/*
* Evolution calendar - Utilities for manipulating ECalComponent objects
*
* This program is free software; you can redistribute it and/or
* modify it under the terms of the GNU Lesser General Public
* License as published by the Free Software Foundation; either
* version 2 of the License, or (at your option) version 3.
*
* 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
* Lesser General Public License for more details.
*
* You should have received a copy of the GNU Lesser General Public
* License along with the program; if not, see <http://www.gnu.org/licenses/>
*
*
* Authors:
* Federico Mena-Quintero <federico@ximian.com>
*
* Copyright (C) 1999-2008 Novell, Inc. (www.novell.com)
*
*/
#ifdef HAVE_CONFIG_H
#include <config.h>
#endif
#include <string.h>
#include <time.h>
#include "calendar-config.h"
#include "comp-util.h"
#include "dialogs/delete-comp.h"
#include <libecal/e-cal-component.h>
#include "e-util/e-categories-config.h"
#include "common/authentication.h"
/**
* cal_comp_util_add_exdate:
* @comp: A calendar component object.
* @itt: Time for the exception.
*
* Adds an exception date to the current list of EXDATE properties in a calendar
* component object.
**/
void
cal_comp_util_add_exdate (ECalComponent *comp, time_t t, icaltimezone *zone)
{
GSList *list;
ECalComponentDateTime *cdt;
g_return_if_fail (comp != NULL);
g_return_if_fail (E_IS_CAL_COMPONENT (comp));
e_cal_component_get_exdate_list (comp, &list);
cdt = g_new (ECalComponentDateTime, 1);
cdt->value = g_new (struct icaltimetype, 1);
*cdt->value = icaltime_from_timet_with_zone (t, FALSE, zone);
cdt->tzid = g_strdup (icaltimezone_get_tzid (zone));
list = g_slist_append (list, cdt);
e_cal_component_set_exdate_list (comp, list);
e_cal_component_free_exdate_list (list);
}
/* Returns TRUE if the TZIDs are equivalent, i.e. both NULL or the same. */
static gboolean
e_cal_component_compare_tzid (const char *tzid1, const char *tzid2)
{
gboolean retval = TRUE;
if (tzid1) {
if (!tzid2 || strcmp (tzid1, tzid2))
retval = FALSE;
} else {
if (tzid2)
retval = FALSE;
}
return retval;
}
/**
* cal_comp_util_compare_event_timezones:
* @comp: A calendar component object.
* @client: A #ECal.
*
* Checks if the component uses the given timezone for both the start and
* the end time, or if the UTC offsets of the start and end times are the same
* as in the given zone.
*
* Returns: TRUE if the component's start and end time are at the same UTC
* offset in the given timezone.
**/
gboolean
cal_comp_util_compare_event_timezones (ECalComponent *comp,
ECal *client,
icaltimezone *zone)
{
ECalComponentDateTime start_datetime, end_datetime;
const char *tzid;
gboolean retval = FALSE;
icaltimezone *start_zone, *end_zone;
int offset1, offset2;
tzid = icaltimezone_get_tzid (zone);
e_cal_component_get_dtstart (comp, &start_datetime);
e_cal_component_get_dtend (comp, &end_datetime);
/* If either the DTSTART or the DTEND is a DATE value, we return TRUE.
Maybe if one was a DATE-TIME we should check that, but that should
not happen often. */
if ((start_datetime.value && start_datetime.value->is_date)
|| (end_datetime.value && end_datetime.value->is_date)) {
retval = TRUE;
goto out;
}
/* If the event uses UTC for DTSTART & DTEND, return TRUE. Outlook
will send single events as UTC, so we don't want to mark all of
these. */
if ((!start_datetime.value || start_datetime.value->is_utc)
&& (!end_datetime.value || end_datetime.value->is_utc)) {
retval = TRUE;
goto out;
}
/* If the event uses floating time for DTSTART & DTEND, return TRUE.
