Code below compiles and works both in Visual Studio and g++:

class A;
A* getRef(void);
char (&func(...))[2];

int main() {
    bool isDefault = sizeof(func(getRef()))==2;
    std::cout << isDefault << std::endl; //prints 1
    return 0;

Next code still compiles (and works) in Studio, but g++ states this is invalid use of incomplete type 'class A':

class A;
A& getRef(void); //the only change
char (&func(...))[2];

int main() {

    bool isDefault = sizeof(func(getRef()))==2; //g++ error here
    std::cout << isDefault << std::endl;
    return 0;

Is this a fundamentally wrong code which should be rejected by a compiler (and if so, why VS compiler doesn't produce any warnings)? Or is there actually some difference between pointers and references in this context that I'm not aware of?

  • @Franck, the OP is not trying to get sizeof(A&). A& is an argument to func. – R Sahu Aug 29 '16 at 17:27
  • @RSahu Sorry, I missed the func call. – Franck Aug 29 '16 at 17:29
  • @RSahu: But the reference (to incomplete type) is used as actual argument for an ellipsis argument. And that makes it a bit subtle. – Cheers and hth. - Alf Aug 29 '16 at 17:33
  • I think both compilers evaluate isDefault as sizeof(char[2]) at compile-time. But g++ should generate an Abstract Syntax Tree for the expression func(getRef()) that emits the error, even if the expression is forgotten at the end. – Franck Aug 29 '16 at 17:35
  • @Cheersandhth.-Alf, Agreed. It's not clear to me whether the standard dictates that the arguments to func must be evaluated to come up with the value of sizeof(func(getRef())). – R Sahu Aug 29 '16 at 17:36

The crucial aspect of the modified code is that a reference to incomplete type is passed as actual argument to an ellipsis formal argument.

C++11 §5.2.2/7, about arguments to ellipsis:

The lvalue-to-rvalue (4.1), array-to-pointer (4.2), and function-to-pointer (4.3) standard conversions are performed on the argument expression. An argument that has (possibly cv-qualified) type std::nullptr_t is converted to type void* (4.10). After these conversions, if the argument does not have arithmetic, enumeration, pointer, pointer to member, or class type, the program is ill-formed.

Then for the lvalue-to-rvalue conversion, we find

C++11 §4.1/1:

A glvalue (3.10) of a non-function, non-array type T can be converted to a prvalue. If T is an incomplete type, a program that necessitates this conversion is ill-formed.

As I read it, but this is just my gut-feeling interpretation, a reference to T is a glvalue of type T, which here is incomplete, yielding ill-formed code.


No matter what the arguments to func are sizeof(func(getRef())) is going to be equal to 2. The arguments to func need not be evaluated to come up with that answer.

From the C++11 Standard:

5.3.3 Sizeof

1 The sizeof operator yields the number of bytes in the object representation of its operand. The operand is either an expression, which is an unevaluated operand (Clause 5), or a parenthesized type-id.

In your case, the operand is an expression, which is an unevaluated operand. The compiler need not evaluate func(getRef()) to come up with the value of sizeof(func(getRef())).

Hence, I conclude that g++ is overreaching in what it needs.

It appears that g++'s handling of variable argument functions is the culprit. It works fine when func is modified to be

char (&func(A&))[2];

See it working at http://ideone.com/YQD9v0.

  • Well, that kind of defeats the initial purpose of the code (to declare char func(A&) and thus find out if A is a complete type). Thanks for the input, though. – Abstraction Aug 30 '16 at 9:00

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