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0

Not sure about what you are looking for, but here is an example of sfinae that uses member functions: #include<type_traits> template<typename T> std::enable_if_t<std::is_member_function_pointer<T>::value> foo() { } struct S { void bar() { } int i; }; int main() { // compiles, for it is a member function ...


0

You define twice template<typename T, typename> size_t getSize(const T &p_rObj); And you forget ::type and your traits is not SFINAE compatible You have to use std::enable_if in return type, template argument or regular argument: template<typename T> typename std::enable_if<has_size<T>::value, std::size_t>::type getSize(const ...


1

Right off the bat I'd recommend using std::is_floating_point instead of hand-rolling your own floating-point detection mechanism. Additionally, you'll be able to use the _v suffix instead of ::value as of C++17. As was mentioned in some of the comments, using SFINAE itself on variable templates doesn't make much sense, but you could achieve your solution ...


3

Maybe you could do something like this: template<class T, class = void> struct is_non_negative; template<typename T> struct is_non_negative<T, typename std::enable_if<std::is_integral<T>::value>::type>: public curry_right_hand_side<greater_equal<T>, constant<T, 0>> { }; template<typename T> struct ...



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