/* Menu system implementation. */ #ifndef _GNU_SOURCE #define _GNU_SOURCE /* XXX: we _WANT_ strcasestr() ! */ #endif #ifdef HAVE_CONFIG_H #include "config.h" #endif #include #include #include "elinks.h" #include "bfu/hotkey.h" #include "bfu/inpfield.h" #include "bfu/menu.h" #include "config/kbdbind.h" #include "intl/gettext/libintl.h" #include "session/session.h" #include "terminal/draw.h" #include "terminal/event.h" #include "terminal/kbd.h" #include "terminal/mouse.h" #include "terminal/tab.h" #include "terminal/terminal.h" #include "terminal/window.h" #include "util/color.h" #include "util/conv.h" #include "util/memory.h" #include "viewer/action.h" /* Left and right main menu reserved spaces. */ #define L_MAINMENU_SPACE 2 #define R_MAINMENU_SPACE 2 /* Left and right padding spaces around labels in main menu. */ #define L_MAINTEXT_SPACE 1 #define R_MAINTEXT_SPACE 1 /* Spaces before and after right text of submenu. */ #define L_RTEXT_SPACE 1 #define R_RTEXT_SPACE 1 /* Spaces before and after left text of submenu. */ #define L_TEXT_SPACE 1 #define R_TEXT_SPACE 1 /* Border size in submenu. */ #define MENU_BORDER_SIZE 1 /* Types and structures */ /* Submenu indicator, displayed at right. */ static unsigned char m_submenu[] = ">>"; static int m_submenu_len = sizeof(m_submenu) - 1; /* Prototypes */ static window_handler_T menu_handler; static window_handler_T mainmenu_handler; static void display_mainmenu(struct terminal *term, struct menu *menu); static void set_menu_selection(struct menu *menu, int pos); void deselect_mainmenu(struct terminal *term, struct menu *menu) { menu->selected = -1; del_from_list(menu->win); add_to_list_end(term->windows, menu->win); } static inline int count_items(struct menu_item *items) { int i = 0; if (items) { struct menu_item *item; foreach_menu_item (item, items) { i++; } } return i; } static void free_menu_items(struct menu_item *items) { struct menu_item *item; if (!items || !(items->flags & FREE_ANY)) return; /* Note that flags & FREE_DATA applies only when menu is aborted; * it is zeroed when some menu field is selected. */ foreach_menu_item (item, items) { if (item->flags & FREE_TEXT) mem_free_if(item->text); if (item->flags & FREE_RTEXT) mem_free_if(item->rtext); if (item->flags & FREE_DATA) mem_free_if(item->data); } mem_free(items); } void do_menu_selected(struct terminal *term, struct menu_item *items, void *data, int selected, int hotkeys) { struct menu *menu = mem_calloc(1, sizeof(*menu)); if (menu) { menu->selected = selected; menu->items = items; menu->data = data; menu->size = count_items(items); menu->hotkeys = hotkeys; #ifdef CONFIG_NLS menu->lang = -1; #endif refresh_hotkeys(term, menu); add_window(term, menu_handler, menu); } else { free_menu_items(items); } } void do_menu(struct terminal *term, struct menu_item *items, void *data, int hotkeys) { do_menu_selected(term, items, data, 0, hotkeys); } static void select_menu_item(struct terminal *term, struct menu_item *it, void *data) { /* We save these values due to delete_window() call below. */ menu_func_T func = it->func; void *it_data = it->data; enum main_action action_id = it->action_id; if (!mi_is_selectable(it)) return; if (!mi_is_submenu(it)) { /* Don't free data! */ it->flags &= ~FREE_DATA; while (!list_empty(term->windows)) { struct window *win = term->windows.next; if (win->handler != menu_handler && win->handler != mainmenu_handler) break; if (win->handler == mainmenu_handler) { deselect_mainmenu(term, win->data); redraw_terminal(term); } else delete_window(win); } } if (action_id != ACT_MAIN_NONE && !func) { struct session *ses = data; do_action(ses, action_id, 1); return; } assertm(func, "No menu function"); if_assert_failed