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|
/* $calcurse: day.c,v 1.27 2007/08/04 14:34:03 culot Exp $ */
/*
* Calcurse - text-based organizer
* Copyright (c) 2004-2007 Frederic Culot
*
* 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.
*
* Send your feedback or comments to : calcurse@culot.org
* Calcurse home page : http://culot.org/calcurse
*
*/
#include <stdlib.h>
#include <string.h>
#include <sys/types.h>
#include <ctype.h>
#include <time.h>
#include "i18n.h"
#include "utils.h"
#include "apoint.h"
#include "event.h"
#include "day.h"
static struct day_item_s *day_items_ptr;
static struct day_saved_item_s *day_saved_item = NULL;
/* Free the current day linked list containing the events and appointments. */
static void
day_free_list(void)
{
struct day_item_s *p, *q;
for (p = day_items_ptr; p != 0; p = q) {
q = p->next;
free(p->mesg);
free(p);
}
day_items_ptr = NULL;
}
/* Add an event in the current day list */
static struct day_item_s *
day_add_event(int type, char *mesg, long day, int id)
{
struct day_item_s *o, **i;
o = (struct day_item_s *) malloc(sizeof(struct day_item_s));
o->mesg = (char *) malloc(strlen(mesg) + 1);
strncpy(o->mesg, mesg, strlen(mesg) + 1);
o->type = type;
o->appt_dur = 0;
o->appt_pos = 0;
o->start = day;
o->evnt_id = id;
i = &day_items_ptr;
for (;;) {
if (*i == 0) {
o->next = *i;
*i = o;
break;
}
i = &(*i)->next;
}
return o;
}
/* Add an appointment in the current day list. */
static struct day_item_s *
day_add_apoint(int type, char *mesg, long start, long dur, char state,
int real_pos)
{
struct day_item_s *o, **i;
int insert_item = 0;
o = (struct day_item_s *) malloc(sizeof(struct day_item_s));
o->mesg = (char *) malloc(strlen(mesg) + 1);
strncpy(o->mesg, mesg, strlen(mesg) + 1);
o->start = start;
o->appt_dur = dur;
o->appt_pos = real_pos;
o->state = state;
o->type = type;
o->evnt_id = 0;
i = &day_items_ptr;
for (;;) {
if (*i == 0) {
insert_item = 1;
} else if ( ((*i)->start > start) &&
((*i)->type > EVNT) ) {
insert_item = 1;
}
if (insert_item) {
o->next = *i;
*i = o;
break;
}
i = &(*i)->next;
}
return o;
}
/*
* Store the events for the selected day in structure pointed
* by day_items_ptr. This is done by copying the events
* from the general structure pointed by eventlist to the structure
* dedicated to the selected day.
* Returns the number of events for the selected day.
*/
static int
day_store_events(long date)
{
struct event_s *j;
struct day_item_s *ptr;
int e_nb = 0;
for (j = eventlist; j != 0; j = j->next) {
if (event_inday(j, date)) {
e_nb++;
ptr = day_add_event(EVNT, j->mesg, j->day, j->id);
}
}
return e_nb;
}
/*
* Store the recurrent events for the selected day in structure pointed
* by day_items_ptr. This is done by copying the recurrent events
* from the general structure pointed by recur_elist to the structure
* dedicated to the selected day.
* Returns the number of recurrent events for the selected day.
*/
static int
day_store_recur_events(long date)
{
struct recur_event_s *j;
struct day_item_s *ptr;
int e_nb = 0;
for (j = recur_elist; j != 0; j = j->next) {
if (recur_item_inday(j->day, j->exc, j->rpt->type, j->rpt->freq,
j->rpt->until, date)) {
e_nb++;
ptr = day_add_event(RECUR_EVNT, j->mesg, j->day, j->id);
}
}
return e_nb;
}
/*
* Store the apoints for the selected day in structure pointed
* by day_items_ptr. This is done by copying the appointments
* from the general structure pointed by alist_p->root to the
* structure dedicated to the selected day.
* Returns the number of appointments for the selected day.
