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While answering to a different question on SO, I came across a somewhat suspicious compiler error with gcc. The offending snippet is

template <class T> class A;
template <class T, class U>
void operator*(A<T>, A<U>);

template <class T>
class A {
    friend void ::operator*(A<T>, A<T>);

whose last line gives the famous warning

friend declaration 'void operator*(A<T>, A<T>)' declares a non-template function

leading to hard errors later. The full code can be found here.

Now, the problem is I don't think the behavior is appropriate. The standard in [temp.friend]/1 says:

For a friend function declaration that is not a template declaration:

— if the name of the friend is a qualified or unqualified template-id, the friend declaration refers to a specialization of a function template, otherwise

— if the name of the friend is a qualified-id and a matching nontemplate function is found in the specified class or namespace, the friend declaration refers to that function, otherwise,

— if the name of the friend is a qualified-id and a matching specialization of a template function is found in the specified class or namespace, the friend declaration refers to that function specialization, otherwise,

this is C++03; C++11 contains similar clause

A specialization of a template is defined by [temp.spec]/4:

... A specialization is a class, function, or class member that is either instantiated or explicitly specialized (14.7.3).

and [temp.fct.spec]/1:

A function instantiated from a function template is called a function template specialization; so is an explicit specialization of a function template. Template arguments can either be explicitly specified ...

[temp.arg.explicit]/2 says this about specifying a template argument list for a function specification:

A template argument list may be specified when referring to a specialization of a function template


— in a friend declaration.

Trailing template arguments that can be deduced (14.8.2) may be omitted from the list of explicit template-arguments. If all of the template arguments can be deduced, they may all be omitted; in this case, the empty template argument list <> itself may also be omitted.

So, by [temp.fct.spec]/1, ::operator*<T,T>(A<T>, A<T>) is a function template specialization; and since the template parameters can be deduced, it can be referred to as ::operator*(A<T>, A<T>). So I conclude the qualified-id in the friend declaration denotes a function template specialization.

I think that the emphasized condition is fulfilled; therefore, the friend declaration should befriend the class with the operator template (implicit) specialization. However, gcc thinks otherwise and goes on to the fourth bullet which, only concerns friends designated by unqualified-ids, even though the friend is actually named by a qualified-id.

Is my interpretation correct or is gcc right in this case?

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My GCC says, "if this is not what you intended, make sure the function template has already been declared and add <> after the function name here", and indeed it's fine with operator*<>. –  Kerrek SB Nov 23 '12 at 0:01
@KerrekSB: yeah I know - as you might have noticed, the ideone gcc says the same; however, the question is not what gcc says or what workarounds exist, but rather if what gcc says is in accordance with the standard. –  jpalecek Nov 23 '12 at 0:04
Well, does operator* look like a "qualified-id" to you? I thought that language referred to something like friend void Bar<T>::zip() or something like that. –  Kerrek SB Nov 23 '12 at 0:17
@KerrekSB: ::operator*, which is used in the snippet, does indeed look like a qualified-id. –  jpalecek Nov 23 '12 at 0:20
MSVC requires the same syntax as seen at msdn.microsoft.com/en-us/library/f1b2td24(v=vs.110).aspx so I doubt it is a compiler bug. The <> syntax is equivalent to friend void ::operator*<T>(A<T>, A<T>); as far as I know. Hopefully someone more familiar with the standard can explain why. –  Yuushi Nov 23 '12 at 0:40

1 Answer 1

I believe gcc is correct.

First the current wording:

if the name of the friend is a qualified-id and a matching function template is found in the specified class or namespace, the friend declaration refers to the deduced specialization of that function template (, otherwise

From [ Deducing template arguments from a function declaration]:

1 In a declaration whose declarator-id refers to a specialization of a function template, template argument deduction is performed to identify the specialization to which the declaration refers. Specifically, this is done for explicit instantiations (14.7.2), explicit specializations (14.7.3), and certain friend declarations (14.5.4). This is also done to determine whether a deallocation function template specialization matches a placement operator new (, 5.3.4). In all these cases, P is the type of the function template being considered as a potential match and A is either the function type from the declaration or the type of the deallocation function that would match the placement operator new as described in 5.3.4. The deduction is done as described in

2 If, for the set of function templates so considered, there is either no match or more than one match after partial ordering has been considered (, deduction fails and, in the declaration cases, the program is ill-formed.

In your case, template argument deduction is not performed because the declarator-id does not refer to a specialization. I think the important part is whose declarator-id refers to a specialization as the condition for this to happen. Simply put, you need the <> for the first sentence in to happen (if I am reading this correctly).

UPDATE Let's break down what a declarator-id is for this situation:

nested-name-specifier templateopt unqualified-id
:: identifier
:: operator-function-id
:: literal-operator-id
:: template-id

As seen from the above grammar, void ::operator*(A<T>, A<T>) is a :: operator-function-id and not a :: template-id. What this means is the syntax can never declare a template function (as mentioned in the error message). For it to be a template-id you have to use operator-function-id < template-argument-listopt> syntax.

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I think you're wrong; to prove me otherwise, read my update of the question and argue why doesn't the declarator-id refer to a function specialization. BTW you seem to refer to the C++11 standard; in that case, the standard only requires that "matching function template is found" in 14.5.4 for the third bullet (befriending a template specialization) to apply. –  jpalecek Nov 24 '12 at 2:55
For the declarator-id to refer to a specialization, the syntax must be operator-function-id < template-argument-listopt> (where template-argument-list is optional). This is a precondition for deduction to be performed. As from your quote: Trailing template arguments that can be deduced (14.8.2) may be omitted. However, for deduction to happen in this situation, the declarator-id must refer to a specialization, so deduction never happens. –  Jesse Good Nov 25 '12 at 0:00
Please refer to my update, if you lookup the grammar for :: template-id, void ::operator* can never refer to a template function in a declaration (the compiler will always think it is a non-template). –  Jesse Good Nov 25 '12 at 0:19

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