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// Copyright Oliver Kowalke 2016. // 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_BUFFERED_CHANNEL_H #define BOOST_FIBERS_BUFFERED_CHANNEL_H #include #include #include #include #include #include #include #include #include #include #include #include #include #include #ifdef BOOST_HAS_ABI_HEADERS # include BOOST_ABI_PREFIX #endif namespace boost { namespace fibers { template< typename T > class buffered_channel { public: using value_type = typename std::remove_reference::type; private: using slot_type = value_type; mutable detail::spinlock splk_{}; wait_queue waiting_producers_{}; wait_queue waiting_consumers_{}; slot_type * slots_; std::size_t pidx_{ 0 }; std::size_t cidx_{ 0 }; std::size_t capacity_; bool closed_{ false }; bool is_full_() const noexcept { return cidx_ == ((pidx_ + 1) % capacity_); } bool is_empty_() const noexcept { return cidx_ == pidx_; } bool is_closed_() const noexcept { return closed_; } public: explicit buffered_channel( std::size_t capacity) : capacity_{ capacity } { if ( BOOST_UNLIKELY( 2 > capacity_ || 0 != ( capacity_ & (capacity_ - 1) ) ) ) { throw fiber_error{ std::make_error_code( std::errc::invalid_argument), "boost fiber: buffer capacity is invalid" }; } slots_ = new slot_type[capacity_]; } ~buffered_channel() { close(); delete [] slots_; } buffered_channel( buffered_channel const&) = delete; buffered_channel & operator=( buffered_channel const&) = delete; bool is_closed() const noexcept { detail::spinlock_lock lk{splk_, std::defer_lock}; for(;;) { if(lk.try_lock()) break; context::active()->yield(); } return is_closed_(); } void close() noexcept { detail::spinlock_lock lk{splk_, std::defer_lock}; for(;;) { if(lk.try_lock()) break; context::active()->yield(); } if ( ! closed_) { closed_ = true; waiting_producers_.notify_all(); waiting_consumers_.notify_all(); } } channel_op_status try_push( value_type const& value) { detail::spinlock_lock lk{splk_, std::defer_lock}; for(;;) { if(lk.try_lock()) break; context::active()->yield(); } if ( BOOST_UNLIKELY( is_closed_() ) ) { return channel_op_status::closed; } if ( is_full_() ) { return channel_op_status::full; } slots_[pidx_] = value; pidx_ = (pidx_ + 1) % capacity_; waiting_consumers_.notify_one(); return channel_op_status::success; } channel_op_status try_push( value_type && value) { detail::spinlock_lock lk{splk_, std::defer_lock}; for(;;) { if(lk.try_lock()) break; context::active()->yield(); } if ( BOOST_UNLIKELY( is_closed_() ) ) { return channel_op_status::closed; } if ( is_full_() ) { return channel_op_status::full; } slots_[pidx_] = std::move( value); pidx_ = (pidx_ + 1) % capacity_; waiting_consumers_.notify_one(); return channel_op_status::success; } channel_op_status push( value_type const& value) { context * active_ctx = context::active(); for (;;) { detail::spinlock_lock lk{splk_, std::try_to_lock}; if (!lk) { active_ctx->yield(); continue; } if ( BOOST_UNLIKELY( is_closed_() ) ) { return channel_op_status::closed; } if ( is_full_() ) { waiting_producers_.suspend_and_wait( lk, active_ctx); } else { slots_[pidx_] = value; pidx_ = (pidx_ + 1) % capacity_; waiting_consumers_.notify_one(); return channel_op_status::success; } } } channel_op_status push( value_type && value) { context * active_ctx = context::active(); for (;;) { detail::spinlock_lock lk{splk_, std::try_to_lock}; if (!lk) { active_ctx->yield(); continue; } if ( BOOST_UNLIKELY( is_closed_() ) ) { return channel_op_status::closed; } if ( is_full_() ) { waiting_producers_.suspend_and_wait( lk, active_ctx); } else { slots_[pidx_] = std::move( value); pidx_ = (pidx_ + 1) % capacity_; waiting_consumers_.notify_one(); return channel_op_status::success; } } } template< typename Rep, typename Period > channel_op_status push_wait_for( value_type const& value, std::chrono::duration< Rep, Period > const& timeout_duration) { return push_wait_until( value, std::chrono::steady_clock::now() + timeout_duration); } template< typename Rep, typename Period > channel_op_status push_wait_for( value_type && value, std::chrono::duration< Rep, Period > const& timeout_duration) { return push_wait_until( std::forward< value_type >( value), std::chrono::steady_clock::now() + timeout_duration); } template< typename Clock, typename Duration > channel_op_status push_wait_until( value_type const& value, std::chrono::time_point< Clock, Duration > const& timeout_time_) { context * active_ctx = context::active(); std::chrono::steady_clock::time_point timeout_time = detail::convert( timeout_time_); for (;;) { detail::spinlock_lock lk{splk_, std::try_to_lock}; if (!lk) { active_ctx->yield(); continue; } if ( BOOST_UNLIKELY( is_closed_() ) ) { return channel_op_status::closed; } if ( is_full_() ) { if ( ! waiting_producers_.suspend_and_wait_until( lk, active_ctx, timeout_time)) { return channel_op_status::timeout; } } else { slots_[pidx_] = value; pidx_ = (pidx_ + 1) % capacity_; waiting_consumers_.notify_one(); return channel_op_status::success; } } } template< typename Clock, typename Duration > channel_op_status push_wait_until( value_type && value, std::chrono::time_point< Clock, Duration > const& timeout_time_) { context * active_ctx = context::active(); std::chrono::steady_clock::time_point timeout_time = detail::convert( timeout_time_); for (;;) { detail::spinlock_lock lk{splk_, std::try_to_lock}; if (!lk) { active_ctx->yield(); continue; } if ( BOOST_UNLIKELY( is_closed_() ) ) { return channel_op_status::closed; } if ( is_full_() ) { if ( ! waiting_producers_.suspend_and_wait_until( lk, active_ctx, timeout_time)) { return channel_op_status::timeout; } } else { slots_[pidx_] = std::move( value); pidx_ = (pidx_ + 1) % capacity_; // notify one waiting consumer waiting_consumers_.notify_one(); return channel_op_status::success; } } } channel_op_status try_pop( value_type & value) { detail::spinlock_lock lk{splk_, std::defer_lock}; for(;;) { if(lk.try_lock()) break; context::active()->yield(); } if ( is_empty_() ) { return is_closed_() ? channel_op_status::closed : channel_op_status::empty; } value = std::move( slots_[cidx_]); cidx_ = (cidx_ + 1) % capacity_; waiting_producers_.notify_one(); return channel_op_status::success; } channel_op_status pop( value_type & value) { context * active_ctx = context::active(); for (;;) { detail::spinlock_lock lk{splk_, std::try_to_lock}; if (!lk) { active_ctx->yield(); continue; } if ( is_empty_() ) { if ( BOOST_UNLIKELY( is_closed_() ) ) { return channel_op_status::closed; } waiting_consumers_.suspend_and_wait( lk, active_ctx); } else { value = std::move( slots_[cidx_]); cidx_ = (cidx_ + 1) % capacity_; waiting_producers_.notify_one(); return channel_op_status::success; } } } value_type value_pop() { context * active_ctx = context::active(); for (;;) { detail::spinlock_lock lk{splk_, std::try_to_lock}; if (!lk) { active_ctx->yield(); continue; } if ( is_empty_() ) { if ( BOOST_UNLIKELY( is_closed_() ) ) { throw fiber_error{ std::make_error_code( std::errc::operation_not_permitted), "boost fiber: channel is closed" }; } waiting_consumers_.suspend_and_wait( lk, active_ctx); } else { value_type value = std::move( slots_[cidx_]); cidx_ = (cidx_ + 1) % capacity_; waiting_producers_.notify_one(); return value; } } } template< typename Rep, typename Period > channel_op_status pop_wait_for( value_type & value, std::chrono::duration< Rep, Period > const& timeout_duration) { return pop_wait_until( value, std::chrono::steady_clock::now() + timeout_duration); } template< typename Clock, typename Duration > channel_op_status pop_wait_until( value_type & value, std::chrono::time_point< Clock, Duration > const& timeout_time_) { context * active_ctx = context::active(); std::chrono::steady_clock::time_point timeout_time = detail::convert( timeout_time_); for (;;) { detail::spinlock_lock lk{splk_, std::try_to_lock}; if (!lk) { active_ctx->yield(); continue; } if ( is_empty_() ) { if ( BOOST_UNLIKELY( is_closed_() ) ) { return channel_op_status::closed; } if ( ! waiting_consumers_.suspend_and_wait_until( lk, active_ctx, timeout_time)) { return channel_op_status::timeout; } } else { value = std::move( slots_[cidx_]); cidx_ = (cidx_ + 1) % capacity_; waiting_producers_.notify_one(); return channel_op_status::success; } } } class iterator { private: typedef typename std::aligned_storage< sizeof( value_type), alignof( value_type) >::type storage_type; buffered_channel * chan_{ nullptr }; storage_type storage_; void increment_( bool initial = false) { BOOST_ASSERT( nullptr != chan_); try { if ( ! initial) { reinterpret_cast< value_type * >( std::addressof( storage_) )->~value_type(); } ::new ( static_cast< void * >( std::addressof( storage_) ) ) value_type{ chan_->value_pop() }; } catch ( fiber_error const&) { chan_ = nullptr; } } public: using iterator_category = std::input_iterator_tag; using difference_type = std::ptrdiff_t; using pointer = value_type *; using reference = value_type &; using pointer_t = pointer; using reference_t = reference; iterator() = default; explicit iterator( buffered_channel< T > * chan) noexcept : chan_{ chan } { increment_( true); } iterator( iterator const& other) noexcept : chan_{ other.chan_ } { } iterator & operator=( iterator const& other) noexcept { if ( BOOST_LIKELY( this != & other) ) { chan_ = other.chan_; } return * this; } bool operator==( iterator const& other) const noexcept { return other.chan_ == chan_; } bool operator!=( iterator const& other) const noexcept { return other.chan_ != chan_; } iterator & operator++() { reinterpret_cast< value_type * >( std::addressof( storage_) )->~value_type(); increment_(); return * this; } const iterator operator++( int) = delete; reference_t operator*() noexcept { return * reinterpret_cast< value_type * >( std::addressof( storage_) ); } pointer_t operator->() noexcept { return reinterpret_cast< value_type * >( std::addressof( storage_) ); } }; friend class iterator; }; template< typename T > typename buffered_channel< T >::iterator begin( buffered_channel< T > & chan) { return typename buffered_channel< T >::iterator( & chan); } template< typename T > typename buffered_channel< T >::iterator end( buffered_channel< T > &) { return typename buffered_channel< T >::iterator(); } }} #ifdef BOOST_HAS_ABI_HEADERS # include BOOST_ABI_SUFFIX #endif #endif // BOOST_FIBERS_BUFFERED_CHANNEL_H