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Check out the following code (written just for fun)

namespace N
   template<typename T>
   struct K

template<typename T>
struct X
   typename T::template K<T> *p; //should give error 
                                 //N::K<int> has no template member named `K`

int main()
   X<N::K<int> > l;

The code gets compiled on g++(4.5.1) and Clang whereas Comeau and Intel C++ give (similar) errors.

The errors that I get on Comeau are :

"ComeauTest.c", line 13: error: class "N::K<int>" has no member "K"
     typename T::template K<T> *p;
          detected during instantiation of class "X<T> [with T=N::K<int>]" at
                    line 18

"ComeauTest.c", line 13: error: expected an identifier
     typename T::template K<T> *p;
          detected during instantiation of class "X<T> [with T=N::K<int>]" at
                    line 18

So my question is "Is the code sample ill-formed ?" According to me "Yes". Does that mean this is yet another bug in g++/Clang?

share|improve this question
How is this "not a real question"? What's wrong with you guys? – Prasoon Saurav Dec 12 '10 at 9:59
Whoever voted to close this as "not a real question" needs to stop trying to grok C++ templates and get back to their Java IDE. Since when is Is this a bug in my compiler? not a real question? – sbi Dec 12 '10 at 10:17
up vote 43 down vote accepted

Why GCC and Clang think they are right

K, which is the injected class name, has a dual nature in the scope of K<int>. You can use it without template arguments. Then it refers to K<int> (to its own type).

It can be followed by a template argument list too. IMO it's reasonable to say that you need to prefix it with template because of the parser ambiguity with the < that follows. It then refers to the specified type that's determined by the template arguments.

So it can be treated as a member template and as a nested type, depending on whether it's followed by a template argument list. Of course, K is not really a member template. The dual nature of the injected class name seems to me more of a hack anyway, though.

The Standard has an example that reads like this:

template <class T> struct Base { };
template <class T> struct Derived: Base<int>, Base<char> {
   typename Derived::Base b; // error: ambiguous
   typename Derived::Base<double> d; // OK

One might be inclined to conclude from this that the intent is that you could leave off the template. The Standard says

For a template-name to be explicitly qualified by the template arguments, the name must be known to refer to a template.

I can't see how this wouldn't apply to T::K<T>. If T is a dependent type then you can just lean back because you can't know what K refers to when parsing it, so to make any sense of the code, you just have to be able to prefix it with template. Notice that n3225 has that example too, but it's not a defect there: You can officially leave off template if you lookup into the template's own scope in C++0x (it's called the "current instantiation").

So until now, Clang and GCC are fine.

Why Comeau is right

Just to make it even more complicated, we will have to consider the constructors of K<int>. There is a default constructor and a copy constructor implicitly declared. A name K<int>::K will refer to the constructor(s) of K<int> unless the name lookup used will ignore function (constructor) names. Will typename T::K ignore function names? 3.4.4/3 says about elaborated type specifiers, which typename ... is one of:

If the name is a qualified-id, the name is looked up according its qualifications, as described in 3.4.3, but ignoring any non-type names that have been declared.

However, a typename ... uses different lookup. 14.6/4 says

The usual qualified name lookup (3.4.3) is used to find the qualified-id even in the presence of typename.

The usual qualified lookup of 3.4.3 won't ignore non-type names, as illustrated by the example attached to 14.6/4. So, we will find the constructor(s) as specified by (the additional twist that this only happens when non-types are not ignored was added by a later defect report, which all popular C++03 compilers implement though):

If the nested-name-specifier nominates a class C, and the name specified after the nested-name-specifier, when looked up in C, is the injected-class-name of C (clause 9), the name is instead considered to name the constructor of class C. Such a constructor name shall be used only in the declarator-id of a constructor definition that appears outside of the class definition.

So in the end, I think comeau is correct to diagnose this, because you try to put a template argument list onto a non-template and also violate the requirement quoted in the last part (you use the name elsewhere).

Let's change it by accessing the injected name by a derived class, so no constructor name translation occurs, and you really access the type so that you really can append the template arguments:

// just replace struct X with this:
template<typename T>
struct X
   struct Derived : T { };
   typename Derived::template K<T> *p;

Everything compiles now with comeau too! Notice I already did problem report to clang about this exact thing. See Incorrect constructor name resolution. BTW, if you declare a default constructor in K, you can see comeau give a better error message if you use T::K<int>

"ComeauTest.c", line 13: error: overloaded function "N::K<T>::K [with T=int]" is
          not a template
     typename T::template K<T> *p;
share|improve this answer
AWESOME explanation! nothing more can be said! – Matthieu N. Dec 12 '10 at 9:27
Your answer is correct, accepted. – Prasoon Saurav Dec 12 '10 at 10:12

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