/** * @file apps/panel.c * @brief Panel with widgets. Main desktop interface. * * Provides the panel shown at the top of the screen, which * presents application windows, useful widgets, and a menu * for launching new apps. * * Also provides Alt-Tab app switching and a few other goodies. * * @copyright * This file is part of ToaruOS and is released under the terms * of the NCSA / University of Illinois License - see LICENSE.md * Copyright (C) 2013-2021 K. Lange */ #include #include #include #include #include #include #include #include #include #include #include #include /* auto-dep: export-dynamic */ #include #include #include #include #include #include #include #include /* Several theming defines are in here */ #include /* These are local to the core panel, so we don't need to put them in the header */ #define ALTTAB_WIDTH 250 #define ALTTAB_HEIGHT 200 #define ALTTAB_BACKGROUND premultiply(rgba(0,0,0,150)) #define ALTTAB_OFFSET 10 #define ALTTAB_WIN_SIZE 140 #define ALTF2_WIDTH 400 #define ALTF2_HEIGHT 200 static gfx_context_t * ctx = NULL; static yutani_window_t * panel = NULL; static gfx_context_t * actx = NULL; static yutani_window_t * alttab = NULL; static gfx_context_t * a2ctx = NULL; static yutani_window_t * alt_f2 = NULL; static size_t bg_size; static char * bg_blob; /* External interface for widgets */ list_t * window_list = NULL; yutani_t * yctx; int width; int height; struct TT_Font * font = NULL; struct TT_Font * font_bold = NULL; struct TT_Font * font_mono = NULL; struct TT_Font * font_mono_bold = NULL; list_t * widgets_enabled = NULL; /* Windows, indexed by z-order */ struct window_ad * ads_by_z[MAX_WINDOW_COUNT+1] = {NULL}; int focused_app = -1; int active_window = -1; static int was_tabbing = 0; static int new_focused = -1; static void widgets_layout(void); /** * Clip text and add ellipsis to fit a specified display width. */ char * ellipsify(char * input, int font_size, struct TT_Font * font, int max_width, int * out_width) { int len = strlen(input); char * out = malloc(len + 4); memcpy(out, input, len + 1); int width; tt_set_size(font, font_size); while ((width = tt_string_width(font, out)) > max_width) { len--; out[len+0] = '.'; out[len+1] = '.'; out[len+2] = '.'; out[len+3] = '\0'; } if (out_width) *out_width = width; return out; } static int _close_enough(struct yutani_msg_window_mouse_event * me) { if (me->command == YUTANI_MOUSE_EVENT_RAISE && sqrt(pow(me->new_x - me->old_x, 2) + pow(me->new_y - me->old_y, 2)) < 10) { return 1; } return 0; } static int center_x(int x) { return (width - x) / 2; } static int center_y(int y) { return (height - y) / 2; } static int center_x_a(int x) { return (alttab->width - x) / 2; } static int center_x_a2(int x) { return (ALTF2_WIDTH - x) / 2; } static volatile int _continue = 1; static void toggle_hide_panel(void) { static int panel_hidden = 0; if (panel_hidden) { /* Unhide the panel */ for (int i = PANEL_HEIGHT-1; i >= 0; i--) { yutani_window_move(yctx, panel, 0, -i); usleep(3000); } panel_hidden = 0; } else { /* Hide the panel */ for (int i = 1; i <= PANEL_HEIGHT-1; i++) { yutani_window_move(yctx, panel, 0, -i); usleep(3000); } panel_hidden = 1; } } /* Handle SIGINT by telling other threads (clock) to shut down */ static void sig_int(int sig) { printf("Received shutdown signal in panel!