#ifndef BOOST_THREAD_CONCURRENT_QUEUES_SYNC_QUEUE_HPP #define BOOST_THREAD_CONCURRENT_QUEUES_SYNC_QUEUE_HPP ////////////////////////////////////////////////////////////////////////////// // // (C) Copyright Vicente J. Botet Escriba 2013-2014. 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) // // See http://www.boost.org/libs/thread for documentation. // ////////////////////////////////////////////////////////////////////////////// #include #include #include #include #include #include #include #include #include #include #include namespace boost { namespace concurrent { template > class sync_queue : public detail::sync_queue_base { typedef detail::sync_queue_base super; public: typedef ValueType value_type; //typedef typename super::value_type value_type; // fixme typedef typename super::underlying_queue_type underlying_queue_type; typedef typename super::size_type size_type; typedef typename super::op_status op_status; // Constructors/Assignment/Destructors BOOST_THREAD_NO_COPYABLE(sync_queue) inline sync_queue(); //template //inline explicit sync_queue(Range range); inline ~sync_queue(); // Modifiers inline void push(const value_type& x); inline queue_op_status try_push(const value_type& x); inline queue_op_status nonblocking_push(const value_type& x); inline queue_op_status wait_push(const value_type& x); inline void push(BOOST_THREAD_RV_REF(value_type) x); inline queue_op_status try_push(BOOST_THREAD_RV_REF(value_type) x); inline queue_op_status nonblocking_push(BOOST_THREAD_RV_REF(value_type) x); inline queue_op_status wait_push(BOOST_THREAD_RV_REF(value_type) x); // Observers/Modifiers inline void pull(value_type&); // enable_if is_nothrow_copy_movable inline value_type pull(); inline queue_op_status try_pull(value_type&); inline queue_op_status nonblocking_pull(value_type&); inline queue_op_status wait_pull(ValueType& elem); private: inline queue_op_status try_pull(value_type& x, unique_lock& lk); inline queue_op_status wait_pull(value_type& x, unique_lock& lk); inline queue_op_status try_push(const value_type& x, unique_lock& lk); inline queue_op_status wait_push(const value_type& x, unique_lock& lk); inline queue_op_status try_push(BOOST_THREAD_RV_REF(value_type) x, unique_lock& lk); inline queue_op_status wait_push(BOOST_THREAD_RV_REF(value_type) x, unique_lock& lk); inline void pull(value_type& elem, unique_lock& ) { elem = boost::move(super::data_.front()); super::data_.pop_front(); } inline value_type pull(unique_lock& ) { value_type e = boost::move(super::data_.front()); super::data_.pop_front(); return boost::move(e); } inline void push(const value_type& elem, unique_lock& lk) { super::data_.push_back(elem); super::notify_not_empty_if_needed(lk); } inline void push(BOOST_THREAD_RV_REF(value_type) elem, unique_lock& lk) { super::data_.push_back(boost::move(elem)); super::notify_not_empty_if_needed(lk); } }; template sync_queue::sync_queue() : super() { } // template // template // explicit sync_queue::sync_queue(Range range) : // data_(), closed_(false) // { // try // { // typedef typename Range::iterator iterator_t; // iterator_t first = boost::begin(range); // iterator_t end = boost::end(range); // for (iterator_t cur = first; cur != end; ++cur) // { // data_.push(boost::move(*cur));; // } // notify_not_empty_if_needed(lk); // } // catch (...) // { // delete[] data_; // } // } template sync_queue::~sync_queue() { } template queue_op_status sync_queue::try_pull(ValueType& elem, unique_lock& lk) { if (super::empty(lk)) { if (super::closed(lk)) return queue_op_status::closed; return queue_op_status::empty; } pull(elem, lk); return