/* statusbar.c : irssi Copyright (C) 1999-2001 Timo Sirainen 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 */ #include "module.h" #include "signals.h" #include "expandos.h" #include "special-vars.h" #include "themes.h" #include "statusbar.h" #include "statusbar-config.h" #include "gui-windows.h" #include "gui-printtext.h" void statusbar_items_init(void); void statusbar_items_deinit(void); GSList *statusbar_groups; STATUSBAR_GROUP_REC *active_statusbar_group; /* sbar_item_defs: char *name => char *value sbar_item_funcs: char *name => STATUSBAR_FUNC func sbar_signal_items: int signal_id => GSList *(SBAR_ITEM_REC *items) sbar_item_signals: SBAR_ITEM_REC *item => GSList *(int *signal_ids) named_sbar_items: const char *name => GSList *(SBAR_ITEM_REC *items) */ static GHashTable *sbar_item_defs, *sbar_item_funcs; static GHashTable *sbar_signal_items, *sbar_item_signals; static GHashTable *named_sbar_items; void statusbar_item_register(const char *name, const char *value, STATUSBAR_FUNC func) { gpointer hkey, hvalue; if (value != NULL) { if (g_hash_table_lookup_extended(sbar_item_defs, name, &hkey, &hvalue)) { g_hash_table_remove(sbar_item_defs, name); g_free(hkey); g_free(hvalue); } g_hash_table_insert(sbar_item_defs, g_strdup(name), g_strdup(value)); } if (func != NULL) { if (g_hash_table_lookup(sbar_item_funcs, name) == NULL) { g_hash_table_insert(sbar_item_funcs, g_strdup(name), func); } } } void statusbar_item_unregister(const char *name) { gpointer key, value; if (g_hash_table_lookup_extended(sbar_item_defs, name, &key, &value)) { g_hash_table_remove(sbar_item_defs, key); g_free(key); g_free(value); } if (g_hash_table_lookup_extended(sbar_item_funcs, name, &key, &value)) { g_hash_table_remove(sbar_item_funcs, key); g_free(key); } } STATUSBAR_GROUP_REC *statusbar_group_create(const char *name) { STATUSBAR_GROUP_REC *rec; rec = g_new0(STATUSBAR_GROUP_REC, 1); rec->name = g_strdup(name); statusbar_groups = g_slist_append(statusbar_groups, rec); return rec; } void statusbar_group_destroy(STATUSBAR_GROUP_REC *rec) { statusbar_groups = g_slist_remove(statusbar_groups, rec); while (rec->bars != NULL) statusbar_destroy(rec->bars->data); while (rec->config_bars != NULL) statusbar_config_destroy(rec, rec->config_bars->data); g_free(rec->name); g_free(rec); } STATUSBAR_GROUP_REC *statusbar_group_find(const char *name) { GSList *tmp; for (tmp = statusbar_groups; tmp != NULL; tmp = tmp->next) { STATUSBAR_GROUP_REC *rec = tmp->data; if (strcmp(rec->name, name) == 0) return rec; } return NULL; } static int sbar_item_cmp(SBAR_ITEM_REC *item1, SBAR_ITEM_REC *item2) { return item1->config->priority == item2->config->priority ? 0 : item1->config->priority < item2->config->priority ? -1 : 1; } static int sbar_cmp_position(STATUSBAR_REC *bar1, STATUSBAR_REC *bar2) { return bar1->config->position < bar2->config->position ? -1 : 1; } /* Shink all items in statusbar to their minimum requested size. The items list should be sorted by priority, highest first. */ static int statusbar_shrink_to_min(GSList *items, int size, int max_width) { GSList *tmp; for (tmp = items; tmp != NULL; tmp = tmp->next) { SBAR_ITEM_REC *rec = tmp->data; size -= (rec->max_size-rec->min_size); rec->size = rec->min_size; if (size <= max_width) { rec->size += max_width-size; break; } if (rec->size == 0) { /* min_size was 0, item removed. remove the marginal too */ size--; } } return size; } /* shink the items in statusbar, even if their size gets smaller than their minimum requested size. The items list should be sorted by priority, highest first. */ static void statusbar_shrink_forced(GSList *items, int size, int max_width) { GSList *tmp; for (tmp = items; tmp != NULL; tmp = tmp->next) { SBAR_ITEM_REC *rec = tmp->data; if (size-rec->size > max_width) { /* remove the whole item */ size -= rec->size; rec->size = 0; } else { /* shrink the item */ rec->size -= size-max_width; break; } } } static void statusbar_resize_items(STATUSBAR_REC *bar, int max_width) { GSList *tmp, *prior_sorted; int width; /* first give items their max. size */ prior_sorted = NULL; width = 0; for (tmp = bar->items; tmp != NULL; tmp = tmp->next) { SBAR_ITEM_REC *rec = tmp->data; rec->func(rec, TRUE); rec->size = rec->max_size; if (rec->size > 0) { width += rec->max_size; prior_sorted = g_slist_insert_sorted(prior_sorted, rec, (GCompareFunc) sbar_item_cmp); } } if (width > max_width) { /* too big, start shrinking from items with lowest priority and shrink until everything fits or until we've shrinked all items. */ width = statusbar_shrink_to_min(prior_sorted, width, max_width); if (width > max_width) { /* still need to shrink, remove the items with lowest priority until everything fits to screen */ statusbar_shrink_forced(prior_sorted, width, max_width); } } g_slist_free(prior_sorted); } #define SBAR_ITEM_REDRAW_NEEDED(_bar, _item, _xpos) \ (((_bar)->dirty_xpos != -1 && \ (_xpos) >= (_bar)->dirty_xpos) || \ (_item)->xpos != (_xpos) || (_item)->current_size != (_item)->size) static void statusbar_calc_item_positions(STATUSBAR_REC *bar) { WINDOW_REC *old_active_win; GSList *tmp, *right_items; int xpos, rxpos; old_active_win = active_win; if (bar->parent_window != NULL) active_win = bar->parent_window->active; statusbar_resize_items(bar, term_width); /* left-aligned items */ xpos = 0; for (tmp = bar->items; tmp != NULL; tmp = tmp->next) { SBAR_ITEM_REC *rec = tmp->data; if (!rec->config->right_alignment && rec->size > 0) { if (SBAR_ITEM_REDRAW_NEEDED(bar, rec, xpos)) { /* redraw the item */ rec->dirty = TRUE; if (bar->dirty_xpos == -1 || xpos < bar->dirty_xpos) { irssi_set_dirty(); bar->dirty = TRUE; bar->dirty_xpos = xpos; } rec->xpos = xpos; } xpos += rec->size; } } /* right-aligned items - first copy them to a new list backwards, easier to draw them in right order */ right_items = NULL; for (tmp = bar->items; tmp != NULL; tmp = tmp->next) { SBAR_ITEM_REC *rec = tmp->data; if (rec->config->right_alignment && rec->size > 0) right_items = g_slist_prepend(right_items, rec); } rxpos = term_width; for (tmp = right_items; tmp != NULL; tmp = tmp->next) { SBAR_ITEM_REC *rec = tmp->data; rxpos -= rec->size; if (SBAR_ITEM_REDRAW_NEEDED(bar, rec, rxpos)) { rec->dirty = TRUE; if (bar->dirty_xpos == -1 || rxpos < bar->dirty_xpos) { irssi_set_dirty(); bar->dirty = TRUE; bar->dirty_xpos = rxpos; } rec->xpos = rxpos; } } g_slist_free(right_items); active_win = old_active_win; } /*STATUSBAR_REC *statusbar_find(int pos, int line) { GSList *tmp; for (tmp = statusbars; tmp != NULL; tmp = tmp->next) { STATUSBAR_REC *rec = tmp->data; if (rec->pos == pos && rec->line == line) return rec; } return NULL; }*/ void statusbar_redraw(STATUSBAR_REC *bar, int force) { if (bar != NULL) { if (force) { irssi_set_dirty(); bar->dirty = TRUE; bar->dirty_xpos = 0; } statusbar_calc_item_positions(bar); } else if (active_statusbar_group != NULL) { g_slist_foreach(active_statusbar_group->bars, (GFunc) statusbar_redraw, GINT_TO_POINTER(force)); } } void statusbar_item_redraw(SBAR_ITEM_REC *item) { WINDOW_REC *old_active_win; g_return_if_fail(item != NULL); old_active_win = active_win; if (item->bar->parent_window != NULL) active_win = item->bar->parent_window->active; item->func(item, TRUE); item->dirty = TRUE; item->bar->dirty = TRUE; irssi_set_dirty(); if (item->max_size != item->size) { /* item wants a new size - we'll need to redraw the statusbar to see if this is allowed */ statusbar_redraw(item->bar, FALSE); } active_win = old_active_win; } void statusbar_items_redraw(const char *name) { g_slist_foreach(g_hash_table_lookup(named_sbar_items, name), (GFunc) statusbar_item_redraw, NULL); } static void statusbars_recalc_ypos(STATUSBAR_REC *bar) { GSList *tmp, *bar_group; int ypos; /* get list of statusbars with same type and placement, sorted by position */ bar_group = NULL; tmp = bar->config->type == STATUSBAR_TYPE_ROOT ? bar->group->bars : bar->parent_window->statusbars; for (; tmp != NULL; tmp = tmp->next) { STATUSBAR_REC *rec = tmp->data; if (rec->config->type == bar->config->type && rec->config->placement == bar->config->placement) { bar_group = g_slist_insert_sorted(bar_group, rec, (GCompareFunc) sbar_cmp_position); } } if (bar_group == NULL) { /* we just destroyed the last statusbar in this type/placement group */ return; } /* get the Y-position for the first statusbar */ if (bar->config->type == STATUSBAR_TYPE_ROOT) { ypos = bar->config->placement == STATUSBAR_TOP ? 0 : term_height - g_slist_length(bar_group); } else { ypos = bar->config->placement == STATUSBAR_TOP ? bar->parent_window->first_line : bar->parent_window->last_line - (g_slist_length(bar_group)-1); } /* set the Y-positions */ while (bar_group != NULL) { bar = bar_group->data; if (bar->real_ypos != ypos) { bar->real_ypos = ypos; statusbar_redraw(bar, TRUE); } ypos++; bar_group = g_slist_remove(bar_group, bar_group->data); } } static void sig_terminal_resized(void) { GSList *tmp; for (tmp = active_statusbar_group->bars; tmp != NULL; tmp = tmp->next) { STATUSBAR_REC *bar = tmp->data; if (bar->config->type == STATUSBAR_TYPE_ROOT && bar->config->placement == STATUSBAR_BOTTOM) { statusbars_recalc_ypos(bar); break; } } } static void mainwindow_recalc_ypos(MAIN_WINDOW_REC *window, int placement) { GSList *tmp; for (tmp = window->statusbars; tmp != NULL; tmp = tmp->next) { STATUSBAR_REC *bar = tmp->data; if (bar->config->placement == placement) { statusbars_recalc_ypos(bar); break; } } } static void sig_mainwindow_resized(MAIN_WINDOW_REC *window) { mainwindow_recalc_ypos(window, STATUSBAR_TOP); mainwindow_recalc_ypos(window, STATUSBAR_BOTTOM); } STATUSBAR_REC *statusbar_create(STATUSBAR_GROUP_REC *group, STATUSBAR_CONFIG_REC *config, MAIN_WINDOW_REC *parent_window) { STATUSBAR_REC *bar; THEME_REC *theme; GSList *tmp; char *name, *value; g_return_val_if_fail(group != NULL, NULL); g_return_val_if_fail(config != NULL, NULL); g_return_val_if_fail(config->type != STATUSBAR_TYPE_WINDOW || parent_window != NULL, NULL); bar = g_new0(STATUSBAR_REC, 1); group->bars = g_slist_append(group->bars, bar); bar->group = group; bar->config = config; bar->parent_window = parent_window; irssi_set_dirty(); bar->dirty = TRUE; bar->dirty_xpos = 0; signal_remove("terminal resized", (SIGNAL_FUNC) sig_terminal_resized); signal_remove("mainwindow resized", (SIGNAL_FUNC) sig_mainwindow_resized); signal_remove("mainwindow moved", (SIGNAL_FUNC) sig_mainwindow_resized); if (config->type == STATUSBAR_TYPE_ROOT) { /* top/bottom of the screen */ mainwindows_reserve_lines(config->placement == STATUSBAR_TOP, config->placement == STATUSBAR_BOTTOM); theme = current_theme; } else { /* top/bottom of the window */ parent_window->statusbars = g_slist_append(parent_window->statusbars, bar); mainwindow_set_statusbar_lines(parent_window, config->placement == STATUSBAR_TOP, config->placement == STATUSBAR_BOTTOM); theme = parent_window != NULL && parent_window->active != NULL && parent_window->active->theme != NULL ? parent_window->active->theme : current_theme; } signal_add("terminal resized", (SIGNAL_FUNC) sig_terminal_resized); signal_add("mainwindow resized", (SIGNAL_FUNC) sig_mainwindow_resized); signal_add("mainwindow moved", (SIGNAL_FUNC) sig_mainwindow_resized); /* get background color from sb_background abstract */ name = g_strdup_printf("{sb_%s_bg}", config->name); value = theme_format_expand(theme, name); g_free(name); if (*value == '\0') { /* try with the statusbar group name */ g_free(value); name = g_strdup_printf("{sb_%s_bg}", group->name); value = theme_format_expand(theme, name); g_free(name); if (*value == '\0') { /* fallback to default statusbar background (also provides backwards compatibility..) */ value = theme_format_expand(theme, "{sb_background}"); } } if (*value == '\0') { g_free(value); value = g_strdup("%8"); } bar->color = g_strconcat("%n", value, NULL); g_free(value); statusbars_recalc_ypos(bar); signal_emit("statusbar created", 1, bar); /* create the items to statusbar */ for (tmp = config->items; tmp != NULL; tmp = tmp->next) { SBAR_ITEM_CONFIG_REC *rec = tmp->data; statusbar_item_create(bar, rec); } return bar; } void statusbar_destroy(STATUSBAR_REC *bar) { int top; g_return_if_fail(bar != NULL); bar->group->bars = g_slist_remove(bar->group->bars, bar); if (bar->parent_window != NULL) { bar->parent_window->statusbars = g_slist_remove(bar->parent_window->statusbars, bar); } signal_emit("statusbar destroyed", 1, bar); while (bar->items != NULL) statusbar_item_destroy(bar->items->data); g_free(bar->color); if (bar->config->type != STATUSBAR_TYPE_WINDOW || bar->parent_window != NULL) statusbars_recalc_ypos(bar); top = bar->config->placement == STATUSBAR_TOP; if (bar->config->type == STATUSBAR_TYPE_ROOT) { /* top/bottom of the screen */ mainwindows_reserve_lines(top ? -1 : 0, !top ? -1 : 0); } else if (bar->parent_window != NULL) { /* top/bottom of the window */ mainwindow_set_statusbar_lines(bar->parent_window, top ? -1 : 0, !top ? -1 : 0); } g_free(bar); } void statusbar_recreate_items(STATUSBAR_REC *bar) { GSList *tmp; /* destroy */ while (bar->items != NULL) statusbar_item_destroy(bar->items->data); /* create */ for (tmp = bar->config->items; tmp != NULL; tmp = tmp->next) { SBAR_ITEM_CONFIG_REC *rec = tmp->data; statusbar_item_create(bar, rec); } statusbar_redraw(bar, TRUE); } void statusbars_recreate_items(void) { if (active_statusbar_group != NULL) { g_slist_foreach(active_statusbar_group->bars, (GFunc) statusbar_recreate_items, NULL); } } STATUSBAR_REC *statusbar_find(STATUSBAR_GROUP_REC *group, const char *name, MAIN_WINDOW_REC *window) { GSList *tmp; for (tmp = group->bars; tmp != NULL; tmp = tmp->next) { STATUSBAR_REC *rec = tmp->data; if (rec->parent_window == window && strcmp(rec->config->name, name) == 0) return rec; } return NULL; } static char *update_statusbar_bg(const char *str, const char *color) { GString *out; char *ret; out = g_string_new(color); while (*str != '\0') { if (*str == '%' && str[1] == 'n') { g_string_append(out, color); str += 2; continue; } g_string_append_c(out, *str); str++; } ret = out->str; g_string_free(out, FALSE); return ret; } const char *statusbar_item_get_value(SBAR_ITEM_REC *item) { const char *value; value = item->config->value; if (value == NULL) { value = g_hash_table_lookup(sbar_item_defs, item->config->name); } return value; } void statusbar_item_default_handler(SBAR_ITEM_REC *item, int get_size_only, const char *str, const char *data, int escape_vars) { SERVER_REC *server; WI_ITEM_REC *wiitem; char *tmpstr, *tmpstr2; int len; if (str == NULL) str = statusbar_item_get_value(item); if (str == NULL || *str == '\0') { item->min_size = item->max_size = 0; return; } if (active_win == NULL) { server = NULL; wiitem = NULL; } else { server = active_win->active_server; wiitem = active_win->active; } /* expand $variables */ tmpstr = parse_special_string(str, server, wiitem, data, NULL, (escape_vars ? PARSE_FLAG_ESCAPE_VARS : 0 ) | PARSE_FLAG_ESCAPE_THEME); /* expand templates */ str = tmpstr; tmpstr2 = theme_format_expand_data(current_theme, &str, 'n', 'n', NULL, NULL, EXPAND_FLAG_ROOT | EXPAND_FLAG_IGNORE_REPLACES | EXPAND_FLAG_IGNORE_EMPTY); g_free(tmpstr); /* remove color codes (not %formats) */ tmpstr = strip_codes(tmpstr2); g_free(tmpstr2); if (get_size_only) { item->min_size = item->max_size = format_get_length(tmpstr); } else { if (item->size < item->min_size) { /* they're forcing us smaller than minimum size.. */ len = format_real_length(tmpstr, item->size); tmpstr[len] = '\0'; } tmpstr2 = update_statusbar_bg(tmpstr, item->bar->color); gui_printtext(item->xpos, item->bar->real_ypos, tmpstr2); g_free(tmpstr2); } g_free(tmpstr); } static void statusbar_item_default_func(SBAR_ITEM_REC *item, int get_size_only) { statusbar_item_default_handler(item, get_size_only, NULL, "", TRUE); } static void statusbar_update_item(void) { GSList *items; items = g_hash_table_lookup(sbar_signal_items, GINT_TO_POINTER(signal_get_emitted_id())); while (items != NULL) { SBAR_ITEM_REC *item = items->data; statusbar_item_redraw(item); items = items->next; } } static void statusbar_update_server(SERVER_REC *server) { SERVER_REC *item_server; GSList *items; items = g_hash_table_lookup(sbar_signal_items, GINT_TO_POINTER(signal_get_emitted_id())); while (items != NULL) { SBAR_ITEM_REC *item = items->data; item_server = item->bar->parent_window != NULL ? item->bar->parent_window->active->active_server : active_win->active_server; if (item_server == server) statusbar_item_redraw(item); items = items->next; } } static void statusbar_update_window(WINDOW_REC *window) { WINDOW_REC *item_window; GSList *items; items = g_hash_table_lookup(sbar_signal_items, GINT_TO_POINTER(signal_get_emitted_id())); while (items != NULL) { SBAR_ITEM_REC *item = items->data; item_window = item->bar->parent_window != NULL ? item->bar->parent_window->active : active_win; if (item_window == window) statusbar_item_redraw(item); items = items->next; } } static void statusbar_update_window_item(WI_ITEM_REC *wiitem) { WI_ITEM_REC *item_wi; GSList *items; items = g_hash_table_lookup(sbar_signal_items, GINT_TO_POINTER(signal_get_emitted_id())); while (items != NULL) { SBAR_ITEM_REC *item = items->data; item_wi = item->bar->parent_window != NULL ? item->bar->parent_window->active->active : active_win->active; if (item_wi == wiitem) statusbar_item_redraw(item); items = items->next; } } static void statusbar_item_default_signals(SBAR_ITEM_REC *item) { SIGNAL_FUNC func; GSList *list; const char *value; void *signal_id; int *signals, *pos; value = statusbar_item_get_value(item); if (value == NULL) return; signals = special_vars_get_signals(value); if (signals == NULL) return; for (pos = signals; *pos != -1; pos += 2) { /* update signal -> item mappings */ signal_id = GINT_TO_POINTER(*pos); list = g_hash_table_lookup(sbar_signal_items, signal_id); if (list == NULL) { switch (pos[1]) { case EXPANDO_ARG_NONE: func = (SIGNAL_FUNC) statusbar_update_item; break; case EXPANDO_ARG_SERVER: func = (SIGNAL_FUNC) statusbar_update_server; break; case EXPANDO_ARG_WINDOW: func = (SIGNAL_FUNC) statusbar_update_window; break; case EXPANDO_ARG_WINDOW_ITEM: func = (SIGNAL_FUNC) statusbar_update_window_item; break; default: func = NULL; break; } if (func != NULL) signal_add_to_id(MODULE_NAME, 1, *pos, func); } if (g_slist_find(list, item) == NULL) list = g_slist_append(list, item); g_hash_table_insert(sbar_signal_items, signal_id, list); /* update item -> signal mappings */ list = g_hash_table_lookup(sbar_item_signals, item); if (g_slist_find(list, signal_id) == NULL) list = g_slist_append(list, signal_id); g_hash_table_insert(sbar_item_signals, item, list); } g_free(signals); } SBAR_ITEM_REC *statusbar_item_create(STATUSBAR_REC *bar, SBAR_ITEM_CONFIG_REC *config) { SBAR_ITEM_REC *rec; GSList *items; g_return_val_if_fail(bar != NULL, NULL); g_return_val_if_fail(config != NULL, NULL); rec = g_new0(SBAR_ITEM_REC, 1); bar->items = g_slist_append(bar->items, rec); rec->bar = bar; rec->config = config; rec->func = g_hash_table_lookup(sbar_item_funcs, config->name); if (rec->func == NULL) rec->func = statusbar_item_default_func; statusbar_item_default_signals(rec); items = g_hash_table_lookup(named_sbar_items, config->name); items = g_slist_append(items, rec); g_hash_table_insert(named_sbar_items, config->name, items); irssi_set_dirty(); rec->dirty = TRUE; bar->dirty = TRUE; signal_emit("statusbar item created", 1, rec); return rec; } static void statusbar_signal_remove(int