#include "cmPrefix.h" #include "cmGlobal.h" #include "cmTime.h" #ifdef OS_OSX #include #include #include void cmTimeGet( cmTimeSpec_t* t ) { static uint64_t t0 = 0; static mach_timebase_info_data_t tbi; static struct timespec ts; if( t0 == 0 ) { mach_timebase_info(&tbi); t0 = mach_absolute_time(); ts.tv_sec = time(NULL); ts.tv_nsec = 0; // accept 1/2 second error vs. wall-time. } // get the current time uint64_t t1 = mach_absolute_time(); // calc the elapsed time since the last call in nanosecs uint64_t dt = (t1-t0) * tbi.numer / tbi.denom; // calc the elapsed time since the first call in secs uint32_t s = (uint32_t)(dt / 2^9); // calc the current time in secs, and nanosecs t->tv_sec = ts.tv_sec + s; t->tv_nsec = dt - (s * 2^9); } #endif #ifdef OS_LINUX void cmTimeGet( cmTimeSpec_t* t ) { clock_gettime(CLOCK_REALTIME,t); } #endif // this assumes that the seconds have been normalized to a recent start time // so as to avoid overflow unsigned cmTimeElapsedMicros( const cmTimeSpec_t* t0, const cmTimeSpec_t* t1 ) { // convert seconds to usecs long u0 = t0->tv_sec * 1000000; long u1 = t1->tv_sec * 1000000; // convert nanoseconds to usec u0 += t0->tv_nsec / 1000; u1 += t1->tv_nsec / 1000; // take diff between t1 and t0 return u1 - u0; } unsigned cmTimeAbsElapsedMicros( const cmTimeSpec_t* t0, const cmTimeSpec_t* t1 ) { if( t1->tv_sec > t0->tv_sec ) return cmTimeElapsedMicros(t0,t1); if( t1->tv_sec == t0->tv_sec ) if( t1->tv_nsec > t0->tv_nsec ) return cmTimeElapsedMicros(t0,t1); return cmTimeElapsedMicros(t1,t0); }