Imported vCalendar files will use floating times, so we don't want
to mark all of these. */
if (!start_datetime.tzid && !end_datetime.tzid) {
retval = TRUE;
goto out;
}
/* FIXME: DURATION may be used instead. */
if (e_cal_component_compare_tzid (tzid, start_datetime.tzid)
&& e_cal_component_compare_tzid (tzid, end_datetime.tzid)) {
/* If both TZIDs are the same as the given zone's TZID, then
we know the timezones are the same so we return TRUE. */
retval = TRUE;
} else {
/* If the TZIDs differ, we have to compare the UTC offsets
of the start and end times, using their own timezones and
the given timezone. */
if (!e_cal_get_timezone (client, start_datetime.tzid,
&start_zone, NULL))
goto out;
if (start_datetime.value) {
offset1 = icaltimezone_get_utc_offset (start_zone,
start_datetime.value,
NULL);
offset2 = icaltimezone_get_utc_offset (zone,
start_datetime.value,
NULL);
if (offset1 != offset2)
goto out;
}
if (!e_cal_get_timezone (client, end_datetime.tzid,
&end_zone, NULL))
goto out;
if (end_datetime.value) {
offset1 = icaltimezone_get_utc_offset (end_zone,
end_datetime.value,
NULL);
offset2 = icaltimezone_get_utc_offset (zone,
end_datetime.value,
NULL);
if (offset1 != offset2)
goto out;
}
retval = TRUE;
}
out:
e_cal_component_free_datetime (&start_datetime);
e_cal_component_free_datetime (&end_datetime);
return retval;
}
/**
* cal_comp_confirm_delete_empty_comp:
* @comp: A calendar component.
* @client: Calendar client where the component purportedly lives.
* @widget: Widget to be used as the basis for UTF8 conversion.
*
* Assumming a calendar component with an empty SUMMARY property (as per
* string_is_empty()), asks whether the user wants to delete it based on
* whether the appointment is on the calendar server or not. If the
* component is on the server, this function will present a confirmation
* dialog and delete the component if the user tells it to. If the component
* is not on the server it will just return TRUE.
*
* Return value: A result code indicating whether the component
* was not on the server and is to be deleted locally, whether it
* was on the server and the user deleted it, or whether the
* user cancelled the deletion.
**/
gboolean
cal_comp_is_on_server (ECalComponent *comp, ECal *client)
{
const char *uid;
char *rid = NULL;
icalcomponent *icalcomp;
GError *error = NULL;
g_return_val_if_fail (comp != NULL, FALSE);
g_return_val_if_fail (E_IS_CAL_COMPONENT (comp), FALSE);
g_return_val_if_fail (client != NULL, FALSE);
g_return_val_if_fail (E_IS_CAL (client), FALSE);
/* See if the component is on the server. If it is not, then it likely
* means that the appointment is new, only in the day view, and we
* haven't added it yet to the server. In that case, we don't need to
* confirm and we can just delete the event. Otherwise, we ask
* the user.
*/
e_cal_component_get_uid (comp, &uid);
/*TODO We should not be checking for this here. But since e_cal_util_construct_instance does not
create the instances of all day events, so we dafault to old behaviour */
if (e_cal_get_static_capability (client, CAL_STATIC_CAPABILITY_RECURRENCES_NO_MASTER)) {
rid = e_cal_component_get_recurid_as_string (comp);
}
if (e_cal_get_object (client, uid, rid, &icalcomp, &error)) {
icalcomponent_free (icalcomp);
g_free (rid);
return TRUE;
}
if (error->code != E_CALENDAR_STATUS_OBJECT_NOT_FOUND)
g_warning (G_STRLOC ": %s", error->message);
g_clear_error (&error);
g_free (rid);
return FALSE;
}
/**
* is_icalcomp_on_the_server:
* same as @cal_comp_is_on_server, only the component parameter is icalcomponent, not the ECalComponent.
**/
gboolean
is_icalcomp_on_the_server (icalcomponent *icalcomp, ECal *client)
{
gboolean on_server;
ECalComponent *comp;
if (!icalcomp || !client || !icalcomponent_get_uid (icalcomp))
return FALSE;
comp = e_cal_component_new ();
e_cal_component_set_icalcomponent (comp, icalcomponent_new_clone (icalcomp));
on_server = cal_comp_is_on_server (comp, client);
g_object_unref (comp);
return on_server;
}
/**
* cal_comp_event_new_with_defaults:
*
* Creates a new VEVENT component and adds any default alarms to it as set in
* the program's configuration values.
*
* Return value: A newly-created calendar component.
