/*! @file Forward declares `boost::hana::mod`. Copyright Louis Dionne 2013-2022 Distributed under the Boost Software License, Version 1.0. (See accompanying file LICENSE.md or copy at http://boost.org/LICENSE_1_0.txt) */ #ifndef BOOST_HANA_FWD_MOD_HPP #define BOOST_HANA_FWD_MOD_HPP #include #include namespace boost { namespace hana { //! Generalized integer modulus. //! @ingroup group-EuclideanRing //! //! Given two elements of an EuclideanRing `x` and `y`, with `y` //! nonzero, `mod` returns the modulus of the division of `x` by `y`. //! In other words, `mod` can be seen as an equivalent to `%`. //! //! Cross-type version of the method //! -------------------------------- //! The `mod` method is "overloaded" to handle distinct data types //! with certain properties. Specifically, `mod` is defined for //! _distinct_ data types `A` and `B` such that //! 1. `A` and `B` share a common data type `C`, as determined by the //! `common` metafunction //! 2. `A`, `B` and `C` are all `EuclideanRing`s when taken individually //! 3. `to : A -> B` and `to : B -> C` are `Ring`-embeddings, as //! determined by the `is_embedding` metafunction. //! //! In that case, `mod` is defined as //! @code //! mod(x, y) = mod(to(x), to(y)) //! @endcode //! //! //! Example //! ------- //! @include example/mod.cpp #ifdef BOOST_HANA_DOXYGEN_INVOKED constexpr auto mod = [](auto&& x, auto&& y) -> decltype(auto) { return tag-dispatched; }; #else template struct mod_impl : mod_impl> { }; struct mod_t { template constexpr decltype(auto) operator()(X&& x, Y&& y) const; }; BOOST_HANA_INLINE_VARIABLE constexpr mod_t mod{}; #endif }} // end namespace boost::hana #endif // !BOOST_HANA_FWD_MOD_HPP