was true" >< "it was false" //"it was false"

true ~ print("it was true") >< print("it was false")
// Prints "it was true"

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.