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Diffstat (limited to 'calendar/cal-util/cal-recur.c')
-rw-r--r-- | calendar/cal-util/cal-recur.c | 2811 |
1 files changed, 0 insertions, 2811 deletions
diff --git a/calendar/cal-util/cal-recur.c b/calendar/cal-util/cal-recur.c deleted file mode 100644 index d5ea774e9b..0000000000 --- a/calendar/cal-util/cal-recur.c +++ /dev/null @@ -1,2811 +0,0 @@ -/* -*- Mode: C; tab-width: 8; indent-tabs-mode: t; c-basic-offset: 8 -*- */ -/* - * Evolution calendar recurrence rule functions - * - * Copyright (C) 2000 Helix Code, Inc. - * - * Author: Damon Chaplin <damon@helixcode.com> - * - * This program is free software; you can redistribute it and/or modify - * it under the terms of the GNU General Public License as published by - * the Free Software Foundation; either version 2 of the License, or - * (at your option) any later version. - * - * This program is distributed in the hope that it will be useful, - * but WITHOUT ANY WARRANTY; without even the implied warranty of - * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the - * GNU General Public License for more details. - * - * You should have received a copy of the GNU General Public License - * along with this program; if not, write to the Free Software - * Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307, USA. - */ - -#include <config.h> -#include <stdlib.h> -#include <string.h> -#include <cal-util/calobj.h> -#include <cal-util/cal-recur.h> -#include <cal-util/timeutil.h> - - -/* - * Introduction to The Recurrence Generation Functions: - * - * Note: This is pretty complicated. See the iCalendar spec (RFC 2445) for - * the specification of the recurrence rules and lots of examples - * (sections 4.3.10 & 4.8.5). We also want to support the older - * vCalendar spec, though this should be easy since it is basically a - * subset of iCalendar. - * - * o An iCalendar event can have any number of recurrence rules specifying - * occurrences of the event, as well as dates & times of specific - * occurrences. It can also have any number of recurrence rules and - * specific dates & times specifying exceptions to the occurrences. - * So we first merge all the occurrences generated, eliminating any - * duplicates, then we generate all the exceptions and remove these to - * form the final set of occurrences. - * - * o There are 7 frequencies of occurrences: YEARLY, MONTHLY, WEEKLY, DAILY, - * HOURLY, MINUTELY & SECONDLY. The 'interval' property specifies the - * multiples of the frequency which we step by. We generate a 'set' of - * occurrences for each period defined by the frequency & interval. - * So for a YEARLY frequency with an interval of 3, we generate a set of - * occurrences for every 3rd year. We use complete years here - any - * generated occurrences that occur before the event's start (or after its - * end) are just discarded. - * - * o There are 8 frequency modifiers: BYMONTH, BYWEEKNO, BYYEARDAY, BYMONTHDAY, - * BYDAY, BYHOUR, BYMINUTE & BYSECOND. These can either add extra occurrences - * or filter out occurrences. For example 'FREQ=YEARLY;BYMONTH=1,2' produces - * 2 occurrences for each year rather than the default 1. And - * 'FREQ=DAILY;BYMONTH=1' filters out all occurrences except those in Jan. - * If the modifier works on periods which are less than the recurrence - * frequency, then extra occurrences are added, otherwise occurrences are - * filtered. So we have 2 functions for each modifier - one to expand events - * and the other to filter. We use a table of functions for each frequency - * which points to the appropriate function to use for each modifier. - * - * o Any number of frequency modifiers can be used in a recurrence rule. - * (Though the iCalendar spec says that BYWEEKNO can only be used in a YEARLY - * rule, and some modifiers aren't appropriate for some frequencies - e.g. - * BYMONTHDAY is not really useful in a WEEKLY frequency, and BYYEARDAY is - * not useful in a MONTHLY or WEEKLY frequency). - * The frequency modifiers are applied in the order given above. The first 5 - * modifier rules (BYMONTH, BYWEEKNO, BYYEARDAY, BYMONTHDAY & BYDAY) all - * produce the days on which the occurrences take place, and so we have to - * compute some of these in parallel rather than sequentially, or we may end - * up with too many days. - * - * o Note that some expansion functions may produce days which are invalid, - * e.g. 31st September, 30th Feb. These invalid days are removed before the - * BYHOUR, BYMINUTE & BYSECOND modifier functions are applied. - * - * o After the set of occurrences for the frequency interval are generated, - * the BYSETPOS property is used to select which of the occurrences are - * finally output. If BYSETPOS is not specified then all the occurrences are - * output. - */ - - -/* This is what we use to pass to all the filter functions. */ -typedef struct _RecurData RecurData; -struct _RecurData { - CalObjRecurrence *recur; - - /* This is used for the WEEKLY frequency. */ - gint weekday; - - /* This is used for fast lookup in BYMONTH filtering. */ - guint8 months[12]; - - /* This is used for fast lookup in BYYEARDAY filtering. */ - guint8 yeardays[367], neg_yeardays[367]; /* Days are 1 - 366. */ - - /* This is used for fast lookup in BYMONTHDAY filtering. */ - guint8 monthdays[32], neg_monthdays[32]; /* Days are 1 to 31. */ - - /* This is used for fast lookup in BYDAY filtering. */ - guint8 weekdays[7]; - - /* This is used for fast lookup in BYHOUR filtering. */ - guint8 hours[24]; - - /* This is used for fast lookup in BYMINUTE filtering. */ - guint8 minutes[60]; - - /* This is used for fast lookup in BYSECOND filtering. */ - guint8 seconds[61]; -}; - - - -typedef gboolean (*CalObjFindStartFn) (CalObjTime *event_start, - CalObjTime *event_end, - RecurData *recur_data, - CalObjTime *interval_start, - CalObjTime *interval_end, - CalObjTime *cotime); -typedef gboolean (*CalObjFindNextFn) (CalObjTime *cotime, - CalObjTime *event_end, - RecurData *recur_data, - CalObjTime *interval_end); -typedef GArray* (*CalObjFilterFn) (RecurData *recur_data, - GArray *occs); - -typedef struct _CalObjRecurVTable CalObjRecurVTable; -struct _CalObjRecurVTable { - CalObjFindStartFn find_start_position; - CalObjFindNextFn find_next_position; - - CalObjFilterFn bymonth_filter; - CalObjFilterFn byweekno_filter; - CalObjFilterFn byyearday_filter; - CalObjFilterFn bymonthday_filter; - CalObjFilterFn byday_filter; - CalObjFilterFn byhour_filter; - CalObjFilterFn byminute_filter; - CalObjFilterFn bysecond_filter; -}; - - -/* This is used to specify which parts of the CalObjTime to compare in - cal_obj_time_compare(). */ -typedef enum { - CALOBJ_YEAR, - CALOBJ_MONTH, - CALOBJ_DAY, - CALOBJ_HOUR, - CALOBJ_MINUTE, - CALOBJ_SECOND -} CalObjTimeComparison; - -static void cal_object_compute_duration (CalObjTime *start, - CalObjTime *end, - gint *days, - gint *seconds); -static gboolean cal_object_generate_events_for_year (iCalObject *ico, - CalObjTime *event_start, - CalObjTime *interval_start, - CalObjTime *interval_end, - time_t interval_start_time, - time_t interval_end_time, - gint duration_days, - gint duration_seconds, - calendarfn cb, - void *closure); - -static GArray* cal_obj_generate_set_yearly (RecurData *recur_data, - CalObjRecurVTable *vtable, - CalObjTime *occ); -static GArray* cal_obj_generate_set_monthly (RecurData *recur_data, - CalObjRecurVTable *vtable, - CalObjTime *occ); -static GArray* cal_obj_generate_set_default (RecurData *recur_data, - CalObjRecurVTable *vtable, - CalObjTime *occ); - - -static CalObjRecurVTable* cal_obj_get_vtable (CalObjRecurType recur_type); -static void cal_obj_initialize_recur_data (RecurData *recur_data, - CalObjRecurrence *recur, - CalObjTime *event_start); -static void cal_obj_sort_occurrences (GArray *occs); -static gint cal_obj_time_compare_func (const void *arg1, - const void *arg2); -static void cal_obj_remove_duplicates_and_invalid_dates (GArray *occs); -static void cal_obj_remove_exceptions (GArray *occs, - GArray *ex_occs); -static GArray* cal_obj_bysetpos_filter (CalObjRecurrence *recur, - GArray *occs); - - -static gboolean cal_obj_yearly_find_start_position (CalObjTime *event_start, - CalObjTime *event_end, - RecurData *recur_data, - CalObjTime *interval_start, - CalObjTime *interval_end, - CalObjTime *cotime); -static gboolean cal_obj_yearly_find_next_position (CalObjTime *cotime, - CalObjTime *event_end, - RecurData *recur_data, - CalObjTime *interval_end); - -static gboolean cal_obj_monthly_find_start_position (CalObjTime *event_start, - CalObjTime *event_end, - RecurData *recur_data, - CalObjTime *interval_start, - CalObjTime *interval_end, - CalObjTime *cotime); -static gboolean cal_obj_monthly_find_next_position (CalObjTime *cotime, - CalObjTime *event_end, - RecurData *recur_data, - CalObjTime *interval_end); - -static gboolean cal_obj_weekly_find_start_position (CalObjTime *event_start, - CalObjTime *event_end, - RecurData *recur_data, - CalObjTime *interval_start, - CalObjTime *interval_end, - CalObjTime *cotime); -static gboolean cal_obj_weekly_find_next_position (CalObjTime *cotime, - CalObjTime *event_end, - RecurData *recur_data, - CalObjTime *interval_end); - -static gboolean cal_obj_daily_find_start_position (CalObjTime *event_start, - CalObjTime *event_end, - RecurData *recur_data, - CalObjTime *interval_start, - CalObjTime *interval_end, - CalObjTime *cotime); -static gboolean cal_obj_daily_find_next_position (CalObjTime *cotime, - CalObjTime *event_end, - RecurData *recur_data, - CalObjTime *interval_end); - -static gboolean cal_obj_hourly_find_start_position (CalObjTime *event_start, - CalObjTime *event_end, - RecurData *recur_data, - CalObjTime *interval_start, - CalObjTime *interval_end, - CalObjTime *cotime); -static gboolean cal_obj_hourly_find_next_position (CalObjTime *cotime, - CalObjTime *event_end, - RecurData *recur_data, - CalObjTime *interval_end); - -static gboolean cal_obj_minutely_find_start_position (CalObjTime *event_start, - CalObjTime *event_end, - RecurData *recur_data, - CalObjTime *interval_start, - CalObjTime *interval_end, - CalObjTime *cotime); -static gboolean cal_obj_minutely_find_next_position (CalObjTime *cotime, - CalObjTime *event_end, - RecurData *recur_data, - CalObjTime *interval_end); - -static gboolean cal_obj_secondly_find_start_position (CalObjTime *event_start, - CalObjTime *event_end, - RecurData *recur_data, - CalObjTime *interval_start, - CalObjTime *interval_end, - CalObjTime *cotime); -static gboolean cal_obj_secondly_find_next_position (CalObjTime *cotime, - CalObjTime *event_end, - RecurData *recur_data, - CalObjTime *interval_end); - -static GArray* cal_obj_bymonth_expand (RecurData *recur_data, - GArray *occs); -static GArray* cal_obj_bymonth_filter (RecurData *recur_data, - GArray *occs); -static GArray* cal_obj_byweekno_expand (RecurData *recur_data, - GArray *occs); -#if 0 -/* This isn't used at present. */ -static GArray* cal_obj_byweekno_filter (RecurData *recur_data, - GArray *occs); -#endif -static GArray* cal_obj_byyearday_expand (RecurData *recur_data, - GArray *occs); -static GArray* cal_obj_byyearday_filter (RecurData *recur_data, - GArray *occs); -static GArray* cal_obj_bymonthday_expand (RecurData *recur_data, - GArray *occs); -static GArray* cal_obj_bymonthday_filter (RecurData *recur_data, - GArray *occs); -static GArray* cal_obj_byday_expand_yearly (RecurData *recur_data, - GArray *occs); -static GArray* cal_obj_byday_expand_monthly (RecurData *recur_data, - GArray *occs); -static GArray* cal_obj_byday_expand_weekly (RecurData *recur_data, - GArray *occs); -static GArray* cal_obj_byday_filter (RecurData *recur_data, - GArray *occs); -static GArray* cal_obj_byhour_expand (RecurData *recur_data, - GArray *occs); -static GArray* cal_obj_byhour_filter (RecurData *recur_data, - GArray *occs); -static GArray* cal_obj_byminute_expand (RecurData *recur_data, - GArray *occs); -static GArray* cal_obj_byminute_filter (RecurData *recur_data, - GArray *occs); -static GArray* cal_obj_bysecond_expand (RecurData *recur_data, - GArray *occs); -static GArray* cal_obj_bysecond_filter (RecurData *recur_data, - GArray *occs); - -static void cal_obj_time_add_months (CalObjTime *cotime, - gint months); -static void cal_obj_time_add_days (CalObjTime *cotime, - gint days); -static void cal_obj_time_subtract_days (CalObjTime *cotime, - gint days); -static void cal_obj_time_add_hours (CalObjTime *cotime, - gint hours); -static void cal_obj_time_add_minutes (CalObjTime *cotime, - gint minutes); -static void cal_obj_time_add_seconds (CalObjTime *cotime, - gint seconds); -static gint cal_obj_time_compare (CalObjTime *cotime1, - CalObjTime *cotime2, - CalObjTimeComparison type); -static gint cal_obj_time_weekday (CalObjTime *cotime, - CalObjRecurrence *recur); -static gint cal_obj_time_day_of_year (CalObjTime *cotime); -static void cal_obj_time_find_first_week (CalObjTime *cotime, - RecurData *recur_data); -static void cal_object_time_from_time (CalObjTime *cotime, - time_t t); - - -CalObjRecurVTable cal_obj_yearly_vtable = { - cal_obj_yearly_find_start_position, - cal_obj_yearly_find_next_position, - - cal_obj_bymonth_expand, - cal_obj_byweekno_expand, - cal_obj_byyearday_expand, - cal_obj_bymonthday_expand, - cal_obj_byday_expand_yearly, - cal_obj_byhour_expand, - cal_obj_byminute_expand, - cal_obj_bysecond_expand -}; - -CalObjRecurVTable cal_obj_monthly_vtable = { - cal_obj_monthly_find_start_position, - cal_obj_monthly_find_next_position, - - cal_obj_bymonth_filter, - NULL, /* BYWEEKNO is only applicable to YEARLY frequency. */ - NULL, /* BYYEARDAY is not useful in a MONTHLY frequency. */ - cal_obj_bymonthday_expand, - cal_obj_byday_expand_monthly, - cal_obj_byhour_expand, - cal_obj_byminute_expand, - cal_obj_bysecond_expand -}; - -CalObjRecurVTable cal_obj_weekly_vtable = { - cal_obj_weekly_find_start_position, - cal_obj_weekly_find_next_position, - - cal_obj_bymonth_filter, - NULL, /* BYWEEKNO is only applicable to YEARLY frequency. */ - NULL, /* BYYEARDAY is not useful in a WEEKLY frequency. */ - NULL, /* BYMONTHDAY is not useful in a WEEKLY frequency. */ - cal_obj_byday_expand_weekly, - cal_obj_byhour_expand, - cal_obj_byminute_expand, - cal_obj_bysecond_expand -}; - -CalObjRecurVTable cal_obj_daily_vtable = { - cal_obj_daily_find_start_position, - cal_obj_daily_find_next_position, - - cal_obj_bymonth_filter, - NULL, /* BYWEEKNO is only applicable to YEARLY frequency. */ - cal_obj_byyearday_filter, - cal_obj_bymonthday_filter, - cal_obj_byday_filter, - cal_obj_byhour_expand, - cal_obj_byminute_expand, - cal_obj_bysecond_expand -}; - -CalObjRecurVTable cal_obj_hourly_vtable = { - cal_obj_hourly_find_start_position, - cal_obj_hourly_find_next_position, - - cal_obj_bymonth_filter, - NULL, /* BYWEEKNO is only applicable to YEARLY frequency. */ - cal_obj_byyearday_filter, - cal_obj_bymonthday_filter, - cal_obj_byday_filter, - cal_obj_byhour_filter, - cal_obj_byminute_expand, - cal_obj_bysecond_expand -}; - -CalObjRecurVTable cal_obj_minutely_vtable = { - cal_obj_minutely_find_start_position, - cal_obj_minutely_find_next_position, - - cal_obj_bymonth_filter, - NULL, /* BYWEEKNO is only applicable to YEARLY frequency. */ - cal_obj_byyearday_filter, - cal_obj_bymonthday_filter, - cal_obj_byday_filter, - cal_obj_byhour_filter, - cal_obj_byminute_filter, - cal_obj_bysecond_expand -}; - -CalObjRecurVTable cal_obj_secondly_vtable = { - cal_obj_secondly_find_start_position, - cal_obj_secondly_find_next_position, - - cal_obj_bymonth_filter, - NULL, /* BYWEEKNO is only applicable to YEARLY frequency. */ - cal_obj_byyearday_filter, - cal_obj_bymonthday_filter, - cal_obj_byday_filter, - cal_obj_byhour_filter, - cal_obj_byminute_filter, - cal_obj_bysecond_filter -}; - - - -/* - * Calls the given callback function for each occurrence of the event between - * the given start and end times. If end is 0 it continues until the event - * ends or forever if the event has an infinite recurrence rule. - * If the callback routine return 0 the occurrence generation stops. - * - * NOTE: This could replace ical_object_generate_events() eventually. - */ -void -cal_object_generate_events (iCalObject *ico, - time_t start, - time_t end, - calendarfn cb, - void *closure) -{ - CalObjTime interval_start, interval_end, event_start; - CalObjTime chunk_start, chunk_end; - gint days, seconds, year; - - /* If there is no recurrence, just call the callback if the event - intersects the given interval. */ - if (!ico->recur) { - if ((end && ico->dtstart < end && ico->dtend > start) - || (end == 0 && ico->dtend > start)) { - (* cb) (ico, ico->dtstart, ico->dtend, closure); - } - return; - } - - /* Convert the interval start & end to CalObjTime. */ - cal_object_time_from_time (&interval_start, start); - cal_object_time_from_time (&interval_end, end); - - cal_object_time_from_time (&event_start, ico->dtstart); - - /* Calculate the duration of the event, which we use for all - occurrences. We can't just subtract start from end since that may - be affected by daylight-saving time. We also don't want to just - use the number of seconds, since leap seconds will then cause a - problem. So we want a value of days + seconds. */ - cal_object_compute_duration (&interval_start, &interval_end, - &days, &seconds); - - /* Expand the recurrence for each year between start & end, or until - the callback returns 0 if end is 0. */ - for (year = interval_start.year; year <= interval_end.year; year++) { - chunk_start = interval_start; - chunk_start.year = year; - chunk_end = interval_end; - chunk_end.year = year; - - if (year != interval_start.year) { - chunk_start.month = 0; - chunk_start.day = 0; - chunk_start.hour = 0; - chunk_start.minute = 0; - chunk_start.second = 0; - } - if (year != interval_end.year) { - chunk_end.year++; - chunk_end.month = 0; - chunk_end.day = 0; - chunk_end.hour = 0; - chunk_end.minute = 0; - chunk_end.second = 0; - } - - if (!cal_object_generate_events_for_year (ico, &event_start, - &interval_start, - &interval_end, - start, end, - days, seconds, - cb, closure)) - break; - } -} - - - -static gboolean -cal_object_generate_events_for_year (iCalObject *ico, - CalObjTime *event_start, - CalObjTime *interval_start, - CalObjTime *interval_end, - time_t interval_start_time, - time_t interval_end_time, - gint duration_days, - gint duration_seconds, - calendarfn cb, - void *closure) -{ - GArray *occs, *ex_occs, *tmp_occs; - CalObjTime cotime, *occ; - CalObjRecurrence *recur; - GList *rrules = NULL, *rdates = NULL, *exrules = NULL, *exdates = NULL; - GList *elem; - gint i, status; - time_t occ_time, start_time, end_time; - struct tm start_tm, end_tm; - - occs = g_array_new (FALSE, FALSE, sizeof (CalObjTime)); - ex_occs = g_array_new (FALSE, FALSE, sizeof (CalObjTime)); - - - /* Expand each of the recurrence rules. */ - for (elem = rrules; elem; elem = elem->next) { - recur = elem->data; - tmp_occs = cal_obj_expand_recurrence (event_start, recur, - interval_start, - interval_end); - g_array_append_vals (occs, tmp_occs->data, tmp_occs->len); - g_array_free (tmp_occs, TRUE); - } - - /* Add on specific occurrence dates. */ - for (elem = rdates; elem; elem = elem->next) { - occ_time = (*(time_t*)elem->data); - cal_object_time_from_time (&cotime, occ_time); - g_array_append_val (occs, cotime); - } - - /* Expand each of the exception rules. */ - for (elem = exrules; elem; elem = elem->next) { - recur = elem->data; - tmp_occs = cal_obj_expand_recurrence (event_start, recur, - interval_start, - interval_end); - g_array_append_vals (ex_occs, tmp_occs->data, tmp_occs->len); - g_array_free (tmp_occs, TRUE); - } - - /* Add on specific exception dates. */ - for (elem = exdates; elem; elem = elem->next) { - occ_time = (*(time_t*)elem->data); - cal_object_time_from_time (&cotime, occ_time); - g_array_append_val (ex_occs, cotime); - } - - - /* Sort both arrays. */ - cal_obj_sort_occurrences (occs); - cal_obj_sort_occurrences (ex_occs); - - /* Create the final array, by removing the exceptions from the - occurrences, and removing any duplicates. */ - cal_obj_remove_exceptions (occs, ex_occs); - - - /* Call the callback for each occurrence. If it returns 0 we break - out of the loop. */ - for (i = 0; i < occs->len; i++) { - /* Convert each CalObjTime into a start & end time_t, and - check it is within the bounds of the event & interval. */ - occ = &g_array_index (occs, CalObjTime, i); - - start_tm.tm_year = occ->year - 1900; - start_tm.tm_mon = occ->month; - start_tm.tm_mday = occ->day; - start_tm.tm_hour = occ->hour; - start_tm.tm_min = occ->minute; - start_tm.tm_sec = occ->second; - start_time = mktime (&start_tm); - - if (start_time < ico->dtstart - || start_time >= interval_end_time) - continue; - - cal_obj_time_add_days (occ, duration_days); - cal_obj_time_add_seconds (occ, duration_seconds); - - end_tm.tm_year = occ->year - 1900; - end_tm.tm_mon = occ->month; - end_tm.tm_mday = occ->day; - end_tm.tm_hour = occ->hour; - end_tm.tm_min = occ->minute; - end_tm.tm_sec = occ->second; - end_time = mktime (&end_tm); - - if (end_time < interval_start_time) - continue; - - status = (*cb) (ico, start_time, end_time, closure); - if (status == 0) - return FALSE; - } - - return TRUE; -} - - - -static void -cal_object_compute_duration (CalObjTime *start, - CalObjTime *end, - gint *days, - gint *seconds) -{ - GDate start_date, end_date; - gint start_seconds, end_seconds; - - g_date_clear (&start_date, 1); - g_date_clear (&end_date, 1); - g_date_set_dmy (&start_date, start->day, start->month + 1, - start->year); - g_date_set_dmy (&end_date, end->day, end->month + 1, - end->year); - - *days = g_date_julian (&end_date) - g_date_julian (&start_date); - start_seconds = start->hour * 3600 + start->minute * 60 - + start->second; - end_seconds = end->hour * 3600 + end->minute * 60 + end->second; - - *seconds = end_seconds - start_seconds; - if (*seconds < 0) { - *days = *days - 1; - *seconds += 24 * 60 * 60; - } -} - - -/* Returns an unsorted GArray of CalObjTime's resulting from expanding the - given recurrence rule within the given interval. Note that it doesn't - clip the generated occurrences to the interval, i.e. if the interval - starts part way through the year this function still returns all the - occurrences for the year. Clipping is done later. */ -GArray* -cal_obj_expand_recurrence (CalObjTime *event_start, - CalObjRecurrence *recur, - CalObjTime *interval_start, - CalObjTime *interval_end) -{ - CalObjRecurVTable *vtable; - CalObjTime *event_end = NULL, event_end_cotime; - RecurData recur_data; - CalObjTime occ, *cotime; - GArray *all_occs, *occs; - gint len; - - vtable = cal_obj_get_vtable (recur->type); - - /* This is the resulting array of CalObjTime elements. */ - all_occs = g_array_new (FALSE, FALSE, sizeof (CalObjTime)); - - /* Calculate some useful data such as some fast lookup tables. */ - cal_obj_initialize_recur_data (&recur_data, recur, event_start); - - /* Compute the event_end, if the recur's enddate is set. */ - if (recur->enddate) { - cal_object_time_from_time (&event_end_cotime, - recur->enddate); - event_end = &event_end_cotime; - } - - /* Get the first period based on the frequency and the interval that - intersects the interval between start and end. */ - if ((*vtable->find_start_position) (event_start, event_end, - &recur_data, - interval_start, interval_end, - &occ)) - return all_occs; - - /* Loop until the event ends or we go past the end of the required - interval. */ - for (;;) { - /* Generate the set of occurrences for this period. */ - switch (recur->type) { - case CAL_RECUR_YEARLY: - occs = cal_obj_generate_set_yearly (&recur_data, - vtable, &occ); - break; - case CAL_RECUR_MONTHLY: - occs = cal_obj_generate_set_monthly (&recur_data, - vtable, &occ); - break; - default: - occs = cal_obj_generate_set_default (&recur_data, - vtable, &occ); - break; - } - - /* Sort the occurrences and remove duplicates. */ - cal_obj_sort_occurrences (occs); - cal_obj_remove_duplicates_and_invalid_dates (occs); - - /* Apply the BYSETPOS property. */ - occs = cal_obj_bysetpos_filter (recur, occs); - - /* Remove any occs after event_end. */ - len = occs->len - 1; - if (event_end) { - while (len >= 0) { - cotime = &g_array_index (occs, CalObjTime, - len); - if (cal_obj_time_compare_func (cotime, - event_end) <= 0) - break; - len--; - } - } - - /* Add the occurrences onto the main array. */ - if (len >= 0) - g_array_append_vals (all_occs, occs->data, len + 1); - - g_array_free (occs, TRUE); - - /* Skip to the next period, or exit the loop if finished. */ - if ((*vtable->find_next_position) (&occ, event_end, - &recur_data, interval_end)) - break; - } - - return all_occs; -} - - -static GArray* -cal_obj_generate_set_yearly (RecurData *recur_data, - CalObjRecurVTable *vtable, - CalObjTime *occ) -{ - CalObjRecurrence *recur = recur_data->recur; - GArray *occs_arrays[4], *occs, *occs2; - gint num_occs_arrays = 0, i; - - /* This is a bit complicated, since the iCalendar spec says that - several BYxxx modifiers can be used simultaneously. So we have to - be quite careful when determining the days of the occurrences. - The BYHOUR, BYMINUTE & BYSECOND modifiers are no problem at all. - - The modifiers we have to worry about are: BYMONTH, BYWEEKNO, - BYYEARDAY, BYMONTHDAY & BYDAY. We can't do these sequentially - since each filter will mess up the results of the previous one. - But they aren't all completely independant, e.g. BYMONTHDAY and - BYDAY are related to BYMONTH, and BYDAY is related to BYWEEKNO. - - BYDAY & BYMONTHDAY can also be applied independently, which makes - it worse. So we assume that if BYMONTH or BYWEEKNO is used, then - the BYDAY modifier applies to those, else it is applied - independantly. - - We expand the occurrences in parallel into the occs_arrays[] array, - and then merge them all into one GArray before expanding BYHOUR, - BYMINUTE & BYSECOND. */ - - if (recur->bymonth) { - occs = g_array_new (FALSE, FALSE, sizeof (CalObjTime)); - g_array_append_vals (occs, occ, 1); - - occs = (*vtable->bymonth_filter) (recur_data, occs); - - /* If BYMONTHDAY & BYDAY are both set we need to expand them - in parallel and add the results. */ - if (recur->bymonthday && recur->byday) { - /* Copy the occs array. */ - occs2 = g_array_new (FALSE, FALSE, - sizeof (CalObjTime)); - g_array_append_vals (occs2, occs->data, occs->len); - - occs = (*vtable->bymonthday_filter) (recur_data, occs); - /* Note that we explicitly call the monthly version - of the BYDAY expansion filter. */ - occs2 = cal_obj_byday_expand_monthly (recur_data, - occs2); - - /* Add the 2 resulting arrays together. */ - g_array_append_vals (occs, occs2->data, occs2->len); - g_array_free (occs2, TRUE); - } else { - occs = (*vtable->bymonthday_filter) (recur_data, occs); - /* Note that we explicitly call the monthly version - of the BYDAY expansion filter. */ - occs = cal_obj_byday_expand_monthly (recur_data, occs); - } - - occs_arrays[num_occs_arrays++] = occs; - } - - if (recur->byweekno) { - occs = g_array_new (FALSE, FALSE, sizeof (CalObjTime)); - g_array_append_vals (occs, occ, 1); - - occs = (*vtable->byweekno_filter) (recur_data, occs); - /* Note that we explicitly call the weekly version of the - BYDAY expansion filter. */ - occs = cal_obj_byday_expand_weekly (recur_data, occs); - - occs_arrays[num_occs_arrays++] = occs; - } - - if (recur->byyearday) { - occs = g_array_new (FALSE, FALSE, sizeof (CalObjTime)); - g_array_append_vals (occs, occ, 1); - - occs = (*vtable->byyearday_filter) (recur_data, occs); - - occs_arrays[num_occs_arrays++] = occs; - } - - /* If BYMONTHDAY is set, and BYMONTH is not set, we need to - expand BYMONTHDAY independantly. */ - if (recur->bymonthday && !recur->bymonth) { - occs = g_array_new (FALSE, FALSE, sizeof (CalObjTime)); - g_array_append_vals (occs, occ, 1); - - occs = (*vtable->bymonthday_filter) (recur_data, occs); - - occs_arrays[num_occs_arrays++] = occs; - } - - /* If BYDAY is set, and BYMONTH and BYWEEKNO are not set, we need to - expand BYDAY independantly. */ - if (recur->byday && !recur->bymonth && !recur->byweekno) { - occs = g_array_new (FALSE, FALSE, sizeof (CalObjTime)); - g_array_append_vals (occs, occ, 1); - - occs = (*vtable->byday_filter) (recur_data, occs); - - occs_arrays[num_occs_arrays++] = occs; - } - - /* Add all the arrays together. */ - occs = occs_arrays[0]; - for (i = 1; i < num_occs_arrays; i++) { - occs2 = occs_arrays[i]; - g_array_append_vals (occs, occs2->data, occs2->len); - g_array_free (occs2, TRUE); - } - - /* Now expand BYHOUR, BYMINUTE & BYSECOND. */ - occs = (*vtable->byhour_filter) (recur_data, occs); - occs = (*vtable->byminute_filter) (recur_data, occs); - occs = (*vtable->bysecond_filter) (recur_data, occs); - - return occs; -} - - -static GArray* -cal_obj_generate_set_monthly (RecurData *recur_data, - CalObjRecurVTable *vtable, - CalObjTime *occ) -{ - GArray *occs, *occs2; - - /* We start with just the one time in each set. */ - occs = g_array_new (FALSE, FALSE, sizeof (CalObjTime)); - g_array_append_vals (occs, occ, 1); - - occs = (*vtable->bymonth_filter) (recur_data, occs); - - /* We need to combine the output of BYMONTHDAY & BYDAY, by doing them - in parallel rather than sequentially. If we did them sequentially - then we would lose the occurrences generated by BYMONTHDAY, and - instead have repetitions of the occurrences from BYDAY. */ - if (recur_data->recur->bymonthday && recur_data->recur->byday) { - occs2 = g_array_new (FALSE, FALSE, sizeof (CalObjTime)); - g_array_append_vals (occs2, occs->data, occs->len); - - occs = (*vtable->bymonthday_filter) (recur_data, occs); - occs2 = (*vtable->byday_filter) (recur_data, occs2); - - g_array_append_vals (occs, occs2->data, occs2->len); - g_array_free (occs2, TRUE); - } else { - occs = (*vtable->bymonthday_filter) (recur_data, occs); - occs = (*vtable->byday_filter) (recur_data, occs); - } - - occs = (*vtable->byhour_filter) (recur_data, occs); - occs = (*vtable->byminute_filter) (recur_data, occs); - occs = (*vtable->bysecond_filter) (recur_data, occs); - - return occs; -} - - -static GArray* -cal_obj_generate_set_default (RecurData *recur_data, - CalObjRecurVTable *vtable, - CalObjTime *occ) -{ - GArray *occs; -#if 0 - g_print ("Generating set for %i/%i/%i %02i:%02i:%02i\n", - occ->day, occ->month, occ->year, occ->hour, occ->minute, - occ->second); -#endif - /* We start with just the one time in the set. */ - occs = g_array_new (FALSE, FALSE, sizeof (CalObjTime)); - g_array_append_vals (occs, occ, 1); - - occs = (*vtable->bymonth_filter) (recur_data, occs); - if (vtable->byweekno_filter) - occs = (*vtable->byweekno_filter) (recur_data, occs); - if (vtable->byyearday_filter) - occs = (*vtable->byyearday_filter) (recur_data, occs); - if (vtable->bymonthday_filter) - occs = (*vtable->bymonthday_filter) (recur_data, occs); - occs = (*vtable->byday_filter) (recur_data, occs); - - occs = (*vtable->byhour_filter) (recur_data, occs); - occs = (*vtable->byminute_filter) (recur_data, occs); - occs = (*vtable->bysecond_filter) (recur_data, occs); - - return occs; -} - - - -/* Returns the function table corresponding to the recurrence frequency. */ -static CalObjRecurVTable* -cal_obj_get_vtable (CalObjRecurType recur_type) -{ - switch (recur_type) { - case CAL_RECUR_YEARLY: - return &cal_obj_yearly_vtable; - case CAL_RECUR_MONTHLY: - return &cal_obj_monthly_vtable; - case CAL_RECUR_WEEKLY: - return &cal_obj_weekly_vtable; - case CAL_RECUR_DAILY: - return &cal_obj_daily_vtable; - case CAL_RECUR_HOURLY: - return &cal_obj_hourly_vtable; - case CAL_RECUR_MINUTELY: - return &cal_obj_minutely_vtable; - case CAL_RECUR_SECONDLY: - return &cal_obj_secondly_vtable; - } - return NULL; -} - - -/* This creates a number of fast lookup tables used when filtering with the - modifier properties BYMONTH, BYYEARDAY etc. */ -static void -cal_obj_initialize_recur_data (RecurData *recur_data, - CalObjRecurrence *recur, - CalObjTime *event_start) -{ - GList *elem; - gint month, yearday, monthday, weekday, week_num, hour, minute, second; - - /* Clear the entire RecurData. */ - memset (recur_data, 0, sizeof (RecurData)); - - recur_data->recur = recur; - - /* Set the weekday, used for the WEEKLY frequency and the BYWEEKNO - modifier. */ - recur_data->weekday = cal_obj_time_weekday (event_start, recur); - - /* Create an array of months from bymonths for fast lookup. */ - elem = recur->bymonth; - while (elem) { - month = GPOINTER_TO_INT (elem->data); - recur_data->months[month] = 1; - elem = elem->next; - } - - /* Create an array of yeardays from byyearday for fast lookup. - We create a second array to handle the negative values. The first - element there corresponds to the last day of the year. */ - elem = recur->byyearday; - while (elem) { - yearday = GPOINTER_TO_INT (elem->data); - if (yearday >= 0) - recur_data->yeardays[yearday] = 1; - else - recur_data->neg_yeardays[-yearday] = 1; - elem = elem->next; - } - - /* Create an array of monthdays from bymonthday for fast lookup. - We create a second array to handle the negative values. The first - element there corresponds to the last day of the month. */ - elem = recur->bymonthday; - while (elem) { - monthday = GPOINTER_TO_INT (elem->data); - if (monthday >= 0) - recur_data->monthdays[monthday] = 1; - else - recur_data->neg_monthdays[-monthday] = 1; - elem = elem->next; - } - - /* Create an array of weekdays from byday for fast lookup. */ - elem = recur->byday; - while (elem) { - weekday = GPOINTER_TO_INT (elem->data); - elem = elem->next; - /* The week number is not used when filtering. */ - week_num = GPOINTER_TO_INT (elem->data); - elem = elem->next; - - recur_data->weekdays[weekday] = 1; - } - - /* Create an array of hours from byhour for fast lookup. */ - elem = recur->byhour; - while (elem) { - hour = GPOINTER_TO_INT (elem->data); - recur_data->hours[hour] = 1; - elem = elem->next; - } - - /* Create an array of minutes from byminutes for fast lookup. */ - elem = recur->byminute; - while (elem) { - minute = GPOINTER_TO_INT (elem->data); - recur_data->minutes[minute] = 1; - elem = elem->next; - } - - /* Create an array of seconds from byseconds for fast lookup. */ - elem = recur->bysecond; - while (elem) { - second = GPOINTER_TO_INT (elem->data); - recur_data->seconds[second] = 1; - elem = elem->next; - } -} - - -static void -cal_obj_sort_occurrences (GArray *occs) -{ - qsort (occs->data, occs->len, sizeof (CalObjTime), - cal_obj_time_compare_func); -} - - -static void -cal_obj_remove_duplicates_and_invalid_dates (GArray *occs) -{ - static const int days_in_month[12] = { - 31, 28, 31, 30, 31, 30, 31, 31, 30, 31, 30, 31 - }; - - CalObjTime *occ, *prev_occ = NULL; - gint len, i, j = 0, year, month, days; - gboolean keep_occ; - - len = occs->len; - for (i = 0; i < len; i++) { - occ = &g_array_index (occs, CalObjTime, i); - keep_occ = TRUE; - - if (prev_occ && cal_obj_time_compare_func (occ, - prev_occ) == 0) - keep_occ = FALSE; - - year = occ->year; - month = occ->month; - days = days_in_month[occ->month]; - /* If it is february and a leap year, add a day. */ - if (month == 1 && (year % 4 == 0 - && (year % 100 != 0 - || year % 400 == 0))) - days++; - if (occ->day > days) - keep_occ = FALSE; - - if (keep_occ) { - if (i != j) - g_array_index (occs, CalObjTime, j) - = g_array_index (occs, CalObjTime, i); - j++; - } - - prev_occ = occ; - } - - g_array_set_size (occs, j); -} - - -/* Removes the exceptions from the ex_occs array from the occurrences in the - occs array, and removes any duplicates. Both arrays are sorted. */ -static void -cal_obj_remove_exceptions (GArray *occs, - GArray *ex_occs) -{ - CalObjTime *occ, *prev_occ = NULL, *ex_occ; - gint i, j = 0, cmp, ex_index, occs_len, ex_occs_len; - gboolean keep_occ; - - if (occs->len == 0 || ex_occs->len == 0) - return; - - ex_index = 0; - occs_len = occs->len; - ex_occs_len = ex_occs->len; - - ex_occ = &g_array_index (ex_occs, CalObjTime, ex_index); - for (i = 0; i < occs_len; i++) { - occ = &g_array_index (occs, CalObjTime, i); - keep_occ = TRUE; - - /* If the occurrence is a duplicate of the previous one, skip - it. */ - if (prev_occ - && cal_obj_time_compare_func (occ, prev_occ) == 0) { - keep_occ = FALSE; - } else if (ex_occ) { - /* Step through the exceptions until we come to one - that matches or follows this occurrence. */ - while (ex_occ) { - cmp = cal_obj_time_compare_func (ex_occ, occ); - if (cmp > 0) - break; - - /* Move to the next exception, or set ex_occ - to NULL when we reach the end of array. */ - ex_index++; - if (ex_index < ex_occs_len) - ex_occ = &g_array_index (ex_occs, - CalObjTime, - ex_index); - else - ex_occ = NULL; - - /* If the current exception matches this - occurrence we remove it. */ - if (cmp == 0) { - keep_occ = FALSE; - break; - } - } - } - - if (keep_occ) { - if (i != j) - g_array_index (occs, CalObjTime, j) - = g_array_index (occs, CalObjTime, i); - j++; - } - - prev_occ = occ; - } - - g_array_set_size (occs, j); -} - - - -static GArray* -cal_obj_bysetpos_filter (CalObjRecurrence *recur, - GArray *occs) -{ - GArray *new_occs; - CalObjTime *occ; - GList *elem; - gint len, pos; - - /* If BYSETPOS has not been specified, or the array is empty, just - return the array. */ - elem = recur->bysetpos; - if (!elem || occs->len == 0) - return occs; - - new_occs = g_array_new (FALSE, FALSE, sizeof (CalObjTime)); - - /* Iterate over the indices given in bysetpos, adding the corresponding - element from occs to new_occs. */ - len = occs->len; - while (elem) { - pos = GPOINTER_TO_INT (elem->data); - - /* Negative values count back from the end of the array. */ - if (pos < 0) - pos += len; - - if (pos >= 0 && pos < len) { - occ = &g_array_index (occs, CalObjTime, pos); - g_array_append_vals (new_occs, occ, 1); - } - elem = elem->next; - } - - g_array_free (occs, TRUE); - - return new_occs; -} - - - - -/* Finds the first year from the event_start, counting in multiples of the - recurrence interval, that intersects the given interval. It returns TRUE - if there is no intersection. */ -static gboolean -cal_obj_yearly_find_start_position (CalObjTime *event_start, - CalObjTime *event_end, - RecurData *recur_data, - CalObjTime *interval_start, - CalObjTime *interval_end, - CalObjTime *cotime) -{ - *cotime = *event_start; - - /* Move on to the next interval, if the event starts before the - given interval. */ - if (cotime->year < interval_start->year) { - gint years = interval_start->year - cotime->year - + recur_data->recur->interval - 1; - years -= years % recur_data->recur->interval; - /* NOTE: The day may now be invalid, e.g. 29th Feb. */ - cotime->year += years; - } - - if ((event_end && cotime->year > event_end->year) - || (interval_end && cotime->year > interval_end->year)) - return TRUE; - - return FALSE; -} - - -static gboolean -cal_obj_yearly_find_next_position (CalObjTime *cotime, - CalObjTime *event_end, - RecurData *recur_data, - CalObjTime *interval_end) -{ - /* NOTE: The day may now be invalid, e.g. 29th Feb. */ - cotime->year += recur_data->recur->interval; - - if ((event_end && cotime->year > event_end->year) - || (interval_end && cotime->year > interval_end->year)) - return TRUE; - - return FALSE; -} - - - -static gboolean -cal_obj_monthly_find_start_position (CalObjTime *event_start, - CalObjTime *event_end, - RecurData *recur_data, - CalObjTime *interval_start, - CalObjTime *interval_end, - CalObjTime *cotime) -{ - *cotime = *event_start; - - /* Move on to the next interval, if the event starts before the - given interval. */ - if (cal_obj_time_compare (cotime, interval_start, CALOBJ_MONTH) < 0) { - gint months = (interval_start->year - cotime->year) * 12 - + interval_start->month - cotime->month - + recur_data->recur->interval - 1; - months -= months % recur_data->recur->interval; - /* NOTE: The day may now be invalid, e.g. 31st Sep. */ - cal_obj_time_add_months (cotime, months); - } - - if (event_end && cal_obj_time_compare (cotime, event_end, - CALOBJ_MONTH) > 0) - return TRUE; - if (interval_end && cal_obj_time_compare (cotime, interval_end, - CALOBJ_MONTH) > 0) - return TRUE; - - return FALSE; -} - - -static gboolean -cal_obj_monthly_find_next_position (CalObjTime *cotime, - CalObjTime *event_end, - RecurData *recur_data, - CalObjTime *interval_end) -{ - /* NOTE: The day may now be invalid, e.g. 31st Sep. */ - cal_obj_time_add_months (cotime, recur_data->recur->interval); - - if (event_end && cal_obj_time_compare (cotime, event_end, - CALOBJ_MONTH) > 0) - return TRUE; - if (interval_end && cal_obj_time_compare (cotime, interval_end, - CALOBJ_MONTH) > 0) - return TRUE; - - return FALSE; -} - - - -static gboolean -cal_obj_weekly_find_start_position (CalObjTime *event_start, - CalObjTime *event_end, - RecurData *recur_data, - CalObjTime *interval_start, - CalObjTime *interval_end, - CalObjTime *cotime) -{ - GDate event_start_date, interval_start_date; - guint32 event_start_julian, interval_start_julian; - gint interval_start_weekday; - CalObjTime week_start; - - if (event_end && cal_obj_time_compare (event_end, interval_start, - CALOBJ_DAY) < 0) - return TRUE; - if (interval_end && cal_obj_time_compare (event_start, interval_end, - CALOBJ_DAY) > 0) - return TRUE; - - *cotime = *event_start; - - /* Convert the event start and interval start to GDates, so we can - easily find the number of days between them. */ - g_date_clear (&event_start_date, 1); - g_date_set_dmy (&event_start_date, event_start->day, - event_start->month + 1, event_start->year); - g_date_clear (&interval_start_date, 1); - g_date_set_dmy (&interval_start_date, interval_start->day, - interval_start->month + 1, interval_start->year); - - /* Calculate the start of the weeks corresponding to the event start - and interval start. */ - event_start_julian = g_date_julian (&event_start_date); - event_start_julian -= recur_data->weekday; - - interval_start_julian = g_date_julian (&interval_start_date); - interval_start_weekday = cal_obj_time_weekday (interval_start, - recur_data->recur); - interval_start_julian -= interval_start_weekday; - - /* We want to find the first full week using the recurrence interval - that intersects the given interval dates. */ - if (event_start_julian < interval_start_julian) { - gint weeks = (interval_start_julian - event_start_julian) / 7; - weeks += recur_data->recur->interval - 1; - weeks -= weeks % recur_data->recur->interval; - cal_obj_time_add_days (cotime, weeks * 7); - } - - week_start = *cotime; - cal_obj_time_subtract_days (&week_start, recur_data->weekday); - - if (event_end && cal_obj_time_compare (&week_start, event_end, - CALOBJ_DAY) > 0) - return TRUE; - if (interval_end && cal_obj_time_compare (&week_start, interval_end, - CALOBJ_DAY) > 0) - return TRUE; - - return FALSE; -} - - -static gboolean -cal_obj_weekly_find_next_position (CalObjTime *cotime, - CalObjTime *event_end, - RecurData *recur_data, - CalObjTime *interval_end) -{ - CalObjTime week_start; - - cal_obj_time_add_days (cotime, recur_data->recur->interval * 7); - - /* Return TRUE if the start of this week is after the event finishes - or is after the end of the required interval. */ - week_start = *cotime; - cal_obj_time_subtract_days (&week_start, recur_data->weekday); - - if (event_end && cal_obj_time_compare (&week_start, event_end, - CALOBJ_DAY) > 0) - return TRUE; - if (interval_end && cal_obj_time_compare (&week_start, interval_end, - CALOBJ_DAY) > 0) - return TRUE; - - return FALSE; -} - - -static gboolean -cal_obj_daily_find_start_position (CalObjTime *event_start, - CalObjTime *event_end, - RecurData *recur_data, - CalObjTime *interval_start, - CalObjTime *interval_end, - CalObjTime *cotime) -{ - GDate event_start_date, interval_start_date; - guint32 event_start_julian, interval_start_julian, days; - - if (interval_end && cal_obj_time_compare (event_start, interval_end, - CALOBJ_DAY) > 0) - return TRUE; - if (event_end && cal_obj_time_compare (event_end, interval_start, - CALOBJ_DAY) < 0) - return TRUE; - - *cotime = *event_start; - - /* Convert the event start and interval start to GDates, so we can - easily find the number of days between them. */ - g_date_clear (&event_start_date, 1); - g_date_set_dmy (&event_start_date, event_start->day, - event_start->month + 1, event_start->year); - g_date_clear (&interval_start_date, 1); - g_date_set_dmy (&interval_start_date, interval_start->day, - interval_start->month + 1, interval_start->year); - - event_start_julian = g_date_julian (&event_start_date); - interval_start_julian = g_date_julian (&interval_start_date); - - if (event_start_julian < interval_start_julian) { - days = interval_start_julian - event_start_julian - + recur_data->recur->interval - 1; - days -= days % recur_data->recur->interval; - cal_obj_time_add_days (cotime, days); - } - - if (event_end && cal_obj_time_compare (cotime, event_end, - CALOBJ_DAY) > 0) - return TRUE; - if (interval_end && cal_obj_time_compare (cotime, interval_end, - CALOBJ_DAY) > 0) - return TRUE; - - return FALSE; -} - - -static gboolean -cal_obj_daily_find_next_position (CalObjTime *cotime, - CalObjTime *event_end, - RecurData *recur_data, - CalObjTime *interval_end) -{ - cal_obj_time_add_days (cotime, recur_data->recur->interval); - - if (event_end && cal_obj_time_compare (cotime, event_end, - CALOBJ_DAY) > 0) - return TRUE; - if (interval_end && cal_obj_time_compare (cotime, interval_end, - CALOBJ_DAY) > 0) - return TRUE; - - return FALSE; -} - - -static gboolean -cal_obj_hourly_find_start_position (CalObjTime *event_start, - CalObjTime *event_end, - RecurData *recur_data, - CalObjTime *interval_start, - CalObjTime *interval_end, - CalObjTime *cotime) -{ - GDate event_start_date, interval_start_date; - guint32 event_start_julian, interval_start_julian, hours; - - if (interval_end && cal_obj_time_compare (event_start, interval_end, - CALOBJ_HOUR) > 0) - return TRUE; - if (event_end && cal_obj_time_compare (event_end, interval_start, - CALOBJ_HOUR) < 0) - return TRUE; - - *cotime = *event_start; - - if (cal_obj_time_compare (event_start, interval_start, - CALOBJ_HOUR) < 0) { - /* Convert the event start and interval start to GDates, so we - can easily find the number of days between them. */ - g_date_clear (&event_start_date, 1); - g_date_set_dmy (&event_start_date, event_start->day, - event_start->month + 1, event_start->year); - g_date_clear (&interval_start_date, 1); - g_date_set_dmy (&interval_start_date, interval_start->day, - interval_start->month + 1, - interval_start->year); - - event_start_julian = g_date_julian (&event_start_date); - interval_start_julian = g_date_julian (&interval_start_date); - - hours = (interval_start_julian - event_start_julian) * 24; - hours += interval_start->hour - event_start->hour; - hours += recur_data->recur->interval - 1; - hours -= hours % recur_data->recur->interval; - cal_obj_time_add_hours (cotime, hours); - } - - if (event_end && cal_obj_time_compare (cotime, event_end, - CALOBJ_HOUR) > 0) - return TRUE; - if (interval_end && cal_obj_time_compare (cotime, interval_end, - CALOBJ_HOUR) > 0) - return TRUE; - - return FALSE; -} - - -static gboolean -cal_obj_hourly_find_next_position (CalObjTime *cotime, - CalObjTime *event_end, - RecurData *recur_data, - CalObjTime *interval_end) -{ - cal_obj_time_add_hours (cotime, recur_data->recur->interval); - - if (event_end && cal_obj_time_compare (cotime, event_end, - CALOBJ_HOUR) > 0) - return TRUE; - if (interval_end && cal_obj_time_compare (cotime, interval_end, - CALOBJ_HOUR) > 0) - return TRUE; - - return FALSE; -} - - -static gboolean -cal_obj_minutely_find_start_position (CalObjTime *event_start, - CalObjTime *event_end, - RecurData *recur_data, - CalObjTime *interval_start, - CalObjTime *interval_end, - CalObjTime *cotime) -{ - GDate event_start_date, interval_start_date; - guint32 event_start_julian, interval_start_julian, minutes; - - if (interval_end && cal_obj_time_compare (event_start, interval_end, - CALOBJ_MINUTE) > 0) - return TRUE; - if (event_end && cal_obj_time_compare (event_end, interval_start, - CALOBJ_MINUTE) < 0) - return TRUE; - - *cotime = *event_start; - - if (cal_obj_time_compare (event_start, interval_start, - CALOBJ_MINUTE) < 0) { - /* Convert the event start and interval start to GDates, so we - can easily find the number of days between them. */ - g_date_clear (&event_start_date, 1); - g_date_set_dmy (&event_start_date, event_start->day, - event_start->month + 1, event_start->year); - g_date_clear (&interval_start_date, 1); - g_date_set_dmy (&interval_start_date, interval_start->day, - interval_start->month + 1, - interval_start->year); - - event_start_julian = g_date_julian (&event_start_date); - interval_start_julian = g_date_julian (&interval_start_date); - - minutes = (interval_start_julian - event_start_julian) - * 24 * 60; - minutes += (interval_start->hour - event_start->hour) * 24; - minutes += interval_start->minute - event_start->minute; - minutes += recur_data->recur->interval - 1; - minutes -= minutes % recur_data->recur->interval; - cal_obj_time_add_minutes (cotime, minutes); - } - - if (event_end && cal_obj_time_compare (cotime, event_end, - CALOBJ_MINUTE) > 0) - return TRUE; - if (interval_end && cal_obj_time_compare (cotime, interval_end, - CALOBJ_MINUTE) > 