signal_id) { signal_remove_id(signal_id, (SIGNAL_FUNC) statusbar_update_item); signal_remove_id(signal_id, (SIGNAL_FUNC) statusbar_update_server); signal_remove_id(signal_id, (SIGNAL_FUNC) statusbar_update_window); signal_remove_id(signal_id, (SIGNAL_FUNC) statusbar_update_window_item); } static void statusbar_item_remove_signal(SBAR_ITEM_REC *item, int signal_id) { GSList *list; /* update signal -> item hash */ list = g_hash_table_lookup(sbar_signal_items, GINT_TO_POINTER(signal_id)); list = g_slist_remove(list, item); if (list != NULL) { g_hash_table_insert(sbar_signal_items, GINT_TO_POINTER(signal_id), list); } else { g_hash_table_remove(sbar_signal_items, GINT_TO_POINTER(signal_id)); statusbar_signal_remove(signal_id); } } void statusbar_item_destroy(SBAR_ITEM_REC *item) { GSList *list; g_return_if_fail(item != NULL); item->bar->items = g_slist_remove(item->bar->items, item); list = g_hash_table_lookup(named_sbar_items, item->config->name); list = g_slist_remove(list, item); if (list == NULL) g_hash_table_remove(named_sbar_items, item->config->name); else g_hash_table_insert(named_sbar_items, item->config->name, list); signal_emit("statusbar item destroyed", 1, item); list = g_hash_table_lookup(sbar_item_signals, item); g_hash_table_remove(sbar_item_signals, item); while (list != NULL) { statusbar_item_remove_signal(item, GPOINTER_TO_INT(list->data)); list = g_slist_remove(list, list->data); } g_free(item); } static void statusbar_redraw_needed_items(STATUSBAR_REC *bar) { WINDOW_REC *old_active_win; GSList *tmp; char *str; old_active_win = active_win; if (bar->parent_window != NULL) active_win = bar->parent_window->active; if (bar->dirty_xpos >= 0) { str = g_strconcat(bar->color, "%>", NULL); gui_printtext(bar->dirty_xpos, bar->real_ypos, str); g_free(str); } for (tmp = bar->items; tmp != NULL; tmp = tmp->next) { SBAR_ITEM_REC *rec = tmp->data; if (rec->dirty || (bar->dirty_xpos != -1 && rec->xpos >= bar->dirty_xpos)) { rec->current_size = rec->size; rec->func(rec, FALSE); rec->dirty = FALSE; } } active_win = old_active_win; } void statusbar_redraw_dirty(void) { GSList *tmp; for (tmp = active_statusbar_group->bars; tmp != NULL; tmp = tmp->next) { STATUSBAR_REC *rec = tmp->data; if (rec->dirty) { statusbar_redraw_needed_items(rec); rec->dirty = FALSE; rec->dirty_xpos = -1; } } } #define STATUSBAR_IS_VISIBLE(bar, window) \ ((bar)->visible == STATUSBAR_VISIBLE_ALWAYS || \ (active_mainwin == (window) && \ (bar)->visible == STATUSBAR_VISIBLE_ACTIVE) || \ (active_mainwin != (window) && \ (bar)->visible == STATUSBAR_VISIBLE_INACTIVE)) static void statusbars_remove_unvisible(MAIN_WINDOW_REC *window) { GSList *tmp, *next; for (tmp = window->statusbars; tmp != NULL; tmp = next) { STATUSBAR_REC *bar = tmp->data; next = tmp->next; if (!STATUSBAR_IS_VISIBLE(bar->config, window)) statusbar_destroy(bar); } } static void statusbars_add_visible(MAIN_WINDOW_REC *window) { STATUSBAR_GROUP_REC *group; STATUSBAR_REC *bar; GSList *tmp; group = active_statusbar_group; for (tmp = group->config_bars; tmp != NULL; tmp = tmp->next) { STATUSBAR_CONFIG_REC *config = tmp->data; if (config->type == STATUSBAR_TYPE_WINDOW && STATUSBAR_IS_VISIBLE(config, window) && statusbar_find(group, config->name, window) == NULL) { bar = statusbar_create(group, config, window); statusbar_redraw(bar, TRUE); } } } static