queue_op_status::success; } template queue_op_status sync_queue::wait_pull(ValueType& elem, unique_lock& lk) { if (super::empty(lk)) { if (super::closed(lk)) return queue_op_status::closed; } bool has_been_closed = super::wait_until_not_empty_or_closed(lk); if (has_been_closed) return queue_op_status::closed; pull(elem, lk); return queue_op_status::success; } template queue_op_status sync_queue::try_pull(ValueType& elem) { unique_lock lk(super::mtx_); return try_pull(elem, lk); } template queue_op_status sync_queue::wait_pull(ValueType& elem) { unique_lock lk(super::mtx_); return wait_pull(elem, lk); } template queue_op_status sync_queue::nonblocking_pull(ValueType& elem) { unique_lock lk(super::mtx_, try_to_lock); if (!lk.owns_lock()) { return queue_op_status::busy; } return try_pull(elem, lk); } template void sync_queue::pull(ValueType& elem) { unique_lock lk(super::mtx_); super::wait_until_not_empty(lk); pull(elem, lk); } // enable if ValueType is nothrow movable template ValueType sync_queue::pull() { unique_lock lk(super::mtx_); super::wait_until_not_empty(lk); return pull(lk); } template queue_op_status sync_queue::try_push(const ValueType& elem, unique_lock& lk) { if (super::closed(lk)) return queue_op_status::closed; push(elem, lk); return queue_op_status::success; } template queue_op_status sync_queue::try_push(const ValueType& elem) { unique_lock lk(super::mtx_); return try_push(elem, lk); } template queue_op_status sync_queue::wait_push(const ValueType& elem, unique_lock& lk) { if (super::closed(lk)) return queue_op_status::closed; push(elem, lk); return queue_op_status::success; } template queue_op_status sync_queue::wait_push(const ValueType& elem) { unique_lock lk(super::mtx_); return wait_push(elem, lk); } template queue_op_status sync_queue::nonblocking_push(const ValueType& elem) { unique_lock lk(super::mtx_, try_to_lock); if (!lk.owns_lock()) return queue_op_status::busy; return try_push(elem, lk); } template void sync_queue::push(const ValueType& elem) { unique_lock lk(super::mtx_); super::throw_if_closed(lk); push(elem, lk); } template queue_op_status sync_queue::try_push(BOOST_THREAD_RV_REF(ValueType) elem, unique_lock& lk) { if (super::closed(lk)) return queue_op_status::closed; push(boost::move(elem), lk); return queue_op_status::success; } template queue_op_status sync_queue::try_push(BOOST_THREAD_RV_REF(ValueType) elem) { unique_lock lk(super::mtx_); return try_push(boost::move(elem), lk); } template queue_op_status sync_queue::wait_push(BOOST_THREAD_RV_REF(ValueType) elem, unique_lock& lk) { if (super::closed(lk)) return queue_op_status::closed; push(boost::move(elem), lk); return queue_op_status::success; } template queue_op_status sync_queue::wait_push(BOOST_THREAD_RV_REF(ValueType) elem) { unique_lock lk(super::mtx_); return wait_push(boost::move(elem), lk); } template queue_op_status sync_queue::nonblocking_push(BOOST_THREAD_RV_REF(ValueType) elem) { unique_lock lk(super::mtx_, try_to_lock); if (!lk.owns_lock()) { return queue_op_status::busy; } return try_push(boost::move(elem), lk); } template void sync_queue::push(BOOST_THREAD_RV_REF(ValueType) elem) { unique_lock lk(super::mtx_); super::throw_if_closed(lk); push(boost::move(elem), lk); } template sync_queue& operator<<(sync_queue& sbq, BOOST_THREAD_RV_REF(ValueType) elem) { sbq.push(boost::move(elem)); return sbq; } template sync_queue& operator<<(sync_queue& sbq, ValueType const&elem) { sbq.push(elem); return sbq; } template sync_queue& operator>>(sync_queue& sbq, ValueType &elem) { sbq.pull(elem); return sbq; } } using concurrent::sync_queue; } #include #endif