/* +----------------------------------------------------------------------+ | PHP Version 5 | +----------------------------------------------------------------------+ | Copyright (c) 1997-2015 The PHP Group | +----------------------------------------------------------------------+ | This source file is subject to version 3.01 of the PHP license, | | that is bundled with this package in the file LICENSE, and is | | available through the world-wide-web at the following url: | | http://www.php.net/license/3_01.txt | | If you did not receive a copy of the PHP license and are unable to | | obtain it through the world-wide-web, please send a note to | | license@php.net so we can mail you a copy immediately. | +----------------------------------------------------------------------+ | Authors: Derick Rethans | +----------------------------------------------------------------------+ */ /* $Id$ */ #include "timelib.h" /* jan feb mrt apr may jun jul aug sep oct nov dec */ static int month_tab_leap[12] = { -1, 30, 59, 90, 120, 151, 181, 212, 243, 273, 304, 334 }; static int month_tab[12] = { 0, 31, 59, 90, 120, 151, 181, 212, 243, 273, 304, 334 }; /* dec jan feb mrt apr may jun jul aug sep oct nov dec */ static int days_in_month_leap[13] = { 31, 31, 29, 31, 30, 31, 30, 31, 31, 30, 31, 30, 31 }; static int days_in_month[13] = { 31, 31, 28, 31, 30, 31, 30, 31, 31, 30, 31, 30, 31 }; static void do_range_limit(timelib_sll start, timelib_sll end, timelib_sll adj, timelib_sll *a, timelib_sll *b) { if (*a < start) { *b -= (start - *a - 1) / adj + 1; *a += adj * ((start - *a - 1) / adj + 1); } if (*a >= end) { *b += *a / adj; *a -= adj * (*a / adj); } } static void inc_month(timelib_sll *y, timelib_sll *m) { (*m)++; if (*m > 12) { *m -= 12; (*y)++; } } static void dec_month(timelib_sll *y, timelib_sll *m) { (*m)--; if (*m < 1) { *m += 12; (*y)--; } } static void do_range_limit_days_relative(timelib_sll *base_y, timelib_sll *base_m, timelib_sll *y, timelib_sll *m, timelib_sll *d, timelib_sll invert) { timelib_sll leapyear; timelib_sll month, year; timelib_sll days; do_range_limit(1, 13, 12, base_m, base_y); year = *base_y; month = *base_m; /* printf( "S: Y%d M%d %d %d %d %d\n", year, month, *y, *m, *d, days); */ if (!invert) { while (*d < 0) { dec_month(&year, &month); leapyear = timelib_is_leap(year); days = leapyear ? days_in_month_leap[month] : days_in_month[month]; /* printf( "I Y%d M%d %d %d %d %d\n", year, month, *y, *m, *d, days); */ *d += days; (*m)--; } } else { while (*d < 0) { leapyear = timelib_is_leap(year); days = leapyear ? days_in_month_leap[month] : days_in_month[month]; /* printf( "I Y%d M%d %d %d %d %d\n", year, month, *y, *m, *d, days); */ *d += days; (*m)--; inc_month(&year, &month); } } /* printf( "E: Y%d M%d %d %d %d %d\n", year, month, *y, *m, *d, days); */ } static int do_range_limit_days(timelib_sll *y, timelib_sll *m, timelib_sll *d) { timelib_sll leapyear; timelib_sll days_this_month; timelib_sll last_month, last_year; timelib_sll days_last_month; /* can jump an entire leap year period quickly */ if (*d >= DAYS_PER_LYEAR_PERIOD || *d <= -DAYS_PER_LYEAR_PERIOD) { *y += YEARS_PER_LYEAR_PERIOD * (*d / DAYS_PER_LYEAR_PERIOD); *d -= DAYS_PER_LYEAR_PERIOD * (*d / DAYS_PER_LYEAR_PERIOD); } do_range_limit(1, 13, 12, m, y); leapyear = timelib_is_leap(*y); days_this_month = leapyear ? days_in_month_leap[*m] : days_in_month[*m]; last_month = (*m) - 1; if (last_month < 1) { last_month += 12; last_year = (*y) - 1; } else { last_year = (*y); } leapyear = timelib_is_leap(last_year); days_last_month = leapyear ? days_in_month_leap[last_month] : days_in_month[last_month]; if (*d <= 0) { *d += days_last_month; (*m)--; return 1; } if (*d > days_this_month) { *d -= days_this_month; (*m)++; return 1; } return 0; } static void do_adjust_for_weekday(timelib_time* time) { timelib_sll