#undef I3__FILE__ #define I3__FILE__ "config_directives.c" /* * vim:ts=4:sw=4:expandtab * * i3 - an improved dynamic tiling window manager * © 2009 Michael Stapelberg and contributors (see also: LICENSE) * * config_directives.c: all config storing functions (see config_parser.c) * */ #include #include #include "all.h" /******************************************************************************* * Criteria functions. ******************************************************************************/ static int criteria_next_state; /* * Initializes the specified 'Match' data structure and the initial state of * commands.c for matching target windows of a command. * */ CFGFUN(criteria_init, int _state) { criteria_next_state = _state; DLOG("Initializing criteria, current_match = %p, state = %d\n", current_match, _state); match_init(current_match); } CFGFUN(criteria_pop_state) { result->next_state = criteria_next_state; } /* * Interprets a ctype=cvalue pair and adds it to the current match * specification. * */ CFGFUN(criteria_add, const char *ctype, const char *cvalue) { DLOG("ctype=*%s*, cvalue=*%s*\n", ctype, cvalue); if (strcmp(ctype, "class") == 0) { current_match->class = regex_new(cvalue); return; } if (strcmp(ctype, "instance") == 0) { current_match->instance = regex_new(cvalue); return; } if (strcmp(ctype, "window_role") == 0) { current_match->window_role = regex_new(cvalue); return; } if (strcmp(ctype, "con_id") == 0) { char *end; long parsed = strtol(cvalue, &end, 10); if (parsed == LONG_MIN || parsed == LONG_MAX || parsed < 0 || (end && *end != '\0')) { ELOG("Could not parse con id \"%s\"\n", cvalue); } else { current_match->con_id = (Con *)parsed; DLOG("id as int = %p\n", current_match->con_id); } return; } if (strcmp(ctype, "id") == 0) { char *end; long parsed = strtol(cvalue, &end, 10); if (parsed == LONG_MIN || parsed == LONG_MAX || parsed < 0 || (end && *end != '\0')) { ELOG("Could not parse window id \"%s\"\n", cvalue); } else { current_match->id = parsed; DLOG("window id as int = %d\n", current_match->id); } return; } if (strcmp(ctype, "window_type") == 0) { if (strcasecmp(cvalue, "normal") == 0) current_match->window_type = A__NET_WM_WINDOW_TYPE_NORMAL; else if (strcasecmp(cvalue, "dialog") == 0) current_match->window_type = A__NET_WM_WINDOW_TYPE_DIALOG; else if (strcasecmp(cvalue, "utility") == 0) current_match->window_type = A__NET_WM_WINDOW_TYPE_UTILITY; else if (strcasecmp(cvalue, "toolbar") == 0) current_match->window_type = A__NET_WM_WINDOW_TYPE_TOOLBAR; else if (strcasecmp(cvalue, "splash") == 0) current_match->window_type = A__NET_WM_WINDOW_TYPE_SPLASH; else if (strcasecmp(cvalue, "menu") == 0) current_match->window_type = A__NET_WM_WINDOW_TYPE_MENU; else if (strcasecmp(cvalue, "dropdown_menu") == 0) current_match->window_type = A__NET_WM_WINDOW_TYPE_DROPDOWN_MENU; else if (strcasecmp(cvalue, "popup_menu") == 0) current_match->window_type = A__NET_WM_WINDOW_TYPE_POPUP_MENU; else if (strcasecmp(cvalue, "tooltip") == 0) current_match->window_type = A__NET_WM_WINDOW_TYPE_TOOLTIP; else ELOG("unknown window_type value \"%s\"\n", cvalue); return; } if (strcmp(ctype, "con_mark") == 0) { current_match->mark = regex_new(cvalue); return; } if (strcmp(ctype, "title") == 0) { current_match->title = regex_new(cvalue); return; } if (strcmp(ctype, "urgent") == 0) { if (strcasecmp(cvalue, "latest") == 0 || strcasecmp(cvalue, "newest") == 0 || strcasecmp(cvalue, "recent") == 0 || strcasecmp(cvalue, "last") == 0) { current_match->urgent = U_LATEST; } else if (strcasecmp(cvalue, "oldest") == 0 || strcasecmp(cvalue, "first") == 0) { current_match->urgent = U_OLDEST; } return; } if (strcmp(ctype, "workspace") == 0) { current_match->workspace = regex_new(cvalue); return; } ELOG("Unknown criterion: %s\n", ctype); } /* TODO: refactor the above criteria code into a single file (with src/commands.c). */ /******************************************************************************* * Utility functions ******************************************************************************/ static bool eval_boolstr(const char *str) { return (strcasecmp(str, "1") == 0 || strcasecmp(str, "yes") == 0 || strcasecmp(str, "true") == 0 || strcasecmp(str, "on") == 0 || strcasecmp(str, "enable") == 0 || strcasecmp(str, "active") == 0); } /* * A utility function to convert a string containing the group and modifiers to * the corresponding bit mask. */ i3_event_state_mask_t event_state_from_str(const char *str) { /* It might be better to use strtok() here, but the simpler strstr() should * do for now. */ i3_event_state_mask_t result = 0; if (str == NULL) return result; if (strstr(str, "Mod1") != NULL) result |= XCB_KEY_BUT_MASK_MOD_1; if (strstr(str, "Mod2") != NULL) result |= XCB_KEY_BUT_MASK_MOD_2; if (strstr(str, "Mod3") != NULL) result |= XCB_KEY_BUT_MASK_MOD_3; if (strstr(str, "Mod4") != NULL) result |= XCB_KEY_BUT_MASK_MOD_4; if (strstr(str, "Mod5") != NULL) result |= XCB_KEY_BUT_MASK_MOD_5; if (strstr(str, "Control") != NULL || strstr(str, "Ctrl") != NULL) result |= XCB_KEY_BUT_MASK_CONTROL; if (strstr(str, "Shift") != NULL) result |= XCB_KEY_BUT_MASK_SHIFT; if (strstr(str, "Group1") != NULL) result |= (I3_XKB_GROUP_MASK_1 << 16); if (strstr(str, "Group2") != NULL || strstr(str, "Mode_switch") != NULL) result |= (I3_XKB_GROUP_MASK_2 << 16); if (strstr(str, "Group3") != NULL) result |= (I3_XKB_GROUP_MASK_3 << 16); if (strstr(str, "Group4") != NULL) result |= (I3_XKB_GROUP_MASK_4 << 16); return result; } static char *font_pattern; CFGFUN(font, const char *font) { config.font = load_font(font, true); set_font(&config.font); /* Save the font pattern for using it as bar font later on */ FREE(font_pattern); font_pattern = sstrdup(font); } CFGFUN(binding, const char *bindtype, const char *modifiers, const char *key, const char *release, const char *border, const char *whole_window, const char *command) { configure_binding(bindtype, modifiers, key, release, border, whole_window, command, DEFAULT_BINDING_MODE); } /******************************************************************************* * Mode handling ******************************************************************************/ static char *current_mode; CFGFUN(mode_binding, const char *bindtype, const char *modifiers, const char *key, const char *release, const char *border, const char *whole_window, const char *command) { configure_binding(bindtype, modifiers, key, release, border, whole_window, command, current_mode); } CFGFUN(enter_mode, const char *modename) { if (strcasecmp(modename, DEFAULT_BINDING_MODE) == 0) { ELOG("You cannot use the name %s for your mode\n", DEFAULT_BINDING_MODE); exit(1); } DLOG("\t now in mode %s\n", modename); FREE(current_mode); current_mode = sstrdup(modename); } CFGFUN(exec, const char *exectype, const char *no_startup_id, const char *command) { struct Autostart *new = smalloc(sizeof(struct Autostart)); new->command = sstrdup(command); new->no_startup_id = (no_startup_id != NULL); if (strcmp(exectype, "exec") == 0) { TAILQ_INSERT_TAIL(&autostarts, new, autostarts); } else { TAILQ_INSERT_TAIL(&autostarts_always, new, autostarts_always); } } CFGFUN(for_window, const char *command) { if (match_is_empty(current_match)) { ELOG("Match is empty, ignoring this for_window statement\n"); return; } DLOG("\t should execute command %s for the criteria mentioned above\n", command); Assignment *assignment = scalloc(1, sizeof(Assignment)); assignment->type = A_COMMAND; match_copy(&(assignment->match), current_match); assignment->dest.command = sstrdup(command); TAILQ_INSERT_TAIL(&assignments, assignment, assignments); } CFGFUN(floating_minimum_size, const long width, const long height) { config.floating_minimum_width = width; config.floating_minimum_height = height; } CFGFUN(floating_maximum_size, const long width, const long height) { config.floating_maximum_width = width; config.floating_maximum_height = height; } CFGFUN(floating_modifier, const char *modifiers) { config.floating_modifier = event_state_from_str(modifiers); } CFGFUN(default_orientation, const char *orientation) { if (strcmp(orientation, "horizontal") == 0) config.default_orientation = HORIZ; else if (strcmp(orientation, "vertical") == 0) config.default_orientation = VERT; else config.default_orientation = NO_ORIENTATION; } CFGFUN(workspace_layout, const char *layout) { if (strcmp(layout, "default") == 0) config.default_layout = L_DEFAULT; else if (strcmp(layout, "stacking") == 0 || strcmp(layout, "stacked") == 0) config.default_layout = L_STACKED; else config.default_layout = L_TABBED; } CFGFUN(new_window, const char *windowtype, const char *border, const long width) { int border_style; int border_width; if (strcmp(border, "1pixel") == 0) { border_style = BS_PIXEL; border_width = 1; } else if (strcmp(border, "none") == 0) { border_style = BS_NONE; border_width = 0; } else if (strcmp(border, "pixel") == 0) { border_style = BS_PIXEL; border_width = width; } else { border_style = BS_NORMAL; border_width = width; } if (strcmp(windowtype, "new_window") == 0) { DLOG("default tiled border style = %d and border width = %d (%d physical px)\n", border_style, border_width, logical_px(border_width)); config.default_border = border_style; config.default_border_width = logical_px(border_width); } else { DLOG("default floating border style = %d and border width = %d (%d physical px)\n", border_style, border_width, logical_px(border_width)); config.default_floating_border = border_style; config.default_floating_border_width = logical_px(border_width); } } CFGFUN(hide_edge_borders, const char *borders) { if (strcmp(borders, "vertical") == 0) config.hide_edge_borders = ADJ_LEFT_SCREEN_EDGE | ADJ_RIGHT_SCREEN_EDGE; else if (strcmp(borders, "horizontal") == 0) config.hide_edge_borders = ADJ_UPPER_SCREEN_EDGE | ADJ_LOWER_SCREEN_EDGE; else if (strcmp(borders, "both") == 0) config.hide_edge_borders = ADJ_LEFT_SCREEN_EDGE | ADJ_RIGHT_SCREEN_EDGE | ADJ_UPPER_SCREEN_EDGE | ADJ_LOWER_SCREEN_EDGE; else if (strcmp(borders, "none") == 0) config.hide_edge_borders = ADJ_NONE; else if (eval_boolstr(borders)) config.hide_edge_borders = ADJ_LEFT_SCREEN_EDGE | ADJ_RIGHT_SCREEN_EDGE; else config.hide_edge_borders = ADJ_NONE; } CFGFUN(focus_follows_mouse, const char *value) { config.disable_focus_follows_mouse = !eval_boolstr(value); } CFGFUN(mouse_warping, const char *value) { if (strcmp(value, "none") == 