return; func(term, it_data, data); } static inline void select_menu(struct terminal *term, struct menu *menu) { if (menu->selected < 0 || menu->selected >= menu->size) return; select_menu_item(term, &menu->items[menu->selected], menu->data); } /* Get desired width for left text in menu item, accounting spacing. */ static int get_menuitem_text_width(struct terminal *term, struct menu_item *mi) { unsigned char *text; if (!mi_has_left_text(mi)) return 0; text = mi->text; if (mi_text_translate(mi)) text = _(text, term); if (!text[0]) return 0; #ifdef CONFIG_UTF8 if (term->utf8) return L_TEXT_SPACE + utf8_ptr2cells(text, NULL) - !!mi->hotkey_pos + R_TEXT_SPACE; else #endif /* CONFIG_UTF8 */ return L_TEXT_SPACE + strlen(text) - !!mi->hotkey_pos + R_TEXT_SPACE; } /* Get desired width for right text in menu item, accounting spacing. */ static int get_menuitem_rtext_width(struct terminal *term, struct menu_item *mi) { int rtext_width = 0; if (mi_is_submenu(mi)) { rtext_width = L_RTEXT_SPACE + m_submenu_len + R_RTEXT_SPACE; } else if (mi->action_id != ACT_MAIN_NONE) { struct string keystroke; if (init_string(&keystroke)) { add_keystroke_action_to_string(&keystroke, mi->action_id, KEYMAP_MAIN); rtext_width = L_RTEXT_SPACE + keystroke.length + R_RTEXT_SPACE; done_string(&keystroke); } } else if (mi_has_right_text(mi)) { unsigned char *rtext = mi->rtext; if (mi_rtext_translate(mi)) rtext = _(rtext, term); if (rtext[0]) rtext_width = L_RTEXT_SPACE + strlen(rtext) + R_RTEXT_SPACE; } return rtext_width; } static int get_menuitem_width(struct terminal *term, struct menu_item *mi, int max_width) { int text_width = get_menuitem_text_width(term, mi); int rtext_width = get_menuitem_rtext_width(term, mi); int_upper_bound(&text_width, max_width); int_upper_bound(&rtext_width, max_width - text_width); return text_width + rtext_width; } static void count_menu_size(struct terminal *term, struct menu *menu) { struct menu_item *item; int width = term->width - MENU_BORDER_SIZE * 2; int height = term->height - MENU_BORDER_SIZE * 2; int my = int_min(menu->size, height); int mx = 0; foreach_menu_item (item, menu->items) { int_lower_bound(&mx, get_menuitem_width(term, item, width)); } set_box(&menu->box, menu->parent_x, menu->parent_y, mx + MENU_BORDER_SIZE * 2, my + MENU_BORDER_SIZE * 2); int_bounds(&menu->box.x, 0, width - mx); int_bounds(&menu->box.y, 0, height - my); } static void scroll_menu(struct menu *menu, int steps, int wrap) { int pos, start; int s = steps ? steps/abs(steps) : 1; /* Selectable item search direction. */ /* menu->selected sometimes became -2 and caused infinite loops. * That should no longer be possible. */ assert(menu->selected >= -1); if_assert_failed return; if (menu->size <= 0) { no_item: /* Menu is empty. */ menu->selected = -1; menu->first = 0; return; } start = pos = menu->selected; if (!steps) { /* The caller wants us to check that menu->selected is * actually selectable, and correct it if not. */ steps = 1; if (pos >= 0) --pos; } while (steps) { pos += s, steps -= s; while (1) { if (start == pos) { goto select_item; } else if (pos >= menu->size && s == 1) { if (wrap) { pos = 0; } else { pos = menu->size - 1; goto select_item; } } else if (pos < 0 && s == -1) { if (wrap) { pos = menu->size - 1; } else { pos = 0; goto select_item; } } else if (!mi_is_selectable(&menu->items[pos])) { pos += s; } else { break; } if (start == -1) start = 0; } } select_item: if (!mi_is_selectable(&menu->items[pos])) goto no_item; set_menu_selection(menu, pos); } /* Set menu->selected = pos, and adjust menu->first if needed. * This neither redraws the menu nor runs the item's action. * The caller must ensure that menu->items[pos] is selectable. */ static void set_menu_selection(struct