#ifndef BOOST_THREAD_THREAD_COMMON_HPP #define BOOST_THREAD_THREAD_COMMON_HPP // 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) // (C) Copyright 2007-10 Anthony Williams #include #ifndef BOOST_NO_IOSTREAM #include #endif #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #ifdef BOOST_MSVC #pragma warning(push) #pragma warning(disable:4251) #endif namespace boost { namespace detail { template class thread_data: public detail::thread_data_base { public: #ifndef BOOST_NO_RVALUE_REFERENCES thread_data(F&& f_): f(static_cast(f_)) {} thread_data(F& f_): f(f_) {} #else thread_data(F f_): f(f_) {} thread_data(detail::thread_move_t f_): f(f_) {} #endif void run() { f(); } private: F f; void operator=(thread_data&); thread_data(thread_data&); }; template class thread_data >: public detail::thread_data_base { private: F& f; void operator=(thread_data&); thread_data(thread_data&); public: thread_data(boost::reference_wrapper f_): f(f_) {} void run() { f(); } }; template class thread_data >: public detail::thread_data_base { private: F& f; void operator=(thread_data&); thread_data(thread_data&); public: thread_data(const boost::reference_wrapper f_): f(f_) {} void run() { f(); } }; } class BOOST_THREAD_DECL thread { private: thread(thread&); thread& operator=(thread&); void release_handle(); detail::thread_data_ptr thread_info; void start_thread(); explicit thread(detail::thread_data_ptr data); detail::thread_data_ptr get_thread_info BOOST_PREVENT_MACRO_SUBSTITUTION () const; #ifndef BOOST_NO_RVALUE_REFERENCES template static inline detail::thread_data_ptr make_thread_info(F&& f) { return detail::thread_data_ptr(detail::heap_new::type> >(static_cast(f))); } static inline detail::thread_data_ptr make_thread_info(void (*f)()) { return detail::thread_data_ptr(detail::heap_new >(static_cast(f))); } #else template static inline detail::thread_data_ptr make_thread_info(F f) { return detail::thread_data_ptr(detail::heap_new >(f)); } template static inline detail::thread_data_ptr make_thread_info(boost::detail::thread_move_t f) { return detail::thread_data_ptr(detail::heap_new >(f)); } #endif struct dummy; public: #if BOOST_WORKAROUND(__SUNPRO_CC, < 0x5100) thread(const volatile thread&); #endif thread(); ~thread(); #ifndef BOOST_NO_RVALUE_REFERENCES #ifdef BOOST_MSVC template explicit thread(F f,typename disable_if >, dummy* >::type=0): thread_info(make_thread_info(static_cast(f))) { start_thread(); } #else template thread(F&& f): thread_info(make_thread_info(static_cast(f))) { start_thread(); } #endif thread(thread&& other) { thread_info.swap(other.thread_info); } thread& operator=(thread&& other) { thread_info=other.thread_info; other.thread_info.reset(); return *this; } thread&& move() { return static_cast(*this); } #else #ifdef BOOST_NO_SFINAE template explicit thread(F f): thread_info(make_thread_info(f)) { start_thread(); } #else template explicit thread(F f,typename disable_if >, dummy* >::type=0): thread_info(make_thread_info(f)) { start_thread(); } #endif template explicit thread(detail::thread_move_t f): thread_info(make_thread_info(f)) { start_thread(); } thread(detail::thread_move_t x) { thread_info=x->thread_info; x->thread_info.reset(); } #if BOOST_WORKAROUND(__SUNPRO_CC, < 0x5100) thread& operator=(thread x) { swap(x); return *this; } #else thread& operator=(detail::thread_move_t x) { thread new_thread(x); swap(new_thread); return *this; } #endif operator detail::thread_move_t() { return move(); } detail::thread_move_t move() { detail::thread_move_t x(*this); return x; } #endif template thread(F f,A1 a1): thread_info(make_thread_info(boost::bind(boost::type(),f,a1))) { start_thread(); } template thread(F f,A1 a1,A2 a2): thread_info(make_thread_info(boost::bind(boost::type(),f,a1,a2))) { start_thread(); } template thread(F f,A1 a1,A2 a2,A3 a3): thread_info(make_thread_info(boost::bind(boost::type(),f,a1,a2,a3))) { start_thread(); } template thread(F f,A1 a1,A2 a2,A3 a3,A4 a4): thread_info(make_thread_info(boost::bind(boost::type(),f,a1,a2,a3,a4))) { start_thread(); } template thread(F f,A1 a1,A2 a2,A3 a3,A4 a4,A5 