// // execution/bulk_execute.hpp // ~~~~~~~~~~~~~~~~~~~~~~~~~~ // // Copyright (c) 2003-2023 Christopher M. Kohlhoff (chris at kohlhoff dot com) // // 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 ASIO_EXECUTION_BULK_EXECUTE_HPP #define ASIO_EXECUTION_BULK_EXECUTE_HPP #if defined(_MSC_VER) && (_MSC_VER >= 1200) # pragma once #endif // defined(_MSC_VER) && (_MSC_VER >= 1200) #include "asio/detail/config.hpp" #if !defined(ASIO_NO_DEPRECATED) #include "asio/detail/type_traits.hpp" #include "asio/execution/bulk_guarantee.hpp" #include "asio/execution/detail/bulk_sender.hpp" #include "asio/execution/executor.hpp" #include "asio/execution/sender.hpp" #include "asio/traits/bulk_execute_member.hpp" #include "asio/traits/bulk_execute_free.hpp" #include "asio/detail/push_options.hpp" #if defined(GENERATING_DOCUMENTATION) namespace asio { namespace execution { /// A customisation point that creates a bulk sender. /** * The name <tt>execution::bulk_execute</tt> denotes a customisation point * object. If <tt>is_convertible_v<N, size_t></tt> is true, then the expression * <tt>execution::bulk_execute(S, F, N)</tt> for some subexpressions * <tt>S</tt>, <tt>F</tt>, and <tt>N</tt> is expression-equivalent to: * * @li <tt>S.bulk_execute(F, N)</tt>, if that expression is valid. If the * function selected does not execute <tt>N</tt> invocations of the function * object <tt>F</tt> on the executor <tt>S</tt> in bulk with forward progress * guarantee <tt>asio::query(S, execution::bulk_guarantee)</tt>, and * the result of that function does not model <tt>sender<void></tt>, the * program is ill-formed with no diagnostic required. * * @li Otherwise, <tt>bulk_execute(S, F, N)</tt>, if that expression is valid, * with overload resolution performed in a context that includes the * declaration <tt>void bulk_execute();</tt> and that does not include a * declaration of <tt>execution::bulk_execute</tt>. If the function selected * by overload resolution does not execute <tt>N</tt> invocations of the * function object <tt>F</tt> on the executor <tt>S</tt> in bulk with forward * progress guarantee <tt>asio::query(E, * execution::bulk_guarantee)</tt>, and the result of that function does not * model <tt>sender<void></tt>, the program is ill-formed with no diagnostic * required. * * @li Otherwise, if the types <tt>F</tt> and * <tt>executor_index_t<remove_cvref_t<S>></tt> model <tt>invocable</tt> and * if <tt>asio::query(S, execution::bulk_guarantee)</tt> equals * <tt>execution::bulk_guarantee.unsequenced</tt>, then * * - Evaluates <tt>DECAY_COPY(std::forward<decltype(F)>(F))</tt> on the * calling thread to create a function object <tt>cf</tt>. [Note: * Additional copies of <tt>cf</tt> may subsequently be created. --end * note.] * * - For each value of <tt>i</tt> in <tt>N</tt>, <tt>cf(i)</tt> (or copy of * <tt>cf</tt>)) will be invoked at most once by an execution agent that is * unique for each value of <tt>i</tt>. * * - May block pending completion of one or more invocations of <tt>cf</tt>. * * - Synchronizes with (C++Std [intro.multithread]) the invocations of * <tt>cf</tt>. * * @li Otherwise, <tt>execution::bulk_execute(S, F, N)</tt> is ill-formed. */ inline constexpr unspecified bulk_execute = unspecified; /// A type trait that determines whether a @c bulk_execute expression is /// well-formed. /** * Class template @c can_bulk_execute is a trait that is derived from @c * true_type if the expression <tt>execution::bulk_execute(std::declval<S>(), * std::declval<F>(), std::declval<N>)</tt> is well formed; otherwise @c * false_type. */ template <typename S, typename F, typename N> struct can_bulk_execute : integral_constant<bool, automatically_determined> { }; } // namespace execution } // namespace asio #else // defined(GENERATING_DOCUMENTATION) namespace asio_execution_bulk_execute_fn { using asio::declval; using asio::enable_if; using asio::execution::bulk_guarantee_t; using