0) config.mouse_warping = POINTER_WARPING_NONE; else if (strcmp(value, "output") == 0) config.mouse_warping = POINTER_WARPING_OUTPUT; } CFGFUN(force_xinerama, const char *value) { config.force_xinerama = eval_boolstr(value); } CFGFUN(force_focus_wrapping, const char *value) { config.force_focus_wrapping = eval_boolstr(value); } CFGFUN(workspace_back_and_forth, const char *value) { config.workspace_auto_back_and_forth = eval_boolstr(value); } CFGFUN(fake_outputs, const char *outputs) { config.fake_outputs = sstrdup(outputs); } CFGFUN(force_display_urgency_hint, const long duration_ms) { config.workspace_urgency_timer = duration_ms / 1000.0; } CFGFUN(focus_on_window_activation, const char *mode) { if (strcmp(mode, "smart") == 0) config.focus_on_window_activation = FOWA_SMART; else if (strcmp(mode, "urgent") == 0) config.focus_on_window_activation = FOWA_URGENT; else if (strcmp(mode, "focus") == 0) config.focus_on_window_activation = FOWA_FOCUS; else if (strcmp(mode, "none") == 0) config.focus_on_window_activation = FOWA_NONE; else { ELOG("Unknown focus_on_window_activation mode \"%s\", ignoring it.\n", mode); return; } DLOG("Set new focus_on_window_activation mode = %i.\n", config.focus_on_window_activation); } CFGFUN(show_marks, const char *value) { config.show_marks = eval_boolstr(value); } CFGFUN(workspace, const char *workspace, const char *output) { DLOG("Assigning workspace \"%s\" to output \"%s\"\n", workspace, output); /* Check for earlier assignments of the same workspace so that we * don’t have assignments of a single workspace to different * outputs */ struct Workspace_Assignment *assignment; bool duplicate = false; TAILQ_FOREACH(assignment, &ws_assignments, ws_assignments) { if (strcasecmp(assignment->name, workspace) == 0) { ELOG("You have a duplicate workspace assignment for workspace \"%s\"\n", workspace); assignment->output = sstrdup(output); duplicate = true; } } if (!duplicate) { assignment = scalloc(1, sizeof(struct Workspace_Assignment)); assignment->name = sstrdup(workspace); assignment->output = sstrdup(output); TAILQ_INSERT_TAIL(&ws_assignments, assignment, ws_assignments); } } CFGFUN(ipc_socket, const char *path) { config.ipc_socket_path = sstrdup(path); } CFGFUN(restart_state, const char *path) { config.restart_state_path = sstrdup(path); } CFGFUN(popup_during_fullscreen, const char *value) { if (strcmp(value, "ignore") == 0) { config.popup_during_fullscreen = PDF_IGNORE; } else if (strcmp(value, "leave_fullscreen") == 0) { config.popup_during_fullscreen = PDF_LEAVE_FULLSCREEN; } else { config.popup_during_fullscreen = PDF_SMART; } } CFGFUN(color_single, const char *colorclass, const char *color) { /* used for client.background only currently */ config.client.background = get_colorpixel(color); } CFGFUN(color, const char *colorclass, const char *border, const char *background, const char *text, const char *indicator) { #define APPLY_COLORS(classname) \ do { \ if (strcmp(colorclass, "client." #classname) == 0) { \ config.client.classname.border = get_colorpixel(border); \ config.client.classname.background = get_colorpixel(background); \ config.client.classname.text = get_colorpixel(text); \ if (indicator != NULL) { \ config.client.classname.indicator = get_colorpixel(indicator); \ } \ } \ } while (0) APPLY_COLORS(focused_inactive); APPLY_COLORS(focused); APPLY_COLORS(unfocused); APPLY_COLORS(urgent); APPLY_COLORS(placeholder); #undef APPLY_COLORS } CFGFUN(assign, const char *workspace) { if (match_is_empty(current_match)) { ELOG("Match is empty, ignoring this assignment\n"); return; } DLOG("New assignment, using above criteria, to workspace \"%s\".