gri3-wm/include/config_directives.h

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/*
* vim:ts=4:sw=4:expandtab
*
* i3 - an improved dynamic tiling window manager
* © 2009 Michael Stapelberg and contributors (see also: LICENSE)
*
* config_directives.h: all config storing functions (see config_parser.c)
*
*/
#pragma once
#include <config.h>
#include "config_parser.h"
/**
Use libxkbcommon for translating keysyms, support all XKB groups. fixes #1835 This commit improves the translation of keysyms to keycodes by loading keymaps using libxkbcommon-x11 and using libxkbcommon for figuring out the keymap, depending on each keybinding’s modifiers. This way, the upper layers of complex layouts are now usable with i3’s bindsym directive, such as de_neo’s layer 3 and higher. Furthermore, the commit generalizes the handling of different XKB groups. We formerly had support only for two separate groups, the default group 1, and group 2. While Mode_switch is only one way to switch to group 2, we called the binding option Mode_switch. With this commit, the new names Group1, Group2 (an alias for Mode_switch), Group3 and Group4 are introduced for configuring bindings. This is only useful for advanced keyboard layouts, such as people loading two keyboard layouts and switching between them (us, ru seems to be a popular combination). When grabbing keys, one can only specify the modifier mask, but not an XKB state mask (or value), so we still dynamically unbind and re-bind keys whenever the XKB group changes. The commit was manually tested using the following i3 config: bindsym Group4+n nop heya from group 4 bindsym Group3+n nop heya from group 3 bindsym Group2+n nop heya from group 2 bindsym n nop heya bindsym shift+N nop explicit shift binding bindsym shift+r nop implicit shift binding bindcode Group2+38 nop fallback overwritten in group 2 only bindcode 38 nop fallback …with the following layout: setxkbmap -layout "us,ua,ru,de" -variant ",winkeys,,neo" \ -option "grp:shift_caps_toggle,grp_led:scroll" \ -model pc104 -rules evdev By default (xkb group 1, us layout), pressing “n” will result in the “heya” message appearing. Pressing “a” will result in the “fallback” message appearing. “j” is not triggered. By pressing Shift+CapsLock you switch to the next group (xkb group 2, ua layout). Pressing “a” will result in the “fallback overwritten in group 2 only” message, pressing “n” will still result in “heya”. “j” is not triggered. In the next group (xkb group 3, ru layout), pressing “a” will result in the “fallback” message again, pressing “n” will result in “heya”, “j” is not triggered. In the last group (xkb group 4, de_neo layout), pressing “a” will still result in “fallback”, pressing “n” will result in “heya”, pressing “j” will result in “heya from group 4”. Pressing shift+n results in “explicit shift binding”, pressing shift+r results in “implicit shift binding”. This ensures that keysym translation falls back to looking at non-shift keys (“r” can be used instead of ”R”) and that the order of keybindings doesn’t play a role (“bindsym n” does not override “bindsym shift+n”, even though it’s specified earlier in the config). The fallback behavior ensures use-cases such as ticket #1775 are still covered. Only binding keys when the X server is in the corresponding XKB group ensures use-cases such as ticket #585 are still covered.
2015-08-23 22:49:32 +02:00
* A utility function to convert a string containing the group and modifiers to
* the corresponding bit mask.