\n"); _continue = 0; signal(SIGINT, sig_int); } void launch_application(char * app) { if (!fork()) { printf("Starting %s\n", app); char * args[] = {"/bin/sh", "-c", app, NULL}; execvp(args[0], args); exit(1); } } /* Callback for mouse events */ static void panel_check_click(struct yutani_msg_window_mouse_event * evt) { static struct PanelWidget * old_target = NULL; if (evt->wid == panel->wid) { /* Figure out what widget this belongs to */ struct PanelWidget * target = NULL; if (evt->new_y >= Y_PAD && evt->new_y < PANEL_HEIGHT - Y_PAD) { foreach(widget_node, widgets_enabled) { struct PanelWidget * widget = widget_node->value; if (evt->new_x >= widget->left && evt->new_x < widget->left + widget->width) { target = widget; break; } } } int needs_redraw = 0; if (evt->command == YUTANI_MOUSE_EVENT_CLICK || _close_enough(evt)) { if (target) needs_redraw |= target->click(target, evt); } else if (evt->buttons & YUTANI_MOUSE_BUTTON_RIGHT) { if (target) needs_redraw |= target->right_click(target, evt); } else if (evt->command == YUTANI_MOUSE_EVENT_MOVE || evt->command == YUTANI_MOUSE_EVENT_ENTER) { if (old_target && target != old_target) needs_redraw |= old_target->leave(old_target, evt); if (target && target != old_target) needs_redraw |= target->enter(target, evt); if (target) needs_redraw |= target->move(target, evt); old_target = target; } else if (evt->command == YUTANI_MOUSE_EVENT_LEAVE) { if (old_target) needs_redraw |= old_target->leave(old_target, evt); old_target = NULL; } if (needs_redraw) redraw(); } } static char altf2_buffer[1024] = {0}; static unsigned int altf2_collected = 0; static void close_altf2(void) { free(a2ctx->backbuffer); free(a2ctx); altf2_buffer[0] = 0; altf2_collected = 0; yutani_close(yctx, alt_f2); alt_f2 = NULL; } static void redraw_altf2(void) { draw_fill(a2ctx, 0); draw_rounded_rectangle(a2ctx,0,0, ALTF2_WIDTH, ALTF2_HEIGHT, 11, premultiply(rgba(120,120,120,150))); draw_rounded_rectangle(a2ctx,1,1, ALTF2_WIDTH-2, ALTF2_HEIGHT-2, 10, ALTTAB_BACKGROUND); tt_set_size(font, 20); int t = tt_string_width(font, altf2_buffer); tt_draw_string(a2ctx, font, center_x_a2(t), 80, altf2_buffer, rgb(255,255,255)); flip(a2ctx); yutani_flip(yctx, alt_f2); } static void redraw_alttab(void) { if (!actx) return; while (new_focused > -1 && !ads_by_z[new_focused]) { new_focused--; } if (new_focused == -1) { /* Stop tabbing */ was_tabbing = 0; free(actx->backbuffer); free(actx); actx = NULL; yutani_close(yctx, alttab); return; } /* How many windows do we have? */ unsigned int window_count = 0; while (ads_by_z[window_count]) window_count++; #define ALTTAB_COLUMNS 5 /* How many rows should that be? */ int rows = (window_count - 1) / ALTTAB_COLUMNS + 1; /* How many columns? */ int columns = (rows == 1) ? window_count : ALTTAB_COLUMNS; /* How much padding on the last row? */ int last_row = (window_count % columns) ? ((ALTTAB_WIN_SIZE + 20) * (columns - (window_count % columns))) / 2 : 0; /* Is the window the right size? */ unsigned int expected_width = columns * (ALTTAB_WIN_SIZE + 20) + 40; unsigned int expected_height = rows * (ALTTAB_WIN_SIZE + 20) + 60; if (alttab->width != expected_width || alttab->height != expected_height) { yutani_window_resize(yctx, alttab, expected_width, expected_height); return; } /* Draw the background, right now just a dark semi-transparent box */ draw_fill(actx, 0); draw_rounded_rectangle(actx,0,0, alttab->width, alttab->height, 