Cannot pass any array type to a function which takes [Any] as parameter

Question

I have an array of type [String]

let names = ["Joffrey", "Cersei", "Mountain", "Hound"]

I have a function which takes an array of [Any] type.

func printItems(items: [Any]){
    for item in items {
        print(item)
    }
}

Now when I call the function with names as parameters,

printItems(names)

I get an error Cannot invoke 'printItems' with an argument list of type '([String])'.

Any is just a typealias for a protocol which all types implicitly conform to.

Thoughts?

Answer 1

This is a surprising limitation of Swift. You can't cast an array to type [Any] so you can't pass it to a function taking type [Any]. You can use map to cast each item of the array:

printItems(names.map {$0 as Any})

But, the right way to do this in Swift is to use Generics:

func printItems<T>(items: [T]) {
    for item in items {
        print(item)
    }
}

let names = ["Joffrey", "Cersei", "Mountain", "Hound"]
let numbers = [3.1416, 2.71818, 1.4142, 1.618034]

printItems(names)    // This now works
printItems(numbers)  // This works too

Answer 2

While every type conforms Any, this is not the same as it being a universal implicit superclass that all types inherit from.

When you cast a type to a protocol, you create a new value with a different structure. So for a string to be of type Any, it needs to be physically transformed from the String representation:

sizeof(String) // 24 bytes (on 64-bit, anyway)

to the Any representation:

sizeof(Any) // 32 bytes, includes some meta data 
            // about what the type really is

Since value types are held directly in the array, the array would be a very different shape so under the hood the compiler would have to do the equivalent of this:

names.map { $0 as Any } // create a new array, with the Any versions

Swift could perhaps automate this process for you (it does if you pass a single variable into a function that takes Any). But personally I’m glad it doesn’t, I’d rather this be more explicit – suppose your array was huge, this would be a lot of processing happening implicitly under the hood.

This is different from when you have an array of reference types, all of which are pointers to the actual data and so all the same size, and which need no transformation when upcasting:

class C  { }
class D: C { }

let d = D()
let c: C = d
unsafeBitCast(d, UnsafePointer<Void>.self)  // these value will
unsafeBitCast(c, UnsafePointer<Void>.self)  // be the same

So saying “this array of [D] is really an array of [C]” is just a matter of the compiler agreeing the types can be substituted, no data transformation needs to take place:

// so this works fine, 
// no runtime transformation needed:
func f(cs: [C]) { }
let ds = [D(),D()]
f(ds)

But protocols still are different from superclass references when used with classes:

protocol P { }
extension C: P { }

sizeofValue(C())       // 8 bytes (just a pointer)
sizeofValue(C() as P)  // 40 bytes

func g(ps: [P]) { }
g(ds)  // won’t compile, needs transformation

Answer 3

You need to explicitly put in your let declaration that you are declaring an Any array and not a specific type array.

With your current declaration, Swift will evaluate it to [String] array. and not as [Any] array.

To fix your problem just do the following:

let names : [Any] = ["Joffrey", "Cersei", "Mountain", "Hound"]

If you want to retain your let declaration, use AnyObject in your printItems function and it will be accepted by Swift.

func printItems(items: [AnyObject]){
    for item in items {
        print(item)
    }
}