*/
Use libxkbcommon for translating keysyms, support all XKB groups. fixes #1835 This commit improves the translation of keysyms to keycodes by loading keymaps using libxkbcommon-x11 and using libxkbcommon for figuring out the keymap, depending on each keybinding’s modifiers. This way, the upper layers of complex layouts are now usable with i3’s bindsym directive, such as de_neo’s layer 3 and higher. Furthermore, the commit generalizes the handling of different XKB groups. We formerly had support only for two separate groups, the default group 1, and group 2. While Mode_switch is only one way to switch to group 2, we called the binding option Mode_switch. With this commit, the new names Group1, Group2 (an alias for Mode_switch), Group3 and Group4 are introduced for configuring bindings. This is only useful for advanced keyboard layouts, such as people loading two keyboard layouts and switching between them (us, ru seems to be a popular combination). When grabbing keys, one can only specify the modifier mask, but not an XKB state mask (or value), so we still dynamically unbind and re-bind keys whenever the XKB group changes. The commit was manually tested using the following i3 config: bindsym Group4+n nop heya from group 4 bindsym Group3+n nop heya from group 3 bindsym Group2+n nop heya from group 2 bindsym n nop heya bindsym shift+N nop explicit shift binding bindsym shift+r nop implicit shift binding bindcode Group2+38 nop fallback overwritten in group 2 only bindcode 38 nop fallback …with the following layout: setxkbmap -layout "us,ua,ru,de" -variant ",winkeys,,neo" \ -option "grp:shift_caps_toggle,grp_led:scroll" \ -model pc104 -rules evdev By default (xkb group 1, us layout), pressing “n” will result in the “heya” message appearing. Pressing “a” will result in the “fallback” message appearing. “j” is not triggered. By pressing Shift+CapsLock you switch to the next group (xkb group 2, ua layout). Pressing “a” will result in the “fallback overwritten in group 2 only” message, pressing “n” will still result in “heya”. “j” is not triggered. In the next group (xkb group 3, ru layout), pressing “a” will result in the “fallback” message again, pressing “n” will result in “heya”, “j” is not triggered. In the last group (xkb group 4, de_neo layout), pressing “a” will still result in “fallback”, pressing “n” will result in “heya”, pressing “j” will result in “heya from group 4”. Pressing shift+n results in “explicit shift binding”, pressing shift+r results in “implicit shift binding”. This ensures that keysym translation falls back to looking at non-shift keys (“r” can be used instead of ”R”) and that the order of keybindings doesn’t play a role (“bindsym n” does not override “bindsym shift+n”, even though it’s specified earlier in the config). The fallback behavior ensures use-cases such as ticket #1775 are still covered. Only binding keys when the X server is in the corresponding XKB group ensures use-cases such as ticket #585 are still covered.
2015-08-23 22:49:32 +02:00
i3_event_state_mask_t event_state_from_str(const char *str);
/** The beginning of the prototype for every cfg_ function. */
#define I3_CFG Match *current_match, struct ConfigResultIR *result
/* Defines a configuration function, that is, anything that can be called by
* using 'call cfg_foo()' in parser-specs/.*.spec. Useful so that we dont need
* to repeat the definition all the time. */
#define CFGFUN(name, ...) \
void cfg_##name(I3_CFG, ##__VA_ARGS__)
/* The following functions are called by the config parser, see
* parser-specs/config.spec. They get the parsed parameters and store them in
* our data structures, e.g. cfg_font gets a font name and stores it in
* config.font.
*
* Since they are so similar, individual comments were omitted. */
CFGFUN(criteria_init, int _state);
CFGFUN(criteria_add, const char *ctype, const char *cvalue);
CFGFUN(criteria_pop_state);
CFGFUN(font, const char *font);
CFGFUN(exec, const char *exectype, const char *no_startup_id, const char *command);
CFGFUN(for_window, const char *command);
CFGFUN(floating_minimum_size, const long width, const long height);
CFGFUN(floating_maximum_size, const long width, const long height);
CFGFUN(default_orientation, const char *orientation);
CFGFUN(workspace_layout, const char *layout);
CFGFUN(workspace_back_and_forth, const char *value);
CFGFUN(focus_follows_mouse, const char *value);
