boost/interprocess/timed_utils.hpp
//////////////////////////////////////////////////////////////////////////// // // (C) Copyright Ion Gaztanaga 2023-2024. 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/interprocess for documentation. // ////////////////////////////////////////////////////////////////////////////// #ifndef BOOST_INTERPROCESS_TIMED_UTILS_HPP #define BOOST_INTERPROCESS_TIMED_UTILS_HPP #ifndef BOOST_CONFIG_HPP # include <boost/config.hpp> #endif # #if defined(BOOST_HAS_PRAGMA_ONCE) # pragma once #endif #include <boost/interprocess/detail/config_begin.hpp> #include <boost/interprocess/detail/workaround.hpp> #include <boost/interprocess/detail/timed_utils.hpp> //!\file //!Describes some simple time-related utilities that can be used to call synchronization primitive and ipc methods that required //!waiting until the resource is signalled or a timeout expires. //! //! These utilities are provided for those users that want to avoid dependence on std::chrono or boost::chrono or boost::date_time //! and just want to implement simple portable waits. namespace boost { namespace interprocess { //!Describes a simple duration type with microsecond resolution that can be used with the ustime time-point utility to call timed functions //! of Boost.Interprocess' synchronization classes that expect a time-point (timed_wait, wait_until, timed_lock, lock_until...) class ustime; //!Describes a simple duration type with microsecond resolution that can be used with the ustime time-point utility to call timed functions //! of Boost.Interprocess' synchronization classes that expect a duration type (wait_for, lock_for...) class usduration { public: friend class ustime; //!Constructs a duration type that stores microseconds from //!the passed count explicit usduration(boost::uint64_t microsecs = 0u) : m_microsecs(microsecs) {} //!Returns the stored microsecond //!count boost::uint64_t get_microsecs() const { return m_microsecs; } bool operator < (const usduration &other) const { return m_microsecs < other.m_microsecs; } bool operator > (const usduration &other) const { return m_microsecs > other.m_microsecs; } bool operator <= (const usduration &other) const { return m_microsecs <= other.m_microsecs; } bool operator >= (const usduration &other) const { return m_microsecs >= other.m_microsecs; } private: boost::uint64_t m_microsecs; }; class ustime { public: //!Constructs a time point that is "microsecs" duration away //!from the epoch of the system explicit ustime(boost::uint64_t microsecs = 0u) : m_microsecs(microsecs) {} ustime &operator += (const usduration &other) { m_microsecs += other.m_microsecs; return *this; } ustime operator + (const usduration &other) { ustime r(*this); r += other; return r; } ustime &operator -= (const usduration &other) { m_microsecs -= other.m_microsecs; return *this; } ustime operator - (const usduration &other) { ustime r(*this); r -= other; return r; } friend usduration operator - (const ustime &l, const ustime &r) { return usduration(l.m_microsecs - r.m_microsecs); } bool operator < (const ustime &other) const { return m_microsecs < other.m_microsecs; } bool operator > (const ustime &other) const { return m_microsecs > other.m_microsecs; } bool operator <= (const ustime &other) const { return m_microsecs <= other.m_microsecs; } bool operator >= (const ustime &other) const { return m_microsecs >= other.m_microsecs; } //!Returns the stored count //!that represents microseconds from epoch boost::uint64_t get_microsecs() const { return m_microsecs; } private: boost::uint64_t m_microsecs; }; //!Utility that returns a duration from //!a seconds count inline usduration usduration_from_seconds(boost::uint64_t sec) { return usduration(sec*uint64_t(1000000u)); } //!Utility that returns a duration from //!a milliseconds count inline usduration usduration_from_milliseconds(boost::uint64_t millisec) { return usduration(millisec*1000u); } //!Utility that returns a time_point in the future that is "msecs" //!milliseconds in the future from now. inline ustime ustime_delay_milliseconds(unsigned msecs) { return ustime(ipcdetail::universal_time_u64_us()) + usduration(msecs*1000u); } #if !defined(BOOST_INTERPROCESS_DOXYGEN_INVOKED) namespace ipcdetail { template<> class microsec_clock<ustime> { public: typedef ustime time_point; static ustime universal_time() { return ustime(universal_time_u64_us()); } }; // duration_to_usduration template<class Duration> inline usduration duration_to_usduration(const Duration &d, typename enable_if_ptime_duration<Duration>::type* = 0) { return usduration(static_cast<boost::uint64_t>(d.total_microseconds())); } template<class Duration> inline usduration duration_to_usduration(const Duration &d, typename enable_if_duration<Duration>::type* = 0) { const double factor = double(Duration::period::num)*1000000.0/double(Duration::period::den); return usduration(static_cast<boost::uint64_t>(double(d.count())*factor)); } inline usduration duration_to_usduration(const usduration &d) { return d; } // duration_to_ustime template<class Duration> inline ustime duration_to_ustime(const Duration &d) { return microsec_clock<ustime>::universal_time() + (duration_to_usduration)(d); } } //namespace ipcdetail { #endif //#if !defined(BOOST_INTERPROCESS_DOXYGEN_INVOKED) } //namespace interprocess { } //namespace boost { #include <boost/interprocess/detail/config_end.hpp> #endif //BOOST_INTERPROCESS_TIMED_UTILS_HPP