11, premultiply(rgba(120,120,120,150))); draw_rounded_rectangle(actx,1,1, alttab->width-2, alttab->height-2, 10, ALTTAB_BACKGROUND); for (unsigned int i = 0; i < window_count; ++i) { if (!ads_by_z[i]) continue; struct window_ad * ad = ads_by_z[i]; /* Figure out grid alignment for this element */ int pos_x = ((window_count - i - 1) % ALTTAB_COLUMNS) * (ALTTAB_WIN_SIZE + 20) + 20; int pos_y = ((window_count - i - 1) / ALTTAB_COLUMNS) * (ALTTAB_WIN_SIZE + 20) + 20; if ((window_count - i - 1) / ALTTAB_COLUMNS == (unsigned int)rows - 1) { pos_x += last_row; } if (i == (unsigned int)new_focused) { draw_rounded_rectangle(actx, pos_x, pos_y, ALTTAB_WIN_SIZE + 20, ALTTAB_WIN_SIZE + 20, 7, premultiply(rgba(170,170,170,150))); } /* try very hard to get a window texture */ char key[1024]; YUTANI_SHMKEY_EXP(yctx->server_ident, key, 1024, ad->bufid); size_t size; uint32_t * buf = shm_obtain(key, &size); if (buf) { sprite_t tmp; tmp.width = ad->width; tmp.height = ad->height; tmp.bitmap = buf; int ox = 0; int oy = 0; int sw, sh; if (tmp.width > tmp.height) { sw = ALTTAB_WIN_SIZE; sh = tmp.height * ALTTAB_WIN_SIZE / tmp.width; oy = (ALTTAB_WIN_SIZE - sh) / 2; } else { sh = ALTTAB_WIN_SIZE; sw = tmp.width * ALTTAB_WIN_SIZE / tmp.height; ox = (ALTTAB_WIN_SIZE - sw) / 2; } draw_sprite_scaled(actx, &tmp, pos_x + ox + 10, pos_y + oy + 10, sw, sh); shm_release(key); sprite_t * icon = icon_get_48(ad->icon); draw_sprite(actx, icon, pos_x + 10 + ALTTAB_WIN_SIZE - 50, pos_y + 10 + ALTTAB_WIN_SIZE - 50); } else { sprite_t * icon = icon_get_48(ad->icon); draw_sprite(actx, icon, pos_x + 10 + (ALTTAB_WIN_SIZE - 48) / 2, pos_y + 10 + (ALTTAB_WIN_SIZE - 48) / 2); } } { struct window_ad * ad = ads_by_z[new_focused]; int t; char * title = ellipsify(ad->name, 16, font, alttab->width - 20, &t); tt_set_size(font, 16); tt_draw_string(actx, font, center_x_a(t), rows * (ALTTAB_WIN_SIZE + 20) + 44, title, rgb(255,255,255)); free(title); } flip(actx); yutani_window_move(yctx, alttab, center_x(alttab->width), center_y(alttab->height)); yutani_flip(yctx, alttab); } static pthread_t _waiter_thread; static void * logout_prompt_waiter(void * arg) { if (system("showdialog \"Log Out\" /usr/share/icons/48/exit.png \"Are you sure you want to log out?\"") == 0) { yutani_session_end(yctx); _continue = 0; } return NULL; } void launch_application_menu(struct MenuEntry * self) { struct MenuEntry_Normal * _self = (void *)self; if (!strcmp((char *)_self->action,"log-out")) { /* Spin off a thread for this */ pthread_create(&_waiter_thread, NULL, logout_prompt_waiter, NULL); } else { launch_application((char *)_self->action); } } static void handle_key_event(struct yutani_msg_key_event * ke) { /** * Is the Alt+F2 command entry window open? * Then we should capture all typing and use * direct it to the 'input box'. */ if (alt_f2 && ke->wid == alt_f2->wid) { if (ke->event.action == KEY_ACTION_DOWN) { /* Escape = cancel */ if (ke->event.keycode == KEY_ESCAPE) { close_altf2(); return; } /* Backspace */ if (ke->event.key == '\b') { if (altf2_collected) { altf2_buffer[altf2_collected-1] = '\0'; altf2_collected--; redraw_altf2(); } return; } /* Enter */ if (ke->event.key == '\n') { /* execute */ launch_application(altf2_buffer); close_altf2(); return; } /* Some other key */ if (!ke->event.key) { return; } /* Try to add it */ if (altf2_collected < sizeof(altf2_buffer) - 