*/
static int
day_store_apoints(long date)
{
apoint_llist_node_t *j;
struct day_item_s *ptr;
int a_nb = 0;
pthread_mutex_lock(&(alist_p->mutex));
for (j = alist_p->root; j != 0; j = j->next) {
if (apoint_inday(j, date)) {
a_nb++;
ptr = day_add_apoint(APPT, j->mesg, j->start, j->dur,
j->state, 0);
}
}
pthread_mutex_unlock(&(alist_p->mutex));
return a_nb;
}
/*
* Store the recurrent apoints for the selected day in structure pointed
* by day_items_ptr. This is done by copying the appointments
* from the general structure pointed by recur_alist_p->root to the
* structure dedicated to the selected day.
* Returns the number of recurrent appointments for the selected day.
*/
static int
day_store_recur_apoints(long date)
{
recur_apoint_llist_node_t *j;
struct day_item_s *ptr;
long real_start;
int a_nb = 0, n = 0;
pthread_mutex_lock(&(recur_alist_p->mutex));
for (j = recur_alist_p->root; j != 0; j = j->next) {
if ((real_start = recur_item_inday(j->start, j->exc,
j->rpt->type, j->rpt->freq, j->rpt->until, date)) ){
a_nb++;
ptr = day_add_apoint(
RECUR_APPT, j->mesg, real_start, j->dur,
j->state, n);
n++;
}
}
pthread_mutex_unlock(&(recur_alist_p->mutex));
return a_nb;
}
/*
* Store all of the items to be displayed for the selected day.
* Items are of four types: recursive events, normal events,
* recursive appointments and normal appointments.
* The items are stored in the linked list pointed by *day_items_ptr
* and the length of the new pad to write is returned.
* The number of events and appointments in the current day are also updated.
*/
static int
day_store_items(long date, unsigned *pnb_events, unsigned *pnb_apoints)
{
int pad_length;
int nb_events, nb_recur_events;
int nb_apoints, nb_recur_apoints;
pad_length = nb_events = nb_apoints = 0;
nb_recur_events = nb_recur_apoints = 0;
if (day_items_ptr != 0)
day_free_list();
nb_recur_events = day_store_recur_events(date);
nb_events = day_store_events(date);
*pnb_events = nb_events;
nb_recur_apoints = day_store_recur_apoints(date);
nb_apoints = day_store_apoints(date);
*pnb_apoints = nb_apoints;
pad_length = nb_recur_events + nb_events + 1 +
3*(nb_recur_apoints + nb_apoints);
*pnb_apoints += nb_recur_apoints;
*pnb_events += nb_recur_events;
return pad_length;
}
/*
* Store the events and appointments for the selected day, and write
* those items in a pad. If selected day is null, then store items for current
* day. This is useful to speed up the appointment panel update.
*/
day_items_nb_t *
day_process_storage(date_t *slctd_date, bool day_changed, day_items_nb_t *inday)
{
long date;
date_t day;
if (slctd_date)
day = *slctd_date;
else
calendar_store_current_date(&day);
date = date2sec(day, 0, 0);
/* Inits */
if (apad->length != 0)
delwin(apad->ptrwin);
/* Store the events and appointments (recursive and normal items). */
apad->length = day_store_items(date,
&inday->nb_events, &inday->nb_apoints);
/* Create the new pad with its new length. */
if (day_changed)
apad->first_onscreen = 0;
apad->ptrwin = newpad(apad->length, apad->width);
return (inday);
}
/*
* Returns a structure of type apoint_llist_node_t given a structure of type
* day_item_s
*/
static apoint_llist_node_t *
day_item_s2apoint_s(struct day_item_s *p)
{
apoint_llist_node_t *a;
a = (apoint_llist_node_t *) malloc(sizeof(apoint_llist_node_t));
a->mesg = (char *) malloc(strlen(p->mesg) + 1);
a->state = p->state;
a->start = p->start;
a->dur = p->appt_dur;
a->mesg = p->mesg;
return a;
}
/*
* Write the appointments and events for the selected day in a pad.
* An horizontal line is drawn between events and appointments, and the
* item selected by user is highlighted. This item is also saved inside
* structure (pointed by day_saved_item), to be later displayed in a
* popup window if requested.