**/
ECalComponent *
cal_comp_event_new_with_defaults (ECal *client)
{
icalcomponent *icalcomp;
ECalComponent *comp;
int interval;
CalUnits units;
ECalComponentAlarm *alarm;
icalproperty *icalprop;
ECalComponentAlarmTrigger trigger;
if (!e_cal_get_default_object (client, &icalcomp, NULL))
icalcomp = icalcomponent_new (ICAL_VEVENT_COMPONENT);
comp = e_cal_component_new ();
if (!e_cal_component_set_icalcomponent (comp, icalcomp)) {
icalcomponent_free (icalcomp);
e_cal_component_set_new_vtype (comp, E_CAL_COMPONENT_EVENT);
}
if (!calendar_config_get_use_default_reminder ())
return comp;
interval = calendar_config_get_default_reminder_interval ();
units = calendar_config_get_default_reminder_units ();
alarm = e_cal_component_alarm_new ();
/* We don't set the description of the alarm; we'll copy it from the
* summary when it gets committed to the server. For that, we add a
* X-EVOLUTION-NEEDS-DESCRIPTION property to the alarm's component.
*/
icalcomp = e_cal_component_alarm_get_icalcomponent (alarm);
icalprop = icalproperty_new_x ("1");
icalproperty_set_x_name (icalprop, "X-EVOLUTION-NEEDS-DESCRIPTION");
icalcomponent_add_property (icalcomp, icalprop);
e_cal_component_alarm_set_action (alarm, E_CAL_COMPONENT_ALARM_DISPLAY);
trigger.type = E_CAL_COMPONENT_ALARM_TRIGGER_RELATIVE_START;
memset (&trigger.u.rel_duration, 0, sizeof (trigger.u.rel_duration));
trigger.u.rel_duration.is_neg = TRUE;
switch (units) {
case CAL_MINUTES:
trigger.u.rel_duration.minutes = interval;
break;
case CAL_HOURS:
trigger.u.rel_duration.hours = interval;
break;
case CAL_DAYS:
trigger.u.rel_duration.days = interval;
break;
default:
g_warning ("wrong units %d\n", units);
}
e_cal_component_alarm_set_trigger (alarm, trigger);
e_cal_component_add_alarm (comp, alarm);
e_cal_component_alarm_free (alarm);
return comp;
}
ECalComponent *
cal_comp_event_new_with_current_time (ECal *client, gboolean all_day)
{
ECalComponent *comp;
struct icaltimetype itt;
ECalComponentDateTime dt;
icaltimezone *zone;
comp = cal_comp_event_new_with_defaults (client);
g_return_val_if_fail (comp, NULL);
zone = calendar_config_get_icaltimezone ();
if (all_day) {
itt = icaltime_from_timet_with_zone (time (NULL), 1, zone);
dt.value = &itt;
dt.tzid = icaltimezone_get_tzid (zone);
e_cal_component_set_dtstart (comp, &dt);
e_cal_component_set_dtend (comp, &dt);
} else {
itt = icaltime_current_time_with_zone (zone);
icaltime_adjust (&itt, 0, 1, -itt.minute, -itt.second);
dt.value = &itt;
dt.tzid = icaltimezone_get_tzid (zone);
e_cal_component_set_dtstart (comp, &dt);
icaltime_adjust (&itt, 0, 1, 0, 0);
e_cal_component_set_dtend (comp, &dt);
}
return comp;
}
ECalComponent *
cal_comp_task_new_with_defaults (ECal *client)
{
ECalComponent *comp;
icalcomponent *icalcomp;
if (!e_cal_get_default_object (client, &icalcomp, NULL))
icalcomp = icalcomponent_new (ICAL_VTODO_COMPONENT);
comp = e_cal_component_new ();
if (!e_cal_component_set_icalcomponent (comp, icalcomp)) {
icalcomponent_free (icalcomp);
e_cal_component_set_new_vtype (comp, E_CAL_COMPONENT_TODO);
}
return comp;
}
ECalComponent *
cal_comp_memo_new_with_defaults (ECal *client)
{
ECalComponent *comp;
icalcomponent *icalcomp;
if (!e_cal_get_default_object (client, &icalcomp, NULL))
icalcomp = icalcomponent_new (ICAL_VJOURNAL_COMPONENT);
comp = e_cal_component_new ();
if (!e_cal_component_set_icalcomponent (comp, icalcomp)) {
icalcomponent_free (icalcomp);
e_cal_component_set_new_vtype (comp, E_CAL_COMPONENT_JOURNAL);
}
return comp;
}
/**
* cal_comp_util_get_n_icons:
* @comp: A calendar component object.
