/*
* Calcurse - text-based organizer
*
* Copyright (c) 2004-2012 calcurse Development Team <misc@calcurse.org>
* All rights reserved.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions
* are met:
*
* - Redistributions of source code must retain the above
* copyright notice, this list of conditions and the
* following disclaimer.
*
* - Redistributions in binary form must reproduce the above
* copyright notice, this list of conditions and the
* following disclaimer in the documentation and/or other
* materials provided with the distribution.
*
* THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
* "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
* LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
* A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
* OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
* SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
* LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
* DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
* THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
* (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
* OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
*
* Send your feedback or comments to : misc@calcurse.org
* Calcurse home page : http://calcurse.org
*
*/
#include <stdlib.h>
#include <string.h>
#include <math.h>
#include "calcurse.h"
#define SCREEN_ACQUIRE \
pthread_cleanup_push(screen_cleanup, (void *)NULL); \
screen_acquire();
#define SCREEN_RELEASE \
screen_release(); \
pthread_cleanup_pop(0);
/* Variables to handle calcurse windows. */
struct window win[NBWINS];
/* User-configurable side bar width. */
static unsigned sbarwidth_perc;
static enum win slctd_win;
static int layout;
/*
* The screen_mutex mutex and wins_refresh(), wins_wrefresh(), wins_doupdate()
* functions are used to prevent concurrent updates of the screen.
* It was observed that the display could get screwed up when mulitple threads
* tried to refresh the screen at the same time.
*
* Note (2010-03-21):
* Since recent versions of ncurses (5.7), rudimentary support for threads are
* available (use_screen(), use_window() for instance - see curs_threads(3)),
* but to remain compatible with earlier versions, it was chosen to rely on a
* screen-level mutex instead.
*/
static pthread_mutex_t screen_mutex = PTHREAD_MUTEX_INITIALIZER;
static unsigned screen_acquire(void)
{
if (pthread_mutex_lock(&screen_mutex) != 0)
return 0;
else
return 1;
}
static void screen_release(void)
{
pthread_mutex_unlock(&screen_mutex);
}
static void screen_cleanup(void *arg)
{
screen_release();
}
/*
* FIXME: The following functions currently lock the whole screen. Use both
* window-level and screen-level mutexes (or use use_screen() and use_window(),
* see curs_threads(3)) to avoid locking too much.
*/
unsigned wins_nbar_lock(void)
{
return screen_acquire();
}
void wins_nbar_unlock(void)
{
screen_release();
}
void wins_nbar_cleanup(void *arg)
{
wins_nbar_unlock();
}
unsigned wins_calendar_lock(void)
{
return screen_acquire();
}
void wins_calendar_unlock(void)
{
screen_release();
}
void wins_calendar_cleanup(void *arg)
{
wins_calendar_unlock();
}
int wins_refresh(void)
{
int rc;
SCREEN_ACQUIRE;
rc = refresh();
SCREEN_RELEASE;
return rc;
}
int wins_wrefresh(WINDOW * win)
{
int rc;
if (!win)
return ERR;
SCREEN_ACQUIRE;
rc = wrefresh(win);
SCREEN_RELEASE;
return rc;
}
int wins_doupdate(void)
{
int rc;
SCREEN_ACQUIRE;
rc = doupdate();
SCREEN_RELEASE;
return rc;
}
/* Get the current layout. */
int wins_layout(void)
{
return layout;
}
/* Set the current layout. */
void wins_set_layout(int nb)
{
layout = nb;
}
/* Get the current side bar width. */
unsigned wins_sbar_width(void)
{
if (sbarwidth_perc > SBARMAXWIDTHPERC)
return col * SBARMAXWIDTHPERC / 100;
else {
unsigned sbarwidth = (unsigned)(col * sbarwidth_perc / 100);
return (sbarwidth < SBARMINWIDTH) ? SBARMINWIDTH : sbarwidth;
}
}
/*
* Return the side bar width in percentage of the total number of columns
* available in calcurse's screen.
*/
unsigned wins_sbar_wperc(void)
{
return sbarwidth_perc > SBARMAXWIDTHPERC ? SBARMAXWIDTHPERC : sbarwidth_perc;
}
/*
* Set side bar width (unit: number of characters) given a width in percentage
* of calcurse's screen total width.
* The side bar could not have a width representing more than 50% of the screen,
* and could not be less than SBARMINWIDTH characters.
