// Copyright (C) 2013 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) // // 2013/11 Vicente J. Botet Escriba // first implementation of a simple serial scheduler. #ifndef BOOST_THREAD_SERIAL_EXECUTOR_HPP #define BOOST_THREAD_SERIAL_EXECUTOR_HPP #include #include #include #include #include #include #include #include #include namespace boost { namespace executors { class serial_executor { public: /// type-erasure to store the works to do typedef executors::work work; private: typedef scoped_thread<> thread_t; /// the thread safe work queue sync_queue work_queue; generic_executor_ref ex; thread_t thr; struct try_executing_one_task { work& task; boost::promise &p; try_executing_one_task(work& task, boost::promise &p) : task(task), p(p) {} void operator()() { task(); // if task() throws promise is not set but as the the program terminates and should terminate there is no need to use try-catch here. p.set_value(); } }; public: /** * \par Returns * The underlying executor wrapped on a generic executor reference. */ generic_executor_ref underlying_executor() BOOST_NOEXCEPT { return ex; } /** * 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) { boost::promise p; try_executing_one_task tmp(task,p); ex.submit(tmp); // ex.submit([&task, &p]() // { // task(); // if task() throws promise is not set but as the the program terminates and should terminate there is no need to use try-catch here. // p.set_value(); // }); p.get_future().wait(); return true; } return false; } catch (std::exception& ) { return false; } catch (...) { return false; } } private: /** * 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(); } } /** * The main loop of the worker thread */ void worker_thread() { while (!closed()) { schedule_one_or_yield(); } while (try_executing_one()) { } } public: /// serial_executor is not copyable. BOOST_THREAD_NO_COPYABLE(serial_executor) /** * \b Effects: creates a thread pool that runs closures using one of its closure-executing methods. * * \b Throws: Whatever exception is thrown while initializing the needed resources. */ template serial_executor(Executor& ex) : ex(ex), thr(&serial_executor::worker_thread, this) { } /** * \b Effects: Destroys the thread pool. * * \b Synchronization: The completion of all the closures happen before the completion of the \c serial_executor destructor. */ ~serial_executor() { // signal to all the worker thread that there will be no more submissions. close(); } /** * \b Effects: close the \c serial_executor for submissions. * The loop 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 serial_executor 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::serial_executor; } #include #endif