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The following C++ code compiles and runs correctly for GNU g++, LLVM and every other C++ compiler I threw at it except for Microsoft VC6 and VC7:

template<typename A, typename B> int HasVoidReturnType(A(*)(B)) { return 0; }
template<typename B> int HasVoidReturnType(void(*)(B)) { return 1; }
void f(double) {}
int foo() { return HasVoidReturnType(f); }

For VC6 and VC7, it fails to compile and gives the error:

f.cpp(4) : error C2667: 'HasVoidReturnType' : none of 2 overloads have a best conversion
    f.cpp(2): could be 'int HasVoidReturnType(void (__cdecl *)(B))'
    f.cpp(1): or       'int HasVoidReturnType(A (__cdecl *)(B))'
    while trying to match the argument list '(overloaded-function)'
f.cpp(4) : error C2668: 'HasVoidReturnType' : ambiguous call to overloaded function
    f.cpp(2): could be 'int HasVoidReturnType(void (__cdecl *)(B))'
    f.cpp(1): or       'int HasVoidReturnType(A (__cdecl *)(B))'
    while trying to match the argument list '(overloaded-function)'

Rather than arguing the merits of what compiler is right, how can I determine from a template function whether a function has a void return type using VC6 and VC7?

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4 Answers 4

As far as VC++ 6 is concerned, you are screwed, as it doesn't support partial template specialisation, which is what you need to solve this problem.

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VC++ 6 can barely be called a "C++ compiler". –  Andrew Medico Feb 7 '09 at 21:08
    
VC++ 7.0 also sucks. VC++ 7.1, on the other hand, is a pretty decent C++ compiler. The version numbering system here is unfortunate. –  ChrisInEdmonton Nov 25 '09 at 3:56

Try this on for size

template<typename FuncPtrType>
struct DecomposeFuncPtr;

template<typename ReturnType, typename ArgType>
struct DecomposeFuncPtr<ReturnType(*)(ArgType)> {
  typedef ReturnType return_type;
};

template<typename T>
struct is_void {
  enum { value = 0 };
};

template<>
struct is_void<void> {
  enum { value = 1 };
};

template<typename T>
int HasVoidReturnType(T dontcare) {
  return is_void< typename DecomposeFuncPtr<T>::return_type >::value;
}

it should avoid the overloading that is confusing VC6/7.

Hrmm. Sorry I couldn't test it with VC6/7. I see to recall running into issues using function pointers with templates before in VC though. Since we know the A, B works for the function in your original, I wonder if something like:

template<typename T>
struct is_void {
  enum { value = 0 };
};

template<>
struct is_void<void> {
  enum { value = 1 };
};

template<typename A, typename B>
int HasVoidReturnType(A(*)(B)) {
  return is_void<A>::value;
}

would work.

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VC7: t.cpp(5) : error C2065: 'ReturnType' : undeclared identifier ... t.cpp(15) : error C2913: explicit specialization; 'is_void is_void' is not a class template –  Templorius Feb 7 '09 at 20:32
    
Try template<typename A, typename B> char (& HasVoidReturnType(A(*)(B)) )[is_void<A>::value + 1]; then sizeof(HasVoidReturnType(fun)) can tell you either 1 or 2 depending on whether it returns void. maybe that works with vc6 too? it would work at compile time :) –  Johannes Schaub - litb Feb 7 '09 at 22:08
    
The last way is how I would have written it in the first place - but probably because I don't grok overload resolution compared to template specialization. –  Greg Rogers Mar 24 '09 at 18:46

Instead of creating two templates, have you tried just using the first one and using template specialization to define the second?

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FYI this is compilable on C++ 2008 Express edition from Microsoft. (I would have liked to help but can't reproduce the problem on my compiler)

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