asio::execution::detail::bulk_sender; using asio::execution::executor_index; using asio::execution::is_sender; using asio::is_convertible; using asio::is_same; using asio::remove_cvref; using asio::result_of; using asio::traits::bulk_execute_free; using asio::traits::bulk_execute_member; using asio::traits::static_require; void bulk_execute(); enum overload_type { call_member, call_free, adapter, ill_formed }; template <typename S, typename Args, typename = void, typename = void, typename = void, typename = void, typename = void, typename = void> struct call_traits { ASIO_STATIC_CONSTEXPR(overload_type, overload = ill_formed); ASIO_STATIC_CONSTEXPR(bool, is_noexcept = false); typedef void result_type; }; template <typename S, typename F, typename N> struct call_traits<S, void(F, N), typename enable_if< is_convertible<N, std::size_t>::value >::type, typename enable_if< bulk_execute_member<S, F, N>::is_valid >::type, typename enable_if< is_sender< typename bulk_execute_member<S, F, N>::result_type >::value >::type> : bulk_execute_member<S, F, N> { ASIO_STATIC_CONSTEXPR(overload_type, overload = call_member); }; template <typename S, typename F, typename N> struct call_traits<S, void(F, N), typename enable_if< is_convertible<N, std::size_t>::value >::type, typename enable_if< !bulk_execute_member<S, F, N>::is_valid >::type, typename enable_if< bulk_execute_free<S, F, N>::is_valid >::type, typename enable_if< is_sender< typename bulk_execute_free<S, F, N>::result_type >::value >::type> : bulk_execute_free<S, F, N> { ASIO_STATIC_CONSTEXPR(overload_type, overload = call_free); }; template <typename S, typename F, typename N> struct call_traits<S, void(F, N), typename enable_if< is_convertible<N, std::size_t>::value >::type, typename enable_if< !bulk_execute_member<S, F, N>::is_valid >::type, typename enable_if< !bulk_execute_free<S, F, N>::is_valid >::type, typename enable_if< is_sender<S>::value >::type, typename enable_if< is_same< typename result_of< F(typename executor_index<typename remove_cvref<S>::type>::type) >::type, typename result_of< F(typename executor_index<typename remove_cvref<S>::type>::type) >::type >::value >::type, typename enable_if< static_require<S, bulk_guarantee_t::unsequenced_t>::is_valid >::type> { ASIO_STATIC_CONSTEXPR(overload_type, overload = adapter); ASIO_STATIC_CONSTEXPR(bool, is_noexcept = false); typedef bulk_sender<S, F, N> result_type; }; struct impl { #if defined(ASIO_HAS_MOVE) template <typename S, typename F, typename N> ASIO_CONSTEXPR typename enable_if< call_traits<S, void(F, N)>::overload == call_member, typename call_traits<S, void(F, N)>::result_type >::type operator()(S&& s, F&& f, N&& n) const ASIO_NOEXCEPT_IF(( call_traits<S, void(F, N)>::is_noexcept)) { return ASIO_MOVE_CAST(S)(s).bulk_execute( ASIO_MOVE_CAST(F)(f), ASIO_MOVE_CAST(N)(n)); } template <typename S, typename F, typename N> ASIO_CONSTEXPR typename enable_if< call_traits<S, void(F, N)>::overload == call_free, typename call_traits<S, void(F, N)>::result_type >::type operator()(S&& s, F&& f, N&& n) const ASIO_NOEXCEPT_IF(( call_traits<S, void(F, N)>::is_noexcept)) { return bulk_execute(ASIO_MOVE_CAST(S)(s), ASIO_MOVE_CAST(F)(f), ASIO_MOVE_CAST(N)(n)); } template <typename S, typename F, typename N> ASIO_CONSTEXPR typename enable_if< call_traits<S, void(F, N)>::overload == adapter, typename call_traits<S, void(F, N)>::result_type >::type operator()(S&& s, F&& f, N&& n) const ASIO_NOEXCEPT_IF(( call_traits<S, void(F, N)>::is_noexcept)) { return typename call_traits<S, void(F, N)>::result_type( ASIO_MOVE_CAST(S)(s), ASIO_MOVE_CAST(F)(f), ASIO_MOVE_CAST(N)(n)); } #else // defined(ASIO_HAS_MOVE) template <typename S, typename F, typename N> ASIO_CONSTEXPR typename enable_if< call_traits<S, void(const F&, const N&)>::overload == call_member, typename call_traits<S, void(const F&, const N&)>::result_type >::type operator()(S& s, const F& f, const N& n) const ASIO_NOEXCEPT_IF(( call_traits<S, void(const