*/
void wins_set_sbar_width(unsigned perc)
{
sbarwidth_perc = perc;
}
/* Change the width of the side bar within acceptable boundaries. */
void wins_sbar_winc(void)
{
if (sbarwidth_perc < SBARMAXWIDTHPERC)
sbarwidth_perc++;
}
void wins_sbar_wdec(void)
{
if (sbarwidth_perc > 0)
sbarwidth_perc--;
}
/* Returns an enum which corresponds to the window which is selected. */
enum win wins_slctd(void)
{
return slctd_win;
}
/* Sets the selected window. */
void wins_slctd_set(enum win window)
{
slctd_win = window;
}
/* TAB key was hit in the interface, need to select next window. */
void wins_slctd_next(void)
{
if (slctd_win == TOD)
slctd_win = CAL;
else
slctd_win++;
}
static void wins_init_panels(void)
{
win[CAL].p = newwin(CALHEIGHT, wins_sbar_width(), win[CAL].y, win[CAL].x);
wins_show(win[CAL].p, _("Calendar"));
win[APP].p = newwin(win[APP].h, win[APP].w, win[APP].y, win[APP].x);
wins_show(win[APP].p, _("Appointments"));
apad.width = win[APP].w - 3;
apad.ptrwin = newpad(apad.length, apad.width);
win[TOD].p = newwin(win[TOD].h, win[TOD].w, win[TOD].y, win[TOD].x);
wins_show(win[TOD].p, _("ToDo"));
/* Enable function keys (i.e. arrow keys) in those windows */
keypad(win[CAL].p, TRUE);
keypad(win[APP].p, TRUE);
keypad(win[TOD].p, TRUE);
}
/* Create all the windows. */
void wins_init(void)
{
wins_init_panels();
win[STA].p = newwin(win[STA].h, win[STA].w, win[STA].y, win[STA].x);
keypad(win[STA].p, TRUE);
/* Notify that the curses mode is now launched. */
ui_mode = UI_CURSES;
}
/*
* Create a new window and its associated pad, which is used to make the
* scrolling faster.
*/
void wins_scrollwin_init(struct scrollwin *sw)
{
EXIT_IF(sw == NULL, "null pointer");
sw->win.p = newwin(sw->win.h, sw->win.w, sw->win.y, sw->win.x);
sw->pad.p = newpad(sw->pad.h, sw->pad.w);
sw->first_visible_line = 0;
sw->total_lines = 0;
}
/* Free an already created scrollwin. */
void wins_scrollwin_delete(struct scrollwin *sw)
{
EXIT_IF(sw == NULL, "null pointer");
delwin(sw->win.p);
delwin(sw->pad.p);
}
/* Display a scrolling window. */
void wins_scrollwin_display(struct scrollwin *sw)
{
const int visible_lines = sw->win.h - sw->pad.y - 1;
if (sw->total_lines > visible_lines) {
int sbar_length = visible_lines * visible_lines / sw->total_lines;
int highend = visible_lines * sw->first_visible_line / sw->total_lines;
int sbar_top = highend + sw->pad.y + 1;
if ((sbar_top + sbar_length) > sw->win.h - 1)
sbar_length = sw->win.h - sbar_top;
draw_scrollbar(sw->win.p, sbar_top, sw->win.w + sw->win.x - 2,
sbar_length, sw->pad.y + 1, sw->win.h - 1, 1);
}
wmove(win[STA].p, 0, 0);
wnoutrefresh(sw->win.p);
pnoutrefresh(sw->pad.p, sw->first_visible_line, 0, sw->pad.y, sw->pad.x,
sw->win.h - sw->pad.y + 1, sw->win.w - sw->win.x);
wins_doupdate();
}
void wins_scrollwin_up(struct scrollwin *sw, int amount)
{
if (sw->first_visible_line > 0)
sw->first_visible_line -= amount;
}
void wins_scrollwin_down(struct scrollwin *sw, int amount)
{
if (sw->total_lines > (sw->first_visible_line + sw->win.h - sw->pad.y - 1))
sw->first_visible_line += amount;
}
void wins_reinit_panels(void)
{
delwin(win[CAL].p);
delwin(win[APP].p);
delwin(apad.ptrwin);
delwin(win[TOD].p);
wins_get_config();
wins_init_panels();
}
/*
* Delete the existing windows and recreate them with their new
* size and placement.
*/
void wins_reinit(void)
{
delwin(win[CAL].p);
delwin(win[APP].p);
delwin(apad.ptrwin);
delwin(win[TOD].p);
delwin(win[STA].p);
wins_get_config();
wins_init();
if (notify_bar())
notify_reinit_bar();
}
/* Show the window with a border and a label. */
void wins_show(WINDOW * win, const char *label)
{
int width = getmaxx(win);
box(win, 0, 0);
mvwaddch(win, 2, 0, ACS_LTEE);
mvwhline(win, 2, 1, ACS_HLINE, width - 2);
mvwaddch(win, 2, width - 1, ACS_RTEE);
print_in_middle(win, 1, 0, width, label);
}
/*
* Get the screen size and recalculate the windows configurations.
