#ifndef DATE_TIME_HIGHRES_TIME_CLOCK_HPP___ #define DATE_TIME_HIGHRES_TIME_CLOCK_HPP___ /* Copyright (c) 2002,2003,2005 CrystalClear Software, Inc. * Use, modification and distribution is subject to the * Boost Software License, Version 1.0. (See accompanying * file LICENSE-1.0 or http://www.boost.org/LICENSE-1.0) * Author: Jeff Garland, Bart Garst * $Date: 2005/10/28 13:32:38 $ */ /*! @file microsec_time_clock.hpp This file contains a high resolution time clock implementation. */ #include #include "boost/date_time/c_time.hpp" #include "boost/cstdint.hpp" #include "boost/shared_ptr.hpp" #ifdef BOOST_HAS_FTIME #include #endif #ifdef BOOST_DATE_TIME_HAS_HIGH_PRECISION_CLOCK namespace boost { namespace date_time { //! A clock providing microsecond level resolution /*! A high precision clock that measures the local time * at a resolution up to microseconds and adjusts to the * resolution of the time system. For example, for the * a library configuration with nano second resolution, * the last 3 places of the fractional seconds will always * be 000 since there are 1000 nano-seconds in a micro second. */ template class microsec_clock { public: typedef typename time_type::date_type date_type; typedef typename time_type::time_duration_type time_duration_type; typedef typename time_duration_type::rep_type resolution_traits_type; //! return a local time object for the given zone, based on computer clock //JKG -- looks like we could rewrite this against universal_time template static time_type local_time(shared_ptr tz_ptr) { typedef typename time_type::utc_time_type utc_time_type; typedef second_clock second_clock; // we'll need to know the utc_offset this machine has // in order to get a utc_time_type set to utc utc_time_type utc_time = second_clock::universal_time(); time_duration_type utc_offset = second_clock::local_time() - utc_time; // use micro clock to get a local time with sub seconds // and adjust it to get a true utc time reading with sub seconds utc_time = microsec_clock::local_time() - utc_offset; return time_type(utc_time, tz_ptr); } private: // we want this enum available for both platforms yet still private enum TZ_FOR_CREATE { LOCAL, GMT }; public: #ifdef BOOST_HAS_GETTIMEOFDAY //! Return the local time based on computer clock settings static time_type local_time() { return create_time(LOCAL); } //! Get the current day in universal date as a ymd_type static time_type universal_time() { return create_time(GMT); } private: static time_type create_time(TZ_FOR_CREATE tz) { timeval tv; gettimeofday(&tv, 0); //gettimeofday does not support TZ adjust on Linux. std::time_t t = tv.tv_sec; boost::uint32_t fs = tv.tv_usec; std::tm curr, *curr_ptr = 0; if (tz == LOCAL) { curr_ptr = c_time::localtime(&t, &curr); } else { curr_ptr = c_time::gmtime(&t, &curr); } date_type d(curr_ptr->tm_year + 1900, curr_ptr->tm_mon + 1, curr_ptr->tm_mday); //The following line will adjusts the fractional second tick in terms //of the current time system. For example, if the time system //doesn't support fractional seconds then res_adjust returns 0 //and all the fractional seconds return 0. int adjust = resolution_traits_type::res_adjust()/1000000; time_duration_type td(curr_ptr->tm_hour, curr_ptr->tm_min, curr_ptr->tm_sec, fs*adjust); return time_type(d,td); } #endif // BOOST_HAS_GETTIMEOFDAY #ifdef BOOST_HAS_FTIME //! Return the local time based on computer clock settings static time_type local_time() { FILETIME ft; #if BOOST_WORKAROUND(__MWERKS__, BOOST_TESTED_AT(0x3205)) // Some runtime library implementations expect local times as the norm for ctime. FILETIME ft_utc; GetSystemTimeAsFileTime(&ft_utc); FileTimeToLocalFileTime(&ft_utc,&ft); #else GetSystemTimeAsFileTime(&ft); #endif return create_time(ft, LOCAL); } //! Return the UTC time based on computer settings static time_type universal_time() { FILETIME ft; #if BOOST_WORKAROUND(__MWERKS__, BOOST_TESTED_AT(0x3205)) // Some runtime library implementations expect local times as the norm for ctime. FILETIME ft_utc; GetSystemTimeAsFileTime(&ft_utc); FileTimeToLocalFileTime(&ft_utc,&ft); #else GetSystemTimeAsFileTime(&ft); #endif return create_time(ft, GMT); } private: static time_type create_time(FILETIME& ft, TZ_FOR_CREATE tz) { // offset is difference (in 100-nanoseconds) from // 1970-Jan-01 to 1601-Jan-01 boost::uint64_t c1 = 27111902; boost::uint64_t c2 = 3577643008UL; // 'UL' removes compiler warnings const boost::uint64_t OFFSET = (c1 << 32) + c2; boost::uint64_t filetime = ft.dwHighDateTime; filetime = filetime << 32; filetime += ft.dwLowDateTime; filetime -= OFFSET; // filetime now holds 100-nanoseconds since 1970-Jan-01 boost::uint32_t sub_sec = (filetime % 10000000) / 10; // microseconds std::time_t t = static_cast(filetime / 10000000); // seconds since epoch std::tm curr, *curr_ptr = 0; if (tz == LOCAL) { curr_ptr = c_time::localtime(&t, &curr); } else { curr_ptr = c_time::gmtime(&t, &curr); } date_type d(curr_ptr->tm_year + 1900, curr_ptr->tm_mon + 1, curr_ptr->tm_mday); //The following line will adjusts the fractional second tick in terms //of the current time system. For example, if the time system //doesn't support fractional seconds then res_adjust returns 0 //and all the fractional seconds return 0. int adjust = resolution_traits_type::res_adjust()/1000000; time_duration_type td(curr_ptr->tm_hour, curr_ptr->tm_min, curr_ptr->tm_sec, sub_sec * adjust); //st.wMilliseconds * adjust); return time_type(d,td); } #endif // BOOST_HAS_FTIME }; } } //namespace date_time #endif //BOOST_DATE_TIME_HAS_HIGH_PRECISION_CLOCK #endif