void sig_mainwindow_destroyed(MAIN_WINDOW_REC *window) { while (window->statusbars != NULL) { STATUSBAR_REC *bar = window->statusbars->data; bar->parent_window->statusbars = g_slist_remove(bar->parent_window->statusbars, bar); bar->parent_window = NULL; statusbar_destroy(bar); } } static void sig_window_changed(void) { GSList *tmp; for (tmp = mainwindows; tmp != NULL; tmp = tmp->next) { MAIN_WINDOW_REC *rec = tmp->data; statusbars_remove_unvisible(rec); statusbars_add_visible(rec); } } static void statusbar_item_def_destroy(void *key, void *value) { g_free(key); g_free(value); } static void statusbar_signal_item_destroy(void *key, GSList *value) { while (value != NULL) { statusbar_signal_remove(GPOINTER_TO_INT(value->data)); value->data = g_slist_remove(value, value->data); } } static void statusbar_item_signal_destroy(void *key, GSList *value) { g_slist_free(value); } static void sig_setup_reload(void) { /* statusbar-config.c recreates root statusbars, we need to create window-statusbars */ g_slist_foreach(mainwindows, (GFunc) statusbars_add_visible, NULL); } void statusbar_init(void) { statusbar_groups = NULL; active_statusbar_group = NULL; sbar_item_defs = g_hash_table_new((GHashFunc) g_str_hash, (GCompareFunc) g_str_equal); sbar_item_funcs = g_hash_table_new((GHashFunc) g_str_hash, (GCompareFunc) g_str_equal); sbar_signal_items = g_hash_table_new((GHashFunc) g_direct_hash, (GCompareFunc) g_direct_equal); sbar_item_signals = g_hash_table_new((GHashFunc) g_direct_hash, (GCompareFunc) g_direct_equal); named_sbar_items = g_hash_table_new((GHashFunc) g_str_hash, (GCompareFunc) g_str_equal); signal_add("terminal resized", (SIGNAL_FUNC) sig_terminal_resized); signal_add("mainwindow resized", (SIGNAL_FUNC) sig_mainwindow_resized); signal_add("mainwindow moved", (SIGNAL_FUNC) sig_mainwindow_resized); signal_add("window changed", (SIGNAL_FUNC) sig_window_changed); signal_add("mainwindow destroyed", (SIGNAL_FUNC) sig_mainwindow_destroyed); signal_add_last("setup reread", (SIGNAL_FUNC) sig_setup_reload); statusbar_items_init(); statusbar_config_init(); /* signals need to be before this call */ } void statusbar_deinit(void) { while (statusbar_groups != NULL) statusbar_group_destroy(statusbar_groups->data); g_hash_table_foreach(sbar_item_defs, (GHFunc) statusbar_item_def_destroy, NULL); g_hash_table_destroy(sbar_item_defs); g_hash_table_foreach(sbar_item_funcs, (GHFunc) g_free, NULL); g_hash_table_destroy(sbar_item_funcs); g_hash_table_foreach(sbar_signal_items, (GHFunc) statusbar_signal_item_destroy, NULL); g_hash_table_destroy(sbar_signal_items); g_hash_table_foreach(sbar_item_signals, (GHFunc) statusbar_item_signal_destroy, NULL); g_hash_table_destroy(sbar_item_signals); g_hash_table_destroy(named_sbar_items); signal_remove("terminal resized", (SIGNAL_FUNC) sig_terminal_resized); signal_remove("mainwindow resized", (SIGNAL_FUNC) sig_mainwindow_resized); signal_remove("mainwindow moved", (SIGNAL_FUNC) sig_mainwindow_resized); signal_remove("window changed", (SIGNAL_FUNC) sig_window_changed); signal_remove("mainwindow destroyed", (SIGNAL_FUNC) sig_mainwindow_destroyed); signal_remove("setup reread", (SIGNAL_FUNC) sig_setup_reload); statusbar_items_deinit(); statusbar_config_deinit(); }