1) { altf2_buffer[altf2_collected] = ke->event.key; altf2_collected++; altf2_buffer[altf2_collected] = 0; redraw_altf2(); } } } /* Ctrl-Alt-T = Open a new terminal */ if ((ke->event.modifiers & KEY_MOD_LEFT_CTRL) && (ke->event.modifiers & KEY_MOD_LEFT_ALT) && (ke->event.keycode == 't') && (ke->event.action == KEY_ACTION_DOWN)) { launch_application("exec terminal"); return; } /* Ctrl-F11 = Toggle visibility of the panel */ if ((ke->event.modifiers & KEY_MOD_LEFT_CTRL) && (ke->event.keycode == KEY_F11) && (ke->event.action == KEY_ACTION_DOWN)) { fprintf(stderr, "[panel] Toggling visibility.\n"); toggle_hide_panel(); return; } /* Alt-F2 = Show the command entry window */ if ((ke->event.modifiers & KEY_MOD_LEFT_ALT) && (ke->event.keycode == KEY_F2) && (ke->event.action == KEY_ACTION_DOWN)) { /* show menu */ if (!alt_f2) { alt_f2 = yutani_window_create(yctx, ALTF2_WIDTH, ALTF2_HEIGHT); yutani_window_move(yctx, alt_f2, center_x(ALTF2_WIDTH), center_y(ALTF2_HEIGHT)); a2ctx = init_graphics_yutani_double_buffer(alt_f2); redraw_altf2(); } } /* Maybe a plugin wants to handle this key bind */ foreach(widget_node, widgets_enabled) { struct PanelWidget * widget = widget_node->value; widget->onkey(widget, ke); } /* Releasing Alt when the Alt-Tab switcher is visible */ if ((was_tabbing) && (ke->event.keycode == 0 || ke->event.keycode == KEY_LEFT_ALT) && (ke->event.modifiers == 0) && (ke->event.action == KEY_ACTION_UP)) { fprintf(stderr, "[panel] Stopping focus new_focused = %d\n", new_focused); struct window_ad * ad = ads_by_z[new_focused]; if (!ad) return; yutani_focus_window(yctx, ad->wid); was_tabbing = 0; new_focused = -1; free(actx->backbuffer); free(actx); actx = NULL; yutani_close(yctx, alttab); return; } /* Alt-Tab = Switch windows */ if ((ke->event.modifiers & KEY_MOD_LEFT_ALT) && (ke->event.keycode == '\t') && (ke->event.action == KEY_ACTION_DOWN)) { /* Alt-Tab and Alt-Shift-Tab should go in alternate directions */ int direction = (ke->event.modifiers & KEY_MOD_LEFT_SHIFT) ? 1 : -1; /* Are there no windows to switch? */ if (window_list->length < 1) return; /* Figure out the new focused window */ if (was_tabbing) { new_focused = new_focused + direction; } else { new_focused = active_window + direction; /* Create tab window */ alttab = yutani_window_create_flags(yctx, ALTTAB_WIDTH, ALTTAB_HEIGHT, YUTANI_WINDOW_FLAG_NO_STEAL_FOCUS | YUTANI_WINDOW_FLAG_NO_ANIMATION); yutani_set_stack(yctx, alttab, YUTANI_ZORDER_OVERLAY); /* Initialize graphics context against the window */ actx = init_graphics_yutani_double_buffer(alttab); } /* Handle wraparound */ if (new_focused < 0) { new_focused = 0; for (int i = 0; i < MAX_WINDOW_COUNT; i++) { if (ads_by_z[i+1] == NULL) { new_focused = i; break; } } } else if (ads_by_z[new_focused] == NULL) { if (ads_by_z[0]) { new_focused = 0; } else { new_focused = -1; } } was_tabbing = 1; redraw_alttab(); } } void redraw(void) { memcpy(ctx->backbuffer, bg_blob, bg_size); foreach(widget_node, widgets_enabled) { struct PanelWidget * widget = widget_node->value; gfx_context_t * inner = init_graphics_subregion(ctx, widget->left, Y_PAD, widget->width, PANEL_HEIGHT - Y_PAD * 2); widget->draw(widget, inner); free(inner); } /* Flip */ flip(ctx); yutani_flip(yctx, panel); } static void update_window_list(void) { yutani_query_windows(yctx); list_t * new_window_list = list_create(); ads_by_z[0] = NULL; int i = 0; while (1) { /* We wait for a series of