// Copyright Oliver Kowalke 2013. // 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_FIBERS_FUTURE_HPP #define BOOST_FIBERS_FUTURE_HPP #include #include #include #include #include #include #include #include namespace boost { namespace fibers { namespace detail { template< typename R > struct future_base { typedef typename shared_state< R >::ptr_t ptr_t; ptr_t state_{}; future_base() noexcept = default; explicit future_base( ptr_t const& p) noexcept : state_{ p } { } ~future_base() = default; future_base( future_base const& other) : state_{ other.state_ } { } future_base( future_base && other) noexcept : state_{ other.state_ } { other.state_.reset(); } future_base & operator=( future_base const& other) noexcept { if ( this == & other) return * this; state_ = other.state_; return * this; } future_base & operator=( future_base && other) noexcept { if ( this == & other) return * this; state_ = other.state_; other.state_.reset(); return * this; } bool valid() const noexcept { return nullptr != state_.get(); } std::exception_ptr get_exception_ptr() { if ( ! valid() ) { throw future_uninitialized{}; } return state_->get_exception_ptr(); } void wait() const { if ( ! valid() ) { throw future_uninitialized{}; } state_->wait(); } template< typename Rep, typename Period > future_status wait_for( std::chrono::duration< Rep, Period > const& timeout_duration) const { if ( ! valid() ) { throw future_uninitialized{}; } return state_->wait_for( timeout_duration); } template< typename Clock, typename Duration > future_status wait_until( std::chrono::time_point< Clock, Duration > const& timeout_time) const { if ( ! valid() ) { throw future_uninitialized{}; } return state_->wait_until( timeout_time); } }; template< typename R > struct promise_base; } template< typename R > class shared_future; template< typename Signature > class packaged_task; template< typename R > class future : private detail::future_base< R > { private: typedef detail::future_base< R > base_t; friend struct detail::promise_base< R >; friend class shared_future< R >; template< typename Signature > friend class packaged_task; explicit future( typename base_t::ptr_t const& p) noexcept : base_t{ p } { } public: future() noexcept = default; future( future const&) = delete; future & operator=( future const&) = delete; future( future && other) noexcept : base_t{ std::move( other) } { } future & operator=( future && other) noexcept { if ( this == & other) return * this; base_t::operator=( std::move( other) ); return * this; } shared_future< R > share(); R get() { if ( ! base_t::valid() ) { throw future_uninitialized{}; } typename base_t::ptr_t tmp{}; tmp.swap( base_t::state_); return std::move( tmp->get() ); } using base_t::valid; using base_t::get_exception_ptr; using base_t::wait; using base_t::wait_for; using base_t::wait_until; }; template< typename R > class future< R & > : private detail::future_base< R & > { private: typedef detail::future_base< R & > base_t; friend struct detail::promise_base< R & >; friend class shared_future< R & >; template< typename Signature > friend class packaged_task; explicit future( typename base_t::ptr_t const& p) noexcept : base_t{ p } { } public: future() noexcept = default; future( future const&) = delete; future & operator=( future const&) = delete; future( future && other) noexcept : base_t{ std::move( other) } { } future & operator=( future && other) noexcept { if ( this == & other) return * this; base_t::operator=( std::move( other) ); return * this; } shared_future< R & > share(); R & get() { if ( ! base_t::valid() ) { throw future_uninitialized{}; } typename base_t::ptr_t tmp{}; tmp.swap( base_t::state_); return tmp->get(); } using base_t::valid; using base_t::get_exception_ptr; using base_t::wait; using base_t::wait_for; using base_t::wait_until; }; template<> class future< void > : private detail::future_base< void > { private: typedef detail::future_base< void > base_t; friend struct detail::promise_base< void >; friend class shared_future< void >; template< typename Signature > friend class packaged_task; explicit future( base_t::ptr_t const& p) noexcept : base_t{ p } { } public: future() noexcept = default; future( future const&) = delete; future & operator=( future const&) = delete; inline future( future && other) noexcept : base_t{ std::move( other) } { } inline future & operator=( future && other) noexcept { if ( this == & other) return * this; base_t::operator=( std::move( other) ); return * this; } shared_future< void > share(); inline void get() { if ( ! base_t::valid() ) { throw future_uninitialized{}; } base_t::ptr_t tmp{}; tmp.swap( base_t::state_); tmp->get(); } using base_t::valid; using base_t::get_exception_ptr; using base_t::wait; using base_t::wait_for; using base_t::wait_until; }; template< typename R > class shared_future : private detail::future_base< R > { private: typedef detail::future_base< R > base_t; explicit shared_future( typename base_t::ptr_t const& p) noexcept : base_t{ p } { } public: shared_future() noexcept = default; ~shared_future() = default; shared_future( shared_future const& other) : base_t{ other } { } shared_future( shared_future && other) noexcept : base_t{ std::move( other) } { } shared_future( future< R > && other) noexcept : base_t{ std::move( other) } { } shared_future & operator=( shared_future const& other) noexcept { if ( this == & other) return * this; base_t::operator=( other); return * this; } shared_future & operator=( shared_future && other) noexcept { if ( this == & other) return * this; base_t::operator=( std::move( other) ); return * this; } shared_future & operator=( future< R > && other) noexcept { base_t::operator=( std::move( other) ); return * this; } R const& get() const { if ( ! valid() ) { throw future_uninitialized{}; } return base_t::state_->get(); } using base_t::valid; using base_t::get_exception_ptr; using base_t::wait; using base_t::wait_for; using base_t::wait_until; }; template< typename R > class shared_future< R & > : private detail::future_base< R & > { private: typedef detail::future_base< R & > base_t; explicit shared_future( typename base_t::ptr_t const& p) noexcept : base_t{ p } { } public: shared_future() noexcept = default; ~shared_future() = default; shared_future( shared_future const& other) : base_t{ other } { } shared_future( shared_future && other) noexcept : base_t{ std::move( other) } { } shared_future( future< R & > && other) noexcept : base_t{ std::move( other) } { } shared_future & operator=( shared_future const& other) noexcept { if ( this == & other) return * this; base_t::operator=( other); return * this; } shared_future & operator=( shared_future && other) noexcept { if ( this == & other) return * this; base_t::operator=( std::move( other) ); return * this; } shared_future & operator=( future< R & > && other) noexcept { base_t::operator=( std::move( other) ); return * this; } R & get() const { if ( ! valid() ) { throw future_uninitialized{}; } return base_t::state_->get(); } using base_t::valid; using base_t::get_exception_ptr; using base_t::wait; using base_t::wait_for; using base_t::wait_until; }; template<> class shared_future< void > : private detail::future_base< void > { private: typedef detail::future_base< void > base_t; explicit shared_future( base_t::ptr_t const& p) noexcept : base_t{ p } { } public: shared_future() noexcept = default; ~shared_future() = default; inline shared_future( shared_future const& other) : base_t{ other } { } inline shared_future( shared_future && other) noexcept : base_t{ std::move( other) } { } inline shared_future( future< void > && other) noexcept : base_t{ std::move( other) } { } inline shared_future & operator=( shared_future const& other) noexcept { if ( this == & other) return * this; base_t::operator=( other); return * this; } inline shared_future & operator=( shared_future && other) noexcept { if ( this == & other) return * this; base_t::operator=( std::move( other) ); return * this; } inline shared_future & operator=( future< void > && other) noexcept { base_t::operator=( std::move( other) ); return * this; } inline void get() const { if ( ! valid() ) { throw future_uninitialized{}; } base_t::state_->get(); } using base_t::valid; using base_t::get_exception_ptr; using base_t::wait; using base_t::wait_for; using base_t::wait_until; }; template< typename R > shared_future< R > future< R >::share() { if ( ! base_t::valid() ) { throw future_uninitialized{}; } return shared_future< R >{ std::move( * this) }; } template< typename R > shared_future< R & > future< R & >::share() { if ( ! base_t::valid() ) { throw future_uninitialized{}; } return shared_future< R & >{ std::move( * this) }; } inline shared_future< void > future< void >::share() { if ( ! base_t::valid() ) { throw future_uninitialized{}; } return shared_future< void >{ std::move( * this) }; } }} #endif