12

I would like to have a generic function that can use the plus operator on two values.

class funccalc {
    func doAdd<T>(x:T,y:T) -> T {
        return x + y
    }
}
let a = funccalc()
println(a.doAdd(1, y: 4))
println(a.doAdd(23.54, y:200))

I get an error on return x + y

Is my only option to follow the suggestion in this answer: https://stackoverflow.com/a/24047239/67566, and create my own protocol as Int and String would define the operator?

3 Answers 3

13

You may have a similar need for other functions too and implementing them for all integer and floating point types (or other "summable" things) would cause massive code duplication.

One partial solution, specifically for +, -, *, /, % is to require conformance to IntegerArithmeticType protocol:

func example<T: IntegerArithmeticType>(x: T, y: T) -> T { return x + y }
println(example(40, 2)) // --> 42

This does not apply to floating point types because they do not implement overflow operations defined in _IntegerArithmeticType protocol, which IntegerArithmeticType inherits from.

However, extending types for a specific globally defined operator function conformance is not as "annoying" as you might think:

protocol Summable { func +(lhs: Self, rhs: Self) -> Self }

extension Int: Summable {}
extension Double: Summable {}
extension String: Summable {}
// extension for any other types... you are in full control!

You do this once, then forevermore you can use Summable in you code:

func example<T: Summable>(x: T, y: T) -> T { return x + y }

println( example("4", "2") ) // --> 42

Indeed, and as @connor pointed out, this is equivalent to @Jean-PhilippePellet's answer you mentioned.

6

You should do as that answer suggested. Create a protocol for your use and extend all of the classes that you want to use it. Then make sure T implements that protocol in your method signature.

You can't use an "addable" protocol because there isn't one in swift. The swift library actually creates a function + for each valid addition operations. Command-click on something like Int to see where all of these are defined. It will look something like this:

//....
func +(lhs: Int8, rhs: Int8) -> Int8
func +(lhs: UInt16, rhs: UInt16) -> UInt16
func +(lhs: Int16, rhs: Int16) -> Int16
func +(lhs: UInt32, rhs: UInt32) -> UInt32
func +(lhs: Int32, rhs: Int32) -> Int32
//etc...
1
  • 3
    I was hoping there would be another way, as making a new protocol just to get this type of functionality seems a bit annoying. The command-clck operation is new to me, I will need to try that. Jun 12, 2014 at 2:15
3

Have you tried using the protocol AdditiveArithmetic?

https://developer.apple.com/documentation/swift/additivearithmetic

Looks like thats exactly what you are looking for. That protocol has the method:

static func + (Self, Self) -> Self

Using that protocol your method becomes:

class funccalc {
    func doAdd<T: AdditiveArithmetic>(x:T,y:T) -> T {
        return x + y
    }
}
2
  • Btw, this method returns given number unchanged Mar 31, 2019 at 7:12
  • @Robert Dresler, thanks for pointing that out, just updated the method.
    – J.beenie
    Apr 2, 2019 at 15:20

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service and acknowledge you have read our privacy policy.

Not the answer you're looking for? Browse other questions tagged or ask your own question.