0) - return TRUE; - - return FALSE; -} - - -static gboolean -cal_obj_minutely_find_next_position (CalObjTime *cotime, - CalObjTime *event_end, - RecurData *recur_data, - CalObjTime *interval_end) -{ - cal_obj_time_add_minutes (cotime, recur_data->recur->interval); - - if (event_end && cal_obj_time_compare (cotime, event_end, - CALOBJ_MINUTE) > 0) - return TRUE; - if (interval_end && cal_obj_time_compare (cotime, interval_end, - CALOBJ_MINUTE) > 0) - return TRUE; - - return FALSE; -} - - -static gboolean -cal_obj_secondly_find_start_position (CalObjTime *event_start, - CalObjTime *event_end, - RecurData *recur_data, - CalObjTime *interval_start, - CalObjTime *interval_end, - CalObjTime *cotime) -{ - GDate event_start_date, interval_start_date; - guint32 event_start_julian, interval_start_julian, seconds; - - if (interval_end && cal_obj_time_compare (event_start, interval_end, - CALOBJ_SECOND) > 0) - return TRUE; - if (event_end && cal_obj_time_compare (event_end, interval_start, - CALOBJ_SECOND) < 0) - return TRUE; - - *cotime = *event_start; - - if (cal_obj_time_compare (event_start, interval_start, - CALOBJ_SECOND) < 0) { - /* Convert the event start and interval start to GDates, so we - can easily find the number of days between them. */ - g_date_clear (&event_start_date, 1); - g_date_set_dmy (&event_start_date, event_start->day, - event_start->month + 1, event_start->year); - g_date_clear (&interval_start_date, 1); - g_date_set_dmy (&interval_start_date, interval_start->day, - interval_start->month + 1, - interval_start->year); - - event_start_julian = g_date_julian (&event_start_date); - interval_start_julian = g_date_julian (&interval_start_date); - - seconds = (interval_start_julian - event_start_julian) - * 24 * 60 * 60; - seconds += (interval_start->hour - event_start->hour) - * 24 * 60; - seconds += (interval_start->minute - event_start->minute) * 60; - seconds += interval_start->second - event_start->second; - seconds += recur_data->recur->interval - 1; - seconds -= seconds % recur_data->recur->interval; - cal_obj_time_add_seconds (cotime, seconds); - } - - if (event_end && cal_obj_time_compare (cotime, event_end, - CALOBJ_SECOND) >= 0) - return TRUE; - if (interval_end && cal_obj_time_compare (cotime, interval_end, - CALOBJ_SECOND) >= 0) - return TRUE; - - return FALSE; -} - - -static gboolean -cal_obj_secondly_find_next_position (CalObjTime *cotime, - CalObjTime *event_end, - RecurData *recur_data, - CalObjTime *interval_end) -{ - cal_obj_time_add_seconds (cotime, recur_data->recur->interval); - - if (event_end && cal_obj_time_compare (cotime, event_end, - CALOBJ_SECOND) >= 0) - return TRUE; - if (interval_end && cal_obj_time_compare (cotime, interval_end, - CALOBJ_SECOND) >= 0) - return TRUE; - - return FALSE; -} - - - - - -/* If the BYMONTH rule is specified it expands each occurrence in occs, by - using each of the months in the bymonth list. */ -static GArray* -cal_obj_bymonth_expand (RecurData *recur_data, - GArray *occs) -{ - GArray *new_occs; - CalObjTime *occ; - GList *elem; - gint len, i; - - /* If BYMONTH has not been specified, or the array is empty, just - return the array. */ - if (!recur_data->recur->bymonth || occs->len == 0) - return occs; - - new_occs = g_array_new (FALSE, FALSE, sizeof (CalObjTime)); - - len = occs->len; - for (i = 0; i < len; i++) { - occ = &g_array_index (occs, CalObjTime, i); - - elem = recur_data->recur->bymonth; - while (elem) { - /* NOTE: The day may now be invalid, e.g. 31st Feb. */ - occ->month = GPOINTER_TO_INT (elem->data); - g_array_append_vals (new_occs, occ, 1); - elem = elem->next; - } - } - - g_array_free (occs, TRUE); - - return new_occs; -} - - -/* If the BYMONTH rule is specified it filters out all occurrences in occs - which do not match one of the months in the bymonth list. */ -static GArray* -cal_obj_bymonth_filter (RecurData *recur_data, - GArray *occs) -{ - GArray *new_occs; - CalObjTime *occ; - gint len, i; - - /* If BYMONTH has not been specified, or the array is empty, just - return the array. */ - if (!recur_data->recur->bymonth || occs->len == 0) - return occs; - - new_occs = g_array_new (FALSE, FALSE, sizeof (CalObjTime)); - - len = occs->len; - for (i = 0; i < len; i++) { - occ = &g_array_index (occs, CalObjTime, i); - if (recur_data->months[occ->month]) - g_array_append_vals (new_occs, occ, 1); - } - - g_array_free (occs, TRUE); - - return new_occs; -} - - - -static GArray* -cal_obj_byweekno_expand (RecurData *recur_data, - GArray *occs) -{ - GArray *new_occs; - CalObjTime *occ, year_start_cotime, year_end_cotime, cotime; - GList *elem; - gint len, i, weekno; - - /* If BYWEEKNO has not been specified, or the array is empty, just - return the array. */ - if (!recur_data->recur->byweekno || occs->len == 0) - return occs; - - new_occs = g_array_new (FALSE, FALSE, sizeof (CalObjTime)); - - len = occs->len; - for (i = 0; i < len; i++) { - occ = &g_array_index (occs, CalObjTime, i); - - /* Find the day that would correspond to week 1 (note that - week 1 is the first week starting from the specified week - start day that has 4 days in the new year). */ - year_start_cotime = *occ; - cal_obj_time_find_first_week (&year_start_cotime, - recur_data); - - /* Find the day that would correspond to week 1 of the next - year, which we use for -ve week numbers. */ - year_end_cotime = *occ; - year_end_cotime.year++; - cal_obj_time_find_first_week (&year_end_cotime, - recur_data); - - /* Now iterate over the week numbers in byweekno, generating a - new occurrence for each one. */ - elem = recur_data->recur->byweekno; - while (elem) { - weekno = GPOINTER_TO_INT (elem->data); - if (weekno > 0) { - cotime = year_start_cotime; - cal_obj_time_add_days (&cotime, - (weekno - 1) * 7); - } else { - cotime = year_end_cotime; - cal_obj_time_subtract_days (&cotime, - -weekno * 7); - } - - /* Skip occurrences if they fall outside the year. */ - if (cotime.year == occ->year) - g_array_append_val (new_occs, cotime); - elem = elem->next; - } - } - - g_array_free (occs, TRUE); - - return new_occs; -} - - -#if 0 -/* This isn't used at present. */ -static GArray* -cal_obj_byweekno_filter (RecurData *recur_data, - GArray *occs) -{ - - return occs; -} -#endif - - -static GArray* -cal_obj_byyearday_expand (RecurData *recur_data, - GArray *occs) -{ - GArray *new_occs; - CalObjTime *occ, year_start_cotime, year_end_cotime, cotime; - GList *elem; - gint len, i, dayno; - - /* If BYYEARDAY has not been specified, or the array is empty, just - return the array. */ - if (!recur_data->recur->byyearday || occs->len == 0) - return occs; - - new_occs = g_array_new (FALSE, FALSE, sizeof (CalObjTime)); - - len = occs->len; - for (i = 0; i < len; i++) { - occ = &g_array_index (occs, CalObjTime, i); - - /* Find the day that would correspond to day 1. */ - year_start_cotime = *occ; - year_start_cotime.month = 0; - year_start_cotime.day = 1; - - /* Find the day that would correspond to day 1 of the next - year, which we use for -ve day numbers. */ - year_end_cotime = *occ; - year_end_cotime.year++; - year_end_cotime.month = 0; - year_end_cotime.day = 1; - - /* Now iterate over the day numbers in byyearday, generating a - new occurrence for each one. */ - elem = recur_data->recur->byyearday; - while (elem) { - dayno = GPOINTER_TO_INT (elem->data); - if (dayno > 0) { - cotime = year_start_cotime; - cal_obj_time_add_days (&cotime, dayno - 1); - } else { - cotime = year_end_cotime; - cal_obj_time_subtract_days (&cotime, -dayno); - } - - /* Skip occurrences if they fall outside the year. */ - if (cotime.year == occ->year) - g_array_append_val (new_occs, cotime); - elem = elem->next; - } - } - - g_array_free (occs, TRUE); - - return new_occs; -} - - -/* Note: occs must not contain invalid dates, e.g. 31st September. */ -static GArray* -cal_obj_byyearday_filter (RecurData *recur_data, - GArray *occs) -{ - GArray *new_occs; - CalObjTime *occ; - gint yearday, len, i, days_in_year; - - /* If BYYEARDAY has not been specified, or the array is empty, just - return the array. */ - if (!recur_data->recur->byyearday || occs->len == 0) - return occs; - - new_occs = g_array_new (FALSE, FALSE, sizeof (CalObjTime)); - - len = occs->len; - for (i = 0; i < len; i++) { - occ = &g_array_index (occs, CalObjTime, i); - yearday = cal_obj_time_day_of_year (occ); - if (recur_data->yeardays[yearday]) { - g_array_append_vals (new_occs, occ, 1); - } else { - days_in_year = g_date_is_leap_year (occ->year) - ? 