menu *menu, int pos) { int height, scr_i; assert(pos >= 0 && pos < menu->size); assert(mi_is_selectable(&menu->items[pos])); if_assert_failed return; menu->selected = pos; height = int_max(1, menu->box.height - MENU_BORDER_SIZE * 2); /* The rest is not needed for horizontal menus like the mainmenu. * FIXME: We need a better way to figure out which menus are horizontal and * which are vertical (normal) --jonas */ if (height == 1) return; scr_i = int_min((height - 1) / 2, SCROLL_ITEMS); int_bounds(&menu->first, menu->selected - height + scr_i + 1, menu->selected - scr_i); int_bounds(&menu->first, 0, menu->size - height); } /* width - number of standard terminal cells to be displayed (text + whitespace * separators). For double-width glyph width == 2. * len - length of text in bytes */ static inline void draw_menu_left_text(struct terminal *term, unsigned char *text, int len, int x, int y, int width, struct color_pair *color) { int w = width - (L_TEXT_SPACE + R_TEXT_SPACE); int max_len; if (w <= 0) return; if (len < 0) len = strlen(text); if (!len) return; #ifdef CONFIG_UTF8 if (term->utf8) { max_len = utf8_cells2bytes(text, w, NULL); if (max_len <= 0) return; } else #endif /* CONFIG_UTF8 */ max_len = w; if (len > max_len) len = max_len; draw_text(term, x + L_TEXT_SPACE, y, text, len, 0, color); } static inline void draw_menu_left_text_hk(struct terminal *term, unsigned char *text, int hotkey_pos, int x, int y, int width, struct color_pair *color, int selected) { struct color_pair *hk_color = get_bfu_color(term, "menu.hotkey.normal"); struct color_pair *hk_color_sel = get_bfu_color(term, "menu.hotkey.selected"); enum screen_char_attr hk_attr = get_opt_bool("ui.dialogs.underline_hotkeys") ? SCREEN_ATTR_UNDERLINE : 0; unsigned char c; int xbase = x + L_TEXT_SPACE; int w = width - (L_TEXT_SPACE + R_TEXT_SPACE); int hk_state = 0; #ifdef CONFIG_UTF8 unsigned char *text2, *end; #endif #ifdef CONFIG_DEBUG /* For redundant hotkeys highlighting. */ int double_hk = 0; if (hotkey_pos < 0) hotkey_pos = -hotkey_pos, double_hk = 1; #endif if (!hotkey_pos || w <= 0) return; if (selected) { struct color_pair *tmp = hk_color; hk_color = hk_color_sel; hk_color_sel = tmp; } #ifdef CONFIG_UTF8 if (term->utf8) goto utf8; #endif /* CONFIG_UTF8 */ for (x = 0; x - !!hk_state < w && (c = text[x]); x++) { if (!hk_state && x == hotkey_pos - 1) { hk_state = 1; continue; } if (hk_state == 1) { #ifdef CONFIG_DEBUG draw_char(term, xbase + x - 1, y, c, hk_attr, (double_hk ? hk_color_sel : hk_color)); #else draw_char(term, xbase + x - 1, y, c, hk_attr, hk_color); #endif /* CONFIG_DEBUG */ hk_state = 2; } else { draw_char(term, xbase + x - !!hk_state, y, c, 0, color); } } return; #ifdef CONFIG_UTF8 utf8: end = strchr(text, '\0'); text2 = text; for (x = 0; x - !!hk_state < w && *text2; x++) { unicode_val_T data; data = utf8_to_unicode(&text2, end); if (!hk_state && (int)(text2 - text) == hotkey_pos) { hk_state = 1; continue; } if (hk_state == 1) { if (unicode_to_cell(data) == 2) { if (x < w && xbase + x < term->width) { #ifdef CONFIG_DEBUG draw_char(term, xbase + x - 1, y, data, hk_attr, (double_hk ? hk_color_sel : hk_color)); #else draw_char(term, xbase + x - 1, y, data, hk_attr, hk_color); #endif /* CONFIG_DEBUG */ x++; draw_char(term, xbase + x - 1, y, UCS_NO_CHAR, 0, hk_color); } else { draw_char(term, xbase + x - 1, y, UCS_ORPHAN_CELL, 0, hk_color); } } else { #ifdef CONFIG_DEBUG draw_char(term, xbase + x - 1, y, data, hk_attr, (double_hk ? hk_color_sel : hk_color)); #else draw_char(term, xbase + x - 1, y, data, hk_attr, hk_color); #endif /* CONFIG_DEBUG */ } hk_state = 2; } else { if (unicode_to_cell(data) == 2) { if (x - !!hk_state + 1 < w && xbase + x - !!hk_state + 1 < term->width) { draw_char(term, xbase + x - !!hk_state, y, data, 0, color); x++; draw_char(term, xbase + x - !!hk_state, y, UCS_NO_CHAR, 0, color); } else { draw_char(term, xbase + x - !!hk_state, y, UCS_ORPHAN_CELL, 0, color); } } else { draw_char(term, xbase + x - !!hk_state, y, data, 0, color); } } } #endif /* CONFIG_UTF8 */ } static inline void draw_menu_right_text(struct terminal *term, unsigned char *text, int len, int x, int y, int width, struct color_pair *color) { int w = width - (L_RTEXT_SPACE + R_RTEXT_SPACE); if (w <= 0) return; if (len < 0) len = strlen(text); if (!len) return; if (len > w) len = w; x += w - len + L_RTEXT_SPACE + L_TEXT_SPACE; draw_text(term, x, y, text, len, 0, color); } static void display_menu(struct terminal *term, struct menu *menu) { struct color_pair *normal_color = get_bfu_color(term, "menu.normal"); struct color_pair *selected_color = get_bfu_color(term, "menu.selected"); struct color_pair *frame_color = get_bfu_color(term, "menu.frame"); struct box box; int p; int menu_height; set_box(&box, menu->box.x + MENU_BORDER_SIZE, menu->box.y + MENU_BORDER_SIZE, int_max(0, menu->box.width - MENU_BORDER_SIZE * 2), int_max(0, menu->box.height - MENU_BORDER_SIZE * 2)); draw_box(term, &box, ' ', 0, normal_color); draw_border(term, &box, frame_color, 1); if (get_opt_bool("ui.dialogs.shadows")) { /* Draw shadow */ draw_shadow(term, &menu->box, get_bfu_color(term, "dialog.shadow"), 2, 1); #ifdef CONFIG_UTF8 if (term->utf8) fix_dwchar_around_box(term, &box, 1, 2, 1); #endif /* CONFIG_UTF8 */ } #ifdef CONFIG_UTF8 else if(term->utf8) fix_dwchar_around_box(term, &box, 1, 0, 0); #endif /* CONFIG_UTF8 */ menu_height = box.height; box.height = 1; for (p = menu->first; p < menu->size && p < menu->first + menu_height; p++, box.y++) { struct color_pair *color = normal_color; struct menu_item *mi = &menu->items[p]; int selected = (p == menu->selected); #ifdef CONFIG_DEBUG /* Sanity check. */ if (mi_is_end_of_menu(mi)) INTERNAL("Unexpected end of menu [%p:%d]", mi, p); #endif if (selected) { /* This entry is selected. */ color = selected_color; set_cursor(term, box.x, box.y, 1); set_window_ptr(menu->win, menu->box.x + menu->box.width, box.y); draw_box(term, &box, ' ', 0, color); } if (mi_is_horizontal_bar(mi)) { /* Horizontal separator */ draw_border_char(term, menu->box.x, box.y, BORDER_SRTEE, frame_color); draw_box(term, &box, BORDER_SHLINE, SCREEN_ATTR_FRAME, frame_color); draw_border_char(term, box.x + box.width, box.y, BORDER_SLTEE, frame_color); continue; } if (mi_has_left_text(mi)) { int l = mi->hotkey_pos; unsigned char *text = mi->text; if (mi_text_translate(mi)) text = _(text, term); if (!mi_is_selectable(mi)) l = 0; if (l) { draw_menu_left_text_hk(term, text, l, box.x, box.y, box.width, color, selected); } else { draw_menu_left_text(term, text, -1, box.x, box.y, box.width, color); } } if (mi_is_submenu(mi)) { draw_menu_right_text(term, m_submenu, m_submenu_len, menu->box.x, box.y, box.width, color); } else if (mi->action_id != ACT_MAIN_NONE) { struct string keystroke; #ifdef CONFIG_DEBUG /* Help to detect action + right text. --Zas */ if (mi_has_right_text(mi)) { if (color == selected_color) color = normal_color; else color = selected_color; } #endif /* CONFIG_DEBUG */ if (init_string(&keystroke)) { add_keystroke_action_to_string(&keystroke, mi->action_id, KEYMAP_MAIN); draw_menu_right_text(term, keystroke.source, keystroke.length, menu->box.x, box.y, box.width, color); done_string(&keystroke); } } else if (mi_has_right_text(mi)) { unsigned char *rtext = mi->rtext; if (mi_rtext_translate(mi)) rtext = _(rtext, term); if (*rtext) { /* There's a right text, so print it */ draw_menu_right_text(term, rtext, -1, menu->box.x, box.y, box.width, color); } } } redraw_from_window(menu->win); } #ifdef