current_dow, difference; current_dow = timelib_day_of_week(time->y, time->m, time->d); if (time->relative.weekday_behavior == 2) { if (time->relative.weekday == 0) { time->relative.weekday = 7; } time->d -= current_dow; time->d += time->relative.weekday; return; } difference = time->relative.weekday - current_dow; if ((time->relative.d < 0 && difference < 0) || (time->relative.d >= 0 && difference <= -time->relative.weekday_behavior)) { difference += 7; } if (time->relative.weekday >= 0) { time->d += difference; } else { time->d -= (7 - (abs(time->relative.weekday) - current_dow)); } time->relative.have_weekday_relative = 0; } void timelib_do_rel_normalize(timelib_time *base, timelib_rel_time *rt) { do_range_limit(0, 60, 60, &rt->s, &rt->i); do_range_limit(0, 60, 60, &rt->i, &rt->h); do_range_limit(0, 24, 24, &rt->h, &rt->d); do_range_limit(0, 12, 12, &rt->m, &rt->y); do_range_limit_days_relative(&base->y, &base->m, &rt->y, &rt->m, &rt->d, rt->invert); do_range_limit(0, 12, 12, &rt->m, &rt->y); } void timelib_do_normalize(timelib_time* time) { if (time->s != TIMELIB_UNSET) do_range_limit(0, 60, 60, &time->s, &time->i); if (time->s != TIMELIB_UNSET) do_range_limit(0, 60, 60, &time->i, &time->h); if (time->s != TIMELIB_UNSET) do_range_limit(0, 24, 24, &time->h, &time->d); do_range_limit(1, 13, 12, &time->m, &time->y); do {} while (do_range_limit_days(&time->y, &time->m, &time->d)); do_range_limit(1, 13, 12, &time->m, &time->y); } static void do_adjust_relative(timelib_time* time) { if (time->relative.have_weekday_relative) { do_adjust_for_weekday(time); } timelib_do_normalize(time); if (time->have_relative) { time->s += time->relative.s; time->i += time->relative.i; time->h += time->relative.h; time->d += time->relative.d; time->m += time->relative.m; time->y += time->relative.y; } switch (time->relative.first_last_day_of) { case TIMELIB_SPECIAL_FIRST_DAY_OF_MONTH: /* first */ time->d = 1; break; case TIMELIB_SPECIAL_LAST_DAY_OF_MONTH: /* last */ time->d = 0; time->m++; break; } timelib_do_normalize(time); } static void do_adjust_special_weekday(timelib_time* time) { timelib_sll count, dow, rem; count = time->relative.special.amount; dow = timelib_day_of_week(time->y, time->m, time->d); /* Add increments of 5 weekdays as a week, leaving the DOW unchanged. */ time->d += (count / 5) * 7; /* Deal with the remainder. */ rem = (count % 5); if (count > 0) { if (rem == 0) { /* Head back to Friday if we stop on the weekend. */ if (dow == 0) { time->d -= 2; } else if (dow == 6) { time->d -= 1; } } else if (dow == 6) { /* We ended up on Saturday, but there's still work to do, so move * to Sunday and continue from there. */ time->d += 1; } else if (dow + rem > 5) { /* We're on a weekday, but we're going past Friday, so skip right * over the weekend. */ time->d += 2; } } else { /* Completely mirror the forward direction. This also covers the 0 * case, since if we start on the weekend, we want to move forward as * if we stopped there while going backwards. */ if (rem == 0) { if (dow == 6) { time->d += 2; } else if (dow == 0) { time->d += 1; } } else if (dow == 0) { time->d -= 1; } else if (dow + rem < 1) { time->d -= 2; } } time->d += rem; } static void do_adjust_special(timelib_time* time) { if (time->relative.have_special_relative) { switch (time->relative.special.type) { case TIMELIB_SPECIAL_WEEKDAY: do_adjust_special_weekday(time); break; } } timelib_do_normalize(time); memset(&(time->relative.special), 0, sizeof(time->relative.special)); } static void do_adjust_special_early(timelib_time* time) { if (time->relative.have_special_relative) { switch (time->relative.special.type) { case TIMELIB_SPECIAL_DAY_OF_WEEK_IN_MONTH: time->d = 1; time->m += time->relative.m; time->relative.m = 0; break; case TIMELIB_SPECIAL_LAST_DAY_OF_WEEK_IN_MONTH: