In http://stackoverflow.com/a/1967183/134841, a solution is provided for statically checking whether a member exists, possibly in a subclass of a type:

```
template <typename Type>
class has_resize_method
{
class yes { char m;};
class no { yes m[2];};
struct BaseMixin
{
void resize(int){}
};
struct Base : public Type, public BaseMixin {};
template <typename T, T t> class Helper{};
template <typename U>
static no deduce(U*, Helper<void (BaseMixin::*)(), &U::foo>* = 0);
static yes deduce(...);
public:
static const bool result = sizeof(yes) == sizeof(deduce((Base*)(0)));
};
```

However, it doesn't work on C++11 `final`

classes, because it inherits from the class under test, which `final`

prevents.

OTOH, this one:

```
template <typename C>
struct has_reserve_method {
private:
struct No {};
struct Yes { No no[2]; };
template <typename T, typename I, void(T::*)(I) > struct sfinae {};
template <typename T> static No check( ... );
template <typename T> static Yes check( sfinae<T,int, &T::reserve> * );
template <typename T> static Yes check( sfinae<T,size_t,&T::reserve> * );
public:
static const bool value = sizeof( check<C>(0) ) == sizeof( Yes ) ;
};
```

fails to find the `reserve(int/size_t)`

method in baseclasses.

Is there an implementation of this metafunction that both finds `reserved()`

in baseclasses of `T`

and still works if `T`

is `final`

?