CFGFUN(mouse_warping, const char *value);
CFGFUN(focus_wrapping, const char *value);
CFGFUN(force_focus_wrapping, const char *value);
CFGFUN(force_xinerama, const char *value);
CFGFUN(disable_randr15, const char *value);
CFGFUN(fake_outputs, const char *outputs);
CFGFUN(force_display_urgency_hint, const long duration_ms);
CFGFUN(focus_on_window_activation, const char *mode);
CFGFUN(title_align, const char *alignment);
CFGFUN(show_marks, const char *value);
CFGFUN(hide_edge_borders, const char *borders);
CFGFUN(assign_output, const char *output);
CFGFUN(assign, const char *workspace, bool is_number);
CFGFUN(no_focus);
CFGFUN(ipc_socket, const char *path);
CFGFUN(ipc_kill_timeout, const long timeout_ms);
CFGFUN(restart_state, const char *path);
CFGFUN(popup_during_fullscreen, const char *value);
CFGFUN(color, const char *colorclass, const char *border, const char *background, const char *text, const char *indicator, const char *child_border);
CFGFUN(color_single, const char *colorclass, const char *color);
CFGFUN(floating_modifier, const char *modifiers);
CFGFUN(default_border, const char *windowtype, const char *border, const long width);
CFGFUN(workspace, const char *workspace, const char *output);
CFGFUN(binding, const char *bindtype, const char *modifiers, const char *key, const char *release, const char *border, const char *whole_window, const char *exclude_titlebar, const char *command);
CFGFUN(enter_mode, const char *pango_markup, const char *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 *exclude_titlebar, const char *command);
CFGFUN(bar_font, const char *font);
CFGFUN(bar_separator_symbol, const char *separator);
CFGFUN(bar_mode, const char *mode);
introduced i3 command for changing the hidden state and the mode of i3bar The hidden_state and mode of each i3bar instance can now be controlled from within i3. Therefore, two new i3 command were introduced: _ bar hidden_state show|hide|toggle [<bar_id>] show: always show the bar hide: normal hide mode toggle: toggle between show and hide (individually for each bar) _ bar mode dock|hide|invisible|toggle [<bar_id>] hide,dock: like before invisible: always keep the bar hidden toggle: toggle between dock and hide (individually for each bar) This patch introduces a hidden_state ("hidden_state hide|show") in the barconfig, which indicates the current hidden_state of each i3bar instance. It only affects the bar when in hide mode. Additionally, a new invisible mode was introduced. In order to change the hidden_state or mode of the bar from i3, a barconfig-update event was introduced, for which a bar can subscribe and the bar then gets notified about the currently set hidden_state and mode in its barconfig. For convenience, an id field ("id <bar_id>") was added to the barconfig, where one can set the desired id for the corresponding bar. If the id is not specified, i3 will deterministically choose an id; otherwise, with the previous random approach for finding a new id, which is actually not shared with i3bar, as it would determine its id on startup, the event-subscription would be destroyed on reload. Still, this issue remains when manually changing the bar_id in the config and then reloading. fixes #833, #651
2013-05-25 14:30:00 +02:00
CFGFUN(bar_hidden_state, const char *hidden_state);
CFGFUN(bar_id, const char *bar_id);
CFGFUN(bar_output, const char *output);
CFGFUN(bar_verbose, const char *verbose);
CFGFUN(bar_modifier, const char *modifiers);
CFGFUN(bar_wheel_up_cmd, const char *command);
CFGFUN(bar_wheel_down_cmd, const char *command);
CFGFUN(bar_bindsym, const char *button, const char *release, const char *command);
CFGFUN(bar_position, const char *position);
CFGFUN(bar_i3bar_command, const char *i3bar_command);
CFGFUN(bar_color, const char *colorclass, const char *border, const char *background, const char *text);
CFGFUN(bar_socket_path, const char *socket_path);
CFGFUN(bar_tray_output, const char *output);
2015-06-09 10:06:45 +02:00
CFGFUN(bar_tray_padding, const long spacing_px);
CFGFUN(bar_color_single, const char *colorclass, const char *color);
CFGFUN(bar_status_command, const char *command);
CFGFUN(bar_binding_mode_indicator, const char *value);
CFGFUN(bar_workspace_buttons, const char *value);
CFGFUN(bar_strip_workspace_numbers, const char *value);
CFGFUN(bar_strip_workspace_name, const char *value);
CFGFUN(bar_start);
CFGFUN(bar_finish);