*/
void
day_write_pad(long date, int width, int length, int incolor)
{
struct day_item_s *p;
int line, item_number, max_pos, recur;
const int x_pos = 0;
bool draw_line = false;
line = item_number = 0;
max_pos = length;
/* Initialize the structure used to store highlited item. */
if (day_saved_item == NULL) {
day_saved_item = (struct day_saved_item_s *)
malloc(sizeof(struct day_saved_item_s));
day_saved_item->mesg = (char *) malloc(sizeof(char));
}
for (p = day_items_ptr; p != 0; p = p->next) {
if (p->type == RECUR_EVNT || p->type == RECUR_APPT)
recur = 1;
else
recur = 0;
/* First print the events for current day. */
if (p->type < RECUR_APPT) {
item_number++;
if (item_number - incolor == 0) {
day_saved_item->type = p->type;
day_saved_item->mesg = p->mesg;
}
display_item(apad->ptrwin, item_number - incolor, p->mesg,
recur, width - 5, line, x_pos);
line++;
draw_line = true;
} else {
/* Draw a line between events and appointments. */
if (line > 0 && draw_line){
wmove(apad->ptrwin, line, 0);
whline(apad->ptrwin, 0, width);
draw_line = false;
}
/* Last print the appointments for current day. */
item_number++;
if (item_number - incolor == 0) {
day_saved_item->type = p->type;
day_saved_item->mesg = p->mesg;
apoint_sec2str(day_item_s2apoint_s(p),
p->type, date,
day_saved_item->start,
day_saved_item->end);
}
display_item_date(apad->ptrwin, item_number - incolor,
day_item_s2apoint_s(p), p->type, date,
line + 1, x_pos);
display_item(apad->ptrwin, item_number - incolor, p->mesg,
0, width - 7, line + 2, x_pos + 2);
line = line + 3;
}
}
}
/* Display an item inside a popup window. */
void day_popup_item(void)
{
char *error =
_("FATAL ERROR in day_popup_item: unknown item type\n");
if (day_saved_item->type == EVNT || day_saved_item->type == RECUR_EVNT)
item_in_popup(NULL, NULL, day_saved_item->mesg, _("Event :"));
else if (day_saved_item->type == APPT ||
day_saved_item->type == RECUR_APPT)
item_in_popup(day_saved_item->start, day_saved_item->end,
day_saved_item->mesg, _("Appointment :"));
else
ierror(error);
/* NOTREACHED */
}
/*
* Need to know if there is an item for the current selected day inside
* calendar. This is used to put the correct colors inside calendar panel.
*/
int day_check_if_item(date_t day) {
struct recur_event_s *re;
recur_apoint_llist_node_t *ra;
struct event_s *e;
apoint_llist_node_t *a;
const long date = date2sec(day, 0, 0);
for (re = recur_elist; re != 0; re = re->next)
if (recur_item_inday(re->day, re->exc, re->rpt->type,
re->rpt->freq, re->rpt->until, date))
return 1;
pthread_mutex_lock(&(recur_alist_p->mutex));
for (ra = recur_alist_p->root; ra != 0; ra = ra->next)
if (recur_item_inday(ra->start, ra->exc, ra->rpt->type,
ra->rpt->freq, ra->rpt->until, date)) {
pthread_mutex_unlock(
&(recur_alist_p->mutex));
return 1;
}
pthread_mutex_unlock(&(recur_alist_p->mutex));
for (e = eventlist; e != 0; e = e->next)
if (event_inday(e, date))
return 1;
pthread_mutex_lock(&(alist_p->mutex));
for (a = alist_p->root; a != 0; a = a->next)
if (apoint_inday(a, date)) {
pthread_mutex_unlock(&(alist_p->mutex));
return 1;
}
pthread_mutex_unlock(&(alist_p->mutex));
return 0;
}
/* Request the user to enter a new time. */
static char *
day_edit_time(long time) {
char *timestr;
char *msg_time = _("Enter the new time ([hh:mm] or [h:mm]) : ");