366 : 365; - if (recur_data->neg_yeardays[days_in_year + 1 - - yearday]) - g_array_append_vals (new_occs, occ, 1); - } - } - - g_array_free (occs, TRUE); - - return new_occs; -} - - - -static GArray* -cal_obj_bymonthday_expand (RecurData *recur_data, - GArray *occs) -{ - GArray *new_occs; - CalObjTime *occ, month_start_cotime, month_end_cotime, cotime; - GList *elem; - gint len, i, dayno; - - /* If BYMONTHDAY has not been specified, or the array is empty, just - return the array. */ - if (!recur_data->recur->bymonthday || occs->len == 0) - return occs; - - new_occs = g_array_new (FALSE, FALSE, sizeof (CalObjTime)); - - len = occs->len; - for (i = 0; i < len; i++) { - occ = &g_array_index (occs, CalObjTime, i); - - /* Find the day that would correspond to day 1. */ - month_start_cotime = *occ; - month_start_cotime.day = 1; - - /* Find the day that would correspond to day 1 of the next - month, which we use for -ve day numbers. */ - month_end_cotime = *occ; - month_end_cotime.month++; - month_end_cotime.day = 1; - - /* Now iterate over the day numbers in bymonthday, generating a - new occurrence for each one. */ - elem = recur_data->recur->bymonthday; - while (elem) { - dayno = GPOINTER_TO_INT (elem->data); - if (dayno > 0) { - cotime = month_start_cotime; - cal_obj_time_add_days (&cotime, dayno - 1); - } else { - cotime = month_end_cotime; - cal_obj_time_subtract_days (&cotime, -dayno); - } - - /* Skip occurrences if they fall outside the month. */ - if (cotime.month == occ->month) - g_array_append_val (new_occs, cotime); - elem = elem->next; - } - } - - g_array_free (occs, TRUE); - - return new_occs; -} - - -static GArray* -cal_obj_bymonthday_filter (RecurData *recur_data, - GArray *occs) -{ - GArray *new_occs; - CalObjTime *occ; - gint len, i, days_in_month; - - /* If BYMONTHDAY has not been specified, or the array is empty, just - return the array. */ - if (!recur_data->recur->bymonthday || occs->len == 0) - return occs; - - new_occs = g_array_new (FALSE, FALSE, sizeof (CalObjTime)); - - len = occs->len; - for (i = 0; i < len; i++) { - occ = &g_array_index (occs, CalObjTime, i); - if (recur_data->monthdays[occ->day]) { - g_array_append_vals (new_occs, occ, 1); - } else { - days_in_month = time_days_in_month (occ->year, - occ->month); - if (recur_data->neg_monthdays[days_in_month + 1 - - occ->day]) - g_array_append_vals (new_occs, occ, 1); - } - } - - g_array_free (occs, TRUE); - - return new_occs; -} - - - -static GArray* -cal_obj_byday_expand_yearly (RecurData *recur_data, - GArray *occs) -{ - GArray *new_occs; - CalObjTime *occ; - GList *elem; - gint len, i, weekday, week_num; - gint first_weekday, last_weekday, offset; - guint16 year; - - /* If BYDAY has not been specified, or the array is empty, just - return the array. */ - if (!recur_data->recur->byday || occs->len == 0) - return occs; - - new_occs = g_array_new (FALSE, FALSE, sizeof (CalObjTime)); - - len = occs->len; - for (i = 0; i < len; i++) { - occ = &g_array_index (occs, CalObjTime, i); - - elem = recur_data->recur->byday; - while (elem) { - weekday = GPOINTER_TO_INT (elem->data); - elem = elem->next; - week_num = GPOINTER_TO_INT (elem->data); - elem = elem->next; - - year = occ->year; - if (week_num == 0) { - occ->month = 0; - occ->day = 1; - first_weekday = cal_obj_time_weekday (occ, recur_data->recur); - offset = (weekday + 7 - first_weekday) % 7; - cal_obj_time_add_days (occ, offset); - - while (occ->year == year) { - g_array_append_vals (new_occs, occ, 1); - cal_obj_time_add_days (occ, 7); - } - - } else if (week_num > 0) { - occ->month = 0; - occ->day = 1; - first_weekday = cal_obj_time_weekday (occ, recur_data->recur); - offset = (weekday + 7 - first_weekday) % 7; - offset += (week_num - 1) * 7; - cal_obj_time_add_days (occ, offset); - if (occ->year == year) - g_array_append_vals (new_occs, occ, 1); - - } else { - occ->month = 11; - occ->day = 31; - last_weekday = cal_obj_time_weekday (occ, recur_data->recur); - offset = (last_weekday + 7 - weekday) % 7; - offset += (week_num - 1) * 7; - cal_obj_time_subtract_days (occ, offset); - if (occ->year == year) - g_array_append_vals (new_occs, occ, 1); - } - - /* Reset the year, as we may have gone past the end. */ - occ->year = year; - } - } - - g_array_free (occs, TRUE); - - return new_occs; -} - - -static GArray* -cal_obj_byday_expand_monthly (RecurData *recur_data, - GArray *occs) -{ - GArray *new_occs; - CalObjTime *occ; - GList *elem; - gint len, i, weekday, week_num; - gint first_weekday, last_weekday, offset; - guint16 year; - guint8 month; - - /* If BYDAY has not been specified, or the array is empty, just - return the array. */ - if (!recur_data->recur->byday || occs->len == 0) - return occs; - - new_occs = g_array_new (FALSE, FALSE, sizeof (CalObjTime)); - - len = occs->len; - for (i = 0; i < len; i++) { - occ = &g_array_index (occs, CalObjTime, i); - - elem = recur_data->recur->byday; - while (elem) { - weekday = GPOINTER_TO_INT (elem->data); - elem = elem->next; - week_num = GPOINTER_TO_INT (elem->data); - elem = elem->next; - - year = occ->year; - month = occ->month; - if (week_num == 0) { - occ->day = 1; - first_weekday = cal_obj_time_weekday (occ, recur_data->recur); - offset = (weekday + 7 - first_weekday) % 7; - cal_obj_time_add_days (occ, offset); - - while (occ->year == year - && occ->month == month) { - g_array_append_vals (new_occs, occ, 1); - cal_obj_time_add_days (occ, 7); - } - - } else if (week_num > 0) { - occ->day = 1; - first_weekday = cal_obj_time_weekday (occ, recur_data->recur); - offset = (weekday + 7 - first_weekday) % 7; - offset += (week_num - 1) * 7; - cal_obj_time_add_days (occ, offset); - if (occ->year == year && occ->month == month) - g_array_append_vals (new_occs, occ, 1); - - } else { - occ->day = time_days_in_month (occ->year, - occ->month); - last_weekday = cal_obj_time_weekday (occ, recur_data->recur); - offset = (last_weekday + 7 - weekday) % 7; - offset += (week_num - 1) * 7; - cal_obj_time_subtract_days (occ, offset); - if (occ->year == year && occ->month == month) - g_array_append_vals (new_occs, occ, 1); - } - - /* Reset the year & month, as we may have gone past - the end. */ - occ->year = year; - occ->month = month; - } - } - - g_array_free (occs, TRUE); - - return new_occs; -} - - -/* Note: occs must not contain invalid dates, e.g. 31st September. */ -static GArray* -cal_obj_byday_expand_weekly (RecurData *recur_data, - GArray *occs) -{ - GArray *new_occs; - CalObjTime *occ; - GList *elem; - gint len, i, weekday, week_num; - gint current_weekday; - gint day_of_week, new_day_of_week, days_to_add; - - /* If BYDAY has not been specified, or the array is empty, just - return the array. */ - if (!recur_data->recur->byday || occs->len == 0) - return occs; - - new_occs = g_array_new (FALSE, FALSE, sizeof (CalObjTime)); - - len = occs->len; - for (i = 0; i < len; i++) { - occ = &g_array_index (occs, CalObjTime, i); - - elem = recur_data->recur->byday; - while (elem) { - weekday = GPOINTER_TO_INT (elem->data); - elem = elem->next; - week_num = GPOINTER_TO_INT (elem->data); - elem = elem->next; - - current_weekday = cal_obj_time_weekday (occ, recur_data->recur); - day_of_week = (current_weekday + 7 - - recur_data->recur->week_start_day) % 7; - new_day_of_week = (weekday + 7 - - recur_data->recur->week_start_day) % 7; - days_to_add = new_day_of_week - day_of_week; - if (days_to_add > 0) - cal_obj_time_add_days (occ, days_to_add); - else if (days_to_add < 0) - cal_obj_time_subtract_days (occ, -days_to_add); - g_array_append_vals (new_occs, occ, 1); - } - } - - g_array_free (occs, TRUE); - - return new_occs; -} - - -/* Note: occs must not contain invalid dates, e.g. 31st September. */ -static GArray* -cal_obj_byday_filter (RecurData *recur_data, - GArray *occs) -{ - GArray *new_occs; - CalObjTime *occ; - gint len, i, weekday; - - /* If BYDAY has not been specified, or the array is empty, just - return the array. */ - if (!recur_data->recur->byday || occs->len == 0) - return occs; - - new_occs = g_array_new (FALSE, FALSE, sizeof (CalObjTime)); - - len = occs->len; - for (i = 0; i < len; i++) { - occ = &g_array_index (occs, CalObjTime, i); - weekday = cal_obj_time_weekday (occ, recur_data->recur); - - /* See if the weekday on its own is set. */ - if (recur_data->weekdays[weekday]) - g_array_append_vals (new_occs, occ, 1); - } - - g_array_free (occs, TRUE); - - return new_occs; -} - - - -/* If the BYHOUR rule is specified it expands each occurrence in occs, by - using each of the hours in the byhour list. */ -static GArray* -cal_obj_byhour_expand (RecurData *recur_data, - GArray *occs) -{ - GArray *new_occs; - CalObjTime *occ; - GList *elem; - gint len, i; - - /* If BYHOUR has not been specified, or the array is empty, just - return the array. */ - if (!recur_data->recur->byhour || occs->len == 0) - return occs; - - new_occs = g_array_new (FALSE, FALSE, sizeof (CalObjTime)); - - len = occs->len; - for (i = 0; i < len; i++) { - occ = &g_array_index (occs, CalObjTime, i); - - elem = recur_data->recur->byhour; - while (elem) { - occ->hour = GPOINTER_TO_INT (elem->data); - g_array_append_vals (new_occs, occ, 1); - elem = elem->next; - } - } - - g_array_free (occs, TRUE); - - return new_occs; -} - - -/* If the BYHOUR rule is specified it filters out all occurrences in occs - which do not match one of the hours in the byhour list. */ -static GArray* -cal_obj_byhour_filter (RecurData *recur_data, - GArray *occs) -{ - GArray *new_occs; - CalObjTime *occ; - gint len, i; - - /* If BYHOUR has not been specified, or the array is empty, just - return the array. */ - if (!recur_data->recur->byhour || occs->len == 0) - return occs; - - new_occs = g_array_new (FALSE, FALSE, sizeof (CalObjTime)); - - len = occs->len; - for (i = 0; i < len; i++) { - occ = &g_array_index (occs, CalObjTime, i); - if (recur_data->hours[occ->hour]) - g_array_append_vals (new_occs, occ, 1); - } - - g_array_free (occs, TRUE); - - return new_occs; -} - - - -/* If the BYMINUTE rule is specified it expands each occurrence in occs, by - using each of the minutes in the byminute list. */ -static GArray* -cal_obj_byminute_expand (RecurData *recur_data, - GArray *occs) -{ - GArray *new_occs; - CalObjTime *occ; - GList *elem; - gint len, i; - - /* If BYMINUTE has not been specified, or the array is empty, just - return the array. */ - if (!recur_data->recur->byminute || occs->len == 0) - return occs; - - new_occs = g_array_new (FALSE, FALSE, sizeof (CalObjTime)); - - len = occs->len; - for (i = 0; i < len; i++) { - occ = &g_array_index (occs, CalObjTime, i); - - elem = recur_data->recur->byminute; - while (elem) { - occ->minute = GPOINTER_TO_INT (elem->data); - g_array_append_vals (new_occs, occ, 1); - elem = elem->next; - } - } - - g_array_free (occs, TRUE); - - return new_occs; -} - - -/* If the BYMINUTE rule is specified it filters out all occurrences in occs - which do not match one of the minutes in the byminute list. */ -static GArray* -cal_obj_byminute_filter (RecurData *recur_data, - GArray *occs) -{ - GArray *new_occs; - CalObjTime *occ; - gint len, i; - - /* If BYMINUTE has not been specified, or the array is empty, just - return the array. */ - if (!recur_data->recur->byminute || occs->len == 0) - return occs; - - new_occs = g_array_new (FALSE, FALSE, sizeof (CalObjTime)); - - len = occs->len; - for (i = 0; i < len; i++) { - occ = &g_array_index (occs, CalObjTime, i); - if (recur_data->minutes[occ->minute]) - g_array_append_vals (new_occs, occ, 1); - } - - g_array_free (occs, TRUE); - - return new_occs; -} - - - -/* If the BYSECOND rule is specified it expands each occurrence in occs, by - using each of the seconds in the bysecond list. */ -static GArray* -cal_obj_bysecond_expand (RecurData *recur_data, - GArray *occs) -{ - GArray *new_occs; - CalObjTime *occ; - GList *elem; - gint len, i; - - /* If BYSECOND has not been specified, or the array is empty, just - return the array. */ - if (!recur_data->recur->bysecond || occs->len == 0) - return occs; - - new_occs = g_array_new (FALSE, FALSE, sizeof (CalObjTime)); - - len = occs->len; - for (i = 0; i < len; i++) { - occ = &g_array_index (occs, CalObjTime, i); - - elem = recur_data->recur->bysecond; - while (elem) { - occ->second = GPOINTER_TO_INT (elem->data); - g_array_append_vals (new_occs, occ, 1); - elem = elem->next; - } - } - - g_array_free (occs, TRUE); - - return new_occs; -} - - -/* If the BYSECOND rule is specified it filters out all occurrences in occs - which do not match one of the seconds in the bysecond list. */ -static GArray* -cal_obj_bysecond_filter (RecurData *recur_data, - GArray *occs) -{ - GArray *new_occs; - CalObjTime *occ; - gint len, i; - - /* If BYSECOND has not been specified, or the array is empty, just - return the array. */ - if (!recur_data->recur->bysecond || occs->len == 0) - return occs; - - new_occs = g_array_new (FALSE, FALSE, sizeof (CalObjTime)); - - len = occs->len; - for (i = 0; i < len; i++) { - occ = &g_array_index (occs, CalObjTime, i); - if (recur_data->seconds[occ->second]) - g_array_append_vals (new_occs, occ, 1); - } - - g_array_free (occs, TRUE); - - return new_occs; -} - - - - - -/* Adds a positive number of months to the given CalObjTime, updating the year - appropriately so we end up with a valid month. Note that the day may be - invalid. */ -static void -cal_obj_time_add_months (CalObjTime *cotime, - gint months) -{ - guint month; - - /* We use a guint to avoid overflow on the guint8. */ - month = cotime->month + months; - cotime->year += month / 12; - cotime->month = month % 12; -} - - -/* Adds a positive number of days to the given CalObjTime, updating the month - and year appropriately so we end up with a valid day. */ -static void -cal_obj_time_add_days (CalObjTime *cotime, - gint days) -{ - guint day, days_in_month; - - /* We use a guint to avoid overflow on the guint8. */ - day = (guint) cotime->day; - day += days; - - for (;;) { - days_in_month = time_days_in_month (cotime->year, - cotime->month); - if (day <= days_in_month) - break; - - cotime->month++; - if (cotime->month >= 12) { - cotime->year++; - cotime->month = 0; - } - - day -= days_in_month; - } - - cotime->day = (guint8) day; -} - - -/* Subtracts a positive number of days from the given CalObjTime, updating the - month and year appropriately so we end up with a valid day. */ -static void -cal_obj_time_subtract_days (CalObjTime *cotime, - gint days) -{ - gint day, days_in_month; - - /* We use a gint to avoid overflow on the guint8. */ - day = (gint) cotime->day; - day -= days; - - while (day <= 0) { - if (cotime->month == 0) { - cotime->year--; - cotime->month = 11; - } else { - cotime->month--; - } - - days_in_month = time_days_in_month (cotime->year, - cotime->month); - - day += days_in_month; - } - - cotime->day = (guint8) day; -} - - -/* Adds a positive number of hours to the given CalObjTime, updating the day, - month & year appropriately so we end up with a valid time. */ -static void -cal_obj_time_add_hours (CalObjTime *cotime, - gint hours) -{ - guint hour; - - /* We use a guint to avoid overflow on the guint8. */ - hour = cotime->hour + hours; - cotime->hour = hour % 24; - if (hour >= 24) - cal_obj_time_add_days (cotime, hour / 24); -} - - -/* Adds a positive number of minutes to the given CalObjTime, updating the - rest of the CalObjTime appropriately. */ -static void -cal_obj_time_add_minutes (CalObjTime *cotime, - gint minutes) -{ - guint minute; - - /* We use a guint to avoid overflow on the guint8. */ - minute = cotime->minute + minutes; - cotime->minute = minute % 60; - if (minute >= 60) - cal_obj_time_add_hours (cotime, minute / 60); -} - - -/* Adds a positive number of seconds to the given CalObjTime, updating the - rest of the CalObjTime appropriately. */ -static void -cal_obj_time_add_seconds (CalObjTime *cotime, - gint seconds) -{ - guint second; - - /* We use a guint to avoid overflow on the guint8. */ - second = cotime->second + seconds; - cotime->second = second % 60; - if (second >= 60) - cal_obj_time_add_minutes (cotime, second / 60); -} - - -/* Compares 2 CalObjTimes. Returns -1 if the cotime1 is before cotime2, 0 if - they are the same, or 1 if cotime1 is after cotime2. The comparison type - specifies which parts of the times we are interested in, e.g. if CALOBJ_DAY - is used we only want to know if the days are different. */ -static gint -cal_obj_time_compare (CalObjTime *cotime1, - CalObjTime *cotime2, - CalObjTimeComparison type) -{ - if (cotime1->year < cotime2->year) - return -1; - if (cotime1->year > cotime2->year) - return 1; - - if (type == CALOBJ_YEAR) - return 0; - - if (cotime1->month < cotime2->month) - return -1; - if (cotime1->month > cotime2->month) - return 1; - - if (type == CALOBJ_MONTH) - return 0; - - if (cotime1->day < cotime2->day) - return -1; - if (cotime1->day > cotime2->day) - return 1; - - if (type == CALOBJ_DAY) - return 0; - - if (cotime1->hour < cotime2->hour) - return -1; - if (cotime1->hour > cotime2->hour) - return 1; - - if (type == CALOBJ_HOUR) - return 0; - - if (cotime1->minute < cotime2->minute) - return -1; - if (cotime1->minute > cotime2->minute) - return 1; - - if (type == CALOBJ_MINUTE) - return 0; - - if (cotime1->second < cotime2->second) - return -1; - if (cotime1->second > cotime2->second) - return 1; - - return 0; -} - - -/* This is the same as the above function, but without the comparison type. - It is used for qsort(). */ -static gint -cal_obj_time_compare_func (const void *arg1, - const void *arg2) -{ - CalObjTime *cotime1, *cotime2; - - cotime1 = (CalObjTime*) arg1; - cotime2 = (CalObjTime*) arg2; - - if (cotime1->year < cotime2->year) - return -1; - if (cotime1->year > cotime2->year) - return 1; - - if (cotime1->month < cotime2->month) - return -1; - if (cotime1->month > cotime2->month) - return 1; - - if (cotime1->day < cotime2->day) - return -1; - if (cotime1->day > cotime2->day) - return 1; - - if (cotime1->hour < cotime2->hour) - return -1; - if (cotime1->hour > cotime2->hour) - return 1; - - if (cotime1->minute < cotime2->minute) - return -1; - if (cotime1->minute > cotime2->minute) - return 1; - - if (cotime1->second < cotime2->second) - return -1; - if (cotime1->second > cotime2->second) - return 1; - - return 0; -} - - -/* Returns the weekday of the given CalObjTime, from 0 - 6. The week start - day is Monday by default, but can be set in the recurrence rule. */ -static gint -cal_obj_time_weekday (CalObjTime *cotime, - CalObjRecurrence *recur) -{ - GDate date; - gint weekday; - - g_date_clear (&date, 1); - g_date_set_dmy (&date, cotime->day, cotime->month + 1, cotime->year); - - /* This results in a value of 0 (Monday) - 6 (Sunday). */ - weekday = g_date_weekday (&date) - 1; - - /* This calculates the offset of our day from the start of the week. - We just add on a week (to avoid any possible negative values) and - then subtract the specified week start day, then convert it into a - value from 0-6. */ - weekday = (weekday + 7 - recur->week_start_day) % 7; - - return weekday; -} - - -/* Returns the day of the year of the given CalObjTime, from 1 - 366. */ -static gint -cal_obj_time_day_of_year (CalObjTime *cotime) -{ - GDate date; - - g_date_clear (&date, 1); - g_date_set_dmy (&date, cotime->day, cotime->month + 1, cotime->year); - - return g_date_day_of_year (&date); -} - - -/* Finds the first week in the given CalObjTime's year, using the same weekday - as the event start day (i.e. from the RecurData). - The first week of the year is the first week starting from the specified - week start day that has 4 days in the new year. It may be in the previous - year. */ -static void -cal_obj_time_find_first_week (CalObjTime *cotime, - RecurData *recur_data) -{ - GDate date; - gint weekday, week_start_day, offset; - - /* Find out the weekday of the 1st of the year. */ - g_date_clear (&date, 1); - g_date_set_dmy (&date, 1, 1, cotime->year); - - /* This results in a value of 0 (Monday) - 6 (Sunday). */ - weekday = g_date_weekday (&date) - 1; - - /* Calculate the first day of the year that starts a new week. */ - week_start_day = recur_data->recur->week_start_day; - offset = (week_start_day + 7 - weekday) % 7; - - /* Now see if we have to move backwards 1 week, i.e. if the week - starts on or after Jan 5th (since the previous week has 4 days in - this year and so will be the first week of the year). */ - if (offset >= 4) - offset -= 7; - - /* Now move to the required day. */ - offset += (recur_data->weekday + 7 - week_start_day) % 7; - - /* Now move the cotime to the appropriate day. */ - cotime->month = 0; - cotime->day = 1; - if (offset > 0) - cal_obj_time_add_days (cotime, offset); - else - cal_obj_time_subtract_days (cotime, offset); -} - - -static void -cal_object_time_from_time (CalObjTime *cotime, - time_t t) -{ - struct tm *tmp_tm; - time_t tmp_time_t; - - tmp_time_t = t; - tmp_tm = localtime (&tmp_time_t); - - cotime->year = tmp_tm->tm_year + 1900; - cotime->month = tmp_tm->tm_mon; - cotime->day = tmp_tm->tm_mday; - cotime->hour = tmp_tm->tm_hour; - cotime->minute = tmp_tm->tm_min; - cotime->second = tmp_tm->tm_sec; -} - |