/*! @file Defines `boost::hana::fix`. @copyright Louis Dionne 2013-2016 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_FUNCTIONAL_FIX_HPP #define BOOST_HANA_FUNCTIONAL_FIX_HPP #include #include #include BOOST_HANA_NAMESPACE_BEGIN //! @ingroup group-functional //! Return a function computing the fixed point of a function. //! //! `fix` is an implementation of the [Y-combinator][], also called the //! fixed-point combinator. It encodes the idea of recursion, and in fact //! any recursive function can be written in terms of it. //! //! Specifically, `fix(f)` is a function such that //! @code //! fix(f)(x...) == f(fix(f), x...) //! @endcode //! //! This definition allows `f` to use its first argument as a continuation //! to call itself recursively. Indeed, if `f` calls its first argument //! with `y...`, it is equivalent to calling `f(fix(f), y...)` per the //! above equation. //! //! Most of the time, it is more convenient and efficient to define //! recursive functions without using a fixed-point combinator. However, //! there are some cases where `fix` provides either more flexibility //! (e.g. the ability to change the callback inside `f`) or makes it //! possible to write functions that couldn't be defined recursively //! otherwise. //! //! @param f //! A function called as `f(self, x...)`, where `x...` are the arguments //! in the `fix(f)(x...)` expression and `self` is `fix(f)`. //! //! ### Example //! @include example/functional/fix.cpp //! //! [Y-combinator]: http://en.wikipedia.org/wiki/Fixed-point_combinator #ifdef BOOST_HANA_DOXYGEN_INVOKED constexpr auto fix = [](auto&& f) { return [perfect-capture](auto&& ...x) -> decltype(auto) { return forwarded(f)(fix(f), forwarded(x)...); }; }; #else template struct fix_t; constexpr detail::create fix{}; template struct fix_t { F f; template constexpr decltype(auto) operator()(X&& ...x) const& { return f(fix(f), static_cast(x)...); } template constexpr decltype(auto) operator()(X&& ...x) & { return f(fix(f), static_cast(x)...); } template constexpr decltype(auto) operator()(X&& ...x) && { return std::move(f)(fix(f), static_cast(x)...); } }; #endif BOOST_HANA_NAMESPACE_END #endif // !BOOST_HANA_FUNCTIONAL_FIX_HPP