*
* Get the number of icons owned by the component.
*
* Returns: the number of icons owned by the component.
**/
gint
cal_comp_util_get_n_icons (ECalComponent *comp)
{
GSList *categories_list, *elem;
gint num_icons = 0;
g_return_val_if_fail (comp != NULL, 0);
g_return_val_if_fail (E_IS_CAL_COMPONENT (comp), 0);
e_cal_component_get_categories_list (comp, &categories_list);
for (elem = categories_list; elem; elem = elem->next) {
char *category;
GdkPixmap *pixmap = NULL;
GdkBitmap *mask = NULL;
category = (char *) elem->data;
if (e_categories_config_get_icon_for (category, &pixmap, &mask)) {
num_icons++;
g_object_unref (pixmap);
if (mask)
g_object_unref (mask);
}
}
e_cal_component_free_categories_list (categories_list);
return num_icons;
}
/**
* cal_comp_selection_set_string_list
* Stores list of strings into selection target data.
* Use @ref cal_comp_selection_get_string_list to get this list from target data.
*
* @param data Selection data, where to put list of strings.
* @param str_list List of strings. (Each element is of type const gchar *.)
**/
void
cal_comp_selection_set_string_list (GtkSelectionData *data, GSList *str_list)
{
/* format is "str1\0str2\0...strN\0" */
GSList *p;
GByteArray *array;
g_return_if_fail (data != NULL);
if (!str_list)
return;
array = g_byte_array_new ();
for (p = str_list; p; p = p->next) {
const guint8 *c = p->data;
if (c)
g_byte_array_append (array, c, strlen ((const char *) c) + 1);
}
gtk_selection_data_set (data, data->target, 8, array->data, array->len);
g_byte_array_free (array, TRUE);
}
/**
* cal_comp_selection_get_string_list
* Converts data from selection to list of strings. Data should be assigned
* to selection data with @ref cal_comp_selection_set_string_list.
* Each string in newly created list should be freed by g_free.
* List itself should be freed by g_slist_free.
*
* @param data Selection data, where to put list of strings.
* @return Newly allocated GSList of strings.
**/
GSList *
cal_comp_selection_get_string_list (GtkSelectionData *data)
{
/* format is "str1\0str2\0...strN\0" */
char *inptr, *inend;
GSList *list;
g_return_val_if_fail (data != NULL, NULL);
list = NULL;
inptr = (char *)data->data;
inend = (char *)(data->data + data->length);
while (inptr < inend) {
char *start = inptr;
while (inptr < inend && *inptr)
inptr++;
list = g_slist_prepend (list, g_strndup (start, inptr - start));
inptr++;
}
return list;
}
static void
datetime_to_zone (ECal *client, ECalComponentDateTime *date, const char *tzid)
{
icaltimezone *from, *to;
g_return_if_fail (date != NULL);
if (date->tzid == NULL || tzid == NULL ||
date->tzid == tzid || g_str_equal (date->tzid, tzid))
return;
from = icaltimezone_get_builtin_timezone_from_tzid (date->tzid);
if (!from) {
if (!e_cal_get_timezone (client, date->tzid, &from, NULL))
g_warning ("%s: Could not get timezone from server: %s", G_STRFUNC, date->tzid ? date->tzid : "");
}
to = icaltimezone_get_builtin_timezone_from_tzid (tzid);
if (!to) {
/* do not check failure here, maybe the zone is not available there */
e_cal_get_timezone (client, tzid, &to, NULL);
}
icaltimezone_convert_time (date->value, from, to);
date->tzid = tzid;
}
/**
* cal_comp_set_dtstart_with_oldzone:
* Changes 'dtstart' of the component, but converts time to the old timezone.
* @param client ECal structure, to retrieve timezone from, when required.
* @param comp Component, where make the change.
* @param pdate Value, to change to.
**/
void
cal_comp_set_dtstart_with_oldzone (ECal *client, ECalComponent *comp, const ECalComponentDateTime *pdate)
{
ECalComponentDateTime olddate, date;
g_return_if_fail (comp != NULL);
g_return_if_fail (pdate != NULL);
e_cal_component_get_dtstart (comp, &olddate);
date = *pdate;
datetime_to_zone (client, &date, olddate.tzid);
e_cal_component_set_dtstart (comp, &date);
e_cal_component_free_datetime (&olddate);
}
/**
* cal_comp_set_dtend_with_oldzone:
* Changes 'dtend' of the component, but converts time to the old timezone.
