I am curious how to do a for loop with a tuple in swift.

I know that to access each member you can use dot notation using the index number

var tupleList = ("A",2.9,3,8,5,6,7,8,9)

for each in tupleList {

//Error: Type does not conform to protocol sequence

  • 3
    Why use a tuple instead of an array if you want to iterate over it? – drewag Jun 19 '14 at 4:59
  • 5
    It seems, for me at least, that fixed-sized arrays imported from a C header becomes tuples. This, however, could be a side-effect of not having arrays with a fixed size. – MaddTheSane Aug 17 '14 at 21:21
  • Let arrays are fixed immutable now. I think that was back on beta 3 – Chéyo Aug 18 '14 at 2:36
  • 1
    The problem still is that fixed C arrays can be mutable. – MaddTheSane Aug 18 '14 at 14:56
  • @drewag Perhaps you want to go through a tuple's elements and normalize them. You could use an array, but your code is much cleaner expecting a fixed-size tuple and specific element labels. You could also write a normalization func that's specialized to your fixed-size tuple, but in the spirit of keeping your code DRY, you'd really like a generalized solution. – Slipp D. Thompson Sep 19 '16 at 2:48

Yes, you can!

func iterate<C,R>(t:C, block:(String,Any)->R) {
    let mirror = reflect(t)
    for i in 0..<mirror.count {
        block(mirror[i].0, mirror[i].1.value)

And voila!

let tuple = ((false, true), 42, 42.195, "42.195km")
iterate(tuple) { println("\($0) => \($1)") }
iterate(tuple.0){ println("\($0) => \($1)")}
iterate(tuple.0.0) { println("\($0) => \($1)")} // no-op

Note the last one is not a tuple so nothing happens (though it is a 1-tuple or "Single" which content can be accessed .0, reflect(it).count is 0).

What's interesting is that iterate() can iterate even other types of collection.

iterate([0,1])              { println("\($0) => \($1)") }
iterate(["zero":0,"one":1]) { println("\($0) => \($1)") }

And that collection includes class and struct!

struct Point { var x = 0.0, y = 0.0 }
class  Rect  { var tl = Point(), br = Point() }
iterate(Point()) { println("\($0) => \($1)") }
iterate(Rect())  { println("\($0) => \($1)") }

Caveat: the value passed as the 2nd argument of the block is type Any. You have to cast it back to the values with original type.

  • In swift 2 reflect(t) is replaced by Mirror(reflecting: t) but this documented as a playground/debugging feature only. – Alexis Apr 13 '16 at 10:50
  • 4
    Jafar, I don't think it's implied by the documentation that mirrors are to be used by playgrounds and debugger only. What is specifically stated in the documentation is "Mirrors are used by playgrounds and the debugger." – mz2 May 7 '16 at 10:06
  • 1
    Doing this works just fine in Swift 4 with a bit of change in syntax – Menno May 19 '18 at 11:24

You can using reflection Swift 5

Try this in a Playground:

let tuple = (1, 2, "3")
let tupleMirror = Mirror(reflecting: tuple)
let tupleElements = tupleMirror.children.map({ $0.value })


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Swift does not currently support iterating over tuples.

The biggest reasons are:

  1. There is no way at runtime to determine the number of elements in a tuple
  2. There is no way to access an element at a specific index except for the compile time accessors like tupleList.0. You would really want a subscript tupleList[0] but that is not provided to us

Frankly, I can't see a reason that you would use a tuple instead of an Array if you want to iterate over it.

It doesn't make sense to iterate over a tuple because:

  1. Tuples always have a fixed length and each element has a fixed type
  2. You can name each tuple member with a name you can use to access it later

Arrays are well made to iterate over:

