Look at this snippet:

int a;
extern int b;
auto b = a;

Is it well-formed? Clang successfully compiles it, but GCC and MSVC don't.

(This issue has come up when I answered How to declare and define a static member with deduced type?)

marked as duplicate by M.M c++ Sep 13 at 0:32

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  • I believe [dcl.spec.auto]p5 is the critical wording here, feels like the wording should explicitly cover this case but it does not so it ends up being ill-formed. – Shafik Yaghmour Sep 12 at 23:32
  • @ShafikYaghmour: If I think logically, b is declared as an int. Then, it is defined as an int (as auto is deduced as int). So it should be well-formed. The standard should say otherwise if it wants this to be ill-formed, just like it does so with functions. – geza Sep 12 at 23:39
  • Sure, logically but the standard wording says otherwise ... maybe it is a defect ... not sure yet. I am reaching out to other language lawyers to see but I think my analysis is correct. – Shafik Yaghmour Sep 12 at 23:40
  • If this were ill formed then this would mean that defining global variable with auto would be ill formed unless you took extraordinary measures to make sure the extern declaration did not appear in the header when included in the same translation unit as the global definition it declares. Which seems a little bit absurd to me. – Galik Sep 13 at 0:21
  • @Galik I recieved a response from Richard Smith on twitter and he seems to agree that clang is correct. – Shafik Yaghmour Sep 15 at 14:08

Clang, GCC, MSVC. (This answer previous stated that all 3 compilers would refuse to build it, but that was incorrect.)

dcl.spec.auto does not address the compatibility of multiple declarations of the same variable when mixing the auto type specifier with other type specifiers. However, it addresses it for function return types:

auto f();
auto f() { return 42; } // return type is int
auto f();               // OK
int f();                // error, cannot be overloaded with auto f()
decltype(auto) f();     // error, auto and decltype(auto) don't match

So my intuition is that this is an oversight in the standard and the behavior is currently unspecified, but if/when it gets specified, there would be precedent to make it illegal. (On the other hand, variables can't be overloaded, so who knows.)

  • 1
    What do you mean by this: "variables can't be overloaded, so who knows"? Why could it matter in this case that functions can be overloaded? – geza Sep 12 at 23:25
  • @geza, I feel that there is room for more ambiguity when resolving function types than when resolving variable types. If you feel differently, feel free to discard that comment and assume that your construction is illegal. – zneak Sep 12 at 23:33

Update clang is correct

I asked this question on twitter and the response I received from Richard Smith was as follows:

Not a defect, it's intentional that this restriction applies only to deduced return types and not to variable types. For variables, it's just a convenience shorthand, but return type deduction affects something more fundamental about functions (and especially function templates).

So the logic is that this is allowed by [dcl.spec.auto] and to restrict this for deduced return types [dcl.spec.auto]p11 was added otherwise there is no restriction and therefore this is not restricted for the variables case.

Original

Currently [dcl.spec.auto] does not seem to cover this case explictly but it does say in [dcl.spec.auto]p5:

A program that uses auto or decltype(auto) in a context not explicitly allowed in this subclause is ill-formed.

and we can see it makes a similar case for functions ill-formed in [dcl.spec.auto]p11:

Redeclarations or specializations of a function or function template with a declared return type that uses a placeholder type shall also use that placeholder, not a deduced type. Similarly, redeclarations or specializations of a function or function template with a declared return type that does not use a placeholder type shall not use a placeholder. [ Example:

auto f();
auto f() { return 42; } // return type is int
auto f(); // OK
int f(); // error, cannot be overloaded with auto f()

....

So although this could use clarification as currently worded it feels like gcc is correct and this is ill-formed.

  • As already said, I don't see how [dcl.spec.auto]p5 applies here. auto b = a; is a valid use of auto. – Rakete1111 Sep 14 at 6:19

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