F&, const N&)>::is_noexcept)) { return s.bulk_execute(ASIO_MOVE_CAST(F)(f), ASIO_MOVE_CAST(N)(n)); } template <typename S, typename F, typename N> ASIO_CONSTEXPR typename enable_if< call_traits<S, void(const F&, const N&)>::overload == call_member, typename call_traits<S, void(const F&, const N&)>::result_type >::type operator()(const S& s, const F& f, const N& n) const ASIO_NOEXCEPT_IF(( call_traits<S, void(const F&, const N&)>::is_noexcept)) { return s.bulk_execute(ASIO_MOVE_CAST(F)(f), ASIO_MOVE_CAST(N)(n)); } template <typename S, typename F, typename N> ASIO_CONSTEXPR typename enable_if< call_traits<S, void(const F&, const N&)>::overload == call_free, typename call_traits<S, void(const F&, const N&)>::result_type >::type operator()(S& s, const F& f, const N& n) const ASIO_NOEXCEPT_IF(( call_traits<S, void(const F&, const N&)>::is_noexcept)) { return bulk_execute(s, ASIO_MOVE_CAST(F)(f), ASIO_MOVE_CAST(N)(n)); } template <typename S, typename F, typename N> ASIO_CONSTEXPR typename enable_if< call_traits<S, void(const F&, const N&)>::overload == call_free, typename call_traits<S, void(const F&, const N&)>::result_type >::type operator()(const S& s, const F& f, const N& n) const ASIO_NOEXCEPT_IF(( call_traits<S, void(const F&, const N&)>::is_noexcept)) { return bulk_execute(s, ASIO_MOVE_CAST(F)(f), ASIO_MOVE_CAST(N)(n)); } template <typename S, typename F, typename N> ASIO_CONSTEXPR typename enable_if< call_traits<S, void(const F&, const N&)>::overload == adapter, typename call_traits<S, void(const F&, const N&)>::result_type >::type operator()(S& s, const F& f, const N& n) const ASIO_NOEXCEPT_IF(( call_traits<S, void(const F&, const N&)>::is_noexcept)) { return typename call_traits<S, void(const F&, const N&)>::result_type( s, ASIO_MOVE_CAST(F)(f), ASIO_MOVE_CAST(N)(n)); } template <typename S, typename F, typename N> ASIO_CONSTEXPR typename enable_if< call_traits<S, void(const F&, const N&)>::overload == adapter, typename call_traits<S, void(const F&, const N&)>::result_type >::type operator()(const S& s, const F& f, const N& n) const ASIO_NOEXCEPT_IF(( call_traits<S, void(const F&, const N&)>::is_noexcept)) { return typename call_traits<S, void(const F&, const N&)>::result_type( s, ASIO_MOVE_CAST(F)(f), ASIO_MOVE_CAST(N)(n)); } #endif // defined(ASIO_HAS_MOVE) }; template <typename T = impl> struct static_instance { static const T instance; }; template <typename T> const T static_instance<T>::instance = {}; } // namespace asio_execution_bulk_execute_fn namespace asio { namespace execution { namespace { static ASIO_CONSTEXPR const asio_execution_bulk_execute_fn::impl& bulk_execute = asio_execution_bulk_execute_fn::static_instance<>::instance; } // namespace template <typename S, typename F, typename N> struct can_bulk_execute : integral_constant<bool, asio_execution_bulk_execute_fn::call_traits< S, void(F, N)>::overload != asio_execution_bulk_execute_fn::ill_formed> { }; #if defined(ASIO_HAS_VARIABLE_TEMPLATES) template <typename S, typename F, typename N> constexpr bool can_bulk_execute_v = can_bulk_execute<S, F, N>::value; #endif // defined(ASIO_HAS_VARIABLE_TEMPLATES) template <typename S, typename F, typename N> struct is_nothrow_bulk_execute : integral_constant<bool, asio_execution_bulk_execute_fn::call_traits< S, void(F, N)>::is_noexcept> { }; #if defined(ASIO_HAS_VARIABLE_TEMPLATES) template <typename S, typename F, typename N> constexpr bool is_nothrow_bulk_execute_v = is_nothrow_bulk_execute<S, F, N>::value; #endif // defined(ASIO_HAS_VARIABLE_TEMPLATES) template <typename S, typename F, typename N> struct bulk_execute_result { typedef typename asio_execution_bulk_execute_fn::call_traits< S, void(F, N)>::result_type type; }; } // namespace execution } // namespace asio #endif // defined(GENERATING_DOCUMENTATION) #include "asio/detail/pop_options.hpp" #endif // !defined(ASIO_NO_DEPRECATED) #endif // ASIO_EXECUTION_BULK_EXECUTE_HPP