char *enter_str = _("Press [Enter] to continue");
char *fmt_msg =
_("You entered an invalid time, should be [h:mm] or [hh:mm]");
while (1) {
status_mesg(msg_time, "");
timestr = date_sec2hour_str(time);
updatestring(swin, ×tr, 0, 1);
if (check_time(timestr) != 1 || strlen(timestr) == 0) {
status_mesg(fmt_msg, enter_str);
wgetch(swin);
} else
return timestr;
}
}
/* Edit an already existing item. */
void
day_edit_item(int item_num)
{
#define STRT '1'
#define END '2'
#define DESC '3'
#define REPT '4'
struct day_item_s *p;
struct recur_event_s *re;
struct rpt_s *rpt = 0L;
struct tm *lt;
time_t t;
date_t new_date;
recur_apoint_llist_node_t *ra, *ra_new;
long date, newtime = 0;
int cancel, ch = 0, valid_date = 0, newfreq = 0, date_entered = 0;
int newmonth, newday, newyear;
unsigned hr, mn;
char *timestr, *typestr, *freqstr;
char *msg_norecur =
_("Edit: (1)Start time, (2)End time or (3)Description?");
char *choice_norecur = "[1/2/3] ";
char *msg_recur =
_("Edit: (1)Start time, (2)End time, (3)Description or (4)Repetition?");
char *msg_event_recur =
_("Edit: (1)Description or (2)Repetition?");
char *choice_recur = "[1/2/3/4] ";
char *choice_event_recur = "[1/2] ";
char *mesg_wrong_date = _("The entered date is not valid.");
char *mesg_possible_fmts =
_("Possible formats are [mm/dd/yyyy] or '0' for an endless repetetition");
char *error_msg =
_("Invalid time: start time must be before end time!");
char *enter_str = _("Press [Enter] to continue");
char *mesg_desc = _("Enter the new item description:");
char *mesg_type_1 =
_("Enter the new repetition type: (D)aily, (W)eekly, (M)onthly, (Y)early");
char *mesg_type_2 = _("[D/W/M/Y] ");
char *mesg_freq_1 = _("Enter the new repetition frequence:");
char *mesg_wrong_freq = _("The frequence you entered is not valid.");
char *mesg_until_1 =
_("Enter the new ending date: [mm/dd/yyyy] or '0'");
p = day_get_item(item_num);
date = calendar_get_slctd_day_sec();
switch (p->type) {
case RECUR_EVNT:
re = recur_get_event(date,
day_item_nb(date, item_num, RECUR_EVNT));
rpt = re->rpt;
status_mesg(msg_event_recur, choice_event_recur);
while (ch != STRT && ch != END && ch != ESCAPE)
ch = wgetch(swin);
if (ch == ESCAPE)
return;
else
ch += 2;
break;
case EVNT:
ch = DESC;
break;
case RECUR_APPT:
ra = recur_get_apoint(date,
day_item_nb(date, item_num, RECUR_APPT));
rpt = ra->rpt;
status_mesg(msg_recur, choice_recur);
while (ch != STRT && ch != END && ch != DESC &&
ch != REPT && ch != ESCAPE)
ch = wgetch(swin);
if (ch == ESCAPE)
return;
break;
case APPT:
status_mesg(msg_norecur, choice_norecur);
while (ch != STRT && ch != END && ch != DESC && ch != ESCAPE)
ch = wgetch(swin);
if (ch == ESCAPE)
return;
break;
}
switch (ch) {
case STRT:
while (!valid_date) {
timestr = day_edit_time(p->start);
sscanf(timestr, "%u:%u", &hr, &mn);
free(timestr);
newtime = update_time_in_date(p->start, hr, mn);
if (newtime < p->start + p->appt_dur) {
p->appt_dur -= (newtime - p->start);
p->start = newtime;
valid_date = 1;
} else {
status_mesg(error_msg, enter_str);
wgetch(swin);
}
}
break;
case END:
while (!valid_date) {
timestr = day_edit_time(
p->start + p->appt_dur);
sscanf(timestr, "%u:%u", &hr, &mn);
free(timestr);
newtime = update_time_in_date(p->start, hr, mn);
p->appt_dur = (newtime > p->start) ?