CONFIG_MOUSE static void menu_mouse_handler(struct menu *menu, struct term_event *ev) { struct window *win = menu->win; int scroll_direction = 1; switch (get_mouse_button(ev)) { case B_WHEEL_UP: scroll_direction = -1; /* Fall thru */ case B_WHEEL_DOWN: if (check_mouse_action(ev, B_DOWN)) { scroll_menu(menu, scroll_direction, 1); display_menu(win->term, menu); } return; } if (!check_mouse_position(ev, &menu->box)) { if (check_mouse_action(ev, B_DOWN)) { delete_window_ev(win, ev); } else { struct window *w1; struct window *end = (struct window *) &win->term->windows; for (w1 = win; w1 != end; w1 = w1->next) { struct menu *m1; if (w1->handler == mainmenu_handler) { if (!ev->info.mouse.y) delete_window_ev(win, ev); break; } if (w1->handler != menu_handler) break; m1 = w1->data; if (check_mouse_position(ev, &m1->box)) { delete_window_ev(win, ev); break; } } } } else { int sel = ev->info.mouse.y - menu->box.y - 1 + menu->first; if (sel >= 0 && sel < menu->size && mi_is_selectable(&menu->items[sel])) { set_menu_selection(menu, sel); display_menu(win->term, menu); select_menu(win->term, menu); } } } #endif #define DIST 5 static void menu_page_up(struct menu *menu) { int current = int_max(0, int_min(menu->selected, menu->size - 1)); int step; int i; int next_sep = 0; for (i = current - 1; i > 0; i--) if (mi_is_horizontal_bar(&menu->items[i])) { next_sep = i; break; } step = current - next_sep + 1; int_bounds(&step, 0, int_min(current, DIST)); scroll_menu(menu, -step, 0); } static void menu_page_down(struct menu *menu) { int current = int_max(0, int_min(menu->selected, menu->size - 1)); int step; int i; int next_sep = menu->size - 1; for (i = current + 1; i < menu->size; i++) if (mi_is_horizontal_bar(&menu->items[i])) { next_sep = i; break; } step = next_sep - current + 1; int_bounds(&step, 0, int_min(menu->size - 1 - current, DIST)); scroll_menu(menu, step, 0); } #undef DIST static inline int search_menu_item(struct menu_item *item, unsigned char *buffer, struct terminal *term) { unsigned char *text, *match; /* set_menu_selection asserts selectability. */ if (!mi_has_left_text(item) || !mi_is_selectable(item)) return 0; text = mi_text_translate(item) ? _(item->text, term) : item->text; /* Crap. We have to remove the hotkey markers '~' */ text = stracpy(text); if (!text) return 0; match = strchr(text, '~'); if (match) memmove(match, match + 1, strlen(match)); match = strcasestr(text, buffer); mem_free(text); return !!match; } static enum input_line_code menu_search_handler(struct input_line *line, int action_id) { struct menu *menu = line->data; struct terminal *term = menu->win->term; unsigned char *buffer = line->buffer; struct window *win; int pos = menu->selected; int start; int direction; switch (action_id) { case ACT_EDIT_REDRAW: return INPUT_LINE_PROCEED; case ACT_EDIT_ENTER: /* XXX: The input line dialog window is above the menu window. * Remove it from the top, so that select_menu() will correctly * remove all the windows it has to and then readd it. */ win = term->windows.next; del_from_list(win); select_menu(term, menu); add_to_list(term->windows, win); return INPUT_LINE_CANCEL; case ACT_EDIT_PREVIOUS_ITEM: pos--; direction = -1; break; case ACT_EDIT_NEXT_ITEM: pos++; default: direction = 1; } /* If there is nothing to match with don't start searching */ if (!