/* +----------------------------------------------------------------------+ | 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" #include timelib_rel_time *timelib_diff(timelib_time *one, timelib_time *two) { timelib_rel_time *rt; timelib_time *swp; timelib_sll dst_corr = 0 ,dst_h_corr = 0, dst_m_corr = 0; timelib_time one_backup, two_backup; rt = timelib_rel_time_ctor(); rt->invert = 0; if (one->sse > two->sse) { swp = two; two = one; one = swp; rt->invert = 1; } /* Calculate correction for DST change over, but only if the TZ type is ID * and it's the same */ if (one->zone_type == 3 && two->zone_type == 3 && (strcmp(one->tz_info->name, two->tz_info->name) == 0) && (one->z != two->z)) { dst_corr = two->z - one->z; dst_h_corr = dst_corr / 3600; dst_m_corr = (dst_corr % 3600) / 60; } /* Save old TZ info */ memcpy(&one_backup, one, sizeof(one_backup)); memcpy(&two_backup, two, sizeof(two_backup)); timelib_apply_localtime(one, 0); timelib_apply_localtime(two, 0); rt->y = two->y - one->y; rt->m = two->m - one->m; rt->d = two->d - one->d; rt->h = two->h - one->h; rt->i = two->i - one->i; rt->s = two->s - one->s; if (one_backup.dst == 0 && two_backup.dst == 1 && two->sse >= one->sse + 86400 - dst_corr) { rt->h += dst_h_corr; rt->i += dst_m_corr; } rt->days = abs(floor((one->sse - two->sse - (dst_h_corr * 3600) - (dst_m_corr * 60)) / 86400)); timelib_do_rel_normalize(rt->invert ? one : two, rt); /* We need to do this after normalisation otherwise we can't get "24H" */ if (one_backup.dst == 1 && two_backup.dst == 0 && two->sse >= one->sse + 86400) { if (two->sse < one->sse + 86400 - dst_corr) { rt->d--; rt->h = 24; } else { rt->h += dst_h_corr; rt->i += dst_m_corr; } } /* Restore old TZ info */ memcpy(one, &one_backup, sizeof(one_backup)); memcpy(two, &two_backup, sizeof(two_backup)); return rt; } timelib_time *timelib_add(timelib_time *old_time, timelib_rel_time *interval) { int bias = 1; timelib_time *t = timelib_time_clone(old_time); if (interval->have_weekday_relative || interval->have_special_relative) { memcpy(&t->relative, interval, sizeof(struct timelib_rel_time)); } else { if (interval->invert) { bias = -1; } memset(&t->relative, 0, sizeof(struct timelib_rel_time)); t->relative.y = interval->y * bias; t->relative.m = interval->m * bias; t->relative.d = interval->d * bias; t->relative.h = interval->h * bias; t->relative.i = interval->i * bias; t->relative.s = interval->s * bias; } t->have_relative = 1; t->sse_uptodate = 0; timelib_update_ts(t, NULL); // printf("%lld %lld %d\n", old_time->dst, t->dst, (t->sse - old_time->sse)); /* Adjust for backwards DST changeover */ if (old_time->dst == 1 && t->dst == 0 && !interval->y && !interval->m && !interval->d) { t->sse -= old_time->z; t->sse += t->z; } timelib_update_from_sse(t); t->have_relative = 0; return t; } timelib_time *timelib_sub(timelib_time *old_time, timelib_rel_time *interval) { int bias = 1; timelib_time *t = timelib_time_clone(old_time); if (interval->invert) { bias = -1; } memset(&t->relative, 0, sizeof(struct timelib_rel_time)); t->relative.y = 0 - (interval->y * bias); t->relative.m = 0 - (interval->m * bias); t->relative.d = 0 - (interval->d * bias); t->relative.h = 0 - (interval->h * bias); t->relative.i = 0 - (interval->i * bias); t->relative.s = 0 - (interval->s * bias); t->have_relative = 1; t->sse_uptodate = 0; timelib_update_ts(t, NULL); /* Adjust for backwards DST changeover */ if (old_time->dst == 1 && t->dst == 0 && !interval->y && !interval->m && !interval->d) { t->sse -= old_time->z; t->sse += t->z; } /* Adjust for forwards DST changeover */ if (old_time->dst == 0 && t->dst == 1 && !interval->y && !interval->m && !interval->d ) { t->sse -= old_time->z; t->sse += t->z; } timelib_update_from_sse(t); t->have_relative = 0; return t; }