*/
void wins_get_config(void)
{
/* Get the screen configuration */
getmaxyx(stdscr, row, col);
/* fixed values for status, notification bars and calendar */
win[STA].h = STATUSHEIGHT;
win[STA].w = col;
win[STA].y = row - win[STA].h;
win[STA].x = 0;
if (notify_bar()) {
win[NOT].h = 1;
win[NOT].w = col;
win[NOT].y = win[STA].y - 1;
win[NOT].x = 0;
} else {
win[NOT].h = 0;
win[NOT].w = 0;
win[NOT].y = 0;
win[NOT].x = 0;
}
win[CAL].w = wins_sbar_width();
win[CAL].h = CALHEIGHT;
if (layout <= 4) { /* APPOINTMENT is the biggest panel */
win[APP].w = col - win[CAL].w;
win[APP].h = row - (win[STA].h + win[NOT].h);
win[TOD].w = win[CAL].w;
win[TOD].h = row - (win[CAL].h + win[STA].h + win[NOT].h);
} else { /* TODO is the biggest panel */
win[TOD].w = col - win[CAL].w;
win[TOD].h = row - (win[STA].h + win[NOT].h);
win[APP].w = win[CAL].w;
win[APP].h = row - (win[CAL].h + win[STA].h + win[NOT].h);
}
/* defining the layout */
switch (layout) {
case 1:
win[APP].y = 0;
win[APP].x = 0;
win[CAL].y = 0;
win[TOD].x = win[APP].w;
win[TOD].y = win[CAL].h;
win[CAL].x = win[APP].w;
break;
case 2:
win[APP].y = 0;
win[APP].x = 0;
win[TOD].y = 0;
win[TOD].x = win[APP].w;
win[CAL].x = win[APP].w;
win[CAL].y = win[TOD].h;
break;
case 3:
win[APP].y = 0;
win[TOD].x = 0;
win[CAL].x = 0;
win[CAL].y = 0;
win[APP].x = win[CAL].w;
win[TOD].y = win[CAL].h;
break;
case 4:
win[APP].y = 0;
win[TOD].x = 0;
win[TOD].y = 0;
win[CAL].x = 0;
win[APP].x = win[CAL].w;
win[CAL].y = win[TOD].h;
break;
case 5:
win[TOD].y = 0;
win[TOD].x = 0;
win[CAL].y = 0;
win[APP].y = win[CAL].h;
win[APP].x = win[TOD].w;
win[CAL].x = win[TOD].w;
break;
case 6:
win[TOD].y = 0;
win[TOD].x = 0;
win[APP].y = 0;
win[APP].x = win[TOD].w;
win[CAL].x = win[TOD].w;
win[CAL].y = win[APP].h;
break;
case 7:
win[TOD].y = 0;
win[APP].x = 0;
win[CAL].x = 0;
win[CAL].y = 0;
win[TOD].x = win[CAL].w;
win[APP].y = win[CAL].h;
break;
case 8:
win[TOD].y = 0;
win[APP].x = 0;
win[CAL].x = 0;
win[APP].y = 0;
win[TOD].x = win[CAL].w;
win[CAL].y = win[APP].h;
break;
}
}
/* draw panel border in color */
static void border_color(WINDOW * window)
{
int color_attr = A_BOLD;
int no_color_attr = A_BOLD;
if (colorize) {
wattron(window, color_attr | COLOR_PAIR(COLR_CUSTOM));
box(window, 0, 0);
} else {
wattron(window, no_color_attr);
box(window, 0, 0);
}
if (colorize) {
wattroff(window, color_attr | COLOR_PAIR(COLR_CUSTOM));
} else {
wattroff(window, no_color_attr);
}
wnoutrefresh(window);
}
/* draw panel border without any color */
static void border_nocolor(WINDOW * window)
{
int color_attr = A_BOLD;
int no_color_attr = A_DIM;
if (colorize) {
wattron(window, color_attr | COLOR_PAIR(COLR_DEFAULT));
} else {
wattron(window, no_color_attr);
}
box(window, 0, 0);
if (colorize) {
wattroff(window, color_attr | COLOR_PAIR(COLR_DEFAULT));
} else {
wattroff(window, no_color_attr);
}
wnoutrefresh(window);
}
void wins_update_border(int flags)
{
if (flags & FLAG_CAL) {
WINS_CALENDAR_LOCK;
if (slctd_win == CAL)
border_color(win[CAL].p);
else
border_nocolor(win[CAL].p);
WINS_CALENDAR_UNLOCK;
}
if (flags & FLAG_APP) {
if (slctd_win == APP)
border_color(win[APP].p);
else
border_nocolor(win[APP].p);
}
if (flags & FLAG_TOD) {
if (slctd_win == TOD)
border_color(win[TOD].p);
else
border_nocolor(win[TOD].p);
}
}
void wins_update_panels(int flags)
{
if (flags & FLAG_APP)
apoint_update_panel(slctd_win);
if (flags & FLAG_TOD)
todo_update_panel(slctd_win);
if (flags & FLAG_CAL)
calendar_update_panel(&win[CAL]);
}
/*
* Update all of the three windows and put a border around the
* selected window.
