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I'm currently writing a template that operates differently based on the category of the input.

There are 3 cases I'm looking to add to my traits class.

A. The type has a typedef type_category, use that.

B. The type doesn't have the typedef, use the type regular_tag (most common case)

C. My specializations, std::list<T> uses the type special_tag for any T.

How would I manage this? It's simple to do either A. and C. or B. and C. but I'm not sure how to get all 3.


A example might make it easier to understand.

class Foo
    typedef foo_tag type_category;
class Bar;

my_traits<Foo>::type(); // makes a foo_tag
my_traits<Bar>::type(); // makes a regular_tag
my_traits<std::list<Baz>>::type(); // makes a special_tag because I want special list proce


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You'll want SFINAE for A and B. –  Mooing Duck Aug 29 '11 at 20:24
It's unclear what you mean by C though. Can you clarify C? Maybe some pretend code at least? –  Mooing Duck Aug 29 '11 at 20:25
That edit clarifies things. Kerrek has an awesome answer. –  Mooing Duck Aug 29 '11 at 20:58

2 Answers 2

up vote 6 down vote accepted

The scaffold could look like this:

template <typename T>
struct MyTrait
  typedef typename MyHelper<T, CheckForType<T>::value>::type tag;

template <typename T>
struct MyTrait<std::list<T>>
  typedef special_tag tag;

We need the helper:

template <typename T, bool>
struct MyHelper
  typedef regular_tag tag;
template <typename T>
struct MyHelper<T, true>
  typedef typename T::type_category tag;

Now all we need is a type-trait to check for a member typedef:

template<typename T>
struct CheckForType
    typedef char                      yes;
    typedef struct { char array[2]; } no;

    template<typename C> static yes test(typename C::type_category*);
    template<typename C> static no  test(...);
    static const bool value = sizeof(test<T>(0)) == sizeof(yes);


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You should add a blurb that shows how-to-use. –  Mooing Duck Aug 29 '11 at 20:37
Thanks. Perfect. Does exactly what I want. –  Flame Aug 30 '11 at 0:14
You can merge the helper into the traits using default parameters... change bool to bool = CheckForType<T>::value. –  Mehrdad Aug 5 at 12:21
You can even make it a macro! #define DECLARE_TYPEDEF_TRAITS(TYPEDEF, DEFAULT) template<class T> struct TYPEDEF##_trait_checker { private: template<class C> static char(&test(typename C::TYPEDEF *))[2]; template<class> static char(&test(...))[1]; public: static const bool value = sizeof(test<T>(0)) > 1; }; template<class T, bool = TYPEDEF##_trait_checker<T>::value> struct TYPEDEF##_trait { typedef DEFAULT type; }; template<class T> struct TYPEDEF##_trait<T, true> { typedef typename T::TYPEDEF type; } ... then use it like DECLARE_TYPEDEF_TRAITS(cheap_copy_reference, int); –  Mehrdad Aug 5 at 12:25
template<class T> 
T::type_category getType(T t, typename T::type_category c=typename T::type_category()) 
{ return c;}
template<class T> 
regular_tag getType(T t, ...) 
{ return regular_tag();}
template<class T>
special_tag getType(std::list<T> t, typename std::list<T>::type_category c=typename std::list<T>::type_category()) 
{ return special_tag();}

int main() {
    auto a = getType(int);
    auto b = getType(std::iterator_traits<char*>);
    auto c = getType(std::list<char>);

I'm not that great with SFINAE, so I doubt this even compiles, but something like this is the direction to look.

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