#ifndef BOOST_THREAD_PTHREAD_THREAD_DATA_HPP #define BOOST_THREAD_PTHREAD_THREAD_DATA_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 Anthony Williams // (C) Copyright 2011-2012 Vicente J. Botet Escriba #include #include #include #include #include #include #include #include #include #include #include #ifdef BOOST_THREAD_USES_CHRONO #include #endif #include #include #include #if defined(__ANDROID__) # ifndef PAGE_SIZE # define PAGE_SIZE 4096 # endif #endif #include #include #include namespace lslboost { class thread_attributes { public: thread_attributes() BOOST_NOEXCEPT { int res = pthread_attr_init(&val_); BOOST_VERIFY(!res && "pthread_attr_init failed"); } ~thread_attributes() { int res = pthread_attr_destroy(&val_); BOOST_VERIFY(!res && "pthread_attr_destroy failed"); } // stack void set_stack_size(std::size_t size) BOOST_NOEXCEPT { if (size==0) return; #ifdef BOOST_THREAD_USES_GETPAGESIZE std::size_t page_size = getpagesize(); #else std::size_t page_size = ::sysconf( _SC_PAGESIZE); #endif #if PTHREAD_STACK_MIN > 0 if (size func; void* value; tss_data_node(lslboost::shared_ptr func_, void* value_): func(func_),value(value_) {} }; struct thread_data_base; typedef lslboost::shared_ptr thread_data_ptr; struct BOOST_THREAD_DECL thread_data_base: enable_shared_from_this { thread_data_ptr self; pthread_t thread_handle; lslboost::mutex data_mutex; lslboost::condition_variable done_condition; bool done; bool join_started; bool joined; lslboost::detail::thread_exit_callback_node* thread_exit_callbacks; std::map tss_data; //#if defined BOOST_THREAD_PROVIDES_INTERRUPTIONS // These data must be at the end so that the access to the other fields doesn't change // when BOOST_THREAD_PROVIDES_INTERRUPTIONS is defined. // Another option is to have them always pthread_mutex_t* cond_mutex; pthread_cond_t* current_cond; //#endif typedef std::vector //, hidden_allocator > > notify_list_t; notify_list_t notify; //#ifndef BOOST_NO_EXCEPTIONS typedef std::vector > async_states_t; async_states_t async_states_; //#endif //#if defined BOOST_THREAD_PROVIDES_INTERRUPTIONS // These data must be at the end so that the access to the other fields doesn't change // when BOOST_THREAD_PROVIDES_INTERRUPTIONS is defined. // Another option is to have them always bool interrupt_enabled; bool interrupt_requested; //#endif thread_data_base(): thread_handle(0), done(false),join_started(false),joined(false), thread_exit_callbacks(0), //#if defined BOOST_THREAD_PROVIDES_INTERRUPTIONS cond_mutex(0), current_cond(0), //#endif notify() //#ifndef BOOST_NO_EXCEPTIONS , async_states_() //#endif //#if defined BOOST_THREAD_PROVIDES_INTERRUPTIONS , interrupt_enabled(true) , interrupt_requested(false) //#endif {} virtual ~thread_data_base(); typedef pthread_t native_handle_type; virtual void run()=0; virtual void notify_all_at_thread_exit(condition_variable* cv, mutex* m) { notify.push_back(std::pair(cv, m)); } //#ifndef BOOST_NO_EXCEPTIONS void make_ready_at_thread_exit(shared_ptr as) { async_states_.push_back(as); } //#endif }; BOOST_THREAD_DECL thread_data_base* get_current_thread_data(); #if defined BOOST_THREAD_PROVIDES_INTERRUPTIONS class interruption_checker { thread_data_base* const thread_info; pthread_mutex_t* m; bool set; bool done; void check_for_interruption() { #ifndef BOOST_NO_EXCEPTIONS if(thread_info->interrupt_requested) { thread_info->interrupt_requested=false; throw thread_interrupted(); // BOOST_NO_EXCEPTIONS protected } #endif } void operator=(interruption_checker&); public: explicit interruption_checker(pthread_mutex_t* cond_mutex,pthread_cond_t* cond): thread_info(detail::get_current_thread_data()),m(cond_mutex), set(thread_info && thread_info->interrupt_enabled), done(false) { if(set) { lock_guard