1 /*********************************************************************** 2 * * 3 * This software is part of the ast package * 4 * Copyright (c) 1985-2008 AT&T Intellectual Property * 5 * and is licensed under the * 6 * Common Public License, Version 1.0 * 7 * by AT&T Intellectual Property * 8 * * 9 * A copy of the License is available at * 10 * http://www.opensource.org/licenses/cpl1.0.txt * 11 * (with md5 checksum 059e8cd6165cb4c31e351f2b69388fd9) * 12 * * 13 * Information and Software Systems Research * 14 * AT&T Research * 15 * Florham Park NJ * 16 * * 17 * Glenn Fowler <gsf@research.att.com> * 18 * David Korn <dgk@research.att.com> * 19 * Phong Vo <kpv@research.att.com> * 20 * * 21 ***********************************************************************/ 22 #pragma prototyped 23 /* 24 * Glenn Fowler 25 * AT&T Research 26 * 27 * Time_t conversion support 28 */ 29 30 #include <tmx.h> 31 32 #include "FEATURE/tmlib" 33 34 /* 35 * return Tm_t for t 36 * time zone and leap seconds accounted for in return value 37 */ 38 39 Tm_t* 40 tmxmake(Time_t t) 41 { 42 register struct tm* tp; 43 register Tm_leap_t* lp; 44 Time_t x; 45 time_t now; 46 int leapsec; 47 int y; 48 uint32_t n; 49 int32_t o; 50 #if TMX_FLOAT 51 Time_t z; 52 uint32_t i; 53 #endif 54 Tm_t tm; 55 56 static Tm_t ts; 57 58 tmset(tm_info.zone); 59 leapsec = 0; 60 if ((tm_info.flags & (TM_ADJUST|TM_LEAP)) == (TM_ADJUST|TM_LEAP) && (n = tmxsec(t))) 61 { 62 for (lp = &tm_data.leap[0]; n < lp->time; lp++); 63 if (lp->total) 64 { 65 if (n == lp->time && (leapsec = (lp->total - (lp+1)->total)) < 0) 66 leapsec = 0; 67 t = tmxsns(n - lp->total, tmxnsec(t)); 68 } 69 } 70 x = tmxsec(t); 71 if (tm_info.flags & TM_UTC) 72 { 73 tm.tm_zone = &tm_data.zone[2]; 74 o = 0; 75 } 76 else 77 { 78 tm.tm_zone = tm_info.zone; 79 o = 60 * tm.tm_zone->west; 80 if (x > o) 81 { 82 x -= o; 83 o = 0; 84 } 85 } 86 #if TMX_FLOAT 87 i = x / (24 * 60 * 60); 88 z = i; 89 n = x - z * (24 * 60 * 60); 90 tm.tm_sec = n % 60 + leapsec; 91 n /= 60; 92 tm.tm_min = n % 60; 93 n /= 60; 94 tm.tm_hour = n % 24; 95 #define x i 96 #else 97 tm.tm_sec = x % 60 + leapsec; 98 x /= 60; 99 tm.tm_min = x % 60; 100 x /= 60; 101 tm.tm_hour = x % 24; 102 x /= 24; 103 #endif 104 tm.tm_wday = (x + 4) % 7; 105 tm.tm_year = (400 * (x + 25202)) / 146097 + 1; 106 n = tm.tm_year - 1; 107 x -= n * 365 + n / 4 - n / 100 + (n + (1900 - 1600)) / 400 - (1970 - 1901) * 365 - (1970 - 1901) / 4; 108 tm.tm_mon = 0; 109 tm.tm_mday = x + 1; 110 tmfix(&tm); 111 n += 1900; 112 tm.tm_isdst = 0; 113 if (tm.tm_zone->daylight) 114 { 115 if ((y = tmequiv(&tm) - 1900) == tm.tm_year) 116 now = tmxsec(t); 117 else 118 { 119 Tm_t te; 120 121 te = tm; 122 te.tm_year = y; 123 now = tmxsec(tmxtime(&te, tm.tm_zone->west)); 124 } 125 if ((tp = tmlocaltime(&now)) && ((tm.tm_isdst = tp->tm_isdst) || o)) 126 { 127 tm.tm_min -= o / 60 + (tm.tm_isdst ? tm.tm_zone->dst : 0); 128 tmfix(&tm); 129 } 130 } 131 tm.tm_nsec = tmxnsec(t); 132 ts = tm; 133 return &ts; 134 } 135