This is valid code in Swift:

println(nil < 1)

And the output will be true, likewise

println(nil > 1)

will be false (the number 1 is arbitrary, you can do the same for -1 and probably something else). The reason I ask is because I saw some code that tried to compare "some_string".toInt() to a numeric value and it compiled, which seems wrong considering toInt() returns Int?.

My question is, should this be valid syntax in Swift? If so, what is the numeric value of nil?

Swift 3.0 Update:

Looks like Swift Evolution tackled this issue by removing the optional comparison operators. This is no longer an issue in Swift 3.0 as it doesn't compile.

  • 2
    this looks like a bug to me. – Bryan Chen Oct 3 '14 at 3:38
  • Int.min as Int? > nil $R14: Bool = true maybe it is intended to allow you compare two Int? and Int.min > nil give compile error – Bryan Chen Oct 3 '14 at 3:45
  • @BryanChen It's certainly interesting. I would definitely say a bug in this context but I'd really like to know how it's arriving at this conclusion. – Lucas Derraugh Oct 3 '14 at 3:48
  • 1
    Interestingly, this doesn't work: let i = 1; println(nil < i), nor does let i: Int = 1; println(nil < i). I guess that makes sense if 1 in println(nil < 1) is being directly promoted to Int?, but it still seems odd... – Mike S Oct 3 '14 at 4:11
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    I'm seeing more and more support for the theory that the literal 1 is a valid value of the Int? type, and so Swift is auto-typecasting it to a type that's valid to be used in that comparison operation. Int is not valid to compare against nil, but Int? is valid. I'll go ahead and make this an answer so people can confirm (by up- or down-voting the answer) whether this is really what's happening. – rmunn Oct 3 '14 at 4:13

I believe what is happening is that the literal 1 is being implicitly typecast to the Int? type by the comparison to nil. For those who aren't used to Swift, I'll explain a little further. Swift has a concept called "optionals", which can either have a value or be nil. (For anyone familiar with Haskell, this is basically the Maybe monad.) It's illegal to assign nil to a variable that wasn't explicitly defined as optional, so let i: Int = nil will be rejected by the compiler. This allows for several benefits which are out of the scope of this answer, and it's a rather clever way to do it.

What's happening here, though, is that the literal 1 is a valid value of several types: Int, Int32, Int64, UInt32, UInt64, etc., etc., etc. And it's also a valid value of the optional versions of those types: Int?, Int32?, etc.

So when the Swift compiler sees a comparison between a literal value and nil, it tries to find a type that both these values would be valid for. 1 is a valid value of the Int? type, and nil is also a valid value of the Int? type, so it applies the comparison operator with the type signature (Int?, Int?) -> Bool. (That's the comparison operator that takes two Int? values and returns a Bool). That operator's rules say that nil values sort lower than anything else, even Int.min, and so you get the result seen in the OP's question.

  • 1
    Incidentally, this wouldn't be possible in Haskell (as I understand it), because the Maybe monad is defined as having two possible values: either Nothing or Just x (where x can be of any type). And since x can never be implicitly promoted to Just x, the Haskell compiler would, given a comparison operator that compares the types Maybe Int and Maybe Int, forbid any comparison between 1 and Nothing, because the former is of type Int and there's no operator to compare Int and Maybe Int. (But comparing Just 1 and Nothing would be valid: both are of type Maybe Int). – rmunn Oct 3 '14 at 4:26
  • Correction to the parenthetical in my previous comment: Nothing is of value Maybe x, where x can be any type. But that matches the type Maybe Int, so the comparison would be valid. – rmunn Oct 3 '14 at 4:27
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    One of the signatures of the < operator is: func <<T : _Comparable>(lhs: T?, rhs: T?) -> Bool; I believe that's where this is coming from. Writing a quick test function: func test<T: Comparable>(lhs: T?, rhs: T?) and calling test(nil, 1) works. Calling println(_stdlib_getDemangledTypeName(rhs)) inside that function prints Swift.Optional; calling println(_stdlib_getDemangledTypeName(rhs!)) prints Swift.Int. So, rhs, which was passed as 1 in the call is an Int?. – Mike S Oct 3 '14 at 4:38
  • Makes perfect sense, given how the Swift compiler tries to infer types. – Nicolas Miari Dec 2 '15 at 7:59
  • 4
    This "optional comparison operator" has been removed in Swift 3: github.com/apple/swift-evolution/blob/master/proposals/…, and print(1 < nil) does no longer compile. – Martin R Aug 31 '16 at 13:51

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