/*! @file Forward declares `boost::hana::tuple`. @copyright Louis Dionne 2013-2017 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_TUPLE_HPP #define BOOST_HANA_FWD_TUPLE_HPP #include #include #include #include #include namespace boost { namespace hana { //! @ingroup group-datatypes //! General purpose index-based heterogeneous sequence with a fixed length. //! //! The tuple is the bread and butter for static metaprogramming. //! Conceptually, it is like a `std::tuple`; it is a container able //! of holding objects of different types and whose size is fixed at //! compile-time. However, Hana's tuple provides much more functionality //! than its `std` counterpart, and it is also much more efficient than //! all standard library implementations tested so far. //! //! Tuples are index-based sequences. If you need an associative //! sequence with a key-based access, then you should consider //! `hana::map` or `hana::set` instead. //! //! @note //! When you use a container, remember not to make assumptions about its //! representation, unless the documentation gives you those guarantees. //! More details [in the tutorial](@ref tutorial-containers-types). //! //! //! Modeled concepts //! ---------------- //! `Sequence`, and all the concepts it refines //! //! //! Provided operators //! ------------------ //! For convenience, the following operators are provided: //! @code //! xs == ys -> equal(xs, ys) //! xs != ys -> not_equal(xs, ys) //! //! xs < ys -> less(xs, ys) //! xs <= ys -> less_equal(xs, ys) //! xs > ys -> greater(xs, ys) //! xs >= ys -> greater_equal(xs, ys) //! //! xs | f -> chain(xs, f) //! //! xs[n] -> at(xs, n) //! @endcode //! //! //! Example //! ------- //! @include example/tuple/tuple.cpp #ifdef BOOST_HANA_DOXYGEN_INVOKED template struct tuple { //! Default constructs the `tuple`. Only exists when all the elements //! of the tuple are default constructible. constexpr tuple(); //! Initialize each element of the tuple with the corresponding element //! from `xn...`. Only exists when all the elements of the tuple are //! copy-constructible. //! //! @note //! Unlike the corresponding constructor for `std::tuple`, this //! constructor is not explicit. This allows returning a tuple //! from a function with the brace-initialization syntax. constexpr tuple(Xn const& ...xn); //! Initialize each element of the tuple by perfect-forwarding the //! corresponding element in `yn...`. Only exists when all the //! elements of the created tuple are constructible from the //! corresponding perfect-forwarded value. //! //! @note //! Unlike the corresponding constructor for `std::tuple`, this //! constructor is not explicit. This allows returning a tuple //! from a function with the brace-initialization syntax. template constexpr tuple(Yn&& ...yn); //! Copy-initialize a tuple from another tuple. Only exists when all //! the elements of the constructed tuple are copy-constructible from //! the corresponding element in the source tuple. template constexpr tuple(tuple const& other); //! Move-initialize a tuple from another tuple. Only exists when all //! the elements of the constructed tuple are move-constructible from //! the corresponding element in the source tuple. template constexpr tuple(tuple&& other); //! Assign a tuple to another tuple. Only exists when all the elements //! of the destination tuple are assignable from the corresponding //! element in the source tuple. template constexpr tuple& operator=(tuple const& other); //! Move-assign a tuple to another tuple. Only exists when all the //! elements of the destination tuple are move-assignable from the //! corresponding element in the source tuple. template constexpr tuple& operator=(tuple&& other); //! Equivalent to `hana::chain`. template friend constexpr auto operator|(tuple, F); //! Equivalent to `hana::equal` template friend constexpr auto operator==(X&& x, Y&& y); //! Equivalent to `hana::not_equal` template friend constexpr auto operator!=(X&& x, Y&& y); //! Equivalent to `hana::less` template friend constexpr auto operator<(X&& x, Y&& y); //! Equivalent to `hana::greater` template friend constexpr auto operator>(X&& x, Y&& y); //! Equivalent to `hana::less_equal` template friend constexpr auto operator<=(X&& x, Y&& y); //! Equivalent to `hana::greater_equal` template friend constexpr auto operator>=(X&& x, Y&& y); //! Equivalent to `hana::at` template constexpr decltype(auto) operator[](N&& n); }; #else template struct tuple; #endif //! Tag representing `hana::tuple`s. //! @related tuple struct tuple_tag { }; #ifdef BOOST_HANA_DOXYGEN_INVOKED //! Function object for creating a `tuple`. //! @relates hana::tuple //! //! Given zero or more objects `xs...`, `make` returns a new tuple //! containing those objects. The elements are held by value inside the //! resulting tuple, and they are hence copied or moved in. This is //! analogous to `std::make_tuple` for creating Hana tuples. //! //! //! Example //! ------- //! @include example/tuple/make.cpp template <> constexpr auto make = [](auto&& ...xs) { return tuple...>{forwarded(xs)...}; }; #endif //! Alias to `make`; provided for convenience. //! @relates hana::tuple BOOST_HANA_INLINE_VARIABLE constexpr auto make_tuple = make; //! Equivalent to `to`; provided for convenience. //! @relates hana::tuple BOOST_HANA_INLINE_VARIABLE constexpr auto to_tuple = to; //! Create a tuple specialized for holding `hana::type`s. //! @relates hana::tuple //! //! This is functionally equivalent to `make(type_c...)`, except //! that using `tuple_t` allows the library to perform some compile-time //! optimizations. Also note that the type of the objects returned by //! `tuple_t` and an equivalent call to `make` may differ. //! //! //! Example //! ------- //! @include example/tuple/tuple_t.cpp #ifdef BOOST_HANA_DOXYGEN_INVOKED template constexpr implementation_defined tuple_t{}; #else template BOOST_HANA_INLINE_VARIABLE constexpr hana::tuple...> tuple_t{}; #endif //! Create a tuple specialized for holding `hana::integral_constant`s. //! @relates hana::tuple //! //! This is functionally equivalent to `make(integral_c...)`, //! except that using `tuple_c` allows the library to perform some //! compile-time optimizations. Also note that the type of the objects //! returned by `tuple_c` and an equivalent call to `make` may differ. //! //! //! Example //! ------- //! @include example/tuple/tuple_c.cpp #ifdef BOOST_HANA_DOXYGEN_INVOKED template constexpr implementation_defined tuple_c{}; #else template BOOST_HANA_INLINE_VARIABLE constexpr hana::tuple...> tuple_c{}; #endif }} // end namespace boost::hana #endif // !BOOST_HANA_FWD_TUPLE_HPP