guard(thread_info->data_mutex); check_for_interruption(); thread_info->cond_mutex=cond_mutex; thread_info->current_cond=cond; BOOST_VERIFY(!posix::pthread_mutex_lock(m)); } else { BOOST_VERIFY(!posix::pthread_mutex_lock(m)); } } void unlock_if_locked() { if ( ! done) { if (set) { BOOST_VERIFY(!posix::pthread_mutex_unlock(m)); lock_guard guard(thread_info->data_mutex); thread_info->cond_mutex=NULL; thread_info->current_cond=NULL; } else { BOOST_VERIFY(!posix::pthread_mutex_unlock(m)); } done = true; } } ~interruption_checker() BOOST_NOEXCEPT_IF(false) { unlock_if_locked(); } }; #endif } namespace this_thread { void BOOST_THREAD_DECL yield() BOOST_NOEXCEPT; namespace hidden { inline bool always_false() { return false; } } #if defined BOOST_THREAD_USES_DATETIME #ifdef __DECXXX /// Workaround of DECCXX issue of incorrect template substitution template<> #endif inline void sleep(system_time const& abs_time) { mutex mx; unique_lock lock(mx); condition_variable cond; cond.timed_wait(lock, abs_time, hidden::always_false); } template void sleep(TimeDuration const& rel_time) { mutex mx; unique_lock lock(mx); condition_variable cond; cond.timed_wait(lock, rel_time, hidden::always_false); } #endif #ifdef BOOST_THREAD_USES_CHRONO template void sleep_until(const chrono::time_point& t) { mutex mut; unique_lock lk(mut); condition_variable cv; cv.wait_until(lk, t, hidden::always_false); } template void sleep_for(const chrono::duration& d) { mutex mut; unique_lock lk(mut); condition_variable cv; cv.wait_for(lk, d, hidden::always_false); } #endif namespace no_interruption_point { #if defined BOOST_THREAD_SLEEP_FOR_IS_STEADY // Use pthread_delay_np or nanosleep when available // because they do not provide an interruption point. namespace hidden { void BOOST_THREAD_DECL sleep_for_internal(const detail::platform_duration& ts); } #if defined BOOST_THREAD_USES_DATETIME #ifdef __DECXXX /// Workaround of DECCXX issue of incorrect template substitution template<> #endif inline void sleep(system_time const& abs_time) { const detail::real_platform_timepoint ts(abs_time); detail::platform_duration d(ts - detail::real_platform_clock::now()); while (d > detail::platform_duration::zero()) { d = (std::min)(d, detail::platform_milliseconds(BOOST_THREAD_POLL_INTERVAL_MILLISECONDS)); hidden::sleep_for_internal(d); d = ts - detail::real_platform_clock::now(); } } template void sleep(TimeDuration const& rel_time) { hidden::sleep_for_internal(detail::platform_duration(rel_time)); } #endif #ifdef BOOST_THREAD_USES_CHRONO template void sleep_for(const chrono::duration& d) { hidden::sleep_for_internal(detail::platform_duration(d)); } template void sleep_until(const chrono::time_point& t) { sleep_for(t - chrono::steady_clock::now()); } template void sleep_until(const chrono::time_point& t) { typedef typename common_type::type common_duration; common_duration d(t - Clock::now()); while (d > common_duration::zero()) { d = (std::min)(d, common_duration(chrono::milliseconds(BOOST_THREAD_POLL_INTERVAL_MILLISECONDS))); hidden::sleep_for_internal(detail::platform_duration(d)); d = t - Clock::now(); } } #endif #else // BOOST_THREAD_SLEEP_FOR_IS_STEADY // When pthread_delay_np and nanosleep are not available, // fall back to using the interruptible sleep functions. #if defined BOOST_THREAD_USES_DATETIME #ifdef __DECXXX /// Workaround of DECCXX issue of incorrect template substitution template<> #endif inline void sleep(system_time const& abs_time) { this_thread::sleep(abs_time); } template void sleep(TimeDuration const& rel_time) { this_thread::sleep(rel_time); } #endif #ifdef BOOST_THREAD_USES_CHRONO template void sleep_until(const chrono::time_point& t) { this_thread::sleep_until(t); } template void sleep_for(const chrono::duration& d) { this_thread::sleep_for(d); } #endif #endif // BOOST_THREAD_SLEEP_FOR_IS_STEADY } // no_interruption_point } // this_thread } #include #endif