*buffer) return INPUT_LINE_PROCEED; pos %= menu->size; start = pos; do { struct menu_item *item = &menu->items[pos]; if (search_menu_item(item, buffer, term)) { set_menu_selection(menu, pos); display_menu(term, menu); return INPUT_LINE_PROCEED; } pos += direction; if (pos == menu->size) pos = 0; else if (pos < 0) pos = menu->size - 1; } while (pos != start); return INPUT_LINE_CANCEL; } static void search_menu(struct menu *menu) { struct terminal *term = menu->win->term; struct window *current_tab = get_current_tab(term); struct session *ses = current_tab ? current_tab->data : NULL; unsigned char *prompt = _("Search menu/", term); if (menu->size < 1 || !ses) return; input_field_line(ses, prompt, menu, NULL, menu_search_handler); } static void menu_kbd_handler(struct menu *menu, struct term_event *ev) { struct window *win = menu->win; enum menu_action action_id = kbd_action(KEYMAP_MENU, ev, NULL); int s = 0; switch (action_id) { case ACT_MENU_LEFT: case ACT_MENU_RIGHT: if (list_has_next(win->term->windows, win) && win->next->handler == mainmenu_handler) { struct window *next_win = win->next; delete_window_ev(win, ev); select_menu(next_win->term, next_win->data); return; } if (action_id == ACT_MENU_RIGHT) goto enter; delete_window(win); return; case ACT_MENU_UP: scroll_menu(menu, -1, 1); break; case ACT_MENU_DOWN: scroll_menu(menu, 1, 1); break; case ACT_MENU_HOME: scroll_menu(menu, -menu->selected, 0); break; case ACT_MENU_END: scroll_menu(menu, menu->size - menu->selected - 1, 0); break; case ACT_MENU_PAGE_UP: menu_page_up(menu); break; case ACT_MENU_PAGE_DOWN: menu_page_down(menu); break; case ACT_MENU_ENTER: case ACT_MENU_SELECT: goto enter; case ACT_MENU_SEARCH: search_menu(menu); break; case ACT_MENU_CANCEL: if (list_has_next(win->term->windows, win) && win->next->handler == mainmenu_handler) delete_window_ev(win, ev); else delete_window_ev(win, NULL); return; default: { term_event_key_T key = get_kbd_key(ev); if (is_kbd_fkey(key) || check_kbd_modifier(ev, KBD_MOD_ALT)) { delete_window_ev(win, ev); return; } if (!check_kbd_label_key(ev)) break; s = check_hotkeys(menu, key, win->term); if (s || check_not_so_hot_keys(menu, key, win->term)) scroll_menu(menu, 0, 1); } } display_menu(win->term, menu); if (s) { enter: select_menu(win->term, menu); } } static void menu_handler(struct window *win, struct term_event *ev) { struct menu *menu = win->data; menu->win = win; switch (ev->ev) { case EVENT_INIT: case EVENT_RESIZE: get_parent_ptr(win, &menu->parent_x, &menu->parent_y); case EVENT_REDRAW: count_menu_size(win->term, menu); /* do_menu sets menu->selected = 0. If that * item isn't actually selectable, correct * menu->selected here. */ scroll_menu(menu, 0, 1); display_menu(win->term, menu); break; case EVENT_MOUSE: #ifdef CONFIG_MOUSE menu_mouse_handler(menu, ev); #endif /* CONFIG_MOUSE */ break; case EVENT_KBD: menu_kbd_handler(menu, ev); break; case EVENT_ABORT: free_menu_items(menu->items); break; } } void do_mainmenu(struct terminal *term, struct menu_item *items, void *data, int sel) { int init = 0; struct menu *menu; struct window *win; if (!term->main_menu) { term->main_menu = mem_calloc(1, sizeof(*menu)); if (!term->main_menu) return; init = 1; } menu = term->main_menu; menu->selected = (sel == -1 ? 0 : sel); menu->items = items; menu->data = data; menu->size = count_items(items); menu->hotkeys = 1; #ifdef CONFIG_NLS clear_hotkeys_cache(menu); #endif init_hotkeys(term, menu); if (init) { add_window(term, mainmenu_handler, menu); win = menu->win; /* This should be fine because add_window will call * mainmenu_handler which will assign the window to menu->win. */ assert(win); deselect_mainmenu(term, menu); } else { foreach (win, term->windows) { if (win->data == menu) { del_from_list(win); add_to_list(term->windows, win); display_mainmenu(term, menu); break; } } } if (sel != -1) { select_menu(term, menu); } } static void display_mainmenu(struct terminal *term, struct menu *menu) { struct color_pair *normal_color = get_bfu_color(term, "menu.normal"); struct color_pair *selected_color = get_bfu_color(term, "menu.selected"); int p = 0; int i; struct box box; /* FIXME: menu horizontal scrolling do not work well yet, we need to cache * menu items width and recalculate them only when needed (ie. language change) * instead of looping and calculate them each time. --Zas */ /* Try to make current selected menu entry visible. */ if (menu->selected < menu->first) { int num_items_offscreen = menu->selected - menu->first; menu->first += num_items_offscreen; menu->last += num_items_offscreen; } else if (menu->selected > menu->last) { int num_items_offscreen = menu->last - menu->selected; menu->first -= num_items_offscreen; menu->last -= num_items_offscreen; } if (menu->last <= 0) menu->last = menu->size - 1; int_bounds(&menu->last, 0, menu->size - 1); int_bounds(&menu->first, 0, menu->last); set_box(&box, 0, 0, term->width, 1); draw_box(term, &box, ' ', 0, normal_color); if (menu->first != 0) { box.width = L_MAINMENU_SPACE; draw_box(term, &box, '<', 0, normal_color); } p += L_MAINMENU_SPACE; for (i = menu->first; i < menu->size; i++) { struct menu_item *mi = &menu->items[i]; struct color_pair *color = normal_color; unsigned char *text = mi->text; int l = mi->hotkey_pos; int textlen; int selected = (i == menu->selected); int screencnt; if (mi_text_translate(mi)) text = _(text, term); textlen = strlen(text) - !!l; #ifdef CONFIG_UTF8 if (term->utf8) screencnt = utf8_ptr2cells(text, NULL) - !!l; else #endif /* CONFIG_UTF8 */ screencnt = textlen; if (selected) { color = selected_color; box.x = p; #ifdef CONFIG_UTF8 if (term->utf8) box.width = L_MAINTEXT_SPACE + L_TEXT_SPACE + screencnt + R_TEXT_SPACE + R_MAINTEXT_SPACE; else #endif /* CONFIG_UTF8 */ box.width = L_MAINTEXT_SPACE + L_TEXT_SPACE + textlen + R_TEXT_SPACE + R_MAINTEXT_SPACE; draw_box(term, &box, ' ', 0, color); set_cursor(term, p, 0, 1); set_window_ptr(menu->win, p, 1); } p += L_MAINTEXT_SPACE; if (l) { draw_menu_left_text_hk(term, text, l, p, 0, textlen + R_TEXT_SPACE + L_TEXT_SPACE, color, selected); } else { draw_menu_left_text(term, text, textlen, p, 0, textlen + R_TEXT_SPACE + L_TEXT_SPACE, color); } p += screencnt; if (p >= term->width - R_MAINMENU_SPACE) break; p += R_MAINTEXT_SPACE + R_TEXT_SPACE + L_TEXT_SPACE; } menu->last = i - 1; int_lower_bound(&menu->last, menu->first); if (menu->last < menu->size - 1) { #ifdef CONFIG_UTF8 if (term->utf8) { struct screen_char *schar; schar = get_char(term, term->width - R_MAINMENU_SPACE, 0); /* Is second cell of double-width char on the place where * first char of the R_MAINMENU_SPACE will be displayed? */ if (schar->data == UCS_NO_CHAR) { /* Replace double-width char with UCS_ORPHAN_CELL. */ schar++; draw_char_data(term, term->width - R_MAINMENU_SPACE - 1, 0, UCS_ORPHAN_CELL); } } #endif set_box(&box, term->width - R_MAINMENU_SPACE, 0, R_MAINMENU_SPACE, 1); draw_box(term, &box, '>', 0, normal_color); } redraw_from_window(menu->win); } #ifdef CONFIG_MOUSE static void mainmenu_mouse_handler(struct menu *menu, struct term_event *ev) { struct window *win = menu->win; struct menu_item *item; int scroll = 0; if (check_mouse_wheel(ev)) return; /* Mouse was clicked outside the mainmenu bar */ if (ev->info.mouse.y) { if (check_mouse_action(ev, B_DOWN)) { deselect_mainmenu(win->term, menu); display_mainmenu(win->term, menu); } return; } /* First check if the mouse button was pressed in the side of the * terminal and simply scroll one step in that direction else iterate * through the menu items to see if it was pressed on a label. */ if (ev->info.mouse.x < L_MAINMENU_SPACE) { scroll = -1; } else if (ev->info.mouse.x >= win->term->width - R_MAINMENU_SPACE) { scroll = 1; } else { int p = L_MAINMENU_SPACE; /* We don't initialize to menu->first