time->d = 1; time->m += time->relative.m + 1; time->relative.m = 0; break; } } switch (time->relative.first_last_day_of) { case TIMELIB_SPECIAL_FIRST_DAY_OF_MONTH: /* first */ time->d = 1; break; case TIMELIB_SPECIAL_LAST_DAY_OF_MONTH: /* last */ time->d = 0; time->m++; break; } timelib_do_normalize(time); } static timelib_sll do_years(timelib_sll year) { timelib_sll i; timelib_sll res = 0; timelib_sll eras; eras = (year - 1970) / 40000; if (eras != 0) { year = year - (eras * 40000); res += (SECS_PER_ERA * eras * 100); } if (year >= 1970) { for (i = year - 1; i >= 1970; i--) { if (timelib_is_leap(i)) { res += (DAYS_PER_LYEAR * SECS_PER_DAY); } else { res += (DAYS_PER_YEAR * SECS_PER_DAY); } } } else { for (i = 1969; i >= year; i--) { if (timelib_is_leap(i)) { res -= (DAYS_PER_LYEAR * SECS_PER_DAY); } else { res -= (DAYS_PER_YEAR * SECS_PER_DAY); } } } return res; } static timelib_sll do_months(timelib_ull month, timelib_ull year) { if (timelib_is_leap(year)) { return ((month_tab_leap[month - 1] + 1) * SECS_PER_DAY); } else { return ((month_tab[month - 1]) * SECS_PER_DAY); } } static timelib_sll do_days(timelib_ull day) { return ((day - 1) * SECS_PER_DAY); } static timelib_sll do_time(timelib_ull hour, timelib_ull minute, timelib_ull second) { timelib_sll res = 0; res += hour * 3600; res += minute * 60; res += second; return res; } static timelib_sll do_adjust_timezone(timelib_time *tz, timelib_tzinfo *tzi) { switch (tz->zone_type) { case TIMELIB_ZONETYPE_OFFSET: tz->is_localtime = 1; return tz->z * 60; break; case TIMELIB_ZONETYPE_ABBR: { timelib_sll tmp; tz->is_localtime = 1; tmp = tz->z; tmp -= tz->dst * 60; tmp *= 60; return tmp; } break; case TIMELIB_ZONETYPE_ID: tzi = tz->tz_info; /* Break intentionally missing */ default: /* No timezone in struct, fallback to reference if possible */ if (tzi) { timelib_time_offset *before, *after; timelib_sll tmp; int in_transistion; tz->is_localtime = 1; before = timelib_get_time_zone_info(tz->sse, tzi); after = timelib_get_time_zone_info(tz->sse - before->offset, tzi); timelib_set_timezone(tz, tzi); in_transistion = ( ((tz->sse - after->offset) >= (after->transistion_time + (before->offset - after->offset))) && ((tz->sse - after->offset) < after->transistion_time) ); if ((before->offset != after->offset) && !in_transistion) { tmp = -after->offset; } else { tmp = -tz->z; } timelib_time_offset_dtor(before); timelib_time_offset_dtor(after); { timelib_time_offset *gmt_offset; gmt_offset = timelib_get_time_zone_info(tz->sse + tmp, tzi); tz->z = gmt_offset->offset; tz->dst = gmt_offset->is_dst; if (tz->tz_abbr) { free(tz->tz_abbr); } tz->tz_abbr = strdup(gmt_offset->abbr); timelib_time_offset_dtor(gmt_offset); } return tmp; } } return 0; } void timelib_update_ts(timelib_time* time, timelib_tzinfo* tzi) { timelib_sll res = 0; do_adjust_special_early(time); do_adjust_relative(time); do_adjust_special(time); res += do_years(time->y); res += do_months(time->m, time->y); res += do_days(time->d); res += do_time(time->h, time->i, time->s); time->sse = res; res += do_adjust_timezone(time, tzi); time->sse = res; time->sse_uptodate = 1; time->have_relative = time->relative.have_weekday_relative = time->relative.have_special_relative = 0; } #if 0 int main(void) { timelib_sll res; timelib_time time; time = timelib_strtotime("10 Feb 2005 06:07:03 PM CET"); /* 1108055223 */ printf ("%04d-%02d-%02d %02d:%02d:%02d.%-5d %+04d %1d", time.y, time.m, time.d, time.h, time.i, time.s, time.f, time.z, time.dst); if (time.have_relative) { printf ("%3dY %3dM %3dD / %3dH %3dM %3dS", time.relative.y, time.relative.m, time.relative.d, time.relative.h, time.relative.i, time.relative.s); } if (time.have_weekday_relative) { printf (" / %d", time.relative.weekday); } res = time2unixtime(&time); printf("%Ld\n", res); return 0; } #endif