  1. Arbitrary length
  2. Can store multiple types using a common superclass or AnyObject
  3. Can be declared as a literal in a similar fashion to tuples: var list = ["A",2.9,3,8,5,6,7,8,9]
  • 1
    I was thinking to iterate over a tuple that came out of a function. – Chéyo Jun 19 '14 at 5:27
  • 1
    you can name each member of the type in result of a function and access each element by name. A tuple is meant to be a cheap struct that you don't have to predefine a type for. You can't iterate over the members of a struct either. (at least not until / if they add reflection to Swift) – drewag Jun 19 '14 at 5:30
  • got it. Thanks for the explanation! – Chéyo Jun 19 '14 at 5:54
  • You cannot substitute a tuple for an array if your members are not of the same type, for example. – maksa Dec 10 '15 at 11:49
  • I was also stuck with a same situation, suppose I have two sides "left" and "right". So I will prefer making a tuple like let side = (left:"left", right:"right") so that I can access them by name to make it error free. And say I have 10 category of objects with left and right type in each category, so I want to iterate over each category. How can I? I won't use array since for some case I want to use things like side.left – Roohul Oct 20 '16 at 11:26

@dankogai's excellent solution, updated for Swift 3.0:

func iterate<Tuple>(_ tuple:Tuple, body:(_ label:String?,_ value:Any)->Void) {
    for child in Mirror(reflecting: tuple).children {
        body(child.label, child.value)

Usage remains identical to @dankogai's examples (beyond Swift 2's println()print() rename).

Note that the label is now of type String? when it was formerly String, to match the type change from Swift 1's MirrorType.subscript(…).0 to Swift 3's Mirror.Child.label.  However, for labelless tuples the label arg comes back as ".0", ".1", ".2", etc.— it's only nil for some other types.

Also, I took the liberty of renaming types & args to better match Swift 3's solidified naming standards, and changing the closure return type to Void.

Sidenote: I noticed somebody downvoted me here— I can't imagine why, other than the (fair) argument that building app functionality around reflection in Swift is hacking the type system, and is likely to lead to crappy code throughout (Swift's tuples shouldn't be considered an abstract data type, but rather a small collection of variables, akin to method args).  As a counter-argument, I originally ended up porting this to Swift 3 in project because I needed it— for better descriptions and debugDescriptions.  Because sane debug output will saves you hours and hours of frustration. ;-)  Additionally, this could be really useful for unit tests… because tests are ultimately most interested in “did the result of this operation match what we expect?”



  • Xcode 11.2.1 (11B500), Swift 5.1

Base Solution

struct Tuple<T> {
    let original: T
    private let array: [Mirror.Child]
    init(_ value: T) {
        self.original = value
        array = Array(Mirror(reflecting: original).children)
    func forEach(closure: (Mirror.Child) -> Void) { array.forEach { closure($0) } }
    func getOnlyValues<T: Any>() -> [T] { array.compactMap { $0.value as? T } }
    func getAllValues() -> [Any] { array.compactMap { $0.value } }

Usage on base solution

let num: Int? = 3
let str: String? = nil
let x = (1, "stew", str, 5.4, 2, num)

let tuple = Tuple(x)
tuple.forEach { print("\($0)") }

print("\(tuple.getAllValues())")            // [1, "stew", nil, 5.4, 2, Optional(3)]
print("\(tuple.getOnlyValues() as [Int])")  // [1, 2, 3]

More sugar

func valuesFrom<V>(tuple: V) -> [Any] { return Tuple(tuple).getAllValues() }
func onlyValuesFrom<T,V>(tuple: V) -> [T] { return Tuple(tuple).getOnlyValues() as [T] }

print(valuesFrom(tuple: x))                 // [1, "stew", nil, 5.4, 2, Optional(3)]
print(onlyValuesFrom(tuple: x) as [Int])    // [1, 2, 3]

No, you can't. The reason is that tuple items are not all required to have the same type, so you would not be able to know what type each should have.

  • 6
    That's as valid an arbitrary rationale as any I've heard at least :) To completely buy it, however, would mean you couldn't iterate an NSArray :) – David Berry Jun 19 '14 at 5:10
  • Any and AnyObject can be used to represent anything. That is what is used in NSArray or any other translations of id from Objective-C – drewag Jun 19 '14 at 5:15
  • Except function types, for some reason: "Any can represent an instance of any type at all, apart from function types." They should fix that. – jasamer Jul 15 '14 at 12:51
  • @jasamer I disagree. Any can represent any data type, which is logically distinct in OO languages like Swift. Function refs are a different beast in OO— they're meant to be called directly or bound to statically (compile-time), not passed around in collections or transformed dynamically (which would require runtime interpretation). That said, many plausible “Any-function” use-cases can be solved in Swift using generics. – Slipp D. Thompson Feb 15 '17 at 20:04

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