/* vere/time.c ** */ #include #include #include #include #include #include #include #include #include "all.h" #include "vere/vere.h" /* u3_time_sec_in(): urbit seconds from unix time. ** ** Adjust for future leap secs! */ c3_d u3_time_sec_in(c3_w unx_w) { return 0x8000000cce9e0d80ULL + (c3_d)unx_w; } /* u3_time_sec_out(): unix time from urbit seconds. ** ** Adjust for future leap secs! */ c3_w u3_time_sec_out(c3_d urs_d) { c3_d adj_d = (urs_d - 0x8000000cce9e0d80ULL); if ( adj_d > 0xffffffffULL ) { fprintf(stderr, "Agh! It's 2106! And no one's fixed this shite!\n"); exit(1); } return (c3_w)adj_d; } /* u3_time_fsc_in(): urbit fracto-seconds from unix microseconds. */ c3_d u3_time_fsc_in(c3_w usc_w) { c3_d usc_d = usc_w; return ((usc_d * 65536ULL) / 1000000ULL) << 48ULL; } /* u3_time_fsc_out: unix microseconds from urbit fracto-seconds. */ c3_w u3_time_fsc_out(c3_d ufc_d) { return (c3_w) (((ufc_d >> 48ULL) * 1000000ULL) / 65536ULL); } /* u3_time_msc_out: unix microseconds from urbit fracto-seconds. */ c3_w u3_time_msc_out(c3_d ufc_d) { return (c3_w) (((ufc_d >> 48ULL) * 1000ULL) / 65536ULL); } /* u3_time_in_tv(): urbit time from struct timeval. */ u3_atom u3_time_in_tv(struct timeval* tim_tv) { c3_w unx_w = tim_tv->tv_sec; c3_w usc_w = tim_tv->tv_usec; c3_d cub_d[2]; cub_d[0] = u3_time_fsc_in(usc_w); cub_d[1] = u3_time_sec_in(unx_w); return u3i_chubs(2, cub_d); } /* u3_time_out_tv(): struct timeval from urbit time. */ void u3_time_out_tv(struct timeval* tim_tv, u3_noun now) { c3_d ufc_d = u3r_chub(0, now); c3_d urs_d = u3r_chub(1, now); tim_tv->tv_sec = u3_time_sec_out(urs_d); tim_tv->tv_usec = u3_time_fsc_out(ufc_d); u3z(now); } /* u3_time_in_ts(): urbit time from struct timespec. */ u3_atom u3_time_in_ts(struct timespec* tim_ts) { struct timeval tim_tv; tim_tv.tv_sec = tim_ts->tv_sec; tim_tv.tv_usec = (tim_ts->tv_nsec / 1000); return u3_time_in_tv(&tim_tv); } #if defined(U3_OS_linux) /* u3_time_t_in_ts(): urbit time from time_t. */ u3_atom u3_time_t_in_ts(time_t tim) { struct timeval tim_tv; tim_tv.tv_sec = tim; tim_tv.tv_usec = 0; return u3_time_in_tv(&tim_tv); } #endif // defined(U3_OS_linux) /* u3_time_out_ts(): struct timespec from urbit time. */ void u3_time_out_ts(struct timespec* tim_ts, u3_noun now) { struct timeval tim_tv; u3_time_out_tv(&tim_tv, now); tim_ts->tv_sec = tim_tv.tv_sec; tim_ts->tv_nsec = (tim_tv.tv_usec * 1000); } /* u3_time_gap_ms(): (wen - now) in ms. */ c3_d u3_time_gap_ms(u3_noun now, u3_noun wen) { if ( c3n == u3ka_gth(u3k(wen), u3k(now)) ) { u3z(wen); u3z(now); return 0ULL; } else { u3_noun dif = u3ka_sub(wen, now); c3_d fsc_d = u3r_chub(0, dif); c3_d sec_d = u3r_chub(1, dif); u3z(dif); return (sec_d * 1000ULL) + u3_time_msc_out(fsc_d); } } /* u3_time_gap_double(): (wen - now) in libev resolution. */ double u3_time_gap_double(u3_noun now, u3_noun wen) { mpz_t now_mp, wen_mp, dif_mp; double sec_g = (((double)(1ULL << 32ULL)) * ((double)(1ULL << 32ULL))); double gap_g, dif_g; u3r_mp(now_mp, now); u3r_mp(wen_mp, wen); mpz_init(dif_mp); mpz_sub(dif_mp, wen_mp, now_mp); u3z(now); u3z(wen); dif_g = mpz_get_d(dif_mp) / sec_g; gap_g = (dif_g > 0.0) ? dif_g : 0.0; mpz_clear(dif_mp); mpz_clear(wen_mp); mpz_clear(now_mp); return gap_g; }