1

I have a template function that should work for all integral types:

#include <concepts>
template<typename T>
bool odd(T n) requires std::integral<T>
{
  return n & T(1);
}

Now I want to use this function with some user defined integral type, e.g. boost::multiprecision::cpp_int

#include <boost/multiprecision/cpp_int.hpp>
boost::multiprecision::cpp_int n = ...
std::cout << odd(n) << std::endl;

gcc 10 gives

error: use of function ‘bool odd(T) requires  integral<T> [with T = boost::multiprecision ...

which is, of course, correct. What can I do to fix this, i.e. how can I specialize a standard concept for my own type?

1

how can I specialize a standard concept for my own type?

You don't. Concepts can't be specialized. Type traits can be under certain circumstances, but std::integral isn't one that you can, so that's not the right route either.

What can I do to fix this

You need to come up with the right concept for the set of algorithms you're using. Obviously the most literal one is:

template <typename T>
concept IsOddable = std::constructible_from<T, int> &&
    requires (T n) {
        { n & n } -> std::convertible_to<bool>;
    };

But don't do that. You probably need some kind of generic Numeric concept and add requirements for, whatever, +, *, %, etc. Concepts come from algorithms - so figure out the generic requirements that your algorithms are imposing and work up from there.

2
  • I figured already out: the algorithm works for all integral types (built-in and user defined), i.e. "integral" is the right concept. – Helmut Zeisel May 6 '20 at 19:10
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    @HelmutZeisel The std::integral concept doesn't "work for all integral types (built-in and user defined)", it's only for built-in types. If you want to support user defined integral types, then std::integral is not the correct concept. – Barry May 6 '20 at 19:16
1

OK, so I added the lines

    template< class T >
    inline constexpr bool is_my_integral_v = false;

    template<>
    inline constexpr bool is_my_integral_v<boost::multiprecision::cpp_int> = true;

and changed the requirement to

    template<typename T>
    bool odd(T n) requires std::integral<T> || is_my_integral_v<T>

and now it works.

1
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    You could default is_my_integral_v to std::is_integral_v<T> and then you don't need the disjunction. – Barry May 6 '20 at 19:52

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