\n", workspace); Assignment *assignment = scalloc(1, sizeof(Assignment)); match_copy(&(assignment->match), current_match); assignment->type = A_TO_WORKSPACE; assignment->dest.workspace = sstrdup(workspace); TAILQ_INSERT_TAIL(&assignments, assignment, assignments); } CFGFUN(no_focus) { if (match_is_empty(current_match)) { ELOG("Match is empty, ignoring this assignment\n"); return; } DLOG("New assignment, using above criteria, to ignore focus on manage.\n"); Assignment *assignment = scalloc(1, sizeof(Assignment)); match_copy(&(assignment->match), current_match); assignment->type = A_NO_FOCUS; TAILQ_INSERT_TAIL(&assignments, assignment, assignments); } /******************************************************************************* * Bar configuration (i3bar) ******************************************************************************/ static Barconfig current_bar; CFGFUN(bar_font, const char *font) { FREE(current_bar.font); current_bar.font = sstrdup(font); } CFGFUN(bar_separator_symbol, const char *separator) { FREE(current_bar.separator_symbol); current_bar.separator_symbol = sstrdup(separator); } CFGFUN(bar_mode, const char *mode) { current_bar.mode = (strcmp(mode, "dock") == 0 ? M_DOCK : (strcmp(mode, "hide") == 0 ? M_HIDE : M_INVISIBLE)); } CFGFUN(bar_hidden_state, const char *hidden_state) { current_bar.hidden_state = (strcmp(hidden_state, "hide") == 0 ? S_HIDE : S_SHOW); } CFGFUN(bar_id, const char *bar_id) { current_bar.id = sstrdup(bar_id); } CFGFUN(bar_output, const char *output) { int new_outputs = current_bar.num_outputs + 1; current_bar.outputs = srealloc(current_bar.outputs, sizeof(char *) * new_outputs); current_bar.outputs[current_bar.num_outputs] = sstrdup(output); current_bar.num_outputs = new_outputs; } CFGFUN(bar_verbose, const char *verbose) { current_bar.verbose = eval_boolstr(verbose); } CFGFUN(bar_modifier, const char *modifier) { if (strcmp(modifier, "Mod1") == 0) current_bar.modifier = M_MOD1; else if (strcmp(modifier, "Mod2") == 0) current_bar.modifier = M_MOD2; else if (strcmp(modifier, "Mod3") == 0) current_bar.modifier = M_MOD3; else if (strcmp(modifier, "Mod4") == 0) current_bar.modifier = M_MOD4; else if (strcmp(modifier, "Mod5") == 0) current_bar.modifier = M_MOD5; else if (strcmp(modifier, "Control") == 0 || strcmp(modifier, "Ctrl") == 0) current_bar.modifier = M_CONTROL; else if (strcmp(modifier, "Shift") == 0) current_bar.modifier = M_SHIFT; } static void bar_configure_binding(const char *button, const char *command) { if (strncasecmp(button, "button", strlen("button")) != 0) { ELOG("Bindings for a bar can only be mouse bindings, not \"%s\", ignoring.\n", button); return; } int input_code = atoi(button + strlen("button")); if (input_code < 1) { ELOG("Button \"%s\" does not seem to be in format 'buttonX'.\n", button); return; } struct Barbinding *current; TAILQ_FOREACH(current, &(current_bar.bar_bindings), bindings) { if (current->input_code == input_code) { ELOG("command for button %s was already specified, ignoring.\n", button); return; } } struct Barbinding *new_binding = scalloc(1, sizeof(struct Barbinding)); new_binding->input_code = input_code; new_binding->command = sstrdup(command); TAILQ_INSERT_TAIL(&(current_bar.bar_bindings), new_binding, bindings); } CFGFUN(bar_wheel_up_cmd, const char *command) { ELOG("'wheel_up_cmd' is deprecated. Please us 'bindsym button4 %s' instead.