boost/hana/fwd/concept/product.hpp
/*! @file Forward declares `boost::hana::Product`. 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_CONCEPT_PRODUCT_HPP #define BOOST_HANA_FWD_CONCEPT_PRODUCT_HPP #include <boost/hana/config.hpp> namespace boost { namespace hana { //! @ingroup group-concepts //! @defgroup group-Product Product //! Represents types that are generic containers of two elements. //! //! This concept basically represents types that are like `std::pair`. //! The motivation for making such a precise concept is similar to the //! motivation behind the `Sequence` concept; there are many different //! implementations of `std::pair` in different libraries, and we would //! like to manipulate any of them generically. //! //! Since a `Product` is basically a pair, it is unsurprising that the //! operations provided by this concept are getting the first and second //! element of a pair, creating a pair from two elements and other //! simmilar operations. //! //! @note //! Mathematically, this concept represents types that are category //! theoretical [products][1]. This is also where the name comes //! from. //! //! //! Minimal complete definition //! --------------------------- //! `first`, `second` and `make` //! //! `first` and `second` must obviously return the first and the second //! element of the pair, respectively. `make` must take two arguments `x` //! and `y` representing the first and the second element of the pair, //! and return a pair `p` such that `first(p) == x` and `second(p) == y`. //! @include example/product/make.cpp //! //! //! Laws //! ---- //! For a model `P` of `Product`, the following laws must be satisfied. //! For every data types `X` and `Y`, there must be a unique function //! @f$ \mathtt{make} : X \times Y \to P @f$ such that for every `x`, `y`, //! @code //! x == first(make<P>(x, y)) //! y == second(make<P>(x, y)) //! @endcode //! //! @note //! This law is less general than the universal property typically used to //! define category theoretical products, but it is vastly enough for what //! we need. //! //! This is basically saying that a `Product` must be the most general //! object able to contain a pair of objects `(P1, P2)`, but nothing //! more. Since the categorical product is defined by a universal //! property, all the models of this concept are isomorphic, and //! the isomorphism is unique. In other words, there is one and only //! one way to convert one `Product` to another. //! //! Another property that must be satisfied by `first` and `second` is //! that of @ref move-independence, which ensures that we can optimally //! decompose a `Product` into its two members without making redundant //! copies. //! //! //! Refined concepts //! ---------------- //! 1. `Comparable` (free model)\n //! Two products `x` and `y` are equal iff they are equal element-wise, //! by comparing the first element before the second element. //! @include example/product/comparable.cpp //! //! 2. `Orderable` (free model)\n //! Products are ordered using a lexicographical ordering as-if they //! were 2-element tuples. //! //! 3. `Foldable` (free model)\n //! Folding a `Product` `p` is equivalent to folding a list containing //! `first(p)` and `second(p)`, in that order. //! //! //! Concrete models //! --------------- //! `hana::pair` //! //! //! [1]: http://en.wikipedia.org/wiki/Product_(category_theory) template <typename P> struct Product; }} // end namespace boost::hana #endif // !BOOST_HANA_FWD_CONCEPT_PRODUCT_HPP