a5): thread_info(make_thread_info(boost::bind(boost::type(),f,a1,a2,a3,a4,a5))) { start_thread(); } template thread(F f,A1 a1,A2 a2,A3 a3,A4 a4,A5 a5,A6 a6): thread_info(make_thread_info(boost::bind(boost::type(),f,a1,a2,a3,a4,a5,a6))) { start_thread(); } template thread(F f,A1 a1,A2 a2,A3 a3,A4 a4,A5 a5,A6 a6,A7 a7): thread_info(make_thread_info(boost::bind(boost::type(),f,a1,a2,a3,a4,a5,a6,a7))) { start_thread(); } template thread(F f,A1 a1,A2 a2,A3 a3,A4 a4,A5 a5,A6 a6,A7 a7,A8 a8): thread_info(make_thread_info(boost::bind(boost::type(),f,a1,a2,a3,a4,a5,a6,a7,a8))) { start_thread(); } template thread(F f,A1 a1,A2 a2,A3 a3,A4 a4,A5 a5,A6 a6,A7 a7,A8 a8,A9 a9): thread_info(make_thread_info(boost::bind(boost::type(),f,a1,a2,a3,a4,a5,a6,a7,a8,a9))) { start_thread(); } void swap(thread& x) { thread_info.swap(x.thread_info); } class BOOST_SYMBOL_VISIBLE id; id get_id() const; bool joinable() const; void join(); bool timed_join(const system_time& wait_until); template inline bool timed_join(TimeDuration const& rel_time) { return timed_join(get_system_time()+rel_time); } void detach(); static unsigned hardware_concurrency(); typedef detail::thread_data_base::native_handle_type native_handle_type; native_handle_type native_handle(); // backwards compatibility bool operator==(const thread& other) const; bool operator!=(const thread& other) const; static inline void yield() { this_thread::yield(); } static inline void sleep(const system_time& xt) { this_thread::sleep(xt); } // extensions void interrupt(); bool interruption_requested() const; }; inline void swap(thread& lhs,thread& rhs) { return lhs.swap(rhs); } #ifndef BOOST_NO_RVALUE_REFERENCES inline thread&& move(thread& t) { return static_cast(t); } inline thread&& move(thread&& t) { return static_cast(t); } #else inline detail::thread_move_t move(detail::thread_move_t t) { return t; } #endif namespace this_thread { thread::id BOOST_THREAD_DECL get_id(); void BOOST_THREAD_DECL interruption_point(); bool BOOST_THREAD_DECL interruption_enabled(); bool BOOST_THREAD_DECL interruption_requested(); inline BOOST_SYMBOL_VISIBLE void sleep(xtime const& abs_time) { sleep(system_time(abs_time)); } } class BOOST_SYMBOL_VISIBLE thread::id { private: detail::thread_data_ptr thread_data; id(detail::thread_data_ptr thread_data_): thread_data(thread_data_) {} friend class thread; friend id BOOST_THREAD_DECL this_thread::get_id(); public: id(): thread_data() {} id(const id& other): thread_data(other.thread_data) {} bool operator==(const id& y) const { return thread_data==y.thread_data; } bool operator!=(const id& y) const { return thread_data!=y.thread_data; } bool operator<(const id& y) const { return thread_data(const id& y) const { return y.thread_data=(const id& y) const { return !(thread_data friend BOOST_SYMBOL_VISIBLE std::basic_ostream& operator<<(std::basic_ostream& os, const id& x) { if(x.thread_data) { io::ios_flags_saver ifs( os ); return os<< std::hex << x.thread_data; } else { return os<<"{Not-any-thread}"; } } #else template BOOST_SYMBOL_VISIBLE std::basic_ostream& print(std::basic_ostream& os) const { if(thread_data) { return os< BOOST_SYMBOL_VISIBLE std::basic_ostream& operator<<(std::basic_ostream& os, const thread::id& x) { return x.print(os); } #endif inline bool thread::operator==(const thread& other) const { return get_id()==other.get_id(); } inline bool thread::operator!=(const thread& other) const { return get_id()!=other.get_id(); } namespace detail { struct thread_exit_function_base { virtual ~thread_exit_function_base() {} virtual void operator()()=0; }; template struct thread_exit_function: thread_exit_function_base { F f; thread_exit_function(F f_): f(f_) {} void operator()() { f(); } }; void BOOST_THREAD_DECL add_thread_exit_function(thread_exit_function_base*); } #ifdef BOOST_NO_RVALUE_REFERENCES template <> struct has_move_emulation_enabled_aux : BOOST_MOVE_BOOST_NS::integral_constant {}; #endif namespace this_thread { template void at_thread_exit(F f) { detail::thread_exit_function_base* const thread_exit_func=detail::heap_new >(f); detail::add_thread_exit_function(thread_exit_func); } } } #ifdef BOOST_MSVC #pragma warning(pop) #endif #include #endif