WINDOW_ADVERTISE messsages */ yutani_msg_t * m = yutani_wait_for(yctx, YUTANI_MSG_WINDOW_ADVERTISE); struct yutani_msg_window_advertise * wa = (void*)m->data; if (wa->size == 0) { /* A sentinal at the end will have a size of 0 */ free(m); break; } /* Store each window advertisement */ struct window_ad * ad = malloc(sizeof(struct window_ad)); char * s = malloc(wa->size); memcpy(s, wa->strings, wa->size); ad->name = &s[0]; ad->icon = &s[wa->icon]; ad->strings = s; ad->flags = wa->flags; ad->wid = wa->wid; ad->bufid = wa->bufid; ad->width = wa->width; ad->height = wa->height; ads_by_z[i] = ad; i++; ads_by_z[i] = NULL; node_t * next = NULL; /* And insert it, ordered by wid, into the window list */ foreach(node, new_window_list) { struct window_ad * n = node->value; if (n->wid > ad->wid) { next = node; break; } } if (next) { list_insert_before(new_window_list, next, ad); } else { list_insert(new_window_list, ad); } free(m); } active_window = i-1; if (window_list) { foreach(node, window_list) { struct window_ad * ad = (void*)node->value; free(ad->strings); free(ad); } list_free(window_list); free(window_list); } window_list = new_window_list; /* And redraw the panel */ redraw(); } static void redraw_panel_background(gfx_context_t * ctx, int width, int height) { draw_fill(ctx, rgba(0,0,0,0)); draw_rounded_rectangle(ctx, X_PAD, Y_PAD, width - X_PAD * 2, panel->height - Y_PAD * 2, 14, rgba(0,0,0,200)); } static void resize_finish(int xwidth, int xheight) { yutani_window_resize_accept(yctx, panel, xwidth, xheight); reinit_graphics_yutani(ctx, panel); yutani_window_resize_done(yctx, panel); width = xwidth; redraw_panel_background(ctx, xwidth, xheight); /* Copy the prerendered background so we can redraw it quickly */ bg_size = panel->width * panel->height * sizeof(uint32_t); bg_blob = realloc(bg_blob, bg_size); memcpy(bg_blob, ctx->backbuffer, bg_size); widgets_layout(); update_window_list(); } static void bind_keys(void) { /* Cltr-Alt-T = launch terminal */ yutani_key_bind(yctx, 't', KEY_MOD_LEFT_CTRL | KEY_MOD_LEFT_ALT, YUTANI_BIND_STEAL); /* Alt+Tab = app switcher*/ yutani_key_bind(yctx, '\t', KEY_MOD_LEFT_ALT, YUTANI_BIND_STEAL); yutani_key_bind(yctx, '\t', KEY_MOD_LEFT_ALT | KEY_MOD_LEFT_SHIFT, YUTANI_BIND_STEAL); /* Ctrl-F11 = toggle panel visibility */ yutani_key_bind(yctx, KEY_F11, KEY_MOD_LEFT_CTRL, YUTANI_BIND_STEAL); /* Alt+F2 = show app runner */ yutani_key_bind(yctx, KEY_F2, KEY_MOD_LEFT_ALT, YUTANI_BIND_STEAL); /* This lets us receive all just-modifier key releases */ yutani_key_bind(yctx, KEY_LEFT_ALT, 0, YUTANI_BIND_PASSTHROUGH); } static void sig_usr2(int sig) { yutani_set_stack(yctx, panel, YUTANI_ZORDER_TOP); yutani_flip(yctx, panel); bind_keys(); signal(SIGUSR2, sig_usr2); } static int mouse_event_ignore(struct PanelWidget * this, struct yutani_msg_window_mouse_event * evt) { return 0; } static int widget_enter_generic(struct PanelWidget * this, struct yutani_msg_window_mouse_event * evt) { this->highlighted = 1; /* Highlighted */ return 1; } static int widget_leave_generic(struct PanelWidget * this, struct yutani_msg_window_mouse_event * evt) { this->highlighted = 0; /* Not highlighted */ return 1; } static int widget_draw_generic(struct PanelWidget * this, gfx_context_t * ctx) { draw_rounded_rectangle( ctx, 0, 0, ctx->width, ctx->height, 7, premultiply(rgba(120,120,120,150))); if (this->highlighted) { draw_rounded_rectangle( ctx, 