ref: f42e53655e9a2a1b516326f6522fba88db59a81c
dir: /sys/src/cmd/astro/pdate.c/
#include "astro.h" char* month[] = { "January", "February", "March", "April", "May", "June", "July", "August", "September", "October", "November", "December", }; double dsrc(double d, Tim *t, int i) { double y; do { t->ifa[i] += 1.; y = convdate(t); } while(d >= y); do { t->ifa[i] -= 1.; y = convdate(t); } while(d < y); return d - y; } void dtsetup(double d, Tim *t) { double v; t->ifa[0] = floor(1900 + d/365.24220); t->ifa[1] = 1; t->ifa[2] = 1; t->ifa[3] = 0; t->ifa[4] = 0; t->ifa[1] = floor(1 + dsrc(d, t, 0)/30); t->ifa[2] = floor(1 + dsrc(d, t, 1)); dsrc(d, t, 2); v = (d - convdate(t)) * 24; t->ifa[3] = floor(v); t->ifa[4] = (v - t->ifa[3]) * 60; convdate(t); /* to set timezone */ } void pdate(double d) { int i; Tim t; dtsetup(d, &t); if(flags['s']) { i = t.ifa[1]; print("%s ", month[i-1]); i = t.ifa[2]; numb(i); print("..."); return; } /* year month day */ print("%4d %2d %2d", (int)t.ifa[0], (int)t.ifa[1], (int)t.ifa[2]); } void ptime(double d) { int h, m, s; char *mer; Tim t; if(flags['s']) { /* hour minute */ dtsetup(d + .5/(24*60), &t); h = t.ifa[3]; m = floor(t.ifa[4]); mer = "AM"; if(h >= 12) { mer = "PM"; h -= 12; } if(h == 0) h = 12; numb(h); if(m < 10) { if(m == 0) { print("%s exactly ...", mer); return; } print("O "); } numb(m); print("%s ...", mer); return; } /* hour minute second */ dtsetup(d, &t); h = t.ifa[3]; m = floor(t.ifa[4]); s = floor((t.ifa[4]-m) * 60); print("%.2d:%.2d:%.2d %.*s", h, m, s, utfnlen(t.tz, 3), t.tz); } char* unit[] = { "zero", "one", "two", "three", "four", "five", "six", "seven", "eight", "nine", "ten", "eleven", "twelve", "thirteen", "fourteen", "fifteen", "sixteen", "seventeen", "eighteen", "nineteen" }; char* decade[] = { "twenty", "thirty", "forty", "fifty", "sixty", "seventy", "eighty", "ninety" }; void pstime(double d) { setime(d); semi = 0; motion = 0; rad = 1.e9; lambda = 0; beta = 0; // uses lambda, beta, rad, motion // sets alpha, delta, rp helio(); // uses alpha, delta, rp // sets ra, decl, lha, decl2, az, el geo(); print(" %R %D %D %4.0f", lha, nlat, awlong, elev/3.28084); } void numb(int n) { if(n >= 100) { print("%d ", n); return; } if(n >= 20) { print("%s ", decade[n/10 - 2]); n %= 10; if(n == 0) return; } print("%s ", unit[n]); } double tzone(double y, Tim *z) { double t, l1, l2; Tm t1, t2; /* * get a rough approximation to unix mean time */ t = (y - 25567.5) * 86400; /* * if outside unix conversions, * just call it GMT */ if(t < 0 || t > 2.1e9) return y; /* * convert by both local and gmt */ t1 = *localtime((long)t); t2 = *gmtime((long)t); /* * pick up year crossings */ if(t1.yday == 0 && t2.yday > 1) t1.yday = t2.yday+1; if(t2.yday == 0 && t1.yday > 1) t2.yday = t1.yday+1; /* * convert times to days */ l1 = t1.yday + t1.hour/24. + t1.min/1440. + t1.sec/86400.; l2 = t2.yday + t2.hour/24. + t2.min/1440. + t2.sec/86400.; /* * return difference */ strncpy(z->tz, t1.zone, sizeof(z->tz)); return y + (l2 - l1); } int dmo[12] = { 0, 31, 59, 90, 120, 151, 181, 212, 243, 273, 304, 334 }; /* * input date conversion * output is done by zero crossing * on this input conversion. */ double convdate(Tim *t) { double y, d; int m; y = t->ifa[0]; m = t->ifa[1]; d = t->ifa[2]; /* * normalize the month */ while(m < 1) { m += 12; y -= 1; } while(m > 12) { m -= 12; y += 1; } /* * bc correction */ if(y < 0) y += 1; /* * normal conversion */ y += 4712; if(fmod(y, 4) == 0 && m > 2) d += 1; y = y*365 + floor((y+3)/4) + dmo[m-1] + d - 1; /* * gregorian change */ if(y > 2361232) y -= floor((y-1794167)/36524.220) - floor((y-1721117)/146100); y += t->ifa[3]/24 + t->ifa[4]/1440 - 2415020.5; /* * kitchen clock correction */ strncpy(t->tz, "GMT", sizeof(t->tz)); if(flags['k']) y = tzone(y, t); return y; }