newtime - p->start :
DAYINSEC + newtime - p->start;
valid_date = 1;
}
break;
case DESC:
status_mesg(mesg_desc, "");
updatestring(swin, &p->mesg, 0, 1);
break;
case REPT:
while ( (ch != 'D') && (ch != 'W') && (ch != 'M')
&& (ch != 'Y') ) {
status_mesg(mesg_type_1, mesg_type_2);
typestr = (char *)malloc(sizeof(char) * 2);
*typestr = recur_def2char(rpt->type);
cancel = updatestring(swin, &typestr, 0, 1);
ch = toupper(*typestr);
free(typestr);
if (cancel)
return;
}
while (newfreq == 0) {
status_mesg(mesg_freq_1, "");
freqstr = (char *) malloc(BUFSIZ);
snprintf(freqstr, BUFSIZ, "%d", rpt->freq);
cancel = updatestring(swin, &freqstr, 0, 1);
newfreq = atoi(freqstr);
free(freqstr);
if (cancel)
return;
else {
if (newfreq == 0) {
status_mesg(mesg_wrong_freq, enter_str);
wgetch(swin);
}
}
}
while (!date_entered) {
status_mesg(mesg_until_1, "");
timestr = date_sec2date_str(rpt->until);
cancel = updatestring(swin, ×tr, 0, 1);
if (cancel) {
free(timestr);
return;
}
if (strlen(timestr) == 1 &&
strncmp(timestr, "0", 1) == 0 ) {
rpt->until = 0;
date_entered = 1;
} else {
valid_date = check_date(timestr);
if (valid_date) {
sscanf(timestr, "%d / %d / %d",
&newmonth, &newday, &newyear);
t = p->start; lt = localtime(&t);
new_date.dd = newday;
new_date.mm = newmonth;
new_date.yyyy = newyear;
rpt->until = date2sec(new_date,
lt->tm_hour, lt->tm_min);
if (rpt->until < p->start) {
status_mesg(error_msg,
enter_str);
wgetch(swin);
date_entered = 0;
} else
date_entered = 1;
} else {
status_mesg(mesg_wrong_date,
mesg_possible_fmts);
wgetch(swin);
date_entered = 0;
}
}
}
free(timestr);
rpt->freq = newfreq;
rpt->type = recur_char2def(ch);
break;
}
day_erase_item(date, item_num, 1);
switch (p->type) {
case RECUR_EVNT:
recur_event_new(p->mesg, p->start, p->evnt_id,
rpt->type, rpt->freq, rpt->until, NULL);
break;
case EVNT:
event_new(p->mesg, p->start, p->evnt_id);
break;
case RECUR_APPT:
ra_new = recur_apoint_new(p->mesg, p->start, p->appt_dur,
p->state, rpt->type, rpt->freq, rpt->until, NULL);
if (notify_bar())
notify_check_repeated(ra_new);
break;
case APPT:
apoint_new(p->mesg, p->start, p->appt_dur, p->state);
if (notify_bar())
notify_check_added(p->mesg, p->start, p->state);
break;
}
}
/*
* In order to erase an item, we need to count first the number of
* items for each type (in order: recurrent events, events,
* recurrent appointments and appointments) and then to test the
* type of the item to be deleted.
*/
int day_erase_item(long date, int item_number, int force_erase) {
int ch = 0;
unsigned delete_whole;
struct day_item_s *p;
char *erase_warning =
_("This item is recurrent. "
"Delete (a)ll occurences or just this (o)ne ?");
char *erase_choice =
_("[a/o] ");
if (force_erase)
ch = 'a';
p = day_get_item(item_number);
if (p->type == EVNT) {
event_delete_bynum(date, day_item_nb(date, item_number, EVNT));
} else if (p->type == APPT) {
apoint_delete_bynum(date, day_item_nb(date, item_number, APPT));
} else {
while ( (ch != 'a') && (ch != 'o') && (ch != ESCAPE)) {
status_mesg(erase_warning, erase_choice);
ch = wgetch(swin);
}
if (ch == 'a') {
delete_whole = 1;
} else if (ch == 'o') {
delete_whole = 0;
} else {
return 0;
}
if (p->type == RECUR_EVNT) {
recur_event_erase(date,
day_item_nb(date, item_number, RECUR_EVNT),
delete_whole);
} else {
recur_apoint_erase(date, p->appt_pos, delete_whole);
}
}
return p->type;
}
/* Returns a structure containing the selected item. */
struct day_item_s *day_get_item(int item_number)
{
struct day_item_s *o;
int i;
o = day_items_ptr;
for (i = 1; i < item_number; i++) {
o = o->next;
}
return o;
}
/* Returns the real item number, given its type. */
int
day_item_nb(long date, int day_num, int type)
{
int i, nb_item[MAX_TYPES];
struct day_item_s *p;
for (i = 0; i < MAX_TYPES; i++)
nb_item[i] = 0;
p = day_items_ptr;
for (i = 1; i < day_num; i++) {
nb_item[p->type - 1]++;
p = p->next;
}
return (nb_item[type - 1]);
}
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