1, 1, ctx->width-2, ctx->height-2, 6, premultiply(rgba(120,160,230,220))); } else { draw_rounded_rectangle( ctx, 1, 1, ctx->width-2, ctx->height-2, 6, ALTTAB_BACKGROUND); } return 0; } static int widget_update_generic(struct PanelWidget * this) { return 0; } static int widget_onkey_generic(struct PanelWidget * this, struct yutani_msg_key_event * evt) { return 0; } struct PanelWidget * widget_new(void) { struct PanelWidget * out = calloc(1, sizeof(struct PanelWidget)); out->draw = widget_draw_generic; out->click = mouse_event_ignore; /* click_generic */ out->right_click = mouse_event_ignore; /* right_click_generic */ out->leave = widget_leave_generic; out->enter = widget_enter_generic; out->update = widget_update_generic; out->onkey = widget_onkey_generic; out->move = mouse_event_ignore; /* move_generic */ out->highlighted = 0; out->fill = 0; return out; } static void widgets_layout(void) { int total_width = 0; int flexible_widgets = 0; foreach(node, widgets_enabled) { struct PanelWidget * widget = node->value; if (widget->fill) { flexible_widgets++; } else { total_width += widget->width; } } /* Now lay out the widgets */ int x = 16; int available = width - 32; foreach(node, widgets_enabled) { struct PanelWidget * widget = node->value; widget->left = x; if (widget->fill) { widget->width = (available - total_width) / flexible_widgets; } x += widget->width; } } static void update_periodic_widgets(void) { int needs_layout = 0; foreach(widget_node, widgets_enabled) { struct PanelWidget * widget = widget_node->value; needs_layout |= widget->update(widget); } if (needs_layout) widgets_layout(); redraw(); } int panel_menu_show_at(struct MenuList * menu, int x) { int mwidth, mheight, offset; /* Calculate the expected size of the menu window. */ menu_calculate_dimensions(menu, &mheight, &mwidth); if (x - mwidth / 2 < X_PAD) { offset = X_PAD; menu->flags = (menu->flags & ~MENU_FLAG_BUBBLE) | MENU_FLAG_BUBBLE_LEFT; } else if (x + mwidth / 2 > width - X_PAD) { offset = width - X_PAD - mwidth; menu->flags = (menu->flags & ~MENU_FLAG_BUBBLE) | MENU_FLAG_BUBBLE_RIGHT; } else { offset = x - mwidth / 2; menu->flags = (menu->flags & ~MENU_FLAG_BUBBLE) | MENU_FLAG_BUBBLE_CENTER; } menu->flags |= MENU_FLAG_TAIL_POSITION; menu->tail_offset = x - offset; /* Prepare the menu, which creates the window. */ menu_prepare(menu, yctx); /* If we succeeded, move it to the final offset and display it */ if (menu->window) { yutani_window_move(yctx, menu->window, offset, DROPDOWN_OFFSET); yutani_flip(yctx,menu->window); return 0; } return 1; } int panel_menu_show(struct PanelWidget * this, struct MenuList * menu) { return panel_menu_show_at(menu, this->left + this->width / 2); } int main (int argc, char ** argv) { if (argc < 2 || strcmp(argv[1],"--really")) { fprintf(stderr, "%s: Desktop environment panel / dock\n" "\n" " Renders the application menu, window list, widgets,\n" " alt-tab window switcher, clock, etc.\n" " You probably don't want to run this directly - it is\n" " started automatically by the session manager.