*/
void wins_update(int flags)
{
wins_update_border(flags);
wins_update_panels(flags);
if (flags & FLAG_STA)
wins_status_bar();
if ((flags & FLAG_NOT) && notify_bar())
notify_update_bar();
wmove(win[STA].p, 0, 0);
wins_doupdate();
}
/* Reset the screen, needed when resizing terminal for example. */
void wins_reset(void)
{
endwin();
wins_refresh();
curs_set(0);
wins_reinit();
wins_update(FLAG_ALL);
}
/* Prepare windows for the execution of an external command. */
void wins_prepare_external(void)
{
if (notify_bar())
notify_stop_main_thread();
def_prog_mode();
ui_mode = UI_CMDLINE;
clear();
wins_refresh();
endwin();
}
/* Restore windows when returning from an external command. */
void wins_unprepare_external(void)
{
reset_prog_mode();
clearok(curscr, TRUE);
curs_set(0);
ui_mode = UI_CURSES;
wins_refresh();
if (notify_bar())
notify_start_main_thread();
}
/*
* While inside interactive mode, launch the external command cmd on the given
* file.
*/
void wins_launch_external(const char *file, const char *cmd)
{
const char *arg[] = { cmd, file, NULL };
int pid;
wins_prepare_external();
if ((pid = shell_exec(NULL, NULL, *arg, arg)))
child_wait(NULL, NULL, pid);
wins_unprepare_external();
}
#define NB_CAL_CMDS 27 /* number of commands while in cal view */
#define NB_APP_CMDS 32 /* same thing while in appointment view */
#define NB_TOD_CMDS 31 /* same thing while in todo view */
static unsigned status_page;
/*
* Draws the status bar.
* To add a keybinding, insert a new binding_t item, add it in the *binding
* table, and update the NB_CAL_CMDS, NB_APP_CMDS or NB_TOD_CMDS defines,
* depending on which panel the added keybind is assigned to.
*/
void wins_status_bar(void)
{
struct binding help = { _("Help"), KEY_GENERIC_HELP };
struct binding quit = { _("Quit"), KEY_GENERIC_QUIT };
struct binding save = { _("Save"), KEY_GENERIC_SAVE };
struct binding copy = { _("Copy"), KEY_GENERIC_COPY };
struct binding paste = { _("Paste"), KEY_GENERIC_PASTE };
struct binding chgvu = { _("Chg Win"), KEY_GENERIC_CHANGE_VIEW };
struct binding import = { _("Import"), KEY_GENERIC_IMPORT };
struct binding export = { _("Export"), KEY_GENERIC_EXPORT };
struct binding togo = { _("Go to"), KEY_GENERIC_GOTO };
struct binding conf = { _("Config"), KEY_GENERIC_CONFIG_MENU };
struct binding draw = { _("Redraw"), KEY_GENERIC_REDRAW };
struct binding appt = { _("Add Appt"), KEY_GENERIC_ADD_APPT };
struct binding todo = { _("Add Todo"), KEY_GENERIC_ADD_TODO };
struct binding gpday = { _("-1 Day"), KEY_GENERIC_PREV_DAY };
struct binding gnday = { _("+1 Day"), KEY_GENERIC_NEXT_DAY };
struct binding gpweek = { _("-1 Week"), KEY_GENERIC_PREV_WEEK };
struct binding gnweek = { _("+1 Week"), KEY_GENERIC_NEXT_WEEK };
struct binding gpmonth = { _("-1 Month"), KEY_GENERIC_PREV_MONTH };
struct binding gnmonth = { _("+1 Month"), KEY_GENERIC_NEXT_MONTH };
struct binding gpyear = { _("-1 Year"), KEY_GENERIC_PREV_YEAR };
struct binding gnyear = { _("+1 Year"), KEY_GENERIC_NEXT_YEAR };
struct binding today = { _("Today"), KEY_GENERIC_GOTO_TODAY };
struct binding nview = { _("Nxt View"), KEY_GENERIC_SCROLL_DOWN };
struct binding pview = { _("Prv View"), KEY_GENERIC_SCROLL_UP };
