X-Git-Url: http://g0dil.de/git?p=senf.git;a=blobdiff_plain;f=senf%2FScheduler%2FClockService.cci;fp=senf%2FScheduler%2FClockService.cci;h=e0a7b95f7c3308506bcb0e0ebe700df3d4d53ac5;hp=bf2740186dc91b52ad302c22727718cfb69dc954;hb=114131e8774ab05964646992613a98dcedf92434;hpb=728c6fbeb525a2b48b927ebf17cc06ca943583b2 diff --git a/senf/Scheduler/ClockService.cci b/senf/Scheduler/ClockService.cci index bf27401..e0a7b95 100644 --- a/senf/Scheduler/ClockService.cci +++ b/senf/Scheduler/ClockService.cci @@ -32,11 +32,16 @@ #include #include #include -#include #define prefix_ inline //-///////////////////////////////////////////////////////////////////////////////////////////////// +#ifdef SENF_DEBUG +# define SENF_CLOCKTYPEVAL(clock) (clock).value() +#else +# define SENF_CLOCKTYPEVAL(clock) (clock) +#endif + //-///////////////////////////////////////////////////////////////////////////////////////////////// // senf::ClockService @@ -45,7 +50,7 @@ prefix_ senf::ClockService::clock_type senf::ClockService::now() struct timespec spec; if (clock_gettime(CLOCK_MONOTONIC, &spec) < 0) SENF_THROW_SYSTEM_EXCEPTION("clock_gettime()"); - return SENF_INT2CLOCKTYPE(spec.tv_sec * 1000000000LL + spec.tv_nsec); + return clock_type(spec.tv_sec * 1000000000LL + spec.tv_nsec); } //-///////////////////////////////////////////////////////////////////////////////////////////////// @@ -69,9 +74,11 @@ prefix_ senf::ClockService::abstime_type senf::ClockService::abstime_m(clock_typ if (scheduler::now() - baseClock_ > clock_type(1000000000ll)) restart_m(); #ifdef BOOST_DATE_TIME_POSIX_TIME_STD_CONFIG - return baseAbstime_ + boost::posix_time::nanoseconds(clock-baseClock_); + return baseAbstime_ + boost::posix_time::nanoseconds( + SENF_CLOCKTYPEVAL( clock-baseClock_)); #else - return baseAbstime_ + boost::posix_time::microseconds((clock.value() - baseClock_.value() + 500 )/1000); + return baseAbstime_ + boost::posix_time::microseconds( + SENF_CLOCKTYPEVAL( (clock-baseClock_+clock_type(500))/1000)); #endif } @@ -96,9 +103,11 @@ prefix_ senf::ClockService::abstime_type senf::ClockService::abstime(clock_type prefix_ senf::ClockService::reltime_type senf::ClockService::reltime(clock_type clock) { #ifdef BOOST_DATE_TIME_POSIX_TIME_STD_CONFIG - return boost::posix_time::nanoseconds(clock); + return boost::posix_time::nanoseconds( + SENF_CLOCKTYPEVAL( clock)); #else - return boost::posix_time::microseconds((clock.value() + 500)/1000); + return boost::posix_time::microseconds( + SENF_CLOCKTYPEVAL( (clock + clock_type(500))/1000)); #endif } @@ -114,72 +123,72 @@ prefix_ senf::ClockService::clock_type senf::ClockService::from_time_t(time_t co prefix_ senf::ClockService::clock_type senf::ClockService::nanoseconds(int64_type v) { - return SENF_INT2CLOCKTYPE(v); + return clock_type(v); } prefix_ senf::ClockService::clock_type senf::ClockService::microseconds(int64_type v) { - return SENF_INT2CLOCKTYPE(v * SENF_CLOCKTYPEVAL(nanoseconds(1000))); + return v * nanoseconds(1000); } prefix_ senf::ClockService::clock_type senf::ClockService::milliseconds(int64_type v) { - return SENF_INT2CLOCKTYPE(v * SENF_CLOCKTYPEVAL(microseconds(1000))); + return v * microseconds(1000); } prefix_ senf::ClockService::clock_type senf::ClockService::seconds(int64_type v) { - return SENF_INT2CLOCKTYPE(v * SENF_CLOCKTYPEVAL(milliseconds(1000))); + return v * milliseconds(1000); } prefix_ senf::ClockService::clock_type senf::ClockService::minutes(int64_type v) { - return SENF_INT2CLOCKTYPE(v * SENF_CLOCKTYPEVAL(seconds(60))); + return v * seconds(60); } prefix_ senf::ClockService::clock_type senf::ClockService::hours(int64_type v) { - return SENF_INT2CLOCKTYPE(v * SENF_CLOCKTYPEVAL(minutes(60))); + return v * minutes(60); } prefix_ senf::ClockService::clock_type senf::ClockService::days(int64_type v) { - return SENF_INT2CLOCKTYPE(v * SENF_CLOCKTYPEVAL(hours(24))); + return v * hours(24); } prefix_ senf::ClockService::int64_type senf::ClockService::in_nanoseconds(clock_type v) { - return SENF_CLOCKTYPEVAL(v); + return SENF_CLOCKTYPEVAL( v); } prefix_ senf::ClockService::int64_type senf::ClockService::in_microseconds(clock_type v) { - return (SENF_CLOCKTYPEVAL(v) / SENF_CLOCKTYPEVAL(nanoseconds(1000))); + return SENF_CLOCKTYPEVAL( v / nanoseconds(1000)); } prefix_ senf::ClockService::int64_type senf::ClockService::in_milliseconds(clock_type v) { - return (SENF_CLOCKTYPEVAL(v) / SENF_CLOCKTYPEVAL(microseconds(1000))); + return SENF_CLOCKTYPEVAL( v / microseconds(1000)); } prefix_ senf::ClockService::int64_type senf::ClockService::in_seconds(clock_type v) { - return (SENF_CLOCKTYPEVAL(v) / SENF_CLOCKTYPEVAL(milliseconds(1000))); + return SENF_CLOCKTYPEVAL( v / milliseconds(1000)); } prefix_ senf::ClockService::int64_type senf::ClockService::in_minutes(clock_type v) { - return (SENF_CLOCKTYPEVAL(v) / SENF_CLOCKTYPEVAL(seconds(60))); + return SENF_CLOCKTYPEVAL( v / seconds(60)); } prefix_ senf::ClockService::int64_type senf::ClockService::in_hours(clock_type v) { - return (SENF_CLOCKTYPEVAL(v) / SENF_CLOCKTYPEVAL(minutes(60))) ; + return SENF_CLOCKTYPEVAL( v / minutes(60)); } prefix_ senf::ClockService::int64_type senf::ClockService::in_days(clock_type v) { - return (SENF_CLOCKTYPEVAL(v) / SENF_CLOCKTYPEVAL(hours(24))) ; + return SENF_CLOCKTYPEVAL( v / hours(24)); } prefix_ senf::ClockService::clock_type senf::ClockService::from_timeval(timeval const & time) @@ -192,6 +201,8 @@ prefix_ void senf::ClockService::restart() instance().restart_m(); } +#undef SENF_CLOCKTYPEVAL + //-///////////////////////////////////////////////////////////////////////////////////////////////// #undef prefix_