I know I'm being pedantic here, but I'm just trying to understand the C++ grammar production.

I will start with a simple-declaration.

    decl-specifier-seqopt   init-declarator-listopt






Now, I'll look into the definition of a init-declarator-list.



    noptr-declarator   parameters and qualifiers   trailing return type    (*2)

    declarator-id   attribute-specifier-seqopt
    noptr-declarator   parameters and qualifiers    (*1)

parameters and qualifiers:
    (parameter-declaration-clause)   cv-qualifiersopt   ... (all optionals)

    ->   trailing-type-specifier-seq

    trailing-type-specifier                See the definition of a traling-type-specifier above.

Replacing noptr-declarator by a declarator-id in (*1), using the previous definition of noptr-declaration, we arrive at the following definition of nonptr-declarator:

    declarator-id   parameters and qualifiers

Now replacing noptr-declarator, parameters and qualifiers and trailing-return-type in (*2) by each definition given above, we obtain the following for declarator:

    declarator-id   (parameter-declaration-clause)   (parameter-declaration-clause)   ->

With this last result we could say that the grammar allows the following declaration of a function f:

auto f()() -> int;  

which of course is not valid. But I couldn't find anything in the Standard saying, directly or indirectly, that this construction is ill-formed.

The error messages from GCC (f declared as function returning a function) and clang (auto return without trailing return type; deduced return types are a C++1y extensions) didn't help in this regard either.

  • It is not allowed because there is no grammar in the Standard which describes this syntax. It is like saying int f(){} * 100 is not allowed but I don't find anything in Standard that disallows it. – Nawaz Jan 22 '15 at 18:09
  • You are masking the real error here, which is trying to define a function returning a function. int f()() is just as invalid. – user3920237 Jan 22 '15 at 18:10
  • How to you arrive at auto f()() -> int; ? You say "with this last result we could...." – P0W Jan 22 '15 at 18:11
  • @POW In the simple-declaration, make simple-type-specifier = auto. Then make declarator-id = f, and so on. – Ayrosa Jan 22 '15 at 18:16

In fact, the gcc error message is quite helpful: The grammar does in fact allow auto f()() -> int, but this syntactically correct declaration is semantically invalid. It would describe a function returning a function returning int. See the answer of ecatmur for the standard quote disallowing that.

To understand the parse, work like this. f is what you want to declare. Parse to the right, you'll find an empty argument list, so f() is a valid expression, and the type of that expression gets declared. Parse again to the right, you'll find an argument list again, so the return type of f is a function taking zero arguments. Parse again to the right, and you will hit the end (the -> arrow), so parse to the left to find the result type, which is auto, and gets replaced by the type past the arrow.

  • live example of the function returning a pointer to a function of type auto()->int. All I added was some () around a sub-expression, and a * to indicate something is a pointer. auto (*f())() -> int. – Yakk - Adam Nevraumont Jan 22 '15 at 18:25
  • I'm accepting your answer because you described in your second paragraph above exactly what I was missing (see my comment to ecatmur). Great answer (+1). – Ayrosa Jan 22 '15 at 18:26


[...] Functions shall not have a return type of type array or function, although they may have a return type of type pointer or reference to such things. [...]

  • @ecatmur This may explain the error emitted by GCC, but I don't understand how does this relate to the declaration auto f()() -> int; – Ayrosa Jan 22 '15 at 18:19
  • @Ayrosa assume auto f()()->int is valid. Then it means the same as int f()(). What is int f()()? A function f() returning a function int _(), or auto _()->int. Expand the parse tree, and label each component. – Yakk - Adam Nevraumont Jan 22 '15 at 18:27
  • @Yakk So essentially you're saying that we could rewrite it as int (f())(); which is... a function returning a function? And if we add a & or * right before the f() we get a pointer or reference, respectively? – Columbo Jan 22 '15 at 18:29
  • 1
    @Columbo yes, I think so. And at least clang agrees -- auto (*f())()->int compiles and is the same type of function as int (*f())(). I haven't had the fun of actually expanding the parse tree, however, so could easily be wrong. – Yakk - Adam Nevraumont Jan 22 '15 at 18:32

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service, privacy policy and cookie policy

Not the answer you're looking for? Browse other questions tagged or ask your own question.