\n", argv[0]); return 1; } /* Connect to window server */ yctx = yutani_init(); /* Shared fonts */ font = tt_font_from_shm("sans-serif"); font_bold = tt_font_from_shm("sans-serif.bold"); font_mono = tt_font_from_shm("monospace"); font_mono_bold = tt_font_from_shm("monospace.bold"); /* For convenience, store the display size */ width = yctx->display_width; height = yctx->display_height; /* Create the panel window */ panel = yutani_window_create_flags(yctx, width, PANEL_HEIGHT, YUTANI_WINDOW_FLAG_NO_STEAL_FOCUS | YUTANI_WINDOW_FLAG_ALT_ANIMATION); /* And move it to the top layer */ yutani_set_stack(yctx, panel, YUTANI_ZORDER_TOP); yutani_window_update_shape(yctx, panel, YUTANI_SHAPE_THRESHOLD_CLEAR); /* Initialize graphics context against the window */ ctx = init_graphics_yutani_double_buffer(panel); /* Draw the background */ redraw_panel_background(ctx, panel->width, panel->height); /* Copy the prerendered background so we can redraw it quickly */ bg_size = panel->width * panel->height * sizeof(uint32_t); bg_blob = malloc(bg_size); memcpy(bg_blob, ctx->backbuffer, bg_size); /* Catch SIGINT */ signal(SIGINT, sig_int); signal(SIGUSR2, sig_usr2); widgets_enabled = list_create(); /* Initialize requested widgets */ const char * widgets_to_load[] = { "appmenu", "windowlist", "volume", "network", "weather", "date", "clock", "logout", NULL }; for (const char ** widget = widgets_to_load; *widget; widget++) { char lib_name[200]; char func_name[200]; snprintf(lib_name, 200, "libtoaru_panel_%s.so", *widget); snprintf(func_name, 200, "widget_init_%s", *widget); void * lib = dlopen(lib_name, 0); if (!lib) { fprintf(stderr, "panel: failed to load widget '%s'\n", *widget); } else { void (*widget_init)(void) = dlsym(lib, func_name); if (!widget_init) { fprintf(stderr, "panel: failed to initialize widget '%s'\n", *widget); } else { widget_init(); } } } /* Lay out the widgets */ update_periodic_widgets(); widgets_layout(); /* Subscribe to window updates */ yutani_subscribe_windows(yctx); /* Ask compositor for window list */ update_window_list(); /* Key bindings */ bind_keys(); time_t last_tick = 0; int fds[1] = {fileno(yctx->sock)}; fprintf(stderr, "entering loop?\n"); while (_continue) { int index = fswait2(1,fds,200); if (index == 0) { /* Respond to Yutani events */ yutani_msg_t * m = yutani_poll(yctx); while (m) { menu_process_event(yctx, m); switch (m->type) { /* New window information is available */ case YUTANI_MSG_NOTIFY: update_window_list(); break; /* Mouse movement / click */ case YUTANI_MSG_WINDOW_MOUSE_EVENT: panel_check_click((struct yutani_msg_window_mouse_event *)m->data); break; case YUTANI_MSG_KEY_EVENT: handle_key_event((struct yutani_msg_key_event *)m->data); break; case YUTANI_MSG_WELCOME: { struct yutani_msg_welcome * mw = (void*)m->data; width = mw->display_width; height = mw->display_height; yutani_window_resize(yctx, panel, mw->display_width, PANEL_HEIGHT); } break; case YUTANI_MSG_RESIZE_OFFER: { struct yutani_msg_window_resize * wr = (void*)m->data; if (wr->wid == panel->wid) { resize_finish(wr->width, wr->height); } else if (alttab && wr->wid == alttab->wid) { yutani_window_resize_accept(yctx, alttab, wr->width, wr->height); reinit_graphics_yutani(actx, alttab); redraw_alttab(); yutani_window_resize_done(yctx, alttab); } } break; default: break; } free(m); m = yutani_poll_async(yctx); } } struct timeval now; gettimeofday(&now, NULL); if (now.tv_sec != last_tick) { last_tick = now.tv_sec; waitpid(-1, NULL, WNOHANG); update_periodic_widgets(); if (was_tabbing) { redraw_alttab(); } } } /* Close the panel window */ yutani_close(yctx, panel); /* Stop notifying us of window changes */ yutani_unsubscribe_windows(yctx); return 0; }