* @param client ECal structure, to retrieve timezone from, when required.
* @param comp Component, where make the change.
* @param pdate Value, to change to.
**/
void
cal_comp_set_dtend_with_oldzone (ECal *client, ECalComponent *comp, const ECalComponentDateTime *pdate)
{
ECalComponentDateTime olddate, date;
g_return_if_fail (comp != NULL);
g_return_if_fail (pdate != NULL);
e_cal_component_get_dtend (comp, &olddate);
date = *pdate;
datetime_to_zone (client, &date, olddate.tzid);
e_cal_component_set_dtend (comp, &date);
e_cal_component_free_datetime (&olddate);
}
static gboolean
update_single_object (ECal *client, icalcomponent *icalcomp, gboolean fail_on_modify)
{
const char *uid;
char *tmp;
icalcomponent *tmp_icalcomp;
gboolean res;
uid = icalcomponent_get_uid (icalcomp);
if (e_cal_get_object (client, uid, NULL, &tmp_icalcomp, NULL)) {
if (fail_on_modify)
return FALSE;
return e_cal_modify_object (client, icalcomp, CALOBJ_MOD_ALL, NULL);
}
tmp = NULL;
res = e_cal_create_object (client, icalcomp, &tmp, NULL);
g_free (tmp);
return res;
}
static gboolean
update_objects (ECal *client, icalcomponent *icalcomp)
{
icalcomponent *subcomp;
icalcomponent_kind kind;
kind = icalcomponent_isa (icalcomp);
if (kind == ICAL_VTODO_COMPONENT ||
kind == ICAL_VEVENT_COMPONENT ||
kind == ICAL_VJOURNAL_COMPONENT)
return update_single_object (client, icalcomp, kind == ICAL_VJOURNAL_COMPONENT);
else if (kind != ICAL_VCALENDAR_COMPONENT)
return FALSE;
subcomp = icalcomponent_get_first_component (icalcomp, ICAL_ANY_COMPONENT);
while (subcomp) {
gboolean success;
kind = icalcomponent_isa (subcomp);
if (kind == ICAL_VTIMEZONE_COMPONENT) {
icaltimezone *zone;
zone = icaltimezone_new ();
icaltimezone_set_component (zone, subcomp);
success = e_cal_add_timezone (client, zone, NULL);
icaltimezone_free (zone, 1);
if (!success)
return success;
} else if (kind == ICAL_VTODO_COMPONENT ||
kind == ICAL_VEVENT_COMPONENT ||
kind == ICAL_VJOURNAL_COMPONENT) {
success = update_single_object (client, subcomp, kind == ICAL_VJOURNAL_COMPONENT);
if (!success)
return success;
}
subcomp = icalcomponent_get_next_component (icalcomp, ICAL_ANY_COMPONENT);
}
return TRUE;
}
/**
* cal_comp_process_source_list_drop:
* Processes the drop signal over the ESourceList.
* @param destination Where to put the component.
* @param comp Component to move/copy.
* @param action What to do.
* @param source_uid Where the component comes from; used when moving.
* @param source_list The ESourceList over which the event was called.
* @return Whether was the operation successful.
