How can the operator() of a lambda be declared as noreturn ?

Ideone accepts the following code:

#include <cstdlib>  
int main() {
    []() [[noreturn]] { std::exit(1); }();
    return 0;

Clang 3.5 rejects it with:

error: 'noreturn' attribute cannot be applied to types

You can try it in godbolt: http://goo.gl/vsuCsF

Which one is right?

Update: the relevant standard sections appear to be, 7.6.3, 7.6.4 but after reading does it still isn't 100% clear to me (i) what is the right behavior, (ii) how to mark the operator() of a lambda as noreturn.

  • To your question (ii), use __attribute__((noreturn)) in G++. It works for years. There is a regression in GCC 9, though.
    – FrankHB
    Jun 23 '19 at 7:59

Clang is correct. An attribute can appertain to a function being declared, or to its type; the two are different. [[noreturn]] must appertain to the function itself. The difference can be seen in

// [[noreturn]] appertains to the entity that's being declared
void f [[noreturn]] ();    // §8.3 [dcl.meaning]/p1:
                           // The optional attribute-specifier-seq following a
                           // declarator-id appertains to the entity that is declared."
[[noreturn]] void h ();    // §7 [dcl.dcl]/p2:
                           // "The attribute-specifier-seq in a simple-declaration 
                           // appertains to each of the entities declared by
                           // the declarators of the init-declarator-list."

// ill-formed - [[noreturn]] appertains to the type (§8.3.5 [dcl.fct]/p1: 
// "The optional attribute-specifier-seq appertains to the function type.")
void g () [[noreturn]] {}

Indeed if you compile this in g++ it tells you that

warning: attribute ignored [-Wattributes]
 void g () [[noreturn]] {}
note: an attribute that appertains to a type-specifier is ignored

Note that it doesn't emit a warning that g() actually does return.

Since an "attribute-specifier-seq in the lambda-declarator appertains to the type of the corresponding function call operator or operator template" (§5.1.2 [expr.prim.lambda]/p5) rather than to that operator/operator template itself, you can't use [[noreturn]] there. More generally, the language provides no way for you to apply an attribute to the operator () of a lambda itself.

  • that is, there is no way to use attributes on the operator() of a lambda?
    – gnzlbg
    Nov 12 '14 at 15:36
  • 4
    @gnzlbg No, there's no way.
    – T.C.
    Nov 12 '14 at 15:39
  • @T.C. Is there any reason for that, or hasn't the committee thought about it. Has there been any proposals for solving this issue?
    – user877329
    Feb 10 '17 at 18:00
  • 2

So a lambda delcarator has the following grammar the draft C++ standard section 5.1.2 Lambda expressions:

( parameter-declaration-clause ) mutableopt exception-specificationopt attribute-specifier-seqopt trailing-return-typeopt

and the noreturn attribute is indeed a valid attribute-specifier-seq so from a grammar perspective I don't see a restriction from section 7.6.3 Noreturn attribute it says (emphasis mine going forward):

[...]The attribute may be applied to the declarator-id in a function declaration.[...]

which does not seem to forbid your use but it does suggest that it is not allowed. If we look at section 7.6.4 Carries dependency attribute it says:

[...]The attribute may be applied to the declarator-id of a parameter-declaration in a function declaration or lambda[...]

the fact that it explicitly includes the lamda case strongly indicates that section 7.6.3 is meant to exclude lambdas and therefore clang would be correct. As a side note Visual Studio also rejects this code.

  • 1
    From C++11 "An attribute-specifier-seq in a lambda-declarator appertains to the type of the corresponding function call operator". That is, the [[noreturn]] attribute on the lambda applies to the type of the operator(). No need to specifically add in 7.6.3 that it also applies to a lambda.
    – gnzlbg
    Nov 12 '14 at 14:26

[C++11: 7.6.3/1]: The attribute-token noreturn specifies that a function does not return. It shall appear at most once in each attribute-list and no attribute-argument-clause shall be present. The attribute may be applied to the declarator-id in a function declaration. The first declaration of a function shall specify the noreturn attribute if any declaration of that function specifies the noreturn attribute. If a function is declared with the noreturn attribute in one translation unit and the same function is declared without the noreturn attribute in another translation unit, the program is ill-formed; no diagnostic required.

I concede that this wording, as is, doesn't prohibit the attribute from appearing elsewhere, but in concert with seeing no evidence anywhere in the standard for it, I don't think this is intended to work with lambda declarations.

Therefore, Clang would be correct.

It may or may not be telling that there was a patch proposal to Clang to allow GCC-style noreturn attributes on lambdas, but not the standard form.

Unfortunately, this feature is not included in GCC's list of extensions, so I can't really see exactly what's going on here.

  • 1
    From C++11 "An attribute-specifier-seq in a lambda-declarator appertains to the type of the corresponding function call operator". That is, gcc is right I think.
    – gnzlbg
    Nov 12 '14 at 14:23
  • I understand it as an attribute in a lambda appertains to the corresponding operator(), so noreturn should apply to operator(), and not to the type of the lambda.
    – gnzlbg
    Nov 12 '14 at 14:34
  • @gnzlbg: Hmm okay I see what you mean but the above-quoted clause says that noreturn is applied to declarations (kinda), not types? Clang at least clearly thinks that applying it to types is wrong. I don't think it's very clear. Nov 12 '14 at 14:35
  • Me neither, I've read it 10 times and am still not sure about it. The terminology is very specific and I do not master it.
    – gnzlbg
    Nov 12 '14 at 14:36

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