/*============================================================================= Copyright (c) 2015 Paul Fultz II fold.h Distributed under the Boost Software License, Version 1.0. (See accompanying file LICENSE_1_0.txt or copy at http://www.boost.org/LICENSE_1_0.txt) ==============================================================================*/ #ifndef BOOST_HOF_GUARD_FOLD_H #define BOOST_HOF_GUARD_FOLD_H /// fold /// ======== /// /// Description /// ----------- /// /// The `fold` function adaptor uses a binary function to apply a /// [fold](https://en.wikipedia.org/wiki/Fold_%28higher-order_function%29) /// operation to the arguments passed to the function. Additionally, an /// optional initial state can be provided, otherwise the first argument is /// used as the initial state. /// /// The arguments to the binary function, take first the state and then the /// argument. /// /// Synopsis /// -------- /// /// template /// constexpr fold_adaptor fold(F f, State s); /// /// template /// constexpr fold_adaptor fold(F f); /// /// Semantics /// --------- /// /// assert(fold(f, z)() == z); /// assert(fold(f, z)(x, xs...) == fold(f, f(z, x))(xs...)); /// assert(fold(f)(x) == x); /// assert(fold(f)(x, y, xs...) == fold(f)(f(x, y), xs...)); /// /// Requirements /// ------------ /// /// State must be: /// /// * CopyConstructible /// /// F must be: /// /// * [BinaryInvocable](BinaryInvocable) /// * MoveConstructible /// /// Example /// ------- /// /// #include /// #include /// /// struct max_f /// { /// template /// constexpr T operator()(T x, U y) const /// { /// return x > y ? x : y; /// } /// }; /// int main() { /// assert(boost::hof::fold(max_f())(2, 3, 4, 5) == 5); /// } /// /// References /// ---------- /// /// * [Fold](https://en.wikipedia.org/wiki/Fold_(higher-order_function)) /// * [Variadic sum]() /// #include #include #include #include #include #include namespace boost { namespace hof { namespace detail { struct v_fold { BOOST_HOF_RETURNS_CLASS(v_fold); template constexpr BOOST_HOF_SFINAE_MANUAL_RESULT(const v_fold&, id_, result_of, id_>, id_...) operator()(const F& f, State&& state, T&& x, Ts&&... xs) const BOOST_HOF_SFINAE_MANUAL_RETURNS ( (*BOOST_HOF_CONST_THIS)(f, f(BOOST_HOF_FORWARD(State)(state), BOOST_HOF_FORWARD(T)(x)), BOOST_HOF_FORWARD(Ts)(xs)...) ); template constexpr State operator()(const F&, State&& state) const noexcept { return BOOST_HOF_FORWARD(State)(state); } }; } template struct fold_adaptor : detail::compressed_pair, State> { typedef detail::compressed_pair, State> base_type; BOOST_HOF_INHERIT_CONSTRUCTOR(fold_adaptor, base_type) template constexpr const detail::callable_base& base_function(Ts&&... xs) const noexcept { return this->first(xs...); } template constexpr State get_state(Ts&&... xs) const noexcept { return this->second(xs...); } BOOST_HOF_RETURNS_CLASS(fold_adaptor); template constexpr BOOST_HOF_SFINAE_RESULT(detail::v_fold, id_&>, id_, id_...) operator()(Ts&&... xs) const BOOST_HOF_SFINAE_RETURNS ( detail::v_fold()( BOOST_HOF_MANGLE_CAST(const detail::callable_base&)(BOOST_HOF_CONST_THIS->base_function(xs...)), BOOST_HOF_MANGLE_CAST(State)(BOOST_HOF_CONST_THIS->get_state(xs...)), BOOST_HOF_FORWARD(Ts)(xs)... ) ) }; template struct fold_adaptor : detail::callable_base { BOOST_HOF_INHERIT_CONSTRUCTOR(fold_adaptor, detail::callable_base) template constexpr const detail::callable_base& base_function(Ts&&... xs) const noexcept { return boost::hof::always_ref(*this)(xs...); } BOOST_HOF_RETURNS_CLASS(fold_adaptor); template constexpr BOOST_HOF_SFINAE_RESULT(detail::v_fold, id_&>, id_...) operator()(Ts&&... xs) const BOOST_HOF_SFINAE_RETURNS ( detail::v_fold()( BOOST_HOF_MANGLE_CAST(const detail::callable_base&)(BOOST_HOF_CONST_THIS->base_function(xs...)), BOOST_HOF_FORWARD(Ts)(xs)... ) ) }; BOOST_HOF_DECLARE_STATIC_VAR(fold, detail::make); }} // namespace boost::hof #endif