**/
gboolean
cal_comp_process_source_list_drop (ECal *destination, icalcomponent *comp, GdkDragAction action, const char *source_uid, ESourceList *source_list)
{
const char * uid;
char *old_uid = NULL;
icalcomponent *tmp_icalcomp = NULL;
GError *error = NULL;
gboolean success = FALSE;
g_return_val_if_fail (destination != NULL, FALSE);
g_return_val_if_fail (comp != NULL, FALSE);
g_return_val_if_fail (source_uid != NULL, FALSE);
g_return_val_if_fail (source_list != NULL, FALSE);
/* FIXME deal with GDK_ACTION_ASK */
if (action == GDK_ACTION_COPY) {
char *tmp;
old_uid = g_strdup (icalcomponent_get_uid (comp));
tmp = e_cal_component_gen_uid ();
icalcomponent_set_uid (comp, tmp);
g_free (tmp);
}
uid = icalcomponent_get_uid (comp);
if (!old_uid)
old_uid = g_strdup (uid);
if (!e_cal_get_object (destination, uid, NULL, &tmp_icalcomp, &error)) {
if ((error != NULL) && (error->code != E_CALENDAR_STATUS_OBJECT_NOT_FOUND)) {
switch (e_cal_get_source_type (destination)) {
case E_CAL_SOURCE_TYPE_EVENT:
g_message ("Failed to search the object in destination event list: %s", error->message);
break;
case E_CAL_SOURCE_TYPE_TODO:
g_message ("Failed to search the object in destination task list: %s", error->message);
break;
case E_CAL_SOURCE_TYPE_JOURNAL:
g_message ("Failed to search the object in destination memo list: %s", error->message);
break;
default:
break;
}
} else {
/* this will report success by last item, but we don't care */
success = update_objects (destination, comp);
if (success && action == GDK_ACTION_MOVE) {
/* remove components rather here, because we know which has been moved */
ESource *source_source;
ECal *source_client;
source_source = e_source_list_peek_source_by_uid (source_list, source_uid);
if (source_source && !E_IS_SOURCE_GROUP (source_source) && !e_source_get_readonly (source_source)) {
source_client = auth_new_cal_from_source (source_source, e_cal_get_source_type (destination));
if (source_client) {
gboolean read_only = TRUE;
e_cal_is_read_only (source_client, &read_only, NULL);
if (!read_only && e_cal_open (source_client, TRUE, NULL))
e_cal_remove_object (source_client, old_uid, NULL);
else if (!read_only) {
switch (e_cal_get_source_type (destination)) {
case E_CAL_SOURCE_TYPE_EVENT:
g_message ("Cannot open source client to remove old event");
break;
case E_CAL_SOURCE_TYPE_TODO:
g_message ("Cannot open source client to remove old task");
break;
case E_CAL_SOURCE_TYPE_JOURNAL:
g_message ("Cannot open source client to remove old memo");
break;
default:
break;
}
}
g_object_unref (source_client);
} else {
switch (e_cal_get_source_type (destination)) {
case E_CAL_SOURCE_TYPE_EVENT:
g_message ("Cannot create source client to remove old event");
break;
case E_CAL_SOURCE_TYPE_TODO:
g_message ("Cannot create source client to remove old task");
break;
case E_CAL_SOURCE_TYPE_JOURNAL:
g_message ("Cannot create source client to remove old memo");
break;
default:
break;
}
}
}
}
}
g_clear_error (&error);
} else
icalcomponent_free (tmp_icalcomp);
g_free (old_uid);
return success;
}
void
comp_util_sanitize_recurrence_master (ECalComponent *comp, ECal *client)
{
ECalComponent *master = NULL;
icalcomponent *icalcomp = NULL;
ECalComponentRange rid;
ECalComponentDateTime sdt;
const char *uid;
/* Get the master component */
e_cal_component_get_uid (comp, &uid);
if (!e_cal_get_object (client, uid, NULL, &icalcomp, NULL)) {
g_warning ("Unable to get the master component \n");
return;
}
master = e_cal_component_new ();
e_cal_component_set_icalcomponent (master, icalcomp);
/* Compare recur id and start date */
e_cal_component_get_recurid (comp, &rid);
e_cal_component_get_dtstart (comp, &sdt);
if (icaltime_compare_date_only (*rid.datetime.value, *sdt.value) == 0)
{
ECalComponentDateTime msdt, medt, edt;
int *sequence;
e_cal_component_get_dtstart (master, &msdt);
e_cal_component_get_dtend (master, &medt);
e_cal_component_get_dtend (comp, &edt);
sdt.value->year = msdt.value->year;
sdt.value->month = msdt.value->month;
sdt.value->day = msdt.value->day;
edt.value->year = medt.value->year;
edt.value->month = medt.value->month;
edt.value->day = medt.value->day;
e_cal_component_set_dtstart (comp, &sdt);
e_cal_component_set_dtend (comp, &edt);
e_cal_component_get_sequence (master, &sequence);
e_cal_component_set_sequence (comp, sequence);
e_cal_component_free_datetime (&msdt);
e_cal_component_free_datetime (&medt);
e_cal_component_free_datetime (&edt);
}
e_cal_component_free_datetime (&sdt);
e_cal_component_free_range (&rid);
e_cal_component_set_recurid (comp, NULL);
g_object_unref (master);
}