here, since it breaks * horizontal scrolling using mouse in some cases. --Zas */ foreach_menu_item (item, menu->items) { unsigned char *text = item->text; if (!mi_has_left_text(item)) continue; if (mi_text_translate(item)) text = _(item->text, win->term); /* The label width is made up of a little padding on * the sides followed by the text width substracting * one char if it has hotkeys (the '~' char) */ p += L_MAINTEXT_SPACE + L_TEXT_SPACE + strlen(text) - !!item->hotkey_pos + R_TEXT_SPACE + R_MAINTEXT_SPACE; if (ev->info.mouse.x < p) { scroll = (item - menu->items) - menu->selected; break; } } } if (scroll) { scroll_menu(menu, scroll, 1); display_mainmenu(win->term, menu); } /* We need to select the menu item even if we didn't scroll * apparently because we will delete any drop down menus * in the clicking process. */ select_menu(win->term, menu); } #endif static void mainmenu_kbd_handler(struct menu *menu, struct term_event *ev) { struct window *win = menu->win; enum menu_action action_id = kbd_action(KEYMAP_MENU, ev, NULL); switch (action_id) { case ACT_MENU_ENTER: case ACT_MENU_DOWN: case ACT_MENU_UP: case ACT_MENU_PAGE_UP: case ACT_MENU_PAGE_DOWN: case ACT_MENU_SELECT: select_menu(win->term, menu); return; case ACT_MENU_HOME: scroll_menu(menu, -menu->selected, 0); break; case ACT_MENU_END: scroll_menu(menu, menu->size - menu->selected - 1, 0); break; case ACT_MENU_NEXT_ITEM: case ACT_MENU_PREVIOUS_ITEM: /* This is pretty western centric since `what is next'? * Anyway we cycle clockwise by resetting the action ... */ action_id = (action_id == ACT_MENU_NEXT_ITEM) ? ACT_MENU_RIGHT : ACT_MENU_LEFT; /* ... and then letting left/right handling take over. */ case ACT_MENU_LEFT: case ACT_MENU_RIGHT: scroll_menu(menu, action_id == ACT_MENU_LEFT ? -1 : 1, 1); break; case ACT_MENU_REDRAW: /* Just call display_mainmenu() */ break; default: /* Fallback to see if any hotkey matches the pressed key */ if (check_kbd_label_key(ev) && check_hotkeys(menu, get_kbd_key(ev), win->term)) { display_mainmenu(win->term, menu); select_menu(win->term, menu); return; } case ACT_MENU_CANCEL: deselect_mainmenu(win->term, menu); break; } /* Redraw the menu */ display_mainmenu(win->term, menu); } static void mainmenu_handler(struct window *win, struct term_event *ev) { struct menu *menu = win->data; menu->win = win; switch (ev->ev) { case EVENT_INIT: case EVENT_RESIZE: case EVENT_REDRAW: display_mainmenu(win->term, menu); break; case EVENT_MOUSE: #ifdef CONFIG_MOUSE mainmenu_mouse_handler(menu, ev); #endif /* CONFIG_MOUSE */ break; case EVENT_KBD: mainmenu_kbd_handler(menu, ev); break; case EVENT_ABORT: break; } } /* For dynamic menus the last (cleared) item is used to mark the end. */ #define realloc_menu_items(mi_, size) \ mem_align_alloc(mi_, size, (size) + 2, 0xF) struct menu_item * new_menu(enum menu_item_flags flags) { struct menu_item *mi = NULL; if (realloc_menu_items(&mi, 0)) mi->flags = flags; return mi; } void add_to_menu(struct menu_item **mi, unsigned char *text, unsigned char *rtext, enum main_action action_id, menu_func_T func, void *data, enum menu_item_flags flags) { int n = count_items(*mi); /* XXX: Don't clear the last and special item. */ struct menu_item *item = realloc_menu_items(mi, n + 1); if (!item) return; item += n; /* Shift current last item by one place. */ copy_struct(item + 1, item); /* Setup the new item. All menu items share the item_free value. */ SET_MENU_ITEM(item, text, rtext, action_id, func, data, item->flags | flags, HKS_SHOW, 0); } #undef L_MAINMENU_SPACE #undef R_MAINMENU_SPACE #undef L_MAINTEXT_SPACE #undef R_MAINTEXT_SPACE #undef L_RTEXT_SPACE #undef R_RTEXT_SPACE #undef L_TEXT_SPACE #undef R_TEXT_SPACE #undef MENU_BORDER_SIZE