\n", command); bar_configure_binding("button4", command); } CFGFUN(bar_wheel_down_cmd, const char *command) { ELOG("'wheel_down_cmd' is deprecated. Please us 'bindsym button5 %s' instead.\n", command); bar_configure_binding("button5", command); } CFGFUN(bar_bindsym, const char *button, const char *command) { bar_configure_binding(button, command); } CFGFUN(bar_position, const char *position) { current_bar.position = (strcmp(position, "top") == 0 ? P_TOP : P_BOTTOM); } CFGFUN(bar_i3bar_command, const char *i3bar_command) { FREE(current_bar.i3bar_command); current_bar.i3bar_command = sstrdup(i3bar_command); } CFGFUN(bar_color, const char *colorclass, const char *border, const char *background, const char *text) { #define APPLY_COLORS(classname) \ do { \ if (strcmp(colorclass, #classname) == 0) { \ if (text != NULL) { \ /* New syntax: border, background, text */ \ current_bar.colors.classname##_border = sstrdup(border); \ current_bar.colors.classname##_bg = sstrdup(background); \ current_bar.colors.classname##_text = sstrdup(text); \ } else { \ /* Old syntax: text, background */ \ current_bar.colors.classname##_bg = sstrdup(background); \ current_bar.colors.classname##_text = sstrdup(border); \ } \ } \ } while (0) APPLY_COLORS(focused_workspace); APPLY_COLORS(active_workspace); APPLY_COLORS(inactive_workspace); APPLY_COLORS(urgent_workspace); APPLY_COLORS(binding_mode); #undef APPLY_COLORS } CFGFUN(bar_socket_path, const char *socket_path) { FREE(current_bar.socket_path); current_bar.socket_path = sstrdup(socket_path); } CFGFUN(bar_tray_output, const char *output) { FREE(current_bar.tray_output); current_bar.tray_output = sstrdup(output); } CFGFUN(bar_tray_padding, const long padding_px) { current_bar.tray_padding = padding_px; } CFGFUN(bar_color_single, const char *colorclass, const char *color) { if (strcmp(colorclass, "background") == 0) current_bar.colors.background = sstrdup(color); else if (strcmp(colorclass, "separator") == 0) current_bar.colors.separator = sstrdup(color); else current_bar.colors.statusline = sstrdup(color); } CFGFUN(bar_status_command, const char *command) { FREE(current_bar.status_command); current_bar.status_command = sstrdup(command); } CFGFUN(bar_binding_mode_indicator, const char *value) { current_bar.hide_binding_mode_indicator = !eval_boolstr(value); } CFGFUN(bar_workspace_buttons, const char *value) { current_bar.hide_workspace_buttons = !eval_boolstr(value); } CFGFUN(bar_strip_workspace_numbers, const char *value) { current_bar.strip_workspace_numbers = eval_boolstr(value); } CFGFUN(bar_start) { TAILQ_INIT(&(current_bar.bar_bindings)); current_bar.tray_padding = 2; } CFGFUN(bar_finish) { DLOG("\t new bar configuration finished, saving.\n"); /* Generate a unique ID for this bar if not already configured */ if (!current_bar.id) sasprintf(¤t_bar.id, "bar-%d", config.number_barconfigs); config.number_barconfigs++; /* If no font was explicitly set, we use the i3 font as default */ if (!current_bar.font && font_pattern) current_bar.font = sstrdup(font_pattern); /* Copy the current (static) structure into a dynamically allocated * one, then cleanup our static one. */ Barconfig *bar_config = scalloc(1, sizeof(Barconfig)); memcpy(bar_config, ¤t_bar, sizeof(Barconfig)); TAILQ_INSERT_TAIL(&barconfigs, bar_config, configs); memset(¤t_bar, '\0', sizeof(Barconfig)); }