struct binding up = { _("Up"), KEY_MOVE_UP };
struct binding down = { _("Down"), KEY_MOVE_DOWN };
struct binding left = { _("Left"), KEY_MOVE_LEFT };
struct binding right = { _("Right"), KEY_MOVE_RIGHT };
struct binding weekb = { _("beg Week"), KEY_START_OF_WEEK };
struct binding weeke = { _("end Week"), KEY_END_OF_WEEK };
struct binding add = { _("Add Item"), KEY_ADD_ITEM };
struct binding del = { _("Del Item"), KEY_DEL_ITEM };
struct binding edit = { _("Edit Itm"), KEY_EDIT_ITEM };
struct binding view = { _("View"), KEY_VIEW_ITEM };
struct binding pipe = { _("Pipe"), KEY_PIPE_ITEM };
struct binding flag = { _("Flag Itm"), KEY_FLAG_ITEM };
struct binding rept = { _("Repeat"), KEY_REPEAT_ITEM };
struct binding enote = { _("EditNote"), KEY_EDIT_NOTE };
struct binding vnote = { _("ViewNote"), KEY_VIEW_NOTE };
struct binding rprio = { _("Prio.+"), KEY_RAISE_PRIORITY };
struct binding lprio = { _("Prio.-"), KEY_LOWER_PRIORITY };
struct binding othr = { _("OtherCmd"), KEY_GENERIC_OTHER_CMD };
struct binding *bindings_cal[] = {
&help, &quit, &save, &chgvu, &nview, &pview, &up, &down, &left, &right,
&togo, &import, &export, &weekb, &weeke, &appt, &todo, &gpday, &gnday,
&gpweek, &gnweek, &gpmonth, &gnmonth, &gpyear, &gnyear, &draw, &today,
&conf
};
struct binding *bindings_apoint[] = {
&help, &quit, &save, &chgvu, &import, &export, &add, &del, &edit, &view,
&pipe, &draw, &rept, &flag, &enote, &vnote, &up, &down, &gpday, &gnday,
&gpweek, &gnweek, &gpmonth, &gnmonth, &gpyear, &gnyear, &togo, &today,
&conf, &appt, &todo, ©, &paste
};
struct binding *bindings_todo[] = {
&help, &quit, &save, &chgvu, &import, &export, &add, &del, &edit, &view,
&pipe, &flag, &rprio, &lprio, &enote, &vnote, &up, &down, &gpday, &gnday,
&gpweek, &gnweek, &gpmonth, &gnmonth, &gpyear, &gnyear, &togo, &today,
&conf, &appt, &todo, &draw
};
enum win active_panel = wins_slctd();
struct binding **bindings;
int bindings_size;
switch (active_panel) {
case CAL:
bindings = bindings_cal;
bindings_size = sizeof(bindings_cal) / sizeof(bindings_cal[0]);
break;
case APP:
bindings = bindings_apoint;
bindings_size = sizeof(bindings_apoint) / sizeof(bindings_apoint[0]);
break;
case TOD:
bindings = bindings_todo;
bindings_size = sizeof(bindings_todo) / sizeof(bindings_todo[0]);
break;
default:
EXIT(_("unknown panel"));
/* NOTREACHED */
}
keys_display_bindings_bar(win[STA].p, bindings, bindings_size,
(KEYS_CMDS_PER_LINE * 2 - 1) * (status_page - 1),
KEYS_CMDS_PER_LINE * 2, &othr);
}
/* Erase status bar. */
void wins_erase_status_bar(void)
{
erase_window_part(win[STA].p, 0, 0, col, STATUSHEIGHT);
}
/* Update the status bar page number to display other commands. */
void wins_other_status_page(int panel)
{
int nb_item, max_page;
switch (panel) {
case CAL:
nb_item = NB_CAL_CMDS;
break;
case APP:
nb_item = NB_APP_CMDS;
break;
case TOD:
nb_item = NB_TOD_CMDS;
break;
default:
EXIT(_("unknown panel"));
/* NOTREACHED */
}
max_page = nb_item / (KEYS_CMDS_PER_LINE * 2 - 1) + 1;
status_page = (status_page % max_page) + 1;
}
/* Reset the status bar page. */
void wins_reset_status_page(void)
{
status_page = 1;
}
#undef NB_CAL_CMDS
#undef NB_APP_CMDS
#undef NB_TOD_CMDS