Trying to compile this code

pow(10,2)
struct Test {
  var i:Int
  func pow(_ p:Int) -> Int { return pow(i,p) }
}
var s = Test(i:10)
s.pow(2)

gives me a compiler error. Obviously the standard math.h function pow was blinded out by Swift's scoping rules. This rather smells like a compiler error since the math.h version of pow has a different signature. Is there any way to invoke it, though?

  • This is a bug – see Swift 3.0: compiler error when calling global func min<T>(T,T) in Array or Dictionary extension. The solution is to disambiguate by using the module name where the function resides. – Hamish Oct 18 '16 at 15:18
  • Although in your case, there's no pow overload for (Int, Int) -> Int in the first place – calling pow(10,2) actually uses the overload (Decimal, Int) -> Decimal – Hamish Oct 18 '16 at 15:20
  • pow returns (and accepts) a Decimal, not an Int - I think the compiler is lost because of type inference. This suddenly works with these annoying modifications but it indeed looks like a compiler bug. – Moritz Oct 18 '16 at 15:21
  • Indeeded it takes and returns Decimal. But even return Int(pow(Decimal(i),p)) does not solve the issue. – Thomas Kilian Oct 18 '16 at 15:27
  • 1
    What about going via floating point: { return lrint(Darwin.pow(Double(i),Double(p))) } ? – Martin R Oct 18 '16 at 15:39
up vote 3 down vote accepted

There are two problems: The first is how pow(i,p) is resolved. As described in Swift 3.0: compiler error when calling global func min<T>(T,T) in Array or Dictionary extension, this can be solved by prepending the module name to the function call.

The second problem is that there is no pow function taking two integer arguments. There is

public func powf(_: Float, _: Float) -> Float
public func pow(_: Double, _: Double) -> Double

in the standard math library, and

public func pow(_ x: Decimal, _ y: Int) -> Decimal

in the Foundation library. So you have to choose which one to use, for example:

struct Test {
    var i:Int
    func pow(_ p:Int) -> Int {
        return lrint(Darwin.pow(Double(i),Double(p)))
    }
}

which converts the arguments to Double and rounds the result back to Int.

Alternatively, use iterated multiplication:

struct Test {
    var i: Int
    func pow(_ p:Int) -> Int {
        return (0..<p).reduce(1) { $0.0 * i }
    }
}

I observed at https://codereview.stackexchange.com/a/142850/35991 that this is faster for small exponents. Your mileage may vary.

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