// Copyright (C) 2013-2014 Vicente J. Botet Escriba // // 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) // // 2013/09 Vicente J. Botet Escriba // Adapt to boost from CCIA C++11 implementation // first implementation of a simple pool thread using a vector of threads and a sync_queue. #ifndef BOOST_THREAD_EXECUTORS_BASIC_THREAD_POOL_HPP #define BOOST_THREAD_EXECUTORS_BASIC_THREAD_POOL_HPP #include #include #include #include #include #include #include #include namespace boost { namespace executors { class basic_thread_pool { public: /// type-erasure to store the works to do typedef executors::work work; private: /// the kind of stored threads are scoped threads to ensure that the threads are joined. /// A move aware vector type typedef scoped_thread<> thread_t; typedef csbl::vector thread_vector; /// the thread safe work queue sync_queue work_queue; /// A move aware vector thread_vector threads; public: /** * Effects: try to execute one task. * Returns: whether a task has been executed. * Throws: whatever the current task constructor throws or the task() throws. */ bool try_executing_one() { work task; try { if (work_queue.try_pull_front(task) == queue_op_status::success) { task(); return true; } return false; } catch (std::exception& ) { return false; } catch (...) { return false; } } /** * Effects: schedule one task or yields * Throws: whatever the current task constructor throws or the task() throws. */ void schedule_one_or_yield() { if ( ! try_executing_one()) { this_thread::yield(); } } private: /** * The main loop of the worker threads */ void worker_thread() { try { for(;;) { work task; queue_op_status st = work_queue.wait_pull_front(task); if (st == queue_op_status::closed) return; task(); } } catch (std::exception& ) { return; } catch (...) { return; } } #if defined(BOOST_NO_CXX11_RVALUE_REFERENCES) template void worker_thread1(AtThreadEntry& at_thread_entry) { at_thread_entry(*this); worker_thread(); } #endif void worker_thread2(void(*at_thread_entry)(basic_thread_pool&)) { at_thread_entry(*this); worker_thread(); } template void worker_thread3(BOOST_THREAD_FWD_REF(AtThreadEntry) at_thread_entry) { at_thread_entry(*this); worker_thread(); } static void do_nothing_at_thread_entry(basic_thread_pool&) {} public: /// basic_thread_pool is not copyable. BOOST_THREAD_NO_COPYABLE(basic_thread_pool) /** * \b Effects: creates a thread pool that runs closures on \c thread_count threads. * * \b Throws: Whatever exception is thrown while initializing the needed resources. */ basic_thread_pool(unsigned const thread_count = thread::hardware_concurrency()) { try { threads.reserve(thread_count); for (unsigned i = 0; i < thread_count; ++i) { #if 1 thread th (&basic_thread_pool::worker_thread, this); threads.push_back(thread_t(boost::move(th))); #else threads.push_back(thread_t(&basic_thread_pool::worker_thread, this)); // do not compile #endif } } catch (...) { close(); throw; } } /** * \b Effects: creates a thread pool that runs closures on \c thread_count threads * and executes the at_thread_entry function at the entry of each created thread. . * * \b Throws: Whatever exception is thrown while initializing the needed resources. */ #if defined(BOOST_NO_CXX11_RVALUE_REFERENCES) template basic_thread_pool( unsigned const thread_count, AtThreadEntry& at_thread_entry) { try { threads.reserve(thread_count); for (unsigned i = 0; i < thread_count; ++i) { thread th (&basic_thread_pool::worker_thread1, this, at_thread_entry); threads.push_back(thread_t(boost::move(th))); //threads.push_back(thread_t(&basic_thread_pool::worker_thread, this)); // do not compile } } catch (...) { close(); throw; } } #endif basic_thread_pool( unsigned const thread_count, void(*at_thread_entry)(basic_thread_pool&)) { try { threads.reserve(thread_count); for (unsigned i = 0; i < thread_count; ++i) { thread th (&basic_thread_pool::worker_thread2, this, at_thread_entry); threads.push_back(thread_t(boost::move(th))); //threads.push_back(thread_t(&basic_thread_pool::worker_thread, this)); // do not compile } } catch (...) { close(); throw; } } template basic_thread_pool( unsigned const thread_count, BOOST_THREAD_FWD_REF(AtThreadEntry) at_thread_entry) { try { threads.reserve(thread_count); for (unsigned i = 0; i < thread_count; ++i) { thread th (&basic_thread_pool::worker_thread3, this, boost::forward(at_thread_entry)); threads.push_back(thread_t(boost::move(th))); //threads.push_back(thread_t(&basic_thread_pool::worker_thread, this)); // do not compile } } catch (...) { close(); throw; } } /** * \b Effects: Destroys the thread pool. * * \b Synchronization: The completion of all the closures happen before the completion of the \c basic_thread_pool destructor. */ ~basic_thread_pool() { // signal to all the worker threads that there will be no more submissions. close(); // joins all the threads as the threads were scoped_threads } /** * \b Effects: join all the threads. */ void join() { for (unsigned i = 0; i < threads.size(); ++i) { threads[i].join(); } } /** * \b Effects: close the \c basic_thread_pool for submissions. * The worker threads will work until there is no more closures to run. */ void close() { work_queue.close(); } /** * \b Returns: whether the pool is closed for submissions. */ bool closed() { return work_queue.closed(); } /** * \b Requires: \c Closure is a model of \c Callable(void()) and a model of \c CopyConstructible/MoveConstructible. * * \b Effects: The specified \c closure will be scheduled for execution at some point in the future. * If invoked closure throws an exception the \c basic_thread_pool will call \c std::terminate, as is the case with threads. * * \b Synchronization: completion of \c closure on a particular thread happens before destruction of thread's thread local variables. * * \b Throws: \c sync_queue_is_closed if the thread pool is closed. * Whatever exception that can be throw while storing the closure. */ #if defined(BOOST_NO_CXX11_RVALUE_REFERENCES) template void submit(Closure & closure) { work_queue.push_back(work(closure)); } #endif void submit(void (*closure)()) { work_queue.push_back(work(closure)); } template void submit(BOOST_THREAD_RV_REF(Closure) closure) { work_queue.push_back(work(boost::forward(closure))); } /** * \b Requires: This must be called from an scheduled task. * * \b Effects: reschedule functions until pred() */ template bool reschedule_until(Pred const& pred) { do { if ( ! try_executing_one()) { return false; } } while (! pred()); return true; } }; } using executors::basic_thread_pool; } #include #endif